From 47d455dd55be855e4cc691c32f687f723d9247ee Mon Sep 17 00:00:00 2001 From: toma Date: Wed, 25 Nov 2009 17:56:58 +0000 Subject: Copy the KDE 3.5 branch to branches/trinity for new KDE 3.5 features. BUG:215923 git-svn-id: svn://anonsvn.kde.org/home/kde/branches/trinity/kdegraphics@1054174 283d02a7-25f6-0310-bc7c-ecb5cbfe19da --- kpdf/xpdf/Makefile.am | 1 + kpdf/xpdf/README.xpdf | 405 ++ kpdf/xpdf/aconf.h | 17 + kpdf/xpdf/fofi/FoFiBase.cc | 156 + kpdf/xpdf/fofi/FoFiBase.h | 57 + kpdf/xpdf/fofi/FoFiEncodings.cc | 994 +++++ kpdf/xpdf/fofi/FoFiEncodings.h | 36 + kpdf/xpdf/fofi/FoFiTrueType.cc | 2040 +++++++++++ kpdf/xpdf/fofi/FoFiTrueType.h | 175 + kpdf/xpdf/fofi/FoFiType1.cc | 252 ++ kpdf/xpdf/fofi/FoFiType1.h | 59 + kpdf/xpdf/fofi/FoFiType1C.cc | 2603 +++++++++++++ kpdf/xpdf/fofi/FoFiType1C.h | 233 ++ kpdf/xpdf/fofi/Makefile.am | 9 + kpdf/xpdf/goo/GHash.cc | 380 ++ kpdf/xpdf/goo/GHash.h | 78 + kpdf/xpdf/goo/GList.cc | 97 + kpdf/xpdf/goo/GList.h | 96 + kpdf/xpdf/goo/GMutex.h | 49 + kpdf/xpdf/goo/GString.cc | 718 ++++ kpdf/xpdf/goo/GString.h | 136 + kpdf/xpdf/goo/Makefile.am | 5 + kpdf/xpdf/goo/gfile.cc | 731 ++++ kpdf/xpdf/goo/gfile.h | 138 + kpdf/xpdf/goo/gmem.cc | 315 ++ 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kpdf/xpdf/xpdf/xpdf_config.h (limited to 'kpdf/xpdf') diff --git a/kpdf/xpdf/Makefile.am b/kpdf/xpdf/Makefile.am new file mode 100644 index 00000000..0474692c --- /dev/null +++ b/kpdf/xpdf/Makefile.am @@ -0,0 +1 @@ +SUBDIRS = fofi goo splash xpdf diff --git a/kpdf/xpdf/README.xpdf b/kpdf/xpdf/README.xpdf new file mode 100644 index 00000000..71fd62e3 --- /dev/null +++ b/kpdf/xpdf/README.xpdf @@ -0,0 +1,405 @@ +Xpdf +==== + +version 3.02 +2007-feb-27 + +The Xpdf software and documentation are +copyright 1996-2007 Glyph & Cog, LLC. + +Email: derekn@foolabs.com +WWW: http://www.foolabs.com/xpdf/ + +The PDF data structures, operators, and specification are +copyright 1985-2006 Adobe Systems Inc. + + +What is Xpdf? +------------- + +Xpdf is an open source viewer for Portable Document Format (PDF) +files. (These are also sometimes also called 'Acrobat' files, from +the name of Adobe's PDF software.) The Xpdf project also includes a +PDF text extractor, PDF-to-PostScript converter, and various other +utilities. + +Xpdf runs under the X Window System on UNIX, VMS, and OS/2. The non-X +components (pdftops, pdftotext, etc.) also run on Win32 systems and +should run on pretty much any system with a decent C++ compiler. + +Xpdf is designed to be small and efficient. It can use Type 1 or +TrueType fonts. + + +Distribution +------------ + +Xpdf is licensed under the GNU General Public License (GPL), version +2. In my opinion, the GPL is a convoluted, confusing, ambiguous mess. +But it's also pervasive, and I'm sick of arguing. And even if it is +confusing, the basic idea is good. + +In order to cut down on the confusion a little bit, here are some +informal clarifications: + +- I don't mind if you redistribute Xpdf in source and/or binary form, + as long as you include all of the documentation: README, man pages + (or help files), and COPYING. (Note that the README file contains a + pointer to a web page with the source code.) + +- Selling a CD-ROM that contains Xpdf is fine with me, as long as it + includes the documentation. I wouldn't mind receiving a sample + copy, but it's not necessary. + +- If you make useful changes to Xpdf, please make the source code + available -- post it on a web site, email it to me, whatever. + +If you're interested in commercial licensing, please see the Glyph & +Cog web site: + + http://www.glyphandcog.com/ + + +Compatibility +------------- + +Xpdf is developed and tested on a Linux 2.4 x86 system. + +In addition, it has been compiled by others on Solaris, AIX, HP-UX, +Digital Unix, Irix, and numerous other Unix implementations, as well +as VMS and OS/2. It should work on pretty much any system which runs +X11 and has Unix-like libraries. You'll need ANSI C++ and C compilers +to compile it. + +The non-X components of Xpdf (pdftops, pdftotext, pdfinfo, pdffonts, +pdftoppm, and pdfimages) can also be compiled on Win32 systems. See +the Xpdf web page for details. + +If you compile Xpdf for a system not listed on the web page, please +let me know. If you're willing to make your binary available by ftp +or on the web, I'll be happy to add a link from the Xpdf web page. I +have decided not to host any binaries I didn't compile myself (for +disk space and support reasons). + +If you can't get Xpdf to compile on your system, send me email and +I'll try to help. + +Xpdf has been ported to the Acorn, Amiga, BeOS, and EPOC. See the +Xpdf web page for links. + + +Getting Xpdf +------------ + +The latest version is available from: + + http://www.foolabs.com/xpdf/ + +or: + + ftp://ftp.foolabs.com/pub/xpdf/ + +Source code and several precompiled executables are available. + +Announcements of new versions are posted to several newsgroups +(comp.text.pdf, comp.os.linux.announce, and others) and emailed to a +list of people. If you'd like to receive email notification of new +versions, just let me know. + + +Running Xpdf +------------ + +To run xpdf, simply type: + + xpdf file.pdf + +To generate a PostScript file, hit the "print" button in xpdf, or run +pdftops: + + pdftops file.pdf + +To generate a plain text file, run pdftotext: + + pdftotext file.pdf + +There are four additional utilities (which are fully described in +their man pages): + + pdfinfo -- dumps a PDF file's Info dictionary (plus some other + useful information) + pdffonts -- lists the fonts used in a PDF file along with various + information for each font + pdftoppm -- converts a PDF file to a series of PPM/PGM/PBM-format + bitmaps + pdfimages -- extracts the images from a PDF file + +Command line options and many other details are described in the man +pages (xpdf.1, etc.) and the VMS help files (xpdf.hlp, etc.). + + +Upgrading from Xpdf 2.xx +------------------------ + +WARNING: Xpdf 3.00 switched to a new PDF rasterizer, which no longer +uses X fonts. You'll need a set of Base-14 fonts -- the URW fonts +distributed with ghostscript can be used for this. Xpdf will search +for the URW fonts, but if you have them installed in a non-standard +directory, you'll need to set up an xpdfrc config file to point to +them. For full details, please see the xpdfrc(5) man page. + + +Compiling Xpdf +-------------- + +See the separate file, INSTALL. + + +Bugs +---- + +If you find a bug in Xpdf, i.e., if it prints an error message, +crashes, or incorrectly displays a document, and you don't see that +bug listed here, please send me email, with a pointer (URL, ftp site, +etc.) to the PDF file. + + +Acknowledgments +--------------- + +Thanks to: + +* Patrick Voigt for help with the remote server code. +* Patrick Moreau, Martin P.J. Zinser, and David Mathog for the VMS + port. +* David Boldt and Rick Rodgers for sample man pages. +* Brendan Miller for the icon idea. +* Olly Betts for help testing pdftotext. +* Peter Ganten for the OS/2 port. +* Michael Richmond for the Win32 port of pdftops and pdftotext and the + xpdf/cygwin/XFree86 build instructions. +* Frank M. Siegert for improvements in the PostScript code. +* Leo Smiers for the decryption patches. +* Rainer Menzner for creating t1lib, and for helping me adapt it to + xpdf. +* Pine Tree Systems A/S for funding the OPI and EPS support in + pdftops. +* Easy Software Products for funding several improvements to the + PostScript output code. +* Tom Kacvinsky for help with FreeType and for being my interface to + the FreeType team. +* Theppitak Karoonboonyanan for help with Thai support. +* Leonard Rosenthol for help and contributions on a bunch of things. +* Alexandros Diamantidis and Maria Adaloglou for help with Greek + support. +* Lawrence Lai for help with the CJK Unicode maps. + +Various people have contributed modifications made for use by the +pdftex project: + +* Han The Thanh +* Martin Schröder of ArtCom GmbH + + +References +---------- + +Adobe Systems Inc., _PDF Reference, sixth edition: Adobe Portable +Document Format version 1.7_. +http://www.adobe.com/devnet/pdf/pdf_reference.html +[The manual for PDF version 1.7.] + +Adobe Systems Inc., "Errata for the PDF Reference, sixth edition, +version 1.7", October 16, 2006. +http://www.adobe.com/devnet/pdf/pdf_reference.html +[The errata for the PDF 1.7 spec.] + +Adobe Systems Inc., _PostScript Language Reference_, 3rd ed. +Addison-Wesley, 1999, ISBN 0-201-37922-8. +[The official PostScript manual.] + +Adobe Systems, Inc., _The Type 42 Font Format Specification_, +Adobe Developer Support Technical Specification #5012. 1998. +http://partners.adobe.com/asn/developer/pdfs/tn/5012.Type42_Spec.pdf +[Type 42 is the format used to embed TrueType fonts in PostScript +files.] + +Adobe Systems, Inc., _Adobe CMap and CIDFont Files Specification_, +Adobe Developer Support Technical Specification #5014. 1995. +http://www.adobe.com/supportservice/devrelations/PDFS/TN/5014.CIDFont_Spec.pdf +[CMap file format needed for Japanese and Chinese font support.] + +Adobe Systems, Inc., _Adobe-Japan1-4 Character Collection for +CID-Keyed Fonts_, Adobe Developer Support Technical Note #5078. +2000. +http://partners.adobe.com/asn/developer/PDFS/TN/5078.CID_Glyph.pdf +[The Adobe Japanese character set.] + +Adobe Systems, Inc., _Adobe-GB1-4 Character Collection for +CID-Keyed Fonts_, Adobe Developer Support Technical Note #5079. +2000. +http://partners.adobe.com/asn/developer/pdfs/tn/5079.Adobe-GB1-4.pdf +[The Adobe Chinese GB (simplified) character set.] + +Adobe Systems, Inc., _Adobe-CNS1-3 Character Collection for +CID-Keyed Fonts_, Adobe Developer Support Technical Note #5080. +2000. +http://partners.adobe.com/asn/developer/PDFS/TN/5080.CNS_CharColl.pdf +[The Adobe Chinese CNS (traditional) character set.] + +Adobe Systems Inc., _Supporting the DCT Filters in PostScript Level +2_, Adobe Developer Support Technical Note #5116. 1992. +http://www.adobe.com/supportservice/devrelations/PDFS/TN/5116.PS2_DCT.PDF +[Description of the DCTDecode filter parameters.] + +Adobe Systems Inc., _Open Prepress Interface (OPI) Specification - +Version 2.0_, Adobe Developer Support Technical Note #5660. 2000. +http://partners.adobe.com/asn/developer/PDFS/TN/5660.OPI_2.0.pdf + +Adobe Systems Inc., CMap files. +ftp://ftp.oreilly.com/pub/examples/nutshell/cjkv/adobe/ +[The actual CMap files for the 16-bit CJK encodings.] + +Adobe Systems Inc., Unicode glyph lists. +http://partners.adobe.com/asn/developer/type/unicodegn.html +http://partners.adobe.com/asn/developer/type/glyphlist.txt +http://partners.adobe.com/asn/developer/type/corporateuse.txt +http://partners.adobe.com/asn/developer/type/zapfdingbats.txt +[Mappings between character names to Unicode.] + +Adobe Systems Inc., OpenType Specification v. 1.4. +http://partners.adobe.com/public/developer/opentype/index_spec.html +[The OpenType font format spec.] + +Aldus Corp., _OPI: Open Prepress Interface Specification 1.3_. 1993. +http://partners.adobe.com/asn/developer/PDFS/TN/OPI_13.pdf + +Anonymous, RC4 source code. +ftp://ftp.ox.ac.uk/pub/crypto/misc/rc4.tar.gz +ftp://idea.sec.dsi.unimi.it/pub/crypt/code/rc4.tar.gz +[This is the algorithm used to encrypt PDF files.] + +T. Boutell, et al., "PNG (Portable Network Graphics) Specification, +Version 1.0". RFC 2083. +[PDF uses the PNG filter algorithms.] + +CCITT, "Information Technology - Digital Compression and Coding of +Continuous-tone Still Images - Requirements and Guidelines", CCITT +Recommendation T.81. +http://www.w3.org/Graphics/JPEG/ +[The official JPEG spec.] + +A. Chernov, "Registration of a Cyrillic Character Set". RFC 1489. +[Documentation for the KOI8-R Cyrillic encoding.] + +Roman Czyborra, "The ISO 8859 Alphabet Soup". +http://czyborra.com/charsets/iso8859.html +[Documentation on the various ISO 859 encodings.] + +L. Peter Deutsch, "ZLIB Compressed Data Format Specification version +3.3". RFC 1950. +[Information on the general format used in FlateDecode streams.] + +L. Peter Deutsch, "DEFLATE Compressed Data Format Specification +version 1.3". RFC 1951. +[The definition of the compression algorithm used in FlateDecode +streams.] + +Morris Dworkin, "Recommendation for Block Cipher Modes of Operation", +National Institute of Standards, NIST Special Publication 800-38A, +2001. +[The cipher block chaining (CBC) mode used with AES in PDF files.] + +Federal Information Processing Standards Publication 197 (FIPS PUBS +197), "Advanced Encryption Standard (AES)", November 26, 2001. +[AES encryption, used in PDF 1.6.] + +Jim Flowers, "X Logical Font Description Conventions", Version 1.5, X +Consortium Standard, X Version 11, Release 6.1. +ftp://ftp.x.org/pub/R6.1/xc/doc/hardcopy/XLFD/xlfd.PS.Z +[The official specification of X font descriptors, including font +transformation matrices.] + +Foley, van Dam, Feiner, and Hughes, _Computer Graphics: Principles and +Practice_, 2nd ed. Addison-Wesley, 1990, ISBN 0-201-12110-7. +[Colorspace conversion functions, Bezier spline math.] + +Robert L. Hummel, _Programmer's Technical Reference: Data and Fax +Communications_. Ziff-Davis Press, 1993, ISBN 1-56276-077-7. +[CCITT Group 3 and 4 fax decoding.] + +ISO/IEC, _Information technology -- Lossy/lossless coding of bi-level +images_. ISO/IEC 14492, First edition (2001-12-15). +http://webstore.ansi.org/ +[The official JBIG2 standard. The final draft of this spec is +available from http://www.jpeg.org/jbighomepage.html.] + +ISO/IEC, _Information technology -- JPEG 2000 image coding system -- +Part 1: Core coding system_. ISO/IEC 15444-1, First edition +(2000-12-15). +http://webstore.ansi.org/ +[The official JPEG 2000 standard. The final committee draft of this +spec is available from http://www.jpeg.org/JPEG2000.html, but there +were changes made to the bitstream format between that draft and the +published spec.] + +ITU, "Standardization of Group 3 facsimile terminals for document +transmission", ITU-T Recommendation T.4, 1999. +ITU, "Facsimile coding schemes and coding control functions for Group 4 +facsimile apparatus", ITU-T Recommendation T.6, 1993. +http://www.itu.int/ +[The official Group 3 and 4 fax standards - used by the CCITTFaxDecode +stream, as well as the JBIG2Decode stream.] + +B. Kaliski, "PKCS #5: Password-Based Cryptography Specification, +Version 2.0". RFC 2898. +[Defines the padding scheme used with AES encryption in PDF files.] + +Christoph Loeffler, Adriaan Ligtenberg, George S. Moschytz, "Practical +Fast 1-D DCT Algorithms with 11 Multiplications". IEEE Intl. Conf. on +Acoustics, Speech & Signal Processing, 1989, 988-991. +[The fast IDCT algorithm used in the DCTDecode filter.] + +Microsoft, _TrueType 1.0 Font Files_, rev. 1.66. 1995. +http://www.microsoft.com/typography/tt/tt.htm +[The TrueType font spec (in MS Word format, naturally).] + +V. Ostromoukhov, R.D. Hersch, "Stochastic Clustered-Dot Dithering", +Conf. Color Imaging: Device-Independent Color, Color Hardcopy, and +Graphic Arts IV, 1999, SPIE Vol. 3648, 496-505. +http://diwww.epfl.ch/w3lsp/publications/colour/scd.html +[The stochastic dithering algorithm used in Xpdf.] + +P. Peterlin, "ISO 8859-2 (Latin 2) Resources". +http://sizif.mf.uni-lj.si/linux/cee/iso8859-2.html +[This is a web page with all sorts of useful Latin-2 character set and +font information.] + +Charles Poynton, "Color FAQ". +http://www.inforamp.net/~poynton/ColorFAQ.html +[The mapping from the CIE 1931 (XYZ) color space to RGB.] + +R. Rivest, "The MD5 Message-Digest Algorithm". RFC 1321. +[MD5 is used in PDF document encryption.] + +Thai Industrial Standard, "Standard for Thai Character Codes for +Computers", TIS-620-2533 (1990). +http://www.nectec.or.th/it-standards/std620/std620.htm +[The TIS-620 Thai encoding.] + +Unicode Consortium, "Unicode Home Page". +http://www.unicode.org/ +[Online copy of the Unicode spec.] + +W3C Recommendation, "PNG (Portable Network Graphics) Specification +Version 1.0". +http://www.w3.org/Graphics/PNG/ +[Defines the PNG image predictor.] + +Gregory K. Wallace, "The JPEG Still Picture Compression Standard". +ftp://ftp.uu.net/graphics/jpeg/wallace.ps.gz +[Good description of the JPEG standard. Also published in CACM, April +1991, and submitted to IEEE Transactions on Consumer Electronics.] + +F. Yergeau, "UTF-8, a transformation format of ISO 10646". RFC 2279. +[A commonly used Unicode encoding.] diff --git a/kpdf/xpdf/aconf.h b/kpdf/xpdf/aconf.h new file mode 100644 index 00000000..43b28397 --- /dev/null +++ b/kpdf/xpdf/aconf.h @@ -0,0 +1,17 @@ +/* define it to 0, if you have it, config.h will have it defined to 1 and that will be used*/ +#define HAVE_FSEEK0 0 + +#include + +#define HAVE_T1LIB_H 0 +#define HAVE_FREETYPE_H HAVE_FREETYPE +#define HAVE_FREETYPE_FREETYPE_H HAVE_FREETYPE +#define OPI_SUPPORT 0 +#define TEXTOUT_WORD_LIST 0 +#define HAVE_MKSTEMPS 1 //libkdefakes provides it +#define HAVE_SPLASH 1 +#define SPLASH_CMYK 1 +#define HAVE_XPDFCORE 0 +#define HAVE_WINPDFCORE 0 +#define USE_EXCEPTIONS 0 +#define USE_FIXEDPOINT 0 diff --git a/kpdf/xpdf/fofi/FoFiBase.cc b/kpdf/xpdf/fofi/FoFiBase.cc new file mode 100644 index 00000000..28d0b8ca --- /dev/null +++ b/kpdf/xpdf/fofi/FoFiBase.cc @@ -0,0 +1,156 @@ +//======================================================================== +// +// FoFiBase.cc +// +// Copyright 1999-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include "gmem.h" +#include "FoFiBase.h" + +//------------------------------------------------------------------------ +// FoFiBase +//------------------------------------------------------------------------ + +FoFiBase::FoFiBase(char *fileA, int lenA, GBool freeFileDataA) { + fileData = file = (Guchar *)fileA; + len = lenA; + freeFileData = freeFileDataA; +} + +FoFiBase::~FoFiBase() { + if (freeFileData) { + gfree(fileData); + } +} + +char *FoFiBase::readFile(char *fileName, int *fileLen) { + FILE *f; + char *buf; + int n; + + if (!(f = fopen(fileName, "rb"))) { + return NULL; + } + fseek(f, 0, SEEK_END); + n = (int)ftell(f); + fseek(f, 0, SEEK_SET); + buf = (char *)gmalloc(n); + if ((int)fread(buf, 1, n, f) != n) { + gfree(buf); + fclose(f); + return NULL; + } + fclose(f); + *fileLen = n; + return buf; +} + +int FoFiBase::getS8(int pos, GBool *ok) { + int x; + + if (pos < 0 || pos >= len) { + *ok = gFalse; + return 0; + } + x = file[pos]; + if (x & 0x80) { + x |= ~0xff; + } + return x; +} + +int FoFiBase::getU8(int pos, GBool *ok) { + if (pos < 0 || pos >= len) { + *ok = gFalse; + return 0; + } + return file[pos]; +} + +int FoFiBase::getS16BE(int pos, GBool *ok) { + int x; + + if (pos < 0 || pos+1 >= len) { + *ok = gFalse; + return 0; + } + x = file[pos]; + x = (x << 8) + file[pos+1]; + if (x & 0x8000) { + x |= ~0xffff; + } + return x; +} + +int FoFiBase::getU16BE(int pos, GBool *ok) { + int x; + + if (pos < 0 || pos+1 >= len) { + *ok = gFalse; + return 0; + } + x = file[pos]; + x = (x << 8) + file[pos+1]; + return x; +} + +int FoFiBase::getS32BE(int pos, GBool *ok) { + int x; + + if (pos < 0 || pos+3 >= len) { + *ok = gFalse; + return 0; + } + x = file[pos]; + x = (x << 8) + file[pos+1]; + x = (x << 8) + file[pos+2]; + x = (x << 8) + file[pos+3]; + if (x & 0x80000000) { + x |= ~0xffffffff; + } + return x; +} + +Guint FoFiBase::getU32BE(int pos, GBool *ok) { + Guint x; + + if (pos < 0 || pos+3 >= len) { + *ok = gFalse; + return 0; + } + x = file[pos]; + x = (x << 8) + file[pos+1]; + x = (x << 8) + file[pos+2]; + x = (x << 8) + file[pos+3]; + return x; +} + +Guint FoFiBase::getUVarBE(int pos, int size, GBool *ok) { + Guint x; + int i; + + if (pos < 0 || pos + size > len) { + *ok = gFalse; + return 0; + } + x = 0; + for (i = 0; i < size; ++i) { + x = (x << 8) + file[pos + i]; + } + return x; +} + +GBool FoFiBase::checkRegion(int pos, int size) { + return pos >= 0 && + pos + size >= pos && + pos + size <= len; +} diff --git a/kpdf/xpdf/fofi/FoFiBase.h b/kpdf/xpdf/fofi/FoFiBase.h new file mode 100644 index 00000000..b78840b2 --- /dev/null +++ b/kpdf/xpdf/fofi/FoFiBase.h @@ -0,0 +1,57 @@ +//======================================================================== +// +// FoFiBase.h +// +// Copyright 1999-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef FOFIBASE_H +#define FOFIBASE_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" + +//------------------------------------------------------------------------ + +typedef void (*FoFiOutputFunc)(void *stream, char *data, int len); + +//------------------------------------------------------------------------ +// FoFiBase +//------------------------------------------------------------------------ + +class FoFiBase { +public: + + virtual ~FoFiBase(); + +protected: + + FoFiBase(char *fileA, int lenA, GBool freeFileDataA); + static char *readFile(char *fileName, int *fileLen); + + // S = signed / U = unsigned + // 8/16/32/Var = word length, in bytes + // BE = big endian + int getS8(int pos, GBool *ok); + int getU8(int pos, GBool *ok); + int getS16BE(int pos, GBool *ok); + int getU16BE(int pos, GBool *ok); + int getS32BE(int pos, GBool *ok); + Guint getU32BE(int pos, GBool *ok); + Guint getUVarBE(int pos, int size, GBool *ok); + + GBool checkRegion(int pos, int size); + + Guchar *fileData; + Guchar *file; + int len; + GBool freeFileData; +}; + +#endif diff --git a/kpdf/xpdf/fofi/FoFiEncodings.cc b/kpdf/xpdf/fofi/FoFiEncodings.cc new file mode 100644 index 00000000..37a17f5d --- /dev/null +++ b/kpdf/xpdf/fofi/FoFiEncodings.cc @@ -0,0 +1,994 @@ +//======================================================================== +// +// FoFiEncodings.cc +// +// Copyright 1999-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include "FoFiEncodings.h" + +//------------------------------------------------------------------------ +// Type 1 and 1C font data +//------------------------------------------------------------------------ + +char *fofiType1StandardEncoding[256] = { + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + "space", + "exclam", + "quotedbl", + "numbersign", + "dollar", + "percent", + "ampersand", + "quoteright", + "parenleft", + "parenright", + "asterisk", + "plus", + "comma", + "hyphen", + "period", + "slash", + "zero", + "one", + "two", + "three", + "four", + "five", + "six", + "seven", + "eight", + "nine", + "colon", + "semicolon", + "less", + "equal", + "greater", + "question", + "at", + "A", + "B", + "C", + "D", + "E", + "F", + "G", + "H", + "I", + "J", + "K", + "L", + "M", + "N", + "O", + "P", + "Q", + "R", + "S", + "T", + "U", + "V", + "W", + "X", + "Y", + "Z", + "bracketleft", + "backslash", + "bracketright", + "asciicircum", + "underscore", + "quoteleft", + "a", + "b", + "c", + "d", + "e", + "f", + "g", + "h", + "i", + "j", + "k", + "l", + "m", + "n", + "o", + "p", + "q", + "r", + "s", + "t", + "u", + "v", + "w", + "x", + "y", + "z", + "braceleft", + "bar", + "braceright", + "asciitilde", + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + "exclamdown", + "cent", + "sterling", + "fraction", + "yen", + "florin", + "section", + "currency", + "quotesingle", + "quotedblleft", + "guillemotleft", + "guilsinglleft", + "guilsinglright", + "fi", + "fl", + NULL, + "endash", + "dagger", + "daggerdbl", + "periodcentered", + NULL, + "paragraph", + "bullet", + "quotesinglbase", + "quotedblbase", + "quotedblright", + "guillemotright", + "ellipsis", + "perthousand", + NULL, + "questiondown", + NULL, + "grave", + "acute", + "circumflex", + "tilde", + "macron", + "breve", + "dotaccent", + "dieresis", + NULL, + "ring", + "cedilla", + NULL, + "hungarumlaut", + "ogonek", + "caron", + "emdash", + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + "AE", + NULL, + "ordfeminine", + NULL, + NULL, + NULL, + NULL, + "Lslash", + "Oslash", + "OE", + "ordmasculine", + NULL, + NULL, + NULL, + NULL, + NULL, + "ae", + NULL, + NULL, + NULL, + "dotlessi", + NULL, + NULL, + "lslash", + "oslash", + "oe", + "germandbls", + NULL, + NULL, + NULL, + NULL +}; + +char *fofiType1ExpertEncoding[256] = { + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + "space", + "exclamsmall", + "Hungarumlautsmall", + NULL, + "dollaroldstyle", + "dollarsuperior", + "ampersandsmall", + "Acutesmall", + "parenleftsuperior", + "parenrightsuperior", + "twodotenleader", + "onedotenleader", + "comma", + "hyphen", + "period", + "fraction", + "zerooldstyle", + "oneoldstyle", + "twooldstyle", + "threeoldstyle", + "fouroldstyle", + "fiveoldstyle", + "sixoldstyle", + "sevenoldstyle", + "eightoldstyle", + "nineoldstyle", + "colon", + "semicolon", + "commasuperior", + "threequartersemdash", + "periodsuperior", + "questionsmall", + NULL, + "asuperior", + "bsuperior", + "centsuperior", + "dsuperior", + "esuperior", + NULL, + NULL, + NULL, + "isuperior", + NULL, + NULL, + "lsuperior", + "msuperior", + "nsuperior", + "osuperior", + NULL, + NULL, + "rsuperior", + "ssuperior", + "tsuperior", + NULL, + "ff", + "fi", + "fl", + "ffi", + "ffl", + "parenleftinferior", + NULL, + "parenrightinferior", + "Circumflexsmall", + "hyphensuperior", + "Gravesmall", + "Asmall", + "Bsmall", + "Csmall", + "Dsmall", + "Esmall", + "Fsmall", + "Gsmall", + "Hsmall", + "Ismall", + "Jsmall", + "Ksmall", + "Lsmall", + "Msmall", + "Nsmall", + "Osmall", + "Psmall", + "Qsmall", + "Rsmall", + "Ssmall", + "Tsmall", + "Usmall", + "Vsmall", + "Wsmall", + "Xsmall", + "Ysmall", + "Zsmall", + "colonmonetary", + "onefitted", + "rupiah", + "Tildesmall", + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + "exclamdownsmall", + "centoldstyle", + "Lslashsmall", + NULL, + NULL, + "Scaronsmall", + "Zcaronsmall", + "Dieresissmall", + "Brevesmall", + "Caronsmall", + NULL, + "Dotaccentsmall", + NULL, + NULL, + "Macronsmall", + NULL, + NULL, + "figuredash", + "hypheninferior", + NULL, + NULL, + "Ogoneksmall", + "Ringsmall", + "Cedillasmall", + NULL, + NULL, + NULL, + "onequarter", + "onehalf", + "threequarters", + "questiondownsmall", + "oneeighth", + "threeeighths", + "fiveeighths", + "seveneighths", + "onethird", + "twothirds", + NULL, + NULL, + "zerosuperior", + "onesuperior", + "twosuperior", + "threesuperior", + "foursuperior", + "fivesuperior", + "sixsuperior", + "sevensuperior", + "eightsuperior", + "ninesuperior", + "zeroinferior", + "oneinferior", + "twoinferior", + "threeinferior", + "fourinferior", + "fiveinferior", + "sixinferior", + "seveninferior", + "eightinferior", + "nineinferior", + "centinferior", + "dollarinferior", + "periodinferior", + "commainferior", + "Agravesmall", + "Aacutesmall", + "Acircumflexsmall", + "Atildesmall", + "Adieresissmall", + "Aringsmall", + "AEsmall", + "Ccedillasmall", + "Egravesmall", + "Eacutesmall", + "Ecircumflexsmall", + "Edieresissmall", + "Igravesmall", + "Iacutesmall", + "Icircumflexsmall", + "Idieresissmall", + "Ethsmall", + "Ntildesmall", + "Ogravesmall", + "Oacutesmall", + "Ocircumflexsmall", + "Otildesmall", + "Odieresissmall", + "OEsmall", + "Oslashsmall", + "Ugravesmall", + "Uacutesmall", + "Ucircumflexsmall", + "Udieresissmall", + "Yacutesmall", + "Thornsmall", + "Ydieresissmall" +}; + +//------------------------------------------------------------------------ +// Type 1C font data +//------------------------------------------------------------------------ + +char *fofiType1CStdStrings[391] = { + ".notdef", + "space", + "exclam", + "quotedbl", + "numbersign", + "dollar", + "percent", + "ampersand", + "quoteright", + "parenleft", + "parenright", + "asterisk", + "plus", + "comma", + "hyphen", + "period", + "slash", + "zero", + "one", + "two", + "three", + "four", + "five", + "six", + "seven", + "eight", + "nine", + "colon", + "semicolon", + "less", + "equal", + "greater", + "question", + "at", + "A", + "B", + "C", + "D", + "E", + "F", + "G", + "H", + "I", + "J", + "K", + "L", + "M", + "N", + "O", + "P", + "Q", + "R", + "S", + "T", + "U", + "V", + "W", + "X", + "Y", + "Z", + "bracketleft", + "backslash", + "bracketright", + "asciicircum", + "underscore", + "quoteleft", + "a", + "b", + "c", + "d", + "e", + "f", + "g", + "h", + "i", + "j", + "k", + "l", + "m", + "n", + "o", + "p", + "q", + "r", + "s", + "t", + "u", + "v", + "w", + "x", + "y", + "z", + "braceleft", + "bar", + "braceright", + "asciitilde", + "exclamdown", + "cent", + "sterling", + "fraction", + "yen", + "florin", + "section", + "currency", + "quotesingle", + "quotedblleft", + "guillemotleft", + "guilsinglleft", + "guilsinglright", + "fi", + "fl", + "endash", + "dagger", + "daggerdbl", + "periodcentered", + "paragraph", + "bullet", + "quotesinglbase", + "quotedblbase", + "quotedblright", + "guillemotright", + "ellipsis", + "perthousand", + "questiondown", + "grave", + "acute", + "circumflex", + "tilde", + "macron", + "breve", + "dotaccent", + "dieresis", + "ring", + "cedilla", + "hungarumlaut", + "ogonek", + "caron", + "emdash", + "AE", + "ordfeminine", + "Lslash", + "Oslash", + "OE", + "ordmasculine", + "ae", + "dotlessi", + "lslash", + "oslash", + "oe", + "germandbls", + "onesuperior", + "logicalnot", + "mu", + "trademark", + "Eth", + "onehalf", + "plusminus", + "Thorn", + "onequarter", + "divide", + "brokenbar", + "degree", + "thorn", + "threequarters", + "twosuperior", + "registered", + "minus", + "eth", + "multiply", + "threesuperior", + "copyright", + "Aacute", + "Acircumflex", + "Adieresis", + "Agrave", + "Aring", + "Atilde", + "Ccedilla", + "Eacute", + "Ecircumflex", + "Edieresis", + "Egrave", + "Iacute", + "Icircumflex", + "Idieresis", + "Igrave", + "Ntilde", + "Oacute", + "Ocircumflex", + "Odieresis", + "Ograve", + "Otilde", + "Scaron", + "Uacute", + "Ucircumflex", + "Udieresis", + "Ugrave", + "Yacute", + "Ydieresis", + "Zcaron", + "aacute", + "acircumflex", + "adieresis", + "agrave", + "aring", + "atilde", + "ccedilla", + "eacute", + "ecircumflex", + "edieresis", + "egrave", + "iacute", + "icircumflex", + "idieresis", + "igrave", + "ntilde", + "oacute", + "ocircumflex", + "odieresis", + "ograve", + "otilde", + "scaron", + "uacute", + "ucircumflex", + "udieresis", + "ugrave", + "yacute", + "ydieresis", + "zcaron", + "exclamsmall", + "Hungarumlautsmall", + "dollaroldstyle", + "dollarsuperior", + "ampersandsmall", + "Acutesmall", + "parenleftsuperior", + "parenrightsuperior", + "twodotenleader", + "onedotenleader", + "zerooldstyle", + "oneoldstyle", + "twooldstyle", + "threeoldstyle", + "fouroldstyle", + "fiveoldstyle", + "sixoldstyle", + "sevenoldstyle", + "eightoldstyle", + "nineoldstyle", + "commasuperior", + "threequartersemdash", + "periodsuperior", + "questionsmall", + "asuperior", + "bsuperior", + "centsuperior", + "dsuperior", + "esuperior", + "isuperior", + "lsuperior", + "msuperior", + "nsuperior", + "osuperior", + "rsuperior", + "ssuperior", + "tsuperior", + "ff", + "ffi", + "ffl", + "parenleftinferior", + "parenrightinferior", + "Circumflexsmall", + "hyphensuperior", + "Gravesmall", + "Asmall", + "Bsmall", + "Csmall", + "Dsmall", + "Esmall", + "Fsmall", + "Gsmall", + "Hsmall", + "Ismall", + "Jsmall", + "Ksmall", + "Lsmall", + "Msmall", + "Nsmall", + "Osmall", + "Psmall", + "Qsmall", + "Rsmall", + "Ssmall", + "Tsmall", + "Usmall", + "Vsmall", + "Wsmall", + "Xsmall", + "Ysmall", + "Zsmall", + "colonmonetary", + "onefitted", + "rupiah", + "Tildesmall", + "exclamdownsmall", + "centoldstyle", + "Lslashsmall", + "Scaronsmall", + "Zcaronsmall", + "Dieresissmall", + "Brevesmall", + "Caronsmall", + "Dotaccentsmall", + "Macronsmall", + "figuredash", + "hypheninferior", + "Ogoneksmall", + "Ringsmall", + "Cedillasmall", + "questiondownsmall", + "oneeighth", + "threeeighths", + "fiveeighths", + "seveneighths", + "onethird", + "twothirds", + "zerosuperior", + "foursuperior", + "fivesuperior", + "sixsuperior", + "sevensuperior", + "eightsuperior", + "ninesuperior", + "zeroinferior", + "oneinferior", + "twoinferior", + "threeinferior", + "fourinferior", + "fiveinferior", + "sixinferior", + "seveninferior", + "eightinferior", + "nineinferior", + "centinferior", + "dollarinferior", + "periodinferior", + "commainferior", + "Agravesmall", + "Aacutesmall", + "Acircumflexsmall", + "Atildesmall", + "Adieresissmall", + "Aringsmall", + "AEsmall", + "Ccedillasmall", + "Egravesmall", + "Eacutesmall", + "Ecircumflexsmall", + "Edieresissmall", + "Igravesmall", + "Iacutesmall", + "Icircumflexsmall", + "Idieresissmall", + "Ethsmall", + "Ntildesmall", + "Ogravesmall", + "Oacutesmall", + "Ocircumflexsmall", + "Otildesmall", + "Odieresissmall", + "OEsmall", + "Oslashsmall", + "Ugravesmall", + "Uacutesmall", + "Ucircumflexsmall", + "Udieresissmall", + "Yacutesmall", + "Thornsmall", + "Ydieresissmall", + "001.000", + "001.001", + "001.002", + "001.003", + "Black", + "Bold", + "Book", + "Light", + "Medium", + "Regular", + "Roman", + "Semibold" +}; + +Gushort fofiType1CISOAdobeCharset[229] = { + 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, + 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, + 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, + 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, + 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, + 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, + 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, + 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, + 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, + 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, + 100, 101, 102, 103, 104, 105, 106, 107, 108, 109, + 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, + 120, 121, 122, 123, 124, 125, 126, 127, 128, 129, + 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, + 140, 141, 142, 143, 144, 145, 146, 147, 148, 149, + 150, 151, 152, 153, 154, 155, 156, 157, 158, 159, + 160, 161, 162, 163, 164, 165, 166, 167, 168, 169, + 170, 171, 172, 173, 174, 175, 176, 177, 178, 179, + 180, 181, 182, 183, 184, 185, 186, 187, 188, 189, + 190, 191, 192, 193, 194, 195, 196, 197, 198, 199, + 200, 201, 202, 203, 204, 205, 206, 207, 208, 209, + 210, 211, 212, 213, 214, 215, 216, 217, 218, 219, + 220, 221, 222, 223, 224, 225, 226, 227, 228 +}; + +Gushort fofiType1CExpertCharset[166] = { + 0, 1, 229, 230, 231, 232, 233, 234, 235, 236, + 237, 238, 13, 14, 15, 99, 239, 240, 241, 242, + 243, 244, 245, 246, 247, 248, 27, 28, 249, 250, + 251, 252, 253, 254, 255, 256, 257, 258, 259, 260, + 261, 262, 263, 264, 265, 266, 109, 110, 267, 268, + 269, 270, 271, 272, 273, 274, 275, 276, 277, 278, + 279, 280, 281, 282, 283, 284, 285, 286, 287, 288, + 289, 290, 291, 292, 293, 294, 295, 296, 297, 298, + 299, 300, 301, 302, 303, 304, 305, 306, 307, 308, + 309, 310, 311, 312, 313, 314, 315, 316, 317, 318, + 158, 155, 163, 319, 320, 321, 322, 323, 324, 325, + 326, 150, 164, 169, 327, 328, 329, 330, 331, 332, + 333, 334, 335, 336, 337, 338, 339, 340, 341, 342, + 343, 344, 345, 346, 347, 348, 349, 350, 351, 352, + 353, 354, 355, 356, 357, 358, 359, 360, 361, 362, + 363, 364, 365, 366, 367, 368, 369, 370, 371, 372, + 373, 374, 375, 376, 377, 378 +}; + +Gushort fofiType1CExpertSubsetCharset[87] = { + 0, 1, 231, 232, 235, 236, 237, 238, 13, 14, + 15, 99, 239, 240, 241, 242, 243, 244, 245, 246, + 247, 248, 27, 28, 249, 250, 251, 253, 254, 255, + 256, 257, 258, 259, 260, 261, 262, 263, 264, 265, + 266, 109, 110, 267, 268, 269, 270, 272, 300, 301, + 302, 305, 314, 315, 158, 155, 163, 320, 321, 322, + 323, 324, 325, 326, 150, 164, 169, 327, 328, 329, + 330, 331, 332, 333, 334, 335, 336, 337, 338, 339, + 340, 341, 342, 343, 344, 345, 346 +}; diff --git a/kpdf/xpdf/fofi/FoFiEncodings.h b/kpdf/xpdf/fofi/FoFiEncodings.h new file mode 100644 index 00000000..50e285d7 --- /dev/null +++ b/kpdf/xpdf/fofi/FoFiEncodings.h @@ -0,0 +1,36 @@ +//======================================================================== +// +// FoFiEncodings.h +// +// Copyright 1999-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef FOFIENCODINGS_H +#define FOFIENCODINGS_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" + +//------------------------------------------------------------------------ +// Type 1 and 1C font data +//------------------------------------------------------------------------ + +extern char *fofiType1StandardEncoding[256]; +extern char *fofiType1ExpertEncoding[256]; + +//------------------------------------------------------------------------ +// Type 1C font data +//------------------------------------------------------------------------ + +extern char *fofiType1CStdStrings[391]; +extern Gushort fofiType1CISOAdobeCharset[229]; +extern Gushort fofiType1CExpertCharset[166]; +extern Gushort fofiType1CExpertSubsetCharset[87]; + +#endif diff --git a/kpdf/xpdf/fofi/FoFiTrueType.cc b/kpdf/xpdf/fofi/FoFiTrueType.cc new file mode 100644 index 00000000..a205a068 --- /dev/null +++ b/kpdf/xpdf/fofi/FoFiTrueType.cc @@ -0,0 +1,2040 @@ +//======================================================================== +// +// FoFiTrueType.cc +// +// Copyright 1999-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include "gtypes.h" +#include "gmem.h" +#include "GString.h" +#include "GHash.h" +#include "FoFiType1C.h" +#include "FoFiTrueType.h" + +// +// Terminology +// ----------- +// +// character code = number used as an element of a text string +// +// character name = glyph name = name for a particular glyph within a +// font +// +// glyph index = GID = position (within some internal table in the font) +// where the instructions to draw a particular glyph are +// stored +// +// Type 1 fonts +// ------------ +// +// Type 1 fonts contain: +// +// Encoding: array of glyph names, maps char codes to glyph names +// +// Encoding[charCode] = charName +// +// CharStrings: dictionary of instructions, keyed by character names, +// maps character name to glyph data +// +// CharStrings[charName] = glyphData +// +// TrueType fonts +// -------------- +// +// TrueType fonts contain: +// +// 'cmap' table: mapping from character code to glyph index; there may +// be multiple cmaps in a TrueType font +// +// cmap[charCode] = gid +// +// 'post' table: mapping from glyph index to glyph name +// +// post[gid] = glyphName +// +// Type 42 fonts +// ------------- +// +// Type 42 fonts contain: +// +// Encoding: array of glyph names, maps char codes to glyph names +// +// Encoding[charCode] = charName +// +// CharStrings: dictionary of glyph indexes, keyed by character names, +// maps character name to glyph index +// +// CharStrings[charName] = gid +// + +//------------------------------------------------------------------------ + +#define ttcfTag 0x74746366 + +//------------------------------------------------------------------------ + +struct TrueTypeTable { + Guint tag; + Guint checksum; + int offset; + int origOffset; + int len; +}; + +struct TrueTypeCmap { + int platform; + int encoding; + int offset; + int len; + int fmt; +}; + +struct TrueTypeLoca { + int idx; + int origOffset; + int newOffset; + int len; +}; + +#define cmapTag 0x636d6170 +#define glyfTag 0x676c7966 +#define headTag 0x68656164 +#define hheaTag 0x68686561 +#define hmtxTag 0x686d7478 +#define locaTag 0x6c6f6361 +#define nameTag 0x6e616d65 +#define os2Tag 0x4f532f32 +#define postTag 0x706f7374 + +static int cmpTrueTypeLocaOffset(const void *p1, const void *p2) { + TrueTypeLoca *loca1 = (TrueTypeLoca *)p1; + TrueTypeLoca *loca2 = (TrueTypeLoca *)p2; + + if (loca1->origOffset == loca2->origOffset) { + return loca1->idx - loca2->idx; + } + return loca1->origOffset - loca2->origOffset; +} + +static int cmpTrueTypeLocaIdx(const void *p1, const void *p2) { + TrueTypeLoca *loca1 = (TrueTypeLoca *)p1; + TrueTypeLoca *loca2 = (TrueTypeLoca *)p2; + + return loca1->idx - loca2->idx; +} + +static int cmpTrueTypeTableTag(const void *p1, const void *p2) { + TrueTypeTable *tab1 = (TrueTypeTable *)p1; + TrueTypeTable *tab2 = (TrueTypeTable *)p2; + + return (int)tab1->tag - (int)tab2->tag; +} + +//------------------------------------------------------------------------ + +struct T42Table { + char *tag; // 4-byte tag + GBool required; // required by the TrueType spec? +}; + +// TrueType tables to be embedded in Type 42 fonts. +// NB: the table names must be in alphabetical order here. +#define nT42Tables 11 +static T42Table t42Tables[nT42Tables] = { + { "cvt ", gTrue }, + { "fpgm", gTrue }, + { "glyf", gTrue }, + { "head", gTrue }, + { "hhea", gTrue }, + { "hmtx", gTrue }, + { "loca", gTrue }, + { "maxp", gTrue }, + { "prep", gTrue }, + { "vhea", gFalse }, + { "vmtx", gFalse } +}; +#define t42HeadTable 3 +#define t42LocaTable 6 +#define t42GlyfTable 2 +#define t42VheaTable 9 +#define t42VmtxTable 10 + +//------------------------------------------------------------------------ + +// Glyph names in some arbitrary standard order that Apple uses for +// their TrueType fonts. +static char *macGlyphNames[258] = { + ".notdef", "null", "CR", "space", + "exclam", "quotedbl", "numbersign", "dollar", + "percent", "ampersand", "quotesingle", "parenleft", + "parenright", "asterisk", "plus", "comma", + "hyphen", "period", "slash", "zero", + "one", "two", "three", "four", + "five", "six", "seven", "eight", + "nine", "colon", "semicolon", "less", + "equal", "greater", "question", "at", + "A", "B", "C", "D", + "E", "F", "G", "H", + "I", "J", "K", "L", + "M", "N", "O", "P", + "Q", "R", "S", "T", + "U", "V", "W", "X", + "Y", "Z", "bracketleft", "backslash", + "bracketright", "asciicircum", "underscore", "grave", + "a", "b", "c", "d", + "e", "f", "g", "h", + "i", "j", "k", "l", + "m", "n", "o", "p", + "q", "r", "s", "t", + "u", "v", "w", "x", + "y", "z", "braceleft", "bar", + "braceright", "asciitilde", "Adieresis", "Aring", + "Ccedilla", "Eacute", "Ntilde", "Odieresis", + "Udieresis", "aacute", "agrave", "acircumflex", + "adieresis", "atilde", "aring", "ccedilla", + "eacute", "egrave", "ecircumflex", "edieresis", + "iacute", "igrave", "icircumflex", "idieresis", + "ntilde", "oacute", "ograve", "ocircumflex", + "odieresis", "otilde", "uacute", "ugrave", + "ucircumflex", "udieresis", "dagger", "degree", + "cent", "sterling", "section", "bullet", + "paragraph", "germandbls", "registered", "copyright", + "trademark", "acute", "dieresis", "notequal", + "AE", "Oslash", "infinity", "plusminus", + "lessequal", "greaterequal", "yen", "mu1", + "partialdiff", "summation", "product", "pi", + "integral", "ordfeminine", "ordmasculine", "Ohm", + "ae", "oslash", "questiondown", "exclamdown", + "logicalnot", "radical", "florin", "approxequal", + "increment", "guillemotleft", "guillemotright", "ellipsis", + "nbspace", "Agrave", "Atilde", "Otilde", + "OE", "oe", "endash", "emdash", + "quotedblleft", "quotedblright", "quoteleft", "quoteright", + "divide", "lozenge", "ydieresis", "Ydieresis", + "fraction", "currency", "guilsinglleft", "guilsinglright", + "fi", "fl", "daggerdbl", "periodcentered", + "quotesinglbase", "quotedblbase", "perthousand", "Acircumflex", + "Ecircumflex", "Aacute", "Edieresis", "Egrave", + "Iacute", "Icircumflex", "Idieresis", "Igrave", + "Oacute", "Ocircumflex", "applelogo", "Ograve", + "Uacute", "Ucircumflex", "Ugrave", "dotlessi", + "circumflex", "tilde", "overscore", "breve", + "dotaccent", "ring", "cedilla", "hungarumlaut", + "ogonek", "caron", "Lslash", "lslash", + "Scaron", "scaron", "Zcaron", "zcaron", + "brokenbar", "Eth", "eth", "Yacute", + "yacute", "Thorn", "thorn", "minus", + "multiply", "onesuperior", "twosuperior", "threesuperior", + "onehalf", "onequarter", "threequarters", "franc", + "Gbreve", "gbreve", "Idot", "Scedilla", + "scedilla", "Cacute", "cacute", "Ccaron", + "ccaron", "dmacron" +}; + +//------------------------------------------------------------------------ +// FoFiTrueType +//------------------------------------------------------------------------ + +FoFiTrueType *FoFiTrueType::make(char *fileA, int lenA, int faceIndexA) { + FoFiTrueType *ff; + + ff = new FoFiTrueType(fileA, lenA, gFalse, faceIndexA); + if (!ff->parsedOk) { + delete ff; + return NULL; + } + return ff; +} + +FoFiTrueType *FoFiTrueType::load(char *fileName, int faceIndexA) { + FoFiTrueType *ff; + char *fileA; + int lenA; + + if (!(fileA = FoFiBase::readFile(fileName, &lenA))) { + return NULL; + } + ff = new FoFiTrueType(fileA, lenA, gTrue, faceIndexA); + if (!ff->parsedOk) { + delete ff; + return NULL; + } + return ff; +} + +FoFiTrueType::FoFiTrueType(char *fileA, int lenA, GBool freeFileDataA, int faceIndexA): + FoFiBase(fileA, lenA, freeFileDataA) +{ + tables = NULL; + nTables = 0; + cmaps = NULL; + nCmaps = 0; + nameToGID = NULL; + parsedOk = gFalse; + faceIndex = faceIndexA; + + parse(); +} + +FoFiTrueType::~FoFiTrueType() { + gfree(tables); + gfree(cmaps); + if (nameToGID) { + delete nameToGID; + } +} + +int FoFiTrueType::getNumCmaps() { + return nCmaps; +} + +int FoFiTrueType::getCmapPlatform(int i) { + return cmaps[i].platform; +} + +int FoFiTrueType::getCmapEncoding(int i) { + return cmaps[i].encoding; +} + +int FoFiTrueType::findCmap(int platform, int encoding) { + int i; + + for (i = 0; i < nCmaps; ++i) { + if (cmaps[i].platform == platform && cmaps[i].encoding == encoding) { + return i; + } + } + return -1; +} + +Gushort FoFiTrueType::mapCodeToGID(int i, int c) { + Gushort gid; + int segCnt, segEnd, segStart, segDelta, segOffset; + int cmapFirst, cmapLen; + int pos, a, b, m; + GBool ok; + + if (i < 0 || i >= nCmaps) { + return 0; + } + ok = gTrue; + pos = cmaps[i].offset; + switch (cmaps[i].fmt) { + case 0: + if (c < 0 || c >= cmaps[i].len - 6) { + return 0; + } + gid = getU8(cmaps[i].offset + 6 + c, &ok); + break; + case 4: + segCnt = getU16BE(pos + 6, &ok) / 2; + a = -1; + b = segCnt - 1; + segEnd = getU16BE(pos + 14 + 2*b, &ok); + if (c > segEnd) { + // malformed font -- the TrueType spec requires the last segEnd + // to be 0xffff + return 0; + } + // invariant: seg[a].end < code <= seg[b].end + while (b - a > 1 && ok) { + m = (a + b) / 2; + segEnd = getU16BE(pos + 14 + 2*m, &ok); + if (segEnd < c) { + a = m; + } else { + b = m; + } + } + segStart = getU16BE(pos + 16 + 2*segCnt + 2*b, &ok); + segDelta = getU16BE(pos + 16 + 4*segCnt + 2*b, &ok); + segOffset = getU16BE(pos + 16 + 6*segCnt + 2*b, &ok); + if (c < segStart) { + return 0; + } + if (segOffset == 0) { + gid = (c + segDelta) & 0xffff; + } else { + gid = getU16BE(pos + 16 + 6*segCnt + 2*b + + segOffset + 2 * (c - segStart), &ok); + if (gid != 0) { + gid = (gid + segDelta) & 0xffff; + } + } + break; + case 6: + cmapFirst = getU16BE(pos + 6, &ok); + cmapLen = getU16BE(pos + 8, &ok); + if (c < cmapFirst || c >= cmapFirst + cmapLen) { + return 0; + } + gid = getU16BE(pos + 10 + 2 * (c - cmapFirst), &ok); + break; + default: + return 0; + } + if (!ok) { + return 0; + } + return gid; +} + +int FoFiTrueType::mapNameToGID(char *name) { + if (!nameToGID) { + return 0; + } + return nameToGID->lookupInt(name); +} + +Gushort *FoFiTrueType::getCIDToGIDMap(int *nCIDs) { + FoFiType1C *ff; + Gushort *map; + int i; + + *nCIDs = 0; + if (!openTypeCFF) { + return NULL; + } + i = seekTable("CFF "); + if (!checkRegion(tables[i].offset, tables[i].len)) { + return NULL; + } + if (!(ff = FoFiType1C::make((char *)file + tables[i].offset, + tables[i].len))) { + return NULL; + } + map = ff->getCIDToGIDMap(nCIDs); + delete ff; + return map; +} + +int FoFiTrueType::getEmbeddingRights() { + int i, fsType; + GBool ok; + + if ((i = seekTable("OS/2")) < 0) { + return 4; + } + ok = gTrue; + fsType = getU16BE(tables[i].offset + 8, &ok); + if (!ok) { + return 4; + } + if (fsType & 0x0008) { + return 2; + } + if (fsType & 0x0004) { + return 1; + } + if (fsType & 0x0002) { + return 0; + } + return 3; +} + +void FoFiTrueType::convertToType42(char *psName, char **encoding, + Gushort *codeToGID, + FoFiOutputFunc outputFunc, + void *outputStream) { + GString *buf; + GBool ok; + + if (openTypeCFF) { + return; + } + + // write the header + ok = gTrue; + buf = GString::format("%!PS-TrueTypeFont-{0:2g}\n", + (double)getS32BE(0, &ok) / 65536.0); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + + // begin the font dictionary + (*outputFunc)(outputStream, "10 dict begin\n", 14); + (*outputFunc)(outputStream, "/FontName /", 11); + (*outputFunc)(outputStream, psName, strlen(psName)); + (*outputFunc)(outputStream, " def\n", 5); + (*outputFunc)(outputStream, "/FontType 42 def\n", 17); + (*outputFunc)(outputStream, "/FontMatrix [1 0 0 1 0 0] def\n", 30); + buf = GString::format("/FontBBox [{0:d} {1:d} {2:d} {3:d}] def\n", + bbox[0], bbox[1], bbox[2], bbox[3]); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + (*outputFunc)(outputStream, "/PaintType 0 def\n", 17); + + // write the guts of the dictionary + cvtEncoding(encoding, outputFunc, outputStream); + cvtCharStrings(encoding, codeToGID, outputFunc, outputStream); + cvtSfnts(outputFunc, outputStream, NULL, gFalse); + + // end the dictionary and define the font + (*outputFunc)(outputStream, "FontName currentdict end definefont pop\n", 40); +} + +void FoFiTrueType::convertToType1(char *psName, char **newEncoding, + GBool ascii, FoFiOutputFunc outputFunc, + void *outputStream) { + FoFiType1C *ff; + int i; + + if (!openTypeCFF) { + return; + } + i = seekTable("CFF "); + if (!checkRegion(tables[i].offset, tables[i].len)) { + return; + } + if (!(ff = FoFiType1C::make((char *)file + tables[i].offset, + tables[i].len))) { + return; + } + ff->convertToType1(psName, newEncoding, ascii, outputFunc, outputStream); + delete ff; +} + +void FoFiTrueType::convertToCIDType2(char *psName, + Gushort *cidMap, int nCIDs, + GBool needVerticalMetrics, + FoFiOutputFunc outputFunc, + void *outputStream) { + GString *buf; + Gushort cid; + GBool ok; + int i, j, k; + + if (openTypeCFF) { + return; + } + + // write the header + ok = gTrue; + buf = GString::format("%!PS-TrueTypeFont-{0:2g}\n", + (double)getS32BE(0, &ok) / 65536.0); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + + // begin the font dictionary + (*outputFunc)(outputStream, "20 dict begin\n", 14); + (*outputFunc)(outputStream, "/CIDFontName /", 14); + (*outputFunc)(outputStream, psName, strlen(psName)); + (*outputFunc)(outputStream, " def\n", 5); + (*outputFunc)(outputStream, "/CIDFontType 2 def\n", 19); + (*outputFunc)(outputStream, "/FontType 42 def\n", 17); + (*outputFunc)(outputStream, "/CIDSystemInfo 3 dict dup begin\n", 32); + (*outputFunc)(outputStream, " /Registry (Adobe) def\n", 24); + (*outputFunc)(outputStream, " /Ordering (Identity) def\n", 27); + (*outputFunc)(outputStream, " /Supplement 0 def\n", 20); + (*outputFunc)(outputStream, " end def\n", 10); + (*outputFunc)(outputStream, "/GDBytes 2 def\n", 15); + if (cidMap) { + buf = GString::format("/CIDCount {0:d} def\n", nCIDs); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + if (nCIDs > 32767) { + (*outputFunc)(outputStream, "/CIDMap [", 9); + for (i = 0; i < nCIDs; i += 32768 - 16) { + (*outputFunc)(outputStream, "<\n", 2); + for (j = 0; j < 32768 - 16 && i+j < nCIDs; j += 16) { + (*outputFunc)(outputStream, " ", 2); + for (k = 0; k < 16 && i+j+k < nCIDs; ++k) { + cid = cidMap[i+j+k]; + buf = GString::format("{0:02x}{1:02x}", + (cid >> 8) & 0xff, cid & 0xff); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + (*outputFunc)(outputStream, "\n", 1); + } + (*outputFunc)(outputStream, " >", 3); + } + (*outputFunc)(outputStream, "\n", 1); + (*outputFunc)(outputStream, "] def\n", 6); + } else { + (*outputFunc)(outputStream, "/CIDMap <\n", 10); + for (i = 0; i < nCIDs; i += 16) { + (*outputFunc)(outputStream, " ", 2); + for (j = 0; j < 16 && i+j < nCIDs; ++j) { + cid = cidMap[i+j]; + buf = GString::format("{0:02x}{1:02x}", + (cid >> 8) & 0xff, cid & 0xff); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + (*outputFunc)(outputStream, "\n", 1); + } + (*outputFunc)(outputStream, "> def\n", 6); + } + } else { + // direct mapping - just fill the string(s) with s[i]=i + buf = GString::format("/CIDCount {0:d} def\n", nGlyphs); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + if (nGlyphs > 32767) { + (*outputFunc)(outputStream, "/CIDMap [\n", 10); + for (i = 0; i < nGlyphs; i += 32767) { + j = nGlyphs - i < 32767 ? nGlyphs - i : 32767; + buf = GString::format(" {0:d} string 0 1 {1:d} {{\n", 2 * j, j - 1); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + buf = GString::format(" 2 copy dup 2 mul exch {0:d} add -8 bitshift put\n", + i); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + buf = GString::format(" 1 index exch dup 2 mul 1 add exch {0:d} add" + " 255 and put\n", i); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + (*outputFunc)(outputStream, " } for\n", 8); + } + (*outputFunc)(outputStream, "] def\n", 6); + } else { + buf = GString::format("/CIDMap {0:d} string\n", 2 * nGlyphs); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + buf = GString::format(" 0 1 {0:d} {{\n", nGlyphs - 1); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + (*outputFunc)(outputStream, + " 2 copy dup 2 mul exch -8 bitshift put\n", 42); + (*outputFunc)(outputStream, + " 1 index exch dup 2 mul 1 add exch 255 and put\n", 50); + (*outputFunc)(outputStream, " } for\n", 8); + (*outputFunc)(outputStream, "def\n", 4); + } + } + (*outputFunc)(outputStream, "/FontMatrix [1 0 0 1 0 0] def\n", 30); + buf = GString::format("/FontBBox [{0:d} {1:d} {2:d} {3:d}] def\n", + bbox[0], bbox[1], bbox[2], bbox[3]); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + (*outputFunc)(outputStream, "/PaintType 0 def\n", 17); + (*outputFunc)(outputStream, "/Encoding [] readonly def\n", 26); + (*outputFunc)(outputStream, "/CharStrings 1 dict dup begin\n", 30); + (*outputFunc)(outputStream, " /.notdef 0 def\n", 17); + (*outputFunc)(outputStream, " end readonly def\n", 19); + + // write the guts of the dictionary + cvtSfnts(outputFunc, outputStream, NULL, needVerticalMetrics); + + // end the dictionary and define the font + (*outputFunc)(outputStream, + "CIDFontName currentdict end /CIDFont defineresource pop\n", + 56); +} + +void FoFiTrueType::convertToCIDType0(char *psName, + FoFiOutputFunc outputFunc, + void *outputStream) { + FoFiType1C *ff; + int i; + + if (!openTypeCFF) { + return; + } + i = seekTable("CFF "); + if (!checkRegion(tables[i].offset, tables[i].len)) { + return; + } + if (!(ff = FoFiType1C::make((char *)file + tables[i].offset, + tables[i].len))) { + return; + } + ff->convertToCIDType0(psName, outputFunc, outputStream); + delete ff; +} + +void FoFiTrueType::convertToType0(char *psName, Gushort *cidMap, int nCIDs, + GBool needVerticalMetrics, + FoFiOutputFunc outputFunc, + void *outputStream) { + GString *buf; + GString *sfntsName; + int n, i, j; + + if (openTypeCFF) { + return; + } + + // write the Type 42 sfnts array + sfntsName = (new GString(psName))->append("_sfnts"); + cvtSfnts(outputFunc, outputStream, sfntsName, needVerticalMetrics); + delete sfntsName; + + // write the descendant Type 42 fonts + n = cidMap ? nCIDs : nGlyphs; + for (i = 0; i < n; i += 256) { + (*outputFunc)(outputStream, "10 dict begin\n", 14); + (*outputFunc)(outputStream, "/FontName /", 11); + (*outputFunc)(outputStream, psName, strlen(psName)); + buf = GString::format("_{0:02x} def\n", i >> 8); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + (*outputFunc)(outputStream, "/FontType 42 def\n", 17); + (*outputFunc)(outputStream, "/FontMatrix [1 0 0 1 0 0] def\n", 30); + buf = GString::format("/FontBBox [{0:d} {1:d} {2:d} {3:d}] def\n", + bbox[0], bbox[1], bbox[2], bbox[3]); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + (*outputFunc)(outputStream, "/PaintType 0 def\n", 17); + (*outputFunc)(outputStream, "/sfnts ", 7); + (*outputFunc)(outputStream, psName, strlen(psName)); + (*outputFunc)(outputStream, "_sfnts def\n", 11); + (*outputFunc)(outputStream, "/Encoding 256 array\n", 20); + for (j = 0; j < 256 && i+j < n; ++j) { + buf = GString::format("dup {0:d} /c{1:02x} put\n", j, j); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + (*outputFunc)(outputStream, "readonly def\n", 13); + (*outputFunc)(outputStream, "/CharStrings 257 dict dup begin\n", 32); + (*outputFunc)(outputStream, "/.notdef 0 def\n", 15); + for (j = 0; j < 256 && i+j < n; ++j) { + buf = GString::format("/c{0:02x} {1:d} def\n", + j, cidMap ? cidMap[i+j] : i+j); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + (*outputFunc)(outputStream, "end readonly def\n", 17); + (*outputFunc)(outputStream, + "FontName currentdict end definefont pop\n", 40); + } + + // write the Type 0 parent font + (*outputFunc)(outputStream, "16 dict begin\n", 14); + (*outputFunc)(outputStream, "/FontName /", 11); + (*outputFunc)(outputStream, psName, strlen(psName)); + (*outputFunc)(outputStream, " def\n", 5); + (*outputFunc)(outputStream, "/FontType 0 def\n", 16); + (*outputFunc)(outputStream, "/FontMatrix [1 0 0 1 0 0] def\n", 30); + (*outputFunc)(outputStream, "/FMapType 2 def\n", 16); + (*outputFunc)(outputStream, "/Encoding [\n", 12); + for (i = 0; i < n; i += 256) { + buf = GString::format("{0:d}\n", i >> 8); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + (*outputFunc)(outputStream, "] def\n", 6); + (*outputFunc)(outputStream, "/FDepVector [\n", 14); + for (i = 0; i < n; i += 256) { + (*outputFunc)(outputStream, "/", 1); + (*outputFunc)(outputStream, psName, strlen(psName)); + buf = GString::format("_{0:02x} findfont\n", i >> 8); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + (*outputFunc)(outputStream, "] def\n", 6); + (*outputFunc)(outputStream, "FontName currentdict end definefont pop\n", 40); +} + +void FoFiTrueType::convertToType0(char *psName, + FoFiOutputFunc outputFunc, + void *outputStream) { + FoFiType1C *ff; + int i; + + if (!openTypeCFF) { + return; + } + i = seekTable("CFF "); + if (!checkRegion(tables[i].offset, tables[i].len)) { + return; + } + if (!(ff = FoFiType1C::make((char *)file + tables[i].offset, + tables[i].len))) { + return; + } + ff->convertToType0(psName, outputFunc, outputStream); + delete ff; +} + +void FoFiTrueType::writeTTF(FoFiOutputFunc outputFunc, + void *outputStream, char *name, + Gushort *codeToGID) { + // this substitute cmap table maps char codes 0000-ffff directly to + // glyphs 0000-ffff + static char cmapTab[36] = { + 0, 0, // table version number + 0, 1, // number of encoding tables + 0, 1, // platform ID + 0, 0, // encoding ID + 0, 0, 0, 12, // offset of subtable + 0, 4, // subtable format + 0, 24, // subtable length + 0, 0, // subtable version + 0, 2, // segment count * 2 + 0, 2, // 2 * 2 ^ floor(log2(segCount)) + 0, 0, // floor(log2(segCount)) + 0, 0, // 2*segCount - 2*2^floor(log2(segCount)) + (char)0xff, (char)0xff, // endCount[0] + 0, 0, // reserved + 0, 0, // startCount[0] + 0, 0, // idDelta[0] + 0, 0 // pad to a mulitple of four bytes + }; + static char nameTab[8] = { + 0, 0, // format + 0, 0, // number of name records + 0, 6, // offset to start of string storage + 0, 0 // pad to multiple of four bytes + }; + static char postTab[32] = { + 0, 1, 0, 0, // format + 0, 0, 0, 0, // italic angle + 0, 0, // underline position + 0, 0, // underline thickness + 0, 0, 0, 0, // fixed pitch + 0, 0, 0, 0, // min Type 42 memory + 0, 0, 0, 0, // max Type 42 memory + 0, 0, 0, 0, // min Type 1 memory + 0, 0, 0, 0 // max Type 1 memory + }; + static char os2Tab[86] = { + 0, 1, // version + 0, 1, // xAvgCharWidth + 0, 0, // usWeightClass + 0, 0, // usWidthClass + 0, 0, // fsType + 0, 0, // ySubscriptXSize + 0, 0, // ySubscriptYSize + 0, 0, // ySubscriptXOffset + 0, 0, // ySubscriptYOffset + 0, 0, // ySuperscriptXSize + 0, 0, // ySuperscriptYSize + 0, 0, // ySuperscriptXOffset + 0, 0, // ySuperscriptYOffset + 0, 0, // yStrikeoutSize + 0, 0, // yStrikeoutPosition + 0, 0, // sFamilyClass + 0, 0, 0, 0, 0, // panose + 0, 0, 0, 0, 0, + 0, 0, 0, 0, // ulUnicodeRange1 + 0, 0, 0, 0, // ulUnicodeRange2 + 0, 0, 0, 0, // ulUnicodeRange3 + 0, 0, 0, 0, // ulUnicodeRange4 + 0, 0, 0, 0, // achVendID + 0, 0, // fsSelection + 0, 0, // usFirstCharIndex + 0, 0, // usLastCharIndex + 0, 0, // sTypoAscender + 0, 0, // sTypoDescender + 0, 0, // sTypoLineGap + 0, 0, // usWinAscent + 0, 0, // usWinDescent + 0, 0, 0, 0, // ulCodePageRange1 + 0, 0, 0, 0 // ulCodePageRange2 + }; + GBool missingCmap, missingName, missingPost, missingOS2; + GBool unsortedLoca, badCmapLen, abbrevHMTX; + int nZeroLengthTables; + int nHMetrics, advWidth, lsb; + TrueTypeLoca *locaTable; + TrueTypeTable *newTables; + char *newNameTab, *newCmapTab, *newHHEATab, *newHMTXTab; + int nNewTables, cmapIdx, cmapLen, glyfLen, newNameLen, newCmapLen, next; + int newHHEALen, newHMTXLen; + Guint locaChecksum, glyfChecksum, fileChecksum; + char *tableDir; + char locaBuf[4], checksumBuf[4]; + GBool ok; + Guint t; + int pos, i, j, k, n; + + if (openTypeCFF) { + return; + } + + // check for missing tables + // (Note: if the OS/2 table is missing, the Microsoft PCL5 driver + // will embed a PCL TrueType font with the pitch field set to zero, + // which apparently causes divide-by-zero errors. As far as I can + // tell, the only important field in the OS/2 table is + // xAvgCharWidth.) + missingCmap = (cmapIdx = seekTable("cmap")) < 0; + missingName = seekTable("name") < 0; + missingPost = seekTable("post") < 0; + missingOS2 = seekTable("OS/2") < 0; + + // read the loca table, check to see if it's sorted + locaTable = (TrueTypeLoca *)gmallocn(nGlyphs + 1, sizeof(TrueTypeLoca)); + unsortedLoca = gFalse; + i = seekTable("loca"); + pos = tables[i].offset; + ok = gTrue; + for (i = 0; i <= nGlyphs; ++i) { + if (locaFmt) { + locaTable[i].origOffset = (int)getU32BE(pos + i*4, &ok); + } else { + locaTable[i].origOffset = 2 * getU16BE(pos + i*2, &ok); + } + if (i > 0 && locaTable[i].origOffset < locaTable[i-1].origOffset) { + unsortedLoca = gTrue; + } + // glyph descriptions must be at least 12 bytes long (nContours, + // xMin, yMin, xMax, yMax, instructionLength - two bytes each); + // invalid glyph descriptions (even if they're never used) make + // Windows choke, so we work around that problem here (ideally, + // this would parse the glyph descriptions in the glyf table and + // remove any that were invalid, but this quick test is a decent + // start) + if (i > 0 && + locaTable[i].origOffset - locaTable[i-1].origOffset > 0 && + locaTable[i].origOffset - locaTable[i-1].origOffset < 12) { + locaTable[i-1].origOffset = locaTable[i].origOffset; + unsortedLoca = gTrue; + } + locaTable[i].idx = i; + } + + // check for zero-length tables + nZeroLengthTables = 0; + for (i = 0; i < nTables; ++i) { + if (tables[i].len == 0) { + ++nZeroLengthTables; + } + } + + // check for an incorrect cmap table length + badCmapLen = gFalse; + cmapLen = 0; // make gcc happy + if (!missingCmap) { + cmapLen = cmaps[0].offset + cmaps[0].len; + for (i = 1; i < nCmaps; ++i) { + if (cmaps[i].offset + cmaps[i].len > cmapLen) { + cmapLen = cmaps[i].offset + cmaps[i].len; + } + } + cmapLen -= tables[cmapIdx].offset; + if (cmapLen > tables[cmapIdx].len) { + badCmapLen = gTrue; + } + } + + // check for an abbreviated hmtx table (this is completely legal, + // but confuses the Microsoft PCL5 printer driver, which generates + // embedded fonts with the pitch field set to zero) + i = seekTable("hhea"); + nHMetrics = getU16BE(tables[i].offset + 34, &ok); + abbrevHMTX = nHMetrics < nGlyphs; + + // if nothing is broken, just write the TTF file as is + if (!missingCmap && !missingName && !missingPost && !missingOS2 && + !unsortedLoca && !badCmapLen && !abbrevHMTX && nZeroLengthTables == 0 && + !name && !codeToGID) { + (*outputFunc)(outputStream, (char *)file, len); + goto done1; + } + + // sort the 'loca' table: some (non-compliant) fonts have + // out-of-order loca tables; in order to correctly handle the case + // where (compliant) fonts have empty entries in the middle of the + // table, cmpTrueTypeLocaOffset uses offset as its primary sort key, + // and idx as its secondary key (ensuring that adjacent entries with + // the same pos value remain in the same order) + glyfLen = 0; // make gcc happy + if (unsortedLoca) { + qsort(locaTable, nGlyphs + 1, sizeof(TrueTypeLoca), + &cmpTrueTypeLocaOffset); + for (i = 0; i < nGlyphs; ++i) { + locaTable[i].len = locaTable[i+1].origOffset - locaTable[i].origOffset; + } + locaTable[nGlyphs].len = 0; + qsort(locaTable, nGlyphs + 1, sizeof(TrueTypeLoca), + &cmpTrueTypeLocaIdx); + pos = 0; + for (i = 0; i <= nGlyphs; ++i) { + locaTable[i].newOffset = pos; + pos += locaTable[i].len; + if (pos & 3) { + pos += 4 - (pos & 3); + } + } + glyfLen = pos; + } + + // compute checksums for the loca and glyf tables + locaChecksum = glyfChecksum = 0; + if (unsortedLoca) { + if (locaFmt) { + for (j = 0; j <= nGlyphs; ++j) { + locaChecksum += locaTable[j].newOffset; + } + } else { + for (j = 0; j <= nGlyphs; j += 2) { + locaChecksum += locaTable[j].newOffset << 16; + if (j + 1 <= nGlyphs) { + locaChecksum += locaTable[j+1].newOffset; + } + } + } + pos = tables[seekTable("glyf")].offset; + for (j = 0; j < nGlyphs; ++j) { + n = locaTable[j].len; + if (n > 0) { + k = locaTable[j].origOffset; + if (checkRegion(pos + k, n)) { + glyfChecksum += computeTableChecksum(file + pos + k, n); + } + } + } + } + + // construct the new name table + if (name) { + n = strlen(name); + newNameLen = (6 + 4*12 + 2 * (3*n + 7) + 3) & ~3; + newNameTab = (char *)gmalloc(newNameLen); + memset(newNameTab, 0, newNameLen); + newNameTab[0] = 0; // format selector + newNameTab[1] = 0; + newNameTab[2] = 0; // number of name records + newNameTab[3] = 4; + newNameTab[4] = 0; // offset to start of string storage + newNameTab[5] = 6 + 4*12; + next = 0; + for (i = 0; i < 4; ++i) { + newNameTab[6 + i*12 + 0] = 0; // platform ID = Microsoft + newNameTab[6 + i*12 + 1] = 3; + newNameTab[6 + i*12 + 2] = 0; // encoding ID = Unicode + newNameTab[6 + i*12 + 3] = 1; + newNameTab[6 + i*12 + 4] = 0x04; // language ID = American English + newNameTab[6 + i*12 + 5] = 0x09; + newNameTab[6 + i*12 + 6] = 0; // name ID + newNameTab[6 + i*12 + 7] = i + 1; + newNameTab[6 + i*12 + 8] = i+1 == 2 ? 0 : ((2*n) >> 8); // string length + newNameTab[6 + i*12 + 9] = i+1 == 2 ? 14 : ((2*n) & 0xff); + newNameTab[6 + i*12 + 10] = next >> 8; // string offset + newNameTab[6 + i*12 + 11] = next & 0xff; + if (i+1 == 2) { + memcpy(newNameTab + 6 + 4*12 + next, "\0R\0e\0g\0u\0l\0a\0r", 14); + next += 14; + } else { + for (j = 0; j < n; ++j) { + newNameTab[6 + 4*12 + next + 2*j] = 0; + newNameTab[6 + 4*12 + next + 2*j + 1] = name[j]; + } + next += 2*n; + } + } + } else { + newNameLen = 0; + newNameTab = NULL; + } + + // construct the new cmap table + if (codeToGID) { + newCmapLen = 44 + 256 * 2; + newCmapTab = (char *)gmalloc(newCmapLen); + newCmapTab[0] = 0; // table version number = 0 + newCmapTab[1] = 0; + newCmapTab[2] = 0; // number of encoding tables = 1 + newCmapTab[3] = 1; + newCmapTab[4] = 0; // platform ID = Microsoft + newCmapTab[5] = 3; + newCmapTab[6] = 0; // encoding ID = Unicode + newCmapTab[7] = 1; + newCmapTab[8] = 0; // offset of subtable + newCmapTab[9] = 0; + newCmapTab[10] = 0; + newCmapTab[11] = 12; + newCmapTab[12] = 0; // subtable format = 4 + newCmapTab[13] = 4; + newCmapTab[14] = 0x02; // subtable length + newCmapTab[15] = 0x20; + newCmapTab[16] = 0; // subtable version = 0 + newCmapTab[17] = 0; + newCmapTab[18] = 0; // segment count * 2 + newCmapTab[19] = 4; + newCmapTab[20] = 0; // 2 * 2 ^ floor(log2(segCount)) + newCmapTab[21] = 4; + newCmapTab[22] = 0; // floor(log2(segCount)) + newCmapTab[23] = 1; + newCmapTab[24] = 0; // 2*segCount - 2*2^floor(log2(segCount)) + newCmapTab[25] = 0; + newCmapTab[26] = 0x00; // endCount[0] + newCmapTab[27] = (char)0xff; + newCmapTab[28] = (char)0xff; // endCount[1] + newCmapTab[29] = (char)0xff; + newCmapTab[30] = 0; // reserved + newCmapTab[31] = 0; + newCmapTab[32] = 0x00; // startCount[0] + newCmapTab[33] = 0x00; + newCmapTab[34] = (char)0xff; // startCount[1] + newCmapTab[35] = (char)0xff; + newCmapTab[36] = 0; // idDelta[0] + newCmapTab[37] = 0; + newCmapTab[38] = 0; // idDelta[1] + newCmapTab[39] = 1; + newCmapTab[40] = 0; // idRangeOffset[0] + newCmapTab[41] = 4; + newCmapTab[42] = 0; // idRangeOffset[1] + newCmapTab[43] = 0; + for (i = 0; i < 256; ++i) { + newCmapTab[44 + 2*i] = codeToGID[i] >> 8; + newCmapTab[44 + 2*i + 1] = codeToGID[i] & 0xff; + } + } else { + newCmapLen = 0; + newCmapTab = NULL; + } + + // generate the new hmtx table and the updated hhea table + if (abbrevHMTX) { + i = seekTable("hhea"); + pos = tables[i].offset; + newHHEALen = 36; + newHHEATab = (char *)gmalloc(newHHEALen); + for (i = 0; i < newHHEALen; ++i) { + newHHEATab[i] = getU8(pos++, &ok); + } + newHHEATab[34] = nGlyphs >> 8; + newHHEATab[35] = nGlyphs & 0xff; + i = seekTable("hmtx"); + pos = tables[i].offset; + newHMTXLen = 4 * nGlyphs; + newHMTXTab = (char *)gmalloc(newHMTXLen); + advWidth = 0; + for (i = 0; i < nHMetrics; ++i) { + advWidth = getU16BE(pos, &ok); + lsb = getU16BE(pos + 2, &ok); + pos += 4; + newHMTXTab[4*i ] = advWidth >> 8; + newHMTXTab[4*i + 1] = advWidth & 0xff; + newHMTXTab[4*i + 2] = lsb >> 8; + newHMTXTab[4*i + 3] = lsb & 0xff; + } + for (; i < nGlyphs; ++i) { + lsb = getU16BE(pos, &ok); + pos += 2; + newHMTXTab[4*i ] = advWidth >> 8; + newHMTXTab[4*i + 1] = advWidth & 0xff; + newHMTXTab[4*i + 2] = lsb >> 8; + newHMTXTab[4*i + 3] = lsb & 0xff; + } + } else { + newHHEATab = newHMTXTab = NULL; + newHHEALen = newHMTXLen = 0; // make gcc happy + } + + // construct the new table directory: + // - keep all original tables with non-zero length + // - fix the cmap table's length, if necessary + // - add missing tables + // - sort the table by tag + // - compute new table positions, including 4-byte alignment + // - (re)compute table checksums + nNewTables = nTables - nZeroLengthTables + + (missingCmap ? 1 : 0) + (missingName ? 1 : 0) + + (missingPost ? 1 : 0) + (missingOS2 ? 1 : 0); + newTables = (TrueTypeTable *)gmallocn(nNewTables, sizeof(TrueTypeTable)); + j = 0; + for (i = 0; i < nTables; ++i) { + if (tables[i].len > 0) { + newTables[j] = tables[i]; + newTables[j].origOffset = tables[i].offset; + if (checkRegion(tables[i].offset, newTables[i].len)) { + newTables[j].checksum = + computeTableChecksum(file + tables[i].offset, tables[i].len); + if (tables[i].tag == headTag) { + // don't include the file checksum + newTables[j].checksum -= getU32BE(tables[i].offset + 8, &ok); + } + } + if (newTables[j].tag == cmapTag && codeToGID) { + newTables[j].len = newCmapLen; + newTables[j].checksum = computeTableChecksum((Guchar *)newCmapTab, + newCmapLen); + } else if (newTables[j].tag == cmapTag && badCmapLen) { + newTables[j].len = cmapLen; + } else if (newTables[j].tag == locaTag && unsortedLoca) { + newTables[j].len = (nGlyphs + 1) * (locaFmt ? 4 : 2); + newTables[j].checksum = locaChecksum; + } else if (newTables[j].tag == glyfTag && unsortedLoca) { + newTables[j].len = glyfLen; + newTables[j].checksum = glyfChecksum; + } else if (newTables[j].tag == nameTag && name) { + newTables[j].len = newNameLen; + newTables[j].checksum = computeTableChecksum((Guchar *)newNameTab, + newNameLen); + } else if (newTables[j].tag == hheaTag && abbrevHMTX) { + newTables[j].len = newHHEALen; + newTables[j].checksum = computeTableChecksum((Guchar *)newHHEATab, + newHHEALen); + } else if (newTables[j].tag == hmtxTag && abbrevHMTX) { + newTables[j].len = newHMTXLen; + newTables[j].checksum = computeTableChecksum((Guchar *)newHMTXTab, + newHMTXLen); + } + ++j; + } + } + if (missingCmap) { + newTables[j].tag = cmapTag; + if (codeToGID) { + newTables[j].checksum = computeTableChecksum((Guchar *)newCmapTab, + newCmapLen); + newTables[j].len = newCmapLen; + } else { + newTables[j].checksum = computeTableChecksum((Guchar *)cmapTab, + sizeof(cmapTab)); + newTables[j].len = sizeof(cmapTab); + } + ++j; + } + if (missingName) { + newTables[j].tag = nameTag; + if (name) { + newTables[j].checksum = computeTableChecksum((Guchar *)newNameTab, + newNameLen); + newTables[j].len = newNameLen; + } else { + newTables[j].checksum = computeTableChecksum((Guchar *)nameTab, + sizeof(nameTab)); + newTables[j].len = sizeof(nameTab); + } + ++j; + } + if (missingPost) { + newTables[j].tag = postTag; + newTables[j].checksum = computeTableChecksum((Guchar *)postTab, + sizeof(postTab)); + newTables[j].len = sizeof(postTab); + ++j; + } + if (missingOS2) { + newTables[j].tag = os2Tag; + newTables[j].checksum = computeTableChecksum((Guchar *)os2Tab, + sizeof(os2Tab)); + newTables[j].len = sizeof(os2Tab); + ++j; + } + qsort(newTables, nNewTables, sizeof(TrueTypeTable), + &cmpTrueTypeTableTag); + pos = 12 + nNewTables * 16; + for (i = 0; i < nNewTables; ++i) { + newTables[i].offset = pos; + pos += newTables[i].len; + if (pos & 3) { + pos += 4 - (pos & 3); + } + } + + // write the table directory + tableDir = (char *)gmalloc(12 + nNewTables * 16); + tableDir[0] = 0x00; // sfnt version + tableDir[1] = 0x01; + tableDir[2] = 0x00; + tableDir[3] = 0x00; + tableDir[4] = (char)((nNewTables >> 8) & 0xff); // numTables + tableDir[5] = (char)(nNewTables & 0xff); + for (i = -1, t = (Guint)nNewTables; t; ++i, t >>= 1) ; + t = 1 << (4 + i); + tableDir[6] = (char)((t >> 8) & 0xff); // searchRange + tableDir[7] = (char)(t & 0xff); + tableDir[8] = (char)((i >> 8) & 0xff); // entrySelector + tableDir[9] = (char)(i & 0xff); + t = nNewTables * 16 - t; + tableDir[10] = (char)((t >> 8) & 0xff); // rangeShift + tableDir[11] = (char)(t & 0xff); + pos = 12; + for (i = 0; i < nNewTables; ++i) { + tableDir[pos ] = (char)(newTables[i].tag >> 24); + tableDir[pos+ 1] = (char)(newTables[i].tag >> 16); + tableDir[pos+ 2] = (char)(newTables[i].tag >> 8); + tableDir[pos+ 3] = (char) newTables[i].tag; + tableDir[pos+ 4] = (char)(newTables[i].checksum >> 24); + tableDir[pos+ 5] = (char)(newTables[i].checksum >> 16); + tableDir[pos+ 6] = (char)(newTables[i].checksum >> 8); + tableDir[pos+ 7] = (char) newTables[i].checksum; + tableDir[pos+ 8] = (char)(newTables[i].offset >> 24); + tableDir[pos+ 9] = (char)(newTables[i].offset >> 16); + tableDir[pos+10] = (char)(newTables[i].offset >> 8); + tableDir[pos+11] = (char) newTables[i].offset; + tableDir[pos+12] = (char)(newTables[i].len >> 24); + tableDir[pos+13] = (char)(newTables[i].len >> 16); + tableDir[pos+14] = (char)(newTables[i].len >> 8); + tableDir[pos+15] = (char) newTables[i].len; + pos += 16; + } + (*outputFunc)(outputStream, tableDir, 12 + nNewTables * 16); + + // compute the file checksum + fileChecksum = computeTableChecksum((Guchar *)tableDir, + 12 + nNewTables * 16); + for (i = 0; i < nNewTables; ++i) { + fileChecksum += newTables[i].checksum; + } + fileChecksum = 0xb1b0afba - fileChecksum; + + // write the tables + for (i = 0; i < nNewTables; ++i) { + if (newTables[i].tag == headTag) { + if (checkRegion(newTables[i].origOffset, newTables[i].len)) { + (*outputFunc)(outputStream, (char *)file + newTables[i].origOffset, 8); + checksumBuf[0] = fileChecksum >> 24; + checksumBuf[1] = fileChecksum >> 16; + checksumBuf[2] = fileChecksum >> 8; + checksumBuf[3] = fileChecksum; + (*outputFunc)(outputStream, checksumBuf, 4); + (*outputFunc)(outputStream, + (char *)file + newTables[i].origOffset + 12, + newTables[i].len - 12); + } else { + for (j = 0; j < newTables[i].len; ++j) { + (*outputFunc)(outputStream, "\0", 1); + } + } + } else if (newTables[i].tag == cmapTag && codeToGID) { + (*outputFunc)(outputStream, newCmapTab, newTables[i].len); + } else if (newTables[i].tag == cmapTag && missingCmap) { + (*outputFunc)(outputStream, cmapTab, newTables[i].len); + } else if (newTables[i].tag == nameTag && name) { + (*outputFunc)(outputStream, newNameTab, newTables[i].len); + } else if (newTables[i].tag == nameTag && missingName) { + (*outputFunc)(outputStream, nameTab, newTables[i].len); + } else if (newTables[i].tag == postTag && missingPost) { + (*outputFunc)(outputStream, postTab, newTables[i].len); + } else if (newTables[i].tag == os2Tag && missingOS2) { + (*outputFunc)(outputStream, os2Tab, newTables[i].len); + } else if (newTables[i].tag == hheaTag && abbrevHMTX) { + (*outputFunc)(outputStream, newHHEATab, newTables[i].len); + } else if (newTables[i].tag == hmtxTag && abbrevHMTX) { + (*outputFunc)(outputStream, newHMTXTab, newTables[i].len); + } else if (newTables[i].tag == locaTag && unsortedLoca) { + for (j = 0; j <= nGlyphs; ++j) { + if (locaFmt) { + locaBuf[0] = (char)(locaTable[j].newOffset >> 24); + locaBuf[1] = (char)(locaTable[j].newOffset >> 16); + locaBuf[2] = (char)(locaTable[j].newOffset >> 8); + locaBuf[3] = (char) locaTable[j].newOffset; + (*outputFunc)(outputStream, locaBuf, 4); + } else { + locaBuf[0] = (char)(locaTable[j].newOffset >> 9); + locaBuf[1] = (char)(locaTable[j].newOffset >> 1); + (*outputFunc)(outputStream, locaBuf, 2); + } + } + } else if (newTables[i].tag == glyfTag && unsortedLoca) { + pos = tables[seekTable("glyf")].offset; + for (j = 0; j < nGlyphs; ++j) { + n = locaTable[j].len; + if (n > 0) { + k = locaTable[j].origOffset; + if (checkRegion(pos + k, n)) { + (*outputFunc)(outputStream, (char *)file + pos + k, n); + } else { + for (k = 0; k < n; ++k) { + (*outputFunc)(outputStream, "\0", 1); + } + } + if ((k = locaTable[j].len & 3)) { + (*outputFunc)(outputStream, "\0\0\0\0", 4 - k); + } + } + } + } else { + if (checkRegion(newTables[i].origOffset, newTables[i].len)) { + (*outputFunc)(outputStream, (char *)file + newTables[i].origOffset, + newTables[i].len); + } else { + for (j = 0; j < newTables[i].len; ++j) { + (*outputFunc)(outputStream, "\0", 1); + } + } + } + if (newTables[i].len & 3) { + (*outputFunc)(outputStream, "\0\0\0", 4 - (newTables[i].len & 3)); + } + } + + gfree(newHMTXTab); + gfree(newHHEATab); + gfree(newCmapTab); + gfree(newNameTab); + gfree(tableDir); + gfree(newTables); + done1: + gfree(locaTable); +} + +void FoFiTrueType::cvtEncoding(char **encoding, + FoFiOutputFunc outputFunc, + void *outputStream) { + char *name; + GString *buf; + int i; + + (*outputFunc)(outputStream, "/Encoding 256 array\n", 20); + if (encoding) { + for (i = 0; i < 256; ++i) { + if (!(name = encoding[i])) { + name = ".notdef"; + } + buf = GString::format("dup {0:d} /", i); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + (*outputFunc)(outputStream, name, strlen(name)); + (*outputFunc)(outputStream, " put\n", 5); + } + } else { + for (i = 0; i < 256; ++i) { + buf = GString::format("dup {0:d} /c{1:02x} put\n", i, i); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + } + (*outputFunc)(outputStream, "readonly def\n", 13); +} + +void FoFiTrueType::cvtCharStrings(char **encoding, + Gushort *codeToGID, + FoFiOutputFunc outputFunc, + void *outputStream) { + char *name; + GString *buf; + char buf2[16]; + int i, k; + + // always define '.notdef' + (*outputFunc)(outputStream, "/CharStrings 256 dict dup begin\n", 32); + (*outputFunc)(outputStream, "/.notdef 0 def\n", 15); + + // if there's no 'cmap' table, punt + if (nCmaps == 0) { + goto err; + } + + // map char name to glyph index: + // 1. use encoding to map name to char code + // 2. use codeToGID to map char code to glyph index + // N.B. We do this in reverse order because font subsets can have + // weird encodings that use the same character name twice, and + // the first definition is probably the one we want. + k = 0; // make gcc happy + for (i = 255; i >= 0; --i) { + if (encoding) { + name = encoding[i]; + } else { + sprintf(buf2, "c%02x", i); + name = buf2; + } + if (name && strcmp(name, ".notdef")) { + k = codeToGID[i]; + // note: Distiller (maybe Adobe's PS interpreter in general) + // doesn't like TrueType fonts that have CharStrings entries + // which point to nonexistent glyphs, hence the (k < nGlyphs) + // test + if (k > 0 && k < nGlyphs) { + (*outputFunc)(outputStream, "/", 1); + (*outputFunc)(outputStream, name, strlen(name)); + buf = GString::format(" {0:d} def\n", k); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + } + } + + err: + (*outputFunc)(outputStream, "end readonly def\n", 17); +} + +void FoFiTrueType::cvtSfnts(FoFiOutputFunc outputFunc, + void *outputStream, GString *name, + GBool needVerticalMetrics) { + Guchar headData[54]; + TrueTypeLoca *locaTable; + Guchar *locaData; + TrueTypeTable newTables[nT42Tables]; + Guchar tableDir[12 + nT42Tables*16]; + GBool ok; + Guint checksum; + int nNewTables; + int length, pos, glyfPos, i, j, k; + Guchar vheaTab[36] = { + 0, 1, 0, 0, // table version number + 0, 0, // ascent + 0, 0, // descent + 0, 0, // reserved + 0, 0, // max advance height + 0, 0, // min top side bearing + 0, 0, // min bottom side bearing + 0, 0, // y max extent + 0, 0, // caret slope rise + 0, 1, // caret slope run + 0, 0, // caret offset + 0, 0, // reserved + 0, 0, // reserved + 0, 0, // reserved + 0, 0, // reserved + 0, 0, // metric data format + 0, 1 // number of advance heights in vmtx table + }; + Guchar *vmtxTab; + GBool needVhea, needVmtx; + int advance; + + // construct the 'head' table, zero out the font checksum + i = seekTable("head"); + pos = tables[i].offset; + if (!checkRegion(pos, 54)) { + return; + } + memcpy(headData, file + pos, 54); + headData[8] = headData[9] = headData[10] = headData[11] = (Guchar)0; + + // read the original 'loca' table, pad entries out to 4 bytes, and + // sort it into proper order -- some (non-compliant) fonts have + // out-of-order loca tables; in order to correctly handle the case + // where (compliant) fonts have empty entries in the middle of the + // table, cmpTrueTypeLocaPos uses offset as its primary sort key, + // and idx as its secondary key (ensuring that adjacent entries with + // the same pos value remain in the same order) + locaTable = (TrueTypeLoca *)gmallocn(nGlyphs + 1, sizeof(TrueTypeLoca)); + i = seekTable("loca"); + pos = tables[i].offset; + ok = gTrue; + for (i = 0; i <= nGlyphs; ++i) { + locaTable[i].idx = i; + if (locaFmt) { + locaTable[i].origOffset = (int)getU32BE(pos + i*4, &ok); + } else { + locaTable[i].origOffset = 2 * getU16BE(pos + i*2, &ok); + } + } + qsort(locaTable, nGlyphs + 1, sizeof(TrueTypeLoca), + &cmpTrueTypeLocaOffset); + for (i = 0; i < nGlyphs; ++i) { + locaTable[i].len = locaTable[i+1].origOffset - locaTable[i].origOffset; + } + locaTable[nGlyphs].len = 0; + qsort(locaTable, nGlyphs + 1, sizeof(TrueTypeLoca), + &cmpTrueTypeLocaIdx); + pos = 0; + for (i = 0; i <= nGlyphs; ++i) { + locaTable[i].newOffset = pos; + pos += locaTable[i].len; + if (pos & 3) { + pos += 4 - (pos & 3); + } + } + + // construct the new 'loca' table + locaData = (Guchar *)gmallocn(nGlyphs + 1, (locaFmt ? 4 : 2)); + for (i = 0; i <= nGlyphs; ++i) { + pos = locaTable[i].newOffset; + if (locaFmt) { + locaData[4*i ] = (Guchar)(pos >> 24); + locaData[4*i+1] = (Guchar)(pos >> 16); + locaData[4*i+2] = (Guchar)(pos >> 8); + locaData[4*i+3] = (Guchar) pos; + } else { + locaData[2*i ] = (Guchar)(pos >> 9); + locaData[2*i+1] = (Guchar)(pos >> 1); + } + } + + // count the number of tables + nNewTables = 0; + for (i = 0; i < nT42Tables; ++i) { + if (t42Tables[i].required || + seekTable(t42Tables[i].tag) >= 0) { + ++nNewTables; + } + } + vmtxTab = NULL; // make gcc happy + advance = 0; // make gcc happy + if (needVerticalMetrics) { + needVhea = seekTable("vhea") < 0; + needVmtx = seekTable("vmtx") < 0; + if (needVhea || needVmtx) { + i = seekTable("head"); + advance = getU16BE(tables[i].offset + 18, &ok); // units per em + if (needVhea) { + ++nNewTables; + } + if (needVmtx) { + ++nNewTables; + } + } + } + + // construct the new table headers, including table checksums + // (pad each table out to a multiple of 4 bytes) + pos = 12 + nNewTables*16; + k = 0; + for (i = 0; i < nT42Tables; ++i) { + length = -1; + checksum = 0; // make gcc happy + if (i == t42HeadTable) { + length = 54; + checksum = computeTableChecksum(headData, 54); + } else if (i == t42LocaTable) { + length = (nGlyphs + 1) * (locaFmt ? 4 : 2); + checksum = computeTableChecksum(locaData, length); + } else if (i == t42GlyfTable) { + length = 0; + checksum = 0; + glyfPos = tables[seekTable("glyf")].offset; + for (j = 0; j < nGlyphs; ++j) { + length += locaTable[j].len; + if (length & 3) { + length += 4 - (length & 3); + } + if (checkRegion(glyfPos + locaTable[j].origOffset, locaTable[j].len)) { + checksum += + computeTableChecksum(file + glyfPos + locaTable[j].origOffset, + locaTable[j].len); + } + } + } else { + if ((j = seekTable(t42Tables[i].tag)) >= 0) { + length = tables[j].len; + if (checkRegion(tables[j].offset, length)) { + checksum = computeTableChecksum(file + tables[j].offset, length); + } + } else if (needVerticalMetrics && i == t42VheaTable) { + vheaTab[10] = advance / 256; // max advance height + vheaTab[11] = advance % 256; + length = sizeof(vheaTab); + checksum = computeTableChecksum(vheaTab, length); + } else if (needVerticalMetrics && i == t42VmtxTable) { + length = 4 + (nGlyphs - 1) * 4; + vmtxTab = (Guchar *)gmalloc(length); + vmtxTab[0] = advance / 256; + vmtxTab[1] = advance % 256; + for (j = 2; j < length; j += 2) { + vmtxTab[j] = 0; + vmtxTab[j+1] = 0; + } + checksum = computeTableChecksum(vmtxTab, length); + } else if (t42Tables[i].required) { + //~ error(-1, "Embedded TrueType font is missing a required table ('%s')", + //~ t42Tables[i].tag); + length = 0; + checksum = 0; + } + } + if (length >= 0) { + newTables[k].tag = ((t42Tables[i].tag[0] & 0xff) << 24) | + ((t42Tables[i].tag[1] & 0xff) << 16) | + ((t42Tables[i].tag[2] & 0xff) << 8) | + (t42Tables[i].tag[3] & 0xff); + newTables[k].checksum = checksum; + newTables[k].offset = pos; + newTables[k].len = length; + pos += length; + if (pos & 3) { + pos += 4 - (length & 3); + } + ++k; + } + } + + // construct the table directory + tableDir[0] = 0x00; // sfnt version + tableDir[1] = 0x01; + tableDir[2] = 0x00; + tableDir[3] = 0x00; + tableDir[4] = 0; // numTables + tableDir[5] = nNewTables; + tableDir[6] = 0; // searchRange + tableDir[7] = (Guchar)128; + tableDir[8] = 0; // entrySelector + tableDir[9] = 3; + tableDir[10] = 0; // rangeShift + tableDir[11] = (Guchar)(16 * nNewTables - 128); + pos = 12; + for (i = 0; i < nNewTables; ++i) { + tableDir[pos ] = (Guchar)(newTables[i].tag >> 24); + tableDir[pos+ 1] = (Guchar)(newTables[i].tag >> 16); + tableDir[pos+ 2] = (Guchar)(newTables[i].tag >> 8); + tableDir[pos+ 3] = (Guchar) newTables[i].tag; + tableDir[pos+ 4] = (Guchar)(newTables[i].checksum >> 24); + tableDir[pos+ 5] = (Guchar)(newTables[i].checksum >> 16); + tableDir[pos+ 6] = (Guchar)(newTables[i].checksum >> 8); + tableDir[pos+ 7] = (Guchar) newTables[i].checksum; + tableDir[pos+ 8] = (Guchar)(newTables[i].offset >> 24); + tableDir[pos+ 9] = (Guchar)(newTables[i].offset >> 16); + tableDir[pos+10] = (Guchar)(newTables[i].offset >> 8); + tableDir[pos+11] = (Guchar) newTables[i].offset; + tableDir[pos+12] = (Guchar)(newTables[i].len >> 24); + tableDir[pos+13] = (Guchar)(newTables[i].len >> 16); + tableDir[pos+14] = (Guchar)(newTables[i].len >> 8); + tableDir[pos+15] = (Guchar) newTables[i].len; + pos += 16; + } + + // compute the font checksum and store it in the head table + checksum = computeTableChecksum(tableDir, 12 + nNewTables*16); + for (i = 0; i < nNewTables; ++i) { + checksum += newTables[i].checksum; + } + checksum = 0xb1b0afba - checksum; // because the TrueType spec says so + headData[ 8] = (Guchar)(checksum >> 24); + headData[ 9] = (Guchar)(checksum >> 16); + headData[10] = (Guchar)(checksum >> 8); + headData[11] = (Guchar) checksum; + + // start the sfnts array + if (name) { + (*outputFunc)(outputStream, "/", 1); + (*outputFunc)(outputStream, name->getCString(), name->getLength()); + (*outputFunc)(outputStream, " [\n", 3); + } else { + (*outputFunc)(outputStream, "/sfnts [\n", 9); + } + + // write the table directory + dumpString(tableDir, 12 + nNewTables*16, outputFunc, outputStream); + + // write the tables + for (i = 0; i < nNewTables; ++i) { + if (i == t42HeadTable) { + dumpString(headData, 54, outputFunc, outputStream); + } else if (i == t42LocaTable) { + length = (nGlyphs + 1) * (locaFmt ? 4 : 2); + dumpString(locaData, length, outputFunc, outputStream); + } else if (i == t42GlyfTable) { + glyfPos = tables[seekTable("glyf")].offset; + for (j = 0; j < nGlyphs; ++j) { + if (locaTable[j].len > 0 && + checkRegion(glyfPos + locaTable[j].origOffset, locaTable[j].len)) { + dumpString(file + glyfPos + locaTable[j].origOffset, + locaTable[j].len, outputFunc, outputStream); + } + } + } else { + // length == 0 means the table is missing and the error was + // already reported during the construction of the table + // headers + if ((length = newTables[i].len) > 0) { + if ((j = seekTable(t42Tables[i].tag)) >= 0 && + checkRegion(tables[j].offset, tables[j].len)) { + dumpString(file + tables[j].offset, tables[j].len, + outputFunc, outputStream); + } else if (needVerticalMetrics && i == t42VheaTable) { + dumpString(vheaTab, length, outputFunc, outputStream); + } else if (needVerticalMetrics && i == t42VmtxTable) { + dumpString(vmtxTab, length, outputFunc, outputStream); + gfree(vmtxTab); + } + } + } + } + + // end the sfnts array + (*outputFunc)(outputStream, "] def\n", 6); + + gfree(locaData); + gfree(locaTable); +} + +void FoFiTrueType::dumpString(Guchar *s, int length, + FoFiOutputFunc outputFunc, + void *outputStream) { + GString *buf; + int pad, i, j; + + (*outputFunc)(outputStream, "<", 1); + for (i = 0; i < length; i += 32) { + for (j = 0; j < 32 && i+j < length; ++j) { + buf = GString::format("{0:02x}", s[i+j] & 0xff); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + if (i % (65536 - 32) == 65536 - 64) { + (*outputFunc)(outputStream, ">\n<", 3); + } else if (i+32 < length) { + (*outputFunc)(outputStream, "\n", 1); + } + } + if (length & 3) { + pad = 4 - (length & 3); + for (i = 0; i < pad; ++i) { + (*outputFunc)(outputStream, "00", 2); + } + } + // add an extra zero byte because the Adobe Type 42 spec says so + (*outputFunc)(outputStream, "00>\n", 4); +} + +Guint FoFiTrueType::computeTableChecksum(Guchar *data, int length) { + Guint checksum, word; + int i; + + checksum = 0; + for (i = 0; i+3 < length; i += 4) { + word = ((data[i ] & 0xff) << 24) + + ((data[i+1] & 0xff) << 16) + + ((data[i+2] & 0xff) << 8) + + (data[i+3] & 0xff); + checksum += word; + } + if (length & 3) { + word = 0; + i = length & ~3; + switch (length & 3) { + case 3: + word |= (data[i+2] & 0xff) << 8; + case 2: + word |= (data[i+1] & 0xff) << 16; + case 1: + word |= (data[i ] & 0xff) << 24; + break; + } + checksum += word; + } + return checksum; +} + +void FoFiTrueType::parse() { + Guint topTag; + int pos, ver, i, j; + + parsedOk = gTrue; + + // look for a collection (TTC) + topTag = getU32BE(0, &parsedOk); + if (!parsedOk) { + return; + } + if (topTag == ttcfTag) { + /* TTC font */ + int dircount; + + dircount = getU32BE(8, &parsedOk); + if (!parsedOk) + return; + if (! dircount) { + parsedOk = gFalse; + return; + } + + if (faceIndex >= dircount) + faceIndex = 0; + pos = getU32BE(12 + faceIndex * 4, &parsedOk); + if (! parsedOk) + return; + } else { + pos = 0; + } + + // check the sfnt version + ver = getU32BE(pos, &parsedOk); + if (!parsedOk) { + return; + } + openTypeCFF = ver == 0x4f54544f; // 'OTTO' + + // read the table directory + nTables = getU16BE(pos + 4, &parsedOk); + if (!parsedOk) { + return; + } + tables = (TrueTypeTable *)gmallocn(nTables, sizeof(TrueTypeTable)); + pos += 12; + for (i = 0; i < nTables; ++i) { + tables[i].tag = getU32BE(pos, &parsedOk); + tables[i].checksum = getU32BE(pos + 4, &parsedOk); + tables[i].offset = (int)getU32BE(pos + 8, &parsedOk); + tables[i].len = (int)getU32BE(pos + 12, &parsedOk); + if (tables[i].offset + tables[i].len < tables[i].offset || + tables[i].offset + tables[i].len > len) { + parsedOk = gFalse; + } + pos += 16; + } + if (!parsedOk) { + return; + } + + // check for tables that are required by both the TrueType spec and + // the Type 42 spec + if (seekTable("head") < 0 || + seekTable("hhea") < 0 || + seekTable("maxp") < 0 || + seekTable("hmtx") < 0 || + (!openTypeCFF && seekTable("loca") < 0) || + (!openTypeCFF && seekTable("glyf") < 0) || + (openTypeCFF && seekTable("CFF ") < 0)) { + parsedOk = gFalse; + return; + } + + // read the cmaps + if ((i = seekTable("cmap")) >= 0) { + pos = tables[i].offset + 2; + nCmaps = getU16BE(pos, &parsedOk); + pos += 2; + if (!parsedOk) { + return; + } + cmaps = (TrueTypeCmap *)gmallocn(nCmaps, sizeof(TrueTypeCmap)); + for (j = 0; j < nCmaps; ++j) { + cmaps[j].platform = getU16BE(pos, &parsedOk); + cmaps[j].encoding = getU16BE(pos + 2, &parsedOk); + cmaps[j].offset = tables[i].offset + getU32BE(pos + 4, &parsedOk); + pos += 8; + cmaps[j].fmt = getU16BE(cmaps[j].offset, &parsedOk); + cmaps[j].len = getU16BE(cmaps[j].offset + 2, &parsedOk); + } + if (!parsedOk) { + return; + } + } else { + nCmaps = 0; + } + + // get the number of glyphs from the maxp table + i = seekTable("maxp"); + nGlyphs = getU16BE(tables[i].offset + 4, &parsedOk); + if (!parsedOk) { + return; + } + + // get the bbox and loca table format from the head table + i = seekTable("head"); + bbox[0] = getS16BE(tables[i].offset + 36, &parsedOk); + bbox[1] = getS16BE(tables[i].offset + 38, &parsedOk); + bbox[2] = getS16BE(tables[i].offset + 40, &parsedOk); + bbox[3] = getS16BE(tables[i].offset + 42, &parsedOk); + locaFmt = getS16BE(tables[i].offset + 50, &parsedOk); + if (!parsedOk) { + return; + } + + // make sure the loca table is sane (correct length and entries are + // in bounds) + if (!openTypeCFF) { + i = seekTable("loca"); + if (tables[i].len < 0) { + parsedOk = gFalse; + return; + } + if (tables[i].len < (nGlyphs + 1) * (locaFmt ? 4 : 2)) { + nGlyphs = tables[i].len / (locaFmt ? 4 : 2) - 1; + } + for (j = 0; j <= nGlyphs; ++j) { + if (locaFmt) { + pos = (int)getU32BE(tables[i].offset + j*4, &parsedOk); + } else { + pos = getU16BE(tables[i].offset + j*2, &parsedOk); + } + if (pos < 0 || pos > len) { + parsedOk = gFalse; + } + } + if (!parsedOk) { + return; + } + } + + // read the post table + readPostTable(); +} + +void FoFiTrueType::readPostTable() { + GString *name; + int tablePos, postFmt, stringIdx, stringPos; + GBool ok; + int i, j, n, m; + + ok = gTrue; + if ((i = seekTable("post")) < 0) { + return; + } + tablePos = tables[i].offset; + postFmt = getU32BE(tablePos, &ok); + if (!ok) { + goto err; + } + if (postFmt == 0x00010000) { + nameToGID = new GHash(gTrue); + for (i = 0; i < 258; ++i) { + nameToGID->add(new GString(macGlyphNames[i]), i); + } + } else if (postFmt == 0x00020000) { + nameToGID = new GHash(gTrue); + n = getU16BE(tablePos + 32, &ok); + if (!ok) { + goto err; + } + if (n > nGlyphs) { + n = nGlyphs; + } + stringIdx = 0; + stringPos = tablePos + 34 + 2*n; + for (i = 0; i < n; ++i) { + j = getU16BE(tablePos + 34 + 2*i, &ok); + if (j < 258) { + nameToGID->removeInt(macGlyphNames[j]); + nameToGID->add(new GString(macGlyphNames[j]), i); + } else { + j -= 258; + if (j != stringIdx) { + for (stringIdx = 0, stringPos = tablePos + 34 + 2*n; + stringIdx < j; + ++stringIdx, stringPos += 1 + getU8(stringPos, &ok)) ; + if (!ok) { + goto err; + } + } + m = getU8(stringPos, &ok); + if (!ok || !checkRegion(stringPos + 1, m)) { + goto err; + } + name = new GString((char *)&file[stringPos + 1], m); + nameToGID->removeInt(name); + nameToGID->add(name, i); + ++stringIdx; + stringPos += 1 + m; + } + } + } else if (postFmt == 0x00028000) { + nameToGID = new GHash(gTrue); + for (i = 0; i < nGlyphs; ++i) { + j = getU8(tablePos + 32 + i, &ok); + if (!ok) { + goto err; + } + if (j < 258) { + nameToGID->removeInt(macGlyphNames[j]); + nameToGID->add(new GString(macGlyphNames[j]), i); + } + } + } + + return; + + err: + if (nameToGID) { + delete nameToGID; + nameToGID = NULL; + } +} + +int FoFiTrueType::seekTable(char *tag) { + Guint tagI; + int i; + + tagI = ((tag[0] & 0xff) << 24) | + ((tag[1] & 0xff) << 16) | + ((tag[2] & 0xff) << 8) | + (tag[3] & 0xff); + for (i = 0; i < nTables; ++i) { + if (tables[i].tag == tagI) { + return i; + } + } + return -1; +} diff --git a/kpdf/xpdf/fofi/FoFiTrueType.h b/kpdf/xpdf/fofi/FoFiTrueType.h new file mode 100644 index 00000000..eadf5c9f --- /dev/null +++ b/kpdf/xpdf/fofi/FoFiTrueType.h @@ -0,0 +1,175 @@ +//======================================================================== +// +// FoFiTrueType.h +// +// Copyright 1999-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef FOFITRUETYPE_H +#define FOFITRUETYPE_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" +#include "FoFiBase.h" + +class GString; +class GHash; +struct TrueTypeTable; +struct TrueTypeCmap; + +//------------------------------------------------------------------------ +// FoFiTrueType +//------------------------------------------------------------------------ + +class FoFiTrueType: public FoFiBase { +public: + + // Create a FoFiTrueType object from a memory buffer. + static FoFiTrueType *make(char *fileA, int lenA, int faceIndexA=0); + + // Create a FoFiTrueType object from a file on disk. + static FoFiTrueType *load(char *fileName, int faceIndexA=0); + + virtual ~FoFiTrueType(); + + // Returns true if this an OpenType font containing CFF data, false + // if it's a TrueType font (or OpenType font with TrueType data). + GBool isOpenTypeCFF() { return openTypeCFF; } + + // Return the number of cmaps defined by this font. + int getNumCmaps(); + + // Return the platform ID of the th cmap. + int getCmapPlatform(int i); + + // Return the encoding ID of the th cmap. + int getCmapEncoding(int i); + + // Return the index of the cmap for , . Returns + // -1 if there is no corresponding cmap. + int findCmap(int platform, int encoding); + + // Return the GID corresponding to according to the th cmap. + Gushort mapCodeToGID(int i, int c); + + // Returns the GID corresponding to according to the post + // table. Returns 0 if there is no mapping for or if the + // font does not have a post table. + int mapNameToGID(char *name); + + // Return the mapping from CIDs to GIDs, and return the number of + // CIDs in *. This is only useful for CID fonts. (Only + // useful for OpenType CFF fonts.) + Gushort *getCIDToGIDMap(int *nCIDs); + + // Returns the least restrictive embedding licensing right (as + // defined by the TrueType spec): + // * 4: OS/2 table is missing or invalid + // * 3: installable embedding + // * 2: editable embedding + // * 1: preview & print embedding + // * 0: restricted license embedding + int getEmbeddingRights(); + + // Convert to a Type 42 font, suitable for embedding in a PostScript + // file. will be used as the PostScript font name (so we + // don't need to depend on the 'name' table in the font). The + // array specifies the mapping from char codes to names. + // If is NULL, the encoding is unknown or undefined. The + // array specifies the mapping from char codes to GIDs. + // (Not useful for OpenType CFF fonts.) + void convertToType42(char *psName, char **encoding, + Gushort *codeToGID, + FoFiOutputFunc outputFunc, void *outputStream); + + // Convert to a Type 1 font, suitable for embedding in a PostScript + // file. This is only useful with 8-bit fonts. If is + // not NULL, it will be used in place of the encoding in the Type 1C + // font. If is true the eexec section will be hex-encoded, + // otherwise it will be left as binary data. If is + // non-NULL, it will be used as the PostScript font name. (Only + // useful for OpenType CFF fonts.) + void convertToType1(char *psName, char **newEncoding, GBool ascii, + FoFiOutputFunc outputFunc, void *outputStream); + + // Convert to a Type 2 CIDFont, suitable for embedding in a + // PostScript file. will be used as the PostScript font + // name (so we don't need to depend on the 'name' table in the + // font). The array maps CIDs to GIDs; it has + // entries. (Not useful for OpenType CFF fonts.) + void convertToCIDType2(char *psName, Gushort *cidMap, int nCIDs, + GBool needVerticalMetrics, + FoFiOutputFunc outputFunc, void *outputStream); + + // Convert to a Type 0 CIDFont, suitable for embedding in a + // PostScript file. will be used as the PostScript font + // name. (Only useful for OpenType CFF fonts.) + void convertToCIDType0(char *psName, + FoFiOutputFunc outputFunc, void *outputStream); + + // Convert to a Type 0 (but non-CID) composite font, suitable for + // embedding in a PostScript file. will be used as the + // PostScript font name (so we don't need to depend on the 'name' + // table in the font). The array maps CIDs to GIDs; it has + // entries. (Not useful for OpenType CFF fonts.) + void convertToType0(char *psName, Gushort *cidMap, int nCIDs, + GBool needVerticalMetrics, + FoFiOutputFunc outputFunc, void *outputStream); + + // Convert to a Type 0 (but non-CID) composite font, suitable for + // embedding in a PostScript file. will be used as the + // PostScript font name. (Only useful for OpenType CFF fonts.) + void convertToType0(char *psName, + FoFiOutputFunc outputFunc, void *outputStream); + + // Write a clean TTF file, filling in missing tables and correcting + // various other errors. If is non-NULL, the font is renamed + // to . If is non-NULL, the font is re-encoded, + // using a Windows Unicode cmap. If is NULL and the font is + // complete and correct, it will be written unmodified. (Not useful + // for OpenType CFF fonts.) + void writeTTF(FoFiOutputFunc outputFunc, void *outputStream, + char *name = NULL, Gushort *codeToGID = NULL); + +private: + + FoFiTrueType(char *fileA, int lenA, GBool freeFileDataA, int faceIndexA); + void cvtEncoding(char **encoding, + FoFiOutputFunc outputFunc, + void *outputStream); + void cvtCharStrings(char **encoding, + Gushort *codeToGID, + FoFiOutputFunc outputFunc, + void *outputStream); + void cvtSfnts(FoFiOutputFunc outputFunc, + void *outputStream, GString *name, + GBool needVerticalMetrics); + void dumpString(Guchar *s, int length, + FoFiOutputFunc outputFunc, + void *outputStream); + Guint computeTableChecksum(Guchar *data, int length); + void parse(); + void readPostTable(); + int seekTable(char *tag); + + TrueTypeTable *tables; + int nTables; + TrueTypeCmap *cmaps; + int nCmaps; + int nGlyphs; + int locaFmt; + int bbox[4]; + GHash *nameToGID; + GBool openTypeCFF; + + GBool parsedOk; + int faceIndex; +}; + +#endif diff --git a/kpdf/xpdf/fofi/FoFiType1.cc b/kpdf/xpdf/fofi/FoFiType1.cc new file mode 100644 index 00000000..efad5ee4 --- /dev/null +++ b/kpdf/xpdf/fofi/FoFiType1.cc @@ -0,0 +1,252 @@ +//======================================================================== +// +// FoFiType1.cc +// +// Copyright 1999-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include "gmem.h" +#include "FoFiEncodings.h" +#include "FoFiType1.h" + +//------------------------------------------------------------------------ +// FoFiType1 +//------------------------------------------------------------------------ + +FoFiType1 *FoFiType1::make(char *fileA, int lenA) { + return new FoFiType1(fileA, lenA, gFalse); +} + +FoFiType1 *FoFiType1::load(char *fileName) { + char *fileA; + int lenA; + + if (!(fileA = FoFiBase::readFile(fileName, &lenA))) { + return NULL; + } + return new FoFiType1(fileA, lenA, gTrue); +} + +FoFiType1::FoFiType1(char *fileA, int lenA, GBool freeFileDataA): + FoFiBase(fileA, lenA, freeFileDataA) +{ + name = NULL; + encoding = NULL; + parsed = gFalse; +} + +FoFiType1::~FoFiType1() { + int i; + + if (name) { + gfree(name); + } + if (encoding && encoding != fofiType1StandardEncoding) { + for (i = 0; i < 256; ++i) { + gfree(encoding[i]); + } + gfree(encoding); + } +} + +char *FoFiType1::getName() { + if (!parsed) { + parse(); + } + return name; +} + +char **FoFiType1::getEncoding() { + if (!parsed) { + parse(); + } + return encoding; +} + +void FoFiType1::writeEncoded(char **newEncoding, + FoFiOutputFunc outputFunc, void *outputStream) { + char buf[512]; + char *line, *line2, *p; + int i; + + // copy everything up to the encoding + for (line = (char *)file; + line && strncmp(line, "/Encoding", 9); + line = getNextLine(line)) ; + if (!line) { + // no encoding - just copy the whole font file + (*outputFunc)(outputStream, (char *)file, len); + return; + } + (*outputFunc)(outputStream, (char *)file, line - (char *)file); + + // write the new encoding + (*outputFunc)(outputStream, "/Encoding 256 array\n", 20); + (*outputFunc)(outputStream, + "0 1 255 {1 index exch /.notdef put} for\n", 40); + for (i = 0; i < 256; ++i) { + if (newEncoding[i]) { + sprintf(buf, "dup %d /%s put\n", i, newEncoding[i]); + (*outputFunc)(outputStream, buf, strlen(buf)); + } + } + (*outputFunc)(outputStream, "readonly def\n", 13); + + // find the end of the encoding data + //~ this ought to parse PostScript tokens + if (!strncmp(line, "/Encoding StandardEncoding def", 30)) { + line = getNextLine(line); + } else { + // skip "/Encoding" + one whitespace char, + // then look for 'def' preceded by PostScript whitespace + p = line + 10; + line = NULL; + for (; p < (char *)file + len; ++p) { + if ((*p == ' ' || *p == '\t' || *p == '\x0a' || + *p == '\x0d' || *p == '\x0c' || *p == '\0') && + p + 4 <= (char *)file + len && + !strncmp(p + 1, "def", 3)) { + line = p + 4; + break; + } + } + } + + // some fonts have two /Encoding entries in their dictionary, so we + // check for a second one here + if (line) { + for (line2 = line, i = 0; + i < 20 && line2 && strncmp(line2, "/Encoding", 9); + line2 = getNextLine(line2), ++i) ; + if (i < 20 && line2) { + (*outputFunc)(outputStream, line, line2 - line); + if (!strncmp(line2, "/Encoding StandardEncoding def", 30)) { + line = getNextLine(line2); + } else { + // skip "/Encoding" + one whitespace char, + // then look for 'def' preceded by PostScript whitespace + p = line2 + 10; + line = NULL; + for (; p < (char *)file + len; ++p) { + if ((*p == ' ' || *p == '\t' || *p == '\x0a' || + *p == '\x0d' || *p == '\x0c' || *p == '\0') && + p + 4 <= (char *)file + len && + !strncmp(p + 1, "def", 3)) { + line = p + 4; + break; + } + } + } + } + + // copy everything after the encoding + if (line) { + (*outputFunc)(outputStream, line, ((char *)file + len) - line); + } + } +} + +char *FoFiType1::getNextLine(char *line) { + while (line < (char *)file + len && *line != '\x0a' && *line != '\x0d') { + ++line; + } + if (line < (char *)file + len && *line == '\x0d') { + ++line; + } + if (line < (char *)file + len && *line == '\x0a') { + ++line; + } + if (line >= (char *)file + len) { + return NULL; + } + return line; +} + +void FoFiType1::parse() { + char *line, *line1, *p, *p2; + char buf[256]; + char c; + int n, code, i, j; + + for (i = 1, line = (char *)file; + i <= 100 && line && (!name || !encoding); + ++i) { + + // get font name + if (!name && !strncmp(line, "/FontName", 9)) { + strncpy(buf, line, 255); + buf[255] = '\0'; + if ((p = strchr(buf+9, '/')) && + (p = strtok(p+1, " \t\n\r"))) { + name = copyString(p); + } + line = getNextLine(line); + + // get encoding + } else if (!encoding && + !strncmp(line, "/Encoding StandardEncoding def", 30)) { + encoding = fofiType1StandardEncoding; + } else if (!encoding && + !strncmp(line, "/Encoding 256 array", 19)) { + encoding = (char **)gmallocn(256, sizeof(char *)); + for (j = 0; j < 256; ++j) { + encoding[j] = NULL; + } + for (j = 0, line = getNextLine(line); + j < 300 && line && (line1 = getNextLine(line)); + ++j, line = line1) { + if ((n = line1 - line) > 255) { + n = 255; + } + strncpy(buf, line, n); + buf[n] = '\0'; + for (p = buf; *p == ' ' || *p == '\t'; ++p) ; + if (!strncmp(p, "dup", 3)) { + for (p += 3; *p == ' ' || *p == '\t'; ++p) ; + for (p2 = p; *p2 >= '0' && *p2 <= '9'; ++p2) ; + if (*p2) { + c = *p2; + *p2 = '\0'; + code = atoi(p); + *p2 = c; + if (code == 8 && *p2 == '#') { + code = 0; + for (++p2; *p2 >= '0' && *p2 <= '7'; ++p2) { + code = code * 8 + (*p2 - '0'); + } + } + if (code < 256) { + for (p = p2; *p == ' ' || *p == '\t'; ++p) ; + if (*p == '/') { + ++p; + for (p2 = p; *p2 && *p2 != ' ' && *p2 != '\t'; ++p2) ; + *p2 = '\0'; + encoding[code] = copyString(p); + } + } + } + } else { + if (strtok(buf, " \t") && + (p = strtok(NULL, " \t\n\r")) && !strcmp(p, "def")) { + break; + } + } + } + //~ check for getinterval/putinterval junk + + } else { + line = getNextLine(line); + } + } + + parsed = gTrue; +} diff --git a/kpdf/xpdf/fofi/FoFiType1.h b/kpdf/xpdf/fofi/FoFiType1.h new file mode 100644 index 00000000..843352b2 --- /dev/null +++ b/kpdf/xpdf/fofi/FoFiType1.h @@ -0,0 +1,59 @@ +//======================================================================== +// +// FoFiType1.h +// +// Copyright 1999-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef FOFITYPE1_H +#define FOFITYPE1_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" +#include "FoFiBase.h" + +//------------------------------------------------------------------------ +// FoFiType1 +//------------------------------------------------------------------------ + +class FoFiType1: public FoFiBase { +public: + + // Create a FoFiType1 object from a memory buffer. + static FoFiType1 *make(char *fileA, int lenA); + + // Create a FoFiType1 object from a file on disk. + static FoFiType1 *load(char *fileName); + + virtual ~FoFiType1(); + + // Return the font name. + char *getName(); + + // Return the encoding, as an array of 256 names (any of which may + // be NULL). + char **getEncoding(); + + // Write a version of the Type 1 font file with a new encoding. + void writeEncoded(char **newEncoding, + FoFiOutputFunc outputFunc, void *outputStream); + +private: + + FoFiType1(char *fileA, int lenA, GBool freeFileDataA); + + char *getNextLine(char *line); + void parse(); + + char *name; + char **encoding; + GBool parsed; +}; + +#endif diff --git a/kpdf/xpdf/fofi/FoFiType1C.cc b/kpdf/xpdf/fofi/FoFiType1C.cc new file mode 100644 index 00000000..3b28f321 --- /dev/null +++ b/kpdf/xpdf/fofi/FoFiType1C.cc @@ -0,0 +1,2603 @@ +//======================================================================== +// +// FoFiType1C.cc +// +// Copyright 1999-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include +#include "gmem.h" +#include "GString.h" +#include "FoFiEncodings.h" +#include "FoFiType1C.h" + +//------------------------------------------------------------------------ + +static char hexChars[17] = "0123456789ABCDEF"; + +//------------------------------------------------------------------------ +// FoFiType1C +//------------------------------------------------------------------------ + +FoFiType1C *FoFiType1C::make(char *fileA, int lenA) { + FoFiType1C *ff; + + ff = new FoFiType1C(fileA, lenA, gFalse); + if (!ff->parse()) { + delete ff; + return NULL; + } + return ff; +} + +FoFiType1C *FoFiType1C::load(char *fileName) { + FoFiType1C *ff; + char *fileA; + int lenA; + + if (!(fileA = FoFiBase::readFile(fileName, &lenA))) { + return NULL; + } + ff = new FoFiType1C(fileA, lenA, gTrue); + if (!ff->parse()) { + delete ff; + return NULL; + } + return ff; +} + +FoFiType1C::FoFiType1C(char *fileA, int lenA, GBool freeFileDataA): + FoFiBase(fileA, lenA, freeFileDataA) +{ + name = NULL; + encoding = NULL; + privateDicts = NULL; + fdSelect = NULL; + charset = NULL; +} + +FoFiType1C::~FoFiType1C() { + int i; + + if (name) { + delete name; + } + if (encoding && + encoding != fofiType1StandardEncoding && + encoding != fofiType1ExpertEncoding) { + for (i = 0; i < 256; ++i) { + gfree(encoding[i]); + } + gfree(encoding); + } + if (privateDicts) { + gfree(privateDicts); + } + if (fdSelect) { + gfree(fdSelect); + } + if (charset && + charset != fofiType1CISOAdobeCharset && + charset != fofiType1CExpertCharset && + charset != fofiType1CExpertSubsetCharset) { + gfree(charset); + } +} + +char *FoFiType1C::getName() { + return name ? name->getCString() : (char *)NULL; +} + +char **FoFiType1C::getEncoding() { + return encoding; +} + +Gushort *FoFiType1C::getCIDToGIDMap(int *nCIDs) { + Gushort *map; + int n, i; + + // a CID font's top dict has ROS as the first operator + if (topDict.firstOp != 0x0c1e) { + *nCIDs = 0; + return NULL; + } + + // in a CID font, the charset data is the GID-to-CID mapping, so all + // we have to do is reverse it + n = 0; + for (i = 0; i < nGlyphs; ++i) { + if (charset[i] > n) { + n = charset[i]; + } + } + ++n; + map = (Gushort *)gmallocn(n, sizeof(Gushort)); + memset(map, 0, n * sizeof(Gushort)); + for (i = 0; i < nGlyphs; ++i) { + map[charset[i]] = i; + } + *nCIDs = n; + return map; +} + +void FoFiType1C::convertToType1(char *psName, char **newEncoding, GBool ascii, + FoFiOutputFunc outputFunc, + void *outputStream) { + int psNameLen; + Type1CEexecBuf eb; + Type1CIndex subrIdx; + Type1CIndexVal val; + GString *buf; + char buf2[256]; + char **enc; + GBool ok; + int i; + + if (psName) { + psNameLen = strlen(psName); + } else { + psName = name->getCString(); + psNameLen = name->getLength(); + } + + // write header and font dictionary, up to encoding + ok = gTrue; + (*outputFunc)(outputStream, "%!FontType1-1.0: ", 17); + (*outputFunc)(outputStream, psName, psNameLen); + if (topDict.versionSID != 0) { + getString(topDict.versionSID, buf2, &ok); + (*outputFunc)(outputStream, buf2, strlen(buf2)); + } + (*outputFunc)(outputStream, "\n", 1); + // the dictionary needs room for 12 entries: the following 9, plus + // Private and CharStrings (in the eexec section) and FID (which is + // added by definefont) + (*outputFunc)(outputStream, "12 dict begin\n", 14); + (*outputFunc)(outputStream, "/FontInfo 10 dict dup begin\n", 28); + if (topDict.versionSID != 0) { + (*outputFunc)(outputStream, "/version (", 10); + (*outputFunc)(outputStream, buf2, strlen(buf2)); + (*outputFunc)(outputStream, ") readonly def\n", 15); + } + if (topDict.noticeSID != 0) { + getString(topDict.noticeSID, buf2, &ok); + (*outputFunc)(outputStream, "/Notice (", 9); + (*outputFunc)(outputStream, buf2, strlen(buf2)); + (*outputFunc)(outputStream, ") readonly def\n", 15); + } + if (topDict.copyrightSID != 0) { + getString(topDict.copyrightSID, buf2, &ok); + (*outputFunc)(outputStream, "/Copyright (", 12); + (*outputFunc)(outputStream, buf2, strlen(buf2)); + (*outputFunc)(outputStream, ") readonly def\n", 15); + } + if (topDict.fullNameSID != 0) { + getString(topDict.fullNameSID, buf2, &ok); + (*outputFunc)(outputStream, "/FullName (", 11); + (*outputFunc)(outputStream, buf2, strlen(buf2)); + (*outputFunc)(outputStream, ") readonly def\n", 15); + } + if (topDict.familyNameSID != 0) { + getString(topDict.familyNameSID, buf2, &ok); + (*outputFunc)(outputStream, "/FamilyName (", 13); + (*outputFunc)(outputStream, buf2, strlen(buf2)); + (*outputFunc)(outputStream, ") readonly def\n", 15); + } + if (topDict.weightSID != 0) { + getString(topDict.weightSID, buf2, &ok); + (*outputFunc)(outputStream, "/Weight (", 9); + (*outputFunc)(outputStream, buf2, strlen(buf2)); + (*outputFunc)(outputStream, ") readonly def\n", 15); + } + if (topDict.isFixedPitch) { + (*outputFunc)(outputStream, "/isFixedPitch true def\n", 23); + } else { + (*outputFunc)(outputStream, "/isFixedPitch false def\n", 24); + } + buf = GString::format("/ItalicAngle {0:.4g} def\n", topDict.italicAngle); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + buf = GString::format("/UnderlinePosition {0:.4g} def\n", + topDict.underlinePosition); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + buf = GString::format("/UnderlineThickness {0:.4g} def\n", + topDict.underlineThickness); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + (*outputFunc)(outputStream, "end readonly def\n", 17); + (*outputFunc)(outputStream, "/FontName /", 11); + (*outputFunc)(outputStream, psName, psNameLen); + (*outputFunc)(outputStream, " def\n", 5); + buf = GString::format("/PaintType {0:d} def\n", topDict.paintType); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + (*outputFunc)(outputStream, "/FontType 1 def\n", 16); + buf = GString::format("/FontMatrix [{0:.8g} {1:.8g} {2:.8g} {3:.8g} {4:.8g} {5:.8g}] readonly def\n", + topDict.fontMatrix[0], topDict.fontMatrix[1], + topDict.fontMatrix[2], topDict.fontMatrix[3], + topDict.fontMatrix[4], topDict.fontMatrix[5]); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + buf = GString::format("/FontBBox [{0:.4g} {1:.4g} {2:.4g} {3:.4g}] readonly def\n", + topDict.fontBBox[0], topDict.fontBBox[1], + topDict.fontBBox[2], topDict.fontBBox[3]); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + buf = GString::format("/StrokeWidth {0:.4g} def\n", topDict.strokeWidth); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + if (topDict.uniqueID != 0) { + buf = GString::format("/UniqueID {0:d} def\n", topDict.uniqueID); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + + // write the encoding + (*outputFunc)(outputStream, "/Encoding ", 10); + if (!newEncoding && encoding == fofiType1StandardEncoding) { + (*outputFunc)(outputStream, "StandardEncoding def\n", 21); + } else { + (*outputFunc)(outputStream, "256 array\n", 10); + (*outputFunc)(outputStream, + "0 1 255 {1 index exch /.notdef put} for\n", 40); + enc = newEncoding ? newEncoding : encoding; + for (i = 0; i < 256; ++i) { + if (enc[i]) { + buf = GString::format("dup {0:d} /{1:s} put\n", i, enc[i]); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + } + (*outputFunc)(outputStream, "readonly def\n", 13); + } + (*outputFunc)(outputStream, "currentdict end\n", 16); + + // start the binary section + (*outputFunc)(outputStream, "currentfile eexec\n", 18); + eb.outputFunc = outputFunc; + eb.outputStream = outputStream; + eb.ascii = ascii; + eb.r1 = 55665; + eb.line = 0; + + // write the private dictionary + eexecWrite(&eb, "\x83\xca\x73\xd5"); + eexecWrite(&eb, "dup /Private 32 dict dup begin\n"); + eexecWrite(&eb, "/RD {string currentfile exch readstring pop}" + " executeonly def\n"); + eexecWrite(&eb, "/ND {noaccess def} executeonly def\n"); + eexecWrite(&eb, "/NP {noaccess put} executeonly def\n"); + eexecWrite(&eb, "/MinFeature {16 16} def\n"); + eexecWrite(&eb, "/password 5839 def\n"); + if (privateDicts[0].nBlueValues) { + eexecWrite(&eb, "/BlueValues ["); + for (i = 0; i < privateDicts[0].nBlueValues; ++i) { + buf = GString::format("{0:s}{1:d}", + i > 0 ? " " : "", privateDicts[0].blueValues[i]); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + eexecWrite(&eb, "] def\n"); + } + if (privateDicts[0].nOtherBlues) { + eexecWrite(&eb, "/OtherBlues ["); + for (i = 0; i < privateDicts[0].nOtherBlues; ++i) { + buf = GString::format("{0:s}{1:d}", + i > 0 ? " " : "", privateDicts[0].otherBlues[i]); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + eexecWrite(&eb, "] def\n"); + } + if (privateDicts[0].nFamilyBlues) { + eexecWrite(&eb, "/FamilyBlues ["); + for (i = 0; i < privateDicts[0].nFamilyBlues; ++i) { + buf = GString::format("{0:s}{1:d}", + i > 0 ? " " : "", privateDicts[0].familyBlues[i]); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + eexecWrite(&eb, "] def\n"); + } + if (privateDicts[0].nFamilyOtherBlues) { + eexecWrite(&eb, "/FamilyOtherBlues ["); + for (i = 0; i < privateDicts[0].nFamilyOtherBlues; ++i) { + buf = GString::format("{0:s}{1:d}", i > 0 ? " " : "", + privateDicts[0].familyOtherBlues[i]); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + eexecWrite(&eb, "] def\n"); + } + if (privateDicts[0].blueScale != 0.039625) { + buf = GString::format("/BlueScale {0:.4g} def\n", + privateDicts[0].blueScale); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + if (privateDicts[0].blueShift != 7) { + buf = GString::format("/BlueShift {0:d} def\n", privateDicts[0].blueShift); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + if (privateDicts[0].blueFuzz != 1) { + buf = GString::format("/BlueFuzz {0:d} def\n", privateDicts[0].blueFuzz); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + if (privateDicts[0].hasStdHW) { + buf = GString::format("/StdHW [{0:.4g}] def\n", privateDicts[0].stdHW); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + if (privateDicts[0].hasStdVW) { + buf = GString::format("/StdVW [{0:.4g}] def\n", privateDicts[0].stdVW); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + if (privateDicts[0].nStemSnapH) { + eexecWrite(&eb, "/StemSnapH ["); + for (i = 0; i < privateDicts[0].nStemSnapH; ++i) { + buf = GString::format("{0:s}{1:.4g}", + i > 0 ? " " : "", privateDicts[0].stemSnapH[i]); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + eexecWrite(&eb, "] def\n"); + } + if (privateDicts[0].nStemSnapV) { + eexecWrite(&eb, "/StemSnapV ["); + for (i = 0; i < privateDicts[0].nStemSnapV; ++i) { + buf = GString::format("{0:s}{1:.4g}", + i > 0 ? " " : "", privateDicts[0].stemSnapV[i]); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + eexecWrite(&eb, "] def\n"); + } + if (privateDicts[0].hasForceBold) { + buf = GString::format("/ForceBold {0:s} def\n", + privateDicts[0].forceBold ? "true" : "false"); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + if (privateDicts[0].forceBoldThreshold != 0) { + buf = GString::format("/ForceBoldThreshold {0:.4g} def\n", + privateDicts[0].forceBoldThreshold); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + if (privateDicts[0].languageGroup != 0) { + buf = GString::format("/LanguageGroup {0:d} def\n", + privateDicts[0].languageGroup); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + if (privateDicts[0].expansionFactor != 0.06) { + buf = GString::format("/ExpansionFactor {0:.4g} def\n", + privateDicts[0].expansionFactor); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + + // set up subroutines + ok = gTrue; + getIndex(privateDicts[0].subrsOffset, &subrIdx, &ok); + if (!ok) { + subrIdx.pos = -1; + } + + // write the CharStrings + buf = GString::format("2 index /CharStrings {0:d} dict dup begin\n", + nGlyphs); + eexecWrite(&eb, buf->getCString()); + delete buf; + for (i = 0; i < nGlyphs; ++i) { + ok = gTrue; + getIndexVal(&charStringsIdx, i, &val, &ok); + if (ok) { + getString(charset[i], buf2, &ok); + if (ok) { + eexecCvtGlyph(&eb, buf2, val.pos, val.len, &subrIdx, &privateDicts[0]); + } + } + } + eexecWrite(&eb, "end\n"); + eexecWrite(&eb, "end\n"); + eexecWrite(&eb, "readonly put\n"); + eexecWrite(&eb, "noaccess put\n"); + eexecWrite(&eb, "dup /FontName get exch definefont pop\n"); + eexecWrite(&eb, "mark currentfile closefile\n"); + + // trailer + if (ascii && eb.line > 0) { + (*outputFunc)(outputStream, "\n", 1); + } + for (i = 0; i < 8; ++i) { + (*outputFunc)(outputStream, "0000000000000000000000000000000000000000000000000000000000000000\n", 65); + } + (*outputFunc)(outputStream, "cleartomark\n", 12); +} + +void FoFiType1C::convertToCIDType0(char *psName, + FoFiOutputFunc outputFunc, + void *outputStream) { + int *cidMap; + GString *charStrings; + int *charStringOffsets; + Type1CIndex subrIdx; + Type1CIndexVal val; + int nCIDs, gdBytes; + GString *buf; + char buf2[256]; + GBool ok; + int gid, offset, n, i, j, k; + + // compute the CID count and build the CID-to-GID mapping + nCIDs = 0; + for (i = 0; i < nGlyphs; ++i) { + if (charset[i] >= nCIDs) { + nCIDs = charset[i] + 1; + } + } + cidMap = (int *)gmallocn(nCIDs, sizeof(int)); + for (i = 0; i < nCIDs; ++i) { + cidMap[i] = -1; + } + for (i = 0; i < nGlyphs; ++i) { + cidMap[charset[i]] = i; + } + + // build the charstrings + charStrings = new GString(); + charStringOffsets = (int *)gmallocn(nCIDs + 1, sizeof(int)); + for (i = 0; i < nCIDs; ++i) { + charStringOffsets[i] = charStrings->getLength(); + if ((gid = cidMap[i]) >= 0) { + ok = gTrue; + getIndexVal(&charStringsIdx, gid, &val, &ok); + if (ok) { + getIndex(privateDicts[fdSelect[gid]].subrsOffset, &subrIdx, &ok); + if (!ok) { + subrIdx.pos = -1; + } + cvtGlyph(val.pos, val.len, charStrings, + &subrIdx, &privateDicts[fdSelect[gid]], gTrue); + } + } + } + charStringOffsets[nCIDs] = charStrings->getLength(); + + // compute gdBytes = number of bytes needed for charstring offsets + // (offset size needs to account for the charstring offset table, + // with a worst case of five bytes per entry, plus the charstrings + // themselves) + i = (nCIDs + 1) * 5 + charStrings->getLength(); + if (i < 0x100) { + gdBytes = 1; + } else if (i < 0x10000) { + gdBytes = 2; + } else if (i < 0x1000000) { + gdBytes = 3; + } else { + gdBytes = 4; + } + + // begin the font dictionary + (*outputFunc)(outputStream, "/CIDInit /ProcSet findresource begin\n", 37); + (*outputFunc)(outputStream, "20 dict begin\n", 14); + (*outputFunc)(outputStream, "/CIDFontName /", 14); + (*outputFunc)(outputStream, psName, strlen(psName)); + (*outputFunc)(outputStream, " def\n", 5); + (*outputFunc)(outputStream, "/CIDFontType 0 def\n", 19); + (*outputFunc)(outputStream, "/CIDSystemInfo 3 dict dup begin\n", 32); + if (topDict.registrySID > 0 && topDict.orderingSID > 0) { + ok = gTrue; + getString(topDict.registrySID, buf2, &ok); + if (ok) { + (*outputFunc)(outputStream, " /Registry (", 13); + (*outputFunc)(outputStream, buf2, strlen(buf2)); + (*outputFunc)(outputStream, ") def\n", 6); + } + ok = gTrue; + getString(topDict.orderingSID, buf2, &ok); + if (ok) { + (*outputFunc)(outputStream, " /Ordering (", 13); + (*outputFunc)(outputStream, buf2, strlen(buf2)); + (*outputFunc)(outputStream, ") def\n", 6); + } + } else { + (*outputFunc)(outputStream, " /Registry (Adobe) def\n", 24); + (*outputFunc)(outputStream, " /Ordering (Identity) def\n", 27); + } + buf = GString::format(" /Supplement {0:d} def\n", topDict.supplement); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + (*outputFunc)(outputStream, "end def\n", 8); + if (topDict.hasFontMatrix) { + buf = GString::format("/FontMatrix [{0:.8g} {1:.8g} {2:.8g} {3:.8g} {4:.8g} {5:.8g}] def\n", + topDict.fontMatrix[0], topDict.fontMatrix[1], + topDict.fontMatrix[2], topDict.fontMatrix[3], + topDict.fontMatrix[4], topDict.fontMatrix[5]); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } else if (privateDicts[0].hasFontMatrix) { + (*outputFunc)(outputStream, "/FontMatrix [1 0 0 1 0 0] def\n", 30); + } else { + (*outputFunc)(outputStream, + "/FontMatrix [0.001 0 0 0.001 0 0] def\n", 38); + } + buf = GString::format("/FontBBox [{0:.4g} {1:.4g} {2:.4g} {3:.4g}] def\n", + topDict.fontBBox[0], topDict.fontBBox[1], + topDict.fontBBox[2], topDict.fontBBox[3]); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + (*outputFunc)(outputStream, "/FontInfo 1 dict dup begin\n", 27); + (*outputFunc)(outputStream, " /FSType 8 def\n", 16); + (*outputFunc)(outputStream, "end def\n", 8); + + // CIDFont-specific entries + buf = GString::format("/CIDCount {0:d} def\n", nCIDs); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + (*outputFunc)(outputStream, "/FDBytes 1 def\n", 15); + buf = GString::format("/GDBytes {0:d} def\n", gdBytes); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + (*outputFunc)(outputStream, "/CIDMapOffset 0 def\n", 20); + if (topDict.paintType != 0) { + buf = GString::format("/PaintType {0:d} def\n", topDict.paintType); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + buf = GString::format("/StrokeWidth {0:.4g} def\n", topDict.strokeWidth); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + + // FDArray entry + buf = GString::format("/FDArray {0:d} array\n", nFDs); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + for (i = 0; i < nFDs; ++i) { + buf = GString::format("dup {0:d} 10 dict begin\n", i); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + (*outputFunc)(outputStream, "/FontType 1 def\n", 16); + if (privateDicts[i].hasFontMatrix) { + buf = GString::format("/FontMatrix [{0:.8g} {1:.8g} {2:.8g} {3:.8g} {4:.8g} {5:.8g}] def\n", + privateDicts[i].fontMatrix[0], + privateDicts[i].fontMatrix[1], + privateDicts[i].fontMatrix[2], + privateDicts[i].fontMatrix[3], + privateDicts[i].fontMatrix[4], + privateDicts[i].fontMatrix[5]); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } else { + (*outputFunc)(outputStream, "/FontMatrix [1 0 0 1 0 0] def\n", 30); + } + buf = GString::format("/PaintType {0:d} def\n", topDict.paintType); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + (*outputFunc)(outputStream, "/Private 32 dict begin\n", 23); + if (privateDicts[i].nBlueValues) { + (*outputFunc)(outputStream, "/BlueValues [", 13); + for (j = 0; j < privateDicts[i].nBlueValues; ++j) { + buf = GString::format("{0:s}{1:d}", + j > 0 ? " " : "", privateDicts[i].blueValues[j]); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + (*outputFunc)(outputStream, "] def\n", 6); + } + if (privateDicts[i].nOtherBlues) { + (*outputFunc)(outputStream, "/OtherBlues [", 13); + for (j = 0; j < privateDicts[i].nOtherBlues; ++j) { + buf = GString::format("{0:s}{1:d}", + j > 0 ? " " : "", privateDicts[i].otherBlues[j]); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + (*outputFunc)(outputStream, "] def\n", 6); + } + if (privateDicts[i].nFamilyBlues) { + (*outputFunc)(outputStream, "/FamilyBlues [", 14); + for (j = 0; j < privateDicts[i].nFamilyBlues; ++j) { + buf = GString::format("{0:s}{1:d}", + j > 0 ? " " : "", + privateDicts[i].familyBlues[j]); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + (*outputFunc)(outputStream, "] def\n", 6); + } + if (privateDicts[i].nFamilyOtherBlues) { + (*outputFunc)(outputStream, "/FamilyOtherBlues [", 19); + for (j = 0; j < privateDicts[i].nFamilyOtherBlues; ++j) { + buf = GString::format("{0:s}{1:d}", j > 0 ? " " : "", + privateDicts[i].familyOtherBlues[j]); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + (*outputFunc)(outputStream, "] def\n", 6); + } + if (privateDicts[i].blueScale != 0.039625) { + buf = GString::format("/BlueScale {0:.4g} def\n", + privateDicts[i].blueScale); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + if (privateDicts[i].blueShift != 7) { + buf = GString::format("/BlueShift {0:d} def\n", + privateDicts[i].blueShift); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + if (privateDicts[i].blueFuzz != 1) { + buf = GString::format("/BlueFuzz {0:d} def\n", privateDicts[i].blueFuzz); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + if (privateDicts[i].hasStdHW) { + buf = GString::format("/StdHW [{0:.4g}] def\n", privateDicts[i].stdHW); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + if (privateDicts[i].hasStdVW) { + buf = GString::format("/StdVW [{0:.4g}] def\n", privateDicts[i].stdVW); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + if (privateDicts[i].nStemSnapH) { + (*outputFunc)(outputStream, "/StemSnapH [", 12); + for (j = 0; j < privateDicts[i].nStemSnapH; ++j) { + buf = GString::format("{0:s}{1:.4g}", + j > 0 ? " " : "", privateDicts[i].stemSnapH[j]); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + (*outputFunc)(outputStream, "] def\n", 6); + } + if (privateDicts[i].nStemSnapV) { + (*outputFunc)(outputStream, "/StemSnapV [", 12); + for (j = 0; j < privateDicts[i].nStemSnapV; ++j) { + buf = GString::format("{0:s}{1:.4g}", + j > 0 ? " " : "", privateDicts[i].stemSnapV[j]); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + (*outputFunc)(outputStream, "] def\n", 6); + } + if (privateDicts[i].hasForceBold) { + buf = GString::format("/ForceBold {0:s} def\n", + privateDicts[i].forceBold ? "true" : "false"); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + if (privateDicts[i].forceBoldThreshold != 0) { + buf = GString::format("/ForceBoldThreshold {0:.4g} def\n", + privateDicts[i].forceBoldThreshold); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + if (privateDicts[i].languageGroup != 0) { + buf = GString::format("/LanguageGroup {0:d} def\n", + privateDicts[i].languageGroup); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + if (privateDicts[i].expansionFactor != 0.06) { + buf = GString::format("/ExpansionFactor {0:.4g} def\n", + privateDicts[i].expansionFactor); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + (*outputFunc)(outputStream, "currentdict end def\n", 20); + (*outputFunc)(outputStream, "currentdict end put\n", 20); + } + (*outputFunc)(outputStream, "def\n", 4); + + // start the binary section + offset = (nCIDs + 1) * (1 + gdBytes); + buf = GString::format("(Hex) {0:d} StartData\n", + offset + charStrings->getLength()); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + + // write the charstring offset (CIDMap) table + for (i = 0; i <= nCIDs; i += 6) { + for (j = 0; j < 6 && i+j <= nCIDs; ++j) { + if (i+j < nCIDs && cidMap[i+j] >= 0) { + buf2[0] = (char)fdSelect[cidMap[i+j]]; + } else { + buf2[0] = (char)0; + } + n = offset + charStringOffsets[i+j]; + for (k = gdBytes; k >= 1; --k) { + buf2[k] = (char)(n & 0xff); + n >>= 8; + } + for (k = 0; k <= gdBytes; ++k) { + buf = GString::format("{0:02x}", buf2[k] & 0xff); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + } + (*outputFunc)(outputStream, "\n", 1); + } + + // write the charstring data + n = charStrings->getLength(); + for (i = 0; i < n; i += 32) { + for (j = 0; j < 32 && i+j < n; ++j) { + buf = GString::format("{0:02x}", charStrings->getChar(i+j) & 0xff); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + if (i + 32 >= n) { + (*outputFunc)(outputStream, ">", 1); + } + (*outputFunc)(outputStream, "\n", 1); + } + + gfree(charStringOffsets); + delete charStrings; + gfree(cidMap); +} + +void FoFiType1C::convertToType0(char *psName, + FoFiOutputFunc outputFunc, + void *outputStream) { + int *cidMap; + Type1CIndex subrIdx; + Type1CIndexVal val; + int nCIDs; + GString *buf; + Type1CEexecBuf eb; + GBool ok; + int fd, i, j, k; + + // compute the CID count and build the CID-to-GID mapping + nCIDs = 0; + for (i = 0; i < nGlyphs; ++i) { + if (charset[i] >= nCIDs) { + nCIDs = charset[i] + 1; + } + } + cidMap = (int *)gmallocn(nCIDs, sizeof(int)); + for (i = 0; i < nCIDs; ++i) { + cidMap[i] = -1; + } + for (i = 0; i < nGlyphs; ++i) { + cidMap[charset[i]] = i; + } + + // write the descendant Type 1 fonts + for (i = 0; i < nCIDs; i += 256) { + + //~ this assumes that all CIDs in this block have the same FD -- + //~ to handle multiple FDs correctly, need to somehow divide the + //~ font up by FD; as a kludge we ignore CID 0, which is .notdef + fd = 0; + for (j = i==0 ? 1 : 0; j < 256 && i+j < nCIDs; ++j) { + if (cidMap[i+j] >= 0) { + fd = fdSelect[cidMap[i+j]]; + break; + } + } + + // font dictionary (unencrypted section) + (*outputFunc)(outputStream, "16 dict begin\n", 14); + (*outputFunc)(outputStream, "/FontName /", 11); + (*outputFunc)(outputStream, psName, strlen(psName)); + buf = GString::format("_{0:02x} def\n", i >> 8); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + (*outputFunc)(outputStream, "/FontType 1 def\n", 16); + if (privateDicts[fd].hasFontMatrix) { + buf = GString::format("/FontMatrix [{0:.8g} {1:.8g} {2:.8g} {3:.8g} {4:.8g} {5:.8g}] def\n", + privateDicts[fd].fontMatrix[0], + privateDicts[fd].fontMatrix[1], + privateDicts[fd].fontMatrix[2], + privateDicts[fd].fontMatrix[3], + privateDicts[fd].fontMatrix[4], + privateDicts[fd].fontMatrix[5]); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } else if (topDict.hasFontMatrix) { + (*outputFunc)(outputStream, "/FontMatrix [1 0 0 1 0 0] def\n", 30); + } else { + (*outputFunc)(outputStream, + "/FontMatrix [0.001 0 0 0.001 0 0] def\n", 38); + } + buf = GString::format("/FontBBox [{0:.4g} {1:.4g} {2:.4g} {3:.4g}] def\n", + topDict.fontBBox[0], topDict.fontBBox[1], + topDict.fontBBox[2], topDict.fontBBox[3]); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + buf = GString::format("/PaintType {0:d} def\n", topDict.paintType); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + if (topDict.paintType != 0) { + buf = GString::format("/StrokeWidth {0:.4g} def\n", topDict.strokeWidth); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + (*outputFunc)(outputStream, "/Encoding 256 array\n", 20); + for (j = 0; j < 256 && i+j < nCIDs; ++j) { + buf = GString::format("dup {0:d} /c{1:02x} put\n", j, j); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + if (j < 256) { + buf = GString::format("{0:d} 1 255 {{ 1 index exch /.notdef put }} for\n", + j); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + (*outputFunc)(outputStream, "readonly def\n", 13); + (*outputFunc)(outputStream, "currentdict end\n", 16); + + // start the binary section + (*outputFunc)(outputStream, "currentfile eexec\n", 18); + eb.outputFunc = outputFunc; + eb.outputStream = outputStream; + eb.ascii = gTrue; + eb.r1 = 55665; + eb.line = 0; + + // start the private dictionary + eexecWrite(&eb, "\x83\xca\x73\xd5"); + eexecWrite(&eb, "dup /Private 32 dict dup begin\n"); + eexecWrite(&eb, "/RD {string currentfile exch readstring pop}" + " executeonly def\n"); + eexecWrite(&eb, "/ND {noaccess def} executeonly def\n"); + eexecWrite(&eb, "/NP {noaccess put} executeonly def\n"); + eexecWrite(&eb, "/MinFeature {16 16} def\n"); + eexecWrite(&eb, "/password 5839 def\n"); + if (privateDicts[fd].nBlueValues) { + eexecWrite(&eb, "/BlueValues ["); + for (k = 0; k < privateDicts[fd].nBlueValues; ++k) { + buf = GString::format("{0:s}{1:d}", + k > 0 ? " " : "", + privateDicts[fd].blueValues[k]); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + eexecWrite(&eb, "] def\n"); + } + if (privateDicts[fd].nOtherBlues) { + eexecWrite(&eb, "/OtherBlues ["); + for (k = 0; k < privateDicts[fd].nOtherBlues; ++k) { + buf = GString::format("{0:s}{1:d}", + k > 0 ? " " : "", + privateDicts[fd].otherBlues[k]); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + eexecWrite(&eb, "] def\n"); + } + if (privateDicts[fd].nFamilyBlues) { + eexecWrite(&eb, "/FamilyBlues ["); + for (k = 0; k < privateDicts[fd].nFamilyBlues; ++k) { + buf = GString::format("{0:s}{1:d}", k > 0 ? " " : "", + privateDicts[fd].familyBlues[k]); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + eexecWrite(&eb, "] def\n"); + } + if (privateDicts[fd].nFamilyOtherBlues) { + eexecWrite(&eb, "/FamilyOtherBlues ["); + for (k = 0; k < privateDicts[fd].nFamilyOtherBlues; ++k) { + buf = GString::format("{0:s}{1:d}", k > 0 ? " " : "", + privateDicts[fd].familyOtherBlues[k]); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + eexecWrite(&eb, "] def\n"); + } + if (privateDicts[fd].blueScale != 0.039625) { + buf = GString::format("/BlueScale {0:.4g} def\n", + privateDicts[fd].blueScale); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + if (privateDicts[fd].blueShift != 7) { + buf = GString::format("/BlueShift {0:d} def\n", + privateDicts[fd].blueShift); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + if (privateDicts[fd].blueFuzz != 1) { + buf = GString::format("/BlueFuzz {0:d} def\n", + privateDicts[fd].blueFuzz); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + if (privateDicts[fd].hasStdHW) { + buf = GString::format("/StdHW [{0:.4g}] def\n", privateDicts[fd].stdHW); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + if (privateDicts[fd].hasStdVW) { + buf = GString::format("/StdVW [{0:.4g}] def\n", privateDicts[fd].stdVW); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + if (privateDicts[fd].nStemSnapH) { + eexecWrite(&eb, "/StemSnapH ["); + for (k = 0; k < privateDicts[fd].nStemSnapH; ++k) { + buf = GString::format("{0:s}{1:.4g}", + k > 0 ? " " : "", privateDicts[fd].stemSnapH[k]); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + eexecWrite(&eb, "] def\n"); + } + if (privateDicts[fd].nStemSnapV) { + eexecWrite(&eb, "/StemSnapV ["); + for (k = 0; k < privateDicts[fd].nStemSnapV; ++k) { + buf = GString::format("{0:s}{1:.4g}", + k > 0 ? " " : "", privateDicts[fd].stemSnapV[k]); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + eexecWrite(&eb, "] def\n"); + } + if (privateDicts[fd].hasForceBold) { + buf = GString::format("/ForceBold {0:s} def\n", + privateDicts[fd].forceBold ? "true" : "false"); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + if (privateDicts[fd].forceBoldThreshold != 0) { + buf = GString::format("/ForceBoldThreshold {0:.4g} def\n", + privateDicts[fd].forceBoldThreshold); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + if (privateDicts[fd].languageGroup != 0) { + buf = GString::format("/LanguageGroup {0:d} def\n", + privateDicts[fd].languageGroup); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + if (privateDicts[fd].expansionFactor != 0.06) { + buf = GString::format("/ExpansionFactor {0:.4g} def\n", + privateDicts[fd].expansionFactor); + eexecWrite(&eb, buf->getCString()); + delete buf; + } + + // set up the subroutines + ok = gTrue; + getIndex(privateDicts[fd].subrsOffset, &subrIdx, &ok); + if (!ok) { + subrIdx.pos = -1; + } + + // start the CharStrings + eexecWrite(&eb, "2 index /CharStrings 256 dict dup begin\n"); + + // write the .notdef CharString + ok = gTrue; + getIndexVal(&charStringsIdx, 0, &val, &ok); + if (ok) { + eexecCvtGlyph(&eb, ".notdef", val.pos, val.len, + &subrIdx, &privateDicts[fd]); + } + + // write the CharStrings + for (j = 0; j < 256 && i+j < nCIDs; ++j) { + if (cidMap[i+j] >= 0) { + ok = gTrue; + getIndexVal(&charStringsIdx, cidMap[i+j], &val, &ok); + if (ok) { + buf = GString::format("c{0:02x}", j); + eexecCvtGlyph(&eb, buf->getCString(), val.pos, val.len, + &subrIdx, &privateDicts[fd]); + delete buf; + } + } + } + eexecWrite(&eb, "end\n"); + eexecWrite(&eb, "end\n"); + eexecWrite(&eb, "readonly put\n"); + eexecWrite(&eb, "noaccess put\n"); + eexecWrite(&eb, "dup /FontName get exch definefont pop\n"); + eexecWrite(&eb, "mark currentfile closefile\n"); + + // trailer + if (eb.line > 0) { + (*outputFunc)(outputStream, "\n", 1); + } + for (j = 0; j < 8; ++j) { + (*outputFunc)(outputStream, "0000000000000000000000000000000000000000000000000000000000000000\n", 65); + } + (*outputFunc)(outputStream, "cleartomark\n", 12); + } + + // write the Type 0 parent font + (*outputFunc)(outputStream, "16 dict begin\n", 14); + (*outputFunc)(outputStream, "/FontName /", 11); + (*outputFunc)(outputStream, psName, strlen(psName)); + (*outputFunc)(outputStream, " def\n", 5); + (*outputFunc)(outputStream, "/FontType 0 def\n", 16); + if (topDict.hasFontMatrix) { + buf = GString::format("/FontMatrix [{0:.8g} {1:.8g} {2:.8g} {3:.8g} {4:.8g} {5:.8g}] def\n", + topDict.fontMatrix[0], topDict.fontMatrix[1], + topDict.fontMatrix[2], topDict.fontMatrix[3], + topDict.fontMatrix[4], topDict.fontMatrix[5]); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } else { + (*outputFunc)(outputStream, "/FontMatrix [1 0 0 1 0 0] def\n", 30); + } + (*outputFunc)(outputStream, "/FMapType 2 def\n", 16); + (*outputFunc)(outputStream, "/Encoding [\n", 12); + for (i = 0; i < nCIDs; i += 256) { + buf = GString::format("{0:d}\n", i >> 8); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + (*outputFunc)(outputStream, "] def\n", 6); + (*outputFunc)(outputStream, "/FDepVector [\n", 14); + for (i = 0; i < nCIDs; i += 256) { + (*outputFunc)(outputStream, "/", 1); + (*outputFunc)(outputStream, psName, strlen(psName)); + buf = GString::format("_{0:02x} findfont\n", i >> 8); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + (*outputFunc)(outputStream, "] def\n", 6); + (*outputFunc)(outputStream, "FontName currentdict end definefont pop\n", 40); + + gfree(cidMap); +} + +void FoFiType1C::eexecCvtGlyph(Type1CEexecBuf *eb, char *glyphName, + int offset, int nBytes, + Type1CIndex *subrIdx, + Type1CPrivateDict *pDict) { + GString *buf; + GString *charBuf; + + // generate the charstring + charBuf = new GString(); + cvtGlyph(offset, nBytes, charBuf, subrIdx, pDict, gTrue); + + buf = GString::format("/{0:s} {1:d} RD ", glyphName, charBuf->getLength()); + eexecWrite(eb, buf->getCString()); + delete buf; + eexecWriteCharstring(eb, (Guchar *)charBuf->getCString(), + charBuf->getLength()); + eexecWrite(eb, " ND\n"); + + delete charBuf; +} + +void FoFiType1C::cvtGlyph(int offset, int nBytes, GString *charBuf, + Type1CIndex *subrIdx, Type1CPrivateDict *pDict, + GBool top) { + Type1CIndexVal val; + GBool ok, dFP; + double d, dx, dy; + Gushort r2; + Guchar byte; + int pos, subrBias, start, i, k; + + start = charBuf->getLength(); + if (top) { + charBuf->append((char)73); + charBuf->append((char)58); + charBuf->append((char)147); + charBuf->append((char)134); + nOps = 0; + nHints = 0; + firstOp = gTrue; + openPath = gFalse; + } + + pos = offset; + while (pos < offset + nBytes) { + ok = gTrue; + pos = getOp(pos, gTrue, &ok); + if (!ok) { + break; + } + if (!ops[nOps - 1].isNum) { + --nOps; // drop the operator + switch (ops[nOps].op) { + case 0x0001: // hstem + if (firstOp) { + cvtGlyphWidth(nOps & 1, charBuf, pDict); + firstOp = gFalse; + } + if (nOps & 1) { + //~ error(-1, "Wrong number of args (%d) to Type 2 hstem", nOps); + } + d = 0; + dFP = gFalse; + for (k = 0; k < nOps; k += 2) { + // convert Type 2 edge hints (-20 or -21) to Type 1 ghost hints + if (ops[k+1].num < 0) { + d += ops[k].num + ops[k+1].num; + dFP |= ops[k].isFP | ops[k+1].isFP; + cvtNum(d, dFP, charBuf); + cvtNum(-ops[k+1].num, ops[k+1].isFP, charBuf); + } else { + d += ops[k].num; + dFP |= ops[k].isFP; + cvtNum(d, dFP, charBuf); + cvtNum(ops[k+1].num, ops[k+1].isFP, charBuf); + d += ops[k+1].num; + dFP |= ops[k+1].isFP; + } + charBuf->append((char)1); + } + nHints += nOps / 2; + nOps = 0; + break; + case 0x0003: // vstem + if (firstOp) { + cvtGlyphWidth(nOps & 1, charBuf, pDict); + firstOp = gFalse; + } + if (nOps & 1) { + //~ error(-1, "Wrong number of args (%d) to Type 2 vstem", nOps); + } + d = 0; + dFP = gFalse; + for (k = 0; k < nOps; k += 2) { + // convert Type 2 edge hints (-20 or -21) to Type 1 ghost hints + if (ops[k+1].num < 0) { + d += ops[k].num + ops[k+1].num; + dFP |= ops[k].isFP | ops[k+1].isFP; + cvtNum(d, dFP, charBuf); + cvtNum(-ops[k+1].num, ops[k+1].isFP, charBuf); + } else { + d += ops[k].num; + dFP |= ops[k].isFP; + cvtNum(d, dFP, charBuf); + cvtNum(ops[k+1].num, ops[k+1].isFP, charBuf); + d += ops[k+1].num; + dFP |= ops[k+1].isFP; + } + charBuf->append((char)3); + } + nHints += nOps / 2; + nOps = 0; + break; + case 0x0004: // vmoveto + if (firstOp) { + cvtGlyphWidth(nOps == 2, charBuf, pDict); + firstOp = gFalse; + } + if (openPath) { + charBuf->append((char)9); + openPath = gFalse; + } + if (nOps != 1) { + //~ error(-1, "Wrong number of args (%d) to Type 2 vmoveto", nOps); + } + cvtNum(ops[0].num, ops[0].isFP, charBuf); + charBuf->append((char)4); + nOps = 0; + break; + case 0x0005: // rlineto + if (nOps < 2 || nOps % 2 != 0) { + //~ error(-1, "Wrong number of args (%d) to Type 2 rlineto", nOps); + } + for (k = 0; k < nOps; k += 2) { + cvtNum(ops[k].num, ops[k].isFP, charBuf); + cvtNum(ops[k+1].num, ops[k+1].isFP, charBuf); + charBuf->append((char)5); + } + nOps = 0; + openPath = gTrue; + break; + case 0x0006: // hlineto + if (nOps < 1) { + //~ error(-1, "Wrong number of args (%d) to Type 2 hlineto", nOps); + } + for (k = 0; k < nOps; ++k) { + cvtNum(ops[k].num, ops[k].isFP, charBuf); + charBuf->append((char)((k & 1) ? 7 : 6)); + } + nOps = 0; + openPath = gTrue; + break; + case 0x0007: // vlineto + if (nOps < 1) { + //~ error(-1, "Wrong number of args (%d) to Type 2 vlineto", nOps); + } + for (k = 0; k < nOps; ++k) { + cvtNum(ops[k].num, ops[k].isFP, charBuf); + charBuf->append((char)((k & 1) ? 6 : 7)); + } + nOps = 0; + openPath = gTrue; + break; + case 0x0008: // rrcurveto + if (nOps < 6 || nOps % 6 != 0) { + //~ error(-1, "Wrong number of args (%d) to Type 2 rrcurveto", nOps); + } + for (k = 0; k < nOps; k += 6) { + cvtNum(ops[k].num, ops[k].isFP, charBuf); + cvtNum(ops[k+1].num, ops[k+1].isFP, charBuf); + cvtNum(ops[k+2].num, ops[k+2].isFP, charBuf); + cvtNum(ops[k+3].num, ops[k+3].isFP, charBuf); + cvtNum(ops[k+4].num, ops[k+4].isFP, charBuf); + cvtNum(ops[k+5].num, ops[k+5].isFP, charBuf); + charBuf->append((char)8); + } + nOps = 0; + openPath = gTrue; + break; + case 0x000a: // callsubr + if (nOps >= 1) { + subrBias = (subrIdx->len < 1240) + ? 107 : (subrIdx->len < 33900) ? 1131 : 32768; + k = subrBias + (int)ops[nOps - 1].num; + --nOps; + ok = gTrue; + getIndexVal(subrIdx, k, &val, &ok); + if (ok) { + cvtGlyph(val.pos, val.len, charBuf, subrIdx, pDict, gFalse); + } + } else { + //~ error(-1, "Too few args to Type 2 callsubr"); + } + // don't clear the stack + break; + case 0x000b: // return + // don't clear the stack + break; + case 0x000e: // endchar / seac + if (firstOp) { + cvtGlyphWidth(nOps == 1 || nOps == 5, charBuf, pDict); + firstOp = gFalse; + } + if (openPath) { + charBuf->append((char)9); + openPath = gFalse; + } + if (nOps == 4) { + cvtNum(0, gFalse, charBuf); + cvtNum(ops[0].num, ops[0].isFP, charBuf); + cvtNum(ops[1].num, ops[1].isFP, charBuf); + cvtNum(ops[2].num, ops[2].isFP, charBuf); + cvtNum(ops[3].num, ops[3].isFP, charBuf); + charBuf->append((char)12)->append((char)6); + } else if (nOps == 0) { + charBuf->append((char)14); + } else { + //~ error(-1, "Wrong number of args (%d) to Type 2 endchar", nOps); + } + nOps = 0; + break; + case 0x000f: // (obsolete) + // this op is ignored, but we need the glyph width + if (firstOp) { + cvtGlyphWidth(nOps > 0, charBuf, pDict); + firstOp = gFalse; + } + nOps = 0; + break; + case 0x0010: // blend + //~ error(-1, "Unimplemented Type 2 charstring op: %d", file[i]); + nOps = 0; + break; + case 0x0012: // hstemhm + // ignored + if (firstOp) { + cvtGlyphWidth(nOps & 1, charBuf, pDict); + firstOp = gFalse; + } + if (nOps & 1) { + //~ error(-1, "Wrong number of args (%d) to Type 2 hstemhm", nOps); + } + nHints += nOps / 2; + nOps = 0; + break; + case 0x0013: // hintmask + // ignored + if (firstOp) { + cvtGlyphWidth(nOps & 1, charBuf, pDict); + firstOp = gFalse; + } + if (nOps > 0) { + if (nOps & 1) { + //~ error(-1, "Wrong number of args (%d) to Type 2 hintmask/vstemhm", + //~ nOps); + } + nHints += nOps / 2; + } + pos += (nHints + 7) >> 3; + nOps = 0; + break; + case 0x0014: // cntrmask + // ignored + if (firstOp) { + cvtGlyphWidth(nOps & 1, charBuf, pDict); + firstOp = gFalse; + } + if (nOps > 0) { + if (nOps & 1) { + //~ error(-1, "Wrong number of args (%d) to Type 2 cntrmask/vstemhm", + //~ nOps); + } + nHints += nOps / 2; + } + pos += (nHints + 7) >> 3; + nOps = 0; + break; + case 0x0015: // rmoveto + if (firstOp) { + cvtGlyphWidth(nOps == 3, charBuf, pDict); + firstOp = gFalse; + } + if (openPath) { + charBuf->append((char)9); + openPath = gFalse; + } + if (nOps != 2) { + //~ error(-1, "Wrong number of args (%d) to Type 2 rmoveto", nOps); + } + cvtNum(ops[0].num, ops[0].isFP, charBuf); + cvtNum(ops[1].num, ops[1].isFP, charBuf); + charBuf->append((char)21); + nOps = 0; + break; + case 0x0016: // hmoveto + if (firstOp) { + cvtGlyphWidth(nOps == 2, charBuf, pDict); + firstOp = gFalse; + } + if (openPath) { + charBuf->append((char)9); + openPath = gFalse; + } + if (nOps != 1) { + //~ error(-1, "Wrong number of args (%d) to Type 2 hmoveto", nOps); + } + cvtNum(ops[0].num, ops[0].isFP, charBuf); + charBuf->append((char)22); + nOps = 0; + break; + case 0x0017: // vstemhm + // ignored + if (firstOp) { + cvtGlyphWidth(nOps & 1, charBuf, pDict); + firstOp = gFalse; + } + if (nOps & 1) { + //~ error(-1, "Wrong number of args (%d) to Type 2 vstemhm", nOps); + } + nHints += nOps / 2; + nOps = 0; + break; + case 0x0018: // rcurveline + if (nOps < 8 || (nOps - 2) % 6 != 0) { + //~ error(-1, "Wrong number of args (%d) to Type 2 rcurveline", nOps); + } + for (k = 0; k < nOps - 2; k += 6) { + cvtNum(ops[k].num, ops[k].isFP, charBuf); + cvtNum(ops[k+1].num, ops[k+1].isFP, charBuf); + cvtNum(ops[k+2].num, ops[k+2].isFP, charBuf); + cvtNum(ops[k+3].num, ops[k+3].isFP, charBuf); + cvtNum(ops[k+4].num, ops[k+4].isFP, charBuf); + cvtNum(ops[k+5].num, ops[k+5].isFP, charBuf); + charBuf->append((char)8); + } + cvtNum(ops[k].num, ops[k].isFP, charBuf); + cvtNum(ops[k+1].num, ops[k].isFP, charBuf); + charBuf->append((char)5); + nOps = 0; + openPath = gTrue; + break; + case 0x0019: // rlinecurve + if (nOps < 8 || (nOps - 6) % 2 != 0) { + //~ error(-1, "Wrong number of args (%d) to Type 2 rlinecurve", nOps); + } + for (k = 0; k < nOps - 6; k += 2) { + cvtNum(ops[k].num, ops[k].isFP, charBuf); + cvtNum(ops[k+1].num, ops[k].isFP, charBuf); + charBuf->append((char)5); + } + cvtNum(ops[k].num, ops[k].isFP, charBuf); + cvtNum(ops[k+1].num, ops[k+1].isFP, charBuf); + cvtNum(ops[k+2].num, ops[k+2].isFP, charBuf); + cvtNum(ops[k+3].num, ops[k+3].isFP, charBuf); + cvtNum(ops[k+4].num, ops[k+4].isFP, charBuf); + cvtNum(ops[k+5].num, ops[k+5].isFP, charBuf); + charBuf->append((char)8); + nOps = 0; + openPath = gTrue; + break; + case 0x001a: // vvcurveto + if (nOps < 4 || !(nOps % 4 == 0 || (nOps-1) % 4 == 0)) { + //~ error(-1, "Wrong number of args (%d) to Type 2 vvcurveto", nOps); + } + if (nOps % 2 == 1) { + cvtNum(ops[0].num, ops[0].isFP, charBuf); + cvtNum(ops[1].num, ops[1].isFP, charBuf); + cvtNum(ops[2].num, ops[2].isFP, charBuf); + cvtNum(ops[3].num, ops[3].isFP, charBuf); + cvtNum(0, gFalse, charBuf); + cvtNum(ops[4].num, ops[4].isFP, charBuf); + charBuf->append((char)8); + k = 5; + } else { + k = 0; + } + for (; k < nOps; k += 4) { + cvtNum(0, gFalse, charBuf); + cvtNum(ops[k].num, ops[k].isFP, charBuf); + cvtNum(ops[k+1].num, ops[k+1].isFP, charBuf); + cvtNum(ops[k+2].num, ops[k+2].isFP, charBuf); + cvtNum(0, gFalse, charBuf); + cvtNum(ops[k+3].num, ops[k+3].isFP, charBuf); + charBuf->append((char)8); + } + nOps = 0; + openPath = gTrue; + break; + case 0x001b: // hhcurveto + if (nOps < 4 || !(nOps % 4 == 0 || (nOps-1) % 4 == 0)) { + //~ error(-1, "Wrong number of args (%d) to Type 2 hhcurveto", nOps); + } + if (nOps % 2 == 1) { + cvtNum(ops[1].num, ops[1].isFP, charBuf); + cvtNum(ops[0].num, ops[0].isFP, charBuf); + cvtNum(ops[2].num, ops[2].isFP, charBuf); + cvtNum(ops[3].num, ops[3].isFP, charBuf); + cvtNum(ops[4].num, ops[4].isFP, charBuf); + cvtNum(0, gFalse, charBuf); + charBuf->append((char)8); + k = 5; + } else { + k = 0; + } + for (; k < nOps; k += 4) { + cvtNum(ops[k].num, ops[k].isFP, charBuf); + cvtNum(0, gFalse, charBuf); + cvtNum(ops[k+1].num, ops[k+1].isFP, charBuf); + cvtNum(ops[k+2].num, ops[k+2].isFP, charBuf); + cvtNum(ops[k+3].num, ops[k+3].isFP, charBuf); + cvtNum(0, gFalse, charBuf); + charBuf->append((char)8); + } + nOps = 0; + openPath = gTrue; + break; + case 0x001d: // callgsubr + if (nOps >= 1) { + k = gsubrBias + (int)ops[nOps - 1].num; + --nOps; + ok = gTrue; + getIndexVal(&gsubrIdx, k, &val, &ok); + if (ok) { + cvtGlyph(val.pos, val.len, charBuf, subrIdx, pDict, gFalse); + } + } else { + //~ error(-1, "Too few args to Type 2 callgsubr"); + } + // don't clear the stack + break; + case 0x001e: // vhcurveto + if (nOps < 4 || !(nOps % 4 == 0 || (nOps-1) % 4 == 0)) { + //~ error(-1, "Wrong number of args (%d) to Type 2 vhcurveto", nOps); + } + for (k = 0; k < nOps && k != nOps-5; k += 4) { + if (k % 8 == 0) { + cvtNum(ops[k].num, ops[k].isFP, charBuf); + cvtNum(ops[k+1].num, ops[k+1].isFP, charBuf); + cvtNum(ops[k+2].num, ops[k+2].isFP, charBuf); + cvtNum(ops[k+3].num, ops[k+3].isFP, charBuf); + charBuf->append((char)30); + } else { + cvtNum(ops[k].num, ops[k].isFP, charBuf); + cvtNum(ops[k+1].num, ops[k+1].isFP, charBuf); + cvtNum(ops[k+2].num, ops[k+2].isFP, charBuf); + cvtNum(ops[k+3].num, ops[k+3].isFP, charBuf); + charBuf->append((char)31); + } + } + if (k == nOps-5) { + if (k % 8 == 0) { + cvtNum(0, gFalse, charBuf); + cvtNum(ops[k].num, ops[k].isFP, charBuf); + cvtNum(ops[k+1].num, ops[k+1].isFP, charBuf); + cvtNum(ops[k+2].num, ops[k+2].isFP, charBuf); + cvtNum(ops[k+3].num, ops[k+3].isFP, charBuf); + cvtNum(ops[k+4].num, ops[k+4].isFP, charBuf); + } else { + cvtNum(ops[k].num, ops[k].isFP, charBuf); + cvtNum(0, gFalse, charBuf); + cvtNum(ops[k+1].num, ops[k+1].isFP, charBuf); + cvtNum(ops[k+2].num, ops[k+2].isFP, charBuf); + cvtNum(ops[k+4].num, ops[k+4].isFP, charBuf); + cvtNum(ops[k+3].num, ops[k+3].isFP, charBuf); + } + charBuf->append((char)8); + } + nOps = 0; + openPath = gTrue; + break; + case 0x001f: // hvcurveto + if (nOps < 4 || !(nOps % 4 == 0 || (nOps-1) % 4 == 0)) { + //~ error(-1, "Wrong number of args (%d) to Type 2 hvcurveto", nOps); + } + for (k = 0; k < nOps && k != nOps-5; k += 4) { + if (k % 8 == 0) { + cvtNum(ops[k].num, ops[k].isFP, charBuf); + cvtNum(ops[k+1].num, ops[k+1].isFP, charBuf); + cvtNum(ops[k+2].num, ops[k+2].isFP, charBuf); + cvtNum(ops[k+3].num, ops[k+3].isFP, charBuf); + charBuf->append((char)31); + } else { + cvtNum(ops[k].num, ops[k].isFP, charBuf); + cvtNum(ops[k+1].num, ops[k+1].isFP, charBuf); + cvtNum(ops[k+2].num, ops[k+2].isFP, charBuf); + cvtNum(ops[k+3].num, ops[k+3].isFP, charBuf); + charBuf->append((char)30); + } + } + if (k == nOps-5) { + if (k % 8 == 0) { + cvtNum(ops[k].num, ops[k].isFP, charBuf); + cvtNum(0, gFalse, charBuf); + cvtNum(ops[k+1].num, ops[k+1].isFP, charBuf); + cvtNum(ops[k+2].num, ops[k+2].isFP, charBuf); + cvtNum(ops[k+4].num, ops[k+4].isFP, charBuf); + cvtNum(ops[k+3].num, ops[k+3].isFP, charBuf); + } else { + cvtNum(0, gFalse, charBuf); + cvtNum(ops[k].num, ops[k].isFP, charBuf); + cvtNum(ops[k+1].num, ops[k+1].isFP, charBuf); + cvtNum(ops[k+2].num, ops[k+2].isFP, charBuf); + cvtNum(ops[k+3].num, ops[k+3].isFP, charBuf); + cvtNum(ops[k+4].num, ops[k+4].isFP, charBuf); + } + charBuf->append((char)8); + } + nOps = 0; + openPath = gTrue; + break; + case 0x0c00: // dotsection (should be Type 1 only?) + // ignored + nOps = 0; + break; + case 0x0c03: // and + case 0x0c04: // or + case 0x0c05: // not + case 0x0c08: // store + case 0x0c09: // abs + case 0x0c0a: // add + case 0x0c0b: // sub + case 0x0c0c: // div + case 0x0c0d: // load + case 0x0c0e: // neg + case 0x0c0f: // eq + case 0x0c12: // drop + case 0x0c14: // put + case 0x0c15: // get + case 0x0c16: // ifelse + case 0x0c17: // random + case 0x0c18: // mul + case 0x0c1a: // sqrt + case 0x0c1b: // dup + case 0x0c1c: // exch + case 0x0c1d: // index + case 0x0c1e: // roll + //~ error(-1, "Unimplemented Type 2 charstring op: 12.%d", file[i+1]); + nOps = 0; + break; + case 0x0c22: // hflex + if (nOps != 7) { + //~ error(-1, "Wrong number of args (%d) to Type 2 hflex", nOps); + } + cvtNum(ops[0].num, ops[0].isFP, charBuf); + cvtNum(0, gFalse, charBuf); + cvtNum(ops[1].num, ops[1].isFP, charBuf); + cvtNum(ops[2].num, ops[2].isFP, charBuf); + cvtNum(ops[3].num, ops[3].isFP, charBuf); + cvtNum(0, gFalse, charBuf); + charBuf->append((char)8); + cvtNum(ops[4].num, ops[4].isFP, charBuf); + cvtNum(0, gFalse, charBuf); + cvtNum(ops[5].num, ops[5].isFP, charBuf); + cvtNum(-ops[2].num, ops[2].isFP, charBuf); + cvtNum(ops[6].num, ops[6].isFP, charBuf); + cvtNum(0, gFalse, charBuf); + charBuf->append((char)8); + nOps = 0; + openPath = gTrue; + break; + case 0x0c23: // flex + if (nOps != 13) { + //~ error(-1, "Wrong number of args (%d) to Type 2 flex", nOps); + } + cvtNum(ops[0].num, ops[0].isFP, charBuf); + cvtNum(ops[1].num, ops[1].isFP, charBuf); + cvtNum(ops[2].num, ops[2].isFP, charBuf); + cvtNum(ops[3].num, ops[3].isFP, charBuf); + cvtNum(ops[4].num, ops[4].isFP, charBuf); + cvtNum(ops[5].num, ops[5].isFP, charBuf); + charBuf->append((char)8); + cvtNum(ops[6].num, ops[6].isFP, charBuf); + cvtNum(ops[7].num, ops[7].isFP, charBuf); + cvtNum(ops[8].num, ops[8].isFP, charBuf); + cvtNum(ops[9].num, ops[9].isFP, charBuf); + cvtNum(ops[10].num, ops[10].isFP, charBuf); + cvtNum(ops[11].num, ops[11].isFP, charBuf); + charBuf->append((char)8); + nOps = 0; + openPath = gTrue; + break; + case 0x0c24: // hflex1 + if (nOps != 9) { + //~ error(-1, "Wrong number of args (%d) to Type 2 hflex1", nOps); + } + cvtNum(ops[0].num, ops[0].isFP, charBuf); + cvtNum(ops[1].num, ops[1].isFP, charBuf); + cvtNum(ops[2].num, ops[2].isFP, charBuf); + cvtNum(ops[3].num, ops[3].isFP, charBuf); + cvtNum(ops[4].num, ops[4].isFP, charBuf); + cvtNum(0, gFalse, charBuf); + charBuf->append((char)8); + cvtNum(ops[5].num, ops[5].isFP, charBuf); + cvtNum(0, gFalse, charBuf); + cvtNum(ops[6].num, ops[6].isFP, charBuf); + cvtNum(ops[7].num, ops[7].isFP, charBuf); + cvtNum(ops[8].num, ops[8].isFP, charBuf); + cvtNum(-(ops[1].num + ops[3].num + ops[7].num), + ops[1].isFP | ops[3].isFP | ops[7].isFP, charBuf); + charBuf->append((char)8); + nOps = 0; + openPath = gTrue; + break; + case 0x0c25: // flex1 + if (nOps != 11) { + //~ error(-1, "Wrong number of args (%d) to Type 2 flex1", nOps); + } + cvtNum(ops[0].num, ops[0].isFP, charBuf); + cvtNum(ops[1].num, ops[1].isFP, charBuf); + cvtNum(ops[2].num, ops[2].isFP, charBuf); + cvtNum(ops[3].num, ops[3].isFP, charBuf); + cvtNum(ops[4].num, ops[4].isFP, charBuf); + cvtNum(ops[5].num, ops[5].isFP, charBuf); + charBuf->append((char)8); + cvtNum(ops[6].num, ops[6].isFP, charBuf); + cvtNum(ops[7].num, ops[7].isFP, charBuf); + cvtNum(ops[8].num, ops[8].isFP, charBuf); + cvtNum(ops[9].num, ops[9].isFP, charBuf); + dx = ops[0].num + ops[2].num + ops[4].num + ops[6].num + ops[8].num; + dy = ops[1].num + ops[3].num + ops[5].num + ops[7].num + ops[9].num; + if (fabs(dx) > fabs(dy)) { + cvtNum(ops[10].num, ops[10].isFP, charBuf); + cvtNum(-dy, ops[1].isFP | ops[3].isFP | ops[5].isFP | + ops[7].isFP | ops[9].isFP, charBuf); + } else { + cvtNum(-dx, ops[0].isFP | ops[2].isFP | ops[4].isFP | + ops[6].isFP | ops[8].isFP, charBuf); + cvtNum(ops[10].num, ops[10].isFP, charBuf); + } + charBuf->append((char)8); + nOps = 0; + openPath = gTrue; + break; + default: + //~ error(-1, "Illegal Type 2 charstring op: %04x", + //~ ops[nOps].op); + nOps = 0; + break; + } + } + } + + // charstring encryption + if (top) { + r2 = 4330; + for (i = start; i < charBuf->getLength(); ++i) { + byte = charBuf->getChar(i) ^ (r2 >> 8); + charBuf->setChar(i, byte); + r2 = (byte + r2) * 52845 + 22719; + } + } +} + +void FoFiType1C::cvtGlyphWidth(GBool useOp, GString *charBuf, + Type1CPrivateDict *pDict) { + double w; + GBool wFP; + int i; + + if (useOp) { + w = pDict->nominalWidthX + ops[0].num; + wFP = pDict->nominalWidthXFP | ops[0].isFP; + for (i = 1; i < nOps; ++i) { + ops[i-1] = ops[i]; + } + --nOps; + } else { + w = pDict->defaultWidthX; + wFP = pDict->defaultWidthXFP; + } + cvtNum(0, gFalse, charBuf); + cvtNum(w, wFP, charBuf); + charBuf->append((char)13); +} + +void FoFiType1C::cvtNum(double x, GBool isFP, GString *charBuf) { + Guchar buf[12]; + int y, n; + + n = 0; + if (isFP) { + if (x >= -32768 && x < 32768) { + y = (int)(x * 256.0); + buf[0] = 255; + buf[1] = (Guchar)(y >> 24); + buf[2] = (Guchar)(y >> 16); + buf[3] = (Guchar)(y >> 8); + buf[4] = (Guchar)y; + buf[5] = 255; + buf[6] = 0; + buf[7] = 0; + buf[8] = 1; + buf[9] = 0; + buf[10] = 12; + buf[11] = 12; + n = 12; + } else { + //~ error(-1, "Type 2 fixed point constant out of range"); + } + } else { + y = (int)x; + if (y >= -107 && y <= 107) { + buf[0] = (Guchar)(y + 139); + n = 1; + } else if (y > 107 && y <= 1131) { + y -= 108; + buf[0] = (Guchar)((y >> 8) + 247); + buf[1] = (Guchar)(y & 0xff); + n = 2; + } else if (y < -107 && y >= -1131) { + y = -y - 108; + buf[0] = (Guchar)((y >> 8) + 251); + buf[1] = (Guchar)(y & 0xff); + n = 2; + } else { + buf[0] = 255; + buf[1] = (Guchar)(y >> 24); + buf[2] = (Guchar)(y >> 16); + buf[3] = (Guchar)(y >> 8); + buf[4] = (Guchar)y; + n = 5; + } + } + charBuf->append((char *)buf, n); +} + +void FoFiType1C::eexecWrite(Type1CEexecBuf *eb, char *s) { + Guchar *p; + Guchar x; + + for (p = (Guchar *)s; *p; ++p) { + x = *p ^ (eb->r1 >> 8); + eb->r1 = (x + eb->r1) * 52845 + 22719; + if (eb->ascii) { + (*eb->outputFunc)(eb->outputStream, &hexChars[x >> 4], 1); + (*eb->outputFunc)(eb->outputStream, &hexChars[x & 0x0f], 1); + eb->line += 2; + if (eb->line == 64) { + (*eb->outputFunc)(eb->outputStream, "\n", 1); + eb->line = 0; + } + } else { + (*eb->outputFunc)(eb->outputStream, (char *)&x, 1); + } + } +} + +void FoFiType1C::eexecWriteCharstring(Type1CEexecBuf *eb, + Guchar *s, int n) { + Guchar x; + int i; + + // eexec encryption + for (i = 0; i < n; ++i) { + x = s[i] ^ (eb->r1 >> 8); + eb->r1 = (x + eb->r1) * 52845 + 22719; + if (eb->ascii) { + (*eb->outputFunc)(eb->outputStream, &hexChars[x >> 4], 1); + (*eb->outputFunc)(eb->outputStream, &hexChars[x & 0x0f], 1); + eb->line += 2; + if (eb->line == 64) { + (*eb->outputFunc)(eb->outputStream, "\n", 1); + eb->line = 0; + } + } else { + (*eb->outputFunc)(eb->outputStream, (char *)&x, 1); + } + } +} + +GBool FoFiType1C::parse() { + Type1CIndex fdIdx; + Type1CIndexVal val; + int i; + + parsedOk = gTrue; + + // some tools embed Type 1C fonts with an extra whitespace char at + // the beginning + if (len > 0 && file[0] != '\x01') { + ++file; + --len; + } + + // find the indexes + getIndex(getU8(2, &parsedOk), &nameIdx, &parsedOk); + getIndex(nameIdx.endPos, &topDictIdx, &parsedOk); + getIndex(topDictIdx.endPos, &stringIdx, &parsedOk); + getIndex(stringIdx.endPos, &gsubrIdx, &parsedOk); + if (!parsedOk) { + return gFalse; + } + gsubrBias = (gsubrIdx.len < 1240) ? 107 + : (gsubrIdx.len < 33900) ? 1131 : 32768; + + // read the first font name + getIndexVal(&nameIdx, 0, &val, &parsedOk); + if (!parsedOk) { + return gFalse; + } + name = new GString((char *)&file[val.pos], val.len); + + // read the top dict for the first font + readTopDict(); + + // for CID fonts: read the FDArray dicts and private dicts + if (topDict.firstOp == 0x0c1e) { + if (topDict.fdArrayOffset == 0) { + nFDs = 1; + privateDicts = (Type1CPrivateDict *)gmalloc(sizeof(Type1CPrivateDict)); + readPrivateDict(0, 0, &privateDicts[0]); + } else { + getIndex(topDict.fdArrayOffset, &fdIdx, &parsedOk); + if (!parsedOk) { + return gFalse; + } + nFDs = fdIdx.len; + privateDicts = (Type1CPrivateDict *) + gmallocn(nFDs, sizeof(Type1CPrivateDict)); + for (i = 0; i < nFDs; ++i) { + getIndexVal(&fdIdx, i, &val, &parsedOk); + if (!parsedOk) { + return gFalse; + } + readFD(val.pos, val.len, &privateDicts[i]); + } + } + + // for 8-bit fonts: read the private dict + } else { + privateDicts = (Type1CPrivateDict *)gmalloc(sizeof(Type1CPrivateDict)); + readPrivateDict(topDict.privateOffset, topDict.privateSize, + &privateDicts[0]); + } + + // check for parse errors in the private dict(s) + if (!parsedOk) { + return gFalse; + } + + // get the charstrings index + if (topDict.charStringsOffset <= 0) { + parsedOk = gFalse; + return gFalse; + } + getIndex(topDict.charStringsOffset, &charStringsIdx, &parsedOk); + if (!parsedOk) { + return gFalse; + } + nGlyphs = charStringsIdx.len; + + // for CID fonts: read the FDSelect table + if (topDict.firstOp == 0x0c1e) { + readFDSelect(); + if (!parsedOk) { + return gFalse; + } + } + + // read the charset + if (!readCharset()) { + parsedOk = gFalse; + return gFalse; + } + + // for 8-bit fonts: build the encoding + if (topDict.firstOp != 0x0c14 && topDict.firstOp != 0x0c1e) { + buildEncoding(); + if (!parsedOk) { + return gFalse; + } + } + + return parsedOk; +} + +void FoFiType1C::readTopDict() { + Type1CIndexVal topDictPtr; + int pos; + + topDict.firstOp = -1; + topDict.versionSID = 0; + topDict.noticeSID = 0; + topDict.copyrightSID = 0; + topDict.fullNameSID = 0; + topDict.familyNameSID = 0; + topDict.weightSID = 0; + topDict.isFixedPitch = 0; + topDict.italicAngle = 0; + topDict.underlinePosition = -100; + topDict.underlineThickness = 50; + topDict.paintType = 0; + topDict.charstringType = 2; + topDict.fontMatrix[0] = 0.001; + topDict.fontMatrix[1] = 0; + topDict.fontMatrix[2] = 0; + topDict.fontMatrix[3] = 0.001; + topDict.fontMatrix[4] = 0; + topDict.fontMatrix[5] = 0; + topDict.hasFontMatrix = gFalse; + topDict.uniqueID = 0; + topDict.fontBBox[0] = 0; + topDict.fontBBox[1] = 0; + topDict.fontBBox[2] = 0; + topDict.fontBBox[3] = 0; + topDict.strokeWidth = 0; + topDict.charsetOffset = 0; + topDict.encodingOffset = 0; + topDict.charStringsOffset = 0; + topDict.privateSize = 0; + topDict.privateOffset = 0; + topDict.registrySID = 0; + topDict.orderingSID = 0; + topDict.supplement = 0; + topDict.fdArrayOffset = 0; + topDict.fdSelectOffset = 0; + + getIndexVal(&topDictIdx, 0, &topDictPtr, &parsedOk); + pos = topDictPtr.pos; + nOps = 0; + while (pos < topDictPtr.pos + topDictPtr.len) { + pos = getOp(pos, gFalse, &parsedOk); + if (!parsedOk) { + break; + } + if (!ops[nOps - 1].isNum) { + --nOps; // drop the operator + if (topDict.firstOp < 0) { + topDict.firstOp = ops[nOps].op; + } + switch (ops[nOps].op) { + case 0x0000: topDict.versionSID = (int)ops[0].num; break; + case 0x0001: topDict.noticeSID = (int)ops[0].num; break; + case 0x0c00: topDict.copyrightSID = (int)ops[0].num; break; + case 0x0002: topDict.fullNameSID = (int)ops[0].num; break; + case 0x0003: topDict.familyNameSID = (int)ops[0].num; break; + case 0x0004: topDict.weightSID = (int)ops[0].num; break; + case 0x0c01: topDict.isFixedPitch = (int)ops[0].num; break; + case 0x0c02: topDict.italicAngle = ops[0].num; break; + case 0x0c03: topDict.underlinePosition = ops[0].num; break; + case 0x0c04: topDict.underlineThickness = ops[0].num; break; + case 0x0c05: topDict.paintType = (int)ops[0].num; break; + case 0x0c06: topDict.charstringType = (int)ops[0].num; break; + case 0x0c07: topDict.fontMatrix[0] = ops[0].num; + topDict.fontMatrix[1] = ops[1].num; + topDict.fontMatrix[2] = ops[2].num; + topDict.fontMatrix[3] = ops[3].num; + topDict.fontMatrix[4] = ops[4].num; + topDict.fontMatrix[5] = ops[5].num; + topDict.hasFontMatrix = gTrue; break; + case 0x000d: topDict.uniqueID = (int)ops[0].num; break; + case 0x0005: topDict.fontBBox[0] = ops[0].num; + topDict.fontBBox[1] = ops[1].num; + topDict.fontBBox[2] = ops[2].num; + topDict.fontBBox[3] = ops[3].num; break; + case 0x0c08: topDict.strokeWidth = ops[0].num; break; + case 0x000f: topDict.charsetOffset = (int)ops[0].num; break; + case 0x0010: topDict.encodingOffset = (int)ops[0].num; break; + case 0x0011: topDict.charStringsOffset = (int)ops[0].num; break; + case 0x0012: topDict.privateSize = (int)ops[0].num; + topDict.privateOffset = (int)ops[1].num; break; + case 0x0c1e: topDict.registrySID = (int)ops[0].num; + topDict.orderingSID = (int)ops[1].num; + topDict.supplement = (int)ops[2].num; break; + case 0x0c24: topDict.fdArrayOffset = (int)ops[0].num; break; + case 0x0c25: topDict.fdSelectOffset = (int)ops[0].num; break; + } + nOps = 0; + } + } +} + +// Read a CID font dict (FD) - this pulls out the private dict +// pointer, and reads the private dict. It also pulls the FontMatrix +// (if any) out of the FD. +void FoFiType1C::readFD(int offset, int length, Type1CPrivateDict *pDict) { + int pos, pSize, pOffset; + double fontMatrix[6]; + GBool hasFontMatrix; + + hasFontMatrix = gFalse; + pSize = pOffset = 0; + pos = offset; + nOps = 0; + while (pos < offset + length) { + pos = getOp(pos, gFalse, &parsedOk); + if (!parsedOk) { + return; + } + if (!ops[nOps - 1].isNum) { + if (ops[nOps - 1].op == 0x0012) { + if (nOps < 3) { + parsedOk = gFalse; + return; + } + pSize = (int)ops[0].num; + pOffset = (int)ops[1].num; + break; + } else if (ops[nOps - 1].op == 0x0c07) { + fontMatrix[0] = ops[0].num; + fontMatrix[1] = ops[1].num; + fontMatrix[2] = ops[2].num; + fontMatrix[3] = ops[3].num; + fontMatrix[4] = ops[4].num; + fontMatrix[5] = ops[5].num; + hasFontMatrix = gTrue; + } + nOps = 0; + } + } + readPrivateDict(pOffset, pSize, pDict); + if (hasFontMatrix) { + pDict->fontMatrix[0] = fontMatrix[0]; + pDict->fontMatrix[1] = fontMatrix[1]; + pDict->fontMatrix[2] = fontMatrix[2]; + pDict->fontMatrix[3] = fontMatrix[3]; + pDict->fontMatrix[4] = fontMatrix[4]; + pDict->fontMatrix[5] = fontMatrix[5]; + pDict->hasFontMatrix = gTrue; + } +} + +void FoFiType1C::readPrivateDict(int offset, int length, + Type1CPrivateDict *pDict) { + int pos; + + pDict->hasFontMatrix = gFalse; + pDict->nBlueValues = 0; + pDict->nOtherBlues = 0; + pDict->nFamilyBlues = 0; + pDict->nFamilyOtherBlues = 0; + pDict->blueScale = 0.039625; + pDict->blueShift = 7; + pDict->blueFuzz = 1; + pDict->hasStdHW = gFalse; + pDict->hasStdVW = gFalse; + pDict->nStemSnapH = 0; + pDict->nStemSnapV = 0; + pDict->hasForceBold = gFalse; + pDict->forceBoldThreshold = 0; + pDict->languageGroup = 0; + pDict->expansionFactor = 0.06; + pDict->initialRandomSeed = 0; + pDict->subrsOffset = 0; + pDict->defaultWidthX = 0; + pDict->defaultWidthXFP = gFalse; + pDict->nominalWidthX = 0; + pDict->nominalWidthXFP = gFalse; + + // no dictionary + if (offset == 0 || length == 0) { + return; + } + + pos = offset; + nOps = 0; + while (pos < offset + length) { + pos = getOp(pos, gFalse, &parsedOk); + if (!parsedOk) { + break; + } + if (!ops[nOps - 1].isNum) { + --nOps; // drop the operator + switch (ops[nOps].op) { + case 0x0006: + pDict->nBlueValues = getDeltaIntArray(pDict->blueValues, + type1CMaxBlueValues); + break; + case 0x0007: + pDict->nOtherBlues = getDeltaIntArray(pDict->otherBlues, + type1CMaxOtherBlues); + break; + case 0x0008: + pDict->nFamilyBlues = getDeltaIntArray(pDict->familyBlues, + type1CMaxBlueValues); + break; + case 0x0009: + pDict->nFamilyOtherBlues = getDeltaIntArray(pDict->familyOtherBlues, + type1CMaxOtherBlues); + break; + case 0x0c09: + pDict->blueScale = ops[0].num; + break; + case 0x0c0a: + pDict->blueShift = (int)ops[0].num; + break; + case 0x0c0b: + pDict->blueFuzz = (int)ops[0].num; + break; + case 0x000a: + pDict->stdHW = ops[0].num; + pDict->hasStdHW = gTrue; + break; + case 0x000b: + pDict->stdVW = ops[0].num; + pDict->hasStdVW = gTrue; + break; + case 0x0c0c: + pDict->nStemSnapH = getDeltaFPArray(pDict->stemSnapH, + type1CMaxStemSnap); + break; + case 0x0c0d: + pDict->nStemSnapV = getDeltaFPArray(pDict->stemSnapV, + type1CMaxStemSnap); + break; + case 0x0c0e: + pDict->forceBold = ops[0].num != 0; + pDict->hasForceBold = gTrue; + break; + case 0x0c0f: + pDict->forceBoldThreshold = ops[0].num; + break; + case 0x0c11: + pDict->languageGroup = (int)ops[0].num; + break; + case 0x0c12: + pDict->expansionFactor = ops[0].num; + break; + case 0x0c13: + pDict->initialRandomSeed = (int)ops[0].num; + break; + case 0x0013: + pDict->subrsOffset = offset + (int)ops[0].num; + break; + case 0x0014: + pDict->defaultWidthX = ops[0].num; + pDict->defaultWidthXFP = ops[0].isFP; + break; + case 0x0015: + pDict->nominalWidthX = ops[0].num; + pDict->nominalWidthXFP = ops[0].isFP; + break; + } + nOps = 0; + } + } +} + +void FoFiType1C::readFDSelect() { + int fdSelectFmt, pos, nRanges, gid0, gid1, fd, i, j; + + fdSelect = (Guchar *)gmalloc(nGlyphs); + if (topDict.fdSelectOffset == 0) { + for (i = 0; i < nGlyphs; ++i) { + fdSelect[i] = 0; + } + } else { + pos = topDict.fdSelectOffset; + fdSelectFmt = getU8(pos++, &parsedOk); + if (!parsedOk) { + return; + } + if (fdSelectFmt == 0) { + if (!checkRegion(pos, nGlyphs)) { + parsedOk = gFalse; + return; + } + memcpy(fdSelect, file + pos, nGlyphs); + } else if (fdSelectFmt == 3) { + nRanges = getU16BE(pos, &parsedOk); + pos += 2; + gid0 = getU16BE(pos, &parsedOk); + pos += 2; + for (i = 1; i <= nRanges; ++i) { + fd = getU8(pos++, &parsedOk); + gid1 = getU16BE(pos, &parsedOk); + if (!parsedOk) { + return; + } + pos += 2; + if (gid0 > gid1 || gid1 > nGlyphs) { + //~ error(-1, "Bad FDSelect table in CID font"); + parsedOk = gFalse; + return; + } + for (j = gid0; j < gid1; ++j) { + fdSelect[j] = fd; + } + gid0 = gid1; + } + } else { + //~ error(-1, "Unknown FDSelect table format in CID font"); + for (i = 0; i < nGlyphs; ++i) { + fdSelect[i] = 0; + } + } + } +} + +void FoFiType1C::buildEncoding() { + char buf[256]; + int nCodes, nRanges, encFormat; + int pos, c, sid, nLeft, nSups, i, j; + + if (topDict.encodingOffset == 0) { + encoding = fofiType1StandardEncoding; + + } else if (topDict.encodingOffset == 1) { + encoding = fofiType1ExpertEncoding; + + } else { + encoding = (char **)gmallocn(256, sizeof(char *)); + for (i = 0; i < 256; ++i) { + encoding[i] = NULL; + } + pos = topDict.encodingOffset; + encFormat = getU8(pos++, &parsedOk); + if (!parsedOk) { + return; + } + if ((encFormat & 0x7f) == 0) { + nCodes = 1 + getU8(pos++, &parsedOk); + if (!parsedOk) { + return; + } + if (nCodes > nGlyphs) { + nCodes = nGlyphs; + } + for (i = 1; i < nCodes; ++i) { + c = getU8(pos++, &parsedOk); + if (!parsedOk) { + return; + } + if (encoding[c]) { + gfree(encoding[c]); + } + encoding[c] = copyString(getString(charset[i], buf, &parsedOk)); + } + } else if ((encFormat & 0x7f) == 1) { + nRanges = getU8(pos++, &parsedOk); + if (!parsedOk) { + return; + } + nCodes = 1; + for (i = 0; i < nRanges; ++i) { + c = getU8(pos++, &parsedOk); + nLeft = getU8(pos++, &parsedOk); + if (!parsedOk) { + return; + } + for (j = 0; j <= nLeft && nCodes < nGlyphs; ++j) { + if (c < 256) { + if (encoding[c]) { + gfree(encoding[c]); + } + encoding[c] = copyString(getString(charset[nCodes], buf, + &parsedOk)); + } + ++nCodes; + ++c; + } + } + } + if (encFormat & 0x80) { + nSups = getU8(pos++, &parsedOk); + if (!parsedOk) { + return; + } + for (i = 0; i < nSups; ++i) { + c = getU8(pos++, &parsedOk);; + if (!parsedOk) { + return;; + } + sid = getU16BE(pos, &parsedOk); + pos += 2; + if (!parsedOk) { + return; + } + if (encoding[c]) { + gfree(encoding[c]); + } + encoding[c] = copyString(getString(sid, buf, &parsedOk)); + } + } + } +} + +GBool FoFiType1C::readCharset() { + int charsetFormat, c, pos; + int nLeft, i, j; + + if (topDict.charsetOffset == 0) { + charset = fofiType1CISOAdobeCharset; + } else if (topDict.charsetOffset == 1) { + charset = fofiType1CExpertCharset; + } else if (topDict.charsetOffset == 2) { + charset = fofiType1CExpertSubsetCharset; + } else { + charset = (Gushort *)gmallocn(nGlyphs, sizeof(Gushort)); + for (i = 0; i < nGlyphs; ++i) { + charset[i] = 0; + } + pos = topDict.charsetOffset; + charsetFormat = getU8(pos++, &parsedOk); + if (charsetFormat == 0) { + for (i = 1; i < nGlyphs; ++i) { + charset[i] = (Gushort)getU16BE(pos, &parsedOk); + pos += 2; + if (!parsedOk) { + break; + } + } + } else if (charsetFormat == 1) { + i = 1; + while (i < nGlyphs) { + c = getU16BE(pos, &parsedOk); + pos += 2; + nLeft = getU8(pos++, &parsedOk); + if (!parsedOk) { + break; + } + for (j = 0; j <= nLeft && i < nGlyphs; ++j) { + charset[i++] = (Gushort)c++; + } + } + } else if (charsetFormat == 2) { + i = 1; + while (i < nGlyphs) { + c = getU16BE(pos, &parsedOk); + pos += 2; + nLeft = getU16BE(pos, &parsedOk); + pos += 2; + if (!parsedOk) { + break; + } + for (j = 0; j <= nLeft && i < nGlyphs; ++j) { + charset[i++] = (Gushort)c++; + } + } + } + if (!parsedOk) { + gfree(charset); + charset = NULL; + return gFalse; + } + } + return gTrue; +} + +int FoFiType1C::getOp(int pos, GBool charstring, GBool *ok) { + static char nybChars[16] = "0123456789.ee -"; + Type1COp op; + char buf[65]; + int b0, b1, nyb0, nyb1, x, i; + + b0 = getU8(pos++, ok); + op.isNum = gTrue; + op.isFP = gFalse; + + if (b0 == 28) { + x = getU8(pos++, ok); + x = (x << 8) | getU8(pos++, ok); + if (x & 0x8000) { + x |= ~0xffff; + } + op.num = x; + + } else if (!charstring && b0 == 29) { + x = getU8(pos++, ok); + x = (x << 8) | getU8(pos++, ok); + x = (x << 8) | getU8(pos++, ok); + x = (x << 8) | getU8(pos++, ok); + if (x & 0x80000000) { + x |= ~0xffffffff; + } + op.num = x; + + } else if (!charstring && b0 == 30) { + i = 0; + do { + b1 = getU8(pos++, ok); + nyb0 = b1 >> 4; + nyb1 = b1 & 0x0f; + if (nyb0 == 0xf) { + break; + } + buf[i++] = nybChars[nyb0]; + if (i == 64) { + break; + } + if (nyb0 == 0xc) { + buf[i++] = '-'; + } + if (i == 64) { + break; + } + if (nyb1 == 0xf) { + break; + } + buf[i++] = nybChars[nyb1]; + if (i == 64) { + break; + } + if (nyb1 == 0xc) { + buf[i++] = '-'; + } + } while (i < 64); + buf[i] = '\0'; + op.num = atof(buf); + op.isFP = gTrue; + + } else if (b0 >= 32 && b0 <= 246) { + op.num = b0 - 139; + + } else if (b0 >= 247 && b0 <= 250) { + op.num = ((b0 - 247) << 8) + getU8(pos++, ok) + 108; + + } else if (b0 >= 251 && b0 <= 254) { + op.num = -((b0 - 251) << 8) - getU8(pos++, ok) - 108; + + } else if (charstring && b0 == 255) { + x = getU8(pos++, ok); + x = (x << 8) | getU8(pos++, ok); + x = (x << 8) | getU8(pos++, ok); + x = (x << 8) | getU8(pos++, ok); + if (x & 0x80000000) { + x |= ~0xffffffff; + } + op.num = (double)x / 65536.0; + op.isFP = gTrue; + + } else if (b0 == 12) { + op.isNum = gFalse; + op.op = 0x0c00 + getU8(pos++, ok); + + } else { + op.isNum = gFalse; + op.op = b0; + } + + if (nOps < 49) { + ops[nOps++] = op; + } + + return pos; +} + +// Convert the delta-encoded ops array to an array of ints. +int FoFiType1C::getDeltaIntArray(int *arr, int maxLen) { + int x; + int n, i; + + if ((n = nOps) > maxLen) { + n = maxLen; + } + x = 0; + for (i = 0; i < n; ++i) { + x += (int)ops[i].num; + arr[i] = x; + } + return n; +} + +// Convert the delta-encoded ops array to an array of doubles. +int FoFiType1C::getDeltaFPArray(double *arr, int maxLen) { + double x; + int n, i; + + if ((n = nOps) > maxLen) { + n = maxLen; + } + x = 0; + for (i = 0; i < n; ++i) { + x += ops[i].num; + arr[i] = x; + } + return n; +} + +void FoFiType1C::getIndex(int pos, Type1CIndex *idx, GBool *ok) { + idx->pos = pos; + idx->len = getU16BE(pos, ok); + if (idx->len == 0) { + // empty indexes are legal and contain just the length field + idx->offSize = 0; + idx->startPos = idx->endPos = pos + 2; + } else { + idx->offSize = getU8(pos + 2, ok); + if (idx->offSize < 1 || idx->offSize > 4) { + *ok = gFalse; + } + idx->startPos = pos + 3 + (idx->len + 1) * idx->offSize - 1; + if (idx->startPos < 0 || idx->startPos >= len) { + *ok = gFalse; + } + idx->endPos = idx->startPos + getUVarBE(pos + 3 + idx->len * idx->offSize, + idx->offSize, ok); + if (idx->endPos < idx->startPos || idx->endPos > len) { + *ok = gFalse; + } + } +} + +void FoFiType1C::getIndexVal(Type1CIndex *idx, int i, + Type1CIndexVal *val, GBool *ok) { + int pos0, pos1; + + if (i < 0 || i >= idx->len) { + *ok = gFalse; + return; + } + pos0 = idx->startPos + getUVarBE(idx->pos + 3 + i * idx->offSize, + idx->offSize, ok); + pos1 = idx->startPos + getUVarBE(idx->pos + 3 + (i + 1) * idx->offSize, + idx->offSize, ok); + if (pos0 < idx->startPos || pos0 > idx->endPos || + pos1 <= idx->startPos || pos1 > idx->endPos || + pos1 < pos0) { + *ok = gFalse; + } + val->pos = pos0; + val->len = pos1 - pos0; +} + +char *FoFiType1C::getString(int sid, char *buf, GBool *ok) { + Type1CIndexVal val; + int n; + + if (sid < 391) { + strcpy(buf, fofiType1CStdStrings[sid]); + } else { + sid -= 391; + getIndexVal(&stringIdx, sid, &val, ok); + if (*ok) { + if ((n = val.len) > 255) { + n = 255; + } + strncpy(buf, (char *)&file[val.pos], n); + buf[n] = '\0'; + } else { + buf[0] = '\0'; + } + } + return buf; +} diff --git a/kpdf/xpdf/fofi/FoFiType1C.h b/kpdf/xpdf/fofi/FoFiType1C.h new file mode 100644 index 00000000..eec27555 --- /dev/null +++ b/kpdf/xpdf/fofi/FoFiType1C.h @@ -0,0 +1,233 @@ +//======================================================================== +// +// FoFiType1C.h +// +// Copyright 1999-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef FOFITYPE1C_H +#define FOFITYPE1C_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" +#include "FoFiBase.h" + +class GString; + +//------------------------------------------------------------------------ + +struct Type1CIndex { + int pos; // absolute position in file + int len; // length (number of entries) + int offSize; // offset size + int startPos; // position of start of index data - 1 + int endPos; // position one byte past end of the index +}; + +struct Type1CIndexVal { + int pos; // absolute position in file + int len; // length, in bytes +}; + +struct Type1CTopDict { + int firstOp; + + int versionSID; + int noticeSID; + int copyrightSID; + int fullNameSID; + int familyNameSID; + int weightSID; + int isFixedPitch; + double italicAngle; + double underlinePosition; + double underlineThickness; + int paintType; + int charstringType; + double fontMatrix[6]; + GBool hasFontMatrix; // CID fonts are allowed to put their + // FontMatrix in the FD instead of the + // top dict + int uniqueID; + double fontBBox[4]; + double strokeWidth; + int charsetOffset; + int encodingOffset; + int charStringsOffset; + int privateSize; + int privateOffset; + + // CIDFont entries + int registrySID; + int orderingSID; + int supplement; + int fdArrayOffset; + int fdSelectOffset; +}; + +#define type1CMaxBlueValues 14 +#define type1CMaxOtherBlues 10 +#define type1CMaxStemSnap 12 + +struct Type1CPrivateDict { + double fontMatrix[6]; + GBool hasFontMatrix; + int blueValues[type1CMaxBlueValues]; + int nBlueValues; + int otherBlues[type1CMaxOtherBlues]; + int nOtherBlues; + int familyBlues[type1CMaxBlueValues]; + int nFamilyBlues; + int familyOtherBlues[type1CMaxOtherBlues]; + int nFamilyOtherBlues; + double blueScale; + int blueShift; + int blueFuzz; + double stdHW; + GBool hasStdHW; + double stdVW; + GBool hasStdVW; + double stemSnapH[type1CMaxStemSnap]; + int nStemSnapH; + double stemSnapV[type1CMaxStemSnap]; + int nStemSnapV; + GBool forceBold; + GBool hasForceBold; + double forceBoldThreshold; + int languageGroup; + double expansionFactor; + int initialRandomSeed; + int subrsOffset; + double defaultWidthX; + GBool defaultWidthXFP; + double nominalWidthX; + GBool nominalWidthXFP; +}; + +struct Type1COp { + GBool isNum; // true -> number, false -> operator + GBool isFP; // true -> floating point number, false -> int + union { + double num; // if num is true + int op; // if num is false + }; +}; + +struct Type1CEexecBuf { + FoFiOutputFunc outputFunc; + void *outputStream; + GBool ascii; // ASCII encoding? + Gushort r1; // eexec encryption key + int line; // number of eexec chars left on current line +}; + +//------------------------------------------------------------------------ +// FoFiType1C +//------------------------------------------------------------------------ + +class FoFiType1C: public FoFiBase { +public: + + // Create a FoFiType1C object from a memory buffer. + static FoFiType1C *make(char *fileA, int lenA); + + // Create a FoFiType1C object from a file on disk. + static FoFiType1C *load(char *fileName); + + virtual ~FoFiType1C(); + + // Return the font name. + char *getName(); + + // Return the encoding, as an array of 256 names (any of which may + // be NULL). This is only useful with 8-bit fonts. + char **getEncoding(); + + // Return the mapping from CIDs to GIDs, and return the number of + // CIDs in *. This is only useful for CID fonts. + Gushort *getCIDToGIDMap(int *nCIDs); + + // Convert to a Type 1 font, suitable for embedding in a PostScript + // file. This is only useful with 8-bit fonts. If is + // not NULL, it will be used in place of the encoding in the Type 1C + // font. If is true the eexec section will be hex-encoded, + // otherwise it will be left as binary data. If is non-NULL, + // it will be used as the PostScript font name. + void convertToType1(char *psName, char **newEncoding, GBool ascii, + FoFiOutputFunc outputFunc, void *outputStream); + + // Convert to a Type 0 CIDFont, suitable for embedding in a + // PostScript file. will be used as the PostScript font + // name. + void convertToCIDType0(char *psName, + FoFiOutputFunc outputFunc, void *outputStream); + + // Convert to a Type 0 (but non-CID) composite font, suitable for + // embedding in a PostScript file. will be used as the + // PostScript font name. + void convertToType0(char *psName, + FoFiOutputFunc outputFunc, void *outputStream); + +private: + + FoFiType1C(char *fileA, int lenA, GBool freeFileDataA); + void eexecCvtGlyph(Type1CEexecBuf *eb, char *glyphName, + int offset, int nBytes, + Type1CIndex *subrIdx, + Type1CPrivateDict *pDict); + void cvtGlyph(int offset, int nBytes, GString *charBuf, + Type1CIndex *subrIdx, Type1CPrivateDict *pDict, + GBool top); + void cvtGlyphWidth(GBool useOp, GString *charBuf, + Type1CPrivateDict *pDict); + void cvtNum(double x, GBool isFP, GString *charBuf); + void eexecWrite(Type1CEexecBuf *eb, char *s); + void eexecWriteCharstring(Type1CEexecBuf *eb, Guchar *s, int n); + GBool parse(); + void readTopDict(); + void readFD(int offset, int length, Type1CPrivateDict *pDict); + void readPrivateDict(int offset, int length, Type1CPrivateDict *pDict); + void readFDSelect(); + void buildEncoding(); + GBool readCharset(); + int getOp(int pos, GBool charstring, GBool *ok); + int getDeltaIntArray(int *arr, int maxLen); + int getDeltaFPArray(double *arr, int maxLen); + void getIndex(int pos, Type1CIndex *idx, GBool *ok); + void getIndexVal(Type1CIndex *idx, int i, Type1CIndexVal *val, GBool *ok); + char *getString(int sid, char *buf, GBool *ok); + + GString *name; + char **encoding; + + Type1CIndex nameIdx; + Type1CIndex topDictIdx; + Type1CIndex stringIdx; + Type1CIndex gsubrIdx; + Type1CIndex charStringsIdx; + + Type1CTopDict topDict; + Type1CPrivateDict *privateDicts; + + int nGlyphs; + int nFDs; + Guchar *fdSelect; + Gushort *charset; + int gsubrBias; + + GBool parsedOk; + + Type1COp ops[49]; // operands and operator + int nOps; // number of operands + int nHints; // number of hints for the current glyph + GBool firstOp; // true if we haven't hit the first op yet + GBool openPath; // true if there is an unclosed path +}; + +#endif diff --git a/kpdf/xpdf/fofi/Makefile.am b/kpdf/xpdf/fofi/Makefile.am new file mode 100644 index 00000000..7ca93922 --- /dev/null +++ b/kpdf/xpdf/fofi/Makefile.am @@ -0,0 +1,9 @@ +INCLUDES = -I$(srcdir)/.. -I$(srcdir)/../goo $(all_includes) + +libfofi_la_LDFLAGS = $(all_libraries) +libfofi_la_SOURCES = FoFiBase.cc FoFiEncodings.cc FoFiTrueType.cc \ + FoFiType1.cc FoFiType1C.cc + +METASOURCES = AUTO + +noinst_LTLIBRARIES = libfofi.la diff --git a/kpdf/xpdf/goo/GHash.cc b/kpdf/xpdf/goo/GHash.cc new file mode 100644 index 00000000..b51a7643 --- /dev/null +++ b/kpdf/xpdf/goo/GHash.cc @@ -0,0 +1,380 @@ +//======================================================================== +// +// GHash.cc +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include "gmem.h" +#include "GString.h" +#include "GHash.h" + +//------------------------------------------------------------------------ + +struct GHashBucket { + GString *key; + union { + void *p; + int i; + } val; + GHashBucket *next; +}; + +struct GHashIter { + int h; + GHashBucket *p; +}; + +//------------------------------------------------------------------------ + +GHash::GHash(GBool deleteKeysA) { + int h; + + deleteKeys = deleteKeysA; + size = 7; + tab = (GHashBucket **)gmallocn(size, sizeof(GHashBucket *)); + for (h = 0; h < size; ++h) { + tab[h] = NULL; + } + len = 0; +} + +GHash::~GHash() { + GHashBucket *p; + int h; + + for (h = 0; h < size; ++h) { + while (tab[h]) { + p = tab[h]; + tab[h] = p->next; + if (deleteKeys) { + delete p->key; + } + delete p; + } + } + gfree(tab); +} + +void GHash::add(GString *key, void *val) { + GHashBucket *p; + int h; + + // expand the table if necessary + if (len >= size) { + expand(); + } + + // add the new symbol + p = new GHashBucket; + p->key = key; + p->val.p = val; + h = hash(key); + p->next = tab[h]; + tab[h] = p; + ++len; +} + +void GHash::add(GString *key, int val) { + GHashBucket *p; + int h; + + // expand the table if necessary + if (len >= size) { + expand(); + } + + // add the new symbol + p = new GHashBucket; + p->key = key; + p->val.i = val; + h = hash(key); + p->next = tab[h]; + tab[h] = p; + ++len; +} + +void GHash::replace(GString *key, void *val) { + GHashBucket *p; + int h; + + if ((p = find(key, &h))) { + p->val.p = val; + delete key; + } else { + add(key, val); + } +} + +void GHash::replace(GString *key, int val) { + GHashBucket *p; + int h; + + if ((p = find(key, &h))) { + p->val.i = val; + delete key; + } else { + add(key, val); + } +} + +void *GHash::lookup(GString *key) { + GHashBucket *p; + int h; + + if (!(p = find(key, &h))) { + return NULL; + } + return p->val.p; +} + +int GHash::lookupInt(GString *key) { + GHashBucket *p; + int h; + + if (!(p = find(key, &h))) { + return 0; + } + return p->val.i; +} + +void *GHash::lookup(char *key) { + GHashBucket *p; + int h; + + if (!(p = find(key, &h))) { + return NULL; + } + return p->val.p; +} + +int GHash::lookupInt(char *key) { + GHashBucket *p; + int h; + + if (!(p = find(key, &h))) { + return 0; + } + return p->val.i; +} + +void *GHash::remove(GString *key) { + GHashBucket *p; + GHashBucket **q; + void *val; + int h; + + if (!(p = find(key, &h))) { + return NULL; + } + q = &tab[h]; + while (*q != p) { + q = &((*q)->next); + } + *q = p->next; + if (deleteKeys) { + delete p->key; + } + val = p->val.p; + delete p; + --len; + return val; +} + +int GHash::removeInt(GString *key) { + GHashBucket *p; + GHashBucket **q; + int val; + int h; + + if (!(p = find(key, &h))) { + return 0; + } + q = &tab[h]; + while (*q != p) { + q = &((*q)->next); + } + *q = p->next; + if (deleteKeys) { + delete p->key; + } + val = p->val.i; + delete p; + --len; + return val; +} + +void *GHash::remove(char *key) { + GHashBucket *p; + GHashBucket **q; + void *val; + int h; + + if (!(p = find(key, &h))) { + return NULL; + } + q = &tab[h]; + while (*q != p) { + q = &((*q)->next); + } + *q = p->next; + if (deleteKeys) { + delete p->key; + } + val = p->val.p; + delete p; + --len; + return val; +} + +int GHash::removeInt(char *key) { + GHashBucket *p; + GHashBucket **q; + int val; + int h; + + if (!(p = find(key, &h))) { + return 0; + } + q = &tab[h]; + while (*q != p) { + q = &((*q)->next); + } + *q = p->next; + if (deleteKeys) { + delete p->key; + } + val = p->val.i; + delete p; + --len; + return val; +} + +void GHash::startIter(GHashIter **iter) { + *iter = new GHashIter; + (*iter)->h = -1; + (*iter)->p = NULL; +} + +GBool GHash::getNext(GHashIter **iter, GString **key, void **val) { + if (!*iter) { + return gFalse; + } + if ((*iter)->p) { + (*iter)->p = (*iter)->p->next; + } + while (!(*iter)->p) { + if (++(*iter)->h == size) { + delete *iter; + *iter = NULL; + return gFalse; + } + (*iter)->p = tab[(*iter)->h]; + } + *key = (*iter)->p->key; + *val = (*iter)->p->val.p; + return gTrue; +} + +GBool GHash::getNext(GHashIter **iter, GString **key, int *val) { + if (!*iter) { + return gFalse; + } + if ((*iter)->p) { + (*iter)->p = (*iter)->p->next; + } + while (!(*iter)->p) { + if (++(*iter)->h == size) { + delete *iter; + *iter = NULL; + return gFalse; + } + (*iter)->p = tab[(*iter)->h]; + } + *key = (*iter)->p->key; + *val = (*iter)->p->val.i; + return gTrue; +} + +void GHash::killIter(GHashIter **iter) { + delete *iter; + *iter = NULL; +} + +void GHash::expand() { + GHashBucket **oldTab; + GHashBucket *p; + int oldSize, h, i; + + oldSize = size; + oldTab = tab; + size = 2*size + 1; + tab = (GHashBucket **)gmallocn(size, sizeof(GHashBucket *)); + for (h = 0; h < size; ++h) { + tab[h] = NULL; + } + for (i = 0; i < oldSize; ++i) { + while (oldTab[i]) { + p = oldTab[i]; + oldTab[i] = oldTab[i]->next; + h = hash(p->key); + p->next = tab[h]; + tab[h] = p; + } + } + gfree(oldTab); +} + +GHashBucket *GHash::find(GString *key, int *h) { + GHashBucket *p; + + *h = hash(key); + for (p = tab[*h]; p; p = p->next) { + if (!p->key->cmp(key)) { + return p; + } + } + return NULL; +} + +GHashBucket *GHash::find(char *key, int *h) { + GHashBucket *p; + + *h = hash(key); + for (p = tab[*h]; p; p = p->next) { + if (!p->key->cmp(key)) { + return p; + } + } + return NULL; +} + +int GHash::hash(GString *key) { + char *p; + unsigned int h; + int i; + + h = 0; + for (p = key->getCString(), i = 0; i < key->getLength(); ++p, ++i) { + h = 17 * h + (int)(*p & 0xff); + } + return (int)(h % size); +} + +int GHash::hash(char *key) { + char *p; + unsigned int h; + + h = 0; + for (p = key; *p; ++p) { + h = 17 * h + (int)(*p & 0xff); + } + return (int)(h % size); +} diff --git a/kpdf/xpdf/goo/GHash.h b/kpdf/xpdf/goo/GHash.h new file mode 100644 index 00000000..31aba932 --- /dev/null +++ b/kpdf/xpdf/goo/GHash.h @@ -0,0 +1,78 @@ +//======================================================================== +// +// GHash.h +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef GHASH_H +#define GHASH_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" + +class GString; +struct GHashBucket; +struct GHashIter; + +//------------------------------------------------------------------------ + +class GHash { +public: + + GHash(GBool deleteKeysA = gFalse); + ~GHash(); + void add(GString *key, void *val); + void add(GString *key, int val); + void replace(GString *key, void *val); + void replace(GString *key, int val); + void *lookup(GString *key); + int lookupInt(GString *key); + void *lookup(char *key); + int lookupInt(char *key); + void *remove(GString *key); + int removeInt(GString *key); + void *remove(char *key); + int removeInt(char *key); + int getLength() { return len; } + void startIter(GHashIter **iter); + GBool getNext(GHashIter **iter, GString **key, void **val); + GBool getNext(GHashIter **iter, GString **key, int *val); + void killIter(GHashIter **iter); + +private: + + void expand(); + GHashBucket *find(GString *key, int *h); + GHashBucket *find(char *key, int *h); + int hash(GString *key); + int hash(char *key); + + GBool deleteKeys; // set if key strings should be deleted + int size; // number of buckets + int len; // number of entries + GHashBucket **tab; +}; + +#define deleteGHash(hash, T) \ + do { \ + GHash *_hash = (hash); \ + { \ + GHashIter *_iter; \ + GString *_key; \ + void *_p; \ + _hash->startIter(&_iter); \ + while (_hash->getNext(&_iter, &_key, &_p)) { \ + delete (T*)_p; \ + } \ + delete _hash; \ + } \ + } while(0) + +#endif diff --git a/kpdf/xpdf/goo/GList.cc b/kpdf/xpdf/goo/GList.cc new file mode 100644 index 00000000..fb5fd628 --- /dev/null +++ b/kpdf/xpdf/goo/GList.cc @@ -0,0 +1,97 @@ +//======================================================================== +// +// GList.cc +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include "gmem.h" +#include "GList.h" + +//------------------------------------------------------------------------ +// GList +//------------------------------------------------------------------------ + +GList::GList() { + size = 8; + data = (void **)gmallocn(size, sizeof(void*)); + length = 0; + inc = 0; +} + +GList::GList(int sizeA) { + size = sizeA; + data = (void **)gmallocn(size, sizeof(void*)); + length = 0; + inc = 0; +} + +GList::~GList() { + gfree(data); +} + +void GList::append(void *p) { + if (length >= size) { + expand(); + } + data[length++] = p; +} + +void GList::append(GList *list) { + int i; + + while (length + list->length > size) { + expand(); + } + for (i = 0; i < list->length; ++i) { + data[length++] = list->data[i]; + } +} + +void GList::insert(int i, void *p) { + if (length >= size) { + expand(); + } + if (i < length) { + memmove(data+i+1, data+i, (length - i) * sizeof(void *)); + } + data[i] = p; + ++length; +} + +void *GList::del(int i) { + void *p; + + p = data[i]; + if (i < length - 1) { + memmove(data+i, data+i+1, (length - i - 1) * sizeof(void *)); + } + --length; + if (size - length >= ((inc > 0) ? inc : size/2)) { + shrink(); + } + return p; +} + +void GList::sort(int (*cmp)(const void *obj1, const void *obj2)) { + qsort(data, length, sizeof(void *), cmp); +} + +void GList::expand() { + size += (inc > 0) ? inc : size; + data = (void **)greallocn(data, size, sizeof(void*)); +} + +void GList::shrink() { + size -= (inc > 0) ? inc : size/2; + data = (void **)greallocn(data, size, sizeof(void*)); +} diff --git a/kpdf/xpdf/goo/GList.h b/kpdf/xpdf/goo/GList.h new file mode 100644 index 00000000..e4d8ff8f --- /dev/null +++ b/kpdf/xpdf/goo/GList.h @@ -0,0 +1,96 @@ +//======================================================================== +// +// GList.h +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef GLIST_H +#define GLIST_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" + +//------------------------------------------------------------------------ +// GList +//------------------------------------------------------------------------ + +class GList { +public: + + // Create an empty list. + GList(); + + // Create an empty list with space for elements. + GList(int sizeA); + + // Destructor - does not free pointed-to objects. + ~GList(); + + //----- general + + // Get the number of elements. + int getLength() { return length; } + + //----- ordered list support + + // Return the th element. + // Assumes 0 <= i < length. + void *get(int i) { return data[i]; } + + // Append an element to the end of the list. + void append(void *p); + + // Append another list to the end of this one. + void append(GList *list); + + // Insert an element at index . + // Assumes 0 <= i <= length. + void insert(int i, void *p); + + // Deletes and returns the element at index . + // Assumes 0 <= i < length. + void *del(int i); + + // Sort the list accoring to the given comparison function. + // NB: this sorts an array of pointers, so the pointer args need to + // be double-dereferenced. + void sort(int (*cmp)(const void *ptr1, const void *ptr2)); + + //----- control + + // Set allocation increment to . If inc > 0, that many + // elements will be allocated every time the list is expanded. + // If inc <= 0, the list will be doubled in size. + void setAllocIncr(int incA) { inc = incA; } + +private: + + void expand(); + void shrink(); + + void **data; // the list elements + int size; // size of data array + int length; // number of elements on list + int inc; // allocation increment +}; + +#define deleteGList(list, T) \ + do { \ + GList *_list = (list); \ + { \ + int _i; \ + for (_i = 0; _i < _list->getLength(); ++_i) { \ + delete (T*)_list->get(_i); \ + } \ + delete _list; \ + } \ + } while (0) + +#endif diff --git a/kpdf/xpdf/goo/GMutex.h b/kpdf/xpdf/goo/GMutex.h new file mode 100644 index 00000000..7fa93d85 --- /dev/null +++ b/kpdf/xpdf/goo/GMutex.h @@ -0,0 +1,49 @@ +//======================================================================== +// +// GMutex.h +// +// Portable mutex macros. +// +// Copyright 2002-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef GMUTEX_H +#define GMUTEX_H + +// Usage: +// +// GMutex m; +// gInitMutex(&m); +// ... +// gLockMutex(&m); +// ... critical section ... +// gUnlockMutex(&m); +// ... +// gDestroyMutex(&m); + +#ifdef WIN32 + +#include + +typedef CRITICAL_SECTION GMutex; + +#define gInitMutex(m) InitializeCriticalSection(m) +#define gDestroyMutex(m) DeleteCriticalSection(m) +#define gLockMutex(m) EnterCriticalSection(m) +#define gUnlockMutex(m) LeaveCriticalSection(m) + +#else // assume pthreads + +#include + +typedef pthread_mutex_t GMutex; + +#define gInitMutex(m) pthread_mutex_init(m, NULL) +#define gDestroyMutex(m) pthread_mutex_destroy(m) +#define gLockMutex(m) pthread_mutex_lock(m) +#define gUnlockMutex(m) pthread_mutex_unlock(m) + +#endif + +#endif diff --git a/kpdf/xpdf/goo/GString.cc b/kpdf/xpdf/goo/GString.cc new file mode 100644 index 00000000..e21fd3ea --- /dev/null +++ b/kpdf/xpdf/goo/GString.cc @@ -0,0 +1,718 @@ +//======================================================================== +// +// GString.cc +// +// Simple variable-length string type. +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include +#include +#include +#include "gmem.h" +#include "GString.h" + +//------------------------------------------------------------------------ + +union GStringFormatArg { + int i; + Guint ui; + long l; + Gulong ul; + double f; + char c; + char *s; + GString *gs; +}; + +enum GStringFormatType { + fmtIntDecimal, + fmtIntHex, + fmtIntOctal, + fmtIntBinary, + fmtUIntDecimal, + fmtUIntHex, + fmtUIntOctal, + fmtUIntBinary, + fmtLongDecimal, + fmtLongHex, + fmtLongOctal, + fmtLongBinary, + fmtULongDecimal, + fmtULongHex, + fmtULongOctal, + fmtULongBinary, + fmtDouble, + fmtDoubleTrim, + fmtChar, + fmtString, + fmtGString, + fmtSpace +}; + +static char *formatStrings[] = { + "d", "x", "o", "b", "ud", "ux", "uo", "ub", + "ld", "lx", "lo", "lb", "uld", "ulx", "ulo", "ulb", + "f", "g", + "c", + "s", + "t", + "w", + NULL +}; + +//------------------------------------------------------------------------ + +static inline int size(int len) { + int delta; + for (delta = 8; delta < len && delta < 0x100000; delta <<= 1) ; + // this is ((len + 1) + (delta - 1)) & ~(delta - 1) + return (len + delta) & ~(delta - 1); +} + +inline void GString::resize(int length1) { + char *s1; + + if (!s) { + s = new char[size(length1)]; + } else if (size(length1) != size(length)) { + s1 = new char[size(length1)]; + if (length1 < length) { + memcpy(s1, s, length1); + s1[length1] = '\0'; + } else { + memcpy(s1, s, length + 1); + } + delete[] s; + s = s1; + } +} + +GString::GString() { + s = NULL; + resize(length = 0); + s[0] = '\0'; +} + +GString::GString(const char *sA) { + int n = strlen(sA); + + s = NULL; + resize(length = n); + memcpy(s, sA, n + 1); +} + +GString::GString(const char *sA, int lengthA) { + s = NULL; + resize(length = lengthA); + memcpy(s, sA, length * sizeof(char)); + s[length] = '\0'; +} + +GString::GString(GString *str, int idx, int lengthA) { + s = NULL; + resize(length = lengthA); + memcpy(s, str->getCString() + idx, length); + s[length] = '\0'; +} + +GString::GString(GString *str) { + s = NULL; + resize(length = str->getLength()); + memcpy(s, str->getCString(), length + 1); +} + +GString::GString(GString *str1, GString *str2) { + int n1 = str1->getLength(); + int n2 = str2->getLength(); + + s = NULL; + resize(length = n1 + n2); + memcpy(s, str1->getCString(), n1); + memcpy(s + n1, str2->getCString(), n2 + 1); +} + +GString *GString::fromInt(int x) { + char buf[24]; // enough space for 64-bit ints plus a little extra + char *p; + int len; + + formatInt(x, buf, sizeof(buf), gFalse, 0, 10, &p, &len); + return new GString(p, len); +} + +GString *GString::format(char *fmt, ...) { + va_list argList; + GString *s; + + s = new GString(); + va_start(argList, fmt); + s->appendfv(fmt, argList); + va_end(argList); + return s; +} + +GString *GString::formatv(char *fmt, va_list argList) { + GString *s; + + s = new GString(); + s->appendfv(fmt, argList); + return s; +} + +GString::~GString() { + delete[] s; +} + +GString *GString::clear() { + s[length = 0] = '\0'; + resize(0); + return this; +} + +GString *GString::append(char c) { + resize(length + 1); + s[length++] = c; + s[length] = '\0'; + return this; +} + +GString *GString::append(GString *str) { + int n = str->getLength(); + + resize(length + n); + memcpy(s + length, str->getCString(), n + 1); + length += n; + return this; +} + +GString *GString::append(const char *str) { + int n = strlen(str); + + resize(length + n); + memcpy(s + length, str, n + 1); + length += n; + return this; +} + +GString *GString::append(const char *str, int lengthA) { + resize(length + lengthA); + memcpy(s + length, str, lengthA); + length += lengthA; + s[length] = '\0'; + return this; +} + +GString *GString::appendf(char *fmt, ...) { + va_list argList; + + va_start(argList, fmt); + appendfv(fmt, argList); + va_end(argList); + return this; +} + +GString *GString::appendfv(char *fmt, va_list argList) { + GStringFormatArg *args; + int argsLen, argsSize; + GStringFormatArg arg; + int idx, width, prec; + GBool reverseAlign, zeroFill; + GStringFormatType ft; + char buf[65]; + int len, i; + char *p0, *p1, *str; + + argsLen = 0; + argsSize = 8; + args = (GStringFormatArg *)gmallocn(argsSize, sizeof(GStringFormatArg)); + + p0 = fmt; + while (*p0) { + if (*p0 == '{') { + ++p0; + if (*p0 == '{') { + ++p0; + append('{'); + } else { + + // parse the format string + if (!(*p0 >= '0' && *p0 <= '9')) { + break; + } + idx = *p0 - '0'; + for (++p0; *p0 >= '0' && *p0 <= '9'; ++p0) { + idx = 10 * idx + (*p0 - '0'); + } + if (*p0 != ':') { + break; + } + ++p0; + if (*p0 == '-') { + reverseAlign = gTrue; + ++p0; + } else { + reverseAlign = gFalse; + } + width = 0; + zeroFill = *p0 == '0'; + for (; *p0 >= '0' && *p0 <= '9'; ++p0) { + width = 10 * width + (*p0 - '0'); + } + if (*p0 == '.') { + ++p0; + prec = 0; + for (; *p0 >= '0' && *p0 <= '9'; ++p0) { + prec = 10 * prec + (*p0 - '0'); + } + } else { + prec = 0; + } + for (ft = (GStringFormatType)0; + formatStrings[ft]; + ft = (GStringFormatType)(ft + 1)) { + if (!strncmp(p0, formatStrings[ft], strlen(formatStrings[ft]))) { + break; + } + } + if (!formatStrings[ft]) { + break; + } + p0 += strlen(formatStrings[ft]); + if (*p0 != '}') { + break; + } + ++p0; + + // fetch the argument + if (idx > argsLen) { + break; + } + if (idx == argsLen) { + if (argsLen == argsSize) { + argsSize *= 2; + args = (GStringFormatArg *)greallocn(args, argsSize, + sizeof(GStringFormatArg)); + } + switch (ft) { + case fmtIntDecimal: + case fmtIntHex: + case fmtIntOctal: + case fmtIntBinary: + case fmtSpace: + args[argsLen].i = va_arg(argList, int); + break; + case fmtUIntDecimal: + case fmtUIntHex: + case fmtUIntOctal: + case fmtUIntBinary: + args[argsLen].ui = va_arg(argList, Guint); + break; + case fmtLongDecimal: + case fmtLongHex: + case fmtLongOctal: + case fmtLongBinary: + args[argsLen].l = va_arg(argList, long); + break; + case fmtULongDecimal: + case fmtULongHex: + case fmtULongOctal: + case fmtULongBinary: + args[argsLen].ul = va_arg(argList, Gulong); + break; + case fmtDouble: + case fmtDoubleTrim: + args[argsLen].f = va_arg(argList, double); + break; + case fmtChar: + args[argsLen].c = (char)va_arg(argList, int); + break; + case fmtString: + args[argsLen].s = va_arg(argList, char *); + break; + case fmtGString: + args[argsLen].gs = va_arg(argList, GString *); + break; + } + ++argsLen; + } + + // format the argument + arg = args[idx]; + switch (ft) { + case fmtIntDecimal: + formatInt(arg.i, buf, sizeof(buf), zeroFill, width, 10, &str, &len); + break; + case fmtIntHex: + formatInt(arg.i, buf, sizeof(buf), zeroFill, width, 16, &str, &len); + break; + case fmtIntOctal: + formatInt(arg.i, buf, sizeof(buf), zeroFill, width, 8, &str, &len); + break; + case fmtIntBinary: + formatInt(arg.i, buf, sizeof(buf), zeroFill, width, 2, &str, &len); + break; + case fmtUIntDecimal: + formatUInt(arg.ui, buf, sizeof(buf), zeroFill, width, 10, + &str, &len); + break; + case fmtUIntHex: + formatUInt(arg.ui, buf, sizeof(buf), zeroFill, width, 16, + &str, &len); + break; + case fmtUIntOctal: + formatUInt(arg.ui, buf, sizeof(buf), zeroFill, width, 8, &str, &len); + break; + case fmtUIntBinary: + formatUInt(arg.ui, buf, sizeof(buf), zeroFill, width, 2, &str, &len); + break; + case fmtLongDecimal: + formatInt(arg.l, buf, sizeof(buf), zeroFill, width, 10, &str, &len); + break; + case fmtLongHex: + formatInt(arg.l, buf, sizeof(buf), zeroFill, width, 16, &str, &len); + break; + case fmtLongOctal: + formatInt(arg.l, buf, sizeof(buf), zeroFill, width, 8, &str, &len); + break; + case fmtLongBinary: + formatInt(arg.l, buf, sizeof(buf), zeroFill, width, 2, &str, &len); + break; + case fmtULongDecimal: + formatUInt(arg.ul, buf, sizeof(buf), zeroFill, width, 10, + &str, &len); + break; + case fmtULongHex: + formatUInt(arg.ul, buf, sizeof(buf), zeroFill, width, 16, + &str, &len); + break; + case fmtULongOctal: + formatUInt(arg.ul, buf, sizeof(buf), zeroFill, width, 8, &str, &len); + break; + case fmtULongBinary: + formatUInt(arg.ul, buf, sizeof(buf), zeroFill, width, 2, &str, &len); + break; + case fmtDouble: + formatDouble(arg.f, buf, sizeof(buf), prec, gFalse, &str, &len); + break; + case fmtDoubleTrim: + formatDouble(arg.f, buf, sizeof(buf), prec, gTrue, &str, &len); + break; + case fmtChar: + buf[0] = arg.c; + str = buf; + len = 1; + reverseAlign = !reverseAlign; + break; + case fmtString: + str = arg.s; + len = strlen(str); + reverseAlign = !reverseAlign; + break; + case fmtGString: + str = arg.gs->getCString(); + len = arg.gs->getLength(); + reverseAlign = !reverseAlign; + break; + case fmtSpace: + str = buf; + len = 0; + width = arg.i; + break; + } + + // append the formatted arg, handling width and alignment + if (!reverseAlign && len < width) { + for (i = len; i < width; ++i) { + append(' '); + } + } + append(str, len); + if (reverseAlign && len < width) { + for (i = len; i < width; ++i) { + append(' '); + } + } + } + + } else if (*p0 == '}') { + ++p0; + if (*p0 == '}') { + ++p0; + } + append('}'); + + } else { + for (p1 = p0 + 1; *p1 && *p1 != '{' && *p1 != '}'; ++p1) ; + append(p0, p1 - p0); + p0 = p1; + } + } + + gfree(args); + return this; +} + +void GString::formatInt(long x, char *buf, int bufSize, + GBool zeroFill, int width, int base, + char **p, int *len) { + static char vals[17] = "0123456789abcdef"; + GBool neg; + int start, i, j; + + i = bufSize; + if ((neg = x < 0)) { + x = -x; + } + start = neg ? 1 : 0; + if (x == 0) { + buf[--i] = '0'; + } else { + while (i > start && x) { + buf[--i] = vals[x % base]; + x /= base; + } + } + if (zeroFill) { + for (j = bufSize - i; i > start && j < width - start; ++j) { + buf[--i] = '0'; + } + } + if (neg) { + buf[--i] = '-'; + } + *p = buf + i; + *len = bufSize - i; +} + +void GString::formatUInt(Gulong x, char *buf, int bufSize, + GBool zeroFill, int width, int base, + char **p, int *len) { + static char vals[17] = "0123456789abcdef"; + int i, j; + + i = bufSize; + if (x == 0) { + buf[--i] = '0'; + } else { + while (i > 0 && x) { + buf[--i] = vals[x % base]; + x /= base; + } + } + if (zeroFill) { + for (j = bufSize - i; i > 0 && j < width; ++j) { + buf[--i] = '0'; + } + } + *p = buf + i; + *len = bufSize - i; +} + +void GString::formatDouble(double x, char *buf, int bufSize, int prec, + GBool trim, char **p, int *len) { + GBool neg, started; + double x2; + int d, i, j; + + if ((neg = x < 0)) { + x = -x; + } + x = floor(x * pow(10, prec) + 0.5); + i = bufSize; + started = !trim; + for (j = 0; j < prec && i > 1; ++j) { + x2 = floor(0.1 * (x + 0.5)); + d = (int)floor(x - 10 * x2 + 0.5); + if (started || d != 0) { + buf[--i] = '0' + d; + started = gTrue; + } + x = x2; + } + if (i > 1 && started) { + buf[--i] = '.'; + } + if (i > 1) { + do { + x2 = floor(0.1 * (x + 0.5)); + d = (int)floor(x - 10 * x2 + 0.5); + buf[--i] = '0' + d; + x = x2; + } while (i > 1 && x); + } + if (neg) { + buf[--i] = '-'; + } + *p = buf + i; + *len = bufSize - i; +} + +GString *GString::insert(int i, char c) { + int j; + + resize(length + 1); + for (j = length + 1; j > i; --j) + s[j] = s[j-1]; + s[i] = c; + ++length; + return this; +} + +GString *GString::insert(int i, GString *str) { + int n = str->getLength(); + int j; + + resize(length + n); + for (j = length; j >= i; --j) + s[j+n] = s[j]; + memcpy(s+i, str->getCString(), n); + length += n; + return this; +} + +GString *GString::insert(int i, const char *str) { + int n = strlen(str); + int j; + + resize(length + n); + for (j = length; j >= i; --j) + s[j+n] = s[j]; + memcpy(s+i, str, n); + length += n; + return this; +} + +GString *GString::insert(int i, const char *str, int lengthA) { + int j; + + resize(length + lengthA); + for (j = length; j >= i; --j) + s[j+lengthA] = s[j]; + memcpy(s+i, str, lengthA); + length += lengthA; + return this; +} + +GString *GString::del(int i, int n) { + int j; + + if (n > 0) { + if (i + n > length) { + n = length - i; + } + for (j = i; j <= length - n; ++j) { + s[j] = s[j + n]; + } + resize(length -= n); + } + return this; +} + +GString *GString::upperCase() { + int i; + + for (i = 0; i < length; ++i) { + if (islower(s[i])) + s[i] = toupper(s[i]); + } + return this; +} + +GString *GString::lowerCase() { + int i; + + for (i = 0; i < length; ++i) { + if (isupper(s[i])) + s[i] = tolower(s[i]); + } + return this; +} + +int GString::cmp(GString *str) { + int n1, n2, i, x; + char *p1, *p2; + + n1 = length; + n2 = str->length; + for (i = 0, p1 = s, p2 = str->s; i < n1 && i < n2; ++i, ++p1, ++p2) { + x = *p1 - *p2; + if (x != 0) { + return x; + } + } + return n1 - n2; +} + +int GString::cmpN(GString *str, int n) { + int n1, n2, i, x; + char *p1, *p2; + + n1 = length; + n2 = str->length; + for (i = 0, p1 = s, p2 = str->s; + i < n1 && i < n2 && i < n; + ++i, ++p1, ++p2) { + x = *p1 - *p2; + if (x != 0) { + return x; + } + } + if (i == n) { + return 0; + } + return n1 - n2; +} + +int GString::cmp(const char *sA) { + int n1, i, x; + const char *p1, *p2; + + n1 = length; + for (i = 0, p1 = s, p2 = sA; i < n1 && *p2; ++i, ++p1, ++p2) { + x = *p1 - *p2; + if (x != 0) { + return x; + } + } + if (i < n1) { + return 1; + } + if (*p2) { + return -1; + } + return 0; +} + +int GString::cmpN(const char *sA, int n) { + int n1, i, x; + const char *p1, *p2; + + n1 = length; + for (i = 0, p1 = s, p2 = sA; i < n1 && *p2 && i < n; ++i, ++p1, ++p2) { + x = *p1 - *p2; + if (x != 0) { + return x; + } + } + if (i == n) { + return 0; + } + if (i < n1) { + return 1; + } + if (*p2) { + return -1; + } + return 0; +} diff --git a/kpdf/xpdf/goo/GString.h b/kpdf/xpdf/goo/GString.h new file mode 100644 index 00000000..dd22e2d8 --- /dev/null +++ b/kpdf/xpdf/goo/GString.h @@ -0,0 +1,136 @@ +//======================================================================== +// +// GString.h +// +// Simple variable-length string type. +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef GSTRING_H +#define GSTRING_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include +#include "gtypes.h" + +class GString { +public: + + // Create an empty string. + GString(); + + // Create a string from a C string. + GString(const char *sA); + + // Create a string from chars at . This string + // can contain null characters. + GString(const char *sA, int lengthA); + + // Create a string from chars at in . + GString(GString *str, int idx, int lengthA); + + // Copy a string. + GString(GString *str); + GString *copy() { return new GString(this); } + + // Concatenate two strings. + GString(GString *str1, GString *str2); + + // Convert an integer to a string. + static GString *fromInt(int x); + + // Create a formatted string. Similar to printf, but without the + // string overflow issues. Formatting elements consist of: + // {:[][.]} + // where: + // - is the argument number (arg 0 is the first argument + // following the format string) -- NB: args must be first used in + // order; they can be reused in any order + // - is the field width -- negative to reverse the alignment; + // starting with a leading zero to zero-fill (for integers) + // - is the number of digits to the right of the decimal + // point (for floating point numbers) + // - is one of: + // d, x, o, b -- int in decimal, hex, octal, binary + // ud, ux, uo, ub -- unsigned int + // ld, lx, lo, lb, uld, ulx, ulo, ulb -- long, unsigned long + // f, g -- double + // c -- char + // s -- string (char *) + // t -- GString * + // w -- blank space; arg determines width + // To get literal curly braces, use {{ or }}. + static GString *format(char *fmt, ...); + static GString *formatv(char *fmt, va_list argList); + + // Destructor. + ~GString(); + + // Get length. + int getLength() { return length; } + + // Get C string. + char *getCString() { return s; } + + // Get th character. + char getChar(int i) { return s[i]; } + + // Change th character. + void setChar(int i, char c) { s[i] = c; } + + // Clear string to zero length. + GString *clear(); + + // Append a character or string. + GString *append(char c); + GString *append(GString *str); + GString *append(const char *str); + GString *append(const char *str, int lengthA); + + // Append a formatted string. + GString *appendf(char *fmt, ...); + GString *appendfv(char *fmt, va_list argList); + + // Insert a character or string. + GString *insert(int i, char c); + GString *insert(int i, GString *str); + GString *insert(int i, const char *str); + GString *insert(int i, const char *str, int lengthA); + + // Delete a character or range of characters. + GString *del(int i, int n = 1); + + // Convert string to all-upper/all-lower case. + GString *upperCase(); + GString *lowerCase(); + + // Compare two strings: -1:< 0:= +1:> + int cmp(GString *str); + int cmpN(GString *str, int n); + int cmp(const char *sA); + int cmpN(const char *sA, int n); + +private: + + int length; + char *s; + + void resize(int length1); + static void formatInt(long x, char *buf, int bufSize, + GBool zeroFill, int width, int base, + char **p, int *len); + static void formatUInt(Gulong x, char *buf, int bufSize, + GBool zeroFill, int width, int base, + char **p, int *len); + static void formatDouble(double x, char *buf, int bufSize, int prec, + GBool trim, char **p, int *len); +}; + +#endif diff --git a/kpdf/xpdf/goo/Makefile.am b/kpdf/xpdf/goo/Makefile.am new file mode 100644 index 00000000..04933cee --- /dev/null +++ b/kpdf/xpdf/goo/Makefile.am @@ -0,0 +1,5 @@ +INCLUDES = -I$(srcdir)/.. + +libgoo_la_SOURCES = GHash.cc GList.cc GString.cc gfile.cc gmem.cc gmempp.cc + +noinst_LTLIBRARIES = libgoo.la diff --git a/kpdf/xpdf/goo/gfile.cc b/kpdf/xpdf/goo/gfile.cc new file mode 100644 index 00000000..54a7be3d --- /dev/null +++ b/kpdf/xpdf/goo/gfile.cc @@ -0,0 +1,731 @@ +//======================================================================== +// +// gfile.cc +// +// Miscellaneous file and directory name manipulation. +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef WIN32 +# include +#else +# if defined(MACOS) +# include +# elif !defined(ACORN) +# include +# include +# include +# endif +# include +# include +# if !defined(VMS) && !defined(ACORN) && !defined(MACOS) +# include +# endif +# if defined(VMS) && (__DECCXX_VER < 50200000) +# include +# endif +#endif // WIN32 +#include "GString.h" +#include "gfile.h" + +// Some systems don't define this, so just make it something reasonably +// large. +#ifndef PATH_MAX +#define PATH_MAX 1024 +#endif + +//------------------------------------------------------------------------ + +GString *getHomeDir() { +#ifdef VMS + //---------- VMS ---------- + return new GString("SYS$LOGIN:"); + +#elif defined(__EMX__) || defined(WIN32) + //---------- OS/2+EMX and Win32 ---------- + char *s; + GString *ret; + + if ((s = getenv("HOME"))) + ret = new GString(s); + else + ret = new GString("."); + return ret; + +#elif defined(ACORN) + //---------- RISCOS ---------- + return new GString("@"); + +#elif defined(MACOS) + //---------- MacOS ---------- + return new GString(":"); + +#else + //---------- Unix ---------- + char *s; + struct passwd *pw; + GString *ret; + + if ((s = getenv("HOME"))) { + ret = new GString(s); + } else { + if ((s = getenv("USER"))) + pw = getpwnam(s); + else + pw = getpwuid(getuid()); + if (pw) + ret = new GString(pw->pw_dir); + else + ret = new GString("."); + } + return ret; +#endif +} + +GString *getCurrentDir() { + char buf[PATH_MAX+1]; + +#if defined(__EMX__) + if (_getcwd2(buf, sizeof(buf))) +#elif defined(WIN32) + if (GetCurrentDirectory(sizeof(buf), buf)) +#elif defined(ACORN) + if (strcpy(buf, "@")) +#elif defined(MACOS) + if (strcpy(buf, ":")) +#else + if (getcwd(buf, sizeof(buf))) +#endif + return new GString(buf); + return new GString(); +} + +GString *appendToPath(GString *path, char *fileName) { +#if defined(VMS) + //---------- VMS ---------- + //~ this should handle everything necessary for file + //~ requesters, but it's certainly not complete + char *p0, *p1, *p2; + char *q1; + + p0 = path->getCString(); + p1 = p0 + path->getLength() - 1; + if (!strcmp(fileName, "-")) { + if (*p1 == ']') { + for (p2 = p1; p2 > p0 && *p2 != '.' && *p2 != '['; --p2) ; + if (*p2 == '[') + ++p2; + path->del(p2 - p0, p1 - p2); + } else if (*p1 == ':') { + path->append("[-]"); + } else { + path->clear(); + path->append("[-]"); + } + } else if ((q1 = strrchr(fileName, '.')) && !strncmp(q1, ".DIR;", 5)) { + if (*p1 == ']') { + path->insert(p1 - p0, '.'); + path->insert(p1 - p0 + 1, fileName, q1 - fileName); + } else if (*p1 == ':') { + path->append('['); + path->append(']'); + path->append(fileName, q1 - fileName); + } else { + path->clear(); + path->append(fileName, q1 - fileName); + } + } else { + if (*p1 != ']' && *p1 != ':') + path->clear(); + path->append(fileName); + } + return path; + +#elif defined(WIN32) + //---------- Win32 ---------- + GString *tmp; + char buf[256]; + char *fp; + + tmp = new GString(path); + tmp->append('/'); + tmp->append(fileName); + GetFullPathName(tmp->getCString(), sizeof(buf), buf, &fp); + delete tmp; + path->clear(); + path->append(buf); + return path; + +#elif defined(ACORN) + //---------- RISCOS ---------- + char *p; + int i; + + path->append("."); + i = path->getLength(); + path->append(fileName); + for (p = path->getCString() + i; *p; ++p) { + if (*p == '/') { + *p = '.'; + } else if (*p == '.') { + *p = '/'; + } + } + return path; + +#elif defined(MACOS) + //---------- MacOS ---------- + char *p; + int i; + + path->append(":"); + i = path->getLength(); + path->append(fileName); + for (p = path->getCString() + i; *p; ++p) { + if (*p == '/') { + *p = ':'; + } else if (*p == '.') { + *p = ':'; + } + } + return path; + +#elif defined(__EMX__) + //---------- OS/2+EMX ---------- + int i; + + // appending "." does nothing + if (!strcmp(fileName, ".")) + return path; + + // appending ".." goes up one directory + if (!strcmp(fileName, "..")) { + for (i = path->getLength() - 2; i >= 0; --i) { + if (path->getChar(i) == '/' || path->getChar(i) == '\\' || + path->getChar(i) == ':') + break; + } + if (i <= 0) { + if (path->getChar(0) == '/' || path->getChar(0) == '\\') { + path->del(1, path->getLength() - 1); + } else if (path->getLength() >= 2 && path->getChar(1) == ':') { + path->del(2, path->getLength() - 2); + } else { + path->clear(); + path->append(".."); + } + } else { + if (path->getChar(i-1) == ':') + ++i; + path->del(i, path->getLength() - i); + } + return path; + } + + // otherwise, append "/" and new path component + if (path->getLength() > 0 && + path->getChar(path->getLength() - 1) != '/' && + path->getChar(path->getLength() - 1) != '\\') + path->append('/'); + path->append(fileName); + return path; + +#else + //---------- Unix ---------- + int i; + + // appending "." does nothing + if (!strcmp(fileName, ".")) + return path; + + // appending ".." goes up one directory + if (!strcmp(fileName, "..")) { + for (i = path->getLength() - 2; i >= 0; --i) { + if (path->getChar(i) == '/') + break; + } + if (i <= 0) { + if (path->getChar(0) == '/') { + path->del(1, path->getLength() - 1); + } else { + path->clear(); + path->append(".."); + } + } else { + path->del(i, path->getLength() - i); + } + return path; + } + + // otherwise, append "/" and new path component + if (path->getLength() > 0 && + path->getChar(path->getLength() - 1) != '/') + path->append('/'); + path->append(fileName); + return path; +#endif +} + +GString *grabPath(char *fileName) { +#ifdef VMS + //---------- VMS ---------- + char *p; + + if ((p = strrchr(fileName, ']'))) + return new GString(fileName, p + 1 - fileName); + if ((p = strrchr(fileName, ':'))) + return new GString(fileName, p + 1 - fileName); + return new GString(); + +#elif defined(__EMX__) || defined(WIN32) + //---------- OS/2+EMX and Win32 ---------- + char *p; + + if ((p = strrchr(fileName, '/'))) + return new GString(fileName, p - fileName); + if ((p = strrchr(fileName, '\\'))) + return new GString(fileName, p - fileName); + if ((p = strrchr(fileName, ':'))) + return new GString(fileName, p + 1 - fileName); + return new GString(); + +#elif defined(ACORN) + //---------- RISCOS ---------- + char *p; + + if ((p = strrchr(fileName, '.'))) + return new GString(fileName, p - fileName); + return new GString(); + +#elif defined(MACOS) + //---------- MacOS ---------- + char *p; + + if ((p = strrchr(fileName, ':'))) + return new GString(fileName, p - fileName); + return new GString(); + +#else + //---------- Unix ---------- + char *p; + + if ((p = strrchr(fileName, '/'))) + return new GString(fileName, p - fileName); + return new GString(); +#endif +} + +GBool isAbsolutePath(char *path) { +#ifdef VMS + //---------- VMS ---------- + return strchr(path, ':') || + (path[0] == '[' && path[1] != '.' && path[1] != '-'); + +#elif defined(__EMX__) || defined(WIN32) + //---------- OS/2+EMX and Win32 ---------- + return path[0] == '/' || path[0] == '\\' || path[1] == ':'; + +#elif defined(ACORN) + //---------- RISCOS ---------- + return path[0] == '$'; + +#elif defined(MACOS) + //---------- MacOS ---------- + return path[0] != ':'; + +#else + //---------- Unix ---------- + return path[0] == '/'; +#endif +} + +GString *makePathAbsolute(GString *path) { +#ifdef VMS + //---------- VMS ---------- + char buf[PATH_MAX+1]; + + if (!isAbsolutePath(path->getCString())) { + if (getcwd(buf, sizeof(buf))) { + path->insert(0, buf); + } + } + return path; + +#elif defined(WIN32) + //---------- Win32 ---------- + char buf[_MAX_PATH]; + char *fp; + + buf[0] = '\0'; + if (!GetFullPathName(path->getCString(), _MAX_PATH, buf, &fp)) { + path->clear(); + return path; + } + path->clear(); + path->append(buf); + return path; + +#elif defined(ACORN) + //---------- RISCOS ---------- + path->insert(0, '@'); + return path; + +#elif defined(MACOS) + //---------- MacOS ---------- + path->del(0, 1); + return path; + +#else + //---------- Unix and OS/2+EMX ---------- + struct passwd *pw; + char buf[PATH_MAX+1]; + GString *s; + char *p1, *p2; + int n; + + if (path->getChar(0) == '~') { + if (path->getChar(1) == '/' || +#ifdef __EMX__ + path->getChar(1) == '\\' || +#endif + path->getLength() == 1) { + path->del(0, 1); + s = getHomeDir(); + path->insert(0, s); + delete s; + } else { + p1 = path->getCString() + 1; +#ifdef __EMX__ + for (p2 = p1; *p2 && *p2 != '/' && *p2 != '\\'; ++p2) ; +#else + for (p2 = p1; *p2 && *p2 != '/'; ++p2) ; +#endif + if ((n = p2 - p1) > PATH_MAX) + n = PATH_MAX; + strncpy(buf, p1, n); + buf[n] = '\0'; + if ((pw = getpwnam(buf))) { + path->del(0, p2 - p1 + 1); + path->insert(0, pw->pw_dir); + } + } + } else if (!isAbsolutePath(path->getCString())) { + if (getcwd(buf, sizeof(buf))) { +#ifndef __EMX__ + path->insert(0, '/'); +#endif + path->insert(0, buf); + } + } + return path; +#endif +} + +time_t getModTime(char *fileName) { +#ifdef WIN32 + //~ should implement this, but it's (currently) only used in xpdf + return 0; +#else + struct stat statBuf; + + if (stat(fileName, &statBuf)) { + return 0; + } + return statBuf.st_mtime; +#endif +} + +GBool openTempFile(GString **name, FILE **f, char *mode, char *ext) { +#if defined(WIN32) + //---------- Win32 ---------- + char *tempDir; + GString *s, *s2; + char buf[32]; + FILE *f2; + int t, i; + + // this has the standard race condition problem, but I haven't found + // a better way to generate temp file names with extensions on + // Windows + if ((tempDir = getenv("TEMP"))) { + s = new GString(tempDir); + s->append('\\'); + } else { + s = new GString(); + } + s->append("x"); + t = (int)time(NULL); + for (i = 0; i < 1000; ++i) { + sprintf(buf, "%d", t + i); + s2 = s->copy()->append(buf); + if (ext) { + s2->append(ext); + } + if (!(f2 = fopen(s2->getCString(), "r"))) { + if (!(f2 = fopen(s2->getCString(), mode))) { + delete s2; + delete s; + return gFalse; + } + *name = s2; + *f = f2; + delete s; + return gTrue; + } + fclose(f2); + delete s2; + } + delete s; + return gFalse; +#elif defined(VMS) || defined(__EMX__) || defined(ACORN) || defined(MACOS) + //---------- non-Unix ---------- + char *s; + + // There is a security hole here: an attacker can create a symlink + // with this file name after the tmpnam call and before the fopen + // call. I will happily accept fixes to this function for non-Unix + // OSs. + if (!(s = tmpnam(NULL))) { + return gFalse; + } + *name = new GString(s); + if (ext) { + (*name)->append(ext); + } + if (!(*f = fopen((*name)->getCString(), mode))) { + delete (*name); + return gFalse; + } + return gTrue; +#else + //---------- Unix ---------- + char *s; + int fd; + + if (ext) { +#if HAVE_MKSTEMPS + if ((s = getenv("TMPDIR"))) { + *name = new GString(s); + } else { + *name = new GString("/tmp"); + } + (*name)->append("/XXXXXX")->append(ext); + fd = mkstemps((*name)->getCString(), strlen(ext)); +#else + if (!(s = tmpnam(NULL))) { + return gFalse; + } + *name = new GString(s); + (*name)->append(ext); + fd = open((*name)->getCString(), O_WRONLY | O_CREAT | O_EXCL, 0600); +#endif + } else { +#if HAVE_MKSTEMP + if ((s = getenv("TMPDIR"))) { + *name = new GString(s); + } else { + *name = new GString("/tmp"); + } + (*name)->append("/XXXXXX"); + fd = mkstemp((*name)->getCString()); +#else // HAVE_MKSTEMP + if (!(s = tmpnam(NULL))) { + return gFalse; + } + *name = new GString(s); + fd = open((*name)->getCString(), O_WRONLY | O_CREAT | O_EXCL, 0600); +#endif // HAVE_MKSTEMP + } + if (fd < 0 || !(*f = fdopen(fd, mode))) { + delete *name; + return gFalse; + } + return gTrue; +#endif +} + +GBool executeCommand(char *cmd) { +#ifdef VMS + return system(cmd) ? gTrue : gFalse; +#else + return system(cmd) ? gFalse : gTrue; +#endif +} + +char *getLine(char *buf, int size, FILE *f) { + int c, i; + + i = 0; + while (i < size - 1) { + if ((c = fgetc(f)) == EOF) { + break; + } + buf[i++] = (char)c; + if (c == '\x0a') { + break; + } + if (c == '\x0d') { + c = fgetc(f); + if (c == '\x0a' && i < size - 1) { + buf[i++] = (char)c; + } else if (c != EOF) { + ungetc(c, f); + } + break; + } + } + buf[i] = '\0'; + if (i == 0) { + return NULL; + } + return buf; +} + +//------------------------------------------------------------------------ +// GDir and GDirEntry +//------------------------------------------------------------------------ + +GDirEntry::GDirEntry(char *dirPath, char *nameA, GBool doStat) { +#ifdef VMS + char *p; +#elif defined(WIN32) + int fa; + GString *s; +#elif defined(ACORN) +#else + struct stat st; + GString *s; +#endif + + name = new GString(nameA); + dir = gFalse; + if (doStat) { +#ifdef VMS + if (!strcmp(nameA, "-") || + ((p = strrchr(nameA, '.')) && !strncmp(p, ".DIR;", 5))) + dir = gTrue; +#elif defined(ACORN) +#else + s = new GString(dirPath); + appendToPath(s, nameA); +#ifdef WIN32 + fa = GetFileAttributes(s->getCString()); + dir = (fa != 0xFFFFFFFF && (fa & FILE_ATTRIBUTE_DIRECTORY)); +#else + if (stat(s->getCString(), &st) == 0) + dir = S_ISDIR(st.st_mode); +#endif + delete s; +#endif + } +} + +GDirEntry::~GDirEntry() { + delete name; +} + +GDir::GDir(char *name, GBool doStatA) { + path = new GString(name); + doStat = doStatA; +#if defined(WIN32) + GString *tmp; + + tmp = path->copy(); + tmp->append("/*.*"); + hnd = FindFirstFile(tmp->getCString(), &ffd); + delete tmp; +#elif defined(ACORN) +#elif defined(MACOS) +#else + dir = opendir(name); +#ifdef VMS + needParent = strchr(name, '[') != NULL; +#endif +#endif +} + +GDir::~GDir() { + delete path; +#if defined(WIN32) + if (hnd) { + FindClose(hnd); + hnd = NULL; + } +#elif defined(ACORN) +#elif defined(MACOS) +#else + if (dir) + closedir(dir); +#endif +} + +GDirEntry *GDir::getNextEntry() { + GDirEntry *e; + +#if defined(WIN32) + if (hnd) { + e = new GDirEntry(path->getCString(), ffd.cFileName, doStat); + if (hnd && !FindNextFile(hnd, &ffd)) { + FindClose(hnd); + hnd = NULL; + } + } else { + e = NULL; + } +#elif defined(ACORN) +#elif defined(MACOS) +#elif defined(VMS) + struct dirent *ent; + e = NULL; + if (dir) { + if (needParent) { + e = new GDirEntry(path->getCString(), "-", doStat); + needParent = gFalse; + return e; + } + ent = readdir(dir); + if (ent) { + e = new GDirEntry(path->getCString(), ent->d_name, doStat); + } + } +#else + struct dirent *ent; + e = NULL; + if (dir) { + ent = (struct dirent *)readdir(dir); + if (ent && !strcmp(ent->d_name, ".")) { + ent = (struct dirent *)readdir(dir); + } + if (ent) { + e = new GDirEntry(path->getCString(), ent->d_name, doStat); + } + } +#endif + + return e; +} + +void GDir::rewind() { +#ifdef WIN32 + GString *tmp; + + if (hnd) + FindClose(hnd); + tmp = path->copy(); + tmp->append("/*.*"); + hnd = FindFirstFile(tmp->getCString(), &ffd); + delete tmp; +#elif defined(ACORN) +#elif defined(MACOS) +#else + if (dir) + rewinddir(dir); +#ifdef VMS + needParent = strchr(path->getCString(), '[') != NULL; +#endif +#endif +} diff --git a/kpdf/xpdf/goo/gfile.h b/kpdf/xpdf/goo/gfile.h new file mode 100644 index 00000000..82f1d7a9 --- /dev/null +++ b/kpdf/xpdf/goo/gfile.h @@ -0,0 +1,138 @@ +//======================================================================== +// +// gfile.h +// +// Miscellaneous file and directory name manipulation. +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef GFILE_H +#define GFILE_H + +#include +#include +#include +#if defined(WIN32) +# include +# ifdef FPTEX +# include +# else +# include +# endif +#elif defined(ACORN) +#elif defined(MACOS) +# include +#else +# include +# include +# ifdef VMS +# include "vms_dirent.h" +# elif HAVE_DIRENT_H +# include +# define NAMLEN(d) strlen((d)->d_name) +# else +# define dirent direct +# define NAMLEN(d) (d)->d_namlen +# if HAVE_SYS_NDIR_H +# include +# endif +# if HAVE_SYS_DIR_H +# include +# endif +# if HAVE_NDIR_H +# include +# endif +# endif +#endif +#include "gtypes.h" + +class GString; + +//------------------------------------------------------------------------ + +// Get home directory path. +extern GString *getHomeDir(); + +// Get current directory. +extern GString *getCurrentDir(); + +// Append a file name to a path string. may be an empty +// string, denoting the current directory). Returns . +extern GString *appendToPath(GString *path, char *fileName); + +// Grab the path from the front of the file name. If there is no +// directory component in , returns an empty string. +extern GString *grabPath(char *fileName); + +// Is this an absolute path or file name? +extern GBool isAbsolutePath(char *path); + +// Make this path absolute by prepending current directory (if path is +// relative) or prepending user's directory (if path starts with '~'). +extern GString *makePathAbsolute(GString *path); + +// Get the modification time for . Returns 0 if there is an +// error. +extern time_t getModTime(char *fileName); + +// Create a temporary file and open it for writing. If is not +// NULL, it will be used as the file name extension. Returns both the +// name and the file pointer. For security reasons, all writing +// should be done to the returned file pointer; the file may be +// reopened later for reading, but not for writing. The string +// should be "w" or "wb". Returns true on success. +extern GBool openTempFile(GString **name, FILE **f, char *mode, char *ext); + +// Execute . Returns true on success. +extern GBool executeCommand(char *cmd); + +// Just like fgets, but handles Unix, Mac, and/or DOS end-of-line +// conventions. +extern char *getLine(char *buf, int size, FILE *f); + +//------------------------------------------------------------------------ +// GDir and GDirEntry +//------------------------------------------------------------------------ + +class GDirEntry { +public: + + GDirEntry(char *dirPath, char *nameA, GBool doStat); + ~GDirEntry(); + GString *getName() { return name; } + GBool isDir() { return dir; } + +private: + + GString *name; // dir/file name + GBool dir; // is it a directory? +}; + +class GDir { +public: + + GDir(char *name, GBool doStatA = gTrue); + ~GDir(); + GDirEntry *getNextEntry(); + void rewind(); + +private: + + GString *path; // directory path + GBool doStat; // call stat() for each entry? +#if defined(WIN32) + WIN32_FIND_DATA ffd; + HANDLE hnd; +#elif defined(ACORN) +#elif defined(MACOS) +#else + DIR *dir; // the DIR structure from opendir() +#ifdef VMS + GBool needParent; // need to return an entry for [-] +#endif +#endif +}; + +#endif diff --git a/kpdf/xpdf/goo/gmem.cc b/kpdf/xpdf/goo/gmem.cc new file mode 100644 index 00000000..d8962aba --- /dev/null +++ b/kpdf/xpdf/goo/gmem.cc @@ -0,0 +1,315 @@ +/* + * gmem.c + * + * Memory routines with out-of-memory checking. + * + * Copyright 1996-2003 Glyph & Cog, LLC + */ + +#include +#include +#include +#include +#include +#include +#include "gmem.h" + +#ifdef DEBUG_MEM + +typedef struct _GMemHdr { + unsigned int magic; + int size; + int index; + struct _GMemHdr *next, *prev; +} GMemHdr; + +#define gMemHdrSize ((sizeof(GMemHdr) + 7) & ~7) +#define gMemTrlSize (sizeof(long)) + +#define gMemMagic 0xabcd9999 + +#if gmemTrlSize==8 +#define gMemDeadVal 0xdeadbeefdeadbeefUL +#else +#define gMemDeadVal 0xdeadbeefUL +#endif + +/* round data size so trailer will be aligned */ +#define gMemDataSize(size) \ + ((((size) + gMemTrlSize - 1) / gMemTrlSize) * gMemTrlSize) + +static GMemHdr *gMemHead = NULL; +static GMemHdr *gMemTail = NULL; + +static int gMemIndex = 0; +static int gMemAlloc = 0; +static int gMemInUse = 0; + +#endif /* DEBUG_MEM */ + +void *gmalloc(int size) GMEM_EXCEP { +#ifdef DEBUG_MEM + int size1; + char *mem; + GMemHdr *hdr; + void *data; + unsigned long *trl, *p; + + if (size < 0) { +#if USE_EXCEPTIONS + throw GMemException(); +#else + fprintf(stderr, "Invalid memory allocation size\n"); + exit(1); +#endif + } + if (size == 0) { + return NULL; + } + size1 = gMemDataSize(size); + if (!(mem = (char *)malloc(size1 + gMemHdrSize + gMemTrlSize))) { +#if USE_EXCEPTIONS + throw GMemException(); +#else + fprintf(stderr, "Out of memory\n"); + exit(1); +#endif + } + hdr = (GMemHdr *)mem; + data = (void *)(mem + gMemHdrSize); + trl = (unsigned long *)(mem + gMemHdrSize + size1); + hdr->magic = gMemMagic; + hdr->size = size; + hdr->index = gMemIndex++; + if (gMemTail) { + gMemTail->next = hdr; + hdr->prev = gMemTail; + gMemTail = hdr; + } else { + hdr->prev = NULL; + gMemHead = gMemTail = hdr; + } + hdr->next = NULL; + ++gMemAlloc; + gMemInUse += size; + for (p = (unsigned long *)data; p <= trl; ++p) { + *p = gMemDeadVal; + } + return data; +#else + void *p; + + if (size < 0) { +#if USE_EXCEPTIONS + throw GMemException(); +#else + fprintf(stderr, "Invalid memory allocation size\n"); + exit(1); +#endif + } + if (size == 0) { + return NULL; + } + if (!(p = malloc(size))) { +#if USE_EXCEPTIONS + throw GMemException(); +#else + fprintf(stderr, "Out of memory\n"); + exit(1); +#endif + } + return p; +#endif +} + +void *grealloc(void *p, int size) GMEM_EXCEP { +#ifdef DEBUG_MEM + GMemHdr *hdr; + void *q; + int oldSize; + + if (size < 0) { +#if USE_EXCEPTIONS + throw GMemException(); +#else + fprintf(stderr, "Invalid memory allocation size\n"); + exit(1); +#endif + } + if (size == 0) { + if (p) { + gfree(p); + } + return NULL; + } + if (p) { + hdr = (GMemHdr *)((char *)p - gMemHdrSize); + oldSize = hdr->size; + q = gmalloc(size); + memcpy(q, p, size < oldSize ? size : oldSize); + gfree(p); + } else { + q = gmalloc(size); + } + return q; +#else + void *q; + + if (size < 0) { +#if USE_EXCEPTIONS + throw GMemException(); +#else + fprintf(stderr, "Invalid memory allocation size\n"); + exit(1); +#endif + } + if (size == 0) { + if (p) { + free(p); + } + return NULL; + } + if (p) { + q = realloc(p, size); + } else { + q = malloc(size); + } + if (!q) { +#if USE_EXCEPTIONS + throw GMemException(); +#else + fprintf(stderr, "Out of memory\n"); + exit(1); +#endif + } + return q; +#endif +} + +void *gmallocn(int nObjs, int objSize) GMEM_EXCEP { + int n; + + if (nObjs == 0) { + return NULL; + } + n = nObjs * objSize; + if (objSize <= 0 || nObjs < 0 || nObjs >= INT_MAX / objSize) { +#if USE_EXCEPTIONS + throw GMemException(); +#else + fprintf(stderr, "Bogus memory allocation size\n"); + exit(1); +#endif + } + return gmalloc(n); +} + +void *gmallocn_checkoverflow(int nObjs, int objSize) GMEM_EXCEP { + int n; + + if (nObjs == 0) { + return NULL; + } + n = nObjs * objSize; + if (objSize <= 0 || nObjs < 0 || nObjs >= INT_MAX / objSize) { +#if USE_EXCEPTIONS + throw GMemException(); +#else + fprintf(stderr, "Bogus memory allocation size\n"); + return NULL; +#endif + } + return gmalloc(n); +} + + +void *greallocn(void *p, int nObjs, int objSize) GMEM_EXCEP { + int n; + + if (nObjs == 0) { + if (p) { + gfree(p); + } + return NULL; + } + n = nObjs * objSize; + if (objSize <= 0 || nObjs < 0 || nObjs >= INT_MAX / objSize) { +#if USE_EXCEPTIONS + throw GMemException(); +#else + fprintf(stderr, "Bogus memory allocation size\n"); + exit(1); +#endif + } + return grealloc(p, n); +} + +void gfree(void *p) { +#ifdef DEBUG_MEM + int size; + GMemHdr *hdr; + unsigned long *trl, *clr; + + if (p) { + hdr = (GMemHdr *)((char *)p - gMemHdrSize); + if (hdr->magic == gMemMagic && + ((hdr->prev == NULL) == (hdr == gMemHead)) && + ((hdr->next == NULL) == (hdr == gMemTail))) { + if (hdr->prev) { + hdr->prev->next = hdr->next; + } else { + gMemHead = hdr->next; + } + if (hdr->next) { + hdr->next->prev = hdr->prev; + } else { + gMemTail = hdr->prev; + } + --gMemAlloc; + gMemInUse -= hdr->size; + size = gMemDataSize(hdr->size); + trl = (unsigned long *)((char *)hdr + gMemHdrSize + size); + if (*trl != gMemDeadVal) { + fprintf(stderr, "Overwrite past end of block %d at address %p\n", + hdr->index, p); + } + for (clr = (unsigned long *)hdr; clr <= trl; ++clr) { + *clr = gMemDeadVal; + } + free(hdr); + } else { + fprintf(stderr, "Attempted to free bad address %p\n", p); + } + } +#else + if (p) { + free(p); + } +#endif +} + +#ifdef DEBUG_MEM +void gMemReport(FILE *f) { + GMemHdr *p; + + fprintf(f, "%d memory allocations in all\n", gMemIndex); + if (gMemAlloc > 0) { + fprintf(f, "%d memory blocks left allocated:\n", gMemAlloc); + fprintf(f, " index size\n"); + fprintf(f, "-------- --------\n"); + for (p = gMemHead; p; p = p->next) { + fprintf(f, "%8d %8d\n", p->index, p->size); + } + } else { + fprintf(f, "No memory blocks left allocated\n"); + } +} +#endif + +char *copyString(char *s) { + char *s1; + + s1 = (char *)gmalloc(strlen(s) + 1); + strcpy(s1, s); + return s1; +} diff --git a/kpdf/xpdf/goo/gmem.h b/kpdf/xpdf/goo/gmem.h new file mode 100644 index 00000000..ffe5b0da --- /dev/null +++ b/kpdf/xpdf/goo/gmem.h @@ -0,0 +1,80 @@ +/* + * gmem.h + * + * Memory routines with out-of-memory checking. + * + * Copyright 1996-2003 Glyph & Cog, LLC + */ + +#ifndef GMEM_H +#define GMEM_H + +#include +#include + +#if USE_EXCEPTIONS + +class GMemException { +public: + GMemException() {} + ~GMemException() {} +}; + +#define GMEM_EXCEP throw(GMemException) + +#else // USE_EXCEPTIONS + +#define GMEM_EXCEP + +#endif // USE_EXCEPTIONS + +#ifdef __cplusplus +extern "C" { +#endif + +/* + * Same as malloc, but prints error message and exits if malloc() + * returns NULL. + */ +extern void *gmalloc(int size) GMEM_EXCEP; + +/* + * Same as realloc, but prints error message and exits if realloc() + * returns NULL. If

