diff --git a/src/MergeEditLine.cpp b/src/MergeEditLine.cpp index b0774e0..cca86e9 100644 --- a/src/MergeEditLine.cpp +++ b/src/MergeEditLine.cpp @@ -1,51 +1,51 @@ /*************************************************************************** * Copyright (C) 2002-2007 by Joachim Eibl * * Copyright (C) 2018 Michael Reeves reeves.87@gmail.com * * * * 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. * * * ***************************************************************************/ #include "MergeEditLine.h" -QString MergeEditLine::getString(const LineData* pLineDataA, const LineData* pLineDataB, const LineData* pLineDataC) +QString MergeEditLine::getString(const QVector* pLineDataA, const QVector* pLineDataB, const QVector* pLineDataC) { if(isRemoved()) { return QString(); } if(!isModified()) { int src = m_src; if(src == 0) { return QString(); } const Diff3Line& d3l = *m_id3l; const LineData* pld = nullptr; Q_ASSERT(src == A || src == B || src == C); if(src == A && d3l.getLineA().isValid()) - pld = &pLineDataA[d3l.getLineA()]; + pld = &(*pLineDataA)[d3l.getLineA()]; else if(src == B && d3l.getLineB().isValid()) - pld = &pLineDataB[d3l.getLineB()]; + pld = &(*pLineDataB)[d3l.getLineB()]; else if(src == C && d3l.getLineC().isValid()) - pld = &pLineDataC[d3l.getLineC()]; + pld = &(*pLineDataC)[d3l.getLineC()]; //Not an error. if(pld == nullptr) { return QString(); } return QString(pld->getLine(), pld->size()); } else { return m_str; } return QString(); } diff --git a/src/MergeEditLine.h b/src/MergeEditLine.h index c2eb993..7bd1e1d 100644 --- a/src/MergeEditLine.h +++ b/src/MergeEditLine.h @@ -1,139 +1,139 @@ /*************************************************************************** * Copyright (C) 2002-2007 by Joachim Eibl * * Copyright (C) 2018 Michael Reeves reeves.87@gmail.com * * * * 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. * * * ***************************************************************************/ #ifndef MERGEEDITLINE_H #include "diff.h" #include class MergeResultWindow; class MergeEditLine { public: explicit MergeEditLine(const Diff3LineList::const_iterator& i, e_SrcSelector src = None) { m_id3l = i; m_src = src; m_bLineRemoved = false; } void setConflict() { m_src = None; m_bLineRemoved = false; m_str = QString(); } bool isConflict() { return m_src == None && !m_bLineRemoved && m_str.isEmpty(); } void setRemoved(e_SrcSelector src = None) { m_src = src; m_bLineRemoved = true; m_str = QString(); } bool isRemoved() { return m_bLineRemoved; } bool isEditableText() { return !isConflict() && !isRemoved(); } void setString(const QString& s) { m_str = s; m_bLineRemoved = false; m_src = None; } - QString getString(const LineData* pLineDataA, const LineData* pLineDataB, const LineData* pLineDataC); + QString getString(const QVector* pLineDataA, const QVector* pLineDataB, const QVector* pLineDataC); bool isModified() { return !m_str.isEmpty() || (m_bLineRemoved && m_src == None); } void setSource(e_SrcSelector src, bool bLineRemoved) { m_src = src; m_bLineRemoved = bLineRemoved; } e_SrcSelector src() { return m_src; } Diff3LineList::const_iterator id3l() { return m_id3l; } private: Diff3LineList::const_iterator m_id3l; e_SrcSelector m_src; // 1, 2 or 3 for A, B or C respectively, or 0 when line is from neither source. QString m_str; // String when modified by user or null-string when orig data is used. bool m_bLineRemoved; }; class MergeEditLineList :public std::list { // I want to know the size immediately! private: typedef std::list BASE; public: typedef std::list::iterator iterator; typedef std::list::reverse_iterator reverse_iterator; typedef std::list::const_iterator const_iterator; int size() { return (int)BASE::size(); } }; class MergeLine { public: Diff3LineList::const_iterator id3l; LineIndex d3lLineIdx = -1; // Needed to show the correct window pos. LineCount srcRangeLength = 0; // how many src-lines have this properties e_MergeDetails mergeDetails = eDefault; bool bConflict = false; bool bWhiteSpaceConflict = false; bool bDelta = false; e_SrcSelector srcSelect = None; MergeEditLineList mergeEditLineList; void split(MergeLine& ml2, int d3lLineIdx2) // The caller must insert the ml2 after this ml in the m_mergeLineList { if(d3lLineIdx2 < d3lLineIdx || d3lLineIdx2 >= d3lLineIdx + srcRangeLength) return; //Error ml2.mergeDetails = mergeDetails; ml2.bConflict = bConflict; ml2.bWhiteSpaceConflict = bWhiteSpaceConflict; ml2.bDelta = bDelta; ml2.srcSelect = srcSelect; ml2.d3lLineIdx = d3lLineIdx2; ml2.srcRangeLength = srcRangeLength - (d3lLineIdx2 - d3lLineIdx); srcRangeLength = d3lLineIdx2 - d3lLineIdx; // current MergeLine controls fewer lines ml2.id3l = id3l; for(int i = 0; i < srcRangeLength; ++i) ++ml2.id3l; ml2.mergeEditLineList.clear(); // Search for best place to splice for(MergeEditLineList::iterator i = mergeEditLineList.begin(); i != mergeEditLineList.end(); ++i) { if(i->id3l() == ml2.id3l) { ml2.mergeEditLineList.splice(ml2.mergeEditLineList.begin(), mergeEditLineList, i, mergeEditLineList.end()); return; } } ml2.mergeEditLineList.push_back(MergeEditLine(ml2.id3l)); } void join(MergeLine& ml2) // The caller must remove the ml2 from the m_mergeLineList after this call { srcRangeLength += ml2.srcRangeLength; ml2.mergeEditLineList.clear(); mergeEditLineList.clear(); mergeEditLineList.push_back(MergeEditLine(id3l)); // Create a simple conflict if(ml2.bConflict) bConflict = true; if(!ml2.bWhiteSpaceConflict) bWhiteSpaceConflict = false; if(ml2.bDelta) bDelta = true; } }; typedef std::list MergeLineList; #endif diff --git a/src/SourceData.cpp b/src/SourceData.cpp index 0d0c6f4..f1214b5 100644 --- a/src/SourceData.cpp +++ b/src/SourceData.cpp @@ -1,953 +1,953 @@ /*************************************************************************** * Copyright (C) 2003-2007 by Joachim Eibl * * Copyright (C) 2018 Michael Reeves reeves.87@gmail.com * * * * 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. * ***************************************************************************/ /* Features of class SourceData: - Read a file (from the given URL) or accept data via a string. - Allocate and free buffers as necessary. - Run a preprocessor, when specified. - Run the line-matching preprocessor, when specified. - Run other preprocessing steps: Uppercase, ignore comments, remove carriage return, ignore numbers. Order of operation: 1. If data was given via a string then save it to a temp file. (see setData()) 2. If the specified file is nonlocal (URL) copy it to a temp file. 3. If a preprocessor was specified, run the input file through it. 4. Read the output of the preprocessor. 5. If Uppercase was specified: Turn the read data to uppercase. 6. Write the result to a temp file. 7. If a line-matching preprocessor was specified, run the temp file through it. 8. Read the output of the line-matching preprocessor. 9. If ignore numbers was specified, strip the LMPP-output of all numbers. 10. If ignore comments was specified, strip the LMPP-output of comments. Optimizations: Skip unneeded steps. */ #include "SourceData.h" #include "Utils.h" #include "diff.h" #include "Logging.h" #include #include #include #include #include #include #include SourceData::SourceData() { m_pOptions = nullptr; reset(); } SourceData::~SourceData() { reset(); } void SourceData::reset() { m_pEncoding = nullptr; m_fileAccess = FileAccess(); m_normalData.reset(); m_lmppData.reset(); if(!m_tempInputFileName.isEmpty()) { m_tempFile.remove(); m_tempInputFileName = ""; } } void SourceData::setFilename(const QString& filename) { if(filename.isEmpty()) { reset(); } else { FileAccess fa(filename); setFileAccess(fa); } } bool SourceData::isEmpty() { return getFilename().isEmpty(); } bool SourceData::hasData() { return m_normalData.m_pBuf != nullptr; } bool SourceData::isValid() { return isEmpty() || hasData(); } void SourceData::setOptions(Options* pOptions) { m_pOptions = pOptions; } QString SourceData::getFilename() { return m_fileAccess.absoluteFilePath(); } QString SourceData::getAliasName() { return m_aliasName.isEmpty() ? m_fileAccess.prettyAbsPath() : m_aliasName; } void SourceData::setAliasName(const QString& name) { m_aliasName = name; } void SourceData::setFileAccess(const FileAccess& fileAccess) { m_fileAccess = fileAccess; m_aliasName = QString(); if(!m_tempInputFileName.isEmpty()) { m_tempFile.remove(); m_tempInputFileName = ""; } } void SourceData::setEncoding(QTextCodec* pEncoding) { m_pEncoding = pEncoding; } QStringList SourceData::setData(const QString& data) { QStringList errors; // Create a temp file for preprocessing: if(m_tempInputFileName.isEmpty()) { FileAccess::createTempFile(m_tempFile); m_tempInputFileName = m_tempFile.fileName(); } FileAccess f(m_tempInputFileName); QByteArray ba = QTextCodec::codecForName("UTF-8")->fromUnicode(data); bool bSuccess = f.writeFile(ba.constData(), ba.length()); if(!bSuccess) { errors.append(i18n("Writing clipboard data to temp file failed.")); } else { m_aliasName = i18n("From Clipboard"); m_fileAccess = FileAccess(""); // Effect: m_fileAccess.isValid() is false } return errors; } -const LineData* SourceData::getLineDataForDiff() const +const QVector* SourceData::getLineDataForDiff() const { if(m_lmppData.m_pBuf == nullptr) - return m_normalData.m_v.size() > 0 ? &m_normalData.m_v[0] : nullptr; + return m_normalData.m_v.size() > 0 ? &m_normalData.m_v : nullptr; else - return m_lmppData.m_v.size() > 0 ? &m_lmppData.m_v[0] : nullptr; + return m_lmppData.m_v.size() > 0 ? &m_lmppData.m_v : nullptr; } -const LineData* SourceData::getLineDataForDisplay() const +const QVector* SourceData::getLineDataForDisplay() const { - return m_normalData.m_v.size() > 0 ? &m_normalData.m_v[0] : nullptr; + return m_normalData.m_v.size() > 0 ? &m_normalData.m_v : nullptr; } LineRef SourceData::getSizeLines() const { return (LineRef)(m_normalData.m_vSize); } qint64 SourceData::getSizeBytes() const { return m_normalData.m_size; } const char* SourceData::getBuf() const { return m_normalData.m_pBuf; } const QString& SourceData::getText() const { return m_normalData.m_unicodeBuf; } bool SourceData::isText() { return m_normalData.isText(); } bool SourceData::isIncompleteConversion() { return m_normalData.m_bIncompleteConversion; } bool SourceData::isFromBuffer() { return !m_fileAccess.isValid(); } bool SourceData::isBinaryEqualWith(const SourceData& other) const { return m_fileAccess.exists() && other.m_fileAccess.exists() && getSizeBytes() == other.getSizeBytes() && (getSizeBytes() == 0 || memcmp(getBuf(), other.getBuf(), getSizeBytes()) == 0); } void SourceData::FileData::reset() { delete[](char*) m_pBuf; m_pBuf = nullptr; m_v.clear(); m_size = 0; m_vSize = 0; m_bIsText = false; m_bIncompleteConversion = false; m_eLineEndStyle = eLineEndStyleUndefined; } bool SourceData::FileData::readFile(FileAccess& file) { reset(); if(file.fileName().isEmpty()) { return true; } //FileAccess fa(filename); if(!file.isNormal()) return true; m_size = file.sizeForReading(); char* pBuf; m_pBuf = pBuf = new char[m_size + 100]; // Alloc 100 byte extra: Safety hack, not nice but does no harm. // Some extra bytes at the end of the buffer are needed by // the diff algorithm. See also GnuDiff::diff_2_files(). bool bSuccess = file.readFile(pBuf, m_size); if(!bSuccess) { delete[] pBuf; m_pBuf = nullptr; m_size = 0; } return bSuccess; } bool SourceData::FileData::readFile(const QString& filename) { reset(); if(filename.isEmpty()) { return true; } FileAccess fa(filename); if(!fa.isNormal()) return true; m_size = fa.sizeForReading(); char* pBuf; m_pBuf = pBuf = new char[m_size + 100]; // Alloc 100 byte extra: Safety hack, not nice but does no harm. // Some extra bytes at the end of the buffer are needed by // the diff algorithm. See also GnuDiff::diff_2_files(). bool bSuccess = fa.readFile(pBuf, m_size); if(!bSuccess) { delete[] pBuf; m_pBuf = nullptr; m_size = 0; } return bSuccess; } bool SourceData::saveNormalDataAs(const QString& fileName) { return m_normalData.writeFile(fileName); } bool SourceData::FileData::writeFile(const QString& filename) { if(filename.isEmpty()) { return true; } FileAccess fa(filename); bool bSuccess = fa.writeFile(m_pBuf, m_size); return bSuccess; } void SourceData::FileData::copyBufFrom(const FileData& src) { reset(); char* pBuf; m_size = src.m_size; m_pBuf = pBuf = new char[m_size + 100]; Q_ASSERT(src.m_pBuf != nullptr); memcpy(pBuf, src.m_pBuf, m_size); } QTextCodec* SourceData::detectEncoding(const QString& fileName, QTextCodec* pFallbackCodec) { QFile f(fileName); if(f.open(QIODevice::ReadOnly)) { char buf[200]; qint64 size = f.read(buf, sizeof(buf)); qint64 skipBytes = 0; QTextCodec* pCodec = detectEncoding(buf, size, skipBytes); if(pCodec) return pCodec; } return pFallbackCodec; } QStringList SourceData::readAndPreprocess(QTextCodec* pEncoding, bool bAutoDetectUnicode) { m_pEncoding = pEncoding; QTemporaryFile fileIn1, fileOut1; QString fileNameIn1; QString fileNameOut1; QString fileNameIn2; QString fileNameOut2; QStringList errors; if(m_fileAccess.isValid() && !m_fileAccess.isNormal()) { errors.append(i18n("%1 is not a normal file.", m_fileAccess.prettyAbsPath())); return errors; } bool bTempFileFromClipboard = !m_fileAccess.isValid(); // Detect the input for the preprocessing operations if(!bTempFileFromClipboard) { if(m_fileAccess.isLocal()) { fileNameIn1 = m_fileAccess.absoluteFilePath(); } else // File is not local: create a temporary local copy: { if(m_tempInputFileName.isEmpty()) { m_fileAccess.createLocalCopy(); m_tempInputFileName = m_fileAccess.getTempName(); } fileNameIn1 = m_tempInputFileName; } if(bAutoDetectUnicode) { m_pEncoding = detectEncoding(fileNameIn1, pEncoding); } } else // The input was set via setData(), probably from clipboard. { fileNameIn1 = m_tempInputFileName; m_pEncoding = QTextCodec::codecForName("UTF-8"); } QTextCodec* pEncoding1 = m_pEncoding; QTextCodec* pEncoding2 = m_pEncoding; m_normalData.reset(); m_lmppData.reset(); FileAccess faIn(fileNameIn1); qint64 fileInSize = faIn.size(); if(faIn.exists()) { // Run the first preprocessor if(m_pOptions->m_PreProcessorCmd.isEmpty()) { // No preprocessing: Read the file directly: if(!m_normalData.readFile(faIn)) { errors.append(faIn.getStatusText()); return errors; } } else { QTemporaryFile tmpInPPFile; QString fileNameInPP = fileNameIn1; if(pEncoding1 != m_pOptions->m_pEncodingPP) { // Before running the preprocessor convert to the format that the preprocessor expects. FileAccess::createTempFile(tmpInPPFile); fileNameInPP = tmpInPPFile.fileName(); pEncoding1 = m_pOptions->m_pEncodingPP; convertFileEncoding(fileNameIn1, pEncoding, fileNameInPP, pEncoding1); } QString ppCmd = m_pOptions->m_PreProcessorCmd; FileAccess::createTempFile(fileOut1); fileNameOut1 = fileOut1.fileName(); QProcess ppProcess; ppProcess.setStandardInputFile(fileNameInPP); ppProcess.setStandardOutputFile(fileNameOut1); QString program; QStringList args; QString errorReason = Utils::getArguments(ppCmd, program, args); if(errorReason.isEmpty()) { ppProcess.start(program, args); ppProcess.waitForFinished(-1); } else errorReason = "\n(" + errorReason + ')'; bool bSuccess = errorReason.isEmpty() && m_normalData.readFile(fileNameOut1); if(fileInSize > 0 && (!bSuccess || m_normalData.m_size == 0)) { if(!m_normalData.readFile(faIn)) { errors.append(faIn.getStatusText()); errors.append(i18n(" Temp file is: %1", fileNameIn1)); return errors; } //Don't fail the preprocessor command if the file cann't be read. errors.append( i18n("Preprocessing possibly failed. Check this command:\n\n %1" "\n\nThe preprocessing command will be disabled now.", ppCmd) + errorReason); m_pOptions->m_PreProcessorCmd = ""; pEncoding1 = m_pEncoding; } } if(!m_normalData.preprocess(m_pOptions->m_bPreserveCarriageReturn, pEncoding1)) { errors.append(i18n("File %1 too large to process. Skipping.", fileNameIn1)); return errors; } //exit early for non text data further processing assumes a text file as input if(!m_normalData.isText()) return errors; // LineMatching Preprocessor if(!m_pOptions->m_LineMatchingPreProcessorCmd.isEmpty()) { QTemporaryFile tempOut2, fileInPP; fileNameIn2 = fileNameOut1.isEmpty() ? fileNameIn1 : fileNameOut1; QString fileNameInPP = fileNameIn2; pEncoding2 = pEncoding1; if(pEncoding2 != m_pOptions->m_pEncodingPP) { // Before running the preprocessor convert to the format that the preprocessor expects. FileAccess::createTempFile(fileInPP); fileNameInPP = fileInPP.fileName(); pEncoding2 = m_pOptions->m_pEncodingPP; convertFileEncoding(fileNameIn2, pEncoding1, fileNameInPP, pEncoding2); } QString ppCmd = m_pOptions->m_LineMatchingPreProcessorCmd; FileAccess::createTempFile(tempOut2); fileNameOut2 = tempOut2.fileName(); QProcess ppProcess; ppProcess.setStandardInputFile(fileNameInPP); ppProcess.setStandardOutputFile(fileNameOut2); QString program; QStringList args; QString errorReason = Utils::getArguments(ppCmd, program, args); if(errorReason.isEmpty()) { ppProcess.start(program, args); ppProcess.waitForFinished(-1); } else errorReason = "\n(" + errorReason + ')'; bool bSuccess = errorReason.isEmpty() && m_lmppData.readFile(fileNameOut2); if(FileAccess(fileNameIn2).size() > 0 && (!bSuccess || m_lmppData.m_size == 0)) { errors.append( i18n("The line-matching-preprocessing possibly failed. Check this command:\n\n %1" "\n\nThe line-matching-preprocessing command will be disabled now.", ppCmd) + errorReason); m_pOptions->m_LineMatchingPreProcessorCmd = ""; if(!m_lmppData.readFile(fileNameIn2)) { errors.append(i18n("Failed to read file: %1", fileNameIn2)); return errors; } } } else if(m_pOptions->m_bIgnoreComments || m_pOptions->m_bIgnoreCase) { // We need a copy of the normal data. m_lmppData.copyBufFrom(m_normalData); } } else { //exit early for non-existant files return errors; } if(!m_lmppData.preprocess(false, pEncoding2)) { errors.append(i18n("File %1 too large to process. Skipping.", fileNameIn1)); return errors; } Q_ASSERT(m_lmppData.isText()); //TODO: Needed? if(m_lmppData.m_vSize < m_normalData.m_vSize) { // Preprocessing command may result in smaller data buffer so adjust size m_lmppData.m_v.resize((int)m_normalData.m_vSize); for(qint64 i = m_lmppData.m_vSize; i < m_normalData.m_vSize; ++i) { // Set all empty lines to point to the end of the buffer. m_lmppData.m_v[(int)i].setLine(m_lmppData.m_unicodeBuf.unicode() + m_lmppData.m_unicodeBuf.length()); } m_lmppData.m_vSize = m_normalData.m_vSize; } // Ignore comments if(m_pOptions->m_bIgnoreComments) { m_lmppData.removeComments(); qint64 vSize = std::min(m_normalData.m_vSize, m_lmppData.m_vSize); Q_ASSERT(vSize < std::numeric_limits::max()); for(int i = 0; i < vSize; ++i) { m_normalData.m_v[i].setPureComment(m_lmppData.m_v[i].isPureComment()); //Don't crash if vSize is too large. if(i == std::numeric_limits::max()) break; } } return errors; } /** Prepare the linedata vector for every input line.*/ bool SourceData::FileData::preprocess(bool bPreserveCR, QTextCodec* pEncoding) { qint64 i; // detect line end style QVector vOrigDataLineEndStyle; m_eLineEndStyle = eLineEndStyleUndefined; for(i = 0; i < m_size; ++i) { if(m_pBuf[i] == '\r') { if(i + 1 < m_size && m_pBuf[i + 1] == '\n') // not 16-bit unicode { vOrigDataLineEndStyle.push_back(eLineEndStyleDos); ++i; } else if(i > 0 && i + 2 < m_size && m_pBuf[i - 1] == '\0' && m_pBuf[i + 1] == '\0' && m_pBuf[i + 2] == '\n') // 16-bit unicode { vOrigDataLineEndStyle.push_back(eLineEndStyleDos); i += 2; } else // old mac line end style ? { vOrigDataLineEndStyle.push_back(eLineEndStyleUndefined); const_cast(m_pBuf)[i] = '\n'; // fix it in original data } } else if(m_pBuf[i] == '\n') { vOrigDataLineEndStyle.push_back(eLineEndStyleUnix); } } if(!vOrigDataLineEndStyle.isEmpty()) m_eLineEndStyle = vOrigDataLineEndStyle[0]; qint64 skipBytes = 0; QTextCodec* pCodec = detectEncoding(m_pBuf, m_size, skipBytes); if(pCodec != pEncoding) skipBytes = 0; if(m_size - skipBytes > TYPE_MAX(QtNumberType)) return false; QByteArray ba = QByteArray::fromRawData(m_pBuf + skipBytes, (int)(m_size - skipBytes)); QTextStream ts(ba, QIODevice::ReadOnly | QIODevice::Text); ts.setCodec(pEncoding); ts.setAutoDetectUnicode(false); m_unicodeBuf = ts.readAll(); ba.clear(); int ucSize = m_unicodeBuf.length(); const QChar* p = m_unicodeBuf.unicode(); m_bIsText = true; LineCount lines = 1; m_bIncompleteConversion = false; for(i = 0; i < ucSize; ++i) { if(i >= ucSize || p[i] == '\n') { if(lines >= TYPE_MAX(LineCount) - 5) return false; ++lines; } if(p[i].isNull()) { m_bIsText = false; } if(p[i] == QChar::ReplacementCharacter) { m_bIncompleteConversion = true; } } m_v.resize(lines + 5); int lineIdx = 0; int lineLength = 0; bool bNonWhiteFound = false; int whiteLength = 0; for(i = 0; i <= ucSize; ++i) { if(i >= ucSize || p[i] == '\n') { const QChar* pLine = &p[i - lineLength]; m_v[lineIdx].setLine(&p[i - lineLength]); while(/*!bPreserveCR &&*/ lineLength > 0 && m_v[lineIdx].getLine()[lineLength - 1] == '\r') { --lineLength; } m_v[lineIdx].setFirstNonWhiteChar(m_v[lineIdx].getLine() + std::min(whiteLength, lineLength)); if(lineIdx < vOrigDataLineEndStyle.count() && bPreserveCR && i < ucSize) { ++lineLength; const_cast(pLine)[lineLength] = '\r'; //switch ( vOrigDataLineEndStyle[lineIdx] ) //{ //case eLineEndStyleUnix: const_cast(pLine)[lineLength] = '\n'; break; //case eLineEndStyleDos: const_cast(pLine)[lineLength] = '\r'; break; //case eLineEndStyleUndefined: const_cast(pLine)[lineLength] = '\x0b'; break; //} } m_v[lineIdx].setSize(lineLength); lineLength = 0; bNonWhiteFound = false; whiteLength = 0; ++lineIdx; } else { ++lineLength; if(!bNonWhiteFound && isWhite(p[i])) ++whiteLength; else bNonWhiteFound = true; } } Q_ASSERT(lineIdx == lines); m_vSize = lines; return true; } // Must not be entered, when within a comment. // Returns either at a newline-character p[i]=='\n' or when i==size. // A line that contains only comments is still "white". // Comments in white lines must remain, while comments in // non-white lines are overwritten with spaces. void SourceData::FileData::checkLineForComments( const QChar* p, // pointer to start of buffer int& i, // index of current position (in, out) int size, // size of buffer bool& bWhite, // false if this line contains nonwhite characters (in, out) bool& bCommentInLine, // true if any comment is within this line (in, out) bool& bStartsOpenComment // true if the line ends within an comment (out) ) { bStartsOpenComment = false; for(; i < size; ++i) { // A single apostroph ' has prio over a double apostroph " (e.g. '"') // (if not in a string) if(p[i] == '\'') { bWhite = false; ++i; for(; !isLineOrBufEnd(p, i, size) && p[i] != '\''; ++i) ; if(p[i] == '\'') ++i; } // Strings have priority over comments: e.g. "/* Not a comment, but a string. */" else if(p[i] == '"') { bWhite = false; ++i; for(; !isLineOrBufEnd(p, i, size) && !(p[i] == '"' && p[i - 1] != '\\'); ++i) ; if(p[i] == '"') ++i; } // C++-comment else if(p[i] == '/' && i + 1 < size && p[i + 1] == '/') { int commentStart = i; bCommentInLine = true; i += 2; for(; !isLineOrBufEnd(p, i, size); ++i) ; if(!bWhite) { size = i - commentStart; m_unicodeBuf.replace(commentStart, size, QString(" ").repeated(size)); } return; } // C-comment else if(p[i] == '/' && i + 1 < size && p[i + 1] == '*') { int commentStart = i; bCommentInLine = true; i += 2; for(; !isLineOrBufEnd(p, i, size); ++i) { if(i + 1 < size && p[i] == '*' && p[i + 1] == '/') // end of the comment { i += 2; // More comments in the line? checkLineForComments(p, i, size, bWhite, bCommentInLine, bStartsOpenComment); if(!bWhite) { size = i - commentStart; m_unicodeBuf.replace(commentStart, size, QString(" ").repeated(size)); } return; } } bStartsOpenComment = true; return; } if(isLineOrBufEnd(p, i, size)) { return; } else if(!p[i].isSpace()) { bWhite = false; } } } // Modifies the input data, and replaces C/C++ comments with whitespace // when the line contains other data too. If the line contains only // a comment or white data, remember this in the flag bContainsPureComment. void SourceData::FileData::removeComments() { int line = 0; const QChar* p = m_unicodeBuf.unicode(); bool bWithinComment = false; int size = m_unicodeBuf.length(); qCDebug(kdiffCore) << "m_v.size() = " << m_v.size() << ", size = " << size; Q_ASSERT(m_v.size() > 0); for(int i = 0; i < size; ++i) { qCDebug(kdiffCore) << "line= " << QString(&p[i], m_v[line].size()); bool bWhite = true; bool bCommentInLine = false; if(bWithinComment) { int commentStart = i; bCommentInLine = true; for(; !isLineOrBufEnd(p, i, size); ++i) { if(i + 1 < size && p[i] == '*' && p[i + 1] == '/') // end of the comment { i += 2; // More comments in the line? checkLineForComments(p, i, size, bWhite, bCommentInLine, bWithinComment); if(!bWhite) { size = i - commentStart; m_unicodeBuf.replace(commentStart, size, QString(" ").repeated(size)); } break; } } } else { checkLineForComments(p, i, size, bWhite, bCommentInLine, bWithinComment); } // end of line Q_ASSERT(isLineOrBufEnd(p, i, size)); m_v[line].setPureComment(bCommentInLine && bWhite); /* std::cout << line << " : " << ( bCommentInLine ? "c" : " " ) << ( bWhite ? "w " : " ") << std::string(pLD[line].pLine, pLD[line].size) << std::endl;*/ ++line; } } bool SourceData::isLineOrBufEnd(const QChar* p, int i, int size) { return i >= size // End of file || Utils::isEndOfLine(p[i]) // Normal end of line // No support for Mac-end of line yet, because incompatible with GNU-diff-routines. // || ( p[i]=='\r' && (i>=size-1 || p[i+1]!='\n') // && (i==0 || p[i-1]!='\n') ) // Special case: '\r' without '\n' ; } // Convert the input file from input encoding to output encoding and write it to the output file. bool SourceData::convertFileEncoding(const QString& fileNameIn, QTextCodec* pCodecIn, const QString& fileNameOut, QTextCodec* pCodecOut) { QFile in(fileNameIn); if(!in.open(QIODevice::ReadOnly)) return false; QTextStream inStream(&in); inStream.setCodec(pCodecIn); inStream.setAutoDetectUnicode(false); QFile out(fileNameOut); if(!out.open(QIODevice::WriteOnly)) return false; QTextStream outStream(&out); outStream.setCodec(pCodecOut); QString data = inStream.readAll(); outStream << data; return true; } QTextCodec* SourceData::getEncodingFromTag(const QByteArray& s, const QByteArray& encodingTag) { int encodingPos = s.indexOf(encodingTag); if(encodingPos >= 0) { int apostrophPos = s.indexOf('"', encodingPos + encodingTag.length()); int apostroph2Pos = s.indexOf('\'', encodingPos + encodingTag.length()); char apostroph = '"'; if(apostroph2Pos >= 0 && (apostrophPos < 0 || apostroph2Pos < apostrophPos)) { apostroph = '\''; apostrophPos = apostroph2Pos; } int encodingEnd = s.indexOf(apostroph, apostrophPos + 1); if(encodingEnd >= 0) // e.g.: or { QByteArray encoding = s.mid(apostrophPos + 1, encodingEnd - (apostrophPos + 1)); return QTextCodec::codecForName(encoding); } else // e.g.: { QByteArray encoding = s.mid(encodingPos + encodingTag.length(), apostrophPos - (encodingPos + encodingTag.length())); return QTextCodec::codecForName(encoding); } } return nullptr; } QTextCodec* SourceData::detectEncoding(const char* buf, qint64 size, qint64& skipBytes) { if(size >= 2) { if(buf[0] == '\xFF' && buf[1] == '\xFE') { skipBytes = 2; return QTextCodec::codecForName("UTF-16LE"); } if(buf[0] == '\xFE' && buf[1] == '\xFF') { skipBytes = 2; return QTextCodec::codecForName("UTF-16BE"); } } if(size >= 3) { if(buf[0] == '\xEF' && buf[1] == '\xBB' && buf[2] == '\xBF') { skipBytes = 3; return QTextCodec::codecForName("UTF-8-BOM"); } } skipBytes = 0; QByteArray s; /* We don't need the whole file here just the header. ] */ if(size <= 5000) s = QByteArray(buf, (int)size); else s = QByteArray(buf, 5000); int xmlHeaderPos = s.indexOf("= 0) { int xmlHeaderEnd = s.indexOf("?