// dviRenderer_prescan.cpp // // Part of KDVI - A DVI previewer for the KDE desktop environemt // // (C) 2003--2004 Stefan Kebekus // Distributed under the GPL #include #include "dviRenderer.h" #include "dvi.h" #include "dviFile.h" #include "fontpool.h" #include "kdvi_multipage.h" #include "performanceMeasurement.h" #include "prebookmark.h" #include "psgs.h" #include "TeXFont.h" #include "xdvi.h" #include #include #include #include #include #include #include #include #include #include #include #include #include extern TQPainter foreGroundPaint; extern void parse_special_argument(const TQString& strg, const char* argument_name, int* variable); //#define DEBUG_PRESCAN void dviRenderer::prescan_embedPS(char *cp, TQ_UINT8 *beginningOfSpecialCommand) { #ifdef DEBUG_PRESCAN kdDebug(4300) << "dviRenderer::prescan_embedPS( cp = " << cp << " ) " << endl; #endif // Encapsulated Postscript File if (strncasecmp(cp, "PSfile=", 7) != 0) return; TQString command(cp+7); TQString include_command = command.simplifyWhiteSpace(); // The line is supposed to start with "..ile=", and then comes the // filename. Figure out what the filename is and stow it away. Of // course, this does not work if the filename contains spaces // (already the simplifyWhiteSpace() above is wrong). If you have // files like this, go away. TQString EPSfilename = include_command; EPSfilename.truncate(EPSfilename.find(' ')); // Strip enclosing quotation marks which are included by some LaTeX // macro packages (but not by others). This probably means that // graphic files are no longer found if the filename really does // contain quotes, but we don't really care that much. if ((EPSfilename.at(0) == '\"') && (EPSfilename.at(EPSfilename.length()-1) == '\"')) EPSfilename = EPSfilename.mid(1,EPSfilename.length()-2); // If the file is neither a PostScript not a PDF file, we exit here. // The graphic file is later read when the page is rendered. KMimeType::Ptr const mime_type = KMimeType::findByFileContent(EPSfilename); TQString const & mime_type_name = mime_type->name(); bool const is_ps_file = (mime_type_name == "application/postscript" || mime_type_name == "image/x-eps"); bool const is_pdf_file = (!is_ps_file && mime_type_name == "application/pdf"); if (!(is_ps_file || is_pdf_file)) return; TQString originalFName = EPSfilename; embedPS_progress->setLabel(i18n("Embedding %1").arg(EPSfilename)); tqApp->processEvents(); // Now locate the Gfx file on the hard disk... EPSfilename = ghostscript_interface::locateEPSfile(EPSfilename, baseURL); // If the EPSfilename really points to a PDF file, convert that file now. if (is_pdf_file) EPSfilename = dviFile->convertPDFtoPS(EPSfilename); if (!TQFile::exists(EPSfilename)) { // Find the number of the page TQ_UINT32 currentOffset = beginningOfSpecialCommand - dviFile->dvi_Data(); TQ_UINT16 page; for(page=0; page < dviFile->total_pages; page++) if ((dviFile->page_offset[page] <= currentOffset) && (currentOffset <= dviFile->page_offset[page+1])) break; errorMsg += i18n("Page %1: The PostScript file %2 could not be found.