is NULL, calls malloc instead of realloc(). + */ +extern void *grealloc(void *p, int size) GMEM_EXCEP; + +/* + * These are similar to gmalloc and grealloc, but take an object count + * and size. The result is similar to allocating nObjs * objSize + * bytes, but there is an additional error check that the total size + * doesn't overflow an int. + */ +extern void *gmallocn(int nObjs, int objSize) GMEM_EXCEP; +extern void *greallocn(void *p, int nObjs, int objSize) GMEM_EXCEP; +extern void *gmallocn_checkoverflow(int nObjs, int objSize) GMEM_EXCEP; + +/* + * Same as free, but checks for and ignores NULL pointers. + */ +extern void gfree(void *p); + +#ifdef DEBUG_MEM +/* + * Report on unfreed memory. + */ +extern void gMemReport(FILE *f); +#else +#define gMemReport(f) +#endif + +/* + * Allocate memory and copy a string into it. + */ +extern char *copyString(char *s); + +#ifdef __cplusplus +} +#endif + +#endif diff --git a/kpdf/xpdf/goo/gmempp.cc b/kpdf/xpdf/goo/gmempp.cc new file mode 100644 index 00000000..b1ee970d --- /dev/null +++ b/kpdf/xpdf/goo/gmempp.cc @@ -0,0 +1,32 @@ +//======================================================================== +// +// gmempp.cc +// +// Use gmalloc/gfree for C++ new/delete operators. +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include +#include "gmem.h" + +#ifdef DEBUG_MEM + +void *operator new(size_t size) { + return gmalloc((int)size); +} + +void *operator new[](size_t size) { + return gmalloc((int)size); +} + +void operator delete(void *p) { + gfree(p); +} + +void operator delete[](void *p) { + gfree(p); +} + +#endif diff --git a/kpdf/xpdf/goo/gtypes.h b/kpdf/xpdf/goo/gtypes.h new file mode 100644 index 00000000..9f64f57d --- /dev/null +++ b/kpdf/xpdf/goo/gtypes.h @@ -0,0 +1,29 @@ +/* + * gtypes.h + * + * Some useful simple types. + * + * Copyright 1996-2003 Glyph & Cog, LLC + */ + +#ifndef GTYPES_H +#define GTYPES_H + +/* + * These have stupid names to avoid conflicts with some (but not all) + * C++ compilers which define them. + */ +typedef int GBool; +#define gTrue 1 +#define gFalse 0 + +/* + * These have stupid names to avoid conflicts with , + * which on various systems defines some random subset of these. + */ +typedef unsigned char Guchar; +typedef unsigned short Gushort; +typedef unsigned int Guint; +typedef unsigned long Gulong; + +#endif diff --git a/kpdf/xpdf/splash/Makefile.am b/kpdf/xpdf/splash/Makefile.am new file mode 100644 index 00000000..34d41419 --- /dev/null +++ b/kpdf/xpdf/splash/Makefile.am @@ -0,0 +1,8 @@ +INCLUDES = -I$(srcdir)/.. -I$(srcdir)/../fofi -I$(srcdir)/../goo $(LIBFREETYPE_CFLAGS) $(USER_INCLUDES) + +libsplash_la_SOURCES = Splash.cc SplashBitmap.cc SplashClip.cc SplashFTFont.cc SplashFTFontEngine.cc \ + SplashFTFontFile.cc SplashFont.cc SplashFontEngine.cc SplashFontFile.cc SplashFontFileID.cc \ + SplashPath.cc SplashPattern.cc SplashScreen.cc SplashState.cc SplashT1Font.cc \ + SplashT1FontEngine.cc SplashT1FontFile.cc SplashXPath.cc SplashXPathScanner.cc + +noinst_LTLIBRARIES = libsplash.la diff --git a/kpdf/xpdf/splash/Splash.cc b/kpdf/xpdf/splash/Splash.cc new file mode 100644 index 00000000..30179fda --- /dev/null +++ b/kpdf/xpdf/splash/Splash.cc @@ -0,0 +1,3335 @@ +//======================================================================== +// +// Splash.cc +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include "gmem.h" +#include "SplashErrorCodes.h" +#include "SplashMath.h" +#include "SplashBitmap.h" +#include "SplashState.h" +#include "SplashPath.h" +#include "SplashXPath.h" +#include "SplashXPathScanner.h" +#include "SplashPattern.h" +#include "SplashScreen.h" +#include "SplashFont.h" +#include "SplashGlyphBitmap.h" +#include "Splash.h" + +//------------------------------------------------------------------------ + +// distance of Bezier control point from center for circle approximation +// = (4 * (sqrt(2) - 1) / 3) * r +#define bezierCircle ((SplashCoord)0.55228475) +#define bezierCircle2 ((SplashCoord)(0.5 * 0.55228475)) + +// Divide a 16-bit value (in [0, 255*255]) by 255, returning an 8-bit result. +static inline Guchar div255(int x) { + return (Guchar)((x + (x >> 8) + 0x80) >> 8); +} + +//------------------------------------------------------------------------ +// SplashPipe +//------------------------------------------------------------------------ + +#define splashPipeMaxStages 9 + +struct SplashPipe { + // pixel coordinates + int x, y; + + // source pattern + SplashPattern *pattern; + + // source alpha and color + SplashCoord aInput; + GBool usesShape; + Guchar aSrc; + SplashColorPtr cSrc; + SplashColor cSrcVal; + + // non-isolated group alpha0 + Guchar *alpha0Ptr; + + // soft mask + SplashColorPtr softMaskPtr; + + // destination alpha and color + SplashColorPtr destColorPtr; + int destColorMask; + Guchar *destAlphaPtr; + + // shape + SplashCoord shape; + + // result alpha and color + GBool noTransparency; + SplashPipeResultColorCtrl resultColorCtrl; + + // non-isolated group correction + int nonIsolatedGroup; +}; + +SplashPipeResultColorCtrl Splash::pipeResultColorNoAlphaBlend[] = { + splashPipeResultColorNoAlphaBlendMono, + splashPipeResultColorNoAlphaBlendMono, + splashPipeResultColorNoAlphaBlendRGB, + splashPipeResultColorNoAlphaBlendRGB +#if SPLASH_CMYK + , + splashPipeResultColorNoAlphaBlendCMYK +#endif +}; + +SplashPipeResultColorCtrl Splash::pipeResultColorAlphaNoBlend[] = { + splashPipeResultColorAlphaNoBlendMono, + splashPipeResultColorAlphaNoBlendMono, + splashPipeResultColorAlphaNoBlendRGB, + splashPipeResultColorAlphaNoBlendRGB +#if SPLASH_CMYK + , + splashPipeResultColorAlphaNoBlendCMYK +#endif +}; + +SplashPipeResultColorCtrl Splash::pipeResultColorAlphaBlend[] = { + splashPipeResultColorAlphaBlendMono, + splashPipeResultColorAlphaBlendMono, + splashPipeResultColorAlphaBlendRGB, + splashPipeResultColorAlphaBlendRGB +#if SPLASH_CMYK + , + splashPipeResultColorAlphaBlendCMYK +#endif +}; + +//------------------------------------------------------------------------ + +static void blendXor(SplashColorPtr src, SplashColorPtr dest, + SplashColorPtr blend, SplashColorMode cm) { + int i; + + for (i = 0; i < splashColorModeNComps[cm]; ++i) { + blend[i] = src[i] ^ dest[i]; + } +} + +//------------------------------------------------------------------------ +// modified region +//------------------------------------------------------------------------ + +void Splash::clearModRegion() { + modXMin = bitmap->getWidth(); + modYMin = bitmap->getHeight(); + modXMax = -1; + modYMax = -1; +} + +inline void Splash::updateModX(int x) { + if (x < modXMin) { + modXMin = x; + } + if (x > modXMax) { + modXMax = x; + } +} + +inline void Splash::updateModY(int y) { + if (y < modYMin) { + modYMin = y; + } + if (y > modYMax) { + modYMax = y; + } +} + +//------------------------------------------------------------------------ +// pipeline +//------------------------------------------------------------------------ + +inline void Splash::pipeInit(SplashPipe *pipe, int x, int y, + SplashPattern *pattern, SplashColorPtr cSrc, + SplashCoord aInput, GBool usesShape, + GBool nonIsolatedGroup) { + pipeSetXY(pipe, x, y); + pipe->pattern = NULL; + + // source color + if (pattern) { + if (pattern->isStatic()) { + pattern->getColor(x, y, pipe->cSrcVal); + } else { + pipe->pattern = pattern; + } + pipe->cSrc = pipe->cSrcVal; + } else { + pipe->cSrc = cSrc; + } + + // source alpha + pipe->aInput = aInput; + if (!state->softMask) { + if (usesShape) { + pipe->aInput *= 255; + } else { + pipe->aSrc = (Guchar)splashRound(pipe->aInput * 255); + } + } + pipe->usesShape = usesShape; + + // result alpha + if (aInput == 1 && !state->softMask && !usesShape && + !state->inNonIsolatedGroup) { + pipe->noTransparency = gTrue; + } else { + pipe->noTransparency = gFalse; + } + + // result color + if (pipe->noTransparency) { + // the !state->blendFunc case is handled separately in pipeRun + pipe->resultColorCtrl = pipeResultColorNoAlphaBlend[bitmap->mode]; + } else if (!state->blendFunc) { + pipe->resultColorCtrl = pipeResultColorAlphaNoBlend[bitmap->mode]; + } else { + pipe->resultColorCtrl = pipeResultColorAlphaBlend[bitmap->mode]; + } + + // non-isolated group correction + if (nonIsolatedGroup) { + pipe->nonIsolatedGroup = splashColorModeNComps[bitmap->mode]; + } else { + pipe->nonIsolatedGroup = 0; + } +} + +inline void Splash::pipeRun(SplashPipe *pipe) { + Guchar aSrc, aDest, alpha2, alpha0, aResult; + SplashColor cDest, cBlend; + Guchar cResult0, cResult1, cResult2, cResult3; + + //----- source color + + // static pattern: handled in pipeInit + // fixed color: handled in pipeInit + + // dynamic pattern + if (pipe->pattern) { + pipe->pattern->getColor(pipe->x, pipe->y, pipe->cSrcVal); + } + + if (pipe->noTransparency && !state->blendFunc) { + + //----- write destination pixel + + switch (bitmap->mode) { + case splashModeMono1: + cResult0 = pipe->cSrc[0]; + if (state->screen->test(pipe->x, pipe->y, cResult0)) { + *pipe->destColorPtr |= pipe->destColorMask; + } else { + *pipe->destColorPtr &= ~pipe->destColorMask; + } + if (!(pipe->destColorMask >>= 1)) { + pipe->destColorMask = 0x80; + ++pipe->destColorPtr; + } + break; + case splashModeMono8: + *pipe->destColorPtr++ = pipe->cSrc[0]; + break; + case splashModeRGB8: + *pipe->destColorPtr++ = pipe->cSrc[0]; + *pipe->destColorPtr++ = pipe->cSrc[1]; + *pipe->destColorPtr++ = pipe->cSrc[2]; + break; + case splashModeBGR8: + *pipe->destColorPtr++ = pipe->cSrc[2]; + *pipe->destColorPtr++ = pipe->cSrc[1]; + *pipe->destColorPtr++ = pipe->cSrc[0]; + break; +#if SPLASH_CMYK + case splashModeCMYK8: + *pipe->destColorPtr++ = pipe->cSrc[0]; + *pipe->destColorPtr++ = pipe->cSrc[1]; + *pipe->destColorPtr++ = pipe->cSrc[2]; + *pipe->destColorPtr++ = pipe->cSrc[3]; + break; +#endif + } + if (pipe->destAlphaPtr) { + *pipe->destAlphaPtr++ = 255; + } + + } else { + + //----- read destination pixel + + switch (bitmap->mode) { + case splashModeMono1: + cDest[0] = (*pipe->destColorPtr & pipe->destColorMask) ? 0xff : 0x00; + break; + case splashModeMono8: + cDest[0] = *pipe->destColorPtr; + break; + case splashModeRGB8: + cDest[0] = pipe->destColorPtr[0]; + cDest[1] = pipe->destColorPtr[1]; + cDest[2] = pipe->destColorPtr[2]; + break; + case splashModeBGR8: + cDest[0] = pipe->destColorPtr[2]; + cDest[1] = pipe->destColorPtr[1]; + cDest[2] = pipe->destColorPtr[0]; + break; +#if SPLASH_CMYK + case splashModeCMYK8: + cDest[0] = pipe->destColorPtr[0]; + cDest[1] = pipe->destColorPtr[1]; + cDest[2] = pipe->destColorPtr[2]; + cDest[3] = pipe->destColorPtr[3]; + break; +#endif + } + if (pipe->destAlphaPtr) { + aDest = *pipe->destAlphaPtr; + } else { + aDest = 0xff; + } + + //----- blend function + + if (state->blendFunc) { + (*state->blendFunc)(pipe->cSrc, cDest, cBlend, bitmap->mode); + } + + //----- source alpha + + if (state->softMask) { + if (pipe->usesShape) { + aSrc = (Guchar)splashRound(pipe->aInput * *pipe->softMaskPtr++ + * pipe->shape); + } else { + aSrc = (Guchar)splashRound(pipe->aInput * *pipe->softMaskPtr++); + } + } else if (pipe->usesShape) { + // pipe->aInput is premultiplied by 255 in pipeInit + aSrc = (Guchar)splashRound(pipe->aInput * pipe->shape); + } else { + // precomputed in pipeInit + aSrc = pipe->aSrc; + } + + //----- result alpha and non-isolated group element correction + + if (pipe->noTransparency) { + alpha2 = aResult = 255; + } else { + aResult = aSrc + aDest - div255(aSrc * aDest); + + if (pipe->alpha0Ptr) { + alpha0 = *pipe->alpha0Ptr++; + alpha2 = aResult + alpha0 - div255(aResult * alpha0); + } else { + alpha2 = aResult; + } + } + + //----- result color + + cResult0 = cResult1 = cResult2 = cResult3 = 0; // make gcc happy + + switch (pipe->resultColorCtrl) { + +#if SPLASH_CMYK + case splashPipeResultColorNoAlphaBlendCMYK: + cResult3 = div255((255 - aDest) * pipe->cSrc[3] + aDest * cBlend[3]); +#endif + case splashPipeResultColorNoAlphaBlendRGB: + cResult2 = div255((255 - aDest) * pipe->cSrc[2] + aDest * cBlend[2]); + cResult1 = div255((255 - aDest) * pipe->cSrc[1] + aDest * cBlend[1]); + case splashPipeResultColorNoAlphaBlendMono: + cResult0 = div255((255 - aDest) * pipe->cSrc[0] + aDest * cBlend[0]); + break; + + case splashPipeResultColorAlphaNoBlendMono: + if (alpha2 == 0) { + cResult0 = 0; + } else { + cResult0 = (Guchar)(((alpha2 - aSrc) * cDest[0] + + aSrc * pipe->cSrc[0]) / alpha2); + } + break; + case splashPipeResultColorAlphaNoBlendRGB: + if (alpha2 == 0) { + cResult0 = 0; + cResult1 = 0; + cResult2 = 0; + } else { + cResult0 = (Guchar)(((alpha2 - aSrc) * cDest[0] + + aSrc * pipe->cSrc[0]) / alpha2); + cResult1 = (Guchar)(((alpha2 - aSrc) * cDest[1] + + aSrc * pipe->cSrc[1]) / alpha2); + cResult2 = (Guchar)(((alpha2 - aSrc) * cDest[2] + + aSrc * pipe->cSrc[2]) / alpha2); + } + break; +#if SPLASH_CMYK + case splashPipeResultColorAlphaNoBlendCMYK: + if (alpha2 == 0) { + cResult0 = 0; + cResult1 = 0; + cResult2 = 0; + cResult3 = 0; + } else { + cResult0 = (Guchar)(((alpha2 - aSrc) * cDest[0] + + aSrc * pipe->cSrc[0]) / alpha2); + cResult1 = (Guchar)(((alpha2 - aSrc) * cDest[1] + + aSrc * pipe->cSrc[1]) / alpha2); + cResult2 = (Guchar)(((alpha2 - aSrc) * cDest[2] + + aSrc * pipe->cSrc[2]) / alpha2); + cResult3 = (Guchar)(((alpha2 - aSrc) * cDest[3] + + aSrc * pipe->cSrc[3]) / alpha2); + } + break; +#endif + + case splashPipeResultColorAlphaBlendMono: + if (alpha2 == 0) { + cResult0 = 0; + } else { + cResult0 = (Guchar)(((alpha2 - aSrc) * cDest[0] + + aSrc * ((255 - aDest) * pipe->cSrc[0] + + aDest * cBlend[0]) / 255) / + alpha2); + } + break; + case splashPipeResultColorAlphaBlendRGB: + if (alpha2 == 0) { + cResult0 = 0; + cResult1 = 0; + cResult2 = 0; + } else { + cResult0 = (Guchar)(((alpha2 - aSrc) * cDest[0] + + aSrc * ((255 - aDest) * pipe->cSrc[0] + + aDest * cBlend[0]) / 255) / + alpha2); + cResult1 = (Guchar)(((alpha2 - aSrc) * cDest[1] + + aSrc * ((255 - aDest) * pipe->cSrc[1] + + aDest * cBlend[1]) / 255) / + alpha2); + cResult2 = (Guchar)(((alpha2 - aSrc) * cDest[2] + + aSrc * ((255 - aDest) * pipe->cSrc[2] + + aDest * cBlend[2]) / 255) / + alpha2); + } + break; +#if SPLASH_CMYK + case splashPipeResultColorAlphaBlendCMYK: + if (alpha2 == 0) { + cResult0 = 0; + cResult1 = 0; + cResult2 = 0; + cResult3 = 0; + } else { + cResult0 = (Guchar)(((alpha2 - aSrc) * cDest[0] + + aSrc * ((255 - aDest) * pipe->cSrc[0] + + aDest * cBlend[0]) / 255) / + alpha2); + cResult1 = (Guchar)(((alpha2 - aSrc) * cDest[1] + + aSrc * ((255 - aDest) * pipe->cSrc[1] + + aDest * cBlend[1]) / 255) / + alpha2); + cResult2 = (Guchar)(((alpha2 - aSrc) * cDest[2] + + aSrc * ((255 - aDest) * pipe->cSrc[2] + + aDest * cBlend[2]) / 255) / + alpha2); + cResult3 = (Guchar)(((alpha2 - aSrc) * cDest[3] + + aSrc * ((255 - aDest) * pipe->cSrc[3] + + aDest * cBlend[3]) / 255) / + alpha2); + } + break; +#endif + } + + //----- non-isolated group correction + + if (aResult != 0) { + switch (pipe->nonIsolatedGroup) { +#if SPLASH_CMYK + case 4: + cResult3 += (cResult3 - cDest[3]) * aDest * + (255 - aResult) / (255 * aResult); +#endif + case 3: + cResult2 += (cResult2 - cDest[2]) * aDest * + (255 - aResult) / (255 * aResult); + cResult1 += (cResult1 - cDest[1]) * aDest * + (255 - aResult) / (255 * aResult); + case 1: + cResult0 += (cResult0 - cDest[0]) * aDest * + (255 - aResult) / (255 * aResult); + case 0: + break; + } + } + + //----- write destination pixel + + switch (bitmap->mode) { + case splashModeMono1: + if (state->screen->test(pipe->x, pipe->y, cResult0)) { + *pipe->destColorPtr |= pipe->destColorMask; + } else { + *pipe->destColorPtr &= ~pipe->destColorMask; + } + if (!(pipe->destColorMask >>= 1)) { + pipe->destColorMask = 0x80; + ++pipe->destColorPtr; + } + break; + case splashModeMono8: + *pipe->destColorPtr++ = cResult0; + break; + case splashModeRGB8: + *pipe->destColorPtr++ = cResult0; + *pipe->destColorPtr++ = cResult1; + *pipe->destColorPtr++ = cResult2; + break; + case splashModeBGR8: + *pipe->destColorPtr++ = cResult2; + *pipe->destColorPtr++ = cResult1; + *pipe->destColorPtr++ = cResult0; + break; +#if SPLASH_CMYK + case splashModeCMYK8: + *pipe->destColorPtr++ = cResult0; + *pipe->destColorPtr++ = cResult1; + *pipe->destColorPtr++ = cResult2; + *pipe->destColorPtr++ = cResult3; + break; +#endif + } + if (pipe->destAlphaPtr) { + *pipe->destAlphaPtr++ = aResult; + } + + } + + ++pipe->x; +} + +inline void Splash::pipeSetXY(SplashPipe *pipe, int x, int y) { + pipe->x = x; + pipe->y = y; + if (state->softMask) { + pipe->softMaskPtr = + &state->softMask->data[y * state->softMask->rowSize + x]; + } + switch (bitmap->mode) { + case splashModeMono1: + pipe->destColorPtr = &bitmap->data[y * bitmap->rowSize + (x >> 3)]; + pipe->destColorMask = 0x80 >> (x & 7); + break; + case splashModeMono8: + pipe->destColorPtr = &bitmap->data[y * bitmap->rowSize + x]; + break; + case splashModeRGB8: + case splashModeBGR8: + pipe->destColorPtr = &bitmap->data[y * bitmap->rowSize + 3 * x]; + break; +#if SPLASH_CMYK + case splashModeCMYK8: + pipe->destColorPtr = &bitmap->data[y * bitmap->rowSize + 4 * x]; + break; +#endif + } + if (bitmap->alpha) { + pipe->destAlphaPtr = &bitmap->alpha[y * bitmap->width + x]; + } else { + pipe->destAlphaPtr = NULL; + } + if (state->inNonIsolatedGroup && alpha0Bitmap->alpha) { + pipe->alpha0Ptr = + &alpha0Bitmap->alpha[(alpha0Y + y) * alpha0Bitmap->width + + (alpha0X + x)]; + } else { + pipe->alpha0Ptr = NULL; + } +} + +inline void Splash::pipeIncX(SplashPipe *pipe) { + ++pipe->x; + if (state->softMask) { + ++pipe->softMaskPtr; + } + switch (bitmap->mode) { + case splashModeMono1: + if (!(pipe->destColorMask >>= 1)) { + pipe->destColorMask = 0x80; + ++pipe->destColorPtr; + } + break; + case splashModeMono8: + ++pipe->destColorPtr; + break; + case splashModeRGB8: + case splashModeBGR8: + pipe->destColorPtr += 3; + break; +#if SPLASH_CMYK + case splashModeCMYK8: + pipe->destColorPtr += 4; + break; +#endif + } + if (pipe->destAlphaPtr) { + ++pipe->destAlphaPtr; + } + if (pipe->alpha0Ptr) { + ++pipe->alpha0Ptr; + } +} + +inline void Splash::drawPixel(SplashPipe *pipe, int x, int y, GBool noClip) { + if (noClip || state->clip->test(x, y)) { + pipeSetXY(pipe, x, y); + pipeRun(pipe); + updateModX(x); + updateModY(y); + } +} + +inline void Splash::drawAAPixelInit() { + aaBufY = -1; +} + +inline void Splash::drawAAPixel(SplashPipe *pipe, int x, int y) { +#if splashAASize == 4 + static int bitCount4[16] = { 0, 1, 1, 2, 1, 2, 2, 3, + 1, 2, 2, 3, 2, 3, 3, 4 }; + int w; +#else + int xx, yy; +#endif + SplashColorPtr p; + int x0, x1, t; + + if (x < 0 || x >= bitmap->width || + y < state->clip->getYMinI() || y > state->clip->getYMaxI()) { + return; + } + + // update aaBuf + if (y != aaBufY) { + memset(aaBuf->getDataPtr(), 0xff, + aaBuf->getRowSize() * aaBuf->getHeight()); + x0 = 0; + x1 = bitmap->width - 1; + state->clip->clipAALine(aaBuf, &x0, &x1, y); + aaBufY = y; + } + + // compute the shape value +#if splashAASize == 4 + p = aaBuf->getDataPtr() + (x >> 1); + w = aaBuf->getRowSize(); + if (x & 1) { + t = bitCount4[*p & 0x0f] + bitCount4[p[w] & 0x0f] + + bitCount4[p[2*w] & 0x0f] + bitCount4[p[3*w] & 0x0f]; + } else { + t = bitCount4[*p >> 4] + bitCount4[p[w] >> 4] + + bitCount4[p[2*w] >> 4] + bitCount4[p[3*w] >> 4]; + } +#else + t = 0; + for (yy = 0; yy < splashAASize; ++yy) { + for (xx = 0; xx < splashAASize; ++xx) { + p = aaBuf->getDataPtr() + yy * aaBuf->getRowSize() + + ((x * splashAASize + xx) >> 3); + t += (*p >> (7 - ((x * splashAASize + xx) & 7))) & 1; + } + } +#endif + + // draw the pixel + if (t != 0) { + pipeSetXY(pipe, x, y); + pipe->shape *= aaGamma[t]; + pipeRun(pipe); + updateModX(x); + updateModY(y); + } +} + +inline void Splash::drawSpan(SplashPipe *pipe, int x0, int x1, int y, + GBool noClip) { + int x; + + pipeSetXY(pipe, x0, y); + if (noClip) { + for (x = x0; x <= x1; ++x) { + pipeRun(pipe); + } + updateModX(x0); + updateModX(x1); + updateModY(y); + } else { + for (x = x0; x <= x1; ++x) { + if (state->clip->test(x, y)) { + pipeRun(pipe); + updateModX(x); + updateModY(y); + } else { + pipeIncX(pipe); + } + } + } +} + +inline void Splash::drawAALine(SplashPipe *pipe, int x0, int x1, int y) { +#if splashAASize == 4 + static int bitCount4[16] = { 0, 1, 1, 2, 1, 2, 2, 3, + 1, 2, 2, 3, 2, 3, 3, 4 }; + SplashColorPtr p0, p1, p2, p3; + int t; +#else + SplashColorPtr p; + int xx, yy, t; +#endif + int x; + +#if splashAASize == 4 + p0 = aaBuf->getDataPtr() + (x0 >> 1); + p1 = p0 + aaBuf->getRowSize(); + p2 = p1 + aaBuf->getRowSize(); + p3 = p2 + aaBuf->getRowSize(); +#endif + pipeSetXY(pipe, x0, y); + for (x = x0; x <= x1; ++x) { + + // compute the shape value +#if splashAASize == 4 + if (x & 1) { + t = bitCount4[*p0 & 0x0f] + bitCount4[*p1 & 0x0f] + + bitCount4[*p2 & 0x0f] + bitCount4[*p3 & 0x0f]; + ++p0; ++p1; ++p2; ++p3; + } else { + t = bitCount4[*p0 >> 4] + bitCount4[*p1 >> 4] + + bitCount4[*p2 >> 4] + bitCount4[*p3 >> 4]; + } +#else + t = 0; + for (yy = 0; yy < splashAASize; ++yy) { + for (xx = 0; xx < splashAASize; ++xx) { + p = aaBuf->getDataPtr() + yy * aaBuf->getRowSize() + + ((x * splashAASize + xx) >> 3); + t += (*p >> (7 - ((x * splashAASize + xx) & 7))) & 1; + } + } +#endif + + if (t != 0) { + pipe->shape = aaGamma[t]; + pipeRun(pipe); + updateModX(x); + updateModY(y); + } else { + pipeIncX(pipe); + } + } +} + +//------------------------------------------------------------------------ + +// Transform a point from user space to device space. +inline void Splash::transform(SplashCoord *matrix, + SplashCoord xi, SplashCoord yi, + SplashCoord *xo, SplashCoord *yo) { + // [ m[0] m[1] 0 ] + // [xo yo 1] = [xi yi 1] * [ m[2] m[3] 0 ] + // [ m[4] m[5] 1 ] + *xo = xi * matrix[0] + yi * matrix[2] + matrix[4]; + *yo = xi * matrix[1] + yi * matrix[3] + matrix[5]; +} + +//------------------------------------------------------------------------ +// Splash +//------------------------------------------------------------------------ + +Splash::Splash(SplashBitmap *bitmapA, GBool vectorAntialiasA, + SplashScreenParams *screenParams) { + int i; + + bitmap = bitmapA; + vectorAntialias = vectorAntialiasA; + state = new SplashState(bitmap->width, bitmap->height, vectorAntialias, + screenParams); + if (vectorAntialias) { + aaBuf = new SplashBitmap(splashAASize * bitmap->width, splashAASize, + 1, splashModeMono1, gFalse); + for (i = 0; i <= splashAASize * splashAASize; ++i) { + aaGamma[i] = splashPow((SplashCoord)i / + (SplashCoord)(splashAASize * splashAASize), + 1.5); + } + } else { + aaBuf = NULL; + } + clearModRegion(); + debugMode = gFalse; +} + +Splash::Splash(SplashBitmap *bitmapA, GBool vectorAntialiasA, + SplashScreen *screenA) { + int i; + + bitmap = bitmapA; + vectorAntialias = vectorAntialiasA; + state = new SplashState(bitmap->width, bitmap->height, vectorAntialias, + screenA); + if (vectorAntialias) { + aaBuf = new SplashBitmap(splashAASize * bitmap->width, splashAASize, + 1, splashModeMono1, gFalse); + for (i = 0; i <= splashAASize * splashAASize; ++i) { + aaGamma[i] = splashPow((SplashCoord)i / + (SplashCoord)(splashAASize * splashAASize), + 1.5); + } + } else { + aaBuf = NULL; + } + clearModRegion(); + debugMode = gFalse; +} + +Splash::~Splash() { + while (state->next) { + restoreState(); + } + delete state; + if (vectorAntialias) { + delete aaBuf; + } +} + +//------------------------------------------------------------------------ +// state read +//------------------------------------------------------------------------ + +SplashCoord *Splash::getMatrix() { + return state->matrix; +} + +SplashPattern *Splash::getStrokePattern() { + return state->strokePattern; +} + +SplashPattern *Splash::getFillPattern() { + return state->fillPattern; +} + +SplashScreen *Splash::getScreen() { + return state->screen; +} + +SplashBlendFunc Splash::getBlendFunc() { + return state->blendFunc; +} + +SplashCoord Splash::getStrokeAlpha() { + return state->strokeAlpha; +} + +SplashCoord Splash::getFillAlpha() { + return state->fillAlpha; +} + +SplashCoord Splash::getLineWidth() { + return state->lineWidth; +} + +int Splash::getLineCap() { + return state->lineCap; +} + +int Splash::getLineJoin() { + return state->lineJoin; +} + +SplashCoord Splash::getMiterLimit() { + return state->miterLimit; +} + +SplashCoord Splash::getFlatness() { + return state->flatness; +} + +SplashCoord *Splash::getLineDash() { + return state->lineDash; +} + +int Splash::getLineDashLength() { + return state->lineDashLength; +} + +SplashCoord Splash::getLineDashPhase() { + return state->lineDashPhase; +} + +SplashClip *Splash::getClip() { + return state->clip; +} + +SplashBitmap *Splash::getSoftMask() { + return state->softMask; +} + +GBool Splash::getInNonIsolatedGroup() { + return state->inNonIsolatedGroup; +} + +//------------------------------------------------------------------------ +// state write +//------------------------------------------------------------------------ + +void Splash::setMatrix(SplashCoord *matrix) { + memcpy(state->matrix, matrix, 6 * sizeof(SplashCoord)); +} + +void Splash::setStrokePattern(SplashPattern *strokePattern) { + state->setStrokePattern(strokePattern); +} + +void Splash::setFillPattern(SplashPattern *fillPattern) { + state->setFillPattern(fillPattern); +} + +void Splash::setScreen(SplashScreen *screen) { + state->setScreen(screen); +} + +void Splash::setBlendFunc(SplashBlendFunc func) { + state->blendFunc = func; +} + +void Splash::setStrokeAlpha(SplashCoord alpha) { + state->strokeAlpha = alpha; +} + +void Splash::setFillAlpha(SplashCoord alpha) { + state->fillAlpha = alpha; +} + +void Splash::setLineWidth(SplashCoord lineWidth) { + state->lineWidth = lineWidth; +} + +void Splash::setLineCap(int lineCap) { + state->lineCap = lineCap; +} + +void Splash::setLineJoin(int lineJoin) { + state->lineJoin = lineJoin; +} + +void Splash::setMiterLimit(SplashCoord miterLimit) { + state->miterLimit = miterLimit; +} + +void Splash::setFlatness(SplashCoord flatness) { + if (flatness < 1) { + state->flatness = 1; + } else { + state->flatness = flatness; + } +} + +void Splash::setLineDash(SplashCoord *lineDash, int lineDashLength, + SplashCoord lineDashPhase) { + state->setLineDash(lineDash, lineDashLength, lineDashPhase); +} + +void Splash::setStrokeAdjust(GBool strokeAdjust) { + state->strokeAdjust = strokeAdjust; +} + +void Splash::clipResetToRect(SplashCoord x0, SplashCoord y0, + SplashCoord x1, SplashCoord y1) { + state->clip->resetToRect(x0, y0, x1, y1); +} + +SplashError Splash::clipToRect(SplashCoord x0, SplashCoord y0, + SplashCoord x1, SplashCoord y1) { + return state->clip->clipToRect(x0, y0, x1, y1); +} + +SplashError Splash::clipToPath(SplashPath *path, GBool eo) { + return state->clip->clipToPath(path, state->matrix, state->flatness, eo); +} + +void Splash::setSoftMask(SplashBitmap *softMask) { + state->setSoftMask(softMask); +} + +void Splash::setInNonIsolatedGroup(SplashBitmap *alpha0BitmapA, + int alpha0XA, int alpha0YA) { + alpha0Bitmap = alpha0BitmapA; + alpha0X = alpha0XA; + alpha0Y = alpha0YA; + state->inNonIsolatedGroup = gTrue; +} + +//------------------------------------------------------------------------ +// state save/restore +//------------------------------------------------------------------------ + +void Splash::saveState() { + SplashState *newState; + + newState = state->copy(); + newState->next = state; + state = newState; +} + +SplashError Splash::restoreState() { + SplashState *oldState; + + if (!state->next) { + return splashErrNoSave; + } + oldState = state; + state = state->next; + delete oldState; + return splashOk; +} + +//------------------------------------------------------------------------ +// drawing operations +//------------------------------------------------------------------------ + +void Splash::clear(SplashColorPtr color, Guchar alpha) { + SplashColorPtr row, p; + Guchar mono; + int x, y; + + switch (bitmap->mode) { + case splashModeMono1: + mono = (color[0] & 0x80) ? 0xff : 0x00; + if (bitmap->rowSize < 0) { + memset(bitmap->data + bitmap->rowSize * (bitmap->height - 1), + mono, -bitmap->rowSize * bitmap->height); + } else { + memset(bitmap->data, mono, bitmap->rowSize * bitmap->height); + } + break; + case splashModeMono8: + if (bitmap->rowSize < 0) { + memset(bitmap->data + bitmap->rowSize * (bitmap->height - 1), + color[0], -bitmap->rowSize * bitmap->height); + } else { + memset(bitmap->data, color[0], bitmap->rowSize * bitmap->height); + } + break; + case splashModeRGB8: + if (color[0] == color[1] && color[1] == color[2]) { + if (bitmap->rowSize < 0) { + memset(bitmap->data + bitmap->rowSize * (bitmap->height - 1), + color[0], -bitmap->rowSize * bitmap->height); + } else { + memset(bitmap->data, color[0], bitmap->rowSize * bitmap->height); + } + } else { + row = bitmap->data; + for (y = 0; y < bitmap->height; ++y) { + p = row; + for (x = 0; x < bitmap->width; ++x) { + *p++ = color[2]; + *p++ = color[1]; + *p++ = color[0]; + } + row += bitmap->rowSize; + } + } + break; + case splashModeBGR8: + if (color[0] == color[1] && color[1] == color[2]) { + if (bitmap->rowSize < 0) { + memset(bitmap->data + bitmap->rowSize * (bitmap->height - 1), + color[0], -bitmap->rowSize * bitmap->height); + } else { + memset(bitmap->data, color[0], bitmap->rowSize * bitmap->height); + } + } else { + row = bitmap->data; + for (y = 0; y < bitmap->height; ++y) { + p = row; + for (x = 0; x < bitmap->width; ++x) { + *p++ = color[0]; + *p++ = color[1]; + *p++ = color[2]; + } + row += bitmap->rowSize; + } + } + break; +#if SPLASH_CMYK + case splashModeCMYK8: + if (color[0] == color[1] && color[1] == color[2] && color[2] == color[3]) { + if (bitmap->rowSize < 0) { + memset(bitmap->data + bitmap->rowSize * (bitmap->height - 1), + color[0], -bitmap->rowSize * bitmap->height); + } else { + memset(bitmap->data, color[0], bitmap->rowSize * bitmap->height); + } + } else { + row = bitmap->data; + for (y = 0; y < bitmap->height; ++y) { + p = row; + for (x = 0; x < bitmap->width; ++x) { + *p++ = color[0]; + *p++ = color[1]; + *p++ = color[2]; + *p++ = color[3]; + } + row += bitmap->rowSize; + } + } + break; +#endif + } + + if (bitmap->alpha) { + memset(bitmap->alpha, alpha, bitmap->width * bitmap->height); + } + + updateModX(0); + updateModY(0); + updateModX(bitmap->width - 1); + updateModY(bitmap->height - 1); +} + +SplashError Splash::stroke(SplashPath *path) { + SplashPath *path2, *dPath; + + if (debugMode) { + printf("stroke [dash:%d] [width:%.2f]:\n", + state->lineDashLength, (double)state->lineWidth); + dumpPath(path); + } + opClipRes = splashClipAllOutside; + if (path->length == 0) { + return splashErrEmptyPath; + } + path2 = flattenPath(path, state->matrix, state->flatness); + if (state->lineDashLength > 0) { + dPath = makeDashedPath(path2); + delete path2; + path2 = dPath; + } + if (state->lineWidth == 0) { + strokeNarrow(path2); + } else { + strokeWide(path2); + } + delete path2; + return splashOk; +} + +void Splash::strokeNarrow(SplashPath *path) { + SplashPipe pipe; + SplashXPath *xPath; + SplashXPathSeg *seg; + int x0, x1, x2, x3, y0, y1, x, y, t; + SplashCoord dx, dy, dxdy; + SplashClipResult clipRes; + int nClipRes[3]; + int i; + + nClipRes[0] = nClipRes[1] = nClipRes[2] = 0; + + xPath = new SplashXPath(path, state->matrix, state->flatness, gFalse); + + pipeInit(&pipe, 0, 0, state->strokePattern, NULL, state->strokeAlpha, + gFalse, gFalse); + + for (i = 0, seg = xPath->segs; i < xPath->length; ++i, ++seg) { + + x0 = splashFloor(seg->x0); + x1 = splashFloor(seg->x1); + y0 = splashFloor(seg->y0); + y1 = splashFloor(seg->y1); + + // horizontal segment + if (y0 == y1) { + if (x0 > x1) { + t = x0; x0 = x1; x1 = t; + } + if ((clipRes = state->clip->testSpan(x0, x1, y0)) + != splashClipAllOutside) { + drawSpan(&pipe, x0, x1, y0, clipRes == splashClipAllInside); + } + + // segment with |dx| > |dy| + } else if (splashAbs(seg->dxdy) > 1) { + dx = seg->x1 - seg->x0; + dy = seg->y1 - seg->y0; + dxdy = seg->dxdy; + if (y0 > y1) { + t = y0; y0 = y1; y1 = t; + t = x0; x0 = x1; x1 = t; + dx = -dx; + dy = -dy; + } + if ((clipRes = state->clip->testRect(x0 <= x1 ? x0 : x1, y0, + x0 <= x1 ? x1 : x0, y1)) + != splashClipAllOutside) { + if (dx > 0) { + x2 = x0; + x3 = splashFloor(seg->x0 + ((SplashCoord)y0 + 1 - seg->y0) * dxdy); + drawSpan(&pipe, x2, (x2 <= x3 - 1) ? x3 - 1 : x2, y0, + clipRes == splashClipAllInside); + x2 = x3; + for (y = y0 + 1; y <= y1 - 1; ++y) { + x3 = splashFloor(seg->x0 + ((SplashCoord)y + 1 - seg->y0) * dxdy); + drawSpan(&pipe, x2, x3 - 1, y, clipRes == splashClipAllInside); + x2 = x3; + } + drawSpan(&pipe, x2, x2 <= x1 ? x1 : x2, y1, + clipRes == splashClipAllInside); + } else { + x2 = x0; + x3 = splashFloor(seg->x0 + ((SplashCoord)y0 + 1 - seg->y0) * dxdy); + drawSpan(&pipe, (x3 + 1 <= x2) ? x3 + 1 : x2, x2, y0, + clipRes == splashClipAllInside); + x2 = x3; + for (y = y0 + 1; y <= y1 - 1; ++y) { + x3 = splashFloor(seg->x0 + ((SplashCoord)y + 1 - seg->y0) * dxdy); + drawSpan(&pipe, x3 + 1, x2, y, clipRes == splashClipAllInside); + x2 = x3; + } + drawSpan(&pipe, x1, (x1 <= x2) ? x2 : x1, y1, + clipRes == splashClipAllInside); + } + } + + // segment with |dy| > |dx| + } else { + dxdy = seg->dxdy; + if (y0 > y1) { + t = x0; x0 = x1; x1 = t; + t = y0; y0 = y1; y1 = t; + } + if ((clipRes = state->clip->testRect(x0 <= x1 ? x0 : x1, y0, + x0 <= x1 ? x1 : x0, y1)) + != splashClipAllOutside) { + drawPixel(&pipe, x0, y0, clipRes == splashClipAllInside); + for (y = y0 + 1; y <= y1 - 1; ++y) { + x = splashFloor(seg->x0 + ((SplashCoord)y - seg->y0) * dxdy); + drawPixel(&pipe, x, y, clipRes == splashClipAllInside); + } + drawPixel(&pipe, x1, y1, clipRes == splashClipAllInside); + } + } + ++nClipRes[clipRes]; + } + if (nClipRes[splashClipPartial] || + (nClipRes[splashClipAllInside] && nClipRes[splashClipAllOutside])) { + opClipRes = splashClipPartial; + } else if (nClipRes[splashClipAllInside]) { + opClipRes = splashClipAllInside; + } else { + opClipRes = splashClipAllOutside; + } + + delete xPath; +} + +void Splash::strokeWide(SplashPath *path) { + SplashPath *path2; + + path2 = makeStrokePath(path, gFalse); + fillWithPattern(path2, gFalse, state->strokePattern, state->strokeAlpha); + delete path2; +} + +SplashPath *Splash::flattenPath(SplashPath *path, SplashCoord *matrix, + SplashCoord flatness) { + SplashPath *fPath; + SplashCoord flatness2; + Guchar flag; + int i; + + fPath = new SplashPath(); + flatness2 = flatness * flatness; + i = 0; + while (i < path->length) { + flag = path->flags[i]; + if (flag & splashPathFirst) { + fPath->moveTo(path->pts[i].x, path->pts[i].y); + ++i; + } else { + if (flag & splashPathCurve) { + flattenCurve(path->pts[i-1].x, path->pts[i-1].y, + path->pts[i ].x, path->pts[i ].y, + path->pts[i+1].x, path->pts[i+1].y, + path->pts[i+2].x, path->pts[i+2].y, + matrix, flatness2, fPath); + i += 3; + } else { + fPath->lineTo(path->pts[i].x, path->pts[i].y); + ++i; + } + if (path->flags[i-1] & splashPathClosed) { + fPath->close(); + } + } + } + return fPath; +} + +void Splash::flattenCurve(SplashCoord x0, SplashCoord y0, + SplashCoord x1, SplashCoord y1, + SplashCoord x2, SplashCoord y2, + SplashCoord x3, SplashCoord y3, + SplashCoord *matrix, SplashCoord flatness2, + SplashPath *fPath) { + SplashCoord cx[splashMaxCurveSplits + 1][3]; + SplashCoord cy[splashMaxCurveSplits + 1][3]; + int cNext[splashMaxCurveSplits + 1]; + SplashCoord xl0, xl1, xl2, xr0, xr1, xr2, xr3, xx1, xx2, xh; + SplashCoord yl0, yl1, yl2, yr0, yr1, yr2, yr3, yy1, yy2, yh; + SplashCoord dx, dy, mx, my, tx, ty, d1, d2; + int p1, p2, p3; + + // initial segment + p1 = 0; + p2 = splashMaxCurveSplits; + cx[p1][0] = x0; cy[p1][0] = y0; + cx[p1][1] = x1; cy[p1][1] = y1; + cx[p1][2] = x2; cy[p1][2] = y2; + cx[p2][0] = x3; cy[p2][0] = y3; + cNext[p1] = p2; + + while (p1 < splashMaxCurveSplits) { + + // get the next segment + xl0 = cx[p1][0]; yl0 = cy[p1][0]; + xx1 = cx[p1][1]; yy1 = cy[p1][1]; + xx2 = cx[p1][2]; yy2 = cy[p1][2]; + p2 = cNext[p1]; + xr3 = cx[p2][0]; yr3 = cy[p2][0]; + + // compute the distances (in device space) from the control points + // to the midpoint of the straight line (this is a bit of a hack, + // but it's much faster than computing the actual distances to the + // line) + transform(matrix, (xl0 + xr3) * 0.5, (yl0 + yr3) * 0.5, &mx, &my); + transform(matrix, xx1, yy1, &tx, &ty); + dx = tx - mx; + dy = ty - my; + d1 = dx*dx + dy*dy; + transform(matrix, xx2, yy2, &tx, &ty); + dx = tx - mx; + dy = ty - my; + d2 = dx*dx + dy*dy; + + // if the curve is flat enough, or no more subdivisions are + // allowed, add the straight line segment + if (p2 - p1 == 1 || (d1 <= flatness2 && d2 <= flatness2)) { + fPath->lineTo(xr3, yr3); + p1 = p2; + + // otherwise, subdivide the curve + } else { + xl1 = (xl0 + xx1) * 0.5; + yl1 = (yl0 + yy1) * 0.5; + xh = (xx1 + xx2) * 0.5; + yh = (yy1 + yy2) * 0.5; + xl2 = (xl1 + xh) * 0.5; + yl2 = (yl1 + yh) * 0.5; + xr2 = (xx2 + xr3) * 0.5; + yr2 = (yy2 + yr3) * 0.5; + xr1 = (xh + xr2) * 0.5; + yr1 = (yh + yr2) * 0.5; + xr0 = (xl2 + xr1) * 0.5; + yr0 = (yl2 + yr1) * 0.5; + // add the new subdivision points + p3 = (p1 + p2) / 2; + cx[p1][1] = xl1; cy[p1][1] = yl1; + cx[p1][2] = xl2; cy[p1][2] = yl2; + cNext[p1] = p3; + cx[p3][0] = xr0; cy[p3][0] = yr0; + cx[p3][1] = xr1; cy[p3][1] = yr1; + cx[p3][2] = xr2; cy[p3][2] = yr2; + cNext[p3] = p2; + } + } +} + +SplashPath *Splash::makeDashedPath(SplashPath *path) { + SplashPath *dPath; + SplashCoord lineDashTotal; + SplashCoord lineDashStartPhase, lineDashDist, segLen; + SplashCoord x0, y0, x1, y1, xa, ya; + GBool lineDashStartOn, lineDashOn, newPath; + int lineDashStartIdx, lineDashIdx; + int i, j, k; + + lineDashTotal = 0; + for (i = 0; i < state->lineDashLength; ++i) { + lineDashTotal += state->lineDash[i]; + } + lineDashStartPhase = state->lineDashPhase; + i = splashFloor(lineDashStartPhase / lineDashTotal); + lineDashStartPhase -= (SplashCoord)i * lineDashTotal; + lineDashStartOn = gTrue; + lineDashStartIdx = 0; + while (lineDashStartPhase >= state->lineDash[lineDashStartIdx]) { + lineDashStartOn = !lineDashStartOn; + lineDashStartPhase -= state->lineDash[lineDashStartIdx]; + ++lineDashStartIdx; + } + + dPath = new SplashPath(); + + // process each subpath + i = 0; + while (i < path->length) { + + // find the end of the subpath + for (j = i; + j < path->length - 1 && !(path->flags[j] & splashPathLast); + ++j) ; + + // initialize the dash parameters + lineDashOn = lineDashStartOn; + lineDashIdx = lineDashStartIdx; + lineDashDist = state->lineDash[lineDashIdx] - lineDashStartPhase; + + // process each segment of the subpath + newPath = gTrue; + for (k = i; k < j; ++k) { + + // grab the segment + x0 = path->pts[k].x; + y0 = path->pts[k].y; + x1 = path->pts[k+1].x; + y1 = path->pts[k+1].y; + segLen = splashDist(x0, y0, x1, y1); + + // process the segment + while (segLen > 0) { + + if (lineDashDist >= segLen) { + if (lineDashOn) { + if (newPath) { + dPath->moveTo(x0, y0); + newPath = gFalse; + } + dPath->lineTo(x1, y1); + } + lineDashDist -= segLen; + segLen = 0; + + } else { + xa = x0 + (lineDashDist / segLen) * (x1 - x0); + ya = y0 + (lineDashDist / segLen) * (y1 - y0); + if (lineDashOn) { + if (newPath) { + dPath->moveTo(x0, y0); + newPath = gFalse; + } + dPath->lineTo(xa, ya); + } + x0 = xa; + y0 = ya; + segLen -= lineDashDist; + lineDashDist = 0; + } + + // get the next entry in the dash array + if (lineDashDist <= 0) { + lineDashOn = !lineDashOn; + if (++lineDashIdx == state->lineDashLength) { + lineDashIdx = 0; + } + lineDashDist = state->lineDash[lineDashIdx]; + newPath = gTrue; + } + } + } + i = j + 1; + } + + return dPath; +} + +SplashError Splash::fill(SplashPath *path, GBool eo) { + if (debugMode) { + printf("fill [eo:%d]:\n", eo); + dumpPath(path); + } + return fillWithPattern(path, eo, state->fillPattern, state->fillAlpha); +} + +SplashError Splash::fillWithPattern(SplashPath *path, GBool eo, + SplashPattern *pattern, + SplashCoord alpha) { + SplashPipe pipe; + SplashXPath *xPath; + SplashXPathScanner *scanner; + int xMinI, yMinI, xMaxI, yMaxI, x0, x1, y; + SplashClipResult clipRes, clipRes2; + + if (path->length == 0) { + return splashErrEmptyPath; + } + xPath = new SplashXPath(path, state->matrix, state->flatness, gTrue); + if (vectorAntialias) { + xPath->aaScale(); + } + xPath->sort(); + scanner = new SplashXPathScanner(xPath, eo); + + // get the min and max x and y values + if (vectorAntialias) { + scanner->getBBoxAA(&xMinI, &yMinI, &xMaxI, &yMaxI); + } else { + scanner->getBBox(&xMinI, &yMinI, &xMaxI, &yMaxI); + } + + // check clipping + if ((clipRes = state->clip->testRect(xMinI, yMinI, xMaxI, yMaxI)) + != splashClipAllOutside) { + + // limit the y range + if (yMinI < state->clip->getYMinI()) { + yMinI = state->clip->getYMinI(); + } + if (yMaxI > state->clip->getYMaxI()) { + yMaxI = state->clip->getYMaxI(); + } + + pipeInit(&pipe, 0, yMinI, pattern, NULL, alpha, vectorAntialias, gFalse); + + // draw the spans + if (vectorAntialias) { + for (y = yMinI; y <= yMaxI; ++y) { + scanner->renderAALine(aaBuf, &x0, &x1, y); + if (clipRes != splashClipAllInside) { + state->clip->clipAALine(aaBuf, &x0, &x1, y); + } + drawAALine(&pipe, x0, x1, y); + } + } else { + for (y = yMinI; y <= yMaxI; ++y) { + while (scanner->getNextSpan(y, &x0, &x1)) { + if (clipRes == splashClipAllInside) { + drawSpan(&pipe, x0, x1, y, gTrue); + } else { + // limit the x range + if (x0 < state->clip->getXMinI()) { + x0 = state->clip->getXMinI(); + } + if (x1 > state->clip->getXMaxI()) { + x1 = state->clip->getXMaxI(); + } + clipRes2 = state->clip->testSpan(x0, x1, y); + drawSpan(&pipe, x0, x1, y, clipRes2 == splashClipAllInside); + } + } + } + } + } + opClipRes = clipRes; + + delete scanner; + delete xPath; + return splashOk; +} + +SplashError Splash::xorFill(SplashPath *path, GBool eo) { + SplashPipe pipe; + SplashXPath *xPath; + SplashXPathScanner *scanner; + int xMinI, yMinI, xMaxI, yMaxI, x0, x1, y; + SplashClipResult clipRes, clipRes2; + SplashBlendFunc origBlendFunc; + + if (path->length == 0) { + return splashErrEmptyPath; + } + xPath = new SplashXPath(path, state->matrix, state->flatness, gTrue); + xPath->sort(); + scanner = new SplashXPathScanner(xPath, eo); + + // get the min and max x and y values + scanner->getBBox(&xMinI, &yMinI, &xMaxI, &yMaxI); + + // check clipping + if ((clipRes = state->clip->testRect(xMinI, yMinI, xMaxI, yMaxI)) + != splashClipAllOutside) { + + // limit the y range + if (yMinI < state->clip->getYMinI()) { + yMinI = state->clip->getYMinI(); + } + if (yMaxI > state->clip->getYMaxI()) { + yMaxI = state->clip->getYMaxI(); + } + + origBlendFunc = state->blendFunc; + state->blendFunc = &blendXor; + pipeInit(&pipe, 0, yMinI, state->fillPattern, NULL, 1, gFalse, gFalse); + + // draw the spans + for (y = yMinI; y <= yMaxI; ++y) { + while (scanner->getNextSpan(y, &x0, &x1)) { + if (clipRes == splashClipAllInside) { + drawSpan(&pipe, x0, x1, y, gTrue); + } else { + // limit the x range + if (x0 < state->clip->getXMinI()) { + x0 = state->clip->getXMinI(); + } + if (x1 > state->clip->getXMaxI()) { + x1 = state->clip->getXMaxI(); + } + clipRes2 = state->clip->testSpan(x0, x1, y); + drawSpan(&pipe, x0, x1, y, clipRes2 == splashClipAllInside); + } + } + } + state->blendFunc = origBlendFunc; + } + opClipRes = clipRes; + + delete scanner; + delete xPath; + return splashOk; +} + +SplashError Splash::fillChar(SplashCoord x, SplashCoord y, + int c, SplashFont *font) { + SplashGlyphBitmap glyph; + SplashCoord xt, yt; + int x0, y0, xFrac, yFrac; + SplashClipResult clipRes; + + if (debugMode) { + printf("fillChar: x=%.2f y=%.2f c=%3d=0x%02x='%c'\n", + (double)x, (double)y, c, c, c); + } + transform(state->matrix, x, y, &xt, &yt); + x0 = splashFloor(xt); + xFrac = splashFloor((xt - x0) * splashFontFraction); + y0 = splashFloor(yt); + yFrac = splashFloor((yt - y0) * splashFontFraction); + if (!font->getGlyph(c, xFrac, yFrac, &glyph, x0, y0, state->clip, &clipRes)) { + return splashErrNoGlyph; + } + if (clipRes != splashClipAllOutside) { + fillGlyph2(x0, y0, &glyph, clipRes == splashClipAllInside); + } + opClipRes = clipRes; + if (glyph.freeData) { + gfree(glyph.data); + } + return splashOk; +} + +void Splash::fillGlyph(SplashCoord x, SplashCoord y, + SplashGlyphBitmap *glyph) { + SplashCoord xt, yt; + int x0, y0; + + transform(state->matrix, x, y, &xt, &yt); + x0 = splashFloor(xt); + y0 = splashFloor(yt); + SplashClipResult clipRes = state->clip->testRect(x0 - glyph->x, + y0 - glyph->y, + x0 - glyph->x + glyph->w - 1, + y0 - glyph->y + glyph->h - 1); + if (clipRes != splashClipAllOutside) { + fillGlyph2(x0, y0, glyph, clipRes == splashClipAllInside); + } + opClipRes = clipRes; +} + +void Splash::fillGlyph2(int x0, int y0, SplashGlyphBitmap *glyph, GBool noClip) { + SplashPipe pipe; + int alpha0, alpha; + Guchar *p; + int x1, y1, xx, xx1, yy; + + p = glyph->data; + int xStart = x0 - glyph->x; + int yStart = y0 - glyph->y; + int xxLimit = glyph->w; + int yyLimit = glyph->h; + + if (yStart < 0) + { + p += glyph->w * -yStart; // move p to the beginning of the first painted row + yyLimit += yStart; + yStart = 0; + } + + if (xStart < 0) + { + p += -xStart; // move p to the first painted pixel + xxLimit += xStart; + xStart = 0; + } + + if (xxLimit + xStart >= bitmap->width) xxLimit = bitmap->width - xStart; + if (yyLimit + yStart >= bitmap->height) yyLimit = bitmap->height - yStart; + + if (noClip) { + if (glyph->aa) { + pipeInit(&pipe, xStart, yStart, + state->fillPattern, NULL, state->fillAlpha, gTrue, gFalse); + for (yy = 0, y1 = yStart; yy < yyLimit; ++yy, ++y1) { + pipeSetXY(&pipe, xStart, y1); + for (xx = 0, x1 = xStart; xx < xxLimit; ++xx, ++x1) { + alpha = p[xx]; + if (alpha != 0) { + pipe.shape = (SplashCoord)(alpha / 255.0); + pipeRun(&pipe); + updateModX(x1); + updateModY(y1); + } else { + pipeIncX(&pipe); + } + } + p += glyph->w; + } + } else { + const int widthEight = (int)ceil(glyph->w / 8.0); + + pipeInit(&pipe, xStart, yStart, + state->fillPattern, NULL, state->fillAlpha, gFalse, gFalse); + for (yy = 0, y1 = yStart; yy < yyLimit; ++yy, ++y1) { + pipeSetXY(&pipe, xStart, y1); + for (xx = 0, x1 = xStart; xx < xxLimit; xx += 8) { + alpha0 = p[xx / 8]; + for (xx1 = 0; xx1 < 8 && xx + xx1 < xxLimit; ++xx1, ++x1) { + if (alpha0 & 0x80) { + pipeRun(&pipe); + updateModX(x1); + updateModY(y1); + } else { + pipeIncX(&pipe); + } + alpha0 <<= 1; + } + } + p += widthEight; + } + } + } else { + if (glyph->aa) { + pipeInit(&pipe, xStart, yStart, + state->fillPattern, NULL, state->fillAlpha, gTrue, gFalse); + for (yy = 0, y1 = yStart; yy < yyLimit; ++yy, ++y1) { + pipeSetXY(&pipe, xStart, y1); + for (xx = 0, x1 = xStart; xx < xxLimit; ++xx, ++x1) { + if (state->clip->test(x1, y1)) { + alpha = p[xx]; + if (alpha != 0) { + pipe.shape = (SplashCoord)(alpha / 255.0); + pipeRun(&pipe); + updateModX(x1); + updateModY(y1); + } else { + pipeIncX(&pipe); + } + } else { + pipeIncX(&pipe); + } + } + p += glyph->w; + } + } else { + const int widthEight = (int)ceil(glyph->w / 8.0); + + pipeInit(&pipe, xStart, yStart, + state->fillPattern, NULL, state->fillAlpha, gFalse, gFalse); + for (yy = 0, y1 = yStart; yy < yyLimit; ++yy, ++y1) { + pipeSetXY(&pipe, xStart, y1); + for (xx = 0, x1 = xStart; xx < xxLimit; xx += 8) { + alpha0 = p[xx / 8]; + for (xx1 = 0; xx1 < 8 && xx + xx1 < xxLimit; ++xx1, ++x1) { + if (state->clip->test(x1, y1)) { + if (alpha0 & 0x80) { + pipeRun(&pipe); + updateModX(x1); + updateModY(y1); + } else { + pipeIncX(&pipe); + } + } else { + pipeIncX(&pipe); + } + alpha0 <<= 1; + } + } + p += widthEight; + } + } + } +} + +SplashError Splash::fillImageMask(SplashImageMaskSource src, void *srcData, + int w, int h, SplashCoord *mat, + GBool glyphMode) { + SplashPipe pipe; + GBool rot; + SplashCoord xScale, yScale, xShear, yShear, yShear1; + int tx, tx2, ty, ty2, scaledWidth, scaledHeight, xSign, ySign; + int ulx, uly, llx, lly, urx, ury, lrx, lry; + int ulx1, uly1, llx1, lly1, urx1, ury1, lrx1, lry1; + int xMin, xMax, yMin, yMax; + SplashClipResult clipRes, clipRes2; + int yp, yq, yt, yStep, lastYStep; + int xp, xq, xt, xStep, xSrc; + int k1, spanXMin, spanXMax, spanY; + SplashColorPtr pixBuf, p; + int pixAcc; + int x, y, x1, x2, y2; + SplashCoord y1; + int n, m, i, j; + + if (debugMode) { + printf("fillImageMask: w=%d h=%d mat=[%.2f %.2f %.2f %.2f %.2f %.2f]\n", + w, h, (double)mat[0], (double)mat[1], (double)mat[2], + (double)mat[3], (double)mat[4], (double)mat[5]); + } + + if (w == 0 && h == 0) return splashErrZeroImage; + + // check for singular matrix + if (splashAbs(mat[0] * mat[3] - mat[1] * mat[2]) < 0.000001) { + return splashErrSingularMatrix; + } + + // compute scale, shear, rotation, translation parameters + rot = splashAbs(mat[1]) > splashAbs(mat[0]); + if (rot) { + xScale = -mat[1]; + yScale = mat[2] - (mat[0] * mat[3]) / mat[1]; + xShear = -mat[3] / yScale; + yShear = -mat[0] / mat[1]; + } else { + xScale = mat[0]; + yScale = mat[3] - (mat[1] * mat[2]) / mat[0]; + xShear = mat[2] / yScale; + yShear = mat[1] / mat[0]; + } + // Note 1: The PDF spec says that all pixels whose *centers* lie + // within the region get painted -- but that doesn't seem to match + // up with what Acrobat actually does: it ends up leaving gaps + // between image stripes. So we use the same rule here as for + // fills: any pixel that overlaps the region gets painted. + // Note 2: The "glyphMode" flag is a kludge: it switches back to + // "correct" behavior (matching the spec), for use in rendering Type + // 3 fonts. + // Note 3: The +/-0.01 in these computations is to avoid floating + // point precision problems which can lead to gaps between image + // stripes (it can cause image stripes to overlap, but that's a much + // less visible problem). + if (glyphMode) { + if (xScale >= 0) { + tx = splashRound(mat[4]); + tx2 = splashRound(mat[4] + xScale) - 1; + } else { + tx = splashRound(mat[4]) - 1; + tx2 = splashRound(mat[4] + xScale); + } + } else { + if (xScale >= 0) { + tx = splashFloor(mat[4] - 0.01); + tx2 = splashFloor(mat[4] + xScale + 0.01); + } else { + tx = splashFloor(mat[4] + 0.01); + tx2 = splashFloor(mat[4] + xScale - 0.01); + } + } + scaledWidth = abs(tx2 - tx) + 1; + if (glyphMode) { + if (yScale >= 0) { + ty = splashRound(mat[5]); + ty2 = splashRound(mat[5] + yScale) - 1; + } else { + ty = splashRound(mat[5]) - 1; + ty2 = splashRound(mat[5] + yScale); + } + } else { + if (yScale >= 0) { + ty = splashFloor(mat[5] - 0.01); + ty2 = splashFloor(mat[5] + yScale + 0.01); + } else { + ty = splashFloor(mat[5] + 0.01); + ty2 = splashFloor(mat[5] + yScale - 0.01); + } + } + scaledHeight = abs(ty2 - ty) + 1; + xSign = (xScale < 0) ? -1 : 1; + ySign = (yScale < 0) ? -1 : 1; + yShear1 = (SplashCoord)xSign * yShear; + + // clipping + ulx1 = 0; + uly1 = 0; + urx1 = xSign * (scaledWidth - 1); + ury1 = (int)(yShear * urx1); + llx1 = splashRound(xShear * ySign * (scaledHeight - 1)); + lly1 = ySign * (scaledHeight - 1) + (int)(yShear * llx1); + lrx1 = xSign * (scaledWidth - 1) + + splashRound(xShear * ySign * (scaledHeight - 1)); + lry1 = ySign * (scaledHeight - 1) + (int)(yShear * lrx1); + if (rot) { + ulx = tx + uly1; uly = ty - ulx1; + urx = tx + ury1; ury = ty - urx1; + llx = tx + lly1; lly = ty - llx1; + lrx = tx + lry1; lry = ty - lrx1; + } else { + ulx = tx + ulx1; uly = ty + uly1; + urx = tx + urx1; ury = ty + ury1; + llx = tx + llx1; lly = ty + lly1; + lrx = tx + lrx1; lry = ty + lry1; + } + xMin = (ulx < urx) ? (ulx < llx) ? (ulx < lrx) ? ulx : lrx + : (llx < lrx) ? llx : lrx + : (urx < llx) ? (urx < lrx) ? urx : lrx + : (llx < lrx) ? llx : lrx; + xMax = (ulx > urx) ? (ulx > llx) ? (ulx > lrx) ? ulx : lrx + : (llx > lrx) ? llx : lrx + : (urx > llx) ? (urx > lrx) ? urx : lrx + : (llx > lrx) ? llx : lrx; + yMin = (uly < ury) ? (uly < lly) ? (uly < lry) ? uly : lry + : (lly < lry) ? lly : lry + : (ury < lly) ? (ury < lry) ? ury : lry + : (lly < lry) ? lly : lry; + yMax = (uly > ury) ? (uly > lly) ? (uly > lry) ? uly : lry + : (lly > lry) ? lly : lry + : (ury > lly) ? (ury > lry) ? ury : lry + : (lly > lry) ? lly : lry; + clipRes = state->clip->testRect(xMin, yMin, xMax, yMax); + opClipRes = clipRes; + + // compute Bresenham parameters for x and y scaling + yp = h / scaledHeight; + yq = h % scaledHeight; + xp = w / scaledWidth; + xq = w % scaledWidth; + + // allocate pixel buffer + pixBuf = (SplashColorPtr)gmalloc((yp + 1) * w); + + // initialize the pixel pipe + pipeInit(&pipe, 0, 0, state->fillPattern, NULL, state->fillAlpha, + gTrue, gFalse); + if (vectorAntialias) { + drawAAPixelInit(); + } + + // init y scale Bresenham + yt = 0; + lastYStep = 1; + + for (y = 0; y < scaledHeight; ++y) { + + // y scale Bresenham + yStep = yp; + yt += yq; + if (yt >= scaledHeight) { + yt -= scaledHeight; + ++yStep; + } + + // read row(s) from image + n = (yp > 0) ? yStep : lastYStep; + if (n > 0) { + p = pixBuf; + for (i = 0; i < n; ++i) { + (*src)(srcData, p); + p += w; + } + } + lastYStep = yStep; + + // loop-invariant constants + k1 = splashRound(xShear * ySign * y); + + // clipping test + if (clipRes != splashClipAllInside && + !rot && + (int)(yShear * k1) == + (int)(yShear * (xSign * (scaledWidth - 1) + k1))) { + if (xSign > 0) { + spanXMin = tx + k1; + spanXMax = spanXMin + (scaledWidth - 1); + } else { + spanXMax = tx + k1; + spanXMin = spanXMax - (scaledWidth - 1); + } + spanY = ty + ySign * y + (int)(yShear * k1); + clipRes2 = state->clip->testSpan(spanXMin, spanXMax, spanY); + if (clipRes2 == splashClipAllOutside) { + continue; + } + } else { + clipRes2 = clipRes; + } + + // init x scale Bresenham + xt = 0; + xSrc = 0; + + // x shear + x1 = k1; + + // y shear + y1 = (SplashCoord)ySign * y + yShear * x1; + // this is a kludge: if yShear1 is negative, then (int)y1 would + // change immediately after the first pixel, which is not what we + // want + if (yShear1 < 0) { + y1 += 0.999; + } + + // loop-invariant constants + n = yStep > 0 ? yStep : 1; + + for (x = 0; x < scaledWidth; ++x) { + + // x scale Bresenham + xStep = xp; + xt += xq; + if (xt >= scaledWidth) { + xt -= scaledWidth; + ++xStep; + } + + // rotation + if (rot) { + x2 = (int)y1; + y2 = -x1; + } else { + x2 = x1; + y2 = (int)y1; + } + + // compute the alpha value for (x,y) after the x and y scaling + // operations + m = xStep > 0 ? xStep : 1; + p = pixBuf + xSrc; + pixAcc = 0; + for (i = 0; i < n; ++i) { + for (j = 0; j < m; ++j) { + pixAcc += *p++; + } + p += w - m; + } + + // blend fill color with background + if (pixAcc != 0) { + pipe.shape = (pixAcc == n * m) + ? (SplashCoord)1 + : (SplashCoord)pixAcc / (SplashCoord)(n * m); + if (vectorAntialias && clipRes2 != splashClipAllInside) { + drawAAPixel(&pipe, tx + x2, ty + y2); + } else { + drawPixel(&pipe, tx + x2, ty + y2, clipRes2 == splashClipAllInside); + } + } + + // x scale Bresenham + xSrc += xStep; + + // x shear + x1 += xSign; + + // y shear + y1 += yShear1; + } + } + + // free memory + gfree(pixBuf); + + return splashOk; +} + +SplashError Splash::drawImage(SplashImageSource src, void *srcData, + SplashColorMode srcMode, GBool srcAlpha, + int w, int h, SplashCoord *mat) { + SplashPipe pipe; + GBool ok, rot; + SplashCoord xScale, yScale, xShear, yShear, yShear1; + int tx, tx2, ty, ty2, scaledWidth, scaledHeight, xSign, ySign; + int ulx, uly, llx, lly, urx, ury, lrx, lry; + int ulx1, uly1, llx1, lly1, urx1, ury1, lrx1, lry1; + int xMin, xMax, yMin, yMax; + SplashClipResult clipRes, clipRes2; + int yp, yq, yt, yStep, lastYStep; + int xp, xq, xt, xStep, xSrc; + int k1, spanXMin, spanXMax, spanY; + SplashColorPtr colorBuf, p; + SplashColor pix; + Guchar *alphaBuf, *q; +#if SPLASH_CMYK + int pixAcc0, pixAcc1, pixAcc2, pixAcc3; +#else + int pixAcc0, pixAcc1, pixAcc2; +#endif + int alphaAcc; + SplashCoord pixMul, alphaMul, alpha; + int x, y, x1, x2, y2; + SplashCoord y1; + int nComps, n, m, i, j; + + if (debugMode) { + printf("drawImage: srcMode=%d srcAlpha=%d w=%d h=%d mat=[%.2f %.2f %.2f %.2f %.2f %.2f]\n", + srcMode, srcAlpha, w, h, (double)mat[0], (double)mat[1], (double)mat[2], + (double)mat[3], (double)mat[4], (double)mat[5]); + } + + // check color modes + ok = gFalse; // make gcc happy + nComps = 0; // make gcc happy + switch (bitmap->mode) { + case splashModeMono1: + case splashModeMono8: + ok = srcMode == splashModeMono8; + nComps = 1; + break; + case splashModeRGB8: + ok = srcMode == splashModeRGB8; + nComps = 3; + break; + case splashModeBGR8: + ok = srcMode == splashModeBGR8; + nComps = 3; + break; +#if SPLASH_CMYK + case splashModeCMYK8: + ok = srcMode == splashModeCMYK8; + nComps = 4; + break; +#endif + } + if (!ok) { + return splashErrModeMismatch; + } + + // check for singular matrix + if (splashAbs(mat[0] * mat[3] - mat[1] * mat[2]) < 0.000001) { + return splashErrSingularMatrix; + } + + // compute scale, shear, rotation, translation parameters + rot = splashAbs(mat[1]) > splashAbs(mat[0]); + if (rot) { + xScale = -mat[1]; + yScale = mat[2] - (mat[0] * mat[3]) / mat[1]; + xShear = -mat[3] / yScale; + yShear = -mat[0] / mat[1]; + } else { + xScale = mat[0]; + yScale = mat[3] - (mat[1] * mat[2]) / mat[0]; + xShear = mat[2] / yScale; + yShear = mat[1] / mat[0]; + } + // Note 1: The PDF spec says that all pixels whose *centers* lie + // within the region get painted -- but that doesn't seem to match + // up with what Acrobat actually does: it ends up leaving gaps + // between image stripes. So we use the same rule here as for + // fills: any pixel that overlaps the region gets painted. + // Note 2: The +/-0.01 in these computations is to avoid floating + // point precision problems which can lead to gaps between image + // stripes (it can cause image stripes to overlap, but that's a much + // less visible problem). + if (xScale >= 0) { + tx = splashFloor(mat[4] - 0.01); + tx2 = splashFloor(mat[4] + xScale + 0.01); + } else { + tx = splashFloor(mat[4] + 0.01); + tx2 = splashFloor(mat[4] + xScale - 0.01); + } + scaledWidth = abs(tx2 - tx) + 1; + if (yScale >= 0) { + ty = splashFloor(mat[5] - 0.01); + ty2 = splashFloor(mat[5] + yScale + 0.01); + } else { + ty = splashFloor(mat[5] + 0.01); + ty2 = splashFloor(mat[5] + yScale - 0.01); + } + scaledHeight = abs(ty2 - ty) + 1; + xSign = (xScale < 0) ? -1 : 1; + ySign = (yScale < 0) ? -1 : 1; + yShear1 = (SplashCoord)xSign * yShear; + + // clipping + ulx1 = 0; + uly1 = 0; + urx1 = xSign * (scaledWidth - 1); + ury1 = (int)(yShear * urx1); + llx1 = splashRound(xShear * ySign * (scaledHeight - 1)); + lly1 = ySign * (scaledHeight - 1) + (int)(yShear * llx1); + lrx1 = xSign * (scaledWidth - 1) + + splashRound(xShear * ySign * (scaledHeight - 1)); + lry1 = ySign * (scaledHeight - 1) + (int)(yShear * lrx1); + if (rot) { + ulx = tx + uly1; uly = ty - ulx1; + urx = tx + ury1; ury = ty - urx1; + llx = tx + lly1; lly = ty - llx1; + lrx = tx + lry1; lry = ty - lrx1; + } else { + ulx = tx + ulx1; uly = ty + uly1; + urx = tx + urx1; ury = ty + ury1; + llx = tx + llx1; lly = ty + lly1; + lrx = tx + lrx1; lry = ty + lry1; + } + xMin = (ulx < urx) ? (ulx < llx) ? (ulx < lrx) ? ulx : lrx + : (llx < lrx) ? llx : lrx + : (urx < llx) ? (urx < lrx) ? urx : lrx + : (llx < lrx) ? llx : lrx; + xMax = (ulx > urx) ? (ulx > llx) ? (ulx > lrx) ? ulx : lrx + : (llx > lrx) ? llx : lrx + : (urx > llx) ? (urx > lrx) ? urx : lrx + : (llx > lrx) ? llx : lrx; + yMin = (uly < ury) ? (uly < lly) ? (uly < lry) ? uly : lry + : (lly < lry) ? lly : lry + : (ury < lly) ? (ury < lry) ? ury : lry + : (lly < lry) ? lly : lry; + yMax = (uly > ury) ? (uly > lly) ? (uly > lry) ? uly : lry + : (lly > lry) ? lly : lry + : (ury > lly) ? (ury > lry) ? ury : lry + : (lly > lry) ? lly : lry; + clipRes = state->clip->testRect(xMin, yMin, xMax, yMax); + opClipRes = clipRes; + if (clipRes == splashClipAllOutside) { + return splashOk; + } + + // compute Bresenham parameters for x and y scaling + yp = h / scaledHeight; + yq = h % scaledHeight; + xp = w / scaledWidth; + xq = w % scaledWidth; + + // allocate pixel buffers + colorBuf = (SplashColorPtr)gmalloc((yp + 1) * w * nComps); + if (srcAlpha) { + alphaBuf = (Guchar *)gmalloc((yp + 1) * w); + } else { + alphaBuf = NULL; + } + + pixAcc0 = pixAcc1 = pixAcc2 = 0; // make gcc happy +#if SPLASH_CMYK + pixAcc3 = 0; // make gcc happy +#endif + + // initialize the pixel pipe + pipeInit(&pipe, 0, 0, NULL, pix, state->fillAlpha, + srcAlpha || (vectorAntialias && clipRes != splashClipAllInside), + gFalse); + if (vectorAntialias) { + drawAAPixelInit(); + } + + if (srcAlpha) { + + // init y scale Bresenham + yt = 0; + lastYStep = 1; + + for (y = 0; y < scaledHeight; ++y) { + + // y scale Bresenham + yStep = yp; + yt += yq; + if (yt >= scaledHeight) { + yt -= scaledHeight; + ++yStep; + } + + // read row(s) from image + n = (yp > 0) ? yStep : lastYStep; + if (n > 0) { + p = colorBuf; + q = alphaBuf; + for (i = 0; i < n; ++i) { + (*src)(srcData, p, q); + p += w * nComps; + q += w; + } + } + lastYStep = yStep; + + // loop-invariant constants + k1 = splashRound(xShear * ySign * y); + + // clipping test + if (clipRes != splashClipAllInside && + !rot && + (int)(yShear * k1) == + (int)(yShear * (xSign * (scaledWidth - 1) + k1))) { + if (xSign > 0) { + spanXMin = tx + k1; + spanXMax = spanXMin + (scaledWidth - 1); + } else { + spanXMax = tx + k1; + spanXMin = spanXMax - (scaledWidth - 1); + } + spanY = ty + ySign * y + (int)(yShear * k1); + clipRes2 = state->clip->testSpan(spanXMin, spanXMax, spanY); + if (clipRes2 == splashClipAllOutside) { + continue; + } + } else { + clipRes2 = clipRes; + } + + // init x scale Bresenham + xt = 0; + xSrc = 0; + + // x shear + x1 = k1; + + // y shear + y1 = (SplashCoord)ySign * y + yShear * x1; + // this is a kludge: if yShear1 is negative, then (int)y1 would + // change immediately after the first pixel, which is not what + // we want + if (yShear1 < 0) { + y1 += 0.999; + } + + // loop-invariant constants + n = yStep > 0 ? yStep : 1; + + switch (srcMode) { + + case splashModeMono1: + case splashModeMono8: + for (x = 0; x < scaledWidth; ++x) { + + // x scale Bresenham + xStep = xp; + xt += xq; + if (xt >= scaledWidth) { + xt -= scaledWidth; + ++xStep; + } + + // rotation + if (rot) { + x2 = (int)y1; + y2 = -x1; + } else { + x2 = x1; + y2 = (int)y1; + } + + // compute the filtered pixel at (x,y) after the x and y scaling + // operations + m = xStep > 0 ? xStep : 1; + alphaAcc = 0; + p = colorBuf + xSrc; + q = alphaBuf + xSrc; + pixAcc0 = 0; + for (i = 0; i < n; ++i) { + for (j = 0; j < m; ++j) { + pixAcc0 += *p++; + alphaAcc += *q++; + } + p += w - m; + q += w - m; + } + pixMul = (SplashCoord)1 / (SplashCoord)(n * m); + alphaMul = pixMul * (1.0 / 255.0); + alpha = (SplashCoord)alphaAcc * alphaMul; + + if (alpha > 0) { + pix[0] = (int)((SplashCoord)pixAcc0 * pixMul); + + // set pixel + pipe.shape = alpha; + if (vectorAntialias && clipRes != splashClipAllInside) { + drawAAPixel(&pipe, tx + x2, ty + y2); + } else { + drawPixel(&pipe, tx + x2, ty + y2, + clipRes2 == splashClipAllInside); + } + } + + // x scale Bresenham + xSrc += xStep; + + // x shear + x1 += xSign; + + // y shear + y1 += yShear1; + } + break; + + case splashModeRGB8: + case splashModeBGR8: + for (x = 0; x < scaledWidth; ++x) { + + // x scale Bresenham + xStep = xp; + xt += xq; + if (xt >= scaledWidth) { + xt -= scaledWidth; + ++xStep; + } + + // rotation + if (rot) { + x2 = (int)y1; + y2 = -x1; + } else { + x2 = x1; + y2 = (int)y1; + } + + // compute the filtered pixel at (x,y) after the x and y scaling + // operations + m = xStep > 0 ? xStep : 1; + alphaAcc = 0; + p = colorBuf + xSrc * 3; + q = alphaBuf + xSrc; + pixAcc0 = pixAcc1 = pixAcc2 = 0; + for (i = 0; i < n; ++i) { + for (j = 0; j < m; ++j) { + pixAcc0 += *p++; + pixAcc1 += *p++; + pixAcc2 += *p++; + alphaAcc += *q++; + } + p += 3 * (w - m); + q += w - m; + } + pixMul = (SplashCoord)1 / (SplashCoord)(n * m); + alphaMul = pixMul * (1.0 / 255.0); + alpha = (SplashCoord)alphaAcc * alphaMul; + + if (alpha > 0) { + pix[0] = (int)((SplashCoord)pixAcc0 * pixMul); + pix[1] = (int)((SplashCoord)pixAcc1 * pixMul); + pix[2] = (int)((SplashCoord)pixAcc2 * pixMul); + + // set pixel + pipe.shape = alpha; + if (vectorAntialias && clipRes != splashClipAllInside) { + drawAAPixel(&pipe, tx + x2, ty + y2); + } else { + drawPixel(&pipe, tx + x2, ty + y2, + clipRes2 == splashClipAllInside); + } + } + + // x scale Bresenham + xSrc += xStep; + + // x shear + x1 += xSign; + + // y shear + y1 += yShear1; + } + break; + +#if SPLASH_CMYK + case splashModeCMYK8: + for (x = 0; x < scaledWidth; ++x) { + + // x scale Bresenham + xStep = xp; + xt += xq; + if (xt >= scaledWidth) { + xt -= scaledWidth; + ++xStep; + } + + // rotation + if (rot) { + x2 = (int)y1; + y2 = -x1; + } else { + x2 = x1; + y2 = (int)y1; + } + + // compute the filtered pixel at (x,y) after the x and y scaling + // operations + m = xStep > 0 ? xStep : 1; + alphaAcc = 0; + p = colorBuf + xSrc * 4; + q = alphaBuf + xSrc; + pixAcc0 = pixAcc1 = pixAcc2 = pixAcc3 = 0; + for (i = 0; i < n; ++i) { + for (j = 0; j < m; ++j) { + pixAcc0 += *p++; + pixAcc1 += *p++; + pixAcc2 += *p++; + pixAcc3 += *p++; + alphaAcc += *q++; + } + p += 4 * (w - m); + q += w - m; + } + pixMul = (SplashCoord)1 / (SplashCoord)(n * m); + alphaMul = pixMul * (1.0 / 255.0); + alpha = (SplashCoord)alphaAcc * alphaMul; + + if (alpha > 0) { + pix[0] = (int)((SplashCoord)pixAcc0 * pixMul); + pix[1] = (int)((SplashCoord)pixAcc1 * pixMul); + pix[2] = (int)((SplashCoord)pixAcc2 * pixMul); + pix[3] = (int)((SplashCoord)pixAcc3 * pixMul); + + // set pixel + pipe.shape = alpha; + if (vectorAntialias && clipRes != splashClipAllInside) { + drawAAPixel(&pipe, tx + x2, ty + y2); + } else { + drawPixel(&pipe, tx + x2, ty + y2, + clipRes2 == splashClipAllInside); + } + } + + // x scale Bresenham + xSrc += xStep; + + // x shear + x1 += xSign; + + // y shear + y1 += yShear1; + } + break; +#endif // SPLASH_CMYK + } + } + + } else { + + // init y scale Bresenham + yt = 0; + lastYStep = 1; + + for (y = 0; y < scaledHeight; ++y) { + + // y scale Bresenham + yStep = yp; + yt += yq; + if (yt >= scaledHeight) { + yt -= scaledHeight; + ++yStep; + } + + // read row(s) from image + n = (yp > 0) ? yStep : lastYStep; + if (n > 0) { + p = colorBuf; + for (i = 0; i < n; ++i) { + (*src)(srcData, p, NULL); + p += w * nComps; + } + } + lastYStep = yStep; + + // loop-invariant constants + k1 = splashRound(xShear * ySign * y); + + // clipping test + if (clipRes != splashClipAllInside && + !rot && + (int)(yShear * k1) == + (int)(yShear * (xSign * (scaledWidth - 1) + k1))) { + if (xSign > 0) { + spanXMin = tx + k1; + spanXMax = spanXMin + (scaledWidth - 1); + } else { + spanXMax = tx + k1; + spanXMin = spanXMax - (scaledWidth - 1); + } + spanY = ty + ySign * y + (int)(yShear * k1); + clipRes2 = state->clip->testSpan(spanXMin, spanXMax, spanY); + if (clipRes2 == splashClipAllOutside) { + continue; + } + } else { + clipRes2 = clipRes; + } + + // init x scale Bresenham + xt = 0; + xSrc = 0; + + // x shear + x1 = k1; + + // y shear + y1 = (SplashCoord)ySign * y + yShear * x1; + // this is a kludge: if yShear1 is negative, then (int)y1 would + // change immediately after the first pixel, which is not what + // we want + if (yShear1 < 0) { + y1 += 0.999; + } + + // loop-invariant constants + n = yStep > 0 ? yStep : 1; + + switch (srcMode) { + + case splashModeMono1: + case splashModeMono8: + for (x = 0; x < scaledWidth; ++x) { + + // x scale Bresenham + xStep = xp; + xt += xq; + if (xt >= scaledWidth) { + xt -= scaledWidth; + ++xStep; + } + + // rotation + if (rot) { + x2 = (int)y1; + y2 = -x1; + } else { + x2 = x1; + y2 = (int)y1; + } + + // compute the filtered pixel at (x,y) after the x and y scaling + // operations + m = xStep > 0 ? xStep : 1; + p = colorBuf + xSrc; + pixAcc0 = 0; + for (i = 0; i < n; ++i) { + for (j = 0; j < m; ++j) { + pixAcc0 += *p++; + } + p += w - m; + } + pixMul = (SplashCoord)1 / (SplashCoord)(n * m); + + pix[0] = (int)((SplashCoord)pixAcc0 * pixMul); + + // set pixel + if (vectorAntialias && clipRes != splashClipAllInside) { + pipe.shape = (SplashCoord)1; + drawAAPixel(&pipe, tx + x2, ty + y2); + } else { + drawPixel(&pipe, tx + x2, ty + y2, + clipRes2 == splashClipAllInside); + } + + // x scale Bresenham + xSrc += xStep; + + // x shear + x1 += xSign; + + // y shear + y1 += yShear1; + } + break; + + case splashModeRGB8: + case splashModeBGR8: + for (x = 0; x < scaledWidth; ++x) { + + // x scale Bresenham + xStep = xp; + xt += xq; + if (xt >= scaledWidth) { + xt -= scaledWidth; + ++xStep; + } + + // rotation + if (rot) { + x2 = (int)y1; + y2 = -x1; + } else { + x2 = x1; + y2 = (int)y1; + } + + // compute the filtered pixel at (x,y) after the x and y scaling + // operations + m = xStep > 0 ? xStep : 1; + p = colorBuf + xSrc * 3; + pixAcc0 = pixAcc1 = pixAcc2 = 0; + for (i = 0; i < n; ++i) { + for (j = 0; j < m; ++j) { + pixAcc0 += *p++; + pixAcc1 += *p++; + pixAcc2 += *p++; + } + p += 3 * (w - m); + } + pixMul = (SplashCoord)1 / (SplashCoord)(n * m); + + pix[0] = (int)((SplashCoord)pixAcc0 * pixMul); + pix[1] = (int)((SplashCoord)pixAcc1 * pixMul); + pix[2] = (int)((SplashCoord)pixAcc2 * pixMul); + + // set pixel + if (vectorAntialias && clipRes != splashClipAllInside) { + pipe.shape = (SplashCoord)1; + drawAAPixel(&pipe, tx + x2, ty + y2); + } else { + drawPixel(&pipe, tx + x2, ty + y2, + clipRes2 == splashClipAllInside); + } + + // x scale Bresenham + xSrc += xStep; + + // x shear + x1 += xSign; + + // y shear + y1 += yShear1; + } + break; + +#if SPLASH_CMYK + case splashModeCMYK8: + for (x = 0; x < scaledWidth; ++x) { + + // x scale Bresenham + xStep = xp; + xt += xq; + if (xt >= scaledWidth) { + xt -= scaledWidth; + ++xStep; + } + + // rotation + if (rot) { + x2 = (int)y1; + y2 = -x1; + } else { + x2 = x1; + y2 = (int)y1; + } + + // compute the filtered pixel at (x,y) after the x and y scaling + // operations + m = xStep > 0 ? xStep : 1; + p = colorBuf + xSrc * 4; + pixAcc0 = pixAcc1 = pixAcc2 = pixAcc3 = 0; + for (i = 0; i < n; ++i) { + for (j = 0; j < m; ++j) { + pixAcc0 += *p++; + pixAcc1 += *p++; + pixAcc2 += *p++; + pixAcc3 += *p++; + } + p += 4 * (w - m); + } + pixMul = (SplashCoord)1 / (SplashCoord)(n * m); + + pix[0] = (int)((SplashCoord)pixAcc0 * pixMul); + pix[1] = (int)((SplashCoord)pixAcc1 * pixMul); + pix[2] = (int)((SplashCoord)pixAcc2 * pixMul); + pix[3] = (int)((SplashCoord)pixAcc3 * pixMul); + + // set pixel + if (vectorAntialias && clipRes != splashClipAllInside) { + pipe.shape = (SplashCoord)1; + drawAAPixel(&pipe, tx + x2, ty + y2); + } else { + drawPixel(&pipe, tx + x2, ty + y2, + clipRes2 == splashClipAllInside); + } + + // x scale Bresenham + xSrc += xStep; + + // x shear + x1 += xSign; + + // y shear + y1 += yShear1; + } + break; +#endif // SPLASH_CMYK + } + } + + } + + gfree(colorBuf); + gfree(alphaBuf); + + return splashOk; +} + +SplashError Splash::composite(SplashBitmap *src, int xSrc, int ySrc, + int xDest, int yDest, int w, int h, + GBool noClip, GBool nonIsolated) { + SplashPipe pipe; + SplashColor pixel; + Guchar alpha; + Guchar *ap; + int x, y; + + if (src->mode != bitmap->mode) { + return splashErrModeMismatch; + } + + if (src->alpha) { + pipeInit(&pipe, xDest, yDest, NULL, pixel, state->fillAlpha, + gTrue, nonIsolated); + for (y = 0; y < h; ++y) { + pipeSetXY(&pipe, xDest, yDest + y); + ap = src->getAlphaPtr() + (ySrc + y) * src->getWidth() + xSrc; + for (x = 0; x < w; ++x) { + src->getPixel(xSrc + x, ySrc + y, pixel); + alpha = *ap++; + if (noClip || state->clip->test(xDest + x, yDest + y)) { + // this uses shape instead of alpha, which isn't technically + // correct, but works out the same + pipe.shape = (SplashCoord)(alpha / 255.0); + pipeRun(&pipe); + updateModX(xDest + x); + updateModY(yDest + y); + } else { + pipeIncX(&pipe); + } + } + } + } else { + pipeInit(&pipe, xDest, yDest, NULL, pixel, state->fillAlpha, + gFalse, nonIsolated); + for (y = 0; y < h; ++y) { + pipeSetXY(&pipe, xDest, yDest + y); + for (x = 0; x < w; ++x) { + src->getPixel(xSrc + x, ySrc + y, pixel); + if (noClip || state->clip->test(xDest + x, yDest + y)) { + pipeRun(&pipe); + updateModX(xDest + x); + updateModY(yDest + y); + } else { + pipeIncX(&pipe); + } + } + } + } + + return splashOk; +} + +void Splash::compositeBackground(SplashColorPtr color) { + SplashColorPtr p; + Guchar *q; + Guchar alpha, alpha1, c, color0, color1, color2, color3; + int x, y, mask; + + switch (bitmap->mode) { + case splashModeMono1: + color0 = color[0]; + for (y = 0; y < bitmap->height; ++y) { + p = &bitmap->data[y * bitmap->rowSize]; + q = &bitmap->alpha[y * bitmap->width]; + mask = 0x80; + for (x = 0; x < bitmap->width; ++x) { + alpha = *q++; + alpha1 = 255 - alpha; + c = (*p & mask) ? 0xff : 0x00; + c = div255(alpha1 * color0 + alpha * c); + if (c & 0x80) { + *p |= mask; + } else { + *p &= ~mask; + } + if (!(mask >>= 1)) { + mask = 0x80; + ++p; + } + } + } + break; + case splashModeMono8: + color0 = color[0]; + for (y = 0; y < bitmap->height; ++y) { + p = &bitmap->data[y * bitmap->rowSize]; + q = &bitmap->alpha[y * bitmap->width]; + for (x = 0; x < bitmap->width; ++x) { + alpha = *q++; + alpha1 = 255 - alpha; + p[0] = div255(alpha1 * color0 + alpha * p[0]); + ++p; + } + } + break; + case splashModeRGB8: + case splashModeBGR8: + color0 = color[0]; + color1 = color[1]; + color2 = color[2]; + for (y = 0; y < bitmap->height; ++y) { + p = &bitmap->data[y * bitmap->rowSize]; + q = &bitmap->alpha[y * bitmap->width]; + for (x = 0; x < bitmap->width; ++x) { + alpha = *q++; + alpha1 = 255 - alpha; + p[0] = div255(alpha1 * color0 + alpha * p[0]); + p[1] = div255(alpha1 * color1 + alpha * p[1]); + p[2] = div255(alpha1 * color2 + alpha * p[2]); + p += 3; + } + } + break; +#if SPLASH_CMYK + case splashModeCMYK8: + color0 = color[0]; + color1 = color[1]; + color2 = color[2]; + color3 = color[3]; + for (y = 0; y < bitmap->height; ++y) { + p = &bitmap->data[y * bitmap->rowSize]; + q = &bitmap->alpha[y * bitmap->width]; + for (x = 0; x < bitmap->width; ++x) { + alpha = *q++; + alpha1 = 255 - alpha; + p[0] = div255(alpha1 * color0 + alpha * p[0]); + p[1] = div255(alpha1 * color1 + alpha * p[1]); + p[2] = div255(alpha1 * color2 + alpha * p[2]); + p[3] = div255(alpha1 * color3 + alpha * p[3]); + p += 4; + } + } + break; +#endif + } + memset(bitmap->alpha, 255, bitmap->width * bitmap->height); +} + +SplashError Splash::blitTransparent(SplashBitmap *src, int xSrc, int ySrc, + int xDest, int yDest, int w, int h) { + SplashColor pixel; + SplashColorPtr p; + Guchar *q; + int x, y, mask; + + if (src->mode != bitmap->mode) { + return splashErrModeMismatch; + } + + switch (bitmap->mode) { + case splashModeMono1: + for (y = 0; y < h; ++y) { + p = &bitmap->data[(yDest + y) * bitmap->rowSize + (xDest >> 3)]; + mask = 0x80 >> (xDest & 7); + for (x = 0; x < w; ++x) { + src->getPixel(xSrc + x, ySrc + y, pixel); + if (pixel[0]) { + *p |= mask; + } else { + *p &= ~mask; + } + if (!(mask >>= 1)) { + mask = 0x80; + ++p; + } + } + } + break; + case splashModeMono8: + for (y = 0; y < h; ++y) { + p = &bitmap->data[(yDest + y) * bitmap->rowSize + xDest]; + for (x = 0; x < w; ++x) { + src->getPixel(xSrc + x, ySrc + y, pixel); + *p++ = pixel[0]; + } + } + break; + case splashModeRGB8: + case splashModeBGR8: + for (y = 0; y < h; ++y) { + p = &bitmap->data[(yDest + y) * bitmap->rowSize + 3 * xDest]; + for (x = 0; x < w; ++x) { + src->getPixel(xSrc + x, ySrc + y, pixel); + *p++ = pixel[0]; + *p++ = pixel[1]; + *p++ = pixel[2]; + } + } + break; +#if SPLASH_CMYK + case splashModeCMYK8: + for (y = 0; y < h; ++y) { + p = &bitmap->data[(yDest + y) * bitmap->rowSize + 4 * xDest]; + for (x = 0; x < w; ++x) { + src->getPixel(xSrc + x, ySrc + y, pixel); + *p++ = pixel[0]; + *p++ = pixel[1]; + *p++ = pixel[2]; + *p++ = pixel[3]; + } + } + break; +#endif + } + + if (bitmap->alpha) { + for (y = 0; y < h; ++y) { + q = &bitmap->alpha[(yDest + y) * bitmap->width + xDest]; + for (x = 0; x < w; ++x) { + *q++ = 0x00; + } + } + } + + return splashOk; +} + +SplashPath *Splash::makeStrokePath(SplashPath *path, GBool flatten) { + SplashPath *pathIn, *pathOut; + SplashCoord w, d, dx, dy, wdx, wdy, dxNext, dyNext, wdxNext, wdyNext; + SplashCoord crossprod, dotprod, miter, m; + GBool first, last, closed; + int subpathStart, next, i; + int left0, left1, left2, right0, right1, right2, join0, join1, join2; + int leftFirst, rightFirst, firstPt; + + if (flatten) { + pathIn = flattenPath(path, state->matrix, state->flatness); + if (state->lineDashLength > 0) { + pathOut = makeDashedPath(pathIn); + delete pathIn; + pathIn = pathOut; + } + } else { + pathIn = path; + } + + subpathStart = 0; // make gcc happy + closed = gFalse; // make gcc happy + left0 = left1 = right0 = right1 = join0 = join1 = 0; // make gcc happy + leftFirst = rightFirst = firstPt = 0; // make gcc happy + + pathOut = new SplashPath(); + w = state->lineWidth; + + for (i = 0; i < pathIn->length - 1; ++i) { + if (pathIn->flags[i] & splashPathLast) { + continue; + } + if ((first = pathIn->flags[i] & splashPathFirst)) { + subpathStart = i; + closed = pathIn->flags[i] & splashPathClosed; + } + last = pathIn->flags[i+1] & splashPathLast; + + // compute the deltas for segment (i, i+1) + d = splashDist(pathIn->pts[i].x, pathIn->pts[i].y, + pathIn->pts[i+1].x, pathIn->pts[i+1].y); + if (d == 0) { + // we need to draw end caps on zero-length lines + //~ not clear what the behavior should be for splashLineCapButt + //~ with d==0 + dx = 0; + dy = 1; + } else { + d = (SplashCoord)1 / d; + dx = d * (pathIn->pts[i+1].x - pathIn->pts[i].x); + dy = d * (pathIn->pts[i+1].y - pathIn->pts[i].y); + } + wdx = (SplashCoord)0.5 * w * dx; + wdy = (SplashCoord)0.5 * w * dy; + + // compute the deltas for segment (i+1, next) + next = last ? subpathStart + 1 : i + 2; + d = splashDist(pathIn->pts[i+1].x, pathIn->pts[i+1].y, + pathIn->pts[next].x, pathIn->pts[next].y); + if (d == 0) { + // we need to draw end caps on zero-length lines + //~ not clear what the behavior should be for splashLineCapButt + //~ with d==0 + dxNext = 0; + dyNext = 1; + } else { + d = (SplashCoord)1 / d; + dxNext = d * (pathIn->pts[next].x - pathIn->pts[i+1].x); + dyNext = d * (pathIn->pts[next].y - pathIn->pts[i+1].y); + } + wdxNext = (SplashCoord)0.5 * w * dxNext; + wdyNext = (SplashCoord)0.5 * w * dyNext; + + // draw the start cap + pathOut->moveTo(pathIn->pts[i].x - wdy, pathIn->pts[i].y + wdx); + if (i == subpathStart) { + firstPt = pathOut->length - 1; + } + if (first && !closed) { + switch (state->lineCap) { + case splashLineCapButt: + pathOut->lineTo(pathIn->pts[i].x + wdy, pathIn->pts[i].y - wdx); + break; + case splashLineCapRound: + pathOut->curveTo(pathIn->pts[i].x - wdy - bezierCircle * wdx, + pathIn->pts[i].y + wdx - bezierCircle * wdy, + pathIn->pts[i].x - wdx - bezierCircle * wdy, + pathIn->pts[i].y - wdy + bezierCircle * wdx, + pathIn->pts[i].x - wdx, + pathIn->pts[i].y - wdy); + pathOut->curveTo(pathIn->pts[i].x - wdx + bezierCircle * wdy, + pathIn->pts[i].y - wdy - bezierCircle * wdx, + pathIn->pts[i].x + wdy - bezierCircle * wdx, + pathIn->pts[i].y - wdx - bezierCircle * wdy, + pathIn->pts[i].x + wdy, + pathIn->pts[i].y - wdx); + break; + case splashLineCapProjecting: + pathOut->lineTo(pathIn->pts[i].x - wdx - wdy, + pathIn->pts[i].y + wdx - wdy); + pathOut->lineTo(pathIn->pts[i].x - wdx + wdy, + pathIn->pts[i].y - wdx - wdy); + pathOut->lineTo(pathIn->pts[i].x + wdy, + pathIn->pts[i].y - wdx); + break; + } + } else { + pathOut->lineTo(pathIn->pts[i].x + wdy, pathIn->pts[i].y - wdx); + } + + // draw the left side of the segment rectangle + left2 = pathOut->length - 1; + pathOut->lineTo(pathIn->pts[i+1].x + wdy, pathIn->pts[i+1].y - wdx); + + // draw the end cap + if (last && !closed) { + switch (state->lineCap) { + case splashLineCapButt: + pathOut->lineTo(pathIn->pts[i+1].x - wdy, pathIn->pts[i+1].y + wdx); + break; + case splashLineCapRound: + pathOut->curveTo(pathIn->pts[i+1].x + wdy + bezierCircle * wdx, + pathIn->pts[i+1].y - wdx + bezierCircle * wdy, + pathIn->pts[i+1].x + wdx + bezierCircle * wdy, + pathIn->pts[i+1].y + wdy - bezierCircle * wdx, + pathIn->pts[i+1].x + wdx, + pathIn->pts[i+1].y + wdy); + pathOut->curveTo(pathIn->pts[i+1].x + wdx - bezierCircle * wdy, + pathIn->pts[i+1].y + wdy + bezierCircle * wdx, + pathIn->pts[i+1].x - wdy + bezierCircle * wdx, + pathIn->pts[i+1].y + wdx + bezierCircle * wdy, + pathIn->pts[i+1].x - wdy, + pathIn->pts[i+1].y + wdx); + break; + case splashLineCapProjecting: + pathOut->lineTo(pathIn->pts[i+1].x + wdy + wdx, + pathIn->pts[i+1].y - wdx + wdy); + pathOut->lineTo(pathIn->pts[i+1].x - wdy + wdx, + pathIn->pts[i+1].y + wdx + wdy); + pathOut->lineTo(pathIn->pts[i+1].x - wdy, + pathIn->pts[i+1].y + wdx); + break; + } + } else { + pathOut->lineTo(pathIn->pts[i+1].x - wdy, pathIn->pts[i+1].y + wdx); + } + + // draw the right side of the segment rectangle + right2 = pathOut->length - 1; + pathOut->close(); + + // draw the join + join2 = pathOut->length; + if (!last || closed) { + crossprod = dx * dyNext - dy * dxNext; + dotprod = -(dx * dxNext + dy * dyNext); + if (dotprod > 0.99999) { + // avoid a divide-by-zero -- set miter to something arbitrary + // such that sqrt(miter) will exceed miterLimit (and m is never + // used in that situation) + miter = (state->miterLimit + 1) * (state->miterLimit + 1); + m = 0; + } else { + miter = (SplashCoord)2 / ((SplashCoord)1 - dotprod); + if (miter < 1) { + // this can happen because of floating point inaccuracies + miter = 1; + } + m = splashSqrt(miter - 1); + } + + // round join + if (state->lineJoin == splashLineJoinRound) { + pathOut->moveTo(pathIn->pts[i+1].x + (SplashCoord)0.5 * w, + pathIn->pts[i+1].y); + pathOut->curveTo(pathIn->pts[i+1].x + (SplashCoord)0.5 * w, + pathIn->pts[i+1].y + bezierCircle2 * w, + pathIn->pts[i+1].x + bezierCircle2 * w, + pathIn->pts[i+1].y + (SplashCoord)0.5 * w, + pathIn->pts[i+1].x, + pathIn->pts[i+1].y + (SplashCoord)0.5 * w); + pathOut->curveTo(pathIn->pts[i+1].x - bezierCircle2 * w, + pathIn->pts[i+1].y + (SplashCoord)0.5 * w, + pathIn->pts[i+1].x - (SplashCoord)0.5 * w, + pathIn->pts[i+1].y + bezierCircle2 * w, + pathIn->pts[i+1].x - (SplashCoord)0.5 * w, + pathIn->pts[i+1].y); + pathOut->curveTo(pathIn->pts[i+1].x - (SplashCoord)0.5 * w, + pathIn->pts[i+1].y - bezierCircle2 * w, + pathIn->pts[i+1].x - bezierCircle2 * w, + pathIn->pts[i+1].y - (SplashCoord)0.5 * w, + pathIn->pts[i+1].x, + pathIn->pts[i+1].y - (SplashCoord)0.5 * w); + pathOut->curveTo(pathIn->pts[i+1].x + bezierCircle2 * w, + pathIn->pts[i+1].y - (SplashCoord)0.5 * w, + pathIn->pts[i+1].x + (SplashCoord)0.5 * w, + pathIn->pts[i+1].y - bezierCircle2 * w, + pathIn->pts[i+1].x + (SplashCoord)0.5 * w, + pathIn->pts[i+1].y); + + } else { + pathOut->moveTo(pathIn->pts[i+1].x, pathIn->pts[i+1].y); + + // angle < 180 + if (crossprod < 0) { + pathOut->lineTo(pathIn->pts[i+1].x - wdyNext, + pathIn->pts[i+1].y + wdxNext); + // miter join inside limit + if (state->lineJoin == splashLineJoinMiter && + splashSqrt(miter) <= state->miterLimit) { + pathOut->lineTo(pathIn->pts[i+1].x - wdy + wdx * m, + pathIn->pts[i+1].y + wdx + wdy * m); + pathOut->lineTo(pathIn->pts[i+1].x - wdy, + pathIn->pts[i+1].y + wdx); + // bevel join or miter join outside limit + } else { + pathOut->lineTo(pathIn->pts[i+1].x - wdy, pathIn->pts[i+1].y + wdx); + } + + // angle >= 180 + } else { + pathOut->lineTo(pathIn->pts[i+1].x + wdy, + pathIn->pts[i+1].y - wdx); + // miter join inside limit + if (state->lineJoin == splashLineJoinMiter && + splashSqrt(miter) <= state->miterLimit) { + pathOut->lineTo(pathIn->pts[i+1].x + wdy + wdx * m, + pathIn->pts[i+1].y - wdx + wdy * m); + pathOut->lineTo(pathIn->pts[i+1].x + wdyNext, + pathIn->pts[i+1].y - wdxNext); + // bevel join or miter join outside limit + } else { + pathOut->lineTo(pathIn->pts[i+1].x + wdyNext, + pathIn->pts[i+1].y - wdxNext); + } + } + } + + pathOut->close(); + } + + // add stroke adjustment hints + if (state->strokeAdjust) { + if (i >= subpathStart + 1) { + if (i >= subpathStart + 2) { + pathOut->addStrokeAdjustHint(left1, right1, left0 + 1, right0); + pathOut->addStrokeAdjustHint(left1, right1, join0, left2); + } else { + pathOut->addStrokeAdjustHint(left1, right1, firstPt, left2); + } + pathOut->addStrokeAdjustHint(left1, right1, right2 + 1, right2 + 1); + } + left0 = left1; + left1 = left2; + right0 = right1; + right1 = right2; + join0 = join1; + join1 = join2; + if (i == subpathStart) { + leftFirst = left2; + rightFirst = right2; + } + if (last) { + if (i >= subpathStart + 2) { + pathOut->addStrokeAdjustHint(left1, right1, left0 + 1, right0); + pathOut->addStrokeAdjustHint(left1, right1, + join0, pathOut->length - 1); + } else { + pathOut->addStrokeAdjustHint(left1, right1, + firstPt, pathOut->length - 1); + } + if (closed) { + pathOut->addStrokeAdjustHint(left1, right1, firstPt, leftFirst); + pathOut->addStrokeAdjustHint(left1, right1, + rightFirst + 1, rightFirst + 1); + pathOut->addStrokeAdjustHint(leftFirst, rightFirst, + left1 + 1, right1); + pathOut->addStrokeAdjustHint(leftFirst, rightFirst, + join1, pathOut->length - 1); + } + } + } + } + + if (pathIn != path) { + delete pathIn; + } + + return pathOut; +} + +void Splash::dumpPath(SplashPath *path) { + int i; + + for (i = 0; i < path->length; ++i) { + printf(" %3d: x=%8.2f y=%8.2f%s%s%s%s\n", + i, (double)path->pts[i].x, (double)path->pts[i].y, + (path->flags[i] & splashPathFirst) ? " first" : "", + (path->flags[i] & splashPathLast) ? " last" : "", + (path->flags[i] & splashPathClosed) ? " closed" : "", + (path->flags[i] & splashPathCurve) ? " curve" : ""); + } +} + +void Splash::dumpXPath(SplashXPath *path) { + int i; + + for (i = 0; i < path->length; ++i) { + printf(" %4d: x0=%8.2f y0=%8.2f x1=%8.2f y1=%8.2f %s%s%s%s%s%s%s\n", + i, (double)path->segs[i].x0, (double)path->segs[i].y0, + (double)path->segs[i].x1, (double)path->segs[i].y1, + (path->segs[i].flags & splashXPathFirst) ? "F" : " ", + (path->segs[i].flags & splashXPathLast) ? "L" : " ", + (path->segs[i].flags & splashXPathEnd0) ? "0" : " ", + (path->segs[i].flags & splashXPathEnd1) ? "1" : " ", + (path->segs[i].flags & splashXPathHoriz) ? "H" : " ", + (path->segs[i].flags & splashXPathVert) ? "V" : " ", + (path->segs[i].flags & splashXPathFlip) ? "P" : " "); + } +} diff --git a/kpdf/xpdf/splash/Splash.h b/kpdf/xpdf/splash/Splash.h new file mode 100644 index 00000000..3c7571fb --- /dev/null +++ b/kpdf/xpdf/splash/Splash.h @@ -0,0 +1,293 @@ +//======================================================================== +// +// Splash.h +// +//======================================================================== + +#ifndef SPLASH_H +#define SPLASH_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "SplashTypes.h" +#include "SplashClip.h" + +class Splash; +class SplashBitmap; +struct SplashGlyphBitmap; +class SplashState; +class SplashPattern; +class SplashScreen; +class SplashPath; +class SplashXPath; +class SplashFont; +struct SplashPipe; + +//------------------------------------------------------------------------ + +// Retrieves the next line of pixels in an image mask. Normally, +// fills in * and returns true. If the image stream is +// exhausted, returns false. +typedef GBool (*SplashImageMaskSource)(void *data, SplashColorPtr pixel); + +// Retrieves the next line of pixels in an image. Normally, fills in +// * and returns true. If the image stream is exhausted, +// returns false. +typedef GBool (*SplashImageSource)(void *data, SplashColorPtr colorLine, + Guchar *alphaLine); + +//------------------------------------------------------------------------ + +enum SplashPipeResultColorCtrl { +#if SPLASH_CMYK + splashPipeResultColorNoAlphaBlendCMYK, +#endif + splashPipeResultColorNoAlphaBlendRGB, + splashPipeResultColorNoAlphaBlendMono, + splashPipeResultColorAlphaNoBlendMono, + splashPipeResultColorAlphaNoBlendRGB, +#if SPLASH_CMYK + splashPipeResultColorAlphaNoBlendCMYK, +#endif + splashPipeResultColorAlphaBlendMono, + splashPipeResultColorAlphaBlendRGB +#if SPLASH_CMYK + , + splashPipeResultColorAlphaBlendCMYK +#endif +}; + +//------------------------------------------------------------------------ +// Splash +//------------------------------------------------------------------------ + +class Splash { +public: + + // Create a new rasterizer object. + Splash(SplashBitmap *bitmapA, GBool vectorAntialiasA, + SplashScreenParams *screenParams = NULL); + Splash(SplashBitmap *bitmapA, GBool vectorAntialiasA, + SplashScreen *screenA); + + ~Splash(); + + //----- state read + + SplashCoord *getMatrix(); + SplashPattern *getStrokePattern(); + SplashPattern *getFillPattern(); + SplashScreen *getScreen(); + SplashBlendFunc getBlendFunc(); + SplashCoord getStrokeAlpha(); + SplashCoord getFillAlpha(); + SplashCoord getLineWidth(); + int getLineCap(); + int getLineJoin(); + SplashCoord getMiterLimit(); + SplashCoord getFlatness(); + SplashCoord *getLineDash(); + int getLineDashLength(); + SplashCoord getLineDashPhase(); + SplashClip *getClip(); + SplashBitmap *getSoftMask(); + GBool getInNonIsolatedGroup(); + + //----- state write + + void setMatrix(SplashCoord *matrix); + void setStrokePattern(SplashPattern *strokeColor); + void setFillPattern(SplashPattern *fillColor); + void setScreen(SplashScreen *screen); + void setBlendFunc(SplashBlendFunc func); + void setStrokeAlpha(SplashCoord alpha); + void setFillAlpha(SplashCoord alpha); + void setLineWidth(SplashCoord lineWidth); + void setLineCap(int lineCap); + void setLineJoin(int lineJoin); + void setMiterLimit(SplashCoord miterLimit); + void setFlatness(SplashCoord flatness); + // the array will be copied + void setLineDash(SplashCoord *lineDash, int lineDashLength, + SplashCoord lineDashPhase); + void setStrokeAdjust(GBool strokeAdjust); + // NB: uses transformed coordinates. + void clipResetToRect(SplashCoord x0, SplashCoord y0, + SplashCoord x1, SplashCoord y1); + // NB: uses transformed coordinates. + SplashError clipToRect(SplashCoord x0, SplashCoord y0, + SplashCoord x1, SplashCoord y1); + // NB: uses untransformed coordinates. + SplashError clipToPath(SplashPath *path, GBool eo); + void setSoftMask(SplashBitmap *softMask); + void setInNonIsolatedGroup(SplashBitmap *alpha0BitmapA, + int alpha0XA, int alpha0YA); + + //----- state save/restore + + void saveState(); + SplashError restoreState(); + + //----- drawing operations + + // Fill the bitmap with . This is not subject to clipping. + void clear(SplashColorPtr color, Guchar alpha = 0x00); + + // Stroke a path using the current stroke pattern. + SplashError stroke(SplashPath *path); + + // Fill a path using the current fill pattern. + SplashError fill(SplashPath *path, GBool eo); + + // Fill a path, XORing with the current fill pattern. + SplashError xorFill(SplashPath *path, GBool eo); + + // Draw a character, using the current fill pattern. + SplashError fillChar(SplashCoord x, SplashCoord y, int c, SplashFont *font); + + // Draw a glyph, using the current fill pattern. This function does + // not free any data, i.e., it ignores glyph->freeData. + void fillGlyph(SplashCoord x, SplashCoord y, + SplashGlyphBitmap *glyph); + + // Draws an image mask using the fill color. This will read + // lines of pixels from , starting with the top line. "1" + // pixels will be drawn with the current fill color; "0" pixels are + // transparent. The matrix: + // [ mat[0] mat[1] 0 ] + // [ mat[2] mat[3] 0 ] + // [ mat[4] mat[5] 1 ] + // maps a unit square to the desired destination for the image, in + // PostScript style: + // [x' y' 1] = [x y 1] * mat + // Note that the Splash y axis points downward, and the image source + // is assumed to produce pixels in raster order, starting from the + // top line. + SplashError fillImageMask(SplashImageMaskSource src, void *srcData, + int w, int h, SplashCoord *mat, + GBool glyphMode); + + // Draw an image. This will read lines of pixels from + // , starting with the top line. These pixels are assumed to + // be in the source mode, . If is true, the + // alpha values returned by are used; otherwise they are + // ignored. The following combinations of source and target modes + // are supported: + // source target + // ------ ------ + // Mono1 Mono1 + // Mono8 Mono1 -- with dithering + // Mono8 Mono8 + // RGB8 RGB8 + // BGR8 BGR8 + // CMYK8 CMYK8 + // The matrix behaves as for fillImageMask. + SplashError drawImage(SplashImageSource src, void *srcData, + SplashColorMode srcMode, GBool srcAlpha, + int w, int h, SplashCoord *mat); + + // Composite a rectangular region from onto this Splash + // object. + SplashError composite(SplashBitmap *src, int xSrc, int ySrc, + int xDest, int yDest, int w, int h, + GBool noClip, GBool nonIsolated); + + // Composite this Splash object onto a background color. The + // background alpha is assumed to be 1. + void compositeBackground(SplashColorPtr color); + + // Copy a rectangular region from onto the bitmap belonging to + // this Splash object. The destination alpha values are all set to + // zero. + SplashError blitTransparent(SplashBitmap *src, int xSrc, int ySrc, + int xDest, int yDest, int w, int h); + + //----- misc + + // Construct a path for a stroke, given the path to be stroked, and + // using the current line parameters. If is true, this + // function will first flatten the path and handle the linedash. + SplashPath *makeStrokePath(SplashPath *path, GBool flatten = gTrue); + + // Return the associated bitmap. + SplashBitmap *getBitmap() { return bitmap; } + + // Get a bounding box which includes all modifications since the + // last call to clearModRegion. + void getModRegion(int *xMin, int *yMin, int *xMax, int *yMax) + { *xMin = modXMin; *yMin = modYMin; *xMax = modXMax; *yMax = modYMax; } + + // Clear the modified region bounding box. + void clearModRegion(); + + // Get clipping status for the last drawing operation subject to + // clipping. + SplashClipResult getClipRes() { return opClipRes; } + + // Toggle debug mode on or off. + void setDebugMode(GBool debugModeA) { debugMode = debugModeA; } + +#if 1 //~tmp: turn off anti-aliasing temporarily + GBool getVectorAntialias() { return vectorAntialias; } + void setVectorAntialias(GBool vaa) { vectorAntialias = vaa; } +#endif + +private: + + void pipeInit(SplashPipe *pipe, int x, int y, + SplashPattern *pattern, SplashColorPtr cSrc, + SplashCoord aInput, GBool usesShape, + GBool nonIsolatedGroup); + void pipeRun(SplashPipe *pipe); + void pipeSetXY(SplashPipe *pipe, int x, int y); + void pipeIncX(SplashPipe *pipe); + void drawPixel(SplashPipe *pipe, int x, int y, GBool noClip); + void drawAAPixelInit(); + void drawAAPixel(SplashPipe *pipe, int x, int y); + void drawSpan(SplashPipe *pipe, int x0, int x1, int y, GBool noClip); + void drawAALine(SplashPipe *pipe, int x0, int x1, int y); + void transform(SplashCoord *matrix, SplashCoord xi, SplashCoord yi, + SplashCoord *xo, SplashCoord *yo); + void updateModX(int x); + void updateModY(int y); + void strokeNarrow(SplashPath *path); + void strokeWide(SplashPath *path); + SplashPath *flattenPath(SplashPath *path, SplashCoord *matrix, + SplashCoord flatness); + void flattenCurve(SplashCoord x0, SplashCoord y0, + SplashCoord x1, SplashCoord y1, + SplashCoord x2, SplashCoord y2, + SplashCoord x3, SplashCoord y3, + SplashCoord *matrix, SplashCoord flatness2, + SplashPath *fPath); + SplashPath *makeDashedPath(SplashPath *xPath); + SplashError fillWithPattern(SplashPath *path, GBool eo, + SplashPattern *pattern, SplashCoord alpha); + void fillGlyph2(int x0, int y0, SplashGlyphBitmap *glyph, GBool noclip); + void dumpPath(SplashPath *path); + void dumpXPath(SplashXPath *path); + + static SplashPipeResultColorCtrl pipeResultColorNoAlphaBlend[]; + static SplashPipeResultColorCtrl pipeResultColorAlphaNoBlend[]; + static SplashPipeResultColorCtrl pipeResultColorAlphaBlend[]; + static int pipeNonIsoGroupCorrection[]; + + SplashBitmap *bitmap; + SplashState *state; + SplashBitmap *aaBuf; + int aaBufY; + SplashBitmap *alpha0Bitmap; // for non-isolated groups, this is the + // bitmap containing the alpha0 values + int alpha0X, alpha0Y; // offset within alpha0Bitmap + SplashCoord aaGamma[splashAASize * splashAASize + 1]; + int modXMin, modYMin, modXMax, modYMax; + SplashClipResult opClipRes; + GBool vectorAntialias; + GBool debugMode; +}; + +#endif diff --git a/kpdf/xpdf/splash/SplashBitmap.cc b/kpdf/xpdf/splash/SplashBitmap.cc new file mode 100644 index 00000000..0cb1a752 --- /dev/null +++ b/kpdf/xpdf/splash/SplashBitmap.cc @@ -0,0 +1,188 @@ +//======================================================================== +// +// SplashBitmap.cc +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include "gmem.h" +#include "SplashErrorCodes.h" +#include "SplashBitmap.h" + +//------------------------------------------------------------------------ +// SplashBitmap +//------------------------------------------------------------------------ + +SplashBitmap::SplashBitmap(int widthA, int heightA, int rowPad, + SplashColorMode modeA, GBool alphaA, + GBool topDown) { + width = widthA; + height = heightA; + mode = modeA; + switch (mode) { + case splashModeMono1: + rowSize = (width + 7) >> 3; + break; + case splashModeMono8: + rowSize = width; + break; + case splashModeRGB8: + case splashModeBGR8: + rowSize = width * 3; + break; +#if SPLASH_CMYK + case splashModeCMYK8: + rowSize = width * 4; + break; +#endif + } + rowSize += rowPad - 1; + rowSize -= rowSize % rowPad; + data = (SplashColorPtr)gmalloc(rowSize * height); + if (!topDown) { + data += (height - 1) * rowSize; + rowSize = -rowSize; + } + if (alphaA) { + alpha = (Guchar *)gmalloc(width * height); + } else { + alpha = NULL; + } +} + + +SplashBitmap::~SplashBitmap() { + if (rowSize < 0) { + gfree(data + (height - 1) * rowSize); + } else { + gfree(data); + } + gfree(alpha); +} + +SplashError SplashBitmap::writePNMFile(char *fileName) { + FILE *f; + SplashColorPtr row, p; + int x, y; + + if (!(f = fopen(fileName, "wb"))) { + return splashErrOpenFile; + } + + switch (mode) { + + case splashModeMono1: + fprintf(f, "P4\n%d %d\n", width, height); + row = data; + for (y = 0; y < height; ++y) { + p = row; + for (x = 0; x < width; x += 8) { + fputc(*p ^ 0xff, f); + ++p; + } + row += rowSize; + } + break; + + case splashModeMono8: + fprintf(f, "P5\n%d %d\n255\n", width, height); + row = data; + for (y = 0; y < height; ++y) { + p = row; + for (x = 0; x < width; ++x) { + fputc(*p, f); + ++p; + } + row += rowSize; + } + break; + + case splashModeRGB8: + fprintf(f, "P6\n%d %d\n255\n", width, height); + row = data; + for (y = 0; y < height; ++y) { + p = row; + for (x = 0; x < width; ++x) { + fputc(splashRGB8R(p), f); + fputc(splashRGB8G(p), f); + fputc(splashRGB8B(p), f); + p += 3; + } + row += rowSize; + } + break; + + case splashModeBGR8: + fprintf(f, "P6\n%d %d\n255\n", width, height); + row = data; + for (y = 0; y < height; ++y) { + p = row; + for (x = 0; x < width; ++x) { + fputc(splashBGR8R(p), f); + fputc(splashBGR8G(p), f); + fputc(splashBGR8B(p), f); + p += 3; + } + row += rowSize; + } + break; + +#if SPLASH_CMYK + case splashModeCMYK8: + // PNM doesn't support CMYK + break; +#endif + } + + fclose(f); + return splashOk; +} + +void SplashBitmap::getPixel(int x, int y, SplashColorPtr pixel) { + SplashColorPtr p; + + if (y < 0 || y >= height || x < 0 || x >= width) { + return; + } + switch (mode) { + case splashModeMono1: + p = &data[y * rowSize + (x >> 3)]; + pixel[0] = (p[0] & (0x80 >> (x & 7))) ? 0xff : 0x00; + break; + case splashModeMono8: + p = &data[y * rowSize + x]; + pixel[0] = p[0]; + break; + case splashModeRGB8: + p = &data[y * rowSize + 3 * x]; + pixel[0] = p[0]; + pixel[1] = p[1]; + pixel[2] = p[2]; + break; + case splashModeBGR8: + p = &data[y * rowSize + 3 * x]; + pixel[0] = p[2]; + pixel[1] = p[1]; + pixel[2] = p[0]; + break; +#if SPLASH_CMYK + case splashModeCMYK8: + p = &data[y * rowSize + 4 * x]; + pixel[0] = p[0]; + pixel[1] = p[1]; + pixel[2] = p[2]; + pixel[3] = p[3]; + break; +#endif + } +} + +Guchar SplashBitmap::getAlpha(int x, int y) { + return alpha[y * width + x]; +} diff --git a/kpdf/xpdf/splash/SplashBitmap.h b/kpdf/xpdf/splash/SplashBitmap.h new file mode 100644 index 00000000..69ab058e --- /dev/null +++ b/kpdf/xpdf/splash/SplashBitmap.h @@ -0,0 +1,61 @@ +//======================================================================== +// +// SplashBitmap.h +// +//======================================================================== + +#ifndef SPLASHBITMAP_H +#define SPLASHBITMAP_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "SplashTypes.h" + +//------------------------------------------------------------------------ +// SplashBitmap +//------------------------------------------------------------------------ + +class SplashBitmap { +public: + + // Create a new bitmap. It will have x pixels in + // color mode . Rows will be padded out to a multiple of + // bytes. If is false, the bitmap will be stored + // upside-down, i.e., with the last row first in memory. + SplashBitmap(int widthA, int heightA, int rowPad, + SplashColorMode modeA, GBool alphaA, + GBool topDown = gTrue); + + ~SplashBitmap(); + + int getWidth() { return width; } + int getHeight() { return height; } + int getRowSize() { return rowSize; } + int getAlphaRowSize() { return width; } + SplashColorMode getMode() { return mode; } + SplashColorPtr getDataPtr() { return data; } + Guchar *getAlphaPtr() { return alpha; } + + SplashError writePNMFile(char *fileName); + + void getPixel(int x, int y, SplashColorPtr pixel); + Guchar getAlpha(int x, int y); + +private: + + int width, height; // size of bitmap + int rowSize; // size of one row of data, in bytes + // - negative for bottom-up bitmaps + SplashColorMode mode; // color mode + SplashColorPtr data; // pointer to row zero of the color data + Guchar *alpha; // pointer to row zero of the alpha data + // (always top-down) + + friend class Splash; +}; + +#endif diff --git a/kpdf/xpdf/splash/SplashClip.cc b/kpdf/xpdf/splash/SplashClip.cc new file mode 100644 index 00000000..ef8acbab --- /dev/null +++ b/kpdf/xpdf/splash/SplashClip.cc @@ -0,0 +1,382 @@ +//======================================================================== +// +// SplashClip.cc +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include "gmem.h" +#include "SplashErrorCodes.h" +#include "SplashPath.h" +#include "SplashXPath.h" +#include "SplashXPathScanner.h" +#include "SplashBitmap.h" +#include "SplashClip.h" + +//------------------------------------------------------------------------ +// SplashClip.flags +//------------------------------------------------------------------------ + +#define splashClipEO 0x01 // use even-odd rule + +//------------------------------------------------------------------------ +// SplashClip +//------------------------------------------------------------------------ + +SplashClip::SplashClip(SplashCoord x0, SplashCoord y0, + SplashCoord x1, SplashCoord y1, + GBool antialiasA) { + antialias = antialiasA; + if (x0 < x1) { + xMin = x0; + xMax = x1; + } else { + xMin = x1; + xMax = x0; + } + if (y0 < y1) { + yMin = y0; + yMax = y1; + } else { + yMin = y1; + yMax = y0; + } + xMinI = splashFloor(xMin); + yMinI = splashFloor(yMin); + xMaxI = splashFloor(xMax); + yMaxI = splashFloor(yMax); + paths = NULL; + flags = NULL; + scanners = NULL; + length = size = 0; +} + +SplashClip::SplashClip(SplashClip *clip) { + int i; + + antialias = clip->antialias; + xMin = clip->xMin; + yMin = clip->yMin; + xMax = clip->xMax; + yMax = clip->yMax; + xMinI = clip->xMinI; + yMinI = clip->yMinI; + xMaxI = clip->xMaxI; + yMaxI = clip->yMaxI; + length = clip->length; + size = clip->size; + paths = (SplashXPath **)gmallocn(size, sizeof(SplashXPath *)); + flags = (Guchar *)gmallocn(size, sizeof(Guchar)); + scanners = (SplashXPathScanner **) + gmallocn(size, sizeof(SplashXPathScanner *)); + for (i = 0; i < length; ++i) { + paths[i] = clip->paths[i]->copy(); + flags[i] = clip->flags[i]; + scanners[i] = new SplashXPathScanner(paths[i], flags[i] & splashClipEO); + } +} + +SplashClip::~SplashClip() { + int i; + + for (i = 0; i < length; ++i) { + delete paths[i]; + delete scanners[i]; + } + gfree(paths); + gfree(flags); + gfree(scanners); +} + +void SplashClip::grow(int nPaths) { + if (length + nPaths > size) { + if (size == 0) { + size = 32; + } + while (size < length + nPaths) { + size *= 2; + } + paths = (SplashXPath **)greallocn(paths, size, sizeof(SplashXPath *)); + flags = (Guchar *)greallocn(flags, size, sizeof(Guchar)); + scanners = (SplashXPathScanner **) + greallocn(scanners, size, sizeof(SplashXPathScanner *)); + } +} + +void SplashClip::resetToRect(SplashCoord x0, SplashCoord y0, + SplashCoord x1, SplashCoord y1) { + int i; + + for (i = 0; i < length; ++i) { + delete paths[i]; + delete scanners[i]; + } + gfree(paths); + gfree(flags); + gfree(scanners); + paths = NULL; + flags = NULL; + scanners = NULL; + length = size = 0; + + if (x0 < x1) { + xMin = x0; + xMax = x1; + } else { + xMin = x1; + xMax = x0; + } + if (y0 < y1) { + yMin = y0; + yMax = y1; + } else { + yMin = y1; + yMax = y0; + } + xMinI = splashFloor(xMin); + yMinI = splashFloor(yMin); + xMaxI = splashFloor(xMax); + yMaxI = splashFloor(yMax); +} + +SplashError SplashClip::clipToRect(SplashCoord x0, SplashCoord y0, + SplashCoord x1, SplashCoord y1) { + if (x0 < x1) { + if (x0 > xMin) { + xMin = x0; + xMinI = splashFloor(xMin); + } + if (x1 < xMax) { + xMax = x1; + xMaxI = splashFloor(xMax); + } + } else { + if (x1 > xMin) { + xMin = x1; + xMinI = splashFloor(xMin); + } + if (x0 < xMax) { + xMax = x0; + xMaxI = splashFloor(xMax); + } + } + if (y0 < y1) { + if (y0 > yMin) { + yMin = y0; + yMinI = splashFloor(yMin); + } + if (y1 < yMax) { + yMax = y1; + yMaxI = splashFloor(yMax); + } + } else { + if (y1 > yMin) { + yMin = y1; + yMinI = splashFloor(yMin); + } + if (y0 < yMax) { + yMax = y0; + yMaxI = splashFloor(yMax); + } + } + return splashOk; +} + +SplashError SplashClip::clipToPath(SplashPath *path, SplashCoord *matrix, + SplashCoord flatness, GBool eo) { + SplashXPath *xPath; + + xPath = new SplashXPath(path, matrix, flatness, gTrue); + + // check for an empty path + if (xPath->length == 0) { + xMax = xMin - 1; + yMax = yMin - 1; + xMaxI = splashFloor(xMax); + yMaxI = splashFloor(yMax); + delete xPath; + + // check for a rectangle + } else if (xPath->length == 4 && + ((xPath->segs[0].x0 == xPath->segs[0].x1 && + xPath->segs[0].x0 == xPath->segs[1].x0 && + xPath->segs[0].x0 == xPath->segs[3].x1 && + xPath->segs[2].x0 == xPath->segs[2].x1 && + xPath->segs[2].x0 == xPath->segs[1].x1 && + xPath->segs[2].x0 == xPath->segs[3].x0 && + xPath->segs[1].y0 == xPath->segs[1].y1 && + xPath->segs[1].y0 == xPath->segs[0].y1 && + xPath->segs[1].y0 == xPath->segs[2].y0 && + xPath->segs[3].y0 == xPath->segs[3].y1 && + xPath->segs[3].y0 == xPath->segs[0].y0 && + xPath->segs[3].y0 == xPath->segs[2].y1) || + (xPath->segs[0].y0 == xPath->segs[0].y1 && + xPath->segs[0].y0 == xPath->segs[1].y0 && + xPath->segs[0].y0 == xPath->segs[3].y1 && + xPath->segs[2].y0 == xPath->segs[2].y1 && + xPath->segs[2].y0 == xPath->segs[1].y1 && + xPath->segs[2].y0 == xPath->segs[3].y0 && + xPath->segs[1].x0 == xPath->segs[1].x1 && + xPath->segs[1].x0 == xPath->segs[0].x1 && + xPath->segs[1].x0 == xPath->segs[2].x0 && + xPath->segs[3].x0 == xPath->segs[3].x1 && + xPath->segs[3].x0 == xPath->segs[0].x0 && + xPath->segs[3].x0 == xPath->segs[2].x1))) { + clipToRect(xPath->segs[0].x0, xPath->segs[0].y0, + xPath->segs[2].x0, xPath->segs[2].y0); + delete xPath; + + } else { + grow(1); + if (antialias) { + xPath->aaScale(); + } + xPath->sort(); + paths[length] = xPath; + flags[length] = eo ? splashClipEO : 0; + scanners[length] = new SplashXPathScanner(xPath, eo); + ++length; + } + + return splashOk; +} + +GBool SplashClip::test(int x, int y) { + int i; + + // check the rectangle + if (x < xMinI || x > xMaxI || y < yMinI || y > yMaxI) { + return gFalse; + } + + // check the paths + if (antialias) { + for (i = 0; i < length; ++i) { + if (!scanners[i]->test(x * splashAASize, y * splashAASize)) { + return gFalse; + } + } + } else { + for (i = 0; i < length; ++i) { + if (!scanners[i]->test(x, y)) { + return gFalse; + } + } + } + + return gTrue; +} + +SplashClipResult SplashClip::testRect(int rectXMin, int rectYMin, + int rectXMax, int rectYMax) { + // This tests the rectangle: + // x = [rectXMin, rectXMax + 1) (note: rect coords are ints) + // y = [rectYMin, rectYMax + 1) + // against the clipping region: + // x = [xMin, xMax] (note: clipping coords are fp) + // y = [yMin, yMax] + if ((SplashCoord)(rectXMax + 1) <= xMin || (SplashCoord)rectXMin > xMax || + (SplashCoord)(rectYMax + 1) <= yMin || (SplashCoord)rectYMin > yMax) { + return splashClipAllOutside; + } + if ((SplashCoord)rectXMin >= xMin && (SplashCoord)(rectXMax + 1) <= xMax && + (SplashCoord)rectYMin >= yMin && (SplashCoord)(rectYMax + 1) <= yMax && + length == 0) { + return splashClipAllInside; + } + return splashClipPartial; +} + +SplashClipResult SplashClip::testSpan(int spanXMin, int spanXMax, int spanY) { + int i; + + // This tests the rectangle: + // x = [spanXMin, spanXMax + 1) (note: span coords are ints) + // y = [spanY, spanY + 1) + // against the clipping region: + // x = [xMin, xMax] (note: clipping coords are fp) + // y = [yMin, yMax] + if ((SplashCoord)(spanXMax + 1) <= xMin || (SplashCoord)spanXMin > xMax || + (SplashCoord)(spanY + 1) <= yMin || (SplashCoord)spanY > yMax) { + return splashClipAllOutside; + } + if (!((SplashCoord)spanXMin >= xMin && (SplashCoord)(spanXMax + 1) <= xMax && + (SplashCoord)spanY >= yMin && (SplashCoord)(spanY + 1) <= yMax)) { + return splashClipPartial; + } + if (antialias) { + for (i = 0; i < length; ++i) { + if (!scanners[i]->testSpan(spanXMin * splashAASize, + spanXMax * splashAASize + (splashAASize - 1), + spanY * splashAASize)) { + return splashClipPartial; + } + } + } else { + for (i = 0; i < length; ++i) { + if (!scanners[i]->testSpan(spanXMin, spanXMax, spanY)) { + return splashClipPartial; + } + } + } + return splashClipAllInside; +} + +void SplashClip::clipAALine(SplashBitmap *aaBuf, int *x0, int *x1, int y) { + int xx0, xx1, xx, yy, i; + SplashColorPtr p; + + // zero out pixels with x < xMin + xx0 = *x0 * splashAASize; + xx1 = splashFloor(xMin * splashAASize); + if (xx1 > aaBuf->getWidth()) { + xx1 = aaBuf->getWidth(); + } + if (xx0 < xx1) { + xx0 &= ~7; + for (yy = 0; yy < splashAASize; ++yy) { + p = aaBuf->getDataPtr() + yy * aaBuf->getRowSize() + (xx0 >> 3); + for (xx = xx0; xx + 7 < xx1; xx += 8) { + *p++ = 0; + } + if (xx < xx1) { + *p &= 0xff >> (xx1 & 7); + } + } + *x0 = splashFloor(xMin); + } + + // zero out pixels with x > xMax + xx0 = splashFloor(xMax * splashAASize) + 1; + if (xx0 < 0) { + xx0 = 0; + } + xx1 = (*x1 + 1) * splashAASize; + if (xx0 < xx1) { + for (yy = 0; yy < splashAASize; ++yy) { + p = aaBuf->getDataPtr() + yy * aaBuf->getRowSize() + (xx0 >> 3); + xx = xx0; + if (xx & 7) { + *p &= 0xff00 >> (xx & 7); + xx = (xx & ~7) + 8; + ++p; + } + for (; xx < xx1; xx += 8) { + *p++ = 0; + } + } + *x1 = splashFloor(xMax); + } + + // check the paths + for (i = 0; i < length; ++i) { + scanners[i]->clipAALine(aaBuf, x0, x1, y); + } +} diff --git a/kpdf/xpdf/splash/SplashClip.h b/kpdf/xpdf/splash/SplashClip.h new file mode 100644 index 00000000..8ae2154b --- /dev/null +++ b/kpdf/xpdf/splash/SplashClip.h @@ -0,0 +1,107 @@ +//======================================================================== +// +// SplashClip.h +// +//======================================================================== + +#ifndef SPLASHCLIP_H +#define SPLASHCLIP_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "SplashTypes.h" +#include "SplashMath.h" + +class SplashPath; +class SplashXPath; +class SplashXPathScanner; +class SplashBitmap; + +//------------------------------------------------------------------------ + +enum SplashClipResult { + splashClipAllInside, + splashClipAllOutside, + splashClipPartial +}; + +//------------------------------------------------------------------------ +// SplashClip +//------------------------------------------------------------------------ + +class SplashClip { +public: + + // Create a clip, for the given rectangle. + SplashClip(SplashCoord x0, SplashCoord y0, + SplashCoord x1, SplashCoord y1, + GBool antialiasA); + + // Copy a clip. + SplashClip *copy() { return new SplashClip(this); } + + ~SplashClip(); + + // Reset the clip to a rectangle. + void resetToRect(SplashCoord x0, SplashCoord y0, + SplashCoord x1, SplashCoord y1); + + // Intersect the clip with a rectangle. + SplashError clipToRect(SplashCoord x0, SplashCoord y0, + SplashCoord x1, SplashCoord y1); + + // Interesect the clip with . + SplashError clipToPath(SplashPath *path, SplashCoord *matrix, + SplashCoord flatness, GBool eo); + + // Returns true if (,) is inside the clip. + GBool test(int x, int y); + + // Tests a rectangle against the clipping region. Returns one of: + // - splashClipAllInside if the entire rectangle is inside the + // clipping region, i.e., all pixels in the rectangle are + // visible + // - splashClipAllOutside if the entire rectangle is outside the + // clipping region, i.e., all the pixels in the rectangle are + // clipped + // - splashClipPartial if the rectangle is part inside and part + // outside the clipping region + SplashClipResult testRect(int rectXMin, int rectYMin, + int rectXMax, int rectYMax); + + // Similar to testRect, but tests a horizontal span. + SplashClipResult testSpan(int spanXMin, int spanXMax, int spanY); + + // Clips an anti-aliased line by setting pixels to zero. On entry, + // all non-zero pixels are between and . This function + // will update and . + void clipAALine(SplashBitmap *aaBuf, int *x0, int *x1, int y); + + // Get the rectangle part of the clip region, in integer coordinates. + int getXMinI() { return xMinI; } + int getXMaxI() { return xMaxI; } + int getYMinI() { return yMinI; } + int getYMaxI() { return yMaxI; } + + // Get the number of arbitrary paths used by the clip region. + int getNumPaths() { return length; } + +private: + + SplashClip(SplashClip *clip); + void grow(int nPaths); + + GBool antialias; + SplashCoord xMin, yMin, xMax, yMax; + int xMinI, yMinI, xMaxI, yMaxI; + SplashXPath **paths; + Guchar *flags; + SplashXPathScanner **scanners; + int length, size; +}; + +#endif diff --git a/kpdf/xpdf/splash/SplashErrorCodes.h b/kpdf/xpdf/splash/SplashErrorCodes.h new file mode 100644 index 00000000..e7f1f0b5 --- /dev/null +++ b/kpdf/xpdf/splash/SplashErrorCodes.h @@ -0,0 +1,34 @@ +//======================================================================== +// +// SplashErrorCodes.h +// +//======================================================================== + +#ifndef SPLASHERRORCODES_H +#define SPLASHERRORCODES_H + +#include + +//------------------------------------------------------------------------ + +#define splashOk 0 // no error + +#define splashErrNoCurPt 1 // no current point + +#define splashErrEmptyPath 2 // zero points in path + +#define splashErrBogusPath 3 // only one point in subpath + +#define splashErrNoSave 4 // state stack is empty + +#define splashErrOpenFile 5 // couldn't open file + +#define splashErrNoGlyph 6 // couldn't get the requested glyph + +#define splashErrModeMismatch 7 // invalid combination of color modes + +#define splashErrSingularMatrix 8 // matrix is singular + +#define splashErrZeroImage 9 // image of 0x0 + +#endif diff --git a/kpdf/xpdf/splash/SplashFTFont.cc b/kpdf/xpdf/splash/SplashFTFont.cc new file mode 100644 index 00000000..42d92af4 --- /dev/null +++ b/kpdf/xpdf/splash/SplashFTFont.cc @@ -0,0 +1,375 @@ +//======================================================================== +// +// SplashFTFont.cc +// +//======================================================================== + +#include + +#if HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include FT_OUTLINE_H +#include FT_SIZES_H +#include FT_GLYPH_H +#include "gmem.h" +#include "SplashMath.h" +#include "SplashGlyphBitmap.h" +#include "SplashPath.h" +#include "SplashFTFontEngine.h" +#include "SplashFTFontFile.h" +#include "SplashFTFont.h" + +//------------------------------------------------------------------------ + +static int glyphPathMoveTo(const FT_Vector *pt, void *path); +static int glyphPathLineTo(const FT_Vector *pt, void *path); +static int glyphPathConicTo(const FT_Vector *ctrl, const FT_Vector *pt, + void *path); +static int glyphPathCubicTo(const FT_Vector *ctrl1, const FT_Vector *ctrl2, + const FT_Vector *pt, void *path); + +//------------------------------------------------------------------------ +// SplashFTFont +//------------------------------------------------------------------------ + +SplashFTFont::SplashFTFont(SplashFTFontFile *fontFileA, SplashCoord *matA, + SplashCoord *textMatA): + SplashFont(fontFileA, matA, textMatA, fontFileA->engine->aa) +{ + FT_Face face; + SplashCoord size, div; + int x, y; + + face = fontFileA->face; + if (FT_New_Size(face, &sizeObj)) { + return; + } + face->size = sizeObj; + size = splashSqrt(mat[2]*mat[2] + mat[3]*mat[3]); + if (FT_Set_Pixel_Sizes(face, 0, (int)size)) { + return; + } + // if the textMat values are too small, FreeType's fixed point + // arithmetic doesn't work so well + textScale = splashSqrt(textMat[2]*textMat[2] + textMat[3]*textMat[3]) / size; + + div = face->bbox.xMax > 20000 ? 65536 : 1; + + // transform the four corners of the font bounding box -- the min + // and max values form the bounding box of the transformed font + x = (int)((mat[0] * face->bbox.xMin + mat[2] * face->bbox.yMin) / + (div * face->units_per_EM)); + xMin = xMax = x; + y = (int)((mat[1] * face->bbox.xMin + mat[3] * face->bbox.yMin) / + (div * face->units_per_EM)); + yMin = yMax = y; + x = (int)((mat[0] * face->bbox.xMin + mat[2] * face->bbox.yMax) / + (div * face->units_per_EM)); + if (x < xMin) { + xMin = x; + } else if (x > xMax) { + xMax = x; + } + y = (int)((mat[1] * face->bbox.xMin + mat[3] * face->bbox.yMax) / + (div * face->units_per_EM)); + if (y < yMin) { + yMin = y; + } else if (y > yMax) { + yMax = y; + } + x = (int)((mat[0] * face->bbox.xMax + mat[2] * face->bbox.yMin) / + (div * face->units_per_EM)); + if (x < xMin) { + xMin = x; + } else if (x > xMax) { + xMax = x; + } + y = (int)((mat[1] * face->bbox.xMax + mat[3] * face->bbox.yMin) / + (div * face->units_per_EM)); + if (y < yMin) { + yMin = y; + } else if (y > yMax) { + yMax = y; + } + x = (int)((mat[0] * face->bbox.xMax + mat[2] * face->bbox.yMax) / + (div * face->units_per_EM)); + if (x < xMin) { + xMin = x; + } else if (x > xMax) { + xMax = x; + } + y = (int)((mat[1] * face->bbox.xMax + mat[3] * face->bbox.yMax) / + (div * face->units_per_EM)); + if (y < yMin) { + yMin = y; + } else if (y > yMax) { + yMax = y; + } + // This is a kludge: some buggy PDF generators embed fonts with + // zero bounding boxes. + if (xMax == xMin) { + xMin = 0; + xMax = (int)size; + } + if (yMax == yMin) { + yMin = 0; + yMax = (int)((SplashCoord)1.2 * size); + } + + // compute the transform matrix +#if USE_FIXEDPOINT + matrix.xx = (FT_Fixed)((mat[0] / size).getRaw()); + matrix.yx = (FT_Fixed)((mat[1] / size).getRaw()); + matrix.xy = (FT_Fixed)((mat[2] / size).getRaw()); + matrix.yy = (FT_Fixed)((mat[3] / size).getRaw()); + textMatrix.xx = (FT_Fixed)((textMat[0] / (size * textScale)).getRaw()); + textMatrix.yx = (FT_Fixed)((textMat[1] / (size * textScale)).getRaw()); + textMatrix.xy = (FT_Fixed)((textMat[2] / (size * textScale)).getRaw()); + textMatrix.yy = (FT_Fixed)((textMat[3] / (size * textScale)).getRaw()); +#else + matrix.xx = (FT_Fixed)((mat[0] / size) * 65536); + matrix.yx = (FT_Fixed)((mat[1] / size) * 65536); + matrix.xy = (FT_Fixed)((mat[2] / size) * 65536); + matrix.yy = (FT_Fixed)((mat[3] / size) * 65536); + textMatrix.xx = (FT_Fixed)((textMat[0] / (size * textScale)) * 65536); + textMatrix.yx = (FT_Fixed)((textMat[1] / (size * textScale)) * 65536); + textMatrix.xy = (FT_Fixed)((textMat[2] / (size * textScale)) * 65536); + textMatrix.yy = (FT_Fixed)((textMat[3] / (size * textScale)) * 65536); +#endif +} + +SplashFTFont::~SplashFTFont() { +} + +GBool SplashFTFont::getGlyph(int c, int xFrac, int /*yFrac*/, + SplashGlyphBitmap *bitmap, int x0, int y0, SplashClip *clip, SplashClipResult *clipRes) { + return SplashFont::getGlyph(c, xFrac, 0, bitmap, x0, y0, clip, clipRes); +} + +GBool SplashFTFont::makeGlyph(int c, int xFrac, int /*yFrac*/, + SplashGlyphBitmap *bitmap, int x0, int y0, SplashClip *clip, SplashClipResult *clipRes) { + SplashFTFontFile *ff; + FT_Vector offset; + FT_GlyphSlot slot; + FT_UInt gid; + int rowSize; + Guchar *p, *q; + int i; + + ff = (SplashFTFontFile *)fontFile; + + ff->face->size = sizeObj; + offset.x = (FT_Pos)(int)((SplashCoord)xFrac * splashFontFractionMul * 64); + offset.y = 0; + FT_Set_Transform(ff->face, &matrix, &offset); + slot = ff->face->glyph; + + if (ff->codeToGID && c < ff->codeToGIDLen) { + gid = (FT_UInt)ff->codeToGID[c]; + } else { + gid = (FT_UInt)c; + } + if (ff->trueType && gid == 0) { + // skip the TrueType notdef glyph + return gFalse; + } + + // if we have the FT2 bytecode interpreter, autohinting won't be used +#ifdef TT_CONFIG_OPTION_BYTECODE_INTERPRETER + if (FT_Load_Glyph(ff->face, gid, + aa ? FT_LOAD_NO_BITMAP : FT_LOAD_DEFAULT)) { + return gFalse; + } +#else + // FT2's autohinting doesn't always work very well (especially with + // font subsets), so turn it off if anti-aliasing is enabled; if + // anti-aliasing is disabled, this seems to be a tossup - some fonts + // look better with hinting, some without, so leave hinting on + if (FT_Load_Glyph(ff->face, gid, + aa ? FT_LOAD_NO_HINTING | FT_LOAD_NO_BITMAP + : FT_LOAD_DEFAULT)) { + return gFalse; + } +#endif + + FT_Glyph_Metrics *glyphMetrics = &(ff->face->glyph->metrics); + // prelimirary values from FT_Glyph_Metrics + bitmap->x = splashRound(-glyphMetrics->horiBearingX / 64.0); + bitmap->y = splashRound(glyphMetrics->horiBearingY / 64.0); + bitmap->w = splashRound(glyphMetrics->width / 64.0); + bitmap->h = splashRound(glyphMetrics->height / 64.0); + + *clipRes = clip->testRect(x0 - bitmap->x, + y0 - bitmap->y, + x0 - bitmap->x + bitmap->w - 1, + y0 - bitmap->y + bitmap->h - 1); + if (*clipRes == splashClipAllOutside) + { + bitmap->freeData = gFalse; + return gTrue; + } + + if (FT_Render_Glyph(slot, aa ? ft_render_mode_normal + : ft_render_mode_mono)) { + return gFalse; + } + + bitmap->x = -slot->bitmap_left; + bitmap->y = slot->bitmap_top; + bitmap->w = slot->bitmap.width; + bitmap->h = slot->bitmap.rows; + bitmap->aa = aa; + if (aa) { + rowSize = bitmap->w; + } else { + rowSize = (bitmap->w + 7) >> 3; + } + bitmap->data = (Guchar *)gmalloc(rowSize * bitmap->h); + bitmap->freeData = gTrue; + for (i = 0, p = bitmap->data, q = slot->bitmap.buffer; + i < bitmap->h; + ++i, p += rowSize, q += slot->bitmap.pitch) { + memcpy(p, q, rowSize); + } + + return gTrue; +} + +struct SplashFTFontPath { + SplashPath *path; + SplashCoord textScale; + GBool needClose; +}; + +SplashPath *SplashFTFont::getGlyphPath(int c) { + static FT_Outline_Funcs outlineFuncs = { +#if FREETYPE_MINOR <= 1 + (int (*)(FT_Vector *, void *))&glyphPathMoveTo, + (int (*)(FT_Vector *, void *))&glyphPathLineTo, + (int (*)(FT_Vector *, FT_Vector *, void *))&glyphPathConicTo, + (int (*)(FT_Vector *, FT_Vector *, FT_Vector *, void *))&glyphPathCubicTo, +#else + &glyphPathMoveTo, + &glyphPathLineTo, + &glyphPathConicTo, + &glyphPathCubicTo, +#endif + 0, 0 + }; + SplashFTFontFile *ff; + SplashFTFontPath path; + FT_GlyphSlot slot; + FT_UInt gid; + FT_Glyph glyph; + + ff = (SplashFTFontFile *)fontFile; + ff->face->size = sizeObj; + FT_Set_Transform(ff->face, &textMatrix, NULL); + slot = ff->face->glyph; + if (ff->codeToGID && c < ff->codeToGIDLen) { + gid = ff->codeToGID[c]; + } else { + gid = (FT_UInt)c; + } + if (ff->trueType && gid == 0) { + // skip the TrueType notdef glyph + return NULL; + } + if (FT_Load_Glyph(ff->face, gid, FT_LOAD_NO_BITMAP)) { + return NULL; + } + if (FT_Get_Glyph(slot, &glyph)) { + return NULL; + } + path.path = new SplashPath(); + path.textScale = textScale; + path.needClose = gFalse; + FT_Outline_Decompose(&((FT_OutlineGlyph)glyph)->outline, + &outlineFuncs, &path); + if (path.needClose) { + path.path->close(); + } + FT_Done_Glyph(glyph); + return path.path; +} + +static int glyphPathMoveTo(const FT_Vector *pt, void *path) { + SplashFTFontPath *p = (SplashFTFontPath *)path; + + if (p->needClose) { + p->path->close(); + p->needClose = gFalse; + } + p->path->moveTo((SplashCoord)pt->x * p->textScale / 64.0, + (SplashCoord)pt->y * p->textScale / 64.0); + return 0; +} + +static int glyphPathLineTo(const FT_Vector *pt, void *path) { + SplashFTFontPath *p = (SplashFTFontPath *)path; + + p->path->lineTo((SplashCoord)pt->x * p->textScale / 64.0, + (SplashCoord)pt->y * p->textScale / 64.0); + p->needClose = gTrue; + return 0; +} + +static int glyphPathConicTo(const FT_Vector *ctrl, const FT_Vector *pt, + void *path) { + SplashFTFontPath *p = (SplashFTFontPath *)path; + SplashCoord x0, y0, x1, y1, x2, y2, x3, y3, xc, yc; + + if (!p->path->getCurPt(&x0, &y0)) { + return 0; + } + xc = (SplashCoord)ctrl->x * p->textScale / 64.0; + yc = (SplashCoord)ctrl->y * p->textScale / 64.0; + x3 = (SplashCoord)pt->x * p->textScale / 64.0; + y3 = (SplashCoord)pt->y * p->textScale / 64.0; + + // A second-order Bezier curve is defined by two endpoints, p0 and + // p3, and one control point, pc: + // + // p(t) = (1-t)^2*p0 + t*(1-t)*pc + t^2*p3 + // + // A third-order Bezier curve is defined by the same two endpoints, + // p0 and p3, and two control points, p1 and p2: + // + // p(t) = (1-t)^3*p0 + 3t*(1-t)^2*p1 + 3t^2*(1-t)*p2 + t^3*p3 + // + // Applying some algebra, we can convert a second-order curve to a + // third-order curve: + // + // p1 = (1/3) * (p0 + 2pc) + // p2 = (1/3) * (2pc + p3) + + x1 = (SplashCoord)(1.0 / 3.0) * (x0 + (SplashCoord)2 * xc); + y1 = (SplashCoord)(1.0 / 3.0) * (y0 + (SplashCoord)2 * yc); + x2 = (SplashCoord)(1.0 / 3.0) * ((SplashCoord)2 * xc + x3); + y2 = (SplashCoord)(1.0 / 3.0) * ((SplashCoord)2 * yc + y3); + + p->path->curveTo(x1, y1, x2, y2, x3, y3); + p->needClose = gTrue; + return 0; +} + +static int glyphPathCubicTo(const FT_Vector *ctrl1, const FT_Vector *ctrl2, + const FT_Vector *pt, void *path) { + SplashFTFontPath *p = (SplashFTFontPath *)path; + + p->path->curveTo((SplashCoord)ctrl1->x * p->textScale / 64.0, + (SplashCoord)ctrl1->y * p->textScale / 64.0, + (SplashCoord)ctrl2->x * p->textScale / 64.0, + (SplashCoord)ctrl2->y * p->textScale / 64.0, + (SplashCoord)pt->x * p->textScale / 64.0, + (SplashCoord)pt->y * p->textScale / 64.0); + p->needClose = gTrue; + return 0; +} + +#endif // HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H diff --git a/kpdf/xpdf/splash/SplashFTFont.h b/kpdf/xpdf/splash/SplashFTFont.h new file mode 100644 index 00000000..e014ba3f --- /dev/null +++ b/kpdf/xpdf/splash/SplashFTFont.h @@ -0,0 +1,58 @@ +//======================================================================== +// +// SplashFTFont.h +// +//======================================================================== + +#ifndef SPLASHFTFONT_H +#define SPLASHFTFONT_H + +#include + +#if HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include +#include FT_FREETYPE_H +#include "SplashFont.h" + +class SplashFTFontFile; + +//------------------------------------------------------------------------ +// SplashFTFont +//------------------------------------------------------------------------ + +class SplashFTFont: public SplashFont { +public: + + SplashFTFont(SplashFTFontFile *fontFileA, SplashCoord *matA, + SplashCoord *textMatA); + + virtual ~SplashFTFont(); + + // Munge xFrac and yFrac before calling SplashFont::getGlyph. + virtual GBool getGlyph(int c, int xFrac, int yFrac, + SplashGlyphBitmap *bitmap, int x0, int y0, SplashClip *clip, SplashClipResult *clipRes); + + // Rasterize a glyph. The and values are the same + // as described for getGlyph. + virtual GBool makeGlyph(int c, int xFrac, int yFrac, + SplashGlyphBitmap *bitmap, int x0, int y0, SplashClip *clip, SplashClipResult *clipRes); + + // Return the path for a glyph. + virtual SplashPath *getGlyphPath(int c); + +private: + + FT_Size sizeObj; + FT_Matrix matrix; + FT_Matrix textMatrix; + SplashCoord textScale; +}; + +#endif // HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H + +#endif diff --git a/kpdf/xpdf/splash/SplashFTFontEngine.cc b/kpdf/xpdf/splash/SplashFTFontEngine.cc new file mode 100644 index 00000000..02996de7 --- /dev/null +++ b/kpdf/xpdf/splash/SplashFTFontEngine.cc @@ -0,0 +1,194 @@ +//======================================================================== +// +// SplashFTFontEngine.cc +// +//======================================================================== + +#include + +#if HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#ifndef WIN32 +# include +#endif +#include "gmem.h" +#include "GString.h" +#include "gfile.h" +#include "FoFiTrueType.h" +#include "FoFiType1C.h" +#include "SplashFTFontFile.h" +#include "SplashFTFontEngine.h" + +#ifdef VMS +#if (__VMS_VER < 70000000) +extern "C" int unlink(char *filename); +#endif +#endif + +//------------------------------------------------------------------------ +/* +static void fileWrite(void *stream, char *data, int len) { + fwrite(data, 1, len, (FILE *)stream); +} +*/ + +//------------------------------------------------------------------------ +// SplashFTFontEngine +//------------------------------------------------------------------------ + +SplashFTFontEngine::SplashFTFontEngine(GBool aaA, FT_Library libA) { + FT_Int major, minor, patch; + + aa = aaA; + lib = libA; + + // as of FT 2.1.8, CID fonts are indexed by CID instead of GID + FT_Library_Version(lib, &major, &minor, &patch); + useCIDs = major > 2 || + (major == 2 && (minor > 1 || (minor == 1 && patch > 7))); +} + +SplashFTFontEngine *SplashFTFontEngine::init(GBool aaA) { + FT_Library libA; + + if (FT_Init_FreeType(&libA)) { + return NULL; + } + return new SplashFTFontEngine(aaA, libA); +} + +SplashFTFontEngine::~SplashFTFontEngine() { + FT_Done_FreeType(lib); +} + +SplashFontFile *SplashFTFontEngine::loadType1Font(SplashFontFileID *idA, + SplashFontSrc *src, + char **enc) { + return SplashFTFontFile::loadType1Font(this, idA, src, enc); +} + +SplashFontFile *SplashFTFontEngine::loadType1CFont(SplashFontFileID *idA, + SplashFontSrc *src, + char **enc) { + return SplashFTFontFile::loadType1Font(this, idA, src, enc); +} + +SplashFontFile *SplashFTFontEngine::loadOpenTypeT1CFont(SplashFontFileID *idA, + SplashFontSrc *src, + char **enc) { + return SplashFTFontFile::loadType1Font(this, idA, src, enc); +} + +SplashFontFile *SplashFTFontEngine::loadCIDFont(SplashFontFileID *idA, + SplashFontSrc *src) { + FoFiType1C *ff; + Gushort *cidToGIDMap; + int nCIDs; + SplashFontFile *ret; + + // check for a CFF font + if (useCIDs) { + cidToGIDMap = NULL; + nCIDs = 0; + } else { + if (src->isFile) { + ff = FoFiType1C::load(src->fileName->getCString()); + } else { + ff = FoFiType1C::make(src->buf, src->bufLen); + } + if (ff) { + cidToGIDMap = ff->getCIDToGIDMap(&nCIDs); + delete ff; + } else { + cidToGIDMap = NULL; + nCIDs = 0; + } + } + ret = SplashFTFontFile::loadCIDFont(this, idA, src, cidToGIDMap, nCIDs); + if (!ret) { + gfree(cidToGIDMap); + } + return ret; +} + +SplashFontFile *SplashFTFontEngine::loadOpenTypeCFFFont(SplashFontFileID *idA, + SplashFontSrc *src) { + FoFiTrueType *ff; + GBool isCID; + Gushort *cidToGIDMap; + int nCIDs; + SplashFontFile *ret; + + cidToGIDMap = NULL; + nCIDs = 0; + isCID = gFalse; + if (!useCIDs) { + if (src->isFile) { + ff = FoFiTrueType::load(src->fileName->getCString()); + } else { + ff = FoFiTrueType::make(src->buf, src->bufLen); + } + if (ff) { + if (ff->isOpenTypeCFF()) { + cidToGIDMap = ff->getCIDToGIDMap(&nCIDs); + } + delete ff; + } + } + ret = SplashFTFontFile::loadCIDFont(this, idA, src, + cidToGIDMap, nCIDs); + if (!ret) { + gfree(cidToGIDMap); + } + return ret; +} + +SplashFontFile *SplashFTFontEngine::loadTrueTypeFont(SplashFontFileID *idA, + SplashFontSrc *src, + Gushort *codeToGID, + int codeToGIDLen, + int faceIndex) { +#if 0 + FoFiTrueType *ff; + GString *tmpFileName; + FILE *tmpFile; + SplashFontFile *ret; + + if (!(ff = FoFiTrueType::load(fileName))) { + return NULL; + } + tmpFileName = NULL; + if (!openTempFile(&tmpFileName, &tmpFile, "wb", NULL)) { + delete ff; + return NULL; + } + ff->writeTTF(&fileWrite, tmpFile); + delete ff; + fclose(tmpFile); + ret = SplashFTFontFile::loadTrueTypeFont(this, idA, + tmpFileName->getCString(), + gTrue, codeToGID, codeToGIDLen); + if (ret) { + if (deleteFile) { + unlink(fileName); + } + } else { + unlink(tmpFileName->getCString()); + } + delete tmpFileName; + return ret; +#else + SplashFontFile *ret; + ret = SplashFTFontFile::loadTrueTypeFont(this, idA, src, + codeToGID, codeToGIDLen, + faceIndex); + return ret; +#endif +} + +#endif // HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H diff --git a/kpdf/xpdf/splash/SplashFTFontEngine.h b/kpdf/xpdf/splash/SplashFTFontEngine.h new file mode 100644 index 00000000..294d20c6 --- /dev/null +++ b/kpdf/xpdf/splash/SplashFTFontEngine.h @@ -0,0 +1,60 @@ +//======================================================================== +// +// SplashFTFontEngine.h +// +//======================================================================== + +#ifndef SPLASHFTFONTENGINE_H +#define SPLASHFTFONTENGINE_H + +#include + +#if HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include +#include FT_FREETYPE_H +#include "gtypes.h" + +class SplashFontFile; +class SplashFontFileID; +class SplashFontSrc; + +//------------------------------------------------------------------------ +// SplashFTFontEngine +//------------------------------------------------------------------------ + +class SplashFTFontEngine { +public: + + static SplashFTFontEngine *init(GBool aaA); + + ~SplashFTFontEngine(); + + // Load fonts. + SplashFontFile *loadType1Font(SplashFontFileID *idA, SplashFontSrc *src, char **enc); + SplashFontFile *loadType1CFont(SplashFontFileID *idA, SplashFontSrc *src, char **enc); + SplashFontFile *loadOpenTypeT1CFont(SplashFontFileID *idA, SplashFontSrc *src, char **enc); + SplashFontFile *loadCIDFont(SplashFontFileID *idA, SplashFontSrc *src); + SplashFontFile *loadOpenTypeCFFFont(SplashFontFileID *idA, SplashFontSrc *src); + SplashFontFile *loadTrueTypeFont(SplashFontFileID *idA, SplashFontSrc *src, + Gushort *codeToGID, int codeToGIDLen, int faceIndex = 0); + +private: + + SplashFTFontEngine(GBool aaA, FT_Library libA); + + GBool aa; + FT_Library lib; + GBool useCIDs; + + friend class SplashFTFontFile; + friend class SplashFTFont; +}; + +#endif // HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H + +#endif diff --git a/kpdf/xpdf/splash/SplashFTFontFile.cc b/kpdf/xpdf/splash/SplashFTFontFile.cc new file mode 100644 index 00000000..12725497 --- /dev/null +++ b/kpdf/xpdf/splash/SplashFTFontFile.cc @@ -0,0 +1,125 @@ +//======================================================================== +// +// SplashFTFontFile.cc +// +//======================================================================== + +#include + +#if HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include "gmem.h" +#include "SplashFTFontEngine.h" +#include "SplashFTFont.h" +#include "SplashFTFontFile.h" +#include "GString.h" + +//------------------------------------------------------------------------ +// SplashFTFontFile +//------------------------------------------------------------------------ + +SplashFontFile *SplashFTFontFile::loadType1Font(SplashFTFontEngine *engineA, + SplashFontFileID *idA, + SplashFontSrc *src, + char **encA) { + FT_Face faceA; + Gushort *codeToGIDA; + char *name; + int i; + + if (src->isFile) { + if (FT_New_Face(engineA->lib, src->fileName->getCString(), 0, &faceA)) + return NULL; + } else { + if (FT_New_Memory_Face(engineA->lib, (const FT_Byte *)src->buf, src->bufLen, 0, &faceA)) + return NULL; + } + codeToGIDA = (Gushort *)gmallocn(256, sizeof(int)); + for (i = 0; i < 256; ++i) { + codeToGIDA[i] = 0; + if ((name = encA[i])) { + codeToGIDA[i] = (Gushort)FT_Get_Name_Index(faceA, name); + } + } + + return new SplashFTFontFile(engineA, idA, src, + faceA, codeToGIDA, 256, gFalse); +} + +SplashFontFile *SplashFTFontFile::loadCIDFont(SplashFTFontEngine *engineA, + SplashFontFileID *idA, + SplashFontSrc *src, + Gushort *codeToGIDA, + int codeToGIDLenA) { + FT_Face faceA; + + if (src->isFile) { + if (FT_New_Face(engineA->lib, src->fileName->getCString(), 0, &faceA)) + return NULL; + } else { + if (FT_New_Memory_Face(engineA->lib, (const FT_Byte *)src->buf, src->bufLen, 0, &faceA)) + return NULL; + } + + return new SplashFTFontFile(engineA, idA, src, + faceA, codeToGIDA, codeToGIDLenA, gFalse); +} + +SplashFontFile *SplashFTFontFile::loadTrueTypeFont(SplashFTFontEngine *engineA, + SplashFontFileID *idA, + SplashFontSrc *src, + Gushort *codeToGIDA, + int codeToGIDLenA, + int faceIndexA) { + FT_Face faceA; + + if (src->isFile) { + if (FT_New_Face(engineA->lib, src->fileName->getCString(), faceIndexA, &faceA)) + return NULL; + } else { + if (FT_New_Memory_Face(engineA->lib, (const FT_Byte *)src->buf, src->bufLen, faceIndexA, &faceA)) + return NULL; + } + + return new SplashFTFontFile(engineA, idA, src, + faceA, codeToGIDA, codeToGIDLenA, gTrue); +} + +SplashFTFontFile::SplashFTFontFile(SplashFTFontEngine *engineA, + SplashFontFileID *idA, + SplashFontSrc *src, + FT_Face faceA, + Gushort *codeToGIDA, int codeToGIDLenA, + GBool trueTypeA): + SplashFontFile(idA, src) +{ + engine = engineA; + face = faceA; + codeToGID = codeToGIDA; + codeToGIDLen = codeToGIDLenA; + trueType = trueTypeA; +} + +SplashFTFontFile::~SplashFTFontFile() { + if (face) { + FT_Done_Face(face); + } + if (codeToGID) { + gfree(codeToGID); + } +} + +SplashFont *SplashFTFontFile::makeFont(SplashCoord *mat, + SplashCoord *textMat) { + SplashFont *font; + + font = new SplashFTFont(this, mat, textMat); + font->initCache(); + return font; +} + +#endif // HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H diff --git a/kpdf/xpdf/splash/SplashFTFontFile.h b/kpdf/xpdf/splash/SplashFTFontFile.h new file mode 100644 index 00000000..dedc25cf --- /dev/null +++ b/kpdf/xpdf/splash/SplashFTFontFile.h @@ -0,0 +1,72 @@ +//======================================================================== +// +// SplashFTFontFile.h +// +//======================================================================== + +#ifndef SPLASHFTFONTFILE_H +#define SPLASHFTFONTFILE_H + +#include + +#if HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include +#include FT_FREETYPE_H +#include "SplashFontFile.h" + +class SplashFontFileID; +class SplashFTFontEngine; + +//------------------------------------------------------------------------ +// SplashFTFontFile +//------------------------------------------------------------------------ + +class SplashFTFontFile: public SplashFontFile { +public: + + static SplashFontFile *loadType1Font(SplashFTFontEngine *engineA, + SplashFontFileID *idA, SplashFontSrc *src, + char **encA); + static SplashFontFile *loadCIDFont(SplashFTFontEngine *engineA, + SplashFontFileID *idA, SplashFontSrc *src, + Gushort *codeToCIDA, int codeToGIDLenA); + static SplashFontFile *loadTrueTypeFont(SplashFTFontEngine *engineA, + SplashFontFileID *idA, + SplashFontSrc *src, + Gushort *codeToGIDA, + int codeToGIDLenA, + int faceIndexA=0); + + virtual ~SplashFTFontFile(); + + // Create a new SplashFTFont, i.e., a scaled instance of this font + // file. + virtual SplashFont *makeFont(SplashCoord *mat, + SplashCoord *textMat); + +private: + + SplashFTFontFile(SplashFTFontEngine *engineA, + SplashFontFileID *idA, + SplashFontSrc *src, + FT_Face faceA, + Gushort *codeToGIDA, int codeToGIDLenA, + GBool trueTypeA); + + SplashFTFontEngine *engine; + FT_Face face; + Gushort *codeToGID; + int codeToGIDLen; + GBool trueType; + + friend class SplashFTFont; +}; + +#endif // HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H + +#endif diff --git a/kpdf/xpdf/splash/SplashFont.cc b/kpdf/xpdf/splash/SplashFont.cc new file mode 100644 index 00000000..4a91d5e8 --- /dev/null +++ b/kpdf/xpdf/splash/SplashFont.cc @@ -0,0 +1,201 @@ +//======================================================================== +// +// SplashFont.cc +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include "gmem.h" +#include "SplashMath.h" +#include "SplashGlyphBitmap.h" +#include "SplashFontFile.h" +#include "SplashFont.h" + +//------------------------------------------------------------------------ + +struct SplashFontCacheTag { + int c; + short xFrac, yFrac; // x and y fractions + int mru; // valid bit (0x80000000) and MRU index + int x, y, w, h; // offset and size of glyph +}; + +//------------------------------------------------------------------------ +// SplashFont +//------------------------------------------------------------------------ + +SplashFont::SplashFont(SplashFontFile *fontFileA, SplashCoord *matA, + SplashCoord *textMatA, GBool aaA) { + fontFile = fontFileA; + fontFile->incRefCnt(); + mat[0] = matA[0]; + mat[1] = matA[1]; + mat[2] = matA[2]; + mat[3] = matA[3]; + textMat[0] = textMatA[0]; + textMat[1] = textMatA[1]; + textMat[2] = textMatA[2]; + textMat[3] = textMatA[3]; + aa = aaA; + + cache = NULL; + cacheTags = NULL; + + xMin = yMin = xMax = yMax = 0; +} + +void SplashFont::initCache() { + int i; + + // this should be (max - min + 1), but we add some padding to + // deal with rounding errors + glyphW = xMax - xMin + 3; + glyphH = yMax - yMin + 3; + if (aa) { + glyphSize = glyphW * glyphH; + } else { + glyphSize = ((glyphW + 7) >> 3) * glyphH; + } + + // set up the glyph pixmap cache + cacheAssoc = 8; + if (glyphSize <= 256) { + cacheSets = 8; + } else if (glyphSize <= 512) { + cacheSets = 4; + } else if (glyphSize <= 1024) { + cacheSets = 2; + } else { + cacheSets = 1; + } + cache = (Guchar *)gmallocn_checkoverflow(cacheSets * cacheAssoc, glyphSize); + if (cache != NULL) { + cacheTags = (SplashFontCacheTag *)gmallocn(cacheSets * cacheAssoc, + sizeof(SplashFontCacheTag)); + for (i = 0; i < cacheSets * cacheAssoc; ++i) { + cacheTags[i].mru = i & (cacheAssoc - 1); + } + } else { + cacheAssoc = 0; + } +} + +SplashFont::~SplashFont() { + fontFile->decRefCnt(); + if (cache) { + gfree(cache); + } + if (cacheTags) { + gfree(cacheTags); + } +} + +GBool SplashFont::getGlyph(int c, int xFrac, int yFrac, + SplashGlyphBitmap *bitmap, int x0, int y0, SplashClip *clip, SplashClipResult *clipRes) { + SplashGlyphBitmap bitmap2; + int size; + Guchar *p; + int i, j, k; + + // no fractional coordinates for large glyphs or non-anti-aliased + // glyphs + if (!aa || glyphH > 50) { + xFrac = yFrac = 0; + } + + // check the cache + i = (c & (cacheSets - 1)) * cacheAssoc; + for (j = 0; j < cacheAssoc; ++j) { + if ((cacheTags[i+j].mru & 0x80000000) && + cacheTags[i+j].c == c && + (int)cacheTags[i+j].xFrac == xFrac && + (int)cacheTags[i+j].yFrac == yFrac) { + bitmap->x = cacheTags[i+j].x; + bitmap->y = cacheTags[i+j].y; + bitmap->w = cacheTags[i+j].w; + bitmap->h = cacheTags[i+j].h; + for (k = 0; k < cacheAssoc; ++k) { + if (k != j && + (cacheTags[i+k].mru & 0x7fffffff) < + (cacheTags[i+j].mru & 0x7fffffff)) { + ++cacheTags[i+k].mru; + } + } + cacheTags[i+j].mru = 0x80000000; + bitmap->aa = aa; + bitmap->data = cache + (i+j) * glyphSize; + bitmap->freeData = gFalse; + + *clipRes = clip->testRect(x0 - bitmap->x, + y0 - bitmap->y, + x0 - bitmap->x + bitmap->w - 1, + y0 - bitmap->y + bitmap->h - 1); + + return gTrue; + } + } + + // generate the glyph bitmap + if (!makeGlyph(c, xFrac, yFrac, &bitmap2, x0, y0, clip, clipRes)) { + return gFalse; + } + + if (*clipRes == splashClipAllOutside) + { + bitmap->freeData = gFalse; + if (bitmap2.freeData) gfree(bitmap2.data); + return gTrue; + } + + // if the glyph doesn't fit in the bounding box, return a temporary + // uncached bitmap + if (bitmap2.w > glyphW || bitmap2.h > glyphH) { + *bitmap = bitmap2; + return gTrue; + } + + // insert glyph pixmap in cache + if (aa) { + size = bitmap2.w * bitmap2.h; + } else { + size = ((bitmap2.w + 7) >> 3) * bitmap2.h; + } + p = NULL; // make gcc happy + if (cacheAssoc == 0) + { + // we had problems on the malloc of the cache, so ignore it + *bitmap = bitmap2; + } + else + { + for (j = 0; j < cacheAssoc; ++j) { + if ((cacheTags[i+j].mru & 0x7fffffff) == cacheAssoc - 1) { + cacheTags[i+j].mru = 0x80000000; + cacheTags[i+j].c = c; + cacheTags[i+j].xFrac = (short)xFrac; + cacheTags[i+j].yFrac = (short)yFrac; + cacheTags[i+j].x = bitmap2.x; + cacheTags[i+j].y = bitmap2.y; + cacheTags[i+j].w = bitmap2.w; + cacheTags[i+j].h = bitmap2.h; + p = cache + (i+j) * glyphSize; + memcpy(p, bitmap2.data, size); + } else { + ++cacheTags[i+j].mru; + } + } + *bitmap = bitmap2; + bitmap->data = p; + bitmap->freeData = gFalse; + if (bitmap2.freeData) { + gfree(bitmap2.data); + } + } + return gTrue; +} diff --git a/kpdf/xpdf/splash/SplashFont.h b/kpdf/xpdf/splash/SplashFont.h new file mode 100644 index 00000000..82ee0370 --- /dev/null +++ b/kpdf/xpdf/splash/SplashFont.h @@ -0,0 +1,105 @@ +//======================================================================== +// +// SplashFont.h +// +//======================================================================== + +#ifndef SPLASHFONT_H +#define SPLASHFONT_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" +#include "SplashTypes.h" +#include "SplashClip.h" + +struct SplashGlyphBitmap; +struct SplashFontCacheTag; +class SplashFontFile; +class SplashPath; + +//------------------------------------------------------------------------ + +// Fractional positioning uses this many bits to the right of the +// decimal points. +#define splashFontFractionBits 2 +#define splashFontFraction (1 << splashFontFractionBits) +#define splashFontFractionMul \ + ((SplashCoord)1 / (SplashCoord)splashFontFraction) + +//------------------------------------------------------------------------ +// SplashFont +//------------------------------------------------------------------------ + +class SplashFont { +public: + + SplashFont(SplashFontFile *fontFileA, SplashCoord *matA, + SplashCoord *textMatA, GBool aaA); + + // This must be called after the constructor, so that the subclass + // constructor has a chance to compute the bbox. + void initCache(); + + virtual ~SplashFont(); + + SplashFontFile *getFontFile() { return fontFile; } + + // Return true if matches the specified font file and matrix. + GBool matches(SplashFontFile *fontFileA, SplashCoord *matA, + SplashCoord *textMatA) { + return fontFileA == fontFile && + matA[0] == mat[0] && matA[1] == mat[1] && + matA[2] == mat[2] && matA[3] == mat[3] && + textMatA[0] == textMat[0] && textMatA[1] == textMat[1] && + textMatA[2] == textMat[2] && textMatA[3] == textMat[3]; + } + + // Get a glyph - this does a cache lookup first, and if not found, + // creates a new bitmap and adds it to the cache. The and + // values are splashFontFractionBits bits each, representing + // the numerators of fractions in [0, 1), where the denominator is + // splashFontFraction = 1 << splashFontFractionBits. Subclasses + // should override this to zero out xFrac and/or yFrac if they don't + // support fractional coordinates. + virtual GBool getGlyph(int c, int xFrac, int yFrac, + SplashGlyphBitmap *bitmap, int x0, int y0, SplashClip *clip, SplashClipResult *clipRes); + + // Rasterize a glyph. The and values are the same + // as described for getGlyph. + virtual GBool makeGlyph(int c, int xFrac, int yFrac, + SplashGlyphBitmap *bitmap, int x0, int y0, SplashClip *clip, SplashClipResult *clipRes) = 0; + + // Return the path for a glyph. + virtual SplashPath *getGlyphPath(int c) = 0; + + // Return the font transform matrix. + SplashCoord *getMatrix() { return mat; } + + // Return the glyph bounding box. + void getBBox(int *xMinA, int *yMinA, int *xMaxA, int *yMaxA) + { *xMinA = xMin; *yMinA = yMin; *xMaxA = xMax; *yMaxA = yMax; } + +protected: + + SplashFontFile *fontFile; + SplashCoord mat[4]; // font transform matrix + // (text space -> device space) + SplashCoord textMat[4]; // text transform matrix + // (text space -> user space) + GBool aa; // anti-aliasing + int xMin, yMin, xMax, yMax; // glyph bounding box + Guchar *cache; // glyph bitmap cache + SplashFontCacheTag * // cache tags + cacheTags; + int glyphW, glyphH; // size of glyph bitmaps + int glyphSize; // size of glyph bitmaps, in bytes + int cacheSets; // number of sets in cache + int cacheAssoc; // cache associativity (glyphs per set) +}; + +#endif diff --git a/kpdf/xpdf/splash/SplashFontEngine.cc b/kpdf/xpdf/splash/SplashFontEngine.cc new file mode 100644 index 00000000..4dc1b35b --- /dev/null +++ b/kpdf/xpdf/splash/SplashFontEngine.cc @@ -0,0 +1,295 @@ +//======================================================================== +// +// SplashFontEngine.cc +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#if HAVE_T1LIB_H +#include +#endif + +#include +#include +#ifndef WIN32 +# include +#endif +#include "gmem.h" +#include "GString.h" +#include "SplashMath.h" +#include "SplashT1FontEngine.h" +#include "SplashFTFontEngine.h" +#include "SplashFontFile.h" +#include "SplashFontFileID.h" +#include "SplashFont.h" +#include "SplashFontEngine.h" + +#ifdef VMS +#if (__VMS_VER < 70000000) +extern "C" int unlink(char *filename); +#endif +#endif + +//------------------------------------------------------------------------ +// SplashFontEngine +//------------------------------------------------------------------------ + +SplashFontEngine::SplashFontEngine( +#if HAVE_T1LIB_H + GBool enableT1lib, +#endif +#if HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H + GBool enableFreeType, +#endif + GBool aa) { + int i; + + for (i = 0; i < splashFontCacheSize; ++i) { + fontCache[i] = NULL; + } + +#if HAVE_T1LIB_H + if (enableT1lib) { + t1Engine = SplashT1FontEngine::init(aa); + } else { + t1Engine = NULL; + } +#endif +#if HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H + if (enableFreeType) { + ftEngine = SplashFTFontEngine::init(aa); + } else { + ftEngine = NULL; + } +#endif +} + +SplashFontEngine::~SplashFontEngine() { + int i; + + for (i = 0; i < splashFontCacheSize; ++i) { + if (fontCache[i]) { + delete fontCache[i]; + } + } + +#if HAVE_T1LIB_H + if (t1Engine) { + delete t1Engine; + } +#endif +#if HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H + if (ftEngine) { + delete ftEngine; + } +#endif +} + +SplashFontFile *SplashFontEngine::getFontFile(SplashFontFileID *id) { + SplashFontFile *fontFile; + int i; + + for (i = 0; i < splashFontCacheSize; ++i) { + if (fontCache[i]) { + fontFile = fontCache[i]->getFontFile(); + if (fontFile && fontFile->getID()->matches(id)) { + return fontFile; + } + } + } + return NULL; +} + +SplashFontFile *SplashFontEngine::loadType1Font(SplashFontFileID *idA, + SplashFontSrc *src, + char **enc) { + SplashFontFile *fontFile; + + fontFile = NULL; +#if HAVE_T1LIB_H + if (!fontFile && t1Engine) { + fontFile = t1Engine->loadType1Font(idA, src, enc); + } +#endif +#if HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H + if (!fontFile && ftEngine) { + fontFile = ftEngine->loadType1Font(idA, src, enc); + } +#endif + + // delete the (temporary) font file -- with Unix hard link + // semantics, this will remove the last link; otherwise it will + // return an error, leaving the file to be deleted later (if + // loadXYZFont failed, the file will always be deleted) + if (src->isFile) + src->unref(); + + return fontFile; +} + +SplashFontFile *SplashFontEngine::loadType1CFont(SplashFontFileID *idA, + SplashFontSrc *src, + char **enc) { + SplashFontFile *fontFile; + + fontFile = NULL; +#if HAVE_T1LIB_H + if (!fontFile && t1Engine) { + fontFile = t1Engine->loadType1CFont(idA, sec, enc); + } +#endif +#if HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H + if (!fontFile && ftEngine) { + fontFile = ftEngine->loadType1CFont(idA, src, enc); + } +#endif + + // delete the (temporary) font file -- with Unix hard link + // semantics, this will remove the last link; otherwise it will + // return an error, leaving the file to be deleted later (if + // loadXYZFont failed, the file will always be deleted) + if (src->isFile) + src->unref(); + + return fontFile; +} + +SplashFontFile *SplashFontEngine::loadOpenTypeT1CFont(SplashFontFileID *idA, + SplashFontSrc *src, + char **enc) { + SplashFontFile *fontFile; + + fontFile = NULL; +#if HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H + if (!fontFile && ftEngine) { + fontFile = ftEngine->loadOpenTypeT1CFont(idA, src, enc); + } +#endif + + // delete the (temporary) font file -- with Unix hard link + // semantics, this will remove the last link; otherwise it will + // return an error, leaving the file to be deleted later (if + // loadXYZFont failed, the file will always be deleted) + if (src->isFile) + src->unref(); + + return fontFile; +} + +SplashFontFile *SplashFontEngine::loadCIDFont(SplashFontFileID *idA, + SplashFontSrc *src) { + SplashFontFile *fontFile; + + fontFile = NULL; +#if HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H + if (!fontFile && ftEngine) { + fontFile = ftEngine->loadCIDFont(idA, src); + } +#endif + + // delete the (temporary) font file -- with Unix hard link + // semantics, this will remove the last link; otherwise it will + // return an error, leaving the file to be deleted later (if + // loadXYZFont failed, the file will always be deleted) + if (src->isFile) + src->unref(); + + return fontFile; +} + +SplashFontFile *SplashFontEngine::loadOpenTypeCFFFont(SplashFontFileID *idA, + SplashFontSrc *src) { + SplashFontFile *fontFile; + + fontFile = NULL; +#if HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H + if (!fontFile && ftEngine) { + fontFile = ftEngine->loadOpenTypeCFFFont(idA, src); + } +#endif + + // delete the (temporary) font file -- with Unix hard link + // semantics, this will remove the last link; otherwise it will + // return an error, leaving the file to be deleted later (if + // loadXYZFont failed, the file will always be deleted) + if (src->isFile) + src->unref(); + + return fontFile; +} + +SplashFontFile *SplashFontEngine::loadTrueTypeFont(SplashFontFileID *idA, + SplashFontSrc *src, + Gushort *codeToGID, + int codeToGIDLen, + int faceIndex) { + SplashFontFile *fontFile; + + fontFile = NULL; +#if HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H + if (!fontFile && ftEngine) { + fontFile = ftEngine->loadTrueTypeFont(idA, src, + codeToGID, codeToGIDLen, faceIndex); + } +#endif + + if (!fontFile) { + gfree(codeToGID); + } + + // delete the (temporary) font file -- with Unix hard link + // semantics, this will remove the last link; otherwise it will + // return an error, leaving the file to be deleted later (if + // loadXYZFont failed, the file will always be deleted) + if (src->isFile) + src->unref(); + + return fontFile; +} + +SplashFont *SplashFontEngine::getFont(SplashFontFile *fontFile, + SplashCoord *textMat, + SplashCoord *ctm) { + SplashCoord mat[4]; + SplashFont *font; + int i, j; + + mat[0] = textMat[0] * ctm[0] + textMat[1] * ctm[2]; + mat[1] = -(textMat[0] * ctm[1] + textMat[1] * ctm[3]); + mat[2] = textMat[2] * ctm[0] + textMat[3] * ctm[2]; + mat[3] = -(textMat[2] * ctm[1] + textMat[3] * ctm[3]); + if (splashAbs(mat[0] * mat[3] - mat[1] * mat[2]) < 0.01) { + // avoid a singular (or close-to-singular) matrix + mat[0] = 0.01; mat[1] = 0; + mat[2] = 0; mat[3] = 0.01; + } + + font = fontCache[0]; + if (font && font->matches(fontFile, mat, textMat)) { + return font; + } + for (i = 1; i < splashFontCacheSize; ++i) { + font = fontCache[i]; + if (font && font->matches(fontFile, mat, textMat)) { + for (j = i; j > 0; --j) { + fontCache[j] = fontCache[j-1]; + } + fontCache[0] = font; + return font; + } + } + font = fontFile->makeFont(mat, textMat); + if (fontCache[splashFontCacheSize - 1]) { + delete fontCache[splashFontCacheSize - 1]; + } + for (j = splashFontCacheSize - 1; j > 0; --j) { + fontCache[j] = fontCache[j-1]; + } + fontCache[0] = font; + return font; +} diff --git a/kpdf/xpdf/splash/SplashFontEngine.h b/kpdf/xpdf/splash/SplashFontEngine.h new file mode 100644 index 00000000..ace5e9ae --- /dev/null +++ b/kpdf/xpdf/splash/SplashFontEngine.h @@ -0,0 +1,86 @@ +//======================================================================== +// +// SplashFontEngine.h +// +//======================================================================== + +#ifndef SPLASHFONTENGINE_H +#define SPLASHFONTENGINE_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" + +class SplashT1FontEngine; +class SplashFTFontEngine; +class SplashDTFontEngine; +class SplashDT4FontEngine; +class SplashFontFile; +class SplashFontFileID; +class SplashFont; +class SplashFontSrc; + +//------------------------------------------------------------------------ + +#define splashFontCacheSize 16 + +//------------------------------------------------------------------------ +// SplashFontEngine +//------------------------------------------------------------------------ + +class SplashFontEngine { +public: + + // Create a font engine. + SplashFontEngine( +#if HAVE_T1LIB_H + GBool enableT1lib, +#endif +#if HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H + GBool enableFreeType, +#endif + GBool aa); + + ~SplashFontEngine(); + + // Get a font file from the cache. Returns NULL if there is no + // matching entry in the cache. + SplashFontFile *getFontFile(SplashFontFileID *id); + + // Load fonts - these create new SplashFontFile objects. + SplashFontFile *loadType1Font(SplashFontFileID *idA, SplashFontSrc *src, char **enc); + SplashFontFile *loadType1CFont(SplashFontFileID *idA, SplashFontSrc *src, char **enc); + SplashFontFile *loadOpenTypeT1CFont(SplashFontFileID *idA, SplashFontSrc *src, char **enc); + SplashFontFile *loadCIDFont(SplashFontFileID *idA, SplashFontSrc *src); + SplashFontFile *loadOpenTypeCFFFont(SplashFontFileID *idA, SplashFontSrc *src); + SplashFontFile *loadTrueTypeFont(SplashFontFileID *idA, SplashFontSrc *src, + Gushort *codeToGID, int codeToGIDLen, int faceIndex = 0); + + // Get a font - this does a cache lookup first, and if not found, + // creates a new SplashFont object and adds it to the cache. The + // matrix, mat = textMat * ctm: + // [ mat[0] mat[1] ] + // [ mat[2] mat[3] ] + // specifies the font transform in PostScript style: + // [x' y'] = [x y] * mat + // Note that the Splash y axis points downward. + SplashFont *getFont(SplashFontFile *fontFile, + SplashCoord *textMat, SplashCoord *ctm); + +private: + + SplashFont *fontCache[splashFontCacheSize]; + +#if HAVE_T1LIB_H + SplashT1FontEngine *t1Engine; +#endif +#if HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H + SplashFTFontEngine *ftEngine; +#endif +}; + +#endif diff --git a/kpdf/xpdf/splash/SplashFontFile.cc b/kpdf/xpdf/splash/SplashFontFile.cc new file mode 100644 index 00000000..ad58c22d --- /dev/null +++ b/kpdf/xpdf/splash/SplashFontFile.cc @@ -0,0 +1,108 @@ +//======================================================================== +// +// SplashFontFile.cc +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#ifndef WIN32 +# include +#endif +#include "gmem.h" +#include "GString.h" +#include "SplashFontFile.h" +#include "SplashFontFileID.h" + +#ifdef VMS +#if (__VMS_VER < 70000000) +extern "C" int unlink(char *filename); +#endif +#endif + +//------------------------------------------------------------------------ +// SplashFontFile +//------------------------------------------------------------------------ + +SplashFontFile::SplashFontFile(SplashFontFileID *idA, SplashFontSrc *srcA) { + id = idA; + src = srcA; + src->ref(); + refCnt = 0; +} + +SplashFontFile::~SplashFontFile() { + src->unref(); + delete id; +} + +void SplashFontFile::incRefCnt() { + ++refCnt; +} + +void SplashFontFile::decRefCnt() { + if (!--refCnt) { + delete this; + } +} + +// + +SplashFontSrc::SplashFontSrc() { + isFile = gFalse; + deleteSrc = gFalse; + fileName = NULL; + buf = NULL; + refcnt = 1; +} + +SplashFontSrc::~SplashFontSrc() { + if (deleteSrc) { + if (isFile) { + if (fileName) + unlink(fileName->getCString()); + } else { + if (buf) + gfree(buf); + } + } + + if (isFile && fileName) + delete fileName; +} + +void SplashFontSrc::ref() { + refcnt++; +} + +void SplashFontSrc::unref() { + if (! --refcnt) + delete this; +} + +void SplashFontSrc::setFile(GString *file, GBool del) +{ + isFile = gTrue; + fileName = file->copy(); + deleteSrc = del; +} + +void SplashFontSrc::setFile(const char *file, GBool del) +{ + isFile = gTrue; + fileName = new GString(file); + deleteSrc = del; +} + +void SplashFontSrc::setBuf(char *bufA, int bufLenA, GBool del) +{ + isFile = gFalse; + buf = bufA; + bufLen = bufLenA; + deleteSrc = del; +} diff --git a/kpdf/xpdf/splash/SplashFontFile.h b/kpdf/xpdf/splash/SplashFontFile.h new file mode 100644 index 00000000..698d620c --- /dev/null +++ b/kpdf/xpdf/splash/SplashFontFile.h @@ -0,0 +1,77 @@ +//======================================================================== +// +// SplashFontFile.h +// +//======================================================================== + +#ifndef SPLASHFONTFILE_H +#define SPLASHFONTFILE_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" +#include "SplashTypes.h" + +class GString; +class SplashFontEngine; +class SplashFont; +class SplashFontFileID; + +//------------------------------------------------------------------------ +// SplashFontFile +//------------------------------------------------------------------------ + +struct SplashFontSrc { + SplashFontSrc(); + ~SplashFontSrc(); + + void setFile(GString *file, GBool del); + void setFile(const char *file, GBool del); + void setBuf(char *bufA, int buflenA, GBool del); + + void ref(); + void unref(); + + GBool isFile; + GString *fileName; + char *buf; + int bufLen; + GBool deleteSrc; + int refcnt; +}; + +class SplashFontFile { +public: + + virtual ~SplashFontFile(); + + // Create a new SplashFont, i.e., a scaled instance of this font + // file. + virtual SplashFont *makeFont(SplashCoord *mat, SplashCoord *textMat) = 0; + + // Get the font file ID. + SplashFontFileID *getID() { return id; } + + // Increment the reference count. + void incRefCnt(); + + // Decrement the reference count. If the new value is zero, delete + // the SplashFontFile object. + void decRefCnt(); + +protected: + + SplashFontFile(SplashFontFileID *idA, SplashFontSrc *srcA); + + SplashFontFileID *id; + SplashFontSrc *src; + int refCnt; + + friend class SplashFontEngine; +}; + +#endif diff --git a/kpdf/xpdf/splash/SplashFontFileID.cc b/kpdf/xpdf/splash/SplashFontFileID.cc new file mode 100644 index 00000000..af37cb2f --- /dev/null +++ b/kpdf/xpdf/splash/SplashFontFileID.cc @@ -0,0 +1,23 @@ +//======================================================================== +// +// SplashFontFileID.cc +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include "SplashFontFileID.h" + +//------------------------------------------------------------------------ +// SplashFontFileID +//------------------------------------------------------------------------ + +SplashFontFileID::SplashFontFileID() { +} + +SplashFontFileID::~SplashFontFileID() { +} diff --git a/kpdf/xpdf/splash/SplashFontFileID.h b/kpdf/xpdf/splash/SplashFontFileID.h new file mode 100644 index 00000000..bed11d33 --- /dev/null +++ b/kpdf/xpdf/splash/SplashFontFileID.h @@ -0,0 +1,30 @@ +//======================================================================== +// +// SplashFontFileID.h +// +//======================================================================== + +#ifndef SPLASHFONTFILEID_H +#define SPLASHFONTFILEID_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" + +//------------------------------------------------------------------------ +// SplashFontFileID +//------------------------------------------------------------------------ + +class SplashFontFileID { +public: + + SplashFontFileID(); + virtual ~SplashFontFileID(); + virtual GBool matches(SplashFontFileID *id) = 0; +}; + +#endif diff --git a/kpdf/xpdf/splash/SplashGlyphBitmap.h b/kpdf/xpdf/splash/SplashGlyphBitmap.h new file mode 100644 index 00000000..044ba4a6 --- /dev/null +++ b/kpdf/xpdf/splash/SplashGlyphBitmap.h @@ -0,0 +1,26 @@ +//======================================================================== +// +// SplashGlyphBitmap.h +// +//======================================================================== + +#ifndef SPLASHGLYPHBITMAP_H +#define SPLASHGLYPHBITMAP_H + +#include + +#include "gtypes.h" + +//------------------------------------------------------------------------ +// SplashGlyphBitmap +//------------------------------------------------------------------------ + +struct SplashGlyphBitmap { + int x, y, w, h; // offset and size of glyph + GBool aa; // anti-aliased: true means 8-bit alpha + // bitmap; false means 1-bit + Guchar *data; // bitmap data + GBool freeData; // true if data memory should be freed +}; + +#endif diff --git a/kpdf/xpdf/splash/SplashMath.h b/kpdf/xpdf/splash/SplashMath.h new file mode 100644 index 00000000..12e0eec1 --- /dev/null +++ b/kpdf/xpdf/splash/SplashMath.h @@ -0,0 +1,89 @@ +//======================================================================== +// +// SplashMath.h +// +//======================================================================== + +#ifndef SPLASHMATH_H +#define SPLASHMATH_H + +#include +#if USE_FIXEDPOINT +#include "FixedPoint.h" +#else +#include +#endif +#include "SplashTypes.h" + +static inline SplashCoord splashAbs(SplashCoord x) { +#if USE_FIXEDPOINT + return FixedPoint::abs(x); +#else + return fabs(x); +#endif +} + +static inline int splashFloor(SplashCoord x) { +#if USE_FIXEDPOINT + return FixedPoint::floor(x); +#else + return (int)floor(x); +#endif +} + +static inline int splashCeil(SplashCoord x) { +#if USE_FIXEDPOINT + return FixedPoint::ceil(x); +#else + return (int)ceil(x); +#endif +} + +static inline int splashRound(SplashCoord x) { +#if USE_FIXEDPOINT + return FixedPoint::round(x); +#else + return (int)floor(x + 0.5); +#endif +} + +static inline SplashCoord splashSqrt(SplashCoord x) { +#if USE_FIXEDPOINT + return FixedPoint::sqrt(x); +#else + return sqrt(x); +#endif +} + +static inline SplashCoord splashPow(SplashCoord x, SplashCoord y) { +#if USE_FIXEDPOINT + return FixedPoint::pow(x, y); +#else + return pow(x, y); +#endif +} + +static inline SplashCoord splashDist(SplashCoord x0, SplashCoord y0, + SplashCoord x1, SplashCoord y1) { + SplashCoord dx, dy; + dx = x1 - x0; + dy = y1 - y0; +#if USE_FIXEDPOINT + // this handles the situation where dx*dx or dy*dy is too large to + // fit in the 16.16 fixed point format + SplashCoord dxa, dya; + dxa = splashAbs(dx); + dya = splashAbs(dy); + if (dxa == 0 && dya == 0) { + return 0; + } else if (dxa > dya) { + return dxa * FixedPoint::sqrt(dya / dxa + 1); + } else { + return dya * FixedPoint::sqrt(dxa / dya + 1); + } +#else + return sqrt(dx * dx + dy * dy); +#endif +} + +#endif diff --git a/kpdf/xpdf/splash/SplashPath.cc b/kpdf/xpdf/splash/SplashPath.cc new file mode 100644 index 00000000..e3a89271 --- /dev/null +++ b/kpdf/xpdf/splash/SplashPath.cc @@ -0,0 +1,184 @@ +//======================================================================== +// +// SplashPath.cc +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include "gmem.h" +#include "SplashErrorCodes.h" +#include "SplashPath.h" + +//------------------------------------------------------------------------ +// SplashPath +//------------------------------------------------------------------------ + +// A path can be in three possible states: +// +// 1. no current point -- zero or more finished subpaths +// [curSubpath == length] +// +// 2. one point in subpath +// [curSubpath == length - 1] +// +// 3. open subpath with two or more points +// [curSubpath < length - 1] + +SplashPath::SplashPath() { + pts = NULL; + flags = NULL; + length = size = 0; + curSubpath = 0; + hints = NULL; + hintsLength = hintsSize = 0; +} + +SplashPath::SplashPath(SplashPath *path) { + length = path->length; + size = path->size; + pts = (SplashPathPoint *)gmallocn(size, sizeof(SplashPathPoint)); + flags = (Guchar *)gmallocn(size, sizeof(Guchar)); + memcpy(pts, path->pts, length * sizeof(SplashPathPoint)); + memcpy(flags, path->flags, length * sizeof(Guchar)); + curSubpath = path->curSubpath; + if (path->hints) { + hintsLength = hintsSize = path->hintsLength; + hints = (SplashPathHint *)gmallocn(hintsSize, sizeof(SplashPathHint)); + memcpy(hints, path->hints, hintsLength * sizeof(SplashPathHint)); + } else { + hints = NULL; + } +} + +SplashPath::~SplashPath() { + gfree(pts); + gfree(flags); + gfree(hints); +} + +// Add space for more points. +void SplashPath::grow(int nPts) { + if (length + nPts > size) { + if (size == 0) { + size = 32; + } + while (size < length + nPts) { + size *= 2; + } + pts = (SplashPathPoint *)greallocn(pts, size, sizeof(SplashPathPoint)); + flags = (Guchar *)greallocn(flags, size, sizeof(Guchar)); + } +} + +void SplashPath::append(SplashPath *path) { + int i; + + curSubpath = length + path->curSubpath; + grow(path->length); + for (i = 0; i < path->length; ++i) { + pts[length] = path->pts[i]; + flags[length] = path->flags[i]; + ++length; + } +} + +SplashError SplashPath::moveTo(SplashCoord x, SplashCoord y) { + if (onePointSubpath()) { + return splashErrBogusPath; + } + grow(1); + pts[length].x = x; + pts[length].y = y; + flags[length] = splashPathFirst | splashPathLast; + curSubpath = length++; + return splashOk; +} + +SplashError SplashPath::lineTo(SplashCoord x, SplashCoord y) { + if (noCurrentPoint()) { + return splashErrNoCurPt; + } + flags[length-1] &= ~splashPathLast; + grow(1); + pts[length].x = x; + pts[length].y = y; + flags[length] = splashPathLast; + ++length; + return splashOk; +} + +SplashError SplashPath::curveTo(SplashCoord x1, SplashCoord y1, + SplashCoord x2, SplashCoord y2, + SplashCoord x3, SplashCoord y3) { + if (noCurrentPoint()) { + return splashErrNoCurPt; + } + flags[length-1] &= ~splashPathLast; + grow(3); + pts[length].x = x1; + pts[length].y = y1; + flags[length] = splashPathCurve; + ++length; + pts[length].x = x2; + pts[length].y = y2; + flags[length] = splashPathCurve; + ++length; + pts[length].x = x3; + pts[length].y = y3; + flags[length] = splashPathLast; + ++length; + return splashOk; +} + +SplashError SplashPath::close() { + if (noCurrentPoint()) { + return splashErrNoCurPt; + } + if (curSubpath == length - 1 || + pts[length - 1].x != pts[curSubpath].x || + pts[length - 1].y != pts[curSubpath].y) { + lineTo(pts[curSubpath].x, pts[curSubpath].y); + } + flags[curSubpath] |= splashPathClosed; + flags[length - 1] |= splashPathClosed; + curSubpath = length; + return splashOk; +} + +void SplashPath::addStrokeAdjustHint(int ctrl0, int ctrl1, + int firstPt, int lastPt) { + if (hintsLength == hintsSize) { + hintsSize = hintsLength ? 2 * hintsLength : 8; + hints = (SplashPathHint *)greallocn(hints, hintsSize, + sizeof(SplashPathHint)); + } + hints[hintsLength].ctrl0 = ctrl0; + hints[hintsLength].ctrl1 = ctrl1; + hints[hintsLength].firstPt = firstPt; + hints[hintsLength].lastPt = lastPt; + ++hintsLength; +} + +void SplashPath::offset(SplashCoord dx, SplashCoord dy) { + int i; + + for (i = 0; i < length; ++i) { + pts[i].x += dx; + pts[i].y += dy; + } +} + +GBool SplashPath::getCurPt(SplashCoord *x, SplashCoord *y) { + if (noCurrentPoint()) { + return gFalse; + } + *x = pts[length - 1].x; + *y = pts[length - 1].y; + return gTrue; +} diff --git a/kpdf/xpdf/splash/SplashPath.h b/kpdf/xpdf/splash/SplashPath.h new file mode 100644 index 00000000..b63ee5df --- /dev/null +++ b/kpdf/xpdf/splash/SplashPath.h @@ -0,0 +1,121 @@ +//======================================================================== +// +// SplashPath.h +// +//======================================================================== + +#ifndef SPLASHPATH_H +#define SPLASHPATH_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "SplashTypes.h" + +//------------------------------------------------------------------------ +// SplashPathPoint +//------------------------------------------------------------------------ + +struct SplashPathPoint { + SplashCoord x, y; +}; + +//------------------------------------------------------------------------ +// SplashPath.flags +//------------------------------------------------------------------------ + +// first point on each subpath sets this flag +#define splashPathFirst 0x01 + +// last point on each subpath sets this flag +#define splashPathLast 0x02 + +// if the subpath is closed, its first and last points must be +// identical, and must set this flag +#define splashPathClosed 0x04 + +// curve control points set this flag +#define splashPathCurve 0x08 + +//------------------------------------------------------------------------ +// SplashPathHint +//------------------------------------------------------------------------ + +struct SplashPathHint { + int ctrl0, ctrl1; + int firstPt, lastPt; +}; + +//------------------------------------------------------------------------ +// SplashPath +//------------------------------------------------------------------------ + +class SplashPath { +public: + + // Create an empty path. + SplashPath(); + + // Copy a path. + SplashPath *copy() { return new SplashPath(this); } + + ~SplashPath(); + + // Append to . + void append(SplashPath *path); + + // Start a new subpath. + SplashError moveTo(SplashCoord x, SplashCoord y); + + // Add a line segment to the last subpath. + SplashError lineTo(SplashCoord x, SplashCoord y); + + // Add a third-order (cubic) Bezier curve segment to the last + // subpath. + SplashError curveTo(SplashCoord x1, SplashCoord y1, + SplashCoord x2, SplashCoord y2, + SplashCoord x3, SplashCoord y3); + + // Close the last subpath, adding a line segment if necessary. + SplashError close(); + + // Add a stroke adjustment hint. The controlling segments are + // and (where segments are identified by their first + // point), and the points to be adjusted are .. . + void addStrokeAdjustHint(int ctrl0, int ctrl1, int firstPt, int lastPt); + + // Add (, ) to every point on this path. + void offset(SplashCoord dx, SplashCoord dy); + + // Get the points on the path. + int getLength() { return length; } + void getPoint(int i, double *x, double *y, Guchar *f) + { *x = pts[i].x; *y = pts[i].y; *f = flags[i]; } + + // Get the current point. + GBool getCurPt(SplashCoord *x, SplashCoord *y); + +private: + + SplashPath(SplashPath *path); + void grow(int nPts); + GBool noCurrentPoint() { return curSubpath == length; } + GBool onePointSubpath() { return curSubpath == length - 1; } + GBool openSubpath() { return curSubpath < length - 1; } + + SplashPathPoint *pts; // array of points + Guchar *flags; // array of flags + int length, size; // length/size of the pts and flags arrays + int curSubpath; // index of first point in last subpath + + SplashPathHint *hints; // list of hints + int hintsLength, hintsSize; + + friend class SplashXPath; + friend class Splash; +}; + +#endif diff --git a/kpdf/xpdf/splash/SplashPattern.cc b/kpdf/xpdf/splash/SplashPattern.cc new file mode 100644 index 00000000..e6a37852 --- /dev/null +++ b/kpdf/xpdf/splash/SplashPattern.cc @@ -0,0 +1,40 @@ +//======================================================================== +// +// SplashPattern.cc +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include "SplashMath.h" +#include "SplashScreen.h" +#include "SplashPattern.h" + +//------------------------------------------------------------------------ +// SplashPattern +//------------------------------------------------------------------------ + +SplashPattern::SplashPattern() { +} + +SplashPattern::~SplashPattern() { +} + +//------------------------------------------------------------------------ +// SplashSolidColor +//------------------------------------------------------------------------ + +SplashSolidColor::SplashSolidColor(SplashColorPtr colorA) { + splashColorCopy(color, colorA); +} + +SplashSolidColor::~SplashSolidColor() { +} + +void SplashSolidColor::getColor(int /*x*/, int /*y*/, SplashColorPtr c) { + splashColorCopy(c, color); +} diff --git a/kpdf/xpdf/splash/SplashPattern.h b/kpdf/xpdf/splash/SplashPattern.h new file mode 100644 index 00000000..0a02e9c2 --- /dev/null +++ b/kpdf/xpdf/splash/SplashPattern.h @@ -0,0 +1,65 @@ +//======================================================================== +// +// SplashPattern.h +// +//======================================================================== + +#ifndef SPLASHPATTERN_H +#define SPLASHPATTERN_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "SplashTypes.h" + +class SplashScreen; + +//------------------------------------------------------------------------ +// SplashPattern +//------------------------------------------------------------------------ + +class SplashPattern { +public: + + SplashPattern(); + + virtual SplashPattern *copy() = 0; + + virtual ~SplashPattern(); + + // Return the color value for a specific pixel. + virtual void getColor(int x, int y, SplashColorPtr c) = 0; + + // Returns true if this pattern object will return the same color + // value for all pixels. + virtual GBool isStatic() = 0; + +private: +}; + +//------------------------------------------------------------------------ +// SplashSolidColor +//------------------------------------------------------------------------ + +class SplashSolidColor: public SplashPattern { +public: + + SplashSolidColor(SplashColorPtr colorA); + + virtual SplashPattern *copy() { return new SplashSolidColor(color); } + + virtual ~SplashSolidColor(); + + virtual void getColor(int x, int y, SplashColorPtr c); + + virtual GBool isStatic() { return gTrue; } + +private: + + SplashColor color; +}; + +#endif diff --git a/kpdf/xpdf/splash/SplashScreen.cc b/kpdf/xpdf/splash/SplashScreen.cc new file mode 100644 index 00000000..3e8d36ca --- /dev/null +++ b/kpdf/xpdf/splash/SplashScreen.cc @@ -0,0 +1,385 @@ +//======================================================================== +// +// SplashScreen.cc +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include "gmem.h" +#include "SplashMath.h" +#include "SplashScreen.h" + +//------------------------------------------------------------------------ + +static SplashScreenParams defaultParams = { + splashScreenDispersed, // type + 2, // size + 2, // dotRadius + 1.0, // gamma + 0.0, // blackThreshold + 1.0 // whiteThreshold +}; + +//------------------------------------------------------------------------ + +struct SplashScreenPoint { + int x, y; + int dist; +}; + +static int cmpDistances(const void *p0, const void *p1) { + return ((SplashScreenPoint *)p0)->dist - ((SplashScreenPoint *)p1)->dist; +} + +//------------------------------------------------------------------------ +// SplashScreen +//------------------------------------------------------------------------ + +// If is true, this generates a 45 degree screen using a +// circular dot spot function. DPI = resolution / ((size / 2) * +// sqrt(2)). If is false, this generates an optimal +// threshold matrix using recursive tesselation. Gamma correction +// (gamma = 1 / 1.33) is also computed here. +SplashScreen::SplashScreen(SplashScreenParams *params) { + Guchar u, black, white; + int i; + + if (!params) { + params = &defaultParams; + } + + switch (params->type) { + + case splashScreenDispersed: + // size must be a power of 2 + for (size = 1; size < params->size; size <<= 1) ; + mat = (Guchar *)gmallocn(size * size, sizeof(Guchar)); + buildDispersedMatrix(size/2, size/2, 1, size/2, 1); + break; + + case splashScreenClustered: + // size must be even + size = (params->size >> 1) << 1; + if (size < 2) { + size = 2; + } + mat = (Guchar *)gmallocn(size * size, sizeof(Guchar)); + buildClusteredMatrix(); + break; + + case splashScreenStochasticClustered: + // size must be at least 2*r + if (params->size < 2 * params->dotRadius) { + size = 2 * params->dotRadius; + } else { + size = params->size; + } + mat = (Guchar *)gmallocn(size * size, sizeof(Guchar)); + buildSCDMatrix(params->dotRadius); + break; + } + + // do gamma correction and compute minVal/maxVal + minVal = 255; + maxVal = 0; + black = splashRound((SplashCoord)255.0 * params->blackThreshold); + if (black < 1) { + black = 1; + } + int whiteAux = splashRound((SplashCoord)255.0 * params->whiteThreshold); + if (whiteAux > 255) { + white = 255; + } else { + white = whiteAux; + } + for (i = 0; i < size * size; ++i) { + u = splashRound((SplashCoord)255.0 * + splashPow((SplashCoord)mat[i] / 255.0, params->gamma)); + if (u < black) { + u = black; + } else if (u >= white) { + u = white; + } + mat[i] = u; + if (u < minVal) { + minVal = u; + } else if (u > maxVal) { + maxVal = u; + } + } +} + +void SplashScreen::buildDispersedMatrix(int i, int j, int val, + int delta, int offset) { + if (delta == 0) { + // map values in [1, size^2] --> [1, 255] + mat[i * size + j] = 1 + (254 * (val - 1)) / (size * size - 1); + } else { + buildDispersedMatrix(i, j, + val, delta / 2, 4*offset); + buildDispersedMatrix((i + delta) % size, (j + delta) % size, + val + offset, delta / 2, 4*offset); + buildDispersedMatrix((i + delta) % size, j, + val + 2*offset, delta / 2, 4*offset); + buildDispersedMatrix((i + 2*delta) % size, (j + delta) % size, + val + 3*offset, delta / 2, 4*offset); + } +} + +void SplashScreen::buildClusteredMatrix() { + SplashCoord *dist; + SplashCoord u, v, d; + Guchar val; + int size2, x, y, x1, y1, i; + + size2 = size >> 1; + + // initialize the threshold matrix + for (y = 0; y < size; ++y) { + for (x = 0; x < size; ++x) { + mat[y * size + x] = 0; + } + } + + // build the distance matrix + dist = (SplashCoord *)gmallocn(size * size2, sizeof(SplashCoord)); + for (y = 0; y < size2; ++y) { + for (x = 0; x < size2; ++x) { + if (x + y < size2 - 1) { + u = (SplashCoord)x + 0.5 - 0; + v = (SplashCoord)y + 0.5 - 0; + } else { + u = (SplashCoord)x + 0.5 - (SplashCoord)size2; + v = (SplashCoord)y + 0.5 - (SplashCoord)size2; + } + dist[y * size2 + x] = u*u + v*v; + } + } + for (y = 0; y < size2; ++y) { + for (x = 0; x < size2; ++x) { + if (x < y) { + u = (SplashCoord)x + 0.5 - 0; + v = (SplashCoord)y + 0.5 - (SplashCoord)size2; + } else { + u = (SplashCoord)x + 0.5 - (SplashCoord)size2; + v = (SplashCoord)y + 0.5 - 0; + } + dist[(size2 + y) * size2 + x] = u*u + v*v; + } + } + + // build the threshold matrix + minVal = 1; + maxVal = 0; + x1 = y1 = 0; // make gcc happy + for (i = 0; i < size * size2; ++i) { + d = -1; + for (y = 0; y < size; ++y) { + for (x = 0; x < size2; ++x) { + if (mat[y * size + x] == 0 && + dist[y * size2 + x] > d) { + x1 = x; + y1 = y; + d = dist[y1 * size2 + x1]; + } + } + } + // map values in [0, 2*size*size2-1] --> [1, 255] + val = 1 + (254 * (2*i)) / (2*size*size2 - 1); + mat[y1 * size + x1] = val; + val = 1 + (254 * (2*i+1)) / (2*size*size2 - 1); + if (y1 < size2) { + mat[(y1 + size2) * size + x1 + size2] = val; + } else { + mat[(y1 - size2) * size + x1 + size2] = val; + } + } + + gfree(dist); +} + +// Compute the distance between two points on a toroid. +int SplashScreen::distance(int x0, int y0, int x1, int y1) { + int dx0, dx1, dx, dy0, dy1, dy; + + dx0 = abs(x0 - x1); + dx1 = size - dx0; + dx = dx0 < dx1 ? dx0 : dx1; + dy0 = abs(y0 - y1); + dy1 = size - dy0; + dy = dy0 < dy1 ? dy0 : dy1; + return dx * dx + dy * dy; +} + +// Algorithm taken from: +// Victor Ostromoukhov and Roger D. Hersch, "Stochastic Clustered-Dot +// Dithering" in Color Imaging: Device-Independent Color, Color +// Hardcopy, and Graphic Arts IV, SPIE Vol. 3648, pp. 496-505, 1999. +void SplashScreen::buildSCDMatrix(int r) { + SplashScreenPoint *dots, *pts; + int dotsLen, dotsSize; + char *tmpl; + char *grid; + int *region, *dist; + int x, y, xx, yy, x0, x1, y0, y1, i, j, d, iMin, dMin, n; + + //~ this should probably happen somewhere else + srand(123); + + // generate the random space-filling curve + pts = (SplashScreenPoint *)gmallocn(size * size, sizeof(SplashScreenPoint)); + i = 0; + for (y = 0; y < size; ++y) { + for (x = 0; x < size; ++x) { + pts[i].x = x; + pts[i].y = y; + ++i; + } + } + for (i = 0; i < size * size; ++i) { + j = i + (int)((double)(size * size - i) * + (double)rand() / ((double)RAND_MAX + 1.0)); + x = pts[i].x; + y = pts[i].y; + pts[i].x = pts[j].x; + pts[i].y = pts[j].y; + pts[j].x = x; + pts[j].y = y; + } + + // construct the circle template + tmpl = (char *)gmallocn((r+1)*(r+1), sizeof(char)); + for (y = 0; y <= r; ++y) { + for (x = 0; x <= r; ++x) { + tmpl[y*(r+1) + x] = (x * y <= r * r) ? 1 : 0; + } + } + + // mark all grid cells as free + grid = (char *)gmallocn(size * size, sizeof(char)); + for (y = 0; y < size; ++y) { + for (x = 0; x < size; ++x) { + grid[y*size + x] = 0; + } + } + + // walk the space-filling curve, adding dots + dotsLen = 0; + dotsSize = 32; + dots = (SplashScreenPoint *)gmallocn(dotsSize, sizeof(SplashScreenPoint)); + for (i = 0; i < size * size; ++i) { + x = pts[i].x; + y = pts[i].y; + if (!grid[y*size + x]) { + if (dotsLen == dotsSize) { + dotsSize *= 2; + dots = (SplashScreenPoint *)greallocn(dots, dotsSize, + sizeof(SplashScreenPoint)); + } + dots[dotsLen++] = pts[i]; + for (yy = 0; yy <= r; ++yy) { + y0 = (y + yy) % size; + y1 = (y - yy + size) % size; + for (xx = 0; xx <= r; ++xx) { + if (tmpl[yy*(r+1) + xx]) { + x0 = (x + xx) % size; + x1 = (x - xx + size) % size; + grid[y0*size + x0] = 1; + grid[y0*size + x1] = 1; + grid[y1*size + x0] = 1; + grid[y1*size + x1] = 1; + } + } + } + } + } + + gfree(tmpl); + gfree(grid); + + // assign each cell to a dot, compute distance to center of dot + region = (int *)gmallocn(size * size, sizeof(int)); + dist = (int *)gmallocn(size * size, sizeof(int)); + for (y = 0; y < size; ++y) { + for (x = 0; x < size; ++x) { + iMin = 0; + dMin = distance(dots[0].x, dots[0].y, x, y); + for (i = 1; i < dotsLen; ++i) { + d = distance(dots[i].x, dots[i].y, x, y); + if (d < dMin) { + iMin = i; + dMin = d; + } + } + region[y*size + x] = iMin; + dist[y*size + x] = dMin; + } + } + + // compute threshold values + for (i = 0; i < dotsLen; ++i) { + n = 0; + for (y = 0; y < size; ++y) { + for (x = 0; x < size; ++x) { + if (region[y*size + x] == i) { + pts[n].x = x; + pts[n].y = y; + pts[n].dist = distance(dots[i].x, dots[i].y, x, y); + ++n; + } + } + } + qsort(pts, n, sizeof(SplashScreenPoint), &cmpDistances); + for (j = 0; j < n; ++j) { + // map values in [0 .. n-1] --> [255 .. 1] + mat[pts[j].y * size + pts[j].x] = 255 - (254 * j) / (n - 1); + } + } + + gfree(pts); + gfree(region); + gfree(dist); + + gfree(dots); +} + +SplashScreen::SplashScreen(SplashScreen *screen) { + size = screen->size; + mat = (Guchar *)gmallocn(size * size, sizeof(Guchar)); + memcpy(mat, screen->mat, size * size * sizeof(Guchar)); + minVal = screen->minVal; + maxVal = screen->maxVal; +} + +SplashScreen::~SplashScreen() { + gfree(mat); +} + +int SplashScreen::test(int x, int y, Guchar value) { + int xx, yy; + + if (value < minVal) { + return 0; + } + if (value >= maxVal) { + return 1; + } + if ((xx = x % size) < 0) { + xx = -xx; + } + if ((yy = y % size) < 0) { + yy = -yy; + } + return value < mat[yy * size + xx] ? 0 : 1; +} + +GBool SplashScreen::isStatic(Guchar value) { + return value < minVal || value >= maxVal; +} diff --git a/kpdf/xpdf/splash/SplashScreen.h b/kpdf/xpdf/splash/SplashScreen.h new file mode 100644 index 00000000..2baa9b5d --- /dev/null +++ b/kpdf/xpdf/splash/SplashScreen.h @@ -0,0 +1,56 @@ +//======================================================================== +// +// SplashScreen.h +// +//======================================================================== + +#ifndef SPLASHSCREEN_H +#define SPLASHSCREEN_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "SplashTypes.h" + +//------------------------------------------------------------------------ +// SplashScreen +//------------------------------------------------------------------------ + +class SplashScreen { +public: + + SplashScreen(SplashScreenParams *params); + SplashScreen(SplashScreen *screen); + ~SplashScreen(); + + SplashScreen *copy() { return new SplashScreen(this); } + + // Return the computed pixel value (0=black, 1=white) for the gray + // level at (, ). + int test(int x, int y, Guchar value); + + // Returns true if value is above the white threshold or below the + // black threshold, i.e., if the corresponding halftone will be + // solid white or black. + GBool isStatic(Guchar value); + +private: + + void buildDispersedMatrix(int i, int j, int val, + int delta, int offset); + void buildClusteredMatrix(); + int distance(int x0, int y0, int x1, int y1); + void buildSCDMatrix(int r); + + Guchar *mat; // threshold matrix + int size; // size of the threshold matrix + Guchar minVal; // any pixel value below minVal generates + // solid black + Guchar maxVal; // any pixel value above maxVal generates + // solid white +}; + +#endif diff --git a/kpdf/xpdf/splash/SplashState.cc b/kpdf/xpdf/splash/SplashState.cc new file mode 100644 index 00000000..e2c34c44 --- /dev/null +++ b/kpdf/xpdf/splash/SplashState.cc @@ -0,0 +1,165 @@ +//======================================================================== +// +// SplashState.cc +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include "gmem.h" +#include "SplashPattern.h" +#include "SplashScreen.h" +#include "SplashClip.h" +#include "SplashBitmap.h" +#include "SplashState.h" + +//------------------------------------------------------------------------ +// SplashState +//------------------------------------------------------------------------ + +// number of components in each color mode +int splashColorModeNComps[] = { + 1, 1, 3, 3, 4 +}; + +SplashState::SplashState(int width, int height, GBool vectorAntialias, + SplashScreenParams *screenParams) { + SplashColor color; + + matrix[0] = 1; matrix[1] = 0; + matrix[2] = 0; matrix[3] = 1; + matrix[4] = 0; matrix[5] = 0; + memset(&color, 0, sizeof(SplashColor)); + strokePattern = new SplashSolidColor(color); + fillPattern = new SplashSolidColor(color); + screen = new SplashScreen(screenParams); + blendFunc = NULL; + strokeAlpha = 1; + fillAlpha = 1; + lineWidth = 0; + lineCap = splashLineCapButt; + lineJoin = splashLineJoinMiter; + miterLimit = 10; + flatness = 1; + lineDash = NULL; + lineDashLength = 0; + lineDashPhase = 0; + strokeAdjust = gFalse; + clip = new SplashClip(0, 0, width - 0.001, height - 0.001, vectorAntialias); + softMask = NULL; + deleteSoftMask = gFalse; + inNonIsolatedGroup = gFalse; + next = NULL; +} + +SplashState::SplashState(int width, int height, GBool vectorAntialias, + SplashScreen *screenA) { + SplashColor color; + + matrix[0] = 1; matrix[1] = 0; + matrix[2] = 0; matrix[3] = 1; + matrix[4] = 0; matrix[5] = 0; + memset(&color, 0, sizeof(SplashColor)); + strokePattern = new SplashSolidColor(color); + fillPattern = new SplashSolidColor(color); + screen = screenA->copy(); + blendFunc = NULL; + strokeAlpha = 1; + fillAlpha = 1; + lineWidth = 0; + lineCap = splashLineCapButt; + lineJoin = splashLineJoinMiter; + miterLimit = 10; + flatness = 1; + lineDash = NULL; + lineDashLength = 0; + lineDashPhase = 0; + strokeAdjust = gFalse; + clip = new SplashClip(0, 0, width - 0.001, height - 0.001, vectorAntialias); + softMask = NULL; + deleteSoftMask = gFalse; + inNonIsolatedGroup = gFalse; + next = NULL; +} + +SplashState::SplashState(SplashState *state) { + memcpy(matrix, state->matrix, 6 * sizeof(SplashCoord)); + strokePattern = state->strokePattern->copy(); + fillPattern = state->fillPattern->copy(); + screen = state->screen->copy(); + blendFunc = state->blendFunc; + strokeAlpha = state->strokeAlpha; + fillAlpha = state->fillAlpha; + lineWidth = state->lineWidth; + lineCap = state->lineCap; + lineJoin = state->lineJoin; + miterLimit = state->miterLimit; + flatness = state->flatness; + if (state->lineDash) { + lineDashLength = state->lineDashLength; + lineDash = (SplashCoord *)gmallocn(lineDashLength, sizeof(SplashCoord)); + memcpy(lineDash, state->lineDash, lineDashLength * sizeof(SplashCoord)); + } else { + lineDash = NULL; + lineDashLength = 0; + } + lineDashPhase = state->lineDashPhase; + strokeAdjust = state->strokeAdjust; + clip = state->clip->copy(); + softMask = state->softMask; + deleteSoftMask = gFalse; + inNonIsolatedGroup = state->inNonIsolatedGroup; + next = NULL; +} + +SplashState::~SplashState() { + delete strokePattern; + delete fillPattern; + delete screen; + gfree(lineDash); + delete clip; + if (deleteSoftMask && softMask) { + delete softMask; + } +} + +void SplashState::setStrokePattern(SplashPattern *strokePatternA) { + delete strokePattern; + strokePattern = strokePatternA; +} + +void SplashState::setFillPattern(SplashPattern *fillPatternA) { + delete fillPattern; + fillPattern = fillPatternA; +} + +void SplashState::setScreen(SplashScreen *screenA) { + delete screen; + screen = screenA; +} + +void SplashState::setLineDash(SplashCoord *lineDashA, int lineDashLengthA, + SplashCoord lineDashPhaseA) { + gfree(lineDash); + lineDashLength = lineDashLengthA; + if (lineDashLength > 0) { + lineDash = (SplashCoord *)gmallocn(lineDashLength, sizeof(SplashCoord)); + memcpy(lineDash, lineDashA, lineDashLength * sizeof(SplashCoord)); + } else { + lineDash = NULL; + } + lineDashPhase = lineDashPhaseA; +} + +void SplashState::setSoftMask(SplashBitmap *softMaskA) { + if (deleteSoftMask) { + delete softMask; + } + softMask = softMaskA; + deleteSoftMask = gTrue; +} diff --git a/kpdf/xpdf/splash/SplashState.h b/kpdf/xpdf/splash/SplashState.h new file mode 100644 index 00000000..1f5a88da --- /dev/null +++ b/kpdf/xpdf/splash/SplashState.h @@ -0,0 +1,103 @@ +//======================================================================== +// +// SplashState.h +// +//======================================================================== + +#ifndef SPLASHSTATE_H +#define SPLASHSTATE_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "SplashTypes.h" + +class SplashPattern; +class SplashScreen; +class SplashClip; +class SplashBitmap; + +//------------------------------------------------------------------------ +// line cap values +//------------------------------------------------------------------------ + +#define splashLineCapButt 0 +#define splashLineCapRound 1 +#define splashLineCapProjecting 2 + +//------------------------------------------------------------------------ +// line join values +//------------------------------------------------------------------------ + +#define splashLineJoinMiter 0 +#define splashLineJoinRound 1 +#define splashLineJoinBevel 2 + +//------------------------------------------------------------------------ +// SplashState +//------------------------------------------------------------------------ + +class SplashState { +public: + + // Create a new state object, initialized with default settings. + SplashState(int width, int height, GBool vectorAntialias, + SplashScreenParams *screenParams); + SplashState(int width, int height, GBool vectorAntialias, + SplashScreen *screenA); + + // Copy a state object. + SplashState *copy() { return new SplashState(this); } + + ~SplashState(); + + // Set the stroke pattern. This does not copy . + void setStrokePattern(SplashPattern *strokePatternA); + + // Set the fill pattern. This does not copy . + void setFillPattern(SplashPattern *fillPatternA); + + // Set the screen. This does not copy . + void setScreen(SplashScreen *screenA); + + // Set the line dash pattern. This copies the array. + void setLineDash(SplashCoord *lineDashA, int lineDashLengthA, + SplashCoord lineDashPhaseA); + + // Set the soft mask bitmap. + void setSoftMask(SplashBitmap *softMaskA); + +private: + + SplashState(SplashState *state); + + SplashCoord matrix[6]; + SplashPattern *strokePattern; + SplashPattern *fillPattern; + SplashScreen *screen; + SplashBlendFunc blendFunc; + SplashCoord strokeAlpha; + SplashCoord fillAlpha; + SplashCoord lineWidth; + int lineCap; + int lineJoin; + SplashCoord miterLimit; + SplashCoord flatness; + SplashCoord *lineDash; + int lineDashLength; + SplashCoord lineDashPhase; + GBool strokeAdjust; + SplashClip *clip; + SplashBitmap *softMask; + GBool deleteSoftMask; + GBool inNonIsolatedGroup; + + SplashState *next; // used by Splash class + + friend class Splash; +}; + +#endif diff --git a/kpdf/xpdf/splash/SplashT1Font.cc b/kpdf/xpdf/splash/SplashT1Font.cc new file mode 100644 index 00000000..19237e1d --- /dev/null +++ b/kpdf/xpdf/splash/SplashT1Font.cc @@ -0,0 +1,292 @@ +//======================================================================== +// +// SplashT1Font.cc +// +//======================================================================== + +#include + +#if HAVE_T1LIB_H + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include "gmem.h" +#include "SplashMath.h" +#include "SplashGlyphBitmap.h" +#include "SplashPath.h" +#include "SplashT1FontEngine.h" +#include "SplashT1FontFile.h" +#include "SplashT1Font.h" + +//------------------------------------------------------------------------ + +static Guchar bitReverse[256] = { + 0x00, 0x80, 0x40, 0xc0, 0x20, 0xa0, 0x60, 0xe0, + 0x10, 0x90, 0x50, 0xd0, 0x30, 0xb0, 0x70, 0xf0, + 0x08, 0x88, 0x48, 0xc8, 0x28, 0xa8, 0x68, 0xe8, + 0x18, 0x98, 0x58, 0xd8, 0x38, 0xb8, 0x78, 0xf8, + 0x04, 0x84, 0x44, 0xc4, 0x24, 0xa4, 0x64, 0xe4, + 0x14, 0x94, 0x54, 0xd4, 0x34, 0xb4, 0x74, 0xf4, + 0x0c, 0x8c, 0x4c, 0xcc, 0x2c, 0xac, 0x6c, 0xec, + 0x1c, 0x9c, 0x5c, 0xdc, 0x3c, 0xbc, 0x7c, 0xfc, + 0x02, 0x82, 0x42, 0xc2, 0x22, 0xa2, 0x62, 0xe2, + 0x12, 0x92, 0x52, 0xd2, 0x32, 0xb2, 0x72, 0xf2, + 0x0a, 0x8a, 0x4a, 0xca, 0x2a, 0xaa, 0x6a, 0xea, + 0x1a, 0x9a, 0x5a, 0xda, 0x3a, 0xba, 0x7a, 0xfa, + 0x06, 0x86, 0x46, 0xc6, 0x26, 0xa6, 0x66, 0xe6, + 0x16, 0x96, 0x56, 0xd6, 0x36, 0xb6, 0x76, 0xf6, + 0x0e, 0x8e, 0x4e, 0xce, 0x2e, 0xae, 0x6e, 0xee, + 0x1e, 0x9e, 0x5e, 0xde, 0x3e, 0xbe, 0x7e, 0xfe, + 0x01, 0x81, 0x41, 0xc1, 0x21, 0xa1, 0x61, 0xe1, + 0x11, 0x91, 0x51, 0xd1, 0x31, 0xb1, 0x71, 0xf1, + 0x09, 0x89, 0x49, 0xc9, 0x29, 0xa9, 0x69, 0xe9, + 0x19, 0x99, 0x59, 0xd9, 0x39, 0xb9, 0x79, 0xf9, + 0x05, 0x85, 0x45, 0xc5, 0x25, 0xa5, 0x65, 0xe5, + 0x15, 0x95, 0x55, 0xd5, 0x35, 0xb5, 0x75, 0xf5, + 0x0d, 0x8d, 0x4d, 0xcd, 0x2d, 0xad, 0x6d, 0xed, + 0x1d, 0x9d, 0x5d, 0xdd, 0x3d, 0xbd, 0x7d, 0xfd, + 0x03, 0x83, 0x43, 0xc3, 0x23, 0xa3, 0x63, 0xe3, + 0x13, 0x93, 0x53, 0xd3, 0x33, 0xb3, 0x73, 0xf3, + 0x0b, 0x8b, 0x4b, 0xcb, 0x2b, 0xab, 0x6b, 0xeb, + 0x1b, 0x9b, 0x5b, 0xdb, 0x3b, 0xbb, 0x7b, 0xfb, + 0x07, 0x87, 0x47, 0xc7, 0x27, 0xa7, 0x67, 0xe7, + 0x17, 0x97, 0x57, 0xd7, 0x37, 0xb7, 0x77, 0xf7, + 0x0f, 0x8f, 0x4f, 0xcf, 0x2f, 0xaf, 0x6f, 0xef, + 0x1f, 0x9f, 0x5f, 0xdf, 0x3f, 0xbf, 0x7f, 0xff +}; + +//------------------------------------------------------------------------ +// SplashT1Font +//------------------------------------------------------------------------ + +SplashT1Font::SplashT1Font(SplashT1FontFile *fontFileA, SplashCoord *matA, + SplashCoord *textMatA): + SplashFont(fontFileA, matA, textMatA, fontFileA->engine->aa) +{ + T1_TMATRIX matrix; + BBox bbox; + SplashCoord bbx0, bby0, bbx1, bby1; + int x, y; + + t1libID = T1_CopyFont(fontFileA->t1libID); + outlineID = -1; + + // compute font size + size = (float)splashSqrt(mat[2]*mat[2] + mat[3]*mat[3]); + + // transform the four corners of the font bounding box -- the min + // and max values form the bounding box of the transformed font + bbox = T1_GetFontBBox(t1libID); + bbx0 = 0.001 * bbox.llx; + bby0 = 0.001 * bbox.lly; + bbx1 = 0.001 * bbox.urx; + bby1 = 0.001 * bbox.ury; + // some fonts are completely broken, so we fake it (with values + // large enough that most glyphs should fit) + if (bbx0 == 0 && bby0 == 0 && bbx1 == 0 && bby1 == 0) { + bbx0 = bby0 = -0.5; + bbx1 = bby1 = 1.5; + } + x = (int)(mat[0] * bbx0 + mat[2] * bby0); + xMin = xMax = x; + y = (int)(mat[1] * bbx0 + mat[3] * bby0); + yMin = yMax = y; + x = (int)(mat[0] * bbx0 + mat[2] * bby1); + if (x < xMin) { + xMin = x; + } else if (x > xMax) { + xMax = x; + } + y = (int)(mat[1] * bbx0 + mat[3] * bby1); + if (y < yMin) { + yMin = y; + } else if (y > yMax) { + yMax = y; + } + x = (int)(mat[0] * bbx1 + mat[2] * bby0); + if (x < xMin) { + xMin = x; + } else if (x > xMax) { + xMax = x; + } + y = (int)(mat[1] * bbx1 + mat[3] * bby0); + if (y < yMin) { + yMin = y; + } else if (y > yMax) { + yMax = y; + } + x = (int)(mat[0] * bbx1 + mat[2] * bby1); + if (x < xMin) { + xMin = x; + } else if (x > xMax) { + xMax = x; + } + y = (int)(mat[1] * bbx1 + mat[3] * bby1); + if (y < yMin) { + yMin = y; + } else if (y > yMax) { + yMax = y; + } + // This is a kludge: some buggy PDF generators embed fonts with + // zero bounding boxes. + if (xMax == xMin) { + xMin = 0; + xMax = (int)size; + } + if (yMax == yMin) { + yMin = 0; + yMax = (int)(1.2 * size); + } + // Another kludge: an unusually large xMin or yMin coordinate is + // probably wrong. + if (xMin > 0) { + xMin = 0; + } + if (yMin > 0) { + yMin = 0; + } + // Another kludge: t1lib doesn't correctly handle fonts with + // real (non-integer) bounding box coordinates. + if (xMax - xMin > 5000) { + xMin = 0; + xMax = (int)size; + } + if (yMax - yMin > 5000) { + yMin = 0; + yMax = (int)(1.2 * size); + } + + // transform the font + matrix.cxx = (double)mat[0] / size; + matrix.cxy = (double)mat[1] / size; + matrix.cyx = (double)mat[2] / size; + matrix.cyy = (double)mat[3] / size; + T1_TransformFont(t1libID, &matrix); +} + +SplashT1Font::~SplashT1Font() { + T1_DeleteFont(t1libID); + if (outlineID >= 0) { + T1_DeleteFont(outlineID); + } +} + +GBool SplashT1Font::getGlyph(int c, int xFrac, int yFrac, + SplashGlyphBitmap *bitmap, int x0, int y0, SplashClip *clip, SplashClipResult *clipRes) { + return SplashFont::getGlyph(c, 0, 0, bitmap, x0, y0, clip, clipRes); +} + +GBool SplashT1Font::makeGlyph(int c, int xFrac, int yFrac, + SplashGlyphBitmap *bitmap, int x0, int y0, SplashClip *clip, SplashClipResult *clipRes) { + GLYPH *glyph; + int n, i; + + if (aa) { + glyph = T1_AASetChar(t1libID, c, size, NULL); + } else { + glyph = T1_SetChar(t1libID, c, size, NULL); + } + if (!glyph) { + return gFalse; + } + + bitmap->x = -glyph->metrics.leftSideBearing; + bitmap->y = glyph->metrics.ascent; + bitmap->w = glyph->metrics.rightSideBearing - glyph->metrics.leftSideBearing; + bitmap->h = glyph->metrics.ascent - glyph->metrics.descent; + bitmap->aa = aa; + if (aa) { + bitmap->data = (Guchar *)glyph->bits; + bitmap->freeData = gFalse; + } else { + n = bitmap->h * ((bitmap->w + 7) >> 3); + bitmap->data = (Guchar *)gmalloc(n); + for (i = 0; i < n; ++i) { + bitmap->data[i] = bitReverse[glyph->bits[i] & 0xff]; + } + bitmap->freeData = gTrue; + } + + *clipRes = clip->testRect(x0 - bitmap->x, + y0 - bitmap->y, + x0 - bitmap->x + bitmap->w - 1, + y0 - bitmap->y + bitmap->h - 1); + + return gTrue; +} + +SplashPath *SplashT1Font::getGlyphPath(int c) { + T1_TMATRIX matrix; + SplashPath *path; + T1_OUTLINE *outline; + T1_PATHSEGMENT *seg; + T1_BEZIERSEGMENT *bez; + SplashCoord x, y, x1, y1; + GBool needClose; + + if (outlineID < 0) { + outlineID = T1_CopyFont(((SplashT1FontFile *)fontFile)->t1libID); + outlineSize = (float)splashSqrt(textMat[2]*textMat[2] + + textMat[3]*textMat[3]); + matrix.cxx = (double)textMat[0] / outlineSize; + matrix.cxy = (double)textMat[1] / outlineSize; + matrix.cyx = (double)textMat[2] / outlineSize; + matrix.cyy = (double)textMat[3] / outlineSize; + // t1lib doesn't seem to handle small sizes correctly here, so set + // the size to 1000, and scale the resulting coordinates later + outlineMul = (float)(outlineSize / 65536000.0); + outlineSize = 1000; + T1_TransformFont(outlineID, &matrix); + } + + path = new SplashPath(); + if ((outline = T1_GetCharOutline(outlineID, c, outlineSize, NULL))) { + x = 0; + y = 0; + needClose = gFalse; + for (seg = outline; seg; seg = seg->link) { + switch (seg->type) { + case T1_PATHTYPE_MOVE: + if (needClose) { + path->close(); + needClose = gFalse; + } + x += seg->dest.x * outlineMul; + y += seg->dest.y * outlineMul; + path->moveTo(x, -y); + break; + case T1_PATHTYPE_LINE: + x += seg->dest.x * outlineMul; + y += seg->dest.y * outlineMul; + path->lineTo(x, -y); + needClose = gTrue; + break; + case T1_PATHTYPE_BEZIER: + bez = (T1_BEZIERSEGMENT *)seg; + x1 = x + (SplashCoord)(bez->dest.x * outlineMul); + y1 = y + (SplashCoord)(bez->dest.y * outlineMul); + path->curveTo(x + (SplashCoord)(bez->B.x * outlineMul), + -(y + (SplashCoord)(bez->B.y * outlineMul)), + x + (SplashCoord)(bez->C.x * outlineMul), + -(y + (SplashCoord)(bez->C.y * outlineMul)), + x1, -y1); + x = x1; + y = y1; + needClose = gTrue; + break; + } + } + if (needClose) { + path->close(); + } + T1_FreeOutline(outline); + } + + return path; +} + +#endif // HAVE_T1LIB_H diff --git a/kpdf/xpdf/splash/SplashT1Font.h b/kpdf/xpdf/splash/SplashT1Font.h new file mode 100644 index 00000000..129c6ad5 --- /dev/null +++ b/kpdf/xpdf/splash/SplashT1Font.h @@ -0,0 +1,57 @@ +//======================================================================== +// +// SplashT1Font.h +// +//======================================================================== + +#ifndef SPLASHT1FONT_H +#define SPLASHT1FONT_H + +#include + +#if HAVE_T1LIB_H + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "SplashFont.h" + +class SplashT1FontFile; + +//------------------------------------------------------------------------ +// SplashT1Font +//------------------------------------------------------------------------ + +class SplashT1Font: public SplashFont { +public: + + SplashT1Font(SplashT1FontFile *fontFileA, SplashCoord *matA, + SplashCoord *textMatA); + + virtual ~SplashT1Font(); + + // Munge xFrac and yFrac before calling SplashFont::getGlyph. + virtual GBool getGlyph(int c, int xFrac, int yFrac, + SplashGlyphBitmap *bitmap, int x0, int y0, SplashClip *clip, SplashClipResult *clipRes); + + // Rasterize a glyph. The and values are the same + // as described for getGlyph. + virtual GBool makeGlyph(int c, int xFrac, int yFrac, + SplashGlyphBitmap *bitmap, int x0, int y0, SplashClip *clip, SplashClipResult *clipRes); + + // Return the path for a glyph. + virtual SplashPath *getGlyphPath(int c); + +private: + + int t1libID; // t1lib font ID + int outlineID; // t1lib font ID for glyph outlines + float size; + float outlineSize; // size for glyph outlines + float outlineMul; +}; + +#endif // HAVE_T1LIB_H + +#endif diff --git a/kpdf/xpdf/splash/SplashT1FontEngine.cc b/kpdf/xpdf/splash/SplashT1FontEngine.cc new file mode 100644 index 00000000..68530e88 --- /dev/null +++ b/kpdf/xpdf/splash/SplashT1FontEngine.cc @@ -0,0 +1,122 @@ +//======================================================================== +// +// SplashT1FontEngine.cc +// +//======================================================================== + +#include + +#if HAVE_T1LIB_H + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#ifndef WIN32 +# include +#endif +#include +#include "GString.h" +#include "gfile.h" +#include "FoFiType1C.h" +#include "SplashT1FontFile.h" +#include "SplashT1FontEngine.h" + +#ifdef VMS +#if (__VMS_VER < 70000000) +extern "C" int unlink(char *filename); +#endif +#endif + +//------------------------------------------------------------------------ + +int SplashT1FontEngine::t1libInitCount = 0; + +//------------------------------------------------------------------------ + +static void fileWrite(void *stream, char *data, int len) { + fwrite(data, 1, len, (FILE *)stream); +} + +//------------------------------------------------------------------------ +// SplashT1FontEngine +//------------------------------------------------------------------------ + +SplashT1FontEngine::SplashT1FontEngine(GBool aaA) { + aa = aaA; +} + +SplashT1FontEngine *SplashT1FontEngine::init(GBool aaA) { + // grayVals[i] = round(i * 255 / 16) + static unsigned long grayVals[17] = { + 0, 16, 32, 48, 64, 80, 96, 112, 128, 143, 159, 175, 191, 207, 223, 239, 255 + }; + + //~ for multithreading: need a mutex here + if (t1libInitCount == 0) { + T1_SetBitmapPad(8); + if (!T1_InitLib(NO_LOGFILE | IGNORE_CONFIGFILE | IGNORE_FONTDATABASE | + T1_NO_AFM)) { + return NULL; + } + if (aaA) { + T1_AASetBitsPerPixel(8); + T1_AASetLevel(T1_AA_HIGH); + T1_AAHSetGrayValues(grayVals); + } else { + T1_AANSetGrayValues(0, 1); + } + } + ++t1libInitCount; + + return new SplashT1FontEngine(aaA); +} + +SplashT1FontEngine::~SplashT1FontEngine() { + //~ for multithreading: need a mutex here + if (--t1libInitCount == 0) { + T1_CloseLib(); + } +} + +SplashFontFile *SplashT1FontEngine::loadType1Font(SplashFontFileID *idA, + SplashFontSrc *src, + char **enc) { + return SplashT1FontFile::loadType1Font(this, idA, fileName, deleteFile, enc); +} + +SplashFontFile *SplashT1FontEngine::loadType1CFont(SplashFontFileID *idA, + SplashFontSrc *src, + char **enc) { + FoFiType1C *ff; + GString *tmpFileName; + FILE *tmpFile; + SplashFontFile *ret; + SplashFontSrc *newsrc; + + if (src->isFile) + ff = FoFiType1C::load(src->fileName); + else + ff = new FoFiType1C(src->buf, src->bufLen, gFalse); + if (! ff) + return NULL; + } + tmpFileName = NULL; + if (!openTempFile(&tmpFileName, &tmpFile, "wb", NULL)) { + delete ff; + return NULL; + } + ff->convertToType1(NULL, NULL, gTrue, &fileWrite, tmpFile); + delete ff; + fclose(tmpFile); + newsrc = new SplashFontSrc; + newsrc->setFile(tmpFileName, gTrue); + delete tmpFileName; + ret = SplashT1FontFile::loadType1Font(this, idA, newsrc, enc); + newsrc->unref(); + return ret; +} + +#endif // HAVE_T1LIB_H diff --git a/kpdf/xpdf/splash/SplashT1FontEngine.h b/kpdf/xpdf/splash/SplashT1FontEngine.h new file mode 100644 index 00000000..57a04487 --- /dev/null +++ b/kpdf/xpdf/splash/SplashT1FontEngine.h @@ -0,0 +1,53 @@ +//======================================================================== +// +// SplashT1FontEngine.h +// +//======================================================================== + +#ifndef SPLASHT1FONTENGINE_H +#define SPLASHT1FONTENGINE_H + +#include + +#if HAVE_T1LIB_H + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" + +class SplashFontFile; +class SplashFontFileID; + +//------------------------------------------------------------------------ +// SplashT1FontEngine +//------------------------------------------------------------------------ + +class SplashT1FontEngine { +public: + + static SplashT1FontEngine *init(GBool aaA); + + ~SplashT1FontEngine(); + + // Load fonts. + SplashFontFile *loadType1Font(SplashFontFileID *idA, char *fileName, + GBool deleteFile, char **enc); + SplashFontFile *loadType1CFont(SplashFontFileID *idA, char *fileName, + GBool deleteFile, char **enc); + +private: + + SplashT1FontEngine(GBool aaA); + + static int t1libInitCount; + GBool aa; + + friend class SplashT1FontFile; + friend class SplashT1Font; +}; + +#endif // HAVE_T1LIB_H + +#endif diff --git a/kpdf/xpdf/splash/SplashT1FontFile.cc b/kpdf/xpdf/splash/SplashT1FontFile.cc new file mode 100644 index 00000000..54312055 --- /dev/null +++ b/kpdf/xpdf/splash/SplashT1FontFile.cc @@ -0,0 +1,117 @@ +//======================================================================== +// +// SplashT1FontFile.cc +// +//======================================================================== + +#include + +#if HAVE_T1LIB_H + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include "gmem.h" +#include "SplashT1FontEngine.h" +#include "SplashT1Font.h" +#include "SplashT1FontFile.h" + +//------------------------------------------------------------------------ +// SplashT1FontFile +//------------------------------------------------------------------------ + +SplashFontFile *SplashT1FontFile::loadType1Font(SplashT1FontEngine *engineA, + SplashFontFileID *idA, + SplashFontSrc *src, + char **encA) { + int t1libIDA; + char **encTmp; + char *encStrTmp; + int encStrSize; + char *encPtr; + int i; + + GString *fileNameA; + SplashFontSrc *newsrc = NULL; + SplashFontFile *ff; + + if (! src->isFile) { + GString *tmpFileName; + FILE *tmpFile; + if (!openTempFile(&tmpFileName, &tmpFile, "wb", NULL)) + return NULL; + fwrite(src->buf, 1, src->bufLen, tmpFile); + fclose(tmpFile); + newsrc = new SplashFontSrc; + newsrc->setFile(tmpFileName, gTrue); + src = newsrc; + delete tmpFileName; + } + fileNameA = src->fileName; + // load the font file + if ((t1libIDA = T1_AddFont(fileNameA)) < 0) { + delete newsrc; + return NULL; + } + T1_LoadFont(t1libIDA); + + // reencode it + encStrSize = 0; + for (i = 0; i < 256; ++i) { + if (encA[i]) { + encStrSize += strlen(encA[i]) + 1; + } + } + encTmp = (char **)gmallocn(257, sizeof(char *)); + encStrTmp = (char *)gmallocn(encStrSize, sizeof(char)); + encPtr = encStrTmp; + for (i = 0; i < 256; ++i) { + if (encA[i]) { + strcpy(encPtr, encA[i]); + encTmp[i] = encPtr; + encPtr += strlen(encPtr) + 1; + } else { + encTmp[i] = ".notdef"; + } + } + encTmp[256] = "custom"; + T1_ReencodeFont(t1libIDA, encTmp); + + ff = new SplashT1FontFile(engineA, idA, src, + t1libIDA, encTmp, encStrTmp); + if (newsrc) + newsrc->unref(); + return ff; +} + +SplashT1FontFile::SplashT1FontFile(SplashT1FontEngine *engineA, + SplashFontFileID *idA, + SplashFontSrc *srcA, + int t1libIDA, char **encA, char *encStrA): + SplashFontFile(idA, srcA) +{ + engine = engineA; + t1libID = t1libIDA; + enc = encA; + encStr = encStrA; +} + +SplashT1FontFile::~SplashT1FontFile() { + gfree(encStr); + gfree(enc); + T1_DeleteFont(t1libID); +} + +SplashFont *SplashT1FontFile::makeFont(SplashCoord *mat, + SplashCoord *textMat) { + SplashFont *font; + + font = new SplashT1Font(this, mat, textMat); + font->initCache(); + return font; +} + +#endif // HAVE_T1LIB_H diff --git a/kpdf/xpdf/splash/SplashT1FontFile.h b/kpdf/xpdf/splash/SplashT1FontFile.h new file mode 100644 index 00000000..4dc93cbf --- /dev/null +++ b/kpdf/xpdf/splash/SplashT1FontFile.h @@ -0,0 +1,58 @@ +//======================================================================== +// +// SplashT1FontFile.h +// +//======================================================================== + +#ifndef SPLASHT1FONTFILE_H +#define SPLASHT1FONTFILE_H + +#include + +#if HAVE_T1LIB_H + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "SplashFontFile.h" + +class SplashT1FontEngine; + +//------------------------------------------------------------------------ +// SplashT1FontFile +//------------------------------------------------------------------------ + +class SplashT1FontFile: public SplashFontFile { +public: + + static SplashFontFile *loadType1Font(SplashT1FontEngine *engineA, + SplashFontFileID *idA, + char *fileNameA, + char **encA); + + virtual ~SplashT1FontFile(); + + // Create a new SplashT1Font, i.e., a scaled instance of this font + // file. + virtual SplashFont *makeFont(SplashCoord *mat, + SplashCoord *textMat); + +private: + + SplashT1FontFile(SplashT1FontEngine *engineA, + SplashFontFileID *idA, + char *fileNameA, + int t1libIDA, char **encA, char *encStrA); + + SplashT1FontEngine *engine; + int t1libID; // t1lib font ID + char **enc; + char *encStr; + + friend class SplashT1Font; +}; + +#endif // HAVE_T1LIB_H + +#endif diff --git a/kpdf/xpdf/splash/SplashTypes.h b/kpdf/xpdf/splash/SplashTypes.h new file mode 100644 index 00000000..35551b90 --- /dev/null +++ b/kpdf/xpdf/splash/SplashTypes.h @@ -0,0 +1,132 @@ +//======================================================================== +// +// SplashTypes.h +// +//======================================================================== + +#ifndef SPLASHTYPES_H +#define SPLASHTYPES_H + +#include +#include "gtypes.h" + +//------------------------------------------------------------------------ +// coordinates +//------------------------------------------------------------------------ + +#if USE_FIXEDPOINT +#include "FixedPoint.h" +typedef FixedPoint SplashCoord; +#else +typedef double SplashCoord; +#endif + +//------------------------------------------------------------------------ +// antialiasing +//------------------------------------------------------------------------ + +#define splashAASize 4 + +//------------------------------------------------------------------------ +// colors +//------------------------------------------------------------------------ + +enum SplashColorMode { + splashModeMono1, // 1 bit per component, 8 pixels per byte, + // MSbit is on the left + splashModeMono8, // 1 byte per component, 1 byte per pixel + splashModeRGB8, // 1 byte per component, 3 bytes per pixel: + // RGBRGB... + splashModeBGR8 // 1 byte per component, 3 bytes per pixel: + // BGRBGR... + +#if SPLASH_CMYK + , + splashModeCMYK8 // 1 byte per component, 4 bytes per pixel: + // CMYKCMYK... +#endif +}; + +// number of components in each color mode +// (defined in SplashState.cc) +extern int splashColorModeNComps[]; + +// max number of components in any SplashColor +#if SPLASH_CMYK +# define splashMaxColorComps 4 +#else +# define splashMaxColorComps 3 +#endif + +typedef Guchar SplashColor[splashMaxColorComps]; +typedef Guchar *SplashColorPtr; + +// RGB8 +static inline Guchar splashRGB8R(SplashColorPtr rgb8) { return rgb8[0]; } +static inline Guchar splashRGB8G(SplashColorPtr rgb8) { return rgb8[1]; } +static inline Guchar splashRGB8B(SplashColorPtr rgb8) { return rgb8[2]; } + +// BGR8 +static inline Guchar splashBGR8R(SplashColorPtr bgr8) { return bgr8[2]; } +static inline Guchar splashBGR8G(SplashColorPtr bgr8) { return bgr8[1]; } +static inline Guchar splashBGR8B(SplashColorPtr bgr8) { return bgr8[0]; } + +#if SPLASH_CMYK +// CMYK8 +static inline Guchar splashCMYK8C(SplashColorPtr cmyk8) { return cmyk8[0]; } +static inline Guchar splashCMYK8M(SplashColorPtr cmyk8) { return cmyk8[1]; } +static inline Guchar splashCMYK8Y(SplashColorPtr cmyk8) { return cmyk8[2]; } +static inline Guchar splashCMYK8K(SplashColorPtr cmyk8) { return cmyk8[3]; } +#endif + +static inline void splashColorCopy(SplashColorPtr dest, SplashColorPtr src) { + dest[0] = src[0]; + dest[1] = src[1]; + dest[2] = src[2]; +#if SPLASH_CMYK + dest[3] = src[3]; +#endif +} + +static inline void splashColorXor(SplashColorPtr dest, SplashColorPtr src) { + dest[0] ^= src[0]; + dest[1] ^= src[1]; + dest[2] ^= src[2]; +#if SPLASH_CMYK + dest[3] ^= src[3]; +#endif +} + +//------------------------------------------------------------------------ +// blend functions +//------------------------------------------------------------------------ + +typedef void (*SplashBlendFunc)(SplashColorPtr src, SplashColorPtr dest, + SplashColorPtr blend, SplashColorMode cm); + +//------------------------------------------------------------------------ +// screen parameters +//------------------------------------------------------------------------ + +enum SplashScreenType { + splashScreenDispersed, + splashScreenClustered, + splashScreenStochasticClustered +}; + +struct SplashScreenParams { + SplashScreenType type; + int size; + int dotRadius; + SplashCoord gamma; + SplashCoord blackThreshold; + SplashCoord whiteThreshold; +}; + +//------------------------------------------------------------------------ +// error results +//------------------------------------------------------------------------ + +typedef int SplashError; + +#endif diff --git a/kpdf/xpdf/splash/SplashXPath.cc b/kpdf/xpdf/splash/SplashXPath.cc new file mode 100644 index 00000000..71481eff --- /dev/null +++ b/kpdf/xpdf/splash/SplashXPath.cc @@ -0,0 +1,443 @@ +//======================================================================== +// +// SplashXPath.cc +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include "gmem.h" +#include "SplashMath.h" +#include "SplashPath.h" +#include "SplashXPath.h" + +//------------------------------------------------------------------------ + +struct SplashXPathPoint { + SplashCoord x, y; +}; + +struct SplashXPathAdjust { + int firstPt, lastPt; // range of points + GBool vert; // vertical or horizontal hint + SplashCoord x0a, x0b, // hint boundaries + xma, xmb, + x1a, x1b; + SplashCoord x0, x1, xm; // adjusted coordinates +}; + +//------------------------------------------------------------------------ + +// Transform a point from user space to device space. +inline void SplashXPath::transform(SplashCoord *matrix, + SplashCoord xi, SplashCoord yi, + SplashCoord *xo, SplashCoord *yo) { + // [ m[0] m[1] 0 ] + // [xo yo 1] = [xi yi 1] * [ m[2] m[3] 0 ] + // [ m[4] m[5] 1 ] + *xo = xi * matrix[0] + yi * matrix[2] + matrix[4]; + *yo = xi * matrix[1] + yi * matrix[3] + matrix[5]; +} + +//------------------------------------------------------------------------ +// SplashXPath +//------------------------------------------------------------------------ + +SplashXPath::SplashXPath() { + segs = NULL; + length = size = 0; +} + +SplashXPath::SplashXPath(SplashPath *path, SplashCoord *matrix, + SplashCoord flatness, GBool closeSubpaths) { + SplashPathHint *hint; + SplashXPathPoint *pts; + SplashXPathAdjust *adjusts, *adjust; + SplashCoord x0, y0, x1, y1, x2, y2, x3, y3, xsp, ysp; + SplashCoord adj0, adj1, w; + int ww; + int curSubpath, curSubpathX, i, j; + + // transform the points + pts = (SplashXPathPoint *)gmallocn(path->length, sizeof(SplashXPathPoint)); + for (i = 0; i < path->length; ++i) { + transform(matrix, path->pts[i].x, path->pts[i].y, &pts[i].x, &pts[i].y); + } + + // set up the stroke adjustment hints + if (path->hints) { + adjusts = (SplashXPathAdjust *)gmallocn(path->hintsLength, + sizeof(SplashXPathAdjust)); + for (i = 0; i < path->hintsLength; ++i) { + hint = &path->hints[i]; + if (hint->ctrl0 + 1 >= path->length || hint->ctrl1 + 1 >= path->length) { + gfree(adjusts); + adjusts = NULL; + break; + } + x0 = pts[hint->ctrl0 ].x; y0 = pts[hint->ctrl0 ].y; + x1 = pts[hint->ctrl0 + 1].x; y1 = pts[hint->ctrl0 + 1].y; + x2 = pts[hint->ctrl1 ].x; y2 = pts[hint->ctrl1 ].y; + x3 = pts[hint->ctrl1 + 1].x; y3 = pts[hint->ctrl1 + 1].y; + if (x0 == x1 && x2 == x3) { + adjusts[i].vert = gTrue; + adj0 = x0; + adj1 = x2; + } else if (y0 == y1 && y2 == y3) { + adjusts[i].vert = gFalse; + adj0 = y0; + adj1 = y2; + } else { + gfree(adjusts); + adjusts = NULL; + break; + } + if (adj0 > adj1) { + x0 = adj0; + adj0 = adj1; + adj1 = x0; + } + w = adj1 - adj0; + ww = splashRound(w); + if (ww == 0) { + ww = 1; + } + adjusts[i].x0a = adj0 - 0.01; + adjusts[i].x0b = adj0 + 0.01; + adjusts[i].xma = (SplashCoord)0.5 * (adj0 + adj1) - 0.01; + adjusts[i].xmb = (SplashCoord)0.5 * (adj0 + adj1) + 0.01; + adjusts[i].x1a = adj1 - 0.01; + adjusts[i].x1b = adj1 + 0.01; + adjusts[i].x0 = (SplashCoord)splashRound(adj0); + adjusts[i].x1 = adjusts[i].x0 + ww - 0.01; + adjusts[i].xm = (SplashCoord)0.5 * (adjusts[i].x0 + adjusts[i].x1); + adjusts[i].firstPt = hint->firstPt; + adjusts[i].lastPt = hint->lastPt; + } + + } else { + adjusts = NULL; + } + + // perform stroke adjustment + if (adjusts) { + for (i = 0, adjust = adjusts; i < path->hintsLength; ++i, ++adjust) { + for (j = adjust->firstPt; j <= adjust->lastPt; ++j) { + strokeAdjust(adjust, &pts[j].x, &pts[j].y); + } + } + gfree(adjusts); + } + + segs = NULL; + length = size = 0; + + x0 = y0 = xsp = ysp = 0; // make gcc happy + adj0 = adj1 = 0; // make gcc happy + curSubpath = 0; + curSubpathX = 0; + i = 0; + while (i < path->length) { + + // first point in subpath - skip it + if (path->flags[i] & splashPathFirst) { + x0 = pts[i].x; + y0 = pts[i].y; + xsp = x0; + ysp = y0; + curSubpath = i; + curSubpathX = length; + ++i; + + } else { + + // curve segment + if (path->flags[i] & splashPathCurve) { + x1 = pts[i].x; + y1 = pts[i].y; + x2 = pts[i+1].x; + y2 = pts[i+1].y; + x3 = pts[i+2].x; + y3 = pts[i+2].y; + addCurve(x0, y0, x1, y1, x2, y2, x3, y3, + flatness, + (path->flags[i-1] & splashPathFirst), + (path->flags[i+2] & splashPathLast), + !closeSubpaths && + (path->flags[i-1] & splashPathFirst) && + !(path->flags[i-1] & splashPathClosed), + !closeSubpaths && + (path->flags[i+2] & splashPathLast) && + !(path->flags[i+2] & splashPathClosed)); + x0 = x3; + y0 = y3; + i += 3; + + // line segment + } else { + x1 = pts[i].x; + y1 = pts[i].y; + addSegment(x0, y0, x1, y1, + path->flags[i-1] & splashPathFirst, + path->flags[i] & splashPathLast, + !closeSubpaths && + (path->flags[i-1] & splashPathFirst) && + !(path->flags[i-1] & splashPathClosed), + !closeSubpaths && + (path->flags[i] & splashPathLast) && + !(path->flags[i] & splashPathClosed)); + x0 = x1; + y0 = y1; + ++i; + } + + // close a subpath + if (closeSubpaths && + (path->flags[i-1] & splashPathLast) && + (pts[i-1].x != pts[curSubpath].x || + pts[i-1].y != pts[curSubpath].y)) { + addSegment(x0, y0, xsp, ysp, + gFalse, gTrue, gFalse, gFalse); + } + } + } + + gfree(pts); +} + +// Apply the stroke adjust hints to point : (*, *). +void SplashXPath::strokeAdjust(SplashXPathAdjust *adjust, + SplashCoord *xp, SplashCoord *yp) { + SplashCoord x, y; + + if (adjust->vert) { + x = *xp; + if (x > adjust->x0a && x < adjust->x0b) { + *xp = adjust->x0; + } else if (x > adjust->xma && x < adjust->xmb) { + *xp = adjust->xm; + } else if (x > adjust->x1a && x < adjust->x1b) { + *xp = adjust->x1; + } + } else { + y = *yp; + if (y > adjust->x0a && y < adjust->x0b) { + *yp = adjust->x0; + } else if (y > adjust->xma && y < adjust->xmb) { + *yp = adjust->xm; + } else if (y > adjust->x1a && y < adjust->x1b) { + *yp = adjust->x1; + } + } +} + +SplashXPath::SplashXPath(SplashXPath *xPath) { + length = xPath->length; + size = xPath->size; + segs = (SplashXPathSeg *)gmallocn(size, sizeof(SplashXPathSeg)); + memcpy(segs, xPath->segs, length * sizeof(SplashXPathSeg)); +} + +SplashXPath::~SplashXPath() { + gfree(segs); +} + +// Add space for more segments +void SplashXPath::grow(int nSegs) { + if (length + nSegs > size) { + if (size == 0) { + size = 32; + } + while (size < length + nSegs) { + size *= 2; + } + segs = (SplashXPathSeg *)greallocn(segs, size, sizeof(SplashXPathSeg)); + } +} + +void SplashXPath::addCurve(SplashCoord x0, SplashCoord y0, + SplashCoord x1, SplashCoord y1, + SplashCoord x2, SplashCoord y2, + SplashCoord x3, SplashCoord y3, + SplashCoord flatness, + GBool first, GBool last, GBool end0, GBool end1) { + SplashCoord cx[splashMaxCurveSplits + 1][3]; + SplashCoord cy[splashMaxCurveSplits + 1][3]; + int cNext[splashMaxCurveSplits + 1]; + SplashCoord xl0, xl1, xl2, xr0, xr1, xr2, xr3, xx1, xx2, xh; + SplashCoord yl0, yl1, yl2, yr0, yr1, yr2, yr3, yy1, yy2, yh; + SplashCoord dx, dy, mx, my, d1, d2, flatness2; + int p1, p2, p3; + + flatness2 = flatness * flatness; + + // initial segment + p1 = 0; + p2 = splashMaxCurveSplits; + cx[p1][0] = x0; cy[p1][0] = y0; + cx[p1][1] = x1; cy[p1][1] = y1; + cx[p1][2] = x2; cy[p1][2] = y2; + cx[p2][0] = x3; cy[p2][0] = y3; + cNext[p1] = p2; + + while (p1 < splashMaxCurveSplits) { + + // get the next segment + xl0 = cx[p1][0]; yl0 = cy[p1][0]; + xx1 = cx[p1][1]; yy1 = cy[p1][1]; + xx2 = cx[p1][2]; yy2 = cy[p1][2]; + p2 = cNext[p1]; + xr3 = cx[p2][0]; yr3 = cy[p2][0]; + + // compute the distances from the control points to the + // midpoint of the straight line (this is a bit of a hack, but + // it's much faster than computing the actual distances to the + // line) + mx = (xl0 + xr3) * 0.5; + my = (yl0 + yr3) * 0.5; + dx = xx1 - mx; + dy = yy1 - my; + d1 = dx*dx + dy*dy; + dx = xx2 - mx; + dy = yy2 - my; + d2 = dx*dx + dy*dy; + + // if the curve is flat enough, or no more subdivisions are + // allowed, add the straight line segment + if (p2 - p1 == 1 || (d1 <= flatness2 && d2 <= flatness2)) { + addSegment(xl0, yl0, xr3, yr3, + p1 == 0 && first, + p2 == splashMaxCurveSplits && last, + p1 == 0 && end0, + p2 == splashMaxCurveSplits && end1); + p1 = p2; + + // otherwise, subdivide the curve + } else { + xl1 = (xl0 + xx1) * 0.5; + yl1 = (yl0 + yy1) * 0.5; + xh = (xx1 + xx2) * 0.5; + yh = (yy1 + yy2) * 0.5; + xl2 = (xl1 + xh) * 0.5; + yl2 = (yl1 + yh) * 0.5; + xr2 = (xx2 + xr3) * 0.5; + yr2 = (yy2 + yr3) * 0.5; + xr1 = (xh + xr2) * 0.5; + yr1 = (yh + yr2) * 0.5; + xr0 = (xl2 + xr1) * 0.5; + yr0 = (yl2 + yr1) * 0.5; + // add the new subdivision points + p3 = (p1 + p2) / 2; + cx[p1][1] = xl1; cy[p1][1] = yl1; + cx[p1][2] = xl2; cy[p1][2] = yl2; + cNext[p1] = p3; + cx[p3][0] = xr0; cy[p3][0] = yr0; + cx[p3][1] = xr1; cy[p3][1] = yr1; + cx[p3][2] = xr2; cy[p3][2] = yr2; + cNext[p3] = p2; + } + } +} + +void SplashXPath::addSegment(SplashCoord x0, SplashCoord y0, + SplashCoord x1, SplashCoord y1, + GBool first, GBool last, GBool end0, GBool end1) { + grow(1); + segs[length].x0 = x0; + segs[length].y0 = y0; + segs[length].x1 = x1; + segs[length].y1 = y1; + segs[length].flags = 0; + if (first) { + segs[length].flags |= splashXPathFirst; + } + if (last) { + segs[length].flags |= splashXPathLast; + } + if (end0) { + segs[length].flags |= splashXPathEnd0; + } + if (end1) { + segs[length].flags |= splashXPathEnd1; + } + if (y1 == y0) { + segs[length].dxdy = segs[length].dydx = 0; + segs[length].flags |= splashXPathHoriz; + if (x1 == x0) { + segs[length].flags |= splashXPathVert; + } + } else if (x1 == x0) { + segs[length].dxdy = segs[length].dydx = 0; + segs[length].flags |= splashXPathVert; + } else { +#if USE_FIXEDPOINT + if (FixedPoint::divCheck(x1 - x0, y1 - y0, &segs[length].dxdy)) { + segs[length].dydx = (SplashCoord)1 / segs[length].dxdy; + } else { + segs[length].dxdy = segs[length].dydx = 0; + if (splashAbs(x1 - x0) > splashAbs(y1 - y0)) { + segs[length].flags |= splashXPathHoriz; + } else { + segs[length].flags |= splashXPathVert; + } + } +#else + segs[length].dxdy = (x1 - x0) / (y1 - y0); + segs[length].dydx = (SplashCoord)1 / segs[length].dxdy; +#endif + } + if (y0 > y1) { + segs[length].flags |= splashXPathFlip; + } + ++length; +} + +static int cmpXPathSegs(const void *arg0, const void *arg1) { + SplashXPathSeg *seg0 = (SplashXPathSeg *)arg0; + SplashXPathSeg *seg1 = (SplashXPathSeg *)arg1; + SplashCoord x0, y0, x1, y1; + + if (seg0->flags & splashXPathFlip) { + x0 = seg0->x1; + y0 = seg0->y1; + } else { + x0 = seg0->x0; + y0 = seg0->y0; + } + if (seg1->flags & splashXPathFlip) { + x1 = seg1->x1; + y1 = seg1->y1; + } else { + x1 = seg1->x0; + y1 = seg1->y0; + } + if (y0 != y1) { + return (y0 > y1) ? 1 : -1; + } + if (x0 != x1) { + return (x0 > x1) ? 1 : -1; + } + return 0; +} + +void SplashXPath::aaScale() { + SplashXPathSeg *seg; + int i; + + for (i = 0, seg = segs; i < length; ++i, ++seg) { + seg->x0 *= splashAASize; + seg->y0 *= splashAASize; + seg->x1 *= splashAASize; + seg->y1 *= splashAASize; + } +} + +void SplashXPath::sort() { + qsort(segs, length, sizeof(SplashXPathSeg), &cmpXPathSegs); +} diff --git a/kpdf/xpdf/splash/SplashXPath.h b/kpdf/xpdf/splash/SplashXPath.h new file mode 100644 index 00000000..43276b84 --- /dev/null +++ b/kpdf/xpdf/splash/SplashXPath.h @@ -0,0 +1,100 @@ +//======================================================================== +// +// SplashXPath.h +// +//======================================================================== + +#ifndef SPLASHXPATH_H +#define SPLASHXPATH_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "SplashTypes.h" + +class SplashPath; +struct SplashXPathAdjust; + +//------------------------------------------------------------------------ + +#define splashMaxCurveSplits (1 << 10) + +//------------------------------------------------------------------------ +// SplashXPathSeg +//------------------------------------------------------------------------ + +struct SplashXPathSeg { + SplashCoord x0, y0; // first endpoint + SplashCoord x1, y1; // second endpoint + SplashCoord dxdy; // slope: delta-x / delta-y + SplashCoord dydx; // slope: delta-y / delta-x + Guint flags; +}; + +#define splashXPathFirst 0x01 // first segment of a subpath +#define splashXPathLast 0x02 // last segment of a subpath +#define splashXPathEnd0 0x04 // first endpoint is end of an open subpath +#define splashXPathEnd1 0x08 // second endpoint is end of an open subpath +#define splashXPathHoriz 0x10 // segment is vertical (y0 == y1) + // (dxdy is undef) +#define splashXPathVert 0x20 // segment is horizontal (x0 == x1) + // (dydx is undef) +#define splashXPathFlip 0x40 // y0 > y1 + +//------------------------------------------------------------------------ +// SplashXPath +//------------------------------------------------------------------------ + +class SplashXPath { +public: + + // Expands (converts to segments) and flattens (converts curves to + // lines) . Transforms all points from user space to device + // space, via . If is true, closes all open + // subpaths. + SplashXPath(SplashPath *path, SplashCoord *matrix, + SplashCoord flatness, GBool closeSubpaths); + + // Copy an expanded path. + SplashXPath *copy() { return new SplashXPath(this); } + + ~SplashXPath(); + + // Multiply all coordinates by splashAASize, in preparation for + // anti-aliased rendering. + void aaScale(); + + // Sort by upper coordinate (lower y), in y-major order. + void sort(); + +private: + + SplashXPath(); + SplashXPath(SplashXPath *xPath); + void transform(SplashCoord *matrix, SplashCoord xi, SplashCoord yi, + SplashCoord *xo, SplashCoord *yo); + void strokeAdjust(SplashXPathAdjust *adjust, + SplashCoord *xp, SplashCoord *yp); + void grow(int nSegs); + void addCurve(SplashCoord x0, SplashCoord y0, + SplashCoord x1, SplashCoord y1, + SplashCoord x2, SplashCoord y2, + SplashCoord x3, SplashCoord y3, + SplashCoord flatness, + GBool first, GBool last, GBool end0, GBool end1); + void addSegment(SplashCoord x0, SplashCoord y0, + SplashCoord x1, SplashCoord y1, + GBool first, GBool last, GBool end0, GBool end1); + + SplashXPathSeg *segs; + int length, size; // length and size of segs array + + friend class SplashXPathScanner; + friend class SplashClip; + friend class Splash; +}; + +#endif diff --git a/kpdf/xpdf/splash/SplashXPathScanner.cc b/kpdf/xpdf/splash/SplashXPathScanner.cc new file mode 100644 index 00000000..97e5a9bc --- /dev/null +++ b/kpdf/xpdf/splash/SplashXPathScanner.cc @@ -0,0 +1,429 @@ +//======================================================================== +// +// SplashXPathScanner.cc +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include "gmem.h" +#include "SplashMath.h" +#include "SplashXPath.h" +#include "SplashBitmap.h" +#include "SplashXPathScanner.h" + +//------------------------------------------------------------------------ + +struct SplashIntersect { + int x0, x1; // intersection of segment with [y, y+1) + int count; // EO/NZWN counter increment +}; + +static int cmpIntersect(const void *p0, const void *p1) { + return ((SplashIntersect *)p0)->x0 - ((SplashIntersect *)p1)->x0; +} + +//------------------------------------------------------------------------ +// SplashXPathScanner +//------------------------------------------------------------------------ + +SplashXPathScanner::SplashXPathScanner(SplashXPath *xPathA, GBool eoA) { + SplashXPathSeg *seg; + SplashCoord xMinFP, yMinFP, xMaxFP, yMaxFP; + int i; + + xPath = xPathA; + eo = eoA; + + // compute the bbox + if (xPath->length == 0) { + xMin = yMin = 1; + xMax = yMax = 0; + } else { + seg = &xPath->segs[0]; + if (seg->x0 <= seg->x1) { + xMinFP = seg->x0; + xMaxFP = seg->x1; + } else { + xMinFP = seg->x1; + xMaxFP = seg->x0; + } + if (seg->flags & splashXPathFlip) { + yMinFP = seg->y1; + yMaxFP = seg->y0; + } else { + yMinFP = seg->y0; + yMaxFP = seg->y1; + } + for (i = 1; i < xPath->length; ++i) { + seg = &xPath->segs[i]; + if (seg->x0 < xMinFP) { + xMinFP = seg->x0; + } else if (seg->x0 > xMaxFP) { + xMaxFP = seg->x0; + } + if (seg->x1 < xMinFP) { + xMinFP = seg->x1; + } else if (seg->x1 > xMaxFP) { + xMaxFP = seg->x1; + } + if (seg->flags & splashXPathFlip) { + if (seg->y0 > yMaxFP) { + yMaxFP = seg->y0; + } + } else { + if (seg->y1 > yMaxFP) { + yMaxFP = seg->y1; + } + } + } + xMin = splashFloor(xMinFP); + xMax = splashFloor(xMaxFP); + yMin = splashFloor(yMinFP); + yMax = splashFloor(yMaxFP); + } + + interY = yMin - 1; + xPathIdx = 0; + inter = NULL; + interLen = interSize = 0; +} + +SplashXPathScanner::~SplashXPathScanner() { + gfree(inter); +} + +void SplashXPathScanner::getBBoxAA(int *xMinA, int *yMinA, + int *xMaxA, int *yMaxA) { + *xMinA = xMin / splashAASize; + *yMinA = yMin / splashAASize; + *xMaxA = xMax / splashAASize; + *yMaxA = yMax / splashAASize; +} + +void SplashXPathScanner::getSpanBounds(int y, int *spanXMin, int *spanXMax) { + if (interY != y) { + computeIntersections(y); + } + if (interLen > 0) { + *spanXMin = inter[0].x0; + *spanXMax = inter[interLen - 1].x1; + } else { + *spanXMin = xMax + 1; + *spanXMax = xMax; + } +} + +GBool SplashXPathScanner::test(int x, int y) { + int count, i; + + if (interY != y) { + computeIntersections(y); + } + count = 0; + for (i = 0; i < interLen && inter[i].x0 <= x; ++i) { + if (x <= inter[i].x1) { + return gTrue; + } + count += inter[i].count; + } + return eo ? (count & 1) : (count != 0); +} + +GBool SplashXPathScanner::testSpan(int x0, int x1, int y) { + int count, xx1, i; + + if (interY != y) { + computeIntersections(y); + } + + count = 0; + for (i = 0; i < interLen && inter[i].x1 < x0; ++i) { + count += inter[i].count; + } + + // invariant: the subspan [x0,xx1] is inside the path + xx1 = x0 - 1; + while (xx1 < x1) { + if (i >= interLen) { + return gFalse; + } + if (inter[i].x0 > xx1 + 1 && + !(eo ? (count & 1) : (count != 0))) { + return gFalse; + } + if (inter[i].x1 > xx1) { + xx1 = inter[i].x1; + } + count += inter[i].count; + ++i; + } + + return gTrue; +} + +GBool SplashXPathScanner::getNextSpan(int y, int *x0, int *x1) { + int xx0, xx1; + + if (interY != y) { + computeIntersections(y); + } + if (interIdx >= interLen) { + return gFalse; + } + xx0 = inter[interIdx].x0; + xx1 = inter[interIdx].x1; + interCount += inter[interIdx].count; + ++interIdx; + while (interIdx < interLen && + (inter[interIdx].x0 <= xx1 || + (eo ? (interCount & 1) : (interCount != 0)))) { + if (inter[interIdx].x1 > xx1) { + xx1 = inter[interIdx].x1; + } + interCount += inter[interIdx].count; + ++interIdx; + } + *x0 = xx0; + *x1 = xx1; + return gTrue; +} + +void SplashXPathScanner::computeIntersections(int y) { + SplashCoord xSegMin, xSegMax, ySegMin, ySegMax, xx0, xx1; + SplashXPathSeg *seg; + int i, j; + + // find the first segment that intersects [y, y+1) + i = (y >= interY) ? xPathIdx : 0; + while (i < xPath->length && + xPath->segs[i].y0 < y && xPath->segs[i].y1 < y) { + ++i; + } + xPathIdx = i; + + // find all of the segments that intersect [y, y+1) and create an + // Intersect element for each one + interLen = 0; + for (j = i; j < xPath->length; ++j) { + seg = &xPath->segs[j]; + if (seg->flags & splashXPathFlip) { + ySegMin = seg->y1; + ySegMax = seg->y0; + } else { + ySegMin = seg->y0; + ySegMax = seg->y1; + } + + // ensure that: ySegMin < y+1 + // y <= ySegMax + if (ySegMin >= y + 1) { + break; + } + if (ySegMax < y) { + continue; + } + + if (interLen == interSize) { + if (interSize == 0) { + interSize = 16; + } else { + interSize *= 2; + } + inter = (SplashIntersect *)greallocn(inter, interSize, + sizeof(SplashIntersect)); + } + + if (seg->flags & splashXPathHoriz) { + xx0 = seg->x0; + xx1 = seg->x1; + } else if (seg->flags & splashXPathVert) { + xx0 = xx1 = seg->x0; + } else { + if (seg->x0 < seg->x1) { + xSegMin = seg->x0; + xSegMax = seg->x1; + } else { + xSegMin = seg->x1; + xSegMax = seg->x0; + } + // intersection with top edge + xx0 = seg->x0 + ((SplashCoord)y - seg->y0) * seg->dxdy; + // intersection with bottom edge + xx1 = seg->x0 + ((SplashCoord)y + 1 - seg->y0) * seg->dxdy; + // the segment may not actually extend to the top and/or bottom edges + if (xx0 < xSegMin) { + xx0 = xSegMin; + } else if (xx0 > xSegMax) { + xx0 = xSegMax; + } + if (xx1 < xSegMin) { + xx1 = xSegMin; + } else if (xx1 > xSegMax) { + xx1 = xSegMax; + } + } + if (xx0 < xx1) { + inter[interLen].x0 = splashFloor(xx0); + inter[interLen].x1 = splashFloor(xx1); + } else { + inter[interLen].x0 = splashFloor(xx1); + inter[interLen].x1 = splashFloor(xx0); + } + if (ySegMin <= y && + (SplashCoord)y < ySegMax && + !(seg->flags & splashXPathHoriz)) { + inter[interLen].count = eo ? 1 + : (seg->flags & splashXPathFlip) ? 1 : -1; + } else { + inter[interLen].count = 0; + } + ++interLen; + } + + qsort(inter, interLen, sizeof(SplashIntersect), &cmpIntersect); + + interY = y; + interIdx = 0; + interCount = 0; +} + +void SplashXPathScanner::renderAALine(SplashBitmap *aaBuf, + int *x0, int *x1, int y) { + int xx0, xx1, xx, xxMin, xxMax, yy; + Guchar mask; + SplashColorPtr p; + + memset(aaBuf->getDataPtr(), 0, aaBuf->getRowSize() * aaBuf->getHeight()); + xxMin = aaBuf->getWidth(); + xxMax = -1; + for (yy = 0; yy < splashAASize; ++yy) { + computeIntersections(splashAASize * y + yy); + while (interIdx < interLen) { + xx0 = inter[interIdx].x0; + xx1 = inter[interIdx].x1; + interCount += inter[interIdx].count; + ++interIdx; + while (interIdx < interLen && + (inter[interIdx].x0 <= xx1 || + (eo ? (interCount & 1) : (interCount != 0)))) { + if (inter[interIdx].x1 > xx1) { + xx1 = inter[interIdx].x1; + } + interCount += inter[interIdx].count; + ++interIdx; + } + if (xx0 < 0) { + xx0 = 0; + } + ++xx1; + if (xx1 > aaBuf->getWidth()) { + xx1 = aaBuf->getWidth(); + } + // set [xx0, xx1) to 1 + if (xx0 < xx1) { + xx = xx0; + p = aaBuf->getDataPtr() + yy * aaBuf->getRowSize() + (xx >> 3); + if (xx & 7) { + mask = 0xff >> (xx & 7); + if ((xx & ~7) == (xx1 & ~7)) { + mask &= (Guchar)(0xff00 >> (xx1 & 7)); + } + *p++ |= mask; + xx = (xx & ~7) + 8; + } + for (; xx + 7 < xx1; xx += 8) { + *p++ |= 0xff; + } + if (xx < xx1) { + *p |= (Guchar)(0xff00 >> (xx1 & 7)); + } + } + if (xx0 < xxMin) { + xxMin = xx0; + } + if (xx1 > xxMax) { + xxMax = xx1; + } + } + } + *x0 = xxMin / splashAASize; + *x1 = (xxMax - 1) / splashAASize; +} + +void SplashXPathScanner::clipAALine(SplashBitmap *aaBuf, + int *x0, int *x1, int y) { + int xx0, xx1, xx, yy; + Guchar mask; + SplashColorPtr p; + + for (yy = 0; yy < splashAASize; ++yy) { + xx = *x0 * splashAASize; + computeIntersections(splashAASize * y + yy); + while (interIdx < interLen && xx < (*x1 + 1) * splashAASize) { + xx0 = inter[interIdx].x0; + xx1 = inter[interIdx].x1; + interCount += inter[interIdx].count; + ++interIdx; + while (interIdx < interLen && + (inter[interIdx].x0 <= xx1 || + (eo ? (interCount & 1) : (interCount != 0)))) { + if (inter[interIdx].x1 > xx1) { + xx1 = inter[interIdx].x1; + } + interCount += inter[interIdx].count; + ++interIdx; + } + if (xx0 > aaBuf->getWidth()) { + xx0 = aaBuf->getWidth(); + } + // set [xx, xx0) to 0 + if (xx < xx0) { + p = aaBuf->getDataPtr() + yy * aaBuf->getRowSize() + (xx >> 3); + if (xx & 7) { + mask = (Guchar)(0xff00 >> (xx & 7)); + if ((xx & ~7) == (xx0 & ~7)) { + mask |= 0xff >> (xx0 & 7); + } + *p++ &= mask; + xx = (xx & ~7) + 8; + } + for (; xx + 7 <= xx0; xx += 8) { + *p++ = 0x00; + } + if (xx < xx0) { + *p &= 0xff >> (xx0 & 7); + } + } + if (xx1 >= xx) { + xx = xx1 + 1; + } + } + xx0 = (*x1 + 1) * splashAASize; + if (xx0 > aaBuf->getWidth()) xx0 = aaBuf->getWidth(); + // set [xx, xx0) to 0 + if (xx < xx0) { + p = aaBuf->getDataPtr() + yy * aaBuf->getRowSize() + (xx >> 3); + if (xx & 7) { + mask = (Guchar)(0xff00 >> (xx & 7)); + if ((xx & ~7) == (xx0 & ~7)) { + mask &= 0xff >> (xx0 & 7); + } + *p++ &= mask; + xx = (xx & ~7) + 8; + } + for (; xx + 7 <= xx0; xx += 8) { + *p++ = 0x00; + } + if (xx < xx0) { + *p &= 0xff >> (xx0 & 7); + } + } + } +} diff --git a/kpdf/xpdf/splash/SplashXPathScanner.h b/kpdf/xpdf/splash/SplashXPathScanner.h new file mode 100644 index 00000000..ab02fcc9 --- /dev/null +++ b/kpdf/xpdf/splash/SplashXPathScanner.h @@ -0,0 +1,87 @@ +//======================================================================== +// +// SplashXPathScanner.h +// +//======================================================================== + +#ifndef SPLASHXPATHSCANNER_H +#define SPLASHXPATHSCANNER_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "SplashTypes.h" + +class SplashXPath; +class SplashBitmap; +struct SplashIntersect; + +//------------------------------------------------------------------------ +// SplashXPathScanner +//------------------------------------------------------------------------ + +class SplashXPathScanner { +public: + + // Create a new SplashXPathScanner object. must be sorted. + SplashXPathScanner(SplashXPath *xPathA, GBool eoA); + + ~SplashXPathScanner(); + + // Return the path's bounding box. + void getBBox(int *xMinA, int *yMinA, int *xMaxA, int *yMaxA) + { *xMinA = xMin; *yMinA = yMin; *xMaxA = xMax; *yMaxA = yMax; } + + // Return the path's bounding box. + void getBBoxAA(int *xMinA, int *yMinA, int *xMaxA, int *yMaxA); + + // Return the min/max x values for the span at . + void getSpanBounds(int y, int *spanXMin, int *spanXMax); + + // Returns true if (,) is inside the path. + GBool test(int x, int y); + + // Returns true if the entire span ([,], ) is inside the + // path. + GBool testSpan(int x0, int x1, int y); + + // Returns the next span inside the path at . If is + // different than the previous call to getNextSpan, this returns the + // first span at ; otherwise it returns the next span (relative + // to the previous call to getNextSpan). Returns false if there are + // no more spans at . + GBool getNextSpan(int y, int *x0, int *x1); + + // Renders one anti-aliased line into . Returns the min and + // max x coordinates with non-zero pixels in and . + void renderAALine(SplashBitmap *aaBuf, int *x0, int *x1, int y); + + // Clips an anti-aliased line by setting pixels to zero. On entry, + // all non-zero pixels are between and . This function + // will update and . + void clipAALine(SplashBitmap *aaBuf, int *x0, int *x1, int y); + +private: + + void computeIntersections(int y); + + SplashXPath *xPath; + GBool eo; + int xMin, yMin, xMax, yMax; + + int interY; // current y value + int interIdx; // current index into - used by + // getNextSpan + int interCount; // current EO/NZWN counter - used by + // getNextSpan + int xPathIdx; // current index into - used by + // computeIntersections + SplashIntersect *inter; // intersections array for + int interLen; // number of intersections in + int interSize; // size of the array +}; + +#endif diff --git a/kpdf/xpdf/xpdf/Annot.cc b/kpdf/xpdf/xpdf/Annot.cc new file mode 100644 index 00000000..23df25df --- /dev/null +++ b/kpdf/xpdf/xpdf/Annot.cc @@ -0,0 +1,1556 @@ +//======================================================================== +// +// Annot.cc +// +// Copyright 2000-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include "gmem.h" +#include "GList.h" +#include "Error.h" +#include "Object.h" +#include "Catalog.h" +#include "Gfx.h" +#include "GfxFont.h" +#include "Lexer.h" +#include "Annot.h" + +//------------------------------------------------------------------------ + +#define annotFlagHidden 0x0002 +#define annotFlagPrint 0x0004 +#define annotFlagNoView 0x0020 + +#define fieldFlagReadOnly 0x00000001 +#define fieldFlagRequired 0x00000002 +#define fieldFlagNoExport 0x00000004 +#define fieldFlagMultiline 0x00001000 +#define fieldFlagPassword 0x00002000 +#define fieldFlagNoToggleToOff 0x00004000 +#define fieldFlagRadio 0x00008000 +#define fieldFlagPushbutton 0x00010000 +#define fieldFlagCombo 0x00020000 +#define fieldFlagEdit 0x00040000 +#define fieldFlagSort 0x00080000 +#define fieldFlagFileSelect 0x00100000 +#define fieldFlagMultiSelect 0x00200000 +#define fieldFlagDoNotSpellCheck 0x00400000 +#define fieldFlagDoNotScroll 0x00800000 +#define fieldFlagComb 0x01000000 +#define fieldFlagRichText 0x02000000 +#define fieldFlagRadiosInUnison 0x02000000 +#define fieldFlagCommitOnSelChange 0x04000000 + +#define fieldQuadLeft 0 +#define fieldQuadCenter 1 +#define fieldQuadRight 2 + +// distance of Bezier control point from center for circle approximation +// = (4 * (sqrt(2) - 1) / 3) * r +#define bezierCircle 0.55228475 + +//------------------------------------------------------------------------ +// AnnotBorderStyle +//------------------------------------------------------------------------ + +AnnotBorderStyle::AnnotBorderStyle(AnnotBorderType typeA, double widthA, + double *dashA, int dashLengthA, + double rA, double gA, double bA) { + type = typeA; + width = widthA; + dash = dashA; + dashLength = dashLengthA; + r = rA; + g = gA; + b = bA; +} + +AnnotBorderStyle::~AnnotBorderStyle() { + if (dash) { + gfree(dash); + } +} + +//------------------------------------------------------------------------ +// Annot +//------------------------------------------------------------------------ + +Annot::Annot(XRef *xrefA, Dict * /*acroForm*/, Dict *dict, Ref *refA) { + Object apObj, asObj, obj1, obj2, obj3; + AnnotBorderType borderType; + double borderWidth; + double *borderDash; + int borderDashLength; + double borderR, borderG, borderB; + double t; + int i; + + ok = gTrue; + xref = xrefA; + ref = *refA; + type = NULL; + appearBuf = NULL; + borderStyle = NULL; + + //----- parse the type + + if (dict->lookup("Subtype", &obj1)->isName()) { + type = new GString(obj1.getName()); + } + obj1.free(); + + //----- parse the rectangle + + if (dict->lookup("Rect", &obj1)->isArray() && + obj1.arrayGetLength() == 4) { + xMin = yMin = xMax = yMax = 0; + if (obj1.arrayGet(0, &obj2)->isNum()) { + xMin = obj2.getNum(); + } + obj2.free(); + if (obj1.arrayGet(1, &obj2)->isNum()) { + yMin = obj2.getNum(); + } + obj2.free(); + if (obj1.arrayGet(2, &obj2)->isNum()) { + xMax = obj2.getNum(); + } + obj2.free(); + if (obj1.arrayGet(3, &obj2)->isNum()) { + yMax = obj2.getNum(); + } + obj2.free(); + if (xMin > xMax) { + t = xMin; xMin = xMax; xMax = t; + } + if (yMin > yMax) { + t = yMin; yMin = yMax; yMax = t; + } + } else { + error(-1, "Bad bounding box for annotation"); + ok = gFalse; + } + obj1.free(); + + //----- parse the flags + + if (dict->lookup("F", &obj1)->isInt()) { + flags = obj1.getInt(); + } else { + flags = 0; + } + obj1.free(); + + //----- parse the border style + + borderType = annotBorderSolid; + borderWidth = 1; + borderDash = NULL; + borderDashLength = 0; + borderR = 0; + borderG = 0; + borderB = 1; + if (dict->lookup("BS", &obj1)->isDict()) { + if (obj1.dictLookup("S", &obj2)->isName()) { + if (obj2.isName("S")) { + borderType = annotBorderSolid; + } else if (obj2.isName("D")) { + borderType = annotBorderDashed; + } else if (obj2.isName("B")) { + borderType = annotBorderBeveled; + } else if (obj2.isName("I")) { + borderType = annotBorderInset; + } else if (obj2.isName("U")) { + borderType = annotBorderUnderlined; + } + } + obj2.free(); + if (obj1.dictLookup("W", &obj2)->isNum()) { + borderWidth = obj2.getNum(); + } + obj2.free(); + if (obj1.dictLookup("D", &obj2)->isArray()) { + borderDashLength = obj2.arrayGetLength(); + borderDash = (double *)gmallocn(borderDashLength, sizeof(double)); + for (i = 0; i < borderDashLength; ++i) { + if (obj2.arrayGet(i, &obj3)->isNum()) { + borderDash[i] = obj3.getNum(); + } else { + borderDash[i] = 1; + } + obj3.free(); + } + } + obj2.free(); + } else { + obj1.free(); + if (dict->lookup("Border", &obj1)->isArray()) { + if (obj1.arrayGetLength() >= 3) { + if (obj1.arrayGet(2, &obj2)->isNum()) { + borderWidth = obj2.getNum(); + } + obj2.free(); + if (obj1.arrayGetLength() >= 4) { + if (obj1.arrayGet(3, &obj2)->isArray()) { + borderType = annotBorderDashed; + borderDashLength = obj2.arrayGetLength(); + borderDash = (double *)gmallocn(borderDashLength, sizeof(double)); + for (i = 0; i < borderDashLength; ++i) { + if (obj2.arrayGet(i, &obj3)->isNum()) { + borderDash[i] = obj3.getNum(); + } else { + borderDash[i] = 1; + } + obj3.free(); + } + } else { + // Adobe draws no border at all if the last element is of + // the wrong type. + borderWidth = 0; + } + obj2.free(); + } + } + } + } + obj1.free(); + if (dict->lookup("C", &obj1)->isArray() && obj1.arrayGetLength() == 3) { + if (obj1.arrayGet(0, &obj2)->isNum()) { + borderR = obj2.getNum(); + } + obj1.free(); + if (obj1.arrayGet(1, &obj2)->isNum()) { + borderG = obj2.getNum(); + } + obj1.free(); + if (obj1.arrayGet(2, &obj2)->isNum()) { + borderB = obj2.getNum(); + } + obj1.free(); + } + obj1.free(); + borderStyle = new AnnotBorderStyle(borderType, borderWidth, + borderDash, borderDashLength, + borderR, borderG, borderB); + + //----- get the annotation appearance + + if (dict->lookup("AP", &apObj)->isDict()) { + if (dict->lookup("AS", &asObj)->isName()) { + if (apObj.dictLookup("N", &obj1)->isDict()) { + if (obj1.dictLookupNF(asObj.getName(), &obj2)->isRef()) { + obj2.copy(&appearance); + ok = gTrue; + } else { + obj2.free(); + if (obj1.dictLookupNF("Off", &obj2)->isRef()) { + obj2.copy(&appearance); + } + } + obj2.free(); + } + obj1.free(); + } else { + if (apObj.dictLookupNF("N", &obj1)->isRef()) { + obj1.copy(&appearance); + } + obj1.free(); + } + asObj.free(); + } + apObj.free(); +} + +Annot::~Annot() { + if (type) { + delete type; + } + appearance.free(); + if (appearBuf) { + delete appearBuf; + } + if (borderStyle) { + delete borderStyle; + } +} + +void Annot::generateFieldAppearance(Dict *field, Dict *annot, Dict *acroForm) { + Object mkObj, ftObj, appearDict, drObj, obj1, obj2, obj3; + Dict *mkDict; + MemStream *appearStream; + GfxFontDict *fontDict; + GBool hasCaption; + double w, dx, dy, r; + double *dash; + GString *caption, *da; + GString **text; + GBool *selection; + int dashLength, ff, quadding, comb, nOptions, topIdx, i, j; + + // must be a Widget annotation + if (type->cmp("Widget")) { + return; + } + + appearBuf = new GString(); + + // get the appearance characteristics (MK) dictionary + if (annot->lookup("MK", &mkObj)->isDict()) { + mkDict = mkObj.getDict(); + } else { + mkDict = NULL; + } + + // draw the background + if (mkDict) { + if (mkDict->lookup("BG", &obj1)->isArray() && + obj1.arrayGetLength() > 0) { + setColor(obj1.getArray(), gTrue, 0); + appearBuf->appendf("0 0 {0:.2f} {1:.2f} re f\n", + xMax - xMin, yMax - yMin); + } + obj1.free(); + } + + // get the field type + fieldLookup(field, "FT", &ftObj); + + // get the field flags (Ff) value + if (fieldLookup(field, "Ff", &obj1)->isInt()) { + ff = obj1.getInt(); + } else { + ff = 0; + } + obj1.free(); + + // draw the border + if (mkDict) { + w = borderStyle->getWidth(); + if (w > 0) { + mkDict->lookup("BC", &obj1); + if (!(obj1.isArray() && obj1.arrayGetLength() > 0)) { + mkDict->lookup("BG", &obj1); + } + if (obj1.isArray() && obj1.arrayGetLength() > 0) { + dx = xMax - xMin; + dy = yMax - yMin; + + // radio buttons with no caption have a round border + hasCaption = mkDict->lookup("CA", &obj2)->isString(); + obj2.free(); + if (ftObj.isName("Btn") && (ff & fieldFlagRadio) && !hasCaption) { + r = 0.5 * (dx < dy ? dx : dy); + switch (borderStyle->getType()) { + case annotBorderDashed: + appearBuf->append("["); + borderStyle->getDash(&dash, &dashLength); + for (i = 0; i < dashLength; ++i) { + appearBuf->appendf(" {0:.2f}", dash[i]); + } + appearBuf->append("] 0 d\n"); + // fall through to the solid case + case annotBorderSolid: + case annotBorderUnderlined: + appearBuf->appendf("{0:.2f} w\n", w); + setColor(obj1.getArray(), gFalse, 0); + drawCircle(0.5 * dx, 0.5 * dy, r - 0.5 * w, gFalse); + break; + case annotBorderBeveled: + case annotBorderInset: + appearBuf->appendf("{0:.2f} w\n", 0.5 * w); + setColor(obj1.getArray(), gFalse, 0); + drawCircle(0.5 * dx, 0.5 * dy, r - 0.25 * w, gFalse); + setColor(obj1.getArray(), gFalse, + borderStyle->getType() == annotBorderBeveled ? 1 : -1); + drawCircleTopLeft(0.5 * dx, 0.5 * dy, r - 0.75 * w); + setColor(obj1.getArray(), gFalse, + borderStyle->getType() == annotBorderBeveled ? -1 : 1); + drawCircleBottomRight(0.5 * dx, 0.5 * dy, r - 0.75 * w); + break; + } + + } else { + switch (borderStyle->getType()) { + case annotBorderDashed: + appearBuf->append("["); + borderStyle->getDash(&dash, &dashLength); + for (i = 0; i < dashLength; ++i) { + appearBuf->appendf(" {0:.2f}", dash[i]); + } + appearBuf->append("] 0 d\n"); + // fall through to the solid case + case annotBorderSolid: + appearBuf->appendf("{0:.2f} w\n", w); + setColor(obj1.getArray(), gFalse, 0); + appearBuf->appendf("{0:.2f} {0:.2f} {1:.2f} {2:.2f} re s\n", + 0.5 * w, dx - w, dy - w); + break; + case annotBorderBeveled: + case annotBorderInset: + setColor(obj1.getArray(), gTrue, + borderStyle->getType() == annotBorderBeveled ? 1 : -1); + appearBuf->append("0 0 m\n"); + appearBuf->appendf("0 {0:.2f} l\n", dy); + appearBuf->appendf("{0:.2f} {1:.2f} l\n", dx, dy); + appearBuf->appendf("{0:.2f} {1:.2f} l\n", dx - w, dy - w); + appearBuf->appendf("{0:.2f} {1:.2f} l\n", w, dy - w); + appearBuf->appendf("{0:.2f} {0:.2f} l\n", w); + appearBuf->append("f\n"); + setColor(obj1.getArray(), gTrue, + borderStyle->getType() == annotBorderBeveled ? -1 : 1); + appearBuf->append("0 0 m\n"); + appearBuf->appendf("{0:.2f} 0 l\n", dx); + appearBuf->appendf("{0:.2f} {1:.2f} l\n", dx, dy); + appearBuf->appendf("{0:.2f} {1:.2f} l\n", dx - w, dy - w); + appearBuf->appendf("{0:.2f} {1:.2f} l\n", dx - w, w); + appearBuf->appendf("{0:.2f} {0:.2f} l\n", w); + appearBuf->append("f\n"); + break; + case annotBorderUnderlined: + appearBuf->appendf("{0:.2f} w\n", w); + setColor(obj1.getArray(), gFalse, 0); + appearBuf->appendf("0 0 m {0:.2f} 0 l s\n", dx); + break; + } + + // clip to the inside of the border + appearBuf->appendf("{0:.2f} {0:.2f} {1:.2f} {2:.2f} re W n\n", + w, dx - 2 * w, dy - 2 * w); + } + } + obj1.free(); + } + } + + // get the resource dictionary + acroForm->lookup("DR", &drObj); + + // build the font dictionary + if (drObj.isDict() && drObj.dictLookup("Font", &obj1)->isDict()) { + fontDict = new GfxFontDict(xref, NULL, obj1.getDict()); + } else { + fontDict = NULL; + } + obj1.free(); + + // get the default appearance string + if (fieldLookup(field, "DA", &obj1)->isNull()) { + obj1.free(); + acroForm->lookup("DA", &obj1); + } + if (obj1.isString()) { + da = obj1.getString()->copy(); + } else { + da = NULL; + } + obj1.free(); + + // draw the field contents + if (ftObj.isName("Btn")) { + caption = NULL; + if (mkDict) { + if (mkDict->lookup("CA", &obj1)->isString()) { + caption = obj1.getString()->copy(); + } + obj1.free(); + } + // radio button + if (ff & fieldFlagRadio) { + //~ Acrobat doesn't draw a caption if there is no AP dict (?) + if (fieldLookup(field, "V", &obj1)->isName()) { + if (annot->lookup("AS", &obj2)->isName(obj1.getName())) { + if (caption) { + drawText(caption, da, fontDict, gFalse, 0, fieldQuadCenter, + gFalse, gTrue); + } else { + if (mkDict) { + if (mkDict->lookup("BC", &obj3)->isArray() && + obj3.arrayGetLength() > 0) { + dx = xMax - xMin; + dy = yMax - yMin; + setColor(obj3.getArray(), gTrue, 0); + drawCircle(0.5 * dx, 0.5 * dy, 0.2 * (dx < dy ? dx : dy), + gTrue); + } + obj3.free(); + } + } + } + obj2.free(); + } + obj1.free(); + // pushbutton + } else if (ff & fieldFlagPushbutton) { + if (caption) { + drawText(caption, da, fontDict, gFalse, 0, fieldQuadCenter, + gFalse, gFalse); + } + // checkbox + } else { + // According to the PDF spec the off state must be named "Off", + // and the on state can be named anything, but Acrobat apparently + // looks for "Yes" and treats anything else as off. + if (fieldLookup(field, "V", &obj1)->isName("Yes")) { + if (!caption) { + caption = new GString("3"); // ZapfDingbats checkmark + } + drawText(caption, da, fontDict, gFalse, 0, fieldQuadCenter, + gFalse, gTrue); + } + obj1.free(); + } + if (caption) { + delete caption; + } + } else if (ftObj.isName("Tx")) { + //~ value strings can be Unicode + if (fieldLookup(field, "V", &obj1)->isString()) { + if (fieldLookup(field, "Q", &obj2)->isInt()) { + quadding = obj2.getInt(); + } else { + quadding = fieldQuadLeft; + } + obj2.free(); + comb = 0; + if (ff & fieldFlagComb) { + if (fieldLookup(field, "MaxLen", &obj2)->isInt()) { + comb = obj2.getInt(); + } + obj2.free(); + } + drawText(obj1.getString(), da, fontDict, + ff & fieldFlagMultiline, comb, quadding, gTrue, gFalse); + } + obj1.free(); + } else if (ftObj.isName("Ch")) { + //~ value/option strings can be Unicode + if (fieldLookup(field, "Q", &obj1)->isInt()) { + quadding = obj1.getInt(); + } else { + quadding = fieldQuadLeft; + } + obj1.free(); + // combo box + if (ff & fieldFlagCombo) { + if (fieldLookup(field, "V", &obj1)->isString()) { + drawText(obj1.getString(), da, fontDict, + gFalse, 0, quadding, gTrue, gFalse); + //~ Acrobat draws a popup icon on the right side + } + obj1.free(); + // list box + } else { + if (field->lookup("Opt", &obj1)->isArray()) { + nOptions = obj1.arrayGetLength(); + // get the option text + text = (GString **)gmallocn(nOptions, sizeof(GString *)); + for (i = 0; i < nOptions; ++i) { + text[i] = NULL; + obj1.arrayGet(i, &obj2); + if (obj2.isString()) { + text[i] = obj2.getString()->copy(); + } else if (obj2.isArray() && obj2.arrayGetLength() == 2) { + if (obj2.arrayGet(1, &obj3)->isString()) { + text[i] = obj3.getString()->copy(); + } + obj3.free(); + } + obj2.free(); + if (!text[i]) { + text[i] = new GString(); + } + } + // get the selected option(s) + selection = (GBool *)gmallocn(nOptions, sizeof(GBool)); + //~ need to use the I field in addition to the V field + fieldLookup(field, "V", &obj2); + for (i = 0; i < nOptions; ++i) { + selection[i] = gFalse; + if (obj2.isString()) { + if (!obj2.getString()->cmp(text[i])) { + selection[i] = gTrue; + } + } else if (obj2.isArray()) { + for (j = 0; j < obj2.arrayGetLength(); ++j) { + if (obj2.arrayGet(j, &obj3)->isString() && + !obj3.getString()->cmp(text[i])) { + selection[i] = gTrue; + } + obj3.free(); + } + } + } + obj2.free(); + // get the top index + if (field->lookup("TI", &obj2)->isInt()) { + topIdx = obj2.getInt(); + } else { + topIdx = 0; + } + obj2.free(); + // draw the text + drawListBox(text, selection, nOptions, topIdx, da, fontDict, quadding); + for (i = 0; i < nOptions; ++i) { + delete text[i]; + } + gfree(text); + gfree(selection); + } + obj1.free(); + } + } else if (ftObj.isName("Sig")) { + //~unimp + } else { + error(-1, "Unknown field type"); + } + + if (da) { + delete da; + } + + // build the appearance stream dictionary + appearDict.initDict(xref); + appearDict.dictAdd(copyString("Length"), + obj1.initInt(appearBuf->getLength())); + appearDict.dictAdd(copyString("Subtype"), obj1.initName("Form")); + obj1.initArray(xref); + obj1.arrayAdd(obj2.initReal(0)); + obj1.arrayAdd(obj2.initReal(0)); + obj1.arrayAdd(obj2.initReal(xMax - xMin)); + obj1.arrayAdd(obj2.initReal(yMax - yMin)); + appearDict.dictAdd(copyString("BBox"), &obj1); + + // set the resource dictionary + if (drObj.isDict()) { + appearDict.dictAdd(copyString("Resources"), drObj.copy(&obj1)); + } + drObj.free(); + + // build the appearance stream + appearStream = new MemStream(appearBuf->getCString(), 0, + appearBuf->getLength(), &appearDict); + appearance.free(); + appearance.initStream(appearStream); + + if (fontDict) { + delete fontDict; + } + ftObj.free(); + mkObj.free(); +} + +// Set the current fill or stroke color, based on (which should +// have 1, 3, or 4 elements). If is +1, color is brightened; +// if is -1, color is darkened; otherwise color is not +// modified. +void Annot::setColor(Array *a, GBool fill, int adjust) { + Object obj1; + double color[4]; + int nComps, i; + + nComps = a->getLength(); + if (nComps > 4) { + nComps = 4; + } + for (i = 0; i < nComps && i < 4; ++i) { + if (a->get(i, &obj1)->isNum()) { + color[i] = obj1.getNum(); + } else { + color[i] = 0; + } + obj1.free(); + } + if (nComps == 4) { + adjust = -adjust; + } + if (adjust > 0) { + for (i = 0; i < nComps; ++i) { + color[i] = 0.5 * color[i] + 0.5; + } + } else if (adjust < 0) { + for (i = 0; i < nComps; ++i) { + color[i] = 0.5 * color[i]; + } + } + if (nComps == 4) { + appearBuf->appendf("{0:.2f} {1:.2f} {2:.2f} {3:.2f} {4:c}\n", + color[0], color[1], color[2], color[3], + fill ? 'k' : 'K'); + } else if (nComps == 3) { + appearBuf->appendf("{0:.2f} {1:.2f} {2:.2f} {3:s}\n", + color[0], color[1], color[2], + fill ? "rg" : "RG"); + } else { + appearBuf->appendf("{0:.2f} {1:c}\n", + color[0], + fill ? 'g' : 'G'); + } +} + +// Draw the variable text or caption for a field. +void Annot::drawText(GString *text, GString *da, GfxFontDict *fontDict, + GBool multiline, int comb, int quadding, + GBool txField, GBool forceZapfDingbats) { + GList *daToks; + GString *tok; + GfxFont *font; + double fontSize, fontSize2, border, x, xPrev, y, w, w2, wMax; + int tfPos, tmPos, i, j, k, c; + + //~ if there is no MK entry, this should use the existing content stream, + //~ and only replace the marked content portion of it + //~ (this is only relevant for Tx fields) + + // parse the default appearance string + tfPos = tmPos = -1; + if (da) { + daToks = new GList(); + i = 0; + while (i < da->getLength()) { + while (i < da->getLength() && Lexer::isSpace(da->getChar(i))) { + ++i; + } + if (i < da->getLength()) { + for (j = i + 1; + j < da->getLength() && !Lexer::isSpace(da->getChar(j)); + ++j) ; + daToks->append(new GString(da, i, j - i)); + i = j; + } + } + for (i = 2; i < daToks->getLength(); ++i) { + if (i >= 2 && !((GString *)daToks->get(i))->cmp("Tf")) { + tfPos = i - 2; + } else if (i >= 6 && !((GString *)daToks->get(i))->cmp("Tm")) { + tmPos = i - 6; + } + } + } else { + daToks = NULL; + } + + // force ZapfDingbats + //~ this should create the font if needed (?) + if (forceZapfDingbats) { + if (tfPos >= 0) { + tok = (GString *)daToks->get(tfPos); + if (tok->cmp("/ZaDb")) { + tok->clear(); + tok->append("/ZaDb"); + } + } + } + + // get the font and font size + font = NULL; + fontSize = 0; + if (tfPos >= 0) { + tok = (GString *)daToks->get(tfPos); + if (tok->getLength() >= 1 && tok->getChar(0) == '/') { + if (!fontDict || !(font = fontDict->lookup(tok->getCString() + 1))) { + error(-1, "Unknown font in field's DA string"); + } + } else { + error(-1, "Invalid font name in 'Tf' operator in field's DA string"); + } + tok = (GString *)daToks->get(tfPos + 1); + fontSize = atof(tok->getCString()); + } else { + error(-1, "Missing 'Tf' operator in field's DA string"); + } + + // get the border width + border = borderStyle->getWidth(); + + // setup + if (txField) { + appearBuf->append("/Tx BMC\n"); + } + appearBuf->append("q\n"); + appearBuf->append("BT\n"); + + // multi-line text + if (multiline) { + // note: the comb flag is ignored in multiline mode + + wMax = xMax - xMin - 2 * border - 4; + + // compute font autosize + if (fontSize == 0) { + for (fontSize = 20; fontSize > 1; --fontSize) { + y = yMax - yMin; + w2 = 0; + i = 0; + while (i < text->getLength()) { + getNextLine(text, i, font, fontSize, wMax, &j, &w, &k); + if (w > w2) { + w2 = w; + } + i = k; + y -= fontSize; + } + // approximate the descender for the last line + if (y >= 0.33 * fontSize) { + break; + } + } + if (tfPos >= 0) { + tok = (GString *)daToks->get(tfPos + 1); + tok->clear(); + tok->appendf("{0:.2f}", fontSize); + } + } + + // starting y coordinate + // (note: each line of text starts with a Td operator that moves + // down a line) + y = yMax - yMin; + + // set the font matrix + if (tmPos >= 0) { + tok = (GString *)daToks->get(tmPos + 4); + tok->clear(); + tok->append('0'); + tok = (GString *)daToks->get(tmPos + 5); + tok->clear(); + tok->appendf("{0:.2f}", y); + } + + // write the DA string + if (daToks) { + for (i = 0; i < daToks->getLength(); ++i) { + appearBuf->append((GString *)daToks->get(i))->append(' '); + } + } + + // write the font matrix (if not part of the DA string) + if (tmPos < 0) { + appearBuf->appendf("1 0 0 1 0 {0:.2f} Tm\n", y); + } + + // write a series of lines of text + i = 0; + xPrev = 0; + while (i < text->getLength()) { + + getNextLine(text, i, font, fontSize, wMax, &j, &w, &k); + + // compute text start position + switch (quadding) { + case fieldQuadLeft: + default: + x = border + 2; + break; + case fieldQuadCenter: + x = (xMax - xMin - w) / 2; + break; + case fieldQuadRight: + x = xMax - xMin - border - 2 - w; + break; + } + + // draw the line + appearBuf->appendf("{0:.2f} {1:.2f} Td\n", x - xPrev, -fontSize); + appearBuf->append('('); + for (; i < j; ++i) { + c = text->getChar(i) & 0xff; + if (c == '(' || c == ')' || c == '\\') { + appearBuf->append('\\'); + appearBuf->append(c); + } else if (c < 0x20 || c >= 0x80) { + appearBuf->appendf("\\{0:03o}", c); + } else { + appearBuf->append(c); + } + } + appearBuf->append(") Tj\n"); + + // next line + i = k; + xPrev = x; + } + + // single-line text + } else { + //~ replace newlines with spaces? - what does Acrobat do? + + // comb formatting + if (comb > 0) { + + // compute comb spacing + w = (xMax - xMin - 2 * border) / comb; + + // compute font autosize + if (fontSize == 0) { + fontSize = yMax - yMin - 2 * border; + if (w < fontSize) { + fontSize = w; + } + fontSize = floor(fontSize); + if (tfPos >= 0) { + tok = (GString *)daToks->get(tfPos + 1); + tok->clear(); + tok->appendf("{0:.2f}", fontSize); + } + } + + // compute text start position + switch (quadding) { + case fieldQuadLeft: + default: + x = border + 2; + break; + case fieldQuadCenter: + x = border + 2 + 0.5 * (comb - text->getLength()) * w; + break; + case fieldQuadRight: + x = border + 2 + (comb - text->getLength()) * w; + break; + } + y = 0.5 * (yMax - yMin) - 0.4 * fontSize; + + // set the font matrix + if (tmPos >= 0) { + tok = (GString *)daToks->get(tmPos + 4); + tok->clear(); + tok->appendf("{0:.2f}", x); + tok = (GString *)daToks->get(tmPos + 5); + tok->clear(); + tok->appendf("{0:.2f}", y); + } + + // write the DA string + if (daToks) { + for (i = 0; i < daToks->getLength(); ++i) { + appearBuf->append((GString *)daToks->get(i))->append(' '); + } + } + + // write the font matrix (if not part of the DA string) + if (tmPos < 0) { + appearBuf->appendf("1 0 0 1 {0:.2f} {1:.2f} Tm\n", x, y); + } + + // write the text string + //~ this should center (instead of left-justify) each character within + //~ its comb cell + for (i = 0; i < text->getLength(); ++i) { + if (i > 0) { + appearBuf->appendf("{0:.2f} 0 Td\n", w); + } + appearBuf->append('('); + c = text->getChar(i) & 0xff; + if (c == '(' || c == ')' || c == '\\') { + appearBuf->append('\\'); + appearBuf->append(c); + } else if (c < 0x20 || c >= 0x80) { + appearBuf->appendf("{0:.2f} 0 Td\n", w); + } else { + appearBuf->append(c); + } + appearBuf->append(") Tj\n"); + } + + // regular (non-comb) formatting + } else { + + // compute string width + if (font && !font->isCIDFont()) { + w = 0; + for (i = 0; i < text->getLength(); ++i) { + w += ((Gfx8BitFont *)font)->getWidth(text->getChar(i)); + } + } else { + // otherwise, make a crude estimate + w = text->getLength() * 0.5; + } + + // compute font autosize + if (fontSize == 0) { + fontSize = yMax - yMin - 2 * border; + fontSize2 = (xMax - xMin - 4 - 2 * border) / w; + if (fontSize2 < fontSize) { + fontSize = fontSize2; + } + fontSize = floor(fontSize); + if (tfPos >= 0) { + tok = (GString *)daToks->get(tfPos + 1); + tok->clear(); + tok->appendf("{0:.2f}", fontSize); + } + } + + // compute text start position + w *= fontSize; + switch (quadding) { + case fieldQuadLeft: + default: + x = border + 2; + break; + case fieldQuadCenter: + x = (xMax - xMin - w) / 2; + break; + case fieldQuadRight: + x = xMax - xMin - border - 2 - w; + break; + } + y = 0.5 * (yMax - yMin) - 0.4 * fontSize; + + // set the font matrix + if (tmPos >= 0) { + tok = (GString *)daToks->get(tmPos + 4); + tok->clear(); + tok->appendf("{0:.2f}", x); + tok = (GString *)daToks->get(tmPos + 5); + tok->clear(); + tok->appendf("{0:.2f}", y); + } + + // write the DA string + if (daToks) { + for (i = 0; i < daToks->getLength(); ++i) { + appearBuf->append((GString *)daToks->get(i))->append(' '); + } + } + + // write the font matrix (if not part of the DA string) + if (tmPos < 0) { + appearBuf->appendf("1 0 0 1 {0:.2f} {1:.2f} Tm\n", x, y); + } + + // write the text string + appearBuf->append('('); + for (i = 0; i < text->getLength(); ++i) { + c = text->getChar(i) & 0xff; + if (c == '(' || c == ')' || c == '\\') { + appearBuf->append('\\'); + appearBuf->append(c); + } else if (c < 0x20 || c >= 0x80) { + appearBuf->appendf("\\{0:03o}", c); + } else { + appearBuf->append(c); + } + } + appearBuf->append(") Tj\n"); + } + } + + // cleanup + appearBuf->append("ET\n"); + appearBuf->append("Q\n"); + if (txField) { + appearBuf->append("EMC\n"); + } + + if (daToks) { + deleteGList(daToks, GString); + } +} + +// Draw the variable text or caption for a field. +void Annot::drawListBox(GString **text, GBool *selection, + int nOptions, int topIdx, + GString *da, GfxFontDict *fontDict, GBool quadding) { + GList *daToks; + GString *tok; + GfxFont *font; + double fontSize, fontSize2, border, x, y, w, wMax; + int tfPos, tmPos, i, j, c; + + //~ if there is no MK entry, this should use the existing content stream, + //~ and only replace the marked content portion of it + //~ (this is only relevant for Tx fields) + + // parse the default appearance string + tfPos = tmPos = -1; + if (da) { + daToks = new GList(); + i = 0; + while (i < da->getLength()) { + while (i < da->getLength() && Lexer::isSpace(da->getChar(i))) { + ++i; + } + if (i < da->getLength()) { + for (j = i + 1; + j < da->getLength() && !Lexer::isSpace(da->getChar(j)); + ++j) ; + daToks->append(new GString(da, i, j - i)); + i = j; + } + } + for (i = 2; i < daToks->getLength(); ++i) { + if (i >= 2 && !((GString *)daToks->get(i))->cmp("Tf")) { + tfPos = i - 2; + } else if (i >= 6 && !((GString *)daToks->get(i))->cmp("Tm")) { + tmPos = i - 6; + } + } + } else { + daToks = NULL; + } + + // get the font and font size + font = NULL; + fontSize = 0; + if (tfPos >= 0) { + tok = (GString *)daToks->get(tfPos); + if (tok->getLength() >= 1 && tok->getChar(0) == '/') { + if (!fontDict || !(font = fontDict->lookup(tok->getCString() + 1))) { + error(-1, "Unknown font in field's DA string"); + } + } else { + error(-1, "Invalid font name in 'Tf' operator in field's DA string"); + } + tok = (GString *)daToks->get(tfPos + 1); + fontSize = atof(tok->getCString()); + } else { + error(-1, "Missing 'Tf' operator in field's DA string"); + } + + // get the border width + border = borderStyle->getWidth(); + + // compute font autosize + if (fontSize == 0) { + wMax = 0; + for (i = 0; i < nOptions; ++i) { + if (font && !font->isCIDFont()) { + w = 0; + for (j = 0; j < text[i]->getLength(); ++j) { + w += ((Gfx8BitFont *)font)->getWidth(text[i]->getChar(j)); + } + } else { + // otherwise, make a crude estimate + w = text[i]->getLength() * 0.5; + } + if (w > wMax) { + wMax = w; + } + } + fontSize = yMax - yMin - 2 * border; + fontSize2 = (xMax - xMin - 4 - 2 * border) / wMax; + if (fontSize2 < fontSize) { + fontSize = fontSize2; + } + fontSize = floor(fontSize); + if (tfPos >= 0) { + tok = (GString *)daToks->get(tfPos + 1); + tok->clear(); + tok->appendf("{0:.2f}", fontSize); + } + } + + // draw the text + y = yMax - yMin - 1.1 * fontSize; + for (i = topIdx; i < nOptions; ++i) { + + // setup + appearBuf->append("q\n"); + + // draw the background if selected + if (selection[i]) { + appearBuf->append("0 g f\n"); + appearBuf->appendf("{0:.2f} {1:.2f} {2:.2f} {3:.2f} re f\n", + border, + y - 0.2 * fontSize, + xMax - xMin - 2 * border, + 1.1 * fontSize); + } + + // setup + appearBuf->append("BT\n"); + + // compute string width + if (font && !font->isCIDFont()) { + w = 0; + for (j = 0; j < text[i]->getLength(); ++j) { + w += ((Gfx8BitFont *)font)->getWidth(text[i]->getChar(j)); + } + } else { + // otherwise, make a crude estimate + w = text[i]->getLength() * 0.5; + } + + // compute text start position + w *= fontSize; + switch (quadding) { + case fieldQuadLeft: + default: + x = border + 2; + break; + case fieldQuadCenter: + x = (xMax - xMin - w) / 2; + break; + case fieldQuadRight: + x = xMax - xMin - border - 2 - w; + break; + } + + // set the font matrix + if (tmPos >= 0) { + tok = (GString *)daToks->get(tmPos + 4); + tok->clear(); + tok->appendf("{0:.2f}", x); + tok = (GString *)daToks->get(tmPos + 5); + tok->clear(); + tok->appendf("{0:.2f}", y); + } + + // write the DA string + if (daToks) { + for (j = 0; j < daToks->getLength(); ++j) { + appearBuf->append((GString *)daToks->get(j))->append(' '); + } + } + + // write the font matrix (if not part of the DA string) + if (tmPos < 0) { + appearBuf->appendf("1 0 0 1 {0:.2f} {1:.2f} Tm\n", x, y); + } + + // change the text color if selected + if (selection[i]) { + appearBuf->append("1 g\n"); + } + + // write the text string + appearBuf->append('('); + for (j = 0; j < text[i]->getLength(); ++j) { + c = text[i]->getChar(j) & 0xff; + if (c == '(' || c == ')' || c == '\\') { + appearBuf->append('\\'); + appearBuf->append(c); + } else if (c < 0x20 || c >= 0x80) { + appearBuf->appendf("\\{0:03o}", c); + } else { + appearBuf->append(c); + } + } + appearBuf->append(") Tj\n"); + + // cleanup + appearBuf->append("ET\n"); + appearBuf->append("Q\n"); + + // next line + y -= 1.1 * fontSize; + } + + if (daToks) { + deleteGList(daToks, GString); + } +} + +// Figure out how much text will fit on the next line. Returns: +// *end = one past the last character to be included +// *width = width of the characters start .. end-1 +// *next = index of first character on the following line +void Annot::getNextLine(GString *text, int start, + GfxFont *font, double fontSize, double wMax, + int *end, double *width, int *next) { + double w, dw; + int j, k, c; + + // figure out how much text will fit on the line + //~ what does Adobe do with tabs? + w = 0; + for (j = start; j < text->getLength() && w <= wMax; ++j) { + c = text->getChar(j) & 0xff; + if (c == 0x0a || c == 0x0d) { + break; + } + if (font && !font->isCIDFont()) { + dw = ((Gfx8BitFont *)font)->getWidth(c) * fontSize; + } else { + // otherwise, make a crude estimate + dw = 0.5 * fontSize; + } + w += dw; + } + if (w > wMax) { + for (k = j; k > start && text->getChar(k-1) != ' '; --k) ; + for (; k > start && text->getChar(k-1) == ' '; --k) ; + if (k > start) { + j = k; + } + if (j == start) { + // handle the pathological case where the first character is + // too wide to fit on the line all by itself + j = start + 1; + } + } + *end = j; + + // compute the width + w = 0; + for (k = start; k < j; ++k) { + if (font && !font->isCIDFont()) { + dw = ((Gfx8BitFont *)font)->getWidth(text->getChar(k)) * fontSize; + } else { + // otherwise, make a crude estimate + dw = 0.5 * fontSize; + } + w += dw; + } + *width = w; + + // next line + while (j < text->getLength() && text->getChar(j) == ' ') { + ++j; + } + if (j < text->getLength() && text->getChar(j) == 0x0d) { + ++j; + } + if (j < text->getLength() && text->getChar(j) == 0x0a) { + ++j; + } + *next = j; +} + +// Draw an (approximate) circle of radius centered at (, ). +// If is true, the circle is filled; otherwise it is stroked. +void Annot::drawCircle(double cx, double cy, double r, GBool fill) { + appearBuf->appendf("{0:.2f} {1:.2f} m\n", + cx + r, cy); + appearBuf->appendf("{0:.2f} {1:.2f} {2:.2f} {3:.2f} {4:.2f} {5:.2f} c\n", + cx + r, cy + bezierCircle * r, + cx + bezierCircle * r, cy + r, + cx, cy + r); + appearBuf->appendf("{0:.2f} {1:.2f} {2:.2f} {3:.2f} {4:.2f} {5:.2f} c\n", + cx - bezierCircle * r, cy + r, + cx - r, cy + bezierCircle * r, + cx - r, cy); + appearBuf->appendf("{0:.2f} {1:.2f} {2:.2f} {3:.2f} {4:.2f} {5:.2f} c\n", + cx - r, cy - bezierCircle * r, + cx - bezierCircle * r, cy - r, + cx, cy - r); + appearBuf->appendf("{0:.2f} {1:.2f} {2:.2f} {3:.2f} {4:.2f} {5:.2f} c\n", + cx + bezierCircle * r, cy - r, + cx + r, cy - bezierCircle * r, + cx + r, cy); + appearBuf->append(fill ? "f\n" : "s\n"); +} + +// Draw the top-left half of an (approximate) circle of radius +// centered at (, ). +void Annot::drawCircleTopLeft(double cx, double cy, double r) { + double r2; + + r2 = r / sqrt(2.0); + appearBuf->appendf("{0:.2f} {1:.2f} m\n", + cx + r2, cy + r2); + appearBuf->appendf("{0:.2f} {1:.2f} {2:.2f} {3:.2f} {4:.2f} {5:.2f} c\n", + cx + (1 - bezierCircle) * r2, + cy + (1 + bezierCircle) * r2, + cx - (1 - bezierCircle) * r2, + cy + (1 + bezierCircle) * r2, + cx - r2, + cy + r2); + appearBuf->appendf("{0:.2f} {1:.2f} {2:.2f} {3:.2f} {4:.2f} {5:.2f} c\n", + cx - (1 + bezierCircle) * r2, + cy + (1 - bezierCircle) * r2, + cx - (1 + bezierCircle) * r2, + cy - (1 - bezierCircle) * r2, + cx - r2, + cy - r2); + appearBuf->append("S\n"); +} + +// Draw the bottom-right half of an (approximate) circle of radius +// centered at (, ). +void Annot::drawCircleBottomRight(double cx, double cy, double r) { + double r2; + + r2 = r / sqrt(2.0); + appearBuf->appendf("{0:.2f} {1:.2f} m\n", + cx - r2, cy - r2); + appearBuf->appendf("{0:.2f} {1:.2f} {2:.2f} {3:.2f} {4:.2f} {5:.2f} c\n", + cx - (1 - bezierCircle) * r2, + cy - (1 + bezierCircle) * r2, + cx + (1 - bezierCircle) * r2, + cy - (1 + bezierCircle) * r2, + cx + r2, + cy - r2); + appearBuf->appendf("{0:.2f} {1:.2f} {2:.2f} {3:.2f} {4:.2f} {5:.2f} c\n", + cx + (1 + bezierCircle) * r2, + cy - (1 - bezierCircle) * r2, + cx + (1 + bezierCircle) * r2, + cy + (1 - bezierCircle) * r2, + cx + r2, + cy + r2); + appearBuf->append("S\n"); +} + +// Look up an inheritable field dictionary entry. +Object *Annot::fieldLookup(Dict *field, char *key, Object *obj) { + Dict *dict; + Object parent; + + dict = field; + if (!dict->lookup(key, obj)->isNull()) { + return obj; + } + obj->free(); + if (dict->lookup("Parent", &parent)->isDict()) { + fieldLookup(parent.getDict(), key, obj); + } else { + obj->initNull(); + } + parent.free(); + return obj; +} + +void Annot::draw(Gfx *gfx, GBool printing) { + Object obj; + GBool isLink; + + // check the flags + if ((flags & annotFlagHidden) || + (printing && !