>", xmlHeaderPos); if(xmlHeaderEnd >= 0) { QTextCodec* pCodec = getEncodingFromTag(s.mid(xmlHeaderPos, xmlHeaderEnd - xmlHeaderPos), "encoding="); if(pCodec) return pCodec; } } else // HTML { int metaHeaderPos = s.indexOf("= 0) { int metaHeaderEnd = s.indexOf(">", metaHeaderPos); if(metaHeaderEnd >= 0) { QTextCodec* pCodec = getEncodingFromTag(s.mid(metaHeaderPos, metaHeaderEnd - metaHeaderPos), "charset="); if(pCodec) return pCodec; metaHeaderPos = s.indexOf(" * * Copyright (C) 2018 Michael Reeves reeves.87@gmail.com * * * * 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. * * * ***************************************************************************/ #ifndef SOURCEDATA_H #define SOURCEDATA_H #include "options.h" #include "fileaccess.h" #include "gnudiff_diff.h" #include #include #include class LineData; class SourceData { public: SourceData(); ~SourceData(); void setOptions(Options* pOptions); LineRef getSizeLines() const; qint64 getSizeBytes() const; const char* getBuf() const; const QString& getText() const; - const LineData* getLineDataForDisplay() const; - const LineData* getLineDataForDiff() const; + const QVector* getLineDataForDisplay() const; + const QVector* getLineDataForDiff() const; void setFilename(const QString& filename); void setFileAccess(const FileAccess& fileAccess); void setEncoding(QTextCodec* pEncoding); QString getFilename(); void setAliasName(const QString& name); QString getAliasName(); bool isEmpty(); // File was set bool hasData(); // Data was readable bool isText(); // is it pure text (vs. binary data) bool isIncompleteConversion(); // true if some replacement characters were found bool isFromBuffer(); // was it set via setData() (vs. setFileAccess() or setFilename()) QStringList setData(const QString& data); bool isValid(); // Either no file is specified or reading was successful // Returns a list of error messages if anything went wrong QStringList readAndPreprocess(QTextCodec* pEncoding, bool bAutoDetectUnicode); bool saveNormalDataAs(const QString& fileName); bool isBinaryEqualWith(const SourceData& other) const; void reset(); QTextCodec* getEncoding() const { return m_pEncoding; } e_LineEndStyle getLineEndStyle() const { return m_normalData.m_eLineEndStyle; } private: bool convertFileEncoding(const QString& fileNameIn, QTextCodec* pCodecIn, const QString& fileNameOut, QTextCodec* pCodecOut); static bool isLineOrBufEnd(const QChar* p, int i, int size); static QTextCodec* detectEncoding(const char* buf, qint64 size, qint64& skipBytes); static QTextCodec* getEncodingFromTag(const QByteArray& s, const QByteArray& encodingTag); QTextCodec* detectEncoding(const QString& fileName, QTextCodec* pFallbackCodec); QString m_aliasName; FileAccess m_fileAccess; Options* m_pOptions; QString m_tempInputFileName; QTemporaryFile m_tempFile; //Created from clipboard content. class FileData { private: friend SourceData; const char* m_pBuf = nullptr; qint64 m_size = 0; qint64 m_vSize = 0; // Nr of lines in m_pBuf1 and size of m_v1, m_dv12 and m_dv13 QString m_unicodeBuf; QVector m_v; bool m_bIsText = false; bool m_bIncompleteConversion = false; e_LineEndStyle m_eLineEndStyle = eLineEndStyleUndefined; public: ~FileData() { reset(); } bool readFile(FileAccess& file); bool readFile(const QString& filename); bool writeFile(const QString& filename); bool preprocess(bool bPreserveCR, QTextCodec* pEncoding); void reset(); void removeComments(); void copyBufFrom(const FileData& src); void checkLineForComments( const QChar* p, // pointer to start of buffer int& i, // index of current position (in, out) int size, // size of buffer bool& bWhite, // false if this line contains nonwhite characters (in, out) bool& bCommentInLine, // true if any comment is within this line (in, out) bool& bStartsOpenComment // true if the line ends within an comment (out) ); bool isEmpty() { return m_size == 0; } bool isText() { return m_bIsText; } }; FileData m_normalData; FileData m_lmppData; QTextCodec* m_pEncoding; }; #endif // !SOURCEDATA_H diff --git a/src/diff.cpp b/src/diff.cpp index 09f2e13..9ac2fd8 100644 --- a/src/diff.cpp +++ b/src/diff.cpp @@ -1,1467 +1,1467 @@ /*************************************************************************** * Copyright (C) 2003-2007 by Joachim Eibl * * Copyright (C) 2018 Michael Reeves reeves.87@gmail.com * * * * 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. * * * ***************************************************************************/ #include "diff.h" #include "Utils.h" #include "fileaccess.h" #include "gnudiff_diff.h" #include "options.h" #include "progress.h" #include #include #include #include #include #include int LineData::width(int tabSize) const { int w = 0; int j = 0; for(int i = 0; i < size(); ++i) { if(pLine[i] == '\t') { for(j %= tabSize; j < tabSize; ++j) ++w; j = 0; } else { ++w; ++j; } } return w; } // The bStrict flag is true during the test where a nonmatching area ends. // Then the equal()-function requires that the match has more than 2 nonwhite characters. // This is to avoid matches on trivial lines (e.g. with white space only). // This choice is good for C/C++. bool LineData::equal(const LineData& l1, const LineData& l2, bool bStrict) { if(l1.getLine() == nullptr || l2.getLine() == nullptr) return false; if(bStrict && g_bIgnoreTrivialMatches) return false; // Ignore white space diff const QChar* p1 = l1.getLine(); const QChar* p1End = p1 + l1.size(); const QChar* p2 = l2.getLine(); const QChar* p2End = p2 + l2.size(); if(g_bIgnoreWhiteSpace) { int nonWhite = 0; for(;;) { while(isWhite(*p1) && p1 != p1End) ++p1; while(isWhite(*p2) && p2 != p2End) ++p2; if(p1 == p1End && p2 == p2End) { if(bStrict && g_bIgnoreTrivialMatches) { // Then equality is not enough return nonWhite > 2; } else // equality is enough return true; } else if(p1 == p1End || p2 == p2End) return false; if(*p1 != *p2) return false; ++p1; ++p2; ++nonWhite; } } else { return (l1.size() == l2.size() && memcmp(p1, p2, l1.size()) == 0); } } // First step void calcDiff3LineListUsingAB( const DiffList* pDiffListAB, Diff3LineList& d3ll) { // First make d3ll for AB (from pDiffListAB) DiffList::const_iterator i = pDiffListAB->begin(); LineRef::LineType lineA = 0; LineRef::LineType lineB = 0; Diff d(0, 0, 0); qCInfo(kdiffMain) << "Enter: calcDiff3LineListUsingAB" ; for(;;) { if(d.nofEquals == 0 && d.diff1 == 0 && d.diff2 == 0) { if(i != pDiffListAB->end()) { d = *i; ++i; } else break; } Diff3Line d3l; if(d.nofEquals > 0) { d3l.bAEqB = true; d3l.setLineA(lineA); d3l.setLineB(lineB); --d.nofEquals; ++lineA; ++lineB; } else if(d.diff1 > 0 && d.diff2 > 0) { d3l.setLineA(lineA); d3l.setLineB(lineB); --d.diff1; --d.diff2; ++lineA; ++lineB; } else if(d.diff1 > 0) { d3l.setLineA(lineA); --d.diff1; ++lineA; } else if(d.diff2 > 0) { d3l.setLineB(lineB); --d.diff2; ++lineB; } Q_ASSERT(d.nofEquals >= 0); qCDebug(kdiffCore) << "lineA = " << d3l.getLineA() << ", lineB = " << d3l.getLineB() ; d3ll.push_back(d3l); } qCInfo(kdiffMain) << "Leave: calcDiff3LineListUsingAB" ; } // Second step void calcDiff3LineListUsingAC( const DiffList* pDiffListAC, Diff3LineList& d3ll) { //////////////// // Now insert data from C using pDiffListAC DiffList::const_iterator i = pDiffListAC->begin(); Diff3LineList::iterator i3 = d3ll.begin(); LineRef::LineType lineA = 0; LineRef::LineType lineC = 0; Diff d(0, 0, 0); for(;;) { if(d.nofEquals == 0 && d.diff1 == 0 && d.diff2 == 0) { if(i != pDiffListAC->end()) { d = *i; ++i; } else break; } Diff3Line d3l; if(d.nofEquals > 0) { // Find the corresponding lineA while(i3->getLineA() != lineA) ++i3; i3->setLineC(lineC); i3->bAEqC = true; i3->bBEqC = i3->isEqualAB(); --d.nofEquals; ++lineA; ++lineC; ++i3; } else if(d.diff1 > 0 && d.diff2 > 0) { d3l.setLineC(lineC); d3ll.insert(i3, d3l); --d.diff1; --d.diff2; ++lineA; ++lineC; } else if(d.diff1 > 0) { --d.diff1; ++lineA; } else if(d.diff2 > 0) { d3l.setLineC(lineC); d3ll.insert(i3, d3l); --d.diff2; ++lineC; } } } // Third step void calcDiff3LineListUsingBC( const DiffList* pDiffListBC, Diff3LineList& d3ll) { //////////////// // Now improve the position of data from C using pDiffListBC // If a line from C equals a line from A then it is in the // same Diff3Line already. // If a line from C equals a line from B but not A, this // information will be used here. DiffList::const_iterator i = pDiffListBC->begin(); Diff3LineList::iterator i3b = d3ll.begin(); Diff3LineList::iterator i3c = d3ll.begin(); LineRef::LineType lineB = 0; LineRef::LineType lineC = 0; Diff d(0, 0, 0); for(;;) { if(d.nofEquals == 0 && d.diff1 == 0 && d.diff2 == 0) { if(i != pDiffListBC->end()) { d = *i; ++i; } else break; } Diff3Line d3l; if(d.nofEquals > 0) { // Find the corresponding lineB and lineC while(i3b != d3ll.end() && i3b->getLineB() != lineB) ++i3b; while(i3c != d3ll.end() && i3c->getLineC() != lineC) ++i3c; Q_ASSERT(i3b != d3ll.end()); Q_ASSERT(i3c != d3ll.end()); if(i3b == i3c) { Q_ASSERT(i3b->getLineC() == lineC); i3b->bBEqC = true; } else { // Is it possible to move this line up? // Test if no other B's are used between i3c and i3b // First test which is before: i3c or i3b ? Diff3LineList::iterator i3c1 = i3c; Diff3LineList::iterator i3b1 = i3b; while(i3c1 != i3b && i3b1 != i3c) { Q_ASSERT(i3b1 != d3ll.end() || i3c1 != d3ll.end()); if(i3c1 != d3ll.end()) ++i3c1; if(i3b1 != d3ll.end()) ++i3b1; } if(i3c1 == i3b && !i3b->isEqualAB()) // i3c before i3b { Diff3LineList::iterator i3 = i3c; int nofDisturbingLines = 0; while(i3 != i3b && i3 != d3ll.end()) { if(i3->getLineB().isValid()) ++nofDisturbingLines; ++i3; } if(nofDisturbingLines > 0) //&& nofDisturbingLines < d.nofEquals*d.nofEquals+4 ) { Diff3LineList::iterator i3_last_equal_A = d3ll.end(); i3 = i3c; while(i3 != i3b) { if(i3->isEqualAB()) { i3_last_equal_A = i3; } ++i3; } /* If i3_last_equal_A isn't still set to d3ll.end(), then * we've found a line in A that is equal to one in B * somewhere between i3c and i3b */ bool before_or_on_equal_line_in_A = (i3_last_equal_A != d3ll.end()); // Move the disturbing lines up, out of sight. i3 = i3c; while(i3 != i3b) { if(i3->getLineB().isValid() || (before_or_on_equal_line_in_A && i3->getLineA().isValid())) { d3l.setLineB(i3->getLineB()); i3->getLineB().invalidate(); // Move A along if it matched B if(before_or_on_equal_line_in_A) { d3l.setLineA(i3->getLineA()); d3l.bAEqB = i3->isEqualAB(); i3->getLineA().invalidate(); i3->bAEqC = false; } i3->bAEqB = false; i3->bBEqC = false; d3ll.insert(i3c, d3l); } if(i3 == i3_last_equal_A) { before_or_on_equal_line_in_A = false; } ++i3; } nofDisturbingLines = 0; } if(nofDisturbingLines == 0) { // Yes, the line from B can be moved. i3b->getLineB().invalidate(); // This might leave an empty line: removed later. i3b->bAEqB = false; i3b->bBEqC = false; i3c->setLineB(lineB); i3c->bBEqC = true; i3c->bAEqB = i3c->isEqualAC(); } } else if(i3b1 == i3c && !i3c->isEqualAC()) { Diff3LineList::iterator i3 = i3b; int nofDisturbingLines = 0; while(i3 != i3c && i3 != d3ll.end()) { if(i3->getLineC().isValid()) ++nofDisturbingLines; ++i3; } if(nofDisturbingLines > 0) //&& nofDisturbingLines < d.nofEquals*d.nofEquals+4 ) { Diff3LineList::iterator i3_last_equal_A = d3ll.end(); i3 = i3b; while(i3 != i3c) { if(i3->isEqualAC()) { i3_last_equal_A = i3; } ++i3; } /* If i3_last_equal_A isn't still set to d3ll.end(), then * we've found a line in A that is equal to one in C * somewhere between i3b and i3c */ bool before_or_on_equal_line_in_A = (i3_last_equal_A != d3ll.end()); // Move the disturbing lines up. i3 = i3b; while(i3 != i3c) { if(i3->getLineC().isValid() || (before_or_on_equal_line_in_A && i3->getLineA().isValid())) { d3l.setLineC(i3->getLineC()); i3->getLineC().invalidate(); // Move A along if it matched C if(before_or_on_equal_line_in_A) { d3l.setLineA(i3->getLineA()); d3l.bAEqC = i3->isEqualAC(); i3->getLineA().invalidate(); i3->bAEqB = false; } i3->bAEqC = false; i3->bBEqC = false; d3ll.insert(i3b, d3l); } if(i3 == i3_last_equal_A) { before_or_on_equal_line_in_A = false; } ++i3; } nofDisturbingLines = 0; } if(nofDisturbingLines == 0) { // Yes, the line from C can be moved. i3c->getLineC().invalidate(); // This might leave an empty line: removed later. i3c->bAEqC = false; i3c->bBEqC = false; i3b->setLineC(lineC); i3b->bBEqC = true; i3b->bAEqC = i3b->isEqualAB(); } } } --d.nofEquals; ++lineB; ++lineC; ++i3b; ++i3c; } else if(d.diff1 > 0) { Diff3LineList::iterator i3 = i3b; while(i3->getLineB() != lineB) ++i3; if(i3 != i3b && !i3->isEqualAB()) { // Take B from this line and move it up as far as possible d3l.setLineB(lineB); d3ll.insert(i3b, d3l); i3->getLineB().invalidate(); } else { i3b = i3; } --d.diff1; ++lineB; ++i3b; if(d.diff2 > 0) { --d.diff2; ++lineC; } } else if(d.diff2 > 0) { --d.diff2; ++lineC; } } /* Diff3LineList::iterator it = d3ll.begin(); int li=0; for( ; it!=d3ll.end(); ++it, ++li ) { printf( "%4d %4d %4d %4d A%c=B A%c=C B%c=C\n", li, it->getLineA(), it->getLineB(), it->getLineC(), it->isEqualAB() ? '=' : '!', it->isEqualAC() ? '=' : '!', it->isEqualBC() ? '=' : '!' ); } printf("\n");*/ } // Test if the move would pass a barrier. Return true if not. bool ManualDiffHelpList::isValidMove(int line1, int line2, e_SrcSelector winIdx1, e_SrcSelector winIdx2) const { if(line1 >= 0 && line2 >= 0) { ManualDiffHelpList::const_iterator i; for(i = begin(); i != end(); ++i) { const ManualDiffHelpEntry& mdhe = *i; if(!mdhe.isValidMove(line1, line2, winIdx1, winIdx2)) return false; } } return true; // no barrier passed. } bool ManualDiffHelpEntry::isValidMove(int line1, int line2, e_SrcSelector winIdx1, e_SrcSelector winIdx2) const { // Barrier int l1 = winIdx1 == A ? lineA1 : winIdx1 == B ? lineB1 : lineC1; int l2 = winIdx2 == A ? lineA1 : winIdx2 == B ? lineB1 : lineC1; if(l1 >= 0 && l2 >= 0) { if((line1 >= l1 && line2 < l2) || (line1 < l1 && line2 >= l2)) return false; l1 = winIdx1 == A ? lineA2 : winIdx1 == B ? lineB2 : lineC2; l2 = winIdx2 == A ? lineA2 : winIdx2 == B ? lineB2 : lineC2; ++l1; ++l2; if((line1 >= l1 && line2 < l2) || (line1 < l1 && line2 >= l2)) return false; } return true; } -static bool runDiff(const LineData* p1, LineRef size1, const LineData* p2, LineRef size2, DiffList& diffList, +static bool runDiff(const QVector* p1, const qint32 index1, LineRef size1, const QVector* p2, const qint32 index2, LineRef size2, DiffList& diffList, Options* pOptions) { ProgressProxy pp; static GnuDiff gnuDiff; // All values are initialized with zeros. pp.setCurrent(0); diffList.clear(); - if(p1 == nullptr || p1[0].getLine() == nullptr || p2 == nullptr || p2[0].getLine() == nullptr || size1 == 0 || size2 == 0) + if(p1 == nullptr || (*p1)[index1].getLine() == nullptr || p2 == nullptr || (*p2)[index2].getLine() == nullptr || size1 == 0 || size2 == 0) { Diff d(0, 0, 0); - if(p1 != nullptr && p2 != nullptr && p1[0].getLine() == nullptr && p2[0].getLine() == nullptr && size1 == size2) + if(p1 != nullptr && p2 != nullptr && (*p1)[index1].getLine() == nullptr && (*p2)[index2].getLine() == nullptr && size1 == size2) d.nofEquals = size1; else { d.diff1 = size1; d.diff2 = size2; } diffList.push_back(d); } else { GnuDiff::comparison comparisonInput; memset(&comparisonInput, 0, sizeof(comparisonInput)); comparisonInput.parent = nullptr; - comparisonInput.file[0].buffer = p1[0].getLine(); //ptr to buffer - comparisonInput.file[0].buffered = (p1[size1 - 1].getLine() - p1[0].getLine() + p1[size1 - 1].size()); // size of buffer - comparisonInput.file[1].buffer = p2[0].getLine(); //ptr to buffer - comparisonInput.file[1].buffered = (p2[size2 - 1].getLine() - p2[0].getLine() + p2[size2 - 1].size()); // size of buffer + comparisonInput.file[0].buffer = (*p1)[index1].getLine(); //ptr to buffer + comparisonInput.file[0].buffered = ((*p1)[size1 - 1].getLine() - (*p1)[index1].getLine() + (*p1)[size1 - 1].size()); // size of buffer + comparisonInput.file[1].buffer = (*p2)[index2].getLine(); //ptr to buffer + comparisonInput.file[1].buffered = ((*p2)[size2 - 1].getLine() - (*p2)[index2].getLine() + (*p2)[size2 - 1].size()); // size of buffer gnuDiff.ignore_white_space = GnuDiff::IGNORE_ALL_SPACE; // I think nobody needs anything else ... gnuDiff.bIgnoreWhiteSpace = true; gnuDiff.bIgnoreNumbers = pOptions->m_bIgnoreNumbers; gnuDiff.minimal = pOptions->m_bTryHard; gnuDiff.ignore_case = false; GnuDiff::change* script = gnuDiff.diff_2_files(&comparisonInput); LineRef equalLinesAtStart = (LineRef)comparisonInput.file[0].prefix_lines; LineRef currentLine1 = 0; LineRef currentLine2 = 0; GnuDiff::change* p = nullptr; for(GnuDiff::change* e = script; e; e = p) { Diff d(0, 0, 0); d.nofEquals = (LineRef)(e->line0 - currentLine1); Q_ASSERT(d.nofEquals == e->line1 - currentLine2); d.diff1 = e->deleted; d.diff2 = e->inserted; currentLine1 += (LineRef)(d.nofEquals + d.diff1); currentLine2 += (LineRef)(d.nofEquals + d.diff2); diffList.push_back(d); p = e->link; free(e); } if(diffList.empty()) { Diff d(0, 0, 0); d.nofEquals = std::min(size1, size2); d.diff1 = size1 - d.nofEquals; d.diff2 = size2 - d.nofEquals; diffList.push_back(d); } else { diffList.front().nofEquals += equalLinesAtStart; currentLine1 += equalLinesAtStart; currentLine2 += equalLinesAtStart; LineRef nofEquals = std::min(size1 - currentLine1, size2 - currentLine2); if(nofEquals == 0) { diffList.back().diff1 += size1 - currentLine1; diffList.back().diff2 += size2 - currentLine2; } else { Diff d(nofEquals, size1 - currentLine1 - nofEquals, size2 - currentLine2 - nofEquals); diffList.push_back(d); } } } // Verify difflist { LineRef::LineType l1 = 0; LineRef::LineType l2 = 0; DiffList::iterator i; for(i = diffList.begin(); i != diffList.end(); ++i) { l1 += i->nofEquals + i->diff1; l2 += i->nofEquals + i->diff2; } Q_ASSERT(l1 == size1 && l2 == size2); } pp.setCurrent(1); return true; } -bool ManualDiffHelpList::runDiff(const LineData* p1, LineRef size1, const LineData* p2, LineRef size2, DiffList& diffList, +bool ManualDiffHelpList::runDiff(const QVector* p1, LineRef size1, const QVector* p2, LineRef size2, DiffList& diffList, e_SrcSelector winIdx1, e_SrcSelector winIdx2, Options* pOptions) { diffList.clear(); DiffList diffList2; int l1begin = 0; int l2begin = 0; ManualDiffHelpList::const_iterator i; for(i = begin(); i != end(); ++i) { const ManualDiffHelpEntry& mdhe = *i; int l1end = mdhe.getLine1(winIdx1); int l2end = mdhe.getLine1(winIdx2); if(l1end >= 0 && l2end >= 0) { - ::runDiff(p1 + l1begin, l1end - l1begin, p2 + l2begin, l2end - l2begin, diffList2, pOptions); + ::runDiff(p1, l1begin, l1end - l1begin, p2, l2begin, l2end - l2begin, diffList2, pOptions); diffList.splice(diffList.end(), diffList2); l1begin = l1end; l2begin = l2end; l1end = mdhe.getLine2(winIdx1); l2end = mdhe.getLine2(winIdx2); if(l1end >= 0 && l2end >= 0) { ++l1end; // point to line after last selected line ++l2end; - ::runDiff(p1 + l1begin, l1end - l1begin, p2 + l2begin, l2end - l2begin, diffList2, pOptions); + ::runDiff(p1, l1begin, l1end - l1begin, p2, l2begin, l2end - l2begin, diffList2, pOptions); diffList.splice(diffList.end(), diffList2); l1begin = l1end; l2begin = l2end; } } } - ::runDiff(p1 + l1begin, size1 - l1begin, p2 + l2begin, size2 - l2begin, diffList2, pOptions); + ::runDiff(p1, l1begin, size1 - l1begin, p2, l2begin, size2 - l2begin, diffList2, pOptions); diffList.splice(diffList.end(), diffList2); return true; } void correctManualDiffAlignment(Diff3LineList& d3ll, ManualDiffHelpList* pManualDiffHelpList) { if(pManualDiffHelpList->empty()) return; // If a line appears unaligned in comparison to the manual alignment, correct this. ManualDiffHelpList::iterator iMDHL; for(iMDHL = pManualDiffHelpList->begin(); iMDHL != pManualDiffHelpList->end(); ++iMDHL) { Diff3LineList::iterator i3 = d3ll.begin(); e_SrcSelector missingWinIdx = None; int alignedSum = (iMDHL->getLine1(A) < 0 ? 0 : 1) + (iMDHL->getLine1(B) < 0 ? 0 : 1) + (iMDHL->getLine1(C) < 0 ? 0 : 1); if(alignedSum == 2) { // If only A & B are aligned then let C rather be aligned with A // If only A & C are aligned then let B rather be aligned with A // If only B & C are aligned then let A rather be aligned with B missingWinIdx = iMDHL->getLine1(A) < 0 ? A : (iMDHL->getLine1(B) < 0 ? B : C); } else if(alignedSum <= 1) { return; } // At the first aligned line, move up the two other lines into new d3ls until the second input is aligned // Then move up the third input until all three lines are aligned. int wi = None; for(; i3 != d3ll.end(); ++i3) { for(wi = A; wi <= Max; ++wi) { if(i3->getLineInFile((e_SrcSelector)wi) >= 0 && iMDHL->firstLine((e_SrcSelector)wi) == i3->getLineInFile((e_SrcSelector)wi)) break; } if(wi <= Max) break; } if(wi >= A && wi <= Max) { // Found manual alignment for one source Diff3LineList::iterator iDest = i3; // Move lines up until the next firstLine is found. Omit wi from move and search. int wi2 = None; for(; i3 != d3ll.end(); ++i3) { for(wi2 = A; wi2 <= C; ++wi2) { if(wi != wi2 && i3->getLineInFile((e_SrcSelector)wi2) >= 0 && iMDHL->firstLine((e_SrcSelector)wi2) == i3->getLineInFile((e_SrcSelector)wi2)) break; } if(wi2 > C) { // Not yet found // Move both others up Diff3Line d3l; // Move both up if(wi == A) // Move B and C up { d3l.bBEqC = i3->isEqualBC(); d3l.setLineB(i3->getLineB()); d3l.setLineC(i3->getLineC()); i3->getLineB().invalidate(); i3->getLineC().invalidate(); } if(wi == B) // Move A and C up { d3l.bAEqC = i3->isEqualAC(); d3l.setLineA(i3->getLineA()); d3l.setLineC(i3->getLineC()); i3->getLineA().invalidate(); i3->getLineC().invalidate(); } if(wi == C) // Move A and B up { d3l.bAEqB = i3->isEqualAB(); d3l.setLineA(i3->getLineA()); d3l.setLineB(i3->getLineB()); i3->getLineA().invalidate(); i3->getLineB().invalidate(); } i3->bAEqB = false; i3->bAEqC = false; i3->bBEqC = false; d3ll.insert(iDest, d3l); } else { // align the found line with the line we already have here if(i3 != iDest) { if(wi2 == A) { iDest->setLineA(i3->getLineA()); i3->getLineA().invalidate(); i3->bAEqB = false; i3->bAEqC = false; } else if(wi2 == B) { iDest->setLineB(i3->getLineB()); i3->getLineB().invalidate(); i3->bAEqB = false; i3->bBEqC = false; } else if(wi2 == C) { iDest->setLineC(i3->getLineC()); i3->getLineC().invalidate(); i3->bBEqC = false; i3->bAEqC = false; } } if(missingWinIdx != 0) { for(; i3 != d3ll.end(); ++i3) { e_SrcSelector wi3 = missingWinIdx; if(i3->getLineInFile((e_SrcSelector)wi3) >= 0) { // not found, move the line before iDest Diff3Line d3l; if(wi3 == A) { if(i3->isEqualAB()) // Stop moving lines up if one equal is found. break; d3l.setLineA(i3->getLineA()); i3->getLineA().invalidate(); i3->bAEqB = false; i3->bAEqC = false; } if(wi3 == B) { if(i3->isEqualAB()) break; d3l.setLineB(i3->getLineB()); i3->getLineB().invalidate(); i3->bAEqB = false; i3->bBEqC = false; } if(wi3 == C) { if(i3->isEqualAC()) break; d3l.setLineC(i3->getLineC()); i3->getLineC().invalidate(); i3->bAEqC = false; i3->bBEqC = false; } d3ll.insert(iDest, d3l); } } // for(), searching for wi3 } break; } } // for(), searching for wi2 } // if, wi found } // for (iMDHL) } // Fourth step void calcDiff3LineListTrim( - Diff3LineList& d3ll, const LineData* pldA, const LineData* pldB, const LineData* pldC, ManualDiffHelpList* pManualDiffHelpList) + Diff3LineList& d3ll, const QVector* pldA, const QVector* pldB, const QVector* pldC, ManualDiffHelpList* pManualDiffHelpList) { const Diff3Line d3l_empty; d3ll.remove(d3l_empty); Diff3LineList::iterator i3 = d3ll.begin(); Diff3LineList::iterator i3A = d3ll.begin(); Diff3LineList::iterator i3B = d3ll.begin(); Diff3LineList::iterator i3C = d3ll.begin(); int line = 0; // diff3line counters int lineA = 0; // int lineB = 0; int lineC = 0; ManualDiffHelpList::iterator iMDHL = pManualDiffHelpList->begin(); // The iterator i3 and the variable line look ahead. // The iterators i3A, i3B, i3C and corresponding lineA, lineB and lineC stop at empty lines, if found. // If possible, then the texts from the look ahead will be moved back to the empty places. for(; i3 != d3ll.end(); ++i3, ++line) { if(iMDHL != pManualDiffHelpList->end()) { if((i3->getLineA().isValid() && i3->getLineA() == iMDHL->getLine1(A)) || (i3->getLineB().isValid() && i3->getLineB() == iMDHL->getLine1(B)) || (i3->getLineC().isValid() && i3->getLineC() == iMDHL->getLine1(C))) { i3A = i3; i3B = i3; i3C = i3; lineA = line; lineB = line; lineC = line; ++iMDHL; } } if(line > lineA && i3->getLineA().isValid() && i3A->getLineB().isValid() && i3A->isEqualBC() && - LineData::equal(pldA[i3->getLineA()], pldB[i3A->getLineB()], false) && + LineData::equal((*pldA)[i3->getLineA()], (*pldB)[i3A->getLineB()], false) && pManualDiffHelpList->isValidMove(i3->getLineA(), i3A->getLineB(), A, B) && pManualDiffHelpList->isValidMove(i3->getLineA(), i3A->getLineC(), A, C)) { // Empty space for A. A matches B and C in the empty line. Move it up. i3A->setLineA(i3->getLineA()); i3A->bAEqB = true; i3A->bAEqC = true; i3->getLineA().invalidate(); i3->bAEqB = false; i3->bAEqC = false; ++i3A; ++lineA; } if(line > lineB && i3->getLineB().isValid() && i3B->getLineA().isValid() && i3B->isEqualAC() && - LineData::equal(pldB[i3->getLineB()], pldA[i3B->getLineA()], false) && + LineData::equal((*pldB)[i3->getLineB()], (*pldA)[i3B->getLineA()], false) && pManualDiffHelpList->isValidMove(i3->getLineB(), i3B->getLineA(), B, A) && pManualDiffHelpList->isValidMove(i3->getLineB(), i3B->getLineC(), B, C)) { // Empty space for B. B matches A and C in the empty line. Move it up. i3B->setLineB(i3->getLineB()); i3B->bAEqB = true; i3B->bBEqC = true; i3->getLineB().invalidate(); i3->bAEqB = false; i3->bBEqC = false; ++i3B; ++lineB; } if(line > lineC && i3->getLineC().isValid() && i3C->getLineA().isValid() && i3C->isEqualAB() && - LineData::equal(pldC[i3->getLineC()], pldA[i3C->getLineA()], false) && + LineData::equal((*pldC)[i3->getLineC()], (*pldA)[i3C->getLineA()], false) && pManualDiffHelpList->isValidMove(i3->getLineC(), i3C->getLineA(), C, A) && pManualDiffHelpList->isValidMove(i3->getLineC(), i3C->getLineB(), C, B)) { // Empty space for C. C matches A and B in the empty line. Move it up. i3C->setLineC(i3->getLineC()); i3C->bAEqC = true; i3C->bBEqC = true; i3->getLineC().invalidate(); i3->bAEqC = false; i3->bBEqC = false; ++i3C; ++lineC; } if(line > lineA && i3->getLineA().isValid() && !i3->isEqualAB() && !i3->isEqualAC() && pManualDiffHelpList->isValidMove(i3->getLineA(), i3A->getLineB(), A, B) && pManualDiffHelpList->isValidMove(i3->getLineA(), i3A->getLineC(), A, C)) { // Empty space for A. A doesn't match B or C. Move it up. i3A->setLineA(i3->getLineA()); i3->getLineA().invalidate(); - if(i3A->getLineB().isValid() && LineData::equal(pldA[i3A->getLineA()], pldB[i3A->getLineB()], false)) + if(i3A->getLineB().isValid() && LineData::equal((*pldA)[i3A->getLineA()], (*pldB)[i3A->getLineB()], false)) { i3A->bAEqB = true; } if((i3A->isEqualAB() && i3A->isEqualBC()) || - (i3A->getLineC().isValid() && LineData::equal(pldA[i3A->getLineA()], pldC[i3A->getLineC()], false))) + (i3A->getLineC().isValid() && LineData::equal((*pldA)[i3A->getLineA()], (*pldC)[i3A->getLineC()], false))) { i3A->bAEqC = true; } ++i3A; ++lineA; } if(line > lineB && i3->getLineB().isValid() && !i3->isEqualAB() && !i3->isEqualBC() && pManualDiffHelpList->isValidMove(i3->getLineB(), i3B->getLineA(), B, A) && pManualDiffHelpList->isValidMove(i3->getLineB(), i3B->getLineC(), B, C)) { // Empty space for B. B matches neither A nor C. Move B up. i3B->setLineB(i3->getLineB()); i3->getLineB().invalidate(); - if(i3B->getLineA().isValid() && LineData::equal(pldA[i3B->getLineA()], pldB[i3B->getLineB()], false)) + if(i3B->getLineA().isValid() && LineData::equal((*pldA)[i3B->getLineA()], (*pldB)[i3B->getLineB()], false)) { i3B->bAEqB = true; } if((i3B->isEqualAB() && i3B->isEqualAC()) || - (i3B->getLineC().isValid() && LineData::equal(pldB[i3B->getLineB()], pldC[i3B->getLineC()], false))) + (i3B->getLineC().isValid() && LineData::equal((*pldB)[i3B->getLineB()], (*pldC)[i3B->getLineC()], false))) { i3B->bBEqC = true; } ++i3B; ++lineB; } if(line > lineC && i3->getLineC().isValid() && !i3->isEqualAC() && !i3->isEqualBC() && pManualDiffHelpList->isValidMove(i3->getLineC(), i3C->getLineA(), C, A) && pManualDiffHelpList->isValidMove(i3->getLineC(), i3C->getLineB(), C, B)) { // Empty space for C. C matches neither A nor B. Move C up. i3C->setLineC(i3->getLineC()); i3->getLineC().invalidate(); - if(i3C->getLineA().isValid() && LineData::equal(pldA[i3C->getLineA()], pldC[i3C->getLineC()], false)) + if(i3C->getLineA().isValid() && LineData::equal((*pldA)[i3C->getLineA()], (*pldC)[i3C->getLineC()], false)) { i3C->bAEqC = true; } if((i3C->isEqualAC() && i3C->isEqualAB()) || - (i3C->getLineB().isValid() && LineData::equal(pldB[i3C->getLineB()], pldC[i3C->getLineC()], false))) + (i3C->getLineB().isValid() && LineData::equal((*pldB)[i3C->getLineB()], (*pldC)[i3C->getLineC()], false))) { i3C->bBEqC = true; } ++i3C; ++lineC; } if(line > lineA && line > lineB && i3->getLineA().isValid() && i3->isEqualAB() && !i3->isEqualAC()) { // Empty space for A and B. A matches B, but not C. Move A & B up. Diff3LineList::iterator i = lineA > lineB ? i3A : i3B; int l = lineA > lineB ? lineA : lineB; if(pManualDiffHelpList->isValidMove(i->getLineC(), i3->getLineA(), C, A) && pManualDiffHelpList->isValidMove(i->getLineC(), i3->getLineB(), C, B)) { i->setLineA(i3->getLineA()); i->setLineB(i3->getLineB()); i->bAEqB = true; - if(i->getLineC().isValid() && LineData::equal(pldA[i->getLineA()], pldC[i->getLineC()], false)) + if(i->getLineC().isValid() && LineData::equal((*pldA)[i->getLineA()], (*pldC)[i->getLineC()], false)) { i->bAEqC = true; i->bBEqC = true; } i3->getLineA().invalidate(); i3->getLineB().invalidate(); i3->bAEqB = false; i3A = i; i3B = i; ++i3A; ++i3B; lineA = l + 1; lineB = l + 1; } } else if(line > lineA && line > lineC && i3->getLineA().isValid() && i3->isEqualAC() && !i3->isEqualAB()) { // Empty space for A and C. A matches C, but not B. Move A & C up. Diff3LineList::iterator i = lineA > lineC ? i3A : i3C; int l = lineA > lineC ? lineA : lineC; if(pManualDiffHelpList->isValidMove(i->getLineB(), i3->getLineA(), B, A) && pManualDiffHelpList->isValidMove(i->getLineB(), i3->getLineC(), B, C)) { i->setLineA(i3->getLineA()); i->setLineC(i3->getLineC()); i->bAEqC = true; - if(i->getLineB().isValid() && LineData::equal(pldA[i->getLineA()], pldB[i->getLineB()], false)) + if(i->getLineB().isValid() && LineData::equal((*pldA)[i->getLineA()], (*pldB)[i->getLineB()], false)) { i->bAEqB = true; i->bBEqC = true; } i3->getLineA().invalidate(); i3->getLineC().invalidate(); i3->bAEqC = false; i3A = i; i3C = i; ++i3A; ++i3C; lineA = l + 1; lineC = l + 1; } } else if(line > lineB && line > lineC && i3->getLineB().isValid() && i3->isEqualBC() && !i3->isEqualAC()) { // Empty space for B and C. B matches C, but not A. Move B & C up. Diff3LineList::iterator i = lineB > lineC ? i3B : i3C; int l = lineB > lineC ? lineB : lineC; if(pManualDiffHelpList->isValidMove(i->getLineA(), i3->getLineB(), A, B) && pManualDiffHelpList->isValidMove(i->getLineA(), i3->getLineC(), A, C)) { i->setLineB(i3->getLineB()); i->setLineC(i3->getLineC()); i->bBEqC = true; - if(i->getLineA().isValid() && LineData::equal(pldA[i->getLineA()], pldB[i->getLineB()], false)) + if(i->getLineA().isValid() && LineData::equal((*pldA)[i->getLineA()], (*pldB)[i->getLineB()], false)) { i->bAEqB = true; i->bAEqC = true; } i3->getLineB().invalidate(); i3->getLineC().invalidate(); i3->bBEqC = false; i3B = i; i3C = i; ++i3B; ++i3C; lineB = l + 1; lineC = l + 1; } } if(i3->getLineA().isValid()) { lineA = line + 1; i3A = i3; ++i3A; } if(i3->getLineB().isValid()) { lineB = line + 1; i3B = i3; ++i3B; } if(i3->getLineC().isValid()) { lineC = line + 1; i3C = i3; ++i3C; } } d3ll.remove(d3l_empty); /* Diff3LineList::iterator it = d3ll.begin(); int li=0; for( ; it!