").arg(page+1).arg(originalFName); embedPS_progress->progressBar()->advance(1); tqApp->processEvents(); return; } // Now parse the arguments. int llx = 0; int lly = 0; int urx = 0; int ury = 0; int rwi = 0; int rhi = 0; int angle = 0; // just to avoid ambiguities; the filename could contain keywords include_command = include_command.mid(include_command.find(' ')); parse_special_argument(include_command, "llx=", &llx); parse_special_argument(include_command, "lly=", &lly); parse_special_argument(include_command, "urx=", &urx); parse_special_argument(include_command, "ury=", &ury); parse_special_argument(include_command, "rwi=", &rwi); parse_special_argument(include_command, "rhi=", &rhi); parse_special_argument(include_command, "angle=", &angle); int clip=include_command.find(" clip"); // -1 if clip keyword is not present, >= 0 otherwise // Generate the PostScript commands to be included TQString PS = TQString("ps: @beginspecial %1 @llx %2 @lly %3 @urx %4 @ury").arg(llx).arg(lly).arg(urx).arg(ury); if (rwi != 0) PS.append( TQString(" %1 @rwi").arg(rwi) ); if (rhi != 0) PS.append( TQString(" %1 @rhi").arg(rhi) ); if (angle != 0) PS.append( TQString(" %1 @angle").arg(angle) ); if (clip != -1) PS.append(" @clip"); PS.append( " @setspecial\n" ); TQFile file( EPSfilename ); if ( file.open( IO_ReadOnly ) ) { TQTextStream stream( &file ); while ( !stream.atEnd() ) { PS += stream.readLine().section( '%', 0, 0); PS += "\n"; } file.close(); } PS.append( "@endspecial" ); PS = PS.simplifyWhiteSpace(); _isModified = true; TQ_UINT32 lengthOfOldSpecial = command_pointer - beginningOfSpecialCommand; TQ_UINT32 lengthOfNewSpecial = PS.length()+5; TQMemArray newDVI(dviFile->size_of_file + lengthOfNewSpecial-lengthOfOldSpecial); TQ_UINT8 *commandPtrSav = command_pointer; TQ_UINT8 *endPtrSav = end_pointer; end_pointer = newDVI.data() + dviFile->size_of_file + lengthOfNewSpecial-lengthOfOldSpecial; memcpy(newDVI.data(), dviFile->dvi_Data(), beginningOfSpecialCommand-dviFile->dvi_Data()); command_pointer = newDVI.data()+(beginningOfSpecialCommand-dviFile->dvi_Data()); command_pointer[0] = XXX4; command_pointer++; writeUINT32(PS.length()); memcpy(newDVI.data()+(beginningOfSpecialCommand-dviFile->dvi_Data())+5, PS.latin1(), PS.length() ); memcpy(newDVI.data()+(beginningOfSpecialCommand-dviFile->dvi_Data())+lengthOfNewSpecial, beginningOfSpecialCommand+lengthOfOldSpecial, dviFile->size_of_file-(beginningOfSpecialCommand-dviFile->dvi_Data())-lengthOfOldSpecial ); // Adjust page pointers in the DVI file dviFile->size_of_file = dviFile->size_of_file + lengthOfNewSpecial-lengthOfOldSpecial; end_pointer = newDVI.data() + dviFile->size_of_file; TQ_UINT32 currentOffset = beginningOfSpecialCommand-dviFile->dvi_Data(); for(TQ_UINT16 i=0; i < dviFile->total_pages; i++) { if (dviFile->page_offset[i] > currentOffset) { dviFile->page_offset[i] = dviFile->page_offset[i] + lengthOfNewSpecial-lengthOfOldSpecial; command_pointer = dviFile->page_offset[i] + newDVI.data() + 4*10 + 1; TQ_UINT32 a = readUINT32(); if (a > currentOffset) { a = a + lengthOfNewSpecial-lengthOfOldSpecial; command_pointer = dviFile->page_offset[i] + newDVI.data() + 4*10 + 1; writeUINT32(a); } } } dviFile->beginning_of_postamble = dviFile->beginning_of_postamble + lengthOfNewSpecial - lengthOfOldSpecial; dviFile->page_offset[dviFile->total_pages] = dviFile->beginning_of_postamble; command_pointer = newDVI.data() + dviFile->beginning_of_postamble + 1; TQ_UINT32 a = readUINT32(); if (a > currentOffset) { a = a + lengthOfNewSpecial - lengthOfOldSpecial; command_pointer = newDVI.data() + dviFile->beginning_of_postamble + 