(flags & annotFlagPrint)) || + (!printing && (flags & annotFlagNoView))) { + return; + } + + // draw the appearance stream + isLink = type && !type->cmp("Link"); + appearance.fetch(xref, &obj); + gfx->drawAnnot(&obj, isLink ? borderStyle : (AnnotBorderStyle *)NULL, + xMin, yMin, xMax, yMax); + obj.free(); +} + +//------------------------------------------------------------------------ +// Annots +//------------------------------------------------------------------------ + +Annots::Annots(XRef *xref, Catalog *catalog, Object *annotsObj) { + Dict *acroForm; + Annot *annot; + Object obj1; + Ref ref; + int size; + int i; + + annots = NULL; + size = 0; + nAnnots = 0; + + acroForm = catalog->getAcroForm()->isDict() ? + catalog->getAcroForm()->getDict() : NULL; + if (annotsObj->isArray()) { + for (i = 0; i < annotsObj->arrayGetLength(); ++i) { + if (annotsObj->arrayGetNF(i, &obj1)->isRef()) { + ref = obj1.getRef(); + obj1.free(); + annotsObj->arrayGet(i, &obj1); + } else { + ref.num = ref.gen = -1; + } + if (obj1.isDict()) { + annot = new Annot(xref, acroForm, obj1.getDict(), &ref); + if (annot->isOk()) { + if (nAnnots >= size) { + size += 16; + annots = (Annot **)greallocn(annots, size, sizeof(Annot *)); + } + annots[nAnnots++] = annot; + } else { + delete annot; + } + } + obj1.free(); + } + } +} + +Annots::~Annots() { + int i; + + for (i = 0; i < nAnnots; ++i) { + delete annots[i]; + } + gfree(annots); +} + +void Annots::generateAppearances(Dict *acroForm) { + Object obj1, obj2; + Ref ref; + int i; + + if (acroForm->lookup("Fields", &obj1)->isArray()) { + for (i = 0; i < obj1.arrayGetLength(); ++i) { + if (obj1.arrayGetNF(i, &obj2)->isRef()) { + ref = obj2.getRef(); + obj2.free(); + obj1.arrayGet(i, &obj2); + } else { + ref.num = ref.gen = -1; + } + if (obj2.isDict()) { + scanFieldAppearances(obj2.getDict(), &ref, NULL, acroForm); + } + obj2.free(); + } + } + obj1.free(); +} + +void Annots::scanFieldAppearances(Dict *node, Ref *ref, Dict *parent, + Dict *acroForm) { + Annot *annot; + Object obj1, obj2; + Ref ref2; + int i; + + // non-terminal node: scan the children + if (node->lookup("Kids", &obj1)->isArray()) { + for (i = 0; i < obj1.arrayGetLength(); ++i) { + if (obj1.arrayGetNF(i, &obj2)->isRef()) { + ref2 = obj2.getRef(); + obj2.free(); + obj1.arrayGet(i, &obj2); + } else { + ref2.num = ref2.gen = -1; + } + if (obj2.isDict()) { + scanFieldAppearances(obj2.getDict(), &ref2, node, acroForm); + } + obj2.free(); + } + obj1.free(); + return; + } + obj1.free(); + + // terminal node: this is either a combined annot/field dict, or an + // annot dict whose parent is a field + if ((annot = findAnnot(ref))) { + node->lookupNF("Parent", &obj1); + if (!parent || !obj1.isNull()) { + annot->generateFieldAppearance(node, node, acroForm); + } else { + annot->generateFieldAppearance(parent, node, acroForm); + } + obj1.free(); + } +} + +Annot *Annots::findAnnot(Ref *ref) { + int i; + + for (i = 0; i < nAnnots; ++i) { + if (annots[i]->match(ref)) { + return annots[i]; + } + } + return NULL; +} diff --git a/kpdf/xpdf/xpdf/Annot.h b/kpdf/xpdf/xpdf/Annot.h new file mode 100644 index 00000000..5c4de39c --- /dev/null +++ b/kpdf/xpdf/xpdf/Annot.h @@ -0,0 +1,143 @@ +//======================================================================== +// +// Annot.h +// +// Copyright 2000-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef ANNOT_H +#define ANNOT_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +class XRef; +class Catalog; +class Gfx; +class GfxFont; +class GfxFontDict; + +//------------------------------------------------------------------------ +// AnnotBorderStyle +//------------------------------------------------------------------------ + +enum AnnotBorderType { + annotBorderSolid, + annotBorderDashed, + annotBorderBeveled, + annotBorderInset, + annotBorderUnderlined +}; + +class AnnotBorderStyle { +public: + + AnnotBorderStyle(AnnotBorderType typeA, double widthA, + double *dashA, int dashLengthA, + double rA, double gA, double bA); + ~AnnotBorderStyle(); + + AnnotBorderType getType() { return type; } + double getWidth() { return width; } + void getDash(double **dashA, int *dashLengthA) + { *dashA = dash; *dashLengthA = dashLength; } + void getColor(double *rA, double *gA, double *bA) + { *rA = r; *gA = g; *bA = b; } + +private: + + AnnotBorderType type; + double width; + double *dash; + int dashLength; + double r, g, b; +}; + +//------------------------------------------------------------------------ +// Annot +//------------------------------------------------------------------------ + +class Annot { +public: + + Annot(XRef *xrefA, Dict *acroForm, Dict *dict, Ref *refA); + ~Annot(); + GBool isOk() { return ok; } + + void draw(Gfx *gfx, GBool printing); + + // Get appearance object. + Object *getAppearance(Object *obj) { return appearance.fetch(xref, obj); } + + AnnotBorderStyle *getBorderStyle() { return borderStyle; } + + GBool match(Ref *refA) + { return ref.num == refA->num && ref.gen == refA->gen; } + + void generateFieldAppearance(Dict *field, Dict *annot, Dict *acroForm); + +private: + + void setColor(Array *a, GBool fill, int adjust); + void drawText(GString *text, GString *da, GfxFontDict *fontDict, + GBool multiline, int comb, int quadding, + GBool txField, GBool forceZapfDingbats); + void drawListBox(GString **text, GBool *selection, + int nOptions, int topIdx, + GString *da, GfxFontDict *fontDict, GBool quadding); + void getNextLine(GString *text, int start, + GfxFont *font, double fontSize, double wMax, + int *end, double *width, int *next); + void drawCircle(double cx, double cy, double r, GBool fill); + void drawCircleTopLeft(double cx, double cy, double r); + void drawCircleBottomRight(double cx, double cy, double r); + Object *fieldLookup(Dict *field, char *key, Object *obj); + + XRef *xref; // the xref table for this PDF file + Ref ref; // object ref identifying this annotation + GString *type; // annotation type + Object appearance; // a reference to the Form XObject stream + // for the normal appearance + GString *appearBuf; + double xMin, yMin, // annotation rectangle + xMax, yMax; + Guint flags; + AnnotBorderStyle *borderStyle; + GBool ok; +}; + +//------------------------------------------------------------------------ +// Annots +//------------------------------------------------------------------------ + +class Annots { +public: + + // Build a list of Annot objects. + Annots(XRef *xref, Catalog *catalog, Object *annotsObj); + + ~Annots(); + + // Iterate through list of annotations. + int getNumAnnots() { return nAnnots; } + Annot *getAnnot(int i) { return annots[i]; } + + // (Re)generate the appearance streams for all annotations belonging + // to a form field. + void generateAppearances(Dict *acroForm); + +private: + + void scanFieldAppearances(Dict *node, Ref *ref, Dict *parent, + Dict *acroForm); + Annot *findAnnot(Ref *ref); + + Annot **annots; + int nAnnots; +}; + +#endif diff --git a/kpdf/xpdf/xpdf/Array.cc b/kpdf/xpdf/xpdf/Array.cc new file mode 100644 index 00000000..8232037b --- /dev/null +++ b/kpdf/xpdf/xpdf/Array.cc @@ -0,0 +1,88 @@ +//======================================================================== +// +// Array.cc +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include "gmem.h" +#include "Object.h" +#include "Array.h" + +//------------------------------------------------------------------------ +// Array +//------------------------------------------------------------------------ + +Array::Array(XRef *xrefA) { + xref = xrefA; + elems = NULL; + size = length = 0; + ref = 1; +} + +Array::~Array() { + int i; + + for (i = 0; i < length; ++i) + elems[i].free(); + gfree(elems); +} + +void Array::add(Object *elem) { + if (length == size) { + if (length == 0) { + size = 8; + } else { + size *= 2; + } + elems = (Object *)greallocn(elems, size, sizeof(Object)); + } + elems[length] = *elem; + ++length; +} + +Object *Array::get(int i, Object *obj) { + if (i < 0 || i >= length) { +#ifdef DEBUG_MEM + abort(); +#else + return obj->initNull(); +#endif + } + return elems[i].fetch(xref, obj); +} + +Object *Array::getNF(int i, Object *obj) { + if (i < 0 || i >= length) { +#ifdef DEBUG_MEM + abort(); +#else + return obj->initNull(); +#endif + } + return elems[i].copy(obj); +} + +GBool Array::getString(int i, GString *string) +{ + Object obj; + + if (getNF(i, &obj)->isString()) { + string->clear(); + string->append(obj.getString()); + obj.free(); + return gTrue; + } else { + obj.free(); + return gFalse; + } +} diff --git a/kpdf/xpdf/xpdf/Array.h b/kpdf/xpdf/xpdf/Array.h new file mode 100644 index 00000000..1ef65dba --- /dev/null +++ b/kpdf/xpdf/xpdf/Array.h @@ -0,0 +1,59 @@ +//======================================================================== +// +// Array.h +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef ARRAY_H +#define ARRAY_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "Object.h" + +class XRef; + +//------------------------------------------------------------------------ +// Array +//------------------------------------------------------------------------ + +class Array { +public: + + // Constructor. + Array(XRef *xrefA); + + // Destructor. + ~Array(); + + // Reference counting. + int incRef() { return ++ref; } + int decRef() { return --ref; } + + // Get number of elements. + int getLength() { return length; } + + // Add an element. + void add(Object *elem); + + // Accessors. + Object *get(int i, Object *obj); + Object *getNF(int i, Object *obj); + GBool getString(int i, GString *string); + +private: + + XRef *xref; // the xref table for this PDF file + Object *elems; // array of elements + int size; // size of array + int length; // number of elements in array + int ref; // reference count +}; + +#endif diff --git a/kpdf/xpdf/xpdf/BuiltinFont.cc b/kpdf/xpdf/xpdf/BuiltinFont.cc new file mode 100644 index 00000000..ce989571 --- /dev/null +++ b/kpdf/xpdf/xpdf/BuiltinFont.cc @@ -0,0 +1,65 @@ +//======================================================================== +// +// BuiltinFont.cc +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include "gmem.h" +#include "FontEncodingTables.h" +#include "BuiltinFont.h" + +//------------------------------------------------------------------------ + +BuiltinFontWidths::BuiltinFontWidths(BuiltinFontWidth *widths, int sizeA) { + int i, h; + + size = sizeA; + tab = (BuiltinFontWidth **)gmallocn(size, sizeof(BuiltinFontWidth *)); + for (i = 0; i < size; ++i) { + tab[i] = NULL; + } + for (i = 0; i < sizeA; ++i) { + h = hash(widths[i].name); + widths[i].next = tab[h]; + tab[h] = &widths[i]; + } +} + +BuiltinFontWidths::~BuiltinFontWidths() { + gfree(tab); +} + +GBool BuiltinFontWidths::getWidth(char *name, Gushort *width) { + int h; + BuiltinFontWidth *p; + + h = hash(name); + for (p = tab[h]; p; p = p->next) { + if (!strcmp(p->name, name)) { + *width = p->width; + return gTrue; + } + } + return gFalse; +} + +int BuiltinFontWidths::hash(char *name) { + char *p; + unsigned int h; + + h = 0; + for (p = name; *p; ++p) { + h = 17 * h + (int)(*p & 0xff); + } + return (int)(h % size); +} diff --git a/kpdf/xpdf/xpdf/BuiltinFont.h b/kpdf/xpdf/xpdf/BuiltinFont.h new file mode 100644 index 00000000..903ed19e --- /dev/null +++ b/kpdf/xpdf/xpdf/BuiltinFont.h @@ -0,0 +1,57 @@ +//======================================================================== +// +// BuiltinFont.h +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef BUILTINFONT_H +#define BUILTINFONT_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" + +struct BuiltinFont; +class BuiltinFontWidths; + +//------------------------------------------------------------------------ + +struct BuiltinFont { + char *name; + char **defaultBaseEnc; + short ascent; + short descent; + short bbox[4]; + BuiltinFontWidths *widths; +}; + +//------------------------------------------------------------------------ + +struct BuiltinFontWidth { + char *name; + Gushort width; + BuiltinFontWidth *next; +}; + +class BuiltinFontWidths { +public: + + BuiltinFontWidths(BuiltinFontWidth *widths, int sizeA); + ~BuiltinFontWidths(); + GBool getWidth(char *name, Gushort *width); + +private: + + int hash(char *name); + + BuiltinFontWidth **tab; + int size; +}; + +#endif diff --git a/kpdf/xpdf/xpdf/BuiltinFontTables.cc b/kpdf/xpdf/xpdf/BuiltinFontTables.cc new file mode 100644 index 00000000..9c362389 --- /dev/null +++ b/kpdf/xpdf/xpdf/BuiltinFontTables.cc @@ -0,0 +1,4284 @@ +//======================================================================== +// +// BuiltinFontTables.cc +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include +#include +#include "FontEncodingTables.h" +#include "BuiltinFontTables.h" + +static BuiltinFontWidth courierWidthsTab[] = { + { "Ntilde", 600, NULL }, + { "rcaron", 600, NULL }, + { "kcommaaccent", 600, NULL }, + { "Ncommaaccent", 600, NULL }, + { "Zacute", 600, NULL }, + { "comma", 600, NULL }, + { "cedilla", 600, NULL }, + { "plusminus", 600, NULL }, + { "circumflex", 600, NULL }, + { "dotaccent", 600, NULL }, + { "edotaccent", 600, NULL }, + { "asciitilde", 600, NULL }, + { "colon", 600, NULL }, + { "onehalf", 600, NULL }, + { "dollar", 600, NULL }, + { "Lcaron", 600, NULL }, + { "ntilde", 600, NULL }, + { "Aogonek", 600, NULL }, + { "ncommaaccent", 600, NULL }, + { "minus", 600, NULL }, + { "Iogonek", 600, NULL }, + { "zacute", 600, NULL }, + { "yen", 600, NULL }, + { "space", 600, NULL }, + { "Omacron", 600, NULL }, + { "questiondown", 600, NULL }, + { "emdash", 600, NULL }, + { "Agrave", 600, NULL }, + { "three", 600, NULL }, + { "numbersign", 600, NULL }, + { "lcaron", 600, NULL }, + { "A", 600, NULL }, + { "B", 600, NULL }, + { "C", 600, NULL }, + { "aogonek", 600, NULL }, + { "D", 600, NULL }, + { "E", 600, NULL }, + { "onequarter", 600, NULL }, + { "F", 600, NULL }, + { "G", 600, NULL }, + { "H", 600, NULL }, + { "I", 600, NULL }, + { "J", 600, NULL }, + { "K", 600, NULL }, + { "iogonek", 600, NULL }, + { "L", 600, NULL }, + { "backslash", 600, NULL }, + { "periodcentered", 600, NULL }, + { "M", 600, NULL }, + { "N", 600, NULL }, + { "omacron", 600, NULL }, + { "Tcommaaccent", 600, NULL }, + { "O", 600, NULL }, + { "P", 600, NULL }, + { "Q", 600, NULL }, + { "Uhungarumlaut", 600, NULL }, + { "R", 600, NULL }, + { "Aacute", 600, NULL }, + { "caron", 600, NULL }, + { "S", 600, NULL }, + { "T", 600, NULL }, + { "U", 600, NULL }, + { "agrave", 600, NULL }, + { "V", 600, NULL }, + { "W", 600, NULL }, + { "equal", 600, NULL }, + { "question", 600, NULL }, + { "X", 600, NULL }, + { "Y", 600, NULL }, + { "Z", 600, NULL }, + { "four", 600, NULL }, + { "a", 600, NULL }, + { "Gcommaaccent", 600, NULL }, + { "b", 600, NULL }, + { "c", 600, NULL }, + { "d", 600, NULL }, + { "e", 600, NULL }, + { "f", 600, NULL }, + { "g", 600, NULL }, + { "bullet", 600, NULL }, + { "h", 600, NULL }, + { "i", 600, NULL }, + { "Oslash", 600, NULL }, + { "dagger", 600, NULL }, + { "j", 600, NULL }, + { "k", 600, NULL }, + { "l", 600, NULL }, + { "m", 600, NULL }, + { "n", 600, NULL }, + { "tcommaaccent", 600, NULL }, + { "o", 600, NULL }, + { "ordfeminine", 600, NULL }, + { "ring", 600, NULL }, + { "p", 600, NULL }, + { "q", 600, NULL }, + { "uhungarumlaut", 600, NULL }, + { "r", 600, NULL }, + { "twosuperior", 600, NULL }, + { "aacute", 600, NULL }, + { "s", 600, NULL }, + { "OE", 600, NULL }, + { "t", 600, NULL }, + { "divide", 600, NULL }, + { "u", 600, NULL }, + { "Ccaron", 600, NULL }, + { "v", 600, NULL }, + { "w", 600, NULL }, + { "x", 600, NULL }, + { "y", 600, NULL }, + { "z", 600, NULL }, + { "Gbreve", 600, NULL }, + { "commaaccent", 600, NULL }, + { "hungarumlaut", 600, NULL }, + { "Idotaccent", 600, NULL }, + { "Nacute", 600, NULL }, + { "quotedbl", 600, NULL }, + { "gcommaaccent", 600, NULL }, + { "mu", 600, NULL }, + { "greaterequal", 600, NULL }, + { "Scaron", 600, NULL }, + { "Lslash", 600, NULL }, + { "semicolon", 600, NULL }, + { "oslash", 600, NULL }, + { "lessequal", 600, NULL }, + { "lozenge", 600, NULL }, + { "parenright", 600, NULL }, + { "ccaron", 600, NULL }, + { "Ecircumflex", 600, NULL }, + { "gbreve", 600, NULL }, + { "trademark", 600, NULL }, + { "daggerdbl", 600, NULL }, + { "nacute", 600, NULL }, + { "macron", 600, NULL }, + { "Otilde", 600, NULL }, + { "Emacron", 600, NULL }, + { "ellipsis", 600, NULL }, + { "scaron", 600, NULL }, + { "AE", 600, NULL }, + { "Ucircumflex", 600, NULL }, + { "lslash", 600, NULL }, + { "quotedblleft", 600, NULL }, + { "hyphen", 600, NULL }, + { "guilsinglright", 600, NULL }, + { "quotesingle", 600, NULL }, + { "eight", 600, NULL }, + { "exclamdown", 600, NULL }, + { "endash", 600, NULL }, + { "oe", 600, NULL }, + { "Abreve", 600, NULL }, + { "Umacron", 600, NULL }, + { "ecircumflex", 600, NULL }, + { "Adieresis", 600, NULL }, + { "copyright", 600, NULL }, + { "Egrave", 600, NULL }, + { "slash", 600, NULL }, + { "Edieresis", 600, NULL }, + { "otilde", 600, NULL }, + { "Idieresis", 600, NULL }, + { "parenleft", 600, NULL }, + { "one", 600, NULL }, + { "emacron", 600, NULL }, + { "Odieresis", 600, NULL }, + { "ucircumflex", 600, NULL }, + { "bracketleft", 600, NULL }, + { "Ugrave", 600, NULL }, + { "quoteright", 600, NULL }, + { "Udieresis", 600, NULL }, + { "perthousand", 600, NULL }, + { "Ydieresis", 600, NULL }, + { "umacron", 600, NULL }, + { "abreve", 600, NULL }, + { "Eacute", 600, NULL }, + { "adieresis", 600, NULL }, + { "egrave", 600, NULL }, + { "edieresis", 600, NULL }, + { "idieresis", 600, NULL }, + { "Eth", 600, NULL }, + { "ae", 600, NULL }, + { "asterisk", 600, NULL }, + { "odieresis", 600, NULL }, + { "Uacute", 600, NULL }, + { "ugrave", 600, NULL }, + { "five", 600, NULL }, + { "nine", 600, NULL }, + { "udieresis", 600, NULL }, + { "Zcaron", 600, NULL }, + { "Scommaaccent", 600, NULL }, + { "threequarters", 600, NULL }, + { "guillemotright", 600, NULL }, + { "Ccedilla", 600, NULL }, + { "ydieresis", 600, NULL }, + { "tilde", 600, NULL }, + { "at", 600, NULL }, + { "eacute", 600, NULL }, + { "underscore", 600, NULL }, + { "Euro", 600, NULL }, + { "Dcroat", 600, NULL }, + { "zero", 600, NULL }, + { "multiply", 600, NULL }, + { "eth", 600, NULL }, + { "Scedilla", 600, NULL }, + { "Racute", 600, NULL }, + { "Ograve", 600, NULL }, + { "partialdiff", 600, NULL }, + { "uacute", 600, NULL }, + { "braceleft", 600, NULL }, + { "Thorn", 600, NULL }, + { "zcaron", 600, NULL }, + { "scommaaccent", 600, NULL }, + { "ccedilla", 600, NULL }, + { "Dcaron", 600, NULL }, + { "dcroat", 600, NULL }, + { "scedilla", 600, NULL }, + { "Oacute", 600, NULL }, + { "Ocircumflex", 600, NULL }, + { "ogonek", 600, NULL }, + { "ograve", 600, NULL }, + { "racute", 600, NULL }, + { "Tcaron", 600, NULL }, + { "Eogonek", 600, NULL }, + { "thorn", 600, NULL }, + { "degree", 600, NULL }, + { "registered", 600, NULL }, + { "radical", 600, NULL }, + { "Aring", 600, NULL }, + { "percent", 600, NULL }, + { "six", 600, NULL }, + { "paragraph", 600, NULL }, + { "dcaron", 600, NULL }, + { "Uogonek", 600, NULL }, + { "two", 600, NULL }, + { "summation", 600, NULL }, + { "Igrave", 600, NULL }, + { "Lacute", 600, NULL }, + { "ocircumflex", 600, NULL }, + { "oacute", 600, NULL }, + { "Uring", 600, NULL }, + { "Lcommaaccent", 600, NULL }, + { "tcaron", 600, NULL }, + { "eogonek", 600, NULL }, + { "Delta", 600, NULL }, + { "Ohungarumlaut", 600, NULL }, + { "asciicircum", 600, NULL }, + { "aring", 600, NULL }, + { "grave", 600, NULL }, + { "uogonek", 600, NULL }, + { "bracketright", 600, NULL }, + { "ampersand", 600, NULL }, + { "Iacute", 600, NULL }, + { "lacute", 600, NULL }, + { "igrave", 600, NULL }, + { "Ncaron", 600, NULL }, + { "plus", 600, NULL }, + { "uring", 600, NULL }, + { "quotesinglbase", 600, NULL }, + { "lcommaaccent", 600, NULL }, + { "Yacute", 600, NULL }, + { "ohungarumlaut", 600, NULL }, + { "threesuperior", 600, NULL }, + { "acute", 600, NULL }, + { "section", 600, NULL }, + { "dieresis", 600, NULL }, + { "quotedblbase", 600, NULL }, + { "iacute", 600, NULL }, + { "ncaron", 600, NULL }, + { "florin", 600, NULL }, + { "yacute", 600, NULL }, + { "Rcommaaccent", 600, NULL }, + { "fi", 600, NULL }, + { "fl", 600, NULL }, + { "Acircumflex", 600, NULL }, + { "Cacute", 600, NULL }, + { "Icircumflex", 600, NULL }, + { "guillemotleft", 600, NULL }, + { "germandbls", 600, NULL }, + { "seven", 600, NULL }, + { "Amacron", 600, NULL }, + { "Sacute", 600, NULL }, + { "ordmasculine", 600, NULL }, + { "dotlessi", 600, NULL }, + { "sterling", 600, NULL }, + { "notequal", 600, NULL }, + { "Imacron", 600, NULL }, + { "rcommaaccent", 600, NULL }, + { "Zdotaccent", 600, NULL }, + { "acircumflex", 600, NULL }, + { "cacute", 600, NULL }, + { "Ecaron", 600, NULL }, + { "braceright", 600, NULL }, + { "icircumflex", 600, NULL }, + { "quotedblright", 600, NULL }, + { "amacron", 600, NULL }, + { "sacute", 600, NULL }, + { "imacron", 600, NULL }, + { "cent", 600, NULL }, + { "currency", 600, NULL }, + { "logicalnot", 600, NULL }, + { "zdotaccent", 600, NULL }, + { "Atilde", 600, NULL }, + { "breve", 600, NULL }, + { "bar", 600, NULL }, + { "fraction", 600, NULL }, + { "less", 600, NULL }, + { "ecaron", 600, NULL }, + { "guilsinglleft", 600, NULL }, + { "exclam", 600, NULL }, + { "period", 600, NULL }, + { "Rcaron", 600, NULL }, + { "Kcommaaccent", 600, NULL }, + { "greater", 600, NULL }, + { "atilde", 600, NULL }, + { "brokenbar", 600, NULL }, + { "quoteleft", 600, NULL }, + { "Edotaccent", 600, NULL }, + { "onesuperior", 600, NULL } +}; + +static BuiltinFontWidth courierBoldWidthsTab[] = { + { "Ntilde", 600, NULL }, + { "rcaron", 600, NULL }, + { "kcommaaccent", 600, NULL }, + { "Ncommaaccent", 600, NULL }, + { "Zacute", 600, NULL }, + { "comma", 600, NULL }, + { "cedilla", 600, NULL }, + { "plusminus", 600, NULL }, + { "circumflex", 600, NULL }, + { "dotaccent", 600, NULL }, + { "edotaccent", 600, NULL }, + { "asciitilde", 600, NULL }, + { "colon", 600, NULL }, + { "onehalf", 600, NULL }, + { "dollar", 600, NULL }, + { "Lcaron", 600, NULL }, + { "ntilde", 600, NULL }, + { "Aogonek", 600, NULL }, + { "ncommaaccent", 600, NULL }, + { "minus", 600, NULL }, + { "Iogonek", 600, NULL }, + { "zacute", 600, NULL }, + { "yen", 600, NULL }, + { "space", 600, NULL }, + { "Omacron", 600, NULL }, + { "questiondown", 600, NULL }, + { "emdash", 600, NULL }, + { "Agrave", 600, NULL }, + { "three", 600, NULL }, + { "numbersign", 600, NULL }, + { "lcaron", 600, NULL }, + { "A", 600, NULL }, + { "B", 600, NULL }, + { "C", 600, NULL }, + { "aogonek", 600, NULL }, + { "D", 600, NULL }, + { "E", 600, NULL }, + { "onequarter", 600, NULL }, + { "F", 600, NULL }, + { "G", 600, NULL }, + { "H", 600, NULL }, + { "I", 600, NULL }, + { "J", 600, NULL }, + { "K", 600, NULL }, + { "iogonek", 600, NULL }, + { "backslash", 600, NULL }, + { "L", 600, NULL }, + { "periodcentered", 600, NULL }, + { "M", 600, NULL }, + { "N", 600, NULL }, + { "omacron", 600, NULL }, + { "Tcommaaccent", 600, NULL }, + { "O", 600, NULL }, + { "P", 600, NULL }, + { "Q", 600, NULL }, + { "Uhungarumlaut", 600, NULL }, + { "R", 600, NULL }, + { "Aacute", 600, NULL }, + { "caron", 600, NULL }, + { "S", 600, NULL }, + { "T", 600, NULL }, + { "U", 600, NULL }, + { "agrave", 600, NULL }, + { "V", 600, NULL }, + { "W", 600, NULL }, + { "X", 600, NULL }, + { "question", 600, NULL }, + { "equal", 600, NULL }, + { "Y", 600, NULL }, + { "Z", 600, NULL }, + { "four", 600, NULL }, + { "a", 600, NULL }, + { "Gcommaaccent", 600, NULL }, + { "b", 600, NULL }, + { "c", 600, NULL }, + { "d", 600, NULL }, + { "e", 600, NULL }, + { "f", 600, NULL }, + { "g", 600, NULL }, + { "bullet", 600, NULL }, + { "h", 600, NULL }, + { "i", 600, NULL }, + { "Oslash", 600, NULL }, + { "dagger", 600, NULL }, + { "j", 600, NULL }, + { "k", 600, NULL }, + { "l", 600, NULL }, + { "m", 600, NULL }, + { "n", 600, NULL }, + { "tcommaaccent", 600, NULL }, + { "o", 600, NULL }, + { "ordfeminine", 600, NULL }, + { "ring", 600, NULL }, + { "p", 600, NULL }, + { "q", 600, NULL }, + { "uhungarumlaut", 600, NULL }, + { "r", 600, NULL }, + { "twosuperior", 600, NULL }, + { "aacute", 600, NULL }, + { "s", 600, NULL }, + { "OE", 600, NULL }, + { "t", 600, NULL }, + { "divide", 600, NULL }, + { "u", 600, NULL }, + { "Ccaron", 600, NULL }, + { "v", 600, NULL }, + { "w", 600, NULL }, + { "x", 600, NULL }, + { "y", 600, NULL }, + { "z", 600, NULL }, + { "Gbreve", 600, NULL }, + { "commaaccent", 600, NULL }, + { "hungarumlaut", 600, NULL }, + { "Idotaccent", 600, NULL }, + { "Nacute", 600, NULL }, + { "quotedbl", 600, NULL }, + { "gcommaaccent", 600, NULL }, + { "mu", 600, NULL }, + { "greaterequal", 600, NULL }, + { "Scaron", 600, NULL }, + { "Lslash", 600, NULL }, + { "semicolon", 600, NULL }, + { "oslash", 600, NULL }, + { "lessequal", 600, NULL }, + { "lozenge", 600, NULL }, + { "parenright", 600, NULL }, + { "ccaron", 600, NULL }, + { "Ecircumflex", 600, NULL }, + { "gbreve", 600, NULL }, + { "trademark", 600, NULL }, + { "daggerdbl", 600, NULL }, + { "nacute", 600, NULL }, + { "macron", 600, NULL }, + { "Otilde", 600, NULL }, + { "Emacron", 600, NULL }, + { "ellipsis", 600, NULL }, + { "scaron", 600, NULL }, + { "AE", 600, NULL }, + { "Ucircumflex", 600, NULL }, + { "lslash", 600, NULL }, + { "quotedblleft", 600, NULL }, + { "guilsinglright", 600, NULL }, + { "hyphen", 600, NULL }, + { "quotesingle", 600, NULL }, + { "eight", 600, NULL }, + { "exclamdown", 600, NULL }, + { "endash", 600, NULL }, + { "oe", 600, NULL }, + { "Abreve", 600, NULL }, + { "Umacron", 600, NULL }, + { "ecircumflex", 600, NULL }, + { "Adieresis", 600, NULL }, + { "copyright", 600, NULL }, + { "Egrave", 600, NULL }, + { "slash", 600, NULL }, + { "Edieresis", 600, NULL }, + { "otilde", 600, NULL }, + { "Idieresis", 600, NULL }, + { "parenleft", 600, NULL }, + { "one", 600, NULL }, + { "emacron", 600, NULL }, + { "Odieresis", 600, NULL }, + { "ucircumflex", 600, NULL }, + { "bracketleft", 600, NULL }, + { "Ugrave", 600, NULL }, + { "quoteright", 600, NULL }, + { "Udieresis", 600, NULL }, + { "perthousand", 600, NULL }, + { "Ydieresis", 600, NULL }, + { "umacron", 600, NULL }, + { "abreve", 600, NULL }, + { "Eacute", 600, NULL }, + { "adieresis", 600, NULL }, + { "egrave", 600, NULL }, + { "edieresis", 600, NULL }, + { "idieresis", 600, NULL }, + { "Eth", 600, NULL }, + { "ae", 600, NULL }, + { "asterisk", 600, NULL }, + { "odieresis", 600, NULL }, + { "Uacute", 600, NULL }, + { "ugrave", 600, NULL }, + { "nine", 600, NULL }, + { "five", 600, NULL }, + { "udieresis", 600, NULL }, + { "Zcaron", 600, NULL }, + { "Scommaaccent", 600, NULL }, + { "threequarters", 600, NULL }, + { "guillemotright", 600, NULL }, + { "Ccedilla", 600, NULL }, + { "ydieresis", 600, NULL }, + { "tilde", 600, NULL }, + { "at", 600, NULL }, + { "eacute", 600, NULL }, + { "underscore", 600, NULL }, + { "Euro", 600, NULL }, + { "Dcroat", 600, NULL }, + { "multiply", 600, NULL }, + { "zero", 600, NULL }, + { "eth", 600, NULL }, + { "Scedilla", 600, NULL }, + { "Ograve", 600, NULL }, + { "Racute", 600, NULL }, + { "partialdiff", 600, NULL }, + { "uacute", 600, NULL }, + { "braceleft", 600, NULL }, + { "Thorn", 600, NULL }, + { "zcaron", 600, NULL }, + { "scommaaccent", 600, NULL }, + { "ccedilla", 600, NULL }, + { "Dcaron", 600, NULL }, + { "dcroat", 600, NULL }, + { "Ocircumflex", 600, NULL }, + { "Oacute", 600, NULL }, + { "scedilla", 600, NULL }, + { "ogonek", 600, NULL }, + { "ograve", 600, NULL }, + { "racute", 600, NULL }, + { "Tcaron", 600, NULL }, + { "Eogonek", 600, NULL }, + { "thorn", 600, NULL }, + { "degree", 600, NULL }, + { "registered", 600, NULL }, + { "radical", 600, NULL }, + { "Aring", 600, NULL }, + { "percent", 600, NULL }, + { "six", 600, NULL }, + { "paragraph", 600, NULL }, + { "dcaron", 600, NULL }, + { "Uogonek", 600, NULL }, + { "two", 600, NULL }, + { "summation", 600, NULL }, + { "Igrave", 600, NULL }, + { "Lacute", 600, NULL }, + { "ocircumflex", 600, NULL }, + { "oacute", 600, NULL }, + { "Uring", 600, NULL }, + { "Lcommaaccent", 600, NULL }, + { "tcaron", 600, NULL }, + { "eogonek", 600, NULL }, + { "Delta", 600, NULL }, + { "Ohungarumlaut", 600, NULL }, + { "asciicircum", 600, NULL }, + { "aring", 600, NULL }, + { "grave", 600, NULL }, + { "uogonek", 600, NULL }, + { "bracketright", 600, NULL }, + { "Iacute", 600, NULL }, + { "ampersand", 600, NULL }, + { "igrave", 600, NULL }, + { "lacute", 600, NULL }, + { "Ncaron", 600, NULL }, + { "plus", 600, NULL }, + { "uring", 600, NULL }, + { "quotesinglbase", 600, NULL }, + { "lcommaaccent", 600, NULL }, + { "Yacute", 600, NULL }, + { "ohungarumlaut", 600, NULL }, + { "threesuperior", 600, NULL }, + { "acute", 600, NULL }, + { "section", 600, NULL }, + { "dieresis", 600, NULL }, + { "iacute", 600, NULL }, + { "quotedblbase", 600, NULL }, + { "ncaron", 600, NULL }, + { "florin", 600, NULL }, + { "yacute", 600, NULL }, + { "Rcommaaccent", 600, NULL }, + { "fi", 600, NULL }, + { "fl", 600, NULL }, + { "Acircumflex", 600, NULL }, + { "Cacute", 600, NULL }, + { "Icircumflex", 600, NULL }, + { "guillemotleft", 600, NULL }, + { "germandbls", 600, NULL }, + { "Amacron", 600, NULL }, + { "seven", 600, NULL }, + { "Sacute", 600, NULL }, + { "ordmasculine", 600, NULL }, + { "dotlessi", 600, NULL }, + { "sterling", 600, NULL }, + { "notequal", 600, NULL }, + { "Imacron", 600, NULL }, + { "rcommaaccent", 600, NULL }, + { "Zdotaccent", 600, NULL }, + { "acircumflex", 600, NULL }, + { "cacute", 600, NULL }, + { "Ecaron", 600, NULL }, + { "icircumflex", 600, NULL }, + { "braceright", 600, NULL }, + { "quotedblright", 600, NULL }, + { "amacron", 600, NULL }, + { "sacute", 600, NULL }, + { "imacron", 600, NULL }, + { "cent", 600, NULL }, + { "currency", 600, NULL }, + { "logicalnot", 600, NULL }, + { "zdotaccent", 600, NULL }, + { "Atilde", 600, NULL }, + { "breve", 600, NULL }, + { "bar", 600, NULL }, + { "fraction", 600, NULL }, + { "less", 600, NULL }, + { "ecaron", 600, NULL }, + { "guilsinglleft", 600, NULL }, + { "exclam", 600, NULL }, + { "period", 600, NULL }, + { "Rcaron", 600, NULL }, + { "Kcommaaccent", 600, NULL }, + { "greater", 600, NULL }, + { "atilde", 600, NULL }, + { "brokenbar", 600, NULL }, + { "quoteleft", 600, NULL }, + { "Edotaccent", 600, NULL }, + { "onesuperior", 600, NULL } +}; + +static BuiltinFontWidth courierBoldObliqueWidthsTab[] = { + { "Ntilde", 600, NULL }, + { "rcaron", 600, NULL }, + { "kcommaaccent", 600, NULL }, + { "Ncommaaccent", 600, NULL }, + { "Zacute", 600, NULL }, + { "comma", 600, NULL }, + { "cedilla", 600, NULL }, + { "plusminus", 600, NULL }, + { "circumflex", 600, NULL }, + { "dotaccent", 600, NULL }, + { "edotaccent", 600, NULL }, + { "asciitilde", 600, NULL }, + { "colon", 600, NULL }, + { "onehalf", 600, NULL }, + { "dollar", 600, NULL }, + { "Lcaron", 600, NULL }, + { "ntilde", 600, NULL }, + { "Aogonek", 600, NULL }, + { "ncommaaccent", 600, NULL }, + { "minus", 600, NULL }, + { "Iogonek", 600, NULL }, + { "zacute", 600, NULL }, + { "yen", 600, NULL }, + { "space", 600, NULL }, + { "Omacron", 600, NULL }, + { "questiondown", 600, NULL }, + { "emdash", 600, NULL }, + { "Agrave", 600, NULL }, + { "three", 600, NULL }, + { "numbersign", 600, NULL }, + { "lcaron", 600, NULL }, + { "A", 600, NULL }, + { "B", 600, NULL }, + { "C", 600, NULL }, + { "aogonek", 600, NULL }, + { "D", 600, NULL }, + { "E", 600, NULL }, + { "onequarter", 600, NULL }, + { "F", 600, NULL }, + { "G", 600, NULL }, + { "H", 600, NULL }, + { "I", 600, NULL }, + { "J", 600, NULL }, + { "K", 600, NULL }, + { "iogonek", 600, NULL }, + { "backslash", 600, NULL }, + { "L", 600, NULL }, + { "periodcentered", 600, NULL }, + { "M", 600, NULL }, + { "N", 600, NULL }, + { "omacron", 600, NULL }, + { "Tcommaaccent", 600, NULL }, + { "O", 600, NULL }, + { "P", 600, NULL }, + { "Q", 600, NULL }, + { "Uhungarumlaut", 600, NULL }, + { "R", 600, NULL }, + { "Aacute", 600, NULL }, + { "caron", 600, NULL }, + { "S", 600, NULL }, + { "T", 600, NULL }, + { "U", 600, NULL }, + { "agrave", 600, NULL }, + { "V", 600, NULL }, + { "W", 600, NULL }, + { "X", 600, NULL }, + { "question", 600, NULL }, + { "equal", 600, NULL }, + { "Y", 600, NULL }, + { "Z", 600, NULL }, + { "four", 600, NULL }, + { "a", 600, NULL }, + { "Gcommaaccent", 600, NULL }, + { "b", 600, NULL }, + { "c", 600, NULL }, + { "d", 600, NULL }, + { "e", 600, NULL }, + { "f", 600, NULL }, + { "g", 600, NULL }, + { "bullet", 600, NULL }, + { "h", 600, NULL }, + { "i", 600, NULL }, + { "Oslash", 600, NULL }, + { "dagger", 600, NULL }, + { "j", 600, NULL }, + { "k", 600, NULL }, + { "l", 600, NULL }, + { "m", 600, NULL }, + { "n", 600, NULL }, + { "tcommaaccent", 600, NULL }, + { "o", 600, NULL }, + { "ordfeminine", 600, NULL }, + { "ring", 600, NULL }, + { "p", 600, NULL }, + { "q", 600, NULL }, + { "uhungarumlaut", 600, NULL }, + { "r", 600, NULL }, + { "twosuperior", 600, NULL }, + { "aacute", 600, NULL }, + { "s", 600, NULL }, + { "OE", 600, NULL }, + { "t", 600, NULL }, + { "divide", 600, NULL }, + { "u", 600, NULL }, + { "Ccaron", 600, NULL }, + { "v", 600, NULL }, + { "w", 600, NULL }, + { "x", 600, NULL }, + { "y", 600, NULL }, + { "z", 600, NULL }, + { "Gbreve", 600, NULL }, + { "commaaccent", 600, NULL }, + { "hungarumlaut", 600, NULL }, + { "Idotaccent", 600, NULL }, + { "Nacute", 600, NULL }, + { "quotedbl", 600, NULL }, + { "gcommaaccent", 600, NULL }, + { "mu", 600, NULL }, + { "greaterequal", 600, NULL }, + { "Scaron", 600, NULL }, + { "Lslash", 600, NULL }, + { "semicolon", 600, NULL }, + { "oslash", 600, NULL }, + { "lessequal", 600, NULL }, + { "lozenge", 600, NULL }, + { "parenright", 600, NULL }, + { "ccaron", 600, NULL }, + { "Ecircumflex", 600, NULL }, + { "gbreve", 600, NULL }, + { "trademark", 600, NULL }, + { "daggerdbl", 600, NULL }, + { "nacute", 600, NULL }, + { "macron", 600, NULL }, + { "Otilde", 600, NULL }, + { "Emacron", 600, NULL }, + { "ellipsis", 600, NULL }, + { "scaron", 600, NULL }, + { "AE", 600, NULL }, + { "Ucircumflex", 600, NULL }, + { "lslash", 600, NULL }, + { "quotedblleft", 600, NULL }, + { "guilsinglright", 600, NULL }, + { "hyphen", 600, NULL }, + { "quotesingle", 600, NULL }, + { "eight", 600, NULL }, + { "exclamdown", 600, NULL }, + { "endash", 600, NULL }, + { "oe", 600, NULL }, + { "Abreve", 600, NULL }, + { "Umacron", 600, NULL }, + { "ecircumflex", 600, NULL }, + { "Adieresis", 600, NULL }, + { "copyright", 600, NULL }, + { "Egrave", 600, NULL }, + { "slash", 600, NULL }, + { "Edieresis", 600, NULL }, + { "otilde", 600, NULL }, + { "Idieresis", 600, NULL }, + { "parenleft", 600, NULL }, + { "one", 600, NULL }, + { "emacron", 600, NULL }, + { "Odieresis", 600, NULL }, + { "ucircumflex", 600, NULL }, + { "bracketleft", 600, NULL }, + { "Ugrave", 600, NULL }, + { "quoteright", 600, NULL }, + { "Udieresis", 600, NULL }, + { "perthousand", 600, NULL }, + { "Ydieresis", 600, NULL }, + { "umacron", 600, NULL }, + { "abreve", 600, NULL }, + { "Eacute", 600, NULL }, + { "adieresis", 600, NULL }, + { "egrave", 600, NULL }, + { "edieresis", 600, NULL }, + { "idieresis", 600, NULL }, + { "Eth", 600, NULL }, + { "ae", 600, NULL }, + { "asterisk", 600, NULL }, + { "odieresis", 600, NULL }, + { "Uacute", 600, NULL }, + { "ugrave", 600, NULL }, + { "nine", 600, NULL }, + { "five", 600, NULL }, + { "udieresis", 600, NULL }, + { "Zcaron", 600, NULL }, + { "Scommaaccent", 600, NULL }, + { "threequarters", 600, NULL }, + { "guillemotright", 600, NULL }, + { "Ccedilla", 600, NULL }, + { "ydieresis", 600, NULL }, + { "tilde", 600, NULL }, + { "at", 600, NULL }, + { "eacute", 600, NULL }, + { "underscore", 600, NULL }, + { "Euro", 600, NULL }, + { "Dcroat", 600, NULL }, + { "multiply", 600, NULL }, + { "zero", 600, NULL }, + { "eth", 600, NULL }, + { "Scedilla", 600, NULL }, + { "Ograve", 600, NULL }, + { "Racute", 600, NULL }, + { "partialdiff", 600, NULL }, + { "uacute", 600, NULL }, + { "braceleft", 600, NULL }, + { "Thorn", 600, NULL }, + { "zcaron", 600, NULL }, + { "scommaaccent", 600, NULL }, + { "ccedilla", 600, NULL }, + { "Dcaron", 600, NULL }, + { "dcroat", 600, NULL }, + { "Ocircumflex", 600, NULL }, + { "Oacute", 600, NULL }, + { "scedilla", 600, NULL }, + { "ogonek", 600, NULL }, + { "ograve", 600, NULL }, + { "racute", 600, NULL }, + { "Tcaron", 600, NULL }, + { "Eogonek", 600, NULL }, + { "thorn", 600, NULL }, + { "degree", 600, NULL }, + { "registered", 600, NULL }, + { "radical", 600, NULL }, + { "Aring", 600, NULL }, + { "percent", 600, NULL }, + { "six", 600, NULL }, + { "paragraph", 600, NULL }, + { "dcaron", 600, NULL }, + { "Uogonek", 600, NULL }, + { "two", 600, NULL }, + { "summation", 600, NULL }, + { "Igrave", 600, NULL }, + { "Lacute", 600, NULL }, + { "ocircumflex", 600, NULL }, + { "oacute", 600, NULL }, + { "Uring", 600, NULL }, + { "Lcommaaccent", 600, NULL }, + { "tcaron", 600, NULL }, + { "eogonek", 600, NULL }, + { "Delta", 600, NULL }, + { "Ohungarumlaut", 600, NULL }, + { "asciicircum", 600, NULL }, + { "aring", 600, NULL }, + { "grave", 600, NULL }, + { "uogonek", 600, NULL }, + { "bracketright", 600, NULL }, + { "Iacute", 600, NULL }, + { "ampersand", 600, NULL }, + { "igrave", 600, NULL }, + { "lacute", 600, NULL }, + { "Ncaron", 600, NULL }, + { "plus", 600, NULL }, + { "uring", 600, NULL }, + { "quotesinglbase", 600, NULL }, + { "lcommaaccent", 600, NULL }, + { "Yacute", 600, NULL }, + { "ohungarumlaut", 600, NULL }, + { "threesuperior", 600, NULL }, + { "acute", 600, NULL }, + { "section", 600, NULL }, + { "dieresis", 600, NULL }, + { "iacute", 600, NULL }, + { "quotedblbase", 600, NULL }, + { "ncaron", 600, NULL }, + { "florin", 600, NULL }, + { "yacute", 600, NULL }, + { "Rcommaaccent", 600, NULL }, + { "fi", 600, NULL }, + { "fl", 600, NULL }, + { "Acircumflex", 600, NULL }, + { "Cacute", 600, NULL }, + { "Icircumflex", 600, NULL }, + { "guillemotleft", 600, NULL }, + { "germandbls", 600, NULL }, + { "Amacron", 600, NULL }, + { "seven", 600, NULL }, + { "Sacute", 600, NULL }, + { "ordmasculine", 600, NULL }, + { "dotlessi", 600, NULL }, + { "sterling", 600, NULL }, + { "notequal", 600, NULL }, + { "Imacron", 600, NULL }, + { "rcommaaccent", 600, NULL }, + { "Zdotaccent", 600, NULL }, + { "acircumflex", 600, NULL }, + { "cacute", 600, NULL }, + { "Ecaron", 600, NULL }, + { "icircumflex", 600, NULL }, + { "braceright", 600, NULL }, + { "quotedblright", 600, NULL }, + { "amacron", 600, NULL }, + { "sacute", 600, NULL }, + { "imacron", 600, NULL }, + { "cent", 600, NULL }, + { "currency", 600, NULL }, + { "logicalnot", 600, NULL }, + { "zdotaccent", 600, NULL }, + { "Atilde", 600, NULL }, + { "breve", 600, NULL }, + { "bar", 600, NULL }, + { "fraction", 600, NULL }, + { "less", 600, NULL }, + { "ecaron", 600, NULL }, + { "guilsinglleft", 600, NULL }, + { "exclam", 600, NULL }, + { "period", 600, NULL }, + { "Rcaron", 600, NULL }, + { "Kcommaaccent", 600, NULL }, + { "greater", 600, NULL }, + { "atilde", 600, NULL }, + { "brokenbar", 600, NULL }, + { "quoteleft", 600, NULL }, + { "Edotaccent", 600, NULL }, + { "onesuperior", 600, NULL } +}; + +static BuiltinFontWidth courierObliqueWidthsTab[] = { + { "Ntilde", 600, NULL }, + { "rcaron", 600, NULL }, + { "kcommaaccent", 600, NULL }, + { "Ncommaaccent", 600, NULL }, + { "Zacute", 600, NULL }, + { "comma", 600, NULL }, + { "cedilla", 600, NULL }, + { "plusminus", 600, NULL }, + { "circumflex", 600, NULL }, + { "dotaccent", 600, NULL }, + { "edotaccent", 600, NULL }, + { "asciitilde", 600, NULL }, + { "colon", 600, NULL }, + { "onehalf", 600, NULL }, + { "dollar", 600, NULL }, + { "Lcaron", 600, NULL }, + { "ntilde", 600, NULL }, + { "Aogonek", 600, NULL }, + { "ncommaaccent", 600, NULL }, + { "minus", 600, NULL }, + { "Iogonek", 600, NULL }, + { "zacute", 600, NULL }, + { "yen", 600, NULL }, + { "space", 600, NULL }, + { "Omacron", 600, NULL }, + { "questiondown", 600, NULL }, + { "emdash", 600, NULL }, + { "Agrave", 600, NULL }, + { "three", 600, NULL }, + { "numbersign", 600, NULL }, + { "lcaron", 600, NULL }, + { "A", 600, NULL }, + { "B", 600, NULL }, + { "C", 600, NULL }, + { "aogonek", 600, NULL }, + { "D", 600, NULL }, + { "E", 600, NULL }, + { "onequarter", 600, NULL }, + { "F", 600, NULL }, + { "G", 600, NULL }, + { "H", 600, NULL }, + { "I", 600, NULL }, + { "J", 600, NULL }, + { "K", 600, NULL }, + { "iogonek", 600, NULL }, + { "backslash", 600, NULL }, + { "L", 600, NULL }, + { "periodcentered", 600, NULL }, + { "M", 600, NULL }, + { "N", 600, NULL }, + { "omacron", 600, NULL }, + { "Tcommaaccent", 600, NULL }, + { "O", 600, NULL }, + { "P", 600, NULL }, + { "Q", 600, NULL }, + { "Uhungarumlaut", 600, NULL }, + { "R", 600, NULL }, + { "Aacute", 600, NULL }, + { "caron", 600, NULL }, + { "S", 600, NULL }, + { "T", 600, NULL }, + { "U", 600, NULL }, + { "agrave", 600, NULL }, + { "V", 600, NULL }, + { "W", 600, NULL }, + { "X", 600, NULL }, + { "question", 600, NULL }, + { "equal", 600, NULL }, + { "Y", 600, NULL }, + { "Z", 600, NULL }, + { "four", 600, NULL }, + { "a", 600, NULL }, + { "Gcommaaccent", 600, NULL }, + { "b", 600, NULL }, + { "c", 600, NULL }, + { "d", 600, NULL }, + { "e", 600, NULL }, + { "f", 600, NULL }, + { "g", 600, NULL }, + { "bullet", 600, NULL }, + { "h", 600, NULL }, + { "i", 600, NULL }, + { "Oslash", 600, NULL }, + { "dagger", 600, NULL }, + { "j", 600, NULL }, + { "k", 600, NULL }, + { "l", 600, NULL }, + { "m", 600, NULL }, + { "n", 600, NULL }, + { "tcommaaccent", 600, NULL }, + { "o", 600, NULL }, + { "ordfeminine", 600, NULL }, + { "ring", 600, NULL }, + { "p", 600, NULL }, + { "q", 600, NULL }, + { "uhungarumlaut", 600, NULL }, + { "r", 600, NULL }, + { "twosuperior", 600, NULL }, + { "aacute", 600, NULL }, + { "s", 600, NULL }, + { "OE", 600, NULL }, + { "t", 600, NULL }, + { "divide", 600, NULL }, + { "u", 600, NULL }, + { "Ccaron", 600, NULL }, + { "v", 600, NULL }, + { "w", 600, NULL }, + { "x", 600, NULL }, + { "y", 600, NULL }, + { "z", 600, NULL }, + { "Gbreve", 600, NULL }, + { "commaaccent", 600, NULL }, + { "hungarumlaut", 600, NULL }, + { "Idotaccent", 600, NULL }, + { "Nacute", 600, NULL }, + { "quotedbl", 600, NULL }, + { "gcommaaccent", 600, NULL }, + { "mu", 600, NULL }, + { "greaterequal", 600, NULL }, + { "Scaron", 600, NULL }, + { "Lslash", 600, NULL }, + { "semicolon", 600, NULL }, + { "oslash", 600, NULL }, + { "lessequal", 600, NULL }, + { "lozenge", 600, NULL }, + { "parenright", 600, NULL }, + { "ccaron", 600, NULL }, + { "Ecircumflex", 600, NULL }, + { "gbreve", 600, NULL }, + { "trademark", 600, NULL }, + { "daggerdbl", 600, NULL }, + { "nacute", 600, NULL }, + { "macron", 600, NULL }, + { "Otilde", 600, NULL }, + { "Emacron", 600, NULL }, + { "ellipsis", 600, NULL }, + { "scaron", 600, NULL }, + { "AE", 600, NULL }, + { "Ucircumflex", 600, NULL }, + { "lslash", 600, NULL }, + { "quotedblleft", 600, NULL }, + { "guilsinglright", 600, NULL }, + { "hyphen", 600, NULL }, + { "quotesingle", 600, NULL }, + { "eight", 600, NULL }, + { "exclamdown", 600, NULL }, + { "endash", 600, NULL }, + { "oe", 600, NULL }, + { "Abreve", 600, NULL }, + { "Umacron", 600, NULL }, + { "ecircumflex", 600, NULL }, + { "Adieresis", 600, NULL }, + { "copyright", 600, NULL }, + { "Egrave", 600, NULL }, + { "slash", 600, NULL }, + { "Edieresis", 600, NULL }, + { "otilde", 600, NULL }, + { "Idieresis", 600, NULL }, + { "parenleft", 600, NULL }, + { "one", 600, NULL }, + { "emacron", 600, NULL }, + { "Odieresis", 600, NULL }, + { "ucircumflex", 600, NULL }, + { "bracketleft", 600, NULL }, + { "Ugrave", 600, NULL }, + { "quoteright", 600, NULL }, + { "Udieresis", 600, NULL }, + { "perthousand", 600, NULL }, + { "Ydieresis", 600, NULL }, + { "umacron", 600, NULL }, + { "abreve", 600, NULL }, + { "Eacute", 600, NULL }, + { "adieresis", 600, NULL }, + { "egrave", 600, NULL }, + { "edieresis", 600, NULL }, + { "idieresis", 600, NULL }, + { "Eth", 600, NULL }, + { "ae", 600, NULL }, + { "asterisk", 600, NULL }, + { "odieresis", 600, NULL }, + { "Uacute", 600, NULL }, + { "ugrave", 600, NULL }, + { "nine", 600, NULL }, + { "five", 600, NULL }, + { "udieresis", 600, NULL }, + { "Zcaron", 600, NULL }, + { "Scommaaccent", 600, NULL }, + { "threequarters", 600, NULL }, + { "guillemotright", 600, NULL }, + { "Ccedilla", 600, NULL }, + { "ydieresis", 600, NULL }, + { "tilde", 600, NULL }, + { "at", 600, NULL }, + { "eacute", 600, NULL }, + { "underscore", 600, NULL }, + { "Euro", 600, NULL }, + { "Dcroat", 600, NULL }, + { "multiply", 600, NULL }, + { "zero", 600, NULL }, + { "eth", 600, NULL }, + { "Scedilla", 600, NULL }, + { "Ograve", 600, NULL }, + { "Racute", 600, NULL }, + { "partialdiff", 600, NULL }, + { "uacute", 600, NULL }, + { "braceleft", 600, NULL }, + { "Thorn", 600, NULL }, + { "zcaron", 600, NULL }, + { "scommaaccent", 600, NULL }, + { "ccedilla", 600, NULL }, + { "Dcaron", 600, NULL }, + { "dcroat", 600, NULL }, + { "Ocircumflex", 600, NULL }, + { "Oacute", 600, NULL }, + { "scedilla", 600, NULL }, + { "ogonek", 600, NULL }, + { "ograve", 600, NULL }, + { "racute", 600, NULL }, + { "Tcaron", 600, NULL }, + { "Eogonek", 600, NULL }, + { "thorn", 600, NULL }, + { "degree", 600, NULL }, + { "registered", 600, NULL }, + { "radical", 600, NULL }, + { "Aring", 600, NULL }, + { "percent", 600, NULL }, + { "six", 600, NULL }, + { "paragraph", 600, NULL }, + { "dcaron", 600, NULL }, + { "Uogonek", 600, NULL }, + { "two", 600, NULL }, + { "summation", 600, NULL }, + { "Igrave", 600, NULL }, + { "Lacute", 600, NULL }, + { "ocircumflex", 600, NULL }, + { "oacute", 600, NULL }, + { "Uring", 600, NULL }, + { "Lcommaaccent", 600, NULL }, + { "tcaron", 600, NULL }, + { "eogonek", 600, NULL }, + { "Delta", 600, NULL }, + { "Ohungarumlaut", 600, NULL }, + { "asciicircum", 600, NULL }, + { "aring", 600, NULL }, + { "grave", 600, NULL }, + { "uogonek", 600, NULL }, + { "bracketright", 600, NULL }, + { "Iacute", 600, NULL }, + { "ampersand", 600, NULL }, + { "igrave", 600, NULL }, + { "lacute", 600, NULL }, + { "Ncaron", 600, NULL }, + { "plus", 600, NULL }, + { "uring", 600, NULL }, + { "quotesinglbase", 600, NULL }, + { "lcommaaccent", 600, NULL }, + { "Yacute", 600, NULL }, + { "ohungarumlaut", 600, NULL }, + { "threesuperior", 600, NULL }, + { "acute", 600, NULL }, + { "section", 600, NULL }, + { "dieresis", 600, NULL }, + { "iacute", 600, NULL }, + { "quotedblbase", 600, NULL }, + { "ncaron", 600, NULL }, + { "florin", 600, NULL }, + { "yacute", 600, NULL }, + { "Rcommaaccent", 600, NULL }, + { "fi", 600, NULL }, + { "fl", 600, NULL }, + { "Acircumflex", 600, NULL }, + { "Cacute", 600, NULL }, + { "Icircumflex", 600, NULL }, + { "guillemotleft", 600, NULL }, + { "germandbls", 600, NULL }, + { "Amacron", 600, NULL }, + { "seven", 600, NULL }, + { "Sacute", 600, NULL }, + { "ordmasculine", 600, NULL }, + { "dotlessi", 600, NULL }, + { "sterling", 600, NULL }, + { "notequal", 600, NULL }, + { "Imacron", 600, NULL }, + { "rcommaaccent", 600, NULL }, + { "Zdotaccent", 600, NULL }, + { "acircumflex", 600, NULL }, + { "cacute", 600, NULL }, + { "Ecaron", 600, NULL }, + { "icircumflex", 600, NULL }, + { "braceright", 600, NULL }, + { "quotedblright", 600, NULL }, + { "amacron", 600, NULL }, + { "sacute", 600, NULL }, + { "imacron", 600, NULL }, + { "cent", 600, NULL }, + { "currency", 600, NULL }, + { "logicalnot", 600, NULL }, + { "zdotaccent", 600, NULL }, + { "Atilde", 600, NULL }, + { "breve", 600, NULL }, + { "bar", 600, NULL }, + { "fraction", 600, NULL }, + { "less", 600, NULL }, + { "ecaron", 600, NULL }, + { "guilsinglleft", 600, NULL }, + { "exclam", 600, NULL }, + { "period", 600, NULL }, + { "Rcaron", 600, NULL }, + { "Kcommaaccent", 600, NULL }, + { "greater", 600, NULL }, + { "atilde", 600, NULL }, + { "brokenbar", 600, NULL }, + { "quoteleft", 600, NULL }, + { "Edotaccent", 600, NULL }, + { "onesuperior", 600, NULL } +}; + +static BuiltinFontWidth helveticaWidthsTab[] = { + { "Ntilde", 722, NULL }, + { "rcaron", 333, NULL }, + { "kcommaaccent", 500, NULL }, + { "Ncommaaccent", 722, NULL }, + { "Zacute", 611, NULL }, + { "comma", 278, NULL }, + { "cedilla", 333, NULL }, + { "plusminus", 584, NULL }, + { "circumflex", 333, NULL }, + { "dotaccent", 333, NULL }, + { "edotaccent", 556, NULL }, + { "asciitilde", 584, NULL }, + { "colon", 278, NULL }, + { "onehalf", 834, NULL }, + { "dollar", 556, NULL }, + { "Lcaron", 556, NULL }, + { "ntilde", 556, NULL }, + { "Aogonek", 667, NULL }, + { "ncommaaccent", 556, NULL }, + { "minus", 584, NULL }, + { "Iogonek", 278, NULL }, + { "zacute", 500, NULL }, + { "yen", 556, NULL }, + { "space", 278, NULL }, + { "Omacron", 778, NULL }, + { "questiondown", 611, NULL }, + { "emdash", 1000, NULL }, + { "Agrave", 667, NULL }, + { "three", 556, NULL }, + { "numbersign", 556, NULL }, + { "lcaron", 299, NULL }, + { "A", 667, NULL }, + { "B", 667, NULL }, + { "C", 722, NULL }, + { "aogonek", 556, NULL }, + { "D", 722, NULL }, + { "E", 667, NULL }, + { "onequarter", 834, NULL }, + { "F", 611, NULL }, + { "G", 778, NULL }, + { "H", 722, NULL }, + { "I", 278, NULL }, + { "J", 500, NULL }, + { "K", 667, NULL }, + { "iogonek", 222, NULL }, + { "backslash", 278, NULL }, + { "L", 556, NULL }, + { "periodcentered", 278, NULL }, + { "M", 833, NULL }, + { "N", 722, NULL }, + { "omacron", 556, NULL }, + { "Tcommaaccent", 611, NULL }, + { "O", 778, NULL }, + { "P", 667, NULL }, + { "Q", 778, NULL }, + { "Uhungarumlaut", 722, NULL }, + { "R", 722, NULL }, + { "Aacute", 667, NULL }, + { "caron", 333, NULL }, + { "S", 667, NULL }, + { "T", 611, NULL }, + { "U", 722, NULL }, + { "agrave", 556, NULL }, + { "V", 667, NULL }, + { "W", 944, NULL }, + { "X", 667, NULL }, + { "question", 556, NULL }, + { "equal", 584, NULL }, + { "Y", 667, NULL }, + { "Z", 611, NULL }, + { "four", 556, NULL }, + { "a", 556, NULL }, + { "Gcommaaccent", 778, NULL }, + { "b", 556, NULL }, + { "c", 500, NULL }, + { "d", 556, NULL }, + { "e", 556, NULL }, + { "f", 278, NULL }, + { "g", 556, NULL }, + { "bullet", 350, NULL }, + { "h", 556, NULL }, + { "i", 222, NULL }, + { "Oslash", 778, NULL }, + { "dagger", 556, NULL }, + { "j", 222, NULL }, + { "k", 500, NULL }, + { "l", 222, NULL }, + { "m", 833, NULL }, + { "n", 556, NULL }, + { "tcommaaccent", 278, NULL }, + { "o", 556, NULL }, + { "ordfeminine", 370, NULL }, + { "ring", 333, NULL }, + { "p", 556, NULL }, + { "q", 556, NULL }, + { "uhungarumlaut", 556, NULL }, + { "r", 333, NULL }, + { "twosuperior", 333, NULL }, + { "aacute", 556, NULL }, + { "s", 500, NULL }, + { "OE", 1000, NULL }, + { "t", 278, NULL }, + { "divide", 584, NULL }, + { "u", 556, NULL }, + { "Ccaron", 722, NULL }, + { "v", 500, NULL }, + { "w", 722, NULL }, + { "x", 500, NULL }, + { "y", 500, NULL }, + { "z", 500, NULL }, + { "Gbreve", 778, NULL }, + { "commaaccent", 250, NULL }, + { "hungarumlaut", 333, NULL }, + { "Idotaccent", 278, NULL }, + { "Nacute", 722, NULL }, + { "quotedbl", 355, NULL }, + { "gcommaaccent", 556, NULL }, + { "mu", 556, NULL }, + { "greaterequal", 549, NULL }, + { "Scaron", 667, NULL }, + { "Lslash", 556, NULL }, + { "semicolon", 278, NULL }, + { "oslash", 611, NULL }, + { "lessequal", 549, NULL }, + { "lozenge", 471, NULL }, + { "parenright", 333, NULL }, + { "ccaron", 500, NULL }, + { "Ecircumflex", 667, NULL }, + { "gbreve", 556, NULL }, + { "trademark", 1000, NULL }, + { "daggerdbl", 556, NULL }, + { "nacute", 556, NULL }, + { "macron", 333, NULL }, + { "Otilde", 778, NULL }, + { "Emacron", 667, NULL }, + { "ellipsis", 1000, NULL }, + { "scaron", 500, NULL }, + { "AE", 1000, NULL }, + { "Ucircumflex", 722, NULL }, + { "lslash", 222, NULL }, + { "quotedblleft", 333, NULL }, + { "guilsinglright", 333, NULL }, + { "hyphen", 333, NULL }, + { "quotesingle", 191, NULL }, + { "eight", 556, NULL }, + { "exclamdown", 333, NULL }, + { "endash", 556, NULL }, + { "oe", 944, NULL }, + { "Abreve", 667, NULL }, + { "Umacron", 722, NULL }, + { "ecircumflex", 556, NULL }, + { "Adieresis", 667, NULL }, + { "copyright", 737, NULL }, + { "Egrave", 667, NULL }, + { "slash", 278, NULL }, + { "Edieresis", 667, NULL }, + { "otilde", 556, NULL }, + { "Idieresis", 278, NULL }, + { "parenleft", 333, NULL }, + { "one", 556, NULL }, + { "emacron", 556, NULL }, + { "Odieresis", 778, NULL }, + { "ucircumflex", 556, NULL }, + { "bracketleft", 278, NULL }, + { "Ugrave", 722, NULL }, + { "quoteright", 222, NULL }, + { "Udieresis", 722, NULL }, + { "perthousand", 1000, NULL }, + { "Ydieresis", 667, NULL }, + { "umacron", 556, NULL }, + { "abreve", 556, NULL }, + { "Eacute", 667, NULL }, + { "adieresis", 556, NULL }, + { "egrave", 556, NULL }, + { "edieresis", 556, NULL }, + { "idieresis", 278, NULL }, + { "Eth", 722, NULL }, + { "ae", 889, NULL }, + { "asterisk", 389, NULL }, + { "odieresis", 556, NULL }, + { "Uacute", 722, NULL }, + { "ugrave", 556, NULL }, + { "nine", 556, NULL }, + { "five", 556, NULL }, + { "udieresis", 556, NULL }, + { "Zcaron", 611, NULL }, + { "Scommaaccent", 667, NULL }, + { "threequarters", 834, NULL }, + { "guillemotright", 556, NULL }, + { "Ccedilla", 722, NULL }, + { "ydieresis", 500, NULL }, + { "tilde", 333, NULL }, + { "at", 1015, NULL }, + { "eacute", 556, NULL }, + { "underscore", 556, NULL }, + { "Euro", 556, NULL }, + { "Dcroat", 722, NULL }, + { "multiply", 584, NULL }, + { "zero", 556, NULL }, + { "eth", 556, NULL }, + { "Scedilla", 667, NULL }, + { "Ograve", 778, NULL }, + { "Racute", 722, NULL }, + { "partialdiff", 476, NULL }, + { "uacute", 556, NULL }, + { "braceleft", 334, NULL }, + { "Thorn", 667, NULL }, + { "zcaron", 500, NULL }, + { "scommaaccent", 500, NULL }, + { "ccedilla", 500, NULL }, + { "Dcaron", 722, NULL }, + { "dcroat", 556, NULL }, + { "Ocircumflex", 778, NULL }, + { "Oacute", 778, NULL }, + { "scedilla", 500, NULL }, + { "ogonek", 333, NULL }, + { "ograve", 556, NULL }, + { "racute", 333, NULL }, + { "Tcaron", 611, NULL }, + { "Eogonek", 667, NULL }, + { "thorn", 556, NULL }, + { "degree", 400, NULL }, + { "registered", 737, NULL }, + { "radical", 453, NULL }, + { "Aring", 667, NULL }, + { "percent", 889, NULL }, + { "six", 556, NULL }, + { "paragraph", 537, NULL }, + { "dcaron", 643, NULL }, + { "Uogonek", 722, NULL }, + { "two", 556, NULL }, + { "summation", 600, NULL }, + { "Igrave", 278, NULL }, + { "Lacute", 556, NULL }, + { "ocircumflex", 556, NULL }, + { "oacute", 556, NULL }, + { "Uring", 722, NULL }, + { "Lcommaaccent", 556, NULL }, + { "tcaron", 317, NULL }, + { "eogonek", 556, NULL }, + { "Delta", 612, NULL }, + { "Ohungarumlaut", 778, NULL }, + { "asciicircum", 469, NULL }, + { "aring", 556, NULL }, + { "grave", 333, NULL }, + { "uogonek", 556, NULL }, + { "bracketright", 278, NULL }, + { "Iacute", 278, NULL }, + { "ampersand", 667, NULL }, + { "igrave", 278, NULL }, + { "lacute", 222, NULL }, + { "Ncaron", 722, NULL }, + { "plus", 584, NULL }, + { "uring", 556, NULL }, + { "quotesinglbase", 222, NULL }, + { "lcommaaccent", 222, NULL }, + { "Yacute", 667, NULL }, + { "ohungarumlaut", 556, NULL }, + { "threesuperior", 333, NULL }, + { "acute", 333, NULL }, + { "section", 556, NULL }, + { "dieresis", 333, NULL }, + { "iacute", 278, NULL }, + { "quotedblbase", 333, NULL }, + { "ncaron", 556, NULL }, + { "florin", 556, NULL }, + { "yacute", 500, NULL }, + { "Rcommaaccent", 722, NULL }, + { "fi", 500, NULL }, + { "fl", 500, NULL }, + { "Acircumflex", 667, NULL }, + { "Cacute", 722, NULL }, + { "Icircumflex", 278, NULL }, + { "guillemotleft", 556, NULL }, + { "germandbls", 611, NULL }, + { "Amacron", 667, NULL }, + { "seven", 556, NULL }, + { "Sacute", 667, NULL }, + { "ordmasculine", 365, NULL }, + { "dotlessi", 278, NULL }, + { "sterling", 556, NULL }, + { "notequal", 549, NULL }, + { "Imacron", 278, NULL }, + { "rcommaaccent", 333, NULL }, + { "Zdotaccent", 611, NULL }, + { "acircumflex", 556, NULL }, + { "cacute", 500, NULL }, + { "Ecaron", 667, NULL }, + { "icircumflex", 278, NULL }, + { "braceright", 334, NULL }, + { "quotedblright", 333, NULL }, + { "amacron", 556, NULL }, + { "sacute", 500, NULL }, + { "imacron", 278, NULL }, + { "cent", 556, NULL }, + { "currency", 556, NULL }, + { "logicalnot", 584, NULL }, + { "zdotaccent", 500, NULL }, + { "Atilde", 667, NULL }, + { "breve", 333, NULL }, + { "bar", 260, NULL }, + { "fraction", 167, NULL }, + { "less", 584, NULL }, + { "ecaron", 556, NULL }, + { "guilsinglleft", 333, NULL }, + { "exclam", 278, NULL }, + { "period", 278, NULL }, + { "Rcaron", 722, NULL }, + { "Kcommaaccent", 667, NULL }, + { "greater", 584, NULL }, + { "atilde", 556, NULL }, + { "brokenbar", 260, NULL }, + { "quoteleft", 222, NULL }, + { "Edotaccent", 667, NULL }, + { "onesuperior", 333, NULL } +}; + +static BuiltinFontWidth helveticaBoldWidthsTab[] = { + { "Ntilde", 722, NULL }, + { "rcaron", 389, NULL }, + { "kcommaaccent", 556, NULL }, + { "Ncommaaccent", 722, NULL }, + { "Zacute", 611, NULL }, + { "comma", 278, NULL }, + { "cedilla", 333, NULL }, + { "plusminus", 584, NULL }, + { "circumflex", 333, NULL }, + { "dotaccent", 333, NULL }, + { "edotaccent", 556, NULL }, + { "asciitilde", 584, NULL }, + { "colon", 333, NULL }, + { "onehalf", 834, NULL }, + { "dollar", 556, NULL }, + { "Lcaron", 611, NULL }, + { "ntilde", 611, NULL }, + { "Aogonek", 722, NULL }, + { "ncommaaccent", 611, NULL }, + { "minus", 584, NULL }, + { "Iogonek", 278, NULL }, + { "zacute", 500, NULL }, + { "yen", 556, NULL }, + { "space", 278, NULL }, + { "Omacron", 778, NULL }, + { "questiondown", 611, NULL }, + { "emdash", 1000, NULL }, + { "Agrave", 722, NULL }, + { "three", 556, NULL }, + { "numbersign", 556, NULL }, + { "lcaron", 400, NULL }, + { "A", 722, NULL }, + { "B", 722, NULL }, + { "C", 722, NULL }, + { "aogonek", 556, NULL }, + { "D", 722, NULL }, + { "E", 667, NULL }, + { "onequarter", 834, NULL }, + { "F", 611, NULL }, + { "G", 778, NULL }, + { "H", 722, NULL }, + { "I", 278, NULL }, + { "J", 556, NULL }, + { "K", 722, NULL }, + { "iogonek", 278, NULL }, + { "backslash", 278, NULL }, + { "L", 611, NULL }, + { "periodcentered", 278, NULL }, + { "M", 833, NULL }, + { "N", 722, NULL }, + { "omacron", 611, NULL }, + { "Tcommaaccent", 611, NULL }, + { "O", 778, NULL }, + { "P", 667, NULL }, + { "Q", 778, NULL }, + { "Uhungarumlaut", 722, NULL }, + { "R", 722, NULL }, + { "Aacute", 722, NULL }, + { "caron", 333, NULL }, + { "S", 667, NULL }, + { "T", 611, NULL }, + { "U", 722, NULL }, + { "agrave", 556, NULL }, + { "V", 667, NULL }, + { "W", 944, NULL }, + { "X", 667, NULL }, + { "question", 611, NULL }, + { "equal", 584, NULL }, + { "Y", 667, NULL }, + { "Z", 611, NULL }, + { "four", 556, NULL }, + { "a", 556, NULL }, + { "Gcommaaccent", 778, NULL }, + { "b", 611, NULL }, + { "c", 556, NULL }, + { "d", 611, NULL }, + { "e", 556, NULL }, + { "f", 333, NULL }, + { "g", 611, NULL }, + { "bullet", 350, NULL }, + { "h", 611, NULL }, + { "i", 278, NULL }, + { "Oslash", 778, NULL }, + { "dagger", 556, NULL }, + { "j", 278, NULL }, + { "k", 556, NULL }, + { "l", 278, NULL }, + { "m", 889, NULL }, + { "n", 611, NULL }, + { "tcommaaccent", 333, NULL }, + { "o", 611, NULL }, + { "ordfeminine", 370, NULL }, + { "ring", 333, NULL }, + { "p", 611, NULL }, + { "q", 611, NULL }, + { "uhungarumlaut", 611, NULL }, + { "r", 389, NULL }, + { "twosuperior", 333, NULL }, + { "aacute", 556, NULL }, + { "s", 556, NULL }, + { "OE", 1000, NULL }, + { "t", 333, NULL }, + { "divide", 584, NULL }, + { "u", 611, NULL }, + { "Ccaron", 722, NULL }, + { "v", 556, NULL }, + { "w", 778, NULL }, + { "x", 556, NULL }, + { "y", 556, NULL }, + { "z", 500, NULL }, + { "Gbreve", 778, NULL }, + { "commaaccent", 250, NULL }, + { "hungarumlaut", 333, NULL }, + { "Idotaccent", 278, NULL }, + { "Nacute", 722, NULL }, + { "quotedbl", 474, NULL }, + { "gcommaaccent", 611, NULL }, + { "mu", 611, NULL }, + { "greaterequal", 549, NULL }, + { "Scaron", 667, NULL }, + { "Lslash", 611, NULL }, + { "semicolon", 333, NULL }, + { "oslash", 611, NULL }, + { "lessequal", 549, NULL }, + { "lozenge", 494, NULL }, + { "parenright", 333, NULL }, + { "ccaron", 556, NULL }, + { "Ecircumflex", 667, NULL }, + { "gbreve", 611, NULL }, + { "trademark", 1000, NULL }, + { "daggerdbl", 556, NULL }, + { "nacute", 611, NULL }, + { "macron", 333, NULL }, + { "Otilde", 778, NULL }, + { "Emacron", 667, NULL }, + { "ellipsis", 1000, NULL }, + { "scaron", 556, NULL }, + { "AE", 1000, NULL }, + { "Ucircumflex", 722, NULL }, + { "lslash", 278, NULL }, + { "quotedblleft", 500, NULL }, + { "guilsinglright", 333, NULL }, + { "hyphen", 333, NULL }, + { "quotesingle", 238, NULL }, + { "eight", 556, NULL }, + { "exclamdown", 333, NULL }, + { "endash", 556, NULL }, + { "oe", 944, NULL }, + { "Abreve", 722, NULL }, + { "Umacron", 722, NULL }, + { "ecircumflex", 556, NULL }, + { "Adieresis", 722, NULL }, + { "copyright", 737, NULL }, + { "Egrave", 667, NULL }, + { "slash", 278, NULL }, + { "Edieresis", 667, NULL }, + { "otilde", 611, NULL }, + { "Idieresis", 278, NULL }, + { "parenleft", 333, NULL }, + { "one", 556, NULL }, + { "emacron", 556, NULL }, + { "Odieresis", 778, NULL }, + { "ucircumflex", 611, NULL }, + { "bracketleft", 333, NULL }, + { "Ugrave", 722, NULL }, + { "quoteright", 278, NULL }, + { "Udieresis", 722, NULL }, + { "perthousand", 1000, NULL }, + { "Ydieresis", 667, NULL }, + { "umacron", 611, NULL }, + { "abreve", 556, NULL }, + { "Eacute", 667, NULL }, + { "adieresis", 556, NULL }, + { "egrave", 556, NULL }, + { "edieresis", 556, NULL }, + { "idieresis", 278, NULL }, + { "Eth", 722, NULL }, + { "ae", 889, NULL }, + { "asterisk", 389, NULL }, + { "odieresis", 611, NULL }, + { "Uacute", 722, NULL }, + { "ugrave", 611, NULL }, + { "nine", 556, NULL }, + { "five", 556, NULL }, + { "udieresis", 611, NULL }, + { "Zcaron", 611, NULL }, + { "Scommaaccent", 667, NULL }, + { "threequarters", 834, NULL }, + { "guillemotright", 556, NULL }, + { "Ccedilla", 722, NULL }, + { "ydieresis", 556, NULL }, + { "tilde", 333, NULL }, + { "dbldaggerumlaut", 556, NULL }, + { "at", 975, NULL }, + { "eacute", 556, NULL }, + { "underscore", 556, NULL }, + { "Euro", 556, NULL }, + { "Dcroat", 722, NULL }, + { "multiply", 584, NULL }, + { "zero", 556, NULL }, + { "eth", 611, NULL }, + { "Scedilla", 667, NULL }, + { "Ograve", 778, NULL }, + { "Racute", 722, NULL }, + { "partialdiff", 494, NULL }, + { "uacute", 611, NULL }, + { "braceleft", 389, NULL }, + { "Thorn", 667, NULL }, + { "zcaron", 500, NULL }, + { "scommaaccent", 556, NULL }, + { "ccedilla", 556, NULL }, + { "Dcaron", 722, NULL }, + { "dcroat", 611, NULL }, + { "Ocircumflex", 778, NULL }, + { "Oacute", 778, NULL }, + { "scedilla", 556, NULL }, + { "ogonek", 333, NULL }, + { "ograve", 611, NULL }, + { "racute", 389, NULL }, + { "Tcaron", 611, NULL }, + { "Eogonek", 667, NULL }, + { "thorn", 611, NULL }, + { "degree", 400, NULL }, + { "registered", 737, NULL }, + { "radical", 549, NULL }, + { "Aring", 722, NULL }, + { "percent", 889, NULL }, + { "six", 556, NULL }, + { "paragraph", 556, NULL }, + { "dcaron", 743, NULL }, + { "Uogonek", 722, NULL }, + { "two", 556, NULL }, + { "summation", 600, NULL }, + { "Igrave", 278, NULL }, + { "Lacute", 611, NULL }, + { "ocircumflex", 611, NULL }, + { "oacute", 611, NULL }, + { "Uring", 722, NULL }, + { "Lcommaaccent", 611, NULL }, + { "tcaron", 389, NULL }, + { "eogonek", 556, NULL }, + { "Delta", 612, NULL }, + { "Ohungarumlaut", 778, NULL }, + { "asciicircum", 584, NULL }, + { "aring", 556, NULL }, + { "grave", 333, NULL }, + { "uogonek", 611, NULL }, + { "bracketright", 333, NULL }, + { "Iacute", 278, NULL }, + { "ampersand", 722, NULL }, + { "igrave", 278, NULL }, + { "lacute", 278, NULL }, + { "Ncaron", 722, NULL }, + { "plus", 584, NULL }, + { "uring", 611, NULL }, + { "quotesinglbase", 278, NULL }, + { "lcommaaccent", 278, NULL }, + { "Yacute", 667, NULL }, + { "ohungarumlaut", 611, NULL }, + { "threesuperior", 333, NULL }, + { "acute", 333, NULL }, + { "section", 556, NULL }, + { "dieresis", 333, NULL }, + { "iacute", 278, NULL }, + { "quotedblbase", 500, NULL }, + { "ncaron", 611, NULL }, + { "florin", 556, NULL }, + { "yacute", 556, NULL }, + { "Rcommaaccent", 722, NULL }, + { "fi", 611, NULL }, + { "fl", 611, NULL }, + { "Acircumflex", 722, NULL }, + { "Cacute", 722, NULL }, + { "Icircumflex", 278, NULL }, + { "guillemotleft", 556, NULL }, + { "germandbls", 611, NULL }, + { "Amacron", 722, NULL }, + { "seven", 556, NULL }, + { "Sacute", 667, NULL }, + { "ordmasculine", 365, NULL }, + { "dotlessi", 278, NULL }, + { "sterling", 556, NULL }, + { "notequal", 549, NULL }, + { "Imacron", 278, NULL }, + { "rcommaaccent", 389, NULL }, + { "Zdotaccent", 611, NULL }, + { "acircumflex", 556, NULL }, + { "cacute", 556, NULL }, + { "Ecaron", 667, NULL }, + { "icircumflex", 278, NULL }, + { "braceright", 389, NULL }, + { "quotedblright", 500, NULL }, + { "amacron", 556, NULL }, + { "sacute", 556, NULL }, + { "imacron", 278, NULL }, + { "cent", 556, NULL }, + { "currency", 556, NULL }, + { "logicalnot", 584, NULL }, + { "zdotaccent", 500, NULL }, + { "Atilde", 722, NULL }, + { "breve", 333, NULL }, + { "bar", 280, NULL }, + { "fraction", 167, NULL }, + { "less", 584, NULL }, + { "ecaron", 556, NULL }, + { "guilsinglleft", 333, NULL }, + { "exclam", 333, NULL }, + { "period", 278, NULL }, + { "Rcaron", 722, NULL }, + { "Kcommaaccent", 722, NULL }, + { "greater", 584, NULL }, + { "atilde", 556, NULL }, + { "brokenbar", 280, NULL }, + { "quoteleft", 278, NULL }, + { "Edotaccent", 667, NULL }, + { "onesuperior", 333, NULL } +}; + +static BuiltinFontWidth helveticaBoldObliqueWidthsTab[] = { + { "Ntilde", 722, NULL }, + { "rcaron", 389, NULL }, + { "kcommaaccent", 556, NULL }, + { "Ncommaaccent", 722, NULL }, + { "Zacute", 611, NULL }, + { "comma", 278, NULL }, + { "cedilla", 333, NULL }, + { "plusminus", 584, NULL }, + { "circumflex", 333, NULL }, + { "dotaccent", 333, NULL }, + { "edotaccent", 556, NULL }, + { "asciitilde", 584, NULL }, + { "colon", 333, NULL }, + { "onehalf", 834, NULL }, + { "dollar", 556, NULL }, + { "Lcaron", 611, NULL }, + { "ntilde", 611, NULL }, + { "Aogonek", 722, NULL }, + { "ncommaaccent", 611, NULL }, + { "minus", 584, NULL }, + { "Iogonek", 278, NULL }, + { "zacute", 500, NULL }, + { "yen", 556, NULL }, + { "space", 278, NULL }, + { "Omacron", 778, NULL }, + { "questiondown", 611, NULL }, + { "emdash", 1000, NULL }, + { "Agrave", 722, NULL }, + { "three", 556, NULL }, + { "numbersign", 556, NULL }, + { "lcaron", 400, NULL }, + { "A", 722, NULL }, + { "B", 722, NULL }, + { "C", 722, NULL }, + { "aogonek", 556, NULL }, + { "D", 722, NULL }, + { "E", 667, NULL }, + { "onequarter", 834, NULL }, + { "F", 611, NULL }, + { "G", 778, NULL }, + { "H", 722, NULL }, + { "I", 278, NULL }, + { "J", 556, NULL }, + { "K", 722, NULL }, + { "iogonek", 278, NULL }, + { "backslash", 278, NULL }, + { "L", 611, NULL }, + { "periodcentered", 278, NULL }, + { "M", 833, NULL }, + { "N", 722, NULL }, + { "omacron", 611, NULL }, + { "Tcommaaccent", 611, NULL }, + { "O", 778, NULL }, + { "P", 667, NULL }, + { "Q", 778, NULL }, + { "Uhungarumlaut", 722, NULL }, + { "R", 722, NULL }, + { "Aacute", 722, NULL }, + { "caron", 333, NULL }, + { "S", 667, NULL }, + { "T", 611, NULL }, + { "U", 722, NULL }, + { "agrave", 556, NULL }, + { "V", 667, NULL }, + { "W", 944, NULL }, + { "X", 667, NULL }, + { "question", 611, NULL }, + { "equal", 584, NULL }, + { "Y", 667, NULL }, + { "Z", 611, NULL }, + { "four", 556, NULL }, + { "a", 556, NULL }, + { "Gcommaaccent", 778, NULL }, + { "b", 611, NULL }, + { "c", 556, NULL }, + { "d", 611, NULL }, + { "e", 556, NULL }, + { "f", 333, NULL }, + { "g", 611, NULL }, + { "bullet", 350, NULL }, + { "h", 611, NULL }, + { "i", 278, NULL }, + { "Oslash", 778, NULL }, + { "dagger", 556, NULL }, + { "j", 278, NULL }, + { "k", 556, NULL }, + { "l", 278, NULL }, + { "m", 889, NULL }, + { "n", 611, NULL }, + { "tcommaaccent", 333, NULL }, + { "o", 611, NULL }, + { "ordfeminine", 370, NULL }, + { "ring", 333, NULL }, + { "p", 611, NULL }, + { "q", 611, NULL }, + { "uhungarumlaut", 611, NULL }, + { "r", 389, NULL }, + { "twosuperior", 333, NULL }, + { "aacute", 556, NULL }, + { "s", 556, NULL }, + { "OE", 1000, NULL }, + { "t", 333, NULL }, + { "divide", 584, NULL }, + { "u", 611, NULL }, + { "Ccaron", 722, NULL }, + { "v", 556, NULL }, + { "w", 778, NULL }, + { "x", 556, NULL }, + { "y", 556, NULL }, + { "z", 500, NULL }, + { "Gbreve", 778, NULL }, + { "commaaccent", 250, NULL }, + { "hungarumlaut", 333, NULL }, + { "Idotaccent", 278, NULL }, + { "Nacute", 722, NULL }, + { "quotedbl", 474, NULL }, + { "gcommaaccent", 611, NULL }, + { "mu", 611, NULL }, + { "greaterequal", 549, NULL }, + { "Scaron", 667, NULL }, + { "Lslash", 611, NULL }, + { "semicolon", 333, NULL }, + { "oslash", 611, NULL }, + { "lessequal", 549, NULL }, + { "lozenge", 494, NULL }, + { "parenright", 333, NULL }, + { "ccaron", 556, NULL }, + { "Ecircumflex", 667, NULL }, + { "gbreve", 611, NULL }, + { "trademark", 1000, NULL }, + { "daggerdbl", 556, NULL }, + { "nacute", 611, NULL }, + { "macron", 333, NULL }, + { "Otilde", 778, NULL }, + { "Emacron", 667, NULL }, + { "ellipsis", 1000, NULL }, + { "scaron", 556, NULL }, + { "AE", 1000, NULL }, + { "Ucircumflex", 722, NULL }, + { "lslash", 278, NULL }, + { "quotedblleft", 500, NULL }, + { "guilsinglright", 333, NULL }, + { "hyphen", 333, NULL }, + { "quotesingle", 238, NULL }, + { "eight", 556, NULL }, + { "exclamdown", 333, NULL }, + { "endash", 556, NULL }, + { "oe", 944, NULL }, + { "Abreve", 722, NULL }, + { "Umacron", 722, NULL }, + { "ecircumflex", 556, NULL }, + { "Adieresis", 722, NULL }, + { "copyright", 737, NULL }, + { "Egrave", 667, NULL }, + { "slash", 278, NULL }, + { "Edieresis", 667, NULL }, + { "otilde", 611, NULL }, + { "Idieresis", 278, NULL }, + { "parenleft", 333, NULL }, + { "one", 556, NULL }, + { "emacron", 556, NULL }, + { "Odieresis", 778, NULL }, + { "ucircumflex", 611, NULL }, + { "bracketleft", 333, NULL }, + { "Ugrave", 722, NULL }, + { "quoteright", 278, NULL }, + { "Udieresis", 722, NULL }, + { "perthousand", 1000, NULL }, + { "Ydieresis", 667, NULL }, + { "umacron", 611, NULL }, + { "abreve", 556, NULL }, + { "Eacute", 667, NULL }, + { "adieresis", 556, NULL }, + { "egrave", 556, NULL }, + { "edieresis", 556, NULL }, + { "idieresis", 278, NULL }, + { "Eth", 722, NULL }, + { "ae", 889, NULL }, + { "asterisk", 389, NULL }, + { "odieresis", 611, NULL }, + { "Uacute", 722, NULL }, + { "ugrave", 611, NULL }, + { "nine", 556, NULL }, + { "five", 556, NULL }, + { "udieresis", 611, NULL }, + { "Zcaron", 611, NULL }, + { "Scommaaccent", 667, NULL }, + { "threequarters", 834, NULL }, + { "guillemotright", 556, NULL }, + { "Ccedilla", 722, NULL }, + { "ydieresis", 556, NULL }, + { "tilde", 333, NULL }, + { "at", 975, NULL }, + { "eacute", 556, NULL }, + { "underscore", 556, NULL }, + { "Euro", 556, NULL }, + { "Dcroat", 722, NULL }, + { "multiply", 584, NULL }, + { "zero", 556, NULL }, + { "eth", 611, NULL }, + { "Scedilla", 667, NULL }, + { "Ograve", 778, NULL }, + { "Racute", 722, NULL }, + { "partialdiff", 494, NULL }, + { "uacute", 611, NULL }, + { "braceleft", 389, NULL }, + { "Thorn", 667, NULL }, + { "zcaron", 500, NULL }, + { "scommaaccent", 556, NULL }, + { "ccedilla", 556, NULL }, + { "Dcaron", 722, NULL }, + { "dcroat", 611, NULL }, + { "Ocircumflex", 778, NULL }, + { "Oacute", 778, NULL }, + { "scedilla", 556, NULL }, + { "ogonek", 333, NULL }, + { "ograve", 611, NULL }, + { "racute", 389, NULL }, + { "Tcaron", 611, NULL }, + { "Eogonek", 667, NULL }, + { "thorn", 611, NULL }, + { "degree", 400, NULL }, + { "registered", 737, NULL }, + { "radical", 549, NULL }, + { "Aring", 722, NULL }, + { "percent", 889, NULL }, + { "six", 556, NULL }, + { "paragraph", 556, NULL }, + { "dcaron", 743, NULL }, + { "Uogonek", 722, NULL }, + { "two", 556, NULL }, + { "summation", 600, NULL }, + { "Igrave", 278, NULL }, + { "Lacute", 611, NULL }, + { "ocircumflex", 611, NULL }, + { "oacute", 611, NULL }, + { "Uring", 722, NULL }, + { "Lcommaaccent", 611, NULL }, + { "tcaron", 389, NULL }, + { "eogonek", 556, NULL }, + { "Delta", 612, NULL }, + { "Ohungarumlaut", 778, NULL }, + { "asciicircum", 584, NULL }, + { "aring", 556, NULL }, + { "grave", 333, NULL }, + { "uogonek", 611, NULL }, + { "bracketright", 333, NULL }, + { "Iacute", 278, NULL }, + { "ampersand", 722, NULL }, + { "igrave", 278, NULL }, + { "lacute", 278, NULL }, + { "Ncaron", 722, NULL }, + { "plus", 584, NULL }, + { "uring", 611, NULL }, + { "quotesinglbase", 278, NULL }, + { "lcommaaccent", 278, NULL }, + { "Yacute", 667, NULL }, + { "ohungarumlaut", 611, NULL }, + { "threesuperior", 333, NULL }, + { "acute", 333, NULL }, + { "section", 556, NULL }, + { "dieresis", 333, NULL }, + { "iacute", 278, NULL }, + { "quotedblbase", 500, NULL }, + { "ncaron", 611, NULL }, + { "florin", 556, NULL }, + { "yacute", 556, NULL }, + { "Rcommaaccent", 722, NULL }, + { "fi", 611, NULL }, + { "fl", 611, NULL }, + { "Acircumflex", 722, NULL }, + { "Cacute", 722, NULL }, + { "Icircumflex", 278, NULL }, + { "guillemotleft", 556, NULL }, + { "germandbls", 611, NULL }, + { "Amacron", 722, NULL }, + { "seven", 556, NULL }, + { "Sacute", 667, NULL }, + { "ordmasculine", 365, NULL }, + { "dotlessi", 278, NULL }, + { "sterling", 556, NULL }, + { "notequal", 549, NULL }, + { "Imacron", 278, NULL }, + { "rcommaaccent", 389, NULL }, + { "Zdotaccent", 611, NULL }, + { "acircumflex", 556, NULL }, + { "cacute", 556, NULL }, + { "Ecaron", 667, NULL }, + { "icircumflex", 278, NULL }, + { "braceright", 389, NULL }, + { "quotedblright", 500, NULL }, + { "amacron", 556, NULL }, + { "sacute", 556, NULL }, + { "imacron", 278, NULL }, + { "cent", 556, NULL }, + { "currency", 556, NULL }, + { "logicalnot", 584, NULL }, + { "zdotaccent", 500, NULL }, + { "Atilde", 722, NULL }, + { "breve", 333, NULL }, + { "bar", 280, NULL }, + { "fraction", 167, NULL }, + { "less", 584, NULL }, + { "ecaron", 556, NULL }, + { "guilsinglleft", 333, NULL }, + { "exclam", 333, NULL }, + { "period", 278, NULL }, + { "Rcaron", 722, NULL }, + { "Kcommaaccent", 722, NULL }, + { "greater", 584, NULL }, + { "atilde", 556, NULL }, + { "brokenbar", 280, NULL }, + { "quoteleft", 278, NULL }, + { "Edotaccent", 667, NULL }, + { "onesuperior", 333, NULL } +}; + +static BuiltinFontWidth helveticaObliqueWidthsTab[] = { + { "Ntilde", 722, NULL }, + { "rcaron", 333, NULL }, + { "kcommaaccent", 500, NULL }, + { "Ncommaaccent", 722, NULL }, + { "Zacute", 611, NULL }, + { "comma", 278, NULL }, + { "cedilla", 333, NULL }, + { "plusminus", 584, NULL }, + { "circumflex", 333, NULL }, + { "dotaccent", 333, NULL }, + { "edotaccent", 556, NULL }, + { "asciitilde", 584, NULL }, + { "colon", 278, NULL }, + { "onehalf", 834, NULL }, + { "dollar", 556, NULL }, + { "Lcaron", 556, NULL }, + { "ntilde", 556, NULL }, + { "Aogonek", 667, NULL }, + { "ncommaaccent", 556, NULL }, + { "minus", 584, NULL }, + { "Iogonek", 278, NULL }, + { "zacute", 500, NULL }, + { "yen", 556, NULL }, + { "space", 278, NULL }, + { "Omacron", 778, NULL }, + { "questiondown", 611, NULL }, + { "emdash", 1000, NULL }, + { "Agrave", 667, NULL }, + { "three", 556, NULL }, + { "numbersign", 556, NULL }, + { "lcaron", 299, NULL }, + { "A", 667, NULL }, + { "B", 667, NULL }, + { "C", 722, NULL }, + { "aogonek", 556, NULL }, + { "D", 722, NULL }, + { "E", 667, NULL }, + { "onequarter", 834, NULL }, + { "F", 611, NULL }, + { "G", 778, NULL }, + { "H", 722, NULL }, + { "I", 278, NULL }, + { "J", 500, NULL }, + { "K", 667, NULL }, + { "iogonek", 222, NULL }, + { "backslash", 278, NULL }, + { "L", 556, NULL }, + { "periodcentered", 278, NULL }, + { "M", 833, NULL }, + { "N", 722, NULL }, + { "omacron", 556, NULL }, + { "Tcommaaccent", 611, NULL }, + { "O", 778, NULL }, + { "P", 667, NULL }, + { "Q", 778, NULL }, + { "Uhungarumlaut", 722, NULL }, + { "R", 722, NULL }, + { "Aacute", 667, NULL }, + { "caron", 333, NULL }, + { "S", 667, NULL }, + { "T", 611, NULL }, + { "U", 722, NULL }, + { "agrave", 556, NULL }, + { "V", 667, NULL }, + { "W", 944, NULL }, + { "X", 667, NULL }, + { "question", 556, NULL }, + { "equal", 584, NULL }, + { "Y", 667, NULL }, + { "Z", 611, NULL }, + { "four", 556, NULL }, + { "a", 556, NULL }, + { "Gcommaaccent", 778, NULL }, + { "b", 556, NULL }, + { "c", 500, NULL }, + { "d", 556, NULL }, + { "e", 556, NULL }, + { "f", 278, NULL }, + { "g", 556, NULL }, + { "bullet", 350, NULL }, + { "h", 556, NULL }, + { "i", 222, NULL }, + { "Oslash", 778, NULL }, + { "dagger", 556, NULL }, + { "j", 222, NULL }, + { "k", 500, NULL }, + { "l", 222, NULL }, + { "m", 833, NULL }, + { "n", 556, NULL }, + { "tcommaaccent", 278, NULL }, + { "o", 556, NULL }, + { "ordfeminine", 370, NULL }, + { "ring", 333, NULL }, + { "p", 556, NULL }, + { "q", 556, NULL }, + { "uhungarumlaut", 556, NULL }, + { "r", 333, NULL }, + { "twosuperior", 333, NULL }, + { "aacute", 556, NULL }, + { "s", 500, NULL }, + { "OE", 1000, NULL }, + { "t", 278, NULL }, + { "divide", 584, NULL }, + { "u", 556, NULL }, + { "Ccaron", 722, NULL }, + { "v", 500, NULL }, + { "w", 722, NULL }, + { "x", 500, NULL }, + { "y", 500, NULL }, + { "z", 500, NULL }, + { "Gbreve", 778, NULL }, + { "commaaccent", 250, NULL }, + { "hungarumlaut", 333, NULL }, + { "Idotaccent", 278, NULL }, + { "Nacute", 722, NULL }, + { "quotedbl", 355, NULL }, + { "gcommaaccent", 556, NULL }, + { "mu", 556, NULL }, + { "greaterequal", 549, NULL }, + { "Scaron", 667, NULL }, + { "Lslash", 556, NULL }, + { "semicolon", 278, NULL }, + { "oslash", 611, NULL }, + { "lessequal", 549, NULL }, + { "lozenge", 471, NULL }, + { "parenright", 333, NULL }, + { "ccaron", 500, NULL }, + { "Ecircumflex", 667, NULL }, + { "gbreve", 556, NULL }, + { "trademark", 1000, NULL }, + { "daggerdbl", 556, NULL }, + { "nacute", 556, NULL }, + { "macron", 333, NULL }, + { "Otilde", 778, NULL }, + { "Emacron", 667, NULL }, + { "ellipsis", 1000, NULL }, + { "scaron", 500, NULL }, + { "AE", 1000, NULL }, + { "Ucircumflex", 722, NULL }, + { "lslash", 222, NULL }, + { "quotedblleft", 333, NULL }, + { "guilsinglright", 333, NULL }, + { "hyphen", 333, NULL }, + { "quotesingle", 191, NULL }, + { "eight", 556, NULL }, + { "exclamdown", 333, NULL }, + { "endash", 556, NULL }, + { "oe", 944, NULL }, + { "Abreve", 667, NULL }, + { "Umacron", 722, NULL }, + { "ecircumflex", 556, NULL }, + { "Adieresis", 667, NULL }, + { "copyright", 737, NULL }, + { "Egrave", 667, NULL }, + { "slash", 278, NULL }, + { "Edieresis", 667, NULL }, + { "otilde", 556, NULL }, + { "Idieresis", 278, NULL }, + { "parenleft", 333, NULL }, + { "one", 556, NULL }, + { "emacron", 556, NULL }, + { "Odieresis", 778, NULL }, + { "ucircumflex", 556, NULL }, + { "bracketleft", 278, NULL }, + { "Ugrave", 722, NULL }, + { "quoteright", 222, NULL }, + { "Udieresis", 722, NULL }, + { "perthousand", 1000, NULL }, + { "Ydieresis", 667, NULL }, + { "umacron", 556, NULL }, + { "abreve", 556, NULL }, + { "Eacute", 667, NULL }, + { "adieresis", 556, NULL }, + { "egrave", 556, NULL }, + { "edieresis", 556, NULL }, + { "idieresis", 278, NULL }, + { "Eth", 722, NULL }, + { "ae", 889, NULL }, + { "asterisk", 389, NULL }, + { "odieresis", 556, NULL }, + { "Uacute", 722, NULL }, + { "ugrave", 556, NULL }, + { "nine", 556, NULL }, + { "five", 556, NULL }, + { "udieresis", 556, NULL }, + { "Zcaron", 611, NULL }, + { "Scommaaccent", 667, NULL }, + { "threequarters", 834, NULL }, + { "guillemotright", 556, NULL }, + { "Ccedilla", 722, NULL }, + { "ydieresis", 500, NULL }, + { "tilde", 333, NULL }, + { "at", 1015, NULL }, + { "eacute", 556, NULL }, + { "underscore", 556, NULL }, + { "Euro", 556, NULL }, + { "Dcroat", 722, NULL }, + { "multiply", 584, NULL }, + { "zero", 556, NULL }, + { "eth", 556, NULL }, + { "Scedilla", 667, NULL }, + { "Ograve", 778, NULL }, + { "Racute", 722, NULL }, + { "partialdiff", 476, NULL }, + { "uacute", 556, NULL }, + { "braceleft", 334, NULL }, + { "Thorn", 667, NULL }, + { "zcaron", 500, NULL }, + { "scommaaccent", 500, NULL }, + { "ccedilla", 500, NULL }, + { "Dcaron", 722, NULL }, + { "dcroat", 556, NULL }, + { "Ocircumflex", 778, NULL }, + { "Oacute", 778, NULL }, + { "scedilla", 500, NULL }, + { "ogonek", 333, NULL }, + { "ograve", 556, NULL }, + { "racute", 333, NULL }, + { "Tcaron", 611, NULL }, + { "Eogonek", 667, NULL }, + { "thorn", 556, NULL }, + { "degree", 400, NULL }, + { "registered", 737, NULL }, + { "radical", 453, NULL }, + { "Aring", 667, NULL }, + { "percent", 889, NULL }, + { "six", 556, NULL }, + { "paragraph", 537, NULL }, + { "dcaron", 643, NULL }, + { "Uogonek", 722, NULL }, + { "two", 556, NULL }, + { "summation", 600, NULL }, + { "Igrave", 278, NULL }, + { "Lacute", 556, NULL }, + { "ocircumflex", 556, NULL }, + { "oacute", 556, NULL }, + { "Uring", 722, NULL }, + { "Lcommaaccent", 556, NULL }, + { "tcaron", 317, NULL }, + { "eogonek", 556, NULL }, + { "Delta", 612, NULL }, + { "Ohungarumlaut", 778, NULL }, + { "asciicircum", 469, NULL }, + { "aring", 556, NULL }, + { "grave", 333, NULL }, + { "uogonek", 556, NULL }, + { "bracketright", 278, NULL }, + { "Iacute", 278, NULL }, + { "ampersand", 667, NULL }, + { "igrave", 278, NULL }, + { "lacute", 222, NULL }, + { "Ncaron", 722, NULL }, + { "plus", 584, NULL }, + { "uring", 556, NULL }, + { "quotesinglbase", 222, NULL }, + { "lcommaaccent", 222, NULL }, + { "Yacute", 667, NULL }, + { "ohungarumlaut", 556, NULL }, + { "threesuperior", 333, NULL }, + { "acute", 333, NULL }, + { "section", 556, NULL }, + { "dieresis", 333, NULL }, + { "iacute", 278, NULL }, + { "quotedblbase", 333, NULL }, + { "ncaron", 556, NULL }, + { "florin", 556, NULL }, + { "yacute", 500, NULL }, + { "Rcommaaccent", 722, NULL }, + { "fi", 500, NULL }, + { "fl", 500, NULL }, + { "Acircumflex", 667, NULL }, + { "Cacute", 722, NULL }, + { "Icircumflex", 278, NULL }, + { "guillemotleft", 556, NULL }, + { "germandbls", 611, NULL }, + { "Amacron", 667, NULL }, + { "seven", 556, NULL }, + { "Sacute", 667, NULL }, + { "ordmasculine", 365, NULL }, + { "dotlessi", 278, NULL }, + { "sterling", 556, NULL }, + { "notequal", 549, NULL }, + { "Imacron", 278, NULL }, + { "rcommaaccent", 333, NULL }, + { "Zdotaccent", 611, NULL }, + { "acircumflex", 556, NULL }, + { "cacute", 500, NULL }, + { "Ecaron", 667, NULL }, + { "icircumflex", 278, NULL }, + { "braceright", 334, NULL }, + { "quotedblright", 333, NULL }, + { "amacron", 556, NULL }, + { "sacute", 500, NULL }, + { "imacron", 278, NULL }, + { "cent", 556, NULL }, + { "currency", 556, NULL }, + { "logicalnot", 584, NULL }, + { "zdotaccent", 500, NULL }, + { "Atilde", 667, NULL }, + { "breve", 333, NULL }, + { "bar", 260, NULL }, + { "fraction", 167, NULL }, + { "less", 584, NULL }, + { "ecaron", 556, NULL }, + { "guilsinglleft", 333, NULL }, + { "exclam", 278, NULL }, + { "period", 278, NULL }, + { "Rcaron", 722, NULL }, + { "Kcommaaccent", 667, NULL }, + { "greater", 584, NULL }, + { "atilde", 556, NULL }, + { "brokenbar", 260, NULL }, + { "quoteleft", 222, NULL }, + { "Edotaccent", 667, NULL }, + { "onesuperior", 333, NULL } +}; + +static BuiltinFontWidth symbolWidthsTab[] = { + { "bracketleftex", 384, NULL }, + { "alpha", 631, NULL }, + { "union", 768, NULL }, + { "infinity", 713, NULL }, + { "comma", 250, NULL }, + { "copyrightsans", 790, NULL }, + { "plusminus", 549, NULL }, + { "arrowup", 603, NULL }, + { "apple", 790, NULL }, + { "parenleftbt", 384, NULL }, + { "notelement", 713, NULL }, + { "colon", 278, NULL }, + { "beta", 549, NULL }, + { "braceleftbt", 494, NULL }, + { "Lambda", 686, NULL }, + { "Phi", 763, NULL }, + { "minus", 549, NULL }, + { "space", 250, NULL }, + { "Sigma", 592, NULL }, + { "approxequal", 549, NULL }, + { "minute", 247, NULL }, + { "circleplus", 768, NULL }, + { "Omicron", 722, NULL }, + { "three", 500, NULL }, + { "numbersign", 500, NULL }, + { "lambda", 549, NULL }, + { "phi", 521, NULL }, + { "aleph", 823, NULL }, + { "Tau", 611, NULL }, + { "spade", 753, NULL }, + { "logicaland", 603, NULL }, + { "sigma", 603, NULL }, + { "propersuperset", 713, NULL }, + { "omicron", 549, NULL }, + { "question", 444, NULL }, + { "equal", 549, NULL }, + { "Epsilon", 611, NULL }, + { "emptyset", 823, NULL }, + { "diamond", 753, NULL }, + { "four", 500, NULL }, + { "Mu", 889, NULL }, + { "parenlefttp", 384, NULL }, + { "club", 753, NULL }, + { "bullet", 460, NULL }, + { "Omega", 768, NULL }, + { "tau", 439, NULL }, + { "Upsilon", 690, NULL }, + { "bracelefttp", 494, NULL }, + { "heart", 753, NULL }, + { "divide", 549, NULL }, + { "epsilon", 439, NULL }, + { "logicalor", 603, NULL }, + { "parenleftex", 384, NULL }, + { "greaterequal", 549, NULL }, + { "mu", 576, NULL }, + { "Nu", 722, NULL }, + { "therefore", 863, NULL }, + { "notsubset", 713, NULL }, + { "omega", 686, NULL }, + { "semicolon", 278, NULL }, + { "element", 713, NULL }, + { "upsilon", 576, NULL }, + { "existential", 549, NULL }, + { "integralbt", 686, NULL }, + { "lessequal", 549, NULL }, + { "phi1", 603, NULL }, + { "lozenge", 494, NULL }, + { "trademarkserif", 890, NULL }, + { "parenright", 333, NULL }, + { "reflexsuperset", 713, NULL }, + { "sigma1", 439, NULL }, + { "nu", 521, NULL }, + { "Gamma", 603, NULL }, + { "angleright", 329, NULL }, + { "ellipsis", 1000, NULL }, + { "Rho", 556, NULL }, + { "parenrightbt", 384, NULL }, + { "radicalex", 500, NULL }, + { "eight", 500, NULL }, + { "angleleft", 329, NULL }, + { "arrowdbldown", 603, NULL }, + { "congruent", 549, NULL }, + { "Theta", 741, NULL }, + { "intersection", 768, NULL }, + { "Pi", 768, NULL }, + { "slash", 278, NULL }, + { "registerserif", 790, NULL }, + { "parenleft", 333, NULL }, + { "one", 500, NULL }, + { "gamma", 411, NULL }, + { "bracketleft", 333, NULL }, + { "rho", 549, NULL }, + { "circlemultiply", 768, NULL }, + { "Chi", 722, NULL }, + { "theta", 521, NULL }, + { "pi", 549, NULL }, + { "integraltp", 686, NULL }, + { "Eta", 722, NULL }, + { "product", 823, NULL }, + { "nine", 500, NULL }, + { "five", 500, NULL }, + { "propersubset", 713, NULL }, + { "bracketrightbt", 384, NULL }, + { "trademarksans", 786, NULL }, + { "dotmath", 250, NULL }, + { "integralex", 686, NULL }, + { "chi", 549, NULL }, + { "parenrighttp", 384, NULL }, + { "eta", 603, NULL }, + { "underscore", 500, NULL }, + { "Euro", 750, NULL }, + { "multiply", 549, NULL }, + { "zero", 500, NULL }, + { "partialdiff", 494, NULL }, + { "angle", 768, NULL }, + { "arrowdblleft", 987, NULL }, + { "braceleft", 480, NULL }, + { "parenrightex", 384, NULL }, + { "Rfraktur", 795, NULL }, + { "Zeta", 611, NULL }, + { "braceex", 494, NULL }, + { "arrowdblup", 603, NULL }, + { "arrowdown", 603, NULL }, + { "Ifraktur", 686, NULL }, + { "degree", 400, NULL }, + { "Iota", 333, NULL }, + { "perpendicular", 658, NULL }, + { "radical", 549, NULL }, + { "asteriskmath", 500, NULL }, + { "percent", 833, NULL }, + { "zeta", 494, NULL }, + { "six", 500, NULL }, + { "two", 500, NULL }, + { "weierstrass", 987, NULL }, + { "summation", 713, NULL }, + { "bracketrighttp", 384, NULL }, + { "carriagereturn", 658, NULL }, + { "suchthat", 439, NULL }, + { "arrowvertex", 603, NULL }, + { "Delta", 612, NULL }, + { "iota", 329, NULL }, + { "arrowhorizex", 1000, NULL }, + { "bracketrightex", 384, NULL }, + { "bracketright", 333, NULL }, + { "ampersand", 778, NULL }, + { "plus", 549, NULL }, + { "proportional", 713, NULL }, + { "delta", 494, NULL }, + { "copyrightserif", 790, NULL }, + { "bracerightmid", 494, NULL }, + { "arrowleft", 987, NULL }, + { "second", 411, NULL }, + { "arrowdblboth", 1042, NULL }, + { "florin", 500, NULL }, + { "Psi", 795, NULL }, + { "bracerightbt", 494, NULL }, + { "bracketleftbt", 384, NULL }, + { "seven", 500, NULL }, + { "braceleftmid", 494, NULL }, + { "notequal", 549, NULL }, + { "psi", 686, NULL }, + { "equivalence", 549, NULL }, + { "universal", 713, NULL }, + { "arrowdblright", 987, NULL }, + { "braceright", 480, NULL }, + { "reflexsubset", 713, NULL }, + { "Xi", 645, NULL }, + { "theta1", 631, NULL }, + { "logicalnot", 713, NULL }, + { "Kappa", 722, NULL }, + { "similar", 549, NULL }, + { "bar", 200, NULL }, + { "fraction", 167, NULL }, + { "less", 549, NULL }, + { "registersans", 790, NULL }, + { "omega1", 713, NULL }, + { "exclam", 333, NULL }, + { "Upsilon1", 620, NULL }, + { "bracerighttp", 494, NULL }, + { "xi", 493, NULL }, + { "period", 250, NULL }, + { "Alpha", 722, NULL }, + { "arrowright", 987, NULL }, + { "greater", 549, NULL }, + { "bracketlefttp", 384, NULL }, + { "kappa", 549, NULL }, + { "gradient", 713, NULL }, + { "integral", 274, NULL }, + { "arrowboth", 1042, NULL }, + { "Beta", 667, NULL } +}; + +static BuiltinFontWidth timesBoldWidthsTab[] = { + { "Ntilde", 722, NULL }, + { "rcaron", 444, NULL }, + { "kcommaaccent", 556, NULL }, + { "Ncommaaccent", 722, NULL }, + { "Zacute", 667, NULL }, + { "comma", 250, NULL }, + { "cedilla", 333, NULL }, + { "plusminus", 570, NULL }, + { "circumflex", 333, NULL }, + { "dotaccent", 333, NULL }, + { "edotaccent", 444, NULL }, + { "asciitilde", 520, NULL }, + { "colon", 333, NULL }, + { "onehalf", 750, NULL }, + { "dollar", 500, NULL }, + { "Lcaron", 667, NULL }, + { "ntilde", 556, NULL }, + { "Aogonek", 722, NULL }, + { "ncommaaccent", 556, NULL }, + { "minus", 570, NULL }, + { "Iogonek", 389, NULL }, + { "zacute", 444, NULL }, + { "yen", 500, NULL }, + { "space", 250, NULL }, + { "Omacron", 778, NULL }, + { "questiondown", 500, NULL }, + { "emdash", 1000, NULL }, + { "Agrave", 722, NULL }, + { "three", 500, NULL }, + { "numbersign", 500, NULL }, + { "lcaron", 394, NULL }, + { "A", 722, NULL }, + { "B", 667, NULL }, + { "C", 722, NULL }, + { "aogonek", 500, NULL }, + { "D", 722, NULL }, + { "E", 667, NULL }, + { "onequarter", 750, NULL }, + { "F", 611, NULL }, + { "G", 778, NULL }, + { "H", 778, NULL }, + { "I", 389, NULL }, + { "J", 500, NULL }, + { "K", 778, NULL }, + { "iogonek", 278, NULL }, + { "backslash", 278, NULL }, + { "L", 667, NULL }, + { "periodcentered", 250, NULL }, + { "M", 944, NULL }, + { "N", 722, NULL }, + { "omacron", 500, NULL }, + { "Tcommaaccent", 667, NULL }, + { "O", 778, NULL }, + { "P", 611, NULL }, + { "Q", 778, NULL }, + { "Uhungarumlaut", 722, NULL }, + { "R", 722, NULL }, + { "Aacute", 722, NULL }, + { "caron", 333, NULL }, + { "S", 556, NULL }, + { "T", 667, NULL }, + { "U", 722, NULL }, + { "agrave", 500, NULL }, + { "V", 722, NULL }, + { "W", 1000, NULL }, + { "X", 722, NULL }, + { "question", 500, NULL }, + { "equal", 570, NULL }, + { "Y", 722, NULL }, + { "Z", 667, NULL }, + { "four", 500, NULL }, + { "a", 500, NULL }, + { "Gcommaaccent", 778, NULL }, + { "b", 556, NULL }, + { "c", 444, NULL }, + { "d", 556, NULL }, + { "e", 444, NULL }, + { "f", 333, NULL }, + { "g", 500, NULL }, + { "bullet", 350, NULL }, + { "h", 556, NULL }, + { "i", 278, NULL }, + { "Oslash", 778, NULL }, + { "dagger", 500, NULL }, + { "j", 333, NULL }, + { "k", 556, NULL }, + { "l", 278, NULL }, + { "m", 833, NULL }, + { "n", 556, NULL }, + { "tcommaaccent", 333, NULL }, + { "o", 500, NULL }, + { "ordfeminine", 300, NULL }, + { "ring", 333, NULL }, + { "p", 556, NULL }, + { "q", 556, NULL }, + { "uhungarumlaut", 556, NULL }, + { "r", 444, NULL }, + { "twosuperior", 300, NULL }, + { "aacute", 500, NULL }, + { "s", 389, NULL }, + { "OE", 1000, NULL }, + { "t", 333, NULL }, + { "divide", 570, NULL }, + { "u", 556, NULL }, + { "Ccaron", 722, NULL }, + { "v", 500, NULL }, + { "w", 722, NULL }, + { "x", 500, NULL }, + { "y", 500, NULL }, + { "z", 444, NULL }, + { "Gbreve", 778, NULL }, + { "commaaccent", 250, NULL }, + { "hungarumlaut", 333, NULL }, + { "Idotaccent", 389, NULL }, + { "Nacute", 722, NULL }, + { "quotedbl", 555, NULL }, + { "gcommaaccent", 500, NULL }, + { "mu", 556, NULL }, + { "greaterequal", 549, NULL }, + { "Scaron", 556, NULL }, + { "Lslash", 667, NULL }, + { "semicolon", 333, NULL }, + { "oslash", 500, NULL }, + { "lessequal", 549, NULL }, + { "lozenge", 494, NULL }, + { "parenright", 333, NULL }, + { "ccaron", 444, NULL }, + { "Ecircumflex", 667, NULL }, + { "gbreve", 500, NULL }, + { "trademark", 1000, NULL }, + { "daggerdbl", 500, NULL }, + { "nacute", 556, NULL }, + { "macron", 333, NULL }, + { "Otilde", 778, NULL }, + { "Emacron", 667, NULL }, + { "ellipsis", 1000, NULL }, + { "scaron", 389, NULL }, + { "AE", 1000, NULL }, + { "Ucircumflex", 722, NULL }, + { "lslash", 278, NULL }, + { "quotedblleft", 500, NULL }, + { "guilsinglright", 333, NULL }, + { "hyphen", 333, NULL }, + { "quotesingle", 278, NULL }, + { "eight", 500, NULL }, + { "exclamdown", 333, NULL }, + { "endash", 500, NULL }, + { "oe", 722, NULL }, + { "Abreve", 722, NULL }, + { "Umacron", 722, NULL }, + { "ecircumflex", 444, NULL }, + { "Adieresis", 722, NULL }, + { "copyright", 747, NULL }, + { "Egrave", 667, NULL }, + { "slash", 278, NULL }, + { "Edieresis", 667, NULL }, + { "otilde", 500, NULL }, + { "Idieresis", 389, NULL }, + { "parenleft", 333, NULL }, + { "one", 500, NULL }, + { "emacron", 444, NULL }, + { "Odieresis", 778, NULL }, + { "ucircumflex", 556, NULL }, + { "bracketleft", 333, NULL }, + { "Ugrave", 722, NULL }, + { "quoteright", 333, NULL }, + { "Udieresis", 722, NULL }, + { "perthousand", 1000, NULL }, + { "Ydieresis", 722, NULL }, + { "umacron", 556, NULL }, + { "abreve", 500, NULL }, + { "Eacute", 667, NULL }, + { "adieresis", 500, NULL }, + { "egrave", 444, NULL }, + { "edieresis", 444, NULL }, + { "idieresis", 278, NULL }, + { "Eth", 722, NULL }, + { "ae", 722, NULL }, + { "asterisk", 500, NULL }, + { "odieresis", 500, NULL }, + { "Uacute", 722, NULL }, + { "ugrave", 556, NULL }, + { "nine", 500, NULL }, + { "five", 500, NULL }, + { "udieresis", 556, NULL }, + { "Zcaron", 667, NULL }, + { "Scommaaccent", 556, NULL }, + { "threequarters", 750, NULL }, + { "guillemotright", 500, NULL }, + { "Ccedilla", 722, NULL }, + { "ydieresis", 500, NULL }, + { "tilde", 333, NULL }, + { "at", 930, NULL }, + { "eacute", 444, NULL }, + { "underscore", 500, NULL }, + { "Euro", 500, NULL }, + { "Dcroat", 722, NULL }, + { "multiply", 570, NULL }, + { "zero", 500, NULL }, + { "eth", 500, NULL }, + { "Scedilla", 556, NULL }, + { "Ograve", 778, NULL }, + { "Racute", 722, NULL }, + { "partialdiff", 494, NULL }, + { "uacute", 556, NULL }, + { "braceleft", 394, NULL }, + { "Thorn", 611, NULL }, + { "zcaron", 444, NULL }, + { "scommaaccent", 389, NULL }, + { "ccedilla", 444, NULL }, + { "Dcaron", 722, NULL }, + { "dcroat", 556, NULL }, + { "Ocircumflex", 778, NULL }, + { "Oacute", 778, NULL }, + { "scedilla", 389, NULL }, + { "ogonek", 333, NULL }, + { "ograve", 500, NULL }, + { "racute", 444, NULL }, + { "Tcaron", 667, NULL }, + { "Eogonek", 667, NULL }, + { "thorn", 556, NULL }, + { "degree", 400, NULL }, + { "registered", 747, NULL }, + { "radical", 549, NULL }, + { "Aring", 722, NULL }, + { "percent", 1000, NULL }, + { "six", 500, NULL }, + { "paragraph", 540, NULL }, + { "dcaron", 672, NULL }, + { "Uogonek", 722, NULL }, + { "two", 500, NULL }, + { "summation", 600, NULL }, + { "Igrave", 389, NULL }, + { "Lacute", 667, NULL }, + { "ocircumflex", 500, NULL }, + { "oacute", 500, NULL }, + { "Uring", 722, NULL }, + { "Lcommaaccent", 667, NULL }, + { "tcaron", 416, NULL }, + { "eogonek", 444, NULL }, + { "Delta", 612, NULL }, + { "Ohungarumlaut", 778, NULL }, + { "asciicircum", 581, NULL }, + { "aring", 500, NULL }, + { "grave", 333, NULL }, + { "uogonek", 556, NULL }, + { "bracketright", 333, NULL }, + { "Iacute", 389, NULL }, + { "ampersand", 833, NULL }, + { "igrave", 278, NULL }, + { "lacute", 278, NULL }, + { "Ncaron", 722, NULL }, + { "plus", 570, NULL }, + { "uring", 556, NULL }, + { "quotesinglbase", 333, NULL }, + { "lcommaaccent", 278, NULL }, + { "Yacute", 722, NULL }, + { "ohungarumlaut", 500, NULL }, + { "threesuperior", 300, NULL }, + { "acute", 333, NULL }, + { "section", 500, NULL }, + { "dieresis", 333, NULL }, + { "iacute", 278, NULL }, + { "quotedblbase", 500, NULL }, + { "ncaron", 556, NULL }, + { "florin", 500, NULL }, + { "yacute", 500, NULL }, + { "Rcommaaccent", 722, NULL }, + { "fi", 556, NULL }, + { "fl", 556, NULL }, + { "Acircumflex", 722, NULL }, + { "Cacute", 722, NULL }, + { "Icircumflex", 389, NULL }, + { "guillemotleft", 500, NULL }, + { "germandbls", 556, NULL }, + { "Amacron", 722, NULL }, + { "seven", 500, NULL }, + { "Sacute", 556, NULL }, + { "ordmasculine", 330, NULL }, + { "dotlessi", 278, NULL }, + { "sterling", 500, NULL }, + { "notequal", 549, NULL }, + { "Imacron", 389, NULL }, + { "rcommaaccent", 444, NULL }, + { "Zdotaccent", 667, NULL }, + { "acircumflex", 500, NULL }, + { "cacute", 444, NULL }, + { "Ecaron", 667, NULL }, + { "icircumflex", 278, NULL }, + { "braceright", 394, NULL }, + { "quotedblright", 500, NULL }, + { "amacron", 500, NULL }, + { "sacute", 389, NULL }, + { "imacron", 278, NULL }, + { "cent", 500, NULL }, + { "currency", 500, NULL }, + { "logicalnot", 570, NULL }, + { "zdotaccent", 444, NULL }, + { "Atilde", 722, NULL }, + { "breve", 333, NULL }, + { "bar", 220, NULL }, + { "fraction", 167, NULL }, + { "less", 570, NULL }, + { "ecaron", 444, NULL }, + { "guilsinglleft", 333, NULL }, + { "exclam", 333, NULL }, + { "period", 250, NULL }, + { "Rcaron", 722, NULL }, + { "Kcommaaccent", 778, NULL }, + { "greater", 570, NULL }, + { "atilde", 500, NULL }, + { "brokenbar", 220, NULL }, + { "quoteleft", 333, NULL }, + { "Edotaccent", 667, NULL }, + { "onesuperior", 300, NULL } +}; + +static BuiltinFontWidth timesBoldItalicWidthsTab[] = { + { "Ntilde", 722, NULL }, + { "rcaron", 389, NULL }, + { "kcommaaccent", 500, NULL }, + { "Ncommaaccent", 722, NULL }, + { "Zacute", 611, NULL }, + { "comma", 250, NULL }, + { "cedilla", 333, NULL }, + { "plusminus", 570, NULL }, + { "circumflex", 333, NULL }, + { "dotaccent", 333, NULL }, + { "edotaccent", 444, NULL }, + { "asciitilde", 570, NULL }, + { "colon", 333, NULL }, + { "onehalf", 750, NULL }, + { "dollar", 500, NULL }, + { "Lcaron", 611, NULL }, + { "ntilde", 556, NULL }, + { "Aogonek", 667, NULL }, + { "ncommaaccent", 556, NULL }, + { "minus", 606, NULL }, + { "Iogonek", 389, NULL }, + { "zacute", 389, NULL }, + { "yen", 500, NULL }, + { "space", 250, NULL }, + { "Omacron", 722, NULL }, + { "questiondown", 500, NULL }, + { "emdash", 1000, NULL }, + { "Agrave", 667, NULL }, + { "three", 500, NULL }, + { "numbersign", 500, NULL }, + { "lcaron", 382, NULL }, + { "A", 667, NULL }, + { "B", 667, NULL }, + { "C", 667, NULL }, + { "aogonek", 500, NULL }, + { "D", 722, NULL }, + { "E", 667, NULL }, + { "onequarter", 750, NULL }, + { "F", 667, NULL }, + { "G", 722, NULL }, + { "H", 778, NULL }, + { "I", 389, NULL }, + { "J", 500, NULL }, + { "K", 667, NULL }, + { "iogonek", 278, NULL }, + { "backslash", 278, NULL }, + { "L", 611, NULL }, + { "periodcentered", 250, NULL }, + { "M", 889, NULL }, + { "N", 722, NULL }, + { "omacron", 500, NULL }, + { "Tcommaaccent", 611, NULL }, + { "O", 722, NULL }, + { "P", 611, NULL }, + { "Q", 722, NULL }, + { "Uhungarumlaut", 722, NULL }, + { "R", 667, NULL }, + { "Aacute", 667, NULL }, + { "caron", 333, NULL }, + { "S", 556, NULL }, + { "T", 611, NULL }, + { "U", 722, NULL }, + { "agrave", 500, NULL }, + { "V", 667, NULL }, + { "W", 889, NULL }, + { "X", 667, NULL }, + { "question", 500, NULL }, + { "equal", 570, NULL }, + { "Y", 611, NULL }, + { "Z", 611, NULL }, + { "four", 500, NULL }, + { "a", 500, NULL }, + { "Gcommaaccent", 722, NULL }, + { "b", 500, NULL }, + { "c", 444, NULL }, + { "d", 500, NULL }, + { "e", 444, NULL }, + { "f", 333, NULL }, + { "g", 500, NULL }, + { "bullet", 350, NULL }, + { "h", 556, NULL }, + { "i", 278, NULL }, + { "Oslash", 722, NULL }, + { "dagger", 500, NULL }, + { "j", 278, NULL }, + { "k", 500, NULL }, + { "l", 278, NULL }, + { "m", 778, NULL }, + { "n", 556, NULL }, + { "tcommaaccent", 278, NULL }, + { "o", 500, NULL }, + { "ordfeminine", 266, NULL }, + { "ring", 333, NULL }, + { "p", 500, NULL }, + { "q", 500, NULL }, + { "uhungarumlaut", 556, NULL }, + { "r", 389, NULL }, + { "twosuperior", 300, NULL }, + { "aacute", 500, NULL }, + { "s", 389, NULL }, + { "OE", 944, NULL }, + { "t", 278, NULL }, + { "divide", 570, NULL }, + { "u", 556, NULL }, + { "Ccaron", 667, NULL }, + { "v", 444, NULL }, + { "w", 667, NULL }, + { "x", 500, NULL }, + { "y", 444, NULL }, + { "z", 389, NULL }, + { "Gbreve", 722, NULL }, + { "commaaccent", 250, NULL }, + { "hungarumlaut", 333, NULL }, + { "Idotaccent", 389, NULL }, + { "Nacute", 722, NULL }, + { "quotedbl", 555, NULL }, + { "gcommaaccent", 500, NULL }, + { "mu", 576, NULL }, + { "greaterequal", 549, NULL }, + { "Scaron", 556, NULL }, + { "Lslash", 611, NULL }, + { "semicolon", 333, NULL }, + { "oslash", 500, NULL }, + { "lessequal", 549, NULL }, + { "lozenge", 494, NULL }, + { "parenright", 333, NULL }, + { "ccaron", 444, NULL }, + { "Ecircumflex", 667, NULL }, + { "gbreve", 500, NULL }, + { "trademark", 1000, NULL }, + { "daggerdbl", 500, NULL }, + { "nacute", 556, NULL }, + { "macron", 333, NULL }, + { "Otilde", 722, NULL }, + { "Emacron", 667, NULL }, + { "ellipsis", 1000, NULL }, + { "scaron", 389, NULL }, + { "AE", 944, NULL }, + { "Ucircumflex", 722, NULL }, + { "lslash", 278, NULL }, + { "quotedblleft", 500, NULL }, + { "guilsinglright", 333, NULL }, + { "hyphen", 333, NULL }, + { "quotesingle", 278, NULL }, + { "eight", 500, NULL }, + { "exclamdown", 389, NULL }, + { "endash", 500, NULL }, + { "oe", 722, NULL }, + { "Abreve", 667, NULL }, + { "Umacron", 722, NULL }, + { "ecircumflex", 444, NULL }, + { "Adieresis", 667, NULL }, + { "copyright", 747, NULL }, + { "Egrave", 667, NULL }, + { "slash", 278, NULL }, + { "Edieresis", 667, NULL }, + { "otilde", 500, NULL }, + { "Idieresis", 389, NULL }, + { "parenleft", 333, NULL }, + { "one", 500, NULL }, + { "emacron", 444, NULL }, + { "Odieresis", 722, NULL }, + { "ucircumflex", 556, NULL }, + { "bracketleft", 333, NULL }, + { "Ugrave", 722, NULL }, + { "quoteright", 333, NULL }, + { "Udieresis", 722, NULL }, + { "perthousand", 1000, NULL }, + { "Ydieresis", 611, NULL }, + { "umacron", 556, NULL }, + { "abreve", 500, NULL }, + { "Eacute", 667, NULL }, + { "adieresis", 500, NULL }, + { "egrave", 444, NULL }, + { "edieresis", 444, NULL }, + { "idieresis", 278, NULL }, + { "Eth", 722, NULL }, + { "ae", 722, NULL }, + { "asterisk", 500, NULL }, + { "odieresis", 500, NULL }, + { "Uacute", 722, NULL }, + { "ugrave", 556, NULL }, + { "nine", 500, NULL }, + { "five", 500, NULL }, + { "udieresis", 556, NULL }, + { "Zcaron", 611, NULL }, + { "Scommaaccent", 556, NULL }, + { "threequarters", 750, NULL }, + { "guillemotright", 500, NULL }, + { "Ccedilla", 667, NULL }, + { "ydieresis", 444, NULL }, + { "tilde", 333, NULL }, + { "at", 832, NULL }, + { "eacute", 444, NULL }, + { "underscore", 500, NULL }, + { "Euro", 500, NULL }, + { "Dcroat", 722, NULL }, + { "multiply", 570, NULL }, + { "zero", 500, NULL }, + { "eth", 500, NULL }, + { "Scedilla", 556, NULL }, + { "Ograve", 722, NULL }, + { "Racute", 667, NULL }, + { "partialdiff", 494, NULL }, + { "uacute", 556, NULL }, + { "braceleft", 348, NULL }, + { "Thorn", 611, NULL }, + { "zcaron", 389, NULL }, + { "scommaaccent", 389, NULL }, + { "ccedilla", 444, NULL }, + { "Dcaron", 722, NULL }, + { "dcroat", 500, NULL }, + { "Ocircumflex", 722, NULL }, + { "Oacute", 722, NULL }, + { "scedilla", 389, NULL }, + { "ogonek", 333, NULL }, + { "ograve", 500, NULL }, + { "racute", 389, NULL }, + { "Tcaron", 611, NULL }, + { "Eogonek", 667, NULL }, + { "thorn", 500, NULL }, + { "degree", 400, NULL }, + { "registered", 747, NULL }, + { "radical", 549, NULL }, + { "Aring", 667, NULL }, + { "percent", 833, NULL }, + { "six", 500, NULL }, + { "paragraph", 500, NULL }, + { "dcaron", 608, NULL }, + { "Uogonek", 722, NULL }, + { "two", 500, NULL }, + { "summation", 600, NULL }, + { "Igrave", 389, NULL }, + { "Lacute", 611, NULL }, + { "ocircumflex", 500, NULL }, + { "oacute", 500, NULL }, + { "Uring", 722, NULL }, + { "Lcommaaccent", 611, NULL }, + { "tcaron", 366, NULL }, + { "eogonek", 444, NULL }, + { "Delta", 612, NULL }, + { "Ohungarumlaut", 722, NULL }, + { "asciicircum", 570, NULL }, + { "aring", 500, NULL }, + { "grave", 333, NULL }, + { "uogonek", 556, NULL }, + { "bracketright", 333, NULL }, + { "Iacute", 389, NULL }, + { "ampersand", 778, NULL }, + { "igrave", 278, NULL }, + { "lacute", 278, NULL }, + { "Ncaron", 722, NULL }, + { "plus", 570, NULL }, + { "uring", 556, NULL }, + { "quotesinglbase", 333, NULL }, + { "lcommaaccent", 278, NULL }, + { "Yacute", 611, NULL }, + { "ohungarumlaut", 500, NULL }, + { "threesuperior", 300, NULL }, + { "acute", 333, NULL }, + { "section", 500, NULL }, + { "dieresis", 333, NULL }, + { "iacute", 278, NULL }, + { "quotedblbase", 500, NULL }, + { "ncaron", 556, NULL }, + { "florin", 500, NULL }, + { "yacute", 444, NULL }, + { "Rcommaaccent", 667, NULL }, + { "fi", 556, NULL }, + { "fl", 556, NULL }, + { "Acircumflex", 667, NULL }, + { "Cacute", 667, NULL }, + { "Icircumflex", 389, NULL }, + { "guillemotleft", 500, NULL }, + { "germandbls", 500, NULL }, + { "Amacron", 667, NULL }, + { "seven", 500, NULL }, + { "Sacute", 556, NULL }, + { "ordmasculine", 300, NULL }, + { "dotlessi", 278, NULL }, + { "sterling", 500, NULL }, + { "notequal", 549, NULL }, + { "Imacron", 389, NULL }, + { "rcommaaccent", 389, NULL }, + { "Zdotaccent", 611, NULL }, + { "acircumflex", 500, NULL }, + { "cacute", 444, NULL }, + { "Ecaron", 667, NULL }, + { "icircumflex", 278, NULL }, + { "braceright", 348, NULL }, + { "quotedblright", 500, NULL }, + { "amacron", 500, NULL }, + { "sacute", 389, NULL }, + { "imacron", 278, NULL }, + { "cent", 500, NULL }, + { "currency", 500, NULL }, + { "logicalnot", 606, NULL }, + { "zdotaccent", 389, NULL }, + { "Atilde", 667, NULL }, + { "breve", 333, NULL }, + { "bar", 220, NULL }, + { "fraction", 167, NULL }, + { "less", 570, NULL }, + { "ecaron", 444, NULL }, + { "guilsinglleft", 333, NULL }, + { "exclam", 389, NULL }, + { "period", 250, NULL }, + { "Rcaron", 667, NULL }, + { "Kcommaaccent", 667, NULL }, + { "greater", 570, NULL }, + { "atilde", 500, NULL }, + { "brokenbar", 220, NULL }, + { "quoteleft", 333, NULL }, + { "Edotaccent", 667, NULL }, + { "onesuperior", 300, NULL } +}; + +static BuiltinFontWidth timesItalicWidthsTab[] = { + { "Ntilde", 667, NULL }, + { "rcaron", 389, NULL }, + { "kcommaaccent", 444, NULL }, + { "Ncommaaccent", 667, NULL }, + { "Zacute", 556, NULL }, + { "comma", 250, NULL }, + { "cedilla", 333, NULL }, + { "plusminus", 675, NULL }, + { "circumflex", 333, NULL }, + { "dotaccent", 333, NULL }, + { "edotaccent", 444, NULL }, + { "asciitilde", 541, NULL }, + { "colon", 333, NULL }, + { "onehalf", 750, NULL }, + { "dollar", 500, NULL }, + { "Lcaron", 611, NULL }, + { "ntilde", 500, NULL }, + { "Aogonek", 611, NULL }, + { "ncommaaccent", 500, NULL }, + { "minus", 675, NULL }, + { "Iogonek", 333, NULL }, + { "zacute", 389, NULL }, + { "yen", 500, NULL }, + { "space", 250, NULL }, + { "Omacron", 722, NULL }, + { "questiondown", 500, NULL }, + { "emdash", 889, NULL }, + { "Agrave", 611, NULL }, + { "three", 500, NULL }, + { "numbersign", 500, NULL }, + { "lcaron", 300, NULL }, + { "A", 611, NULL }, + { "B", 611, NULL }, + { "C", 667, NULL }, + { "aogonek", 500, NULL }, + { "D", 722, NULL }, + { "E", 611, NULL }, + { "onequarter", 750, NULL }, + { "F", 611, NULL }, + { "G", 722, NULL }, + { "H", 722, NULL }, + { "I", 333, NULL }, + { "J", 444, NULL }, + { "K", 667, NULL }, + { "iogonek", 278, NULL }, + { "backslash", 278, NULL }, + { "L", 556, NULL }, + { "periodcentered", 250, NULL }, + { "M", 833, NULL }, + { "N", 667, NULL }, + { "omacron", 500, NULL }, + { "Tcommaaccent", 556, NULL }, + { "O", 722, NULL }, + { "P", 611, NULL }, + { "Q", 722, NULL }, + { "Uhungarumlaut", 722, NULL }, + { "R", 611, NULL }, + { "Aacute", 611, NULL }, + { "caron", 333, NULL }, + { "S", 500, NULL }, + { "T", 556, NULL }, + { "U", 722, NULL }, + { "agrave", 500, NULL }, + { "V", 611, NULL }, + { "W", 833, NULL }, + { "X", 611, NULL }, + { "question", 500, NULL }, + { "equal", 675, NULL }, + { "Y", 556, NULL }, + { "Z", 556, NULL }, + { "four", 500, NULL }, + { "a", 500, NULL }, + { "Gcommaaccent", 722, NULL }, + { "b", 500, NULL }, + { "c", 444, NULL }, + { "d", 500, NULL }, + { "e", 444, NULL }, + { "f", 278, NULL }, + { "g", 500, NULL }, + { "bullet", 350, NULL }, + { "h", 500, NULL }, + { "i", 278, NULL }, + { "Oslash", 722, NULL }, + { "dagger", 500, NULL }, + { "j", 278, NULL }, + { "k", 444, NULL }, + { "l", 278, NULL }, + { "m", 722, NULL }, + { "n", 500, NULL }, + { "tcommaaccent", 278, NULL }, + { "o", 500, NULL }, + { "ordfeminine", 276, NULL }, + { "ring", 333, NULL }, + { "p", 500, NULL }, + { "q", 500, NULL }, + { "uhungarumlaut", 500, NULL }, + { "r", 389, NULL }, + { "twosuperior", 300, NULL }, + { "aacute", 500, NULL }, + { "s", 389, NULL }, + { "OE", 944, NULL }, + { "t", 278, NULL }, + { "divide", 675, NULL }, + { "u", 500, NULL }, + { "Ccaron", 667, NULL }, + { "v", 444, NULL }, + { "w", 667, NULL }, + { "x", 444, NULL }, + { "y", 444, NULL }, + { "z", 389, NULL }, + { "Gbreve", 722, NULL }, + { "commaaccent", 250, NULL }, + { "hungarumlaut", 333, NULL }, + { "Idotaccent", 333, NULL }, + { "Nacute", 667, NULL }, + { "quotedbl", 420, NULL }, + { "gcommaaccent", 500, NULL }, + { "mu", 500, NULL }, + { "greaterequal", 549, NULL }, + { "Scaron", 500, NULL }, + { "Lslash", 556, NULL }, + { "semicolon", 333, NULL }, + { "oslash", 500, NULL }, + { "lessequal", 549, NULL }, + { "lozenge", 471, NULL }, + { "parenright", 333, NULL }, + { "ccaron", 444, NULL }, + { "Ecircumflex", 611, NULL }, + { "gbreve", 500, NULL }, + { "trademark", 980, NULL }, + { "daggerdbl", 500, NULL }, + { "nacute", 500, NULL }, + { "macron", 333, NULL }, + { "Otilde", 722, NULL }, + { "Emacron", 611, NULL }, + { "ellipsis", 889, NULL }, + { "scaron", 389, NULL }, + { "AE", 889, NULL }, + { "Ucircumflex", 722, NULL }, + { "lslash", 278, NULL }, + { "quotedblleft", 556, NULL }, + { "guilsinglright", 333, NULL }, + { "hyphen", 333, NULL }, + { "quotesingle", 214, NULL }, + { "eight", 500, NULL }, + { "exclamdown", 389, NULL }, + { "endash", 500, NULL }, + { "oe", 667, NULL }, + { "Abreve", 611, NULL }, + { "Umacron", 722, NULL }, + { "ecircumflex", 444, NULL }, + { "Adieresis", 611, NULL }, + { "copyright", 760, NULL }, + { "Egrave", 611, NULL }, + { "slash", 278, NULL }, + { "Edieresis", 611, NULL }, + { "otilde", 500, NULL }, + { "Idieresis", 333, NULL }, + { "parenleft", 333, NULL }, + { "one", 500, NULL }, + { "emacron", 444, NULL }, + { "Odieresis", 722, NULL }, + { "ucircumflex", 500, NULL }, + { "bracketleft", 389, NULL }, + { "Ugrave", 722, NULL }, + { "quoteright", 333, NULL }, + { "Udieresis", 722, NULL }, + { "perthousand", 1000, NULL }, + { "Ydieresis", 556, NULL }, + { "umacron", 500, NULL }, + { "abreve", 500, NULL }, + { "Eacute", 611, NULL }, + { "adieresis", 500, NULL }, + { "egrave", 444, NULL }, + { "edieresis", 444, NULL }, + { "idieresis", 278, NULL }, + { "Eth", 722, NULL }, + { "ae", 667, NULL }, + { "asterisk", 500, NULL }, + { "odieresis", 500, NULL }, + { "Uacute", 722, NULL }, + { "ugrave", 500, NULL }, + { "nine", 500, NULL }, + { "five", 500, NULL }, + { "udieresis", 500, NULL }, + { "Zcaron", 556, NULL }, + { "Scommaaccent", 500, NULL }, + { "threequarters", 750, NULL }, + { "guillemotright", 500, NULL }, + { "Ccedilla", 667, NULL }, + { "ydieresis", 444, NULL }, + { "tilde", 333, NULL }, + { "at", 920, NULL }, + { "eacute", 444, NULL }, + { "underscore", 500, NULL }, + { "Euro", 500, NULL }, + { "Dcroat", 722, NULL }, + { "multiply", 675, NULL }, + { "zero", 500, NULL }, + { "eth", 500, NULL }, + { "Scedilla", 500, NULL }, + { "Ograve", 722, NULL }, + { "Racute", 611, NULL }, + { "partialdiff", 476, NULL }, + { "uacute", 500, NULL }, + { "braceleft", 400, NULL }, + { "Thorn", 611, NULL }, + { "zcaron", 389, NULL }, + { "scommaaccent", 389, NULL }, + { "ccedilla", 444, NULL }, + { "Dcaron", 722, NULL }, + { "dcroat", 500, NULL }, + { "Ocircumflex", 722, NULL }, + { "Oacute", 722, NULL }, + { "scedilla", 389, NULL }, + { "ogonek", 333, NULL }, + { "ograve", 500, NULL }, + { "racute", 389, NULL }, + { "Tcaron", 556, NULL }, + { "Eogonek", 611, NULL }, + { "thorn", 500, NULL }, + { "degree", 400, NULL }, + { "registered", 760, NULL }, + { "radical", 453, NULL }, + { "Aring", 611, NULL }, + { "percent", 833, NULL }, + { "six", 500, NULL }, + { "paragraph", 523, NULL }, + { "dcaron", 544, NULL }, + { "Uogonek", 722, NULL }, + { "two", 500, NULL }, + { "summation", 600, NULL }, + { "Igrave", 333, NULL }, + { "Lacute", 556, NULL }, + { "ocircumflex", 500, NULL }, + { "oacute", 500, NULL }, + { "Uring", 722, NULL }, + { "Lcommaaccent", 556, NULL }, + { "tcaron", 300, NULL }, + { "eogonek", 444, NULL }, + { "Delta", 612, NULL }, + { "Ohungarumlaut", 722, NULL }, + { "asciicircum", 422, NULL }, + { "aring", 500, NULL }, + { "grave", 333, NULL }, + { "uogonek", 500, NULL }, + { "bracketright", 389, NULL }, + { "Iacute", 333, NULL }, + { "ampersand", 778, NULL }, + { "igrave", 278, NULL }, + { "lacute", 278, NULL }, + { "Ncaron", 667, NULL }, + { "plus", 675, NULL }, + { "uring", 500, NULL }, + { "quotesinglbase", 333, NULL }, + { "lcommaaccent", 278, NULL }, + { "Yacute", 556, NULL }, + { "ohungarumlaut", 500, NULL }, + { "threesuperior", 300, NULL }, + { "acute", 333, NULL }, + { "section", 500, NULL }, + { "dieresis", 333, NULL }, + { "iacute", 278, NULL }, + { "quotedblbase", 556, NULL }, + { "ncaron", 500, NULL }, + { "florin", 500, NULL }, + { "yacute", 444, NULL }, + { "Rcommaaccent", 611, NULL }, + { "fi", 500, NULL }, + { "fl", 500, NULL }, + { "Acircumflex", 611, NULL }, + { "Cacute", 667, NULL }, + { "Icircumflex", 333, NULL }, + { "guillemotleft", 500, NULL }, + { "germandbls", 500, NULL }, + { "Amacron", 611, NULL }, + { "seven", 500, NULL }, + { "Sacute", 500, NULL }, + { "ordmasculine", 310, NULL }, + { "dotlessi", 278, NULL }, + { "sterling", 500, NULL }, + { "notequal", 549, NULL }, + { "Imacron", 333, NULL }, + { "rcommaaccent", 389, NULL }, + { "Zdotaccent", 556, NULL }, + { "acircumflex", 500, NULL }, + { "cacute", 444, NULL }, + { "Ecaron", 611, NULL }, + { "icircumflex", 278, NULL }, + { "braceright", 400, NULL }, + { "quotedblright", 556, NULL }, + { "amacron", 500, NULL }, + { "sacute", 389, NULL }, + { "imacron", 278, NULL }, + { "cent", 500, NULL }, + { "currency", 500, NULL }, + { "logicalnot", 675, NULL }, + { "zdotaccent", 389, NULL }, + { "Atilde", 611, NULL }, + { "breve", 333, NULL }, + { "bar", 275, NULL }, + { "fraction", 167, NULL }, + { "less", 675, NULL }, + { "ecaron", 444, NULL }, + { "guilsinglleft", 333, NULL }, + { "exclam", 333, NULL }, + { "period", 250, NULL }, + { "Rcaron", 611, NULL }, + { "Kcommaaccent", 667, NULL }, + { "greater", 675, NULL }, + { "atilde", 500, NULL }, + { "brokenbar", 275, NULL }, + { "quoteleft", 333, NULL }, + { "Edotaccent", 611, NULL }, + { "onesuperior", 300, NULL } +}; + +static BuiltinFontWidth timesRomanWidthsTab[] = { + { "Ntilde", 722, NULL }, + { "rcaron", 333, NULL }, + { "kcommaaccent", 500, NULL }, + { "Ncommaaccent", 722, NULL }, + { "Zacute", 611, NULL }, + { "comma", 250, NULL }, + { "cedilla", 333, NULL }, + { "plusminus", 564, NULL }, + { "circumflex", 333, NULL }, + { "dotaccent", 333, NULL }, + { "edotaccent", 444, NULL }, + { "asciitilde", 541, NULL }, + { "colon", 278, NULL }, + { "onehalf", 750, NULL }, + { "dollar", 500, NULL }, + { "Lcaron", 611, NULL }, + { "ntilde", 500, NULL }, + { "Aogonek", 722, NULL }, + { "ncommaaccent", 500, NULL }, + { "minus", 564, NULL }, + { "Iogonek", 333, NULL }, + { "zacute", 444, NULL }, + { "yen", 500, NULL }, + { "space", 250, NULL }, + { "Omacron", 722, NULL }, + { "questiondown", 444, NULL }, + { "emdash", 1000, NULL }, + { "Agrave", 722, NULL }, + { "three", 500, NULL }, + { "numbersign", 500, NULL }, + { "lcaron", 344, NULL }, + { "A", 722, NULL }, + { "B", 667, NULL }, + { "C", 667, NULL }, + { "aogonek", 444, NULL }, + { "D", 722, NULL }, + { "E", 611, NULL }, + { "onequarter", 750, NULL }, + { "F", 556, NULL }, + { "G", 722, NULL }, + { "H", 722, NULL }, + { "I", 333, NULL }, + { "J", 389, NULL }, + { "K", 722, NULL }, + { "iogonek", 278, NULL }, + { "backslash", 278, NULL }, + { "L", 611, NULL }, + { "periodcentered", 250, NULL }, + { "M", 889, NULL }, + { "N", 722, NULL }, + { "omacron", 500, NULL }, + { "Tcommaaccent", 611, NULL }, + { "O", 722, NULL }, + { "P", 556, NULL }, + { "Q", 722, NULL }, + { "Uhungarumlaut", 722, NULL }, + { "R", 667, NULL }, + { "Aacute", 722, NULL }, + { "caron", 333, NULL }, + { "S", 556, NULL }, + { "T", 611, NULL }, + { "U", 722, NULL }, + { "agrave", 444, NULL }, + { "V", 722, NULL }, + { "W", 944, NULL }, + { "X", 722, NULL }, + { "question", 444, NULL }, + { "equal", 564, NULL }, + { "Y", 722, NULL }, + { "Z", 611, NULL }, + { "four", 500, NULL }, + { "a", 444, NULL }, + { "Gcommaaccent", 722, NULL }, + { "b", 500, NULL }, + { "c", 444, NULL }, + { "d", 500, NULL }, + { "e", 444, NULL }, + { "f", 333, NULL }, + { "g", 500, NULL }, + { "bullet", 350, NULL }, + { "h", 500, NULL }, + { "i", 278, NULL }, + { "Oslash", 722, NULL }, + { "dagger", 500, NULL }, + { "j", 278, NULL }, + { "k", 500, NULL }, + { "l", 278, NULL }, + { "m", 778, NULL }, + { "n", 500, NULL }, + { "tcommaaccent", 278, NULL }, + { "o", 500, NULL }, + { "ordfeminine", 276, NULL }, + { "ring", 333, NULL }, + { "p", 500, NULL }, + { "q", 500, NULL }, + { "uhungarumlaut", 500, NULL }, + { "r", 333, NULL }, + { "twosuperior", 300, NULL }, + { "aacute", 444, NULL }, + { "s", 389, NULL }, + { "OE", 889, NULL }, + { "t", 278, NULL }, + { "divide", 564, NULL }, + { "u", 500, NULL }, + { "Ccaron", 667, NULL }, + { "v", 500, NULL }, + { "w", 722, NULL }, + { "x", 500, NULL }, + { "y", 500, NULL }, + { "z", 444, NULL }, + { "Gbreve", 722, NULL }, + { "commaaccent", 250, NULL }, + { "hungarumlaut", 333, NULL }, + { "Idotaccent", 333, NULL }, + { "Nacute", 722, NULL }, + { "quotedbl", 408, NULL }, + { "gcommaaccent", 500, NULL }, + { "mu", 500, NULL }, + { "greaterequal", 549, NULL }, + { "Scaron", 556, NULL }, + { "Lslash", 611, NULL }, + { "semicolon", 278, NULL }, + { "oslash", 500, NULL }, + { "lessequal", 549, NULL }, + { "lozenge", 471, NULL }, + { "parenright", 333, NULL }, + { "ccaron", 444, NULL }, + { "Ecircumflex", 611, NULL }, + { "gbreve", 500, NULL }, + { "trademark", 980, NULL }, + { "daggerdbl", 500, NULL }, + { "nacute", 500, NULL }, + { "macron", 333, NULL }, + { "Otilde", 722, NULL }, + { "Emacron", 611, NULL }, + { "ellipsis", 1000, NULL }, + { "scaron", 389, NULL }, + { "AE", 889, NULL }, + { "Ucircumflex", 722, NULL }, + { "lslash", 278, NULL }, + { "quotedblleft", 444, NULL }, + { "guilsinglright", 333, NULL }, + { "hyphen", 333, NULL }, + { "quotesingle", 180, NULL }, + { "eight", 500, NULL }, + { "exclamdown", 333, NULL }, + { "endash", 500, NULL }, + { "oe", 722, NULL }, + { "Abreve", 722, NULL }, + { "Umacron", 722, NULL }, + { "ecircumflex", 444, NULL }, + { "Adieresis", 722, NULL }, + { "copyright", 760, NULL }, + { "Egrave", 611, NULL }, + { "slash", 278, NULL }, + { "Edieresis", 611, NULL }, + { "otilde", 500, NULL }, + { "Idieresis", 333, NULL }, + { "parenleft", 333, NULL }, + { "one", 500, NULL }, + { "emacron", 444, NULL }, + { "Odieresis", 722, NULL }, + { "ucircumflex", 500, NULL }, + { "bracketleft", 333, NULL }, + { "Ugrave", 722, NULL }, + { "quoteright", 333, NULL }, + { "Udieresis", 722, NULL }, + { "perthousand", 1000, NULL }, + { "Ydieresis", 722, NULL }, + { "umacron", 500, NULL }, + { "abreve", 444, NULL }, + { "Eacute", 611, NULL }, + { "adieresis", 444, NULL }, + { "egrave", 444, NULL }, + { "edieresis", 444, NULL }, + { "idieresis", 278, NULL }, + { "Eth", 722, NULL }, + { "ae", 667, NULL }, + { "asterisk", 500, NULL }, + { "odieresis", 500, NULL }, + { "Uacute", 722, NULL }, + { "ugrave", 500, NULL }, + { "nine", 500, NULL }, + { "five", 500, NULL }, + { "udieresis", 500, NULL }, + { "Zcaron", 611, NULL }, + { "Scommaaccent", 556, NULL }, + { "threequarters", 750, NULL }, + { "guillemotright", 500, NULL }, + { "Ccedilla", 667, NULL }, + { "ydieresis", 500, NULL }, + { "tilde", 333, NULL }, + { "at", 921, NULL }, + { "eacute", 444, NULL }, + { "underscore", 500, NULL }, + { "Euro", 500, NULL }, + { "Dcroat", 722, NULL }, + { "multiply", 564, NULL }, + { "zero", 500, NULL }, + { "eth", 500, NULL }, + { "Scedilla", 556, NULL }, + { "Ograve", 722, NULL }, + { "Racute", 667, NULL }, + { "partialdiff", 476, NULL }, + { "uacute", 500, NULL }, + { "braceleft", 480, NULL }, + { "Thorn", 556, NULL }, + { "zcaron", 444, NULL }, + { "scommaaccent", 389, NULL }, + { "ccedilla", 444, NULL }, + { "Dcaron", 722, NULL }, + { "dcroat", 500, NULL }, + { "Ocircumflex", 722, NULL }, + { "Oacute", 722, NULL }, + { "scedilla", 389, NULL }, + { "ogonek", 333, NULL }, + { "ograve", 500, NULL }, + { "racute", 333, NULL }, + { "Tcaron", 611, NULL }, + { "Eogonek", 611, NULL }, + { "thorn", 500, NULL }, + { "degree", 400, NULL }, + { "registered", 760, NULL }, + { "radical", 453, NULL }, + { "Aring", 722, NULL }, + { "percent", 833, NULL }, + { "six", 500, NULL }, + { "paragraph", 453, NULL }, + { "dcaron", 588, NULL }, + { "Uogonek", 722, NULL }, + { "two", 500, NULL }, + { "summation", 600, NULL }, + { "Igrave", 333, NULL }, + { "Lacute", 611, NULL }, + { "ocircumflex", 500, NULL }, + { "oacute", 500, NULL }, + { "Uring", 722, NULL }, + { "Lcommaaccent", 611, NULL }, + { "tcaron", 326, NULL }, + { "eogonek", 444, NULL }, + { "Delta", 612, NULL }, + { "Ohungarumlaut", 722, NULL }, + { "asciicircum", 469, NULL }, + { "aring", 444, NULL }, + { "grave", 333, NULL }, + { "uogonek", 500, NULL }, + { "bracketright", 333, NULL }, + { "Iacute", 333, NULL }, + { "ampersand", 778, NULL }, + { "igrave", 278, NULL }, + { "lacute", 278, NULL }, + { "Ncaron", 722, NULL }, + { "plus", 564, NULL }, + { "uring", 500, NULL }, + { "quotesinglbase", 333, NULL }, + { "lcommaaccent", 278, NULL }, + { "Yacute", 722, NULL }, + { "ohungarumlaut", 500, NULL }, + { "threesuperior", 300, NULL }, + { "acute", 333, NULL }, + { "section", 500, NULL }, + { "dieresis", 333, NULL }, + { "iacute", 278, NULL }, + { "quotedblbase", 444, NULL }, + { "ncaron", 500, NULL }, + { "florin", 500, NULL }, + { "yacute", 500, NULL }, + { "Rcommaaccent", 667, NULL }, + { "fi", 556, NULL }, + { "fl", 556, NULL }, + { "Acircumflex", 722, NULL }, + { "Cacute", 667, NULL }, + { "Icircumflex", 333, NULL }, + { "guillemotleft", 500, NULL }, + { "germandbls", 500, NULL }, + { "Amacron", 722, NULL }, + { "seven", 500, NULL }, + { "Sacute", 556, NULL }, + { "ordmasculine", 310, NULL }, + { "dotlessi", 278, NULL }, + { "sterling", 500, NULL }, + { "notequal", 549, NULL }, + { "Imacron", 333, NULL }, + { "rcommaaccent", 333, NULL }, + { "Zdotaccent", 611, NULL }, + { "acircumflex", 444, NULL }, + { "cacute", 444, NULL }, + { "Ecaron", 611, NULL }, + { "icircumflex", 278, NULL }, + { "braceright", 480, NULL }, + { "quotedblright", 444, NULL }, + { "amacron", 444, NULL }, + { "sacute", 389, NULL }, + { "imacron", 278, NULL }, + { "cent", 500, NULL }, + { "currency", 500, NULL }, + { "logicalnot", 564, NULL }, + { "zdotaccent", 444, NULL }, + { "Atilde", 722, NULL }, + { "breve", 333, NULL }, + { "bar", 200, NULL }, + { "fraction", 167, NULL }, + { "less", 564, NULL }, + { "ecaron", 444, NULL }, + { "guilsinglleft", 333, NULL }, + { "exclam", 333, NULL }, + { "period", 250, NULL }, + { "Rcaron", 667, NULL }, + { "Kcommaaccent", 722, NULL }, + { "greater", 564, NULL }, + { "atilde", 444, NULL }, + { "brokenbar", 200, NULL }, + { "quoteleft", 333, NULL }, + { "Edotaccent", 611, NULL }, + { "onesuperior", 300, NULL } +}; + +static BuiltinFontWidth zapfDingbatsWidthsTab[] = { + { "a81", 438, NULL }, + { "a82", 138, NULL }, + { "a83", 277, NULL }, + { "a84", 415, NULL }, + { "a85", 509, NULL }, + { "a86", 410, NULL }, + { "a87", 234, NULL }, + { "a88", 234, NULL }, + { "a89", 390, NULL }, + { "a140", 788, NULL }, + { "a141", 788, NULL }, + { "a142", 788, NULL }, + { "a143", 788, NULL }, + { "a144", 788, NULL }, + { "a145", 788, NULL }, + { "a146", 788, NULL }, + { "a147", 788, NULL }, + { "a148", 788, NULL }, + { "a149", 788, NULL }, + { "a90", 390, NULL }, + { "a91", 276, NULL }, + { "a92", 276, NULL }, + { "space", 278, NULL }, + { "a93", 317, NULL }, + { "a94", 317, NULL }, + { "a95", 334, NULL }, + { "a96", 334, NULL }, + { "a97", 392, NULL }, + { "a98", 392, NULL }, + { "a99", 668, NULL }, + { "a150", 788, NULL }, + { "a151", 788, NULL }, + { "a152", 788, NULL }, + { "a153", 788, NULL }, + { "a154", 788, NULL }, + { "a155", 788, NULL }, + { "a156", 788, NULL }, + { "a157", 788, NULL }, + { "a158", 788, NULL }, + { "a159", 788, NULL }, + { "a160", 894, NULL }, + { "a161", 838, NULL }, + { "a162", 924, NULL }, + { "a163", 1016, NULL }, + { "a164", 458, NULL }, + { "a165", 924, NULL }, + { "a166", 918, NULL }, + { "a167", 927, NULL }, + { "a168", 928, NULL }, + { "a169", 928, NULL }, + { "a170", 834, NULL }, + { "a171", 873, NULL }, + { "a172", 828, NULL }, + { "a173", 924, NULL }, + { "a174", 917, NULL }, + { "a175", 930, NULL }, + { "a176", 931, NULL }, + { "a177", 463, NULL }, + { "a178", 883, NULL }, + { "a179", 836, NULL }, + { "a180", 867, NULL }, + { "a181", 696, NULL }, + { "a182", 874, NULL }, + { "a183", 760, NULL }, + { "a184", 946, NULL }, + { "a185", 865, NULL }, + { "a186", 967, NULL }, + { "a187", 831, NULL }, + { "a188", 873, NULL }, + { "a189", 927, NULL }, + { "a1", 974, NULL }, + { "a2", 961, NULL }, + { "a3", 980, NULL }, + { "a4", 719, NULL }, + { "a5", 789, NULL }, + { "a6", 494, NULL }, + { "a7", 552, NULL }, + { "a8", 537, NULL }, + { "a9", 577, NULL }, + { "a190", 970, NULL }, + { "a191", 918, NULL }, + { "a192", 748, NULL }, + { "a193", 836, NULL }, + { "a194", 771, NULL }, + { "a195", 888, NULL }, + { "a196", 748, NULL }, + { "a197", 771, NULL }, + { "a198", 888, NULL }, + { "a199", 867, NULL }, + { "a10", 692, NULL }, + { "a11", 960, NULL }, + { "a12", 939, NULL }, + { "a13", 549, NULL }, + { "a14", 855, NULL }, + { "a15", 911, NULL }, + { "a16", 933, NULL }, + { "a17", 945, NULL }, + { "a18", 974, NULL }, + { "a19", 755, NULL }, + { "a20", 846, NULL }, + { "a21", 762, NULL }, + { "a22", 761, NULL }, + { "a23", 571, NULL }, + { "a24", 677, NULL }, + { "a25", 763, NULL }, + { "a26", 760, NULL }, + { "a27", 759, NULL }, + { "a28", 754, NULL }, + { "a29", 786, NULL }, + { "a30", 788, NULL }, + { "a31", 788, NULL }, + { "a32", 790, NULL }, + { "a33", 793, NULL }, + { "a34", 794, NULL }, + { "a35", 816, NULL }, + { "a36", 823, NULL }, + { "a37", 789, NULL }, + { "a38", 841, NULL }, + { "a39", 823, NULL }, + { "a40", 833, NULL }, + { "a41", 816, NULL }, + { "a42", 831, NULL }, + { "a43", 923, NULL }, + { "a44", 744, NULL }, + { "a45", 723, NULL }, + { "a46", 749, NULL }, + { "a47", 790, NULL }, + { "a48", 792, NULL }, + { "a49", 695, NULL }, + { "a100", 668, NULL }, + { "a101", 732, NULL }, + { "a102", 544, NULL }, + { "a103", 544, NULL }, + { "a104", 910, NULL }, + { "a105", 911, NULL }, + { "a106", 667, NULL }, + { "a107", 760, NULL }, + { "a108", 760, NULL }, + { "a109", 626, NULL }, + { "a50", 776, NULL }, + { "a51", 768, NULL }, + { "a52", 792, NULL }, + { "a53", 759, NULL }, + { "a54", 707, NULL }, + { "a55", 708, NULL }, + { "a56", 682, NULL }, + { "a57", 701, NULL }, + { "a58", 826, NULL }, + { "a59", 815, NULL }, + { "a110", 694, NULL }, + { "a111", 595, NULL }, + { "a112", 776, NULL }, + { "a117", 690, NULL }, + { "a118", 791, NULL }, + { "a119", 790, NULL }, + { "a60", 789, NULL }, + { "a61", 789, NULL }, + { "a62", 707, NULL }, + { "a63", 687, NULL }, + { "a64", 696, NULL }, + { "a65", 689, NULL }, + { "a66", 786, NULL }, + { "a67", 787, NULL }, + { "a68", 713, NULL }, + { "a69", 791, NULL }, + { "a200", 696, NULL }, + { "a201", 874, NULL }, + { "a120", 788, NULL }, + { "a121", 788, NULL }, + { "a202", 974, NULL }, + { "a122", 788, NULL }, + { "a203", 762, NULL }, + { "a123", 788, NULL }, + { "a204", 759, NULL }, + { "a124", 788, NULL }, + { "a205", 509, NULL }, + { "a125", 788, NULL }, + { "a206", 410, NULL }, + { "a126", 788, NULL }, + { "a127", 788, NULL }, + { "a128", 788, NULL }, + { "a129", 788, NULL }, + { "a70", 785, NULL }, + { "a71", 791, NULL }, + { "a72", 873, NULL }, + { "a73", 761, NULL }, + { "a74", 762, NULL }, + { "a75", 759, NULL }, + { "a76", 892, NULL }, + { "a77", 892, NULL }, + { "a78", 788, NULL }, + { "a79", 784, NULL }, + { "a130", 788, NULL }, + { "a131", 788, NULL }, + { "a132", 788, NULL }, + { "a133", 788, NULL }, + { "a134", 788, NULL }, + { "a135", 788, NULL }, + { "a136", 788, NULL }, + { "a137", 788, NULL }, + { "a138", 788, NULL }, + { "a139", 788, NULL } +}; + +BuiltinFont builtinFonts[] = { + { "Courier", standardEncoding, 629, -157, { -23, -250, 715, 805}, NULL }, + { "Courier-Bold", standardEncoding, 629, -157, {-113, -250, 749, 801}, NULL }, + { "Courier-BoldOblique", standardEncoding, 629, -157, { -57, -250, 869, 801}, NULL }, + { "Courier-Oblique", standardEncoding, 629, -157, { -27, -250, 849, 805}, NULL }, + { "Helvetica", standardEncoding, 718, -207, {-166, -225, 1000, 931}, NULL }, + { "Helvetica-Bold", standardEncoding, 718, -207, {-170, -228, 1003, 962}, NULL }, + { "Helvetica-BoldOblique", standardEncoding, 718, -207, {-174, -228, 1114, 962}, NULL }, + { "Helvetica-Oblique", standardEncoding, 718, -207, {-170, -225, 1116, 931}, NULL }, + { "Symbol", symbolEncoding, 1010, -293, {-180, -293, 1090, 1010}, NULL }, + { "Times-Bold", standardEncoding, 683, -217, {-168, -218, 1000, 935}, NULL }, + { "Times-BoldItalic", standardEncoding, 683, -217, {-200, -218, 996, 921}, NULL }, + { "Times-Italic", standardEncoding, 683, -217, {-169, -217, 1010, 883}, NULL }, + { "Times-Roman", standardEncoding, 683, -217, {-168, -218, 1000, 898}, NULL }, + { "ZapfDingbats", zapfDingbatsEncoding, 820, -143, { -1, -143, 981, 820}, NULL } +}; + +BuiltinFont *builtinFontSubst[] = { + &builtinFonts[0], + &builtinFonts[3], + &builtinFonts[1], + &builtinFonts[2], + &builtinFonts[4], + &builtinFonts[7], + &builtinFonts[5], + &builtinFonts[6], + &builtinFonts[12], + &builtinFonts[11], + &builtinFonts[9], + &builtinFonts[10] +}; + +void initBuiltinFontTables() { + builtinFonts[0].widths = new BuiltinFontWidths(courierWidthsTab, 315); + builtinFonts[1].widths = new BuiltinFontWidths(courierBoldWidthsTab, 315); + builtinFonts[2].widths = new BuiltinFontWidths(courierBoldObliqueWidthsTab, 315); + builtinFonts[3].widths = new BuiltinFontWidths(courierObliqueWidthsTab, 315); + builtinFonts[4].widths = new BuiltinFontWidths(helveticaWidthsTab, 315); + builtinFonts[5].widths = new BuiltinFontWidths(helveticaBoldWidthsTab, 316); + builtinFonts[6].widths = new BuiltinFontWidths(helveticaBoldObliqueWidthsTab, 315); + builtinFonts[7].widths = new BuiltinFontWidths(helveticaObliqueWidthsTab, 315); + builtinFonts[8].widths = new BuiltinFontWidths(symbolWidthsTab, 190); + builtinFonts[9].widths = new BuiltinFontWidths(timesBoldWidthsTab, 315); + builtinFonts[10].widths = new BuiltinFontWidths(timesBoldItalicWidthsTab, 315); + builtinFonts[11].widths = new BuiltinFontWidths(timesItalicWidthsTab, 315); + builtinFonts[12].widths = new BuiltinFontWidths(timesRomanWidthsTab, 315); + builtinFonts[13].widths = new BuiltinFontWidths(zapfDingbatsWidthsTab, 202); +} + +void freeBuiltinFontTables() { + int i; + + for (i = 0; i < 14; ++i) { + delete builtinFonts[i].widths; + } +} diff --git a/kpdf/xpdf/xpdf/BuiltinFontTables.h b/kpdf/xpdf/xpdf/BuiltinFontTables.h new file mode 100644 index 00000000..eb45549e --- /dev/null +++ b/kpdf/xpdf/xpdf/BuiltinFontTables.h @@ -0,0 +1,23 @@ +//======================================================================== +// +// BuiltinFontTables.h +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef BUILTINFONTTABLES_H +#define BUILTINFONTTABLES_H + +#include "BuiltinFont.h" + +#define nBuiltinFonts 14 +#define nBuiltinFontSubsts 12 + +extern BuiltinFont builtinFonts[nBuiltinFonts]; +extern BuiltinFont *builtinFontSubst[nBuiltinFontSubsts]; + +extern void initBuiltinFontTables(); +extern void freeBuiltinFontTables(); + +#endif diff --git a/kpdf/xpdf/xpdf/CMap.cc b/kpdf/xpdf/xpdf/CMap.cc new file mode 100644 index 00000000..89905a8c --- /dev/null +++ b/kpdf/xpdf/xpdf/CMap.cc @@ -0,0 +1,408 @@ +//======================================================================== +// +// CMap.cc +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include +#include +#include "gmem.h" +#include "gfile.h" +#include "GString.h" +#include "Error.h" +#include "GlobalParams.h" +#include "PSTokenizer.h" +#include "CMap.h" + +//------------------------------------------------------------------------ + +struct CMapVectorEntry { + GBool isVector; + union { + CMapVectorEntry *vector; + CID cid; + }; +}; + +//------------------------------------------------------------------------ + +static int CMap_getCharFromFile(void *data) { + return fgetc((FILE *)data); +} + +//------------------------------------------------------------------------ + +CMap *CMap::parse(CMapCache *cache, GString *collectionA, + GString *cMapNameA) { + FILE *f; + CMap *cmap; + PSTokenizer *pst; + char tok1[256], tok2[256], tok3[256]; + int n1, n2, n3; + Guint start, end, code; + + if (!(f = globalParams->findCMapFile(collectionA, cMapNameA))) { + + // Check for an identity CMap. + if (!cMapNameA->cmp("Identity") || !cMapNameA->cmp("Identity-H")) { + return new CMap(collectionA->copy(), cMapNameA->copy(), 0); + } + if (!cMapNameA->cmp("Identity-V")) { + return new CMap(collectionA->copy(), cMapNameA->copy(), 1); + } + + error(-1, "Couldn't find '%s' CMap file for '%s' collection", + cMapNameA->getCString(), collectionA->getCString()); + return NULL; + } + + cmap = new CMap(collectionA->copy(), cMapNameA->copy()); + + pst = new PSTokenizer(&CMap_getCharFromFile, f); + pst->getToken(tok1, sizeof(tok1), &n1); + while (pst->getToken(tok2, sizeof(tok2), &n2)) { + if (!strcmp(tok2, "usecmap")) { + if (tok1[0] == '/') { + cmap->useCMap(cache, tok1 + 1); + } + pst->getToken(tok1, sizeof(tok1), &n1); + } else if (!strcmp(tok1, "/WMode")) { + cmap->wMode = atoi(tok2); + pst->getToken(tok1, sizeof(tok1), &n1); + } else if (!strcmp(tok2, "begincodespacerange")) { + while (pst->getToken(tok1, sizeof(tok1), &n1)) { + if (!strcmp(tok1, "endcodespacerange")) { + break; + } + if (!pst->getToken(tok2, sizeof(tok2), &n2) || + !strcmp(tok2, "endcodespacerange")) { + error(-1, "Illegal entry in codespacerange block in CMap"); + break; + } + if (tok1[0] == '<' && tok2[0] == '<' && + n1 == n2 && n1 >= 4 && (n1 & 1) == 0) { + tok1[n1 - 1] = tok2[n1 - 1] = '\0'; + sscanf(tok1 + 1, "%x", &start); + sscanf(tok2 + 1, "%x", &end); + n1 = (n1 - 2) / 2; + cmap->addCodeSpace(cmap->vector, start, end, n1); + } + } + pst->getToken(tok1, sizeof(tok1), &n1); + } else if (!strcmp(tok2, "begincidchar")) { + while (pst->getToken(tok1, sizeof(tok1), &n1)) { + if (!strcmp(tok1, "endcidchar")) { + break; + } + if (!pst->getToken(tok2, sizeof(tok2), &n2) || + !strcmp(tok2, "endcidchar")) { + error(-1, "Illegal entry in cidchar block in CMap"); + break; + } + if (!(tok1[0] == '<' && tok1[n1 - 1] == '>' && + n1 >= 4 && (n1 & 1) == 0)) { + error(-1, "Illegal entry in cidchar block in CMap"); + continue; + } + tok1[n1 - 1] = '\0'; + if (sscanf(tok1 + 1, "%x", &code) != 1) { + error(-1, "Illegal entry in cidchar block in CMap"); + continue; + } + n1 = (n1 - 2) / 2; + cmap->addCIDs(code, code, n1, (CID)atoi(tok2)); + } + pst->getToken(tok1, sizeof(tok1), &n1); + } else if (!strcmp(tok2, "begincidrange")) { + while (pst->getToken(tok1, sizeof(tok1), &n1)) { + if (!strcmp(tok1, "endcidrange")) { + break; + } + if (!pst->getToken(tok2, sizeof(tok2), &n2) || + !strcmp(tok2, "endcidrange") || + !pst->getToken(tok3, sizeof(tok3), &n3) || + !strcmp(tok3, "endcidrange")) { + error(-1, "Illegal entry in cidrange block in CMap"); + break; + } + if (tok1[0] == '<' && tok2[0] == '<' && + n1 == n2 && n1 >= 4 && (n1 & 1) == 0) { + tok1[n1 - 1] = tok2[n1 - 1] = '\0'; + sscanf(tok1 + 1, "%x", &start); + sscanf(tok2 + 1, "%x", &end); + n1 = (n1 - 2) / 2; + cmap->addCIDs(start, end, n1, (CID)atoi(tok3)); + } + } + pst->getToken(tok1, sizeof(tok1), &n1); + } else { + strcpy(tok1, tok2); + } + } + delete pst; + + fclose(f); + + return cmap; +} + +CMap::CMap(GString *collectionA, GString *cMapNameA) { + int i; + + collection = collectionA; + cMapName = cMapNameA; + wMode = 0; + vector = (CMapVectorEntry *)gmallocn(256, sizeof(CMapVectorEntry)); + for (i = 0; i < 256; ++i) { + vector[i].isVector = gFalse; + vector[i].cid = 0; + } + refCnt = 1; +#if MULTITHREADED + gInitMutex(&mutex); +#endif +} + +CMap::CMap(GString *collectionA, GString *cMapNameA, int wModeA) { + collection = collectionA; + cMapName = cMapNameA; + wMode = wModeA; + vector = NULL; + refCnt = 1; +#if MULTITHREADED + gInitMutex(&mutex); +#endif +} + +void CMap::useCMap(CMapCache *cache, char *useName) { + GString *useNameStr; + CMap *subCMap; + + useNameStr = new GString(useName); + subCMap = cache->getCMap(collection, useNameStr); + delete useNameStr; + if (!subCMap) { + return; + } + copyVector(vector, subCMap->vector); + subCMap->decRefCnt(); +} + +void CMap::copyVector(CMapVectorEntry *dest, CMapVectorEntry *src) { + int i, j; + + for (i = 0; i < 256; ++i) { + if (src[i].isVector) { + if (!dest[i].isVector) { + dest[i].isVector = gTrue; + dest[i].vector = + (CMapVectorEntry *)gmallocn(256, sizeof(CMapVectorEntry)); + for (j = 0; j < 256; ++j) { + dest[i].vector[j].isVector = gFalse; + dest[i].vector[j].cid = 0; + } + } + copyVector(dest[i].vector, src[i].vector); + } else { + if (dest[i].isVector) { + error(-1, "Collision in usecmap"); + } else { + dest[i].cid = src[i].cid; + } + } + } +} + +void CMap::addCodeSpace(CMapVectorEntry *vec, Guint start, Guint end, + Guint nBytes) { + Guint start2, end2; + int startByte, endByte, i, j; + + if (nBytes > 1) { + startByte = (start >> (8 * (nBytes - 1))) & 0xff; + endByte = (end >> (8 * (nBytes - 1))) & 0xff; + start2 = start & ((1 << (8 * (nBytes - 1))) - 1); + end2 = end & ((1 << (8 * (nBytes - 1))) - 1); + for (i = startByte; i <= endByte; ++i) { + if (!vec[i].isVector) { + vec[i].isVector = gTrue; + vec[i].vector = + (CMapVectorEntry *)gmallocn(256, sizeof(CMapVectorEntry)); + for (j = 0; j < 256; ++j) { + vec[i].vector[j].isVector = gFalse; + vec[i].vector[j].cid = 0; + } + } + addCodeSpace(vec[i].vector, start2, end2, nBytes - 1); + } + } +} + +void CMap::addCIDs(Guint start, Guint end, Guint nBytes, CID firstCID) { + CMapVectorEntry *vec; + CID cid; + int byte; + Guint i; + + vec = vector; + for (i = nBytes - 1; i >= 1; --i) { + byte = (start >> (8 * i)) & 0xff; + if (!vec[byte].isVector) { + error(-1, "Invalid CID (%0*x - %0*x) in CMap", + 2*nBytes, start, 2*nBytes, end); + return; + } + vec = vec[byte].vector; + } + cid = firstCID; + for (byte = (int)(start & 0xff); byte <= (int)(end & 0xff); ++byte) { + if (vec[byte].isVector) { + error(-1, "Invalid CID (%0*x - %0*x) in CMap", + 2*nBytes, start, 2*nBytes, end); + } else { + vec[byte].cid = cid; + } + ++cid; + } +} + +CMap::~CMap() { + delete collection; + delete cMapName; + if (vector) { + freeCMapVector(vector); + } +#if MULTITHREADED + gDestroyMutex(&mutex); +#endif +} + +void CMap::freeCMapVector(CMapVectorEntry *vec) { + int i; + + for (i = 0; i < 256; ++i) { + if (vec[i].isVector) { + freeCMapVector(vec[i].vector); + } + } + gfree(vec); +} + +void CMap::incRefCnt() { +#if MULTITHREADED + gLockMutex(&mutex); +#endif + ++refCnt; +#if MULTITHREADED + gUnlockMutex(&mutex); +#endif +} + +void CMap::decRefCnt() { + GBool done; + +#if MULTITHREADED + gLockMutex(&mutex); +#endif + done = --refCnt == 0; +#if MULTITHREADED + gUnlockMutex(&mutex); +#endif + if (done) { + delete this; + } +} + +GBool CMap::match(GString *collectionA, GString *cMapNameA) { + return !collection->cmp(collectionA) && !cMapName->cmp(cMapNameA); +} + +CID CMap::getCID(char *s, int len, int *nUsed) { + CMapVectorEntry *vec; + int n, i; + + if (!(vec = vector)) { + // identity CMap + *nUsed = 2; + if (len < 2) { + return 0; + } + return ((s[0] & 0xff) << 8) + (s[1] & 0xff); + } + n = 0; + while (1) { + if (n >= len) { + *nUsed = n; + return 0; + } + i = s[n++] & 0xff; + if (!vec[i].isVector) { + *nUsed = n; + return vec[i].cid; + } + vec = vec[i].vector; + } +} + +//------------------------------------------------------------------------ + +CMapCache::CMapCache() { + int i; + + for (i = 0; i < cMapCacheSize; ++i) { + cache[i] = NULL; + } +} + +CMapCache::~CMapCache() { + int i; + + for (i = 0; i < cMapCacheSize; ++i) { + if (cache[i]) { + cache[i]->decRefCnt(); + } + } +} + +CMap *CMapCache::getCMap(GString *collection, GString *cMapName) { + CMap *cmap; + int i, j; + + if (cache[0] && cache[0]->match(collection, cMapName)) { + cache[0]->incRefCnt(); + return cache[0]; + } + for (i = 1; i < cMapCacheSize; ++i) { + if (cache[i] && cache[i]->match(collection, cMapName)) { + cmap = cache[i]; + for (j = i; j >= 1; --j) { + cache[j] = cache[j - 1]; + } + cache[0] = cmap; + cmap->incRefCnt(); + return cmap; + } + } + if ((cmap = CMap::parse(this, collection, cMapName))) { + if (cache[cMapCacheSize - 1]) { + cache[cMapCacheSize - 1]->decRefCnt(); + } + for (j = cMapCacheSize - 1; j >= 1; --j) { + cache[j] = cache[j - 1]; + } + cache[0] = cmap; + cmap->incRefCnt(); + return cmap; + } + return NULL; +} diff --git a/kpdf/xpdf/xpdf/CMap.h b/kpdf/xpdf/xpdf/CMap.h new file mode 100644 index 00000000..c321a57a --- /dev/null +++ b/kpdf/xpdf/xpdf/CMap.h @@ -0,0 +1,102 @@ +//======================================================================== +// +// CMap.h +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef CMAP_H +#define CMAP_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" +#include "CharTypes.h" + +#if MULTITHREADED +#include "GMutex.h" +#endif + +class GString; +struct CMapVectorEntry; +class CMapCache; + +//------------------------------------------------------------------------ + +class CMap { +public: + + // Create the CMap specified by and . Sets + // the initial reference count to 1. Returns NULL on failure. + static CMap *parse(CMapCache *cache, GString *collectionA, + GString *cMapNameA); + + ~CMap(); + + void incRefCnt(); + void decRefCnt(); + + // Return collection name (-). + GString *getCollection() { return collection; } + + // Return true if this CMap matches the specified , and + // . + GBool match(GString *collectionA, GString *cMapNameA); + + // Return the CID corresponding to the character code starting at + // , which contains bytes. Sets * to the number of + // bytes used by the char code. + CID getCID(char *s, int len, int *nUsed); + + // Return the writing mode (0=horizontal, 1=vertical). + int getWMode() { return wMode; } + +private: + + CMap(GString *collectionA, GString *cMapNameA); + CMap(GString *collectionA, GString *cMapNameA, int wModeA); + void useCMap(CMapCache *cache, char *useName); + void copyVector(CMapVectorEntry *dest, CMapVectorEntry *src); + void addCodeSpace(CMapVectorEntry *vec, Guint start, Guint end, + Guint nBytes); + void addCIDs(Guint start, Guint end, Guint nBytes, CID firstCID); + void freeCMapVector(CMapVectorEntry *vec); + + GString *collection; + GString *cMapName; + int wMode; // writing mode (0=horizontal, 1=vertical) + CMapVectorEntry *vector; // vector for first byte (NULL for + // identity CMap) + int refCnt; +#if MULTITHREADED + GMutex mutex; +#endif +}; + +//------------------------------------------------------------------------ + +#define cMapCacheSize 4 + +class CMapCache { +public: + + CMapCache(); + ~CMapCache(); + + // Get the CMap for the specified character collection. + // Increments its reference count; there will be one reference for + // the cache plus one for the caller of this function. Returns NULL + // on failure. + CMap *getCMap(GString *collection, GString *cMapName); + +private: + + CMap *cache[cMapCacheSize]; +}; + +#endif diff --git a/kpdf/xpdf/xpdf/Catalog.cc b/kpdf/xpdf/xpdf/Catalog.cc new file mode 100644 index 00000000..198703a4 --- /dev/null +++ b/kpdf/xpdf/xpdf/Catalog.cc @@ -0,0 +1,443 @@ +//======================================================================== +// +// Catalog.cc +// +// Copyright 1996-2007 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include "gmem.h" +#include "Object.h" +#include "XRef.h" +#include "Array.h" +#include "Dict.h" +#include "Page.h" +#include "Error.h" +#include "Link.h" +#include "Catalog.h" + +//------------------------------------------------------------------------ +// Catalog +//------------------------------------------------------------------------ + +Catalog::Catalog(XRef *xrefA) { + Object catDict, pagesDict, pagesDictRef; + Object obj, obj2; + char *alreadyRead; + int numPages0; + int i; + + ok = gTrue; + xref = xrefA; + pages = NULL; + pageRefs = NULL; + numPages = pagesSize = 0; + baseURI = NULL; + + xref->getCatalog(&catDict); + if (!catDict.isDict()) { + error(-1, "Catalog object is wrong type (%s)", catDict.getTypeName()); + goto err1; + } + + // read page tree + catDict.dictLookup("Pages", &pagesDict); + // This should really be isDict("Pages"), but I've seen at least one + // PDF file where the /Type entry is missing. + if (!pagesDict.isDict()) { + error(-1, "Top-level pages object is wrong type (%s)", + pagesDict.getTypeName()); + goto err2; + } + pagesDict.dictLookup("Count", &obj); + // some PDF files actually use real numbers here ("/Count 9.0") + if (!obj.isNum()) { + error(-1, "Page count in top-level pages object is wrong type (%s)", + obj.getTypeName()); + goto err3; + } + pagesSize = numPages0 = (int)obj.getNum(); + obj.free(); + pages = (Page **)gmallocn(pagesSize, sizeof(Page *)); + pageRefs = (Ref *)gmallocn(pagesSize, sizeof(Ref)); + for (i = 0; i < pagesSize; ++i) { + pages[i] = NULL; + pageRefs[i].num = -1; + pageRefs[i].gen = -1; + } + alreadyRead = (char *)gmalloc(xref->getNumObjects()); + memset(alreadyRead, 0, xref->getNumObjects()); + if (catDict.dictLookupNF("Pages", &pagesDictRef)->isRef() && + pagesDictRef.getRefNum() >= 0 && + pagesDictRef.getRefNum() < xref->getNumObjects()) { + alreadyRead[pagesDictRef.getRefNum()] = 1; + } + pagesDictRef.free(); + numPages = readPageTree(pagesDict.getDict(), NULL, 0, alreadyRead); + gfree(alreadyRead); + if (numPages != numPages0) { + error(-1, "Page count in top-level pages object is incorrect"); + } + pagesDict.free(); + + // read named destination dictionary + catDict.dictLookup("Dests", &dests); + + // read root of named destination tree + if (catDict.dictLookup("Names", &obj)->isDict()) { + obj.dictLookup("Dests", &obj2); + destNameTree.init(xref, &obj2); + obj2.free(); + } + obj.free(); + + // read base URI + if (catDict.dictLookup("URI", &obj)->isDict()) { + if (obj.dictLookup("Base", &obj2)->isString()) { + baseURI = obj2.getString()->copy(); + } + obj2.free(); + } + obj.free(); + + // read page mode + if (catDict.dictLookup("PageMode", &obj)->isName()) { + if (strcmp(obj.getName(), "UseNone") == 0) + pageMode = UseNone; + else if (strcmp(obj.getName(), "UseOutlines") == 0) + pageMode = UseOutlines; + else if (strcmp(obj.getName(), "UseThumbs") == 0) + pageMode = UseThumbs; + else if (strcmp(obj.getName(), "FullScreen") == 0) + pageMode = FullScreen; + else if (strcmp(obj.getName(), "UseOC") == 0) + pageMode = UseOC; + else + pageMode = UseNone; + } else { + pageMode = UseNone; + } + obj.free(); + + // get the metadata stream + catDict.dictLookup("Metadata", &metadata); + + // get the structure tree root + catDict.dictLookup("StructTreeRoot", &structTreeRoot); + + // get the outline dictionary + catDict.dictLookup("Outlines", &outline); + + // get the AcroForm dictionary + catDict.dictLookup("AcroForm", &acroForm); + + catDict.free(); + return; + + err3: + obj.free(); + err2: + pagesDict.free(); + err1: + catDict.free(); + dests.initNull(); + ok = gFalse; +} + +Catalog::~Catalog() { + int i; + + if (pages) { + for (i = 0; i < pagesSize; ++i) { + if (pages[i]) { + delete pages[i]; + } + } + gfree(pages); + gfree(pageRefs); + } + dests.free(); + destNameTree.free(); + if (baseURI) { + delete baseURI; + } + metadata.free(); + structTreeRoot.free(); + outline.free(); + acroForm.free(); +} + +GString *Catalog::readMetadata() { + GString *s; + Dict *dict; + Object obj; + int c; + + if (!metadata.isStream()) { + return NULL; + } + dict = metadata.streamGetDict(); + if (!dict->lookup("Subtype", &obj)->isName("XML")) { + error(-1, "Unknown Metadata type: '%s'", + obj.isName() ? obj.getName() : "???"); + } + obj.free(); + s = new GString(); + metadata.streamReset(); + while ((c = metadata.streamGetChar()) != EOF) { + s->append(c); + } + metadata.streamClose(); + return s; +} + +int Catalog::readPageTree(Dict *pagesDict, PageAttrs *attrs, int start, + char *alreadyRead) { + Object kids; + Object kid; + Object kidRef; + PageAttrs *attrs1, *attrs2; + Page *page; + int i, j; + + attrs1 = new PageAttrs(attrs, pagesDict); + pagesDict->lookup("Kids", &kids); + if (!kids.isArray()) { + error(-1, "Kids object (page %d) is wrong type (%s)", + start+1, kids.getTypeName()); + goto err1; + } + for (i = 0; i < kids.arrayGetLength(); ++i) { + kids.arrayGetNF(i, &kidRef); + if (kidRef.isRef() && + kidRef.getRefNum() >= 0 && + kidRef.getRefNum() < xref->getNumObjects()) { + if (alreadyRead[kidRef.getRefNum()]) { + error(-1, "Loop in Pages tree"); + kidRef.free(); + continue; + } + alreadyRead[kidRef.getRefNum()] = 1; + } + kids.arrayGet(i, &kid); + if (kid.isDict("Page")) { + attrs2 = new PageAttrs(attrs1, kid.getDict()); + page = new Page(xref, start+1, kid.getDict(), attrs2); + if (!page->isOk()) { + ++start; + goto err3; + } + if (start >= pagesSize) { + pagesSize += 32; + pages = (Page **)greallocn(pages, pagesSize, sizeof(Page *)); + pageRefs = (Ref *)greallocn(pageRefs, pagesSize, sizeof(Ref)); + for (j = pagesSize - 32; j < pagesSize; ++j) { + pages[j] = NULL; + pageRefs[j].num = -1; + pageRefs[j].gen = -1; + } + } + pages[start] = page; + if (kidRef.isRef()) { + pageRefs[start].num = kidRef.getRefNum(); + pageRefs[start].gen = kidRef.getRefGen(); + } + ++start; + // This should really be isDict("Pages"), but I've seen at least one + // PDF file where the /Type entry is missing. + } else if (kid.isDict()) { + if ((start = readPageTree(kid.getDict(), attrs1, start, alreadyRead)) + < 0) + goto err2; + } else { + error(-1, "Kid object (page %d) is wrong type (%s)", + start+1, kid.getTypeName()); + } + kid.free(); + kidRef.free(); + } + delete attrs1; + kids.free(); + return start; + + err3: + delete page; + err2: + kid.free(); + err1: + kids.free(); + delete attrs1; + ok = gFalse; + return -1; +} + +int Catalog::findPage(int num, int gen) { + int i; + + for (i = 0; i < numPages; ++i) { + if (pageRefs[i].num == num && pageRefs[i].gen == gen) + return i + 1; + } + return 0; +} + +LinkDest *Catalog::findDest(GString *name) { + LinkDest *dest; + Object obj1, obj2; + GBool found; + + // try named destination dictionary then name tree + found = gFalse; + if (dests.isDict()) { + if (!dests.dictLookup(name->getCString(), &obj1)->isNull()) + found = gTrue; + else + obj1.free(); + } + if (!found) { + if (destNameTree.lookup(name, &obj1)) + found = gTrue; + else + obj1.free(); + } + if (!found) + return NULL; + + // construct LinkDest + dest = NULL; + if (obj1.isArray()) { + dest = new LinkDest(obj1.getArray()); + } else if (obj1.isDict()) { + if (obj1.dictLookup("D", &obj2)->isArray()) + dest = new LinkDest(obj2.getArray()); + else + error(-1, "Bad named destination value"); + obj2.free(); + } else { + error(-1, "Bad named destination value"); + } + obj1.free(); + if (dest && !dest->isOk()) { + delete dest; + dest = NULL; + } + + return dest; +} + +NameTree::NameTree() +{ + size = 0; + length = 0; + entries = NULL; +} + +NameTree::Entry::Entry(Array *array, int index) { + if (!array->getString(index, &name) || !array->getNF(index + 1, &value)) + error(-1, "Invalid page tree"); +} + +NameTree::Entry::~Entry() { + value.free(); +} + +void NameTree::addEntry(Entry *entry) +{ + if (length == size) { + if (length == 0) { + size = 8; + } else { + size *= 2; + } + entries = (Entry **) grealloc (entries, sizeof (Entry *) * size); + } + + entries[length] = entry; + ++length; +} + +void NameTree::init(XRef *xrefA, Object *tree) { + xref = xrefA; + parse(tree); +} + +void NameTree::parse(Object *tree) { + Object names; + Object kids, kid; + int i; + + if (!tree->isDict()) + return; + + // leaf node + if (tree->dictLookup("Names", &names)->isArray()) { + for (i = 0; i < names.arrayGetLength(); i += 2) { + NameTree::Entry *entry; + + entry = new Entry(names.getArray(), i); + addEntry(entry); + } + } + names.free(); + + // root or intermediate node + if (tree->dictLookup("Kids", &kids)->isArray()) { + for (i = 0; i < kids.arrayGetLength(); ++i) { + if (kids.arrayGet(i, &kid)->isDict()) + parse(&kid); + kid.free(); + } + } + kids.free(); +} + +int NameTree::Entry::cmp(const void *voidKey, const void *voidEntry) +{ + GString *key = (GString *) voidKey; + Entry *entry = *(NameTree::Entry **) voidEntry; + + return key->cmp(&entry->name); +} + +GBool NameTree::lookup(GString *name, Object *obj) +{ + Entry *entry; + + Entry **e = (Entry **) bsearch(name, entries, + length, sizeof(Entry *), Entry::cmp); + if (e) entry = *e; + else + { + error(-1, "failed to look up %s\n", name->getCString()); + obj->initNull(); + return gFalse; + } + if (entry != NULL) { + entry->value.fetch(xref, obj); + return gTrue; + } else { + error(-1, "failed to look up %s\n", name->getCString()); + + obj->initNull(); + + return gFalse; + } +} + +void NameTree::free() +{ + int i; + + for (i = 0; i < length; i++) + delete entries[i]; + + gfree(entries); +} diff --git a/kpdf/xpdf/xpdf/Catalog.h b/kpdf/xpdf/xpdf/Catalog.h new file mode 100644 index 00000000..e89ec04d --- /dev/null +++ b/kpdf/xpdf/xpdf/Catalog.h @@ -0,0 +1,137 @@ +//======================================================================== +// +// Catalog.h +// +// Copyright 1996-2007 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef CATALOG_H +#define CATALOG_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +class XRef; +class Object; +class Page; +class PageAttrs; +struct Ref; +class LinkDest; + +//------------------------------------------------------------------------ +// NameTree +//------------------------------------------------------------------------ + +class NameTree { +public: + NameTree(); + void init(XRef *xref, Object *tree); + void parse(Object *tree); + GBool lookup(GString *name, Object *obj); + void free(); + +private: + struct Entry { + Entry(Array *array, int index); + ~Entry(); + GString name; + Object value; + void free(); + static int cmp(const void *key, const void *entry); + }; + + void addEntry(Entry *entry); + + XRef *xref; + Object *root; + Entry **entries; + int size, length; +}; + +//------------------------------------------------------------------------ +// Catalog +//------------------------------------------------------------------------ + +class Catalog { +public: + + enum PageMode { + UseNone, + UseOutlines, + UseThumbs, + FullScreen, + UseOC + }; + + // Constructor. + Catalog(XRef *xrefA); + + // Destructor. + ~Catalog(); + + // Is catalog valid? + GBool isOk() { return ok; } + + // Get number of pages. + int getNumPages() { return numPages; } + + // Get a page. + Page *getPage(int i) { return pages[i-1]; } + + // Get the reference for a page object. + Ref *getPageRef(int i) { return &pageRefs[i-1]; } + + // Return base URI, or NULL if none. + GString *getBaseURI() { return baseURI; } + + // Returns the page mode. + PageMode getPageMode() { return pageMode; } + + // Return the contents of the metadata stream, or NULL if there is + // no metadata. + GString *readMetadata(); + + // Return the structure tree root object. + Object *getStructTreeRoot() { return &structTreeRoot; } + + // Find a page, given its object ID. Returns page number, or 0 if + // not found. + int findPage(int num, int gen); + + // Find a named destination. Returns the link destination, or + // NULL if is not a destination. + LinkDest *findDest(GString *name); + + Object *getDests() { return &dests; } + + Object *getOutline() { return &outline; } + + Object *getAcroForm() { return &acroForm; } + +private: + + XRef *xref; // the xref table for this PDF file + Page **pages; // array of pages + Ref *pageRefs; // object ID for each page + int numPages; // number of pages + int pagesSize; // size of pages array + Object dests; // named destination dictionary + NameTree destNameTree; // name tree + GString *baseURI; // base URI for URI-type links + PageMode pageMode; // page mode + Object metadata; // metadata stream + Object structTreeRoot; // structure tree root dictionary + Object outline; // outline dictionary + Object acroForm; // AcroForm dictionary + GBool ok; // true if catalog is valid + + int readPageTree(Dict *pages, PageAttrs *attrs, int start, + char *alreadyRead); + Object *findDestInTree(Object *tree, GString *name, Object *obj); +}; + +#endif diff --git a/kpdf/xpdf/xpdf/CharCodeToUnicode.cc b/kpdf/xpdf/xpdf/CharCodeToUnicode.cc new file mode 100644 index 00000000..3702a16d --- /dev/null +++ b/kpdf/xpdf/xpdf/CharCodeToUnicode.cc @@ -0,0 +1,540 @@ +//======================================================================== +// +// CharCodeToUnicode.cc +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include "gmem.h" +#include "gfile.h" +#include "GString.h" +#include "Error.h" +#include "GlobalParams.h" +#include "PSTokenizer.h" +#include "CharCodeToUnicode.h" + +//------------------------------------------------------------------------ + +#define maxUnicodeString 8 + +struct CharCodeToUnicodeString { + CharCode c; + Unicode u[maxUnicodeString]; + int len; +}; + +//------------------------------------------------------------------------ + +static int getCharFromString(void *data) { + char *p; + int c; + + p = *(char **)data; + if (*p) { + c = *p++; + *(char **)data = p; + } else { + c = EOF; + } + return c; +} + +static int getCharFromFile(void *data) { + return fgetc((FILE *)data); +} + +//------------------------------------------------------------------------ + +CharCodeToUnicode *CharCodeToUnicode::parseCIDToUnicode(GString *fileName, + GString *collection) { + FILE *f; + Unicode *mapA; + CharCode size, mapLenA; + char buf[64]; + Unicode u; + CharCodeToUnicode *ctu; + + if (!(f = fopen(fileName->getCString(), "r"))) { + error(-1, "Couldn't open cidToUnicode file '%s'", + fileName->getCString()); + return NULL; + } + + size = 32768; + mapA = (Unicode *)gmallocn(size, sizeof(Unicode)); + mapLenA = 0; + + while (getLine(buf, sizeof(buf), f)) { + if (mapLenA == size) { + size *= 2; + mapA = (Unicode *)greallocn(mapA, size, sizeof(Unicode)); + } + if (sscanf(buf, "%x", &u) == 1) { + mapA[mapLenA] = u; + } else { + error(-1, "Bad line (%d) in cidToUnicode file '%s'", + (int)(mapLenA + 1), fileName->getCString()); + mapA[mapLenA] = 0; + } + ++mapLenA; + } + fclose(f); + + ctu = new CharCodeToUnicode(collection->copy(), mapA, mapLenA, gTrue, + NULL, 0, 0); + gfree(mapA); + return ctu; +} + +CharCodeToUnicode *CharCodeToUnicode::parseUnicodeToUnicode( + GString *fileName) { + FILE *f; + Unicode *mapA; + CharCodeToUnicodeString *sMapA; + CharCode size, oldSize, len, sMapSizeA, sMapLenA; + char buf[256]; + char *tok; + Unicode u0; + Unicode uBuf[maxUnicodeString]; + CharCodeToUnicode *ctu; + int line, n, i; + + if (!(f = fopen(fileName->getCString(), "r"))) { + error(-1, "Couldn't open unicodeToUnicode file '%s'", + fileName->getCString()); + return NULL; + } + + size = 4096; + mapA = (Unicode *)gmallocn(size, sizeof(Unicode)); + memset(mapA, 0, size * sizeof(Unicode)); + len = 0; + sMapA = NULL; + sMapSizeA = sMapLenA = 0; + + line = 0; + while (getLine(buf, sizeof(buf), f)) { + ++line; + if (!(tok = strtok(buf, " \t\r\n")) || + sscanf(tok, "%x", &u0) != 1) { + error(-1, "Bad line (%d) in unicodeToUnicode file '%s'", + line, fileName->getCString()); + continue; + } + n = 0; + while (n < maxUnicodeString) { + if (!(tok = strtok(NULL, " \t\r\n"))) { + break; + } + if (sscanf(tok, "%x", &uBuf[n]) != 1) { + error(-1, "Bad line (%d) in unicodeToUnicode file '%s'", + line, fileName->getCString()); + break; + } + ++n; + } + if (n < 1) { + error(-1, "Bad line (%d) in unicodeToUnicode file '%s'", + line, fileName->getCString()); + continue; + } + if (u0 >= size) { + oldSize = size; + while (u0 >= size) { + size *= 2; + } + mapA = (Unicode *)greallocn(mapA, size, sizeof(Unicode)); + memset(mapA + oldSize, 0, (size - oldSize) * sizeof(Unicode)); + } + if (n == 1) { + mapA[u0] = uBuf[0]; + } else { + mapA[u0] = 0; + if (sMapLenA == sMapSizeA) { + sMapSizeA += 16; + sMapA = (CharCodeToUnicodeString *) + greallocn(sMapA, sMapSizeA, sizeof(CharCodeToUnicodeString)); + } + sMapA[sMapLenA].c = u0; + for (i = 0; i < n; ++i) { + sMapA[sMapLenA].u[i] = uBuf[i]; + } + sMapA[sMapLenA].len = n; + ++sMapLenA; + } + if (u0 >= len) { + len = u0 + 1; + } + } + fclose(f); + + ctu = new CharCodeToUnicode(fileName->copy(), mapA, len, gTrue, + sMapA, sMapLenA, sMapSizeA); + gfree(mapA); + return ctu; +} + +CharCodeToUnicode *CharCodeToUnicode::make8BitToUnicode(Unicode *toUnicode) { + return new CharCodeToUnicode(NULL, toUnicode, 256, gTrue, NULL, 0, 0); +} + +CharCodeToUnicode *CharCodeToUnicode::parseCMap(GString *buf, int nBits) { + CharCodeToUnicode *ctu; + char *p; + + ctu = new CharCodeToUnicode(NULL); + p = buf->getCString(); + ctu->parseCMap1(&getCharFromString, &p, nBits); + return ctu; +} + +void CharCodeToUnicode::mergeCMap(GString *buf, int nBits) { + char *p; + + p = buf->getCString(); + parseCMap1(&getCharFromString, &p, nBits); +} + +void CharCodeToUnicode::parseCMap1(int (*getCharFunc)(void *), void *data, + int nBits) { + PSTokenizer *pst; + char tok1[256], tok2[256], tok3[256]; + int nDigits, n1, n2, n3; + CharCode i; + CharCode code1, code2; + GString *name; + FILE *f; + + nDigits = nBits / 4; + pst = new PSTokenizer(getCharFunc, data); + pst->getToken(tok1, sizeof(tok1), &n1); + while (pst->getToken(tok2, sizeof(tok2), &n2)) { + if (!strcmp(tok2, "usecmap")) { + if (tok1[0] == '/') { + name = new GString(tok1 + 1); + if ((f = globalParams->findToUnicodeFile(name))) { + parseCMap1(&getCharFromFile, f, nBits); + fclose(f); + } else { + error(-1, "Couldn't find ToUnicode CMap file for '%s'", + name->getCString()); + } + delete name; + } + pst->getToken(tok1, sizeof(tok1), &n1); + } else if (!strcmp(tok2, "beginbfchar")) { + while (pst->getToken(tok1, sizeof(tok1), &n1)) { + if (!strcmp(tok1, "endbfchar")) { + break; + } + if (!pst->getToken(tok2, sizeof(tok2), &n2) || + !strcmp(tok2, "endbfchar")) { + error(-1, "Illegal entry in bfchar block in ToUnicode CMap"); + break; + } + if (!(n1 == 2 + nDigits && tok1[0] == '<' && tok1[n1 - 1] == '>' && + tok2[0] == '<' && tok2[n2 - 1] == '>')) { + error(-1, "Illegal entry in bfchar block in ToUnicode CMap"); + continue; + } + tok1[n1 - 1] = tok2[n2 - 1] = '\0'; + if (sscanf(tok1 + 1, "%x", &code1) != 1) { + error(-1, "Illegal entry in bfchar block in ToUnicode CMap"); + continue; + } + addMapping(code1, tok2 + 1, n2 - 2, 0); + } + pst->getToken(tok1, sizeof(tok1), &n1); + } else if (!strcmp(tok2, "beginbfrange")) { + while (pst->getToken(tok1, sizeof(tok1), &n1)) { + if (!strcmp(tok1, "endbfrange")) { + break; + } + if (!pst->getToken(tok2, sizeof(tok2), &n2) || + !strcmp(tok2, "endbfrange") || + !pst->getToken(tok3, sizeof(tok3), &n3) || + !strcmp(tok3, "endbfrange")) { + error(-1, "Illegal entry in bfrange block in ToUnicode CMap"); + break; + } + if (!(n1 == 2 + nDigits && tok1[0] == '<' && tok1[n1 - 1] == '>' && + n2 == 2 + nDigits && tok2[0] == '<' && tok2[n2 - 1] == '>')) { + error(-1, "Illegal entry in bfrange block in ToUnicode CMap"); + continue; + } + tok1[n1 - 1] = tok2[n2 - 1] = '\0'; + if (sscanf(tok1 + 1, "%x", &code1) != 1 || + sscanf(tok2 + 1, "%x", &code2) != 1) { + error(-1, "Illegal entry in bfrange block in ToUnicode CMap"); + continue; + } + if (!strcmp(tok3, "[")) { + i = 0; + while (pst->getToken(tok1, sizeof(tok1), &n1) && + code1 + i <= code2) { + if (!strcmp(tok1, "]")) { + break; + } + if (tok1[0] == '<' && tok1[n1 - 1] == '>') { + tok1[n1 - 1] = '\0'; + addMapping(code1 + i, tok1 + 1, n1 - 2, 0); + } else { + error(-1, "Illegal entry in bfrange block in ToUnicode CMap"); + } + ++i; + } + } else if (tok3[0] == '<' && tok3[n3 - 1] == '>') { + tok3[n3 - 1] = '\0'; + for (i = 0; code1 <= code2; ++code1, ++i) { + addMapping(code1, tok3 + 1, n3 - 2, i); + } + + } else { + error(-1, "Illegal entry in bfrange block in ToUnicode CMap"); + } + } + pst->getToken(tok1, sizeof(tok1), &n1); + } else { + strcpy(tok1, tok2); + } + } + delete pst; +} + +void CharCodeToUnicode::addMapping(CharCode code, char *uStr, int n, + int offset) { + CharCode oldLen, i; + Unicode u; + char uHex[5]; + int j; + + if (code >= mapLen) { + oldLen = mapLen; + mapLen = (code + 256) & ~255; + map = (Unicode *)greallocn(map, mapLen, sizeof(Unicode)); + for (i = oldLen; i < mapLen; ++i) { + map[i] = 0; + } + } + if (n <= 4) { + if (sscanf(uStr, "%x", &u) != 1) { + error(-1, "Illegal entry in ToUnicode CMap"); + return; + } + map[code] = u + offset; + } else { + if (sMapLen >= sMapSize) { + sMapSize = sMapSize + 16; + sMap = (CharCodeToUnicodeString *) + greallocn(sMap, sMapSize, sizeof(CharCodeToUnicodeString)); + } + map[code] = 0; + sMap[sMapLen].c = code; + sMap[sMapLen].len = n / 4; + for (j = 0; j < sMap[sMapLen].len && j < maxUnicodeString; ++j) { + strncpy(uHex, uStr + j*4, 4); + uHex[4] = '\0'; + if (sscanf(uHex, "%x", &sMap[sMapLen].u[j]) != 1) { + error(-1, "Illegal entry in ToUnicode CMap"); + } + } + sMap[sMapLen].u[sMap[sMapLen].len - 1] += offset; + ++sMapLen; + } +} + +CharCodeToUnicode::CharCodeToUnicode(GString *tagA) { + CharCode i; + + tag = tagA; + mapLen = 256; + map = (Unicode *)gmallocn(mapLen, sizeof(Unicode)); + for (i = 0; i < mapLen; ++i) { + map[i] = 0; + } + sMap = NULL; + sMapLen = sMapSize = 0; + refCnt = 1; +#if MULTITHREADED + gInitMutex(&mutex); +#endif +} + +CharCodeToUnicode::CharCodeToUnicode(GString *tagA, Unicode *mapA, + CharCode mapLenA, GBool copyMap, + CharCodeToUnicodeString *sMapA, + int sMapLenA, int sMapSizeA) { + tag = tagA; + mapLen = mapLenA; + if (copyMap) { + map = (Unicode *)gmallocn(mapLen, sizeof(Unicode)); + memcpy(map, mapA, mapLen * sizeof(Unicode)); + } else { + map = mapA; + } + sMap = sMapA; + sMapLen = sMapLenA; + sMapSize = sMapSizeA; + refCnt = 1; +#if MULTITHREADED + gInitMutex(&mutex); +#endif +} + +CharCodeToUnicode::~CharCodeToUnicode() { + if (tag) { + delete tag; + } + gfree(map); + if (sMap) { + gfree(sMap); + } +#if MULTITHREADED + gDestroyMutex(&mutex); +#endif +} + +void CharCodeToUnicode::incRefCnt() { +#if MULTITHREADED + gLockMutex(&mutex); +#endif + ++refCnt; +#if MULTITHREADED + gUnlockMutex(&mutex); +#endif +} + +void CharCodeToUnicode::decRefCnt() { + GBool done; + +#if MULTITHREADED + gLockMutex(&mutex); +#endif + done = --refCnt == 0; +#if MULTITHREADED + gUnlockMutex(&mutex); +#endif + if (done) { + delete this; + } +} + +GBool CharCodeToUnicode::match(GString *tagA) { + return tag && !tag->cmp(tagA); +} + +void CharCodeToUnicode::setMapping(CharCode c, Unicode *u, int len) { + int i, j; + + if (len == 1) { + map[c] = u[0]; + } else { + for (i = 0; i < sMapLen; ++i) { + if (sMap[i].c == c) { + break; + } + } + if (i == sMapLen) { + if (sMapLen == sMapSize) { + sMapSize += 8; + sMap = (CharCodeToUnicodeString *) + greallocn(sMap, sMapSize, sizeof(CharCodeToUnicodeString)); + } + ++sMapLen; + } + map[c] = 0; + sMap[i].c = c; + sMap[i].len = len; + for (j = 0; j < len && j < maxUnicodeString; ++j) { + sMap[i].u[j] = u[j]; + } + } +} + +int CharCodeToUnicode::mapToUnicode(CharCode c, Unicode *u, int size) { + int i, j; + + if (c >= mapLen) { + return 0; + } + if (map[c]) { + u[0] = map[c]; + return 1; + } + for (i = 0; i < sMapLen; ++i) { + if (sMap[i].c == c) { + for (j = 0; j < sMap[i].len && j < size; ++j) { + u[j] = sMap[i].u[j]; + } + return j; + } + } + return 0; +} + +//------------------------------------------------------------------------ + +CharCodeToUnicodeCache::CharCodeToUnicodeCache(int sizeA) { + int i; + + size = sizeA; + cache = (CharCodeToUnicode **)gmallocn(size, sizeof(CharCodeToUnicode *)); + for (i = 0; i < size; ++i) { + cache[i] = NULL; + } +} + +CharCodeToUnicodeCache::~CharCodeToUnicodeCache() { + int i; + + for (i = 0; i < size; ++i) { + if (cache[i]) { + cache[i]->decRefCnt(); + } + } + gfree(cache); +} + +CharCodeToUnicode *CharCodeToUnicodeCache::getCharCodeToUnicode(GString *tag) { + CharCodeToUnicode *ctu; + int i, j; + + if (cache[0] && cache[0]->match(tag)) { + cache[0]->incRefCnt(); + return cache[0]; + } + for (i = 1; i < size; ++i) { + if (cache[i] && cache[i]->match(tag)) { + ctu = cache[i]; + for (j = i; j >= 1; --j) { + cache[j] = cache[j - 1]; + } + cache[0] = ctu; + ctu->incRefCnt(); + return ctu; + } + } + return NULL; +} + +void CharCodeToUnicodeCache::add(CharCodeToUnicode *ctu) { + int i; + + if (cache[size - 1]) { + cache[size - 1]->decRefCnt(); + } + for (i = size - 1; i >= 1; --i) { + cache[i] = cache[i - 1]; + } + cache[0] = ctu; + ctu->incRefCnt(); +} diff --git a/kpdf/xpdf/xpdf/CharCodeToUnicode.h b/kpdf/xpdf/xpdf/CharCodeToUnicode.h new file mode 100644 index 00000000..04852aea --- /dev/null +++ b/kpdf/xpdf/xpdf/CharCodeToUnicode.h @@ -0,0 +1,117 @@ +//======================================================================== +// +// CharCodeToUnicode.h +// +// Mapping from character codes to Unicode. +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef CHARCODETOUNICODE_H +#define CHARCODETOUNICODE_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "CharTypes.h" + +#if MULTITHREADED +#include "GMutex.h" +#endif + +struct CharCodeToUnicodeString; + +//------------------------------------------------------------------------ + +class CharCodeToUnicode { +public: + + // Read the CID-to-Unicode mapping for from the file + // specified by . Sets the initial reference count to 1. + // Returns NULL on failure. + static CharCodeToUnicode *parseCIDToUnicode(GString *fileName, + GString *collection); + + // Create a Unicode-to-Unicode mapping from the file specified by + // . Sets the initial reference count to 1. Returns NULL + // on failure. + static CharCodeToUnicode *parseUnicodeToUnicode(GString *fileName); + + // Create the CharCode-to-Unicode mapping for an 8-bit font. + // is an array of 256 Unicode indexes. Sets the initial + // reference count to 1. + static CharCodeToUnicode *make8BitToUnicode(Unicode *toUnicode); + + // Parse a ToUnicode CMap for an 8- or 16-bit font. + static CharCodeToUnicode *parseCMap(GString *buf, int nBits); + + // Parse a ToUnicode CMap for an 8- or 16-bit font, merging it into + // . + void mergeCMap(GString *buf, int nBits); + + ~CharCodeToUnicode(); + + void incRefCnt(); + void decRefCnt(); + + // Return true if this mapping matches the specified . + GBool match(GString *tagA); + + // Set the mapping for . + void setMapping(CharCode c, Unicode *u, int len); + + // Map a CharCode to Unicode. + int mapToUnicode(CharCode c, Unicode *u, int size); + + // Return the mapping's length, i.e., one more than the max char + // code supported by the mapping. + CharCode getLength() { return mapLen; } + +private: + + void parseCMap1(int (*getCharFunc)(void *), void *data, int nBits); + void addMapping(CharCode code, char *uStr, int n, int offset); + CharCodeToUnicode(GString *tagA); + CharCodeToUnicode(GString *tagA, Unicode *mapA, + CharCode mapLenA, GBool copyMap, + CharCodeToUnicodeString *sMapA, + int sMapLenA, int sMapSizeA); + + GString *tag; + Unicode *map; + CharCode mapLen; + CharCodeToUnicodeString *sMap; + int sMapLen, sMapSize; + int refCnt; +#if MULTITHREADED + GMutex mutex; +#endif +}; + +//------------------------------------------------------------------------ + +class CharCodeToUnicodeCache { +public: + + CharCodeToUnicodeCache(int sizeA); + ~CharCodeToUnicodeCache(); + + // Get the CharCodeToUnicode object for . Increments its + // reference count; there will be one reference for the cache plus + // one for the caller of this function. Returns NULL on failure. + CharCodeToUnicode *getCharCodeToUnicode(GString *tag); + + // Insert into the cache, in the most-recently-used position. + void add(CharCodeToUnicode *ctu); + +private: + + CharCodeToUnicode **cache; + int size; +}; + +#endif diff --git a/kpdf/xpdf/xpdf/CharTypes.h b/kpdf/xpdf/xpdf/CharTypes.h new file mode 100644 index 00000000..d0df630d --- /dev/null +++ b/kpdf/xpdf/xpdf/CharTypes.h @@ -0,0 +1,24 @@ +//======================================================================== +// +// CharTypes.h +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef CHARTYPES_H +#define CHARTYPES_H + +// Unicode character. +typedef unsigned int Unicode; + +// Character ID for CID character collections. +typedef unsigned int CID; + +// This is large enough to hold any of the following: +// - 8-bit char code +// - 16-bit CID +// - Unicode +typedef unsigned int CharCode; + +#endif diff --git a/kpdf/xpdf/xpdf/CompactFontTables.h b/kpdf/xpdf/xpdf/CompactFontTables.h new file mode 100644 index 00000000..28e16e77 --- /dev/null +++ b/kpdf/xpdf/xpdf/CompactFontTables.h @@ -0,0 +1,464 @@ +//======================================================================== +// +// CompactFontTables.h +// +// Copyright 1999-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef COMPACTFONTINFO_H +#define COMPACTFONTINFO_H + +static char *type1CStdStrings[391] = { + ".notdef", + "space", + "exclam", + "quotedbl", + "numbersign", + "dollar", + "percent", + "ampersand", + "quoteright", + "parenleft", + "parenright", + "asterisk", + "plus", + "comma", + "hyphen", + "period", + "slash", + "zero", + "one", + "two", + "three", + "four", + "five", + "six", + "seven", + "eight", + "nine", + "colon", + "semicolon", + "less", + "equal", + "greater", + "question", + "at", + "A", + "B", + "C", + "D", + "E", + "F", + "G", + "H", + "I", + "J", + "K", + "L", + "M", + "N", + "O", + "P", + "Q", + "R", + "S", + "T", + "U", + "V", + "W", + "X", + "Y", + "Z", + "bracketleft", + "backslash", + "bracketright", + "asciicircum", + "underscore", + "quoteleft", + "a", + "b", + "c", + "d", + "e", + "f", + "g", + "h", + "i", + "j", + "k", + "l", + "m", + "n", + "o", + "p", + "q", + "r", + "s", + "t", + "u", + "v", + "w", + "x", + "y", + "z", + "braceleft", + "bar", + "braceright", + "asciitilde", + "exclamdown", + "cent", + "sterling", + "fraction", + "yen", + "florin", + "section", + "currency", + "quotesingle", + "quotedblleft", + "guillemotleft", + "guilsinglleft", + "guilsinglright", + "fi", + "fl", + "endash", + "dagger", + "daggerdbl", + "periodcentered", + "paragraph", + "bullet", + "quotesinglbase", + "quotedblbase", + "quotedblright", + "guillemotright", + "ellipsis", + "perthousand", + "questiondown", + "grave", + "acute", + "circumflex", + "tilde", + "macron", + "breve", + "dotaccent", + "dieresis", + "ring", + "cedilla", + "hungarumlaut", + "ogonek", + "caron", + "emdash", + "AE", + "ordfeminine", + "Lslash", + "Oslash", + "OE", + "ordmasculine", + "ae", + "dotlessi", + "lslash", + "oslash", + "oe", + "germandbls", + "onesuperior", + "logicalnot", + "mu", + "trademark", + "Eth", + "onehalf", + "plusminus", + "Thorn", + "onequarter", + "divide", + "brokenbar", + "degree", + "thorn", + "threequarters", + "twosuperior", + "registered", + "minus", + "eth", + "multiply", + "threesuperior", + "copyright", + "Aacute", + "Acircumflex", + "Adieresis", + "Agrave", + "Aring", + "Atilde", + "Ccedilla", + "Eacute", + "Ecircumflex", + "Edieresis", + "Egrave", + "Iacute", + "Icircumflex", + "Idieresis", + "Igrave", + "Ntilde", + "Oacute", + "Ocircumflex", + "Odieresis", + "Ograve", + "Otilde", + "Scaron", + "Uacute", + "Ucircumflex", + "Udieresis", + "Ugrave", + "Yacute", + "Ydieresis", + "Zcaron", + "aacute", + "acircumflex", + "adieresis", + "agrave", + "aring", + "atilde", + "ccedilla", + "eacute", + "ecircumflex", + "edieresis", + "egrave", + "iacute", + "icircumflex", + "idieresis", + "igrave", + "ntilde", + "oacute", + "ocircumflex", + "odieresis", + "ograve", + "otilde", + "scaron", + "uacute", + "ucircumflex", + "udieresis", + "ugrave", + "yacute", + "ydieresis", + "zcaron", + "exclamsmall", + "Hungarumlautsmall", + "dollaroldstyle", + "dollarsuperior", + "ampersandsmall", + "Acutesmall", + "parenleftsuperior", + "parenrightsuperior", + "twodotenleader", + "onedotenleader", + "zerooldstyle", + "oneoldstyle", + "twooldstyle", + "threeoldstyle", + "fouroldstyle", + "fiveoldstyle", + "sixoldstyle", + "sevenoldstyle", + "eightoldstyle", + "nineoldstyle", + "commasuperior", + "threequartersemdash", + "periodsuperior", + "questionsmall", + "asuperior", + "bsuperior", + "centsuperior", + "dsuperior", + "esuperior", + "isuperior", + "lsuperior", + "msuperior", + "nsuperior", + "osuperior", + "rsuperior", + "ssuperior", + "tsuperior", + "ff", + "ffi", + "ffl", + "parenleftinferior", + "parenrightinferior", + "Circumflexsmall", + "hyphensuperior", + "Gravesmall", + "Asmall", + "Bsmall", + "Csmall", + "Dsmall", + "Esmall", + "Fsmall", + "Gsmall", + "Hsmall", + "Ismall", + "Jsmall", + "Ksmall", + "Lsmall", + "Msmall", + "Nsmall", + "Osmall", + "Psmall", + "Qsmall", + "Rsmall", + "Ssmall", + "Tsmall", + "Usmall", + "Vsmall", + "Wsmall", + "Xsmall", + "Ysmall", + "Zsmall", + "colonmonetary", + "onefitted", + "rupiah", + "Tildesmall", + "exclamdownsmall", + "centoldstyle", + "Lslashsmall", + "Scaronsmall", + "Zcaronsmall", + "Dieresissmall", + "Brevesmall", + "Caronsmall", + "Dotaccentsmall", + "Macronsmall", + "figuredash", + "hypheninferior", + "Ogoneksmall", + "Ringsmall", + "Cedillasmall", + "questiondownsmall", + "oneeighth", + "threeeighths", + "fiveeighths", + "seveneighths", + "onethird", + "twothirds", + "zerosuperior", + "foursuperior", + "fivesuperior", + "sixsuperior", + "sevensuperior", + "eightsuperior", + "ninesuperior", + "zeroinferior", + "oneinferior", + "twoinferior", + "threeinferior", + "fourinferior", + "fiveinferior", + "sixinferior", + "seveninferior", + "eightinferior", + "nineinferior", + "centinferior", + "dollarinferior", + "periodinferior", + "commainferior", + "Agravesmall", + "Aacutesmall", + "Acircumflexsmall", + "Atildesmall", + "Adieresissmall", + "Aringsmall", + "AEsmall", + "Ccedillasmall", + "Egravesmall", + "Eacutesmall", + "Ecircumflexsmall", + "Edieresissmall", + "Igravesmall", + "Iacutesmall", + "Icircumflexsmall", + "Idieresissmall", + "Ethsmall", + "Ntildesmall", + "Ogravesmall", + "Oacutesmall", + "Ocircumflexsmall", + "Otildesmall", + "Odieresissmall", + "OEsmall", + "Oslashsmall", + "Ugravesmall", + "Uacutesmall", + "Ucircumflexsmall", + "Udieresissmall", + "Yacutesmall", + "Thornsmall", + "Ydieresissmall", + "001.000", + "001.001", + "001.002", + "001.003", + "Black", + "Bold", + "Book", + "Light", + "Medium", + "Regular", + "Roman", + "Semibold" +}; + +static Gushort type1CISOAdobeCharset[229] = { + 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, + 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, + 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, + 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, + 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, + 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, + 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, + 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, + 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, + 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, + 100, 101, 102, 103, 104, 105, 106, 107, 108, 109, + 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, + 120, 121, 122, 123, 124, 125, 126, 127, 128, 129, + 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, + 140, 141, 142, 143, 144, 145, 146, 147, 148, 149, + 150, 151, 152, 153, 154, 155, 156, 157, 158, 159, + 160, 161, 162, 163, 164, 165, 166, 167, 168, 169, + 170, 171, 172, 173, 174, 175, 176, 177, 178, 179, + 180, 181, 182, 183, 184, 185, 186, 187, 188, 189, + 190, 191, 192, 193, 194, 195, 196, 197, 198, 199, + 200, 201, 202, 203, 204, 205, 206, 207, 208, 209, + 210, 211, 212, 213, 214, 215, 216, 217, 218, 219, + 220, 221, 222, 223, 224, 225, 226, 227, 228 +}; + +static Gushort type1CExpertCharset[166] = { + 0, 1, 229, 230, 231, 232, 233, 234, 235, 236, + 237, 238, 13, 14, 15, 99, 239, 240, 241, 242, + 243, 244, 245, 246, 247, 248, 27, 28, 249, 250, + 251, 252, 253, 254, 255, 256, 257, 258, 259, 260, + 261, 262, 263, 264, 265, 266, 109, 110, 267, 268, + 269, 270, 271, 272, 273, 274, 275, 276, 277, 278, + 279, 280, 281, 282, 283, 284, 285, 286, 287, 288, + 289, 290, 291, 292, 293, 294, 295, 296, 297, 298, + 299, 300, 301, 302, 303, 304, 305, 306, 307, 308, + 309, 310, 311, 312, 313, 314, 315, 316, 317, 318, + 158, 155, 163, 319, 320, 321, 322, 323, 324, 325, + 326, 150, 164, 169, 327, 328, 329, 330, 331, 332, + 333, 334, 335, 336, 337, 338, 339, 340, 341, 342, + 343, 344, 345, 346, 347, 348, 349, 350, 351, 352, + 353, 354, 355, 356, 357, 358, 359, 360, 361, 362, + 363, 364, 365, 366, 367, 368, 369, 370, 371, 372, + 373, 374, 375, 376, 377, 378 +}; + +static Gushort type1CExpertSubsetCharset[87] = { + 0, 1, 231, 232, 235, 236, 237, 238, 13, 14, + 15, 99, 239, 240, 241, 242, 243, 244, 245, 246, + 247, 248, 27, 28, 249, 250, 251, 253, 254, 255, + 256, 257, 258, 259, 260, 261, 262, 263, 264, 265, + 266, 109, 110, 267, 268, 269, 270, 272, 300, 301, + 302, 305, 314, 315, 158, 155, 163, 320, 321, 322, + 323, 324, 325, 326, 150, 164, 169, 327, 328, 329, + 330, 331, 332, 333, 334, 335, 336, 337, 338, 339, + 340, 341, 342, 343, 344, 345, 346 +}; + +#endif diff --git a/kpdf/xpdf/xpdf/Decrypt.cc b/kpdf/xpdf/xpdf/Decrypt.cc new file mode 100644 index 00000000..51e56fb1 --- /dev/null +++ b/kpdf/xpdf/xpdf/Decrypt.cc @@ -0,0 +1,776 @@ +//======================================================================== +// +// Decrypt.cc +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include "gmem.h" +#include "Decrypt.h" + +static void rc4InitKey(Guchar *key, int keyLen, Guchar *state); +static Guchar rc4DecryptByte(Guchar *state, Guchar *x, Guchar *y, Guchar c); +static void aesKeyExpansion(DecryptAESState *s, + Guchar *objKey, int objKeyLen); +static void aesDecryptBlock(DecryptAESState *s, Guchar *in, GBool last); +static void md5(Guchar *msg, int msgLen, Guchar *digest); + +static Guchar passwordPad[32] = { + 0x28, 0xbf, 0x4e, 0x5e, 0x4e, 0x75, 0x8a, 0x41, + 0x64, 0x00, 0x4e, 0x56, 0xff, 0xfa, 0x01, 0x08, + 0x2e, 0x2e, 0x00, 0xb6, 0xd0, 0x68, 0x3e, 0x80, + 0x2f, 0x0c, 0xa9, 0xfe, 0x64, 0x53, 0x69, 0x7a +}; + +//------------------------------------------------------------------------ +// Decrypt +//------------------------------------------------------------------------ + +GBool Decrypt::makeFileKey(int encVersion, int encRevision, int keyLength, + GString *ownerKey, GString *userKey, + int permissions, GString *fileID, + GString *ownerPassword, GString *userPassword, + Guchar *fileKey, GBool encryptMetadata, + GBool *ownerPasswordOk) { + Guchar test[32], test2[32]; + GString *userPassword2; + Guchar fState[256]; + Guchar tmpKey[16]; + Guchar fx, fy; + int len, i, j; + + // try using the supplied owner password to generate the user password + *ownerPasswordOk = gFalse; + if (ownerPassword) { + len = ownerPassword->getLength(); + if (len < 32) { + memcpy(test, ownerPassword->getCString(), len); + memcpy(test + len, passwordPad, 32 - len); + } else { + memcpy(test, ownerPassword->getCString(), 32); + } + md5(test, 32, test); + if (encRevision == 3) { + for (i = 0; i < 50; ++i) { + md5(test, 16, test); + } + } + if (encRevision == 2) { + rc4InitKey(test, keyLength, fState); + fx = fy = 0; + for (i = 0; i < 32; ++i) { + test2[i] = rc4DecryptByte(fState, &fx, &fy, ownerKey->getChar(i)); + } + } else { + memcpy(test2, ownerKey->getCString(), 32); + for (i = 19; i >= 0; --i) { + for (j = 0; j < keyLength; ++j) { + tmpKey[j] = test[j] ^ i; + } + rc4InitKey(tmpKey, keyLength, fState); + fx = fy = 0; + for (j = 0; j < 32; ++j) { + test2[j] = rc4DecryptByte(fState, &fx, &fy, test2[j]); + } + } + } + userPassword2 = new GString((char *)test2, 32); + if (makeFileKey2(encVersion, encRevision, keyLength, ownerKey, userKey, + permissions, fileID, userPassword2, fileKey, + encryptMetadata)) { + *ownerPasswordOk = gTrue; + delete userPassword2; + return gTrue; + } + delete userPassword2; + } + + // try using the supplied user password + return makeFileKey2(encVersion, encRevision, keyLength, ownerKey, userKey, + permissions, fileID, userPassword, fileKey, + encryptMetadata); +} + +GBool Decrypt::makeFileKey2(int /*encVersion*/, int encRevision, int keyLength, + GString *ownerKey, GString *userKey, + int permissions, GString *fileID, + GString *userPassword, Guchar *fileKey, + GBool encryptMetadata) { + Guchar *buf; + Guchar test[32]; + Guchar fState[256]; + Guchar tmpKey[16]; + Guchar fx, fy; + int len, i, j; + GBool ok; + + // generate file key + buf = (Guchar *)gmalloc(72 + fileID->getLength()); + if (userPassword) { + len = userPassword->getLength(); + if (len < 32) { + memcpy(buf, userPassword->getCString(), len); + memcpy(buf + len, passwordPad, 32 - len); + } else { + memcpy(buf, userPassword->getCString(), 32); + } + } else { + memcpy(buf, passwordPad, 32); + } + memcpy(buf + 32, ownerKey->getCString(), 32); + buf[64] = permissions & 0xff; + buf[65] = (permissions >> 8) & 0xff; + buf[66] = (permissions >> 16) & 0xff; + buf[67] = (permissions >> 24) & 0xff; + memcpy(buf + 68, fileID->getCString(), fileID->getLength()); + len = 68 + fileID->getLength(); + if (!encryptMetadata) { + buf[len++] = 0xff; + buf[len++] = 0xff; + buf[len++] = 0xff; + buf[len++] = 0xff; + } + md5(buf, len, fileKey); + if (encRevision == 3) { + for (i = 0; i < 50; ++i) { + md5(fileKey, keyLength, fileKey); + } + } + + // test user password + if (encRevision == 2) { + rc4InitKey(fileKey, keyLength, fState); + fx = fy = 0; + for (i = 0; i < 32; ++i) { + test[i] = rc4DecryptByte(fState, &fx, &fy, userKey->getChar(i)); + } + ok = memcmp(test, passwordPad, 32) == 0; + } else if (encRevision == 3) { + memcpy(test, userKey->getCString(), 32); + for (i = 19; i >= 0; --i) { + for (j = 0; j < keyLength; ++j) { + tmpKey[j] = fileKey[j] ^ i; + } + rc4InitKey(tmpKey, keyLength, fState); + fx = fy = 0; + for (j = 0; j < 32; ++j) { + test[j] = rc4DecryptByte(fState, &fx, &fy, test[j]); + } + } + memcpy(buf, passwordPad, 32); + memcpy(buf + 32, fileID->getCString(), fileID->getLength()); + md5(buf, 32 + fileID->getLength(), buf); + ok = memcmp(test, buf, 16) == 0; + } else { + ok = gFalse; + } + + gfree(buf); + return ok; +} + +//------------------------------------------------------------------------ +// DecryptStream +//------------------------------------------------------------------------ + +DecryptStream::DecryptStream(Stream *strA, Guchar *fileKey, + CryptAlgorithm algoA, int keyLength, + int objNum, int objGen): + FilterStream(strA) +{ + int n, i; + + algo = algoA; + + // construct object key + for (i = 0; i < keyLength; ++i) { + objKey[i] = fileKey[i]; + } + objKey[keyLength] = objNum & 0xff; + objKey[keyLength + 1] = (objNum >> 8) & 0xff; + objKey[keyLength + 2] = (objNum >> 16) & 0xff; + objKey[keyLength + 3] = objGen & 0xff; + objKey[keyLength + 4] = (objGen >> 8) & 0xff; + if (algo == cryptAES) { + objKey[keyLength + 5] = 0x73; // 's' + objKey[keyLength + 6] = 0x41; // 'A' + objKey[keyLength + 7] = 0x6c; // 'l' + objKey[keyLength + 8] = 0x54; // 'T' + n = keyLength + 9; + } else { + n = keyLength + 5; + } + md5(objKey, n, objKey); + if ((objKeyLength = keyLength + 5) > 16) { + objKeyLength = 16; + } +} + +DecryptStream::~DecryptStream() { + delete str; +} + +void DecryptStream::reset() { + int i; + + str->reset(); + switch (algo) { + case cryptRC4: + state.rc4.x = state.rc4.y = 0; + rc4InitKey(objKey, objKeyLength, state.rc4.state); + state.rc4.buf = EOF; + break; + case cryptAES: + aesKeyExpansion(&state.aes, objKey, objKeyLength); + for (i = 0; i < 16; ++i) { + state.aes.cbc[i] = str->getChar(); + } + state.aes.bufIdx = 16; + break; + } +} + +int DecryptStream::getChar() { + Guchar in[16]; + int c, i; + + c = EOF; // make gcc happy + switch (algo) { + case cryptRC4: + if (state.rc4.buf == EOF) { + c = str->getChar(); + if (c != EOF) { + state.rc4.buf = rc4DecryptByte(state.rc4.state, &state.rc4.x, + &state.rc4.y, (Guchar)c); + } + } + c = state.rc4.buf; + state.rc4.buf = EOF; + break; + case cryptAES: + if (state.aes.bufIdx == 16) { + for (i = 0; i < 16; ++i) { + if ((c = str->getChar()) == EOF) { + return EOF; + } + in[i] = (Guchar)c; + } + aesDecryptBlock(&state.aes, in, str->lookChar() == EOF); + } + if (state.aes.bufIdx == 16) { + c = EOF; + } else { + c = state.aes.buf[state.aes.bufIdx++]; + } + break; + } + return c; +} + +int DecryptStream::lookChar() { + Guchar in[16]; + int c, i; + + c = EOF; // make gcc happy + switch (algo) { + case cryptRC4: + if (state.rc4.buf == EOF) { + c = str->getChar(); + if (c != EOF) { + state.rc4.buf = rc4DecryptByte(state.rc4.state, &state.rc4.x, + &state.rc4.y, (Guchar)c); + } + } + c = state.rc4.buf; + break; + case cryptAES: + if (state.aes.bufIdx == 16) { + for (i = 0; i < 16; ++i) { + if ((c = str->getChar()) == EOF) { + return EOF; + } + in[i] = c; + } + aesDecryptBlock(&state.aes, in, str->lookChar() == EOF); + } + if (state.aes.bufIdx == 16) { + c = EOF; + } else { + c = state.aes.buf[state.aes.bufIdx]; + } + break; + } + return c; +} + +GBool DecryptStream::isBinary(GBool last) { + return str->isBinary(last); +} + +//------------------------------------------------------------------------ +// RC4-compatible decryption +//------------------------------------------------------------------------ + +static void rc4InitKey(Guchar *key, int keyLen, Guchar *state) { + Guchar index1, index2; + Guchar t; + int i; + + for (i = 0; i < 256; ++i) + state[i] = i; + index1 = index2 = 0; + for (i = 0; i < 256; ++i) { + index2 = (key[index1] + state[i] + index2) % 256; + t = state[i]; + state[i] = state[index2]; + state[index2] = t; + index1 = (index1 + 1) % keyLen; + } +} + +static Guchar rc4DecryptByte(Guchar *state, Guchar *x, Guchar *y, Guchar c) { + Guchar x1, y1, tx, ty; + + x1 = *x = (*x + 1) % 256; + y1 = *y = (state[*x] + *y) % 256; + tx = state[x1]; + ty = state[y1]; + state[x1] = ty; + state[y1] = tx; + return c ^ state[(tx + ty) % 256]; +} + +//------------------------------------------------------------------------ +// AES decryption +//------------------------------------------------------------------------ + +static Guchar sbox[256] = { + 0x63, 0x7c, 0x77, 0x7b, 0xf2, 0x6b, 0x6f, 0xc5, 0x30, 0x01, 0x67, 0x2b, 0xfe, 0xd7, 0xab, 0x76, + 0xca, 0x82, 0xc9, 0x7d, 0xfa, 0x59, 0x47, 0xf0, 0xad, 0xd4, 0xa2, 0xaf, 0x9c, 0xa4, 0x72, 0xc0, + 0xb7, 0xfd, 0x93, 0x26, 0x36, 0x3f, 0xf7, 0xcc, 0x34, 0xa5, 0xe5, 0xf1, 0x71, 0xd8, 0x31, 0x15, + 0x04, 0xc7, 0x23, 0xc3, 0x18, 0x96, 0x05, 0x9a, 0x07, 0x12, 0x80, 0xe2, 0xeb, 0x27, 0xb2, 0x75, + 0x09, 0x83, 0x2c, 0x1a, 0x1b, 0x6e, 0x5a, 0xa0, 0x52, 0x3b, 0xd6, 0xb3, 0x29, 0xe3, 0x2f, 0x84, + 0x53, 0xd1, 0x00, 0xed, 0x20, 0xfc, 0xb1, 0x5b, 0x6a, 0xcb, 0xbe, 0x39, 0x4a, 0x4c, 0x58, 0xcf, + 0xd0, 0xef, 0xaa, 0xfb, 0x43, 0x4d, 0x33, 0x85, 0x45, 0xf9, 0x02, 0x7f, 0x50, 0x3c, 0x9f, 0xa8, + 0x51, 0xa3, 0x40, 0x8f, 0x92, 0x9d, 0x38, 0xf5, 0xbc, 0xb6, 0xda, 0x21, 0x10, 0xff, 0xf3, 0xd2, + 0xcd, 0x0c, 0x13, 0xec, 0x5f, 0x97, 0x44, 0x17, 0xc4, 0xa7, 0x7e, 0x3d, 0x64, 0x5d, 0x19, 0x73, + 0x60, 0x81, 0x4f, 0xdc, 0x22, 0x2a, 0x90, 0x88, 0x46, 0xee, 0xb8, 0x14, 0xde, 0x5e, 0x0b, 0xdb, + 0xe0, 0x32, 0x3a, 0x0a, 0x49, 0x06, 0x24, 0x5c, 0xc2, 0xd3, 0xac, 0x62, 0x91, 0x95, 0xe4, 0x79, + 0xe7, 0xc8, 0x37, 0x6d, 0x8d, 0xd5, 0x4e, 0xa9, 0x6c, 0x56, 0xf4, 0xea, 0x65, 0x7a, 0xae, 0x08, + 0xba, 0x78, 0x25, 0x2e, 0x1c, 0xa6, 0xb4, 0xc6, 0xe8, 0xdd, 0x74, 0x1f, 0x4b, 0xbd, 0x8b, 0x8a, + 0x70, 0x3e, 0xb5, 0x66, 0x48, 0x03, 0xf6, 0x0e, 0x61, 0x35, 0x57, 0xb9, 0x86, 0xc1, 0x1d, 0x9e, + 0xe1, 0xf8, 0x98, 0x11, 0x69, 0xd9, 0x8e, 0x94, 0x9b, 0x1e, 0x87, 0xe9, 0xce, 0x55, 0x28, 0xdf, + 0x8c, 0xa1, 0x89, 0x0d, 0xbf, 0xe6, 0x42, 0x68, 0x41, 0x99, 0x2d, 0x0f, 0xb0, 0x54, 0xbb, 0x16 +}; + +static Guchar invSbox[256] = { + 0x52, 0x09, 0x6a, 0xd5, 0x30, 0x36, 0xa5, 0x38, 0xbf, 0x40, 0xa3, 0x9e, 0x81, 0xf3, 0xd7, 0xfb, + 0x7c, 0xe3, 0x39, 0x82, 0x9b, 0x2f, 0xff, 0x87, 0x34, 0x8e, 0x43, 0x44, 0xc4, 0xde, 0xe9, 0xcb, + 0x54, 0x7b, 0x94, 0x32, 0xa6, 0xc2, 0x23, 0x3d, 0xee, 0x4c, 0x95, 0x0b, 0x42, 0xfa, 0xc3, 0x4e, + 0x08, 0x2e, 0xa1, 0x66, 0x28, 0xd9, 0x24, 0xb2, 0x76, 0x5b, 0xa2, 0x49, 0x6d, 0x8b, 0xd1, 0x25, + 0x72, 0xf8, 0xf6, 0x64, 0x86, 0x68, 0x98, 0x16, 0xd4, 0xa4, 0x5c, 0xcc, 0x5d, 0x65, 0xb6, 0x92, + 0x6c, 0x70, 0x48, 0x50, 0xfd, 0xed, 0xb9, 0xda, 0x5e, 0x15, 0x46, 0x57, 0xa7, 0x8d, 0x9d, 0x84, + 0x90, 0xd8, 0xab, 0x00, 0x8c, 0xbc, 0xd3, 0x0a, 0xf7, 0xe4, 0x58, 0x05, 0xb8, 0xb3, 0x45, 0x06, + 0xd0, 0x2c, 0x1e, 0x8f, 0xca, 0x3f, 0x0f, 0x02, 0xc1, 0xaf, 0xbd, 0x03, 0x01, 0x13, 0x8a, 0x6b, + 0x3a, 0x91, 0x11, 0x41, 0x4f, 0x67, 0xdc, 0xea, 0x97, 0xf2, 0xcf, 0xce, 0xf0, 0xb4, 0xe6, 0x73, + 0x96, 0xac, 0x74, 0x22, 0xe7, 0xad, 0x35, 0x85, 0xe2, 0xf9, 0x37, 0xe8, 0x1c, 0x75, 0xdf, 0x6e, + 0x47, 0xf1, 0x1a, 0x71, 0x1d, 0x29, 0xc5, 0x89, 0x6f, 0xb7, 0x62, 0x0e, 0xaa, 0x18, 0xbe, 0x1b, + 0xfc, 0x56, 0x3e, 0x4b, 0xc6, 0xd2, 0x79, 0x20, 0x9a, 0xdb, 0xc0, 0xfe, 0x78, 0xcd, 0x5a, 0xf4, + 0x1f, 0xdd, 0xa8, 0x33, 0x88, 0x07, 0xc7, 0x31, 0xb1, 0x12, 0x10, 0x59, 0x27, 0x80, 0xec, 0x5f, + 0x60, 0x51, 0x7f, 0xa9, 0x19, 0xb5, 0x4a, 0x0d, 0x2d, 0xe5, 0x7a, 0x9f, 0x93, 0xc9, 0x9c, 0xef, + 0xa0, 0xe0, 0x3b, 0x4d, 0xae, 0x2a, 0xf5, 0xb0, 0xc8, 0xeb, 0xbb, 0x3c, 0x83, 0x53, 0x99, 0x61, + 0x17, 0x2b, 0x04, 0x7e, 0xba, 0x77, 0xd6, 0x26, 0xe1, 0x69, 0x14, 0x63, 0x55, 0x21, 0x0c, 0x7d +}; + +static Guint rcon[11] = { + 0x00000000, // unused + 0x01000000, + 0x02000000, + 0x04000000, + 0x08000000, + 0x10000000, + 0x20000000, + 0x40000000, + 0x80000000, + 0x1b000000, + 0x36000000 +}; + +static inline Guint subWord(Guint x) { + return (sbox[x >> 24] << 24) + | (sbox[(x >> 16) & 0xff] << 16) + | (sbox[(x >> 8) & 0xff] << 8) + | sbox[x & 0xff]; +} + +static inline Guint rotWord(Guint x) { + return ((x << 8) & 0xffffffff) | (x >> 24); +} + +static inline void invSubBytes(Guchar *state) { + int i; + + for (i = 0; i < 16; ++i) { + state[i] = invSbox[state[i]]; + } +} + +static inline void invShiftRows(Guchar *state) { + Guchar t; + + t = state[7]; + state[7] = state[6]; + state[6] = state[5]; + state[5] = state[4]; + state[4] = t; + + t = state[8]; + state[8] = state[10]; + state[10] = t; + t = state[9]; + state[9] = state[11]; + state[11] = t; + + t = state[12]; + state[12] = state[13]; + state[13] = state[14]; + state[14] = state[15]; + state[15] = t; +} + +// {09} \cdot s +static inline Guchar mul09(Guchar s) { + Guchar s2, s4, s8; + + s2 = (s & 0x80) ? ((s << 1) ^ 0x1b) : (s << 1); + s4 = (s2 & 0x80) ? ((s2 << 1) ^ 0x1b) : (s2 << 1); + s8 = (s4 & 0x80) ? ((s4 << 1) ^ 0x1b) : (s4 << 1); + return s ^ s8; +} + +// {0b} \cdot s +static inline Guchar mul0b(Guchar s) { + Guchar s2, s4, s8; + + s2 = (s & 0x80) ? ((s << 1) ^ 0x1b) : (s << 1); + s4 = (s2 & 0x80) ? ((s2 << 1) ^ 0x1b) : (s2 << 1); + s8 = (s4 & 0x80) ? ((s4 << 1) ^ 0x1b) : (s4 << 1); + return s ^ s2 ^ s8; +} + +// {0d} \cdot s +static inline Guchar mul0d(Guchar s) { + Guchar s2, s4, s8; + + s2 = (s & 0x80) ? ((s << 1) ^ 0x1b) : (s << 1); + s4 = (s2 & 0x80) ? ((s2 << 1) ^ 0x1b) : (s2 << 1); + s8 = (s4 & 0x80) ? ((s4 << 1) ^ 0x1b) : (s4 << 1); + return s ^ s4 ^ s8; +} + +// {0e} \cdot s +static inline Guchar mul0e(Guchar s) { + Guchar s2, s4, s8; + + s2 = (s & 0x80) ? ((s << 1) ^ 0x1b) : (s << 1); + s4 = (s2 & 0x80) ? ((s2 << 1) ^ 0x1b) : (s2 << 1); + s8 = (s4 & 0x80) ? ((s4 << 1) ^ 0x1b) : (s4 << 1); + return s2 ^ s4 ^ s8; +} + +static inline void invMixColumns(Guchar *state) { + int c; + Guchar s0, s1, s2, s3; + + for (c = 0; c < 4; ++c) { + s0 = state[c]; + s1 = state[4+c]; + s2 = state[8+c]; + s3 = state[12+c]; + state[c] = mul0e(s0) ^ mul0b(s1) ^ mul0d(s2) ^ mul09(s3); + state[4+c] = mul09(s0) ^ mul0e(s1) ^ mul0b(s2) ^ mul0d(s3); + state[8+c] = mul0d(s0) ^ mul09(s1) ^ mul0e(s2) ^ mul0b(s3); + state[12+c] = mul0b(s0) ^ mul0d(s1) ^ mul09(s2) ^ mul0e(s3); + } +} + +static inline void invMixColumnsW(Guint *w) { + int c; + Guchar s0, s1, s2, s3; + + for (c = 0; c < 4; ++c) { + s0 = w[c] >> 24; + s1 = w[c] >> 16; + s2 = w[c] >> 8; + s3 = w[c]; + w[c] = ((mul0e(s0) ^ mul0b(s1) ^ mul0d(s2) ^ mul09(s3)) << 24) + | ((mul09(s0) ^ mul0e(s1) ^ mul0b(s2) ^ mul0d(s3)) << 16) + | ((mul0d(s0) ^ mul09(s1) ^ mul0e(s2) ^ mul0b(s3)) << 8) + | (mul0b(s0) ^ mul0d(s1) ^ mul09(s2) ^ mul0e(s3)); + } +} + +static inline void addRoundKey(Guchar *state, Guint *w) { + int c; + + for (c = 0; c < 4; ++c) { + state[c] ^= w[c] >> 24; + state[4+c] ^= w[c] >> 16; + state[8+c] ^= w[c] >> 8; + state[12+c] ^= w[c]; + } +} + +static void aesKeyExpansion(DecryptAESState *s, + Guchar *objKey, int /*objKeyLen*/) { + Guint temp; + int i, round; + + //~ this assumes objKeyLen == 16 + + for (i = 0; i < 4; ++i) { + s->w[i] = (objKey[4*i] << 24) + (objKey[4*i+1] << 16) + + (objKey[4*i+2] << 8) + objKey[4*i+3]; + } + for (i = 4; i < 44; ++i) { + temp = s->w[i-1]; + if (!(i & 3)) { + temp = subWord(rotWord(temp)) ^ rcon[i/4]; + } + s->w[i] = s->w[i-4] ^ temp; + } + for (round = 1; round <= 9; ++round) { + invMixColumnsW(&s->w[round * 4]); + } +} + +static void aesDecryptBlock(DecryptAESState *s, Guchar *in, GBool last) { + int c, round, n, i; + + // initial state + for (c = 0; c < 4; ++c) { + s->state[c] = in[4*c]; + s->state[4+c] = in[4*c+1]; + s->state[8+c] = in[4*c+2]; + s->state[12+c] = in[4*c+3]; + } + + // round 0 + addRoundKey(s->state, &s->w[10 * 4]); + + // rounds 1-9 + for (round = 9; round >= 1; --round) { + invSubBytes(s->state); + invShiftRows(s->state); + invMixColumns(s->state); + addRoundKey(s->state, &s->w[round * 4]); + } + + // round 10 + invSubBytes(s->state); + invShiftRows(s->state); + addRoundKey(s->state, &s->w[0]); + + // CBC + for (c = 0; c < 4; ++c) { + s->buf[4*c] = s->state[c] ^ s->cbc[4*c]; + s->buf[4*c+1] = s->state[4+c] ^ s->cbc[4*c+1]; + s->buf[4*c+2] = s->state[8+c] ^ s->cbc[4*c+2]; + s->buf[4*c+3] = s->state[12+c] ^ s->cbc[4*c+3]; + } + + // save the input block for the next CBC + for (i = 0; i < 16; ++i) { + s->cbc[i] = in[i]; + } + + // remove padding + s->bufIdx = 0; + if (last) { + n = s->buf[15]; + for (i = 15; i >= n; --i) { + s->buf[i] = s->buf[i-n]; + } + s->bufIdx = n; + } +} + +//------------------------------------------------------------------------ +// MD5 message digest +//------------------------------------------------------------------------ + +// this works around a bug in older Sun compilers +static inline Gulong rotateLeft(Gulong x, int r) { + x &= 0xffffffff; + return ((x << r) | (x >> (32 - r))) & 0xffffffff; +} + +static inline Gulong md5Round1(Gulong a, Gulong b, Gulong c, Gulong d, + Gulong Xk, Gulong s, Gulong Ti) { + return b + rotateLeft((a + ((b & c) | (~b & d)) + Xk + Ti), s); +} + +static inline Gulong md5Round2(Gulong a, Gulong b, Gulong c, Gulong d, + Gulong Xk, Gulong s, Gulong Ti) { + return b + rotateLeft((a + ((b & d) | (c & ~d)) + Xk + Ti), s); +} + +static inline Gulong md5Round3(Gulong a, Gulong b, Gulong c, Gulong d, + Gulong Xk, Gulong s, Gulong Ti) { + return b + rotateLeft((a + (b ^ c ^ d) + Xk + Ti), s); +} + +static inline Gulong md5Round4(Gulong a, Gulong b, Gulong c, Gulong d, + Gulong Xk, Gulong s, Gulong Ti) { + return b + rotateLeft((a + (c ^ (b | ~d)) + Xk + Ti), s); +} + +static void md5(Guchar *msg, int msgLen, Guchar *digest) { + Gulong x[16]; + Gulong a, b, c, d, aa, bb, cc, dd; + int n64; + int i, j, k; + + // compute number of 64-byte blocks + // (length + pad byte (0x80) + 8 bytes for length) + n64 = (msgLen + 1 + 8 + 63) / 64; + + // initialize a, b, c, d + a = 0x67452301; + b = 0xefcdab89; + c = 0x98badcfe; + d = 0x10325476; + + // loop through blocks + k = 0; + for (i = 0; i < n64; ++i) { + + // grab a 64-byte block + for (j = 0; j < 16 && k < msgLen - 3; ++j, k += 4) + x[j] = (((((msg[k+3] << 8) + msg[k+2]) << 8) + msg[k+1]) << 8) + msg[k]; + if (i == n64 - 1) { + if (k == msgLen - 3) + x[j] = 0x80000000 + (((msg[k+2] << 8) + msg[k+1]) << 8) + msg[k]; + else if (k == msgLen - 2) + x[j] = 0x800000 + (msg[k+1] << 8) + msg[k]; + else if (k == msgLen - 1) + x[j] = 0x8000 + msg[k]; + else + x[j] = 0x80; + ++j; + while (j < 16) + x[j++] = 0; + x[14] = msgLen << 3; + } + + // save a, b, c, d + aa = a; + bb = b; + cc = c; + dd = d; + + // round 1 + a = md5Round1(a, b, c, d, x[0], 7, 0xd76aa478); + d = md5Round1(d, a, b, c, x[1], 12, 0xe8c7b756); + c = md5Round1(c, d, a, b, x[2], 17, 0x242070db); + b = md5Round1(b, c, d, a, x[3], 22, 0xc1bdceee); + a = md5Round1(a, b, c, d, x[4], 7, 0xf57c0faf); + d = md5Round1(d, a, b, c, x[5], 12, 0x4787c62a); + c = md5Round1(c, d, a, b, x[6], 17, 0xa8304613); + b = md5Round1(b, c, d, a, x[7], 22, 0xfd469501); + a = md5Round1(a, b, c, d, x[8], 7, 0x698098d8); + d = md5Round1(d, a, b, c, x[9], 12, 0x8b44f7af); + c = md5Round1(c, d, a, b, x[10], 17, 0xffff5bb1); + b = md5Round1(b, c, d, a, x[11], 22, 0x895cd7be); + a = md5Round1(a, b, c, d, x[12], 7, 0x6b901122); + d = md5Round1(d, a, b, c, x[13], 12, 0xfd987193); + c = md5Round1(c, d, a, b, x[14], 17, 0xa679438e); + b = md5Round1(b, c, d, a, x[15], 22, 0x49b40821); + + // round 2 + a = md5Round2(a, b, c, d, x[1], 5, 0xf61e2562); + d = md5Round2(d, a, b, c, x[6], 9, 0xc040b340); + c = md5Round2(c, d, a, b, x[11], 14, 0x265e5a51); + b = md5Round2(b, c, d, a, x[0], 20, 0xe9b6c7aa); + a = md5Round2(a, b, c, d, x[5], 5, 0xd62f105d); + d = md5Round2(d, a, b, c, x[10], 9, 0x02441453); + c = md5Round2(c, d, a, b, x[15], 14, 0xd8a1e681); + b = md5Round2(b, c, d, a, x[4], 20, 0xe7d3fbc8); + a = md5Round2(a, b, c, d, x[9], 5, 0x21e1cde6); + d = md5Round2(d, a, b, c, x[14], 9, 0xc33707d6); + c = md5Round2(c, d, a, b, x[3], 14, 0xf4d50d87); + b = md5Round2(b, c, d, a, x[8], 20, 0x455a14ed); + a = md5Round2(a, b, c, d, x[13], 5, 0xa9e3e905); + d = md5Round2(d, a, b, c, x[2], 9, 0xfcefa3f8); + c = md5Round2(c, d, a, b, x[7], 14, 0x676f02d9); + b = md5Round2(b, c, d, a, x[12], 20, 0x8d2a4c8a); + + // round 3 + a = md5Round3(a, b, c, d, x[5], 4, 0xfffa3942); + d = md5Round3(d, a, b, c, x[8], 11, 0x8771f681); + c = md5Round3(c, d, a, b, x[11], 16, 0x6d9d6122); + b = md5Round3(b, c, d, a, x[14], 23, 0xfde5380c); + a = md5Round3(a, b, c, d, x[1], 4, 0xa4beea44); + d = md5Round3(d, a, b, c, x[4], 11, 0x4bdecfa9); + c = md5Round3(c, d, a, b, x[7], 16, 0xf6bb4b60); + b = md5Round3(b, c, d, a, x[10], 23, 0xbebfbc70); + a = md5Round3(a, b, c, d, x[13], 4, 0x289b7ec6); + d = md5Round3(d, a, b, c, x[0], 11, 0xeaa127fa); + c = md5Round3(c, d, a, b, x[3], 16, 0xd4ef3085); + b = md5Round3(b, c, d, a, x[6], 23, 0x04881d05); + a = md5Round3(a, b, c, d, x[9], 4, 0xd9d4d039); + d = md5Round3(d, a, b, c, x[12], 11, 0xe6db99e5); + c = md5Round3(c, d, a, b, x[15], 16, 0x1fa27cf8); + b = md5Round3(b, c, d, a, x[2], 23, 0xc4ac5665); + + // round 4 + a = md5Round4(a, b, c, d, x[0], 6, 0xf4292244); + d = md5Round4(d, a, b, c, x[7], 10, 0x432aff97); + c = md5Round4(c, d, a, b, x[14], 15, 0xab9423a7); + b = md5Round4(b, c, d, a, x[5], 21, 0xfc93a039); + a = md5Round4(a, b, c, d, x[12], 6, 0x655b59c3); + d = md5Round4(d, a, b, c, x[3], 10, 0x8f0ccc92); + c = md5Round4(c, d, a, b, x[10], 15, 0xffeff47d); + b = md5Round4(b, c, d, a, x[1], 21, 0x85845dd1); + a = md5Round4(a, b, c, d, x[8], 6, 0x6fa87e4f); + d = md5Round4(d, a, b, c, x[15], 10, 0xfe2ce6e0); + c = md5Round4(c, d, a, b, x[6], 15, 0xa3014314); + b = md5Round4(b, c, d, a, x[13], 21, 0x4e0811a1); + a = md5Round4(a, b, c, d, x[4], 6, 0xf7537e82); + d = md5Round4(d, a, b, c, x[11], 10, 0xbd3af235); + c = md5Round4(c, d, a, b, x[2], 15, 0x2ad7d2bb); + b = md5Round4(b, c, d, a, x[9], 21, 0xeb86d391); + + // increment a, b, c, d + a += aa; + b += bb; + c += cc; + d += dd; + } + + // break digest into bytes + digest[0] = (Guchar)(a & 0xff); + digest[1] = (Guchar)((a >>= 8) & 0xff); + digest[2] = (Guchar)((a >>= 8) & 0xff); + digest[3] = (Guchar)((a >>= 8) & 0xff); + digest[4] = (Guchar)(b & 0xff); + digest[5] = (Guchar)((b >>= 8) & 0xff); + digest[6] = (Guchar)((b >>= 8) & 0xff); + digest[7] = (Guchar)((b >>= 8) & 0xff); + digest[8] = (Guchar)(c & 0xff); + digest[9] = (Guchar)((c >>= 8) & 0xff); + digest[10] = (Guchar)((c >>= 8) & 0xff); + digest[11] = (Guchar)((c >>= 8) & 0xff); + digest[12] = (Guchar)(d & 0xff); + digest[13] = (Guchar)((d >>= 8) & 0xff); + digest[14] = (Guchar)((d >>= 8) & 0xff); + digest[15] = (Guchar)((d >>= 8) & 0xff); +} diff --git a/kpdf/xpdf/xpdf/Decrypt.h b/kpdf/xpdf/xpdf/Decrypt.h new file mode 100644 index 00000000..56f34b77 --- /dev/null +++ b/kpdf/xpdf/xpdf/Decrypt.h @@ -0,0 +1,95 @@ +//======================================================================== +// +// Decrypt.h +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef DECRYPT_H +#define DECRYPT_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" +#include "GString.h" +#include "Object.h" +#include "Stream.h" + +//------------------------------------------------------------------------ +// Decrypt +//------------------------------------------------------------------------ + +class Decrypt { +public: + + // Generate a file key. The buffer must have space for at + // least 16 bytes. Checks and then + // and returns true if either is correct. Sets if + // the owner password was correct. Either or both of the passwords + // may be NULL, which is treated as an empty string. + static GBool makeFileKey(int encVersion, int encRevision, int keyLength, + GString *ownerKey, GString *userKey, + int permissions, GString *fileID, + GString *ownerPassword, GString *userPassword, + Guchar *fileKey, GBool encryptMetadata, + GBool *ownerPasswordOk); + +private: + + static GBool makeFileKey2(int encVersion, int encRevision, int keyLength, + GString *ownerKey, GString *userKey, + int permissions, GString *fileID, + GString *userPassword, Guchar *fileKey, + GBool encryptMetadata); +}; + +//------------------------------------------------------------------------ +// DecryptStream +//------------------------------------------------------------------------ + +struct DecryptRC4State { + Guchar state[256]; + Guchar x, y; + int buf; +}; + +struct DecryptAESState { + Guint w[44]; + Guchar state[16]; + Guchar cbc[16]; + Guchar buf[16]; + int bufIdx; +}; + +class DecryptStream: public FilterStream { +public: + + DecryptStream(Stream *strA, Guchar *fileKey, + CryptAlgorithm algoA, int keyLength, + int objNum, int objGen); + virtual ~DecryptStream(); + virtual StreamKind getKind() { return strWeird; } + virtual void reset(); + virtual int getChar(); + virtual int lookChar(); + virtual GBool isBinary(GBool last); + virtual Stream *getUndecodedStream() { return this; } + +private: + + CryptAlgorithm algo; + int objKeyLength; + Guchar objKey[16 + 9]; + + union { + DecryptRC4State rc4; + DecryptAESState aes; + } state; +}; + +#endif diff --git a/kpdf/xpdf/xpdf/Dict.cc b/kpdf/xpdf/xpdf/Dict.cc new file mode 100644 index 00000000..dd1517f0 --- /dev/null +++ b/kpdf/xpdf/xpdf/Dict.cc @@ -0,0 +1,95 @@ +//======================================================================== +// +// Dict.cc +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include "gmem.h" +#include "Object.h" +#include "XRef.h" +#include "Dict.h" + +//------------------------------------------------------------------------ +// Dict +//------------------------------------------------------------------------ + +Dict::Dict(XRef *xrefA) { + xref = xrefA; + entries = NULL; + size = length = 0; + ref = 1; +} + +Dict::~Dict() { + int i; + + for (i = 0; i < length; ++i) { + gfree(entries[i].key); + entries[i].val.free(); + } + gfree(entries); +} + +void Dict::add(char *key, Object *val) { + if (length == size) { + if (length == 0) { + size = 8; + } else { + size *= 2; + } + entries = (DictEntry *)greallocn(entries, size, sizeof(DictEntry)); + } + entries[length].key = key; + entries[length].val = *val; + ++length; +} + +inline DictEntry *Dict::find(char *key) { + int i; + + for (i = 0; i < length; ++i) { + if (!strcmp(key, entries[i].key)) + return &entries[i]; + } + return NULL; +} + +GBool Dict::is(char *type) { + DictEntry *e; + + return (e = find("Type")) && e->val.isName(type); +} + +Object *Dict::lookup(char *key, Object *obj) { + DictEntry *e; + + return (e = find(key)) ? e->val.fetch(xref, obj) : obj->initNull(); +} + +Object *Dict::lookupNF(char *key, Object *obj) { + DictEntry *e; + + return (e = find(key)) ? e->val.copy(obj) : obj->initNull(); +} + +char *Dict::getKey(int i) { + return entries[i].key; +} + +Object *Dict::getVal(int i, Object *obj) { + return entries[i].val.fetch(xref, obj); +} + +Object *Dict::getValNF(int i, Object *obj) { + return entries[i].val.copy(obj); +} diff --git a/kpdf/xpdf/xpdf/Dict.h b/kpdf/xpdf/xpdf/Dict.h new file mode 100644 index 00000000..08f55ecd --- /dev/null +++ b/kpdf/xpdf/xpdf/Dict.h @@ -0,0 +1,77 @@ +//======================================================================== +// +// Dict.h +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef DICT_H +#define DICT_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "Object.h" + +//------------------------------------------------------------------------ +// Dict +//------------------------------------------------------------------------ + +struct DictEntry { + char *key; + Object val; +}; + +class Dict { +public: + + // Constructor. + Dict(XRef *xrefA); + + // Destructor. + ~Dict(); + + // Reference counting. + int incRef() { return ++ref; } + int decRef() { return --ref; } + + // Get number of entries. + int getLength() { return length; } + + // Add an entry. NB: does not copy key. + void add(char *key, Object *val); + + // Check if dictionary is of specified type. + GBool is(char *type); + + // Look up an entry and return the value. Returns a null object + // if is not in the dictionary. + Object *lookup(char *key, Object *obj); + Object *lookupNF(char *key, Object *obj); + + // Iterative accessors. + char *getKey(int i); + Object *getVal(int i, Object *obj); + Object *getValNF(int i, Object *obj); + + // Set the xref pointer. This is only used in one special case: the + // trailer dictionary, which is read before the xref table is + // parsed. + void setXRef(XRef *xrefA) { xref = xrefA; } + +private: + + XRef *xref; // the xref table for this PDF file + DictEntry *entries; // array of entries + int size; // size of array + int length; // number of entries in dictionary + int ref; // reference count + + DictEntry *find(char *key); +}; + +#endif diff --git a/kpdf/xpdf/xpdf/Error.h b/kpdf/xpdf/xpdf/Error.h new file mode 100644 index 00000000..c7bda4b6 --- /dev/null +++ b/kpdf/xpdf/xpdf/Error.h @@ -0,0 +1,23 @@ +//======================================================================== +// +// Error.h +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef ERROR_H +#define ERROR_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include +#include "xpdf_config.h" + +extern void CDECL error(int pos, char *msg, ...); + +#endif diff --git a/kpdf/xpdf/xpdf/ErrorCodes.h b/kpdf/xpdf/xpdf/ErrorCodes.h new file mode 100644 index 00000000..b28528df --- /dev/null +++ b/kpdf/xpdf/xpdf/ErrorCodes.h @@ -0,0 +1,36 @@ +//======================================================================== +// +// ErrorCodes.h +// +// Copyright 2002-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef ERRORCODES_H +#define ERRORCODES_H + +#define errNone 0 // no error + +#define errOpenFile 1 // couldn't open the PDF file + +#define errBadCatalog 2 // couldn't read the page catalog + +#define errDamaged 3 // PDF file was damaged and couldn't be + // repaired + +#define errEncrypted 4 // file was encrypted and password was + // incorrect or not supplied + +#define errHighlightFile 5 // nonexistent or invalid highlight file + +#define errBadPrinter 6 // invalid printer + +#define errPrinting 7 // error during printing + +#define errPermission 8 // PDF file doesn't allow that operation + +#define errBadPageNum 9 // invalid page number + +#define errFileIO 10 // file I/O error + +#endif diff --git a/kpdf/xpdf/xpdf/FontEncodingTables.cc b/kpdf/xpdf/xpdf/FontEncodingTables.cc new file mode 100644 index 00000000..f3b9280a --- /dev/null +++ b/kpdf/xpdf/xpdf/FontEncodingTables.cc @@ -0,0 +1,1824 @@ +//======================================================================== +// +// FontEncodingTables.cc +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include +#include +#include "FontEncodingTables.h" + +char *macRomanEncoding[256] = { + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + "space", + "exclam", + "quotedbl", + "numbersign", + "dollar", + "percent", + "ampersand", + "quotesingle", + "parenleft", + "parenright", + "asterisk", + "plus", + "comma", + "hyphen", + "period", + "slash", + "zero", + "one", + "two", + "three", + "four", + "five", + "six", + "seven", + "eight", + "nine", + "colon", + "semicolon", + "less", + "equal", + "greater", + "question", + "at", + "A", + "B", + "C", + "D", + "E", + "F", + "G", + "H", + "I", + "J", + "K", + "L", + "M", + "N", + "O", + "P", + "Q", + "R", + "S", + "T", + "U", + "V", + "W", + "X", + "Y", + "Z", + "bracketleft", + "backslash", + "bracketright", + "asciicircum", + "underscore", + "grave", + "a", + "b", + "c", + "d", + "e", + "f", + "g", + "h", + "i", + "j", + "k", + "l", + "m", + "n", + "o", + "p", + "q", + "r", + "s", + "t", + "u", + "v", + "w", + "x", + "y", + "z", + "braceleft", + "bar", + "braceright", + "asciitilde", + NULL, + "Adieresis", + "Aring", + "Ccedilla", + "Eacute", + "Ntilde", + "Odieresis", + "Udieresis", + "aacute", + "agrave", + "acircumflex", + "adieresis", + "atilde", + "aring", + "ccedilla", + "eacute", + "egrave", + "ecircumflex", + "edieresis", + "iacute", + "igrave", + "icircumflex", + "idieresis", + "ntilde", + "oacute", + "ograve", + "ocircumflex", + "odieresis", + "otilde", + "uacute", + "ugrave", + "ucircumflex", + "udieresis", + "dagger", + "degree", + "cent", + "sterling", + "section", + "bullet", + "paragraph", + "germandbls", + "registered", + "copyright", + "trademark", + "acute", + "dieresis", + "notequal", + "AE", + "Oslash", + "infinity", + "plusminus", + "lessequal", + "greaterequal", + "yen", + "mu", + "partialdiff", + "summation", + "product", + "pi", + "integral", + "ordfeminine", + "ordmasculine", + "Omega", + "ae", + "oslash", + "questiondown", + "exclamdown", + "logicalnot", + "radical", + "florin", + "approxequal", + "Delta", + "guillemotleft", + "guillemotright", + "ellipsis", + "space", + "Agrave", + "Atilde", + "Otilde", + "OE", + "oe", + "endash", + "emdash", + "quotedblleft", + "quotedblright", + "quoteleft", + "quoteright", + "divide", + "lozenge", + "ydieresis", + "Ydieresis", + "fraction", + "currency", + "guilsinglleft", + "guilsinglright", + "fi", + "fl", + "daggerdbl", + "periodcentered", + "quotesinglbase", + "quotedblbase", + "perthousand", + "Acircumflex", + "Ecircumflex", + "Aacute", + "Edieresis", + "Egrave", + "Iacute", + "Icircumflex", + "Idieresis", + "Igrave", + "Oacute", + "Ocircumflex", + "apple", + "Ograve", + "Uacute", + "Ucircumflex", + "Ugrave", + "dotlessi", + "circumflex", + "tilde", + "macron", + "breve", + "dotaccent", + "ring", + "cedilla", + "hungarumlaut", + "ogonek", + "caron" +}; + +char *macExpertEncoding[256] = { + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + "space", + "exclamsmall", + "Hungarumlautsmall", + "centoldstyle", + "dollaroldstyle", + "dollarsuperior", + "ampersandsmall", + "Acutesmall", + "parenleftsuperior", + "parenrightsuperior", + "twodotenleader", + "onedotenleader", + "comma", + "hyphen", + "period", + "fraction", + "zerooldstyle", + "oneoldstyle", + "twooldstyle", + "threeoldstyle", + "fouroldstyle", + "fiveoldstyle", + "sixoldstyle", + "sevenoldstyle", + "eightoldstyle", + "nineoldstyle", + "colon", + "semicolon", + NULL, + "threequartersemdash", + NULL, + "questionsmall", + NULL, + NULL, + NULL, + NULL, + "Ethsmall", + NULL, + NULL, + "onequarter", + "onehalf", + "threequarters", + "oneeighth", + "threeeighths", + "fiveeighths", + "seveneighths", + "onethird", + "twothirds", + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + "ff", + "fi", + "fl", + "ffi", + "ffl", + "parenleftinferior", + NULL, + "parenrightinferior", + "Circumflexsmall", + "hypheninferior", + "Gravesmall", + "Asmall", + "Bsmall", + "Csmall", + "Dsmall", + "Esmall", + "Fsmall", + "Gsmall", + "Hsmall", + "Ismall", + "Jsmall", + "Ksmall", + "Lsmall", + "Msmall", + "Nsmall", + "Osmall", + "Psmall", + "Qsmall", + "Rsmall", + "Ssmall", + "Tsmall", + "Usmall", + "Vsmall", + "Wsmall", + "Xsmall", + "Ysmall", + "Zsmall", + "colonmonetary", + "onefitted", + "rupiah", + "Tildesmall", + NULL, + NULL, + "asuperior", + "centsuperior", + NULL, + NULL, + NULL, + NULL, + "Aacutesmall", + "Agravesmall", + "Acircumflexsmall", + "Adieresissmall", + "Atildesmall", + "Aringsmall", + "Ccedillasmall", + "Eacutesmall", + "Egravesmall", + "Ecircumflexsmall", + "Edieresissmall", + "Iacutesmall", + "Igravesmall", + "Icircumflexsmall", + "Idieresissmall", + "Ntildesmall", + "Oacutesmall", + "Ogravesmall", + "Ocircumflexsmall", + "Odieresissmall", + "Otildesmall", + "Uacutesmall", + "Ugravesmall", + "Ucircumflexsmall", + "Udieresissmall", + NULL, + "eightsuperior", + "fourinferior", + "threeinferior", + "sixinferior", + "eightinferior", + "seveninferior", + "Scaronsmall", + NULL, + "centinferior", + "twoinferior", + NULL, + "Dieresissmall", + NULL, + "Caronsmall", + "osuperior", + "fiveinferior", + NULL, + "commainferior", + "periodinferior", + "Yacutesmall", + NULL, + "dollarinferior", + NULL, + NULL, + "Thornsmall", + NULL, + "nineinferior", + "zeroinferior", + "Zcaronsmall", + "AEsmall", + "Oslashsmall", + "questiondownsmall", + "oneinferior", + "Lslashsmall", + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + "Cedillasmall", + NULL, + NULL, + NULL, + NULL, + NULL, + "OEsmall", + "figuredash", + "hyphensuperior", + NULL, + NULL, + NULL, + NULL, + "exclamdownsmall", + NULL, + "Ydieresissmall", + NULL, + "onesuperior", + "twosuperior", + "threesuperior", + "foursuperior", + "fivesuperior", + "sixsuperior", + "sevensuperior", + "ninesuperior", + "zerosuperior", + NULL, + "esuperior", + "rsuperior", + "tsuperior", + NULL, + NULL, + "isuperior", + "ssuperior", + "dsuperior", + NULL, + NULL, + NULL, + NULL, + NULL, + "lsuperior", + "Ogoneksmall", + "Brevesmall", + "Macronsmall", + "bsuperior", + "nsuperior", + "msuperior", + "commasuperior", + "periodsuperior", + "Dotaccentsmall", + "Ringsmall", + NULL, + NULL, + NULL, + NULL +}; + +char *winAnsiEncoding[256] = { + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + "space", + "exclam", + "quotedbl", + "numbersign", + "dollar", + "percent", + "ampersand", + "quotesingle", + "parenleft", + "parenright", + "asterisk", + "plus", + "comma", + "hyphen", + "period", + "slash", + "zero", + "one", + "two", + "three", + "four", + "five", + "six", + "seven", + "eight", + "nine", + "colon", + "semicolon", + "less", + "equal", + "greater", + "question", + "at", + "A", + "B", + "C", + "D", + "E", + "F", + "G", + "H", + "I", + "J", + "K", + "L", + "M", + "N", + "O", + "P", + "Q", + "R", + "S", + "T", + "U", + "V", + "W", + "X", + "Y", + "Z", + "bracketleft", + "backslash", + "bracketright", + "asciicircum", + "underscore", + "grave", + "a", + "b", + "c", + "d", + "e", + "f", + "g", + "h", + "i", + "j", + "k", + "l", + "m", + "n", + "o", + "p", + "q", + "r", + "s", + "t", + "u", + "v", + "w", + "x", + "y", + "z", + "braceleft", + "bar", + "braceright", + "asciitilde", + "bullet", + "Euro", + "bullet", + "quotesinglbase", + "florin", + "quotedblbase", + "ellipsis", + "dagger", + "daggerdbl", + "circumflex", + "perthousand", + "Scaron", + "guilsinglleft", + "OE", + "bullet", + "Zcaron", + "bullet", + "bullet", + "quoteleft", + "quoteright", + "quotedblleft", + "quotedblright", + "bullet", + "endash", + "emdash", + "tilde", + "trademark", + "scaron", + "guilsinglright", + "oe", + "bullet", + "zcaron", + "Ydieresis", + "space", + "exclamdown", + "cent", + "sterling", + "currency", + "yen", + "brokenbar", + "section", + "dieresis", + "copyright", + "ordfeminine", + "guillemotleft", + "logicalnot", + "hyphen", + "registered", + "macron", + "degree", + "plusminus", + "twosuperior", + "threesuperior", + "acute", + "mu", + "paragraph", + "periodcentered", + "cedilla", + "onesuperior", + "ordmasculine", + "guillemotright", + "onequarter", + "onehalf", + "threequarters", + "questiondown", + "Agrave", + "Aacute", + "Acircumflex", + "Atilde", + "Adieresis", + "Aring", + "AE", + "Ccedilla", + "Egrave", + "Eacute", + "Ecircumflex", + "Edieresis", + "Igrave", + "Iacute", + "Icircumflex", + "Idieresis", + "Eth", + "Ntilde", + "Ograve", + "Oacute", + "Ocircumflex", + "Otilde", + "Odieresis", + "multiply", + "Oslash", + "Ugrave", + "Uacute", + "Ucircumflex", + "Udieresis", + "Yacute", + "Thorn", + "germandbls", + "agrave", + "aacute", + "acircumflex", + "atilde", + "adieresis", + "aring", + "ae", + "ccedilla", + "egrave", + "eacute", + "ecircumflex", + "edieresis", + "igrave", + "iacute", + "icircumflex", + "idieresis", + "eth", + "ntilde", + "ograve", + "oacute", + "ocircumflex", + "otilde", + "odieresis", + "divide", + "oslash", + "ugrave", + "uacute", + "ucircumflex", + "udieresis", + "yacute", + "thorn", + "ydieresis" +}; + +char *standardEncoding[256] = { + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + "space", + "exclam", + "quotedbl", + "numbersign", + "dollar", + "percent", + "ampersand", + "quoteright", + "parenleft", + "parenright", + "asterisk", + "plus", + "comma", + "hyphen", + "period", + "slash", + "zero", + "one", + "two", + "three", + "four", + "five", + "six", + "seven", + "eight", + "nine", + "colon", + "semicolon", + "less", + "equal", + "greater", + "question", + "at", + "A", + "B", + "C", + "D", + "E", + "F", + "G", + "H", + "I", + "J", + "K", + "L", + "M", + "N", + "O", + "P", + "Q", + "R", + "S", + "T", + "U", + "V", + "W", + "X", + "Y", + "Z", + "bracketleft", + "backslash", + "bracketright", + "asciicircum", + "underscore", + "quoteleft", + "a", + "b", + "c", + "d", + "e", + "f", + "g", + "h", + "i", + "j", + "k", + "l", + "m", + "n", + "o", + "p", + "q", + "r", + "s", + "t", + "u", + "v", + "w", + "x", + "y", + "z", + "braceleft", + "bar", + "braceright", + "asciitilde", + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + "exclamdown", + "cent", + "sterling", + "fraction", + "yen", + "florin", + "section", + "currency", + "quotesingle", + "quotedblleft", + "guillemotleft", + "guilsinglleft", + "guilsinglright", + "fi", + "fl", + NULL, + "endash", + "dagger", + "daggerdbl", + "periodcentered", + NULL, + "paragraph", + "bullet", + "quotesinglbase", + "quotedblbase", + "quotedblright", + "guillemotright", + "ellipsis", + "perthousand", + NULL, + "questiondown", + NULL, + "grave", + "acute", + "circumflex", + "tilde", + "macron", + "breve", + "dotaccent", + "dieresis", + NULL, + "ring", + "cedilla", + NULL, + "hungarumlaut", + "ogonek", + "caron", + "emdash", + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + "AE", + NULL, + "ordfeminine", + NULL, + NULL, + NULL, + NULL, + "Lslash", + "Oslash", + "OE", + "ordmasculine", + NULL, + NULL, + NULL, + NULL, + NULL, + "ae", + NULL, + NULL, + NULL, + "dotlessi", + NULL, + NULL, + "lslash", + "oslash", + "oe", + "germandbls", + NULL, + NULL, + NULL, + NULL +}; + +char *expertEncoding[256] = { + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + "space", + "exclamsmall", + "Hungarumlautsmall", + NULL, + "dollaroldstyle", + "dollarsuperior", + "ampersandsmall", + "Acutesmall", + "parenleftsuperior", + "parenrightsuperior", + "twodotenleader", + "onedotenleader", + "comma", + "hyphen", + "period", + "fraction", + "zerooldstyle", + "oneoldstyle", + "twooldstyle", + "threeoldstyle", + "fouroldstyle", + "fiveoldstyle", + "sixoldstyle", + "sevenoldstyle", + "eightoldstyle", + "nineoldstyle", + "colon", + "semicolon", + "commasuperior", + "threequartersemdash", + "periodsuperior", + "questionsmall", + NULL, + "asuperior", + "bsuperior", + "centsuperior", + "dsuperior", + "esuperior", + NULL, + NULL, + NULL, + "isuperior", + NULL, + NULL, + "lsuperior", + "msuperior", + "nsuperior", + "osuperior", + NULL, + NULL, + "rsuperior", + "ssuperior", + "tsuperior", + NULL, + "ff", + "fi", + "fl", + "ffi", + "ffl", + "parenleftinferior", + NULL, + "parenrightinferior", + "Circumflexsmall", + "hyphensuperior", + "Gravesmall", + "Asmall", + "Bsmall", + "Csmall", + "Dsmall", + "Esmall", + "Fsmall", + "Gsmall", + "Hsmall", + "Ismall", + "Jsmall", + "Ksmall", + "Lsmall", + "Msmall", + "Nsmall", + "Osmall", + "Psmall", + "Qsmall", + "Rsmall", + "Ssmall", + "Tsmall", + "Usmall", + "Vsmall", + "Wsmall", + "Xsmall", + "Ysmall", + "Zsmall", + "colonmonetary", + "onefitted", + "rupiah", + "Tildesmall", + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + "exclamdownsmall", + "centoldstyle", + "Lslashsmall", + NULL, + NULL, + "Scaronsmall", + "Zcaronsmall", + "Dieresissmall", + "Brevesmall", + "Caronsmall", + NULL, + "Dotaccentsmall", + NULL, + NULL, + "Macronsmall", + NULL, + NULL, + "figuredash", + "hypheninferior", + NULL, + NULL, + "Ogoneksmall", + "Ringsmall", + "Cedillasmall", + NULL, + NULL, + NULL, + "onequarter", + "onehalf", + "threequarters", + "questiondownsmall", + "oneeighth", + "threeeighths", + "fiveeighths", + "seveneighths", + "onethird", + "twothirds", + NULL, + NULL, + "zerosuperior", + "onesuperior", + "twosuperior", + "threesuperior", + "foursuperior", + "fivesuperior", + "sixsuperior", + "sevensuperior", + "eightsuperior", + "ninesuperior", + "zeroinferior", + "oneinferior", + "twoinferior", + "threeinferior", + "fourinferior", + "fiveinferior", + "sixinferior", + "seveninferior", + "eightinferior", + "nineinferior", + "centinferior", + "dollarinferior", + "periodinferior", + "commainferior", + "Agravesmall", + "Aacutesmall", + "Acircumflexsmall", + "Atildesmall", + "Adieresissmall", + "Aringsmall", + "AEsmall", + "Ccedillasmall", + "Egravesmall", + "Eacutesmall", + "Ecircumflexsmall", + "Edieresissmall", + "Igravesmall", + "Iacutesmall", + "Icircumflexsmall", + "Idieresissmall", + "Ethsmall", + "Ntildesmall", + "Ogravesmall", + "Oacutesmall", + "Ocircumflexsmall", + "Otildesmall", + "Odieresissmall", + "OEsmall", + "Oslashsmall", + "Ugravesmall", + "Uacutesmall", + "Ucircumflexsmall", + "Udieresissmall", + "Yacutesmall", + "Thornsmall", + "Ydieresissmall" +}; + +char *symbolEncoding[256] = { + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + "space", + "exclam", + "universal", + "numbersign", + "existential", + "percent", + "ampersand", + "suchthat", + "parenleft", + "parenright", + "asteriskmath", + "plus", + "comma", + "minus", + "period", + "slash", + "zero", + "one", + "two", + "three", + "four", + "five", + "six", + "seven", + "eight", + "nine", + "colon", + "semicolon", + "less", + "equal", + "greater", + "question", + "congruent", + "Alpha", + "Beta", + "Chi", + "Delta", + "Epsilon", + "Phi", + "Gamma", + "Eta", + "Iota", + "theta1", + "Kappa", + "Lambda", + "Mu", + "Nu", + "Omicron", + "Pi", + "Theta", + "Rho", + "Sigma", + "Tau", + "Upsilon", + "sigma1", + "Omega", + "Xi", + "Psi", + "Zeta", + "bracketleft", + "therefore", + "bracketright", + "perpendicular", + "underscore", + "radicalex", + "alpha", + "beta", + "chi", + "delta", + "epsilon", + "phi", + "gamma", + "eta", + "iota", + "phi1", + "kappa", + "lambda", + "mu", + "nu", + "omicron", + "pi", + "theta", + "rho", + "sigma", + "tau", + "upsilon", + "omega1", + "omega", + "xi", + "psi", + "zeta", + "braceleft", + "bar", + "braceright", + "similar", + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + "Upsilon1", + "minute", + "lessequal", + "fraction", + "infinity", + "florin", + "club", + "diamond", + "heart", + "spade", + "arrowboth", + "arrowleft", + "arrowup", + "arrowright", + "arrowdown", + "degree", + "plusminus", + "second", + "greaterequal", + "multiply", + "proportional", + "partialdiff", + "bullet", + "divide", + "notequal", + "equivalence", + "approxequal", + "ellipsis", + "arrowvertex", + "arrowhorizex", + "carriagereturn", + "aleph", + "Ifraktur", + "Rfraktur", + "weierstrass", + "circlemultiply", + "circleplus", + "emptyset", + "intersection", + "union", + "propersuperset", + "reflexsuperset", + "notsubset", + "propersubset", + "reflexsubset", + "element", + "notelement", + "angle", + "gradient", + "registerserif", + "copyrightserif", + "trademarkserif", + "product", + "radical", + "dotmath", + "logicalnot", + "logicaland", + "logicalor", + "arrowdblboth", + "arrowdblleft", + "arrowdblup", + "arrowdblright", + "arrowdbldown", + "lozenge", + "angleleft", + "registersans", + "copyrightsans", + "trademarksans", + "summation", + "parenlefttp", + "parenleftex", + "parenleftbt", + "bracketlefttp", + "bracketleftex", + "bracketleftbt", + "bracelefttp", + "braceleftmid", + "braceleftbt", + "braceex", + NULL, + "angleright", + "integral", + "integraltp", + "integralex", + "integralbt", + "parenrighttp", + "parenrightex", + "parenrightbt", + "bracketrighttp", + "bracketrightex", + "bracketrightbt", + "bracerighttp", + "bracerightmid", + "bracerightbt", + NULL +}; + +char *zapfDingbatsEncoding[256] = { + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + "space", + "a1", + "a2", + "a202", + "a3", + "a4", + "a5", + "a119", + "a118", + "a117", + "a11", + "a12", + "a13", + "a14", + "a15", + "a16", + "a105", + "a17", + "a18", + "a19", + "a20", + "a21", + "a22", + "a23", + "a24", + "a25", + "a26", + "a27", + "a28", + "a6", + "a7", + "a8", + "a9", + "a10", + "a29", + "a30", + "a31", + "a32", + "a33", + "a34", + "a35", + "a36", + "a37", + "a38", + "a39", + "a40", + "a41", + "a42", + "a43", + "a44", + "a45", + "a46", + "a47", + "a48", + "a49", + "a50", + "a51", + "a52", + "a53", + "a54", + "a55", + "a56", + "a57", + "a58", + "a59", + "a60", + "a61", + "a62", + "a63", + "a64", + "a65", + "a66", + "a67", + "a68", + "a69", + "a70", + "a71", + "a72", + "a73", + "a74", + "a203", + "a75", + "a204", + "a76", + "a77", + "a78", + "a79", + "a81", + "a82", + "a83", + "a84", + "a97", + "a98", + "a99", + "a100", + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + "a101", + "a102", + "a103", + "a104", + "a106", + "a107", + "a108", + "a112", + "a111", + "a110", + "a109", + "a120", + "a121", + "a122", + "a123", + "a124", + "a125", + "a126", + "a127", + "a128", + "a129", + "a130", + "a131", + "a132", + "a133", + "a134", + "a135", + "a136", + "a137", + "a138", + "a139", + "a140", + "a141", + "a142", + "a143", + "a144", + "a145", + "a146", + "a147", + "a148", + "a149", + "a150", + "a151", + "a152", + "a153", + "a154", + "a155", + "a156", + "a157", + "a158", + "a159", + "a160", + "a161", + "a163", + "a164", + "a196", + "a165", + "a192", + "a166", + "a167", + "a168", + "a169", + "a170", + "a171", + "a172", + "a173", + "a162", + "a174", + "a175", + "a176", + "a177", + "a178", + "a179", + "a193", + "a180", + "a199", + "a181", + "a200", + "a182", + NULL, + "a201", + "a183", + "a184", + "a197", + "a185", + "a194", + "a198", + "a186", + "a195", + "a187", + "a188", + "a189", + "a190", + "a191", + NULL +}; diff --git a/kpdf/xpdf/xpdf/FontEncodingTables.h b/kpdf/xpdf/xpdf/FontEncodingTables.h new file mode 100644 index 00000000..8b0a1e7e --- /dev/null +++ b/kpdf/xpdf/xpdf/FontEncodingTables.h @@ -0,0 +1,20 @@ +//======================================================================== +// +// FontEncodingTables.h +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef FONTENCODINGTABLES_H +#define FONTENCODINGTABLES_H + +extern char *macRomanEncoding[]; +extern char *macExpertEncoding[]; +extern char *winAnsiEncoding[]; +extern char *standardEncoding[]; +extern char *expertEncoding[]; +extern char *symbolEncoding[]; +extern char *zapfDingbatsEncoding[]; + +#endif diff --git a/kpdf/xpdf/xpdf/Function.cc b/kpdf/xpdf/xpdf/Function.cc new file mode 100644 index 00000000..eaf8e974 --- /dev/null +++ b/kpdf/xpdf/xpdf/Function.cc @@ -0,0 +1,1575 @@ +//======================================================================== +// +// Function.cc +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include +#include +#include "gmem.h" +#include "Object.h" +#include "Dict.h" +#include "Stream.h" +#include "Error.h" +#include "Function.h" + +//------------------------------------------------------------------------ +// Function +//------------------------------------------------------------------------ + +Function::Function() { +} + +Function::~Function() { +} + +Function *Function::parse(Object *funcObj) { + Function *func; + Dict *dict; + int funcType; + Object obj1; + + if (funcObj->isStream()) { + dict = funcObj->streamGetDict(); + } else if (funcObj->isDict()) { + dict = funcObj->getDict(); + } else if (funcObj->isName("Identity")) { + return new IdentityFunction(); + } else { + error(-1, "Expected function dictionary or stream"); + return NULL; + } + + if (!dict->lookup("FunctionType", &obj1)->isInt()) { + error(-1, "Function type is missing or wrong type"); + obj1.free(); + return NULL; + } + funcType = obj1.getInt(); + obj1.free(); + + if (funcType == 0) { + func = new SampledFunction(funcObj, dict); + } else if (funcType == 2) { + func = new ExponentialFunction(funcObj, dict); + } else if (funcType == 3) { + func = new StitchingFunction(funcObj, dict); + } else if (funcType == 4) { + func = new PostScriptFunction(funcObj, dict); + } else { + error(-1, "Unimplemented function type (%d)", funcType); + return NULL; + } + if (!func->isOk()) { + delete func; + return NULL; + } + + return func; +} + +GBool Function::init(Dict *dict) { + Object obj1, obj2; + int i; + + //----- Domain + if (!dict->lookup("Domain", &obj1)->isArray()) { + error(-1, "Function is missing domain"); + goto err2; + } + m = obj1.arrayGetLength() / 2; + if (m > funcMaxInputs) { + error(-1, "Functions with more than %d inputs are unsupported", + funcMaxInputs); + goto err2; + } + for (i = 0; i < m; ++i) { + obj1.arrayGet(2*i, &obj2); + if (!obj2.isNum()) { + error(-1, "Illegal value in function domain array"); + goto err1; + } + domain[i][0] = obj2.getNum(); + obj2.free(); + obj1.arrayGet(2*i+1, &obj2); + if (!obj2.isNum()) { + error(-1, "Illegal value in function domain array"); + goto err1; + } + domain[i][1] = obj2.getNum(); + obj2.free(); + } + obj1.free(); + + //----- Range + hasRange = gFalse; + n = 0; + if (dict->lookup("Range", &obj1)->isArray()) { + hasRange = gTrue; + n = obj1.arrayGetLength() / 2; + if (n > funcMaxOutputs) { + error(-1, "Functions with more than %d outputs are unsupported", + funcMaxOutputs); + goto err2; + } + for (i = 0; i < n; ++i) { + obj1.arrayGet(2*i, &obj2); + if (!obj2.isNum()) { + error(-1, "Illegal value in function range array"); + goto err1; + } + range[i][0] = obj2.getNum(); + obj2.free(); + obj1.arrayGet(2*i+1, &obj2); + if (!obj2.isNum()) { + error(-1, "Illegal value in function range array"); + goto err1; + } + range[i][1] = obj2.getNum(); + obj2.free(); + } + } + obj1.free(); + + return gTrue; + + err1: + obj2.free(); + err2: + obj1.free(); + return gFalse; +} + +//------------------------------------------------------------------------ +// IdentityFunction +//------------------------------------------------------------------------ + +IdentityFunction::IdentityFunction() { + int i; + + // fill these in with arbitrary values just in case they get used + // somewhere + m = funcMaxInputs; + n = funcMaxOutputs; + for (i = 0; i < funcMaxInputs; ++i) { + domain[i][0] = 0; + domain[i][1] = 1; + } + hasRange = gFalse; +} + +IdentityFunction::~IdentityFunction() { +} + +void IdentityFunction::transform(double *in, double *out) { + int i; + + for (i = 0; i < funcMaxOutputs; ++i) { + out[i] = in[i]; + } +} + +//------------------------------------------------------------------------ +// SampledFunction +//------------------------------------------------------------------------ + +SampledFunction::SampledFunction(Object *funcObj, Dict *dict) { + Stream *str; + int sampleBits; + double sampleMul; + Object obj1, obj2; + Guint buf, bitMask; + int bits; + Guint s; + int i; + + samples = NULL; + sBuf = NULL; + ok = gFalse; + + //----- initialize the generic stuff + if (!init(dict)) { + goto err1; + } + if (!hasRange) { + error(-1, "Type 0 function is missing range"); + goto err1; + } + if (m > sampledFuncMaxInputs) { + error(-1, "Sampled functions with more than %d inputs are unsupported", + sampledFuncMaxInputs); + goto err1; + } + + //----- buffer + sBuf = (double *)gmallocn(1 << m, sizeof(double)); + + //----- get the stream + if (!funcObj->isStream()) { + error(-1, "Type 0 function isn't a stream"); + goto err1; + } + str = funcObj->getStream(); + + //----- Size + if (!dict->lookup("Size", &obj1)->isArray() || + obj1.arrayGetLength() != m) { + error(-1, "Function has missing or invalid size array"); + goto err2; + } + for (i = 0; i < m; ++i) { + obj1.arrayGet(i, &obj2); + if (!obj2.isInt()) { + error(-1, "Illegal value in function size array"); + goto err3; + } + sampleSize[i] = obj2.getInt(); + obj2.free(); + } + obj1.free(); + idxMul[0] = n; + for (i = 1; i < m; ++i) { + idxMul[i] = idxMul[i-1] * sampleSize[i-1]; + } + + //----- BitsPerSample + if (!dict->lookup("BitsPerSample", &obj1)->isInt()) { + error(-1, "Function has missing or invalid BitsPerSample"); + goto err2; + } + sampleBits = obj1.getInt(); + sampleMul = 1.0 / (pow(2.0, (double)sampleBits) - 1); + obj1.free(); + + //----- Encode + if (dict->lookup("Encode", &obj1)->isArray() && + obj1.arrayGetLength() == 2*m) { + for (i = 0; i < m; ++i) { + obj1.arrayGet(2*i, &obj2); + if (!obj2.isNum()) { + error(-1, "Illegal value in function encode array"); + goto err3; + } + encode[i][0] = obj2.getNum(); + obj2.free(); + obj1.arrayGet(2*i+1, &obj2); + if (!obj2.isNum()) { + error(-1, "Illegal value in function encode array"); + goto err3; + } + encode[i][1] = obj2.getNum(); + obj2.free(); + } + } else { + for (i = 0; i < m; ++i) { + encode[i][0] = 0; + encode[i][1] = sampleSize[i] - 1; + } + } + obj1.free(); + for (i = 0; i < m; ++i) { + inputMul[i] = (encode[i][1] - encode[i][0]) / + (domain[i][1] - domain[i][0]); + } + + //----- Decode + if (dict->lookup("Decode", &obj1)->isArray() && + obj1.arrayGetLength() == 2*n) { + for (i = 0; i < n; ++i) { + obj1.arrayGet(2*i, &obj2); + if (!obj2.isNum()) { + error(-1, "Illegal value in function decode array"); + goto err3; + } + decode[i][0] = obj2.getNum(); + obj2.free(); + obj1.arrayGet(2*i+1, &obj2); + if (!obj2.isNum()) { + error(-1, "Illegal value in function decode array"); + goto err3; + } + decode[i][1] = obj2.getNum(); + obj2.free(); + } + } else { + for (i = 0; i < n; ++i) { + decode[i][0] = range[i][0]; + decode[i][1] = range[i][1]; + } + } + obj1.free(); + + //----- samples + nSamples = n; + for (i = 0; i < m; ++i) + nSamples *= sampleSize[i]; + samples = (double *)gmallocn(nSamples, sizeof(double)); + buf = 0; + bits = 0; + bitMask = (1 << sampleBits) - 1; + str->reset(); + for (i = 0; i < nSamples; ++i) { + if (sampleBits == 8) { + s = str->getChar(); + } else if (sampleBits == 16) { + s = str->getChar(); + s = (s << 8) + str->getChar(); + } else if (sampleBits == 32) { + s = str->getChar(); + s = (s << 8) + str->getChar(); + s = (s << 8) + str->getChar(); + s = (s << 8) + str->getChar(); + } else { + while (bits < sampleBits) { + buf = (buf << 8) | (str->getChar() & 0xff); + bits += 8; + } + s = (buf >> (bits - sampleBits)) & bitMask; + bits -= sampleBits; + } + samples[i] = (double)s * sampleMul; + } + str->close(); + + ok = gTrue; + return; + + err3: + obj2.free(); + err2: + obj1.free(); + err1: + return; +} + +SampledFunction::~SampledFunction() { + if (samples) { + gfree(samples); + } + if (sBuf) { + gfree(sBuf); + } +} + +SampledFunction::SampledFunction(SampledFunction *func) { + memcpy(this, func, sizeof(SampledFunction)); + samples = (double *)gmallocn(nSamples, sizeof(double)); + memcpy(samples, func->samples, nSamples * sizeof(double)); + sBuf = (double *)gmallocn(1 << m, sizeof(double)); +} + +void SampledFunction::transform(double *in, double *out) { + double x; + int e[funcMaxInputs][2]; + double efrac0[funcMaxInputs]; + double efrac1[funcMaxInputs]; + int i, j, k, idx, t; + + // map input values into sample array + for (i = 0; i < m; ++i) { + x = (in[i] - domain[i][0]) * inputMul[i] + encode[i][0]; + if (x < 0) { + x = 0; + } else if (x > sampleSize[i] - 1) { + x = sampleSize[i] - 1; + } + e[i][0] = (int)x; + if ((e[i][1] = e[i][0] + 1) >= sampleSize[i]) { + // this happens if in[i] = domain[i][1] + e[i][1] = e[i][0]; + } + efrac1[i] = x - e[i][0]; + efrac0[i] = 1 - efrac1[i]; + } + + // for each output, do m-linear interpolation + for (i = 0; i < n; ++i) { + + // pull 2^m values out of the sample array + for (j = 0; j < (1<>= 1) { + idx += idxMul[k] * (e[k][t & 1]); + } + sBuf[j] = samples[idx]; + } + + // do m sets of interpolations + for (j = 0, t = (1<>= 1) { + for (k = 0; k < t; k += 2) { + sBuf[k >> 1] = efrac0[j] * sBuf[k] + efrac1[j] * sBuf[k+1]; + } + } + + // map output value to range + out[i] = sBuf[0] * (decode[i][1] - decode[i][0]) + decode[i][0]; + if (out[i] < range[i][0]) { + out[i] = range[i][0]; + } else if (out[i] > range[i][1]) { + out[i] = range[i][1]; + } + } +} + +//------------------------------------------------------------------------ +// ExponentialFunction +//------------------------------------------------------------------------ + +ExponentialFunction::ExponentialFunction(Object * /*funcObj*/, Dict *dict) { + Object obj1, obj2; + int i; + + ok = gFalse; + + //----- initialize the generic stuff + if (!init(dict)) { + goto err1; + } + if (m != 1) { + error(-1, "Exponential function with more than one input"); + goto err1; + } + + //----- C0 + if (dict->lookup("C0", &obj1)->isArray()) { + if (hasRange && obj1.arrayGetLength() != n) { + error(-1, "Function's C0 array is wrong length"); + goto err2; + } + n = obj1.arrayGetLength(); + for (i = 0; i < n; ++i) { + obj1.arrayGet(i, &obj2); + if (!obj2.isNum()) { + error(-1, "Illegal value in function C0 array"); + goto err3; + } + c0[i] = obj2.getNum(); + obj2.free(); + } + } else { + if (hasRange && n != 1) { + error(-1, "Function's C0 array is wrong length"); + goto err2; + } + n = 1; + c0[0] = 0; + } + obj1.free(); + + //----- C1 + if (dict->lookup("C1", &obj1)->isArray()) { + if (obj1.arrayGetLength() != n) { + error(-1, "Function's C1 array is wrong length"); + goto err2; + } + for (i = 0; i < n; ++i) { + obj1.arrayGet(i, &obj2); + if (!obj2.isNum()) { + error(-1, "Illegal value in function C1 array"); + goto err3; + } + c1[i] = obj2.getNum(); + obj2.free(); + } + } else { + if (n != 1) { + error(-1, "Function's C1 array is wrong length"); + goto err2; + } + c1[0] = 1; + } + obj1.free(); + + //----- N (exponent) + if (!dict->lookup("N", &obj1)->isNum()) { + error(-1, "Function has missing or invalid N"); + goto err2; + } + e = obj1.getNum(); + obj1.free(); + + ok = gTrue; + return; + + err3: + obj2.free(); + err2: + obj1.free(); + err1: + return; +} + +ExponentialFunction::~ExponentialFunction() { +} + +ExponentialFunction::ExponentialFunction(ExponentialFunction *func) { + memcpy(this, func, sizeof(ExponentialFunction)); +} + +void ExponentialFunction::transform(double *in, double *out) { + double x; + int i; + + if (in[0] < domain[0][0]) { + x = domain[0][0]; + } else if (in[0] > domain[0][1]) { + x = domain[0][1]; + } else { + x = in[0]; + } + for (i = 0; i < n; ++i) { + out[i] = c0[i] + pow(x, e) * (c1[i] - c0[i]); + if (hasRange) { + if (out[i] < range[i][0]) { + out[i] = range[i][0]; + } else if (out[i] > range[i][1]) { + out[i] = range[i][1]; + } + } + } + return; +} + +//------------------------------------------------------------------------ +// StitchingFunction +//------------------------------------------------------------------------ + +StitchingFunction::StitchingFunction(Object * /*funcObj*/, Dict *dict) { + Object obj1, obj2; + int i; + + ok = gFalse; + funcs = NULL; + bounds = NULL; + encode = NULL; + scale = NULL; + + //----- initialize the generic stuff + if (!init(dict)) { + goto err1; + } + if (m != 1) { + error(-1, "Stitching function with more than one input"); + goto err1; + } + + //----- Functions + if (!dict->lookup("Functions", &obj1)->isArray()) { + error(-1, "Missing 'Functions' entry in stitching function"); + goto err1; + } + k = obj1.arrayGetLength(); + funcs = (Function **)gmallocn(k, sizeof(Function *)); + bounds = (double *)gmallocn(k + 1, sizeof(double)); + encode = (double *)gmallocn(2 * k, sizeof(double)); + scale = (double *)gmallocn(k, sizeof(double)); + for (i = 0; i < k; ++i) { + funcs[i] = NULL; + } + for (i = 0; i < k; ++i) { + if (!(funcs[i] = Function::parse(obj1.arrayGet(i, &obj2)))) { + goto err2; + } + if (i > 0 && (funcs[i]->getInputSize() != 1 || + funcs[i]->getOutputSize() != funcs[0]->getOutputSize())) { + error(-1, "Incompatible subfunctions in stitching function"); + goto err2; + } + obj2.free(); + } + obj1.free(); + + //----- Bounds + if (!dict->lookup("Bounds", &obj1)->isArray() || + obj1.arrayGetLength() != k - 1) { + error(-1, "Missing or invalid 'Bounds' entry in stitching function"); + goto err1; + } + bounds[0] = domain[0][0]; + for (i = 1; i < k; ++i) { + if (!obj1.arrayGet(i - 1, &obj2)->isNum()) { + error(-1, "Invalid type in 'Bounds' array in stitching function"); + goto err2; + } + bounds[i] = obj2.getNum(); + obj2.free(); + } + bounds[k] = domain[0][1]; + obj1.free(); + + //----- Encode + if (!dict->lookup("Encode", &obj1)->isArray() || + obj1.arrayGetLength() != 2 * k) { + error(-1, "Missing or invalid 'Encode' entry in stitching function"); + goto err1; + } + for (i = 0; i < 2 * k; ++i) { + if (!obj1.arrayGet(i, &obj2)->isNum()) { + error(-1, "Invalid type in 'Encode' array in stitching function"); + goto err2; + } + encode[i] = obj2.getNum(); + obj2.free(); + } + obj1.free(); + + //----- pre-compute the scale factors + for (i = 0; i < k; ++i) { + if (bounds[i] == bounds[i+1]) { + // avoid a divide-by-zero -- in this situation, function i will + // never be used anyway + scale[i] = 0; + } else { + scale[i] = (encode[2*i+1] - encode[2*i]) / (bounds[i+1] - bounds[i]); + } + } + + ok = gTrue; + return; + + err2: + obj2.free(); + err1: + obj1.free(); +} + +StitchingFunction::StitchingFunction(StitchingFunction *func) { + int i; + + k = func->k; + funcs = (Function **)gmallocn(k, sizeof(Function *)); + for (i = 0; i < k; ++i) { + funcs[i] = func->funcs[i]->copy(); + } + bounds = (double *)gmallocn(k + 1, sizeof(double)); + memcpy(bounds, func->bounds, (k + 1) * sizeof(double)); + encode = (double *)gmallocn(2 * k, sizeof(double)); + memcpy(encode, func->encode, 2 * k * sizeof(double)); + scale = (double *)gmallocn(k, sizeof(double)); + memcpy(scale, func->scale, k * sizeof(double)); + ok = gTrue; +} + +StitchingFunction::~StitchingFunction() { + int i; + + if (funcs) { + for (i = 0; i < k; ++i) { + if (funcs[i]) { + delete funcs[i]; + } + } + } + gfree(funcs); + gfree(bounds); + gfree(encode); + gfree(scale); +} + +void StitchingFunction::transform(double *in, double *out) { + double x; + int i; + + if (in[0] < domain[0][0]) { + x = domain[0][0]; + } else if (in[0] > domain[0][1]) { + x = domain[0][1]; + } else { + x = in[0]; + } + for (i = 0; i < k - 1; ++i) { + if (x < bounds[i+1]) { + break; + } + } + x = encode[2*i] + (x - bounds[i]) * scale[i]; + funcs[i]->transform(&x, out); +} + +//------------------------------------------------------------------------ +// PostScriptFunction +//------------------------------------------------------------------------ + +enum PSOp { + psOpAbs, + psOpAdd, + psOpAnd, + psOpAtan, + psOpBitshift, + psOpCeiling, + psOpCopy, + psOpCos, + psOpCvi, + psOpCvr, + psOpDiv, + psOpDup, + psOpEq, + psOpExch, + psOpExp, + psOpFalse, + psOpFloor, + psOpGe, + psOpGt, + psOpIdiv, + psOpIndex, + psOpLe, + psOpLn, + psOpLog, + psOpLt, + psOpMod, + psOpMul, + psOpNe, + psOpNeg, + psOpNot, + psOpOr, + psOpPop, + psOpRoll, + psOpRound, + psOpSin, + psOpSqrt, + psOpSub, + psOpTrue, + psOpTruncate, + psOpXor, + psOpIf, + psOpIfelse, + psOpReturn +}; + +// Note: 'if' and 'ifelse' are parsed separately. +// The rest are listed here in alphabetical order. +// The index in this table is equivalent to the entry in PSOp. +char *psOpNames[] = { + "abs", + "add", + "and", + "atan", + "bitshift", + "ceiling", + "copy", + "cos", + "cvi", + "cvr", + "div", + "dup", + "eq", + "exch", + "exp", + "false", + "floor", + "ge", + "gt", + "idiv", + "index", + "le", + "ln", + "log", + "lt", + "mod", + "mul", + "ne", + "neg", + "not", + "or", + "pop", + "roll", + "round", + "sin", + "sqrt", + "sub", + "true", + "truncate", + "xor" +}; + +#define nPSOps (sizeof(psOpNames) / sizeof(char *)) + +enum PSObjectType { + psBool, + psInt, + psReal, + psOperator, + psBlock +}; + +// In the code array, 'if'/'ifelse' operators take up three slots +// plus space for the code in the subclause(s). +// +// +---------------------------------+ +// | psOperator: psOpIf / psOpIfelse | +// +---------------------------------+ +// | psBlock: ptr= | +// +---------------------------------+ +// | psBlock: ptr= | +// +---------------------------------+ +// | if clause | +// | ... | +// | psOperator: psOpReturn | +// +---------------------------------+ +// | else clause | +// | ... | +// | psOperator: psOpReturn | +// +---------------------------------+ +// | ... | +// +// For 'if', pointer is present in the code stream but unused. + +struct PSObject { + PSObjectType type; + union { + GBool booln; // boolean (stack only) + int intg; // integer (stack and code) + double real; // real (stack and code) + PSOp op; // operator (code only) + int blk; // if/ifelse block pointer (code only) + }; +}; + +#define psStackSize 100 + +class PSStack { +public: + + PSStack() { sp = psStackSize; } + void pushBool(GBool booln); + void pushInt(int intg); + void pushReal(double real); + GBool popBool(); + int popInt(); + double popNum(); + GBool empty() { return sp == psStackSize; } + GBool topIsInt() { return sp < psStackSize && stack[sp].type == psInt; } + GBool topTwoAreInts() + { return sp < psStackSize - 1 && + stack[sp].type == psInt && + stack[sp+1].type == psInt; } + GBool topIsReal() { return sp < psStackSize && stack[sp].type == psReal; } + GBool topTwoAreNums() + { return sp < psStackSize - 1 && + (stack[sp].type == psInt || stack[sp].type == psReal) && + (stack[sp+1].type == psInt || stack[sp+1].type == psReal); } + void copy(int n); + void roll(int n, int j); + void index(int i); + void pop(); + +private: + + GBool checkOverflow(int n = 1); + GBool checkUnderflow(); + GBool checkType(PSObjectType t1, PSObjectType t2); + + PSObject stack[psStackSize]; + int sp; +}; + +GBool PSStack::checkOverflow(int n) { + if (sp - n < 0) { + error(-1, "Stack overflow in PostScript function"); + return gFalse; + } + return gTrue; +} + +GBool PSStack::checkUnderflow() { + if (sp == psStackSize) { + error(-1, "Stack underflow in PostScript function"); + return gFalse; + } + return gTrue; +} + +GBool PSStack::checkType(PSObjectType t1, PSObjectType t2) { + if (stack[sp].type != t1 && stack[sp].type != t2) { + error(-1, "Type mismatch in PostScript function"); + return gFalse; + } + return gTrue; +} + +void PSStack::pushBool(GBool booln) { + if (checkOverflow()) { + stack[--sp].type = psBool; + stack[sp].booln = booln; + } +} + +void PSStack::pushInt(int intg) { + if (checkOverflow()) { + stack[--sp].type = psInt; + stack[sp].intg = intg; + } +} + +void PSStack::pushReal(double real) { + if (checkOverflow()) { + stack[--sp].type = psReal; + stack[sp].real = real; + } +} + +GBool PSStack::popBool() { + if (checkUnderflow() && checkType(psBool, psBool)) { + return stack[sp++].booln; + } + return gFalse; +} + +int PSStack::popInt() { + if (checkUnderflow() && checkType(psInt, psInt)) { + return stack[sp++].intg; + } + return 0; +} + +double PSStack::popNum() { + double ret; + + if (checkUnderflow() && checkType(psInt, psReal)) { + ret = (stack[sp].type == psInt) ? (double)stack[sp].intg : stack[sp].real; + ++sp; + return ret; + } + return 0; +} + +void PSStack::copy(int n) { + int i; + + if (sp + n > psStackSize) { + error(-1, "Stack underflow in PostScript function"); + return; + } + if (!checkOverflow(n)) { + return; + } + for (i = sp + n - 1; i >= sp; --i) { + stack[i - n] = stack[i]; + } + sp -= n; +} + +void PSStack::roll(int n, int j) { + PSObject obj; + int i, k; + + if (j >= 0) { + j %= n; + } else { + j = -j % n; + if (j != 0) { + j = n - j; + } + } + if (n <= 0 || j == 0) { + return; + } + for (i = 0; i < j; ++i) { + obj = stack[sp]; + for (k = sp; k < sp + n - 1; ++k) { + stack[k] = stack[k+1]; + } + stack[sp + n - 1] = obj; + } +} + +void PSStack::index(int i) { + if (!checkOverflow()) { + return; + } + --sp; + stack[sp] = stack[sp + 1 + i]; +} + +void PSStack::pop() { + if (!checkUnderflow()) { + return; + } + ++sp; +} + +PostScriptFunction::PostScriptFunction(Object *funcObj, Dict *dict) { + Stream *str; + int codePtr; + GString *tok; + + code = NULL; + codeSize = 0; + ok = gFalse; + + //----- initialize the generic stuff + if (!init(dict)) { + goto err1; + } + if (!hasRange) { + error(-1, "Type 4 function is missing range"); + goto err1; + } + + //----- get the stream + if (!funcObj->isStream()) { + error(-1, "Type 4 function isn't a stream"); + goto err1; + } + str = funcObj->getStream(); + + //----- parse the function + codeString = new GString(); + str->reset(); + if (!(tok = getToken(str)) || tok->cmp("{")) { + error(-1, "Expected '{' at start of PostScript function"); + if (tok) { + delete tok; + } + goto err1; + } + delete tok; + codePtr = 0; + if (!parseCode(str, &codePtr)) { + goto err2; + } + str->close(); + + ok = gTrue; + + err2: + str->close(); + err1: + return; +} + +PostScriptFunction::PostScriptFunction(PostScriptFunction *func) { + memcpy(this, func, sizeof(PostScriptFunction)); + code = (PSObject *)gmallocn(codeSize, sizeof(PSObject)); + memcpy(code, func->code, codeSize * sizeof(PSObject)); + codeString = func->codeString->copy(); +} + +PostScriptFunction::~PostScriptFunction() { + gfree(code); + delete codeString; +} + +void PostScriptFunction::transform(double *in, double *out) { + PSStack *stack; + int i; + + stack = new PSStack(); + for (i = 0; i < m; ++i) { + //~ may need to check for integers here + stack->pushReal(in[i]); + } + exec(stack, 0); + for (i = n - 1; i >= 0; --i) { + out[i] = stack->popNum(); + if (out[i] < range[i][0]) { + out[i] = range[i][0]; + } else if (out[i] > range[i][1]) { + out[i] = range[i][1]; + } + } + // if (!stack->empty()) { + // error(-1, "Extra values on stack at end of PostScript function"); + // } + delete stack; +} + +GBool PostScriptFunction::parseCode(Stream *str, int *codePtr) { + GString *tok; + char *p; + GBool isReal; + int opPtr, elsePtr; + int a, b, mid, cmp; + + while (1) { + if (!(tok = getToken(str))) { + error(-1, "Unexpected end of PostScript function stream"); + return gFalse; + } + p = tok->getCString(); + if (isdigit(*p) || *p == '.' || *p == '-') { + isReal = gFalse; + for (++p; *p; ++p) { + if (*p == '.') { + isReal = gTrue; + break; + } + } + resizeCode(*codePtr); + if (isReal) { + code[*codePtr].type = psReal; + code[*codePtr].real = atof(tok->getCString()); + } else { + code[*codePtr].type = psInt; + code[*codePtr].intg = atoi(tok->getCString()); + } + ++*codePtr; + delete tok; + } else if (!tok->cmp("{")) { + delete tok; + opPtr = *codePtr; + *codePtr += 3; + resizeCode(opPtr + 2); + if (!parseCode(str, codePtr)) { + return gFalse; + } + if (!(tok = getToken(str))) { + error(-1, "Unexpected end of PostScript function stream"); + return gFalse; + } + if (!tok->cmp("{")) { + elsePtr = *codePtr; + if (!parseCode(str, codePtr)) { + return gFalse; + } + delete tok; + if (!(tok = getToken(str))) { + error(-1, "Unexpected end of PostScript function stream"); + return gFalse; + } + } else { + elsePtr = -1; + } + if (!tok->cmp("if")) { + if (elsePtr >= 0) { + error(-1, "Got 'if' operator with two blocks in PostScript function"); + return gFalse; + } + code[opPtr].type = psOperator; + code[opPtr].op = psOpIf; + code[opPtr+2].type = psBlock; + code[opPtr+2].blk = *codePtr; + } else if (!tok->cmp("ifelse")) { + if (elsePtr < 0) { + error(-1, "Got 'ifelse' operator with one blocks in PostScript function"); + return gFalse; + } + code[opPtr].type = psOperator; + code[opPtr].op = psOpIfelse; + code[opPtr+1].type = psBlock; + code[opPtr+1].blk = elsePtr; + code[opPtr+2].type = psBlock; + code[opPtr+2].blk = *codePtr; + } else { + error(-1, "Expected if/ifelse operator in PostScript function"); + delete tok; + return gFalse; + } + delete tok; + } else if (!tok->cmp("}")) { + delete tok; + resizeCode(*codePtr); + code[*codePtr].type = psOperator; + code[*codePtr].op = psOpReturn; + ++*codePtr; + break; + } else { + a = -1; + b = nPSOps; + // invariant: psOpNames[a] < tok < psOpNames[b] + while (b - a > 1) { + mid = (a + b) / 2; + cmp = tok->cmp(psOpNames[mid]); + if (cmp > 0) { + a = mid; + } else if (cmp < 0) { + b = mid; + } else { + a = b = mid; + } + } + if (cmp != 0) { + error(-1, "Unknown operator '%s' in PostScript function", + tok->getCString()); + delete tok; + return gFalse; + } + delete tok; + resizeCode(*codePtr); + code[*codePtr].type = psOperator; + code[*codePtr].op = (PSOp)a; + ++*codePtr; + } + } + return gTrue; +} + +GString *PostScriptFunction::getToken(Stream *str) { + GString *s; + int c; + GBool comment; + + s = new GString(); + comment = gFalse; + while (1) { + if ((c = str->getChar()) == EOF) { + break; + } + codeString->append(c); + if (comment) { + if (c == '\x0a' || c == '\x0d') { + comment = gFalse; + } + } else if (c == '%') { + comment = gTrue; + } else if (!isspace(c)) { + break; + } + } + if (c == '{' || c == '}') { + s->append((char)c); + } else if (isdigit(c) || c == '.' || c == '-') { + while (1) { + s->append((char)c); + c = str->lookChar(); + if (c == EOF || !(isdigit(c) || c == '.' || c == '-')) { + break; + } + str->getChar(); + codeString->append(c); + } + } else { + while (1) { + s->append((char)c); + c = str->lookChar(); + if (c == EOF || !isalnum(c)) { + break; + } + str->getChar(); + codeString->append(c); + } + } + return s; +} + +void PostScriptFunction::resizeCode(int newSize) { + if (newSize >= codeSize) { + codeSize += 64; + code = (PSObject *)greallocn(code, codeSize, sizeof(PSObject)); + } +} + +void PostScriptFunction::exec(PSStack *stack, int codePtr) { + int i1, i2; + double r1, r2, result; + GBool b1, b2; + + while (1) { + switch (code[codePtr].type) { + case psInt: + stack->pushInt(code[codePtr++].intg); + break; + case psReal: + stack->pushReal(code[codePtr++].real); + break; + case psOperator: + switch (code[codePtr++].op) { + case psOpAbs: + if (stack->topIsInt()) { + stack->pushInt(abs(stack->popInt())); + } else { + stack->pushReal(fabs(stack->popNum())); + } + break; + case psOpAdd: + if (stack->topTwoAreInts()) { + i2 = stack->popInt(); + i1 = stack->popInt(); + stack->pushInt(i1 + i2); + } else { + r2 = stack->popNum(); + r1 = stack->popNum(); + stack->pushReal(r1 + r2); + } + break; + case psOpAnd: + if (stack->topTwoAreInts()) { + i2 = stack->popInt(); + i1 = stack->popInt(); + stack->pushInt(i1 & i2); + } else { + b2 = stack->popBool(); + b1 = stack->popBool(); + stack->pushBool(b1 && b2); + } + break; + case psOpAtan: + r2 = stack->popNum(); + r1 = stack->popNum(); + result = atan2(r1, r2) * 180.0 / M_PI; + if (result < 0) result += 360.0; + stack->pushReal(result); + break; + case psOpBitshift: + i2 = stack->popInt(); + i1 = stack->popInt(); + if (i2 > 0) { + stack->pushInt(i1 << i2); + } else if (i2 < 0) { + stack->pushInt((int)((Guint)i1 >> i2)); + } else { + stack->pushInt(i1); + } + break; + case psOpCeiling: + if (!stack->topIsInt()) { + stack->pushReal(ceil(stack->popNum())); + } + break; + case psOpCopy: + stack->copy(stack->popInt()); + break; + case psOpCos: + stack->pushReal(cos(stack->popNum() * M_PI / 180.0)); + break; + case psOpCvi: + if (!stack->topIsInt()) { + stack->pushInt((int)stack->popNum()); + } + break; + case psOpCvr: + if (!stack->topIsReal()) { + stack->pushReal(stack->popNum()); + } + break; + case psOpDiv: + r2 = stack->popNum(); + r1 = stack->popNum(); + stack->pushReal(r1 / r2); + break; + case psOpDup: + stack->copy(1); + break; + case psOpEq: + if (stack->topTwoAreInts()) { + i2 = stack->popInt(); + i1 = stack->popInt(); + stack->pushBool(i1 == i2); + } else if (stack->topTwoAreNums()) { + r2 = stack->popNum(); + r1 = stack->popNum(); + stack->pushBool(r1 == r2); + } else { + b2 = stack->popBool(); + b1 = stack->popBool(); + stack->pushBool(b1 == b2); + } + break; + case psOpExch: + stack->roll(2, 1); + break; + case psOpExp: + r2 = stack->popNum(); + r1 = stack->popNum(); + stack->pushReal(pow(r1, r2)); + break; + case psOpFalse: + stack->pushBool(gFalse); + break; + case psOpFloor: + if (!stack->topIsInt()) { + stack->pushReal(floor(stack->popNum())); + } + break; + case psOpGe: + if (stack->topTwoAreInts()) { + i2 = stack->popInt(); + i1 = stack->popInt(); + stack->pushBool(i1 >= i2); + } else { + r2 = stack->popNum(); + r1 = stack->popNum(); + stack->pushBool(r1 >= r2); + } + break; + case psOpGt: + if (stack->topTwoAreInts()) { + i2 = stack->popInt(); + i1 = stack->popInt(); + stack->pushBool(i1 > i2); + } else { + r2 = stack->popNum(); + r1 = stack->popNum(); + stack->pushBool(r1 > r2); + } + break; + case psOpIdiv: + i2 = stack->popInt(); + i1 = stack->popInt(); + stack->pushInt(i1 / i2); + break; + case psOpIndex: + stack->index(stack->popInt()); + break; + case psOpLe: + if (stack->topTwoAreInts()) { + i2 = stack->popInt(); + i1 = stack->popInt(); + stack->pushBool(i1 <= i2); + } else { + r2 = stack->popNum(); + r1 = stack->popNum(); + stack->pushBool(r1 <= r2); + } + break; + case psOpLn: + stack->pushReal(log(stack->popNum())); + break; + case psOpLog: + stack->pushReal(log10(stack->popNum())); + break; + case psOpLt: + if (stack->topTwoAreInts()) { + i2 = stack->popInt(); + i1 = stack->popInt(); + stack->pushBool(i1 < i2); + } else { + r2 = stack->popNum(); + r1 = stack->popNum(); + stack->pushBool(r1 < r2); + } + break; + case psOpMod: + i2 = stack->popInt(); + i1 = stack->popInt(); + stack->pushInt(i1 % i2); + break; + case psOpMul: + if (stack->topTwoAreInts()) { + i2 = stack->popInt(); + i1 = stack->popInt(); + //~ should check for out-of-range, and push a real instead + stack->pushInt(i1 * i2); + } else { + r2 = stack->popNum(); + r1 = stack->popNum(); + stack->pushReal(r1 * r2); + } + break; + case psOpNe: + if (stack->topTwoAreInts()) { + i2 = stack->popInt(); + i1 = stack->popInt(); + stack->pushBool(i1 != i2); + } else if (stack->topTwoAreNums()) { + r2 = stack->popNum(); + r1 = stack->popNum(); + stack->pushBool(r1 != r2); + } else { + b2 = stack->popBool(); + b1 = stack->popBool(); + stack->pushBool(b1 != b2); + } + break; + case psOpNeg: + if (stack->topIsInt()) { + stack->pushInt(-stack->popInt()); + } else { + stack->pushReal(-stack->popNum()); + } + break; + case psOpNot: + if (stack->topIsInt()) { + stack->pushInt(~stack->popInt()); + } else { + stack->pushBool(!stack->popBool()); + } + break; + case psOpOr: + if (stack->topTwoAreInts()) { + i2 = stack->popInt(); + i1 = stack->popInt(); + stack->pushInt(i1 | i2); + } else { + b2 = stack->popBool(); + b1 = stack->popBool(); + stack->pushBool(b1 || b2); + } + break; + case psOpPop: + stack->pop(); + break; + case psOpRoll: + i2 = stack->popInt(); + i1 = stack->popInt(); + stack->roll(i1, i2); + break; + case psOpRound: + if (!stack->topIsInt()) { + r1 = stack->popNum(); + stack->pushReal((r1 >= 0) ? floor(r1 + 0.5) : ceil(r1 - 0.5)); + } + break; + case psOpSin: + stack->pushReal(sin(stack->popNum() * M_PI / 180.0)); + break; + case psOpSqrt: + stack->pushReal(sqrt(stack->popNum())); + break; + case psOpSub: + if (stack->topTwoAreInts()) { + i2 = stack->popInt(); + i1 = stack->popInt(); + stack->pushInt(i1 - i2); + } else { + r2 = stack->popNum(); + r1 = stack->popNum(); + stack->pushReal(r1 - r2); + } + break; + case psOpTrue: + stack->pushBool(gTrue); + break; + case psOpTruncate: + if (!stack->topIsInt()) { + r1 = stack->popNum(); + stack->pushReal((r1 >= 0) ? floor(r1) : ceil(r1)); + } + break; + case psOpXor: + if (stack->topTwoAreInts()) { + i2 = stack->popInt(); + i1 = stack->popInt(); + stack->pushInt(i1 ^ i2); + } else { + b2 = stack->popBool(); + b1 = stack->popBool(); + stack->pushBool(b1 ^ b2); + } + break; + case psOpIf: + b1 = stack->popBool(); + if (b1) { + exec(stack, codePtr + 2); + } + codePtr = code[codePtr + 1].blk; + break; + case psOpIfelse: + b1 = stack->popBool(); + if (b1) { + exec(stack, codePtr + 2); + } else { + exec(stack, code[codePtr].blk); + } + codePtr = code[codePtr + 1].blk; + break; + case psOpReturn: + return; + } + break; + default: + error(-1, "Internal: bad object in PostScript function code"); + break; + } + } +} diff --git a/kpdf/xpdf/xpdf/Function.h b/kpdf/xpdf/xpdf/Function.h new file mode 100644 index 00000000..334a4390 --- /dev/null +++ b/kpdf/xpdf/xpdf/Function.h @@ -0,0 +1,229 @@ +//======================================================================== +// +// Function.h +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef FUNCTION_H +#define FUNCTION_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" +#include "Object.h" + +class Dict; +class Stream; +struct PSObject; +class PSStack; + +//------------------------------------------------------------------------ +// Function +//------------------------------------------------------------------------ + +#define funcMaxInputs 32 +#define funcMaxOutputs 32 +#define sampledFuncMaxInputs 16 + +class Function { +public: + + Function(); + + virtual ~Function(); + + // Construct a function. Returns NULL if unsuccessful. + static Function *parse(Object *funcObj); + + // Initialize the entries common to all function types. + GBool init(Dict *dict); + + virtual Function *copy() = 0; + + // Return the function type: + // -1 : identity + // 0 : sampled + // 2 : exponential + // 3 : stitching + // 4 : PostScript + virtual int getType() = 0; + + // Return size of input and output tuples. + int getInputSize() { return m; } + int getOutputSize() { return n; } + + double getDomainMin(int i) { return domain[i][0]; } + double getDomainMax(int i) { return domain[i][1]; } + double getRangeMin(int i) { return range[i][0]; } + double getRangeMax(int i) { return range[i][1]; } + GBool getHasRange() { return hasRange; } + + // Transform an input tuple into an output tuple. + virtual void transform(double *in, double *out) = 0; + + virtual GBool isOk() = 0; + +protected: + + int m, n; // size of input and output tuples + double // min and max values for function domain + domain[funcMaxInputs][2]; + double // min and max values for function range + range[funcMaxOutputs][2]; + GBool hasRange; // set if range is defined +}; + +//------------------------------------------------------------------------ +// IdentityFunction +//------------------------------------------------------------------------ + +class IdentityFunction: public Function { +public: + + IdentityFunction(); + virtual ~IdentityFunction(); + virtual Function *copy() { return new IdentityFunction(); } + virtual int getType() { return -1; } + virtual void transform(double *in, double *out); + virtual GBool isOk() { return gTrue; } + +private: +}; + +//------------------------------------------------------------------------ +// SampledFunction +//------------------------------------------------------------------------ + +class SampledFunction: public Function { +public: + + SampledFunction(Object *funcObj, Dict *dict); + virtual ~SampledFunction(); + virtual Function *copy() { return new SampledFunction(this); } + virtual int getType() { return 0; } + virtual void transform(double *in, double *out); + virtual GBool isOk() { return ok; } + + int getSampleSize(int i) { return sampleSize[i]; } + double getEncodeMin(int i) { return encode[i][0]; } + double getEncodeMax(int i) { return encode[i][1]; } + double getDecodeMin(int i) { return decode[i][0]; } + double getDecodeMax(int i) { return decode[i][1]; } + double *getSamples() { return samples; } + +private: + + SampledFunction(SampledFunction *func); + + int // number of samples for each domain element + sampleSize[funcMaxInputs]; + double // min and max values for domain encoder + encode[funcMaxInputs][2]; + double // min and max values for range decoder + decode[funcMaxOutputs][2]; + double // input multipliers + inputMul[funcMaxInputs]; + int idxMul[funcMaxInputs]; // sample array index multipliers + double *samples; // the samples + int nSamples; // size of the samples array + double *sBuf; // buffer for the transform function + GBool ok; +}; + +//------------------------------------------------------------------------ +// ExponentialFunction +//------------------------------------------------------------------------ + +class ExponentialFunction: public Function { +public: + + ExponentialFunction(Object *funcObj, Dict *dict); + virtual ~ExponentialFunction(); + virtual Function *copy() { return new ExponentialFunction(this); } + virtual int getType() { return 2; } + virtual void transform(double *in, double *out); + virtual GBool isOk() { return ok; } + + double *getC0() { return c0; } + double *getC1() { return c1; } + double getE() { return e; } + +private: + + ExponentialFunction(ExponentialFunction *func); + + double c0[funcMaxOutputs]; + double c1[funcMaxOutputs]; + double e; + GBool ok; +}; + +//------------------------------------------------------------------------ +// StitchingFunction +//------------------------------------------------------------------------ + +class StitchingFunction: public Function { +public: + + StitchingFunction(Object *funcObj, Dict *dict); + virtual ~StitchingFunction(); + virtual Function *copy() { return new StitchingFunction(this); } + virtual int getType() { return 3; } + virtual void transform(double *in, double *out); + virtual GBool isOk() { return ok; } + + int getNumFuncs() { return k; } + Function *getFunc(int i) { return funcs[i]; } + double *getBounds() { return bounds; } + double *getEncode() { return encode; } + double *getScale() { return scale; } + +private: + + StitchingFunction(StitchingFunction *func); + + int k; + Function **funcs; + double *bounds; + double *encode; + double *scale; + GBool ok; +}; + +//------------------------------------------------------------------------ +// PostScriptFunction +//------------------------------------------------------------------------ + +class PostScriptFunction: public Function { +public: + + PostScriptFunction(Object *funcObj, Dict *dict); + virtual ~PostScriptFunction(); + virtual Function *copy() { return new PostScriptFunction(this); } + virtual int getType() { return 4; } + virtual void transform(double *in, double *out); + virtual GBool isOk() { return ok; } + + GString *getCodeString() { return codeString; } + +private: + + PostScriptFunction(PostScriptFunction *func); + GBool parseCode(Stream *str, int *codePtr); + GString *getToken(Stream *str); + void resizeCode(int newSize); + void exec(PSStack *stack, int codePtr); + + GString *codeString; + PSObject *code; + int codeSize; + GBool ok; +}; + +#endif diff --git a/kpdf/xpdf/xpdf/Gfx.cc b/kpdf/xpdf/xpdf/Gfx.cc new file mode 100644 index 00000000..b37dcb54 --- /dev/null +++ b/kpdf/xpdf/xpdf/Gfx.cc @@ -0,0 +1,4187 @@ +//======================================================================== +// +// Gfx.cc +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include +#include +#include +#include "gmem.h" +#include "GlobalParams.h" +#include "CharTypes.h" +#include "Object.h" +#include "Array.h" +#include "Dict.h" +#include "Stream.h" +#include "Lexer.h" +#include "Parser.h" +#include "GfxFont.h" +#include "GfxState.h" +#include "OutputDev.h" +#include "Page.h" +#include "Annot.h" +#include "Error.h" +#include "Gfx.h" + +// the MSVC math.h doesn't define this +#ifndef M_PI +#define M_PI 3.14159265358979323846 +#endif + +//------------------------------------------------------------------------ +// constants +//------------------------------------------------------------------------ + +// Max recursive depth for a function shading fill. +#define functionMaxDepth 6 + +// Max delta allowed in any color component for a function shading fill. +#define functionColorDelta (dblToCol(1 / 256.0)) + +// Max number of splits along the t axis for an axial shading fill. +#define axialMaxSplits 256 + +// Max delta allowed in any color component for an axial shading fill. +#define axialColorDelta (dblToCol(1 / 256.0)) + +// Max number of splits along the t axis for a radial shading fill. +#define radialMaxSplits 256 + +// Max delta allowed in any color component for a radial shading fill. +#define radialColorDelta (dblToCol(1 / 256.0)) + +// Max recursive depth for a Gouraud triangle shading fill. +#define gouraudMaxDepth 6 + +// Max delta allowed in any color component for a Gouraud triangle +// shading fill. +#define gouraudColorDelta (dblToCol(1 / 256.0)) + +// Max recursive depth for a patch mesh shading fill. +#define patchMaxDepth 6 + +// Max delta allowed in any color component for a patch mesh shading +// fill. +#define patchColorDelta (dblToCol(1 / 256.0)) + +//------------------------------------------------------------------------ +// Operator table +//------------------------------------------------------------------------ + +#ifdef WIN32 // this works around a bug in the VC7 compiler +# pragma optimize("",off) +#endif + +Operator Gfx::opTab[] = { + {"\"", 3, {tchkNum, tchkNum, tchkString}, + &Gfx::opMoveSetShowText}, + {"'", 1, {tchkString}, + &Gfx::opMoveShowText}, + {"B", 0, {tchkNone}, + &Gfx::opFillStroke}, + {"B*", 0, {tchkNone}, + &Gfx::opEOFillStroke}, + {"BDC", 2, {tchkName, tchkProps}, + &Gfx::opBeginMarkedContent}, + {"BI", 0, {tchkNone}, + &Gfx::opBeginImage}, + {"BMC", 1, {tchkName}, + &Gfx::opBeginMarkedContent}, + {"BT", 0, {tchkNone}, + &Gfx::opBeginText}, + {"BX", 0, {tchkNone}, + &Gfx::opBeginIgnoreUndef}, + {"CS", 1, {tchkName}, + &Gfx::opSetStrokeColorSpace}, + {"DP", 2, {tchkName, tchkProps}, + &Gfx::opMarkPoint}, + {"Do", 1, {tchkName}, + &Gfx::opXObject}, + {"EI", 0, {tchkNone}, + &Gfx::opEndImage}, + {"EMC", 0, {tchkNone}, + &Gfx::opEndMarkedContent}, + {"ET", 0, {tchkNone}, + &Gfx::opEndText}, + {"EX", 0, {tchkNone}, + &Gfx::opEndIgnoreUndef}, + {"F", 0, {tchkNone}, + &Gfx::opFill}, + {"G", 1, {tchkNum}, + &Gfx::opSetStrokeGray}, + {"ID", 0, {tchkNone}, + &Gfx::opImageData}, + {"J", 1, {tchkInt}, + &Gfx::opSetLineCap}, + {"K", 4, {tchkNum, tchkNum, tchkNum, tchkNum}, + &Gfx::opSetStrokeCMYKColor}, + {"M", 1, {tchkNum}, + &Gfx::opSetMiterLimit}, + {"MP", 1, {tchkName}, + &Gfx::opMarkPoint}, + {"Q", 0, {tchkNone}, + &Gfx::opRestore}, + {"RG", 3, {tchkNum, tchkNum, tchkNum}, + &Gfx::opSetStrokeRGBColor}, + {"S", 0, {tchkNone}, + &Gfx::opStroke}, + {"SC", -4, {tchkNum, tchkNum, tchkNum, tchkNum}, + &Gfx::opSetStrokeColor}, + {"SCN", -33, {tchkSCN, tchkSCN, tchkSCN, tchkSCN, + tchkSCN, tchkSCN, tchkSCN, tchkSCN, + tchkSCN, tchkSCN, tchkSCN, tchkSCN, + tchkSCN, tchkSCN, tchkSCN, tchkSCN, + tchkSCN, tchkSCN, tchkSCN, tchkSCN, + tchkSCN, tchkSCN, tchkSCN, tchkSCN, + tchkSCN, tchkSCN, tchkSCN, tchkSCN, + tchkSCN, tchkSCN, tchkSCN, tchkSCN, + tchkSCN}, + &Gfx::opSetStrokeColorN}, + {"T*", 0, {tchkNone}, + &Gfx::opTextNextLine}, + {"TD", 2, {tchkNum, tchkNum}, + &Gfx::opTextMoveSet}, + {"TJ", 1, {tchkArray}, + &Gfx::opShowSpaceText}, + {"TL", 1, {tchkNum}, + &Gfx::opSetTextLeading}, + {"Tc", 1, {tchkNum}, + &Gfx::opSetCharSpacing}, + {"Td", 2, {tchkNum, tchkNum}, + &Gfx::opTextMove}, + {"Tf", 2, {tchkName, tchkNum}, + &Gfx::opSetFont}, + {"Tj", 1, {tchkString}, + &Gfx::opShowText}, + {"Tm", 6, {tchkNum, tchkNum, tchkNum, tchkNum, + tchkNum, tchkNum}, + &Gfx::opSetTextMatrix}, + {"Tr", 1, {tchkInt}, + &Gfx::opSetTextRender}, + {"Ts", 1, {tchkNum}, + &Gfx::opSetTextRise}, + {"Tw", 1, {tchkNum}, + &Gfx::opSetWordSpacing}, + {"Tz", 1, {tchkNum}, + &Gfx::opSetHorizScaling}, + {"W", 0, {tchkNone}, + &Gfx::opClip}, + {"W*", 0, {tchkNone}, + &Gfx::opEOClip}, + {"b", 0, {tchkNone}, + &Gfx::opCloseFillStroke}, + {"b*", 0, {tchkNone}, + &Gfx::opCloseEOFillStroke}, + {"c", 6, {tchkNum, tchkNum, tchkNum, tchkNum, + tchkNum, tchkNum}, + &Gfx::opCurveTo}, + {"cm", 6, {tchkNum, tchkNum, tchkNum, tchkNum, + tchkNum, tchkNum}, + &Gfx::opConcat}, + {"cs", 1, {tchkName}, + &Gfx::opSetFillColorSpace}, + {"d", 2, {tchkArray, tchkNum}, + &Gfx::opSetDash}, + {"d0", 2, {tchkNum, tchkNum}, + &Gfx::opSetCharWidth}, + {"d1", 6, {tchkNum, tchkNum, tchkNum, tchkNum, + tchkNum, tchkNum}, + &Gfx::opSetCacheDevice}, + {"f", 0, {tchkNone}, + &Gfx::opFill}, + {"f*", 0, {tchkNone}, + &Gfx::opEOFill}, + {"g", 1, {tchkNum}, + &Gfx::opSetFillGray}, + {"gs", 1, {tchkName}, + &Gfx::opSetExtGState}, + {"h", 0, {tchkNone}, + &Gfx::opClosePath}, + {"i", 1, {tchkNum}, + &Gfx::opSetFlat}, + {"j", 1, {tchkInt}, + &Gfx::opSetLineJoin}, + {"k", 4, {tchkNum, tchkNum, tchkNum, tchkNum}, + &Gfx::opSetFillCMYKColor}, + {"l", 2, {tchkNum, tchkNum}, + &Gfx::opLineTo}, + {"m", 2, {tchkNum, tchkNum}, + &Gfx::opMoveTo}, + {"n", 0, {tchkNone}, + &Gfx::opEndPath}, + {"q", 0, {tchkNone}, + &Gfx::opSave}, + {"re", 4, {tchkNum, tchkNum, tchkNum, tchkNum}, + &Gfx::opRectangle}, + {"rg", 3, {tchkNum, tchkNum, tchkNum}, + &Gfx::opSetFillRGBColor}, + {"ri", 1, {tchkName}, + &Gfx::opSetRenderingIntent}, + {"s", 0, {tchkNone}, + &Gfx::opCloseStroke}, + {"sc", -4, {tchkNum, tchkNum, tchkNum, tchkNum}, + &Gfx::opSetFillColor}, + {"scn", -33, {tchkSCN, tchkSCN, tchkSCN, tchkSCN, + tchkSCN, tchkSCN, tchkSCN, tchkSCN, + tchkSCN, tchkSCN, tchkSCN, tchkSCN, + tchkSCN, tchkSCN, tchkSCN, tchkSCN, + tchkSCN, tchkSCN, tchkSCN, tchkSCN, + tchkSCN, tchkSCN, tchkSCN, tchkSCN, + tchkSCN, tchkSCN, tchkSCN, tchkSCN, + tchkSCN, tchkSCN, tchkSCN, tchkSCN, + tchkSCN}, + &Gfx::opSetFillColorN}, + {"sh", 1, {tchkName}, + &Gfx::opShFill}, + {"v", 4, {tchkNum, tchkNum, tchkNum, tchkNum}, + &Gfx::opCurveTo1}, + {"w", 1, {tchkNum}, + &Gfx::opSetLineWidth}, + {"y", 4, {tchkNum, tchkNum, tchkNum, tchkNum}, + &Gfx::opCurveTo2}, +}; + +#ifdef WIN32 // this works around a bug in the VC7 compiler +# pragma optimize("",on) +#endif + +#define numOps (sizeof(opTab) / sizeof(Operator)) + +//------------------------------------------------------------------------ +// GfxResources +//------------------------------------------------------------------------ + +GfxResources::GfxResources(XRef *xref, Dict *resDict, GfxResources *nextA) { + Object obj1, obj2; + Ref r; + + if (resDict) { + + // build font dictionary + fonts = NULL; + resDict->lookupNF("Font", &obj1); + if (obj1.isRef()) { + obj1.fetch(xref, &obj2); + if (obj2.isDict()) { + r = obj1.getRef(); + fonts = new GfxFontDict(xref, &r, obj2.getDict()); + } + obj2.free(); + } else if (obj1.isDict()) { + fonts = new GfxFontDict(xref, NULL, obj1.getDict()); + } + obj1.free(); + + // get XObject dictionary + resDict->lookup("XObject", &xObjDict); + + // get color space dictionary + resDict->lookup("ColorSpace", &colorSpaceDict); + + // get pattern dictionary + resDict->lookup("Pattern", &patternDict); + + // get shading dictionary + resDict->lookup("Shading", &shadingDict); + + // get graphics state parameter dictionary + resDict->lookup("ExtGState", &gStateDict); + + } else { + fonts = NULL; + xObjDict.initNull(); + colorSpaceDict.initNull(); + patternDict.initNull(); + shadingDict.initNull(); + gStateDict.initNull(); + } + + next = nextA; +} + +GfxResources::~GfxResources() { + if (fonts) { + delete fonts; + } + xObjDict.free(); + colorSpaceDict.free(); + patternDict.free(); + shadingDict.free(); + gStateDict.free(); +} + +GfxFont *GfxResources::lookupFont(char *name) { + GfxFont *font; + GfxResources *resPtr; + + for (resPtr = this; resPtr; resPtr = resPtr->next) { + if (resPtr->fonts) { + if ((font = resPtr->fonts->lookup(name))) + return font; + } + } + error(-1, "Unknown font tag '%s'", name); + return NULL; +} + +GBool GfxResources::lookupXObject(char *name, Object *obj) { + GfxResources *resPtr; + + for (resPtr = this; resPtr; resPtr = resPtr->next) { + if (resPtr->xObjDict.isDict()) { + if (!resPtr->xObjDict.dictLookup(name, obj)->isNull()) + return gTrue; + obj->free(); + } + } + error(-1, "XObject '%s' is unknown", name); + return gFalse; +} + +GBool GfxResources::lookupXObjectNF(char *name, Object *obj) { + GfxResources *resPtr; + + for (resPtr = this; resPtr; resPtr = resPtr->next) { + if (resPtr->xObjDict.isDict()) { + if (!resPtr->xObjDict.dictLookupNF(name, obj)->isNull()) + return gTrue; + obj->free(); + } + } + error(-1, "XObject '%s' is unknown", name); + return gFalse; +} + +void GfxResources::lookupColorSpace(char *name, Object *obj) { + GfxResources *resPtr; + + for (resPtr = this; resPtr; resPtr = resPtr->next) { + if (resPtr->colorSpaceDict.isDict()) { + if (!resPtr->colorSpaceDict.dictLookup(name, obj)->isNull()) { + return; + } + obj->free(); + } + } + obj->initNull(); +} + +GfxPattern *GfxResources::lookupPattern(char *name) { + GfxResources *resPtr; + GfxPattern *pattern; + Object obj; + + for (resPtr = this; resPtr; resPtr = resPtr->next) { + if (resPtr->patternDict.isDict()) { + if (!resPtr->patternDict.dictLookup(name, &obj)->isNull()) { + pattern = GfxPattern::parse(&obj); + obj.free(); + return pattern; + } + obj.free(); + } + } + error(-1, "Unknown pattern '%s'", name); + return NULL; +} + +GfxShading *GfxResources::lookupShading(char *name) { + GfxResources *resPtr; + GfxShading *shading; + Object obj; + + for (resPtr = this; resPtr; resPtr = resPtr->next) { + if (resPtr->shadingDict.isDict()) { + if (!resPtr->shadingDict.dictLookup(name, &obj)->isNull()) { + shading = GfxShading::parse(&obj); + obj.free(); + return shading; + } + obj.free(); + } + } + error(-1, "Unknown shading '%s'", name); + return NULL; +} + +GBool GfxResources::lookupGState(char *name, Object *obj) { + GfxResources *resPtr; + + for (resPtr = this; resPtr; resPtr = resPtr->next) { + if (resPtr->gStateDict.isDict()) { + if (!resPtr->gStateDict.dictLookup(name, obj)->isNull()) { + return gTrue; + } + obj->free(); + } + } + error(-1, "ExtGState '%s' is unknown", name); + return gFalse; +} + +//------------------------------------------------------------------------ +// Gfx +//------------------------------------------------------------------------ + +Gfx::Gfx(XRef *xrefA, OutputDev *outA, int pageNum, Dict *resDict, + double hDPI, double vDPI, PDFRectangle *box, + PDFRectangle *cropBox, int rotate, + GBool (*abortCheckCbkA)(void *data), + void *abortCheckCbkDataA) { + int i; + + xref = xrefA; + subPage = gFalse; + printCommands = globalParams->getPrintCommands(); + + // start the resource stack + res = new GfxResources(xref, resDict, NULL); + + // initialize + out = outA; + state = new GfxState(hDPI, vDPI, box, rotate, out->upsideDown()); + fontChanged = gFalse; + clip = clipNone; + ignoreUndef = 0; + out->startPage(pageNum, state); + out->setDefaultCTM(state->getCTM()); + out->updateAll(state); + for (i = 0; i < 6; ++i) { + baseMatrix[i] = state->getCTM()[i]; + } + formDepth = 0; + abortCheckCbk = abortCheckCbkA; + abortCheckCbkData = abortCheckCbkDataA; + + // set crop box + if (cropBox) { + state->moveTo(cropBox->x1, cropBox->y1); + state->lineTo(cropBox->x2, cropBox->y1); + state->lineTo(cropBox->x2, cropBox->y2); + state->lineTo(cropBox->x1, cropBox->y2); + state->closePath(); + state->clip(); + out->clip(state); + state->clearPath(); + } +} + +Gfx::Gfx(XRef *xrefA, OutputDev *outA, Dict *resDict, + PDFRectangle *box, PDFRectangle *cropBox, + GBool (*abortCheckCbkA)(void *data), + void *abortCheckCbkDataA) { + int i; + + xref = xrefA; + subPage = gTrue; + printCommands = globalParams->getPrintCommands(); + + // start the resource stack + res = new GfxResources(xref, resDict, NULL); + + // initialize + out = outA; + state = new GfxState(72, 72, box, 0, gFalse); + fontChanged = gFalse; + clip = clipNone; + ignoreUndef = 0; + for (i = 0; i < 6; ++i) { + baseMatrix[i] = state->getCTM()[i]; + } + formDepth = 0; + abortCheckCbk = abortCheckCbkA; + abortCheckCbkData = abortCheckCbkDataA; + + // set crop box + if (cropBox) { + state->moveTo(cropBox->x1, cropBox->y1); + state->lineTo(cropBox->x2, cropBox->y1); + state->lineTo(cropBox->x2, cropBox->y2); + state->lineTo(cropBox->x1, cropBox->y2); + state->closePath(); + state->clip(); + out->clip(state); + state->clearPath(); + } +} + +Gfx::~Gfx() { + while (state->hasSaves()) { + restoreState(); + } + if (!subPage) { + out->endPage(); + } + while (res) { + popResources(); + } + if (state) { + delete state; + } +} + +void Gfx::display(Object *obj, GBool topLevel) { + Object obj2; + int i; + + if (obj->isArray()) { + for (i = 0; i < obj->arrayGetLength(); ++i) { + obj->arrayGet(i, &obj2); + if (!obj2.isStream()) { + error(-1, "Weird page contents"); + obj2.free(); + return; + } + obj2.free(); + } + } else if (!obj->isStream()) { + error(-1, "Weird page contents"); + return; + } + parser = new Parser(xref, new Lexer(xref, obj), gFalse); + go(topLevel); + delete parser; + parser = NULL; +} + +void Gfx::go(GBool topLevel) { + Object obj; + Object args[maxArgs]; + int numArgs, i; + int lastAbortCheck; + + // scan a sequence of objects + updateLevel = lastAbortCheck = 0; + numArgs = 0; + parser->getObj(&obj); + while (!obj.isEOF()) { + + // got a command - execute it + if (obj.isCmd()) { + if (printCommands) { + obj.print(stdout); + for (i = 0; i < numArgs; ++i) { + printf(" "); + args[i].print(stdout); + } + printf("\n"); + fflush(stdout); + } + execOp(&obj, args, numArgs); + obj.free(); + for (i = 0; i < numArgs; ++i) + args[i].free(); + numArgs = 0; + + // periodically update display + if (++updateLevel >= 20000) { + out->dump(); + updateLevel = 0; + } + + // check for an abort + if (abortCheckCbk) { + if (updateLevel - lastAbortCheck > 10) { + if ((*abortCheckCbk)(abortCheckCbkData)) { + break; + } + lastAbortCheck = updateLevel; + } + } + + // got an argument - save it + } else if (numArgs < maxArgs) { + args[numArgs++] = obj; + + // too many arguments - something is wrong + } else { + error(getPos(), "Too many args in content stream"); + if (printCommands) { + printf("throwing away arg: "); + obj.print(stdout); + printf("\n"); + fflush(stdout); + } + obj.free(); + } + + // grab the next object + parser->getObj(&obj); + } + obj.free(); + + // args at end with no command + if (numArgs > 0) { + error(getPos(), "Leftover args in content stream"); + if (printCommands) { + printf("%d leftovers:", numArgs); + for (i = 0; i < numArgs; ++i) { + printf(" "); + args[i].print(stdout); + } + printf("\n"); + fflush(stdout); + } + for (i = 0; i < numArgs; ++i) + args[i].free(); + } + + // update display + if (topLevel && updateLevel > 0) { + out->dump(); + } +} + +void Gfx::execOp(Object *cmd, Object args[], int numArgs) { + Operator *op; + char *name; + Object *argPtr; + int i; + + // find operator + name = cmd->getCmd(); + if (!