=d3ll.end(); ++it, ++li ) { printf( "%4d %4d %4d %4d A%c=B A%c=C B%c=C\n", li, it->getLineA(), it->getLineB(), it->getLineC(), it->isEqualAB() ? '=' : '!', it->isEqualAC() ? '=' : '!', it->isEqualBC() ? '=' : '!' ); } */ } void DiffBufferInfo::init(Diff3LineList* pD3ll, const Diff3LineVector* pD3lv, - const LineData* pldA, LineCount sizeA, const LineData* pldB, LineCount sizeB, const LineData* pldC, LineCount sizeC) + const QVector* pldA, LineCount sizeA, const QVector* pldB, LineCount sizeB, const QVector* pldC, LineCount sizeC) { m_pDiff3LineList = pD3ll; m_pDiff3LineVector = pD3lv; m_pLineDataA = pldA; m_pLineDataB = pldB; m_pLineDataC = pldC; m_sizeA = sizeA; m_sizeB = sizeB; m_sizeC = sizeC; Diff3LineList::iterator i3 = pD3ll->begin(); for(; i3 != pD3ll->end(); ++i3) { i3->m_pDiffBufferInfo = this; } } void Diff3LineList::calcWhiteDiff3Lines( - const LineData* pldA, const LineData* pldB, const LineData* pldC) + const QVector* pldA, const QVector* pldB, const QVector* pldC) { Diff3LineList::iterator i3; for(i3 = begin(); i3 != end(); ++i3) { - i3->bWhiteLineA = (!i3->getLineA().isValid() || pldA == nullptr || pldA[i3->getLineA()].whiteLine() || pldA[i3->getLineA()].isPureComment()); - i3->bWhiteLineB = (!i3->getLineA().isValid() || pldB == nullptr || pldB[i3->getLineB()].whiteLine() || pldB[i3->getLineB()].isPureComment()); - i3->bWhiteLineC = (!i3->getLineC().isValid() || pldC == nullptr || pldC[i3->getLineC()].whiteLine() || pldC[i3->getLineC()].isPureComment()); + i3->bWhiteLineA = (!i3->getLineA().isValid() || pldA == nullptr || (*pldA)[i3->getLineA()].whiteLine() || (*pldA)[i3->getLineA()].isPureComment()); + i3->bWhiteLineB = (!i3->getLineA().isValid() || pldB == nullptr || (*pldB)[i3->getLineB()].whiteLine() || (*pldB)[i3->getLineB()].isPureComment()); + i3->bWhiteLineC = (!i3->getLineC().isValid() || pldC == nullptr || (*pldC)[i3->getLineC()].whiteLine() || (*pldC)[i3->getLineC()].isPureComment()); } } // My own diff-invention: void calcDiff(const QChar* p1, LineRef size1, const QChar* p2, LineRef size2, DiffList& diffList, int match, int maxSearchRange) { diffList.clear(); const QChar* p1start = p1; const QChar* p2start = p2; const QChar* p1end = p1 + size1; const QChar* p2end = p2 + size2; for(;;) { int nofEquals = 0; while(p1 != p1end && p2 != p2end && *p1 == *p2) { ++p1; ++p2; ++nofEquals; } bool bBestValid = false; int bestI1 = 0; int bestI2 = 0; int i1 = 0; int i2 = 0; for(i1 = 0;; ++i1) { if(&p1[i1] == p1end || (bBestValid && i1 >= bestI1 + bestI2)) { break; } for(i2 = 0; i2 < maxSearchRange; ++i2) { if(&p2[i2] == p2end || (bBestValid && i1 + i2 >= bestI1 + bestI2)) { break; } else if(p2[i2] == p1[i1] && (match == 1 || abs(i1 - i2) < 3 || (&p2[i2 + 1] == p2end && &p1[i1 + 1] == p1end) || (&p2[i2 + 1] != p2end && &p1[i1 + 1] != p1end && p2[i2 + 1] == p1[i1 + 1]))) { if(i1 + i2 < bestI1 + bestI2 || !bBestValid) { bestI1 = i1; bestI2 = i2; bBestValid = true; break; } } } } // The match was found using the strict search. Go back if there are non-strict // matches. while(bestI1 >= 1 && bestI2 >= 1 && p1[bestI1 - 1] == p2[bestI2 - 1]) { --bestI1; --bestI2; } bool bEndReached = false; if(bBestValid) { // continue somehow Diff d(nofEquals, bestI1, bestI2); diffList.push_back(d); p1 += bestI1; p2 += bestI2; } else { // Nothing else to match. Diff d(nofEquals, p1end - p1, p2end - p2); diffList.push_back(d); bEndReached = true; //break; } // Sometimes the algorithm that chooses the first match unfortunately chooses // a match where later actually equal parts don't match anymore. // A different match could be achieved, if we start at the end. // Do it, if it would be a better match. int nofUnmatched = 0; const QChar* pu1 = p1 - 1; const QChar* pu2 = p2 - 1; while(pu1 >= p1start && pu2 >= p2start && *pu1 == *pu2) { ++nofUnmatched; --pu1; --pu2; } Diff d = diffList.back(); if(nofUnmatched > 0) { // We want to go backwards the nofUnmatched elements and redo // the matching d = diffList.back(); Diff origBack = d; diffList.pop_back(); while(nofUnmatched > 0) { if(d.diff1 > 0 && d.diff2 > 0) { --d.diff1; --d.diff2; --nofUnmatched; } else if(d.nofEquals > 0) { --d.nofEquals; --nofUnmatched; } if(d.nofEquals == 0 && (d.diff1 == 0 || d.diff2 == 0) && nofUnmatched > 0) { if(diffList.empty()) break; d.nofEquals += diffList.back().nofEquals; d.diff1 += diffList.back().diff1; d.diff2 += diffList.back().diff2; diffList.pop_back(); bEndReached = false; } } if(bEndReached) diffList.push_back(origBack); else { p1 = pu1 + 1 + nofUnmatched; p2 = pu2 + 1 + nofUnmatched; diffList.push_back(d); } } if(bEndReached) break; } // Verify difflist { LineRef l1 = 0; LineRef l2 = 0; DiffList::iterator i; for(i = diffList.begin(); i != diffList.end(); ++i) { l1 += (LineRef)(i->nofEquals + i->diff1); l2 += (LineRef)(i->nofEquals + i->diff2); } Q_ASSERT(l1 == size1 && l2 == size2); } } -bool Diff3Line::fineDiff(bool inBTextsTotalEqual, const e_SrcSelector selector, const LineData* v1, const LineData* v2) +bool Diff3Line::fineDiff(bool inBTextsTotalEqual, const e_SrcSelector selector, const QVector* v1, const QVector* v2) { LineRef k1 = 0; LineRef k2 = 0; int maxSearchLength = 500; bool bTextsTotalEqual = inBTextsTotalEqual; Q_ASSERT(selector == A || selector == B || selector == C); if(selector == A) { k1 = getLineA(); k2 = getLineB(); } else if(selector == B) { k1 = getLineB(); k2 = getLineC(); } else if(selector == C) { k1 = getLineC(); k2 = getLineA(); } qDebug(kdiffCore) << "k1 = " << k1 << ", k2 = " << k2; if((!k1.isValid() && k2.isValid()) || (k1.isValid() && !k2.isValid())) bTextsTotalEqual = false; if(k1.isValid() && k2.isValid()) { - if(v1[k1].size() != v2[k2].size() || memcmp(v1[k1].getLine(), v2[k2].getLine(), v1[k1].size() << 1) != 0) + if((*v1)[k1].size() != (*v2)[k2].size() || memcmp((*v1)[k1].getLine(), (*v2)[k2].getLine(), (*v1)[k1].size() << 1) != 0) { bTextsTotalEqual = false; DiffList* pDiffList = new DiffList; - calcDiff(v1[k1].getLine(), v1[k1].size(), v2[k2].getLine(), v2[k2].size(), *pDiffList, 2, maxSearchLength); + calcDiff((*v1)[k1].getLine(), (*v1)[k1].size(), (*v2)[k2].getLine(), (*v2)[k2].size(), *pDiffList, 2, maxSearchLength); // Optimize the diff list. DiffList::iterator dli; bool bUsefulFineDiff = false; for(dli = pDiffList->begin(); dli != pDiffList->end(); ++dli) { if(dli->nofEquals >= 4) { bUsefulFineDiff = true; break; } } for(dli = pDiffList->begin(); dli != pDiffList->end(); ++dli) { if(dli->nofEquals < 4 && (dli->diff1 > 0 || dli->diff2 > 0) && !(bUsefulFineDiff && dli == pDiffList->begin())) { dli->diff1 += dli->nofEquals; dli->diff2 += dli->nofEquals; dli->nofEquals = 0; } } setFineDiff(selector, pDiffList); } - if((v1[k1].isPureComment() || v1[k1].whiteLine()) && (v2[k2].isPureComment() || v2[k2].whiteLine())) + if(((*v1)[k1].isPureComment() || (*v1)[k1].whiteLine()) && ((*v2)[k2].isPureComment() || (*v2)[k2].whiteLine())) { if(selector == A) { bAEqB = true; } else if(selector == B) { bBEqC = true; } else if(selector == C) { bAEqC = true; } } } return bTextsTotalEqual; } void Diff3Line::getLineInfo(const e_SrcSelector winIdx, const bool isTriple, int& lineIdx, DiffList*& pFineDiff1, DiffList*& pFineDiff2, // return values int& changed, int& changed2) const { changed = 0; changed2 = 0; bool bAEqualB = this->isEqualAB() || (bWhiteLineA && bWhiteLineB); bool bAEqualC = this->isEqualAC() || (bWhiteLineA && bWhiteLineC); bool bBEqualC = this->isEqualBC() || (bWhiteLineB && bWhiteLineC); Q_ASSERT(winIdx >= A && winIdx <= C); if(winIdx == A) { lineIdx = getLineA(); pFineDiff1 = pFineAB; pFineDiff2 = pFineCA; changed |= ((!getLineB().isValid()) != (lineIdx == -1) ? 1 : 0) + ((!getLineC().isValid()) != (lineIdx == -1) && isTriple ? 2 : 0); changed2 |= (bAEqualB ? 0 : 1) + (bAEqualC || !isTriple ? 0 : 2); } else if(winIdx == B) { lineIdx = getLineB(); pFineDiff1 = pFineBC; pFineDiff2 = pFineAB; changed |= ((!getLineC().isValid()) != (lineIdx == -1) && isTriple ? 1 : 0) + ((!getLineA().isValid()) != (lineIdx == -1) ? 2 : 0); changed2 |= (bBEqualC || !isTriple ? 0 : 1) + (bAEqualB ? 0 : 2); } else if(winIdx == C) { lineIdx = getLineC(); pFineDiff1 = pFineCA; pFineDiff2 = pFineBC; changed |= ((!getLineA().isValid()) != (lineIdx == -1) ? 1 : 0) + ((!getLineB().isValid()) != (lineIdx == -1) ? 2 : 0); changed2 |= (bAEqualC ? 0 : 1) + (bBEqualC ? 0 : 2); } } -bool Diff3LineList::fineDiff(const e_SrcSelector selector, const LineData* v1, const LineData* v2) +bool Diff3LineList::fineDiff(const e_SrcSelector selector, const QVector* v1, const QVector* v2) { // Finetuning: Diff each line with deltas ProgressProxy pp; Diff3LineList::iterator i; bool bTextsTotalEqual = true; int listSize = size(); pp.setMaxNofSteps(listSize); int listIdx = 0; for(i = begin(); i != end(); ++i) { bTextsTotalEqual = i->fineDiff(bTextsTotalEqual, selector, v1, v2); ++listIdx; pp.step(); } return bTextsTotalEqual; } // Convert the list to a vector of pointers void Diff3LineList::calcDiff3LineVector(Diff3LineVector& d3lv) { d3lv.resize(size()); Diff3LineList::iterator i; int j = 0; for(i = begin(); i != end(); ++i, ++j) { d3lv[j] = &(*i); } Q_ASSERT(j == d3lv.size()); } diff --git a/src/diff.h b/src/diff.h index b65eec2..3ce8e71 100644 --- a/src/diff.h +++ b/src/diff.h @@ -1,433 +1,433 @@ /*************************************************************************** * Copyright (C) 2003-2007 by Joachim Eibl * * Copyright (C) 2018 Michael Reeves reeves.87@gmail.com * * * * 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. * * * ***************************************************************************/ #ifndef DIFF_H #define DIFF_H #include "common.h" #include "fileaccess.h" #include "options.h" #include "gnudiff_diff.h" #include "SourceData.h" #include "Logging.h" #include //enum must be sequential with no gaps to allow loop interiation of values enum e_SrcSelector { Min = -1, Invalid=-1, None=0, A = 1, B = 2, C = 3, Max=C }; enum e_MergeDetails { eDefault, eNoChange, eBChanged, eCChanged, eBCChanged, // conflict eBCChangedAndEqual, // possible conflict eBDeleted, eCDeleted, eBCDeleted, // possible conflict eBChanged_CDeleted, // conflict eCChanged_BDeleted, // conflict eBAdded, eCAdded, eBCAdded, // conflict eBCAddedAndEqual // possible conflict }; // Each range with matching elements is followed by a range with differences on either side. // Then again range of matching elements should follow. class Diff { public: LineCount nofEquals; qint64 diff1; qint64 diff2; Diff(LineCount eq, qint64 d1, qint64 d2) { nofEquals = eq; diff1 = d1; diff2 = d2; } }; typedef std::list DiffList; class LineData { private: const QChar* pLine = nullptr; const QChar* pFirstNonWhiteChar = nullptr; int mSize = 0; bool bContainsPureComment = false; public: inline int size() const { return mSize; } inline void setSize(const int newSize) { mSize = newSize; } inline void setFirstNonWhiteChar(const QChar* firstNonWhiteChar) { pFirstNonWhiteChar = firstNonWhiteChar;} inline const QChar* getFirstNonWhiteChar() const { return pFirstNonWhiteChar; } inline const QChar* getLine() const { return pLine; } inline void setLine(const QChar* line) { pLine = line;} int width(int tabSize) const; // Calcs width considering tabs. //int occurrences; bool whiteLine() const { return pFirstNonWhiteChar - pLine == mSize; } bool isPureComment() const { return bContainsPureComment; } void setPureComment(const bool bPureComment) { bContainsPureComment = bPureComment; } static bool equal(const LineData& l1, const LineData& l2, bool bStrict); }; class Diff3LineList; class Diff3LineVector; class DiffBufferInfo { public: - const LineData* m_pLineDataA; - const LineData* m_pLineDataB; - const LineData* m_pLineDataC; + const QVector* m_pLineDataA; + const QVector* m_pLineDataB; + const QVector* m_pLineDataC; LineCount m_sizeA; LineCount m_sizeB; LineCount m_sizeC; const Diff3LineList* m_pDiff3LineList; const Diff3LineVector* m_pDiff3LineVector; void init(Diff3LineList* d3ll, const Diff3LineVector* d3lv, - const LineData* pldA, LineCount sizeA, const LineData* pldB, LineCount sizeB, const LineData* pldC, LineCount sizeC); + const QVector* pldA, LineCount sizeA, const QVector* pldB, LineCount sizeB, const QVector* pldC, LineCount sizeC); }; class Diff3Line { private: LineRef lineA; LineRef lineB; LineRef lineC; public: bool bAEqC = false; // These are true if equal or only white-space changes exist. bool bBEqC = false; bool bAEqB = false; bool bWhiteLineA = false; bool bWhiteLineB = false; bool bWhiteLineC = false; DiffList* pFineAB = nullptr; // These are 0 only if completely equal or if either source doesn't exist. DiffList* pFineBC = nullptr; DiffList* pFineCA = nullptr; int linesNeededForDisplay = 1; // Due to wordwrap int sumLinesNeededForDisplay = 0; // For fast conversion to m_diff3WrapLineVector DiffBufferInfo* m_pDiffBufferInfo = nullptr; // For convenience ~Diff3Line() { if(pFineAB != nullptr) delete pFineAB; if(pFineBC != nullptr) delete pFineBC; if(pFineCA != nullptr) delete pFineCA; pFineAB = nullptr; pFineBC = nullptr; pFineCA = nullptr; } LineRef getLineA() const { return lineA; } LineRef getLineB() const { return lineB; } LineRef getLineC() const { return lineC; } inline void setLineA(const LineRef& line) { lineA = line; } inline void setLineB(const LineRef& line) { lineB = line; } inline void setLineC(const LineRef& line) { lineC = line; } inline bool isEqualAB() const { return bAEqB; } inline bool isEqualAC() const { return bAEqC; } inline bool isEqualBC() const { return bBEqC; } bool operator==(const Diff3Line& d3l) const { return lineA == d3l.lineA && lineB == d3l.lineB && lineC == d3l.lineC && bAEqB == d3l.bAEqB && bAEqC == d3l.bAEqC && bBEqC == d3l.bBEqC; } const LineData* getLineData(e_SrcSelector src) const { Q_ASSERT(m_pDiffBufferInfo != nullptr); - if(src == A && lineA >= 0) return &m_pDiffBufferInfo->m_pLineDataA[lineA]; - if(src == B && lineB >= 0) return &m_pDiffBufferInfo->m_pLineDataB[lineB]; - if(src == C && lineC >= 0) return &m_pDiffBufferInfo->m_pLineDataC[lineC]; + if(src == A && lineA >= 0) return &(*m_pDiffBufferInfo->m_pLineDataA)[lineA]; + if(src == B && lineB >= 0) return &(*m_pDiffBufferInfo->m_pLineDataB)[lineB]; + if(src == C && lineC >= 0) return &(*m_pDiffBufferInfo->m_pLineDataC)[lineC]; return nullptr; } QString getString(const e_SrcSelector src) const { const LineData* pld = getLineData(src); if(pld) return QString(pld->getLine(), pld->size()); else return QString(); } LineRef getLineInFile(e_SrcSelector src) const { if(src == A) return lineA; if(src == B) return lineB; if(src == C) return lineC; return -1; } - bool fineDiff(bool bTextsTotalEqual, const e_SrcSelector selector, const LineData* v1, const LineData* v2); + bool fineDiff(bool bTextsTotalEqual, const e_SrcSelector selector, const QVector* v1, const QVector* v2); void mergeOneLine(e_MergeDetails& mergeDetails, bool& bConflict, bool& bLineRemoved, e_SrcSelector& src, bool bTwoInputs) const; void getLineInfo(const e_SrcSelector winIdx, const bool isTriple, int& lineIdx, DiffList*& pFineDiff1, DiffList*& pFineDiff2, // return values int& changed, int& changed2) const; private: void setFineDiff(const e_SrcSelector selector, DiffList* pDiffList) { Q_ASSERT(selector == A || selector == B || selector == C); if(selector == A) { if(pFineAB != nullptr) delete pFineAB; pFineAB = pDiffList; } else if(selector == B) { if(pFineBC != nullptr) delete pFineBC; pFineBC = pDiffList; } else if(selector == C) { if(pFineCA) delete pFineCA; pFineCA = pDiffList; } } }; class Diff3LineList : public std::list { public: - bool fineDiff(const e_SrcSelector selector, const LineData* v1, const LineData* v2); + bool fineDiff(const e_SrcSelector selector, const QVector* v1, const QVector* v2); void calcDiff3LineVector(Diff3LineVector& d3lv); - void calcWhiteDiff3Lines(const LineData* pldA, const LineData* pldB, const LineData* pldC); + void calcWhiteDiff3Lines(const QVector* pldA, const QVector* pldB, const QVector* pldC); //TODO: Add safety guards to prevent list from getting too large. Same problem as with QLinkedList. int size() const { if(std::list::size() > std::numeric_limits::max()) { qCDebug(kdiffMain) << "Diff3Line: List too large. size=" << std::list::size(); Q_ASSERT(false);//Unsupported size return 0; } return (int)std::list::size(); }//safe for small files same limit as exited with QLinkedList. This should ultimatly be removed. }; class Diff3LineVector : public QVector { }; class Diff3WrapLine { public: Diff3Line* pD3L; int diff3LineIndex; int wrapLineOffset; int wrapLineLength; }; typedef QVector Diff3WrapLineVector; class TotalDiffStatus { public: inline void reset() { bBinaryAEqC = false; bBinaryBEqC = false; bBinaryAEqB = false; bTextAEqC = false; bTextBEqC = false; bTextAEqB = false; nofUnsolvedConflicts = 0; nofSolvedConflicts = 0; nofWhitespaceConflicts = 0; } inline int getUnsolvedConflicts() const { return nofUnsolvedConflicts; } inline void setUnsolvedConflicts(const int unsolved) { nofUnsolvedConflicts = unsolved; } inline int getSolvedConflicts() const { return nofSolvedConflicts; } inline void setSolvedConflicts(const int solved) { nofSolvedConflicts = solved; } inline int getWhitespaceConflicts() const { return nofWhitespaceConflicts; } inline void setWhitespaceConflicts(const int wintespace) { nofWhitespaceConflicts = wintespace; } inline int getNonWhitespaceConflicts() { return getUnsolvedConflicts() + getSolvedConflicts() - getWhitespaceConflicts(); } bool isBinaryEqualAC() const { return bBinaryAEqC; } bool isBinaryEqualBC() const { return bBinaryBEqC; } bool isBinaryEqualAB() const { return bBinaryAEqB; } bool bBinaryAEqC = false; bool bBinaryBEqC = false; bool bBinaryAEqB = false; bool bTextAEqC = false; bool bTextBEqC = false; bool bTextAEqB = false; private: int nofUnsolvedConflicts = 0; int nofSolvedConflicts = 0; int nofWhitespaceConflicts = 0; }; class ManualDiffHelpList; // A list of corresponding ranges // Three corresponding ranges. (Minimum size of a valid range is one line.) class ManualDiffHelpEntry { private: LineRef lineA1; LineRef lineA2; LineRef lineB1; LineRef lineB2; LineRef lineC1; LineRef lineC2; public: LineRef& firstLine(e_SrcSelector winIdx) { return winIdx == A ? lineA1 : (winIdx == B ? lineB1 : lineC1); } LineRef& lastLine(e_SrcSelector winIdx) { return winIdx == A ? lineA2 : (winIdx == B ? lineB2 : lineC2); } bool isLineInRange(LineRef line, e_SrcSelector winIdx) { return line >= 0 && line >= firstLine(winIdx) && line <= lastLine(winIdx); } bool operator==(const ManualDiffHelpEntry& r) const { return lineA1 == r.lineA1 && lineB1 == r.lineB1 && lineC1 == r.lineC1 && lineA2 == r.lineA2 && lineB2 == r.lineB2 && lineC2 == r.lineC2; } int calcManualDiffFirstDiff3LineIdx(const Diff3LineVector& d3lv); void getRangeForUI(const e_SrcSelector winIdx, int *rangeLine1, int *rangeLine2) const { if(winIdx == A) { *rangeLine1 = lineA1; *rangeLine2 = lineA2; } if(winIdx == B) { *rangeLine1 = lineB1; *rangeLine2 = lineB2; } if(winIdx == C) { *rangeLine1 = lineC1; *rangeLine2 = lineC2; } } inline int getLine1(const e_SrcSelector winIdx) const { return winIdx == A ? lineA1 : winIdx == B ? lineB1 : lineC1;} inline int getLine2(const e_SrcSelector winIdx) const { return winIdx == A ? lineA2 : winIdx == B ? lineB2 : lineC2;} bool isValidMove(int line1, int line2, e_SrcSelector winIdx1, e_SrcSelector winIdx2) const; }; // A list of corresponding ranges class ManualDiffHelpList: public std::list { public: bool isValidMove(int line1, int line2, e_SrcSelector winIdx1, e_SrcSelector winIdx2) const; void insertEntry(e_SrcSelector winIdx, LineRef firstLine, LineRef lastLine); - bool runDiff(const LineData* p1, LineRef size1, const LineData* p2, LineRef size2, DiffList& diffList, + bool runDiff(const QVector* p1, LineRef size1, const QVector* p2, LineRef size2, DiffList& diffList, e_SrcSelector winIdx1, e_SrcSelector winIdx2, Options* pOptions); }; void calcDiff3LineListUsingAB( const DiffList* pDiffListAB, Diff3LineList& d3ll); void calcDiff3LineListUsingAC( const DiffList* pDiffListAC, Diff3LineList& d3ll); void calcDiff3LineListUsingBC( const DiffList* pDiffListBC, Diff3LineList& d3ll); void correctManualDiffAlignment(Diff3LineList& d3ll, ManualDiffHelpList* pManualDiffHelpList); -void calcDiff3LineListTrim(Diff3LineList& d3ll, const LineData* pldA, const LineData* pldB, const LineData* pldC, ManualDiffHelpList* pManualDiffHelpList); +void calcDiff3LineListTrim(Diff3LineList& d3ll, const QVector* pldA, const QVector* pldB, const QVector* pldC, ManualDiffHelpList* pManualDiffHelpList); bool fineDiff( Diff3LineList& diff3LineList, int selector, - const LineData* v1, - const LineData* v2); + const QVector* v1, + const QVector* v2); inline bool isWhite(QChar c) { return c == ' ' || c == '\t' || c == '\r'; } /** Returns the number of equivalent spaces at position outPos. */ inline int tabber(int outPos, int tabSize) { return tabSize - (outPos % tabSize); } /** Returns a line number where the linerange [line, line+nofLines] can be displayed best. If it fits into the currently visible range then the returned value is the current firstLine. */ int getBestFirstLine(int line, int nofLines, int firstLine, int visibleLines); extern bool g_bIgnoreWhiteSpace; extern bool g_bIgnoreTrivialMatches; extern int g_bAutoSolve; // Cursor conversions that consider g_tabSize. int convertToPosInText(const QString& s, int posOnScreen, int tabSize); int convertToPosOnScreen(const QString& s, int posInText, int tabSize); enum e_CoordType { eFileCoords, eD3LLineCoords, eWrapCoords }; void calcTokenPos(const QString&, int posOnScreen, int& pos1, int& pos2, int tabSize); QString calcHistorySortKey(const QString& keyOrder, QRegExp& matchedRegExpr, const QStringList& parenthesesGroupList); bool findParenthesesGroups(const QString& s, QStringList& sl); #endif diff --git a/src/difftextwindow.cpp b/src/difftextwindow.cpp index 5a459b9..a42b35a 100644 --- a/src/difftextwindow.cpp +++ b/src/difftextwindow.cpp @@ -1,2024 +1,2024 @@ /*************************************************************************** * Copyright (C) 2003-2007 by Joachim Eibl * * joachim.eibl at gmx.de * * Copyright (C) 2018 Michael Reeves reeves.87@gmail.com * * * * 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. * * * ***************************************************************************/ #include "difftextwindow.h" #include "selection.h" #include "kdiff3.h" #include "merger.h" #include "options.h" #include "FileNameLineEdit.h" #include "RLPainter.