1; writeUINT32(a); } command_pointer = newDVI.data() + dviFile->size_of_file - 1; while((*command_pointer == TRAILER) && (command_pointer > newDVI.data())) command_pointer--; command_pointer -= 4; writeUINT32(dviFile->beginning_of_postamble); command_pointer -= 4; command_pointer = commandPtrSav; end_pointer = endPtrSav; // Modify all pointers to point to the newly allocated memory command_pointer = newDVI.data() + (command_pointer - dviFile->dvi_Data()) + lengthOfNewSpecial-lengthOfOldSpecial; end_pointer = newDVI.data() + (end_pointer - dviFile->dvi_Data()) + lengthOfNewSpecial-lengthOfOldSpecial; dviFile->setNewData(newDVI); embedPS_progress->progressBar()->advance(1); tqApp->processEvents(); return; } void dviRenderer::prescan_removePageSizeInfo(char *cp, TQ_UINT8 *beginningOfSpecialCommand) { #ifdef DEBUG_PRESCAN kdDebug(4300) << "dviRenderer::prescan_embedPS( cp = " << cp << " ) " << endl; #endif // Encapsulated Postscript File if (strncasecmp(cp, "papersize=", 10) != 0) return; for (TQ_UINT8 *ptr=beginningOfSpecialCommand; ptrtotal_pages; page++) PS_interface->setBackgroundColor(page, col); return; } void dviRenderer::prescan_ParseHTMLAnchorSpecial(const TQString& _cp) { TQString cp = _cp; cp.truncate(cp.find('"')); Length l; l.setLength_in_inch(currinf.data.dvi_v/(resolutionInDPI*shrinkfactor)); anchorList[cp] = Anchor(current_page+1, l); } void dviRenderer::prescan_ParsePSHeaderSpecial(const TQString& cp) { #ifdef DEBUG_PRESCAN kdDebug(4300) << "PostScript-special, header " << cp.latin1() << endl; #endif TQString _file = cp; // If the file is not found in the current directory, use kpsewhich // to find it. if (!TQFile::exists(_file)) { // Otherwise, use kpsewhich to find the eps file. KProcIO proc; proc << "kpsewhich" << cp; proc.start(TDEProcess::Block); proc.readln(_file); } if (TQFile::exists(_file)) PS_interface->PostScriptHeaderString->append( TQString(" (%1) run\n").arg(_file) ); } void dviRenderer::prescan_ParsePSBangSpecial(const TQString& cp) { #ifdef DEBUG_PRESCAN kdDebug(4300) << "PostScript-special, literal header " << cp.latin1() << endl; #endif PS_interface->PostScriptHeaderString->append( " @defspecial \n" ); PS_interface->PostScriptHeaderString->append( cp ); PS_interface->PostScriptHeaderString->append( " @fedspecial \n" ); } void dviRenderer::prescan_ParsePSQuoteSpecial(const TQString& cp) { #ifdef DEBUG_PRESCAN kdError(4300) << "PostScript-special, literal PostScript " << cp.latin1() << endl; #endif double PS_H = (currinf.data.dvi_h*300.0)/(65536*1200)-300; double PS_V = (currinf.data.dvi_v*300.0)/1200 - 300; PostScriptOutPutString->append( TQString(" %1 %2 moveto\n").arg(PS_H).arg(PS_V) ); PostScriptOutPutString->append( " @beginspecial @setspecial \n" ); PostScriptOutPutString->append( cp ); PostScriptOutPutString->append( " @endspecial \n" ); } void dviRenderer::prescan_ParsePSSpecial(const TQString& cp) { #ifdef DEBUG_PRESCAN kdDebug(4300) << "PostScript-special, direct PostScript " << cp << endl; #endif // Unfortunately, in some TeX distribution the hyperref package uses // the dvips driver by default, rather than the hypertex driver. As // a result, the DVI files produced are full of PostScript that // specifies links and anchors, and KDVI would call the ghostscript // interpreter for every page which makes it really slow. This is a // major nuisance, so that we