(op = findOp(name))) { + if (ignoreUndef == 0) + error(getPos(), "Unknown operator '%s'", name); + return; + } + + // type check args + argPtr = args; + if (op->numArgs >= 0) { + if (numArgs < op->numArgs) { + error(getPos(), "Too few (%d) args to '%s' operator", numArgs, name); + return; + } + if (numArgs > op->numArgs) { +#if 0 + error(getPos(), "Too many (%d) args to '%s' operator", numArgs, name); +#endif + argPtr += numArgs - op->numArgs; + numArgs = op->numArgs; + } + } else { + if (numArgs > -op->numArgs) { + error(getPos(), "Too many (%d) args to '%s' operator", + numArgs, name); + return; + } + } + for (i = 0; i < numArgs; ++i) { + if (!checkArg(&argPtr[i], op->tchk[i])) { + error(getPos(), "Arg #%d to '%s' operator is wrong type (%s)", + i, name, argPtr[i].getTypeName()); + return; + } + } + + // do it + (this->*op->func)(argPtr, numArgs); +} + +Operator *Gfx::findOp(char *name) { + int a, b, m, cmp; + + a = -1; + b = numOps; + // invariant: opTab[a] < name < opTab[b] + while (b - a > 1) { + m = (a + b) / 2; + cmp = strcmp(opTab[m].name, name); + if (cmp < 0) + a = m; + else if (cmp > 0) + b = m; + else + a = b = m; + } + if (cmp != 0) + return NULL; + return &opTab[a]; +} + +GBool Gfx::checkArg(Object *arg, TchkType type) { + switch (type) { + case tchkBool: return arg->isBool(); + case tchkInt: return arg->isInt(); + case tchkNum: return arg->isNum(); + case tchkString: return arg->isString(); + case tchkName: return arg->isName(); + case tchkArray: return arg->isArray(); + case tchkProps: return arg->isDict() || arg->isName(); + case tchkSCN: return arg->isNum() || arg->isName(); + case tchkNone: return gFalse; + } + return gFalse; +} + +int Gfx::getPos() { + return parser ? parser->getPos() : -1; +} + +//------------------------------------------------------------------------ +// graphics state operators +//------------------------------------------------------------------------ + +void Gfx::opSave(Object * /*args[]*/, int /*numArgs*/) { + saveState(); +} + +void Gfx::opRestore(Object * /*args[]*/, int /*numArgs*/) { + restoreState(); +} + +void Gfx::opConcat(Object args[], int /*numArgs*/) { + state->concatCTM(args[0].getNum(), args[1].getNum(), + args[2].getNum(), args[3].getNum(), + args[4].getNum(), args[5].getNum()); + out->updateCTM(state, args[0].getNum(), args[1].getNum(), + args[2].getNum(), args[3].getNum(), + args[4].getNum(), args[5].getNum()); + fontChanged = gTrue; +} + +void Gfx::opSetDash(Object args[], int /*numArgs*/) { + Array *a; + int length; + Object obj; + double *dash; + int i; + + a = args[0].getArray(); + length = a->getLength(); + if (length == 0) { + dash = NULL; + } else { + dash = (double *)gmallocn(length, sizeof(double)); + for (i = 0; i < length; ++i) { + dash[i] = a->get(i, &obj)->getNum(); + obj.free(); + } + } + state->setLineDash(dash, length, args[1].getNum()); + out->updateLineDash(state); +} + +void Gfx::opSetFlat(Object args[], int /*numArgs*/) { + state->setFlatness((int)args[0].getNum()); + out->updateFlatness(state); +} + +void Gfx::opSetLineJoin(Object args[], int /*numArgs*/) { + state->setLineJoin(args[0].getInt()); + out->updateLineJoin(state); +} + +void Gfx::opSetLineCap(Object args[], int /*numArgs*/) { + state->setLineCap(args[0].getInt()); + out->updateLineCap(state); +} + +void Gfx::opSetMiterLimit(Object args[], int /*numArgs*/) { + state->setMiterLimit(args[0].getNum()); + out->updateMiterLimit(state); +} + +void Gfx::opSetLineWidth(Object args[], int /*numArgs*/) { + state->setLineWidth(args[0].getNum()); + out->updateLineWidth(state); +} + +void Gfx::opSetExtGState(Object args[], int /*numArgs*/) { + Object obj1, obj2, obj3, obj4, obj5; + GfxBlendMode mode; + GBool haveFillOP; + Function *funcs[4]; + GfxColor backdropColor; + GBool haveBackdropColor; + GfxColorSpace *blendingColorSpace; + GBool alpha, isolated, knockout; + int i; + + if (!res->lookupGState(args[0].getName(), &obj1)) { + return; + } + if (!obj1.isDict()) { + error(getPos(), "ExtGState '%s' is wrong type", args[0].getName()); + obj1.free(); + return; + } + if (printCommands) { + printf(" gfx state dict: "); + obj1.print(); + printf("\n"); + } + + // transparency support: blend mode, fill/stroke opacity + if (!obj1.dictLookup("BM", &obj2)->isNull()) { + if (state->parseBlendMode(&obj2, &mode)) { + state->setBlendMode(mode); + out->updateBlendMode(state); + } else { + error(getPos(), "Invalid blend mode in ExtGState"); + } + } + obj2.free(); + if (obj1.dictLookup("ca", &obj2)->isNum()) { + state->setFillOpacity(obj2.getNum()); + out->updateFillOpacity(state); + } + obj2.free(); + if (obj1.dictLookup("CA", &obj2)->isNum()) { + state->setStrokeOpacity(obj2.getNum()); + out->updateStrokeOpacity(state); + } + obj2.free(); + + // fill/stroke overprint + if ((haveFillOP = (obj1.dictLookup("op", &obj2)->isBool()))) { + state->setFillOverprint(obj2.getBool()); + out->updateFillOverprint(state); + } + obj2.free(); + if (obj1.dictLookup("OP", &obj2)->isBool()) { + state->setStrokeOverprint(obj2.getBool()); + out->updateStrokeOverprint(state); + if (!haveFillOP) { + state->setFillOverprint(obj2.getBool()); + out->updateFillOverprint(state); + } + } + obj2.free(); + + // stroke adjust + if (obj1.dictLookup("SA", &obj2)->isBool()) { + state->setStrokeAdjust(obj2.getBool()); + out->updateStrokeAdjust(state); + } + obj2.free(); + + // transfer function + if (obj1.dictLookup("TR2", &obj2)->isNull()) { + obj2.free(); + obj1.dictLookup("TR", &obj2); + } + if (obj2.isName("Default") || + obj2.isName("Identity")) { + funcs[0] = funcs[1] = funcs[2] = funcs[3] = NULL; + state->setTransfer(funcs); + out->updateTransfer(state); + } else if (obj2.isArray() && obj2.arrayGetLength() == 4) { + for (i = 0; i < 4; ++i) { + obj2.arrayGet(i, &obj3); + funcs[i] = Function::parse(&obj3); + obj3.free(); + if (!funcs[i]) { + break; + } + } + if (i == 4) { + state->setTransfer(funcs); + out->updateTransfer(state); + } + } else if (obj2.isName() || obj2.isDict() || obj2.isStream()) { + if ((funcs[0] = Function::parse(&obj2))) { + funcs[1] = funcs[2] = funcs[3] = NULL; + state->setTransfer(funcs); + out->updateTransfer(state); + } + } else if (!obj2.isNull()) { + error(getPos(), "Invalid transfer function in ExtGState"); + } + obj2.free(); + + // soft mask + if (!obj1.dictLookup("SMask", &obj2)->isNull()) { + if (obj2.isName("None")) { + out->clearSoftMask(state); + } else if (obj2.isDict()) { + if (obj2.dictLookup("S", &obj3)->isName("Alpha")) { + alpha = gTrue; + } else { // "Luminosity" + alpha = gFalse; + } + obj3.free(); + funcs[0] = NULL; + if (!obj2.dictLookup("TR", &obj3)->isNull()) { + funcs[0] = Function::parse(&obj3); + if (funcs[0]->getInputSize() != 1 || + funcs[0]->getOutputSize() != 1) { + error(getPos(), + "Invalid transfer function in soft mask in ExtGState"); + delete funcs[0]; + funcs[0] = NULL; + } + } + obj3.free(); + if ((haveBackdropColor = obj2.dictLookup("BC", &obj3)->isArray())) { + for (i = 0; i < gfxColorMaxComps; ++i) { + backdropColor.c[i] = 0; + } + for (i = 0; i < obj3.arrayGetLength() && i < gfxColorMaxComps; ++i) { + obj3.arrayGet(i, &obj4); + if (obj4.isNum()) { + backdropColor.c[i] = dblToCol(obj4.getNum()); + } + obj4.free(); + } + } + obj3.free(); + if (obj2.dictLookup("G", &obj3)->isStream()) { + if (obj3.streamGetDict()->lookup("Group", &obj4)->isDict()) { + blendingColorSpace = NULL; + isolated = knockout = gFalse; + if (!obj4.dictLookup("CS", &obj5)->isNull()) { + blendingColorSpace = GfxColorSpace::parse(&obj5); + } + obj5.free(); + if (obj4.dictLookup("I", &obj5)->isBool()) { + isolated = obj5.getBool(); + } + obj5.free(); + if (obj4.dictLookup("K", &obj5)->isBool()) { + knockout = obj5.getBool(); + } + obj5.free(); + if (!haveBackdropColor) { + if (blendingColorSpace) { + blendingColorSpace->getDefaultColor(&backdropColor); + } else { + //~ need to get the parent or default color space (?) + for (i = 0; i < gfxColorMaxComps; ++i) { + backdropColor.c[i] = 0; + } + } + } + doSoftMask(&obj3, alpha, blendingColorSpace, + isolated, knockout, funcs[0], &backdropColor); + if (funcs[0]) { + delete funcs[0]; + } + } else { + error(getPos(), "Invalid soft mask in ExtGState - missing group"); + } + obj4.free(); + } else { + error(getPos(), "Invalid soft mask in ExtGState - missing group"); + } + obj3.free(); + } else if (!obj2.isNull()) { + error(getPos(), "Invalid soft mask in ExtGState"); + } + } + obj2.free(); + + obj1.free(); +} + +void Gfx::doSoftMask(Object *str, GBool alpha, + GfxColorSpace *blendingColorSpace, + GBool isolated, GBool knockout, + Function *transferFunc, GfxColor *backdropColor) { + Dict *dict, *resDict; + double m[6], bbox[4]; + Object obj1, obj2; + int i; + + // check for excessive recursion + if (formDepth > 20) { + return; + } + + // get stream dict + dict = str->streamGetDict(); + + // check form type + dict->lookup("FormType", &obj1); + if (!(obj1.isNull() || (obj1.isInt() && obj1.getInt() == 1))) { + error(getPos(), "Unknown form type"); + } + obj1.free(); + + // get bounding box + dict->lookup("BBox", &obj1); + if (!obj1.isArray()) { + obj1.free(); + error(getPos(), "Bad form bounding box"); + return; + } + for (i = 0; i < 4; ++i) { + obj1.arrayGet(i, &obj2); + bbox[i] = obj2.getNum(); + obj2.free(); + } + obj1.free(); + + // get matrix + dict->lookup("Matrix", &obj1); + if (obj1.isArray()) { + for (i = 0; i < 6; ++i) { + obj1.arrayGet(i, &obj2); + m[i] = obj2.getNum(); + obj2.free(); + } + } else { + m[0] = 1; m[1] = 0; + m[2] = 0; m[3] = 1; + m[4] = 0; m[5] = 0; + } + obj1.free(); + + // get resources + dict->lookup("Resources", &obj1); + resDict = obj1.isDict() ? obj1.getDict() : (Dict *)NULL; + + // draw it + ++formDepth; + doForm1(str, resDict, m, bbox, gTrue, gTrue, + blendingColorSpace, isolated, knockout, + alpha, transferFunc, backdropColor); + --formDepth; + + if (blendingColorSpace) { + delete blendingColorSpace; + } + obj1.free(); +} + +void Gfx::opSetRenderingIntent(Object * /*args[]*/, int /*numArgs*/) { +} + +//------------------------------------------------------------------------ +// color operators +//------------------------------------------------------------------------ + +void Gfx::opSetFillGray(Object args[], int /*numArgs*/) { + GfxColor color; + + state->setFillPattern(NULL); + state->setFillColorSpace(new GfxDeviceGrayColorSpace()); + out->updateFillColorSpace(state); + color.c[0] = dblToCol(args[0].getNum()); + state->setFillColor(&color); + out->updateFillColor(state); +} + +void Gfx::opSetStrokeGray(Object args[], int /*numArgs*/) { + GfxColor color; + + state->setStrokePattern(NULL); + state->setStrokeColorSpace(new GfxDeviceGrayColorSpace()); + out->updateStrokeColorSpace(state); + color.c[0] = dblToCol(args[0].getNum()); + state->setStrokeColor(&color); + out->updateStrokeColor(state); +} + +void Gfx::opSetFillCMYKColor(Object args[], int /*numArgs*/) { + GfxColor color; + int i; + + state->setFillPattern(NULL); + state->setFillColorSpace(new GfxDeviceCMYKColorSpace()); + out->updateFillColorSpace(state); + for (i = 0; i < 4; ++i) { + color.c[i] = dblToCol(args[i].getNum()); + } + state->setFillColor(&color); + out->updateFillColor(state); +} + +void Gfx::opSetStrokeCMYKColor(Object args[], int /*numArgs*/) { + GfxColor color; + int i; + + state->setStrokePattern(NULL); + state->setStrokeColorSpace(new GfxDeviceCMYKColorSpace()); + out->updateStrokeColorSpace(state); + for (i = 0; i < 4; ++i) { + color.c[i] = dblToCol(args[i].getNum()); + } + state->setStrokeColor(&color); + out->updateStrokeColor(state); +} + +void Gfx::opSetFillRGBColor(Object args[], int /*numArgs*/) { + GfxColor color; + int i; + + state->setFillPattern(NULL); + state->setFillColorSpace(new GfxDeviceRGBColorSpace()); + out->updateFillColorSpace(state); + for (i = 0; i < 3; ++i) { + color.c[i] = dblToCol(args[i].getNum()); + } + state->setFillColor(&color); + out->updateFillColor(state); +} + +void Gfx::opSetStrokeRGBColor(Object args[], int /*numArgs*/) { + GfxColor color; + int i; + + state->setStrokePattern(NULL); + state->setStrokeColorSpace(new GfxDeviceRGBColorSpace()); + out->updateStrokeColorSpace(state); + for (i = 0; i < 3; ++i) { + color.c[i] = dblToCol(args[i].getNum()); + } + state->setStrokeColor(&color); + out->updateStrokeColor(state); +} + +void Gfx::opSetFillColorSpace(Object args[], int /*numArgs*/) { + Object obj; + GfxColorSpace *colorSpace; + GfxColor color; + + state->setFillPattern(NULL); + res->lookupColorSpace(args[0].getName(), &obj); + if (obj.isNull()) { + colorSpace = GfxColorSpace::parse(&args[0]); + } else { + colorSpace = GfxColorSpace::parse(&obj); + } + obj.free(); + if (colorSpace) { + state->setFillColorSpace(colorSpace); + out->updateFillColorSpace(state); + colorSpace->getDefaultColor(&color); + state->setFillColor(&color); + out->updateFillColor(state); + } else { + error(getPos(), "Bad color space (fill)"); + } +} + +void Gfx::opSetStrokeColorSpace(Object args[], int /*numArgs*/) { + Object obj; + GfxColorSpace *colorSpace; + GfxColor color; + + state->setStrokePattern(NULL); + res->lookupColorSpace(args[0].getName(), &obj); + if (obj.isNull()) { + colorSpace = GfxColorSpace::parse(&args[0]); + } else { + colorSpace = GfxColorSpace::parse(&obj); + } + obj.free(); + if (colorSpace) { + state->setStrokeColorSpace(colorSpace); + out->updateStrokeColorSpace(state); + colorSpace->getDefaultColor(&color); + state->setStrokeColor(&color); + out->updateStrokeColor(state); + } else { + error(getPos(), "Bad color space (stroke)"); + } +} + +void Gfx::opSetFillColor(Object args[], int numArgs) { + GfxColor color; + int i; + + if (numArgs != state->getFillColorSpace()->getNComps()) { + error(getPos(), "Incorrect number of arguments in 'sc' command"); + return; + } + state->setFillPattern(NULL); + for (i = 0; i < numArgs; ++i) { + color.c[i] = dblToCol(args[i].getNum()); + } + state->setFillColor(&color); + out->updateFillColor(state); +} + +void Gfx::opSetStrokeColor(Object args[], int numArgs) { + GfxColor color; + int i; + + if (numArgs != state->getStrokeColorSpace()->getNComps()) { + error(getPos(), "Incorrect number of arguments in 'SC' command"); + return; + } + state->setStrokePattern(NULL); + for (i = 0; i < numArgs; ++i) { + color.c[i] = dblToCol(args[i].getNum()); + } + state->setStrokeColor(&color); + out->updateStrokeColor(state); +} + +void Gfx::opSetFillColorN(Object args[], int numArgs) { + GfxColor color; + GfxPattern *pattern; + int i; + + if (state->getFillColorSpace()->getMode() == csPattern) { + if (numArgs > 1) { + if (!((GfxPatternColorSpace *)state->getFillColorSpace())->getUnder() || + numArgs - 1 != ((GfxPatternColorSpace *)state->getFillColorSpace()) + ->getUnder()->getNComps()) { + error(getPos(), "Incorrect number of arguments in 'scn' command"); + return; + } + for (i = 0; i < numArgs - 1 && i < gfxColorMaxComps; ++i) { + if (args[i].isNum()) { + color.c[i] = dblToCol(args[i].getNum()); + } + } + state->setFillColor(&color); + out->updateFillColor(state); + } + if (args[numArgs-1].isName() && + (pattern = res->lookupPattern(args[numArgs-1].getName()))) { + state->setFillPattern(pattern); + } + + } else { + if (numArgs != state->getFillColorSpace()->getNComps()) { + error(getPos(), "Incorrect number of arguments in 'scn' command"); + return; + } + state->setFillPattern(NULL); + for (i = 0; i < numArgs && i < gfxColorMaxComps; ++i) { + if (args[i].isNum()) { + color.c[i] = dblToCol(args[i].getNum()); + } + } + state->setFillColor(&color); + out->updateFillColor(state); + } +} + +void Gfx::opSetStrokeColorN(Object args[], int numArgs) { + GfxColor color; + GfxPattern *pattern; + int i; + + if (state->getStrokeColorSpace()->getMode() == csPattern) { + if (numArgs > 1) { + if (!((GfxPatternColorSpace *)state->getStrokeColorSpace()) + ->getUnder() || + numArgs - 1 != ((GfxPatternColorSpace *)state->getStrokeColorSpace()) + ->getUnder()->getNComps()) { + error(getPos(), "Incorrect number of arguments in 'SCN' command"); + return; + } + for (i = 0; i < numArgs - 1 && i < gfxColorMaxComps; ++i) { + if (args[i].isNum()) { + color.c[i] = dblToCol(args[i].getNum()); + } + } + state->setStrokeColor(&color); + out->updateStrokeColor(state); + } + if (args[numArgs-1].isName() && + (pattern = res->lookupPattern(args[numArgs-1].getName()))) { + state->setStrokePattern(pattern); + } + + } else { + if (numArgs != state->getStrokeColorSpace()->getNComps()) { + error(getPos(), "Incorrect number of arguments in 'SCN' command"); + return; + } + state->setStrokePattern(NULL); + for (i = 0; i < numArgs && i < gfxColorMaxComps; ++i) { + if (args[i].isNum()) { + color.c[i] = dblToCol(args[i].getNum()); + } + } + state->setStrokeColor(&color); + out->updateStrokeColor(state); + } +} + +//------------------------------------------------------------------------ +// path segment operators +//------------------------------------------------------------------------ + +void Gfx::opMoveTo(Object args[], int /*numArgs*/) { + state->moveTo(args[0].getNum(), args[1].getNum()); +} + +void Gfx::opLineTo(Object args[], int /*numArgs*/) { + if (!state->isCurPt()) { + error(getPos(), "No current point in lineto"); + return; + } + state->lineTo(args[0].getNum(), args[1].getNum()); +} + +void Gfx::opCurveTo(Object args[], int /*numArgs*/) { + double x1, y1, x2, y2, x3, y3; + + if (!state->isCurPt()) { + error(getPos(), "No current point in curveto"); + return; + } + x1 = args[0].getNum(); + y1 = args[1].getNum(); + x2 = args[2].getNum(); + y2 = args[3].getNum(); + x3 = args[4].getNum(); + y3 = args[5].getNum(); + state->curveTo(x1, y1, x2, y2, x3, y3); +} + +void Gfx::opCurveTo1(Object args[], int /*numArgs*/) { + double x1, y1, x2, y2, x3, y3; + + if (!state->isCurPt()) { + error(getPos(), "No current point in curveto1"); + return; + } + x1 = state->getCurX(); + y1 = state->getCurY(); + x2 = args[0].getNum(); + y2 = args[1].getNum(); + x3 = args[2].getNum(); + y3 = args[3].getNum(); + state->curveTo(x1, y1, x2, y2, x3, y3); +} + +void Gfx::opCurveTo2(Object args[], int /*numArgs*/) { + double x1, y1, x2, y2, x3, y3; + + if (!state->isCurPt()) { + error(getPos(), "No current point in curveto2"); + return; + } + x1 = args[0].getNum(); + y1 = args[1].getNum(); + x2 = args[2].getNum(); + y2 = args[3].getNum(); + x3 = x2; + y3 = y2; + state->curveTo(x1, y1, x2, y2, x3, y3); +} + +void Gfx::opRectangle(Object args[], int /*numArgs*/) { + double x, y, w, h; + + x = args[0].getNum(); + y = args[1].getNum(); + w = args[2].getNum(); + h = args[3].getNum(); + state->moveTo(x, y); + state->lineTo(x + w, y); + state->lineTo(x + w, y + h); + state->lineTo(x, y + h); + state->closePath(); +} + +void Gfx::opClosePath(Object * /*args[]*/, int /*numArgs*/) { + if (!state->isCurPt()) { + error(getPos(), "No current point in closepath"); + return; + } + state->closePath(); +} + +//------------------------------------------------------------------------ +// path painting operators +//------------------------------------------------------------------------ + +void Gfx::opEndPath(Object * /*args[]*/, int /*numArgs*/) { + doEndPath(); +} + +void Gfx::opStroke(Object * /*args[]*/, int /*numArgs*/) { + if (!state->isCurPt()) { + //error(getPos(), "No path in stroke"); + return; + } + if (state->isPath()) { + if (state->getStrokeColorSpace()->getMode() == csPattern) { + doPatternStroke(); + } else { + out->stroke(state); + } + } + doEndPath(); +} + +void Gfx::opCloseStroke(Object * /*args[]*/, int /*numArgs*/) { + if (!state->isCurPt()) { + //error(getPos(), "No path in closepath/stroke"); + return; + } + if (state->isPath()) { + state->closePath(); + if (state->getStrokeColorSpace()->getMode() == csPattern) { + doPatternStroke(); + } else { + out->stroke(state); + } + } + doEndPath(); +} + +void Gfx::opFill(Object * /*args[]*/, int /*numArgs*/) { + if (!state->isCurPt()) { + //error(getPos(), "No path in fill"); + return; + } + if (state->isPath()) { + if (state->getFillColorSpace()->getMode() == csPattern) { + doPatternFill(gFalse); + } else { + out->fill(state); + } + } + doEndPath(); +} + +void Gfx::opEOFill(Object * /*args[]*/, int /*numArgs*/) { + if (!state->isCurPt()) { + //error(getPos(), "No path in eofill"); + return; + } + if (state->isPath()) { + if (state->getFillColorSpace()->getMode() == csPattern) { + doPatternFill(gTrue); + } else { + out->eoFill(state); + } + } + doEndPath(); +} + +void Gfx::opFillStroke(Object * /*args[]*/, int /*numArgs*/) { + if (!state->isCurPt()) { + //error(getPos(), "No path in fill/stroke"); + return; + } + if (state->isPath()) { + if (state->getFillColorSpace()->getMode() == csPattern) { + doPatternFill(gFalse); + } else { + out->fill(state); + } + if (state->getStrokeColorSpace()->getMode() == csPattern) { + doPatternStroke(); + } else { + out->stroke(state); + } + } + doEndPath(); +} + +void Gfx::opCloseFillStroke(Object * /*args[]*/, int /*numArgs*/) { + if (!state->isCurPt()) { + //error(getPos(), "No path in closepath/fill/stroke"); + return; + } + if (state->isPath()) { + state->closePath(); + if (state->getFillColorSpace()->getMode() == csPattern) { + doPatternFill(gFalse); + } else { + out->fill(state); + } + if (state->getStrokeColorSpace()->getMode() == csPattern) { + doPatternStroke(); + } else { + out->stroke(state); + } + } + doEndPath(); +} + +void Gfx::opEOFillStroke(Object * /*args[]*/, int /*numArgs*/) { + if (!state->isCurPt()) { + //error(getPos(), "No path in eofill/stroke"); + return; + } + if (state->isPath()) { + if (state->getFillColorSpace()->getMode() == csPattern) { + doPatternFill(gTrue); + } else { + out->eoFill(state); + } + if (state->getStrokeColorSpace()->getMode() == csPattern) { + doPatternStroke(); + } else { + out->stroke(state); + } + } + doEndPath(); +} + +void Gfx::opCloseEOFillStroke(Object * /*args[]*/, int /*numArgs*/) { + if (!state->isCurPt()) { + //error(getPos(), "No path in closepath/eofill/stroke"); + return; + } + if (state->isPath()) { + state->closePath(); + if (state->getFillColorSpace()->getMode() == csPattern) { + doPatternFill(gTrue); + } else { + out->eoFill(state); + } + if (state->getStrokeColorSpace()->getMode() == csPattern) { + doPatternStroke(); + } else { + out->stroke(state); + } + } + doEndPath(); +} + +void Gfx::doPatternFill(GBool eoFill) { + GfxPattern *pattern; + + // this is a bit of a kludge -- patterns can be really slow, so we + // skip them if we're only doing text extraction, since they almost + // certainly don't contain any text + if (!out->needNonText()) { + return; + } + + if (!(pattern = state->getFillPattern())) { + return; + } + switch (pattern->getType()) { + case 1: + doTilingPatternFill((GfxTilingPattern *)pattern, gFalse, eoFill); + break; + case 2: + doShadingPatternFill((GfxShadingPattern *)pattern, gFalse, eoFill); + break; + default: + error(getPos(), "Unimplemented pattern type (%d) in fill", + pattern->getType()); + break; + } +} + +void Gfx::doPatternStroke() { + GfxPattern *pattern; + + // this is a bit of a kludge -- patterns can be really slow, so we + // skip them if we're only doing text extraction, since they almost + // certainly don't contain any text + if (!out->needNonText()) { + return; + } + + if (!(pattern = state->getStrokePattern())) { + return; + } + switch (pattern->getType()) { + case 1: + doTilingPatternFill((GfxTilingPattern *)pattern, gTrue, gFalse); + break; + case 2: + doShadingPatternFill((GfxShadingPattern *)pattern, gTrue, gFalse); + break; + default: + error(getPos(), "Unimplemented pattern type (%d) in stroke", + pattern->getType()); + break; + } +} + +void Gfx::doTilingPatternFill(GfxTilingPattern *tPat, + GBool stroke, GBool eoFill) { + GfxPatternColorSpace *patCS; + GfxColorSpace *cs; + GfxPath *savedPath; + double xMin, yMin, xMax, yMax, x, y, x1, y1; + double cxMin, cyMin, cxMax, cyMax; + int xi0, yi0, xi1, yi1, xi, yi; + double *ctm, *btm, *ptm; + double m[6], ictm[6], m1[6], imb[6]; + double det; + double xstep, ystep; + int i; + + // get color space + patCS = (GfxPatternColorSpace *)(stroke ? state->getStrokeColorSpace() + : state->getFillColorSpace()); + + // construct a (pattern space) -> (current space) transform matrix + ctm = state->getCTM(); + btm = baseMatrix; + ptm = tPat->getMatrix(); + // iCTM = invert CTM + det = 1 / (ctm[0] * ctm[3] - ctm[1] * ctm[2]); + ictm[0] = ctm[3] * det; + ictm[1] = -ctm[1] * det; + ictm[2] = -ctm[2] * det; + ictm[3] = ctm[0] * det; + ictm[4] = (ctm[2] * ctm[5] - ctm[3] * ctm[4]) * det; + ictm[5] = (ctm[1] * ctm[4] - ctm[0] * ctm[5]) * det; + // m1 = PTM * BTM = PTM * base transform matrix + m1[0] = ptm[0] * btm[0] + ptm[1] * btm[2]; + m1[1] = ptm[0] * btm[1] + ptm[1] * btm[3]; + m1[2] = ptm[2] * btm[0] + ptm[3] * btm[2]; + m1[3] = ptm[2] * btm[1] + ptm[3] * btm[3]; + m1[4] = ptm[4] * btm[0] + ptm[5] * btm[2] + btm[4]; + m1[5] = ptm[4] * btm[1] + ptm[5] * btm[3] + btm[5]; + // m = m1 * iCTM = (PTM * BTM) * (iCTM) + m[0] = m1[0] * ictm[0] + m1[1] * ictm[2]; + m[1] = m1[0] * ictm[1] + m1[1] * ictm[3]; + m[2] = m1[2] * ictm[0] + m1[3] * ictm[2]; + m[3] = m1[2] * ictm[1] + m1[3] * ictm[3]; + m[4] = m1[4] * ictm[0] + m1[5] * ictm[2] + ictm[4]; + m[5] = m1[4] * ictm[1] + m1[5] * ictm[3] + ictm[5]; + + // construct a (device space) -> (pattern space) transform matrix + det = 1 / (m1[0] * m1[3] - m1[1] * m1[2]); + imb[0] = m1[3] * det; + imb[1] = -m1[1] * det; + imb[2] = -m1[2] * det; + imb[3] = m1[0] * det; + imb[4] = (m1[2] * m1[5] - m1[3] * m1[4]) * det; + imb[5] = (m1[1] * m1[4] - m1[0] * m1[5]) * det; + + // save current graphics state + savedPath = state->getPath()->copy(); + saveState(); + + // set underlying color space (for uncolored tiling patterns); set + // various other parameters (stroke color, line width) to match + // Adobe's behavior + if (tPat->getPaintType() == 2 && (cs = patCS->getUnder())) { + state->setFillColorSpace(cs->copy()); + out->updateFillColorSpace(state); + state->setStrokeColorSpace(cs->copy()); + out->updateStrokeColorSpace(state); + state->setStrokeColor(state->getFillColor()); + } else { + state->setFillColorSpace(new GfxDeviceGrayColorSpace()); + out->updateFillColorSpace(state); + state->setStrokeColorSpace(new GfxDeviceGrayColorSpace()); + out->updateStrokeColorSpace(state); + } + state->setFillPattern(NULL); + out->updateFillColor(state); + state->setStrokePattern(NULL); + out->updateStrokeColor(state); + if (!stroke) { + state->setLineWidth(0); + out->updateLineWidth(state); + } + + // clip to current path + if (stroke) { + state->clipToStrokePath(); + out->clipToStrokePath(state); + } else { + state->clip(); + if (eoFill) { + out->eoClip(state); + } else { + out->clip(state); + } + } + state->clearPath(); + + // get the clip region, check for empty + state->getClipBBox(&cxMin, &cyMin, &cxMax, &cyMax); + if (cxMin > cxMax || cyMin > cyMax) { + goto err; + } + + // transform clip region bbox to pattern space + xMin = xMax = cxMin * imb[0] + cyMin * imb[2] + imb[4]; + yMin = yMax = cxMin * imb[1] + cyMin * imb[3] + imb[5]; + x1 = cxMin * imb[0] + cyMax * imb[2] + imb[4]; + y1 = cxMin * imb[1] + cyMax * imb[3] + imb[5]; + if (x1 < xMin) { + xMin = x1; + } else if (x1 > xMax) { + xMax = x1; + } + if (y1 < yMin) { + yMin = y1; + } else if (y1 > yMax) { + yMax = y1; + } + x1 = cxMax * imb[0] + cyMin * imb[2] + imb[4]; + y1 = cxMax * imb[1] + cyMin * imb[3] + imb[5]; + if (x1 < xMin) { + xMin = x1; + } else if (x1 > xMax) { + xMax = x1; + } + if (y1 < yMin) { + yMin = y1; + } else if (y1 > yMax) { + yMax = y1; + } + x1 = cxMax * imb[0] + cyMax * imb[2] + imb[4]; + y1 = cxMax * imb[1] + cyMax * imb[3] + imb[5]; + if (x1 < xMin) { + xMin = x1; + } else if (x1 > xMax) { + xMax = x1; + } + if (y1 < yMin) { + yMin = y1; + } else if (y1 > yMax) { + yMax = y1; + } + + // draw the pattern + //~ this should treat negative steps differently -- start at right/top + //~ edge instead of left/bottom (?) + xstep = fabs(tPat->getXStep()); + ystep = fabs(tPat->getYStep()); + xi0 = (int)ceil((xMin - tPat->getBBox()[2]) / xstep); + xi1 = (int)floor((xMax - tPat->getBBox()[0]) / xstep) + 1; + yi0 = (int)ceil((yMin - tPat->getBBox()[3]) / ystep); + yi1 = (int)floor((yMax - tPat->getBBox()[1]) / ystep) + 1; + for (i = 0; i < 4; ++i) { + m1[i] = m[i]; + } + if (out->useTilingPatternFill()) { + m1[4] = m[4]; + m1[5] = m[5]; + out->tilingPatternFill(state, tPat->getContentStream(), + tPat->getPaintType(), tPat->getResDict(), + m1, tPat->getBBox(), + xi0, yi0, xi1, yi1, xstep, ystep); + } else { + for (yi = yi0; yi < yi1; ++yi) { + for (xi = xi0; xi < xi1; ++xi) { + x = xi * xstep; + y = yi * ystep; + m1[4] = x * m[0] + y * m[2] + m[4]; + m1[5] = x * m[1] + y * m[3] + m[5]; + doForm1(tPat->getContentStream(), tPat->getResDict(), + m1, tPat->getBBox()); + } + } + } + + // restore graphics state + err: + restoreState(); + state->setPath(savedPath); +} + +void Gfx::doShadingPatternFill(GfxShadingPattern *sPat, + GBool stroke, GBool eoFill) { + GfxShading *shading; + GfxPath *savedPath; + double *ctm, *btm, *ptm; + double m[6], ictm[6], m1[6]; + double xMin, yMin, xMax, yMax; + double det; + + shading = sPat->getShading(); + + // save current graphics state + savedPath = state->getPath()->copy(); + saveState(); + + // clip to bbox + if (shading->getHasBBox()) { + shading->getBBox(&xMin, &yMin, &xMax, &yMax); + state->moveTo(xMin, yMin); + state->lineTo(xMax, yMin); + state->lineTo(xMax, yMax); + state->lineTo(xMin, yMax); + state->closePath(); + state->clip(); + out->clip(state); + state->setPath(savedPath->copy()); + } + + // clip to current path + if (stroke) { + state->clipToStrokePath(); + out->clipToStrokePath(state); + } else { + state->clip(); + if (eoFill) { + out->eoClip(state); + } else { + out->clip(state); + } + } + + // set the color space + state->setFillColorSpace(shading->getColorSpace()->copy()); + out->updateFillColorSpace(state); + + // background color fill + if (shading->getHasBackground()) { + state->setFillColor(shading->getBackground()); + out->updateFillColor(state); + out->fill(state); + } + state->clearPath(); + + // construct a (pattern space) -> (current space) transform matrix + ctm = state->getCTM(); + btm = baseMatrix; + ptm = sPat->getMatrix(); + // iCTM = invert CTM + det = 1 / (ctm[0] * ctm[3] - ctm[1] * ctm[2]); + ictm[0] = ctm[3] * det; + ictm[1] = -ctm[1] * det; + ictm[2] = -ctm[2] * det; + ictm[3] = ctm[0] * det; + ictm[4] = (ctm[2] * ctm[5] - ctm[3] * ctm[4]) * det; + ictm[5] = (ctm[1] * ctm[4] - ctm[0] * ctm[5]) * det; + // m1 = PTM * BTM = PTM * base transform matrix + m1[0] = ptm[0] * btm[0] + ptm[1] * btm[2]; + m1[1] = ptm[0] * btm[1] + ptm[1] * btm[3]; + m1[2] = ptm[2] * btm[0] + ptm[3] * btm[2]; + m1[3] = ptm[2] * btm[1] + ptm[3] * btm[3]; + m1[4] = ptm[4] * btm[0] + ptm[5] * btm[2] + btm[4]; + m1[5] = ptm[4] * btm[1] + ptm[5] * btm[3] + btm[5]; + // m = m1 * iCTM = (PTM * BTM) * (iCTM) + m[0] = m1[0] * ictm[0] + m1[1] * ictm[2]; + m[1] = m1[0] * ictm[1] + m1[1] * ictm[3]; + m[2] = m1[2] * ictm[0] + m1[3] * ictm[2]; + m[3] = m1[2] * ictm[1] + m1[3] * ictm[3]; + m[4] = m1[4] * ictm[0] + m1[5] * ictm[2] + ictm[4]; + m[5] = m1[4] * ictm[1] + m1[5] * ictm[3] + ictm[5]; + + // set the new matrix + state->concatCTM(m[0], m[1], m[2], m[3], m[4], m[5]); + out->updateCTM(state, m[0], m[1], m[2], m[3], m[4], m[5]); + +#if 1 //~tmp: turn off anti-aliasing temporarily + GBool vaa = out->getVectorAntialias(); + if (vaa) { + out->setVectorAntialias(gFalse); + } +#endif + + // do shading type-specific operations + switch (shading->getType()) { + case 1: + doFunctionShFill((GfxFunctionShading *)shading); + break; + case 2: + doAxialShFill((GfxAxialShading *)shading); + break; + case 3: + doRadialShFill((GfxRadialShading *)shading); + break; + case 4: + case 5: + doGouraudTriangleShFill((GfxGouraudTriangleShading *)shading); + break; + case 6: + case 7: + doPatchMeshShFill((GfxPatchMeshShading *)shading); + break; + } + +#if 1 //~tmp: turn off anti-aliasing temporarily + if (vaa) { + out->setVectorAntialias(gTrue); + } +#endif + + // restore graphics state + restoreState(); + state->setPath(savedPath); +} + +void Gfx::opShFill(Object args[], int /*numArgs*/) { + GfxShading *shading; + GfxPath *savedPath; + double xMin, yMin, xMax, yMax; + + if (!(shading = res->lookupShading(args[0].getName()))) { + return; + } + + // save current graphics state + savedPath = state->getPath()->copy(); + saveState(); + + // clip to bbox + if (shading->getHasBBox()) { + shading->getBBox(&xMin, &yMin, &xMax, &yMax); + state->moveTo(xMin, yMin); + state->lineTo(xMax, yMin); + state->lineTo(xMax, yMax); + state->lineTo(xMin, yMax); + state->closePath(); + state->clip(); + out->clip(state); + state->clearPath(); + } + + // set the color space + state->setFillColorSpace(shading->getColorSpace()->copy()); + out->updateFillColorSpace(state); + +#if 1 //~tmp: turn off anti-aliasing temporarily + GBool vaa = out->getVectorAntialias(); + if (vaa) { + out->setVectorAntialias(gFalse); + } +#endif + + // do shading type-specific operations + switch (shading->getType()) { + case 1: + doFunctionShFill((GfxFunctionShading *)shading); + break; + case 2: + doAxialShFill((GfxAxialShading *)shading); + break; + case 3: + doRadialShFill((GfxRadialShading *)shading); + break; + case 4: + case 5: + doGouraudTriangleShFill((GfxGouraudTriangleShading *)shading); + break; + case 6: + case 7: + doPatchMeshShFill((GfxPatchMeshShading *)shading); + break; + } + +#if 1 //~tmp: turn off anti-aliasing temporarily + if (vaa) { + out->setVectorAntialias(gTrue); + } +#endif + + // restore graphics state + restoreState(); + state->setPath(savedPath); + + delete shading; +} + +void Gfx::doFunctionShFill(GfxFunctionShading *shading) { + double x0, y0, x1, y1; + GfxColor colors[4]; + + if (out->useShadedFills() && + out->functionShadedFill(state, shading)) { + return; + } + + shading->getDomain(&x0, &y0, &x1, &y1); + shading->getColor(x0, y0, &colors[0]); + shading->getColor(x0, y1, &colors[1]); + shading->getColor(x1, y0, &colors[2]); + shading->getColor(x1, y1, &colors[3]); + doFunctionShFill1(shading, x0, y0, x1, y1, colors, 0); +} + +void Gfx::doFunctionShFill1(GfxFunctionShading *shading, + double x0, double y0, + double x1, double y1, + GfxColor *colors, int depth) { + GfxColor fillColor; + GfxColor color0M, color1M, colorM0, colorM1, colorMM; + GfxColor colors2[4]; + double *matrix; + double xM, yM; + int nComps, i, j; + + nComps = shading->getColorSpace()->getNComps(); + matrix = shading->getMatrix(); + + // compare the four corner colors + for (i = 0; i < 4; ++i) { + for (j = 0; j < nComps; ++j) { + if (abs(colors[i].c[j] - colors[(i+1)&3].c[j]) > functionColorDelta) { + break; + } + } + if (j < nComps) { + break; + } + } + + // center of the rectangle + xM = 0.5 * (x0 + x1); + yM = 0.5 * (y0 + y1); + + // the four corner colors are close (or we hit the recursive limit) + // -- fill the rectangle; but require at least one subdivision + // (depth==0) to avoid problems when the four outer corners of the + // shaded region are the same color + if ((i == 4 && depth > 0) || depth == functionMaxDepth) { + + // use the center color + shading->getColor(xM, yM, &fillColor); + state->setFillColor(&fillColor); + out->updateFillColor(state); + + // fill the rectangle + state->moveTo(x0 * matrix[0] + y0 * matrix[2] + matrix[4], + x0 * matrix[1] + y0 * matrix[3] + matrix[5]); + state->lineTo(x1 * matrix[0] + y0 * matrix[2] + matrix[4], + x1 * matrix[1] + y0 * matrix[3] + matrix[5]); + state->lineTo(x1 * matrix[0] + y1 * matrix[2] + matrix[4], + x1 * matrix[1] + y1 * matrix[3] + matrix[5]); + state->lineTo(x0 * matrix[0] + y1 * matrix[2] + matrix[4], + x0 * matrix[1] + y1 * matrix[3] + matrix[5]); + state->closePath(); + out->fill(state); + state->clearPath(); + + // the four corner colors are not close enough -- subdivide the + // rectangle + } else { + + // colors[0] colorM0 colors[2] + // (x0,y0) (xM,y0) (x1,y0) + // +----------+----------+ + // | | | + // | UL | UR | + // color0M | colorMM | color1M + // (x0,yM) +----------+----------+ (x1,yM) + // | (xM,yM) | + // | LL | LR | + // | | | + // +----------+----------+ + // colors[1] colorM1 colors[3] + // (x0,y1) (xM,y1) (x1,y1) + + shading->getColor(x0, yM, &color0M); + shading->getColor(x1, yM, &color1M); + shading->getColor(xM, y0, &colorM0); + shading->getColor(xM, y1, &colorM1); + shading->getColor(xM, yM, &colorMM); + + // upper-left sub-rectangle + colors2[0] = colors[0]; + colors2[1] = color0M; + colors2[2] = colorM0; + colors2[3] = colorMM; + doFunctionShFill1(shading, x0, y0, xM, yM, colors2, depth + 1); + + // lower-left sub-rectangle + colors2[0] = color0M; + colors2[1] = colors[1]; + colors2[2] = colorMM; + colors2[3] = colorM1; + doFunctionShFill1(shading, x0, yM, xM, y1, colors2, depth + 1); + + // upper-right sub-rectangle + colors2[0] = colorM0; + colors2[1] = colorMM; + colors2[2] = colors[2]; + colors2[3] = color1M; + doFunctionShFill1(shading, xM, y0, x1, yM, colors2, depth + 1); + + // lower-right sub-rectangle + colors2[0] = colorMM; + colors2[1] = colorM1; + colors2[2] = color1M; + colors2[3] = colors[3]; + doFunctionShFill1(shading, xM, yM, x1, y1, colors2, depth + 1); + } +} + +void Gfx::doAxialShFill(GfxAxialShading *shading) { + double xMin, yMin, xMax, yMax; + double x0, y0, x1, y1; + double dx, dy, mul; + GBool dxZero, dyZero; + double tMin, tMax, t, tx, ty; + double s[4], sMin, sMax, tmp; + double ux0, uy0, ux1, uy1, vx0, vy0, vx1, vy1; + double t0, t1, tt; + double ta[axialMaxSplits + 1]; + int next[axialMaxSplits + 1]; + GfxColor color0, color1; + int nComps; + int i, j, k, kk; + + if (out->useShadedFills() && + out->axialShadedFill(state, shading)) { + return; + } + + // get the clip region bbox + state->getUserClipBBox(&xMin, &yMin, &xMax, &yMax); + + // compute min and max t values, based on the four corners of the + // clip region bbox + shading->getCoords(&x0, &y0, &x1, &y1); + dx = x1 - x0; + dy = y1 - y0; + dxZero = fabs(dx) < 0.01; + dyZero = fabs(dy) < 0.01; + if (dxZero && dyZero) { + tMin = tMax = 0; + } else { + mul = 1 / (dx * dx + dy * dy); + tMin = tMax = ((xMin - x0) * dx + (yMin - y0) * dy) * mul; + t = ((xMin - x0) * dx + (yMax - y0) * dy) * mul; + if (t < tMin) { + tMin = t; + } else if (t > tMax) { + tMax = t; + } + t = ((xMax - x0) * dx + (yMin - y0) * dy) * mul; + if (t < tMin) { + tMin = t; + } else if (t > tMax) { + tMax = t; + } + t = ((xMax - x0) * dx + (yMax - y0) * dy) * mul; + if (t < tMin) { + tMin = t; + } else if (t > tMax) { + tMax = t; + } + if (tMin < 0 && !shading->getExtend0()) { + tMin = 0; + } + if (tMax > 1 && !shading->getExtend1()) { + tMax = 1; + } + } + + // get the function domain + t0 = shading->getDomain0(); + t1 = shading->getDomain1(); + + // Traverse the t axis and do the shading. + // + // For each point (tx, ty) on the t axis, consider a line through + // that point perpendicular to the t axis: + // + // x(s) = tx + s * -dy --> s = (x - tx) / -dy + // y(s) = ty + s * dx --> s = (y - ty) / dx + // + // Then look at the intersection of this line with the bounding box + // (xMin, yMin, xMax, yMax). In the general case, there are four + // intersection points: + // + // s0 = (xMin - tx) / -dy + // s1 = (xMax - tx) / -dy + // s2 = (yMin - ty) / dx + // s3 = (yMax - ty) / dx + // + // and we want the middle two s values. + // + // In the case where dx = 0, take s0 and s1; in the case where dy = + // 0, take s2 and s3. + // + // Each filled polygon is bounded by two of these line segments + // perpdendicular to the t axis. + // + // The t axis is bisected into smaller regions until the color + // difference across a region is small enough, and then the region + // is painted with a single color. + + // set up: require at least one split to avoid problems when the two + // ends of the t axis have the same color + nComps = shading->getColorSpace()->getNComps(); + ta[0] = tMin; + next[0] = axialMaxSplits / 2; + ta[axialMaxSplits / 2] = 0.5 * (tMin + tMax); + next[axialMaxSplits / 2] = axialMaxSplits; + ta[axialMaxSplits] = tMax; + + // compute the color at t = tMin + if (tMin < 0) { + tt = t0; + } else if (tMin > 1) { + tt = t1; + } else { + tt = t0 + (t1 - t0) * tMin; + } + shading->getColor(tt, &color0); + + // compute the coordinates of the point on the t axis at t = tMin; + // then compute the intersection of the perpendicular line with the + // bounding box + tx = x0 + tMin * dx; + ty = y0 + tMin * dy; + if (dxZero && dyZero) { + sMin = sMax = 0; + } else if (dxZero) { + sMin = (xMin - tx) / -dy; + sMax = (xMax - tx) / -dy; + if (sMin > sMax) { tmp = sMin; sMin = sMax; sMax = tmp; } + } else if (dyZero) { + sMin = (yMin - ty) / dx; + sMax = (yMax - ty) / dx; + if (sMin > sMax) { tmp = sMin; sMin = sMax; sMax = tmp; } + } else { + s[0] = (yMin - ty) / dx; + s[1] = (yMax - ty) / dx; + s[2] = (xMin - tx) / -dy; + s[3] = (xMax - tx) / -dy; + for (j = 0; j < 3; ++j) { + kk = j; + for (k = j + 1; k < 4; ++k) { + if (s[k] < s[kk]) { + kk = k; + } + } + tmp = s[j]; s[j] = s[kk]; s[kk] = tmp; + } + sMin = s[1]; + sMax = s[2]; + } + ux0 = tx - sMin * dy; + uy0 = ty + sMin * dx; + vx0 = tx - sMax * dy; + vy0 = ty + sMax * dx; + + i = 0; + while (i < axialMaxSplits) { + + // bisect until color difference is small enough or we hit the + // bisection limit + j = next[i]; + while (j > i + 1) { + if (ta[j] < 0) { + tt = t0; + } else if (ta[j] > 1) { + tt = t1; + } else { + tt = t0 + (t1 - t0) * ta[j]; + } + shading->getColor(tt, &color1); + for (k = 0; k < nComps; ++k) { + if (abs(color1.c[k] - color0.c[k]) > axialColorDelta) { + break; + } + } + if (k == nComps) { + break; + } + k = (i + j) / 2; + ta[k] = 0.5 * (ta[i] + ta[j]); + next[i] = k; + next[k] = j; + j = k; + } + + // use the average of the colors of the two sides of the region + for (k = 0; k < nComps; ++k) { + color0.c[k] = (color0.c[k] + color1.c[k]) / 2; + } + + // compute the coordinates of the point on the t axis; then + // compute the intersection of the perpendicular line with the + // bounding box + tx = x0 + ta[j] * dx; + ty = y0 + ta[j] * dy; + if (dxZero && dyZero) { + sMin = sMax = 0; + } else if (dxZero) { + sMin = (xMin - tx) / -dy; + sMax = (xMax - tx) / -dy; + if (sMin > sMax) { tmp = sMin; sMin = sMax; sMax = tmp; } + } else if (dyZero) { + sMin = (yMin - ty) / dx; + sMax = (yMax - ty) / dx; + if (sMin > sMax) { tmp = sMin; sMin = sMax; sMax = tmp; } + } else { + s[0] = (yMin - ty) / dx; + s[1] = (yMax - ty) / dx; + s[2] = (xMin - tx) / -dy; + s[3] = (xMax - tx) / -dy; + for (j = 0; j < 3; ++j) { + kk = j; + for (k = j + 1; k < 4; ++k) { + if (s[k] < s[kk]) { + kk = k; + } + } + tmp = s[j]; s[j] = s[kk]; s[kk] = tmp; + } + sMin = s[1]; + sMax = s[2]; + } + ux1 = tx - sMin * dy; + uy1 = ty + sMin * dx; + vx1 = tx - sMax * dy; + vy1 = ty + sMax * dx; + + // set the color + state->setFillColor(&color0); + out->updateFillColor(state); + + // fill the region + state->moveTo(ux0, uy0); + state->lineTo(vx0, vy0); + state->lineTo(vx1, vy1); + state->lineTo(ux1, uy1); + state->closePath(); + out->fill(state); + state->clearPath(); + + // set up for next region + ux0 = ux1; + uy0 = uy1; + vx0 = vx1; + vy0 = vy1; + color0 = color1; + i = next[i]; + } +} + +void Gfx::doRadialShFill(GfxRadialShading *shading) { + double xMin, yMin, xMax, yMax; + double x0, y0, r0, x1, y1, r1, t0, t1; + int nComps; + GfxColor colorA, colorB; + double xa, ya, xb, yb, ra, rb; + double ta, tb, sa, sb; + double sz, xz, yz, sMin, sMax; + GBool enclosed; + int ia, ib, k, n; + double *ctm; + double theta, alpha, angle, t; + + if (out->useShadedFills() && + out->radialShadedFill(state, shading)) { + return; + } + + // get the shading info + shading->getCoords(&x0, &y0, &r0, &x1, &y1, &r1); + t0 = shading->getDomain0(); + t1 = shading->getDomain1(); + nComps = shading->getColorSpace()->getNComps(); + + // Compute the point at which r(s) = 0; check for the enclosed + // circles case; and compute the angles for the tangent lines. + if (x0 == x1 && y0 == y1) { + enclosed = gTrue; + theta = 0; // make gcc happy + sz = 0; // make gcc happy + } else if (r0 == r1) { + enclosed = gFalse; + theta = 0; + sz = 0; // make gcc happy + } else { + sz = -r0 / (r1 - r0); + xz = x0 + sz * (x1 - x0); + yz = y0 + sz * (y1 - y0); + enclosed = (xz - x0) * (xz - x0) + (yz - y0) * (yz - y0) <= r0 * r0; + theta = asin(r0 / sqrt((x0 - xz) * (x0 - xz) + (y0 - yz) * (y0 - yz))); + if (r0 > r1) { + theta = -theta; + } + } + if (enclosed) { + alpha = 0; + } else { + alpha = atan2(y1 - y0, x1 - x0); + } + + // compute the (possibly extended) s range + state->getUserClipBBox(&xMin, &yMin, &xMax, &yMax); + if (enclosed) { + sMin = 0; + sMax = 1; + } else { + sMin = 1; + sMax = 0; + // solve for x(s) + r(s) = xMin + if ((x1 + r1) - (x0 + r0) != 0) { + sa = (xMin - (x0 + r0)) / ((x1 + r1) - (x0 + r0)); + if (sa < sMin) { + sMin = sa; + } else if (sa > sMax) { + sMax = sa; + } + } + // solve for x(s) - r(s) = xMax + if ((x1 - r1) - (x0 - r0) != 0) { + sa = (xMax - (x0 - r0)) / ((x1 - r1) - (x0 - r0)); + if (sa < sMin) { + sMin = sa; + } else if (sa > sMax) { + sMax = sa; + } + } + // solve for y(s) + r(s) = yMin + if ((y1 + r1) - (y0 + r0) != 0) { + sa = (yMin - (y0 + r0)) / ((y1 + r1) - (y0 + r0)); + if (sa < sMin) { + sMin = sa; + } else if (sa > sMax) { + sMax = sa; + } + } + // solve for y(s) - r(s) = yMax + if ((y1 - r1) - (y0 - r0) != 0) { + sa = (yMax - (y0 - r0)) / ((y1 - r1) - (y0 - r0)); + if (sa < sMin) { + sMin = sa; + } else if (sa > sMax) { + sMax = sa; + } + } + // check against sz + if (r0 < r1) { + if (sMin < sz) { + sMin = sz; + } + } else if (r0 > r1) { + if (sMax > sz) { + sMax = sz; + } + } + // check the 'extend' flags + if (!shading->getExtend0() && sMin < 0) { + sMin = 0; + } + if (!shading->getExtend1() && sMax > 1) { + sMax = 1; + } + } + + // compute the number of steps into which circles must be divided to + // achieve a curve flatness of 0.1 pixel in device space for the + // largest circle (note that "device space" is 72 dpi when generating + // PostScript, hence the relatively small 0.1 pixel accuracy) + ctm = state->getCTM(); + t = fabs(ctm[0]); + if (fabs(ctm[1]) > t) { + t = fabs(ctm[1]); + } + if (fabs(ctm[2]) > t) { + t = fabs(ctm[2]); + } + if (fabs(ctm[3]) > t) { + t = fabs(ctm[3]); + } + if (r0 > r1) { + t *= r0; + } else { + t *= r1; + } + if (t < 1) { + n = 3; + } else { + n = (int)(M_PI / acos(1 - 0.1 / t)); + if (n < 3) { + n = 3; + } else if (n > 200) { + n = 200; + } + } + + // setup for the start circle + ia = 0; + sa = sMin; + ta = t0 + sa * (t1 - t0); + xa = x0 + sa * (x1 - x0); + ya = y0 + sa * (y1 - y0); + ra = r0 + sa * (r1 - r0); + if (ta < t0) { + shading->getColor(t0, &colorA); + } else if (ta > t1) { + shading->getColor(t1, &colorA); + } else { + shading->getColor(ta, &colorA); + } + + // fill the circles + while (ia < radialMaxSplits) { + + // go as far along the t axis (toward t1) as we can, such that the + // color difference is within the tolerance (radialColorDelta) -- + // this uses bisection (between the current value, t, and t1), + // limited to radialMaxSplits points along the t axis; require at + // least one split to avoid problems when the innermost and + // outermost colors are the same + ib = radialMaxSplits; + sb = sMax; + tb = t0 + sb * (t1 - t0); + if (tb < t0) { + shading->getColor(t0, &colorB); + } else if (tb > t1) { + shading->getColor(t1, &colorB); + } else { + shading->getColor(tb, &colorB); + } + while (ib - ia > 1) { + for (k = 0; k < nComps; ++k) { + if (abs(colorB.c[k] - colorA.c[k]) > radialColorDelta) { + break; + } + } + if (k == nComps && ib < radialMaxSplits) { + break; + } + ib = (ia + ib) / 2; + sb = sMin + ((double)ib / (double)radialMaxSplits) * (sMax - sMin); + tb = t0 + sb * (t1 - t0); + if (tb < t0) { + shading->getColor(t0, &colorB); + } else if (tb > t1) { + shading->getColor(t1, &colorB); + } else { + shading->getColor(tb, &colorB); + } + } + + // compute center and radius of the circle + xb = x0 + sb * (x1 - x0); + yb = y0 + sb * (y1 - y0); + rb = r0 + sb * (r1 - r0); + + // use the average of the colors at the two circles + for (k = 0; k < nComps; ++k) { + colorA.c[k] = (colorA.c[k] + colorB.c[k]) / 2; + } + state->setFillColor(&colorA); + out->updateFillColor(state); + + if (enclosed) { + + // construct path for first circle (counterclockwise) + state->moveTo(xa + ra, ya); + for (k = 1; k < n; ++k) { + angle = ((double)k / (double)n) * 2 * M_PI; + state->lineTo(xa + ra * cos(angle), ya + ra * sin(angle)); + } + state->closePath(); + + // construct and append path for second circle (clockwise) + state->moveTo(xb + rb, yb); + for (k = 1; k < n; ++k) { + angle = -((double)k / (double)n) * 2 * M_PI; + state->lineTo(xb + rb * cos(angle), yb + rb * sin(angle)); + } + state->closePath(); + + } else { + + // construct the first subpath (clockwise) + state->moveTo(xa + ra * cos(alpha + theta + 0.5 * M_PI), + ya + ra * sin(alpha + theta + 0.5 * M_PI)); + for (k = 0; k < n; ++k) { + angle = alpha + theta + 0.5 * M_PI + - ((double)k / (double)n) * (2 * theta + M_PI); + state->lineTo(xb + rb * cos(angle), yb + rb * sin(angle)); + } + for (k = 0; k < n; ++k) { + angle = alpha - theta - 0.5 * M_PI + + ((double)k / (double)n) * (2 * theta - M_PI); + state->lineTo(xa + ra * cos(angle), ya + ra * sin(angle)); + } + state->closePath(); + + // construct the second subpath (counterclockwise) + state->moveTo(xa + ra * cos(alpha + theta + 0.5 * M_PI), + ya + ra * sin(alpha + theta + 0.5 * M_PI)); + for (k = 0; k < n; ++k) { + angle = alpha + theta + 0.5 * M_PI + + ((double)k / (double)n) * (-2 * theta + M_PI); + state->lineTo(xb + rb * cos(angle), yb + rb * sin(angle)); + } + for (k = 0; k < n; ++k) { + angle = alpha - theta - 0.5 * M_PI + + ((double)k / (double)n) * (2 * theta + M_PI); + state->lineTo(xa + ra * cos(angle), ya + ra * sin(angle)); + } + state->closePath(); + } + + // fill the path + out->fill(state); + state->clearPath(); + + // step to the next value of t + ia = ib; + sa = sb; + ta = tb; + xa = xb; + ya = yb; + ra = rb; + colorA = colorB; + } + + if (enclosed) { + // extend the smaller circle + if ((shading->getExtend0() && r0 <= r1) || + (shading->getExtend1() && r1 < r0)) { + if (r0 <= r1) { + ta = t0; + ra = r0; + xa = x0; + ya = y0; + } else { + ta = t1; + ra = r1; + xa = x1; + ya = y1; + } + shading->getColor(ta, &colorA); + state->setFillColor(&colorA); + out->updateFillColor(state); + state->moveTo(xa + ra, ya); + for (k = 1; k < n; ++k) { + angle = ((double)k / (double)n) * 2 * M_PI; + state->lineTo(xa + ra * cos(angle), ya + ra * sin(angle)); + } + state->closePath(); + out->fill(state); + state->clearPath(); + } + + // extend the larger circle + if ((shading->getExtend0() && r0 > r1) || + (shading->getExtend1() && r1 >= r0)) { + if (r0 > r1) { + ta = t0; + ra = r0; + xa = x0; + ya = y0; + } else { + ta = t1; + ra = r1; + xa = x1; + ya = y1; + } + shading->getColor(ta, &colorA); + state->setFillColor(&colorA); + out->updateFillColor(state); + state->moveTo(xMin, yMin); + state->lineTo(xMin, yMax); + state->lineTo(xMax, yMax); + state->lineTo(xMax, yMin); + state->closePath(); + state->moveTo(xa + ra, ya); + for (k = 1; k < n; ++k) { + angle = ((double)k / (double)n) * 2 * M_PI; + state->lineTo(xa + ra * cos(angle), ya + ra * sin(angle)); + } + state->closePath(); + out->fill(state); + state->clearPath(); + } + } +} + +void Gfx::doGouraudTriangleShFill(GfxGouraudTriangleShading *shading) { + double x0, y0, x1, y1, x2, y2; + GfxColor color0, color1, color2; + int i; + + for (i = 0; i < shading->getNTriangles(); ++i) { + shading->getTriangle(i, &x0, &y0, &color0, + &x1, &y1, &color1, + &x2, &y2, &color2); + gouraudFillTriangle(x0, y0, &color0, x1, y1, &color1, x2, y2, &color2, + shading->getColorSpace()->getNComps(), 0); + } +} + +void Gfx::gouraudFillTriangle(double x0, double y0, GfxColor *color0, + double x1, double y1, GfxColor *color1, + double x2, double y2, GfxColor *color2, + int nComps, int depth) { + double x01, y01, x12, y12, x20, y20; + GfxColor color01, color12, color20; + int i; + + for (i = 0; i < nComps; ++i) { + if (abs(color0->c[i] - color1->c[i]) > gouraudColorDelta || + abs(color1->c[i] - color2->c[i]) > gouraudColorDelta) { + break; + } + } + if (i == nComps || depth == gouraudMaxDepth) { + state->setFillColor(color0); + out->updateFillColor(state); + state->moveTo(x0, y0); + state->lineTo(x1, y1); + state->lineTo(x2, y2); + state->closePath(); + out->fill(state); + state->clearPath(); + } else { + x01 = 0.5 * (x0 + x1); + y01 = 0.5 * (y0 + y1); + x12 = 0.5 * (x1 + x2); + y12 = 0.5 * (y1 + y2); + x20 = 0.5 * (x2 + x0); + y20 = 0.5 * (y2 + y0); + //~ if the shading has a Function, this should interpolate on the + //~ function parameter, not on the color components + for (i = 0; i < nComps; ++i) { + color01.c[i] = (color0->c[i] + color1->c[i]) / 2; + color12.c[i] = (color1->c[i] + color2->c[i]) / 2; + color20.c[i] = (color2->c[i] + color0->c[i]) / 2; + } + gouraudFillTriangle(x0, y0, color0, x01, y01, &color01, + x20, y20, &color20, nComps, depth + 1); + gouraudFillTriangle(x01, y01, &color01, x1, y1, color1, + x12, y12, &color12, nComps, depth + 1); + gouraudFillTriangle(x01, y01, &color01, x12, y12, &color12, + x20, y20, &color20, nComps, depth + 1); + gouraudFillTriangle(x20, y20, &color20, x12, y12, &color12, + x2, y2, color2, nComps, depth + 1); + } +} + +void Gfx::doPatchMeshShFill(GfxPatchMeshShading *shading) { + int start, i; + + if (shading->getNPatches() > 128) { + start = 3; + } else if (shading->getNPatches() > 64) { + start = 2; + } else if (shading->getNPatches() > 16) { + start = 1; + } else { + start = 0; + } + for (i = 0; i < shading->getNPatches(); ++i) { + fillPatch(shading->getPatch(i), shading->getColorSpace()->getNComps(), + start); + } +} + +void Gfx::fillPatch(GfxPatch *patch, int nComps, int depth) { + GfxPatch patch00, patch01, patch10, patch11; + double xx[4][8], yy[4][8]; + double xxm, yym; + int i; + + for (i = 0; i < nComps; ++i) { + if (abs(patch->color[0][0].c[i] - patch->color[0][1].c[i]) + > patchColorDelta || + abs(patch->color[0][1].c[i] - patch->color[1][1].c[i]) + > patchColorDelta || + abs(patch->color[1][1].c[i] - patch->color[1][0].c[i]) + > patchColorDelta || + abs(patch->color[1][0].c[i] - patch->color[0][0].c[i]) + > patchColorDelta) { + break; + } + } + if (i == nComps || depth == patchMaxDepth) { + state->setFillColor(&patch->color[0][0]); + out->updateFillColor(state); + state->moveTo(patch->x[0][0], patch->y[0][0]); + state->curveTo(patch->x[0][1], patch->y[0][1], + patch->x[0][2], patch->y[0][2], + patch->x[0][3], patch->y[0][3]); + state->curveTo(patch->x[1][3], patch->y[1][3], + patch->x[2][3], patch->y[2][3], + patch->x[3][3], patch->y[3][3]); + state->curveTo(patch->x[3][2], patch->y[3][2], + patch->x[3][1], patch->y[3][1], + patch->x[3][0], patch->y[3][0]); + state->curveTo(patch->x[2][0], patch->y[2][0], + patch->x[1][0], patch->y[1][0], + patch->x[0][0], patch->y[0][0]); + state->closePath(); + out->fill(state); + state->clearPath(); + } else { + for (i = 0; i < 4; ++i) { + xx[i][0] = patch->x[i][0]; + yy[i][0] = patch->y[i][0]; + xx[i][1] = 0.5 * (patch->x[i][0] + patch->x[i][1]); + yy[i][1] = 0.5 * (patch->y[i][0] + patch->y[i][1]); + xxm = 0.5 * (patch->x[i][1] + patch->x[i][2]); + yym = 0.5 * (patch->y[i][1] + patch->y[i][2]); + xx[i][6] = 0.5 * (patch->x[i][2] + patch->x[i][3]); + yy[i][6] = 0.5 * (patch->y[i][2] + patch->y[i][3]); + xx[i][2] = 0.5 * (xx[i][1] + xxm); + yy[i][2] = 0.5 * (yy[i][1] + yym); + xx[i][5] = 0.5 * (xxm + xx[i][6]); + yy[i][5] = 0.5 * (yym + yy[i][6]); + xx[i][3] = xx[i][4] = 0.5 * (xx[i][2] + xx[i][5]); + yy[i][3] = yy[i][4] = 0.5 * (yy[i][2] + yy[i][5]); + xx[i][7] = patch->x[i][3]; + yy[i][7] = patch->y[i][3]; + } + for (i = 0; i < 4; ++i) { + patch00.x[0][i] = xx[0][i]; + patch00.y[0][i] = yy[0][i]; + patch00.x[1][i] = 0.5 * (xx[0][i] + xx[1][i]); + patch00.y[1][i] = 0.5 * (yy[0][i] + yy[1][i]); + xxm = 0.5 * (xx[1][i] + xx[2][i]); + yym = 0.5 * (yy[1][i] + yy[2][i]); + patch10.x[2][i] = 0.5 * (xx[2][i] + xx[3][i]); + patch10.y[2][i] = 0.5 * (yy[2][i] + yy[3][i]); + patch00.x[2][i] = 0.5 * (patch00.x[1][i] + xxm); + patch00.y[2][i] = 0.5 * (patch00.y[1][i] + yym); + patch10.x[1][i] = 0.5 * (xxm + patch10.x[2][i]); + patch10.y[1][i] = 0.5 * (yym + patch10.y[2][i]); + patch00.x[3][i] = 0.5 * (patch00.x[2][i] + patch10.x[1][i]); + patch00.y[3][i] = 0.5 * (patch00.y[2][i] + patch10.y[1][i]); + patch10.x[0][i] = patch00.x[3][i]; + patch10.y[0][i] = patch00.y[3][i]; + patch10.x[3][i] = xx[3][i]; + patch10.y[3][i] = yy[3][i]; + } + for (i = 4; i < 8; ++i) { + patch01.x[0][i-4] = xx[0][i]; + patch01.y[0][i-4] = yy[0][i]; + patch01.x[1][i-4] = 0.5 * (xx[0][i] + xx[1][i]); + patch01.y[1][i-4] = 0.5 * (yy[0][i] + yy[1][i]); + xxm = 0.5 * (xx[1][i] + xx[2][i]); + yym = 0.5 * (yy[1][i] + yy[2][i]); + patch11.x[2][i-4] = 0.5 * (xx[2][i] + xx[3][i]); + patch11.y[2][i-4] = 0.5 * (yy[2][i] + yy[3][i]); + patch01.x[2][i-4] = 0.5 * (patch01.x[1][i-4] + xxm); + patch01.y[2][i-4] = 0.5 * (patch01.y[1][i-4] + yym); + patch11.x[1][i-4] = 0.5 * (xxm + patch11.x[2][i-4]); + patch11.y[1][i-4] = 0.5 * (yym + patch11.y[2][i-4]); + patch01.x[3][i-4] = 0.5 * (patch01.x[2][i-4] + patch11.x[1][i-4]); + patch01.y[3][i-4] = 0.5 * (patch01.y[2][i-4] + patch11.y[1][i-4]); + patch11.x[0][i-4] = patch01.x[3][i-4]; + patch11.y[0][i-4] = patch01.y[3][i-4]; + patch11.x[3][i-4] = xx[3][i]; + patch11.y[3][i-4] = yy[3][i]; + } + //~ if the shading has a Function, this should interpolate on the + //~ function parameter, not on the color components + for (i = 0; i < nComps; ++i) { + patch00.color[0][0].c[i] = patch->color[0][0].c[i]; + patch00.color[0][1].c[i] = (patch->color[0][0].c[i] + + patch->color[0][1].c[i]) / 2; + patch01.color[0][0].c[i] = patch00.color[0][1].c[i]; + patch01.color[0][1].c[i] = patch->color[0][1].c[i]; + patch01.color[1][1].c[i] = (patch->color[0][1].c[i] + + patch->color[1][1].c[i]) / 2; + patch11.color[0][1].c[i] = patch01.color[1][1].c[i]; + patch11.color[1][1].c[i] = patch->color[1][1].c[i]; + patch11.color[1][0].c[i] = (patch->color[1][1].c[i] + + patch->color[1][0].c[i]) / 2; + patch10.color[1][1].c[i] = patch11.color[1][0].c[i]; + patch10.color[1][0].c[i] = patch->color[1][0].c[i]; + patch10.color[0][0].c[i] = (patch->color[1][0].c[i] + + patch->color[0][0].c[i]) / 2; + patch00.color[1][0].c[i] = patch10.color[0][0].c[i]; + patch00.color[1][1].c[i] = (patch00.color[1][0].c[i] + + patch01.color[1][1].c[i]) / 2; + patch01.color[1][0].c[i] = patch00.color[1][1].c[i]; + patch11.color[0][0].c[i] = patch00.color[1][1].c[i]; + patch10.color[0][1].c[i] = patch00.color[1][1].c[i]; + } + fillPatch(&patch00, nComps, depth + 1); + fillPatch(&patch10, nComps, depth + 1); + fillPatch(&patch01, nComps, depth + 1); + fillPatch(&patch11, nComps, depth + 1); + } +} + +void Gfx::doEndPath() { + if (state->isCurPt() && clip != clipNone) { + state->clip(); + if (clip == clipNormal) { + out->clip(state); + } else { + out->eoClip(state); + } + } + clip = clipNone; + state->clearPath(); +} + +//------------------------------------------------------------------------ +// path clipping operators +//------------------------------------------------------------------------ + +void Gfx::opClip(Object * /*args[]*/, int /*numArgs*/) { + clip = clipNormal; +} + +void Gfx::opEOClip(Object * /*args[]*/, int /*numArgs*/) { + clip = clipEO; +} + +//------------------------------------------------------------------------ +// text object operators +//------------------------------------------------------------------------ + +void Gfx::opBeginText(Object * /*args[]*/, int /*numArgs*/) { + state->setTextMat(1, 0, 0, 1, 0, 0); + state->textMoveTo(0, 0); + out->updateTextMat(state); + out->updateTextPos(state); + fontChanged = gTrue; +} + +void Gfx::opEndText(Object * /*args[]*/, int /*numArgs*/) { + out->endTextObject(state); +} + +//------------------------------------------------------------------------ +// text state operators +//------------------------------------------------------------------------ + +void Gfx::opSetCharSpacing(Object args[], int /*numArgs*/) { + state->setCharSpace(args[0].getNum()); + out->updateCharSpace(state); +} + +void Gfx::opSetFont(Object args[], int /*numArgs*/) { + GfxFont *font; + + if (!(font = res->lookupFont(args[0].getName()))) { + return; + } + if (printCommands) { + printf(" font: tag=%s name='%s' %g\n", + font->getTag()->getCString(), + font->getName() ? font->getName()->getCString() : "???", + args[1].getNum()); + fflush(stdout); + } + state->setFont(font, args[1].getNum()); + fontChanged = gTrue; +} + +void Gfx::opSetTextLeading(Object args[], int /*numArgs*/) { + state->setLeading(args[0].getNum()); +} + +void Gfx::opSetTextRender(Object args[], int /*numArgs*/) { + state->setRender(args[0].getInt()); + out->updateRender(state); +} + +void Gfx::opSetTextRise(Object args[], int /*numArgs*/) { + state->setRise(args[0].getNum()); + out->updateRise(state); +} + +void Gfx::opSetWordSpacing(Object args[], int /*numArgs*/) { + state->setWordSpace(args[0].getNum()); + out->updateWordSpace(state); +} + +void Gfx::opSetHorizScaling(Object args[], int /*numArgs*/) { + state->setHorizScaling(args[0].getNum()); + out->updateHorizScaling(state); + fontChanged = gTrue; +} + +//------------------------------------------------------------------------ +// text positioning operators +//------------------------------------------------------------------------ + +void Gfx::opTextMove(Object args[], int /*numArgs*/) { + double tx, ty; + + tx = state->getLineX() + args[0].getNum(); + ty = state->getLineY() + args[1].getNum(); + state->textMoveTo(tx, ty); + out->updateTextPos(state); +} + +void Gfx::opTextMoveSet(Object args[], int /*numArgs*/) { + double tx, ty; + + tx = state->getLineX() + args[0].getNum(); + ty = args[1].getNum(); + state->setLeading(-ty); + ty += state->getLineY(); + state->textMoveTo(tx, ty); + out->updateTextPos(state); +} + +void Gfx::opSetTextMatrix(Object args[], int /*numArgs*/) { + state->setTextMat(args[0].getNum(), args[1].getNum(), + args[2].getNum(), args[3].getNum(), + args[4].getNum(), args[5].getNum()); + state->textMoveTo(0, 0); + out->updateTextMat(state); + out->updateTextPos(state); + fontChanged = gTrue; +} + +void Gfx::opTextNextLine(Object * /*args[]*/, int /*numArgs*/) { + double tx, ty; + + tx = state->getLineX(); + ty = state->getLineY() - state->getLeading(); + state->textMoveTo(tx, ty); + out->updateTextPos(state); +} + +//------------------------------------------------------------------------ +// text string operators +//------------------------------------------------------------------------ + +void Gfx::opShowText(Object args[], int /*numArgs*/) { + if (!state->getFont()) { + error(getPos(), "No font in show"); + return; + } + if (fontChanged) { + out->updateFont(state); + fontChanged = gFalse; + } + out->beginStringOp(state); + doShowText(args[0].getString()); + out->endStringOp(state); +} + +void Gfx::opMoveShowText(Object args[], int /*numArgs*/) { + double tx, ty; + + if (!state->getFont()) { + error(getPos(), "No font in move/show"); + return; + } + if (fontChanged) { + out->updateFont(state); + fontChanged = gFalse; + } + tx = state->getLineX(); + ty = state->getLineY() - state->getLeading(); + state->textMoveTo(tx, ty); + out->updateTextPos(state); + out->beginStringOp(state); + doShowText(args[0].getString()); + out->endStringOp(state); +} + +void Gfx::opMoveSetShowText(Object args[], int /*numArgs*/) { + double tx, ty; + + if (!state->getFont()) { + error(getPos(), "No font in move/set/show"); + return; + } + if (fontChanged) { + out->updateFont(state); + fontChanged = gFalse; + } + state->setWordSpace(args[0].getNum()); + state->setCharSpace(args[1].getNum()); + tx = state->getLineX(); + ty = state->getLineY() - state->getLeading(); + state->textMoveTo(tx, ty); + out->updateWordSpace(state); + out->updateCharSpace(state); + out->updateTextPos(state); + out->beginStringOp(state); + doShowText(args[2].getString()); + out->endStringOp(state); +} + +void Gfx::opShowSpaceText(Object args[], int /*numArgs*/) { + Array *a; + Object obj; + int wMode; + int i; + + if (!state->getFont()) { + error(getPos(), "No font in show/space"); + return; + } + if (fontChanged) { + out->updateFont(state); + fontChanged = gFalse; + } + out->beginStringOp(state); + wMode = state->getFont()->getWMode(); + a = args[0].getArray(); + for (i = 0; i < a->getLength(); ++i) { + a->get(i, &obj); + if (obj.isNum()) { + // this uses the absolute value of the font size to match + // Acrobat's behavior + if (wMode) { + state->textShift(0, -obj.getNum() * 0.001 * + fabs(state->getFontSize())); + } else { + state->textShift(-obj.getNum() * 0.001 * + fabs(state->getFontSize()), 0); + } + out->updateTextShift(state, obj.getNum()); + } else if (obj.isString()) { + doShowText(obj.getString()); + } else { + error(getPos(), "Element of show/space array must be number or string"); + } + obj.free(); + } + out->endStringOp(state); +} + +void Gfx::doShowText(GString *s) { + GfxFont *font; + int wMode; + double riseX, riseY; + CharCode code; + Unicode u[8]; + double x, y, dx, dy, dx2, dy2, curX, curY, tdx, tdy, lineX, lineY; + double originX, originY, tOriginX, tOriginY; + double oldCTM[6], newCTM[6]; + double *mat; + Object charProc; + Dict *resDict; + Parser *oldParser; + char *p; + int len, n, uLen, nChars, nSpaces, i; + + font = state->getFont(); + wMode = font->getWMode(); + + if (out->useDrawChar()) { + out->beginString(state, s); + } + + // handle a Type 3 char + if (font->getType() == fontType3 && out->interpretType3Chars()) { + mat = state->getCTM(); + for (i = 0; i < 6; ++i) { + oldCTM[i] = mat[i]; + } + mat = state->getTextMat(); + newCTM[0] = mat[0] * oldCTM[0] + mat[1] * oldCTM[2]; + newCTM[1] = mat[0] * oldCTM[1] + mat[1] * oldCTM[3]; + newCTM[2] = mat[2] * oldCTM[0] + mat[3] * oldCTM[2]; + newCTM[3] = mat[2] * oldCTM[1] + mat[3] * oldCTM[3]; + mat = font->getFontMatrix(); + newCTM[0] = mat[0] * newCTM[0] + mat[1] * newCTM[2]; + newCTM[1] = mat[0] * newCTM[1] + mat[1] * newCTM[3]; + newCTM[2] = mat[2] * newCTM[0] + mat[3] * newCTM[2]; + newCTM[3] = mat[2] * newCTM[1] + mat[3] * newCTM[3]; + newCTM[0] *= state->getFontSize(); + newCTM[1] *= state->getFontSize(); + newCTM[2] *= state->getFontSize(); + newCTM[3] *= state->getFontSize(); + newCTM[0] *= state->getHorizScaling(); + newCTM[2] *= state->getHorizScaling(); + state->textTransformDelta(0, state->getRise(), &riseX, &riseY); + curX = state->getCurX(); + curY = state->getCurY(); + lineX = state->getLineX(); + lineY = state->getLineY(); + oldParser = parser; + p = s->getCString(); + len = s->getLength(); + while (len > 0) { + n = font->getNextChar(p, len, &code, + u, (int)(sizeof(u) / sizeof(Unicode)), &uLen, + &dx, &dy, &originX, &originY); + dx = dx * state->getFontSize() + state->getCharSpace(); + if (n == 1 && *p == ' ') { + dx += state->getWordSpace(); + } + dx *= state->getHorizScaling(); + dy *= state->getFontSize(); + state->textTransformDelta(dx, dy, &tdx, &tdy); + state->transform(curX + riseX, curY + riseY, &x, &y); + saveState(); + state->setCTM(newCTM[0], newCTM[1], newCTM[2], newCTM[3], x, y); + //~ the CTM concat values here are wrong (but never used) + out->updateCTM(state, 1, 0, 0, 1, 0, 0); + if (!out->beginType3Char(state, curX + riseX, curY + riseY, tdx, tdy, + code, u, uLen)) { + ((Gfx8BitFont *)font)->getCharProc(code, &charProc); + if ((resDict = ((Gfx8BitFont *)font)->getResources())) { + pushResources(resDict); + } + if (charProc.isStream()) { + display(&charProc, gFalse); + } else { + error(getPos(), "Missing or bad Type3 CharProc entry"); + } + out->endType3Char(state); + if (resDict) { + popResources(); + } + charProc.free(); + } + restoreState(); + // GfxState::restore() does *not* restore the current position, + // so we deal with it here using (curX, curY) and (lineX, lineY) + curX += tdx; + curY += tdy; + state->moveTo(curX, curY); + state->textSetPos(lineX, lineY); + p += n; + len -= n; + } + parser = oldParser; + + } else if (out->useDrawChar()) { + state->textTransformDelta(0, state->getRise(), &riseX, &riseY); + p = s->getCString(); + len = s->getLength(); + while (len > 0) { + n = font->getNextChar(p, len, &code, + u, (int)(sizeof(u) / sizeof(Unicode)), &uLen, + &dx, &dy, &originX, &originY); + if (wMode) { + dx *= state->getFontSize(); + dy = dy * state->getFontSize() + state->getCharSpace(); + if (n == 1 && *p == ' ') { + dy += state->getWordSpace(); + } + } else { + dx = dx * state->getFontSize() + state->getCharSpace(); + if (n == 1 && *p == ' ') { + dx += state->getWordSpace(); + } + dx *= state->getHorizScaling(); + dy *= state->getFontSize(); + } + state->textTransformDelta(dx, dy, &tdx, &tdy); + originX *= state->getFontSize(); + originY *= state->getFontSize(); + state->textTransformDelta(originX, originY, &tOriginX, &tOriginY); + out->drawChar(state, state->getCurX() + riseX, state->getCurY() + riseY, + tdx, tdy, tOriginX, tOriginY, code, n, u, uLen); + state->shift(tdx, tdy); + p += n; + len -= n; + } + + } else { + dx = dy = 0; + p = s->getCString(); + len = s->getLength(); + nChars = nSpaces = 0; + while (len > 0) { + n = font->getNextChar(p, len, &code, + u, (int)(sizeof(u) / sizeof(Unicode)), &uLen, + &dx2, &dy2, &originX, &originY); + dx += dx2; + dy += dy2; + if (n == 1 && *p == ' ') { + ++nSpaces; + } + ++nChars; + p += n; + len -= n; + } + if (wMode) { + dx *= state->getFontSize(); + dy = dy * state->getFontSize() + + nChars * state->getCharSpace() + + nSpaces * state->getWordSpace(); + } else { + dx = dx * state->getFontSize() + + nChars * state->getCharSpace() + + nSpaces * state->getWordSpace(); + dx *= state->getHorizScaling(); + dy *= state->getFontSize(); + } + state->textTransformDelta(dx, dy, &tdx, &tdy); + out->drawString(state, s); + state->shift(tdx, tdy); + } + + if (out->useDrawChar()) { + out->endString(state); + } + + updateLevel += 10 * s->getLength(); +} + +//------------------------------------------------------------------------ +// XObject operators +//------------------------------------------------------------------------ + +void Gfx::opXObject(Object args[], int /*numArgs*/) { + char *name; + Object obj1, obj2, obj3, refObj; +#if OPI_SUPPORT + Object opiDict; +#endif + + name = args[0].getName(); + if (!res->lookupXObject(name, &obj1)) { + return; + } + if (!obj1.isStream()) { + error(getPos(), "XObject '%s' is wrong type", name); + obj1.free(); + return; + } +#if OPI_SUPPORT + obj1.streamGetDict()->lookup("OPI", &opiDict); + if (opiDict.isDict()) { + out->opiBegin(state, opiDict.getDict()); + } +#endif + obj1.streamGetDict()->lookup("Subtype", &obj2); + if (obj2.isName("Image")) { + if (out->needNonText()) { + res->lookupXObjectNF(name, &refObj); + doImage(&refObj, obj1.getStream(), gFalse); + refObj.free(); + } + } else if (obj2.isName("Form")) { + res->lookupXObjectNF(name, &refObj); + if (out->useDrawForm() && refObj.isRef()) { + out->drawForm(refObj.getRef()); + } else { + doForm(&obj1); + } + refObj.free(); + } else if (obj2.isName("PS")) { + obj1.streamGetDict()->lookup("Level1", &obj3); + out->psXObject(obj1.getStream(), + obj3.isStream() ? obj3.getStream() : (Stream *)NULL); + } else if (obj2.isName()) { + error(getPos(), "Unknown XObject subtype '%s'", obj2.getName()); + } else { + error(getPos(), "XObject subtype is missing or wrong type"); + } + obj2.free(); +#if OPI_SUPPORT + if (opiDict.isDict()) { + out->opiEnd(state, opiDict.getDict()); + } + opiDict.free(); +#endif + obj1.free(); +} + +void Gfx::doImage(Object *ref, Stream *str, GBool inlineImg) { + Dict *dict, *maskDict; + int width, height; + int bits, maskBits; + StreamColorSpaceMode csMode; + GBool mask; + GBool invert; + GfxColorSpace *colorSpace, *maskColorSpace; + GfxImageColorMap *colorMap, *maskColorMap; + Object maskObj, smaskObj; + GBool haveColorKeyMask, haveExplicitMask, haveSoftMask; + int maskColors[2*gfxColorMaxComps]; + int maskWidth, maskHeight; + GBool maskInvert; + Stream *maskStr; + Object obj1, obj2; + int i; + + // get info from the stream + bits = 0; + csMode = streamCSNone; + str->getImageParams(&bits, &csMode); + + // get stream dict + dict = str->getDict(); + + // get size + dict->lookup("Width", &obj1); + if (obj1.isNull()) { + obj1.free(); + dict->lookup("W", &obj1); + } + if (obj1.isInt()) + width = obj1.getInt(); + else if (obj1.isReal()) + width = (int)obj1.getReal(); + else + goto err2; + obj1.free(); + dict->lookup("Height", &obj1); + if (obj1.isNull()) { + obj1.free(); + dict->lookup("H", &obj1); + } + if (obj1.isInt()) + height = obj1.getInt(); + else if (obj1.isReal()) + height = (int)obj1.getReal(); + else + goto err2; + obj1.free(); + + // image or mask? + dict->lookup("ImageMask", &obj1); + if (obj1.isNull()) { + obj1.free(); + dict->lookup("IM", &obj1); + } + mask = gFalse; + if (obj1.isBool()) + mask = obj1.getBool(); + else if (!obj1.isNull()) + goto err2; + obj1.free(); + + // bit depth + if (bits == 0) { + dict->lookup("BitsPerComponent", &obj1); + if (obj1.isNull()) { + obj1.free(); + dict->lookup("BPC", &obj1); + } + if (obj1.isInt()) { + bits = obj1.getInt(); + } else if (mask) { + bits = 1; + } else { + goto err2; + } + obj1.free(); + } + + // display a mask + if (mask) { + + // check for inverted mask + if (bits != 1) + goto err1; + invert = gFalse; + dict->lookup("Decode", &obj1); + if (obj1.isNull()) { + obj1.free(); + dict->lookup("D", &obj1); + } + if (obj1.isArray()) { + obj1.arrayGet(0, &obj2); + if (obj2.isInt() && obj2.getInt() == 1) + invert = gTrue; + obj2.free(); + } else if (!obj1.isNull()) { + goto err2; + } + obj1.free(); + + // draw it + out->drawImageMask(state, ref, str, width, height, invert, inlineImg); + + } else { + + // get color space and color map + dict->lookup("ColorSpace", &obj1); + if (obj1.isNull()) { + obj1.free(); + dict->lookup("CS", &obj1); + } + if (obj1.isName()) { + res->lookupColorSpace(obj1.getName(), &obj2); + if (!obj2.isNull()) { + obj1.free(); + obj1 = obj2; + } else { + obj2.free(); + } + } + if (!obj1.isNull()) { + colorSpace = GfxColorSpace::parse(&obj1); + } else if (csMode == streamCSDeviceGray) { + colorSpace = new GfxDeviceGrayColorSpace(); + } else if (csMode == streamCSDeviceRGB) { + colorSpace = new GfxDeviceRGBColorSpace(); + } else if (csMode == streamCSDeviceCMYK) { + colorSpace = new GfxDeviceCMYKColorSpace(); + } else { + colorSpace = NULL; + } + obj1.free(); + if (!colorSpace) { + goto err1; + } + dict->lookup("Decode", &obj1); + if (obj1.isNull()) { + obj1.free(); + dict->lookup("D", &obj1); + } + colorMap = new GfxImageColorMap(bits, &obj1, colorSpace); + obj1.free(); + if (!colorMap->isOk()) { + delete colorMap; + goto err1; + } + + // get the mask + haveColorKeyMask = haveExplicitMask = haveSoftMask = gFalse; + maskStr = NULL; // make gcc happy + maskWidth = maskHeight = 0; // make gcc happy + maskInvert = gFalse; // make gcc happy + maskColorMap = NULL; // make gcc happy + dict->lookup("Mask", &maskObj); + dict->lookup("SMask", &smaskObj); + if (smaskObj.isStream()) { + // soft mask + if (inlineImg) { + goto err1; + } + maskStr = smaskObj.getStream(); + maskDict = smaskObj.streamGetDict(); + maskDict->lookup("Width", &obj1); + if (obj1.isNull()) { + obj1.free(); + maskDict->lookup("W", &obj1); + } + if (!obj1.isInt()) { + goto err2; + } + maskWidth = obj1.getInt(); + obj1.free(); + maskDict->lookup("Height", &obj1); + if (obj1.isNull()) { + obj1.free(); + maskDict->lookup("H", &obj1); + } + if (!obj1.isInt()) { + goto err2; + } + maskHeight = obj1.getInt(); + obj1.free(); + maskDict->lookup("BitsPerComponent", &obj1); + if (obj1.isNull()) { + obj1.free(); + maskDict->lookup("BPC", &obj1); + } + if (!obj1.isInt()) { + goto err2; + } + maskBits = obj1.getInt(); + obj1.free(); + maskDict->lookup("ColorSpace", &obj1); + if (obj1.isNull()) { + obj1.free(); + maskDict->lookup("CS", &obj1); + } + if (obj1.isName()) { + res->lookupColorSpace(obj1.getName(), &obj2); + if (!obj2.isNull()) { + obj1.free(); + obj1 = obj2; + } else { + obj2.free(); + } + } + maskColorSpace = GfxColorSpace::parse(&obj1); + obj1.free(); + if (!maskColorSpace || maskColorSpace->getMode() != csDeviceGray) { + goto err1; + } + maskDict->lookup("Decode", &obj1); + if (obj1.isNull()) { + obj1.free(); + maskDict->lookup("D", &obj1); + } + maskColorMap = new GfxImageColorMap(maskBits, &obj1, maskColorSpace); + obj1.free(); + if (!maskColorMap->isOk()) { + delete maskColorMap; + goto err1; + } + //~ handle the Matte entry + haveSoftMask = gTrue; + } else if (maskObj.isArray()) { + // color key mask + for (i = 0; + i < maskObj.arrayGetLength() && i < 2*gfxColorMaxComps; + ++i) { + maskObj.arrayGet(i, &obj1); + maskColors[i] = obj1.getInt(); + obj1.free(); + } + haveColorKeyMask = gTrue; + } else if (maskObj.isStream()) { + // explicit mask + if (inlineImg) { + goto err1; + } + maskStr = maskObj.getStream(); + maskDict = maskObj.streamGetDict(); + maskDict->lookup("Width", &obj1); + if (obj1.isNull()) { + obj1.free(); + maskDict->lookup("W", &obj1); + } + if (!obj1.isInt()) { + goto err2; + } + maskWidth = obj1.getInt(); + obj1.free(); + maskDict->lookup("Height", &obj1); + if (obj1.isNull()) { + obj1.free(); + maskDict->lookup("H", &obj1); + } + if (!obj1.isInt()) { + goto err2; + } + maskHeight = obj1.getInt(); + obj1.free(); + maskDict->lookup("ImageMask", &obj1); + if (obj1.isNull()) { + obj1.free(); + maskDict->lookup("IM", &obj1); + } + if (!obj1.isBool() || !obj1.getBool()) { + goto err2; + } + obj1.free(); + maskInvert = gFalse; + maskDict->lookup("Decode", &obj1); + if (obj1.isNull()) { + obj1.free(); + maskDict->lookup("D", &obj1); + } + if (obj1.isArray()) { + obj1.arrayGet(0, &obj2); + if (obj2.isInt() && obj2.getInt() == 1) { + maskInvert = gTrue; + } + obj2.free(); + } else if (!obj1.isNull()) { + goto err2; + } + obj1.free(); + haveExplicitMask = gTrue; + } + + // draw it + if (haveSoftMask) { + out->drawSoftMaskedImage(state, ref, str, width, height, colorMap, + maskStr, maskWidth, maskHeight, maskColorMap); + delete maskColorMap; + } else if (haveExplicitMask) { + out->drawMaskedImage(state, ref, str, width, height, colorMap, + maskStr, maskWidth, maskHeight, maskInvert); + } else { + out->drawImage(state, ref, str, width, height, colorMap, + haveColorKeyMask ? maskColors : (int *)NULL, inlineImg); + } + delete colorMap; + + maskObj.free(); + smaskObj.free(); + } + + if ((i = width * height) > 1000) { + i = 1000; + } + updateLevel += i; + + return; + + err2: + obj1.free(); + err1: + error(getPos(), "Bad image parameters"); +} + +void Gfx::doForm(Object *str) { + Dict *dict; + GBool transpGroup, isolated, knockout; + GfxColorSpace *blendingColorSpace; + Object matrixObj, bboxObj; + double m[6], bbox[4]; + Object resObj; + Dict *resDict; + Object obj1, obj2, obj3; + int i; + + // check for excessive recursion + if (formDepth > 20) { + return; + } + + // get stream dict + dict = str->streamGetDict(); + + // check form type + dict->lookup("FormType", &obj1); + if (!(obj1.isNull() || (obj1.isInt() && obj1.getInt() == 1))) { + error(getPos(), "Unknown form type"); + } + obj1.free(); + + // get bounding box + dict->lookup("BBox", &bboxObj); + if (!bboxObj.isArray()) { + bboxObj.free(); + error(getPos(), "Bad form bounding box"); + return; + } + for (i = 0; i < 4; ++i) { + bboxObj.arrayGet(i, &obj1); + bbox[i] = obj1.getNum(); + obj1.free(); + } + bboxObj.free(); + + // get matrix + dict->lookup("Matrix", &matrixObj); + if (matrixObj.isArray()) { + for (i = 0; i < 6; ++i) { + matrixObj.arrayGet(i, &obj1); + m[i] = obj1.getNum(); + obj1.free(); + } + } else { + m[0] = 1; m[1] = 0; + m[2] = 0; m[3] = 1; + m[4] = 0; m[5] = 0; + } + matrixObj.free(); + + // get resources + dict->lookup("Resources", &resObj); + resDict = resObj.isDict() ? resObj.getDict() : (Dict *)NULL; + + // check for a transparency group + transpGroup = isolated = knockout = gFalse; + blendingColorSpace = NULL; + if (dict->lookup("Group", &obj1)->isDict()) { + if (obj1.dictLookup("S", &obj2)->isName("Transparency")) { + transpGroup = gTrue; + if (!obj1.dictLookup("CS", &obj3)->isNull()) { + blendingColorSpace = GfxColorSpace::parse(&obj3); + } + obj3.free(); + if (obj1.dictLookup("I", &obj3)->isBool()) { + isolated = obj3.getBool(); + } + obj3.free(); + if (obj1.dictLookup("K", &obj3)->isBool()) { + knockout = obj3.getBool(); + } + obj3.free(); + } + obj2.free(); + } + obj1.free(); + + // draw it + ++formDepth; + doForm1(str, resDict, m, bbox, + transpGroup, gFalse, blendingColorSpace, isolated, knockout); + --formDepth; + + if (blendingColorSpace) { + delete blendingColorSpace; + } + resObj.free(); +} + +void Gfx::doForm1(Object *str, Dict *resDict, double *matrix, double *bbox, + GBool transpGroup, GBool softMask, + GfxColorSpace *blendingColorSpace, + GBool isolated, GBool knockout, + GBool alpha, Function *transferFunc, + GfxColor *backdropColor) { + Parser *oldParser; + double oldBaseMatrix[6]; + int i; + + // push new resources on stack + pushResources(resDict); + + // save current graphics state + saveState(); + + // kill any pre-existing path + state->clearPath(); + + // save current parser + oldParser = parser; + + // set form transformation matrix + state->concatCTM(matrix[0], matrix[1], matrix[2], + matrix[3], matrix[4], matrix[5]); + out->updateCTM(state, matrix[0], matrix[1], matrix[2], + matrix[3], matrix[4], matrix[5]); + + // set form bounding box + state->moveTo(bbox[0], bbox[1]); + state->lineTo(bbox[2], bbox[1]); + state->lineTo(bbox[2], bbox[3]); + state->lineTo(bbox[0], bbox[3]); + state->closePath(); + state->clip(); + out->clip(state); + state->clearPath(); + + if (softMask || transpGroup) { + if (state->getBlendMode() != gfxBlendNormal) { + state->setBlendMode(gfxBlendNormal); + out->updateBlendMode(state); + } + if (state->getFillOpacity() != 1) { + state->setFillOpacity(1); + out->updateFillOpacity(state); + } + if (state->getStrokeOpacity() != 1) { + state->setStrokeOpacity(1); + out->updateStrokeOpacity(state); + } + out->clearSoftMask(state); + out->beginTransparencyGroup(state, bbox, blendingColorSpace, + isolated, knockout, softMask); + } + + // set new base matrix + for (i = 0; i < 6; ++i) { + oldBaseMatrix[i] = baseMatrix[i]; + baseMatrix[i] = state->getCTM()[i]; + } + + // draw the form + display(str, gFalse); + + if (softMask || transpGroup) { + out->endTransparencyGroup(state); + } + + // restore base matrix + for (i = 0; i < 6; ++i) { + baseMatrix[i] = oldBaseMatrix[i]; + } + + // restore parser + parser = oldParser; + + // restore graphics state + restoreState(); + + // pop resource stack + popResources(); + + if (softMask) { + out->setSoftMask(state, bbox, alpha, transferFunc, backdropColor); + } else if (transpGroup) { + out->paintTransparencyGroup(state, bbox); + } + + return; +} + +//------------------------------------------------------------------------ +// in-line image operators +//------------------------------------------------------------------------ + +void Gfx::opBeginImage(Object * /*args[]*/, int /*numArgs*/) { + Stream *str; + int c1, c2; + + // build dict/stream + str = buildImageStream(); + + // display the image + if (str) { + doImage(NULL, str, gTrue); + + // skip 'EI' tag + c1 = str->getUndecodedStream()->getChar(); + c2 = str->getUndecodedStream()->getChar(); + while (!(c1 == 'E' && c2 == 'I') && c2 != EOF) { + c1 = c2; + c2 = str->getUndecodedStream()->getChar(); + } + delete str; + } +} + +Stream *Gfx::buildImageStream() { + Object dict; + Object obj; + char *key; + Stream *str; + + // build dictionary + dict.initDict(xref); + parser->getObj(&obj); + while (!obj.isCmd("ID") && !obj.isEOF()) { + if (!obj.isName()) { + error(getPos(), "Inline image dictionary key must be a name object"); + obj.free(); + } else { + key = copyString(obj.getName()); + obj.free(); + parser->getObj(&obj); + if (obj.isEOF() || obj.isError()) { + gfree(key); + break; + } + dict.dictAdd(key, &obj); + } + parser->getObj(&obj); + } + if (obj.isEOF()) { + error(getPos(), "End of file in inline image"); + obj.free(); + dict.free(); + return NULL; + } + obj.free(); + + // make stream + str = new EmbedStream(parser->getStream(), &dict, gFalse, 0); + str = str->addFilters(&dict); + + return str; +} + +void Gfx::opImageData(Object * /*args[]*/, int /*numArgs*/) { + error(getPos(), "Internal: got 'ID' operator"); +} + +void Gfx::opEndImage(Object * /*args[]*/, int /*numArgs*/) { + error(getPos(), "Internal: got 'EI' operator"); +} + +//------------------------------------------------------------------------ +// type 3 font operators +//------------------------------------------------------------------------ + +void Gfx::opSetCharWidth(Object args[], int /*numArgs*/) { + out->type3D0(state, args[0].getNum(), args[1].getNum()); +} + +void Gfx::opSetCacheDevice(Object args[], int /*numArgs*/) { + out->type3D1(state, args[0].getNum(), args[1].getNum(), + args[2].getNum(), args[3].getNum(), + args[4].getNum(), args[5].getNum()); +} + +//------------------------------------------------------------------------ +// compatibility operators +//------------------------------------------------------------------------ + +void Gfx::opBeginIgnoreUndef(Object * /*args[]*/, int /*numArgs*/) { + ++ignoreUndef; +} + +void Gfx::opEndIgnoreUndef(Object * /*args[]*/, int /*numArgs*/) { + if (ignoreUndef > 0) + --ignoreUndef; +} + +//------------------------------------------------------------------------ +// marked content operators +//------------------------------------------------------------------------ + +void Gfx::opBeginMarkedContent(Object args[], int numArgs) { + if (printCommands) { + printf(" marked content: %s ", args[0].getName()); + if (numArgs == 2) + args[2].print(stdout); + printf("\n"); + fflush(stdout); + } +} + +void Gfx::opEndMarkedContent(Object * /*args[]*/, int /*numArgs*/) { +} + +void Gfx::opMarkPoint(Object args[], int numArgs) { + if (printCommands) { + printf(" mark point: %s ", args[0].getName()); + if (numArgs == 2) + args[2].print(stdout); + printf("\n"); + fflush(stdout); + } +} + +//------------------------------------------------------------------------ +// misc +//------------------------------------------------------------------------ + +void Gfx::drawAnnot(Object *str, AnnotBorderStyle *borderStyle, + double xMin, double yMin, double xMax, double yMax) { + Dict *dict, *resDict; + Object matrixObj, bboxObj, resObj; + Object obj1; + double m[6], bbox[4], ictm[6]; + double *ctm; + double formX0, formY0, formX1, formY1; + double annotX0, annotY0, annotX1, annotY1; + double det, x, y, sx, sy; + double r, g, b; + GfxColor color; + double *dash, *dash2; + int dashLength; + int i; + + //~ can we assume that we're in default user space? + //~ (i.e., baseMatrix = ctm) + + // transform the annotation bbox from default user space to user + // space: (bbox * baseMatrix) * iCTM + ctm = state->getCTM(); + det = 1 / (ctm[0] * ctm[3] - ctm[1] * ctm[2]); + ictm[0] = ctm[3] * det; + ictm[1] = -ctm[1] * det; + ictm[2] = -ctm[2] * det; + ictm[3] = ctm[0] * det; + ictm[4] = (ctm[2] * ctm[5] - ctm[3] * ctm[4]) * det; + ictm[5] = (ctm[1] * ctm[4] - ctm[0] * ctm[5]) * det; + x = baseMatrix[0] * xMin + baseMatrix[2] * yMin + baseMatrix[4]; + y = baseMatrix[1] * xMin + baseMatrix[3] * yMin + baseMatrix[5]; + annotX0 = ictm[0] * x + ictm[2] * y + ictm[4]; + annotY0 = ictm[1] * x + ictm[3] * y + ictm[5]; + x = baseMatrix[0] * xMax + baseMatrix[2] * yMax + baseMatrix[4]; + y = baseMatrix[1] * xMax + baseMatrix[3] * yMax + baseMatrix[5]; + annotX1 = ictm[0] * x + ictm[2] * y + ictm[4]; + annotY1 = ictm[1] * x + ictm[3] * y + ictm[5]; + if (annotX0 > annotX1) { + x = annotX0; annotX0 = annotX1; annotX1 = x; + } + if (annotY0 > annotY1) { + y = annotY0; annotY0 = annotY1; annotY1 = y; + } + + // draw the appearance stream (if there is one) + if (str->isStream()) { + + // get stream dict + dict = str->streamGetDict(); + + // get the form bounding box + dict->lookup("BBox", &bboxObj); + if (!bboxObj.isArray()) { + bboxObj.free(); + error(getPos(), "Bad form bounding box"); + return; + } + for (i = 0; i < 4; ++i) { + bboxObj.arrayGet(i, &obj1); + bbox[i] = obj1.getNum(); + obj1.free(); + } + bboxObj.free(); + + // get the form matrix + dict->lookup("Matrix", &matrixObj); + if (matrixObj.isArray()) { + for (i = 0; i < 6; ++i) { + matrixObj.arrayGet(i, &obj1); + m[i] = obj1.getNum(); + obj1.free(); + } + } else { + m[0] = 1; m[1] = 0; + m[2] = 0; m[3] = 1; + m[4] = 0; m[5] = 0; + } + matrixObj.free(); + + // transform the form bbox from form space to user space + formX0 = bbox[0] * m[0] + bbox[1] * m[2] + m[4]; + formY0 = bbox[0] * m[1] + bbox[1] * m[3] + m[5]; + formX1 = bbox[2] * m[0] + bbox[3] * m[2] + m[4]; + formY1 = bbox[2] * m[1] + bbox[3] * m[3] + m[5]; + if (formX0 > formX1) { + x = formX0; formX0 = formX1; formX1 = x; + } + if (formY0 > formY1) { + y = formY0; formY0 = formY1; formY1 = y; + } + + // scale the form to fit the annotation bbox + if (formX1 == formX0) { + // this shouldn't happen + sx = 1; + } else { + sx = (annotX1 - annotX0) / (formX1 - formX0); + } + if (formY1 == formY0) { + // this shouldn't happen + sy = 1; + } else { + sy = (annotY1 - annotY0) / (formY1 - formY0); + } + m[0] *= sx; + m[2] *= sx; + m[4] = (m[4] - formX0) * sx + annotX0; + m[1] *= sy; + m[3] *= sy; + m[5] = (m[5] - formY0) * sy + annotY0; + + // get resources + dict->lookup("Resources", &resObj); + resDict = resObj.isDict() ? resObj.getDict() : (Dict *)NULL; + + // draw it + doForm1(str, resDict, m, bbox); + + resObj.free(); + } + + // draw the border + if (borderStyle && borderStyle->getWidth() > 0) { + if (state->getStrokeColorSpace()->getMode() != csDeviceRGB) { + state->setStrokePattern(NULL); + state->setStrokeColorSpace(new GfxDeviceRGBColorSpace()); + out->updateStrokeColorSpace(state); + } + borderStyle->getColor(&r, &g, &b); + color.c[0] = dblToCol(r); + color.c[1] = dblToCol(g); + color.c[2] = dblToCol(b); + state->setStrokeColor(&color); + out->updateStrokeColor(state); + // compute the width scale factor when going from default user + // space to user space + x = (baseMatrix[0] + baseMatrix[2]) * ictm[0] + + (baseMatrix[1] + baseMatrix[3]) * ictm[2]; + y = (baseMatrix[0] + baseMatrix[2]) * ictm[1] + + (baseMatrix[1] + baseMatrix[3]) * ictm[3]; + x = sqrt(0.5 * (x * x + y * y)); + state->setLineWidth(x * borderStyle->getWidth()); + out->updateLineWidth(state); + borderStyle->getDash(&dash, &dashLength); + if (borderStyle->getType() == annotBorderDashed && dashLength > 0) { + dash2 = (double *)gmallocn(dashLength, sizeof(double)); + for (i = 0; i < dashLength; ++i) { + dash2[i] = x * dash[i]; + } + state->setLineDash(dash2, dashLength, 0); + out->updateLineDash(state); + } + //~ this doesn't currently handle the beveled and engraved styles + state->clearPath(); + state->moveTo(annotX0, out->upsideDown() ? annotY0 : annotY1); + state->lineTo(annotX1, out->upsideDown() ? annotY0 : annotY1); + if (borderStyle->getType() != annotBorderUnderlined) { + state->lineTo(annotX1, out->upsideDown() ? annotY1 : annotY0); + state->lineTo(annotX0, out->upsideDown() ? annotY1 : annotY0); + state->closePath(); + } + out->stroke(state); + } +} + +void Gfx::saveState() { + out->saveState(state); + state = state->save(); +} + +void Gfx::restoreState() { + state = state->restore(); + out->restoreState(state); +} + +void Gfx::pushResources(Dict *resDict) { + res = new GfxResources(xref, resDict, res); +} + +void Gfx::popResources() { + GfxResources *resPtr; + + resPtr = res->getNext(); + delete res; + res = resPtr; +} diff --git a/kpdf/xpdf/xpdf/Gfx.h b/kpdf/xpdf/xpdf/Gfx.h new file mode 100644 index 00000000..0e4263ce --- /dev/null +++ b/kpdf/xpdf/xpdf/Gfx.h @@ -0,0 +1,312 @@ +//======================================================================== +// +// Gfx.h +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef GFX_H +#define GFX_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" + +class GString; +class XRef; +class Array; +class Stream; +class Parser; +class Dict; +class Function; +class OutputDev; +class GfxFontDict; +class GfxFont; +class GfxPattern; +class GfxTilingPattern; +class GfxShadingPattern; +class GfxShading; +class GfxFunctionShading; +class GfxAxialShading; +class GfxRadialShading; +class GfxGouraudTriangleShading; +class GfxPatchMeshShading; +struct GfxPatch; +class GfxState; +struct GfxColor; +class GfxColorSpace; +class Gfx; +class PDFRectangle; +class AnnotBorderStyle; + +//------------------------------------------------------------------------ + +enum GfxClipType { + clipNone, + clipNormal, + clipEO +}; + +enum TchkType { + tchkBool, // boolean + tchkInt, // integer + tchkNum, // number (integer or real) + tchkString, // string + tchkName, // name + tchkArray, // array + tchkProps, // properties (dictionary or name) + tchkSCN, // scn/SCN args (number of name) + tchkNone // used to avoid empty initializer lists +}; + +#define maxArgs 33 + +struct Operator { + char name[4]; + int numArgs; + TchkType tchk[maxArgs]; + void (Gfx::*func)(Object args[], int numArgs); +}; + +//------------------------------------------------------------------------ + +class GfxResources { +public: + + GfxResources(XRef *xref, Dict *resDict, GfxResources *nextA); + ~GfxResources(); + + GfxFont *lookupFont(char *name); + GBool lookupXObject(char *name, Object *obj); + GBool lookupXObjectNF(char *name, Object *obj); + void lookupColorSpace(char *name, Object *obj); + GfxPattern *lookupPattern(char *name); + GfxShading *lookupShading(char *name); + GBool lookupGState(char *name, Object *obj); + + GfxResources *getNext() { return next; } + +private: + + GfxFontDict *fonts; + Object xObjDict; + Object colorSpaceDict; + Object patternDict; + Object shadingDict; + Object gStateDict; + GfxResources *next; +}; + +//------------------------------------------------------------------------ +// Gfx +//------------------------------------------------------------------------ + +class Gfx { +public: + + // Constructor for regular output. + Gfx(XRef *xrefA, OutputDev *outA, int pageNum, Dict *resDict, + double hDPI, double vDPI, PDFRectangle *box, + PDFRectangle *cropBox, int rotate, + GBool (*abortCheckCbkA)(void *data) = NULL, + void *abortCheckCbkDataA = NULL); + + // Constructor for a sub-page object. + Gfx(XRef *xrefA, OutputDev *outA, Dict *resDict, + PDFRectangle *box, PDFRectangle *cropBox, + GBool (*abortCheckCbkA)(void *data) = NULL, + void *abortCheckCbkDataA = NULL); + + ~Gfx(); + + // Interpret a stream or array of streams. + void display(Object *obj, GBool topLevel = gTrue); + + // Display an annotation, given its appearance (a Form XObject), + // border style, and bounding box (in default user space). + void drawAnnot(Object *str, AnnotBorderStyle *borderStyle, + double xMin, double yMin, double xMax, double yMax); + + // Save graphics state. + void saveState(); + + // Restore graphics state. + void restoreState(); + + // Get the current graphics state object. + GfxState *getState() { return state; } + +private: + + XRef *xref; // the xref table for this PDF file + OutputDev *out; // output device + GBool subPage; // is this a sub-page object? + GBool printCommands; // print the drawing commands (for debugging) + GfxResources *res; // resource stack + int updateLevel; + + GfxState *state; // current graphics state + GBool fontChanged; // set if font or text matrix has changed + GfxClipType clip; // do a clip? + int ignoreUndef; // current BX/EX nesting level + double baseMatrix[6]; // default matrix for most recent + // page/form/pattern + int formDepth; + + Parser *parser; // parser for page content stream(s) + + GBool // callback to check for an abort + (*abortCheckCbk)(void *data); + void *abortCheckCbkData; + + static Operator opTab[]; // table of operators + + void go(GBool topLevel); + void execOp(Object *cmd, Object args[], int numArgs); + Operator *findOp(char *name); + GBool checkArg(Object *arg, TchkType type); + int getPos(); + + // graphics state operators + void opSave(Object args[], int numArgs); + void opRestore(Object args[], int numArgs); + void opConcat(Object args[], int numArgs); + void opSetDash(Object args[], int numArgs); + void opSetFlat(Object args[], int numArgs); + void opSetLineJoin(Object args[], int numArgs); + void opSetLineCap(Object args[], int numArgs); + void opSetMiterLimit(Object args[], int numArgs); + void opSetLineWidth(Object args[], int numArgs); + void opSetExtGState(Object args[], int numArgs); + void doSoftMask(Object *str, GBool alpha, + GfxColorSpace *blendingColorSpace, + GBool isolated, GBool knockout, + Function *transferFunc, GfxColor *backdropColor); + void opSetRenderingIntent(Object args[], int numArgs); + + // color operators + void opSetFillGray(Object args[], int numArgs); + void opSetStrokeGray(Object args[], int numArgs); + void opSetFillCMYKColor(Object args[], int numArgs); + void opSetStrokeCMYKColor(Object args[], int numArgs); + void opSetFillRGBColor(Object args[], int numArgs); + void opSetStrokeRGBColor(Object args[], int numArgs); + void opSetFillColorSpace(Object args[], int numArgs); + void opSetStrokeColorSpace(Object args[], int numArgs); + void opSetFillColor(Object args[], int numArgs); + void opSetStrokeColor(Object args[], int numArgs); + void opSetFillColorN(Object args[], int numArgs); + void opSetStrokeColorN(Object args[], int numArgs); + + // path segment operators + void opMoveTo(Object args[], int numArgs); + void opLineTo(Object args[], int numArgs); + void opCurveTo(Object args[], int numArgs); + void opCurveTo1(Object args[], int numArgs); + void opCurveTo2(Object args[], int numArgs); + void opRectangle(Object args[], int numArgs); + void opClosePath(Object args[], int numArgs); + + // path painting operators + void opEndPath(Object args[], int numArgs); + void opStroke(Object args[], int numArgs); + void opCloseStroke(Object args[], int numArgs); + void opFill(Object args[], int numArgs); + void opEOFill(Object args[], int numArgs); + void opFillStroke(Object args[], int numArgs); + void opCloseFillStroke(Object args[], int numArgs); + void opEOFillStroke(Object args[], int numArgs); + void opCloseEOFillStroke(Object args[], int numArgs); + void doPatternFill(GBool eoFill); + void doPatternStroke(); + void doTilingPatternFill(GfxTilingPattern *tPat, + GBool stroke, GBool eoFill); + void doShadingPatternFill(GfxShadingPattern *sPat, + GBool stroke, GBool eoFill); + void opShFill(Object args[], int numArgs); + void doFunctionShFill(GfxFunctionShading *shading); + void doFunctionShFill1(GfxFunctionShading *shading, + double x0, double y0, + double x1, double y1, + GfxColor *colors, int depth); + void doAxialShFill(GfxAxialShading *shading); + void doRadialShFill(GfxRadialShading *shading); + void doGouraudTriangleShFill(GfxGouraudTriangleShading *shading); + void gouraudFillTriangle(double x0, double y0, GfxColor *color0, + double x1, double y1, GfxColor *color1, + double x2, double y2, GfxColor *color2, + int nComps, int depth); + void doPatchMeshShFill(GfxPatchMeshShading *shading); + void fillPatch(GfxPatch *patch, int nComps, int depth); + void doEndPath(); + + // path clipping operators + void opClip(Object args[], int numArgs); + void opEOClip(Object args[], int numArgs); + + // text object operators + void opBeginText(Object args[], int numArgs); + void opEndText(Object args[], int numArgs); + + // text state operators + void opSetCharSpacing(Object args[], int numArgs); + void opSetFont(Object args[], int numArgs); + void opSetTextLeading(Object args[], int numArgs); + void opSetTextRender(Object args[], int numArgs); + void opSetTextRise(Object args[], int numArgs); + void opSetWordSpacing(Object args[], int numArgs); + void opSetHorizScaling(Object args[], int numArgs); + + // text positioning operators + void opTextMove(Object args[], int numArgs); + void opTextMoveSet(Object args[], int numArgs); + void opSetTextMatrix(Object args[], int numArgs); + void opTextNextLine(Object args[], int numArgs); + + // text string operators + void opShowText(Object args[], int numArgs); + void opMoveShowText(Object args[], int numArgs); + void opMoveSetShowText(Object args[], int numArgs); + void opShowSpaceText(Object args[], int numArgs); + void doShowText(GString *s); + + // XObject operators + void opXObject(Object args[], int numArgs); + void doImage(Object *ref, Stream *str, GBool inlineImg); + void doForm(Object *str); + void doForm1(Object *str, Dict *resDict, double *matrix, double *bbox, + GBool transpGroup = gFalse, GBool softMask = gFalse, + GfxColorSpace *blendingColorSpace = NULL, + GBool isolated = gFalse, GBool knockout = gFalse, + GBool alpha = gFalse, Function *transferFunc = NULL, + GfxColor *backdropColor = NULL); + + // in-line image operators + void opBeginImage(Object args[], int numArgs); + Stream *buildImageStream(); + void opImageData(Object args[], int numArgs); + void opEndImage(Object args[], int numArgs); + + // type 3 font operators + void opSetCharWidth(Object args[], int numArgs); + void opSetCacheDevice(Object args[], int numArgs); + + // compatibility operators + void opBeginIgnoreUndef(Object args[], int numArgs); + void opEndIgnoreUndef(Object args[], int numArgs); + + // marked content operators + void opBeginMarkedContent(Object args[], int numArgs); + void opEndMarkedContent(Object args[], int numArgs); + void opMarkPoint(Object args[], int numArgs); + + void pushResources(Dict *resDict); + void popResources(); +}; + +#endif diff --git a/kpdf/xpdf/xpdf/GfxFont.cc b/kpdf/xpdf/xpdf/GfxFont.cc new file mode 100644 index 00000000..8694be47 --- /dev/null +++ b/kpdf/xpdf/xpdf/GfxFont.cc @@ -0,0 +1,1616 @@ +//======================================================================== +// +// GfxFont.cc +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include +#include +#include "gmem.h" +#include "Error.h" +#include "Object.h" +#include "Dict.h" +#include "GlobalParams.h" +#include "CMap.h" +#include "CharCodeToUnicode.h" +#include "FontEncodingTables.h" +#include "BuiltinFontTables.h" +#include "FoFiType1.h" +#include "FoFiType1C.h" +#include "FoFiTrueType.h" +#include "GfxFont.h" + +//------------------------------------------------------------------------ + +struct StdFontMapEntry { + char *altName; + char *properName; +}; + +// Acrobat 4.0 and earlier substituted Base14-compatible fonts without +// providing Widths and a FontDescriptor, so we munge the names into +// the proper Base14 names. This table is from implementation note 44 +// in the PDF 1.4 spec, with some additions based on empirical +// evidence. +static StdFontMapEntry stdFontMap[] = { + { "Arial", "Helvetica" }, + { "Arial,Bold", "Helvetica-Bold" }, + { "Arial,BoldItalic", "Helvetica-BoldOblique" }, + { "Arial,Italic", "Helvetica-Oblique" }, + { "Arial-Bold", "Helvetica-Bold" }, + { "Arial-BoldItalic", "Helvetica-BoldOblique" }, + { "Arial-BoldItalicMT", "Helvetica-BoldOblique" }, + { "Arial-BoldMT", "Helvetica-Bold" }, + { "Arial-Italic", "Helvetica-Oblique" }, + { "Arial-ItalicMT", "Helvetica-Oblique" }, + { "ArialMT", "Helvetica" }, + { "Courier,Bold", "Courier-Bold" }, + { "Courier,BoldItalic", "Courier-BoldOblique" }, + { "Courier,Italic", "Courier-Oblique" }, + { "CourierNew", "Courier" }, + { "CourierNew,Bold", "Courier-Bold" }, + { "CourierNew,BoldItalic", "Courier-BoldOblique" }, + { "CourierNew,Italic", "Courier-Oblique" }, + { "CourierNew-Bold", "Courier-Bold" }, + { "CourierNew-BoldItalic", "Courier-BoldOblique" }, + { "CourierNew-Italic", "Courier-Oblique" }, + { "CourierNewPS-BoldItalicMT", "Courier-BoldOblique" }, + { "CourierNewPS-BoldMT", "Courier-Bold" }, + { "CourierNewPS-ItalicMT", "Courier-Oblique" }, + { "CourierNewPSMT", "Courier" }, + { "Helvetica,Bold", "Helvetica-Bold" }, + { "Helvetica,BoldItalic", "Helvetica-BoldOblique" }, + { "Helvetica,Italic", "Helvetica-Oblique" }, + { "Helvetica-BoldItalic", "Helvetica-BoldOblique" }, + { "Helvetica-Italic", "Helvetica-Oblique" }, + { "Symbol,Bold", "Symbol" }, + { "Symbol,BoldItalic", "Symbol" }, + { "Symbol,Italic", "Symbol" }, + { "TimesNewRoman", "Times-Roman" }, + { "TimesNewRoman,Bold", "Times-Bold" }, + { "TimesNewRoman,BoldItalic", "Times-BoldItalic" }, + { "TimesNewRoman,Italic", "Times-Italic" }, + { "TimesNewRoman-Bold", "Times-Bold" }, + { "TimesNewRoman-BoldItalic", "Times-BoldItalic" }, + { "TimesNewRoman-Italic", "Times-Italic" }, + { "TimesNewRomanPS", "Times-Roman" }, + { "TimesNewRomanPS-Bold", "Times-Bold" }, + { "TimesNewRomanPS-BoldItalic", "Times-BoldItalic" }, + { "TimesNewRomanPS-BoldItalicMT", "Times-BoldItalic" }, + { "TimesNewRomanPS-BoldMT", "Times-Bold" }, + { "TimesNewRomanPS-Italic", "Times-Italic" }, + { "TimesNewRomanPS-ItalicMT", "Times-Italic" }, + { "TimesNewRomanPSMT", "Times-Roman" }, + { "TimesNewRomanPSMT,Bold", "Times-Bold" }, + { "TimesNewRomanPSMT,BoldItalic", "Times-BoldItalic" }, + { "TimesNewRomanPSMT,Italic", "Times-Italic" } +}; + +//------------------------------------------------------------------------ +// GfxFont +//------------------------------------------------------------------------ + +GfxFont *GfxFont::makeFont(XRef *xref, char *tagA, Ref idA, Dict *fontDict) { + GString *nameA; + GfxFont *font; + Object obj1; + + // get base font name + nameA = NULL; + fontDict->lookup("BaseFont", &obj1); + if (obj1.isName()) { + nameA = new GString(obj1.getName()); + } + obj1.free(); + + // get font type + font = NULL; + fontDict->lookup("Subtype", &obj1); + if (obj1.isName("Type1") || obj1.isName("MMType1")) { + font = new Gfx8BitFont(xref, tagA, idA, nameA, fontType1, fontDict); + } else if (obj1.isName("Type1C")) { + font = new Gfx8BitFont(xref, tagA, idA, nameA, fontType1C, fontDict); + } else if (obj1.isName("Type3")) { + font = new Gfx8BitFont(xref, tagA, idA, nameA, fontType3, fontDict); + } else if (obj1.isName("TrueType")) { + font = new Gfx8BitFont(xref, tagA, idA, nameA, fontTrueType, fontDict); + } else if (obj1.isName("Type0")) { + font = new GfxCIDFont(xref, tagA, idA, nameA, fontDict); + } else { + error(-1, "Unknown font type: '%s'", + obj1.isName() ? obj1.getName() : "???"); + font = new Gfx8BitFont(xref, tagA, idA, nameA, fontUnknownType, fontDict); + } + obj1.free(); + + return font; +} + +GfxFont::GfxFont(char *tagA, Ref idA, GString *nameA) { + ok = gFalse; + tag = new GString(tagA); + id = idA; + name = nameA; + origName = nameA; + embFontName = NULL; + extFontFile = NULL; +} + +GfxFont::~GfxFont() { + delete tag; + if (origName && origName != name) { + delete origName; + } + if (name) { + delete name; + } + if (embFontName) { + delete embFontName; + } + if (extFontFile) { + delete extFontFile; + } +} + +void GfxFont::readFontDescriptor(XRef *xref, Dict *fontDict) { + Object obj1, obj2, obj3, obj4; + double t; + int i; + + // assume Times-Roman by default (for substitution purposes) + flags = fontSerif; + + embFontID.num = -1; + embFontID.gen = -1; + missingWidth = 0; + + if (fontDict->lookup("FontDescriptor", &obj1)->isDict()) { + + // get flags + if (obj1.dictLookup("Flags", &obj2)->isInt()) { + flags = obj2.getInt(); + } + obj2.free(); + + // get name + obj1.dictLookup("FontName", &obj2); + if (obj2.isName()) { + embFontName = new GString(obj2.getName()); + } + obj2.free(); + + // look for embedded font file + if (obj1.dictLookupNF("FontFile", &obj2)->isRef()) { + embFontID = obj2.getRef(); + if (type != fontType1) { + error(-1, "Mismatch between font type and embedded font file"); + type = fontType1; + } + } + obj2.free(); + if (embFontID.num == -1 && + obj1.dictLookupNF("FontFile2", &obj2)->isRef()) { + embFontID = obj2.getRef(); + if (type != fontTrueType && type != fontCIDType2) { + error(-1, "Mismatch between font type and embedded font file"); + type = type == fontCIDType0 ? fontCIDType2 : fontTrueType; + } + } + obj2.free(); + if (embFontID.num == -1 && + obj1.dictLookupNF("FontFile3", &obj2)->isRef()) { + if (obj2.fetch(xref, &obj3)->isStream()) { + obj3.streamGetDict()->lookup("Subtype", &obj4); + if (obj4.isName("Type1")) { + embFontID = obj2.getRef(); + if (type != fontType1) { + error(-1, "Mismatch between font type and embedded font file"); + type = fontType1; + } + } else if (obj4.isName("Type1C")) { + embFontID = obj2.getRef(); + if (type != fontType1 && type != fontType1C) { + error(-1, "Mismatch between font type and embedded font file"); + } + type = fontType1C; + } else if (obj4.isName("TrueType")) { + embFontID = obj2.getRef(); + if (type != fontTrueType) { + error(-1, "Mismatch between font type and embedded font file"); + type = fontTrueType; + } + } else if (obj4.isName("CIDFontType0C")) { + embFontID = obj2.getRef(); + if (type != fontCIDType0) { + error(-1, "Mismatch between font type and embedded font file"); + } + type = fontCIDType0C; + } else if (obj4.isName("OpenType")) { + embFontID = obj2.getRef(); + if (type == fontTrueType) { + type = fontTrueTypeOT; + } else if (type == fontType1) { + type = fontType1COT; + } else if (type == fontCIDType0) { + type = fontCIDType0COT; + } else if (type == fontCIDType2) { + type = fontCIDType2OT; + } else { + error(-1, "Mismatch between font type and embedded font file"); + } + } else { + error(-1, "Unknown embedded font type '%s'", + obj4.isName() ? obj4.getName() : "???"); + } + obj4.free(); + } + obj3.free(); + } + obj2.free(); + + // look for MissingWidth + obj1.dictLookup("MissingWidth", &obj2); + if (obj2.isNum()) { + missingWidth = obj2.getNum(); + } + obj2.free(); + + // get Ascent and Descent + obj1.dictLookup("Ascent", &obj2); + if (obj2.isNum()) { + t = 0.001 * obj2.getNum(); + // some broken font descriptors set ascent and descent to 0 + if (t != 0) { + ascent = t; + } + } + obj2.free(); + obj1.dictLookup("Descent", &obj2); + if (obj2.isNum()) { + t = 0.001 * obj2.getNum(); + // some broken font descriptors set ascent and descent to 0 + if (t != 0) { + descent = t; + } + // some broken font descriptors specify a positive descent + if (descent > 0) { + descent = -descent; + } + } + obj2.free(); + + // font FontBBox + if (obj1.dictLookup("FontBBox", &obj2)->isArray()) { + for (i = 0; i < 4 && i < obj2.arrayGetLength(); ++i) { + if (obj2.arrayGet(i, &obj3)->isNum()) { + fontBBox[i] = 0.001 * obj3.getNum(); + } + obj3.free(); + } + } + obj2.free(); + + } + obj1.free(); +} + +CharCodeToUnicode *GfxFont::readToUnicodeCMap(Dict *fontDict, int nBits, + CharCodeToUnicode *ctu) { + GString *buf; + Object obj1; + int c; + + if (!fontDict->lookup("ToUnicode", &obj1)->isStream()) { + obj1.free(); + return NULL; + } + buf = new GString(); + obj1.streamReset(); + while ((c = obj1.streamGetChar()) != EOF) { + buf->append(c); + } + obj1.streamClose(); + obj1.free(); + if (ctu) { + ctu->mergeCMap(buf, nBits); + } else { + ctu = CharCodeToUnicode::parseCMap(buf, nBits); + } + delete buf; + return ctu; +} + +void GfxFont::findExtFontFile() { + static char *type1Exts[] = { ".pfa", ".pfb", ".ps", "", NULL }; + static char *ttExts[] = { ".ttf", ".ttc", NULL }; + + if (name) { + if (type == fontType1) { + extFontFile = globalParams->findFontFile(name, type1Exts); + } else if (type == fontTrueType) { + extFontFile = globalParams->findFontFile(name, ttExts); + } + } +} + +char *GfxFont::readExtFontFile(int *len) { + FILE *f; + char *buf; + + if (!(f = fopen(extFontFile->getCString(), "rb"))) { + error(-1, "External font file '%s' vanished", extFontFile->getCString()); + return NULL; + } + fseek(f, 0, SEEK_END); + *len = (int)ftell(f); + fseek(f, 0, SEEK_SET); + buf = (char *)gmalloc(*len); + if ((int)fread(buf, 1, *len, f) != *len) { + error(-1, "Error reading external font file '%s'", + extFontFile->getCString()); + } + fclose(f); + return buf; +} + +char *GfxFont::readEmbFontFile(XRef *xref, int *len) { + char *buf; + Object obj1, obj2; + Stream *str; + int c; + int size, i; + + obj1.initRef(embFontID.num, embFontID.gen); + obj1.fetch(xref, &obj2); + if (!obj2.isStream()) { + error(-1, "Embedded font file is not a stream"); + obj2.free(); + obj1.free(); + embFontID.num = -1; + return NULL; + } + str = obj2.getStream(); + + buf = NULL; + i = size = 0; + str->reset(); + while ((c = str->getChar()) != EOF) { + if (i == size) { + size += 4096; + buf = (char *)grealloc(buf, size); + } + buf[i++] = c; + } + *len = i; + str->close(); + + obj2.free(); + obj1.free(); + + return buf; +} + +//------------------------------------------------------------------------ +// Gfx8BitFont +//------------------------------------------------------------------------ + +Gfx8BitFont::Gfx8BitFont(XRef *xref, char *tagA, Ref idA, GString *nameA, + GfxFontType typeA, Dict *fontDict): + GfxFont(tagA, idA, nameA) +{ + GString *name2; + BuiltinFont *builtinFont; + char **baseEnc; + GBool baseEncFromFontFile; + char *buf; + int len; + FoFiType1 *ffT1; + FoFiType1C *ffT1C; + int code, code2; + char *charName; + GBool missing, hex; + Unicode toUnicode[256]; + CharCodeToUnicode *utu, *ctu2; + Unicode uBuf[8]; + double mul; + int firstChar, lastChar; + Gushort w; + Object obj1, obj2, obj3; + int n, i, a, b, m; + + type = typeA; + ctu = NULL; + + // do font name substitution for various aliases of the Base 14 font + // names + if (name) { + name2 = name->copy(); + i = 0; + while (i < name2->getLength()) { + if (name2->getChar(i) == ' ') { + name2->del(i); + } else { + ++i; + } + } + a = 0; + b = sizeof(stdFontMap) / sizeof(StdFontMapEntry); + // invariant: stdFontMap[a].altName <= name2 < stdFontMap[b].altName + while (b - a > 1) { + m = (a + b) / 2; + if (name2->cmp(stdFontMap[m].altName) >= 0) { + a = m; + } else { + b = m; + } + } + if (!name2->cmp(stdFontMap[a].altName)) { + name = new GString(stdFontMap[a].properName); + } + delete name2; + } + + // is it a built-in font? + builtinFont = NULL; + if (name) { + for (i = 0; i < nBuiltinFonts; ++i) { + if (!name->cmp(builtinFonts[i].name)) { + builtinFont = &builtinFonts[i]; + break; + } + } + } + + // default ascent/descent values + if (builtinFont) { + ascent = 0.001 * builtinFont->ascent; + descent = 0.001 * builtinFont->descent; + fontBBox[0] = 0.001 * builtinFont->bbox[0]; + fontBBox[1] = 0.001 * builtinFont->bbox[1]; + fontBBox[2] = 0.001 * builtinFont->bbox[2]; + fontBBox[3] = 0.001 * builtinFont->bbox[3]; + } else { + ascent = 0.95; + descent = -0.35; + fontBBox[0] = fontBBox[1] = fontBBox[2] = fontBBox[3] = 0; + } + + // get info from font descriptor + readFontDescriptor(xref, fontDict); + + // for non-embedded fonts, don't trust the ascent/descent/bbox + // values from the font descriptor + if (builtinFont && embFontID.num < 0) { + ascent = 0.001 * builtinFont->ascent; + descent = 0.001 * builtinFont->descent; + fontBBox[0] = 0.001 * builtinFont->bbox[0]; + fontBBox[1] = 0.001 * builtinFont->bbox[1]; + fontBBox[2] = 0.001 * builtinFont->bbox[2]; + fontBBox[3] = 0.001 * builtinFont->bbox[3]; + } + + // look for an external font file + findExtFontFile(); + + // get font matrix + fontMat[0] = fontMat[3] = 1; + fontMat[1] = fontMat[2] = fontMat[4] = fontMat[5] = 0; + if (fontDict->lookup("FontMatrix", &obj1)->isArray()) { + for (i = 0; i < 6 && i < obj1.arrayGetLength(); ++i) { + if (obj1.arrayGet(i, &obj2)->isNum()) { + fontMat[i] = obj2.getNum(); + } + obj2.free(); + } + } + obj1.free(); + + // get Type 3 bounding box, font definition, and resources + if (type == fontType3) { + if (fontDict->lookup("FontBBox", &obj1)->isArray()) { + for (i = 0; i < 4 && i < obj1.arrayGetLength(); ++i) { + if (obj1.arrayGet(i, &obj2)->isNum()) { + fontBBox[i] = obj2.getNum(); + } + obj2.free(); + } + } + obj1.free(); + if (!fontDict->lookup("CharProcs", &charProcs)->isDict()) { + error(-1, "Missing or invalid CharProcs dictionary in Type 3 font"); + charProcs.free(); + } + if (!fontDict->lookup("Resources", &resources)->isDict()) { + resources.free(); + } + } + + //----- build the font encoding ----- + + // Encodings start with a base encoding, which can come from + // (in order of priority): + // 1. FontDict.Encoding or FontDict.Encoding.BaseEncoding + // - MacRoman / MacExpert / WinAnsi / Standard + // 2. embedded or external font file + // 3. default: + // - builtin --> builtin encoding + // - TrueType --> WinAnsiEncoding + // - others --> StandardEncoding + // and then add a list of differences (if any) from + // FontDict.Encoding.Differences. + + // check FontDict for base encoding + hasEncoding = gFalse; + usesMacRomanEnc = gFalse; + baseEnc = NULL; + baseEncFromFontFile = gFalse; + fontDict->lookup("Encoding", &obj1); + if (obj1.isDict()) { + obj1.dictLookup("BaseEncoding", &obj2); + if (obj2.isName("MacRomanEncoding")) { + hasEncoding = gTrue; + usesMacRomanEnc = gTrue; + baseEnc = macRomanEncoding; + } else if (obj2.isName("MacExpertEncoding")) { + hasEncoding = gTrue; + baseEnc = macExpertEncoding; + } else if (obj2.isName("WinAnsiEncoding")) { + hasEncoding = gTrue; + baseEnc = winAnsiEncoding; + } + obj2.free(); + } else if (obj1.isName("MacRomanEncoding")) { + hasEncoding = gTrue; + usesMacRomanEnc = gTrue; + baseEnc = macRomanEncoding; + } else if (obj1.isName("MacExpertEncoding")) { + hasEncoding = gTrue; + baseEnc = macExpertEncoding; + } else if (obj1.isName("WinAnsiEncoding")) { + hasEncoding = gTrue; + baseEnc = winAnsiEncoding; + } + + // check embedded or external font file for base encoding + // (only for Type 1 fonts - trying to get an encoding out of a + // TrueType font is a losing proposition) + ffT1 = NULL; + ffT1C = NULL; + buf = NULL; + if (type == fontType1 && (extFontFile || embFontID.num >= 0)) { + if (extFontFile) { + ffT1 = FoFiType1::load(extFontFile->getCString()); + } else { + buf = readEmbFontFile(xref, &len); + ffT1 = FoFiType1::make(buf, len); + } + if (ffT1) { + if (ffT1->getName()) { + if (embFontName) { + delete embFontName; + } + embFontName = new GString(ffT1->getName()); + } + if (!baseEnc) { + baseEnc = ffT1->getEncoding(); + baseEncFromFontFile = gTrue; + } + } + } else if (type == fontType1C && (extFontFile || embFontID.num >= 0)) { + if (extFontFile) { + ffT1C = FoFiType1C::load(extFontFile->getCString()); + } else { + buf = readEmbFontFile(xref, &len); + ffT1C = FoFiType1C::make(buf, len); + } + if (ffT1C) { + if (ffT1C->getName()) { + if (embFontName) { + delete embFontName; + } + embFontName = new GString(ffT1C->getName()); + } + if (!baseEnc) { + baseEnc = ffT1C->getEncoding(); + baseEncFromFontFile = gTrue; + } + } + } + if (buf) { + gfree(buf); + } + + // get default base encoding + if (!baseEnc) { + if (builtinFont && embFontID.num < 0) { + baseEnc = builtinFont->defaultBaseEnc; + hasEncoding = gTrue; + } else if (type == fontTrueType) { + baseEnc = winAnsiEncoding; + } else { + baseEnc = standardEncoding; + } + } + + // copy the base encoding + for (i = 0; i < 256; ++i) { + enc[i] = baseEnc[i]; + if ((encFree[i] = baseEncFromFontFile) && enc[i]) { + enc[i] = copyString(baseEnc[i]); + } + } + + // some Type 1C font files have empty encodings, which can break the + // T1C->T1 conversion (since the 'seac' operator depends on having + // the accents in the encoding), so we fill in any gaps from + // StandardEncoding + if (type == fontType1C && (extFontFile || embFontID.num >= 0) && + baseEncFromFontFile) { + for (i = 0; i < 256; ++i) { + if (!enc[i] && standardEncoding[i]) { + enc[i] = standardEncoding[i]; + encFree[i] = gFalse; + } + } + } + + // merge differences into encoding + if (obj1.isDict()) { + obj1.dictLookup("Differences", &obj2); + if (obj2.isArray()) { + hasEncoding = gTrue; + code = 0; + for (i = 0; i < obj2.arrayGetLength(); ++i) { + obj2.arrayGet(i, &obj3); + if (obj3.isInt()) { + code = obj3.getInt(); + } else if (obj3.isName()) { + if (code >= 0 && code < 256) { + if (encFree[code]) { + gfree(enc[code]); + } + enc[code] = copyString(obj3.getName()); + encFree[code] = gTrue; + } + ++code; + } else { + error(-1, "Wrong type in font encoding resource differences (%s)", + obj3.getTypeName()); + } + obj3.free(); + } + } + obj2.free(); + } + obj1.free(); + if (ffT1) { + delete ffT1; + } + if (ffT1C) { + delete ffT1C; + } + + //----- build the mapping to Unicode ----- + + // pass 1: use the name-to-Unicode mapping table + missing = hex = gFalse; + for (code = 0; code < 256; ++code) { + if ((charName = enc[code])) { + if (!(toUnicode[code] = globalParams->mapNameToUnicode(charName)) && + strcmp(charName, ".notdef")) { + // if it wasn't in the name-to-Unicode table, check for a + // name that looks like 'Axx' or 'xx', where 'A' is any letter + // and 'xx' is two hex digits + if ((strlen(charName) == 3 && + isalpha(charName[0]) && + isxdigit(charName[1]) && isxdigit(charName[2]) && + ((charName[1] >= 'a' && charName[1] <= 'f') || + (charName[1] >= 'A' && charName[1] <= 'F') || + (charName[2] >= 'a' && charName[2] <= 'f') || + (charName[2] >= 'A' && charName[2] <= 'F'))) || + (strlen(charName) == 2 && + isxdigit(charName[0]) && isxdigit(charName[1]) && + ((charName[0] >= 'a' && charName[0] <= 'f') || + (charName[0] >= 'A' && charName[0] <= 'F') || + (charName[1] >= 'a' && charName[1] <= 'f') || + (charName[1] >= 'A' && charName[1] <= 'F')))) { + hex = gTrue; + } + missing = gTrue; + } + } else { + toUnicode[code] = 0; + } + } + + // pass 2: try to fill in the missing chars, looking for names of + // the form 'Axx', 'xx', 'Ann', 'ABnn', or 'nn', where 'A' and 'B' + // are any letters, 'xx' is two hex digits, and 'nn' is 2-4 + // decimal digits + if (missing && globalParams->getMapNumericCharNames()) { + for (code = 0; code < 256; ++code) { + if ((charName = enc[code]) && !toUnicode[code] && + strcmp(charName, ".notdef")) { + n = strlen(charName); + code2 = -1; + if (hex && n == 3 && isalpha(charName[0]) && + isxdigit(charName[1]) && isxdigit(charName[2])) { + sscanf(charName+1, "%x", &code2); + } else if (hex && n == 2 && + isxdigit(charName[0]) && isxdigit(charName[1])) { + sscanf(charName, "%x", &code2); + } else if (!hex && n >= 2 && n <= 4 && + isdigit(charName[0]) && isdigit(charName[1])) { + code2 = atoi(charName); + } else if (n >= 3 && n <= 5 && + isdigit(charName[1]) && isdigit(charName[2])) { + code2 = atoi(charName+1); + } else if (n >= 4 && n <= 6 && + isdigit(charName[2]) && isdigit(charName[3])) { + code2 = atoi(charName+2); + } + if (code2 >= 0 && code2 <= 0xff) { + toUnicode[code] = (Unicode)code2; + } + } + } + + // if the 'mapUnknownCharNames' flag is set, do a simple pass-through + // mapping for unknown character names + } else if (missing && globalParams->getMapUnknownCharNames()) { + for (code = 0; code < 256; ++code) { + if (!toUnicode[code]) { + toUnicode[code] = code; + } + } + } + + // construct the char code -> Unicode mapping object + ctu = CharCodeToUnicode::make8BitToUnicode(toUnicode); + + // merge in a ToUnicode CMap, if there is one -- this overwrites + // existing entries in ctu, i.e., the ToUnicode CMap takes + // precedence, but the other encoding info is allowed to fill in any + // holes + readToUnicodeCMap(fontDict, 8, ctu); + + // look for a Unicode-to-Unicode mapping + if (name && (utu = globalParams->getUnicodeToUnicode(name))) { + for (i = 0; i < 256; ++i) { + toUnicode[i] = 0; + } + ctu2 = CharCodeToUnicode::make8BitToUnicode(toUnicode); + for (i = 0; i < 256; ++i) { + n = ctu->mapToUnicode((CharCode)i, uBuf, 8); + if (n >= 1) { + n = utu->mapToUnicode((CharCode)uBuf[0], uBuf, 8); + if (n >= 1) { + ctu2->setMapping((CharCode)i, uBuf, n); + } + } + } + utu->decRefCnt(); + delete ctu; + ctu = ctu2; + } + + //----- get the character widths ----- + + // initialize all widths + for (code = 0; code < 256; ++code) { + widths[code] = missingWidth * 0.001; + } + + // use widths from font dict, if present + fontDict->lookup("FirstChar", &obj1); + firstChar = obj1.isInt() ? obj1.getInt() : 0; + obj1.free(); + if (firstChar < 0 || firstChar > 255) { + firstChar = 0; + } + fontDict->lookup("LastChar", &obj1); + lastChar = obj1.isInt() ? obj1.getInt() : 255; + obj1.free(); + if (lastChar < 0 || lastChar > 255) { + lastChar = 255; + } + mul = (type == fontType3) ? fontMat[0] : 0.001; + fontDict->lookup("Widths", &obj1); + if (obj1.isArray()) { + flags |= fontFixedWidth; + if (obj1.arrayGetLength() < lastChar - firstChar + 1) { + lastChar = firstChar + obj1.arrayGetLength() - 1; + } + for (code = firstChar; code <= lastChar; ++code) { + obj1.arrayGet(code - firstChar, &obj2); + if (obj2.isNum()) { + widths[code] = obj2.getNum() * mul; + if (widths[code] != widths[firstChar]) { + flags &= ~fontFixedWidth; + } + } + obj2.free(); + } + + // use widths from built-in font + } else if (builtinFont) { + // this is a kludge for broken PDF files that encode char 32 + // as .notdef + if (builtinFont->widths->getWidth("space", &w)) { + widths[32] = 0.001 * w; + } + for (code = 0; code < 256; ++code) { + if (enc[code] && builtinFont->widths->getWidth(enc[code], &w)) { + widths[code] = 0.001 * w; + } + } + + // couldn't find widths -- use defaults + } else { + // this is technically an error -- the Widths entry is required + // for all but the Base-14 fonts -- but certain PDF generators + // apparently don't include widths for Arial and TimesNewRoman + if (isFixedWidth()) { + i = 0; + } else if (isSerif()) { + i = 8; + } else { + i = 4; + } + if (isBold()) { + i += 2; + } + if (isItalic()) { + i += 1; + } + builtinFont = builtinFontSubst[i]; + // this is a kludge for broken PDF files that encode char 32 + // as .notdef + if (builtinFont->widths->getWidth("space", &w)) { + widths[32] = 0.001 * w; + } + for (code = 0; code < 256; ++code) { + if (enc[code] && builtinFont->widths->getWidth(enc[code], &w)) { + widths[code] = 0.001 * w; + } + } + } + obj1.free(); + + ok = gTrue; +} + +Gfx8BitFont::~Gfx8BitFont() { + int i; + + for (i = 0; i < 256; ++i) { + if (encFree[i] && enc[i]) { + gfree(enc[i]); + } + } + ctu->decRefCnt(); + if (charProcs.isDict()) { + charProcs.free(); + } + if (resources.isDict()) { + resources.free(); + } +} + +int Gfx8BitFont::getNextChar(char *s, int /*len*/, CharCode *code, + Unicode *u, int uSize, int *uLen, + double *dx, double *dy, double *ox, double *oy) { + CharCode c; + + *code = c = (CharCode)(*s & 0xff); + *uLen = ctu->mapToUnicode(c, u, uSize); + *dx = widths[c]; + *dy = *ox = *oy = 0; + return 1; +} + +CharCodeToUnicode *Gfx8BitFont::getToUnicode() { + ctu->incRefCnt(); + return ctu; +} + +Gushort *Gfx8BitFont::getCodeToGIDMap(FoFiTrueType *ff) { + Gushort *map; + int cmapPlatform, cmapEncoding; + int unicodeCmap, macRomanCmap, msSymbolCmap, cmap; + GBool useMacRoman, useUnicode; + char *charName; + Unicode u; + int code, i, n; + + map = (Gushort *)gmallocn(256, sizeof(Gushort)); + for (i = 0; i < 256; ++i) { + map[i] = 0; + } + + // To match up with the Adobe-defined behaviour, we choose a cmap + // like this: + // 1. If the PDF font has an encoding: + // 1a. If the PDF font specified MacRomanEncoding and the + // TrueType font has a Macintosh Roman cmap, use it, and + // reverse map the char names through MacRomanEncoding to + // get char codes. + // 1b. If the TrueType font has a Microsoft Unicode cmap or a + // non-Microsoft Unicode cmap, use it, and use the Unicode + // indexes, not the char codes. + // 1c. If the PDF font is symbolic and the TrueType font has a + // Microsoft Symbol cmap, use it, and use char codes + // directly (possibly with an offset of 0xf000). + // 1d. If the TrueType font has a Macintosh Roman cmap, use it, + // as in case 1a. + // 2. If the PDF font does not have an encoding or the PDF font is + // symbolic: + // 2a. If the TrueType font has a Macintosh Roman cmap, use it, + // and use char codes directly (possibly with an offset of + // 0xf000). + // 2b. If the TrueType font has a Microsoft Symbol cmap, use it, + // and use char codes directly (possible with an offset of + // 0xf000). + // 3. If none of these rules apply, use the first cmap and hope for + // the best (this shouldn't happen). + unicodeCmap = macRomanCmap = msSymbolCmap = -1; + for (i = 0; i < ff->getNumCmaps(); ++i) { + cmapPlatform = ff->getCmapPlatform(i); + cmapEncoding = ff->getCmapEncoding(i); + if ((cmapPlatform == 3 && cmapEncoding == 1) || + cmapPlatform == 0) { + unicodeCmap = i; + } else if (cmapPlatform == 1 && cmapEncoding == 0) { + macRomanCmap = i; + } else if (cmapPlatform == 3 && cmapEncoding == 0) { + msSymbolCmap = i; + } + } + cmap = 0; + useMacRoman = gFalse; + useUnicode = gFalse; + if (hasEncoding) { + if (usesMacRomanEnc && macRomanCmap >= 0) { + cmap = macRomanCmap; + useMacRoman = gTrue; + } else if (unicodeCmap >= 0) { + cmap = unicodeCmap; + useUnicode = gTrue; + } else if ((flags & fontSymbolic) && msSymbolCmap >= 0) { + cmap = msSymbolCmap; + } else if ((flags & fontSymbolic) && macRomanCmap >= 0) { + cmap = macRomanCmap; + } else if (macRomanCmap >= 0) { + cmap = macRomanCmap; + useMacRoman = gTrue; + } + } else { + if (msSymbolCmap >= 0) { + cmap = msSymbolCmap; + } else if (macRomanCmap >= 0) { + cmap = macRomanCmap; + } + } + + // reverse map the char names through MacRomanEncoding, then map the + // char codes through the cmap + if (useMacRoman) { + for (i = 0; i < 256; ++i) { + if ((charName = enc[i])) { + if ((code = globalParams->getMacRomanCharCode(charName))) { + map[i] = ff->mapCodeToGID(cmap, code); + } + } + } + + // map Unicode through the cmap + } else if (useUnicode) { + for (i = 0; i < 256; ++i) { + if (((charName = enc[i]) && + (u = globalParams->mapNameToUnicode(charName))) || + (n = ctu->mapToUnicode((CharCode)i, &u, 1))) { + map[i] = ff->mapCodeToGID(cmap, u); + } + } + + // map the char codes through the cmap, possibly with an offset of + // 0xf000 + } else { + for (i = 0; i < 256; ++i) { + if (!(map[i] = ff->mapCodeToGID(cmap, i))) { + map[i] = ff->mapCodeToGID(cmap, 0xf000 + i); + } + } + } + + // try the TrueType 'post' table to handle any unmapped characters + for (i = 0; i < 256; ++i) { + if (!map[i] && (charName = enc[i])) { + map[i] = (Gushort)(int)ff->mapNameToGID(charName); + } + } + + return map; +} + +Dict *Gfx8BitFont::getCharProcs() { + return charProcs.isDict() ? charProcs.getDict() : (Dict *)NULL; +} + +Object *Gfx8BitFont::getCharProc(int code, Object *proc) { + if (enc[code] && charProcs.isDict()) { + charProcs.dictLookup(enc[code], proc); + } else { + proc->initNull(); + } + return proc; +} + +Dict *Gfx8BitFont::getResources() { + return resources.isDict() ? resources.getDict() : (Dict *)NULL; +} + +//------------------------------------------------------------------------ +// GfxCIDFont +//------------------------------------------------------------------------ + +static int CDECL cmpWidthExcep(const void *w1, const void *w2) { + return ((GfxFontCIDWidthExcep *)w1)->first - + ((GfxFontCIDWidthExcep *)w2)->first; +} + +static int CDECL cmpWidthExcepV(const void *w1, const void *w2) { + return ((GfxFontCIDWidthExcepV *)w1)->first - + ((GfxFontCIDWidthExcepV *)w2)->first; +} + +GfxCIDFont::GfxCIDFont(XRef *xref, char *tagA, Ref idA, GString *nameA, + Dict *fontDict): + GfxFont(tagA, idA, nameA) +{ + Dict *desFontDict; + GString *collection, *cMapName; + Object desFontDictObj; + Object obj1, obj2, obj3, obj4, obj5, obj6; + CharCodeToUnicode *utu; + CharCode c; + Unicode uBuf[8]; + int c1, c2; + int excepsSize, i, j, k, n; + + ascent = 0.95; + descent = -0.35; + fontBBox[0] = fontBBox[1] = fontBBox[2] = fontBBox[3] = 0; + cMap = NULL; + ctu = NULL; + widths.defWidth = 1.0; + widths.defHeight = -1.0; + widths.defVY = 0.880; + widths.exceps = NULL; + widths.nExceps = 0; + widths.excepsV = NULL; + widths.nExcepsV = 0; + cidToGID = NULL; + cidToGIDLen = 0; + + // get the descendant font + if (!fontDict->lookup("DescendantFonts", &obj1)->isArray()) { + error(-1, "Missing DescendantFonts entry in Type 0 font"); + obj1.free(); + goto err1; + } + if (!obj1.arrayGet(0, &desFontDictObj)->isDict()) { + error(-1, "Bad descendant font in Type 0 font"); + goto err3; + } + obj1.free(); + desFontDict = desFontDictObj.getDict(); + + // font type + if (!desFontDict->lookup("Subtype", &obj1)) { + error(-1, "Missing Subtype entry in Type 0 descendant font"); + goto err3; + } + if (obj1.isName("CIDFontType0")) { + type = fontCIDType0; + } else if (obj1.isName("CIDFontType2")) { + type = fontCIDType2; + } else { + error(-1, "Unknown Type 0 descendant font type '%s'", + obj1.isName() ? obj1.getName() : "???"); + goto err3; + } + obj1.free(); + + // get info from font descriptor + readFontDescriptor(xref, desFontDict); + + // look for an external font file + findExtFontFile(); + + //----- encoding info ----- + + // char collection + if (!desFontDict->lookup("CIDSystemInfo", &obj1)->isDict()) { + error(-1, "Missing CIDSystemInfo dictionary in Type 0 descendant font"); + goto err3; + } + obj1.dictLookup("Registry", &obj2); + obj1.dictLookup("Ordering", &obj3); + if (!obj2.isString() || !obj3.isString()) { + error(-1, "Invalid CIDSystemInfo dictionary in Type 0 descendant font"); + goto err4; + } + collection = obj2.getString()->copy()->append('-')->append(obj3.getString()); + obj3.free(); + obj2.free(); + obj1.free(); + + // look for a ToUnicode CMap + if (!(ctu = readToUnicodeCMap(fontDict, 16, NULL))) { + + // the "Adobe-Identity" and "Adobe-UCS" collections don't have + // cidToUnicode files + if (collection->cmp("Adobe-Identity") && + collection->cmp("Adobe-UCS")) { + + // look for a user-supplied .cidToUnicode file + if (!(ctu = globalParams->getCIDToUnicode(collection))) { + error(-1, "Unknown character collection '%s'", + collection->getCString()); + // fall-through, assuming the Identity mapping -- this appears + // to match Adobe's behavior + } + } + } + + // look for a Unicode-to-Unicode mapping + if (name && (utu = globalParams->getUnicodeToUnicode(name))) { + if (ctu) { + for (c = 0; c < ctu->getLength(); ++c) { + n = ctu->mapToUnicode(c, uBuf, 8); + if (n >= 1) { + n = utu->mapToUnicode((CharCode)uBuf[0], uBuf, 8); + if (n >= 1) { + ctu->setMapping(c, uBuf, n); + } + } + } + utu->decRefCnt(); + } else { + ctu = utu; + } + } + + // encoding (i.e., CMap) + //~ need to handle a CMap stream here + //~ also need to deal with the UseCMap entry in the stream dict + if (!fontDict->lookup("Encoding", &obj1)->isName()) { + error(-1, "Missing or invalid Encoding entry in Type 0 font"); + delete collection; + goto err3; + } + cMapName = new GString(obj1.getName()); + obj1.free(); + if (!(cMap = globalParams->getCMap(collection, cMapName))) { + error(-1, "Unknown CMap '%s' for character collection '%s'", + cMapName->getCString(), collection->getCString()); + delete collection; + delete cMapName; + goto err2; + } + delete collection; + delete cMapName; + + // CIDToGIDMap (for embedded TrueType fonts) + if (type == fontCIDType2) { + desFontDict->lookup("CIDToGIDMap", &obj1); + if (obj1.isStream()) { + cidToGIDLen = 0; + i = 64; + cidToGID = (Gushort *)gmallocn(i, sizeof(Gushort)); + obj1.streamReset(); + while ((c1 = obj1.streamGetChar()) != EOF && + (c2 = obj1.streamGetChar()) != EOF) { + if (cidToGIDLen == i) { + i *= 2; + cidToGID = (Gushort *)greallocn(cidToGID, i, sizeof(Gushort)); + } + cidToGID[cidToGIDLen++] = (Gushort)((c1 << 8) + c2); + } + } else if (!obj1.isName("Identity") && !obj1.isNull()) { + error(-1, "Invalid CIDToGIDMap entry in CID font"); + } + obj1.free(); + } + + //----- character metrics ----- + + // default char width + if (desFontDict->lookup("DW", &obj1)->isInt()) { + widths.defWidth = obj1.getInt() * 0.001; + } + obj1.free(); + + // char width exceptions + if (desFontDict->lookup("W", &obj1)->isArray()) { + excepsSize = 0; + i = 0; + while (i + 1 < obj1.arrayGetLength()) { + obj1.arrayGet(i, &obj2); + obj1.arrayGet(i + 1, &obj3); + if (obj2.isInt() && obj3.isInt() && i + 2 < obj1.arrayGetLength()) { + if (obj1.arrayGet(i + 2, &obj4)->isNum()) { + if (widths.nExceps == excepsSize) { + excepsSize += 16; + widths.exceps = (GfxFontCIDWidthExcep *) + greallocn(widths.exceps, + excepsSize, sizeof(GfxFontCIDWidthExcep)); + } + widths.exceps[widths.nExceps].first = obj2.getInt(); + widths.exceps[widths.nExceps].last = obj3.getInt(); + widths.exceps[widths.nExceps].width = obj4.getNum() * 0.001; + ++widths.nExceps; + } else { + error(-1, "Bad widths array in Type 0 font"); + } + obj4.free(); + i += 3; + } else if (obj2.isInt() && obj3.isArray()) { + if (widths.nExceps + obj3.arrayGetLength() > excepsSize) { + excepsSize = (widths.nExceps + obj3.arrayGetLength() + 15) & ~15; + widths.exceps = (GfxFontCIDWidthExcep *) + greallocn(widths.exceps, + excepsSize, sizeof(GfxFontCIDWidthExcep)); + } + j = obj2.getInt(); + for (k = 0; k < obj3.arrayGetLength(); ++k) { + if (obj3.arrayGet(k, &obj4)->isNum()) { + widths.exceps[widths.nExceps].first = j; + widths.exceps[widths.nExceps].last = j; + widths.exceps[widths.nExceps].width = obj4.getNum() * 0.001; + ++j; + ++widths.nExceps; + } else { + error(-1, "Bad widths array in Type 0 font"); + } + obj4.free(); + } + i += 2; + } else { + error(-1, "Bad widths array in Type 0 font"); + ++i; + } + obj3.free(); + obj2.free(); + } + qsort(widths.exceps, widths.nExceps, sizeof(GfxFontCIDWidthExcep), + &cmpWidthExcep); + } + obj1.free(); + + // default metrics for vertical font + if (desFontDict->lookup("DW2", &obj1)->isArray() && + obj1.arrayGetLength() == 2) { + if (obj1.arrayGet(0, &obj2)->isNum()) { + widths.defVY = obj2.getNum() * 0.001; + } + obj2.free(); + if (obj1.arrayGet(1, &obj2)->isNum()) { + widths.defHeight = obj2.getNum() * 0.001; + } + obj2.free(); + } + obj1.free(); + + // char metric exceptions for vertical font + if (desFontDict->lookup("W2", &obj1)->isArray()) { + excepsSize = 0; + i = 0; + while (i + 1 < obj1.arrayGetLength()) { + obj1.arrayGet(i, &obj2); + obj1.arrayGet(i+ 1, &obj3); + if (obj2.isInt() && obj3.isInt() && i + 4 < obj1.arrayGetLength()) { + if (obj1.arrayGet(i + 2, &obj4)->isNum() && + obj1.arrayGet(i + 3, &obj5)->isNum() && + obj1.arrayGet(i + 4, &obj6)->isNum()) { + if (widths.nExcepsV == excepsSize) { + excepsSize += 16; + widths.excepsV = (GfxFontCIDWidthExcepV *) + greallocn(widths.excepsV, + excepsSize, sizeof(GfxFontCIDWidthExcepV)); + } + widths.excepsV[widths.nExcepsV].first = obj2.getInt(); + widths.excepsV[widths.nExcepsV].last = obj3.getInt(); + widths.excepsV[widths.nExcepsV].height = obj4.getNum() * 0.001; + widths.excepsV[widths.nExcepsV].vx = obj5.getNum() * 0.001; + widths.excepsV[widths.nExcepsV].vy = obj6.getNum() * 0.001; + ++widths.nExcepsV; + } else { + error(-1, "Bad widths (W2) array in Type 0 font"); + } + obj6.free(); + obj5.free(); + obj4.free(); + i += 5; + } else if (obj2.isInt() && obj3.isArray()) { + if (widths.nExcepsV + obj3.arrayGetLength() / 3 > excepsSize) { + excepsSize = + (widths.nExcepsV + obj3.arrayGetLength() / 3 + 15) & ~15; + widths.excepsV = (GfxFontCIDWidthExcepV *) + greallocn(widths.excepsV, + excepsSize, sizeof(GfxFontCIDWidthExcepV)); + } + j = obj2.getInt(); + for (k = 0; k < obj3.arrayGetLength(); k += 3) { + if (obj3.arrayGet(k, &obj4)->isNum() && + obj3.arrayGet(k+1, &obj5)->isNum() && + obj3.arrayGet(k+2, &obj6)->isNum()) { + widths.excepsV[widths.nExceps].first = j; + widths.excepsV[widths.nExceps].last = j; + widths.excepsV[widths.nExceps].height = obj4.getNum() * 0.001; + widths.excepsV[widths.nExceps].vx = obj5.getNum() * 0.001; + widths.excepsV[widths.nExceps].vy = obj6.getNum() * 0.001; + ++j; + ++widths.nExcepsV; + } else { + error(-1, "Bad widths (W2) array in Type 0 font"); + } + obj6.free(); + obj5.free(); + obj4.free(); + } + i += 2; + } else { + error(-1, "Bad widths (W2) array in Type 0 font"); + ++i; + } + obj3.free(); + obj2.free(); + } + qsort(widths.excepsV, widths.nExcepsV, sizeof(GfxFontCIDWidthExcepV), + &cmpWidthExcepV); + } + obj1.free(); + + desFontDictObj.free(); + ok = gTrue; + return; + + err4: + obj3.free(); + obj2.free(); + err3: + obj1.free(); + err2: + desFontDictObj.free(); + err1:; +} + +GfxCIDFont::~GfxCIDFont() { + if (cMap) { + cMap->decRefCnt(); + } + if (ctu) { + ctu->decRefCnt(); + } + gfree(widths.exceps); + gfree(widths.excepsV); + if (cidToGID) { + gfree(cidToGID); + } +} + +int GfxCIDFont::getNextChar(char *s, int len, CharCode *code, + Unicode *u, int uSize, int *uLen, + double *dx, double *dy, double *ox, double *oy) { + CID cid; + double w, h, vx, vy; + int n, a, b, m; + + if (!cMap) { + *code = 0; + *uLen = 0; + *dx = *dy = 0; + return 1; + } + + *code = (CharCode)(cid = cMap->getCID(s, len, &n)); + if (ctu) { + *uLen = ctu->mapToUnicode(cid, u, uSize); + } else { + *uLen = 0; + } + + // horizontal + if (cMap->getWMode() == 0) { + w = widths.defWidth; + h = vx = vy = 0; + if (widths.nExceps > 0 && cid >= widths.exceps[0].first) { + a = 0; + b = widths.nExceps; + // invariant: widths.exceps[a].first <= cid < widths.exceps[b].first + while (b - a > 1) { + m = (a + b) / 2; + if (widths.exceps[m].first <= cid) { + a = m; + } else { + b = m; + } + } + if (cid <= widths.exceps[a].last) { + w = widths.exceps[a].width; + } + } + + // vertical + } else { + w = 0; + h = widths.defHeight; + vx = widths.defWidth / 2; + vy = widths.defVY; + if (widths.nExcepsV > 0 && cid >= widths.excepsV[0].first) { + a = 0; + b = widths.nExcepsV; + // invariant: widths.excepsV[a].first <= cid < widths.excepsV[b].first + while (b - a > 1) { + m = (a + b) / 2; + if (widths.excepsV[m].last <= cid) { + a = m; + } else { + b = m; + } + } + if (cid <= widths.excepsV[a].last) { + h = widths.excepsV[a].height; + vx = widths.excepsV[a].vx; + vy = widths.excepsV[a].vy; + } + } + } + + *dx = w; + *dy = h; + *ox = vx; + *oy = vy; + + return n; +} + +int GfxCIDFont::getWMode() { + return cMap ? cMap->getWMode() : 0; +} + +CharCodeToUnicode *GfxCIDFont::getToUnicode() { + if (ctu) { + ctu->incRefCnt(); + } + return ctu; +} + +GString *GfxCIDFont::getCollection() { + return cMap ? cMap->getCollection() : (GString *)NULL; +} + +Gushort *GfxCIDFont::getCodeToGIDMap(FoFiTrueType *ff, int *mapsizep) { + Gushort *map; + int cmapPlatform, cmapEncoding; + int /*unicodeCmap, macRomanCmap, msSymbolCmap, */cmap; +// GBool useMacRoman, useUnicode; +// char *charName; + Unicode u; + int /*code, */i; + int mapsize; + int cidlen; + + *mapsizep = 0; + if (!ctu) return NULL; + + /* we use only unicode cmap */ + cmap = -1; + for (i = 0; i < ff->getNumCmaps(); ++i) { + cmapPlatform = ff->getCmapPlatform(i); + cmapEncoding = ff->getCmapEncoding(i); + if ((cmapPlatform == 3 && cmapEncoding == 1) || cmapPlatform == 0) + cmap = i; + } + if (cmap < 0) + return NULL; + + cidlen = 0; + mapsize = 64; + map = (Gushort *)gmalloc(mapsize * sizeof(Gushort)); + + while (cidlen < ctu->getLength()) { + int n; + if ((n = ctu->mapToUnicode((CharCode)cidlen, &u, 1)) == 0) { + cidlen++; + continue; + } + if (cidlen >= mapsize) { + while (cidlen >= mapsize) + mapsize *= 2; + map = (Gushort *)grealloc(map, mapsize * sizeof(Gushort)); + } + map[cidlen] = ff->mapCodeToGID(cmap, u); + cidlen++; + } + + *mapsizep = cidlen; + return map; +} + +//------------------------------------------------------------------------ +// GfxFontDict +//------------------------------------------------------------------------ + +GfxFontDict::GfxFontDict(XRef *xref, Ref *fontDictRef, Dict *fontDict) { + int i; + Object obj1, obj2; + Ref r; + + numFonts = fontDict->getLength(); + fonts = (GfxFont **)gmallocn(numFonts, sizeof(GfxFont *)); + for (i = 0; i < numFonts; ++i) { + fontDict->getValNF(i, &obj1); + obj1.fetch(xref, &obj2); + if (obj2.isDict()) { + if (obj1.isRef()) { + r = obj1.getRef(); + } else { + // no indirect reference for this font, so invent a unique one + // (legal generation numbers are five digits, so any 6-digit + // number would be safe) + r.num = i; + if (fontDictRef) { + r.gen = 100000 + fontDictRef->num; + } else { + r.gen = 999999; + } + } + fonts[i] = GfxFont::makeFont(xref, fontDict->getKey(i), + r, obj2.getDict()); + if (fonts[i] && !fonts[i]->isOk()) { + delete fonts[i]; + fonts[i] = NULL; + } + } else { + error(-1, "font resource is not a dictionary"); + fonts[i] = NULL; + } + obj1.free(); + obj2.free(); + } +} + +GfxFontDict::~GfxFontDict() { + int i; + + for (i = 0; i < numFonts; ++i) { + if (fonts[i]) { + delete fonts[i]; + } + } + gfree(fonts); +} + +GfxFont *GfxFontDict::lookup(char *tag) { + int i; + + for (i = 0; i < numFonts; ++i) { + if (fonts[i] && fonts[i]->matches(tag)) { + return fonts[i]; + } + } + return NULL; +} diff --git a/kpdf/xpdf/xpdf/GfxFont.h b/kpdf/xpdf/xpdf/GfxFont.h new file mode 100644 index 00000000..b4e84812 --- /dev/null +++ b/kpdf/xpdf/xpdf/GfxFont.h @@ -0,0 +1,322 @@ +//======================================================================== +// +// GfxFont.h +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef GFXFONT_H +#define GFXFONT_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" +#include "GString.h" +#include "Object.h" +#include "CharTypes.h" + +class Dict; +class CMap; +class CharCodeToUnicode; +class FoFiTrueType; +struct GfxFontCIDWidths; + +//------------------------------------------------------------------------ +// GfxFontType +//------------------------------------------------------------------------ + +enum GfxFontType { + //----- Gfx8BitFont + fontUnknownType, + fontType1, + fontType1C, + fontType1COT, + fontType3, + fontTrueType, + fontTrueTypeOT, + //----- GfxCIDFont + fontCIDType0, + fontCIDType0C, + fontCIDType0COT, + fontCIDType2, + fontCIDType2OT +}; + +//------------------------------------------------------------------------ +// GfxFontCIDWidths +//------------------------------------------------------------------------ + +struct GfxFontCIDWidthExcep { + CID first; // this record applies to + CID last; // CIDs .. + double width; // char width +}; + +struct GfxFontCIDWidthExcepV { + CID first; // this record applies to + CID last; // CIDs .. + double height; // char height + double vx, vy; // origin position +}; + +struct GfxFontCIDWidths { + double defWidth; // default char width + double defHeight; // default char height + double defVY; // default origin position + GfxFontCIDWidthExcep *exceps; // exceptions + int nExceps; // number of valid entries in exceps + GfxFontCIDWidthExcepV * // exceptions for vertical font + excepsV; + int nExcepsV; // number of valid entries in excepsV +}; + +//------------------------------------------------------------------------ +// GfxFont +//------------------------------------------------------------------------ + +#define fontFixedWidth (1 << 0) +#define fontSerif (1 << 1) +#define fontSymbolic (1 << 2) +#define fontItalic (1 << 6) +#define fontBold (1 << 18) + +class GfxFont { +public: + + // Build a GfxFont object. + static GfxFont *makeFont(XRef *xref, char *tagA, Ref idA, Dict *fontDict); + + GfxFont(char *tagA, Ref idA, GString *nameA); + + virtual ~GfxFont(); + + GBool isOk() { return ok; } + + // Get font tag. + GString *getTag() { return tag; } + + // Get font dictionary ID. + Ref *getID() { return &id; } + + // Does this font match the tag? + GBool matches(char *tagA) { return !tag->cmp(tagA); } + + // Get base font name. + GString *getName() { return name; } + + // Get the original font name (ignornig any munging that might have + // been done to map to a canonical Base-14 font name). + GString *getOrigName() { return origName; } + + // Get font type. + GfxFontType getType() { return type; } + virtual GBool isCIDFont() { return gFalse; } + + // Get embedded font ID, i.e., a ref for the font file stream. + // Returns false if there is no embedded font. + GBool getEmbeddedFontID(Ref *embID) + { *embID = embFontID; return embFontID.num >= 0; } + + // Get the PostScript font name for the embedded font. Returns + // NULL if there is no embedded font. + GString *getEmbeddedFontName() { return embFontName; } + + // Get the name of the external font file. Returns NULL if there + // is no external font file. + GString *getExtFontFile() { return extFontFile; } + + // Get font descriptor flags. + int getFlags() { return flags; } + GBool isFixedWidth() { return flags & fontFixedWidth; } + GBool isSerif() { return flags & fontSerif; } + GBool isSymbolic() { return flags & fontSymbolic; } + GBool isItalic() { return flags & fontItalic; } + GBool isBold() { return flags & fontBold; } + + // Return the font matrix. + double *getFontMatrix() { return fontMat; } + + // Return the font bounding box. + double *getFontBBox() { return fontBBox; } + + // Return the ascent and descent values. + double getAscent() { return ascent; } + double getDescent() { return descent; } + + // Return the writing mode (0=horizontal, 1=vertical). + virtual int getWMode() { return 0; } + + // Read an external or embedded font file into a buffer. + char *readExtFontFile(int *len); + char *readEmbFontFile(XRef *xref, int *len); + + // Get the next char from a string of bytes, returning the + // char , its Unicode mapping , its displacement vector + // (, ), and its origin offset vector (, ). + // is the number of entries available in , and is set to + // the number actually used. Returns the number of bytes used by + // the char code. + virtual int getNextChar(char *s, int len, CharCode *code, + Unicode *u, int uSize, int *uLen, + double *dx, double *dy, double *ox, double *oy) = 0; + +protected: + + void readFontDescriptor(XRef *xref, Dict *fontDict); + CharCodeToUnicode *readToUnicodeCMap(Dict *fontDict, int nBits, + CharCodeToUnicode *ctu); + void findExtFontFile(); + + GString *tag; // PDF font tag + Ref id; // reference (used as unique ID) + GString *name; // font name + GString *origName; // original font name + GfxFontType type; // type of font + int flags; // font descriptor flags + GString *embFontName; // name of embedded font + Ref embFontID; // ref to embedded font file stream + GString *extFontFile; // external font file name + double fontMat[6]; // font matrix (Type 3 only) + double fontBBox[4]; // font bounding box (Type 3 only) + double missingWidth; // "default" width + double ascent; // max height above baseline + double descent; // max depth below baseline + GBool ok; +}; + +//------------------------------------------------------------------------ +// Gfx8BitFont +//------------------------------------------------------------------------ + +class Gfx8BitFont: public GfxFont { +public: + + Gfx8BitFont(XRef *xref, char *tagA, Ref idA, GString *nameA, + GfxFontType typeA, Dict *fontDict); + + virtual ~Gfx8BitFont(); + + virtual int getNextChar(char *s, int len, CharCode *code, + Unicode *u, int uSize, int *uLen, + double *dx, double *dy, double *ox, double *oy); + + // Return the encoding. + char **getEncoding() { return enc; } + + // Return the Unicode map. + CharCodeToUnicode *getToUnicode(); + + // Return the character name associated with . + char *getCharName(int code) { return enc[code]; } + + // Returns true if the PDF font specified an encoding. + GBool getHasEncoding() { return hasEncoding; } + + // Returns true if the PDF font specified MacRomanEncoding. + GBool getUsesMacRomanEnc() { return usesMacRomanEnc; } + + // Get width of a character. + double getWidth(Guchar c) { return widths[c]; } + + // Return a char code-to-GID mapping for the provided font file. + // (This is only useful for TrueType fonts.) + Gushort *getCodeToGIDMap(FoFiTrueType *ff); + + // Return the Type 3 CharProc dictionary, or NULL if none. + Dict *getCharProcs(); + + // Return the Type 3 CharProc for the character associated with . + Object *getCharProc(int code, Object *proc); + + // Return the Type 3 Resources dictionary, or NULL if none. + Dict *getResources(); + +private: + + char *enc[256]; // char code --> char name + char encFree[256]; // boolean for each char name: if set, + // the string is malloc'ed + CharCodeToUnicode *ctu; // char code --> Unicode + GBool hasEncoding; + GBool usesMacRomanEnc; + double widths[256]; // character widths + Object charProcs; // Type 3 CharProcs dictionary + Object resources; // Type 3 Resources dictionary +}; + +//------------------------------------------------------------------------ +// GfxCIDFont +//------------------------------------------------------------------------ + +class GfxCIDFont: public GfxFont { +public: + + GfxCIDFont(XRef *xref, char *tagA, Ref idA, GString *nameA, + Dict *fontDict); + + virtual ~GfxCIDFont(); + + virtual GBool isCIDFont() { return gTrue; } + + virtual int getNextChar(char *s, int len, CharCode *code, + Unicode *u, int uSize, int *uLen, + double *dx, double *dy, double *ox, double *oy); + + // Return the writing mode (0=horizontal, 1=vertical). + virtual int getWMode(); + + // Return the Unicode map. + CharCodeToUnicode *getToUnicode(); + + // Get the collection name (-). + GString *getCollection(); + + // Return the CID-to-GID mapping table. These should only be called + // if type is fontCIDType2. + Gushort *getCIDToGID() { return cidToGID; } + int getCIDToGIDLen() { return cidToGIDLen; } + + Gushort *getCodeToGIDMap(FoFiTrueType *ff, int *length); + +private: + + CMap *cMap; // char code --> CID + CharCodeToUnicode *ctu; // CID --> Unicode + GfxFontCIDWidths widths; // character widths + Gushort *cidToGID; // CID --> GID mapping (for embedded + // TrueType fonts) + int cidToGIDLen; +}; + +//------------------------------------------------------------------------ +// GfxFontDict +//------------------------------------------------------------------------ + +class GfxFontDict { +public: + + // Build the font dictionary, given the PDF font dictionary. + GfxFontDict(XRef *xref, Ref *fontDictRef, Dict *fontDict); + + // Destructor. + ~GfxFontDict(); + + // Get the specified font. + GfxFont *lookup(char *tag); + + // Iterative access. + int getNumFonts() { return numFonts; } + GfxFont *getFont(int i) { return fonts[i]; } + +private: + + GfxFont **fonts; // list of fonts + int numFonts; // number of fonts +}; + +#endif diff --git a/kpdf/xpdf/xpdf/GfxState.cc b/kpdf/xpdf/xpdf/GfxState.cc new file mode 100644 index 00000000..a00dabe1 --- /dev/null +++ b/kpdf/xpdf/xpdf/GfxState.cc @@ -0,0 +1,4137 @@ +//======================================================================== +// +// GfxState.cc +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include +#include "gmem.h" +#include "Error.h" +#include "Object.h" +#include "Array.h" +#include "Page.h" +#include "GfxState.h" + +//------------------------------------------------------------------------ + +static inline GfxColorComp clip01(GfxColorComp x) { + return (x < 0) ? 0 : (x > gfxColorComp1) ? gfxColorComp1 : x; +} + +static inline double clip01(double x) { + return (x < 0) ? 0 : (x > 1) ? 1 : x; +} + +//------------------------------------------------------------------------ + +struct GfxBlendModeInfo { + char *name; + GfxBlendMode mode; +}; + +static GfxBlendModeInfo gfxBlendModeNames[] = { + { "Normal", gfxBlendNormal }, + { "Compatible", gfxBlendNormal }, + { "Multiply", gfxBlendMultiply }, + { "Screen", gfxBlendScreen }, + { "Overlay", gfxBlendOverlay }, + { "Darken", gfxBlendDarken }, + { "Lighten", gfxBlendLighten }, + { "ColorDodge", gfxBlendColorDodge }, + { "ColorBurn", gfxBlendColorBurn }, + { "HardLight", gfxBlendHardLight }, + { "SoftLight", gfxBlendSoftLight }, + { "Difference", gfxBlendDifference }, + { "Exclusion", gfxBlendExclusion }, + { "Hue", gfxBlendHue }, + { "Saturation", gfxBlendSaturation }, + { "Color", gfxBlendColor }, + { "Luminosity", gfxBlendLuminosity } +}; + +#define nGfxBlendModeNames \ + ((int)((sizeof(gfxBlendModeNames) / sizeof(GfxBlendModeInfo)))) + +//------------------------------------------------------------------------ + +// NB: This must match the GfxColorSpaceMode enum defined in +// GfxState.h +static char *gfxColorSpaceModeNames[] = { + "DeviceGray", + "CalGray", + "DeviceRGB", + "CalRGB", + "DeviceCMYK", + "Lab", + "ICCBased", + "Indexed", + "Separation", + "DeviceN", + "Pattern" +}; + +#define nGfxColorSpaceModes ((sizeof(gfxColorSpaceModeNames) / sizeof(char *))) + +//------------------------------------------------------------------------ +// GfxColorSpace +//------------------------------------------------------------------------ + +GfxColorSpace::GfxColorSpace() { +} + +GfxColorSpace::~GfxColorSpace() { +} + +GfxColorSpace *GfxColorSpace::parse(Object *csObj) { + GfxColorSpace *cs; + Object obj1; + + cs = NULL; + if (csObj->isName()) { + if (csObj->isName("DeviceGray") || csObj->isName("G")) { + cs = new GfxDeviceGrayColorSpace(); + } else if (csObj->isName("DeviceRGB") || csObj->isName("RGB")) { + cs = new GfxDeviceRGBColorSpace(); + } else if (csObj->isName("DeviceCMYK") || csObj->isName("CMYK")) { + cs = new GfxDeviceCMYKColorSpace(); + } else if (csObj->isName("Pattern")) { + cs = new GfxPatternColorSpace(NULL); + } else { + error(-1, "Bad color space '%s'", csObj->getName()); + } + } else if (csObj->isArray()) { + csObj->arrayGet(0, &obj1); + if (obj1.isName("DeviceGray") || obj1.isName("G")) { + cs = new GfxDeviceGrayColorSpace(); + } else if (obj1.isName("DeviceRGB") || obj1.isName("RGB")) { + cs = new GfxDeviceRGBColorSpace(); + } else if (obj1.isName("DeviceCMYK") || obj1.isName("CMYK")) { + cs = new GfxDeviceCMYKColorSpace(); + } else if (obj1.isName("CalGray")) { + cs = GfxCalGrayColorSpace::parse(csObj->getArray()); + } else if (obj1.isName("CalRGB")) { + cs = GfxCalRGBColorSpace::parse(csObj->getArray()); + } else if (obj1.isName("Lab")) { + cs = GfxLabColorSpace::parse(csObj->getArray()); + } else if (obj1.isName("ICCBased")) { + cs = GfxICCBasedColorSpace::parse(csObj->getArray()); + } else if (obj1.isName("Indexed") || obj1.isName("I")) { + cs = GfxIndexedColorSpace::parse(csObj->getArray()); + } else if (obj1.isName("Separation")) { + cs = GfxSeparationColorSpace::parse(csObj->getArray()); + } else if (obj1.isName("DeviceN")) { + cs = GfxDeviceNColorSpace::parse(csObj->getArray()); + } else if (obj1.isName("Pattern")) { + cs = GfxPatternColorSpace::parse(csObj->getArray()); + } else { + error(-1, "Bad color space"); + } + obj1.free(); + } else { + error(-1, "Bad color space - expected name or array"); + } + return cs; +} + +void GfxColorSpace::getDefaultRanges(double *decodeLow, double *decodeRange, + int /*maxImgPixel*/) { + int i; + + for (i = 0; i < getNComps(); ++i) { + decodeLow[i] = 0; + decodeRange[i] = 1; + } +} + +int GfxColorSpace::getNumColorSpaceModes() { + return nGfxColorSpaceModes; +} + +char *GfxColorSpace::getColorSpaceModeName(int idx) { + return gfxColorSpaceModeNames[idx]; +} + +//------------------------------------------------------------------------ +// GfxDeviceGrayColorSpace +//------------------------------------------------------------------------ + +GfxDeviceGrayColorSpace::GfxDeviceGrayColorSpace() { +} + +GfxDeviceGrayColorSpace::~GfxDeviceGrayColorSpace() { +} + +GfxColorSpace *GfxDeviceGrayColorSpace::copy() { + return new GfxDeviceGrayColorSpace(); +} + +void GfxDeviceGrayColorSpace::getGray(GfxColor *color, GfxGray *gray) { + *gray = clip01(color->c[0]); +} + +void GfxDeviceGrayColorSpace::getRGB(GfxColor *color, GfxRGB *rgb) { + rgb->r = rgb->g = rgb->b = clip01(color->c[0]); +} + +void GfxDeviceGrayColorSpace::getCMYK(GfxColor *color, GfxCMYK *cmyk) { + cmyk->c = cmyk->m = cmyk->y = 0; + cmyk->k = clip01(gfxColorComp1 - color->c[0]); +} + +void GfxDeviceGrayColorSpace::getDefaultColor(GfxColor *color) { + color->c[0] = 0; +} + +//------------------------------------------------------------------------ +// GfxCalGrayColorSpace +//------------------------------------------------------------------------ + +GfxCalGrayColorSpace::GfxCalGrayColorSpace() { + whiteX = whiteY = whiteZ = 1; + blackX = blackY = blackZ = 0; + gamma = 1; +} + +GfxCalGrayColorSpace::~GfxCalGrayColorSpace() { +} + +GfxColorSpace *GfxCalGrayColorSpace::copy() { + GfxCalGrayColorSpace *cs; + + cs = new GfxCalGrayColorSpace(); + cs->whiteX = whiteX; + cs->whiteY = whiteY; + cs->whiteZ = whiteZ; + cs->blackX = blackX; + cs->blackY = blackY; + cs->blackZ = blackZ; + cs->gamma = gamma; + return cs; +} + +GfxColorSpace *GfxCalGrayColorSpace::parse(Array *arr) { + GfxCalGrayColorSpace *cs; + Object obj1, obj2, obj3; + + arr->get(1, &obj1); + if (!obj1.isDict()) { + error(-1, "Bad CalGray color space"); + obj1.free(); + return NULL; + } + cs = new GfxCalGrayColorSpace(); + if (obj1.dictLookup("WhitePoint", &obj2)->isArray() && + obj2.arrayGetLength() == 3) { + obj2.arrayGet(0, &obj3); + cs->whiteX = obj3.getNum(); + obj3.free(); + obj2.arrayGet(1, &obj3); + cs->whiteY = obj3.getNum(); + obj3.free(); + obj2.arrayGet(2, &obj3); + cs->whiteZ = obj3.getNum(); + obj3.free(); + } + obj2.free(); + if (obj1.dictLookup("BlackPoint", &obj2)->isArray() && + obj2.arrayGetLength() == 3) { + obj2.arrayGet(0, &obj3); + cs->blackX = obj3.getNum(); + obj3.free(); + obj2.arrayGet(1, &obj3); + cs->blackY = obj3.getNum(); + obj3.free(); + obj2.arrayGet(2, &obj3); + cs->blackZ = obj3.getNum(); + obj3.free(); + } + obj2.free(); + if (obj1.dictLookup("Gamma", &obj2)->isNum()) { + cs->gamma = obj2.getNum(); + } + obj2.free(); + obj1.free(); + return cs; +} + +void GfxCalGrayColorSpace::getGray(GfxColor *color, GfxGray *gray) { + *gray = clip01(color->c[0]); +} + +void GfxCalGrayColorSpace::getRGB(GfxColor *color, GfxRGB *rgb) { + rgb->r = rgb->g = rgb->b = clip01(color->c[0]); +} + +void GfxCalGrayColorSpace::getCMYK(GfxColor *color, GfxCMYK *cmyk) { + cmyk->c = cmyk->m = cmyk->y = 0; + cmyk->k = clip01(gfxColorComp1 - color->c[0]); +} + +void GfxCalGrayColorSpace::getDefaultColor(GfxColor *color) { + color->c[0] = 0; +} + +//------------------------------------------------------------------------ +// GfxDeviceRGBColorSpace +//------------------------------------------------------------------------ + +GfxDeviceRGBColorSpace::GfxDeviceRGBColorSpace() { +} + +GfxDeviceRGBColorSpace::~GfxDeviceRGBColorSpace() { +} + +GfxColorSpace *GfxDeviceRGBColorSpace::copy() { + return new GfxDeviceRGBColorSpace(); +} + +void GfxDeviceRGBColorSpace::getGray(GfxColor *color, GfxGray *gray) { + *gray = clip01((GfxColorComp)(0.3 * color->c[0] + + 0.59 * color->c[1] + + 0.11 * color->c[2] + 0.5)); +} + +void GfxDeviceRGBColorSpace::getRGB(GfxColor *color, GfxRGB *rgb) { + rgb->r = clip01(color->c[0]); + rgb->g = clip01(color->c[1]); + rgb->b = clip01(color->c[2]); +} + +void GfxDeviceRGBColorSpace::getCMYK(GfxColor *color, GfxCMYK *cmyk) { + GfxColorComp c, m, y, k; + + c = clip01(gfxColorComp1 - color->c[0]); + m = clip01(gfxColorComp1 - color->c[1]); + y = clip01(gfxColorComp1 - color->c[2]); + k = c; + if (m < k) { + k = m; + } + if (y < k) { + k = y; + } + cmyk->c = c - k; + cmyk->m = m - k; + cmyk->y = y - k; + cmyk->k = k; +} + +void GfxDeviceRGBColorSpace::getDefaultColor(GfxColor *color) { + color->c[0] = 0; + color->c[1] = 0; + color->c[2] = 0; +} + +//------------------------------------------------------------------------ +// GfxCalRGBColorSpace +//------------------------------------------------------------------------ + +GfxCalRGBColorSpace::GfxCalRGBColorSpace() { + whiteX = whiteY = whiteZ = 1; + blackX = blackY = blackZ = 0; + gammaR = gammaG = gammaB = 1; + mat[0] = 1; mat[1] = 0; mat[2] = 0; + mat[3] = 0; mat[4] = 1; mat[5] = 0; + mat[6] = 0; mat[7] = 0; mat[8] = 1; +} + +GfxCalRGBColorSpace::~GfxCalRGBColorSpace() { +} + +GfxColorSpace *GfxCalRGBColorSpace::copy() { + GfxCalRGBColorSpace *cs; + int i; + + cs = new GfxCalRGBColorSpace(); + cs->whiteX = whiteX; + cs->whiteY = whiteY; + cs->whiteZ = whiteZ; + cs->blackX = blackX; + cs->blackY = blackY; + cs->blackZ = blackZ; + cs->gammaR = gammaR; + cs->gammaG = gammaG; + cs->gammaB = gammaB; + for (i = 0; i < 9; ++i) { + cs->mat[i] = mat[i]; + } + return cs; +} + +GfxColorSpace *GfxCalRGBColorSpace::parse(Array *arr) { + GfxCalRGBColorSpace *cs; + Object obj1, obj2, obj3; + int i; + + arr->get(1, &obj1); + if (!obj1.isDict()) { + error(-1, "Bad CalRGB color space"); + obj1.free(); + return NULL; + } + cs = new GfxCalRGBColorSpace(); + if (obj1.dictLookup("WhitePoint", &obj2)->isArray() && + obj2.arrayGetLength() == 3) { + obj2.arrayGet(0, &obj3); + cs->whiteX = obj3.getNum(); + obj3.free(); + obj2.arrayGet(1, &obj3); + cs->whiteY = obj3.getNum(); + obj3.free(); + obj2.arrayGet(2, &obj3); + cs->whiteZ = obj3.getNum(); + obj3.free(); + } + obj2.free(); + if (obj1.dictLookup("BlackPoint", &obj2)->isArray() && + obj2.arrayGetLength() == 3) { + obj2.arrayGet(0, &obj3); + cs->blackX = obj3.getNum(); + obj3.free(); + obj2.arrayGet(1, &obj3); + cs->blackY = obj3.getNum(); + obj3.free(); + obj2.arrayGet(2, &obj3); + cs->blackZ = obj3.getNum(); + obj3.free(); + } + obj2.free(); + if (obj1.dictLookup("Gamma", &obj2)->isArray() && + obj2.arrayGetLength() == 3) { + obj2.arrayGet(0, &obj3); + cs->gammaR = obj3.getNum(); + obj3.free(); + obj2.arrayGet(1, &obj3); + cs->gammaG = obj3.getNum(); + obj3.free(); + obj2.arrayGet(2, &obj3); + cs->gammaB = obj3.getNum(); + obj3.free(); + } + obj2.free(); + if (obj1.dictLookup("Matrix", &obj2)->isArray() && + obj2.arrayGetLength() == 9) { + for (i = 0; i < 9; ++i) { + obj2.arrayGet(i, &obj3); + cs->mat[i] = obj3.getNum(); + obj3.free(); + } + } + obj2.free(); + obj1.free(); + return cs; +} + +void GfxCalRGBColorSpace::getGray(GfxColor *color, GfxGray *gray) { + *gray = clip01((GfxColorComp)(0.299 * color->c[0] + + 0.587 * color->c[1] + + 0.114 * color->c[2] + 0.5)); +} + +void GfxCalRGBColorSpace::getRGB(GfxColor *color, GfxRGB *rgb) { + rgb->r = clip01(color->c[0]); + rgb->g = clip01(color->c[1]); + rgb->b = clip01(color->c[2]); +} + +void GfxCalRGBColorSpace::getCMYK(GfxColor *color, GfxCMYK *cmyk) { + GfxColorComp c, m, y, k; + + c = clip01(gfxColorComp1 - color->c[0]); + m = clip01(gfxColorComp1 - color->c[1]); + y = clip01(gfxColorComp1 - color->c[2]); + k = c; + if (m < k) { + k = m; + } + if (y < k) { + k = y; + } + cmyk->c = c - k; + cmyk->m = m - k; + cmyk->y = y - k; + cmyk->k = k; +} + +void GfxCalRGBColorSpace::getDefaultColor(GfxColor *color) { + color->c[0] = 0; + color->c[1] = 0; + color->c[2] = 0; +} + +//------------------------------------------------------------------------ +// GfxDeviceCMYKColorSpace +//------------------------------------------------------------------------ + +GfxDeviceCMYKColorSpace::GfxDeviceCMYKColorSpace() { +} + +GfxDeviceCMYKColorSpace::~GfxDeviceCMYKColorSpace() { +} + +GfxColorSpace *GfxDeviceCMYKColorSpace::copy() { + return new GfxDeviceCMYKColorSpace(); +} + +void GfxDeviceCMYKColorSpace::getGray(GfxColor *color, GfxGray *gray) { + *gray = clip01((GfxColorComp)(gfxColorComp1 - color->c[3] + - 0.3 * color->c[0] + - 0.59 * color->c[1] + - 0.11 * color->c[2] + 0.5)); +} + +void GfxDeviceCMYKColorSpace::getRGB(GfxColor *color, GfxRGB *rgb) { + double c, m, y, k, c1, m1, y1, k1, r, g, b, x; + + c = colToDbl(color->c[0]); + m = colToDbl(color->c[1]); + y = colToDbl(color->c[2]); + k = colToDbl(color->c[3]); + c1 = 1 - c; + m1 = 1 - m; + y1 = 1 - y; + k1 = 1 - k; + // this is a matrix multiplication, unrolled for performance + // C M Y K + x = c1 * m1 * y1 * k1; // 0 0 0 0 + r = g = b = x; + x = c1 * m1 * y1 * k; // 0 0 0 1 + r += 0.1373 * x; + g += 0.1216 * x; + b += 0.1255 * x; + x = c1 * m1 * y * k1; // 0 0 1 0 + r += x; + g += 0.9490 * x; + x = c1 * m1 * y * k; // 0 0 1 1 + r += 0.1098 * x; + g += 0.1020 * x; + x = c1 * m * y1 * k1; // 0 1 0 0 + r += 0.9255 * x; + b += 0.5490 * x; + x = c1 * m * y1 * k; // 0 1 0 1 + r += 0.1412 * x; + x = c1 * m * y * k1; // 0 1 1 0 + r += 0.9294 * x; + g += 0.1098 * x; + b += 0.1412 * x; + x = c1 * m * y * k; // 0 1 1 1 + r += 0.1333 * x; + x = c * m1 * y1 * k1; // 1 0 0 0 + g += 0.6784 * x; + b += 0.9373 * x; + x = c * m1 * y1 * k; // 1 0 0 1 + g += 0.0588 * x; + b += 0.1412 * x; + x = c * m1 * y * k1; // 1 0 1 0 + g += 0.6510 * x; + b += 0.3137 * x; + x = c * m1 * y * k; // 1 0 1 1 + g += 0.0745 * x; + x = c * m * y1 * k1; // 1 1 0 0 + r += 0.1804 * x; + g += 0.1922 * x; + b += 0.5725 * x; + x = c * m * y1 * k; // 1 1 0 1 + b += 0.0078 * x; + x = c * m * y * k1; // 1 1 1 0 + r += 0.2118 * x; + g += 0.2119 * x; + b += 0.2235 * x; + rgb->r = clip01(dblToCol(r)); + rgb->g = clip01(dblToCol(g)); + rgb->b = clip01(dblToCol(b)); +} + +void GfxDeviceCMYKColorSpace::getCMYK(GfxColor *color, GfxCMYK *cmyk) { + cmyk->c = clip01(color->c[0]); + cmyk->m = clip01(color->c[1]); + cmyk->y = clip01(color->c[2]); + cmyk->k = clip01(color->c[3]); +} + +void GfxDeviceCMYKColorSpace::getDefaultColor(GfxColor *color) { + color->c[0] = 0; + color->c[1] = 0; + color->c[2] = 0; + color->c[3] = gfxColorComp1; +} + +//------------------------------------------------------------------------ +// GfxLabColorSpace +//------------------------------------------------------------------------ + +// This is the inverse of MatrixLMN in Example 4.10 from the PostScript +// Language Reference, Third Edition. +static double xyzrgb[3][3] = { + { 3.240449, -1.537136, -0.498531 }, + { -0.969265, 1.876011, 0.041556 }, + { 0.055643, -0.204026, 1.057229 } +}; + +GfxLabColorSpace::GfxLabColorSpace() { + whiteX = whiteY = whiteZ = 1; + blackX = blackY = blackZ = 0; + aMin = bMin = -100; + aMax = bMax = 100; +} + +GfxLabColorSpace::~GfxLabColorSpace() { +} + +GfxColorSpace *GfxLabColorSpace::copy() { + GfxLabColorSpace *cs; + + cs = new GfxLabColorSpace(); + cs->whiteX = whiteX; + cs->whiteY = whiteY; + cs->whiteZ = whiteZ; + cs->blackX = blackX; + cs->blackY = blackY; + cs->blackZ = blackZ; + cs->aMin = aMin; + cs->aMax = aMax; + cs->bMin = bMin; + cs->bMax = bMax; + cs->kr = kr; + cs->kg = kg; + cs->kb = kb; + return cs; +} + +GfxColorSpace *GfxLabColorSpace::parse(Array *arr) { + GfxLabColorSpace *cs; + Object obj1, obj2, obj3; + + arr->get(1, &obj1); + if (!obj1.isDict()) { + error(-1, "Bad Lab color space"); + obj1.free(); + return NULL; + } + cs = new GfxLabColorSpace(); + if (obj1.dictLookup("WhitePoint", &obj2)->isArray() && + obj2.arrayGetLength() == 3) { + obj2.arrayGet(0, &obj3); + cs->whiteX = obj3.getNum(); + obj3.free(); + obj2.arrayGet(1, &obj3); + cs->whiteY = obj3.getNum(); + obj3.free(); + obj2.arrayGet(2, &obj3); + cs->whiteZ = obj3.getNum(); + obj3.free(); + } + obj2.free(); + if (obj1.dictLookup("BlackPoint", &obj2)->isArray() && + obj2.arrayGetLength() == 3) { + obj2.arrayGet(0, &obj3); + cs->blackX = obj3.getNum(); + obj3.free(); + obj2.arrayGet(1, &obj3); + cs->blackY = obj3.getNum(); + obj3.free(); + obj2.arrayGet(2, &obj3); + cs->blackZ = obj3.getNum(); + obj3.free(); + } + obj2.free(); + if (obj1.dictLookup("Range", &obj2)->isArray() && + obj2.arrayGetLength() == 4) { + obj2.arrayGet(0, &obj3); + cs->aMin = obj3.getNum(); + obj3.free(); + obj2.arrayGet(1, &obj3); + cs->aMax = obj3.getNum(); + obj3.free(); + obj2.arrayGet(2, &obj3); + cs->bMin = obj3.getNum(); + obj3.free(); + obj2.arrayGet(3, &obj3); + cs->bMax = obj3.getNum(); + obj3.free(); + } + obj2.free(); + obj1.free(); + + cs->kr = 1 / (xyzrgb[0][0] * cs->whiteX + + xyzrgb[0][1] * cs->whiteY + + xyzrgb[0][2] * cs->whiteZ); + cs->kg = 1 / (xyzrgb[1][0] * cs->whiteX + + xyzrgb[1][1] * cs->whiteY + + xyzrgb[1][2] * cs->whiteZ); + cs->kb = 1 / (xyzrgb[2][0] * cs->whiteX + + xyzrgb[2][1] * cs->whiteY + + xyzrgb[2][2] * cs->whiteZ); + + return cs; +} + +void GfxLabColorSpace::getGray(GfxColor *color, GfxGray *gray) { + GfxRGB rgb; + + getRGB(color, &rgb); + *gray = clip01((GfxColorComp)(0.299 * rgb.r + + 0.587 * rgb.g + + 0.114 * rgb.b + 0.5)); +} + +void GfxLabColorSpace::getRGB(GfxColor *color, GfxRGB *rgb) { + double X, Y, Z; + double t1, t2; + double r, g, b; + + // convert L*a*b* to CIE 1931 XYZ color space + t1 = (colToDbl(color->c[0]) + 16) / 116; + t2 = t1 + colToDbl(color->c[1]) / 500; + if (t2 >= (6.0 / 29.0)) { + X = t2 * t2 * t2; + } else { + X = (108.0 / 841.0) * (t2 - (4.0 / 29.0)); + } + X *= whiteX; + if (t1 >= (6.0 / 29.0)) { + Y = t1 * t1 * t1; + } else { + Y = (108.0 / 841.0) * (t1 - (4.0 / 29.0)); + } + Y *= whiteY; + t2 = t1 - colToDbl(color->c[2]) / 200; + if (t2 >= (6.0 / 29.0)) { + Z = t2 * t2 * t2; + } else { + Z = (108.0 / 841.0) * (t2 - (4.0 / 29.0)); + } + Z *= whiteZ; + + // convert XYZ to RGB, including gamut mapping and gamma correction + r = xyzrgb[0][0] * X + xyzrgb[0][1] * Y + xyzrgb[0][2] * Z; + g = xyzrgb[1][0] * X + xyzrgb[1][1] * Y + xyzrgb[1][2] * Z; + b = xyzrgb[2][0] * X + xyzrgb[2][1] * Y + xyzrgb[2][2] * Z; + rgb->r = dblToCol(pow(clip01(r * kr), 0.5)); + rgb->g = dblToCol(pow(clip01(g * kg), 0.5)); + rgb->b = dblToCol(pow(clip01(b * kb), 0.5)); +} + +void GfxLabColorSpace::getCMYK(GfxColor *color, GfxCMYK *cmyk) { + GfxRGB rgb; + GfxColorComp c, m, y, k; + + getRGB(color, &rgb); + c = clip01(gfxColorComp1 - rgb.r); + m = clip01(gfxColorComp1 - rgb.g); + y = clip01(gfxColorComp1 - rgb.b); + k = c; + if (m < k) { + k = m; + } + if (y < k) { + k = y; + } + cmyk->c = c - k; + cmyk->m = m - k; + cmyk->y = y - k; + cmyk->k = k; +} + +void GfxLabColorSpace::getDefaultColor(GfxColor *color) { + color->c[0] = 0; + if (aMin > 0) { + color->c[1] = dblToCol(aMin); + } else if (aMax < 0) { + color->c[1] = dblToCol(aMax); + } else { + color->c[1] = 0; + } + if (bMin > 0) { + color->c[2] = dblToCol(bMin); + } else if (bMax < 0) { + color->c[2] = dblToCol(bMax); + } else { + color->c[2] = 0; + } +} + +void GfxLabColorSpace::getDefaultRanges(double *decodeLow, double *decodeRange, + int /*maxImgPixel*/) { + decodeLow[0] = 0; + decodeRange[0] = 100; + decodeLow[1] = aMin; + decodeRange[1] = aMax - aMin; + decodeLow[2] = bMin; + decodeRange[2] = bMax - bMin; +} + +//------------------------------------------------------------------------ +// GfxICCBasedColorSpace +//------------------------------------------------------------------------ + +GfxICCBasedColorSpace::GfxICCBasedColorSpace(int nCompsA, GfxColorSpace *altA, + Ref *iccProfileStreamA) { + nComps = nCompsA; + alt = altA; + iccProfileStream = *iccProfileStreamA; + rangeMin[0] = rangeMin[1] = rangeMin[2] = rangeMin[3] = 0; + rangeMax[0] = rangeMax[1] = rangeMax[2] = rangeMax[3] = 1; +} + +GfxICCBasedColorSpace::~GfxICCBasedColorSpace() { + delete alt; +} + +GfxColorSpace *GfxICCBasedColorSpace::copy() { + GfxICCBasedColorSpace *cs; + int i; + + cs = new GfxICCBasedColorSpace(nComps, alt->copy(), &iccProfileStream); + for (i = 0; i < 4; ++i) { + cs->rangeMin[i] = rangeMin[i]; + cs->rangeMax[i] = rangeMax[i]; + } + return cs; +} + +GfxColorSpace *GfxICCBasedColorSpace::parse(Array *arr) { + GfxICCBasedColorSpace *cs; + Ref iccProfileStreamA; + int nCompsA; + GfxColorSpace *altA; + Dict *dict; + Object obj1, obj2, obj3; + int i; + + arr->getNF(1, &obj1); + if (obj1.isRef()) { + iccProfileStreamA = obj1.getRef(); + } else { + iccProfileStreamA.num = 0; + iccProfileStreamA.gen = 0; + } + obj1.free(); + arr->get(1, &obj1); + if (!obj1.isStream()) { + error(-1, "Bad ICCBased color space (stream)"); + obj1.free(); + return NULL; + } + dict = obj1.streamGetDict(); + if (!dict->lookup("N", &obj2)->isInt()) { + error(-1, "Bad ICCBased color space (N)"); + obj2.free(); + obj1.free(); + return NULL; + } + nCompsA = obj2.getInt(); + obj2.free(); + if (nCompsA > gfxColorMaxComps) { + error(-1, "ICCBased color space with too many (%d > %d) components", + nCompsA, gfxColorMaxComps); + nCompsA = gfxColorMaxComps; + } + if (dict->lookup("Alternate", &obj2)->isNull() || + !(altA = GfxColorSpace::parse(&obj2))) { + switch (nCompsA) { + case 1: + altA = new GfxDeviceGrayColorSpace(); + break; + case 3: + altA = new GfxDeviceRGBColorSpace(); + break; + case 4: + altA = new GfxDeviceCMYKColorSpace(); + break; + default: + error(-1, "Bad ICCBased color space - invalid N"); + obj2.free(); + obj1.free(); + return NULL; + } + } + obj2.free(); + cs = new GfxICCBasedColorSpace(nCompsA, altA, &iccProfileStreamA); + if (dict->lookup("Range", &obj2)->isArray() && + obj2.arrayGetLength() == 2 * nCompsA) { + for (i = 0; i < nCompsA; ++i) { + obj2.arrayGet(2*i, &obj3); + cs->rangeMin[i] = obj3.getNum(); + obj3.free(); + obj2.arrayGet(2*i+1, &obj3); + cs->rangeMax[i] = obj3.getNum(); + obj3.free(); + } + } + obj2.free(); + obj1.free(); + return cs; +} + +void GfxICCBasedColorSpace::getGray(GfxColor *color, GfxGray *gray) { + alt->getGray(color, gray); +} + +void GfxICCBasedColorSpace::getRGB(GfxColor *color, GfxRGB *rgb) { + alt->getRGB(color, rgb); +} + +void GfxICCBasedColorSpace::getCMYK(GfxColor *color, GfxCMYK *cmyk) { + alt->getCMYK(color, cmyk); +} + +void GfxICCBasedColorSpace::getDefaultColor(GfxColor *color) { + int i; + + for (i = 0; i < nComps; ++i) { + if (rangeMin[i] > 0) { + color->c[i] = dblToCol(rangeMin[i]); + } else if (rangeMax[i] < 0) { + color->c[i] = dblToCol(rangeMax[i]); + } else { + color->c[i] = 0; + } + } +} + +void GfxICCBasedColorSpace::getDefaultRanges(double *decodeLow, + double *decodeRange, + int maxImgPixel) { + alt->getDefaultRanges(decodeLow, decodeRange, maxImgPixel); + +#if 0 + // this is nominally correct, but some PDF files don't set the + // correct ranges in the ICCBased dict + int i; + + for (i = 0; i < nComps; ++i) { + decodeLow[i] = rangeMin[i]; + decodeRange[i] = rangeMax[i] - rangeMin[i]; + } +#endif +} + +//------------------------------------------------------------------------ +// GfxIndexedColorSpace +//------------------------------------------------------------------------ + +GfxIndexedColorSpace::GfxIndexedColorSpace(GfxColorSpace *baseA, + int indexHighA) { + base = baseA; + indexHigh = indexHighA; + lookup = (Guchar *)gmallocn((indexHigh + 1) * base->getNComps(), + sizeof(Guchar)); +} + +GfxIndexedColorSpace::~GfxIndexedColorSpace() { + delete base; + gfree(lookup); +} + +GfxColorSpace *GfxIndexedColorSpace::copy() { + GfxIndexedColorSpace *cs; + + cs = new GfxIndexedColorSpace(base->copy(), indexHigh); + memcpy(cs->lookup, lookup, + (indexHigh + 1) * base->getNComps() * sizeof(Guchar)); + return cs; +} + +GfxColorSpace *GfxIndexedColorSpace::parse(Array *arr) { + GfxIndexedColorSpace *cs; + GfxColorSpace *baseA; + int indexHighA; + Object obj1; + int x; + char *s; + int n, i, j; + + if (arr->getLength() != 4) { + error(-1, "Bad Indexed color space"); + goto err1; + } + arr->get(1, &obj1); + if (!(baseA = GfxColorSpace::parse(&obj1))) { + error(-1, "Bad Indexed color space (base color space)"); + goto err2; + } + obj1.free(); + if (!arr->get(2, &obj1)->isInt()) { + error(-1, "Bad Indexed color space (hival)"); + delete baseA; + goto err2; + } + indexHighA = obj1.getInt(); + if (indexHighA < 0 || indexHighA > 255) { + // the PDF spec requires indexHigh to be in [0,255] -- allowing + // values larger than 255 creates a security hole: if nComps * + // indexHigh is greater than 2^31, the loop below may overwrite + // past the end of the array + error(-1, "Bad Indexed color space (invalid indexHigh value)"); + delete baseA; + goto err2; + } + obj1.free(); + cs = new GfxIndexedColorSpace(baseA, indexHighA); + arr->get(3, &obj1); + n = baseA->getNComps(); + if (obj1.isStream()) { + obj1.streamReset(); + for (i = 0; i <= indexHighA; ++i) { + for (j = 0; j < n; ++j) { + if ((x = obj1.streamGetChar()) == EOF) { + error(-1, "Bad Indexed color space (lookup table stream too short)"); + goto err3; + } + cs->lookup[i*n + j] = (Guchar)x; + } + } + obj1.streamClose(); + } else if (obj1.isString()) { + if (obj1.getString()->getLength() < (indexHighA + 1) * n) { + error(-1, "Bad Indexed color space (lookup table string too short)"); + goto err3; + } + s = obj1.getString()->getCString(); + for (i = 0; i <= indexHighA; ++i) { + for (j = 0; j < n; ++j) { + cs->lookup[i*n + j] = (Guchar)*s++; + } + } + } else { + error(-1, "Bad Indexed color space (lookup table)"); + goto err3; + } + obj1.free(); + return cs; + + err3: + delete cs; + err2: + obj1.free(); + err1: + return NULL; +} + +GfxColor *GfxIndexedColorSpace::mapColorToBase(GfxColor *color, + GfxColor *baseColor) { + Guchar *p; + double low[gfxColorMaxComps], range[gfxColorMaxComps]; + int n, i; + + n = base->getNComps(); + base->getDefaultRanges(low, range, indexHigh); + p = &lookup[(int)(colToDbl(color->c[0]) + 0.5) * n]; + for (i = 0; i < n; ++i) { + baseColor->c[i] = dblToCol(low[i] + (p[i] / 255.0) * range[i]); + } + return baseColor; +} + +void GfxIndexedColorSpace::getGray(GfxColor *color, GfxGray *gray) { + GfxColor color2; + + base->getGray(mapColorToBase(color, &color2), gray); +} + +void GfxIndexedColorSpace::getRGB(GfxColor *color, GfxRGB *rgb) { + GfxColor color2; + + base->getRGB(mapColorToBase(color, &color2), rgb); +} + +void GfxIndexedColorSpace::getCMYK(GfxColor *color, GfxCMYK *cmyk) { + GfxColor color2; + + base->getCMYK(mapColorToBase(color, &color2), cmyk); +} + +void GfxIndexedColorSpace::getDefaultColor(GfxColor *color) { + color->c[0] = 0; +} + +void GfxIndexedColorSpace::getDefaultRanges(double *decodeLow, + double *decodeRange, + int maxImgPixel) { + decodeLow[0] = 0; + decodeRange[0] = maxImgPixel; +} + +//------------------------------------------------------------------------ +// GfxSeparationColorSpace +//------------------------------------------------------------------------ + +GfxSeparationColorSpace::GfxSeparationColorSpace(GString *nameA, + GfxColorSpace *altA, + Function *funcA) { + name = nameA; + alt = altA; + func = funcA; + nonMarking = !name->cmp("None"); +} + +GfxSeparationColorSpace::~GfxSeparationColorSpace() { + delete name; + delete alt; + delete func; +} + +GfxColorSpace *GfxSeparationColorSpace::copy() { + return new GfxSeparationColorSpace(name->copy(), alt->copy(), func->copy()); +} + +//~ handle the 'All' and 'None' colorants +GfxColorSpace *GfxSeparationColorSpace::parse(Array *arr) { + GfxSeparationColorSpace *cs; + GString *nameA; + GfxColorSpace *altA; + Function *funcA; + Object obj1; + + if (arr->getLength() != 4) { + error(-1, "Bad Separation color space"); + goto err1; + } + if (!arr->get(1, &obj1)->isName()) { + error(-1, "Bad Separation color space (name)"); + goto err2; + } + nameA = new GString(obj1.getName()); + obj1.free(); + arr->get(2, &obj1); + if (!(altA = GfxColorSpace::parse(&obj1))) { + error(-1, "Bad Separation color space (alternate color space)"); + goto err3; + } + obj1.free(); + arr->get(3, &obj1); + if (!(funcA = Function::parse(&obj1))) { + goto err4; + } + obj1.free(); + cs = new GfxSeparationColorSpace(nameA, altA, funcA); + return cs; + + err4: + delete altA; + err3: + delete nameA; + err2: + obj1.free(); + err1: + return NULL; +} + +void GfxSeparationColorSpace::getGray(GfxColor *color, GfxGray *gray) { + double x; + double c[gfxColorMaxComps]; + GfxColor color2; + int i; + + x = colToDbl(color->c[0]); + func->transform(&x, c); + for (i = 0; i < alt->getNComps(); ++i) { + color2.c[i] = dblToCol(c[i]); + } + alt->getGray(&color2, gray); +} + +void GfxSeparationColorSpace::getRGB(GfxColor *color, GfxRGB *rgb) { + double x; + double c[gfxColorMaxComps]; + GfxColor color2; + int i; + + x = colToDbl(color->c[0]); + func->transform(&x, c); + for (i = 0; i < alt->getNComps(); ++i) { + color2.c[i] = dblToCol(c[i]); + } + alt->getRGB(&color2, rgb); +} + +void GfxSeparationColorSpace::getCMYK(GfxColor *color, GfxCMYK *cmyk) { + double x; + double c[gfxColorMaxComps]; + GfxColor color2; + int i; + + x = colToDbl(color->c[0]); + func->transform(&x, c); + for (i = 0; i < alt->getNComps(); ++i) { + color2.c[i] = dblToCol(c[i]); + } + alt->getCMYK(&color2, cmyk); +} + +void GfxSeparationColorSpace::getDefaultColor(GfxColor *color) { + color->c[0] = gfxColorComp1; +} + +//------------------------------------------------------------------------ +// GfxDeviceNColorSpace +//------------------------------------------------------------------------ + +GfxDeviceNColorSpace::GfxDeviceNColorSpace(int nCompsA, + GfxColorSpace *altA, + Function *funcA) { + nComps = nCompsA; + alt = altA; + func = funcA; + nonMarking = gFalse; +} + +GfxDeviceNColorSpace::~GfxDeviceNColorSpace() { + int i; + + for (i = 0; i < nComps; ++i) { + delete names[i]; + } + delete alt; + delete func; +} + +GfxColorSpace *GfxDeviceNColorSpace::copy() { + GfxDeviceNColorSpace *cs; + int i; + + cs = new GfxDeviceNColorSpace(nComps, alt->copy(), func->copy()); + for (i = 0; i < nComps; ++i) { + cs->names[i] = names[i]->copy(); + } + cs->nonMarking = nonMarking; + return cs; +} + +//~ handle the 'None' colorant +GfxColorSpace *GfxDeviceNColorSpace::parse(Array *arr) { + GfxDeviceNColorSpace *cs; + int nCompsA; + GString *namesA[gfxColorMaxComps]; + GfxColorSpace *altA; + Function *funcA; + Object obj1, obj2; + int i; + + if (arr->getLength() != 4 && arr->getLength() != 5) { + error(-1, "Bad DeviceN color space"); + goto err1; + } + if (!arr->get(1, &obj1)->isArray()) { + error(-1, "Bad DeviceN color space (names)"); + goto err2; + } + nCompsA = obj1.arrayGetLength(); + if (nCompsA > gfxColorMaxComps) { + error(-1, "DeviceN color space with too many (%d > %d) components", + nCompsA, gfxColorMaxComps); + nCompsA = gfxColorMaxComps; + } + for (i = 0; i < nCompsA; ++i) { + if (!obj1.arrayGet(i, &obj2)->isName()) { + error(-1, "Bad DeviceN color space (names)"); + obj2.free(); + goto err2; + } + namesA[i] = new GString(obj2.getName()); + obj2.free(); + } + obj1.free(); + arr->get(2, &obj1); + if (!(altA = GfxColorSpace::parse(&obj1))) { + error(-1, "Bad DeviceN color space (alternate color space)"); + goto err3; + } + obj1.free(); + arr->get(3, &obj1); + if (!(funcA = Function::parse(&obj1))) { + goto err4; + } + obj1.free(); + cs = new GfxDeviceNColorSpace(nCompsA, altA, funcA); + cs->nonMarking = gTrue; + for (i = 0; i < nCompsA; ++i) { + cs->names[i] = namesA[i]; + if (namesA[i]->cmp("None")) { + cs->nonMarking = gFalse; + } + } + return cs; + + err4: + delete altA; + err3: + for (i = 0; i < nCompsA; ++i) { + delete namesA[i]; + } + err2: + obj1.free(); + err1: + return NULL; +} + +void GfxDeviceNColorSpace::getGray(GfxColor *color, GfxGray *gray) { + double x[gfxColorMaxComps], c[gfxColorMaxComps]; + GfxColor color2; + int i; + + for (i = 0; i < nComps; ++i) { + x[i] = colToDbl(color->c[i]); + } + func->transform(x, c); + for (i = 0; i < alt->getNComps(); ++i) { + color2.c[i] = dblToCol(c[i]); + } + alt->getGray(&color2, gray); +} + +void GfxDeviceNColorSpace::getRGB(GfxColor *color, GfxRGB *rgb) { + double x[gfxColorMaxComps], c[gfxColorMaxComps]; + GfxColor color2; + int i; + + for (i = 0; i < nComps; ++i) { + x[i] = colToDbl(color->c[i]); + } + func->transform(x, c); + for (i = 0; i < alt->getNComps(); ++i) { + color2.c[i] = dblToCol(c[i]); + } + alt->getRGB(&color2, rgb); +} + +void GfxDeviceNColorSpace::getCMYK(GfxColor *color, GfxCMYK *cmyk) { + double x[gfxColorMaxComps], c[gfxColorMaxComps]; + GfxColor color2; + int i; + + for (i = 0; i < nComps; ++i) { + x[i] = colToDbl(color->c[i]); + } + func->transform(x, c); + for (i = 0; i < alt->getNComps(); ++i) { + color2.c[i] = dblToCol(c[i]); + } + alt->getCMYK(&color2, cmyk); +} + +void GfxDeviceNColorSpace::getDefaultColor(GfxColor *color) { + int i; + + for (i = 0; i < nComps; ++i) { + color->c[i] = gfxColorComp1; + } +} + +//------------------------------------------------------------------------ +// GfxPatternColorSpace +//------------------------------------------------------------------------ + +GfxPatternColorSpace::GfxPatternColorSpace(GfxColorSpace *underA) { + under = underA; +} + +GfxPatternColorSpace::~GfxPatternColorSpace() { + if (under) { + delete under; + } +} + +GfxColorSpace *GfxPatternColorSpace::copy() { + return new GfxPatternColorSpace(under ? under->copy() : + (GfxColorSpace *)NULL); +} + +GfxColorSpace *GfxPatternColorSpace::parse(Array *arr) { + GfxPatternColorSpace *cs; + GfxColorSpace *underA; + Object obj1; + + if (arr->getLength() != 1 && arr->getLength() != 2) { + error(-1, "Bad Pattern color space"); + return NULL; + } + underA = NULL; + if (arr->getLength() == 2) { + arr->get(1, &obj1); + if (!(underA = GfxColorSpace::parse(&obj1))) { + error(-1, "Bad Pattern color space (underlying color space)"); + obj1.free(); + return NULL; + } + obj1.free(); + } + cs = new GfxPatternColorSpace(underA); + return cs; +} + +void GfxPatternColorSpace::getGray(GfxColor * /*color*/, GfxGray *gray) { + *gray = 0; +} + +void GfxPatternColorSpace::getRGB(GfxColor * /*color*/, GfxRGB *rgb) { + rgb->r = rgb->g = rgb->b = 0; +} + +void GfxPatternColorSpace::getCMYK(GfxColor * /*color*/, GfxCMYK *cmyk) { + cmyk->c = cmyk->m = cmyk->y = 0; + cmyk->k = 1; +} + +void GfxPatternColorSpace::getDefaultColor(GfxColor * /*color*/) { + // not used +} + +//------------------------------------------------------------------------ +// Pattern +//------------------------------------------------------------------------ + +GfxPattern::GfxPattern(int typeA) { + type = typeA; +} + +GfxPattern::~GfxPattern() { +} + +GfxPattern *GfxPattern::parse(Object *obj) { + GfxPattern *pattern; + Object obj1; + + if (obj->isDict()) { + obj->dictLookup("PatternType", &obj1); + } else if (obj->isStream()) { + obj->streamGetDict()->lookup("PatternType", &obj1); + } else { + return NULL; + } + pattern = NULL; + if (obj1.isInt() && obj1.getInt() == 1) { + pattern = GfxTilingPattern::parse(obj); + } else if (obj1.isInt() && obj1.getInt() == 2) { + pattern = GfxShadingPattern::parse(obj); + } + obj1.free(); + return pattern; +} + +//------------------------------------------------------------------------ +// GfxTilingPattern +//------------------------------------------------------------------------ + +GfxTilingPattern *GfxTilingPattern::parse(Object *patObj) { + GfxTilingPattern *pat; + Dict *dict; + int paintTypeA, tilingTypeA; + double bboxA[4], matrixA[6]; + double xStepA, yStepA; + Object resDictA; + Object obj1, obj2; + int i; + + if (!patObj->isStream()) { + return NULL; + } + dict = patObj->streamGetDict(); + + if (dict->lookup("PaintType", &obj1)->isInt()) { + paintTypeA = obj1.getInt(); + } else { + paintTypeA = 1; + error(-1, "Invalid or missing PaintType in pattern"); + } + obj1.free(); + if (dict->lookup("TilingType", &obj1)->isInt()) { + tilingTypeA = obj1.getInt(); + } else { + tilingTypeA = 1; + error(-1, "Invalid or missing TilingType in pattern"); + } + obj1.free(); + bboxA[0] = bboxA[1] = 0; + bboxA[2] = bboxA[3] = 1; + if (dict->lookup("BBox", &obj1)->isArray() && + obj1.arrayGetLength() == 4) { + for (i = 0; i < 4; ++i) { + if (obj1.arrayGet(i, &obj2)->isNum()) { + bboxA[i] = obj2.getNum(); + } + obj2.free(); + } + } else { + error(-1, "Invalid or missing BBox in pattern"); + } + obj1.free(); + if (dict->lookup("XStep", &obj1)->isNum()) { + xStepA = obj1.getNum(); + } else { + xStepA = 1; + error(-1, "Invalid or missing XStep in pattern"); + } + obj1.free(); + if (dict->lookup("YStep", &obj1)->isNum()) { + yStepA = obj1.getNum(); + } else { + yStepA = 1; + error(-1, "Invalid or missing YStep in pattern"); + } + obj1.free(); + if (!dict->lookup("Resources", &resDictA)->isDict()) { + resDictA.free(); + resDictA.initNull(); + error(-1, "Invalid or missing Resources in pattern"); + } + matrixA[0] = 1; matrixA[1] = 0; + matrixA[2] = 0; matrixA[3] = 1; + matrixA[4] = 0; matrixA[5] = 0; + if (dict->lookup("Matrix", &obj1)->isArray() && + obj1.arrayGetLength() == 6) { + for (i = 0; i < 6; ++i) { + if (obj1.arrayGet(i, &obj2)->isNum()) { + matrixA[i] = obj2.getNum(); + } + obj2.free(); + } + } + obj1.free(); + + pat = new GfxTilingPattern(paintTypeA, tilingTypeA, bboxA, xStepA, yStepA, + &resDictA, matrixA, patObj); + resDictA.free(); + return pat; +} + +GfxTilingPattern::GfxTilingPattern(int paintTypeA, int tilingTypeA, + double *bboxA, double xStepA, double yStepA, + Object *resDictA, double *matrixA, + Object *contentStreamA): + GfxPattern(1) +{ + int i; + + paintType = paintTypeA; + tilingType = tilingTypeA; + for (i = 0; i < 4; ++i) { + bbox[i] = bboxA[i]; + } + xStep = xStepA; + yStep = yStepA; + resDictA->copy(&resDict); + for (i = 0; i < 6; ++i) { + matrix[i] = matrixA[i]; + } + contentStreamA->copy(&contentStream); +} + +GfxTilingPattern::~GfxTilingPattern() { + resDict.free(); + contentStream.free(); +} + +GfxPattern *GfxTilingPattern::copy() { + return new GfxTilingPattern(paintType, tilingType, bbox, xStep, yStep, + &resDict, matrix, &contentStream); +} + +//------------------------------------------------------------------------ +// GfxShadingPattern +//------------------------------------------------------------------------ + +GfxShadingPattern *GfxShadingPattern::parse(Object *patObj) { + Dict *dict; + GfxShading *shadingA; + double matrixA[6]; + Object obj1, obj2; + int i; + + if (!patObj->isDict()) { + return NULL; + } + dict = patObj->getDict(); + + dict->lookup("Shading", &obj1); + shadingA = GfxShading::parse(&obj1); + obj1.free(); + if (!shadingA) { + return NULL; + } + + matrixA[0] = 1; matrixA[1] = 0; + matrixA[2] = 0; matrixA[3] = 1; + matrixA[4] = 0; matrixA[5] = 0; + if (dict->lookup("Matrix", &obj1)->isArray() && + obj1.arrayGetLength() == 6) { + for (i = 0; i < 6; ++i) { + if (obj1.arrayGet(i, &obj2)->isNum()) { + matrixA[i] = obj2.getNum(); + } + obj2.free(); + } + } + obj1.free(); + + return new GfxShadingPattern(shadingA, matrixA); +} + +GfxShadingPattern::GfxShadingPattern(GfxShading *shadingA, double *matrixA): + GfxPattern(2) +{ + int i; + + shading = shadingA; + for (i = 0; i < 6; ++i) { + matrix[i] = matrixA[i]; + } +} + +GfxShadingPattern::~GfxShadingPattern() { + delete shading; +} + +GfxPattern *GfxShadingPattern::copy() { + return new GfxShadingPattern(shading->copy(), matrix); +} + +//------------------------------------------------------------------------ +// GfxShading +//------------------------------------------------------------------------ + +GfxShading::GfxShading(int typeA) { + type = typeA; + colorSpace = NULL; +} + +GfxShading::GfxShading(GfxShading *shading) { + int i; + + type = shading->type; + colorSpace = shading->colorSpace->copy(); + for (i = 0; i < gfxColorMaxComps; ++i) { + background.c[i] = shading->background.c[i]; + } + hasBackground = shading->hasBackground; + xMin = shading->xMin; + yMin = shading->yMin; + xMax = shading->xMax; + yMax = shading->yMax; + hasBBox = shading->hasBBox; +} + +GfxShading::~GfxShading() { + if (colorSpace) { + delete colorSpace; + } +} + +GfxShading *GfxShading::parse(Object *obj) { + GfxShading *shading; + Dict *dict; + int typeA; + Object obj1; + + if (obj->isDict()) { + dict = obj->getDict(); + } else if (obj->isStream()) { + dict = obj->streamGetDict(); + } else { + return NULL; + } + + if (!dict->lookup("ShadingType", &obj1)->isInt()) { + error(-1, "Invalid ShadingType in shading dictionary"); + obj1.free(); + return NULL; + } + typeA = obj1.getInt(); + obj1.free(); + + switch (typeA) { + case 1: + shading = GfxFunctionShading::parse(dict); + break; + case 2: + shading = GfxAxialShading::parse(dict); + break; + case 3: + shading = GfxRadialShading::parse(dict); + break; + case 4: + if (obj->isStream()) { + shading = GfxGouraudTriangleShading::parse(4, dict, obj->getStream()); + } else { + error(-1, "Invalid Type 4 shading object"); + goto err1; + } + break; + case 5: + if (obj->isStream()) { + shading = GfxGouraudTriangleShading::parse(5, dict, obj->getStream()); + } else { + error(-1, "Invalid Type 5 shading object"); + goto err1; + } + break; + case 6: + if (obj->isStream()) { + shading = GfxPatchMeshShading::parse(6, dict, obj->getStream()); + } else { + error(-1, "Invalid Type 6 shading object"); + goto err1; + } + break; + case 7: + if (obj->isStream()) { + shading = GfxPatchMeshShading::parse(7, dict, obj->getStream()); + } else { + error(-1, "Invalid Type 7 shading object"); + goto err1; + } + break; + default: + error(-1, "Unimplemented shading type %d", typeA); + goto err1; + } + + return shading; + + err1: + return NULL; +} + +GBool GfxShading::init(Dict *dict) { + Object obj1, obj2; + int i; + + dict->lookup("ColorSpace", &obj1); + if (!(colorSpace = GfxColorSpace::parse(&obj1))) { + error(-1, "Bad color space in shading dictionary"); + obj1.free(); + return gFalse; + } + obj1.free(); + + for (i = 0; i < gfxColorMaxComps; ++i) { + background.c[i] = 0; + } + hasBackground = gFalse; + if (dict->lookup("Background", &obj1)->isArray()) { + if (obj1.arrayGetLength() == colorSpace->getNComps()) { + hasBackground = gTrue; + for (i = 0; i < colorSpace->getNComps(); ++i) { + background.c[i] = dblToCol(obj1.arrayGet(i, &obj2)->getNum()); + obj2.free(); + } + } else { + error(-1, "Bad Background in shading dictionary"); + } + } + obj1.free(); + + xMin = yMin = xMax = yMax = 0; + hasBBox = gFalse; + if (dict->lookup("BBox", &obj1)->isArray()) { + if (obj1.arrayGetLength() == 4) { + hasBBox = gTrue; + xMin = obj1.arrayGet(0, &obj2)->getNum(); + obj2.free(); + yMin = obj1.arrayGet(1, &obj2)->getNum(); + obj2.free(); + xMax = obj1.arrayGet(2, &obj2)->getNum(); + obj2.free(); + yMax = obj1.arrayGet(3, &obj2)->getNum(); + obj2.free(); + } else { + error(-1, "Bad BBox in shading dictionary"); + } + } + obj1.free(); + + return gTrue; +} + +//------------------------------------------------------------------------ +// GfxFunctionShading +//------------------------------------------------------------------------ + +GfxFunctionShading::GfxFunctionShading(double x0A, double y0A, + double x1A, double y1A, + double *matrixA, + Function **funcsA, int nFuncsA): + GfxShading(1) +{ + int i; + + x0 = x0A; + y0 = y0A; + x1 = x1A; + y1 = y1A; + for (i = 0; i < 6; ++i) { + matrix[i] = matrixA[i]; + } + nFuncs = nFuncsA; + for (i = 0; i < nFuncs; ++i) { + funcs[i] = funcsA[i]; + } +} + +GfxFunctionShading::GfxFunctionShading(GfxFunctionShading *shading): + GfxShading(shading) +{ + int i; + + x0 = shading->x0; + y0 = shading->y0; + x1 = shading->x1; + y1 = shading->y1; + for (i = 0; i < 6; ++i) { + matrix[i] = shading->matrix[i]; + } + nFuncs = shading->nFuncs; + for (i = 0; i < nFuncs; ++i) { + funcs[i] = shading->funcs[i]->copy(); + } +} + +GfxFunctionShading::~GfxFunctionShading() { + int i; + + for (i = 0; i < nFuncs; ++i) { + delete funcs[i]; + } +} + +GfxFunctionShading *GfxFunctionShading::parse(Dict *dict) { + GfxFunctionShading *shading; + double x0A, y0A, x1A, y1A; + double matrixA[6]; + Function *funcsA[gfxColorMaxComps]; + int nFuncsA; + Object obj1, obj2; + int i; + + x0A = y0A = 0; + x1A = y1A = 1; + if (dict->lookup("Domain", &obj1)->isArray() && + obj1.arrayGetLength() == 4) { + x0A = obj1.arrayGet(0, &obj2)->getNum(); + obj2.free(); + x1A = obj1.arrayGet(1, &obj2)->getNum(); + obj2.free(); + y0A = obj1.arrayGet(2, &obj2)->getNum(); + obj2.free(); + y1A = obj1.arrayGet(3, &obj2)->getNum(); + obj2.free(); + } + obj1.free(); + + matrixA[0] = 1; matrixA[1] = 0; + matrixA[2] = 0; matrixA[3] = 1; + matrixA[4] = 0; matrixA[5] = 0; + if (dict->lookup("Matrix", &obj1)->isArray() && + obj1.arrayGetLength() == 6) { + matrixA[0] = obj1.arrayGet(0, &obj2)->getNum(); + obj2.free(); + matrixA[1] = obj1.arrayGet(1, &obj2)->getNum(); + obj2.free(); + matrixA[2] = obj1.arrayGet(2, &obj2)->getNum(); + obj2.free(); + matrixA[3] = obj1.arrayGet(3, &obj2)->getNum(); + obj2.free(); + matrixA[4] = obj1.arrayGet(4, &obj2)->getNum(); + obj2.free(); + matrixA[5] = obj1.arrayGet(5, &obj2)->getNum(); + obj2.free(); + } + obj1.free(); + + dict->lookup("Function", &obj1); + if (obj1.isArray()) { + nFuncsA = obj1.arrayGetLength(); + if (nFuncsA > gfxColorMaxComps) { + error(-1, "Invalid Function array in shading dictionary"); + goto err1; + } + for (i = 0; i < nFuncsA; ++i) { + obj1.arrayGet(i, &obj2); + if (!(funcsA[i] = Function::parse(&obj2))) { + goto err2; + } + obj2.free(); + } + } else { + nFuncsA = 1; + if (!(funcsA[0] = Function::parse(&obj1))) { + goto err1; + } + } + obj1.free(); + + shading = new GfxFunctionShading(x0A, y0A, x1A, y1A, matrixA, + funcsA, nFuncsA); + if (!shading->init(dict)) { + delete shading; + return NULL; + } + return shading; + + err2: + obj2.free(); + err1: + obj1.free(); + return NULL; +} + +GfxShading *GfxFunctionShading::copy() { + return new GfxFunctionShading(this); +} + +void GfxFunctionShading::getColor(double x, double y, GfxColor *color) { + double in[2], out[gfxColorMaxComps]; + int i; + + // NB: there can be one function with n outputs or n functions with + // one output each (where n = number of color components) + for (i = 0; i < gfxColorMaxComps; ++i) { + out[i] = 0; + } + in[0] = x; + in[1] = y; + for (i = 0; i < nFuncs; ++i) { + funcs[i]->transform(in, &out[i]); + } + for (i = 0; i < gfxColorMaxComps; ++i) { + color->c[i] = dblToCol(out[i]); + } +} + +//------------------------------------------------------------------------ +// GfxAxialShading +//------------------------------------------------------------------------ + +GfxAxialShading::GfxAxialShading(double x0A, double y0A, + double x1A, double y1A, + double t0A, double t1A, + Function **funcsA, int nFuncsA, + GBool extend0A, GBool extend1A): + GfxShading(2) +{ + int i; + + x0 = x0A; + y0 = y0A; + x1 = x1A; + y1 = y1A; + t0 = t0A; + t1 = t1A; + nFuncs = nFuncsA; + for (i = 0; i < nFuncs; ++i) { + funcs[i] = funcsA[i]; + } + extend0 = extend0A; + extend1 = extend1A; +} + +GfxAxialShading::GfxAxialShading(GfxAxialShading *shading): + GfxShading(shading) +{ + int i; + + x0 = shading->x0; + y0 = shading->y0; + x1 = shading->x1; + y1 = shading->y1; + t0 = shading->t0; + y1 = shading->t1; + nFuncs = shading->nFuncs; + for (i = 0; i < nFuncs; ++i) { + funcs[i] = shading->funcs[i]->copy(); + } + extend0 = shading->extend0; + extend1 = shading->extend1; +} + +GfxAxialShading::~GfxAxialShading() { + int i; + + for (i = 0; i < nFuncs; ++i) { + delete funcs[i]; + } +} + +GfxAxialShading *GfxAxialShading::parse(Dict *dict) { + GfxAxialShading *shading; + double x0A, y0A, x1A, y1A; + double t0A, t1A; + Function *funcsA[gfxColorMaxComps]; + int nFuncsA; + GBool extend0A, extend1A; + Object obj1, obj2; + int i; + + x0A = y0A = x1A = y1A = 0; + if (dict->lookup("Coords", &obj1)->isArray() && + obj1.arrayGetLength() == 4) { + x0A = obj1.arrayGet(0, &obj2)->getNum(); + obj2.free(); + y0A = obj1.arrayGet(1, &obj2)->getNum(); + obj2.free(); + x1A = obj1.arrayGet(2, &obj2)->getNum(); + obj2.free(); + y1A = obj1.arrayGet(3, &obj2)->getNum(); + obj2.free(); + } else { + error(-1, "Missing or invalid Coords in shading dictionary"); + goto err1; + } + obj1.free(); + + t0A = 0; + t1A = 1; + if (dict->lookup("Domain", &obj1)->isArray() && + obj1.arrayGetLength() == 2) { + t0A = obj1.arrayGet(0, &obj2)->getNum(); + obj2.free(); + t1A = obj1.arrayGet(1, &obj2)->getNum(); + obj2.free(); + } + obj1.free(); + + dict->lookup("Function", &obj1); + if (obj1.isArray()) { + nFuncsA = obj1.arrayGetLength(); + if (nFuncsA > gfxColorMaxComps) { + error(-1, "Invalid Function array in shading dictionary"); + goto err1; + } + for (i = 0; i < nFuncsA; ++i) { + obj1.arrayGet(i, &obj2); + if (!(funcsA[i] = Function::parse(&obj2))) { + obj1.free(); + obj2.free(); + goto err1; + } + obj2.free(); + } + } else { + nFuncsA = 1; + if (!(funcsA[0] = Function::parse(&obj1))) { + obj1.free(); + goto err1; + } + } + obj1.free(); + + extend0A = extend1A = gFalse; + if (dict->lookup("Extend", &obj1)->isArray() && + obj1.arrayGetLength() == 2) { + extend0A = obj1.arrayGet(0, &obj2)->getBool(); + obj2.free(); + extend1A = obj1.arrayGet(1, &obj2)->getBool(); + obj2.free(); + } + obj1.free(); + + shading = new GfxAxialShading(x0A, y0A, x1A, y1A, t0A, t1A, + funcsA, nFuncsA, extend0A, extend1A); + if (!shading->init(dict)) { + delete shading; + return NULL; + } + return shading; + + err1: + return NULL; +} + +GfxShading *GfxAxialShading::copy() { + return new GfxAxialShading(this); +} + +void GfxAxialShading::getColor(double t, GfxColor *color) { + double out[gfxColorMaxComps]; + int i; + + // NB: there can be one function with n outputs or n functions with + // one output each (where n = number of color components) + for (i = 0; i < gfxColorMaxComps; ++i) { + out[i] = 0; + } + for (i = 0; i < nFuncs; ++i) { + funcs[i]->transform(&t, &out[i]); + } + for (i = 0; i < gfxColorMaxComps; ++i) { + color->c[i] = dblToCol(out[i]); + } +} + +//------------------------------------------------------------------------ +// GfxRadialShading +//------------------------------------------------------------------------ + +GfxRadialShading::GfxRadialShading(double x0A, double y0A, double r0A, + double x1A, double y1A, double r1A, + double t0A, double t1A, + Function **funcsA, int nFuncsA, + GBool extend0A, GBool extend1A): + GfxShading(3) +{ + int i; + + x0 = x0A; + y0 = y0A; + r0 = r0A; + x1 = x1A; + y1 = y1A; + r1 = r1A; + t0 = t0A; + t1 = t1A; + nFuncs = nFuncsA; + for (i = 0; i < nFuncs; ++i) { + funcs[i] = funcsA[i]; + } + extend0 = extend0A; + extend1 = extend1A; +} + +GfxRadialShading::GfxRadialShading(GfxRadialShading *shading): + GfxShading(shading) +{ + int i; + + x0 = shading->x0; + y0 = shading->y0; + r0 = shading->r0; + x1 = shading->x1; + y1 = shading->y1; + r1 = shading->r1; + t0 = shading->t0; + y1 = shading->t1; + nFuncs = shading->nFuncs; + for (i = 0; i < nFuncs; ++i) { + funcs[i] = shading->funcs[i]->copy(); + } + extend0 = shading->extend0; + extend1 = shading->extend1; +} + +GfxRadialShading::~GfxRadialShading() { + int i; + + for (i = 0; i < nFuncs; ++i) { + delete funcs[i]; + } +} + +GfxRadialShading *GfxRadialShading::parse(Dict *dict) { + GfxRadialShading *shading; + double x0A, y0A, r0A, x1A, y1A, r1A; + double t0A, t1A; + Function *funcsA[gfxColorMaxComps]; + int nFuncsA; + GBool extend0A, extend1A; + Object obj1, obj2; + int i; + + x0A = y0A = r0A = x1A = y1A = r1A = 0; + if (dict->lookup("Coords", &obj1)->isArray() && + obj1.arrayGetLength() == 6) { + x0A = obj1.arrayGet(0, &obj2)->getNum(); + obj2.free(); + y0A = obj1.arrayGet(1, &obj2)->getNum(); + obj2.free(); + r0A = obj1.arrayGet(2, &obj2)->getNum(); + obj2.free(); + x1A = obj1.arrayGet(3, &obj2)->getNum(); + obj2.free(); + y1A = obj1.arrayGet(4, &obj2)->getNum(); + obj2.free(); + r1A = obj1.arrayGet(5, &obj2)->getNum(); + obj2.free(); + } else { + error(-1, "Missing or invalid Coords in shading dictionary"); + goto err1; + } + obj1.free(); + + t0A = 0; + t1A = 1; + if (dict->lookup("Domain", &obj1)->isArray() && + obj1.arrayGetLength() == 2) { + t0A = obj1.arrayGet(0, &obj2)->getNum(); + obj2.free(); + t1A = obj1.arrayGet(1, &obj2)->getNum(); + obj2.free(); + } + obj1.free(); + + dict->lookup("Function", &obj1); + if (obj1.isArray()) { + nFuncsA = obj1.arrayGetLength(); + if (nFuncsA > gfxColorMaxComps) { + error(-1, "Invalid Function array in shading dictionary"); + goto err1; + } + for (i = 0; i < nFuncsA; ++i) { + obj1.arrayGet(i, &obj2); + if (!(funcsA[i] = Function::parse(&obj2))) { + obj1.free(); + obj2.free(); + goto err1; + } + obj2.free(); + } + } else { + nFuncsA = 1; + if (!(funcsA[0] = Function::parse(&obj1))) { + obj1.free(); + goto err1; + } + } + obj1.free(); + + extend0A = extend1A = gFalse; + if (dict->lookup("Extend", &obj1)->isArray() && + obj1.arrayGetLength() == 2) { + extend0A = obj1.arrayGet(0, &obj2)->getBool(); + obj2.free(); + extend1A = obj1.arrayGet(1, &obj2)->getBool(); + obj2.free(); + } + obj1.free(); + + shading = new GfxRadialShading(x0A, y0A, r0A, x1A, y1A, r1A, t0A, t1A, + funcsA, nFuncsA, extend0A, extend1A); + if (!shading->init(dict)) { + delete shading; + return NULL; + } + return shading; + + err1: + return NULL; +} + +GfxShading *GfxRadialShading::copy() { + return new GfxRadialShading(this); +} + +void GfxRadialShading::getColor(double t, GfxColor *color) { + double out[gfxColorMaxComps]; + int i; + + // NB: there can be one function with n outputs or n functions with + // one output each (where n = number of color components) + for (i = 0; i < gfxColorMaxComps; ++i) { + out[i] = 0; + } + for (i = 0; i < nFuncs; ++i) { + funcs[i]->transform(&t, &out[i]); + } + for (i = 0; i < gfxColorMaxComps; ++i) { + color->c[i] = dblToCol(out[i]); + } +} + +//------------------------------------------------------------------------ +// GfxShadingBitBuf +//------------------------------------------------------------------------ + +class GfxShadingBitBuf { +public: + + GfxShadingBitBuf(Stream *strA); + ~GfxShadingBitBuf(); + GBool getBits(int n, Guint *val); + void flushBits(); + +private: + + Stream *str; + int bitBuf; + int nBits; +}; + +GfxShadingBitBuf::GfxShadingBitBuf(Stream *strA) { + str = strA; + str->reset(); + bitBuf = 0; + nBits = 0; +} + +GfxShadingBitBuf::~GfxShadingBitBuf() { + str->close(); +} + +GBool GfxShadingBitBuf::getBits(int n, Guint *val) { + int x; + + if (nBits >= n) { + x = (bitBuf >> (nBits - n)) & ((1 << n) - 1); + nBits -= n; + } else { + x = 0; + if (nBits > 0) { + x = bitBuf & ((1 << nBits) - 1); + n -= nBits; + nBits = 0; + } + while (n > 0) { + if ((bitBuf = str->getChar()) == EOF) { + nBits = 0; + return gFalse; + } + if (n >= 8) { + x = (x << 8) | bitBuf; + n -= 8; + } else { + x = (x << n) | (bitBuf >> (8 - n)); + nBits = 8 - n; + n = 0; + } + } + } + *val = x; + return gTrue; +} + +void GfxShadingBitBuf::flushBits() { + bitBuf = 0; + nBits = 0; +} + +//------------------------------------------------------------------------ +// GfxGouraudTriangleShading +//------------------------------------------------------------------------ + +GfxGouraudTriangleShading::GfxGouraudTriangleShading( + int typeA, + GfxGouraudVertex *verticesA, int nVerticesA, + int (*trianglesA)[3], int nTrianglesA, + Function **funcsA, int nFuncsA): + GfxShading(typeA) +{ + int i; + + vertices = verticesA; + nVertices = nVerticesA; + triangles = trianglesA; + nTriangles = nTrianglesA; + nFuncs = nFuncsA; + for (i = 0; i < nFuncs; ++i) { + funcs[i] = funcsA[i]; + } +} + +GfxGouraudTriangleShading::GfxGouraudTriangleShading( + GfxGouraudTriangleShading *shading): + GfxShading(shading) +{ + int i; + + nVertices = shading->nVertices; + vertices = (GfxGouraudVertex *)gmallocn(nVertices, sizeof(GfxGouraudVertex)); + memcpy(vertices, shading->vertices, nVertices * sizeof(GfxGouraudVertex)); + nTriangles = shading->nTriangles; + triangles = (int (*)[3])gmallocn(nTriangles * 3, sizeof(int)); + memcpy(triangles, shading->triangles, nTriangles * 3 * sizeof(int)); + nFuncs = shading->nFuncs; + for (i = 0; i < nFuncs; ++i) { + funcs[i] = shading->funcs[i]->copy(); + } +} + +GfxGouraudTriangleShading::~GfxGouraudTriangleShading() { + int i; + + gfree(vertices); + gfree(triangles); + for (i = 0; i < nFuncs; ++i) { + delete funcs[i]; + } +} + +GfxGouraudTriangleShading *GfxGouraudTriangleShading::parse(int typeA, + Dict *dict, + Stream *str) { + GfxGouraudTriangleShading *shading; + Function *funcsA[gfxColorMaxComps]; + int nFuncsA; + int coordBits, compBits, flagBits, vertsPerRow, nRows; + double xMin, xMax, yMin, yMax; + double cMin[gfxColorMaxComps], cMax[gfxColorMaxComps]; + double xMul, yMul; + double cMul[gfxColorMaxComps]; + GfxGouraudVertex *verticesA; + int (*trianglesA)[3]; + int nComps, nVerticesA, nTrianglesA, vertSize, triSize; + Guint x, y, flag; + Guint c[gfxColorMaxComps]; + GfxShadingBitBuf *bitBuf; + Object obj1, obj2; + int i, j, k, state; + + if (dict->lookup("BitsPerCoordinate", &obj1)->isInt()) { + coordBits = obj1.getInt(); + } else { + error(-1, "Missing or invalid BitsPerCoordinate in shading dictionary"); + goto err2; + } + obj1.free(); + if (dict->lookup("BitsPerComponent", &obj1)->isInt()) { + compBits = obj1.getInt(); + } else { + error(-1, "Missing or invalid BitsPerComponent in shading dictionary"); + goto err2; + } + obj1.free(); + flagBits = vertsPerRow = 0; // make gcc happy + if (typeA == 4) { + if (dict->lookup("BitsPerFlag", &obj1)->isInt()) { + flagBits = obj1.getInt(); + } else { + error(-1, "Missing or invalid BitsPerFlag in shading dictionary"); + goto err2; + } + obj1.free(); + } else { + if (dict->lookup("VerticesPerRow", &obj1)->isInt()) { + vertsPerRow = obj1.getInt(); + } else { + error(-1, "Missing or invalid VerticesPerRow in shading dictionary"); + goto err2; + } + obj1.free(); + } + if (dict->lookup("Decode", &obj1)->isArray() && + obj1.arrayGetLength() >= 6) { + xMin = obj1.arrayGet(0, &obj2)->getNum(); + obj2.free(); + xMax = obj1.arrayGet(1, &obj2)->getNum(); + obj2.free(); + xMul = (xMax - xMin) / (pow(2.0, coordBits) - 1); + yMin = obj1.arrayGet(2, &obj2)->getNum(); + obj2.free(); + yMax = obj1.arrayGet(3, &obj2)->getNum(); + obj2.free(); + yMul = (yMax - yMin) / (pow(2.0, coordBits) - 1); + for (i = 0; 5 + 2*i < obj1.arrayGetLength() && i < gfxColorMaxComps; ++i) { + cMin[i] = obj1.arrayGet(4 + 2*i, &obj2)->getNum(); + obj2.free(); + cMax[i] = obj1.arrayGet(5 + 2*i, &obj2)->getNum(); + obj2.free(); + cMul[i] = (cMax[i] - cMin[i]) / (double)((1 << compBits) - 1); + } + nComps = i; + } else { + error(-1, "Missing or invalid Decode array in shading dictionary"); + goto err2; + } + obj1.free(); + + if (!dict->lookup("Function", &obj1)->isNull()) { + if (obj1.isArray()) { + nFuncsA = obj1.arrayGetLength(); + if (nFuncsA > gfxColorMaxComps) { + error(-1, "Invalid Function array in shading dictionary"); + goto err1; + } + for (i = 0; i < nFuncsA; ++i) { + obj1.arrayGet(i, &obj2); + if (!(funcsA[i] = Function::parse(&obj2))) { + obj1.free(); + obj2.free(); + goto err1; + } + obj2.free(); + } + } else { + nFuncsA = 1; + if (!(funcsA[0] = Function::parse(&obj1))) { + obj1.free(); + goto err1; + } + } + } else { + nFuncsA = 0; + } + obj1.free(); + + nVerticesA = nTrianglesA = 0; + verticesA = NULL; + trianglesA = NULL; + vertSize = triSize = 0; + state = 0; + flag = 0; // make gcc happy + bitBuf = new GfxShadingBitBuf(str); + while (1) { + if (typeA == 4) { + if (!bitBuf->getBits(flagBits, &flag)) { + break; + } + } + if (!bitBuf->getBits(coordBits, &x) || + !bitBuf->getBits(coordBits, &y)) { + break; + } + for (i = 0; i < nComps; ++i) { + if (!bitBuf->getBits(compBits, &c[i])) { + break; + } + } + if (i < nComps) { + break; + } + if (nVerticesA == vertSize) { + vertSize = (vertSize == 0) ? 16 : 2 * vertSize; + verticesA = (GfxGouraudVertex *) + greallocn(verticesA, vertSize, sizeof(GfxGouraudVertex)); + } + verticesA[nVerticesA].x = xMin + xMul * (double)x; + verticesA[nVerticesA].y = yMin + yMul * (double)y; + for (i = 0; i < nComps; ++i) { + verticesA[nVerticesA].color.c[i] = + dblToCol(cMin[i] + cMul[i] * (double)c[i]); + } + ++nVerticesA; + bitBuf->flushBits(); + if (typeA == 4) { + if (state == 0 || state == 1) { + ++state; + } else if (state == 2 || flag > 0) { + if (nTrianglesA == triSize) { + triSize = (triSize == 0) ? 16 : 2 * triSize; + trianglesA = (int (*)[3]) + greallocn(trianglesA, triSize * 3, sizeof(int)); + } + if (state == 2) { + trianglesA[nTrianglesA][0] = nVerticesA - 3; + trianglesA[nTrianglesA][1] = nVerticesA - 2; + trianglesA[nTrianglesA][2] = nVerticesA - 1; + ++state; + } else if (flag == 1) { + trianglesA[nTrianglesA][0] = trianglesA[nTrianglesA - 1][1]; + trianglesA[nTrianglesA][1] = trianglesA[nTrianglesA - 1][2]; + trianglesA[nTrianglesA][2] = nVerticesA - 1; + } else { // flag == 2 + trianglesA[nTrianglesA][0] = trianglesA[nTrianglesA - 1][0]; + trianglesA[nTrianglesA][1] = trianglesA[nTrianglesA - 1][2]; + trianglesA[nTrianglesA][2] = nVerticesA - 1; + } + ++nTrianglesA; + } else { // state == 3 && flag == 0 + state = 1; + } + } + } + delete bitBuf; + if (typeA == 5) { + nRows = nVerticesA / vertsPerRow; + nTrianglesA = (nRows - 1) * 2 * (vertsPerRow - 1); + trianglesA = (int (*)[3])gmallocn(nTrianglesA * 3, sizeof(int)); + k = 0; + for (i = 0; i < nRows - 1; ++i) { + for (j = 0; j < vertsPerRow - 1; ++j) { + trianglesA[k][0] = i * vertsPerRow + j; + trianglesA[k][1] = i * vertsPerRow + j+1; + trianglesA[k][2] = (i+1) * vertsPerRow + j; + ++k; + trianglesA[k][0] = i * vertsPerRow + j+1; + trianglesA[k][1] = (i+1) * vertsPerRow + j; + trianglesA[k][2] = (i+1) * vertsPerRow + j+1; + ++k; + } + } + } + + shading = new GfxGouraudTriangleShading(typeA, verticesA, nVerticesA, + trianglesA, nTrianglesA, + funcsA, nFuncsA); + if (!shading->init(dict)) { + delete shading; + return NULL; + } + return shading; + + err2: + obj1.free(); + err1: + return NULL; +} + +GfxShading *GfxGouraudTriangleShading::copy() { + return new GfxGouraudTriangleShading(this); +} + +void GfxGouraudTriangleShading::getTriangle( + int i, + double *x0, double *y0, GfxColor *color0, + double *x1, double *y1, GfxColor *color1, + double *x2, double *y2, GfxColor *color2) { + double in; + double out[gfxColorMaxComps]; + int v, j; + + v = triangles[i][0]; + *x0 = vertices[v].x; + *y0 = vertices[v].y; + if (nFuncs > 0) { + in = colToDbl(vertices[v].color.c[0]); + for (j = 0; j < nFuncs; ++j) { + funcs[j]->transform(&in, &out[j]); + } + for (j = 0; j < gfxColorMaxComps; ++j) { + color0->c[j] = dblToCol(out[j]); + } + } else { + *color0 = vertices[v].color; + } + v = triangles[i][1]; + *x1 = vertices[v].x; + *y1 = vertices[v].y; + if (nFuncs > 0) { + in = colToDbl(vertices[v].color.c[0]); + for (j = 0; j < nFuncs; ++j) { + funcs[j]->transform(&in, &out[j]); + } + for (j = 0; j < gfxColorMaxComps; ++j) { + color1->c[j] = dblToCol(out[j]); + } + } else { + *color1 = vertices[v].color; + } + v = triangles[i][2]; + *x2 = vertices[v].x; + *y2 = vertices[v].y; + if (nFuncs > 0) { + in = colToDbl(vertices[v].color.c[0]); + for (j = 0; j < nFuncs; ++j) { + funcs[j]->transform(&in, &out[j]); + } + for (j = 0; j < gfxColorMaxComps; ++j) { + color2->c[j] = dblToCol(out[j]); + } + } else { + *color2 = vertices[v].color; + } +} + +//------------------------------------------------------------------------ +// GfxPatchMeshShading +//------------------------------------------------------------------------ + +GfxPatchMeshShading::GfxPatchMeshShading(int typeA, + GfxPatch *patchesA, int nPatchesA, + Function **funcsA, int nFuncsA): + GfxShading(typeA) +{ + int i; + + patches = patchesA; + nPatches = nPatchesA; + nFuncs = nFuncsA; + for (i = 0; i < nFuncs; ++i) { + funcs[i] = funcsA[i]; + } +} + +GfxPatchMeshShading::GfxPatchMeshShading(GfxPatchMeshShading *shading): + GfxShading(shading) +{ + int i; + + nPatches = shading->nPatches; + patches = (GfxPatch *)gmallocn(nPatches, sizeof(GfxPatch)); + memcpy(patches, shading->patches, nPatches * sizeof(GfxPatch)); + nFuncs = shading->nFuncs; + for (i = 0; i < nFuncs; ++i) { + funcs[i] = shading->funcs[i]->copy(); + } +} + +GfxPatchMeshShading::~GfxPatchMeshShading() { + int i; + + gfree(patches); + for (i = 0; i < nFuncs; ++i) { + delete funcs[i]; + } +} + +GfxPatchMeshShading *GfxPatchMeshShading::parse(int typeA, Dict *dict, + Stream *str) { + GfxPatchMeshShading *shading; + Function *funcsA[gfxColorMaxComps]; + int nFuncsA; + int coordBits, compBits, flagBits; + double xMin, xMax, yMin, yMax; + double cMin[gfxColorMaxComps], cMax[gfxColorMaxComps]; + double xMul, yMul; + double cMul[gfxColorMaxComps]; + GfxPatch *patchesA, *p; + int nComps, nPatchesA, patchesSize, nPts, nColors; + Guint flag; + double x[16], y[16]; + Guint xi, yi; + GfxColorComp c[4][gfxColorMaxComps]; + Guint ci[4]; + GfxShadingBitBuf *bitBuf; + Object obj1, obj2; + int i, j; + + if (dict->lookup("BitsPerCoordinate", &obj1)->isInt()) { + coordBits = obj1.getInt(); + } else { + error(-1, "Missing or invalid BitsPerCoordinate in shading dictionary"); + goto err2; + } + obj1.free(); + if (dict->lookup("BitsPerComponent", &obj1)->isInt()) { + compBits = obj1.getInt(); + } else { + error(-1, "Missing or invalid BitsPerComponent in shading dictionary"); + goto err2; + } + obj1.free(); + if (dict->lookup("BitsPerFlag", &obj1)->isInt()) { + flagBits = obj1.getInt(); + } else { + error(-1, "Missing or invalid BitsPerFlag in shading dictionary"); + goto err2; + } + obj1.free(); + if (dict->lookup("Decode", &obj1)->isArray() && + obj1.arrayGetLength() >= 6) { + xMin = obj1.arrayGet(0, &obj2)->getNum(); + obj2.free(); + xMax = obj1.arrayGet(1, &obj2)->getNum(); + obj2.free(); + xMul = (xMax - xMin) / (pow(2.0, coordBits) - 1); + yMin = obj1.arrayGet(2, &obj2)->getNum(); + obj2.free(); + yMax = obj1.arrayGet(3, &obj2)->getNum(); + obj2.free(); + yMul = (yMax - yMin) / (pow(2.0, coordBits) - 1); + for (i = 0; 5 + 2*i < obj1.arrayGetLength() && i < gfxColorMaxComps; ++i) { + cMin[i] = obj1.arrayGet(4 + 2*i, &obj2)->getNum(); + obj2.free(); + cMax[i] = obj1.arrayGet(5 + 2*i, &obj2)->getNum(); + obj2.free(); + cMul[i] = (cMax[i] - cMin[i]) / (double)((1 << compBits) - 1); + } + nComps = i; + } else { + error(-1, "Missing or invalid Decode array in shading dictionary"); + goto err2; + } + obj1.free(); + + if (!dict->lookup("Function", &obj1)->isNull()) { + if (obj1.isArray()) { + nFuncsA = obj1.arrayGetLength(); + if (nFuncsA > gfxColorMaxComps) { + error(-1, "Invalid Function array in shading dictionary"); + goto err1; + } + for (i = 0; i < nFuncsA; ++i) { + obj1.arrayGet(i, &obj2); + if (!(funcsA[i] = Function::parse(&obj2))) { + obj1.free(); + obj2.free(); + goto err1; + } + obj2.free(); + } + } else { + nFuncsA = 1; + if (!(funcsA[0] = Function::parse(&obj1))) { + obj1.free(); + goto err1; + } + } + } else { + nFuncsA = 0; + } + obj1.free(); + + nPatchesA = 0; + patchesA = NULL; + patchesSize = 0; + bitBuf = new GfxShadingBitBuf(str); + while (1) { + if (!bitBuf->getBits(flagBits, &flag)) { + break; + } + if (typeA == 6) { + switch (flag) { + case 0: nPts = 12; nColors = 4; break; + case 1: + case 2: + case 3: + default: nPts = 8; nColors = 2; break; + } + } else { + switch (flag) { + case 0: nPts = 16; nColors = 4; break; + case 1: + case 2: + case 3: + default: nPts = 12; nColors = 2; break; + } + } + for (i = 0; i < nPts; ++i) { + if (!bitBuf->getBits(coordBits, &xi) || + !bitBuf->getBits(coordBits, &yi)) { + break; + } + x[i] = xMin + xMul * (double)xi; + y[i] = yMin + yMul * (double)yi; + } + if (i < nPts) { + break; + } + for (i = 0; i < nColors; ++i) { + for (j = 0; j < nComps; ++j) { + if (!bitBuf->getBits(compBits, &ci[j])) { + break; + } + c[i][j] = dblToCol(cMin[j] + cMul[j] * (double)ci[j]); + } + if (j < nComps) { + break; + } + } + if (i < nColors) { + break; + } + if (nPatchesA == patchesSize) { + patchesSize = (patchesSize == 0) ? 16 : 2 * patchesSize; + patchesA = (GfxPatch *)greallocn(patchesA, + patchesSize, sizeof(GfxPatch)); + } + p = &patchesA[nPatchesA]; + if (typeA == 6) { + switch (flag) { + case 0: + p->x[0][0] = x[0]; + p->y[0][0] = y[0]; + p->x[0][1] = x[1]; + p->y[0][1] = y[1]; + p->x[0][2] = x[2]; + p->y[0][2] = y[2]; + p->x[0][3] = x[3]; + p->y[0][3] = y[3]; + p->x[1][3] = x[4]; + p->y[1][3] = y[4]; + p->x[2][3] = x[5]; + p->y[2][3] = y[5]; + p->x[3][3] = x[6]; + p->y[3][3] = y[6]; + p->x[3][2] = x[7]; + p->y[3][2] = y[7]; + p->x[3][1] = x[8]; + p->y[3][1] = y[8]; + p->x[3][0] = x[9]; + p->y[3][0] = y[9]; + p->x[2][0] = x[10]; + p->y[2][0] = y[10]; + p->x[1][0] = x[11]; + p->y[1][0] = y[11]; + for (j = 0; j < nComps; ++j) { + p->color[0][0].c[j] = c[0][j]; + p->color[0][1].c[j] = c[1][j]; + p->color[1][1].c[j] = c[2][j]; + p->color[1][0].c[j] = c[3][j]; + } + break; + case 1: + p->x[0][0] = patchesA[nPatchesA-1].x[0][3]; + p->y[0][0] = patchesA[nPatchesA-1].y[0][3]; + p->x[0][1] = patchesA[nPatchesA-1].x[1][3]; + p->y[0][1] = patchesA[nPatchesA-1].y[1][3]; + p->x[0][2] = patchesA[nPatchesA-1].x[2][3]; + p->y[0][2] = patchesA[nPatchesA-1].y[2][3]; + p->x[0][3] = patchesA[nPatchesA-1].x[3][3]; + p->y[0][3] = patchesA[nPatchesA-1].y[3][3]; + p->x[1][3] = x[0]; + p->y[1][3] = y[0]; + p->x[2][3] = x[1]; + p->y[2][3] = y[1]; + p->x[3][3] = x[2]; + p->y[3][3] = y[2]; + p->x[3][2] = x[3]; + p->y[3][2] = y[3]; + p->x[3][1] = x[4]; + p->y[3][1] = y[4]; + p->x[3][0] = x[5]; + p->y[3][0] = y[5]; + p->x[2][0] = x[6]; + p->y[2][0] = y[6]; + p->x[1][0] = x[7]; + p->y[1][0] = y[7]; + for (j = 0; j < nComps; ++j) { + p->color[0][0].c[j] = patchesA[nPatchesA-1].color[0][1].c[j]; + p->color[0][1].c[j] = patchesA[nPatchesA-1].color[1][1].c[j]; + p->color[1][1].c[j] = c[0][j]; + p->color[1][0].c[j] = c[1][j]; + } + break; + case 2: + p->x[0][0] = patchesA[nPatchesA-1].x[3][3]; + p->y[0][0] = patchesA[nPatchesA-1].y[3][3]; + p->x[0][1] = patchesA[nPatchesA-1].x[3][2]; + p->y[0][1] = patchesA[nPatchesA-1].y[3][2]; + p->x[0][2] = patchesA[nPatchesA-1].x[3][1]; + p->y[0][2] = patchesA[nPatchesA-1].y[3][1]; + p->x[0][3] = patchesA[nPatchesA-1].x[3][0]; + p->y[0][3] = patchesA[nPatchesA-1].y[3][0]; + p->x[1][3] = x[0]; + p->y[1][3] = y[0]; + p->x[2][3] = x[1]; + p->y[2][3] = y[1]; + p->x[3][3] = x[2]; + p->y[3][3] = y[2]; + p->x[3][2] = x[3]; + p->y[3][2] = y[3]; + p->x[3][1] = x[4]; + p->y[3][1] = y[4]; + p->x[3][0] = x[5]; + p->y[3][0] = y[5]; + p->x[2][0] = x[6]; + p->y[2][0] = y[6]; + p->x[1][0] = x[7]; + p->y[1][0] = y[7]; + for (j = 0; j < nComps; ++j) { + p->color[0][0].c[j] = patchesA[nPatchesA-1].color[1][1].c[j]; + p->color[0][1].c[j] = patchesA[nPatchesA-1].color[1][0].c[j]; + p->color[1][1].c[j] = c[0][j]; + p->color[1][0].c[j] = c[1][j]; + } + break; + case 3: + p->x[0][0] = patchesA[nPatchesA-1].x[3][0]; + p->y[0][0] = patchesA[nPatchesA-1].y[3][0]; + p->x[0][1] = patchesA[nPatchesA-1].x[2][0]; + p->y[0][1] = patchesA[nPatchesA-1].y[2][0]; + p->x[0][2] = patchesA[nPatchesA-1].x[1][0]; + p->y[0][2] = patchesA[nPatchesA-1].y[1][0]; + p->x[0][3] = patchesA[nPatchesA-1].x[0][0]; + p->y[0][3] = patchesA[nPatchesA-1].y[0][0]; + p->x[1][3] = x[0]; + p->y[1][3] = y[0]; + p->x[2][3] = x[1]; + p->y[2][3] = y[1]; + p->x[3][3] = x[2]; + p->y[3][3] = y[2]; + p->x[3][2] = x[3]; + p->y[3][2] = y[3]; + p->x[3][1] = x[4]; + p->y[3][1] = y[4]; + p->x[3][0] = x[5]; + p->y[3][0] = y[5]; + p->x[2][0] = x[6]; + p->y[2][0] = y[6]; + p->x[1][0] = x[7]; + p->y[1][0] = y[7]; + for (j = 0; j < nComps; ++j) { + p->color[0][1].c[j] = patchesA[nPatchesA-1].color[1][0].c[j]; + p->color[0][1].c[j] = patchesA[nPatchesA-1].color[0][0].c[j]; + p->color[1][1].c[j] = c[0][j]; + p->color[1][0].c[j] = c[1][j]; + } + break; + } + } else { + switch (flag) { + case 0: + p->x[0][0] = x[0]; + p->y[0][0] = y[0]; + p->x[0][1] = x[1]; + p->y[0][1] = y[1]; + p->x[0][2] = x[2]; + p->y[0][2] = y[2]; + p->x[0][3] = x[3]; + p->y[0][3] = y[3]; + p->x[1][3] = x[4]; + p->y[1][3] = y[4]; + p->x[2][3] = x[5]; + p->y[2][3] = y[5]; + p->x[3][3] = x[6]; + p->y[3][3] = y[6]; + p->x[3][2] = x[7]; + p->y[3][2] = y[7]; + p->x[3][1] = x[8]; + p->y[3][1] = y[8]; + p->x[3][0] = x[9]; + p->y[3][0] = y[9]; + p->x[2][0] = x[10]; + p->y[2][0] = y[10]; + p->x[1][0] = x[11]; + p->y[1][0] = y[11]; + p->x[1][1] = x[12]; + p->y[1][1] = y[12]; + p->x[1][2] = x[13]; + p->y[1][2] = y[13]; + p->x[2][2] = x[14]; + p->y[2][2] = y[14]; + p->x[2][1] = x[15]; + p->y[2][1] = y[15]; + for (j = 0; j < nComps; ++j) { + p->color[0][0].c[j] = c[0][j]; + p->color[0][1].c[j] = c[1][j]; + p->color[1][1].c[j] = c[2][j]; + p->color[1][0].c[j] = c[3][j]; + } + break; + case 1: + p->x[0][0] = patchesA[nPatchesA-1].x[0][3]; + p->y[0][0] = patchesA[nPatchesA-1].y[0][3]; + p->x[0][1] = patchesA[nPatchesA-1].x[1][3]; + p->y[0][1] = patchesA[nPatchesA-1].y[1][3]; + p->x[0][2] = patchesA[nPatchesA-1].x[2][3]; + p->y[0][2] = patchesA[nPatchesA-1].y[2][3]; + p->x[0][3] = patchesA[nPatchesA-1].x[3][3]; + p->y[0][3] = patchesA[nPatchesA-1].y[3][3]; + p->x[1][3] = x[0]; + p->y[1][3] = y[0]; + p->x[2][3] = x[1]; + p->y[2][3] = y[1]; + p->x[3][3] = x[2]; + p->y[3][3] = y[2]; + p->x[3][2] = x[3]; + p->y[3][2] = y[3]; + p->x[3][1] = x[4]; + p->y[3][1] = y[4]; + p->x[3][0] = x[5]; + p->y[3][0] = y[5]; + p->x[2][0] = x[6]; + p->y[2][0] = y[6]; + p->x[1][0] = x[7]; + p->y[1][0] = y[7]; + p->x[1][1] = x[8]; + p->y[1][1] = y[8]; + p->x[1][2] = x[9]; + p->y[1][2] = y[9]; + p->x[2][2] = x[10]; + p->y[2][2] = y[10]; + p->x[2][1] = x[11]; + p->y[2][1] = y[11]; + for (j = 0; j < nComps; ++j) { + p->color[0][0].c[j] = patchesA[nPatchesA-1].color[0][1].c[j]; + p->color[0][1].c[j] = patchesA[nPatchesA-1].color[1][1].c[j]; + p->color[1][1].c[j] = c[0][j]; + p->color[1][0].c[j] = c[1][j]; + } + break; + case 2: + p->x[0][0] = patchesA[nPatchesA-1].x[3][3]; + p->y[0][0] = patchesA[nPatchesA-1].y[3][3]; + p->x[0][1] = patchesA[nPatchesA-1].x[3][2]; + p->y[0][1] = patchesA[nPatchesA-1].y[3][2]; + p->x[0][2] = patchesA[nPatchesA-1].x[3][1]; + p->y[0][2] = patchesA[nPatchesA-1].y[3][1]; + p->x[0][3] = patchesA[nPatchesA-1].x[3][0]; + p->y[0][3] = patchesA[nPatchesA-1].y[3][0]; + p->x[1][3] = x[0]; + p->y[1][3] = y[0]; + p->x[2][3] = x[1]; + p->y[2][3] = y[1]; + p->x[3][3] = x[2]; + p->y[3][3] = y[2]; + p->x[3][2] = x[3]; + p->y[3][2] = y[3]; + p->x[3][1] = x[4]; + p->y[3][1] = y[4]; + p->x[3][0] = x[5]; + p->y[3][0] = y[5]; + p->x[2][0] = x[6]; + p->y[2][0] = y[6]; + p->x[1][0] = x[7]; + p->y[1][0] = y[7]; + p->x[1][1] = x[8]; + p->y[1][1] = y[8]; + p->x[1][2] = x[9]; + p->y[1][2] = y[9]; + p->x[2][2] = x[10]; + p->y[2][2] = y[10]; + p->x[2][1] = x[11]; + p->y[2][1] = y[11]; + for (j = 0; j < nComps; ++j) { + p->color[0][0].c[j] = patchesA[nPatchesA-1].color[1][1].c[j]; + p->color[0][1].c[j] = patchesA[nPatchesA-1].color[1][0].c[j]; + p->color[1][1].c[j] = c[0][j]; + p->color[1][0].c[j] = c[1][j]; + } + break; + case 3: + p->x[0][0] = patchesA[nPatchesA-1].x[3][0]; + p->y[0][0] = patchesA[nPatchesA-1].y[3][0]; + p->x[0][1] = patchesA[nPatchesA-1].x[2][0]; + p->y[0][1] = patchesA[nPatchesA-1].y[2][0]; + p->x[0][2] = patchesA[nPatchesA-1].x[1][0]; + p->y[0][2] = patchesA[nPatchesA-1].y[1][0]; + p->x[0][3] = patchesA[nPatchesA-1].x[0][0]; + p->y[0][3] = patchesA[nPatchesA-1].y[0][0]; + p->x[1][3] = x[0]; + p->y[1][3] = y[0]; + p->x[2][3] = x[1]; + p->y[2][3] = y[1]; + p->x[3][3] = x[2]; + p->y[3][3] = y[2]; + p->x[3][2] = x[3]; + p->y[3][2] = y[3]; + p->x[3][1] = x[4]; + p->y[3][1] = y[4]; + p->x[3][0] = x[5]; + p->y[3][0] = y[5]; + p->x[2][0] = x[6]; + p->y[2][0] = y[6]; + p->x[1][0] = x[7]; + p->y[1][0] = y[7]; + p->x[1][1] = x[8]; + p->y[1][1] = y[8]; + p->x[1][2] = x[9]; + p->y[1][2] = y[9]; + p->x[2][2] = x[10]; + p->y[2][2] = y[10]; + p->x[2][1] = x[11]; + p->y[2][1] = y[11]; + for (j = 0; j < nComps; ++j) { + p->color[0][0].c[j] = patchesA[nPatchesA-1].color[1][0].c[j]; + p->color[0][1].c[j] = patchesA[nPatchesA-1].color[0][0].c[j]; + p->color[1][1].c[j] = c[0][j]; + p->color[1][0].c[j] = c[1][j]; + } + break; + } + } + ++nPatchesA; + bitBuf->flushBits(); + } + delete bitBuf; + + if (typeA == 6) { + for (i = 0; i < nPatchesA; ++i) { + p = &patchesA[i]; + p->x[1][1] = (-4 * p->x[0][0] + +6 * (p->x[0][1] + p->x[1][0]) + -2 * (p->x[0][3] + p->x[3][0]) + +3 * (p->x[3][1] + p->x[1][3]) + - p->x[3][3]) / 9; + p->y[1][1] = (-4 * p->y[0][0] + +6 * (p->y[0][1] + p->y[1][0]) + -2 * (p->y[0][3] + p->y[3][0]) + +3 * (p->y[3][1] + p->y[1][3]) + - p->y[3][3]) / 9; + p->x[1][2] = (-4 * p->x[0][3] + +6 * (p->x[0][2] + p->x[1][3]) + -2 * (p->x[0][0] + p->x[3][3]) + +3 * (p->x[3][2] + p->x[1][0]) + - p->x[3][0]) / 9; + p->y[1][2] = (-4 * p->y[0][3] + +6 * (p->y[0][2] + p->y[1][3]) + -2 * (p->y[0][0] + p->y[3][3]) + +3 * (p->y[3][2] + p->y[1][0]) + - p->y[3][0]) / 9; + p->x[2][1] = (-4 * p->x[3][0] + +6 * (p->x[3][1] + p->x[2][0]) + -2 * (p->x[3][3] + p->x[0][0]) + +3 * (p->x[0][1] + p->x[2][3]) + - p->x[0][3]) / 9; + p->y[2][1] = (-4 * p->y[3][0] + +6 * (p->y[3][1] + p->y[2][0]) + -2 * (p->y[3][3] + p->y[0][0]) + +3 * (p->y[0][1] + p->y[2][3]) + - p->y[0][3]) / 9; + p->x[2][2] = (-4 * p->x[3][3] + +6 * (p->x[3][2] + p->x[2][3]) + -2 * (p->x[3][0] + p->x[0][3]) + +3 * (p->x[0][2] + p->x[2][0]) + - p->x[0][0]) / 9; + p->y[2][2] = (-4 * p->y[3][3] + +6 * (p->y[3][2] + p->y[2][3]) + -2 * (p->y[3][0] + p->y[0][3]) + +3 * (p->y[0][2] + p->y[2][0]) + - p->y[0][0]) / 9; + } + } + + shading = new GfxPatchMeshShading(typeA, patchesA, nPatchesA, + funcsA, nFuncsA); + if (!shading->init(dict)) { + delete shading; + return NULL; + } + return shading; + + err2: + obj1.free(); + err1: + return NULL; +} + +GfxShading *GfxPatchMeshShading::copy() { + return new GfxPatchMeshShading(this); +} + +//------------------------------------------------------------------------ +// GfxImageColorMap +//------------------------------------------------------------------------ + +GfxImageColorMap::GfxImageColorMap(int bitsA, Object *decode, + GfxColorSpace *colorSpaceA) { + GfxIndexedColorSpace *indexedCS; + GfxSeparationColorSpace *sepCS; + int maxPixel, indexHigh; + Guchar *lookup2; + Function *sepFunc; + Object obj; + double x[gfxColorMaxComps]; + double y[gfxColorMaxComps]; + int i, j, k; + + ok = gTrue; + + // bits per component and color space + bits = bitsA; + maxPixel = (1 << bits) - 1; + colorSpace = colorSpaceA; + + // initialize + for (k = 0; k < gfxColorMaxComps; ++k) { + lookup[k] = NULL; + } + + // get decode map + if (decode->isNull()) { + nComps = colorSpace->getNComps(); + colorSpace->getDefaultRanges(decodeLow, decodeRange, maxPixel); + } else if (decode->isArray()) { + nComps = decode->arrayGetLength() / 2; + if (nComps != colorSpace->getNComps()) { + goto err1; + } + for (i = 0; i < nComps; ++i) { + decode->arrayGet(2*i, &obj); + if (!obj.isNum()) { + goto err2; + } + decodeLow[i] = obj.getNum(); + obj.free(); + decode->arrayGet(2*i+1, &obj); + if (!obj.isNum()) { + goto err2; + } + decodeRange[i] = obj.getNum() - decodeLow[i]; + obj.free(); + } + } else { + goto err1; + } + + // Construct a lookup table -- this stores pre-computed decoded + // values for each component, i.e., the result of applying the + // decode mapping to each possible image pixel component value. + // + // Optimization: for Indexed and Separation color spaces (which have + // only one component), we store color values in the lookup table + // rather than component values. + colorSpace2 = NULL; + nComps2 = 0; + if (colorSpace->getMode() == csIndexed) { + // Note that indexHigh may not be the same as maxPixel -- + // Distiller will remove unused palette entries, resulting in + // indexHigh < maxPixel. + indexedCS = (GfxIndexedColorSpace *)colorSpace; + colorSpace2 = indexedCS->getBase(); + indexHigh = indexedCS->getIndexHigh(); + nComps2 = colorSpace2->getNComps(); + lookup2 = indexedCS->getLookup(); + colorSpace2->getDefaultRanges(x, y, indexHigh); + for (k = 0; k < nComps2; ++k) { + lookup[k] = (GfxColorComp *)gmallocn(maxPixel + 1, + sizeof(GfxColorComp)); + for (i = 0; i <= maxPixel; ++i) { + j = (int)(decodeLow[0] + (i * decodeRange[0]) / maxPixel + 0.5); + if (j < 0) { + j = 0; + } else if (j > indexHigh) { + j = indexHigh; + } + lookup[k][i] = + dblToCol(x[k] + (lookup2[j*nComps2 + k] / 255.0) * y[k]); + } + } + } else if (colorSpace->getMode() == csSeparation) { + sepCS = (GfxSeparationColorSpace *)colorSpace; + colorSpace2 = sepCS->getAlt(); + nComps2 = colorSpace2->getNComps(); + sepFunc = sepCS->getFunc(); + for (k = 0; k < nComps2; ++k) { + lookup[k] = (GfxColorComp *)gmallocn(maxPixel + 1, + sizeof(GfxColorComp)); + for (i = 0; i <= maxPixel; ++i) { + x[0] = decodeLow[0] + (i * decodeRange[0]) / maxPixel; + sepFunc->transform(x, y); + lookup[k][i] = dblToCol(y[k]); + } + } + } else { + for (k = 0; k < nComps; ++k) { + lookup[k] = (GfxColorComp *)gmallocn(maxPixel + 1, + sizeof(GfxColorComp)); + for (i = 0; i <= maxPixel; ++i) { + lookup[k][i] = dblToCol(decodeLow[k] + + (i * decodeRange[k]) / maxPixel); + } + } + } + + return; + + err2: + obj.free(); + err1: + ok = gFalse; +} + +GfxImageColorMap::GfxImageColorMap(GfxImageColorMap *colorMap) { + int n, i, k; + + colorSpace = colorMap->colorSpace->copy(); + bits = colorMap->bits; + nComps = colorMap->nComps; + nComps2 = colorMap->nComps2; + colorSpace2 = NULL; + for (k = 0; k < gfxColorMaxComps; ++k) { + lookup[k] = NULL; + } + n = 1 << bits; + if (colorSpace->getMode() == csIndexed) { + colorSpace2 = ((GfxIndexedColorSpace *)colorSpace)->getBase(); + for (k = 0; k < nComps2; ++k) { + lookup[k] = (GfxColorComp *)gmallocn(n, sizeof(GfxColorComp)); + memcpy(lookup[k], colorMap->lookup[k], n * sizeof(GfxColorComp)); + } + } else if (colorSpace->getMode() == csSeparation) { + colorSpace2 = ((GfxSeparationColorSpace *)colorSpace)->getAlt(); + for (k = 0; k < nComps2; ++k) { + lookup[k] = (GfxColorComp *)gmallocn(n, sizeof(GfxColorComp)); + memcpy(lookup[k], colorMap->lookup[k], n * sizeof(GfxColorComp)); + } + } else { + for (k = 0; k < nComps; ++k) { + lookup[k] = (GfxColorComp *)gmallocn(n, sizeof(GfxColorComp)); + memcpy(lookup[k], colorMap->lookup[k], n * sizeof(GfxColorComp)); + } + } + for (i = 0; i < nComps; ++i) { + decodeLow[i] = colorMap->decodeLow[i]; + decodeRange[i] = colorMap->decodeRange[i]; + } + ok = gTrue; +} + +GfxImageColorMap::~GfxImageColorMap() { + int i; + + delete colorSpace; + for (i = 0; i < gfxColorMaxComps; ++i) { + gfree(lookup[i]); + } +} + +void GfxImageColorMap::getGray(Guchar *x, GfxGray *gray) { + GfxColor color; + int i; + + if (colorSpace2) { + for (i = 0; i < nComps2; ++i) { + color.c[i] = lookup[i][x[0]]; + } + colorSpace2->getGray(&color, gray); + } else { + for (i = 0; i < nComps; ++i) { + color.c[i] = lookup[i][x[i]]; + } + colorSpace->getGray(&color, gray); + } +} + +void GfxImageColorMap::getRGB(Guchar *x, GfxRGB *rgb) { + GfxColor color; + int i; + + if (colorSpace2) { + for (i = 0; i < nComps2; ++i) { + color.c[i] = lookup[i][x[0]]; + } + colorSpace2->getRGB(&color, rgb); + } else { + for (i = 0; i < nComps; ++i) { + color.c[i] = lookup[i][x[i]]; + } + colorSpace->getRGB(&color, rgb); + } +} + +void GfxImageColorMap::getCMYK(Guchar *x, GfxCMYK *cmyk) { + GfxColor color; + int i; + + if (colorSpace2) { + for (i = 0; i < nComps2; ++i) { + color.c[i] = lookup[i][x[0]]; + } + colorSpace2->getCMYK(&color, cmyk); + } else { + for (i = 0; i < nComps; ++i) { + color.c[i] = lookup[i][x[i]]; + } + colorSpace->getCMYK(&color, cmyk); + } +} + +void GfxImageColorMap::getColor(Guchar *x, GfxColor *color) { + int maxPixel, i; + + maxPixel = (1 << bits) - 1; + for (i = 0; i < nComps; ++i) { + color->c[i] = dblToCol(decodeLow[i] + (x[i] * decodeRange[i]) / maxPixel); + } +} + +//------------------------------------------------------------------------ +// GfxSubpath and GfxPath +//------------------------------------------------------------------------ + +GfxSubpath::GfxSubpath(double x1, double y1) { + size = 16; + x = (double *)gmallocn(size, sizeof(double)); + y = (double *)gmallocn(size, sizeof(double)); + curve = (GBool *)gmallocn(size, sizeof(GBool)); + n = 1; + x[0] = x1; + y[0] = y1; + curve[0] = gFalse; + closed = gFalse; +} + +GfxSubpath::~GfxSubpath() { + gfree(x); + gfree(y); + gfree(curve); +} + +// Used for copy(). +GfxSubpath::GfxSubpath(GfxSubpath *subpath) { + size = subpath->size; + n = subpath->n; + x = (double *)gmallocn(size, sizeof(double)); + y = (double *)gmallocn(size, sizeof(double)); + curve = (GBool *)gmallocn(size, sizeof(GBool)); + memcpy(x, subpath->x, n * sizeof(double)); + memcpy(y, subpath->y, n * sizeof(double)); + memcpy(curve, subpath->curve, n * sizeof(GBool)); + closed = subpath->closed; +} + +void GfxSubpath::lineTo(double x1, double y1) { + if (n >= size) { + size += 16; + x = (double *)greallocn(x, size, sizeof(double)); + y = (double *)greallocn(y, size, sizeof(double)); + curve = (GBool *)greallocn(curve, size, sizeof(GBool)); + } + x[n] = x1; + y[n] = y1; + curve[n] = gFalse; + ++n; +} + +void GfxSubpath::curveTo(double x1, double y1, double x2, double y2, + double x3, double y3) { + if (n+3 > size) { + size += 16; + x = (double *)greallocn(x, size, sizeof(double)); + y = (double *)greallocn(y, size, sizeof(double)); + curve = (GBool *)greallocn(curve, size, sizeof(GBool)); + } + x[n] = x1; + y[n] = y1; + x[n+1] = x2; + y[n+1] = y2; + x[n+2] = x3; + y[n+2] = y3; + curve[n] = curve[n+1] = gTrue; + curve[n+2] = gFalse; + n += 3; +} + +void GfxSubpath::close() { + if (x[n-1] != x[0] || y[n-1] != y[0]) { + lineTo(x[0], y[0]); + } + closed = gTrue; +} + +void GfxSubpath::offset(double dx, double dy) { + int i; + + for (i = 0; i < n; ++i) { + x[i] += dx; + y[i] += dy; + } +} + +GfxPath::GfxPath() { + justMoved = gFalse; + size = 16; + n = 0; + firstX = firstY = 0; + subpaths = (GfxSubpath **)gmallocn(size, sizeof(GfxSubpath *)); +} + +GfxPath::~GfxPath() { + int i; + + for (i = 0; i < n; ++i) + delete subpaths[i]; + gfree(subpaths); +} + +// Used for copy(). +GfxPath::GfxPath(GBool justMoved1, double firstX1, double firstY1, + GfxSubpath **subpaths1, int n1, int size1) { + int i; + + justMoved = justMoved1; + firstX = firstX1; + firstY = firstY1; + size = size1; + n = n1; + subpaths = (GfxSubpath **)gmallocn(size, sizeof(GfxSubpath *)); + for (i = 0; i < n; ++i) + subpaths[i] = subpaths1[i]->copy(); +} + +void GfxPath::moveTo(double x, double y) { + justMoved = gTrue; + firstX = x; + firstY = y; +} + +void GfxPath::lineTo(double x, double y) { + if (justMoved) { + if (n >= size) { + size += 16; + subpaths = (GfxSubpath **) + greallocn(subpaths, size, sizeof(GfxSubpath *)); + } + subpaths[n] = new GfxSubpath(firstX, firstY); + ++n; + justMoved = gFalse; + } + subpaths[n-1]->lineTo(x, y); +} + +void GfxPath::curveTo(double x1, double y1, double x2, double y2, + double x3, double y3) { + if (justMoved) { + if (n >= size) { + size += 16; + subpaths = (GfxSubpath **) + greallocn(subpaths, size, sizeof(GfxSubpath *)); + } + subpaths[n] = new GfxSubpath(firstX, firstY); + ++n; + justMoved = gFalse; + } + subpaths[n-1]->curveTo(x1, y1, x2, y2, x3, y3); +} + +void GfxPath::close() { + // this is necessary to handle the pathological case of + // moveto/closepath/clip, which defines an empty clipping region + if (justMoved) { + if (n >= size) { + size += 16; + subpaths = (GfxSubpath **) + greallocn(subpaths, size, sizeof(GfxSubpath *)); + } + subpaths[n] = new GfxSubpath(firstX, firstY); + ++n; + justMoved = gFalse; + } + subpaths[n-1]->close(); +} + +void GfxPath::append(GfxPath *path) { + int i; + + if (n + path->n > size) { + size = n + path->n; + subpaths = (GfxSubpath **) + greallocn(subpaths, size, sizeof(GfxSubpath *)); + } + for (i = 0; i < path->n; ++i) { + subpaths[n++] = path->subpaths[i]->copy(); + } + justMoved = gFalse; +} + +void GfxPath::offset(double dx, double dy) { + int i; + + for (i = 0; i < n; ++i) { + subpaths[i]->offset(dx, dy); + } +} + +//------------------------------------------------------------------------ +// GfxState +//------------------------------------------------------------------------ + +GfxState::GfxState(double hDPIA, double vDPIA, PDFRectangle *pageBox, + int rotateA, GBool upsideDown) { + double kx, ky; + + hDPI = hDPIA; + vDPI = vDPIA; + rotate = rotateA; + px1 = pageBox->x1; + py1 = pageBox->y1; + px2 = pageBox->x2; + py2 = pageBox->y2; + kx = hDPI / 72.0; + ky = vDPI / 72.0; + if (rotate == 90) { + ctm[0] = 0; + ctm[1] = upsideDown ? ky : -ky; + ctm[2] = kx; + ctm[3] = 0; + ctm[4] = -kx * py1; + ctm[5] = ky * (upsideDown ? -px1 : px2); + pageWidth = kx * (py2 - py1); + pageHeight = ky * (px2 - px1); + } else if (rotate == 180) { + ctm[0] = -kx; + ctm[1] = 0; + ctm[2] = 0; + ctm[3] = upsideDown ? ky : -ky; + ctm[4] = kx * px2; + ctm[5] = ky * (upsideDown ? -py1 : py2); + pageWidth = kx * (px2 - px1); + pageHeight = ky * (py2 - py1); + } else if (rotate == 270) { + ctm[0] = 0; + ctm[1] = upsideDown ? -ky : ky; + ctm[2] = -kx; + ctm[3] = 0; + ctm[4] = kx * py2; + ctm[5] = ky * (upsideDown ? px2 : -px1); + pageWidth = kx * (py2 - py1); + pageHeight = ky * (px2 - px1); + } else { + ctm[0] = kx; + ctm[1] = 0; + ctm[2] = 0; + ctm[3] = upsideDown ? -ky : ky; + ctm[4] = -kx * px1; + ctm[5] = ky * (upsideDown ? py2 : -py1); + pageWidth = kx * (px2 - px1); + pageHeight = ky * (py2 - py1); + } + + fillColorSpace = new GfxDeviceGrayColorSpace(); + strokeColorSpace = new GfxDeviceGrayColorSpace(); + fillColor.c[0] = 0; + strokeColor.c[0] = 0; + fillPattern = NULL; + strokePattern = NULL; + blendMode = gfxBlendNormal; + fillOpacity = 1; + strokeOpacity = 1; + fillOverprint = gFalse; + strokeOverprint = gFalse; + transfer[0] = transfer[1] = transfer[2] = transfer[3] = NULL; + + lineWidth = 1; + lineDash = NULL; + lineDashLength = 0; + lineDashStart = 0; + flatness = 1; + lineJoin = 0; + lineCap = 0; + miterLimit = 10; + strokeAdjust = gFalse; + + font = NULL; + fontSize = 0; + textMat[0] = 1; textMat[1] = 0; + textMat[2] = 0; textMat[3] = 1; + textMat[4] = 0; textMat[5] = 0; + charSpace = 0; + wordSpace = 0; + horizScaling = 1; + leading = 0; + rise = 0; + render = 0; + + path = new GfxPath(); + curX = curY = 0; + lineX = lineY = 0; + + clipXMin = 0; + clipYMin = 0; + clipXMax = pageWidth; + clipYMax = pageHeight; + + saved = NULL; +} + +GfxState::~GfxState() { + int i; + + if (fillColorSpace) { + delete fillColorSpace; + } + if (strokeColorSpace) { + delete strokeColorSpace; + } + if (fillPattern) { + delete fillPattern; + } + if (strokePattern) { + delete strokePattern; + } + for (i = 0; i < 4; ++i) { + if (transfer[i]) { + delete transfer[i]; + } + } + gfree(lineDash); + if (path) { + // this gets set to NULL by restore() + delete path; + } + if (saved) { + delete saved; + } +} + +// Used for copy(); +GfxState::GfxState(GfxState *state) { + int i; + + memcpy(this, state, sizeof(GfxState)); + if (fillColorSpace) { + fillColorSpace = state->fillColorSpace->copy(); + } + if (strokeColorSpace) { + strokeColorSpace = state->strokeColorSpace->copy(); + } + if (fillPattern) { + fillPattern = state->fillPattern->copy(); + } + if (strokePattern) { + strokePattern = state->strokePattern->copy(); + } + for (i = 0; i < 4; ++i) { + if (transfer[i]) { + transfer[i] = state->transfer[i]->copy(); + } + } + if (lineDashLength > 0) { + lineDash = (double *)gmallocn(lineDashLength, sizeof(double)); + memcpy(lineDash, state->lineDash, lineDashLength * sizeof(double)); + } + saved = NULL; +} + +void GfxState::setPath(GfxPath *pathA) { + delete path; + path = pathA; +} + +void GfxState::getUserClipBBox(double *xMin, double *yMin, + double *xMax, double *yMax) { + double ictm[6]; + double xMin1, yMin1, xMax1, yMax1, det, tx, ty; + + // invert the CTM + det = 1 / (ctm[0] * ctm[3] - ctm[1] * ctm[2]); + ictm[0] = ctm[3] * det; + ictm[1] = -ctm[1] * det; + ictm[2] = -ctm[2] * det; + ictm[3] = ctm[0] * det; + ictm[4] = (ctm[2] * ctm[5] - ctm[3] * ctm[4]) * det; + ictm[5] = (ctm[1] * ctm[4] - ctm[0] * ctm[5]) * det; + + // transform all four corners of the clip bbox; find the min and max + // x and y values + xMin1 = xMax1 = clipXMin * ictm[0] + clipYMin * ictm[2] + ictm[4]; + yMin1 = yMax1 = clipXMin * ictm[1] + clipYMin * ictm[3] + ictm[5]; + tx = clipXMin * ictm[0] + clipYMax * ictm[2] + ictm[4]; + ty = clipXMin * ictm[1] + clipYMax * ictm[3] + ictm[5]; + if (tx < xMin1) { + xMin1 = tx; + } else if (tx > xMax1) { + xMax1 = tx; + } + if (ty < yMin1) { + yMin1 = ty; + } else if (ty > yMax1) { + yMax1 = ty; + } + tx = clipXMax * ictm[0] + clipYMin * ictm[2] + ictm[4]; + ty = clipXMax * ictm[1] + clipYMin * ictm[3] + ictm[5]; + if (tx < xMin1) { + xMin1 = tx; + } else if (tx > xMax1) { + xMax1 = tx; + } + if (ty < yMin1) { + yMin1 = ty; + } else if (ty > yMax1) { + yMax1 = ty; + } + tx = clipXMax * ictm[0] + clipYMax * ictm[2] + ictm[4]; + ty = clipXMax * ictm[1] + clipYMax * ictm[3] + ictm[5]; + if (tx < xMin1) { + xMin1 = tx; + } else if (tx > xMax1) { + xMax1 = tx; + } + if (ty < yMin1) { + yMin1 = ty; + } else if (ty > yMax1) { + yMax1 = ty; + } + + *xMin = xMin1; + *yMin = yMin1; + *xMax = xMax1; + *yMax = yMax1; +} + +double GfxState::transformWidth(double w) { + double x, y; + + x = ctm[0] + ctm[2]; + y = ctm[1] + ctm[3]; + return w * sqrt(0.5 * (x * x + y * y)); +} + +double GfxState::getTransformedFontSize() { + double x1, y1, x2, y2; + + x1 = textMat[2] * fontSize; + y1 = textMat[3] * fontSize; + x2 = ctm[0] * x1 + ctm[2] * y1; + y2 = ctm[1] * x1 + ctm[3] * y1; + return sqrt(x2 * x2 + y2 * y2); +} + +void GfxState::getFontTransMat(double *m11, double *m12, + double *m21, double *m22) { + *m11 = (textMat[0] * ctm[0] + textMat[1] * ctm[2]) * fontSize; + *m12 = (textMat[0] * ctm[1] + textMat[1] * ctm[3]) * fontSize; + *m21 = (textMat[2] * ctm[0] + textMat[3] * ctm[2]) * fontSize; + *m22 = (textMat[2] * ctm[1] + textMat[3] * ctm[3]) * fontSize; +} + +void GfxState::setCTM(double a, double b, double c, + double d, double e, double f) { + int i; + + ctm[0] = a; + ctm[1] = b; + ctm[2] = c; + ctm[3] = d; + ctm[4] = e; + ctm[5] = f; + + // avoid FP exceptions on badly messed up PDF files + for (i = 0; i < 6; ++i) { + if (ctm[i] > 1e10) { + ctm[i] = 1e10; + } else if (ctm[i] < -1e10) { + ctm[i] = -1e10; + } + } +} + +void GfxState::concatCTM(double a, double b, double c, + double d, double e, double f) { + double a1 = ctm[0]; + double b1 = ctm[1]; + double c1 = ctm[2]; + double d1 = ctm[3]; + int i; + + ctm[0] = a * a1 + b * c1; + ctm[1] = a * b1 + b * d1; + ctm[2] = c * a1 + d * c1; + ctm[3] = c * b1 + d * d1; + ctm[4] = e * a1 + f * c1 + ctm[4]; + ctm[5] = e * b1 + f * d1 + ctm[5]; + + // avoid FP exceptions on badly messed up PDF files + for (i = 0; i < 6; ++i) { + if (ctm[i] > 1e10) { + ctm[i] = 1e10; + } else if (ctm[i] < -1e10) { + ctm[i] = -1e10; + } + } +} + +void GfxState::shiftCTM(double tx, double ty) { + ctm[4] += tx; + ctm[5] += ty; + clipXMin += tx; + clipYMin += ty; + clipXMax += tx; + clipYMax += ty; +} + +void GfxState::setFillColorSpace(GfxColorSpace *colorSpace) { + if (fillColorSpace) { + delete fillColorSpace; + } + fillColorSpace = colorSpace; +} + +void GfxState::setStrokeColorSpace(GfxColorSpace *colorSpace) { + if (strokeColorSpace) { + delete strokeColorSpace; + } + strokeColorSpace = colorSpace; +} + +void GfxState::setFillPattern(GfxPattern *pattern) { + if (fillPattern) { + delete fillPattern; + } + fillPattern = pattern; +} + +void GfxState::setStrokePattern(GfxPattern *pattern) { + if (strokePattern) { + delete strokePattern; + } + strokePattern = pattern; +} + +void GfxState::setTransfer(Function **funcs) { + int i; + + for (i = 0; i < 4; ++i) { + if (transfer[i]) { + delete transfer[i]; + } + transfer[i] = funcs[i]; + } +} + +void GfxState::setLineDash(double *dash, int length, double start) { + if (lineDash) + gfree(lineDash); + lineDash = dash; + lineDashLength = length; + lineDashStart = start; +} + +void GfxState::clearPath() { + delete path; + path = new GfxPath(); +} + +void GfxState::clip() { + double xMin, yMin, xMax, yMax, x, y; + GfxSubpath *subpath; + int i, j; + + xMin = xMax = yMin = yMax = 0; // make gcc happy + for (i = 0; i < path->getNumSubpaths(); ++i) { + subpath = path->getSubpath(i); + for (j = 0; j < subpath->getNumPoints(); ++j) { + transform(subpath->getX(j), subpath->getY(j), &x, &y); + if (i == 0 && j == 0) { + xMin = xMax = x; + yMin = yMax = y; + } else { + if (x < xMin) { + xMin = x; + } else if (x > xMax) { + xMax = x; + } + if (y < yMin) { + yMin = y; + } else if (y > yMax) { + yMax = y; + } + } + } + } + if (xMin > clipXMin) { + clipXMin = xMin; + } + if (yMin > clipYMin) { + clipYMin = yMin; + } + if (xMax < clipXMax) { + clipXMax = xMax; + } + if (yMax < clipYMax) { + clipYMax = yMax; + } +} + +void GfxState::clipToStrokePath() { + double xMin, yMin, xMax, yMax, x, y, t0, t1; + GfxSubpath *subpath; + int i, j; + + xMin = xMax = yMin = yMax = 0; // make gcc happy + for (i = 0; i < path->getNumSubpaths(); ++i) { + subpath = path->getSubpath(i); + for (j = 0; j < subpath->getNumPoints(); ++j) { + transform(subpath->getX(j), subpath->getY(j), &x, &y); + if (i == 0 && j == 0) { + xMin = xMax = x; + yMin = yMax = y; + } else { + if (x < xMin) { + xMin = x; + } else if (x > xMax) { + xMax = x; + } + if (y < yMin) { + yMin = y; + } else if (y > yMax) { + yMax = y; + } + } + } + } + + // allow for the line width + //~ miter joins can extend farther than this + t0 = fabs(ctm[0]); + t1 = fabs(ctm[2]); + if (t0 > t1) { + xMin -= 0.5 * lineWidth * t0; + xMax += 0.5 * lineWidth * t0; + } else { + xMin -= 0.5 * lineWidth * t1; + xMax += 0.5 * lineWidth * t1; + } + t0 = fabs(ctm[0]); + t1 = fabs(ctm[3]); + if (t0 > t1) { + yMin -= 0.5 * lineWidth * t0; + yMax += 0.5 * lineWidth * t0; + } else { + yMin -= 0.5 * lineWidth * t1; + yMax += 0.5 * lineWidth * t1; + } + + if (xMin > clipXMin) { + clipXMin = xMin; + } + if (yMin > clipYMin) { + clipYMin = yMin; + } + if (xMax < clipXMax) { + clipXMax = xMax; + } + if (yMax < clipYMax) { + clipYMax = yMax; + } +} + +void GfxState::textShift(double tx, double ty) { + double dx, dy; + + textTransformDelta(tx, ty, &dx, &dy); + curX += dx; + curY += dy; +} + +void GfxState::shift(double dx, double dy) { + curX += dx; + curY += dy; +} + +GfxState *GfxState::save() { + GfxState *newState; + + newState = copy(); + newState->saved = this; + return newState; +} + +GfxState *GfxState::restore() { + GfxState *oldState; + + if (saved) { + oldState = saved; + + // these attributes aren't saved/restored by the q/Q operators + oldState->path = path; + oldState->curX = curX; + oldState->curY = curY; + oldState->lineX = lineX; + oldState->lineY = lineY; + + path = NULL; + saved = NULL; + delete this; + + } else { + oldState = this; + } + + return oldState; +} + +GBool GfxState::parseBlendMode(Object *obj, GfxBlendMode *mode) { + Object obj2; + int i, j; + + if (obj->isName()) { + for (i = 0; i < nGfxBlendModeNames; ++i) { + if (!strcmp(obj->getName(), gfxBlendModeNames[i].name)) { + *mode = gfxBlendModeNames[i].mode; + return gTrue; + } + } + return gFalse; + } else if (obj->isArray()) { + for (i = 0; i < obj->arrayGetLength(); ++i) { + obj->arrayGet(i, &obj2); + if (!obj2.isName()) { + obj2.free(); + return gFalse; + } + for (j = 0; j < nGfxBlendModeNames; ++j) { + if (!strcmp(obj2.getName(), gfxBlendModeNames[j].name)) { + obj2.free(); + *mode = gfxBlendModeNames[j].mode; + return gTrue; + } + } + obj2.free(); + } + *mode = gfxBlendNormal; + return gTrue; + } else { + return gFalse; + } +} diff --git a/kpdf/xpdf/xpdf/GfxState.h b/kpdf/xpdf/xpdf/GfxState.h new file mode 100644 index 00000000..f85643dc --- /dev/null +++ b/kpdf/xpdf/xpdf/GfxState.h @@ -0,0 +1,1244 @@ +//======================================================================== +// +// GfxState.h +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef GFXSTATE_H +#define GFXSTATE_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" +#include "Object.h" +#include "Function.h" + +class Array; +class GfxFont; +class PDFRectangle; +class GfxShading; + +//------------------------------------------------------------------------ +// GfxBlendMode +//------------------------------------------------------------------------ + +enum GfxBlendMode { + gfxBlendNormal, + gfxBlendMultiply, + gfxBlendScreen, + gfxBlendOverlay, + gfxBlendDarken, + gfxBlendLighten, + gfxBlendColorDodge, + gfxBlendColorBurn, + gfxBlendHardLight, + gfxBlendSoftLight, + gfxBlendDifference, + gfxBlendExclusion, + gfxBlendHue, + gfxBlendSaturation, + gfxBlendColor, + gfxBlendLuminosity +}; + +//------------------------------------------------------------------------ +// GfxColorComp +//------------------------------------------------------------------------ + +// 16.16 fixed point color component +typedef int GfxColorComp; + +#define gfxColorComp1 0x10000 + +static inline GfxColorComp dblToCol(double x) { + return (GfxColorComp)(x * gfxColorComp1); +} + +static inline double colToDbl(GfxColorComp x) { + return (double)x / (double)gfxColorComp1; +} + +static inline GfxColorComp byteToCol(Guchar x) { + // (x / 255) << 16 = (0.0000000100000001... * x) << 16 + // = ((x << 8) + (x) + (x >> 8) + ...) << 16 + // = (x << 8) + (x) + (x >> 7) + // [for rounding] + return (GfxColorComp)((x << 8) + x + (x >> 7)); +} + +static inline Guchar colToByte(GfxColorComp x) { + // 255 * x + 0.5 = 256 * x - x + 0x8000 + return (Guchar)(((x << 8) - x + 0x8000) >> 16); +} + +//------------------------------------------------------------------------ +// GfxColor +//------------------------------------------------------------------------ + +#define gfxColorMaxComps funcMaxOutputs + +struct GfxColor { + GfxColorComp c[gfxColorMaxComps]; +}; + +//------------------------------------------------------------------------ +// GfxGray +//------------------------------------------------------------------------ + +typedef GfxColorComp GfxGray; + +//------------------------------------------------------------------------ +// GfxRGB +//------------------------------------------------------------------------ + +struct GfxRGB { + GfxColorComp r, g, b; +}; + +//------------------------------------------------------------------------ +// GfxCMYK +//------------------------------------------------------------------------ + +struct GfxCMYK { + GfxColorComp c, m, y, k; +}; + +//------------------------------------------------------------------------ +// GfxColorSpace +//------------------------------------------------------------------------ + +// NB: The nGfxColorSpaceModes constant and the gfxColorSpaceModeNames +// array defined in GfxState.cc must match this enum. +enum GfxColorSpaceMode { + csDeviceGray, + csCalGray, + csDeviceRGB, + csCalRGB, + csDeviceCMYK, + csLab, + csICCBased, + csIndexed, + csSeparation, + csDeviceN, + csPattern +}; + +class GfxColorSpace { +public: + + GfxColorSpace(); + virtual ~GfxColorSpace(); + virtual GfxColorSpace *copy() = 0; + virtual GfxColorSpaceMode getMode() = 0; + + // Construct a color space. Returns NULL if unsuccessful. + static GfxColorSpace *parse(Object *csObj); + + // Convert to gray, RGB, or CMYK. + virtual void getGray(GfxColor *color, GfxGray *gray) = 0; + virtual void getRGB(GfxColor *color, GfxRGB *rgb) = 0; + virtual void getCMYK(GfxColor *color, GfxCMYK *cmyk) = 0; + + // Return the number of color components. + virtual int getNComps() = 0; + + // Get this color space's default color. + virtual void getDefaultColor(GfxColor *color) = 0; + + // Return the default ranges for each component, assuming an image + // with a max pixel value of . + virtual void getDefaultRanges(double *decodeLow, double *decodeRange, + int maxImgPixel); + + // Returns true if painting operations in this color space never + // mark the page (e.g., the "None" colorant). + virtual GBool isNonMarking() { return gFalse; } + + // Return the number of color space modes + static int getNumColorSpaceModes(); + + // Return the name of the th color space mode. + static char *getColorSpaceModeName(int idx); + +private: +}; + +//------------------------------------------------------------------------ +// GfxDeviceGrayColorSpace +//------------------------------------------------------------------------ + +class GfxDeviceGrayColorSpace: public GfxColorSpace { +public: + + GfxDeviceGrayColorSpace(); + virtual ~GfxDeviceGrayColorSpace(); + virtual GfxColorSpace *copy(); + virtual GfxColorSpaceMode getMode() { return csDeviceGray; } + + virtual void getGray(GfxColor *color, GfxGray *gray); + virtual void getRGB(GfxColor *color, GfxRGB *rgb); + virtual void getCMYK(GfxColor *color, GfxCMYK *cmyk); + + virtual int getNComps() { return 1; } + virtual void getDefaultColor(GfxColor *color); + +private: +}; + +//------------------------------------------------------------------------ +// GfxCalGrayColorSpace +//------------------------------------------------------------------------ + +class GfxCalGrayColorSpace: public GfxColorSpace { +public: + + GfxCalGrayColorSpace(); + virtual ~GfxCalGrayColorSpace(); + virtual GfxColorSpace *copy(); + virtual GfxColorSpaceMode getMode() { return csCalGray; } + + // Construct a CalGray color space. Returns NULL if unsuccessful. + static GfxColorSpace *parse(Array *arr); + + virtual void getGray(GfxColor *color, GfxGray *gray); + virtual void getRGB(GfxColor *color, GfxRGB *rgb); + virtual void getCMYK(GfxColor *color, GfxCMYK *cmyk); + + virtual int getNComps() { return 1; } + virtual void getDefaultColor(GfxColor *color); + + // CalGray-specific access. + double getWhiteX() { return whiteX; } + double getWhiteY() { return whiteY; } + double getWhiteZ() { return whiteZ; } + double getBlackX() { return blackX; } + double getBlackY() { return blackY; } + double getBlackZ() { return blackZ; } + double getGamma() { return gamma; } + +private: + + double whiteX, whiteY, whiteZ; // white point + double blackX, blackY, blackZ; // black point + double gamma; // gamma value +}; + +//------------------------------------------------------------------------ +// GfxDeviceRGBColorSpace +//------------------------------------------------------------------------ + +class GfxDeviceRGBColorSpace: public GfxColorSpace { +public: + + GfxDeviceRGBColorSpace(); + virtual ~GfxDeviceRGBColorSpace(); + virtual GfxColorSpace *copy(); + virtual GfxColorSpaceMode getMode() { return csDeviceRGB; } + + virtual void getGray(GfxColor *color, GfxGray *gray); + virtual void getRGB(GfxColor *color, GfxRGB *rgb); + virtual void getCMYK(GfxColor *color, GfxCMYK *cmyk); + + virtual int getNComps() { return 3; } + virtual void getDefaultColor(GfxColor *color); + +private: +}; + +//------------------------------------------------------------------------ +// GfxCalRGBColorSpace +//------------------------------------------------------------------------ + +class GfxCalRGBColorSpace: public GfxColorSpace { +public: + + GfxCalRGBColorSpace(); + virtual ~GfxCalRGBColorSpace(); + virtual GfxColorSpace *copy(); + virtual GfxColorSpaceMode getMode() { return csCalRGB; } + + // Construct a CalRGB color space. Returns NULL if unsuccessful. + static GfxColorSpace *parse(Array *arr); + + virtual void getGray(GfxColor *color, GfxGray *gray); + virtual void getRGB(GfxColor *color, GfxRGB *rgb); + virtual void getCMYK(GfxColor *color, GfxCMYK *cmyk); + + virtual int getNComps() { return 3; } + virtual void getDefaultColor(GfxColor *color); + + // CalRGB-specific access. + double getWhiteX() { return whiteX; } + double getWhiteY() { return whiteY; } + double getWhiteZ() { return whiteZ; } + double getBlackX() { return blackX; } + double getBlackY() { return blackY; } + double getBlackZ() { return blackZ; } + double getGammaR() { return gammaR; } + double getGammaG() { return gammaG; } + double getGammaB() { return gammaB; } + double *getMatrix() { return mat; } + +private: + + double whiteX, whiteY, whiteZ; // white point + double blackX, blackY, blackZ; // black point + double gammaR, gammaG, gammaB; // gamma values + double mat[9]; // ABC -> XYZ transform matrix +}; + +//------------------------------------------------------------------------ +// GfxDeviceCMYKColorSpace +//------------------------------------------------------------------------ + +class GfxDeviceCMYKColorSpace: public GfxColorSpace { +public: + + GfxDeviceCMYKColorSpace(); + virtual ~GfxDeviceCMYKColorSpace(); + virtual GfxColorSpace *copy(); + virtual GfxColorSpaceMode getMode() { return csDeviceCMYK; } + + virtual void getGray(GfxColor *color, GfxGray *gray); + virtual void getRGB(GfxColor *color, GfxRGB *rgb); + virtual void getCMYK(GfxColor *color, GfxCMYK *cmyk); + + virtual int getNComps() { return 4; } + virtual void getDefaultColor(GfxColor *color); + +private: +}; + +//------------------------------------------------------------------------ +// GfxLabColorSpace +//------------------------------------------------------------------------ + +class GfxLabColorSpace: public GfxColorSpace { +public: + + GfxLabColorSpace(); + virtual ~GfxLabColorSpace(); + virtual GfxColorSpace *copy(); + virtual GfxColorSpaceMode getMode() { return csLab; } + + // Construct a Lab color space. Returns NULL if unsuccessful. + static GfxColorSpace *parse(Array *arr); + + virtual void getGray(GfxColor *color, GfxGray *gray); + virtual void getRGB(GfxColor *color, GfxRGB *rgb); + virtual void getCMYK(GfxColor *color, GfxCMYK *cmyk); + + virtual int getNComps() { return 3; } + virtual void getDefaultColor(GfxColor *color); + + virtual void getDefaultRanges(double *decodeLow, double *decodeRange, + int maxImgPixel); + + // Lab-specific access. + double getWhiteX() { return whiteX; } + double getWhiteY() { return whiteY; } + double getWhiteZ() { return whiteZ; } + double getBlackX() { return blackX; } + double getBlackY() { return blackY; } + double getBlackZ() { return blackZ; } + double getAMin() { return aMin; } + double getAMax() { return aMax; } + double getBMin() { return bMin; } + double getBMax() { return bMax; } + +private: + + double whiteX, whiteY, whiteZ; // white point + double blackX, blackY, blackZ; // black point + double aMin, aMax, bMin, bMax; // range for the a and b components + double kr, kg, kb; // gamut mapping mulitpliers +}; + +//------------------------------------------------------------------------ +// GfxICCBasedColorSpace +//------------------------------------------------------------------------ + +class GfxICCBasedColorSpace: public GfxColorSpace { +public: + + GfxICCBasedColorSpace(int nCompsA, GfxColorSpace *altA, + Ref *iccProfileStreamA); + virtual ~GfxICCBasedColorSpace(); + virtual GfxColorSpace *copy(); + virtual GfxColorSpaceMode getMode() { return csICCBased; } + + // Construct an ICCBased color space. Returns NULL if unsuccessful. + static GfxColorSpace *parse(Array *arr); + + virtual void getGray(GfxColor *color, GfxGray *gray); + virtual void getRGB(GfxColor *color, GfxRGB *rgb); + virtual void getCMYK(GfxColor *color, GfxCMYK *cmyk); + + virtual int getNComps() { return nComps; } + virtual void getDefaultColor(GfxColor *color); + + virtual void getDefaultRanges(double *decodeLow, double *decodeRange, + int maxImgPixel); + + // ICCBased-specific access. + GfxColorSpace *getAlt() { return alt; } + +private: + + int nComps; // number of color components (1, 3, or 4) + GfxColorSpace *alt; // alternate color space + double rangeMin[4]; // min values for each component + double rangeMax[4]; // max values for each component + Ref iccProfileStream; // the ICC profile +}; + +//------------------------------------------------------------------------ +// GfxIndexedColorSpace +//------------------------------------------------------------------------ + +class GfxIndexedColorSpace: public GfxColorSpace { +public: + + GfxIndexedColorSpace(GfxColorSpace *baseA, int indexHighA); + virtual ~GfxIndexedColorSpace(); + virtual GfxColorSpace *copy(); + virtual GfxColorSpaceMode getMode() { return csIndexed; } + + // Construct a Lab color space. Returns NULL if unsuccessful. + static GfxColorSpace *parse(Array *arr); + + virtual void getGray(GfxColor *color, GfxGray *gray); + virtual void getRGB(GfxColor *color, GfxRGB *rgb); + virtual void getCMYK(GfxColor *color, GfxCMYK *cmyk); + + virtual int getNComps() { return 1; } + virtual void getDefaultColor(GfxColor *color); + + virtual void getDefaultRanges(double *decodeLow, double *decodeRange, + int maxImgPixel); + + // Indexed-specific access. + GfxColorSpace *getBase() { return base; } + int getIndexHigh() { return indexHigh; } + Guchar *getLookup() { return lookup; } + GfxColor *mapColorToBase(GfxColor *color, GfxColor *baseColor); + +private: + + GfxColorSpace *base; // base color space + int indexHigh; // max pixel value + Guchar *lookup; // lookup table +}; + +//------------------------------------------------------------------------ +// GfxSeparationColorSpace +//------------------------------------------------------------------------ + +class GfxSeparationColorSpace: public GfxColorSpace { +public: + + GfxSeparationColorSpace(GString *nameA, GfxColorSpace *altA, + Function *funcA); + virtual ~GfxSeparationColorSpace(); + virtual GfxColorSpace *copy(); + virtual GfxColorSpaceMode getMode() { return csSeparation; } + + // Construct a Separation color space. Returns NULL if unsuccessful. + static GfxColorSpace *parse(Array *arr); + + virtual void getGray(GfxColor *color, GfxGray *gray); + virtual void getRGB(GfxColor *color, GfxRGB *rgb); + virtual void getCMYK(GfxColor *color, GfxCMYK *cmyk); + + virtual int getNComps() { return 1; } + virtual void getDefaultColor(GfxColor *color); + + virtual GBool isNonMarking() { return nonMarking; } + + // Separation-specific access. + GString *getName() { return name; } + GfxColorSpace *getAlt() { return alt; } + Function *getFunc() { return func; } + +private: + + GString *name; // colorant name + GfxColorSpace *alt; // alternate color space + Function *func; // tint transform (into alternate color space) + GBool nonMarking; +}; + +//------------------------------------------------------------------------ +// GfxDeviceNColorSpace +//------------------------------------------------------------------------ + +class GfxDeviceNColorSpace: public GfxColorSpace { +public: + + GfxDeviceNColorSpace(int nCompsA, GfxColorSpace *alt, Function *func); + virtual ~GfxDeviceNColorSpace(); + virtual GfxColorSpace *copy(); + virtual GfxColorSpaceMode getMode() { return csDeviceN; } + + // Construct a DeviceN color space. Returns NULL if unsuccessful. + static GfxColorSpace *parse(Array *arr); + + virtual void getGray(GfxColor *color, GfxGray *gray); + virtual void getRGB(GfxColor *color, GfxRGB *rgb); + virtual void getCMYK(GfxColor *color, GfxCMYK *cmyk); + + virtual int getNComps() { return nComps; } + virtual void getDefaultColor(GfxColor *color); + + virtual GBool isNonMarking() { return nonMarking; } + + // DeviceN-specific access. + GString *getColorantName(int i) { return names[i]; } + GfxColorSpace *getAlt() { return alt; } + Function *getTintTransformFunc() { return func; } + +private: + + int nComps; // number of components + GString // colorant names + *names[gfxColorMaxComps]; + GfxColorSpace *alt; // alternate color space + Function *func; // tint transform (into alternate color space) + GBool nonMarking; +}; + +//------------------------------------------------------------------------ +// GfxPatternColorSpace +//------------------------------------------------------------------------ + +class GfxPatternColorSpace: public GfxColorSpace { +public: + + GfxPatternColorSpace(GfxColorSpace *underA); + virtual ~GfxPatternColorSpace(); + virtual GfxColorSpace *copy(); + virtual GfxColorSpaceMode getMode() { return csPattern; } + + // Construct a Pattern color space. Returns NULL if unsuccessful. + static GfxColorSpace *parse(Array *arr); + + virtual void getGray(GfxColor *color, GfxGray *gray); + virtual void getRGB(GfxColor *color, GfxRGB *rgb); + virtual void getCMYK(GfxColor *color, GfxCMYK *cmyk); + + virtual int getNComps() { return 0; } + virtual void getDefaultColor(GfxColor *color); + + // Pattern-specific access. + GfxColorSpace *getUnder() { return under; } + +private: + + GfxColorSpace *under; // underlying color space (for uncolored + // patterns) +}; + +//------------------------------------------------------------------------ +// GfxPattern +//------------------------------------------------------------------------ + +class GfxPattern { +public: + + GfxPattern(int typeA); + virtual ~GfxPattern(); + + static GfxPattern *parse(Object *obj); + + virtual GfxPattern *copy() = 0; + + int getType() { return type; } + +private: + + int type; +}; + +//------------------------------------------------------------------------ +// GfxTilingPattern +//------------------------------------------------------------------------ + +class GfxTilingPattern: public GfxPattern { +public: + + static GfxTilingPattern *parse(Object *patObj); + virtual ~GfxTilingPattern(); + + virtual GfxPattern *copy(); + + int getPaintType() { return paintType; } + int getTilingType() { return tilingType; } + double *getBBox() { return bbox; } + double getXStep() { return xStep; } + double getYStep() { return yStep; } + Dict *getResDict() + { return resDict.isDict() ? resDict.getDict() : (Dict *)NULL; } + double *getMatrix() { return matrix; } + Object *getContentStream() { return &contentStream; } + +private: + + GfxTilingPattern(int paintTypeA, int tilingTypeA, + double *bboxA, double xStepA, double yStepA, + Object *resDictA, double *matrixA, + Object *contentStreamA); + + int paintType; + int tilingType; + double bbox[4]; + double xStep, yStep; + Object resDict; + double matrix[6]; + Object contentStream; +}; + +//------------------------------------------------------------------------ +// GfxShadingPattern +//------------------------------------------------------------------------ + +class GfxShadingPattern: public GfxPattern { +public: + + static GfxShadingPattern *parse(Object *patObj); + virtual ~GfxShadingPattern(); + + virtual GfxPattern *copy(); + + GfxShading *getShading() { return shading; } + double *getMatrix() { return matrix; } + +private: + + GfxShadingPattern(GfxShading *shadingA, double *matrixA); + + GfxShading *shading; + double matrix[6]; +}; + +//------------------------------------------------------------------------ +// GfxShading +//------------------------------------------------------------------------ + +class GfxShading { +public: + + GfxShading(int typeA); + GfxShading(GfxShading *shading); + virtual ~GfxShading(); + + static GfxShading *parse(Object *obj); + + virtual GfxShading *copy() = 0; + + int getType() { return type; } + GfxColorSpace *getColorSpace() { return colorSpace; } + GfxColor *getBackground() { return &background; } + GBool getHasBackground() { return hasBackground; } + void getBBox(double *xMinA, double *yMinA, double *xMaxA, double *yMaxA) + { *xMinA = xMin; *yMinA = yMin; *xMaxA = xMax; *yMaxA = yMax; } + GBool getHasBBox() { return hasBBox; } + +protected: + + GBool init(Dict *dict); + + int type; + GfxColorSpace *colorSpace; + GfxColor background; + GBool hasBackground; + double xMin, yMin, xMax, yMax; + GBool hasBBox; +}; + +//------------------------------------------------------------------------ +// GfxFunctionShading +//------------------------------------------------------------------------ + +class GfxFunctionShading: public GfxShading { +public: + + GfxFunctionShading(double x0A, double y0A, + double x1A, double y1A, + double *matrixA, + Function **funcsA, int nFuncsA); + GfxFunctionShading(GfxFunctionShading *shading); + virtual ~GfxFunctionShading(); + + static GfxFunctionShading *parse(Dict *dict); + + virtual GfxShading *copy(); + + void getDomain(double *x0A, double *y0A, double *x1A, double *y1A) + { *x0A = x0; *y0A = y0; *x1A = x1; *y1A = y1; } + double *getMatrix() { return matrix; } + int getNFuncs() { return nFuncs; } + Function *getFunc(int i) { return funcs[i]; } + void getColor(double x, double y, GfxColor *color); + +private: + + double x0, y0, x1, y1; + double matrix[6]; + Function *funcs[gfxColorMaxComps]; + int nFuncs; +}; + +//------------------------------------------------------------------------ +// GfxAxialShading +//------------------------------------------------------------------------ + +class GfxAxialShading: public GfxShading { +public: + + GfxAxialShading(double x0A, double y0A, + double x1A, double y1A, + double t0A, double t1A, + Function **funcsA, int nFuncsA, + GBool extend0A, GBool extend1A); + GfxAxialShading(GfxAxialShading *shading); + virtual ~GfxAxialShading(); + + static GfxAxialShading *parse(Dict *dict); + + virtual GfxShading *copy(); + + void getCoords(double *x0A, double *y0A, double *x1A, double *y1A) + { *x0A = x0; *y0A = y0; *x1A = x1; *y1A = y1; } + double getDomain0() { return t0; } + double getDomain1() { return t1; } + GBool getExtend0() { return extend0; } + GBool getExtend1() { return extend1; } + int getNFuncs() { return nFuncs; } + Function *getFunc(int i) { return funcs[i]; } + void getColor(double t, GfxColor *color); + +private: + + double x0, y0, x1, y1; + double t0, t1; + Function *funcs[gfxColorMaxComps]; + int nFuncs; + GBool extend0, extend1; +}; + +//------------------------------------------------------------------------ +// GfxRadialShading +//------------------------------------------------------------------------ + +class GfxRadialShading: public GfxShading { +public: + + GfxRadialShading(double x0A, double y0A, double r0A, + double x1A, double y1A, double r1A, + double t0A, double t1A, + Function **funcsA, int nFuncsA, + GBool extend0A, GBool extend1A); + GfxRadialShading(GfxRadialShading *shading); + virtual ~GfxRadialShading(); + + static GfxRadialShading *parse(Dict *dict); + + virtual GfxShading *copy(); + + void getCoords(double *x0A, double *y0A, double *r0A, + double *x1A, double *y1A, double *r1A) + { *x0A = x0; *y0A = y0; *r0A = r0; *x1A = x1; *y1A = y1; *r1A = r1; } + double getDomain0() { return t0; } + double getDomain1() { return t1; } + GBool getExtend0() { return extend0; } + GBool getExtend1() { return extend1; } + int getNFuncs() { return nFuncs; } + Function *getFunc(int i) { return funcs[i]; } + void getColor(double t, GfxColor *color); + +private: + + double x0, y0, r0, x1, y1, r1; + double t0, t1; + Function *funcs[gfxColorMaxComps]; + int nFuncs; + GBool extend0, extend1; +}; + +//------------------------------------------------------------------------ +// GfxGouraudTriangleShading +//------------------------------------------------------------------------ + +struct GfxGouraudVertex { + double x, y; + GfxColor color; +}; + +class GfxGouraudTriangleShading: public GfxShading { +public: + + GfxGouraudTriangleShading(int typeA, + GfxGouraudVertex *verticesA, int nVerticesA, + int (*trianglesA)[3], int nTrianglesA, + Function **funcsA, int nFuncsA); + GfxGouraudTriangleShading(GfxGouraudTriangleShading *shading); + virtual ~GfxGouraudTriangleShading(); + + static GfxGouraudTriangleShading *parse(int typeA, Dict *dict, Stream *str); + + virtual GfxShading *copy(); + + int getNTriangles() { return nTriangles; } + void getTriangle(int i, double *x0, double *y0, GfxColor *color0, + double *x1, double *y1, GfxColor *color1, + double *x2, double *y2, GfxColor *color2); + +private: + + GfxGouraudVertex *vertices; + int nVertices; + int (*triangles)[3]; + int nTriangles; + Function *funcs[gfxColorMaxComps]; + int nFuncs; +}; + +//------------------------------------------------------------------------ +// GfxPatchMeshShading +//------------------------------------------------------------------------ + +struct GfxPatch { + double x[4][4]; + double y[4][4]; + GfxColor color[2][2]; +}; + +class GfxPatchMeshShading: public GfxShading { +public: + + GfxPatchMeshShading(int typeA, GfxPatch *patchesA, int nPatchesA, + Function **funcsA, int nFuncsA); + GfxPatchMeshShading(GfxPatchMeshShading *shading); + virtual ~GfxPatchMeshShading(); + + static GfxPatchMeshShading *parse(int typeA, Dict *dict, Stream *str); + + virtual GfxShading *copy(); + + int getNPatches() { return nPatches; } + GfxPatch *getPatch(int i) { return &patches[i]; } + +private: + + GfxPatch *patches; + int nPatches; + Function *funcs[gfxColorMaxComps]; + int nFuncs; +}; + +//------------------------------------------------------------------------ +// GfxImageColorMap +//------------------------------------------------------------------------ + +class GfxImageColorMap { +public: + + // Constructor. + GfxImageColorMap(int bitsA, Object *decode, GfxColorSpace *colorSpaceA); + + // Destructor. + ~GfxImageColorMap(); + + // Return a copy of this color map. + GfxImageColorMap *copy() { return new GfxImageColorMap(this); } + + // Is color map valid? + GBool isOk() { return ok; } + + // Get the color space. + GfxColorSpace *getColorSpace() { return colorSpace; } + + // Get stream decoding info. + int getNumPixelComps() { return nComps; } + int getBits() { return bits; } + + // Get decode table. + double getDecodeLow(int i) { return decodeLow[i]; } + double getDecodeHigh(int i) { return decodeLow[i] + decodeRange[i]; } + + // Convert an image pixel to a color. + void getGray(Guchar *x, GfxGray *gray); + void getRGB(Guchar *x, GfxRGB *rgb); + void getCMYK(Guchar *x, GfxCMYK *cmyk); + void getColor(Guchar *x, GfxColor *color); + +private: + + GfxImageColorMap(GfxImageColorMap *colorMap); + + GfxColorSpace *colorSpace; // the image color space + int bits; // bits per component + int nComps; // number of components in a pixel + GfxColorSpace *colorSpace2; // secondary color space + int nComps2; // number of components in colorSpace2 + GfxColorComp * // lookup table + lookup[gfxColorMaxComps]; + double // minimum values for each component + decodeLow[gfxColorMaxComps]; + double // max - min value for each component + decodeRange[gfxColorMaxComps]; + GBool ok; +}; + +//------------------------------------------------------------------------ +// GfxSubpath and GfxPath +//------------------------------------------------------------------------ + +class GfxSubpath { +public: + + // Constructor. + GfxSubpath(double x1, double y1); + + // Destructor. + ~GfxSubpath(); + + // Copy. + GfxSubpath *copy() { return new GfxSubpath(this); } + + // Get points. + int getNumPoints() { return n; } + double getX(int i) { return x[i]; } + double getY(int i) { return y[i]; } + GBool getCurve(int i) { return curve[i]; } + + // Get last point. + double getLastX() { return x[n-1]; } + double getLastY() { return y[n-1]; } + + // Add a line segment. + void lineTo(double x1, double y1); + + // Add a Bezier curve. + void curveTo(double x1, double y1, double x2, double y2, + double x3, double y3); + + // Close the subpath. + void close(); + GBool isClosed() { return closed; } + + // Add (, ) to each point in the subpath. + void offset(double dx, double dy); + +private: + + double *x, *y; // points + GBool *curve; // curve[i] => point i is a control point + // for a Bezier curve + int n; // number of points + int size; // size of x/y arrays + GBool closed; // set if path is closed + + GfxSubpath(GfxSubpath *subpath); +}; + +class GfxPath { +public: + + // Constructor. + GfxPath(); + + // Destructor. + ~GfxPath(); + + // Copy. + GfxPath *copy() + { return new GfxPath(justMoved, firstX, firstY, subpaths, n, size); } + + // Is there a current point? + GBool isCurPt() { return n > 0 || justMoved; } + + // Is the path non-empty, i.e., is there at least one segment? + GBool isPath() { return n > 0; } + + // Get subpaths. + int getNumSubpaths() { return n; } + GfxSubpath *getSubpath(int i) { return subpaths[i]; } + + // Get last point on last subpath. + double getLastX() { return subpaths[n-1]->getLastX(); } + double getLastY() { return subpaths[n-1]->getLastY(); } + + // Move the current point. + void moveTo(double x, double y); + + // Add a segment to the last subpath. + void lineTo(double x, double y); + + // Add a Bezier curve to the last subpath + void curveTo(double x1, double y1, double x2, double y2, + double x3, double y3); + + // Close the last subpath. + void close(); + + // Append to . + void append(GfxPath *path); + + // Add (, ) to each point in the path. + void offset(double dx, double dy); + +private: + + GBool justMoved; // set if a new subpath was just started + double firstX, firstY; // first point in new subpath + GfxSubpath **subpaths; // subpaths + int n; // number of subpaths + int size; // size of subpaths array + + GfxPath(GBool justMoved1, double firstX1, double firstY1, + GfxSubpath **subpaths1, int n1, int size1); +}; + +//------------------------------------------------------------------------ +// GfxState +//------------------------------------------------------------------------ + +class GfxState { +public: + + // Construct a default GfxState, for a device with resolution + // x , page box , page rotation , and + // coordinate system specified by . + GfxState(double hDPIA, double vDPIA, PDFRectangle *pageBox, + int rotateA, GBool upsideDown); + + // Destructor. + ~GfxState(); + + // Copy. + GfxState *copy() { return new GfxState(this); } + + // Accessors. + double getHDPI() { return hDPI; } + double getVDPI() { return vDPI; } + double *getCTM() { return ctm; } + double getX1() { return px1; } + double getY1() { return py1; } + double getX2() { return px2; } + double getY2() { return py2; } + double getPageWidth() { return pageWidth; } + double getPageHeight() { return pageHeight; } + int getRotate() { return rotate; } + GfxColor *getFillColor() { return &fillColor; } + GfxColor *getStrokeColor() { return &strokeColor; } + void getFillGray(GfxGray *gray) + { fillColorSpace->getGray(&fillColor, gray); } + void getStrokeGray(GfxGray *gray) + { strokeColorSpace->getGray(&strokeColor, gray); } + void getFillRGB(GfxRGB *rgb) + { fillColorSpace->getRGB(&fillColor, rgb); } + void getStrokeRGB(GfxRGB *rgb) + { strokeColorSpace->getRGB(&strokeColor, rgb); } + void getFillCMYK(GfxCMYK *cmyk) + { fillColorSpace->getCMYK(&fillColor, cmyk); } + void getStrokeCMYK(GfxCMYK *cmyk) + { strokeColorSpace->getCMYK(&strokeColor, cmyk); } + GfxColorSpace *getFillColorSpace() { return fillColorSpace; } + GfxColorSpace *getStrokeColorSpace() { return strokeColorSpace; } + GfxPattern *getFillPattern() { return fillPattern; } + GfxPattern *getStrokePattern() { return strokePattern; } + GfxBlendMode getBlendMode() { return blendMode; } + double getFillOpacity() { return fillOpacity; } + double getStrokeOpacity() { return strokeOpacity; } + GBool getFillOverprint() { return fillOverprint; } + GBool getStrokeOverprint() { return strokeOverprint; } + Function **getTransfer() { return transfer; } + double getLineWidth() { return lineWidth; } + void getLineDash(double **dash, int *length, double *start) + { *dash = lineDash; *length = lineDashLength; *start = lineDashStart; } + int getFlatness() { return flatness; } + int getLineJoin() { return lineJoin; } + int getLineCap() { return lineCap; } + double getMiterLimit() { return miterLimit; } + GBool getStrokeAdjust() { return strokeAdjust; } + GfxFont *getFont() { return font; } + double getFontSize() { return fontSize; } + double *getTextMat() { return textMat; } + double getCharSpace() { return charSpace; } + double getWordSpace() { return wordSpace; } + double getHorizScaling() { return horizScaling; } + double getLeading() { return leading; } + double getRise() { return rise; } + int getRender() { return render; } + GfxPath *getPath() { return path; } + void setPath(GfxPath *pathA); + double getCurX() { return curX; } + double getCurY() { return curY; } + void getClipBBox(double *xMin, double *yMin, double *xMax, double *yMax) + { *xMin = clipXMin; *yMin = clipYMin; *xMax = clipXMax; *yMax = clipYMax; } + void getUserClipBBox(double *xMin, double *yMin, double *xMax, double *yMax); + double getLineX() { return lineX; } + double getLineY() { return lineY; } + + // Is there a current point/path? + GBool isCurPt() { return path->isCurPt(); } + GBool isPath() { return path->isPath(); } + + // Transforms. + void transform(double x1, double y1, double *x2, double *y2) + { *x2 = ctm[0] * x1 + ctm[2] * y1 + ctm[4]; + *y2 = ctm[1] * x1 + ctm[3] * y1 + ctm[5]; } + void transformDelta(double x1, double y1, double *x2, double *y2) + { *x2 = ctm[0] * x1 + ctm[2] * y1; + *y2 = ctm[1] * x1 + ctm[3] * y1; } + void textTransform(double x1, double y1, double *x2, double *y2) + { *x2 = textMat[0] * x1 + textMat[2] * y1 + textMat[4]; + *y2 = textMat[1] * x1 + textMat[3] * y1 + textMat[5]; } + void textTransformDelta(double x1, double y1, double *x2, double *y2) + { *x2 = textMat[0] * x1 + textMat[2] * y1; + *y2 = textMat[1] * x1 + textMat[3] * y1; } + double transformWidth(double w); + double getTransformedLineWidth() + { return transformWidth(lineWidth); } + double getTransformedFontSize(); + void getFontTransMat(double *m11, double *m12, double *m21, double *m22); + + // Change state parameters. + void setCTM(double a, double b, double c, + double d, double e, double f); + void concatCTM(double a, double b, double c, + double d, double e, double f); + void shiftCTM(double tx, double ty); + void setFillColorSpace(GfxColorSpace *colorSpace); + void setStrokeColorSpace(GfxColorSpace *colorSpace); + void setFillColor(GfxColor *color) { fillColor = *color; } + void setStrokeColor(GfxColor *color) { strokeColor = *color; } + void setFillPattern(GfxPattern *pattern); + void setStrokePattern(GfxPattern *pattern); + void setBlendMode(GfxBlendMode mode) { blendMode = mode; } + void setFillOpacity(double opac) { fillOpacity = opac; } + void setStrokeOpacity(double opac) { strokeOpacity = opac; } + void setFillOverprint(GBool op) { fillOverprint = op; } + void setStrokeOverprint(GBool op) { strokeOverprint = op; } + void setTransfer(Function **funcs); + void setLineWidth(double width) { lineWidth = width; } + void setLineDash(double *dash, int length, double start); + void setFlatness(int flatness1) { flatness = flatness1; } + void setLineJoin(int lineJoin1) { lineJoin = lineJoin1; } + void setLineCap(int lineCap1) { lineCap = lineCap1; } + void setMiterLimit(double limit) { miterLimit = limit; } + void setStrokeAdjust(GBool sa) { strokeAdjust = sa; } + void setFont(GfxFont *fontA, double fontSizeA) + { font = fontA; fontSize = fontSizeA; } + void setTextMat(double a, double b, double c, + double d, double e, double f) + { textMat[0] = a; textMat[1] = b; textMat[2] = c; + textMat[3] = d; textMat[4] = e; textMat[5] = f; } + void setCharSpace(double space) + { charSpace = space; } + void setWordSpace(double space) + { wordSpace = space; } + void setHorizScaling(double scale) + { horizScaling = 0.01 * scale; } + void setLeading(double leadingA) + { leading = leadingA; } + void setRise(double riseA) + { rise = riseA; } + void setRender(int renderA) + { render = renderA; } + + // Add to path. + void moveTo(double x, double y) + { path->moveTo(curX = x, curY = y); } + void lineTo(double x, double y) + { path->lineTo(curX = x, curY = y); } + void curveTo(double x1, double y1, double x2, double y2, + double x3, double y3) + { path->curveTo(x1, y1, x2, y2, curX = x3, curY = y3); } + void closePath() + { path->close(); curX = path->getLastX(); curY = path->getLastY(); } + void clearPath(); + + // Update clip region. + void clip(); + void clipToStrokePath(); + + // Text position. + void textSetPos(double tx, double ty) { lineX = tx; lineY = ty; } + void textMoveTo(double tx, double ty) + { lineX = tx; lineY = ty; textTransform(tx, ty, &curX, &curY); } + void textShift(double tx, double ty); + void shift(double dx, double dy); + + // Push/pop GfxState on/off stack. + GfxState *save(); + GfxState *restore(); + GBool hasSaves() { return saved != NULL; } + + // Misc + GBool parseBlendMode(Object *obj, GfxBlendMode *mode); + +private: + + double hDPI, vDPI; // resolution + double ctm[6]; // coord transform matrix + double px1, py1, px2, py2; // page corners (user coords) + double pageWidth, pageHeight; // page size (pixels) + int rotate; // page rotation angle + + GfxColorSpace *fillColorSpace; // fill color space + GfxColorSpace *strokeColorSpace; // stroke color space + GfxColor fillColor; // fill color + GfxColor strokeColor; // stroke color + GfxPattern *fillPattern; // fill pattern + GfxPattern *strokePattern; // stroke pattern + GfxBlendMode blendMode; // transparency blend mode + double fillOpacity; // fill opacity + double strokeOpacity; // stroke opacity + GBool fillOverprint; // fill overprint + GBool strokeOverprint; // stroke overprint + Function *transfer[4]; // transfer function (entries may be: all + // NULL = identity; last three NULL = + // single function; all four non-NULL = + // R,G,B,gray functions) + + double lineWidth; // line width + double *lineDash; // line dash + int lineDashLength; + double lineDashStart; + int flatness; // curve flatness + int lineJoin; // line join style + int lineCap; // line cap style + double miterLimit; // line miter limit + GBool strokeAdjust; // stroke adjustment + + GfxFont *font; // font + double fontSize; // font size + double textMat[6]; // text matrix + double charSpace; // character spacing + double wordSpace; // word spacing + double horizScaling; // horizontal scaling + double leading; // text leading + double rise; // text rise + int render; // text rendering mode + + GfxPath *path; // array of path elements + double curX, curY; // current point (user coords) + double lineX, lineY; // start of current text line (text coords) + + double clipXMin, clipYMin, // bounding box for clip region + clipXMax, clipYMax; + + GfxState *saved; // next GfxState on stack + + GfxState(GfxState *state); +}; + +#endif diff --git a/kpdf/xpdf/xpdf/GlobalParams.cc b/kpdf/xpdf/xpdf/GlobalParams.cc new file mode 100644 index 00000000..b1083777 --- /dev/null +++ b/kpdf/xpdf/xpdf/GlobalParams.cc @@ -0,0 +1,2989 @@ +//======================================================================== +// +// GlobalParams.cc +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +// KPDF: additional includes for Qt and Xft +#include +#include +#include +// -- gentoo compile fix (XFree 4.3.0, FC 2.2.3, FreeType 2.1.9) -- +// on other distros these 2 lines should't harm +#include +#include FT_FREETYPE_H +// -- ---------------------------------------------------------- -- +#include +#include +#include +#include +#include +#include +#ifdef ENABLE_PLUGINS +# ifndef WIN32 +# include +# endif +#endif +#ifdef WIN32 +# include +#endif +#if HAVE_PAPER_H +#include +#endif +#include "gmem.h" +#include "GString.h" +#include "GList.h" +#include "GHash.h" +#include "gfile.h" +#include "Error.h" +#include "NameToCharCode.h" +#include "CharCodeToUnicode.h" +#include "UnicodeMap.h" +#include "CMap.h" +#include "BuiltinFontTables.h" +#include "FontEncodingTables.h" +#ifdef ENABLE_PLUGINS +# include "XpdfPluginAPI.h" +#endif +#include "GlobalParams.h" + +#include +#include +#include + +#ifdef WIN32 +# define strcasecmp stricmp +#endif + +#if MULTITHREADED +# define lockGlobalParams gLockMutex(&mutex) +# define lockUnicodeMapCache gLockMutex(&unicodeMapCacheMutex) +# define lockCMapCache gLockMutex(&cMapCacheMutex) +# define unlockGlobalParams gUnlockMutex(&mutex) +# define unlockUnicodeMapCache gUnlockMutex(&unicodeMapCacheMutex) +# define unlockCMapCache gUnlockMutex(&cMapCacheMutex) +#else +# define lockGlobalParams +# define lockUnicodeMapCache +# define lockCMapCache +# define unlockGlobalParams +# define unlockUnicodeMapCache +# define unlockCMapCache +#endif + +#include "NameToUnicodeTable.h" +#include "UnicodeMapTables.h" +#include "UTF8.h" + +#ifdef ENABLE_PLUGINS +# ifdef WIN32 +extern XpdfPluginVecTable xpdfPluginVecTable; +# endif +#endif + +//------------------------------------------------------------------------ + +#define cidToUnicodeCacheSize 4 +#define unicodeToUnicodeCacheSize 4 + +//------------------------------------------------------------------------ + +static struct { + char *name; + char *t1FileName; + char *ttFileName; +} displayFontTab[] = { + {"Courier", "n022003l.pfb", "cour.ttf"}, + {"Courier-Bold", "n022004l.pfb", "courbd.ttf"}, + {"Courier-BoldOblique", "n022024l.pfb", "courbi.ttf"}, + {"Courier-Oblique", "n022023l.pfb", "couri.ttf"}, + {"Helvetica", "n019003l.pfb", "arial.ttf"}, + {"Helvetica-Bold", "n019004l.pfb", "arialbd.ttf"}, + {"Helvetica-BoldOblique", "n019024l.pfb", "arialbi.ttf"}, + {"Helvetica-Oblique", "n019023l.pfb", "ariali.ttf"}, + {"Symbol", "s050000l.pfb", NULL}, + {"Times-Bold", "n021004l.pfb", "timesbd.ttf"}, + {"Times-BoldItalic", "n021024l.pfb", "timesbi.ttf"}, + {"Times-Italic", "n021023l.pfb", "timesi.ttf"}, + {"Times-Roman", "n021003l.pfb", "times.ttf"}, + {"ZapfDingbats", "d050000l.pfb", NULL}, + {NULL, NULL, NULL} +}; + +#ifdef WIN32 +static char *displayFontDirs[] = { + "c:/windows/fonts", + "c:/winnt/fonts", + NULL +}; +#else +static char *displayFontDirs[] = { + "/usr/share/ghostscript/fonts", + "/usr/pkg/share/ghostscript/fonts", + "/usr/local/share/ghostscript/fonts", + "/usr/share/fonts/default/Type1", + "/usr/X11R6/lib/X11/fonts/Type1", + "/usr/share/fonts/default/ghostscript", + "/usr/share/fonts/type1/gsfonts", + "/usr/share/fonts/Type1", + NULL +}; +#endif + +//------------------------------------------------------------------------ + +GlobalParams *globalParams = NULL; + +//------------------------------------------------------------------------ +// DisplayFontParam +//------------------------------------------------------------------------ + +DisplayFontParam::DisplayFontParam(GString *nameA, + DisplayFontParamKind kindA) { + name = nameA; + kind = kindA; + switch (kind) { + case displayFontT1: + t1.fileName = NULL; + break; + case displayFontTT: + tt.fileName = NULL; + break; + } +} + +DisplayFontParam::~DisplayFontParam() { + delete name; + switch (kind) { + case displayFontT1: + if (t1.fileName) { + delete t1.fileName; + } + break; + case displayFontTT: + if (tt.fileName) { + delete tt.fileName; + } + break; + } +} + +#ifdef WIN32 + +//------------------------------------------------------------------------ +// WinFontInfo +//------------------------------------------------------------------------ + +class WinFontInfo: public DisplayFontParam { +public: + + GBool bold, italic; + + static WinFontInfo *make(GString *nameA, GBool boldA, GBool italicA, + HKEY regKey, char *winFontDir); + WinFontInfo(GString *nameA, GBool boldA, GBool italicA, + GString *fileNameA); + virtual ~WinFontInfo(); + GBool equals(WinFontInfo *fi); +}; + +WinFontInfo *WinFontInfo::make(GString *nameA, GBool boldA, GBool italicA, + HKEY regKey, char *winFontDir) { + GString *regName; + GString *fileNameA; + char buf[MAX_PATH]; + DWORD n; + char c; + int i; + + //----- find the font file + fileNameA = NULL; + regName = nameA->copy(); + if (boldA) { + regName->append(" Bold"); + } + if (italicA) { + regName->append(" Italic"); + } + regName->append(" (TrueType)"); + n = sizeof(buf); + if (RegQueryValueEx(regKey, regName->getCString(), NULL, NULL, + (LPBYTE)buf, &n) == ERROR_SUCCESS) { + fileNameA = new GString(winFontDir); + fileNameA->append('\\')->append(buf); + } + delete regName; + if (!fileNameA) { + delete nameA; + return NULL; + } + + //----- normalize the font name + i = 0; + while (i < nameA->getLength()) { + c = nameA->getChar(i); + if (c == ' ' || c == ',' || c == '-') { + nameA->del(i); + } else { + ++i; + } + } + + return new WinFontInfo(nameA, boldA, italicA, fileNameA); +} + +WinFontInfo::WinFontInfo(GString *nameA, GBool boldA, GBool italicA, + GString *fileNameA): + DisplayFontParam(nameA, displayFontTT) +{ + bold = boldA; + italic = italicA; + tt.fileName = fileNameA; +} + +WinFontInfo::~WinFontInfo() { +} + +GBool WinFontInfo::equals(WinFontInfo *fi) { + return !name->cmp(fi->name) && bold == fi->bold && italic == fi->italic; +} + +//------------------------------------------------------------------------ +// WinFontList +//------------------------------------------------------------------------ + +class WinFontList { +public: + + WinFontList(char *winFontDirA); + ~WinFontList(); + WinFontInfo *find(GString *font); + +private: + + void add(WinFontInfo *fi); + static int CALLBACK enumFunc1(CONST LOGFONT *font, + CONST TEXTMETRIC *metrics, + DWORD type, LPARAM data); + static int CALLBACK enumFunc2(CONST LOGFONT *font, + CONST TEXTMETRIC *metrics, + DWORD type, LPARAM data); + + GList *fonts; // [WinFontInfo] + HDC dc; // (only used during enumeration) + HKEY regKey; // (only used during enumeration) + char *winFontDir; // (only used during enumeration) +}; + +WinFontList::WinFontList(char *winFontDirA) { + OSVERSIONINFO version; + char *path; + + fonts = new GList(); + dc = GetDC(NULL); + winFontDir = winFontDirA; + version.dwOSVersionInfoSize = sizeof(version); + GetVersionEx(&version); + if (version.dwPlatformId == VER_PLATFORM_WIN32_NT) { + path = "SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion\\Fonts\\"; + } else { + path = "SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\Fonts\\"; + } + if (RegOpenKeyEx(HKEY_LOCAL_MACHINE, path, 0, + KEY_QUERY_VALUE | KEY_ENUMERATE_SUB_KEYS, + ®Key) == ERROR_SUCCESS) { + EnumFonts(dc, NULL, &WinFontList::enumFunc1, (LPARAM)this); + RegCloseKey(regKey); + } + ReleaseDC(NULL, dc); +} + +WinFontList::~WinFontList() { + deleteGList(fonts, WinFontInfo); +} + +void WinFontList::add(WinFontInfo *fi) { + int i; + + for (i = 0; i < fonts->getLength(); ++i) { + if (((WinFontInfo *)fonts->get(i))->equals(fi)) { + delete fi; + return; + } + } + fonts->append(fi); +} + +WinFontInfo *WinFontList::find(GString *font) { + GString *name; + GBool bold, italic; + WinFontInfo *fi; + char c; + int n, i; + + name = font->copy(); + + // remove space, comma, dash chars + i = 0; + while (i < name->getLength()) { + c = name->getChar(i); + if (c == ' ' || c == ',' || c == '-') { + name->del(i); + } else { + ++i; + } + } + n = name->getLength(); + + // remove trailing "MT" (Foo-MT, Foo-BoldMT, etc.) + if (!strcmp(name->getCString() + n - 2, "MT")) { + name->del(n - 2, 2); + n -= 2; + } + + // look for "Italic" + if (!strcmp(name->getCString() + n - 6, "Italic")) { + name->del(n - 6, 6); + italic = gTrue; + n -= 6; + } else { + italic = gFalse; + } + + // look for "Bold" + if (!strcmp(name->getCString() + n - 4, "Bold")) { + name->del(n - 4, 4); + bold = gTrue; + n -= 4; + } else { + bold = gFalse; + } + + // remove trailing "MT" (FooMT-Bold, etc.) + if (!strcmp(name->getCString() + n - 2, "MT")) { + name->del(n - 2, 2); + n -= 2; + } + + // remove trailing "PS" + if (!strcmp(name->getCString() + n - 2, "PS")) { + name->del(n - 2, 2); + n -= 2; + } + + // search for the font + fi = NULL; + for (i = 0; i < fonts->getLength(); ++i) { + fi = (WinFontInfo *)fonts->get(i); + if (!fi->name->cmp(name) && fi->bold == bold && fi->italic == italic) { + break; + } + fi = NULL; + } + + delete name; + return fi; +} + +int CALLBACK WinFontList::enumFunc1(CONST LOGFONT *font, + CONST TEXTMETRIC *metrics, + DWORD type, LPARAM data) { + WinFontList *fl = (WinFontList *)data; + + EnumFonts(fl->dc, font->lfFaceName, &WinFontList::enumFunc2, (LPARAM)fl); + return 1; +} + +int CALLBACK WinFontList::enumFunc2(CONST LOGFONT *font, + CONST TEXTMETRIC *metrics, + DWORD type, LPARAM data) { + WinFontList *fl = (WinFontList *)data; + WinFontInfo *fi; + + if (type & TRUETYPE_FONTTYPE) { + if ((fi = WinFontInfo::make(new GString(font->lfFaceName), + font->lfWeight >= 600, + font->lfItalic ? gTrue : gFalse, + fl->regKey, fl->winFontDir))) { + fl->add(fi); + } + } + return 1; +} + +#endif // WIN32 + +//------------------------------------------------------------------------ +// PSFontParam +//------------------------------------------------------------------------ + +PSFontParam::PSFontParam(GString *pdfFontNameA, int wModeA, + GString *psFontNameA, GString *encodingA) { + pdfFontName = pdfFontNameA; + wMode = wModeA; + psFontName = psFontNameA; + encoding = encodingA; +} + +PSFontParam::~PSFontParam() { + delete pdfFontName; + delete psFontName; + if (encoding) { + delete encoding; + } +} + +//------------------------------------------------------------------------ +// KeyBinding +//------------------------------------------------------------------------ + +KeyBinding::KeyBinding(int codeA, int modsA, int contextA, char *cmd0) { + code = codeA; + mods = modsA; + context = contextA; + cmds = new GList(); + cmds->append(new GString(cmd0)); +} + +KeyBinding::KeyBinding(int codeA, int modsA, int contextA, + char *cmd0, char *cmd1) { + code = codeA; + mods = modsA; + context = contextA; + cmds = new GList(); + cmds->append(new GString(cmd0)); + cmds->append(new GString(cmd1)); +} + +KeyBinding::KeyBinding(int codeA, int modsA, int contextA, GList *cmdsA) { + code = codeA; + mods = modsA; + context = contextA; + cmds = cmdsA; +} + +KeyBinding::~KeyBinding() { + deleteGList(cmds, GString); +} + +#ifdef ENABLE_PLUGINS +//------------------------------------------------------------------------ +// Plugin +//------------------------------------------------------------------------ + +class Plugin { +public: + + static Plugin *load(char *type, char *name); + ~Plugin(); + +private: + +#ifdef WIN32 + Plugin(HMODULE libA); + HMODULE lib; +#else + Plugin(void *dlA); + void *dl; +#endif +}; + +Plugin *Plugin::load(char *type, char *name) { + GString *path; + Plugin *plugin; + XpdfPluginVecTable *vt; + XpdfBool (*xpdfInitPlugin)(void); +#ifdef WIN32 + HMODULE libA; +#else + void *dlA; +#endif + + path = globalParams->getBaseDir(); + appendToPath(path, "plugins"); + appendToPath(path, type); + appendToPath(path, name); + +#ifdef WIN32 + path->append(".dll"); + if (!