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include QAtomicInt s_runnableCount = 0; class DiffTextWindowData { public: explicit DiffTextWindowData(DiffTextWindow* p) { m_pDiffTextWindow = p; m_pLineData = nullptr; m_size = 0; m_bWordWrap = false; m_delayedDrawTimer = 0; m_pDiff3LineVector = nullptr; m_pManualDiffHelpList = nullptr; m_pOptions = nullptr; m_fastSelectorLine1 = 0; m_fastSelectorNofLines = 0; m_bTriple = false; m_winIdx = None; m_firstLine = 0; m_oldFirstLine = 0; m_horizScrollOffset = 0; m_lineNumberWidth = 0; m_maxTextWidth = -1; m_pStatusBar = nullptr; m_scrollDeltaX = 0; m_scrollDeltaY = 0; m_bMyUpdate = false; m_bSelectionInProgress = false; m_pTextCodec = nullptr; #if defined(Q_OS_WIN) m_eLineEndStyle = eLineEndStyleDos; #else m_eLineEndStyle = eLineEndStyleUnix; #endif } DiffTextWindow* m_pDiffTextWindow; DiffTextWindowFrame* m_pDiffTextWindowFrame = nullptr; QTextCodec* m_pTextCodec; e_LineEndStyle m_eLineEndStyle; - const LineData* m_pLineData; + const QVector* m_pLineData; int m_size; QString m_filename; bool m_bWordWrap; int m_delayedDrawTimer; const Diff3LineVector* m_pDiff3LineVector = nullptr; Diff3WrapLineVector m_diff3WrapLineVector; const ManualDiffHelpList* m_pManualDiffHelpList; class WrapLineCacheData { public: WrapLineCacheData() {} WrapLineCacheData(int d3LineIdx, int textStart, int textLength) : m_d3LineIdx(d3LineIdx), m_textStart(textStart), m_textLength(textLength) {} int m_d3LineIdx = 0; int m_textStart = 0; int m_textLength = 0; }; QList> m_wrapLineCacheList; Options* m_pOptions; QColor m_cThis; QColor m_cDiff1; QColor m_cDiff2; QColor m_cDiffBoth; int m_fastSelectorLine1; int m_fastSelectorNofLines; bool m_bTriple; e_SrcSelector m_winIdx; int m_firstLine; int m_oldFirstLine; int m_horizScrollOffset; int m_lineNumberWidth; QAtomicInt m_maxTextWidth; void getLineInfo( const Diff3Line& d, int& lineIdx, DiffList*& pFineDiff1, DiffList*& pFineDiff2, // return values int& changed, int& changed2); QString getString(int d3lIdx); QString getLineString(int line); void writeLine( RLPainter& p, const LineData* pld, const DiffList* pLineDiff1, const DiffList* pLineDiff2, int line, int whatChanged, int whatChanged2, int srcLineIdx, int wrapLineOffset, int wrapLineLength, bool bWrapLine, const QRect& invalidRect, int deviceWidth); void draw(RLPainter& p, const QRect& invalidRect, int deviceWidth, int beginLine, int endLine); QStatusBar* m_pStatusBar; Selection m_selection; int m_scrollDeltaX; int m_scrollDeltaY; bool m_bMyUpdate; void myUpdate(int afterMilliSecs); int leftInfoWidth() { return 4 + m_lineNumberWidth; } // Nr of information columns on left side int convertLineOnScreenToLineInSource(int lineOnScreen, e_CoordType coordType, bool bFirstLine); bool m_bSelectionInProgress; QPoint m_lastKnownMousePos; void prepareTextLayout(QTextLayout& textLayout, bool bFirstLine, int visibleTextWidth = -1); }; DiffTextWindow::DiffTextWindow( DiffTextWindowFrame* pParent, QStatusBar* pStatusBar, Options* pOptions, e_SrcSelector winIdx) : QWidget(pParent) { setObjectName(QString("DiffTextWindow%1").arg(winIdx)); setAttribute(Qt::WA_OpaquePaintEvent); //setAttribute( Qt::WA_PaintOnScreen ); setUpdatesEnabled(false); d = new DiffTextWindowData(this); d->m_pDiffTextWindowFrame = pParent; setFocusPolicy(Qt::ClickFocus); setAcceptDrops(true); d->m_pOptions = pOptions; init(QString(""), nullptr, d->m_eLineEndStyle, nullptr, 0, nullptr, nullptr, false); setMinimumSize(QSize(20, 20)); d->m_pStatusBar = pStatusBar; setUpdatesEnabled(true); d->m_bWordWrap = false; d->m_winIdx = winIdx; setFont(d->m_pOptions->m_font); } DiffTextWindow::~DiffTextWindow() { delete d; } void DiffTextWindow::init( const QString& filename, QTextCodec* pTextCodec, e_LineEndStyle eLineEndStyle, - const LineData* pLineData, + const QVector* pLineData, int size, const Diff3LineVector* pDiff3LineVector, const ManualDiffHelpList* pManualDiffHelpList, bool bTriple) { d->m_filename = filename; d->m_pLineData = pLineData; d->m_size = size; d->m_pDiff3LineVector = pDiff3LineVector; d->m_diff3WrapLineVector.clear(); d->m_pManualDiffHelpList = pManualDiffHelpList; d->m_firstLine = 0; d->m_oldFirstLine = -1; d->m_horizScrollOffset = 0; d->m_bTriple = bTriple; d->m_scrollDeltaX = 0; d->m_scrollDeltaY = 0; d->m_bMyUpdate = false; d->m_fastSelectorLine1 = 0; d->m_fastSelectorNofLines = 0; d->m_lineNumberWidth = 0; d->m_maxTextWidth = -1; d->m_pTextCodec = pTextCodec; d->m_eLineEndStyle = eLineEndStyle; update(); d->m_pDiffTextWindowFrame->init(); } void DiffTextWindow::reset() { d->m_pLineData = nullptr; d->m_size = 0; d->m_pDiff3LineVector = nullptr; d->m_filename = ""; d->m_diff3WrapLineVector.clear(); } void DiffTextWindow::setPaintingAllowed(bool bAllowPainting) { if(updatesEnabled() != bAllowPainting) { setUpdatesEnabled(bAllowPainting); if(bAllowPainting) update(); else reset(); } } void DiffTextWindow::dragEnterEvent(QDragEnterEvent* e) { e->setAccepted(e->mimeData()->hasUrls() || e->mimeData()->hasText()); // TODO: Move this to DiffTextWindow::dropEvent // Note that the corresponding drop is handled in KDiff3App::eventFilter(). } void DiffTextWindow::setFirstLine(int firstLine) { int fontHeight = fontMetrics().lineSpacing(); LineRef newFirstLine = std::max(0, firstLine); int deltaY = fontHeight * (d->m_firstLine - newFirstLine); d->m_firstLine = newFirstLine; if(d->m_bSelectionInProgress && d->m_selection.isValidFirstLine()) { LineRef line; int pos; convertToLinePos(d->m_lastKnownMousePos.x(), d->m_lastKnownMousePos.y(), line, pos); d->m_selection.end(line, pos); update(); } else { scroll(0, deltaY); } d->m_pDiffTextWindowFrame->setFirstLine(d->m_firstLine); } int DiffTextWindow::getFirstLine() { return d->m_firstLine; } void DiffTextWindow::setHorizScrollOffset(int horizScrollOffset) { int fontWidth = fontMetrics().width('0'); int xOffset = d->leftInfoWidth() * fontWidth; int deltaX = d->m_horizScrollOffset - std::max(0, horizScrollOffset); d->m_horizScrollOffset = std::max(0, horizScrollOffset); QRect r(xOffset, 0, width() - xOffset, height()); if(d->m_pOptions->m_bRightToLeftLanguage) { deltaX = -deltaX; r = QRect(width() - xOffset - 2, 0, -(width() - xOffset), height()).normalized(); } if(d->m_bSelectionInProgress && d->m_selection.isValidFirstLine()) { LineRef line; int pos; convertToLinePos(d->m_lastKnownMousePos.x(), d->m_lastKnownMousePos.y(), line, pos); d->m_selection.end(line, pos); update(); } else { scroll(deltaX, 0, r); } } int DiffTextWindow::getMaxTextWidth() { if(d->m_bWordWrap) { return getVisibleTextAreaWidth(); } else if(getAtomic(d->m_maxTextWidth) < 0) { d->m_maxTextWidth = 0; QTextLayout textLayout(QString(), font(), this); for(int i = 0; i < d->m_size; ++i) { textLayout.clearLayout(); textLayout.setText(d->getString(i)); d->prepareTextLayout(textLayout, true); if(textLayout.maximumWidth() > getAtomic(d->m_maxTextWidth)) d->m_maxTextWidth = qCeil(textLayout.maximumWidth()); } } return getAtomic(d->m_maxTextWidth); } LineCount DiffTextWindow::getNofLines() { return d->m_bWordWrap ? d->m_diff3WrapLineVector.size() : d->m_pDiff3LineVector->size(); } int DiffTextWindow::convertLineToDiff3LineIdx(LineRef line) { if(line >= 0 && d->m_bWordWrap && d->m_diff3WrapLineVector.size() > 0) return d->m_diff3WrapLineVector[std::min((LineRef::LineType)line, d->m_diff3WrapLineVector.size() - 1)].diff3LineIndex; else return line; } LineRef DiffTextWindow::convertDiff3LineIdxToLine(int d3lIdx) { if(d->m_bWordWrap && d->m_pDiff3LineVector != nullptr && d->m_pDiff3LineVector->size() > 0) return (*d->m_pDiff3LineVector)[std::min(d3lIdx, (int)d->m_pDiff3LineVector->size() - 1)]->sumLinesNeededForDisplay; else return d3lIdx; } /** Returns a line number where the linerange [line, line+nofLines] can be displayed best. If it fits into the currently visible range then the returned value is the current firstLine. */ int getBestFirstLine(int line, int nofLines, int firstLine, int visibleLines) { int newFirstLine = firstLine; if(line < firstLine || line + nofLines + 2 > firstLine + visibleLines) { if(nofLines > visibleLines || nofLines <= (2 * visibleLines / 3 - 1)) newFirstLine = line - visibleLines / 3; else newFirstLine = line - (visibleLines - nofLines); } return newFirstLine; } void DiffTextWindow::setFastSelectorRange(int line1, int nofLines) { d->m_fastSelectorLine1 = line1; d->m_fastSelectorNofLines = nofLines; if(isVisible()) { int newFirstLine = getBestFirstLine( convertDiff3LineIdxToLine(d->m_fastSelectorLine1), convertDiff3LineIdxToLine(d->m_fastSelectorLine1 + d->m_fastSelectorNofLines) - convertDiff3LineIdxToLine(d->m_fastSelectorLine1), d->m_firstLine, getNofVisibleLines()); if(newFirstLine != d->m_firstLine) { emit scrollDiffTextWindow(0, newFirstLine - d->m_firstLine); } update(); } } void DiffTextWindow::showStatusLine(int line) { int d3lIdx = convertLineToDiff3LineIdx(line); if(d->m_pDiff3LineVector != nullptr && d3lIdx >= 0 && d3lIdx < (int)d->m_pDiff3LineVector->size()) { const Diff3Line* pD3l = (*d->m_pDiff3LineVector)[d3lIdx]; if(pD3l != nullptr) { int l = pD3l->getLineInFile(d->m_winIdx); QString s; if(l != -1) s = i18n("File %1: Line %2", d->m_filename, l + 1); else s = i18n("File %1: Line not available", d->m_filename); if(d->m_pStatusBar != nullptr) d->m_pStatusBar->showMessage(s); emit lineClicked(d->m_winIdx, l); } } } void DiffTextWindow::focusInEvent(QFocusEvent* e) { emit gotFocus(); QWidget::focusInEvent(e); } void DiffTextWindow::mousePressEvent(QMouseEvent* e) { if(e->button() == Qt::LeftButton) { LineRef line; int pos; convertToLinePos(e->x(), e->y(), line, pos); int fontWidth = fontMetrics().width('0'); int xOffset = d->leftInfoWidth() * fontWidth; if((!d->m_pOptions->m_bRightToLeftLanguage && e->x() < xOffset) || (d->m_pOptions->m_bRightToLeftLanguage && e->x() > width() - xOffset)) { emit setFastSelectorLine(convertLineToDiff3LineIdx(line)); d->m_selection.reset(); // Disable current d->m_selection } else { // Selection resetSelection(); d->m_selection.start(line, pos); d->m_selection.end(line, pos); d->m_bSelectionInProgress = true; d->m_lastKnownMousePos = e->pos(); showStatusLine(line); } } } bool isCTokenChar(QChar c) { return (c == '_') || (c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') || (c >= '0' && c <= '9'); } /// Calculate where a token starts and ends, given the x-position on screen. void calcTokenPos(const QString& s, int posOnScreen, int& pos1, int& pos2, int tabSize) { // Cursor conversions that consider g_tabSize int pos = convertToPosInText(s, std::max(0, posOnScreen), tabSize); if(pos >= (int)s.length()) { pos1 = s.length(); pos2 = s.length(); return; } pos1 = pos; pos2 = pos + 1; if(isCTokenChar(s[pos1])) { while(pos1 >= 0 && isCTokenChar(s[pos1])) --pos1; ++pos1; while(pos2 < (int)s.length() && isCTokenChar(s[pos2])) ++pos2; } } void DiffTextWindow::mouseDoubleClickEvent(QMouseEvent* e) { d->m_bSelectionInProgress = false; d->m_lastKnownMousePos = e->pos(); if(e->button() == Qt::LeftButton) { LineRef line; int pos; convertToLinePos(e->x(), e->y(), line, pos); // Get the string data of the current line QString s; if(d->m_bWordWrap) { if(line < 0 || line >= (int)d->m_diff3WrapLineVector.size()) return; const Diff3WrapLine& d3wl = d->m_diff3WrapLineVector[line]; s = d->getString(d3wl.diff3LineIndex).mid(d3wl.wrapLineOffset, d3wl.wrapLineLength); } else { if(line < 0 || line >= (int)d->m_pDiff3LineVector->size()) return; s = d->getString(line); } if(!s.isEmpty()) { int pos1, pos2; calcTokenPos(s, pos, pos1, pos2, d->m_pOptions->m_tabSize); resetSelection(); d->m_selection.start(line, convertToPosOnScreen(s, pos1, d->m_pOptions->m_tabSize)); d->m_selection.end(line, convertToPosOnScreen(s, pos2, d->m_pOptions->m_tabSize)); update(); // emit d->m_selectionEnd() happens in the mouseReleaseEvent. showStatusLine(line); } } } void DiffTextWindow::mouseReleaseEvent(QMouseEvent* e) { d->m_bSelectionInProgress = false; d->m_lastKnownMousePos = e->pos(); //if ( e->button() == LeftButton ) { if(d->m_delayedDrawTimer) killTimer(d->m_delayedDrawTimer); d->m_delayedDrawTimer = 0; if(d->m_selection.isValidFirstLine()) { emit selectionEnd(); } } d->m_scrollDeltaX = 0; d->m_scrollDeltaY = 0; } inline int sqr(int x) { return x * x; } void DiffTextWindow::mouseMoveEvent(QMouseEvent* e) { LineRef line; int pos; convertToLinePos(e->x(), e->y(), line, pos); d->m_lastKnownMousePos = e->pos(); if(d->m_selection.isValidFirstLine()) { d->m_selection.end(line, pos); showStatusLine(line); // Scroll because mouse moved out of the window const QFontMetrics& fm = fontMetrics(); int fontWidth = fm.width('0'); int deltaX = 0; int deltaY = 0; if(!d->m_pOptions->m_bRightToLeftLanguage) { if(e->x() < d->leftInfoWidth() * fontWidth) deltaX = -1 - abs(e->x() - d->leftInfoWidth() * fontWidth) / fontWidth; if(e->x() > width()) deltaX = +1 + abs(e->x() - width()) / fontWidth; } else { if(e->x() > width() - 1 - d->leftInfoWidth() * fontWidth) deltaX = +1 + abs(e->x() - (width() - 1 - d->leftInfoWidth() * fontWidth)) / fontWidth; if(e->x() < fontWidth) deltaX = -1 - abs(e->x() - fontWidth) / fontWidth; } if(e->y() < 0) deltaY = -1 - sqr(e->y()) / sqr(fm.lineSpacing()); if(e->y() > height()) deltaY = +1 + sqr(e->y() - height()) / sqr(fm.lineSpacing()); if((deltaX != 0 && d->m_scrollDeltaX != deltaX) || (deltaY != 0 && d->m_scrollDeltaY != deltaY)) { d->m_scrollDeltaX = deltaX; d->m_scrollDeltaY = deltaY; emit scrollDiffTextWindow(deltaX, deltaY); if(d->m_delayedDrawTimer) killTimer(d->m_delayedDrawTimer); d->m_delayedDrawTimer = startTimer(50); } else { d->m_scrollDeltaX = deltaX; d->m_scrollDeltaY = deltaY; d->myUpdate(0); } } } void DiffTextWindowData::myUpdate(int afterMilliSecs) { if(m_delayedDrawTimer) m_pDiffTextWindow->killTimer(m_delayedDrawTimer); m_bMyUpdate = true; m_delayedDrawTimer = m_pDiffTextWindow->startTimer(afterMilliSecs); } void DiffTextWindow::timerEvent(QTimerEvent*) { killTimer(d->m_delayedDrawTimer); d->m_delayedDrawTimer = 0; if(d->m_bMyUpdate) { int fontHeight = fontMetrics().lineSpacing(); if(d->m_selection.getOldLastLine() != -1) { int lastLine; int firstLine; if(d->m_selection.getOldFirstLine() != -1) { firstLine = min3(d->m_selection.getOldFirstLine(), d->m_selection.getLastLine(), d->m_selection.getOldLastLine()); lastLine = max3(d->m_selection.getOldFirstLine(), d->m_selection.getLastLine(), d->m_selection.getOldLastLine()); } else { firstLine = std::min(d->m_selection.getLastLine(), d->m_selection.getOldLastLine()); lastLine = std::max(d->m_selection.getLastLine(), d->m_selection.getOldLastLine()); } int y1 = (firstLine - d->m_firstLine) * fontHeight; int y2 = std::min(height(), (lastLine - d->m_firstLine + 1) * fontHeight); if(y1 < height() && y2 > 0) { QRect invalidRect = QRect(0, y1 - 1, width(), y2 - y1 + fontHeight); // Some characters in exotic exceed the regular bottom. update(invalidRect); } } d->m_bMyUpdate = false; } if(d->m_scrollDeltaX != 0 || d->m_scrollDeltaY != 0) { d->m_selection.end(d->m_selection.getLastLine() + d->m_scrollDeltaY, d->m_selection.getLastPos() + d->m_scrollDeltaX); emit scrollDiffTextWindow(d->m_scrollDeltaX, d->m_scrollDeltaY); killTimer(d->m_delayedDrawTimer); d->m_delayedDrawTimer = startTimer(50); } } void DiffTextWindow::resetSelection() { d->m_selection.reset(); update(); } void DiffTextWindow::convertToLinePos(int x, int y, LineRef& line, int& pos) { const QFontMetrics& fm = fontMetrics(); int fontHeight = fm.lineSpacing(); int yOffset = -d->m_firstLine * fontHeight; line = (y - yOffset) / fontHeight; if(line >= 0 && (!d->m_pOptions->m_bWordWrap || line < d->m_diff3WrapLineVector.count())) { QString s = d->getLineString(line); QTextLayout textLayout(s, font(), this); d->prepareTextLayout(textLayout, !d->m_pOptions->m_bWordWrap || d->m_diff3WrapLineVector[line].wrapLineOffset == 0); pos = textLayout.lineAt(0).xToCursor(x - textLayout.position().x()); } else pos = -1; } class FormatRangeHelper { private: QFont m_font; QPen m_pen; QColor m_background; int m_currentPos; QVector m_formatRanges; public: inline operator QVector() { return m_formatRanges; } FormatRangeHelper() { m_pen = QColor(Qt::black); m_background = QColor(Qt::white); m_currentPos = 0; } void setFont(const QFont& f) { m_font = f; } void setPen(const QPen& pen) { m_pen = pen; } void setBackground(const QColor& background) { m_background = background; } void next() { if(m_formatRanges.isEmpty() || m_formatRanges.back().format.foreground().color() != m_pen.color() || m_formatRanges.back().format.background().color() != m_background) { QTextLayout::FormatRange fr; fr.length = 1; fr.start = m_currentPos; fr.format.setForeground(m_pen.color()); fr.format.setBackground(m_background); m_formatRanges.append(fr); } else { ++m_formatRanges.back().length; } ++m_currentPos; } }; void DiffTextWindowData::prepareTextLayout(QTextLayout& textLayout, bool /*bFirstLine*/, int visibleTextWidth) { QTextOption textOption; #if QT_VERSION < QT_VERSION_CHECK(5,10,0) textOption.setTabStop(QFontMetricsF(m_pDiffTextWindow->font()).width(' ') * m_pOptions->m_tabSize); #else textOption.setTabStopDistance(QFontMetricsF(m_pDiffTextWindow->font()).width(' ') * m_pOptions->m_tabSize); #endif if(m_pOptions->m_bShowWhiteSpaceCharacters) textOption.setFlags(QTextOption::ShowTabsAndSpaces); if(m_pOptions->m_bRightToLeftLanguage) textOption.setAlignment(Qt::AlignRight); // only relevant for multi line text layout if(visibleTextWidth >= 0) textOption.setWrapMode(QTextOption::WrapAtWordBoundaryOrAnywhere); textLayout.setTextOption(textOption); if(m_pOptions->m_bShowWhiteSpaceCharacters) { // This additional format is only necessary for the tab arrow QVector formats; QTextLayout::FormatRange formatRange; formatRange.start = 0; formatRange.length = textLayout.text().length(); formatRange.format.setFont(m_pDiffTextWindow->font()); formats.append(formatRange); textLayout.setFormats(formats); } textLayout.beginLayout(); int leading = m_pDiffTextWindow->fontMetrics().leading(); int height = 0; int fontWidth = m_pDiffTextWindow->fontMetrics().width('0'); int xOffset = leftInfoWidth() * fontWidth - m_horizScrollOffset; int textWidth = visibleTextWidth; if(textWidth < 0) textWidth = m_pDiffTextWindow->width() - xOffset; int indentation = 0; while(true) { QTextLine line = textLayout.createLine(); if(!line.isValid()) break; height += leading; //if ( !bFirstLine ) // indentation = m_pDiffTextWindow->fontMetrics().width(' ') * m_pOptions->m_tabSize; if(visibleTextWidth >= 0) { line.setLineWidth(visibleTextWidth - indentation); line.setPosition(QPointF(indentation, height)); height += qCeil(line.height()); //bFirstLine = false; } else // only one line { line.setPosition(QPointF(indentation, height)); break; } } textLayout.endLayout(); if(m_pOptions->m_bRightToLeftLanguage) textLayout.setPosition(QPointF(textWidth - textLayout.maximumWidth(), 0)); else textLayout.setPosition(QPointF(xOffset, 0)); } void DiffTextWindowData::writeLine( RLPainter& p, const LineData* pld, const DiffList* pLineDiff1, const DiffList* pLineDiff2, int line, int whatChanged, int whatChanged2, int srcLineIdx, int wrapLineOffset, int wrapLineLength, bool bWrapLine, const QRect& invalidRect, int deviceWidth) { QFont normalFont = p.font(); const QFontMetrics& fm = p.fontMetrics(); int fontHeight = fm.lineSpacing(); int fontAscent = fm.ascent(); int fontWidth = fm.width('0'); int xOffset = leftInfoWidth() * fontWidth - m_horizScrollOffset; int yOffset = (line - m_firstLine) * fontHeight; QRect lineRect(xOffset, yOffset, deviceWidth, fontHeight); if(!invalidRect.intersects(lineRect)) { return; } int fastSelectorLine1 = m_pDiffTextWindow->convertDiff3LineIdxToLine(m_fastSelectorLine1); int fastSelectorLine2 = m_pDiffTextWindow->convertDiff3LineIdxToLine(m_fastSelectorLine1 + m_fastSelectorNofLines) - 1; bool bFastSelectionRange = (line >= fastSelectorLine1 && line <= fastSelectorLine2); QColor bgColor = m_pOptions->m_bgColor; QColor diffBgColor = m_pOptions->m_diffBgColor; if(bFastSelectionRange) { bgColor = m_pOptions->m_currentRangeBgColor; diffBgColor = m_pOptions->m_currentRangeDiffBgColor; } if(yOffset + fontHeight < invalidRect.top() || invalidRect.bottom() < yOffset - fontHeight) return; int changed = whatChanged; if(pLineDiff1 != nullptr) changed |= 1; if(pLineDiff2 != nullptr) changed |= 2; QColor c = m_pOptions->m_fgColor; p.setPen(c); if(changed == 2) { c = m_cDiff2; } else if(changed == 1) { c = m_cDiff1; } else if(changed == 3) { c = m_cDiffBoth; } if(pld != nullptr) { // First calculate the "changed" information for each character. int i = 0; QString lineString(pld->getLine(), pld->size()); if(!lineString.isEmpty()) { switch(lineString[lineString.length() - 1].unicode()) { case '\n': lineString[lineString.length() - 1] = 0x00B6; break; // "Pilcrow", "paragraph mark" case '\r': lineString[lineString.length() - 1] = 0x00A4; break; // Currency sign ;0x2761 "curved stem paragraph sign ornament" //case '\0b' : lineString[lineString.length()-1] = 0x2756; break; // some other nice looking character } } QVector charChanged(pld->size()); Merger merger(pLineDiff1, pLineDiff2); while(!merger.isEndReached() && i < pld->size()) { if(i < pld->size()) { charChanged[i] = merger.whatChanged(); ++i; } merger.next(); } int outPos = 0; int lineLength = m_bWordWrap ? wrapLineOffset + wrapLineLength : lineString.length(); FormatRangeHelper frh; for(i = wrapLineOffset; i < lineLength; ++i) { c = m_pOptions->m_fgColor; int cchanged = charChanged[i] | whatChanged; if(cchanged == 2) { c = m_cDiff2; } else if(cchanged == 1) { c = m_cDiff1; } else if(cchanged == 3) { c = m_cDiffBoth; } if(c != m_pOptions->m_fgColor && whatChanged2 == 0 && !m_pOptions->m_bShowWhiteSpace) { // The user doesn't want to see highlighted white space. c = m_pOptions->m_fgColor; } { frh.setBackground(bgColor); if(!m_selection.within(line, outPos)) { if(c != m_pOptions->m_fgColor) { QColor lightc = diffBgColor; frh.setBackground(lightc); // Setting italic font here doesn't work: Changing the font only when drawing is too late } frh.setPen(c); frh.next(); frh.setFont(normalFont); } else { frh.setBackground(m_pDiffTextWindow->palette().highlight().color()); frh.setPen(m_pDiffTextWindow->palette().highlightedText().color()); frh.next(); m_selection.bSelectionContainsData = true; } } ++outPos; } // end for QTextLayout textLayout(lineString.mid(wrapLineOffset, lineLength - wrapLineOffset), m_pDiffTextWindow->font(), m_pDiffTextWindow); prepareTextLayout(textLayout, !m_bWordWrap || wrapLineOffset == 0); textLayout.draw(&p, QPoint(0, yOffset), frh /*, const QRectF & clip = QRectF() */); } p.fillRect(0, yOffset, leftInfoWidth() * fontWidth, fontHeight, m_pOptions->m_bgColor); xOffset = (m_lineNumberWidth + 2) * fontWidth; int xLeft = m_lineNumberWidth * fontWidth; p.setPen(m_pOptions->m_fgColor); if(pld != nullptr) { if(m_pOptions->m_bShowLineNumbers && !bWrapLine) { QString num; num.sprintf("%0*d", m_lineNumberWidth, srcLineIdx + 1); p.drawText(0, yOffset + fontAscent, num); //p.drawLine( xLeft -1, yOffset, xLeft -1, yOffset+fontHeight-1 ); } if(!bWrapLine || wrapLineLength > 0) { Qt::PenStyle wrapLinePenStyle = Qt::DotLine; p.setPen(QPen(m_pOptions->m_fgColor, 0, bWrapLine ? wrapLinePenStyle : Qt::SolidLine)); p.drawLine(xOffset + 1, yOffset, xOffset + 1, yOffset + fontHeight - 1); p.setPen(QPen(m_pOptions->m_fgColor, 0, Qt::SolidLine)); } } if(c != m_pOptions->m_fgColor && whatChanged2 == 0) //&& whatChanged==0 ) { if(m_pOptions->m_bShowWhiteSpace) { p.setBrushOrigin(0, 0); p.fillRect(xLeft, yOffset, fontWidth * 2 - 1, fontHeight, QBrush(c, Qt::Dense5Pattern)); } } else { p.fillRect(xLeft, yOffset, fontWidth * 2 - 1, fontHeight, c == m_pOptions->m_fgColor ? bgColor : c); } if(bFastSelectionRange) { p.fillRect(xOffset + fontWidth - 1, yOffset, 3, fontHeight, m_pOptions->m_fgColor); } // Check if line needs a manual diff help mark ManualDiffHelpList::const_iterator ci; for(ci = m_pManualDiffHelpList->begin(); ci != m_pManualDiffHelpList->end(); ++ci) { const ManualDiffHelpEntry& mdhe = *ci; int rangeLine1 = -1; int rangeLine2 = -1; mdhe.getRangeForUI(m_winIdx, &rangeLine1, &rangeLine2); if(rangeLine1 >= 0 && rangeLine2 >= 0 && srcLineIdx >= rangeLine1 && srcLineIdx <= rangeLine2) { p.fillRect(xOffset - fontWidth, yOffset, fontWidth - 1, fontHeight, m_pOptions->m_manualHelpRangeColor); break; } } } void DiffTextWindow::paintEvent(QPaintEvent* e) { QRect invalidRect = e->rect(); if(invalidRect.isEmpty()) return; if(d->m_pDiff3LineVector == nullptr || (d->m_diff3WrapLineVector.empty() && d->m_bWordWrap)) { QPainter p(this); p.fillRect(invalidRect, d->m_pOptions->m_bgColor); return; } bool bOldSelectionContainsData = d->m_selection.bSelectionContainsData; d->m_selection.bSelectionContainsData = false; int endLine = std::min(d->m_firstLine + getNofVisibleLines() + 2, getNofLines()); RLPainter p(this, d->m_pOptions->m_bRightToLeftLanguage, width(), fontMetrics().width('0')); p.setFont(font()); p.QPainter::fillRect(invalidRect, d->m_pOptions->m_bgColor); d->draw(p, invalidRect, width(), d->m_firstLine, endLine); p.end(); d->m_oldFirstLine = d->m_firstLine; d->m_selection.clearOldSelection(); if(!bOldSelectionContainsData && d->m_selection.selectionContainsData()) emit newSelection(); } void DiffTextWindow::print(RLPainter& p, const QRect&, int firstLine, int nofLinesPerPage) { if(d->m_pDiff3LineVector == nullptr || !updatesEnabled() || (d->m_diff3WrapLineVector.empty() && d->m_bWordWrap)) return; resetSelection(); int oldFirstLine = d->m_firstLine; d->m_firstLine = firstLine; QRect invalidRect = QRect(0, 0, 1000000000, 1000000000); QColor bgColor = d->m_pOptions->m_bgColor; d->m_pOptions->m_bgColor = Qt::white; d->draw(p, invalidRect, p.window().width(), firstLine, std::min(firstLine + nofLinesPerPage, getNofLines())); d->m_pOptions->m_bgColor = bgColor; d->m_firstLine = oldFirstLine; } void DiffTextWindowData::draw(RLPainter& p, const QRect& invalidRect, int deviceWidth, int beginLine, int endLine) { m_lineNumberWidth = m_pOptions->m_bShowLineNumbers ? (int)log10((double)std::max(m_size, 1)) + 1 : 0; if(m_winIdx == A) { m_cThis = m_pOptions->m_colorA; m_cDiff1 = m_pOptions->m_colorB; m_cDiff2 = m_pOptions->m_colorC; } if(m_winIdx == B) { m_cThis = m_pOptions->m_colorB; m_cDiff1 = m_pOptions->m_colorC; m_cDiff2 = m_pOptions->m_colorA; } if(m_winIdx == C) { m_cThis = m_pOptions->m_colorC; m_cDiff1 = m_pOptions->m_colorA; m_cDiff2 = m_pOptions->m_colorB; } m_cDiffBoth = m_pOptions->m_colorForConflict; // Conflict color p.setPen(m_cThis); for(int line = beginLine; line < endLine; ++line) { int wrapLineOffset = 0; int wrapLineLength = 0; const Diff3Line* d3l = nullptr; bool bWrapLine = false; if(m_bWordWrap) { Diff3WrapLine& d3wl = m_diff3WrapLineVector[line]; wrapLineOffset = d3wl.wrapLineOffset; wrapLineLength = d3wl.wrapLineLength; d3l = d3wl.pD3L; bWrapLine = line > 0 && m_diff3WrapLineVector[line - 1].pD3L == d3l; } else { d3l = (*m_pDiff3LineVector)[line]; } DiffList* pFineDiff1; DiffList* pFineDiff2; int changed = 0; int changed2 = 0; int srcLineIdx = -1; getLineInfo(*d3l, srcLineIdx, pFineDiff1, pFineDiff2, changed, changed2); writeLine( p, // QPainter - srcLineIdx == -1 ? nullptr : &m_pLineData[srcLineIdx], // Text in this line + srcLineIdx == -1 ? nullptr : &(*m_pLineData)[srcLineIdx], // Text in this line pFineDiff1, pFineDiff2, line, // Line on the screen changed, changed2, srcLineIdx, wrapLineOffset, wrapLineLength, bWrapLine, invalidRect, deviceWidth); } } QString DiffTextWindowData::getString(int d3lIdx) { if(d3lIdx < 0 || d3lIdx >= (int)m_pDiff3LineVector->size()) return QString(); const Diff3Line* d3l = (*m_pDiff3LineVector)[d3lIdx]; DiffList* pFineDiff1; DiffList* pFineDiff2; int changed = 0; int changed2 = 0; int lineIdx = -1; getLineInfo(*d3l, lineIdx, pFineDiff1, pFineDiff2, changed, changed2); if(lineIdx == -1) return QString(); else { - const LineData* ld = &m_pLineData[lineIdx]; + const LineData* ld = &(*m_pLineData)[lineIdx]; return QString(ld->getLine(), ld->size()); } return QString(); } QString DiffTextWindowData::getLineString(int line) { if(m_bWordWrap) { if(line < m_diff3WrapLineVector.count()) { int d3LIdx = m_pDiffTextWindow->convertLineToDiff3LineIdx(line); return getString(d3LIdx).mid(m_diff3WrapLineVector[line].wrapLineOffset, m_diff3WrapLineVector[line].wrapLineLength); } else return QString(); } else { return getString(line); } } void DiffTextWindowData::getLineInfo( const Diff3Line& d3l, int& lineIdx, DiffList*& pFineDiff1, DiffList*& pFineDiff2, // return values int& changed, int& changed2) { d3l.getLineInfo(m_winIdx, m_bTriple, lineIdx, pFineDiff1, pFineDiff2, changed, changed2); } void DiffTextWindow::resizeEvent(QResizeEvent* e) { QSize s = e->size(); QFontMetrics fm = fontMetrics(); int visibleLines = s.height() / fm.lineSpacing() - 2; int visibleColumns = s.width() / fm.width('0') - d->leftInfoWidth(); if(e->size().height() != e->oldSize().height()) emit resizeHeightChangedSignal(visibleLines); if(e->size().width() != e->oldSize().width()) emit resizeWidthChangedSignal(visibleColumns); QWidget::resizeEvent(e); } int DiffTextWindow::getNofVisibleLines() { QFontMetrics fm = fontMetrics(); int fmh = fm.lineSpacing(); int h = height(); return h / fmh - 1; } int DiffTextWindow::getVisibleTextAreaWidth() { QFontMetrics fm = fontMetrics(); return width() - d->leftInfoWidth() * fm.width('0'); } QString DiffTextWindow::getSelection() { if(d->m_pLineData == nullptr) return QString(); QString selectionString; int line = 0; int lineIdx = 0; int it; int vectorSize = d->m_bWordWrap ? d->m_diff3WrapLineVector.size() : d->m_pDiff3LineVector->size(); for(it = 0; it < vectorSize; ++it) { const Diff3Line* d3l = d->m_bWordWrap ? d->m_diff3WrapLineVector[it].pD3L : (*d->m_pDiff3LineVector)[it]; Q_ASSERT(d->m_winIdx >= 1 && d->m_winIdx <= 3); if(d->m_winIdx == A) { lineIdx = d3l->getLineA(); } else if(d->m_winIdx == B) { lineIdx = d3l->getLineB(); } else if(d->m_winIdx == C) { lineIdx = d3l->getLineC(); } if(lineIdx != -1) { - const QChar* pLine = d->m_pLineData[lineIdx].getLine(); - int size = d->m_pLineData[lineIdx].size(); + const QChar* pLine = (*d->m_pLineData)[lineIdx].getLine(); + int size = (*d->m_pLineData)[lineIdx].size(); QString lineString = QString(pLine, size); if(d->m_bWordWrap) { size = d->m_diff3WrapLineVector[it].wrapLineLength; lineString = lineString.mid(d->m_diff3WrapLineVector[it].wrapLineOffset, size); } for(int i = 0; i < size; ++i) { if(d->m_selection.within(line, i)) { selectionString += lineString[i]; } } if(d->m_selection.within(line, size) && !(d->m_bWordWrap && it + 1 < vectorSize && d3l == d->m_diff3WrapLineVector[it + 1].pD3L)) { #if defined(Q_OS_WIN) selectionString += '\r'; #endif selectionString += '\n'; } } ++line; } return selectionString; } bool DiffTextWindow::findString(const QString& s, LineRef& d3vLine, int& posInLine, bool bDirDown, bool bCaseSensitive) { int it = d3vLine; int endIt = bDirDown ? d->m_pDiff3LineVector->size() : -1; int step = bDirDown ? 