/* * Copyright (C) 2004-2012 Geometer Plus * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA * 02110-1301, USA. */ #include #include #include #include "DocStreams.h" #include "OleStreamReader.h" class DocReader : public OleStreamReader { public: DocReader(char *buffer, std::size_t maxSize); ~DocReader(); std::size_t readSize() const; private: bool readStream(OleMainStream &stream); void ansiDataHandler(const char *buffer, std::size_t len); void ucs2SymbolHandler(ZLUnicodeUtil::Ucs2Char symbol); void footnotesStartHandler(); protected: char *myBuffer; const std::size_t myMaxSize; std::size_t myActualSize; }; class DocAnsiReader : public DocReader { public: DocAnsiReader(char *buffer, std::size_t maxSize); ~DocAnsiReader(); private: void ansiDataHandler(const char *buffer, std::size_t len); }; class DocUcs2Reader : public DocReader { public: DocUcs2Reader(char *buffer, std::size_t maxSize); ~DocUcs2Reader(); private: void ucs2SymbolHandler(ZLUnicodeUtil::Ucs2Char symbol); }; DocReader::DocReader(char *buffer, std::size_t maxSize) : myBuffer(buffer), myMaxSize(maxSize), myActualSize(0) { } DocReader::~DocReader() { } bool DocReader::readStream(OleMainStream &stream) { // TODO make 2 optmizations: // 1) If another piece is too big, reading of next piece can be stopped if some size parameter will be specified // (it can be transfered as a parameter (with default 0 value, that means no need to use it) to readNextPiece method) // 2) We can specify as a parameter for readNextPiece, what kind of piece should be read next (ANSI or not ANSI). // As type of piece is known already, there's no necessary to read other pieces. while (myActualSize < myMaxSize) { if (!readNextPiece(stream)) { break; } } return true; } void DocReader::ansiDataHandler(const char*, std::size_t) { } void DocReader::ucs2SymbolHandler(ZLUnicodeUtil::Ucs2Char) { } void DocReader::footnotesStartHandler() { } std::size_t DocReader::readSize() const { return myActualSize; } DocAnsiReader::DocAnsiReader(char *buffer, std::size_t maxSize) : DocReader(buffer, maxSize) { } DocAnsiReader::~DocAnsiReader() { } void DocAnsiReader::ansiDataHandler(const char *buffer, std::size_t dataLength) { if (myActualSize < myMaxSize) { const std::size_t len = std::min(dataLength, myMaxSize - myActualSize); std::strncpy(myBuffer + myActualSize, buffer, len); myActualSize += len; } } DocUcs2Reader::DocUcs2Reader(char *buffer, std::size_t maxSize) : DocReader(buffer, maxSize) { } DocUcs2Reader::~DocUcs2Reader() { } void DocUcs2Reader::ucs2SymbolHandler(ZLUnicodeUtil::Ucs2Char symbol) { if (myActualSize < myMaxSize) { char buffer[4]; const std::size_t dataLength = ZLUnicodeUtil::ucs2ToUtf8(buffer, symbol); const std::size_t len = std::min(dataLength, myMaxSize - myActualSize); std::strncpy(myBuffer + myActualSize, buffer, len); myActualSize += len; } } DocStream::DocStream(const ZLFile& file, std::size_t maxSize) : myFile(file), myBuffer(0), mySize(maxSize) { } DocStream::~DocStream() { close(); } bool DocStream::open() { if (mySize != 0) { myBuffer = new char[mySize]; } shared_ptr reader = createReader(myBuffer, mySize); shared_ptr stream = myFile.inputStream(); if (stream.isNull() || !stream->open()) { return false; } if (!reader->readDocument(stream, false)) { return false; } mySize = reader->readSize(); myOffset = 0; return true; } std::size_t DocStream::read(char *buffer, std::size_t maxSize) { maxSize = std::min(maxSize, mySize - myOffset); if (buffer != 0 && myBuffer != 0) { std::memcpy(buffer, myBuffer + myOffset, maxSize); } myOffset += maxSize; return maxSize; } void DocStream::close() { if (myBuffer != 0) { delete[] myBuffer; myBuffer = 0; } } void DocStream::seek(int offset, bool absoluteOffset) { if (!absoluteOffset) { offset += myOffset; } myOffset = std::min(mySize, (std::size_t)std::max(0, offset)); } std::size_t DocStream::offset() const { return myOffset; } std::size_t DocStream::sizeOfOpened() { return mySize; } DocAnsiStream::DocAnsiStream(const ZLFile& file, std::size_t maxSize) : DocStream(file, maxSize) { } DocAnsiStream::~DocAnsiStream() { } shared_ptr DocAnsiStream::createReader(char *buffer, std::size_t maxSize) { return new DocAnsiReader(buffer, maxSize); } DocUcs2Stream::DocUcs2Stream(const ZLFile& file, std::size_t maxSize) : DocStream(file, maxSize) { } DocUcs2Stream::~DocUcs2Stream() { } shared_ptr DocUcs2Stream::createReader(char *buffer, std::size_t maxSize) { return new DocUcs2Reader(buffer, maxSize); }