(libA = LoadLibrary(path->getCString()))) { + error(-1, "Failed to load plugin '%s'", + path->getCString()); + goto err1; + } + if (!(vt = (XpdfPluginVecTable *) + GetProcAddress(libA, "xpdfPluginVecTable"))) { + error(-1, "Failed to find xpdfPluginVecTable in plugin '%s'", + path->getCString()); + goto err2; + } +#else + //~ need to deal with other extensions here + path->append(".so"); + if (!(dlA = dlopen(path->getCString(), RTLD_NOW))) { + error(-1, "Failed to load plugin '%s': %s", + path->getCString(), dlerror()); + goto err1; + } + if (!(vt = (XpdfPluginVecTable *)dlsym(dlA, "xpdfPluginVecTable"))) { + error(-1, "Failed to find xpdfPluginVecTable in plugin '%s'", + path->getCString()); + goto err2; + } +#endif + + if (vt->version != xpdfPluginVecTable.version) { + error(-1, "Plugin '%s' is wrong version", path->getCString()); + goto err2; + } + memcpy(vt, &xpdfPluginVecTable, sizeof(xpdfPluginVecTable)); + +#ifdef WIN32 + if (!(xpdfInitPlugin = (XpdfBool (*)(void)) + GetProcAddress(libA, "xpdfInitPlugin"))) { + error(-1, "Failed to find xpdfInitPlugin in plugin '%s'", + path->getCString()); + goto err2; + } +#else + if (!(xpdfInitPlugin = (XpdfBool (*)(void))dlsym(dlA, "xpdfInitPlugin"))) { + error(-1, "Failed to find xpdfInitPlugin in plugin '%s'", + path->getCString()); + goto err2; + } +#endif + + if (!(*xpdfInitPlugin)()) { + error(-1, "Initialization of plugin '%s' failed", + path->getCString()); + goto err2; + } + +#ifdef WIN32 + plugin = new Plugin(libA); +#else + plugin = new Plugin(dlA); +#endif + + delete path; + return plugin; + + err2: +#ifdef WIN32 + FreeLibrary(libA); +#else + dlclose(dlA); +#endif + err1: + delete path; + return NULL; +} + +#ifdef WIN32 +Plugin::Plugin(HMODULE libA) { + lib = libA; +} +#else +Plugin::Plugin(void *dlA) { + dl = dlA; +} +#endif + +Plugin::~Plugin() { + void (*xpdfFreePlugin)(void); + +#ifdef WIN32 + if ((xpdfFreePlugin = (void (*)(void)) + GetProcAddress(lib, "xpdfFreePlugin"))) { + (*xpdfFreePlugin)(); + } + FreeLibrary(lib); +#else + if ((xpdfFreePlugin = (void (*)(void))dlsym(dl, "xpdfFreePlugin"))) { + (*xpdfFreePlugin)(); + } + dlclose(dl); +#endif +} + +#endif // ENABLE_PLUGINS + +//------------------------------------------------------------------------ +// parsing +//------------------------------------------------------------------------ + +GlobalParams::GlobalParams(char *cfgFileName) { + UnicodeMap *map; + GString *fileName; + FILE *f; + int i; + +#if MULTITHREADED + gInitMutex(&mutex); + gInitMutex(&unicodeMapCacheMutex); + gInitMutex(&cMapCacheMutex); +#endif + + initBuiltinFontTables(); + + // scan the encoding in reverse because we want the lowest-numbered + // index for each char name ('space' is encoded twice) + macRomanReverseMap = new NameToCharCode(); + for (i = 255; i >= 0; --i) { + if (macRomanEncoding[i]) { + macRomanReverseMap->add(macRomanEncoding[i], (CharCode)i); + } + } + +#ifdef WIN32 + // baseDir will be set by a call to setBaseDir + baseDir = new GString(); +#else + baseDir = appendToPath(getHomeDir(), ".xpdf"); +#endif + nameToUnicode = new NameToCharCode(); + cidToUnicodes = new GHash(gTrue); + unicodeToUnicodes = new GHash(gTrue); + residentUnicodeMaps = new GHash(); + unicodeMaps = new GHash(gTrue); + cMapDirs = new GHash(gTrue); + toUnicodeDirs = new GList(); + displayFonts = new GHash(); + displayCIDFonts = new GHash(); + displayNamedCIDFonts = new GHash(); +#if HAVE_PAPER_H + char *paperName; + const struct paper *paperType; + paperinit(); + if ((paperName = systempapername())) { + paperType = paperinfo(paperName); + psPaperWidth = (int)paperpswidth(paperType); + psPaperHeight = (int)paperpsheight(paperType); + } else { + error(-1, "No paper information available - using defaults"); + psPaperWidth = defPaperWidth; + psPaperHeight = defPaperHeight; + } + paperdone(); +#else + psPaperWidth = defPaperWidth; + psPaperHeight = defPaperHeight; +#endif + psImageableLLX = psImageableLLY = 0; + psImageableURX = psPaperWidth; + psImageableURY = psPaperHeight; + psCrop = gTrue; + psExpandSmaller = gFalse; + psShrinkLarger = gTrue; + psCenter = gTrue; + psDuplex = gFalse; + psLevel = psLevel2; + psFile = NULL; + psFonts = new GHash(); + psNamedFonts16 = new GList(); + psFonts16 = new GList(); + psEmbedType1 = gTrue; + psEmbedTrueType = gTrue; + psEmbedCIDPostScript = gTrue; + psEmbedCIDTrueType = gTrue; + psPreload = gFalse; + psOPI = gFalse; + psASCIIHex = gFalse; + // KPDF: use always UTF-8 and QString::fromUtf + textEncoding = new GString("UTF-8"); +#if defined(WIN32) + textEOL = eolDOS; +#elif defined(MACOS) + textEOL = eolMac; +#else + textEOL = eolUnix; +#endif + textPageBreaks = gTrue; + textKeepTinyChars = gFalse; + fontDirs = new GList(); + initialZoom = new GString("125"); + continuousView = gFalse; + enableT1lib = gTrue; + enableFreeType = gTrue; + antialias = gTrue; + vectorAntialias = gTrue; + strokeAdjust = gTrue; + screenType = screenUnset; + screenSize = -1; + screenDotRadius = -1; + screenGamma = 1.0; + screenBlackThreshold = 0.0; + screenWhiteThreshold = 1.0; + urlCommand = NULL; + movieCommand = NULL; + mapNumericCharNames = gTrue; + mapUnknownCharNames = gFalse; + createDefaultKeyBindings(); + printCommands = gFalse; + errQuiet = gFalse; + + cidToUnicodeCache = new CharCodeToUnicodeCache(cidToUnicodeCacheSize); + unicodeToUnicodeCache = + new CharCodeToUnicodeCache(unicodeToUnicodeCacheSize); + unicodeMapCache = new UnicodeMapCache(); + cMapCache = new CMapCache(); + +#ifdef WIN32 + winFontList = NULL; +#endif + +#ifdef ENABLE_PLUGINS + plugins = new GList(); + securityHandlers = new GList(); +#endif + + // set up the initial nameToUnicode table + for (i = 0; nameToUnicodeTab[i].name; ++i) { + nameToUnicode->add(nameToUnicodeTab[i].name, nameToUnicodeTab[i].u); + } + + // set up the residentUnicodeMaps table + map = new UnicodeMap("Latin1", gFalse, + latin1UnicodeMapRanges, latin1UnicodeMapLen); + residentUnicodeMaps->add(map->getEncodingName(), map); + map = new UnicodeMap("ASCII7", gFalse, + ascii7UnicodeMapRanges, ascii7UnicodeMapLen); + residentUnicodeMaps->add(map->getEncodingName(), map); + map = new UnicodeMap("Symbol", gFalse, + symbolUnicodeMapRanges, symbolUnicodeMapLen); + residentUnicodeMaps->add(map->getEncodingName(), map); + map = new UnicodeMap("ZapfDingbats", gFalse, zapfDingbatsUnicodeMapRanges, + zapfDingbatsUnicodeMapLen); + residentUnicodeMaps->add(map->getEncodingName(), map); + map = new UnicodeMap("UTF-8", gTrue, &mapUTF8); + residentUnicodeMaps->add(map->getEncodingName(), map); + map = new UnicodeMap("UCS-2", gTrue, &mapUCS2); + residentUnicodeMaps->add(map->getEncodingName(), map); + + // look for a user config file, then a system-wide config file + f = NULL; + fileName = NULL; + if (cfgFileName && cfgFileName[0]) { + fileName = new GString(cfgFileName); + if (!(f = fopen(fileName->getCString(), "r"))) { + delete fileName; + } + } + if (!f) { + fileName = appendToPath(getHomeDir(), xpdfUserConfigFile); + if (!(f = fopen(fileName->getCString(), "r"))) { + delete fileName; + } + } + if (!f) { +#if defined(WIN32) && !defined(__CYGWIN32__) + char buf[512]; + i = GetModuleFileName(NULL, buf, sizeof(buf)); + if (i <= 0 || i >= sizeof(buf)) { + // error or path too long for buffer - just use the current dir + buf[0] = '\0'; + } + fileName = grabPath(buf); + appendToPath(fileName, xpdfSysConfigFile); +#else + fileName = new GString(xpdfSysConfigFile); +#endif + if (!(f = fopen(fileName->getCString(), "r"))) { + delete fileName; + } + } + if (f) { + parseFile(fileName, f); + delete fileName; + fclose(f); + } +} + +void GlobalParams::createDefaultKeyBindings() { + keyBindings = new GList(); + + //----- mouse buttons + keyBindings->append(new KeyBinding(xpdfKeyCodeMousePress1, xpdfKeyModNone, + xpdfKeyContextAny, "startSelection")); + keyBindings->append(new KeyBinding(xpdfKeyCodeMouseRelease1, xpdfKeyModNone, + xpdfKeyContextAny, "endSelection", + "followLinkNoSel")); + keyBindings->append(new KeyBinding(xpdfKeyCodeMousePress2, xpdfKeyModNone, + xpdfKeyContextAny, "startPan")); + keyBindings->append(new KeyBinding(xpdfKeyCodeMouseRelease2, xpdfKeyModNone, + xpdfKeyContextAny, "endPan")); + keyBindings->append(new KeyBinding(xpdfKeyCodeMousePress3, xpdfKeyModNone, + xpdfKeyContextAny, "postPopupMenu")); + keyBindings->append(new KeyBinding(xpdfKeyCodeMousePress4, xpdfKeyModNone, + xpdfKeyContextAny, + "scrollUpPrevPage(16)")); + keyBindings->append(new KeyBinding(xpdfKeyCodeMousePress5, xpdfKeyModNone, + xpdfKeyContextAny, + "scrollDownNextPage(16)")); + keyBindings->append(new KeyBinding(xpdfKeyCodeMousePress6, xpdfKeyModNone, + xpdfKeyContextAny, "scrollLeft(16)")); + keyBindings->append(new KeyBinding(xpdfKeyCodeMousePress7, xpdfKeyModNone, + xpdfKeyContextAny, "scrollRight(16)")); + + //----- keys + keyBindings->append(new KeyBinding(xpdfKeyCodeHome, xpdfKeyModCtrl, + xpdfKeyContextAny, "gotoPage(1)")); + keyBindings->append(new KeyBinding(xpdfKeyCodeHome, xpdfKeyModNone, + xpdfKeyContextAny, "scrollToTopLeft")); + keyBindings->append(new KeyBinding(xpdfKeyCodeEnd, xpdfKeyModCtrl, + xpdfKeyContextAny, "gotoLastPage")); + keyBindings->append(new KeyBinding(xpdfKeyCodeEnd, xpdfKeyModNone, + xpdfKeyContextAny, + "scrollToBottomRight")); + keyBindings->append(new KeyBinding(xpdfKeyCodePgUp, xpdfKeyModNone, + xpdfKeyContextAny, "pageUp")); + keyBindings->append(new KeyBinding(xpdfKeyCodeBackspace, xpdfKeyModNone, + xpdfKeyContextAny, "pageUp")); + keyBindings->append(new KeyBinding(xpdfKeyCodeDelete, xpdfKeyModNone, + xpdfKeyContextAny, "pageUp")); + keyBindings->append(new KeyBinding(xpdfKeyCodePgDn, xpdfKeyModNone, + xpdfKeyContextAny, "pageDown")); + keyBindings->append(new KeyBinding(' ', xpdfKeyModNone, + xpdfKeyContextAny, "pageDown")); + keyBindings->append(new KeyBinding(xpdfKeyCodeLeft, xpdfKeyModNone, + xpdfKeyContextAny, "scrollLeft(16)")); + keyBindings->append(new KeyBinding(xpdfKeyCodeRight, xpdfKeyModNone, + xpdfKeyContextAny, "scrollRight(16)")); + keyBindings->append(new KeyBinding(xpdfKeyCodeUp, xpdfKeyModNone, + xpdfKeyContextAny, "scrollUp(16)")); + keyBindings->append(new KeyBinding(xpdfKeyCodeDown, xpdfKeyModNone, + xpdfKeyContextAny, "scrollDown(16)")); + keyBindings->append(new KeyBinding('o', xpdfKeyModNone, + xpdfKeyContextAny, "open")); + keyBindings->append(new KeyBinding('O', xpdfKeyModNone, + xpdfKeyContextAny, "open")); + keyBindings->append(new KeyBinding('r', xpdfKeyModNone, + xpdfKeyContextAny, "reload")); + keyBindings->append(new KeyBinding('R', xpdfKeyModNone, + xpdfKeyContextAny, "reload")); + keyBindings->append(new KeyBinding('f', xpdfKeyModNone, + xpdfKeyContextAny, "find")); + keyBindings->append(new KeyBinding('F', xpdfKeyModNone, + xpdfKeyContextAny, "find")); + keyBindings->append(new KeyBinding('f', xpdfKeyModCtrl, + xpdfKeyContextAny, "find")); + keyBindings->append(new KeyBinding('g', xpdfKeyModCtrl, + xpdfKeyContextAny, "findNext")); + keyBindings->append(new KeyBinding('p', xpdfKeyModCtrl, + xpdfKeyContextAny, "print")); + keyBindings->append(new KeyBinding('n', xpdfKeyModNone, + xpdfKeyContextScrLockOff, "nextPage")); + keyBindings->append(new KeyBinding('N', xpdfKeyModNone, + xpdfKeyContextScrLockOff, "nextPage")); + keyBindings->append(new KeyBinding('n', xpdfKeyModNone, + xpdfKeyContextScrLockOn, + "nextPageNoScroll")); + keyBindings->append(new KeyBinding('N', xpdfKeyModNone, + xpdfKeyContextScrLockOn, + "nextPageNoScroll")); + keyBindings->append(new KeyBinding('p', xpdfKeyModNone, + xpdfKeyContextScrLockOff, "prevPage")); + keyBindings->append(new KeyBinding('P', xpdfKeyModNone, + xpdfKeyContextScrLockOff, "prevPage")); + keyBindings->append(new KeyBinding('p', xpdfKeyModNone, + xpdfKeyContextScrLockOn, + "prevPageNoScroll")); + keyBindings->append(new KeyBinding('P', xpdfKeyModNone, + xpdfKeyContextScrLockOn, + "prevPageNoScroll")); + keyBindings->append(new KeyBinding('v', xpdfKeyModNone, + xpdfKeyContextAny, "goForward")); + keyBindings->append(new KeyBinding('b', xpdfKeyModNone, + xpdfKeyContextAny, "goBackward")); + keyBindings->append(new KeyBinding('g', xpdfKeyModNone, + xpdfKeyContextAny, "focusToPageNum")); + keyBindings->append(new KeyBinding('0', xpdfKeyModNone, + xpdfKeyContextAny, "zoomPercent(125)")); + keyBindings->append(new KeyBinding('+', xpdfKeyModNone, + xpdfKeyContextAny, "zoomIn")); + keyBindings->append(new KeyBinding('-', xpdfKeyModNone, + xpdfKeyContextAny, "zoomOut")); + keyBindings->append(new KeyBinding('z', xpdfKeyModNone, + xpdfKeyContextAny, "zoomFitPage")); + keyBindings->append(new KeyBinding('w', xpdfKeyModNone, + xpdfKeyContextAny, "zoomFitWidth")); + keyBindings->append(new KeyBinding('f', xpdfKeyModAlt, + xpdfKeyContextAny, + "toggleFullScreenMode")); + keyBindings->append(new KeyBinding('l', xpdfKeyModCtrl, + xpdfKeyContextAny, "redraw")); + keyBindings->append(new KeyBinding('w', xpdfKeyModCtrl, + xpdfKeyContextAny, "closeWindow")); + keyBindings->append(new KeyBinding('?', xpdfKeyModNone, + xpdfKeyContextAny, "about")); + keyBindings->append(new KeyBinding('q', xpdfKeyModNone, + xpdfKeyContextAny, "quit")); + keyBindings->append(new KeyBinding('Q', xpdfKeyModNone, + xpdfKeyContextAny, "quit")); +} + +void GlobalParams::parseFile(GString *fileName, FILE *f) { + int line; + char buf[512]; + + line = 1; + while (getLine(buf, sizeof(buf) - 1, f)) { + parseLine(buf, fileName, line); + ++line; + } +} + +void GlobalParams::parseLine(char *buf, GString *fileName, int line) { + GList *tokens; + GString *cmd, *incFile; + char *p1, *p2; + FILE *f2; + + // break the line into tokens + tokens = new GList(); + p1 = buf; + while (*p1) { + for (; *p1 && isspace(*p1); ++p1) ; + if (!*p1) { + break; + } + if (*p1 == '"' || *p1 == '\'') { + for (p2 = p1 + 1; *p2 && *p2 != *p1; ++p2) ; + ++p1; + } else { + for (p2 = p1 + 1; *p2 && !isspace(*p2); ++p2) ; + } + tokens->append(new GString(p1, p2 - p1)); + p1 = *p2 ? p2 + 1 : p2; + } + + // parse the line + if (tokens->getLength() > 0 && + ((GString *)tokens->get(0))->getChar(0) != '#') { + cmd = (GString *)tokens->get(0); + if (!cmd->cmp("include")) { + if (tokens->getLength() == 2) { + incFile = (GString *)tokens->get(1); + if ((f2 = fopen(incFile->getCString(), "r"))) { + parseFile(incFile, f2); + fclose(f2); + } else { + error(-1, "Couldn't find included config file: '%s' (%s:%d)", + incFile->getCString(), fileName->getCString(), line); + } + } else { + error(-1, "Bad 'include' config file command (%s:%d)", + fileName->getCString(), line); + } + } else if (!cmd->cmp("nameToUnicode")) { + parseNameToUnicode(tokens, fileName, line); + } else if (!cmd->cmp("cidToUnicode")) { + parseCIDToUnicode(tokens, fileName, line); + } else if (!cmd->cmp("unicodeToUnicode")) { + parseUnicodeToUnicode(tokens, fileName, line); + } else if (!cmd->cmp("unicodeMap")) { + parseUnicodeMap(tokens, fileName, line); + } else if (!cmd->cmp("cMapDir")) { + parseCMapDir(tokens, fileName, line); + } else if (!cmd->cmp("toUnicodeDir")) { + parseToUnicodeDir(tokens, fileName, line); + } else if (!cmd->cmp("displayFontT1")) { + parseDisplayFont(tokens, displayFonts, displayFontT1, fileName, line); + } else if (!cmd->cmp("displayFontTT")) { + parseDisplayFont(tokens, displayFonts, displayFontTT, fileName, line); + } else if (!cmd->cmp("displayNamedCIDFontT1")) { + parseDisplayFont(tokens, displayNamedCIDFonts, + displayFontT1, fileName, line); + } else if (!cmd->cmp("displayCIDFontT1")) { + parseDisplayFont(tokens, displayCIDFonts, + displayFontT1, fileName, line); + } else if (!cmd->cmp("displayNamedCIDFontTT")) { + parseDisplayFont(tokens, displayNamedCIDFonts, + displayFontTT, fileName, line); + } else if (!cmd->cmp("displayCIDFontTT")) { + parseDisplayFont(tokens, displayCIDFonts, + displayFontTT, fileName, line); + } else if (!cmd->cmp("psFile")) { + parsePSFile(tokens, fileName, line); + } else if (!cmd->cmp("psFont")) { + parsePSFont(tokens, fileName, line); + } else if (!cmd->cmp("psNamedFont16")) { + parsePSFont16("psNamedFont16", psNamedFonts16, + tokens, fileName, line); + } else if (!cmd->cmp("psFont16")) { + parsePSFont16("psFont16", psFonts16, tokens, fileName, line); + } else if (!cmd->cmp("psPaperSize")) { + parsePSPaperSize(tokens, fileName, line); + } else if (!cmd->cmp("psImageableArea")) { + parsePSImageableArea(tokens, fileName, line); + } else if (!cmd->cmp("psCrop")) { + parseYesNo("psCrop", &psCrop, tokens, fileName, line); + } else if (!cmd->cmp("psExpandSmaller")) { + parseYesNo("psExpandSmaller", &psExpandSmaller, + tokens, fileName, line); + } else if (!cmd->cmp("psShrinkLarger")) { + parseYesNo("psShrinkLarger", &psShrinkLarger, tokens, fileName, line); + } else if (!cmd->cmp("psCenter")) { + parseYesNo("psCenter", &psCenter, tokens, fileName, line); + } else if (!cmd->cmp("psDuplex")) { + parseYesNo("psDuplex", &psDuplex, tokens, fileName, line); + } else if (!cmd->cmp("psLevel")) { + parsePSLevel(tokens, fileName, line); + } else if (!cmd->cmp("psEmbedType1Fonts")) { + parseYesNo("psEmbedType1", &psEmbedType1, tokens, fileName, line); + } else if (!cmd->cmp("psEmbedTrueTypeFonts")) { + parseYesNo("psEmbedTrueType", &psEmbedTrueType, + tokens, fileName, line); + } else if (!cmd->cmp("psEmbedCIDPostScriptFonts")) { + parseYesNo("psEmbedCIDPostScript", &psEmbedCIDPostScript, + tokens, fileName, line); + } else if (!cmd->cmp("psEmbedCIDTrueTypeFonts")) { + parseYesNo("psEmbedCIDTrueType", &psEmbedCIDTrueType, + tokens, fileName, line); + } else if (!cmd->cmp("psPreload")) { + parseYesNo("psPreload", &psPreload, tokens, fileName, line); + } else if (!cmd->cmp("psOPI")) { + parseYesNo("psOPI", &psOPI, tokens, fileName, line); + } else if (!cmd->cmp("psASCIIHex")) { + parseYesNo("psASCIIHex", &psASCIIHex, tokens, fileName, line); + } else if (!cmd->cmp("textEncoding")) { +// Always use UTF-8 and allow QString do the magic +// parseTextEncoding(tokens, fileName, line); + } else if (!cmd->cmp("textEOL")) { + parseTextEOL(tokens, fileName, line); + } else if (!cmd->cmp("textPageBreaks")) { + parseYesNo("textPageBreaks", &textPageBreaks, + tokens, fileName, line); + } else if (!cmd->cmp("textKeepTinyChars")) { + parseYesNo("textKeepTinyChars", &textKeepTinyChars, + tokens, fileName, line); + } else if (!cmd->cmp("fontDir")) { + parseFontDir(tokens, fileName, line); + } else if (!cmd->cmp("initialZoom")) { + parseInitialZoom(tokens, fileName, line); + } else if (!cmd->cmp("continuousView")) { + parseYesNo("continuousView", &continuousView, tokens, fileName, line); + } else if (!cmd->cmp("enableT1lib")) { + parseYesNo("enableT1lib", &enableT1lib, tokens, fileName, line); + } else if (!cmd->cmp("enableFreeType")) { + parseYesNo("enableFreeType", &enableFreeType, tokens, fileName, line); + } else if (!cmd->cmp("antialias")) { + parseYesNo("antialias", &antialias, tokens, fileName, line); + } else if (!cmd->cmp("vectorAntialias")) { + parseYesNo("vectorAntialias", &vectorAntialias, + tokens, fileName, line); + } else if (!cmd->cmp("strokeAdjust")) { + parseYesNo("strokeAdjust", &strokeAdjust, tokens, fileName, line); + } else if (!cmd->cmp("screenType")) { + parseScreenType(tokens, fileName, line); + } else if (!cmd->cmp("screenSize")) { + parseInteger("screenSize", &screenSize, tokens, fileName, line); + } else if (!cmd->cmp("screenDotRadius")) { + parseInteger("screenDotRadius", &screenDotRadius, + tokens, fileName, line); + } else if (!cmd->cmp("screenGamma")) { + parseFloat("screenGamma", &screenGamma, + tokens, fileName, line); + } else if (!cmd->cmp("screenBlackThreshold")) { + parseFloat("screenBlackThreshold", &screenBlackThreshold, + tokens, fileName, line); + } else if (!cmd->cmp("screenWhiteThreshold")) { + parseFloat("screenWhiteThreshold", &screenWhiteThreshold, + tokens, fileName, line); + } else if (!cmd->cmp("urlCommand")) { + parseCommand("urlCommand", &urlCommand, tokens, fileName, line); + } else if (!cmd->cmp("movieCommand")) { + parseCommand("movieCommand", &movieCommand, tokens, fileName, line); + } else if (!cmd->cmp("mapNumericCharNames")) { + parseYesNo("mapNumericCharNames", &mapNumericCharNames, + tokens, fileName, line); + } else if (!cmd->cmp("mapUnknownCharNames")) { + parseYesNo("mapUnknownCharNames", &mapUnknownCharNames, + tokens, fileName, line); + } else if (!cmd->cmp("bind")) { + parseBind(tokens, fileName, line); + } else if (!cmd->cmp("unbind")) { + parseUnbind(tokens, fileName, line); + } else if (!cmd->cmp("printCommands")) { + parseYesNo("printCommands", &printCommands, tokens, fileName, line); + } else if (!cmd->cmp("errQuiet")) { + parseYesNo("errQuiet", &errQuiet, tokens, fileName, line); + } else { + error(-1, "Unknown config file command '%s' (%s:%d)", + cmd->getCString(), fileName->getCString(), line); + if (!cmd->cmp("displayFontX") || + !cmd->cmp("displayNamedCIDFontX") || + !cmd->cmp("displayCIDFontX")) { + error(-1, "-- Xpdf no longer supports X fonts"); + } else if (!cmd->cmp("t1libControl") || !cmd->cmp("freetypeControl")) { + error(-1, "-- The t1libControl and freetypeControl options have been replaced"); + error(-1, " by the enableT1lib, enableFreeType, and antialias options"); + } else if (!cmd->cmp("fontpath") || !cmd->cmp("fontmap")) { + error(-1, "-- the config file format has changed since Xpdf 0.9x"); + } + } + } + + deleteGList(tokens, GString); +} + +void GlobalParams::parseNameToUnicode(GList *tokens, GString *fileName, + int line) { + GString *name; + char *tok1, *tok2; + FILE *f; + char buf[256]; + int line2; + Unicode u; + + if (tokens->getLength() != 2) { + error(-1, "Bad 'nameToUnicode' config file command (%s:%d)", + fileName->getCString(), line); + return; + } + name = (GString *)tokens->get(1); + if (!(f = fopen(name->getCString(), "r"))) { + error(-1, "Couldn't open 'nameToUnicode' file '%s'", + name->getCString()); + return; + } + line2 = 1; + while (getLine(buf, sizeof(buf), f)) { + tok1 = strtok(buf, " \t\r\n"); + tok2 = strtok(NULL, " \t\r\n"); + if (tok1 && tok2) { + sscanf(tok1, "%x", &u); + nameToUnicode->add(tok2, u); + } else { + error(-1, "Bad line in 'nameToUnicode' file (%s:%d)", name, line2); + } + ++line2; + } + fclose(f); +} + +void GlobalParams::parseCIDToUnicode(GList *tokens, GString *fileName, + int line) { + GString *collection, *name, *old; + + if (tokens->getLength() != 3) { + error(-1, "Bad 'cidToUnicode' config file command (%s:%d)", + fileName->getCString(), line); + return; + } + collection = (GString *)tokens->get(1); + name = (GString *)tokens->get(2); + if ((old = (GString *)cidToUnicodes->remove(collection))) { + delete old; + } + cidToUnicodes->add(collection->copy(), name->copy()); +} + +void GlobalParams::parseUnicodeToUnicode(GList *tokens, GString *fileName, + int line) { + GString *font, *file, *old; + + if (tokens->getLength() != 3) { + error(-1, "Bad 'unicodeToUnicode' config file command (%s:%d)", + fileName->getCString(), line); + return; + } + font = (GString *)tokens->get(1); + file = (GString *)tokens->get(2); + if ((old = (GString *)unicodeToUnicodes->remove(font))) { + delete old; + } + unicodeToUnicodes->add(font->copy(), file->copy()); +} + +void GlobalParams::parseUnicodeMap(GList *tokens, GString *fileName, + int line) { + GString *encodingName, *name, *old; + + if (tokens->getLength() != 3) { + error(-1, "Bad 'unicodeMap' config file command (%s:%d)", + fileName->getCString(), line); + return; + } + encodingName = (GString *)tokens->get(1); + name = (GString *)tokens->get(2); + if ((old = (GString *)unicodeMaps->remove(encodingName))) { + delete old; + } + unicodeMaps->add(encodingName->copy(), name->copy()); +} + +void GlobalParams::parseCMapDir(GList *tokens, GString *fileName, int line) { + GString *collection, *dir; + GList *list; + + if (tokens->getLength() != 3) { + error(-1, "Bad 'cMapDir' config file command (%s:%d)", + fileName->getCString(), line); + return; + } + collection = (GString *)tokens->get(1); + dir = (GString *)tokens->get(2); + if (!(list = (GList *)cMapDirs->lookup(collection))) { + list = new GList(); + cMapDirs->add(collection->copy(), list); + } + list->append(dir->copy()); +} + +void GlobalParams::parseToUnicodeDir(GList *tokens, GString *fileName, + int line) { + if (tokens->getLength() != 2) { + error(-1, "Bad 'toUnicodeDir' config file command (%s:%d)", + fileName->getCString(), line); + return; + } + toUnicodeDirs->append(((GString *)tokens->get(1))->copy()); +} + +void GlobalParams::parseDisplayFont(GList *tokens, GHash *fontHash, + DisplayFontParamKind kind, + GString *fileName, int line) { + DisplayFontParam *param, *old; + struct stat statbuf; + + if (tokens->getLength() < 2) { + goto err1; + } + param = new DisplayFontParam(((GString *)tokens->get(1))->copy(), kind); + + switch (kind) { + case displayFontT1: + if (tokens->getLength() != 3) { + goto err2; + } + param->t1.fileName = ((GString *)tokens->get(2))->copy(); + if (stat((param->t1.fileName->getCString)(), &statbuf)) { + delete param; // silently ignore non-existing files + return; + } + break; + case displayFontTT: + if (tokens->getLength() < 3) { + goto err2; + } + param->tt.fileName = ((GString *)tokens->get(2))->copy(); + if (stat((param->tt.fileName->getCString)(), &statbuf)) { + delete param; // silently ignore non-existing files + return; + } + if (tokens->getLength() > 3) + param->tt.faceIndex = atoi(((GString *)tokens->get(3))->getCString()); + else + param->tt.faceIndex = 0; + break; + } + + if ((old = (DisplayFontParam *)fontHash->remove(param->name))) { + delete old; + } + fontHash->add(param->name, param); + return; + + err2: + delete param; + err1: + error(-1, "Bad 'display*Font*' config file command (%s:%d)", + fileName->getCString(), line); +} + +void GlobalParams::parsePSPaperSize(GList *tokens, GString *fileName, + int line) { + GString *tok; + + if (tokens->getLength() == 2) { + tok = (GString *)tokens->get(1); + if (!setPSPaperSize(tok->getCString())) { + error(-1, "Bad 'psPaperSize' config file command (%s:%d)", + fileName->getCString(), line); + } + } else if (tokens->getLength() == 3) { + tok = (GString *)tokens->get(1); + psPaperWidth = atoi(tok->getCString()); + tok = (GString *)tokens->get(2); + psPaperHeight = atoi(tok->getCString()); + psImageableLLX = psImageableLLY = 0; + psImageableURX = psPaperWidth; + psImageableURY = psPaperHeight; + } else { + error(-1, "Bad 'psPaperSize' config file command (%s:%d)", + fileName->getCString(), line); + } +} + +void GlobalParams::parsePSImageableArea(GList *tokens, GString *fileName, + int line) { + if (tokens->getLength() != 5) { + error(-1, "Bad 'psImageableArea' config file command (%s:%d)", + fileName->getCString(), line); + return; + } + psImageableLLX = atoi(((GString *)tokens->get(1))->getCString()); + psImageableLLY = atoi(((GString *)tokens->get(2))->getCString()); + psImageableURX = atoi(((GString *)tokens->get(3))->getCString()); + psImageableURY = atoi(((GString *)tokens->get(4))->getCString()); +} + +void GlobalParams::parsePSLevel(GList *tokens, GString *fileName, int line) { + GString *tok; + + if (tokens->getLength() != 2) { + error(-1, "Bad 'psLevel' config file command (%s:%d)", + fileName->getCString(), line); + return; + } + tok = (GString *)tokens->get(1); + if (!tok->cmp("level1")) { + psLevel = psLevel1; + } else if (!tok->cmp("level1sep")) { + psLevel = psLevel1Sep; + } else if (!tok->cmp("level2")) { + psLevel = psLevel2; + } else if (!tok->cmp("level2sep")) { + psLevel = psLevel2Sep; + } else if (!tok->cmp("level3")) { + psLevel = psLevel3; + } else if (!tok->cmp("level3Sep")) { + psLevel = psLevel3Sep; + } else { + error(-1, "Bad 'psLevel' config file command (%s:%d)", + fileName->getCString(), line); + } +} + +void GlobalParams::parsePSFile(GList *tokens, GString *fileName, int line) { + if (tokens->getLength() != 2) { + error(-1, "Bad 'psFile' config file command (%s:%d)", + fileName->getCString(), line); + return; + } + if (psFile) { + delete psFile; + } + psFile = ((GString *)tokens->get(1))->copy(); +} + +void GlobalParams::parsePSFont(GList *tokens, GString *fileName, int line) { + PSFontParam *param; + + if (tokens->getLength() != 3) { + error(-1, "Bad 'psFont' config file command (%s:%d)", + fileName->getCString(), line); + return; + } + param = new PSFontParam(((GString *)tokens->get(1))->copy(), 0, + ((GString *)tokens->get(2))->copy(), NULL); + psFonts->add(param->pdfFontName, param); +} + +void GlobalParams::parsePSFont16(char *cmdName, GList *fontList, + GList *tokens, GString *fileName, int line) { + PSFontParam *param; + int wMode; + GString *tok; + + if (tokens->getLength() != 5) { + error(-1, "Bad '%s' config file command (%s:%d)", + cmdName, fileName->getCString(), line); + return; + } + tok = (GString *)tokens->get(2); + if (!tok->cmp("H")) { + wMode = 0; + } else if (!tok->cmp("V")) { + wMode = 1; + } else { + error(-1, "Bad '%s' config file command (%s:%d)", + cmdName, fileName->getCString(), line); + return; + } + param = new PSFontParam(((GString *)tokens->get(1))->copy(), + wMode, + ((GString *)tokens->get(3))->copy(), + ((GString *)tokens->get(4))->copy()); + fontList->append(param); +} + +void GlobalParams::parseTextEncoding(GList *tokens, GString *fileName, + int line) { + if (tokens->getLength() != 2) { + error(-1, "Bad 'textEncoding' config file command (%s:%d)", + fileName->getCString(), line); + return; + } + delete textEncoding; + textEncoding = ((GString *)tokens->get(1))->copy(); +} + +void GlobalParams::parseTextEOL(GList *tokens, GString *fileName, int line) { + GString *tok; + + if (tokens->getLength() != 2) { + error(-1, "Bad 'textEOL' config file command (%s:%d)", + fileName->getCString(), line); + return; + } + tok = (GString *)tokens->get(1); + if (!tok->cmp("unix")) { + textEOL = eolUnix; + } else if (!tok->cmp("dos")) { + textEOL = eolDOS; + } else if (!tok->cmp("mac")) { + textEOL = eolMac; + } else { + error(-1, "Bad 'textEOL' config file command (%s:%d)", + fileName->getCString(), line); + } +} + +void GlobalParams::parseFontDir(GList *tokens, GString *fileName, int line) { + if (tokens->getLength() != 2) { + error(-1, "Bad 'fontDir' config file command (%s:%d)", + fileName->getCString(), line); + return; + } + fontDirs->append(((GString *)tokens->get(1))->copy()); +} + +void GlobalParams::parseInitialZoom(GList *tokens, + GString *fileName, int line) { + if (tokens->getLength() != 2) { + error(-1, "Bad 'initialZoom' config file command (%s:%d)", + fileName->getCString(), line); + return; + } + delete initialZoom; + initialZoom = ((GString *)tokens->get(1))->copy(); +} + +void GlobalParams::parseScreenType(GList *tokens, GString *fileName, + int line) { + GString *tok; + + if (tokens->getLength() != 2) { + error(-1, "Bad 'screenType' config file command (%s:%d)", + fileName->getCString(), line); + return; + } + tok = (GString *)tokens->get(1); + if (!tok->cmp("dispersed")) { + screenType = screenDispersed; + } else if (!tok->cmp("clustered")) { + screenType = screenClustered; + } else if (!tok->cmp("stochasticClustered")) { + screenType = screenStochasticClustered; + } else { + error(-1, "Bad 'screenType' config file command (%s:%d)", + fileName->getCString(), line); + } +} + +void GlobalParams::parseBind(GList *tokens, GString *fileName, int line) { + KeyBinding *binding; + GList *cmds; + int code, mods, context, i; + + if (tokens->getLength() < 4) { + error(-1, "Bad 'bind' config file command (%s:%d)", + fileName->getCString(), line); + return; + } + if (!parseKey((GString *)tokens->get(1), (GString *)tokens->get(2), + &code, &mods, &context, + "bind", tokens, fileName, line)) { + return; + } + for (i = 0; i < keyBindings->getLength(); ++i) { + binding = (KeyBinding *)keyBindings->get(i); + if (binding->code == code && + binding->mods == mods && + binding->context == context) { + delete (KeyBinding *)keyBindings->del(i); + break; + } + } + cmds = new GList(); + for (i = 3; i < tokens->getLength(); ++i) { + cmds->append(((GString *)tokens->get(i))->copy()); + } + keyBindings->append(new KeyBinding(code, mods, context, cmds)); +} + +void GlobalParams::parseUnbind(GList *tokens, GString *fileName, int line) { + KeyBinding *binding; + int code, mods, context, i; + + if (tokens->getLength() != 3) { + error(-1, "Bad 'unbind' config file command (%s:%d)", + fileName->getCString(), line); + return; + } + if (!parseKey((GString *)tokens->get(1), (GString *)tokens->get(2), + &code, &mods, &context, + "unbind", tokens, fileName, line)) { + return; + } + for (i = 0; i < keyBindings->getLength(); ++i) { + binding = (KeyBinding *)keyBindings->get(i); + if (binding->code == code && + binding->mods == mods && + binding->context == context) { + delete (KeyBinding *)keyBindings->del(i); + break; + } + } +} + +GBool GlobalParams::parseKey(GString *modKeyStr, GString *contextStr, + int *code, int *mods, int *context, + char *cmdName, + GList * /*tokens*/, GString *fileName, int line) { + char *p0; + + *mods = xpdfKeyModNone; + p0 = modKeyStr->getCString(); + while (1) { + if (!strncmp(p0, "shift-", 6)) { + *mods |= xpdfKeyModShift; + p0 += 6; + } else if (!strncmp(p0, "ctrl-", 5)) { + *mods |= xpdfKeyModCtrl; + p0 += 5; + } else if (!strncmp(p0, "alt-", 4)) { + *mods |= xpdfKeyModAlt; + p0 += 4; + } else { + break; + } + } + + if (!strcmp(p0, "space")) { + *code = ' '; + } else if (!strcmp(p0, "tab")) { + *code = xpdfKeyCodeTab; + } else if (!strcmp(p0, "return")) { + *code = xpdfKeyCodeReturn; + } else if (!strcmp(p0, "enter")) { + *code = xpdfKeyCodeEnter; + } else if (!strcmp(p0, "backspace")) { + *code = xpdfKeyCodeBackspace; + } else if (!strcmp(p0, "insert")) { + *code = xpdfKeyCodeInsert; + } else if (!strcmp(p0, "delete")) { + *code = xpdfKeyCodeDelete; + } else if (!strcmp(p0, "home")) { + *code = xpdfKeyCodeHome; + } else if (!strcmp(p0, "end")) { + *code = xpdfKeyCodeEnd; + } else if (!strcmp(p0, "pgup")) { + *code = xpdfKeyCodePgUp; + } else if (!strcmp(p0, "pgdn")) { + *code = xpdfKeyCodePgDn; + } else if (!strcmp(p0, "left")) { + *code = xpdfKeyCodeLeft; + } else if (!strcmp(p0, "right")) { + *code = xpdfKeyCodeRight; + } else if (!strcmp(p0, "up")) { + *code = xpdfKeyCodeUp; + } else if (!strcmp(p0, "down")) { + *code = xpdfKeyCodeDown; + } else if (p0[0] == 'f' && p0[1] >= '1' && p0[1] <= '9' && !p0[2]) { + *code = xpdfKeyCodeF1 + (p0[1] - '1'); + } else if (p0[0] == 'f' && + ((p0[1] >= '1' && p0[1] <= '2' && p0[2] >= '0' && p0[2] <= '9') || + (p0[1] == '3' && p0[2] >= '0' && p0[2] <= '5')) && + !p0[3]) { + *code = xpdfKeyCodeF1 + 10 * (p0[1] - '0') + (p0[2] - '0') - 1; + } else if (!strncmp(p0, "mousePress", 10) && + p0[10] >= '1' && p0[10] <= '7' && !p0[11]) { + *code = xpdfKeyCodeMousePress1 + (p0[10] - '1'); + } else if (!strncmp(p0, "mouseRelease", 12) && + p0[12] >= '1' && p0[12] <= '7' && !p0[13]) { + *code = xpdfKeyCodeMouseRelease1 + (p0[12] - '1'); + } else if (*p0 >= 0x20 && *p0 <= 0x7e && !p0[1]) { + *code = (int)*p0; + } else { + error(-1, "Bad key/modifier in '%s' config file command (%s:%d)", + cmdName, fileName->getCString(), line); + return gFalse; + } + + p0 = contextStr->getCString(); + if (!strcmp(p0, "any")) { + *context = xpdfKeyContextAny; + } else { + *context = xpdfKeyContextAny; + while (1) { + if (!strncmp(p0, "fullScreen", 10)) { + *context |= xpdfKeyContextFullScreen; + p0 += 10; + } else if (!strncmp(p0, "window", 6)) { + *context |= xpdfKeyContextWindow; + p0 += 6; + } else if (!strncmp(p0, "continuous", 10)) { + *context |= xpdfKeyContextContinuous; + p0 += 10; + } else if (!strncmp(p0, "singlePage", 10)) { + *context |= xpdfKeyContextSinglePage; + p0 += 10; + } else if (!strncmp(p0, "overLink", 8)) { + *context |= xpdfKeyContextOverLink; + p0 += 8; + } else if (!strncmp(p0, "offLink", 7)) { + *context |= xpdfKeyContextOffLink; + p0 += 7; + } else if (!strncmp(p0, "outline", 7)) { + *context |= xpdfKeyContextOutline; + p0 += 7; + } else if (!strncmp(p0, "mainWin", 7)) { + *context |= xpdfKeyContextMainWin; + p0 += 7; + } else if (!strncmp(p0, "scrLockOn", 9)) { + *context |= xpdfKeyContextScrLockOn; + p0 += 9; + } else if (!strncmp(p0, "scrLockOff", 10)) { + *context |= xpdfKeyContextScrLockOff; + p0 += 10; + } else { + error(-1, "Bad context in '%s' config file command (%s:%d)", + cmdName, fileName->getCString(), line); + return gFalse; + } + if (!*p0) { + break; + } + if (*p0 != ',') { + error(-1, "Bad context in '%s' config file command (%s:%d)", + cmdName, fileName->getCString(), line); + return gFalse; + } + ++p0; + } + } + + return gTrue; +} + +void GlobalParams::parseCommand(char *cmdName, GString **val, + GList *tokens, GString *fileName, int line) { + if (tokens->getLength() != 2) { + error(-1, "Bad '%s' config file command (%s:%d)", + cmdName, fileName->getCString(), line); + return; + } + if (*val) { + delete *val; + } + *val = ((GString *)tokens->get(1))->copy(); +} + +void GlobalParams::parseYesNo(char *cmdName, GBool *flag, + GList *tokens, GString *fileName, int line) { + GString *tok; + + if (tokens->getLength() != 2) { + error(-1, "Bad '%s' config file command (%s:%d)", + cmdName, fileName->getCString(), line); + return; + } + tok = (GString *)tokens->get(1); + if (!parseYesNo2(tok->getCString(), flag)) { + error(-1, "Bad '%s' config file command (%s:%d)", + cmdName, fileName->getCString(), line); + } +} + +GBool GlobalParams::parseYesNo2(char *token, GBool *flag) { + if (!strcmp(token, "yes")) { + *flag = gTrue; + } else if (!strcmp(token, "no")) { + *flag = gFalse; + } else { + return gFalse; + } + return gTrue; +} + +void GlobalParams::parseInteger(char *cmdName, int *val, + GList *tokens, GString *fileName, int line) { + GString *tok; + int i; + + if (tokens->getLength() != 2) { + error(-1, "Bad '%s' config file command (%s:%d)", + cmdName, fileName->getCString(), line); + return; + } + tok = (GString *)tokens->get(1); + if (tok->getLength() == 0) { + error(-1, "Bad '%s' config file command (%s:%d)", + cmdName, fileName->getCString(), line); + return; + } + if (tok->getChar(0) == '-') { + i = 1; + } else { + i = 0; + } + for (; i < tok->getLength(); ++i) { + if (tok->getChar(i) < '0' || tok->getChar(i) > '9') { + error(-1, "Bad '%s' config file command (%s:%d)", + cmdName, fileName->getCString(), line); + return; + } + } + *val = atoi(tok->getCString()); +} + +void GlobalParams::parseFloat(char *cmdName, double *val, + GList *tokens, GString *fileName, int line) { + GString *tok; + int i; + + if (tokens->getLength() != 2) { + error(-1, "Bad '%s' config file command (%s:%d)", + cmdName, fileName->getCString(), line); + return; + } + tok = (GString *)tokens->get(1); + if (tok->getLength() == 0) { + error(-1, "Bad '%s' config file command (%s:%d)", + cmdName, fileName->getCString(), line); + return; + } + if (tok->getChar(0) == '-') { + i = 1; + } else { + i = 0; + } + for (; i < tok->getLength(); ++i) { + if (!((tok->getChar(i) >= '0' && tok->getChar(i) <= '9') || + tok->getChar(i) == '.')) { + error(-1, "Bad '%s' config file command (%s:%d)", + cmdName, fileName->getCString(), line); + return; + } + } + *val = atof(tok->getCString()); +} + +GlobalParams::~GlobalParams() { + GHashIter *iter; + GString *key; + GList *list; + + freeBuiltinFontTables(); + + delete macRomanReverseMap; + + delete baseDir; + delete nameToUnicode; + deleteGHash(cidToUnicodes, GString); + deleteGHash(unicodeToUnicodes, GString); + deleteGHash(residentUnicodeMaps, UnicodeMap); + deleteGHash(unicodeMaps, GString); + deleteGList(toUnicodeDirs, GString); + deleteGHash(displayFonts, DisplayFontParam); + deleteGHash(displayCIDFonts, DisplayFontParam); + deleteGHash(displayNamedCIDFonts, DisplayFontParam); +#ifdef WIN32 + if (winFontList) { + delete winFontList; + } +#endif + if (psFile) { + delete psFile; + } + deleteGHash(psFonts, PSFontParam); + deleteGList(psNamedFonts16, PSFontParam); + deleteGList(psFonts16, PSFontParam); + delete textEncoding; + deleteGList(fontDirs, GString); + delete initialZoom; + if (urlCommand) { + delete urlCommand; + } + if (movieCommand) { + delete movieCommand; + } + deleteGList(keyBindings, KeyBinding); + + cMapDirs->startIter(&iter); + while (cMapDirs->getNext(&iter, &key, (void **)&list)) { + deleteGList(list, GString); + } + delete cMapDirs; + + delete cidToUnicodeCache; + delete unicodeToUnicodeCache; + delete unicodeMapCache; + delete cMapCache; + +#ifdef ENABLE_PLUGINS + delete securityHandlers; + deleteGList(plugins, Plugin); +#endif + +#if MULTITHREADED + gDestroyMutex(&mutex); + gDestroyMutex(&unicodeMapCacheMutex); + gDestroyMutex(&cMapCacheMutex); +#endif +} + +//------------------------------------------------------------------------ + +void GlobalParams::setBaseDir(char *dir) { + delete baseDir; + baseDir = new GString(dir); +} + +void GlobalParams::setupBaseFonts(char *dir) { + GString *fontName; + GString *fileName; +#ifdef WIN32 + HMODULE shell32Lib; + BOOL (__stdcall *SHGetSpecialFolderPathFunc)(HWND hwndOwner, + LPTSTR lpszPath, + int nFolder, + BOOL fCreate); + char winFontDir[MAX_PATH]; +#endif + FILE *f; + DisplayFontParamKind kind; + DisplayFontParam *dfp; + int i, j; + +#ifdef WIN32 + // SHGetSpecialFolderPath isn't available in older versions of + // shell32.dll (Win95 and WinNT4), so do a dynamic load + winFontDir[0] = '\0'; + if ((shell32Lib = LoadLibrary("shell32.dll"))) { + if ((SHGetSpecialFolderPathFunc = + (BOOL (__stdcall *)(HWND hwndOwner, LPTSTR lpszPath, + int nFolder, BOOL fCreate)) + GetProcAddress(shell32Lib, "SHGetSpecialFolderPathA"))) { + if (!(*SHGetSpecialFolderPathFunc)(NULL, winFontDir, + CSIDL_FONTS, FALSE)) { + winFontDir[0] = '\0'; + } + } + } +#endif + for (i = 0; displayFontTab[i].name; ++i) { + fontName = new GString(displayFontTab[i].name); + fileName = NULL; + kind = displayFontT1; // make gcc happy + if (dir) { + fileName = appendToPath(new GString(dir), displayFontTab[i].t1FileName); + kind = displayFontT1; + if ((f = fopen(fileName->getCString(), "rb"))) { + fclose(f); + } else { + delete fileName; + fileName = NULL; + } + } +#ifdef WIN32 + if (!fileName && winFontDir[0] && displayFontTab[i].ttFileName) { + fileName = appendToPath(new GString(winFontDir), + displayFontTab[i].ttFileName); + kind = displayFontTT; + if ((f = fopen(fileName->getCString(), "rb"))) { + fclose(f); + } else { + delete fileName; + fileName = NULL; + } + } + // SHGetSpecialFolderPath(CSIDL_FONTS) doesn't work on Win 2k Server + // or Win2003 Server, or with older versions of shell32.dll, so check + // the "standard" directories + if (displayFontTab[i].ttFileName) { + for (j = 0; !fileName && displayFontDirs[j]; ++j) { + fileName = appendToPath(new GString(displayFontDirs[j]), + displayFontTab[i].ttFileName); + kind = displayFontTT; + if ((f = fopen(fileName->getCString(), "rb"))) { + fclose(f); + } else { + delete fileName; + fileName = NULL; + } + } + } +#else + for (j = 0; !fileName && displayFontDirs[j]; ++j) { + fileName = appendToPath(new GString(displayFontDirs[j]), + displayFontTab[i].t1FileName); + kind = displayFontT1; + if ((f = fopen(fileName->getCString(), "rb"))) { + fclose(f); + } else { + delete fileName; + fileName = NULL; + } + } +#endif + if (!fileName) { + error(-1, "No display font for '%s'", displayFontTab[i].name); + delete fontName; + continue; + } + dfp = new DisplayFontParam(fontName, kind); + dfp->t1.fileName = fileName; + globalParams->addDisplayFont(dfp); + } + +#ifdef WIN32 + if (winFontDir[0]) { + winFontList = new WinFontList(winFontDir); + } +#endif +} + +//------------------------------------------------------------------------ +// accessors +//------------------------------------------------------------------------ + +CharCode GlobalParams::getMacRomanCharCode(char *charName) { + // no need to lock - macRomanReverseMap is constant + return macRomanReverseMap->lookup(charName); +} + +GString *GlobalParams::getBaseDir() { + GString *s; + + lockGlobalParams; + s = baseDir->copy(); + unlockGlobalParams; + return s; +} + +Unicode GlobalParams::mapNameToUnicode(char *charName) { + // no need to lock - nameToUnicode is constant + return nameToUnicode->lookup(charName); +} + +UnicodeMap *GlobalParams::getResidentUnicodeMap(GString *encodingName) { + UnicodeMap *map; + + lockGlobalParams; + map = (UnicodeMap *)residentUnicodeMaps->lookup(encodingName); + unlockGlobalParams; + if (map) { + map->incRefCnt(); + } + return map; +} + +FILE *GlobalParams::getUnicodeMapFile(GString *encodingName) { + GString *fileName; + FILE *f; + + lockGlobalParams; + if ((fileName = (GString *)unicodeMaps->lookup(encodingName))) { + f = fopen(fileName->getCString(), "r"); + } else { + f = NULL; + } + unlockGlobalParams; + return f; +} + +FILE *GlobalParams::findCMapFile(GString *collection, GString *cMapName) { + GList *list; + GString *dir; + GString *fileName; + FILE *f; + int i; + + lockGlobalParams; + if (!(list = (GList *)cMapDirs->lookup(collection))) { + unlockGlobalParams; + return NULL; + } + for (i = 0; i < list->getLength(); ++i) { + dir = (GString *)list->get(i); + fileName = appendToPath(dir->copy(), cMapName->getCString()); + f = fopen(fileName->getCString(), "r"); + delete fileName; + if (f) { + unlockGlobalParams; + return f; + } + } + unlockGlobalParams; + return NULL; +} + +FILE *GlobalParams::findToUnicodeFile(GString *name) { + GString *dir, *fileName; + FILE *f; + int i; + + lockGlobalParams; + for (i = 0; i < toUnicodeDirs->getLength(); ++i) { + dir = (GString *)toUnicodeDirs->get(i); + fileName = appendToPath(dir->copy(), name->getCString()); + f = fopen(fileName->getCString(), "r"); + delete fileName; + if (f) { + unlockGlobalParams; + return f; + } + } + unlockGlobalParams; + return NULL; +} + +// KPDF: parse xpdf font name into family and style +// Helvetica-BoldOblique => name=Helvetica, weight=Bold, slant=Oblique + +void parseStyle(QString& name, int& weight, int& slant, int& width) +{ + if (name.find("MS-") == 0) name = "MS " + name.remove(0,3); + + if (!name.contains('-') && !name.contains(',')) return; + QString type = name.section(QRegExp("[-,]"),-1); + name = name.section(QRegExp("[-,]"),0,-2); + if (type.contains("Oblique")) slant=FC_SLANT_OBLIQUE; + if (type.contains("Italic")) slant=FC_SLANT_ITALIC; + if (type.contains("Bold")) weight=FC_WEIGHT_BOLD; + if (type.contains("Light")) weight=FC_WEIGHT_LIGHT; + if (type.contains("Condensed")) width=FC_WIDTH_CONDENSED; +} + +DisplayFontParam *GlobalParams::getDisplayFont(GString *fontName) { + DisplayFontParam *dfp; + FcPattern *p=0,*m=0; + FcChar8* s; + char * ext; + FcResult res; + + lockGlobalParams; + dfp = (DisplayFontParam *)displayFonts->lookup(fontName); + // KPDF: try to find font using Xft + if (!dfp) { + int weight=FC_WEIGHT_MEDIUM, slant=FC_SLANT_ROMAN, width=FC_WIDTH_NORMAL; + QString name(fontName->getCString()); + + parseStyle(name,weight,slant,width); + p = FcPatternBuild(0,FC_FAMILY,FcTypeString, name.ascii(), + FC_SLANT, FcTypeInteger, slant, FC_WEIGHT, FcTypeInteger, weight, + FC_WIDTH, FcTypeInteger, width, FC_LANG, FcTypeString, "xx", (char*)0); + if (!p) goto fin; + m = XftFontMatch(qt_xdisplay(),qt_xscreen(),p,&res); + if (!m) goto fin; + res = FcPatternGetString (m, FC_FILE, 0, &s); + if (res != FcResultMatch || !s) goto fin; + ext = rindex((char*)s,'.'); + if (!ext) goto fin; + if (!strncasecmp(ext,".ttf",4) || !strncasecmp(ext,".ttc",4)) { + dfp = new DisplayFontParam(fontName->copy(), displayFontTT); + dfp->tt.fileName = new GString((char*)s); + FcPatternGetInteger(m, FC_INDEX, 0, &(dfp->tt.faceIndex)); + } else if (!strncasecmp(ext,".pfa",4) || !strncasecmp(ext,".pfb",4)) { + dfp = new DisplayFontParam(fontName->copy(), displayFontT1); + dfp->t1.fileName = new GString((char*)s); + } else goto fin; + displayFonts->add(dfp->name,dfp); + } +fin: unlockGlobalParams; + if (m) FcPatternDestroy(m); + if (p) FcPatternDestroy(p); + return dfp; +} + +DisplayFontParam *GlobalParams::getDisplayCIDFont(GString *fontName, + GString *collection) { + DisplayFontParam *dfp; + + lockGlobalParams; + if (!fontName || + !(dfp = (DisplayFontParam *)displayNamedCIDFonts->lookup(fontName))) { + dfp = (DisplayFontParam *)displayCIDFonts->lookup(collection); + } + unlockGlobalParams; + if (!dfp) dfp = getDisplayFont(fontName); + return dfp; +} + +GString *GlobalParams::getPSFile() { + GString *s; + + lockGlobalParams; + s = psFile ? psFile->copy() : (GString *)NULL; + unlockGlobalParams; + return s; +} + +int GlobalParams::getPSPaperWidth() { + int w; + + lockGlobalParams; + w = psPaperWidth; + unlockGlobalParams; + return w; +} + +int GlobalParams::getPSPaperHeight() { + int h; + + lockGlobalParams; + h = psPaperHeight; + unlockGlobalParams; + return h; +} + +void GlobalParams::getPSImageableArea(int *llx, int *lly, int *urx, int *ury) { + lockGlobalParams; + *llx = psImageableLLX; + *lly = psImageableLLY; + *urx = psImageableURX; + *ury = psImageableURY; + unlockGlobalParams; +} + +GBool GlobalParams::getPSCrop() { + GBool f; + + lockGlobalParams; + f = psCrop; + unlockGlobalParams; + return f; +} + +GBool GlobalParams::getPSExpandSmaller() { + GBool f; + + lockGlobalParams; + f = psExpandSmaller; + unlockGlobalParams; + return f; +} + +GBool GlobalParams::getPSShrinkLarger() { + GBool f; + + lockGlobalParams; + f = psShrinkLarger; + unlockGlobalParams; + return f; +} + +GBool GlobalParams::getPSCenter() { + GBool f; + + lockGlobalParams; + f = psCenter; + unlockGlobalParams; + return f; +} + +GBool GlobalParams::getPSDuplex() { + GBool d; + + lockGlobalParams; + d = psDuplex; + unlockGlobalParams; + return d; +} + +PSLevel GlobalParams::getPSLevel() { + PSLevel level; + + lockGlobalParams; + level = psLevel; + unlockGlobalParams; + return level; +} + +PSFontParam *GlobalParams::getPSFont(GString *fontName) { + PSFontParam *p; + + lockGlobalParams; + p = (PSFontParam *)psFonts->lookup(fontName); + unlockGlobalParams; + return p; +} + +PSFontParam *GlobalParams::getPSFont16(GString *fontName, + GString *collection, int wMode) { + PSFontParam *p; + int i; + + lockGlobalParams; + p = NULL; + if (fontName) { + for (i = 0; i < psNamedFonts16->getLength(); ++i) { + p = (PSFontParam *)psNamedFonts16->get(i); + if (!p->pdfFontName->cmp(fontName) && + p->wMode == wMode) { + break; + } + p = NULL; + } + } + if (!p && collection) { + for (i = 0; i < psFonts16->getLength(); ++i) { + p = (PSFontParam *)psFonts16->get(i); + if (!p->pdfFontName->cmp(collection) && + p->wMode == wMode) { + break; + } + p = NULL; + } + } + unlockGlobalParams; + return p; +} + +GBool GlobalParams::getPSEmbedType1() { + GBool e; + + lockGlobalParams; + e = psEmbedType1; + unlockGlobalParams; + return e; +} + +GBool GlobalParams::getPSEmbedTrueType() { + GBool e; + + lockGlobalParams; + e = psEmbedTrueType; + unlockGlobalParams; + return e; +} + +GBool GlobalParams::getPSEmbedCIDPostScript() { + GBool e; + + lockGlobalParams; + e = psEmbedCIDPostScript; + unlockGlobalParams; + return e; +} + +GBool GlobalParams::getPSEmbedCIDTrueType() { + GBool e; + + lockGlobalParams; + e = psEmbedCIDTrueType; + unlockGlobalParams; + return e; +} + +GBool GlobalParams::getPSPreload() { + GBool preload; + + lockGlobalParams; + preload = psPreload; + unlockGlobalParams; + return preload; +} + +GBool GlobalParams::getPSOPI() { + GBool opi; + + lockGlobalParams; + opi = psOPI; + unlockGlobalParams; + return opi; +} + +GBool GlobalParams::getPSASCIIHex() { + GBool ah; + + lockGlobalParams; + ah = psASCIIHex; + unlockGlobalParams; + return ah; +} + +GString *GlobalParams::getTextEncodingName() { + GString *s; + + lockGlobalParams; + s = textEncoding->copy(); + unlockGlobalParams; + return s; +} + +EndOfLineKind GlobalParams::getTextEOL() { + EndOfLineKind eol; + + lockGlobalParams; + eol = textEOL; + unlockGlobalParams; + return eol; +} + +GBool GlobalParams::getTextPageBreaks() { + GBool pageBreaks; + + lockGlobalParams; + pageBreaks = textPageBreaks; + unlockGlobalParams; + return pageBreaks; +} + +GBool GlobalParams::getTextKeepTinyChars() { + GBool tiny; + + lockGlobalParams; + tiny = textKeepTinyChars; + unlockGlobalParams; + return tiny; +} + +GString *GlobalParams::findFontFile(GString *fontName, char **exts) { + GString *dir, *fileName; + char **ext; + FILE *f; + int i; + + lockGlobalParams; + for (i = 0; i < fontDirs->getLength(); ++i) { + dir = (GString *)fontDirs->get(i); + for (ext = exts; *ext; ++ext) { + fileName = appendToPath(dir->copy(), fontName->getCString()); + fileName->append(*ext); + if ((f = fopen(fileName->getCString(), "rb"))) { + fclose(f); + unlockGlobalParams; + return fileName; + } + delete fileName; + } + } + unlockGlobalParams; + return NULL; +} + +GString *GlobalParams::getInitialZoom() { + GString *s; + + lockGlobalParams; + s = initialZoom->copy(); + unlockGlobalParams; + return s; +} + +GBool GlobalParams::getContinuousView() { + GBool f; + + lockGlobalParams; + f = continuousView; + unlockGlobalParams; + return f; +} + +GBool GlobalParams::getEnableT1lib() { + GBool f; + + lockGlobalParams; + f = enableT1lib; + unlockGlobalParams; + return f; +} + +GBool GlobalParams::getEnableFreeType() { + GBool f; + + lockGlobalParams; + f = enableFreeType; + unlockGlobalParams; + return f; +} + + +GBool GlobalParams::getAntialias() { + GBool f; + + lockGlobalParams; + f = antialias; + unlockGlobalParams; + return f; +} + +GBool GlobalParams::getVectorAntialias() { + GBool f; + + lockGlobalParams; + f = vectorAntialias; + unlockGlobalParams; + return f; +} + +GBool GlobalParams::getStrokeAdjust() { + GBool f; + + lockGlobalParams; + f = strokeAdjust; + unlockGlobalParams; + return f; +} + +ScreenType GlobalParams::getScreenType() { + ScreenType t; + + lockGlobalParams; + t = screenType; + unlockGlobalParams; + return t; +} + +int GlobalParams::getScreenSize() { + int size; + + lockGlobalParams; + size = screenSize; + unlockGlobalParams; + return size; +} + +int GlobalParams::getScreenDotRadius() { + int r; + + lockGlobalParams; + r = screenDotRadius; + unlockGlobalParams; + return r; +} + +double GlobalParams::getScreenGamma() { + double gamma; + + lockGlobalParams; + gamma = screenGamma; + unlockGlobalParams; + return gamma; +} + +double GlobalParams::getScreenBlackThreshold() { + double thresh; + + lockGlobalParams; + thresh = screenBlackThreshold; + unlockGlobalParams; + return thresh; +} + +double GlobalParams::getScreenWhiteThreshold() { + double thresh; + + lockGlobalParams; + thresh = screenWhiteThreshold; + unlockGlobalParams; + return thresh; +} + +GBool GlobalParams::getMapNumericCharNames() { + GBool map; + + lockGlobalParams; + map = mapNumericCharNames; + unlockGlobalParams; + return map; +} + +GBool GlobalParams::getMapUnknownCharNames() { + GBool map; + + lockGlobalParams; + map = mapUnknownCharNames; + unlockGlobalParams; + return map; +} + +GList *GlobalParams::getKeyBinding(int code, int mods, int context) { + KeyBinding *binding; + GList *cmds; + int modMask; + int i, j; + + lockGlobalParams; + cmds = NULL; + // for ASCII chars, ignore the shift modifier + modMask = code <= 0xff ? ~xpdfKeyModShift : ~0; + for (i = 0; i < keyBindings->getLength(); ++i) { + binding = (KeyBinding *)keyBindings->get(i); + if (binding->code == code && + (binding->mods & modMask) == (mods & modMask) && + (~binding->context | context) == ~0) { + cmds = new GList(); + for (j = 0; j < binding->cmds->getLength(); ++j) { + cmds->append(((GString *)binding->cmds->get(j))->copy()); + } + break; + } + } + unlockGlobalParams; + return cmds; +} + +GBool GlobalParams::getPrintCommands() { + GBool p; + + lockGlobalParams; + p = printCommands; + unlockGlobalParams; + return p; +} + +GBool GlobalParams::getErrQuiet() { + // no locking -- this function may get called from inside a locked + // section + return errQuiet; +} + +CharCodeToUnicode *GlobalParams::getCIDToUnicode(GString *collection) { + GString *fileName; + CharCodeToUnicode *ctu; + + lockGlobalParams; + if (!(ctu = cidToUnicodeCache->getCharCodeToUnicode(collection))) { + if ((fileName = (GString *)cidToUnicodes->lookup(collection)) && + (ctu = CharCodeToUnicode::parseCIDToUnicode(fileName, collection))) { + cidToUnicodeCache->add(ctu); + } + } + unlockGlobalParams; + return ctu; +} + +CharCodeToUnicode *GlobalParams::getUnicodeToUnicode(GString *fontName) { + CharCodeToUnicode *ctu; + GHashIter *iter; + GString *fontPattern, *fileName; + + lockGlobalParams; + fileName = NULL; + unicodeToUnicodes->startIter(&iter); + while (unicodeToUnicodes->getNext(&iter, &fontPattern, (void **)&fileName)) { + if (strstr(fontName->getCString(), fontPattern->getCString())) { + unicodeToUnicodes->killIter(&iter); + break; + } + fileName = NULL; + } + if (fileName) { + if (!(ctu = unicodeToUnicodeCache->getCharCodeToUnicode(fileName))) { + if ((ctu = CharCodeToUnicode::parseUnicodeToUnicode(fileName))) { + unicodeToUnicodeCache->add(ctu); + } + } + } else { + ctu = NULL; + } + unlockGlobalParams; + return ctu; +} + +UnicodeMap *GlobalParams::getUnicodeMap(GString *encodingName) { + return getUnicodeMap2(encodingName); +} + +UnicodeMap *GlobalParams::getUnicodeMap2(GString *encodingName) { + UnicodeMap *map; + + if (!(map = getResidentUnicodeMap(encodingName))) { + lockUnicodeMapCache; + map = unicodeMapCache->getUnicodeMap(encodingName); + unlockUnicodeMapCache; + } + return map; +} + +CMap *GlobalParams::getCMap(GString *collection, GString *cMapName) { + CMap *cMap; + + lockCMapCache; + cMap = cMapCache->getCMap(collection, cMapName); + unlockCMapCache; + return cMap; +} + +UnicodeMap *GlobalParams::getTextEncoding() { + return getUnicodeMap2(textEncoding); +} + +//------------------------------------------------------------------------ +// functions to set parameters +//------------------------------------------------------------------------ + +void GlobalParams::addDisplayFont(DisplayFontParam *param) { + DisplayFontParam *old; + + lockGlobalParams; + if ((old = (DisplayFontParam *)displayFonts->remove(param->name))) { + delete old; + } + displayFonts->add(param->name, param); + unlockGlobalParams; +} + +void GlobalParams::setPSFile(char *file) { + lockGlobalParams; + if (psFile) { + delete psFile; + } + psFile = new GString(file); + unlockGlobalParams; +} + +GBool GlobalParams::setPSPaperSize(char *size) { + lockGlobalParams; + if (!strcmp(size, "match")) { + psPaperWidth = psPaperHeight = -1; + } else if (!strcmp(size, "letter")) { + psPaperWidth = 612; + psPaperHeight = 792; + } else if (!strcmp(size, "legal")) { + psPaperWidth = 612; + psPaperHeight = 1008; + } else if (!strcmp(size, "A4")) { + psPaperWidth = 595; + psPaperHeight = 842; + } else if (!strcmp(size, "A3")) { + psPaperWidth = 842; + psPaperHeight = 1190; + } else { + unlockGlobalParams; + return gFalse; + } + psImageableLLX = psImageableLLY = 0; + psImageableURX = psPaperWidth; + psImageableURY = psPaperHeight; + unlockGlobalParams; + return gTrue; +} + +void GlobalParams::setPSPaperWidth(int width) { + lockGlobalParams; + psPaperWidth = width; + psImageableLLX = 0; + psImageableURX = psPaperWidth; + unlockGlobalParams; +} + +void GlobalParams::setPSPaperHeight(int height) { + lockGlobalParams; + psPaperHeight = height; + psImageableLLY = 0; + psImageableURY = psPaperHeight; + unlockGlobalParams; +} + +void GlobalParams::setPSImageableArea(int llx, int lly, int urx, int ury) { + lockGlobalParams; + psImageableLLX = llx; + psImageableLLY = lly; + psImageableURX = urx; + psImageableURY = ury; + unlockGlobalParams; +} + +void GlobalParams::setPSCrop(GBool crop) { + lockGlobalParams; + psCrop = crop; + unlockGlobalParams; +} + +void GlobalParams::setPSExpandSmaller(GBool expand) { + lockGlobalParams; + psExpandSmaller = expand; + unlockGlobalParams; +} + +void GlobalParams::setPSShrinkLarger(GBool shrink) { + lockGlobalParams; + psShrinkLarger = shrink; + unlockGlobalParams; +} + +void GlobalParams::setPSCenter(GBool center) { + lockGlobalParams; + psCenter = center; + unlockGlobalParams; +} + +void GlobalParams::setPSDuplex(GBool duplex) { + lockGlobalParams; + psDuplex = duplex; + unlockGlobalParams; +} + +void GlobalParams::setPSLevel(PSLevel level) { + lockGlobalParams; + psLevel = level; + unlockGlobalParams; +} + +void GlobalParams::setPSEmbedType1(GBool embed) { + lockGlobalParams; + psEmbedType1 = embed; + unlockGlobalParams; +} + +void GlobalParams::setPSEmbedTrueType(GBool embed) { + lockGlobalParams; + psEmbedTrueType = embed; + unlockGlobalParams; +} + +void GlobalParams::setPSEmbedCIDPostScript(GBool embed) { + lockGlobalParams; + psEmbedCIDPostScript = embed; + unlockGlobalParams; +} + +void GlobalParams::setPSEmbedCIDTrueType(GBool embed) { + lockGlobalParams; + psEmbedCIDTrueType = embed; + unlockGlobalParams; +} + +void GlobalParams::setPSPreload(GBool preload) { + lockGlobalParams; + psPreload = preload; + unlockGlobalParams; +} + +void GlobalParams::setPSOPI(GBool opi) { + lockGlobalParams; + psOPI = opi; + unlockGlobalParams; +} + +void GlobalParams::setPSASCIIHex(GBool hex) { + lockGlobalParams; + psASCIIHex = hex; + unlockGlobalParams; +} + +void GlobalParams::setTextEncoding(char *encodingName) { + lockGlobalParams; + delete textEncoding; + textEncoding = new GString(encodingName); + unlockGlobalParams; +} + +GBool GlobalParams::setTextEOL(char *s) { + lockGlobalParams; + if (!strcmp(s, "unix")) { + textEOL = eolUnix; + } else if (!strcmp(s, "dos")) { + textEOL = eolDOS; + } else if (!strcmp(s, "mac")) { + textEOL = eolMac; + } else { + unlockGlobalParams; + return gFalse; + } + unlockGlobalParams; + return gTrue; +} + +void GlobalParams::setTextPageBreaks(GBool pageBreaks) { + lockGlobalParams; + textPageBreaks = pageBreaks; + unlockGlobalParams; +} + +void GlobalParams::setTextKeepTinyChars(GBool keep) { + lockGlobalParams; + textKeepTinyChars = keep; + unlockGlobalParams; +} + +void GlobalParams::setInitialZoom(char *s) { + lockGlobalParams; + delete initialZoom; + initialZoom = new GString(s); + unlockGlobalParams; +} + +void GlobalParams::setContinuousView(GBool cont) { + lockGlobalParams; + continuousView = cont; + unlockGlobalParams; +} + +GBool GlobalParams::setEnableT1lib(char *s) { + GBool ok; + + lockGlobalParams; + ok = parseYesNo2(s, &enableT1lib); + unlockGlobalParams; + return ok; +} + +GBool GlobalParams::setEnableFreeType(char *s) { + GBool ok; + + lockGlobalParams; + ok = parseYesNo2(s, &enableFreeType); + unlockGlobalParams; + return ok; +} + + +GBool GlobalParams::setAntialias(char *s) { + GBool ok; + + lockGlobalParams; + ok = parseYesNo2(s, &antialias); + unlockGlobalParams; + return ok; +} + +GBool GlobalParams::setVectorAntialias(char *s) { + GBool ok; + + lockGlobalParams; + ok = parseYesNo2(s, &vectorAntialias); + unlockGlobalParams; + return ok; +} + +void GlobalParams::setScreenType(ScreenType t) { + lockGlobalParams; + screenType = t; + unlockGlobalParams; +} + +void GlobalParams::setScreenSize(int size) { + lockGlobalParams; + screenSize = size; + unlockGlobalParams; +} + +void GlobalParams::setScreenDotRadius(int r) { + lockGlobalParams; + screenDotRadius = r; + unlockGlobalParams; +} + +void GlobalParams::setScreenGamma(double gamma) { + lockGlobalParams; + screenGamma = gamma; + unlockGlobalParams; +} + +void GlobalParams::setScreenBlackThreshold(double thresh) { + lockGlobalParams; + screenBlackThreshold = thresh; + unlockGlobalParams; +} + +void GlobalParams::setScreenWhiteThreshold(double thresh) { + lockGlobalParams; + screenWhiteThreshold = thresh; + unlockGlobalParams; +} + +void GlobalParams::setMapNumericCharNames(GBool map) { + lockGlobalParams; + mapNumericCharNames = map; + unlockGlobalParams; +} + +void GlobalParams::setMapUnknownCharNames(GBool map) { + lockGlobalParams; + mapUnknownCharNames = map; + unlockGlobalParams; +} + +void GlobalParams::setPrintCommands(GBool printCommandsA) { + lockGlobalParams; + printCommands = printCommandsA; + unlockGlobalParams; +} + +void GlobalParams::setErrQuiet(GBool errQuietA) { + lockGlobalParams; + errQuiet = errQuietA; + unlockGlobalParams; +} + +void GlobalParams::addSecurityHandler(XpdfSecurityHandler *handler) { +#ifdef ENABLE_PLUGINS + lockGlobalParams; + securityHandlers->append(handler); + unlockGlobalParams; +#else + (void)handler; +#endif +} + +XpdfSecurityHandler *GlobalParams::getSecurityHandler(char *name) { +#ifdef ENABLE_PLUGINS + XpdfSecurityHandler *hdlr; + int i; + + lockGlobalParams; + for (i = 0; i < securityHandlers->getLength(); ++i) { + hdlr = (XpdfSecurityHandler *)securityHandlers->get(i); + if (!strcasecmp(hdlr->name, name)) { + unlockGlobalParams; + return hdlr; + } + } + unlockGlobalParams; + + if (!loadPlugin("security", name)) { + return NULL; + } + + lockGlobalParams; + for (i = 0; i < securityHandlers->getLength(); ++i) { + hdlr = (XpdfSecurityHandler *)securityHandlers->get(i); + if (!strcmp(hdlr->name, name)) { + unlockGlobalParams; + return hdlr; + } + } + unlockGlobalParams; +#else + (void)name; +#endif + + return NULL; +} + +#ifdef ENABLE_PLUGINS +//------------------------------------------------------------------------ +// plugins +//------------------------------------------------------------------------ + +GBool GlobalParams::loadPlugin(char *type, char *name) { + Plugin *plugin; + + if (!(plugin = Plugin::load(type, name))) { + return gFalse; + } + lockGlobalParams; + plugins->append(plugin); + unlockGlobalParams; + return gTrue; +} + +#endif // ENABLE_PLUGINS diff --git a/kpdf/xpdf/xpdf/GlobalParams.h b/kpdf/xpdf/xpdf/GlobalParams.h new file mode 100644 index 00000000..c0543eda --- /dev/null +++ b/kpdf/xpdf/xpdf/GlobalParams.h @@ -0,0 +1,464 @@ +//======================================================================== +// +// GlobalParams.h +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef GLOBALPARAMS_H +#define GLOBALPARAMS_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include +#include "gtypes.h" +#include "CharTypes.h" + +#if MULTITHREADED +#include "GMutex.h" +#endif + +class GString; +class GList; +class GHash; +class NameToCharCode; +class CharCodeToUnicode; +class CharCodeToUnicodeCache; +class UnicodeMap; +class UnicodeMapCache; +class CMap; +class CMapCache; +struct XpdfSecurityHandler; +class GlobalParams; +#ifdef WIN32 +class WinFontList; +#endif + +//------------------------------------------------------------------------ + +// The global parameters object. +extern GlobalParams *globalParams; + +//------------------------------------------------------------------------ + +enum DisplayFontParamKind { + displayFontT1, + displayFontTT +}; + +struct DisplayFontParamT1 { + GString *fileName; +}; + +struct DisplayFontParamTT { + GString *fileName; + int faceIndex; +}; + +class DisplayFontParam { +public: + + GString *name; // font name for 8-bit fonts and named + // CID fonts; collection name for + // generic CID fonts + DisplayFontParamKind kind; + union { + DisplayFontParamT1 t1; + DisplayFontParamTT tt; + }; + + DisplayFontParam(GString *nameA, DisplayFontParamKind kindA); + virtual ~DisplayFontParam(); +}; + +//------------------------------------------------------------------------ + +class PSFontParam { +public: + + GString *pdfFontName; // PDF font name for 8-bit fonts and + // named 16-bit fonts; char collection + // name for generic 16-bit fonts + int wMode; // writing mode (0=horiz, 1=vert) for + // 16-bit fonts + GString *psFontName; // PostScript font name + GString *encoding; // encoding, for 16-bit fonts only + + PSFontParam(GString *pdfFontNameA, int wModeA, + GString *psFontNameA, GString *encodingA); + ~PSFontParam(); +}; + +//------------------------------------------------------------------------ + +enum PSLevel { + psLevel1, + psLevel1Sep, + psLevel2, + psLevel2Sep, + psLevel3, + psLevel3Sep +}; + +//------------------------------------------------------------------------ + +enum EndOfLineKind { + eolUnix, // LF + eolDOS, // CR+LF + eolMac // CR +}; + +//------------------------------------------------------------------------ + +enum ScreenType { + screenUnset, + screenDispersed, + screenClustered, + screenStochasticClustered +}; + +//------------------------------------------------------------------------ + +class KeyBinding { +public: + + int code; // 0x20 .. 0xfe = ASCII, + // >=0x10000 = special keys, mouse buttons, + // etc. (xpdfKeyCode* symbols) + int mods; // modifiers (xpdfKeyMod* symbols, or-ed + // together) + int context; // context (xpdfKeyContext* symbols, or-ed + // together) + GList *cmds; // list of commands [GString] + + KeyBinding(int codeA, int modsA, int contextA, char *cmd0); + KeyBinding(int codeA, int modsA, int contextA, char *cmd0, char *cmd1); + KeyBinding(int codeA, int modsA, int contextA, GList *cmdsA); + ~KeyBinding(); +}; + +#define xpdfKeyCodeTab 0x1000 +#define xpdfKeyCodeReturn 0x1001 +#define xpdfKeyCodeEnter 0x1002 +#define xpdfKeyCodeBackspace 0x1003 +#define xpdfKeyCodeInsert 0x1004 +#define xpdfKeyCodeDelete 0x1005 +#define xpdfKeyCodeHome 0x1006 +#define xpdfKeyCodeEnd 0x1007 +#define xpdfKeyCodePgUp 0x1008 +#define xpdfKeyCodePgDn 0x1009 +#define xpdfKeyCodeLeft 0x100a +#define xpdfKeyCodeRight 0x100b +#define xpdfKeyCodeUp 0x100c +#define xpdfKeyCodeDown 0x100d +#define xpdfKeyCodeF1 0x1100 +#define xpdfKeyCodeF35 0x1122 +#define xpdfKeyCodeMousePress1 0x2001 +#define xpdfKeyCodeMousePress2 0x2002 +#define xpdfKeyCodeMousePress3 0x2003 +#define xpdfKeyCodeMousePress4 0x2004 +#define xpdfKeyCodeMousePress5 0x2005 +#define xpdfKeyCodeMousePress6 0x2006 +#define xpdfKeyCodeMousePress7 0x2007 +#define xpdfKeyCodeMouseRelease1 0x2101 +#define xpdfKeyCodeMouseRelease2 0x2102 +#define xpdfKeyCodeMouseRelease3 0x2103 +#define xpdfKeyCodeMouseRelease4 0x2104 +#define xpdfKeyCodeMouseRelease5 0x2105 +#define xpdfKeyCodeMouseRelease6 0x2106 +#define xpdfKeyCodeMouseRelease7 0x2107 +#define xpdfKeyModNone 0 +#define xpdfKeyModShift (1 << 0) +#define xpdfKeyModCtrl (1 << 1) +#define xpdfKeyModAlt (1 << 2) +#define xpdfKeyContextAny 0 +#define xpdfKeyContextFullScreen (1 << 0) +#define xpdfKeyContextWindow (2 << 0) +#define xpdfKeyContextContinuous (1 << 2) +#define xpdfKeyContextSinglePage (2 << 2) +#define xpdfKeyContextOverLink (1 << 4) +#define xpdfKeyContextOffLink (2 << 4) +#define xpdfKeyContextOutline (1 << 6) +#define xpdfKeyContextMainWin (2 << 6) +#define xpdfKeyContextScrLockOn (1 << 8) +#define xpdfKeyContextScrLockOff (2 << 8) + +//------------------------------------------------------------------------ + +class GlobalParams { +public: + + // Initialize the global parameters by attempting to read a config + // file. + GlobalParams(char *cfgFileName); + + ~GlobalParams(); + + void setBaseDir(char *dir); + void setupBaseFonts(char *dir); + + void parseLine(char *buf, GString *fileName, int line); + + //----- accessors + + CharCode getMacRomanCharCode(char *charName); + + GString *getBaseDir(); + Unicode mapNameToUnicode(char *charName); + UnicodeMap *getResidentUnicodeMap(GString *encodingName); + FILE *getUnicodeMapFile(GString *encodingName); + FILE *findCMapFile(GString *collection, GString *cMapName); + FILE *findToUnicodeFile(GString *name); + DisplayFontParam *getDisplayFont(GString *fontName); + DisplayFontParam *getDisplayCIDFont(GString *fontName, GString *collection); + GString *getPSFile(); + int getPSPaperWidth(); + int getPSPaperHeight(); + void getPSImageableArea(int *llx, int *lly, int *urx, int *ury); + GBool getPSDuplex(); + GBool getPSCrop(); + GBool getPSExpandSmaller(); + GBool getPSShrinkLarger(); + GBool getPSCenter(); + PSLevel getPSLevel(); + PSFontParam *getPSFont(GString *fontName); + PSFontParam *getPSFont16(GString *fontName, GString *collection, int wMode); + GBool getPSEmbedType1(); + GBool getPSEmbedTrueType(); + GBool getPSEmbedCIDPostScript(); + GBool getPSEmbedCIDTrueType(); + GBool getPSPreload(); + GBool getPSOPI(); + GBool getPSASCIIHex(); + GString *getTextEncodingName(); + EndOfLineKind getTextEOL(); + GBool getTextPageBreaks(); + GBool getTextKeepTinyChars(); + GString *findFontFile(GString *fontName, char **exts); + GString *getInitialZoom(); + GBool getContinuousView(); + GBool getEnableT1lib(); + GBool getEnableFreeType(); + GBool getAntialias(); + GBool getVectorAntialias(); + GBool getStrokeAdjust(); + ScreenType getScreenType(); + int getScreenSize(); + int getScreenDotRadius(); + double getScreenGamma(); + double getScreenBlackThreshold(); + double getScreenWhiteThreshold(); + GString *getURLCommand() { return urlCommand; } + GString *getMovieCommand() { return movieCommand; } + GBool getMapNumericCharNames(); + GBool getMapUnknownCharNames(); + GList *getKeyBinding(int code, int mods, int context); + GBool getPrintCommands(); + GBool getErrQuiet(); + + CharCodeToUnicode *getCIDToUnicode(GString *collection); + CharCodeToUnicode *getUnicodeToUnicode(GString *fontName); + UnicodeMap *getUnicodeMap(GString *encodingName); + CMap *getCMap(GString *collection, GString *cMapName); + UnicodeMap *getTextEncoding(); + + //----- functions to set parameters + + void addDisplayFont(DisplayFontParam *param); + void setPSFile(char *file); + GBool setPSPaperSize(char *size); + void setPSPaperWidth(int width); + void setPSPaperHeight(int height); + void setPSImageableArea(int llx, int lly, int urx, int ury); + void setPSDuplex(GBool duplex); + void setPSCrop(GBool crop); + void setPSExpandSmaller(GBool expand); + void setPSShrinkLarger(GBool shrink); + void setPSCenter(GBool center); + void setPSLevel(PSLevel level); + void setPSEmbedType1(GBool embed); + void setPSEmbedTrueType(GBool embed); + void setPSEmbedCIDPostScript(GBool embed); + void setPSEmbedCIDTrueType(GBool embed); + void setPSPreload(GBool preload); + void setPSOPI(GBool opi); + void setPSASCIIHex(GBool hex); + void setTextEncoding(char *encodingName); + GBool setTextEOL(char *s); + void setTextPageBreaks(GBool pageBreaks); + void setTextKeepTinyChars(GBool keep); + void setInitialZoom(char *s); + void setContinuousView(GBool cont); + GBool setEnableT1lib(char *s); + GBool setEnableFreeType(char *s); + GBool setAntialias(char *s); + GBool setVectorAntialias(char *s); + void setScreenType(ScreenType t); + void setScreenSize(int size); + void setScreenDotRadius(int r); + void setScreenGamma(double gamma); + void setScreenBlackThreshold(double thresh); + void setScreenWhiteThreshold(double thresh); + void setMapNumericCharNames(GBool map); + void setMapUnknownCharNames(GBool map); + void setPrintCommands(GBool printCommandsA); + void setErrQuiet(GBool errQuietA); + + //----- security handlers + + void addSecurityHandler(XpdfSecurityHandler *handler); + XpdfSecurityHandler *getSecurityHandler(char *name); + +private: + + void createDefaultKeyBindings(); + void parseFile(GString *fileName, FILE *f); + void parseNameToUnicode(GList *tokens, GString *fileName, int line); + void parseCIDToUnicode(GList *tokens, GString *fileName, int line); + void parseUnicodeToUnicode(GList *tokens, GString *fileName, int line); + void parseUnicodeMap(GList *tokens, GString *fileName, int line); + void parseCMapDir(GList *tokens, GString *fileName, int line); + void parseToUnicodeDir(GList *tokens, GString *fileName, int line); + void parseDisplayFont(GList *tokens, GHash *fontHash, + DisplayFontParamKind kind, + GString *fileName, int line); + void parsePSFile(GList *tokens, GString *fileName, int line); + void parsePSPaperSize(GList *tokens, GString *fileName, int line); + void parsePSImageableArea(GList *tokens, GString *fileName, int line); + void parsePSLevel(GList *tokens, GString *fileName, int line); + void parsePSFont(GList *tokens, GString *fileName, int line); + void parsePSFont16(char *cmdName, GList *fontList, + GList *tokens, GString *fileName, int line); + void parseTextEncoding(GList *tokens, GString *fileName, int line); + void parseTextEOL(GList *tokens, GString *fileName, int line); + void parseFontDir(GList *tokens, GString *fileName, int line); + void parseInitialZoom(GList *tokens, GString *fileName, int line); + void parseScreenType(GList *tokens, GString *fileName, int line); + void parseBind(GList *tokens, GString *fileName, int line); + void parseUnbind(GList *tokens, GString *fileName, int line); + GBool parseKey(GString *modKeyStr, GString *contextStr, + int *code, int *mods, int *context, + char *cmdName, + GList *tokens, GString *fileName, int line); + void parseCommand(char *cmdName, GString **val, + GList *tokens, GString *fileName, int line); + void parseYesNo(char *cmdName, GBool *flag, + GList *tokens, GString *fileName, int line); + GBool parseYesNo2(char *token, GBool *flag); + void parseInteger(char *cmdName, int *val, + GList *tokens, GString *fileName, int line); + void parseFloat(char *cmdName, double *val, + GList *tokens, GString *fileName, int line); + UnicodeMap *getUnicodeMap2(GString *encodingName); +#ifdef ENABLE_PLUGINS + GBool loadPlugin(char *type, char *name); +#endif + + //----- static tables + + NameToCharCode * // mapping from char name to + macRomanReverseMap; // MacRomanEncoding index + + //----- user-modifiable settings + + GString *baseDir; // base directory - for plugins, etc. + NameToCharCode * // mapping from char name to Unicode + nameToUnicode; + GHash *cidToUnicodes; // files for mappings from char collections + // to Unicode, indexed by collection name + // [GString] + GHash *unicodeToUnicodes; // files for Unicode-to-Unicode mappings, + // indexed by font name pattern [GString] + GHash *residentUnicodeMaps; // mappings from Unicode to char codes, + // indexed by encoding name [UnicodeMap] + GHash *unicodeMaps; // files for mappings from Unicode to char + // codes, indexed by encoding name [GString] + GHash *cMapDirs; // list of CMap dirs, indexed by collection + // name [GList[GString]] + GList *toUnicodeDirs; // list of ToUnicode CMap dirs [GString] + GHash *displayFonts; // display font info, indexed by font name + // [DisplayFontParam] +#ifdef WIN32 + WinFontList *winFontList; // system TrueType fonts +#endif + GHash *displayCIDFonts; // display CID font info, indexed by + // collection [DisplayFontParam] + GHash *displayNamedCIDFonts; // display CID font info, indexed by + // font name [DisplayFontParam] + GString *psFile; // PostScript file or command (for xpdf) + int psPaperWidth; // paper size, in PostScript points, for + int psPaperHeight; // PostScript output + int psImageableLLX, // imageable area, in PostScript points, + psImageableLLY, // for PostScript output + psImageableURX, + psImageableURY; + GBool psCrop; // crop PS output to CropBox + GBool psExpandSmaller; // expand smaller pages to fill paper + GBool psShrinkLarger; // shrink larger pages to fit paper + GBool psCenter; // center pages on the paper + GBool psDuplex; // enable duplexing in PostScript? + PSLevel psLevel; // PostScript level to generate + GHash *psFonts; // PostScript font info, indexed by PDF + // font name [PSFontParam] + GList *psNamedFonts16; // named 16-bit fonts [PSFontParam] + GList *psFonts16; // generic 16-bit fonts [PSFontParam] + GBool psEmbedType1; // embed Type 1 fonts? + GBool psEmbedTrueType; // embed TrueType fonts? + GBool psEmbedCIDPostScript; // embed CID PostScript fonts? + GBool psEmbedCIDTrueType; // embed CID TrueType fonts? + GBool psPreload; // preload PostScript images and forms into + // memory + GBool psOPI; // generate PostScript OPI comments? + GBool psASCIIHex; // use ASCIIHex instead of ASCII85? + GString *textEncoding; // encoding (unicodeMap) to use for text + // output + EndOfLineKind textEOL; // type of EOL marker to use for text + // output + GBool textPageBreaks; // insert end-of-page markers? + GBool textKeepTinyChars; // keep all characters in text output + GList *fontDirs; // list of font dirs [GString] + GString *initialZoom; // initial zoom level + GBool continuousView; // continuous view mode + GBool enableT1lib; // t1lib enable flag + GBool enableFreeType; // FreeType enable flag + GBool antialias; // font anti-aliasing enable flag + GBool vectorAntialias; // vector anti-aliasing enable flag + GBool strokeAdjust; // stroke adjustment enable flag + ScreenType screenType; // halftone screen type + int screenSize; // screen matrix size + int screenDotRadius; // screen dot radius + double screenGamma; // screen gamma correction + double screenBlackThreshold; // screen black clamping threshold + double screenWhiteThreshold; // screen white clamping threshold + GString *urlCommand; // command executed for URL links + GString *movieCommand; // command executed for movie annotations + GBool mapNumericCharNames; // map numeric char names (from font subsets)? + GBool mapUnknownCharNames; // map unknown char names? + GList *keyBindings; // key & mouse button bindings [KeyBinding] + GBool printCommands; // print the drawing commands + GBool errQuiet; // suppress error messages? + + CharCodeToUnicodeCache *cidToUnicodeCache; + CharCodeToUnicodeCache *unicodeToUnicodeCache; + UnicodeMapCache *unicodeMapCache; + CMapCache *cMapCache; + +#ifdef ENABLE_PLUGINS + GList *plugins; // list of plugins [Plugin] + GList *securityHandlers; // list of loaded security handlers + // [XpdfSecurityHandler] +#endif + +#if MULTITHREADED + GMutex mutex; + GMutex unicodeMapCacheMutex; + GMutex cMapCacheMutex; +#endif +}; + +#endif diff --git a/kpdf/xpdf/xpdf/JArithmeticDecoder.cc b/kpdf/xpdf/xpdf/JArithmeticDecoder.cc new file mode 100644 index 00000000..195b73e1 --- /dev/null +++ b/kpdf/xpdf/xpdf/JArithmeticDecoder.cc @@ -0,0 +1,322 @@ +//======================================================================== +// +// JArithmeticDecoder.cc +// +// Copyright 2002-2004 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include "Object.h" +#include "Stream.h" +#include "JArithmeticDecoder.h" + +//------------------------------------------------------------------------ +// JArithmeticDecoderStates +//------------------------------------------------------------------------ + +JArithmeticDecoderStats::JArithmeticDecoderStats(int contextSizeA) { + contextSize = contextSizeA; + cxTab = (Guchar *)gmallocn(contextSize, sizeof(Guchar)); + reset(); +} + +JArithmeticDecoderStats::~JArithmeticDecoderStats() { + gfree(cxTab); +} + +JArithmeticDecoderStats *JArithmeticDecoderStats::copy() { + JArithmeticDecoderStats *stats; + + stats = new JArithmeticDecoderStats(contextSize); + memcpy(stats->cxTab, cxTab, contextSize); + return stats; +} + +void JArithmeticDecoderStats::reset() { + memset(cxTab, 0, contextSize); +} + +void JArithmeticDecoderStats::copyFrom(JArithmeticDecoderStats *stats) { + memcpy(cxTab, stats->cxTab, contextSize); +} + +void JArithmeticDecoderStats::setEntry(Guint cx, int i, int mps) { + cxTab[cx] = (i << 1) + mps; +} + +//------------------------------------------------------------------------ +// JArithmeticDecoder +//------------------------------------------------------------------------ + +Guint JArithmeticDecoder::qeTab[47] = { + 0x56010000, 0x34010000, 0x18010000, 0x0AC10000, + 0x05210000, 0x02210000, 0x56010000, 0x54010000, + 0x48010000, 0x38010000, 0x30010000, 0x24010000, + 0x1C010000, 0x16010000, 0x56010000, 0x54010000, + 0x51010000, 0x48010000, 0x38010000, 0x34010000, + 0x30010000, 0x28010000, 0x24010000, 0x22010000, + 0x1C010000, 0x18010000, 0x16010000, 0x14010000, + 0x12010000, 0x11010000, 0x0AC10000, 0x09C10000, + 0x08A10000, 0x05210000, 0x04410000, 0x02A10000, + 0x02210000, 0x01410000, 0x01110000, 0x00850000, + 0x00490000, 0x00250000, 0x00150000, 0x00090000, + 0x00050000, 0x00010000, 0x56010000 +}; + +int JArithmeticDecoder::nmpsTab[47] = { + 1, 2, 3, 4, 5, 38, 7, 8, 9, 10, 11, 12, 13, 29, 15, 16, + 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, + 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 45, 46 +}; + +int JArithmeticDecoder::nlpsTab[47] = { + 1, 6, 9, 12, 29, 33, 6, 14, 14, 14, 17, 18, 20, 21, 14, 14, + 15, 16, 17, 18, 19, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, + 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 46 +}; + +int JArithmeticDecoder::switchTab[47] = { + 1, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 1, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 +}; + +JArithmeticDecoder::JArithmeticDecoder() { + str = NULL; + dataLen = 0; + limitStream = gFalse; +} + +inline Guint JArithmeticDecoder::readByte() { + if (limitStream) { + --dataLen; + if (dataLen < 0) { + return 0xff; + } + } + return (Guint)str->getChar() & 0xff; +} + +JArithmeticDecoder::~JArithmeticDecoder() { + cleanup(); +} + +void JArithmeticDecoder::start() { + buf0 = readByte(); + buf1 = readByte(); + + // INITDEC + c = (buf0 ^ 0xff) << 16; + byteIn(); + c <<= 7; + ct -= 7; + a = 0x80000000; +} + +void JArithmeticDecoder::restart(int dataLenA) { + int oldDataLen; + + oldDataLen = dataLen; + dataLen = dataLenA; + if (oldDataLen == -1) { + buf1 = readByte(); + } else if (oldDataLen <= -2) { + buf0 = readByte(); + buf1 = readByte(); + } +} + +void JArithmeticDecoder::cleanup() { + if (limitStream) { + while (dataLen > 0) { + buf0 = buf1; + buf1 = readByte(); + } + } +} + +int JArithmeticDecoder::decodeBit(Guint context, + JArithmeticDecoderStats *stats) { + int bit; + Guint qe; + int iCX, mpsCX; + + iCX = stats->cxTab[context] >> 1; + mpsCX = stats->cxTab[context] & 1; + qe = qeTab[iCX]; + a -= qe; + if (c < a) { + if (a & 0x80000000) { + bit = mpsCX; + } else { + // MPS_EXCHANGE + if (a < qe) { + bit = 1 - mpsCX; + if (switchTab[iCX]) { + stats->cxTab[context] = (nlpsTab[iCX] << 1) | (1 - mpsCX); + } else { + stats->cxTab[context] = (nlpsTab[iCX] << 1) | mpsCX; + } + } else { + bit = mpsCX; + stats->cxTab[context] = (nmpsTab[iCX] << 1) | mpsCX; + } + // RENORMD + do { + if (ct == 0) { + byteIn(); + } + a <<= 1; + c <<= 1; + --ct; + } while (!(a & 0x80000000)); + } + } else { + c -= a; + // LPS_EXCHANGE + if (a < qe) { + bit = mpsCX; + stats->cxTab[context] = (nmpsTab[iCX] << 1) | mpsCX; + } else { + bit = 1 - mpsCX; + if (switchTab[iCX]) { + stats->cxTab[context] = (nlpsTab[iCX] << 1) | (1 - mpsCX); + } else { + stats->cxTab[context] = (nlpsTab[iCX] << 1) | mpsCX; + } + } + a = qe; + // RENORMD + do { + if (ct == 0) { + byteIn(); + } + a <<= 1; + c <<= 1; + --ct; + } while (!(a & 0x80000000)); + } + return bit; +} + +int JArithmeticDecoder::decodeByte(Guint context, + JArithmeticDecoderStats *stats) { + int byte; + int i; + + byte = 0; + for (i = 0; i < 8; ++i) { + byte = (byte << 1) | decodeBit(context, stats); + } + return byte; +} + +GBool JArithmeticDecoder::decodeInt(int *x, JArithmeticDecoderStats *stats) { + int s; + Guint v; + int i; + + prev = 1; + s = decodeIntBit(stats); + if (decodeIntBit(stats)) { + if (decodeIntBit(stats)) { + if (decodeIntBit(stats)) { + if (decodeIntBit(stats)) { + if (decodeIntBit(stats)) { + v = 0; + for (i = 0; i < 32; ++i) { + v = (v << 1) | decodeIntBit(stats); + } + v += 4436; + } else { + v = 0; + for (i = 0; i < 12; ++i) { + v = (v << 1) | decodeIntBit(stats); + } + v += 340; + } + } else { + v = 0; + for (i = 0; i < 8; ++i) { + v = (v << 1) | decodeIntBit(stats); + } + v += 84; + } + } else { + v = 0; + for (i = 0; i < 6; ++i) { + v = (v << 1) | decodeIntBit(stats); + } + v += 20; + } + } else { + v = decodeIntBit(stats); + v = (v << 1) | decodeIntBit(stats); + v = (v << 1) | decodeIntBit(stats); + v = (v << 1) | decodeIntBit(stats); + v += 4; + } + } else { + v = decodeIntBit(stats); + v = (v << 1) | decodeIntBit(stats); + } + + if (s) { + if (v == 0) { + return gFalse; + } + *x = -(int)v; + } else { + *x = (int)v; + } + return gTrue; +} + +int JArithmeticDecoder::decodeIntBit(JArithmeticDecoderStats *stats) { + int bit; + + bit = decodeBit(prev, stats); + if (prev < 0x100) { + prev = (prev << 1) | bit; + } else { + prev = (((prev << 1) | bit) & 0x1ff) | 0x100; + } + return bit; +} + +Guint JArithmeticDecoder::decodeIAID(Guint codeLen, + JArithmeticDecoderStats *stats) { + Guint i; + int bit; + + prev = 1; + for (i = 0; i < codeLen; ++i) { + bit = decodeBit(prev, stats); + prev = (prev << 1) | bit; + } + return prev - (1 << codeLen); +} + +void JArithmeticDecoder::byteIn() { + if (buf0 == 0xff) { + if (buf1 > 0x8f) { + ct = 8; + } else { + buf0 = buf1; + buf1 = readByte(); + c = c + 0xfe00 - (buf0 << 9); + ct = 7; + } + } else { + buf0 = buf1; + buf1 = readByte(); + c = c + 0xff00 - (buf0 << 8); + ct = 8; + } +} diff --git a/kpdf/xpdf/xpdf/JArithmeticDecoder.h b/kpdf/xpdf/xpdf/JArithmeticDecoder.h new file mode 100644 index 00000000..a40823dd --- /dev/null +++ b/kpdf/xpdf/xpdf/JArithmeticDecoder.h @@ -0,0 +1,109 @@ +//======================================================================== +// +// JArithmeticDecoder.h +// +// Arithmetic decoder used by the JBIG2 and JPEG2000 decoders. +// +// Copyright 2002-2004 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef JARITHMETICDECODER_H +#define JARITHMETICDECODER_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" + +class Stream; + +//------------------------------------------------------------------------ +// JArithmeticDecoderStats +//------------------------------------------------------------------------ + +class JArithmeticDecoderStats { +public: + + JArithmeticDecoderStats(int contextSizeA); + ~JArithmeticDecoderStats(); + JArithmeticDecoderStats *copy(); + void reset(); + int getContextSize() { return contextSize; } + void copyFrom(JArithmeticDecoderStats *stats); + void setEntry(Guint cx, int i, int mps); + +private: + + Guchar *cxTab; // cxTab[cx] = (i[cx] << 1) + mps[cx] + int contextSize; + + friend class JArithmeticDecoder; +}; + +//------------------------------------------------------------------------ +// JArithmeticDecoder +//------------------------------------------------------------------------ + +class JArithmeticDecoder { +public: + + JArithmeticDecoder(); + ~JArithmeticDecoder(); + + void setStream(Stream *strA) + { str = strA; dataLen = 0; limitStream = gFalse; } + void setStream(Stream *strA, int dataLenA) + { str = strA; dataLen = dataLenA; limitStream = gTrue; } + + // Start decoding on a new stream. This fills the byte buffers and + // runs INITDEC. + void start(); + + // Restart decoding on an interrupted stream. This refills the + // buffers if needed, but does not run INITDEC. (This is used in + // JPEG 2000 streams when codeblock data is split across multiple + // packets/layers.) + void restart(int dataLenA); + + // Read any leftover data in the stream. + void cleanup(); + + // Decode one bit. + int decodeBit(Guint context, JArithmeticDecoderStats *stats); + + // Decode eight bits. + int decodeByte(Guint context, JArithmeticDecoderStats *stats); + + // Returns false for OOB, otherwise sets * and returns true. + GBool decodeInt(int *x, JArithmeticDecoderStats *stats); + + Guint decodeIAID(Guint codeLen, + JArithmeticDecoderStats *stats); + +private: + + Guint readByte(); + int decodeIntBit(JArithmeticDecoderStats *stats); + void byteIn(); + + static Guint qeTab[47]; + static int nmpsTab[47]; + static int nlpsTab[47]; + static int switchTab[47]; + + Guint buf0, buf1; + Guint c, a; + int ct; + + Guint prev; // for the integer decoder + + Stream *str; + int dataLen; + GBool limitStream; +}; + +#endif diff --git a/kpdf/xpdf/xpdf/JBIG2Stream.cc b/kpdf/xpdf/xpdf/JBIG2Stream.cc new file mode 100644 index 00000000..43f17712 --- /dev/null +++ b/kpdf/xpdf/xpdf/JBIG2Stream.cc @@ -0,0 +1,3648 @@ +//======================================================================== +// +// JBIG2Stream.cc +// +// Copyright 2002-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include "GList.h" +#include "Error.h" +#include "JArithmeticDecoder.h" +#include "JBIG2Stream.h" + +//~ share these tables +#include "Stream-CCITT.h" + +//------------------------------------------------------------------------ + +static int contextSize[4] = { 16, 13, 10, 10 }; +static int refContextSize[2] = { 13, 10 }; + +//------------------------------------------------------------------------ +// JBIG2HuffmanTable +//------------------------------------------------------------------------ + +#define jbig2HuffmanLOW 0xfffffffd +#define jbig2HuffmanOOB 0xfffffffe +#define jbig2HuffmanEOT 0xffffffff + +struct JBIG2HuffmanTable { + int val; + Guint prefixLen; + Guint rangeLen; // can also be LOW, OOB, or EOT + Guint prefix; +}; + +JBIG2HuffmanTable huffTableA[] = { + { 0, 1, 4, 0x000 }, + { 16, 2, 8, 0x002 }, + { 272, 3, 16, 0x006 }, + { 65808, 3, 32, 0x007 }, + { 0, 0, jbig2HuffmanEOT, 0 } +}; + +JBIG2HuffmanTable huffTableB[] = { + { 0, 1, 0, 0x000 }, + { 1, 2, 0, 0x002 }, + { 2, 3, 0, 0x006 }, + { 3, 4, 3, 0x00e }, + { 11, 5, 6, 0x01e }, + { 75, 6, 32, 0x03e }, + { 0, 6, jbig2HuffmanOOB, 0x03f }, + { 0, 0, jbig2HuffmanEOT, 0 } +}; + +JBIG2HuffmanTable huffTableC[] = { + { 0, 1, 0, 0x000 }, + { 1, 2, 0, 0x002 }, + { 2, 3, 0, 0x006 }, + { 3, 4, 3, 0x00e }, + { 11, 5, 6, 0x01e }, + { 0, 6, jbig2HuffmanOOB, 0x03e }, + { 75, 7, 32, 0x0fe }, + { -256, 8, 8, 0x0fe }, + { -257, 8, jbig2HuffmanLOW, 0x0ff }, + { 0, 0, jbig2HuffmanEOT, 0 } +}; + +JBIG2HuffmanTable huffTableD[] = { + { 1, 1, 0, 0x000 }, + { 2, 2, 0, 0x002 }, + { 3, 3, 0, 0x006 }, + { 4, 4, 3, 0x00e }, + { 12, 5, 6, 0x01e }, + { 76, 5, 32, 0x01f }, + { 0, 0, jbig2HuffmanEOT, 0 } +}; + +JBIG2HuffmanTable huffTableE[] = { + { 1, 1, 0, 0x000 }, + { 2, 2, 0, 0x002 }, + { 3, 3, 0, 0x006 }, + { 4, 4, 3, 0x00e }, + { 12, 5, 6, 0x01e }, + { 76, 6, 32, 0x03e }, + { -255, 7, 8, 0x07e }, + { -256, 7, jbig2HuffmanLOW, 0x07f }, + { 0, 0, jbig2HuffmanEOT, 0 } +}; + +JBIG2HuffmanTable huffTableF[] = { + { 0, 2, 7, 0x000 }, + { 128, 3, 7, 0x002 }, + { 256, 3, 8, 0x003 }, + { -1024, 4, 9, 0x008 }, + { -512, 4, 8, 0x009 }, + { -256, 4, 7, 0x00a }, + { -32, 4, 5, 0x00b }, + { 512, 4, 9, 0x00c }, + { 1024, 4, 10, 0x00d }, + { -2048, 5, 10, 0x01c }, + { -128, 5, 6, 0x01d }, + { -64, 5, 5, 0x01e }, + { -2049, 6, jbig2HuffmanLOW, 0x03e }, + { 2048, 6, 32, 0x03f }, + { 0, 0, jbig2HuffmanEOT, 0 } +}; + +JBIG2HuffmanTable huffTableG[] = { + { -512, 3, 8, 0x000 }, + { 256, 3, 8, 0x001 }, + { 512, 3, 9, 0x002 }, + { 1024, 3, 10, 0x003 }, + { -1024, 4, 9, 0x008 }, + { -256, 4, 7, 0x009 }, + { -32, 4, 5, 0x00a }, + { 0, 4, 5, 0x00b }, + { 128, 4, 7, 0x00c }, + { -128, 5, 6, 0x01a }, + { -64, 5, 5, 0x01b }, + { 32, 5, 5, 0x01c }, + { 64, 5, 6, 0x01d }, + { -1025, 5, jbig2HuffmanLOW, 0x01e }, + { 2048, 5, 32, 0x01f }, + { 0, 0, jbig2HuffmanEOT, 0 } +}; + +JBIG2HuffmanTable huffTableH[] = { + { 0, 2, 1, 0x000 }, + { 0, 2, jbig2HuffmanOOB, 0x001 }, + { 4, 3, 4, 0x004 }, + { -1, 4, 0, 0x00a }, + { 22, 4, 4, 0x00b }, + { 38, 4, 5, 0x00c }, + { 2, 5, 0, 0x01a }, + { 70, 5, 6, 0x01b }, + { 134, 5, 7, 0x01c }, + { 3, 6, 0, 0x03a }, + { 20, 6, 1, 0x03b }, + { 262, 6, 7, 0x03c }, + { 646, 6, 10, 0x03d }, + { -2, 7, 0, 0x07c }, + { 390, 7, 8, 0x07d }, + { -15, 8, 3, 0x0fc }, + { -5, 8, 1, 0x0fd }, + { -7, 9, 1, 0x1fc }, + { -3, 9, 0, 0x1fd }, + { -16, 9, jbig2HuffmanLOW, 0x1fe }, + { 1670, 9, 32, 0x1ff }, + { 0, 0, jbig2HuffmanEOT, 0 } +}; + +JBIG2HuffmanTable huffTableI[] = { + { 0, 2, jbig2HuffmanOOB, 0x000 }, + { -1, 3, 1, 0x002 }, + { 1, 3, 1, 0x003 }, + { 7, 3, 5, 0x004 }, + { -3, 4, 1, 0x00a }, + { 43, 4, 5, 0x00b }, + { 75, 4, 6, 0x00c }, + { 3, 5, 1, 0x01a }, + { 139, 5, 7, 0x01b }, + { 267, 5, 8, 0x01c }, + { 5, 6, 1, 0x03a }, + { 39, 6, 2, 0x03b }, + { 523, 6, 8, 0x03c }, + { 1291, 6, 11, 0x03d }, + { -5, 7, 1, 0x07c }, + { 779, 7, 9, 0x07d }, + { -31, 8, 4, 0x0fc }, + { -11, 8, 2, 0x0fd }, + { -15, 9, 2, 0x1fc }, + { -7, 9, 1, 0x1fd }, + { -32, 9, jbig2HuffmanLOW, 0x1fe }, + { 3339, 9, 32, 0x1ff }, + { 0, 0, jbig2HuffmanEOT, 0 } +}; + +JBIG2HuffmanTable huffTableJ[] = { + { -2, 2, 2, 0x000 }, + { 6, 2, 6, 0x001 }, + { 0, 2, jbig2HuffmanOOB, 0x002 }, + { -3, 5, 0, 0x018 }, + { 2, 5, 0, 0x019 }, + { 70, 5, 5, 0x01a }, + { 3, 6, 0, 0x036 }, + { 102, 6, 5, 0x037 }, + { 134, 6, 6, 0x038 }, + { 198, 6, 7, 0x039 }, + { 326, 6, 8, 0x03a }, + { 582, 6, 9, 0x03b }, + { 1094, 6, 10, 0x03c }, + { -21, 7, 4, 0x07a }, + { -4, 7, 0, 0x07b }, + { 4, 7, 0, 0x07c }, + { 2118, 7, 11, 0x07d }, + { -5, 8, 0, 0x0fc }, + { 5, 8, 0, 0x0fd }, + { -22, 8, jbig2HuffmanLOW, 0x0fe }, + { 4166, 8, 32, 0x0ff }, + { 0, 0, jbig2HuffmanEOT, 0 } +}; + +JBIG2HuffmanTable huffTableK[] = { + { 1, 1, 0, 0x000 }, + { 2, 2, 1, 0x002 }, + { 4, 4, 0, 0x00c }, + { 5, 4, 1, 0x00d }, + { 7, 5, 1, 0x01c }, + { 9, 5, 2, 0x01d }, + { 13, 6, 2, 0x03c }, + { 17, 7, 2, 0x07a }, + { 21, 7, 3, 0x07b }, + { 29, 7, 4, 0x07c }, + { 45, 7, 5, 0x07d }, + { 77, 7, 6, 0x07e }, + { 141, 7, 32, 0x07f }, + { 0, 0, jbig2HuffmanEOT, 0 } +}; + +JBIG2HuffmanTable huffTableL[] = { + { 1, 1, 0, 0x000 }, + { 2, 2, 0, 0x002 }, + { 3, 3, 1, 0x006 }, + { 5, 5, 0, 0x01c }, + { 6, 5, 1, 0x01d }, + { 8, 6, 1, 0x03c }, + { 10, 7, 0, 0x07a }, + { 11, 7, 1, 0x07b }, + { 13, 7, 2, 0x07c }, + { 17, 7, 3, 0x07d }, + { 25, 7, 4, 0x07e }, + { 41, 8, 5, 0x0fe }, + { 73, 8, 32, 0x0ff }, + { 0, 0, jbig2HuffmanEOT, 0 } +}; + +JBIG2HuffmanTable huffTableM[] = { + { 1, 1, 0, 0x000 }, + { 2, 3, 0, 0x004 }, + { 7, 3, 3, 0x005 }, + { 3, 4, 0, 0x00c }, + { 5, 4, 1, 0x00d }, + { 4, 5, 0, 0x01c }, + { 15, 6, 1, 0x03a }, + { 17, 6, 2, 0x03b }, + { 21, 6, 3, 0x03c }, + { 29, 6, 4, 0x03d }, + { 45, 6, 5, 0x03e }, + { 77, 7, 6, 0x07e }, + { 141, 7, 32, 0x07f }, + { 0, 0, jbig2HuffmanEOT, 0 } +}; + +JBIG2HuffmanTable huffTableN[] = { + { 0, 1, 0, 0x000 }, + { -2, 3, 0, 0x004 }, + { -1, 3, 0, 0x005 }, + { 1, 3, 0, 0x006 }, + { 2, 3, 0, 0x007 }, + { 0, 0, jbig2HuffmanEOT, 0 } +}; + +JBIG2HuffmanTable huffTableO[] = { + { 0, 1, 0, 0x000 }, + { -1, 3, 0, 0x004 }, + { 1, 3, 0, 0x005 }, + { -2, 4, 0, 0x00c }, + { 2, 4, 0, 0x00d }, + { -4, 5, 1, 0x01c }, + { 3, 5, 1, 0x01d }, + { -8, 6, 2, 0x03c }, + { 5, 6, 2, 0x03d }, + { -24, 7, 4, 0x07c }, + { 9, 7, 4, 0x07d }, + { -25, 7, jbig2HuffmanLOW, 0x07e }, + { 25, 7, 32, 0x07f }, + { 0, 0, jbig2HuffmanEOT, 0 } +}; + +//------------------------------------------------------------------------ +// JBIG2HuffmanDecoder +//------------------------------------------------------------------------ + +class JBIG2HuffmanDecoder { +public: + + JBIG2HuffmanDecoder(); + ~JBIG2HuffmanDecoder(); + void setStream(Stream *strA) { str = strA; } + + void reset(); + + // Returns false for OOB, otherwise sets * and returns true. + GBool decodeInt(int *x, JBIG2HuffmanTable *table); + + Guint readBits(Guint n); + Guint readBit(); + + // Sort the table by prefix length and assign prefix values. + void buildTable(JBIG2HuffmanTable *table, Guint len); + +private: + + Stream *str; + Guint buf; + Guint bufLen; +}; + +JBIG2HuffmanDecoder::JBIG2HuffmanDecoder() { + str = NULL; + reset(); +} + +JBIG2HuffmanDecoder::~JBIG2HuffmanDecoder() { +} + +void JBIG2HuffmanDecoder::reset() { + buf = 0; + bufLen = 0; +} + +//~ optimize this +GBool JBIG2HuffmanDecoder::decodeInt(int *x, JBIG2HuffmanTable *table) { + Guint i, len, prefix; + + i = 0; + len = 0; + prefix = 0; + while (table[i].rangeLen != jbig2HuffmanEOT) { + while (len < table[i].prefixLen) { + prefix = (prefix << 1) | readBit(); + ++len; + } + if (prefix == table[i].prefix) { + if (table[i].rangeLen == jbig2HuffmanOOB) { + return gFalse; + } + if (table[i].rangeLen == jbig2HuffmanLOW) { + *x = table[i].val - readBits(32); + } else if (table[i].rangeLen > 0) { + *x = table[i].val + readBits(table[i].rangeLen); + } else { + *x = table[i].val; + } + return gTrue; + } + ++i; + } + return gFalse; +} + +Guint JBIG2HuffmanDecoder::readBits(Guint n) { + Guint x, mask, nLeft; + + mask = (n == 32) ? 0xffffffff : ((1 << n) - 1); + if (bufLen >= n) { + x = (buf >> (bufLen - n)) & mask; + bufLen -= n; + } else { + x = buf & ((1 << bufLen) - 1); + nLeft = n - bufLen; + bufLen = 0; + while (nLeft >= 8) { + x = (x << 8) | (str->getChar() & 0xff); + nLeft -= 8; + } + if (nLeft > 0) { + buf = str->getChar(); + bufLen = 8 - nLeft; + x = (x << nLeft) | ((buf >> bufLen) & ((1 << nLeft) - 1)); + } + } + return x; +} + +Guint JBIG2HuffmanDecoder::readBit() { + if (bufLen == 0) { + buf = str->getChar(); + bufLen = 8; + } + --bufLen; + return (buf >> bufLen) & 1; +} + +void JBIG2HuffmanDecoder::buildTable(JBIG2HuffmanTable *table, Guint len) { + Guint i, j, k, prefix; + JBIG2HuffmanTable tab; + + // stable selection sort: + // - entries with prefixLen > 0, in ascending prefixLen order + // - entry with prefixLen = 0, rangeLen = EOT + // - all other entries with prefixLen = 0 + // (on entry, table[len] has prefixLen = 0, rangeLen = EOT) + for (i = 0; i < len; ++i) { + for (j = i; j < len && table[j].prefixLen == 0; ++j) ; + if (j == len) { + break; + } + for (k = j + 1; k < len; ++k) { + if (table[k].prefixLen > 0 && + table[k].prefixLen < table[j].prefixLen) { + j = k; + } + } + if (j != i) { + tab = table[j]; + for (k = j; k > i; --k) { + table[k] = table[k - 1]; + } + table[i] = tab; + } + } + table[i] = table[len]; + + // assign prefixes + if (table[0].rangeLen != jbig2HuffmanEOT) { + i = 0; + prefix = 0; + table[i++].prefix = prefix++; + for (; table[i].rangeLen != jbig2HuffmanEOT; ++i) { + prefix <<= table[i].prefixLen - table[i-1].prefixLen; + table[i].prefix = prefix++; + } + } +} + +//------------------------------------------------------------------------ +// JBIG2MMRDecoder +//------------------------------------------------------------------------ + +class JBIG2MMRDecoder { +public: + + JBIG2MMRDecoder(); + ~JBIG2MMRDecoder(); + void setStream(Stream *strA) { str = strA; } + void reset(); + int get2DCode(); + int getBlackCode(); + int getWhiteCode(); + Guint get24Bits(); + void skipTo(Guint length); + +private: + + Stream *str; + Guint buf; + Guint bufLen; + Guint nBytesRead; +}; + +JBIG2MMRDecoder::JBIG2MMRDecoder() { + str = NULL; + reset(); +} + +JBIG2MMRDecoder::~JBIG2MMRDecoder() { +} + +void JBIG2MMRDecoder::reset() { + buf = 0; + bufLen = 0; + nBytesRead = 0; +} + +int JBIG2MMRDecoder::get2DCode() { + CCITTCode *p; + + if (bufLen == 0) { + buf = str->getChar() & 0xff; + bufLen = 8; + ++nBytesRead; + p = &twoDimTab1[(buf >> 1) & 0x7f]; + } else if (bufLen == 8) { + p = &twoDimTab1[(buf >> 1) & 0x7f]; + } else { + p = &twoDimTab1[(buf << (7 - bufLen)) & 0x7f]; + if (p->bits < 0 || p->bits > (int)bufLen) { + buf = (buf << 8) | (str->getChar() & 0xff); + bufLen += 8; + ++nBytesRead; + p = &twoDimTab1[(buf >> (bufLen - 7)) & 0x7f]; + } + } + if (p->bits < 0) { + error(str->getPos(), "Bad two dim code in JBIG2 MMR stream"); + return EOF; + } + bufLen -= p->bits; + return p->n; +} + +int JBIG2MMRDecoder::getWhiteCode() { + CCITTCode *p; + Guint code; + + if (bufLen == 0) { + buf = str->getChar() & 0xff; + bufLen = 8; + ++nBytesRead; + } + while (1) { + if (bufLen >= 11 && ((buf >> (bufLen - 7)) & 0x7f) == 0) { + if (bufLen <= 12) { + code = buf << (12 - bufLen); + } else { + code = buf >> (bufLen - 12); + } + p = &whiteTab1[code & 0x1f]; + } else { + if (bufLen <= 9) { + code = buf << (9 - bufLen); + } else { + code = buf >> (bufLen - 9); + } + p = &whiteTab2[code & 0x1ff]; + } + if (p->bits > 0 && p->bits <= (int)bufLen) { + bufLen -= p->bits; + return p->n; + } + if (bufLen >= 12) { + break; + } + buf = (buf << 8) | (str->getChar() & 0xff); + bufLen += 8; + ++nBytesRead; + } + error(str->getPos(), "Bad white code in JBIG2 MMR stream"); + // eat a bit and return a positive number so that the caller doesn't + // go into an infinite loop + --bufLen; + return 1; +} + +int JBIG2MMRDecoder::getBlackCode() { + CCITTCode *p; + Guint code; + + if (bufLen == 0) { + buf = str->getChar() & 0xff; + bufLen = 8; + ++nBytesRead; + } + while (1) { + if (bufLen >= 10 && ((buf >> (bufLen - 6)) & 0x3f) == 0) { + if (bufLen <= 13) { + code = buf << (13 - bufLen); + } else { + code = buf >> (bufLen - 13); + } + p = &blackTab1[code & 0x7f]; + } else if (bufLen >= 7 && ((buf >> (bufLen - 4)) & 0x0f) == 0 && + ((buf >> (bufLen - 6)) & 0x03) != 0) { + if (bufLen <= 12) { + code = buf << (12 - bufLen); + } else { + code = buf >> (bufLen - 12); + } + p = &blackTab2[(code & 0xff) - 64]; + } else { + if (bufLen <= 6) { + code = buf << (6 - bufLen); + } else { + code = buf >> (bufLen - 6); + } + p = &blackTab3[code & 0x3f]; + } + if (p->bits > 0 && p->bits <= (int)bufLen) { + bufLen -= p->bits; + return p->n; + } + if (bufLen >= 13) { + break; + } + buf = (buf << 8) | (str->getChar() & 0xff); + bufLen += 8; + ++nBytesRead; + } + error(str->getPos(), "Bad black code in JBIG2 MMR stream"); + // eat a bit and return a positive number so that the caller doesn't + // go into an infinite loop + --bufLen; + return 1; +} + +Guint JBIG2MMRDecoder::get24Bits() { + while (bufLen < 24) { + buf = (buf << 8) | (str->getChar() & 0xff); + bufLen += 8; + ++nBytesRead; + } + return (buf >> (bufLen - 24)) & 0xffffff; +} + +void JBIG2MMRDecoder::skipTo(Guint length) { + while (nBytesRead < length) { + str->getChar(); + ++nBytesRead; + } +} + +//------------------------------------------------------------------------ +// JBIG2Segment +//------------------------------------------------------------------------ + +enum JBIG2SegmentType { + jbig2SegBitmap, + jbig2SegSymbolDict, + jbig2SegPatternDict, + jbig2SegCodeTable +}; + +class JBIG2Segment { +public: + + JBIG2Segment(Guint segNumA) { segNum = segNumA; } + virtual ~JBIG2Segment() {} + void setSegNum(Guint segNumA) { segNum = segNumA; } + Guint getSegNum() { return segNum; } + virtual JBIG2SegmentType getType() = 0; + +private: + + Guint segNum; +}; + +//------------------------------------------------------------------------ +// JBIG2Bitmap +//------------------------------------------------------------------------ + +struct JBIG2BitmapPtr { + Guchar *p; + int shift; + int x; +}; + +class JBIG2Bitmap: public JBIG2Segment { +public: + + JBIG2Bitmap(Guint segNumA, int wA, int hA); + virtual ~JBIG2Bitmap(); + virtual JBIG2SegmentType getType() { return jbig2SegBitmap; } + JBIG2Bitmap *copy() { return new JBIG2Bitmap(0, this); } + JBIG2Bitmap *getSlice(Guint x, Guint y, Guint wA, Guint hA); + void expand(int newH, Guint pixel); + void clearToZero(); + void clearToOne(); + int getWidth() { return w; } + int getHeight() { return h; } + int getPixel(int x, int y) + { return (x < 0 || x >= w || y < 0 || y >= h) ? 0 : + (data[y * line + (x >> 3)] >> (7 - (x & 7))) & 1; } + void setPixel(int x, int y) + { data[y * line + (x >> 3)] |= 1 << (7 - (x & 7)); } + void clearPixel(int x, int y) + { data[y * line + (x >> 3)] &= 0x7f7f >> (x & 7); } + void getPixelPtr(int x, int y, JBIG2BitmapPtr *ptr); + int nextPixel(JBIG2BitmapPtr *ptr); + void duplicateRow(int yDest, int ySrc); + void combine(JBIG2Bitmap *bitmap, int x, int y, Guint combOp); + Guchar *getDataPtr() { return data; } + int getDataSize() { return h * line; } + +private: + + JBIG2Bitmap(Guint segNumA, JBIG2Bitmap *bitmap); + + int w, h, line; + Guchar *data; +}; + +JBIG2Bitmap::JBIG2Bitmap(Guint segNumA, int wA, int hA): + JBIG2Segment(segNumA) +{ + w = wA; + h = hA; + line = (wA + 7) >> 3; + if (w <= 0 || h <= 0 || line <= 0 || h >= (INT_MAX - 1) / line) { + // force a call to gmalloc(-1), which will throw an exception + h = -1; + line = 2; + } + // need to allocate one extra guard byte for use in combine() + data = (Guchar *)gmalloc(h * line + 1); + data[h * line] = 0; +} + +JBIG2Bitmap::JBIG2Bitmap(Guint segNumA, JBIG2Bitmap *bitmap): + JBIG2Segment(segNumA) +{ + w = bitmap->w; + h = bitmap->h; + line = bitmap->line; + if (w <= 0 || h <= 0 || line <= 0 || h >= (INT_MAX - 1) / line) { + // force a call to gmalloc(-1), which will throw an exception + h = -1; + line = 2; + } + // need to allocate one extra guard byte for use in combine() + data = (Guchar *)gmalloc(h * line + 1); + memcpy(data, bitmap->data, h * line); + data[h * line] = 0; +} + +JBIG2Bitmap::~JBIG2Bitmap() { + gfree(data); +} + +//~ optimize this +JBIG2Bitmap *JBIG2Bitmap::getSlice(Guint x, Guint y, Guint wA, Guint hA) { + JBIG2Bitmap *slice; + Guint xx, yy; + + slice = new JBIG2Bitmap(0, wA, hA); + slice->clearToZero(); + for (yy = 0; yy < hA; ++yy) { + for (xx = 0; xx < wA; ++xx) { + if (getPixel(x + xx, y + yy)) { + slice->setPixel(xx, yy); + } + } + } + return slice; +} + +void JBIG2Bitmap::expand(int newH, Guint pixel) { + if (newH <= h || line <= 0 || newH >= (INT_MAX - 1) / line) { + return; + } + // need to allocate one extra guard byte for use in combine() + data = (Guchar *)grealloc(data, newH * line + 1); + if (pixel) { + memset(data + h * line, 0xff, (newH - h) * line); + } else { + memset(data + h * line, 0x00, (newH - h) * line); + } + h = newH; + data[h * line] = 0; +} + +void JBIG2Bitmap::clearToZero() { + memset(data, 0, h * line); +} + +void JBIG2Bitmap::clearToOne() { + memset(data, 0xff, h * line); +} + +inline void JBIG2Bitmap::getPixelPtr(int x, int y, JBIG2BitmapPtr *ptr) { + if (y < 0 || y >= h || x >= w) { + ptr->p = NULL; + ptr->shift = 0; // make gcc happy + ptr->x = 0; // make gcc happy + } else if (x < 0) { + ptr->p = &data[y * line]; + ptr->shift = 7; + ptr->x = x; + } else { + ptr->p = &data[y * line + (x >> 3)]; + ptr->shift = 7 - (x & 7); + ptr->x = x; + } +} + +inline int JBIG2Bitmap::nextPixel(JBIG2BitmapPtr *ptr) { + int pix; + + if (!ptr->p) { + pix = 0; + } else if (ptr->x < 0) { + ++ptr->x; + pix = 0; + } else { + pix = (*ptr->p >> ptr->shift) & 1; + if (++ptr->x == w) { + ptr->p = NULL; + } else if (ptr->shift == 0) { + ++ptr->p; + ptr->shift = 7; + } else { + --ptr->shift; + } + } + return pix; +} + +void JBIG2Bitmap::duplicateRow(int yDest, int ySrc) { + memcpy(data + yDest * line, data + ySrc * line, line); +} + +void JBIG2Bitmap::combine(JBIG2Bitmap *bitmap, int x, int y, + Guint combOp) { + int x0, x1, y0, y1, xx, yy; + Guchar *srcPtr, *destPtr; + Guint src0, src1, src, dest, s1, s2, m1, m2, m3; + GBool oneByte; + + // check for the pathological case where y = -2^31 + if (y < -0x7fffffff) { + return; + } + if (y < 0) { + y0 = -y; + } else { + y0 = 0; + } + if (y + bitmap->h > h) { + y1 = h - y; + } else { + y1 = bitmap->h; + } + if (y0 >= y1) { + return; + } + + if (x >= 0) { + x0 = x & ~7; + } else { + x0 = 0; + } + x1 = x + bitmap->w; + if (x1 > w) { + x1 = w; + } + if (x0 >= x1) { + return; + } + + s1 = x & 7; + s2 = 8 - s1; + m1 = 0xff >> (x1 & 7); + m2 = 0xff << (((x1 & 7) == 0) ? 0 : 8 - (x1 & 7)); + m3 = (0xff >> s1) & m2; + + oneByte = x0 == ((x1 - 1) & ~7); + + for (yy = y0; yy < y1; ++yy) { + + // one byte per line -- need to mask both left and right side + if (oneByte) { + if (x >= 0) { + destPtr = data + (y + yy) * line + (x >> 3); + srcPtr = bitmap->data + yy * bitmap->line; + dest = *destPtr; + src1 = *srcPtr; + switch (combOp) { + case 0: // or + dest |= (src1 >> s1) & m2; + break; + case 1: // and + dest &= ((0xff00 | src1) >> s1) | m1; + break; + case 2: // xor + dest ^= (src1 >> s1) & m2; + break; + case 3: // xnor + dest ^= ((src1 ^ 0xff) >> s1) & m2; + break; + case 4: // replace + dest = (dest & ~m3) | ((src1 >> s1) & m3); + break; + } + *destPtr = dest; + } else { + destPtr = data + (y + yy) * line; + srcPtr = bitmap->data + yy * bitmap->line + (-x >> 3); + dest = *destPtr; + src1 = *srcPtr; + switch (combOp) { + case 0: // or + dest |= src1 & m2; + break; + case 1: // and + dest &= src1 | m1; + break; + case 2: // xor + dest ^= src1 & m2; + break; + case 3: // xnor + dest ^= (src1 ^ 0xff) & m2; + break; + case 4: // replace + dest = (src1 & m2) | (dest & m1); + break; + } + *destPtr = dest; + } + + // multiple bytes per line -- need to mask left side of left-most + // byte and right side of right-most byte + } else { + + // left-most byte + if (x >= 0) { + destPtr = data + (y + yy) * line + (x >> 3); + srcPtr = bitmap->data + yy * bitmap->line; + src1 = *srcPtr++; + dest = *destPtr; + switch (combOp) { + case 0: // or + dest |= src1 >> s1; + break; + case 1: // and + dest &= (0xff00 | src1) >> s1; + break; + case 2: // xor + dest ^= src1 >> s1; + break; + case 3: // xnor + dest ^= (src1 ^ 0xff) >> s1; + break; + case 4: // replace + dest = (dest & (0xff << s2)) | (src1 >> s1); + break; + } + *destPtr++ = dest; + xx = x0 + 8; + } else { + destPtr = data + (y + yy) * line; + srcPtr = bitmap->data + yy * bitmap->line + (-x >> 3); + src1 = *srcPtr++; + xx = x0; + } + + // middle bytes + for (; xx < x1 - 8; xx += 8) { + dest = *destPtr; + src0 = src1; + src1 = *srcPtr++; + src = (((src0 << 8) | src1) >> s1) & 0xff; + switch (combOp) { + case 0: // or + dest |= src; + break; + case 1: // and + dest &= src; + break; + case 2: // xor + dest ^= src; + break; + case 3: // xnor + dest ^= src ^ 0xff; + break; + case 4: // replace + dest = src; + break; + } + *destPtr++ = dest; + } + + // right-most byte + // note: this last byte (src1) may not actually be used, depending + // on the values of s1, m1, and m2 - and in fact, it may be off + // the edge of the source bitmap, which means we need to allocate + // one extra guard byte at the end of each bitmap + dest = *destPtr; + src0 = src1; + src1 = *srcPtr++; + src = (((src0 << 8) | src1) >> s1) & 0xff; + switch (combOp) { + case 0: // or + dest |= src & m2; + break; + case 1: // and + dest &= src | m1; + break; + case 2: // xor + dest ^= src & m2; + break; + case 3: // xnor + dest ^= (src ^ 0xff) & m2; + break; + case 4: // replace + dest = (src & m2) | (dest & m1); + break; + } + *destPtr = dest; + } + } +} + +//------------------------------------------------------------------------ +// JBIG2SymbolDict +//------------------------------------------------------------------------ + +class JBIG2SymbolDict: public JBIG2Segment { +public: + + JBIG2SymbolDict(Guint segNumA, Guint sizeA); + virtual ~JBIG2SymbolDict(); + virtual JBIG2SegmentType getType() { return jbig2SegSymbolDict; } + Guint getSize() { return size; } + void setBitmap(Guint idx, JBIG2Bitmap *bitmap) { bitmaps[idx] = bitmap; } + JBIG2Bitmap *getBitmap(Guint idx) { return bitmaps[idx]; } + void setGenericRegionStats(JArithmeticDecoderStats *stats) + { genericRegionStats = stats; } + void setRefinementRegionStats(JArithmeticDecoderStats *stats) + { refinementRegionStats = stats; } + JArithmeticDecoderStats *getGenericRegionStats() + { return genericRegionStats; } + JArithmeticDecoderStats *getRefinementRegionStats() + { return refinementRegionStats; } + +private: + + Guint size; + JBIG2Bitmap **bitmaps; + JArithmeticDecoderStats *genericRegionStats; + JArithmeticDecoderStats *refinementRegionStats; +}; + +JBIG2SymbolDict::JBIG2SymbolDict(Guint segNumA, Guint sizeA): + JBIG2Segment(segNumA) +{ + Guint i; + + size = sizeA; + bitmaps = (JBIG2Bitmap **)gmallocn(size, sizeof(JBIG2Bitmap *)); + for (i = 0; i < size; ++i) { + bitmaps[i] = NULL; + } + genericRegionStats = NULL; + refinementRegionStats = NULL; +} + +JBIG2SymbolDict::~JBIG2SymbolDict() { + Guint i; + + for (i = 0; i < size; ++i) { + if (bitmaps[i]) { + delete bitmaps[i]; + } + } + gfree(bitmaps); + if (genericRegionStats) { + delete genericRegionStats; + } + if (refinementRegionStats) { + delete refinementRegionStats; + } +} + +//------------------------------------------------------------------------ +// JBIG2PatternDict +//------------------------------------------------------------------------ + +class JBIG2PatternDict: public JBIG2Segment { +public: + + JBIG2PatternDict(Guint segNumA, Guint sizeA); + virtual ~JBIG2PatternDict(); + virtual JBIG2SegmentType getType() { return jbig2SegPatternDict; } + Guint getSize() { return size; } + void setBitmap(Guint idx, JBIG2Bitmap *bitmap) { bitmaps[idx] = bitmap; } + JBIG2Bitmap *getBitmap(Guint idx) { return bitmaps[idx]; } + +private: + + Guint size; + JBIG2Bitmap **bitmaps; +}; + +JBIG2PatternDict::JBIG2PatternDict(Guint segNumA, Guint sizeA): + JBIG2Segment(segNumA) +{ + size = sizeA; + bitmaps = (JBIG2Bitmap **)gmallocn(size, sizeof(JBIG2Bitmap *)); +} + +JBIG2PatternDict::~JBIG2PatternDict() { + Guint i; + + for (i = 0; i < size; ++i) { + delete bitmaps[i]; + } + gfree(bitmaps); +} + +//------------------------------------------------------------------------ +// JBIG2CodeTable +//------------------------------------------------------------------------ + +class JBIG2CodeTable: public JBIG2Segment { +public: + + JBIG2CodeTable(Guint segNumA, JBIG2HuffmanTable *tableA); + virtual ~JBIG2CodeTable(); + virtual JBIG2SegmentType getType() { return jbig2SegCodeTable; } + JBIG2HuffmanTable *getHuffTable() { return table; } + +private: + + JBIG2HuffmanTable *table; +}; + +JBIG2CodeTable::JBIG2CodeTable(Guint segNumA, JBIG2HuffmanTable *tableA): + JBIG2Segment(segNumA) +{ + table = tableA; +} + +JBIG2CodeTable::~JBIG2CodeTable() { + gfree(table); +} + +//------------------------------------------------------------------------ +// JBIG2Stream +//------------------------------------------------------------------------ + +JBIG2Stream::JBIG2Stream(Stream *strA, Object *globalsStreamA): + FilterStream(strA) +{ + pageBitmap = NULL; + + arithDecoder = new JArithmeticDecoder(); + genericRegionStats = new JArithmeticDecoderStats(1 << 1); + refinementRegionStats = new JArithmeticDecoderStats(1 << 1); + iadhStats = new JArithmeticDecoderStats(1 << 9); + iadwStats = new JArithmeticDecoderStats(1 << 9); + iaexStats = new JArithmeticDecoderStats(1 << 9); + iaaiStats = new JArithmeticDecoderStats(1 << 9); + iadtStats = new JArithmeticDecoderStats(1 << 9); + iaitStats = new JArithmeticDecoderStats(1 << 9); + iafsStats = new JArithmeticDecoderStats(1 << 9); + iadsStats = new JArithmeticDecoderStats(1 << 9); + iardxStats = new JArithmeticDecoderStats(1 << 9); + iardyStats = new JArithmeticDecoderStats(1 << 9); + iardwStats = new JArithmeticDecoderStats(1 << 9); + iardhStats = new JArithmeticDecoderStats(1 << 9); + iariStats = new JArithmeticDecoderStats(1 << 9); + iaidStats = new JArithmeticDecoderStats(1 << 1); + huffDecoder = new JBIG2HuffmanDecoder(); + mmrDecoder = new JBIG2MMRDecoder(); + + globalsStreamA->copy(&globalsStream); + segments = globalSegments = NULL; + curStr = NULL; + dataPtr = dataEnd = NULL; +} + +JBIG2Stream::~JBIG2Stream() { + close(); + globalsStream.free(); + delete arithDecoder; + delete genericRegionStats; + delete refinementRegionStats; + delete iadhStats; + delete iadwStats; + delete iaexStats; + delete iaaiStats; + delete iadtStats; + delete iaitStats; + delete iafsStats; + delete iadsStats; + delete iardxStats; + delete iardyStats; + delete iardwStats; + delete iardhStats; + delete iariStats; + delete iaidStats; + delete huffDecoder; + delete mmrDecoder; + delete str; +} + +void JBIG2Stream::reset() { + // read the globals stream + globalSegments = new GList(); + if (globalsStream.isStream()) { + segments = globalSegments; + curStr = globalsStream.getStream(); + curStr->reset(); + arithDecoder->setStream(curStr); + huffDecoder->setStream(curStr); + mmrDecoder->setStream(curStr); + readSegments(); + curStr->close(); + } + + // read the main stream + segments = new GList(); + curStr = str; + curStr->reset(); + arithDecoder->setStream(curStr); + huffDecoder->setStream(curStr); + mmrDecoder->setStream(curStr); + readSegments(); + + if (pageBitmap) { + dataPtr = pageBitmap->getDataPtr(); + dataEnd = dataPtr + pageBitmap->getDataSize(); + } else { + dataPtr = dataEnd = NULL; + } +} + +void JBIG2Stream::close() { + if (pageBitmap) { + delete pageBitmap; + pageBitmap = NULL; + } + if (segments) { + deleteGList(segments, JBIG2Segment); + segments = NULL; + } + if (globalSegments) { + deleteGList(globalSegments, JBIG2Segment); + globalSegments = NULL; + } + dataPtr = dataEnd = NULL; + FilterStream::close(); +} + +int JBIG2Stream::getChar() { + if (dataPtr && dataPtr < dataEnd) { + return (*dataPtr++ ^ 0xff) & 0xff; + } + return EOF; +} + +int JBIG2Stream::lookChar() { + if (dataPtr && dataPtr < dataEnd) { + return (*dataPtr ^ 0xff) & 0xff; + } + return EOF; +} + +GString *JBIG2Stream::getPSFilter(int /*psLevel*/, char * /*indent*/) { + return NULL; +} + +GBool JBIG2Stream::isBinary(GBool /*last*/) { + return str->isBinary(gTrue); +} + +void JBIG2Stream::readSegments() { + Guint segNum, segFlags, segType, page, segLength; + Guint refFlags, nRefSegs; + Guint *refSegs; + int segDataPos; + int c1, c2, c3; + Guint i; + + while (readULong(&segNum)) { + + // segment header flags + if (!readUByte(&segFlags)) { + goto eofError1; + } + segType = segFlags & 0x3f; + + // referred-to segment count and retention flags + if (!readUByte(&refFlags)) { + goto eofError1; + } + nRefSegs = refFlags >> 5; + if (nRefSegs == 7) { + if ((c1 = curStr->getChar()) == EOF || + (c2 = curStr->getChar()) == EOF || + (c3 = curStr->getChar()) == EOF) { + goto eofError1; + } + refFlags = (refFlags << 24) | (c1 << 16) | (c2 << 8) | c3; + nRefSegs = refFlags & 0x1fffffff; + for (i = 0; i < (nRefSegs + 9) >> 3; ++i) { + c1 = curStr->getChar(); + } + } + + // referred-to segment numbers + refSegs = (Guint *)gmallocn(nRefSegs, sizeof(Guint)); + if (segNum <= 256) { + for (i = 0; i < nRefSegs; ++i) { + if (!readUByte(&refSegs[i])) { + goto eofError2; + } + } + } else if (segNum <= 65536) { + for (i = 0; i < nRefSegs; ++i) { + if (!readUWord(&refSegs[i])) { + goto eofError2; + } + } + } else { + for (i = 0; i < nRefSegs; ++i) { + if (!readULong(&refSegs[i])) { + goto eofError2; + } + } + } + + // segment page association + if (segFlags & 0x40) { + if (!readULong(&page)) { + goto eofError2; + } + } else { + if (!readUByte(&page)) { + goto eofError2; + } + } + + // segment data length + if (!readULong(&segLength)) { + goto eofError2; + } + + // keep track of the start of the segment data + segDataPos = getPos(); + + // check for missing page information segment + if (!pageBitmap && ((segType >= 4 && segType <= 7) || + (segType >= 20 && segType <= 43))) { + error(getPos(), "First JBIG2 segment associated with a page must be a page information segment"); + goto syntaxError; + } + + // read the segment data + switch (segType) { + case 0: + if (!readSymbolDictSeg(segNum, segLength, refSegs, nRefSegs)) { + goto syntaxError; + } + break; + case 4: + readTextRegionSeg(segNum, gFalse, gFalse, segLength, refSegs, nRefSegs); + break; + case 6: + readTextRegionSeg(segNum, gTrue, gFalse, segLength, refSegs, nRefSegs); + break; + case 7: + readTextRegionSeg(segNum, gTrue, gTrue, segLength, refSegs, nRefSegs); + break; + case 16: + readPatternDictSeg(segNum, segLength); + break; + case 20: + readHalftoneRegionSeg(segNum, gFalse, gFalse, segLength, + refSegs, nRefSegs); + break; + case 22: + readHalftoneRegionSeg(segNum, gTrue, gFalse, segLength, + refSegs, nRefSegs); + break; + case 23: + readHalftoneRegionSeg(segNum, gTrue, gTrue, segLength, + refSegs, nRefSegs); + break; + case 36: + readGenericRegionSeg(segNum, gFalse, gFalse, segLength); + break; + case 38: + readGenericRegionSeg(segNum, gTrue, gFalse, segLength); + break; + case 39: + readGenericRegionSeg(segNum, gTrue, gTrue, segLength); + break; + case 40: + readGenericRefinementRegionSeg(segNum, gFalse, gFalse, segLength, + refSegs, nRefSegs); + break; + case 42: + readGenericRefinementRegionSeg(segNum, gTrue, gFalse, segLength, + refSegs, nRefSegs); + break; + case 43: + readGenericRefinementRegionSeg(segNum, gTrue, gTrue, segLength, + refSegs, nRefSegs); + break; + case 48: + readPageInfoSeg(segLength); + break; + case 50: + readEndOfStripeSeg(segLength); + break; + case 52: + readProfilesSeg(segLength); + break; + case 53: + readCodeTableSeg(segNum, segLength); + break; + case 62: + readExtensionSeg(segLength); + break; + default: + error(getPos(), "Unknown segment type in JBIG2 stream"); + for (i = 0; i < segLength; ++i) { + if ((c1 = curStr->getChar()) == EOF) { + goto eofError2; + } + } + break; + } + + // Make sure the segment handler read all of the bytes in the + // segment data, unless this segment is marked as having an + // unknown length (section 7.2.7 of the JBIG2 Final Committee Draft) + + if (segLength != 0xffffffff) { + + int segExtraBytes = segDataPos + segLength - getPos(); + if (segExtraBytes > 0) { + + // If we didn't read all of the bytes in the segment data, + // indicate an error, and throw away the rest of the data. + + // v.3.1.01.13 of the LuraTech PDF Compressor Server will + // sometimes generate an extraneous NULL byte at the end of + // arithmetic-coded symbol dictionary segments when numNewSyms + // == 0. Segments like this often occur for blank pages. + + error(getPos(), "%d extraneous byte%s after segment", + segExtraBytes, (segExtraBytes > 1) ? "s" : ""); + + // Burn through the remaining bytes -- inefficient, but + // hopefully we're not doing this much + + int trash; + for (int i = segExtraBytes; i > 0; i--) { + readByte(&trash); + } + + } else if (segExtraBytes < 0) { + + // If we read more bytes than we should have, according to the + // segment length field, note an error. + + error(getPos(), "Previous segment handler read too many bytes"); + + } + + } + + gfree(refSegs); + } + + return; + + syntaxError: + gfree(refSegs); + return; + + eofError2: + gfree(refSegs); + eofError1: + error(getPos(), "Unexpected EOF in JBIG2 stream"); +} + +GBool JBIG2Stream::readSymbolDictSeg(Guint segNum, Guint /*length*/, + Guint *refSegs, Guint nRefSegs) { + JBIG2SymbolDict *symbolDict; + JBIG2HuffmanTable *huffDHTable, *huffDWTable; + JBIG2HuffmanTable *huffBMSizeTable, *huffAggInstTable; + JBIG2Segment *seg; + GList *codeTables; + JBIG2SymbolDict *inputSymbolDict; + Guint flags, sdTemplate, sdrTemplate, huff, refAgg; + Guint huffDH, huffDW, huffBMSize, huffAggInst; + Guint contextUsed, contextRetained; + int sdATX[4], sdATY[4], sdrATX[2], sdrATY[2]; + Guint numExSyms, numNewSyms, numInputSyms, symCodeLen; + JBIG2Bitmap **bitmaps; + JBIG2Bitmap *collBitmap, *refBitmap; + Guint *symWidths; + Guint symHeight, symWidth, totalWidth, x, symID; + int dh, dw, refAggNum, refDX, refDY, bmSize; + GBool ex; + int run, cnt; + Guint i, j, k; + Guchar *p; + + symWidths = NULL; + + // symbol dictionary flags + if (!readUWord(&flags)) { + goto eofError; + } + sdTemplate = (flags >> 10) & 3; + sdrTemplate = (flags >> 12) & 1; + huff = flags & 1; + refAgg = (flags >> 1) & 1; + huffDH = (flags >> 2) & 3; + huffDW = (flags >> 4) & 3; + huffBMSize = (flags >> 6) & 1; + huffAggInst = (flags >> 7) & 1; + contextUsed = (flags >> 8) & 1; + contextRetained = (flags >> 9) & 1; + + // symbol dictionary AT flags + if (!huff) { + if (sdTemplate == 0) { + if (!readByte(&sdATX[0]) || + !readByte(&sdATY[0]) || + !readByte(&sdATX[1]) || + !readByte(&sdATY[1]) || + !readByte(&sdATX[2]) || + !readByte(&sdATY[2]) || + !readByte(&sdATX[3]) || + !readByte(&sdATY[3])) { + goto eofError; + } + } else { + if (!readByte(&sdATX[0]) || + !readByte(&sdATY[0])) { + goto eofError; + } + } + } + + // symbol dictionary refinement AT flags + if (refAgg && !sdrTemplate) { + if (!readByte(&sdrATX[0]) || + !readByte(&sdrATY[0]) || + !readByte(&sdrATX[1]) || + !readByte(&sdrATY[1])) { + goto eofError; + } + } + + // SDNUMEXSYMS and SDNUMNEWSYMS + if (!readULong(&numExSyms) || !readULong(&numNewSyms)) { + goto eofError; + } + + // get referenced segments: input symbol dictionaries and code tables + codeTables = new GList(); + numInputSyms = 0; + for (i = 0; i < nRefSegs; ++i) { + if ((seg = findSegment(refSegs[i]))) { + if (seg->getType() == jbig2SegSymbolDict) { + j = ((JBIG2SymbolDict *)seg)->getSize(); + if (numInputSyms > UINT_MAX - j) { + error(getPos(), "Too many input symbols in JBIG2 symbol dictionary"); + delete codeTables; + goto eofError; + } + numInputSyms += j; + } else if (seg->getType() == jbig2SegCodeTable) { + codeTables->append(seg); + } + } + } + if (numInputSyms > UINT_MAX - numNewSyms) { + error(getPos(), "Too many input symbols in JBIG2 symbol dictionary"); + delete codeTables; + goto eofError; + } + + // compute symbol code length + symCodeLen = 1; + i = (numInputSyms + numNewSyms) >> 1; + while (i) { + ++symCodeLen; + i >>= 1; + } + + // get the input symbol bitmaps + bitmaps = (JBIG2Bitmap **)gmallocn(numInputSyms + numNewSyms, + sizeof(JBIG2Bitmap *)); + for (i = 0; i < numInputSyms + numNewSyms; ++i) { + bitmaps[i] = NULL; + } + k = 0; + inputSymbolDict = NULL; + for (i = 0; i < nRefSegs; ++i) { + if ((seg = findSegment(refSegs[i]))) { + if (seg->getType() == jbig2SegSymbolDict) { + inputSymbolDict = (JBIG2SymbolDict *)seg; + for (j = 0; j < inputSymbolDict->getSize(); ++j) { + bitmaps[k++] = inputSymbolDict->getBitmap(j); + } + } + } + } + + // get the Huffman tables + huffDHTable = huffDWTable = NULL; // make gcc happy + huffBMSizeTable = huffAggInstTable = NULL; // make gcc happy + i = 0; + if (huff) { + if (huffDH == 0) { + huffDHTable = huffTableD; + } else if (huffDH == 1) { + huffDHTable = huffTableE; + } else { + if (i >= (Guint)codeTables->getLength()) { + goto codeTableError; + } + huffDHTable = ((JBIG2CodeTable *)codeTables->get(i++))->getHuffTable(); + } + if (huffDW == 0) { + huffDWTable = huffTableB; + } else if (huffDW == 1) { + huffDWTable = huffTableC; + } else { + if (i >= (Guint)codeTables->getLength()) { + goto codeTableError; + } + huffDWTable = ((JBIG2CodeTable *)codeTables->get(i++))->getHuffTable(); + } + if (huffBMSize == 0) { + huffBMSizeTable = huffTableA; + } else { + if (i >= (Guint)codeTables->getLength()) { + goto codeTableError; + } + huffBMSizeTable = + ((JBIG2CodeTable *)codeTables->get(i++))->getHuffTable(); + } + if (huffAggInst == 0) { + huffAggInstTable = huffTableA; + } else { + if (i >= (Guint)codeTables->getLength()) { + goto codeTableError; + } + huffAggInstTable = + ((JBIG2CodeTable *)codeTables->get(i++))->getHuffTable(); + } + } + delete codeTables; + + // set up the Huffman decoder + if (huff) { + huffDecoder->reset(); + + // set up the arithmetic decoder + } else { + if (contextUsed && inputSymbolDict) { + resetGenericStats(sdTemplate, inputSymbolDict->getGenericRegionStats()); + } else { + resetGenericStats(sdTemplate, NULL); + } + resetIntStats(symCodeLen); + arithDecoder->start(); + } + + // set up the arithmetic decoder for refinement/aggregation + if (refAgg) { + if (contextUsed && inputSymbolDict) { + resetRefinementStats(sdrTemplate, + inputSymbolDict->getRefinementRegionStats()); + } else { + resetRefinementStats(sdrTemplate, NULL); + } + } + + // allocate symbol widths storage + if (huff && !refAgg) { + symWidths = (Guint *)gmallocn(numNewSyms, sizeof(Guint)); + } + + symHeight = 0; + i = 0; + while (i < numNewSyms) { + + // read the height class delta height + if (huff) { + huffDecoder->decodeInt(&dh, huffDHTable); + } else { + arithDecoder->decodeInt(&dh, iadhStats); + } + if (dh < 0 && (Guint)-dh >= symHeight) { + error(getPos(), "Bad delta-height value in JBIG2 symbol dictionary"); + goto syntaxError; + } + symHeight += dh; + symWidth = 0; + totalWidth = 0; + j = i; + + // read the symbols in this height class + while (1) { + + // read the delta width + if (huff) { + if (!huffDecoder->decodeInt(&dw, huffDWTable)) { + break; + } + } else { + if (!arithDecoder->decodeInt(&dw, iadwStats)) { + break; + } + } + if (dw < 0 && (Guint)-dw >= symWidth) { + error(getPos(), "Bad delta-height value in JBIG2 symbol dictionary"); + goto syntaxError; + } + symWidth += dw; + if (i >= numNewSyms) { + error(getPos(), "Too many symbols in JBIG2 symbol dictionary"); + goto syntaxError; + } + + // using a collective bitmap, so don't read a bitmap here + if (huff && !refAgg) { + symWidths[i] = symWidth; + totalWidth += symWidth; + + // refinement/aggregate coding + } else if (refAgg) { + if (huff) { + if (!huffDecoder->decodeInt(&refAggNum, huffAggInstTable)) { + break; + } + } else { + if (!arithDecoder->decodeInt(&refAggNum, iaaiStats)) { + break; + } + } +#if 0 //~ This special case was added about a year before the final draft + //~ of the JBIG2 spec was released. I have encountered some old + //~ JBIG2 images that predate it. + if (0) { +#else + if (refAggNum == 1) { +#endif + if (huff) { + symID = huffDecoder->readBits(symCodeLen); + huffDecoder->decodeInt(&refDX, huffTableO); + huffDecoder->decodeInt(&refDY, huffTableO); + huffDecoder->decodeInt(&bmSize, huffTableA); + huffDecoder->reset(); + arithDecoder->start(); + } else { + symID = arithDecoder->decodeIAID(symCodeLen, iaidStats); + arithDecoder->decodeInt(&refDX, iardxStats); + arithDecoder->decodeInt(&refDY, iardyStats); + } + if (symID >= numInputSyms + i) { + error(getPos(), "Invalid symbol ID in JBIG2 symbol dictionary"); + goto syntaxError; + } + refBitmap = bitmaps[symID]; + bitmaps[numInputSyms + i] = + readGenericRefinementRegion(symWidth, symHeight, + sdrTemplate, gFalse, + refBitmap, refDX, refDY, + sdrATX, sdrATY); + //~ do we need to use the bmSize value here (in Huffman mode)? + } else { + bitmaps[numInputSyms + i] = + readTextRegion(huff, gTrue, symWidth, symHeight, + refAggNum, 0, numInputSyms + i, NULL, + symCodeLen, bitmaps, 0, 0, 0, 1, 0, + huffTableF, huffTableH, huffTableK, huffTableO, + huffTableO, huffTableO, huffTableO, huffTableA, + sdrTemplate, sdrATX, sdrATY); + } + + // non-ref/agg coding + } else { + bitmaps[numInputSyms + i] = + readGenericBitmap(gFalse, symWidth, symHeight, + sdTemplate, gFalse, gFalse, NULL, + sdATX, sdATY, 0); + } + + ++i; + } + + // read the collective bitmap + if (huff && !refAgg) { + huffDecoder->decodeInt(&bmSize, huffBMSizeTable); + huffDecoder->reset(); + if (bmSize == 0) { + collBitmap = new JBIG2Bitmap(0, totalWidth, symHeight); + bmSize = symHeight * ((totalWidth + 7) >> 3); + p = collBitmap->getDataPtr(); + for (k = 0; k < (Guint)bmSize; ++k) { + *p++ = curStr->getChar(); + } + } else { + collBitmap = readGenericBitmap(gTrue, totalWidth, symHeight, + 0, gFalse, gFalse, NULL, NULL, NULL, + bmSize); + } + x = 0; + for (; j < i; ++j) { + bitmaps[numInputSyms + j] = + collBitmap->getSlice(x, 0, symWidths[j], symHeight); + x += symWidths[j]; + } + delete collBitmap; + } + } + + // create the symbol dict object + symbolDict = new JBIG2SymbolDict(segNum, numExSyms); + + // exported symbol list + i = j = 0; + ex = gFalse; + while (i < numInputSyms + numNewSyms) { + if (huff) { + huffDecoder->decodeInt(&run, huffTableA); + } else { + arithDecoder->decodeInt(&run, iaexStats); + } + if (i + run > numInputSyms + numNewSyms || + (ex && j + run > numExSyms)) { + error(getPos(), "Too many exported symbols in JBIG2 symbol dictionary"); + delete symbolDict; + goto syntaxError; + } + if (ex) { + for (cnt = 0; cnt < run; ++cnt) { + symbolDict->setBitmap(j++, bitmaps[i++]->copy()); + } + } else { + i += run; + } + ex = !ex; + } + if (j != numExSyms) { + error(getPos(), "Too few symbols in JBIG2 symbol dictionary"); + delete symbolDict; + goto syntaxError; + } + + for (i = 0; i < numNewSyms; ++i) { + delete bitmaps[numInputSyms + i]; + } + gfree(bitmaps); + if (symWidths) { + gfree(symWidths); + } + + // save the arithmetic decoder stats + if (!huff && contextRetained) { + symbolDict->setGenericRegionStats(genericRegionStats->copy()); + if (refAgg) { + symbolDict->setRefinementRegionStats(refinementRegionStats->copy()); + } + } + + // store the new symbol dict + segments->append(symbolDict); + + return gTrue; + + codeTableError: + error(getPos(), "Missing code table in JBIG2 symbol dictionary"); + delete codeTables; + + syntaxError: + for (i = 0; i < numNewSyms; ++i) { + if (bitmaps[numInputSyms + i]) { + delete bitmaps[numInputSyms + i]; + } + } + gfree(bitmaps); + if (symWidths) { + gfree(symWidths); + } + return gFalse; + + eofError: + error(getPos(), "Unexpected EOF in JBIG2 stream"); + return gFalse; +} + +void JBIG2Stream::readTextRegionSeg(Guint segNum, GBool imm, + GBool /*lossless*/, Guint /*length*/, + Guint *refSegs, Guint nRefSegs) { + JBIG2Bitmap *bitmap; + JBIG2HuffmanTable runLengthTab[36]; + JBIG2HuffmanTable *symCodeTab; + JBIG2HuffmanTable *huffFSTable, *huffDSTable, *huffDTTable; + JBIG2HuffmanTable *huffRDWTable, *huffRDHTable; + JBIG2HuffmanTable *huffRDXTable, *huffRDYTable, *huffRSizeTable; + JBIG2Segment *seg; + GList *codeTables; + JBIG2SymbolDict *symbolDict; + JBIG2Bitmap **syms; + Guint w, h, x, y, segInfoFlags, extCombOp; + Guint flags, huff, refine, logStrips, refCorner, transposed; + Guint combOp, defPixel, templ; + int sOffset; + Guint huffFlags, huffFS, huffDS, huffDT; + Guint huffRDW, huffRDH, huffRDX, huffRDY, huffRSize; + Guint numInstances, numSyms, symCodeLen; + int atx[2], aty[2]; + Guint i, k, kk; + int j; + + // region segment info field + if (!readULong(&w) || !readULong(&h) || + !readULong(&x) || !readULong(&y) || + !readUByte(&segInfoFlags)) { + goto eofError; + } + extCombOp = segInfoFlags & 7; + + // rest of the text region header + if (!readUWord(&flags)) { + goto eofError; + } + huff = flags & 1; + refine = (flags >> 1) & 1; + logStrips = (flags >> 2) & 3; + refCorner = (flags >> 4) & 3; + transposed = (flags >> 6) & 1; + combOp = (flags >> 7) & 3; + defPixel = (flags >> 9) & 1; + sOffset = (flags >> 10) & 0x1f; + if (sOffset & 0x10) { + sOffset |= -1 - 0x0f; + } + templ = (flags >> 15) & 1; + huffFS = huffDS = huffDT = 0; // make gcc happy + huffRDW = huffRDH = huffRDX = huffRDY = huffRSize = 0; // make gcc happy + if (huff) { + if (!readUWord(&huffFlags)) { + goto eofError; + } + huffFS = huffFlags & 3; + huffDS = (huffFlags >> 2) & 3; + huffDT = (huffFlags >> 4) & 3; + huffRDW = (huffFlags >> 6) & 3; + huffRDH = (huffFlags >> 8) & 3; + huffRDX = (huffFlags >> 10) & 3; + huffRDY = (huffFlags >> 12) & 3; + huffRSize = (huffFlags >> 14) & 1; + } + if (refine && templ == 0) { + if (!readByte(&atx[0]) || !readByte(&aty[0]) || + !readByte(&atx[1]) || !readByte(&aty[1])) { + goto eofError; + } + } + if (!readULong(&numInstances)) { + goto eofError; + } + + // get symbol dictionaries and tables + codeTables = new GList(); + numSyms = 0; + for (i = 0; i < nRefSegs; ++i) { + if ((seg = findSegment(refSegs[i]))) { + if (seg->getType() == jbig2SegSymbolDict) { + numSyms += ((JBIG2SymbolDict *)seg)->getSize(); + } else if (seg->getType() == jbig2SegCodeTable) { + codeTables->append(seg); + } + } else { + error(getPos(), "Invalid segment reference in JBIG2 text region"); + delete codeTables; + return; + } + } + symCodeLen = 0; + i = 1; + while (i < numSyms) { + ++symCodeLen; + i <<= 1; + } + + // get the symbol bitmaps + syms = (JBIG2Bitmap **)gmallocn(numSyms, sizeof(JBIG2Bitmap *)); + kk = 0; + for (i = 0; i < nRefSegs; ++i) { + if ((seg = findSegment(refSegs[i]))) { + if (seg->getType() == jbig2SegSymbolDict) { + symbolDict = (JBIG2SymbolDict *)seg; + for (k = 0; k < symbolDict->getSize(); ++k) { + syms[kk++] = symbolDict->getBitmap(k); + } + } + } + } + + // get the Huffman tables + huffFSTable = huffDSTable = huffDTTable = NULL; // make gcc happy + huffRDWTable = huffRDHTable = NULL; // make gcc happy + huffRDXTable = huffRDYTable = huffRSizeTable = NULL; // make gcc happy + i = 0; + if (huff) { + if (huffFS == 0) { + huffFSTable = huffTableF; + } else if (huffFS == 1) { + huffFSTable = huffTableG; + } else { + if (i >= (Guint)codeTables->getLength()) { + goto codeTableError; + } + huffFSTable = ((JBIG2CodeTable *)codeTables->get(i++))->getHuffTable(); + } + if (huffDS == 0) { + huffDSTable = huffTableH; + } else if (huffDS == 1) { + huffDSTable = huffTableI; + } else if (huffDS == 2) { + huffDSTable = huffTableJ; + } else { + if (i >= (Guint)codeTables->getLength()) { + goto codeTableError; + } + huffDSTable = ((JBIG2CodeTable *)codeTables->get(i++))->getHuffTable(); + } + if (huffDT == 0) { + huffDTTable = huffTableK; + } else if (huffDT == 1) { + huffDTTable = huffTableL; + } else if (huffDT == 2) { + huffDTTable = huffTableM; + } else { + if (i >= (Guint)codeTables->getLength()) { + goto codeTableError; + } + huffDTTable = ((JBIG2CodeTable *)codeTables->get(i++))->getHuffTable(); + } + if (huffRDW == 0) { + huffRDWTable = huffTableN; + } else if (huffRDW == 1) { + huffRDWTable = huffTableO; + } else { + if (i >= (Guint)codeTables->getLength()) { + goto codeTableError; + } + huffRDWTable = ((JBIG2CodeTable *)codeTables->get(i++))->getHuffTable(); + } + if (huffRDH == 0) { + huffRDHTable = huffTableN; + } else if (huffRDH == 1) { + huffRDHTable = huffTableO; + } else { + if (i >= (Guint)codeTables->getLength()) { + goto codeTableError; + } + huffRDHTable = ((JBIG2CodeTable *)codeTables->get(i++))->getHuffTable(); + } + if (huffRDX == 0) { + huffRDXTable = huffTableN; + } else if (huffRDX == 1) { + huffRDXTable = huffTableO; + } else { + if (i >= (Guint)codeTables->getLength()) { + goto codeTableError; + } + huffRDXTable = ((JBIG2CodeTable *)codeTables->get(i++))->getHuffTable(); + } + if (huffRDY == 0) { + huffRDYTable = huffTableN; + } else if (huffRDY == 1) { + huffRDYTable = huffTableO; + } else { + if (i >= (Guint)codeTables->getLength()) { + goto codeTableError; + } + huffRDYTable = ((JBIG2CodeTable *)codeTables->get(i++))->getHuffTable(); + } + if (huffRSize == 0) { + huffRSizeTable = huffTableA; + } else { + if (i >= (Guint)codeTables->getLength()) { + goto codeTableError; + } + huffRSizeTable = + ((JBIG2CodeTable *)codeTables->get(i++))->getHuffTable(); + } + } + delete codeTables; + + // symbol ID Huffman decoding table + if (huff) { + huffDecoder->reset(); + for (i = 0; i < 32; ++i) { + runLengthTab[i].val = i; + runLengthTab[i].prefixLen = huffDecoder->readBits(4); + runLengthTab[i].rangeLen = 0; + } + runLengthTab[32].val = 0x103; + runLengthTab[32].prefixLen = huffDecoder->readBits(4); + runLengthTab[32].rangeLen = 2; + runLengthTab[33].val = 0x203; + runLengthTab[33].prefixLen = huffDecoder->readBits(4); + runLengthTab[33].rangeLen = 3; + runLengthTab[34].val = 0x20b; + runLengthTab[34].prefixLen = huffDecoder->readBits(4); + runLengthTab[34].rangeLen = 7; + runLengthTab[35].prefixLen = 0; + runLengthTab[35].rangeLen = jbig2HuffmanEOT; + huffDecoder->buildTable(runLengthTab, 35); + symCodeTab = (JBIG2HuffmanTable *)gmallocn(numSyms + 1, + sizeof(JBIG2HuffmanTable)); + for (i = 0; i < numSyms; ++i) { + symCodeTab[i].val = i; + symCodeTab[i].rangeLen = 0; + } + i = 0; + while (i < numSyms) { + huffDecoder->decodeInt(&j, runLengthTab); + if (j > 0x200) { + for (j -= 0x200; j && i < numSyms; --j) { + symCodeTab[i++].prefixLen = 0; + } + } else if (j > 0x100) { + for (j -= 0x100; j && i < numSyms; --j) { + symCodeTab[i].prefixLen = symCodeTab[i-1].prefixLen; + ++i; + } + } else { + symCodeTab[i++].prefixLen = j; + } + } + symCodeTab[numSyms].prefixLen = 0; + symCodeTab[numSyms].rangeLen = jbig2HuffmanEOT; + huffDecoder->buildTable(symCodeTab, numSyms); + huffDecoder->reset(); + + // set up the arithmetic decoder + } else { + symCodeTab = NULL; + resetIntStats(symCodeLen); + arithDecoder->start(); + } + if (refine) { + resetRefinementStats(templ, NULL); + } + + bitmap = readTextRegion(huff, refine, w, h, numInstances, + logStrips, numSyms, symCodeTab, symCodeLen, syms, + defPixel, combOp, transposed, refCorner, sOffset, + huffFSTable, huffDSTable, huffDTTable, + huffRDWTable, huffRDHTable, + huffRDXTable, huffRDYTable, huffRSizeTable, + templ, atx, aty); + + gfree(syms); + + // combine the region bitmap into the page bitmap + if (imm) { + if (pageH == 0xffffffff && y + h > curPageH) { + pageBitmap->expand(y + h, pageDefPixel); + } + pageBitmap->combine(bitmap, x, y, extCombOp); + delete bitmap; + + // store the region bitmap + } else { + bitmap->setSegNum(segNum); + segments->append(bitmap); + } + + // clean up the Huffman decoder + if (huff) { + gfree(symCodeTab); + } + + return; + + codeTableError: + error(getPos(), "Missing code table in JBIG2 text region"); + gfree(codeTables); + delete syms; + return; + + eofError: + error(getPos(), "Unexpected EOF in JBIG2 stream"); + return; +} + +JBIG2Bitmap *JBIG2Stream::readTextRegion(GBool huff, GBool refine, + int w, int h, + Guint numInstances, + Guint logStrips, + int numSyms, + JBIG2HuffmanTable *symCodeTab, + Guint symCodeLen, + JBIG2Bitmap **syms, + Guint defPixel, Guint combOp, + Guint transposed, Guint refCorner, + int sOffset, + JBIG2HuffmanTable *huffFSTable, + JBIG2HuffmanTable *huffDSTable, + JBIG2HuffmanTable *huffDTTable, + JBIG2HuffmanTable *huffRDWTable, + JBIG2HuffmanTable *huffRDHTable, + JBIG2HuffmanTable *huffRDXTable, + JBIG2HuffmanTable *huffRDYTable, + JBIG2HuffmanTable *huffRSizeTable, + Guint templ, + int *atx, int *aty) { + JBIG2Bitmap *bitmap; + JBIG2Bitmap *symbolBitmap; + Guint strips; + int t, dt, tt, s, ds, sFirst, j; + int rdw, rdh, rdx, rdy, ri, refDX, refDY, bmSize; + Guint symID, inst, bw, bh; + + strips = 1 << logStrips; + + // allocate the bitmap + bitmap = new JBIG2Bitmap(0, w, h); + if (defPixel) { + bitmap->clearToOne(); + } else { + bitmap->clearToZero(); + } + + // decode initial T value + if (huff) { + huffDecoder->decodeInt(&t, huffDTTable); + } else { + arithDecoder->decodeInt(&t, iadtStats); + } + t *= -(int)strips; + + inst = 0; + sFirst = 0; + while (inst < numInstances) { + + // decode delta-T + if (huff) { + huffDecoder->decodeInt(&dt, huffDTTable); + } else { + arithDecoder->decodeInt(&dt, iadtStats); + } + t += dt * strips; + + // first S value + if (huff) { + huffDecoder->decodeInt(&ds, huffFSTable); + } else { + arithDecoder->decodeInt(&ds, iafsStats); + } + sFirst += ds; + s = sFirst; + + // read the instances + while (1) { + + // T value + if (strips == 1) { + dt = 0; + } else if (huff) { + dt = huffDecoder->readBits(logStrips); + } else { + arithDecoder->decodeInt(&dt, iaitStats); + } + tt = t + dt; + + // symbol ID + if (huff) { + if (symCodeTab) { + huffDecoder->decodeInt(&j, symCodeTab); + symID = (Guint)j; + } else { + symID = huffDecoder->readBits(symCodeLen); + } + } else { + symID = arithDecoder->decodeIAID(symCodeLen, iaidStats); + } + + if (symID >= (Guint)numSyms) { + error(getPos(), "Invalid symbol number in JBIG2 text region"); + } else { + + // get the symbol bitmap + symbolBitmap = NULL; + if (refine) { + if (huff) { + ri = (int)huffDecoder->readBit(); + } else { + arithDecoder->decodeInt(&ri, iariStats); + } + } else { + ri = 0; + } + if (ri) { + if (huff) { + huffDecoder->decodeInt(&rdw, huffRDWTable); + huffDecoder->decodeInt(&rdh, huffRDHTable); + huffDecoder->decodeInt(&rdx, huffRDXTable); + huffDecoder->decodeInt(&rdy, huffRDYTable); + huffDecoder->decodeInt(&bmSize, huffRSizeTable); + huffDecoder->reset(); + arithDecoder->start(); + } else { + arithDecoder->decodeInt(&rdw, iardwStats); + arithDecoder->decodeInt(&rdh, iardhStats); + arithDecoder->decodeInt(&rdx, iardxStats); + arithDecoder->decodeInt(&rdy, iardyStats); + } + refDX = ((rdw >= 0) ? rdw : rdw - 1) / 2 + rdx; + refDY = ((rdh >= 0) ? rdh : rdh - 1) / 2 + rdy; + + symbolBitmap = + readGenericRefinementRegion(rdw + syms[symID]->getWidth(), + rdh + syms[symID]->getHeight(), + templ, gFalse, syms[symID], + refDX, refDY, atx, aty); + //~ do we need to use the bmSize value here (in Huffman mode)? + } else { + symbolBitmap = syms[symID]; + } + + // combine the symbol bitmap into the region bitmap + //~ something is wrong here - refCorner shouldn't degenerate into + //~ two cases + bw = symbolBitmap->getWidth() - 1; + bh = symbolBitmap->getHeight() - 1; + if (transposed) { + switch (refCorner) { + case 0: // bottom left + bitmap->combine(symbolBitmap, tt, s, combOp); + break; + case 1: // top left + bitmap->combine(symbolBitmap, tt, s, combOp); + break; + case 2: // bottom right + bitmap->combine(symbolBitmap, tt - bw, s, combOp); + break; + case 3: // top right + bitmap->combine(symbolBitmap, tt - bw, s, combOp); + break; + } + s += bh; + } else { + switch (refCorner) { + case 0: // bottom left + bitmap->combine(symbolBitmap, s, tt - bh, combOp); + break; + case 1: // top left + bitmap->combine(symbolBitmap, s, tt, combOp); + break; + case 2: // bottom right + bitmap->combine(symbolBitmap, s, tt - bh, combOp); + break; + case 3: // top right + bitmap->combine(symbolBitmap, s, tt, combOp); + break; + } + s += bw; + } + if (ri) { + delete symbolBitmap; + } + } + + // next instance + ++inst; + + // next S value + if (huff) { + if (!huffDecoder->decodeInt(&ds, huffDSTable)) { + break; + } + } else { + if (!arithDecoder->decodeInt(&ds, iadsStats)) { + break; + } + } + s += sOffset + ds; + } + } + + return bitmap; +} + +void JBIG2Stream::readPatternDictSeg(Guint segNum, Guint length) { + JBIG2PatternDict *patternDict; + JBIG2Bitmap *bitmap; + Guint flags, patternW, patternH, grayMax, templ, mmr; + int atx[4], aty[4]; + Guint i, x; + + // halftone dictionary flags, pattern width and height, max gray value + if (!readUByte(&flags) || + !readUByte(&patternW) || + !readUByte(&patternH) || + !readULong(&grayMax)) { + goto eofError; + } + templ = (flags >> 1) & 3; + mmr = flags & 1; + + // set up the arithmetic decoder + if (!mmr) { + resetGenericStats(templ, NULL); + arithDecoder->start(); + } + + // read the bitmap + atx[0] = -(int)patternW; aty[0] = 0; + atx[1] = -3; aty[1] = -1; + atx[2] = 2; aty[2] = -2; + atx[3] = -2; aty[3] = -2; + bitmap = readGenericBitmap(mmr, (grayMax + 1) * patternW, patternH, + templ, gFalse, gFalse, NULL, + atx, aty, length - 7); + + // create the pattern dict object + patternDict = new JBIG2PatternDict(segNum, grayMax + 1); + + // split up the bitmap + x = 0; + for (i = 0; i <= grayMax; ++i) { + patternDict->setBitmap(i, bitmap->getSlice(x, 0, patternW, patternH)); + x += patternW; + } + + // free memory + delete bitmap; + + // store the new pattern dict + segments->append(patternDict); + + return; + + eofError: + error(getPos(), "Unexpected EOF in JBIG2 stream"); +} + +void JBIG2Stream::readHalftoneRegionSeg(Guint segNum, GBool imm, + GBool /*lossless*/, Guint /*length*/, + Guint *refSegs, Guint nRefSegs) { + JBIG2Bitmap *bitmap; + JBIG2Segment *seg; + JBIG2PatternDict *patternDict; + JBIG2Bitmap *skipBitmap; + Guint *grayImg; + JBIG2Bitmap *grayBitmap; + JBIG2Bitmap *patternBitmap; + Guint w, h, x, y, segInfoFlags, extCombOp; + Guint flags, mmr, templ, enableSkip, combOp; + Guint gridW, gridH, stepX, stepY, patW, patH; + int atx[4], aty[4]; + int gridX, gridY, xx, yy, bit, j; + Guint bpp, m, n, i; + + // region segment info field + if (!readULong(&w) || !readULong(&h) || + !readULong(&x) || !readULong(&y) || + !readUByte(&segInfoFlags)) { + goto eofError; + } + extCombOp = segInfoFlags & 7; + + // rest of the halftone region header + if (!readUByte(&flags)) { + goto eofError; + } + mmr = flags & 1; + templ = (flags >> 1) & 3; + enableSkip = (flags >> 3) & 1; + combOp = (flags >> 4) & 7; + if (!readULong(&gridW) || !readULong(&gridH) || + !readLong(&gridX) || !readLong(&gridY) || + !readUWord(&stepX) || !readUWord(&stepY)) { + goto eofError; + } + if (w == 0 || h == 0 || w >= INT_MAX / h) { + error(getPos(), "Bad bitmap size in JBIG2 halftone segment"); + return; + } + if (gridH == 0 || gridW >= INT_MAX / gridH) { + error(getPos(), "Bad grid size in JBIG2 halftone segment"); + return; + } + + // get pattern dictionary + if (nRefSegs != 1) { + error(getPos(), "Bad symbol dictionary reference in JBIG2 halftone segment"); + return; + } + if (!(seg = findSegment(refSegs[0])) || + seg->getType() != jbig2SegPatternDict) { + error(getPos(), "Bad symbol dictionary reference in JBIG2 halftone segment"); + return; + } + patternDict = (JBIG2PatternDict *)seg; + bpp = 0; + i = 1; + while (i < patternDict->getSize()) { + ++bpp; + i <<= 1; + } + patW = patternDict->getBitmap(0)->getWidth(); + patH = patternDict->getBitmap(0)->getHeight(); + + // set up the arithmetic decoder + if (!mmr) { + resetGenericStats(templ, NULL); + arithDecoder->start(); + } + + // allocate the bitmap + bitmap = new JBIG2Bitmap(segNum, w, h); + if (flags & 0x80) { // HDEFPIXEL + bitmap->clearToOne(); + } else { + bitmap->clearToZero(); + } + + // compute the skip bitmap + skipBitmap = NULL; + if (enableSkip) { + skipBitmap = new JBIG2Bitmap(0, gridW, gridH); + skipBitmap->clearToZero(); + for (m = 0; m < gridH; ++m) { + for (n = 0; n < gridW; ++n) { + xx = gridX + m * stepY + n * stepX; + yy = gridY + m * stepX - n * stepY; + if (((xx + (int)patW) >> 8) <= 0 || (xx >> 8) >= (int)w || + ((yy + (int)patH) >> 8) <= 0 || (yy >> 8) >= (int)h) { + skipBitmap->setPixel(n, m); + } + } + } + } + + // read the gray-scale image + grayImg = (Guint *)gmallocn(gridW * gridH, sizeof(Guint)); + memset(grayImg, 0, gridW * gridH * sizeof(Guint)); + atx[0] = templ <= 1 ? 3 : 2; aty[0] = -1; + atx[1] = -3; aty[1] = -1; + atx[2] = 2; aty[2] = -2; + atx[3] = -2; aty[3] = -2; + for (j = bpp - 1; j >= 0; --j) { + grayBitmap = readGenericBitmap(mmr, gridW, gridH, templ, gFalse, + enableSkip, skipBitmap, atx, aty, -1); + i = 0; + for (m = 0; m < gridH; ++m) { + for (n = 0; n < gridW; ++n) { + bit = grayBitmap->getPixel(n, m) ^ (grayImg[i] & 1); + grayImg[i] = (grayImg[i] << 1) | bit; + ++i; + } + } + delete grayBitmap; + } + + // decode the image + i = 0; + for (m = 0; m < gridH; ++m) { + xx = gridX + m * stepY; + yy = gridY + m * stepX; + for (n = 0; n < gridW; ++n) { + if (!(enableSkip && skipBitmap->getPixel(n, m))) { + patternBitmap = patternDict->getBitmap(grayImg[i]); + bitmap->combine(patternBitmap, xx >> 8, yy >> 8, combOp); + } + xx += stepX; + yy -= stepY; + ++i; + } + } + + gfree(grayImg); + if (skipBitmap) { + delete skipBitmap; + } + + // combine the region bitmap into the page bitmap + if (imm) { + if (pageH == 0xffffffff && y + h > curPageH) { + pageBitmap->expand(y + h, pageDefPixel); + } + pageBitmap->combine(bitmap, x, y, extCombOp); + delete bitmap; + + // store the region bitmap + } else { + segments->append(bitmap); + } + + return; + + eofError: + error(getPos(), "Unexpected EOF in JBIG2 stream"); +} + +void JBIG2Stream::readGenericRegionSeg(Guint segNum, GBool imm, + GBool /*lossless*/, Guint length) { + JBIG2Bitmap *bitmap; + Guint w, h, x, y, segInfoFlags, extCombOp; + Guint flags, mmr, templ, tpgdOn; + int atx[4], aty[4]; + + // region segment info field + if (!readULong(&w) || !readULong(&h) || + !readULong(&x) || !readULong(&y) || + !readUByte(&segInfoFlags)) { + goto eofError; + } + extCombOp = segInfoFlags & 7; + + // rest of the generic region segment header + if (!readUByte(&flags)) { + goto eofError; + } + mmr = flags & 1; + templ = (flags >> 1) & 3; + tpgdOn = (flags >> 3) & 1; + + // AT flags + if (!mmr) { + if (templ == 0) { + if (!readByte(&atx[0]) || + !readByte(&aty[0]) || + !readByte(&atx[1]) || + !readByte(&aty[1]) || + !readByte(&atx[2]) || + !readByte(&aty[2]) || + !readByte(&atx[3]) || + !readByte(&aty[3])) { + goto eofError; + } + } else { + if (!readByte(&atx[0]) || + !readByte(&aty[0])) { + goto eofError; + } + } + } + + // set up the arithmetic decoder + if (!mmr) { + resetGenericStats(templ, NULL); + arithDecoder->start(); + } + + // read the bitmap + bitmap = readGenericBitmap(mmr, w, h, templ, tpgdOn, gFalse, + NULL, atx, aty, mmr ? length - 18 : 0); + + // combine the region bitmap into the page bitmap + if (imm) { + if (pageH == 0xffffffff && y + h > curPageH) { + pageBitmap->expand(y + h, pageDefPixel); + } + pageBitmap->combine(bitmap, x, y, extCombOp); + delete bitmap; + + // store the region bitmap + } else { + bitmap->setSegNum(segNum); + segments->append(bitmap); + } + + return; + + eofError: + error(getPos(), "Unexpected EOF in JBIG2 stream"); +} + +inline void JBIG2Stream::mmrAddPixels(int a1, int blackPixels, + int *codingLine, int *a0i, int w) { + if (a1 > codingLine[*a0i]) { + if (a1 > w) { + error(getPos(), "JBIG2 MMR row is wrong length ({0:d})", a1); + a1 = w; + } + if ((*a0i & 1) ^ blackPixels) { + ++*a0i; + } + codingLine[*a0i] = a1; + } +} + +inline void JBIG2Stream::mmrAddPixelsNeg(int a1, int blackPixels, + int *codingLine, int *a0i, int w) { + if (a1 > codingLine[*a0i]) { + if (a1 > w) { + error(getPos(), "JBIG2 MMR row is wrong length ({0:d})", a1); + a1 = w; + } + if ((*a0i & 1) ^ blackPixels) { + ++*a0i; + } + codingLine[*a0i] = a1; + } else if (a1 < codingLine[*a0i]) { + if (a1 < 0) { + error(getPos(), "Invalid JBIG2 MMR code"); + a1 = 0; + } + while (*a0i > 0 && a1 <= codingLine[*a0i - 1]) { + --*a0i; + } + codingLine[*a0i] = a1; + } +} + +JBIG2Bitmap *JBIG2Stream::readGenericBitmap(GBool mmr, int w, int h, + int templ, GBool tpgdOn, + GBool useSkip, JBIG2Bitmap *skip, + int *atx, int *aty, + int mmrDataLength) { + JBIG2Bitmap *bitmap; + GBool ltp; + Guint ltpCX, cx, cx0, cx1, cx2; + JBIG2BitmapPtr cxPtr0, cxPtr1; + JBIG2BitmapPtr atPtr0, atPtr1, atPtr2, atPtr3; + int *refLine, *codingLine; + int code1, code2, code3; + int x, y, a0i, b1i, blackPixels, pix, i; + + bitmap = new JBIG2Bitmap(0, w, h); + bitmap->clearToZero(); + + //----- MMR decode + + if (mmr) { + + mmrDecoder->reset(); + if (w > INT_MAX - 2) { + error(getPos(), "Bad width in JBIG2 generic bitmap"); + // force a call to gmalloc(-1), which will throw an exception + w = -3; + } + // 0 <= codingLine[0] < codingLine[1] < ... < codingLine[n] = w + // ---> max codingLine size = w + 1 + // refLine has one extra guard entry at the end + // ---> max refLine size = w + 2 + codingLine = (int *)gmallocn(w + 1, sizeof(int)); + refLine = (int *)gmallocn(w + 2, sizeof(int)); + codingLine[0] = w; + + for (y = 0; y < h; ++y) { + + // copy coding line to ref line + for (i = 0; codingLine[i] < w; ++i) { + refLine[i] = codingLine[i]; + } + refLine[i++] = w; + refLine[i] = w; + + // decode a line + codingLine[0] = 0; + a0i = 0; + b1i = 0; + blackPixels = 0; + // invariant: + // refLine[b1i-1] <= codingLine[a0i] < refLine[b1i] < refLine[b1i+1] <= w + // exception at left edge: + // codingLine[a0i = 0] = refLine[b1i = 0] = 0 is possible + // exception at right edge: + // refLine[b1i] = refLine[b1i+1] = w is possible + while (codingLine[a0i] < w) { + code1 = mmrDecoder->get2DCode(); + switch (code1) { + case twoDimPass: + mmrAddPixels(refLine[b1i + 1], blackPixels, codingLine, &a0i, w); + if (refLine[b1i + 1] < w) { + b1i += 2; + } + break; + case twoDimHoriz: + code1 = code2 = 0; + if (blackPixels) { + do { + code1 += code3 = mmrDecoder->getBlackCode(); + } while (code3 >= 64); + do { + code2 += code3 = mmrDecoder->getWhiteCode(); + } while (code3 >= 64); + } else { + do { + code1 += code3 = mmrDecoder->getWhiteCode(); + } while (code3 >= 64); + do { + code2 += code3 = mmrDecoder->getBlackCode(); + } while (code3 >= 64); + } + mmrAddPixels(codingLine[a0i] + code1, blackPixels, + codingLine, &a0i, w); + if (codingLine[a0i] < w) { + mmrAddPixels(codingLine[a0i] + code2, blackPixels ^ 1, + codingLine, &a0i, w); + } + while (refLine[b1i] <= codingLine[a0i] && refLine[b1i] < w) { + b1i += 2; + } + break; + case twoDimVertR3: + mmrAddPixels(refLine[b1i] + 3, blackPixels, codingLine, &a0i, w); + blackPixels ^= 1; + if (codingLine[a0i] < w) { + ++b1i; + while (refLine[b1i] <= codingLine[a0i] && refLine[b1i] < w) { + b1i += 2; + } + } + break; + case twoDimVertR2: + mmrAddPixels(refLine[b1i] + 2, blackPixels, codingLine, &a0i, w); + blackPixels ^= 1; + if (codingLine[a0i] < w) { + ++b1i; + while (refLine[b1i] <= codingLine[a0i] && refLine[b1i] < w) { + b1i += 2; + } + } + break; + case twoDimVertR1: + mmrAddPixels(refLine[b1i] + 1, blackPixels, codingLine, &a0i, w); + blackPixels ^= 1; + if (codingLine[a0i] < w) { + ++b1i; + while (refLine[b1i] <= codingLine[a0i] && refLine[b1i] < w) { + b1i += 2; + } + } + break; + case twoDimVert0: + mmrAddPixels(refLine[b1i], blackPixels, codingLine, &a0i, w); + blackPixels ^= 1; + if (codingLine[a0i] < w) { + ++b1i; + while (refLine[b1i] <= codingLine[a0i] && refLine[b1i] < w) { + b1i += 2; + } + } + break; + case twoDimVertL3: + mmrAddPixelsNeg(refLine[b1i] - 3, blackPixels, codingLine, &a0i, w); + blackPixels ^= 1; + if (codingLine[a0i] < w) { + if (b1i > 0) { + --b1i; + } else { + ++b1i; + } + while (refLine[b1i] <= codingLine[a0i] && refLine[b1i] < w) { + b1i += 2; + } + } + break; + case twoDimVertL2: + mmrAddPixelsNeg(refLine[b1i] - 2, blackPixels, codingLine, &a0i, w); + blackPixels ^= 1; + if (codingLine[a0i] < w) { + if (b1i > 0) { + --b1i; + } else { + ++b1i; + } + while (refLine[b1i] <= codingLine[a0i] && refLine[b1i] < w) { + b1i += 2; + } + } + break; + case twoDimVertL1: + mmrAddPixelsNeg(refLine[b1i] - 1, blackPixels, codingLine, &a0i, w); + blackPixels ^= 1; + if (codingLine[a0i] < w) { + if (b1i > 0) { + --b1i; + } else { + ++b1i; + } + while (refLine[b1i] <= codingLine[a0i] && refLine[b1i] < w) { + b1i += 2; + } + } + break; + case EOF: + mmrAddPixels(w, 0, codingLine, &a0i, w); + break; + default: + error(getPos(), "Illegal code in JBIG2 MMR bitmap data"); + mmrAddPixels(w, 0, codingLine, &a0i, w); + break; + } + } + + // convert the run lengths to a bitmap line + i = 0; + while (1) { + for (x = codingLine[i]; x < codingLine[i+1]; ++x) { + bitmap->setPixel(x, y); + } + if (codingLine[i+1] >= w || codingLine[i+2] >= w) { + break; + } + i += 2; + } + } + + if (mmrDataLength >= 0) { + mmrDecoder->skipTo(mmrDataLength); + } else { + if (mmrDecoder->get24Bits() != 0x001001) { + error(getPos(), "Missing EOFB in JBIG2 MMR bitmap data"); + } + } + + gfree(refLine); + gfree(codingLine); + + //----- arithmetic decode + + } else { + // set up the typical row context + ltpCX = 0; // make gcc happy + if (tpgdOn) { + switch (templ) { + case 0: + ltpCX = 0x3953; // 001 11001 0101 0011 + break; + case 1: + ltpCX = 0x079a; // 0011 11001 101 0 + break; + case 2: + ltpCX = 0x0e3; // 001 1100 01 1 + break; + case 3: + ltpCX = 0x18a; // 01100 0101 1 + break; + } + } + + ltp = 0; + cx = cx0 = cx1 = cx2 = 0; // make gcc happy + for (y = 0; y < h; ++y) { + + // check for a "typical" (duplicate) row + if (tpgdOn) { + if (arithDecoder->decodeBit(ltpCX, genericRegionStats)) { + ltp = !ltp; + } + if (ltp) { + if (y > 0) { + bitmap->duplicateRow(y, y-1); + } + continue; + } + } + + switch (templ) { + case 0: + + // set up the context + bitmap->getPixelPtr(0, y-2, &cxPtr0); + cx0 = bitmap->nextPixel(&cxPtr0); + cx0 = (cx0 << 1) | bitmap->nextPixel(&cxPtr0); + bitmap->getPixelPtr(0, y-1, &cxPtr1); + cx1 = bitmap->nextPixel(&cxPtr1); + cx1 = (cx1 << 1) | bitmap->nextPixel(&cxPtr1); + cx1 = (cx1 << 1) | bitmap->nextPixel(&cxPtr1); + cx2 = 0; + bitmap->getPixelPtr(atx[0], y + aty[0], &atPtr0); + bitmap->getPixelPtr(atx[1], y + aty[1], &atPtr1); + bitmap->getPixelPtr(atx[2], y + aty[2], &atPtr2); + bitmap->getPixelPtr(atx[3], y + aty[3], &atPtr3); + + // decode the row + for (x = 0; x < w; ++x) { + + // build the context + cx = (cx0 << 13) | (cx1 << 8) | (cx2 << 4) | + (bitmap->nextPixel(&atPtr0) << 3) | + (bitmap->nextPixel(&atPtr1) << 2) | + (bitmap->nextPixel(&atPtr2) << 1) | + bitmap->nextPixel(&atPtr3); + + // check for a skipped pixel + if (useSkip && skip->getPixel(x, y)) { + pix = 0; + + // decode the pixel + } else if ((pix = arithDecoder->decodeBit(cx, genericRegionStats))) { + bitmap->setPixel(x, y); + } + + // update the context + cx0 = ((cx0 << 1) | bitmap->nextPixel(&cxPtr0)) & 0x07; + cx1 = ((cx1 << 1) | bitmap->nextPixel(&cxPtr1)) & 0x1f; + cx2 = ((cx2 << 1) | pix) & 0x0f; + } + break; + + case 1: + + // set up the context + bitmap->getPixelPtr(0, y-2, &cxPtr0); + cx0 = bitmap->nextPixel(&cxPtr0); + cx0 = (cx0 << 1) | bitmap->nextPixel(&cxPtr0); + cx0 = (cx0 << 1) | bitmap->nextPixel(&cxPtr0); + bitmap->getPixelPtr(0, y-1, &cxPtr1); + cx1 = bitmap->nextPixel(&cxPtr1); + cx1 = (cx1 << 1) | bitmap->nextPixel(&cxPtr1); + cx1 = (cx1 << 1) | bitmap->nextPixel(&cxPtr1); + cx2 = 0; + bitmap->getPixelPtr(atx[0], y + aty[0], &atPtr0); + + // decode the row + for (x = 0; x < w; ++x) { + + // build the context + cx = (cx0 << 9) | (cx1 << 4) | (cx2 << 1) | + bitmap->nextPixel(&atPtr0); + + // check for a skipped pixel + if (useSkip && skip->getPixel(x, y)) { + pix = 0; + + // decode the pixel + } else if ((pix = arithDecoder->decodeBit(cx, genericRegionStats))) { + bitmap->setPixel(x, y); + } + + // update the context + cx0 = ((cx0 << 1) | bitmap->nextPixel(&cxPtr0)) & 0x0f; + cx1 = ((cx1 << 1) | bitmap->nextPixel(&cxPtr1)) & 0x1f; + cx2 = ((cx2 << 1) | pix) & 0x07; + } + break; + + case 2: + + // set up the context + bitmap->getPixelPtr(0, y-2, &cxPtr0); + cx0 = bitmap->nextPixel(&cxPtr0); + cx0 = (cx0 << 1) | bitmap->nextPixel(&cxPtr0); + bitmap->getPixelPtr(0, y-1, &cxPtr1); + cx1 = bitmap->nextPixel(&cxPtr1); + cx1 = (cx1 << 1) | bitmap->nextPixel(&cxPtr1); + cx2 = 0; + bitmap->getPixelPtr(atx[0], y + aty[0], &atPtr0); + + // decode the row + for (x = 0; x < w; ++x) { + + // build the context + cx = (cx0 << 7) | (cx1 << 3) | (cx2 << 1) | + bitmap->nextPixel(&atPtr0); + + // check for a skipped pixel + if (useSkip && skip->getPixel(x, y)) { + pix = 0; + + // decode the pixel + } else if ((pix = arithDecoder->decodeBit(cx, genericRegionStats))) { + bitmap->setPixel(x, y); + } + + // update the context + cx0 = ((cx0 << 1) | bitmap->nextPixel(&cxPtr0)) & 0x07; + cx1 = ((cx1 << 1) | bitmap->nextPixel(&cxPtr1)) & 0x0f; + cx2 = ((cx2 << 1) | pix) & 0x03; + } + break; + + case 3: + + // set up the context + bitmap->getPixelPtr(0, y-1, &cxPtr1); + cx1 = bitmap->nextPixel(&cxPtr1); + cx1 = (cx1 << 1) | bitmap->nextPixel(&cxPtr1); + cx2 = 0; + bitmap->getPixelPtr(atx[0], y + aty[0], &atPtr0); + + // decode the row + for (x = 0; x < w; ++x) { + + // build the context + cx = (cx1 << 5) | (cx2 << 1) | + bitmap->nextPixel(&atPtr0); + + // check for a skipped pixel + if (useSkip && skip->getPixel(x, y)) { + pix = 0; + + // decode the pixel + } else if ((pix = arithDecoder->decodeBit(cx, genericRegionStats))) { + bitmap->setPixel(x, y); + } + + // update the context + cx1 = ((cx1 << 1) | bitmap->nextPixel(&cxPtr1)) & 0x1f; + cx2 = ((cx2 << 1) | pix) & 0x0f; + } + break; + } + } + } + + return bitmap; +} + +void JBIG2Stream::readGenericRefinementRegionSeg(Guint segNum, GBool imm, + GBool /*lossless*/, Guint /*length*/, + Guint *refSegs, + Guint nRefSegs) { + JBIG2Bitmap *bitmap, *refBitmap; + Guint w, h, x, y, segInfoFlags, extCombOp; + Guint flags, templ, tpgrOn; + int atx[2], aty[2]; + JBIG2Segment *seg; + + // region segment info field + if (!readULong(&w) || !readULong(&h) || + !readULong(&x) || !readULong(&y) || + !readUByte(&segInfoFlags)) { + goto eofError; + } + extCombOp = segInfoFlags & 7; + + // rest of the generic refinement region segment header + if (!readUByte(&flags)) { + goto eofError; + } + templ = flags & 1; + tpgrOn = (flags >> 1) & 1; + + // AT flags + if (!templ) { + if (!readByte(&atx[0]) || !readByte(&aty[0]) || + !readByte(&atx[1]) || !readByte(&aty[1])) { + goto eofError; + } + } + + // resize the page bitmap if needed + if (nRefSegs == 0 || imm) { + if (pageH == 0xffffffff && y + h > curPageH) { + pageBitmap->expand(y + h, pageDefPixel); + } + } + + // get referenced bitmap + if (nRefSegs > 1) { + error(getPos(), "Bad reference in JBIG2 generic refinement segment"); + return; + } + if (nRefSegs == 1) { + if (!(seg = findSegment(refSegs[0])) || + seg->getType() != jbig2SegBitmap) { + error(getPos(), "Bad bitmap reference in JBIG2 generic refinement segment"); + return; + } + refBitmap = (JBIG2Bitmap *)seg; + } else { + refBitmap = pageBitmap->getSlice(x, y, w, h); + } + + // set up the arithmetic decoder + resetRefinementStats(templ, NULL); + arithDecoder->start(); + + // read + bitmap = readGenericRefinementRegion(w, h, templ, tpgrOn, + refBitmap, 0, 0, atx, aty); + + // combine the region bitmap into the page bitmap + if (imm) { + pageBitmap->combine(bitmap, x, y, extCombOp); + delete bitmap; + + // store the region bitmap + } else { + bitmap->setSegNum(segNum); + segments->append(bitmap); + } + + // delete the referenced bitmap + if (nRefSegs == 1) { + discardSegment(refSegs[0]); + } else { + delete refBitmap; + } + + return; + + eofError: + error(getPos(), "Unexpected EOF in JBIG2 stream"); +} + +JBIG2Bitmap *JBIG2Stream::readGenericRefinementRegion(int w, int h, + int templ, GBool tpgrOn, + JBIG2Bitmap *refBitmap, + int refDX, int refDY, + int *atx, int *aty) { + JBIG2Bitmap *bitmap; + GBool ltp; + Guint ltpCX, cx, cx0, cx2, cx3, cx4, tpgrCX0, tpgrCX1, tpgrCX2; + JBIG2BitmapPtr cxPtr0, cxPtr1, cxPtr2, cxPtr3, cxPtr4, cxPtr5, cxPtr6; + JBIG2BitmapPtr tpgrCXPtr0, tpgrCXPtr1, tpgrCXPtr2; + int x, y, pix; + + bitmap = new JBIG2Bitmap(0, w, h); + bitmap->clearToZero(); + + // set up the typical row context + if (templ) { + ltpCX = 0x008; + } else { + ltpCX = 0x0010; + } + + ltp = 0; + for (y = 0; y < h; ++y) { + + if (templ) { + + // set up the context + bitmap->getPixelPtr(0, y-1, &cxPtr0); + cx0 = bitmap->nextPixel(&cxPtr0); + bitmap->getPixelPtr(-1, y, &cxPtr1); + refBitmap->getPixelPtr(-refDX, y-1-refDY, &cxPtr2); + refBitmap->getPixelPtr(-1-refDX, y-refDY, &cxPtr3); + cx3 = refBitmap->nextPixel(&cxPtr3); + cx3 = (cx3 << 1) | refBitmap->nextPixel(&cxPtr3); + refBitmap->getPixelPtr(-refDX, y+1-refDY, &cxPtr4); + cx4 = refBitmap->nextPixel(&cxPtr4); + + // set up the typical prediction context + tpgrCX0 = tpgrCX1 = tpgrCX2 = 0; // make gcc happy + if (tpgrOn) { + refBitmap->getPixelPtr(-1-refDX, y-1-refDY, &tpgrCXPtr0); + tpgrCX0 = refBitmap->nextPixel(&tpgrCXPtr0); + tpgrCX0 = (tpgrCX0 << 1) | refBitmap->nextPixel(&tpgrCXPtr0); + tpgrCX0 = (tpgrCX0 << 1) | refBitmap->nextPixel(&tpgrCXPtr0); + refBitmap->getPixelPtr(-1-refDX, y-refDY, &tpgrCXPtr1); + tpgrCX1 = refBitmap->nextPixel(&tpgrCXPtr1); + tpgrCX1 = (tpgrCX1 << 1) | refBitmap->nextPixel(&tpgrCXPtr1); + tpgrCX1 = (tpgrCX1 << 1) | refBitmap->nextPixel(&tpgrCXPtr1); + refBitmap->getPixelPtr(-1-refDX, y+1-refDY, &tpgrCXPtr2); + tpgrCX2 = refBitmap->nextPixel(&tpgrCXPtr2); + tpgrCX2 = (tpgrCX2 << 1) | refBitmap->nextPixel(&tpgrCXPtr2); + tpgrCX2 = (tpgrCX2 << 1) | refBitmap->nextPixel(&tpgrCXPtr2); + } else { + tpgrCXPtr0.p = tpgrCXPtr1.p = tpgrCXPtr2.p = NULL; // make gcc happy + tpgrCXPtr0.shift = tpgrCXPtr1.shift = tpgrCXPtr2.shift = 0; + tpgrCXPtr0.x = tpgrCXPtr1.x = tpgrCXPtr2.x = 0; + } + + for (x = 0; x < w; ++x) { + + // update the context + cx0 = ((cx0 << 1) | bitmap->nextPixel(&cxPtr0)) & 7; + cx3 = ((cx3 << 1) | refBitmap->nextPixel(&cxPtr3)) & 7; + cx4 = ((cx4 << 1) | refBitmap->nextPixel(&cxPtr4)) & 3; + + if (tpgrOn) { + // update the typical predictor context + tpgrCX0 = ((tpgrCX0 << 1) | refBitmap->nextPixel(&tpgrCXPtr0)) & 7; + tpgrCX1 = ((tpgrCX1 << 1) | refBitmap->nextPixel(&tpgrCXPtr1)) & 7; + tpgrCX2 = ((tpgrCX2 << 1) | refBitmap->nextPixel(&tpgrCXPtr2)) & 7; + + // check for a "typical" pixel + if (arithDecoder->decodeBit(ltpCX, refinementRegionStats)) { + ltp = !ltp; + } + if (tpgrCX0 == 0 && tpgrCX1 == 0 && tpgrCX2 == 0) { + bitmap->clearPixel(x, y); + continue; + } else if (tpgrCX0 == 7 && tpgrCX1 == 7 && tpgrCX2 == 7) { + bitmap->setPixel(x, y); + continue; + } + } + + // build the context + cx = (cx0 << 7) | (bitmap->nextPixel(&cxPtr1) << 6) | + (refBitmap->nextPixel(&cxPtr2) << 5) | + (cx3 << 2) | cx4; + + // decode the pixel + if ((pix = arithDecoder->decodeBit(cx, refinementRegionStats))) { + bitmap->setPixel(x, y); + } + } + + } else { + + // set up the context + bitmap->getPixelPtr(0, y-1, &cxPtr0); + cx0 = bitmap->nextPixel(&cxPtr0); + bitmap->getPixelPtr(-1, y, &cxPtr1); + refBitmap->getPixelPtr(-refDX, y-1-refDY, &cxPtr2); + cx2 = refBitmap->nextPixel(&cxPtr2); + refBitmap->getPixelPtr(-1-refDX, y-refDY, &cxPtr3); + cx3 = refBitmap->nextPixel(&cxPtr3); + cx3 = (cx3 << 1) | refBitmap->nextPixel(&cxPtr3); + refBitmap->getPixelPtr(-1-refDX, y+1-refDY, &cxPtr4); + cx4 = refBitmap->nextPixel(&cxPtr4); + cx4 = (cx4 << 1) | refBitmap->nextPixel(&cxPtr4); + bitmap->getPixelPtr(atx[0], y+aty[0], &cxPtr5); + refBitmap->getPixelPtr(atx[1]-refDX, y+aty[1]-refDY, &cxPtr6); + + // set up the typical prediction context + tpgrCX0 = tpgrCX1 = tpgrCX2 = 0; // make gcc happy + if (tpgrOn) { + refBitmap->getPixelPtr(-1-refDX, y-1-refDY, &tpgrCXPtr0); + tpgrCX0 = refBitmap->nextPixel(&tpgrCXPtr0); + tpgrCX0 = (tpgrCX0 << 1) | refBitmap->nextPixel(&tpgrCXPtr0); + tpgrCX0 = (tpgrCX0 << 1) | refBitmap->nextPixel(&tpgrCXPtr0); + refBitmap->getPixelPtr(-1-refDX, y-refDY, &tpgrCXPtr1); + tpgrCX1 = refBitmap->nextPixel(&tpgrCXPtr1); + tpgrCX1 = (tpgrCX1 << 1) | refBitmap->nextPixel(&tpgrCXPtr1); + tpgrCX1 = (tpgrCX1 << 1) | refBitmap->nextPixel(&tpgrCXPtr1); + refBitmap->getPixelPtr(-1-refDX, y+1-refDY, &tpgrCXPtr2); + tpgrCX2 = refBitmap->nextPixel(&tpgrCXPtr2); + tpgrCX2 = (tpgrCX2 << 1) | refBitmap->nextPixel(&tpgrCXPtr2); + tpgrCX2 = (tpgrCX2 << 1) | refBitmap->nextPixel(&tpgrCXPtr2); + } else { + tpgrCXPtr0.p = tpgrCXPtr1.p = tpgrCXPtr2.p = NULL; // make gcc happy + tpgrCXPtr0.shift = tpgrCXPtr1.shift = tpgrCXPtr2.shift = 0; + tpgrCXPtr0.x = tpgrCXPtr1.x = tpgrCXPtr2.x = 0; + } + + for (x = 0; x < w; ++x) { + + // update the context + cx0 = ((cx0 << 1) | bitmap->nextPixel(&cxPtr0)) & 3; + cx2 = ((cx2 << 1) | refBitmap->nextPixel(&cxPtr2)) & 3; + cx3 = ((cx3 << 1) | refBitmap->nextPixel(&cxPtr3)) & 7; + cx4 = ((cx4 << 1) | refBitmap->nextPixel(&cxPtr4)) & 7; + + if (tpgrOn) { + // update the typical predictor context + tpgrCX0 = ((tpgrCX0 << 1) | refBitmap->nextPixel(&tpgrCXPtr0)) & 7; + tpgrCX1 = ((tpgrCX1 << 1) | refBitmap->nextPixel(&tpgrCXPtr1)) & 7; + tpgrCX2 = ((tpgrCX2 << 1) | refBitmap->nextPixel(&tpgrCXPtr2)) & 7; + + // check for a "typical" pixel + if (arithDecoder->decodeBit(ltpCX, refinementRegionStats)) { + ltp = !ltp; + } + if (tpgrCX0 == 0 && tpgrCX1 == 0 && tpgrCX2 == 0) { + bitmap->clearPixel(x, y); + continue; + } else if (tpgrCX0 == 7 && tpgrCX1 == 7 && tpgrCX2 == 7) { + bitmap->setPixel(x, y); + continue; + } + } + + // build the context + cx = (cx0 << 11) | (bitmap->nextPixel(&cxPtr1) << 10) | + (cx2 << 8) | (cx3 << 5) | (cx4 << 2) | + (bitmap->nextPixel(&cxPtr5) << 1) | + refBitmap->nextPixel(&cxPtr6); + + // decode the pixel + if ((pix = arithDecoder->decodeBit(cx, refinementRegionStats))) { + bitmap->setPixel(x, y); + } + } + } + } + + return bitmap; +} + +void JBIG2Stream::readPageInfoSeg(Guint /*length*/) { + Guint xRes, yRes, flags, striping; + + if (!readULong(&pageW) || !readULong(&pageH) || + !readULong(&xRes) || !readULong(&yRes) || + !readUByte(&flags) || !readUWord(&striping)) { + goto eofError; + } + pageDefPixel = (flags >> 2) & 1; + defCombOp = (flags >> 3) & 3; + + // allocate the page bitmap + if (pageH == 0xffffffff) { + curPageH = striping & 0x7fff; + } else { + curPageH = pageH; + } + pageBitmap = new JBIG2Bitmap(0, pageW, curPageH); + + // default pixel value + if (pageDefPixel) { + pageBitmap->clearToOne(); + } else { + pageBitmap->clearToZero(); + } + + return; + + eofError: + error(getPos(), "Unexpected EOF in JBIG2 stream"); +} + +void JBIG2Stream::readEndOfStripeSeg(Guint length) { + Guint i; + + // skip the segment + for (i = 0; i < length; ++i) { + curStr->getChar(); + } +} + +void JBIG2Stream::readProfilesSeg(Guint length) { + Guint i; + + // skip the segment + for (i = 0; i < length; ++i) { + curStr->getChar(); + } +} + +void JBIG2Stream::readCodeTableSeg(Guint segNum, Guint /*length*/) { + JBIG2HuffmanTable *huffTab; + Guint flags, oob, prefixBits, rangeBits; + int lowVal, highVal, val; + Guint huffTabSize, i; + + if (!readUByte(&flags) || !readLong(&lowVal) || !readLong(&highVal)) { + goto eofError; + } + oob = flags & 1; + prefixBits = ((flags >> 1) & 7) + 1; + rangeBits = ((flags >> 4) & 7) + 1; + + huffDecoder->reset(); + huffTabSize = 8; + huffTab = (JBIG2HuffmanTable *) + gmallocn(huffTabSize, sizeof(JBIG2HuffmanTable)); + i = 0; + val = lowVal; + while (val < highVal) { + if (i == huffTabSize) { + huffTabSize *= 2; + huffTab = (JBIG2HuffmanTable *) + greallocn(huffTab, huffTabSize, sizeof(JBIG2HuffmanTable)); + } + huffTab[i].val = val; + huffTab[i].prefixLen = huffDecoder->readBits(prefixBits); + huffTab[i].rangeLen = huffDecoder->readBits(rangeBits); + val += 1 << huffTab[i].rangeLen; + ++i; + } + if (i + oob + 3 > huffTabSize) { + huffTabSize = i + oob + 3; + huffTab = (JBIG2HuffmanTable *) + greallocn(huffTab, huffTabSize, sizeof(JBIG2HuffmanTable)); + } + huffTab[i].val = lowVal - 1; + huffTab[i].prefixLen = huffDecoder->readBits(prefixBits); + huffTab[i].rangeLen = jbig2HuffmanLOW; + ++i; + huffTab[i].val = highVal; + huffTab[i].prefixLen = huffDecoder->readBits(prefixBits); + huffTab[i].rangeLen = 32; + ++i; + if (oob) { + huffTab[i].val = 0; + huffTab[i].prefixLen = huffDecoder->readBits(prefixBits); + huffTab[i].rangeLen = jbig2HuffmanOOB; + ++i; + } + huffTab[i].val = 0; + huffTab[i].prefixLen = 0; + huffTab[i].rangeLen = jbig2HuffmanEOT; + huffDecoder->buildTable(huffTab, i); + + // create and store the new table segment + segments->append(new JBIG2CodeTable(segNum, huffTab)); + + return; + + eofError: + error(getPos(), "Unexpected EOF in JBIG2 stream"); +} + +void JBIG2Stream::readExtensionSeg(Guint length) { + Guint i; + + // skip the segment + for (i = 0; i < length; ++i) { + curStr->getChar(); + } +} + +JBIG2Segment *JBIG2Stream::findSegment(Guint segNum) { + JBIG2Segment *seg; + int i; + + for (i = 0; i < globalSegments->getLength(); ++i) { + seg = (JBIG2Segment *)globalSegments->get(i); + if (seg->getSegNum() == segNum) { + return seg; + } + } + for (i = 0; i < segments->getLength(); ++i) { + seg = (JBIG2Segment *)segments->get(i); + if (seg->getSegNum() == segNum) { + return seg; + } + } + return NULL; +} + +void JBIG2Stream::discardSegment(Guint segNum) { + JBIG2Segment *seg; + int i; + + for (i = 0; i < globalSegments->getLength(); ++i) { + seg = (JBIG2Segment *)globalSegments->get(i); + if (seg->getSegNum() == segNum) { + globalSegments->del(i); + return; + } + } + for (i = 0; i < segments->getLength(); ++i) { + seg = (JBIG2Segment *)segments->get(i); + if (seg->getSegNum() == segNum) { + segments->del(i); + return; + } + } +} + +void JBIG2Stream::resetGenericStats(Guint templ, + JArithmeticDecoderStats *prevStats) { + int size; + + size = contextSize[templ]; + if (prevStats && prevStats->getContextSize() == size) { + if (genericRegionStats->getContextSize() == size) { + genericRegionStats->copyFrom(prevStats); + } else { + delete genericRegionStats; + genericRegionStats = prevStats->copy(); + } + } else { + if (genericRegionStats->getContextSize() == size) { + genericRegionStats->reset(); + } else { + delete genericRegionStats; + genericRegionStats = new JArithmeticDecoderStats(1 << size); + } + } +} + +void JBIG2Stream::resetRefinementStats(Guint templ, + JArithmeticDecoderStats *prevStats) { + int size; + + size = refContextSize[templ]; + if (prevStats && prevStats->getContextSize() == size) { + if (refinementRegionStats->getContextSize() == size) { + refinementRegionStats->copyFrom(prevStats); + } else { + delete refinementRegionStats; + refinementRegionStats = prevStats->copy(); + } + } else { + if (refinementRegionStats->getContextSize() == size) { + refinementRegionStats->reset(); + } else { + delete refinementRegionStats; + refinementRegionStats = new JArithmeticDecoderStats(1 << size); + } + } +} + +void JBIG2Stream::resetIntStats(int symCodeLen) { + iadhStats->reset(); + iadwStats->reset(); + iaexStats->reset(); + iaaiStats->reset(); + iadtStats->reset(); + iaitStats->reset(); + iafsStats->reset(); + iadsStats->reset(); + iardxStats->reset(); + iardyStats->reset(); + iardwStats->reset(); + iardhStats->reset(); + iariStats->reset(); + if (iaidStats->getContextSize() == 1 << (symCodeLen + 1)) { + iaidStats->reset(); + } else { + delete iaidStats; + iaidStats = new JArithmeticDecoderStats(1 << (symCodeLen + 1)); + } +} + +GBool JBIG2Stream::readUByte(Guint *x) { + int c0; + + if ((c0 = curStr->getChar()) == EOF) { + return gFalse; + } + *x = (Guint)c0; + return gTrue; +} + +GBool JBIG2Stream::readByte(int *x) { + int c0; + + if ((c0 = curStr->getChar()) == EOF) { + return gFalse; + } + *x = c0; + if (c0 & 0x80) { + *x |= -1 - 0xff; + } + return gTrue; +} + +GBool JBIG2Stream::readUWord(Guint *x) { + int c0, c1; + + if ((c0 = curStr->getChar()) == EOF || + (c1 = curStr->getChar()) == EOF) { + return gFalse; + } + *x = (Guint)((c0 << 8) | c1); + return gTrue; +} + +GBool JBIG2Stream::readULong(Guint *x) { + int c0, c1, c2, c3; + + if ((c0 = curStr->getChar()) == EOF || + (c1 = curStr->getChar()) == EOF || + (c2 = curStr->getChar()) == EOF || + (c3 = curStr->getChar()) == EOF) { + return gFalse; + } + *x = (Guint)((c0 << 24) | (c1 << 16) | (c2 << 8) | c3); + return gTrue; +} + +GBool JBIG2Stream::readLong(int *x) { + int c0, c1, c2, c3; + + if ((c0 = curStr->getChar()) == EOF || + (c1 = curStr->getChar()) == EOF || + (c2 = curStr->getChar()) == EOF || + (c3 = curStr->getChar()) == EOF) { + return gFalse; + } + *x = ((c0 << 24) | (c1 << 16) | (c2 << 8) | c3); + if (c0 & 0x80) { + *x |= -1 - (int)0xffffffff; + } + return gTrue; +} diff --git a/kpdf/xpdf/xpdf/JBIG2Stream.h b/kpdf/xpdf/xpdf/JBIG2Stream.h new file mode 100644 index 00000000..f3443b3d --- /dev/null +++ b/kpdf/xpdf/xpdf/JBIG2Stream.h @@ -0,0 +1,149 @@ +//======================================================================== +// +// JBIG2Stream.h +// +// Copyright 2002-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef JBIG2STREAM_H +#define JBIG2STREAM_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" +#include "Object.h" +#include "Stream.h" + +class GList; +class JBIG2Segment; +class JBIG2Bitmap; +class JArithmeticDecoder; +class JArithmeticDecoderStats; +class JBIG2HuffmanDecoder; +struct JBIG2HuffmanTable; +class JBIG2MMRDecoder; + +//------------------------------------------------------------------------ + +class JBIG2Stream: public FilterStream { +public: + + JBIG2Stream(Stream *strA, Object *globalsStreamA); + virtual ~JBIG2Stream(); + virtual StreamKind getKind() { return strJBIG2; } + virtual void reset(); + virtual void close(); + virtual int getChar(); + virtual int lookChar(); + virtual GString *getPSFilter(int psLevel, char *indent); + virtual GBool isBinary(GBool last = gTrue); + +private: + + void readSegments(); + GBool readSymbolDictSeg(Guint segNum, Guint length, + Guint *refSegs, Guint nRefSegs); + void readTextRegionSeg(Guint segNum, GBool imm, + GBool lossless, Guint length, + Guint *refSegs, Guint nRefSegs); + JBIG2Bitmap *readTextRegion(GBool huff, GBool refine, + int w, int h, + Guint numInstances, + Guint logStrips, + int numSyms, + JBIG2HuffmanTable *symCodeTab, + Guint symCodeLen, + JBIG2Bitmap **syms, + Guint defPixel, Guint combOp, + Guint transposed, Guint refCorner, + int sOffset, + JBIG2HuffmanTable *huffFSTable, + JBIG2HuffmanTable *huffDSTable, + JBIG2HuffmanTable *huffDTTable, + JBIG2HuffmanTable *huffRDWTable, + JBIG2HuffmanTable *huffRDHTable, + JBIG2HuffmanTable *huffRDXTable, + JBIG2HuffmanTable *huffRDYTable, + JBIG2HuffmanTable *huffRSizeTable, + Guint templ, + int *atx, int *aty); + void readPatternDictSeg(Guint segNum, Guint length); + void readHalftoneRegionSeg(Guint segNum, GBool imm, + GBool lossless, Guint length, + Guint *refSegs, Guint nRefSegs); + void readGenericRegionSeg(Guint segNum, GBool imm, + GBool lossless, Guint length); + void mmrAddPixels(int a1, int blackPixels, + int *codingLine, int *a0i, int w); + void mmrAddPixelsNeg(int a1, int blackPixels, + int *codingLine, int *a0i, int w); + JBIG2Bitmap *readGenericBitmap(GBool mmr, int w, int h, + int templ, GBool tpgdOn, + GBool useSkip, JBIG2Bitmap *skip, + int *atx, int *aty, + int mmrDataLength); + void readGenericRefinementRegionSeg(Guint segNum, GBool imm, + GBool lossless, Guint length, + Guint *refSegs, + Guint nRefSegs); + JBIG2Bitmap *readGenericRefinementRegion(int w, int h, + int templ, GBool tpgrOn, + JBIG2Bitmap *refBitmap, + int refDX, int refDY, + int *atx, int *aty); + void readPageInfoSeg(Guint length); + void readEndOfStripeSeg(Guint length); + void readProfilesSeg(Guint length); + void readCodeTableSeg(Guint segNum, Guint length); + void readExtensionSeg(Guint length); + JBIG2Segment *findSegment(Guint segNum); + void discardSegment(Guint segNum); + void resetGenericStats(Guint templ, + JArithmeticDecoderStats *prevStats); + void resetRefinementStats(Guint templ, + JArithmeticDecoderStats *prevStats); + void resetIntStats(int symCodeLen); + GBool readUByte(Guint *x); + GBool readByte(int *x); + GBool readUWord(Guint *x); + GBool readULong(Guint *x); + GBool readLong(int *x); + + Object globalsStream; + Guint pageW, pageH, curPageH; + Guint pageDefPixel; + JBIG2Bitmap *pageBitmap; + Guint defCombOp; + GList *segments; // [JBIG2Segment] + GList *globalSegments; // [JBIG2Segment] + Stream *curStr; + Guchar *dataPtr; + Guchar *dataEnd; + + JArithmeticDecoder *arithDecoder; + JArithmeticDecoderStats *genericRegionStats; + JArithmeticDecoderStats *refinementRegionStats; + JArithmeticDecoderStats *iadhStats; + JArithmeticDecoderStats *iadwStats; + JArithmeticDecoderStats *iaexStats; + JArithmeticDecoderStats *iaaiStats; + JArithmeticDecoderStats *iadtStats; + JArithmeticDecoderStats *iaitStats; + JArithmeticDecoderStats *iafsStats; + JArithmeticDecoderStats *iadsStats; + JArithmeticDecoderStats *iardxStats; + JArithmeticDecoderStats *iardyStats; + JArithmeticDecoderStats *iardwStats; + JArithmeticDecoderStats *iardhStats; + JArithmeticDecoderStats *iariStats; + JArithmeticDecoderStats *iaidStats; + JBIG2HuffmanDecoder *huffDecoder; + JBIG2MMRDecoder *mmrDecoder; +}; + +#endif diff --git a/kpdf/xpdf/xpdf/JPXStream.cc b/kpdf/xpdf/xpdf/JPXStream.cc new file mode 100644 index 00000000..54a9e103 --- /dev/null +++ b/kpdf/xpdf/xpdf/JPXStream.cc @@ -0,0 +1,3144 @@ +//======================================================================== +// +// JPXStream.cc +// +// Copyright 2002-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include "gmem.h" +#include "Error.h" +#include "JArithmeticDecoder.h" +#include "JPXStream.h" + +//~ to do: +// - precincts +// - ROI +// - progression order changes +// - packed packet headers +// - support for palettes, channel maps, etc. +// - make sure all needed JP2/JPX subboxes are parsed (readBoxes) +// - can we assume that QCC segments must come after the QCD segment? +// - skip EPH markers (readTilePartData) +// - handle tilePartToEOC in readTilePartData +// - deal with multiple codeword segments (readTilePartData, +// readCodeBlockData) +// - progression orders 2, 3, and 4 +// - in coefficient decoding (readCodeBlockData): +// - termination pattern: terminate after every coding pass +// - error resilience segmentation symbol +// - selective arithmetic coding bypass +// - vertically causal context formation +// - coeffs longer than 31 bits (should just ignore the extra bits?) +// - handle boxes larger than 2^32 bytes +// - the fixed-point arithmetic won't handle 16-bit pixels + +//------------------------------------------------------------------------ + +// number of contexts for the arithmetic decoder +#define jpxNContexts 19 + +#define jpxContextSigProp 0 // 0 - 8: significance prop and cleanup +#define jpxContextSign 9 // 9 - 13: sign +#define jpxContextMagRef 14 // 14 -16: magnitude refinement +#define jpxContextRunLength 17 // cleanup: run length +#define jpxContextUniform 18 // cleanup: first signif coeff + +//------------------------------------------------------------------------ + +#define jpxPassSigProp 0 +#define jpxPassMagRef 1 +#define jpxPassCleanup 2 + +//------------------------------------------------------------------------ + +// arithmetic decoder context for the significance propagation and +// cleanup passes: +// [horiz][vert][diag][subband] +// where subband = 0 for HL +// = 1 for LH and LL +// = 2 for HH +static Guint sigPropContext[3][3][5][3] = { + {{{ 0, 0, 0 }, // horiz=0, vert=0, diag=0 + { 1, 1, 3 }, // horiz=0, vert=0, diag=1 + { 2, 2, 6 }, // horiz=0, vert=0, diag=2 + { 2, 2, 8 }, // horiz=0, vert=0, diag=3 + { 2, 2, 8 }}, // horiz=0, vert=0, diag=4 + {{ 5, 3, 1 }, // horiz=0, vert=1, diag=0 + { 6, 3, 4 }, // horiz=0, vert=1, diag=1 + { 6, 3, 7 }, // horiz=0, vert=1, diag=2 + { 6, 3, 8 }, // horiz=0, vert=1, diag=3 + { 6, 3, 8 }}, // horiz=0, vert=1, diag=4 + {{ 8, 4, 2 }, // horiz=0, vert=2, diag=0 + { 8, 4, 5 }, // horiz=0, vert=2, diag=1 + { 8, 4, 7 }, // horiz=0, vert=2, diag=2 + { 8, 4, 8 }, // horiz=0, vert=2, diag=3 + { 8, 4, 8 }}}, // horiz=0, vert=2, diag=4 + {{{ 3, 5, 1 }, // horiz=1, vert=0, diag=0 + { 3, 6, 4 }, // horiz=1, vert=0, diag=1 + { 3, 6, 7 }, // horiz=1, vert=0, diag=2 + { 3, 6, 8 }, // horiz=1, vert=0, diag=3 + { 3, 6, 8 }}, // horiz=1, vert=0, diag=4 + {{ 7, 7, 2 }, // horiz=1, vert=1, diag=0 + { 7, 7, 5 }, // horiz=1, vert=1, diag=1 + { 7, 7, 7 }, // horiz=1, vert=1, diag=2 + { 7, 7, 8 }, // horiz=1, vert=1, diag=3 + { 7, 7, 8 }}, // horiz=1, vert=1, diag=4 + {{ 8, 7, 2 }, // horiz=1, vert=2, diag=0 + { 8, 7, 5 }, // horiz=1, vert=2, diag=1 + { 8, 7, 7 }, // horiz=1, vert=2, diag=2 + { 8, 7, 8 }, // horiz=1, vert=2, diag=3 + { 8, 7, 8 }}}, // horiz=1, vert=2, diag=4 + {{{ 4, 8, 2 }, // horiz=2, vert=0, diag=0 + { 4, 8, 5 }, // horiz=2, vert=0, diag=1 + { 4, 8, 7 }, // horiz=2, vert=0, diag=2 + { 4, 8, 8 }, // horiz=2, vert=0, diag=3 + { 4, 8, 8 }}, // horiz=2, vert=0, diag=4 + {{ 7, 8, 2 }, // horiz=2, vert=1, diag=0 + { 7, 8, 5 }, // horiz=2, vert=1, diag=1 + { 7, 8, 7 }, // horiz=2, vert=1, diag=2 + { 7, 8, 8 }, // horiz=2, vert=1, diag=3 + { 7, 8, 8 }}, // horiz=2, vert=1, diag=4 + {{ 8, 8, 2 }, // horiz=2, vert=2, diag=0 + { 8, 8, 5 }, // horiz=2, vert=2, diag=1 + { 8, 8, 7 }, // horiz=2, vert=2, diag=2 + { 8, 8, 8 }, // horiz=2, vert=2, diag=3 + { 8, 8, 8 }}} // horiz=2, vert=2, diag=4 +}; + +// arithmetic decoder context and xor bit for the sign bit in the +// significance propagation pass: +// [horiz][vert][k] +// where horiz/vert are offset by 2 (i.e., range is -2 .. 2) +// and k = 0 for the context +// = 1 for the xor bit +static Guint signContext[5][5][2] = { + {{ 13, 1 }, // horiz=-2, vert=-2 + { 13, 1 }, // horiz=-2, vert=-1 + { 12, 1 }, // horiz=-2, vert= 0 + { 11, 1 }, // horiz=-2, vert=+1 + { 11, 1 }}, // horiz=-2, vert=+2 + {{ 13, 1 }, // horiz=-1, vert=-2 + { 13, 1 }, // horiz=-1, vert=-1 + { 12, 1 }, // horiz=-1, vert= 0 + { 11, 1 }, // horiz=-1, vert=+1 + { 11, 1 }}, // horiz=-1, vert=+2 + {{ 10, 1 }, // horiz= 0, vert=-2 + { 10, 1 }, // horiz= 0, vert=-1 + { 9, 0 }, // horiz= 0, vert= 0 + { 10, 0 }, // horiz= 0, vert=+1 + { 10, 0 }}, // horiz= 0, vert=+2 + {{ 11, 0 }, // horiz=+1, vert=-2 + { 11, 0 }, // horiz=+1, vert=-1 + { 12, 0 }, // horiz=+1, vert= 0 + { 13, 0 }, // horiz=+1, vert=+1 + { 13, 0 }}, // horiz=+1, vert=+2 + {{ 11, 0 }, // horiz=+2, vert=-2 + { 11, 0 }, // horiz=+2, vert=-1 + { 12, 0 }, // horiz=+2, vert= 0 + { 13, 0 }, // horiz=+2, vert=+1 + { 13, 0 }}, // horiz=+2, vert=+2 +}; + +//------------------------------------------------------------------------ + +// constants used in the IDWT +#define idwtAlpha -1.586134342059924 +#define idwtBeta -0.052980118572961 +#define idwtGamma 0.882911075530934 +#define idwtDelta 0.443506852043971 +#define idwtKappa 1.230174104914001 +#define idwtIKappa (1.0 / idwtKappa) + +// number of bits to the right of the decimal point for the fixed +// point arithmetic used in the IDWT +#define fracBits 16 + +//------------------------------------------------------------------------ + +// floor(x / y) +#define jpxFloorDiv(x, y) ((x) / (y)) + +// floor(x / 2^y) +#define jpxFloorDivPow2(x, y) ((x) >> (y)) + +// ceil(x / y) +#define jpxCeilDiv(x, y) (((x) + (y) - 1) / (y)) + +// ceil(x / 2^y) +#define jpxCeilDivPow2(x, y) (((x) + (1 << (y)) - 1) >> (y)) + +//------------------------------------------------------------------------ + +#if 1 //----- disable coverage tracking + +#define cover(idx) + +#else //----- enable coverage tracking + +class JPXCover { +public: + + JPXCover(int sizeA); + ~JPXCover(); + void incr(int idx); + +private: + + int size, used; + int *data; +}; + +JPXCover::JPXCover(int sizeA) { + size = sizeA; + used = -1; + data = (int *)gmallocn(size, sizeof(int)); + memset(data, 0, size * sizeof(int)); +} + +JPXCover::~JPXCover() { + int i; + + printf("JPX coverage:\n"); + for (i = 0; i <= used; ++i) { + printf(" %4d: %8d\n", i, data[i]); + } + gfree(data); +} + +void JPXCover::incr(int idx) { + if (idx < size) { + ++data[idx]; + if (idx > used) { + used = idx; + } + } +} + +JPXCover jpxCover(150); + +#define cover(idx) jpxCover.incr(idx) + +#endif //----- coverage tracking + +//------------------------------------------------------------------------ + +JPXStream::JPXStream(Stream *strA): + FilterStream(strA) +{ + nComps = 0; + bpc = NULL; + width = height = 0; + haveCS = gFalse; + havePalette = gFalse; + haveCompMap = gFalse; + haveChannelDefn = gFalse; + + img.tiles = NULL; + bitBuf = 0; + bitBufLen = 0; + bitBufSkip = gFalse; + byteCount = 0; +} + +JPXStream::~JPXStream() { + close(); + delete str; +} + +void JPXStream::reset() { + str->reset(); + if (readBoxes()) { + curY = img.yOffset; + } else { + // readBoxes reported an error, so we go immediately to EOF + curY = img.ySize; + } + curX = img.xOffset; + curComp = 0; + readBufLen = 0; +} + +void JPXStream::close() { + JPXTile *tile; + JPXTileComp *tileComp; + JPXResLevel *resLevel; + JPXPrecinct *precinct; + JPXSubband *subband; + JPXCodeBlock *cb; + Guint comp, i, k, r, pre, sb; + + gfree(bpc); + bpc = NULL; + if (havePalette) { + gfree(palette.bpc); + gfree(palette.c); + havePalette = gFalse; + } + if (haveCompMap) { + gfree(compMap.comp); + gfree(compMap.type); + gfree(compMap.pComp); + haveCompMap = gFalse; + } + if (haveChannelDefn) { + gfree(channelDefn.idx); + gfree(channelDefn.type); + gfree(channelDefn.assoc); + haveChannelDefn = gFalse; + } + + if (img.tiles) { + for (i = 0; i < img.nXTiles * img.nYTiles; ++i) { + tile = &img.tiles[i]; + if (tile->tileComps) { + for (comp = 0; comp < img.nComps; ++comp) { + tileComp = &tile->tileComps[comp]; + gfree(tileComp->quantSteps); + gfree(tileComp->data); + gfree(tileComp->buf); + if (tileComp->resLevels) { + for (r = 0; r <= tileComp->nDecompLevels; ++r) { + resLevel = &tileComp->resLevels[r]; + if (resLevel->precincts) { + for (pre = 0; pre < 1; ++pre) { + precinct = &resLevel->precincts[pre]; + if (precinct->subbands) { + for (sb = 0; sb < (Guint)(r == 0 ? 1 : 3); ++sb) { + subband = &precinct->subbands[sb]; + gfree(subband->inclusion); + gfree(subband->zeroBitPlane); + if (subband->cbs) { + for (k = 0; k < subband->nXCBs * subband->nYCBs; ++k) { + cb = &subband->cbs[k]; + gfree(cb->coeffs); + if (cb->arithDecoder) { + delete cb->arithDecoder; + } + if (cb->stats) { + delete cb->stats; + } + } + gfree(subband->cbs); + } + } + gfree(precinct->subbands); + } + } + gfree(img.tiles[i].tileComps[comp].resLevels[r].precincts); + } + } + gfree(img.tiles[i].tileComps[comp].resLevels); + } + } + gfree(img.tiles[i].tileComps); + } + } + gfree(img.tiles); + img.tiles = NULL; + } + FilterStream::close(); +} + +int JPXStream::getChar() { + int c; + + if (readBufLen < 8) { + fillReadBuf(); + } + if (readBufLen == 8) { + c = readBuf & 0xff; + readBufLen = 0; + } else if (readBufLen > 8) { + c = (readBuf >> (readBufLen - 8)) & 0xff; + readBufLen -= 8; + } else if (readBufLen == 0) { + c = EOF; + } else { + c = (readBuf << (8 - readBufLen)) & 0xff; + readBufLen = 0; + } + return c; +} + +int JPXStream::lookChar() { + int c; + + if (readBufLen < 8) { + fillReadBuf(); + } + if (readBufLen == 8) { + c = readBuf & 0xff; + } else if (readBufLen > 8) { + c = (readBuf >> (readBufLen - 8)) & 0xff; + } else if (readBufLen == 0) { + c = EOF; + } else { + c = (readBuf << (8 - readBufLen)) & 0xff; + } + return c; +} + +void JPXStream::fillReadBuf() { + JPXTileComp *tileComp; + Guint tileIdx, tx, ty; + int pix, pixBits; + + do { + if (curY >= img.ySize) { + return; + } + tileIdx = ((curY - img.yTileOffset) / img.yTileSize) * img.nXTiles + + (curX - img.xTileOffset) / img.xTileSize; +#if 1 //~ ignore the palette, assume the PDF ColorSpace object is valid + tileComp = &img.tiles[tileIdx].tileComps[curComp]; +#else + tileComp = &img.tiles[tileIdx].tileComps[havePalette ? 0 : curComp]; +#endif + tx = jpxCeilDiv((curX - img.xTileOffset) % img.xTileSize, tileComp->hSep); + ty = jpxCeilDiv((curY - img.yTileOffset) % img.yTileSize, tileComp->vSep); + pix = (int)tileComp->data[ty * (tileComp->x1 - tileComp->x0) + tx]; + pixBits = tileComp->prec; +#if 1 //~ ignore the palette, assume the PDF ColorSpace object is valid + if (++curComp == img.nComps) { +#else + if (havePalette) { + if (pix >= 0 && pix < palette.nEntries) { + pix = palette.c[pix * palette.nComps + curComp]; + } else { + pix = + pixBits = palette.bpc[curComp]; + } + if (++curComp == (Guint)(havePalette ? palette.nComps : img.nComps)) { +#endif + curComp = 0; + if (++curX == img.xSize) { + curX = img.xOffset; + ++curY; + } + } + if (pixBits == 8) { + readBuf = (readBuf << 8) | (pix & 0xff); + } else { + readBuf = (readBuf << pixBits) | (pix & ((1 << pixBits) - 1)); + } + readBufLen += pixBits; + } while (readBufLen < 8); +} + +GString *JPXStream::getPSFilter(int /*psLevel*/, char * /*indent*/) { + return NULL; +} + +GBool JPXStream::isBinary(GBool /*last*/) { + return str->isBinary(gTrue); +} + +void JPXStream::getImageParams(int *bitsPerComponent, + StreamColorSpaceMode *csMode) { + Guint boxType, boxLen, dataLen, csEnum; + Guint bpc1, dummy, i; + int csMeth, csPrec, csPrec1, dummy2; + StreamColorSpaceMode csMode1; + GBool haveBPC, haveCSMode; + + csPrec = 0; // make gcc happy + haveBPC = haveCSMode = gFalse; + str->reset(); + if (str->lookChar() == 0xff) { + getImageParams2(bitsPerComponent, csMode); + } else { + while (readBoxHdr(&boxType, &boxLen, &dataLen)) { + if (boxType == 0x6a703268) { // JP2 header + cover(0); + // skip the superbox + } else if (boxType == 0x69686472) { // image header + cover(1); + if (readULong(&dummy) && + readULong(&dummy) && + readUWord(&dummy) && + readUByte(&bpc1) && + readUByte(&dummy) && + readUByte(&dummy) && + readUByte(&dummy)) { + *bitsPerComponent = bpc1 + 1; + haveBPC = gTrue; + } + } else if (boxType == 0x636F6C72) { // color specification + cover(2); + if (readByte(&csMeth) && + readByte(&csPrec1) && + readByte(&dummy2)) { + if (csMeth == 1) { + if (readULong(&csEnum)) { + csMode1 = streamCSNone; + if (csEnum == jpxCSBiLevel || + csEnum == jpxCSGrayscale) { + csMode1 = streamCSDeviceGray; + } else if (csEnum == jpxCSCMYK) { + csMode1 = streamCSDeviceCMYK; + } else if (csEnum == jpxCSsRGB || + csEnum == jpxCSCISesRGB || + csEnum == jpxCSROMMRGB) { + csMode1 = streamCSDeviceRGB; + } + if (csMode1 != streamCSNone && + (!haveCSMode || csPrec1 > csPrec)) { + *csMode = csMode1; + csPrec = csPrec1; + haveCSMode = gTrue; + } + for (i = 0; i < dataLen - 7; ++i) { + str->getChar(); + } + } + } else { + for (i = 0; i < dataLen - 3; ++i) { + str->getChar(); + } + } + } + } else if (boxType == 0x6A703263) { // codestream + cover(3); + if (!(haveBPC && haveCSMode)) { + getImageParams2(bitsPerComponent, csMode); + } + break; + } else { + cover(4); + for (i = 0; i < dataLen; ++i) { + str->getChar(); + } + } + } + } + str->close(); +} + +// Get image parameters from the codestream. +void JPXStream::getImageParams2(int *bitsPerComponent, + StreamColorSpaceMode *csMode) { + int segType; + Guint segLen, nComps1, bpc1, dummy, i; + + while (readMarkerHdr(&segType, &segLen)) { + if (segType == 0x51) { // SIZ - image and tile size + cover(5); + if (readUWord(&dummy) && + readULong(&dummy) && + readULong(&dummy) && + readULong(&dummy) && + readULong(&dummy) && + readULong(&dummy) && + readULong(&dummy) && + readULong(&dummy) && + readULong(&dummy) && + readUWord(&nComps1) && + readUByte(&bpc1)) { + *bitsPerComponent = (bpc1 & 0x7f) + 1; + // if there's no color space info, take a guess + if (nComps1 == 1) { + *csMode = streamCSDeviceGray; + } else if (nComps1 == 3) { + *csMode = streamCSDeviceRGB; + } else if (nComps1 == 4) { + *csMode = streamCSDeviceCMYK; + } + } + break; + } else { + cover(6); + if (segLen > 2) { + for (i = 0; i < segLen - 2; ++i) { + str->getChar(); + } + } + } + } +} + +GBool JPXStream::readBoxes() { + Guint boxType, boxLen, dataLen; + Guint bpc1, compression, unknownColorspace, ipr; + Guint i, j; + + haveImgHdr = gFalse; + + // check for a naked JPEG 2000 codestream (without the JP2/JPX + // wrapper) -- this appears to be a violation of the PDF spec, but + // Acrobat allows it + if (str->lookChar() == 0xff) { + cover(7); + error(getPos(), "Naked JPEG 2000 codestream, missing JP2/JPX wrapper"); + readCodestream(0); + nComps = img.nComps; + bpc = (Guint *)gmallocn(nComps, sizeof(Guint)); + for (i = 0; i < nComps; ++i) { + bpc[i] = img.tiles[0].tileComps[i].prec; + } + width = img.xSize - img.xOffset; + height = img.ySize - img.yOffset; + return gTrue; + } + + while (readBoxHdr(&boxType, &boxLen, &dataLen)) { + switch (boxType) { + case 0x6a703268: // JP2 header + // this is a grouping box ('superbox') which has no real + // contents and doesn't appear to be used consistently, i.e., + // some things which should be subboxes of the JP2 header box + // show up outside of it - so we simply ignore the JP2 header + // box + cover(8); + break; + case 0x69686472: // image header + cover(9); + if (!readULong(&height) || + !readULong(&width) || + !readUWord(&nComps) || + !readUByte(&bpc1) || + !readUByte(&compression) || + !readUByte(&unknownColorspace) || + !readUByte(&ipr)) { + error(getPos(), "Unexpected EOF in JPX stream"); + return gFalse; + } + if (compression != 7) { + error(getPos(), "Unknown compression type in JPX stream"); + return gFalse; + } + bpc = (Guint *)gmallocn(nComps, sizeof(Guint)); + for (i = 0; i < nComps; ++i) { + bpc[i] = bpc1; + } + haveImgHdr = gTrue; + break; + case 0x62706363: // bits per component + cover(10); + if (!haveImgHdr) { + error(getPos(), "Found bits per component box before image header box in JPX stream"); + return gFalse; + } + if (dataLen != nComps) { + error(getPos(), "Invalid bits per component box in JPX stream"); + return gFalse; + } + for (i = 0; i < nComps; ++i) { + if (!readUByte(&bpc[i])) { + error(getPos(), "Unexpected EOF in JPX stream"); + return gFalse; + } + } + break; + case 0x636F6C72: // color specification + cover(11); + if (!readColorSpecBox(dataLen)) { + return gFalse; + } + break; + case 0x70636c72: // palette + cover(12); + if (!readUWord(&palette.nEntries) || + !readUByte(&palette.nComps)) { + error(getPos(), "Unexpected EOF in JPX stream"); + return gFalse; + } + palette.bpc = (Guint *)gmallocn(palette.nComps, sizeof(Guint)); + palette.c = + (int *)gmallocn(palette.nEntries * palette.nComps, sizeof(int)); + for (i = 0; i < palette.nComps; ++i) { + if (!readUByte(&palette.bpc[i])) { + error(getPos(), "Unexpected EOF in JPX stream"); + return gFalse; + } + ++palette.bpc[i]; + } + for (i = 0; i < palette.nEntries; ++i) { + for (j = 0; j < palette.nComps; ++j) { + if (!readNBytes(((palette.bpc[j] & 0x7f) + 7) >> 3, + (palette.bpc[j] & 0x80) ? gTrue : gFalse, + &palette.c[i * palette.nComps + j])) { + error(getPos(), "Unexpected EOF in JPX stream"); + return gFalse; + } + } + } + havePalette = gTrue; + break; + case 0x636d6170: // component mapping + cover(13); + compMap.nChannels = dataLen / 4; + compMap.comp = (Guint *)gmallocn(compMap.nChannels, sizeof(Guint)); + compMap.type = (Guint *)gmallocn(compMap.nChannels, sizeof(Guint)); + compMap.pComp = (Guint *)gmallocn(compMap.nChannels, sizeof(Guint)); + for (i = 0; i < compMap.nChannels; ++i) { + if (!readUWord(&compMap.comp[i]) || + !readUByte(&compMap.type[i]) || + !readUByte(&compMap.pComp[i])) { + error(getPos(), "Unexpected EOF in JPX stream"); + return gFalse; + } + } + haveCompMap = gTrue; + break; + case 0x63646566: // channel definition + cover(14); + if (!readUWord(&channelDefn.nChannels)) { + error(getPos(), "Unexpected EOF in JPX stream"); + return gFalse; + } + channelDefn.idx = + (Guint *)gmallocn(channelDefn.nChannels, sizeof(Guint)); + channelDefn.type = + (Guint *)gmallocn(channelDefn.nChannels, sizeof(Guint)); + channelDefn.assoc = + (Guint *)gmallocn(channelDefn.nChannels, sizeof(Guint)); + for (i = 0; i < channelDefn.nChannels; ++i) { + if (!readUWord(&channelDefn.idx[i]) || + !readUWord(&channelDefn.type[i]) || + !readUWord(&channelDefn.assoc[i])) { + error(getPos(), "Unexpected EOF in JPX stream"); + return gFalse; + } + } + haveChannelDefn = gTrue; + break; + case 0x6A703263: // contiguous codestream + cover(15); + if (!bpc) { + error(getPos(), "JPX stream is missing the image header box"); + } + if (!haveCS) { + error(getPos(), "JPX stream has no supported color spec"); + } + if (!readCodestream(dataLen)) { + return gFalse; + } + break; + default: + cover(16); + for (i = 0; i < dataLen; ++i) { + if (str->getChar() == EOF) { + error(getPos(), "Unexpected EOF in JPX stream"); + return gFalse; + } + } + break; + } + } + return gTrue; +} + +GBool JPXStream::readColorSpecBox(Guint dataLen) { + JPXColorSpec newCS; + Guint csApprox, csEnum; + Guint i; + GBool ok; + + ok = gFalse; + if (!readUByte(&newCS.meth) || + !readByte(&newCS.prec) || + !readUByte(&csApprox)) { + goto err; + } + switch (newCS.meth) { + case 1: // enumerated colorspace + cover(17); + if (!readULong(&csEnum)) { + goto err; + } + newCS.enumerated.type = (JPXColorSpaceType)csEnum; + switch (newCS.enumerated.type) { + case jpxCSBiLevel: + ok = gTrue; + break; + case jpxCSYCbCr1: + ok = gTrue; + break; + case jpxCSYCbCr2: + ok = gTrue; + break; + case jpxCSYCBCr3: + ok = gTrue; + break; + case jpxCSPhotoYCC: + ok = gTrue; + break; + case jpxCSCMY: + ok = gTrue; + break; + case jpxCSCMYK: + ok = gTrue; + break; + case jpxCSYCCK: + ok = gTrue; + break; + case jpxCSCIELab: + if (dataLen == 7 + 7*4) { + if (!readULong(&newCS.enumerated.cieLab.rl) || + !readULong(&newCS.enumerated.cieLab.ol) || + !readULong(&newCS.enumerated.cieLab.ra) || + !readULong(&newCS.enumerated.cieLab.oa) || + !readULong(&newCS.enumerated.cieLab.rb) || + !readULong(&newCS.enumerated.cieLab.ob) || + !readULong(&newCS.enumerated.cieLab.il)) { + goto err; + } + } else if (dataLen == 7) { + //~ this assumes the 8-bit case + cover(92); + newCS.enumerated.cieLab.rl = 100; + newCS.enumerated.cieLab.ol = 0; + newCS.enumerated.cieLab.ra = 255; + newCS.enumerated.cieLab.oa = 128; + newCS.enumerated.cieLab.rb = 255; + newCS.enumerated.cieLab.ob = 96; + newCS.enumerated.cieLab.il = 0x00443530; + } else { + goto err; + } + ok = gTrue; + break; + case jpxCSsRGB: + ok = gTrue; + break; + case jpxCSGrayscale: + ok = gTrue; + break; + case jpxCSBiLevel2: + ok = gTrue; + break; + case jpxCSCIEJab: + // not allowed in PDF + goto err; + case jpxCSCISesRGB: + ok = gTrue; + break; + case jpxCSROMMRGB: + ok = gTrue; + break; + case jpxCSsRGBYCbCr: + ok = gTrue; + break; + case jpxCSYPbPr1125: + ok = gTrue; + break; + case jpxCSYPbPr1250: + ok = gTrue; + break; + default: + goto err; + } + break; + case 2: // restricted ICC profile + case 3: // any ICC profile (JPX) + case 4: // vendor color (JPX) + cover(18); + for (i = 0; i < dataLen - 3; ++i) { + if (str->getChar() == EOF) { + goto err; + } + } + break; + } + + if (ok && (!haveCS || newCS.prec > cs.prec)) { + cs = newCS; + haveCS = gTrue; + } + + return gTrue; + + err: + error(getPos(), "Error in JPX color spec"); + return gFalse; +} + +GBool JPXStream::readCodestream(Guint /*len*/) { + JPXTile *tile; + JPXTileComp *tileComp; + int segType; + GBool haveSIZ, haveCOD, haveQCD, haveSOT; + Guint precinctSize, style; + Guint segLen, capabilities, comp, i, j, r; + + //----- main header + haveSIZ = haveCOD = haveQCD = haveSOT = gFalse; + do { + if (!readMarkerHdr(&segType, &segLen)) { + error(getPos(), "Error in JPX codestream"); + return gFalse; + } + switch (segType) { + case 0x4f: // SOC - start of codestream + // marker only + cover(19); + break; + case 0x51: // SIZ - image and tile size + cover(20); + if (!readUWord(&capabilities) || + !readULong(&img.xSize) || + !readULong(&img.ySize) || + !readULong(&img.xOffset) || + !readULong(&img.yOffset) || + !readULong(&img.xTileSize) || + !readULong(&img.yTileSize) || + !readULong(&img.xTileOffset) || + !readULong(&img.yTileOffset) || + !readUWord(&img.nComps)) { + error(getPos(), "Error in JPX SIZ marker segment"); + return gFalse; + } + if (haveImgHdr && img.nComps != nComps) { + error(getPos(), "Different number of components in JPX SIZ marker segment"); + return gFalse; + } + img.nXTiles = (img.xSize - img.xTileOffset + img.xTileSize - 1) + / img.xTileSize; + img.nYTiles = (img.ySize - img.yTileOffset + img.yTileSize - 1) + / img.yTileSize; + // check for overflow before allocating memory + if (img.nXTiles <= 0 || img.nYTiles <= 0 || + img.nXTiles >= INT_MAX / img.nYTiles) { + error(getPos(), "Bad tile count in JPX SIZ marker segment"); + return gFalse; + } + img.tiles = (JPXTile *)gmallocn(img.nXTiles * img.nYTiles, + sizeof(JPXTile)); + for (i = 0; i < img.nXTiles * img.nYTiles; ++i) { + img.tiles[i].tileComps = (JPXTileComp *)gmallocn(img.nComps, + sizeof(JPXTileComp)); + for (comp = 0; comp < img.nComps; ++comp) { + img.tiles[i].tileComps[comp].quantSteps = NULL; + img.tiles[i].tileComps[comp].data = NULL; + img.tiles[i].tileComps[comp].buf = NULL; + img.tiles[i].tileComps[comp].resLevels = NULL; + } + } + for (comp = 0; comp < img.nComps; ++comp) { + if (!readUByte(&img.tiles[0].tileComps[comp].prec) || + !readUByte(&img.tiles[0].tileComps[comp].hSep) || + !readUByte(&img.tiles[0].tileComps[comp].vSep)) { + error(getPos(), "Error in JPX SIZ marker segment"); + return gFalse; + } + img.tiles[0].tileComps[comp].sgned = + (img.tiles[0].tileComps[comp].prec & 0x80) ? gTrue : gFalse; + img.tiles[0].tileComps[comp].prec = + (img.tiles[0].tileComps[comp].prec & 0x7f) + 1; + for (i = 1; i < img.nXTiles * img.nYTiles; ++i) { + img.tiles[i].tileComps[comp] = img.tiles[0].tileComps[comp]; + } + } + haveSIZ = gTrue; + break; + case 0x52: // COD - coding style default + cover(21); + if (!readUByte(&img.tiles[0].tileComps[0].style) || + !readUByte(&img.tiles[0].progOrder) || + !readUWord(&img.tiles[0].nLayers) || + !readUByte(&img.tiles[0].multiComp) || + !readUByte(&img.tiles[0].tileComps[0].nDecompLevels) || + !readUByte(&img.tiles[0].tileComps[0].codeBlockW) || + !readUByte(&img.tiles[0].tileComps[0].codeBlockH) || + !readUByte(&img.tiles[0].tileComps[0].codeBlockStyle) || + !readUByte(&img.tiles[0].tileComps[0].transform)) { + error(getPos(), "Error in JPX COD marker segment"); + return gFalse; + } + img.tiles[0].tileComps[0].codeBlockW += 2; + img.tiles[0].tileComps[0].codeBlockH += 2; + for (i = 0; i < img.nXTiles * img.nYTiles; ++i) { + if (i != 0) { + img.tiles[i].progOrder = img.tiles[0].progOrder; + img.tiles[i].nLayers = img.tiles[0].nLayers; + img.tiles[i].multiComp = img.tiles[0].multiComp; + } + for (comp = 0; comp < img.nComps; ++comp) { + if (!(i == 0 && comp == 0)) { + img.tiles[i].tileComps[comp].style = + img.tiles[0].tileComps[0].style; + img.tiles[i].tileComps[comp].nDecompLevels = + img.tiles[0].tileComps[0].nDecompLevels; + img.tiles[i].tileComps[comp].codeBlockW = + img.tiles[0].tileComps[0].codeBlockW; + img.tiles[i].tileComps[comp].codeBlockH = + img.tiles[0].tileComps[0].codeBlockH; + img.tiles[i].tileComps[comp].codeBlockStyle = + img.tiles[0].tileComps[0].codeBlockStyle; + img.tiles[i].tileComps[comp].transform = + img.tiles[0].tileComps[0].transform; + } + img.tiles[i].tileComps[comp].resLevels = + (JPXResLevel *)gmallocn( + (img.tiles[i].tileComps[comp].nDecompLevels + 1), + sizeof(JPXResLevel)); + for (r = 0; r <= img.tiles[i].tileComps[comp].nDecompLevels; ++r) { + img.tiles[i].tileComps[comp].resLevels[r].precincts = NULL; + } + } + } + for (r = 0; r <= img.tiles[0].tileComps[0].nDecompLevels; ++r) { + if (img.tiles[0].tileComps[0].style & 0x01) { + cover(91); + if (!readUByte(&precinctSize)) { + error(getPos(), "Error in JPX COD marker segment"); + return gFalse; + } + img.tiles[0].tileComps[0].resLevels[r].precinctWidth = + precinctSize & 0x0f; + img.tiles[0].tileComps[0].resLevels[r].precinctHeight = + (precinctSize >> 4) & 0x0f; + } else { + img.tiles[0].tileComps[0].resLevels[r].precinctWidth = 15; + img.tiles[0].tileComps[0].resLevels[r].precinctHeight = 15; + } + } + for (i = 0; i < img.nXTiles * img.nYTiles; ++i) { + for (comp = 0; comp < img.nComps; ++comp) { + if (!(i == 0 && comp == 0)) { + for (r = 0; r <= img.tiles[i].tileComps[comp].nDecompLevels; ++r) { + img.tiles[i].tileComps[comp].resLevels[r].precinctWidth = + img.tiles[0].tileComps[0].resLevels[r].precinctWidth; + img.tiles[i].tileComps[comp].resLevels[r].precinctHeight = + img.tiles[0].tileComps[0].resLevels[r].precinctHeight; + } + } + } + } + haveCOD = gTrue; + break; + case 0x53: // COC - coding style component + cover(22); + if (!haveCOD) { + error(getPos(), "JPX COC marker segment before COD segment"); + return gFalse; + } + if ((img.nComps > 256 && !readUWord(&comp)) || + (img.nComps <= 256 && !readUByte(&comp)) || + comp >= img.nComps || + !readUByte(&style) || + !readUByte(&img.tiles[0].tileComps[comp].nDecompLevels) || + !readUByte(&img.tiles[0].tileComps[comp].codeBlockW) || + !readUByte(&img.tiles[0].tileComps[comp].codeBlockH) || + !readUByte(&img.tiles[0].tileComps[comp].codeBlockStyle) || + !readUByte(&img.tiles[0].tileComps[comp].transform)) { + error(getPos(), "Error in JPX COC marker segment"); + return gFalse; + } + img.tiles[0].tileComps[comp].style = + (img.tiles[0].tileComps[comp].style & ~1) | (style & 1); + img.tiles[0].tileComps[comp].codeBlockW += 2; + img.tiles[0].tileComps[comp].codeBlockH += 2; + for (i = 0; i < img.nXTiles * img.nYTiles; ++i) { + if (i != 0) { + img.tiles[i].tileComps[comp].style = + img.tiles[0].tileComps[comp].style; + img.tiles[i].tileComps[comp].nDecompLevels = + img.tiles[0].tileComps[comp].nDecompLevels; + img.tiles[i].tileComps[comp].codeBlockW = + img.tiles[0].tileComps[comp].codeBlockW; + img.tiles[i].tileComps[comp].codeBlockH = + img.tiles[0].tileComps[comp].codeBlockH; + img.tiles[i].tileComps[comp].codeBlockStyle = + img.tiles[0].tileComps[comp].codeBlockStyle; + img.tiles[i].tileComps[comp].transform = + img.tiles[0].tileComps[comp].transform; + } + img.tiles[i].tileComps[comp].resLevels = + (JPXResLevel *)greallocn( + img.tiles[i].tileComps[comp].resLevels, + (img.tiles[i].tileComps[comp].nDecompLevels + 1), + sizeof(JPXResLevel)); + for (r = 0; r <= img.tiles[i].tileComps[comp].nDecompLevels; ++r) { + img.tiles[i].tileComps[comp].resLevels[r].precincts = NULL; + } + } + for (r = 0; r <= img.tiles[0].tileComps[comp].nDecompLevels; ++r) { + if (img.tiles[0].tileComps[comp].style & 0x01) { + if (!readUByte(&precinctSize)) { + error(getPos(), "Error in JPX COD marker segment"); + return gFalse; + } + img.tiles[0].tileComps[comp].resLevels[r].precinctWidth = + precinctSize & 0x0f; + img.tiles[0].tileComps[comp].resLevels[r].precinctHeight = + (precinctSize >> 4) & 0x0f; + } else { + img.tiles[0].tileComps[comp].resLevels[r].precinctWidth = 15; + img.tiles[0].tileComps[comp].resLevels[r].precinctHeight = 15; + } + } + for (i = 1; i < img.nXTiles * img.nYTiles; ++i) { + for (r = 0; r <= img.tiles[i].tileComps[comp].nDecompLevels; ++r) { + img.tiles[i].tileComps[comp].resLevels[r].precinctWidth = + img.tiles[0].tileComps[comp].resLevels[r].precinctWidth; + img.tiles[i].tileComps[comp].resLevels[r].precinctHeight = + img.tiles[0].tileComps[comp].resLevels[r].precinctHeight; + } + } + break; + case 0x5c: // QCD - quantization default + cover(23); + if (!readUByte(&img.tiles[0].tileComps[0].quantStyle)) { + error(getPos(), "Error in JPX QCD marker segment"); + return gFalse; + } + if ((img.tiles[0].tileComps[0].quantStyle & 0x1f) == 0x00) { + img.tiles[0].tileComps[0].nQuantSteps = segLen - 3; + img.tiles[0].tileComps[0].quantSteps = + (Guint *)greallocn(img.tiles[0].tileComps[0].quantSteps, + img.tiles[0].tileComps[0].nQuantSteps, + sizeof(Guint)); + for (i = 0; i < img.tiles[0].tileComps[0].nQuantSteps; ++i) { + if (!readUByte(&img.tiles[0].tileComps[0].quantSteps[i])) { + error(getPos(), "Error in JPX QCD marker segment"); + return gFalse; + } + } + } else if ((img.tiles[0].tileComps[0].quantStyle & 0x1f) == 0x01) { + img.tiles[0].tileComps[0].nQuantSteps = 1; + img.tiles[0].tileComps[0].quantSteps = + (Guint *)greallocn(img.tiles[0].tileComps[0].quantSteps, + img.tiles[0].tileComps[0].nQuantSteps, + sizeof(Guint)); + if (!readUWord(&img.tiles[0].tileComps[0].quantSteps[0])) { + error(getPos(), "Error in JPX QCD marker segment"); + return gFalse; + } + } else if ((img.tiles[0].tileComps[0].quantStyle & 0x1f) == 0x02) { + img.tiles[0].tileComps[0].nQuantSteps = (segLen - 3) / 2; + img.tiles[0].tileComps[0].quantSteps = + (Guint *)greallocn(img.tiles[0].tileComps[0].quantSteps, + img.tiles[0].tileComps[0].nQuantSteps, + sizeof(Guint)); + for (i = 0; i < img.tiles[0].tileComps[0].nQuantSteps; ++i) { + if (!readUWord(&img.tiles[0].tileComps[0].quantSteps[i])) { + error(getPos(), "Error in JPX QCD marker segment"); + return gFalse; + } + } + } else { + error(getPos(), "Error in JPX QCD marker segment"); + return gFalse; + } + for (i = 0; i < img.nXTiles * img.nYTiles; ++i) { + for (comp = 0; comp < img.nComps; ++comp) { + if (!(i == 0 && comp == 0)) { + img.tiles[i].tileComps[comp].quantStyle = + img.tiles[0].tileComps[0].quantStyle; + img.tiles[i].tileComps[comp].nQuantSteps = + img.tiles[0].tileComps[0].nQuantSteps; + img.tiles[i].tileComps[comp].quantSteps = + (Guint *)greallocn(img.tiles[i].tileComps[comp].quantSteps, + img.tiles[0].tileComps[0].nQuantSteps, + sizeof(Guint)); + for (j = 0; j < img.tiles[0].tileComps[0].nQuantSteps; ++j) { + img.tiles[i].tileComps[comp].quantSteps[j] = + img.tiles[0].tileComps[0].quantSteps[j]; + } + } + } + } + haveQCD = gTrue; + break; + case 0x5d: // QCC - quantization component + cover(24); + if (!haveQCD) { + error(getPos(), "JPX QCC marker segment before QCD segment"); + return gFalse; + } + if ((img.nComps > 256 && !readUWord(&comp)) || + (img.nComps <= 256 && !readUByte(&comp)) || + comp >= img.nComps || + !readUByte(&img.tiles[0].tileComps[comp].quantStyle)) { + error(getPos(), "Error in JPX QCC marker segment"); + return gFalse; + } + if ((img.tiles[0].tileComps[comp].quantStyle & 0x1f) == 0x00) { + img.tiles[0].tileComps[comp].nQuantSteps = + segLen - (img.nComps > 256 ? 5 : 4); + img.tiles[0].tileComps[comp].quantSteps = + (Guint *)greallocn(img.tiles[0].tileComps[comp].quantSteps, + img.tiles[0].tileComps[comp].nQuantSteps, + sizeof(Guint)); + for (i = 0; i < img.tiles[0].tileComps[comp].nQuantSteps; ++i) { + if (!readUByte(&img.tiles[0].tileComps[comp].quantSteps[i])) { + error(getPos(), "Error in JPX QCC marker segment"); + return gFalse; + } + } + } else if ((img.tiles[0].tileComps[comp].quantStyle & 0x1f) == 0x01) { + img.tiles[0].tileComps[comp].nQuantSteps = 1; + img.tiles[0].tileComps[comp].quantSteps = + (Guint *)greallocn(img.tiles[0].tileComps[comp].quantSteps, + img.tiles[0].tileComps[comp].nQuantSteps, + sizeof(Guint)); + if (!readUWord(&img.tiles[0].tileComps[comp].quantSteps[0])) { + error(getPos(), "Error in JPX QCC marker segment"); + return gFalse; + } + } else if ((img.tiles[0].tileComps[comp].quantStyle & 0x1f) == 0x02) { + img.tiles[0].tileComps[comp].nQuantSteps = + (segLen - (img.nComps > 256 ? 5 : 4)) / 2; + img.tiles[0].tileComps[comp].quantSteps = + (Guint *)greallocn(img.tiles[0].tileComps[comp].quantSteps, + img.tiles[0].tileComps[comp].nQuantSteps, + sizeof(Guint)); + for (i = 0; i < img.tiles[0].tileComps[comp].nQuantSteps; ++i) { + if (!readUWord(&img.tiles[0].tileComps[comp].quantSteps[i])) { + error(getPos(), "Error in JPX QCD marker segment"); + return gFalse; + } + } + } else { + error(getPos(), "Error in JPX QCC marker segment"); + return gFalse; + } + for (i = 1; i < img.nXTiles * img.nYTiles; ++i) { + img.tiles[i].tileComps[comp].quantStyle = + img.tiles[0].tileComps[comp].quantStyle; + img.tiles[i].tileComps[comp].nQuantSteps = + img.tiles[0].tileComps[comp].nQuantSteps; + img.tiles[i].tileComps[comp].quantSteps = + (Guint *)greallocn(img.tiles[i].tileComps[comp].quantSteps, + img.tiles[0].tileComps[comp].nQuantSteps, + sizeof(Guint)); + for (j = 0; j < img.tiles[0].tileComps[comp].nQuantSteps; ++j) { + img.tiles[i].tileComps[comp].quantSteps[j] = + img.tiles[0].tileComps[comp].quantSteps[j]; + } + } + break; + case 0x5e: // RGN - region of interest + cover(25); +#if 1 //~ ROI is unimplemented + fprintf(stderr, "RGN\n"); + for (i = 0; i < segLen - 2; ++i) { + if (str->getChar() == EOF) { + error(getPos(), "Error in JPX PPM marker segment"); + return gFalse; + } + } +#else + if ((img.nComps > 256 && !readUWord(&comp)) || + (img.nComps <= 256 && !readUByte(&comp)) || + comp >= img.nComps || + !readUByte(&compInfo[comp].defROI.style) || + !readUByte(&compInfo[comp].defROI.shift)) { + error(getPos(), "Error in JPX RGN marker segment"); + return gFalse; + } +#endif + break; + case 0x5f: // POC - progression order change + cover(26); +#if 1 //~ progression order changes are unimplemented + fprintf(stderr, "POC\n"); + for (i = 0; i < segLen - 2; ++i) { + if (str->getChar() == EOF) { + error(getPos(), "Error in JPX PPM marker segment"); + return gFalse; + } + } +#else + nProgs = (segLen - 2) / (img.nComps > 256 ? 9 : 7); + progs = (JPXProgOrder *)gmallocn(nProgs, sizeof(JPXProgOrder)); + for (i = 0; i < nProgs; ++i) { + if (!readUByte(&progs[i].startRes) || + !(img.nComps > 256 && readUWord(&progs[i].startComp)) || + !(img.nComps <= 256 && readUByte(&progs[i].startComp)) || + !readUWord(&progs[i].endLayer) || + !readUByte(&progs[i].endRes) || + !(img.nComps > 256 && readUWord(&progs[i].endComp)) || + !(img.nComps <= 256 && readUByte(&progs[i].endComp)) || + !readUByte(&progs[i].progOrder)) { + error(getPos(), "Error in JPX POC marker segment"); + return gFalse; + } + } +#endif + break; + case 0x60: // PPM - packed packet headers, main header + cover(27); +#if 1 //~ packed packet headers are unimplemented + fprintf(stderr, "PPM\n"); + for (i = 0; i < segLen - 2; ++i) { + if (str->getChar() == EOF) { + error(getPos(), "Error in JPX PPM marker segment"); + return gFalse; + } + } +#endif + break; + case 0x55: // TLM - tile-part lengths + // skipped + cover(28); + for (i = 0; i < segLen - 2; ++i) { + if (str->getChar() == EOF) { + error(getPos(), "Error in JPX TLM marker segment"); + return gFalse; + } + } + break; + case 0x57: // PLM - packet length, main header + // skipped + cover(29); + for (i = 0; i < segLen - 2; ++i) { + if (str->getChar() == EOF) { + error(getPos(), "Error in JPX PLM marker segment"); + return gFalse; + } + } + break; + case 0x63: // CRG - component registration + // skipped + cover(30); + for (i = 0; i < segLen - 2; ++i) { + if (str->getChar() == EOF) { + error(getPos(), "Error in JPX CRG marker segment"); + return gFalse; + } + } + break; + case 0x64: // COM - comment + // skipped + cover(31); + for (i = 0; i < segLen - 2; ++i) { + if (str->getChar() == EOF) { + error(getPos(), "Error in JPX COM marker segment"); + return gFalse; + } + } + break; + case 0x90: // SOT - start of tile + cover(32); + haveSOT = gTrue; + break; + default: + cover(33); + error(getPos(), "Unknown marker segment %02x in JPX stream", segType); + for (i = 0; i < segLen - 2; ++i) { + if (str->getChar() == EOF) { + break; + } + } + break; + } + } while (!haveSOT); + + if (!haveSIZ) { + error(getPos(), "Missing SIZ marker segment in JPX stream"); + return gFalse; + } + if (!haveCOD) { + error(getPos(), "Missing COD marker segment in JPX stream"); + return gFalse; + } + if (!haveQCD) { + error(getPos(), "Missing QCD marker segment in JPX stream"); + return gFalse; + } + + //----- read the tile-parts + while (1) { + if (!readTilePart()) { + return gFalse; + } + if (!readMarkerHdr(&segType, &segLen)) { + error(getPos(), "Error in JPX codestream"); + return gFalse; + } + if (segType != 0x90) { // SOT - start of tile + break; + } + } + + if (segType != 0xd9) { // EOC - end of codestream + error(getPos(), "Missing EOC marker in JPX codestream"); + return gFalse; + } + + //----- finish decoding the image + for (i = 0; i < img.nXTiles * img.nYTiles; ++i) { + tile = &img.tiles[i]; + for (comp = 0; comp < img.nComps; ++comp) { + tileComp = &tile->tileComps[comp]; + inverseTransform(tileComp); + } + if (!inverseMultiCompAndDC(tile)) { + return gFalse; + } + } + + //~ can free memory below tileComps here, and also tileComp.buf + + return gTrue; +} + +GBool JPXStream::readTilePart() { + JPXTile *tile; + JPXTileComp *tileComp; + JPXResLevel *resLevel; + JPXPrecinct *precinct; + JPXSubband *subband; + JPXCodeBlock *cb; + GBool haveSOD; + Guint tileIdx, tilePartLen, tilePartIdx, nTileParts; + GBool tilePartToEOC; + Guint precinctSize, style; + Guint n, nSBs, nx, ny, sbx0, sby0, comp, segLen; + Guint i, j, k, cbX, cbY, r, pre, sb, cbi; + int segType, level; + + // process the SOT marker segment + if (!readUWord(&tileIdx) || + !readULong(&tilePartLen) || + !readUByte(&tilePartIdx) || + !readUByte(&nTileParts)) { + error(getPos(), "Error in JPX SOT marker segment"); + return gFalse; + } + + if (tileIdx >= img.nXTiles * img.nYTiles) { + error(getPos(), "Weird tile index in JPX stream"); + return gFalse; + } + + tilePartToEOC = tilePartLen == 0; + tilePartLen -= 12; // subtract size of SOT segment + + haveSOD = gFalse; + do { + if (!readMarkerHdr(&segType, &segLen)) { + error(getPos(), "Error in JPX tile-part codestream"); + return gFalse; + } + tilePartLen -= 2 + segLen; + switch (segType) { + case 0x52: // COD - coding style default + cover(34); + if (!readUByte(&img.tiles[tileIdx].tileComps[0].style) || + !readUByte(&img.tiles[tileIdx].progOrder) || + !readUWord(&img.tiles[tileIdx].nLayers) || + !readUByte(&img.tiles[tileIdx].multiComp) || + !readUByte(&img.tiles[tileIdx].tileComps[0].nDecompLevels) || + !readUByte(&img.tiles[tileIdx].tileComps[0].codeBlockW) || + !readUByte(&img.tiles[tileIdx].tileComps[0].codeBlockH) || + !readUByte(&img.tiles[tileIdx].tileComps[0].codeBlockStyle) || + !readUByte(&img.tiles[tileIdx].tileComps[0].transform)) { + error(getPos(), "Error in JPX COD marker segment"); + return gFalse; + } + img.tiles[tileIdx].tileComps[0].codeBlockW += 2; + img.tiles[tileIdx].tileComps[0].codeBlockH += 2; + for (comp = 0; comp < img.nComps; ++comp) { + if (comp != 0) { + img.tiles[tileIdx].tileComps[comp].style = + img.tiles[tileIdx].tileComps[0].style; + img.tiles[tileIdx].tileComps[comp].nDecompLevels = + img.tiles[tileIdx].tileComps[0].nDecompLevels; + img.tiles[tileIdx].tileComps[comp].codeBlockW = + img.tiles[tileIdx].tileComps[0].codeBlockW; + img.tiles[tileIdx].tileComps[comp].codeBlockH = + img.tiles[tileIdx].tileComps[0].codeBlockH; + img.tiles[tileIdx].tileComps[comp].codeBlockStyle = + img.tiles[tileIdx].tileComps[0].codeBlockStyle; + img.tiles[tileIdx].tileComps[comp].transform = + img.tiles[tileIdx].tileComps[0].transform; + } + img.tiles[tileIdx].tileComps[comp].resLevels = + (JPXResLevel *)greallocn( + img.tiles[tileIdx].tileComps[comp].resLevels, + (img.tiles[tileIdx].tileComps[comp].nDecompLevels + 1), + sizeof(JPXResLevel)); + for (r = 0; + r <= img.tiles[tileIdx].tileComps[comp].nDecompLevels; + ++r) { + img.tiles[tileIdx].tileComps[comp].resLevels[r].precincts = NULL; + } + } + for (r = 0; r <= img.tiles[tileIdx].tileComps[0].nDecompLevels; ++r) { + if (img.tiles[tileIdx].tileComps[0].style & 0x01) { + if (!readUByte(&precinctSize)) { + error(getPos(), "Error in JPX COD marker segment"); + return gFalse; + } + img.tiles[tileIdx].tileComps[0].resLevels[r].precinctWidth = + precinctSize & 0x0f; + img.tiles[tileIdx].tileComps[0].resLevels[r].precinctHeight = + (precinctSize >> 4) & 0x0f; + } else { + img.tiles[tileIdx].tileComps[0].resLevels[r].precinctWidth = 15; + img.tiles[tileIdx].tileComps[0].resLevels[r].precinctHeight = 15; + } + } + for (comp = 1; comp < img.nComps; ++comp) { + for (r = 0; + r <= img.tiles[tileIdx].tileComps[comp].nDecompLevels; + ++r) { + img.tiles[tileIdx].tileComps[comp].resLevels[r].precinctWidth = + img.tiles[tileIdx].tileComps[0].resLevels[r].precinctWidth; + img.tiles[tileIdx].tileComps[comp].resLevels[r].precinctHeight = + img.tiles[tileIdx].tileComps[0].resLevels[r].precinctHeight; + } + } + break; + case 0x53: // COC - coding style component + cover(35); + if ((img.nComps > 256 && !readUWord(&comp)) || + (img.nComps <= 256 && !readUByte(&comp)) || + comp >= img.nComps || + !readUByte(&style) || + !readUByte(&img.tiles[tileIdx].tileComps[comp].nDecompLevels) || + !readUByte(&img.tiles[tileIdx].tileComps[comp].codeBlockW) || + !readUByte(&img.tiles[tileIdx].tileComps[comp].codeBlockH) || + !readUByte(&img.tiles[tileIdx].tileComps[comp].codeBlockStyle) || + !readUByte(&img.tiles[tileIdx].tileComps[comp].transform)) { + error(getPos(), "Error in JPX COC marker segment"); + return gFalse; + } + img.tiles[tileIdx].tileComps[comp].style = + (img.tiles[tileIdx].tileComps[comp].style & ~1) | (style & 1); + img.tiles[tileIdx].tileComps[comp].codeBlockW += 2; + img.tiles[tileIdx].tileComps[comp].codeBlockH += 2; + img.tiles[tileIdx].tileComps[comp].resLevels = + (JPXResLevel *)greallocn( + img.tiles[tileIdx].tileComps[comp].resLevels, + (img.tiles[tileIdx].tileComps[comp].nDecompLevels + 1), + sizeof(JPXResLevel)); + for (r = 0; r <= img.tiles[tileIdx].tileComps[comp].nDecompLevels; ++r) { + img.tiles[tileIdx].tileComps[comp].resLevels[r].precincts = NULL; + } + for (r = 0; r <= img.tiles[tileIdx].tileComps[comp].nDecompLevels; ++r) { + if (img.tiles[tileIdx].tileComps[comp].style & 0x01) { + if (!readUByte(&precinctSize)) { + error(getPos(), "Error in JPX COD marker segment"); + return gFalse; + } + img.tiles[tileIdx].tileComps[comp].resLevels[r].precinctWidth = + precinctSize & 0x0f; + img.tiles[tileIdx].tileComps[comp].resLevels[r].precinctHeight = + (precinctSize >> 4) & 0x0f; + } else { + img.tiles[tileIdx].tileComps[comp].resLevels[r].precinctWidth = 15; + img.tiles[tileIdx].tileComps[comp].resLevels[r].precinctHeight = 15; + } + } + break; + case 0x5c: // QCD - quantization default + cover(36); + if (!readUByte(&img.tiles[tileIdx].tileComps[0].quantStyle)) { + error(getPos(), "Error in JPX QCD marker segment"); + return gFalse; + } + if ((img.tiles[tileIdx].tileComps[0].quantStyle & 0x1f) == 0x00) { + img.tiles[tileIdx].tileComps[0].nQuantSteps = + segLen - 3; + img.tiles[tileIdx].tileComps[0].quantSteps = + (Guint *)greallocn(img.tiles[tileIdx].tileComps[0].quantSteps, + img.tiles[tileIdx].tileComps[0].nQuantSteps, + sizeof(Guint)); + for (i = 0; i < img.tiles[tileIdx].tileComps[0].nQuantSteps; ++i) { + if (!readUByte(&img.tiles[tileIdx].tileComps[0].quantSteps[i])) { + error(getPos(), "Error in JPX QCD marker segment"); + return gFalse; + } + } + } else if ((img.tiles[tileIdx].tileComps[0].quantStyle & 0x1f) == 0x01) { + img.tiles[tileIdx].tileComps[0].nQuantSteps = 1; + img.tiles[tileIdx].tileComps[0].quantSteps = + (Guint *)greallocn(img.tiles[tileIdx].tileComps[0].quantSteps, + img.tiles[tileIdx].tileComps[0].nQuantSteps, + sizeof(Guint)); + if (!readUWord(&img.tiles[tileIdx].tileComps[0].quantSteps[0])) { + error(getPos(), "Error in JPX QCD marker segment"); + return gFalse; + } + } else if ((img.tiles[tileIdx].tileComps[0].quantStyle & 0x1f) == 0x02) { + img.tiles[tileIdx].tileComps[0].nQuantSteps = (segLen - 3) / 2; + img.tiles[tileIdx].tileComps[0].quantSteps = + (Guint *)greallocn(img.tiles[tileIdx].tileComps[0].quantSteps, + img.tiles[tileIdx].tileComps[0].nQuantSteps, + sizeof(Guint)); + for (i = 0; i < img.tiles[tileIdx].tileComps[0].nQuantSteps; ++i) { + if (!readUWord(&img.tiles[tileIdx].tileComps[0].quantSteps[i])) { + error(getPos(), "Error in JPX QCD marker segment"); + return gFalse; + } + } + } else { + error(getPos(), "Error in JPX QCD marker segment"); + return gFalse; + } + for (comp = 1; comp < img.nComps; ++comp) { + img.tiles[tileIdx].tileComps[comp].quantStyle = + img.tiles[tileIdx].tileComps[0].quantStyle; + img.tiles[tileIdx].tileComps[comp].nQuantSteps = + img.tiles[tileIdx].tileComps[0].nQuantSteps; + img.tiles[tileIdx].tileComps[comp].quantSteps = + (Guint *)greallocn(img.tiles[tileIdx].tileComps[comp].quantSteps, + img.tiles[tileIdx].tileComps[0].nQuantSteps, + sizeof(Guint)); + for (j = 0; j < img.tiles[tileIdx].tileComps[0].nQuantSteps; ++j) { + img.tiles[tileIdx].tileComps[comp].quantSteps[j] = + img.tiles[tileIdx].tileComps[0].quantSteps[j]; + } + } + break; + case 0x5d: // QCC - quantization component + cover(37); + if ((img.nComps > 256 && !readUWord(&comp)) || + (img.nComps <= 256 && !readUByte(&comp)) || + comp >= img.nComps || + !readUByte(&img.tiles[tileIdx].tileComps[comp].quantStyle)) { + error(getPos(), "Error in JPX QCC marker segment"); + return gFalse; + } + if ((img.tiles[tileIdx].tileComps[comp].quantStyle & 0x1f) == 0x00) { + img.tiles[tileIdx].tileComps[comp].nQuantSteps = + segLen - (img.nComps > 256 ? 