1 : -1; int startPos = posInLine; for(; it != endIt; it += step) { QString line = d->getString(it); if(!line.isEmpty()) { int pos = line.indexOf(s, startPos, bCaseSensitive ? Qt::CaseSensitive : Qt::CaseInsensitive); if(pos != -1) { d3vLine = it; posInLine = pos; return true; } startPos = 0; } } return false; } void DiffTextWindow::convertD3LCoordsToLineCoords(int d3LIdx, int d3LPos, int& line, int& pos) { if(d->m_bWordWrap) { int wrapPos = d3LPos; int wrapLine = convertDiff3LineIdxToLine(d3LIdx); while(wrapPos > d->m_diff3WrapLineVector[wrapLine].wrapLineLength) { wrapPos -= d->m_diff3WrapLineVector[wrapLine].wrapLineLength; ++wrapLine; } pos = wrapPos; line = wrapLine; } else { pos = d3LPos; line = d3LIdx; } } void DiffTextWindow::convertLineCoordsToD3LCoords(int line, int pos, int& d3LIdx, int& d3LPos) { if(d->m_bWordWrap) { d3LPos = pos; d3LIdx = convertLineToDiff3LineIdx(line); int wrapLine = convertDiff3LineIdxToLine(d3LIdx); // First wrap line belonging to this d3LIdx while(wrapLine < line) { d3LPos += d->m_diff3WrapLineVector[wrapLine].wrapLineLength; ++wrapLine; } } else { d3LPos = pos; d3LIdx = line; } } void DiffTextWindow::setSelection(LineRef firstLine, int startPos, LineRef lastLine, int endPos, LineRef& l, int& p) { d->m_selection.reset(); if(lastLine >= getNofLines()) { lastLine = getNofLines() - 1; const Diff3Line* d3l = (*d->m_pDiff3LineVector)[convertLineToDiff3LineIdx(lastLine)]; LineRef line; if(d->m_winIdx == A) line = d3l->getLineA(); if(d->m_winIdx == B) line = d3l->getLineB(); if(d->m_winIdx == C) line = d3l->getLineC(); if(line.isValid()) - endPos = d->m_pLineData[line].width(d->m_pOptions->m_tabSize); + endPos = (*d->m_pLineData)[line].width(d->m_pOptions->m_tabSize); } if(d->m_bWordWrap && d->m_pDiff3LineVector != nullptr) { QString s1 = d->getString(firstLine); int firstWrapLine = convertDiff3LineIdxToLine(firstLine); int wrapStartPos = startPos; while(wrapStartPos > d->m_diff3WrapLineVector[firstWrapLine].wrapLineLength) { wrapStartPos -= d->m_diff3WrapLineVector[firstWrapLine].wrapLineLength; s1 = s1.mid(d->m_diff3WrapLineVector[firstWrapLine].wrapLineLength); ++firstWrapLine; } QString s2 = d->getString(lastLine); int lastWrapLine = convertDiff3LineIdxToLine(lastLine); int wrapEndPos = endPos; while(wrapEndPos > d->m_diff3WrapLineVector[lastWrapLine].wrapLineLength) { wrapEndPos -= d->m_diff3WrapLineVector[lastWrapLine].wrapLineLength; s2 = s2.mid(d->m_diff3WrapLineVector[lastWrapLine].wrapLineLength); ++lastWrapLine; } d->m_selection.start(firstWrapLine, convertToPosOnScreen(s1, wrapStartPos, d->m_pOptions->m_tabSize)); d->m_selection.end(lastWrapLine, convertToPosOnScreen(s2, wrapEndPos, d->m_pOptions->m_tabSize)); l = firstWrapLine; p = wrapStartPos; } else { if(d->m_pDiff3LineVector != nullptr){ d->m_selection.start(firstLine, convertToPosOnScreen(d->getString(firstLine), startPos, d->m_pOptions->m_tabSize)); d->m_selection.end(lastLine, convertToPosOnScreen(d->getString(lastLine), endPos, d->m_pOptions->m_tabSize)); l = firstLine; p = startPos; } } update(); } int DiffTextWindowData::convertLineOnScreenToLineInSource(int lineOnScreen, e_CoordType coordType, bool bFirstLine) { LineRef line = -1; if(lineOnScreen >= 0) { if(coordType == eWrapCoords) return lineOnScreen; int d3lIdx = m_pDiffTextWindow->convertLineToDiff3LineIdx(lineOnScreen); if(!bFirstLine && d3lIdx >= m_pDiff3LineVector->size()) d3lIdx = m_pDiff3LineVector->size() - 1; if(coordType == eD3LLineCoords) return d3lIdx; while(line < 0 && d3lIdx < m_pDiff3LineVector->size() && d3lIdx >= 0) { const Diff3Line* d3l = (*m_pDiff3LineVector)[d3lIdx]; if(m_winIdx == A) line = d3l->getLineA(); if(m_winIdx == B) line = d3l->getLineB(); if(m_winIdx == C) line = d3l->getLineC(); if(bFirstLine) ++d3lIdx; else --d3lIdx; } if(coordType == eFileCoords) return line; } return line; } void DiffTextWindow::getSelectionRange(LineRef* pFirstLine, LineRef* pLastLine, e_CoordType coordType) { if(pFirstLine) *pFirstLine = d->convertLineOnScreenToLineInSource(d->m_selection.beginLine(), coordType, true); if(pLastLine) *pLastLine = d->convertLineOnScreenToLineInSource(d->m_selection.endLine(), coordType, false); } void DiffTextWindow::convertSelectionToD3LCoords() { if(d->m_pDiff3LineVector == nullptr || !updatesEnabled() || !isVisible() || d->m_selection.isEmpty()) { return; } // convert the d->m_selection to unwrapped coordinates: Later restore to new coords int firstD3LIdx, firstD3LPos; QString s = d->getLineString(d->m_selection.beginLine()); int firstPosInText = convertToPosInText(s, d->m_selection.beginPos(), d->m_pOptions->m_tabSize); convertLineCoordsToD3LCoords(d->m_selection.beginLine(), firstPosInText, firstD3LIdx, firstD3LPos); int lastD3LIdx, lastD3LPos; s = d->getLineString(d->m_selection.endLine()); int lastPosInText = convertToPosInText(s, d->m_selection.endPos(), d->m_pOptions->m_tabSize); convertLineCoordsToD3LCoords(d->m_selection.endLine(), lastPosInText, lastD3LIdx, lastD3LPos); d->m_selection.start(firstD3LIdx, firstD3LPos); d->m_selection.end(lastD3LIdx, lastD3LPos); } int s_maxNofRunnables = 0; class RecalcWordWrapRunnable : public QRunnable { DiffTextWindow* m_pDTW; // DiffTextWindowData* m_pDTWData; // TODO unused? int m_visibleTextWidth; int m_cacheIdx; public: RecalcWordWrapRunnable(DiffTextWindow* p, DiffTextWindowData* pData, int visibleTextWidth, int cacheIdx) : m_pDTW(p), /* m_pDTWData(pData),*/ m_visibleTextWidth(visibleTextWidth), m_cacheIdx(cacheIdx) { Q_UNUSED(pData) // TODO really unused? setAutoDelete(true); s_runnableCount.fetchAndAddOrdered(1); } void run() override { m_pDTW->recalcWordWrapHelper(0, m_visibleTextWidth, m_cacheIdx); int newValue = s_runnableCount.fetchAndAddOrdered(-1) - 1; g_pProgressDialog->setCurrent(s_maxNofRunnables - getAtomic(s_runnableCount)); if(newValue == 0) { QWidget* p = m_pDTW; while(p) { p = p->parentWidget(); if(KDiff3App* pKDiff3App = dynamic_cast(p)) { QMetaObject::invokeMethod(pKDiff3App, "slotFinishRecalcWordWrap", Qt::QueuedConnection, Q_ARG(int, m_visibleTextWidth)); break; } } } } }; QList s_runnables; bool startRunnables() { if(s_runnables.count() == 0) { return false; } else { g_pProgressDialog->setStayHidden(true); g_pProgressDialog->push(); g_pProgressDialog->setMaxNofSteps(s_runnables.count()); s_maxNofRunnables = s_runnables.count(); g_pProgressDialog->setCurrent(0); for(int i = 0; i < s_runnables.count(); ++i) { QThreadPool::globalInstance()->start(s_runnables[i]); } s_runnables.clear(); return true; } } // Use conexpr when supported. QT const int s_linesPerRunnable = 2000; void DiffTextWindow::recalcWordWrap(bool bWordWrap, int wrapLineVectorSize, int visibleTextWidth) { if(d->m_pDiff3LineVector == nullptr || !isVisible()) { d->m_bWordWrap = bWordWrap; if(!bWordWrap) d->m_diff3WrapLineVector.resize(0); return; } d->m_bWordWrap = bWordWrap; if(bWordWrap) { d->m_lineNumberWidth = d->m_pOptions->m_bShowLineNumbers ? (int)log10((double)std::max(d->m_size, 1)) + 1 : 0; d->m_diff3WrapLineVector.resize(wrapLineVectorSize); if(wrapLineVectorSize == 0) { d->m_wrapLineCacheList.clear(); setUpdatesEnabled(false); for(int i = 0, j = 0; i < d->m_pDiff3LineVector->size(); i += s_linesPerRunnable, ++j) //int i=0; { d->m_wrapLineCacheList.append(QVector()); s_runnables.push_back(new RecalcWordWrapRunnable(this, d, visibleTextWidth, j)); } } else { recalcWordWrapHelper(wrapLineVectorSize, visibleTextWidth, 0); setUpdatesEnabled(true); } } else { if(wrapLineVectorSize == 0 && getAtomic(d->m_maxTextWidth) < 0) { d->m_diff3WrapLineVector.resize(0); d->m_wrapLineCacheList.clear(); setUpdatesEnabled(false); for(int i = 0, j = 0; i < d->m_pDiff3LineVector->size(); i += s_linesPerRunnable, ++j) { s_runnables.push_back(new RecalcWordWrapRunnable(this, d, visibleTextWidth, j)); } } else { setUpdatesEnabled(true); } } } void DiffTextWindow::recalcWordWrapHelper(int wrapLineVectorSize, int visibleTextWidth, int cacheListIdx) { if(d->m_bWordWrap) { if(g_pProgressDialog->wasCancelled()) return; if(visibleTextWidth < 0) visibleTextWidth = getVisibleTextAreaWidth(); else visibleTextWidth -= d->leftInfoWidth() * fontMetrics().width('0'); int i; int wrapLineIdx = 0; int size = d->m_pDiff3LineVector->size(); int firstD3LineIdx = wrapLineVectorSize > 0 ? 0 : cacheListIdx * s_linesPerRunnable; int endIdx = wrapLineVectorSize > 0 ? size : std::min(firstD3LineIdx + s_linesPerRunnable, size); QVector& wrapLineCache = d->m_wrapLineCacheList[cacheListIdx]; int cacheListIdx2 = 0; QTextLayout textLayout(QString(), font(), this); for(i = firstD3LineIdx; i < endIdx; ++i) { if(g_pProgressDialog->wasCancelled()) return; int linesNeeded = 0; if(wrapLineVectorSize == 0) { QString s = d->getString(i); textLayout.clearLayout(); textLayout.setText(s); d->prepareTextLayout(textLayout, true, visibleTextWidth); linesNeeded = textLayout.lineCount(); for(int l = 0; l < linesNeeded; ++l) { QTextLine line = textLayout.lineAt(l); wrapLineCache.push_back(DiffTextWindowData::WrapLineCacheData(i, line.textStart(), line.textLength())); } } else if(wrapLineVectorSize > 0 && cacheListIdx2 < d->m_wrapLineCacheList.count()) { DiffTextWindowData::WrapLineCacheData* pWrapLineCache = d->m_wrapLineCacheList[cacheListIdx2].data(); int cacheIdx = 0; int clc = d->m_wrapLineCacheList.count() - 1; int cllc = d->m_wrapLineCacheList.last().count(); int curCount = d->m_wrapLineCacheList[cacheListIdx2].count() - 1; int l = 0; while((cacheListIdx2 < clc || (cacheListIdx2 == clc && cacheIdx < cllc)) && pWrapLineCache->m_d3LineIdx <= i) { if(pWrapLineCache->m_d3LineIdx == i) { Diff3WrapLine* pDiff3WrapLine = &d->m_diff3WrapLineVector[wrapLineIdx + l]; pDiff3WrapLine->wrapLineOffset = pWrapLineCache->m_textStart; pDiff3WrapLine->wrapLineLength = pWrapLineCache->m_textLength; ++l; } if(cacheIdx < curCount) { ++cacheIdx; ++pWrapLineCache; } else { ++cacheListIdx2; if(cacheListIdx2 >= d->m_wrapLineCacheList.count()) break; pWrapLineCache = d->m_wrapLineCacheList[cacheListIdx2].data(); curCount = d->m_wrapLineCacheList[cacheListIdx2].count(); cacheIdx = 0; } } linesNeeded = l; } Diff3Line& d3l = *(*d->m_pDiff3LineVector)[i]; if(d3l.linesNeededForDisplay < linesNeeded) { Q_ASSERT(wrapLineVectorSize == 0); d3l.linesNeededForDisplay = linesNeeded; } if(wrapLineVectorSize > 0) { int j; for(j = 0; j < d3l.linesNeededForDisplay; ++j, ++wrapLineIdx) { Diff3WrapLine& d3wl = d->m_diff3WrapLineVector[wrapLineIdx]; d3wl.diff3LineIndex = i; d3wl.pD3L = (*d->m_pDiff3LineVector)[i]; if(j >= linesNeeded) { d3wl.wrapLineOffset = 0; d3wl.wrapLineLength = 0; } } } } if(wrapLineVectorSize > 0) { d->m_firstLine = std::min(d->m_firstLine, wrapLineVectorSize - 1); d->m_horizScrollOffset = 0; d->m_pDiffTextWindowFrame->setFirstLine(d->m_firstLine); } } else // no word wrap, just calc the maximum text width { if(g_pProgressDialog->wasCancelled()) return; int size = d->m_pDiff3LineVector->size(); int firstD3LineIdx = cacheListIdx * s_linesPerRunnable; int endIdx = std::min(firstD3LineIdx + s_linesPerRunnable, size); int maxTextWidth = getAtomic(d->m_maxTextWidth); // current value QTextLayout textLayout(QString(), font(), this); for(int i = firstD3LineIdx; i < endIdx; ++i) { if(g_pProgressDialog->wasCancelled()) return; textLayout.clearLayout(); textLayout.setText(d->getString(i)); d->prepareTextLayout(textLayout, true); if(textLayout.maximumWidth() > maxTextWidth) maxTextWidth = qCeil(textLayout.maximumWidth()); } for(;;) { int prevMaxTextWidth = d->m_maxTextWidth.fetchAndStoreOrdered(maxTextWidth); if(prevMaxTextWidth <= maxTextWidth) break; maxTextWidth = prevMaxTextWidth; } } if(!d->m_selection.isEmpty() && (!d->m_bWordWrap || wrapLineVectorSize > 0)) { // Assume unwrapped coordinates //( Why? ->Conversion to unwrapped coords happened a few lines above in this method. // Also see KDiff3App::recalcWordWrap() on the role of wrapLineVectorSize) // Wrap them now. // convert the d->m_selection to unwrapped coordinates. int firstLine, firstPos; convertD3LCoordsToLineCoords(d->m_selection.beginLine(), d->m_selection.beginPos(), firstLine, firstPos); int lastLine, lastPos; convertD3LCoordsToLineCoords(d->m_selection.endLine(), d->m_selection.endPos(), lastLine, lastPos); d->m_selection.start(firstLine, convertToPosOnScreen(d->getLineString(firstLine), firstPos, d->m_pOptions->m_tabSize)); d->m_selection.end(lastLine, convertToPosOnScreen(d->getLineString(lastLine), lastPos, d->m_pOptions->m_tabSize)); } } class DiffTextWindowFrameData { public: DiffTextWindow* m_pDiffTextWindow; FileNameLineEdit* m_pFileSelection; QPushButton* m_pBrowseButton; Options* m_pOptions; QLabel* m_pLabel; QLabel* m_pTopLine; QLabel* m_pEncoding; QLabel* m_pLineEndStyle; QWidget* m_pTopLineWidget; e_SrcSelector m_winIdx; }; DiffTextWindowFrame::DiffTextWindowFrame(QWidget* pParent, QStatusBar* pStatusBar, Options* pOptions, e_SrcSelector winIdx, SourceData* psd) : QWidget(pParent) { d = new DiffTextWindowFrameData; d->m_winIdx = winIdx; setAutoFillBackground(true); d->m_pOptions = pOptions; d->m_pTopLineWidget = new QWidget(this); d->m_pFileSelection = new FileNameLineEdit(d->m_pTopLineWidget); d->m_pBrowseButton = new QPushButton("...", d->m_pTopLineWidget); d->m_pBrowseButton->setFixedWidth(30); connect(d->m_pBrowseButton, &QPushButton::clicked, this, &DiffTextWindowFrame::slotBrowseButtonClicked); connect(d->m_pFileSelection, &QLineEdit::returnPressed, this, &DiffTextWindowFrame::slotReturnPressed); d->m_pFileSelection->setAcceptDrops(true); d->m_pLabel = new QLabel("A:", d->m_pTopLineWidget); d->m_pTopLine = new QLabel(d->m_pTopLineWidget); d->m_pDiffTextWindow = nullptr; d->m_pDiffTextWindow = new DiffTextWindow(this, pStatusBar, pOptions, winIdx); QVBoxLayout* pVTopLayout = new QVBoxLayout(d->m_pTopLineWidget); pVTopLayout->setMargin(2); pVTopLayout->setSpacing(0); QHBoxLayout* pHL = new QHBoxLayout(); QHBoxLayout* pHL2 = new QHBoxLayout(); pVTopLayout->addLayout(pHL); pVTopLayout->addLayout(pHL2); // Upper line: pHL->setMargin(0); pHL->setSpacing(2); pHL->addWidget(d->m_pLabel, 0); pHL->addWidget(d->m_pFileSelection, 1); pHL->addWidget(d->m_pBrowseButton, 0); pHL->addWidget(d->m_pTopLine, 0); // Lower line pHL2->setMargin(0); pHL2->setSpacing(2); pHL2->addWidget(d->m_pTopLine, 0); d->m_pEncoding = new EncodingLabel(i18n("Encoding:"), this, psd, pOptions); d->m_pLineEndStyle = new QLabel(i18n("Line end style:")); pHL2->addWidget(d->m_pEncoding); pHL2->addWidget(d->m_pLineEndStyle); QVBoxLayout* pVL = new QVBoxLayout(this); pVL->setMargin(0); pVL->setSpacing(0); pVL->addWidget(d->m_pTopLineWidget, 0); pVL->addWidget(d->m_pDiffTextWindow, 1); d->m_pDiffTextWindow->installEventFilter(this); d->m_pFileSelection->installEventFilter(this); d->m_pBrowseButton->installEventFilter(this); init(); } DiffTextWindowFrame::~DiffTextWindowFrame() { delete d; } void DiffTextWindowFrame::init() { DiffTextWindow* pDTW = d->m_pDiffTextWindow; if(pDTW) { QString s = QDir::toNativeSeparators(pDTW->d->m_filename); d->m_pFileSelection->setText(s); QString winId = pDTW->d->m_winIdx == A ? (pDTW->d->m_bTriple ? i18n("A (Base)") : i18n("A")) : (pDTW->d->m_winIdx == B ? i18n("B") : i18n("C")); d->m_pLabel->setText(winId + ':'); d->m_pEncoding->setText(i18n("Encoding: %1", pDTW->d->m_pTextCodec != nullptr ? QLatin1String(pDTW->d->m_pTextCodec->name()) : QString())); d->m_pLineEndStyle->setText(i18n("Line end style: %1", pDTW->d->m_eLineEndStyle == eLineEndStyleDos ? i18n("DOS") : i18n("Unix"))); } } // Search for the first visible line (search loop needed when no line exist for this file.) int DiffTextWindow::calcTopLineInFile(int firstLine) { int l = -1; for(int i = convertLineToDiff3LineIdx(firstLine); i < (int)d->m_pDiff3LineVector->size(); ++i) { const Diff3Line* d3l = (*d->m_pDiff3LineVector)[i]; l = d3l->getLineInFile(d->m_winIdx); if(l != -1) break; } return l; } void DiffTextWindowFrame::setFirstLine(int firstLine) { DiffTextWindow* pDTW = d->m_pDiffTextWindow; if(pDTW && pDTW->d->m_pDiff3LineVector) { QString s = i18n("Top line"); int lineNumberWidth = (int)log10((double)std::max(pDTW->d->m_size, 1)) + 1; int l = pDTW->calcTopLineInFile(firstLine); int w = d->m_pTopLine->fontMetrics().width( s + ' ' + QString().fill('0', lineNumberWidth)); d->m_pTopLine->setMinimumWidth(w); if(l == -1) s = i18n("End"); else s += ' ' + QString::number(l + 1); d->m_pTopLine->setText(s); d->m_pTopLine->repaint(); } } DiffTextWindow* DiffTextWindowFrame::getDiffTextWindow() { return d->m_pDiffTextWindow; } bool DiffTextWindowFrame::eventFilter(QObject* o, QEvent* e) { Q_UNUSED(o); if(e->type() == QEvent::FocusIn || e->type() == QEvent::FocusOut) { QColor c1 = d->m_pOptions->m_bgColor; QColor c2; if(d->m_winIdx == A) c2 = d->m_pOptions->m_colorA; else if(d->m_winIdx == B) c2 = d->m_pOptions->m_colorB; else if(d->m_winIdx == C) c2 = d->m_pOptions->m_colorC; QPalette p = d->m_pTopLineWidget->palette(); if(e->type() == QEvent::FocusOut) std::swap(c1, c2); p.setColor(QPalette::Window, c2); setPalette(p); p.setColor(QPalette::WindowText, c1); d->m_pLabel->setPalette(p); d->m_pTopLine->setPalette(p); d->m_pEncoding->setPalette(p); d->m_pLineEndStyle->setPalette(p); } return false; } void DiffTextWindowFrame::slotReturnPressed() { DiffTextWindow* pDTW = d->m_pDiffTextWindow; if(pDTW->d->m_filename != d->m_pFileSelection->text()) { emit fileNameChanged(d->m_pFileSelection->text(), pDTW->d->m_winIdx); } } void DiffTextWindowFrame::slotBrowseButtonClicked() { QString current = d->m_pFileSelection->text(); QUrl newURL = QFileDialog::getOpenFileUrl(this, i18n("Open File"), QUrl::fromUserInput(current, QString(), QUrl::AssumeLocalFile)); if(!newURL.isEmpty()) { DiffTextWindow* pDTW = d->m_pDiffTextWindow; emit fileNameChanged(newURL.url(), pDTW->d->m_winIdx); } } void DiffTextWindowFrame::sendEncodingChangedSignal(QTextCodec* c) { emit encodingChanged(c); } EncodingLabel::EncodingLabel(const QString& text, DiffTextWindowFrame* pDiffTextWindowFrame, SourceData* pSD, Options* pOptions) : QLabel(text) { m_pDiffTextWindowFrame = pDiffTextWindowFrame; m_pOptions = pOptions; m_pSourceData = pSD; m_pContextEncodingMenu = nullptr; setMouseTracking(true); } void EncodingLabel::mouseMoveEvent(QMouseEvent*) { // When there is no data to display or it came from clipboard, // we will be use UTF-8 only, // in that case there is no possibility to change the encoding in the SourceData // so, we should hide the HandCursor and display usual ArrowCursor if(m_pSourceData->isFromBuffer() || m_pSourceData->isEmpty()) setCursor(QCursor(Qt::ArrowCursor)); else setCursor(QCursor(Qt::PointingHandCursor)); } void EncodingLabel::mousePressEvent(QMouseEvent*) { if(!(m_pSourceData->isFromBuffer() || m_pSourceData->isEmpty())) { delete m_pContextEncodingMenu; m_pContextEncodingMenu = new QMenu(this); QMenu* pContextEncodingSubMenu = new QMenu(m_pContextEncodingMenu); int currentTextCodecEnum = m_pSourceData->getEncoding()->mibEnum(); // the codec that will be checked in the context menu QList mibs = QTextCodec::availableMibs(); QList codecEnumList; // Adding "main" encodings insertCodec(i18n("Unicode, 8 bit"), QTextCodec::codecForName("UTF-8"), codecEnumList, m_pContextEncodingMenu, currentTextCodecEnum); if(QTextCodec::codecForName("System")) { insertCodec(QString(), QTextCodec::codecForName("System"), codecEnumList, m_pContextEncodingMenu, currentTextCodecEnum); } // Adding recent encodings if(m_pOptions != nullptr) { QStringList& recentEncodings = m_pOptions->m_recentEncodings; foreach(const QString& s, recentEncodings) { insertCodec("", QTextCodec::codecForName(s.toLatin1()), codecEnumList, m_pContextEncodingMenu, currentTextCodecEnum); } } // Submenu to add the rest of available encodings pContextEncodingSubMenu->setTitle(i18n("Other")); foreach(int i, mibs) { QTextCodec* c = QTextCodec::codecForMib(i); if(c != nullptr) insertCodec("", c, codecEnumList, pContextEncodingSubMenu, currentTextCodecEnum); } m_pContextEncodingMenu->addMenu(pContextEncodingSubMenu); m_pContextEncodingMenu->exec(QCursor::pos()); } } void EncodingLabel::insertCodec(const QString& visibleCodecName, QTextCodec* pCodec, QList& codecEnumList, QMenu* pMenu, int currentTextCodecEnum) { int CodecMIBEnum = pCodec->mibEnum(); if(pCodec != nullptr && !codecEnumList.contains(CodecMIBEnum)) { QAction* pAction = new QAction(pMenu); // menu takes ownership, so deleting the menu deletes the action too. QLatin1String codecName(pCodec->name()); pAction->setText(visibleCodecName.isEmpty() ? codecName : visibleCodecName + QLatin1String(" (") + codecName + QLatin1String(")")); pAction->setData(CodecMIBEnum); pAction->setCheckable(true); if(currentTextCodecEnum == CodecMIBEnum) pAction->setChecked(true); pMenu->addAction(pAction); connect(pAction, &QAction::triggered, this, &EncodingLabel::slotEncodingChanged); codecEnumList.append(CodecMIBEnum); } } void EncodingLabel::slotEncodingChanged() { QAction* pAction = qobject_cast(sender()); if(pAction) { QTextCodec* pCodec = QTextCodec::codecForMib(pAction->data().toInt()); if(pCodec != nullptr) { QString s(QLatin1String(pCodec->name())); QStringList& recentEncodings = m_pOptions->m_recentEncodings; if(!recentEncodings.contains(s) && s != "UTF-8" && s != "System") { int itemsToRemove = recentEncodings.size() - m_maxRecentEncodings + 1; for(int i = 0; i < itemsToRemove; ++i) { recentEncodings.removeFirst(); } recentEncodings.append(s); } } m_pDiffTextWindowFrame->sendEncodingChangedSignal(pCodec); } } diff --git a/src/difftextwindow.h b/src/difftextwindow.h index f4fed31..2e45bd4 100644 --- a/src/difftextwindow.h +++ b/src/difftextwindow.h @@ -1,157 +1,157 @@ /*************************************************************************** * Copyright (C) 2003-2007 by Joachim Eibl * * joachim.eibl at gmx.de * * Copyright (C) 2018 Michael Reeves reeves.87@gmail.com * * * * 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. * * * ***************************************************************************/ #ifndef DIFFTEXTWINDOW_H #define DIFFTEXTWINDOW_H #include "diff.h" #include class QMenu; class QStatusBar; class Options; class DiffTextWindowData; class DiffTextWindowFrame; class EncodingLabel; class RLPainter; class DiffTextWindow : public QWidget { Q_OBJECT public: DiffTextWindow(DiffTextWindowFrame* pParent, QStatusBar* pStatusBar, Options* pOptions, e_SrcSelector winIdx); ~DiffTextWindow() override; void init( const QString& fileName, QTextCodec* pTextCodec, e_LineEndStyle eLineEndStyle, - const LineData* pLineData, + const QVector* pLineData, int size, const Diff3LineVector* pDiff3LineVector, const ManualDiffHelpList* pManualDiffHelpList, bool bTriple ); void reset(); void convertToLinePos( int x, int y, LineRef& line, int& pos ); QString getSelection(); int getFirstLine(); int calcTopLineInFile( int firstLine ); int getMaxTextWidth(); LineCount getNofLines(); int getNofVisibleLines(); int getVisibleTextAreaWidth(); int convertLineToDiff3LineIdx( LineRef line ); LineRef convertDiff3LineIdxToLine( int d3lIdx ); void convertD3LCoordsToLineCoords( int d3LIdx, int d3LPos, int& line, int& pos ); void convertLineCoordsToD3LCoords( int line, int pos, int& d3LIdx, int& d3LPos ); void convertSelectionToD3LCoords(); bool findString( const QString& s, LineRef& d3vLine, int& posInLine, bool bDirDown, bool bCaseSensitive ); void setSelection( LineRef firstLine, int startPos, LineRef lastLine, int endPos, LineRef& l, int& p ); void getSelectionRange( LineRef* firstLine, LineRef* lastLine, e_CoordType coordType ); void setPaintingAllowed( bool bAllowPainting ); void recalcWordWrap( bool bWordWrap, int wrapLineVectorSize, int visibleTextWidth); void recalcWordWrapHelper( int wrapLineVectorSize, int visibleTextWidth, int cacheListIdx); void print( RLPainter& painter, const QRect& r, int firstLine, int nofLinesPerPage ); Q_SIGNALS: void resizeHeightChangedSignal(int nofVisibleLines); void resizeWidthChangedSignal(int nofVisibleColumns); void scrollDiffTextWindow( int deltaX, int deltaY ); void newSelection(); void selectionEnd(); void setFastSelectorLine( LineIndex line ); void gotFocus(); void lineClicked( e_SrcSelector winIdx, int line ); public Q_SLOTS: void setFirstLine( int line ); void setHorizScrollOffset( int horizScrollOffset ); void resetSelection(); void setFastSelectorRange( int line1, int nofLines ); protected: void mousePressEvent ( QMouseEvent * ) override; void mouseReleaseEvent ( QMouseEvent * ) override; void mouseMoveEvent ( QMouseEvent * ) override; void mouseDoubleClickEvent ( QMouseEvent * e ) override; void paintEvent( QPaintEvent* ) override; void dragEnterEvent( QDragEnterEvent* e ) override; void focusInEvent( QFocusEvent* e ) override; void resizeEvent( QResizeEvent* ) override; void timerEvent(QTimerEvent*) override; private: DiffTextWindowData* d; void showStatusLine( int line ); friend class DiffTextWindowFrame; }; class DiffTextWindowFrameData; class DiffTextWindowFrame : public QWidget { Q_OBJECT public: DiffTextWindowFrame( QWidget* pParent, QStatusBar* pStatusBar, Options* pOptions, e_SrcSelector winIdx, SourceData* psd); ~DiffTextWindowFrame() override; DiffTextWindow* getDiffTextWindow(); void init(); void setFirstLine(int firstLine); void sendEncodingChangedSignal(QTextCodec* c); Q_SIGNALS: void fileNameChanged(const QString&, e_SrcSelector); void encodingChanged(QTextCodec*); protected: bool eventFilter( QObject*, QEvent* ) override; //void paintEvent(QPaintEvent*); private Q_SLOTS: void slotReturnPressed(); void slotBrowseButtonClicked(); private: DiffTextWindowFrameData* d; }; class EncodingLabel : public QLabel { Q_OBJECT public: EncodingLabel( const QString & text, DiffTextWindowFrame* pDiffTextWindowFrame, SourceData* psd, Options* pOptions); protected: void mouseMoveEvent(QMouseEvent *ev) override; void mousePressEvent(QMouseEvent *ev) override; private Q_SLOTS: void slotEncodingChanged(); private: DiffTextWindowFrame* m_pDiffTextWindowFrame; //To send "EncodingChanged" signal QMenu* m_pContextEncodingMenu; SourceData* m_pSourceData; //SourceData to get access to "isEmpty()" and "isFromBuffer()" functions static const int m_maxRecentEncodings = 5; Options* m_pOptions; void insertCodec( const QString& visibleCodecName, QTextCodec* pCodec, QList &CodecEnumList, QMenu* pMenu, int currentTextCodecEnum); }; bool startRunnables(); #endif diff --git a/src/mergeresultwindow.cpp b/src/mergeresultwindow.cpp index ed719ab..0b38d1e 100644 --- a/src/mergeresultwindow.cpp +++ b/src/mergeresultwindow.cpp @@ -1,3299 +1,3299 @@ /*************************************************************************** * Copyright (C) 2002-2007 by Joachim Eibl * * Copyright (C) 2018 Michael Reeves reeves.87@gmail.com * * * * 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. * * * ***************************************************************************/ #include "mergeresultwindow.h" #include "options.h" #include "RLPainter.h" #include "guiutils.