try to filter and interpret the // hypertex generated PostScript here. if (cp.startsWith("ps:SDict begin")) { // We suspect this may be hyperref generated nonsense. Let's check // for some known code that hyperref generates. if (cp == "ps:SDict begin H.S end") return; // start of hyperref rectangle if (cp == "ps:SDict begin H.R end") return; // end of hyperref rectangle if (cp.endsWith("H.A end")) return; // end of hyperref anchor if (cp.endsWith("H.L end")) return; // end of hyperref link if (cp.startsWith("ps:SDict begin /product where{pop product(Distiller)")) return; // hyperref tries to work around Distiller bug if (cp.startsWith("ps:SDict begin [") && cp.endsWith(" pdfmark end")) { // hyperref definition of link/anchor/bookmark/etc if (cp.contains("/DEST")) { // The PostScript code defines an anchor TQString anchorName = cp.section('(', 1, 1).section(')', 0, 0); Length l; l.setLength_in_inch(currinf.data.dvi_v/(resolutionInDPI*shrinkfactor)); anchorList[anchorName] = Anchor(current_page+1, l); } // The PostScript code defines a bookmark if (cp.contains("/Dest") && cp.contains("/Title")) prebookmarks.append(PreBookmark(PDFencodingToTQString(cp.section('(', 2, 2).section(')', 0, 0)), cp.section('(', 1, 1).section(')', 0, 0), cp.section('-', 1, 1).section(' ', 0, 0).toUInt() )); return; } } double PS_H = (currinf.data.dvi_h*300.0)/(65536*1200)-300; double PS_V = (currinf.data.dvi_v*300.0)/1200 - 300; if (cp.find("ps::[begin]", 0, false) == 0) { PostScriptOutPutString->append( TQString(" %1 %2 moveto\n").arg(PS_H).arg(PS_V) ); PostScriptOutPutString->append( TQString(" %1\n").arg(cp.mid(11)) ); } else { if (cp.find("ps::[end]", 0, false) == 0) { PostScriptOutPutString->append( TQString(" %1\n").arg(cp.mid(9)) ); } else { if (cp.find("ps::", 0, false) == 0) { PostScriptOutPutString->append( TQString(" %1\n").arg(cp.mid(4)) ); } else { PostScriptOutPutString->append( TQString(" %1 %2 moveto\n").arg(PS_H).arg(PS_V) ); PostScriptOutPutString->append( TQString(" %1\n").arg(cp.mid(3)) ); } } } } void dviRenderer::prescan_ParsePSFileSpecial(const TQString& cp) { #ifdef DEBUG_PRESCAN kdDebug(4300) << "epsf-special: psfile=" << cp <numberOfExternalNONPSFiles++; return; } // Now assume that the graphics file *is* a PostScript file dviFile->numberOfExternalPSFiles++; // Now locate the Gfx file on the hard disk... EPSfilename = ghostscript_interface::locateEPSfile(EPSfilename, baseURL); // If the EPSfilename really points to a PDF file, convert that file now. if (ending == "pdf") EPSfilename = dviFile->convertPDFtoPS(EPSfilename); // Now parse the arguments. int llx = 0; int lly = 0; int urx = 0; int ury = 0; int rwi = 0; int rhi = 0; int angle = 0; // just to avoid ambiguities; the filename could contain keywords include_command = include_command.mid(include_command.find(' ')); parse_special_argument(include_command, "llx=", &llx); parse_special_argument(include_command, "lly=", &lly); parse_special_argument(include_command, "urx=", &urx); parse_special_argument(include_command, "ury=", &ury); parse_special_argument(include_command, "rwi=", &rwi); parse_special_argument(include_command, "rhi=", &rhi); parse_special_argument(include_command, "angle=", &angle); int clip=include_command.find(" clip"); // -1 if clip keyword is not present, >= 0 otherwise if (TQFile::exists(EPSfilename)) { double