5 : 4); + img.tiles[tileIdx].tileComps[comp].quantSteps = + (Guint *)greallocn(img.tiles[tileIdx].tileComps[comp].quantSteps, + img.tiles[tileIdx].tileComps[comp].nQuantSteps, + sizeof(Guint)); + for (i = 0; i < img.tiles[tileIdx].tileComps[comp].nQuantSteps; ++i) { + if (!readUByte(&img.tiles[tileIdx].tileComps[comp].quantSteps[i])) { + error(getPos(), "Error in JPX QCC marker segment"); + return gFalse; + } + } + } else if ((img.tiles[tileIdx].tileComps[comp].quantStyle & 0x1f) + == 0x01) { + img.tiles[tileIdx].tileComps[comp].nQuantSteps = 1; + img.tiles[tileIdx].tileComps[comp].quantSteps = + (Guint *)greallocn(img.tiles[tileIdx].tileComps[comp].quantSteps, + img.tiles[tileIdx].tileComps[comp].nQuantSteps, + sizeof(Guint)); + if (!readUWord(&img.tiles[tileIdx].tileComps[comp].quantSteps[0])) { + error(getPos(), "Error in JPX QCC marker segment"); + return gFalse; + } + } else if ((img.tiles[tileIdx].tileComps[comp].quantStyle & 0x1f) + == 0x02) { + img.tiles[tileIdx].tileComps[comp].nQuantSteps = + (segLen - (img.nComps > 256 ? 5 : 4)) / 2; + img.tiles[tileIdx].tileComps[comp].quantSteps = + (Guint *)greallocn(img.tiles[tileIdx].tileComps[comp].quantSteps, + img.tiles[tileIdx].tileComps[comp].nQuantSteps, + sizeof(Guint)); + for (i = 0; i < img.tiles[tileIdx].tileComps[comp].nQuantSteps; ++i) { + if (!readUWord(&img.tiles[tileIdx].tileComps[comp].quantSteps[i])) { + error(getPos(), "Error in JPX QCD marker segment"); + return gFalse; + } + } + } else { + error(getPos(), "Error in JPX QCC marker segment"); + return gFalse; + } + break; + case 0x5e: // RGN - region of interest + cover(38); +#if 1 //~ ROI is unimplemented + fprintf(stderr, "RGN\n"); + for (i = 0; i < segLen - 2; ++i) { + if (str->getChar() == EOF) { + error(getPos(), "Error in JPX PPM marker segment"); + return gFalse; + } + } +#else + if ((img.nComps > 256 && !readUWord(&comp)) || + (img.nComps <= 256 && !readUByte(&comp)) || + comp >= img.nComps || + !readUByte(&compInfo[comp].roi.style) || + !readUByte(&compInfo[comp].roi.shift)) { + error(getPos(), "Error in JPX RGN marker segment"); + return gFalse; + } +#endif + break; + case 0x5f: // POC - progression order change + cover(39); +#if 1 //~ progression order changes are unimplemented + fprintf(stderr, "POC\n"); + for (i = 0; i < segLen - 2; ++i) { + if (str->getChar() == EOF) { + error(getPos(), "Error in JPX PPM marker segment"); + return gFalse; + } + } +#else + nTileProgs = (segLen - 2) / (img.nComps > 256 ? 9 : 7); + tileProgs = (JPXProgOrder *)gmallocn(nTileProgs, sizeof(JPXProgOrder)); + for (i = 0; i < nTileProgs; ++i) { + if (!readUByte(&tileProgs[i].startRes) || + !(img.nComps > 256 && readUWord(&tileProgs[i].startComp)) || + !(img.nComps <= 256 && readUByte(&tileProgs[i].startComp)) || + !readUWord(&tileProgs[i].endLayer) || + !readUByte(&tileProgs[i].endRes) || + !(img.nComps > 256 && readUWord(&tileProgs[i].endComp)) || + !(img.nComps <= 256 && readUByte(&tileProgs[i].endComp)) || + !readUByte(&tileProgs[i].progOrder)) { + error(getPos(), "Error in JPX POC marker segment"); + return gFalse; + } + } +#endif + break; + case 0x61: // PPT - packed packet headers, tile-part hdr + cover(40); +#if 1 //~ packed packet headers are unimplemented + fprintf(stderr, "PPT\n"); + for (i = 0; i < segLen - 2; ++i) { + if (str->getChar() == EOF) { + error(getPos(), "Error in JPX PPT marker segment"); + return gFalse; + } + } +#endif + case 0x58: // PLT - packet length, tile-part header + // skipped + cover(41); + for (i = 0; i < segLen - 2; ++i) { + if (str->getChar() == EOF) { + error(getPos(), "Error in JPX PLT marker segment"); + return gFalse; + } + } + break; + case 0x64: // COM - comment + // skipped + cover(42); + for (i = 0; i < segLen - 2; ++i) { + if (str->getChar() == EOF) { + error(getPos(), "Error in JPX COM marker segment"); + return gFalse; + } + } + break; + case 0x93: // SOD - start of data + cover(43); + haveSOD = gTrue; + break; + default: + cover(44); + error(getPos(), "Unknown marker segment %02x in JPX tile-part stream", + segType); + for (i = 0; i < segLen - 2; ++i) { + if (str->getChar() == EOF) { + break; + } + } + break; + } + } while (!haveSOD); + + //----- initialize the tile, precincts, and code-blocks + if (tilePartIdx == 0) { + tile = &img.tiles[tileIdx]; + i = tileIdx / img.nXTiles; + j = tileIdx % img.nXTiles; + if ((tile->x0 = img.xTileOffset + j * img.xTileSize) < img.xOffset) { + tile->x0 = img.xOffset; + } + if ((tile->y0 = img.yTileOffset + i * img.yTileSize) < img.yOffset) { + tile->y0 = img.yOffset; + } + if ((tile->x1 = img.xTileOffset + (j + 1) * img.xTileSize) > img.xSize) { + tile->x1 = img.xSize; + } + if ((tile->y1 = img.yTileOffset + (i + 1) * img.yTileSize) > img.ySize) { + tile->y1 = img.ySize; + } + tile->comp = 0; + tile->res = 0; + tile->precinct = 0; + tile->layer = 0; + tile->maxNDecompLevels = 0; + for (comp = 0; comp < img.nComps; ++comp) { + tileComp = &tile->tileComps[comp]; + if (tileComp->nDecompLevels > tile->maxNDecompLevels) { + tile->maxNDecompLevels = tileComp->nDecompLevels; + } + tileComp->x0 = jpxCeilDiv(tile->x0, tileComp->hSep); + tileComp->y0 = jpxCeilDiv(tile->y0, tileComp->hSep); + tileComp->x1 = jpxCeilDiv(tile->x1, tileComp->hSep); + tileComp->y1 = jpxCeilDiv(tile->y1, tileComp->hSep); + tileComp->cbW = 1 << tileComp->codeBlockW; + tileComp->cbH = 1 << tileComp->codeBlockH; + tileComp->data = (int *)gmallocn((tileComp->x1 - tileComp->x0) * + (tileComp->y1 - tileComp->y0), + sizeof(int)); + if (tileComp->x1 - tileComp->x0 > tileComp->y1 - tileComp->y0) { + n = tileComp->x1 - tileComp->x0; + } else { + n = tileComp->y1 - tileComp->y0; + } + tileComp->buf = (int *)gmallocn(n + 8, sizeof(int)); + for (r = 0; r <= tileComp->nDecompLevels; ++r) { + resLevel = &tileComp->resLevels[r]; + k = r == 0 ? tileComp->nDecompLevels + : tileComp->nDecompLevels - r + 1; + resLevel->x0 = jpxCeilDivPow2(tileComp->x0, k); + resLevel->y0 = jpxCeilDivPow2(tileComp->y0, k); + resLevel->x1 = jpxCeilDivPow2(tileComp->x1, k); + resLevel->y1 = jpxCeilDivPow2(tileComp->y1, k); + if (r == 0) { + resLevel->bx0[0] = resLevel->x0; + resLevel->by0[0] = resLevel->y0; + resLevel->bx1[0] = resLevel->x1; + resLevel->by1[0] = resLevel->y1; + } else { + resLevel->bx0[0] = jpxCeilDivPow2(tileComp->x0 - (1 << (k-1)), k); + resLevel->by0[0] = resLevel->y0; + resLevel->bx1[0] = jpxCeilDivPow2(tileComp->x1 - (1 << (k-1)), k); + resLevel->by1[0] = resLevel->y1; + resLevel->bx0[1] = resLevel->x0; + resLevel->by0[1] = jpxCeilDivPow2(tileComp->y0 - (1 << (k-1)), k); + resLevel->bx1[1] = resLevel->x1; + resLevel->by1[1] = jpxCeilDivPow2(tileComp->y1 - (1 << (k-1)), k); + resLevel->bx0[2] = jpxCeilDivPow2(tileComp->x0 - (1 << (k-1)), k); + resLevel->by0[2] = jpxCeilDivPow2(tileComp->y0 - (1 << (k-1)), k); + resLevel->bx1[2] = jpxCeilDivPow2(tileComp->x1 - (1 << (k-1)), k); + resLevel->by1[2] = jpxCeilDivPow2(tileComp->y1 - (1 << (k-1)), k); + } + resLevel->precincts = (JPXPrecinct *)gmallocn(1, sizeof(JPXPrecinct)); + for (pre = 0; pre < 1; ++pre) { + precinct = &resLevel->precincts[pre]; + precinct->x0 = resLevel->x0; + precinct->y0 = resLevel->y0; + precinct->x1 = resLevel->x1; + precinct->y1 = resLevel->y1; + nSBs = r == 0 ? 1 : 3; + precinct->subbands = + (JPXSubband *)gmallocn(nSBs, sizeof(JPXSubband)); + for (sb = 0; sb < nSBs; ++sb) { + subband = &precinct->subbands[sb]; + subband->x0 = resLevel->bx0[sb]; + subband->y0 = resLevel->by0[sb]; + subband->x1 = resLevel->bx1[sb]; + subband->y1 = resLevel->by1[sb]; + subband->nXCBs = jpxCeilDivPow2(subband->x1, + tileComp->codeBlockW) + - jpxFloorDivPow2(subband->x0, + tileComp->codeBlockW); + subband->nYCBs = jpxCeilDivPow2(subband->y1, + tileComp->codeBlockH) + - jpxFloorDivPow2(subband->y0, + tileComp->codeBlockH); + n = subband->nXCBs > subband->nYCBs ? subband->nXCBs + : subband->nYCBs; + for (subband->maxTTLevel = 0, --n; + n; + ++subband->maxTTLevel, n >>= 1) ; + n = 0; + for (level = subband->maxTTLevel; level >= 0; --level) { + nx = jpxCeilDivPow2(subband->nXCBs, level); + ny = jpxCeilDivPow2(subband->nYCBs, level); + n += nx * ny; + } + subband->inclusion = + (JPXTagTreeNode *)gmallocn(n, sizeof(JPXTagTreeNode)); + subband->zeroBitPlane = + (JPXTagTreeNode *)gmallocn(n, sizeof(JPXTagTreeNode)); + for (k = 0; k < n; ++k) { + subband->inclusion[k].finished = gFalse; + subband->inclusion[k].val = 0; + subband->zeroBitPlane[k].finished = gFalse; + subband->zeroBitPlane[k].val = 0; + } + subband->cbs = (JPXCodeBlock *)gmallocn(subband->nXCBs * + subband->nYCBs, + sizeof(JPXCodeBlock)); + sbx0 = jpxFloorDivPow2(subband->x0, tileComp->codeBlockW); + sby0 = jpxFloorDivPow2(subband->y0, tileComp->codeBlockH); + cb = subband->cbs; + for (cbY = 0; cbY < subband->nYCBs; ++cbY) { + for (cbX = 0; cbX < subband->nXCBs; ++cbX) { + cb->x0 = (sbx0 + cbX) << tileComp->codeBlockW; + cb->x1 = cb->x0 + tileComp->cbW; + if (subband->x0 > cb->x0) { + cb->x0 = subband->x0; + } + if (subband->x1 < cb->x1) { + cb->x1 = subband->x1; + } + cb->y0 = (sby0 + cbY) << tileComp->codeBlockH; + cb->y1 = cb->y0 + tileComp->cbH; + if (subband->y0 > cb->y0) { + cb->y0 = subband->y0; + } + if (subband->y1 < cb->y1) { + cb->y1 = subband->y1; + } + cb->seen = gFalse; + cb->lBlock = 3; + cb->nextPass = jpxPassCleanup; + cb->nZeroBitPlanes = 0; + cb->coeffs = + (JPXCoeff *)gmallocn((1 << (tileComp->codeBlockW + + tileComp->codeBlockH)), + sizeof(JPXCoeff)); + for (cbi = 0; + cbi < (Guint)(1 << (tileComp->codeBlockW + + tileComp->codeBlockH)); + ++cbi) { + cb->coeffs[cbi].flags = 0; + cb->coeffs[cbi].len = 0; + cb->coeffs[cbi].mag = 0; + } + cb->arithDecoder = NULL; + cb->stats = NULL; + ++cb; + } + } + } + } + } + } + } + + return readTilePartData(tileIdx, tilePartLen, tilePartToEOC); +} + +GBool JPXStream::readTilePartData(Guint tileIdx, + Guint tilePartLen, GBool tilePartToEOC) { + JPXTile *tile; + JPXTileComp *tileComp; + JPXResLevel *resLevel; + JPXPrecinct *precinct; + JPXSubband *subband; + JPXCodeBlock *cb; + Guint ttVal; + Guint bits, cbX, cbY, nx, ny, i, j, n, sb; + int level; + + tile = &img.tiles[tileIdx]; + + // read all packets from this tile-part + while (1) { + if (tilePartToEOC) { + //~ peek for an EOC marker + cover(93); + } else if (tilePartLen == 0) { + break; + } + + tileComp = &tile->tileComps[tile->comp]; + resLevel = &tileComp->resLevels[tile->res]; + precinct = &resLevel->precincts[tile->precinct]; + + //----- packet header + + // setup + startBitBuf(tilePartLen); + + // zero-length flag + if (!readBits(1, &bits)) { + goto err; + } + if (!bits) { + // packet is empty -- clear all code-block inclusion flags + cover(45); + for (sb = 0; sb < (Guint)(tile->res == 0 ? 1 : 3); ++sb) { + subband = &precinct->subbands[sb]; + for (cbY = 0; cbY < subband->nYCBs; ++cbY) { + for (cbX = 0; cbX < subband->nXCBs; ++cbX) { + cb = &subband->cbs[cbY * subband->nXCBs + cbX]; + cb->included = gFalse; + } + } + } + } else { + + for (sb = 0; sb < (Guint)(tile->res == 0 ? 1 : 3); ++sb) { + subband = &precinct->subbands[sb]; + for (cbY = 0; cbY < subband->nYCBs; ++cbY) { + for (cbX = 0; cbX < subband->nXCBs; ++cbX) { + cb = &subband->cbs[cbY * subband->nXCBs + cbX]; + + // skip code-blocks with no coefficients + if (cb->x0 >= cb->x1 || cb->y0 >= cb->y1) { + cover(46); + cb->included = gFalse; + continue; + } + + // code-block inclusion + if (cb->seen) { + cover(47); + if (!readBits(1, &cb->included)) { + goto err; + } + } else { + cover(48); + ttVal = 0; + i = 0; + for (level = subband->maxTTLevel; level >= 0; --level) { + nx = jpxCeilDivPow2(subband->nXCBs, level); + ny = jpxCeilDivPow2(subband->nYCBs, level); + j = i + (cbY >> level) * nx + (cbX >> level); + if (!subband->inclusion[j].finished && + !subband->inclusion[j].val) { + subband->inclusion[j].val = ttVal; + } else { + ttVal = subband->inclusion[j].val; + } + while (!subband->inclusion[j].finished && + ttVal <= tile->layer) { + if (!readBits(1, &bits)) { + goto err; + } + if (bits == 1) { + subband->inclusion[j].finished = gTrue; + } else { + ++ttVal; + } + } + subband->inclusion[j].val = ttVal; + if (ttVal > tile->layer) { + break; + } + i += nx * ny; + } + cb->included = level < 0; + } + + if (cb->included) { + cover(49); + + // zero bit-plane count + if (!cb->seen) { + cover(50); + ttVal = 0; + i = 0; + for (level = subband->maxTTLevel; level >= 0; --level) { + nx = jpxCeilDivPow2(subband->nXCBs, level); + ny = jpxCeilDivPow2(subband->nYCBs, level); + j = i + (cbY >> level) * nx + (cbX >> level); + if (!subband->zeroBitPlane[j].finished && + !subband->zeroBitPlane[j].val) { + subband->zeroBitPlane[j].val = ttVal; + } else { + ttVal = subband->zeroBitPlane[j].val; + } + while (!subband->zeroBitPlane[j].finished) { + if (!readBits(1, &bits)) { + goto err; + } + if (bits == 1) { + subband->zeroBitPlane[j].finished = gTrue; + } else { + ++ttVal; + } + } + subband->zeroBitPlane[j].val = ttVal; + i += nx * ny; + } + cb->nZeroBitPlanes = ttVal; + } + + // number of coding passes + if (!readBits(1, &bits)) { + goto err; + } + if (bits == 0) { + cover(51); + cb->nCodingPasses = 1; + } else { + if (!readBits(1, &bits)) { + goto err; + } + if (bits == 0) { + cover(52); + cb->nCodingPasses = 2; + } else { + cover(53); + if (!readBits(2, &bits)) { + goto err; + } + if (bits < 3) { + cover(54); + cb->nCodingPasses = 3 + bits; + } else { + cover(55); + if (!readBits(5, &bits)) { + goto err; + } + if (bits < 31) { + cover(56); + cb->nCodingPasses = 6 + bits; + } else { + cover(57); + if (!readBits(7, &bits)) { + goto err; + } + cb->nCodingPasses = 37 + bits; + } + } + } + } + + // update Lblock + while (1) { + if (!readBits(1, &bits)) { + goto err; + } + if (!bits) { + break; + } + ++cb->lBlock; + } + + // length of compressed data + //~ deal with multiple codeword segments + for (n = cb->lBlock, i = cb->nCodingPasses >> 1; + i; + ++n, i >>= 1) ; + if (!readBits(n, &cb->dataLen)) { + goto err; + } + } + } + } + } + } + tilePartLen = finishBitBuf(); + + //----- packet data + + for (sb = 0; sb < (Guint)(tile->res == 0 ? 1 : 3); ++sb) { + subband = &precinct->subbands[sb]; + for (cbY = 0; cbY < subband->nYCBs; ++cbY) { + for (cbX = 0; cbX < subband->nXCBs; ++cbX) { + cb = &subband->cbs[cbY * subband->nXCBs + cbX]; + if (cb->included) { + if (!readCodeBlockData(tileComp, resLevel, precinct, subband, + tile->res, sb, cb)) { + return gFalse; + } + tilePartLen -= cb->dataLen; + cb->seen = gTrue; + } + } + } + } + + //----- next packet + + switch (tile->progOrder) { + case 0: // layer, resolution level, component, precinct + cover(58); + if (++tile->comp == img.nComps) { + tile->comp = 0; + if (++tile->res == tile->maxNDecompLevels + 1) { + tile->res = 0; + if (++tile->layer == tile->nLayers) { + tile->layer = 0; + } + } + } + break; + case 1: // resolution level, layer, component, precinct + cover(59); + if (++tile->comp == img.nComps) { + tile->comp = 0; + if (++tile->layer == tile->nLayers) { + tile->layer = 0; + if (++tile->res == tile->maxNDecompLevels + 1) { + tile->res = 0; + } + } + } + break; + case 2: // resolution level, precinct, component, layer + //~ this isn't correct -- see B.12.1.3 + cover(60); + if (++tile->layer == tile->nLayers) { + tile->layer = 0; + if (++tile->comp == img.nComps) { + tile->comp = 0; + if (++tile->res == tile->maxNDecompLevels + 1) { + tile->res = 0; + } + } + } + break; + case 3: // precinct, component, resolution level, layer + //~ this isn't correct -- see B.12.1.4 + cover(61); + if (++tile->layer == tile->nLayers) { + tile->layer = 0; + if (++tile->res == tile->maxNDecompLevels + 1) { + tile->res = 0; + if (++tile->comp == img.nComps) { + tile->comp = 0; + } + } + } + break; + case 4: // component, precinct, resolution level, layer + //~ this isn't correct -- see B.12.1.5 + cover(62); + if (++tile->layer == tile->nLayers) { + tile->layer = 0; + if (++tile->res == tile->maxNDecompLevels + 1) { + tile->res = 0; + if (++tile->comp == img.nComps) { + tile->comp = 0; + } + } + } + break; + } + } + + return gTrue; + + err: + error(getPos(), "Error in JPX stream"); + return gFalse; +} + +GBool JPXStream::readCodeBlockData(JPXTileComp *tileComp, + JPXResLevel * /*resLevel*/, + JPXPrecinct * /*precinct*/, + JPXSubband * /*subband*/, + Guint res, Guint sb, + JPXCodeBlock *cb) { + JPXCoeff *coeff0, *coeff1, *coeff; + Guint horiz, vert, diag, all, cx, xorBit; + int horizSign, vertSign; + Guint i, x, y0, y1, y2; + + if (cb->arithDecoder) { + cover(63); + cb->arithDecoder->restart(cb->dataLen); + } else { + cover(64); + cb->arithDecoder = new JArithmeticDecoder(); + cb->arithDecoder->setStream(str, cb->dataLen); + cb->arithDecoder->start(); + cb->stats = new JArithmeticDecoderStats(jpxNContexts); + cb->stats->setEntry(jpxContextSigProp, 4, 0); + cb->stats->setEntry(jpxContextRunLength, 3, 0); + cb->stats->setEntry(jpxContextUniform, 46, 0); + } + + for (i = 0; i < cb->nCodingPasses; ++i) { + switch (cb->nextPass) { + + //----- significance propagation pass + case jpxPassSigProp: + cover(65); + for (y0 = cb->y0, coeff0 = cb->coeffs; + y0 < cb->y1; + y0 += 4, coeff0 += 4 << tileComp->codeBlockW) { + for (x = cb->x0, coeff1 = coeff0; + x < cb->x1; + ++x, ++coeff1) { + for (y1 = 0, coeff = coeff1; + y1 < 4 && y0+y1 < cb->y1; + ++y1, coeff += tileComp->cbW) { + if (!(coeff->flags & jpxCoeffSignificant)) { + horiz = vert = diag = 0; + horizSign = vertSign = 2; + if (x > cb->x0) { + if (coeff[-1].flags & jpxCoeffSignificant) { + ++horiz; + horizSign += (coeff[-1].flags & jpxCoeffSign) ? -1 : 1; + } + if (y0+y1 > cb->y0) { + diag += (coeff[-(int)tileComp->cbW - 1].flags + >> jpxCoeffSignificantB) & 1; + } + if (y0+y1 < cb->y1 - 1) { + diag += (coeff[tileComp->cbW - 1].flags + >> jpxCoeffSignificantB) & 1; + } + } + if (x < cb->x1 - 1) { + if (coeff[1].flags & jpxCoeffSignificant) { + ++horiz; + horizSign += (coeff[1].flags & jpxCoeffSign) ? -1 : 1; + } + if (y0+y1 > cb->y0) { + diag += (coeff[-(int)tileComp->cbW + 1].flags + >> jpxCoeffSignificantB) & 1; + } + if (y0+y1 < cb->y1 - 1) { + diag += (coeff[tileComp->cbW + 1].flags + >> jpxCoeffSignificantB) & 1; + } + } + if (y0+y1 > cb->y0) { + if (coeff[-(int)tileComp->cbW].flags & jpxCoeffSignificant) { + ++vert; + vertSign += (coeff[-(int)tileComp->cbW].flags & jpxCoeffSign) + ? -1 : 1; + } + } + if (y0+y1 < cb->y1 - 1) { + if (coeff[tileComp->cbW].flags & jpxCoeffSignificant) { + ++vert; + vertSign += (coeff[tileComp->cbW].flags & jpxCoeffSign) + ? -1 : 1; + } + } + cx = sigPropContext[horiz][vert][diag][res == 0 ? 1 : sb]; + if (cx != 0) { + if (cb->arithDecoder->decodeBit(cx, cb->stats)) { + coeff->flags |= jpxCoeffSignificant | jpxCoeffFirstMagRef; + coeff->mag = (coeff->mag << 1) | 1; + cx = signContext[horizSign][vertSign][0]; + xorBit = signContext[horizSign][vertSign][1]; + if (cb->arithDecoder->decodeBit(cx, cb->stats) ^ xorBit) { + coeff->flags |= jpxCoeffSign; + } + } + ++coeff->len; + coeff->flags |= jpxCoeffTouched; + } + } + } + } + } + ++cb->nextPass; + break; + + //----- magnitude refinement pass + case jpxPassMagRef: + cover(66); + for (y0 = cb->y0, coeff0 = cb->coeffs; + y0 < cb->y1; + y0 += 4, coeff0 += 4 << tileComp->codeBlockW) { + for (x = cb->x0, coeff1 = coeff0; + x < cb->x1; + ++x, ++coeff1) { + for (y1 = 0, coeff = coeff1; + y1 < 4 && y0+y1 < cb->y1; + ++y1, coeff += tileComp->cbW) { + if ((coeff->flags & jpxCoeffSignificant) && + !(coeff->flags & jpxCoeffTouched)) { + if (coeff->flags & jpxCoeffFirstMagRef) { + all = 0; + if (x > cb->x0) { + all += (coeff[-1].flags >> jpxCoeffSignificantB) & 1; + if (y0+y1 > cb->y0) { + all += (coeff[-(int)tileComp->cbW - 1].flags + >> jpxCoeffSignificantB) & 1; + } + if (y0+y1 < cb->y1 - 1) { + all += (coeff[tileComp->cbW - 1].flags + >> jpxCoeffSignificantB) & 1; + } + } + if (x < cb->x1 - 1) { + all += (coeff[1].flags >> jpxCoeffSignificantB) & 1; + if (y0+y1 > cb->y0) { + all += (coeff[-(int)tileComp->cbW + 1].flags + >> jpxCoeffSignificantB) & 1; + } + if (y0+y1 < cb->y1 - 1) { + all += (coeff[tileComp->cbW + 1].flags + >> jpxCoeffSignificantB) & 1; + } + } + if (y0+y1 > cb->y0) { + all += (coeff[-(int)tileComp->cbW].flags + >> jpxCoeffSignificantB) & 1; + } + if (y0+y1 < cb->y1 - 1) { + all += (coeff[tileComp->cbW].flags + >> jpxCoeffSignificantB) & 1; + } + cx = all ? 15 : 14; + } else { + cx = 16; + } + coeff->mag = (coeff->mag << 1) | + cb->arithDecoder->decodeBit(cx, cb->stats); + ++coeff->len; + coeff->flags |= jpxCoeffTouched; + coeff->flags &= ~jpxCoeffFirstMagRef; + } + } + } + } + ++cb->nextPass; + break; + + //----- cleanup pass + case jpxPassCleanup: + cover(67); + for (y0 = cb->y0, coeff0 = cb->coeffs; + y0 < cb->y1; + y0 += 4, coeff0 += 4 << tileComp->codeBlockW) { + for (x = cb->x0, coeff1 = coeff0; + x < cb->x1; + ++x, ++coeff1) { + y1 = 0; + if (y0 + 3 < cb->y1 && + !(coeff1->flags & jpxCoeffTouched) && + !(coeff1[tileComp->cbW].flags & jpxCoeffTouched) && + !(coeff1[2 * tileComp->cbW].flags & jpxCoeffTouched) && + !(coeff1[3 * tileComp->cbW].flags & jpxCoeffTouched) && + (x == cb->x0 || y0 == cb->y0 || + !(coeff1[-(int)tileComp->cbW - 1].flags + & jpxCoeffSignificant)) && + (y0 == cb->y0 || + !(coeff1[-(int)tileComp->cbW].flags + & jpxCoeffSignificant)) && + (x == cb->x1 - 1 || y0 == cb->y0 || + !(coeff1[-(int)tileComp->cbW + 1].flags + & jpxCoeffSignificant)) && + (x == cb->x0 || + (!(coeff1[-1].flags & jpxCoeffSignificant) && + !(coeff1[tileComp->cbW - 1].flags + & jpxCoeffSignificant) && + !(coeff1[2 * tileComp->cbW - 1].flags + & jpxCoeffSignificant) && + !(coeff1[3 * tileComp->cbW - 1].flags + & jpxCoeffSignificant))) && + (x == cb->x1 - 1 || + (!(coeff1[1].flags & jpxCoeffSignificant) && + !(coeff1[tileComp->cbW + 1].flags + & jpxCoeffSignificant) && + !(coeff1[2 * tileComp->cbW + 1].flags + & jpxCoeffSignificant) && + !(coeff1[3 * tileComp->cbW + 1].flags + & jpxCoeffSignificant))) && + (x == cb->x0 || y0+4 == cb->y1 || + !(coeff1[4 * tileComp->cbW - 1].flags & jpxCoeffSignificant)) && + (y0+4 == cb->y1 || + !(coeff1[4 * tileComp->cbW].flags & jpxCoeffSignificant)) && + (x == cb->x1 - 1 || y0+4 == cb->y1 || + !(coeff1[4 * tileComp->cbW + 1].flags + & jpxCoeffSignificant))) { + if (cb->arithDecoder->decodeBit(jpxContextRunLength, cb->stats)) { + y1 = cb->arithDecoder->decodeBit(jpxContextUniform, cb->stats); + y1 = (y1 << 1) | + cb->arithDecoder->decodeBit(jpxContextUniform, cb->stats); + for (y2 = 0, coeff = coeff1; + y2 < y1; + ++y2, coeff += tileComp->cbW) { + ++coeff->len; + } + coeff->flags |= jpxCoeffSignificant | jpxCoeffFirstMagRef; + coeff->mag = (coeff->mag << 1) | 1; + ++coeff->len; + cx = signContext[2][2][0]; + xorBit = signContext[2][2][1]; + if (cb->arithDecoder->decodeBit(cx, cb->stats) ^ xorBit) { + coeff->flags |= jpxCoeffSign; + } + ++y1; + } else { + for (y1 = 0, coeff = coeff1; + y1 < 4; + ++y1, coeff += tileComp->cbW) { + ++coeff->len; + } + y1 = 4; + } + } + for (coeff = &coeff1[y1 << tileComp->codeBlockW]; + y1 < 4 && y0 + y1 < cb->y1; + ++y1, coeff += tileComp->cbW) { + if (!(coeff->flags & jpxCoeffTouched)) { + horiz = vert = diag = 0; + horizSign = vertSign = 2; + if (x > cb->x0) { + if (coeff[-1].flags & jpxCoeffSignificant) { + ++horiz; + horizSign += (coeff[-1].flags & jpxCoeffSign) ? -1 : 1; + } + if (y0+y1 > cb->y0) { + diag += (coeff[-(int)tileComp->cbW - 1].flags + >> jpxCoeffSignificantB) & 1; + } + if (y0+y1 < cb->y1 - 1) { + diag += (coeff[tileComp->cbW - 1].flags + >> jpxCoeffSignificantB) & 1; + } + } + if (x < cb->x1 - 1) { + if (coeff[1].flags & jpxCoeffSignificant) { + ++horiz; + horizSign += (coeff[1].flags & jpxCoeffSign) ? -1 : 1; + } + if (y0+y1 > cb->y0) { + diag += (coeff[-(int)tileComp->cbW + 1].flags + >> jpxCoeffSignificantB) & 1; + } + if (y0+y1 < cb->y1 - 1) { + diag += (coeff[tileComp->cbW + 1].flags + >> jpxCoeffSignificantB) & 1; + } + } + if (y0+y1 > cb->y0) { + if (coeff[-(int)tileComp->cbW].flags & jpxCoeffSignificant) { + ++vert; + vertSign += (coeff[-(int)tileComp->cbW].flags & jpxCoeffSign) + ? -1 : 1; + } + } + if (y0+y1 < cb->y1 - 1) { + if (coeff[tileComp->cbW].flags & jpxCoeffSignificant) { + ++vert; + vertSign += (coeff[tileComp->cbW].flags & jpxCoeffSign) + ? -1 : 1; + } + } + cx = sigPropContext[horiz][vert][diag][res == 0 ? 1 : sb]; + if (cb->arithDecoder->decodeBit(cx, cb->stats)) { + coeff->flags |= jpxCoeffSignificant | jpxCoeffFirstMagRef; + coeff->mag = (coeff->mag << 1) | 1; + cx = signContext[horizSign][vertSign][0]; + xorBit = signContext[horizSign][vertSign][1]; + if (cb->arithDecoder->decodeBit(cx, cb->stats) ^ xorBit) { + coeff->flags |= jpxCoeffSign; + } + } + ++coeff->len; + } else { + coeff->flags &= ~jpxCoeffTouched; + } + } + } + } + cb->nextPass = jpxPassSigProp; + break; + } + } + + cb->arithDecoder->cleanup(); + return gTrue; +} + +// Inverse quantization, and wavelet transform (IDWT). This also does +// the initial shift to convert to fixed point format. +void JPXStream::inverseTransform(JPXTileComp *tileComp) { + JPXResLevel *resLevel; + JPXPrecinct *precinct; + JPXSubband *subband; + JPXCodeBlock *cb; + JPXCoeff *coeff0, *coeff; + Guint qStyle, guard, eps, shift; + int shift2; + double mu; + int val; + int *dataPtr; + Guint nx0, ny0, nx1, ny1; + Guint r, cbX, cbY, x, y; + + cover(68); + + //----- (NL)LL subband (resolution level 0) + + resLevel = &tileComp->resLevels[0]; + precinct = &resLevel->precincts[0]; + subband = &precinct->subbands[0]; + + // i-quant parameters + qStyle = tileComp->quantStyle & 0x1f; + guard = (tileComp->quantStyle >> 5) & 7; + if (qStyle == 0) { + cover(69); + eps = (tileComp->quantSteps[0] >> 3) & 0x1f; + shift = guard + eps - 1; + mu = 0; // make gcc happy + } else { + cover(70); + shift = guard - 1 + tileComp->prec; + mu = (double)(0x800 + (tileComp->quantSteps[0] & 0x7ff)) / 2048.0; + } + if (tileComp->transform == 0) { + cover(71); + shift += fracBits; + } + + // copy (NL)LL into the upper-left corner of the data array, doing + // the fixed point adjustment and dequantization along the way + cb = subband->cbs; + for (cbY = 0; cbY < subband->nYCBs; ++cbY) { + for (cbX = 0; cbX < subband->nXCBs; ++cbX) { + for (y = cb->y0, coeff0 = cb->coeffs; + y < cb->y1; + ++y, coeff0 += tileComp->cbW) { + dataPtr = &tileComp->data[(y - subband->y0) + * (tileComp->x1 - tileComp->x0) + + (cb->x0 - subband->x0)]; + for (x = cb->x0, coeff = coeff0; x < cb->x1; ++x, ++coeff) { + val = (int)coeff->mag; + if (val != 0) { + shift2 = shift - (cb->nZeroBitPlanes + coeff->len); + if (shift2 > 0) { + cover(94); + val = (val << shift2) + (1 << (shift2 - 1)); + } else { + cover(95); + val >>= -shift2; + } + if (qStyle == 0) { + cover(96); + if (tileComp->transform == 0) { + cover(97); + val &= -1 << fracBits; + } + } else { + cover(98); + val = (int)((double)val * mu); + } + if (coeff->flags & jpxCoeffSign) { + cover(99); + val = -val; + } + } + *dataPtr++ = val; + } + } + ++cb; + } + } + + //----- IDWT for each level + + for (r = 1; r <= tileComp->nDecompLevels; ++r) { + resLevel = &tileComp->resLevels[r]; + + // (n)LL is already in the upper-left corner of the + // tile-component data array -- interleave with (n)HL/LH/HH + // and inverse transform to get (n-1)LL, which will be stored + // in the upper-left corner of the tile-component data array + if (r == tileComp->nDecompLevels) { + cover(72); + nx0 = tileComp->x0; + ny0 = tileComp->y0; + nx1 = tileComp->x1; + ny1 = tileComp->y1; + } else { + cover(73); + nx0 = tileComp->resLevels[r+1].x0; + ny0 = tileComp->resLevels[r+1].y0; + nx1 = tileComp->resLevels[r+1].x1; + ny1 = tileComp->resLevels[r+1].y1; + } + inverseTransformLevel(tileComp, r, resLevel, nx0, ny0, nx1, ny1); + } +} + +// Do one level of the inverse transform: +// - take (n)LL from the tile-component data array +// - take (n)HL/LH/HH from +// - leave the resulting (n-1)LL in the tile-component data array +void JPXStream::inverseTransformLevel(JPXTileComp *tileComp, + Guint r, JPXResLevel *resLevel, + Guint nx0, Guint ny0, + Guint nx1, Guint ny1) { + JPXPrecinct *precinct; + JPXSubband *subband; + JPXCodeBlock *cb; + JPXCoeff *coeff0, *coeff; + Guint qStyle, guard, eps, shift, t; + int shift2; + double mu; + int val; + int *dataPtr; + Guint xo, yo; + Guint x, y, sb, cbX, cbY; + int xx, yy; + + //----- interleave + + // spread out LL + for (yy = resLevel->y1 - 1; yy >= (int)resLevel->y0; --yy) { + for (xx = resLevel->x1 - 1; xx >= (int)resLevel->x0; --xx) { + tileComp->data[(2 * yy - ny0) * (tileComp->x1 - tileComp->x0) + + (2 * xx - nx0)] = + tileComp->data[(yy - resLevel->y0) * (tileComp->x1 - tileComp->x0) + + (xx - resLevel->x0)]; + } + } + + // i-quant parameters + qStyle = tileComp->quantStyle & 0x1f; + guard = (tileComp->quantStyle >> 5) & 7; + + // interleave HL/LH/HH + precinct = &resLevel->precincts[0]; + for (sb = 0; sb < 3; ++sb) { + + // i-quant parameters + if (qStyle == 0) { + cover(100); + eps = (tileComp->quantSteps[3*r - 2 + sb] >> 3) & 0x1f; + shift = guard + eps - 1; + mu = 0; // make gcc happy + } else { + cover(101); + shift = guard + tileComp->prec; + if (sb == 2) { + cover(102); + ++shift; + } + t = tileComp->quantSteps[qStyle == 1 ? 0 : (3*r - 2 + sb)]; + mu = (double)(0x800 + (t & 0x7ff)) / 2048.0; + } + if (tileComp->transform == 0) { + cover(103); + shift += fracBits; + } + + // copy the subband coefficients into the data array, doing the + // fixed point adjustment and dequantization along the way + xo = (sb & 1) ? 0 : 1; + yo = (sb > 0) ? 1 : 0; + subband = &precinct->subbands[sb]; + cb = subband->cbs; + for (cbY = 0; cbY < subband->nYCBs; ++cbY) { + for (cbX = 0; cbX < subband->nXCBs; ++cbX) { + for (y = cb->y0, coeff0 = cb->coeffs; + y < cb->y1; + ++y, coeff0 += tileComp->cbW) { + dataPtr = &tileComp->data[(2 * y + yo - ny0) + * (tileComp->x1 - tileComp->x0) + + (2 * cb->x0 + xo - nx0)]; + for (x = cb->x0, coeff = coeff0; x < cb->x1; ++x, ++coeff) { + val = (int)coeff->mag; + if (val != 0) { + shift2 = shift - (cb->nZeroBitPlanes + coeff->len); + if (shift2 > 0) { + cover(74); + val = (val << shift2) + (1 << (shift2 - 1)); + } else { + cover(75); + val >>= -shift2; + } + if (qStyle == 0) { + cover(76); + if (tileComp->transform == 0) { + val &= -1 << fracBits; + } + } else { + cover(77); + val = (int)((double)val * mu); + } + if (coeff->flags & jpxCoeffSign) { + cover(78); + val = -val; + } + } + *dataPtr = val; + dataPtr += 2; + } + } + ++cb; + } + } + } + + //----- horizontal (row) transforms + dataPtr = tileComp->data; + for (y = 0; y < ny1 - ny0; ++y) { + inverseTransform1D(tileComp, dataPtr, 1, nx0, nx1); + dataPtr += tileComp->x1 - tileComp->x0; + } + + //----- vertical (column) transforms + dataPtr = tileComp->data; + for (x = 0; x < nx1 - nx0; ++x) { + inverseTransform1D(tileComp, dataPtr, + tileComp->x1 - tileComp->x0, ny0, ny1); + ++dataPtr; + } +} + +void JPXStream::inverseTransform1D(JPXTileComp *tileComp, + int *data, Guint stride, + Guint i0, Guint i1) { + int *buf; + Guint offset, end, i; + + //----- special case for length = 1 + if (i1 - i0 == 1) { + cover(79); + if (i0 & 1) { + cover(104); + *data >>= 1; + } + + } else { + cover(80); + + // choose an offset: this makes even buf[] indexes correspond to + // odd values of i, and vice versa + offset = 3 + (i0 & 1); + end = offset + i1 - i0; + + //----- gather + buf = tileComp->buf; + for (i = 0; i < i1 - i0; ++i) { + buf[offset + i] = data[i * stride]; + } + + //----- extend right + buf[end] = buf[end - 2]; + if (i1 - i0 == 2) { + cover(81); + buf[end+1] = buf[offset + 1]; + buf[end+2] = buf[offset]; + buf[end+3] = buf[offset + 1]; + } else { + cover(82); + buf[end+1] = buf[end - 3]; + if (i1 - i0 == 3) { + cover(105); + buf[end+2] = buf[offset + 1]; + buf[end+3] = buf[offset + 2]; + } else { + cover(106); + buf[end+2] = buf[end - 4]; + if (i1 - i0 == 4) { + cover(107); + buf[end+3] = buf[offset + 1]; + } else { + cover(108); + buf[end+3] = buf[end - 5]; + } + } + } + + //----- extend left + buf[offset - 1] = buf[offset + 1]; + buf[offset - 2] = buf[offset + 2]; + buf[offset - 3] = buf[offset + 3]; + if (offset == 4) { + cover(83); + buf[0] = buf[offset + 4]; + } + + //----- 9-7 irreversible filter + + if (tileComp->transform == 0) { + cover(84); + // step 1 (even) + for (i = 1; i <= end + 2; i += 2) { + buf[i] = (int)(idwtKappa * buf[i]); + } + // step 2 (odd) + for (i = 0; i <= end + 3; i += 2) { + buf[i] = (int)(idwtIKappa * buf[i]); + } + // step 3 (even) + for (i = 1; i <= end + 2; i += 2) { + buf[i] = (int)(buf[i] - idwtDelta * (buf[i-1] + buf[i+1])); + } + // step 4 (odd) + for (i = 2; i <= end + 1; i += 2) { + buf[i] = (int)(buf[i] - idwtGamma * (buf[i-1] + buf[i+1])); + } + // step 5 (even) + for (i = 3; i <= end; i += 2) { + buf[i] = (int)(buf[i] - idwtBeta * (buf[i-1] + buf[i+1])); + } + // step 6 (odd) + for (i = 4; i <= end - 1; i += 2) { + buf[i] = (int)(buf[i] - idwtAlpha * (buf[i-1] + buf[i+1])); + } + + //----- 5-3 reversible filter + + } else { + cover(85); + // step 1 (even) + for (i = 3; i <= end; i += 2) { + buf[i] -= (buf[i-1] + buf[i+1] + 2) >> 2; + } + // step 2 (odd) + for (i = 4; i < end; i += 2) { + buf[i] += (buf[i-1] + buf[i+1]) >> 1; + } + } + + //----- scatter + for (i = 0; i < i1 - i0; ++i) { + data[i * stride] = buf[offset + i]; + } + } +} + +// Inverse multi-component transform and DC level shift. This also +// converts fixed point samples back to integers. +GBool JPXStream::inverseMultiCompAndDC(JPXTile *tile) { + JPXTileComp *tileComp; + int coeff, d0, d1, d2, t, minVal, maxVal, zeroVal; + int *dataPtr; + Guint j, comp, x, y; + + //----- inverse multi-component transform + + if (tile->multiComp == 1) { + cover(86); + if (img.nComps < 3 || + tile->tileComps[0].hSep != tile->tileComps[1].hSep || + tile->tileComps[0].vSep != tile->tileComps[1].vSep || + tile->tileComps[1].hSep != tile->tileComps[2].hSep || + tile->tileComps[1].vSep != tile->tileComps[2].vSep) { + return gFalse; + } + + // inverse irreversible multiple component transform + if (tile->tileComps[0].transform == 0) { + cover(87); + j = 0; + for (y = 0; y < tile->tileComps[0].y1 - tile->tileComps[0].y0; ++y) { + for (x = 0; x < tile->tileComps[0].x1 - tile->tileComps[0].x0; ++x) { + d0 = tile->tileComps[0].data[j]; + d1 = tile->tileComps[1].data[j]; + d2 = tile->tileComps[2].data[j]; + tile->tileComps[0].data[j] = (int)(d0 + 1.402 * d2 + 0.5); + tile->tileComps[1].data[j] = + (int)(d0 - 0.34413 * d1 - 0.71414 * d2 + 0.5); + tile->tileComps[2].data[j] = (int)(d0 + 1.772 * d1 + 0.5); + ++j; + } + } + + // inverse reversible multiple component transform + } else { + cover(88); + j = 0; + for (y = 0; y < tile->tileComps[0].y1 - tile->tileComps[0].y0; ++y) { + for (x = 0; x < tile->tileComps[0].x1 - tile->tileComps[0].x0; ++x) { + d0 = tile->tileComps[0].data[j]; + d1 = tile->tileComps[1].data[j]; + d2 = tile->tileComps[2].data[j]; + tile->tileComps[1].data[j] = t = d0 - ((d2 + d1) >> 2); + tile->tileComps[0].data[j] = d2 + t; + tile->tileComps[2].data[j] = d1 + t; + ++j; + } + } + } + } + + //----- DC level shift + for (comp = 0; comp < img.nComps; ++comp) { + tileComp = &tile->tileComps[comp]; + + // signed: clip + if (tileComp->sgned) { + cover(89); + minVal = -(1 << (tileComp->prec - 1)); + maxVal = (1 << (tileComp->prec - 1)) - 1; + dataPtr = tileComp->data; + for (y = 0; y < tileComp->y1 - tileComp->y0; ++y) { + for (x = 0; x < tileComp->x1 - tileComp->x0; ++x) { + coeff = *dataPtr; + if (tileComp->transform == 0) { + cover(109); + coeff >>= fracBits; + } + if (coeff < minVal) { + cover(110); + coeff = minVal; + } else if (coeff > maxVal) { + cover(111); + coeff = maxVal; + } + *dataPtr++ = coeff; + } + } + + // unsigned: inverse DC level shift and clip + } else { + cover(90); + maxVal = (1 << tileComp->prec) - 1; + zeroVal = 1 << (tileComp->prec - 1); + dataPtr = tileComp->data; + for (y = 0; y < tileComp->y1 - tileComp->y0; ++y) { + for (x = 0; x < tileComp->x1 - tileComp->x0; ++x) { + coeff = *dataPtr; + if (tileComp->transform == 0) { + cover(112); + coeff >>= fracBits; + } + coeff += zeroVal; + if (coeff < 0) { + cover(113); + coeff = 0; + } else if (coeff > maxVal) { + cover(114); + coeff = maxVal; + } + *dataPtr++ = coeff; + } + } + } + } + + return gTrue; +} + +GBool JPXStream::readBoxHdr(Guint *boxType, Guint *boxLen, Guint *dataLen) { + Guint len, lenH; + + if (!readULong(&len) || + !readULong(boxType)) { + return gFalse; + } + if (len == 1) { + if (!readULong(&lenH) || !readULong(&len)) { + return gFalse; + } + if (lenH) { + error(getPos(), "JPX stream contains a box larger than 2^32 bytes"); + return gFalse; + } + *boxLen = len; + *dataLen = len - 16; + } else if (len == 0) { + *boxLen = 0; + *dataLen = 0; + } else { + *boxLen = len; + *dataLen = len - 8; + } + return gTrue; +} + +int JPXStream::readMarkerHdr(int *segType, Guint *segLen) { + int c; + + do { + do { + if ((c = str->getChar()) == EOF) { + return gFalse; + } + } while (c != 0xff); + do { + if ((c = str->getChar()) == EOF) { + return gFalse; + } + } while (c == 0xff); + } while (c == 0x00); + *segType = c; + if ((c >= 0x30 && c <= 0x3f) || + c == 0x4f || c == 0x92 || c == 0x93 || c == 0xd9) { + *segLen = 0; + return gTrue; + } + return readUWord(segLen); +} + +GBool JPXStream::readUByte(Guint *x) { + int c0; + + if ((c0 = str->getChar()) == EOF) { + return gFalse; + } + *x = (Guint)c0; + return gTrue; +} + +GBool JPXStream::readByte(int *x) { + int c0; + + if ((c0 = str->getChar()) == EOF) { + return gFalse; + } + *x = c0; + if (c0 & 0x80) { + *x |= -1 - 0xff; + } + return gTrue; +} + +GBool JPXStream::readUWord(Guint *x) { + int c0, c1; + + if ((c0 = str->getChar()) == EOF || + (c1 = str->getChar()) == EOF) { + return gFalse; + } + *x = (Guint)((c0 << 8) | c1); + return gTrue; +} + +GBool JPXStream::readULong(Guint *x) { + int c0, c1, c2, c3; + + if ((c0 = str->getChar()) == EOF || + (c1 = str->getChar()) == EOF || + (c2 = str->getChar()) == EOF || + (c3 = str->getChar()) == EOF) { + return gFalse; + } + *x = (Guint)((c0 << 24) | (c1 << 16) | (c2 << 8) | c3); + return gTrue; +} + +GBool JPXStream::readNBytes(int nBytes, GBool signd, int *x) { + int y, c, i; + + y = 0; + for (i = 0; i < nBytes; ++i) { + if ((c = str->getChar()) == EOF) { + return gFalse; + } + y = (y << 8) + c; + } + if (signd) { + if (y & (1 << (8 * nBytes - 1))) { + y |= -1 << (8 * nBytes); + } + } + *x = y; + return gTrue; +} + +GBool JPXStream::readBits(int nBits, Guint *x) { + int c; + + while (bitBufLen < nBits) { + if (byteCount == 0 || (c = str->getChar()) == EOF) { + return gFalse; + } + --byteCount; + if (bitBufSkip) { + bitBuf = (bitBuf << 7) | (c & 0x7f); + bitBufLen += 7; + } else { + bitBuf = (bitBuf << 8) | (c & 0xff); + bitBufLen += 8; + } + bitBufSkip = c == 0xff; + } + *x = (bitBuf >> (bitBufLen - nBits)) & ((1 << nBits) - 1); + bitBufLen -= nBits; + return gTrue; +} + +void JPXStream::startBitBuf(Guint byteCountA) { + bitBufLen = 0; + bitBufSkip = gFalse; + byteCount = byteCountA; +} + +Guint JPXStream::finishBitBuf() { + if (bitBufSkip) { + str->getChar(); + --byteCount; + } + return byteCount; +} diff --git a/kpdf/xpdf/xpdf/JPXStream.h b/kpdf/xpdf/xpdf/JPXStream.h new file mode 100644 index 00000000..e96e7d38 --- /dev/null +++ b/kpdf/xpdf/xpdf/JPXStream.h @@ -0,0 +1,351 @@ +//======================================================================== +// +// JPXStream.h +// +// Copyright 2002-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef JPXSTREAM_H +#define JPXSTREAM_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" +#include "Object.h" +#include "Stream.h" + +class JArithmeticDecoder; +class JArithmeticDecoderStats; + +//------------------------------------------------------------------------ + +enum JPXColorSpaceType { + jpxCSBiLevel = 0, + jpxCSYCbCr1 = 1, + jpxCSYCbCr2 = 3, + jpxCSYCBCr3 = 4, + jpxCSPhotoYCC = 9, + jpxCSCMY = 11, + jpxCSCMYK = 12, + jpxCSYCCK = 13, + jpxCSCIELab = 14, + jpxCSsRGB = 16, + jpxCSGrayscale = 17, + jpxCSBiLevel2 = 18, + jpxCSCIEJab = 19, + jpxCSCISesRGB = 20, + jpxCSROMMRGB = 21, + jpxCSsRGBYCbCr = 22, + jpxCSYPbPr1125 = 23, + jpxCSYPbPr1250 = 24 +}; + +struct JPXColorSpecCIELab { + Guint rl, ol, ra, oa, rb, ob, il; +}; + +struct JPXColorSpecEnumerated { + JPXColorSpaceType type; // color space type + union { + JPXColorSpecCIELab cieLab; + }; +}; + +struct JPXColorSpec { + Guint meth; // method + int prec; // precedence + union { + JPXColorSpecEnumerated enumerated; + }; +}; + +//------------------------------------------------------------------------ + +struct JPXPalette { + Guint nEntries; // number of entries in the palette + Guint nComps; // number of components in each entry + Guint *bpc; // bits per component, for each component + int *c; // color data: + // c[i*nComps+j] = entry i, component j +}; + +//------------------------------------------------------------------------ + +struct JPXCompMap { + Guint nChannels; // number of channels + Guint *comp; // codestream components mapped to each channel + Guint *type; // 0 for direct use, 1 for palette mapping + Guint *pComp; // palette components to use +}; + +//------------------------------------------------------------------------ + +struct JPXChannelDefn { + Guint nChannels; // number of channels + Guint *idx; // channel indexes + Guint *type; // channel types + Guint *assoc; // channel associations +}; + +//------------------------------------------------------------------------ + +struct JPXTagTreeNode { + GBool finished; // true if this node is finished + Guint val; // current value +}; + +//------------------------------------------------------------------------ + +struct JPXCoeff { + Gushort flags; // flag bits + Gushort len; // number of significant bits in mag + Guint mag; // magnitude value +}; + +// coefficient flags +#define jpxCoeffSignificantB 0 +#define jpxCoeffTouchedB 1 +#define jpxCoeffFirstMagRefB 2 +#define jpxCoeffSignB 7 +#define jpxCoeffSignificant (1 << jpxCoeffSignificantB) +#define jpxCoeffTouched (1 << jpxCoeffTouchedB) +#define jpxCoeffFirstMagRef (1 << jpxCoeffFirstMagRefB) +#define jpxCoeffSign (1 << jpxCoeffSignB) + +//------------------------------------------------------------------------ + +struct JPXCodeBlock { + //----- size + Guint x0, y0, x1, y1; // bounds + + //----- persistent state + GBool seen; // true if this code-block has already + // been seen + Guint lBlock; // base number of bits used for pkt data length + Guint nextPass; // next coding pass + + //---- info from first packet + Guint nZeroBitPlanes; // number of zero bit planes + + //----- info for the current packet + Guint included; // code-block inclusion in this packet: + // 0=not included, 1=included + Guint nCodingPasses; // number of coding passes in this pkt + Guint dataLen; // pkt data length + + //----- coefficient data + JPXCoeff *coeffs; // the coefficients + JArithmeticDecoder // arithmetic decoder + *arithDecoder; + JArithmeticDecoderStats // arithmetic decoder stats + *stats; +}; + +//------------------------------------------------------------------------ + +struct JPXSubband { + //----- computed + Guint x0, y0, x1, y1; // bounds + Guint nXCBs, nYCBs; // number of code-blocks in the x and y + // directions + + //----- tag trees + Guint maxTTLevel; // max tag tree level + JPXTagTreeNode *inclusion; // inclusion tag tree for each subband + JPXTagTreeNode *zeroBitPlane; // zero-bit plane tag tree for each + // subband + + //----- children + JPXCodeBlock *cbs; // the code-blocks (len = nXCBs * nYCBs) +}; + +//------------------------------------------------------------------------ + +struct JPXPrecinct { + //----- computed + Guint x0, y0, x1, y1; // bounds of the precinct + + //----- children + JPXSubband *subbands; // the subbands +}; + +//------------------------------------------------------------------------ + +struct JPXResLevel { + //----- from the COD and COC segments (main and tile) + Guint precinctWidth; // log2(precinct width) + Guint precinctHeight; // log2(precinct height) + + //----- computed + Guint x0, y0, x1, y1; // bounds of the tile-comp (for this res level) + Guint bx0[3], by0[3], // subband bounds + bx1[3], by1[3]; + + //---- children + JPXPrecinct *precincts; // the precincts +}; + +//------------------------------------------------------------------------ + +struct JPXTileComp { + //----- from the SIZ segment + GBool sgned; // 1 for signed, 0 for unsigned + Guint prec; // precision, in bits + Guint hSep; // horizontal separation of samples + Guint vSep; // vertical separation of samples + + //----- from the COD and COC segments (main and tile) + Guint style; // coding style parameter (Scod / Scoc) + Guint nDecompLevels; // number of decomposition levels + Guint codeBlockW; // log2(code-block width) + Guint codeBlockH; // log2(code-block height) + Guint codeBlockStyle; // code-block style + Guint transform; // wavelet transformation + + //----- from the QCD and QCC segments (main and tile) + Guint quantStyle; // quantization style + Guint *quantSteps; // quantization step size for each subband + Guint nQuantSteps; // number of entries in quantSteps + + //----- computed + Guint x0, y0, x1, y1; // bounds of the tile-comp, in ref coords + Guint cbW; // code-block width + Guint cbH; // code-block height + + //----- image data + int *data; // the decoded image data + int *buf; // intermediate buffer for the inverse + // transform + + //----- children + JPXResLevel *resLevels; // the resolution levels + // (len = nDecompLevels + 1) +}; + +//------------------------------------------------------------------------ + +struct JPXTile { + //----- from the COD segments (main and tile) + Guint progOrder; // progression order + Guint nLayers; // number of layers + Guint multiComp; // multiple component transformation + + //----- computed + Guint x0, y0, x1, y1; // bounds of the tile, in ref coords + Guint maxNDecompLevels; // max number of decomposition levels used + // in any component in this tile + + //----- progression order loop counters + Guint comp; // component + Guint res; // resolution level + Guint precinct; // precinct + Guint layer; // layer + + //----- children + JPXTileComp *tileComps; // the tile-components (len = JPXImage.nComps) +}; + +//------------------------------------------------------------------------ + +struct JPXImage { + //----- from the SIZ segment + Guint xSize, ySize; // size of reference grid + Guint xOffset, yOffset; // image offset + Guint xTileSize, yTileSize; // size of tiles + Guint xTileOffset, // offset of first tile + yTileOffset; + Guint nComps; // number of components + + //----- computed + Guint nXTiles; // number of tiles in x direction + Guint nYTiles; // number of tiles in y direction + + //----- children + JPXTile *tiles; // the tiles (len = nXTiles * nYTiles) +}; + +//------------------------------------------------------------------------ + +class JPXStream: public FilterStream { +public: + + JPXStream(Stream *strA); + virtual ~JPXStream(); + virtual StreamKind getKind() { return strJPX; } + virtual void reset(); + virtual void close(); + virtual int getChar(); + virtual int lookChar(); + virtual GString *getPSFilter(int psLevel, char *indent); + virtual GBool isBinary(GBool last = gTrue); + virtual void getImageParams(int *bitsPerComponent, + StreamColorSpaceMode *csMode); + +private: + + void fillReadBuf(); + void getImageParams2(int *bitsPerComponent, StreamColorSpaceMode *csMode); + GBool readBoxes(); + GBool readColorSpecBox(Guint dataLen); + GBool readCodestream(Guint len); + GBool readTilePart(); + GBool readTilePartData(Guint tileIdx, + Guint tilePartLen, GBool tilePartToEOC); + GBool readCodeBlockData(JPXTileComp *tileComp, + JPXResLevel *resLevel, + JPXPrecinct *precinct, + JPXSubband *subband, + Guint res, Guint sb, + JPXCodeBlock *cb); + void inverseTransform(JPXTileComp *tileComp); + void inverseTransformLevel(JPXTileComp *tileComp, + Guint r, JPXResLevel *resLevel, + Guint nx0, Guint ny0, + Guint nx1, Guint ny1); + void inverseTransform1D(JPXTileComp *tileComp, + int *data, Guint stride, + Guint i0, Guint i1); + GBool inverseMultiCompAndDC(JPXTile *tile); + GBool readBoxHdr(Guint *boxType, Guint *boxLen, Guint *dataLen); + int readMarkerHdr(int *segType, Guint *segLen); + GBool readUByte(Guint *x); + GBool readByte(int *x); + GBool readUWord(Guint *x); + GBool readULong(Guint *x); + GBool readNBytes(int nBytes, GBool signd, int *x); + GBool readBits(int nBits, Guint *x); + void startBitBuf(Guint byteCountA); + Guint finishBitBuf(); + + Guint nComps; // number of components + Guint *bpc; // bits per component, for each component + Guint width, height; // image size + GBool haveImgHdr; // set if a JP2/JPX image header has been + // found + JPXColorSpec cs; // color specification + GBool haveCS; // set if a color spec has been found + JPXPalette palette; // the palette + GBool havePalette; // set if a palette has been found + JPXCompMap compMap; // the component mapping + GBool haveCompMap; // set if a component mapping has been found + JPXChannelDefn channelDefn; // channel definition + GBool haveChannelDefn; // set if a channel defn has been found + + JPXImage img; // JPEG2000 decoder data + Guint bitBuf; // buffer for bit reads + int bitBufLen; // number of bits in bitBuf + GBool bitBufSkip; // true if next bit should be skipped + // (for bit stuffing) + Guint byteCount; // number of available bytes left + + Guint curX, curY, curComp; // current position for lookChar/getChar + Guint readBuf; // read buffer + Guint readBufLen; // number of valid bits in readBuf +}; + +#endif diff --git a/kpdf/xpdf/xpdf/Lexer.cc b/kpdf/xpdf/xpdf/Lexer.cc new file mode 100644 index 00000000..1ef37175 --- /dev/null +++ b/kpdf/xpdf/xpdf/Lexer.cc @@ -0,0 +1,521 @@ +//======================================================================== +// +// Lexer.cc +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include +#include +#include "Lexer.h" +#include "Error.h" +#include "XRef.h" + +//------------------------------------------------------------------------ + +// A '1' in this array means the character is white space. A '1' or +// '2' means the character ends a name or command. +static char specialChars[256] = { + 1, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 0, 1, 1, 0, 0, // 0x + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 1x + 1, 0, 0, 0, 0, 2, 0, 0, 2, 2, 0, 0, 0, 0, 0, 2, // 2x + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 2, 0, 2, 0, // 3x + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 4x + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 2, 0, 2, 0, 0, // 5x + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 6x + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 2, 0, 2, 0, 0, // 7x + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 8x + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 9x + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // ax + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // bx + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // cx + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // dx + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // ex + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 // fx +}; + +//------------------------------------------------------------------------ +// Lexer +//------------------------------------------------------------------------ + +Lexer::Lexer(XRef *xrefA, Stream *str) { + Object obj; + + xref = xrefA; + + curStr.initStream(str); + streams = new Array(xref); + streams->add(curStr.copy(&obj)); + strPtr = 0; + freeArray = gTrue; + curStr.streamReset(); +} + +Lexer::Lexer(XRef *xrefA, Object *obj) { + Object obj2; + + xref = xrefA; + + if (obj->isStream()) { + streams = new Array(xref); + freeArray = gTrue; + streams->add(obj->copy(&obj2)); + } else { + streams = obj->getArray(); + freeArray = gFalse; + } + strPtr = 0; + if (streams->getLength() > 0) { + streams->get(strPtr, &curStr); + curStr.streamReset(); + } +} + +Lexer::~Lexer() { + if (!curStr.isNone()) { + curStr.streamClose(); + curStr.free(); + } + if (freeArray) { + delete streams; + } +} + +int Lexer::getChar() { + int c; + + c = EOF; + while (!curStr.isNone() && (c = curStr.streamGetChar()) == EOF) { + curStr.streamClose(); + curStr.free(); + ++strPtr; + if (strPtr < streams->getLength()) { + streams->get(strPtr, &curStr); + curStr.streamReset(); + } + } + return c; +} + +int Lexer::lookChar() { + if (curStr.isNone()) { + return EOF; + } + return curStr.streamLookChar(); +} + +Object *Lexer::getObj(Object *obj, int objNum) { + char *p; + int c, c2; + GBool comment, neg, done; + int numParen; + int xi; + double xf, scale; + GString *s; + int n, m; + + // skip whitespace and comments + comment = gFalse; + while (1) { + if ((c = getChar()) == EOF) { + return obj->initEOF(); + } + if (comment) { + if (c == '\r' || c == '\n') + comment = gFalse; + } else if (c == '%') { + comment = gTrue; + } else if (specialChars[c] != 1) { + break; + } + } + + // start reading token + switch (c) { + + // number + case '0': case '1': case '2': case '3': case '4': + case '5': case '6': case '7': case '8': case '9': + case '-': case '.': + neg = gFalse; + xi = 0; + if (c == '-') { + neg = gTrue; + } else if (c == '.') { + goto doReal; + } else { + xi = c - '0'; + } + while (1) { + c = lookChar(); + if (isdigit(c)) { + getChar(); + xi = xi * 10 + (c - '0'); + } else if (c == '.') { + getChar(); + goto doReal; + } else { + break; + } + } + if (neg) + xi = -xi; + obj->initInt(xi); + break; + doReal: + xf = xi; + scale = 0.1; + while (1) { + c = lookChar(); + if (c == '-') { + // ignore minus signs in the middle of numbers to match + // Adobe's behavior + error(getPos(), "Badly formatted number"); + getChar(); + continue; + } + if (!isdigit(c)) { + break; + } + getChar(); + xf = xf + scale * (c - '0'); + scale *= 0.1; + } + if (neg) + xf = -xf; + obj->initReal(xf); + break; + + // string + case '(': + p = tokBuf; + n = 0; + numParen = 1; + done = gFalse; + s = NULL; + do { + c2 = EOF; + switch (c = getChar()) { + + case EOF: +#if 0 + // This breaks some PDF files, e.g., ones from Photoshop. + case '\r': + case '\n': +#endif + error(getPos(), "Unterminated string"); + done = gTrue; + break; + + case '(': + ++numParen; + c2 = c; + break; + + case ')': + if (--numParen == 0) { + done = gTrue; + } else { + c2 = c; + } + break; + + case '\\': + switch (c = getChar()) { + case 'n': + c2 = '\n'; + break; + case 'r': + c2 = '\r'; + break; + case 't': + c2 = '\t'; + break; + case 'b': + c2 = '\b'; + break; + case 'f': + c2 = '\f'; + break; + case '\\': + case '(': + case ')': + c2 = c; + break; + case '0': case '1': case '2': case '3': + case '4': case '5': case '6': case '7': + c2 = c - '0'; + c = lookChar(); + if (c >= '0' && c <= '7') { + getChar(); + c2 = (c2 << 3) + (c - '0'); + c = lookChar(); + if (c >= '0' && c <= '7') { + getChar(); + c2 = (c2 << 3) + (c - '0'); + } + } + break; + case '\r': + c = lookChar(); + if (c == '\n') { + getChar(); + } + break; + case '\n': + break; + case EOF: + error(getPos(), "Unterminated string"); + done = gTrue; + break; + default: + c2 = c; + break; + } + break; + + default: + c2 = c; + break; + } + + if (c2 != EOF) { + if (n == tokBufSize) { + if (!s) + s = new GString(tokBuf, tokBufSize); + else + s->append(tokBuf, tokBufSize); + p = tokBuf; + n = 0; + + // we are growing see if the document is not malformed and we are growing too much + if (objNum > 0 && xref != NULL) + { + int newObjNum = xref->getNumEntry(curStr.streamGetPos()); + if (newObjNum != objNum) + { + error(getPos(), "Unterminated string"); + done = gTrue; + delete s; + n = -2; + } + } + } + *p++ = (char)c2; + ++n; + } + } while (!done); + if (n >= 0) { + if (!s) + s = new GString(tokBuf, n); + else + s->append(tokBuf, n); + obj->initString(s); + } else { + obj->initEOF(); + } + break; + + // name + case '/': + p = tokBuf; + n = 0; + s = NULL; + while ((c = lookChar()) != EOF && !specialChars[c]) { + getChar(); + if (c == '#') { + c2 = lookChar(); + if (c2 >= '0' && c2 <= '9') { + c = c2 - '0'; + } else if (c2 >= 'A' && c2 <= 'F') { + c = c2 - 'A' + 10; + } else if (c2 >= 'a' && c2 <= 'f') { + c = c2 - 'a' + 10; + } else { + goto notEscChar; + } + getChar(); + c <<= 4; + c2 = getChar(); + if (c2 >= '0' && c2 <= '9') { + c += c2 - '0'; + } else if (c2 >= 'A' && c2 <= 'F') { + c += c2 - 'A' + 10; + } else if (c2 >= 'a' && c2 <= 'f') { + c += c2 - 'a' + 10; + } else { + error(getPos(), "Illegal digit in hex char in name"); + } + } + notEscChar: + if (n == tokBufSize) { + if (!s) + s = new GString(tokBuf, tokBufSize); + else + { + // the spec says 127 is the maximum, we are already at 256 so bail out + error(getPos(), "Name token too long"); + break; + } + p = tokBuf; + n = 0; + } + *p++ = c; + ++n; + } + *p = '\0'; + if (s) { + s->append(tokBuf, n); + obj->initName(s->getCString()); + delete s; + } else obj->initName(tokBuf); + break; + + // array punctuation + case '[': + case ']': + tokBuf[0] = c; + tokBuf[1] = '\0'; + obj->initCmd(tokBuf); + break; + + // hex string or dict punctuation + case '<': + c = lookChar(); + + // dict punctuation + if (c == '<') { + getChar(); + tokBuf[0] = tokBuf[1] = '<'; + tokBuf[2] = '\0'; + obj->initCmd(tokBuf); + + // hex string + } else { + p = tokBuf; + m = n = 0; + c2 = 0; + s = NULL; + while (1) { + c = getChar(); + if (c == '>') { + break; + } else if (c == EOF) { + error(getPos(), "Unterminated hex string"); + break; + } else if (specialChars[c] != 1) { + c2 = c2 << 4; + if (c >= '0' && c <= '9') + c2 += c - '0'; + else if (c >= 'A' && c <= 'F') + c2 += c - 'A' + 10; + else if (c >= 'a' && c <= 'f') + c2 += c - 'a' + 10; + else + error(getPos(), "Illegal character <%02x> in hex string", c); + if (++m == 2) { + if (n == tokBufSize) { + if (!s) + s = new GString(tokBuf, tokBufSize); + else + s->append(tokBuf, tokBufSize); + p = tokBuf; + n = 0; + } + *p++ = (char)c2; + ++n; + c2 = 0; + m = 0; + } + } + } + if (!s) + s = new GString(tokBuf, n); + else + s->append(tokBuf, n); + if (m == 1) + s->append((char)(c2 << 4)); + obj->initString(s); + } + break; + + // dict punctuation + case '>': + c = lookChar(); + if (c == '>') { + getChar(); + tokBuf[0] = tokBuf[1] = '>'; + tokBuf[2] = '\0'; + obj->initCmd(tokBuf); + } else { + error(getPos(), "Illegal character '>'"); + obj->initError(); + } + break; + + // error + case ')': + case '{': + case '}': + error(getPos(), "Illegal character '%c'", c); + obj->initError(); + break; + + // command + default: + p = tokBuf; + *p++ = c; + n = 1; + while ((c = lookChar()) != EOF && !specialChars[c]) { + getChar(); + if (++n == tokBufSize) { + error(getPos(), "Command token too long"); + break; + } + *p++ = c; + } + *p = '\0'; + if (tokBuf[0] == 't' && !strcmp(tokBuf, "true")) { + obj->initBool(gTrue); + } else if (tokBuf[0] == 'f' && !strcmp(tokBuf, "false")) { + obj->initBool(gFalse); + } else if (tokBuf[0] == 'n' && !strcmp(tokBuf, "null")) { + obj->initNull(); + } else { + obj->initCmd(tokBuf); + } + break; + } + + return obj; +} + +void Lexer::skipToNextLine() { + int c; + + while (1) { + c = getChar(); + if (c == EOF || c == '\n') { + return; + } + if (c == '\r') { + if ((c = lookChar()) == '\n') { + getChar(); + } + return; + } + } +} + +GBool Lexer::isSpace(int c) { + return c >= 0 && c <= 0xff && specialChars[c] == 1; +} diff --git a/kpdf/xpdf/xpdf/Lexer.h b/kpdf/xpdf/xpdf/Lexer.h new file mode 100644 index 00000000..3333be9f --- /dev/null +++ b/kpdf/xpdf/xpdf/Lexer.h @@ -0,0 +1,82 @@ +//======================================================================== +// +// Lexer.h +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef LEXER_H +#define LEXER_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "Object.h" +#include "Stream.h" + +class XRef; + +#define tokBufSize 128 // size of token buffer + +//------------------------------------------------------------------------ +// Lexer +//------------------------------------------------------------------------ + +class Lexer { +public: + + // Construct a lexer for a single stream. Deletes the stream when + // lexer is deleted. + Lexer(XRef *xrefA, Stream *str); + + // Construct a lexer for a stream or array of streams (assumes obj + // is either a stream or array of streams). + Lexer(XRef *xrefA, Object *obj); + + // Destructor. + ~Lexer(); + + // Get the next object from the input stream. + Object *getObj(Object *obj, int objNum = -1); + + // Skip to the beginning of the next line in the input stream. + void skipToNextLine(); + + // Skip over one character. + void skipChar() { getChar(); } + + // Get stream. + Stream *getStream() + { return curStr.isNone() ? (Stream *)NULL : curStr.getStream(); } + + // Get current position in file. This is only used for error + // messages, so it returns an int instead of a Guint. + int getPos() + { return curStr.isNone() ? -1 : (int)curStr.streamGetPos(); } + + // Set position in file. + void setPos(Guint pos, int dir = 0) + { if (!curStr.isNone()) curStr.streamSetPos(pos, dir); } + + // Returns true if is a whitespace character. + static GBool isSpace(int c); + +private: + + int getChar(); + int lookChar(); + + Array *streams; // array of input streams + int strPtr; // index of current stream + Object curStr; // current stream + GBool freeArray; // should lexer free the streams array? + char tokBuf[tokBufSize]; // temporary token buffer + + XRef *xref; +}; + +#endif diff --git a/kpdf/xpdf/xpdf/Link.cc b/kpdf/xpdf/xpdf/Link.cc new file mode 100644 index 00000000..ae2de537 --- /dev/null +++ b/kpdf/xpdf/xpdf/Link.cc @@ -0,0 +1,784 @@ +//======================================================================== +// +// Link.cc +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include "gmem.h" +#include "GString.h" +#include "Error.h" +#include "Object.h" +#include "Array.h" +#include "Dict.h" +#include "Link.h" + +//------------------------------------------------------------------------ +// LinkAction +//------------------------------------------------------------------------ + +LinkAction *LinkAction::parseDest(Object *obj) { + LinkAction *action; + + action = new LinkGoTo(obj); + if (!action->isOk()) { + delete action; + return NULL; + } + return action; +} + +LinkAction *LinkAction::parseAction(Object *obj, GString *baseURI) { + LinkAction *action; + Object obj2, obj3, obj4; + + if (!obj->isDict()) { + error(-1, "Bad annotation action"); + return NULL; + } + + obj->dictLookup("S", &obj2); + + // GoTo action + if (obj2.isName("GoTo")) { + obj->dictLookup("D", &obj3); + action = new LinkGoTo(&obj3); + obj3.free(); + + // GoToR action + } else if (obj2.isName("GoToR")) { + obj->dictLookup("F", &obj3); + obj->dictLookup("D", &obj4); + action = new LinkGoToR(&obj3, &obj4); + obj3.free(); + obj4.free(); + + // Launch action + } else if (obj2.isName("Launch")) { + action = new LinkLaunch(obj); + + // URI action + } else if (obj2.isName("URI")) { + obj->dictLookup("URI", &obj3); + action = new LinkURI(&obj3, baseURI); + obj3.free(); + + // Named action + } else if (obj2.isName("Named")) { + obj->dictLookup("N", &obj3); + action = new LinkNamed(&obj3); + obj3.free(); + + // Movie action + } else if (obj2.isName("Movie")) { + obj->dictLookupNF("Annot", &obj3); + obj->dictLookup("T", &obj4); + action = new LinkMovie(&obj3, &obj4); + obj3.free(); + obj4.free(); + + // unknown action + } else if (obj2.isName()) { + action = new LinkUnknown(obj2.getName()); + + // action is missing or wrong type + } else { + error(-1, "Bad annotation action"); + action = NULL; + } + + obj2.free(); + + if (action && !action->isOk()) { + delete action; + return NULL; + } + return action; +} + +GString *LinkAction::getFileSpecName(Object *fileSpecObj) { + GString *name; + Object obj1; + + name = NULL; + + // string + if (fileSpecObj->isString()) { + name = fileSpecObj->getString()->copy(); + + // dictionary + } else if (fileSpecObj->isDict()) { +#ifdef WIN32 + if (!fileSpecObj->dictLookup("DOS", &obj1)->isString()) { +#else + if (!fileSpecObj->dictLookup("Unix", &obj1)->isString()) { +#endif + obj1.free(); + fileSpecObj->dictLookup("F", &obj1); + } + if (obj1.isString()) { + name = obj1.getString()->copy(); + } else { + error(-1, "Illegal file spec in link"); + } + obj1.free(); + + // error + } else { + error(-1, "Illegal file spec in link"); + } + + // system-dependent path manipulation + if (name) { +#ifdef WIN32 + int i, j; + + // "//...." --> "\...." + // "/x/...." --> "x:\...." + // "/server/share/...." --> "\\server\share\...." + // convert escaped slashes to slashes and unescaped slashes to backslashes + i = 0; + if (name->getChar(0) == '/') { + if (name->getLength() >= 2 && name->getChar(1) == '/') { + name->del(0); + i = 0; + } else if (name->getLength() >= 2 && + ((name->getChar(1) >= 'a' && name->getChar(1) <= 'z') || + (name->getChar(1) >= 'A' && name->getChar(1) <= 'Z')) && + (name->getLength() == 2 || name->getChar(2) == '/')) { + name->setChar(0, name->getChar(1)); + name->setChar(1, ':'); + i = 2; + } else { + for (j = 2; j < name->getLength(); ++j) { + if (name->getChar(j-1) != '\\' && + name->getChar(j) == '/') { + break; + } + } + if (j < name->getLength()) { + name->setChar(0, '\\'); + name->insert(0, '\\'); + i = 2; + } + } + } + for (; i < name->getLength(); ++i) { + if (name->getChar(i) == '/') { + name->setChar(i, '\\'); + } else if (name->getChar(i) == '\\' && + i+1 < name->getLength() && + name->getChar(i+1) == '/') { + name->del(i); + } + } +#else + // no manipulation needed for Unix +#endif + } + + return name; +} + +//------------------------------------------------------------------------ +// LinkDest +//------------------------------------------------------------------------ + +LinkDest::LinkDest(Array *a) { + Object obj1, obj2; + + // initialize fields + left = bottom = right = top = zoom = 0; + ok = gFalse; + + // get page + if (a->getLength() < 2) { + error(-1, "Annotation destination array is too short"); + return; + } + a->getNF(0, &obj1); + if (obj1.isInt()) { + pageNum = obj1.getInt() + 1; + pageIsRef = gFalse; + } else if (obj1.isRef()) { + pageRef.num = obj1.getRefNum(); + pageRef.gen = obj1.getRefGen(); + pageIsRef = gTrue; + } else { + error(-1, "Bad annotation destination"); + goto err2; + } + obj1.free(); + + // get destination type + a->get(1, &obj1); + + // XYZ link + if (obj1.isName("XYZ")) { + kind = destXYZ; + if (a->getLength() < 3) { + changeLeft = gFalse; + } else { + a->get(2, &obj2); + if (obj2.isNull()) { + changeLeft = gFalse; + } else if (obj2.isNum()) { + changeLeft = gTrue; + left = obj2.getNum(); + } else { + error(-1, "Bad annotation destination position"); + goto err1; + } + obj2.free(); + } + if (a->getLength() < 4) { + changeTop = gFalse; + } else { + a->get(3, &obj2); + if (obj2.isNull()) { + changeTop = gFalse; + } else if (obj2.isNum()) { + changeTop = gTrue; + top = obj2.getNum(); + } else { + error(-1, "Bad annotation destination position"); + goto err1; + } + obj2.free(); + } + if (a->getLength() < 5) { + changeZoom = gFalse; + } else { + a->get(4, &obj2); + if (obj2.isNull()) { + changeZoom = gFalse; + } else if (obj2.isNum()) { + changeZoom = gTrue; + zoom = obj2.getNum(); + } else { + error(-1, "Bad annotation destination position"); + goto err1; + } + obj2.free(); + } + + // Fit link + } else if (obj1.isName("Fit")) { + if (a->getLength() < 2) { + error(-1, "Annotation destination array is too short"); + goto err2; + } + kind = destFit; + + // FitH link + } else if (obj1.isName("FitH")) { + if (a->getLength() < 3) { + error(-1, "Annotation destination array is too short"); + goto err2; + } + kind = destFitH; + if (!a->get(2, &obj2)->isNum()) { + error(-1, "Bad annotation destination position"); + kind = destFit; + } + top = obj2.getNum(); + obj2.free(); + + // FitV link + } else if (obj1.isName("FitV")) { + if (a->getLength() < 3) { + error(-1, "Annotation destination array is too short"); + goto err2; + } + kind = destFitV; + if (!a->get(2, &obj2)->isNum()) { + error(-1, "Bad annotation destination position"); + kind = destFit; + } + left = obj2.getNum(); + obj2.free(); + + // FitR link + } else if (obj1.isName("FitR")) { + if (a->getLength() < 6) { + error(-1, "Annotation destination array is too short"); + goto err2; + } + kind = destFitR; + if (!a->get(2, &obj2)->isNum()) { + error(-1, "Bad annotation destination position"); + kind = destFit; + } + left = obj2.getNum(); + obj2.free(); + if (!a->get(3, &obj2)->isNum()) { + error(-1, "Bad annotation destination position"); + kind = destFit; + } + bottom = obj2.getNum(); + obj2.free(); + if (!a->get(4, &obj2)->isNum()) { + error(-1, "Bad annotation destination position"); + kind = destFit; + } + right = obj2.getNum(); + obj2.free(); + if (!a->get(5, &obj2)->isNum()) { + error(-1, "Bad annotation destination position"); + kind = destFit; + } + top = obj2.getNum(); + obj2.free(); + + // FitB link + } else if (obj1.isName("FitB")) { + if (a->getLength() < 2) { + error(-1, "Annotation destination array is too short"); + goto err2; + } + kind = destFitB; + + // FitBH link + } else if (obj1.isName("FitBH")) { + if (a->getLength() < 3) { + error(-1, "Annotation destination array is too short"); + goto err2; + } + kind = destFitBH; + if (!a->get(2, &obj2)->isNum()) { + error(-1, "Bad annotation destination position"); + kind = destFit; + } + top = obj2.getNum(); + obj2.free(); + + // FitBV link + } else if (obj1.isName("FitBV")) { + if (a->getLength() < 3) { + error(-1, "Annotation destination array is too short"); + goto err2; + } + kind = destFitBV; + if (!a->get(2, &obj2)->isNum()) { + error(-1, "Bad annotation destination position"); + kind = destFit; + } + left = obj2.getNum(); + obj2.free(); + + // unknown link kind + } else { + error(-1, "Unknown annotation destination type"); + goto err2; + } + + obj1.free(); + ok = gTrue; + return; + + err1: + obj2.free(); + err2: + obj1.free(); +} + +LinkDest::LinkDest(LinkDest *dest) { + kind = dest->kind; + pageIsRef = dest->pageIsRef; + if (pageIsRef) + pageRef = dest->pageRef; + else + pageNum = dest->pageNum; + left = dest->left; + bottom = dest->bottom; + right = dest->right; + top = dest->top; + zoom = dest->zoom; + changeLeft = dest->changeLeft; + changeTop = dest->changeTop; + changeZoom = dest->changeZoom; + ok = gTrue; +} + +//------------------------------------------------------------------------ +// LinkGoTo +//------------------------------------------------------------------------ + +LinkGoTo::LinkGoTo(Object *destObj) { + dest = NULL; + namedDest = NULL; + + // named destination + if (destObj->isName()) { + namedDest = new GString(destObj->getName()); + } else if (destObj->isString()) { + namedDest = destObj->getString()->copy(); + + // destination dictionary + } else if (destObj->isArray()) { + dest = new LinkDest(destObj->getArray()); + if (!dest->isOk()) { + delete dest; + dest = NULL; + } + + // error + } else { + error(-1, "Illegal annotation destination"); + } +} + +LinkGoTo::~LinkGoTo() { + if (dest) + delete dest; + if (namedDest) + delete namedDest; +} + +//------------------------------------------------------------------------ +// LinkGoToR +//------------------------------------------------------------------------ + +LinkGoToR::LinkGoToR(Object *fileSpecObj, Object *destObj) { + dest = NULL; + namedDest = NULL; + + // get file name + fileName = getFileSpecName(fileSpecObj); + + // named destination + if (destObj->isName()) { + namedDest = new GString(destObj->getName()); + } else if (destObj->isString()) { + namedDest = destObj->getString()->copy(); + + // destination dictionary + } else if (destObj->isArray()) { + dest = new LinkDest(destObj->getArray()); + if (!dest->isOk()) { + delete dest; + dest = NULL; + } + + // error + } else { + error(-1, "Illegal annotation destination"); + } +} + +LinkGoToR::~LinkGoToR() { + if (fileName) + delete fileName; + if (dest) + delete dest; + if (namedDest) + delete namedDest; +} + + +//------------------------------------------------------------------------ +// LinkLaunch +//------------------------------------------------------------------------ + +LinkLaunch::LinkLaunch(Object *actionObj) { + Object obj1, obj2; + + fileName = NULL; + params = NULL; + + if (actionObj->isDict()) { + if (!actionObj->dictLookup("F", &obj1)->isNull()) { + fileName = getFileSpecName(&obj1); + } else { + obj1.free(); +#ifdef WIN32 + if (actionObj->dictLookup("Win", &obj1)->isDict()) { + obj1.dictLookup("F", &obj2); + fileName = getFileSpecName(&obj2); + obj2.free(); + if (obj1.dictLookup("P", &obj2)->isString()) { + params = obj2.getString()->copy(); + } + obj2.free(); + } else { + error(-1, "Bad launch-type link action"); + } +#else + //~ This hasn't been defined by Adobe yet, so assume it looks + //~ just like the Win dictionary until they say otherwise. + if (actionObj->dictLookup("Unix", &obj1)->isDict()) { + obj1.dictLookup("F", &obj2); + fileName = getFileSpecName(&obj2); + obj2.free(); + if (obj1.dictLookup("P", &obj2)->isString()) { + params = obj2.getString()->copy(); + } + obj2.free(); + } else { + error(-1, "Bad launch-type link action"); + } +#endif + } + obj1.free(); + } +} + +LinkLaunch::~LinkLaunch() { + if (fileName) + delete fileName; + if (params) + delete params; +} + +//------------------------------------------------------------------------ +// LinkURI +//------------------------------------------------------------------------ + +LinkURI::LinkURI(Object *uriObj, GString *baseURI) { + GString *uri2; + int n; + char c; + + uri = NULL; + if (uriObj->isString()) { + uri2 = uriObj->getString()->copy(); + if (baseURI && baseURI->getLength() > 0) { + n = strcspn(uri2->getCString(), "/:"); + if (n == uri2->getLength() || uri2->getChar(n) == '/') { + uri = baseURI->copy(); + c = uri->getChar(uri->getLength() - 1); + if (c == '/' || c == '?') { + if (uri2->getChar(0) == '/') { + uri2->del(0); + } + } else { + if (uri2->getChar(0) != '/') { + uri->append('/'); + } + } + uri->append(uri2); + delete uri2; + } else { + uri = uri2; + } + } else { + uri = uri2; + } + } else { + error(-1, "Illegal URI-type link"); + } +} + +LinkURI::~LinkURI() { + if (uri) + delete uri; +} + +//------------------------------------------------------------------------ +// LinkNamed +//------------------------------------------------------------------------ + +LinkNamed::LinkNamed(Object *nameObj) { + name = NULL; + if (nameObj->isName()) { + name = new GString(nameObj->getName()); + } +} + +LinkNamed::~LinkNamed() { + if (name) { + delete name; + } +} + +//------------------------------------------------------------------------ +// LinkMovie +//------------------------------------------------------------------------ + +LinkMovie::LinkMovie(Object *annotObj, Object *titleObj) { + annotRef.num = -1; + title = NULL; + if (annotObj->isRef()) { + annotRef = annotObj->getRef(); + } else if (titleObj->isString()) { + title = titleObj->getString()->copy(); + } else { + error(-1, "Movie action is missing both the Annot and T keys"); + } +} + +LinkMovie::~LinkMovie() { + if (title) { + delete title; + } +} + +//------------------------------------------------------------------------ +// LinkUnknown +//------------------------------------------------------------------------ + +LinkUnknown::LinkUnknown(char *actionA) { + action = new GString(actionA); +} + +LinkUnknown::~LinkUnknown() { + delete action; +} + +//------------------------------------------------------------------------ +// Link +//------------------------------------------------------------------------ + +Link::Link(Dict *dict, GString *baseURI) { + Object obj1, obj2; + double t; + + action = NULL; + ok = gFalse; + + // get rectangle + if (!dict->lookup("Rect", &obj1)->isArray()) { + error(-1, "Annotation rectangle is wrong type"); + goto err2; + } + if (!obj1.arrayGet(0, &obj2)->isNum()) { + error(-1, "Bad annotation rectangle"); + goto err1; + } + x1 = obj2.getNum(); + obj2.free(); + if (!obj1.arrayGet(1, &obj2)->isNum()) { + error(-1, "Bad annotation rectangle"); + goto err1; + } + y1 = obj2.getNum(); + obj2.free(); + if (!obj1.arrayGet(2, &obj2)->isNum()) { + error(-1, "Bad annotation rectangle"); + goto err1; + } + x2 = obj2.getNum(); + obj2.free(); + if (!obj1.arrayGet(3, &obj2)->isNum()) { + error(-1, "Bad annotation rectangle"); + goto err1; + } + y2 = obj2.getNum(); + obj2.free(); + obj1.free(); + if (x1 > x2) { + t = x1; + x1 = x2; + x2 = t; + } + if (y1 > y2) { + t = y1; + y1 = y2; + y2 = t; + } + + // look for destination + if (!dict->lookup("Dest", &obj1)->isNull()) { + action = LinkAction::parseDest(&obj1); + + // look for action + } else { + obj1.free(); + if (dict->lookup("A", &obj1)->isDict()) { + action = LinkAction::parseAction(&obj1, baseURI); + } + } + obj1.free(); + + // check for bad action + if (action) { + ok = gTrue; + } + + return; + + err1: + obj2.free(); + err2: + obj1.free(); +} + +Link::~Link() { + if (action) { + delete action; + } +} + +//------------------------------------------------------------------------ +// Links +//------------------------------------------------------------------------ + +Links::Links(Object *annots, GString *baseURI) { + Link *link; + Object obj1, obj2; + int size; + int i; + + links = NULL; + size = 0; + numLinks = 0; + + if (annots->isArray()) { + for (i = 0; i < annots->arrayGetLength(); ++i) { + if (annots->arrayGet(i, &obj1)->isDict()) { + if (obj1.dictLookup("Subtype", &obj2)->isName("Link")) { + link = new Link(obj1.getDict(), baseURI); + if (link->isOk()) { + if (numLinks >= size) { + size += 16; + links = (Link **)greallocn(links, size, sizeof(Link *)); + } + links[numLinks++] = link; + } else { + delete link; + } + } + obj2.free(); + } + obj1.free(); + } + } +} + +Links::~Links() { + int i; + + for (i = 0; i < numLinks; ++i) + delete links[i]; + gfree(links); +} + +LinkAction *Links::find(double x, double y) { + int i; + + for (i = numLinks - 1; i >= 0; --i) { + if (links[i]->inRect(x, y)) { + return links[i]->getAction(); + } + } + return NULL; +} + +GBool Links::onLink(double x, double y) { + int i; + + for (i = 0; i < numLinks; ++i) { + if (links[i]->inRect(x, y)) + return gTrue; + } + return gFalse; +} diff --git a/kpdf/xpdf/xpdf/Link.h b/kpdf/xpdf/xpdf/Link.h new file mode 100644 index 00000000..698f2c85 --- /dev/null +++ b/kpdf/xpdf/xpdf/Link.h @@ -0,0 +1,369 @@ +//======================================================================== +// +// Link.h +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef LINK_H +#define LINK_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "Object.h" + +class GString; +class Array; +class Dict; + +//------------------------------------------------------------------------ +// LinkAction +//------------------------------------------------------------------------ + +enum LinkActionKind { + actionGoTo, // go to destination + actionGoToR, // go to destination in new file + actionLaunch, // launch app (or open document) + actionURI, // URI + actionNamed, // named action + actionMovie, // movie action + actionUnknown // anything else +}; + +class LinkAction { +public: + + // Destructor. + virtual ~LinkAction() {} + + // Was the LinkAction created successfully? + virtual GBool isOk() = 0; + + // Check link action type. + virtual LinkActionKind getKind() = 0; + + // Parse a destination (old-style action) name, string, or array. + static LinkAction *parseDest(Object *obj); + + // Parse an action dictionary. + static LinkAction *parseAction(Object *obj, GString *baseURI = NULL); + + // Extract a file name from a file specification (string or + // dictionary). + static GString *getFileSpecName(Object *fileSpecObj); +}; + +//------------------------------------------------------------------------ +// LinkDest +//------------------------------------------------------------------------ + +enum LinkDestKind { + destXYZ, + destFit, + destFitH, + destFitV, + destFitR, + destFitB, + destFitBH, + destFitBV +}; + +class LinkDest { +public: + + // Build a LinkDest from the array. + LinkDest(Array *a); + + // Copy a LinkDest. + LinkDest *copy() { return new LinkDest(this); } + + // Was the LinkDest created successfully? + GBool isOk() { return ok; } + + // Accessors. + LinkDestKind getKind() { return kind; } + GBool isPageRef() { return pageIsRef; } + int getPageNum() { return pageNum; } + Ref getPageRef() { return pageRef; } + double getLeft() { return left; } + double getBottom() { return bottom; } + double getRight() { return right; } + double getTop() { return top; } + double getZoom() { return zoom; } + GBool getChangeLeft() { return changeLeft; } + GBool getChangeTop() { return changeTop; } + GBool getChangeZoom() { return changeZoom; } + +private: + + LinkDestKind kind; // destination type + GBool pageIsRef; // is the page a reference or number? + union { + Ref pageRef; // reference to page + int pageNum; // one-relative page number + }; + double left, bottom; // position + double right, top; + double zoom; // zoom factor + GBool changeLeft, changeTop; // for destXYZ links, which position + GBool changeZoom; // components to change + GBool ok; // set if created successfully + + LinkDest(LinkDest *dest); +}; + +//------------------------------------------------------------------------ +// LinkGoTo +//------------------------------------------------------------------------ + +class LinkGoTo: public LinkAction { +public: + + // Build a LinkGoTo from a destination (dictionary, name, or string). + LinkGoTo(Object *destObj); + + // Destructor. + virtual ~LinkGoTo(); + + // Was the LinkGoTo created successfully? + virtual GBool isOk() { return dest || namedDest; } + + // Accessors. + virtual LinkActionKind getKind() { return actionGoTo; } + LinkDest *getDest() { return dest; } + GString *getNamedDest() { return namedDest; } + +private: + + LinkDest *dest; // regular destination (NULL for remote + // link with bad destination) + GString *namedDest; // named destination (only one of dest and + // and namedDest may be non-NULL) +}; + +//------------------------------------------------------------------------ +// LinkGoToR +//------------------------------------------------------------------------ + +class LinkGoToR: public LinkAction { +public: + + // Build a LinkGoToR from a file spec (dictionary) and destination + // (dictionary, name, or string). + LinkGoToR(Object *fileSpecObj, Object *destObj); + + // Destructor. + virtual ~LinkGoToR(); + + // Was the LinkGoToR created successfully? + virtual GBool isOk() { return fileName && (dest || namedDest); } + + // Accessors. + virtual LinkActionKind getKind() { return actionGoToR; } + GString *getFileName() { return fileName; } + LinkDest *getDest() { return dest; } + GString *getNamedDest() { return namedDest; } + +private: + + GString *fileName; // file name + LinkDest *dest; // regular destination (NULL for remote + // link with bad destination) + GString *namedDest; // named destination (only one of dest and + // and namedDest may be non-NULL) +}; + +//------------------------------------------------------------------------ +// LinkLaunch +//------------------------------------------------------------------------ + +class LinkLaunch: public LinkAction { +public: + + // Build a LinkLaunch from an action dictionary. + LinkLaunch(Object *actionObj); + + // Destructor. + virtual ~LinkLaunch(); + + // Was the LinkLaunch created successfully? + virtual GBool isOk() { return fileName != NULL; } + + // Accessors. + virtual LinkActionKind getKind() { return actionLaunch; } + GString *getFileName() { return fileName; } + GString *getParams() { return params; } + +private: + + GString *fileName; // file name + GString *params; // parameters +}; + +//------------------------------------------------------------------------ +// LinkURI +//------------------------------------------------------------------------ + +class LinkURI: public LinkAction { +public: + + // Build a LinkURI given the URI (string) and base URI. + LinkURI(Object *uriObj, GString *baseURI); + + // Destructor. + virtual ~LinkURI(); + + // Was the LinkURI created successfully? + virtual GBool isOk() { return uri != NULL; } + + // Accessors. + virtual LinkActionKind getKind() { return actionURI; } + GString *getURI() { return uri; } + +private: + + GString *uri; // the URI +}; + +//------------------------------------------------------------------------ +// LinkNamed +//------------------------------------------------------------------------ + +class LinkNamed: public LinkAction { +public: + + // Build a LinkNamed given the action name. + LinkNamed(Object *nameObj); + + virtual ~LinkNamed(); + + virtual GBool isOk() { return name != NULL; } + + virtual LinkActionKind getKind() { return actionNamed; } + GString *getName() { return name; } + +private: + + GString *name; +}; + +//------------------------------------------------------------------------ +// LinkMovie +//------------------------------------------------------------------------ + +class LinkMovie: public LinkAction { +public: + + LinkMovie(Object *annotObj, Object *titleObj); + + virtual ~LinkMovie(); + + virtual GBool isOk() { return annotRef.num >= 0 || title != NULL; } + + virtual LinkActionKind getKind() { return actionMovie; } + GBool hasAnnotRef() { return annotRef.num >= 0; } + Ref *getAnnotRef() { return &annotRef; } + GString *getTitle() { return title; } + +private: + + Ref annotRef; + GString *title; +}; + +//------------------------------------------------------------------------ +// LinkUnknown +//------------------------------------------------------------------------ + +class LinkUnknown: public LinkAction { +public: + + // Build a LinkUnknown with the specified action type. + LinkUnknown(char *actionA); + + // Destructor. + virtual ~LinkUnknown(); + + // Was the LinkUnknown create successfully? + virtual GBool isOk() { return action != NULL; } + + // Accessors. + virtual LinkActionKind getKind() { return actionUnknown; } + GString *getAction() { return action; } + +private: + + GString *action; // action subtype +}; + +//------------------------------------------------------------------------ +// Link +//------------------------------------------------------------------------ + +class Link { +public: + + // Construct a link, given its dictionary. + Link(Dict *dict, GString *baseURI); + + // Destructor. + ~Link(); + + // Was the link created successfully? + GBool isOk() { return ok; } + + // Check if point is inside the link rectangle. + GBool inRect(double x, double y) + { return x1 <= x && x <= x2 && y1 <= y && y <= y2; } + + // Get action. + LinkAction *getAction() { return action; } + + // Get the link rectangle. + void getRect(double *xa1, double *ya1, double *xa2, double *ya2) + { *xa1 = x1; *ya1 = y1; *xa2 = x2; *ya2 = y2; } + +private: + + double x1, y1; // lower left corner + double x2, y2; // upper right corner + LinkAction *action; // action + GBool ok; // is link valid? +}; + +//------------------------------------------------------------------------ +// Links +//------------------------------------------------------------------------ + +class Links { +public: + + // Extract links from array of annotations. + Links(Object *annots, GString *baseURI); + + // Destructor. + ~Links(); + + // Iterate through list of links. + int getNumLinks() { return numLinks; } + Link *getLink(int i) { return links[i]; } + + // If point , is in a link, return the associated action; + // else return NULL. + LinkAction *find(double x, double y); + + // Return true if , is in a link. + GBool onLink(double x, double y); + +private: + + Link **links; + int numLinks; +}; + +#endif diff --git a/kpdf/xpdf/xpdf/Makefile.am b/kpdf/xpdf/xpdf/Makefile.am new file mode 100644 index 00000000..4c0593ad --- /dev/null +++ b/kpdf/xpdf/xpdf/Makefile.am @@ -0,0 +1,19 @@ +INCLUDES = -I$(srcdir)/.. -I$(srcdir)/../fofi -I$(srcdir)/../splash -I$(srcdir)/../goo $(LIBFREETYPE_CFLAGS) $(XFT_CFLAGS) $(all_includes) + +libxpdf_la_LDFLAGS = $(all_libraries) +libxpdf_la_LIBADD = $(LIB_X11) $(LIBFREETYPE_LIBS) $(LIBPAPER_LIBS) $(XFT_LIBS) $(LIBJPEG) ../goo/libgoo.la ../fofi/libfofi.la ../splash/libsplash.la +libxpdf_la_SOURCES = Annot.cc Array.cc BuiltinFont.cc BuiltinFontTables.cc \ + Catalog.cc CharCodeToUnicode.cc CMap.cc Decrypt.cc Dict.cc \ + FontEncodingTables.cc Function.cc Gfx.cc \ + GfxFont.cc GfxState.cc GlobalParams.cc JArithmeticDecoder.cc \ + JBIG2Stream.cc Lexer.cc Link.cc NameToCharCode.cc Object.cc Outline.cc \ + OutputDev.cc PDFDoc.cc PDFDocEncoding.cc PreScanOutputDev.cc PSTokenizer.cc \ + Page.cc Parser.cc PSOutputDev.cc SecurityHandler.cc SplashOutputDev.cc Stream.cc JPXStream.cc \ + TextOutputDev.cc UnicodeMap.cc UnicodeTypeTable.cc XRef.cc + +noinst_LTLIBRARIES = libxpdf.la + +# This fixes crash in Bug 109015 which i assume is a compiler bug +# as adding some correctly placed printf in SplashOutputDev::convertPath() makes this +# option unneeded +KDE_CXXFLAGS=$(NOREGMOVE) diff --git a/kpdf/xpdf/xpdf/NameToCharCode.cc b/kpdf/xpdf/xpdf/NameToCharCode.cc new file mode 100644 index 00000000..7ebf4e16 --- /dev/null +++ b/kpdf/xpdf/xpdf/NameToCharCode.cc @@ -0,0 +1,116 @@ +//======================================================================== +// +// NameToCharCode.cc +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include "gmem.h" +#include "NameToCharCode.h" + +//------------------------------------------------------------------------ + +struct NameToCharCodeEntry { + char *name; + CharCode c; +}; + +//------------------------------------------------------------------------ + +NameToCharCode::NameToCharCode() { + int i; + + size = 31; + len = 0; + tab = (NameToCharCodeEntry *)gmallocn(size, sizeof(NameToCharCodeEntry)); + for (i = 0; i < size; ++i) { + tab[i].name = NULL; + } +} + +NameToCharCode::~NameToCharCode() { + int i; + + for (i = 0; i < size; ++i) { + if (tab[i].name) { + gfree(tab[i].name); + } + } + gfree(tab); +} + +void NameToCharCode::add(char *name, CharCode c) { + NameToCharCodeEntry *oldTab; + int h, i, oldSize; + + // expand the table if necessary + if (len >= size / 2) { + oldSize = size; + oldTab = tab; + size = 2*size + 1; + tab = (NameToCharCodeEntry *)gmallocn(size, sizeof(NameToCharCodeEntry)); + for (h = 0; h < size; ++h) { + tab[h].name = NULL; + } + for (i = 0; i < oldSize; ++i) { + if (oldTab[i].name) { + h = hash(oldTab[i].name); + while (tab[h].name) { + if (++h == size) { + h = 0; + } + } + tab[h] = oldTab[i]; + } + } + gfree(oldTab); + } + + // add the new name + h = hash(name); + while (tab[h].name && strcmp(tab[h].name, name)) { + if (++h == size) { + h = 0; + } + } + if (!tab[h].name) { + tab[h].name = copyString(name); + } + tab[h].c = c; + + ++len; +} + +CharCode NameToCharCode::lookup(char *name) { + int h; + + h = hash(name); + while (tab[h].name) { + if (!strcmp(tab[h].name, name)) { + return tab[h].c; + } + if (++h == size) { + h = 0; + } + } + return 0; +} + +int NameToCharCode::hash(char *name) { + char *p; + unsigned int h; + + h = 0; + for (p = name; *p; ++p) { + h = 17 * h + (int)(*p & 0xff); + } + return (int)(h % size); +} diff --git a/kpdf/xpdf/xpdf/NameToCharCode.h b/kpdf/xpdf/xpdf/NameToCharCode.h new file mode 100644 index 00000000..65453c3a --- /dev/null +++ b/kpdf/xpdf/xpdf/NameToCharCode.h @@ -0,0 +1,42 @@ +//======================================================================== +// +// NameToCharCode.h +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef NAMETOCHARCODE_H +#define NAMETOCHARCODE_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "CharTypes.h" + +struct NameToCharCodeEntry; + +//------------------------------------------------------------------------ + +class NameToCharCode { +public: + + NameToCharCode(); + ~NameToCharCode(); + + void add(char *name, CharCode c); + CharCode lookup(char *name); + +private: + + int hash(char *name); + + NameToCharCodeEntry *tab; + int size; + int len; +}; + +#endif diff --git a/kpdf/xpdf/xpdf/NameToUnicodeTable.h b/kpdf/xpdf/xpdf/NameToUnicodeTable.h new file mode 100644 index 00000000..c5ecba49 --- /dev/null +++ b/kpdf/xpdf/xpdf/NameToUnicodeTable.h @@ -0,0 +1,1097 @@ +//======================================================================== +// +// NameToUnicodeTable.h +// +// Copyright 2001-2004 Glyph & Cog, LLC +// +//======================================================================== + +static struct { + Unicode u; + char *name; +} nameToUnicodeTab[] = { + {0x0021, "!"}, + {0x0023, "#"}, + {0x0024, "$"}, + {0x0025, "%"}, + {0x0026, "&"}, + {0x0027, "'"}, + {0x0028, "("}, + {0x0029, ")"}, + {0x002a, "*"}, + {0x002b, "+"}, + {0x002c, ","}, + {0x002d, "-"}, + {0x002e, "."}, + {0x002f, "/"}, + {0x0030, "0"}, + {0x0031, "1"}, + {0x0032, "2"}, + {0x0033, "3"}, + {0x0034, "4"}, + {0x0035, "5"}, + {0x0036, "6"}, + {0x0037, "7"}, + {0x0038, "8"}, + {0x0039, "9"}, + {0x003a, ":"}, + {0x003b, ";"}, + {0x003c, "<"}, + {0x003d, "="}, + {0x003e, ">"}, + {0x003f, "?"}, + {0x0040, "@"}, + {0x0041, "A"}, + {0x00c6, "AE"}, + {0x01fc, "AEacute"}, + {0xf7e6, "AEsmall"}, + {0x00c1, "Aacute"}, + {0xf7e1, "Aacutesmall"}, + {0x0102, "Abreve"}, + {0x00c2, "Acircumflex"}, + {0xf7e2, "Acircumflexsmall"}, + {0xf6c9, "Acute"}, + {0xf7b4, "Acutesmall"}, + {0x00c4, "Adieresis"}, + {0xf7e4, "Adieresissmall"}, + {0x00c0, "Agrave"}, + {0xf7e0, "Agravesmall"}, + {0x0391, "Alpha"}, + {0x0386, "Alphatonos"}, + {0x0100, "Amacron"}, + {0x0104, "Aogonek"}, + {0x00c5, "Aring"}, + {0x01fa, "Aringacute"}, + {0xf7e5, "Aringsmall"}, + {0xf761, "Asmall"}, + {0x00c3, "Atilde"}, + {0xf7e3, "Atildesmall"}, + {0x0042, "B"}, + {0x0392, "Beta"}, + {0xf6f4, "Brevesmall"}, + {0xf762, "Bsmall"}, + {0x0043, "C"}, + {0x0106, "Cacute"}, + {0xf6ca, "Caron"}, + {0xf6f5, "Caronsmall"}, + {0x010c, "Ccaron"}, + {0x00c7, "Ccedilla"}, + {0xf7e7, "Ccedillasmall"}, + {0x0108, "Ccircumflex"}, + {0x010a, "Cdotaccent"}, + {0xf7b8, "Cedillasmall"}, + {0x03a7, "Chi"}, + {0xf6f6, "Circumflexsmall"}, + {0xf763, "Csmall"}, + {0x0044, "D"}, + {0x010e, "Dcaron"}, + {0x0110, "Dcroat"}, + {0x2206, "Delta"}, + {0xf6cb, "Dieresis"}, + {0xf6cc, "DieresisAcute"}, + {0xf6cd, "DieresisGrave"}, + {0xf7a8, "Dieresissmall"}, + {0xf6f7, "Dotaccentsmall"}, + {0xf764, "Dsmall"}, + {0x0045, "E"}, + {0x00c9, "Eacute"}, + {0xf7e9, "Eacutesmall"}, + {0x0114, "Ebreve"}, + {0x011a, "Ecaron"}, + {0x00ca, "Ecircumflex"}, + {0xf7ea, "Ecircumflexsmall"}, + {0x00cb, "Edieresis"}, + {0xf7eb, "Edieresissmall"}, + {0x0116, "Edotaccent"}, + {0x00c8, "Egrave"}, + {0xf7e8, "Egravesmall"}, + {0x0112, "Emacron"}, + {0x014a, "Eng"}, + {0x0118, "Eogonek"}, + {0x0395, "Epsilon"}, + {0x0388, "Epsilontonos"}, + {0xf765, "Esmall"}, + {0x0397, "Eta"}, + {0x0389, "Etatonos"}, + {0x00d0, "Eth"}, + {0xf7f0, "Ethsmall"}, + {0x20ac, "Euro"}, + {0x0046, "F"}, + {0xf766, "Fsmall"}, + {0x0047, "G"}, + {0x0393, "Gamma"}, + {0x011e, "Gbreve"}, + {0x01e6, "Gcaron"}, + {0x011c, "Gcircumflex"}, + {0x0122, "Gcommaaccent"}, + {0x0120, "Gdotaccent"}, + {0xf6ce, "Grave"}, + {0xf760, "Gravesmall"}, + {0xf767, "Gsmall"}, + {0x0048, "H"}, + {0x25cf, "H18533"}, + {0x25aa, "H18543"}, + {0x25ab, "H18551"}, + {0x25a1, "H22073"}, + {0x0126, "Hbar"}, + {0x0124, "Hcircumflex"}, + {0xf768, "Hsmall"}, + {0xf6cf, "Hungarumlaut"}, + {0xf6f8, "Hungarumlautsmall"}, + {0x0049, "I"}, + {0x0132, "IJ"}, + {0x00cd, "Iacute"}, + {0xf7ed, "Iacutesmall"}, + {0x012c, "Ibreve"}, + {0x00ce, "Icircumflex"}, + {0xf7ee, "Icircumflexsmall"}, + {0x00cf, "Idieresis"}, + {0xf7ef, "Idieresissmall"}, + {0x0130, "Idotaccent"}, + {0x2111, "Ifraktur"}, + {0x00cc, "Igrave"}, + {0xf7ec, "Igravesmall"}, + {0x012a, "Imacron"}, + {0x012e, "Iogonek"}, + {0x0399, "Iota"}, + {0x03aa, "Iotadieresis"}, + {0x038a, "Iotatonos"}, + {0xf769, "Ismall"}, + {0x0128, "Itilde"}, + {0x004a, "J"}, + {0x0134, "Jcircumflex"}, + {0xf76a, "Jsmall"}, + {0x004b, "K"}, + {0x039a, "Kappa"}, + {0x0136, "Kcommaaccent"}, + {0xf76b, "Ksmall"}, + {0x004c, "L"}, + {0xf6bf, "LL"}, + {0x0139, "Lacute"}, + {0x039b, "Lambda"}, + {0x013d, "Lcaron"}, + {0x013b, "Lcommaaccent"}, + {0x013f, "Ldot"}, + {0x0141, "Lslash"}, + {0xf6f9, "Lslashsmall"}, + {0xf76c, "Lsmall"}, + {0x004d, "M"}, + {0xf6d0, "Macron"}, + {0xf7af, "Macronsmall"}, + {0xf76d, "Msmall"}, + {0x039c, "Mu"}, + {0x004e, "N"}, + {0x0143, "Nacute"}, + {0x0147, "Ncaron"}, + {0x0145, "Ncommaaccent"}, + {0xf76e, "Nsmall"}, + {0x00d1, "Ntilde"}, + {0xf7f1, "Ntildesmall"}, + {0x039d, "Nu"}, + {0x004f, "O"}, + {0x0152, "OE"}, + {0xf6fa, "OEsmall"}, + {0x00d3, "Oacute"}, + {0xf7f3, "Oacutesmall"}, + {0x014e, "Obreve"}, + {0x00d4, "Ocircumflex"}, + {0xf7f4, "Ocircumflexsmall"}, + {0x00d6, "Odieresis"}, + {0xf7f6, "Odieresissmall"}, + {0xf6fb, "Ogoneksmall"}, + {0x00d2, "Ograve"}, + {0xf7f2, "Ogravesmall"}, + {0x01a0, "Ohorn"}, + {0x0150, "Ohungarumlaut"}, + {0x014c, "Omacron"}, + {0x2126, "Omega"}, + {0x038f, "Omegatonos"}, + {0x039f, "Omicron"}, + {0x038c, "Omicrontonos"}, + {0x00d8, "Oslash"}, + {0x01fe, "Oslashacute"}, + {0xf7f8, "Oslashsmall"}, + {0xf76f, "Osmall"}, + {0x00d5, "Otilde"}, + {0xf7f5, "Otildesmall"}, + {0x0050, "P"}, + {0x03a6, "Phi"}, + {0x03a0, "Pi"}, + {0x03a8, "Psi"}, + {0xf770, "Psmall"}, + {0x0051, "Q"}, + {0xf771, "Qsmall"}, + {0x0052, "R"}, + {0x0154, "Racute"}, + {0x0158, "Rcaron"}, + {0x0156, "Rcommaaccent"}, + {0x211c, "Rfraktur"}, + {0x03a1, "Rho"}, + {0xf6fc, "Ringsmall"}, + {0xf772, "Rsmall"}, + {0x0053, "S"}, + {0x250c, "SF010000"}, + {0x2514, "SF020000"}, + {0x2510, "SF030000"}, + {0x2518, "SF040000"}, + {0x253c, "SF050000"}, + {0x252c, "SF060000"}, + {0x2534, "SF070000"}, + {0x251c, "SF080000"}, + {0x2524, "SF090000"}, + {0x2500, "SF100000"}, + {0x2502, "SF110000"}, + {0x2561, "SF190000"}, + {0x2562, "SF200000"}, + {0x2556, "SF210000"}, + {0x2555, "SF220000"}, + {0x2563, "SF230000"}, + {0x2551, "SF240000"}, + {0x2557, "SF250000"}, + {0x255d, "SF260000"}, + {0x255c, "SF270000"}, + {0x255b, "SF280000"}, + {0x255e, "SF360000"}, + {0x255f, "SF370000"}, + {0x255a, "SF380000"}, + {0x2554, "SF390000"}, + {0x2569, "SF400000"}, + {0x2566, "SF410000"}, + {0x2560, "SF420000"}, + {0x2550, "SF430000"}, + {0x256c, "SF440000"}, + {0x2567, "SF450000"}, + {0x2568, "SF460000"}, + {0x2564, "SF470000"}, + {0x2565, "SF480000"}, + {0x2559, "SF490000"}, + {0x2558, "SF500000"}, + {0x2552, "SF510000"}, + {0x2553, "SF520000"}, + {0x256b, "SF530000"}, + {0x256a, "SF540000"}, + {0x015a, "Sacute"}, + {0x0160, "Scaron"}, + {0xf6fd, "Scaronsmall"}, + {0x015e, "Scedilla"}, + {0x015c, "Scircumflex"}, + {0x0218, "Scommaaccent"}, + {0x03a3, "Sigma"}, + {0xf773, "Ssmall"}, + {0x0054, "T"}, + {0x03a4, "Tau"}, + {0x0166, "Tbar"}, + {0x0164, "Tcaron"}, + {0x0162, "Tcommaaccent"}, + {0x0398, "Theta"}, + {0x00de, "Thorn"}, + {0xf7fe, "Thornsmall"}, + {0xf6fe, "Tildesmall"}, + {0xf774, "Tsmall"}, + {0x0055, "U"}, + {0x00da, "Uacute"}, + {0xf7fa, "Uacutesmall"}, + {0x016c, "Ubreve"}, + {0x00db, "Ucircumflex"}, + {0xf7fb, "Ucircumflexsmall"}, + {0x00dc, "Udieresis"}, + {0xf7fc, "Udieresissmall"}, + {0x00d9, "Ugrave"}, + {0xf7f9, "Ugravesmall"}, + {0x01af, "Uhorn"}, + {0x0170, "Uhungarumlaut"}, + {0x016a, "Umacron"}, + {0x0172, "Uogonek"}, + {0x03a5, "Upsilon"}, + {0x03d2, "Upsilon1"}, + {0x03ab, "Upsilondieresis"}, + {0x038e, "Upsilontonos"}, + {0x016e, "Uring"}, + {0xf775, "Usmall"}, + {0x0168, "Utilde"}, + {0x0056, "V"}, + {0xf776, "Vsmall"}, + {0x0057, "W"}, + {0x1e82, "Wacute"}, + {0x0174, "Wcircumflex"}, + {0x1e84, "Wdieresis"}, + {0x1e80, "Wgrave"}, + {0xf777, "Wsmall"}, + {0x0058, "X"}, + {0x039e, "Xi"}, + {0xf778, "Xsmall"}, + {0x0059, "Y"}, + {0x00dd, "Yacute"}, + {0xf7fd, "Yacutesmall"}, + {0x0176, "Ycircumflex"}, + {0x0178, "Ydieresis"}, + {0xf7ff, "Ydieresissmall"}, + {0x1ef2, "Ygrave"}, + {0xf779, "Ysmall"}, + {0x005a, "Z"}, + {0x0179, "Zacute"}, + {0x017d, "Zcaron"}, + {0xf6ff, "Zcaronsmall"}, + {0x017b, "Zdotaccent"}, + {0x0396, "Zeta"}, + {0xf77a, "Zsmall"}, + {0x0022, "\""}, + {0x005c, "\\"}, + {0x005d, "]"}, + {0x005e, "^"}, + {0x005f, "_"}, + {0x0060, "`"}, + {0x0061, "a"}, + {0x00e1, "aacute"}, + {0x0103, "abreve"}, + {0x00e2, "acircumflex"}, + {0x00b4, "acute"}, + {0x0301, "acutecomb"}, + {0x00e4, "adieresis"}, + {0x00e6, "ae"}, + {0x01fd, "aeacute"}, + {0x2015, "afii00208"}, + {0x0410, "afii10017"}, + {0x0411, "afii10018"}, + {0x0412, "afii10019"}, + {0x0413, "afii10020"}, + {0x0414, "afii10021"}, + {0x0415, "afii10022"}, + {0x0401, "afii10023"}, + {0x0416, "afii10024"}, + {0x0417, "afii10025"}, + {0x0418, "afii10026"}, + {0x0419, "afii10027"}, + {0x041a, "afii10028"}, + {0x041b, "afii10029"}, + {0x041c, "afii10030"}, + {0x041d, "afii10031"}, + {0x041e, "afii10032"}, + {0x041f, "afii10033"}, + {0x0420, "afii10034"}, + {0x0421, "afii10035"}, + {0x0422, "afii10036"}, + {0x0423, "afii10037"}, + {0x0424, "afii10038"}, + {0x0425, "afii10039"}, + {0x0426, "afii10040"}, + {0x0427, "afii10041"}, + {0x0428, "afii10042"}, + {0x0429, "afii10043"}, + {0x042a, "afii10044"}, + {0x042b, "afii10045"}, + {0x042c, "afii10046"}, + {0x042d, "afii10047"}, + {0x042e, "afii10048"}, + 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{0x0447, "afii10089"}, + {0x0448, "afii10090"}, + {0x0449, "afii10091"}, + {0x044a, "afii10092"}, + {0x044b, "afii10093"}, + {0x044c, "afii10094"}, + {0x044d, "afii10095"}, + {0x044e, "afii10096"}, + {0x044f, "afii10097"}, + {0x0491, "afii10098"}, + {0x0452, "afii10099"}, + {0x0453, "afii10100"}, + {0x0454, "afii10101"}, + {0x0455, "afii10102"}, + {0x0456, "afii10103"}, + {0x0457, "afii10104"}, + {0x0458, "afii10105"}, + {0x0459, "afii10106"}, + {0x045a, "afii10107"}, + {0x045b, "afii10108"}, + {0x045c, "afii10109"}, + {0x045e, "afii10110"}, + {0x040f, "afii10145"}, + {0x0462, "afii10146"}, + {0x0472, "afii10147"}, + {0x0474, "afii10148"}, + {0xf6c6, "afii10192"}, + {0x045f, "afii10193"}, + {0x0463, "afii10194"}, + {0x0473, "afii10195"}, + {0x0475, "afii10196"}, + {0xf6c7, "afii10831"}, + {0xf6c8, "afii10832"}, + {0x04d9, "afii10846"}, + {0x200e, "afii299"}, + {0x200f, "afii300"}, + {0x200d, "afii301"}, + {0x066a, "afii57381"}, + {0x060c, "afii57388"}, + {0x0660, "afii57392"}, + {0x0661, "afii57393"}, + {0x0662, "afii57394"}, + {0x0663, "afii57395"}, + {0x0664, "afii57396"}, + {0x0665, "afii57397"}, + {0x0666, "afii57398"}, + {0x0667, "afii57399"}, + {0x0668, "afii57400"}, + {0x0669, "afii57401"}, + {0x061b, "afii57403"}, + {0x061f, "afii57407"}, + {0x0621, "afii57409"}, + {0x0622, "afii57410"}, + {0x0623, "afii57411"}, + {0x0624, "afii57412"}, + {0x0625, "afii57413"}, + {0x0626, "afii57414"}, + {0x0627, "afii57415"}, + {0x0628, "afii57416"}, + {0x0629, "afii57417"}, + {0x062a, "afii57418"}, + {0x062b, "afii57419"}, + {0x062c, "afii57420"}, + {0x062d, "afii57421"}, + {0x062e, "afii57422"}, + {0x062f, "afii57423"}, + {0x0630, "afii57424"}, + {0x0631, "afii57425"}, + {0x0632, "afii57426"}, + {0x0633, "afii57427"}, + {0x0634, "afii57428"}, + {0x0635, "afii57429"}, + {0x0636, "afii57430"}, + {0x0637, "afii57431"}, + {0x0638, "afii57432"}, + {0x0639, "afii57433"}, + {0x063a, "afii57434"}, + {0x0640, "afii57440"}, + {0x0641, "afii57441"}, + {0x0642, "afii57442"}, + {0x0643, "afii57443"}, + {0x0644, "afii57444"}, + {0x0645, "afii57445"}, + {0x0646, "afii57446"}, + {0x0648, "afii57448"}, + {0x0649, "afii57449"}, + {0x064a, "afii57450"}, + {0x064b, "afii57451"}, + {0x064c, "afii57452"}, + {0x064d, "afii57453"}, + {0x064e, "afii57454"}, + {0x064f, "afii57455"}, + {0x0650, "afii57456"}, + {0x0651, "afii57457"}, + {0x0652, "afii57458"}, + {0x0647, "afii57470"}, + {0x06a4, "afii57505"}, + {0x067e, "afii57506"}, + {0x0686, "afii57507"}, + {0x0698, "afii57508"}, + {0x06af, "afii57509"}, + {0x0679, "afii57511"}, + {0x0688, "afii57512"}, + {0x0691, "afii57513"}, + {0x06ba, "afii57514"}, + {0x06d2, "afii57519"}, + {0x06d5, "afii57534"}, + {0x20aa, "afii57636"}, + {0x05be, "afii57645"}, + {0x05c3, "afii57658"}, + {0x05d0, "afii57664"}, + {0x05d1, "afii57665"}, + {0x05d2, "afii57666"}, + {0x05d3, "afii57667"}, + {0x05d4, "afii57668"}, + {0x05d5, "afii57669"}, + {0x05d6, "afii57670"}, + {0x05d7, "afii57671"}, + {0x05d8, "afii57672"}, + {0x05d9, "afii57673"}, + {0x05da, "afii57674"}, + {0x05db, "afii57675"}, + {0x05dc, "afii57676"}, + {0x05dd, "afii57677"}, + {0x05de, "afii57678"}, + {0x05df, "afii57679"}, + {0x05e0, "afii57680"}, + {0x05e1, "afii57681"}, + {0x05e2, "afii57682"}, + {0x05e3, "afii57683"}, + {0x05e4, "afii57684"}, + {0x05e5, "afii57685"}, + {0x05e6, "afii57686"}, + {0x05e7, "afii57687"}, + {0x05e8, "afii57688"}, + {0x05e9, "afii57689"}, + {0x05ea, "afii57690"}, + {0xfb2a, "afii57694"}, + {0xfb2b, "afii57695"}, + {0xfb4b, "afii57700"}, + {0xfb1f, "afii57705"}, + {0x05f0, "afii57716"}, + {0x05f1, "afii57717"}, + {0x05f2, "afii57718"}, + {0xfb35, "afii57723"}, + {0x05b4, "afii57793"}, + {0x05b5, "afii57794"}, + {0x05b6, "afii57795"}, + {0x05bb, "afii57796"}, + {0x05b8, "afii57797"}, + {0x05b7, "afii57798"}, + {0x05b0, "afii57799"}, + {0x05b2, "afii57800"}, + {0x05b1, "afii57801"}, + {0x05b3, "afii57802"}, + {0x05c2, "afii57803"}, + {0x05c1, "afii57804"}, + {0x05b9, "afii57806"}, + {0x05bc, "afii57807"}, + {0x05bd, "afii57839"}, + {0x05bf, "afii57841"}, + {0x05c0, "afii57842"}, + {0x02bc, "afii57929"}, + {0x2105, "afii61248"}, + {0x2113, "afii61289"}, + {0x2116, "afii61352"}, + {0x202c, "afii61573"}, + {0x202d, "afii61574"}, + {0x202e, "afii61575"}, + {0x200c, "afii61664"}, + {0x066d, "afii63167"}, + {0x02bd, "afii64937"}, + {0x00e0, "agrave"}, + {0x2135, "aleph"}, + {0x03b1, "alpha"}, + {0x03ac, "alphatonos"}, + {0x0101, "amacron"}, + {0x0026, "ampersand"}, + {0xf726, "ampersandsmall"}, + {0x2220, "angle"}, + {0x2329, "angleleft"}, + {0x232a, "angleright"}, + {0x0387, "anoteleia"}, + {0x0105, "aogonek"}, + {0x2248, "approxequal"}, + {0x00e5, "aring"}, + {0x01fb, "aringacute"}, + {0x2194, "arrowboth"}, + {0x21d4, "arrowdblboth"}, + {0x21d3, "arrowdbldown"}, + {0x21d0, "arrowdblleft"}, + {0x21d2, "arrowdblright"}, + {0x21d1, "arrowdblup"}, + {0x2193, "arrowdown"}, + {0xf8e7, "arrowhorizex"}, + {0x2190, "arrowleft"}, + {0x2192, "arrowright"}, + {0x2191, "arrowup"}, + {0x2195, "arrowupdn"}, + {0x21a8, 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{0x00e7, "ccedilla"}, + {0x0109, "ccircumflex"}, + {0x010b, "cdotaccent"}, + {0x00b8, "cedilla"}, + {0x00a2, "cent"}, + {0xf6df, "centinferior"}, + {0xf7a2, "centoldstyle"}, + {0xf6e0, "centsuperior"}, + {0x03c7, "chi"}, + {0x25cb, "circle"}, + {0x2297, "circlemultiply"}, + {0x2295, "circleplus"}, + {0x02c6, "circumflex"}, + {0x2663, "club"}, + {0x003a, "colon"}, + {0x20a1, "colonmonetary"}, + {0x002c, "comma"}, + {0xf6c3, "commaaccent"}, + {0xf6e1, "commainferior"}, + {0xf6e2, "commasuperior"}, + {0x2245, "congruent"}, + {0x00a9, "copyright"}, + {0x00a9, "copyrightsans"}, + {0x00a9, "copyrightserif"}, + {0x00a4, "currency"}, + {0xf6d1, "cyrBreve"}, + {0xf6d2, "cyrFlex"}, + {0xf6d4, "cyrbreve"}, + {0xf6d5, "cyrflex"}, + {0x0064, "d"}, + {0x2020, "dagger"}, + {0x2021, "daggerdbl"}, + {0xf6d3, "dblGrave"}, + {0xf6d6, "dblgrave"}, + {0x010f, "dcaron"}, + {0x0111, "dcroat"}, + {0x00b0, "degree"}, + {0x03b4, "delta"}, + {0x2666, "diamond"}, + {0x00a8, "dieresis"}, + {0xf6d7, 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{0x212e, "estimated"}, + {0xf6ec, "esuperior"}, + {0x03b7, "eta"}, + {0x03ae, "etatonos"}, + {0x00f0, "eth"}, + {0x0021, "exclam"}, + {0x203c, "exclamdbl"}, + {0x00a1, "exclamdown"}, + {0xf7a1, "exclamdownsmall"}, + {0x0021, "exclamleft"}, + {0xf721, "exclamsmall"}, + {0x2203, "existential"}, + {0x0066, "f"}, + {0x2640, "female"}, + {0xfb00, "ff"}, + {0xfb03, "ffi"}, + {0xfb04, "ffl"}, + {0xfb01, "fi"}, + {0x2012, "figuredash"}, + {0x25a0, "filledbox"}, + {0x25ac, "filledrect"}, + {0x0035, "five"}, + {0x215d, "fiveeighths"}, + {0x2085, "fiveinferior"}, + {0xf735, "fiveoldstyle"}, + {0x2075, "fivesuperior"}, + {0xfb02, "fl"}, + {0x0192, "florin"}, + {0x0034, "four"}, + {0x2084, "fourinferior"}, + {0xf734, "fouroldstyle"}, + {0x2074, "foursuperior"}, + {0x2044, "fraction"}, + {0x20a3, "franc"}, + {0x0067, "g"}, + {0x03b3, "gamma"}, + {0x011f, "gbreve"}, + {0x01e7, "gcaron"}, + {0x011d, "gcircumflex"}, + {0x0123, "gcommaaccent"}, + {0x0121, "gdotaccent"}, + {0x00df, "germandbls"}, + {0x2207, "gradient"}, + {0x0060, "grave"}, + {0x0300, "gravecomb"}, + {0x003e, "greater"}, + {0x2265, "greaterequal"}, + {0x00ab, "guillemotleft"}, + {0x00bb, "guillemotright"}, + {0x2039, "guilsinglleft"}, + {0x203a, "guilsinglright"}, + {0x0068, "h"}, + {0x0127, "hbar"}, + {0x0125, "hcircumflex"}, + {0x2665, "heart"}, + {0x0309, "hookabovecomb"}, + {0x2302, "house"}, + {0x02dd, "hungarumlaut"}, + {0x002d, "hyphen"}, + {0xf6e5, "hypheninferior"}, + {0xf6e6, "hyphensuperior"}, + {0x0069, "i"}, + {0x00ed, "iacute"}, + {0x012d, "ibreve"}, + {0x00ee, "icircumflex"}, + {0x00ef, "idieresis"}, + {0x00ec, "igrave"}, + {0x0133, "ij"}, + {0x012b, "imacron"}, + {0x221e, "infinity"}, + {0x222b, "integral"}, + {0x2321, "integralbt"}, + {0xf8f5, "integralex"}, + {0x2320, "integraltp"}, + {0x2229, "intersection"}, + {0x25d8, "invbullet"}, + {0x25d9, "invcircle"}, + {0x263b, "invsmileface"}, + {0x012f, "iogonek"}, + {0x03b9, "iota"}, + {0x03ca, "iotadieresis"}, + {0x0390, "iotadieresistonos"}, + {0x03af, "iotatonos"}, + {0xf6ed, "isuperior"}, + {0x0129, "itilde"}, + {0x006a, "j"}, + {0x0135, "jcircumflex"}, + {0x006b, "k"}, + {0x03ba, "kappa"}, + {0x0137, "kcommaaccent"}, + {0x0138, "kgreenlandic"}, + {0x006c, "l"}, + {0x013a, "lacute"}, + {0x03bb, "lambda"}, + {0x013e, "lcaron"}, + {0x013c, "lcommaaccent"}, + {0x0140, "ldot"}, + {0x003c, "less"}, + {0x2264, "lessequal"}, + {0x258c, "lfblock"}, + {0x20a4, "lira"}, + {0xf6c0, "ll"}, + {0x2227, "logicaland"}, + {0x00ac, "logicalnot"}, + {0x2228, "logicalor"}, + {0x017f, "longs"}, + {0x25ca, "lozenge"}, + {0x0142, "lslash"}, + {0xf6ee, "lsuperior"}, + {0x2591, "ltshade"}, + {0x006d, "m"}, + {0x00af, "macron"}, + {0x2642, "male"}, + {0x2212, "minus"}, + {0x2032, "minute"}, + {0xf6ef, "msuperior"}, + {0x00b5, "mu"}, + {0x00d7, "multiply"}, + {0x266a, "musicalnote"}, + {0x266b, "musicalnotedbl"}, + {0x006e, "n"}, + {0x0144, "nacute"}, + {0x0149, "napostrophe"}, + {0x00a0, "nbspace"}, + {0x0148, "ncaron"}, + {0x0146, "ncommaaccent"}, + {0x0039, "nine"}, + {0x2089, "nineinferior"}, + {0xf739, "nineoldstyle"}, + {0x2079, "ninesuperior"}, + {0x00a0, "nonbreakingspace"}, + {0x2209, "notelement"}, + {0x2260, "notequal"}, + {0x2284, "notsubset"}, + {0x207f, "nsuperior"}, + {0x00f1, "ntilde"}, + {0x03bd, "nu"}, + {0x0023, "numbersign"}, + {0x006f, "o"}, + {0x00f3, "oacute"}, + {0x014f, "obreve"}, + {0x00f4, "ocircumflex"}, + {0x00f6, "odieresis"}, + {0x0153, "oe"}, + {0x02db, "ogonek"}, + {0x00f2, "ograve"}, + {0x01a1, "ohorn"}, + {0x0151, "ohungarumlaut"}, + {0x014d, "omacron"}, + {0x03c9, "omega"}, + {0x03d6, "omega1"}, + {0x03ce, "omegatonos"}, + {0x03bf, "omicron"}, + {0x03cc, "omicrontonos"}, + {0x0031, "one"}, + {0x2024, "onedotenleader"}, + {0x215b, "oneeighth"}, + {0xf6dc, "onefitted"}, + {0x00bd, "onehalf"}, + {0x2081, "oneinferior"}, + {0xf731, "oneoldstyle"}, + {0x00bc, "onequarter"}, + {0x00b9, "onesuperior"}, + {0x2153, "onethird"}, + {0x25e6, "openbullet"}, + {0x00aa, "ordfeminine"}, + {0x00ba, "ordmasculine"}, + {0x221f, "orthogonal"}, + {0x00f8, "oslash"}, + {0x01ff, "oslashacute"}, + {0xf6f0, "osuperior"}, + {0x00f5, "otilde"}, + {0x0070, "p"}, + {0x00b6, "paragraph"}, + {0x0028, "parenleft"}, + {0xf8ed, "parenleftbt"}, + {0xf8ec, "parenleftex"}, + {0x208d, "parenleftinferior"}, + {0x207d, "parenleftsuperior"}, + {0xf8eb, "parenlefttp"}, + {0x0029, "parenright"}, + {0xf8f8, "parenrightbt"}, + {0xf8f7, "parenrightex"}, + {0x208e, "parenrightinferior"}, + {0x207e, "parenrightsuperior"}, + {0xf8f6, "parenrighttp"}, + {0x2202, "partialdiff"}, + {0x0025, "percent"}, + {0x002e, "period"}, + {0x00b7, "periodcentered"}, + {0xf6e7, "periodinferior"}, + {0xf6e8, "periodsuperior"}, + {0x22a5, "perpendicular"}, + {0x2030, "perthousand"}, + {0x20a7, "peseta"}, + {0x03c6, "phi"}, + {0x03d5, "phi1"}, + {0x03c0, "pi"}, + {0x002b, "plus"}, + {0x00b1, "plusminus"}, + {0x211e, "prescription"}, + {0x220f, "product"}, + {0x2282, "propersubset"}, + {0x2283, "propersuperset"}, + {0x221d, "proportional"}, + {0x03c8, "psi"}, + {0x0071, "q"}, + {0x003f, "question"}, + {0x00bf, "questiondown"}, + {0xf7bf, "questiondownsmall"}, + {0xf73f, "questionsmall"}, + {0x0022, "quotedbl"}, + {0x201e, "quotedblbase"}, + {0x201c, "quotedblleft"}, + {0x201d, "quotedblright"}, + {0x2018, "quoteleft"}, + {0x201b, "quotereversed"}, + {0x2019, "quoteright"}, + {0x201a, "quotesinglbase"}, + {0x0027, "quotesingle"}, + {0x0072, "r"}, + {0x0155, "racute"}, + {0x221a, "radical"}, + {0xf8e5, "radicalex"}, + {0x0159, "rcaron"}, + {0x0157, "rcommaaccent"}, + {0x2286, "reflexsubset"}, + {0x2287, "reflexsuperset"}, + {0x00ae, "registered"}, + {0x00ae, "registersans"}, + {0x00ae, "registerserif"}, + {0x2310, "revlogicalnot"}, + {0x03c1, "rho"}, + {0x02da, "ring"}, + {0xf6f1, "rsuperior"}, + {0x2590, "rtblock"}, + {0xf6dd, "rupiah"}, + {0x0073, "s"}, + {0x015b, "sacute"}, + {0x0161, "scaron"}, + {0x015f, "scedilla"}, + {0x015d, "scircumflex"}, + {0x0219, "scommaaccent"}, + {0x2033, "second"}, + {0x00a7, "section"}, + {0x003b, "semicolon"}, + {0x0037, "seven"}, + {0x215e, "seveneighths"}, + {0x2087, "seveninferior"}, + {0xf737, "sevenoldstyle"}, + {0x2077, "sevensuperior"}, + {0x2592, "shade"}, + {0x03c3, "sigma"}, + {0x03c2, "sigma1"}, + {0x223c, "similar"}, + {0x0036, "six"}, + {0x2086, "sixinferior"}, + {0xf736, "sixoldstyle"}, + {0x2076, "sixsuperior"}, + {0x002f, "slash"}, + {0x263a, "smileface"}, + {0x0020, "space"}, + {0x2660, "spade"}, + {0xf6f2, "ssuperior"}, + {0x00a3, "sterling"}, + {0x220b, "suchthat"}, + {0x2211, "summation"}, + {0x263c, "sun"}, + {0x0074, "t"}, + {0x03c4, "tau"}, + {0x0167, "tbar"}, + {0x0165, "tcaron"}, + {0x0163, "tcommaaccent"}, + {0x2234, "therefore"}, + {0x03b8, "theta"}, + {0x03d1, "theta1"}, + {0x00fe, "thorn"}, + {0x0033, "three"}, + {0x215c, "threeeighths"}, + {0x2083, "threeinferior"}, + {0xf733, "threeoldstyle"}, + {0x00be, "threequarters"}, + {0xf6de, "threequartersemdash"}, + {0x00b3, "threesuperior"}, + {0x02dc, "tilde"}, + {0x0303, "tildecomb"}, + {0x0384, "tonos"}, + {0x2122, "trademark"}, + {0x2122, "trademarksans"}, + {0x2122, "trademarkserif"}, + {0x25bc, "triagdn"}, + {0x25c4, "triaglf"}, + {0x25ba, "triagrt"}, + {0x25b2, "triagup"}, + {0xf6f3, "tsuperior"}, + {0x0032, "two"}, + {0x2025, "twodotenleader"}, + {0x2082, "twoinferior"}, + {0xf732, "twooldstyle"}, + {0x00b2, "twosuperior"}, + {0x2154, "twothirds"}, + {0x0075, "u"}, + {0x00fa, "uacute"}, + {0x016d, "ubreve"}, + {0x00fb, "ucircumflex"}, + {0x00fc, "udieresis"}, + {0x00f9, "ugrave"}, + {0x01b0, "uhorn"}, + {0x0171, "uhungarumlaut"}, + {0x016b, "umacron"}, + {0x005f, "underscore"}, + {0x2017, "underscoredbl"}, + {0x222a, "union"}, + {0x2200, "universal"}, + {0x0173, "uogonek"}, + {0x2580, "upblock"}, + {0x03c5, "upsilon"}, + {0x03cb, "upsilondieresis"}, + {0x03b0, "upsilondieresistonos"}, + {0x03cd, "upsilontonos"}, + {0x016f, "uring"}, + {0x0169, "utilde"}, + {0x0076, "v"}, + {0x0077, "w"}, + {0x1e83, "wacute"}, + {0x0175, "wcircumflex"}, + {0x1e85, "wdieresis"}, + {0x2118, "weierstrass"}, + {0x1e81, "wgrave"}, + {0x0078, "x"}, + {0x03be, "xi"}, + {0x0079, "y"}, + {0x00fd, "yacute"}, + {0x0177, "ycircumflex"}, + {0x00ff, "ydieresis"}, + {0x00a5, "yen"}, + {0x1ef3, "ygrave"}, + {0x007a, "z"}, + {0x017a, "zacute"}, + {0x017e, "zcaron"}, + {0x017c, "zdotaccent"}, + {0x0030, "zero"}, + {0x2080, "zeroinferior"}, + {0xf730, "zerooldstyle"}, + {0x2070, "zerosuperior"}, + {0x03b6, "zeta"}, + {0x007b, "{"}, + {0x007c, "|"}, + {0x007d, "}"}, + {0x007e, "~"}, + { 0, NULL } +}; diff --git a/kpdf/xpdf/xpdf/Object.cc b/kpdf/xpdf/xpdf/Object.cc new file mode 100644 index 00000000..f0a3a092 --- /dev/null +++ b/kpdf/xpdf/xpdf/Object.cc @@ -0,0 +1,233 @@ +//======================================================================== +// +// Object.cc +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include "Object.h" +#include "Array.h" +#include "Dict.h" +#include "Error.h" +#include "Stream.h" +#include "XRef.h" + +//------------------------------------------------------------------------ +// Object +//------------------------------------------------------------------------ + +char *objTypeNames[numObjTypes] = { + "boolean", + "integer", + "real", + "string", + "name", + "null", + "array", + "dictionary", + "stream", + "ref", + "cmd", + "error", + "eof", + "none" +}; + +#ifdef DEBUG_MEM +int Object::numAlloc[numObjTypes] = + {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}; +#endif + +Object *Object::initArray(XRef *xref) { + initObj(objArray); + array = new Array(xref); + return this; +} + +Object *Object::initDict(XRef *xref) { + initObj(objDict); + dict = new Dict(xref); + return this; +} + +Object *Object::initDict(Dict *dictA) { + initObj(objDict); + dict = dictA; + dict->incRef(); + return this; +} + +Object *Object::initStream(Stream *streamA) { + initObj(objStream); + stream = streamA; + return this; +} + +Object *Object::copy(Object *obj) { + *obj = *this; + switch (type) { + case objString: + obj->string = string->copy(); + break; + case objName: + obj->name = copyString(name); + break; + case objArray: + array->incRef(); + break; + case objDict: + dict->incRef(); + break; + case objStream: + stream->incRef(); + break; + case objCmd: + obj->cmd = copyString(cmd); + break; + default: + break; + } +#ifdef DEBUG_MEM + ++numAlloc[type]; +#endif + return obj; +} + +Object *Object::fetch(XRef *xref, Object *obj) { + return (type == objRef && xref) ? + xref->fetch(ref.num, ref.gen, obj) : copy(obj); +} + +void Object::free() { + switch (type) { + case objString: + delete string; + break; + case objName: + gfree(name); + break; + case objArray: + if (!array->decRef()) { + delete array; + } + break; + case objDict: + if (!dict->decRef()) { + delete dict; + } + break; + case objStream: + if (!stream->decRef()) { + delete stream; + } + break; + case objCmd: + gfree(cmd); + break; + default: + break; + } +#ifdef DEBUG_MEM + --numAlloc[type]; +#endif + type = objNone; +} + +char *Object::getTypeName() { + return objTypeNames[type]; +} + +void Object::print(FILE *f) { + Object obj; + int i; + + switch (type) { + case objBool: + fprintf(f, "%s", booln ? "true" : "false"); + break; + case objInt: + fprintf(f, "%d", intg); + break; + case objReal: + fprintf(f, "%g", real); + break; + case objString: + fprintf(f, "("); + fwrite(string->getCString(), 1, string->getLength(), f); + fprintf(f, ")"); + break; + case objName: + fprintf(f, "/%s", name); + break; + case objNull: + fprintf(f, "null"); + break; + case objArray: + fprintf(f, "["); + for (i = 0; i < arrayGetLength(); ++i) { + if (i > 0) + fprintf(f, " "); + arrayGetNF(i, &obj); + obj.print(f); + obj.free(); + } + fprintf(f, "]"); + break; + case objDict: + fprintf(f, "<<"); + for (i = 0; i < dictGetLength(); ++i) { + fprintf(f, " /%s ", dictGetKey(i)); + dictGetValNF(i, &obj); + obj.print(f); + obj.free(); + } + fprintf(f, " >>"); + break; + case objStream: + fprintf(f, ""); + break; + case objRef: + fprintf(f, "%d %d R", ref.num, ref.gen); + break; + case objCmd: + fprintf(f, "%s", cmd); + break; + case objError: + fprintf(f, ""); + break; + case objEOF: + fprintf(f, ""); + break; + case objNone: + fprintf(f, ""); + break; + } +} + +void Object::memCheck(FILE *f) { +#ifdef DEBUG_MEM + int i; + int t; + + t = 0; + for (i = 0; i < numObjTypes; ++i) + t += numAlloc[i]; + if (t > 0) { + fprintf(f, "Allocated objects:\n"); + for (i = 0; i < numObjTypes; ++i) { + if (numAlloc[i] > 0) + fprintf(f, " %-20s: %6d\n", objTypeNames[i], numAlloc[i]); + } + } +#else + (void)f; +#endif +} diff --git a/kpdf/xpdf/xpdf/Object.h b/kpdf/xpdf/xpdf/Object.h new file mode 100644 index 00000000..8b1807c5 --- /dev/null +++ b/kpdf/xpdf/xpdf/Object.h @@ -0,0 +1,303 @@ +//======================================================================== +// +// Object.h +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef OBJECT_H +#define OBJECT_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include +#include +#include "gtypes.h" +#include "gmem.h" +#include "GString.h" + +class XRef; +class Array; +class Dict; +class Stream; + +//------------------------------------------------------------------------ +// Ref +//------------------------------------------------------------------------ + +struct Ref { + int num; // object number + int gen; // generation number +}; + +//------------------------------------------------------------------------ +// object types +//------------------------------------------------------------------------ + +enum ObjType { + // simple objects + objBool, // boolean + objInt, // integer + objReal, // real + objString, // string + objName, // name + objNull, // null + + // complex objects + objArray, // array + objDict, // dictionary + objStream, // stream + objRef, // indirect reference + + // special objects + objCmd, // command name + objError, // error return from Lexer + objEOF, // end of file return from Lexer + objNone // uninitialized object +}; + +#define numObjTypes 14 // total number of object types + +//------------------------------------------------------------------------ +// Object +//------------------------------------------------------------------------ + +#ifdef DEBUG_MEM +#define initObj(t) ++numAlloc[type = t] +#else +#define initObj(t) type = t +#endif + +class Object { +public: + + // Default constructor. + Object(): + type(objNone) {} + + // Initialize an object. + Object *initBool(GBool boolnA) + { initObj(objBool); booln = boolnA; return this; } + Object *initInt(int intgA) + { initObj(objInt); intg = intgA; return this; } + Object *initReal(double realA) + { initObj(objReal); real = realA; return this; } + Object *initString(GString *stringA) + { initObj(objString); string = stringA; return this; } + Object *initName(char *nameA) + { initObj(objName); name = copyString(nameA); return this; } + Object *initNull() + { initObj(objNull); return this; } + Object *initArray(XRef *xref); + Object *initDict(XRef *xref); + Object *initDict(Dict *dictA); + Object *initStream(Stream *streamA); + Object *initRef(int numA, int genA) + { initObj(objRef); ref.num = numA; ref.gen = genA; return this; } + Object *initCmd(char *cmdA) + { initObj(objCmd); cmd = copyString(cmdA); return this; } + Object *initError() + { initObj(objError); return this; } + Object *initEOF() + { initObj(objEOF); return this; } + + // Copy an object. + Object *copy(Object *obj); + + // If object is a Ref, fetch and return the referenced object. + // Otherwise, return a copy of the object. + Object *fetch(XRef *xref, Object *obj); + + // Free object contents. + void free(); + + // Type checking. + ObjType getType() { return type; } + GBool isBool() { return type == objBool; } + GBool isInt() { return type == objInt; } + GBool isReal() { return type == objReal; } + GBool isNum() { return type == objInt || type == objReal; } + GBool isString() { return type == objString; } + GBool isName() { return type == objName; } + GBool isNull() { return type == objNull; } + GBool isArray() { return type == objArray; } + GBool isDict() { return type == objDict; } + GBool isStream() { return type == objStream; } + GBool isRef() { return type == objRef; } + GBool isCmd() { return type == objCmd; } + GBool isError() { return type == objError; } + GBool isEOF() { return type == objEOF; } + GBool isNone() { return type == objNone; } + + // Special type checking. + GBool isName(char *nameA) + { return type == objName && !strcmp(name, nameA); } + GBool isDict(char *dictType); + GBool isStream(char *dictType); + GBool isCmd(char *cmdA) + { return type == objCmd && !strcmp(cmd, cmdA); } + + // Accessors. NB: these assume object is of correct type. + GBool getBool() { return booln; } + int getInt() { return intg; } + double getReal() { return real; } + double getNum() { return type == objInt ? (double)intg : real; } + GString *getString() { return string; } + char *getName() { return name; } + Array *getArray() { return array; } + Dict *getDict() { return dict; } + Stream *getStream() { return stream; } + Ref getRef() { return ref; } + int getRefNum() { return ref.num; } + int getRefGen() { return ref.gen; } + char *getCmd() { return cmd; } + + // Array accessors. + int arrayGetLength(); + void arrayAdd(Object *elem); + Object *arrayGet(int i, Object *obj); + Object *arrayGetNF(int i, Object *obj); + + // Dict accessors. + int dictGetLength(); + void dictAdd(char *key, Object *val); + GBool dictIs(char *dictType); + Object *dictLookup(char *key, Object *obj); + Object *dictLookupNF(char *key, Object *obj); + char *dictGetKey(int i); + Object *dictGetVal(int i, Object *obj); + Object *dictGetValNF(int i, Object *obj); + + // Stream accessors. + GBool streamIs(char *dictType); + void streamReset(); + void streamClose(); + int streamGetChar(); + int streamLookChar(); + char *streamGetLine(char *buf, int size); + Guint streamGetPos(); + void streamSetPos(Guint pos, int dir = 0); + Dict *streamGetDict(); + + // Output. + char *getTypeName(); + void print(FILE *f = stdout); + + // Memory testing. + static void memCheck(FILE *f); + +private: + + ObjType type; // object type + union { // value for each type: + GBool booln; // boolean + int intg; // integer + double real; // real + GString *string; // string + char *name; // name + Array *array; // array + Dict *dict; // dictionary + Stream *stream; // stream + Ref ref; // indirect reference + char *cmd; // command + }; + +#ifdef DEBUG_MEM + static int // number of each type of object + numAlloc[numObjTypes]; // currently allocated +#endif +}; + +//------------------------------------------------------------------------ +// Array accessors. +//------------------------------------------------------------------------ + +#include "Array.h" + +inline int Object::arrayGetLength() + { return array->getLength(); } + +inline void Object::arrayAdd(Object *elem) + { array->add(elem); } + +inline Object *Object::arrayGet(int i, Object *obj) + { return array->get(i, obj); } + +inline Object *Object::arrayGetNF(int i, Object *obj) + { return array->getNF(i, obj); } + +//------------------------------------------------------------------------ +// Dict accessors. +//------------------------------------------------------------------------ + +#include "Dict.h" + +inline int Object::dictGetLength() + { return dict->getLength(); } + +inline void Object::dictAdd(char *key, Object *val) + { dict->add(key, val); } + +inline GBool Object::dictIs(char *dictType) + { return dict->is(dictType); } + +inline GBool Object::isDict(char *dictType) + { return type == objDict && dictIs(dictType); } + +inline Object *Object::dictLookup(char *key, Object *obj) + { return dict->lookup(key, obj); } + +inline Object *Object::dictLookupNF(char *key, Object *obj) + { return dict->lookupNF(key, obj); } + +inline char *Object::dictGetKey(int i) + { return dict->getKey(i); } + +inline Object *Object::dictGetVal(int i, Object *obj) + { return dict->getVal(i, obj); } + +inline Object *Object::dictGetValNF(int i, Object *obj) + { return dict->getValNF(i, obj); } + +//------------------------------------------------------------------------ +// Stream accessors. +//------------------------------------------------------------------------ + +#include "Stream.h" + +inline GBool Object::streamIs(char *dictType) + { return stream->getDict()->is(dictType); } + +inline GBool Object::isStream(char *dictType) + { return type == objStream && streamIs(dictType); } + +inline void Object::streamReset() + { stream->reset(); } + +inline void Object::streamClose() + { stream->close(); } + +inline int Object::streamGetChar() + { return stream->getChar(); } + +inline int Object::streamLookChar() + { return stream->lookChar(); } + +inline char *Object::streamGetLine(char *buf, int size) + { return stream->getLine(buf, size); } + +inline Guint Object::streamGetPos() + { return stream->getPos(); } + +inline void Object::streamSetPos(Guint pos, int dir) + { stream->setPos(pos, dir); } + +inline Dict *Object::streamGetDict() + { return stream->getDict(); } + +#endif diff --git a/kpdf/xpdf/xpdf/Outline.cc b/kpdf/xpdf/xpdf/Outline.cc new file mode 100644 index 00000000..39e89a3c --- /dev/null +++ b/kpdf/xpdf/xpdf/Outline.cc @@ -0,0 +1,151 @@ +//======================================================================== +// +// Outline.cc +// +// Copyright 2002-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include "gmem.h" +#include "GString.h" +#include "GList.h" +#include "Link.h" +#include "PDFDocEncoding.h" +#include "Outline.h" + +//------------------------------------------------------------------------ + +Outline::Outline(Object *outlineObj, XRef *xref) { + Object first, last; + + items = NULL; + if (!outlineObj->isDict()) { + return; + } + items = OutlineItem::readItemList(outlineObj->dictLookupNF("First", &first), + outlineObj->dictLookupNF("Last", &last), + xref); + first.free(); + last.free(); +} + +Outline::~Outline() { + if (items) { + deleteGList(items, OutlineItem); + } +} + +//------------------------------------------------------------------------ + +OutlineItem::OutlineItem(Dict *dict, XRef *xrefA) { + Object obj1; + GString *s; + int i; + + xref = xrefA; + title = NULL; + action = NULL; + kids = NULL; + + if (dict->lookup("Title", &obj1)->isString()) { + s = obj1.getString(); + if ((s->getChar(0) & 0xff) == 0xfe && + (s->getChar(1) & 0xff) == 0xff) { + titleLen = (s->getLength() - 2) / 2; + title = (Unicode *)gmallocn(titleLen, sizeof(Unicode)); + for (i = 0; i < titleLen; ++i) { + title[i] = ((s->getChar(2 + 2*i) & 0xff) << 8) | + (s->getChar(3 + 2*i) & 0xff); + } + } else { + titleLen = s->getLength(); + title = (Unicode *)gmallocn(titleLen, sizeof(Unicode)); + for (i = 0; i < titleLen; ++i) { + title[i] = pdfDocEncoding[s->getChar(i) & 0xff]; + } + } + } else { + titleLen = 0; + } + obj1.free(); + + if (!dict->lookup("Dest", &obj1)->isNull()) { + action = LinkAction::parseDest(&obj1); + } else { + obj1.free(); + if (!dict->lookup("A", &obj1)->isNull()) { + action = LinkAction::parseAction(&obj1); + } + } + obj1.free(); + + dict->lookupNF("First", &firstRef); + dict->lookupNF("Last", &lastRef); + dict->lookupNF("Next", &nextRef); + + startsOpen = gFalse; + if (dict->lookup("Count", &obj1)->isInt()) { + if (obj1.getInt() > 0) { + startsOpen = gTrue; + } + } + obj1.free(); +} + +OutlineItem::~OutlineItem() { + close(); + if (title) { + gfree(title); + } + if (action) { + delete action; + } + firstRef.free(); + lastRef.free(); + nextRef.free(); +} + +GList *OutlineItem::readItemList(Object *firstItemRef, Object *lastItemRef, + XRef *xrefA) { + GList *items; + OutlineItem *item; + Object obj; + Object *p; + + items = new GList(); + p = firstItemRef; + while (p->isRef()) { + if (!p->fetch(xrefA, &obj)->isDict()) { + obj.free(); + break; + } + item = new OutlineItem(obj.getDict(), xrefA); + obj.free(); + items->append(item); + if (p->getRef().num == lastItemRef->getRef().num && + p->getRef().gen == lastItemRef->getRef().gen) { + break; + } + p = &item->nextRef; + } + return items; +} + +void OutlineItem::open() { + if (!kids) { + kids = readItemList(&firstRef, &lastRef, xref); + } +} + +void OutlineItem::close() { + if (kids) { + deleteGList(kids, OutlineItem); + kids = NULL; + } +} diff --git a/kpdf/xpdf/xpdf/Outline.h b/kpdf/xpdf/xpdf/Outline.h new file mode 100644 index 00000000..f38f8d16 --- /dev/null +++ b/kpdf/xpdf/xpdf/Outline.h @@ -0,0 +1,76 @@ +//======================================================================== +// +// Outline.h +// +// Copyright 2002-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef OUTLINE_H +#define OUTLINE_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "Object.h" +#include "CharTypes.h" + +class GString; +class GList; +class XRef; +class LinkAction; + +//------------------------------------------------------------------------ + +class Outline { +public: + + Outline(Object *outlineObj, XRef *xref); + ~Outline(); + + GList *getItems() { return items; } + +private: + + GList *items; // NULL if document has no outline + // [OutlineItem] +}; + +//------------------------------------------------------------------------ + +class OutlineItem { +public: + + OutlineItem(Dict *dict, XRef *xrefA); + ~OutlineItem(); + + static GList *readItemList(Object *firstItemRef, Object *lastItemRef, + XRef *xrefA); + + void open(); + void close(); + + Unicode *getTitle() { return title; } + int getTitleLength() { return titleLen; } + LinkAction *getAction() { return action; } + GBool isOpen() { return startsOpen; } + GBool hasKids() { return firstRef.isRef(); } + GList *getKids() { return kids; } + +private: + + XRef *xref; + Unicode *title; + int titleLen; + LinkAction *action; + Object firstRef; + Object lastRef; + Object nextRef; + GBool startsOpen; + GList *kids; // NULL unless this item is open [OutlineItem] +}; + +#endif diff --git a/kpdf/xpdf/xpdf/OutputDev.cc b/kpdf/xpdf/xpdf/OutputDev.cc new file mode 100644 index 00000000..3ba19973 --- /dev/null +++ b/kpdf/xpdf/xpdf/OutputDev.cc @@ -0,0 +1,131 @@ +//======================================================================== +// +// OutputDev.cc +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include "Object.h" +#include "Stream.h" +#include "GfxState.h" +#include "OutputDev.h" + +//------------------------------------------------------------------------ +// OutputDev +//------------------------------------------------------------------------ + +void OutputDev::setDefaultCTM(double *ctm) { + int i; + double det; + + for (i = 0; i < 6; ++i) { + defCTM[i] = ctm[i]; + } + det = 1 / (defCTM[0] * defCTM[3] - defCTM[1] * defCTM[2]); + defICTM[0] = defCTM[3] * det; + defICTM[1] = -defCTM[1] * det; + defICTM[2] = -defCTM[2] * det; + defICTM[3] = defCTM[0] * det; + defICTM[4] = (defCTM[2] * defCTM[5] - defCTM[3] * defCTM[4]) * det; + defICTM[5] = (defCTM[1] * defCTM[4] - defCTM[0] * defCTM[5]) * det; +} + +void OutputDev::cvtDevToUser(double dx, double dy, double *ux, double *uy) { + *ux = defICTM[0] * dx + defICTM[2] * dy + defICTM[4]; + *uy = defICTM[1] * dx + defICTM[3] * dy + defICTM[5]; +} + +void OutputDev::cvtUserToDev(double ux, double uy, int *dx, int *dy) { + *dx = (int)(defCTM[0] * ux + defCTM[2] * uy + defCTM[4] + 0.5); + *dy = (int)(defCTM[1] * ux + defCTM[3] * uy + defCTM[5] + 0.5); +} + +void OutputDev::updateAll(GfxState *state) { + updateLineDash(state); + updateFlatness(state); + updateLineJoin(state); + updateLineCap(state); + updateMiterLimit(state); + updateLineWidth(state); + updateStrokeAdjust(state); + updateFillColorSpace(state); + updateFillColor(state); + updateStrokeColorSpace(state); + updateStrokeColor(state); + updateBlendMode(state); + updateFillOpacity(state); + updateStrokeOpacity(state); + updateFillOverprint(state); + updateStrokeOverprint(state); + updateTransfer(state); + updateFont(state); +} + +GBool OutputDev::beginType3Char(GfxState * /*state*/, double /*x*/, double /*y*/, + double /*dx*/, double /*dy*/, + CharCode /*code*/, Unicode * /*u*/, int /*uLen*/) { + return gFalse; +} + +void OutputDev::drawImageMask(GfxState * /*state*/, Object * /*ref*/, Stream *str, + int width, int height, GBool /*invert*/, + GBool inlineImg) { + int i, j; + + if (inlineImg) { + str->reset(); + j = height * ((width + 7) / 8); + for (i = 0; i < j; ++i) + str->getChar(); + str->close(); + } +} + +void OutputDev::drawImage(GfxState * /*state*/, Object * /*ref*/, Stream *str, + int width, int height, GfxImageColorMap *colorMap, + int * /*maskColors*/, GBool inlineImg) { + int i, j; + + if (inlineImg) { + str->reset(); + j = height * ((width * colorMap->getNumPixelComps() * + colorMap->getBits() + 7) / 8); + for (i = 0; i < j; ++i) + str->getChar(); + str->close(); + } +} + +void OutputDev::drawMaskedImage(GfxState *state, Object *ref, Stream *str, + int width, int height, + GfxImageColorMap *colorMap, + Stream * /*maskStr*/, + int /*maskWidth*/, int /*maskHeight*/, + GBool /*maskInvert*/) { + drawImage(state, ref, str, width, height, colorMap, NULL, gFalse); +} + +void OutputDev::drawSoftMaskedImage(GfxState *state, Object *ref, Stream *str, + int width, int height, + GfxImageColorMap *colorMap, + Stream * /*maskStr*/, + int /*maskWidth*/, int /*maskHeight*/, + GfxImageColorMap * /*maskColorMap*/) { + drawImage(state, ref, str, width, height, colorMap, NULL, gFalse); +} + +#if OPI_SUPPORT +void OutputDev::opiBegin(GfxState *state, Dict *opiDict) { +} + +void OutputDev::opiEnd(GfxState *state, Dict *opiDict) { +} +#endif diff --git a/kpdf/xpdf/xpdf/OutputDev.h b/kpdf/xpdf/xpdf/OutputDev.h new file mode 100644 index 00000000..a4ee37b1 --- /dev/null +++ b/kpdf/xpdf/xpdf/OutputDev.h @@ -0,0 +1,250 @@ +//======================================================================== +// +// OutputDev.h +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef OUTPUTDEV_H +#define OUTPUTDEV_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" +#include "CharTypes.h" + +class GString; +class GfxState; +struct GfxColor; +class GfxColorSpace; +class GfxImageColorMap; +class GfxFunctionShading; +class GfxAxialShading; +class GfxRadialShading; +class Stream; +class Links; +class Link; +class Catalog; +class Page; +class Function; + +//------------------------------------------------------------------------ +// OutputDev +//------------------------------------------------------------------------ + +class OutputDev { +public: + + // Constructor. + OutputDev() {} + + // Destructor. + virtual ~OutputDev() {} + + //----- get info about output device + + // Does this device use upside-down coordinates? + // (Upside-down means (0,0) is the top left corner of the page.) + virtual GBool upsideDown() = 0; + + // Does this device use drawChar() or drawString()? + virtual GBool useDrawChar() = 0; + + // Does this device use tilingPatternFill()? If this returns false, + // tiling pattern fills will be reduced to a series of other drawing + // operations. + virtual GBool useTilingPatternFill() { return gFalse; } + + // Does this device use functionShadedFill(), axialShadedFill(), and + // radialShadedFill()? If this returns false, these shaded fills + // will be reduced to a series of other drawing operations. + virtual GBool useShadedFills() { return gFalse; } + + // Does this device use drawForm()? If this returns false, + // form-type XObjects will be interpreted (i.e., unrolled). + virtual GBool useDrawForm() { return gFalse; } + + // Does this device use beginType3Char/endType3Char? Otherwise, + // text in Type 3 fonts will be drawn with drawChar/drawString. + virtual GBool interpretType3Chars() = 0; + + // Does this device need non-text content? + virtual GBool needNonText() { return gTrue; } + + //----- initialization and control + + // Set default transform matrix. + virtual void setDefaultCTM(double *ctm); + + // Check to see if a page slice should be displayed. If this + // returns false, the page display is aborted. Typically, an + // OutputDev will use some alternate means to display the page + // before returning false. + virtual GBool checkPageSlice(Page * /*page*/, double /*hDPI*/, double /*vDPI*/, + int /*rotate*/, GBool /*useMediaBox*/, GBool /*crop*/, + int /*sliceX*/, int /*sliceY*/, int /*sliceW*/, int /*sliceH*/, + GBool /*printing*/, Catalog * /*catalog*/, + GBool (* /*abortCheckCbk*/)(void *data) = NULL, + void * /*abortCheckCbkData*/ = NULL) + { return gTrue; } + + // Start a page. + virtual void startPage(int /*pageNum*/, GfxState * /*state*/) {} + + // End a page. + virtual void endPage() {} + + // Dump page contents to display. + virtual void dump() {} + + //----- coordinate conversion + + // Convert between device and user coordinates. + virtual void cvtDevToUser(double dx, double dy, double *ux, double *uy); + virtual void cvtUserToDev(double ux, double uy, int *dx, int *dy); + + double *getDefCTM() { return defCTM; } + double *getDefICTM() { return defICTM; } + + //----- save/restore graphics state + virtual void saveState(GfxState * /*state*/) {} + virtual void restoreState(GfxState * /*state*/) {} + + //----- update graphics state + virtual void updateAll(GfxState *state); + virtual void updateCTM(GfxState * /*state*/, double /*m11*/, double /*m12*/, + double /*m21*/, double /*m22*/, double /*m31*/, double /*m32*/) {} + virtual void updateLineDash(GfxState * /*state*/) {} + virtual void updateFlatness(GfxState * /*state*/) {} + virtual void updateLineJoin(GfxState * /*state*/) {} + virtual void updateLineCap(GfxState * /*state*/) {} + virtual void updateMiterLimit(GfxState * /*state*/) {} + virtual void updateLineWidth(GfxState * /*state*/) {} + virtual void updateStrokeAdjust(GfxState * /*state*/) {} + virtual void updateFillColorSpace(GfxState * /*state*/) {} + virtual void updateStrokeColorSpace(GfxState * /*state*/) {} + virtual void updateFillColor(GfxState * /*state*/) {} + virtual void updateStrokeColor(GfxState * /*state*/) {} + virtual void updateBlendMode(GfxState * /*state*/) {} + virtual void updateFillOpacity(GfxState * /*state*/) {} + virtual void updateStrokeOpacity(GfxState * /*state*/) {} + virtual void updateFillOverprint(GfxState * /*state*/) {} + virtual void updateStrokeOverprint(GfxState * /*state*/) {} + virtual void updateTransfer(GfxState * /*state*/) {} + + //----- update text state + virtual void updateFont(GfxState * /*state*/) {} + virtual void updateTextMat(GfxState * /*state*/) {} + virtual void updateCharSpace(GfxState * /*state*/) {} + virtual void updateRender(GfxState * /*state*/) {} + virtual void updateRise(GfxState * /*state*/) {} + virtual void updateWordSpace(GfxState * /*state*/) {} + virtual void updateHorizScaling(GfxState * /*state*/) {} + virtual void updateTextPos(GfxState * /*state*/) {} + virtual void updateTextShift(GfxState * /*state*/, double /*shift*/) {} + + //----- path painting + virtual void stroke(GfxState * /*state*/) {} + virtual void fill(GfxState * /*state*/) {} + virtual void eoFill(GfxState * /*state*/) {} + virtual void tilingPatternFill(GfxState * /*state*/, Object * /*str*/, + int /*paintType*/, Dict * /*resDict*/, + double * /*mat*/, double * /*bbox*/, + int /*x0*/, int /*y0*/, int /*x1*/, int /*y1*/, + double /*xStep*/, double /*yStep*/) {} + virtual GBool functionShadedFill(GfxState * /*state*/, + GfxFunctionShading * /*shading*/) + { return gFalse; } + virtual GBool axialShadedFill(GfxState * /*state*/, GfxAxialShading * /*shading*/) + { return gFalse; } + virtual GBool radialShadedFill(GfxState * /*state*/, GfxRadialShading * /*shading*/) + { return gFalse; } + + //----- path clipping + virtual void clip(GfxState * /*state*/) {} + virtual void eoClip(GfxState * /*state*/) {} + virtual void clipToStrokePath(GfxState * /*state*/) {} + + //----- text drawing + virtual void beginStringOp(GfxState * /*state*/) {} + virtual void endStringOp(GfxState * /*state*/) {} + virtual void beginString(GfxState * /*state*/, GString * /*s*/) {} + virtual void endString(GfxState * /*state*/) {} + virtual void drawChar(GfxState * /*state*/, double /*x*/, double /*y*/, + double /*dx*/, double /*dy*/, + double /*originX*/, double /*originY*/, + CharCode /*code*/, int /*nBytes*/, Unicode * /*u*/, int /*uLen*/) {} + virtual void drawString(GfxState * /*state*/, GString * /*s*/) {} + virtual GBool beginType3Char(GfxState *state, double x, double y, + double dx, double dy, + CharCode code, Unicode *u, int uLen); + virtual void endType3Char(GfxState * /*state*/) {} + virtual void endTextObject(GfxState * /*state*/) {} + + //----- image drawing + virtual void drawImageMask(GfxState *state, Object *ref, Stream *str, + int width, int height, GBool invert, + GBool inlineImg); + virtual void drawImage(GfxState *state, Object *ref, Stream *str, + int width, int height, GfxImageColorMap *colorMap, + int *maskColors, GBool inlineImg); + virtual void drawMaskedImage(GfxState *state, Object *ref, Stream *str, + int width, int height, + GfxImageColorMap *colorMap, + Stream *maskStr, int maskWidth, int maskHeight, + GBool maskInvert); + virtual void drawSoftMaskedImage(GfxState *state, Object *ref, Stream *str, + int width, int height, + GfxImageColorMap *colorMap, + Stream *maskStr, + int maskWidth, int maskHeight, + GfxImageColorMap *maskColorMap); + +#if OPI_SUPPORT + //----- OPI functions + virtual void opiBegin(GfxState *state, Dict *opiDict); + virtual void opiEnd(GfxState *state, Dict *opiDict); +#endif + + //----- Type 3 font operators + virtual void type3D0(GfxState * /*state*/, double /*wx*/, double /*wy*/) {} + virtual void type3D1(GfxState * /*state*/, double /*wx*/, double /*wy*/, + double /*llx*/, double /*lly*/, double /*urx*/, double /*ury*/) {} + + //----- form XObjects + virtual void drawForm(Ref /*id*/) {} + + //----- PostScript XObjects + virtual void psXObject(Stream * /*psStream*/, Stream * /*level1Stream*/) {} + + //----- transparency groups and soft masks + virtual void beginTransparencyGroup(GfxState * /*state*/, double * /*bbox*/, + GfxColorSpace * /*blendingColorSpace*/, + GBool /*isolated*/, GBool /*knockout*/, + GBool /*forSoftMask*/) {} + virtual void endTransparencyGroup(GfxState * /*state*/) {} + virtual void paintTransparencyGroup(GfxState * /*state*/, double * /*bbox*/) {} + virtual void setSoftMask(GfxState * /*state*/, double * /*bbox*/, GBool /*alpha*/, + Function * /*transferFunc*/, GfxColor * /*backdropColor*/) {} + virtual void clearSoftMask(GfxState * /*state*/) {} + + //----- links + virtual void processLink(Link * /*link*/, Catalog * /*catalog*/) {} + +#if 1 //~tmp: turn off anti-aliasing temporarily + virtual GBool getVectorAntialias() { return gFalse; } + virtual void setVectorAntialias(GBool /*vaa*/) {} +#endif + +private: + + double defCTM[6]; // default coordinate transform matrix + double defICTM[6]; // inverse of default CTM +}; + +#endif diff --git a/kpdf/xpdf/xpdf/PDFDoc.cc b/kpdf/xpdf/xpdf/PDFDoc.cc new file mode 100644 index 00000000..dc24d97e --- /dev/null +++ b/kpdf/xpdf/xpdf/PDFDoc.cc @@ -0,0 +1,433 @@ +//======================================================================== +// +// PDFDoc.cc +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include +#include +#ifdef WIN32 +# include +#endif +#include "GString.h" +#include "config.h" +#include "GlobalParams.h" +#include "Page.h" +#include "Catalog.h" +#include "Stream.h" +#include "XRef.h" +#include "Link.h" +#include "OutputDev.h" +#include "Error.h" +#include "ErrorCodes.h" +#include "Lexer.h" +#include "Parser.h" +#include "SecurityHandler.h" +#ifndef DISABLE_OUTLINE +#include "Outline.h" +#endif +#include "PDFDoc.h" + +//------------------------------------------------------------------------ + +#define headerSearchSize 1024 // read this many bytes at beginning of + // file to look for '%PDF' + +//------------------------------------------------------------------------ +// PDFDoc +//------------------------------------------------------------------------ + +PDFDoc::PDFDoc(GString *fileNameA, GString *ownerPassword, + GString *userPassword, void *guiDataA) { + Object obj; + GString *fileName1, *fileName2; + + ok = gFalse; + errCode = errNone; + + guiData = guiDataA; + + file = NULL; + str = NULL; + xref = NULL; + catalog = NULL; +#ifndef DISABLE_OUTLINE + outline = NULL; +#endif + + fileName = fileNameA; + fileName1 = fileName; + + + // try to open file + fileName2 = NULL; +#ifdef VMS + if (!(file = fopen(fileName1->getCString(), "rb", "ctx=stm"))) { + error(-1, "Couldn't open file '%s'", fileName1->getCString()); + errCode = errOpenFile; + return; + } +#else + if (!(file = fopen(fileName1->getCString(), "rb"))) { + fileName2 = fileName->copy(); + fileName2->lowerCase(); + if (!(file = fopen(fileName2->getCString(), "rb"))) { + fileName2->upperCase(); + if (!(file = fopen(fileName2->getCString(), "rb"))) { + error(-1, "Couldn't open file '%s'", fileName->getCString()); + delete fileName2; + errCode = errOpenFile; + return; + } + } + delete fileName2; + } +#endif + + // create stream + obj.initNull(); + str = new FileStream(file, 0, gFalse, 0, &obj); + + ok = setup(ownerPassword, userPassword); +} + +#ifdef WIN32 +PDFDoc::PDFDoc(wchar_t *fileNameA, int fileNameLen, GString *ownerPassword, + GString *userPassword, void *guiDataA) { + OSVERSIONINFO version; + wchar_t fileName2[_MAX_PATH + 1]; + Object obj; + int i; + + ok = gFalse; + errCode = errNone; + + guiData = guiDataA; + + file = NULL; + str = NULL; + xref = NULL; + catalog = NULL; +#ifndef DISABLE_OUTLINE + outline = NULL; +#endif + + //~ file name should be stored in Unicode (?) + fileName = new GString(); + for (i = 0; i < fileNameLen; ++i) { + fileName->append((char)fileNameA[i]); + } + + // zero-terminate the file name string + for (i = 0; i < fileNameLen && i < _MAX_PATH; ++i) { + fileName2[i] = fileNameA[i]; + } + fileName2[i] = 0; + + // try to open file + // NB: _wfopen is only available in NT + version.dwOSVersionInfoSize = sizeof(version); + GetVersionEx(&version); + if (version.dwPlatformId == VER_PLATFORM_WIN32_NT) { + file = _wfopen(fileName2, L"rb"); + } else { + file = fopen(fileName->getCString(), "rb"); + } + if (!file) { + error(-1, "Couldn't open file '%s'", fileName->getCString()); + errCode = errOpenFile; + return; + } + + // create stream + obj.initNull(); + str = new FileStream(file, 0, gFalse, 0, &obj); + + ok = setup(ownerPassword, userPassword); +} +#endif + +PDFDoc::PDFDoc(BaseStream *strA, GString *ownerPassword, + GString *userPassword, void *guiDataA) { + ok = gFalse; + errCode = errNone; + guiData = guiDataA; + if (strA->getFileName()) { + fileName = strA->getFileName()->copy(); + } else { + fileName = NULL; + } + file = NULL; + str = strA; + xref = NULL; + catalog = NULL; +#ifndef DISABLE_OUTLINE + outline = NULL; +#endif + ok = setup(ownerPassword, userPassword); +} + +GBool PDFDoc::setup(GString *ownerPassword, GString *userPassword) { + str->reset(); + + char *eof = new char[1025]; + int pos = str->getPos(); + str->setPos(1024, -1); + int i, ch; + for (i = 0; i < 1024; i++) + { + ch = str->getChar(); + if (ch == EOF) + break; + eof[i] = ch; + } + eof[i] = '\0'; + + bool found = false; + for (i = i - 5; i >= 0; i--) { + if (strncmp (&eof[i], "%%EOF", 5) == 0) { + found = true; + break; + } + } + if (!found) + { + error(-1, "Document does not have ending %%EOF"); + errCode = errDamaged; + delete[] eof; + return gFalse; + } + delete[] eof; + + str->setPos(pos); + + // check header + checkHeader(); + + // read xref table + xref = new XRef(str); + if (!xref->isOk()) { + error(-1, "Couldn't read xref table"); + errCode = xref->getErrorCode(); + return gFalse; + } + + // check for encryption + if (!checkEncryption(ownerPassword, userPassword)) { + errCode = errEncrypted; + return gFalse; + } + + // read catalog + catalog = new Catalog(xref); + if (!catalog->isOk()) { + error(-1, "Couldn't read page catalog"); + errCode = errBadCatalog; + return gFalse; + } + +#ifndef DISABLE_OUTLINE + // read outline + outline = new Outline(catalog->getOutline(), xref); +#endif + + // done + return gTrue; +} + +PDFDoc::~PDFDoc() { +#ifndef DISABLE_OUTLINE + if (outline) { + delete outline; + } +#endif + if (catalog) { + delete catalog; + } + if (xref) { + delete xref; + } + if (str) { + delete str; + } + if (file) { + fclose(file); + } + if (fileName) { + delete fileName; + } +} + +// Check for a PDF header on this stream. Skip past some garbage +// if necessary. +void PDFDoc::checkHeader() { + char hdrBuf[headerSearchSize+1]; + char *p; + int i; + + pdfVersion = 0; + for (i = 0; i < headerSearchSize; ++i) { + hdrBuf[i] = str->getChar(); + } + hdrBuf[headerSearchSize] = '\0'; + for (i = 0; i < headerSearchSize - 5; ++i) { + if (!strncmp(&hdrBuf[i], "%PDF-", 5)) { + break; + } + } + if (i >= headerSearchSize - 5) { + error(-1, "May not be a PDF file (continuing anyway)"); + return; + } + str->moveStart(i); + if (!(p = strtok(&hdrBuf[i+5], " \t\n\r"))) { + error(-1, "May not be a PDF file (continuing anyway)"); + return; + } + pdfVersion = atof(p); + if (!(hdrBuf[i+5] >= '0' && hdrBuf[i+5] <= '9') || + pdfVersion > supportedPDFVersionNum + 0.0001) { + error(-1, "PDF version %s -- xpdf supports version %s" + " (continuing anyway)", p, supportedPDFVersionStr); + } +} + +GBool PDFDoc::checkEncryption(GString *ownerPassword, GString *userPassword) { + Object encrypt; + GBool encrypted; + SecurityHandler *secHdlr; + GBool ret; + + xref->getTrailerDict()->dictLookup("Encrypt", &encrypt); + if ((encrypted = encrypt.isDict())) { + if ((secHdlr = SecurityHandler::make(this, &encrypt))) { + if (secHdlr->checkEncryption(ownerPassword, userPassword)) { + // authorization succeeded + xref->setEncryption(secHdlr->getPermissionFlags(), + secHdlr->getOwnerPasswordOk(), + secHdlr->getFileKey(), + secHdlr->getFileKeyLength(), + secHdlr->getEncVersion(), + secHdlr->getEncAlgorithm()); + ret = gTrue; + } else { + // authorization failed + ret = gFalse; + } + delete secHdlr; + } else { + // couldn't find the matching security handler + ret = gFalse; + } + } else { + // document is not encrypted + ret = gTrue; + } + encrypt.free(); + return ret; +} + +void PDFDoc::displayPage(OutputDev *out, int page, + double hDPI, double vDPI, int rotate, + GBool useMediaBox, GBool crop, GBool printing, + GBool (*abortCheckCbk)(void *data), + void *abortCheckCbkData) { + if (globalParams->getPrintCommands()) { + printf("***** page %d *****\n", page); + } + catalog->getPage(page)->display(out, hDPI, vDPI, + rotate, useMediaBox, crop, printing, catalog, + abortCheckCbk, abortCheckCbkData); +} + +void PDFDoc::displayPages(OutputDev *out, int firstPage, int lastPage, + double hDPI, double vDPI, int rotate, + GBool useMediaBox, GBool crop, GBool printing, + GBool (*abortCheckCbk)(void *data), + void *abortCheckCbkData) { + int page; + + for (page = firstPage; page <= lastPage; ++page) { + displayPage(out, page, hDPI, vDPI, rotate, useMediaBox, crop, printing, + abortCheckCbk, abortCheckCbkData); + } +} + +void PDFDoc::displayPageSlice(OutputDev *out, int page, + double hDPI, double vDPI, int rotate, + GBool useMediaBox, GBool crop, GBool printing, + int sliceX, int sliceY, int sliceW, int sliceH, + GBool (*abortCheckCbk)(void *data), + void *abortCheckCbkData) { + catalog->getPage(page)->displaySlice(out, hDPI, vDPI, + rotate, useMediaBox, crop, + sliceX, sliceY, sliceW, sliceH, + printing, catalog, + abortCheckCbk, abortCheckCbkData); +} + +Links *PDFDoc::getLinks(int page) { + return catalog->getPage(page)->getLinks(catalog); +} + +void PDFDoc::processLinks(OutputDev *out, int page) { + catalog->getPage(page)->processLinks(out, catalog); +} + +GBool PDFDoc::isLinearized() { + Parser *parser; + Object obj1, obj2, obj3, obj4, obj5; + GBool lin; + + lin = gFalse; + obj1.initNull(); + parser = new Parser(xref, + new Lexer(xref, + str->makeSubStream(str->getStart(), gFalse, 0, &obj1)), + gTrue); + parser->getObj(&obj1); + parser->getObj(&obj2); + parser->getObj(&obj3); + parser->getObj(&obj4); + if (obj1.isInt() && obj2.isInt() && obj3.isCmd("obj") && + obj4.isDict()) { + obj4.dictLookup("Linearized", &obj5); + if (obj5.isNum() && obj5.getNum() > 0) { + lin = gTrue; + } + obj5.free(); + } + obj4.free(); + obj3.free(); + obj2.free(); + obj1.free(); + delete parser; + return lin; +} + +GBool PDFDoc::saveAs(GString *name) { + FILE *f; + int c; + + if (!(f = fopen(name->getCString(), "wb"))) { + error(-1, "Couldn't open file '%s'", name->getCString()); + return gFalse; + } + str->reset(); + while ((c = str->getChar()) != EOF) { + fputc(c, f); + } + str->close(); + fclose(f); + return gTrue; +} diff --git a/kpdf/xpdf/xpdf/PDFDoc.h b/kpdf/xpdf/xpdf/PDFDoc.h new file mode 100644 index 00000000..208b61ef --- /dev/null +++ b/kpdf/xpdf/xpdf/PDFDoc.h @@ -0,0 +1,183 @@ +//======================================================================== +// +// PDFDoc.h +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef PDFDOC_H +#define PDFDOC_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include +#include "XRef.h" +#include "Catalog.h" +#include "Page.h" + +class GString; +class BaseStream; +class OutputDev; +class Links; +class LinkAction; +class LinkDest; +class Outline; + +//------------------------------------------------------------------------ +// PDFDoc +//------------------------------------------------------------------------ + +class PDFDoc { +public: + + PDFDoc(GString *fileNameA, GString *ownerPassword = NULL, + GString *userPassword = NULL, void *guiDataA = NULL); +#ifdef WIN32 + PDFDoc(wchar_t *fileNameA, int fileNameLen, GString *ownerPassword = NULL, + GString *userPassword = NULL, void *guiDataA = NULL); +#endif + PDFDoc(BaseStream *strA, GString *ownerPassword = NULL, + GString *userPassword = NULL, void *guiDataA = NULL); + ~PDFDoc(); + + // Was PDF document successfully opened? + GBool isOk() { return ok; } + + // Get the error code (if isOk() returns false). + int getErrorCode() { return errCode; } + + // Get file name. + GString *getFileName() { return fileName; } + + // Get the xref table. + XRef *getXRef() { return xref; } + + // Get catalog. + Catalog *getCatalog() { return catalog; } + + // Get base stream. + BaseStream *getBaseStream() { return str; } + + // Get page parameters. + double getPageMediaWidth(int page) + { return catalog->getPage(page)->getMediaWidth(); } + double getPageMediaHeight(int page) + { return catalog->getPage(page)->getMediaHeight(); } + double getPageCropWidth(int page) + { return catalog->getPage(page)->getCropWidth(); } + double getPageCropHeight(int page) + { return catalog->getPage(page)->getCropHeight(); } + int getPageRotate(int page) + { return catalog->getPage(page)->getRotate(); } + + // Get number of pages. + int getNumPages() { return catalog->getNumPages(); } + + // Return the contents of the metadata stream, or NULL if there is + // no metadata. + GString *readMetadata() { return catalog->readMetadata(); } + + // Return the structure tree root object. + Object *getStructTreeRoot() { return catalog->getStructTreeRoot(); } + + // Display a page. + void displayPage(OutputDev *out, int page, + double hDPI, double vDPI, int rotate, + GBool useMediaBox, GBool crop, GBool printing, + GBool (*abortCheckCbk)(void *data) = NULL, + void *abortCheckCbkData = NULL); + + // Display a range of pages. + void displayPages(OutputDev *out, int firstPage, int lastPage, + double hDPI, double vDPI, int rotate, + GBool useMediaBox, GBool crop, GBool printing, + GBool (*abortCheckCbk)(void *data) = NULL, + void *abortCheckCbkData = NULL); + + // Display part of a page. + void displayPageSlice(OutputDev *out, int page, + double hDPI, double vDPI, int rotate, + GBool useMediaBox, GBool crop, GBool printing, + int sliceX, int sliceY, int sliceW, int sliceH, + GBool (*abortCheckCbk)(void *data) = NULL, + void *abortCheckCbkData = NULL); + + // Find a page, given its object ID. Returns page number, or 0 if + // not found. + int findPage(int num, int gen) { return catalog->findPage(num, gen); } + + // Returns the links for the current page, transferring ownership to + // the caller. + Links *getLinks(int page); + + // Find a named destination. Returns the link destination, or + // NULL if is not a destination. + LinkDest *findDest(GString *name) + { return catalog->findDest(name); } + + // Process the links for a page. + void processLinks(OutputDev *out, int page); + +#ifndef DISABLE_OUTLINE + // Return the outline object. + Outline *getOutline() { return outline; } +#endif + + // Is the file encrypted? + GBool isEncrypted() { return xref->isEncrypted(); } + + // Check various permissions. + GBool okToPrint(GBool ignoreOwnerPW = gFalse) + { return xref->okToPrint(ignoreOwnerPW); } + GBool okToChange(GBool ignoreOwnerPW = gFalse) + { return xref->okToChange(ignoreOwnerPW); } + GBool okToCopy(GBool ignoreOwnerPW = gFalse) + { return xref->okToCopy(ignoreOwnerPW); } + GBool okToAddNotes(GBool ignoreOwnerPW = gFalse) + { return xref->okToAddNotes(ignoreOwnerPW); } + + // Is this document linearized? + GBool isLinearized(); + + // Return the document's Info dictionary (if any). + Object *getDocInfo(Object *obj) { return xref->getDocInfo(obj); } + Object *getDocInfoNF(Object *obj) { return xref->getDocInfoNF(obj); } + + // Return the PDF version specified by the file. + double getPDFVersion() { return pdfVersion; } + + // Save this file with another name. + GBool saveAs(GString *name); + + // Return a pointer to the GUI (XPDFCore or WinPDFCore object). + void *getGUIData() { return guiData; } + + +private: + + GBool setup(GString *ownerPassword, GString *userPassword); + void checkHeader(); + GBool checkEncryption(GString *ownerPassword, GString *userPassword); + + GString *fileName; + FILE *file; + BaseStream *str; + void *guiData; + double pdfVersion; + XRef *xref; + Catalog *catalog; +#ifndef DISABLE_OUTLINE + Outline *outline; +#endif + + + GBool ok; + int errCode; +}; + +#endif diff --git a/kpdf/xpdf/xpdf/PDFDocEncoding.cc b/kpdf/xpdf/xpdf/PDFDocEncoding.cc new file mode 100644 index 00000000..89dc3828 --- /dev/null +++ b/kpdf/xpdf/xpdf/PDFDocEncoding.cc @@ -0,0 +1,44 @@ +//======================================================================== +// +// PDFDocEncoding.h +// +// Copyright 2002-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include "PDFDocEncoding.h" + +Unicode pdfDocEncoding[256] = { + 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, // 00 + 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, + 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, // 10 + 0x02d8, 0x02c7, 0x02c6, 0x02d9, 0x02dd, 0x02db, 0x02da, 0x02dc, + 0x0020, 0x0021, 0x0022, 0x0023, 0x0024, 0x0025, 0x0026, 0x0027, // 20 + 0x0028, 0x0029, 0x002a, 0x002b, 0x002c, 0x002d, 0x002e, 0x002f, + 0x0030, 0x0031, 0x0032, 0x0033, 0x0034, 0x0035, 0x0036, 0x0037, // 30 + 0x0038, 0x0039, 0x003a, 0x003b, 0x003c, 0x003d, 0x003e, 0x003f, + 0x0040, 0x0041, 0x0042, 0x0043, 0x0044, 0x0045, 0x0046, 0x0047, // 40 + 0x0048, 0x0049, 0x004a, 0x004b, 0x004c, 0x004d, 0x004e, 0x004f, + 0x0050, 0x0051, 0x0052, 0x0053, 0x0054, 0x0055, 0x0056, 0x0057, // 50 + 0x0058, 0x0059, 0x005a, 0x005b, 0x005c, 0x005d, 0x005e, 0x005f, + 0x0060, 0x0061, 0x0062, 0x0063, 0x0064, 0x0065, 0x0066, 0x0067, // 60 + 0x0068, 0x0069, 0x006a, 0x006b, 0x006c, 0x006d, 0x006e, 0x006f, + 0x0070, 0x0071, 0x0072, 0x0073, 0x0074, 0x0075, 0x0076, 0x0077, // 70 + 0x0078, 0x0079, 0x007a, 0x007b, 0x007c, 0x007d, 0x007e, 0x0000, + 0x2022, 0x2020, 0x2021, 0x2026, 0x2014, 0x2013, 0x0192, 0x2044, // 80 + 0x2039, 0x203a, 0x2212, 0x2030, 0x201e, 0x201c, 0x201d, 0x2018, + 0x2019, 0x201a, 0x2122, 0xfb01, 0xfb02, 0x0141, 0x0152, 0x0160, // 90 + 0x0178, 0x017d, 0x0131, 0x0142, 0x0153, 0x0161, 0x017e, 0x0000, + 0x20ac, 0x00a1, 0x00a2, 0x00a3, 0x00a4, 0x00a5, 0x00a6, 0x00a7, // a0 + 0x00a8, 0x00a9, 0x00aa, 0x00ab, 0x00ac, 0x0000, 0x00ae, 0x00af, + 0x00b0, 0x00b1, 0x00b2, 0x00b3, 0x00b4, 0x00b5, 0x00b6, 0x00b7, // b0 + 0x00b8, 0x00b9, 0x00ba, 0x00bb, 0x00bc, 0x00bd, 0x00be, 0x00bf, + 0x00c0, 0x00c1, 0x00c2, 0x00c3, 0x00c4, 0x00c5, 0x00c6, 0x00c7, // c0 + 0x00c8, 0x00c9, 0x00ca, 0x00cb, 0x00cc, 0x00cd, 0x00ce, 0x00cf, + 0x00d0, 0x00d1, 0x00d2, 0x00d3, 0x00d4, 0x00d5, 0x00d6, 0x00d7, // d0 + 0x00d8, 0x00d9, 0x00da, 0x00db, 0x00dc, 0x00dd, 0x00de, 0x00df, + 0x00e0, 0x00e1, 0x00e2, 0x00e3, 0x00e4, 0x00e5, 0x00e6, 0x00e7, // e0 + 0x00e8, 0x00e9, 0x00ea, 0x00eb, 0x00ec, 0x00ed, 0x00ee, 0x00ef, + 0x00f0, 0x00f1, 0x00f2, 0x00f3, 0x00f4, 0x00f5, 0x00f6, 0x00f7, // f0 + 0x00f8, 0x00f9, 0x00fa, 0x00fb, 0x00fc, 0x00fd, 0x00fe, 0x00ff +}; diff --git a/kpdf/xpdf/xpdf/PDFDocEncoding.h b/kpdf/xpdf/xpdf/PDFDocEncoding.h new file mode 100644 index 00000000..3259d3e1 --- /dev/null +++ b/kpdf/xpdf/xpdf/PDFDocEncoding.h @@ -0,0 +1,16 @@ +//======================================================================== +// +// PDFDocEncoding.h +// +// Copyright 2002-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef PDFDOCENCODING_H +#define PDFDOCENCODING_H + +#include "CharTypes.h" + +extern Unicode pdfDocEncoding[256]; + +#endif diff --git a/kpdf/xpdf/xpdf/PSOutputDev.cc b/kpdf/xpdf/xpdf/PSOutputDev.cc new file mode 100644 index 00000000..d35739a5 --- /dev/null +++ b/kpdf/xpdf/xpdf/PSOutputDev.cc @@ -0,0 +1,6307 @@ +//======================================================================== +// +// PSOutputDev.cc +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include +#include +#include +#include "GString.h" +#include "GList.h" +#include "config.h" +#include "GlobalParams.h" +#include "Object.h" +#include "Error.h" +#include "Function.h" +#include "Gfx.h" +#include "GfxState.h" +#include "GfxFont.h" +#include "UnicodeMap.h" +#include "FoFiType1C.h" +#include "FoFiTrueType.h" +#include "Catalog.h" +#include "Page.h" +#include "Stream.h" +#include "Annot.h" +#include "XRef.h" +#include "PreScanOutputDev.h" +#if HAVE_SPLASH +# include "Splash.h" +# include "SplashBitmap.h" +# include "SplashOutputDev.h" +#endif +#include "PSOutputDev.h" + +#ifdef MACOS +// needed for setting type/creator of MacOS files +#include "ICSupport.h" +#endif + +// the MSVC math.h doesn't define this +#ifndef M_PI +#define M_PI 3.14159265358979323846 +#endif + +//------------------------------------------------------------------------ + +// Resolution at which pages with transparency will be rasterized. +#define splashDPI 300 + +//------------------------------------------------------------------------ +// PostScript prolog and setup +//------------------------------------------------------------------------ + +// The '~' escapes mark prolog code that is emitted only in certain +// levels: +// +// ~[123][sn] +// ^ ^----- s=psLevel*Sep, n=psLevel* +// +----- 1=psLevel1*, 2=psLevel2*, 3=psLevel3* + +static char *prolog[] = { + "/xpdf 75 dict def xpdf begin", + "% PDF special state", + "/pdfDictSize 15 def", + "~1sn", + "/pdfStates 64 array def", + " 0 1 63 {", + " pdfStates exch pdfDictSize dict", + " dup /pdfStateIdx 3 index put", + " put", + " } for", + "~123sn", + "/pdfSetup {", + " 3 1 roll 2 array astore", + " /setpagedevice where {", + " pop 3 dict begin", + " /PageSize exch def", + " /ImagingBBox null def", + " /Policies 1 dict dup begin /PageSize 3 def end def", + " { /Duplex true def } if", + " currentdict end setpagedevice", + " } {", + " pop pop", + " } ifelse", + "} def", + "~1sn", + "/pdfOpNames [", + " /pdfFill /pdfStroke /pdfLastFill /pdfLastStroke", + " /pdfTextMat /pdfFontSize /pdfCharSpacing /pdfTextRender", + " /pdfTextRise /pdfWordSpacing /pdfHorizScaling /pdfTextClipPath", + "] def", + "~123sn", + "/pdfStartPage {", + "~1sn", + " pdfStates 0 get begin", + "~23sn", + " pdfDictSize dict begin", + "~23n", + " /pdfFillCS [] def", + " /pdfFillXform {} def", + " /pdfStrokeCS [] def", + " /pdfStrokeXform {} def", + "~1n", + " /pdfFill 0 def", + " /pdfStroke 0 def", + "~1s", + " /pdfFill [0 0 0 1] def", + " /pdfStroke [0 0 0 1] def", + "~23sn", + " /pdfFill [0] def", + " /pdfStroke [0] def", + " /pdfFillOP false def", + " /pdfStrokeOP false def", + "~123sn", + " /pdfLastFill false def", + " /pdfLastStroke false def", + " /pdfTextMat [1 0 0 1 0 0] def", + " /pdfFontSize 0 def", + " /pdfCharSpacing 0 def", + " /pdfTextRender 0 def", + " /pdfTextRise 0 def", + " /pdfWordSpacing 0 def", + " /pdfHorizScaling 1 def", + " /pdfTextClipPath [] def", + "} def", + "/pdfEndPage { end } def", + "~23s", + "% separation convention operators", + "/findcmykcustomcolor where {", + " pop", + "}{", + " /findcmykcustomcolor { 5 array astore } def", + "} ifelse", + "/setcustomcolor where {", + " pop", + "}{", + " /setcustomcolor {", + " exch", + " [ exch /Separation exch dup 4 get exch /DeviceCMYK exch", + " 0 4 getinterval cvx", + " [ exch /dup load exch { mul exch dup } /forall load", + " /pop load dup ] cvx", + " ] setcolorspace setcolor", + " } def", + "} ifelse", + "/customcolorimage where {", + " pop", + "}{", + " /customcolorimage {", + " gsave", + " [ exch /Separation exch dup 4 get exch /DeviceCMYK exch", + " 0 4 getinterval", + " [ exch /dup load exch { mul exch dup } /forall load", + " /pop load dup ] cvx", + " ] setcolorspace", + " 10 dict begin", + " /ImageType 1 def", + " /DataSource exch def", + " /ImageMatrix exch def", + " /BitsPerComponent exch def", + " /Height exch def", + " /Width exch def", + " /Decode [1 0] def", + " currentdict end", + " image", + " grestore", + " } def", + "} ifelse", + "~123sn", + "% PDF color state", + "~1n", + "/g { dup /pdfFill exch def setgray", + " /pdfLastFill true def /pdfLastStroke false def } def", + "/G { dup /pdfStroke exch def setgray", + " /pdfLastStroke true def /pdfLastFill false def } def", + "/fCol {", + " pdfLastFill not {", + " pdfFill setgray", + " /pdfLastFill true def /pdfLastStroke false def", + " } if", + "} def", + "/sCol {", + " pdfLastStroke not {", + " pdfStroke setgray", + " /pdfLastStroke true def /pdfLastFill false def", + " } if", + "} def", + "~1s", + "/k { 4 copy 4 array astore /pdfFill exch def setcmykcolor", + " /pdfLastFill true def /pdfLastStroke false def } def", + "/K { 4 copy 4 array astore /pdfStroke exch def setcmykcolor", + " /pdfLastStroke true def /pdfLastFill false def } def", + "/fCol {", + " pdfLastFill not {", + " pdfFill aload pop setcmykcolor", + " /pdfLastFill true def /pdfLastStroke false def", + " } if", + "} def", + "/sCol {", + " pdfLastStroke not {", + " pdfStroke aload pop setcmykcolor", + " /pdfLastStroke true def /pdfLastFill false def", + " } if", + "} def", + "~23n", + "/cs { /pdfFillXform exch def dup /pdfFillCS exch def", + " setcolorspace } def", + "/CS { /pdfStrokeXform exch def dup /pdfStrokeCS exch def", + " setcolorspace } def", + "/sc { pdfLastFill not { pdfFillCS setcolorspace } if", + " dup /pdfFill exch def aload pop pdfFillXform setcolor", + " /pdfLastFill true def /pdfLastStroke false def } def", + "/SC { pdfLastStroke not { pdfStrokeCS setcolorspace } if", + " dup /pdfStroke exch def aload pop pdfStrokeXform setcolor", + " /pdfLastStroke true def /pdfLastFill false def } def", + "/op { /pdfFillOP exch def", + " pdfLastFill { pdfFillOP setoverprint } if } def", + "/OP { /pdfStrokeOP exch def", + " pdfLastStroke { pdfStrokeOP setoverprint } if } def", + "/fCol {", + " pdfLastFill not {", + " pdfFillCS setcolorspace", + " pdfFill aload pop pdfFillXform setcolor", + " pdfFillOP setoverprint", + " /pdfLastFill true def /pdfLastStroke false def", + " } if", + "} def", + "/sCol {", + " pdfLastStroke not {", + " pdfStrokeCS setcolorspace", + " pdfStroke aload pop pdfStrokeXform setcolor", + " pdfStrokeOP setoverprint", + " /pdfLastStroke true def /pdfLastFill false def", + " } if", + "} def", + "~23s", + "/k { 4 copy 4 array astore /pdfFill exch def setcmykcolor", + " /pdfLastFill true def /pdfLastStroke false def } def", + "/K { 4 copy 4 array astore /pdfStroke exch def setcmykcolor", + " /pdfLastStroke true def /pdfLastFill false def } def", + "/ck { 6 copy 6 array astore /pdfFill exch def", + " findcmykcustomcolor exch setcustomcolor", + " /pdfLastFill true def /pdfLastStroke false def } def", + "/CK { 6 copy 6 array astore /pdfStroke exch def", + " findcmykcustomcolor exch setcustomcolor", + " /pdfLastStroke true def /pdfLastFill false def } def", + "/op { /pdfFillOP exch def", + " pdfLastFill { pdfFillOP setoverprint } if } def", + "/OP { /pdfStrokeOP exch def", + " pdfLastStroke { pdfStrokeOP setoverprint } if } def", + "/fCol {", + " pdfLastFill not {", + " pdfFill aload length 4 eq {", + " setcmykcolor", + " }{", + " findcmykcustomcolor exch setcustomcolor", + " } ifelse", + " pdfFillOP setoverprint", + " /pdfLastFill true def /pdfLastStroke false def", + " } if", + "} def", + "/sCol {", + " pdfLastStroke not {", + " pdfStroke aload length 4 eq {", + " setcmykcolor", + " }{", + " findcmykcustomcolor exch setcustomcolor", + " } ifelse", + " pdfStrokeOP setoverprint", + " /pdfLastStroke true def /pdfLastFill false def", + " } if", + "} def", + "~123sn", + "% build a font", + "/pdfMakeFont {", + " 4 3 roll findfont", + " 4 2 roll matrix scale makefont", + " dup length dict begin", + " { 1 index /FID ne { def } { pop pop } ifelse } forall", + " /Encoding exch def", + " currentdict", + " end", + " definefont pop", + "} def", + "/pdfMakeFont16 {", + " exch findfont", + " dup length dict begin", + " { 1 index /FID ne { def } { pop pop } ifelse } forall", + " /WMode exch def", + " currentdict", + " end", + " definefont pop", + "} def", + "~3sn", + "/pdfMakeFont16L3 {", + " 1 index /CIDFont resourcestatus {", + " pop pop 1 index /CIDFont findresource /CIDFontType known", + " } {", + " false", + " } ifelse", + " {", + " 0 eq { /Identity-H } { /Identity-V } ifelse", + " exch 1 array astore composefont pop", + " } {", + " pdfMakeFont16", + " } ifelse", + "} def", + "~123sn", + "% graphics state operators", + "~1sn", + "/q {", + " gsave", + " pdfOpNames length 1 sub -1 0 { pdfOpNames exch get load } for", + " pdfStates pdfStateIdx 1 add get begin", + " pdfOpNames { exch def } forall", + "} def", + "/Q { end grestore } def", + "~23sn", + "/q { gsave pdfDictSize dict begin } def", + "/Q {", + " end grestore", + " /pdfLastFill where {", + " pop", + " pdfLastFill {", + " pdfFillOP setoverprint", + " } {", + " pdfStrokeOP setoverprint", + " } ifelse", + " } if", + "} def", + "~123sn", + "/cm { concat } def", + "/d { setdash } def", + "/i { setflat } def", + "/j { setlinejoin } def", + "/J { setlinecap } def", + "/M { setmiterlimit } def", + "/w { setlinewidth } def", + "% path segment operators", + "/m { moveto } def", + "/l { lineto } def", + "/c { curveto } def", + "/re { 4 2 roll moveto 1 index 0 rlineto 0 exch rlineto", + " neg 0 rlineto closepath } def", + "/h { closepath } def", + "% path painting operators", + "/S { sCol stroke } def", + "/Sf { fCol stroke } def", + "/f { fCol fill } def", + "/f* { fCol eofill } def", + "% clipping operators", + "/W { clip newpath } def", + "/W* { eoclip newpath } def", + "/Ws { strokepath clip newpath } def", + "% text state operators", + "/Tc { /pdfCharSpacing exch def } def", + "/Tf { dup /pdfFontSize exch def", + " dup pdfHorizScaling mul exch matrix scale", + " pdfTextMat matrix concatmatrix dup 4 0 put dup 5 0 put", + " exch findfont exch makefont setfont } def", + "/Tr { /pdfTextRender exch def } def", + "/Ts { /pdfTextRise exch def } def", + "/Tw { /pdfWordSpacing exch def } def", + "/Tz { /pdfHorizScaling exch def } def", + "% text positioning operators", + "/Td { pdfTextMat transform moveto } def", + "/Tm { /pdfTextMat exch def } def", + "% text string operators", + "/cshow where {", + " pop", + " /cshow2 {", + " dup {", + " pop pop", + " 1 string dup 0 3 index put 3 index exec", + " } exch cshow", + " pop pop", + " } def", + "}{", + " /cshow2 {", + " currentfont /FontType get 0 eq {", + " 0 2 2 index length 1 sub {", + " 2 copy get exch 1 add 2 index exch get", + " 2 copy exch 256 mul add", + " 2 string dup 0 6 5 roll put dup 1 5 4 roll put", + " 3 index exec", + " } for", + " } {", + " dup {", + " 1 string dup 0 3 index put 3 index exec", + " } forall", + " } ifelse", + " pop pop", + " } def", + "} ifelse", + "/awcp {", // awidthcharpath + " exch {", + " false charpath", + " 5 index 5 index rmoveto", + " 6 index eq { 7 index 7 index rmoveto } if", + " } exch cshow2", + " 6 {pop} repeat", + "} def", + "/Tj {", + " fCol", // because stringwidth has to draw Type 3 chars + " 1 index stringwidth pdfTextMat idtransform pop", + " sub 1 index length dup 0 ne { div } { pop pop 0 } ifelse", + " pdfWordSpacing pdfHorizScaling mul 0 pdfTextMat dtransform 32", + " 4 3 roll pdfCharSpacing pdfHorizScaling mul add 0", + " pdfTextMat dtransform", + " 6 5 roll Tj1", + "} def", + "/Tj16 {", + " fCol", // because stringwidth has to draw Type 3 chars + " 2 index stringwidth pdfTextMat idtransform pop", + " sub exch div", + " pdfWordSpacing pdfHorizScaling mul 0 pdfTextMat dtransform 32", + " 4 3 roll pdfCharSpacing pdfHorizScaling mul add 0", + " pdfTextMat dtransform", + " 6 5 roll Tj1", + "} def", + "/Tj16V {", + " fCol", // because stringwidth has to draw Type 3 chars + " 2 index stringwidth pdfTextMat idtransform exch pop", + " sub exch div", + " 0 pdfWordSpacing pdfTextMat dtransform 32", + " 4 3 roll pdfCharSpacing add 0 exch", + " pdfTextMat dtransform", + " 6 5 roll Tj1", + "} def", + "/Tj1 {", + " 0 pdfTextRise pdfTextMat dtransform rmoveto", + " currentpoint 8 2 roll", + " pdfTextRender 1 and 0 eq {", + " 6 copy awidthshow", + " } if", + " pdfTextRender 3 and dup 1 eq exch 2 eq or {", + " 7 index 7 index moveto", + " 6 copy", + " currentfont /FontType get 3 eq { fCol } { sCol } ifelse", + " false awcp currentpoint stroke moveto", + " } if", + " pdfTextRender 4 and 0 ne {", + " 8 6 roll moveto", + " false awcp", + " /pdfTextClipPath [ pdfTextClipPath aload pop", + " {/moveto cvx}", + " {/lineto cvx}", + " {/curveto cvx}", + " {/closepath cvx}", + " pathforall ] def", + " currentpoint newpath moveto", + " } {", + " 8 {pop} repeat", + " } ifelse", + " 0 pdfTextRise neg pdfTextMat dtransform rmoveto", + "} def", + "/TJm { pdfFontSize 0.001 mul mul neg 0", + " pdfTextMat dtransform rmoveto } def", + "/TJmV { pdfFontSize 0.001 mul mul neg 0 exch", + " pdfTextMat dtransform rmoveto } def", + "/Tclip { pdfTextClipPath cvx exec clip newpath", + " /pdfTextClipPath [] def } def", + "~1ns", + "% Level 1 image operators", + "~1n", + "/pdfIm1 {", + " /pdfImBuf1 4 index string def", + " { currentfile pdfImBuf1 readhexstring pop } image", + "} def", + "~1s", + "/pdfIm1Sep {", + " /pdfImBuf1 4 index string def", + " /pdfImBuf2 4 index string def", + " /pdfImBuf3 4 index string def", + " /pdfImBuf4 4 index string def", + " { currentfile pdfImBuf1 readhexstring pop }", + " { currentfile pdfImBuf2 readhexstring pop }", + " { currentfile pdfImBuf3 readhexstring pop }", + " { currentfile pdfImBuf4 readhexstring pop }", + " true 4 colorimage", + "} def", + "~1ns", + "/pdfImM1 {", + " fCol /pdfImBuf1 4 index 7 add 8 idiv string def", + " { currentfile pdfImBuf1 readhexstring pop } imagemask", + "} def", + "/pdfImM1a {", + " { 2 copy get exch 1 add exch } imagemask", + " pop pop", + "} def", + "~23sn", + "% Level 2 image operators", + "/pdfImBuf 100 string def", + "/pdfIm {", + " image", + " { currentfile pdfImBuf readline", + " not { pop exit } if", + " (%-EOD-) eq { exit } if } loop", + "} def", + "~23s", + "/pdfImSep {", + " findcmykcustomcolor exch", + " dup /Width get /pdfImBuf1 exch string def", + " dup /Decode get aload pop 1 index sub /pdfImDecodeRange exch def", + " /pdfImDecodeLow exch def", + " begin Width Height BitsPerComponent ImageMatrix DataSource end", + " /pdfImData exch def", + " { pdfImData pdfImBuf1 readstring pop", + " 0 1 2 index length 1 sub {", + " 1 index exch 2 copy get", + " pdfImDecodeRange mul 255 div pdfImDecodeLow add round cvi", + " 255 exch sub put", + " } for }", + " 6 5 roll customcolorimage", + " { currentfile pdfImBuf readline", + " not { pop exit } if", + " (%-EOD-) eq { exit } if } loop", + "} def", + "~23sn", + "/pdfImM {", + " fCol imagemask", + " { currentfile pdfImBuf readline", + " not { pop exit } if", + " (%-EOD-) eq { exit } if } loop", + "} def", + "/pr { 2 index 2 index 3 2 roll putinterval 4 add } def", + "/pdfImClip {", + " gsave", + " 0 2 4 index length 1 sub {", + " dup 4 index exch 2 copy", + " get 5 index div put", + " 1 add 3 index exch 2 copy", + " get 3 index div put", + " } for", + " pop pop rectclip", + "} def", + "/pdfImClipEnd { grestore } def", + "~23sn", + "% shading operators", + "/colordelta {", + " false 0 1 3 index length 1 sub {", + " dup 4 index exch get 3 index 3 2 roll get sub abs 0.004 gt {", + " pop true", + " } if", + " } for", + " exch pop exch pop", + "} def", + "/funcCol { func n array astore } def", + "/funcSH {", + " dup 0 eq {", + " true", + " } {", + " dup 6 eq {", + " false", + " } {", + " 4 index 4 index funcCol dup", + " 6 index 4 index funcCol dup", + " 3 1 roll colordelta 3 1 roll", + " 5 index 5 index funcCol dup", + " 3 1 roll colordelta 3 1 roll", + " 6 index 8 index funcCol dup", + " 3 1 roll colordelta 3 1 roll", + " colordelta or or or", + " } ifelse", + " } ifelse", + " {", + " 1 add", + " 4 index 3 index add 0.5 mul exch 4 index 3 index add 0.5 mul exch", + " 6 index 6 index 4 index 4 index 4 index funcSH", + " 2 index 6 index 6 index 4 index 4 index funcSH", + " 6 index 2 index 4 index 6 index 4 index funcSH", + " 5 3 roll 3 2 roll funcSH pop pop", + " } {", + " pop 3 index 2 index add 0.5 mul 3 index 2 index add 0.5 mul", + "~23n", + " funcCol sc", + "~23s", + " funcCol aload pop k", + "~23sn", + " dup 4 index exch mat transform m", + " 3 index 3 index mat transform l", + " 1 index 3 index mat transform l", + " mat transform l pop pop h f*", + " } ifelse", + "} def", + "/axialCol {", + " dup 0 lt {", + " pop t0", + " } {", + " dup 1 gt {", + " pop t1", + " } {", + " dt mul t0 add", + " } ifelse", + " } ifelse", + " func n array astore", + "} def", + "/axialSH {", + " dup 0 eq {", + " true", + " } {", + " dup 8 eq {", + " false", + " } {", + " 2 index axialCol 2 index axialCol colordelta", + " } ifelse", + " } ifelse", + " {", + " 1 add 3 1 roll 2 copy add 0.5 mul", + " dup 4 3 roll exch 4 index axialSH", + " exch 3 2 roll axialSH", + " } {", + " pop 2 copy add 0.5 mul", + "~23n", + " axialCol sc", + "~23s", + " axialCol aload pop k", + "~23sn", + " exch dup dx mul x0 add exch dy mul y0 add", + " 3 2 roll dup dx mul x0 add exch dy mul y0 add", + " dx abs dy abs ge {", + " 2 copy yMin sub dy mul dx div add yMin m", + " yMax sub dy mul dx div add yMax l", + " 2 copy yMax sub dy mul dx div add yMax l", + " yMin sub dy mul dx div add yMin l", + " h f*", + " } {", + " exch 2 copy xMin sub dx mul dy div add xMin exch m", + " xMax sub dx mul dy div add xMax exch l", + " exch 2 copy xMax sub dx mul dy div add xMax exch l", + " xMin sub dx mul dy div add xMin exch l", + " h f*", + " } ifelse", + " } ifelse", + "} def", + "/radialCol {", + " dup t0 lt {", + " pop t0", + " } {", + " dup t1 gt {", + " pop t1", + " } if", + " } ifelse", + " func n array astore", + "} def", + "/radialSH {", + " dup 0 eq {", + " true", + " } {", + " dup 8 eq {", + " false", + " } {", + " 2 index dt mul t0 add radialCol", + " 2 index dt mul t0 add radialCol colordelta", + " } ifelse", + " } ifelse", + " {", + " 1 add 3 1 roll 2 copy add 0.5 mul", + " dup 4 3 roll exch 4 index radialSH", + " exch 3 2 roll radialSH", + " } {", + " pop 2 copy add 0.5 mul dt mul t0 add", + "~23n", + " radialCol sc", + "~23s", + " radialCol aload pop k", + "~23sn", + " encl {", + " exch dup dx mul x0 add exch dup dy mul y0 add exch dr mul r0 add", + " 0 360 arc h", + " dup dx mul x0 add exch dup dy mul y0 add exch dr mul r0 add", + " 360 0 arcn h f", + " } {", + " 2 copy", + " dup dx mul x0 add exch dup dy mul y0 add exch dr mul r0 add", + " a1 a2 arcn", + " dup dx mul x0 add exch dup dy mul y0 add exch dr mul r0 add", + " a2 a1 arcn h", + " dup dx mul x0 add exch dup dy mul y0 add exch dr mul r0 add", + " a1 a2 arc", + " dup dx mul x0 add exch dup dy mul y0 add exch dr mul r0 add", + " a2 a1 arc h f", + " } ifelse", + " } ifelse", + "} def", + "~123sn", + "end", + NULL +}; + +static char *cmapProlog[] = { + "/CIDInit /ProcSet findresource begin", + "10 dict begin", + " begincmap", + " /CMapType 1 def", + " /CMapName /Identity-H def", + " /CIDSystemInfo 3 dict dup begin", + " /Registry (Adobe) def", + " /Ordering (Identity) def", + " /Supplement 0 def", + " end def", + " 1 begincodespacerange", + " <0000> ", + " endcodespacerange", + " 0 usefont", + " 1 begincidrange", + " <0000> 0", + " endcidrange", + " endcmap", + " currentdict CMapName exch /CMap defineresource pop", + "end", + "10 dict begin", + " begincmap", + " /CMapType 1 def", + " /CMapName /Identity-V def", + " /CIDSystemInfo 3 dict dup begin", + " /Registry (Adobe) def", + " /Ordering (Identity) def", + " /Supplement 0 def", + " end def", + " /WMode 1 def", + " 1 begincodespacerange", + " <0000> ", + " endcodespacerange", + " 0 usefont", + " 1 begincidrange", + " <0000> 0", + " endcidrange", + " endcmap", + " currentdict CMapName exch /CMap defineresource pop", + "end", + "end", + NULL +}; + +//------------------------------------------------------------------------ +// Fonts +//------------------------------------------------------------------------ + +struct PSSubstFont { + char *psName; // PostScript name + double mWidth; // width of 'm' character +}; + +static char *psFonts[] = { + "Courier", + "Courier-Bold", + "Courier-Oblique", + "Courier-BoldOblique", + "Helvetica", + "Helvetica-Bold", + "Helvetica-Oblique", + "Helvetica-BoldOblique", + "Symbol", + "Times-Roman", + "Times-Bold", + "Times-Italic", + "Times-BoldItalic", + "ZapfDingbats", + NULL +}; + +static PSSubstFont psSubstFonts[] = { + {"Helvetica", 0.833}, + {"Helvetica-Oblique", 0.833}, + {"Helvetica-Bold", 0.889}, + {"Helvetica-BoldOblique", 0.889}, + {"Times-Roman", 0.788}, + {"Times-Italic", 0.722}, + {"Times-Bold", 0.833}, + {"Times-BoldItalic", 0.778}, + {"Courier", 0.600}, + {"Courier-Oblique", 0.600}, + {"Courier-Bold", 0.600}, + {"Courier-BoldOblique", 0.600} +}; + +// Info for 8-bit fonts +struct PSFont8Info { + Ref fontID; + Gushort *codeToGID; // code-to-GID mapping for TrueType fonts +}; + +// Encoding info for substitute 16-bit font +struct PSFont16Enc { + Ref fontID; + GString *enc; +}; + +//------------------------------------------------------------------------ +// process colors +//------------------------------------------------------------------------ + +#define psProcessCyan 1 +#define psProcessMagenta 2 +#define psProcessYellow 4 +#define psProcessBlack 8 +#define psProcessCMYK 15 + +//------------------------------------------------------------------------ +// PSOutCustomColor +//------------------------------------------------------------------------ + +class PSOutCustomColor { +public: + + PSOutCustomColor(double cA, double mA, + double yA, double kA, GString *nameA); + ~PSOutCustomColor(); + + double c, m, y, k; + GString *name; + PSOutCustomColor *next; +}; + +PSOutCustomColor::PSOutCustomColor(double cA, double mA, + double yA, double kA, GString *nameA) { + c = cA; + m = mA; + y = yA; + k = kA; + name = nameA; + next = NULL; +} + +PSOutCustomColor::~PSOutCustomColor() { + delete name; +} + +//------------------------------------------------------------------------ + +struct PSOutImgClipRect { + int x0, x1, y0, y1; +}; + +//------------------------------------------------------------------------ +// DeviceNRecoder +//------------------------------------------------------------------------ + +class DeviceNRecoder: public FilterStream { +public: + + DeviceNRecoder(Stream *strA, int widthA, int heightA, + GfxImageColorMap *colorMapA); + virtual ~DeviceNRecoder(); + virtual StreamKind getKind() { return strWeird; } + virtual void reset(); + virtual int getChar() + { return (bufIdx >= bufSize && !fillBuf()) ? EOF : buf[bufIdx++]; } + virtual int lookChar() + { return (bufIdx >= bufSize && !fillBuf()) ? EOF : buf[bufIdx]; } + virtual GString *getPSFilter(int /*psLevel*/, char * /*indent*/) { return NULL; } + virtual GBool isBinary(GBool /*last*/ = gTrue) { return gTrue; } + virtual GBool isEncoder() { return gTrue; } + +private: + + GBool fillBuf(); + + int width, height; + GfxImageColorMap *colorMap; + Function *func; + ImageStream *imgStr; + int buf[gfxColorMaxComps]; + int pixelIdx; + int bufIdx; + int bufSize; +}; + +DeviceNRecoder::DeviceNRecoder(Stream *strA, int widthA, int heightA, + GfxImageColorMap *colorMapA): + FilterStream(strA) { + width = widthA; + height = heightA; + colorMap = colorMapA; + imgStr = NULL; + pixelIdx = 0; + bufIdx = gfxColorMaxComps; + bufSize = ((GfxDeviceNColorSpace *)colorMap->getColorSpace())-> + getAlt()->getNComps(); + func = ((GfxDeviceNColorSpace *)colorMap->getColorSpace())-> + getTintTransformFunc(); +} + +DeviceNRecoder::~DeviceNRecoder() { + if (imgStr) { + delete imgStr; + } +} + +void DeviceNRecoder::reset() { + imgStr = new ImageStream(str, width, colorMap->getNumPixelComps(), + colorMap->getBits()); + imgStr->reset(); +} + +GBool DeviceNRecoder::fillBuf() { + Guchar pixBuf[gfxColorMaxComps]; + GfxColor color; + double x[gfxColorMaxComps], y[gfxColorMaxComps]; + int i; + + if (pixelIdx >= width * height) { + return gFalse; + } + imgStr->getPixel(pixBuf); + colorMap->getColor(pixBuf, &color); + for (i = 0; + i < ((GfxDeviceNColorSpace *)colorMap->getColorSpace())->getNComps(); + ++i) { + x[i] = colToDbl(color.c[i]); + } + func->transform(x, y); + for (i = 0; i < bufSize; ++i) { + buf[i] = (int)(y[i] * 255 + 0.5); + } + bufIdx = 0; + ++pixelIdx; + return gTrue; +} + +//------------------------------------------------------------------------ +// PSOutputDev +//------------------------------------------------------------------------ + +extern "C" { +typedef void (*SignalFunc)(int); +} + +static void outputToFile(void *stream, char *data, int len) { + fwrite(data, 1, len, (FILE *)stream); +} + +PSOutputDev::PSOutputDev(char *fileName, char *pstitle, XRef *xrefA, Catalog *catalog, + int firstPage, int lastPage, PSOutMode modeA, + int imgLLXA, int imgLLYA, int imgURXA, int imgURYA, + GBool forceRasterizeA, + GBool manualCtrlA) { + FILE *f; + PSFileType fileTypeA; + + underlayCbk = NULL; + underlayCbkData = NULL; + overlayCbk = NULL; + overlayCbkData = NULL; + + fontIDs = NULL; + fontFileIDs = NULL; + fontFileNames = NULL; + font8Info = NULL; + font16Enc = NULL; + imgIDs = NULL; + formIDs = NULL; + xobjStack = NULL; + embFontList = NULL; + customColors = NULL; + haveTextClip = gFalse; + t3String = NULL; + + forceRasterize = forceRasterizeA; + + // open file or pipe + if (!strcmp(fileName, "-")) { + fileTypeA = psStdout; + f = stdout; + } else if (fileName[0] == '|') { + fileTypeA = psPipe; +#ifdef HAVE_POPEN +#ifndef WIN32 + signal(SIGPIPE, (SignalFunc)SIG_IGN); +#endif + if (!(f = popen(fileName + 1, "w"))) { + error(-1, "Couldn't run print command '%s'", fileName); + ok = gFalse; + return; + } +#else + error(-1, "Print commands are not supported ('%s')", fileName); + ok = gFalse; + return; +#endif + } else { + fileTypeA = psFile; + if (!(f = fopen(fileName, "w"))) { + error(-1, "Couldn't open PostScript file '%s'", fileName); + ok = gFalse; + return; + } + } + + init(outputToFile, f, fileTypeA, pstitle, + xrefA, catalog, firstPage, lastPage, modeA, + imgLLXA, imgLLYA, imgURXA, imgURYA, manualCtrlA); +} + +void PSOutputDev::init(PSOutputFunc outputFuncA, void *outputStreamA, + PSFileType fileTypeA, char *pstitle, XRef *xrefA, Catalog *catalog, + int firstPage, int lastPage, PSOutMode modeA, + int imgLLXA, int imgLLYA, int imgURXA, int imgURYA, + GBool manualCtrlA) { + Page *page; + PDFRectangle *box; + + // initialize + setlocale(LC_NUMERIC,"POSIX"); + ok = gTrue; + outputFunc = outputFuncA; + outputStream = outputStreamA; + fileType = fileTypeA; + xref = xrefA; + level = globalParams->getPSLevel(); + mode = modeA; + paperWidth = globalParams->getPSPaperWidth(); + paperHeight = globalParams->getPSPaperHeight(); + imgLLX = imgLLXA; + imgLLY = imgLLYA; + imgURX = imgURXA; + imgURY = imgURYA; + if (imgLLX == 0 && imgURX == 0 && imgLLY == 0 && imgURY == 0) { + globalParams->getPSImageableArea(&imgLLX, &imgLLY, &imgURX, &imgURY); + } + if (paperWidth < 0 || paperHeight < 0) { + // this check is needed in case the document has zero pages + if (firstPage > 0 && firstPage <= catalog->getNumPages()) { + page = catalog->getPage(firstPage); + paperWidth = (int)ceil(page->getMediaWidth()); + paperHeight = (int)ceil(page->getMediaHeight()); + } else { + paperWidth = 1; + paperHeight = 1; + } + imgLLX = imgLLY = 0; + imgURX = paperWidth; + imgURY = paperHeight; + } + preload = globalParams->getPSPreload(); + manualCtrl = manualCtrlA; + if (mode == psModeForm) { + lastPage = firstPage; + } + processColors = 0; + inType3Char = gFalse; + +#if OPI_SUPPORT + // initialize OPI nesting levels + opi13Nest = 0; + opi20Nest = 0; +#endif + + tx0 = ty0 = -1; + xScale0 = yScale0 = 0; + rotate0 = -1; + clipLLX0 = clipLLY0 = 0; + clipURX0 = clipURY0 = -1; + + // initialize fontIDs, fontFileIDs, and fontFileNames lists + fontIDSize = 64; + fontIDLen = 0; + fontIDs = (Ref *)gmallocn(fontIDSize, sizeof(Ref)); + fontFileIDSize = 64; + fontFileIDLen = 0; + fontFileIDs = (Ref *)gmallocn(fontFileIDSize, sizeof(Ref)); + fontFileNameSize = 64; + fontFileNameLen = 0; + fontFileNames = (GString **)gmallocn(fontFileNameSize, sizeof(GString *)); + psFileNames = (GString **)gmallocn(fontFileNameSize, sizeof(GString *)); + nextTrueTypeNum = 0; + font8InfoLen = 0; + font8InfoSize = 0; + font16EncLen = 0; + font16EncSize = 0; + imgIDLen = 0; + imgIDSize = 0; + formIDLen = 0; + formIDSize = 0; + + xobjStack = new GList(); + numSaves = 0; + numTilingPatterns = 0; + nextFunc = 0; + + // initialize embedded font resource comment list + embFontList = new GString(); + + if (!manualCtrl) { + // this check is needed in case the document has zero pages + if (firstPage > 0 && firstPage <= catalog->getNumPages()) { + writeHeader(firstPage, lastPage, + catalog->getPage(firstPage)->getMediaBox(), + catalog->getPage(firstPage)->getCropBox(), + catalog->getPage(firstPage)->getRotate(), pstitle); + } else { + box = new PDFRectangle(0, 0, 1, 1); + writeHeader(firstPage, lastPage, box, box, 0, pstitle); + delete box; + } + if (mode != psModeForm) { + writePS("%%BeginProlog\n"); + } + writeXpdfProcset(); + if (mode != psModeForm) { + writePS("%%EndProlog\n"); + writePS("%%BeginSetup\n"); + } + writeDocSetup(catalog, firstPage, lastPage); + if (mode != psModeForm) { + writePS("%%EndSetup\n"); + } + } + + // initialize sequential page number + seqPage = 1; +} + +PSOutputDev::~PSOutputDev() { + PSOutCustomColor *cc; + int i; + + if (ok) { + if (!manualCtrl) { + writePS("%%Trailer\n"); + writeTrailer(); + if (mode != psModeForm) { + writePS("%%EOF\n"); + } + } + if (fileType == psFile) { +#ifdef MACOS + ICS_MapRefNumAndAssign((short)((FILE *)outputStream)->handle); +#endif + fclose((FILE *)outputStream); + } +#ifdef HAVE_POPEN + else if (fileType == psPipe) { + pclose((FILE *)outputStream); +#ifndef WIN32 + signal(SIGPIPE, (SignalFunc)SIG_DFL); +#endif + } +#endif + } + if (embFontList) { + delete embFontList; + } + if (fontIDs) { + gfree(fontIDs); + } + if (fontFileIDs) { + gfree(fontFileIDs); + } + if (fontFileNames) { + for (i = 0; i < fontFileNameLen; ++i) { + delete fontFileNames[i]; + } + gfree(fontFileNames); + } + if (font8Info) { + for (i = 0; i < font8InfoLen; ++i) { + gfree(font8Info[i].codeToGID); + } + gfree(font8Info); + } + if (psFileNames) { + for (i = 0; i < fontFileNameLen; ++i) { + if (psFileNames[i]) + delete psFileNames[i]; + } + gfree(psFileNames); + } + if (font16Enc) { + for (i = 0; i < font16EncLen; ++i) { + delete font16Enc[i].enc; + } + gfree(font16Enc); + } + gfree(imgIDs); + gfree(formIDs); + if (xobjStack) { + delete xobjStack; + } + while (customColors) { + cc = customColors; + customColors = cc->next; + delete cc; + } +} + +void PSOutputDev::writeHeader(int firstPage, int lastPage, + PDFRectangle *mediaBox, PDFRectangle *cropBox, + int pageRotate, char *pstitle) { + Object info, obj1; + double x1, y1, x2, y2; + + switch (mode) { + case psModePS: + writePS("%!PS-Adobe-3.0\n"); + break; + case psModeEPS: + writePS("%!PS-Adobe-3.0 EPSF-3.0\n"); + break; + case psModeForm: + writePS("%!PS-Adobe-3.0 Resource-Form\n"); + break; + } + + xref->getDocInfo(&info); + if (info.isDict() && info.dictLookup("Creator", &obj1)->isString()) { + writePS("%%Creator: "); + writePSTextLine(obj1.getString()); + } + obj1.free(); + info.free(); + if(pstitle) { + writePSFmt("%%Title: {0:s}\n", pstitle); + } + writePSFmt("%%LanguageLevel: {0:d}\n", + (level == psLevel1 || level == psLevel1Sep) ? 1 : + (level == psLevel2 || level == psLevel2Sep) ? 2 : 3); + if (level == psLevel1Sep || level == psLevel2Sep || level == psLevel3Sep) { + writePS("%%DocumentProcessColors: (atend)\n"); + writePS("%%DocumentCustomColors: (atend)\n"); + } + writePS("%%DocumentSuppliedResources: (atend)\n"); + + switch (mode) { + case psModePS: + writePSFmt("%%DocumentMedia: plain {0:d} {1:d} 0 () ()\n", + paperWidth, paperHeight); + writePSFmt("%%BoundingBox: 0 0 {0:d} {1:d}\n", paperWidth, paperHeight); + writePSFmt("%%Pages: {0:d}\n", lastPage - firstPage + 1); + writePS("%%EndComments\n"); + writePS("%%BeginDefaults\n"); + writePS("%%PageMedia: plain\n"); + writePS("%%EndDefaults\n"); + break; + case psModeEPS: + epsX1 = cropBox->x1; + epsY1 = cropBox->y1; + epsX2 = cropBox->x2; + epsY2 = cropBox->y2; + if (pageRotate == 0 || pageRotate == 180) { + x1 = epsX1; + y1 = epsY1; + x2 = epsX2; + y2 = epsY2; + } else { // pageRotate == 90 || pageRotate == 270 + x1 = 0; + y1 = 0; + x2 = epsY2 - epsY1; + y2 = epsX2 - epsX1; + } + writePSFmt("%%BoundingBox: {0:d} {1:d} {2:d} {3:d}\n", + (int)floor(x1), (int)floor(y1), (int)ceil(x2), (int)ceil(y2)); + if (floor(x1) != ceil(x1) || floor(y1) != ceil(y1) || + floor(x2) != ceil(x2) || floor(y2) != ceil(y2)) { + writePSFmt("%%HiResBoundingBox: {0:.4g} {1:.4g} {2:.4g} {3:.4g}\n", + x1, y1, x2, y2); + } + writePS("%%EndComments\n"); + break; + case psModeForm: + writePS("%%EndComments\n"); + writePS("32 dict dup begin\n"); + writePSFmt("/BBox [{0:d} {1:d} {2:d} {3:d}] def\n", + (int)floor(mediaBox->x1), (int)floor(mediaBox->y1), + (int)ceil(mediaBox->x2), (int)ceil(mediaBox->y2)); + writePS("/FormType 1 def\n"); + writePS("/Matrix [1 0 0 1 0 0] def\n"); + break; + } +} + +void PSOutputDev::writeXpdfProcset() { + GBool lev1, lev2, lev3, sep, nonSep; + char **p; + char *q; + + writePSFmt("%%BeginResource: procset xpdf {0:s} 0\n", xpdfVersion); + writePSFmt("%%Copyright: {0:s}\n", xpdfCopyright); + lev1 = lev2 = lev3 = sep = nonSep = gTrue; + for (p = prolog; *p; ++p) { + if ((*p)[0] == '~') { + lev1 = lev2 = lev3 = sep = nonSep = gFalse; + for (q = *p + 1; *q; ++q) { + switch (*q) { + case '1': lev1 = gTrue; break; + case '2': lev2 = gTrue; break; + case '3': lev3 = gTrue; break; + case 's': sep = gTrue; break; + case 'n': nonSep = gTrue; break; + } + } + } else if ((level == psLevel1 && lev1 && nonSep) || + (level == psLevel1Sep && lev1 && sep) || + (level == psLevel2 && lev2 && nonSep) || + (level == psLevel2Sep && lev2 && sep) || + (level == psLevel3 && lev3 && nonSep) || + (level == psLevel3Sep && lev3 && sep)) { + writePSFmt("{0:s}\n", *p); + } + } + writePS("%%EndResource\n"); + + if (level >= psLevel3) { + for (p = cmapProlog; *p; ++p) { + writePSFmt("{0:s}\n", *p); + } + } +} + +void PSOutputDev::writeDocSetup(Catalog *catalog, + int firstPage, int lastPage) { + Page *page; + Dict *resDict; + Annots *annots; + Object obj1, obj2; + int pg, i; + + if (mode == psModeForm) { + // swap the form and xpdf dicts + writePS("xpdf end begin dup begin\n"); + } else { + writePS("xpdf begin\n"); + } + for (pg = firstPage; pg <= lastPage; ++pg) { + page = catalog->getPage(pg); + if ((resDict = page->getResourceDict())) { + setupResources(resDict); + } + annots = new Annots(xref, catalog, page->getAnnots(&obj1)); + obj1.free(); + for (i = 0; i < annots->getNumAnnots(); ++i) { + if (annots->getAnnot(i)->getAppearance(&obj1)->isStream()) { + obj1.streamGetDict()->lookup("Resources", &obj2); + if (obj2.isDict()) { + setupResources(obj2.getDict()); + } + obj2.free(); + } + obj1.free(); + } + delete annots; + } + if (mode != psModeForm) { + if (mode != psModeEPS && !manualCtrl) { + writePSFmt("{0:d} {1:d} {2:s} pdfSetup\n", + paperWidth, paperHeight, + globalParams->getPSDuplex() ? "true" : "false"); + } +#if OPI_SUPPORT + if (globalParams->getPSOPI()) { + writePS("/opiMatrix matrix currentmatrix def\n"); + } +#endif + } +} + +void PSOutputDev::writePageTrailer() { + if (mode != psModeForm) { + writePS("pdfEndPage\n"); + } +} + +void PSOutputDev::writeTrailer() { + PSOutCustomColor *cc; + + if (mode == psModeForm) { + writePS("/Foo exch /Form defineresource pop\n"); + } else { + writePS("end\n"); + writePS("%%DocumentSuppliedResources:\n"); + writePS(embFontList->getCString()); + if (level == psLevel1Sep || level == psLevel2Sep || + level == psLevel3Sep) { + writePS("%%DocumentProcessColors:"); + if (processColors & psProcessCyan) { + writePS(" Cyan"); + } + if (processColors & psProcessMagenta) { + writePS(" Magenta"); + } + if (processColors & psProcessYellow) { + writePS(" Yellow"); + } + if (processColors & psProcessBlack) { + writePS(" Black"); + } + writePS("\n"); + writePS("%%DocumentCustomColors:"); + for (cc = customColors; cc; cc = cc->next) { + writePSFmt(" ({0:s})", cc->name->getCString()); + } + writePS("\n"); + writePS("%%CMYKCustomColor:\n"); + for (cc = customColors; cc; cc = cc->next) { + writePSFmt("%%+ {0:.4g} {1:.4g} {2:.4g} {3:.4g} ({4:t})\n", + cc->c, cc->m, cc->y, cc->k, cc->name); + } + } + } +} + +void PSOutputDev::setupResources(Dict *resDict) { + Object xObjDict, xObjRef, xObj, patDict, patRef, pat, resObj; + Ref ref0, ref1; + GBool skip; + int i, j; + + setupFonts(resDict); + setupImages(resDict); + setupForms(resDict); + + //----- recursively scan XObjects + resDict->lookup("XObject", &xObjDict); + if (xObjDict.isDict()) { + for (i = 0; i < xObjDict.dictGetLength(); ++i) { + + // avoid infinite recursion on XObjects + skip = gFalse; + if ((xObjDict.dictGetValNF(i, &xObjRef)->isRef())) { + ref0 = xObjRef.getRef(); + for (j = 0; j < xobjStack->getLength(); ++j) { + ref1 = *(Ref *)xobjStack->get(j); + if (ref1.num == ref0.num && ref1.gen == ref0.gen) { + skip = gTrue; + break; + } + } + if (!skip) { + xobjStack->append(&ref0); + } + } + if (!skip) { + + // process the XObject's resource dictionary + xObjDict.dictGetVal(i, &xObj); + if (xObj.isStream()) { + xObj.streamGetDict()->lookup("Resources", &resObj); + if (resObj.isDict()) { + setupResources(resObj.getDict()); + } + resObj.free(); + } + xObj.free(); + } + + if (xObjRef.isRef() && !skip) { + xobjStack->del(xobjStack->getLength() - 1); + } + xObjRef.free(); + } + } + xObjDict.free(); + + //----- recursively scan Patterns + resDict->lookup("Pattern", &patDict); + if (patDict.isDict()) { + inType3Char = gTrue; + for (i = 0; i < patDict.dictGetLength(); ++i) { + + // avoid infinite recursion on Patterns + skip = gFalse; + if ((patDict.dictGetValNF(i, &patRef)->isRef())) { + ref0 = patRef.getRef(); + for (j = 0; j < xobjStack->getLength(); ++j) { + ref1 = *(Ref *)xobjStack->get(j); + if (ref1.num == ref0.num && ref1.gen == ref0.gen) { + skip = gTrue; + break; + } + } + if (!skip) { + xobjStack->append(&ref0); + } + } + if (!skip) { + + // process the Pattern's resource dictionary + patDict.dictGetVal(i, &pat); + if (pat.isStream()) { + pat.streamGetDict()->lookup("Resources", &resObj); + if (resObj.isDict()) { + setupResources(resObj.getDict()); + } + resObj.free(); + } + pat.free(); + } + + if (patRef.isRef() && !skip) { + xobjStack->del(xobjStack->getLength() - 1); + } + patRef.free(); + } + inType3Char = gFalse; + } + patDict.free(); +} + +void PSOutputDev::setupFonts(Dict *resDict) { + Object obj1, obj2; + Ref r; + GfxFontDict *gfxFontDict; + GfxFont *font; + int i; + + if (forceRasterize) return; + + gfxFontDict = NULL; + resDict->lookupNF("Font", &obj1); + if (obj1.isRef()) { + obj1.fetch(xref, &obj2); + if (obj2.isDict()) { + r = obj1.getRef(); + gfxFontDict = new GfxFontDict(xref, &r, obj2.getDict()); + } + obj2.free(); + } else if (obj1.isDict()) { + gfxFontDict = new GfxFontDict(xref, NULL, obj1.getDict()); + } + if (gfxFontDict) { + for (i = 0; i < gfxFontDict->getNumFonts(); ++i) { + if ((font = gfxFontDict->getFont(i))) { + setupFont(font, resDict); + } + } + delete gfxFontDict; + } + obj1.free(); +} + +void PSOutputDev::setupFont(GfxFont *font, Dict *parentResDict) { + Ref fontFileID; + GString *name; + PSFontParam *fontParam; + GString *psName; + char buf[16]; + GBool subst; + UnicodeMap *uMap; + char *charName; + double xs, ys; + int code; + double w1, w2; + double *fm; + int i, j; + DisplayFontParam *dfp; + + // check if font is already set up + for (i = 0; i < fontIDLen; ++i) { + if (fontIDs[i].num == font->getID()->num && + fontIDs[i].gen == font->getID()->gen) { + return; + } + } + + // add entry to fontIDs list + if (fontIDLen >= fontIDSize) { + fontIDSize += 64; + fontIDs = (Ref *)greallocn(fontIDs, fontIDSize, sizeof(Ref)); + } + fontIDs[fontIDLen++] = *font->getID(); + + xs = ys = 1; + subst = gFalse; + + // check for resident 8-bit font + if (font->getName() && + (fontParam = globalParams->getPSFont(font->getName()))) { + psName = new GString(fontParam->psFontName->getCString()); + + // check for embedded Type 1 font + } else if (globalParams->getPSEmbedType1() && + font->getType() == fontType1 && + font->getEmbeddedFontID(&fontFileID)) { + psName = filterPSName(font->getEmbeddedFontName()); + setupEmbeddedType1Font(&fontFileID, psName); + + // check for embedded Type 1C font + } else if (globalParams->getPSEmbedType1() && + font->getType() == fontType1C && + font->getEmbeddedFontID(&fontFileID)) { + // use the PDF font name because the embedded font name might + // not include the subset prefix + psName = filterPSName(font->getOrigName()); + setupEmbeddedType1CFont(font, &fontFileID, psName); + + // check for embedded OpenType - Type 1C font + } else if (globalParams->getPSEmbedType1() && + font->getType() == fontType1COT && + font->getEmbeddedFontID(&fontFileID)) { + // use the PDF font name because the embedded font name might + // not include the subset prefix + psName = filterPSName(font->getOrigName()); + setupEmbeddedOpenTypeT1CFont(font, &fontFileID, psName); + + // check for external Type 1 font file + } else if (globalParams->getPSEmbedType1() && + font->getType() == fontType1 && + font->getExtFontFile()) { + // this assumes that the PS font name matches the PDF font name + psName = font->getName()->copy(); + setupExternalType1Font(font->getExtFontFile(), psName); + + // check for embedded TrueType font + } else if (globalParams->getPSEmbedTrueType() && + (font->getType() == fontTrueType || + font->getType() == fontTrueTypeOT) && + font->getEmbeddedFontID(&fontFileID)) { + psName = filterPSName(font->getEmbeddedFontName()); + setupEmbeddedTrueTypeFont(font, &fontFileID, psName); + + // check for external TrueType font file + } else if (globalParams->getPSEmbedTrueType() && + font->getType() == fontTrueType && + font->getExtFontFile()) { + psName = setupExternalTrueTypeFont(font); + + // check for embedded CID PostScript font + } else if (globalParams->getPSEmbedCIDPostScript() && + font->getType() == fontCIDType0C && + font->getEmbeddedFontID(&fontFileID)) { + psName = filterPSName(font->getEmbeddedFontName()); + setupEmbeddedCIDType0Font(font, &fontFileID, psName); + + // check for embedded CID TrueType font + } else if (globalParams->getPSEmbedCIDTrueType() && + (font->getType() == fontCIDType2 || + font->getType() == fontCIDType2OT) && + font->getEmbeddedFontID(&fontFileID)) { + psName = filterPSName(font->getEmbeddedFontName()); + //~ should check to see if font actually uses vertical mode + setupEmbeddedCIDTrueTypeFont(font, &fontFileID, psName, gTrue); + + // check for embedded OpenType - CID CFF font + } else if (globalParams->getPSEmbedCIDPostScript() && + font->getType() == fontCIDType0COT && + font->getEmbeddedFontID(&fontFileID)) { + psName = filterPSName(font->getEmbeddedFontName()); + setupEmbeddedOpenTypeCFFFont(font, &fontFileID, psName); + + // check for Type 3 font + } else if (font->getType() == fontType3) { + psName = GString::format("T3_{0:d}_{1:d}", + font->getID()->num, font->getID()->gen); + setupType3Font(font, psName, parentResDict); + // check for external CID TrueType font file + } else if (globalParams->getPSEmbedCIDTrueType() && + font->getType() == fontCIDType2 && + font->getExtFontFile()) { + psName = setupExternalCIDTrueTypeFont(font, font->getExtFontFile()); + // do 8-bit font substitution + } else if (!font->isCIDFont()) { + subst = gTrue; + name = font->getName(); + psName = NULL; + if (name) { + for (i = 0; psFonts[i]; ++i) { + if (name->cmp(psFonts[i]) == 0) { + psName = new GString(psFonts[i]); + break; + } + } + } + if (!psName) { + if (font->isFixedWidth()) { + i = 8; + } else if (font->isSerif()) { + i = 4; + } else { + i = 0; + } + if (font->isBold()) { + i += 2; + } + if (font->isItalic()) { + i += 1; + } + psName = new GString(psSubstFonts[i].psName); + for (code = 0; code < 256; ++code) { + if ((charName = ((Gfx8BitFont *)font)->getCharName(code)) && + charName[0] == 'm' && charName[1] == '\0') { + break; + } + } + if (code < 256) { + w1 = ((Gfx8BitFont *)font)->getWidth(code); + } else { + w1 = 0; + } + w2 = psSubstFonts[i].mWidth; + xs = w1 / w2; + if (xs < 0.1) { + xs = 1; + } + if (font->getType() == fontType3) { + // This is a hack which makes it possible to substitute for some + // Type 3 fonts. The problem is that it's impossible to know what + // the base coordinate system used in the font is without actually + // rendering the font. + ys = xs; + fm = font->getFontMatrix(); + if (fm[0] != 0) { + ys *= fm[3] / fm[0]; + } + } else { + ys = 1; + } + } + + // do 16-bit font substitution + } else if ((fontParam = globalParams-> + getPSFont16(font->getName(), + ((GfxCIDFont *)font)->getCollection(), + font->getWMode()))) { + subst = gTrue; + psName = fontParam->psFontName->copy(); + if (font16EncLen >= font16EncSize) { + font16EncSize += 16; + font16Enc = (PSFont16Enc *)greallocn(font16Enc, + font16EncSize, sizeof(PSFont16Enc)); + } + font16Enc[font16EncLen].fontID = *font->getID(); + font16Enc[font16EncLen].enc = fontParam->encoding->copy(); + if ((uMap = globalParams->getUnicodeMap(font16Enc[font16EncLen].enc))) { + uMap->decRefCnt(); + ++font16EncLen; + } else { + error(-1, "Couldn't find Unicode map for 16-bit font encoding '%s'", + font16Enc[font16EncLen].enc->getCString()); + } + + // try the display font for embedding + } else if (globalParams->getPSEmbedCIDTrueType() && + ((GfxCIDFont *)font)->getCollection() && + (dfp = globalParams-> + getDisplayCIDFont(font->getName(), + ((GfxCIDFont *)font)->getCollection())) && + dfp->kind == displayFontTT) { + psName = setupExternalCIDTrueTypeFont(font, dfp->tt.fileName, dfp->tt.faceIndex); + + // give up - can't do anything with this font + } else { + error(-1, "Couldn't find a font to substitute for '%s' ('%s' character collection)", + font->getName() ? font->getName()->getCString() : "(unnamed)", + ((GfxCIDFont *)font)->getCollection() + ? ((GfxCIDFont *)font)->getCollection()->getCString() + : "(unknown)"); + return; + } + + // generate PostScript code to set up the font + if (font->isCIDFont()) { + if (level == psLevel3 || level == psLevel3Sep) { + writePSFmt("/F{0:d}_{1:d} /{2:t} {3:d} pdfMakeFont16L3\n", + font->getID()->num, font->getID()->gen, psName, + font->getWMode()); + } else { + writePSFmt("/F{0:d}_{1:d} /{2:t} {3:d} pdfMakeFont16\n", + font->getID()->num, font->getID()->gen, psName, + font->getWMode()); + } + } else { + writePSFmt("/F{0:d}_{1:d} /{2:t} {3:.4g} {4:.4g}\n", + font->getID()->num, font->getID()->gen, psName, xs, ys); + for (i = 0; i < 256; i += 8) { + writePS((char *)((i == 0) ? "[ " : " ")); + for (j = 0; j < 8; ++j) { + if (font->getType() == fontTrueType && + !subst && + !((Gfx8BitFont *)font)->getHasEncoding()) { + sprintf(buf, "c%02x", i+j); + charName = buf; + } else { + charName = ((Gfx8BitFont *)font)->getCharName(i+j); + // this is a kludge for broken PDF files that encode char 32 + // as .notdef + if (i+j == 32 && charName && !strcmp(charName, ".notdef")) { + charName = "space"; + } + } + writePS("/"); + writePSName(charName ? charName : (char *)".notdef"); + // the empty name is legal in PDF and PostScript, but PostScript + // uses a double-slash (//...) for "immediately evaluated names", + // so we need to add a space character here + if (charName && !charName[0]) { + writePS(" "); + } + } + writePS((i == 256-8) ? (char *)"]\n" : (char *)"\n"); + } + writePS("pdfMakeFont\n"); + } + + delete psName; +} + +void PSOutputDev::setupEmbeddedType1Font(Ref *id, GString *psName) { + static char hexChar[17] = "0123456789abcdef"; + Object refObj, strObj, obj1, obj2, obj3; + Dict *dict; + int length1, length2, length3; + int c; + int start[4]; + GBool binMode; + int i; + + // check if font is already embedded + for (i = 0; i < fontFileIDLen; ++i) { + if (fontFileIDs[i].num == id->num && + fontFileIDs[i].gen == id->gen) + return; + } + + // add entry to fontFileIDs list + if (fontFileIDLen >= fontFileIDSize) { + fontFileIDSize += 64; + fontFileIDs = (Ref *)greallocn(fontFileIDs, fontFileIDSize, sizeof(Ref)); + } + fontFileIDs[fontFileIDLen++] = *id; + + // get the font stream and info + refObj.initRef(id->num, id->gen); + refObj.fetch(xref, &strObj); + refObj.free(); + if (!strObj.isStream()) { + error(-1, "Embedded font file object is not a stream"); + goto err1; + } + if (!(dict = strObj.streamGetDict())) { + error(-1, "Embedded font stream is missing its dictionary"); + goto err1; + } + dict->lookup("Length1", &obj1); + dict->lookup("Length2", &obj2); + dict->lookup("Length3", &obj3); + if (!obj1.isInt() || !obj2.isInt() || !obj3.isInt()) { + error(-1, "Missing length fields in embedded font stream dictionary"); + obj1.free(); + obj2.free(); + obj3.free(); + goto err1; + } + length1 = obj1.getInt(); + length2 = obj2.getInt(); + length3 = obj3.getInt(); + obj1.free(); + obj2.free(); + obj3.free(); + + // beginning comment + writePSFmt("%%BeginResource: font {0:t}\n", psName); + embFontList->append("%%+ font "); + embFontList->append(psName->getCString()); + embFontList->append("\n"); + + // copy ASCII portion of font + strObj.streamReset(); + for (i = 0; i < length1 && (c = strObj.streamGetChar()) != EOF; ++i) { + writePSChar(c); + } + + // figure out if encrypted portion is binary or ASCII + binMode = gFalse; + for (i = 0; i < 4; ++i) { + start[i] = strObj.streamGetChar(); + if (start[i] == EOF) { + error(-1, "Unexpected end of file in embedded font stream"); + goto err1; + } + if (!((start[i] >= '0' && start[i] <= '9') || + (start[i] >= 'A' && start[i] <= 'F') || + (start[i] >= 'a' && start[i] <= 'f'))) + binMode = gTrue; + } + + // convert binary data to ASCII + if (binMode) { + for (i = 0; i < 4; ++i) { + writePSChar(hexChar[(start[i] >> 4) & 0x0f]); + writePSChar(hexChar[start[i] & 0x0f]); + } +#if 0 // this causes trouble for various PostScript printers + // if Length2 is incorrect (too small), font data gets chopped, so + // we take a few extra characters from the trailer just in case + length2 += length3 >= 8 ? 8 : length3; +#endif + while (i < length2) { + if ((c = strObj.streamGetChar()) == EOF) { + break; + } + writePSChar(hexChar[(c >> 4) & 0x0f]); + writePSChar(hexChar[c & 0x0f]); + if (++i % 32 == 0) { + writePSChar('\n'); + } + } + if (i % 32 > 0) { + writePSChar('\n'); + } + + // already in ASCII format -- just copy it + } else { + for (i = 0; i < 4; ++i) { + writePSChar(start[i]); + } + for (i = 4; i < length2; ++i) { + if ((c = strObj.streamGetChar()) == EOF) { + break; + } + writePSChar(c); + } + } + + // write padding and "cleartomark" + for (i = 0; i < 8; ++i) { + writePS("00000000000000000000000000000000" + "00000000000000000000000000000000\n"); + } + writePS("cleartomark\n"); + + // ending comment + writePS("%%EndResource\n"); + + err1: + strObj.streamClose(); + strObj.free(); +} + +//~ This doesn't handle .pfb files or binary eexec data (which only +//~ happens in pfb files?). +void PSOutputDev::setupExternalType1Font(GString *fileName, GString *psName) { + FILE *fontFile; + int c; + int i; + + // check if font is already embedded + for (i = 0; i < fontFileNameLen; ++i) { + if (!fontFileNames[i]->cmp(fileName)) { + return; + } + } + + // add entry to fontFileNames list + if (fontFileNameLen >= fontFileNameSize) { + fontFileNameSize += 64; + fontFileNames = (GString **)greallocn(fontFileNames, + fontFileNameSize, sizeof(GString *)); + psFileNames = (GString **)greallocn(psFileNames, + fontFileNameSize, sizeof(GString *)); + } + fontFileNames[fontFileNameLen] = fileName->copy(); + psFileNames[fontFileNameLen] = psName->copy(); + fontFileNameLen++; + + // beginning comment + writePSFmt("%%BeginResource: font {0:t}\n", psName); + embFontList->append("%%+ font "); + embFontList->append(psName->getCString()); + embFontList->append("\n"); + + // copy the font file + if (!(fontFile = fopen(fileName->getCString(), "rb"))) { + error(-1, "Couldn't open external font file"); + return; + } + while ((c = fgetc(fontFile)) != EOF) { + writePSChar(c); + } + fclose(fontFile); + + // ending comment + writePS("%%EndResource\n"); +} + +void PSOutputDev::setupEmbeddedType1CFont(GfxFont *font, Ref *id, + GString *psName) { + char *fontBuf; + int fontLen; + FoFiType1C *ffT1C; + int i; + + // check if font is already embedded + for (i = 0; i < fontFileIDLen; ++i) { + if (fontFileIDs[i].num == id->num && + fontFileIDs[i].gen == id->gen) + return; + } + + // add entry to fontFileIDs list + if (fontFileIDLen >= fontFileIDSize) { + fontFileIDSize += 64; + fontFileIDs = (Ref *)greallocn(fontFileIDs, fontFileIDSize, sizeof(Ref)); + } + fontFileIDs[fontFileIDLen++] = *id; + + // beginning comment + writePSFmt("%%BeginResource: font {0:t}\n", psName); + embFontList->append("%%+ font "); + embFontList->append(psName->getCString()); + embFontList->append("\n"); + + // convert it to a Type 1 font + fontBuf = font->readEmbFontFile(xref, &fontLen); + if ((ffT1C = FoFiType1C::make(fontBuf, fontLen))) { + ffT1C->convertToType1(psName->getCString(), NULL, gTrue, + outputFunc, outputStream); + delete ffT1C; + } + gfree(fontBuf); + + // ending comment + writePS("%%EndResource\n"); +} + +void PSOutputDev::setupEmbeddedOpenTypeT1CFont(GfxFont *font, Ref *id, + GString *psName) { + char *fontBuf; + int fontLen; + FoFiTrueType *ffTT; + int i; + + // check if font is already embedded + for (i = 0; i < fontFileIDLen; ++i) { + if (fontFileIDs[i].num == id->num && + fontFileIDs[i].gen == id->gen) + return; + } + + // add entry to fontFileIDs list + if (fontFileIDLen >= fontFileIDSize) { + fontFileIDSize += 64; + fontFileIDs = (Ref *)greallocn(fontFileIDs, fontFileIDSize, sizeof(Ref)); + } + fontFileIDs[fontFileIDLen++] = *id; + + // beginning comment + writePSFmt("%%BeginResource: font {0:t}\n", psName); + embFontList->append("%%+ font "); + embFontList->append(psName->getCString()); + embFontList->append("\n"); + + // convert it to a Type 1 font + fontBuf = font->readEmbFontFile(xref, &fontLen); + if ((ffTT = FoFiTrueType::make(fontBuf, fontLen))) { + if (ffTT->isOpenTypeCFF()) { + ffTT->convertToType1(psName->getCString(), NULL, gTrue, + outputFunc, outputStream); + } + delete ffTT; + } + gfree(fontBuf); + + // ending comment + writePS("%%EndResource\n"); +} + +void PSOutputDev::setupEmbeddedTrueTypeFont(GfxFont *font, Ref *id, + GString *psName) { + char *fontBuf; + int fontLen; + FoFiTrueType *ffTT; + Gushort *codeToGID; + int i; + + // check if font is already embedded + for (i = 0; i < fontFileIDLen; ++i) { + if (fontFileIDs[i].num == id->num && + fontFileIDs[i].gen == id->gen) { + psName->appendf("_{0:d}", nextTrueTypeNum++); + break; + } + } + + // add entry to fontFileIDs list + if (i == fontFileIDLen) { + if (fontFileIDLen >= fontFileIDSize) { + fontFileIDSize += 64; + fontFileIDs = (Ref *)greallocn(fontFileIDs, fontFileIDSize, sizeof(Ref)); + } + fontFileIDs[fontFileIDLen++] = *id; + } + + // beginning comment + writePSFmt("%%BeginResource: font {0:t}\n", psName); + embFontList->append("%%+ font "); + embFontList->append(psName->getCString()); + embFontList->append("\n"); + + // convert it to a Type 42 font + fontBuf = font->readEmbFontFile(xref, &fontLen); + if ((ffTT = FoFiTrueType::make(fontBuf, fontLen))) { + codeToGID = ((Gfx8BitFont *)font)->getCodeToGIDMap(ffTT); + ffTT->convertToType42(psName->getCString(), + ((Gfx8BitFont *)font)->getHasEncoding() + ? ((Gfx8BitFont *)font)->getEncoding() + : (char **)NULL, + codeToGID, outputFunc, outputStream); + if (codeToGID) { + if (font8InfoLen >= font8InfoSize) { + font8InfoSize += 16; + font8Info = (PSFont8Info *)greallocn(font8Info, + font8InfoSize, + sizeof(PSFont8Info)); + } + font8Info[font8InfoLen].fontID = *font->getID(); + font8Info[font8InfoLen].codeToGID = codeToGID; + ++font8InfoLen; + } + delete ffTT; + } + gfree(fontBuf); + + // ending comment + writePS("%%EndResource\n"); +} + +GString *PSOutputDev::setupExternalTrueTypeFont(GfxFont *font) { + GString *fileName; + char *fontBuf; + int fontLen; + FoFiTrueType *ffTT; + Gushort *codeToGID; + GString *psName; + int i; + + // check if font is already embedded + fileName = font->getExtFontFile(); + for (i = 0; i < fontFileNameLen; ++i) { + if (!fontFileNames[i]->cmp(fileName)) { + return psFileNames[i]->copy(); + } + } + + psName = filterPSName(font->getName()); + // add entry to fontFileNames list + if (i == fontFileNameLen) { + if (fontFileNameLen >= fontFileNameSize) { + fontFileNameSize += 64; + fontFileNames = + (GString **)greallocn(fontFileNames, + fontFileNameSize, sizeof(GString *)); + psFileNames = + (GString **)greallocn(psFileNames, + fontFileNameSize, sizeof(GString *)); + } + fontFileNames[fontFileNameLen] = fileName->copy(); + psFileNames[fontFileNameLen] = psName->copy(); + fontFileNameLen++; + } + + // beginning comment + writePSFmt("%%BeginResource: font {0:t}\n", psName); + embFontList->append("%%+ font "); + embFontList->append(psName->getCString()); + embFontList->append("\n"); + + // convert it to a Type 42 font + fontBuf = font->readExtFontFile(&fontLen); + if ((ffTT = FoFiTrueType::make(fontBuf, fontLen))) { + codeToGID = ((Gfx8BitFont *)font)->getCodeToGIDMap(ffTT); + ffTT->convertToType42(psName->getCString(), + ((Gfx8BitFont *)font)->getHasEncoding() + ? ((Gfx8BitFont *)font)->getEncoding() + : (char **)NULL, + codeToGID, outputFunc, outputStream); + if (codeToGID) { + if (font8InfoLen >= font8InfoSize) { + font8InfoSize += 16; + font8Info = (PSFont8Info *)greallocn(font8Info, + font8InfoSize, + sizeof(PSFont8Info)); + } + font8Info[font8InfoLen].fontID = *font->getID(); + font8Info[font8InfoLen].codeToGID = codeToGID; + ++font8InfoLen; + } + delete ffTT; + } + gfree(fontBuf); + + // ending comment + writePS("%%EndResource\n"); + return psName; +} + +GString *PSOutputDev::setupExternalCIDTrueTypeFont(GfxFont *font, GString *fileName, int faceIndex) { + FoFiTrueType *ffTT; + Gushort *codeToGID; + GString *psName; + int i; + GString *myFileName; + + myFileName = fileName->copy(); + if (faceIndex > 0) { + char tmp[32]; + sprintf(tmp, ",%d", faceIndex); + myFileName->append(tmp); + } + // check if font is already embedded + for (i = 0; i < fontFileNameLen; ++i) { + if (!fontFileNames[i]->cmp(myFileName)) { + delete myFileName; + return psFileNames[i]->copy(); + } + } + + psName = filterPSName(font->getName()); + // add entry to fontFileNames list + if (i == fontFileNameLen) { + if (fontFileNameLen >= fontFileNameSize) { + fontFileNameSize += 64; + fontFileNames = + (GString **)grealloc(fontFileNames, + fontFileNameSize * sizeof(GString *)); + psFileNames = + (GString **)grealloc(psFileNames, + fontFileNameSize * sizeof(GString *)); + } + } + fontFileNames[fontFileNameLen] = myFileName; + psFileNames[fontFileNameLen] = psName->copy(); + fontFileNameLen++; + + // beginning comment + writePSFmt("%%%%BeginResource: font %s\n", psName->getCString()); + embFontList->append("%%+ font "); + embFontList->append(psName->getCString()); + embFontList->append("\n"); + + // convert it to a CID type2 font + if ((ffTT = FoFiTrueType::load(fileName->getCString(), faceIndex))) { + int n = ((GfxCIDFont *)font)->getCIDToGIDLen(); + if (n) { + codeToGID = (Gushort *)gmalloc(n * sizeof(Gushort)); + memcpy(codeToGID, ((GfxCIDFont *)font)->getCIDToGID(), n * sizeof(Gushort)); + } else { + codeToGID = ((GfxCIDFont *)font)->getCodeToGIDMap(ffTT, &n); + } + if (globalParams->getPSLevel() >= psLevel3) { + // Level 3: use a CID font + ffTT->convertToCIDType2(psName->getCString(), + codeToGID, n, gTrue, + outputFunc, outputStream); + } else { + // otherwise: use a non-CID composite font + ffTT->convertToType0(psName->getCString(), + codeToGID, n, gTrue, + outputFunc, outputStream); + } + gfree(codeToGID); + delete ffTT; + } + + // ending comment + writePS("%%EndResource\n"); + return psName; +} + +void PSOutputDev::setupEmbeddedCIDType0Font(GfxFont *font, Ref *id, + GString *psName) { + char *fontBuf; + int fontLen; + FoFiType1C *ffT1C; + int i; + + // check if font is already embedded + for (i = 0; i < fontFileIDLen; ++i) { + if (fontFileIDs[i].num == id->num && + fontFileIDs[i].gen == id->gen) + return; + } + + // add entry to fontFileIDs list + if (fontFileIDLen >= fontFileIDSize) { + fontFileIDSize += 64; + fontFileIDs = (Ref *)greallocn(fontFileIDs, fontFileIDSize, sizeof(Ref)); + } + fontFileIDs[fontFileIDLen++] = *id; + + // beginning comment + writePSFmt("%%BeginResource: font {0:t}\n", psName); + embFontList->append("%%+ font "); + embFontList->append(psName->getCString()); + embFontList->append("\n"); + + // convert it to a Type 0 font + fontBuf = font->readEmbFontFile(xref, &fontLen); + if ((ffT1C = FoFiType1C::make(fontBuf, fontLen))) { + if (globalParams->getPSLevel() >= psLevel3) { + // Level 3: use a CID font + ffT1C->convertToCIDType0(psName->getCString(), outputFunc, outputStream); + } else { + // otherwise: use a non-CID composite font + ffT1C->convertToType0(psName->getCString(), outputFunc, outputStream); + } + delete ffT1C; + } + gfree(fontBuf); + + // ending comment + writePS("%%EndResource\n"); +} + +void PSOutputDev::setupEmbeddedCIDTrueTypeFont(GfxFont *font, Ref *id, + GString *psName, + GBool needVerticalMetrics) { + char *fontBuf; + int fontLen; + FoFiTrueType *ffTT; + int i; + + // check if font is already embedded + for (i = 0; i < fontFileIDLen; ++i) { + if (fontFileIDs[i].num == id->num && + fontFileIDs[i].gen == id->gen) { + psName->appendf("_{0:d}", nextTrueTypeNum++); + break; + } + } + + // add entry to fontFileIDs list + if (fontFileIDLen >= fontFileIDSize) { + fontFileIDSize += 64; + fontFileIDs = (Ref *)greallocn(fontFileIDs, fontFileIDSize, sizeof(Ref)); + } + fontFileIDs[fontFileIDLen++] = *id; + + // beginning comment + writePSFmt("%%BeginResource: font {0:t}\n", psName); + embFontList->append("%%+ font "); + embFontList->append(psName->getCString()); + embFontList->append("\n"); + + // convert it to a Type 0 font + fontBuf = font->readEmbFontFile(xref, &fontLen); + if ((ffTT = FoFiTrueType::make(fontBuf, fontLen))) { + if (globalParams->getPSLevel() >= psLevel3) { + // Level 3: use a CID font + ffTT->convertToCIDType2(psName->getCString(), + ((GfxCIDFont *)font)->getCIDToGID(), + ((GfxCIDFont *)font)->getCIDToGIDLen(), + needVerticalMetrics, + outputFunc, outputStream); + } else { + // otherwise: use a non-CID composite font + ffTT->convertToType0(psName->getCString(), + ((GfxCIDFont *)font)->getCIDToGID(), + ((GfxCIDFont *)font)->getCIDToGIDLen(), + needVerticalMetrics, + outputFunc, outputStream); + } + delete ffTT; + } + gfree(fontBuf); + + // ending comment + writePS("%%EndResource\n"); +} + +void PSOutputDev::setupEmbeddedOpenTypeCFFFont(GfxFont *font, Ref *id, + GString *psName) { + char *fontBuf; + int fontLen; + FoFiTrueType *ffTT; + int i; + + // check if font is already embedded + for (i = 0; i < fontFileIDLen; ++i) { + if (fontFileIDs[i].num == id->num && + fontFileIDs[i].gen == id->gen) + return; + } + + // add entry to fontFileIDs list + if (fontFileIDLen >= fontFileIDSize) { + fontFileIDSize += 64; + fontFileIDs = (Ref *)greallocn(fontFileIDs, fontFileIDSize, sizeof(Ref)); + } + fontFileIDs[fontFileIDLen++] = *id; + + // beginning comment + writePSFmt("%%BeginResource: font {0:t}\n", psName); + embFontList->append("%%+ font "); + embFontList->append(psName->getCString()); + embFontList->append("\n"); + + // convert it to a Type 0 font + fontBuf = font->readEmbFontFile(xref, &fontLen); + if ((ffTT = FoFiTrueType::make(fontBuf, fontLen))) { + if (ffTT->isOpenTypeCFF()) { + if (globalParams->getPSLevel() >= psLevel3) { + // Level 3: use a CID font + ffTT->convertToCIDType0(psName->getCString(), + outputFunc, outputStream); + } else { + // otherwise: use a non-CID composite font + ffTT->convertToType0(psName->getCString(), outputFunc, outputStream); + } + } + delete ffTT; + } + gfree(fontBuf); + + // ending comment + writePS("%%EndResource\n"); +} + +void PSOutputDev::setupType3Font(GfxFont *font, GString *psName, + Dict *parentResDict) { + Dict *resDict; + Dict *charProcs; + Object charProc; + Gfx *gfx; + PDFRectangle box; + double *m; + GString *buf; + int i; + + // set up resources used by font + if ((resDict = ((Gfx8BitFont *)font)->getResources())) { + inType3Char = gTrue; + setupResources(resDict); + inType3Char = gFalse; + } else { + resDict = parentResDict; + } + + // beginning comment + writePSFmt("%%BeginResource: font {0:t}\n", psName); + embFontList->append("%%+ font "); + embFontList->append(psName->getCString()); + embFontList->append("\n"); + + // font dictionary + writePS("8 dict begin\n"); + writePS("/FontType 3 def\n"); + m = font->getFontMatrix(); + writePSFmt("/FontMatrix [{0:.4g} {1:.4g} {2:.4g} {3:.4g} {4:.4g} {5:.4g}] def\n", + m[0], m[1], m[2], m[3], m[4], m[5]); + m = font->getFontBBox(); + writePSFmt("/FontBBox [{0:.4g} {1:.4g} {2:.4g} {3:.4g}] def\n", + m[0], m[1], m[2], m[3]); + writePS("/Encoding 256 array def\n"); + writePS(" 0 1 255 { Encoding exch /.notdef put } for\n"); + writePS("/BuildGlyph {\n"); + writePS(" exch /CharProcs get exch\n"); + writePS(" 2 copy known not { pop /.notdef } if\n"); + writePS(" get exec\n"); + writePS("} bind def\n"); + writePS("/BuildChar {\n"); + writePS(" 1 index /Encoding get exch get\n"); + writePS(" 1 index /BuildGlyph get exec\n"); + writePS("} bind def\n"); + if ((charProcs = ((Gfx8BitFont *)font)->getCharProcs())) { + writePSFmt("/CharProcs {0:d} dict def\n", charProcs->getLength()); + writePS("CharProcs begin\n"); + box.x1 = m[0]; + box.y1 = m[1]; + box.x2 = m[2]; + box.y2 = m[3]; + gfx = new Gfx(xref, this, resDict, &box, NULL); + inType3Char = gTrue; + for (i = 0; i < charProcs->getLength(); ++i) { + t3Cacheable = gFalse; + t3NeedsRestore = gFalse; + writePS("/"); + writePSName(charProcs->getKey(i)); + writePS(" {\n"); + gfx->display(charProcs->getVal(i, &charProc)); + charProc.free(); + if (t3String) { + if (t3Cacheable) { + buf = GString::format("{0:.4g} {1:.4g} {2:.4g} {3:.4g} {4:.4g} {5:.4g} setcachedevice\n", + t3WX, t3WY, t3LLX, t3LLY, t3URX, t3URY); + } else { + buf = GString::format("{0:.4g} {1:.4g} setcharwidth\n", t3WX, t3WY); + } + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + (*outputFunc)(outputStream, t3String->getCString(), + t3String->getLength()); + delete t3String; + t3String = NULL; + } + if (t3NeedsRestore) { + (*outputFunc)(outputStream, "Q\n", 2); + } + writePS("} def\n"); + } + inType3Char = gFalse; + delete gfx; + writePS("end\n"); + } + writePS("currentdict end\n"); + writePSFmt("/{0:t} exch definefont pop\n", psName); + + // ending comment + writePS("%%EndResource\n"); +} + +void PSOutputDev::setupImages(Dict *resDict) { + Object xObjDict, xObj, xObjRef, subtypeObj; + int i; + + if (!(mode == psModeForm || inType3Char || preload)) { + return; + } + + resDict->lookup("XObject", &xObjDict); + if (xObjDict.isDict()) { + for (i = 0; i < xObjDict.dictGetLength(); ++i) { + xObjDict.dictGetValNF(i, &xObjRef); + xObjDict.dictGetVal(i, &xObj); + if (xObj.isStream()) { + xObj.streamGetDict()->lookup("Subtype", &subtypeObj); + if (subtypeObj.isName("Image")) { + if (xObjRef.isRef()) { + setupImage(xObjRef.getRef(), xObj.getStream()); + } else { + error(-1, "Image in resource dict is not an indirect reference"); + } + } + subtypeObj.free(); + } + xObj.free(); + xObjRef.free(); + } + } + xObjDict.free(); +} + +void PSOutputDev::setupImage(Ref id, Stream *str) { + GBool useRLE, useCompressed, useASCIIHex; + GString *s; + int c; + int size, line, col, i; + + // check if image is already setup + for (i = 0; i < imgIDLen; ++i) { + if (imgIDs[i].num == id.num && imgIDs[i].gen == id.gen) { + return; + } + } + + // add entry to imgIDs list + if (imgIDLen >= imgIDSize) { + if (imgIDSize == 0) { + imgIDSize = 64; + } else { + imgIDSize *= 2; + } + imgIDs = (Ref *)greallocn(imgIDs, imgIDSize, sizeof(Ref)); + } + imgIDs[imgIDLen++] = id; + + // filters + //~ this does not correctly handle the DeviceN color space + //~ -- need to use DeviceNRecoder + if (level < psLevel2) { + useRLE = gFalse; + useCompressed = gFalse; + useASCIIHex = gTrue; + } else { + s = str->getPSFilter(level < psLevel3 ? 2 : 3, ""); + if (s) { + useRLE = gFalse; + useCompressed = gTrue; + delete s; + } else { + useRLE = gTrue; + useCompressed = gFalse; + } + useASCIIHex = level == psLevel1 || level == psLevel1Sep || + globalParams->getPSASCIIHex(); + } + if (useCompressed) { + str = str->getUndecodedStream(); + } + if (useRLE) { + str = new RunLengthEncoder(str); + } + if (useASCIIHex) { + str = new ASCIIHexEncoder(str); + } else { + str = new ASCII85Encoder(str); + } + + // compute image data size + str->reset(); + col = size = 0; + do { + do { + c = str->getChar(); + } while (c == '\n' || c == '\r'); + if (c == (useASCIIHex ? '>' : '~') || c == EOF) { + break; + } + if (c == 'z') { + ++col; + } else { + ++col; + for (i = 1; i <= (useASCIIHex ? 1 : 4); ++i) { + do { + c = str->getChar(); + } while (c == '\n' || c == '\r'); + if (c == (useASCIIHex ? '>' : '~') || c == EOF) { + break; + } + ++col; + } + } + if (col > 225) { + ++size; + col = 0; + } + } while (c != (useASCIIHex ? '>' : '~') && c != EOF); + // add one entry for the final line of data; add another entry + // because the RunLengthDecode filter may read past the end + ++size; + if (useRLE) { + ++size; + } + writePSFmt("{0:d} array dup /ImData_{1:d}_{2:d} exch def\n", + size, id.num, id.gen); + str->close(); + + // write the data into the array + str->reset(); + line = col = 0; + writePS((char *)(useASCIIHex ? "dup 0 <" : "dup 0 <~")); + do { + do { + c = str->getChar(); + } while (c == '\n' || c == '\r'); + if (c == (useASCIIHex ? '>' : '~') || c == EOF) { + break; + } + if (c == 'z') { + writePSChar(c); + ++col; + } else { + writePSChar(c); + ++col; + for (i = 1; i <= (useASCIIHex ? 1 : 4); ++i) { + do { + c = str->getChar(); + } while (c == '\n' || c == '\r'); + if (c == (useASCIIHex ? '>' : '~') || c == EOF) { + break; + } + writePSChar(c); + ++col; + } + } + // each line is: "dup nnnnn <~...data...~> put" + // so max data length = 255 - 20 = 235 + // chunks are 1 or 4 bytes each, so we have to stop at 232 + // but make it 225 just to be safe + if (col > 225) { + writePS((char *)(useASCIIHex ? "> put\n" : "~> put\n")); + ++line; + writePSFmt((char *)(useASCIIHex ? "dup {0:d} <" : "dup {0:d} <~"), line); + col = 0; + } + } while (c != (useASCIIHex ? '>' : '~') && c != EOF); + writePS((char *)(useASCIIHex ? "> put\n" : "~> put\n")); + if (useRLE) { + ++line; + writePSFmt("{0:d} <> put\n", line); + } else { + writePS("pop\n"); + } + str->close(); + + delete str; +} + +void PSOutputDev::setupForms(Dict *resDict) { + Object xObjDict, xObj, xObjRef, subtypeObj; + int i; + + if (!preload) { + return; + } + + resDict->lookup("XObject", &xObjDict); + if (xObjDict.isDict()) { + for (i = 0; i < xObjDict.dictGetLength(); ++i) { + xObjDict.dictGetValNF(i, &xObjRef); + xObjDict.dictGetVal(i, &xObj); + if (xObj.isStream()) { + xObj.streamGetDict()->lookup("Subtype", &subtypeObj); + if (subtypeObj.isName("Form")) { + if (xObjRef.isRef()) { + setupForm(xObjRef.getRef(), &xObj); + } else { + error(-1, "Form in resource dict is not an indirect reference"); + } + } + subtypeObj.free(); + } + xObj.free(); + xObjRef.free(); + } + } + xObjDict.free(); +} + +void PSOutputDev::setupForm(Ref id, Object *strObj) { + Dict *dict, *resDict; + Object matrixObj, bboxObj, resObj, obj1; + double m[6], bbox[4]; + PDFRectangle box; + Gfx *gfx; + int i; + + // check if form is already defined + for (i = 0; i < formIDLen; ++i) { + if (formIDs[i].num == id.num && formIDs[i].gen == id.gen) { + return; + } + } + + // add entry to formIDs list + if (formIDLen >= formIDSize) { + if (formIDSize == 0) { + formIDSize = 64; + } else { + formIDSize *= 2; + } + formIDs = (Ref *)greallocn(formIDs, formIDSize, sizeof(Ref)); + } + formIDs[formIDLen++] = id; + + dict = strObj->streamGetDict(); + + // get bounding box + dict->lookup("BBox", &bboxObj); + if (!bboxObj.isArray()) { + bboxObj.free(); + error(-1, "Bad form bounding box"); + return; + } + for (i = 0; i < 4; ++i) { + bboxObj.arrayGet(i, &obj1); + bbox[i] = obj1.getNum(); + obj1.free(); + } + bboxObj.free(); + + // get matrix + dict->lookup("Matrix", &matrixObj); + if (matrixObj.isArray()) { + for (i = 0; i < 6; ++i) { + matrixObj.arrayGet(i, &obj1); + m[i] = obj1.getNum(); + obj1.free(); + } + } else { + m[0] = 1; m[1] = 0; + m[2] = 0; m[3] = 1; + m[4] = 0; m[5] = 0; + } + matrixObj.free(); + + // get resources + dict->lookup("Resources", &resObj); + resDict = resObj.isDict() ? resObj.getDict() : (Dict *)NULL; + + writePSFmt("/f_{0:d}_{1:d} {{\n", id.num, id.gen); + writePS("q\n"); + writePSFmt("[{0:.4g} {1:.4g} {2:.4g} {3:.4g} {4:.4g} {5:.4g}] cm\n", + m[0], m[1], m[2], m[3], m[4], m[5]); + + box.x1 = bbox[0]; + box.y1 = bbox[1]; + box.x2 = bbox[2]; + box.y2 = bbox[3]; + gfx = new Gfx(xref, this, resDict, &box, &box); + gfx->display(strObj); + delete gfx; + + writePS("Q\n"); + writePS("} def\n"); + + resObj.free(); +} + +GBool PSOutputDev::checkPageSlice(Page *page, double /*hDPI*/, double /*vDPI*/, + int rotateA, GBool useMediaBox, GBool crop, + int sliceX, int sliceY, + int sliceW, int sliceH, + GBool printing, Catalog *catalog, + GBool (*abortCheckCbk)(void *data), + void *abortCheckCbkData) { +#if HAVE_SPLASH + PreScanOutputDev *scan; + GBool rasterize; + SplashOutputDev *splashOut; + SplashColor paperColor; + PDFRectangle box; + GfxState *state; + SplashBitmap *bitmap; + Stream *str0, *str; + Object obj; + Guchar *p; + Guchar col[4]; + double m0, m1, m2, m3, m4, m5; + int c, w, h, x, y, comp, i; + + if (!forceRasterize) { + scan = new PreScanOutputDev(); + page->displaySlice(scan, 72, 72, rotateA, useMediaBox, crop, + sliceX, sliceY, sliceW, sliceH, + printing, catalog, abortCheckCbk, abortCheckCbkData); + rasterize = scan->usesTransparency(); + delete scan; + } else { + rasterize = true; + } + if (!rasterize) { + return gTrue; + } + + // rasterize the page + if (level == psLevel1) { + paperColor[0] = 0xff; + splashOut = new SplashOutputDev(splashModeMono8, 1, gFalse, + paperColor, gTrue, gFalse); +#if SPLASH_CMYK + } else if (level == psLevel1Sep) { + paperColor[0] = paperColor[1] = paperColor[2] = paperColor[3] = 0; + splashOut = new SplashOutputDev(splashModeCMYK8, 1, gFalse, + paperColor, gTrue, gFalse); +#endif + } else { + paperColor[0] = paperColor[1] = paperColor[2] = 0xff; + splashOut = new SplashOutputDev(splashModeRGB8, 1, gFalse, + paperColor, gTrue, gFalse); + } + splashOut->startDoc(xref); + page->displaySlice(splashOut, splashDPI, splashDPI, rotateA, + useMediaBox, crop, + sliceX, sliceY, sliceW, sliceH, + printing, catalog, abortCheckCbk, abortCheckCbkData); + + // start the PS page + page->makeBox(splashDPI, splashDPI, rotateA, useMediaBox, gFalse, + sliceX, sliceY, sliceW, sliceH, &box, &crop); + rotateA += page->getRotate(); + if (rotateA >= 360) { + rotateA -= 360; + } else if (rotateA < 0) { + rotateA += 360; + } + state = new GfxState(splashDPI, splashDPI, &box, rotateA, gFalse); + startPage(page->getNum(), state); + delete state; + switch (rotateA) { + case 0: + default: // this should never happen + m0 = box.x2 - box.x1; + m1 = 0; + m2 = 0; + m3 = box.y2 - box.y1; + m4 = box.x1; + m5 = box.y1; + break; + case 90: + m0 = 0; + m1 = box.y2 - box.y1; + m2 = -(box.x2 - box.x1); + m3 = 0; + m4 = box.x2; + m5 = box.y1; + break; + case 180: + m0 = -(box.x2 - box.x1); + m1 = 0; + m2 = 0; + m3 = -(box.y2 - box.y1); + m4 = box.x2; + m5 = box.y2; + break; + case 270: + m0 = 0; + m1 = -(box.y2 - box.y1); + m2 = box.x2 - box.x1; + m3 = 0; + m4 = box.x1; + m5 = box.y2; + break; + } + + //~ need to add the process colors + + // draw the rasterized image + bitmap = splashOut->getBitmap(); + w = bitmap->getWidth(); + h = bitmap->getHeight(); + writePS("gsave\n"); + writePSFmt("[{0:.4g} {1:.4g} {2:.4g} {3:.4g} {4:.4g} {5:.4g}] concat\n", + m0, m1, m2, m3, m4, m5); + switch (level) { + case psLevel1: + writePSFmt("{0:d} {1:d} 8 [{2:d} 0 0 {3:d} 0 {4:d}] pdfIm1\n", + w, h, w, -h, h); + p = bitmap->getDataPtr(); + i = 0; + for (y = 0; y < h; ++y) { + for (x = 0; x < w; ++x) { + writePSFmt("{0:02x}", *p++); + if (++i == 32) { + writePSChar('\n'); + i = 0; + } + } + } + if (i != 0) { + writePSChar('\n'); + } + break; + case psLevel1Sep: + writePSFmt("{0:d} {1:d} 8 [{2:d} 0 0 {3:d} 0 {4:d}] pdfIm1Sep\n", + w, h, w, -h, h); + p = bitmap->getDataPtr(); + i = 0; + col[0] = col[1] = col[2] = col[3] = 0; + for (y = 0; y < h; ++y) { + for (comp = 0; comp < 4; ++comp) { + for (x = 0; x < w; ++x) { + writePSFmt("{0:02x}", p[4*x + comp]); + col[comp] |= p[4*x + comp]; + if (++i == 32) { + writePSChar('\n'); + i = 0; + } + } + } + p += bitmap->getRowSize(); + } + if (i != 0) { + writePSChar('\n'); + } + if (col[0]) { + processColors |= psProcessCyan; + } + if (col[1]) { + processColors |= psProcessMagenta; + } + if (col[2]) { + processColors |= psProcessYellow; + } + if (col[3]) { + processColors |= psProcessBlack; + } + break; + case psLevel2: + case psLevel2Sep: + case psLevel3: + case psLevel3Sep: + writePS("/DeviceRGB setcolorspace\n"); + writePS("<<\n /ImageType 1\n"); + writePSFmt(" /Width {0:d}\n", bitmap->getWidth()); + writePSFmt(" /Height {0:d}\n", bitmap->getHeight()); + writePSFmt(" /ImageMatrix [{0:d} 0 0 {1:d} 0 {2:d}]\n", w, -h, h); + writePS(" /BitsPerComponent 8\n"); + writePS(" /Decode [0 1 0 1 0 1]\n"); + writePS(" /DataSource currentfile\n"); + if (globalParams->getPSASCIIHex()) { + writePS(" /ASCIIHexDecode filter\n"); + } else { + writePS(" /ASCII85Decode filter\n"); + } + writePS(" /RunLengthDecode filter\n"); + writePS(">>\n"); + writePS("image\n"); + obj.initNull(); + str0 = new MemStream((char *)bitmap->getDataPtr(), 0, w * h * 3, &obj); + str = new RunLengthEncoder(str0); + if (globalParams->getPSASCIIHex()) { + str = new ASCIIHexEncoder(str); + } else { + str = new ASCII85Encoder(str); + } + str->reset(); + while ((c = str->getChar()) != EOF) { + writePSChar(c); + } + str->close(); + delete str; + delete str0; + processColors |= psProcessCMYK; + break; + } + delete splashOut; + writePS("grestore\n"); + + // finish the PS page + endPage(); + + return gFalse; +#else + return gTrue; +#endif +} + +void PSOutputDev::startPage(int pageNum, GfxState *state) { + int x1, y1, x2, y2, width, height; + int imgWidth, imgHeight, imgWidth2, imgHeight2; + GBool landscape; + + + if (mode == psModePS) { + writePSFmt("%%Page: {0:d} {1:d}\n", pageNum, seqPage); + writePS("%%BeginPageSetup\n"); + } + + // underlays + if (underlayCbk) { + (*underlayCbk)(this, underlayCbkData); + } + if (overlayCbk) { + saveState(NULL); + } + + switch (mode) { + + case psModePS: + // rotate, translate, and scale page + imgWidth = imgURX - imgLLX; + imgHeight = imgURY - imgLLY; + x1 = (int)floor(state->getX1()); + y1 = (int)floor(state->getY1()); + x2 = (int)ceil(state->getX2()); + y2 = (int)ceil(state->getY2()); + width = x2 - x1; + height = y2 - y1; + tx = ty = 0; + // rotation and portrait/landscape mode + if (rotate0 >= 0) { + rotate = (360 - rotate0) % 360; + landscape = gFalse; + } else { + rotate = (360 - state->getRotate()) % 360; + if (rotate == 0 || rotate == 180) { + if (width > height && width > imgWidth) { + rotate += 90; + landscape = gTrue; + } else { + landscape = gFalse; + } + } else { // rotate == 90 || rotate == 270 + if (height > width && height > imgWidth) { + rotate = 270 - rotate; + landscape = gTrue; + } else { + landscape = gFalse; + } + } + } + writePSFmt("%%PageOrientation: {0:s}\n", + landscape ? "Landscape" : "Portrait"); + writePS("pdfStartPage\n"); + if (rotate == 0) { + imgWidth2 = imgWidth; + imgHeight2 = imgHeight; + } else if (rotate == 90) { + writePS("90 rotate\n"); + ty = -imgWidth; + imgWidth2 = imgHeight; + imgHeight2 = imgWidth; + } else if (rotate == 180) { + writePS("180 rotate\n"); + imgWidth2 = imgWidth; + imgHeight2 = imgHeight; + tx = -imgWidth; + ty = -imgHeight; + } else { // rotate == 270 + writePS("270 rotate\n"); + tx = -imgHeight; + imgWidth2 = imgHeight; + imgHeight2 = imgWidth; + } + // shrink or expand + if (xScale0 > 0 && yScale0 > 0) { + xScale = xScale0; + yScale = yScale0; + } else if ((globalParams->getPSShrinkLarger() && + (width > imgWidth2 || height > imgHeight2)) || + (globalParams->getPSExpandSmaller() && + (width < imgWidth2 && height < imgHeight2))) { + xScale = (double)imgWidth2 / (double)width; + yScale = (double)imgHeight2 / (double)height; + if (yScale < xScale) { + xScale = yScale; + } else { + yScale = xScale; + } + } else { + xScale = yScale = 1; + } + // deal with odd bounding boxes or clipping + if (clipLLX0 < clipURX0 && clipLLY0 < clipURY0) { + tx -= xScale * clipLLX0; + ty -= yScale * clipLLY0; + } else { + tx -= xScale * x1; + ty -= yScale * y1; + } + // center + if (tx0 >= 0 && ty0 >= 0) { + tx += rotate == 0 ? tx0 : ty0; + ty += rotate == 0 ? ty0 : -tx0; + } else if (globalParams->getPSCenter()) { + if (clipLLX0 < clipURX0 && clipLLY0 < clipURY0) { + tx += (imgWidth2 - xScale * (clipURX0 - clipLLX0)) / 2; + ty += (imgHeight2 - yScale * (clipURY0 - clipLLY0)) / 2; + } else { + tx += (imgWidth2 - xScale * width) / 2; + ty += (imgHeight2 - yScale * height) / 2; + } + } + tx += rotate == 0 ? imgLLX : imgLLY; + ty += rotate == 0 ? imgLLY : -imgLLX; + if (tx != 0 || ty != 0) { + writePSFmt("{0:.4g} {1:.4g} translate\n", tx, ty); + } + if (xScale != 1 || yScale != 1) { + writePSFmt("{0:.4f} {1:.4f} scale\n", xScale, yScale); + } + if (clipLLX0 < clipURX0 && clipLLY0 < clipURY0) { + writePSFmt("{0:.4g} {1:.4g} {2:.4g} {3:.4g} re W\n", + clipLLX0, clipLLY0, clipURX0 - clipLLX0, clipURY0 - clipLLY0); + } else { + writePSFmt("{0:d} {1:d} {2:d} {3:d} re W\n", x1, y1, x2 - x1, y2 - y1); + } + + writePS("%%EndPageSetup\n"); + ++seqPage; + break; + + case psModeEPS: + writePS("pdfStartPage\n"); + tx = ty = 0; + rotate = (360 - state->getRotate()) % 360; + if (rotate == 0) { + } else if (rotate == 90) { + writePS("90 rotate\n"); + tx = -epsX1; + ty = -epsY2; + } else if (rotate == 180) { + writePS("180 rotate\n"); + tx = -(epsX1 + epsX2); + ty = -(epsY1 + epsY2); + } else { // rotate == 270 + writePS("270 rotate\n"); + tx = -epsX2; + ty = -epsY1; + } + if (tx != 0 || ty != 0) { + writePSFmt("{0:.4g} {1:.4g} translate\n", tx, ty); + } + xScale = yScale = 1; + break; + + case psModeForm: + writePS("/PaintProc {\n"); + writePS("begin xpdf begin\n"); + writePS("pdfStartPage\n"); + tx = ty = 0; + xScale = yScale = 1; + rotate = 0; + break; + } +} + +void PSOutputDev::endPage() { + if (overlayCbk) { + restoreState(NULL); + (*overlayCbk)(this, overlayCbkData); + } + + + if (mode == psModeForm) { + writePS("pdfEndPage\n"); + writePS("end end\n"); + writePS("} def\n"); + writePS("end end\n"); + } else { + if (!manualCtrl) { + writePS("showpage\n"); + } + writePS("%%PageTrailer\n"); + writePageTrailer(); + } +} + +void PSOutputDev::saveState(GfxState * /*state*/) { + writePS("q\n"); + ++numSaves; +} + +void PSOutputDev::restoreState(GfxState * /*state*/) { + writePS("Q\n"); + --numSaves; +} + +void PSOutputDev::updateCTM(GfxState * /*state*/, double m11, double m12, + double m21, double m22, double m31, double m32) { + writePSFmt("[{0:.4g} {1:.4g} {2:.4g} {3:.4g} {4:.4g} {5:.4g}] cm\n", + m11, m12, m21, m22, m31, m32); +} + +void PSOutputDev::updateLineDash(GfxState *state) { + double *dash; + double start; + int length, i; + + state->getLineDash(&dash, &length, &start); + writePS("["); + for (i = 0; i < length; ++i) { + writePSFmt("{0:.4g}{1:w}", + dash[i] < 0 ? 0 : dash[i], + (i == length-1) ? 0 : 1); + } + writePSFmt("] {0:.4g} d\n", start); +} + +void PSOutputDev::updateFlatness(GfxState *state) { + writePSFmt("{0:d} i\n", state->getFlatness()); +} + +void PSOutputDev::updateLineJoin(GfxState *state) { + writePSFmt("{0:d} j\n", state->getLineJoin()); +} + +void PSOutputDev::updateLineCap(GfxState *state) { + writePSFmt("{0:d} J\n", state->getLineCap()); +} + +void PSOutputDev::updateMiterLimit(GfxState *state) { + writePSFmt("{0:.4g} M\n", state->getMiterLimit()); +} + +void PSOutputDev::updateLineWidth(GfxState *state) { + writePSFmt("{0:.4g} w\n", state->getLineWidth()); +} + +void PSOutputDev::updateFillColorSpace(GfxState *state) { + switch (level) { + case psLevel1: + case psLevel1Sep: + break; + case psLevel2: + case psLevel3: + if (state->getFillColorSpace()->getMode() != csPattern) { + dumpColorSpaceL2(state->getFillColorSpace(), gTrue, gFalse, gFalse); + writePS(" cs\n"); + } + break; + case psLevel2Sep: + case psLevel3Sep: + break; + } +} + +void PSOutputDev::updateStrokeColorSpace(GfxState *state) { + switch (level) { + case psLevel1: + case psLevel1Sep: + break; + case psLevel2: + case psLevel3: + if (state->getStrokeColorSpace()->getMode() != csPattern) { + dumpColorSpaceL2(state->getStrokeColorSpace(), gTrue, gFalse, gFalse); + writePS(" CS\n"); + } + break; + case psLevel2Sep: + case psLevel3Sep: + break; + } +} + +void PSOutputDev::updateFillColor(GfxState *state) { + GfxColor color; + GfxColor *colorPtr; + GfxGray gray; + GfxCMYK cmyk; + GfxSeparationColorSpace *sepCS; + double c, m, y, k; + int i; + + switch (level) { + case psLevel1: + state->getFillGray(&gray); + writePSFmt("{0:.4g} g\n", colToDbl(gray)); + break; + case psLevel1Sep: + state->getFillCMYK(&cmyk); + c = colToDbl(cmyk.c); + m = colToDbl(cmyk.m); + y = colToDbl(cmyk.y); + k = colToDbl(cmyk.k); + writePSFmt("{0:.4g} {1:.4g} {2:.4g} {3:.4g} k\n", c, m, y, k); + addProcessColor(c, m, y, k); + break; + case psLevel2: + case psLevel3: + if (state->getFillColorSpace()->getMode() != csPattern) { + colorPtr = state->getFillColor(); + writePS("["); + for (i = 0; i < state->getFillColorSpace()->getNComps(); ++i) { + if (i > 0) { + writePS(" "); + } + writePSFmt("{0:.4g}", colToDbl(colorPtr->c[i])); + } + writePS("] sc\n"); + } + break; + case psLevel2Sep: + case psLevel3Sep: + if (state->getFillColorSpace()->getMode() == csSeparation) { + sepCS = (GfxSeparationColorSpace *)state->getFillColorSpace(); + color.c[0] = gfxColorComp1; + sepCS->getCMYK(&color, &cmyk); + writePSFmt("{0:.4g} {1:.4g} {2:.4g} {3:.4g} {4:.4g} ({5:t}) ck\n", + colToDbl(state->getFillColor()->c[0]), + colToDbl(cmyk.c), colToDbl(cmyk.m), + colToDbl(cmyk.y), colToDbl(cmyk.k), + sepCS->getName()); + addCustomColor(sepCS); + } else { + state->getFillCMYK(&cmyk); + c = colToDbl(cmyk.c); + m = colToDbl(cmyk.m); + y = colToDbl(cmyk.y); + k = colToDbl(cmyk.k); + writePSFmt("{0:.4g} {1:.4g} {2:.4g} {3:.4g} k\n", c, m, y, k); + addProcessColor(c, m, y, k); + } + break; + } + t3Cacheable = gFalse; +} + +void PSOutputDev::updateStrokeColor(GfxState *state) { + GfxColor color; + GfxColor *colorPtr; + GfxGray gray; + GfxCMYK cmyk; + GfxSeparationColorSpace *sepCS; + double c, m, y, k; + int i; + + switch (level) { + case psLevel1: + state->getStrokeGray(&gray); + writePSFmt("{0:.4g} G\n", colToDbl(gray)); + break; + case psLevel1Sep: + state->getStrokeCMYK(&cmyk); + c = colToDbl(cmyk.c); + m = colToDbl(cmyk.m); + y = colToDbl(cmyk.y); + k = colToDbl(cmyk.k); + writePSFmt("{0:.4g} {1:.4g} {2:.4g} {3:.4g} K\n", c, m, y, k); + addProcessColor(c, m, y, k); + break; + case psLevel2: + case psLevel3: + if (state->getStrokeColorSpace()->getMode() != csPattern) { + colorPtr = state->getStrokeColor(); + writePS("["); + for (i = 0; i < state->getStrokeColorSpace()->getNComps(); ++i) { + if (i > 0) { + writePS(" "); + } + writePSFmt("{0:.4g}", colToDbl(colorPtr->c[i])); + } + writePS("] SC\n"); + } + break; + case psLevel2Sep: + case psLevel3Sep: + if (state->getStrokeColorSpace()->getMode() == csSeparation) { + sepCS = (GfxSeparationColorSpace *)state->getStrokeColorSpace(); + color.c[0] = gfxColorComp1; + sepCS->getCMYK(&color, &cmyk); + writePSFmt("{0:.4g} {1:.4g} {2:.4g} {3:.4g} {4:.4g} ({5:t}) CK\n", + colToDbl(state->getStrokeColor()->c[0]), + colToDbl(cmyk.c), colToDbl(cmyk.m), + colToDbl(cmyk.y), colToDbl(cmyk.k), + sepCS->getName()); + addCustomColor(sepCS); + } else { + state->getStrokeCMYK(&cmyk); + c = colToDbl(cmyk.c); + m = colToDbl(cmyk.m); + y = colToDbl(cmyk.y); + k = colToDbl(cmyk.k); + writePSFmt("{0:.4g} {1:.4g} {2:.4g} {3:.4g} K\n", c, m, y, k); + addProcessColor(c, m, y, k); + } + break; + } + t3Cacheable = gFalse; +} + +void PSOutputDev::addProcessColor(double c, double m, double y, double k) { + if (c > 0) { + processColors |= psProcessCyan; + } + if (m > 0) { + processColors |= psProcessMagenta; + } + if (y > 0) { + processColors |= psProcessYellow; + } + if (k > 0) { + processColors |= psProcessBlack; + } +} + +void PSOutputDev::addCustomColor(GfxSeparationColorSpace *sepCS) { + PSOutCustomColor *cc; + GfxColor color; + GfxCMYK cmyk; + + for (cc = customColors; cc; cc = cc->next) { + if (!cc->name->cmp(sepCS->getName())) { + return; + } + } + color.c[0] = gfxColorComp1; + sepCS->getCMYK(&color, &cmyk); + cc = new PSOutCustomColor(colToDbl(cmyk.c), colToDbl(cmyk.m), + colToDbl(cmyk.y), colToDbl(cmyk.k), + sepCS->getName()->copy()); + cc->next = customColors; + customColors = cc; +} + +void PSOutputDev::updateFillOverprint(GfxState *state) { + if (level >= psLevel2) { + writePSFmt("{0:s} op\n", state->getFillOverprint() ? "true" : "false"); + } +} + +void PSOutputDev::updateStrokeOverprint(GfxState *state) { + if (level >= psLevel2) { + writePSFmt("{0:s} OP\n", state->getStrokeOverprint() ? "true" : "false"); + } +} + +void PSOutputDev::updateTransfer(GfxState *state) { + Function **funcs; + int i; + + funcs = state->getTransfer(); + if (funcs[0] && funcs[1] && funcs[2] && funcs[3]) { + if (level >= psLevel2) { + for (i = 0; i < 4; ++i) { + cvtFunction(funcs[i]); + } + writePS("setcolortransfer\n"); + } else { + cvtFunction(funcs[3]); + writePS("settransfer\n"); + } + } else if (funcs[0]) { + cvtFunction(funcs[0]); + writePS("settransfer\n"); + } else { + writePS("{} settransfer\n"); + } +} + +void PSOutputDev::updateFont(GfxState *state) { + if (state->getFont()) { + writePSFmt("/F{0:d}_{1:d} {2:.4g} Tf\n", + state->getFont()->getID()->num, state->getFont()->getID()->gen, + fabs(state->getFontSize()) < 0.00001 ? 0.00001 + : state->getFontSize()); + } +} + +void PSOutputDev::updateTextMat(GfxState *state) { + double *mat; + + mat = state->getTextMat(); + if (fabs(mat[0] * mat[3] - mat[1] * mat[2]) < 0.00001) { + // avoid a singular (or close-to-singular) matrix + writePSFmt("[0.00001 0 0 0.00001 {0:.4g} {1:.4g}] Tm\n", mat[4], mat[5]); + } else { + writePSFmt("[{0:.4g} {1:.4g} {2:.4g} {3:.4g} {4:.4g} {5:.4g}] Tm\n", + mat[0], mat[1], mat[2], mat[3], mat[4], mat[5]); + } +} + +void PSOutputDev::updateCharSpace(GfxState *state) { + writePSFmt("{0:.4g} Tc\n", state->getCharSpace()); +} + +void PSOutputDev::updateRender(GfxState *state) { + int rm; + + rm = state->getRender(); + writePSFmt("{0:d} Tr\n", rm); + rm &= 3; + if (rm != 0 && rm != 3) { + t3Cacheable = gFalse; + } +} + +void PSOutputDev::updateRise(GfxState *state) { + writePSFmt("{0:.4g} Ts\n", state->getRise()); +} + +void PSOutputDev::updateWordSpace(GfxState *state) { + writePSFmt("{0:.4g} Tw\n", state->getWordSpace()); +} + +void PSOutputDev::updateHorizScaling(GfxState *state) { + double h; + + h = state->getHorizScaling(); + if (fabs(h) < 0.01) { + h = 0.01; + } + writePSFmt("{0:.4g} Tz\n", h); +} + +void PSOutputDev::updateTextPos(GfxState *state) { + writePSFmt("{0:.4g} {1:.4g} Td\n", state->getLineX(), state->getLineY()); +} + +void PSOutputDev::updateTextShift(GfxState *state, double shift) { + if (state->getFont()->getWMode()) { + writePSFmt("{0:.4g} TJmV\n", shift); + } else { + writePSFmt("{0:.4g} TJm\n", shift); + } +} + +void PSOutputDev::stroke(GfxState *state) { + doPath(state->getPath()); + if (t3String) { + // if we're construct a cacheable Type 3 glyph, we need to do + // everything in the fill color + writePS("Sf\n"); + } else { + writePS("S\n"); + } +} + +void PSOutputDev::fill(GfxState *state) { + doPath(state->getPath()); + writePS("f\n"); +} + +void PSOutputDev::eoFill(GfxState *state) { + doPath(state->getPath()); + writePS("f*\n"); +} + +void PSOutputDev::tilingPatternFill(GfxState * /*state*/, Object *str, + int paintType, Dict *resDict, + double *mat, double *bbox, + int x0, int y0, int x1, int y1, + double xStep, double yStep) { + PDFRectangle box; + Gfx *gfx; + + // define a Type 3 font + writePS("8 dict begin\n"); + writePS("/FontType 3 def\n"); + writePS("/FontMatrix [1 0 0 1 0 0] def\n"); + writePSFmt("/FontBBox [{0:.4g} {1:.4g} {2:.4g} {3:.4g}] def\n", + bbox[0], bbox[1], bbox[2], bbox[3]); + writePS("/Encoding 256 array def\n"); + writePS(" 0 1 255 { Encoding exch /.notdef put } for\n"); + writePS(" Encoding 120 /x put\n"); + writePS("/BuildGlyph {\n"); + writePS(" exch /CharProcs get exch\n"); + writePS(" 2 copy known not { pop /.notdef } if\n"); + writePS(" get exec\n"); + writePS("} bind def\n"); + writePS("/BuildChar {\n"); + writePS(" 1 index /Encoding get exch get\n"); + writePS(" 1 index /BuildGlyph get exec\n"); + writePS("} bind def\n"); + writePS("/CharProcs 1 dict def\n"); + writePS("CharProcs begin\n"); + box.x1 = bbox[0]; + box.y1 = bbox[1]; + box.x2 = bbox[2]; + box.y2 = bbox[3]; + gfx = new Gfx(xref, this, resDict, &box, NULL); + writePS("/x {\n"); + if (paintType == 2) { + writePSFmt("{0:.4g} 0 {1:.4g} {2:.4g} {3:.4g} {4:.4g} setcachedevice\n", + xStep, bbox[0], bbox[1], bbox[2], bbox[3]); + } else { + if (x1 - 1 <= x0) { + writePS("1 0 setcharwidth\n"); + } else { + writePSFmt("{0:.4g} 0 setcharwidth\n", xStep); + } + } + inType3Char = gTrue; + ++numTilingPatterns; + gfx->display(str); + --numTilingPatterns; + inType3Char = gFalse; + writePS("} def\n"); + delete gfx; + writePS("end\n"); + writePS("currentdict end\n"); + writePSFmt("/xpdfTile{0:d} exch definefont pop\n", numTilingPatterns); + + // draw the tiles + writePSFmt("/xpdfTile{0:d} findfont setfont\n", numTilingPatterns); + writePSFmt("gsave [{0:.4g} {1:.4g} {2:.4g} {3:.4g} {4:.4g} {5:.4g}] concat\n", + mat[0], mat[1], mat[2], mat[3], mat[4], mat[5]); + writePSFmt("{0:d} 1 {1:d} {{ {2:.4g} exch {3:.4g} mul m {4:d} 1 {5:d} {{ pop (x) show }} for }} for\n", + y0, y1 - 1, x0 * xStep, yStep, x0, x1 - 1); + writePS("grestore\n"); +} + +GBool PSOutputDev::functionShadedFill(GfxState * /*state*/, + GfxFunctionShading *shading) { + double x0, y0, x1, y1; + double *mat; + int i; + + if (level == psLevel2Sep || level == psLevel3Sep) { + if (shading->getColorSpace()->getMode() != csDeviceCMYK) { + return gFalse; + } + processColors |= psProcessCMYK; + } + + shading->getDomain(&x0, &y0, &x1, &y1); + mat = shading->getMatrix(); + writePSFmt("/mat [{0:.4g} {1:.4g} {2:.4g} {3:.4g} {4:.4g} {5:.4g}] def\n", + mat[0], mat[1], mat[2], mat[3], mat[4], mat[5]); + writePSFmt("/n {0:d} def\n", shading->getColorSpace()->getNComps()); + if (shading->getNFuncs() == 1) { + writePS("/func "); + cvtFunction(shading->getFunc(0)); + writePS("def\n"); + } else { + writePS("/func {\n"); + for (i = 0; i < shading->getNFuncs(); ++i) { + if (i < shading->getNFuncs() - 1) { + writePS("2 copy\n"); + } + cvtFunction(shading->getFunc(i)); + writePS("exec\n"); + if (i < shading->getNFuncs() - 1) { + writePS("3 1 roll\n"); + } + } + writePS("} def\n"); + } + writePSFmt("{0:.4g} {1:.4g} {2:.4g} {3:.4g} 0 funcSH\n", x0, y0, x1, y1); + + return gTrue; +} + +GBool PSOutputDev::axialShadedFill(GfxState *state, GfxAxialShading *shading) { + double xMin, yMin, xMax, yMax; + double x0, y0, x1, y1, dx, dy, mul; + double tMin, tMax, t, t0, t1; + int i; + + if (level == psLevel2Sep || level == psLevel3Sep) { + if (shading->getColorSpace()->getMode() != csDeviceCMYK) { + return gFalse; + } + processColors |= psProcessCMYK; + } + + // get the clip region bbox + state->getUserClipBBox(&xMin, &yMin, &xMax, &yMax); + + // compute min and max t values, based on the four corners of the + // clip region bbox + shading->getCoords(&x0, &y0, &x1, &y1); + dx = x1 - x0; + dy = y1 - y0; + if (fabs(dx) < 0.01 && fabs(dy) < 0.01) { + return gTrue; + } else { + mul = 1 / (dx * dx + dy * dy); + tMin = tMax = ((xMin - x0) * dx + (yMin - y0) * dy) * mul; + t = ((xMin - x0) * dx + (yMax - y0) * dy) * mul; + if (t < tMin) { + tMin = t; + } else if (t > tMax) { + tMax = t; + } + t = ((xMax - x0) * dx + (yMin - y0) * dy) * mul; + if (t < tMin) { + tMin = t; + } else if (t > tMax) { + tMax = t; + } + t = ((xMax - x0) * dx + (yMax - y0) * dy) * mul; + if (t < tMin) { + tMin = t; + } else if (t > tMax) { + tMax = t; + } + if (tMin < 0 && !shading->getExtend0()) { + tMin = 0; + } + if (tMax > 1 && !shading->getExtend1()) { + tMax = 1; + } + } + + // get the function domain + t0 = shading->getDomain0(); + t1 = shading->getDomain1(); + + // generate the PS code + writePSFmt("/t0 {0:.4g} def\n", t0); + writePSFmt("/t1 {0:.4g} def\n", t1); + writePSFmt("/dt {0:.4g} def\n", t1 - t0); + writePSFmt("/x0 {0:.4g} def\n", x0); + writePSFmt("/y0 {0:.4g} def\n", y0); + writePSFmt("/dx {0:.4g} def\n", x1 - x0); + writePSFmt("/x1 {0:.4g} def\n", x1); + writePSFmt("/y1 {0:.4g} def\n", y1); + writePSFmt("/dy {0:.4g} def\n", y1 - y0); + writePSFmt("/xMin {0:.4g} def\n", xMin); + writePSFmt("/yMin {0:.4g} def\n", yMin); + writePSFmt("/xMax {0:.4g} def\n", xMax); + writePSFmt("/yMax {0:.4g} def\n", yMax); + writePSFmt("/n {0:d} def\n", shading->getColorSpace()->getNComps()); + if (shading->getNFuncs() == 1) { + writePS("/func "); + cvtFunction(shading->getFunc(0)); + writePS("def\n"); + } else { + writePS("/func {\n"); + for (i = 0; i < shading->getNFuncs(); ++i) { + if (i < shading->getNFuncs() - 1) { + writePS("dup\n"); + } + cvtFunction(shading->getFunc(i)); + writePS("exec\n"); + if (i < shading->getNFuncs() - 1) { + writePS("exch\n"); + } + } + writePS("} def\n"); + } + writePSFmt("{0:.4g} {1:.4g} 0 axialSH\n", tMin, tMax); + + return gTrue; +} + +GBool PSOutputDev::radialShadedFill(GfxState *state, + GfxRadialShading *shading) { + double xMin, yMin, xMax, yMax; + double x0, y0, r0, x1, y1, r1, t0, t1; + double xa, ya, ra; + double sz, xz, yz, sMin, sMax, sa, ta; + double theta, alpha, a1, a2; + GBool enclosed; + int i; + + if (level == psLevel2Sep || level == psLevel3Sep) { + if (shading->getColorSpace()->getMode() != csDeviceCMYK) { + return gFalse; + } + processColors |= psProcessCMYK; + } + + // get the shading info + shading->getCoords(&x0, &y0, &r0, &x1, &y1, &r1); + t0 = shading->getDomain0(); + t1 = shading->getDomain1(); + + // Compute the point at which r(s) = 0; check for the enclosed + // circles case; and compute the angles for the tangent lines. + if (r0 == r1) { + enclosed = x0 == x1 && y0 == y1; + theta = 0; + sz = 0; // make gcc happy + } else { + sz = -r0 / (r1 - r0); + xz = x0 + sz * (x1 - x0); + yz = y0 + sz * (y1 - y0); + enclosed = (xz - x0) * (xz - x0) + (yz - y0) * (yz - y0) <= r0 * r0; + theta = asin(r0 / sqrt((x0 - xz) * (x0 - xz) + (y0 - yz) * (y0 - yz))); + if (r0 > r1) { + theta = -theta; + } + } + if (enclosed) { + a1 = 0; + a2 = 360; + } else { + alpha = atan2(y1 - y0, x1 - x0); + a1 = (180 / M_PI) * (alpha + theta) + 90; + a2 = (180 / M_PI) * (alpha - theta) - 90; + while (a2 < a1) { + a2 += 360; + } + } + + // compute the (possibly extended) s range + state->getUserClipBBox(&xMin, &yMin, &xMax, &yMax); + if (enclosed) { + sMin = 0; + sMax = 1; + } else { + sMin = 1; + sMax = 0; + // solve for x(s) + r(s) = xMin + if ((x1 + r1) - (x0 + r0) != 0) { + sa = (xMin - (x0 + r0)) / ((x1 + r1) - (x0 + r0)); + if (sa < sMin) { + sMin = sa; + } else if (sa > sMax) { + sMax = sa; + } + } + // solve for x(s) - r(s) = xMax + if ((x1 - r1) - (x0 - r0) != 0) { + sa = (xMax - (x0 - r0)) / ((x1 - r1) - (x0 - r0)); + if (sa < sMin) { + sMin = sa; + } else if (sa > sMax) { + sMax = sa; + } + } + // solve for y(s) + r(s) = yMin + if ((y1 + r1) - (y0 + r0) != 0) { + sa = (yMin - (y0 + r0)) / ((y1 + r1) - (y0 + r0)); + if (sa < sMin) { + sMin = sa; + } else if (sa > sMax) { + sMax = sa; + } + } + // solve for y(s) - r(s) = yMax + if ((y1 - r1) - (y0 - r0) != 0) { + sa = (yMax - (y0 - r0)) / ((y1 - r1) - (y0 - r0)); + if (sa < sMin) { + sMin = sa; + } else if (sa > sMax) { + sMax = sa; + } + } + // check against sz + if (r0 < r1) { + if (sMin < sz) { + sMin = sz; + } + } else if (r0 > r1) { + if (sMax > sz) { + sMax = sz; + } + } + // check the 'extend' flags + if (!shading->getExtend0() && sMin < 0) { + sMin = 0; + } + if (!shading->getExtend1() && sMax > 1) { + sMax = 1; + } + } + + // generate the PS code + writePSFmt("/x0 {0:.4g} def\n", x0); + writePSFmt("/x1 {0:.4g} def\n", x1); + writePSFmt("/dx {0:.4g} def\n", x1 - x0); + writePSFmt("/y0 {0:.4g} def\n", y0); + writePSFmt("/y1 {0:.4g} def\n", y1); + writePSFmt("/dy {0:.4g} def\n", y1 - y0); + writePSFmt("/r0 {0:.4g} def\n", r0); + writePSFmt("/r1 {0:.4g} def\n", r1); + writePSFmt("/dr {0:.4g} def\n", r1 - r0); + writePSFmt("/t0 {0:.4g} def\n", t0); + writePSFmt("/t1 {0:.4g} def\n", t1); + writePSFmt("/dt {0:.4g} def\n", t1 - t0); + writePSFmt("/n {0:d} def\n", shading->getColorSpace()->getNComps()); + writePSFmt("/encl {0:s} def\n", enclosed ? "true" : "false"); + writePSFmt("/a1 {0:.4g} def\n", a1); + writePSFmt("/a2 {0:.4g} def\n", a2); + if (shading->getNFuncs() == 1) { + writePS("/func "); + cvtFunction(shading->getFunc(0)); + writePS("def\n"); + } else { + writePS("/func {\n"); + for (i = 0; i < shading->getNFuncs(); ++i) { + if (i < shading->getNFuncs() - 1) { + writePS("dup\n"); + } + cvtFunction(shading->getFunc(i)); + writePS("exec\n"); + if (i < shading->getNFuncs() - 1) { + writePS("exch\n"); + } + } + writePS("} def\n"); + } + writePSFmt("{0:.4g} {1:.4g} 0 radialSH\n", sMin, sMax); + + // extend the 'enclosed' case + if (enclosed) { + // extend the smaller circle + if ((shading->getExtend0() && r0 <= r1) || + (shading->getExtend1() && r1 < r0)) { + if (r0 <= r1) { + ta = t0; + ra = r0; + xa = x0; + ya = y0; + } else { + ta = t1; + ra = r1; + xa = x1; + ya = y1; + } + if (level == psLevel2Sep || level == psLevel3Sep) { + writePSFmt("{0:.4g} radialCol aload pop k\n", ta); + } else { + writePSFmt("{0:.4g} radialCol sc\n", ta); + } + writePSFmt("{0:.4g} {1:.4g} {2:.4g} 0 360 arc h f*\n", xa, ya, ra); + } + + // extend the larger circle + if ((shading->getExtend0() && r0 > r1) || + (shading->getExtend1() && r1 >= r0)) { + if (r0 > r1) { + ta = t0; + ra = r0; + xa = x0; + ya = y0; + } else { + ta = t1; + ra = r1; + xa = x1; + ya = y1; + } + if (level == psLevel2Sep || level == psLevel3Sep) { + writePSFmt("{0:.4g} radialCol aload pop k\n", ta); + } else { + writePSFmt("{0:.4g} radialCol sc\n", ta); + } + writePSFmt("{0:.4g} {1:.4g} {2:.4g} 0 360 arc h\n", xa, ya, ra); + writePSFmt("{0:.4g} {1:.4g} m {2:.4g} {3:.4g} l {4:.4g} {5:.4g} l {6:.4g} {7:.4g} l h f*\n", + xMin, yMin, xMin, yMax, xMax, yMax, xMax, yMin); + } + } + + return gTrue; +} + +void PSOutputDev::clip(GfxState *state) { + doPath(state->getPath()); + writePS("W\n"); +} + +void PSOutputDev::eoClip(GfxState *state) { + doPath(state->getPath()); + writePS("W*\n"); +} + +void PSOutputDev::clipToStrokePath(GfxState *state) { + doPath(state->getPath()); + writePS("Ws\n"); +} + +void PSOutputDev::doPath(GfxPath *path) { + GfxSubpath *subpath; + double x0, y0, x1, y1, x2, y2, x3, y3, x4, y4; + int n, m, i, j; + + n = path->getNumSubpaths(); + + if (n == 1 && path->getSubpath(0)->getNumPoints() == 5) { + subpath = path->getSubpath(0); + x0 = subpath->getX(0); + y0 = subpath->getY(0); + x4 = subpath->getX(4); + y4 = subpath->getY(4); + if (x4 == x0 && y4 == y0) { + x1 = subpath->getX(1); + y1 = subpath->getY(1); + x2 = subpath->getX(2); + y2 = subpath->getY(2); + x3 = subpath->getX(3); + y3 = subpath->getY(3); + if (x0 == x1 && x2 == x3 && y0 == y3 && y1 == y2) { + writePSFmt("{0:.4g} {1:.4g} {2:.4g} {3:.4g} re\n", + x0 < x2 ? x0 : x2, y0 < y1 ? y0 : y1, + fabs(x2 - x0), fabs(y1 - y0)); + return; + } else if (x0 == x3 && x1 == x2 && y0 == y1 && y2 == y3) { + writePSFmt("{0:.4g} {1:.4g} {2:.4g} {3:.4g} re\n", + x0 < x1 ? x0 : x1, y0 < y2 ? y0 : y2, + fabs(x1 - x0), fabs(y2 - y0)); + return; + } + } + } + + for (i = 0; i < n; ++i) { + subpath = path->getSubpath(i); + m = subpath->getNumPoints(); + writePSFmt("{0:.4g} {1:.4g} m\n", subpath->getX(0), subpath->getY(0)); + j = 1; + while (j < m) { + if (subpath->getCurve(j)) { + writePSFmt("{0:.4g} {1:.4g} {2:.4g} {3:.4g} {4:.4g} {5:.4g} c\n", + subpath->getX(j), subpath->getY(j), + subpath->getX(j+1), subpath->getY(j+1), + subpath->getX(j+2), subpath->getY(j+2)); + j += 3; + } else { + writePSFmt("{0:.4g} {1:.4g} l\n", subpath->getX(j), subpath->getY(j)); + ++j; + } + } + if (subpath->isClosed()) { + writePS("h\n"); + } + } +} + +void PSOutputDev::drawString(GfxState *state, GString *s) { + GfxFont *font; + int wMode; + Gushort *codeToGID; + GString *s2; + double dx, dy, dx2, dy2, originX, originY; + char *p; + UnicodeMap *uMap; + CharCode code; + Unicode u[8]; + char buf[8]; + int len, nChars, uLen, n, m, i, j; + + // check for invisible text -- this is used by Acrobat Capture + if (state->getRender() == 3) { + return; + } + + // ignore empty strings + if (s->getLength() == 0) { + return; + } + + // get the font + if (!