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include int g_bAutoSolve = true; #undef leftInfoWidth MergeResultWindow::MergeResultWindow( QWidget* pParent, Options* pOptions, QStatusBar* pStatusBar) : QWidget(pParent) { setObjectName("MergeResultWindow"); setFocusPolicy(Qt::ClickFocus); m_firstLine = 0; m_horizScrollOffset = 0; m_nofLines = 0; m_bMyUpdate = false; m_bInsertMode = true; m_scrollDeltaX = 0; m_scrollDeltaY = 0; m_bModified = false; m_eOverviewMode = Overview::eOMNormal; m_pldA = nullptr; m_pldB = nullptr; m_pldC = nullptr; m_sizeA = 0; m_sizeB = 0; m_sizeC = 0; m_pDiff3LineList = nullptr; m_pTotalDiffStatus = nullptr; m_pStatusBar = pStatusBar; if(m_pStatusBar) connect(m_pStatusBar, &QStatusBar::messageChanged, this, &MergeResultWindow::slotStatusMessageChanged); m_pOptions = pOptions; setUpdatesEnabled(false); m_delayedDrawTimer = 0; m_cursorXPos = 0; m_cursorOldXPixelPos = 0; m_cursorYPos = 0; m_bCursorOn = true; m_bCursorUpdate = false; m_maxTextWidth = -1; connect(&m_cursorTimer, &QTimer::timeout, this, &MergeResultWindow::slotCursorUpdate); m_cursorTimer.setSingleShot(true); m_cursorTimer.start(500 /*ms*/); m_selection.reset(); setMinimumSize(QSize(20, 20)); setFont(m_pOptions->m_font); } void MergeResultWindow::init( - const LineData* pLineDataA, LineRef sizeA, - const LineData* pLineDataB, LineRef sizeB, - const LineData* pLineDataC, LineRef sizeC, + const QVector* pLineDataA, LineRef sizeA, + const QVector* pLineDataB, LineRef sizeB, + const QVector* pLineDataC, LineRef sizeC, const Diff3LineList* pDiff3LineList, TotalDiffStatus* pTotalDiffStatus) { m_firstLine = 0; m_horizScrollOffset = 0; m_nofLines = 0; m_bMyUpdate = false; m_bInsertMode = true; m_scrollDeltaX = 0; m_scrollDeltaY = 0; setModified(false); m_pldA = pLineDataA; m_pldB = pLineDataB; m_pldC = pLineDataC; m_sizeA = sizeA; m_sizeB = sizeB; m_sizeC = sizeC; m_pDiff3LineList = pDiff3LineList; m_pTotalDiffStatus = pTotalDiffStatus; m_selection.reset(); m_cursorXPos = 0; m_cursorOldXPixelPos = 0; m_cursorYPos = 0; m_maxTextWidth = -1; merge(g_bAutoSolve, Invalid); g_bAutoSolve = true; update(); updateSourceMask(); showUnsolvedConflictsStatusMessage(); } void MergeResultWindow::initActions(KActionCollection* ac) { if(ac == nullptr){ KMessageBox::error(nullptr, "actionCollection==0"); exit(-1);//we cannot recover from this. } chooseAEverywhere = GuiUtils::createAction(i18n("Choose A Everywhere"), QKeySequence(Qt::CTRL + Qt::SHIFT + Qt::Key_1), this, &MergeResultWindow::slotChooseAEverywhere, ac, "merge_choose_a_everywhere"); chooseBEverywhere = GuiUtils::createAction(i18n("Choose B Everywhere"), QKeySequence(Qt::CTRL + Qt::SHIFT + Qt::Key_2), this, &MergeResultWindow::slotChooseBEverywhere, ac, "merge_choose_b_everywhere"); chooseCEverywhere = GuiUtils::createAction(i18n("Choose C Everywhere"), QKeySequence(Qt::CTRL + Qt::SHIFT + Qt::Key_3), this, &MergeResultWindow::slotChooseCEverywhere, ac, "merge_choose_c_everywhere"); chooseAForUnsolvedConflicts = GuiUtils::createAction(i18n("Choose A for All Unsolved Conflicts"), this, &MergeResultWindow::slotChooseAForUnsolvedConflicts, ac, "merge_choose_a_for_unsolved_conflicts"); chooseBForUnsolvedConflicts = GuiUtils::createAction(i18n("Choose B for All Unsolved Conflicts"), this, &MergeResultWindow::slotChooseBForUnsolvedConflicts, ac, "merge_choose_b_for_unsolved_conflicts"); chooseCForUnsolvedConflicts = GuiUtils::createAction(i18n("Choose C for All Unsolved Conflicts"), this, &MergeResultWindow::slotChooseCForUnsolvedConflicts, ac, "merge_choose_c_for_unsolved_conflicts"); chooseAForUnsolvedWhiteSpaceConflicts = GuiUtils::createAction(i18n("Choose A for All Unsolved Whitespace Conflicts"), this, &MergeResultWindow::slotChooseAForUnsolvedWhiteSpaceConflicts, ac, "merge_choose_a_for_unsolved_whitespace_conflicts"); chooseBForUnsolvedWhiteSpaceConflicts = GuiUtils::createAction(i18n("Choose B for All Unsolved Whitespace Conflicts"), this, &MergeResultWindow::slotChooseBForUnsolvedWhiteSpaceConflicts, ac, "merge_choose_b_for_unsolved_whitespace_conflicts"); chooseCForUnsolvedWhiteSpaceConflicts = GuiUtils::createAction(i18n("Choose C for All Unsolved Whitespace Conflicts"), this, &MergeResultWindow::slotChooseCForUnsolvedWhiteSpaceConflicts, ac, "merge_choose_c_for_unsolved_whitespace_conflicts"); } void MergeResultWindow::showUnsolvedConflictsStatusMessage() { if(m_pStatusBar) { int wsc; int nofUnsolved = getNrOfUnsolvedConflicts(&wsc); m_persistentStatusMessage = i18n("Number of remaining unsolved conflicts: %1 (of which %2 are whitespace)", nofUnsolved, wsc); m_pStatusBar->showMessage(m_persistentStatusMessage); } } void MergeResultWindow::slotUpdateAvailabilities(bool bMergeEditorVisible,const bool bTripleDiff) { chooseAEverywhere->setEnabled(bMergeEditorVisible); chooseBEverywhere->setEnabled(bMergeEditorVisible); chooseCEverywhere->setEnabled(bMergeEditorVisible && bTripleDiff); chooseAForUnsolvedConflicts->setEnabled(bMergeEditorVisible); chooseBForUnsolvedConflicts->setEnabled(bMergeEditorVisible); chooseCForUnsolvedConflicts->setEnabled(bMergeEditorVisible && bTripleDiff); chooseAForUnsolvedWhiteSpaceConflicts->setEnabled(bMergeEditorVisible); chooseBForUnsolvedWhiteSpaceConflicts->setEnabled(bMergeEditorVisible); chooseCForUnsolvedWhiteSpaceConflicts->setEnabled(bMergeEditorVisible && bTripleDiff); } void MergeResultWindow::slotStatusMessageChanged(const QString& s) { if(s.isEmpty() && !m_persistentStatusMessage.isEmpty()) { m_pStatusBar->showMessage(m_persistentStatusMessage, 0); } } void MergeResultWindow::reset() { m_pDiff3LineList = nullptr; m_pTotalDiffStatus = nullptr; m_pldA = nullptr; m_pldB = nullptr; m_pldC = nullptr; if(!m_persistentStatusMessage.isEmpty()) { m_persistentStatusMessage = QString(); } } // Calculate the merge information for the given Diff3Line. // Results will be stored in mergeDetails, bConflict, bLineRemoved and src. void Diff3Line::mergeOneLine( e_MergeDetails& mergeDetails, bool& bConflict, bool& bLineRemoved, e_SrcSelector& src, bool bTwoInputs) const { mergeDetails = eDefault; bConflict = false; bLineRemoved = false; src = None; if(bTwoInputs) // Only two input files { if(getLineA() != -1 && getLineB().isValid()) { if(pFineAB == nullptr) { mergeDetails = eNoChange; src = A; } else { mergeDetails = eBChanged; bConflict = true; } } else { if(getLineA().isValid() && !getLineB().isValid()) { mergeDetails = eBDeleted; bConflict = true; } else if(!getLineA().isValid() && getLineB().isValid()) { mergeDetails = eBDeleted; bConflict = true; } } return; } // A is base. if(getLineA().isValid() && getLineB().isValid() && getLineC() != -1) { if(pFineAB == nullptr && pFineBC == nullptr && pFineCA == nullptr) { mergeDetails = eNoChange; src = A; } else if(pFineAB == nullptr && pFineBC != nullptr && pFineCA != nullptr) { mergeDetails = eCChanged; src = C; } else if(pFineAB != nullptr && pFineBC != nullptr && pFineCA == nullptr) { mergeDetails = eBChanged; src = B; } else if(pFineAB != nullptr && pFineBC == nullptr && pFineCA != nullptr) { mergeDetails = eBCChangedAndEqual; src = C; } else if(pFineAB != nullptr && pFineBC != nullptr && pFineCA != nullptr) { mergeDetails = eBCChanged; bConflict = true; } else Q_ASSERT(true); } else if(getLineA().isValid() && getLineB().isValid() && !getLineC().isValid()) { if(pFineAB != nullptr) { mergeDetails = eBChanged_CDeleted; bConflict = true; } else { mergeDetails = eCDeleted; bLineRemoved = true; src = C; } } else if(getLineA().isValid() && !getLineB().isValid() && getLineC() != -1) { if(pFineCA != nullptr) { mergeDetails = eCChanged_BDeleted; bConflict = true; } else { mergeDetails = eBDeleted; bLineRemoved = true; src = B; } } else if(!getLineA().isValid() && getLineB().isValid() && getLineC() != -1) { if(pFineBC != nullptr) { mergeDetails = eBCAdded; bConflict = true; } else // B==C { mergeDetails = eBCAddedAndEqual; src = C; } } else if(!getLineA().isValid() && !getLineB().isValid() && getLineC() != -1) { mergeDetails = eCAdded; src = C; } else if(!getLineA().isValid() && getLineB().isValid() && !getLineC().isValid()) { mergeDetails = eBAdded; src = B; } else if(getLineA().isValid() && !getLineB().isValid() && !getLineC().isValid()) { mergeDetails = eBCDeleted; bLineRemoved = true; src = C; } else Q_ASSERT(true); } bool MergeResultWindow::sameKindCheck(const MergeLine& ml1, const MergeLine& ml2) { if(ml1.bConflict && ml2.bConflict) { // Both lines have conflicts: If one is only a white space conflict and // the other one is a real conflict, then this line returns false. return ml1.id3l->isEqualAC() == ml2.id3l->isEqualAC() && ml1.id3l->isEqualAB() == ml2.id3l->isEqualAB(); } else return ( (!ml1.bConflict && !ml2.bConflict && ml1.bDelta && ml2.bDelta && ml1.srcSelect == ml2.srcSelect && (ml1.mergeDetails == ml2.mergeDetails || (ml1.mergeDetails != eBCAddedAndEqual && ml2.mergeDetails != eBCAddedAndEqual))) || (!ml1.bDelta && !ml2.bDelta)); } void MergeResultWindow::merge(bool bAutoSolve, e_SrcSelector defaultSelector, bool bConflictsOnly, bool bWhiteSpaceOnly) { if(!bConflictsOnly) { if(m_bModified) { int result = KMessageBox::warningYesNo(this, i18n("The output has been modified.\n" "If you continue your changes will be lost."), i18n("Warning"), KStandardGuiItem::cont(), KStandardGuiItem::cancel()); if(result == KMessageBox::No) return; } m_mergeLineList.clear(); int lineIdx = 0; Diff3LineList::const_iterator it; for(it = m_pDiff3LineList->begin(); it != m_pDiff3LineList->end(); ++it, ++lineIdx) { const Diff3Line& d = *it; MergeLine ml; bool bLineRemoved; d.mergeOneLine( ml.mergeDetails, ml.bConflict, bLineRemoved, ml.srcSelect, m_pldC == nullptr); // Automatic solving for only whitespace changes. if(ml.bConflict && ((m_pldC == nullptr && (d.isEqualAB() || (d.bWhiteLineA && d.bWhiteLineB))) || (m_pldC != nullptr && ((d.isEqualAB() && d.isEqualAC()) || (d.bWhiteLineA && d.bWhiteLineB && d.bWhiteLineC))))) { ml.bWhiteSpaceConflict = true; } ml.d3lLineIdx = lineIdx; ml.bDelta = ml.srcSelect != A; ml.id3l = it; ml.srcRangeLength = 1; MergeLine* back = m_mergeLineList.empty() ? nullptr : &m_mergeLineList.back(); bool bSame = back != nullptr && sameKindCheck(ml, *back); if(bSame) { ++back->srcRangeLength; if(back->bWhiteSpaceConflict && !ml.bWhiteSpaceConflict) back->bWhiteSpaceConflict = false; } else { m_mergeLineList.push_back(ml); } if(!ml.bConflict) { MergeLine& tmpBack = m_mergeLineList.back(); MergeEditLine mel(ml.id3l); mel.setSource(ml.srcSelect, bLineRemoved); tmpBack.mergeEditLineList.push_back(mel); } else if(back == nullptr || !back->bConflict || !bSame) { MergeLine& tmpBack = m_mergeLineList.back(); MergeEditLine mel(ml.id3l); mel.setConflict(); tmpBack.mergeEditLineList.push_back(mel); } } } bool bSolveWhiteSpaceConflicts = false; if(bAutoSolve) // when true, then the other params are not used and we can change them here. (see all invocations of merge()) { if(m_pldC == nullptr && m_pOptions->m_whiteSpace2FileMergeDefault != None) // Only two inputs { Q_ASSERT(m_pOptions->m_whiteSpace2FileMergeDefault <= Max && m_pOptions->m_whiteSpace2FileMergeDefault >= Min); defaultSelector = (e_SrcSelector)m_pOptions->m_whiteSpace2FileMergeDefault; bWhiteSpaceOnly = true; bSolveWhiteSpaceConflicts = true; } else if(m_pldC != nullptr && m_pOptions->m_whiteSpace3FileMergeDefault != None) { Q_ASSERT(m_pOptions->m_whiteSpace3FileMergeDefault <= Max && m_pOptions->m_whiteSpace2FileMergeDefault >= Min); defaultSelector = (e_SrcSelector)m_pOptions->m_whiteSpace3FileMergeDefault; bWhiteSpaceOnly = true; bSolveWhiteSpaceConflicts = true; } } if(!bAutoSolve || bSolveWhiteSpaceConflicts) { // Change all auto selections MergeLineList::iterator mlIt; for(mlIt = m_mergeLineList.begin(); mlIt != m_mergeLineList.end(); ++mlIt) { MergeLine& ml = *mlIt; bool bConflict = ml.mergeEditLineList.empty() || ml.mergeEditLineList.begin()->isConflict(); if(ml.bDelta && (!bConflictsOnly || bConflict) && (!bWhiteSpaceOnly || ml.bWhiteSpaceConflict)) { ml.mergeEditLineList.clear(); if(defaultSelector == Invalid && ml.bDelta) { MergeEditLine mel(ml.id3l); ; mel.setConflict(); ml.bConflict = true; ml.mergeEditLineList.push_back(mel); } else { Diff3LineList::const_iterator d3llit = ml.id3l; int j; for(j = 0; j < ml.srcRangeLength; ++j) { MergeEditLine mel(d3llit); mel.setSource(defaultSelector, false); LineRef srcLine = defaultSelector == A ? d3llit->getLineA() : defaultSelector == B ? d3llit->getLineB() : defaultSelector == C ? d3llit->getLineC() : LineRef(); if(srcLine.isValid()) { ml.mergeEditLineList.push_back(mel); } ++d3llit; } if(ml.mergeEditLineList.empty()) // Make a line nevertheless { MergeEditLine mel(ml.id3l); mel.setRemoved(defaultSelector); ml.mergeEditLineList.push_back(mel); } } } } } MergeLineList::iterator mlIt; for(mlIt = m_mergeLineList.begin(); mlIt != m_mergeLineList.end(); ++mlIt) { MergeLine& ml = *mlIt; // Remove all lines that are empty, because no src lines are there. LineRef oldSrcLine; e_SrcSelector oldSrc = Invalid; MergeEditLineList::iterator melIt; for(melIt = ml.mergeEditLineList.begin(); melIt != ml.mergeEditLineList.end();) { MergeEditLine& mel = *melIt; e_SrcSelector melsrc = mel.src(); LineRef srcLine = mel.isRemoved() ? LineRef() : melsrc == A ? mel.id3l()->getLineA() : melsrc == B ? mel.id3l()->getLineB() : melsrc == C ? mel.id3l()->getLineC() : LineRef(); // At least one line remains because oldSrc != melsrc for first line in list // Other empty lines will be removed if(!srcLine.isValid() && !oldSrcLine.isValid() && oldSrc == melsrc) melIt = ml.mergeEditLineList.erase(melIt); else ++melIt; oldSrcLine = srcLine; oldSrc = melsrc; } } if(bAutoSolve && !bConflictsOnly) { if(m_pOptions->m_bRunHistoryAutoMergeOnMergeStart) slotMergeHistory(); if(m_pOptions->m_bRunRegExpAutoMergeOnMergeStart) slotRegExpAutoMerge(); if(m_pldC != nullptr && !doRelevantChangesExist()) emit noRelevantChangesDetected(); } int nrOfSolvedConflicts = 0; int nrOfUnsolvedConflicts = 0; int nrOfWhiteSpaceConflicts = 0; MergeLineList::iterator i; for(i = m_mergeLineList.begin(); i != m_mergeLineList.end(); ++i) { if(i->bConflict) ++nrOfUnsolvedConflicts; else if(i->bDelta) ++nrOfSolvedConflicts; if(i->bWhiteSpaceConflict) ++nrOfWhiteSpaceConflicts; } m_pTotalDiffStatus->setUnsolvedConflicts(nrOfUnsolvedConflicts); m_pTotalDiffStatus->setSolvedConflicts(nrOfSolvedConflicts); m_pTotalDiffStatus->setWhitespaceConflicts(nrOfWhiteSpaceConflicts); m_cursorXPos = 0; m_cursorOldXPixelPos = 0; m_cursorYPos = 0; m_maxTextWidth = -1; //m_firstLine = 0; // Must not set line/column without scrolling there //m_horizScrollOffset = 0; setModified(false); m_currentMergeLineIt = m_mergeLineList.begin(); slotGoTop(); emit updateAvailabilities(); update(); } void MergeResultWindow::setFirstLine(QtNumberType firstLine) { m_firstLine = std::max(0, firstLine); update(); } void MergeResultWindow::setHorizScrollOffset(int horizScrollOffset) { m_horizScrollOffset = std::max(0, horizScrollOffset); update(); } int MergeResultWindow::getMaxTextWidth() { if(m_maxTextWidth < 0) { m_maxTextWidth = 0; MergeLineList::iterator mlIt = m_mergeLineList.begin(); for(mlIt = m_mergeLineList.begin(); mlIt != m_mergeLineList.end(); ++mlIt) { MergeLine& ml = *mlIt; MergeEditLineList::iterator melIt; for(melIt = ml.mergeEditLineList.begin(); melIt != ml.mergeEditLineList.end(); ++melIt) { MergeEditLine& mel = *melIt; QString s = mel.getString(m_pldA, m_pldB, m_pldC); QTextLayout textLayout(s, font(), this); textLayout.beginLayout(); textLayout.createLine(); textLayout.endLayout(); if(m_maxTextWidth < textLayout.maximumWidth()) { m_maxTextWidth = qCeil(textLayout.maximumWidth()); } } } m_maxTextWidth += 5; // cursorwidth } return m_maxTextWidth; } int MergeResultWindow::getNofLines() { return m_nofLines; } int MergeResultWindow::getVisibleTextAreaWidth() { // QFontMetrics fm = fontMetrics(); // FIXME used? return width() - getTextXOffset(); } int MergeResultWindow::getNofVisibleLines() { QFontMetrics fm = fontMetrics(); return (height() - 3) / fm.lineSpacing() - 2; } int MergeResultWindow::getTextXOffset() { QFontMetrics fm = fontMetrics(); return 3 * fm.width('0'); } void MergeResultWindow::resizeEvent(QResizeEvent* e) { QWidget::resizeEvent(e); emit resizeSignal(); } Overview::e_OverviewMode MergeResultWindow::getOverviewMode() { return m_eOverviewMode; } void MergeResultWindow::setOverviewMode(Overview::e_OverviewMode eOverviewMode) { m_eOverviewMode = eOverviewMode; } // Check whether we should ignore current delta when moving to next/previous delta bool MergeResultWindow::checkOverviewIgnore(MergeLineList::iterator& i) { if(m_eOverviewMode == Overview::eOMNormal) return false; if(m_eOverviewMode == Overview::eOMAvsB) return i->mergeDetails == eCAdded || i->mergeDetails == eCDeleted || i->mergeDetails == eCChanged; if(m_eOverviewMode == Overview::eOMAvsC) return i->mergeDetails == eBAdded || i->mergeDetails == eBDeleted || i->mergeDetails == eBChanged; if(m_eOverviewMode == Overview::eOMBvsC) return i->mergeDetails == eBCAddedAndEqual || i->mergeDetails == eBCDeleted || i->mergeDetails == eBCChangedAndEqual; return false; } // Go to prev/next delta/conflict or first/last delta. void MergeResultWindow::go(e_Direction eDir, e_EndPoint eEndPoint) { Q_ASSERT(eDir == eUp || eDir == eDown); MergeLineList::iterator i = m_currentMergeLineIt; bool bSkipWhiteConflicts = !m_pOptions->m_bShowWhiteSpace; if(eEndPoint == eEnd) { if(eDir == eUp) i = m_mergeLineList.begin(); // first mergeline else i = --m_mergeLineList.end(); // last mergeline while(isItAtEnd(eDir == eUp, i) && !i->bDelta) { if(eDir == eUp) ++i; // search downwards else --i; // search upwards } } else if(eEndPoint == eDelta && isItAtEnd(eDir != eUp, i)) { do { if(eDir == eUp) --i; else ++i; } while(isItAtEnd(eDir != eUp, i) && (!i->bDelta || checkOverviewIgnore(i) || (bSkipWhiteConflicts && i->bWhiteSpaceConflict))); } else if(eEndPoint == eConflict && isItAtEnd(eDir != eUp, i)) { do { if(eDir == eUp) --i; else ++i; } while(isItAtEnd(eDir != eUp, i) && (!i->bConflict || (bSkipWhiteConflicts && i->bWhiteSpaceConflict))); } else if(isItAtEnd(eDir != eUp, i) && eEndPoint == eUnsolvedConflict) { do { if(eDir == eUp) --i; else ++i; } while(isItAtEnd(eDir != eUp, i) && !i->mergeEditLineList.begin()->isConflict()); } if(isVisible()) setFocus(); setFastSelector(i); } bool MergeResultWindow::isDeltaAboveCurrent() { bool bSkipWhiteConflicts = !m_pOptions->m_bShowWhiteSpace; if(m_mergeLineList.empty()) return false; MergeLineList::iterator i = m_currentMergeLineIt; if(i == m_mergeLineList.begin()) return false; do { --i; if(i->bDelta && !checkOverviewIgnore(i) && !(bSkipWhiteConflicts && i->bWhiteSpaceConflict)) return true; } while(i != m_mergeLineList.begin()); return false; } bool MergeResultWindow::isDeltaBelowCurrent() { bool bSkipWhiteConflicts = !m_pOptions->m_bShowWhiteSpace; if(m_mergeLineList.empty()) return false; MergeLineList::iterator i = m_currentMergeLineIt; if(i != m_mergeLineList.end()) { ++i; for(; i != m_mergeLineList.end(); ++i) { if(i->bDelta && !checkOverviewIgnore(i) && !(bSkipWhiteConflicts && i->bWhiteSpaceConflict)) return true; } } return false; } bool MergeResultWindow::isConflictAboveCurrent() { if(m_mergeLineList.empty()) return false; MergeLineList::iterator i = m_currentMergeLineIt; if(i == m_mergeLineList.begin()) return false; bool bSkipWhiteConflicts = !m_pOptions->m_bShowWhiteSpace; do { --i; if(i->bConflict && !(bSkipWhiteConflicts && i->bWhiteSpaceConflict)) return true; } while(i != m_mergeLineList.begin()); return false; } bool MergeResultWindow::isConflictBelowCurrent() { MergeLineList::iterator i = m_currentMergeLineIt; if(m_mergeLineList.empty()) return false; bool bSkipWhiteConflicts = !m_pOptions->m_bShowWhiteSpace; if(i != m_mergeLineList.end()) { ++i; for(; i != m_mergeLineList.end(); ++i) { if(i->bConflict && !(bSkipWhiteConflicts && i->bWhiteSpaceConflict)) return true; } } return false; } bool MergeResultWindow::isUnsolvedConflictAtCurrent() { if(m_mergeLineList.empty()) return false; MergeLineList::iterator i = m_currentMergeLineIt; return i->mergeEditLineList.begin()->isConflict(); } bool MergeResultWindow::isUnsolvedConflictAboveCurrent() { if(m_mergeLineList.empty()) return false; MergeLineList::iterator i = m_currentMergeLineIt; if(i == m_mergeLineList.begin()) return false; do { --i; if(i->mergeEditLineList.begin()->isConflict()) return true; } while(i != m_mergeLineList.begin()); return false; } bool MergeResultWindow::isUnsolvedConflictBelowCurrent() { MergeLineList::iterator i = m_currentMergeLineIt; if(m_mergeLineList.empty()) return false; if(i != m_mergeLineList.end()) { ++i; for(; i != m_mergeLineList.end(); ++i) { if(i->mergeEditLineList.begin()->isConflict()) return true; } } return false; } void MergeResultWindow::slotGoTop() { go(eUp, eEnd); } void MergeResultWindow::slotGoCurrent() { setFastSelector(m_currentMergeLineIt); } void MergeResultWindow::slotGoBottom() { go(eDown, eEnd); } void MergeResultWindow::slotGoPrevDelta() { go(eUp, eDelta); } void MergeResultWindow::slotGoNextDelta() { go(eDown, eDelta); } void MergeResultWindow::slotGoPrevConflict() { go(eUp, eConflict); } void MergeResultWindow::slotGoNextConflict() { go(eDown, eConflict); } void MergeResultWindow::slotGoPrevUnsolvedConflict() { go(eUp, eUnsolvedConflict); } void MergeResultWindow::slotGoNextUnsolvedConflict() { go(eDown, eUnsolvedConflict); } /** The line is given as a index in the Diff3LineList. The function calculates the corresponding iterator. */ void MergeResultWindow::slotSetFastSelectorLine(LineIndex line) { MergeLineList::iterator i; for(i = m_mergeLineList.begin(); i != m_mergeLineList.end(); ++i) { if(line >= i->d3lLineIdx && line < i->d3lLineIdx + i->srcRangeLength) { //if ( i->bDelta ) { setFastSelector(i); } break; } } } int MergeResultWindow::getNrOfUnsolvedConflicts(int* pNrOfWhiteSpaceConflicts) { int nrOfUnsolvedConflicts = 0; if(pNrOfWhiteSpaceConflicts != nullptr) *pNrOfWhiteSpaceConflicts = 0; MergeLineList::iterator mlIt = m_mergeLineList.begin(); for(mlIt = m_mergeLineList.begin(); mlIt != m_mergeLineList.end(); ++mlIt) { MergeLine& ml = *mlIt; MergeEditLineList::iterator melIt = ml.mergeEditLineList.begin(); if(melIt->isConflict()) { ++nrOfUnsolvedConflicts; if(ml.bWhiteSpaceConflict && pNrOfWhiteSpaceConflicts != nullptr) ++*pNrOfWhiteSpaceConflicts; } } return nrOfUnsolvedConflicts; } void MergeResultWindow::showNrOfConflicts() { if(!m_pOptions->m_bShowInfoDialogs) return; int nrOfConflicts = 0; MergeLineList::iterator i; for(i = m_mergeLineList.begin(); i != m_mergeLineList.end(); ++i) { if(i->bConflict || i->bDelta) ++nrOfConflicts; } QString totalInfo; if(m_pTotalDiffStatus->bBinaryAEqB && m_pTotalDiffStatus->bBinaryAEqC) totalInfo += i18n("All input files are binary equal."); else if(m_pTotalDiffStatus->bTextAEqB && m_pTotalDiffStatus->bTextAEqC) totalInfo += i18n("All input files contain the same text."); else { if(m_pTotalDiffStatus->bBinaryAEqB) totalInfo += i18n("Files %1 and %2 are binary equal.\n", i18n("A"), i18n("B")); else if(m_pTotalDiffStatus->bTextAEqB) totalInfo += i18n("Files %1 and %2 have equal text.\n", i18n("A"), i18n("B")); if(m_pTotalDiffStatus->bBinaryAEqC) totalInfo += i18n("Files %1 and %2 are binary equal.\n", i18n("A"), i18n("C")); else if(m_pTotalDiffStatus->bTextAEqC) totalInfo += i18n("Files %1 and %2 have equal text.\n", i18n("A"), i18n("C")); if(m_pTotalDiffStatus->bBinaryBEqC) totalInfo += i18n("Files %1 and %2 are binary equal.\n", i18n("B"), i18n("C")); else if(m_pTotalDiffStatus->bTextBEqC) totalInfo += i18n("Files %1 and %2 have equal text.\n", i18n("B"), i18n("C")); } int nrOfUnsolvedConflicts = getNrOfUnsolvedConflicts(); KMessageBox::information(this, i18n("Total number of conflicts: %1\n" "Nr of automatically solved conflicts: %2\n" "Nr of unsolved conflicts: %3\n" "%4", nrOfConflicts, nrOfConflicts - nrOfUnsolvedConflicts, nrOfUnsolvedConflicts, totalInfo), i18n("Conflicts")); } void MergeResultWindow::setFastSelector(MergeLineList::iterator i) { if(i == m_mergeLineList.end()) return; m_currentMergeLineIt = i; emit setFastSelectorRange(i->d3lLineIdx, i->srcRangeLength); int line1 = 0; MergeLineList::iterator mlIt = m_mergeLineList.begin(); for(mlIt = m_mergeLineList.begin(); mlIt != m_mergeLineList.end(); ++mlIt) { if(mlIt == m_currentMergeLineIt) break; line1 += mlIt->mergeEditLineList.size(); } int nofLines = m_currentMergeLineIt->mergeEditLineList.size(); int newFirstLine = getBestFirstLine(line1, nofLines, m_firstLine, getNofVisibleLines()); if(newFirstLine != m_firstLine) { emit scrollMergeResultWindow(0, newFirstLine - m_firstLine); } if(m_selection.isEmpty()) { m_cursorXPos = 0; m_cursorOldXPixelPos = 0; m_cursorYPos = line1; } update(); updateSourceMask(); emit updateAvailabilities(); } void MergeResultWindow::choose(e_SrcSelector selector) { if(m_currentMergeLineIt == m_mergeLineList.end()) return; setModified(); // First find range for which this change works. MergeLine& ml = *m_currentMergeLineIt; MergeEditLineList::iterator melIt; // Now check if selector is active for this range already. bool bActive = false; // Remove unneeded lines in the range. for(melIt = ml.mergeEditLineList.begin(); melIt != ml.mergeEditLineList.end();) { MergeEditLine& mel = *melIt; if(mel.src() == selector) bActive = true; if(mel.src() == selector || !mel.isEditableText() || mel.isModified()) melIt = ml.mergeEditLineList.erase(melIt); else ++melIt; } if(!bActive) // Selected source wasn't active. { // Append the lines from selected source here at rangeEnd. Diff3LineList::const_iterator d3llit = ml.id3l; int j; for(j = 0; j < ml.srcRangeLength; ++j) { MergeEditLine mel(d3llit); mel.setSource(selector, false); ml.mergeEditLineList.push_back(mel); ++d3llit; } } if(!ml.mergeEditLineList.empty()) { // Remove all lines that are empty, because no src lines are there. for(melIt = ml.mergeEditLineList.begin(); melIt != ml.mergeEditLineList.end();) { MergeEditLine& mel = *melIt; LineRef srcLine = mel.src() == A ? mel.id3l()->getLineA() : mel.src() == B ? mel.id3l()->getLineB() : mel.src() == C ? mel.id3l()->getLineC() : LineRef(); if(!srcLine.isValid()) melIt = ml.mergeEditLineList.erase(melIt); else ++melIt; } } if(ml.mergeEditLineList.empty()) { // Insert a dummy line: MergeEditLine mel(ml.id3l); if(bActive) mel.setConflict(); // All src entries deleted => conflict else mel.setRemoved(selector); // No lines in corresponding src found. ml.mergeEditLineList.push_back(mel); } if(m_cursorYPos >= m_nofLines) { m_cursorYPos = m_nofLines - 1; m_cursorXPos = 0; } m_maxTextWidth = -1; update(); updateSourceMask(); emit updateAvailabilities(); showUnsolvedConflictsStatusMessage(); } // bConflictsOnly: automatically choose for conflicts only (true) or for everywhere (false) void MergeResultWindow::chooseGlobal(e_SrcSelector selector, bool bConflictsOnly, bool bWhiteSpaceOnly) { resetSelection(); merge(false, selector, bConflictsOnly, bWhiteSpaceOnly); setModified(true); update(); showUnsolvedConflictsStatusMessage(); } void MergeResultWindow::slotAutoSolve() { resetSelection(); merge(true, Invalid); setModified(true); update(); showUnsolvedConflictsStatusMessage(); } void MergeResultWindow::slotUnsolve() { resetSelection(); merge(false, Invalid); setModified(true); update(); showUnsolvedConflictsStatusMessage(); } static QString calcHistoryLead(const QString& s) { // Return the start of the line until the first white char after the first non white char. int i; for(i = 0; i < s.length(); ++i) { if(s[i] != ' ' && s[i] != '\t') { for(; i < s.length(); ++i) { if(s[i] == ' ' || s[i] == '\t') { return s.left(i); } } return s; // Very unlikely } } return QString(); // Must be an empty string, not a null string. } static void findHistoryRange(const QRegExp& historyStart, bool bThreeFiles, const Diff3LineList* pD3LList, Diff3LineList::const_iterator& iBegin, Diff3LineList::const_iterator& iEnd, int& idxBegin, int& idxEnd) { QString historyLead; // Search for start of history for(iBegin = pD3LList->begin(), idxBegin = 0; iBegin != pD3LList->end(); ++iBegin, ++idxBegin) { if(historyStart.exactMatch(iBegin->getString(A)) && historyStart.exactMatch(iBegin->getString(B)) && (!bThreeFiles || historyStart.exactMatch(iBegin->getString(C)))) { historyLead = calcHistoryLead(iBegin->getString(A)); break; } } // Search for end of history for(iEnd = iBegin, idxEnd = idxBegin; iEnd != pD3LList->end(); ++iEnd, ++idxEnd) { QString sA = iEnd->getString(A); QString sB = iEnd->getString(B); QString sC = iEnd->getString(C); if(!