PS_H = (currinf.data.dvi_h*300.0)/(65536*1200)-300; double PS_V = (currinf.data.dvi_v*300.0)/1200 - 300; PostScriptOutPutString->append( TQString(" %1 %2 moveto\n").arg(PS_H).arg(PS_V) ); PostScriptOutPutString->append( "@beginspecial " ); PostScriptOutPutString->append( TQString(" %1 @llx").arg(llx) ); PostScriptOutPutString->append( TQString(" %1 @lly").arg(lly) ); PostScriptOutPutString->append( TQString(" %1 @urx").arg(urx) ); PostScriptOutPutString->append( TQString(" %1 @ury").arg(ury) ); if (rwi != 0) PostScriptOutPutString->append( TQString(" %1 @rwi").arg(rwi) ); if (rhi != 0) PostScriptOutPutString->append( TQString(" %1 @rhi").arg(rhi) ); if (angle != 0) PostScriptOutPutString->append( TQString(" %1 @angle").arg(angle) ); if (clip != -1) PostScriptOutPutString->append(" @clip"); PostScriptOutPutString->append( " @setspecial \n" ); PostScriptOutPutString->append( TQString(" (%1) run\n").arg(EPSfilename) ); PostScriptOutPutString->append( "@endspecial \n" ); } return; } void dviRenderer::prescan_ParseSourceSpecial(const TQString& cp) { // if no rendering takes place, i.e. when the DVI file is first // loaded, generate a DVI_SourceFileAnchor. These anchors are used // in forward search, i.e. to relate references line // "src:123file.tex" to positions in the DVI file // extract the file name and the numeral part from the string TQ_UINT32 j; for(j=0;jfilename); TQString sourceFileName = TQFileInfo(fi1.dir(), cp.mid(j).stripWhiteSpace()).absFilePath(); Length l; l.setLength_in_inch(currinf.data.dvi_v/(resolutionInDPI*shrinkfactor)); DVI_SourceFileAnchor sfa(sourceFileName, sourceLineNumber, current_page+1, l); sourceHyperLinkAnchors.push_back(sfa); } void dviRenderer::prescan_parseSpecials(char *cp, TQ_UINT8 *) { TQString special_command(cp); // Now to those specials which are only interpreted during the // prescan phase, and NOT during rendering. // PaperSize special if (strncasecmp(cp, "papersize", 9) == 0) { prescan_ParsePapersizeSpecial(special_command.mid(9)); return; } // color special for background color if (strncasecmp(cp, "background", 10) == 0) { prescan_ParseBackgroundSpecial(special_command.mid(10)); return; } // HTML anchor special if (strncasecmp(cp, "html:", 9) == 0) { html_anchor_end(); return; } return; } void dviRenderer::prescan_setChar(unsigned int ch) { TeXFontDefinition *fontp = currinf.fontp; if (fontp == NULL) return; if (currinf.set_char_p == &dviRenderer::set_char) { glyph *g = ((TeXFont *)(currinf.fontp->font))->getGlyph(ch, true, globalColor); if (g == NULL) return; currinf.data.dvi_h += (int)(currinf.fontp->scaled_size_in_DVI_units * dviFile->getCmPerDVIunit() * (1200.0 / 2.54)/16.0 * g->dvi_advance_in_units_of_design_size_by_2e20 + 0.5); return; } if (currinf.set_char_p == &dviRenderer::set_vf_char) { macro *m = &currinf.fontp->macrotable[ch]; if (m->pos == NULL) return; currinf.data.dvi_h += (int)(currinf.fontp->scaled_size_in_DVI_units * dviFile->getCmPerDVIunit() * (1200.0 / 2.54)/16.0 * m->dvi_advance_in_units_of_design_size_by_2e20 + 0.5); return; } } void dviRenderer::prescan(parseSpecials specialParser) { #ifdef DEBUG_PRESCAN kdDebug(4300) << "dviRenderer::prescan( ... )" << endl; #endif if (resolutionInDPI == 0.0) setResolution(100); TQ_INT32 RRtmp=0, WWtmp=0, XXtmp=0, YYtmp=0, ZZtmp=0; TQ_UINT8 ch; double fontPixelPerDVIunit = dviFile->getCmPerDVIunit() * 1200.0/2.54; stack.clear(); currinf.fontp = NULL; currinf.set_char_p = &dviRenderer::set_no_char; for (;;) { ch = readUINT8(); if (ch <= (unsigned char) (SETCHAR0 + 127)) { prescan_setChar(ch); continue; } if (FNTNUM0 <= ch && ch <= (unsigned char) (FNTNUM0 + 63)) { currinf.fontp = currinf.fonttable->find(ch - FNTNUM0); if (currinf.fontp == NULL) { errorMsg = i18n("The DVI code referred to font #%1, which was not previously defined.").arg(ch - FNTNUM0); return; } currinf.set_char_p = currinf.fontp->set_char_p; continue; } TQ_INT32 a, b; switch (ch) { case SET1: prescan_setChar(readUINT8()); break; case SETRULE: /* Be careful, dvicopy outputs rules with height = 0x80000000. We don't want any SIGFPE here. */ a = readUINT32(); b = readUINT32(); b = ((long) (b * 65536.0*fontPixelPerDVIunit)); currinf.data.dvi_h += b; break; case PUTRULE: a = readUINT32(); b = readUINT32(); break; case PUT1: case NOP: break; case BOP: command_pointer += 11 * 4; currinf.data.dvi_h = 1200 << 16; // Reminder: DVI-coordinates start at (1",1") from top of page currinf.data.dvi_v = 1200; currinf.data.pxl_v = int(currinf.data.dvi_v/shrinkfactor); currinf.data.w = currinf.data.x = currinf.data.y = currinf.data.z = 0; break; case PUSH: stack.push(currinf.data); break; case POP: if (stack.isEmpty()) return; else currinf.data = stack.pop(); break; case RIGHT1: case RIGHT2: case RIGHT3: case RIGHT4: RRtmp = readINT(ch - RIGHT1 + 1); currinf.data.dvi_h += ((long) (RRtmp * 65536.0*fontPixelPerDVIunit)); break; case W1: case W2: case W3: case W4: WWtmp = readINT(ch - W0); currinf.data.w = ((long) (WWtmp * 65536.0*fontPixelPerDVIunit)); case W0: currinf.data.dvi_h += currinf.data.w; break; case X1: case X2: case X3: case X4: XXtmp = readINT(ch - X0); currinf.data.x = ((long) (XXtmp * 65536.0*fontPixelPerDVIunit)); case X0: currinf.data.dvi_h += currinf.data.x; break; case DOWN1: case DOWN2: case DOWN3: case DOWN4: { TQ_INT32 DDtmp = readINT(ch - DOWN1 + 1); currinf.data.dvi_v += ((long) (DDtmp * 65536.0*fontPixelPerDVIunit))/65536; currinf.data.pxl_v = int(currinf.data.dvi_v/shrinkfactor); } break; case Y1: case Y2: case Y3: case Y4: YYtmp = readINT(ch - Y0); currinf.data.y = ((long) (YYtmp * 65536.0*fontPixelPerDVIunit)); case Y0: currinf.data.dvi_v += currinf.data.y/65536; currinf.data.pxl_v = int(currinf.data.dvi_v/shrinkfactor); break; case Z1: case Z2: case Z3: case Z4: ZZtmp = readINT(ch - Z0); currinf.data.z = ((long) (ZZtmp * 65536.0*fontPixelPerDVIunit)); case Z0: currinf.data.dvi_v += currinf.data.z/65536; currinf.data.pxl_v = int(currinf.data.dvi_v/shrinkfactor); break; case FNT1: case FNT2: case FNT3: case FNT4: currinf.fontp = currinf.fonttable->find(readUINT(ch - FNT1 + 1)); if (currinf.fontp == NULL) return; currinf.set_char_p = currinf.fontp->set_char_p; break; case XXX1: case XXX2: case XXX3: case XXX4: { TQ_UINT8 *beginningOfSpecialCommand = command_pointer-1; a = readUINT(ch - XXX1 + 1); if (a > 0) { char *cmd = new char[a+1]; strncpy(cmd, (char *)command_pointer, a); command_pointer += a; cmd[a] = '\0'; (this->*specialParser)(cmd, beginningOfSpecialCommand); delete [] cmd; } } break; case FNTDEF1: case FNTDEF2: case FNTDEF3: case FNTDEF4: command_pointer += 12 + ch - FNTDEF1 + 1; command_pointer += readUINT8() + readUINT8(); break; default: return; } /* end switch */ } /* end for */ }