(font = state->getFont())) { + return; + } + wMode = font->getWMode(); + + // check for a subtitute 16-bit font + uMap = NULL; + codeToGID = NULL; + if (font->isCIDFont()) { + for (i = 0; i < font16EncLen; ++i) { + if (font->getID()->num == font16Enc[i].fontID.num && + font->getID()->gen == font16Enc[i].fontID.gen) { + uMap = globalParams->getUnicodeMap(font16Enc[i].enc); + break; + } + } + + // check for a code-to-GID map + } else { + for (i = 0; i < font8InfoLen; ++i) { + if (font->getID()->num == font8Info[i].fontID.num && + font->getID()->gen == font8Info[i].fontID.gen) { + codeToGID = font8Info[i].codeToGID; + break; + } + } + } + + // compute width of chars in string, ignoring char spacing and word + // spacing -- the Tj operator will adjust for the metrics of the + // font that's actually used + dx = dy = 0; + nChars = 0; + p = s->getCString(); + len = s->getLength(); + s2 = new GString(); + while (len > 0) { + n = font->getNextChar(p, len, &code, + u, (int)(sizeof(u) / sizeof(Unicode)), &uLen, + &dx2, &dy2, &originX, &originY); + if (font->isCIDFont()) { + if (uMap) { + for (i = 0; i < uLen; ++i) { + m = uMap->mapUnicode(u[i], buf, (int)sizeof(buf)); + for (j = 0; j < m; ++j) { + s2->append(buf[j]); + } + } + //~ this really needs to get the number of chars in the target + //~ encoding - which may be more than the number of Unicode + //~ chars + nChars += uLen; + } else { + s2->append((char)((code >> 8) & 0xff)); + s2->append((char)(code & 0xff)); + ++nChars; + } + } else { + if (!codeToGID || codeToGID[code]) { + s2->append((char)code); + } + } + dx += dx2; + dy += dy2; + p += n; + len -= n; + } + dx *= state->getFontSize() * state->getHorizScaling(); + dy *= state->getFontSize(); + if (uMap) { + uMap->decRefCnt(); + } + + if (s2->getLength() > 0) { + writePSString(s2); + if (font->isCIDFont()) { + if (wMode) { + writePSFmt(" {0:d} {1:.4g} Tj16V\n", nChars, dy); + } else { + writePSFmt(" {0:d} {1:.4g} Tj16\n", nChars, dx); + } + } else { + writePSFmt(" {0:.4g} Tj\n", dx); + } + } + delete s2; + + if (state->getRender() & 4) { + haveTextClip = gTrue; + } +} + +void PSOutputDev::endTextObject(GfxState * /*state*/) { + if (haveTextClip) { + writePS("Tclip\n"); + haveTextClip = gFalse; + } +} + +void PSOutputDev::drawImageMask(GfxState * /*state*/, Object *ref, Stream *str, + int width, int height, GBool invert, + GBool inlineImg) { + int len; + + len = height * ((width + 7) / 8); + switch (level) { + case psLevel1: + case psLevel1Sep: + doImageL1(ref, NULL, invert, inlineImg, str, width, height, len); + break; + case psLevel2: + case psLevel2Sep: + doImageL2(ref, NULL, invert, inlineImg, str, width, height, len, + NULL, NULL, 0, 0, gFalse); + break; + case psLevel3: + case psLevel3Sep: + doImageL3(ref, NULL, invert, inlineImg, str, width, height, len, + NULL, NULL, 0, 0, gFalse); + break; + } +} + +void PSOutputDev::drawImage(GfxState * /*state*/, Object *ref, Stream *str, + int width, int height, GfxImageColorMap *colorMap, + int *maskColors, GBool inlineImg) { + int len; + + len = height * ((width * colorMap->getNumPixelComps() * + colorMap->getBits() + 7) / 8); + switch (level) { + case psLevel1: + doImageL1(ref, colorMap, gFalse, inlineImg, str, width, height, len); + break; + case psLevel1Sep: + //~ handle indexed, separation, ... color spaces + doImageL1Sep(colorMap, gFalse, inlineImg, str, width, height, len); + break; + case psLevel2: + case psLevel2Sep: + doImageL2(ref, colorMap, gFalse, inlineImg, str, + width, height, len, maskColors, NULL, 0, 0, gFalse); + break; + case psLevel3: + case psLevel3Sep: + doImageL3(ref, colorMap, gFalse, inlineImg, str, + width, height, len, maskColors, NULL, 0, 0, gFalse); + break; + } + t3Cacheable = gFalse; +} + +void PSOutputDev::drawMaskedImage(GfxState * /*state*/, Object *ref, Stream *str, + int width, int height, + GfxImageColorMap *colorMap, + Stream *maskStr, + int maskWidth, int maskHeight, + GBool maskInvert) { + int len; + + len = height * ((width * colorMap->getNumPixelComps() * + colorMap->getBits() + 7) / 8); + switch (level) { + case psLevel1: + doImageL1(ref, colorMap, gFalse, gFalse, str, width, height, len); + break; + case psLevel1Sep: + //~ handle indexed, separation, ... color spaces + doImageL1Sep(colorMap, gFalse, gFalse, str, width, height, len); + break; + case psLevel2: + case psLevel2Sep: + doImageL2(ref, colorMap, gFalse, gFalse, str, width, height, len, + NULL, maskStr, maskWidth, maskHeight, maskInvert); + break; + case psLevel3: + case psLevel3Sep: + doImageL3(ref, colorMap, gFalse, gFalse, str, width, height, len, + NULL, maskStr, maskWidth, maskHeight, maskInvert); + break; + } + t3Cacheable = gFalse; +} + +void PSOutputDev::doImageL1(Object *ref, GfxImageColorMap *colorMap, + GBool invert, GBool inlineImg, + Stream *str, int width, int height, int len) { + ImageStream *imgStr; + Guchar pixBuf[gfxColorMaxComps]; + GfxGray gray; + int col, x, y, c, i; + + if ((inType3Char || preload) && !colorMap) { + if (inlineImg) { + // create an array + str = new FixedLengthEncoder(str, len); + str = new ASCIIHexEncoder(str); + str->reset(); + col = 0; + writePS("[<"); + do { + do { + c = str->getChar(); + } while (c == '\n' || c == '\r'); + if (c == '>' || c == EOF) { + break; + } + writePSChar(c); + ++col; + // each line is: "<...data...>" + // so max data length = 255 - 4 = 251 + // but make it 240 just to be safe + // chunks are 2 bytes each, so we need to stop on an even col number + if (col == 240) { + writePS(">\n<"); + col = 0; + } + } while (c != '>' && c != EOF); + writePS(">]\n"); + writePS("0\n"); + str->close(); + delete str; + } else { + // set up to use the array already created by setupImages() + writePSFmt("ImData_{0:d}_{1:d} 0\n", ref->getRefNum(), ref->getRefGen()); + } + } + + // image/imagemask command + if ((inType3Char || preload) && !colorMap) { + writePSFmt("{0:d} {1:d} {2:s} [{3:d} 0 0 {4:d} 0 {5:d}] pdfImM1a\n", + width, height, invert ? "true" : "false", + width, -height, height); + } else if (colorMap) { + writePSFmt("{0:d} {1:d} 8 [{2:d} 0 0 {3:d} 0 {4:d}] pdfIm1\n", + width, height, + width, -height, height); + } else { + writePSFmt("{0:d} {1:d} {2:s} [{3:d} 0 0 {4:d} 0 {5:d}] pdfImM1\n", + width, height, invert ? "true" : "false", + width, -height, height); + } + + // image data + if (!((inType3Char || preload) && !colorMap)) { + + if (colorMap) { + + // set up to process the data stream + imgStr = new ImageStream(str, width, colorMap->getNumPixelComps(), + colorMap->getBits()); + imgStr->reset(); + + // process the data stream + i = 0; + for (y = 0; y < height; ++y) { + + // write the line + for (x = 0; x < width; ++x) { + imgStr->getPixel(pixBuf); + colorMap->getGray(pixBuf, &gray); + writePSFmt("{0:02x}", colToByte(gray)); + if (++i == 32) { + writePSChar('\n'); + i = 0; + } + } + } + if (i != 0) { + writePSChar('\n'); + } + str->close(); + delete imgStr; + + // imagemask + } else { + str->reset(); + i = 0; + for (y = 0; y < height; ++y) { + for (x = 0; x < width; x += 8) { + writePSFmt("{0:02x}", str->getChar() & 0xff); + if (++i == 32) { + writePSChar('\n'); + i = 0; + } + } + } + if (i != 0) { + writePSChar('\n'); + } + str->close(); + } + } +} + +void PSOutputDev::doImageL1Sep(GfxImageColorMap *colorMap, + GBool /*invert*/, GBool /*inlineImg*/, + Stream *str, int width, int height, int /*len*/) { + ImageStream *imgStr; + Guchar *lineBuf; + Guchar pixBuf[gfxColorMaxComps]; + GfxCMYK cmyk; + int x, y, i, comp; + + // width, height, matrix, bits per component + writePSFmt("{0:d} {1:d} 8 [{2:d} 0 0 {3:d} 0 {4:d}] pdfIm1Sep\n", + width, height, + width, -height, height); + + // allocate a line buffer + lineBuf = (Guchar *)gmalloc(4 * width); + + // set up to process the data stream + imgStr = new ImageStream(str, width, colorMap->getNumPixelComps(), + colorMap->getBits()); + imgStr->reset(); + + // process the data stream + i = 0; + for (y = 0; y < height; ++y) { + + // read the line + for (x = 0; x < width; ++x) { + imgStr->getPixel(pixBuf); + colorMap->getCMYK(pixBuf, &cmyk); + lineBuf[4*x+0] = colToByte(cmyk.c); + lineBuf[4*x+1] = colToByte(cmyk.m); + lineBuf[4*x+2] = colToByte(cmyk.y); + lineBuf[4*x+3] = colToByte(cmyk.k); + addProcessColor(colToDbl(cmyk.c), colToDbl(cmyk.m), + colToDbl(cmyk.y), colToDbl(cmyk.k)); + } + + // write one line of each color component + for (comp = 0; comp < 4; ++comp) { + for (x = 0; x < width; ++x) { + writePSFmt("{0:02x}", lineBuf[4*x + comp]); + if (++i == 32) { + writePSChar('\n'); + i = 0; + } + } + } + } + + if (i != 0) { + writePSChar('\n'); + } + + str->close(); + delete imgStr; + gfree(lineBuf); +} + +void PSOutputDev::doImageL2(Object *ref, GfxImageColorMap *colorMap, + GBool invert, GBool inlineImg, + Stream *str, int width, int height, int len, + int *maskColors, Stream *maskStr, + int maskWidth, int maskHeight, GBool maskInvert) { + Stream *str2; + ImageStream *imgStr; + Guchar *line; + PSOutImgClipRect *rects0, *rects1, *rectsTmp, *rectsOut; + int rects0Len, rects1Len, rectsSize, rectsOutLen, rectsOutSize; + GBool emitRect, addRect, extendRect; + GString *s; + int n, numComps; + GBool useRLE, useASCII, useASCIIHex, useCompressed; + GfxSeparationColorSpace *sepCS; + GfxColor color; + GfxCMYK cmyk; + int c; + int col, i, j, x0, x1, y, maskXor; + + // color key masking + if (maskColors && colorMap && !inlineImg) { + // can't read the stream twice for inline images -- but masking + // isn't allowed with inline images anyway + numComps = colorMap->getNumPixelComps(); + imgStr = new ImageStream(str, width, numComps, colorMap->getBits()); + imgStr->reset(); + rects0Len = rects1Len = rectsOutLen = 0; + rectsSize = rectsOutSize = 64; + rects0 = (PSOutImgClipRect *)gmallocn(rectsSize, sizeof(PSOutImgClipRect)); + rects1 = (PSOutImgClipRect *)gmallocn(rectsSize, sizeof(PSOutImgClipRect)); + rectsOut = (PSOutImgClipRect *)gmallocn(rectsOutSize, + sizeof(PSOutImgClipRect)); + for (y = 0; y < height; ++y) { + if (!(line = imgStr->getLine())) { + break; + } + i = 0; + rects1Len = 0; + for (x0 = 0; x0 < width; ++x0) { + for (j = 0; j < numComps; ++j) { + if (line[x0*numComps+j] < maskColors[2*j] || + line[x0*numComps+j] > maskColors[2*j+1]) { + break; + } + } + if (j < numComps) { + break; + } + } + for (x1 = x0; x1 < width; ++x1) { + for (j = 0; j < numComps; ++j) { + if (line[x1*numComps+j] < maskColors[2*j] || + line[x1*numComps+j] > maskColors[2*j+1]) { + break; + } + } + if (j == numComps) { + break; + } + } + while (x0 < width || i < rects0Len) { + emitRect = addRect = extendRect = gFalse; + if (x0 >= width) { + emitRect = gTrue; + } else if (i >= rects0Len) { + addRect = gTrue; + } else if (rects0[i].x0 < x0) { + emitRect = gTrue; + } else if (x0 < rects0[i].x0) { + addRect = gTrue; + } else if (rects0[i].x1 == x1) { + extendRect = gTrue; + } else { + emitRect = addRect = gTrue; + } + if (emitRect) { + if (rectsOutLen == rectsOutSize) { + rectsOutSize *= 2; + rectsOut = (PSOutImgClipRect *)greallocn(rectsOut, rectsOutSize, + sizeof(PSOutImgClipRect)); + } + rectsOut[rectsOutLen].x0 = rects0[i].x0; + rectsOut[rectsOutLen].x1 = rects0[i].x1; + rectsOut[rectsOutLen].y0 = height - y - 1; + rectsOut[rectsOutLen].y1 = height - rects0[i].y0 - 1; + ++rectsOutLen; + ++i; + } + if (addRect || extendRect) { + if (rects1Len == rectsSize) { + rectsSize *= 2; + rects0 = (PSOutImgClipRect *)greallocn(rects0, rectsSize, + sizeof(PSOutImgClipRect)); + rects1 = (PSOutImgClipRect *)greallocn(rects1, rectsSize, + sizeof(PSOutImgClipRect)); + } + rects1[rects1Len].x0 = x0; + rects1[rects1Len].x1 = x1; + if (addRect) { + rects1[rects1Len].y0 = y; + } + if (extendRect) { + rects1[rects1Len].y0 = rects0[i].y0; + ++i; + } + ++rects1Len; + for (x0 = x1; x0 < width; ++x0) { + for (j = 0; j < numComps; ++j) { + if (line[x0*numComps+j] < maskColors[2*j] || + line[x0*numComps+j] > maskColors[2*j+1]) { + break; + } + } + if (j < numComps) { + break; + } + } + for (x1 = x0; x1 < width; ++x1) { + for (j = 0; j < numComps; ++j) { + if (line[x1*numComps+j] < maskColors[2*j] || + line[x1*numComps+j] > maskColors[2*j+1]) { + break; + } + } + if (j == numComps) { + break; + } + } + } + } + rectsTmp = rects0; + rects0 = rects1; + rects1 = rectsTmp; + i = rects0Len; + rects0Len = rects1Len; + rects1Len = i; + } + for (i = 0; i < rects0Len; ++i) { + if (rectsOutLen == rectsOutSize) { + rectsOutSize *= 2; + rectsOut = (PSOutImgClipRect *)greallocn(rectsOut, rectsOutSize, + sizeof(PSOutImgClipRect)); + } + rectsOut[rectsOutLen].x0 = rects0[i].x0; + rectsOut[rectsOutLen].x1 = rects0[i].x1; + rectsOut[rectsOutLen].y0 = height - y - 1; + rectsOut[rectsOutLen].y1 = height - rects0[i].y0 - 1; + ++rectsOutLen; + } + writePSFmt("{0:d} array 0\n", rectsOutLen * 4); + for (i = 0; i < rectsOutLen; ++i) { + writePSFmt("[{0:d} {1:d} {2:d} {3:d}] pr\n", + rectsOut[i].x0, rectsOut[i].y0, + rectsOut[i].x1 - rectsOut[i].x0, + rectsOut[i].y1 - rectsOut[i].y0); + } + writePSFmt("pop {0:d} {1:d} pdfImClip\n", width, height); + gfree(rectsOut); + gfree(rects0); + gfree(rects1); + delete imgStr; + str->close(); + + // explicit masking + } else if (maskStr) { + imgStr = new ImageStream(maskStr, maskWidth, 1, 1); + imgStr->reset(); + rects0Len = rects1Len = rectsOutLen = 0; + rectsSize = rectsOutSize = 64; + rects0 = (PSOutImgClipRect *)gmallocn(rectsSize, sizeof(PSOutImgClipRect)); + rects1 = (PSOutImgClipRect *)gmallocn(rectsSize, sizeof(PSOutImgClipRect)); + rectsOut = (PSOutImgClipRect *)gmallocn(rectsOutSize, + sizeof(PSOutImgClipRect)); + maskXor = maskInvert ? 1 : 0; + for (y = 0; y < maskHeight; ++y) { + if (!(line = imgStr->getLine())) { + break; + } + i = 0; + rects1Len = 0; + for (x0 = 0; x0 < maskWidth && (line[x0] ^ maskXor); ++x0) ; + for (x1 = x0; x1 < maskWidth && !(line[x1] ^ maskXor); ++x1) ; + while (x0 < maskWidth || i < rects0Len) { + emitRect = addRect = extendRect = gFalse; + if (x0 >= maskWidth) { + emitRect = gTrue; + } else if (i >= rects0Len) { + addRect = gTrue; + } else if (rects0[i].x0 < x0) { + emitRect = gTrue; + } else if (x0 < rects0[i].x0) { + addRect = gTrue; + } else if (rects0[i].x1 == x1) { + extendRect = gTrue; + } else { + emitRect = addRect = gTrue; + } + if (emitRect) { + if (rectsOutLen == rectsOutSize) { + rectsOutSize *= 2; + rectsOut = (PSOutImgClipRect *)greallocn(rectsOut, rectsOutSize, + sizeof(PSOutImgClipRect)); + } + rectsOut[rectsOutLen].x0 = rects0[i].x0; + rectsOut[rectsOutLen].x1 = rects0[i].x1; + rectsOut[rectsOutLen].y0 = maskHeight - y - 1; + rectsOut[rectsOutLen].y1 = maskHeight - rects0[i].y0 - 1; + ++rectsOutLen; + ++i; + } + if (addRect || extendRect) { + if (rects1Len == rectsSize) { + rectsSize *= 2; + rects0 = (PSOutImgClipRect *)greallocn(rects0, rectsSize, + sizeof(PSOutImgClipRect)); + rects1 = (PSOutImgClipRect *)greallocn(rects1, rectsSize, + sizeof(PSOutImgClipRect)); + } + rects1[rects1Len].x0 = x0; + rects1[rects1Len].x1 = x1; + if (addRect) { + rects1[rects1Len].y0 = y; + } + if (extendRect) { + rects1[rects1Len].y0 = rects0[i].y0; + ++i; + } + ++rects1Len; + for (x0 = x1; x0 < maskWidth && (line[x0] ^ maskXor); ++x0) ; + for (x1 = x0; x1 < maskWidth && !(line[x1] ^ maskXor); ++x1) ; + } + } + rectsTmp = rects0; + rects0 = rects1; + rects1 = rectsTmp; + i = rects0Len; + rects0Len = rects1Len; + rects1Len = i; + } + for (i = 0; i < rects0Len; ++i) { + if (rectsOutLen == rectsOutSize) { + rectsOutSize *= 2; + rectsOut = (PSOutImgClipRect *)greallocn(rectsOut, rectsOutSize, + sizeof(PSOutImgClipRect)); + } + rectsOut[rectsOutLen].x0 = rects0[i].x0; + rectsOut[rectsOutLen].x1 = rects0[i].x1; + rectsOut[rectsOutLen].y0 = maskHeight - y - 1; + rectsOut[rectsOutLen].y1 = maskHeight - rects0[i].y0 - 1; + ++rectsOutLen; + } + writePSFmt("{0:d} array 0\n", rectsOutLen * 4); + for (i = 0; i < rectsOutLen; ++i) { + writePSFmt("[{0:d} {1:d} {2:d} {3:d}] pr\n", + rectsOut[i].x0, rectsOut[i].y0, + rectsOut[i].x1 - rectsOut[i].x0, + rectsOut[i].y1 - rectsOut[i].y0); + } + writePSFmt("pop {0:d} {1:d} pdfImClip\n", maskWidth, maskHeight); + gfree(rectsOut); + gfree(rects0); + gfree(rects1); + delete imgStr; + maskStr->close(); + } + + // color space + if (colorMap) { + dumpColorSpaceL2(colorMap->getColorSpace(), gFalse, gTrue, gFalse); + writePS(" setcolorspace\n"); + } + + useASCIIHex = globalParams->getPSASCIIHex(); + + // set up the image data + if (mode == psModeForm || inType3Char || preload) { + if (inlineImg) { + // create an array + str2 = new FixedLengthEncoder(str, len); + str2 = new RunLengthEncoder(str2); + if (useASCIIHex) { + str2 = new ASCIIHexEncoder(str2); + } else { + str2 = new ASCII85Encoder(str2); + } + str2->reset(); + col = 0; + writePS((char *)(useASCIIHex ? "[<" : "[<~")); + do { + do { + c = str2->getChar(); + } while (c == '\n' || c == '\r'); + if (c == (useASCIIHex ? '>' : '~') || c == EOF) { + break; + } + if (c == 'z') { + writePSChar(c); + ++col; + } else { + writePSChar(c); + ++col; + for (i = 1; i <= (useASCIIHex ? 1 : 4); ++i) { + do { + c = str2->getChar(); + } while (c == '\n' || c == '\r'); + if (c == (useASCIIHex ? '>' : '~') || c == EOF) { + break; + } + writePSChar(c); + ++col; + } + } + // each line is: "<~...data...~>" + // so max data length = 255 - 6 = 249 + // chunks are 1 or 5 bytes each, so we have to stop at 245 + // but make it 240 just to be safe + if (col > 240) { + writePS((char *)(useASCIIHex ? ">\n<" : "~>\n<~")); + col = 0; + } + } while (c != (useASCIIHex ? '>' : '~') && c != EOF); + writePS((char *)(useASCIIHex ? ">\n" : "~>\n")); + // add an extra entry because the RunLengthDecode filter may + // read past the end + writePS("<>]\n"); + writePS("0\n"); + str2->close(); + delete str2; + } else { + // set up to use the array already created by setupImages() + writePSFmt("ImData_{0:d}_{1:d} 0\n", ref->getRefNum(), ref->getRefGen()); + } + } + + // image dictionary + writePS("<<\n /ImageType 1\n"); + + // width, height, matrix, bits per component + writePSFmt(" /Width {0:d}\n", width); + writePSFmt(" /Height {0:d}\n", height); + writePSFmt(" /ImageMatrix [{0:d} 0 0 {1:d} 0 {2:d}]\n", + width, -height, height); + if (colorMap && colorMap->getColorSpace()->getMode() == csDeviceN) { + writePS(" /BitsPerComponent 8\n"); + } else { + writePSFmt(" /BitsPerComponent {0:d}\n", + colorMap ? colorMap->getBits() : 1); + } + + // decode + if (colorMap) { + writePS(" /Decode ["); + if ((level == psLevel2Sep || level == psLevel3Sep) && + colorMap->getColorSpace()->getMode() == csSeparation) { + // this matches up with the code in the pdfImSep operator + n = (1 << colorMap->getBits()) - 1; + writePSFmt("{0:.4g} {1:.4g}", colorMap->getDecodeLow(0) * n, + colorMap->getDecodeHigh(0) * n); + } else if (colorMap->getColorSpace()->getMode() == csDeviceN) { + numComps = ((GfxDeviceNColorSpace *)colorMap->getColorSpace())-> + getAlt()->getNComps(); + for (i = 0; i < numComps; ++i) { + if (i > 0) { + writePS(" "); + } + writePS("0 1"); + } + } else { + numComps = colorMap->getNumPixelComps(); + for (i = 0; i < numComps; ++i) { + if (i > 0) { + writePS(" "); + } + writePSFmt("{0:.4g} {1:.4g}", + colorMap->getDecodeLow(i), colorMap->getDecodeHigh(i)); + } + } + writePS("]\n"); + } else { + writePSFmt(" /Decode [{0:d} {1:d}]\n", invert ? 1 : 0, invert ? 0 : 1); + } + + // data source + if (mode == psModeForm || inType3Char || preload) { + writePS(" /DataSource { 2 copy get exch 1 add exch }\n"); + } else { + writePS(" /DataSource currentfile\n"); + } + + // filters + s = str->getPSFilter(level < psLevel2 ? 1 : level < psLevel3 ? 2 : 3, + " "); + if ((colorMap && colorMap->getColorSpace()->getMode() == csDeviceN) || + inlineImg || !s) { + useRLE = gTrue; + useASCII = !(mode == psModeForm || inType3Char || preload); + useCompressed = gFalse; + } else { + useRLE = gFalse; + useASCII = str->isBinary() && + !(mode == psModeForm || inType3Char || preload); + useCompressed = gTrue; + } + if (useASCII) { + writePSFmt(" /ASCII{0:s}Decode filter\n", + useASCIIHex ? "Hex" : "85"); + } + if (useRLE) { + writePS(" /RunLengthDecode filter\n"); + } + if (useCompressed) { + writePS(s->getCString()); + } + if (s) { + delete s; + } + + if (mode == psModeForm || inType3Char || preload) { + + // end of image dictionary + writePSFmt(">>\n{0:s}\n", colorMap ? "image" : "imagemask"); + + // get rid of the array and index + writePS("pop pop\n"); + + } else { + + // cut off inline image streams at appropriate length + if (inlineImg) { + str = new FixedLengthEncoder(str, len); + } else if (useCompressed) { + str = str->getUndecodedStream(); + } + + // recode DeviceN data + if (colorMap && colorMap->getColorSpace()->getMode() == csDeviceN) { + str = new DeviceNRecoder(str, width, height, colorMap); + } + + // add RunLengthEncode and ASCIIHex/85 encode filters + if (useRLE) { + str = new RunLengthEncoder(str); + } + if (useASCII) { + if (useASCIIHex) { + str = new ASCIIHexEncoder(str); + } else { + str = new ASCII85Encoder(str); + } + } + + // end of image dictionary + writePS(">>\n"); +#if OPI_SUPPORT + if (opi13Nest) { + if (inlineImg) { + // this can't happen -- OPI dictionaries are in XObjects + error(-1, "Internal: OPI in inline image"); + n = 0; + } else { + // need to read the stream to count characters -- the length + // is data-dependent (because of ASCII and RLE filters) + str->reset(); + n = 0; + while ((c = str->getChar()) != EOF) { + ++n; + } + str->close(); + } + // +6/7 for "pdfIm\n" / "pdfImM\n" + // +8 for newline + trailer + n += colorMap ? 14 : 15; + writePSFmt("%%BeginData: {0:d} Hex Bytes\n", n); + } +#endif + if ((level == psLevel2Sep || level == psLevel3Sep) && colorMap && + colorMap->getColorSpace()->getMode() == csSeparation) { + color.c[0] = gfxColorComp1; + sepCS = (GfxSeparationColorSpace *)colorMap->getColorSpace(); + sepCS->getCMYK(&color, &cmyk); + writePSFmt("{0:.4g} {1:.4g} {2:.4g} {3:.4g} ({4:t}) pdfImSep\n", + colToDbl(cmyk.c), colToDbl(cmyk.m), + colToDbl(cmyk.y), colToDbl(cmyk.k), + sepCS->getName()); + } else { + writePSFmt("{0:s}\n", colorMap ? "pdfIm" : "pdfImM"); + } + + // copy the stream data + str->reset(); + while ((c = str->getChar()) != EOF) { + writePSChar(c); + } + str->close(); + + // add newline and trailer to the end + writePSChar('\n'); + writePS("%-EOD-\n"); +#if OPI_SUPPORT + if (opi13Nest) { + writePS("%%EndData\n"); + } +#endif + + // delete encoders + if (useRLE || useASCII || inlineImg) { + delete str; + } + } + + if ((maskColors && colorMap && !inlineImg) || maskStr) { + writePS("pdfImClipEnd\n"); + } +} + +//~ this doesn't currently support OPI +void PSOutputDev::doImageL3(Object *ref, GfxImageColorMap *colorMap, + GBool invert, GBool inlineImg, + Stream *str, int width, int height, int len, + int *maskColors, Stream *maskStr, + int maskWidth, int maskHeight, GBool maskInvert) { + Stream *str2; + GString *s; + int n, numComps; + GBool useRLE, useASCII, useASCIIHex, useCompressed; + GBool maskUseRLE, maskUseASCII, maskUseCompressed; + GfxSeparationColorSpace *sepCS; + GfxColor color; + GfxCMYK cmyk; + int c; + int col, i; + + useASCIIHex = globalParams->getPSASCIIHex(); + useRLE = useASCII = useCompressed = gFalse; // make gcc happy + maskUseRLE = maskUseASCII = maskUseCompressed = gFalse; // make gcc happy + + // color space + if (colorMap) { + dumpColorSpaceL2(colorMap->getColorSpace(), gFalse, gTrue, gFalse); + writePS(" setcolorspace\n"); + } + + // set up the image data + if (mode == psModeForm || inType3Char || preload) { + if (inlineImg) { + // create an array + str2 = new FixedLengthEncoder(str, len); + str2 = new RunLengthEncoder(str2); + if (useASCIIHex) { + str2 = new ASCIIHexEncoder(str2); + } else { + str2 = new ASCII85Encoder(str2); + } + str2->reset(); + col = 0; + writePS((char *)(useASCIIHex ? "[<" : "[<~")); + do { + do { + c = str2->getChar(); + } while (c == '\n' || c == '\r'); + if (c == (useASCIIHex ? '>' : '~') || c == EOF) { + break; + } + if (c == 'z') { + writePSChar(c); + ++col; + } else { + writePSChar(c); + ++col; + for (i = 1; i <= (useASCIIHex ? 1 : 4); ++i) { + do { + c = str2->getChar(); + } while (c == '\n' || c == '\r'); + if (c == (useASCIIHex ? '>' : '~') || c == EOF) { + break; + } + writePSChar(c); + ++col; + } + } + // each line is: "<~...data...~>" + // so max data length = 255 - 6 = 249 + // chunks are 1 or 5 bytes each, so we have to stop at 245 + // but make it 240 just to be safe + if (col > 240) { + writePS((char *)(useASCIIHex ? ">\n<" : "~>\n<~")); + col = 0; + } + } while (c != (useASCIIHex ? '>' : '~') && c != EOF); + writePS((char *)(useASCIIHex ? ">\n" : "~>\n")); + // add an extra entry because the RunLengthDecode filter may + // read past the end + writePS("<>]\n"); + writePS("0\n"); + str2->close(); + delete str2; + } else { + // set up to use the array already created by setupImages() + writePSFmt("ImData_{0:d}_{1:d} 0\n", ref->getRefNum(), ref->getRefGen()); + } + } + + // explicit masking + if (maskStr) { + writePS("<<\n /ImageType 3\n"); + writePS(" /InterleaveType 3\n"); + writePS(" /DataDict\n"); + } + + // image (data) dictionary + writePSFmt("<<\n /ImageType {0:d}\n", (maskColors && colorMap) ? 4 : 1); + + // color key masking + if (maskColors && colorMap) { + writePS(" /MaskColor [\n"); + numComps = colorMap->getNumPixelComps(); + for (i = 0; i < 2 * numComps; i += 2) { + writePSFmt(" {0:d} {1:d}\n", maskColors[i], maskColors[i+1]); + } + writePS(" ]\n"); + } + + // width, height, matrix, bits per component + writePSFmt(" /Width {0:d}\n", width); + writePSFmt(" /Height {0:d}\n", height); + writePSFmt(" /ImageMatrix [{0:d} 0 0 {1:d} 0 {2:d}]\n", + width, -height, height); + if (colorMap && colorMap->getColorSpace()->getMode() == csDeviceN) { + writePS(" /BitsPerComponent 8\n"); + } else { + writePSFmt(" /BitsPerComponent {0:d}\n", + colorMap ? colorMap->getBits() : 1); + } + + // decode + if (colorMap) { + writePS(" /Decode ["); + if ((level == psLevel2Sep || level == psLevel3Sep) && + colorMap->getColorSpace()->getMode() == csSeparation) { + // this matches up with the code in the pdfImSep operator + n = (1 << colorMap->getBits()) - 1; + writePSFmt("{0:.4g} {1:.4g}", colorMap->getDecodeLow(0) * n, + colorMap->getDecodeHigh(0) * n); + } else if (colorMap->getColorSpace()->getMode() == csDeviceN) { + numComps = ((GfxDeviceNColorSpace *)colorMap->getColorSpace())-> + getAlt()->getNComps(); + for (i = 0; i < numComps; ++i) { + if (i > 0) { + writePS(" "); + } + writePS("0 1"); + } + } else { + numComps = colorMap->getNumPixelComps(); + for (i = 0; i < numComps; ++i) { + if (i > 0) { + writePS(" "); + } + writePSFmt("{0:.4g} {1:.4g}", colorMap->getDecodeLow(i), + colorMap->getDecodeHigh(i)); + } + } + writePS("]\n"); + } else { + writePSFmt(" /Decode [{0:d} {1:d}]\n", invert ? 1 : 0, invert ? 0 : 1); + } + + // data source + if (mode == psModeForm || inType3Char || preload) { + writePS(" /DataSource { 2 copy get exch 1 add exch }\n"); + } else { + writePS(" /DataSource currentfile\n"); + } + + // filters + s = str->getPSFilter(level < psLevel2 ? 1 : level < psLevel3 ? 2 : 3, + " "); + if ((colorMap && colorMap->getColorSpace()->getMode() == csDeviceN) || + inlineImg || !s) { + useRLE = gTrue; + useASCII = !(mode == psModeForm || inType3Char || preload); + useCompressed = gFalse; + } else { + useRLE = gFalse; + useASCII = str->isBinary() && + !(mode == psModeForm || inType3Char || preload); + useCompressed = gTrue; + } + if (useASCII) { + writePSFmt(" /ASCII{0:s}Decode filter\n", + useASCIIHex ? "Hex" : "85"); + } + if (useRLE) { + writePS(" /RunLengthDecode filter\n"); + } + if (useCompressed) { + writePS(s->getCString()); + } + if (s) { + delete s; + } + + // end of image (data) dictionary + writePS(">>\n"); + + // explicit masking + if (maskStr) { + writePS(" /MaskDict\n"); + writePS("<<\n"); + writePS(" /ImageType 1\n"); + writePSFmt(" /Width {0:d}\n", maskWidth); + writePSFmt(" /Height {0:d}\n", maskHeight); + writePSFmt(" /ImageMatrix [{0:d} 0 0 {1:d} 0 {2:d}]\n", + maskWidth, -maskHeight, maskHeight); + writePS(" /BitsPerComponent 1\n"); + writePSFmt(" /Decode [{0:d} {1:d}]\n", + maskInvert ? 1 : 0, maskInvert ? 0 : 1); + + // mask data source + writePS(" /DataSource currentfile\n"); + s = maskStr->getPSFilter(3, " "); + if (!s) { + maskUseRLE = gTrue; + maskUseASCII = gTrue; + maskUseCompressed = gFalse; + } else { + maskUseRLE = gFalse; + maskUseASCII = maskStr->isBinary(); + maskUseCompressed = gTrue; + } + if (maskUseASCII) { + writePSFmt(" /ASCII{0:s}Decode filter\n", + useASCIIHex ? "Hex" : "85"); + } + if (maskUseRLE) { + writePS(" /RunLengthDecode filter\n"); + } + if (maskUseCompressed) { + writePS(s->getCString()); + } + if (s) { + delete s; + } + + writePS(">>\n"); + writePS(">>\n"); + } + + if (mode == psModeForm || inType3Char || preload) { + + // image command + writePSFmt("{0:s}\n", colorMap ? "image" : "imagemask"); + + } else { + + if ((level == psLevel2Sep || level == psLevel3Sep) && colorMap && + colorMap->getColorSpace()->getMode() == csSeparation) { + color.c[0] = gfxColorComp1; + sepCS = (GfxSeparationColorSpace *)colorMap->getColorSpace(); + sepCS->getCMYK(&color, &cmyk); + writePSFmt("{0:.4g} {1:.4g} {2:.4g} {3:.4g} ({4:t}) pdfImSep\n", + colToDbl(cmyk.c), colToDbl(cmyk.m), + colToDbl(cmyk.y), colToDbl(cmyk.k), + sepCS->getName()); + } else { + writePSFmt("{0:s}\n", colorMap ? "pdfIm" : "pdfImM"); + } + + } + + // explicit masking + if (maskStr) { + + if (maskUseCompressed) { + maskStr = maskStr->getUndecodedStream(); + } + + // add RunLengthEncode and ASCIIHex/85 encode filters + if (maskUseRLE) { + maskStr = new RunLengthEncoder(maskStr); + } + if (maskUseASCII) { + if (useASCIIHex) { + maskStr = new ASCIIHexEncoder(maskStr); + } else { + maskStr = new ASCII85Encoder(maskStr); + } + } + + // copy the stream data + maskStr->reset(); + while ((c = maskStr->getChar()) != EOF) { + writePSChar(c); + } + maskStr->close(); + writePSChar('\n'); + + // delete encoders + if (maskUseRLE || maskUseASCII) { + delete maskStr; + } + } + + // get rid of the array and index + if (mode == psModeForm || inType3Char || preload) { + writePS("pop pop\n"); + + // image data + } else { + + // cut off inline image streams at appropriate length + if (inlineImg) { + str = new FixedLengthEncoder(str, len); + } else if (useCompressed) { + str = str->getUndecodedStream(); + } + + // recode DeviceN data + if (colorMap && colorMap->getColorSpace()->getMode() == csDeviceN) { + str = new DeviceNRecoder(str, width, height, colorMap); + } + + // add RunLengthEncode and ASCIIHex/85 encode filters + if (useRLE) { + str = new RunLengthEncoder(str); + } + if (useASCII) { + if (useASCIIHex) { + str = new ASCIIHexEncoder(str); + } else { + str = new ASCII85Encoder(str); + } + } + + // copy the stream data + str->reset(); + while ((c = str->getChar()) != EOF) { + writePSChar(c); + } + str->close(); + + // add newline and trailer to the end + writePSChar('\n'); + writePS("%-EOD-\n"); + + // delete encoders + if (useRLE || useASCII || inlineImg) { + delete str; + } + } +} + +void PSOutputDev::dumpColorSpaceL2(GfxColorSpace *colorSpace, + GBool genXform, GBool updateColors, + GBool map01) { + GfxCalGrayColorSpace *calGrayCS; + GfxCalRGBColorSpace *calRGBCS; + GfxLabColorSpace *labCS; + GfxIndexedColorSpace *indexedCS; + GfxSeparationColorSpace *separationCS; + GfxDeviceNColorSpace *deviceNCS; + GfxColorSpace *baseCS; + Guchar *lookup, *p; + double x[gfxColorMaxComps], y[gfxColorMaxComps]; + double low[gfxColorMaxComps], range[gfxColorMaxComps]; + GfxColor color; + GfxCMYK cmyk; + Function *func; + int n, numComps, numAltComps; + int byte; + int i, j, k; + + switch (colorSpace->getMode()) { + + case csDeviceGray: + writePS("/DeviceGray"); + if (genXform) { + writePS(" {}"); + } + if (updateColors) { + processColors |= psProcessBlack; + } + break; + + case csCalGray: + calGrayCS = (GfxCalGrayColorSpace *)colorSpace; + writePS("[/CIEBasedA <<\n"); + writePSFmt(" /DecodeA {{{0:.4g} exp}} bind\n", calGrayCS->getGamma()); + writePSFmt(" /MatrixA [{0:.4g} {1:.4g} {2:.4g}]\n", + calGrayCS->getWhiteX(), calGrayCS->getWhiteY(), + calGrayCS->getWhiteZ()); + writePSFmt(" /WhitePoint [{0:.4g} {1:.4g} {2:.4g}]\n", + calGrayCS->getWhiteX(), calGrayCS->getWhiteY(), + calGrayCS->getWhiteZ()); + writePSFmt(" /BlackPoint [{0:.4g} {1:.4g} {2:.4g}]\n", + calGrayCS->getBlackX(), calGrayCS->getBlackY(), + calGrayCS->getBlackZ()); + writePS(">>]"); + if (genXform) { + writePS(" {}"); + } + if (updateColors) { + processColors |= psProcessBlack; + } + break; + + case csDeviceRGB: + writePS("/DeviceRGB"); + if (genXform) { + writePS(" {}"); + } + if (updateColors) { + processColors |= psProcessCMYK; + } + break; + + case csCalRGB: + calRGBCS = (GfxCalRGBColorSpace *)colorSpace; + writePS("[/CIEBasedABC <<\n"); + writePSFmt(" /DecodeABC [{{{0:.4g} exp}} bind {{{1:.4g} exp}} bind {{{2:.4g} exp}} bind]\n", + calRGBCS->getGammaR(), calRGBCS->getGammaG(), + calRGBCS->getGammaB()); + writePSFmt(" /MatrixABC [{0:.4g} {1:.4g} {2:.4g} {3:.4g} {4:.4g} {5:.4g} {6:.4g} {7:.4g} {8:.4g}]\n", + calRGBCS->getMatrix()[0], calRGBCS->getMatrix()[1], + calRGBCS->getMatrix()[2], calRGBCS->getMatrix()[3], + calRGBCS->getMatrix()[4], calRGBCS->getMatrix()[5], + calRGBCS->getMatrix()[6], calRGBCS->getMatrix()[7], + calRGBCS->getMatrix()[8]); + writePSFmt(" /WhitePoint [{0:.4g} {1:.4g} {2:.4g}]\n", + calRGBCS->getWhiteX(), calRGBCS->getWhiteY(), + calRGBCS->getWhiteZ()); + writePSFmt(" /BlackPoint [{0:.4g} {1:.4g} {2:.4g}]\n", + calRGBCS->getBlackX(), calRGBCS->getBlackY(), + calRGBCS->getBlackZ()); + writePS(">>]"); + if (genXform) { + writePS(" {}"); + } + if (updateColors) { + processColors |= psProcessCMYK; + } + break; + + case csDeviceCMYK: + writePS("/DeviceCMYK"); + if (genXform) { + writePS(" {}"); + } + if (updateColors) { + processColors |= psProcessCMYK; + } + break; + + case csLab: + labCS = (GfxLabColorSpace *)colorSpace; + writePS("[/CIEBasedABC <<\n"); + if (map01) { + writePS(" /RangeABC [0 1 0 1 0 1]\n"); + writePSFmt(" /DecodeABC [{{100 mul 16 add 116 div}} bind {{{0:.4g} mul {1:.4g} add}} bind {{{2:.4g} mul {3:.4g} add}} bind]\n", + (labCS->getAMax() - labCS->getAMin()) / 500.0, + labCS->getAMin() / 500.0, + (labCS->getBMax() - labCS->getBMin()) / 200.0, + labCS->getBMin() / 200.0); + } else { + writePSFmt(" /RangeABC [0 100 {0:.4g} {1:.4g} {2:.4g} {3:.4g}]\n", + labCS->getAMin(), labCS->getAMax(), + labCS->getBMin(), labCS->getBMax()); + writePS(" /DecodeABC [{16 add 116 div} bind {500 div} bind {200 div} bind]\n"); + } + writePS(" /MatrixABC [1 1 1 1 0 0 0 0 -1]\n"); + writePS(" /DecodeLMN\n"); + writePS(" [{dup 6 29 div ge {dup dup mul mul}\n"); + writePSFmt(" {{4 29 div sub 108 841 div mul }} ifelse {0:.4g} mul}} bind\n", + labCS->getWhiteX()); + writePS(" {dup 6 29 div ge {dup dup mul mul}\n"); + writePSFmt(" {{4 29 div sub 108 841 div mul }} ifelse {0:.4g} mul}} bind\n", + labCS->getWhiteY()); + writePS(" {dup 6 29 div ge {dup dup mul mul}\n"); + writePSFmt(" {{4 29 div sub 108 841 div mul }} ifelse {0:.4g} mul}} bind]\n", + labCS->getWhiteZ()); + writePSFmt(" /WhitePoint [{0:.4g} {1:.4g} {2:.4g}]\n", + labCS->getWhiteX(), labCS->getWhiteY(), labCS->getWhiteZ()); + writePSFmt(" /BlackPoint [{0:.4g} {1:.4g} {2:.4g}]\n", + labCS->getBlackX(), labCS->getBlackY(), labCS->getBlackZ()); + writePS(">>]"); + if (genXform) { + writePS(" {}"); + } + if (updateColors) { + processColors |= psProcessCMYK; + } + break; + + case csICCBased: + // there is no transform function to the alternate color space, so + // we can use it directly + dumpColorSpaceL2(((GfxICCBasedColorSpace *)colorSpace)->getAlt(), + genXform, updateColors, gFalse); + break; + + case csIndexed: + indexedCS = (GfxIndexedColorSpace *)colorSpace; + baseCS = indexedCS->getBase(); + writePS("[/Indexed "); + dumpColorSpaceL2(baseCS, gFalse, gFalse, gTrue); + n = indexedCS->getIndexHigh(); + numComps = baseCS->getNComps(); + lookup = indexedCS->getLookup(); + writePSFmt(" {0:d} <\n", n); + if (baseCS->getMode() == csDeviceN) { + func = ((GfxDeviceNColorSpace *)baseCS)->getTintTransformFunc(); + baseCS->getDefaultRanges(low, range, indexedCS->getIndexHigh()); + if (((GfxDeviceNColorSpace *)baseCS)->getAlt()->getMode() == csLab) { + labCS = (GfxLabColorSpace *)((GfxDeviceNColorSpace *)baseCS)->getAlt(); + } else { + labCS = NULL; + } + numAltComps = ((GfxDeviceNColorSpace *)baseCS)->getAlt()->getNComps(); + p = lookup; + for (i = 0; i <= n; i += 8) { + writePS(" "); + for (j = i; j < i+8 && j <= n; ++j) { + for (k = 0; k < numComps; ++k) { + x[k] = low[k] + (*p++ / 255.0) * range[k]; + } + func->transform(x, y); + if (labCS) { + y[0] /= 100.0; + y[1] = (y[1] - labCS->getAMin()) / + (labCS->getAMax() - labCS->getAMin()); + y[2] = (y[2] - labCS->getBMin()) / + (labCS->getBMax() - labCS->getBMin()); + } + for (k = 0; k < numAltComps; ++k) { + byte = (int)(y[k] * 255 + 0.5); + if (byte < 0) { + byte = 0; + } else if (byte > 255) { + byte = 255; + } + writePSFmt("{0:02x}", byte); + } + if (updateColors) { + color.c[0] = dblToCol(j); + indexedCS->getCMYK(&color, &cmyk); + addProcessColor(colToDbl(cmyk.c), colToDbl(cmyk.m), + colToDbl(cmyk.y), colToDbl(cmyk.k)); + } + } + writePS("\n"); + } + } else { + for (i = 0; i <= n; i += 8) { + writePS(" "); + for (j = i; j < i+8 && j <= n; ++j) { + for (k = 0; k < numComps; ++k) { + writePSFmt("{0:02x}", lookup[j * numComps + k]); + } + if (updateColors) { + color.c[0] = dblToCol(j); + indexedCS->getCMYK(&color, &cmyk); + addProcessColor(colToDbl(cmyk.c), colToDbl(cmyk.m), + colToDbl(cmyk.y), colToDbl(cmyk.k)); + } + } + writePS("\n"); + } + } + writePS(">]"); + if (genXform) { + writePS(" {}"); + } + break; + + case csSeparation: + separationCS = (GfxSeparationColorSpace *)colorSpace; + writePS("[/Separation "); + writePSString(separationCS->getName()); + writePS(" "); + dumpColorSpaceL2(separationCS->getAlt(), gFalse, gFalse, gFalse); + writePS("\n"); + cvtFunction(separationCS->getFunc()); + writePS("]"); + if (genXform) { + writePS(" {}"); + } + if (updateColors) { + addCustomColor(separationCS); + } + break; + + case csDeviceN: + // DeviceN color spaces are a Level 3 PostScript feature. + deviceNCS = (GfxDeviceNColorSpace *)colorSpace; + dumpColorSpaceL2(deviceNCS->getAlt(), gFalse, updateColors, map01); + if (genXform) { + writePS(" "); + cvtFunction(deviceNCS->getTintTransformFunc()); + } + break; + + case csPattern: + //~ unimplemented + break; + } +} + +#if OPI_SUPPORT +void PSOutputDev::opiBegin(GfxState *state, Dict *opiDict) { + Object dict; + + if (globalParams->getPSOPI()) { + opiDict->lookup("2.0", &dict); + if (dict.isDict()) { + opiBegin20(state, dict.getDict()); + dict.free(); + } else { + dict.free(); + opiDict->lookup("1.3", &dict); + if (dict.isDict()) { + opiBegin13(state, dict.getDict()); + } + dict.free(); + } + } +} + +void PSOutputDev::opiBegin20(GfxState *state, Dict *dict) { + Object obj1, obj2, obj3, obj4; + double width, height, left, right, top, bottom; + int w, h; + int i; + + writePS("%%BeginOPI: 2.0\n"); + writePS("%%Distilled\n"); + + dict->lookup("F", &obj1); + if (getFileSpec(&obj1, &obj2)) { + writePSFmt("%%ImageFileName: {0:t}\n", obj2.getString()); + obj2.free(); + } + obj1.free(); + + dict->lookup("MainImage", &obj1); + if (obj1.isString()) { + writePSFmt("%%MainImage: {0:t}\n", obj1.getString()); + } + obj1.free(); + + //~ ignoring 'Tags' entry + //~ need to use writePSString() and deal with >255-char lines + + dict->lookup("Size", &obj1); + if (obj1.isArray() && obj1.arrayGetLength() == 2) { + obj1.arrayGet(0, &obj2); + width = obj2.getNum(); + obj2.free(); + obj1.arrayGet(1, &obj2); + height = obj2.getNum(); + obj2.free(); + writePSFmt("%%ImageDimensions: {0:.4g} {1:.4g}\n", width, height); + } + obj1.free(); + + dict->lookup("CropRect", &obj1); + if (obj1.isArray() && obj1.arrayGetLength() == 4) { + obj1.arrayGet(0, &obj2); + left = obj2.getNum(); + obj2.free(); + obj1.arrayGet(1, &obj2); + top = obj2.getNum(); + obj2.free(); + obj1.arrayGet(2, &obj2); + right = obj2.getNum(); + obj2.free(); + obj1.arrayGet(3, &obj2); + bottom = obj2.getNum(); + obj2.free(); + writePSFmt("%%ImageCropRect: {0:.4g} {1:.4g} {2:.4g} {3:.4g}\n", + left, top, right, bottom); + } + obj1.free(); + + dict->lookup("Overprint", &obj1); + if (obj1.isBool()) { + writePSFmt("%%ImageOverprint: {0:s}\n", obj1.getBool() ? "true" : "false"); + } + obj1.free(); + + dict->lookup("Inks", &obj1); + if (obj1.isName()) { + writePSFmt("%%ImageInks: {0:s}\n", obj1.getName()); + } else if (obj1.isArray() && obj1.arrayGetLength() >= 1) { + obj1.arrayGet(0, &obj2); + if (obj2.isName()) { + writePSFmt("%%ImageInks: {0:s} {1:d}", + obj2.getName(), (obj1.arrayGetLength() - 1) / 2); + for (i = 1; i+1 < obj1.arrayGetLength(); i += 2) { + obj1.arrayGet(i, &obj3); + obj1.arrayGet(i+1, &obj4); + if (obj3.isString() && obj4.isNum()) { + writePS(" "); + writePSString(obj3.getString()); + writePSFmt(" {0:.4g}", obj4.getNum()); + } + obj3.free(); + obj4.free(); + } + writePS("\n"); + } + obj2.free(); + } + obj1.free(); + + writePS("gsave\n"); + + writePS("%%BeginIncludedImage\n"); + + dict->lookup("IncludedImageDimensions", &obj1); + if (obj1.isArray() && obj1.arrayGetLength() == 2) { + obj1.arrayGet(0, &obj2); + w = obj2.getInt(); + obj2.free(); + obj1.arrayGet(1, &obj2); + h = obj2.getInt(); + obj2.free(); + writePSFmt("%%IncludedImageDimensions: {0:d} {1:d}\n", w, h); + } + obj1.free(); + + dict->lookup("IncludedImageQuality", &obj1); + if (obj1.isNum()) { + writePSFmt("%%IncludedImageQuality: {0:.4g}\n", obj1.getNum()); + } + obj1.free(); + + ++opi20Nest; +} + +void PSOutputDev::opiBegin13(GfxState *state, Dict *dict) { + Object obj1, obj2; + int left, right, top, bottom, samples, bits, width, height; + double c, m, y, k; + double llx, lly, ulx, uly, urx, ury, lrx, lry; + double tllx, tlly, tulx, tuly, turx, tury, tlrx, tlry; + double horiz, vert; + int i, j; + + writePS("save\n"); + writePS("/opiMatrix2 matrix currentmatrix def\n"); + writePS("opiMatrix setmatrix\n"); + + dict->lookup("F", &obj1); + if (getFileSpec(&obj1, &obj2)) { + writePSFmt("%ALDImageFileName: {0:t}\n", obj2.getString()); + obj2.free(); + } + obj1.free(); + + dict->lookup("CropRect", &obj1); + if (obj1.isArray() && obj1.arrayGetLength() == 4) { + obj1.arrayGet(0, &obj2); + left = obj2.getInt(); + obj2.free(); + obj1.arrayGet(1, &obj2); + top = obj2.getInt(); + obj2.free(); + obj1.arrayGet(2, &obj2); + right = obj2.getInt(); + obj2.free(); + obj1.arrayGet(3, &obj2); + bottom = obj2.getInt(); + obj2.free(); + writePSFmt("%ALDImageCropRect: {0:d} {1:d} {2:d} {3:d}\n", + left, top, right, bottom); + } + obj1.free(); + + dict->lookup("Color", &obj1); + if (obj1.isArray() && obj1.arrayGetLength() == 5) { + obj1.arrayGet(0, &obj2); + c = obj2.getNum(); + obj2.free(); + obj1.arrayGet(1, &obj2); + m = obj2.getNum(); + obj2.free(); + obj1.arrayGet(2, &obj2); + y = obj2.getNum(); + obj2.free(); + obj1.arrayGet(3, &obj2); + k = obj2.getNum(); + obj2.free(); + obj1.arrayGet(4, &obj2); + if (obj2.isString()) { + writePSFmt("%ALDImageColor: {0:.4g} {1:.4g} {2:.4g} {3:.4g} ", + c, m, y, k); + writePSString(obj2.getString()); + writePS("\n"); + } + obj2.free(); + } + obj1.free(); + + dict->lookup("ColorType", &obj1); + if (obj1.isName()) { + writePSFmt("%ALDImageColorType: {0:s}\n", obj1.getName()); + } + obj1.free(); + + //~ ignores 'Comments' entry + //~ need to handle multiple lines + + dict->lookup("CropFixed", &obj1); + if (obj1.isArray()) { + obj1.arrayGet(0, &obj2); + ulx = obj2.getNum(); + obj2.free(); + obj1.arrayGet(1, &obj2); + uly = obj2.getNum(); + obj2.free(); + obj1.arrayGet(2, &obj2); + lrx = obj2.getNum(); + obj2.free(); + obj1.arrayGet(3, &obj2); + lry = obj2.getNum(); + obj2.free(); + writePSFmt("%ALDImageCropFixed: {0:.4g} {1:.4g} {2:.4g} {3:.4g}\n", + ulx, uly, lrx, lry); + } + obj1.free(); + + dict->lookup("GrayMap", &obj1); + if (obj1.isArray()) { + writePS("%ALDImageGrayMap:"); + for (i = 0; i < obj1.arrayGetLength(); i += 16) { + if (i > 0) { + writePS("\n%%+"); + } + for (j = 0; j < 16 && i+j < obj1.arrayGetLength(); ++j) { + obj1.arrayGet(i+j, &obj2); + writePSFmt(" {0:d}", obj2.getInt()); + obj2.free(); + } + } + writePS("\n"); + } + obj1.free(); + + dict->lookup("ID", &obj1); + if (obj1.isString()) { + writePSFmt("%ALDImageID: {0:t}\n", obj1.getString()); + } + obj1.free(); + + dict->lookup("ImageType", &obj1); + if (obj1.isArray() && obj1.arrayGetLength() == 2) { + obj1.arrayGet(0, &obj2); + samples = obj2.getInt(); + obj2.free(); + obj1.arrayGet(1, &obj2); + bits = obj2.getInt(); + obj2.free(); + writePSFmt("%ALDImageType: {0:d} {1:d}\n", samples, bits); + } + obj1.free(); + + dict->lookup("Overprint", &obj1); + if (obj1.isBool()) { + writePSFmt("%ALDImageOverprint: {0:s}\n", + obj1.getBool() ? "true" : "false"); + } + obj1.free(); + + dict->lookup("Position", &obj1); + if (obj1.isArray() && obj1.arrayGetLength() == 8) { + obj1.arrayGet(0, &obj2); + llx = obj2.getNum(); + obj2.free(); + obj1.arrayGet(1, &obj2); + lly = obj2.getNum(); + obj2.free(); + obj1.arrayGet(2, &obj2); + ulx = obj2.getNum(); + obj2.free(); + obj1.arrayGet(3, &obj2); + uly = obj2.getNum(); + obj2.free(); + obj1.arrayGet(4, &obj2); + urx = obj2.getNum(); + obj2.free(); + obj1.arrayGet(5, &obj2); + ury = obj2.getNum(); + obj2.free(); + obj1.arrayGet(6, &obj2); + lrx = obj2.getNum(); + obj2.free(); + obj1.arrayGet(7, &obj2); + lry = obj2.getNum(); + obj2.free(); + opiTransform(state, llx, lly, &tllx, &tlly); + opiTransform(state, ulx, uly, &tulx, &tuly); + opiTransform(state, urx, ury, &turx, &tury); + opiTransform(state, lrx, lry, &tlrx, &tlry); + writePSFmt("%ALDImagePosition: {0:.4g} {1:.4g} {2:.4g} {3:.4g} {4:.4g} {5:.4g} {6:.4g} {7:.4g}\n", + tllx, tlly, tulx, tuly, turx, tury, tlrx, tlry); + obj2.free(); + } + obj1.free(); + + dict->lookup("Resolution", &obj1); + if (obj1.isArray() && obj1.arrayGetLength() == 2) { + obj1.arrayGet(0, &obj2); + horiz = obj2.getNum(); + obj2.free(); + obj1.arrayGet(1, &obj2); + vert = obj2.getNum(); + obj2.free(); + writePSFmt("%ALDImageResoution: {0:.4g} {1:.4g}\n", horiz, vert); + obj2.free(); + } + obj1.free(); + + dict->lookup("Size", &obj1); + if (obj1.isArray() && obj1.arrayGetLength() == 2) { + obj1.arrayGet(0, &obj2); + width = obj2.getInt(); + obj2.free(); + obj1.arrayGet(1, &obj2); + height = obj2.getInt(); + obj2.free(); + writePSFmt("%ALDImageDimensions: {0:d} {1:d}\n", width, height); + } + obj1.free(); + + //~ ignoring 'Tags' entry + //~ need to use writePSString() and deal with >255-char lines + + dict->lookup("Tint", &obj1); + if (obj1.isNum()) { + writePSFmt("%ALDImageTint: {0:.4g}\n", obj1.getNum()); + } + obj1.free(); + + dict->lookup("Transparency", &obj1); + if (obj1.isBool()) { + writePSFmt("%ALDImageTransparency: {0:s}\n", + obj1.getBool() ? "true" : "false"); + } + obj1.free(); + + writePS("%%BeginObject: image\n"); + writePS("opiMatrix2 setmatrix\n"); + ++opi13Nest; +} + +// Convert PDF user space coordinates to PostScript default user space +// coordinates. This has to account for both the PDF CTM and the +// PSOutputDev page-fitting transform. +void PSOutputDev::opiTransform(GfxState *state, double x0, double y0, + double *x1, double *y1) { + double t; + + state->transform(x0, y0, x1, y1); + *x1 += tx; + *y1 += ty; + if (rotate == 90) { + t = *x1; + *x1 = -*y1; + *y1 = t; + } else if (rotate == 180) { + *x1 = -*x1; + *y1 = -*y1; + } else if (rotate == 270) { + t = *x1; + *x1 = *y1; + *y1 = -t; + } + *x1 *= xScale; + *y1 *= yScale; +} + +void PSOutputDev::opiEnd(GfxState *state, Dict *opiDict) { + Object dict; + + if (globalParams->getPSOPI()) { + opiDict->lookup("2.0", &dict); + if (dict.isDict()) { + writePS("%%EndIncludedImage\n"); + writePS("%%EndOPI\n"); + writePS("grestore\n"); + --opi20Nest; + dict.free(); + } else { + dict.free(); + opiDict->lookup("1.3", &dict); + if (dict.isDict()) { + writePS("%%EndObject\n"); + writePS("restore\n"); + --opi13Nest; + } + dict.free(); + } + } +} + +GBool PSOutputDev::getFileSpec(Object *fileSpec, Object *fileName) { + if (fileSpec->isString()) { + fileSpec->copy(fileName); + return gTrue; + } + if (fileSpec->isDict()) { + fileSpec->dictLookup("DOS", fileName); + if (fileName->isString()) { + return gTrue; + } + fileName->free(); + fileSpec->dictLookup("Mac", fileName); + if (fileName->isString()) { + return gTrue; + } + fileName->free(); + fileSpec->dictLookup("Unix", fileName); + if (fileName->isString()) { + return gTrue; + } + fileName->free(); + fileSpec->dictLookup("F", fileName); + if (fileName->isString()) { + return gTrue; + } + fileName->free(); + } + return gFalse; +} +#endif // OPI_SUPPORT + +void PSOutputDev::type3D0(GfxState * /*state*/, double wx, double wy) { + writePSFmt("{0:.4g} {1:.4g} setcharwidth\n", wx, wy); + writePS("q\n"); + t3NeedsRestore = gTrue; +} + +void PSOutputDev::type3D1(GfxState * /*state*/, double wx, double wy, + double llx, double lly, double urx, double ury) { + t3WX = wx; + t3WY = wy; + t3LLX = llx; + t3LLY = lly; + t3URX = urx; + t3URY = ury; + t3String = new GString(); + writePS("q\n"); + t3Cacheable = gTrue; + t3NeedsRestore = gTrue; +} + +void PSOutputDev::drawForm(Ref id) { + writePSFmt("f_{0:d}_{1:d}\n", id.num, id.gen); +} + +void PSOutputDev::psXObject(Stream *psStream, Stream *level1Stream) { + Stream *str; + int c; + + if ((level == psLevel1 || level == psLevel1Sep) && level1Stream) { + str = level1Stream; + } else { + str = psStream; + } + str->reset(); + while ((c = str->getChar()) != EOF) { + writePSChar(c); + } + str->close(); +} + +//~ can nextFunc be reset to 0 -- maybe at the start of each page? +//~ or maybe at the start of each color space / pattern? +void PSOutputDev::cvtFunction(Function *func) { + SampledFunction *func0; + ExponentialFunction *func2; + StitchingFunction *func3; + PostScriptFunction *func4; + int thisFunc, m, n, nSamples, i, j, k; + + switch (func->getType()) { + + case -1: // identity + writePS("{}\n"); + break; + + case 0: // sampled + func0 = (SampledFunction *)func; + thisFunc = nextFunc++; + m = func0->getInputSize(); + n = func0->getOutputSize(); + nSamples = n; + for (i = 0; i < m; ++i) { + nSamples *= func0->getSampleSize(i); + } + writePSFmt("/xpdfSamples{0:d} [\n", thisFunc); + for (i = 0; i < nSamples; ++i) { + writePSFmt("{0:.4g}\n", func0->getSamples()[i]); + } + writePS("] def\n"); + writePSFmt("{{ {0:d} array {1:d} array {2:d} 2 roll\n", 2*m, m, m+2); + // [e01] [efrac] x0 x1 ... xm-1 + for (i = m-1; i >= 0; --i) { + // [e01] [efrac] x0 x1 ... xi + writePSFmt("{0:.4g} sub {1:.4g} mul {2:.4g} add\n", + func0->getDomainMin(i), + (func0->getEncodeMax(i) - func0->getEncodeMin(i)) / + (func0->getDomainMax(i) - func0->getDomainMin(i)), + func0->getEncodeMin(i)); + // [e01] [efrac] x0 x1 ... xi-1 xi' + writePSFmt("dup 0 lt {{ pop 0 }} {{ dup {0:d} gt {{ pop {1:d} }} if }} ifelse\n", + func0->getSampleSize(i) - 1, func0->getSampleSize(i) - 1); + // [e01] [efrac] x0 x1 ... xi-1 xi' + writePS("dup floor cvi exch dup ceiling cvi exch 2 index sub\n"); + // [e01] [efrac] x0 x1 ... xi-1 floor(xi') ceiling(xi') xi'-floor(xi') + writePSFmt("{0:d} index {1:d} 3 2 roll put\n", i+3, i); + // [e01] [efrac] x0 x1 ... xi-1 floor(xi') ceiling(xi') + writePSFmt("{0:d} index {1:d} 3 2 roll put\n", i+3, 2*i+1); + // [e01] [efrac] x0 x1 ... xi-1 floor(xi') + writePSFmt("{0:d} index {1:d} 3 2 roll put\n", i+2, 2*i); + // [e01] [efrac] x0 x1 ... xi-1 + } + // [e01] [efrac] + for (i = 0; i < n; ++i) { + // [e01] [efrac] y(0) ... y(i-1) + for (j = 0; j < (1<> k) & 1)); + for (k = m - 2; k >= 0; --k) { + writePSFmt("{0:d} mul {1:d} index {2:d} get add\n", + func0->getSampleSize(k), + i + j + 3, + 2 * k + ((j >> k) & 1)); + } + if (n > 1) { + writePSFmt("{0:d} mul {1:d} add ", n, i); + } + writePS("get\n"); + } + // [e01] [efrac] y(0) ... y(i-1) s(0) s(1) ... s(2^m-1) + for (j = 0; j < m; ++j) { + // [e01] [efrac] y(0) ... y(i-1) s(0) s(1) ... s(2^(m-j)-1) + for (k = 0; k < (1 << (m - j)); k += 2) { + // [e01] [efrac] y(0) ... y(i-1) <2^(m-j)-k s values> + writePSFmt("{0:d} index {1:d} get dup\n", + i + k/2 + (1 << (m-j)) - k, j); + writePS("3 2 roll mul exch 1 exch sub 3 2 roll mul add\n"); + writePSFmt("{0:d} 1 roll\n", k/2 + (1 << m-j) - k - 1); + } + // [e01] [efrac] s'(0) s'(1) ... s(2^(m-j-1)-1) + } + // [e01] [efrac] y(0) ... y(i-1) s + writePSFmt("{0:.4g} mul {1:.4g} add\n", + func0->getDecodeMax(i) - func0->getDecodeMin(i), + func0->getDecodeMin(i)); + writePSFmt("dup {0:.4g} lt {{ pop {1:.4g} }} {{ dup {2:.4g} gt {{ pop {3:.4g} }} if }} ifelse\n", + func0->getRangeMin(i), func0->getRangeMin(i), + func0->getRangeMax(i), func0->getRangeMax(i)); + // [e01] [efrac] y(0) ... y(i-1) y(i) + } + // [e01] [efrac] y(0) ... y(n-1) + writePSFmt("{0:d} {1:d} roll pop pop }}\n", n+2, n); + break; + + case 2: // exponential + func2 = (ExponentialFunction *)func; + n = func2->getOutputSize(); + writePSFmt("{{ dup {0:.4g} lt {{ pop {1:.4g} }} {{ dup {2:.4g} gt {{ pop {3:.4g} }} if }} ifelse\n", + func2->getDomainMin(0), func2->getDomainMin(0), + func2->getDomainMax(0), func2->getDomainMax(0)); + // x + for (i = 0; i < n; ++i) { + // x y(0) .. y(i-1) + writePSFmt("{0:d} index {1:.4g} exp {2:.4g} mul {3:.4g} add\n", + i, func2->getE(), func2->getC1()[i] - func2->getC0()[i], + func2->getC0()[i]); + if (func2->getHasRange()) { + writePSFmt("dup {0:.4g} lt {{ pop {1:.4g} }} {{ dup {2:.4g} gt {{ pop {3:.4g} }} if }} ifelse\n", + func2->getRangeMin(i), func2->getRangeMin(i), + func2->getRangeMax(i), func2->getRangeMax(i)); + } + } + // x y(0) .. y(n-1) + writePSFmt("{0:d} {1:d} roll pop }}\n", n+1, n); + break; + + case 3: // stitching + func3 = (StitchingFunction *)func; + thisFunc = nextFunc++; + for (i = 0; i < func3->getNumFuncs(); ++i) { + cvtFunction(func3->getFunc(i)); + writePSFmt("/xpdfFunc{0:d}_{1:d} exch def\n", thisFunc, i); + } + writePSFmt("{{ dup {0:.4g} lt {{ pop {1:.4g} }} {{ dup {2:.4g} gt {{ pop {3:.4g} }} if }} ifelse\n", + func3->getDomainMin(0), func3->getDomainMin(0), + func3->getDomainMax(0), func3->getDomainMax(0)); + for (i = 0; i < func3->getNumFuncs() - 1; ++i) { + writePSFmt("dup {0:.4g} lt {{ {1:.4g} sub {2:.4g} mul {3:.4g} add xpdfFunc{4:d}_{5:d} }} {{\n", + func3->getBounds()[i+1], + func3->getBounds()[i], + func3->getScale()[i], + func3->getEncode()[2*i], + thisFunc, i); + } + writePSFmt("{0:.4g} sub {1:.4g} mul {2:.4g} add xpdfFunc{3:d}_{4:d}\n", + func3->getBounds()[i], + func3->getScale()[i], + func3->getEncode()[2*i], + thisFunc, i); + for (i = 0; i < func3->getNumFuncs() - 1; ++i) { + writePS("} ifelse\n"); + } + writePS("}\n"); + break; + + case 4: // PostScript + func4 = (PostScriptFunction *)func; + writePS(func4->getCodeString()->getCString()); + writePS("\n"); + break; + } +} + +void PSOutputDev::writePSChar(char c) { + if (t3String) { + t3String->append(c); + } else { + (*outputFunc)(outputStream, &c, 1); + } +} + +void PSOutputDev::writePS(char *s) { + if (t3String) { + t3String->append(s); + } else { + (*outputFunc)(outputStream, s, strlen(s)); + } +} + +void PSOutputDev::writePSFmt(const char *fmt, ...) { + va_list args; + GString *buf; + + va_start(args, fmt); + if (t3String) { + t3String->appendfv((char *)fmt, args); + } else { + buf = GString::formatv((char *)fmt, args); + (*outputFunc)(outputStream, buf->getCString(), buf->getLength()); + delete buf; + } + va_end(args); +} + +void PSOutputDev::writePSString(GString *s) { + Guchar *p; + int n, line; + char buf[8]; + + writePSChar('('); + line = 1; + for (p = (Guchar *)s->getCString(), n = s->getLength(); n; ++p, --n) { + if (line >= 64) { + writePSChar('\\'); + writePSChar('\n'); + line = 0; + } + if (*p == '(' || *p == ')' || *p == '\\') { + writePSChar('\\'); + writePSChar((char)*p); + line += 2; + } else if (*p < 0x20 || *p >= 0x80) { + sprintf(buf, "\\%03o", *p); + writePS(buf); + line += 4; + } else { + writePSChar((char)*p); + ++line; + } + } + writePSChar(')'); +} + +void PSOutputDev::writePSName(char *s) { + char *p; + char c; + + p = s; + while ((c = *p++)) { + if (c <= (char)0x20 || c >= (char)0x7f || + c == '(' || c == ')' || c == '<' || c == '>' || + c == '[' || c == ']' || c == '{' || c == '}' || + c == '/' || c == '%') { + writePSFmt("#{0:02x}", c & 0xff); + } else { + writePSChar(c); + } + } +} + +GString *PSOutputDev::filterPSName(GString *name) { + GString *name2; + char buf[8]; + int i; + char c; + + name2 = new GString(); + + // ghostscript chokes on names that begin with out-of-limits + // numbers, e.g., 1e4foo is handled correctly (as a name), but + // 1e999foo generates a limitcheck error + c = name->getChar(0); + if (c >= '0' && c <= '9') { + name2->append('f'); + } + + for (i = 0; i < name->getLength(); ++i) { + c = name->getChar(i); + if (c <= (char)0x20 || c >= (char)0x7f || + c == '(' || c == ')' || c == '<' || c == '>' || + c == '[' || c == ']' || c == '{' || c == '}' || + c == '/' || c == '%') { + sprintf(buf, "#%02x", c & 0xff); + name2->append(buf); + } else { + name2->append(c); + } + } + return name2; +} + +// Write a DSC-compliant . +void PSOutputDev::writePSTextLine(GString *s) { + int i, j, step; + int c; + + // - DSC comments must be printable ASCII; control chars and + // backslashes have to be escaped (we do cheap Unicode-to-ASCII + // conversion by simply ignoring the high byte) + // - lines are limited to 255 chars (we limit to 200 here to allow + // for the keyword, which was emitted by the caller) + // - lines that start with a left paren are treated as + // instead of , so we escape a leading paren + if (s->getLength() >= 2 && + (s->getChar(0) & 0xff) == 0xfe && + (s->getChar(1) & 0xff) == 0xff) { + i = 3; + step = 2; + } else { + i = 0; + step = 1; + } + for (j = 0; i < s->getLength() && j < 200; i += step) { + c = s->getChar(i) & 0xff; + if (c == '\\') { + writePS("\\\\"); + j += 2; + } else if (c < 0x20 || c > 0x7e || (j == 0 && c == '(')) { + writePSFmt("\\{0:03o}", c); + j += 4; + } else { + writePSChar(c); + ++j; + } + } + writePS("\n"); +} diff --git a/kpdf/xpdf/xpdf/PSOutputDev.h b/kpdf/xpdf/xpdf/PSOutputDev.h new file mode 100644 index 00000000..36c0e8b6 --- /dev/null +++ b/kpdf/xpdf/xpdf/PSOutputDev.h @@ -0,0 +1,391 @@ +//======================================================================== +// +// PSOutputDev.h +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef PSOUTPUTDEV_H +#define PSOUTPUTDEV_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include +#include "config.h" +#include "Object.h" +#include "GlobalParams.h" +#include "OutputDev.h" + +class Function; +class GfxPath; +class GfxFont; +class GfxColorSpace; +class GfxSeparationColorSpace; +class PDFRectangle; +struct PSFont8Info; +struct PSFont16Enc; +class PSOutCustomColor; + +//------------------------------------------------------------------------ +// PSOutputDev +//------------------------------------------------------------------------ + +enum PSOutMode { + psModePS, + psModeEPS, + psModeForm +}; + +enum PSFileType { + psFile, // write to file + psPipe, // write to pipe + psStdout, // write to stdout + psGeneric // write to a generic stream +}; + +typedef void (*PSOutputFunc)(void *stream, char *data, int len); + +class PSOutputDev: public OutputDev { +public: + + // Open a PostScript output file, and write the prolog. + PSOutputDev(char *fileName, char *pstitle, XRef *xrefA, Catalog *catalog, + int firstPage, int lastPage, PSOutMode modeA, + int imgLLXA = 0, int imgLLYA = 0, + int imgURXA = 0, int imgURYA = 0, + GBool forceRasterize = gFalse, + GBool manualCtrlA = gFalse); + + // Destructor -- writes the trailer and closes the file. + virtual ~PSOutputDev(); + + // Check if file was successfully created. + virtual GBool isOk() { return ok; } + + //---- get info about output device + + // Does this device use upside-down coordinates? + // (Upside-down means (0,0) is the top left corner of the page.) + virtual GBool upsideDown() { return gFalse; } + + // Does this device use drawChar() or drawString()? + virtual GBool useDrawChar() { return gFalse; } + + // Does this device use tilingPatternFill()? If this returns false, + // tiling pattern fills will be reduced to a series of other drawing + // operations. + virtual GBool useTilingPatternFill() { return gTrue; } + + // Does this device use functionShadedFill(), axialShadedFill(), and + // radialShadedFill()? If this returns false, these shaded fills + // will be reduced to a series of other drawing operations. + virtual GBool useShadedFills() + { return level >= psLevel2; } + + // Does this device use drawForm()? If this returns false, + // form-type XObjects will be interpreted (i.e., unrolled). + virtual GBool useDrawForm() { return preload; } + + // Does this device use beginType3Char/endType3Char? Otherwise, + // text in Type 3 fonts will be drawn with drawChar/drawString. + virtual GBool interpretType3Chars() { return gFalse; } + + //----- header/trailer (used only if manualCtrl is true) + + // Write the document-level header. + void writeHeader(int firstPage, int lastPage, + PDFRectangle *mediaBox, PDFRectangle *cropBox, + int pageRotate, char *pstitle); + + // Write the Xpdf procset. + void writeXpdfProcset(); + + // Write the document-level setup. + void writeDocSetup(Catalog *catalog, int firstPage, int lastPage); + + // Write the trailer for the current page. + void writePageTrailer(); + + // Write the document trailer. + void writeTrailer(); + + //----- initialization and control + + // Check to see if a page slice should be displayed. If this + // returns false, the page display is aborted. Typically, an + // OutputDev will use some alternate means to display the page + // before returning false. + virtual GBool checkPageSlice(Page *page, double hDPI, double vDPI, + int rotate, GBool useMediaBox, GBool crop, + int sliceX, int sliceY, int sliceW, int sliceH, + GBool printing, Catalog *catalog, + GBool (*abortCheckCbk)(void *data) = NULL, + void *abortCheckCbkData = NULL); + + // Start a page. + virtual void startPage(int pageNum, GfxState *state); + + // End a page. + virtual void endPage(); + + //----- save/restore graphics state + virtual void saveState(GfxState *state); + virtual void restoreState(GfxState *state); + + //----- update graphics state + virtual void updateCTM(GfxState *state, double m11, double m12, + double m21, double m22, double m31, double m32); + virtual void updateLineDash(GfxState *state); + virtual void updateFlatness(GfxState *state); + virtual void updateLineJoin(GfxState *state); + virtual void updateLineCap(GfxState *state); + virtual void updateMiterLimit(GfxState *state); + virtual void updateLineWidth(GfxState *state); + virtual void updateFillColorSpace(GfxState *state); + virtual void updateStrokeColorSpace(GfxState *state); + virtual void updateFillColor(GfxState *state); + virtual void updateStrokeColor(GfxState *state); + virtual void updateFillOverprint(GfxState *state); + virtual void updateStrokeOverprint(GfxState *state); + virtual void updateTransfer(GfxState *state); + + //----- update text state + virtual void updateFont(GfxState *state); + virtual void updateTextMat(GfxState *state); + virtual void updateCharSpace(GfxState *state); + virtual void updateRender(GfxState *state); + virtual void updateRise(GfxState *state); + virtual void updateWordSpace(GfxState *state); + virtual void updateHorizScaling(GfxState *state); + virtual void updateTextPos(GfxState *state); + virtual void updateTextShift(GfxState *state, double shift); + + //----- path painting + virtual void stroke(GfxState *state); + virtual void fill(GfxState *state); + virtual void eoFill(GfxState *state); + virtual void tilingPatternFill(GfxState *state, Object *str, + int paintType, Dict *resDict, + double *mat, double *bbox, + int x0, int y0, int x1, int y1, + double xStep, double yStep); + virtual GBool functionShadedFill(GfxState *state, + GfxFunctionShading *shading); + virtual GBool axialShadedFill(GfxState *state, GfxAxialShading *shading); + virtual GBool radialShadedFill(GfxState *state, GfxRadialShading *shading); + + //----- path clipping + virtual void clip(GfxState *state); + virtual void eoClip(GfxState *state); + virtual void clipToStrokePath(GfxState *state); + + //----- text drawing + virtual void drawString(GfxState *state, GString *s); + virtual void endTextObject(GfxState *state); + + //----- image drawing + virtual void drawImageMask(GfxState *state, Object *ref, Stream *str, + int width, int height, GBool invert, + GBool inlineImg); + virtual void drawImage(GfxState *state, Object *ref, Stream *str, + int width, int height, GfxImageColorMap *colorMap, + int *maskColors, GBool inlineImg); + virtual void drawMaskedImage(GfxState *state, Object *ref, Stream *str, + int width, int height, + GfxImageColorMap *colorMap, + Stream *maskStr, int maskWidth, int maskHeight, + GBool maskInvert); + +#if OPI_SUPPORT + //----- OPI functions + virtual void opiBegin(GfxState *state, Dict *opiDict); + virtual void opiEnd(GfxState *state, Dict *opiDict); +#endif + + //----- Type 3 font operators + virtual void type3D0(GfxState *state, double wx, double wy); + virtual void type3D1(GfxState *state, double wx, double wy, + double llx, double lly, double urx, double ury); + + //----- form XObjects + virtual void drawForm(Ref ref); + + //----- PostScript XObjects + virtual void psXObject(Stream *psStream, Stream *level1Stream); + + //----- miscellaneous + void setOffset(double x, double y) + { tx0 = x; ty0 = y; } + void setScale(double x, double y) + { xScale0 = x; yScale0 = y; } + void setRotate(int rotateA) + { rotate0 = rotateA; } + void setClip(double llx, double lly, double urx, double ury) + { clipLLX0 = llx; clipLLY0 = lly; clipURX0 = urx; clipURY0 = ury; } + void setUnderlayCbk(void (*cbk)(PSOutputDev *psOut, void *data), + void *data) + { underlayCbk = cbk; underlayCbkData = data; } + void setOverlayCbk(void (*cbk)(PSOutputDev *psOut, void *data), + void *data) + { overlayCbk = cbk; overlayCbkData = data; } + +private: + + void init(PSOutputFunc outputFuncA, void *outputStreamA, + PSFileType fileTypeA, char *pstitle, XRef *xrefA, Catalog *catalog, + int firstPage, int lastPage, PSOutMode modeA, + int imgLLXA, int imgLLYA, int imgURXA, int imgURYA, + GBool manualCtrlA); + void setupResources(Dict *resDict); + void setupFonts(Dict *resDict); + void setupFont(GfxFont *font, Dict *parentResDict); + void setupEmbeddedType1Font(Ref *id, GString *psName); + void setupExternalType1Font(GString *fileName, GString *psName); + void setupEmbeddedType1CFont(GfxFont *font, Ref *id, GString *psName); + void setupEmbeddedOpenTypeT1CFont(GfxFont *font, Ref *id, GString *psName); + void setupEmbeddedTrueTypeFont(GfxFont *font, Ref *id, GString *psName); + GString *setupExternalTrueTypeFont(GfxFont *font); + void setupEmbeddedCIDType0Font(GfxFont *font, Ref *id, GString *psName); + void setupEmbeddedCIDTrueTypeFont(GfxFont *font, Ref *id, GString *psName, + GBool needVerticalMetrics); + void setupEmbeddedOpenTypeCFFFont(GfxFont *font, Ref *id, GString *psName); + GString *setupExternalCIDTrueTypeFont(GfxFont *font, GString *fileName, int faceIndex=0); + void setupType3Font(GfxFont *font, GString *psName, Dict *parentResDict); + void setupImages(Dict *resDict); + void setupImage(Ref id, Stream *str); + void setupForms(Dict *resDict); + void setupForm(Ref id, Object *strObj); + void addProcessColor(double c, double m, double y, double k); + void addCustomColor(GfxSeparationColorSpace *sepCS); + void doPath(GfxPath *path); + void doImageL1(Object *ref, GfxImageColorMap *colorMap, + GBool invert, GBool inlineImg, + Stream *str, int width, int height, int len); + void doImageL1Sep(GfxImageColorMap *colorMap, + GBool invert, GBool inlineImg, + Stream *str, int width, int height, int len); + void doImageL2(Object *ref, GfxImageColorMap *colorMap, + GBool invert, GBool inlineImg, + Stream *str, int width, int height, int len, + int *maskColors, Stream *maskStr, + int maskWidth, int maskHeight, GBool maskInvert); + void doImageL3(Object *ref, GfxImageColorMap *colorMap, + GBool invert, GBool inlineImg, + Stream *str, int width, int height, int len, + int *maskColors, Stream *maskStr, + int maskWidth, int maskHeight, GBool maskInvert); + void dumpColorSpaceL2(GfxColorSpace *colorSpace, + GBool genXform, GBool updateColors, + GBool map01); +#if OPI_SUPPORT + void opiBegin20(GfxState *state, Dict *dict); + void opiBegin13(GfxState *state, Dict *dict); + void opiTransform(GfxState *state, double x0, double y0, + double *x1, double *y1); + GBool getFileSpec(Object *fileSpec, Object *fileName); +#endif + void cvtFunction(Function *func); + void writePSChar(char c); + void writePS(char *s); + void writePSFmt(const char *fmt, ...); + void writePSString(GString *s); + void writePSName(char *s); + GString *filterPSName(GString *name); + void writePSTextLine(GString *s); + + PSLevel level; // PostScript level (1, 2, separation) + PSOutMode mode; // PostScript mode (PS, EPS, form) + int paperWidth; // width of paper, in pts + int paperHeight; // height of paper, in pts + int imgLLX, imgLLY, // imageable area, in pts + imgURX, imgURY; + GBool preload; // load all images into memory, and + // predefine forms + + PSOutputFunc outputFunc; + void *outputStream; + PSFileType fileType; // file / pipe / stdout + GBool manualCtrl; + int seqPage; // current sequential page number + void (*underlayCbk)(PSOutputDev *psOut, void *data); + void *underlayCbkData; + void (*overlayCbk)(PSOutputDev *psOut, void *data); + void *overlayCbkData; + + XRef *xref; // the xref table for this PDF file + + Ref *fontIDs; // list of object IDs of all used fonts + int fontIDLen; // number of entries in fontIDs array + int fontIDSize; // size of fontIDs array + Ref *fontFileIDs; // list of object IDs of all embedded fonts + int fontFileIDLen; // number of entries in fontFileIDs array + int fontFileIDSize; // size of fontFileIDs array + GString **fontFileNames; // list of names of all embedded external fonts + GString **psFileNames; // list of names of all embedded external ps names + int fontFileNameLen; // number of entries in fontFileNames array + int fontFileNameSize; // size of fontFileNames array + int nextTrueTypeNum; // next unique number to append to a TrueType + // font name + PSFont8Info *font8Info; // info for 8-bit fonts + int font8InfoLen; // number of entries in font8Info array + int font8InfoSize; // size of font8Info array + PSFont16Enc *font16Enc; // encodings for substitute 16-bit fonts + int font16EncLen; // number of entries in font16Enc array + int font16EncSize; // size of font16Enc array + Ref *imgIDs; // list of image IDs for in-memory images + int imgIDLen; // number of entries in imgIDs array + int imgIDSize; // size of imgIDs array + Ref *formIDs; // list of IDs for predefined forms + int formIDLen; // number of entries in formIDs array + int formIDSize; // size of formIDs array + GList *xobjStack; // stack of XObject dicts currently being + // processed + int numSaves; // current number of gsaves + int numTilingPatterns; // current number of nested tiling patterns + int nextFunc; // next unique number to use for a function + + double tx0, ty0; // global translation + double xScale0, yScale0; // global scaling + int rotate0; // rotation angle (0, 90, 180, 270) + double clipLLX0, clipLLY0, + clipURX0, clipURY0; + double tx, ty; // global translation for current page + double xScale, yScale; // global scaling for current page + int rotate; // rotation angle for current page + double epsX1, epsY1, // EPS bounding box (unrotated) + epsX2, epsY2; + + GString *embFontList; // resource comments for embedded fonts + + int processColors; // used process colors + PSOutCustomColor // used custom colors + *customColors; + + GBool haveTextClip; // set if text has been drawn with a + // clipping render mode + + GBool inType3Char; // inside a Type 3 CharProc + GString *t3String; // Type 3 content string + double t3WX, t3WY, // Type 3 character parameters + t3LLX, t3LLY, t3URX, t3URY; + GBool t3Cacheable; // cleared if char is not cacheable + GBool t3NeedsRestore; // set if a 'q' operator was issued + GBool forceRasterize; // forces the page to be rasterized + +#if OPI_SUPPORT + int opi13Nest; // nesting level of OPI 1.3 objects + int opi20Nest; // nesting level of OPI 2.0 objects +#endif + + GBool ok; // set up ok? + + + friend class WinPDFPrinter; +}; + +#endif diff --git a/kpdf/xpdf/xpdf/PSTokenizer.cc b/kpdf/xpdf/xpdf/PSTokenizer.cc new file mode 100644 index 00000000..a959cc73 --- /dev/null +++ b/kpdf/xpdf/xpdf/PSTokenizer.cc @@ -0,0 +1,135 @@ +//======================================================================== +// +// PSTokenizer.cc +// +// Copyright 2002-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include "PSTokenizer.h" + +//------------------------------------------------------------------------ + +// A '1' in this array means the character is white space. A '1' or +// '2' means the character ends a name or command. +static char PSTokenizer_specialChars[256] = { + 1, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 0, 1, 1, 0, 0, // 0x + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 1x + 1, 0, 0, 0, 0, 2, 0, 0, 2, 2, 0, 0, 0, 0, 0, 2, // 2x + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 2, 0, 2, 0, // 3x + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 4x + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 2, 0, 2, 0, 0, // 5x + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 6x + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 2, 0, 2, 0, 0, // 7x + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 8x + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 9x + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // ax + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // bx + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // cx + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // dx + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // ex + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 // fx +}; + +//------------------------------------------------------------------------ + +PSTokenizer::PSTokenizer(int (*getCharFuncA)(void *), void *dataA) { + getCharFunc = getCharFuncA; + data = dataA; + charBuf = -1; +} + +PSTokenizer::~PSTokenizer() { +} + +GBool PSTokenizer::getToken(char *buf, int size, int *length) { + GBool comment, backslash; + int c; + int i; + + // skip whitespace and comments + comment = gFalse; + while (1) { + if ((c = getChar()) == EOF) { + buf[0] = '\0'; + *length = 0; + return gFalse; + } + if (comment) { + if (c == '\x0a' || c == '\x0d') { + comment = gFalse; + } + } else if (c == '%') { + comment = gTrue; + } else if (PSTokenizer_specialChars[c] != 1) { + break; + } + } + + // read a token + i = 0; + buf[i++] = c; + if (c == '(') { + backslash = gFalse; + while ((c = lookChar()) != EOF) { + if (i < size - 1) { + buf[i++] = c; + } + getChar(); + if (c == '\\') { + backslash = gTrue; + } else if (!backslash && c == ')') { + break; + } else { + backslash = gFalse; + } + } + } else if (c == '<') { + while ((c = lookChar()) != EOF) { + getChar(); + if (i < size - 1 && PSTokenizer_specialChars[c] != 1) { + buf[i++] = c; + } + if (c == '>') { + break; + } + } + } else if (c != '[' && c != ']') { + while ((c = lookChar()) != EOF && !PSTokenizer_specialChars[c]) { + getChar(); + if (i < size - 1) { + buf[i++] = c; + } + } + } + buf[i] = '\0'; + *length = i; + + return gTrue; +} + +int PSTokenizer::lookChar() { + if (charBuf < 0) { + charBuf = (*getCharFunc)(data); + } + return charBuf; +} + +int PSTokenizer::getChar() { + int c; + + if (charBuf < 0) { + charBuf = (*getCharFunc)(data); + } + c = charBuf; + charBuf = -1; + return c; +} diff --git a/kpdf/xpdf/xpdf/PSTokenizer.h b/kpdf/xpdf/xpdf/PSTokenizer.h new file mode 100644 index 00000000..4d5ee97f --- /dev/null +++ b/kpdf/xpdf/xpdf/PSTokenizer.h @@ -0,0 +1,41 @@ +//======================================================================== +// +// PSTokenizer.h +// +// Copyright 2002-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef PSTOKENIZER_H +#define PSTOKENIZER_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" + +//------------------------------------------------------------------------ + +class PSTokenizer { +public: + + PSTokenizer(int (*getCharFuncA)(void *), void *dataA); + ~PSTokenizer(); + + // Get the next PostScript token. Returns false at end-of-stream. + GBool getToken(char *buf, int size, int *length); + +private: + + int lookChar(); + int getChar(); + + int (*getCharFunc)(void *); + void *data; + int charBuf; +}; + +#endif diff --git a/kpdf/xpdf/xpdf/Page.cc b/kpdf/xpdf/xpdf/Page.cc new file mode 100644 index 00000000..cfeab88b --- /dev/null +++ b/kpdf/xpdf/xpdf/Page.cc @@ -0,0 +1,558 @@ +//======================================================================== +// +// Page.cc +// +// Copyright 1996-2007 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include "GlobalParams.h" +#include "Object.h" +#include "Array.h" +#include "Dict.h" +#include "XRef.h" +#include "Link.h" +#include "OutputDev.h" +#ifndef PDF_PARSER_ONLY +#include "Gfx.h" +#include "GfxState.h" +#include "Annot.h" +#endif +#include "Error.h" +#include "Catalog.h" +#include "Page.h" + +//------------------------------------------------------------------------ +// PDFRectangle +//------------------------------------------------------------------------ + +void PDFRectangle::clipTo(PDFRectangle *rect) { + if (x1 < rect->x1) { + x1 = rect->x1; + } else if (x1 > rect->x2) { + x1 = rect->x2; + } + if (x2 < rect->x1) { + x2 = rect->x1; + } else if (x2 > rect->x2) { + x2 = rect->x2; + } + if (y1 < rect->y1) { + y1 = rect->y1; + } else if (y1 > rect->y2) { + y1 = rect->y2; + } + if (y2 < rect->y1) { + y2 = rect->y1; + } else if (y2 > rect->y2) { + y2 = rect->y2; + } +} + +//------------------------------------------------------------------------ +// PageAttrs +//------------------------------------------------------------------------ + +PageAttrs::PageAttrs(PageAttrs *attrs, Dict *dict) { + Object obj1; + + // get old/default values + if (attrs) { + mediaBox = attrs->mediaBox; + cropBox = attrs->cropBox; + haveCropBox = attrs->haveCropBox; + rotate = attrs->rotate; + attrs->resources.copy(&resources); + } else { + // set default MediaBox to 8.5" x 11" -- this shouldn't be necessary + // but some (non-compliant) PDF files don't specify a MediaBox + mediaBox.x1 = 0; + mediaBox.y1 = 0; + mediaBox.x2 = 612; + mediaBox.y2 = 792; + cropBox.x1 = cropBox.y1 = cropBox.x2 = cropBox.y2 = 0; + haveCropBox = gFalse; + rotate = 0; + resources.initNull(); + } + + // media box + readBox(dict, "MediaBox", &mediaBox); + + // crop box + if (readBox(dict, "CropBox", &cropBox)) { + haveCropBox = gTrue; + } + if (!haveCropBox) { + cropBox = mediaBox; + } + else + { + // cropBox can not be bigger than mediaBox + if (cropBox.x2 - cropBox.x1 > mediaBox.x2 - mediaBox.x1) + { + cropBox.x1 = mediaBox.x1; + cropBox.x2 = mediaBox.x2; + } + if (cropBox.y2 - cropBox.y1 > mediaBox.y2 - mediaBox.y1) + { + cropBox.y1 = mediaBox.y1; + cropBox.y2 = mediaBox.y2; + } + } + + // other boxes + bleedBox = cropBox; + readBox(dict, "BleedBox", &bleedBox); + trimBox = cropBox; + readBox(dict, "TrimBox", &trimBox); + artBox = cropBox; + readBox(dict, "ArtBox", &artBox); + + // clip all other boxes to the media box + cropBox.clipTo(&mediaBox); + bleedBox.clipTo(&mediaBox); + trimBox.clipTo(&mediaBox); + artBox.clipTo(&mediaBox); + + // rotate + dict->lookup("Rotate", &obj1); + if (obj1.isInt()) { + rotate = obj1.getInt(); + } + obj1.free(); + while (rotate < 0) { + rotate += 360; + } + while (rotate >= 360) { + rotate -= 360; + } + + // misc attributes + dict->lookup("LastModified", &lastModified); + dict->lookup("BoxColorInfo", &boxColorInfo); + dict->lookup("Group", &group); + dict->lookup("Metadata", &metadata); + dict->lookup("PieceInfo", &pieceInfo); + dict->lookup("SeparationInfo", &separationInfo); + + // resource dictionary + dict->lookup("Resources", &obj1); + if (obj1.isDict()) { + resources.free(); + obj1.copy(&resources); + } + obj1.free(); +} + +PageAttrs::~PageAttrs() { + lastModified.free(); + boxColorInfo.free(); + group.free(); + metadata.free(); + pieceInfo.free(); + separationInfo.free(); + resources.free(); +} + +GBool PageAttrs::readBox(Dict *dict, char *key, PDFRectangle *box) { + PDFRectangle tmp; + double t; + Object obj1, obj2; + GBool ok; + + dict->lookup(key, &obj1); + if (obj1.isArray() && obj1.arrayGetLength() == 4) { + ok = gTrue; + obj1.arrayGet(0, &obj2); + if (obj2.isNum()) { + tmp.x1 = obj2.getNum(); + } else { + ok = gFalse; + } + obj2.free(); + obj1.arrayGet(1, &obj2); + if (obj2.isNum()) { + tmp.y1 = obj2.getNum(); + } else { + ok = gFalse; + } + obj2.free(); + obj1.arrayGet(2, &obj2); + if (obj2.isNum()) { + tmp.x2 = obj2.getNum(); + } else { + ok = gFalse; + } + obj2.free(); + obj1.arrayGet(3, &obj2); + if (obj2.isNum()) { + tmp.y2 = obj2.getNum(); + } else { + ok = gFalse; + } + obj2.free(); + if (ok) { + if (tmp.x1 > tmp.x2) { + t = tmp.x1; tmp.x1 = tmp.x2; tmp.x2 = t; + } + if (tmp.y1 > tmp.y2) { + t = tmp.y1; tmp.y1 = tmp.y2; tmp.y2 = t; + } + *box = tmp; + } + } else { + ok = gFalse; + } + obj1.free(); + return ok; +} + +//------------------------------------------------------------------------ +// PageTransition +//------------------------------------------------------------------------ + +PageTransition::PageTransition(Dict *dict) + : type(Replace), + duration(1), + alignment(Horizontal), + direction(Inward), + angle(0), + scale(1.0), + rectangular(false) +{ + Object dictObj; + Object obj; + + dict->lookup("Trans", &dictObj); + if (dictObj.isDict()) { + Dict *transDict = dictObj.getDict(); + + if (transDict->lookup("S", &obj)->isName()) { + const char *s = obj.getName(); + if (strcmp("R", s) == 0) + type = Replace; + else if (strcmp("Split", s) == 0) + type = Split; + else if (strcmp("Blinds", s) == 0) + type = Blinds; + else if (strcmp("Box", s) == 0) + type = Box; + else if (strcmp("Wipe", s) == 0) + type = Wipe; + else if (strcmp("Dissolve", s) == 0) + type = Dissolve; + else if (strcmp("Glitter", s) == 0) + type = Glitter; + else if (strcmp("Fly", s) == 0) + type = Fly; + else if (strcmp("Push", s) == 0) + type = Push; + else if (strcmp("Cover", s) == 0) + type = Cover; + else if (strcmp("Uncover", s) == 0) + type = Push; + else if (strcmp("Fade", s) == 0) + type = Cover; + } + obj.free(); + + if (transDict->lookup("D", &obj)->isInt()) { + duration = obj.getInt(); + } + obj.free(); + + if (transDict->lookup("Dm", &obj)->isName()) { + const char *dm = obj.getName(); + if ( strcmp( "H", dm ) == 0 ) + alignment = Horizontal; + else if ( strcmp( "V", dm ) == 0 ) + alignment = Vertical; + } + obj.free(); + + if (transDict->lookup("M", &obj)->isName()) { + const char *m = obj.getName(); + if ( strcmp( "I", m ) == 0 ) + direction = Inward; + else if ( strcmp( "O", m ) == 0 ) + direction = Outward; + } + obj.free(); + + if (transDict->lookup("Di", &obj)->isInt()) { + angle = obj.getInt(); + } + obj.free(); + + if (transDict->lookup("Di", &obj)->isName()) { + if ( strcmp( "None", obj.getName() ) == 0 ) + angle = 0; + } + obj.free(); + + if (transDict->lookup("SS", &obj)->isReal()) { + scale = obj.getReal(); + } + obj.free(); + + if (transDict->lookup("B", &obj)->isBool()) { + rectangular = obj.getBool(); + } + obj.free(); + } + dictObj.free(); +} + +PageTransition::~PageTransition() { +} + +//------------------------------------------------------------------------ +// Page +//------------------------------------------------------------------------ + +Page::Page(XRef *xrefA, int numA, Dict *pageDict, PageAttrs *attrsA) { + ok = gTrue; + xref = xrefA; + num = numA; + + // get attributes + attrs = attrsA; + + // get transition + transition = new PageTransition( pageDict ); + + // annotations + pageDict->lookupNF("Annots", &annots); + if (!(annots.isRef() || annots.isArray() || annots.isNull())) { + error(-1, "Page annotations object (page %d) is wrong type (%s)", + num, annots.getTypeName()); + annots.free(); + goto err2; + } + + // contents + pageDict->lookupNF("Contents", &contents); + if (!(contents.isRef() || contents.isArray() || + contents.isNull())) { + error(-1, "Page contents object (page %d) is wrong type (%s)", + num, contents.getTypeName()); + contents.free(); + goto err1; + } + + return; + + err2: + annots.initNull(); + err1: + contents.initNull(); + ok = gFalse; +} + +Page::~Page() { + delete attrs; + delete transition; + annots.free(); + contents.free(); +} + +Links *Page::getLinks(Catalog *catalog) { + Links *links; + Object obj; + + links = new Links(getAnnots(&obj), catalog->getBaseURI()); + obj.free(); + return links; +} + +void Page::display(OutputDev *out, double hDPI, double vDPI, + int rotate, GBool useMediaBox, GBool crop, + GBool printing, Catalog *catalog, + GBool (*abortCheckCbk)(void *data), + void *abortCheckCbkData) { + displaySlice(out, hDPI, vDPI, rotate, useMediaBox, crop, + -1, -1, -1, -1, printing, catalog, + abortCheckCbk, abortCheckCbkData); +} + +void Page::displaySlice(OutputDev *out, double hDPI, double vDPI, + int rotate, GBool useMediaBox, GBool crop, + int sliceX, int sliceY, int sliceW, int sliceH, + GBool printing, Catalog *catalog, + GBool (*abortCheckCbk)(void *data), + void *abortCheckCbkData) { +#ifndef PDF_PARSER_ONLY + PDFRectangle *mediaBox, *cropBox; + PDFRectangle box; + Gfx *gfx; + Object obj; + Annots *annotList; + Dict *acroForm; + int i; + + if (!out->checkPageSlice(this, hDPI, vDPI, rotate, useMediaBox, crop, + sliceX, sliceY, sliceW, sliceH, + printing, catalog, + abortCheckCbk, abortCheckCbkData)) { + return; + } + + rotate += getRotate(); + if (rotate >= 360) { + rotate -= 360; + } else if (rotate < 0) { + rotate += 360; + } + + makeBox(hDPI, vDPI, rotate, useMediaBox, out->upsideDown(), + sliceX, sliceY, sliceW, sliceH, &box, &crop); + cropBox = getCropBox(); + + if (globalParams->getPrintCommands()) { + mediaBox = getMediaBox(); + printf("***** MediaBox = ll:%g,%g ur:%g,%g\n", + mediaBox->x1, mediaBox->y1, mediaBox->x2, mediaBox->y2); + printf("***** CropBox = ll:%g,%g ur:%g,%g\n", + cropBox->x1, cropBox->y1, cropBox->x2, cropBox->y2); + printf("***** Rotate = %d\n", attrs->getRotate()); + } + + gfx = new Gfx(xref, out, num, attrs->getResourceDict(), + hDPI, vDPI, &box, crop ? cropBox : (PDFRectangle *)NULL, + rotate, abortCheckCbk, abortCheckCbkData); + contents.fetch(xref, &obj); + if (!obj.isNull()) { + gfx->saveState(); + gfx->display(&obj); + gfx->restoreState(); + } + obj.free(); + + // draw annotations + annotList = new Annots(xref, catalog, getAnnots(&obj)); + obj.free(); + acroForm = catalog->getAcroForm()->isDict() ? + catalog->getAcroForm()->getDict() : NULL; + if (acroForm) { + if (acroForm->lookup("NeedAppearances", &obj)) { + if (obj.isBool() && obj.getBool()) { + annotList->generateAppearances(acroForm); + } + } + obj.free(); + } + if (annotList->getNumAnnots() > 0) { + if (globalParams->getPrintCommands()) { + printf("***** Annotations\n"); + } + for (i = 0; i < annotList->getNumAnnots(); ++i) { + annotList->getAnnot(i)->draw(gfx, printing); + } + out->dump(); + } + delete annotList; + + delete gfx; +#endif +} + +void Page::makeBox(double hDPI, double vDPI, int rotate, + GBool useMediaBox, GBool upsideDown, + double sliceX, double sliceY, double sliceW, double sliceH, + PDFRectangle *box, GBool *crop) { + PDFRectangle *mediaBox, *cropBox, *baseBox; + double kx, ky; + + mediaBox = getMediaBox(); + cropBox = getCropBox(); + if (sliceW >= 0 && sliceH >= 0) { + baseBox = useMediaBox ? mediaBox : cropBox; + kx = 72.0 / hDPI; + ky = 72.0 / vDPI; + if (rotate == 90) { + if (upsideDown) { + box->x1 = baseBox->x1 + ky * sliceY; + box->x2 = baseBox->x1 + ky * (sliceY + sliceH); + } else { + box->x1 = baseBox->x2 - ky * (sliceY + sliceH); + box->x2 = baseBox->x2 - ky * sliceY; + } + box->y1 = baseBox->y1 + kx * sliceX; + box->y2 = baseBox->y1 + kx * (sliceX + sliceW); + } else if (rotate == 180) { + box->x1 = baseBox->x2 - kx * (sliceX + sliceW); + box->x2 = baseBox->x2 - kx * sliceX; + if (upsideDown) { + box->y1 = baseBox->y1 + ky * sliceY; + box->y2 = baseBox->y1 + ky * (sliceY + sliceH); + } else { + box->y1 = baseBox->y2 - ky * (sliceY + sliceH); + box->y2 = baseBox->y2 - ky * sliceY; + } + } else if (rotate == 270) { + if (upsideDown) { + box->x1 = baseBox->x2 - ky * (sliceY + sliceH); + box->x2 = baseBox->x2 - ky * sliceY; + } else { + box->x1 = baseBox->x1 + ky * sliceY; + box->x2 = baseBox->x1 + ky * (sliceY + sliceH); + } + box->y1 = baseBox->y2 - kx * (sliceX + sliceW); + box->y2 = baseBox->y2 - kx * sliceX; + } else { + box->x1 = baseBox->x1 + kx * sliceX; + box->x2 = baseBox->x1 + kx * (sliceX + sliceW); + if (upsideDown) { + box->y1 = baseBox->y2 - ky * (sliceY + sliceH); + box->y2 = baseBox->y2 - ky * sliceY; + } else { + box->y1 = baseBox->y1 + ky * sliceY; + box->y2 = baseBox->y1 + ky * (sliceY + sliceH); + } + } + } else if (useMediaBox) { + *box = *mediaBox; + } else { + *box = *cropBox; + *crop = gFalse; + } +} + +void Page::processLinks(OutputDev *out, Catalog *catalog) { + Links *links; + int i; + + links = getLinks(catalog); + for (i = 0; i < links->getNumLinks(); ++i) { + out->processLink(links->getLink(i), catalog); + } + delete links; +} + +void Page::getDefaultCTM(double *ctm, double hDPI, double vDPI, + int rotate, GBool useMediaBox, GBool upsideDown) { + GfxState *state; + int i; + + rotate += getRotate(); + if (rotate >= 360) { + rotate -= 360; + } else if (rotate < 0) { + rotate += 360; + } + state = new GfxState(hDPI, vDPI, + useMediaBox ? getMediaBox() : getCropBox(), + rotate, upsideDown); + for (i = 0; i < 6; ++i) { + ctm[i] = state->getCTM()[i]; + } + delete state; +} diff --git a/kpdf/xpdf/xpdf/Page.h b/kpdf/xpdf/xpdf/Page.h new file mode 100644 index 00000000..111554c7 --- /dev/null +++ b/kpdf/xpdf/xpdf/Page.h @@ -0,0 +1,259 @@ +//======================================================================== +// +// Page.h +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef PAGE_H +#define PAGE_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "Object.h" + +class Dict; +class XRef; +class OutputDev; +class Links; +class Catalog; + +//------------------------------------------------------------------------ + +class PDFRectangle { +public: + double x1, y1, x2, y2; + + PDFRectangle() { x1 = y1 = x2 = y2 = 0; } + PDFRectangle(double x1A, double y1A, double x2A, double y2A) + { x1 = x1A; y1 = y1A; x2 = x2A; y2 = y2A; } + GBool isValid() { return x1 != 0 || y1 != 0 || x2 != 0 || y2 != 0; } + void clipTo(PDFRectangle *rect); +}; + +//------------------------------------------------------------------------ +// PageAttrs +//------------------------------------------------------------------------ + +class PageAttrs { +public: + + // Construct a new PageAttrs object by merging a dictionary + // (of type Pages or Page) into another PageAttrs object. If + // is NULL, uses defaults. + PageAttrs(PageAttrs *attrs, Dict *dict); + + // Destructor. + ~PageAttrs(); + + // Accessors. + PDFRectangle *getMediaBox() { return &mediaBox; } + PDFRectangle *getCropBox() { return &cropBox; } + GBool isCropped() { return haveCropBox; } + PDFRectangle *getBleedBox() { return &bleedBox; } + PDFRectangle *getTrimBox() { return &trimBox; } + PDFRectangle *getArtBox() { return &artBox; } + int getRotate() { return rotate; } + GString *getLastModified() + { return lastModified.isString() + ? lastModified.getString() : (GString *)NULL; } + Dict *getBoxColorInfo() + { return boxColorInfo.isDict() ? boxColorInfo.getDict() : (Dict *)NULL; } + Dict *getGroup() + { return group.isDict() ? group.getDict() : (Dict *)NULL; } + Stream *getMetadata() + { return metadata.isStream() ? metadata.getStream() : (Stream *)NULL; } + Dict *getPieceInfo() + { return pieceInfo.isDict() ? pieceInfo.getDict() : (Dict *)NULL; } + Dict *getSeparationInfo() + { return separationInfo.isDict() + ? separationInfo.getDict() : (Dict *)NULL; } + Dict *getResourceDict() + { return resources.isDict() ? resources.getDict() : (Dict *)NULL; } + +private: + + GBool readBox(Dict *dict, char *key, PDFRectangle *box); + + PDFRectangle mediaBox; + PDFRectangle cropBox; + GBool haveCropBox; + PDFRectangle bleedBox; + PDFRectangle trimBox; + PDFRectangle artBox; + int rotate; + Object lastModified; + Object boxColorInfo; + Object group; + Object metadata; + Object pieceInfo; + Object separationInfo; + Object resources; +}; + +//------------------------------------------------------------------------ +// PageTransition +//------------------------------------------------------------------------ +class PageTransition { +public: + enum Type { + Replace, + Split, + Blinds, + Box, + Wipe, + Dissolve, + Glitter, + Fly, + Push, + Cover, + Uncover, + Fade + }; + + enum Alignment { + Horizontal, + Vertical + }; + + enum Direction { + Inward, + Outward + }; + + // Construct a new PageTransition object from a page dictionary. + PageTransition( Dict *dict ); + + // Destructor + ~PageTransition(); + + // Get type of the transition. + Type getType() const { return type; } + + // Get duration of the transition in seconds. + int getDuration() const { return duration; } + + // Get dimension in which the transition effect + // occurs. + Alignment getAlignment() const { return alignment; } + + // Get direction of motion of the transition effect. + Direction getDirection() const { return direction; } + + // Get direction in which the transition effect moves. + int getAngle() const { return angle; } + + // Get starting or ending scale. + double getScale() const { return scale; } + + // Returns true if the area to be flown is rectangular and + // opaque. + GBool isRectangular() const { return rectangular; } +private: + Type type; + int duration; + Alignment alignment; + Direction direction; + int angle; + double scale; + GBool rectangular; +}; + +//------------------------------------------------------------------------ +// Page +//------------------------------------------------------------------------ + +class Page { +public: + + // Constructor. + Page(XRef *xrefA, int numA, Dict *pageDict, PageAttrs *attrsA); + + // Destructor. + ~Page(); + + // Is page valid? + GBool isOk() { return ok; } + + // Get page parameters. + int getNum() { return num; } + PDFRectangle *getMediaBox() { return attrs->getMediaBox(); } + PDFRectangle *getCropBox() { return attrs->getCropBox(); } + GBool isCropped() { return attrs->isCropped(); } + double getMediaWidth() + { return attrs->getMediaBox()->x2 - attrs->getMediaBox()->x1; } + double getMediaHeight() + { return attrs->getMediaBox()->y2 - attrs->getMediaBox()->y1; } + double getCropWidth() + { return attrs->getCropBox()->x2 - attrs->getCropBox()->x1; } + double getCropHeight() + { return attrs->getCropBox()->y2 - attrs->getCropBox()->y1; } + PDFRectangle *getBleedBox() { return attrs->getBleedBox(); } + PDFRectangle *getTrimBox() { return attrs->getTrimBox(); } + PDFRectangle *getArtBox() { return attrs->getArtBox(); } + int getRotate() { return attrs->getRotate(); } + GString *getLastModified() { return attrs->getLastModified(); } + Dict *getBoxColorInfo() { return attrs->getBoxColorInfo(); } + Dict *getGroup() { return attrs->getGroup(); } + Stream *getMetadata() { return attrs->getMetadata(); } + Dict *getPieceInfo() { return attrs->getPieceInfo(); } + Dict *getSeparationInfo() { return attrs->getSeparationInfo(); } + + // Get resource dictionary. + Dict *getResourceDict() { return attrs->getResourceDict(); } + + // Get annotations array. + Object *getAnnots(Object *obj) { return annots.fetch(xref, obj); } + + // Return a list of links. + Links *getLinks(Catalog *catalog); + + // Get contents. + Object *getContents(Object *obj) { return contents.fetch(xref, obj); } + + // Get transition information. + PageTransition *getTransition() const { return transition; } + + // Display a page. + void display(OutputDev *out, double hDPI, double vDPI, + int rotate, GBool useMediaBox, GBool crop, + GBool printing, Catalog *catalog, + GBool (*abortCheckCbk)(void *data) = NULL, + void *abortCheckCbkData = NULL); + + // Display part of a page. + void displaySlice(OutputDev *out, double hDPI, double vDPI, + int rotate, GBool useMediaBox, GBool crop, + int sliceX, int sliceY, int sliceW, int sliceH, + GBool printing, Catalog *catalog, + GBool (*abortCheckCbk)(void *data) = NULL, + void *abortCheckCbkData = NULL); + + void makeBox(double hDPI, double vDPI, int rotate, + GBool useMediaBox, GBool upsideDown, + double sliceX, double sliceY, double sliceW, double sliceH, + PDFRectangle *box, GBool *crop); + + void processLinks(OutputDev *out, Catalog *catalog); + + // Get the page's default CTM. + void getDefaultCTM(double *ctm, double hDPI, double vDPI, + int rotate, GBool useMediaBox, GBool upsideDown); + +private: + + XRef *xref; // the xref table for this PDF file + int num; // page number + PageAttrs *attrs; // page attributes + PageTransition *transition; // page transition + Object annots; // annotations array + Object contents; // page contents + GBool ok; // true if page is valid +}; + +#endif diff --git a/kpdf/xpdf/xpdf/Parser.cc b/kpdf/xpdf/xpdf/Parser.cc new file mode 100644 index 00000000..65a43d94 --- /dev/null +++ b/kpdf/xpdf/xpdf/Parser.cc @@ -0,0 +1,227 @@ +//======================================================================== +// +// Parser.cc +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include "Object.h" +#include "Array.h" +#include "Dict.h" +#include "Decrypt.h" +#include "Parser.h" +#include "XRef.h" +#include "Error.h" + +Parser::Parser(XRef *xrefA, Lexer *lexerA, GBool allowStreamsA) { + xref = xrefA; + lexer = lexerA; + inlineImg = 0; + allowStreams = allowStreamsA; + lexer->getObj(&buf1); + lexer->getObj(&buf2); +} + +Parser::~Parser() { + buf1.free(); + buf2.free(); + delete lexer; +} + +Object *Parser::getObj(Object *obj, Guchar *fileKey, + CryptAlgorithm encAlgorithm, int keyLength, + int objNum, int objGen) { + char *key; + Stream *str; + Object obj2; + int num; + DecryptStream *decrypt; + GString *s, *s2; + int c; + + // refill buffer after inline image data + if (inlineImg == 2) { + buf1.free(); + buf2.free(); + lexer->getObj(&buf1); + lexer->getObj(&buf2); + inlineImg = 0; + } + + // array + if (buf1.isCmd("[")) { + shift(); + obj->initArray(xref); + while (!buf1.isCmd("]") && !buf1.isEOF()) + obj->arrayAdd(getObj(&obj2, fileKey, encAlgorithm, keyLength, + objNum, objGen)); + if (buf1.isEOF()) + error(getPos(), "End of file inside array"); + shift(); + + // dictionary or stream + } else if (buf1.isCmd("<<")) { + shift(objNum); + obj->initDict(xref); + while (!buf1.isCmd(">>") && !buf1.isEOF()) { + if (!buf1.isName()) { + error(getPos(), "Dictionary key must be a name object"); + shift(); + } else { + key = copyString(buf1.getName()); + shift(); + if (buf1.isEOF() || buf1.isError()) { + gfree(key); + break; + } + obj->dictAdd(key, getObj(&obj2, fileKey, encAlgorithm, keyLength, + objNum, objGen)); + } + } + if (buf1.isEOF()) + error(getPos(), "End of file inside dictionary"); + // stream objects are not allowed inside content streams or + // object streams + if (allowStreams && buf2.isCmd("stream")) { + if ((str = makeStream(obj, fileKey, encAlgorithm, keyLength, + objNum, objGen))) { + obj->initStream(str); + } else { + obj->free(); + obj->initError(); + } + } else { + shift(); + } + + // indirect reference or integer + } else if (buf1.isInt()) { + num = buf1.getInt(); + shift(); + if (buf1.isInt() && buf2.isCmd("R")) { + obj->initRef(num, buf1.getInt()); + shift(); + shift(); + } else { + obj->initInt(num); + } + + // string + } else if (buf1.isString() && fileKey) { + s = buf1.getString(); + s2 = new GString(); + obj2.initNull(); + decrypt = new DecryptStream(new MemStream(s->getCString(), 0, + s->getLength(), &obj2), + fileKey, encAlgorithm, keyLength, + objNum, objGen); + decrypt->reset(); + while ((c = decrypt->getChar()) != EOF) { + s2->append((char)c); + } + delete decrypt; + obj->initString(s2); + shift(); + + // simple object + } else { + buf1.copy(obj); + shift(); + } + + return obj; +} + +Stream *Parser::makeStream(Object *dict, Guchar *fileKey, + CryptAlgorithm encAlgorithm, int keyLength, + int objNum, int objGen) { + Object obj; + BaseStream *baseStr; + Stream *str; + Guint pos, endPos, length; + + // get stream start position + lexer->skipToNextLine(); + pos = lexer->getPos(); + + // get length + dict->dictLookup("Length", &obj); + if (obj.isInt()) { + length = (Guint)obj.getInt(); + obj.free(); + } else { + error(getPos(), "Bad 'Length' attribute in stream"); + obj.free(); + return NULL; + } + + // check for length in damaged file + if (xref && xref->getStreamEnd(pos, &endPos)) { + length = endPos - pos; + } + + // in badly damaged PDF files, we can run off the end of the input + // stream immediately after the "stream" token + if (!lexer->getStream()) { + return NULL; + } + baseStr = lexer->getStream()->getBaseStream(); + + // skip over stream data + lexer->setPos(pos + length); + + // refill token buffers and check for 'endstream' + shift(); // kill '>>' + shift(); // kill 'stream' + if (buf1.isCmd("endstream")) { + shift(); + } else { + error(getPos(), "Missing 'endstream'"); + // kludge for broken PDF files: just add 5k to the length, and + // hope its enough + length += 5000; + } + + // make base stream + str = baseStr->makeSubStream(pos, gTrue, length, dict); + + // handle decryption + if (fileKey) { + str = new DecryptStream(str, fileKey, encAlgorithm, keyLength, + objNum, objGen); + } + + // get filters + str = str->addFilters(dict); + + return str; +} + +void Parser::shift(int objNum) { + if (inlineImg > 0) { + if (inlineImg < 2) { + ++inlineImg; + } else { + // in a damaged content stream, if 'ID' shows up in the middle + // of a dictionary, we need to reset + inlineImg = 0; + } + } else if (buf2.isCmd("ID")) { + lexer->skipChar(); // skip char after 'ID' command + inlineImg = 1; + } + buf1.free(); + buf1 = buf2; + if (inlineImg > 0) // don't buffer inline image data + buf2.initNull(); + else + lexer->getObj(&buf2, objNum); +} diff --git a/kpdf/xpdf/xpdf/Parser.h b/kpdf/xpdf/xpdf/Parser.h new file mode 100644 index 00000000..1cca9954 --- /dev/null +++ b/kpdf/xpdf/xpdf/Parser.h @@ -0,0 +1,59 @@ +//======================================================================== +// +// Parser.h +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef PARSER_H +#define PARSER_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "Lexer.h" + +//------------------------------------------------------------------------ +// Parser +//------------------------------------------------------------------------ + +class Parser { +public: + + // Constructor. + Parser(XRef *xrefA, Lexer *lexerA, GBool allowStreamsA); + + // Destructor. + ~Parser(); + + // Get the next object from the input stream. + Object *getObj(Object *obj, Guchar *fileKey = NULL, + CryptAlgorithm encAlgorithm = cryptRC4, int keyLength = 0, + int objNum = 0, int objGen = 0); + + // Get stream. + Stream *getStream() { return lexer->getStream(); } + + // Get current position in file. + int getPos() { return lexer->getPos(); } + +private: + + XRef *xref; // the xref table for this PDF file + Lexer *lexer; // input stream + GBool allowStreams; // parse stream objects? + Object buf1, buf2; // next two tokens + int inlineImg; // set when inline image data is encountered + + Stream *makeStream(Object *dict, Guchar *fileKey, + CryptAlgorithm encAlgorithm, int keyLength, + int objNum, int objGen); + void shift(int objNum = -1); +}; + +#endif + diff --git a/kpdf/xpdf/xpdf/PreScanOutputDev.cc b/kpdf/xpdf/xpdf/PreScanOutputDev.cc new file mode 100644 index 00000000..52ffeb7f --- /dev/null +++ b/kpdf/xpdf/xpdf/PreScanOutputDev.cc @@ -0,0 +1,257 @@ +//======================================================================== +// +// PreScanOutputDev.cc +// +// Copyright 2005 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include "GlobalParams.h" +#include "GfxFont.h" +#include "Link.h" +#include "PreScanOutputDev.h" + +//------------------------------------------------------------------------ +// PreScanOutputDev +//------------------------------------------------------------------------ + +PreScanOutputDev::PreScanOutputDev() { + clearStats(); +} + +PreScanOutputDev::~PreScanOutputDev() { +} + +void PreScanOutputDev::startPage(int /*pageNum*/, GfxState * /*state*/) { +} + +void PreScanOutputDev::endPage() { +} + +void PreScanOutputDev::stroke(GfxState *state) { + double *dash; + int dashLen; + double dashStart; + + check(state->getStrokeColorSpace(), state->getStrokeColor(), + state->getStrokeOpacity(), state->getBlendMode()); + state->getLineDash(&dash, &dashLen, &dashStart); + if (dashLen != 0) { + gdi = gFalse; + } +} + +void PreScanOutputDev::fill(GfxState *state) { + check(state->getFillColorSpace(), state->getFillColor(), + state->getFillOpacity(), state->getBlendMode()); +} + +void PreScanOutputDev::eoFill(GfxState *state) { + check(state->getFillColorSpace(), state->getFillColor(), + state->getFillOpacity(), state->getBlendMode()); +} + +void PreScanOutputDev::clip(GfxState * /*state*/) { + //~ check for a rectangle "near" the edge of the page; + //~ else set gdi to false +} + +void PreScanOutputDev::eoClip(GfxState * /*state*/) { + //~ see clip() +} + +void PreScanOutputDev::beginStringOp(GfxState *state) { + int render; + GfxFont *font; + double m11, m12, m21, m22; + Ref embRef; + DisplayFontParam *dfp; + GBool simpleTTF; + + render = state->getRender(); + if (!(render & 1)) { + check(state->getFillColorSpace(), state->getFillColor(), + state->getFillOpacity(), state->getBlendMode()); + } + if ((render & 3) == 1 || (render & 3) == 2) { + check(state->getStrokeColorSpace(), state->getStrokeColor(), + state->getStrokeOpacity(), state->getBlendMode()); + } + + font = state->getFont(); + state->getFontTransMat(&m11, &m12, &m21, &m22); + simpleTTF = fabs(m11 + m22) < 0.01 && + m11 > 0 && + fabs(m12) < 0.01 && + fabs(m21) < 0.01 && + fabs(state->getHorizScaling() - 1) < 0.001 && + (font->getType() == fontTrueType || + font->getType() == fontTrueTypeOT) && + (font->getEmbeddedFontID(&embRef) || + font->getExtFontFile() || + (font->getName() && + (dfp = globalParams->getDisplayFont(font->getName())) && + dfp->kind == displayFontTT)); + if (simpleTTF) { + //~ need to create a FoFiTrueType object, and check for a Unicode cmap + } + if (state->getRender() != 0 || !simpleTTF) { + gdi = gFalse; + } +} + +void PreScanOutputDev::endStringOp(GfxState * /*state*/) { +} + +GBool PreScanOutputDev::beginType3Char(GfxState * /*state*/, double /*x*/, double /*y*/, + double /*dx*/, double /*dy*/, + CharCode /*code*/, Unicode * /*u*/, int /*uLen*/) { + // return false so all Type 3 chars get rendered (no caching) + return gFalse; +} + +void PreScanOutputDev::endType3Char(GfxState * /*state*/) { +} + +void PreScanOutputDev::drawImageMask(GfxState *state, Object * /*ref*/, Stream *str, + int width, int height, GBool /*invert*/, + GBool inlineImg) { + int i, j; + + check(state->getFillColorSpace(), state->getFillColor(), + state->getFillOpacity(), state->getBlendMode()); + gdi = gFalse; + + if (inlineImg) { + str->reset(); + j = height * ((width + 7) / 8); + for (i = 0; i < j; ++i) + str->getChar(); + str->close(); + } +} + +void PreScanOutputDev::drawImage(GfxState *state, Object * /*ref*/, Stream *str, + int width, int height, + GfxImageColorMap *colorMap, + int * /*maskColors*/, GBool inlineImg) { + GfxColorSpace *colorSpace; + int i, j; + + colorSpace = colorMap->getColorSpace(); + if (colorSpace->getMode() == csIndexed) { + colorSpace = ((GfxIndexedColorSpace *)colorSpace)->getBase(); + } + if (colorSpace->getMode() != csDeviceGray && + colorSpace->getMode() != csCalGray) { + gray = gFalse; + } + mono = gFalse; + if (state->getBlendMode() != gfxBlendNormal) { + transparency = gTrue; + } + gdi = gFalse; + + if (inlineImg) { + str->reset(); + j = height * ((width * colorMap->getNumPixelComps() * + colorMap->getBits() + 7) / 8); + for (i = 0; i < j; ++i) + str->getChar(); + str->close(); + } +} + +void PreScanOutputDev::drawMaskedImage(GfxState *state, Object * /*ref*/, + Stream * /*str*/, + int /*width*/, int /*height*/, + GfxImageColorMap *colorMap, + Stream * /*maskStr*/, + int /*maskWidth*/, int /*maskHeight*/, + GBool /*maskInvert*/) { + GfxColorSpace *colorSpace; + + colorSpace = colorMap->getColorSpace(); + if (colorSpace->getMode() == csIndexed) { + colorSpace = ((GfxIndexedColorSpace *)colorSpace)->getBase(); + } + if (colorSpace->getMode() != csDeviceGray && + colorSpace->getMode() != csCalGray) { + gray = gFalse; + } + mono = gFalse; + if (state->getBlendMode() != gfxBlendNormal) { + transparency = gTrue; + } + gdi = gFalse; +} + +void PreScanOutputDev::drawSoftMaskedImage(GfxState * /*state*/, Object * /*ref*/, + Stream * /*str*/, + int /*width*/, int /*height*/, + GfxImageColorMap *colorMap, + Stream * /*maskStr*/, + int /*maskWidth*/, int /*maskHeight*/, + GfxImageColorMap * /*maskColorMap*/) { + GfxColorSpace *colorSpace; + + colorSpace = colorMap->getColorSpace(); + if (colorSpace->getMode() == csIndexed) { + colorSpace = ((GfxIndexedColorSpace *)colorSpace)->getBase(); + } + if (colorSpace->getMode() != csDeviceGray && + colorSpace->getMode() != csCalGray) { + gray = gFalse; + } + mono = gFalse; + transparency = gTrue; + gdi = gFalse; +} + +void PreScanOutputDev::beginTransparencyGroup( + GfxState * /*state*/, double * /*bbox*/, + GfxColorSpace * /*blendingColorSpace*/, + GBool /*isolated*/, GBool /*knockout*/, + GBool /*forSoftMask*/) { + transparency = gTrue; + gdi = gFalse; +} + +void PreScanOutputDev::check(GfxColorSpace *colorSpace, GfxColor *color, + double opacity, GfxBlendMode blendMode) { + GfxRGB rgb; + + if (colorSpace->getMode() == csPattern) { + mono = gFalse; + gray = gFalse; + gdi = gFalse; + } else { + colorSpace->getRGB(color, &rgb); + if (rgb.r != rgb.g || rgb.g != rgb.b || rgb.b != rgb.r) { + mono = gFalse; + gray = gFalse; + } else if (!((rgb.r == 0 && rgb.g == 0 && rgb.b == 0) || + (rgb.r == gfxColorComp1 && + rgb.g == gfxColorComp1 && + rgb.b == gfxColorComp1))) { + mono = gFalse; + } + } + if (opacity != 1 || blendMode != gfxBlendNormal) { + transparency = gTrue; + } +} + +void PreScanOutputDev::clearStats() { + mono = gTrue; + gray = gTrue; + transparency = gFalse; + gdi = gTrue; +} diff --git a/kpdf/xpdf/xpdf/PreScanOutputDev.h b/kpdf/xpdf/xpdf/PreScanOutputDev.h new file mode 100644 index 00000000..c825ddfc --- /dev/null +++ b/kpdf/xpdf/xpdf/PreScanOutputDev.h @@ -0,0 +1,130 @@ +//======================================================================== +// +// PreScanOutputDev.h +// +// Copyright 2005 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef PRESCANOUTPUTDEV_H +#define PRESCANOUTPUTDEV_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" +#include "GfxState.h" +#include "OutputDev.h" + +//------------------------------------------------------------------------ +// PreScanOutputDev +//------------------------------------------------------------------------ + +class PreScanOutputDev: public OutputDev { +public: + + // Constructor. + PreScanOutputDev(); + + // Destructor. + virtual ~PreScanOutputDev(); + + //----- get info about output device + + // Does this device use upside-down coordinates? + // (Upside-down means (0,0) is the top left corner of the page.) + virtual GBool upsideDown() { return gTrue; } + + // Does this device use drawChar() or drawString()? + virtual GBool useDrawChar() { return gTrue; } + + // Does this device use beginType3Char/endType3Char? Otherwise, + // text in Type 3 fonts will be drawn with drawChar/drawString. + virtual GBool interpretType3Chars() { return gTrue; } + + //----- initialization and control + + // Start a page. + virtual void startPage(int pageNum, GfxState *state); + + // End a page. + virtual void endPage(); + + //----- path painting + virtual void stroke(GfxState *state); + virtual void fill(GfxState *state); + virtual void eoFill(GfxState *state); + + //----- path clipping + virtual void clip(GfxState *state); + virtual void eoClip(GfxState *state); + + //----- text drawing + virtual void beginStringOp(GfxState *state); + virtual void endStringOp(GfxState *state); + virtual GBool beginType3Char(GfxState *state, double x, double y, + double dx, double dy, + CharCode code, Unicode *u, int uLen); + virtual void endType3Char(GfxState *state); + + //----- image drawing + virtual void drawImageMask(GfxState *state, Object *ref, Stream *str, + int width, int height, GBool invert, + GBool inlineImg); + virtual void drawImage(GfxState *state, Object *ref, Stream *str, + int width, int height, GfxImageColorMap *colorMap, + int *maskColors, GBool inlineImg); + virtual void drawMaskedImage(GfxState *state, Object *ref, Stream *str, + int width, int height, + GfxImageColorMap *colorMap, + Stream *maskStr, int maskWidth, int maskHeight, + GBool maskInvert); + virtual void drawSoftMaskedImage(GfxState *state, Object *ref, Stream *str, + int width, int height, + GfxImageColorMap *colorMap, + Stream *maskStr, + int maskWidth, int maskHeight, + GfxImageColorMap *maskColorMap); + + //----- transparency groups and soft masks + virtual void beginTransparencyGroup(GfxState *state, double *bbox, + GfxColorSpace *blendingColorSpace, + GBool isolated, GBool knockout, + GBool forSoftMask); + + //----- special access + + // Returns true if the operations performed since the last call to + // clearStats() are all monochrome (black or white). + GBool isMonochrome() { return mono; } + + // Returns true if the operations performed since the last call to + // clearStats() are all gray. + GBool isGray() { return gray; } + + // Returns true if the operations performed since the last call to + // clearStats() included any transparency. + GBool usesTransparency() { return transparency; } + + // Returns true if the operations performed since the last call to + // clearStats() are all rasterizable by GDI calls in GDIOutputDev. + GBool isAllGDI() { return gdi; } + + // Clear the stats used by the above functions. + void clearStats(); + +private: + + void check(GfxColorSpace *colorSpace, GfxColor *color, + double opacity, GfxBlendMode blendMode); + + GBool mono; + GBool gray; + GBool transparency; + GBool gdi; +}; + +#endif diff --git a/kpdf/xpdf/xpdf/SecurityHandler.cc b/kpdf/xpdf/xpdf/SecurityHandler.cc new file mode 100644 index 00000000..ea0f9341 --- /dev/null +++ b/kpdf/xpdf/xpdf/SecurityHandler.cc @@ -0,0 +1,390 @@ +//======================================================================== +// +// SecurityHandler.cc +// +// Copyright 2004 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include "GString.h" +#include "PDFDoc.h" +#include "Decrypt.h" +#include "Error.h" +#include "GlobalParams.h" +#if HAVE_XPDFCORE +# include "XPDFCore.h" +#elif HAVE_WINPDFCORE +# include "WinPDFCore.h" +#endif +#ifdef ENABLE_PLUGINS +# include "XpdfPluginAPI.h" +#endif +#include "SecurityHandler.h" + +//------------------------------------------------------------------------ +// SecurityHandler +//------------------------------------------------------------------------ + +SecurityHandler *SecurityHandler::make(PDFDoc *docA, Object *encryptDictA) { + Object filterObj; + SecurityHandler *secHdlr; +#ifdef ENABLE_PLUGINS + XpdfSecurityHandler *xsh; +#endif + + encryptDictA->dictLookup("Filter", &filterObj); + if (filterObj.isName("Standard")) { + secHdlr = new StandardSecurityHandler(docA, encryptDictA); + } else if (filterObj.isName()) { +#ifdef ENABLE_PLUGINS + if ((xsh = globalParams->getSecurityHandler(filterObj.getName()))) { + secHdlr = new ExternalSecurityHandler(docA, encryptDictA, xsh); + } else { +#endif + error(-1, "Couldn't find the '%s' security handler", + filterObj.getName()); + secHdlr = NULL; +#ifdef ENABLE_PLUGINS + } +#endif + } else { + error(-1, "Missing or invalid 'Filter' entry in encryption dictionary"); + secHdlr = NULL; + } + filterObj.free(); + return secHdlr; +} + +SecurityHandler::SecurityHandler(PDFDoc *docA) { + doc = docA; +} + +SecurityHandler::~SecurityHandler() { +} + +GBool SecurityHandler::checkEncryption(GString *ownerPassword, + GString *userPassword) { + void *authData; + GBool ok; + int i; + + if (ownerPassword || userPassword) { + authData = makeAuthData(ownerPassword, userPassword); + } else { + authData = NULL; + } + ok = authorize(authData); + if (authData) { + freeAuthData(authData); + } + for (i = 0; !ok && i < 3; ++i) { + if (!(authData = getAuthData())) { + break; + } + ok = authorize(authData); + if (authData) { + freeAuthData(authData); + } + } + if (!ok) { + error(-1, "Incorrect password"); + } + return ok; +} + +//------------------------------------------------------------------------ +// StandardSecurityHandler +//------------------------------------------------------------------------ + +class StandardAuthData { +public: + + StandardAuthData(GString *ownerPasswordA, GString *userPasswordA) { + ownerPassword = ownerPasswordA; + userPassword = userPasswordA; + } + + ~StandardAuthData() { + if (ownerPassword) { + delete ownerPassword; + } + if (userPassword) { + delete userPassword; + } + } + + GString *ownerPassword; + GString *userPassword; +}; + +StandardSecurityHandler::StandardSecurityHandler(PDFDoc *docA, + Object *encryptDictA): + SecurityHandler(docA) +{ + Object versionObj, revisionObj, lengthObj; + Object ownerKeyObj, userKeyObj, permObj, fileIDObj; + Object fileIDObj1; + Object cryptFiltersObj, streamFilterObj, stringFilterObj; + Object cryptFilterObj, cfmObj, cfLengthObj; + Object encryptMetadataObj; + + ok = gFalse; + fileID = NULL; + ownerKey = NULL; + userKey = NULL; + + encryptDictA->dictLookup("V", &versionObj); + encryptDictA->dictLookup("R", &revisionObj); + encryptDictA->dictLookup("Length", &lengthObj); + encryptDictA->dictLookup("O", &ownerKeyObj); + encryptDictA->dictLookup("U", &userKeyObj); + encryptDictA->dictLookup("P", &permObj); + doc->getXRef()->getTrailerDict()->dictLookup("ID", &fileIDObj); + if (versionObj.isInt() && + revisionObj.isInt() && + ownerKeyObj.isString() && ownerKeyObj.getString()->getLength() == 32 && + userKeyObj.isString() && userKeyObj.getString()->getLength() == 32 && + permObj.isInt()) { + encVersion = versionObj.getInt(); + encRevision = revisionObj.getInt(); + encAlgorithm = cryptRC4; + // revision 2 forces a 40-bit key - some buggy PDF generators + // set the Length value incorrectly + if (encRevision == 2 || !lengthObj.isInt()) { + fileKeyLength = 5; + } else { + fileKeyLength = lengthObj.getInt() / 8; + } + encryptMetadata = gTrue; + //~ this currently only handles a subset of crypt filter functionality + if (encVersion == 4 && encRevision == 4) { + encryptDictA->dictLookup("CF", &cryptFiltersObj); + encryptDictA->dictLookup("StmF", &streamFilterObj); + encryptDictA->dictLookup("StrF", &stringFilterObj); + if (cryptFiltersObj.isDict() && + streamFilterObj.isName() && + stringFilterObj.isName() && + !strcmp(streamFilterObj.getName(), stringFilterObj.getName())) { + if (cryptFiltersObj.dictLookup(streamFilterObj.getName(), + &cryptFilterObj)->isDict()) { + cryptFilterObj.dictLookup("CFM", &cfmObj); + if (cfmObj.isName("V2")) { + encVersion = 2; + encRevision = 3; + if (cryptFilterObj.dictLookup("Length", &cfLengthObj)->isInt()) { + //~ according to the spec, this should be cfLengthObj / 8 + fileKeyLength = cfLengthObj.getInt(); + } + cfLengthObj.free(); + } else if (cfmObj.isName("AESV2")) { + encVersion = 2; + encRevision = 3; + encAlgorithm = cryptAES; + if (cryptFilterObj.dictLookup("Length", &cfLengthObj)->isInt()) { + //~ according to the spec, this should be cfLengthObj / 8 + fileKeyLength = cfLengthObj.getInt(); + } + cfLengthObj.free(); + } + cfmObj.free(); + } + cryptFilterObj.free(); + } + stringFilterObj.free(); + streamFilterObj.free(); + cryptFiltersObj.free(); + if (encryptDictA->dictLookup("EncryptMetadata", + &encryptMetadataObj)->isBool()) { + encryptMetadata = encryptMetadataObj.getBool(); + } + encryptMetadataObj.free(); + } + permFlags = permObj.getInt(); + ownerKey = ownerKeyObj.getString()->copy(); + userKey = userKeyObj.getString()->copy(); + if (encVersion >= 1 && encVersion <= 2 && + encRevision >= 2 && encRevision <= 3) { + if (fileIDObj.isArray()) { + if (fileIDObj.arrayGet(0, &fileIDObj1)->isString()) { + fileID = fileIDObj1.getString()->copy(); + } else { + fileID = new GString(); + } + fileIDObj1.free(); + } else { + fileID = new GString(); + } + ok = gTrue; + } else { + error(-1, "Unsupported version/revision (%d/%d) of Standard security handler", + encVersion, encRevision); + } + } else { + error(-1, "Weird encryption info"); + } + if (fileKeyLength > 16) { + fileKeyLength = 16; + } + fileIDObj.free(); + permObj.free(); + userKeyObj.free(); + ownerKeyObj.free(); + lengthObj.free(); + revisionObj.free(); + versionObj.free(); +} + +StandardSecurityHandler::~StandardSecurityHandler() { + if (fileID) { + delete fileID; + } + if (ownerKey) { + delete ownerKey; + } + if (userKey) { + delete userKey; + } +} + +void *StandardSecurityHandler::makeAuthData(GString *ownerPassword, + GString *userPassword) { + return new StandardAuthData(ownerPassword ? ownerPassword->copy() + : (GString *)NULL, + userPassword ? userPassword->copy() + : (GString *)NULL); +} + +void *StandardSecurityHandler::getAuthData() { +#if HAVE_XPDFCORE + XPDFCore *core; + GString *password; + + if (!(core = (XPDFCore *)doc->getGUIData()) || + !(password = core->getPassword())) { + return NULL; + } + return new StandardAuthData(password, password->copy()); +#elif HAVE_WINPDFCORE + WinPDFCore *core; + GString *password; + + if (!(core = (WinPDFCore *)doc->getGUIData()) || + !(password = core->getPassword())) { + return NULL; + } + return new StandardAuthData(password, password->copy()); +#else + return NULL; +#endif +} + +void StandardSecurityHandler::freeAuthData(void *authData) { + delete (StandardAuthData *)authData; +} + +GBool StandardSecurityHandler::authorize(void *authData) { + GString *ownerPassword, *userPassword; + + if (!ok) { + return gFalse; + } + if (authData) { + ownerPassword = ((StandardAuthData *)authData)->ownerPassword; + userPassword = ((StandardAuthData *)authData)->userPassword; + } else { + ownerPassword = NULL; + userPassword = NULL; + } + if (!Decrypt::makeFileKey(encVersion, encRevision, fileKeyLength, + ownerKey, userKey, permFlags, fileID, + ownerPassword, userPassword, fileKey, + encryptMetadata, &ownerPasswordOk)) { + return gFalse; + } + return gTrue; +} + +#ifdef ENABLE_PLUGINS + +//------------------------------------------------------------------------ +// ExternalSecurityHandler +//------------------------------------------------------------------------ + +ExternalSecurityHandler::ExternalSecurityHandler(PDFDoc *docA, + Object *encryptDictA, + XpdfSecurityHandler *xshA): + SecurityHandler(docA) +{ + encryptDictA->copy(&encryptDict); + xsh = xshA; + encAlgorithm = cryptRC4; //~ this should be obtained via getKey + ok = gFalse; + + if (!(*xsh->newDoc)(xsh->handlerData, (XpdfDoc)docA, + (XpdfObject)encryptDictA, &docData)) { + return; + } + + ok = gTrue; +} + +ExternalSecurityHandler::~ExternalSecurityHandler() { + (*xsh->freeDoc)(xsh->handlerData, docData); + encryptDict.free(); +} + +void *ExternalSecurityHandler::makeAuthData(GString *ownerPassword, + GString *userPassword) { + char *opw, *upw; + void *authData; + + opw = ownerPassword ? ownerPassword->getCString() : (char *)NULL; + upw = userPassword ? userPassword->getCString() : (char *)NULL; + if (!(*xsh->makeAuthData)(xsh->handlerData, docData, opw, upw, &authData)) { + return NULL; + } + return authData; +} + +void *ExternalSecurityHandler::getAuthData() { + void *authData; + + if (!(*xsh->getAuthData)(xsh->handlerData, docData, &authData)) { + return NULL; + } + return authData; +} + +void ExternalSecurityHandler::freeAuthData(void *authData) { + (*xsh->freeAuthData)(xsh->handlerData, docData, authData); +} + +GBool ExternalSecurityHandler::authorize(void *authData) { + char *key; + int length; + + if (!ok) { + return gFalse; + } + permFlags = (*xsh->authorize)(xsh->handlerData, docData, authData); + if (!(permFlags & xpdfPermissionOpen)) { + return gFalse; + } + if (!(*xsh->getKey)(xsh->handlerData, docData, &key, &length, &encVersion)) { + return gFalse; + } + if ((fileKeyLength = length) > 16) { + fileKeyLength = 16; + } + memcpy(fileKey, key, fileKeyLength); + (*xsh->freeKey)(xsh->handlerData, docData, key, length); + return gTrue; +} + +#endif // ENABLE_PLUGINS diff --git a/kpdf/xpdf/xpdf/SecurityHandler.h b/kpdf/xpdf/xpdf/SecurityHandler.h new file mode 100644 index 00000000..a27868c2 --- /dev/null +++ b/kpdf/xpdf/xpdf/SecurityHandler.h @@ -0,0 +1,160 @@ +//======================================================================== +// +// SecurityHandler.h +// +// Copyright 2004 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef SECURITYHANDLER_H +#define SECURITYHANDLER_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" +#include "Object.h" + +class GString; +class PDFDoc; +struct XpdfSecurityHandler; + +//------------------------------------------------------------------------ +// SecurityHandler +//------------------------------------------------------------------------ + +class SecurityHandler { +public: + + static SecurityHandler *make(PDFDoc *docA, Object *encryptDictA); + + SecurityHandler(PDFDoc *docA); + virtual ~SecurityHandler(); + + // Check the document's encryption. If the document is encrypted, + // this will first try and (in + // "batch" mode), and if those fail, it will attempt to request a + // password from the user. This is the high-level function that + // calls the lower level functions for the specific security handler + // (requesting a password three times, etc.). Returns true if the + // document can be opened (if it's unencrypted, or if a correct + // password is obtained); false otherwise (encrypted and no correct + // password). + GBool checkEncryption(GString *ownerPassword, + GString *userPassword); + + // Create authorization data for the specified owner and user + // passwords. If the security handler doesn't support "batch" mode, + // this function should return NULL. + virtual void *makeAuthData(GString *ownerPassword, + GString *userPassword) = 0; + + // Construct authorization data, typically by prompting the user for + // a password. Returns an authorization data object, or NULL to + // cancel. + virtual void *getAuthData() = 0; + + // Free the authorization data returned by makeAuthData or + // getAuthData. + virtual void freeAuthData(void *authData) = 0; + + // Attempt to authorize the document, using the supplied + // authorization data (which may be NULL). Returns true if + // successful (i.e., if at least the right to open the document was + // granted). + virtual GBool authorize(void *authData) = 0; + + // Return the various authorization parameters. These are only + // valid after authorize has returned true. + virtual int getPermissionFlags() = 0; + virtual GBool getOwnerPasswordOk() = 0; + virtual Guchar *getFileKey() = 0; + virtual int getFileKeyLength() = 0; + virtual int getEncVersion() = 0; + virtual CryptAlgorithm getEncAlgorithm() = 0; + +protected: + + PDFDoc *doc; +}; + +//------------------------------------------------------------------------ +// StandardSecurityHandler +//------------------------------------------------------------------------ + +class StandardSecurityHandler: public SecurityHandler { +public: + + StandardSecurityHandler(PDFDoc *docA, Object *encryptDictA); + virtual ~StandardSecurityHandler(); + + virtual void *makeAuthData(GString *ownerPassword, + GString *userPassword); + virtual void *getAuthData(); + virtual void freeAuthData(void *authData); + virtual GBool authorize(void *authData); + virtual int getPermissionFlags() { return permFlags; } + virtual GBool getOwnerPasswordOk() { return ownerPasswordOk; } + virtual Guchar *getFileKey() { return fileKey; } + virtual int getFileKeyLength() { return fileKeyLength; } + virtual int getEncVersion() { return encVersion; } + virtual CryptAlgorithm getEncAlgorithm() { return encAlgorithm; } + +private: + + int permFlags; + GBool ownerPasswordOk; + Guchar fileKey[16]; + int fileKeyLength; + int encVersion; + int encRevision; + CryptAlgorithm encAlgorithm; + GBool encryptMetadata; + + GString *ownerKey, *userKey; + GString *fileID; + GBool ok; +}; + +#ifdef ENABLE_PLUGINS +//------------------------------------------------------------------------ +// ExternalSecurityHandler +//------------------------------------------------------------------------ + +class ExternalSecurityHandler: public SecurityHandler { +public: + + ExternalSecurityHandler(PDFDoc *docA, Object *encryptDictA, + XpdfSecurityHandler *xshA); + virtual ~ExternalSecurityHandler(); + + virtual void *makeAuthData(GString *ownerPassword, + GString *userPassword); + virtual void *getAuthData(); + virtual void freeAuthData(void *authData); + virtual GBool authorize(void *authData); + virtual int getPermissionFlags() { return permFlags; } + virtual GBool getOwnerPasswordOk() { return gFalse; } + virtual Guchar *getFileKey() { return fileKey; } + virtual int getFileKeyLength() { return fileKeyLength; } + virtual int getEncVersion() { return encVersion; } + virtual CryptAlgorithm getEncAlgorithm() { return encAlgorithm; } + +private: + + Object encryptDict; + XpdfSecurityHandler *xsh; + void *docData; + int permFlags; + Guchar fileKey[16]; + int fileKeyLength; + int encVersion; + CryptAlgorithm encAlgorithm; + GBool ok; +}; +#endif // ENABLE_PLUGINS + +#endif diff --git a/kpdf/xpdf/xpdf/SplashOutputDev.cc b/kpdf/xpdf/xpdf/SplashOutputDev.cc new file mode 100644 index 00000000..fe235fb8 --- /dev/null +++ b/kpdf/xpdf/xpdf/SplashOutputDev.cc @@ -0,0 +1,2851 @@ +//======================================================================== +// +// SplashOutputDev.cc +// +// Copyright 2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include "gfile.h" +#include "GlobalParams.h" +#include "Error.h" +#include "Object.h" +#include "GfxFont.h" +#include "Link.h" +#include "CharCodeToUnicode.h" +#include "FontEncodingTables.h" +#include "FoFiTrueType.h" +#include "SplashBitmap.h" +#include "SplashGlyphBitmap.h" +#include "SplashPattern.h" +#include "SplashScreen.h" +#include "SplashPath.h" +#include "SplashState.h" +#include "SplashErrorCodes.h" +#include "SplashFontEngine.h" +#include "SplashFont.h" +#include "SplashFontFile.h" +#include "SplashFontFileID.h" +#include "Splash.h" +#include "SplashOutputDev.h" + +#ifdef VMS +#if (__VMS_VER < 70000000) +extern "C" int unlink(char *filename); +#endif +#endif + +//------------------------------------------------------------------------ + +// Divide a 16-bit value (in [0, 255*255]) by 255, returning an 8-bit result. +static inline Guchar div255(int x) { + return (Guchar)((x + (x >> 8) + 0x80) >> 8); +} + +//------------------------------------------------------------------------ +// Blend functions +//------------------------------------------------------------------------ + +static void splashOutBlendMultiply(SplashColorPtr src, SplashColorPtr dest, + SplashColorPtr blend, SplashColorMode cm) { + int i; + + for (i = 0; i < splashColorModeNComps[cm]; ++i) { + blend[i] = (dest[i] * src[i]) / 255; + } +} + +static void splashOutBlendScreen(SplashColorPtr src, SplashColorPtr dest, + SplashColorPtr blend, SplashColorMode cm) { + int i; + + for (i = 0; i < splashColorModeNComps[cm]; ++i) { + blend[i] = dest[i] + src[i] - (dest[i] * src[i]) / 255; + } +} + +static void splashOutBlendOverlay(SplashColorPtr src, SplashColorPtr dest, + SplashColorPtr blend, SplashColorMode cm) { + int i; + + for (i = 0; i < splashColorModeNComps[cm]; ++i) { + blend[i] = dest[i] < 0x80 + ? (src[i] * 2 * dest[i]) / 255 + : 255 - 2 * ((255 - src[i]) * (255 - dest[i])) / 255; + } +} + +static void splashOutBlendDarken(SplashColorPtr src, SplashColorPtr dest, + SplashColorPtr blend, SplashColorMode cm) { + int i; + + for (i = 0; i < splashColorModeNComps[cm]; ++i) { + blend[i] = dest[i] < src[i] ? dest[i] : src[i]; + } +} + +static void splashOutBlendLighten(SplashColorPtr src, SplashColorPtr dest, + SplashColorPtr blend, SplashColorMode cm) { + int i; + + for (i = 0; i < splashColorModeNComps[cm]; ++i) { + blend[i] = dest[i] > src[i] ? dest[i] : src[i]; + } +} + +static void splashOutBlendColorDodge(SplashColorPtr src, SplashColorPtr dest, + SplashColorPtr blend, + SplashColorMode cm) { + int i, x; + + for (i = 0; i < splashColorModeNComps[cm]; ++i) { + if (src[i] == 255) { + blend[i] = 255; + } else { + x = (dest[i] * 255) / (255 - src[i]); + blend[i] = x <= 255 ? x : 255; + } + } +} + +static void splashOutBlendColorBurn(SplashColorPtr src, SplashColorPtr dest, + SplashColorPtr blend, SplashColorMode cm) { + int i, x; + + for (i = 0; i < splashColorModeNComps[cm]; ++i) { + if (src[i] == 0) { + blend[i] = 0; + } else { + x = ((255 - dest[i]) * 255) / src[i]; + blend[i] = x <= 255 ? 255 - x : 0; + } + } +} + +static void splashOutBlendHardLight(SplashColorPtr src, SplashColorPtr dest, + SplashColorPtr blend, SplashColorMode cm) { + int i; + + for (i = 0; i < splashColorModeNComps[cm]; ++i) { + blend[i] = src[i] < 0x80 + ? (dest[i] * 2 * src[i]) / 255 + : 255 - 2 * ((255 - dest[i]) * (255 - src[i])) / 255; + } +} + +static void splashOutBlendSoftLight(SplashColorPtr src, SplashColorPtr dest, + SplashColorPtr blend, SplashColorMode cm) { + int i, x; + + for (i = 0; i < splashColorModeNComps[cm]; ++i) { + if (src[i] < 0x80) { + blend[i] = dest[i] - (255 - 2 * src[i]) * dest[i] * (255 - dest[i]) / + (255 * 255); + } else { + if (dest[i] < 0x40) { + x = (((((16 * dest[i] - 12 * 255) * dest[i]) / 255) + + 4 * 255) * dest[i]) / 255; + } else { + x = (int)sqrt(255.0 * dest[i]); + } + blend[i] = dest[i] + (2 * src[i] - 255) * (x - dest[i]) / 255; + } + } +} + +static void splashOutBlendDifference(SplashColorPtr src, SplashColorPtr dest, + SplashColorPtr blend, + SplashColorMode cm) { + int i; + + for (i = 0; i < splashColorModeNComps[cm]; ++i) { + blend[i] = dest[i] < src[i] ? src[i] - dest[i] : dest[i] - src[i]; + } +} + +static void splashOutBlendExclusion(SplashColorPtr src, SplashColorPtr dest, + SplashColorPtr blend, SplashColorMode cm) { + int i; + + for (i = 0; i < splashColorModeNComps[cm]; ++i) { + blend[i] = dest[i] + src[i] - (2 * dest[i] * src[i]) / 255; + } +} + +static void cvtRGBToHSV(Guchar r, Guchar g, Guchar b, int *h, int *s, int *v) { + int cmax, cmid, cmin, x; + + if (r >= g) { + if (g >= b) { x = 0; cmax = r; cmid = g; cmin = b; } + else if (b >= r) { x = 4; cmax = b; cmid = r; cmin = g; } + else { x = 5; cmax = r; cmid = b; cmin = g; } + } else { + if (r >= b) { x = 1; cmax = g; cmid = r; cmin = b; } + else if (g >= b) { x = 2; cmax = g; cmid = b; cmin = r; } + else { x = 3; cmax = b; cmid = g; cmin = r; } + } + if (cmax == cmin) { + *h = *s = 0; + } else { + *h = x * 60; + if (x & 1) { + *h += ((cmax - cmid) * 60) / (cmax - cmin); + } else { + *h += ((cmid - cmin) * 60) / (cmax - cmin); + } + *s = (255 * (cmax - cmin)) / cmax; + } + *v = cmax; +} + +static void cvtHSVToRGB(int h, int s, int v, Guchar *r, Guchar *g, Guchar *b) { + int x, f, cmax, cmid, cmin; + + if (s == 0) { + *r = *g = *b = v; + } else { + x = h / 60; + f = h % 60; + cmax = v; + if (x & 1) { + cmid = div255(v * 255 - ((s * f) / 60)); + } else { + cmid = div255(v * (255 - ((s * (60 - f)) / 60))); + } + cmin = div255(v * (255 - s)); + switch (x) { + case 0: *r = cmax; *g = cmid; *b = cmin; break; + case 1: *g = cmax; *r = cmid; *b = cmin; break; + case 2: *g = cmax; *b = cmid; *r = cmin; break; + case 3: *b = cmax; *g = cmid; *r = cmin; break; + case 4: *b = cmax; *r = cmid; *g = cmin; break; + case 5: *r = cmax; *b = cmid; *g = cmin; break; + } + } +} + +static void splashOutBlendHue(SplashColorPtr src, SplashColorPtr dest, + SplashColorPtr blend, SplashColorMode cm) { + int hs, ss, vs, hd, sd, vd; +#if SPLASH_CMYK + Guchar r, g, b; +#endif + + switch (cm) { + case splashModeMono1: + case splashModeMono8: + blend[0] = dest[0]; + break; + case splashModeRGB8: + case splashModeBGR8: + cvtRGBToHSV(src[0], src[1], src[2], &hs, &ss, &vs); + cvtRGBToHSV(dest[0], dest[1], dest[2], &hd, &sd, &vd); + cvtHSVToRGB(hs, sd, vd, &blend[0], &blend[1], &blend[2]); + break; +#if SPLASH_CMYK + case splashModeCMYK8: + //~ (0xff - ...) should be clipped + cvtRGBToHSV(0xff - (src[0] + src[3]), + 0xff - (src[1] + src[3]), + 0xff - (src[2] + src[3]), &hs, &ss, &vs); + cvtRGBToHSV(0xff - (dest[0] + dest[3]), + 0xff - (dest[1] + dest[3]), + 0xff - (dest[2] + dest[3]), &hd, &sd, &vd); + cvtHSVToRGB(hs, sd, vd, &r, &g, &b); + //~ should do black generation + blend[0] = 0xff - r; + blend[1] = 0xff - g; + blend[2] = 0xff - b; + blend[3] = 0; + break; +#endif + } +} + +static void splashOutBlendSaturation(SplashColorPtr src, SplashColorPtr dest, + SplashColorPtr blend, + SplashColorMode cm) { + int hs, ss, vs, hd, sd, vd; +#if SPLASH_CMYK + Guchar r, g, b; +#endif + + switch (cm) { + case splashModeMono1: + case splashModeMono8: + blend[0] = dest[0]; + break; + case splashModeRGB8: + case splashModeBGR8: + cvtRGBToHSV(src[0], src[1], src[2], &hs, &ss, &vs); + cvtRGBToHSV(dest[0], dest[1], dest[2], &hd, &sd, &vd); + cvtHSVToRGB(hd, ss, vd, &blend[0], &blend[1], &blend[2]); + break; +#if SPLASH_CMYK + case splashModeCMYK8: + //~ (0xff - ...) should be clipped + cvtRGBToHSV(0xff - (src[0] + src[3]), + 0xff - (src[1] + src[3]), + 0xff - (src[2] + src[3]), &hs, &ss, &vs); + cvtRGBToHSV(0xff - (dest[0] + dest[3]), + 0xff - (dest[1] + dest[3]), + 0xff - (dest[2] + dest[3]), &hd, &sd, &vd); + cvtHSVToRGB(hd, ss, vd, &r, &g, &b); + //~ should do black generation + blend[0] = 0xff - r; + blend[1] = 0xff - g; + blend[2] = 0xff - b; + blend[3] = 0; + break; +#endif + } +} + +static void splashOutBlendColor(SplashColorPtr src, SplashColorPtr dest, + SplashColorPtr blend, SplashColorMode cm) { + int hs, ss, vs, hd, sd, vd; +#if SPLASH_CMYK + Guchar r, g, b; +#endif + + switch (cm) { + case splashModeMono1: + case splashModeMono8: + blend[0] = dest[0]; + break; + case splashModeRGB8: + case splashModeBGR8: + cvtRGBToHSV(src[0], src[1], src[2], &hs, &ss, &vs); + cvtRGBToHSV(dest[0], dest[1], dest[2], &hd, &sd, &vd); + cvtHSVToRGB(hs, ss, vd, &blend[0], &blend[1], &blend[2]); + break; +#if SPLASH_CMYK + case splashModeCMYK8: + //~ (0xff - ...) should be clipped + cvtRGBToHSV(0xff - (src[0] + src[3]), + 0xff - (src[1] + src[3]), + 0xff - (src[2] + src[3]), &hs, &ss, &vs); + cvtRGBToHSV(0xff - (dest[0] + dest[3]), + 0xff - (dest[1] + dest[3]), + 0xff - (dest[2] + dest[3]), &hd, &sd, &vd); + cvtHSVToRGB(hs, ss, vd, &r, &g, &b); + //~ should do black generation + blend[0] = 0xff - r; + blend[1] = 0xff - g; + blend[2] = 0xff - b; + blend[3] = 0; + break; +#endif + } +} + +static void splashOutBlendLuminosity(SplashColorPtr src, SplashColorPtr dest, + SplashColorPtr blend, + SplashColorMode cm) { + int hs, ss, vs, hd, sd, vd; +#if SPLASH_CMYK + Guchar r, g, b; +#endif + + switch (cm) { + case splashModeMono1: + case splashModeMono8: + blend[0] = dest[0]; + break; + case splashModeRGB8: + case splashModeBGR8: + cvtRGBToHSV(src[0], src[1], src[2], &hs, &ss, &vs); + cvtRGBToHSV(dest[0], dest[1], dest[2], &hd, &sd, &vd); + cvtHSVToRGB(hd, sd, vs, &blend[0], &blend[1], &blend[2]); + break; +#if SPLASH_CMYK + case splashModeCMYK8: + //~ (0xff - ...) should be clipped + cvtRGBToHSV(0xff - (src[0] + src[3]), + 0xff - (src[1] + src[3]), + 0xff - (src[2] + src[3]), &hs, &ss, &vs); + cvtRGBToHSV(0xff - (dest[0] + dest[3]), + 0xff - (dest[1] + dest[3]), + 0xff - (dest[2] + dest[3]), &hd, &sd, &vd); + cvtHSVToRGB(hd, sd, vs, &r, &g, &b); + //~ should do black generation + blend[0] = 0xff - r; + blend[1] = 0xff - g; + blend[2] = 0xff - b; + blend[3] = 0; + break; +#endif + } +} + +// NB: This must match the GfxBlendMode enum defined in GfxState.h. +SplashBlendFunc splashOutBlendFuncs[] = { + NULL, + &splashOutBlendMultiply, + &splashOutBlendScreen, + &splashOutBlendOverlay, + &splashOutBlendDarken, + &splashOutBlendLighten, + &splashOutBlendColorDodge, + &splashOutBlendColorBurn, + &splashOutBlendHardLight, + &splashOutBlendSoftLight, + &splashOutBlendDifference, + &splashOutBlendExclusion, + &splashOutBlendHue, + &splashOutBlendSaturation, + &splashOutBlendColor, + &splashOutBlendLuminosity +}; + +//------------------------------------------------------------------------ +// Font substitutions +//------------------------------------------------------------------------ + +struct SplashOutFontSubst { + char *name; + double mWidth; +}; + +// index: {symbolic:12, fixed:8, serif:4, sans-serif:0} + bold*2 + italic +static SplashOutFontSubst splashOutSubstFonts[16] = { + {"Helvetica", 0.833}, + {"Helvetica-Oblique", 0.833}, + {"Helvetica-Bold", 0.889}, + {"Helvetica-BoldOblique", 0.889}, + {"Times-Roman", 0.788}, + {"Times-Italic", 0.722}, + {"Times-Bold", 0.833}, + {"Times-BoldItalic", 0.778}, + {"Courier", 0.600}, + {"Courier-Oblique", 0.600}, + {"Courier-Bold", 0.600}, + {"Courier-BoldOblique", 0.600}, + {"Symbol", 0.576}, + {"Symbol", 0.576}, + {"Symbol", 0.576}, + {"Symbol", 0.576} +}; + +//------------------------------------------------------------------------ +// SplashOutFontFileID +//------------------------------------------------------------------------ + +class SplashOutFontFileID: public SplashFontFileID { +public: + + SplashOutFontFileID(Ref *rA) { r = *rA; substIdx = -1; } + + ~SplashOutFontFileID() {} + + GBool matches(SplashFontFileID *id) { + return ((SplashOutFontFileID *)id)->r.num == r.num && + ((SplashOutFontFileID *)id)->r.gen == r.gen; + } + + void setSubstIdx(int substIdxA) { substIdx = substIdxA; } + int getSubstIdx() { return substIdx; } + +private: + + Ref r; + int substIdx; +}; + +//------------------------------------------------------------------------ +// T3FontCache +//------------------------------------------------------------------------ + +struct T3FontCacheTag { + Gushort code; + Gushort mru; // valid bit (0x8000) and MRU index +}; + +class T3FontCache { +public: + + T3FontCache(Ref *fontID, double m11A, double m12A, + double m21A, double m22A, + int glyphXA, int glyphYA, int glyphWA, int glyphHA, + GBool aa, GBool validBBoxA); + ~T3FontCache(); + GBool matches(Ref *idA, double m11A, double m12A, + double m21A, double m22A) + { return fontID.num == idA->num && fontID.gen == idA->gen && + m11 == m11A && m12 == m12A && m21 == m21A && m22 == m22A; } + + Ref fontID; // PDF font ID + double m11, m12, m21, m22; // transform matrix + int glyphX, glyphY; // pixel offset of glyph bitmaps + int glyphW, glyphH; // size of glyph bitmaps, in pixels + GBool validBBox; // false if the bbox was [0 0 0 0] + int glyphSize; // size of glyph bitmaps, in bytes + int cacheSets; // number of sets in cache + int cacheAssoc; // cache associativity (glyphs per set) + Guchar *cacheData; // glyph pixmap cache + T3FontCacheTag *cacheTags; // cache tags, i.e., char codes +}; + +T3FontCache::T3FontCache(Ref *fontIDA, double m11A, double m12A, + double m21A, double m22A, + int glyphXA, int glyphYA, int glyphWA, int glyphHA, + GBool validBBoxA, GBool aa) { + int i; + + fontID = *fontIDA; + m11 = m11A; + m12 = m12A; + m21 = m21A; + m22 = m22A; + glyphX = glyphXA; + glyphY = glyphYA; + glyphW = glyphWA; + glyphH = glyphHA; + validBBox = validBBoxA; + if (aa) { + glyphSize = glyphW * glyphH; + } else { + glyphSize = ((glyphW + 7) >> 3) * glyphH; + } + cacheAssoc = 8; + if (glyphSize <= 256) { + cacheSets = 8; + } else if (glyphSize <= 512) { + cacheSets = 4; + } else if (glyphSize <= 1024) { + cacheSets = 2; + } else { + cacheSets = 1; + } + cacheData = (Guchar *)gmallocn_checkoverflow(cacheSets * cacheAssoc, glyphSize); + if (cacheData != NULL) + { + cacheTags = (T3FontCacheTag *)gmallocn(cacheSets * cacheAssoc, + sizeof(T3FontCacheTag)); + for (i = 0; i < cacheSets * cacheAssoc; ++i) { + cacheTags[i].mru = i & (cacheAssoc - 1); + } + } + else + { + cacheTags = NULL; + } +} + +T3FontCache::~T3FontCache() { + gfree(cacheData); + gfree(cacheTags); +} + +struct T3GlyphStack { + Gushort code; // character code + + //----- cache info + T3FontCache *cache; // font cache for the current font + T3FontCacheTag *cacheTag; // pointer to cache tag for the glyph + Guchar *cacheData; // pointer to cache data for the glyph + + //----- saved state + SplashBitmap *origBitmap; + Splash *origSplash; + double origCTM4, origCTM5; + + T3GlyphStack *next; // next object on stack +}; + +//------------------------------------------------------------------------ +// SplashTransparencyGroup +//------------------------------------------------------------------------ + +struct SplashTransparencyGroup { + int tx, ty; // translation coordinates + SplashBitmap *tBitmap; // bitmap for transparency group + GfxColorSpace *blendingColorSpace; + GBool isolated; + + //----- saved state + SplashBitmap *origBitmap; + Splash *origSplash; + + SplashTransparencyGroup *next; +}; + +//------------------------------------------------------------------------ +// SplashOutputDev +//------------------------------------------------------------------------ + +SplashOutputDev::SplashOutputDev(SplashColorMode colorModeA, + int bitmapRowPadA, + GBool reverseVideoA, + SplashColorPtr paperColorA, + GBool bitmapTopDownA, + GBool allowAntialiasA) { + colorMode = colorModeA; + bitmapRowPad = bitmapRowPadA; + bitmapTopDown = bitmapTopDownA; + allowAntialias = allowAntialiasA; + vectorAntialias = allowAntialias && + globalParams->getVectorAntialias() && + colorMode != splashModeMono1; + setupScreenParams(72.0, 72.0); + reverseVideo = reverseVideoA; + splashColorCopy(paperColor, paperColorA); + + xref = NULL; + + bitmap = new SplashBitmap(1, 1, bitmapRowPad, colorMode, + colorMode != splashModeMono1, bitmapTopDown); + splash = new Splash(bitmap, vectorAntialias, &screenParams); + splash->clear(paperColor, 0); + + fontEngine = NULL; + + nT3Fonts = 0; + t3GlyphStack = NULL; + + font = NULL; + needFontUpdate = gFalse; + textClipPath = NULL; + + transpGroupStack = NULL; +} + +void SplashOutputDev::setupScreenParams(double hDPI, double vDPI) { + screenParams.size = globalParams->getScreenSize(); + screenParams.dotRadius = globalParams->getScreenDotRadius(); + screenParams.gamma = (SplashCoord)globalParams->getScreenGamma(); + screenParams.blackThreshold = + (SplashCoord)globalParams->getScreenBlackThreshold(); + screenParams.whiteThreshold = + (SplashCoord)globalParams->getScreenWhiteThreshold(); + switch (globalParams->getScreenType()) { + case screenDispersed: + screenParams.type = splashScreenDispersed; + if (screenParams.size < 0) { + screenParams.size = 4; + } + break; + case screenClustered: + screenParams.type = splashScreenClustered; + if (screenParams.size < 0) { + screenParams.size = 10; + } + break; + case screenStochasticClustered: + screenParams.type = splashScreenStochasticClustered; + if (screenParams.size < 0) { + screenParams.size = 100; + } + if (screenParams.dotRadius < 0) { + screenParams.dotRadius = 2; + } + break; + case screenUnset: + default: + // use clustered dithering for resolution >= 300 dpi + // (compare to 299.9 to avoid floating point issues) + if (hDPI > 299.9 && vDPI > 299.9) { + screenParams.type = splashScreenStochasticClustered; + if (screenParams.size < 0) { + screenParams.size = 100; + } + if (screenParams.dotRadius < 0) { + screenParams.dotRadius = 2; + } + } else { + screenParams.type = splashScreenDispersed; + if (screenParams.size < 0) { + screenParams.size = 4; + } + } + } +} + +SplashOutputDev::~SplashOutputDev() { + int i; + + for (i = 0; i < nT3Fonts; ++i) { + delete t3FontCache[i]; + } + if (fontEngine) { + delete fontEngine; + } + if (splash) { + delete splash; + } + if (bitmap) { + delete bitmap; + } +} + +void SplashOutputDev::startDoc(XRef *xrefA) { + int i; + + xref = xrefA; + if (fontEngine) { + delete fontEngine; + } + fontEngine = new SplashFontEngine( +#if HAVE_T1LIB_H + globalParams->getEnableT1lib(), +#endif +#if HAVE_FREETYPE_FREETYPE_H || HAVE_FREETYPE_H + globalParams->getEnableFreeType(), +#endif + allowAntialias && + globalParams->getAntialias() && + colorMode != splashModeMono1); + for (i = 0; i < nT3Fonts; ++i) { + delete t3FontCache[i]; + } + nT3Fonts = 0; +} + +void SplashOutputDev::startPage(int /*pageNum*/, GfxState *state) { + int w, h; + double *ctm; + SplashCoord mat[6]; + SplashColor color; + + if (state) { + setupScreenParams(state->getHDPI(), state->getVDPI()); + w = (int)(state->getPageWidth() + 0.5); + if (w <= 0) { + w = 1; + } + h = (int)(state->getPageHeight() + 0.5); + if (h <= 0) { + h = 1; + } + } else { + w = h = 1; + } + if (splash) { + delete splash; + } + if (!bitmap || w != bitmap->getWidth() || h != bitmap->getHeight()) { + if (bitmap) { + delete bitmap; + } + bitmap = new SplashBitmap(w, h, bitmapRowPad, colorMode, + colorMode != splashModeMono1, bitmapTopDown); + } + splash = new Splash(bitmap, vectorAntialias, &screenParams); + if (state) { + ctm = state->getCTM(); + mat[0] = (SplashCoord)ctm[0]; + mat[1] = (SplashCoord)ctm[1]; + mat[2] = (SplashCoord)ctm[2]; + mat[3] = (SplashCoord)ctm[3]; + mat[4] = (SplashCoord)ctm[4]; + mat[5] = (SplashCoord)ctm[5]; + splash->setMatrix(mat); + } + switch (colorMode) { + case splashModeMono1: + case splashModeMono8: + color[0] = 0; + break; + case splashModeRGB8: + case splashModeBGR8: + color[0] = color[1] = color[2] = 0; + break; +#if SPLASH_CMYK + case splashModeCMYK8: + color[0] = color[1] = color[2] = color[3] = 0; + break; +#endif + } + splash->setStrokePattern(new SplashSolidColor(color)); + splash->setFillPattern(new SplashSolidColor(color)); + splash->setLineCap(splashLineCapButt); + splash->setLineJoin(splashLineJoinMiter); + splash->setLineDash(NULL, 0, 0); + splash->setMiterLimit(10); + splash->setFlatness(1); + // the SA parameter supposedly defaults to false, but Acrobat + // apparently hardwires it to true + splash->setStrokeAdjust(globalParams->getStrokeAdjust()); + splash->clear(paperColor, 0); +} + +void SplashOutputDev::endPage() { + if (colorMode != splashModeMono1) { + splash->compositeBackground(paperColor); + } +} + +void SplashOutputDev::saveState(GfxState * /*state*/) { + splash->saveState(); +} + +void SplashOutputDev::restoreState(GfxState * /*state*/) { + splash->restoreState(); + needFontUpdate = gTrue; +} + +void SplashOutputDev::updateAll(GfxState *state) { + updateLineDash(state); + updateLineJoin(state); + updateLineCap(state); + updateLineWidth(state); + updateFlatness(state); + updateMiterLimit(state); + updateStrokeAdjust(state); + updateFillColor(state); + updateStrokeColor(state); + needFontUpdate = gTrue; +} + +void SplashOutputDev::updateCTM(GfxState *state, double /*m11*/, double /*m12*/, + double /*m21*/, double /*m22*/, + double /*m31*/, double /*m32*/) { + double *ctm; + SplashCoord mat[6]; + + ctm = state->getCTM(); + mat[0] = (SplashCoord)ctm[0]; + mat[1] = (SplashCoord)ctm[1]; + mat[2] = (SplashCoord)ctm[2]; + mat[3] = (SplashCoord)ctm[3]; + mat[4] = (SplashCoord)ctm[4]; + mat[5] = (SplashCoord)ctm[5]; + splash->setMatrix(mat); +} + +void SplashOutputDev::updateLineDash(GfxState *state) { + double *dashPattern; + int dashLength; + double dashStart; + SplashCoord dash[20]; + int i; + + state->getLineDash(&dashPattern, &dashLength, &dashStart); + if (dashLength > 20) { + dashLength = 20; + } + for (i = 0; i < dashLength; ++i) { + dash[i] = (SplashCoord)dashPattern[i]; + if (dash[i] < 0) { + dash[i] = 0; + } + } + splash->setLineDash(dash, dashLength, (SplashCoord)dashStart); +} + +void SplashOutputDev::updateFlatness(GfxState *state) { + splash->setFlatness(state->getFlatness()); +} + +void SplashOutputDev::updateLineJoin(GfxState *state) { + splash->setLineJoin(state->getLineJoin()); +} + +void SplashOutputDev::updateLineCap(GfxState *state) { + splash->setLineCap(state->getLineCap()); +} + +void SplashOutputDev::updateMiterLimit(GfxState *state) { + splash->setMiterLimit(state->getMiterLimit()); +} + +void SplashOutputDev::updateLineWidth(GfxState *state) { + splash->setLineWidth(state->getLineWidth()); +} + +void SplashOutputDev::updateStrokeAdjust(GfxState * /*state*/) { +#if 0 // the SA parameter supposedly defaults to false, but Acrobat + // apparently hardwires it to true + splash->setStrokeAdjust(state->getStrokeAdjust()); +#endif +} + +void SplashOutputDev::updateFillColor(GfxState *state) { + GfxGray gray; + GfxRGB rgb; +#if SPLASH_CMYK + GfxCMYK cmyk; +#endif + + state->getFillGray(&gray); + state->getFillRGB(&rgb); +#if SPLASH_CMYK + state->getFillCMYK(&cmyk); + splash->setFillPattern(getColor(gray, &rgb, &cmyk)); +#else + splash->setFillPattern(getColor(gray, &rgb)); +#endif +} + +void SplashOutputDev::updateStrokeColor(GfxState *state) { + GfxGray gray; + GfxRGB rgb; +#if SPLASH_CMYK + GfxCMYK cmyk; +#endif + + state->getStrokeGray(&gray); + state->getStrokeRGB(&rgb); +#if SPLASH_CMYK + state->getStrokeCMYK(&cmyk); + splash->setStrokePattern(getColor(gray, &rgb, &cmyk)); +#else + splash->setStrokePattern(getColor(gray, &rgb)); +#endif +} + +#if SPLASH_CMYK +SplashPattern *SplashOutputDev::getColor(GfxGray gray, GfxRGB *rgb, + GfxCMYK *cmyk) { +#else +SplashPattern *SplashOutputDev::getColor(GfxGray gray, GfxRGB *rgb) { +#endif + SplashPattern *pattern; + SplashColor color; + GfxColorComp r, g, b; + + if (reverseVideo) { + gray = gfxColorComp1 - gray; + r = gfxColorComp1 - rgb->r; + g = gfxColorComp1 - rgb->g; + b = gfxColorComp1 - rgb->b; + } else { + r = rgb->r; + g = rgb->g; + b = rgb->b; + } + + pattern = NULL; // make gcc happy + switch (colorMode) { + case splashModeMono1: + case splashModeMono8: + color[0] = colToByte(gray); + pattern = new SplashSolidColor(color); + break; + case splashModeRGB8: + case splashModeBGR8: + color[0] = colToByte(r); + color[1] = colToByte(g); + color[2] = colToByte(b); + pattern = new SplashSolidColor(color); + break; +#if SPLASH_CMYK + case splashModeCMYK8: + color[0] = colToByte(cmyk->c); + color[1] = colToByte(cmyk->m); + color[2] = colToByte(cmyk->y); + color[3] = colToByte(cmyk->k); + pattern = new SplashSolidColor(color); + break; +#endif + } + + return pattern; +} + +void SplashOutputDev::updateBlendMode(GfxState *state) { + splash->setBlendFunc(splashOutBlendFuncs[state->getBlendMode()]); +} + +void SplashOutputDev::updateFillOpacity(GfxState *state) { + splash->setFillAlpha((SplashCoord)state->getFillOpacity()); +} + +void SplashOutputDev::updateStrokeOpacity(GfxState *state) { + splash->setStrokeAlpha((SplashCoord)state->getStrokeOpacity()); +} + +void SplashOutputDev::updateFont(GfxState * /*state*/) { + needFontUpdate = gTrue; +} + +void SplashOutputDev::doUpdateFont(GfxState *state) { + GfxFont *gfxFont; + GfxFontType fontType; + SplashOutFontFileID *id; + SplashFontFile *fontFile; + SplashFontSrc *fontsrc = NULL; + FoFiTrueType *ff; + Ref embRef; + Object refObj, strObj; + GString *fileName, *substName; + char *tmpBuf; + int tmpBufLen; + Gushort *codeToGID; + DisplayFontParam *dfp; + CharCodeToUnicode *ctu; + double *textMat; + double m11, m12, m21, m22, w1, w2, fontSize; + SplashCoord mat[4]; + char *name; + Unicode uBuf[8]; + int substIdx, n, code, cmap; + int faceIndex = 0; + + needFontUpdate = gFalse; + font = NULL; + fileName = NULL; + tmpBuf = NULL; + substIdx = -1; + dfp = NULL; + + if (!(gfxFont = state->getFont())) { + goto err1; + } + fontType = gfxFont->getType(); + if (fontType == fontType3) { + goto err1; + } + + // check the font file cache + id = new SplashOutFontFileID(gfxFont->getID()); + if ((fontFile = fontEngine->getFontFile(id))) { + delete id; + + } else { + + // if there is an embedded font, write it to disk + if (gfxFont->getEmbeddedFontID(&embRef)) { + tmpBuf = gfxFont->readEmbFontFile(xref, &tmpBufLen); + if (! tmpBuf) + goto err2; + + // if there is an external font file, use it + } else if (!(fileName = gfxFont->getExtFontFile())) { + + // look for a display font mapping or a substitute font + if (gfxFont->isCIDFont()) { + if (((GfxCIDFont *)gfxFont)->getCollection()) { + dfp = globalParams-> + getDisplayCIDFont(gfxFont->getName(), + ((GfxCIDFont *)gfxFont)->getCollection()); + } + } else { + if (gfxFont->getName()) { + dfp = globalParams->getDisplayFont(gfxFont->getName()); + } + if (!dfp) { + // 8-bit font substitution + if (gfxFont->isFixedWidth()) { + substIdx = 8; + } else if (gfxFont->isSerif()) { + substIdx = 4; + } else { + substIdx = 0; + } + if (gfxFont->isBold()) { + substIdx += 2; + } + if (gfxFont->isItalic()) { + substIdx += 1; + } + substName = new GString(splashOutSubstFonts[substIdx].name); + dfp = globalParams->getDisplayFont(substName); + delete substName; + id->setSubstIdx(substIdx); + } + } + if (!dfp) { + error(-1, "Couldn't find a font for '%s'", + gfxFont->getName() ? gfxFont->getName()->getCString() + : "(unnamed)"); + goto err2; + } + switch (dfp->kind) { + case displayFontT1: + fileName = dfp->t1.fileName; + fontType = gfxFont->isCIDFont() ? fontCIDType0 : fontType1; + break; + case displayFontTT: + fileName = dfp->tt.fileName; + fontType = gfxFont->isCIDFont() ? fontCIDType2 : fontTrueType; + faceIndex = dfp->tt.faceIndex; + break; + } + } + + fontsrc = new SplashFontSrc; + if (fileName) + fontsrc->setFile(fileName, gFalse); + else + fontsrc->setBuf(tmpBuf, tmpBufLen, gTrue); + + // load the font file + switch (fontType) { + case fontType1: + if (!(fontFile = fontEngine->loadType1Font( + id, + fontsrc, + ((Gfx8BitFont *)gfxFont)->getEncoding()))) { + error(-1, "Couldn't create a font for '%s'", + gfxFont->getName() ? gfxFont->getName()->getCString() + : "(unnamed)"); + goto err2; + } + break; + case fontType1C: + if (!(fontFile = fontEngine->loadType1CFont( + id, + fontsrc, + ((Gfx8BitFont *)gfxFont)->getEncoding()))) { + error(-1, "Couldn't create a font for '%s'", + gfxFont->getName() ? gfxFont->getName()->getCString() + : "(unnamed)"); + goto err2; + } + break; + case fontType1COT: + if (!(fontFile = fontEngine->loadOpenTypeT1CFont( + id, + fontsrc, + ((Gfx8BitFont *)gfxFont)->getEncoding()))) { + error(-1, "Couldn't create a font for '%s'", + gfxFont->getName() ? gfxFont->getName()->getCString() + : "(unnamed)"); + goto err2; + } + break; + case fontTrueType: + case fontTrueTypeOT: + if (fileName) + ff = FoFiTrueType::load(fileName->getCString()); + else + ff = FoFiTrueType::make(tmpBuf, tmpBufLen); + if (ff) { + codeToGID = ((Gfx8BitFont *)gfxFont)->getCodeToGIDMap(ff); + n = 256; + delete ff; + } else { + codeToGID = NULL; + n = 0; + } + if (!(fontFile = fontEngine->loadTrueTypeFont( + id, + fontsrc, + codeToGID, n))) { + error(-1, "Couldn't create a font for '%s'", + gfxFont->getName() ? gfxFont->getName()->getCString() + : "(unnamed)"); + goto err2; + } + break; + case fontCIDType0: + case fontCIDType0C: + if (!(fontFile = fontEngine->loadCIDFont( + id, + fontsrc))) { + error(-1, "Couldn't create a font for '%s'", + gfxFont->getName() ? gfxFont->getName()->getCString() + : "(unnamed)"); + goto err2; + } + break; + case fontCIDType0COT: + if (!(fontFile = fontEngine->loadOpenTypeCFFFont( + id, + fontsrc))) { + error(-1, "Couldn't create a font for '%s'", + gfxFont->getName() ? gfxFont->getName()->getCString() + : "(unnamed)"); + goto err2; + } + break; + case fontCIDType2: + case fontCIDType2OT: + codeToGID = NULL; + n = 0; + if (dfp) { + // create a CID-to-GID mapping, via Unicode + if ((ctu = ((GfxCIDFont *)gfxFont)->getToUnicode())) { + if (fileName) + ff = FoFiTrueType::load(fileName->getCString()); + else + ff = FoFiTrueType::make(tmpBuf, tmpBufLen); + if (ff) { + // look for a Unicode cmap + for (cmap = 0; cmap < ff->getNumCmaps(); ++cmap) { + if ((ff->getCmapPlatform(cmap) == 3 && + ff->getCmapEncoding(cmap) == 1) || + ff->getCmapPlatform(cmap) == 0) { + break; + } + } + if (cmap < ff->getNumCmaps()) { + // map CID -> Unicode -> GID + n = ctu->getLength(); + codeToGID = (Gushort *)gmallocn(n, sizeof(Gushort)); + for (code = 0; code < n; ++code) { + if (ctu->mapToUnicode(code, uBuf, 8) > 0) { + codeToGID[code] = ff->mapCodeToGID(cmap, uBuf[0]); + } else { + codeToGID[code] = 0; + } + } + } + delete ff; + } + ctu->decRefCnt(); + } else { + error(-1, "Couldn't find a mapping to Unicode for font '%s'", + gfxFont->getName() ? gfxFont->getName()->getCString() + : "(unnamed)"); + } + } else { + if (((GfxCIDFont *)gfxFont)->getCIDToGID()) { + n = ((GfxCIDFont *)gfxFont)->getCIDToGIDLen(); + codeToGID = (Gushort *)gmallocn(n, sizeof(Gushort)); + memcpy(codeToGID, ((GfxCIDFont *)gfxFont)->getCIDToGID(), + n * sizeof(Gushort)); + } + } + if (!(fontFile = fontEngine->loadTrueTypeFont( + id, + fontsrc, + codeToGID, n, faceIndex))) { + error(-1, "Couldn't create a font for '%s'", + gfxFont->getName() ? gfxFont->getName()->getCString() + : "(unnamed)"); + goto err2; + } + break; + default: + // this shouldn't happen + goto err2; + } + } + + // get the font matrix + textMat = state->getTextMat(); + fontSize = state->getFontSize(); + m11 = textMat[0] * fontSize * state->getHorizScaling(); + m12 = textMat[1] * fontSize * state->getHorizScaling(); + m21 = textMat[2] * fontSize; + m22 = textMat[3] * fontSize; + + // for substituted fonts: adjust the font matrix -- compare the + // width of 'm' in the original font and the substituted font + substIdx = ((SplashOutFontFileID *)fontFile->getID())->getSubstIdx(); + if (substIdx >= 0) { + for (code = 0; code < 256; ++code) { + if ((name = ((Gfx8BitFont *)gfxFont)->getCharName(code)) && + name[0] == 'm' && name[1] == '\0') { + break; + } + } + if (code < 256) { + w1 = ((Gfx8BitFont *)gfxFont)->getWidth(code); + w2 = splashOutSubstFonts[substIdx].mWidth; + if (!gfxFont->isSymbolic()) { + // if real font is substantially narrower than substituted + // font, reduce the font size accordingly + if (w1 > 0.01 && w1 < 0.9 * w2) { + w1 /= w2; + m11 *= w1; + m21 *= w1; + } + } + } + } + + // create the scaled font + mat[0] = m11; mat[1] = m12; + mat[2] = m21; mat[3] = m22; + font = fontEngine->getFont(fontFile, mat, splash->getMatrix()); + + if (fontsrc && !fontsrc->isFile) + fontsrc->unref(); + + return; + + err2: + delete id; + err1: + if (fontsrc && !fontsrc->isFile) + fontsrc->unref(); + return; +} + +void SplashOutputDev::stroke(GfxState *state) { + SplashPath *path; + + if (state->getStrokeColorSpace()->isNonMarking()) { + return; + } + path = convertPath(state, state->getPath()); + splash->stroke(path); + delete path; +} + +void SplashOutputDev::fill(GfxState *state) { + SplashPath *path; + + if (state->getFillColorSpace()->isNonMarking()) { + return; + } + path = convertPath(state, state->getPath()); + splash->fill(path, gFalse); + delete path; +} + +void SplashOutputDev::eoFill(GfxState *state) { + SplashPath *path; + + if (state->getFillColorSpace()->isNonMarking()) { + return; + } + path = convertPath(state, state->getPath()); + splash->fill(path, gTrue); + delete path; +} + +void SplashOutputDev::clip(GfxState *state) { + SplashPath *path; + + path = convertPath(state, state->getPath()); + splash->clipToPath(path, gFalse); + delete path; +} + +void SplashOutputDev::eoClip(GfxState *state) { + SplashPath *path; + + path = convertPath(state, state->getPath()); + splash->clipToPath(path, gTrue); + delete path; +} + +void SplashOutputDev::clipToStrokePath(GfxState *state) { + SplashPath *path, *path2; + + path = convertPath(state, state->getPath()); + path2 = splash->makeStrokePath(path); + delete path; + splash->clipToPath(path2, gFalse); + delete path2; +} + +SplashPath *SplashOutputDev::convertPath(GfxState * /*state*/, GfxPath *path) { + SplashPath *sPath; + GfxSubpath *subpath; + int i, j; + + sPath = new SplashPath(); + for (i = 0; i < path->getNumSubpaths(); ++i) { + subpath = path->getSubpath(i); + if (subpath->getNumPoints() > 0) { + sPath->moveTo((SplashCoord)subpath->getX(0), + (SplashCoord)subpath->getY(0)); + j = 1; + while (j < subpath->getNumPoints()) { + if (subpath->getCurve(j)) { + sPath->curveTo((SplashCoord)subpath->getX(j), + (SplashCoord)subpath->getY(j), + (SplashCoord)subpath->getX(j+1), + (SplashCoord)subpath->getY(j+1), + (SplashCoord)subpath->getX(j+2), + (SplashCoord)subpath->getY(j+2)); + j += 3; + } else { + sPath->lineTo((SplashCoord)subpath->getX(j), + (SplashCoord)subpath->getY(j)); + ++j; + } + } + if (subpath->isClosed()) { + sPath->close(); + } + } + } + return sPath; +} + +void SplashOutputDev::drawChar(GfxState *state, double x, double y, + double /*dx*/, double /*dy*/, + double originX, double originY, + CharCode code, int /*nBytes*/, + Unicode * /*u*/, int /*uLen*/) { + SplashPath *path; + int render; + + // check for invisible text -- this is used by Acrobat Capture + render = state->getRender(); + if (render == 3) { + return; + } + + if (needFontUpdate) { + doUpdateFont(state); + } + if (!font) { + return; + } + + x -= originX; + y -= originY; + + // fill + if (!(render & 1)) { + if (!state->getFillColorSpace()->isNonMarking()) { + splash->fillChar((SplashCoord)x, (SplashCoord)y, code, font); + } + } + + // stroke + if ((render & 3) == 1 || (render & 3) == 2) { + if (!state->getStrokeColorSpace()->isNonMarking()) { + if ((path = font->getGlyphPath(code))) { + path->offset((SplashCoord)x, (SplashCoord)y); + splash->stroke(path); + delete path; + } + } + } + + // clip + if (render & 4) { + if ((path = font->getGlyphPath(code))) { + path->offset((SplashCoord)x, (SplashCoord)y); + if (textClipPath) { + textClipPath->append(path); + delete path; + } else { + textClipPath = path; + } + } + } +} + +GBool SplashOutputDev::beginType3Char(GfxState *state, double /*x*/, double /*y*/, + double /*dx*/, double /*dy*/, + CharCode code, Unicode * /*u*/, int /*uLen*/) { + GfxFont *gfxFont; + Ref *fontID; + double *ctm, *bbox; + T3FontCache *t3Font; + T3GlyphStack *t3gs; + GBool validBBox; + double x1, y1, xMin, yMin, xMax, yMax, xt, yt; + int i, j; + + if (!(gfxFont = state->getFont())) { + return gFalse; + } + fontID = gfxFont->getID(); + ctm = state->getCTM(); + state->transform(0, 0, &xt, &yt); + + // is it the first (MRU) font in the cache? + if (!(nT3Fonts > 0 && + t3FontCache[0]->matches(fontID, ctm[0], ctm[1], ctm[2], ctm[3]))) { + + // is the font elsewhere in the cache? + for (i = 1; i < nT3Fonts; ++i) { + if (t3FontCache[i]->matches(fontID, ctm[0], ctm[1], ctm[2], ctm[3])) { + t3Font = t3FontCache[i]; + for (j = i; j > 0; --j) { + t3FontCache[j] = t3FontCache[j - 1]; + } + t3FontCache[0] = t3Font; + break; + } + } + if (i >= nT3Fonts) { + + // create new entry in the font cache + if (nT3Fonts == splashOutT3FontCacheSize) { + delete t3FontCache[nT3Fonts - 1]; + --nT3Fonts; + } + for (j = nT3Fonts; j > 0; --j) { + t3FontCache[j] = t3FontCache[j - 1]; + } + ++nT3Fonts; + bbox = gfxFont->getFontBBox(); + if (bbox[0] == 0 && bbox[1] == 0 && bbox[2] == 0 && bbox[3] == 0) { + // unspecified bounding box -- just take a guess + xMin = xt - 5; + xMax = xMin + 30; + yMax = yt + 15; + yMin = yMax - 45; + validBBox = gFalse; + } else { + state->transform(bbox[0], bbox[1], &x1, &y1); + xMin = xMax = x1; + yMin = yMax = y1; + state->transform(bbox[0], bbox[3], &x1, &y1); + if (x1 < xMin) { + xMin = x1; + } else if (x1 > xMax) { + xMax = x1; + } + if (y1 < yMin) { + yMin = y1; + } else if (y1 > yMax) { + yMax = y1; + } + state->transform(bbox[2], bbox[1], &x1, &y1); + if (x1 < xMin) { + xMin = x1; + } else if (x1 > xMax) { + xMax = x1; + } + if (y1 < yMin) { + yMin = y1; + } else if (y1 > yMax) { + yMax = y1; + } + state->transform(bbox[2], bbox[3], &x1, &y1); + if (x1 < xMin) { + xMin = x1; + } else if (x1 > xMax) { + xMax = x1; + } + if (y1 < yMin) { + yMin = y1; + } else if (y1 > yMax) { + yMax = y1; + } + validBBox = gTrue; + } + t3FontCache[0] = new T3FontCache(fontID, ctm[0], ctm[1], ctm[2], ctm[3], + (int)floor(xMin - xt), + (int)floor(yMin - yt), + (int)ceil(xMax) - (int)floor(xMin) + 3, + (int)ceil(yMax) - (int)floor(yMin) + 3, + validBBox, + colorMode != splashModeMono1); + } + } + t3Font = t3FontCache[0]; + + // is the glyph in the cache? + i = (code & (t3Font->cacheSets - 1)) * t3Font->cacheAssoc; + for (j = 0; j < t3Font->cacheAssoc; ++j) { + if (t3Font->cacheTags != NULL) { + if ((t3Font->cacheTags[i+j].mru & 0x8000) && + t3Font->cacheTags[i+j].code == code) { + drawType3Glyph(t3Font, &t3Font->cacheTags[i+j], + t3Font->cacheData + (i+j) * t3Font->glyphSize); + return gTrue; + } + } + } + + // push a new Type 3 glyph record + t3gs = new T3GlyphStack(); + t3gs->next = t3GlyphStack; + t3GlyphStack = t3gs; + t3GlyphStack->code = code; + t3GlyphStack->cache = t3Font; + t3GlyphStack->cacheTag = NULL; + t3GlyphStack->cacheData = NULL; + + return gFalse; +} + +void SplashOutputDev::endType3Char(GfxState *state) { + T3GlyphStack *t3gs; + double *ctm; + + if (t3GlyphStack->cacheTag) { + memcpy(t3GlyphStack->cacheData, bitmap->getDataPtr(), + t3GlyphStack->cache->glyphSize); + delete bitmap; + delete splash; + bitmap = t3GlyphStack->origBitmap; + splash = t3GlyphStack->origSplash; + ctm = state->getCTM(); + state->setCTM(ctm[0], ctm[1], ctm[2], ctm[3], + t3GlyphStack->origCTM4, t3GlyphStack->origCTM5); + updateCTM(state, 0, 0, 0, 0, 0, 0); + drawType3Glyph(t3GlyphStack->cache, + t3GlyphStack->cacheTag, t3GlyphStack->cacheData); + } + t3gs = t3GlyphStack; + t3GlyphStack = t3gs->next; + delete t3gs; +} + +void SplashOutputDev::type3D0(GfxState * /*state*/, double /*wx*/, double /*wy*/) { +} + +void SplashOutputDev::type3D1(GfxState *state, double /*wx*/, double /*wy*/, + double llx, double lly, double urx, double ury) { + double *ctm; + T3FontCache *t3Font; + SplashColor color; + double xt, yt, xMin, xMax, yMin, yMax, x1, y1; + int i, j; + + t3Font = t3GlyphStack->cache; + + // check for a valid bbox + state->transform(0, 0, &xt, &yt); + state->transform(llx, lly, &x1, &y1); + xMin = xMax = x1; + yMin = yMax = y1; + state->transform(llx, ury, &x1, &y1); + if (x1 < xMin) { + xMin = x1; + } else if (x1 > xMax) { + xMax = x1; + } + if (y1 < yMin) { + yMin = y1; + } else if (y1 > yMax) { + yMax = y1; + } + state->transform(urx, lly, &x1, &y1); + if (x1 < xMin) { + xMin = x1; + } else if (x1 > xMax) { + xMax = x1; + } + if (y1 < yMin) { + yMin = y1; + } else if (y1 > yMax) { + yMax = y1; + } + state->transform(urx, ury, &x1, &y1); + if (x1 < xMin) { + xMin = x1; + } else if (x1 > xMax) { + xMax = x1; + } + if (y1 < yMin) { + yMin = y1; + } else if (y1 > yMax) { + yMax = y1; + } + if (xMin - xt < t3Font->glyphX || + yMin - yt < t3Font->glyphY || + xMax - xt > t3Font->glyphX + t3Font->glyphW || + yMax - yt > t3Font->glyphY + t3Font->glyphH) { + if (t3Font->validBBox) { + error(-1, "Bad bounding box in Type 3 glyph"); + } + return; + } + + // allocate a cache entry + i = (t3GlyphStack->code & (t3Font->cacheSets - 1)) * t3Font->cacheAssoc; + for (j = 0; j < t3Font->cacheAssoc; ++j) { + if ((t3Font->cacheTags[i+j].mru & 0x7fff) == t3Font->cacheAssoc - 1) { + t3Font->cacheTags[i+j].mru = 0x8000; + t3Font->cacheTags[i+j].code = t3GlyphStack->code; + t3GlyphStack->cacheTag = &t3Font->cacheTags[i+j]; + t3GlyphStack->cacheData = t3Font->cacheData + (i+j) * t3Font->glyphSize; + } else { + ++t3Font->cacheTags[i+j].mru; + } + } + + // save state + t3GlyphStack->origBitmap = bitmap; + t3GlyphStack->origSplash = splash; + ctm = state->getCTM(); + t3GlyphStack->origCTM4 = ctm[4]; + t3GlyphStack->origCTM5 = ctm[5]; + + // create the temporary bitmap + if (colorMode == splashModeMono1) { + bitmap = new SplashBitmap(t3Font->glyphW, t3Font->glyphH, 1, + splashModeMono1, gFalse); + splash = new Splash(bitmap, gFalse, + t3GlyphStack->origSplash->getScreen()); + color[0] = 0; + splash->clear(color); + color[0] = 1; + } else { + bitmap = new SplashBitmap(t3Font->glyphW, t3Font->glyphH, 1, + splashModeMono8, gFalse); + splash = new Splash(bitmap, vectorAntialias, + t3GlyphStack->origSplash->getScreen()); + color[0] = 0x00; + splash->clear(color); + color[0] = 0xff; + } + splash->setFillPattern(new SplashSolidColor(color)); + splash->setStrokePattern(new SplashSolidColor(color)); + //~ this should copy other state from t3GlyphStack->origSplash? + state->setCTM(ctm[0], ctm[1], ctm[2], ctm[3], + -t3Font->glyphX, -t3Font->glyphY); + updateCTM(state, 0, 0, 0, 0, 0, 0); +} + +void SplashOutputDev::drawType3Glyph(T3FontCache *t3Font, + T3FontCacheTag * /*tag*/, Guchar *data) { + SplashGlyphBitmap glyph; + + glyph.x = -t3Font->glyphX; + glyph.y = -t3Font->glyphY; + glyph.w = t3Font->glyphW; + glyph.h = t3Font->glyphH; + glyph.aa = colorMode != splashModeMono1; + glyph.data = data; + glyph.freeData = gFalse; + splash->fillGlyph(0, 0, &glyph); +} + +void SplashOutputDev::endTextObject(GfxState * /*state*/) { + if (textClipPath) { + splash->clipToPath(textClipPath, gFalse); + delete textClipPath; + textClipPath = NULL; + } +} + +struct SplashOutImageMaskData { + ImageStream *imgStr; + GBool invert; + int width, height, y; +}; + +GBool SplashOutputDev::imageMaskSrc(void *data, SplashColorPtr line) { + SplashOutImageMaskData *imgMaskData = (SplashOutImageMaskData *)data; + Guchar *p; + SplashColorPtr q; + int x; + + if (imgMaskData->y == imgMaskData->height) { + return gFalse; + } + for (x = 0, p = imgMaskData->imgStr->getLine(), q = line; + x < imgMaskData->width; + ++x) { + *q++ = *p++ ^ imgMaskData->invert; + } + ++imgMaskData->y; + return gTrue; +} + +void SplashOutputDev::drawImageMask(GfxState *state, Object * /*ref*/, Stream *str, + int width, int height, GBool invert, + GBool inlineImg) { + double *ctm; + SplashCoord mat[6]; + SplashOutImageMaskData imgMaskData; + + if (state->getFillColorSpace()->isNonMarking()) { + return; + } + + ctm = state->getCTM(); + mat[0] = ctm[0]; + mat[1] = ctm[1]; + mat[2] = -ctm[2]; + mat[3] = -ctm[3]; + mat[4] = ctm[2] + ctm[4]; + mat[5] = ctm[3] + ctm[5]; + + imgMaskData.imgStr = new ImageStream(str, width, 1, 1); + imgMaskData.imgStr->reset(); + imgMaskData.invert = invert ? 0 : 1; + imgMaskData.width = width; + imgMaskData.height = height; + imgMaskData.y = 0; + + splash->fillImageMask(&imageMaskSrc, &imgMaskData, width, height, mat, + t3GlyphStack != NULL); + if (inlineImg) { + while (imgMaskData.y < height) { + imgMaskData.imgStr->getLine(); + ++imgMaskData.y; + } + } + + delete imgMaskData.imgStr; + str->close(); +} + +struct SplashOutImageData { + ImageStream *imgStr; + GfxImageColorMap *colorMap; + SplashColorPtr lookup; + int *maskColors; + SplashColorMode colorMode; + int width, height, y; +}; + +GBool SplashOutputDev::imageSrc(void *data, SplashColorPtr colorLine, + Guchar * /*alphaLine*/) { + SplashOutImageData *imgData = (SplashOutImageData *)data; + Guchar *p; + SplashColorPtr q, col; + GfxRGB rgb; + GfxGray gray; +#if SPLASH_CMYK + GfxCMYK cmyk; +#endif + int nComps, x; + + if (imgData->y == imgData->height) { + return gFalse; + } + + nComps = imgData->colorMap->getNumPixelComps(); + + if (imgData->lookup) { + switch (imgData->colorMode) { + case splashModeMono1: + case splashModeMono8: + for (x = 0, p = imgData->imgStr->getLine(), q = colorLine; + x < imgData->width; + ++x, ++p) { + *q++ = imgData->lookup[*p]; + } + break; + case splashModeRGB8: + case splashModeBGR8: + for (x = 0, p = imgData->imgStr->getLine(), q = colorLine; + x < imgData->width; + ++x, ++p) { + col = &imgData->lookup[3 * *p]; + *q++ = col[0]; + *q++ = col[1]; + *q++ = col[2]; + } + break; +#if SPLASH_CMYK + case splashModeCMYK8: + for (x = 0, p = imgData->imgStr->getLine(), q = colorLine; + x < imgData->width; + ++x, ++p) { + col = &imgData->lookup[4 * *p]; + *q++ = col[0]; + *q++ = col[1]; + *q++ = col[2]; + *q++ = col[3]; + } + break; +#endif + } + } else { + switch (imgData->colorMode) { + case splashModeMono1: + case splashModeMono8: + for (x = 0, p = imgData->imgStr->getLine(), q = colorLine; + x < imgData->width; + ++x, p += nComps) { + imgData->colorMap->getGray(p, &gray); + *q++ = colToByte(gray); + } + break; + case splashModeRGB8: + case splashModeBGR8: + for (x = 0, p = imgData->imgStr->getLine(), q = colorLine; + x < imgData->width; + ++x, p += nComps) { + imgData->colorMap->getRGB(p, &rgb); + *q++ = colToByte(rgb.r); + *q++ = colToByte(rgb.g); + *q++ = colToByte(rgb.b); + } + break; +#if SPLASH_CMYK + case splashModeCMYK8: + for (x = 0, p = imgData->imgStr->getLine(), q = colorLine; + x < imgData->width; + ++x, p += nComps) { + imgData->colorMap->getCMYK(p, &cmyk); + *q++ = colToByte(cmyk.c); + *q++ = colToByte(cmyk.m); + *q++ = colToByte(cmyk.y); + *q++ = colToByte(cmyk.k); + } + break; +#endif + } + } + + ++imgData->y; + return gTrue; +} + +GBool SplashOutputDev::alphaImageSrc(void *data, SplashColorPtr colorLine, + Guchar *alphaLine) { + SplashOutImageData *imgData = (SplashOutImageData *)data; + Guchar *p, *aq; + SplashColorPtr q, col; + GfxRGB rgb; + GfxGray gray; +#if SPLASH_CMYK + GfxCMYK cmyk; +#endif + Guchar alpha; + int nComps, x, i; + + if (imgData->y == imgData->height) { + return gFalse; + } + + nComps = imgData->colorMap->getNumPixelComps(); + + for (x = 0, p = imgData->imgStr->getLine(), q = colorLine, aq = alphaLine; + x < imgData->width; + ++x, p += nComps) { + alpha = 0; + for (i = 0; i < nComps; ++i) { + if (p[i] < imgData->maskColors[2*i] || + p[i] > imgData->maskColors[2*i+1]) { + alpha = 0xff; + break; + } + } + if (imgData->lookup) { + switch (imgData->colorMode) { + case splashModeMono1: + case splashModeMono8: + *q++ = imgData->lookup[*p]; + *aq++ = alpha; + break; + case splashModeRGB8: + case splashModeBGR8: + col = &imgData->lookup[3 * *p]; + *q++ = col[0]; + *q++ = col[1]; + *q++ = col[2]; + *aq++ = alpha; + break; +#if SPLASH_CMYK + case splashModeCMYK8: + col = &imgData->lookup[4 * *p]; + *q++ = col[0]; + *q++ = col[1]; + *q++ = col[2]; + *q++ = col[3]; + *aq++ = alpha; + break; +#endif + } + } else { + switch (imgData->colorMode) { + case splashModeMono1: + case splashModeMono8: + imgData->colorMap->getGray(p, &gray); + *q++ = colToByte(gray); + *aq++ = alpha; + break; + case splashModeRGB8: + case splashModeBGR8: + imgData->colorMap->getRGB(p, &rgb); + *q++ = colToByte(rgb.r); + *q++ = colToByte(rgb.g); + *q++ = colToByte(rgb.b); + *aq++ = alpha; + break; +#if SPLASH_CMYK + case splashModeCMYK8: + imgData->colorMap->getCMYK(p, &cmyk); + *q++ = colToByte(cmyk.c); + *q++ = colToByte(cmyk.m); + *q++ = colToByte(cmyk.y); + *q++ = colToByte(cmyk.k); + *aq++ = alpha; + break; +#endif + } + } + } + + ++imgData->y; + return gTrue; +} + +void SplashOutputDev::drawImage(GfxState *state, Object * /*ref*/, Stream *str, + int width, int height, + GfxImageColorMap *colorMap, + int *maskColors, GBool inlineImg) { + double *ctm; + SplashCoord mat[6]; + SplashOutImageData imgData; + SplashColorMode srcMode; + SplashImageSource src; + GfxGray gray; + GfxRGB rgb; +#if SPLASH_CMYK + GfxCMYK cmyk; +#endif + Guchar pix; + int n, i; + + ctm = state->getCTM(); + mat[0] = ctm[0]; + mat[1] = ctm[1]; + mat[2] = -ctm[2]; + mat[3] = -ctm[3]; + mat[4] = ctm[2] + ctm[4]; + mat[5] = ctm[3] + ctm[5]; + + imgData.imgStr = new ImageStream(str, width, + colorMap->getNumPixelComps(), + colorMap->getBits()); + imgData.imgStr->reset(); + imgData.colorMap = colorMap; + imgData.maskColors = maskColors; + imgData.colorMode = colorMode; + imgData.width = width; + imgData.height = height; + imgData.y = 0; + + // special case for one-channel (monochrome/gray/separation) images: + // build a lookup table here + imgData.lookup = NULL; + if (colorMap->getNumPixelComps() == 1) { + n = 1 << colorMap->getBits(); + switch (colorMode) { + case splashModeMono1: + case splashModeMono8: + imgData.lookup = (SplashColorPtr)gmalloc(n); + for (i = 0; i < n; ++i) { + pix = (Guchar)i; + colorMap->getGray(&pix, &gray); + imgData.lookup[i] = colToByte(gray); + } + break; + case splashModeRGB8: + case splashModeBGR8: + imgData.lookup = (SplashColorPtr)gmalloc(3 * n); + for (i = 0; i < n; ++i) { + pix = (Guchar)i; + colorMap->getRGB(&pix, &rgb); + imgData.lookup[3*i] = colToByte(rgb.r); + imgData.lookup[3*i+1] = colToByte(rgb.g); + imgData.lookup[3*i+2] = colToByte(rgb.b); + } + break; +#if SPLASH_CMYK + case splashModeCMYK8: + imgData.lookup = (SplashColorPtr)gmalloc(4 * n); + for (i = 0; i < n; ++i) { + pix = (Guchar)i; + colorMap->getCMYK(&pix, &cmyk); + imgData.lookup[4*i] = colToByte(cmyk.c); + imgData.lookup[4*i+1] = colToByte(cmyk.m); + imgData.lookup[4*i+2] = colToByte(cmyk.y); + imgData.lookup[4*i+3] = colToByte(cmyk.k); + } + break; +#endif + break; + } + } + + if (colorMode == splashModeMono1) { + srcMode = splashModeMono8; + } else { + srcMode = colorMode; + } + src = maskColors ? &alphaImageSrc : &imageSrc; + splash->drawImage(src, &imgData, srcMode, maskColors ? gTrue : gFalse, + width, height, mat); + if (inlineImg) { + while (imgData.y < height) { + imgData.imgStr->getLine(); + ++imgData.y; + } + } + + gfree(imgData.lookup); + delete imgData.imgStr; + str->close(); +} + +struct SplashOutMaskedImageData { + ImageStream *imgStr; + GfxImageColorMap *colorMap; + SplashBitmap *mask; + SplashColorPtr lookup; + SplashColorMode colorMode; + int width, height, y; +}; + +GBool SplashOutputDev::maskedImageSrc(void *data, SplashColorPtr colorLine, + Guchar *alphaLine) { + SplashOutMaskedImageData *imgData = (SplashOutMaskedImageData *)data; + Guchar *p, *aq; + SplashColor maskColor; + SplashColorPtr q, col; + GfxRGB rgb; + GfxGray gray; +#if SPLASH_CMYK + GfxCMYK cmyk; +#endif + Guchar alpha; + int nComps, x; + + if (imgData->y == imgData->height) { + return gFalse; + } + + nComps = imgData->colorMap->getNumPixelComps(); + + for (x = 0, p = imgData->imgStr->getLine(), q = colorLine, aq = alphaLine; + x < imgData->width; + ++x, p += nComps) { + imgData->mask->getPixel(x, imgData->y, maskColor); + alpha = maskColor[0] ? 0xff : 0x00; + if (imgData->lookup) { + switch (imgData->colorMode) { + case splashModeMono1: + case splashModeMono8: + *q++ = imgData->lookup[*p]; + *aq++ = alpha; + break; + case splashModeRGB8: + case splashModeBGR8: + col = &imgData->lookup[3 * *p]; + *q++ = col[0]; + *q++ = col[1]; + *q++ = col[2]; + *aq++ = alpha; + break; +#if SPLASH_CMYK + case splashModeCMYK8: + col = &imgData->lookup[4 * *p]; + *q++ = col[0]; + *q++ = col[1]; + *q++ = col[2]; + *q++ = col[3]; + *aq++ = alpha; + break; +#endif + } + } else { + switch (imgData->colorMode) { + case splashModeMono1: + case splashModeMono8: + imgData->colorMap->getGray(p, &gray); + *q++ = colToByte(gray); + *aq++ = alpha; + break; + case splashModeRGB8: + case splashModeBGR8: + imgData->colorMap->getRGB(p, &rgb); + *q++ = colToByte(rgb.r); + *q++ = colToByte(rgb.g); + *q++ = colToByte(rgb.b); + *aq++ = alpha; + break; +#if SPLASH_CMYK + case splashModeCMYK8: + imgData->colorMap->getCMYK(p, &cmyk); + *q++ = colToByte(cmyk.c); + *q++ = colToByte(cmyk.m); + *q++ = colToByte(cmyk.y); + *q++ = colToByte(cmyk.k); + *aq++ = alpha; + break; +#endif + } + } + } + + ++imgData->y; + return gTrue; +} + +void SplashOutputDev::drawMaskedImage(GfxState *state, Object *ref, + Stream *str, int width, int height, + GfxImageColorMap *colorMap, + Stream *maskStr, int maskWidth, + int maskHeight, GBool maskInvert) { + GfxImageColorMap *maskColorMap; + Object maskDecode, decodeLow, decodeHigh; + double *ctm; + SplashCoord mat[6]; + SplashOutMaskedImageData imgData; + SplashOutImageMaskData imgMaskData; + SplashColorMode srcMode; + SplashBitmap *maskBitmap; + Splash *maskSplash; + SplashColor maskColor; + GfxGray gray; + GfxRGB rgb; +#if SPLASH_CMYK + GfxCMYK cmyk; +#endif + Guchar pix; + int n, i; + + // If the mask is higher resolution than the image, use + // drawSoftMaskedImage() instead. + if (maskWidth > width || maskHeight > height) { + decodeLow.initInt(maskInvert ? 0 : 1); + decodeHigh.initInt(maskInvert ? 1 : 0); + maskDecode.initArray(xref); + maskDecode.arrayAdd(&decodeLow); + maskDecode.arrayAdd(&decodeHigh); + maskColorMap = new GfxImageColorMap(1, &maskDecode, + new GfxDeviceGrayColorSpace()); + maskDecode.free(); + drawSoftMaskedImage(state, ref, str, width, height, colorMap, + maskStr, maskWidth, maskHeight, maskColorMap); + delete maskColorMap; + + } else { + + //----- scale the mask image to the same size as the source image + + mat[0] = (SplashCoord)width; + mat[1] = 0; + mat[2] = 0; + mat[3] = (SplashCoord)height; + mat[4] = 0; + mat[5] = 0; + imgMaskData.imgStr = new ImageStream(maskStr, maskWidth, 1, 1); + imgMaskData.imgStr->reset(); + imgMaskData.invert = maskInvert ? 0 : 1; + imgMaskData.width = maskWidth; + imgMaskData.height = maskHeight; + imgMaskData.y = 0; + maskBitmap = new SplashBitmap(width, height, 1, splashModeMono1, gFalse); + maskSplash = new Splash(maskBitmap, gFalse); + maskColor[0] = 0; + maskSplash->clear(maskColor); + maskColor[0] = 0xff; + maskSplash->setFillPattern(new SplashSolidColor(maskColor)); + maskSplash->fillImageMask(&imageMaskSrc, &imgMaskData, + maskWidth, maskHeight, mat, gFalse); + delete imgMaskData.imgStr; + maskStr->close(); + delete maskSplash; + + //----- draw the source image + + ctm = state->getCTM(); + mat[0] = ctm[0]; + mat[1] = ctm[1]; + mat[2] = -ctm[2]; + mat[3] = -ctm[3]; + mat[4] = ctm[2] + ctm[4]; + mat[5] = ctm[3] + ctm[5]; + + imgData.imgStr = new ImageStream(str, width, + colorMap->getNumPixelComps(), + colorMap->getBits()); + imgData.imgStr->reset(); + imgData.colorMap = colorMap; + imgData.mask = maskBitmap; + imgData.colorMode = colorMode; + imgData.width = width; + imgData.height = height; + imgData.y = 0; + + // special case for one-channel (monochrome/gray/separation) images: + // build a lookup table here + imgData.lookup = NULL; + if (colorMap->getNumPixelComps() == 1) { + n = 1 << colorMap->getBits(); + switch (colorMode) { + case splashModeMono1: + case splashModeMono8: + imgData.lookup = (SplashColorPtr)gmalloc(n); + for (i = 0; i < n; ++i) { + pix = (Guchar)i; + colorMap->getGray(&pix, &gray); + imgData.lookup[i] = colToByte(gray); + } + break; + case splashModeRGB8: + case splashModeBGR8: + imgData.lookup = (SplashColorPtr)gmalloc(3 * n); + for (i = 0; i < n; ++i) { + pix = (Guchar)i; + colorMap->getRGB(&pix, &rgb); + imgData.lookup[3*i] = colToByte(rgb.r); + imgData.lookup[3*i+1] = colToByte(rgb.g); + imgData.lookup[3*i+2] = colToByte(rgb.b); + } + break; +#if SPLASH_CMYK + case splashModeCMYK8: + imgData.lookup = (SplashColorPtr)gmalloc(4 * n); + for (i = 0; i < n; ++i) { + pix = (Guchar)i; + colorMap->getCMYK(&pix, &cmyk); + imgData.lookup[4*i] = colToByte(cmyk.c); + imgData.lookup[4*i+1] = colToByte(cmyk.m); + imgData.lookup[4*i+2] = colToByte(cmyk.y); + imgData.lookup[4*i+3] = colToByte(cmyk.k); + } + break; +#endif + } + } + + if (colorMode == splashModeMono1) { + srcMode = splashModeMono8; + } else { + srcMode = colorMode; + } + splash->drawImage(&maskedImageSrc, &imgData, srcMode, gTrue, + width, height, mat); + + delete maskBitmap; + gfree(imgData.lookup); + delete imgData.imgStr; + str->close(); + } +} + +void SplashOutputDev::drawSoftMaskedImage(GfxState *state, Object * /*ref*/, + Stream *str, int width, int height, + GfxImageColorMap *colorMap, + Stream *maskStr, + int maskWidth, int maskHeight, + GfxImageColorMap *maskColorMap) { + double *ctm; + SplashCoord mat[6]; + SplashOutImageData imgData; + SplashOutImageData imgMaskData; + SplashColorMode srcMode; + SplashBitmap *maskBitmap; + Splash *maskSplash; + SplashColor maskColor; + GfxGray gray; + GfxRGB rgb; +#if SPLASH_CMYK + GfxCMYK cmyk; +#endif + Guchar pix; + int n, i; + + ctm = state->getCTM(); + mat[0] = ctm[0]; + mat[1] = ctm[1]; + mat[2] = -ctm[2]; + mat[3] = -ctm[3]; + mat[4] = ctm[2] + ctm[4]; + mat[5] = ctm[3] + ctm[5]; + + //----- set up the soft mask + + imgMaskData.imgStr = new ImageStream(maskStr, maskWidth, + maskColorMap->getNumPixelComps(), + maskColorMap->getBits()); + imgMaskData.imgStr->reset(); + imgMaskData.colorMap = maskColorMap; + imgMaskData.maskColors = NULL; + imgMaskData.colorMode = splashModeMono8; + imgMaskData.width = maskWidth; + imgMaskData.height = maskHeight; + imgMaskData.y = 0; + n = 1 << maskColorMap->getBits(); + imgMaskData.lookup = (SplashColorPtr)gmalloc(n); + for (i = 0; i < n; ++i) { + pix = (Guchar)i; + maskColorMap->getGray(&pix, &gray); + imgMaskData.lookup[i] = colToByte(gray); + } + maskBitmap = new SplashBitmap(bitmap->getWidth(), bitmap->getHeight(), + 1, splashModeMono8, gFalse); + maskSplash = new Splash(maskBitmap, vectorAntialias); + maskColor[0] = 0; + maskSplash->clear(maskColor); + maskSplash->drawImage(&imageSrc, &imgMaskData, splashModeMono8, gFalse, + maskWidth, maskHeight, mat); + delete imgMaskData.imgStr; + maskStr->close(); + gfree(imgMaskData.lookup); + delete maskSplash; + splash->setSoftMask(maskBitmap); + + //----- draw the source image + + imgData.imgStr = new ImageStream(str, width, + colorMap->getNumPixelComps(), + colorMap->getBits()); + imgData.imgStr->reset(); + imgData.colorMap = colorMap; + imgData.maskColors = NULL; + imgData.colorMode = colorMode; + imgData.width = width; + imgData.height = height; + imgData.y = 0; + + // special case for one-channel (monochrome/gray/separation) images: + // build a lookup table here + imgData.lookup = NULL; + if (colorMap->getNumPixelComps() == 1) { + n = 1 << colorMap->getBits(); + switch (colorMode) { + case splashModeMono1: + case splashModeMono8: + imgData.lookup = (SplashColorPtr)gmalloc(n); + for (i = 0; i < n; ++i) { + pix = (Guchar)i; + colorMap->getGray(&pix, &gray); + imgData.lookup[i] = colToByte(gray); + } + break; + case splashModeRGB8: + case splashModeBGR8: + imgData.lookup = (SplashColorPtr)gmalloc(3 * n); + for (i = 0; i < n; ++i) { + pix = (Guchar)i; + colorMap->getRGB(&pix, &rgb); + imgData.lookup[3*i] = colToByte(rgb.r); + imgData.lookup[3*i+1] = colToByte(rgb.g); + imgData.lookup[3*i+2] = colToByte(rgb.b); + } + break; +#if SPLASH_CMYK + case splashModeCMYK8: + imgData.lookup = (SplashColorPtr)gmalloc(4 * n); + for (i = 0; i < n; ++i) { + pix = (Guchar)i; + colorMap->getCMYK(&pix, &cmyk); + imgData.lookup[4*i] = colToByte(cmyk.c); + imgData.lookup[4*i+1] = colToByte(cmyk.m); + imgData.lookup[4*i+2] = colToByte(cmyk.y); + imgData.lookup[4*i+3] = colToByte(cmyk.k); + } + break; +#endif + } + } + + if (colorMode == splashModeMono1) { + srcMode = splashModeMono8; + } else { + srcMode = colorMode; + } + splash->drawImage(&imageSrc, &imgData, srcMode, gFalse, width, height, mat); + + splash->setSoftMask(NULL); + gfree(imgData.lookup); + delete imgData.imgStr; + str->close(); +} + +void SplashOutputDev::beginTransparencyGroup(GfxState *state, double *bbox, + GfxColorSpace *blendingColorSpace, + GBool isolated, GBool /*knockout*/, + GBool /*forSoftMask*/) { + SplashTransparencyGroup *transpGroup; + SplashColor color; + double xMin, yMin, xMax, yMax, x, y; + int tx, ty, w, h; + + // transform the bbox + state->transform(bbox[0], bbox[1], &x, &y); + xMin = xMax = x; + yMin = yMax = y; + state->transform(bbox[0], bbox[3], &x, &y); + if (x < xMin) { + xMin = x; + } else if (x > xMax) { + xMax = x; + } + if (y < yMin) { + yMin = y; + } else if (y > yMax) { + yMax = y; + } + state->transform(bbox[2], bbox[1], &x, &y); + if (x < xMin) { + xMin = x; + } else if (x > xMax) { + xMax = x; + } + if (y < yMin) { + yMin = y; + } else if (y > yMax) { + yMax = y; + } + state->transform(bbox[2], bbox[3], &x, &y); + if (x < xMin) { + xMin = x; + } else if (x > xMax) { + xMax = x; + } + if (y < yMin) { + yMin = y; + } else if (y > yMax) { + yMax = y; + } + tx = (int)floor(xMin); + if (tx < 0) { + tx = 0; + } else if (tx > bitmap->getWidth()) { + tx = bitmap->getWidth(); + } + ty = (int)floor(yMin); + if (ty < 0) { + ty = 0; + } else if (ty > bitmap->getHeight()) { + ty = bitmap->getHeight(); + } + w = (int)ceil(xMax) - tx + 1; + if (tx + w > bitmap->getWidth()) { + w = bitmap->getWidth() - tx; + } + if (w < 1) { + w = 1; + } + h = (int)ceil(yMax) - ty + 1; + if (ty + h > bitmap->getHeight()) { + h = bitmap->getHeight() - ty; + } + if (h < 1) { + h = 1; + } + + // push a new stack entry + transpGroup = new SplashTransparencyGroup(); + transpGroup->tx = tx; + transpGroup->ty = ty; + transpGroup->blendingColorSpace = blendingColorSpace; + transpGroup->isolated = isolated; + transpGroup->next = transpGroupStack; + transpGroupStack = transpGroup; + + // save state + transpGroup->origBitmap = bitmap; + transpGroup->origSplash = splash; + + //~ this ignores the blendingColorSpace arg + + // create the temporary bitmap + bitmap = new SplashBitmap(w, h, bitmapRowPad, colorMode, gTrue, + bitmapTopDown); + splash = new Splash(bitmap, vectorAntialias, + transpGroup->origSplash->getScreen()); + if (isolated) { + switch (colorMode) { + case splashModeMono1: + case splashModeMono8: + color[0] = 0; + break; + case splashModeRGB8: + case splashModeBGR8: + color[0] = color[1] = color[2] = 0; + break; +#if SPLASH_CMYK + case splashModeCMYK8: + color[0] = color[1] = color[2] = color[3] = 0; + break; +#endif + default: + // make gcc happy + break; + } + splash->clear(color, 0); + } else { + splash->blitTransparent(transpGroup->origBitmap, tx, ty, 0, 0, w, h); + splash->setInNonIsolatedGroup(transpGroup->origBitmap, tx, ty); + } + transpGroup->tBitmap = bitmap; + state->shiftCTM(-tx, -ty); + updateCTM(state, 0, 0, 0, 0, 0, 0); +} + +void SplashOutputDev::endTransparencyGroup(GfxState *state) { + double *ctm; + + // restore state + delete splash; + bitmap = transpGroupStack->origBitmap; + splash = transpGroupStack->origSplash; + ctm = state->getCTM(); + state->shiftCTM(transpGroupStack->tx, transpGroupStack->ty); + updateCTM(state, 0, 0, 0, 0, 0, 0); +} + +void SplashOutputDev::paintTransparencyGroup(GfxState * /*state*/, double * /*bbox*/) { + SplashBitmap *tBitmap; + SplashTransparencyGroup *transpGroup; + GBool isolated; + int tx, ty; + + tx = transpGroupStack->tx; + ty = transpGroupStack->ty; + tBitmap = transpGroupStack->tBitmap; + isolated = transpGroupStack->isolated; + + // paint the transparency group onto the parent bitmap + // - the clip path was set in the parent's state) + splash->composite(tBitmap, 0, 0, tx, ty, + tBitmap->getWidth(), tBitmap->getHeight(), + gFalse, !isolated); + + // pop the stack + transpGroup = transpGroupStack; + transpGroupStack = transpGroup->next; + delete transpGroup; + + delete tBitmap; +} + +void SplashOutputDev::setSoftMask(GfxState * /*state*/, double * /*bbox*/, + GBool alpha, Function *transferFunc, + GfxColor *backdropColor) { + SplashBitmap *softMask, *tBitmap; + Splash *tSplash; + SplashTransparencyGroup *transpGroup; + SplashColor color; + SplashColorPtr p; + GfxGray gray; + GfxRGB rgb; +#if SPLASH_CMYK + GfxCMYK cmyk; +#endif + double lum, lum2; + int tx, ty, x, y; + + tx = transpGroupStack->tx; + ty = transpGroupStack->ty; + tBitmap = transpGroupStack->tBitmap; + + // composite with backdrop color + if (!alpha && colorMode != splashModeMono1) { + //~ need to correctly handle the case where no blending color + //~ space is given + tSplash = new Splash(tBitmap, vectorAntialias, + transpGroupStack->origSplash->getScreen()); + if (transpGroupStack->blendingColorSpace) { + switch (colorMode) { + case splashModeMono1: + // transparency is not supported in mono1 mode + break; + case splashModeMono8: + transpGroupStack->blendingColorSpace->getGray(backdropColor, &gray); + color[0] = colToByte(gray); + tSplash->compositeBackground(color); + break; + case splashModeRGB8: + case splashModeBGR8: + transpGroupStack->blendingColorSpace->getRGB(backdropColor, &rgb); + color[0] = colToByte(rgb.r); + color[1] = colToByte(rgb.g); + color[2] = colToByte(rgb.b); + tSplash->compositeBackground(color); + break; +#if SPLASH_CMYK + case splashModeCMYK8: + transpGroupStack->blendingColorSpace->getCMYK(backdropColor, &cmyk); + color[0] = colToByte(cmyk.c); + color[1] = colToByte(cmyk.m); + color[2] = colToByte(cmyk.y); + color[3] = colToByte(cmyk.k); + tSplash->compositeBackground(color); + break; +#endif + } + delete tSplash; + } + } + + softMask = new SplashBitmap(bitmap->getWidth(), bitmap->getHeight(), + 1, splashModeMono8, gFalse); + memset(softMask->getDataPtr(), 0, + softMask->getRowSize() * softMask->getHeight()); + p = softMask->getDataPtr() + ty * softMask->getRowSize() + tx; + int xMax = tBitmap->getWidth(); + int yMax = tBitmap->getHeight(); + if (xMax + tx > bitmap->getWidth()) xMax = bitmap->getWidth() - tx; + if (yMax + ty > bitmap->getHeight()) yMax = bitmap->getHeight() - ty; + for (y = 0; y < yMax; ++y) { + for (x = 0; x < xMax; ++x) { + tBitmap->getPixel(x, y, color); + if (alpha) { + //~ unimplemented + } else { + // convert to luminosity + switch (colorMode) { + case splashModeMono1: + case splashModeMono8: + lum = color[0] / 255.0; + break; + case splashModeRGB8: + case splashModeBGR8: + lum = (0.3 / 255.0) * color[0] + + (0.59 / 255.0) * color[1] + + (0.11 / 255.0) * color[2]; + break; +#if SPLASH_CMYK + case splashModeCMYK8: + lum = (1 - color[3] / 255.0) + - (0.3 / 255.0) * color[0] + - (0.59 / 255.0) * color[1] + - (0.11 / 255.0) * color[2]; + if (lum < 0) { + lum = 0; + } + break; +#endif + } + if (transferFunc) { + transferFunc->transform(&lum, &lum2); + } else { + lum2 = lum; + } + p[x] = (int)(lum2 * 255.0 + 0.5); + } + } + p += softMask->getRowSize(); + } + splash->setSoftMask(softMask); + + // pop the stack + transpGroup = transpGroupStack; + transpGroupStack = transpGroup->next; + delete transpGroup; + + delete tBitmap; +} + +void SplashOutputDev::clearSoftMask(GfxState * /*state*/) { + splash->setSoftMask(NULL); +} + +void SplashOutputDev::setPaperColor(SplashColorPtr paperColorA) { + splashColorCopy(paperColor, paperColorA); +} + +int SplashOutputDev::getBitmapWidth() { + return bitmap->getWidth(); +} + +int SplashOutputDev::getBitmapHeight() { + return bitmap->getHeight(); +} + +SplashBitmap *SplashOutputDev::takeBitmap() { + SplashBitmap *ret; + + ret = bitmap; + bitmap = new SplashBitmap(1, 1, bitmapRowPad, colorMode, + colorMode != splashModeMono1, bitmapTopDown); + return ret; +} + +void SplashOutputDev::getModRegion(int *xMin, int *yMin, + int *xMax, int *yMax) { + splash->getModRegion(xMin, yMin, xMax, yMax); +} + +void SplashOutputDev::clearModRegion() { + splash->clearModRegion(); +} + +void SplashOutputDev::setFillColor(int r, int g, int b) { + GfxRGB rgb; + GfxGray gray; +#if SPLASH_CMYK + GfxCMYK cmyk; +#endif + + rgb.r = byteToCol(r); + rgb.g = byteToCol(g); + rgb.b = byteToCol(b); + gray = (GfxColorComp)(0.299 * rgb.r + 0.587 * rgb.g + 0.114 * rgb.b + 0.5); + if (gray > gfxColorComp1) { + gray = gfxColorComp1; + } +#if SPLASH_CMYK + cmyk.c = gfxColorComp1 - rgb.r; + cmyk.m = gfxColorComp1 - rgb.g; + cmyk.y = gfxColorComp1 - rgb.b; + cmyk.k = 0; + splash->setFillPattern(getColor(gray, &rgb, &cmyk)); +#else + splash->setFillPattern(getColor(gray, &rgb)); +#endif +} + +SplashFont *SplashOutputDev::getFont(GString *name, double *textMatA) { + DisplayFontParam *dfp; + Ref ref; + SplashOutFontFileID *id; + SplashFontFile *fontFile; + SplashFont *fontObj; + FoFiTrueType *ff; + Gushort *codeToGID; + Unicode u; + SplashCoord textMat[4]; + int cmap, i; + + for (i = 0; i < 16; ++i) { + if (!name->cmp(splashOutSubstFonts[i].name)) { + break; + } + } + if (i == 16) { + return NULL; + } + ref.num = i; + ref.gen = -1; + id = new SplashOutFontFileID(&ref); + + // check the font file cache + if ((fontFile = fontEngine->getFontFile(id))) { + delete id; + + // load the font file + } else { + dfp = globalParams->getDisplayFont(name); + if (dfp && dfp->kind == displayFontT1) { + SplashFontSrc *fontsrc = new SplashFontSrc; + fontsrc->setFile(dfp->t1.fileName, gFalse); + fontFile = fontEngine->loadType1Font(id, fontsrc, winAnsiEncoding); + } else if (dfp && dfp->kind == displayFontTT) { + if (!(ff = FoFiTrueType::load(dfp->tt.fileName->getCString()))) { + return NULL; + } + for (cmap = 0; cmap < ff->getNumCmaps(); ++cmap) { + if ((ff->getCmapPlatform(cmap) == 3 && + ff->getCmapEncoding(cmap) == 1) || + ff->getCmapPlatform(cmap) == 0) { + break; + } + } + if (cmap == ff->getNumCmaps()) { + delete ff; + return NULL; + } + codeToGID = (Gushort *)gmallocn(256, sizeof(Gushort)); + for (i = 0; i < 256; ++i) { + codeToGID[i] = 0; + if (winAnsiEncoding[i] && + (u = globalParams->mapNameToUnicode(winAnsiEncoding[i]))) { + codeToGID[i] = ff->mapCodeToGID(cmap, u); + } + } + delete ff; + SplashFontSrc *fontsrc = new SplashFontSrc; + fontsrc->setFile(dfp->tt.fileName->getCString(), gFalse); + fontFile = fontEngine->loadTrueTypeFont(id, fontsrc, codeToGID, 256); + } else { + return NULL; + } + } + + // create the scaled font + textMat[0] = (SplashCoord)textMatA[0]; + textMat[1] = (SplashCoord)textMatA[1]; + textMat[2] = (SplashCoord)textMatA[2]; + textMat[3] = (SplashCoord)textMatA[3]; + fontObj = fontEngine->getFont(fontFile, textMat, splash->getMatrix()); + + return fontObj; +} + +#if 1 //~tmp: turn off anti-aliasing temporarily +GBool SplashOutputDev::getVectorAntialias() { + return splash->getVectorAntialias(); +} + +void SplashOutputDev::setVectorAntialias(GBool vaa) { + splash->setVectorAntialias(vaa); +} +#endif diff --git a/kpdf/xpdf/xpdf/SplashOutputDev.h b/kpdf/xpdf/xpdf/SplashOutputDev.h new file mode 100644 index 00000000..96f270ab --- /dev/null +++ b/kpdf/xpdf/xpdf/SplashOutputDev.h @@ -0,0 +1,247 @@ +//======================================================================== +// +// SplashOutputDev.h +// +// Copyright 2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef SPLASHOUTPUTDEV_H +#define SPLASHOUTPUTDEV_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" +#include "SplashTypes.h" +#include "config.h" +#include "OutputDev.h" +#include "GfxState.h" + +class Gfx8BitFont; +class SplashBitmap; +class Splash; +class SplashPath; +class SplashPattern; +class SplashFontEngine; +class SplashFont; +class T3FontCache; +struct T3FontCacheTag; +struct T3GlyphStack; +struct SplashTransparencyGroup; + +//------------------------------------------------------------------------ + +// number of Type 3 fonts to cache +#define splashOutT3FontCacheSize 8 + +//------------------------------------------------------------------------ +// SplashOutputDev +//------------------------------------------------------------------------ + +class SplashOutputDev: public OutputDev { +public: + + // Constructor. + SplashOutputDev(SplashColorMode colorModeA, int bitmapRowPadA, + GBool reverseVideoA, SplashColorPtr paperColorA, + GBool bitmapTopDownA = gTrue, + GBool allowAntialiasA = gTrue); + + // Destructor. + virtual ~SplashOutputDev(); + + //----- get info about output device + + // Does this device use upside-down coordinates? + // (Upside-down means (0,0) is the top left corner of the page.) + virtual GBool upsideDown() { return gTrue; } + + // Does this device use drawChar() or drawString()? + virtual GBool useDrawChar() { return gTrue; } + + // Does this device use beginType3Char/endType3Char? Otherwise, + // text in Type 3 fonts will be drawn with drawChar/drawString. + virtual GBool interpretType3Chars() { return gTrue; } + + //----- initialization and control + + // Start a page. + virtual void startPage(int pageNum, GfxState *state); + + // End a page. + virtual void endPage(); + + //----- save/restore graphics state + virtual void saveState(GfxState *state); + virtual void restoreState(GfxState *state); + + //----- update graphics state + virtual void updateAll(GfxState *state); + virtual void updateCTM(GfxState *state, double m11, double m12, + double m21, double m22, double m31, double m32); + virtual void updateLineDash(GfxState *state); + virtual void updateFlatness(GfxState *state); + virtual void updateLineJoin(GfxState *state); + virtual void updateLineCap(GfxState *state); + virtual void updateMiterLimit(GfxState *state); + virtual void updateLineWidth(GfxState *state); + virtual void updateStrokeAdjust(GfxState *state); + virtual void updateFillColor(GfxState *state); + virtual void updateStrokeColor(GfxState *state); + virtual void updateBlendMode(GfxState *state); + virtual void updateFillOpacity(GfxState *state); + virtual void updateStrokeOpacity(GfxState *state); + + //----- update text state + virtual void updateFont(GfxState *state); + + //----- path painting + virtual void stroke(GfxState *state); + virtual void fill(GfxState *state); + virtual void eoFill(GfxState *state); + + //----- path clipping + virtual void clip(GfxState *state); + virtual void eoClip(GfxState *state); + virtual void clipToStrokePath(GfxState *state); + + //----- text drawing + virtual void drawChar(GfxState *state, double x, double y, + double dx, double dy, + double originX, double originY, + CharCode code, int nBytes, Unicode *u, int uLen); + virtual GBool beginType3Char(GfxState *state, double x, double y, + double dx, double dy, + CharCode code, Unicode *u, int uLen); + virtual void endType3Char(GfxState *state); + virtual void endTextObject(GfxState *state); + + //----- image drawing + virtual void drawImageMask(GfxState *state, Object *ref, Stream *str, + int width, int height, GBool invert, + GBool inlineImg); + virtual void drawImage(GfxState *state, Object *ref, Stream *str, + int width, int height, GfxImageColorMap *colorMap, + int *maskColors, GBool inlineImg); + virtual void drawMaskedImage(GfxState *state, Object *ref, Stream *str, + int width, int height, + GfxImageColorMap *colorMap, + Stream *maskStr, int maskWidth, int maskHeight, + GBool maskInvert); + virtual void drawSoftMaskedImage(GfxState *state, Object *ref, Stream *str, + int width, int height, + GfxImageColorMap *colorMap, + Stream *maskStr, + int maskWidth, int maskHeight, + GfxImageColorMap *maskColorMap); + + //----- Type 3 font operators + virtual void type3D0(GfxState *state, double wx, double wy); + virtual void type3D1(GfxState *state, double wx, double wy, + double llx, double lly, double urx, double ury); + + //----- transparency groups and soft masks + virtual void beginTransparencyGroup(GfxState *state, double *bbox, + GfxColorSpace *blendingColorSpace, + GBool isolated, GBool knockout, + GBool forSoftMask); + virtual void endTransparencyGroup(GfxState *state); + virtual void paintTransparencyGroup(GfxState *state, double *bbox); + virtual void setSoftMask(GfxState *state, double *bbox, GBool alpha, + Function *transferFunc, GfxColor *backdropColor); + virtual void clearSoftMask(GfxState *state); + + //----- special access + + // Called to indicate that a new PDF document has been loaded. + void startDoc(XRef *xrefA); + + void setPaperColor(SplashColorPtr paperColorA); + + GBool isReverseVideo() { return reverseVideo; } + void setReverseVideo(GBool reverseVideoA) { reverseVideo = reverseVideoA; } + + // Get the bitmap and its size. + SplashBitmap *getBitmap() { return bitmap; } + int getBitmapWidth(); + int getBitmapHeight(); + + // Returns the last rasterized bitmap, transferring ownership to the + // caller. + SplashBitmap *takeBitmap(); + + // Get the Splash object. + Splash *getSplash() { return splash; } + + // Get the modified region. + void getModRegion(int *xMin, int *yMin, int *xMax, int *yMax); + + // Clear the modified region. + void clearModRegion(); + + // Set the Splash fill color. + void setFillColor(int r, int g, int b); + + // Get a font object for a Base-14 font, using the Latin-1 encoding. + SplashFont *getFont(GString *name, double *textMatA); + + SplashFont *getCurrentFont() { return font; } + +#if 1 //~tmp: turn off anti-aliasing temporarily + virtual GBool getVectorAntialias(); + virtual void setVectorAntialias(GBool vaa); +#endif + +private: + + void setupScreenParams(double hDPI, double vDPI); +#if SPLASH_CMYK + SplashPattern *getColor(GfxGray gray, GfxRGB *rgb, GfxCMYK *cmyk); +#else + SplashPattern *getColor(GfxGray gray, GfxRGB *rgb); +#endif + SplashPath *convertPath(GfxState *state, GfxPath *path); + void doUpdateFont(GfxState *state); + void drawType3Glyph(T3FontCache *t3Font, + T3FontCacheTag *tag, Guchar *data); + static GBool imageMaskSrc(void *data, SplashColorPtr line); + static GBool imageSrc(void *data, SplashColorPtr colorLine, + Guchar *alphaLine); + static GBool alphaImageSrc(void *data, SplashColorPtr line, + Guchar *alphaLine); + static GBool maskedImageSrc(void *data, SplashColorPtr line, + Guchar *alphaLine); + + SplashColorMode colorMode; + int bitmapRowPad; + GBool bitmapTopDown; + GBool allowAntialias; + GBool vectorAntialias; + GBool reverseVideo; // reverse video mode + SplashColor paperColor; // paper color + SplashScreenParams screenParams; + + XRef *xref; // xref table for current document + + SplashBitmap *bitmap; + Splash *splash; + SplashFontEngine *fontEngine; + + T3FontCache * // Type 3 font cache + t3FontCache[splashOutT3FontCacheSize]; + int nT3Fonts; // number of valid entries in t3FontCache + T3GlyphStack *t3GlyphStack; // Type 3 glyph context stack + + SplashFont *font; // current font + GBool needFontUpdate; // set when the font needs to be updated + SplashPath *textClipPath; // clipping path built with text object + + SplashTransparencyGroup * // transparency group stack + transpGroupStack; +}; + +#endif diff --git a/kpdf/xpdf/xpdf/Stream-CCITT.h b/kpdf/xpdf/xpdf/Stream-CCITT.h new file mode 100644 index 00000000..a9b1d1ed --- /dev/null +++ b/kpdf/xpdf/xpdf/Stream-CCITT.h @@ -0,0 +1,462 @@ +#ifndef STREAM_CCITT_H +#define STREAM_CCITT_H +//======================================================================== +// +// Stream-CCITT.h +// +// Tables for CCITT Fax decoding. +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +struct CCITTCode { + short bits; + short n; +}; + +#define ccittEOL -2 + +//------------------------------------------------------------------------ +// 2D codes +//------------------------------------------------------------------------ + +#define twoDimPass 0 +#define twoDimHoriz 1 +#define twoDimVert0 2 +#define twoDimVertR1 3 +#define twoDimVertL1 4 +#define twoDimVertR2 5 +#define twoDimVertL2 6 +#define twoDimVertR3 7 +#define twoDimVertL3 8 + +// 1-7 bit codes +static CCITTCode twoDimTab1[128] = { + {-1, -1}, {-1, -1}, // 000000x + {7, twoDimVertL3}, // 0000010 + {7, twoDimVertR3}, // 0000011 + {6, twoDimVertL2}, {6, twoDimVertL2}, // 000010x + {6, twoDimVertR2}, {6, twoDimVertR2}, // 000011x + {4, twoDimPass}, {4, twoDimPass}, // 0001xxx + {4, twoDimPass}, {4, twoDimPass}, + {4, twoDimPass}, {4, twoDimPass}, + {4, twoDimPass}, {4, twoDimPass}, + {3, twoDimHoriz}, {3, twoDimHoriz}, // 001xxxx + {3, twoDimHoriz}, {3, twoDimHoriz}, + {3, twoDimHoriz}, {3, twoDimHoriz}, + {3, twoDimHoriz}, {3, twoDimHoriz}, + {3, twoDimHoriz}, {3, twoDimHoriz}, + {3, twoDimHoriz}, {3, twoDimHoriz}, + {3, twoDimHoriz}, {3, twoDimHoriz}, + {3, twoDimHoriz}, {3, twoDimHoriz}, + {3, twoDimVertL1}, {3, twoDimVertL1}, // 010xxxx + {3, twoDimVertL1}, {3, twoDimVertL1}, + {3, twoDimVertL1}, {3, twoDimVertL1}, + {3, twoDimVertL1}, {3, twoDimVertL1}, + {3, twoDimVertL1}, {3, twoDimVertL1}, + {3, twoDimVertL1}, {3, twoDimVertL1}, + {3, twoDimVertL1}, {3, twoDimVertL1}, + {3, twoDimVertL1}, {3, twoDimVertL1}, + {3, twoDimVertR1}, {3, twoDimVertR1}, // 011xxxx + {3, twoDimVertR1}, {3, twoDimVertR1}, + {3, twoDimVertR1}, {3, twoDimVertR1}, + {3, twoDimVertR1}, {3, twoDimVertR1}, + {3, twoDimVertR1}, {3, twoDimVertR1}, + {3, twoDimVertR1}, {3, twoDimVertR1}, + {3, twoDimVertR1}, {3, twoDimVertR1}, + {3, twoDimVertR1}, {3, twoDimVertR1}, + {1, twoDimVert0}, {1, twoDimVert0}, // 1xxxxxx + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0}, + {1, twoDimVert0}, {1, twoDimVert0} +}; + +//------------------------------------------------------------------------ +// white run lengths +//------------------------------------------------------------------------ + +// 11-12 bit codes (upper 7 bits are 0) +static CCITTCode whiteTab1[32] = { + {-1, -1}, // 00000 + {12, ccittEOL}, // 00001 + {-1, -1}, {-1, -1}, // 0001x + {-1, -1}, {-1, -1}, {-1, -1}, {-1, -1}, // 001xx + {-1, -1}, {-1, -1}, {-1, -1}, {-1, -1}, // 010xx + {-1, -1}, {-1, -1}, {-1, -1}, {-1, -1}, // 011xx + {11, 1792}, {11, 1792}, // 1000x + {12, 1984}, // 10010 + {12, 2048}, // 10011 + {12, 2112}, // 10100 + {12, 2176}, // 10101 + {12, 2240}, // 10110 + {12, 2304}, // 10111 + {11, 1856}, {11, 1856}, // 1100x + {11, 1920}, {11, 1920}, // 1101x + {12, 2368}, // 11100 + {12, 2432}, // 11101 + {12, 2496}, // 11110 + {12, 2560} // 11111 +}; + +// 1-9 bit codes +static CCITTCode whiteTab2[512] = { + {-1, -1}, {-1, -1}, {-1, -1}, {-1, -1}, // 0000000xx + {8, 29}, {8, 29}, // 00000010x + {8, 30}, {8, 30}, // 00000011x + {8, 45}, {8, 45}, // 00000100x + {8, 46}, {8, 46}, // 00000101x + {7, 22}, {7, 22}, {7, 22}, {7, 22}, // 0000011xx + {7, 23}, {7, 23}, {7, 23}, {7, 23}, // 0000100xx + {8, 47}, {8, 47}, // 00001010x + {8, 48}, {8, 48}, // 00001011x + {6, 13}, {6, 13}, {6, 13}, {6, 13}, // 000011xxx + {6, 13}, {6, 13}, {6, 13}, {6, 13}, + {7, 20}, {7, 20}, {7, 20}, {7, 20}, // 0001000xx + {8, 33}, {8, 33}, // 00010010x + {8, 34}, {8, 34}, // 00010011x + {8, 35}, {8, 35}, // 00010100x + {8, 36}, {8, 36}, // 00010101x + {8, 37}, {8, 37}, // 00010110x + {8, 38}, {8, 38}, // 00010111x + {7, 19}, {7, 19}, {7, 19}, {7, 19}, // 0001100xx + {8, 31}, {8, 31}, // 00011010x + {8, 32}, {8, 32}, // 00011011x + {6, 1}, {6, 1}, {6, 1}, {6, 1}, // 000111xxx + {6, 1}, {6, 1}, {6, 1}, {6, 1}, + {6, 12}, {6, 12}, {6, 12}, {6, 12}, // 001000xxx + {6, 12}, {6, 12}, {6, 12}, {6, 12}, + {8, 53}, {8, 53}, // 00100100x + {8, 54}, {8, 54}, // 00100101x + {7, 26}, {7, 26}, {7, 26}, {7, 26}, // 0010011xx + {8, 39}, {8, 39}, // 00101000x + {8, 40}, {8, 40}, // 00101001x + {8, 41}, {8, 41}, // 00101010x + {8, 42}, {8, 42}, // 00101011x + {8, 43}, {8, 43}, // 00101100x + {8, 44}, {8, 44}, // 00101101x + {7, 21}, {7, 21}, {7, 21}, {7, 21}, // 0010111xx + {7, 28}, {7, 28}, {7, 28}, {7, 28}, // 0011000xx + {8, 61}, {8, 61}, // 00110010x + {8, 62}, {8, 62}, // 00110011x + {8, 63}, {8, 63}, // 00110100x + {8, 0}, {8, 0}, // 00110101x + {8, 320}, {8, 320}, // 00110110x + {8, 384}, {8, 384}, // 00110111x + {5, 10}, {5, 10}, {5, 10}, {5, 10}, // 00111xxxx + {5, 10}, {5, 10}, {5, 10}, {5, 10}, + {5, 10}, {5, 10}, {5, 10}, {5, 10}, + {5, 10}, {5, 10}, {5, 10}, {5, 10}, + {5, 11}, {5, 11}, {5, 11}, {5, 11}, // 01000xxxx + {5, 11}, {5, 11}, {5, 11}, {5, 11}, + {5, 11}, {5, 11}, {5, 11}, {5, 11}, + {5, 11}, {5, 11}, {5, 11}, {5, 11}, + {7, 27}, {7, 27}, {7, 27}, {7, 27}, // 0100100xx + {8, 59}, {8, 59}, // 01001010x + {8, 60}, {8, 60}, // 01001011x + {9, 1472}, // 010011000 + {9, 1536}, // 010011001 + {9, 1600}, // 010011010 + {9, 1728}, // 010011011 + {7, 18}, {7, 18}, {7, 18}, {7, 18}, // 0100111xx + {7, 24}, {7, 24}, {7, 24}, {7, 24}, // 0101000xx + {8, 49}, {8, 49}, // 01010010x + {8, 50}, {8, 50}, // 01010011x + {8, 51}, {8, 51}, // 01010100x + {8, 52}, {8, 52}, // 01010101x + {7, 25}, {7, 25}, {7, 25}, {7, 25}, // 0101011xx + {8, 55}, {8, 55}, // 01011000x + {8, 56}, {8, 56}, // 01011001x + {8, 57}, {8, 57}, // 01011010x + {8, 58}, {8, 58}, // 01011011x + {6, 192}, {6, 192}, {6, 192}, {6, 192}, // 010111xxx + {6, 192}, {6, 192}, {6, 192}, {6, 192}, + {6, 1664}, {6, 1664}, {6, 1664}, {6, 1664}, // 011000xxx + {6, 1664}, {6, 1664}, {6, 1664}, {6, 1664}, + {8, 448}, {8, 448}, // 01100100x + {8, 512}, {8, 512}, // 01100101x + {9, 704}, // 011001100 + {9, 768}, // 011001101 + {8, 640}, {8, 640}, // 01100111x + {8, 576}, {8, 576}, // 01101000x + {9, 832}, // 011010010 + {9, 896}, // 011010011 + {9, 960}, // 011010100 + {9, 1024}, // 011010101 + {9, 1088}, // 011010110 + {9, 1152}, // 011010111 + {9, 1216}, // 011011000 + {9, 1280}, // 011011001 + {9, 1344}, // 011011010 + {9, 1408}, // 011011011 + {7, 256}, {7, 256}, {7, 256}, {7, 256}, // 0110111xx + {4, 2}, {4, 2}, {4, 2}, {4, 2}, // 0111xxxxx + {4, 2}, {4, 2}, {4, 2}, {4, 2}, + {4, 2}, {4, 2}, {4, 2}, {4, 2}, + {4, 2}, {4, 2}, {4, 2}, {4, 2}, + {4, 2}, {4, 2}, {4, 2}, {4, 2}, + {4, 2}, {4, 2}, {4, 2}, {4, 2}, + {4, 2}, {4, 2}, {4, 2}, {4, 2}, + {4, 2}, {4, 2}, {4, 2}, {4, 2}, + {4, 3}, {4, 3}, {4, 3}, {4, 3}, // 1000xxxxx + {4, 3}, {4, 3}, {4, 3}, {4, 3}, + {4, 3}, {4, 3}, {4, 3}, {4, 3}, + {4, 3}, {4, 3}, {4, 3}, {4, 3}, + {4, 3}, {4, 3}, {4, 3}, {4, 3}, + {4, 3}, {4, 3}, {4, 3}, {4, 3}, + {4, 3}, {4, 3}, {4, 3}, {4, 3}, + {4, 3}, {4, 3}, {4, 3}, {4, 3}, + {5, 128}, {5, 128}, {5, 128}, {5, 128}, // 10010xxxx + {5, 128}, {5, 128}, {5, 128}, {5, 128}, + {5, 128}, {5, 128}, {5, 128}, {5, 128}, + {5, 128}, {5, 128}, {5, 128}, {5, 128}, + {5, 8}, {5, 8}, {5, 8}, {5, 8}, // 10011xxxx + {5, 8}, {5, 8}, {5, 8}, {5, 8}, + {5, 8}, {5, 8}, {5, 8}, {5, 8}, + {5, 8}, {5, 8}, {5, 8}, {5, 8}, + {5, 9}, {5, 9}, {5, 9}, {5, 9}, // 10100xxxx + {5, 9}, {5, 9}, {5, 9}, {5, 9}, + {5, 9}, {5, 9}, {5, 9}, {5, 9}, + {5, 9}, {5, 9}, {5, 9}, {5, 9}, + {6, 16}, {6, 16}, {6, 16}, {6, 16}, // 101010xxx + {6, 16}, {6, 16}, {6, 16}, {6, 16}, + {6, 17}, {6, 17}, {6, 17}, {6, 17}, // 101011xxx + {6, 17}, {6, 17}, {6, 17}, {6, 17}, + {4, 4}, {4, 4}, {4, 4}, {4, 4}, // 1011xxxxx + {4, 4}, {4, 4}, {4, 4}, {4, 4}, + {4, 4}, {4, 4}, {4, 4}, {4, 4}, + {4, 4}, {4, 4}, {4, 4}, {4, 4}, + {4, 4}, {4, 4}, {4, 4}, {4, 4}, + {4, 4}, {4, 4}, {4, 4}, {4, 4}, + {4, 4}, {4, 4}, {4, 4}, {4, 4}, + {4, 4}, {4, 4}, {4, 4}, {4, 4}, + {4, 5}, {4, 5}, {4, 5}, {4, 5}, // 1100xxxxx + {4, 5}, {4, 5}, {4, 5}, {4, 5}, + {4, 5}, {4, 5}, {4, 5}, {4, 5}, + {4, 5}, {4, 5}, {4, 5}, {4, 5}, + {4, 5}, {4, 5}, {4, 5}, {4, 5}, + {4, 5}, {4, 5}, {4, 5}, {4, 5}, + {4, 5}, {4, 5}, {4, 5}, {4, 5}, + {4, 5}, {4, 5}, {4, 5}, {4, 5}, + {6, 14}, {6, 14}, {6, 14}, {6, 14}, // 110100xxx + {6, 14}, {6, 14}, {6, 14}, {6, 14}, + {6, 15}, {6, 15}, {6, 15}, {6, 15}, // 110101xxx + {6, 15}, {6, 15}, {6, 15}, {6, 15}, + {5, 64}, {5, 64}, {5, 64}, {5, 64}, // 11011xxxx + {5, 64}, {5, 64}, {5, 64}, {5, 64}, + {5, 64}, {5, 64}, {5, 64}, {5, 64}, + {5, 64}, {5, 64}, {5, 64}, {5, 64}, + {4, 6}, {4, 6}, {4, 6}, {4, 6}, // 1110xxxxx + {4, 6}, {4, 6}, {4, 6}, {4, 6}, + {4, 6}, {4, 6}, {4, 6}, {4, 6}, + {4, 6}, {4, 6}, {4, 6}, {4, 6}, + {4, 6}, {4, 6}, {4, 6}, {4, 6}, + {4, 6}, {4, 6}, {4, 6}, {4, 6}, + {4, 6}, {4, 6}, {4, 6}, {4, 6}, + {4, 6}, {4, 6}, {4, 6}, {4, 6}, + {4, 7}, {4, 7}, {4, 7}, {4, 7}, // 1111xxxxx + {4, 7}, {4, 7}, {4, 7}, {4, 7}, + {4, 7}, {4, 7}, {4, 7}, {4, 7}, + {4, 7}, {4, 7}, {4, 7}, {4, 7}, + {4, 7}, {4, 7}, {4, 7}, {4, 7}, + {4, 7}, {4, 7}, {4, 7}, {4, 7}, + {4, 7}, {4, 7}, {4, 7}, {4, 7}, + {4, 7}, {4, 7}, {4, 7}, {4, 7} +}; + +//------------------------------------------------------------------------ +// black run lengths +//------------------------------------------------------------------------ + +// 10-13 bit codes (upper 6 bits are 0) +static CCITTCode blackTab1[128] = { + {-1, -1}, {-1, -1}, // 000000000000x + {12, ccittEOL}, {12, ccittEOL}, // 000000000001x + {-1, -1}, {-1, -1}, {-1, -1}, {-1, -1}, // 00000000001xx + {-1, -1}, {-1, -1}, {-1, -1}, {-1, -1}, // 00000000010xx + {-1, -1}, {-1, -1}, {-1, -1}, {-1, -1}, // 00000000011xx + {-1, -1}, {-1, -1}, {-1, -1}, {-1, -1}, // 00000000100xx + {-1, -1}, {-1, -1}, {-1, -1}, {-1, -1}, // 00000000101xx + {-1, -1}, {-1, -1}, {-1, -1}, {-1, -1}, // 00000000110xx + {-1, -1}, {-1, -1}, {-1, -1}, {-1, -1}, // 00000000111xx + {11, 1792}, {11, 1792}, {11, 1792}, {11, 1792}, // 00000001000xx + {12, 1984}, {12, 1984}, // 000000010010x + {12, 2048}, {12, 2048}, // 000000010011x + {12, 2112}, {12, 2112}, // 000000010100x + {12, 2176}, {12, 2176}, // 000000010101x + {12, 2240}, {12, 2240}, // 000000010110x + {12, 2304}, {12, 2304}, // 000000010111x + {11, 1856}, {11, 1856}, {11, 1856}, {11, 1856}, // 00000001100xx + {11, 1920}, {11, 1920}, {11, 1920}, {11, 1920}, // 00000001101xx + {12, 2368}, {12, 2368}, // 000000011100x + {12, 2432}, {12, 2432}, // 000000011101x + {12, 2496}, {12, 2496}, // 000000011110x + {12, 2560}, {12, 2560}, // 000000011111x + {10, 18}, {10, 18}, {10, 18}, {10, 18}, // 0000001000xxx + {10, 18}, {10, 18}, {10, 18}, {10, 18}, + {12, 52}, {12, 52}, // 000000100100x + {13, 640}, // 0000001001010 + {13, 704}, // 0000001001011 + {13, 768}, // 0000001001100 + {13, 832}, // 0000001001101 + {12, 55}, {12, 55}, // 000000100111x + {12, 56}, {12, 56}, // 000000101000x + {13, 1280}, // 0000001010010 + {13, 1344}, // 0000001010011 + {13, 1408}, // 0000001010100 + {13, 1472}, // 0000001010101 + {12, 59}, {12, 59}, // 000000101011x + {12, 60}, {12, 60}, // 000000101100x + {13, 1536}, // 0000001011010 + {13, 1600}, // 0000001011011 + {11, 24}, {11, 24}, {11, 24}, {11, 24}, // 00000010111xx + {11, 25}, {11, 25}, {11, 25}, {11, 25}, // 00000011000xx + {13, 1664}, // 0000001100100 + {13, 1728}, // 0000001100101 + {12, 320}, {12, 320}, // 000000110011x + {12, 384}, {12, 384}, // 000000110100x + {12, 448}, {12, 448}, // 000000110101x + {13, 512}, // 0000001101100 + {13, 576}, // 0000001101101 + {12, 53}, {12, 53}, // 000000110111x + {12, 54}, {12, 54}, // 000000111000x + {13, 896}, // 0000001110010 + {13, 960}, // 0000001110011 + {13, 1024}, // 0000001110100 + {13, 1088}, // 0000001110101 + {13, 1152}, // 0000001110110 + {13, 1216}, // 0000001110111 + {10, 64}, {10, 64}, {10, 64}, {10, 64}, // 0000001111xxx + {10, 64}, {10, 64}, {10, 64}, {10, 64} +}; + +// 7-12 bit codes (upper 4 bits are 0) +static CCITTCode blackTab2[192] = { + {8, 13}, {8, 13}, {8, 13}, {8, 13}, // 00000100xxxx + {8, 13}, {8, 13}, {8, 13}, {8, 13}, + {8, 13}, {8, 13}, {8, 13}, {8, 13}, + {8, 13}, {8, 13}, {8, 13}, {8, 13}, + {11, 23}, {11, 23}, // 00000101000x + {12, 50}, // 000001010010 + {12, 51}, // 000001010011 + {12, 44}, // 000001010100 + {12, 45}, // 000001010101 + {12, 46}, // 000001010110 + {12, 47}, // 000001010111 + {12, 57}, // 000001011000 + {12, 58}, // 000001011001 + {12, 61}, // 000001011010 + {12, 256}, // 000001011011 + {10, 16}, {10, 16}, {10, 16}, {10, 16}, // 0000010111xx + {10, 17}, {10, 17}, {10, 17}, {10, 17}, // 0000011000xx + {12, 48}, // 000001100100 + {12, 49}, // 000001100101 + {12, 62}, // 000001100110 + {12, 63}, // 000001100111 + {12, 30}, // 000001101000 + {12, 31}, // 000001101001 + {12, 32}, // 000001101010 + {12, 33}, // 000001101011 + {12, 40}, // 000001101100 + {12, 41}, // 000001101101 + {11, 22}, {11, 22}, // 00000110111x + {8, 14}, {8, 14}, {8, 14}, {8, 14}, // 00000111xxxx + {8, 14}, {8, 14}, {8, 14}, {8, 14}, + {8, 14}, {8, 14}, {8, 14}, {8, 14}, + {8, 14}, {8, 14}, {8, 14}, {8, 14}, + {7, 10}, {7, 10}, {7, 10}, {7, 10}, // 0000100xxxxx + {7, 10}, {7, 10}, {7, 10}, {7, 10}, + {7, 10}, {7, 10}, {7, 10}, {7, 10}, + {7, 10}, {7, 10}, {7, 10}, {7, 10}, + {7, 10}, {7, 10}, {7, 10}, {7, 10}, + {7, 10}, {7, 10}, {7, 10}, {7, 10}, + {7, 10}, {7, 10}, {7, 10}, {7, 10}, + {7, 10}, {7, 10}, {7, 10}, {7, 10}, + {7, 11}, {7, 11}, {7, 11}, {7, 11}, // 0000101xxxxx + {7, 11}, {7, 11}, {7, 11}, {7, 11}, + {7, 11}, {7, 11}, {7, 11}, {7, 11}, + {7, 11}, {7, 11}, {7, 11}, {7, 11}, + {7, 11}, {7, 11}, {7, 11}, {7, 11}, + {7, 11}, {7, 11}, {7, 11}, {7, 11}, + {7, 11}, {7, 11}, {7, 11}, {7, 11}, + {7, 11}, {7, 11}, {7, 11}, {7, 11}, + {9, 15}, {9, 15}, {9, 15}, {9, 15}, // 000011000xxx + {9, 15}, {9, 15}, {9, 15}, {9, 15}, + {12, 128}, // 000011001000 + {12, 192}, // 000011001001 + {12, 26}, // 000011001010 + {12, 27}, // 000011001011 + {12, 28}, // 000011001100 + {12, 29}, // 000011001101 + {11, 19}, {11, 19}, // 00001100111x + {11, 20}, {11, 20}, // 00001101000x + {12, 34}, // 000011010010 + {12, 35}, // 000011010011 + {12, 36}, // 000011010100 + {12, 37}, // 000011010101 + {12, 38}, // 000011010110 + {12, 39}, // 000011010111 + {11, 21}, {11, 21}, // 00001101100x + {12, 42}, // 000011011010 + {12, 43}, // 000011011011 + {10, 0}, {10, 0}, {10, 0}, {10, 0}, // 0000110111xx + {7, 12}, {7, 12}, {7, 12}, {7, 12}, // 0000111xxxxx + {7, 12}, {7, 12}, {7, 12}, {7, 12}, + {7, 12}, {7, 12}, {7, 12}, {7, 12}, + {7, 12}, {7, 12}, {7, 12}, {7, 12}, + {7, 12}, {7, 12}, {7, 12}, {7, 12}, + {7, 12}, {7, 12}, {7, 12}, {7, 12}, + {7, 12}, {7, 12}, {7, 12}, {7, 12}, + {7, 12}, {7, 12}, {7, 12}, {7, 12} +}; + +// 2-6 bit codes +static CCITTCode blackTab3[64] = { + {-1, -1}, {-1, -1}, {-1, -1}, {-1, -1}, // 0000xx + {6, 9}, // 000100 + {6, 8}, // 000101 + {5, 7}, {5, 7}, // 00011x + {4, 6}, {4, 6}, {4, 6}, {4, 6}, // 0010xx + {4, 5}, {4, 5}, {4, 5}, {4, 5}, // 0011xx + {3, 1}, {3, 1}, {3, 1}, {3, 1}, // 010xxx + {3, 1}, {3, 1}, {3, 1}, {3, 1}, + {3, 4}, {3, 4}, {3, 4}, {3, 4}, // 011xxx + {3, 4}, {3, 4}, {3, 4}, {3, 4}, + {2, 3}, {2, 3}, {2, 3}, {2, 3}, // 10xxxx + {2, 3}, {2, 3}, {2, 3}, {2, 3}, + {2, 3}, {2, 3}, {2, 3}, {2, 3}, + {2, 3}, {2, 3}, {2, 3}, {2, 3}, + {2, 2}, {2, 2}, {2, 2}, {2, 2}, // 11xxxx + {2, 2}, {2, 2}, {2, 2}, {2, 2}, + {2, 2}, {2, 2}, {2, 2}, {2, 2}, + {2, 2}, {2, 2}, {2, 2}, {2, 2} +}; +#endif diff --git a/kpdf/xpdf/xpdf/Stream.cc b/kpdf/xpdf/xpdf/Stream.cc new file mode 100644 index 00000000..ab630241 --- /dev/null +++ b/kpdf/xpdf/xpdf/Stream.cc @@ -0,0 +1,4697 @@ +//======================================================================== +// +// Stream.cc +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include +#include +#ifndef WIN32 +#include +#endif +#include +#include +#include "gmem.h" +#include "gfile.h" +#include "config.h" +#include "Error.h" +#include "Object.h" +#include "Lexer.h" +#include "GfxState.h" +#include "Stream.h" +#include "JBIG2Stream.h" +#include "JPXStream.h" +#include "Stream-CCITT.h" + +#ifdef __DJGPP__ +static GBool setDJSYSFLAGS = gFalse; +#endif + +#ifdef VMS +#ifdef __GNUC__ +#define SEEK_SET 0 +#define SEEK_CUR 1 +#define SEEK_END 2 +#endif +#endif + +//------------------------------------------------------------------------ +// Stream (base class) +//------------------------------------------------------------------------ + +Stream::Stream() { + ref = 1; +} + +Stream::~Stream() { +} + +void Stream::close() { +} + +int Stream::getRawChar() { + error(-1, "Internal: called getRawChar() on non-predictor stream"); + return EOF; +} + +char *Stream::getLine(char *buf, int size) { + int i; + int c; + + if (lookChar() == EOF) + return NULL; + for (i = 0; i < size - 1; ++i) { + c = getChar(); + if (c == EOF || c == '\n') + break; + if (c == '\r') { + if ((c = lookChar()) == '\n') + getChar(); + break; + } + buf[i] = c; + } + buf[i] = '\0'; + return buf; +} + +GString *Stream::getPSFilter(int /*psLevel*/, char * /*indent*/) { + return new GString(); +} + +Stream *Stream::addFilters(Object *dict) { + Object obj, obj2; + Object params, params2; + Stream *str; + int i; + + str = this; + dict->dictLookup("Filter", &obj); + if (obj.isNull()) { + obj.free(); + dict->dictLookup("F", &obj); + } + dict->dictLookup("DecodeParms", ¶ms); + if (params.isNull()) { + params.free(); + dict->dictLookup("DP", ¶ms); + } + if (obj.isName()) { + str = makeFilter(obj.getName(), str, ¶ms); + } else if (obj.isArray()) { + for (i = 0; i < obj.arrayGetLength(); ++i) { + obj.arrayGet(i, &obj2); + if (params.isArray()) + params.arrayGet(i, ¶ms2); + else + params2.initNull(); + if (obj2.isName()) { + str = makeFilter(obj2.getName(), str, ¶ms2); + } else { + error(getPos(), "Bad filter name"); + str = new EOFStream(str); + } + obj2.free(); + params2.free(); + } + } else if (!obj.isNull()) { + error(getPos(), "Bad 'Filter' attribute in stream"); + } + obj.free(); + params.free(); + + return str; +} + +Stream *Stream::makeFilter(char *name, Stream *str, Object *params) { + int pred; // parameters + int colors; + int bits; + int early; + int encoding; + GBool endOfLine, byteAlign, endOfBlock, black; + int columns, rows; + int colorXform; + Object globals, obj; + + if (!strcmp(name, "ASCIIHexDecode") || !strcmp(name, "AHx")) { + str = new ASCIIHexStream(str); + } else if (!strcmp(name, "ASCII85Decode") || !strcmp(name, "A85")) { + str = new ASCII85Stream(str); + } else if (!strcmp(name, "LZWDecode") || !strcmp(name, "LZW")) { + pred = 1; + columns = 1; + colors = 1; + bits = 8; + early = 1; + if (params->isDict()) { + params->dictLookup("Predictor", &obj); + if (obj.isInt()) + pred = obj.getInt(); + obj.free(); + params->dictLookup("Columns", &obj); + if (obj.isInt()) + columns = obj.getInt(); + obj.free(); + params->dictLookup("Colors", &obj); + if (obj.isInt()) + colors = obj.getInt(); + obj.free(); + params->dictLookup("BitsPerComponent", &obj); + if (obj.isInt()) + bits = obj.getInt(); + obj.free(); + params->dictLookup("EarlyChange", &obj); + if (obj.isInt()) + early = obj.getInt(); + obj.free(); + } + str = new LZWStream(str, pred, columns, colors, bits, early); + } else if (!strcmp(name, "RunLengthDecode") || !strcmp(name, "RL")) { + str = new RunLengthStream(str); + } else if (!strcmp(name, "CCITTFaxDecode") || !strcmp(name, "CCF")) { + encoding = 0; + endOfLine = gFalse; + byteAlign = gFalse; + columns = 1728; + rows = 0; + endOfBlock = gTrue; + black = gFalse; + if (params->isDict()) { + params->dictLookup("K", &obj); + if (obj.isInt()) { + encoding = obj.getInt(); + } + obj.free(); + params->dictLookup("EndOfLine", &obj); + if (obj.isBool()) { + endOfLine = obj.getBool(); + } + obj.free(); + params->dictLookup("EncodedByteAlign", &obj); + if (obj.isBool()) { + byteAlign = obj.getBool(); + } + obj.free(); + params->dictLookup("Columns", &obj); + if (obj.isInt()) { + columns = obj.getInt(); + } + obj.free(); + params->dictLookup("Rows", &obj); + if (obj.isInt()) { + rows = obj.getInt(); + } + obj.free(); + params->dictLookup("EndOfBlock", &obj); + if (obj.isBool()) { + endOfBlock = obj.getBool(); + } + obj.free(); + params->dictLookup("BlackIs1", &obj); + if (obj.isBool()) { + black = obj.getBool(); + } + obj.free(); + } + str = new CCITTFaxStream(str, encoding, endOfLine, byteAlign, + columns, rows, endOfBlock, black); + } else if (!strcmp(name, "DCTDecode") || !strcmp(name, "DCT")) { + colorXform = -1; + if (params->isDict()) { + if (params->dictLookup("ColorTransform", &obj)->isInt()) { + colorXform = obj.getInt(); + } + obj.free(); + } + str = new DCTStream(str, colorXform); + } else if (!strcmp(name, "FlateDecode") || !strcmp(name, "Fl")) { + pred = 1; + columns = 1; + colors = 1; + bits = 8; + if (params->isDict()) { + params->dictLookup("Predictor", &obj); + if (obj.isInt()) + pred = obj.getInt(); + obj.free(); + params->dictLookup("Columns", &obj); + if (obj.isInt()) + columns = obj.getInt(); + obj.free(); + params->dictLookup("Colors", &obj); + if (obj.isInt()) + colors = obj.getInt(); + obj.free(); + params->dictLookup("BitsPerComponent", &obj); + if (obj.isInt()) + bits = obj.getInt(); + obj.free(); + } + str = new FlateStream(str, pred, columns, colors, bits); + } else if (!strcmp(name, "JBIG2Decode")) { + if (params->isDict()) { + params->dictLookup("JBIG2Globals", &globals); + } + str = new JBIG2Stream(str, &globals); + globals.free(); + } else if (!strcmp(name, "JPXDecode")) { + str = new JPXStream(str); + } else { + error(getPos(), "Unknown filter '%s'", name); + str = new EOFStream(str); + } + return str; +} + +//------------------------------------------------------------------------ +// BaseStream +//------------------------------------------------------------------------ + +BaseStream::BaseStream(Object *dictA) { + dict = *dictA; +} + +BaseStream::~BaseStream() { + dict.free(); +} + +//------------------------------------------------------------------------ +// FilterStream +//------------------------------------------------------------------------ + +FilterStream::FilterStream(Stream *strA) { + str = strA; +} + +FilterStream::~FilterStream() { +} + +void FilterStream::close() { + str->close(); +} + +void FilterStream::setPos(Guint /*pos*/, int /*dir*/) { + error(-1, "Internal: called setPos() on FilterStream"); +} + +//------------------------------------------------------------------------ +// ImageStream +//------------------------------------------------------------------------ + +ImageStream::ImageStream(Stream *strA, int widthA, int nCompsA, int nBitsA) { + int imgLineSize; + + str = strA; + width = widthA; + nComps = nCompsA; + nBits = nBitsA; + + nVals = width * nComps; + if (nBits == 1) { + imgLineSize = (nVals + 7) & ~7; + } else { + imgLineSize = nVals; + } + imgLine = (Guchar *)gmallocn(imgLineSize, sizeof(Guchar)); + imgIdx = nVals; +} + +ImageStream::~ImageStream() { + gfree(imgLine); +} + +void ImageStream::reset() { + str->reset(); +} + +GBool ImageStream::getPixel(Guchar *pix) { + int i; + + if (imgIdx >= nVals) { + getLine(); + imgIdx = 0; + } + for (i = 0; i < nComps; ++i) { + pix[i] = imgLine[imgIdx++]; + } + return gTrue; +} + +Guchar *ImageStream::getLine() { + Gulong buf, bitMask; + int bits; + int c; + int i; + + if (nBits == 1) { + for (i = 0; i < nVals; i += 8) { + c = str->getChar(); + imgLine[i+0] = (Guchar)((c >> 7) & 1); + imgLine[i+1] = (Guchar)((c >> 6) & 1); + imgLine[i+2] = (Guchar)((c >> 5) & 1); + imgLine[i+3] = (Guchar)((c >> 4) & 1); + imgLine[i+4] = (Guchar)((c >> 3) & 1); + imgLine[i+5] = (Guchar)((c >> 2) & 1); + imgLine[i+6] = (Guchar)((c >> 1) & 1); + imgLine[i+7] = (Guchar)(c & 1); + } + } else if (nBits == 8) { + for (i = 0; i < nVals; ++i) { + imgLine[i] = str->getChar(); + } + } else { + bitMask = (1 << nBits) - 1; + buf = 0; + bits = 0; + for (i = 0; i < nVals; ++i) { + if (bits < nBits) { + buf = (buf << 8) | (str->getChar() & 0xff); + bits += 8; + } + imgLine[i] = (Guchar)((buf >> (bits - nBits)) & bitMask); + bits -= nBits; + } + } + return imgLine; +} + +void ImageStream::skipLine() { + int n, i; + + n = (nVals * nBits + 7) >> 3; + for (i = 0; i < n; ++i) { + str->getChar(); + } +} + +//------------------------------------------------------------------------ +// StreamPredictor +//------------------------------------------------------------------------ + +StreamPredictor::StreamPredictor(Stream *strA, int predictorA, + int widthA, int nCompsA, int nBitsA) { + str = strA; + predictor = predictorA; + width = widthA; + nComps = nCompsA; + nBits = nBitsA; + predLine = NULL; + ok = gFalse; + + nVals = width * nComps; + if (width <= 0 || nComps <= 0 || nBits <= 0 || + nComps > gfxColorMaxComps || nBits > 16 || + width >= INT_MAX / nComps || + nVals >= (INT_MAX - 7) / nBits) { + return; + } + pixBytes = (nComps * nBits + 7) >> 3; + rowBytes = ((nVals * nBits + 7) >> 3) + pixBytes; + if (rowBytes <= 0) { + return; + } + predLine = (Guchar *)gmalloc(rowBytes); + memset(predLine, 0, rowBytes); + predIdx = rowBytes; + + ok = gTrue; +} + +StreamPredictor::~StreamPredictor() { + gfree(predLine); +} + +int StreamPredictor::lookChar() { + if (predIdx >= rowBytes) { + if (!getNextLine()) { + return EOF; + } + } + return predLine[predIdx]; +} + +int StreamPredictor::getChar() { + if (predIdx >= rowBytes) { + if (!getNextLine()) { + return EOF; + } + } + return predLine[predIdx++]; +} + +GBool StreamPredictor::getNextLine() { + int curPred; + Guchar upLeftBuf[gfxColorMaxComps * 2 + 1]; + int left, up, upLeft, p, pa, pb, pc; + int c; + Gulong inBuf, outBuf, bitMask; + int inBits, outBits; + int i, j, k, kk; + + // get PNG optimum predictor number + if (predictor >= 10) { + if ((curPred = str->getRawChar()) == EOF) { + return gFalse; + } + curPred += 10; + } else { + curPred = predictor; + } + + // read the raw line, apply PNG (byte) predictor + memset(upLeftBuf, 0, pixBytes + 1); + for (i = pixBytes; i < rowBytes; ++i) { + for (j = pixBytes; j > 0; --j) { + upLeftBuf[j] = upLeftBuf[j-1]; + } + upLeftBuf[0] = predLine[i]; + if ((c = str->getRawChar()) == EOF) { + if (i > pixBytes) { + // this ought to return false, but some (broken) PDF files + // contain truncated image data, and Adobe apparently reads the + // last partial line + break; + } + return gFalse; + } + switch (curPred) { + case 11: // PNG sub + predLine[i] = predLine[i - pixBytes] + (Guchar)c; + break; + case 12: // PNG up + predLine[i] = predLine[i] + (Guchar)c; + break; + case 13: // PNG average + predLine[i] = ((predLine[i - pixBytes] + predLine[i]) >> 1) + + (Guchar)c; + break; + case 14: // PNG Paeth + left = predLine[i - pixBytes]; + up = predLine[i]; + upLeft = upLeftBuf[pixBytes]; + p = left + up - upLeft; + if ((pa = p - left) < 0) + pa = -pa; + if ((pb = p - up) < 0) + pb = -pb; + if ((pc = p - upLeft) < 0) + pc = -pc; + if (pa <= pb && pa <= pc) + predLine[i] = left + (Guchar)c; + else if (pb <= pc) + predLine[i] = up + (Guchar)c; + else + predLine[i] = upLeft + (Guchar)c; + break; + case 10: // PNG none + default: // no predictor or TIFF predictor + predLine[i] = (Guchar)c; + break; + } + } + + // apply TIFF (component) predictor + if (predictor == 2) { + if (nBits == 1) { + inBuf = predLine[pixBytes - 1]; + for (i = pixBytes; i < rowBytes; i += 8) { + // 1-bit add is just xor + inBuf = (inBuf << 8) | predLine[i]; + predLine[i] ^= inBuf >> nComps; + } + } else if (nBits == 8) { + for (i = pixBytes; i < rowBytes; ++i) { + predLine[i] += predLine[i - nComps]; + } + } else { + memset(upLeftBuf, 0, nComps + 1); + bitMask = (1 << nBits) - 1; + inBuf = outBuf = 0; + inBits = outBits = 0; + j = k = pixBytes; + for (i = 0; i < width; ++i) { + for (kk = 0; kk < nComps; ++kk) { + if (inBits < nBits) { + inBuf = (inBuf << 8) | (predLine[j++] & 0xff); + inBits += 8; + } + upLeftBuf[kk] = (Guchar)((upLeftBuf[kk] + + (inBuf >> (inBits - nBits))) & bitMask); + inBits -= nBits; + outBuf = (outBuf << nBits) | upLeftBuf[kk]; + outBits += nBits; + if (outBits >= 8) { + predLine[k++] = (Guchar)(outBuf >> (outBits - 8)); + outBits -= 8; + } + } + } + if (outBits > 0) { + predLine[k++] = (Guchar)((outBuf << (8 - outBits)) + + (inBuf & ((1 << (8 - outBits)) - 1))); + } + } + } + + // reset to start of line + predIdx = pixBytes; + + return gTrue; +} + +//------------------------------------------------------------------------ +// FileStream +//------------------------------------------------------------------------ + +FileStream::FileStream(FILE *fA, Guint startA, GBool limitedA, + Guint lengthA, Object *dictA): + BaseStream(dictA) { + f = fA; + start = startA; + limited = limitedA; + length = lengthA; + bufPtr = bufEnd = buf; + bufPos = start; + savePos = 0; + saved = gFalse; +} + +FileStream::~FileStream() { + close(); +} + +Stream *FileStream::makeSubStream(Guint startA, GBool limitedA, + Guint lengthA, Object *dictA) { + return new FileStream(f, startA, limitedA, lengthA, dictA); +} + +void FileStream::reset() { +#if HAVE_FSEEKO + savePos = (Guint)ftello(f); + fseeko(f, start, SEEK_SET); +#elif HAVE_FSEEK64 + savePos = (Guint)ftell64(f); + fseek64(f, start, SEEK_SET); +#else + savePos = (Guint)ftell(f); + fseek(f, start, SEEK_SET); +#endif + saved = gTrue; + bufPtr = bufEnd = buf; + bufPos = start; +} + +void FileStream::close() { + if (saved) { +#if HAVE_FSEEKO + fseeko(f, savePos, SEEK_SET); +#elif HAVE_FSEEK64 + fseek64(f, savePos, SEEK_SET); +#else + fseek(f, savePos, SEEK_SET); +#endif + saved = gFalse; + } +} + +GBool FileStream::fillBuf() { + int n; + + bufPos += bufEnd - buf; + bufPtr = bufEnd = buf; + if (limited && bufPos >= start + length) { + return gFalse; + } + if (limited && bufPos + fileStreamBufSize > start + length) { + n = start + length - bufPos; + } else { + n = fileStreamBufSize; + } + n = fread(buf, 1, n, f); + bufEnd = buf + n; + if (bufPtr >= bufEnd) { + return gFalse; + } + return gTrue; +} + +void FileStream::setPos(Guint pos, int dir) { + Guint size; + + if (dir >= 0) { +#if HAVE_FSEEKO + fseeko(f, pos, SEEK_SET); +#elif HAVE_FSEEK64 + fseek64(f, pos, SEEK_SET); +#else + fseek(f, pos, SEEK_SET); +#endif + bufPos = pos; + } else { +#if HAVE_FSEEKO + fseeko(f, 0, SEEK_END); + size = (Guint)ftello(f); +#elif HAVE_FSEEK64 + fseek64(f, 0, SEEK_END); + size = (Guint)ftell64(f); +#else + fseek(f, 0, SEEK_END); + size = (Guint)ftell(f); +#endif + if (pos > size) + pos = (Guint)size; +#ifdef __CYGWIN32__ + //~ work around a bug in cygwin's implementation of fseek + rewind(f); +#endif +#if HAVE_FSEEKO + fseeko(f, -(int)pos, SEEK_END); + bufPos = (Guint)ftello(f); +#elif HAVE_FSEEK64 + fseek64(f, -(int)pos, SEEK_END); + bufPos = (Guint)ftell64(f); +#else + fseek(f, -(int)pos, SEEK_END); + bufPos = (Guint)ftell(f); +#endif + } + bufPtr = bufEnd = buf; +} + +void FileStream::moveStart(int delta) { + start += delta; + bufPtr = bufEnd = buf; + bufPos = start; +} + +//------------------------------------------------------------------------ +// MemStream +//------------------------------------------------------------------------ + +MemStream::MemStream(char *bufA, Guint startA, Guint lengthA, Object *dictA): + BaseStream(dictA) { + buf = bufA; + start = startA; + length = lengthA; + bufEnd = buf + start + length; + bufPtr = buf + start; + needFree = gFalse; +} + +MemStream::~MemStream() { + if (needFree) { + gfree(buf); + } +} + +Stream *MemStream::makeSubStream(Guint startA, GBool limited, + Guint lengthA, Object *dictA) { + MemStream *subStr; + Guint newLength; + + if (!limited || startA + lengthA > start + length) { + newLength = start + length - startA; + } else { + newLength = lengthA; + } + subStr = new MemStream(buf, startA, newLength, dictA); + return subStr; +} + +void MemStream::reset() { + bufPtr = buf + start; +} + +void MemStream::close() { +} + +void MemStream::setPos(Guint pos, int dir) { + Guint i; + + if (dir >= 0) { + i = pos; + } else { + i = start + length - pos; + } + if (i < start) { + i = start; + } else if (i > start + length) { + i = start + length; + } + bufPtr = buf + i; +} + +void MemStream::moveStart(int delta) { + start += delta; + length -= delta; + bufPtr = buf + start; +} + +//------------------------------------------------------------------------ +// EmbedStream +//------------------------------------------------------------------------ + +EmbedStream::EmbedStream(Stream *strA, Object *dictA, + GBool limitedA, Guint lengthA): + BaseStream(dictA) { + str = strA; + limited = limitedA; + length = lengthA; +} + +EmbedStream::~EmbedStream() { +} + +Stream *EmbedStream::makeSubStream(Guint /*start*/, GBool /*limitedA*/, + Guint /*lengthA*/, Object * /*dictA*/) { + error(-1, "Internal: called makeSubStream() on EmbedStream"); + return NULL; +} + +int EmbedStream::getChar() { + if (limited && !length) { + return EOF; + } + --length; + return str->getChar(); +} + +int EmbedStream::lookChar() { + if (limited && !length) { + return EOF; + } + return str->lookChar(); +} + +void EmbedStream::setPos(Guint /*pos*/, int /*dir*/) { + error(-1, "Internal: called setPos() on EmbedStream"); +} + +Guint EmbedStream::getStart() { + error(-1, "Internal: called getStart() on EmbedStream"); + return 0; +} + +void EmbedStream::moveStart(int /*delta*/) { + error(-1, "Internal: called moveStart() on EmbedStream"); +} + +//------------------------------------------------------------------------ +// ASCIIHexStream +//------------------------------------------------------------------------ + +ASCIIHexStream::ASCIIHexStream(Stream *strA): + FilterStream(strA) { + buf = EOF; + eof = gFalse; +} + +ASCIIHexStream::~ASCIIHexStream() { + delete str; +} + +void ASCIIHexStream::reset() { + str->reset(); + buf = EOF; + eof = gFalse; +} + +int ASCIIHexStream::lookChar() { + int c1, c2, x; + + if (buf != EOF) + return buf; + if (eof) { + buf = EOF; + return EOF; + } + do { + c1 = str->getChar(); + } while (isspace(c1)); + if (c1 == '>') { + eof = gTrue; + buf = EOF; + return buf; + } + do { + c2 = str->getChar(); + } while (isspace(c2)); + if (c2 == '>') { + eof = gTrue; + c2 = '0'; + } + if (c1 >= '0' && c1 <= '9') { + x = (c1 - '0') << 4; + } else if (c1 >= 'A' && c1 <= 'F') { + x = (c1 - 'A' + 10) << 4; + } else if (c1 >= 'a' && c1 <= 'f') { + x = (c1 - 'a' + 10) << 4; + } else if (c1 == EOF) { + eof = gTrue; + x = 0; + } else { + error(getPos(), "Illegal character <%02x> in ASCIIHex stream", c1); + x = 0; + } + if (c2 >= '0' && c2 <= '9') { + x += c2 - '0'; + } else if (c2 >= 'A' && c2 <= 'F') { + x += c2 - 'A' + 10; + } else if (c2 >= 'a' && c2 <= 'f') { + x += c2 - 'a' + 10; + } else if (c2 == EOF) { + eof = gTrue; + x = 0; + } else { + error(getPos(), "Illegal character <%02x> in ASCIIHex stream", c2); + } + buf = x & 0xff; + return buf; +} + +GString *ASCIIHexStream::getPSFilter(int psLevel, char *indent) { + GString *s; + + if (psLevel < 2) { + return NULL; + } + if (!(s = str->getPSFilter(psLevel, indent))) { + return NULL; + } + s->append(indent)->append("/ASCIIHexDecode filter\n"); + return s; +} + +GBool ASCIIHexStream::isBinary(GBool /*last*/) { + return str->isBinary(gFalse); +} + +//------------------------------------------------------------------------ +// ASCII85Stream +//------------------------------------------------------------------------ + +ASCII85Stream::ASCII85Stream(Stream *strA): + FilterStream(strA) { + index = n = 0; + eof = gFalse; +} + +ASCII85Stream::~ASCII85Stream() { + delete str; +} + +void ASCII85Stream::reset() { + str->reset(); + index = n = 0; + eof = gFalse; +} + +int ASCII85Stream::lookChar() { + int k; + Gulong t; + + if (index >= n) { + if (eof) + return EOF; + index = 0; + do { + c[0] = str->getChar(); + } while (Lexer::isSpace(c[0])); + if (c[0] == '~' || c[0] == EOF) { + eof = gTrue; + n = 0; + return EOF; + } else if (c[0] == 'z') { + b[0] = b[1] = b[2] = b[3] = 0; + n = 4; + } else { + for (k = 1; k < 5; ++k) { + do { + c[k] = str->getChar(); + } while (Lexer::isSpace(c[k])); + if (c[k] == '~' || c[k] == EOF) + break; + } + n = k - 1; + if (k < 5 && (c[k] == '~' || c[k] == EOF)) { + for (++k; k < 5; ++k) + c[k] = 0x21 + 84; + eof = gTrue; + } + t = 0; + for (k = 0; k < 5; ++k) + t = t * 85 + (c[k] - 0x21); + for (k = 3; k >= 0; --k) { + b[k] = (int)(t & 0xff); + t >>= 8; + } + } + } + return b[index]; +} + +GString *ASCII85Stream::getPSFilter(int psLevel, char *indent) { + GString *s; + + if (psLevel < 2) { + return NULL; + } + if (!(s = str->getPSFilter(psLevel, indent))) { + return NULL; + } + s->append(indent)->append("/ASCII85Decode filter\n"); + return s; +} + +GBool ASCII85Stream::isBinary(GBool /*last*/) { + return str->isBinary(gFalse); +} + +//------------------------------------------------------------------------ +// LZWStream +//------------------------------------------------------------------------ + +LZWStream::LZWStream(Stream *strA, int predictor, int columns, int colors, + int bits, int earlyA): + FilterStream(strA) { + if (predictor != 1) { + pred = new StreamPredictor(this, predictor, columns, colors, bits); + if (!pred->isOk()) { + delete pred; + pred = NULL; + } + } else { + pred = NULL; + } + early = earlyA; + eof = gFalse; + inputBits = 0; + clearTable(); +} + +LZWStream::~LZWStream() { + if (pred) { + delete pred; + } + delete str; +} + +int LZWStream::getChar() { + if (pred) { + return pred->getChar(); + } + if (eof) { + return EOF; + } + if (seqIndex >= seqLength) { + if (!processNextCode()) { + return EOF; + } + } + return seqBuf[seqIndex++]; +} + +int LZWStream::lookChar() { + if (pred) { + return pred->lookChar(); + } + if (eof) { + return EOF; + } + if (seqIndex >= seqLength) { + if (!processNextCode()) { + return EOF; + } + } + return seqBuf[seqIndex]; +} + +int LZWStream::getRawChar() { + if (eof) { + return EOF; + } + if (seqIndex >= seqLength) { + if (!processNextCode()) { + return EOF; + } + } + return seqBuf[seqIndex++]; +} + +void LZWStream::reset() { + str->reset(); + eof = gFalse; + inputBits = 0; + clearTable(); +} + +GBool LZWStream::processNextCode() { + int code; + int nextLength; + int i, j; + + // check for EOF + if (eof) { + return gFalse; + } + + // check for eod and clear-table codes + start: + code = getCode(); + if (code == EOF || code == 257) { + eof = gTrue; + return gFalse; + } + if (code == 256) { + clearTable(); + goto start; + } + if (nextCode >= 4097) { + error(getPos(), "Bad LZW stream - expected clear-table code"); + clearTable(); + } + + // process the next code + nextLength = seqLength + 1; + if (code < 256) { + seqBuf[0] = code; + seqLength = 1; + } else if (code < nextCode) { + seqLength = table[code].length; + for (i = seqLength - 1, j = code; i > 0; --i) { + seqBuf[i] = table[j].tail; + j = table[j].head; + } + seqBuf[0] = j; + } else if (code == nextCode) { + seqBuf[seqLength] = newChar; + ++seqLength; + } else { + error(getPos(), "Bad LZW stream - unexpected code"); + eof = gTrue; + return gFalse; + } + newChar = seqBuf[0]; + if (first) { + first = gFalse; + } else { + table[nextCode].length = nextLength; + table[nextCode].head = prevCode; + table[nextCode].tail = newChar; + ++nextCode; + if (nextCode + early == 512) + nextBits = 10; + else if (nextCode + early == 1024) + nextBits = 11; + else if (nextCode + early == 2048) + nextBits = 12; + } + prevCode = code; + + // reset buffer + seqIndex = 0; + + return gTrue; +} + +void LZWStream::clearTable() { + nextCode = 258; + nextBits = 9; + seqIndex = seqLength = 0; + first = gTrue; +} + +int LZWStream::getCode() { + int c; + int code; + + while (inputBits < nextBits) { + if ((c = str->getChar()) == EOF) + return EOF; + inputBuf = (inputBuf << 8) | (c & 0xff); + inputBits += 8; + } + code = (inputBuf >> (inputBits - nextBits)) & ((1 << nextBits) - 1); + inputBits -= nextBits; + return code; +} + +GString *LZWStream::getPSFilter(int psLevel, char *indent) { + GString *s; + + if (psLevel < 2 || pred) { + return NULL; + } + if (!(s = str->getPSFilter(psLevel, indent))) { + return NULL; + } + s->append(indent)->append("<< "); + if (!early) { + s->append("/EarlyChange 0 "); + } + s->append(">> /LZWDecode filter\n"); + return s; +} + +GBool LZWStream::isBinary(GBool /*last*/) { + return str->isBinary(gTrue); +} + +//------------------------------------------------------------------------ +// RunLengthStream +//------------------------------------------------------------------------ + +RunLengthStream::RunLengthStream(Stream *strA): + FilterStream(strA) { + bufPtr = bufEnd = buf; + eof = gFalse; +} + +RunLengthStream::~RunLengthStream() { + delete str; +} + +void RunLengthStream::reset() { + str->reset(); + bufPtr = bufEnd = buf; + eof = gFalse; +} + +GString *RunLengthStream::getPSFilter(int psLevel, char *indent) { + GString *s; + + if (psLevel < 2) { + return NULL; + } + if (!(s = str->getPSFilter(psLevel, indent))) { + return NULL; + } + s->append(indent)->append("/RunLengthDecode filter\n"); + return s; +} + +GBool RunLengthStream::isBinary(GBool /*last*/) { + return str->isBinary(gTrue); +} + +GBool RunLengthStream::fillBuf() { + int c; + int n, i; + + if (eof) + return gFalse; + c = str->getChar(); + if (c == 0x80 || c == EOF) { + eof = gTrue; + return gFalse; + } + if (c < 0x80) { + n = c + 1; + for (i = 0; i < n; ++i) + buf[i] = (char)str->getChar(); + } else { + n = 0x101 - c; + c = str->getChar(); + for (i = 0; i < n; ++i) + buf[i] = (char)c; + } + bufPtr = buf; + bufEnd = buf + n; + return gTrue; +} + +//------------------------------------------------------------------------ +// CCITTFaxStream +//------------------------------------------------------------------------ + +CCITTFaxStream::CCITTFaxStream(Stream *strA, int encodingA, GBool endOfLineA, + GBool byteAlignA, int columnsA, int rowsA, + GBool endOfBlockA, GBool blackA): + FilterStream(strA) { + encoding = encodingA; + endOfLine = endOfLineA; + byteAlign = byteAlignA; + columns = columnsA; + if (columns < 1) { + columns = 1; + } else if (columns > INT_MAX - 2) { + columns = INT_MAX - 2; + } + rows = rowsA; + endOfBlock = endOfBlockA; + black = blackA; + // 0 <= codingLine[0] < codingLine[1] < ... < codingLine[n] = columns + // ---> max codingLine size = columns + 1 + // refLine has one extra guard entry at the end + // ---> max refLine size = columns + 2 + codingLine = (int *)gmallocn_checkoverflow(columns + 1, sizeof(int)); + refLine = (int *)gmallocn_checkoverflow(columns + 2, sizeof(int)); + + if (codingLine != NULL && refLine != NULL) { + eof = gFalse; + codingLine[0] = columns; + } else { + eof = gTrue; + } + row = 0; + nextLine2D = encoding < 0; + inputBits = 0; + a0i = 0; + outputBits = 0; + + buf = EOF; +} + +CCITTFaxStream::~CCITTFaxStream() { + delete str; + gfree(refLine); + gfree(codingLine); +} + +void CCITTFaxStream::reset() { + short code1; + + str->reset(); + + if (codingLine != NULL && refLine != NULL) { + eof = gFalse; + codingLine[0] = columns; + } else { + eof = gTrue; + } + row = 0; + nextLine2D = encoding < 0; + inputBits = 0; + a0i = 0; + outputBits = 0; + buf = EOF; + + // skip any initial zero bits and end-of-line marker, and get the 2D + // encoding tag + while ((code1 = lookBits(12)) == 0) { + eatBits(1); + } + if (code1 == 0x001) { + eatBits(12); + } + if (encoding > 0) { + nextLine2D = !lookBits(1); + eatBits(1); + } +} + +inline void CCITTFaxStream::addPixels(int a1, int blackPixels) { + if (a1 > codingLine[a0i]) { + if (a1 > columns) { + error(getPos(), "CCITTFax row is wrong length (%d)", a1); + err = gTrue; + a1 = columns; + } + if ((a0i & 1) ^ blackPixels) { + ++a0i; + } + codingLine[a0i] = a1; + } +} + +inline void CCITTFaxStream::addPixelsNeg(int a1, int blackPixels) { + if (a1 > codingLine[a0i]) { + if (a1 > columns) { + error(getPos(), "CCITTFax row is wrong length (%d)", a1); + err = gTrue; + a1 = columns; + } + if ((a0i & 1) ^ blackPixels) { + ++a0i; + } + codingLine[a0i] = a1; + } else if (a1 < codingLine[a0i]) { + if (a1 < 0) { + error(getPos(), "Invalid CCITTFax code"); + err = gTrue; + a1 = 0; + } + while (a0i > 0 && a1 <= codingLine[a0i - 1]) { + --a0i; + } + codingLine[a0i] = a1; + } +} + +int CCITTFaxStream::lookChar() { + short code1, code2, code3; + int b1i, blackPixels, i, bits; + GBool gotEOL; + + if (buf != EOF) { + return buf; + } + + // read the next row + if (outputBits == 0) { + + // if at eof just return EOF + if (eof) { + return EOF; + } + + err = gFalse; + + // 2-D encoding + if (nextLine2D) { + for (i = 0; codingLine[i] < columns; ++i) { + refLine[i] = codingLine[i]; + } + refLine[i++] = columns; + refLine[i] = columns; + codingLine[0] = 0; + a0i = 0; + b1i = 0; + blackPixels = 0; + // invariant: + // refLine[b1i-1] <= codingLine[a0i] < refLine[b1i] < refLine[b1i+1] + // <= columns + // exception at left edge: + // codingLine[a0i = 0] = refLine[b1i = 0] = 0 is possible + // exception at right edge: + // refLine[b1i] = refLine[b1i+1] = columns is possible + while (codingLine[a0i] < columns) { + code1 = getTwoDimCode(); + switch (code1) { + case twoDimPass: + addPixels(refLine[b1i + 1], blackPixels); + if (refLine[b1i + 1] < columns) { + b1i += 2; + } + break; + case twoDimHoriz: + code1 = code2 = 0; + if (blackPixels) { + do { + code1 += code3 = getBlackCode(); + } while (code3 >= 64); + do { + code2 += code3 = getWhiteCode(); + } while (code3 >= 64); + } else { + do { + code1 += code3 = getWhiteCode(); + } while (code3 >= 64); + do { + code2 += code3 = getBlackCode(); + } while (code3 >= 64); + } + addPixels(codingLine[a0i] + code1, blackPixels); + if (codingLine[a0i] < columns) { + addPixels(codingLine[a0i] + code2, blackPixels ^ 1); + } + while (refLine[b1i] <= codingLine[a0i] && refLine[b1i] < columns) { + b1i += 2; + } + break; + case twoDimVertR3: + addPixels(refLine[b1i] + 3, blackPixels); + blackPixels ^= 1; + if (codingLine[a0i] < columns) { + ++b1i; + while (refLine[b1i] <= codingLine[a0i] && refLine[b1i] < columns) { + b1i += 2; + } + } + break; + case twoDimVertR2: + addPixels(refLine[b1i] + 2, blackPixels); + blackPixels ^= 1; + if (codingLine[a0i] < columns) { + ++b1i; + while (refLine[b1i] <= codingLine[a0i] && refLine[b1i] < columns) { + b1i += 2; + } + } + break; + case twoDimVertR1: + addPixels(refLine[b1i] + 1, blackPixels); + blackPixels ^= 1; + if (codingLine[a0i] < columns) { + ++b1i; + while (refLine[b1i] <= codingLine[a0i] && refLine[b1i] < columns) { + b1i += 2; + } + } + break; + case twoDimVert0: + addPixels(refLine[b1i], blackPixels); + blackPixels ^= 1; + if (codingLine[a0i] < columns) { + ++b1i; + while (refLine[b1i] <= codingLine[a0i] && refLine[b1i] < columns) { + b1i += 2; + } + } + break; + case twoDimVertL3: + addPixelsNeg(refLine[b1i] - 3, blackPixels); + blackPixels ^= 1; + if (codingLine[a0i] < columns) { + if (b1i > 0) { + --b1i; + } else { + ++b1i; + } + while (refLine[b1i] <= codingLine[a0i] && refLine[b1i] < columns) { + b1i += 2; + } + } + break; + case twoDimVertL2: + addPixelsNeg(refLine[b1i] - 2, blackPixels); + blackPixels ^= 1; + if (codingLine[a0i] < columns) { + if (b1i > 0) { + --b1i; + } else { + ++b1i; + } + while (refLine[b1i] <= codingLine[a0i] && refLine[b1i] < columns) { + b1i += 2; + } + } + break; + case twoDimVertL1: + addPixelsNeg(refLine[b1i] - 1, blackPixels); + blackPixels ^= 1; + if (codingLine[a0i] < columns) { + if (b1i > 0) { + --b1i; + } else { + ++b1i; + } + while (refLine[b1i] <= codingLine[a0i] && refLine[b1i] < columns) { + b1i += 2; + } + } + break; + case EOF: + addPixels(columns, 0); + eof = gTrue; + break; + default: + error(getPos(), "Bad 2D code %04x in CCITTFax stream", code1); + addPixels(columns, 0); + err = gTrue; + break; + } + } + + // 1-D encoding + } else { + codingLine[0] = 0; + a0i = 0; + blackPixels = 0; + while (codingLine[a0i] < columns) { + code1 = 0; + if (blackPixels) { + do { + code1 += code3 = getBlackCode(); + } while (code3 >= 64); + } else { + do { + code1 += code3 = getWhiteCode(); + } while (code3 >= 64); + } + addPixels(codingLine[a0i] + code1, blackPixels); + blackPixels ^= 1; + } + } + + // byte-align the row + if (byteAlign) { + inputBits &= ~7; + } + + // check for end-of-line marker, skipping over any extra zero bits + gotEOL = gFalse; + if (!endOfBlock && row == rows - 1) { + eof = gTrue; + } else { + code1 = lookBits(12); + while (code1 == 0) { + eatBits(1); + code1 = lookBits(12); + } + if (code1 == 0x001) { + eatBits(12); + gotEOL = gTrue; + } else if (code1 == EOF) { + eof = gTrue; + } + } + + // get 2D encoding tag + if (!eof && encoding > 0) { + nextLine2D = !lookBits(1); + eatBits(1); + } + + // check for end-of-block marker + if (endOfBlock && gotEOL) { + code1 = lookBits(12); + if (code1 == 0x001) { + eatBits(12); + if (encoding > 0) { + lookBits(1); + eatBits(1); + } + if (encoding >= 0) { + for (i = 0; i < 4; ++i) { + code1 = lookBits(12); + if (code1 != 0x001) { + error(getPos(), "Bad RTC code in CCITTFax stream"); + } + eatBits(12); + if (encoding > 0) { + lookBits(1); + eatBits(1); + } + } + } + eof = gTrue; + } + + // look for an end-of-line marker after an error -- we only do + // this if we know the stream contains end-of-line markers because + // the "just plow on" technique tends to work better otherwise + } else if (err && endOfLine) { + while (1) { + code1 = lookBits(13); + if (code1 == EOF) { + eof = gTrue; + return EOF; + } + if ((code1 >> 1) == 0x001) { + break; + } + eatBits(1); + } + eatBits(12); + if (encoding > 0) { + eatBits(1); + nextLine2D = !(code1 & 1); + } + } + + // set up for output + if (codingLine[0] > 0) { + outputBits = codingLine[a0i = 0]; + } else { + outputBits = codingLine[a0i = 1]; + } + + ++row; + } + + // get a byte + if (outputBits >= 8) { + buf = (a0i & 1) ? 0x00 : 0xff; + outputBits -= 8; + if (outputBits == 0 && codingLine[a0i] < columns) { + ++a0i; + outputBits = codingLine[a0i] - codingLine[a0i - 1]; + } + } else { + bits = 8; + buf = 0; + do { + if (outputBits > bits) { + buf <<= bits; + if (!(a0i & 1)) { + buf |= 0xff >> (8 - bits); + } + outputBits -= bits; + bits = 0; + } else { + buf <<= outputBits; + if (!(a0i & 1)) { + buf |= 0xff >> (8 - outputBits); + } + bits -= outputBits; + outputBits = 0; + if (codingLine[a0i] < columns) { + ++a0i; + outputBits = codingLine[a0i] - codingLine[a0i - 1]; + } else if (bits > 0) { + buf <<= bits; + bits = 0; + } + } + } while (bits); + } + if (black) { + buf ^= 0xff; + } + return buf; +} + +short CCITTFaxStream::getTwoDimCode() { + short code; + CCITTCode *p; + int n; + + code = 0; // make gcc happy + if (endOfBlock) { + code = lookBits(7); + p = &twoDimTab1[code]; + if (p->bits > 0) { + eatBits(p->bits); + return p->n; + } + } else { + for (n = 1; n <= 7; ++n) { + code = lookBits(n); + if (n < 7) { + code <<= 7 - n; + } + p = &twoDimTab1[code]; + if (p->bits == n) { + eatBits(n); + return p->n; + } + } + } + error(getPos(), "Bad two dim code (%04x) in CCITTFax stream", code); + return EOF; +} + +short CCITTFaxStream::getWhiteCode() { + short code; + CCITTCode *p; + int n; + + code = 0; // make gcc happy + if (endOfBlock) { + code = lookBits(12); + if (code == EOF) { + return 1; + } + if ((code >> 5) == 0) { + p = &whiteTab1[code]; + } else { + p = &whiteTab2[code >> 3]; + } + if (p->bits > 0) { + eatBits(p->bits); + return p->n; + } + } else { + for (n = 1; n <= 9; ++n) { + code = lookBits(n); + if (code == EOF) { + return 1; + } + if (n < 9) { + code <<= 9 - n; + } + p = &whiteTab2[code]; + if (p->bits == n) { + eatBits(n); + return p->n; + } + } + for (n = 11; n <= 12; ++n) { + code = lookBits(n); + if (code == EOF) { + return 1; + } + if (n < 12) { + code <<= 12 - n; + } + p = &whiteTab1[code]; + if (p->bits == n) { + eatBits(n); + return p->n; + } + } + } + error(getPos(), "Bad white code (%04x) in CCITTFax stream", code); + // eat a bit and return a positive number so that the caller doesn't + // go into an infinite loop + eatBits(1); + return 1; +} + +short CCITTFaxStream::getBlackCode() { + short code; + CCITTCode *p; + int n; + + code = 0; // make gcc happy + if (endOfBlock) { + code = lookBits(13); + if (code == EOF) { + return 1; + } + if ((code >> 7) == 0) { + p = &blackTab1[code]; + } else if ((code >> 9) == 0 && (code >> 7) != 0) { + p = &blackTab2[(code >> 1) - 64]; + } else { + p = &blackTab3[code >> 7]; + } + if (p->bits > 0) { + eatBits(p->bits); + return p->n; + } + } else { + for (n = 2; n <= 6; ++n) { + code = lookBits(n); + if (code == EOF) { + return 1; + } + if (n < 6) { + code <<= 6 - n; + } + p = &blackTab3[code]; + if (p->bits == n) { + eatBits(n); + return p->n; + } + } + for (n = 7; n <= 12; ++n) { + code = lookBits(n); + if (code == EOF) { + return 1; + } + if (n < 12) { + code <<= 12 - n; + } + if (code >= 64) { + p = &blackTab2[code - 64]; + if (p->bits == n) { + eatBits(n); + return p->n; + } + } + } + for (n = 10; n <= 13; ++n) { + code = lookBits(n); + if (code == EOF) { + return 1; + } + if (n < 13) { + code <<= 13 - n; + } + p = &blackTab1[code]; + if (p->bits == n) { + eatBits(n); + return p->n; + } + } + } + error(getPos(), "Bad black code (%04x) in CCITTFax stream", code); + // eat a bit and return a positive number so that the caller doesn't + // go into an infinite loop + eatBits(1); + return 1; +} + +short CCITTFaxStream::lookBits(int n) { + int c; + + while (inputBits < n) { + if ((c = str->getChar()) == EOF) { + if (inputBits == 0) { + return EOF; + } + // near the end of the stream, the caller may ask for more bits + // than are available, but there may still be a valid code in + // however many bits are available -- we need to return correct + // data in this case + return (inputBuf << (n - inputBits)) & (0xffff >> (16 - n)); + } + inputBuf = (inputBuf << 8) + c; + inputBits += 8; + } + return (inputBuf >> (inputBits - n)) & (0xffff >> (16 - n)); +} + +GString *CCITTFaxStream::getPSFilter(int psLevel, char *indent) { + GString *s; + char s1[50]; + + if (psLevel < 2) { + return NULL; + } + if (!