((sA.isEmpty() || historyLead == calcHistoryLead(sA)) && (sB.isEmpty() || historyLead == calcHistoryLead(sB)) && (!bThreeFiles || sC.isEmpty() || historyLead == calcHistoryLead(sC)))) { break; // End of the history } } } bool findParenthesesGroups(const QString& s, QStringList& sl) { sl.clear(); int i = 0; std::list startPosStack; int length = s.length(); for(i = 0; i < length; ++i) { if(s[i] == '\\' && i + 1 < length && (s[i + 1] == '\\' || s[i + 1] == '(' || s[i + 1] == ')')) { ++i; continue; } if(s[i] == '(') { startPosStack.push_back(i); } else if(s[i] == ')') { if(startPosStack.empty()) return false; // Parentheses don't match int startPos = startPosStack.back(); startPosStack.pop_back(); sl.push_back(s.mid(startPos + 1, i - startPos - 1)); } } return startPosStack.empty(); // false if parentheses don't match } QString calcHistorySortKey(const QString& keyOrder, QRegExp& matchedRegExpr, const QStringList& parenthesesGroupList) { QStringList keyOrderList = keyOrder.split(','); QString key; for(QStringList::iterator keyIt = keyOrderList.begin(); keyIt != keyOrderList.end(); ++keyIt) { if(keyIt->isEmpty()) continue; bool bOk = false; int groupIdx = keyIt->toInt(&bOk); if(!bOk || groupIdx < 0 || groupIdx > parenthesesGroupList.size()) continue; QString s = matchedRegExpr.cap(groupIdx); if(groupIdx == 0) { key += s + ' '; continue; } QString groupRegExp = parenthesesGroupList[groupIdx - 1]; if(groupRegExp.indexOf('|') < 0 || groupRegExp.indexOf('(') >= 0) { bOk = false; int i = s.toInt(&bOk); if(bOk && i >= 0 && i < 10000) s.sprintf("%04d", i); // This should help for correct sorting of numbers. key += s + ' '; } else { // Assume that the groupRegExp consists of something like "Jan|Feb|Mar|Apr" // s is the string that managed to match. // Now we want to know at which position it occurred. e.g. Jan=0, Feb=1, Mar=2, etc. QStringList sl = groupRegExp.split('|'); int idx = sl.indexOf(s); if(idx < 0) { // Didn't match } else { QString sIdx; sIdx.sprintf("%02d", idx + 1); // Up to 99 words in the groupRegExp (more than 12 aren't expected) key += sIdx + ' '; } } } return key; } void MergeResultWindow::collectHistoryInformation( e_SrcSelector src, Diff3LineList::const_iterator &iHistoryBegin, Diff3LineList::const_iterator &iHistoryEnd, HistoryMap& historyMap, std::list& hitList // list of iterators ) { std::list::iterator itHitListFront = hitList.begin(); Diff3LineList::const_iterator id3l = iHistoryBegin; QString historyLead; { const LineData* pld = id3l->getLineData(src); QString s(pld->getLine(), pld->size()); historyLead = calcHistoryLead(s); } QRegExp historyStart(m_pOptions->m_historyStartRegExp); if(id3l == iHistoryEnd) return; ++id3l; // Skip line with "$Log ... $" QRegExp newHistoryEntry(m_pOptions->m_historyEntryStartRegExp); QStringList parenthesesGroups; findParenthesesGroups(m_pOptions->m_historyEntryStartRegExp, parenthesesGroups); QString key; MergeEditLineList melList; bool bPrevLineIsEmpty = true; bool bUseRegExp = !m_pOptions->m_historyEntryStartRegExp.isEmpty(); for(; id3l != iHistoryEnd; ++id3l) { const LineData* pld = id3l->getLineData(src); if(!pld) continue; QString s(pld->getLine(), pld->size()); if(historyLead.isEmpty()) historyLead = calcHistoryLead(s); QString sLine = s.mid(historyLead.length()); if((!bUseRegExp && !sLine.trimmed().isEmpty() && bPrevLineIsEmpty) || (bUseRegExp && newHistoryEntry.exactMatch(sLine))) { if(!key.isEmpty() && !melList.empty()) { // Only insert new HistoryMapEntry if key not found; in either case p.first is a valid iterator to element key. std::pair p = historyMap.insert(HistoryMap::value_type(key, HistoryMapEntry())); HistoryMapEntry& hme = p.first->second; if(src == A) hme.mellA = melList; if(src == B) hme.mellB = melList; if(src == C) hme.mellC = melList; if(p.second) // Not in list yet? { hitList.insert(itHitListFront, p.first); } } if(!bUseRegExp) key = sLine; else key = calcHistorySortKey(m_pOptions->m_historyEntryStartSortKeyOrder, newHistoryEntry, parenthesesGroups); melList.clear(); melList.push_back(MergeEditLine(id3l, src)); } else if(!historyStart.exactMatch(s)) { melList.push_back(MergeEditLine(id3l, src)); } bPrevLineIsEmpty = sLine.trimmed().isEmpty(); } if(!key.isEmpty()) { // Only insert new HistoryMapEntry if key not found; in either case p.first is a valid iterator to element key. std::pair p = historyMap.insert(HistoryMap::value_type(key, HistoryMapEntry())); HistoryMapEntry& hme = p.first->second; if(src == A) hme.mellA = melList; if(src == B) hme.mellB = melList; if(src == C) hme.mellC = melList; if(p.second) // Not in list yet? { hitList.insert(itHitListFront, p.first); } } // End of the history } MergeEditLineList& MergeResultWindow::HistoryMapEntry::choice(bool bThreeInputs) { if(!bThreeInputs) return mellA.empty() ? mellB : mellA; else { if(mellA.empty()) return mellC.empty() ? mellB : mellC; // A doesn't exist, return one that exists else if(!mellB.empty() && !mellC.empty()) { // A, B and C exist return mellA; } else return mellB.empty() ? mellB : mellC; // A exists, return the one that doesn't exist } } bool MergeResultWindow::HistoryMapEntry::staysInPlace(bool bThreeInputs, Diff3LineList::const_iterator& iHistoryEnd) { // The entry should stay in place if the decision made by the automerger is correct. Diff3LineList::const_iterator& iHistoryLast = iHistoryEnd; --iHistoryLast; if(!bThreeInputs) { if(!mellA.empty() && !mellB.empty() && mellA.begin()->id3l() == mellB.begin()->id3l() && mellA.back().id3l() == iHistoryLast && mellB.back().id3l() == iHistoryLast) { iHistoryEnd = mellA.begin()->id3l(); return true; } else { return false; } } else { if(!mellA.empty() && !mellB.empty() && !mellC.empty() && mellA.begin()->id3l() == mellB.begin()->id3l() && mellA.begin()->id3l() == mellC.begin()->id3l() && mellA.back().id3l() == iHistoryLast && mellB.back().id3l() == iHistoryLast && mellC.back().id3l() == iHistoryLast) { iHistoryEnd = mellA.begin()->id3l(); return true; } else { return false; } } } void MergeResultWindow::slotMergeHistory() { Diff3LineList::const_iterator iD3LHistoryBegin; Diff3LineList::const_iterator iD3LHistoryEnd; int d3lHistoryBeginLineIdx = -1; int d3lHistoryEndLineIdx = -1; // Search for history start, history end in the diff3LineList findHistoryRange(QRegExp(m_pOptions->m_historyStartRegExp), m_pldC != nullptr, m_pDiff3LineList, iD3LHistoryBegin, iD3LHistoryEnd, d3lHistoryBeginLineIdx, d3lHistoryEndLineIdx); if(iD3LHistoryBegin != m_pDiff3LineList->end()) { // Now collect the historyMap information HistoryMap historyMap; std::list hitList; if(m_pldC == nullptr) { collectHistoryInformation(A, iD3LHistoryBegin, iD3LHistoryEnd, historyMap, hitList); collectHistoryInformation(B, iD3LHistoryBegin, iD3LHistoryEnd, historyMap, hitList); } else { collectHistoryInformation(A, iD3LHistoryBegin, iD3LHistoryEnd, historyMap, hitList); collectHistoryInformation(B, iD3LHistoryBegin, iD3LHistoryEnd, historyMap, hitList); collectHistoryInformation(C, iD3LHistoryBegin, iD3LHistoryEnd, historyMap, hitList); } Diff3LineList::const_iterator iD3LHistoryOrigEnd = iD3LHistoryEnd; bool bHistoryMergeSorting = m_pOptions->m_bHistoryMergeSorting && !m_pOptions->m_historyEntryStartSortKeyOrder.isEmpty() && !m_pOptions->m_historyEntryStartRegExp.isEmpty(); if(m_pOptions->m_maxNofHistoryEntries == -1) { // Remove parts from the historyMap and hitList that stay in place if(bHistoryMergeSorting) { while(!historyMap.empty()) { HistoryMap::iterator hMapIt = historyMap.begin(); if(hMapIt->second.staysInPlace(m_pldC != nullptr, iD3LHistoryEnd)) historyMap.erase(hMapIt); else break; } } else { while(!hitList.empty()) { HistoryMap::iterator hMapIt = hitList.back(); if(hMapIt->second.staysInPlace(m_pldC != nullptr, iD3LHistoryEnd)) hitList.pop_back(); else break; } } while(iD3LHistoryOrigEnd != iD3LHistoryEnd) { --iD3LHistoryOrigEnd; --d3lHistoryEndLineIdx; } } MergeLineList::iterator iMLLStart = splitAtDiff3LineIdx(d3lHistoryBeginLineIdx); MergeLineList::iterator iMLLEnd = splitAtDiff3LineIdx(d3lHistoryEndLineIdx); // Now join all MergeLines in the history MergeLineList::iterator i = iMLLStart; if(i != iMLLEnd) { ++i; while(i != iMLLEnd) { iMLLStart->join(*i); i = m_mergeLineList.erase(i); } } iMLLStart->mergeEditLineList.clear(); // Now insert the complete history into the first MergeLine of the history iMLLStart->mergeEditLineList.push_back(MergeEditLine(iD3LHistoryBegin, m_pldC == nullptr ? B : C)); QString lead = calcHistoryLead(iD3LHistoryBegin->getString(A)); MergeEditLine mel(m_pDiff3LineList->end()); mel.setString(lead); iMLLStart->mergeEditLineList.push_back(mel); int historyCount = 0; if(bHistoryMergeSorting) { // Create a sorted history HistoryMap::reverse_iterator hmit; for(hmit = historyMap.rbegin(); hmit != historyMap.rend(); ++hmit) { if(historyCount == m_pOptions->m_maxNofHistoryEntries) break; ++historyCount; HistoryMapEntry& hme = hmit->second; MergeEditLineList& mell = hme.choice(m_pldC != nullptr); if(!mell.empty()) iMLLStart->mergeEditLineList.splice(iMLLStart->mergeEditLineList.end(), mell, mell.begin(), mell.end()); } } else { // Create history in order of appearance std::list::iterator hlit; for(hlit = hitList.begin(); hlit != hitList.end(); ++hlit) { if(historyCount == m_pOptions->m_maxNofHistoryEntries) break; ++historyCount; HistoryMapEntry& hme = (*hlit)->second; MergeEditLineList& mell = hme.choice(m_pldC != nullptr); if(!mell.empty()) iMLLStart->mergeEditLineList.splice(iMLLStart->mergeEditLineList.end(), mell, mell.begin(), mell.end()); } // If the end of start is empty and the first line at the end is empty remove the last line of start if(!iMLLStart->mergeEditLineList.empty() && !iMLLEnd->mergeEditLineList.empty()) { QString lastLineOfStart = iMLLStart->mergeEditLineList.back().getString(m_pldA, m_pldB, m_pldC); QString firstLineOfEnd = iMLLEnd->mergeEditLineList.front().getString(m_pldA, m_pldB, m_pldC); if(lastLineOfStart.mid(lead.length()).trimmed().isEmpty() && firstLineOfEnd.mid(lead.length()).trimmed().isEmpty()) iMLLStart->mergeEditLineList.pop_back(); } } setFastSelector(iMLLStart); update(); } } void MergeResultWindow::slotRegExpAutoMerge() { if(m_pOptions->m_autoMergeRegExp.isEmpty()) return; QRegExp vcsKeywords(m_pOptions->m_autoMergeRegExp); MergeLineList::iterator i; for(i = m_mergeLineList.begin(); i != m_mergeLineList.end(); ++i) { if(i->bConflict) { Diff3LineList::const_iterator id3l = i->id3l; if(vcsKeywords.exactMatch(id3l->getString(A)) && vcsKeywords.exactMatch(id3l->getString(B)) && (m_pldC == nullptr || vcsKeywords.exactMatch(id3l->getString(C)))) { MergeEditLine& mel = *i->mergeEditLineList.begin(); mel.setSource(m_pldC == nullptr ? B : C, false); splitAtDiff3LineIdx(i->d3lLineIdx + 1); } } } update(); } // This doesn't detect user modifications and should only be called after automatic merge // This will only do something for three file merge. // Irrelevant changes are those where all contributions from B are already contained in C. // Also irrelevant are conflicts automatically solved (automerge regexp and history automerge) // Precondition: The VCS-keyword would also be C. bool MergeResultWindow::doRelevantChangesExist() { if(m_pldC == nullptr || m_mergeLineList.size() <= 1) return true; MergeLineList::iterator i; for(i = m_mergeLineList.begin(); i != m_mergeLineList.end(); ++i) { if((i->bConflict && i->mergeEditLineList.begin()->src() != C) || i->srcSelect == B) { return true; } } return false; } // Returns the iterator to the MergeLine after the split MergeLineList::iterator MergeResultWindow::splitAtDiff3LineIdx(int d3lLineIdx) { MergeLineList::iterator i; for(i = m_mergeLineList.begin(); i != m_mergeLineList.end(); ++i) { if(i->d3lLineIdx == d3lLineIdx) { // No split needed, this is the beginning of a MergeLine return i; } else if(i->d3lLineIdx > d3lLineIdx) { // The split must be in the previous MergeLine --i; MergeLine& ml = *i; MergeLine newML; ml.split(newML, d3lLineIdx); ++i; return m_mergeLineList.insert(i, newML); } } // The split must be in the previous MergeLine --i; MergeLine& ml = *i; MergeLine newML; ml.split(newML, d3lLineIdx); ++i; return m_mergeLineList.insert(i, newML); } void MergeResultWindow::slotSplitDiff(int firstD3lLineIdx, int lastD3lLineIdx) { if(lastD3lLineIdx >= 0) splitAtDiff3LineIdx(lastD3lLineIdx + 1); setFastSelector(splitAtDiff3LineIdx(firstD3lLineIdx)); } void MergeResultWindow::slotJoinDiffs(int firstD3lLineIdx, int lastD3lLineIdx) { MergeLineList::iterator i; MergeLineList::iterator iMLLStart = m_mergeLineList.end(); MergeLineList::iterator iMLLEnd = m_mergeLineList.end(); for(i = m_mergeLineList.begin(); i != m_mergeLineList.end(); ++i) { MergeLine& ml = *i; if(firstD3lLineIdx >= ml.d3lLineIdx && firstD3lLineIdx < ml.d3lLineIdx + ml.srcRangeLength) { iMLLStart = i; } if(lastD3lLineIdx >= ml.d3lLineIdx && lastD3lLineIdx < ml.d3lLineIdx + ml.srcRangeLength) { iMLLEnd = i; ++iMLLEnd; break; } } bool bJoined = false; for(i = iMLLStart; i != iMLLEnd && i != m_mergeLineList.end();) { if(i == iMLLStart) { ++i; } else { iMLLStart->join(*i); i = m_mergeLineList.erase(i); bJoined = true; } } if(bJoined) { iMLLStart->mergeEditLineList.clear(); // Insert a conflict line as placeholder iMLLStart->mergeEditLineList.push_back(MergeEditLine(iMLLStart->id3l)); } setFastSelector(iMLLStart); } void MergeResultWindow::myUpdate(int afterMilliSecs) { if(m_delayedDrawTimer) killTimer(m_delayedDrawTimer); m_bMyUpdate = true; m_delayedDrawTimer = startTimer(afterMilliSecs); } void MergeResultWindow::timerEvent(QTimerEvent*) { killTimer(m_delayedDrawTimer); m_delayedDrawTimer = 0; if(m_bMyUpdate) { update(); m_bMyUpdate = false; } if(m_scrollDeltaX != 0 || m_scrollDeltaY != 0) { m_selection.end(m_selection.getLastLine() + m_scrollDeltaY, m_selection.getLastPos() + m_scrollDeltaX); emit scrollMergeResultWindow(m_scrollDeltaX, m_scrollDeltaY); killTimer(m_delayedDrawTimer); m_delayedDrawTimer = startTimer(50); } } /// Converts the cursor-posOnScreen into a text index, considering tabulators. int convertToPosInText(const QString& /*s*/, int posOnScreen, int /*tabSize*/) { return posOnScreen; } // int localPosOnScreen = 0; // int size=s.length(); // for ( int i=0; i=posOnScreen ) // return i; // // All letters except tabulator have width one. // int letterWidth = s[i]!='\t' ? 1 : tabber( localPosOnScreen, tabSize ); // localPosOnScreen += letterWidth; // if ( localPosOnScreen>posOnScreen ) // return i; // } // return size; //} /// Converts the index into the text to a cursor-posOnScreen considering tabulators. int convertToPosOnScreen(const QString& /*p*/, int posInText, int /*tabSize*/) { return posInText; } // int posOnScreen = 0; // for ( int i=0; i MergeResultWindow::getTextLayoutForLine(int line, const QString& str, QTextLayout& textLayout) { // tabs QTextOption textOption; #if QT_VERSION < QT_VERSION_CHECK(5, 10, 0) textOption.setTabStop(QFontMetricsF(font()).width(' ') * m_pOptions->m_tabSize); #else textOption.setTabStopDistance(QFontMetricsF(font()).width(' ') * m_pOptions->m_tabSize); #endif if(m_pOptions->m_bShowWhiteSpaceCharacters) { textOption.setFlags(QTextOption::ShowTabsAndSpaces); } textLayout.setTextOption(textOption); if(m_pOptions->m_bShowWhiteSpaceCharacters) { // This additional format is only necessary for the tab arrow QVector formats; QTextLayout::FormatRange formatRange; formatRange.start = 0; formatRange.length = str.length(); formatRange.format.setFont(font()); formats.append(formatRange); textLayout.setFormats(formats); } QVector selectionFormat; textLayout.beginLayout(); if(m_selection.lineWithin(line)) { int firstPosInText = convertToPosInText(str, m_selection.firstPosInLine(line), m_pOptions->m_tabSize); int lastPosInText = convertToPosInText(str, m_selection.lastPosInLine(line), m_pOptions->m_tabSize); int lengthInText = std::max(0, lastPosInText - firstPosInText); if(lengthInText > 0) m_selection.bSelectionContainsData = true; QTextLayout::FormatRange selection; selection.start = firstPosInText; selection.length = lengthInText; selection.format.setBackground(palette().highlight()); selection.format.setForeground(palette().highlightedText().color()); selectionFormat.push_back(selection); } QTextLine textLine = textLayout.createLine(); textLine.setPosition(QPointF(0, fontMetrics().leading())); textLayout.endLayout(); int cursorWidth = 5; if(m_pOptions->m_bRightToLeftLanguage) textLayout.setPosition(QPointF(width() - textLayout.maximumWidth() - getTextXOffset() + m_horizScrollOffset - cursorWidth, 0)); else textLayout.setPosition(QPointF(getTextXOffset() - m_horizScrollOffset, 0)); return selectionFormat; } void MergeResultWindow::writeLine( RLPainter& p, int line, const QString& str, int srcSelect, e_MergeDetails mergeDetails, int rangeMark, bool bUserModified, bool bLineRemoved, bool bWhiteSpaceConflict) { const QFontMetrics& fm = fontMetrics(); int fontHeight = fm.lineSpacing(); int fontAscent = fm.ascent(); int topLineYOffset = 0; int xOffset = getTextXOffset(); int yOffset = (line - m_firstLine) * fontHeight; if(yOffset < 0 || yOffset > height()) return; yOffset += topLineYOffset; QString srcName = QChar(' '); if(bUserModified) srcName = QChar('m'); else if(srcSelect == A && mergeDetails != eNoChange) srcName = i18n("A"); else if(srcSelect == B) srcName = i18n("B"); else if(srcSelect == C) srcName = i18n("C"); if(rangeMark & 4) { p.fillRect(xOffset, yOffset, width(), fontHeight, m_pOptions->m_currentRangeBgColor); } if((srcSelect > 0 || bUserModified) && !bLineRemoved) { if(!m_pOptions->m_bRightToLeftLanguage) p.setClipRect(QRectF(xOffset, 0, width() - xOffset, height())); else p.setClipRect(QRectF(0, 0, width() - xOffset, height())); int outPos = 0; QString s; int size = str.length(); for(int i = 0; i < size; ++i) { int spaces = 1; if(str[i] == '\t') { spaces = tabber(outPos, m_pOptions->m_tabSize); for(int j = 0; j < spaces; ++j) s += ' '; } else { s += str[i]; } outPos += spaces; } p.setPen(m_pOptions->m_fgColor); QTextLayout textLayout(str, font(), this); QVector selectionFormat = getTextLayoutForLine(line, str, textLayout); textLayout.draw(&p, QPointF(0, yOffset), selectionFormat); if(line == m_cursorYPos) { m_cursorXPixelPos = qCeil(textLayout.lineAt(0).cursorToX(m_cursorXPos)); if(m_pOptions->m_bRightToLeftLanguage) m_cursorXPixelPos += qCeil(textLayout.position().x() - m_horizScrollOffset); } p.setClipping(false); p.setPen(m_pOptions->m_fgColor); p.drawText(1, yOffset + fontAscent, srcName, true); } else if(bLineRemoved) { p.setPen(m_pOptions->m_colorForConflict); p.drawText(xOffset, yOffset + fontAscent, i18n("")); p.drawText(1, yOffset + fontAscent, srcName); if(m_cursorYPos == line) m_cursorXPos = 0; } else if(srcSelect == 0) { p.setPen(m_pOptions->m_colorForConflict); if(bWhiteSpaceConflict) p.drawText(xOffset, yOffset + fontAscent, i18n("")); else p.drawText(xOffset, yOffset + fontAscent, i18n("")); p.drawText(1, yOffset + fontAscent, "?"); if(m_cursorYPos == line) m_cursorXPos = 0; } else Q_ASSERT(true); xOffset -= fm.width('0'); p.setPen(m_pOptions->m_fgColor); if(rangeMark & 1) // begin mark { p.drawLine(xOffset, yOffset + 1, xOffset, yOffset + fontHeight / 2); p.drawLine(xOffset, yOffset + 1, xOffset - 2, yOffset + 1); } else { p.drawLine(xOffset, yOffset, xOffset, yOffset + fontHeight / 2); } if(rangeMark & 2) // end mark { p.drawLine(xOffset, yOffset + fontHeight / 2, xOffset, yOffset + fontHeight - 1); p.drawLine(xOffset, yOffset + fontHeight - 1, xOffset - 2, yOffset + fontHeight - 1); } else { p.drawLine(xOffset, yOffset + fontHeight / 2, xOffset, yOffset + fontHeight); } if(rangeMark & 4) { p.fillRect(xOffset + 3, yOffset, 3, fontHeight, m_pOptions->m_fgColor); /* p.setPen( blue ); p.drawLine( xOffset+2, yOffset, xOffset+2, yOffset+fontHeight-1 ); p.drawLine( xOffset+3, yOffset, xOffset+3, yOffset+fontHeight-1 );*/ } } void MergeResultWindow::setPaintingAllowed(bool bPaintingAllowed) { setUpdatesEnabled(bPaintingAllowed); if(!bPaintingAllowed) { m_currentMergeLineIt = m_mergeLineList.end(); reset(); } else update(); } void MergeResultWindow::paintEvent(QPaintEvent*) { if(m_pDiff3LineList == nullptr) return; bool bOldSelectionContainsData = m_selection.selectionContainsData(); const QFontMetrics& fm = fontMetrics(); int fontWidth = fm.width('0'); if(!m_bCursorUpdate) // Don't redraw everything for blinking cursor? { m_selection.bSelectionContainsData = false; if(size() != m_pixmap.size()) m_pixmap = QPixmap(size()); RLPainter p(&m_pixmap, m_pOptions->m_bRightToLeftLanguage, width(), fontWidth); p.setFont(font()); p.QPainter::fillRect(rect(), m_pOptions->m_bgColor); //int visibleLines = height() / fontHeight; int lastVisibleLine = m_firstLine + getNofVisibleLines() + 5; LineRef line = 0; MergeLineList::iterator mlIt = m_mergeLineList.begin(); for(mlIt = m_mergeLineList.begin(); mlIt != m_mergeLineList.end(); ++mlIt) { MergeLine& ml = *mlIt; if(line > lastVisibleLine || line + ml.mergeEditLineList.size() < m_firstLine) { line += ml.mergeEditLineList.size(); } else { MergeEditLineList::iterator melIt; for(melIt = ml.mergeEditLineList.begin(); melIt != ml.mergeEditLineList.end(); ++melIt) { if(line >= m_firstLine && line <= lastVisibleLine) { MergeEditLine& mel = *melIt; MergeEditLineList::iterator melIt1 = melIt; ++melIt1; int rangeMark = 0; if(melIt == ml.mergeEditLineList.begin()) rangeMark |= 1; // Begin range mark if(melIt1 == ml.mergeEditLineList.end()) rangeMark |= 2; // End range mark if(mlIt == m_currentMergeLineIt) rangeMark |= 4; // Mark of the current line QString s; s = mel.getString(m_pldA, m_pldB, m_pldC); writeLine(p, line, s, mel.src(), ml.mergeDetails, rangeMark, mel.isModified(), mel.isRemoved(), ml.bWhiteSpaceConflict); } ++line; } } } if(line != m_nofLines) { m_nofLines = line; emit resizeSignal(); } p.end(); } QPainter painter(this); if(!m_bCursorUpdate) painter.drawPixmap(0, 0, m_pixmap); else { painter.drawPixmap(0, 0, m_pixmap); // Draw everything. (Internally cursor rect is clipped anyway.) m_bCursorUpdate = false; } if(m_bCursorOn && hasFocus() && m_cursorYPos >= m_firstLine) { painter.setPen(m_pOptions->m_fgColor); QString str = getString(m_cursorYPos); QTextLayout textLayout(str, font(), this); getTextLayoutForLine(m_cursorYPos, str, textLayout); textLayout.drawCursor(&painter, QPointF(0, (m_cursorYPos - m_firstLine) * fontMetrics().lineSpacing()), m_cursorXPos); } painter.end(); if(!bOldSelectionContainsData && m_selection.selectionContainsData()) emit newSelection(); } void MergeResultWindow::updateSourceMask() { int srcMask = 0; int enabledMask = 0; if(!hasFocus() || m_pDiff3LineList == nullptr || !updatesEnabled() || m_currentMergeLineIt == m_mergeLineList.end()) { srcMask = 0; enabledMask = 0; } else { enabledMask = m_pldC == nullptr ? 3 : 7; MergeLine& ml = *m_currentMergeLineIt; srcMask = 0; bool bModified = false; MergeEditLineList::iterator melIt; for(melIt = ml.mergeEditLineList.begin(); melIt != ml.mergeEditLineList.end(); ++melIt) { MergeEditLine& mel = *melIt; if(mel.src() == A) srcMask |= 1; if(mel.src() == B) srcMask |= 2; if(mel.src() == C) srcMask |= 4; if(mel.isModified() || !mel.isEditableText()) bModified = true; } if(ml.mergeDetails == eNoChange) { srcMask = 0; enabledMask = bModified ? 1 : 0; } } emit sourceMask(srcMask, enabledMask); } void MergeResultWindow::focusInEvent(QFocusEvent* e) { updateSourceMask(); QWidget::focusInEvent(e); } LineRef MergeResultWindow::convertToLine(int y) { const QFontMetrics& fm = fontMetrics(); int fontHeight = fm.lineSpacing(); int topLineYOffset = 0; int yOffset = topLineYOffset - m_firstLine * fontHeight; LineRef line = std::min((y - yOffset) / fontHeight, m_nofLines - 1); return line; } void MergeResultWindow::mousePressEvent(QMouseEvent* e) { m_bCursorOn = true; int xOffset = getTextXOffset(); LineRef line = convertToLine(e->y()); QString s = getString(line); QTextLayout textLayout(s, font(), this); getTextLayoutForLine(line, s, textLayout); QtNumberType pos = textLayout.lineAt(0).xToCursor(e->x() - textLayout.position().x()); bool bLMB = e->button() == Qt::LeftButton; bool bMMB = e->button() == Qt::MidButton; bool bRMB = e->button() == Qt::RightButton; if((bLMB && (e->x() < xOffset)) || bRMB) // Fast range selection { m_cursorXPos = 0; m_cursorOldXPixelPos = 0; m_cursorYPos = std::max((LineRef::LineType)line, 0); int l = 0; MergeLineList::iterator i = m_mergeLineList.begin(); for(i = m_mergeLineList.begin(); i != m_mergeLineList.end(); ++i) { if(l == line) break; l += i->mergeEditLineList.size(); if(l > line) break; } m_selection.reset(); // Disable current selection m_bCursorOn = true; setFastSelector(i); if(bRMB) { emit showPopupMenu(QCursor::pos()); } } else if(bLMB) // Normal cursor placement { pos = std::max(pos, 0); line = std::max((LineRef::LineType)line, 0); if(e->QInputEvent::modifiers() & Qt::ShiftModifier) { if(!m_selection.isValidFirstLine()) m_selection.start(line, pos); m_selection.end(line, pos); } else { // Selection m_selection.reset(); m_selection.start(line, pos); m_selection.end(line, pos); } m_cursorXPos = pos; m_cursorXPixelPos = qCeil(textLayout.lineAt(0).cursorToX(pos)); if(m_pOptions->m_bRightToLeftLanguage) m_cursorXPixelPos += qCeil(textLayout.position().x() - m_horizScrollOffset); m_cursorOldXPixelPos = m_cursorXPixelPos; m_cursorYPos = line; update(); //showStatusLine( line, m_winIdx, m_pFilename, m_pDiff3LineList, m_pStatusBar ); } else if(bMMB) // Paste clipboard { pos = std::max(pos, 0); line = std::max((LineRef::LineType)line, 0); m_selection.reset(); m_cursorXPos = pos; m_cursorOldXPixelPos = m_cursorXPixelPos; m_cursorYPos = line; pasteClipboard(true); } } void MergeResultWindow::mouseDoubleClickEvent(QMouseEvent* e) { if(e->button() == Qt::LeftButton) { LineRef line = convertToLine(e->y()); QString s = getString(line); QTextLayout textLayout(s, font(), this); getTextLayoutForLine(line, s, textLayout); int pos = textLayout.lineAt(0).xToCursor(e->x() - textLayout.position().x()); m_cursorXPos = pos; m_cursorOldXPixelPos = m_cursorXPixelPos; m_cursorYPos = line; if(!s.isEmpty()) { int pos1, pos2; calcTokenPos(s, pos, pos1, pos2, m_pOptions->m_tabSize); resetSelection(); m_selection.start(line, convertToPosOnScreen(s, pos1, m_pOptions->m_tabSize)); m_selection.end(line, convertToPosOnScreen(s, pos2, m_pOptions->m_tabSize)); update(); // emit selectionEnd() happens in the mouseReleaseEvent. } } } void MergeResultWindow::mouseReleaseEvent(QMouseEvent* e) { if(e->button() == Qt::LeftButton) { if(m_delayedDrawTimer) { killTimer(m_delayedDrawTimer); m_delayedDrawTimer = 0; } if(m_selection.isValidFirstLine()) { emit selectionEnd(); } } } void MergeResultWindow::mouseMoveEvent(QMouseEvent* e) { LineRef line = convertToLine(e->y()); QString s = getString(line); QTextLayout textLayout(s, font(), this); getTextLayoutForLine(line, s, textLayout); int pos = textLayout.lineAt(0).xToCursor(e->x() - textLayout.position().x()); m_cursorXPos = pos; m_cursorOldXPixelPos = m_cursorXPixelPos; m_cursorYPos = line; if(m_selection.isValidFirstLine()) { m_selection.end(line, pos); myUpdate(0); //showStatusLine( line, m_winIdx, m_pFilename, m_pDiff3LineList, m_pStatusBar ); // Scroll because mouse moved out of the window const QFontMetrics& fm = fontMetrics(); int fontWidth = fm.width('0'); int topLineYOffset = 0; int deltaX = 0; int deltaY = 0; if(!m_pOptions->m_bRightToLeftLanguage) { if(e->x() < getTextXOffset()) deltaX = -1; if(e->x() > width()) deltaX = +1; } else { if(e->x() > width() - 1 - getTextXOffset()) deltaX = -1; if(e->x() < fontWidth) deltaX = +1; } if(e->y() < topLineYOffset) deltaY = -1; if(e->y() > height()) deltaY = +1; m_scrollDeltaX = deltaX; m_scrollDeltaY = deltaY; if(deltaX != 0 || deltaY != 0) { emit scrollMergeResultWindow(deltaX, deltaY); } } } void MergeResultWindow::slotCursorUpdate() { m_cursorTimer.stop(); m_bCursorOn = !m_bCursorOn; if(isVisible()) { m_bCursorUpdate = true; const QFontMetrics& fm = fontMetrics(); int topLineYOffset = 0; int yOffset = (m_cursorYPos - m_firstLine) * fm.lineSpacing() + topLineYOffset; repaint(0, yOffset, width(), fm.lineSpacing() + 2); m_bCursorUpdate = false; } m_cursorTimer.start(500); } void MergeResultWindow::wheelEvent(QWheelEvent* e) { int d = -e->delta() * QApplication::wheelScrollLines() / 120; e->accept(); emit scrollMergeResultWindow(0, std::min(d, getNofVisibleLines())); } bool MergeResultWindow::event(QEvent* e) { if(e->type() == QEvent::KeyPress) { QKeyEvent* ke = static_cast(e); if(ke->key() == Qt::Key_Tab) { // special tab handling here to avoid moving focus keyPressEvent(ke); return true; } } return QWidget::event(e); } void MergeResultWindow::keyPressEvent(QKeyEvent* e) { int y = m_cursorYPos; MergeLineList::iterator mlIt; MergeEditLineList::iterator melIt; calcIteratorFromLineNr(y, mlIt, melIt); QString str = melIt->getString(m_pldA, m_pldB, m_pldC); int x = convertToPosInText(str, m_cursorXPos, m_pOptions->m_tabSize); QTextLayout textLayoutOrig(str, font(), this); getTextLayoutForLine(y, str, textLayoutOrig); bool bCtrl = (e->QInputEvent::modifiers() & Qt::ControlModifier) != 0; bool bShift = (e->QInputEvent::modifiers() & Qt::ShiftModifier) != 0; #ifdef Q_OS_WIN bool bAlt = (e->QInputEvent::modifiers() & Qt::AltModifier) != 0; if(bCtrl && bAlt) { bCtrl = false; bAlt = false; } // AltGr-Key pressed. #endif bool bYMoveKey = false; // Special keys switch(e->key()) { case Qt::Key_Escape: break; //case Key_Tab: break; case Qt::Key_Backtab: break; case Qt::Key_Delete: { if(deleteSelection2(str, x, y, mlIt, melIt)) break; if(!melIt->isEditableText()) break; if(x >= str.length()) { if(y < m_nofLines - 1) { setModified(); MergeLineList::iterator mlIt1; MergeEditLineList::iterator melIt1; calcIteratorFromLineNr(y + 1, mlIt1, melIt1); if(melIt1->isEditableText()) { QString s2 = melIt1->getString(m_pldA, m_pldB, m_pldC); melIt->setString(str + s2); // Remove the line if(mlIt1->mergeEditLineList.size() > 1) mlIt1->mergeEditLineList.erase(melIt1); else melIt1->setRemoved(); } } } else { QString s = str.left(x); s += str.midRef(x + 1); melIt->setString(s); setModified(); } break; } case Qt::Key_Backspace: { if(deleteSelection2(str, x, y, mlIt, melIt)) break; if(!melIt->isEditableText()) break; if(x == 0) { if(y > 0) { setModified(); MergeLineList::iterator mlIt1; MergeEditLineList::iterator melIt1; calcIteratorFromLineNr(y - 1, mlIt1, melIt1); if(melIt1->isEditableText()) { QString s1 = melIt1->getString(m_pldA, m_pldB, m_pldC); melIt1->setString(s1 + str); // Remove the previous line if(mlIt->mergeEditLineList.size() > 1) mlIt->mergeEditLineList.erase(melIt); else melIt->setRemoved(); --y; x = str.length(); } } } else { QString s = str.left(x - 1); s += str.midRef(x); --x; melIt->setString(s); setModified(); } break; } case Qt::Key_Return: case Qt::Key_Enter: { if(!melIt->isEditableText()) break; deleteSelection2(str, x, y, mlIt, melIt); setModified(); QString indentation; if(m_pOptions->m_bAutoIndentation) { // calc last indentation MergeLineList::iterator mlIt1 = mlIt; MergeEditLineList::iterator melIt1 = melIt; for(;;) { const QString s = melIt1->getString(m_pldA, m_pldB, m_pldC); if(!s.isEmpty()) { int i; for(i = 0; i < s.length(); ++i) { if(s[i] != ' ' && s[i] != '\t') break; } if(i < s.length()) { indentation = s.left(i); break; } } // Go back one line if(melIt1 != mlIt1->mergeEditLineList.begin()) --melIt1; else { if(mlIt1 == m_mergeLineList.begin()) break; --mlIt1; melIt1 = mlIt1->mergeEditLineList.end(); --melIt1; } } } MergeEditLine mel(mlIt->id3l); // Associate every mel with an id3l, even if not really valid. mel.setString(indentation + str.mid(x)); if(x < str.length()) // Cut off the old line. { // Since ps possibly points into melIt->str, first copy it into a temporary. QString temp = str.left(x); melIt->setString(temp); } ++melIt; mlIt->mergeEditLineList.insert(melIt, mel); x = indentation.length(); ++y; break; } case Qt::Key_Insert: m_bInsertMode = !m_bInsertMode; break; case Qt::Key_Pause: break; case Qt::Key_Print: break; case Qt::Key_SysReq: break; case Qt::Key_Home: x = 0; if(bCtrl) { y = 0; } break; // cursor movement case Qt::Key_End: x = INT_MAX; if(bCtrl) { y = INT_MAX; } break; case Qt::Key_Left: case Qt::Key_Right: if((e->key() == Qt::Key_Left) != m_pOptions->m_bRightToLeftLanguage) { if(!bCtrl) { int newX = textLayoutOrig.previousCursorPosition(x); if(newX == x && y > 0) { --y; x = INT_MAX; } else { x = newX; } } else { while(x > 0 && (str[x - 1] == ' ' || str[x - 1] == '\t')) { int newX = textLayoutOrig.previousCursorPosition(x); if(newX == x) break; x = newX; } while(x > 0 && (str[x - 1] != ' ' && str[x - 1] != '\t')) { int newX = textLayoutOrig.previousCursorPosition(x); if(newX == x) break; x = newX; } } } else { if(!bCtrl) { int newX = textLayoutOrig.nextCursorPosition(x); if(newX == x && y < m_nofLines - 1) { ++y; x = 0; } else { x = newX; } } else { while(x < str.length() && (str[x] == ' ' || str[x] == '\t')) { int newX = textLayoutOrig.nextCursorPosition(x); if(newX == x) break; x = newX; } while(x < str.length() && (str[x] != ' ' && str[x] != '\t')) { int newX = textLayoutOrig.nextCursorPosition(x); if(newX == x) break; x = newX; } } } break; case Qt::Key_Up: if(!bCtrl) { --y; bYMoveKey = true; } break; case Qt::Key_Down: if(!bCtrl) { ++y; bYMoveKey = true; } break; case Qt::Key_PageUp: if(!bCtrl) { y -= getNofVisibleLines(); bYMoveKey = true; } break; case Qt::Key_PageDown: if(!bCtrl) { y += getNofVisibleLines(); bYMoveKey = true; } break; default: { QString t = e->text(); if(t.isEmpty() || bCtrl) { e->ignore(); return; } else { if(bCtrl) { e->ignore(); return; } else { if(!melIt->isEditableText()) break; deleteSelection2(str, x, y, mlIt, melIt); setModified(); // Characters to insert QString s = str; if(t[0] == '\t' && m_pOptions->m_bReplaceTabs) { int spaces = (m_cursorXPos / m_pOptions->m_tabSize + 1) * m_pOptions->m_tabSize - m_cursorXPos; t.fill(' ', spaces); } if(m_bInsertMode) s.insert(x, t); else s.replace(x, t.length(), t); melIt->setString(s); x += t.length(); bShift = false; } } } } y = qBound(0, y, m_nofLines - 1); calcIteratorFromLineNr(y, mlIt, melIt); str = melIt->getString(m_pldA, m_pldB, m_pldC); x = qBound(0, x, (int)str.length()); int newFirstLine = m_firstLine; int newHorizScrollOffset = m_horizScrollOffset; if(y < m_firstLine) newFirstLine = y; else if(y > m_firstLine + getNofVisibleLines()) newFirstLine = y - getNofVisibleLines(); QTextLayout textLayout(str, font(), this); getTextLayoutForLine(m_cursorYPos, str, textLayout); // try to preserve cursor x pixel position when moving to another line if(bYMoveKey) { if(m_pOptions->m_bRightToLeftLanguage) x = textLayout.lineAt(0).xToCursor(m_cursorOldXPixelPos - (textLayout.position().x() - m_horizScrollOffset)); else x = textLayout.lineAt(0).xToCursor(m_cursorOldXPixelPos); } m_cursorXPixelPos = qCeil(textLayout.lineAt(0).cursorToX(x)); int hF = 1; // horizontal factor if(m_pOptions->m_bRightToLeftLanguage) { m_cursorXPixelPos += qCeil(textLayout.position().x() - m_horizScrollOffset); hF = -1; } int cursorWidth = 5; if(m_cursorXPixelPos < hF * m_horizScrollOffset) newHorizScrollOffset = hF * m_cursorXPixelPos; else if(m_cursorXPixelPos > hF * m_horizScrollOffset + getVisibleTextAreaWidth() - cursorWidth) newHorizScrollOffset = hF * (m_cursorXPixelPos - (getVisibleTextAreaWidth() - cursorWidth)); int newCursorX = x; if(bShift) { if(!m_selection.isValidFirstLine()) m_selection.start(m_cursorYPos, m_cursorXPos); m_selection.end(y, newCursorX); } else m_selection.reset(); m_cursorYPos = y; m_cursorXPos = newCursorX; // TODO if width of current line exceeds the current maximum width then force recalculating the scrollbars if(textLayout.maximumWidth() > getMaxTextWidth()) { m_maxTextWidth = qCeil(textLayout.maximumWidth()); emit resizeSignal(); } if(!bYMoveKey) m_cursorOldXPixelPos = m_cursorXPixelPos; m_bCursorOn = true; m_cursorTimer.start(500); update(); if(newFirstLine != m_firstLine || newHorizScrollOffset != m_horizScrollOffset) { emit scrollMergeResultWindow(newHorizScrollOffset - m_horizScrollOffset, newFirstLine - m_firstLine); return; } } void MergeResultWindow::calcIteratorFromLineNr( int line, MergeLineList::iterator& mlIt, MergeEditLineList::iterator& melIt) { for(mlIt = m_mergeLineList.begin(); mlIt != m_mergeLineList.end(); ++mlIt) { MergeLine& ml = *mlIt; if(line > ml.mergeEditLineList.size()) { line -= ml.mergeEditLineList.size(); } else { for(melIt = ml.mergeEditLineList.begin(); melIt != ml.mergeEditLineList.end(); ++melIt) { --line; if(line < 0) return; } } } } QString MergeResultWindow::getSelection() { QString selectionString; int line = 0; MergeLineList::iterator mlIt = m_mergeLineList.begin(); for(mlIt = m_mergeLineList.begin(); mlIt != m_mergeLineList.end(); ++mlIt) { MergeLine& ml = *mlIt; MergeEditLineList::iterator melIt; for(melIt = ml.mergeEditLineList.begin(); melIt != ml.mergeEditLineList.end(); ++melIt) { MergeEditLine& mel = *melIt; if(m_selection.lineWithin(line)) { int outPos = 0; if(mel.isEditableText()) { const QString str = mel.getString(m_pldA, m_pldB, m_pldC); // Consider tabs for(int i = 0; i < str.length(); ++i) { int spaces = 1; if(str[i] == '\t') { spaces = tabber(outPos, m_pOptions->m_tabSize); } if(m_selection.within(line, outPos)) { selectionString += str[i]; } outPos += spaces; } } else if(mel.isConflict()) { selectionString += i18n(""); } if(m_selection.within(line, outPos)) { #ifdef Q_OS_WIN selectionString += '\r'; #endif selectionString += '\n'; } } ++line; } } return selectionString; } bool MergeResultWindow::deleteSelection2(QString& s, int& x, int& y, MergeLineList::iterator& mlIt, MergeEditLineList::iterator& melIt) { if(m_selection.selectionContainsData()) { Q_ASSERT(m_selection.isValidFirstLine()); deleteSelection(); y = m_cursorYPos; calcIteratorFromLineNr(y, mlIt, melIt); s = melIt->getString(m_pldA, m_pldB, m_pldC); x = convertToPosInText(s, m_cursorXPos, m_pOptions->m_tabSize); return true; } return false; } void MergeResultWindow::deleteSelection() { if(!m_selection.selectionContainsData()) { return; } Q_ASSERT(m_selection.isValidFirstLine()); setModified(); LineRef line = 0; MergeLineList::iterator mlItFirst; MergeEditLineList::iterator melItFirst; QString firstLineString; LineRef firstLine; LineRef lastLine; MergeLineList::iterator mlIt; for(mlIt = m_mergeLineList.begin(); mlIt != m_mergeLineList.end(); ++mlIt) { MergeLine& ml = *mlIt; MergeEditLineList::iterator melIt; for(melIt = ml.mergeEditLineList.begin(); melIt != ml.mergeEditLineList.end(); ++melIt) { MergeEditLine& mel = *melIt; if(mel.isEditableText() && m_selection.lineWithin(line)) { if(!firstLine.isValid()) firstLine = line; lastLine = line; } ++line; } } if(!firstLine.isValid()) { return; // Nothing to delete. } line = 0; for(mlIt = m_mergeLineList.begin(); mlIt != m_mergeLineList.end(); ++mlIt) { MergeLine& ml = *mlIt; MergeEditLineList::iterator melIt, melIt1; for(melIt = ml.mergeEditLineList.begin(); melIt != ml.mergeEditLineList.end();) { MergeEditLine& mel = *melIt; melIt1 = melIt; ++melIt1; if(mel.isEditableText() && m_selection.lineWithin(line)) { QString lineString = mel.getString(m_pldA, m_pldB, m_pldC); int firstPosInLine = m_selection.firstPosInLine(line); int lastPosInLine = m_selection.lastPosInLine(line); if(line == firstLine) { mlItFirst = mlIt; melItFirst = melIt; int pos = convertToPosInText(lineString, firstPosInLine, m_pOptions->m_tabSize); firstLineString = lineString.left(pos); } if(line == lastLine) { // This is the last line in the selection int pos = convertToPosInText(lineString, lastPosInLine, m_pOptions->m_tabSize); firstLineString += lineString.midRef(pos); // rest of line melItFirst->setString(firstLineString); } if(line != firstLine || (m_selection.endPos() - m_selection.beginPos()) == lineString.length()) { // Remove the line if(mlIt->mergeEditLineList.size() > 1) mlIt->mergeEditLineList.erase(melIt); else melIt->setRemoved(); } } ++line; melIt = melIt1; } } m_cursorYPos = m_selection.beginLine(); m_cursorXPos = m_selection.beginPos(); m_cursorOldXPixelPos = m_cursorXPixelPos; m_selection.reset(); } void MergeResultWindow::pasteClipboard(bool bFromSelection) { //checking of m_selection if needed is done by deleteSelection no need for check here. deleteSelection(); setModified(); int y = m_cursorYPos; MergeLineList::iterator mlIt; MergeEditLineList::iterator melIt, melItAfter; calcIteratorFromLineNr(y, mlIt, melIt); melItAfter = melIt; ++melItAfter; QString str = melIt->getString(m_pldA, m_pldB, m_pldC); int x = convertToPosInText(str, m_cursorXPos, m_pOptions->m_tabSize); if(!QApplication::clipboard()->supportsSelection()) bFromSelection = false; QString clipBoard = QApplication::clipboard()->text(bFromSelection ? QClipboard::Selection : QClipboard::Clipboard); QString currentLine = str.left(x); QString endOfLine = str.mid(x); int i; int len = clipBoard.length(); for(i = 0; i < len; ++i) { QChar c = clipBoard[i]; if(c == '\r') continue; if(c == '\n') { melIt->setString(currentLine); MergeEditLine mel(mlIt->id3l); // Associate every mel with an id3l, even if not really valid. melIt = mlIt->mergeEditLineList.insert(melItAfter, mel); currentLine = ""; x = 0; ++y; } else { currentLine += c; ++x; } } currentLine += endOfLine; melIt->setString(currentLine); m_cursorYPos = y; m_cursorXPos = convertToPosOnScreen(currentLine, x, m_pOptions->m_tabSize); m_cursorOldXPixelPos = m_cursorXPixelPos; update(); } void MergeResultWindow::resetSelection() { m_selection.reset(); update(); } void MergeResultWindow::setModified(bool bModified) { if(bModified != m_bModified) { m_bModified = bModified; emit modifiedChanged(m_bModified); } } /// Saves and returns true when successful. bool MergeResultWindow::saveDocument(const QString& fileName, QTextCodec* pEncoding, e_LineEndStyle eLineEndStyle) { // Are still conflicts somewhere? if(getNrOfUnsolvedConflicts() > 0) { KMessageBox::error(this, i18n("Not all conflicts are solved yet.\n" "File not saved."), i18n("Conflicts Left")); return false; } if(eLineEndStyle == eLineEndStyleConflict || eLineEndStyle == eLineEndStyleUndefined) { KMessageBox::error(this, i18n("There is a line end style conflict. Please choose the line end style manually.\n" "File not saved."), i18n("Conflicts Left")); return false; } update(); FileAccess file(fileName, true /*bWantToWrite*/); if(m_pOptions->m_bDmCreateBakFiles && file.exists()) { bool bSuccess = file.createBackup(".orig"); if(!bSuccess) { KMessageBox::error(this, file.getStatusText() + i18n("\n\nCreating backup failed. File not saved."), i18n("File Save Error")); return false; } } QByteArray dataArray; QTextStream textOutStream(&dataArray, QIODevice::WriteOnly); if(pEncoding->name() == "UTF-8") textOutStream.setGenerateByteOrderMark(false); // Shouldn't be necessary. Bug in Qt or docs else textOutStream.setGenerateByteOrderMark(true); // Only for UTF-16 textOutStream.setCodec(pEncoding); int line = 0; MergeLineList::iterator mlIt = m_mergeLineList.begin(); for(mlIt = m_mergeLineList.begin(); mlIt != m_mergeLineList.end(); ++mlIt) { MergeLine& ml = *mlIt; MergeEditLineList::iterator melIt; for(melIt = ml.mergeEditLineList.begin(); melIt != ml.mergeEditLineList.end(); ++melIt) { MergeEditLine& mel = *melIt; if(mel.isEditableText()) { QString str = mel.getString(m_pldA, m_pldB, m_pldC); if(line > 0) // Prepend line feed, but not for first line { if(eLineEndStyle == eLineEndStyleDos) { str.prepend("\r\n"); } else { str.prepend("\n"); } } textOutStream << str; ++line; } } } textOutStream.flush(); bool bSuccess = file.writeFile(dataArray.data(), dataArray.size()); if(!bSuccess) { KMessageBox::error(this, i18n("Error while writing."), i18n("File Save Error")); return false; } setModified(false); update(); return true; } QString MergeResultWindow::getString(int lineIdx) { MergeLineList::iterator mlIt; MergeEditLineList::iterator melIt; if(m_mergeLineList.empty()) { return QString(); } calcIteratorFromLineNr(lineIdx, mlIt, melIt); QString s = melIt->getString(m_pldA, m_pldB, m_pldC); return s; } bool MergeResultWindow::findString(const QString& s, LineRef& d3vLine, int& posInLine, bool bDirDown, bool bCaseSensitive) { int it = d3vLine; int endIt = bDirDown ? getNofLines() : -1; int step = bDirDown ? 1 : -1; int startPos = posInLine; for(; it != endIt; it += step) { QString line = getString(it); if(!line.isEmpty()) { int pos = line.indexOf(s, startPos, bCaseSensitive ? Qt::CaseSensitive : Qt::CaseInsensitive); if(pos != -1) { d3vLine = it; posInLine = pos; return true; } startPos = 0; } } return false; } void MergeResultWindow::setSelection(int firstLine, int startPos, int lastLine, int endPos) { if(lastLine >= getNofLines()) { lastLine = getNofLines() - 1; QString s = getString(lastLine); endPos = s.length(); } m_selection.reset(); m_selection.start(firstLine, convertToPosOnScreen(getString(firstLine), startPos, m_pOptions->m_tabSize)); m_selection.end(lastLine, convertToPosOnScreen(getString(lastLine), endPos, m_pOptions->m_tabSize)); update(); } WindowTitleWidget::WindowTitleWidget(Options* pOptions) { m_pOptions = pOptions; setAutoFillBackground(true); QHBoxLayout* pHLayout = new QHBoxLayout(this); pHLayout->setMargin(2); pHLayout->setSpacing(2); m_pLabel = new QLabel(i18n("Output:")); pHLayout->addWidget(m_pLabel); m_pFileNameLineEdit = new FileNameLineEdit(); pHLayout->addWidget(m_pFileNameLineEdit, 6); m_pFileNameLineEdit->installEventFilter(this);//for focus tracking m_pFileNameLineEdit->setAcceptDrops(true); m_pFileNameLineEdit->setReadOnly(true); //m_pBrowseButton = new QPushButton("..."); //pHLayout->addWidget( m_pBrowseButton, 0 ); //connect( m_pBrowseButton, &QPushButton::clicked), this, &MergeResultWindow::slotBrowseButtonClicked); m_pModifiedLabel = new QLabel(i18n("[Modified]")); pHLayout->addWidget(m_pModifiedLabel); m_pModifiedLabel->setMinimumSize(m_pModifiedLabel->sizeHint()); m_pModifiedLabel->setText(""); pHLayout->addStretch(1); m_pEncodingLabel = new QLabel(i18n("Encoding for saving:")); pHLayout->addWidget(m_pEncodingLabel); m_pEncodingSelector = new QComboBox(); m_pEncodingSelector->setSizeAdjustPolicy(QComboBox::AdjustToContents); pHLayout->addWidget(m_pEncodingSelector, 2); setEncodings(nullptr, nullptr, nullptr); m_pLineEndStyleLabel = new QLabel(i18n("Line end style:")); pHLayout->addWidget(m_pLineEndStyleLabel); m_pLineEndStyleSelector = new QComboBox(); m_pLineEndStyleSelector->setSizeAdjustPolicy(QComboBox::AdjustToContents); pHLayout->addWidget(m_pLineEndStyleSelector); setLineEndStyles(eLineEndStyleUndefined, eLineEndStyleUndefined, eLineEndStyleUndefined); } void WindowTitleWidget::setFileName(const QString& fileName) { m_pFileNameLineEdit->setText(QDir::toNativeSeparators(fileName)); } QString WindowTitleWidget::getFileName() { return m_pFileNameLineEdit->text(); } //static QString getLineEndStyleName( e_LineEndStyle eLineEndStyle ) //{ // if ( eLineEndStyle == eLineEndStyleDos ) // return "DOS"; // else if ( eLineEndStyle == eLineEndStyleUnix ) // return "Unix"; // return QString(); //} void WindowTitleWidget::setLineEndStyles(e_LineEndStyle eLineEndStyleA, e_LineEndStyle eLineEndStyleB, e_LineEndStyle eLineEndStyleC) { m_pLineEndStyleSelector->clear(); QString dosUsers; if(eLineEndStyleA == eLineEndStyleDos) dosUsers += i18n("A"); if(eLineEndStyleB == eLineEndStyleDos) dosUsers += QLatin1String(dosUsers.isEmpty() ? "" : ", ") + i18n("B"); if(eLineEndStyleC == eLineEndStyleDos) dosUsers += QLatin1String(dosUsers.isEmpty() ? "" : ", ") + i18n("C"); QString unxUsers; if(eLineEndStyleA == eLineEndStyleUnix) unxUsers += i18n("A"); if(eLineEndStyleB == eLineEndStyleUnix) unxUsers += QLatin1String(unxUsers.isEmpty() ? "" : ", ") + i18n("B"); if(eLineEndStyleC == eLineEndStyleUnix) unxUsers += QLatin1String(unxUsers.isEmpty() ? "" : ", ") + i18n("C"); m_pLineEndStyleSelector->addItem(i18n("Unix") + (unxUsers.isEmpty() ? QString("") : QLatin1String(" (") + unxUsers + QLatin1String(")"))); m_pLineEndStyleSelector->addItem(i18n("DOS") + (dosUsers.isEmpty() ? QString("") : QLatin1String(" (") + dosUsers + QLatin1String(")"))); e_LineEndStyle autoChoice = (e_LineEndStyle)m_pOptions->m_lineEndStyle; if(m_pOptions->m_lineEndStyle == eLineEndStyleAutoDetect) { if(eLineEndStyleA != eLineEndStyleUndefined && eLineEndStyleB != eLineEndStyleUndefined && eLineEndStyleC != eLineEndStyleUndefined) { if(eLineEndStyleA == eLineEndStyleB) autoChoice = eLineEndStyleC; else if(eLineEndStyleA == eLineEndStyleC) autoChoice = eLineEndStyleB; else autoChoice = eLineEndStyleConflict; //conflict (not likely while only two values exist) } else { e_LineEndStyle c1, c2; if(eLineEndStyleA == eLineEndStyleUndefined) { c1 = eLineEndStyleB; c2 = eLineEndStyleC; } else if(eLineEndStyleB == eLineEndStyleUndefined) { c1 = eLineEndStyleA; c2 = eLineEndStyleC; } else /*if( eLineEndStyleC == eLineEndStyleUndefined )*/ { c1 = eLineEndStyleA; c2 = eLineEndStyleB; } if(c1 == c2 && c1 != eLineEndStyleUndefined) autoChoice = c1; else autoChoice = eLineEndStyleConflict; } } if(autoChoice == eLineEndStyleUnix) m_pLineEndStyleSelector->setCurrentIndex(0); else if(autoChoice == eLineEndStyleDos) m_pLineEndStyleSelector->setCurrentIndex(1); else if(autoChoice == eLineEndStyleConflict) { m_pLineEndStyleSelector->addItem(i18n("Conflict")); m_pLineEndStyleSelector->setCurrentIndex(2); } } e_LineEndStyle WindowTitleWidget::getLineEndStyle() { int current = m_pLineEndStyleSelector->currentIndex(); if(current == 0) return eLineEndStyleUnix; else if(current == 1) return eLineEndStyleDos; else return eLineEndStyleConflict; } void WindowTitleWidget::setEncodings(QTextCodec* pCodecForA, QTextCodec* pCodecForB, QTextCodec* pCodecForC) { m_pEncodingSelector->clear(); // First sort codec names: std::map names; QList mibs = QTextCodec::availableMibs(); foreach(int i, mibs) { QTextCodec* c = QTextCodec::codecForMib(i); if(c != nullptr) names[QLatin1String(c->name())] = c; } if(pCodecForA) m_pEncodingSelector->addItem(i18n("Codec from A: %1", QLatin1String(pCodecForA->name())), QVariant::fromValue((void*)pCodecForA)); if(pCodecForB) m_pEncodingSelector->addItem(i18n("Codec from B: %1", QLatin1String(pCodecForB->name())), QVariant::fromValue((void*)pCodecForB)); if(pCodecForC) m_pEncodingSelector->addItem(i18n("Codec from C: %1", QLatin1String(pCodecForC->name())), QVariant::fromValue((void*)pCodecForC)); std::map::iterator it; for(it = names.begin(); it != names.end(); ++it) { m_pEncodingSelector->addItem(it->first, QVariant::fromValue((void*)it->second)); } m_pEncodingSelector->setMinimumSize(m_pEncodingSelector->sizeHint()); if(pCodecForC && pCodecForB && pCodecForA) { if(pCodecForA == pCodecForB) m_pEncodingSelector->setCurrentIndex(2); // C else if(pCodecForA == pCodecForC) m_pEncodingSelector->setCurrentIndex(1); // B else m_pEncodingSelector->setCurrentIndex(2); // C } else if(pCodecForA && pCodecForB) m_pEncodingSelector->setCurrentIndex(1); // B else m_pEncodingSelector->setCurrentIndex(0); } QTextCodec* WindowTitleWidget::getEncoding() { return (QTextCodec*)m_pEncodingSelector->itemData(m_pEncodingSelector->currentIndex()).value(); } void WindowTitleWidget::setEncoding(QTextCodec* pEncoding) { int idx = m_pEncodingSelector->findText(QLatin1String(pEncoding->name())); if(idx >= 0) m_pEncodingSelector->setCurrentIndex(idx); } //void WindowTitleWidget::slotBrowseButtonClicked() //{ // QString current = m_pFileNameLineEdit->text(); // // QUrl newURL = KFileDialog::getSaveUrl( current, 0, this, i18n("Select file (not saving yet)")); // if ( !newURL.isEmpty() ) // { // m_pFileNameLineEdit->setText( newURL.url() ); // } //} void WindowTitleWidget::slotSetModified(bool bModified) { m_pModifiedLabel->setText(bModified ? i18n("[Modified]") : ""); } bool WindowTitleWidget::eventFilter(QObject* o, QEvent* e) { Q_UNUSED(o); if(e->type() == QEvent::FocusIn || e->type() == QEvent::FocusOut) { QPalette p = m_pLabel->palette(); QColor c1 = m_pOptions->m_fgColor; QColor c2 = Qt::lightGray; if(e->type() == QEvent::FocusOut) c2 = m_pOptions->m_bgColor; p.setColor(QPalette::Window, c2); setPalette(p); p.setColor(QPalette::WindowText, c1); m_pLabel->setPalette(p); m_pEncodingLabel->setPalette(p); m_pEncodingSelector->setPalette(p); } return false; } //#include "mergeresultwindow.moc" diff --git a/src/mergeresultwindow.h b/src/mergeresultwindow.h index a43c33f..a23f9a5 100644 --- a/src/mergeresultwindow.h +++ b/src/mergeresultwindow.h @@ -1,274 +1,274 @@ /*************************************************************************** * Copyright (C) 2002-2007 by Joachim Eibl * * Copyright (C) 2018 Michael Reeves reeves.87@gmail.com * * * * 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. * * * ***************************************************************************/ #ifndef MERGERESULTWINDOW_H #define MERGERESULTWINDOW_H #include "diff.h" #include "selection.h" #include "Overview.h" #include "FileNameLineEdit.h" #include "MergeEditLine.h" #include #include #include #include #include class QPainter; class RLPainter; class KActionCollection; class KToggleAction; class MergeResultWindow : public QWidget { Q_OBJECT public: MergeResultWindow(QWidget* pParent, Options* pOptions, QStatusBar* pStatusBar); void init( - const LineData* pLineDataA, LineRef sizeA, - const LineData* pLineDataB, LineRef sizeB, - const LineData* pLineDataC, LineRef sizeC, + const QVector* pLineDataA, LineRef sizeA, + const QVector* pLineDataB, LineRef sizeB, + const QVector* pLineDataC, LineRef sizeC, const Diff3LineList* pDiff3LineList, TotalDiffStatus* pTotalDiffStatus ); void initActions(KActionCollection* ac); void reset(); bool saveDocument( const QString& fileName, QTextCodec* pEncoding, e_LineEndStyle eLineEndStyle ); int getNrOfUnsolvedConflicts(int* pNrOfWhiteSpaceConflicts=nullptr); void choose(e_SrcSelector selector); void chooseGlobal(e_SrcSelector selector, bool bConflictsOnly, bool bWhiteSpaceOnly ); int getMaxTextWidth(); // width of longest text line int getNofLines(); int getVisibleTextAreaWidth(); // text area width without the border int getNofVisibleLines(); QString getSelection(); void resetSelection(); void showNrOfConflicts(); bool isDeltaAboveCurrent(); bool isDeltaBelowCurrent(); bool isConflictAboveCurrent(); bool isConflictBelowCurrent(); bool isUnsolvedConflictAtCurrent(); bool isUnsolvedConflictAboveCurrent(); bool isUnsolvedConflictBelowCurrent(); bool findString( const QString& s, LineRef& d3vLine, int& posInLine, bool bDirDown, bool bCaseSensitive ); void setSelection( int firstLine, int startPos, int lastLine, int endPos ); void setOverviewMode( Overview::e_OverviewMode eOverviewMode ); Overview::e_OverviewMode getOverviewMode(); void slotUpdateAvailabilities(const bool bMergeEditorVisible, const bool m_bTripleDiff); public Q_SLOTS: void setFirstLine(QtNumberType firstLine); void setHorizScrollOffset(int horizScrollOffset); void slotGoCurrent(); void slotGoTop(); void slotGoBottom(); void slotGoPrevDelta(); void slotGoNextDelta(); void slotGoPrevUnsolvedConflict(); void slotGoNextUnsolvedConflict(); void slotGoPrevConflict(); void slotGoNextConflict(); void slotAutoSolve(); void slotUnsolve(); void slotMergeHistory(); void slotRegExpAutoMerge(); void slotSplitDiff( LineIndex firstD3lLineIdx, LineIndex lastD3lLineIdx ); void slotJoinDiffs( LineIndex firstD3lLineIdx, LineIndex lastD3lLineIdx ); void slotSetFastSelectorLine(LineIndex); void setPaintingAllowed(bool); void updateSourceMask(); void slotStatusMessageChanged( const QString& ); void slotChooseAEverywhere() { chooseGlobal(A, false, false); } void slotChooseBEverywhere() { chooseGlobal(B, false, false); } void slotChooseCEverywhere() { chooseGlobal(C, false, false); } void slotChooseAForUnsolvedConflicts() { chooseGlobal(A, true, false); } void slotChooseBForUnsolvedConflicts() { chooseGlobal(B, true, false); } void slotChooseCForUnsolvedConflicts() { chooseGlobal(C, true, false); } void slotChooseAForUnsolvedWhiteSpaceConflicts() { chooseGlobal(A, true, true); } void slotChooseBForUnsolvedWhiteSpaceConflicts() { chooseGlobal(B, true, true); } void slotChooseCForUnsolvedWhiteSpaceConflicts() { chooseGlobal(C, true, true); } Q_SIGNALS: void scrollMergeResultWindow( int deltaX, int deltaY ); void modifiedChanged(bool bModified); void setFastSelectorRange( LineRef line1, LineCount nofLines ); void sourceMask( int srcMask, int enabledMask ); void resizeSignal(); void selectionEnd(); void newSelection(); void updateAvailabilities(); void showPopupMenu( const QPoint& point ); void noRelevantChangesDetected(); private: void merge(bool bAutoSolve, e_SrcSelector defaultSelector, bool bConflictsOnly=false, bool bWhiteSpaceOnly=false ); QString getString( int lineIdx ); QAction* chooseAEverywhere = nullptr; QAction* chooseBEverywhere = nullptr; QAction* chooseCEverywhere = nullptr; QAction* chooseAForUnsolvedConflicts = nullptr; QAction* chooseBForUnsolvedConflicts = nullptr; QAction* chooseCForUnsolvedConflicts = nullptr; QAction* chooseAForUnsolvedWhiteSpaceConflicts = nullptr; QAction* chooseBForUnsolvedWhiteSpaceConflicts = nullptr; QAction* chooseCForUnsolvedWhiteSpaceConflicts = nullptr; Options* m_pOptions = nullptr; - const LineData* m_pldA; - const LineData* m_pldB; - const LineData* m_pldC; + const QVector* m_pldA; + const QVector* m_pldB; + const QVector* m_pldC; LineRef m_sizeA; LineRef m_sizeB; LineRef m_sizeC; const Diff3LineList* m_pDiff3LineList; TotalDiffStatus* m_pTotalDiffStatus; int m_delayedDrawTimer; Overview::e_OverviewMode m_eOverviewMode; QString m_persistentStatusMessage; void showUnsolvedConflictsStatusMessage(); private: static bool sameKindCheck(const MergeLine& ml1, const MergeLine& ml2); struct HistoryMapEntry { MergeEditLineList mellA; MergeEditLineList mellB; MergeEditLineList mellC; MergeEditLineList& choice( bool bThreeInputs ); bool staysInPlace( bool bThreeInputs, Diff3LineList::const_iterator& iHistoryEnd ); }; typedef std::map HistoryMap; void collectHistoryInformation( e_SrcSelector src, Diff3LineList::const_iterator &iHistoryBegin, Diff3LineList::const_iterator &iHistoryEnd, HistoryMap& historyMap, std::list< HistoryMap::iterator >& hitList ); MergeLineList m_mergeLineList; MergeLineList::iterator m_currentMergeLineIt; bool isItAtEnd( bool bIncrement, MergeLineList::iterator i ) { if ( bIncrement ) return i!=m_mergeLineList.end(); else return i!=m_mergeLineList.begin(); } int m_currentPos; bool checkOverviewIgnore(MergeLineList::iterator &i); enum e_Direction { eUp, eDown }; enum e_EndPoint { eDelta, eConflict, eUnsolvedConflict, eLine, eEnd }; void go( e_Direction eDir, e_EndPoint eEndPoint ); void calcIteratorFromLineNr( int line, MergeLineList::iterator& mlIt, MergeEditLineList::iterator& melIt ); MergeLineList::iterator splitAtDiff3LineIdx( int d3lLineIdx ); void paintEvent( QPaintEvent* e ) override; int getTextXOffset(); QVector getTextLayoutForLine(int line, const QString& s, QTextLayout& textLayout ); void myUpdate(int afterMilliSecs); void timerEvent(QTimerEvent*) override; void writeLine( RLPainter& p, int line, const QString& str, int srcSelect, e_MergeDetails mergeDetails, int rangeMark, bool bUserModified, bool bLineRemoved, bool bWhiteSpaceConflict ); void setFastSelector(MergeLineList::iterator i); LineRef convertToLine( QtNumberType y ); bool event(QEvent*) override; void mousePressEvent ( QMouseEvent* e ) override; void mouseDoubleClickEvent ( QMouseEvent* e ) override; void mouseReleaseEvent ( QMouseEvent * ) override; void mouseMoveEvent ( QMouseEvent * ) override; void resizeEvent( QResizeEvent* e ) override; void keyPressEvent( QKeyEvent* e ) override; void wheelEvent( QWheelEvent* e ) override; void focusInEvent( QFocusEvent* e ) override; QPixmap m_pixmap; LineRef m_firstLine; int m_horizScrollOffset; LineCount m_nofLines; int m_maxTextWidth; bool m_bMyUpdate; bool m_bInsertMode; bool m_bModified; void setModified(bool bModified=true); int m_scrollDeltaX; int m_scrollDeltaY; int m_cursorXPos; int m_cursorXPixelPos; int m_cursorYPos; int m_cursorOldXPixelPos; bool m_bCursorOn; // blinking on and off each second QTimer m_cursorTimer; bool m_bCursorUpdate; QStatusBar* m_pStatusBar; Selection m_selection; bool deleteSelection2( QString& str, int& x, int& y, MergeLineList::iterator& mlIt, MergeEditLineList::iterator& melIt ); bool doRelevantChangesExist(); public Q_SLOTS: void deleteSelection(); void pasteClipboard(bool bFromSelection); private Q_SLOTS: void slotCursorUpdate(); }; class QLineEdit; class QTextCodec; class QComboBox; class QLabel; class WindowTitleWidget : public QWidget { Q_OBJECT private: QLabel* m_pLabel; FileNameLineEdit* m_pFileNameLineEdit; //QPushButton* m_pBrowseButton; QLabel* m_pModifiedLabel; QLabel* m_pLineEndStyleLabel; QComboBox* m_pLineEndStyleSelector; QLabel* m_pEncodingLabel; QComboBox* m_pEncodingSelector; Options* m_pOptions; public: explicit WindowTitleWidget(Options* pOptions); QTextCodec* getEncoding(); void setFileName(const QString& fileName ); QString getFileName(); void setEncodings( QTextCodec* pCodecForA, QTextCodec* pCodecForB, QTextCodec* pCodecForC ); void setEncoding( QTextCodec* pEncoding ); void setLineEndStyles( e_LineEndStyle eLineEndStyleA, e_LineEndStyle eLineEndStyleB, e_LineEndStyle eLineEndStyleC); e_LineEndStyle getLineEndStyle(); bool eventFilter( QObject* o, QEvent* e ) override; public Q_SLOTS: void slotSetModified( bool bModified ); //private Q_SLOTS: // void slotBrowseButtonClicked(); }; #endif