(s = str->getPSFilter(psLevel, indent))) { + return NULL; + } + s->append(indent)->append("<< "); + if (encoding != 0) { + sprintf(s1, "/K %d ", encoding); + s->append(s1); + } + if (endOfLine) { + s->append("/EndOfLine true "); + } + if (byteAlign) { + s->append("/EncodedByteAlign true "); + } + sprintf(s1, "/Columns %d ", columns); + s->append(s1); + if (rows != 0) { + sprintf(s1, "/Rows %d ", rows); + s->append(s1); + } + if (!endOfBlock) { + s->append("/EndOfBlock false "); + } + if (black) { + s->append("/BlackIs1 true "); + } + s->append(">> /CCITTFaxDecode filter\n"); + return s; +} + +GBool CCITTFaxStream::isBinary(GBool /*last*/) { + return str->isBinary(gTrue); +} + +//------------------------------------------------------------------------ +// DCTStream +//------------------------------------------------------------------------ + +// IDCT constants (20.12 fixed point format) +#define dctCos1 4017 // cos(pi/16) +#define dctSin1 799 // sin(pi/16) +#define dctCos3 3406 // cos(3*pi/16) +#define dctSin3 2276 // sin(3*pi/16) +#define dctCos6 1567 // cos(6*pi/16) +#define dctSin6 3784 // sin(6*pi/16) +#define dctSqrt2 5793 // sqrt(2) +#define dctSqrt1d2 2896 // sqrt(2) / 2 + +// color conversion parameters (16.16 fixed point format) +#define dctCrToR 91881 // 1.4020 +#define dctCbToG -22553 // -0.3441363 +#define dctCrToG -46802 // -0.71413636 +#define dctCbToB 116130 // 1.772 + +// clip [-256,511] --> [0,255] +#define dctClipOffset 256 +static Guchar dctClip[768]; +static int dctClipInit = 0; + +// zig zag decode map +static int dctZigZag[64] = { + 0, + 1, 8, + 16, 9, 2, + 3, 10, 17, 24, + 32, 25, 18, 11, 4, + 5, 12, 19, 26, 33, 40, + 48, 41, 34, 27, 20, 13, 6, + 7, 14, 21, 28, 35, 42, 49, 56, + 57, 50, 43, 36, 29, 22, 15, + 23, 30, 37, 44, 51, 58, + 59, 52, 45, 38, 31, + 39, 46, 53, 60, + 61, 54, 47, + 55, 62, + 63 +}; + +DCTStream::DCTStream(Stream *strA, GBool colorXformA): + FilterStream(strA) { + int i, j; + + colorXform = colorXformA; + progressive = interleaved = gFalse; + width = height = 0; + mcuWidth = mcuHeight = 0; + numComps = 0; + comp = 0; + x = y = dy = 0; + for (i = 0; i < 4; ++i) { + for (j = 0; j < 32; ++j) { + rowBuf[i][j] = NULL; + } + frameBuf[i] = NULL; + } + + if (!dctClipInit) { + for (i = -256; i < 0; ++i) + dctClip[dctClipOffset + i] = 0; + for (i = 0; i < 256; ++i) + dctClip[dctClipOffset + i] = i; + for (i = 256; i < 512; ++i) + dctClip[dctClipOffset + i] = 255; + dctClipInit = 1; + } +} + +DCTStream::~DCTStream() { + close(); + delete str; +} + +void DCTStream::reset() { + int i, j; + + str->reset(); + + progressive = interleaved = gFalse; + width = height = 0; + numComps = 0; + numQuantTables = 0; + numDCHuffTables = 0; + numACHuffTables = 0; + gotJFIFMarker = gFalse; + gotAdobeMarker = gFalse; + restartInterval = 0; + + if (!readHeader()) { + y = height; + return; + } + + // compute MCU size + if (numComps == 1) { + compInfo[0].hSample = compInfo[0].vSample = 1; + } + mcuWidth = compInfo[0].hSample; + mcuHeight = compInfo[0].vSample; + for (i = 1; i < numComps; ++i) { + if (compInfo[i].hSample > mcuWidth) { + mcuWidth = compInfo[i].hSample; + } + if (compInfo[i].vSample > mcuHeight) { + mcuHeight = compInfo[i].vSample; + } + } + mcuWidth *= 8; + mcuHeight *= 8; + + // figure out color transform + if (colorXform == -1) { + if (numComps == 3) { + if (gotJFIFMarker) { + colorXform = 1; + } else if (compInfo[0].id == 82 && compInfo[1].id == 71 && + compInfo[2].id == 66) { // ASCII "RGB" + colorXform = 0; + } else { + colorXform = 1; + } + } else { + colorXform = 0; + } + } + + if (progressive || !interleaved) { + + // allocate a buffer for the whole image + bufWidth = ((width + mcuWidth - 1) / mcuWidth) * mcuWidth; + bufHeight = ((height + mcuHeight - 1) / mcuHeight) * mcuHeight; + if (bufWidth <= 0 || bufHeight <= 0 || + bufWidth > INT_MAX / bufWidth / (int)sizeof(int)) { + error(getPos(), "Invalid image size in DCT stream"); + y = height; + return; + } + for (i = 0; i < numComps; ++i) { + frameBuf[i] = (int *)gmallocn(bufWidth * bufHeight, sizeof(int)); + memset(frameBuf[i], 0, bufWidth * bufHeight * sizeof(int)); + } + + // read the image data + do { + restartMarker = 0xd0; + restart(); + readScan(); + } while (readHeader()); + + // decode + decodeImage(); + + // initialize counters + comp = 0; + x = 0; + y = 0; + + } else { + + // allocate a buffer for one row of MCUs + bufWidth = ((width + mcuWidth - 1) / mcuWidth) * mcuWidth; + for (i = 0; i < numComps; ++i) { + for (j = 0; j < mcuHeight; ++j) { + rowBuf[i][j] = (Guchar *)gmallocn(bufWidth, sizeof(Guchar)); + } + } + + // initialize counters + comp = 0; + x = 0; + y = 0; + dy = mcuHeight; + + restartMarker = 0xd0; + restart(); + } +} + +void DCTStream::close() { + int i, j; + + for (i = 0; i < 4; ++i) { + for (j = 0; j < 32; ++j) { + gfree(rowBuf[i][j]); + rowBuf[i][j] = NULL; + } + gfree(frameBuf[i]); + frameBuf[i] = NULL; + } + FilterStream::close(); +} + +int DCTStream::getChar() { + int c; + + if (y >= height) { + return EOF; + } + if (progressive || !interleaved) { + c = frameBuf[comp][y * bufWidth + x]; + if (++comp == numComps) { + comp = 0; + if (++x == width) { + x = 0; + ++y; + } + } + } else { + if (dy >= mcuHeight) { + if (!readMCURow()) { + y = height; + return EOF; + } + comp = 0; + x = 0; + dy = 0; + } + c = rowBuf[comp][dy][x]; + if (++comp == numComps) { + comp = 0; + if (++x == width) { + x = 0; + ++y; + ++dy; + if (y == height) { + readTrailer(); + } + } + } + } + return c; +} + +int DCTStream::lookChar() { + if (y >= height) { + return EOF; + } + if (progressive || !interleaved) { + return frameBuf[comp][y * bufWidth + x]; + } else { + if (dy >= mcuHeight) { + if (!readMCURow()) { + y = height; + return EOF; + } + comp = 0; + x = 0; + dy = 0; + } + return rowBuf[comp][dy][x]; + } +} + +void DCTStream::restart() { + int i; + + inputBits = 0; + restartCtr = restartInterval; + for (i = 0; i < numComps; ++i) { + compInfo[i].prevDC = 0; + } + eobRun = 0; +} + +// Read one row of MCUs from a sequential JPEG stream. +GBool DCTStream::readMCURow() { + int data1[64]; + Guchar data2[64]; + Guchar *p1, *p2; + int pY, pCb, pCr, pR, pG, pB; + int h, v, horiz, vert, hSub, vSub; + int x1, x2, y2, x3, y3, x4, y4, x5, y5, cc, i; + int c; + + for (x1 = 0; x1 < width; x1 += mcuWidth) { + + // deal with restart marker + if (restartInterval > 0 && restartCtr == 0) { + c = readMarker(); + if (c != restartMarker) { + error(getPos(), "Bad DCT data: incorrect restart marker"); + return gFalse; + } + if (++restartMarker == 0xd8) + restartMarker = 0xd0; + restart(); + } + + // read one MCU + for (cc = 0; cc < numComps; ++cc) { + h = compInfo[cc].hSample; + v = compInfo[cc].vSample; + horiz = mcuWidth / h; + vert = mcuHeight / v; + hSub = horiz / 8; + vSub = vert / 8; + for (y2 = 0; y2 < mcuHeight; y2 += vert) { + for (x2 = 0; x2 < mcuWidth; x2 += horiz) { + if (!readDataUnit(&dcHuffTables[scanInfo.dcHuffTable[cc]], + &acHuffTables[scanInfo.acHuffTable[cc]], + &compInfo[cc].prevDC, + data1)) { + return gFalse; + } + transformDataUnit(quantTables[compInfo[cc].quantTable], + data1, data2); + if (hSub == 1 && vSub == 1) { + for (y3 = 0, i = 0; y3 < 8; ++y3, i += 8) { + p1 = &rowBuf[cc][y2+y3][x1+x2]; + p1[0] = data2[i]; + p1[1] = data2[i+1]; + p1[2] = data2[i+2]; + p1[3] = data2[i+3]; + p1[4] = data2[i+4]; + p1[5] = data2[i+5]; + p1[6] = data2[i+6]; + p1[7] = data2[i+7]; + } + } else if (hSub == 2 && vSub == 2) { + for (y3 = 0, i = 0; y3 < 16; y3 += 2, i += 8) { + p1 = &rowBuf[cc][y2+y3][x1+x2]; + p2 = &rowBuf[cc][y2+y3+1][x1+x2]; + p1[0] = p1[1] = p2[0] = p2[1] = data2[i]; + p1[2] = p1[3] = p2[2] = p2[3] = data2[i+1]; + p1[4] = p1[5] = p2[4] = p2[5] = data2[i+2]; + p1[6] = p1[7] = p2[6] = p2[7] = data2[i+3]; + p1[8] = p1[9] = p2[8] = p2[9] = data2[i+4]; + p1[10] = p1[11] = p2[10] = p2[11] = data2[i+5]; + p1[12] = p1[13] = p2[12] = p2[13] = data2[i+6]; + p1[14] = p1[15] = p2[14] = p2[15] = data2[i+7]; + } + } else { + i = 0; + for (y3 = 0, y4 = 0; y3 < 8; ++y3, y4 += vSub) { + for (x3 = 0, x4 = 0; x3 < 8; ++x3, x4 += hSub) { + for (y5 = 0; y5 < vSub; ++y5) + for (x5 = 0; x5 < hSub; ++x5) + rowBuf[cc][y2+y4+y5][x1+x2+x4+x5] = data2[i]; + ++i; + } + } + } + } + } + } + --restartCtr; + + // color space conversion + if (colorXform) { + // convert YCbCr to RGB + if (numComps == 3) { + for (y2 = 0; y2 < mcuHeight; ++y2) { + for (x2 = 0; x2 < mcuWidth; ++x2) { + pY = rowBuf[0][y2][x1+x2]; + pCb = rowBuf[1][y2][x1+x2] - 128; + pCr = rowBuf[2][y2][x1+x2] - 128; + pR = ((pY << 16) + dctCrToR * pCr + 32768) >> 16; + rowBuf[0][y2][x1+x2] = dctClip[dctClipOffset + pR]; + pG = ((pY << 16) + dctCbToG * pCb + dctCrToG * pCr + 32768) >> 16; + rowBuf[1][y2][x1+x2] = dctClip[dctClipOffset + pG]; + pB = ((pY << 16) + dctCbToB * pCb + 32768) >> 16; + rowBuf[2][y2][x1+x2] = dctClip[dctClipOffset + pB]; + } + } + // convert YCbCrK to CMYK (K is passed through unchanged) + } else if (numComps == 4) { + for (y2 = 0; y2 < mcuHeight; ++y2) { + for (x2 = 0; x2 < mcuWidth; ++x2) { + pY = rowBuf[0][y2][x1+x2]; + pCb = rowBuf[1][y2][x1+x2] - 128; + pCr = rowBuf[2][y2][x1+x2] - 128; + pR = ((pY << 16) + dctCrToR * pCr + 32768) >> 16; + rowBuf[0][y2][x1+x2] = 255 - dctClip[dctClipOffset + pR]; + pG = ((pY << 16) + dctCbToG * pCb + dctCrToG * pCr + 32768) >> 16; + rowBuf[1][y2][x1+x2] = 255 - dctClip[dctClipOffset + pG]; + pB = ((pY << 16) + dctCbToB * pCb + 32768) >> 16; + rowBuf[2][y2][x1+x2] = 255 - dctClip[dctClipOffset + pB]; + } + } + } + } + } + return gTrue; +} + +// Read one scan from a progressive or non-interleaved JPEG stream. +void DCTStream::readScan() { + int data[64]; + int x1, y1, dx1, dy1, x2, y2, y3, cc, i; + int h, v, horiz, vert, vSub; + int *p1; + int c; + + if (scanInfo.numComps == 1) { + for (cc = 0; cc < numComps; ++cc) { + if (scanInfo.comp[cc]) { + break; + } + } + dx1 = mcuWidth / compInfo[cc].hSample; + dy1 = mcuHeight / compInfo[cc].vSample; + } else { + dx1 = mcuWidth; + dy1 = mcuHeight; + } + + for (y1 = 0; y1 < height; y1 += dy1) { + for (x1 = 0; x1 < width; x1 += dx1) { + + // deal with restart marker + if (restartInterval > 0 && restartCtr == 0) { + c = readMarker(); + if (c != restartMarker) { + error(getPos(), "Bad DCT data: incorrect restart marker"); + return; + } + if (++restartMarker == 0xd8) { + restartMarker = 0xd0; + } + restart(); + } + + // read one MCU + for (cc = 0; cc < numComps; ++cc) { + if (!scanInfo.comp[cc]) { + continue; + } + + h = compInfo[cc].hSample; + v = compInfo[cc].vSample; + horiz = mcuWidth / h; + vert = mcuHeight / v; + vSub = vert / 8; + for (y2 = 0; y2 < dy1; y2 += vert) { + for (x2 = 0; x2 < dx1; x2 += horiz) { + + // pull out the current values + p1 = &frameBuf[cc][(y1+y2) * bufWidth + (x1+x2)]; + for (y3 = 0, i = 0; y3 < 8; ++y3, i += 8) { + data[i] = p1[0]; + data[i+1] = p1[1]; + data[i+2] = p1[2]; + data[i+3] = p1[3]; + data[i+4] = p1[4]; + data[i+5] = p1[5]; + data[i+6] = p1[6]; + data[i+7] = p1[7]; + p1 += bufWidth * vSub; + } + + // read one data unit + if (progressive) { + if (!readProgressiveDataUnit( + &dcHuffTables[scanInfo.dcHuffTable[cc]], + &acHuffTables[scanInfo.acHuffTable[cc]], + &compInfo[cc].prevDC, + data)) { + return; + } + } else { + if (!readDataUnit(&dcHuffTables[scanInfo.dcHuffTable[cc]], + &acHuffTables[scanInfo.acHuffTable[cc]], + &compInfo[cc].prevDC, + data)) { + return; + } + } + + // add the data unit into frameBuf + p1 = &frameBuf[cc][(y1+y2) * bufWidth + (x1+x2)]; + for (y3 = 0, i = 0; y3 < 8; ++y3, i += 8) { + p1[0] = data[i]; + p1[1] = data[i+1]; + p1[2] = data[i+2]; + p1[3] = data[i+3]; + p1[4] = data[i+4]; + p1[5] = data[i+5]; + p1[6] = data[i+6]; + p1[7] = data[i+7]; + p1 += bufWidth * vSub; + } + } + } + } + --restartCtr; + } + } +} + +// Read one data unit from a sequential JPEG stream. +GBool DCTStream::readDataUnit(DCTHuffTable *dcHuffTable, + DCTHuffTable *acHuffTable, + int *prevDC, int data[64]) { + int run, size, amp; + int c; + int i, j; + + if ((size = readHuffSym(dcHuffTable)) == 9999) { + return gFalse; + } + if (size > 0) { + if ((amp = readAmp(size)) == 9999) { + return gFalse; + } + } else { + amp = 0; + } + data[0] = *prevDC += amp; + for (i = 1; i < 64; ++i) { + data[i] = 0; + } + i = 1; + while (i < 64) { + run = 0; + while ((c = readHuffSym(acHuffTable)) == 0xf0 && run < 0x30) { + run += 0x10; + } + if (c == 9999) { + return gFalse; + } + if (c == 0x00) { + break; + } else { + run += (c >> 4) & 0x0f; + size = c & 0x0f; + amp = readAmp(size); + if (amp == 9999) { + return gFalse; + } + i += run; + if (i < 64) { + j = dctZigZag[i++]; + data[j] = amp; + } + } + } + return gTrue; +} + +// Read one data unit from a sequential JPEG stream. +GBool DCTStream::readProgressiveDataUnit(DCTHuffTable *dcHuffTable, + DCTHuffTable *acHuffTable, + int *prevDC, int data[64]) { + int run, size, amp, bit, c; + int i, j, k; + + // get the DC coefficient + i = scanInfo.firstCoeff; + if (i == 0) { + if (scanInfo.ah == 0) { + if ((size = readHuffSym(dcHuffTable)) == 9999) { + return gFalse; + } + if (size > 0) { + if ((amp = readAmp(size)) == 9999) { + return gFalse; + } + } else { + amp = 0; + } + data[0] += (*prevDC += amp) << scanInfo.al; + } else { + if ((bit = readBit()) == 9999) { + return gFalse; + } + data[0] += bit << scanInfo.al; + } + ++i; + } + if (scanInfo.lastCoeff == 0) { + return gTrue; + } + + // check for an EOB run + if (eobRun > 0) { + while (i <= scanInfo.lastCoeff) { + j = dctZigZag[i++]; + if (data[j] != 0) { + if ((bit = readBit()) == EOF) { + return gFalse; + } + if (bit) { + data[j] += 1 << scanInfo.al; + } + } + } + --eobRun; + return gTrue; + } + + // read the AC coefficients + while (i <= scanInfo.lastCoeff) { + if ((c = readHuffSym(acHuffTable)) == 9999) { + return gFalse; + } + + // ZRL + if (c == 0xf0) { + k = 0; + while (k < 16) { + j = dctZigZag[i++]; + if (data[j] == 0) { + ++k; + } else { + if ((bit = readBit()) == EOF) { + return gFalse; + } + if (bit) { + data[j] += 1 << scanInfo.al; + } + } + } + + // EOB run + } else if ((c & 0x0f) == 0x00) { + j = c >> 4; + eobRun = 0; + for (k = 0; k < j; ++k) { + if ((bit = readBit()) == EOF) { + return gFalse; + } + eobRun = (eobRun << 1) | bit; + } + eobRun += 1 << j; + while (i <= scanInfo.lastCoeff) { + j = dctZigZag[i++]; + if (data[j] != 0) { + if ((bit = readBit()) == EOF) { + return gFalse; + } + if (bit) { + data[j] += 1 << scanInfo.al; + } + } + } + --eobRun; + break; + + // zero run and one AC coefficient + } else { + run = (c >> 4) & 0x0f; + size = c & 0x0f; + if ((amp = readAmp(size)) == 9999) { + return gFalse; + } + k = 0; + do { + j = dctZigZag[i++]; + while (data[j] != 0) { + if ((bit = readBit()) == EOF) { + return gFalse; + } + if (bit) { + data[j] += 1 << scanInfo.al; + } + j = dctZigZag[i++]; + } + ++k; + } while (k <= run); + data[j] = amp << scanInfo.al; + } + } + + return gTrue; +} + +// Decode a progressive JPEG image. +void DCTStream::decodeImage() { + int dataIn[64]; + Guchar dataOut[64]; + Gushort *quantTable; + int pY, pCb, pCr, pR, pG, pB; + int x1, y1, x2, y2, x3, y3, x4, y4, x5, y5, cc, i; + int h, v, horiz, vert, hSub, vSub; + int *p0, *p1, *p2; + + for (y1 = 0; y1 < bufHeight; y1 += mcuHeight) { + for (x1 = 0; x1 < bufWidth; x1 += mcuWidth) { + for (cc = 0; cc < numComps; ++cc) { + quantTable = quantTables[compInfo[cc].quantTable]; + h = compInfo[cc].hSample; + v = compInfo[cc].vSample; + horiz = mcuWidth / h; + vert = mcuHeight / v; + hSub = horiz / 8; + vSub = vert / 8; + for (y2 = 0; y2 < mcuHeight; y2 += vert) { + for (x2 = 0; x2 < mcuWidth; x2 += horiz) { + + // pull out the coded data unit + p1 = &frameBuf[cc][(y1+y2) * bufWidth + (x1+x2)]; + for (y3 = 0, i = 0; y3 < 8; ++y3, i += 8) { + dataIn[i] = p1[0]; + dataIn[i+1] = p1[1]; + dataIn[i+2] = p1[2]; + dataIn[i+3] = p1[3]; + dataIn[i+4] = p1[4]; + dataIn[i+5] = p1[5]; + dataIn[i+6] = p1[6]; + dataIn[i+7] = p1[7]; + p1 += bufWidth * vSub; + } + + // transform + transformDataUnit(quantTable, dataIn, dataOut); + + // store back into frameBuf, doing replication for + // subsampled components + p1 = &frameBuf[cc][(y1+y2) * bufWidth + (x1+x2)]; + if (hSub == 1 && vSub == 1) { + for (y3 = 0, i = 0; y3 < 8; ++y3, i += 8) { + p1[0] = dataOut[i] & 0xff; + p1[1] = dataOut[i+1] & 0xff; + p1[2] = dataOut[i+2] & 0xff; + p1[3] = dataOut[i+3] & 0xff; + p1[4] = dataOut[i+4] & 0xff; + p1[5] = dataOut[i+5] & 0xff; + p1[6] = dataOut[i+6] & 0xff; + p1[7] = dataOut[i+7] & 0xff; + p1 += bufWidth; + } + } else if (hSub == 2 && vSub == 2) { + p2 = p1 + bufWidth; + for (y3 = 0, i = 0; y3 < 16; y3 += 2, i += 8) { + p1[0] = p1[1] = p2[0] = p2[1] = dataOut[i] & 0xff; + p1[2] = p1[3] = p2[2] = p2[3] = dataOut[i+1] & 0xff; + p1[4] = p1[5] = p2[4] = p2[5] = dataOut[i+2] & 0xff; + p1[6] = p1[7] = p2[6] = p2[7] = dataOut[i+3] & 0xff; + p1[8] = p1[9] = p2[8] = p2[9] = dataOut[i+4] & 0xff; + p1[10] = p1[11] = p2[10] = p2[11] = dataOut[i+5] & 0xff; + p1[12] = p1[13] = p2[12] = p2[13] = dataOut[i+6] & 0xff; + p1[14] = p1[15] = p2[14] = p2[15] = dataOut[i+7] & 0xff; + p1 += bufWidth * 2; + p2 += bufWidth * 2; + } + } else { + i = 0; + for (y3 = 0, y4 = 0; y3 < 8; ++y3, y4 += vSub) { + for (x3 = 0, x4 = 0; x3 < 8; ++x3, x4 += hSub) { + p2 = p1 + x4; + for (y5 = 0; y5 < vSub; ++y5) { + for (x5 = 0; x5 < hSub; ++x5) { + p2[x5] = dataOut[i] & 0xff; + } + p2 += bufWidth; + } + ++i; + } + p1 += bufWidth * vSub; + } + } + } + } + } + + // color space conversion + if (colorXform) { + // convert YCbCr to RGB + if (numComps == 3) { + for (y2 = 0; y2 < mcuHeight; ++y2) { + p0 = &frameBuf[0][(y1+y2) * bufWidth + x1]; + p1 = &frameBuf[1][(y1+y2) * bufWidth + x1]; + p2 = &frameBuf[2][(y1+y2) * bufWidth + x1]; + for (x2 = 0; x2 < mcuWidth; ++x2) { + pY = *p0; + pCb = *p1 - 128; + pCr = *p2 - 128; + pR = ((pY << 16) + dctCrToR * pCr + 32768) >> 16; + *p0++ = dctClip[dctClipOffset + pR]; + pG = ((pY << 16) + dctCbToG * pCb + dctCrToG * pCr + + 32768) >> 16; + *p1++ = dctClip[dctClipOffset + pG]; + pB = ((pY << 16) + dctCbToB * pCb + 32768) >> 16; + *p2++ = dctClip[dctClipOffset + pB]; + } + } + // convert YCbCrK to CMYK (K is passed through unchanged) + } else if (numComps == 4) { + for (y2 = 0; y2 < mcuHeight; ++y2) { + p0 = &frameBuf[0][(y1+y2) * bufWidth + x1]; + p1 = &frameBuf[1][(y1+y2) * bufWidth + x1]; + p2 = &frameBuf[2][(y1+y2) * bufWidth + x1]; + for (x2 = 0; x2 < mcuWidth; ++x2) { + pY = *p0; + pCb = *p1 - 128; + pCr = *p2 - 128; + pR = ((pY << 16) + dctCrToR * pCr + 32768) >> 16; + *p0++ = 255 - dctClip[dctClipOffset + pR]; + pG = ((pY << 16) + dctCbToG * pCb + dctCrToG * pCr + + 32768) >> 16; + *p1++ = 255 - dctClip[dctClipOffset + pG]; + pB = ((pY << 16) + dctCbToB * pCb + 32768) >> 16; + *p2++ = 255 - dctClip[dctClipOffset + pB]; + } + } + } + } + } + } +} + +// Transform one data unit -- this performs the dequantization and +// IDCT steps. This IDCT algorithm is taken from: +// Christoph Loeffler, Adriaan Ligtenberg, George S. Moschytz, +// "Practical Fast 1-D DCT Algorithms with 11 Multiplications", +// IEEE Intl. Conf. on Acoustics, Speech & Signal Processing, 1989, +// 988-991. +// The stage numbers mentioned in the comments refer to Figure 1 in this +// paper. +void DCTStream::transformDataUnit(Gushort *quantTable, + int dataIn[64], Guchar dataOut[64]) { + int v0, v1, v2, v3, v4, v5, v6, v7, t; + int *p; + int i; + + // dequant + for (i = 0; i < 64; ++i) { + dataIn[i] *= quantTable[i]; + } + + // inverse DCT on rows + for (i = 0; i < 64; i += 8) { + p = dataIn + i; + + // check for all-zero AC coefficients + if (p[1] == 0 && p[2] == 0 && p[3] == 0 && + p[4] == 0 && p[5] == 0 && p[6] == 0 && p[7] == 0) { + t = (dctSqrt2 * p[0] + 512) >> 10; + p[0] = t; + p[1] = t; + p[2] = t; + p[3] = t; + p[4] = t; + p[5] = t; + p[6] = t; + p[7] = t; + continue; + } + + // stage 4 + v0 = (dctSqrt2 * p[0] + 128) >> 8; + v1 = (dctSqrt2 * p[4] + 128) >> 8; + v2 = p[2]; + v3 = p[6]; + v4 = (dctSqrt1d2 * (p[1] - p[7]) + 128) >> 8; + v7 = (dctSqrt1d2 * (p[1] + p[7]) + 128) >> 8; + v5 = p[3] << 4; + v6 = p[5] << 4; + + // stage 3 + t = (v0 - v1+ 1) >> 1; + v0 = (v0 + v1 + 1) >> 1; + v1 = t; + t = (v2 * dctSin6 + v3 * dctCos6 + 128) >> 8; + v2 = (v2 * dctCos6 - v3 * dctSin6 + 128) >> 8; + v3 = t; + t = (v4 - v6 + 1) >> 1; + v4 = (v4 + v6 + 1) >> 1; + v6 = t; + t = (v7 + v5 + 1) >> 1; + v5 = (v7 - v5 + 1) >> 1; + v7 = t; + + // stage 2 + t = (v0 - v3 + 1) >> 1; + v0 = (v0 + v3 + 1) >> 1; + v3 = t; + t = (v1 - v2 + 1) >> 1; + v1 = (v1 + v2 + 1) >> 1; + v2 = t; + t = (v4 * dctSin3 + v7 * dctCos3 + 2048) >> 12; + v4 = (v4 * dctCos3 - v7 * dctSin3 + 2048) >> 12; + v7 = t; + t = (v5 * dctSin1 + v6 * dctCos1 + 2048) >> 12; + v5 = (v5 * dctCos1 - v6 * dctSin1 + 2048) >> 12; + v6 = t; + + // stage 1 + p[0] = v0 + v7; + p[7] = v0 - v7; + p[1] = v1 + v6; + p[6] = v1 - v6; + p[2] = v2 + v5; + p[5] = v2 - v5; + p[3] = v3 + v4; + p[4] = v3 - v4; + } + + // inverse DCT on columns + for (i = 0; i < 8; ++i) { + p = dataIn + i; + + // check for all-zero AC coefficients + if (p[1*8] == 0 && p[2*8] == 0 && p[3*8] == 0 && + p[4*8] == 0 && p[5*8] == 0 && p[6*8] == 0 && p[7*8] == 0) { + t = (dctSqrt2 * dataIn[i+0] + 8192) >> 14; + p[0*8] = t; + p[1*8] = t; + p[2*8] = t; + p[3*8] = t; + p[4*8] = t; + p[5*8] = t; + p[6*8] = t; + p[7*8] = t; + continue; + } + + // stage 4 + v0 = (dctSqrt2 * p[0*8] + 2048) >> 12; + v1 = (dctSqrt2 * p[4*8] + 2048) >> 12; + v2 = p[2*8]; + v3 = p[6*8]; + v4 = (dctSqrt1d2 * (p[1*8] - p[7*8]) + 2048) >> 12; + v7 = (dctSqrt1d2 * (p[1*8] + p[7*8]) + 2048) >> 12; + v5 = p[3*8]; + v6 = p[5*8]; + + // stage 3 + t = (v0 - v1 + 1) >> 1; + v0 = (v0 + v1 + 1) >> 1; + v1 = t; + t = (v2 * dctSin6 + v3 * dctCos6 + 2048) >> 12; + v2 = (v2 * dctCos6 - v3 * dctSin6 + 2048) >> 12; + v3 = t; + t = (v4 - v6 + 1) >> 1; + v4 = (v4 + v6 + 1) >> 1; + v6 = t; + t = (v7 + v5 + 1) >> 1; + v5 = (v7 - v5 + 1) >> 1; + v7 = t; + + // stage 2 + t = (v0 - v3 + 1) >> 1; + v0 = (v0 + v3 + 1) >> 1; + v3 = t; + t = (v1 - v2 + 1) >> 1; + v1 = (v1 + v2 + 1) >> 1; + v2 = t; + t = (v4 * dctSin3 + v7 * dctCos3 + 2048) >> 12; + v4 = (v4 * dctCos3 - v7 * dctSin3 + 2048) >> 12; + v7 = t; + t = (v5 * dctSin1 + v6 * dctCos1 + 2048) >> 12; + v5 = (v5 * dctCos1 - v6 * dctSin1 + 2048) >> 12; + v6 = t; + + // stage 1 + p[0*8] = v0 + v7; + p[7*8] = v0 - v7; + p[1*8] = v1 + v6; + p[6*8] = v1 - v6; + p[2*8] = v2 + v5; + p[5*8] = v2 - v5; + p[3*8] = v3 + v4; + p[4*8] = v3 - v4; + } + + // convert to 8-bit integers + for (i = 0; i < 64; ++i) { + dataOut[i] = dctClip[dctClipOffset + 128 + ((dataIn[i] + 8) >> 4)]; + } +} + +int DCTStream::readHuffSym(DCTHuffTable *table) { + Gushort code; + int bit; + int codeBits; + + code = 0; + codeBits = 0; + do { + // add a bit to the code + if ((bit = readBit()) == EOF) + return 9999; + code = (code << 1) + bit; + ++codeBits; + + // look up code + if (code - table->firstCode[codeBits] < table->numCodes[codeBits]) { + code -= table->firstCode[codeBits]; + return table->sym[table->firstSym[codeBits] + code]; + } + } while (codeBits < 16); + + error(getPos(), "Bad Huffman code in DCT stream"); + return 9999; +} + +int DCTStream::readAmp(int size) { + int amp, bit; + int bits; + + amp = 0; + for (bits = 0; bits < size; ++bits) { + if ((bit = readBit()) == EOF) + return 9999; + amp = (amp << 1) + bit; + } + if (amp < (1 << (size - 1))) + amp -= (1 << size) - 1; + return amp; +} + +int DCTStream::readBit() { + int bit; + int c, c2; + + if (inputBits == 0) { + if ((c = str->getChar()) == EOF) + return EOF; + if (c == 0xff) { + do { + c2 = str->getChar(); + } while (c2 == 0xff); + if (c2 != 0x00) { + error(getPos(), "Bad DCT data: missing 00 after ff"); + return EOF; + } + } + inputBuf = c; + inputBits = 8; + } + bit = (inputBuf >> (inputBits - 1)) & 1; + --inputBits; + return bit; +} + +GBool DCTStream::readHeader() { + GBool doScan; + int n; + int c = 0; + int i; + + // read headers + doScan = gFalse; + while (!doScan) { + c = readMarker(); + switch (c) { + case 0xc0: // SOF0 (sequential) + case 0xc1: // SOF1 (extended sequential) + if (!readBaselineSOF()) { + return gFalse; + } + break; + case 0xc2: // SOF2 (progressive) + if (!readProgressiveSOF()) { + return gFalse; + } + break; + case 0xc4: // DHT + if (!readHuffmanTables()) { + return gFalse; + } + break; + case 0xd8: // SOI + break; + case 0xd9: // EOI + return gFalse; + case 0xda: // SOS + if (!readScanInfo()) { + return gFalse; + } + doScan = gTrue; + break; + case 0xdb: // DQT + if (!readQuantTables()) { + return gFalse; + } + break; + case 0xdd: // DRI + if (!readRestartInterval()) { + return gFalse; + } + break; + case 0xe0: // APP0 + if (!readJFIFMarker()) { + return gFalse; + } + break; + case 0xee: // APP14 + if (!readAdobeMarker()) { + return gFalse; + } + break; + case EOF: + error(getPos(), "Bad DCT header"); + return gFalse; + default: + // skip APPn / COM / etc. + if (c >= 0xe0) { + n = read16() - 2; + for (i = 0; i < n; ++i) { + str->getChar(); + } + } else { + error(getPos(), "Unknown DCT marker <%02x>", c); + return gFalse; + } + break; + } + } + + return gTrue; +} + +GBool DCTStream::readBaselineSOF() { + int length; + int prec; + int i; + int c; + + length = read16(); + prec = str->getChar(); + height = read16(); + width = read16(); + numComps = str->getChar(); + if (numComps <= 0 || numComps > 4) { + error(getPos(), "Bad number of components in DCT stream"); + numComps = 0; + return gFalse; + } + if (prec != 8) { + error(getPos(), "Bad DCT precision %d", prec); + return gFalse; + } + for (i = 0; i < numComps; ++i) { + compInfo[i].id = str->getChar(); + c = str->getChar(); + compInfo[i].hSample = (c >> 4) & 0x0f; + compInfo[i].vSample = c & 0x0f; + compInfo[i].quantTable = str->getChar(); + } + progressive = gFalse; + return gTrue; +} + +GBool DCTStream::readProgressiveSOF() { + int length; + int prec; + int i; + int c; + + length = read16(); + prec = str->getChar(); + height = read16(); + width = read16(); + numComps = str->getChar(); + if (numComps <= 0 || numComps > 4) { + error(getPos(), "Bad number of components in DCT stream"); + numComps = 0; + return gFalse; + } + if (prec != 8) { + error(getPos(), "Bad DCT precision %d", prec); + return gFalse; + } + for (i = 0; i < numComps; ++i) { + compInfo[i].id = str->getChar(); + c = str->getChar(); + compInfo[i].hSample = (c >> 4) & 0x0f; + compInfo[i].vSample = c & 0x0f; + compInfo[i].quantTable = str->getChar(); + } + progressive = gTrue; + return gTrue; +} + +GBool DCTStream::readScanInfo() { + int length; + int id, c; + int i, j; + + length = read16() - 2; + scanInfo.numComps = str->getChar(); + if (scanInfo.numComps <= 0 || scanInfo.numComps > 4) { + error(getPos(), "Bad number of components in DCT stream"); + scanInfo.numComps = 0; + return gFalse; + } + --length; + if (length != 2 * scanInfo.numComps + 3) { + error(getPos(), "Bad DCT scan info block"); + return gFalse; + } + interleaved = scanInfo.numComps == numComps; + for (j = 0; j < numComps; ++j) { + scanInfo.comp[j] = gFalse; + } + for (i = 0; i < scanInfo.numComps; ++i) { + id = str->getChar(); + // some (broken) DCT streams reuse ID numbers, but at least they + // keep the components in order, so we check compInfo[i] first to + // work around the problem + if (id == compInfo[i].id) { + j = i; + } else { + for (j = 0; j < numComps; ++j) { + if (id == compInfo[j].id) { + break; + } + } + if (j == numComps) { + error(getPos(), "Bad DCT component ID in scan info block"); + return gFalse; + } + } + scanInfo.comp[j] = gTrue; + c = str->getChar(); + scanInfo.dcHuffTable[j] = (c >> 4) & 0x0f; + scanInfo.acHuffTable[j] = c & 0x0f; + } + scanInfo.firstCoeff = str->getChar(); + scanInfo.lastCoeff = str->getChar(); + if (scanInfo.firstCoeff < 0 || scanInfo.lastCoeff > 63 || + scanInfo.firstCoeff > scanInfo.lastCoeff) { + error(getPos(), "Bad DCT coefficient numbers in scan info block"); + return gFalse; + } + c = str->getChar(); + scanInfo.ah = (c >> 4) & 0x0f; + scanInfo.al = c & 0x0f; + return gTrue; +} + +GBool DCTStream::readQuantTables() { + int length, prec, i, index; + + length = read16() - 2; + while (length > 0) { + index = str->getChar(); + prec = (index >> 4) & 0x0f; + index &= 0x0f; + if (prec > 1 || index >= 4) { + error(getPos(), "Bad DCT quantization table"); + return gFalse; + } + if (index == numQuantTables) { + numQuantTables = index + 1; + } + for (i = 0; i < 64; ++i) { + if (prec) { + quantTables[index][dctZigZag[i]] = read16(); + } else { + quantTables[index][dctZigZag[i]] = str->getChar(); + } + } + if (prec) { + length -= 129; + } else { + length -= 65; + } + } + return gTrue; +} + +GBool DCTStream::readHuffmanTables() { + DCTHuffTable *tbl; + int length; + int index; + Gushort code; + Guchar sym; + int i; + int c; + + length = read16() - 2; + while (length > 0) { + index = str->getChar(); + --length; + if ((index & 0x0f) >= 4) { + error(getPos(), "Bad DCT Huffman table"); + return gFalse; + } + if (index & 0x10) { + index &= 0x0f; + if (index >= numACHuffTables) + numACHuffTables = index+1; + tbl = &acHuffTables[index]; + } else { + index &= 0x0f; + if (index >= numDCHuffTables) + numDCHuffTables = index+1; + tbl = &dcHuffTables[index]; + } + sym = 0; + code = 0; + for (i = 1; i <= 16; ++i) { + c = str->getChar(); + tbl->firstSym[i] = sym; + tbl->firstCode[i] = code; + tbl->numCodes[i] = c; + sym += c; + code = (code + c) << 1; + } + length -= 16; + for (i = 0; i < sym; ++i) + tbl->sym[i] = str->getChar(); + length -= sym; + } + return gTrue; +} + +GBool DCTStream::readRestartInterval() { + int length; + + length = read16(); + if (length != 4) { + error(getPos(), "Bad DCT restart interval"); + return gFalse; + } + restartInterval = read16(); + return gTrue; +} + +GBool DCTStream::readJFIFMarker() { + int length, i; + char buf[5]; + int c; + + length = read16(); + length -= 2; + if (length >= 5) { + for (i = 0; i < 5; ++i) { + if ((c = str->getChar()) == EOF) { + error(getPos(), "Bad DCT APP0 marker"); + return gFalse; + } + buf[i] = c; + } + length -= 5; + if (!memcmp(buf, "JFIF\0", 5)) { + gotJFIFMarker = gTrue; + } + } + while (length > 0) { + if (str->getChar() == EOF) { + error(getPos(), "Bad DCT APP0 marker"); + return gFalse; + } + --length; + } + return gTrue; +} + +GBool DCTStream::readAdobeMarker() { + int length, i; + char buf[12]; + int c; + + length = read16(); + if (length < 14) { + goto err; + } + for (i = 0; i < 12; ++i) { + if ((c = str->getChar()) == EOF) { + goto err; + } + buf[i] = c; + } + if (strncmp(buf, "Adobe", 5)) { + goto err; + } + colorXform = buf[11]; + gotAdobeMarker = gTrue; + for (i = 14; i < length; ++i) { + if (str->getChar() == EOF) { + goto err; + } + } + return gTrue; + + err: + error(getPos(), "Bad DCT Adobe APP14 marker"); + return gFalse; +} + +GBool DCTStream::readTrailer() { + int c; + + c = readMarker(); + if (c != 0xd9) { // EOI + error(getPos(), "Bad DCT trailer"); + return gFalse; + } + return gTrue; +} + +int DCTStream::readMarker() { + int c; + + do { + do { + c = str->getChar(); + } while (c != 0xff && c != EOF); + do { + c = str->getChar(); + } while (c == 0xff); + } while (c == 0x00); + return c; +} + +int DCTStream::read16() { + int c1, c2; + + if ((c1 = str->getChar()) == EOF) + return EOF; + if ((c2 = str->getChar()) == EOF) + return EOF; + return (c1 << 8) + c2; +} + +GString *DCTStream::getPSFilter(int psLevel, char *indent) { + GString *s; + + if (psLevel < 2) { + return NULL; + } + if (!(s = str->getPSFilter(psLevel, indent))) { + return NULL; + } + s->append(indent)->append("<< >> /DCTDecode filter\n"); + return s; +} + +GBool DCTStream::isBinary(GBool /*last*/) { + return str->isBinary(gTrue); +} + +//------------------------------------------------------------------------ +// FlateStream +//------------------------------------------------------------------------ + +int FlateStream::codeLenCodeMap[flateMaxCodeLenCodes] = { + 16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15 +}; + +FlateDecode FlateStream::lengthDecode[flateMaxLitCodes-257] = { + {0, 3}, + {0, 4}, + {0, 5}, + {0, 6}, + {0, 7}, + {0, 8}, + {0, 9}, + {0, 10}, + {1, 11}, + {1, 13}, + {1, 15}, + {1, 17}, + {2, 19}, + {2, 23}, + {2, 27}, + {2, 31}, + {3, 35}, + {3, 43}, + {3, 51}, + {3, 59}, + {4, 67}, + {4, 83}, + {4, 99}, + {4, 115}, + {5, 131}, + {5, 163}, + {5, 195}, + {5, 227}, + {0, 258}, + {0, 258}, + {0, 258} +}; + +FlateDecode FlateStream::distDecode[flateMaxDistCodes] = { + { 0, 1}, + { 0, 2}, + { 0, 3}, + { 0, 4}, + { 1, 5}, + { 1, 7}, + { 2, 9}, + { 2, 13}, + { 3, 17}, + { 3, 25}, + { 4, 33}, + { 4, 49}, + { 5, 65}, + { 5, 97}, + { 6, 129}, + { 6, 193}, + { 7, 257}, + { 7, 385}, + { 8, 513}, + { 8, 769}, + { 9, 1025}, + { 9, 1537}, + {10, 2049}, + {10, 3073}, + {11, 4097}, + {11, 6145}, + {12, 8193}, + {12, 12289}, + {13, 16385}, + {13, 24577} +}; + +static FlateCode flateFixedLitCodeTabCodes[512] = { + {7, 0x0100}, + {8, 0x0050}, + {8, 0x0010}, + {8, 0x0118}, + {7, 0x0110}, + {8, 0x0070}, + {8, 0x0030}, + {9, 0x00c0}, + {7, 0x0108}, + {8, 0x0060}, + {8, 0x0020}, + {9, 0x00a0}, + {8, 0x0000}, + {8, 0x0080}, + {8, 0x0040}, + {9, 0x00e0}, + {7, 0x0104}, + {8, 0x0058}, + {8, 0x0018}, + {9, 0x0090}, + {7, 0x0114}, + {8, 0x0078}, + {8, 0x0038}, + {9, 0x00d0}, + {7, 0x010c}, + {8, 0x0068}, + {8, 0x0028}, + {9, 0x00b0}, + {8, 0x0008}, + {8, 0x0088}, + {8, 0x0048}, + {9, 0x00f0}, + {7, 0x0102}, + {8, 0x0054}, + {8, 0x0014}, + {8, 0x011c}, + {7, 0x0112}, + {8, 0x0074}, + {8, 0x0034}, + {9, 0x00c8}, + {7, 0x010a}, + {8, 0x0064}, + {8, 0x0024}, + {9, 0x00a8}, + {8, 0x0004}, + {8, 0x0084}, + {8, 0x0044}, + {9, 0x00e8}, + {7, 0x0106}, + {8, 0x005c}, + {8, 0x001c}, + {9, 0x0098}, + {7, 0x0116}, + {8, 0x007c}, + {8, 0x003c}, + {9, 0x00d8}, + {7, 0x010e}, + {8, 0x006c}, + {8, 0x002c}, + {9, 0x00b8}, + {8, 0x000c}, + {8, 0x008c}, + {8, 0x004c}, + {9, 0x00f8}, + {7, 0x0101}, + {8, 0x0052}, + {8, 0x0012}, + {8, 0x011a}, + {7, 0x0111}, + {8, 0x0072}, + {8, 0x0032}, + {9, 0x00c4}, + {7, 0x0109}, + {8, 0x0062}, + {8, 0x0022}, + {9, 0x00a4}, + {8, 0x0002}, + {8, 0x0082}, + {8, 0x0042}, + {9, 0x00e4}, + {7, 0x0105}, + {8, 0x005a}, + {8, 0x001a}, + {9, 0x0094}, + {7, 0x0115}, + {8, 0x007a}, + {8, 0x003a}, + {9, 0x00d4}, + {7, 0x010d}, + {8, 0x006a}, + {8, 0x002a}, + {9, 0x00b4}, + {8, 0x000a}, + {8, 0x008a}, + {8, 0x004a}, + {9, 0x00f4}, + {7, 0x0103}, + {8, 0x0056}, + {8, 0x0016}, + {8, 0x011e}, + {7, 0x0113}, + {8, 0x0076}, + {8, 0x0036}, + {9, 0x00cc}, + {7, 0x010b}, + {8, 0x0066}, + {8, 0x0026}, + {9, 0x00ac}, + {8, 0x0006}, + {8, 0x0086}, + {8, 0x0046}, + {9, 0x00ec}, + {7, 0x0107}, + {8, 0x005e}, + {8, 0x001e}, + {9, 0x009c}, + {7, 0x0117}, + {8, 0x007e}, + {8, 0x003e}, + {9, 0x00dc}, + {7, 0x010f}, + {8, 0x006e}, + {8, 0x002e}, + {9, 0x00bc}, + {8, 0x000e}, + {8, 0x008e}, + {8, 0x004e}, + {9, 0x00fc}, + {7, 0x0100}, + {8, 0x0051}, + {8, 0x0011}, + {8, 0x0119}, + {7, 0x0110}, + {8, 0x0071}, + {8, 0x0031}, + {9, 0x00c2}, + {7, 0x0108}, + {8, 0x0061}, + {8, 0x0021}, + {9, 0x00a2}, + {8, 0x0001}, + {8, 0x0081}, + {8, 0x0041}, + {9, 0x00e2}, + {7, 0x0104}, + {8, 0x0059}, + {8, 0x0019}, + {9, 0x0092}, + {7, 0x0114}, + {8, 0x0079}, + {8, 0x0039}, + {9, 0x00d2}, + {7, 0x010c}, + {8, 0x0069}, + {8, 0x0029}, + {9, 0x00b2}, + {8, 0x0009}, + {8, 0x0089}, + {8, 0x0049}, + {9, 0x00f2}, + {7, 0x0102}, + {8, 0x0055}, + {8, 0x0015}, + {8, 0x011d}, + {7, 0x0112}, + {8, 0x0075}, + {8, 0x0035}, + {9, 0x00ca}, + {7, 0x010a}, + {8, 0x0065}, + {8, 0x0025}, + {9, 0x00aa}, + {8, 0x0005}, + {8, 0x0085}, + {8, 0x0045}, + {9, 0x00ea}, + {7, 0x0106}, + {8, 0x005d}, + {8, 0x001d}, + {9, 0x009a}, + {7, 0x0116}, + {8, 0x007d}, + {8, 0x003d}, + {9, 0x00da}, + {7, 0x010e}, + {8, 0x006d}, + {8, 0x002d}, + {9, 0x00ba}, + {8, 0x000d}, + {8, 0x008d}, + {8, 0x004d}, + {9, 0x00fa}, + {7, 0x0101}, + {8, 0x0053}, + {8, 0x0013}, + {8, 0x011b}, + {7, 0x0111}, + {8, 0x0073}, + {8, 0x0033}, + {9, 0x00c6}, + {7, 0x0109}, + {8, 0x0063}, + {8, 0x0023}, + {9, 0x00a6}, + {8, 0x0003}, + {8, 0x0083}, + {8, 0x0043}, + {9, 0x00e6}, + {7, 0x0105}, + {8, 0x005b}, + {8, 0x001b}, + {9, 0x0096}, + {7, 0x0115}, + {8, 0x007b}, + {8, 0x003b}, + {9, 0x00d6}, + {7, 0x010d}, + {8, 0x006b}, + {8, 0x002b}, + {9, 0x00b6}, + {8, 0x000b}, + {8, 0x008b}, + {8, 0x004b}, + {9, 0x00f6}, + {7, 0x0103}, + {8, 0x0057}, + {8, 0x0017}, + {8, 0x011f}, + {7, 0x0113}, + {8, 0x0077}, + {8, 0x0037}, + {9, 0x00ce}, + {7, 0x010b}, + {8, 0x0067}, + {8, 0x0027}, + {9, 0x00ae}, + {8, 0x0007}, + {8, 0x0087}, + {8, 0x0047}, + {9, 0x00ee}, + {7, 0x0107}, + {8, 0x005f}, + {8, 0x001f}, + {9, 0x009e}, + {7, 0x0117}, + {8, 0x007f}, + {8, 0x003f}, + {9, 0x00de}, + {7, 0x010f}, + {8, 0x006f}, + {8, 0x002f}, + {9, 0x00be}, + {8, 0x000f}, + {8, 0x008f}, + {8, 0x004f}, + {9, 0x00fe}, + {7, 0x0100}, + {8, 0x0050}, + {8, 0x0010}, + {8, 0x0118}, + {7, 0x0110}, + {8, 0x0070}, + {8, 0x0030}, + {9, 0x00c1}, + {7, 0x0108}, + {8, 0x0060}, + {8, 0x0020}, + {9, 0x00a1}, + {8, 0x0000}, + {8, 0x0080}, + {8, 0x0040}, + {9, 0x00e1}, + {7, 0x0104}, + {8, 0x0058}, + {8, 0x0018}, + {9, 0x0091}, + {7, 0x0114}, + {8, 0x0078}, + {8, 0x0038}, + {9, 0x00d1}, + {7, 0x010c}, + {8, 0x0068}, + {8, 0x0028}, + {9, 0x00b1}, + {8, 0x0008}, + {8, 0x0088}, + {8, 0x0048}, + {9, 0x00f1}, + {7, 0x0102}, + {8, 0x0054}, + {8, 0x0014}, + {8, 0x011c}, + {7, 0x0112}, + {8, 0x0074}, + {8, 0x0034}, + {9, 0x00c9}, + {7, 0x010a}, + {8, 0x0064}, + {8, 0x0024}, + {9, 0x00a9}, + {8, 0x0004}, + {8, 0x0084}, + {8, 0x0044}, + {9, 0x00e9}, + {7, 0x0106}, + {8, 0x005c}, + {8, 0x001c}, + {9, 0x0099}, + {7, 0x0116}, + {8, 0x007c}, + {8, 0x003c}, + {9, 0x00d9}, + {7, 0x010e}, + {8, 0x006c}, + {8, 0x002c}, + {9, 0x00b9}, + {8, 0x000c}, + {8, 0x008c}, + {8, 0x004c}, + {9, 0x00f9}, + {7, 0x0101}, + {8, 0x0052}, + {8, 0x0012}, + {8, 0x011a}, + {7, 0x0111}, + {8, 0x0072}, + {8, 0x0032}, + {9, 0x00c5}, + {7, 0x0109}, + {8, 0x0062}, + {8, 0x0022}, + {9, 0x00a5}, + {8, 0x0002}, + {8, 0x0082}, + {8, 0x0042}, + {9, 0x00e5}, + {7, 0x0105}, + {8, 0x005a}, + {8, 0x001a}, + {9, 0x0095}, + {7, 0x0115}, + {8, 0x007a}, + {8, 0x003a}, + {9, 0x00d5}, + {7, 0x010d}, + {8, 0x006a}, + {8, 0x002a}, + {9, 0x00b5}, + {8, 0x000a}, + {8, 0x008a}, + {8, 0x004a}, + {9, 0x00f5}, + {7, 0x0103}, + {8, 0x0056}, + {8, 0x0016}, + {8, 0x011e}, + {7, 0x0113}, + {8, 0x0076}, + {8, 0x0036}, + {9, 0x00cd}, + {7, 0x010b}, + {8, 0x0066}, + {8, 0x0026}, + {9, 0x00ad}, + {8, 0x0006}, + {8, 0x0086}, + {8, 0x0046}, + {9, 0x00ed}, + {7, 0x0107}, + {8, 0x005e}, + {8, 0x001e}, + {9, 0x009d}, + {7, 0x0117}, + {8, 0x007e}, + {8, 0x003e}, + {9, 0x00dd}, + {7, 0x010f}, + {8, 0x006e}, + {8, 0x002e}, + {9, 0x00bd}, + {8, 0x000e}, + {8, 0x008e}, + {8, 0x004e}, + {9, 0x00fd}, + {7, 0x0100}, + {8, 0x0051}, + {8, 0x0011}, + {8, 0x0119}, + {7, 0x0110}, + {8, 0x0071}, + {8, 0x0031}, + {9, 0x00c3}, + {7, 0x0108}, + {8, 0x0061}, + {8, 0x0021}, + {9, 0x00a3}, + {8, 0x0001}, + {8, 0x0081}, + {8, 0x0041}, + {9, 0x00e3}, + {7, 0x0104}, + {8, 0x0059}, + {8, 0x0019}, + {9, 0x0093}, + {7, 0x0114}, + {8, 0x0079}, + {8, 0x0039}, + {9, 0x00d3}, + {7, 0x010c}, + {8, 0x0069}, + {8, 0x0029}, + {9, 0x00b3}, + {8, 0x0009}, + {8, 0x0089}, + {8, 0x0049}, + {9, 0x00f3}, + {7, 0x0102}, + {8, 0x0055}, + {8, 0x0015}, + {8, 0x011d}, + {7, 0x0112}, + {8, 0x0075}, + {8, 0x0035}, + {9, 0x00cb}, + {7, 0x010a}, + {8, 0x0065}, + {8, 0x0025}, + {9, 0x00ab}, + {8, 0x0005}, + {8, 0x0085}, + {8, 0x0045}, + {9, 0x00eb}, + {7, 0x0106}, + {8, 0x005d}, + {8, 0x001d}, + {9, 0x009b}, + {7, 0x0116}, + {8, 0x007d}, + {8, 0x003d}, + {9, 0x00db}, + {7, 0x010e}, + {8, 0x006d}, + {8, 0x002d}, + {9, 0x00bb}, + {8, 0x000d}, + {8, 0x008d}, + {8, 0x004d}, + {9, 0x00fb}, + {7, 0x0101}, + {8, 0x0053}, + {8, 0x0013}, + {8, 0x011b}, + {7, 0x0111}, + {8, 0x0073}, + {8, 0x0033}, + {9, 0x00c7}, + {7, 0x0109}, + {8, 0x0063}, + {8, 0x0023}, + {9, 0x00a7}, + {8, 0x0003}, + {8, 0x0083}, + {8, 0x0043}, + {9, 0x00e7}, + {7, 0x0105}, + {8, 0x005b}, + {8, 0x001b}, + {9, 0x0097}, + {7, 0x0115}, + {8, 0x007b}, + {8, 0x003b}, + {9, 0x00d7}, + {7, 0x010d}, + {8, 0x006b}, + {8, 0x002b}, + {9, 0x00b7}, + {8, 0x000b}, + {8, 0x008b}, + {8, 0x004b}, + {9, 0x00f7}, + {7, 0x0103}, + {8, 0x0057}, + {8, 0x0017}, + {8, 0x011f}, + {7, 0x0113}, + {8, 0x0077}, + {8, 0x0037}, + {9, 0x00cf}, + {7, 0x010b}, + {8, 0x0067}, + {8, 0x0027}, + {9, 0x00af}, + {8, 0x0007}, + {8, 0x0087}, + {8, 0x0047}, + {9, 0x00ef}, + {7, 0x0107}, + {8, 0x005f}, + {8, 0x001f}, + {9, 0x009f}, + {7, 0x0117}, + {8, 0x007f}, + {8, 0x003f}, + {9, 0x00df}, + {7, 0x010f}, + {8, 0x006f}, + {8, 0x002f}, + {9, 0x00bf}, + {8, 0x000f}, + {8, 0x008f}, + {8, 0x004f}, + {9, 0x00ff} +}; + +FlateHuffmanTab FlateStream::fixedLitCodeTab = { + flateFixedLitCodeTabCodes, 9 +}; + +static FlateCode flateFixedDistCodeTabCodes[32] = { + {5, 0x0000}, + {5, 0x0010}, + {5, 0x0008}, + {5, 0x0018}, + {5, 0x0004}, + {5, 0x0014}, + {5, 0x000c}, + {5, 0x001c}, + {5, 0x0002}, + {5, 0x0012}, + {5, 0x000a}, + {5, 0x001a}, + {5, 0x0006}, + {5, 0x0016}, + {5, 0x000e}, + {0, 0x0000}, + {5, 0x0001}, + {5, 0x0011}, + {5, 0x0009}, + {5, 0x0019}, + {5, 0x0005}, + {5, 0x0015}, + {5, 0x000d}, + {5, 0x001d}, + {5, 0x0003}, + {5, 0x0013}, + {5, 0x000b}, + {5, 0x001b}, + {5, 0x0007}, + {5, 0x0017}, + {5, 0x000f}, + {0, 0x0000} +}; + +FlateHuffmanTab FlateStream::fixedDistCodeTab = { + flateFixedDistCodeTabCodes, 5 +}; + +FlateStream::FlateStream(Stream *strA, int predictor, int columns, + int colors, int bits): + FilterStream(strA) { + if (predictor != 1) { + pred = new StreamPredictor(this, predictor, columns, colors, bits); + if (!pred->isOk()) { + delete pred; + pred = NULL; + } + } else { + pred = NULL; + } + litCodeTab.codes = NULL; + distCodeTab.codes = NULL; + memset(buf, 0, flateWindow); +} + +FlateStream::~FlateStream() { + if (litCodeTab.codes != fixedLitCodeTab.codes) { + gfree(litCodeTab.codes); + } + if (distCodeTab.codes != fixedDistCodeTab.codes) { + gfree(distCodeTab.codes); + } + if (pred) { + delete pred; + } + delete str; +} + +void FlateStream::reset() { + int cmf, flg; + + index = 0; + remain = 0; + codeBuf = 0; + codeSize = 0; + compressedBlock = gFalse; + endOfBlock = gTrue; + eof = gTrue; + + str->reset(); + + // read header + //~ need to look at window size? + endOfBlock = eof = gTrue; + cmf = str->getChar(); + flg = str->getChar(); + if (cmf == EOF || flg == EOF) + return; + if ((cmf & 0x0f) != 0x08) { + error(getPos(), "Unknown compression method in flate stream"); + return; + } + if ((((cmf << 8) + flg) % 31) != 0) { + error(getPos(), "Bad FCHECK in flate stream"); + return; + } + if (flg & 0x20) { + error(getPos(), "FDICT bit set in flate stream"); + return; + } + + eof = gFalse; +} + +int FlateStream::getChar() { + int c; + + if (pred) { + return pred->getChar(); + } + while (remain == 0) { + if (endOfBlock && eof) + return EOF; + readSome(); + } + c = buf[index]; + index = (index + 1) & flateMask; + --remain; + return c; +} + +int FlateStream::lookChar() { + int c; + + if (pred) { + return pred->lookChar(); + } + while (remain == 0) { + if (endOfBlock && eof) + return EOF; + readSome(); + } + c = buf[index]; + return c; +} + +int FlateStream::getRawChar() { + int c; + + while (remain == 0) { + if (endOfBlock && eof) + return EOF; + readSome(); + } + c = buf[index]; + index = (index + 1) & flateMask; + --remain; + return c; +} + +GString *FlateStream::getPSFilter(int psLevel, char *indent) { + GString *s; + + if (psLevel < 3 || pred) { + return NULL; + } + if (!(s = str->getPSFilter(psLevel, indent))) { + return NULL; + } + s->append(indent)->append("<< >> /FlateDecode filter\n"); + return s; +} + +GBool FlateStream::isBinary(GBool /*last*/) { + return str->isBinary(gTrue); +} + +void FlateStream::readSome() { + int code1, code2; + int len, dist; + int i, j, k; + int c; + + if (endOfBlock) { + if (!startBlock()) + return; + } + + if (compressedBlock) { + if ((code1 = getHuffmanCodeWord(&litCodeTab)) == EOF) + goto err; + if (code1 < 256) { + buf[index] = code1; + remain = 1; + } else if (code1 == 256) { + endOfBlock = gTrue; + remain = 0; + } else { + code1 -= 257; + code2 = lengthDecode[code1].bits; + if (code2 > 0 && (code2 = getCodeWord(code2)) == EOF) + goto err; + len = lengthDecode[code1].first + code2; + if ((code1 = getHuffmanCodeWord(&distCodeTab)) == EOF) + goto err; + code2 = distDecode[code1].bits; + if (code2 > 0 && (code2 = getCodeWord(code2)) == EOF) + goto err; + dist = distDecode[code1].first + code2; + i = index; + j = (index - dist) & flateMask; + for (k = 0; k < len; ++k) { + buf[i] = buf[j]; + i = (i + 1) & flateMask; + j = (j + 1) & flateMask; + } + remain = len; + } + + } else { + len = (blockLen < flateWindow) ? blockLen : flateWindow; + for (i = 0, j = index; i < len; ++i, j = (j + 1) & flateMask) { + if ((c = str->getChar()) == EOF) { + endOfBlock = eof = gTrue; + break; + } + buf[j] = c & 0xff; + } + remain = i; + blockLen -= len; + if (blockLen == 0) + endOfBlock = gTrue; + } + + return; + +err: + error(getPos(), "Unexpected end of file in flate stream"); + endOfBlock = eof = gTrue; + remain = 0; +} + +GBool FlateStream::startBlock() { + int blockHdr; + int c; + int check; + + // free the code tables from the previous block + if (litCodeTab.codes != fixedLitCodeTab.codes) { + gfree(litCodeTab.codes); + } + litCodeTab.codes = NULL; + if (distCodeTab.codes != fixedDistCodeTab.codes) { + gfree(distCodeTab.codes); + } + distCodeTab.codes = NULL; + + // read block header + blockHdr = getCodeWord(3); + if (blockHdr & 1) + eof = gTrue; + blockHdr >>= 1; + + // uncompressed block + if (blockHdr == 0) { + compressedBlock = gFalse; + if ((c = str->getChar()) == EOF) + goto err; + blockLen = c & 0xff; + if ((c = str->getChar()) == EOF) + goto err; + blockLen |= (c & 0xff) << 8; + if ((c = str->getChar()) == EOF) + goto err; + check = c & 0xff; + if ((c = str->getChar()) == EOF) + goto err; + check |= (c & 0xff) << 8; + if (check != (~blockLen & 0xffff)) + error(getPos(), "Bad uncompressed block length in flate stream"); + codeBuf = 0; + codeSize = 0; + + // compressed block with fixed codes + } else if (blockHdr == 1) { + compressedBlock = gTrue; + loadFixedCodes(); + + // compressed block with dynamic codes + } else if (blockHdr == 2) { + compressedBlock = gTrue; + if (!readDynamicCodes()) { + goto err; + } + + // unknown block type + } else { + goto err; + } + + endOfBlock = gFalse; + return gTrue; + +err: + error(getPos(), "Bad block header in flate stream"); + endOfBlock = eof = gTrue; + return gFalse; +} + +void FlateStream::loadFixedCodes() { + litCodeTab.codes = fixedLitCodeTab.codes; + litCodeTab.maxLen = fixedLitCodeTab.maxLen; + distCodeTab.codes = fixedDistCodeTab.codes; + distCodeTab.maxLen = fixedDistCodeTab.maxLen; +} + +GBool FlateStream::readDynamicCodes() { + int numCodeLenCodes; + int numLitCodes; + int numDistCodes; + int codeLenCodeLengths[flateMaxCodeLenCodes]; + FlateHuffmanTab codeLenCodeTab; + int len, repeat, code; + int i; + + codeLenCodeTab.codes = NULL; + + // read lengths + if ((numLitCodes = getCodeWord(5)) == EOF) { + goto err; + } + numLitCodes += 257; + if ((numDistCodes = getCodeWord(5)) == EOF) { + goto err; + } + numDistCodes += 1; + if ((numCodeLenCodes = getCodeWord(4)) == EOF) { + goto err; + } + numCodeLenCodes += 4; + if (numLitCodes > flateMaxLitCodes || + numDistCodes > flateMaxDistCodes || + numCodeLenCodes > flateMaxCodeLenCodes) { + goto err; + } + + // build the code length code table + for (i = 0; i < flateMaxCodeLenCodes; ++i) { + codeLenCodeLengths[i] = 0; + } + for (i = 0; i < numCodeLenCodes; ++i) { + if ((codeLenCodeLengths[codeLenCodeMap[i]] = getCodeWord(3)) == -1) { + goto err; + } + } + compHuffmanCodes(codeLenCodeLengths, flateMaxCodeLenCodes, &codeLenCodeTab); + + // build the literal and distance code tables + len = 0; + repeat = 0; + i = 0; + while (i < numLitCodes + numDistCodes) { + if ((code = getHuffmanCodeWord(&codeLenCodeTab)) == EOF) { + goto err; + } + if (code == 16) { + if ((repeat = getCodeWord(2)) == EOF) { + goto err; + } + repeat += 3; + if (i + repeat > numLitCodes + numDistCodes) { + goto err; + } + for (; repeat > 0; --repeat) { + codeLengths[i++] = len; + } + } else if (code == 17) { + if ((repeat = getCodeWord(3)) == EOF) { + goto err; + } + repeat += 3; + if (i + repeat > numLitCodes + numDistCodes) { + goto err; + } + len = 0; + for (; repeat > 0; --repeat) { + codeLengths[i++] = 0; + } + } else if (code == 18) { + if ((repeat = getCodeWord(7)) == EOF) { + goto err; + } + repeat += 11; + if (i + repeat > numLitCodes + numDistCodes) { + goto err; + } + len = 0; + for (; repeat > 0; --repeat) { + codeLengths[i++] = 0; + } + } else { + codeLengths[i++] = len = code; + } + } + compHuffmanCodes(codeLengths, numLitCodes, &litCodeTab); + compHuffmanCodes(codeLengths + numLitCodes, numDistCodes, &distCodeTab); + + gfree(codeLenCodeTab.codes); + return gTrue; + +err: + error(getPos(), "Bad dynamic code table in flate stream"); + gfree(codeLenCodeTab.codes); + return gFalse; +} + +// Convert an array of lengths, in value order, into a +// Huffman code lookup table. +void FlateStream::compHuffmanCodes(int *lengths, int n, FlateHuffmanTab *tab) { + int tabSize, len, code, code2, skip, val, i, t; + + // find max code length + tab->maxLen = 0; + for (val = 0; val < n; ++val) { + if (lengths[val] > tab->maxLen) { + tab->maxLen = lengths[val]; + } + } + + // allocate the table + tabSize = 1 << tab->maxLen; + tab->codes = (FlateCode *)gmallocn(tabSize, sizeof(FlateCode)); + + // clear the table + for (i = 0; i < tabSize; ++i) { + tab->codes[i].len = 0; + tab->codes[i].val = 0; + } + + // build the table + for (len = 1, code = 0, skip = 2; + len <= tab->maxLen; + ++len, code <<= 1, skip <<= 1) { + for (val = 0; val < n; ++val) { + if (lengths[val] == len) { + + // bit-reverse the code + code2 = 0; + t = code; + for (i = 0; i < len; ++i) { + code2 = (code2 << 1) | (t & 1); + t >>= 1; + } + + // fill in the table entries + for (i = code2; i < tabSize; i += skip) { + tab->codes[i].len = (Gushort)len; + tab->codes[i].val = (Gushort)val; + } + + ++code; + } + } + } +} + +int FlateStream::getHuffmanCodeWord(FlateHuffmanTab *tab) { + FlateCode *code; + int c; + + while (codeSize < tab->maxLen) { + if ((c = str->getChar()) == EOF) { + break; + } + codeBuf |= (c & 0xff) << codeSize; + codeSize += 8; + } + code = &tab->codes[codeBuf & ((1 << tab->maxLen) - 1)]; + if (codeSize == 0 || codeSize < code->len || code->len == 0) { + return EOF; + } + codeBuf >>= code->len; + codeSize -= code->len; + return (int)code->val; +} + +int FlateStream::getCodeWord(int bits) { + int c; + + while (codeSize < bits) { + if ((c = str->getChar()) == EOF) + return EOF; + codeBuf |= (c & 0xff) << codeSize; + codeSize += 8; + } + c = codeBuf & ((1 << bits) - 1); + codeBuf >>= bits; + codeSize -= bits; + return c; +} + +//------------------------------------------------------------------------ +// EOFStream +//------------------------------------------------------------------------ + +EOFStream::EOFStream(Stream *strA): + FilterStream(strA) { +} + +EOFStream::~EOFStream() { + delete str; +} + +//------------------------------------------------------------------------ +// FixedLengthEncoder +//------------------------------------------------------------------------ + +FixedLengthEncoder::FixedLengthEncoder(Stream *strA, int lengthA): + FilterStream(strA) { + length = lengthA; + count = 0; +} + +FixedLengthEncoder::~FixedLengthEncoder() { + if (str->isEncoder()) + delete str; +} + +void FixedLengthEncoder::reset() { + str->reset(); + count = 0; +} + +int FixedLengthEncoder::getChar() { + if (length >= 0 && count >= length) + return EOF; + ++count; + return str->getChar(); +} + +int FixedLengthEncoder::lookChar() { + if (length >= 0 && count >= length) + return EOF; + return str->getChar(); +} + +GBool FixedLengthEncoder::isBinary(GBool /*last*/) { + return str->isBinary(gTrue); +} + +//------------------------------------------------------------------------ +// ASCIIHexEncoder +//------------------------------------------------------------------------ + +ASCIIHexEncoder::ASCIIHexEncoder(Stream *strA): + FilterStream(strA) { + bufPtr = bufEnd = buf; + lineLen = 0; + eof = gFalse; +} + +ASCIIHexEncoder::~ASCIIHexEncoder() { + if (str->isEncoder()) { + delete str; + } +} + +void ASCIIHexEncoder::reset() { + str->reset(); + bufPtr = bufEnd = buf; + lineLen = 0; + eof = gFalse; +} + +GBool ASCIIHexEncoder::fillBuf() { + static char *hex = "0123456789abcdef"; + int c; + + if (eof) { + return gFalse; + } + bufPtr = bufEnd = buf; + if ((c = str->getChar()) == EOF) { + *bufEnd++ = '>'; + eof = gTrue; + } else { + if (lineLen >= 64) { + *bufEnd++ = '\n'; + lineLen = 0; + } + *bufEnd++ = hex[(c >> 4) & 0x0f]; + *bufEnd++ = hex[c & 0x0f]; + lineLen += 2; + } + return gTrue; +} + +//------------------------------------------------------------------------ +// ASCII85Encoder +//------------------------------------------------------------------------ + +ASCII85Encoder::ASCII85Encoder(Stream *strA): + FilterStream(strA) { + bufPtr = bufEnd = buf; + lineLen = 0; + eof = gFalse; +} + +ASCII85Encoder::~ASCII85Encoder() { + if (str->isEncoder()) + delete str; +} + +void ASCII85Encoder::reset() { + str->reset(); + bufPtr = bufEnd = buf; + lineLen = 0; + eof = gFalse; +} + +GBool ASCII85Encoder::fillBuf() { + Guint t; + char buf1[5]; + int c0, c1, c2, c3; + int n, i; + + if (eof) { + return gFalse; + } + c0 = str->getChar(); + c1 = str->getChar(); + c2 = str->getChar(); + c3 = str->getChar(); + bufPtr = bufEnd = buf; + if (c3 == EOF) { + if (c0 == EOF) { + n = 0; + t = 0; + } else { + if (c1 == EOF) { + n = 1; + t = c0 << 24; + } else if (c2 == EOF) { + n = 2; + t = (c0 << 24) | (c1 << 16); + } else { + n = 3; + t = (c0 << 24) | (c1 << 16) | (c2 << 8); + } + for (i = 4; i >= 0; --i) { + buf1[i] = (char)(t % 85 + 0x21); + t /= 85; + } + for (i = 0; i <= n; ++i) { + *bufEnd++ = buf1[i]; + if (++lineLen == 65) { + *bufEnd++ = '\n'; + lineLen = 0; + } + } + } + *bufEnd++ = '~'; + *bufEnd++ = '>'; + eof = gTrue; + } else { + t = (c0 << 24) | (c1 << 16) | (c2 << 8) | c3; + if (t == 0) { + *bufEnd++ = 'z'; + if (++lineLen == 65) { + *bufEnd++ = '\n'; + lineLen = 0; + } + } else { + for (i = 4; i >= 0; --i) { + buf1[i] = (char)(t % 85 + 0x21); + t /= 85; + } + for (i = 0; i <= 4; ++i) { + *bufEnd++ = buf1[i]; + if (++lineLen == 65) { + *bufEnd++ = '\n'; + lineLen = 0; + } + } + } + } + return gTrue; +} + +//------------------------------------------------------------------------ +// RunLengthEncoder +//------------------------------------------------------------------------ + +RunLengthEncoder::RunLengthEncoder(Stream *strA): + FilterStream(strA) { + bufPtr = bufEnd = nextEnd = buf; + eof = gFalse; +} + +RunLengthEncoder::~RunLengthEncoder() { + if (str->isEncoder()) + delete str; +} + +void RunLengthEncoder::reset() { + str->reset(); + bufPtr = bufEnd = nextEnd = buf; + eof = gFalse; +} + +// +// When fillBuf finishes, buf[] looks like this: +// +-----+--------------+-----------------+-- +// + tag | ... data ... | next 0, 1, or 2 | +// +-----+--------------+-----------------+-- +// ^ ^ ^ +// bufPtr bufEnd nextEnd +// +GBool RunLengthEncoder::fillBuf() { + int c, c1, c2; + int n; + + // already hit EOF? + if (eof) + return gFalse; + + // grab two bytes + if (nextEnd < bufEnd + 1) { + if ((c1 = str->getChar()) == EOF) { + eof = gTrue; + return gFalse; + } + } else { + c1 = bufEnd[0] & 0xff; + } + if (nextEnd < bufEnd + 2) { + if ((c2 = str->getChar()) == EOF) { + eof = gTrue; + buf[0] = 0; + buf[1] = c1; + bufPtr = buf; + bufEnd = &buf[2]; + return gTrue; + } + } else { + c2 = bufEnd[1] & 0xff; + } + + // check for repeat + c = 0; // make gcc happy + if (c1 == c2) { + n = 2; + while (n < 128 && (c = str->getChar()) == c1) + ++n; + buf[0] = (char)(257 - n); + buf[1] = c1; + bufEnd = &buf[2]; + if (c == EOF) { + eof = gTrue; + } else if (n < 128) { + buf[2] = c; + nextEnd = &buf[3]; + } else { + nextEnd = bufEnd; + } + + // get up to 128 chars + } else { + buf[1] = c1; + buf[2] = c2; + n = 2; + while (n < 128) { + if ((c = str->getChar()) == EOF) { + eof = gTrue; + break; + } + ++n; + buf[n] = c; + if (buf[n] == buf[n-1]) + break; + } + if (buf[n] == buf[n-1]) { + buf[0] = (char)(n-2-1); + bufEnd = &buf[n-1]; + nextEnd = &buf[n+1]; + } else { + buf[0] = (char)(n-1); + bufEnd = nextEnd = &buf[n+1]; + } + } + bufPtr = buf; + return gTrue; +} diff --git a/kpdf/xpdf/xpdf/Stream.h b/kpdf/xpdf/xpdf/Stream.h new file mode 100644 index 00000000..b2f71de7 --- /dev/null +++ b/kpdf/xpdf/xpdf/Stream.h @@ -0,0 +1,860 @@ +//======================================================================== +// +// Stream.h +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef STREAM_H +#define STREAM_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include +#include "gtypes.h" +#include "Object.h" + +class BaseStream; + +//------------------------------------------------------------------------ + +enum StreamKind { + strFile, + strASCIIHex, + strASCII85, + strLZW, + strRunLength, + strCCITTFax, + strDCT, + strFlate, + strJBIG2, + strJPX, + strWeird // internal-use stream types +}; + +enum StreamColorSpaceMode { + streamCSNone, + streamCSDeviceGray, + streamCSDeviceRGB, + streamCSDeviceCMYK +}; + +//------------------------------------------------------------------------ + +// This is in Stream.h instead of Decrypt.h to avoid really annoying +// include file dependency loops. +enum CryptAlgorithm { + cryptRC4, + cryptAES +}; + +//------------------------------------------------------------------------ +// Stream (base class) +//------------------------------------------------------------------------ + +class Stream { +public: + + // Constructor. + Stream(); + + // Destructor. + virtual ~Stream(); + + // Reference counting. + int incRef() { return ++ref; } + int decRef() { return --ref; } + + // Get kind of stream. + virtual StreamKind getKind() = 0; + + // Reset stream to beginning. + virtual void reset() = 0; + + // Close down the stream. + virtual void close(); + + // Get next char from stream. + virtual int getChar() = 0; + + // Peek at next char in stream. + virtual int lookChar() = 0; + + // Get next char from stream without using the predictor. + // This is only used by StreamPredictor. + virtual int getRawChar(); + + // Get next line from stream. + virtual char *getLine(char *buf, int size); + + // Get current position in file. + virtual int getPos() = 0; + + // Go to a position in the stream. If

is negative, the + // position is from the end of the file; otherwise the position is + // from the start of the file. + virtual void setPos(Guint pos, int dir = 0) = 0; + + // Get PostScript command for the filter(s). + virtual GString *getPSFilter(int psLevel, char *indent); + + // Does this stream type potentially contain non-printable chars? + virtual GBool isBinary(GBool last = gTrue) = 0; + + // Get the BaseStream of this stream. + virtual BaseStream *getBaseStream() = 0; + + // Get the stream after the last decoder (this may be a BaseStream + // or a DecryptStream). + virtual Stream *getUndecodedStream() = 0; + + // Get the dictionary associated with this stream. + virtual Dict *getDict() = 0; + + // Is this an encoding filter? + virtual GBool isEncoder() { return gFalse; } + + // Get image parameters which are defined by the stream contents. + virtual void getImageParams(int * /*bitsPerComponent*/, + StreamColorSpaceMode * /*csMode*/) {} + + // Return the next stream in the "stack". + virtual Stream *getNextStream() { return NULL; } + + // Add filters to this stream according to the parameters in . + // Returns the new stream. + Stream *addFilters(Object *dict); + +private: + + Stream *makeFilter(char *name, Stream *str, Object *params); + + int ref; // reference count +}; + +//------------------------------------------------------------------------ +// BaseStream +// +// This is the base class for all streams that read directly from a file. +//------------------------------------------------------------------------ + +class BaseStream: public Stream { +public: + + BaseStream(Object *dictA); + virtual ~BaseStream(); + virtual Stream *makeSubStream(Guint start, GBool limited, + Guint length, Object *dict) = 0; + virtual void setPos(Guint pos, int dir = 0) = 0; + virtual GBool isBinary(GBool last = gTrue) { return last; } + virtual BaseStream *getBaseStream() { return this; } + virtual Stream *getUndecodedStream() { return this; } + virtual Dict *getDict() { return dict.getDict(); } + virtual GString *getFileName() { return NULL; } + + // Get/set position of first byte of stream within the file. + virtual Guint getStart() = 0; + virtual void moveStart(int delta) = 0; + +private: + + Object dict; +}; + +//------------------------------------------------------------------------ +// FilterStream +// +// This is the base class for all streams that filter another stream. +//------------------------------------------------------------------------ + +class FilterStream: public Stream { +public: + + FilterStream(Stream *strA); + virtual ~FilterStream(); + virtual void close(); + virtual int getPos() { return str->getPos(); } + virtual void setPos(Guint pos, int dir = 0); + virtual BaseStream *getBaseStream() { return str->getBaseStream(); } + virtual Stream *getUndecodedStream() { return str->getUndecodedStream(); } + virtual Dict *getDict() { return str->getDict(); } + virtual Stream *getNextStream() { return str; } + +protected: + + Stream *str; +}; + +//------------------------------------------------------------------------ +// ImageStream +//------------------------------------------------------------------------ + +class ImageStream { +public: + + // Create an image stream object for an image with the specified + // parameters. Note that these are the actual image parameters, + // which may be different from the predictor parameters. + ImageStream(Stream *strA, int widthA, int nCompsA, int nBitsA); + + ~ImageStream(); + + // Reset the stream. + void reset(); + + // Gets the next pixel from the stream. should be able to hold + // at least nComps elements. Returns false at end of file. + GBool getPixel(Guchar *pix); + + // Returns a pointer to the next line of pixels. Returns NULL at + // end of file. + Guchar *getLine(); + + // Skip an entire line from the image. + void skipLine(); + +private: + + Stream *str; // base stream + int width; // pixels per line + int nComps; // components per pixel + int nBits; // bits per component + int nVals; // components per line + Guchar *imgLine; // line buffer + int imgIdx; // current index in imgLine +}; + +//------------------------------------------------------------------------ +// StreamPredictor +//------------------------------------------------------------------------ + +class StreamPredictor { +public: + + // Create a predictor object. Note that the parameters are for the + // predictor, and may not match the actual image parameters. + StreamPredictor(Stream *strA, int predictorA, + int widthA, int nCompsA, int nBitsA); + + ~StreamPredictor(); + + GBool isOk() { return ok; } + + int lookChar(); + int getChar(); + +private: + + GBool getNextLine(); + + Stream *str; // base stream + int predictor; // predictor + int width; // pixels per line + int nComps; // components per pixel + int nBits; // bits per component + int nVals; // components per line + int pixBytes; // bytes per pixel + int rowBytes; // bytes per line + Guchar *predLine; // line buffer + int predIdx; // current index in predLine + GBool ok; +}; + +//------------------------------------------------------------------------ +// FileStream +//------------------------------------------------------------------------ + +#define fileStreamBufSize 256 + +class FileStream: public BaseStream { +public: + + FileStream(FILE *fA, Guint startA, GBool limitedA, + Guint lengthA, Object *dictA); + virtual ~FileStream(); + virtual Stream *makeSubStream(Guint startA, GBool limitedA, + Guint lengthA, Object *dictA); + virtual StreamKind getKind() { return strFile; } + virtual void reset(); + virtual void close(); + virtual int getChar() + { return (bufPtr >= bufEnd && !fillBuf()) ? EOF : (*bufPtr++ & 0xff); } + virtual int lookChar() + { return (bufPtr >= bufEnd && !fillBuf()) ? EOF : (*bufPtr & 0xff); } + virtual int getPos() { return bufPos + (bufPtr - buf); } + virtual void setPos(Guint pos, int dir = 0); + virtual Guint getStart() { return start; } + virtual void moveStart(int delta); + +private: + + GBool fillBuf(); + + FILE *f; + Guint start; + GBool limited; + Guint length; + char buf[fileStreamBufSize]; + char *bufPtr; + char *bufEnd; + Guint bufPos; + int savePos; + GBool saved; +}; + +//------------------------------------------------------------------------ +// MemStream +//------------------------------------------------------------------------ + +class MemStream: public BaseStream { +public: + + MemStream(char *bufA, Guint startA, Guint lengthA, Object *dictA); + virtual ~MemStream(); + virtual Stream *makeSubStream(Guint start, GBool limited, + Guint lengthA, Object *dictA); + virtual StreamKind getKind() { return strWeird; } + virtual void reset(); + virtual void close(); + virtual int getChar() + { return (bufPtr < bufEnd) ? (*bufPtr++ & 0xff) : EOF; } + virtual int lookChar() + { return (bufPtr < bufEnd) ? (*bufPtr & 0xff) : EOF; } + virtual int getPos() { return (int)(bufPtr - buf); } + virtual void setPos(Guint pos, int dir = 0); + virtual Guint getStart() { return start; } + virtual void moveStart(int delta); + +private: + + char *buf; + Guint start; + Guint length; + char *bufEnd; + char *bufPtr; + GBool needFree; +}; + +//------------------------------------------------------------------------ +// EmbedStream +// +// This is a special stream type used for embedded streams (inline +// images). It reads directly from the base stream -- after the +// EmbedStream is deleted, reads from the base stream will proceed where +// the BaseStream left off. Note that this is very different behavior +// that creating a new FileStream (using makeSubStream). +//------------------------------------------------------------------------ + +class EmbedStream: public BaseStream { +public: + + EmbedStream(Stream *strA, Object *dictA, GBool limitedA, Guint lengthA); + virtual ~EmbedStream(); + virtual Stream *makeSubStream(Guint start, GBool limitedA, + Guint lengthA, Object *dictA); + virtual StreamKind getKind() { return str->getKind(); } + virtual void reset() {} + virtual int getChar(); + virtual int lookChar(); + virtual int getPos() { return str->getPos(); } + virtual void setPos(Guint pos, int dir = 0); + virtual Guint getStart(); + virtual void moveStart(int delta); + +private: + + Stream *str; + GBool limited; + Guint length; +}; + +//------------------------------------------------------------------------ +// ASCIIHexStream +//------------------------------------------------------------------------ + +class ASCIIHexStream: public FilterStream { +public: + + ASCIIHexStream(Stream *strA); + virtual ~ASCIIHexStream(); + virtual StreamKind getKind() { return strASCIIHex; } + virtual void reset(); + virtual int getChar() + { int c = lookChar(); buf = EOF; return c; } + virtual int lookChar(); + virtual GString *getPSFilter(int psLevel, char *indent); + virtual GBool isBinary(GBool last = gTrue); + +private: + + int buf; + GBool eof; +}; + +//------------------------------------------------------------------------ +// ASCII85Stream +//------------------------------------------------------------------------ + +class ASCII85Stream: public FilterStream { +public: + + ASCII85Stream(Stream *strA); + virtual ~ASCII85Stream(); + virtual StreamKind getKind() { return strASCII85; } + virtual void reset(); + virtual int getChar() + { int ch = lookChar(); ++index; return ch; } + virtual int lookChar(); + virtual GString *getPSFilter(int psLevel, char *indent); + virtual GBool isBinary(GBool last = gTrue); + +private: + + int c[5]; + int b[4]; + int index, n; + GBool eof; +}; + +//------------------------------------------------------------------------ +// LZWStream +//------------------------------------------------------------------------ + +class LZWStream: public FilterStream { +public: + + LZWStream(Stream *strA, int predictor, int columns, int colors, + int bits, int earlyA); + virtual ~LZWStream(); + virtual StreamKind getKind() { return strLZW; } + virtual void reset(); + virtual int getChar(); + virtual int lookChar(); + virtual int getRawChar(); + virtual GString *getPSFilter(int psLevel, char *indent); + virtual GBool isBinary(GBool last = gTrue); + +private: + + StreamPredictor *pred; // predictor + int early; // early parameter + GBool eof; // true if at eof + int inputBuf; // input buffer + int inputBits; // number of bits in input buffer + struct { // decoding table + int length; + int head; + Guchar tail; + } table[4097]; + int nextCode; // next code to be used + int nextBits; // number of bits in next code word + int prevCode; // previous code used in stream + int newChar; // next char to be added to table + Guchar seqBuf[4097]; // buffer for current sequence + int seqLength; // length of current sequence + int seqIndex; // index into current sequence + GBool first; // first code after a table clear + + GBool processNextCode(); + void clearTable(); + int getCode(); +}; + +//------------------------------------------------------------------------ +// RunLengthStream +//------------------------------------------------------------------------ + +class RunLengthStream: public FilterStream { +public: + + RunLengthStream(Stream *strA); + virtual ~RunLengthStream(); + virtual StreamKind getKind() { return strRunLength; } + virtual void reset(); + virtual int getChar() + { return (bufPtr >= bufEnd && !fillBuf()) ? EOF : (*bufPtr++ & 0xff); } + virtual int lookChar() + { return (bufPtr >= bufEnd && !fillBuf()) ? EOF : (*bufPtr & 0xff); } + virtual GString *getPSFilter(int psLevel, char *indent); + virtual GBool isBinary(GBool last = gTrue); + +private: + + char buf[128]; // buffer + char *bufPtr; // next char to read + char *bufEnd; // end of buffer + GBool eof; + + GBool fillBuf(); +}; + +//------------------------------------------------------------------------ +// CCITTFaxStream +//------------------------------------------------------------------------ + +struct CCITTCodeTable; + +class CCITTFaxStream: public FilterStream { +public: + + CCITTFaxStream(Stream *strA, int encodingA, GBool endOfLineA, + GBool byteAlignA, int columnsA, int rowsA, + GBool endOfBlockA, GBool blackA); + virtual ~CCITTFaxStream(); + virtual StreamKind getKind() { return strCCITTFax; } + virtual void reset(); + virtual int getChar() + { int c = lookChar(); buf = EOF; return c; } + virtual int lookChar(); + virtual GString *getPSFilter(int psLevel, char *indent); + virtual GBool isBinary(GBool last = gTrue); + +private: + + int encoding; // 'K' parameter + GBool endOfLine; // 'EndOfLine' parameter + GBool byteAlign; // 'EncodedByteAlign' parameter + int columns; // 'Columns' parameter + int rows; // 'Rows' parameter + GBool endOfBlock; // 'EndOfBlock' parameter + GBool black; // 'BlackIs1' parameter + GBool eof; // true if at eof + GBool nextLine2D; // true if next line uses 2D encoding + int row; // current row + int inputBuf; // input buffer + int inputBits; // number of bits in input buffer + int *codingLine; // coding line changing elements + int *refLine; // reference line changing elements + int a0i; // index into codingLine + GBool err; // error on current line + int outputBits; // remaining ouput bits + int buf; // character buffer + + void addPixels(int a1, int black); + void addPixelsNeg(int a1, int black); + short getTwoDimCode(); + short getWhiteCode(); + short getBlackCode(); + short lookBits(int n); + void eatBits(int n) { if ((inputBits -= n) < 0) inputBits = 0; } +}; + +//------------------------------------------------------------------------ +// DCTStream +//------------------------------------------------------------------------ + +// DCT component info +struct DCTCompInfo { + int id; // component ID + int hSample, vSample; // horiz/vert sampling resolutions + int quantTable; // quantization table number + int prevDC; // DC coefficient accumulator +}; + +struct DCTScanInfo { + GBool comp[4]; // comp[i] is set if component i is + // included in this scan + int numComps; // number of components in the scan + int dcHuffTable[4]; // DC Huffman table numbers + int acHuffTable[4]; // AC Huffman table numbers + int firstCoeff, lastCoeff; // first and last DCT coefficient + int ah, al; // successive approximation parameters +}; + +// DCT Huffman decoding table +struct DCTHuffTable { + Guchar firstSym[17]; // first symbol for this bit length + Gushort firstCode[17]; // first code for this bit length + Gushort numCodes[17]; // number of codes of this bit length + Guchar sym[256]; // symbols +}; + +class DCTStream: public FilterStream { +public: + + DCTStream(Stream *strA, int colorXformA); + virtual ~DCTStream(); + virtual StreamKind getKind() { return strDCT; } + virtual void reset(); + virtual void close(); + virtual int getChar(); + virtual int lookChar(); + virtual GString *getPSFilter(int psLevel, char *indent); + virtual GBool isBinary(GBool last = gTrue); + Stream *getRawStream() { return str; } + +private: + + GBool progressive; // set if in progressive mode + GBool interleaved; // set if in interleaved mode + int width, height; // image size + int mcuWidth, mcuHeight; // size of min coding unit, in data units + int bufWidth, bufHeight; // frameBuf size + DCTCompInfo compInfo[4]; // info for each component + DCTScanInfo scanInfo; // info for the current scan + int numComps; // number of components in image + int colorXform; // color transform: -1 = unspecified + // 0 = none + // 1 = YUV/YUVK -> RGB/CMYK + GBool gotJFIFMarker; // set if APP0 JFIF marker was present + GBool gotAdobeMarker; // set if APP14 Adobe marker was present + int restartInterval; // restart interval, in MCUs + Gushort quantTables[4][64]; // quantization tables + int numQuantTables; // number of quantization tables + DCTHuffTable dcHuffTables[4]; // DC Huffman tables + DCTHuffTable acHuffTables[4]; // AC Huffman tables + int numDCHuffTables; // number of DC Huffman tables + int numACHuffTables; // number of AC Huffman tables + Guchar *rowBuf[4][32]; // buffer for one MCU (non-progressive mode) + int *frameBuf[4]; // buffer for frame (progressive mode) + int comp, x, y, dy; // current position within image/MCU + int restartCtr; // MCUs left until restart + int restartMarker; // next restart marker + int eobRun; // number of EOBs left in the current run + int inputBuf; // input buffer for variable length codes + int inputBits; // number of valid bits in input buffer + + void restart(); + GBool readMCURow(); + void readScan(); + GBool readDataUnit(DCTHuffTable *dcHuffTable, + DCTHuffTable *acHuffTable, + int *prevDC, int data[64]); + GBool readProgressiveDataUnit(DCTHuffTable *dcHuffTable, + DCTHuffTable *acHuffTable, + int *prevDC, int data[64]); + void decodeImage(); + void transformDataUnit(Gushort *quantTable, + int dataIn[64], Guchar dataOut[64]); + int readHuffSym(DCTHuffTable *table); + int readAmp(int size); + int readBit(); + GBool readHeader(); + GBool readBaselineSOF(); + GBool readProgressiveSOF(); + GBool readScanInfo(); + GBool readQuantTables(); + GBool readHuffmanTables(); + GBool readRestartInterval(); + GBool readJFIFMarker(); + GBool readAdobeMarker(); + GBool readTrailer(); + int readMarker(); + int read16(); +}; + +//------------------------------------------------------------------------ +// FlateStream +//------------------------------------------------------------------------ + +#define flateWindow 32768 // buffer size +#define flateMask (flateWindow-1) +#define flateMaxHuffman 15 // max Huffman code length +#define flateMaxCodeLenCodes 19 // max # code length codes +#define flateMaxLitCodes 288 // max # literal codes +#define flateMaxDistCodes 30 // max # distance codes + +// Huffman code table entry +struct FlateCode { + Gushort len; // code length, in bits + Gushort val; // value represented by this code +}; + +struct FlateHuffmanTab { + FlateCode *codes; + int maxLen; +}; + +// Decoding info for length and distance code words +struct FlateDecode { + int bits; // # extra bits + int first; // first length/distance +}; + +class FlateStream: public FilterStream { +public: + + FlateStream(Stream *strA, int predictor, int columns, + int colors, int bits); + virtual ~FlateStream(); + virtual StreamKind getKind() { return strFlate; } + virtual void reset(); + virtual int getChar(); + virtual int lookChar(); + virtual int getRawChar(); + virtual GString *getPSFilter(int psLevel, char *indent); + virtual GBool isBinary(GBool last = gTrue); + +private: + + StreamPredictor *pred; // predictor + Guchar buf[flateWindow]; // output data buffer + int index; // current index into output buffer + int remain; // number valid bytes in output buffer + int codeBuf; // input buffer + int codeSize; // number of bits in input buffer + int // literal and distance code lengths + codeLengths[flateMaxLitCodes + flateMaxDistCodes]; + FlateHuffmanTab litCodeTab; // literal code table + FlateHuffmanTab distCodeTab; // distance code table + GBool compressedBlock; // set if reading a compressed block + int blockLen; // remaining length of uncompressed block + GBool endOfBlock; // set when end of block is reached + GBool eof; // set when end of stream is reached + + static int // code length code reordering + codeLenCodeMap[flateMaxCodeLenCodes]; + static FlateDecode // length decoding info + lengthDecode[flateMaxLitCodes-257]; + static FlateDecode // distance decoding info + distDecode[flateMaxDistCodes]; + static FlateHuffmanTab // fixed literal code table + fixedLitCodeTab; + static FlateHuffmanTab // fixed distance code table + fixedDistCodeTab; + + void readSome(); + GBool startBlock(); + void loadFixedCodes(); + GBool readDynamicCodes(); + void compHuffmanCodes(int *lengths, int n, FlateHuffmanTab *tab); + int getHuffmanCodeWord(FlateHuffmanTab *tab); + int getCodeWord(int bits); +}; + +//------------------------------------------------------------------------ +// EOFStream +//------------------------------------------------------------------------ + +class EOFStream: public FilterStream { +public: + + EOFStream(Stream *strA); + virtual ~EOFStream(); + virtual StreamKind getKind() { return strWeird; } + virtual void reset() {} + virtual int getChar() { return EOF; } + virtual int lookChar() { return EOF; } + virtual GString *getPSFilter(int /*psLevel*/, char * /*indent*/) { return NULL; } + virtual GBool isBinary(GBool /*last*/ = gTrue) { return gFalse; } +}; + +//------------------------------------------------------------------------ +// FixedLengthEncoder +//------------------------------------------------------------------------ + +class FixedLengthEncoder: public FilterStream { +public: + + FixedLengthEncoder(Stream *strA, int lengthA); + ~FixedLengthEncoder(); + virtual StreamKind getKind() { return strWeird; } + virtual void reset(); + virtual int getChar(); + virtual int lookChar(); + virtual GString *getPSFilter(int /*psLevel*/, char * /*indent*/) { return NULL; } + virtual GBool isBinary(GBool last = gTrue); + virtual GBool isEncoder() { return gTrue; } + +private: + + int length; + int count; +}; + +//------------------------------------------------------------------------ +// ASCIIHexEncoder +//------------------------------------------------------------------------ + +class ASCIIHexEncoder: public FilterStream { +public: + + ASCIIHexEncoder(Stream *strA); + virtual ~ASCIIHexEncoder(); + virtual StreamKind getKind() { return strWeird; } + virtual void reset(); + virtual int getChar() + { return (bufPtr >= bufEnd && !fillBuf()) ? EOF : (*bufPtr++ & 0xff); } + virtual int lookChar() + { return (bufPtr >= bufEnd && !fillBuf()) ? EOF : (*bufPtr & 0xff); } + virtual GString *getPSFilter(int /*psLevel*/, char * /*indent*/) { return NULL; } + virtual GBool isBinary(GBool /*last*/ = gTrue) { return gFalse; } + virtual GBool isEncoder() { return gTrue; } + +private: + + char buf[4]; + char *bufPtr; + char *bufEnd; + int lineLen; + GBool eof; + + GBool fillBuf(); +}; + +//------------------------------------------------------------------------ +// ASCII85Encoder +//------------------------------------------------------------------------ + +class ASCII85Encoder: public FilterStream { +public: + + ASCII85Encoder(Stream *strA); + virtual ~ASCII85Encoder(); + virtual StreamKind getKind() { return strWeird; } + virtual void reset(); + virtual int getChar() + { return (bufPtr >= bufEnd && !fillBuf()) ? EOF : (*bufPtr++ & 0xff); } + virtual int lookChar() + { return (bufPtr >= bufEnd && !fillBuf()) ? EOF : (*bufPtr & 0xff); } + virtual GString *getPSFilter(int /*psLevel*/, char * /*indent*/) { return NULL; } + virtual GBool isBinary(GBool /*last*/ = gTrue) { return gFalse; } + virtual GBool isEncoder() { return gTrue; } + +private: + + char buf[8]; + char *bufPtr; + char *bufEnd; + int lineLen; + GBool eof; + + GBool fillBuf(); +}; + +//------------------------------------------------------------------------ +// RunLengthEncoder +//------------------------------------------------------------------------ + +class RunLengthEncoder: public FilterStream { +public: + + RunLengthEncoder(Stream *strA); + virtual ~RunLengthEncoder(); + virtual StreamKind getKind() { return strWeird; } + virtual void reset(); + virtual int getChar() + { return (bufPtr >= bufEnd && !fillBuf()) ? EOF : (*bufPtr++ & 0xff); } + virtual int lookChar() + { return (bufPtr >= bufEnd && !fillBuf()) ? EOF : (*bufPtr & 0xff); } + virtual GString *getPSFilter(int /*psLevel*/, char * /*indent*/) { return NULL; } + virtual GBool isBinary(GBool /*last*/ = gTrue) { return gTrue; } + virtual GBool isEncoder() { return gTrue; } + +private: + + char buf[131]; + char *bufPtr; + char *bufEnd; + char *nextEnd; + GBool eof; + + GBool fillBuf(); +}; + +#endif diff --git a/kpdf/xpdf/xpdf/TextOutputDev.cc b/kpdf/xpdf/xpdf/TextOutputDev.cc new file mode 100644 index 00000000..d2bfaf63 --- /dev/null +++ b/kpdf/xpdf/xpdf/TextOutputDev.cc @@ -0,0 +1,4090 @@ +//======================================================================== +// +// TextOutputDev.cc +// +// Copyright 1997-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include +#include +#include +#ifdef WIN32 +#include // for O_BINARY +#include // for setmode +#endif +#include "gmem.h" +#include "GString.h" +#include "GList.h" +#include "config.h" +#include "Error.h" +#include "GlobalParams.h" +#include "UnicodeMap.h" +#include "UnicodeTypeTable.h" +#include "GfxState.h" +#include "Link.h" +#include "TextOutputDev.h" + +#ifdef MACOS +// needed for setting type/creator of MacOS files +#include "ICSupport.h" +#endif + +//------------------------------------------------------------------------ +// parameters +//------------------------------------------------------------------------ + +// Each bucket in a text pool includes baselines within a range of +// this many points. +#define textPoolStep 4 + +// Inter-character space width which will cause addChar to start a new +// word. +#define minWordBreakSpace 0.1 + +// Negative inter-character space width, i.e., overlap, which will +// cause addChar to start a new word. +#define minDupBreakOverlap 0.2 + +// Max distance between baselines of two lines within a block, as a +// fraction of the font size. +#define maxLineSpacingDelta 1.5 + +// Max difference in primary font sizes on two lines in the same +// block. Delta1 is used when examining new lines above and below the +// current block; delta2 is used when examining text that overlaps the +// current block; delta3 is used when examining text to the left and +// right of the current block. +#define maxBlockFontSizeDelta1 0.05 +#define maxBlockFontSizeDelta2 0.6 +#define maxBlockFontSizeDelta3 0.2 + +// Max difference in font sizes inside a word. +#define maxWordFontSizeDelta 0.05 + +// Maximum distance between baselines of two words on the same line, +// e.g., distance between subscript or superscript and the primary +// baseline, as a fraction of the font size. +#define maxIntraLineDelta 0.5 + +// Minimum inter-word spacing, as a fraction of the font size. (Only +// used for raw ordering.) +#define minWordSpacing 0.15 + +// Maximum inter-word spacing, as a fraction of the font size. +#define maxWordSpacing 1.5 + +// Maximum horizontal spacing which will allow a word to be pulled +// into a block. +#define minColSpacing1 0.3 + +// Minimum spacing between columns, as a fraction of the font size. +#define minColSpacing2 1.0 + +// Maximum vertical spacing between blocks within a flow, as a +// multiple of the font size. +#define maxBlockSpacing 2.5 + +// Minimum spacing between characters within a word, as a fraction of +// the font size. +#define minCharSpacing -0.2 + +// Maximum spacing between characters within a word, as a fraction of +// the font size, when there is no obvious extra-wide character +// spacing. +#define maxCharSpacing 0.03 + +// When extra-wide character spacing is detected, the inter-character +// space threshold is set to the minimum inter-character space +// multiplied by this constant. +#define maxWideCharSpacingMul 1.3 + +// Upper limit on spacing between characters in a word. +#define maxWideCharSpacing 0.4 + +// Max difference in primary,secondary coordinates (as a fraction of +// the font size) allowed for duplicated text (fake boldface, drop +// shadows) which is to be discarded. +#define dupMaxPriDelta 0.1 +#define dupMaxSecDelta 0.2 + +// Max width of underlines (in points). +#define maxUnderlineWidth 3 + +// Min distance between baseline and underline (in points). +//~ this should be font-size-dependent +#define minUnderlineGap -2 + +// Max distance between baseline and underline (in points). +//~ this should be font-size-dependent +#define maxUnderlineGap 4 + +// Max horizontal distance between edge of word and start of underline +// (in points). +//~ this should be font-size-dependent +#define underlineSlack 1 + +// Max distance between edge of text and edge of link border +#define hyperlinkSlack 2 + +//------------------------------------------------------------------------ +// TextUnderline +//------------------------------------------------------------------------ + +class TextUnderline { +public: + + TextUnderline(double x0A, double y0A, double x1A, double y1A) + { x0 = x0A; y0 = y0A; x1 = x1A; y1 = y1A; horiz = y0 == y1; } + ~TextUnderline() {} + + double x0, y0, x1, y1; + GBool horiz; +}; + +//------------------------------------------------------------------------ +// TextLink +//------------------------------------------------------------------------ + +class TextLink { +public: + + TextLink(int xMinA, int yMinA, int xMaxA, int yMaxA, Link *linkA) + { xMin = xMinA; yMin = yMinA; xMax = xMaxA; yMax = yMaxA; link = linkA; } + ~TextLink() {} + + int xMin, yMin, xMax, yMax; + Link *link; +}; + +//------------------------------------------------------------------------ +// TextFontInfo +//------------------------------------------------------------------------ + +TextFontInfo::TextFontInfo(GfxState *state) { + gfxFont = state->getFont(); +#if TEXTOUT_WORD_LIST + fontName = (gfxFont && gfxFont->getOrigName()) + ? gfxFont->getOrigName()->copy() + : (GString *)NULL; + flags = gfxFont ? gfxFont->getFlags() : 0; +#endif +} + +TextFontInfo::~TextFontInfo() { +#if TEXTOUT_WORD_LIST + if (fontName) { + delete fontName; + } +#endif +} + +GBool TextFontInfo::matches(GfxState *state) { + return state->getFont() == gfxFont; +} + +//------------------------------------------------------------------------ +// TextWord +//------------------------------------------------------------------------ + +TextWord::TextWord(GfxState *state, int rotA, double x0, double y0, + int charPosA, TextFontInfo *fontA, double fontSizeA) { + GfxFont *gfxFont; + double x, y, ascent, descent; + + rot = rotA; + charPos = charPosA; + charLen = 0; + font = fontA; + fontSize = fontSizeA; + state->transform(x0, y0, &x, &y); + if ((gfxFont = font->gfxFont)) { + ascent = gfxFont->getAscent() * fontSize; + descent = gfxFont->getDescent() * fontSize; + } else { + // this means that the PDF file draws text without a current font, + // which should never happen + ascent = 0.95 * fontSize; + descent = -0.35 * fontSize; + } + switch (rot) { + case 0: + yMin = y - ascent; + yMax = y - descent; + if (yMin == yMax) { + // this is a sanity check for a case that shouldn't happen -- but + // if it does happen, we want to avoid dividing by zero later + yMin = y; + yMax = y + 1; + } + base = y; + break; + case 1: + xMin = x + descent; + xMax = x + ascent; + if (xMin == xMax) { + // this is a sanity check for a case that shouldn't happen -- but + // if it does happen, we want to avoid dividing by zero later + xMin = x; + xMax = x + 1; + } + base = x; + break; + case 2: + yMin = y + descent; + yMax = y + ascent; + if (yMin == yMax) { + // this is a sanity check for a case that shouldn't happen -- but + // if it does happen, we want to avoid dividing by zero later + yMin = y; + yMax = y + 1; + } + base = y; + break; + case 3: + xMin = x - ascent; + xMax = x - descent; + if (xMin == xMax) { + // this is a sanity check for a case that shouldn't happen -- but + // if it does happen, we want to avoid dividing by zero later + xMin = x; + xMax = x + 1; + } + base = x; + break; + } + text = NULL; + edge = NULL; + len = size = 0; + spaceAfter = gFalse; + next = NULL; + +#if TEXTOUT_WORD_LIST + GfxRGB rgb; + + if ((state->getRender() & 3) == 1) { + state->getStrokeRGB(&rgb); + } else { + state->getFillRGB(&rgb); + } + colorR = colToDbl(rgb.r); + colorG = colToDbl(rgb.g); + colorB = colToDbl(rgb.b); +#endif + + underlined = gFalse; + link = NULL; +} + +TextWord::~TextWord() { + gfree(text); + gfree(edge); +} + +void TextWord::addChar(GfxState * /*state*/, double x, double y, + double dx, double dy, Unicode u) { + if (len == size) { + size += 16; + text = (Unicode *)greallocn(text, size, sizeof(Unicode)); + edge = (double *)greallocn(edge, size + 1, sizeof(double)); + } + text[len] = u; + switch (rot) { + case 0: + if (len == 0) { + xMin = x; + } + edge[len] = x; + xMax = edge[len+1] = x + dx; + break; + case 1: + if (len == 0) { + yMin = y; + } + edge[len] = y; + yMax = edge[len+1] = y + dy; + break; + case 2: + if (len == 0) { + xMax = x; + } + edge[len] = x; + xMin = edge[len+1] = x + dx; + break; + case 3: + if (len == 0) { + yMax = y; + } + edge[len] = y; + yMin = edge[len+1] = y + dy; + break; + } + ++len; +} + +void TextWord::merge(TextWord *word) { + int i; + + if (word->xMin < xMin) { + xMin = word->xMin; + } + if (word->yMin < yMin) { + yMin = word->yMin; + } + if (word->xMax > xMax) { + xMax = word->xMax; + } + if (word->yMax > yMax) { + yMax = word->yMax; + } + if (len + word->len > size) { + size = len + word->len; + text = (Unicode *)greallocn(text, size, sizeof(Unicode)); + edge = (double *)greallocn(edge, size + 1, sizeof(double)); + } + for (i = 0; i < word->len; ++i) { + text[len + i] = word->text[i]; + edge[len + i] = word->edge[i]; + } + edge[len + word->len] = word->edge[word->len]; + len += word->len; + charLen += word->charLen; +} + +inline int TextWord::primaryCmp(TextWord *word) { + double cmp; + + cmp = 0; // make gcc happy + switch (rot) { + case 0: + cmp = xMin - word->xMin; + break; + case 1: + cmp = yMin - word->yMin; + break; + case 2: + cmp = word->xMax - xMax; + break; + case 3: + cmp = word->yMax - yMax; + break; + } + return cmp < 0 ? -1 : cmp > 0 ? 1 : 0; +} + +double TextWord::primaryDelta(TextWord *word) { + double delta; + + delta = 0; // make gcc happy + switch (rot) { + case 0: + delta = word->xMin - xMax; + break; + case 1: + delta = word->yMin - yMax; + break; + case 2: + delta = xMin - word->xMax; + break; + case 3: + delta = yMin - word->yMax; + break; + } + return delta; +} + +int TextWord::cmpYX(const void *p1, const void *p2) { + TextWord *word1 = *(TextWord **)p1; + TextWord *word2 = *(TextWord **)p2; + double cmp; + + cmp = word1->yMin - word2->yMin; + if (cmp == 0) { + cmp = word1->xMin - word2->xMin; + } + return cmp < 0 ? -1 : cmp > 0 ? 1 : 0; +} + +#if TEXTOUT_WORD_LIST + +GString *TextWord::getText() { + GString *s; + UnicodeMap *uMap; + char buf[8]; + int n, i; + + s = new GString(); + if (!(uMap = globalParams->getTextEncoding())) { + return s; + } + for (i = 0; i < len; ++i) { + n = uMap->mapUnicode(text[i], buf, sizeof(buf)); + s->append(buf, n); + } + uMap->decRefCnt(); + return s; +} + +void TextWord::getCharBBox(int charIdx, double *xMinA, double *yMinA, + double *xMaxA, double *yMaxA) { + if (charIdx < 0 || charIdx >= len) { + return; + } + switch (rot) { + case 0: + *xMinA = edge[charIdx]; + *xMaxA = edge[charIdx + 1]; + *yMinA = yMin; + *yMaxA = yMax; + break; + case 1: + *xMinA = xMin; + *xMaxA = xMax; + *yMinA = edge[charIdx]; + *yMaxA = edge[charIdx + 1]; + break; + case 2: + *xMinA = edge[charIdx + 1]; + *xMaxA = edge[charIdx]; + *yMinA = yMin; + *yMaxA = yMax; + break; + case 3: + *xMinA = xMin; + *xMaxA = xMax; + *yMinA = edge[charIdx + 1]; + *yMaxA = edge[charIdx]; + break; + } +} + +#endif // TEXTOUT_WORD_LIST + +//------------------------------------------------------------------------ +// TextPool +//------------------------------------------------------------------------ + +TextPool::TextPool() { + minBaseIdx = 0; + maxBaseIdx = -1; + pool = NULL; + cursor = NULL; + cursorBaseIdx = -1; +} + +TextPool::~TextPool() { + int baseIdx; + TextWord *word, *word2; + + for (baseIdx = minBaseIdx; baseIdx <= maxBaseIdx; ++baseIdx) { + for (word = pool[baseIdx - minBaseIdx]; word; word = word2) { + word2 = word->next; + delete word; + } + } + gfree(pool); +} + +int TextPool::getBaseIdx(double base) { + int baseIdx; + + baseIdx = (int)(base / textPoolStep); + if (baseIdx < minBaseIdx) { + return minBaseIdx; + } + if (baseIdx > maxBaseIdx) { + return maxBaseIdx; + } + return baseIdx; +} + +void TextPool::addWord(TextWord *word) { + TextWord **newPool; + int wordBaseIdx, newMinBaseIdx, newMaxBaseIdx, baseIdx; + TextWord *w0, *w1; + + // expand the array if needed + wordBaseIdx = (int)(word->base / textPoolStep); + if (minBaseIdx > maxBaseIdx) { + minBaseIdx = wordBaseIdx - 128; + maxBaseIdx = wordBaseIdx + 128; + pool = (TextWord **)gmallocn(maxBaseIdx - minBaseIdx + 1, + sizeof(TextWord *)); + for (baseIdx = minBaseIdx; baseIdx <= maxBaseIdx; ++baseIdx) { + pool[baseIdx - minBaseIdx] = NULL; + } + } else if (wordBaseIdx < minBaseIdx) { + newMinBaseIdx = wordBaseIdx - 128; + newPool = (TextWord **)gmallocn(maxBaseIdx - newMinBaseIdx + 1, + sizeof(TextWord *)); + for (baseIdx = newMinBaseIdx; baseIdx < minBaseIdx; ++baseIdx) { + newPool[baseIdx - newMinBaseIdx] = NULL; + } + memcpy(&newPool[minBaseIdx - newMinBaseIdx], pool, + (maxBaseIdx - minBaseIdx + 1) * sizeof(TextWord *)); + gfree(pool); + pool = newPool; + minBaseIdx = newMinBaseIdx; + } else if (wordBaseIdx > maxBaseIdx) { + newMaxBaseIdx = wordBaseIdx + 128; + pool = (TextWord **)greallocn(pool, newMaxBaseIdx - minBaseIdx + 1, + sizeof(TextWord *)); + for (baseIdx = maxBaseIdx + 1; baseIdx <= newMaxBaseIdx; ++baseIdx) { + pool[baseIdx - minBaseIdx] = NULL; + } + maxBaseIdx = newMaxBaseIdx; + } + + // insert the new word + if (cursor && wordBaseIdx == cursorBaseIdx && + word->primaryCmp(cursor) > 0) { + w0 = cursor; + w1 = cursor->next; + } else { + w0 = NULL; + w1 = pool[wordBaseIdx - minBaseIdx]; + } + for (; w1 && word->primaryCmp(w1) > 0; w0 = w1, w1 = w1->next) ; + word->next = w1; + if (w0) { + w0->next = word; + } else { + pool[wordBaseIdx - minBaseIdx] = word; + } + cursor = word; + cursorBaseIdx = wordBaseIdx; +} + +//------------------------------------------------------------------------ +// TextLine +//------------------------------------------------------------------------ + +TextLine::TextLine(TextBlock *blkA, int rotA, double baseA) { + blk = blkA; + rot = rotA; + xMin = yMin = 0; + xMax = yMax = -1; + base = baseA; + words = lastWord = NULL; + text = NULL; + edge = NULL; + col = NULL; + len = 0; + convertedLen = 0; + hyphenated = gFalse; + next = NULL; +} + +TextLine::~TextLine() { + TextWord *word; + + while (words) { + word = words; + words = words->next; + delete word; + } + gfree(text); + gfree(edge); + gfree(col); +} + +void TextLine::addWord(TextWord *word) { + if (lastWord) { + lastWord->next = word; + } else { + words = word; + } + lastWord = word; + + if (xMin > xMax) { + xMin = word->xMin; + xMax = word->xMax; + yMin = word->yMin; + yMax = word->yMax; + } else { + if (word->xMin < xMin) { + xMin = word->xMin; + } + if (word->xMax > xMax) { + xMax = word->xMax; + } + if (word->yMin < yMin) { + yMin = word->yMin; + } + if (word->yMax > yMax) { + yMax = word->yMax; + } + } +} + +double TextLine::primaryDelta(TextLine *line) { + double delta; + + delta = 0; // make gcc happy + switch (rot) { + case 0: + delta = line->xMin - xMax; + break; + case 1: + delta = line->yMin - yMax; + break; + case 2: + delta = xMin - line->xMax; + break; + case 3: + delta = yMin - line->yMax; + break; + } + return delta; +} + +int TextLine::primaryCmp(TextLine *line) { + double cmp; + + cmp = 0; // make gcc happy + switch (rot) { + case 0: + cmp = xMin - line->xMin; + break; + case 1: + cmp = yMin - line->yMin; + break; + case 2: + cmp = line->xMax - xMax; + break; + case 3: + cmp = line->yMax - yMax; + break; + } + return cmp < 0 ? -1 : cmp > 0 ? 1 : 0; +} + +int TextLine::secondaryCmp(TextLine *line) { + double cmp; + + cmp = (rot == 0 || rot == 3) ? base - line->base : line->base - base; + return cmp < 0 ? -1 : cmp > 0 ? 1 : 0; +} + +int TextLine::cmpYX(TextLine *line) { + int cmp; + + if ((cmp = secondaryCmp(line))) { + return cmp; + } + return primaryCmp(line); +} + +int TextLine::cmpXY(const void *p1, const void *p2) { + TextLine *line1 = *(TextLine **)p1; + TextLine *line2 = *(TextLine **)p2; + int cmp; + + if ((cmp = line1->primaryCmp(line2))) { + return cmp; + } + return line1->secondaryCmp(line2); +} + +void TextLine::coalesce(UnicodeMap *uMap) { + TextWord *word0, *word1; + double space, delta, minSpace; + GBool isUnicode; + char buf[8]; + int i, j; + + if (words->next) { + + // compute the inter-word space threshold + if (words->len > 1 || words->next->len > 1) { + minSpace = 0; + } else { + minSpace = words->primaryDelta(words->next); + for (word0 = words->next, word1 = word0->next; + word1 && minSpace > 0; + word0 = word1, word1 = word0->next) { + if (word1->len > 1) { + minSpace = 0; + } + delta = word0->primaryDelta(word1); + if (delta < minSpace) { + minSpace = delta; + } + } + } + if (minSpace <= 0) { + space = maxCharSpacing * words->fontSize; + } else { + space = maxWideCharSpacingMul * minSpace; + if (space > maxWideCharSpacing * words->fontSize) { + space = maxWideCharSpacing * words->fontSize; + } + } + + // merge words + word0 = words; + word1 = words->next; + while (word1) { + if (word0->primaryDelta(word1) >= space) { + word0->spaceAfter = gTrue; + word0 = word1; + word1 = word1->next; + } else if (word0->font == word1->font && + word0->underlined == word1->underlined && + fabs(word0->fontSize - word1->fontSize) < + maxWordFontSizeDelta * words->fontSize && + word1->charPos == word0->charPos + word0->charLen) { + word0->merge(word1); + word0->next = word1->next; + delete word1; + word1 = word0->next; + } else { + word0 = word1; + word1 = word1->next; + } + } + } + + // build the line text + isUnicode = uMap ? uMap->isUnicode() : gFalse; + len = 0; + for (word1 = words; word1; word1 = word1->next) { + len += word1->len; + if (word1->spaceAfter) { + ++len; + } + } + text = (Unicode *)gmallocn(len, sizeof(Unicode)); + edge = (double *)gmallocn(len + 1, sizeof(double)); + i = 0; + for (word1 = words; word1; word1 = word1->next) { + for (j = 0; j < word1->len; ++j) { + text[i] = word1->text[j]; + edge[i] = word1->edge[j]; + ++i; + } + edge[i] = word1->edge[word1->len]; + if (word1->spaceAfter) { + text[i] = (Unicode)0x0020; + ++i; + } + } + + // compute convertedLen and set up the col array + col = (int *)gmallocn(len + 1, sizeof(int)); + convertedLen = 0; + for (i = 0; i < len; ++i) { + col[i] = convertedLen; + if (isUnicode) { + ++convertedLen; + } else if (uMap) { + convertedLen += uMap->mapUnicode(text[i], buf, sizeof(buf)); + } + } + col[len] = convertedLen; + + // check for hyphen at end of line + //~ need to check for other chars used as hyphens + hyphenated = text[len - 1] == (Unicode)'-'; +} + +//------------------------------------------------------------------------ +// TextLineFrag +//------------------------------------------------------------------------ + +class TextLineFrag { +public: + + TextLine *line; // the line object + int start, len; // offset and length of this fragment + // (in Unicode chars) + double xMin, xMax; // bounding box coordinates + double yMin, yMax; + double base; // baseline virtual coordinate + int col; // first column + + void init(TextLine *lineA, int startA, int lenA); + void computeCoords(GBool oneRot); + + static int cmpYXPrimaryRot(const void *p1, const void *p2); + static int cmpYXLineRot(const void *p1, const void *p2); + static int cmpXYLineRot(const void *p1, const void *p2); + static int cmpXYColumnPrimaryRot(const void *p1, const void *p2); + static int cmpXYColumnLineRot(const void *p1, const void *p2); +}; + +void TextLineFrag::init(TextLine *lineA, int startA, int lenA) { + line = lineA; + start = startA; + len = lenA; + col = line->col[start]; +} + +void TextLineFrag::computeCoords(GBool oneRot) { + TextBlock *blk; + double d0, d1, d2, d3, d4; + + if (oneRot) { + + switch (line->rot) { + case 0: + xMin = line->edge[start]; + xMax = line->edge[start + len]; + yMin = line->yMin; + yMax = line->yMax; + break; + case 1: + xMin = line->xMin; + xMax = line->xMax; + yMin = line->edge[start]; + yMax = line->edge[start + len]; + break; + case 2: + xMin = line->edge[start + len]; + xMax = line->edge[start]; + yMin = line->yMin; + yMax = line->yMax; + break; + case 3: + xMin = line->xMin; + xMax = line->xMax; + yMin = line->edge[start + len]; + yMax = line->edge[start]; + break; + } + base = line->base; + + } else { + + if (line->rot == 0 && line->blk->page->primaryRot == 0) { + + xMin = line->edge[start]; + xMax = line->edge[start + len]; + yMin = line->yMin; + yMax = line->yMax; + base = line->base; + + } else { + + blk = line->blk; + d0 = line->edge[start]; + d1 = line->edge[start + len]; + d2 = d3 = d4 = 0; // make gcc happy + + switch (line->rot) { + case 0: + d2 = line->yMin; + d3 = line->yMax; + d4 = line->base; + d0 = (d0 - blk->xMin) / (blk->xMax - blk->xMin); + d1 = (d1 - blk->xMin) / (blk->xMax - blk->xMin); + d2 = (d2 - blk->yMin) / (blk->yMax - blk->yMin); + d3 = (d3 - blk->yMin) / (blk->yMax - blk->yMin); + d4 = (d4 - blk->yMin) / (blk->yMax - blk->yMin); + break; + case 1: + d2 = line->xMax; + d3 = line->xMin; + d4 = line->base; + d0 = (d0 - blk->yMin) / (blk->yMax - blk->yMin); + d1 = (d1 - blk->yMin) / (blk->yMax - blk->yMin); + d2 = (blk->xMax - d2) / (blk->xMax - blk->xMin); + d3 = (blk->xMax - d3) / (blk->xMax - blk->xMin); + d4 = (blk->xMax - d4) / (blk->xMax - blk->xMin); + break; + case 2: + d2 = line->yMax; + d3 = line->yMin; + d4 = line->base; + d0 = (blk->xMax - d0) / (blk->xMax - blk->xMin); + d1 = (blk->xMax - d1) / (blk->xMax - blk->xMin); + d2 = (blk->yMax - d2) / (blk->yMax - blk->yMin); + d3 = (blk->yMax - d3) / (blk->yMax - blk->yMin); + d4 = (blk->yMax - d4) / (blk->yMax - blk->yMin); + break; + case 3: + d2 = line->xMin; + d3 = line->xMax; + d4 = line->base; + d0 = (blk->yMax - d0) / (blk->yMax - blk->yMin); + d1 = (blk->yMax - d1) / (blk->yMax - blk->yMin); + d2 = (d2 - blk->xMin) / (blk->xMax - blk->xMin); + d3 = (d3 - blk->xMin) / (blk->xMax - blk->xMin); + d4 = (d4 - blk->xMin) / (blk->xMax - blk->xMin); + break; + } + + switch (line->blk->page->primaryRot) { + case 0: + xMin = blk->xMin + d0 * (blk->xMax - blk->xMin); + xMax = blk->xMin + d1 * (blk->xMax - blk->xMin); + yMin = blk->yMin + d2 * (blk->yMax - blk->yMin); + yMax = blk->yMin + d3 * (blk->yMax - blk->yMin); + base = blk->yMin + base * (blk->yMax - blk->yMin); + break; + case 1: + xMin = blk->xMax - d3 * (blk->xMax - blk->xMin); + xMax = blk->xMax - d2 * (blk->xMax - blk->xMin); + yMin = blk->yMin + d0 * (blk->yMax - blk->yMin); + yMax = blk->yMin + d1 * (blk->yMax - blk->yMin); + base = blk->xMax - d4 * (blk->xMax - blk->xMin); + break; + case 2: + xMin = blk->xMax - d1 * (blk->xMax - blk->xMin); + xMax = blk->xMax - d0 * (blk->xMax - blk->xMin); + yMin = blk->yMax - d3 * (blk->yMax - blk->yMin); + yMax = blk->yMax - d2 * (blk->yMax - blk->yMin); + base = blk->yMax - d4 * (blk->yMax - blk->yMin); + break; + case 3: + xMin = blk->xMin + d2 * (blk->xMax - blk->xMin); + xMax = blk->xMin + d3 * (blk->xMax - blk->xMin); + yMin = blk->yMax - d1 * (blk->yMax - blk->yMin); + yMax = blk->yMax - d0 * (blk->yMax - blk->yMin); + base = blk->xMin + d4 * (blk->xMax - blk->xMin); + break; + } + + } + } +} + +int TextLineFrag::cmpYXPrimaryRot(const void *p1, const void *p2) { + TextLineFrag *frag1 = (TextLineFrag *)p1; + TextLineFrag *frag2 = (TextLineFrag *)p2; + double cmp; + + cmp = 0; // make gcc happy + switch (frag1->line->blk->page->primaryRot) { + case 0: + if (fabs(cmp = frag1->yMin - frag2->yMin) < 0.01) { + cmp = frag1->xMin - frag2->xMin; + } + break; + case 1: + if (fabs(cmp = frag2->xMax - frag1->xMax) < 0.01) { + cmp = frag1->yMin - frag2->yMin; + } + break; + case 2: + if (fabs(cmp = frag2->yMin - frag1->yMin) < 0.01) { + cmp = frag2->xMax - frag1->xMax; + } + break; + case 3: + if (fabs(cmp = frag1->xMax - frag2->xMax) < 0.01) { + cmp = frag2->yMax - frag1->yMax; + } + break; + } + return cmp < 0 ? -1 : cmp > 0 ? 1 : 0; +} + +int TextLineFrag::cmpYXLineRot(const void *p1, const void *p2) { + TextLineFrag *frag1 = (TextLineFrag *)p1; + TextLineFrag *frag2 = (TextLineFrag *)p2; + double cmp; + + cmp = 0; // make gcc happy + switch (frag1->line->rot) { + case 0: + if ((cmp = frag1->yMin - frag2->yMin) == 0) { + cmp = frag1->xMin - frag2->xMin; + } + break; + case 1: + if ((cmp = frag2->xMax - frag1->xMax) == 0) { + cmp = frag1->yMin - frag2->yMin; + } + break; + case 2: + if ((cmp = frag2->yMin - frag1->yMin) == 0) { + cmp = frag2->xMax - frag1->xMax; + } + break; + case 3: + if ((cmp = frag1->xMax - frag2->xMax) == 0) { + cmp = frag2->yMax - frag1->yMax; + } + break; + } + return cmp < 0 ? -1 : cmp > 0 ? 1 : 0; +} + +int TextLineFrag::cmpXYLineRot(const void *p1, const void *p2) { + TextLineFrag *frag1 = (TextLineFrag *)p1; + TextLineFrag *frag2 = (TextLineFrag *)p2; + double cmp; + + cmp = 0; // make gcc happy + switch (frag1->line->rot) { + case 0: + if ((cmp = frag1->xMin - frag2->xMin) == 0) { + cmp = frag1->yMin - frag2->yMin; + } + break; + case 1: + if ((cmp = frag1->yMin - frag2->yMin) == 0) { + cmp = frag2->xMax - frag1->xMax; + } + break; + case 2: + if ((cmp = frag2->xMax - frag1->xMax) == 0) { + cmp = frag2->yMin - frag1->yMin; + } + break; + case 3: + if ((cmp = frag2->yMax - frag1->yMax) == 0) { + cmp = frag1->xMax - frag2->xMax; + } + break; + } + return cmp < 0 ? -1 : cmp > 0 ? 1 : 0; +} + +int TextLineFrag::cmpXYColumnPrimaryRot(const void *p1, const void *p2) { + TextLineFrag *frag1 = (TextLineFrag *)p1; + TextLineFrag *frag2 = (TextLineFrag *)p2; + double cmp; + + // if columns overlap, compare y values + if (frag1->col < frag2->col + (frag2->line->col[frag2->start + frag2->len] - + frag2->line->col[frag2->start]) && + frag2->col < frag1->col + (frag1->line->col[frag1->start + frag1->len] - + frag1->line->col[frag1->start])) { + cmp = 0; // make gcc happy + switch (frag1->line->blk->page->primaryRot) { + case 0: cmp = frag1->yMin - frag2->yMin; break; + case 1: cmp = frag2->xMax - frag1->xMax; break; + case 2: cmp = frag2->yMin - frag1->yMin; break; + case 3: cmp = frag1->xMax - frag2->xMax; break; + } + return cmp < 0 ? -1 : cmp > 0 ? 1 : 0; + } + + // otherwise, compare starting column + return frag1->col - frag2->col; +} + +int TextLineFrag::cmpXYColumnLineRot(const void *p1, const void *p2) { + TextLineFrag *frag1 = (TextLineFrag *)p1; + TextLineFrag *frag2 = (TextLineFrag *)p2; + double cmp; + + // if columns overlap, compare y values + if (frag1->col < frag2->col + (frag2->line->col[frag2->start + frag2->len] - + frag2->line->col[frag2->start]) && + frag2->col < frag1->col + (frag1->line->col[frag1->start + frag1->len] - + frag1->line->col[frag1->start])) { + cmp = 0; // make gcc happy + switch (frag1->line->rot) { + case 0: cmp = frag1->yMin - frag2->yMin; break; + case 1: cmp = frag2->xMax - frag1->xMax; break; + case 2: cmp = frag2->yMin - frag1->yMin; break; + case 3: cmp = frag1->xMax - frag2->xMax; break; + } + return cmp < 0 ? -1 : cmp > 0 ? 1 : 0; + } + + // otherwise, compare starting column + return frag1->col - frag2->col; +} + +//------------------------------------------------------------------------ +// TextBlock +//------------------------------------------------------------------------ + +TextBlock::TextBlock(TextPage *pageA, int rotA) { + page = pageA; + rot = rotA; + xMin = yMin = 0; + xMax = yMax = -1; + priMin = 0; + priMax = page->pageWidth; + pool = new TextPool(); + lines = NULL; + curLine = NULL; + next = NULL; + stackNext = NULL; +} + +TextBlock::~TextBlock() { + TextLine *line; + + delete pool; + while (lines) { + line = lines; + lines = lines->next; + delete line; + } +} + +void TextBlock::addWord(TextWord *word) { + pool->addWord(word); + if (xMin > xMax) { + xMin = word->xMin; + xMax = word->xMax; + yMin = word->yMin; + yMax = word->yMax; + } else { + if (word->xMin < xMin) { + xMin = word->xMin; + } + if (word->xMax > xMax) { + xMax = word->xMax; + } + if (word->yMin < yMin) { + yMin = word->yMin; + } + if (word->yMax > yMax) { + yMax = word->yMax; + } + } +} + +void TextBlock::coalesce(UnicodeMap *uMap) { + TextWord *word0, *word1, *word2, *bestWord0, *bestWord1, *lastWord; + TextLine *line, *line0, *line1; + int poolMinBaseIdx, startBaseIdx, minBaseIdx, maxBaseIdx; + int baseIdx, bestWordBaseIdx, idx0, idx1; + double minBase, maxBase; + double fontSize, delta, priDelta, secDelta; + TextLine **lineArray; + GBool found; + int col1, col2; + int i, j, k; + + // discard duplicated text (fake boldface, drop shadows) + for (idx0 = pool->minBaseIdx; idx0 <= pool->maxBaseIdx; ++idx0) { + word0 = pool->getPool(idx0); + while (word0) { + priDelta = dupMaxPriDelta * word0->fontSize; + secDelta = dupMaxSecDelta * word0->fontSize; + if (rot == 0 || rot == 3) { + maxBaseIdx = pool->getBaseIdx(word0->base + secDelta); + } else { + maxBaseIdx = pool->getBaseIdx(word0->base - secDelta); + } + found = gFalse; + word1 = word2 = NULL; // make gcc happy + for (idx1 = idx0; idx1 <= maxBaseIdx; ++idx1) { + if (idx1 == idx0) { + word1 = word0; + word2 = word0->next; + } else { + word1 = NULL; + word2 = pool->getPool(idx1); + } + for (; word2; word1 = word2, word2 = word2->next) { + if (word2->len == word0->len && + !memcmp(word2->text, word0->text, + word0->len * sizeof(Unicode))) { + switch (rot) { + case 0: + case 2: + found = fabs(word0->xMin - word2->xMin) < priDelta && + fabs(word0->xMax - word2->xMax) < priDelta && + fabs(word0->yMin - word2->yMin) < secDelta && + fabs(word0->yMax - word2->yMax) < secDelta; + break; + case 1: + case 3: + found = fabs(word0->xMin - word2->xMin) < secDelta && + fabs(word0->xMax - word2->xMax) < secDelta && + fabs(word0->yMin - word2->yMin) < priDelta && + fabs(word0->yMax - word2->yMax) < priDelta; + break; + } + } + if (found) { + break; + } + } + if (found) { + break; + } + } + if (found) { + if (word1) { + word1->next = word2->next; + } else { + pool->setPool(idx1, word2->next); + } + delete word2; + } else { + word0 = word0->next; + } + } + } + + // build the lines + curLine = NULL; + poolMinBaseIdx = pool->minBaseIdx; + charCount = 0; + nLines = 0; + while (1) { + + // find the first non-empty line in the pool + for (; + poolMinBaseIdx <= pool->maxBaseIdx && !pool->getPool(poolMinBaseIdx); + ++poolMinBaseIdx) ; + if (poolMinBaseIdx > pool->maxBaseIdx) { + break; + } + + // look for the left-most word in the first four lines of the + // pool -- this avoids starting with a superscript word + startBaseIdx = poolMinBaseIdx; + for (baseIdx = poolMinBaseIdx + 1; + baseIdx < poolMinBaseIdx + 4 && baseIdx <= pool->maxBaseIdx; + ++baseIdx) { + if (!pool->getPool(baseIdx)) { + continue; + } + if (pool->getPool(baseIdx)->primaryCmp(pool->getPool(startBaseIdx)) + < 0) { + startBaseIdx = baseIdx; + } + } + + // create a new line + word0 = pool->getPool(startBaseIdx); + pool->setPool(startBaseIdx, word0->next); + word0->next = NULL; + line = new TextLine(this, word0->rot, word0->base); + line->addWord(word0); + lastWord = word0; + + // compute the search range + fontSize = word0->fontSize; + minBase = word0->base - maxIntraLineDelta * fontSize; + maxBase = word0->base + maxIntraLineDelta * fontSize; + minBaseIdx = pool->getBaseIdx(minBase); + maxBaseIdx = pool->getBaseIdx(maxBase); + + // find the rest of the words in this line + while (1) { + + // find the left-most word whose baseline is in the range for + // this line + bestWordBaseIdx = 0; + bestWord0 = bestWord1 = NULL; + for (baseIdx = minBaseIdx; baseIdx <= maxBaseIdx; ++baseIdx) { + for (word0 = NULL, word1 = pool->getPool(baseIdx); + word1; + word0 = word1, word1 = word1->next) { + if (word1->base >= minBase && + word1->base <= maxBase && + (delta = lastWord->primaryDelta(word1)) >= + minCharSpacing * fontSize) { + if (delta < maxWordSpacing * fontSize && + (!bestWord1 || word1->primaryCmp(bestWord1) < 0)) { + bestWordBaseIdx = baseIdx; + bestWord0 = word0; + bestWord1 = word1; + } + break; + } + } + } + if (!bestWord1) { + break; + } + + // remove it from the pool, and add it to the line + if (bestWord0) { + bestWord0->next = bestWord1->next; + } else { + pool->setPool(bestWordBaseIdx, bestWord1->next); + } + bestWord1->next = NULL; + line->addWord(bestWord1); + lastWord = bestWord1; + } + + // add the line + if (curLine && line->cmpYX(curLine) > 0) { + line0 = curLine; + line1 = curLine->next; + } else { + line0 = NULL; + line1 = lines; + } + for (; + line1 && line->cmpYX(line1) > 0; + line0 = line1, line1 = line1->next) ; + if (line0) { + line0->next = line; + } else { + lines = line; + } + line->next = line1; + curLine = line; + line->coalesce(uMap); + charCount += line->len; + ++nLines; + } + + // sort lines into xy order for column assignment + lineArray = (TextLine **)gmallocn(nLines, sizeof(TextLine *)); + for (line = lines, i = 0; line; line = line->next, ++i) { + lineArray[i] = line; + } + qsort(lineArray, nLines, sizeof(TextLine *), &TextLine::cmpXY); + + // column assignment + nColumns = 0; + for (i = 0; i < nLines; ++i) { + line0 = lineArray[i]; + col1 = 0; + for (j = 0; j < i; ++j) { + line1 = lineArray[j]; + if (line1->primaryDelta(line0) >= 0) { + col2 = line1->col[line1->len] + 1; + } else { + k = 0; // make gcc happy + switch (rot) { + case 0: + for (k = 0; + k < line1->len && + line0->xMin >= 0.5 * (line1->edge[k] + line1->edge[k+1]); + ++k) ; + break; + case 1: + for (k = 0; + k < line1->len && + line0->yMin >= 0.5 * (line1->edge[k] + line1->edge[k+1]); + ++k) ; + break; + case 2: + for (k = 0; + k < line1->len && + line0->xMax <= 0.5 * (line1->edge[k] + line1->edge[k+1]); + ++k) ; + break; + case 3: + for (k = 0; + k < line1->len && + line0->yMax <= 0.5 * (line1->edge[k] + line1->edge[k+1]); + ++k) ; + break; + } + col2 = line1->col[k]; + } + if (col2 > col1) { + col1 = col2; + } + } + for (k = 0; k <= line0->len; ++k) { + line0->col[k] += col1; + } + if (line0->col[line0->len] > nColumns) { + nColumns = line0->col[line0->len]; + } + } + gfree(lineArray); +} + +void TextBlock::updatePriMinMax(TextBlock *blk) { + double newPriMin, newPriMax; + GBool gotPriMin, gotPriMax; + + gotPriMin = gotPriMax = gFalse; + newPriMin = newPriMax = 0; // make gcc happy + switch (page->primaryRot) { + case 0: + case 2: + if (blk->yMin < yMax && blk->yMax > yMin) { + if (blk->xMin < xMin) { + newPriMin = blk->xMax; + gotPriMin = gTrue; + } + if (blk->xMax > xMax) { + newPriMax = blk->xMin; + gotPriMax = gTrue; + } + } + break; + case 1: + case 3: + if (blk->xMin < xMax && blk->xMax > xMin) { + if (blk->yMin < yMin) { + newPriMin = blk->yMax; + gotPriMin = gTrue; + } + if (blk->yMax > yMax) { + newPriMax = blk->yMin; + gotPriMax = gTrue; + } + } + break; + } + if (gotPriMin) { + if (newPriMin > xMin) { + newPriMin = xMin; + } + if (newPriMin > priMin) { + priMin = newPriMin; + } + } + if (gotPriMax) { + if (newPriMax < xMax) { + newPriMax = xMax; + } + if (newPriMax < priMax) { + priMax = newPriMax; + } + } +} + +int TextBlock::cmpXYPrimaryRot(const void *p1, const void *p2) { + TextBlock *blk1 = *(TextBlock **)p1; + TextBlock *blk2 = *(TextBlock **)p2; + double cmp; + + cmp = 0; // make gcc happy + switch (blk1->page->primaryRot) { + case 0: + if ((cmp = blk1->xMin - blk2->xMin) == 0) { + cmp = blk1->yMin - blk2->yMin; + } + break; + case 1: + if ((cmp = blk1->yMin - blk2->yMin) == 0) { + cmp = blk2->xMax - blk1->xMax; + } + break; + case 2: + if ((cmp = blk2->xMax - blk1->xMax) == 0) { + cmp = blk2->yMin - blk1->yMin; + } + break; + case 3: + if ((cmp = blk2->yMax - blk1->yMax) == 0) { + cmp = blk1->xMax - blk2->xMax; + } + break; + } + return cmp < 0 ? -1 : cmp > 0 ? 1 : 0; +} + +int TextBlock::cmpYXPrimaryRot(const void *p1, const void *p2) { + TextBlock *blk1 = *(TextBlock **)p1; + TextBlock *blk2 = *(TextBlock **)p2; + double cmp; + + cmp = 0; // make gcc happy + switch (blk1->page->primaryRot) { + case 0: + if ((cmp = blk1->yMin - blk2->yMin) == 0) { + cmp = blk1->xMin - blk2->xMin; + } + break; + case 1: + if ((cmp = blk2->xMax - blk1->xMax) == 0) { + cmp = blk1->yMin - blk2->yMin; + } + break; + case 2: + if ((cmp = blk2->yMin - blk1->yMin) == 0) { + cmp = blk2->xMax - blk1->xMax; + } + break; + case 3: + if ((cmp = blk1->xMax - blk2->xMax) == 0) { + cmp = blk2->yMax - blk1->yMax; + } + break; + } + return cmp < 0 ? -1 : cmp > 0 ? 1 : 0; +} + +int TextBlock::primaryCmp(TextBlock *blk) { + double cmp; + + cmp = 0; // make gcc happy + switch (rot) { + case 0: + cmp = xMin - blk->xMin; + break; + case 1: + cmp = yMin - blk->yMin; + break; + case 2: + cmp = blk->xMax - xMax; + break; + case 3: + cmp = blk->yMax - yMax; + break; + } + return cmp < 0 ? -1 : cmp > 0 ? 1 : 0; +} + +double TextBlock::secondaryDelta(TextBlock *blk) { + double delta; + + delta = 0; // make gcc happy + switch (rot) { + case 0: + delta = blk->yMin - yMax; + break; + case 1: + delta = xMin - blk->xMax; + break; + case 2: + delta = yMin - blk->yMax; + break; + case 3: + delta = blk->xMin - xMax; + break; + } + return delta; +} + +GBool TextBlock::isBelow(TextBlock *blk) { + GBool below; + + below = gFalse; // make gcc happy + switch (page->primaryRot) { + case 0: + below = xMin >= blk->priMin && xMax <= blk->priMax && + yMin > blk->yMin; + break; + case 1: + below = yMin >= blk->priMin && yMax <= blk->priMax && + xMax < blk->xMax; + break; + case 2: + below = xMin >= blk->priMin && xMax <= blk->priMax && + yMax < blk->yMax; + break; + case 3: + below = yMin >= blk->priMin && yMax <= blk->priMax && + xMin > blk->xMin; + break; + } + + return below; +} + +//------------------------------------------------------------------------ +// TextFlow +//------------------------------------------------------------------------ + +TextFlow::TextFlow(TextPage *pageA, TextBlock *blk) { + page = pageA; + xMin = blk->xMin; + xMax = blk->xMax; + yMin = blk->yMin; + yMax = blk->yMax; + priMin = blk->priMin; + priMax = blk->priMax; + blocks = lastBlk = blk; + next = NULL; +} + +TextFlow::~TextFlow() { + TextBlock *blk; + + while (blocks) { + blk = blocks; + blocks = blocks->next; + delete blk; + } +} + +void TextFlow::addBlock(TextBlock *blk) { + if (lastBlk) { + lastBlk->next = blk; + } else { + blocks = blk; + } + lastBlk = blk; + if (blk->xMin < xMin) { + xMin = blk->xMin; + } + if (blk->xMax > xMax) { + xMax = blk->xMax; + } + if (blk->yMin < yMin) { + yMin = blk->yMin; + } + if (blk->yMax > yMax) { + yMax = blk->yMax; + } +} + +GBool TextFlow::blockFits(TextBlock *blk, TextBlock * /*prevBlk*/) { + GBool fits; + + // lower blocks must use smaller fonts + if (blk->lines->words->fontSize > lastBlk->lines->words->fontSize) { + return gFalse; + } + + fits = gFalse; // make gcc happy + switch (page->primaryRot) { + case 0: + fits = blk->xMin >= priMin && blk->xMax <= priMax; + break; + case 1: + fits = blk->yMin >= priMin && blk->yMax <= priMax; + break; + case 2: + fits = blk->xMin >= priMin && blk->xMax <= priMax; + break; + case 3: + fits = blk->yMin >= priMin && blk->yMax <= priMax; + break; + } + return fits; +} + +#if TEXTOUT_WORD_LIST + +//------------------------------------------------------------------------ +// TextWordList +//------------------------------------------------------------------------ + +TextWordList::TextWordList(TextPage *text, GBool physLayout) { + TextFlow *flow; + TextBlock *blk; + TextLine *line; + TextWord *word; + TextWord **wordArray; + int nWords, i; + + words = new GList(); + + if (text->rawOrder) { + for (word = text->rawWords; word; word = word->next) { + words->append(word); + } + + } else if (physLayout) { + // this is inefficient, but it's also the least useful of these + // three cases + nWords = 0; + for (flow = text->flows; flow; flow = flow->next) { + for (blk = flow->blocks; blk; blk = blk->next) { + for (line = blk->lines; line; line = line->next) { + for (word = line->words; word; word = word->next) { + ++nWords; + } + } + } + } + wordArray = (TextWord **)gmallocn(nWords, sizeof(TextWord *)); + i = 0; + for (flow = text->flows; flow; flow = flow->next) { + for (blk = flow->blocks; blk; blk = blk->next) { + for (line = blk->lines; line; line = line->next) { + for (word = line->words; word; word = word->next) { + wordArray[i++] = word; + } + } + } + } + qsort(wordArray, nWords, sizeof(TextWord *), &TextWord::cmpYX); + for (i = 0; i < nWords; ++i) { + words->append(wordArray[i]); + } + gfree(wordArray); + + } else { + for (flow = text->flows; flow; flow = flow->next) { + for (blk = flow->blocks; blk; blk = blk->next) { + for (line = blk->lines; line; line = line->next) { + for (word = line->words; word; word = word->next) { + words->append(word); + } + } + } + } + } +} + +TextWordList::~TextWordList() { + delete words; +} + +int TextWordList::getLength() { + return words->getLength(); +} + +TextWord *TextWordList::get(int idx) { + if (idx < 0 || idx >= words->getLength()) { + return NULL; + } + return (TextWord *)words->get(idx); +} + +#endif // TEXTOUT_WORD_LIST + +//------------------------------------------------------------------------ +// TextPage +//------------------------------------------------------------------------ + +TextPage::TextPage(GBool rawOrderA) { + int rot; + + rawOrder = rawOrderA; + curWord = NULL; + charPos = 0; + curFont = NULL; + curFontSize = 0; + nest = 0; + nTinyChars = 0; + lastCharOverlap = gFalse; + if (!rawOrder) { + for (rot = 0; rot < 4; ++rot) { + pools[rot] = new TextPool(); + } + } + flows = NULL; + blocks = NULL; + rawWords = NULL; + rawLastWord = NULL; + fonts = new GList(); + lastFindXMin = lastFindYMin = 0; + haveLastFind = gFalse; + underlines = new GList(); + links = new GList(); +} + +TextPage::~TextPage() { + int rot; + + clear(); + if (!rawOrder) { + for (rot = 0; rot < 4; ++rot) { + delete pools[rot]; + } + } + delete fonts; + deleteGList(underlines, TextUnderline); + deleteGList(links, TextLink); +} + +void TextPage::startPage(GfxState *state) { + clear(); + if (state) { + pageWidth = state->getPageWidth(); + pageHeight = state->getPageHeight(); + } else { + pageWidth = pageHeight = 0; + } +} + +void TextPage::endPage() { + if (curWord) { + endWord(); + } +} + +void TextPage::clear() { + int rot; + TextFlow *flow; + TextWord *word; + + if (curWord) { + delete curWord; + curWord = NULL; + } + if (rawOrder) { + while (rawWords) { + word = rawWords; + rawWords = rawWords->next; + delete word; + } + } else { + for (rot = 0; rot < 4; ++rot) { + delete pools[rot]; + } + while (flows) { + flow = flows; + flows = flows->next; + delete flow; + } + gfree(blocks); + } + deleteGList(fonts, TextFontInfo); + + curWord = NULL; + charPos = 0; + curFont = NULL; + curFontSize = 0; + nest = 0; + nTinyChars = 0; + if (!rawOrder) { + for (rot = 0; rot < 4; ++rot) { + pools[rot] = new TextPool(); + } + } + flows = NULL; + blocks = NULL; + rawWords = NULL; + rawLastWord = NULL; + fonts = new GList(); +} + +void TextPage::updateFont(GfxState *state) { + GfxFont *gfxFont; + double *fm; + char *name; + int code, mCode, letterCode, anyCode; + double w; + int i; + + // get the font info object + curFont = NULL; + for (i = 0; i < fonts->getLength(); ++i) { + curFont = (TextFontInfo *)fonts->get(i); + if (curFont->matches(state)) { + break; + } + curFont = NULL; + } + if (!curFont) { + curFont = new TextFontInfo(state); + fonts->append(curFont); + } + + // adjust the font size + gfxFont = state->getFont(); + curFontSize = state->getTransformedFontSize(); + if (gfxFont && gfxFont->getType() == fontType3) { + // This is a hack which makes it possible to deal with some Type 3 + // fonts. The problem is that it's impossible to know what the + // base coordinate system used in the font is without actually + // rendering the font. This code tries to guess by looking at the + // width of the character 'm' (which breaks if the font is a + // subset that doesn't contain 'm'). + mCode = letterCode = anyCode = -1; + for (code = 0; code < 256; ++code) { + name = ((Gfx8BitFont *)gfxFont)->getCharName(code); + if (name && name[0] == 'm' && name[1] == '\0') { + mCode = code; + } + if (letterCode < 0 && name && name[1] == '\0' && + ((name[0] >= 'A' && name[0] <= 'Z') || + (name[0] >= 'a' && name[0] <= 'z'))) { + letterCode = code; + } + if (anyCode < 0 && name && + ((Gfx8BitFont *)gfxFont)->getWidth(code) > 0) { + anyCode = code; + } + } + if (mCode >= 0 && + (w = ((Gfx8BitFont *)gfxFont)->getWidth(mCode)) > 0) { + // 0.6 is a generic average 'm' width -- yes, this is a hack + curFontSize *= w / 0.6; + } else if (letterCode >= 0 && + (w = ((Gfx8BitFont *)gfxFont)->getWidth(letterCode)) > 0) { + // even more of a hack: 0.5 is a generic letter width + curFontSize *= w / 0.5; + } else if (anyCode >= 0 && + (w = ((Gfx8BitFont *)gfxFont)->getWidth(anyCode)) > 0) { + // better than nothing: 0.5 is a generic character width + curFontSize *= w / 0.5; + } + fm = gfxFont->getFontMatrix(); + if (fm[0] != 0) { + curFontSize *= fabs(fm[3] / fm[0]); + } + } +} + +void TextPage::beginWord(GfxState *state, double x0, double y0) { + double *fontm; + double m[4], m2[4]; + int rot; + + // This check is needed because Type 3 characters can contain + // text-drawing operations (when TextPage is being used via + // {X,Win}SplashOutputDev rather than TextOutputDev). + if (curWord) { + ++nest; + return; + } + + // compute the rotation + state->getFontTransMat(&m[0], &m[1], &m[2], &m[3]); + if (state->getFont()->getType() == fontType3) { + fontm = state->getFont()->getFontMatrix(); + m2[0] = fontm[0] * m[0] + fontm[1] * m[2]; + m2[1] = fontm[0] * m[1] + fontm[1] * m[3]; + m2[2] = fontm[2] * m[0] + fontm[3] * m[2]; + m2[3] = fontm[2] * m[1] + fontm[3] * m[3]; + m[0] = m2[0]; + m[1] = m2[1]; + m[2] = m2[2]; + m[3] = m2[3]; + } + if (fabs(m[0] * m[3]) > fabs(m[1] * m[2])) { + rot = (m[3] < 0) ? 0 : 2; + } else { + rot = (m[2] > 0) ? 1 : 3; + } + + curWord = new TextWord(state, rot, x0, y0, charPos, curFont, curFontSize); +} + +void TextPage::addChar(GfxState *state, double x, double y, + double dx, double dy, + CharCode c, int nBytes, Unicode *u, int uLen) { + double x1, y1, w1, h1, dx2, dy2, base, sp, delta; + GBool overlap; + int i; + + // subtract char and word spacing from the dx,dy values + sp = state->getCharSpace(); + if (c == (CharCode)0x20) { + sp += state->getWordSpace(); + } + state->textTransformDelta(sp * state->getHorizScaling(), 0, &dx2, &dy2); + dx -= dx2; + dy -= dy2; + state->transformDelta(dx, dy, &w1, &h1); + + // throw away chars that aren't inside the page bounds + // (and also do a sanity check on the character size) + state->transform(x, y, &x1, &y1); + if (x1 + w1 < 0 || x1 > pageWidth || + y1 + h1 < 0 || y1 > pageHeight || + w1 > pageWidth || h1 > pageHeight) { + charPos += nBytes; + return; + } + + // check the tiny chars limit + if (!globalParams->getTextKeepTinyChars() && + fabs(w1) < 3 && fabs(h1) < 3) { + if (++nTinyChars > 50000) { + charPos += nBytes; + return; + } + } + + // break words at space character + if (uLen == 1 && u[0] == (Unicode)0x20) { + if (curWord) { + ++curWord->charLen; + } + charPos += nBytes; + endWord(); + return; + } + + // start a new word if: + // (1) this character doesn't fall in the right place relative to + // the end of the previous word (this places upper and lower + // constraints on the position deltas along both the primary + // and secondary axes), or + // (2) this character overlaps the previous one (duplicated text), or + // (3) the previous character was an overlap (we want each duplicated + // character to be in a word by itself at this stage), + // (4) the font size has changed + if (curWord && curWord->len > 0) { + base = sp = delta = 0; // make gcc happy + switch (curWord->rot) { + case 0: + base = y1; + sp = x1 - curWord->xMax; + delta = x1 - curWord->edge[curWord->len - 1]; + break; + case 1: + base = x1; + sp = y1 - curWord->yMax; + delta = y1 - curWord->edge[curWord->len - 1]; + break; + case 2: + base = y1; + sp = curWord->xMin - x1; + delta = curWord->edge[curWord->len - 1] - x1; + break; + case 3: + base = x1; + sp = curWord->yMin - y1; + delta = curWord->edge[curWord->len - 1] - y1; + break; + } + overlap = fabs(delta) < dupMaxPriDelta * curWord->fontSize && + fabs(base - curWord->base) < dupMaxSecDelta * curWord->fontSize; + if (overlap || lastCharOverlap || + sp < -minDupBreakOverlap * curWord->fontSize || + sp > minWordBreakSpace * curWord->fontSize || + fabs(base - curWord->base) > 0.5 || + curFontSize != curWord->fontSize) { + endWord(); + } + lastCharOverlap = overlap; + } else { + lastCharOverlap = gFalse; + } + + if (uLen != 0) { + // start a new word if needed + if (!curWord) { + beginWord(state, x, y); + } + + // page rotation and/or transform matrices can cause text to be + // drawn in reverse order -- in this case, swap the begin/end + // coordinates and break text into individual chars + if ((curWord->rot == 0 && w1 < 0) || + (curWord->rot == 1 && h1 < 0) || + (curWord->rot == 2 && w1 > 0) || + (curWord->rot == 3 && h1 > 0)) { + endWord(); + beginWord(state, x + dx, y + dy); + x1 += w1; + y1 += h1; + w1 = -w1; + h1 = -h1; + } + + // add the characters to the current word + w1 /= uLen; + h1 /= uLen; + for (i = 0; i < uLen; ++i) { + curWord->addChar(state, x1 + i*w1, y1 + i*h1, w1, h1, u[i]); + } + } + if (curWord) { + curWord->charLen += nBytes; + } + charPos += nBytes; +} + +void TextPage::endWord() { + // This check is needed because Type 3 characters can contain + // text-drawing operations (when TextPage is being used via + // {X,Win}SplashOutputDev rather than TextOutputDev). + if (nest > 0) { + --nest; + return; + } + + if (curWord) { + addWord(curWord); + curWord = NULL; + } +} + +void TextPage::addWord(TextWord *word) { + // throw away zero-length words -- they don't have valid xMin/xMax + // values, and they're useless anyway + if (word->len == 0) { + delete word; + return; + } + + if (rawOrder) { + if (rawLastWord) { + rawLastWord->next = word; + } else { + rawWords = word; + } + rawLastWord = word; + } else { + pools[word->rot]->addWord(word); + } +} + +void TextPage::addUnderline(double x0, double y0, double x1, double y1) { + underlines->append(new TextUnderline(x0, y0, x1, y1)); +} + +void TextPage::addLink(int xMin, int yMin, int xMax, int yMax, Link *link) { + links->append(new TextLink(xMin, yMin, xMax, yMax, link)); +} + +void TextPage::coalesce(GBool /*physLayout*/, GBool doHTML) { + UnicodeMap *uMap; + TextPool *pool; + TextWord *word0, *word1, *word2; + TextLine *line; + TextBlock *blkList, *blkStack, *blk, *lastBlk, *blk0, *blk1; + TextBlock **blkArray; + TextFlow *flow, *lastFlow; + TextUnderline *underline; + TextLink *link; + int rot, poolMinBaseIdx, baseIdx, startBaseIdx, endBaseIdx; + double minBase, maxBase, newMinBase, newMaxBase; + double fontSize, colSpace1, colSpace2, lineSpace, intraLineSpace, blkSpace; + GBool found; + int count[4]; + int lrCount; + int firstBlkIdx, nBlocksLeft; + int col1, col2; + int i, j, n; + + if (rawOrder) { + primaryRot = 0; + primaryLR = gTrue; + return; + } + + uMap = globalParams->getTextEncoding(); + blkList = NULL; + lastBlk = NULL; + nBlocks = 0; + primaryRot = -1; + +#if 0 // for debugging + printf("*** initial words ***\n"); + for (rot = 0; rot < 4; ++rot) { + pool = pools[rot]; + for (baseIdx = pool->minBaseIdx; baseIdx <= pool->maxBaseIdx; ++baseIdx) { + for (word0 = pool->getPool(baseIdx); word0; word0 = word0->next) { + printf(" word: x=%.2f..%.2f y=%.2f..%.2f base=%.2f fontSize=%.2f rot=%d link=%p '", + word0->xMin, word0->xMax, word0->yMin, word0->yMax, + word0->base, word0->fontSize, rot*90, word0->link); + for (i = 0; i < word0->len; ++i) { + fputc(word0->text[i] & 0xff, stdout); + } + printf("'\n"); + } + } + } + printf("\n"); +#endif + +#if 0 //~ for debugging + for (i = 0; i < underlines->getLength(); ++i) { + underline = (TextUnderline *)underlines->get(i); + printf("underline: x=%g..%g y=%g..%g horiz=%d\n", + underline->x0, underline->x1, underline->y0, underline->y1, + underline->horiz); + } +#endif + + if (doHTML) { + + //----- handle underlining + for (i = 0; i < underlines->getLength(); ++i) { + underline = (TextUnderline *)underlines->get(i); + if (underline->horiz) { + // rot = 0 + if (pools[0]->minBaseIdx <= pools[0]->maxBaseIdx) { + startBaseIdx = pools[0]->getBaseIdx(underline->y0 + minUnderlineGap); + endBaseIdx = pools[0]->getBaseIdx(underline->y0 + maxUnderlineGap); + for (j = startBaseIdx; j <= endBaseIdx; ++j) { + for (word0 = pools[0]->getPool(j); word0; word0 = word0->next) { + //~ need to check the y value against the word baseline + if (underline->x0 < word0->xMin + underlineSlack && + word0->xMax - underlineSlack < underline->x1) { + word0->underlined = gTrue; + } + } + } + } + + // rot = 2 + if (pools[2]->minBaseIdx <= pools[2]->maxBaseIdx) { + startBaseIdx = pools[2]->getBaseIdx(underline->y0 - maxUnderlineGap); + endBaseIdx = pools[2]->getBaseIdx(underline->y0 - minUnderlineGap); + for (j = startBaseIdx; j <= endBaseIdx; ++j) { + for (word0 = pools[2]->getPool(j); word0; word0 = word0->next) { + if (underline->x0 < word0->xMin + underlineSlack && + word0->xMax - underlineSlack < underline->x1) { + word0->underlined = gTrue; + } + } + } + } + } else { + // rot = 1 + if (pools[1]->minBaseIdx <= pools[1]->maxBaseIdx) { + startBaseIdx = pools[1]->getBaseIdx(underline->x0 - maxUnderlineGap); + endBaseIdx = pools[1]->getBaseIdx(underline->x0 - minUnderlineGap); + for (j = startBaseIdx; j <= endBaseIdx; ++j) { + for (word0 = pools[1]->getPool(j); word0; word0 = word0->next) { + if (underline->y0 < word0->yMin + underlineSlack && + word0->yMax - underlineSlack < underline->y1) { + word0->underlined = gTrue; + } + } + } + } + + // rot = 3 + if (pools[3]->minBaseIdx <= pools[3]->maxBaseIdx) { + startBaseIdx = pools[3]->getBaseIdx(underline->x0 + minUnderlineGap); + endBaseIdx = pools[3]->getBaseIdx(underline->x0 + maxUnderlineGap); + for (j = startBaseIdx; j <= endBaseIdx; ++j) { + for (word0 = pools[3]->getPool(j); word0; word0 = word0->next) { + if (underline->y0 < word0->yMin + underlineSlack && + word0->yMax - underlineSlack < underline->y1) { + word0->underlined = gTrue; + } + } + } + } + } + } + + //----- handle links + for (i = 0; i < links->getLength(); ++i) { + link = (TextLink *)links->get(i); + + // rot = 0 + if (pools[0]->minBaseIdx <= pools[0]->maxBaseIdx) { + startBaseIdx = pools[0]->getBaseIdx(link->yMin); + endBaseIdx = pools[0]->getBaseIdx(link->yMax); + for (j = startBaseIdx; j <= endBaseIdx; ++j) { + for (word0 = pools[0]->getPool(j); word0; word0 = word0->next) { + if (link->xMin < word0->xMin + hyperlinkSlack && + word0->xMax - hyperlinkSlack < link->xMax && + link->yMin < word0->yMin + hyperlinkSlack && + word0->yMax - hyperlinkSlack < link->yMax) { + word0->link = link->link; + } + } + } + } + + // rot = 2 + if (pools[2]->minBaseIdx <= pools[2]->maxBaseIdx) { + startBaseIdx = pools[2]->getBaseIdx(link->yMin); + endBaseIdx = pools[2]->getBaseIdx(link->yMax); + for (j = startBaseIdx; j <= endBaseIdx; ++j) { + for (word0 = pools[2]->getPool(j); word0; word0 = word0->next) { + if (link->xMin < word0->xMin + hyperlinkSlack && + word0->xMax - hyperlinkSlack < link->xMax && + link->yMin < word0->yMin + hyperlinkSlack && + word0->yMax - hyperlinkSlack < link->yMax) { + word0->link = link->link; + } + } + } + } + + // rot = 1 + if (pools[1]->minBaseIdx <= pools[1]->maxBaseIdx) { + startBaseIdx = pools[1]->getBaseIdx(link->xMin); + endBaseIdx = pools[1]->getBaseIdx(link->xMax); + for (j = startBaseIdx; j <= endBaseIdx; ++j) { + for (word0 = pools[1]->getPool(j); word0; word0 = word0->next) { + if (link->yMin < word0->yMin + hyperlinkSlack && + word0->yMax - hyperlinkSlack < link->yMax && + link->xMin < word0->xMin + hyperlinkSlack && + word0->xMax - hyperlinkSlack < link->xMax) { + word0->link = link->link; + } + } + } + } + + // rot = 3 + if (pools[3]->minBaseIdx <= pools[3]->maxBaseIdx) { + startBaseIdx = pools[3]->getBaseIdx(link->xMin); + endBaseIdx = pools[3]->getBaseIdx(link->xMax); + for (j = startBaseIdx; j <= endBaseIdx; ++j) { + for (word0 = pools[3]->getPool(j); word0; word0 = word0->next) { + if (link->yMin < word0->yMin + hyperlinkSlack && + word0->yMax - hyperlinkSlack < link->yMax && + link->xMin < word0->xMin + hyperlinkSlack && + word0->xMax - hyperlinkSlack < link->xMax) { + word0->link = link->link; + } + } + } + } + } + } + + //----- assemble the blocks + + //~ add an outer loop for writing mode (vertical text) + + // build blocks for each rotation value + for (rot = 0; rot < 4; ++rot) { + pool = pools[rot]; + poolMinBaseIdx = pool->minBaseIdx; + count[rot] = 0; + + // add blocks until no more words are left + while (1) { + + // find the first non-empty line in the pool + for (; + poolMinBaseIdx <= pool->maxBaseIdx && + !pool->getPool(poolMinBaseIdx); + ++poolMinBaseIdx) ; + if (poolMinBaseIdx > pool->maxBaseIdx) { + break; + } + + // look for the left-most word in the first four lines of the + // pool -- this avoids starting with a superscript word + startBaseIdx = poolMinBaseIdx; + for (baseIdx = poolMinBaseIdx + 1; + baseIdx < poolMinBaseIdx + 4 && baseIdx <= pool->maxBaseIdx; + ++baseIdx) { + if (!pool->getPool(baseIdx)) { + continue; + } + if (pool->getPool(baseIdx)->primaryCmp(pool->getPool(startBaseIdx)) + < 0) { + startBaseIdx = baseIdx; + } + } + + // create a new block + word0 = pool->getPool(startBaseIdx); + pool->setPool(startBaseIdx, word0->next); + word0->next = NULL; + blk = new TextBlock(this, rot); + blk->addWord(word0); + + fontSize = word0->fontSize; + minBase = maxBase = word0->base; + colSpace1 = minColSpacing1 * fontSize; + colSpace2 = minColSpacing2 * fontSize; + lineSpace = maxLineSpacingDelta * fontSize; + intraLineSpace = maxIntraLineDelta * fontSize; + + // add words to the block + do { + found = gFalse; + + // look for words on the line above the current top edge of + // the block + newMinBase = minBase; + for (baseIdx = pool->getBaseIdx(minBase); + baseIdx >= pool->getBaseIdx(minBase - lineSpace); + --baseIdx) { + word0 = NULL; + word1 = pool->getPool(baseIdx); + while (word1) { + if (word1->base < minBase && + word1->base >= minBase - lineSpace && + ((rot == 0 || rot == 2) + ? (word1->xMin < blk->xMax && word1->xMax > blk->xMin) + : (word1->yMin < blk->yMax && word1->yMax > blk->yMin)) && + fabs(word1->fontSize - fontSize) < + maxBlockFontSizeDelta1 * fontSize) { + word2 = word1; + if (word0) { + word0->next = word1->next; + } else { + pool->setPool(baseIdx, word1->next); + } + word1 = word1->next; + word2->next = NULL; + blk->addWord(word2); + found = gTrue; + newMinBase = word2->base; + } else { + word0 = word1; + word1 = word1->next; + } + } + } + minBase = newMinBase; + + // look for words on the line below the current bottom edge of + // the block + newMaxBase = maxBase; + for (baseIdx = pool->getBaseIdx(maxBase); + baseIdx <= pool->getBaseIdx(maxBase + lineSpace); + ++baseIdx) { + word0 = NULL; + word1 = pool->getPool(baseIdx); + while (word1) { + if (word1->base > maxBase && + word1->base <= maxBase + lineSpace && + ((rot == 0 || rot == 2) + ? (word1->xMin < blk->xMax && word1->xMax > blk->xMin) + : (word1->yMin < blk->yMax && word1->yMax > blk->yMin)) && + fabs(word1->fontSize - fontSize) < + maxBlockFontSizeDelta1 * fontSize) { + word2 = word1; + if (word0) { + word0->next = word1->next; + } else { + pool->setPool(baseIdx, word1->next); + } + word1 = word1->next; + word2->next = NULL; + blk->addWord(word2); + found = gTrue; + newMaxBase = word2->base; + } else { + word0 = word1; + word1 = word1->next; + } + } + } + maxBase = newMaxBase; + + // look for words that are on lines already in the block, and + // that overlap the block horizontally + for (baseIdx = pool->getBaseIdx(minBase - intraLineSpace); + baseIdx <= pool->getBaseIdx(maxBase + intraLineSpace); + ++baseIdx) { + word0 = NULL; + word1 = pool->getPool(baseIdx); + while (word1) { + if (word1->base >= minBase - intraLineSpace && + word1->base <= maxBase + intraLineSpace && + ((rot == 0 || rot == 2) + ? (word1->xMin < blk->xMax + colSpace1 && + word1->xMax > blk->xMin - colSpace1) + : (word1->yMin < blk->yMax + colSpace1 && + word1->yMax > blk->yMin - colSpace1)) && + fabs(word1->fontSize - fontSize) < + maxBlockFontSizeDelta2 * fontSize) { + word2 = word1; + if (word0) { + word0->next = word1->next; + } else { + pool->setPool(baseIdx, word1->next); + } + word1 = word1->next; + word2->next = NULL; + blk->addWord(word2); + found = gTrue; + } else { + word0 = word1; + word1 = word1->next; + } + } + } + + // only check for outlying words (the next two chunks of code) + // if we didn't find anything else + if (found) { + continue; + } + + // scan down the left side of the block, looking for words + // that are near (but not overlapping) the block; if there are + // three or fewer, add them to the block + n = 0; + for (baseIdx = pool->getBaseIdx(minBase - intraLineSpace); + baseIdx <= pool->getBaseIdx(maxBase + intraLineSpace); + ++baseIdx) { + word1 = pool->getPool(baseIdx); + while (word1) { + if (word1->base >= minBase - intraLineSpace && + word1->base <= maxBase + intraLineSpace && + ((rot == 0 || rot == 2) + ? (word1->xMax <= blk->xMin && + word1->xMax > blk->xMin - colSpace2) + : (word1->yMax <= blk->yMin && + word1->yMax > blk->yMin - colSpace2)) && + fabs(word1->fontSize - fontSize) < + maxBlockFontSizeDelta3 * fontSize) { + ++n; + break; + } + word1 = word1->next; + } + } + if (n > 0 && n <= 3) { + for (baseIdx = pool->getBaseIdx(minBase - intraLineSpace); + baseIdx <= pool->getBaseIdx(maxBase + intraLineSpace); + ++baseIdx) { + word0 = NULL; + word1 = pool->getPool(baseIdx); + while (word1) { + if (word1->base >= minBase - intraLineSpace && + word1->base <= maxBase + intraLineSpace && + ((rot == 0 || rot == 2) + ? (word1->xMax <= blk->xMin && + word1->xMax > blk->xMin - colSpace2) + : (word1->yMax <= blk->yMin && + word1->yMax > blk->yMin - colSpace2)) && + fabs(word1->fontSize - fontSize) < + maxBlockFontSizeDelta3 * fontSize) { + word2 = word1; + if (word0) { + word0->next = word1->next; + } else { + pool->setPool(baseIdx, word1->next); + } + word1 = word1->next; + word2->next = NULL; + blk->addWord(word2); + if (word2->base < minBase) { + minBase = word2->base; + } else if (word2->base > maxBase) { + maxBase = word2->base; + } + found = gTrue; + break; + } else { + word0 = word1; + word1 = word1->next; + } + } + } + } + + // scan down the right side of the block, looking for words + // that are near (but not overlapping) the block; if there are + // three or fewer, add them to the block + n = 0; + for (baseIdx = pool->getBaseIdx(minBase - intraLineSpace); + baseIdx <= pool->getBaseIdx(maxBase + intraLineSpace); + ++baseIdx) { + word1 = pool->getPool(baseIdx); + while (word1) { + if (word1->base >= minBase - intraLineSpace && + word1->base <= maxBase + intraLineSpace && + ((rot == 0 || rot == 2) + ? (word1->xMin >= blk->xMax && + word1->xMin < blk->xMax + colSpace2) + : (word1->yMin >= blk->yMax && + word1->yMin < blk->yMax + colSpace2)) && + fabs(word1->fontSize - fontSize) < + maxBlockFontSizeDelta3 * fontSize) { + ++n; + break; + } + word1 = word1->next; + } + } + if (n > 0 && n <= 3) { + for (baseIdx = pool->getBaseIdx(minBase - intraLineSpace); + baseIdx <= pool->getBaseIdx(maxBase + intraLineSpace); + ++baseIdx) { + word0 = NULL; + word1 = pool->getPool(baseIdx); + while (word1) { + if (word1->base >= minBase - intraLineSpace && + word1->base <= maxBase + intraLineSpace && + ((rot == 0 || rot == 2) + ? (word1->xMin >= blk->xMax && + word1->xMin < blk->xMax + colSpace2) + : (word1->yMin >= blk->yMax && + word1->yMin < blk->yMax + colSpace2)) && + fabs(word1->fontSize - fontSize) < + maxBlockFontSizeDelta3 * fontSize) { + word2 = word1; + if (word0) { + word0->next = word1->next; + } else { + pool->setPool(baseIdx, word1->next); + } + word1 = word1->next; + word2->next = NULL; + blk->addWord(word2); + if (word2->base < minBase) { + minBase = word2->base; + } else if (word2->base > maxBase) { + maxBase = word2->base; + } + found = gTrue; + break; + } else { + word0 = word1; + word1 = word1->next; + } + } + } + } + + } while (found); + + //~ need to compute the primary writing mode (horiz/vert) in + //~ addition to primary rotation + + // coalesce the block, and add it to the list + blk->coalesce(uMap); + if (lastBlk) { + lastBlk->next = blk; + } else { + blkList = blk; + } + lastBlk = blk; + count[rot] += blk->charCount; + if (primaryRot < 0 || count[rot] > count[primaryRot]) { + primaryRot = rot; + } + ++nBlocks; + } + } + +#if 0 // for debugging + printf("*** rotation ***\n"); + for (rot = 0; rot < 4; ++rot) { + printf(" %d: %6d\n", rot, count[rot]); + } + printf(" primary rot = %d\n", primaryRot); + printf("\n"); +#endif + +#if 0 // for debugging + printf("*** blocks ***\n"); + for (blk = blkList; blk; blk = blk->next) { + printf("block: rot=%d x=%.2f..%.2f y=%.2f..%.2f\n", + blk->rot, blk->xMin, blk->xMax, blk->yMin, blk->yMax); + for (line = blk->lines; line; line = line->next) { + printf(" line: x=%.2f..%.2f y=%.2f..%.2f base=%.2f\n", + line->xMin, line->xMax, line->yMin, line->yMax, line->base); + for (word0 = line->words; word0; word0 = word0->next) { + printf(" word: x=%.2f..%.2f y=%.2f..%.2f base=%.2f fontSize=%.2f space=%d: '", + word0->xMin, word0->xMax, word0->yMin, word0->yMax, + word0->base, word0->fontSize, word0->spaceAfter); + for (i = 0; i < word0->len; ++i) { + fputc(word0->text[i] & 0xff, stdout); + } + printf("'\n"); + } + } + } + printf("\n"); +#endif + + // determine the primary direction + lrCount = 0; + for (blk = blkList; blk; blk = blk->next) { + for (line = blk->lines; line; line = line->next) { + for (word0 = line->words; word0; word0 = word0->next) { + for (i = 0; i < word0->len; ++i) { + if (unicodeTypeL(word0->text[i])) { + ++lrCount; + } else if (unicodeTypeR(word0->text[i])) { + --lrCount; + } + } + } + } + } + primaryLR = lrCount >= 0; + +#if 0 // for debugging + printf("*** direction ***\n"); + printf("lrCount = %d\n", lrCount); + printf("primaryLR = %d\n", primaryLR); +#endif + + //----- column assignment + + // sort blocks into xy order for column assignment + blocks = (TextBlock **)gmallocn(nBlocks, sizeof(TextBlock *)); + for (blk = blkList, i = 0; blk; blk = blk->next, ++i) { + blocks[i] = blk; + } + qsort(blocks, nBlocks, sizeof(TextBlock *), &TextBlock::cmpXYPrimaryRot); + + // column assignment + for (i = 0; i < nBlocks; ++i) { + blk0 = blocks[i]; + col1 = 0; + for (j = 0; j < i; ++j) { + blk1 = blocks[j]; + col2 = 0; // make gcc happy + switch (primaryRot) { + case 0: + if (blk0->xMin > blk1->xMax) { + col2 = blk1->col + blk1->nColumns + 3; + } else if (blk1->xMax == blk1->xMin) { + col2 = blk1->col; + } else { + col2 = blk1->col + (int)(((blk0->xMin - blk1->xMin) / + (blk1->xMax - blk1->xMin)) * + blk1->nColumns); + } + break; + case 1: + if (blk0->yMin > blk1->yMax) { + col2 = blk1->col + blk1->nColumns + 3; + } else if (blk1->yMax == blk1->yMin) { + col2 = blk1->col; + } else { + col2 = blk1->col + (int)(((blk0->yMin - blk1->yMin) / + (blk1->yMax - blk1->yMin)) * + blk1->nColumns); + } + break; + case 2: + if (blk0->xMax < blk1->xMin) { + col2 = blk1->col + blk1->nColumns + 3; + } else if (blk1->xMin == blk1->xMax) { + col2 = blk1->col; + } else { + col2 = blk1->col + (int)(((blk0->xMax - blk1->xMax) / + (blk1->xMin - blk1->xMax)) * + blk1->nColumns); + } + break; + case 3: + if (blk0->yMax < blk1->yMin) { + col2 = blk1->col + blk1->nColumns + 3; + } else if (blk1->yMin == blk1->yMax) { + col2 = blk1->col; + } else { + col2 = blk1->col + (int)(((blk0->yMax - blk1->yMax) / + (blk1->yMin - blk1->yMax)) * + blk1->nColumns); + } + break; + } + if (col2 > col1) { + col1 = col2; + } + } + blk0->col = col1; + for (line = blk0->lines; line; line = line->next) { + for (j = 0; j <= line->len; ++j) { + line->col[j] += col1; + } + } + } + +#if 0 // for debugging + printf("*** blocks, after column assignment ***\n"); + for (blk = blkList; blk; blk = blk->next) { + printf("block: rot=%d x=%.2f..%.2f y=%.2f..%.2f col=%d nCols=%d\n", + blk->rot, blk->xMin, blk->xMax, blk->yMin, blk->yMax, blk->col, + blk->nColumns); + for (line = blk->lines; line; line = line->next) { + printf(" line:\n"); + for (word0 = line->words; word0; word0 = word0->next) { + printf(" word: x=%.2f..%.2f y=%.2f..%.2f base=%.2f fontSize=%.2f space=%d: '", + word0->xMin, word0->xMax, word0->yMin, word0->yMax, + word0->base, word0->fontSize, word0->spaceAfter); + for (i = 0; i < word0->len; ++i) { + fputc(word0->text[i] & 0xff, stdout); + } + printf("'\n"); + } + } + } + printf("\n"); +#endif + + //----- reading order sort + + // sort blocks into yx order (in preparation for reading order sort) + qsort(blocks, nBlocks, sizeof(TextBlock *), &TextBlock::cmpYXPrimaryRot); + + // compute space on left and right sides of each block + for (i = 0; i < nBlocks; ++i) { + blk0 = blocks[i]; + for (j = 0; j < nBlocks; ++j) { + blk1 = blocks[j]; + if (blk1 != blk0) { + blk0->updatePriMinMax(blk1); + } + } + } + +#if 0 // for debugging + printf("*** blocks, after yx sort ***\n"); + for (i = 0; i < nBlocks; ++i) { + blk = blocks[i]; + printf("block: rot=%d x=%.2f..%.2f y=%.2f..%.2f space=%.2f..%.2f\n", + blk->rot, blk->xMin, blk->xMax, blk->yMin, blk->yMax, + blk->priMin, blk->priMax); + for (line = blk->lines; line; line = line->next) { + printf(" line:\n"); + for (word0 = line->words; word0; word0 = word0->next) { + printf(" word: x=%.2f..%.2f y=%.2f..%.2f base=%.2f fontSize=%.2f space=%d: '", + word0->xMin, word0->xMax, word0->yMin, word0->yMax, + word0->base, word0->fontSize, word0->spaceAfter); + for (j = 0; j < word0->len; ++j) { + fputc(word0->text[j] & 0xff, stdout); + } + printf("'\n"); + } + } + } + printf("\n"); +#endif + + // build the flows + //~ this needs to be adjusted for writing mode (vertical text) + //~ this also needs to account for right-to-left column ordering + blkArray = (TextBlock **)gmallocn(nBlocks, sizeof(TextBlock *)); + memcpy(blkArray, blocks, nBlocks * sizeof(TextBlock *)); + flows = lastFlow = NULL; + firstBlkIdx = 0; + nBlocksLeft = nBlocks; + while (nBlocksLeft > 0) { + + // find the upper-left-most block + for (; !blkArray[firstBlkIdx]; ++firstBlkIdx) ; + i = firstBlkIdx; + blk = blkArray[i]; + for (j = firstBlkIdx + 1; j < nBlocks; ++j) { + blk1 = blkArray[j]; + if (blk1) { + if (blk && blk->secondaryDelta(blk1) > 0) { + break; + } + if (blk1->primaryCmp(blk) < 0) { + i = j; + blk = blk1; + } + } + } + blkArray[i] = NULL; + --nBlocksLeft; + blk->next = NULL; + + // create a new flow, starting with the upper-left-most block + flow = new TextFlow(this, blk); + if (lastFlow) { + lastFlow->next = flow; + } else { + flows = flow; + } + lastFlow = flow; + fontSize = blk->lines->words->fontSize; + + // push the upper-left-most block on the stack + blk->stackNext = NULL; + blkStack = blk; + + // find the other blocks in this flow + while (blkStack) { + + // find the upper-left-most block under (but within + // maxBlockSpacing of) the top block on the stack + blkSpace = maxBlockSpacing * blkStack->lines->words->fontSize; + blk = NULL; + i = -1; + for (j = firstBlkIdx; j < nBlocks; ++j) { + blk1 = blkArray[j]; + if (blk1) { + if (blkStack->secondaryDelta(blk1) > blkSpace) { + break; + } + if (blk && blk->secondaryDelta(blk1) > 0) { + break; + } + if (blk1->isBelow(blkStack) && + (!blk || blk1->primaryCmp(blk) < 0)) { + i = j; + blk = blk1; + } + } + } + + // if a suitable block was found, add it to the flow and push it + // onto the stack + if (blk && flow->blockFits(blk, blkStack)) { + blkArray[i] = NULL; + --nBlocksLeft; + blk->next = NULL; + flow->addBlock(blk); + fontSize = blk->lines->words->fontSize; + blk->stackNext = blkStack; + blkStack = blk; + + // otherwise (if there is no block under the top block or the + // block is not suitable), pop the stack + } else { + blkStack = blkStack->stackNext; + } + } + } + gfree(blkArray); + +#if 0 // for debugging + printf("*** flows ***\n"); + for (flow = flows; flow; flow = flow->next) { + printf("flow: x=%.2f..%.2f y=%.2f..%.2f pri:%.2f..%.2f\n", + flow->xMin, flow->xMax, flow->yMin, flow->yMax, + flow->priMin, flow->priMax); + for (blk = flow->blocks; blk; blk = blk->next) { + printf(" block: rot=%d x=%.2f..%.2f y=%.2f..%.2f pri=%.2f..%.2f\n", + blk->rot, blk->xMin, blk->xMax, blk->yMin, blk->yMax, + blk->priMin, blk->priMax); + for (line = blk->lines; line; line = line->next) { + printf(" line:\n"); + for (word0 = line->words; word0; word0 = word0->next) { + printf(" word: x=%.2f..%.2f y=%.2f..%.2f base=%.2f fontSize=%.2f space=%d: '", + word0->xMin, word0->xMax, word0->yMin, word0->yMax, + word0->base, word0->fontSize, word0->spaceAfter); + for (i = 0; i < word0->len; ++i) { + fputc(word0->text[i] & 0xff, stdout); + } + printf("'\n"); + } + } + } + } + printf("\n"); +#endif + + if (uMap) { + uMap->decRefCnt(); + } +} + +GBool TextPage::findText(Unicode *s, int len, + GBool startAtTop, GBool stopAtBottom, + GBool startAtLast, GBool stopAtLast, + GBool caseSensitive, GBool backward, + double *xMin, double *yMin, + double *xMax, double *yMax) { + TextBlock *blk; + TextLine *line; + Unicode *s2, *txt; + Unicode *p; + int txtSize, m, i, j, k; + double xStart, yStart, xStop, yStop; + double xMin0, yMin0, xMax0, yMax0; + double xMin1, yMin1, xMax1, yMax1; + GBool found; + + //~ needs to handle right-to-left text + + if (rawOrder) { + return gFalse; + } + + // convert the search string to uppercase + if (!caseSensitive) { + s2 = (Unicode *)gmallocn(len, sizeof(Unicode)); + for (i = 0; i < len; ++i) { + s2[i] = unicodeToUpper(s[i]); + } + } else { + s2 = s; + } + + txt = NULL; + txtSize = 0; + + xStart = yStart = xStop = yStop = 0; + if (startAtLast && haveLastFind) { + xStart = lastFindXMin; + yStart = lastFindYMin; + } else if (!startAtTop) { + xStart = *xMin; + yStart = *yMin; + } + if (stopAtLast && haveLastFind) { + xStop = lastFindXMin; + yStop = lastFindYMin; + } else if (!stopAtBottom) { + xStop = *xMax; + yStop = *yMax; + } + + found = gFalse; + xMin0 = xMax0 = yMin0 = yMax0 = 0; // make gcc happy + xMin1 = xMax1 = yMin1 = yMax1 = 0; // make gcc happy + + for (i = backward ? nBlocks - 1 : 0; + backward ? i >= 0 : i < nBlocks; + i += backward ? -1 : 1) { + blk = blocks[i]; + + // check: is the block above the top limit? + if (!startAtTop && (backward ? blk->yMin > yStart : blk->yMax < yStart)) { + continue; + } + + // check: is the block below the bottom limit? + if (!stopAtBottom && (backward ? blk->yMax < yStop : blk->yMin > yStop)) { + break; + } + + for (line = blk->lines; line; line = line->next) { + + // check: is the line above the top limit? + if (!startAtTop && + (backward ? line->yMin > yStart : line->yMin < yStart)) { + continue; + } + + // check: is the line below the bottom limit? + if (!stopAtBottom && + (backward ? line->yMin < yStop : line->yMin > yStop)) { + continue; + } + + // convert the line to uppercase + m = line->len; + if (!caseSensitive) { + if (m > txtSize) { + txt = (Unicode *)greallocn(txt, m, sizeof(Unicode)); + txtSize = m; + } + for (k = 0; k < m; ++k) { + txt[k] = unicodeToUpper(line->text[k]); + } + } else { + txt = line->text; + } + + // search each position in this line + j = backward ? m - len : 0; + p = txt + j; + while (backward ? j >= 0 : j <= m - len) { + + // compare the strings + for (k = 0; k < len; ++k) { + if (p[k] != s2[k]) { + break; + } + } + + // found it + if (k == len) { + switch (line->rot) { + case 0: + xMin1 = line->edge[j]; + xMax1 = line->edge[j + len]; + yMin1 = line->yMin; + yMax1 = line->yMax; + break; + case 1: + xMin1 = line->xMin; + xMax1 = line->xMax; + yMin1 = line->edge[j]; + yMax1 = line->edge[j + len]; + break; + case 2: + xMin1 = line->edge[j + len]; + xMax1 = line->edge[j]; + yMin1 = line->yMin; + yMax1 = line->yMax; + break; + case 3: + xMin1 = line->xMin; + xMax1 = line->xMax; + yMin1 = line->edge[j + len]; + yMax1 = line->edge[j]; + break; + } + if (backward) { + if ((startAtTop || + yMin1 < yStart || (yMin1 == yStart && xMin1 < xStart)) && + (stopAtBottom || + yMin1 > yStop || (yMin1 == yStop && xMin1 > xStop))) { + if (!found || + yMin1 > yMin0 || (yMin1 == yMin0 && xMin1 > xMin0)) { + xMin0 = xMin1; + xMax0 = xMax1; + yMin0 = yMin1; + yMax0 = yMax1; + found = gTrue; + } + } + } else { + if ((startAtTop || + yMin1 > yStart || (yMin1 == yStart && xMin1 > xStart)) && + (stopAtBottom || + yMin1 < yStop || (yMin1 == yStop && xMin1 < xStop))) { + if (!found || + yMin1 < yMin0 || (yMin1 == yMin0 && xMin1 < xMin0)) { + xMin0 = xMin1; + xMax0 = xMax1; + yMin0 = yMin1; + yMax0 = yMax1; + found = gTrue; + } + } + } + } + if (backward) { + --j; + --p; + } else { + ++j; + ++p; + } + } + } + } + + if (!caseSensitive) { + gfree(s2); + gfree(txt); + } + + if (found) { + *xMin = xMin0; + *xMax = xMax0; + *yMin = yMin0; + *yMax = yMax0; + lastFindXMin = xMin0; + lastFindYMin = yMin0; + haveLastFind = gTrue; + return gTrue; + } + + return gFalse; +} + +GString *TextPage::getText(double xMin, double yMin, + double xMax, double yMax) { + GString *s; + UnicodeMap *uMap; + GBool isUnicode; + TextBlock *blk; + TextLine *line; + TextLineFrag *frags; + int nFrags, fragsSize; + TextLineFrag *frag; + char space[8], eol[16]; + int spaceLen, eolLen; + int lastRot; + double x, y, delta; + int col, idx0, idx1, i, j; + GBool multiLine, oneRot; + + s = new GString(); + + if (rawOrder) { + return s; + } + + // get the output encoding + if (!(uMap = globalParams->getTextEncoding())) { + return s; + } + isUnicode = uMap->isUnicode(); + spaceLen = uMap->mapUnicode(0x20, space, sizeof(space)); + eolLen = 0; // make gcc happy + switch (globalParams->getTextEOL()) { + case eolUnix: + eolLen = uMap->mapUnicode(0x0a, eol, sizeof(eol)); + break; + case eolDOS: + eolLen = uMap->mapUnicode(0x0d, eol, sizeof(eol)); + eolLen += uMap->mapUnicode(0x0a, eol + eolLen, sizeof(eol) - eolLen); + break; + case eolMac: + eolLen = uMap->mapUnicode(0x0d, eol, sizeof(eol)); + break; + } + + //~ writing mode (horiz/vert) + + // collect the line fragments that are in the rectangle + fragsSize = 256; + frags = (TextLineFrag *)gmallocn(fragsSize, sizeof(TextLineFrag)); + nFrags = 0; + lastRot = -1; + oneRot = gTrue; + for (i = 0; i < nBlocks; ++i) { + blk = blocks[i]; + if (xMin < blk->xMax && blk->xMin < xMax && + yMin < blk->yMax && blk->yMin < yMax) { + for (line = blk->lines; line; line = line->next) { + if (xMin < line->xMax && line->xMin < xMax && + yMin < line->yMax && line->yMin < yMax) { + idx0 = idx1 = -1; + switch (line->rot) { + case 0: + y = 0.5 * (line->yMin + line->yMax); + if (yMin < y && y < yMax) { + j = 0; + while (j < line->len) { + if (0.5 * (line->edge[j] + line->edge[j+1]) > xMin) { + idx0 = j; + break; + } + ++j; + } + j = line->len - 1; + while (j >= 0) { + if (0.5 * (line->edge[j] + line->edge[j+1]) < xMax) { + idx1 = j; + break; + } + --j; + } + } + break; + case 1: + x = 0.5 * (line->xMin + line->xMax); + if (xMin < x && x < xMax) { + j = 0; + while (j < line->len) { + if (0.5 * (line->edge[j] + line->edge[j+1]) > yMin) { + idx0 = j; + break; + } + ++j; + } + j = line->len - 1; + while (j >= 0) { + if (0.5 * (line->edge[j] + line->edge[j+1]) < yMax) { + idx1 = j; + break; + } + --j; + } + } + break; + case 2: + y = 0.5 * (line->yMin + line->yMax); + if (yMin < y && y < yMax) { + j = 0; + while (j < line->len) { + if (0.5 * (line->edge[j] + line->edge[j+1]) < xMax) { + idx0 = j; + break; + } + ++j; + } + j = line->len - 1; + while (j >= 0) { + if (0.5 * (line->edge[j] + line->edge[j+1]) > xMin) { + idx1 = j; + break; + } + --j; + } + } + break; + case 3: + x = 0.5 * (line->xMin + line->xMax); + if (xMin < x && x < xMax) { + j = 0; + while (j < line->len) { + if (0.5 * (line->edge[j] + line->edge[j+1]) < yMax) { + idx0 = j; + break; + } + ++j; + } + j = line->len - 1; + while (j >= 0) { + if (0.5 * (line->edge[j] + line->edge[j+1]) > yMin) { + idx1 = j; + break; + } + --j; + } + } + break; + } + if (idx0 >= 0 && idx1 >= 0) { + if (nFrags == fragsSize) { + fragsSize *= 2; + frags = (TextLineFrag *) + greallocn(frags, fragsSize, sizeof(TextLineFrag)); + } + frags[nFrags].init(line, idx0, idx1 - idx0 + 1); + ++nFrags; + if (lastRot >= 0 && line->rot != lastRot) { + oneRot = gFalse; + } + lastRot = line->rot; + } + } + } + } + } + + // sort the fragments and generate the string + if (nFrags > 0) { + + for (i = 0; i < nFrags; ++i) { + frags[i].computeCoords(oneRot); + } + assignColumns(frags, nFrags, oneRot); + + // if all lines in the region have the same rotation, use it; + // otherwise, use the page's primary rotation + if (oneRot) { + qsort(frags, nFrags, sizeof(TextLineFrag), + &TextLineFrag::cmpYXLineRot); + } else { + qsort(frags, nFrags, sizeof(TextLineFrag), + &TextLineFrag::cmpYXPrimaryRot); + } + i = 0; + while (i < nFrags) { + delta = maxIntraLineDelta * frags[i].line->words->fontSize; + for (j = i+1; + j < nFrags && fabs(frags[j].base - frags[i].base) < delta; + ++j) ; + qsort(frags + i, j - i, sizeof(TextLineFrag), + oneRot ? &TextLineFrag::cmpXYColumnLineRot + : &TextLineFrag::cmpXYColumnPrimaryRot); + i = j; + } + + col = 0; + multiLine = gFalse; + for (i = 0; i < nFrags; ++i) { + frag = &frags[i]; + + // insert a return + if (frag->col < col || + (i > 0 && fabs(frag->base - frags[i-1].base) > + maxIntraLineDelta * frags[i-1].line->words->fontSize)) { + s->append(eol, eolLen); + col = 0; + multiLine = gTrue; + } + + // column alignment + for (; col < frag->col; ++col) { + s->append(space, spaceLen); + } + + // get the fragment text + col += dumpFragment(frag->line->text + frag->start, frag->len, uMap, s); + } + + if (multiLine) { + s->append(eol, eolLen); + } + } + + gfree(frags); + uMap->decRefCnt(); + + return s; +} + +GBool TextPage::findCharRange(int pos, int length, + double *xMin, double *yMin, + double *xMax, double *yMax) { + TextBlock *blk; + TextLine *line; + TextWord *word; + double xMin0, xMax0, yMin0, yMax0; + double xMin1, xMax1, yMin1, yMax1; + GBool first; + int i, j0, j1; + + if (rawOrder) { + return gFalse; + } + + //~ this doesn't correctly handle: + //~ - ranges split across multiple lines (the highlighted region + //~ is the bounding box of all the parts of the range) + //~ - cases where characters don't convert one-to-one into Unicode + first = gTrue; + xMin0 = xMax0 = yMin0 = yMax0 = 0; // make gcc happy + xMin1 = xMax1 = yMin1 = yMax1 = 0; // make gcc happy + for (i = 0; i < nBlocks; ++i) { + blk = blocks[i]; + for (line = blk->lines; line; line = line->next) { + for (word = line->words; word; word = word->next) { + if (pos < word->charPos + word->charLen && + word->charPos < pos + length) { + j0 = pos - word->charPos; + if (j0 < 0) { + j0 = 0; + } + j1 = pos + length - 1 - word->charPos; + if (j1 >= word->len) { + j1 = word->len - 1; + } + switch (line->rot) { + case 0: + xMin1 = word->edge[j0]; + xMax1 = word->edge[j1 + 1]; + yMin1 = word->yMin; + yMax1 = word->yMax; + break; + case 1: + xMin1 = word->xMin; + xMax1 = word->xMax; + yMin1 = word->edge[j0]; + yMax1 = word->edge[j1 + 1]; + break; + case 2: + xMin1 = word->edge[j1 + 1]; + xMax1 = word->edge[j0]; + yMin1 = word->yMin; + yMax1 = word->yMax; + break; + case 3: + xMin1 = word->xMin; + xMax1 = word->xMax; + yMin1 = word->edge[j1 + 1]; + yMax1 = word->edge[j0]; + break; + } + if (first || xMin1 < xMin0) { + xMin0 = xMin1; + } + if (first || xMax1 > xMax0) { + xMax0 = xMax1; + } + if (first || yMin1 < yMin0) { + yMin0 = yMin1; + } + if (first || yMax1 > yMax0) { + yMax0 = yMax1; + } + first = gFalse; + } + } + } + } + if (!first) { + *xMin = xMin0; + *xMax = xMax0; + *yMin = yMin0; + *yMax = yMax0; + return gTrue; + } + return gFalse; +} + +void TextPage::dump(void *outputStream, TextOutputFunc outputFunc, + GBool physLayout) { + UnicodeMap *uMap; + TextFlow *flow; + TextBlock *blk; + TextLine *line; + TextLineFrag *frags; + TextWord *word; + int nFrags, fragsSize; + TextLineFrag *frag; + char space[8], eol[16], eop[8]; + int spaceLen, eolLen, eopLen; + GBool pageBreaks; + GString *s; + double delta; + int col, i, j, d, n; + + // get the output encoding + if (!(uMap = globalParams->getTextEncoding())) { + return; + } + spaceLen = uMap->mapUnicode(0x20, space, sizeof(space)); + eolLen = 0; // make gcc happy + switch (globalParams->getTextEOL()) { + case eolUnix: + eolLen = uMap->mapUnicode(0x0a, eol, sizeof(eol)); + break; + case eolDOS: + eolLen = uMap->mapUnicode(0x0d, eol, sizeof(eol)); + eolLen += uMap->mapUnicode(0x0a, eol + eolLen, sizeof(eol) - eolLen); + break; + case eolMac: + eolLen = uMap->mapUnicode(0x0d, eol, sizeof(eol)); + break; + } + eopLen = uMap->mapUnicode(0x0c, eop, sizeof(eop)); + pageBreaks = globalParams->getTextPageBreaks(); + + //~ writing mode (horiz/vert) + + // output the page in raw (content stream) order + if (rawOrder) { + + for (word = rawWords; word; word = word->next) { + s = new GString(); + dumpFragment(word->text, word->len, uMap, s); + (*outputFunc)(outputStream, s->getCString(), s->getLength()); + delete s; + if (word->next && + fabs(word->next->base - word->base) < + maxIntraLineDelta * word->fontSize) { + if (word->next->xMin > word->xMax + minWordSpacing * word->fontSize) { + (*outputFunc)(outputStream, space, spaceLen); + } + } else { + (*outputFunc)(outputStream, eol, eolLen); + } + } + + // output the page, maintaining the original physical layout + } else if (physLayout) { + + // collect the line fragments for the page and sort them + fragsSize = 256; + frags = (TextLineFrag *)gmallocn(fragsSize, sizeof(TextLineFrag)); + nFrags = 0; + for (i = 0; i < nBlocks; ++i) { + blk = blocks[i]; + for (line = blk->lines; line; line = line->next) { + if (nFrags == fragsSize) { + fragsSize *= 2; + frags = (TextLineFrag *)greallocn(frags, + fragsSize, sizeof(TextLineFrag)); + } + frags[nFrags].init(line, 0, line->len); + frags[nFrags].computeCoords(gTrue); + ++nFrags; + } + } + qsort(frags, nFrags, sizeof(TextLineFrag), &TextLineFrag::cmpYXPrimaryRot); + i = 0; + while (i < nFrags) { + delta = maxIntraLineDelta * frags[i].line->words->fontSize; + for (j = i+1; + j < nFrags && fabs(frags[j].base - frags[i].base) < delta; + ++j) ; + qsort(frags + i, j - i, sizeof(TextLineFrag), + &TextLineFrag::cmpXYColumnPrimaryRot); + i = j; + } + +#if 0 // for debugging + printf("*** line fragments ***\n"); + for (i = 0; i < nFrags; ++i) { + frag = &frags[i]; + printf("frag: x=%.2f..%.2f y=%.2f..%.2f base=%.2f '", + frag->xMin, frag->xMax, frag->yMin, frag->yMax, frag->base); + for (n = 0; n < frag->len; ++n) { + fputc(frag->line->text[frag->start + n] & 0xff, stdout); + } + printf("'\n"); + } + printf("\n"); +#endif + + // generate output + col = 0; + for (i = 0; i < nFrags; ++i) { + frag = &frags[i]; + + // column alignment + for (; col < frag->col; ++col) { + (*outputFunc)(outputStream, space, spaceLen); + } + + // print the line + s = new GString(); + col += dumpFragment(frag->line->text + frag->start, frag->len, uMap, s); + (*outputFunc)(outputStream, s->getCString(), s->getLength()); + delete s; + + // print one or more returns if necessary + if (i == nFrags - 1 || + frags[i+1].col < col || + fabs(frags[i+1].base - frag->base) > + maxIntraLineDelta * frag->line->words->fontSize) { + if (i < nFrags - 1) { + d = (int)((frags[i+1].base - frag->base) / + frag->line->words->fontSize); + if (d < 1) { + d = 1; + } else if (d > 5) { + d = 5; + } + } else { + d = 1; + } + for (; d > 0; --d) { + (*outputFunc)(outputStream, eol, eolLen); + } + col = 0; + } + } + + gfree(frags); + + // output the page, "undoing" the layout + } else { + for (flow = flows; flow; flow = flow->next) { + for (blk = flow->blocks; blk; blk = blk->next) { + for (line = blk->lines; line; line = line->next) { + n = line->len; + if (line->hyphenated && (line->next || blk->next)) { + --n; + } + s = new GString(); + dumpFragment(line->text, n, uMap, s); + (*outputFunc)(outputStream, s->getCString(), s->getLength()); + delete s; + if (!line->hyphenated) { + if (line->next) { + (*outputFunc)(outputStream, space, spaceLen); + } else if (blk->next) { + //~ this is a bit of a kludge - we should really do a more + //~ intelligent determination of paragraphs + if (blk->next->lines->words->fontSize == + blk->lines->words->fontSize) { + (*outputFunc)(outputStream, space, spaceLen); + } else { + (*outputFunc)(outputStream, eol, eolLen); + } + } + } + } + } + (*outputFunc)(outputStream, eol, eolLen); + (*outputFunc)(outputStream, eol, eolLen); + } + } + + // end of page + if (pageBreaks) { + (*outputFunc)(outputStream, eop, eopLen); + } + + uMap->decRefCnt(); +} + +void TextPage::assignColumns(TextLineFrag *frags, int nFrags, GBool oneRot) { + TextLineFrag *frag0, *frag1; + int rot, col1, col2, i, j, k; + + // all text in the region has the same rotation -- recompute the + // column numbers based only on the text in the region + if (oneRot) { + qsort(frags, nFrags, sizeof(TextLineFrag), &TextLineFrag::cmpXYLineRot); + rot = frags[0].line->rot; + for (i = 0; i < nFrags; ++i) { + frag0 = &frags[i]; + col1 = 0; + for (j = 0; j < i; ++j) { + frag1 = &frags[j]; + col2 = 0; // make gcc happy + switch (rot) { + case 0: + if (frag0->xMin >= frag1->xMax) { + col2 = frag1->col + (frag1->line->col[frag1->start + frag1->len] - + frag1->line->col[frag1->start]) + 1; + } else { + for (k = frag1->start; + k < frag1->start + frag1->len && + frag0->xMin >= 0.5 * (frag1->line->edge[k] + + frag1->line->edge[k+1]); + ++k) ; + col2 = frag1->col + + frag1->line->col[k] - frag1->line->col[frag1->start]; + } + break; + case 1: + if (frag0->yMin >= frag1->yMax) { + col2 = frag1->col + (frag1->line->col[frag1->start + frag1->len] - + frag1->line->col[frag1->start]) + 1; + } else { + for (k = frag1->start; + k < frag1->start + frag1->len && + frag0->yMin >= 0.5 * (frag1->line->edge[k] + + frag1->line->edge[k+1]); + ++k) ; + col2 = frag1->col + + frag1->line->col[k] - frag1->line->col[frag1->start]; + } + break; + case 2: + if (frag0->xMax <= frag1->xMin) { + col2 = frag1->col + (frag1->line->col[frag1->start + frag1->len] - + frag1->line->col[frag1->start]) + 1; + } else { + for (k = frag1->start; + k < frag1->start + frag1->len && + frag0->xMax <= 0.5 * (frag1->line->edge[k] + + frag1->line->edge[k+1]); + ++k) ; + col2 = frag1->col + + frag1->line->col[k] - frag1->line->col[frag1->start]; + } + break; + case 3: + if (frag0->yMax <= frag1->yMin) { + col2 = frag1->col + (frag1->line->col[frag1->start + frag1->len] - + frag1->line->col[frag1->start]) + 1; + } else { + for (k = frag1->start; + k < frag1->start + frag1->len && + frag0->yMax <= 0.5 * (frag1->line->edge[k] + + frag1->line->edge[k+1]); + ++k) ; + col2 = frag1->col + + frag1->line->col[k] - frag1->line->col[frag1->start]; + } + break; + } + if (col2 > col1) { + col1 = col2; + } + } + frag0->col = col1; + } + + // the region includes text at different rotations -- use the + // globally assigned column numbers, offset by the minimum column + // number (i.e., shift everything over to column 0) + } else { + col1 = frags[0].col; + for (i = 1; i < nFrags; ++i) { + if (frags[i].col < col1) { + col1 = frags[i].col; + } + } + for (i = 0; i < nFrags; ++i) { + frags[i].col -= col1; + } + } +} + +int TextPage::dumpFragment(Unicode *text, int len, UnicodeMap *uMap, + GString *s) { + char lre[8], rle[8], popdf[8], buf[8]; + int lreLen, rleLen, popdfLen, n; + int nCols, i, j, k; + + nCols = 0; + + if (uMap->isUnicode()) { + + lreLen = uMap->mapUnicode(0x202a, lre, sizeof(lre)); + rleLen = uMap->mapUnicode(0x202b, rle, sizeof(rle)); + popdfLen = uMap->mapUnicode(0x202c, popdf, sizeof(popdf)); + + if (primaryLR) { + + i = 0; + while (i < len) { + // output a left-to-right section + for (j = i; j < len && !unicodeTypeR(text[j]); ++j) ; + for (k = i; k < j; ++k) { + n = uMap->mapUnicode(text[k], buf, sizeof(buf)); + s->append(buf, n); + ++nCols; + } + i = j; + // output a right-to-left section + for (j = i; j < len && !unicodeTypeL(text[j]); ++j) ; + if (j > i) { + s->append(rle, rleLen); + for (k = j - 1; k >= i; --k) { + n = uMap->mapUnicode(text[k], buf, sizeof(buf)); + s->append(buf, n); + ++nCols; + } + s->append(popdf, popdfLen); + i = j; + } + } + + } else { + + s->append(rle, rleLen); + i = len - 1; + while (i >= 0) { + // output a right-to-left section + for (j = i; j >= 0 && !unicodeTypeL(text[j]); --j) ; + for (k = i; k > j; --k) { + n = uMap->mapUnicode(text[k], buf, sizeof(buf)); + s->append(buf, n); + ++nCols; + } + i = j; + // output a left-to-right section + for (j = i; j >= 0 && !unicodeTypeR(text[j]); --j) ; + if (j < i) { + s->append(lre, lreLen); + for (k = j + 1; k <= i; ++k) { + n = uMap->mapUnicode(text[k], buf, sizeof(buf)); + s->append(buf, n); + ++nCols; + } + s->append(popdf, popdfLen); + i = j; + } + } + s->append(popdf, popdfLen); + + } + + } else { + for (i = 0; i < len; ++i) { + n = uMap->mapUnicode(text[i], buf, sizeof(buf)); + s->append(buf, n); + nCols += n; + } + } + + return nCols; +} + +#if TEXTOUT_WORD_LIST +TextWordList *TextPage::makeWordList(GBool physLayout) { + return new TextWordList(this, physLayout); +} +#endif + +//------------------------------------------------------------------------ +// TextOutputDev +//------------------------------------------------------------------------ + +static void TextOutputDev_outputToFile(void *stream, char *text, int len) { + fwrite(text, 1, len, (FILE *)stream); +} + +TextOutputDev::TextOutputDev(char *fileName, GBool physLayoutA, + GBool rawOrderA, GBool append) { + text = NULL; + physLayout = physLayoutA; + rawOrder = rawOrderA; + doHTML = gFalse; + ok = gTrue; + + // open file + needClose = gFalse; + if (fileName) { + if (!strcmp(fileName, "-")) { + outputStream = stdout; +#ifdef WIN32 + // keep DOS from munging the end-of-line characters + setmode(fileno(stdout), O_BINARY); +#endif + } else if ((outputStream = fopen(fileName, append ? "ab" : "wb"))) { + needClose = gTrue; + } else { + error(-1, "Couldn't open text file '%s'", fileName); + ok = gFalse; + return; + } + outputFunc = &TextOutputDev_outputToFile; + } else { + outputStream = NULL; + } + + // set up text object + text = new TextPage(rawOrderA); +} + +TextOutputDev::TextOutputDev(TextOutputFunc func, void *stream, + GBool physLayoutA, GBool rawOrderA) { + outputFunc = func; + outputStream = stream; + needClose = gFalse; + physLayout = physLayoutA; + rawOrder = rawOrderA; + doHTML = gFalse; + text = new TextPage(rawOrderA); + ok = gTrue; +} + +TextOutputDev::~TextOutputDev() { + if (needClose) { +#ifdef MACOS + ICS_MapRefNumAndAssign((short)((FILE *)outputStream)->handle); +#endif + fclose((FILE *)outputStream); + } + if (text) { + delete text; + } +} + +void TextOutputDev::startPage(int /*pageNum*/, GfxState *state) { + text->startPage(state); +} + +void TextOutputDev::endPage() { + text->endPage(); + text->coalesce(physLayout, doHTML); + if (outputStream) { + text->dump(outputStream, outputFunc, physLayout); + } +} + +void TextOutputDev::updateFont(GfxState *state) { + text->updateFont(state); +} + +void TextOutputDev::beginString(GfxState * /*state*/, GString * /*s*/) { +} + +void TextOutputDev::endString(GfxState * /*state*/) { +} + +void TextOutputDev::drawChar(GfxState *state, double x, double y, + double dx, double dy, + double /*originX*/, double /*originY*/, + CharCode c, int nBytes, Unicode *u, int uLen) { + text->addChar(state, x, y, dx, dy, c, nBytes, u, uLen); +} + +void TextOutputDev::stroke(GfxState *state) { + GfxPath *path; + GfxSubpath *subpath; + double x[2], y[2]; + + if (!doHTML) { + return; + } + path = state->getPath(); + if (path->getNumSubpaths() != 1) { + return; + } + subpath = path->getSubpath(0); + if (subpath->getNumPoints() != 2) { + return; + } + state->transform(subpath->getX(0), subpath->getY(0), &x[0], &y[0]); + state->transform(subpath->getX(1), subpath->getY(1), &x[1], &y[1]); + + // look for a vertical or horizontal line + if (x[0] == x[1] || y[0] == y[1]) { + text->addUnderline(x[0], y[0], x[1], y[1]); + } +} + +void TextOutputDev::fill(GfxState *state) { + GfxPath *path; + GfxSubpath *subpath; + double x[5], y[5]; + double rx0, ry0, rx1, ry1, t; + int i; + + if (!doHTML) { + return; + } + path = state->getPath(); + if (path->getNumSubpaths() != 1) { + return; + } + subpath = path->getSubpath(0); + if (subpath->getNumPoints() != 5) { + return; + } + for (i = 0; i < 5; ++i) { + if (subpath->getCurve(i)) { + return; + } + state->transform(subpath->getX(i), subpath->getY(i), &x[i], &y[i]); + } + + // look for a rectangle + if (x[0] == x[1] && y[1] == y[2] && x[2] == x[3] && y[3] == y[4] && + x[0] == x[4] && y[0] == y[4]) { + rx0 = x[0]; + ry0 = y[0]; + rx1 = x[2]; + ry1 = y[1]; + } else if (y[0] == y[1] && x[1] == x[2] && y[2] == y[3] && x[3] == x[4] && + x[0] == x[4] && y[0] == y[4]) { + rx0 = x[0]; + ry0 = y[0]; + rx1 = x[1]; + ry1 = y[2]; + } else { + return; + } + if (rx1 < rx0) { + t = rx0; + rx0 = rx1; + rx1 = t; + } + if (ry1 < ry0) { + t = ry0; + ry0 = ry1; + ry1 = t; + } + + // skinny horizontal rectangle + if (ry1 - ry0 < rx1 - rx0) { + if (ry1 - ry0 < maxUnderlineWidth) { + ry0 = 0.5 * (ry0 + ry1); + text->addUnderline(rx0, ry0, rx1, ry0); + } + + // skinny vertical rectangle + } else { + if (rx1 - rx0 < maxUnderlineWidth) { + rx0 = 0.5 * (rx0 + rx1); + text->addUnderline(rx0, ry0, rx0, ry1); + } + } +} + +void TextOutputDev::eoFill(GfxState *state) { + if (!doHTML) { + return; + } + fill(state); +} + +void TextOutputDev::processLink(Link *link, Catalog * /*catalog*/) { + double x1, y1, x2, y2; + int xMin, yMin, xMax, yMax, x, y; + + if (!doHTML) { + return; + } + link->getRect(&x1, &y1, &x2, &y2); + cvtUserToDev(x1, y1, &x, &y); + xMin = xMax = x; + yMin = yMax = y; + cvtUserToDev(x1, y2, &x, &y); + if (x < xMin) { + xMin = x; + } else if (x > xMax) { + xMax = x; + } + if (y < yMin) { + yMin = y; + } else if (y > yMax) { + yMax = y; + } + cvtUserToDev(x2, y1, &x, &y); + if (x < xMin) { + xMin = x; + } else if (x > xMax) { + xMax = x; + } + if (y < yMin) { + yMin = y; + } else if (y > yMax) { + yMax = y; + } + cvtUserToDev(x2, y2, &x, &y); + if (x < xMin) { + xMin = x; + } else if (x > xMax) { + xMax = x; + } + if (y < yMin) { + yMin = y; + } else if (y > yMax) { + yMax = y; + } + text->addLink(xMin, yMin, xMax, yMax, link); +} + +GBool TextOutputDev::findText(Unicode *s, int len, + GBool startAtTop, GBool stopAtBottom, + GBool startAtLast, GBool stopAtLast, + GBool caseSensitive, GBool backward, + double *xMin, double *yMin, + double *xMax, double *yMax) { + return text->findText(s, len, startAtTop, stopAtBottom, + startAtLast, stopAtLast, caseSensitive, backward, + xMin, yMin, xMax, yMax); +} + +GString *TextOutputDev::getText(double xMin, double yMin, + double xMax, double yMax) { + return text->getText(xMin, yMin, xMax, yMax); +} + +GBool TextOutputDev::findCharRange(int pos, int length, + double *xMin, double *yMin, + double *xMax, double *yMax) { + return text->findCharRange(pos, length, xMin, yMin, xMax, yMax); +} + +#if TEXTOUT_WORD_LIST +TextWordList *TextOutputDev::makeWordList() { + return text->makeWordList(physLayout); +} +#endif + +TextPage *TextOutputDev::takeText() { + TextPage *ret; + + ret = text; + text = new TextPage(rawOrder); + return ret; +} diff --git a/kpdf/xpdf/xpdf/TextOutputDev.h b/kpdf/xpdf/xpdf/TextOutputDev.h new file mode 100644 index 00000000..3a424bb1 --- /dev/null +++ b/kpdf/xpdf/xpdf/TextOutputDev.h @@ -0,0 +1,661 @@ +//======================================================================== +// +// TextOutputDev.h +// +// Copyright 1997-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef TEXTOUTPUTDEV_H +#define TEXTOUTPUTDEV_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include +#include "gtypes.h" +#include "GfxFont.h" +#include "OutputDev.h" + +class GString; +class GList; +class GfxFont; +class GfxState; +class UnicodeMap; +class Link; + +class TextWord; +class TextPool; +class TextLine; +class TextLineFrag; +class TextBlock; +class TextFlow; +class TextWordList; +class TextPage; + +//------------------------------------------------------------------------ + +typedef void (*TextOutputFunc)(void *stream, char *text, int len); + +//------------------------------------------------------------------------ +// TextFontInfo +//------------------------------------------------------------------------ + +class TextFontInfo { +public: + + TextFontInfo(GfxState *state); + ~TextFontInfo(); + + GBool matches(GfxState *state); + +#if TEXTOUT_WORD_LIST + // Get the font name (which may be NULL). + GString *getFontName() { return fontName; } + + // Get font descriptor flags. + GBool isFixedWidth() { return flags & fontFixedWidth; } + GBool isSerif() { return flags & fontSerif; } + GBool isSymbolic() { return flags & fontSymbolic; } + GBool isItalic() { return flags & fontItalic; } + GBool isBold() { return flags & fontBold; } +#endif + +private: + + GfxFont *gfxFont; +#if TEXTOUT_WORD_LIST + GString *fontName; + int flags; +#endif + + friend class TextWord; + friend class TextPage; +}; + +//------------------------------------------------------------------------ +// TextWord +//------------------------------------------------------------------------ + +class TextWord { +public: + + // Constructor. + TextWord(GfxState *state, int rotA, double x0, double y0, + int charPosA, TextFontInfo *fontA, double fontSize); + + // Destructor. + ~TextWord(); + + // Add a character to the word. + void addChar(GfxState *state, double x, double y, + double dx, double dy, Unicode u); + + // Merge onto the end of . + void merge(TextWord *word); + + // Compares to , returning -1 (<), 0 (=), or +1 (>), + // based on a primary-axis comparison, e.g., x ordering if rot=0. + int primaryCmp(TextWord *word); + + // Return the distance along the primary axis between and + // . + double primaryDelta(TextWord *word); + + static int cmpYX(const void *p1, const void *p2); + + // Get the TextFontInfo object associated with this word. + TextFontInfo *getFontInfo() { return font; } + + // Get the next TextWord on the linked list. + TextWord *getNext() { return next; } + +#if TEXTOUT_WORD_LIST + int getLength() { return len; } + Unicode getChar(int idx) { return text[idx]; } + GString *getText(); + GString *getFontName() { return font->fontName; } + void getColor(double *r, double *g, double *b) + { *r = colorR; *g = colorG; *b = colorB; } + void getBBox(double *xMinA, double *yMinA, double *xMaxA, double *yMaxA) + { *xMinA = xMin; *yMinA = yMin; *xMaxA = xMax; *yMaxA = yMax; } + void getCharBBox(int charIdx, double *xMinA, double *yMinA, + double *xMaxA, double *yMaxA); + double getFontSize() { return fontSize; } + int getRotation() { return rot; } + int getCharPos() { return charPos; } + int getCharLen() { return charLen; } + GBool getSpaceAfter() { return spaceAfter; } +#endif + + GBool isUnderlined() { return underlined; } + Link *getLink() { return link; } + +private: + + int rot; // rotation, multiple of 90 degrees + // (0, 1, 2, or 3) + double xMin, xMax; // bounding box x coordinates + double yMin, yMax; // bounding box y coordinates + double base; // baseline x or y coordinate + Unicode *text; // the text + double *edge; // "near" edge x or y coord of each char + // (plus one extra entry for the last char) + int len; // length of text and edge arrays + int size; // size of text and edge arrays + int charPos; // character position (within content stream) + int charLen; // number of content stream characters in + // this word + TextFontInfo *font; // font information + double fontSize; // font size + GBool spaceAfter; // set if there is a space between this + // word and the next word on the line + TextWord *next; // next word in line + +#if TEXTOUT_WORD_LIST + double colorR, // word color + colorG, + colorB; +#endif + + GBool underlined; + Link *link; + + friend class TextPool; + friend class TextLine; + friend class TextBlock; + friend class TextFlow; + friend class TextWordList; + friend class TextPage; +}; + +//------------------------------------------------------------------------ +// TextPool +//------------------------------------------------------------------------ + +class TextPool { +public: + + TextPool(); + ~TextPool(); + + TextWord *getPool(int baseIdx) { return pool[baseIdx - minBaseIdx]; } + void setPool(int baseIdx, TextWord *p) { pool[baseIdx - minBaseIdx] = p; } + + int getBaseIdx(double base); + + void addWord(TextWord *word); + +private: + + int minBaseIdx; // min baseline bucket index + int maxBaseIdx; // max baseline bucket index + TextWord **pool; // array of linked lists, one for each + // baseline value (multiple of 4 pts) + TextWord *cursor; // pointer to last-accessed word + int cursorBaseIdx; // baseline bucket index of last-accessed word + + friend class TextBlock; + friend class TextPage; +}; + +//------------------------------------------------------------------------ +// TextLine +//------------------------------------------------------------------------ + +class TextLine { +public: + + TextLine(TextBlock *blkA, int rotA, double baseA); + ~TextLine(); + + void addWord(TextWord *word); + + // Return the distance along the primary axis between and + // . + double primaryDelta(TextLine *line); + + // Compares to , returning -1 (<), 0 (=), or +1 (>), + // based on a primary-axis comparison, e.g., x ordering if rot=0. + int primaryCmp(TextLine *line); + + // Compares to , returning -1 (<), 0 (=), or +1 (>), + // based on a secondary-axis comparison of the baselines, e.g., y + // ordering if rot=0. + int secondaryCmp(TextLine *line); + + int cmpYX(TextLine *line); + + static int cmpXY(const void *p1, const void *p2); + + void coalesce(UnicodeMap *uMap); + + // Get the head of the linked list of TextWords. + TextWord *getWords() { return words; } + + // Get the next TextLine on the linked list. + TextLine *getNext() { return next; } + + // Returns true if the last char of the line is a hyphen. + GBool isHyphenated() { return hyphenated; } + +private: + + TextBlock *blk; // parent block + int rot; // text rotation + double xMin, xMax; // bounding box x coordinates + double yMin, yMax; // bounding box y coordinates + double base; // baseline x or y coordinate + TextWord *words; // words in this line + TextWord *lastWord; // last word in this line + Unicode *text; // Unicode text of the line, including + // spaces between words + double *edge; // "near" edge x or y coord of each char + // (plus one extra entry for the last char) + int *col; // starting column number of each Unicode char + int len; // number of Unicode chars + int convertedLen; // total number of converted characters + GBool hyphenated; // set if last char is a hyphen + TextLine *next; // next line in block + + friend class TextLineFrag; + friend class TextBlock; + friend class TextFlow; + friend class TextWordList; + friend class TextPage; +}; + +//------------------------------------------------------------------------ +// TextBlock +//------------------------------------------------------------------------ + +class TextBlock { +public: + + TextBlock(TextPage *pageA, int rotA); + ~TextBlock(); + + void addWord(TextWord *word); + + void coalesce(UnicodeMap *uMap); + + // Update this block's priMin and priMax values, looking at . + void updatePriMinMax(TextBlock *blk); + + static int cmpXYPrimaryRot(const void *p1, const void *p2); + + static int cmpYXPrimaryRot(const void *p1, const void *p2); + + int primaryCmp(TextBlock *blk); + + double secondaryDelta(TextBlock *blk); + + // Returns true if is below , relative to the page's + // primary rotation. + GBool isBelow(TextBlock *blk); + + // Get the head of the linked list of TextLines. + TextLine *getLines() { return lines; } + + // Get the next TextBlock on the linked list. + TextBlock *getNext() { return next; } + +private: + + TextPage *page; // the parent page + int rot; // text rotation + double xMin, xMax; // bounding box x coordinates + double yMin, yMax; // bounding box y coordinates + double priMin, priMax; // whitespace bounding box along primary axis + + TextPool *pool; // pool of words (used only until lines + // are built) + TextLine *lines; // linked list of lines + TextLine *curLine; // most recently added line + int nLines; // number of lines + int charCount; // number of characters in the block + int col; // starting column + int nColumns; // number of columns in the block + + TextBlock *next; + TextBlock *stackNext; + + friend class TextLine; + friend class TextLineFrag; + friend class TextFlow; + friend class TextWordList; + friend class TextPage; +}; + +//------------------------------------------------------------------------ +// TextFlow +//------------------------------------------------------------------------ + +class TextFlow { +public: + + TextFlow(TextPage *pageA, TextBlock *blk); + ~TextFlow(); + + // Add a block to the end of this flow. + void addBlock(TextBlock *blk); + + // Returns true if fits below in the flow, i.e., (1) + // it uses a font no larger than the last block added to the flow, + // and (2) it fits within the flow's [priMin, priMax] along the + // primary axis. + GBool blockFits(TextBlock *blk, TextBlock *prevBlk); + + // Get the head of the linked list of TextBlocks. + TextBlock *getBlocks() { return blocks; } + + // Get the next TextFlow on the linked list. + TextFlow *getNext() { return next; } + +private: + + TextPage *page; // the parent page + double xMin, xMax; // bounding box x coordinates + double yMin, yMax; // bounding box y coordinates + double priMin, priMax; // whitespace bounding box along primary axis + TextBlock *blocks; // blocks in flow + TextBlock *lastBlk; // last block in this flow + TextFlow *next; + + friend class TextWordList; + friend class TextPage; +}; + +#if TEXTOUT_WORD_LIST + +//------------------------------------------------------------------------ +// TextWordList +//------------------------------------------------------------------------ + +class TextWordList { +public: + + // Build a flat word list, in content stream order (if + // text->rawOrder is true), physical layout order (if + // is true and text->rawOrder is false), or reading order (if both + // flags are false). + TextWordList(TextPage *text, GBool physLayout); + + ~TextWordList(); + + // Return the number of words on the list. + int getLength(); + + // Return the th word from the list. + TextWord *get(int idx); + +private: + + GList *words; // [TextWord] +}; + +#endif // TEXTOUT_WORD_LIST + +//------------------------------------------------------------------------ +// TextPage +//------------------------------------------------------------------------ + +class TextPage { +public: + + // Constructor. + TextPage(GBool rawOrderA); + + // Destructor. + ~TextPage(); + + // Start a new page. + void startPage(GfxState *state); + + // End the current page. + void endPage(); + + // Update the current font. + void updateFont(GfxState *state); + + // Begin a new word. + void beginWord(GfxState *state, double x0, double y0); + + // Add a character to the current word. + void addChar(GfxState *state, double x, double y, + double dx, double dy, + CharCode c, int nBytes, Unicode *u, int uLen); + + // End the current word, sorting it into the list of words. + void endWord(); + + // Add a word, sorting it into the list of words. + void addWord(TextWord *word); + + // Add a (potential) underline. + void addUnderline(double x0, double y0, double x1, double y1); + + // Add a hyperlink. + void addLink(int xMin, int yMin, int xMax, int yMax, Link *link); + + // Coalesce strings that look like parts of the same line. + void coalesce(GBool physLayout, GBool doHTML); + + // Find a string. If is true, starts looking at the + // top of the page; else if is true, starts looking + // immediately after the last find result; else starts looking at + // ,. If is true, stops looking at the + // bottom of the page; else if is true, stops looking + // just before the last find result; else stops looking at + // ,. + GBool findText(Unicode *s, int len, + GBool startAtTop, GBool stopAtBottom, + GBool startAtLast, GBool stopAtLast, + GBool caseSensitive, GBool backward, + double *xMin, double *yMin, + double *xMax, double *yMax); + + // Get the text which is inside the specified rectangle. + GString *getText(double xMin, double yMin, + double xMax, double yMax); + + // Find a string by character position and length. If found, sets + // the text bounding rectangle and returns true; otherwise returns + // false. + GBool findCharRange(int pos, int length, + double *xMin, double *yMin, + double *xMax, double *yMax); + + // Dump contents of page to a file. + void dump(void *outputStream, TextOutputFunc outputFunc, + GBool physLayout); + + // Get the head of the linked list of TextFlows. + TextFlow *getFlows() { return flows; } + +#if TEXTOUT_WORD_LIST + // Build a flat word list, in content stream order (if + // this->rawOrder is true), physical layout order (if + // is true and this->rawOrder is false), or reading order (if both + // flags are false). + TextWordList *makeWordList(GBool physLayout); +#endif + +private: + + void clear(); + void assignColumns(TextLineFrag *frags, int nFrags, int rot); + int dumpFragment(Unicode *text, int len, UnicodeMap *uMap, GString *s); + + GBool rawOrder; // keep text in content stream order + + double pageWidth, pageHeight; // width and height of current page + TextWord *curWord; // currently active string + int charPos; // next character position (within content + // stream) + TextFontInfo *curFont; // current font + double curFontSize; // current font size + int nest; // current nesting level (for Type 3 fonts) + int nTinyChars; // number of "tiny" chars seen so far + GBool lastCharOverlap; // set if the last added char overlapped the + // previous char + + TextPool *pools[4]; // a "pool" of TextWords for each rotation + TextFlow *flows; // linked list of flows + TextBlock **blocks; // array of blocks, in yx order + int nBlocks; // number of blocks + int primaryRot; // primary rotation + GBool primaryLR; // primary direction (true means L-to-R, + // false means R-to-L) + TextWord *rawWords; // list of words, in raw order (only if + // rawOrder is set) + TextWord *rawLastWord; // last word on rawWords list + + GList *fonts; // all font info objects used on this + // page [TextFontInfo] + + double lastFindXMin, // coordinates of the last "find" result + lastFindYMin; + GBool haveLastFind; + + GList *underlines; // [TextUnderline] + GList *links; // [TextLink] + + friend class TextLine; + friend class TextLineFrag; + friend class TextBlock; + friend class TextFlow; + friend class TextWordList; +}; + +//------------------------------------------------------------------------ +// TextOutputDev +//------------------------------------------------------------------------ + +class TextOutputDev: public OutputDev { +public: + + // Open a text output file. If is NULL, no file is + // written (this is useful, e.g., for searching text). If + // is true, the original physical layout of the text + // is maintained. If is true, the text is kept in + // content stream order. + TextOutputDev(char *fileName, GBool physLayoutA, + GBool rawOrderA, GBool append); + + // Create a TextOutputDev which will write to a generic stream. If + // is true, the original physical layout of the text + // is maintained. If is true, the text is kept in + // content stream order. + TextOutputDev(TextOutputFunc func, void *stream, + GBool physLayoutA, GBool rawOrderA); + + // Destructor. + virtual ~TextOutputDev(); + + // Check if file was successfully created. + virtual GBool isOk() { return ok; } + + //---- get info about output device + + // Does this device use upside-down coordinates? + // (Upside-down means (0,0) is the top left corner of the page.) + virtual GBool upsideDown() { return gTrue; } + + // Does this device use drawChar() or drawString()? + virtual GBool useDrawChar() { return gTrue; } + + // Does this device use beginType3Char/endType3Char? Otherwise, + // text in Type 3 fonts will be drawn with drawChar/drawString. + virtual GBool interpretType3Chars() { return gFalse; } + + // Does this device need non-text content? + virtual GBool needNonText() { return gFalse; } + + //----- initialization and control + + // Start a page. + virtual void startPage(int pageNum, GfxState *state); + + // End a page. + virtual void endPage(); + + //----- update text state + virtual void updateFont(GfxState *state); + + //----- text drawing + virtual void beginString(GfxState *state, GString *s); + virtual void endString(GfxState *state); + virtual void drawChar(GfxState *state, double x, double y, + double dx, double dy, + double originX, double originY, + CharCode c, int nBytes, Unicode *u, int uLen); + + //----- path painting + virtual void stroke(GfxState *state); + virtual void fill(GfxState *state); + virtual void eoFill(GfxState *state); + + //----- link borders + virtual void processLink(Link *link, Catalog *catalog); + + //----- special access + + // Find a string. If is true, starts looking at the + // top of the page; else if is true, starts looking + // immediately after the last find result; else starts looking at + // ,. If is true, stops looking at the + // bottom of the page; else if is true, stops looking + // just before the last find result; else stops looking at + // ,. + GBool findText(Unicode *s, int len, + GBool startAtTop, GBool stopAtBottom, + GBool startAtLast, GBool stopAtLast, + GBool caseSensitive, GBool backward, + double *xMin, double *yMin, + double *xMax, double *yMax); + + // Get the text which is inside the specified rectangle. + GString *getText(double xMin, double yMin, + double xMax, double yMax); + + // Find a string by character position and length. If found, sets + // the text bounding rectangle and returns true; otherwise returns + // false. + GBool findCharRange(int pos, int length, + double *xMin, double *yMin, + double *xMax, double *yMax); + +#if TEXTOUT_WORD_LIST + // Build a flat word list, in content stream order (if + // this->rawOrder is true), physical layout order (if + // this->physLayout is true and this->rawOrder is false), or reading + // order (if both flags are false). + TextWordList *makeWordList(); +#endif + + // Returns the TextPage object for the last rasterized page, + // transferring ownership to the caller. + TextPage *takeText(); + + // Turn extra processing for HTML conversion on or off. + void enableHTMLExtras(GBool doHTMLA) { doHTML = doHTMLA; } + +private: + + TextOutputFunc outputFunc; // output function + void *outputStream; // output stream + GBool needClose; // need to close the output file? + // (only if outputStream is a FILE*) + TextPage *text; // text for the current page + GBool physLayout; // maintain original physical layout when + // dumping text + GBool rawOrder; // keep text in content stream order + GBool doHTML; // extra processing for HTML conversion + GBool ok; // set up ok? +}; + +#endif diff --git a/kpdf/xpdf/xpdf/UTF8.h b/kpdf/xpdf/xpdf/UTF8.h new file mode 100644 index 00000000..8536dbf9 --- /dev/null +++ b/kpdf/xpdf/xpdf/UTF8.h @@ -0,0 +1,56 @@ +//======================================================================== +// +// UTF8.h +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +static int mapUTF8(Unicode u, char *buf, int bufSize) { + if (u <= 0x0000007f) { + if (bufSize < 1) { + return 0; + } + buf[0] = (char)u; + return 1; + } else if (u <= 0x000007ff) { + if (bufSize < 2) { + return 0; + } + buf[0] = (char)(0xc0 + (u >> 6)); + buf[1] = (char)(0x80 + (u & 0x3f)); + return 2; + } else if (u <= 0x0000ffff) { + if (bufSize < 3) { + return 0; + } + buf[0] = (char)(0xe0 + (u >> 12)); + buf[1] = (char)(0x80 + ((u >> 6) & 0x3f)); + buf[2] = (char)(0x80 + (u & 0x3f)); + return 3; + } else if (u <= 0x0010ffff) { + if (bufSize < 4) { + return 0; + } + buf[0] = (char)(0xf0 + (u >> 18)); + buf[1] = (char)(0x80 + ((u >> 12) & 0x3f)); + buf[2] = (char)(0x80 + ((u >> 6) & 0x3f)); + buf[3] = (char)(0x80 + (u & 0x3f)); + return 4; + } else { + return 0; + } +} + +static int mapUCS2(Unicode u, char *buf, int bufSize) { + if (u <= 0xffff) { + if (bufSize < 2) { + return 0; + } + buf[0] = (char)((u >> 8) & 0xff); + buf[1] = (char)(u & 0xff); + return 2; + } else { + return 0; + } +} diff --git a/kpdf/xpdf/xpdf/UnicodeMap.cc b/kpdf/xpdf/xpdf/UnicodeMap.cc new file mode 100644 index 00000000..2b8cb1f7 --- /dev/null +++ b/kpdf/xpdf/xpdf/UnicodeMap.cc @@ -0,0 +1,293 @@ +//======================================================================== +// +// UnicodeMap.cc +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include "gmem.h" +#include "gfile.h" +#include "GString.h" +#include "GList.h" +#include "Error.h" +#include "GlobalParams.h" +#include "UnicodeMap.h" + +//------------------------------------------------------------------------ + +#define maxExtCode 16 + +struct UnicodeMapExt { + Unicode u; // Unicode char + char code[maxExtCode]; + Guint nBytes; +}; + +//------------------------------------------------------------------------ + +UnicodeMap *UnicodeMap::parse(GString *encodingNameA) { + FILE *f; + UnicodeMap *map; + UnicodeMapRange *range; + UnicodeMapExt *eMap; + int size, eMapsSize; + char buf[256]; + int line, nBytes, i, x; + char *tok1, *tok2, *tok3; + + if (!(f = globalParams->getUnicodeMapFile(encodingNameA))) { + error(-1, "Couldn't find unicodeMap file for the '%s' encoding", + encodingNameA->getCString()); + return NULL; + } + + map = new UnicodeMap(encodingNameA->copy()); + + size = 8; + map->ranges = (UnicodeMapRange *)gmallocn(size, sizeof(UnicodeMapRange)); + eMapsSize = 0; + + line = 1; + while (getLine(buf, sizeof(buf), f)) { + if ((tok1 = strtok(buf, " \t\r\n")) && + (tok2 = strtok(NULL, " \t\r\n"))) { + if (!(tok3 = strtok(NULL, " \t\r\n"))) { + tok3 = tok2; + tok2 = tok1; + } + nBytes = strlen(tok3) / 2; + if (nBytes <= 4) { + if (map->len == size) { + size *= 2; + map->ranges = (UnicodeMapRange *) + greallocn(map->ranges, size, sizeof(UnicodeMapRange)); + } + range = &map->ranges[map->len]; + sscanf(tok1, "%x", &range->start); + sscanf(tok2, "%x", &range->end); + sscanf(tok3, "%x", &range->code); + range->nBytes = nBytes; + ++map->len; + } else if (tok2 == tok1) { + if (map->eMapsLen == eMapsSize) { + eMapsSize += 16; + map->eMaps = (UnicodeMapExt *) + greallocn(map->eMaps, eMapsSize, sizeof(UnicodeMapExt)); + } + eMap = &map->eMaps[map->eMapsLen]; + sscanf(tok1, "%x", &eMap->u); + for (i = 0; i < nBytes; ++i) { + sscanf(tok3 + i*2, "%2x", &x); + eMap->code[i] = (char)x; + } + eMap->nBytes = nBytes; + ++map->eMapsLen; + } else { + error(-1, "Bad line (%d) in unicodeMap file for the '%s' encoding", + line, encodingNameA->getCString()); + } + } else { + error(-1, "Bad line (%d) in unicodeMap file for the '%s' encoding", + line, encodingNameA->getCString()); + } + ++line; + } + + fclose(f); + + return map; +} + +UnicodeMap::UnicodeMap(GString *encodingNameA) { + encodingName = encodingNameA; + unicodeOut = gFalse; + kind = unicodeMapUser; + ranges = NULL; + len = 0; + eMaps = NULL; + eMapsLen = 0; + refCnt = 1; +#if MULTITHREADED + gInitMutex(&mutex); +#endif +} + +UnicodeMap::UnicodeMap(char *encodingNameA, GBool unicodeOutA, + UnicodeMapRange *rangesA, int lenA) { + encodingName = new GString(encodingNameA); + unicodeOut = unicodeOutA; + kind = unicodeMapResident; + ranges = rangesA; + len = lenA; + eMaps = NULL; + eMapsLen = 0; + refCnt = 1; +#if MULTITHREADED + gInitMutex(&mutex); +#endif +} + +UnicodeMap::UnicodeMap(char *encodingNameA, GBool unicodeOutA, + UnicodeMapFunc funcA) { + encodingName = new GString(encodingNameA); + unicodeOut = unicodeOutA; + kind = unicodeMapFunc; + func = funcA; + eMaps = NULL; + eMapsLen = 0; + refCnt = 1; +#if MULTITHREADED + gInitMutex(&mutex); +#endif +} + +UnicodeMap::~UnicodeMap() { + delete encodingName; + if (kind == unicodeMapUser && ranges) { + gfree(ranges); + } + if (eMaps) { + gfree(eMaps); + } +#if MULTITHREADED + gDestroyMutex(&mutex); +#endif +} + +void UnicodeMap::incRefCnt() { +#if MULTITHREADED + gLockMutex(&mutex); +#endif + ++refCnt; +#if MULTITHREADED + gUnlockMutex(&mutex); +#endif +} + +void UnicodeMap::decRefCnt() { + GBool done; + +#if MULTITHREADED + gLockMutex(&mutex); +#endif + done = --refCnt == 0; +#if MULTITHREADED + gUnlockMutex(&mutex); +#endif + if (done) { + delete this; + } +} + +GBool UnicodeMap::match(GString *encodingNameA) { + return !encodingName->cmp(encodingNameA); +} + +int UnicodeMap::mapUnicode(Unicode u, char *buf, int bufSize) { + int a, b, m, n, i, j; + Guint code; + + if (kind == unicodeMapFunc) { + return (*func)(u, buf, bufSize); + } + + a = 0; + b = len; + if (u >= ranges[a].start) { + // invariant: ranges[a].start <= u < ranges[b].start + while (b - a > 1) { + m = (a + b) / 2; + if (u >= ranges[m].start) { + a = m; + } else if (u < ranges[m].start) { + b = m; + } + } + if (u <= ranges[a].end) { + n = ranges[a].nBytes; + if (n > bufSize) { + return 0; + } + code = ranges[a].code + (u - ranges[a].start); + for (i = n - 1; i >= 0; --i) { + buf[i] = (char)(code & 0xff); + code >>= 8; + } + return n; + } + } + + for (i = 0; i < eMapsLen; ++i) { + if (eMaps[i].u == u) { + n = eMaps[i].nBytes; + for (j = 0; j < n; ++j) { + buf[j] = eMaps[i].code[j]; + } + return n; + } + } + + return 0; +} + +//------------------------------------------------------------------------ + +UnicodeMapCache::UnicodeMapCache() { + int i; + + for (i = 0; i < unicodeMapCacheSize; ++i) { + cache[i] = NULL; + } +} + +UnicodeMapCache::~UnicodeMapCache() { + int i; + + for (i = 0; i < unicodeMapCacheSize; ++i) { + if (cache[i]) { + cache[i]->decRefCnt(); + } + } +} + +UnicodeMap *UnicodeMapCache::getUnicodeMap(GString *encodingName) { + UnicodeMap *map; + int i, j; + + if (cache[0] && cache[0]->match(encodingName)) { + cache[0]->incRefCnt(); + return cache[0]; + } + for (i = 1; i < unicodeMapCacheSize; ++i) { + if (cache[i] && cache[i]->match(encodingName)) { + map = cache[i]; + for (j = i; j >= 1; --j) { + cache[j] = cache[j - 1]; + } + cache[0] = map; + map->incRefCnt(); + return map; + } + } + if ((map = UnicodeMap::parse(encodingName))) { + if (cache[unicodeMapCacheSize - 1]) { + cache[unicodeMapCacheSize - 1]->decRefCnt(); + } + for (j = unicodeMapCacheSize - 1; j >= 1; --j) { + cache[j] = cache[j - 1]; + } + cache[0] = map; + map->incRefCnt(); + return map; + } + return NULL; +} diff --git a/kpdf/xpdf/xpdf/UnicodeMap.h b/kpdf/xpdf/xpdf/UnicodeMap.h new file mode 100644 index 00000000..0f86101e --- /dev/null +++ b/kpdf/xpdf/xpdf/UnicodeMap.h @@ -0,0 +1,123 @@ +//======================================================================== +// +// UnicodeMap.h +// +// Mapping from Unicode to an encoding. +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef UNICODEMAP_H +#define UNICODEMAP_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" +#include "CharTypes.h" + +#if MULTITHREADED +#include "GMutex.h" +#endif + +class GString; + +//------------------------------------------------------------------------ + +enum UnicodeMapKind { + unicodeMapUser, // read from a file + unicodeMapResident, // static list of ranges + unicodeMapFunc // function pointer +}; + +typedef int (*UnicodeMapFunc)(Unicode u, char *buf, int bufSize); + +struct UnicodeMapRange { + Unicode start, end; // range of Unicode chars + Guint code, nBytes; // first output code +}; + +struct UnicodeMapExt; + +//------------------------------------------------------------------------ + +class UnicodeMap { +public: + + // Create the UnicodeMap specified by . Sets the + // initial reference count to 1. Returns NULL on failure. + static UnicodeMap *parse(GString *encodingNameA); + + // Create a resident UnicodeMap. + UnicodeMap(char *encodingNameA, GBool unicodeOutA, + UnicodeMapRange *rangesA, int lenA); + + // Create a resident UnicodeMap that uses a function instead of a + // list of ranges. + UnicodeMap(char *encodingNameA, GBool unicodeOutA, + UnicodeMapFunc funcA); + + ~UnicodeMap(); + + void incRefCnt(); + void decRefCnt(); + + GString *getEncodingName() { return encodingName; } + + GBool isUnicode() { return unicodeOut; } + + // Return true if this UnicodeMap matches the specified + // . + GBool match(GString *encodingNameA); + + // Map Unicode to the target encoding. Fills in with the + // output and returns the number of bytes used. Output will be + // truncated at bytes. No string terminator is written. + // Returns 0 if no mapping is found. + int mapUnicode(Unicode u, char *buf, int bufSize); + +private: + + UnicodeMap(GString *encodingNameA); + + GString *encodingName; + UnicodeMapKind kind; + GBool unicodeOut; + union { + UnicodeMapRange *ranges; // (user, resident) + UnicodeMapFunc func; // (func) + }; + int len; // (user, resident) + UnicodeMapExt *eMaps; // (user) + int eMapsLen; // (user) + int refCnt; +#if MULTITHREADED + GMutex mutex; +#endif +}; + +//------------------------------------------------------------------------ + +#define unicodeMapCacheSize 4 + +class UnicodeMapCache { +public: + + UnicodeMapCache(); + ~UnicodeMapCache(); + + // Get the UnicodeMap for . Increments its reference + // count; there will be one reference for the cache plus one for the + // caller of this function. Returns NULL on failure. + UnicodeMap *getUnicodeMap(GString *encodingName); + +private: + + UnicodeMap *cache[unicodeMapCacheSize]; +}; + +#endif diff --git a/kpdf/xpdf/xpdf/UnicodeMapTables.h b/kpdf/xpdf/xpdf/UnicodeMapTables.h new file mode 100644 index 00000000..9c510346 --- /dev/null +++ b/kpdf/xpdf/xpdf/UnicodeMapTables.h @@ -0,0 +1,361 @@ +//======================================================================== +// +// UnicodeMapTables.h +// +// Copyright 2001-2003 Glyph & Cog, LLC +// +//======================================================================== + +static UnicodeMapRange latin1UnicodeMapRanges[] = { + { 0x000a, 0x000a, 0x0a, 1 }, + { 0x000c, 0x000d, 0x0c, 1 }, + { 0x0020, 0x007e, 0x20, 1 }, + { 0x00a0, 0x00a0, 0x20, 1 }, + { 0x00a1, 0x00ac, 0xa1, 1 }, + { 0x00ae, 0x00ff, 0xae, 1 }, + { 0x010c, 0x010c, 0x43, 1 }, + { 0x010d, 0x010d, 0x63, 1 }, + { 0x0131, 0x0131, 0x69, 1 }, + { 0x0141, 0x0141, 0x4c, 1 }, + { 0x0142, 0x0142, 0x6c, 1 }, + { 0x0152, 0x0152, 0x4f45, 2 }, + { 0x0153, 0x0153, 0x6f65, 2 }, + { 0x0160, 0x0160, 0x53, 1 }, + { 0x0161, 0x0161, 0x73, 1 }, + { 0x0178, 0x0178, 0x59, 1 }, + { 0x017d, 0x017d, 0x5a, 1 }, + { 0x017e, 0x017e, 0x7a, 1 }, + { 0x02c6, 0x02c6, 0x5e, 1 }, + { 0x02da, 0x02da, 0xb0, 1 }, + { 0x02dc, 0x02dc, 0x7e, 1 }, + { 0x2013, 0x2013, 0xad, 1 }, + { 0x2014, 0x2014, 0x2d2d, 2 }, + { 0x2018, 0x2018, 0x60, 1 }, + { 0x2019, 0x2019, 0x27, 1 }, + { 0x201a, 0x201a, 0x2c, 1 }, + { 0x201c, 0x201c, 0x22, 1 }, + { 0x201d, 0x201d, 0x22, 1 }, + { 0x201e, 0x201e, 0x2c2c, 2 }, + { 0x2022, 0x2022, 0xb7, 1 }, + { 0x2026, 0x2026, 0x2e2e2e, 3 }, + { 0x2039, 0x2039, 0x3c, 1 }, + { 0x203a, 0x203a, 0x3e, 1 }, + { 0x2044, 0x2044, 0x2f, 1 }, + { 0x2122, 0x2122, 0x544d, 2 }, + { 0x2212, 0x2212, 0x2d, 1 }, + { 0xf6f9, 0xf6f9, 0x4c, 1 }, + { 0xf6fa, 0xf6fa, 0x4f45, 2 }, + { 0xf6fc, 0xf6fc, 0xb0, 1 }, + { 0xf6fd, 0xf6fd, 0x53, 1 }, + { 0xf6fe, 0xf6fe, 0x7e, 1 }, + { 0xf6ff, 0xf6ff, 0x5a, 1 }, + { 0xf721, 0xf721, 0x21, 1 }, + { 0xf724, 0xf724, 0x24, 1 }, + { 0xf726, 0xf726, 0x26, 1 }, + { 0xf730, 0xf739, 0x30, 1 }, + { 0xf73f, 0xf73f, 0x3f, 1 }, + { 0xf761, 0xf77a, 0x41, 1 }, + { 0xf7a1, 0xf7a2, 0xa1, 1 }, + { 0xf7bf, 0xf7bf, 0xbf, 1 }, + { 0xf7e0, 0xf7f6, 0xc0, 1 }, + { 0xf7f8, 0xf7fe, 0xd8, 1 }, + { 0xf7ff, 0xf7ff, 0x59, 1 }, + { 0xfb00, 0xfb00, 0x6666, 2 }, + { 0xfb01, 0xfb01, 0x6669, 2 }, + { 0xfb02, 0xfb02, 0x666c, 2 }, + { 0xfb03, 0xfb03, 0x666669, 3 }, + { 0xfb04, 0xfb04, 0x66666c, 3 } +}; +#define latin1UnicodeMapLen (sizeof(latin1UnicodeMapRanges) / sizeof(UnicodeMapRange)) + +static UnicodeMapRange ascii7UnicodeMapRanges[] = { + { 0x000a, 0x000a, 0x0a, 1 }, + { 0x000c, 0x000d, 0x0c, 1 }, + { 0x0020, 0x005f, 0x20, 1 }, + { 0x0061, 0x007e, 0x61, 1 }, + { 0x00a6, 0x00a6, 0x7c, 1 }, + { 0x00a9, 0x00a9, 0x286329, 3 }, + { 0x00ae, 0x00ae, 0x285229, 3 }, + { 0x00b7, 0x00b7, 0x2a, 1 }, + { 0x00bc, 0x00bc, 0x312f34, 3 }, + { 0x00bd, 0x00bd, 0x312f32, 3 }, + { 0x00be, 0x00be, 0x332f34, 3 }, + { 0x00c0, 0x00c0, 0x41, 1 }, + { 0x00c1, 0x00c1, 0x41, 1 }, + { 0x00c2, 0x00c2, 0x41, 1 }, + { 0x00c3, 0x00c3, 0x41, 1 }, + { 0x00c4, 0x00c4, 0x41, 1 }, + { 0x00c5, 0x00c5, 0x41, 1 }, + { 0x00c6, 0x00c6, 0x4145, 2 }, + { 0x00c7, 0x00c7, 0x43, 1 }, + { 0x00c8, 0x00c8, 0x45, 1 }, + { 0x00c9, 0x00c9, 0x45, 1 }, + { 0x00ca, 0x00ca, 0x45, 1 }, + { 0x00cb, 0x00cb, 0x45, 1 }, + { 0x00cc, 0x00cc, 0x49, 1 }, + { 0x00cd, 0x00cd, 0x49, 1 }, + { 0x00ce, 0x00ce, 0x49, 1 }, + { 0x00cf, 0x00cf, 0x49, 1 }, + { 0x00d1, 0x00d2, 0x4e, 1 }, + { 0x00d3, 0x00d3, 0x4f, 1 }, + { 0x00d4, 0x00d4, 0x4f, 1 }, + { 0x00d5, 0x00d5, 0x4f, 1 }, + { 0x00d6, 0x00d6, 0x4f, 1 }, + { 0x00d7, 0x00d7, 0x78, 1 }, + { 0x00d8, 0x00d8, 0x4f, 1 }, + { 0x00d9, 0x00d9, 0x55, 1 }, + { 0x00da, 0x00da, 0x55, 1 }, + { 0x00db, 0x00db, 0x55, 1 }, + { 0x00dc, 0x00dc, 0x55, 1 }, + { 0x00dd, 0x00dd, 0x59, 1 }, + { 0x00e0, 0x00e0, 0x61, 1 }, + { 0x00e1, 0x00e1, 0x61, 1 }, + { 0x00e2, 0x00e2, 0x61, 1 }, + { 0x00e3, 0x00e3, 0x61, 1 }, + { 0x00e4, 0x00e4, 0x61, 1 }, + { 0x00e5, 0x00e5, 0x61, 1 }, + { 0x00e6, 0x00e6, 0x6165, 2 }, + { 0x00e7, 0x00e7, 0x63, 1 }, + { 0x00e8, 0x00e8, 0x65, 1 }, + { 0x00e9, 0x00e9, 0x65, 1 }, + { 0x00ea, 0x00ea, 0x65, 1 }, + { 0x00eb, 0x00eb, 0x65, 1 }, + { 0x00ec, 0x00ec, 0x69, 1 }, + { 0x00ed, 0x00ed, 0x69, 1 }, + { 0x00ee, 0x00ee, 0x69, 1 }, + { 0x00ef, 0x00ef, 0x69, 1 }, + { 0x00f1, 0x00f2, 0x6e, 1 }, + { 0x00f3, 0x00f3, 0x6f, 1 }, + { 0x00f4, 0x00f4, 0x6f, 1 }, + { 0x00f5, 0x00f5, 0x6f, 1 }, + { 0x00f6, 0x00f6, 0x6f, 1 }, + { 0x00f7, 0x00f7, 0x2f, 1 }, + { 0x00f8, 0x00f8, 0x6f, 1 }, + { 0x00f9, 0x00f9, 0x75, 1 }, + { 0x00fa, 0x00fa, 0x75, 1 }, + { 0x00fb, 0x00fb, 0x75, 1 }, + { 0x00fc, 0x00fc, 0x75, 1 }, + { 0x00fd, 0x00fd, 0x79, 1 }, + { 0x00ff, 0x00ff, 0x79, 1 }, + { 0x0131, 0x0131, 0x69, 1 }, + { 0x0141, 0x0141, 0x4c, 1 }, + { 0x0152, 0x0152, 0x4f45, 2 }, + { 0x0153, 0x0153, 0x6f65, 2 }, + { 0x0160, 0x0160, 0x53, 1 }, + { 0x0178, 0x0178, 0x59, 1 }, + { 0x017d, 0x017d, 0x5a, 1 }, + { 0x2013, 0x2013, 0x2d, 1 }, + { 0x2014, 0x2014, 0x2d2d, 2 }, + { 0x2018, 0x2018, 0x60, 1 }, + { 0x2019, 0x2019, 0x27, 1 }, + { 0x201c, 0x201c, 0x22, 1 }, + { 0x201d, 0x201d, 0x22, 1 }, + { 0x2022, 0x2022, 0x2a, 1 }, + { 0x2026, 0x2026, 0x2e2e2e, 3 }, + { 0x2122, 0x2122, 0x544d, 2 }, + { 0x2212, 0x2212, 0x2d, 1 }, + { 0xf6f9, 0xf6f9, 0x4c, 1 }, + { 0xf6fa, 0xf6fa, 0x4f45, 2 }, + { 0xf6fd, 0xf6fd, 0x53, 1 }, + { 0xf6fe, 0xf6fe, 0x7e, 1 }, + { 0xf6ff, 0xf6ff, 0x5a, 1 }, + { 0xf721, 0xf721, 0x21, 1 }, + { 0xf724, 0xf724, 0x24, 1 }, + { 0xf726, 0xf726, 0x26, 1 }, + { 0xf730, 0xf739, 0x30, 1 }, + { 0xf73f, 0xf73f, 0x3f, 1 }, + { 0xf761, 0xf77a, 0x41, 1 }, + { 0xf7e0, 0xf7e0, 0x41, 1 }, + { 0xf7e1, 0xf7e1, 0x41, 1 }, + { 0xf7e2, 0xf7e2, 0x41, 1 }, + { 0xf7e3, 0xf7e3, 0x41, 1 }, + { 0xf7e4, 0xf7e4, 0x41, 1 }, + { 0xf7e5, 0xf7e5, 0x41, 1 }, + { 0xf7e6, 0xf7e6, 0x4145, 2 }, + { 0xf7e7, 0xf7e7, 0x43, 1 }, + { 0xf7e8, 0xf7e8, 0x45, 1 }, + { 0xf7e9, 0xf7e9, 0x45, 1 }, + { 0xf7ea, 0xf7ea, 0x45, 1 }, + { 0xf7eb, 0xf7eb, 0x45, 1 }, + { 0xf7ec, 0xf7ec, 0x49, 1 }, + { 0xf7ed, 0xf7ed, 0x49, 1 }, + { 0xf7ee, 0xf7ee, 0x49, 1 }, + { 0xf7ef, 0xf7ef, 0x49, 1 }, + { 0xf7f1, 0xf7f2, 0x4e, 1 }, + { 0xf7f3, 0xf7f3, 0x4f, 1 }, + { 0xf7f4, 0xf7f4, 0x4f, 1 }, + { 0xf7f5, 0xf7f5, 0x4f, 1 }, + { 0xf7f6, 0xf7f6, 0x4f, 1 }, + { 0xf7f8, 0xf7f8, 0x4f, 1 }, + { 0xf7f9, 0xf7f9, 0x55, 1 }, + { 0xf7fa, 0xf7fa, 0x55, 1 }, + { 0xf7fb, 0xf7fb, 0x55, 1 }, + { 0xf7fc, 0xf7fc, 0x55, 1 }, + { 0xf7fd, 0xf7fd, 0x59, 1 }, + { 0xf7ff, 0xf7ff, 0x59, 1 }, + { 0xfb00, 0xfb00, 0x6666, 2 }, + { 0xfb01, 0xfb01, 0x6669, 2 }, + { 0xfb02, 0xfb02, 0x666c, 2 }, + { 0xfb03, 0xfb03, 0x666669, 3 }, + { 0xfb04, 0xfb04, 0x66666c, 3 } +}; +#define ascii7UnicodeMapLen (sizeof(ascii7UnicodeMapRanges) / sizeof(UnicodeMapRange)) + +static UnicodeMapRange symbolUnicodeMapRanges[] = { + { 0x0020, 0x0021, 0x20, 1 }, + { 0x0023, 0x0023, 0x23, 1 }, + { 0x0025, 0x0026, 0x25, 1 }, + { 0x0028, 0x0029, 0x28, 1 }, + { 0x002b, 0x002c, 0x2b, 1 }, + { 0x002e, 0x003f, 0x2e, 1 }, + { 0x005b, 0x005b, 0x5b, 1 }, + { 0x005d, 0x005d, 0x5d, 1 }, + { 0x005f, 0x005f, 0x5f, 1 }, + { 0x007b, 0x007d, 0x7b, 1 }, + { 0x00ac, 0x00ac, 0xd8, 1 }, + { 0x00b0, 0x00b1, 0xb0, 1 }, + { 0x00b5, 0x00b5, 0x6d, 1 }, + { 0x00d7, 0x00d7, 0xb4, 1 }, + { 0x00f7, 0x00f7, 0xb8, 1 }, + { 0x0192, 0x0192, 0xa6, 1 }, + { 0x0391, 0x0392, 0x41, 1 }, + { 0x0393, 0x0393, 0x47, 1 }, + { 0x0395, 0x0395, 0x45, 1 }, + { 0x0396, 0x0396, 0x5a, 1 }, + { 0x0397, 0x0397, 0x48, 1 }, + { 0x0398, 0x0398, 0x51, 1 }, + { 0x0399, 0x0399, 0x49, 1 }, + { 0x039a, 0x039d, 0x4b, 1 }, + { 0x039e, 0x039e, 0x58, 1 }, + { 0x039f, 0x03a0, 0x4f, 1 }, + { 0x03a1, 0x03a1, 0x52, 1 }, + { 0x03a3, 0x03a5, 0x53, 1 }, + { 0x03a6, 0x03a6, 0x46, 1 }, + { 0x03a7, 0x03a7, 0x43, 1 }, + { 0x03a8, 0x03a8, 0x59, 1 }, + { 0x03b1, 0x03b2, 0x61, 1 }, + { 0x03b3, 0x03b3, 0x67, 1 }, + { 0x03b4, 0x03b5, 0x64, 1 }, + { 0x03b6, 0x03b6, 0x7a, 1 }, + { 0x03b7, 0x03b7, 0x68, 1 }, + { 0x03b8, 0x03b8, 0x71, 1 }, + { 0x03b9, 0x03b9, 0x69, 1 }, + { 0x03ba, 0x03bb, 0x6b, 1 }, + { 0x03bd, 0x03bd, 0x6e, 1 }, + { 0x03be, 0x03be, 0x78, 1 }, + { 0x03bf, 0x03c0, 0x6f, 1 }, + { 0x03c1, 0x03c1, 0x72, 1 }, + { 0x03c2, 0x03c2, 0x56, 1 }, + { 0x03c3, 0x03c5, 0x73, 1 }, + { 0x03c6, 0x03c6, 0x66, 1 }, + { 0x03c7, 0x03c7, 0x63, 1 }, + { 0x03c8, 0x03c8, 0x79, 1 }, + { 0x03c9, 0x03c9, 0x77, 1 }, + { 0x03d1, 0x03d1, 0x4a, 1 }, + { 0x03d2, 0x03d2, 0xa1, 1 }, + { 0x03d5, 0x03d5, 0x6a, 1 }, + { 0x03d6, 0x03d6, 0x76, 1 }, + { 0x2022, 0x2022, 0xb7, 1 }, + { 0x2026, 0x2026, 0xbc, 1 }, + { 0x2032, 0x2032, 0xa2, 1 }, + { 0x2033, 0x2033, 0xb2, 1 }, + { 0x2044, 0x2044, 0xa4, 1 }, + { 0x2111, 0x2111, 0xc1, 1 }, + { 0x2118, 0x2118, 0xc3, 1 }, + { 0x211c, 0x211c, 0xc2, 1 }, + { 0x2126, 0x2126, 0x57, 1 }, + { 0x2135, 0x2135, 0xc0, 1 }, + { 0x2190, 0x2193, 0xac, 1 }, + { 0x2194, 0x2194, 0xab, 1 }, + { 0x21b5, 0x21b5, 0xbf, 1 }, + { 0x21d0, 0x21d3, 0xdc, 1 }, + { 0x21d4, 0x21d4, 0xdb, 1 }, + { 0x2200, 0x2200, 0x22, 1 }, + { 0x2202, 0x2202, 0xb6, 1 }, + { 0x2203, 0x2203, 0x24, 1 }, + { 0x2205, 0x2205, 0xc6, 1 }, + { 0x2206, 0x2206, 0x44, 1 }, + { 0x2207, 0x2207, 0xd1, 1 }, + { 0x2208, 0x2209, 0xce, 1 }, + { 0x220b, 0x220b, 0x27, 1 }, + { 0x220f, 0x220f, 0xd5, 1 }, + { 0x2211, 0x2211, 0xe5, 1 }, + { 0x2212, 0x2212, 0x2d, 1 }, + { 0x2217, 0x2217, 0x2a, 1 }, + { 0x221a, 0x221a, 0xd6, 1 }, + { 0x221d, 0x221d, 0xb5, 1 }, + { 0x221e, 0x221e, 0xa5, 1 }, + { 0x2220, 0x2220, 0xd0, 1 }, + { 0x2227, 0x2228, 0xd9, 1 }, + { 0x2229, 0x222a, 0xc7, 1 }, + { 0x222b, 0x222b, 0xf2, 1 }, + { 0x2234, 0x2234, 0x5c, 1 }, + { 0x223c, 0x223c, 0x7e, 1 }, + { 0x2245, 0x2245, 0x40, 1 }, + { 0x2248, 0x2248, 0xbb, 1 }, + { 0x2260, 0x2261, 0xb9, 1 }, + { 0x2264, 0x2264, 0xa3, 1 }, + { 0x2265, 0x2265, 0xb3, 1 }, + { 0x2282, 0x2282, 0xcc, 1 }, + { 0x2283, 0x2283, 0xc9, 1 }, + { 0x2284, 0x2284, 0xcb, 1 }, + { 0x2286, 0x2286, 0xcd, 1 }, + { 0x2287, 0x2287, 0xca, 1 }, + { 0x2295, 0x2295, 0xc5, 1 }, + { 0x2297, 0x2297, 0xc4, 1 }, + { 0x22a5, 0x22a5, 0x5e, 1 }, + { 0x22c5, 0x22c5, 0xd7, 1 }, + { 0x2320, 0x2320, 0xf3, 1 }, + { 0x2321, 0x2321, 0xf5, 1 }, + { 0x2329, 0x2329, 0xe1, 1 }, + { 0x232a, 0x232a, 0xf1, 1 }, + { 0x25ca, 0x25ca, 0xe0, 1 }, + { 0x2660, 0x2660, 0xaa, 1 }, + { 0x2663, 0x2663, 0xa7, 1 }, + { 0x2665, 0x2665, 0xa9, 1 }, + { 0x2666, 0x2666, 0xa8, 1 }, + { 0xf6d9, 0xf6d9, 0xd3, 1 }, + { 0xf6da, 0xf6da, 0xd2, 1 }, + { 0xf6db, 0xf6db, 0xd4, 1 }, + { 0xf8e5, 0xf8e5, 0x60, 1 }, + { 0xf8e6, 0xf8e7, 0xbd, 1 }, + { 0xf8e8, 0xf8ea, 0xe2, 1 }, + { 0xf8eb, 0xf8f4, 0xe6, 1 }, + { 0xf8f5, 0xf8f5, 0xf4, 1 }, + { 0xf8f6, 0xf8fe, 0xf6, 1 } +}; +#define symbolUnicodeMapLen (sizeof(symbolUnicodeMapRanges) / sizeof(UnicodeMapRange)) + +static UnicodeMapRange zapfDingbatsUnicodeMapRanges[] = { + { 0x0020, 0x0020, 0x20, 1 }, + { 0x2192, 0x2192, 0xd5, 1 }, + { 0x2194, 0x2195, 0xd6, 1 }, + { 0x2460, 0x2469, 0xac, 1 }, + { 0x25a0, 0x25a0, 0x6e, 1 }, + { 0x25b2, 0x25b2, 0x73, 1 }, + { 0x25bc, 0x25bc, 0x74, 1 }, + { 0x25c6, 0x25c6, 0x75, 1 }, + { 0x25cf, 0x25cf, 0x6c, 1 }, + { 0x25d7, 0x25d7, 0x77, 1 }, + { 0x2605, 0x2605, 0x48, 1 }, + { 0x260e, 0x260e, 0x25, 1 }, + { 0x261b, 0x261b, 0x2a, 1 }, + { 0x261e, 0x261e, 0x2b, 1 }, + { 0x2660, 0x2660, 0xab, 1 }, + { 0x2663, 0x2663, 0xa8, 1 }, + { 0x2665, 0x2665, 0xaa, 1 }, + { 0x2666, 0x2666, 0xa9, 1 }, + { 0x2701, 0x2704, 0x21, 1 }, + { 0x2706, 0x2709, 0x26, 1 }, + { 0x270c, 0x2727, 0x2c, 1 }, + { 0x2729, 0x274b, 0x49, 1 }, + { 0x274d, 0x274d, 0x6d, 1 }, + { 0x274f, 0x2752, 0x6f, 1 }, + { 0x2756, 0x2756, 0x76, 1 }, + { 0x2758, 0x275e, 0x78, 1 }, + { 0x2761, 0x2767, 0xa1, 1 }, + { 0x2776, 0x2794, 0xb6, 1 }, + { 0x2798, 0x27af, 0xd8, 1 }, + { 0x27b1, 0x27be, 0xf1, 1 } +}; +#define zapfDingbatsUnicodeMapLen (sizeof(zapfDingbatsUnicodeMapRanges) / sizeof(UnicodeMapRange)) diff --git a/kpdf/xpdf/xpdf/UnicodeTypeTable.cc b/kpdf/xpdf/xpdf/UnicodeTypeTable.cc new file mode 100644 index 00000000..b8960403 --- /dev/null +++ b/kpdf/xpdf/xpdf/UnicodeTypeTable.cc @@ -0,0 +1,949 @@ +//======================================================================== +// +// UnicodeTypeTable.cc +// +// Copyright 2004 Glyph & Cog, LLC +// +//======================================================================== + +#include +#include "CharTypes.h" +#include "UnicodeTypeTable.h" + +struct UnicodeMapTableEntry { + char *vector; + char type; +}; + +struct UnicodeCaseTableVector { + Unicode codes[256]; +}; + +static UnicodeMapTableEntry typeTable[256] = { + { "NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNLNNNNNNNNNNLNNNNLNNNNNLLLLLLLLLLLLLLLLLLLLLLLNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNLLLLLLLL", 'X' }, + { NULL, 'L' }, + { "LLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNLLLLLLLNNNNNNNNNNNNNNLLNNNNNNNNNNNNNNLLLLLNNNNNNNNNLNNNNNNNNNNNNNNNNN", 'X' }, + { "NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNLLLLLNNNNNNNNNNNLNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNLLLLLLLLL", 'X' }, + { "LLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLL", 'X' }, + { "LLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNRNRNNRNRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRR", 'X' }, + { "RRRRNNNNNNNNNRNNNNNNNNRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNRRRNRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRNNNNNNNRNNNNNNNRRNNNNNNNRRNNNNNNNNNNRRRRRR", 'X' }, + { "RRRRRRRRRRRRRRNNRNRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRNNNNNNNNNNNNNNNNNNNNNNNNNNNRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRNNNNNNNNNNNRNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN", 'X' }, + { NULL, 'N' }, + { "NNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNLLLLNNNNNNNNLLLLNLLLNNNNLLLLLLLLLLLLLNNLLLLLLLLLLLLLNNNNNNNNNNNNNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNLLLLNNNNLLLLLLLLNLLLLLLLLLLLLLLLLLLLLNNLLLLLLLLLLLLLLNNLLLLLLLNNNNN", 'X' }, + { "NNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNLLLLNNNNNNNNNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNLLLNNNNNNNNNNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNLLLLNNNNNNNNLLLLNLLLLLLLLLLLLLLLLLLLLNNLLLLLLLLLLLLNNNNNNNNNNNNNNNN", 'X' }, + { "NNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNLLNLNNNLLLLLLLLLNNNNNNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNNNNNNNNNNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNLLLLLLLLLLLLNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNNNNNLLLLL", 'X' }, + { "LLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNNNNLLLLNNNNNNNNNNNNNNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNLLLLLLLLLLLLLLLNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLL", 'X' }, + { "LLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNLLLLLLLLLNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNLLLLLLLNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLL", 'X' }, + { "LLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNLLNNNNNNNNNNNNLLLLLLLNNNNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNLLNNNNNNNNNLLLLLLLLLLNNNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLL", 'X' }, + { "LLLLLLLLLLLLLLLLLLLLLLLLNNLLLLLLLLLLLLLLLLLLLLLLLLLLLNLNLNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNNNNNNNNNNNNNNNNNLNNNNNLNNLLLLNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNLLLLLLLLLNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLL", 'X' }, + { "LLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNLNNNNNNLNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLL", 'X' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { "LLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNNNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLL", 'X' }, + { "LLLLLLLLLLLLLLLLLLNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNNNNLLLLLLLLNLLNNNNNNNNNNNLLLLLLLNLNLLLLLLLLLLLLNNNNNNNNNNNNNNNNNNNNNN", 'X' }, + { "NNNNNNNNNNNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLL", 'X' }, + { "LLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNNNLLLLNNNNNLLLLLLNLLLLLLNNNNNNNNNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN", 'X' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { "LLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNLNNNLLLLLLLLLLLNNNLLLLLLLLLLLLNNNNLLLLLLLLLLLLLNNNLLLLLLLLLLLLLNNN", 'X' }, + { "NNNNNNNNNNNNNNLRNNNNNNNNNNNNNNNNNNNNNNNNNNLRNLRNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNLNNNNNNNNNNNNNLNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN", 'X' }, + { "NNLNNNNLNNLLLLLLLLLLNLNNNLLLLLNNNNNNLNLNLNLLLLNLLLNLLLLLLLNNLLLLNNNNNLLLLLNNNNNNNNNNNNNNNNNNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN", 'X' }, + { NULL, 'N' }, + { "NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNNNNNNNNNNNNNNNNNNNNNNNLNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN", 'X' }, + { "NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNNNNNNNNNNNNNNNNNNN", 'X' }, + { NULL, 'N' }, + { NULL, 'N' }, + { NULL, 'N' }, + { NULL, 'L' }, + { NULL, 'N' }, + { NULL, 'N' }, + { NULL, 'N' }, + { NULL, 'N' }, + { NULL, 'N' }, + { NULL, 'N' }, + { NULL, 'N' }, + { "NNNNNLLLNNNNNNNNNNNNNNNNNNNNNNNNNLLLLLLLLLNNNNNNNLLLLLNNLLLLLNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNNNLLLNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNLLLL", 'X' }, + { NULL, 'L' }, + { "LLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNNNNNNNNNNNNNNNNNNNNNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNNNNNNNNNNNNLLLLLLLLLLLLNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLL", 'X' }, + { "LLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLN", 'X' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { 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{ NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { "LLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLLL", 'X' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' }, + { NULL, 'L' 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+ 0x0260, 0x0261, 0x0262, 0x0263, 0x0264, 0x0265, 0x0266, 0x0267, + 0x0268, 0x0269, 0x026a, 0x026b, 0x026c, 0x026d, 0x026e, 0x026f, + 0x0270, 0x0271, 0x0272, 0x0273, 0x0274, 0x0275, 0x0276, 0x0277, + 0x0278, 0x0279, 0x027a, 0x027b, 0x027c, 0x027d, 0x027e, 0x027f, + 0x0280, 0x0281, 0x0282, 0x0283, 0x0284, 0x0285, 0x0286, 0x0287, + 0x0288, 0x0289, 0x028a, 0x028b, 0x028c, 0x028d, 0x028e, 0x028f, + 0x0290, 0x0291, 0x0292, 0x0293, 0x0294, 0x0295, 0x0296, 0x0297, + 0x0298, 0x0299, 0x029a, 0x029b, 0x029c, 0x029d, 0x029e, 0x029f, + 0x02a0, 0x02a1, 0x02a2, 0x02a3, 0x02a4, 0x02a5, 0x02a6, 0x02a7, + 0x02a8, 0x02a9, 0x02aa, 0x02ab, 0x02ac, 0x02ad, 0x02ae, 0x02af, + 0x02b0, 0x02b1, 0x02b2, 0x02b3, 0x02b4, 0x02b5, 0x02b6, 0x02b7, + 0x02b8, 0x02b9, 0x02ba, 0x02bb, 0x02bc, 0x02bd, 0x02be, 0x02bf, + 0x02c0, 0x02c1, 0x02c2, 0x02c3, 0x02c4, 0x02c5, 0x02c6, 0x02c7, + 0x02c8, 0x02c9, 0x02ca, 0x02cb, 0x02cc, 0x02cd, 0x02ce, 0x02cf, + 0x02d0, 0x02d1, 0x02d2, 0x02d3, 0x02d4, 0x02d5, 0x02d6, 0x02d7, + 0x02d8, 0x02d9, 0x02da, 0x02db, 0x02dc, 0x02dd, 0x02de, 0x02df, + 0x02e0, 0x02e1, 0x02e2, 0x02e3, 0x02e4, 0x02e5, 0x02e6, 0x02e7, + 0x02e8, 0x02e9, 0x02ea, 0x02eb, 0x02ec, 0x02ed, 0x02ee, 0x02ef, + 0x02f0, 0x02f1, 0x02f2, 0x02f3, 0x02f4, 0x02f5, 0x02f6, 0x02f7, + 0x02f8, 0x02f9, 0x02fa, 0x02fb, 0x02fc, 0x02fd, 0x02fe, 0x02ff +}}; +static UnicodeCaseTableVector caseTable03 = {{ + 0x0300, 0x0301, 0x0302, 0x0303, 0x0304, 0x0305, 0x0306, 0x0307, + 0x0308, 0x0309, 0x030a, 0x030b, 0x030c, 0x030d, 0x030e, 0x030f, + 0x0310, 0x0311, 0x0312, 0x0313, 0x0314, 0x0315, 0x0316, 0x0317, + 0x0318, 0x0319, 0x031a, 0x031b, 0x031c, 0x031d, 0x031e, 0x031f, + 0x0320, 0x0321, 0x0322, 0x0323, 0x0324, 0x0325, 0x0326, 0x0327, + 0x0328, 0x0329, 0x032a, 0x032b, 0x032c, 0x032d, 0x032e, 0x032f, + 0x0330, 0x0331, 0x0332, 0x0333, 0x0334, 0x0335, 0x0336, 0x0337, + 0x0338, 0x0339, 0x033a, 0x033b, 0x033c, 0x033d, 0x033e, 0x033f, + 0x0340, 0x0341, 0x0342, 0x0343, 0x0344, 0x03b9, 0x0346, 0x0347, + 0x0348, 0x0349, 0x034a, 0x034b, 0x034c, 0x034d, 0x034e, 0x034f, + 0x0350, 0x0351, 0x0352, 0x0353, 0x0354, 0x0355, 0x0356, 0x0357, + 0x0358, 0x0359, 0x035a, 0x035b, 0x035c, 0x035d, 0x035e, 0x035f, + 0x0360, 0x0361, 0x0362, 0x0363, 0x0364, 0x0365, 0x0366, 0x0367, + 0x0368, 0x0369, 0x036a, 0x036b, 0x036c, 0x036d, 0x036e, 0x036f, + 0x0370, 0x0371, 0x0372, 0x0373, 0x0374, 0x0375, 0x0376, 0x0377, + 0x0378, 0x0379, 0x037a, 0x037b, 0x037c, 0x037d, 0x037e, 0x037f, + 0x0380, 0x0381, 0x0382, 0x0383, 0x0384, 0x0385, 0x03ac, 0x0387, + 0x03ad, 0x03ae, 0x03af, 0x038b, 0x03cc, 0x038d, 0x03cd, 0x03ce, + 0x0390, 0x03b1, 0x03b2, 0x03b3, 0x03b4, 0x03b5, 0x03b6, 0x03b7, + 0x03b8, 0x03b9, 0x03ba, 0x03bb, 0x03bc, 0x03bd, 0x03be, 0x03bf, + 0x03c0, 0x03c1, 0x03a2, 0x03c3, 0x03c4, 0x03c5, 0x03c6, 0x03c7, + 0x03c8, 0x03c9, 0x03ca, 0x03cb, 0x03ac, 0x03ad, 0x03ae, 0x03af, + 0x03b0, 0x03b1, 0x03b2, 0x03b3, 0x03b4, 0x03b5, 0x03b6, 0x03b7, + 0x03b8, 0x03b9, 0x03ba, 0x03bb, 0x03bc, 0x03bd, 0x03be, 0x03bf, + 0x03c0, 0x03c1, 0x03c3, 0x03c3, 0x03c4, 0x03c5, 0x03c6, 0x03c7, + 0x03c8, 0x03c9, 0x03ca, 0x03cb, 0x03cc, 0x03cd, 0x03ce, 0x03cf, + 0x03b2, 0x03b8, 0x03d2, 0x03d3, 0x03d4, 0x03c6, 0x03c0, 0x03d7, + 0x03d9, 0x03d9, 0x03db, 0x03db, 0x03dd, 0x03dd, 0x03df, 0x03df, + 0x03e1, 0x03e1, 0x03e3, 0x03e3, 0x03e5, 0x03e5, 0x03e7, 0x03e7, + 0x03e9, 0x03e9, 0x03eb, 0x03eb, 0x03ed, 0x03ed, 0x03ef, 0x03ef, + 0x03ba, 0x03c1, 0x03f2, 0x03f3, 0x03b8, 0x03b5, 0x03f6, 0x03f8, + 0x03f8, 0x03f2, 0x03fb, 0x03fb, 0x03fc, 0x03fd, 0x03fe, 0x03ff +}}; +static UnicodeCaseTableVector caseTable04 = {{ + 0x0450, 0x0451, 0x0452, 0x0453, 0x0454, 0x0455, 0x0456, 0x0457, + 0x0458, 0x0459, 0x045a, 0x045b, 0x045c, 0x045d, 0x045e, 0x045f, + 0x0430, 0x0431, 0x0432, 0x0433, 0x0434, 0x0435, 0x0436, 0x0437, + 0x0438, 0x0439, 0x043a, 0x043b, 0x043c, 0x043d, 0x043e, 0x043f, + 0x0440, 0x0441, 0x0442, 0x0443, 0x0444, 0x0445, 0x0446, 0x0447, + 0x0448, 0x0449, 0x044a, 0x044b, 0x044c, 0x044d, 0x044e, 0x044f, + 0x0430, 0x0431, 0x0432, 0x0433, 0x0434, 0x0435, 0x0436, 0x0437, + 0x0438, 0x0439, 0x043a, 0x043b, 0x043c, 0x043d, 0x043e, 0x043f, + 0x0440, 0x0441, 0x0442, 0x0443, 0x0444, 0x0445, 0x0446, 0x0447, + 0x0448, 0x0449, 0x044a, 0x044b, 0x044c, 0x044d, 0x044e, 0x044f, + 0x0450, 0x0451, 0x0452, 0x0453, 0x0454, 0x0455, 0x0456, 0x0457, + 0x0458, 0x0459, 0x045a, 0x045b, 0x045c, 0x045d, 0x045e, 0x045f, + 0x0461, 0x0461, 0x0463, 0x0463, 0x0465, 0x0465, 0x0467, 0x0467, + 0x0469, 0x0469, 0x046b, 0x046b, 0x046d, 0x046d, 0x046f, 0x046f, + 0x0471, 0x0471, 0x0473, 0x0473, 0x0475, 0x0475, 0x0477, 0x0477, + 0x0479, 0x0479, 0x047b, 0x047b, 0x047d, 0x047d, 0x047f, 0x047f, + 0x0481, 0x0481, 0x0482, 0x0483, 0x0484, 0x0485, 0x0486, 0x0487, + 0x0488, 0x0489, 0x048b, 0x048b, 0x048d, 0x048d, 0x048f, 0x048f, + 0x0491, 0x0491, 0x0493, 0x0493, 0x0495, 0x0495, 0x0497, 0x0497, + 0x0499, 0x0499, 0x049b, 0x049b, 0x049d, 0x049d, 0x049f, 0x049f, + 0x04a1, 0x04a1, 0x04a3, 0x04a3, 0x04a5, 0x04a5, 0x04a7, 0x04a7, + 0x04a9, 0x04a9, 0x04ab, 0x04ab, 0x04ad, 0x04ad, 0x04af, 0x04af, + 0x04b1, 0x04b1, 0x04b3, 0x04b3, 0x04b5, 0x04b5, 0x04b7, 0x04b7, + 0x04b9, 0x04b9, 0x04bb, 0x04bb, 0x04bd, 0x04bd, 0x04bf, 0x04bf, + 0x04c0, 0x04c2, 0x04c2, 0x04c4, 0x04c4, 0x04c6, 0x04c6, 0x04c8, + 0x04c8, 0x04ca, 0x04ca, 0x04cc, 0x04cc, 0x04ce, 0x04ce, 0x04cf, + 0x04d1, 0x04d1, 0x04d3, 0x04d3, 0x04d5, 0x04d5, 0x04d7, 0x04d7, + 0x04d9, 0x04d9, 0x04db, 0x04db, 0x04dd, 0x04dd, 0x04df, 0x04df, + 0x04e1, 0x04e1, 0x04e3, 0x04e3, 0x04e5, 0x04e5, 0x04e7, 0x04e7, + 0x04e9, 0x04e9, 0x04eb, 0x04eb, 0x04ed, 0x04ed, 0x04ef, 0x04ef, + 0x04f1, 0x04f1, 0x04f3, 0x04f3, 0x04f5, 0x04f5, 0x04f6, 0x04f7, + 0x04f9, 0x04f9, 0x04fa, 0x04fb, 0x04fc, 0x04fd, 0x04fe, 0x04ff +}}; +static UnicodeCaseTableVector caseTable05 = {{ + 0x0501, 0x0501, 0x0503, 0x0503, 0x0505, 0x0505, 0x0507, 0x0507, + 0x0509, 0x0509, 0x050b, 0x050b, 0x050d, 0x050d, 0x050f, 0x050f, + 0x0510, 0x0511, 0x0512, 0x0513, 0x0514, 0x0515, 0x0516, 0x0517, + 0x0518, 0x0519, 0x051a, 0x051b, 0x051c, 0x051d, 0x051e, 0x051f, + 0x0520, 0x0521, 0x0522, 0x0523, 0x0524, 0x0525, 0x0526, 0x0527, + 0x0528, 0x0529, 0x052a, 0x052b, 0x052c, 0x052d, 0x052e, 0x052f, + 0x0530, 0x0561, 0x0562, 0x0563, 0x0564, 0x0565, 0x0566, 0x0567, + 0x0568, 0x0569, 0x056a, 0x056b, 0x056c, 0x056d, 0x056e, 0x056f, + 0x0570, 0x0571, 0x0572, 0x0573, 0x0574, 0x0575, 0x0576, 0x0577, + 0x0578, 0x0579, 0x057a, 0x057b, 0x057c, 0x057d, 0x057e, 0x057f, + 0x0580, 0x0581, 0x0582, 0x0583, 0x0584, 0x0585, 0x0586, 0x0557, + 0x0558, 0x0559, 0x055a, 0x055b, 0x055c, 0x055d, 0x055e, 0x055f, + 0x0560, 0x0561, 0x0562, 0x0563, 0x0564, 0x0565, 0x0566, 0x0567, + 0x0568, 0x0569, 0x056a, 0x056b, 0x056c, 0x056d, 0x056e, 0x056f, + 0x0570, 0x0571, 0x0572, 0x0573, 0x0574, 0x0575, 0x0576, 0x0577, + 0x0578, 0x0579, 0x057a, 0x057b, 0x057c, 0x057d, 0x057e, 0x057f, + 0x0580, 0x0581, 0x0582, 0x0583, 0x0584, 0x0585, 0x0586, 0x0587, + 0x0588, 0x0589, 0x058a, 0x058b, 0x058c, 0x058d, 0x058e, 0x058f, + 0x0590, 0x0591, 0x0592, 0x0593, 0x0594, 0x0595, 0x0596, 0x0597, + 0x0598, 0x0599, 0x059a, 0x059b, 0x059c, 0x059d, 0x059e, 0x059f, + 0x05a0, 0x05a1, 0x05a2, 0x05a3, 0x05a4, 0x05a5, 0x05a6, 0x05a7, + 0x05a8, 0x05a9, 0x05aa, 0x05ab, 0x05ac, 0x05ad, 0x05ae, 0x05af, + 0x05b0, 0x05b1, 0x05b2, 0x05b3, 0x05b4, 0x05b5, 0x05b6, 0x05b7, + 0x05b8, 0x05b9, 0x05ba, 0x05bb, 0x05bc, 0x05bd, 0x05be, 0x05bf, + 0x05c0, 0x05c1, 0x05c2, 0x05c3, 0x05c4, 0x05c5, 0x05c6, 0x05c7, + 0x05c8, 0x05c9, 0x05ca, 0x05cb, 0x05cc, 0x05cd, 0x05ce, 0x05cf, + 0x05d0, 0x05d1, 0x05d2, 0x05d3, 0x05d4, 0x05d5, 0x05d6, 0x05d7, + 0x05d8, 0x05d9, 0x05da, 0x05db, 0x05dc, 0x05dd, 0x05de, 0x05df, + 0x05e0, 0x05e1, 0x05e2, 0x05e3, 0x05e4, 0x05e5, 0x05e6, 0x05e7, + 0x05e8, 0x05e9, 0x05ea, 0x05eb, 0x05ec, 0x05ed, 0x05ee, 0x05ef, + 0x05f0, 0x05f1, 0x05f2, 0x05f3, 0x05f4, 0x05f5, 0x05f6, 0x05f7, + 0x05f8, 0x05f9, 0x05fa, 0x05fb, 0x05fc, 0x05fd, 0x05fe, 0x05ff +}}; +static UnicodeCaseTableVector caseTable1e = {{ + 0x1e01, 0x1e01, 0x1e03, 0x1e03, 0x1e05, 0x1e05, 0x1e07, 0x1e07, + 0x1e09, 0x1e09, 0x1e0b, 0x1e0b, 0x1e0d, 0x1e0d, 0x1e0f, 0x1e0f, + 0x1e11, 0x1e11, 0x1e13, 0x1e13, 0x1e15, 0x1e15, 0x1e17, 0x1e17, + 0x1e19, 0x1e19, 0x1e1b, 0x1e1b, 0x1e1d, 0x1e1d, 0x1e1f, 0x1e1f, + 0x1e21, 0x1e21, 0x1e23, 0x1e23, 0x1e25, 0x1e25, 0x1e27, 0x1e27, + 0x1e29, 0x1e29, 0x1e2b, 0x1e2b, 0x1e2d, 0x1e2d, 0x1e2f, 0x1e2f, + 0x1e31, 0x1e31, 0x1e33, 0x1e33, 0x1e35, 0x1e35, 0x1e37, 0x1e37, + 0x1e39, 0x1e39, 0x1e3b, 0x1e3b, 0x1e3d, 0x1e3d, 0x1e3f, 0x1e3f, + 0x1e41, 0x1e41, 0x1e43, 0x1e43, 0x1e45, 0x1e45, 0x1e47, 0x1e47, + 0x1e49, 0x1e49, 0x1e4b, 0x1e4b, 0x1e4d, 0x1e4d, 0x1e4f, 0x1e4f, + 0x1e51, 0x1e51, 0x1e53, 0x1e53, 0x1e55, 0x1e55, 0x1e57, 0x1e57, + 0x1e59, 0x1e59, 0x1e5b, 0x1e5b, 0x1e5d, 0x1e5d, 0x1e5f, 0x1e5f, + 0x1e61, 0x1e61, 0x1e63, 0x1e63, 0x1e65, 0x1e65, 0x1e67, 0x1e67, + 0x1e69, 0x1e69, 0x1e6b, 0x1e6b, 0x1e6d, 0x1e6d, 0x1e6f, 0x1e6f, + 0x1e71, 0x1e71, 0x1e73, 0x1e73, 0x1e75, 0x1e75, 0x1e77, 0x1e77, + 0x1e79, 0x1e79, 0x1e7b, 0x1e7b, 0x1e7d, 0x1e7d, 0x1e7f, 0x1e7f, + 0x1e81, 0x1e81, 0x1e83, 0x1e83, 0x1e85, 0x1e85, 0x1e87, 0x1e87, + 0x1e89, 0x1e89, 0x1e8b, 0x1e8b, 0x1e8d, 0x1e8d, 0x1e8f, 0x1e8f, + 0x1e91, 0x1e91, 0x1e93, 0x1e93, 0x1e95, 0x1e95, 0x1e96, 0x1e97, + 0x1e98, 0x1e99, 0x1e9a, 0x1e61, 0x1e9c, 0x1e9d, 0x1e9e, 0x1e9f, + 0x1ea1, 0x1ea1, 0x1ea3, 0x1ea3, 0x1ea5, 0x1ea5, 0x1ea7, 0x1ea7, + 0x1ea9, 0x1ea9, 0x1eab, 0x1eab, 0x1ead, 0x1ead, 0x1eaf, 0x1eaf, + 0x1eb1, 0x1eb1, 0x1eb3, 0x1eb3, 0x1eb5, 0x1eb5, 0x1eb7, 0x1eb7, + 0x1eb9, 0x1eb9, 0x1ebb, 0x1ebb, 0x1ebd, 0x1ebd, 0x1ebf, 0x1ebf, + 0x1ec1, 0x1ec1, 0x1ec3, 0x1ec3, 0x1ec5, 0x1ec5, 0x1ec7, 0x1ec7, + 0x1ec9, 0x1ec9, 0x1ecb, 0x1ecb, 0x1ecd, 0x1ecd, 0x1ecf, 0x1ecf, + 0x1ed1, 0x1ed1, 0x1ed3, 0x1ed3, 0x1ed5, 0x1ed5, 0x1ed7, 0x1ed7, + 0x1ed9, 0x1ed9, 0x1edb, 0x1edb, 0x1edd, 0x1edd, 0x1edf, 0x1edf, + 0x1ee1, 0x1ee1, 0x1ee3, 0x1ee3, 0x1ee5, 0x1ee5, 0x1ee7, 0x1ee7, + 0x1ee9, 0x1ee9, 0x1eeb, 0x1eeb, 0x1eed, 0x1eed, 0x1eef, 0x1eef, + 0x1ef1, 0x1ef1, 0x1ef3, 0x1ef3, 0x1ef5, 0x1ef5, 0x1ef7, 0x1ef7, + 0x1ef9, 0x1ef9, 0x1efa, 0x1efb, 0x1efc, 0x1efd, 0x1efe, 0x1eff +}}; +static UnicodeCaseTableVector caseTable1f = {{ + 0x1f00, 0x1f01, 0x1f02, 0x1f03, 0x1f04, 0x1f05, 0x1f06, 0x1f07, + 0x1f00, 0x1f01, 0x1f02, 0x1f03, 0x1f04, 0x1f05, 0x1f06, 0x1f07, + 0x1f10, 0x1f11, 0x1f12, 0x1f13, 0x1f14, 0x1f15, 0x1f16, 0x1f17, + 0x1f10, 0x1f11, 0x1f12, 0x1f13, 0x1f14, 0x1f15, 0x1f1e, 0x1f1f, + 0x1f20, 0x1f21, 0x1f22, 0x1f23, 0x1f24, 0x1f25, 0x1f26, 0x1f27, + 0x1f20, 0x1f21, 0x1f22, 0x1f23, 0x1f24, 0x1f25, 0x1f26, 0x1f27, + 0x1f30, 0x1f31, 0x1f32, 0x1f33, 0x1f34, 0x1f35, 0x1f36, 0x1f37, + 0x1f30, 0x1f31, 0x1f32, 0x1f33, 0x1f34, 0x1f35, 0x1f36, 0x1f37, + 0x1f40, 0x1f41, 0x1f42, 0x1f43, 0x1f44, 0x1f45, 0x1f46, 0x1f47, + 0x1f40, 0x1f41, 0x1f42, 0x1f43, 0x1f44, 0x1f45, 0x1f4e, 0x1f4f, + 0x1f50, 0x1f51, 0x1f52, 0x1f53, 0x1f54, 0x1f55, 0x1f56, 0x1f57, + 0x1f58, 0x1f51, 0x1f5a, 0x1f53, 0x1f5c, 0x1f55, 0x1f5e, 0x1f57, + 0x1f60, 0x1f61, 0x1f62, 0x1f63, 0x1f64, 0x1f65, 0x1f66, 0x1f67, + 0x1f60, 0x1f61, 0x1f62, 0x1f63, 0x1f64, 0x1f65, 0x1f66, 0x1f67, + 0x1f70, 0x1f71, 0x1f72, 0x1f73, 0x1f74, 0x1f75, 0x1f76, 0x1f77, + 0x1f78, 0x1f79, 0x1f7a, 0x1f7b, 0x1f7c, 0x1f7d, 0x1f7e, 0x1f7f, + 0x1f80, 0x1f81, 0x1f82, 0x1f83, 0x1f84, 0x1f85, 0x1f86, 0x1f87, + 0x1f80, 0x1f81, 0x1f82, 0x1f83, 0x1f84, 0x1f85, 0x1f86, 0x1f87, + 0x1f90, 0x1f91, 0x1f92, 0x1f93, 0x1f94, 0x1f95, 0x1f96, 0x1f97, + 0x1f90, 0x1f91, 0x1f92, 0x1f93, 0x1f94, 0x1f95, 0x1f96, 0x1f97, + 0x1fa0, 0x1fa1, 0x1fa2, 0x1fa3, 0x1fa4, 0x1fa5, 0x1fa6, 0x1fa7, + 0x1fa0, 0x1fa1, 0x1fa2, 0x1fa3, 0x1fa4, 0x1fa5, 0x1fa6, 0x1fa7, + 0x1fb0, 0x1fb1, 0x1fb2, 0x1fb3, 0x1fb4, 0x1fb5, 0x1fb6, 0x1fb7, + 0x1fb0, 0x1fb1, 0x1f70, 0x1f71, 0x1fb3, 0x1fbd, 0x03b9, 0x1fbf, + 0x1fc0, 0x1fc1, 0x1fc2, 0x1fc3, 0x1fc4, 0x1fc5, 0x1fc6, 0x1fc7, + 0x1f72, 0x1f73, 0x1f74, 0x1f75, 0x1fc3, 0x1fcd, 0x1fce, 0x1fcf, + 0x1fd0, 0x1fd1, 0x1fd2, 0x1fd3, 0x1fd4, 0x1fd5, 0x1fd6, 0x1fd7, + 0x1fd0, 0x1fd1, 0x1f76, 0x1f77, 0x1fdc, 0x1fdd, 0x1fde, 0x1fdf, + 0x1fe0, 0x1fe1, 0x1fe2, 0x1fe3, 0x1fe4, 0x1fe5, 0x1fe6, 0x1fe7, + 0x1fe0, 0x1fe1, 0x1f7a, 0x1f7b, 0x1fe5, 0x1fed, 0x1fee, 0x1fef, + 0x1ff0, 0x1ff1, 0x1ff2, 0x1ff3, 0x1ff4, 0x1ff5, 0x1ff6, 0x1ff7, + 0x1f78, 0x1f79, 0x1f7c, 0x1f7d, 0x1ff3, 0x1ffd, 0x1ffe, 0x1fff +}}; +static UnicodeCaseTableVector caseTable21 = {{ + 0x2100, 0x2101, 0x2102, 0x2103, 0x2104, 0x2105, 0x2106, 0x2107, + 0x2108, 0x2109, 0x210a, 0x210b, 0x210c, 0x210d, 0x210e, 0x210f, + 0x2110, 0x2111, 0x2112, 0x2113, 0x2114, 0x2115, 0x2116, 0x2117, + 0x2118, 0x2119, 0x211a, 0x211b, 0x211c, 0x211d, 0x211e, 0x211f, + 0x2120, 0x2121, 0x2122, 0x2123, 0x2124, 0x2125, 0x03c9, 0x2127, + 0x2128, 0x2129, 0x006b, 0x00e5, 0x212c, 0x212d, 0x212e, 0x212f, + 0x2130, 0x2131, 0x2132, 0x2133, 0x2134, 0x2135, 0x2136, 0x2137, + 0x2138, 0x2139, 0x213a, 0x213b, 0x213c, 0x213d, 0x213e, 0x213f, + 0x2140, 0x2141, 0x2142, 0x2143, 0x2144, 0x2145, 0x2146, 0x2147, + 0x2148, 0x2149, 0x214a, 0x214b, 0x214c, 0x214d, 0x214e, 0x214f, + 0x2150, 0x2151, 0x2152, 0x2153, 0x2154, 0x2155, 0x2156, 0x2157, + 0x2158, 0x2159, 0x215a, 0x215b, 0x215c, 0x215d, 0x215e, 0x215f, + 0x2170, 0x2171, 0x2172, 0x2173, 0x2174, 0x2175, 0x2176, 0x2177, + 0x2178, 0x2179, 0x217a, 0x217b, 0x217c, 0x217d, 0x217e, 0x217f, + 0x2170, 0x2171, 0x2172, 0x2173, 0x2174, 0x2175, 0x2176, 0x2177, + 0x2178, 0x2179, 0x217a, 0x217b, 0x217c, 0x217d, 0x217e, 0x217f, + 0x2180, 0x2181, 0x2182, 0x2183, 0x2184, 0x2185, 0x2186, 0x2187, + 0x2188, 0x2189, 0x218a, 0x218b, 0x218c, 0x218d, 0x218e, 0x218f, + 0x2190, 0x2191, 0x2192, 0x2193, 0x2194, 0x2195, 0x2196, 0x2197, + 0x2198, 0x2199, 0x219a, 0x219b, 0x219c, 0x219d, 0x219e, 0x219f, + 0x21a0, 0x21a1, 0x21a2, 0x21a3, 0x21a4, 0x21a5, 0x21a6, 0x21a7, + 0x21a8, 0x21a9, 0x21aa, 0x21ab, 0x21ac, 0x21ad, 0x21ae, 0x21af, + 0x21b0, 0x21b1, 0x21b2, 0x21b3, 0x21b4, 0x21b5, 0x21b6, 0x21b7, + 0x21b8, 0x21b9, 0x21ba, 0x21bb, 0x21bc, 0x21bd, 0x21be, 0x21bf, + 0x21c0, 0x21c1, 0x21c2, 0x21c3, 0x21c4, 0x21c5, 0x21c6, 0x21c7, + 0x21c8, 0x21c9, 0x21ca, 0x21cb, 0x21cc, 0x21cd, 0x21ce, 0x21cf, + 0x21d0, 0x21d1, 0x21d2, 0x21d3, 0x21d4, 0x21d5, 0x21d6, 0x21d7, + 0x21d8, 0x21d9, 0x21da, 0x21db, 0x21dc, 0x21dd, 0x21de, 0x21df, + 0x21e0, 0x21e1, 0x21e2, 0x21e3, 0x21e4, 0x21e5, 0x21e6, 0x21e7, + 0x21e8, 0x21e9, 0x21ea, 0x21eb, 0x21ec, 0x21ed, 0x21ee, 0x21ef, + 0x21f0, 0x21f1, 0x21f2, 0x21f3, 0x21f4, 0x21f5, 0x21f6, 0x21f7, + 0x21f8, 0x21f9, 0x21fa, 0x21fb, 0x21fc, 0x21fd, 0x21fe, 0x21ff +}}; +static UnicodeCaseTableVector caseTable24 = {{ + 0x2400, 0x2401, 0x2402, 0x2403, 0x2404, 0x2405, 0x2406, 0x2407, + 0x2408, 0x2409, 0x240a, 0x240b, 0x240c, 0x240d, 0x240e, 0x240f, + 0x2410, 0x2411, 0x2412, 0x2413, 0x2414, 0x2415, 0x2416, 0x2417, + 0x2418, 0x2419, 0x241a, 0x241b, 0x241c, 0x241d, 0x241e, 0x241f, + 0x2420, 0x2421, 0x2422, 0x2423, 0x2424, 0x2425, 0x2426, 0x2427, + 0x2428, 0x2429, 0x242a, 0x242b, 0x242c, 0x242d, 0x242e, 0x242f, + 0x2430, 0x2431, 0x2432, 0x2433, 0x2434, 0x2435, 0x2436, 0x2437, + 0x2438, 0x2439, 0x243a, 0x243b, 0x243c, 0x243d, 0x243e, 0x243f, + 0x2440, 0x2441, 0x2442, 0x2443, 0x2444, 0x2445, 0x2446, 0x2447, + 0x2448, 0x2449, 0x244a, 0x244b, 0x244c, 0x244d, 0x244e, 0x244f, + 0x2450, 0x2451, 0x2452, 0x2453, 0x2454, 0x2455, 0x2456, 0x2457, + 0x2458, 0x2459, 0x245a, 0x245b, 0x245c, 0x245d, 0x245e, 0x245f, + 0x2460, 0x2461, 0x2462, 0x2463, 0x2464, 0x2465, 0x2466, 0x2467, + 0x2468, 0x2469, 0x246a, 0x246b, 0x246c, 0x246d, 0x246e, 0x246f, + 0x2470, 0x2471, 0x2472, 0x2473, 0x2474, 0x2475, 0x2476, 0x2477, + 0x2478, 0x2479, 0x247a, 0x247b, 0x247c, 0x247d, 0x247e, 0x247f, + 0x2480, 0x2481, 0x2482, 0x2483, 0x2484, 0x2485, 0x2486, 0x2487, + 0x2488, 0x2489, 0x248a, 0x248b, 0x248c, 0x248d, 0x248e, 0x248f, + 0x2490, 0x2491, 0x2492, 0x2493, 0x2494, 0x2495, 0x2496, 0x2497, + 0x2498, 0x2499, 0x249a, 0x249b, 0x249c, 0x249d, 0x249e, 0x249f, + 0x24a0, 0x24a1, 0x24a2, 0x24a3, 0x24a4, 0x24a5, 0x24a6, 0x24a7, + 0x24a8, 0x24a9, 0x24aa, 0x24ab, 0x24ac, 0x24ad, 0x24ae, 0x24af, + 0x24b0, 0x24b1, 0x24b2, 0x24b3, 0x24b4, 0x24b5, 0x24d0, 0x24d1, + 0x24d2, 0x24d3, 0x24d4, 0x24d5, 0x24d6, 0x24d7, 0x24d8, 0x24d9, + 0x24da, 0x24db, 0x24dc, 0x24dd, 0x24de, 0x24df, 0x24e0, 0x24e1, + 0x24e2, 0x24e3, 0x24e4, 0x24e5, 0x24e6, 0x24e7, 0x24e8, 0x24e9, + 0x24d0, 0x24d1, 0x24d2, 0x24d3, 0x24d4, 0x24d5, 0x24d6, 0x24d7, + 0x24d8, 0x24d9, 0x24da, 0x24db, 0x24dc, 0x24dd, 0x24de, 0x24df, + 0x24e0, 0x24e1, 0x24e2, 0x24e3, 0x24e4, 0x24e5, 0x24e6, 0x24e7, + 0x24e8, 0x24e9, 0x24ea, 0x24eb, 0x24ec, 0x24ed, 0x24ee, 0x24ef, + 0x24f0, 0x24f1, 0x24f2, 0x24f3, 0x24f4, 0x24f5, 0x24f6, 0x24f7, + 0x24f8, 0x24f9, 0x24fa, 0x24fb, 0x24fc, 0x24fd, 0x24fe, 0x24ff +}}; +static UnicodeCaseTableVector caseTableff = {{ + 0xff00, 0xff01, 0xff02, 0xff03, 0xff04, 0xff05, 0xff06, 0xff07, + 0xff08, 0xff09, 0xff0a, 0xff0b, 0xff0c, 0xff0d, 0xff0e, 0xff0f, + 0xff10, 0xff11, 0xff12, 0xff13, 0xff14, 0xff15, 0xff16, 0xff17, + 0xff18, 0xff19, 0xff1a, 0xff1b, 0xff1c, 0xff1d, 0xff1e, 0xff1f, + 0xff20, 0xff41, 0xff42, 0xff43, 0xff44, 0xff45, 0xff46, 0xff47, + 0xff48, 0xff49, 0xff4a, 0xff4b, 0xff4c, 0xff4d, 0xff4e, 0xff4f, + 0xff50, 0xff51, 0xff52, 0xff53, 0xff54, 0xff55, 0xff56, 0xff57, + 0xff58, 0xff59, 0xff5a, 0xff3b, 0xff3c, 0xff3d, 0xff3e, 0xff3f, + 0xff40, 0xff41, 0xff42, 0xff43, 0xff44, 0xff45, 0xff46, 0xff47, + 0xff48, 0xff49, 0xff4a, 0xff4b, 0xff4c, 0xff4d, 0xff4e, 0xff4f, + 0xff50, 0xff51, 0xff52, 0xff53, 0xff54, 0xff55, 0xff56, 0xff57, + 0xff58, 0xff59, 0xff5a, 0xff5b, 0xff5c, 0xff5d, 0xff5e, 0xff5f, + 0xff60, 0xff61, 0xff62, 0xff63, 0xff64, 0xff65, 0xff66, 0xff67, + 0xff68, 0xff69, 0xff6a, 0xff6b, 0xff6c, 0xff6d, 0xff6e, 0xff6f, + 0xff70, 0xff71, 0xff72, 0xff73, 0xff74, 0xff75, 0xff76, 0xff77, + 0xff78, 0xff79, 0xff7a, 0xff7b, 0xff7c, 0xff7d, 0xff7e, 0xff7f, + 0xff80, 0xff81, 0xff82, 0xff83, 0xff84, 0xff85, 0xff86, 0xff87, + 0xff88, 0xff89, 0xff8a, 0xff8b, 0xff8c, 0xff8d, 0xff8e, 0xff8f, + 0xff90, 0xff91, 0xff92, 0xff93, 0xff94, 0xff95, 0xff96, 0xff97, + 0xff98, 0xff99, 0xff9a, 0xff9b, 0xff9c, 0xff9d, 0xff9e, 0xff9f, + 0xffa0, 0xffa1, 0xffa2, 0xffa3, 0xffa4, 0xffa5, 0xffa6, 0xffa7, + 0xffa8, 0xffa9, 0xffaa, 0xffab, 0xffac, 0xffad, 0xffae, 0xffaf, + 0xffb0, 0xffb1, 0xffb2, 0xffb3, 0xffb4, 0xffb5, 0xffb6, 0xffb7, + 0xffb8, 0xffb9, 0xffba, 0xffbb, 0xffbc, 0xffbd, 0xffbe, 0xffbf, + 0xffc0, 0xffc1, 0xffc2, 0xffc3, 0xffc4, 0xffc5, 0xffc6, 0xffc7, + 0xffc8, 0xffc9, 0xffca, 0xffcb, 0xffcc, 0xffcd, 0xffce, 0xffcf, + 0xffd0, 0xffd1, 0xffd2, 0xffd3, 0xffd4, 0xffd5, 0xffd6, 0xffd7, + 0xffd8, 0xffd9, 0xffda, 0xffdb, 0xffdc, 0xffdd, 0xffde, 0xffdf, + 0xffe0, 0xffe1, 0xffe2, 0xffe3, 0xffe4, 0xffe5, 0xffe6, 0xffe7, + 0xffe8, 0xffe9, 0xffea, 0xffeb, 0xffec, 0xffed, 0xffee, 0xffef, + 0xfff0, 0xfff1, 0xfff2, 0xfff3, 0xfff4, 0xfff5, 0xfff6, 0xfff7, + 0xfff8, 0xfff9, 0xfffa, 0xfffb, 0xfffc, 0xfffd, 0xfffe, 0xffff +}}; +static UnicodeCaseTableVector *caseTable[256] = { + &caseTable00, + &caseTable01, + &caseTable02, + &caseTable03, + &caseTable04, + &caseTable05, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + &caseTable1e, + &caseTable1f, + NULL, + &caseTable21, + NULL, + NULL, + &caseTable24, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + NULL, + &caseTableff +}; + +static inline char getType(Unicode c) { + int i; + char type; + + if (c > 0xffff) { + type = 'X'; + } else { + i = (c >> 8) & 0xff; + if ((type = typeTable[i].type) == 'X') { + type = typeTable[i].vector[c & 0xff]; + } + } + return type; +} + +GBool unicodeTypeL(Unicode c) { + return getType(c) == 'L'; +} + +GBool unicodeTypeR(Unicode c) { + return getType(c) == 'R'; +} + +Unicode unicodeToUpper(Unicode c) { + int i; + + if (c > 0xffff) { + return c; + } + i = (c >> 8) & 0xff; + if (caseTable[i]) { + return caseTable[i]->codes[c & 0xff]; + } + return c; +} + diff --git a/kpdf/xpdf/xpdf/UnicodeTypeTable.h b/kpdf/xpdf/xpdf/UnicodeTypeTable.h new file mode 100644 index 00000000..7103dbdd --- /dev/null +++ b/kpdf/xpdf/xpdf/UnicodeTypeTable.h @@ -0,0 +1,20 @@ +//======================================================================== +// +// UnicodeTypeTable.h +// +// Copyright 2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef UNICODETYPETABLE_H +#define UNICODETYPETABLE_H + +#include "gtypes.h" + +extern GBool unicodeTypeL(Unicode c); + +extern GBool unicodeTypeR(Unicode c); + +extern Unicode unicodeToUpper(Unicode c); + +#endif diff --git a/kpdf/xpdf/xpdf/XRef.cc b/kpdf/xpdf/xpdf/XRef.cc new file mode 100644 index 00000000..d12d812f --- /dev/null +++ b/kpdf/xpdf/xpdf/XRef.cc @@ -0,0 +1,917 @@ +//======================================================================== +// +// XRef.cc +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include +#include +#include "gmem.h" +#include "Object.h" +#include "Stream.h" +#include "Lexer.h" +#include "Parser.h" +#include "Dict.h" +#include "Error.h" +#include "ErrorCodes.h" +#include "XRef.h" + +//------------------------------------------------------------------------ + +#define xrefSearchSize 1024 // read this many bytes at end of file + // to look for 'startxref' + +//------------------------------------------------------------------------ +// Permission bits +//------------------------------------------------------------------------ + +#define permPrint (1<<2) +#define permChange (1<<3) +#define permCopy (1<<4) +#define permNotes (1<<5) +#define defPermFlags 0xfffc + +//------------------------------------------------------------------------ +// ObjectStream +//------------------------------------------------------------------------ + +class ObjectStream { +public: + + // Create an object stream, using object number , + // generation 0. + ObjectStream(XRef *xref, int objStrNumA); + + ~ObjectStream(); + + // Return the object number of this object stream. + int getObjStrNum() { return objStrNum; } + + // Get the th object from this stream, which should be + // object number , generation 0. + Object *getObject(int objIdx, int objNum, Object *obj); + +private: + + int objStrNum; // object number of the object stream + int nObjects; // number of objects in the stream + Object *objs; // the objects (length = nObjects) + int *objNums; // the object numbers (length = nObjects) +}; + +ObjectStream::ObjectStream(XRef *xref, int objStrNumA) { + Stream *str; + Parser *parser; + int *offsets; + Object objStr, obj1, obj2; + int first, i; + + objStrNum = objStrNumA; + nObjects = 0; + objs = NULL; + objNums = NULL; + + if (!xref->fetch(objStrNum, 0, &objStr)->isStream()) { + goto err1; + } + + if (!objStr.streamGetDict()->lookup("N", &obj1)->isInt()) { + obj1.free(); + goto err1; + } + nObjects = obj1.getInt(); + obj1.free(); + if (nObjects <= 0) { + goto err1; + } + + if (!objStr.streamGetDict()->lookup("First", &obj1)->isInt()) { + obj1.free(); + goto err1; + } + first = obj1.getInt(); + obj1.free(); + if (first < 0) { + goto err1; + } + + objs = new Object[nObjects]; + objNums = (int *)gmallocn(nObjects, sizeof(int)); + offsets = (int *)gmallocn(nObjects, sizeof(int)); + + // parse the header: object numbers and offsets + objStr.streamReset(); + obj1.initNull(); + str = new EmbedStream(objStr.getStream(), &obj1, gTrue, first); + parser = new Parser(xref, new Lexer(xref, str), gFalse); + for (i = 0; i < nObjects; ++i) { + parser->getObj(&obj1); + parser->getObj(&obj2); + if (!obj1.isInt() || !obj2.isInt()) { + obj1.free(); + obj2.free(); + delete parser; + gfree(offsets); + goto err1; + } + objNums[i] = obj1.getInt(); + offsets[i] = obj2.getInt(); + obj1.free(); + obj2.free(); + if (objNums[i] < 0 || offsets[i] < 0 || + (i > 0 && offsets[i] < offsets[i-1])) { + delete parser; + gfree(offsets); + goto err1; + } + } + while (str->getChar() != EOF) ; + delete parser; + + // skip to the first object - this shouldn't be necessary because + // the First key is supposed to be equal to offsets[0], but just in + // case... + for (i = first; i < offsets[0]; ++i) { + objStr.getStream()->getChar(); + } + + // parse the objects + for (i = 0; i < nObjects; ++i) { + obj1.initNull(); + if (i == nObjects - 1) { + str = new EmbedStream(objStr.getStream(), &obj1, gFalse, 0); + } else { + str = new EmbedStream(objStr.getStream(), &obj1, gTrue, + offsets[i+1] - offsets[i]); + } + parser = new Parser(xref, new Lexer(xref, str), gFalse); + parser->getObj(&objs[i]); + while (str->getChar() != EOF) ; + delete parser; + } + + gfree(offsets); + + err1: + objStr.free(); + return; +} + +ObjectStream::~ObjectStream() { + int i; + + if (objs) { + for (i = 0; i < nObjects; ++i) { + objs[i].free(); + } + delete[] objs; + } + gfree(objNums); +} + +Object *ObjectStream::getObject(int objIdx, int objNum, Object *obj) { + if (objIdx < 0 || objIdx >= nObjects || objNum != objNums[objIdx]) { + return obj->initNull(); + } + return objs[objIdx].copy(obj); +} + +//------------------------------------------------------------------------ +// XRef +//------------------------------------------------------------------------ + +XRef::XRef(BaseStream *strA) { + Guint pos; + Object obj; + + ok = gTrue; + errCode = errNone; + size = 0; + entries = NULL; + streamEnds = NULL; + streamEndsLen = 0; + objStr = NULL; + + encrypted = gFalse; + permFlags = defPermFlags; + ownerPasswordOk = gFalse; + + // read the trailer + str = strA; + start = str->getStart(); + pos = getStartXref(); + + // if there was a problem with the 'startxref' position, try to + // reconstruct the xref table + if (pos == 0) { + if (!(ok = constructXRef())) { + errCode = errDamaged; + return; + } + + // read the xref table + } else { + while (readXRef(&pos)) ; + + // if there was a problem with the xref table, + // try to reconstruct it + if (!ok) { + if (!(ok = constructXRef())) { + errCode = errDamaged; + return; + } + } + } + + // get the root dictionary (catalog) object + trailerDict.dictLookupNF("Root", &obj); + if (obj.isRef()) { + rootNum = obj.getRefNum(); + rootGen = obj.getRefGen(); + obj.free(); + } else { + obj.free(); + if (!(ok = constructXRef())) { + errCode = errDamaged; + return; + } + } + + // now set the trailer dictionary's xref pointer so we can fetch + // indirect objects from it + trailerDict.getDict()->setXRef(this); +} + +XRef::~XRef() { + gfree(entries); + trailerDict.free(); + if (streamEnds) { + gfree(streamEnds); + } + if (objStr) { + delete objStr; + } +} + +// Read the 'startxref' position. +Guint XRef::getStartXref() { + char buf[xrefSearchSize+1]; + char *p; + int c, n, i; + + // read last xrefSearchSize bytes + str->setPos(xrefSearchSize, -1); + for (n = 0; n < xrefSearchSize; ++n) { + if ((c = str->getChar()) == EOF) { + break; + } + buf[n] = c; + } + buf[n] = '\0'; + + // find startxref + for (i = n - 9; i >= 0; --i) { + if (!strncmp(&buf[i], "startxref", 9)) { + break; + } + } + if (i < 0) { + return 0; + } + for (p = &buf[i+9]; isspace(*p); ++p) ; + lastXRefPos = strToUnsigned(p); + + return lastXRefPos; +} + +// Read one xref table section. Also reads the associated trailer +// dictionary, and returns the prev pointer (if any). +GBool XRef::readXRef(Guint *pos) { + Parser *parser; + Object obj; + GBool more; + + // start up a parser, parse one token + obj.initNull(); + parser = new Parser(NULL, + new Lexer(NULL, + str->makeSubStream(start + *pos, gFalse, 0, &obj)), + gTrue); + parser->getObj(&obj); + + // parse an old-style xref table + if (obj.isCmd("xref")) { + obj.free(); + more = readXRefTable(parser, pos); + + // parse an xref stream + } else if (obj.isInt()) { + obj.free(); + if (!parser->getObj(&obj)->isInt()) { + goto err1; + } + obj.free(); + if (!parser->getObj(&obj)->isCmd("obj")) { + goto err1; + } + obj.free(); + if (!parser->getObj(&obj)->isStream()) { + goto err1; + } + more = readXRefStream(obj.getStream(), pos); + obj.free(); + + } else { + goto err1; + } + + delete parser; + return more; + + err1: + obj.free(); + delete parser; + ok = gFalse; + return gFalse; +} + +GBool XRef::readXRefTable(Parser *parser, Guint *pos) { + XRefEntry entry; + GBool more; + Object obj, obj2; + Guint pos2; + int first, n, newSize, i; + + while (1) { + parser->getObj(&obj); + if (obj.isCmd("trailer")) { + obj.free(); + break; + } + if (!obj.isInt()) { + goto err1; + } + first = obj.getInt(); + obj.free(); + if (!parser->getObj(&obj)->isInt()) { + goto err1; + } + n = obj.getInt(); + obj.free(); + if (first < 0 || n < 0 || first + n < 0) { + goto err1; + } + if (first + n > size) { + for (newSize = size ? 2 * size : 1024; + first + n > newSize && newSize > 0; + newSize <<= 1) ; + if (newSize < 0) { + goto err1; + } + entries = (XRefEntry *)greallocn(entries, newSize, sizeof(XRefEntry)); + for (i = size; i < newSize; ++i) { + entries[i].offset = 0xffffffff; + entries[i].type = xrefEntryFree; + } + size = newSize; + } + for (i = first; i < first + n; ++i) { + if (!parser->getObj(&obj)->isInt()) { + goto err1; + } + entry.offset = (Guint)obj.getInt(); + obj.free(); + if (!parser->getObj(&obj)->isInt()) { + goto err1; + } + entry.gen = obj.getInt(); + obj.free(); + parser->getObj(&obj); + if (obj.isCmd("n")) { + entry.type = xrefEntryUncompressed; + } else if (obj.isCmd("f")) { + entry.type = xrefEntryFree; + } else { + goto err1; + } + obj.free(); + if (entries[i].offset == 0xffffffff) { + entries[i] = entry; + // PDF files of patents from the IBM Intellectual Property + // Network have a bug: the xref table claims to start at 1 + // instead of 0. + if (i == 1 && first == 1 && + entries[1].offset == 0 && entries[1].gen == 65535 && + entries[1].type == xrefEntryFree) { + i = first = 0; + entries[0] = entries[1]; + entries[1].offset = 0xffffffff; + } + } + } + } + + // read the trailer dictionary + if (!parser->getObj(&obj)->isDict()) { + goto err1; + } + + // get the 'Prev' pointer + obj.getDict()->lookupNF("Prev", &obj2); + if (obj2.isInt()) { + *pos = (Guint)obj2.getInt(); + more = gTrue; + } else if (obj2.isRef()) { + // certain buggy PDF generators generate "/Prev NNN 0 R" instead + // of "/Prev NNN" + *pos = (Guint)obj2.getRefNum(); + more = gTrue; + } else { + more = gFalse; + } + obj2.free(); + + // save the first trailer dictionary + if (trailerDict.isNone()) { + obj.copy(&trailerDict); + } + + // check for an 'XRefStm' key + if (obj.getDict()->lookup("XRefStm", &obj2)->isInt()) { + pos2 = (Guint)obj2.getInt(); + readXRef(&pos2); + if (!ok) { + obj2.free(); + goto err1; + } + } + obj2.free(); + + obj.free(); + return more; + + err1: + obj.free(); + ok = gFalse; + return gFalse; +} + +GBool XRef::readXRefStream(Stream *xrefStr, Guint *pos) { + Dict *dict; + int w[3]; + GBool more; + Object obj, obj2, idx; + int newSize, first, n, i; + + dict = xrefStr->getDict(); + + if (!dict->lookupNF("Size", &obj)->isInt()) { + goto err1; + } + newSize = obj.getInt(); + obj.free(); + if (newSize < 0) { + goto err1; + } + if (newSize > size) { + entries = (XRefEntry *)greallocn(entries, newSize, sizeof(XRefEntry)); + for (i = size; i < newSize; ++i) { + entries[i].offset = 0xffffffff; + entries[i].type = xrefEntryFree; + } + size = newSize; + } + + if (!dict->lookupNF("W", &obj)->isArray() || + obj.arrayGetLength() < 3) { + goto err1; + } + for (i = 0; i < 3; ++i) { + if (!obj.arrayGet(i, &obj2)->isInt()) { + obj2.free(); + goto err1; + } + w[i] = obj2.getInt(); + obj2.free(); + if (w[i] < 0 || w[i] > 4) { + goto err1; + } + } + obj.free(); + + xrefStr->reset(); + dict->lookupNF("Index", &idx); + if (idx.isArray()) { + for (i = 0; i+1 < idx.arrayGetLength(); i += 2) { + if (!idx.arrayGet(i, &obj)->isInt()) { + idx.free(); + goto err1; + } + first = obj.getInt(); + obj.free(); + if (!idx.arrayGet(i+1, &obj)->isInt()) { + idx.free(); + goto err1; + } + n = obj.getInt(); + obj.free(); + if (first < 0 || n < 0 || + !readXRefStreamSection(xrefStr, w, first, n)) { + idx.free(); + goto err0; + } + } + } else { + if (!readXRefStreamSection(xrefStr, w, 0, newSize)) { + idx.free(); + goto err0; + } + } + idx.free(); + + dict->lookupNF("Prev", &obj); + if (obj.isInt()) { + *pos = (Guint)obj.getInt(); + more = gTrue; + } else { + more = gFalse; + } + obj.free(); + if (trailerDict.isNone()) { + trailerDict.initDict(dict); + } + + return more; + + err1: + obj.free(); + err0: + ok = gFalse; + return gFalse; +} + +GBool XRef::readXRefStreamSection(Stream *xrefStr, int *w, int first, int n) { + Guint offset; + int type, gen, c, newSize, i, j; + + if (first + n < 0) { + return gFalse; + } + if (first + n > size) { + for (newSize = size ? 2 * size : 1024; + first + n > newSize && newSize > 0; + newSize <<= 1) ; + if (newSize < 0) { + return gFalse; + } + entries = (XRefEntry *)greallocn(entries, newSize, sizeof(XRefEntry)); + for (i = size; i < newSize; ++i) { + entries[i].offset = 0xffffffff; + entries[i].type = xrefEntryFree; + } + size = newSize; + } + for (i = first; i < first + n; ++i) { + if (w[0] == 0) { + type = 1; + } else { + for (type = 0, j = 0; j < w[0]; ++j) { + if ((c = xrefStr->getChar()) == EOF) { + return gFalse; + } + type = (type << 8) + c; + } + } + for (offset = 0, j = 0; j < w[1]; ++j) { + if ((c = xrefStr->getChar()) == EOF) { + return gFalse; + } + offset = (offset << 8) + c; + } + for (gen = 0, j = 0; j < w[2]; ++j) { + if ((c = xrefStr->getChar()) == EOF) { + return gFalse; + } + gen = (gen << 8) + c; + } + if (entries[i].offset == 0xffffffff) { + switch (type) { + case 0: + entries[i].offset = offset; + entries[i].gen = gen; + entries[i].type = xrefEntryFree; + break; + case 1: + entries[i].offset = offset; + entries[i].gen = gen; + entries[i].type = xrefEntryUncompressed; + break; + case 2: + entries[i].offset = offset; + entries[i].gen = gen; + entries[i].type = xrefEntryCompressed; + break; + default: + return gFalse; + } + } + } + + return gTrue; +} + +// Attempt to construct an xref table for a damaged file. +GBool XRef::constructXRef() { + Parser *parser; + Object newTrailerDict, obj; + char buf[256]; + Guint pos; + int num, gen; + int newSize; + int streamEndsSize; + char *p; + int i; + GBool gotRoot; + + gfree(entries); + size = 0; + entries = NULL; + + error(-1, "PDF file is damaged - attempting to reconstruct xref table..."); + gotRoot = gFalse; + streamEndsLen = streamEndsSize = 0; + + str->reset(); + while (1) { + pos = str->getPos(); + if (!str->getLine(buf, 256)) { + break; + } + p = buf; + + // skip whitespace + while (*p && Lexer::isSpace(*p & 0xff)) ++p; + + // got trailer dictionary + if (!strncmp(p, "trailer", 7)) { + obj.initNull(); + parser = new Parser(NULL, + new Lexer(NULL, + str->makeSubStream(pos + 7, gFalse, 0, &obj)), + gFalse); + parser->getObj(&newTrailerDict); + if (newTrailerDict.isDict()) { + newTrailerDict.dictLookupNF("Root", &obj); + if (obj.isRef()) { + rootNum = obj.getRefNum(); + rootGen = obj.getRefGen(); + if (!trailerDict.isNone()) { + trailerDict.free(); + } + newTrailerDict.copy(&trailerDict); + gotRoot = gTrue; + } + obj.free(); + } + newTrailerDict.free(); + delete parser; + + // look for object + } else if (isdigit(*p)) { + num = atoi(p); + if (num > 0) { + do { + ++p; + } while (*p && isdigit(*p)); + if (isspace(*p)) { + do { + ++p; + } while (*p && isspace(*p)); + if (isdigit(*p)) { + gen = atoi(p); + do { + ++p; + } while (*p && isdigit(*p)); + if (isspace(*p)) { + do { + ++p; + } while (*p && isspace(*p)); + if (!strncmp(p, "obj", 3)) { + if (num >= size) { + newSize = (num + 1 + 255) & ~255; + if (newSize < 0) { + error(-1, "Bad object number"); + return gFalse; + } + entries = (XRefEntry *) + greallocn(entries, newSize, sizeof(XRefEntry)); + for (i = size; i < newSize; ++i) { + entries[i].offset = 0xffffffff; + entries[i].type = xrefEntryFree; + } + size = newSize; + } + if (entries[num].type == xrefEntryFree || + gen >= entries[num].gen) { + entries[num].offset = pos - start; + entries[num].gen = gen; + entries[num].type = xrefEntryUncompressed; + } + } + } + } + } + } + + } else if (!strncmp(p, "endstream", 9)) { + if (streamEndsLen == streamEndsSize) { + streamEndsSize += 64; + streamEnds = (Guint *)greallocn(streamEnds, + streamEndsSize, sizeof(int)); + } + streamEnds[streamEndsLen++] = pos; + } + } + + if (gotRoot) + return gTrue; + + error(-1, "Couldn't find trailer dictionary"); + return gFalse; +} + +void XRef::setEncryption(int permFlagsA, GBool ownerPasswordOkA, + Guchar *fileKeyA, int keyLengthA, int encVersionA, + CryptAlgorithm encAlgorithmA) { + int i; + + encrypted = gTrue; + permFlags = permFlagsA; + ownerPasswordOk = ownerPasswordOkA; + if (keyLengthA <= 16) { + keyLength = keyLengthA; + } else { + keyLength = 16; + } + for (i = 0; i < keyLength; ++i) { + fileKey[i] = fileKeyA[i]; + } + encVersion = encVersionA; + encAlgorithm = encAlgorithmA; +} + +GBool XRef::okToPrint(GBool ignoreOwnerPW) { + return (!ignoreOwnerPW && ownerPasswordOk) || (permFlags & permPrint); +} + +GBool XRef::okToChange(GBool ignoreOwnerPW) { + return (!ignoreOwnerPW && ownerPasswordOk) || (permFlags & permChange); +} + +GBool XRef::okToCopy(GBool ignoreOwnerPW) { + return (!ignoreOwnerPW && ownerPasswordOk) || (permFlags & permCopy); +} + +GBool XRef::okToAddNotes(GBool ignoreOwnerPW) { + return (!ignoreOwnerPW && ownerPasswordOk) || (permFlags & permNotes); +} + +Object *XRef::fetch(int num, int gen, Object *obj) { + XRefEntry *e; + Parser *parser; + Object obj1, obj2, obj3; + + // check for bogus ref - this can happen in corrupted PDF files + if (num < 0 || num >= size) { + goto err; + } + + e = &entries[num]; + switch (e->type) { + + case xrefEntryUncompressed: + if (e->gen != gen) { + goto err; + } + obj1.initNull(); + parser = new Parser(this, + new Lexer(this, + str->makeSubStream(start + e->offset, gFalse, 0, &obj1)), + gTrue); + parser->getObj(&obj1); + parser->getObj(&obj2); + parser->getObj(&obj3); + if (!obj1.isInt() || obj1.getInt() != num || + !obj2.isInt() || obj2.getInt() != gen || + !obj3.isCmd("obj")) { + obj1.free(); + obj2.free(); + obj3.free(); + delete parser; + goto err; + } + parser->getObj(obj, encrypted ? fileKey : (Guchar *)NULL, + encAlgorithm, keyLength, num, gen); + obj1.free(); + obj2.free(); + obj3.free(); + delete parser; + break; + + case xrefEntryCompressed: + if (gen != 0) { + goto err; + } + if (!objStr || objStr->getObjStrNum() != (int)e->offset) { + if (objStr) { + delete objStr; + } + objStr = new ObjectStream(this, e->offset); + } + objStr->getObject(e->gen, num, obj); + break; + + default: + goto err; + } + + return obj; + + err: + return obj->initNull(); +} + +Object *XRef::getDocInfo(Object *obj) { + return trailerDict.dictLookup("Info", obj); +} + +// Added for the pdftex project. +Object *XRef::getDocInfoNF(Object *obj) { + return trailerDict.dictLookupNF("Info", obj); +} + +GBool XRef::getStreamEnd(Guint streamStart, Guint *streamEnd) { + int a, b, m; + + if (streamEndsLen == 0 || + streamStart > streamEnds[streamEndsLen - 1]) { + return gFalse; + } + + a = -1; + b = streamEndsLen - 1; + // invariant: streamEnds[a] < streamStart <= streamEnds[b] + while (b - a > 1) { + m = (a + b) / 2; + if (streamStart <= streamEnds[m]) { + b = m; + } else { + a = m; + } + } + *streamEnd = streamEnds[b]; + return gTrue; +} + +int XRef::getNumEntry(Guint offset) const +{ + if (size > 0) + { + int res = 0; + Guint resOffset = entries[0].offset; + XRefEntry e; + for (int i = 1; i < size; ++i) + { + e = entries[i]; + if (e.offset < offset && e.offset >= resOffset) + { + res = i; + resOffset = e.offset; + } + } + return res; + } + else return -1; +} + +Guint XRef::strToUnsigned(char *s) { + Guint x; + char *p; + int i; + + x = 0; + for (p = s, i = 0; *p && isdigit(*p) && i < 10; ++p, ++i) { + x = 10 * x + (*p - '0'); + } + return x; +} diff --git a/kpdf/xpdf/xpdf/XRef.h b/kpdf/xpdf/xpdf/XRef.h new file mode 100644 index 00000000..68a0e9c5 --- /dev/null +++ b/kpdf/xpdf/xpdf/XRef.h @@ -0,0 +1,136 @@ +//======================================================================== +// +// XRef.h +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef XREF_H +#define XREF_H + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma interface +#endif + +#include "gtypes.h" +#include "Object.h" + +class Dict; +class Stream; +class Parser; +class ObjectStream; + +//------------------------------------------------------------------------ +// XRef +//------------------------------------------------------------------------ + +enum XRefEntryType { + xrefEntryFree, + xrefEntryUncompressed, + xrefEntryCompressed +}; + +struct XRefEntry { + Guint offset; + int gen; + XRefEntryType type; +}; + +class XRef { +public: + + // Constructor. Read xref table from stream. + XRef(BaseStream *strA); + + // Destructor. + ~XRef(); + + // Is xref table valid? + GBool isOk() { return ok; } + + // Get the error code (if isOk() returns false). + int getErrorCode() { return errCode; } + + // Set the encryption parameters. + void setEncryption(int permFlagsA, GBool ownerPasswordOkA, + Guchar *fileKeyA, int keyLengthA, int encVersionA, + CryptAlgorithm encAlgorithmA); + + // Is the file encrypted? + GBool isEncrypted() { return encrypted; } + + // Check various permissions. + GBool okToPrint(GBool ignoreOwnerPW = gFalse); + GBool okToChange(GBool ignoreOwnerPW = gFalse); + GBool okToCopy(GBool ignoreOwnerPW = gFalse); + GBool okToAddNotes(GBool ignoreOwnerPW = gFalse); + + // Get catalog object. + Object *getCatalog(Object *obj) { return fetch(rootNum, rootGen, obj); } + + // Fetch an indirect reference. + Object *fetch(int num, int gen, Object *obj); + + // Return the document's Info dictionary (if any). + Object *getDocInfo(Object *obj); + Object *getDocInfoNF(Object *obj); + + // Return the number of objects in the xref table. + int getNumObjects() { return size; } + + // Return the offset of the last xref table. + Guint getLastXRefPos() { return lastXRefPos; } + + // Return the catalog object reference. + int getRootNum() { return rootNum; } + int getRootGen() { return rootGen; } + + // Get end position for a stream in a damaged file. + // Returns false if unknown or file is not damaged. + GBool getStreamEnd(Guint streamStart, Guint *streamEnd); + + // Retuns the entry that belongs to the offset + int getNumEntry(Guint offset) const; + + // Direct access. + int getSize() { return size; } + XRefEntry *getEntry(int i) { return &entries[i]; } + Object *getTrailerDict() { return &trailerDict; } + +private: + + BaseStream *str; // input stream + Guint start; // offset in file (to allow for garbage + // at beginning of file) + XRefEntry *entries; // xref entries + int size; // size of array + int rootNum, rootGen; // catalog dict + GBool ok; // true if xref table is valid + int errCode; // error code (if is false) + Object trailerDict; // trailer dictionary + Guint lastXRefPos; // offset of last xref table + Guint *streamEnds; // 'endstream' positions - only used in + // damaged files + int streamEndsLen; // number of valid entries in streamEnds + ObjectStream *objStr; // cached object stream + GBool encrypted; // true if file is encrypted + int permFlags; // permission bits + GBool ownerPasswordOk; // true if owner password is correct + Guchar fileKey[16]; // file decryption key + int keyLength; // length of key, in bytes + int encVersion; // encryption version + CryptAlgorithm encAlgorithm; // encryption algorithm + + Guint getStartXref(); + GBool readXRef(Guint *pos); + GBool readXRefTable(Parser *parser, Guint *pos); + GBool readXRefStreamSection(Stream *xrefStr, int *w, int first, int n); + GBool readXRefStream(Stream *xrefStr, Guint *pos); + GBool constructXRef(); + Guint strToUnsigned(char *s); +}; + +#endif diff --git a/kpdf/xpdf/xpdf/xpdf_config.h b/kpdf/xpdf/xpdf/xpdf_config.h new file mode 100644 index 00000000..81d4dd07 --- /dev/null +++ b/kpdf/xpdf/xpdf/xpdf_config.h @@ -0,0 +1,112 @@ +//======================================================================== +// +// config.h +// +// Copyright 1996-2007 Glyph & Cog, LLC +// +//======================================================================== + +#ifndef CONFIG_H +#define CONFIG_H + +//------------------------------------------------------------------------ +// version +//------------------------------------------------------------------------ + +// xpdf version +#define xpdfVersion "3.02" +#define xpdfVersionNum 3.02 +#define xpdfMajorVersion 3 +#define xpdfMinorVersion 2 +#define xpdfUpdateVersion 0 +#define xpdfMajorVersionStr "3" +#define xpdfMinorVersionStr "2" +#define xpdfUpdateVersionStr "0" + +// supported PDF version +#define supportedPDFVersionStr "1.7" +#define supportedPDFVersionNum 1.7 + +// copyright notice +#define xpdfCopyright "Copyright 1996-2007 Glyph & Cog, LLC" + +// Windows resource file stuff +#define winxpdfVersion "WinXpdf 3.02" +#define xpdfCopyrightAmp "Copyright 1996-2007 Glyph && Cog, LLC" + +//------------------------------------------------------------------------ +// paper size +//------------------------------------------------------------------------ + +// default paper size (in points) for PostScript output +#ifdef A4_PAPER +#define defPaperWidth 595 // ISO A4 (210x297 mm) +#define defPaperHeight 842 +#else +#define defPaperWidth 612 // American letter (8.5x11") +#define defPaperHeight 792 +#endif + +//------------------------------------------------------------------------ +// config file (xpdfrc) path +//------------------------------------------------------------------------ + +// user config file name, relative to the user's home directory +#if defined(VMS) || (defined(WIN32) && !defined(__CYGWIN32__)) +#define xpdfUserConfigFile "xpdfrc" +#else +#define xpdfUserConfigFile ".xpdfrc" +#endif + +// system config file name (set via the configure script) +#ifdef SYSTEM_XPDFRC +#define xpdfSysConfigFile SYSTEM_XPDFRC +#else +// under Windows, we get the directory with the executable and then +// append this file name +#define xpdfSysConfigFile "xpdfrc" +#endif + +//------------------------------------------------------------------------ +// X-related constants +//------------------------------------------------------------------------ + +// default maximum size of color cube to allocate +#define defaultRGBCube 5 + +// number of fonts (combined t1lib, FreeType, X server) to cache +#define xOutFontCacheSize 64 + +// number of Type 3 fonts to cache +#define xOutT3FontCacheSize 8 + +//------------------------------------------------------------------------ +// popen +//------------------------------------------------------------------------ + +#if defined(_MSC_VER) || defined(__BORLANDC__) +#define popen _popen +#define pclose _pclose +#endif + +#if defined(VMS) || defined(VMCMS) || defined(DOS) || defined(OS2) || defined(__EMX__) || defined(WIN32) || defined(__DJGPP__) || defined(MACOS) +#define POPEN_READ_MODE "rb" +#else +#define POPEN_READ_MODE "r" +#endif + +//------------------------------------------------------------------------ +// Win32 stuff +//------------------------------------------------------------------------ + +#ifdef CDECL +#undef CDECL +#endif + +#if defined(_MSC_VER) || defined(__BORLANDC__) +#define CDECL __cdecl +#else +#define CDECL +#endif + +#endif -- cgit v1.2.3