/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the QtGui module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 3 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL3 included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 3 requirements ** will be met: https://www.gnu.org/licenses/lgpl-3.0.html. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 2.0 or (at your option) the GNU General ** Public license version 3 or any later version approved by the KDE Free ** Qt Foundation. The licenses are as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL2 and LICENSE.GPL3 ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-2.0.html and ** https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include "qdebug.h" #include "qtextformat.h" #include "qtextformat_p.h" #include "qtextengine_p.h" #include "qabstracttextdocumentlayout.h" #include "qtextlayout.h" #include "qtextboundaryfinder.h" #include #include "qvarlengtharray.h" #include "qfont.h" #include "qfont_p.h" #include "qfontengine_p.h" #include "qstring.h" #include "qtextdocument_p.h" #include "qrawfont.h" #include "qrawfont_p.h" #include #include #include #include QT_BEGIN_NAMESPACE static const float smallCapsFraction = 0.7f; namespace { // Helper class used in QTextEngine::itemize // keep it out here to allow us to keep supporting various compilers. class Itemizer { public: Itemizer(const QString &string, const QScriptAnalysis *analysis, QScriptItemArray &items) : m_string(string), m_analysis(analysis), m_items(items), m_splitter(0) { } ~Itemizer() { delete m_splitter; } /// generate the script items /// The caps parameter is used to choose the algoritm of splitting text and assiging roles to the textitems void generate(int start, int length, QFont::Capitalization caps) { if (caps == QFont::SmallCaps) generateScriptItemsSmallCaps(reinterpret_cast(m_string.unicode()), start, length); else if(caps == QFont::Capitalize) generateScriptItemsCapitalize(start, length); else if(caps != QFont::MixedCase) { generateScriptItemsAndChangeCase(start, length, caps == QFont::AllLowercase ? QScriptAnalysis::Lowercase : QScriptAnalysis::Uppercase); } else generateScriptItems(start, length); } private: enum { MaxItemLength = 4096 }; void generateScriptItemsAndChangeCase(int start, int length, QScriptAnalysis::Flags flags) { generateScriptItems(start, length); if (m_items.isEmpty()) // the next loop won't work in that case return; QScriptItemArray::Iterator iter = m_items.end(); do { iter--; if (iter->analysis.flags < QScriptAnalysis::LineOrParagraphSeparator) iter->analysis.flags = flags; } while (iter->position > start); } void generateScriptItems(int start, int length) { if (!length) return; const int end = start + length; for (int i = start + 1; i < end; ++i) { if (m_analysis[i].bidiLevel == m_analysis[start].bidiLevel && m_analysis[i].flags == m_analysis[start].flags && (m_analysis[i].script == m_analysis[start].script || m_string[i] == QLatin1Char('.')) && m_analysis[i].flags < QScriptAnalysis::SpaceTabOrObject && i - start < MaxItemLength) continue; m_items.append(QScriptItem(start, m_analysis[start])); start = i; } m_items.append(QScriptItem(start, m_analysis[start])); } void generateScriptItemsCapitalize(int start, int length) { if (!length) return; if (!m_splitter) m_splitter = new QTextBoundaryFinder(QTextBoundaryFinder::Word, m_string.constData(), m_string.length(), /*buffer*/0, /*buffer size*/0); m_splitter->setPosition(start); QScriptAnalysis itemAnalysis = m_analysis[start]; if (m_splitter->boundaryReasons() & QTextBoundaryFinder::StartOfItem) itemAnalysis.flags = QScriptAnalysis::Uppercase; m_splitter->toNextBoundary(); const int end = start + length; for (int i = start + 1; i < end; ++i) { bool atWordStart = false; if (i == m_splitter->position()) { if (m_splitter->boundaryReasons() & QTextBoundaryFinder::StartOfItem) { Q_ASSERT(m_analysis[i].flags < QScriptAnalysis::TabOrObject); atWordStart = true; } m_splitter->toNextBoundary(); } if (m_analysis[i] == itemAnalysis && m_analysis[i].flags < QScriptAnalysis::TabOrObject && !atWordStart && i - start < MaxItemLength) continue; m_items.append(QScriptItem(start, itemAnalysis)); start = i; itemAnalysis = m_analysis[start]; if (atWordStart) itemAnalysis.flags = QScriptAnalysis::Uppercase; } m_items.append(QScriptItem(start, itemAnalysis)); } void generateScriptItemsSmallCaps(const ushort *uc, int start, int length) { if (!length) return; bool lower = (QChar::category(uc[start]) == QChar::Letter_Lowercase); const int end = start + length; // split text into parts that are already uppercase and parts that are lowercase, and mark the latter to be uppercased later. for (int i = start + 1; i < end; ++i) { bool l = (QChar::category(uc[i]) == QChar::Letter_Lowercase); if ((m_analysis[i] == m_analysis[start]) && m_analysis[i].flags < QScriptAnalysis::TabOrObject && l == lower && i - start < MaxItemLength) continue; m_items.append(QScriptItem(start, m_analysis[start])); if (lower) m_items.last().analysis.flags = QScriptAnalysis::SmallCaps; start = i; lower = l; } m_items.append(QScriptItem(start, m_analysis[start])); if (lower) m_items.last().analysis.flags = QScriptAnalysis::SmallCaps; } const QString &m_string; const QScriptAnalysis * const m_analysis; QScriptItemArray &m_items; QTextBoundaryFinder *m_splitter; }; // ----------------------------------------------------------------------------------------------------- // // The Unicode Bidi algorithm. // See http://www.unicode.org/reports/tr9/tr9-37.html // // ----------------------------------------------------------------------------------------------------- // #define DEBUG_BIDI #ifndef DEBUG_BIDI enum { BidiDebugEnabled = false }; #define BIDI_DEBUG if (1) ; else qDebug #else enum { BidiDebugEnabled = true }; static const char *directions[] = { "DirL", "DirR", "DirEN", "DirES", "DirET", "DirAN", "DirCS", "DirB", "DirS", "DirWS", "DirON", "DirLRE", "DirLRO", "DirAL", "DirRLE", "DirRLO", "DirPDF", "DirNSM", "DirBN", "DirLRI", "DirRLI", "DirFSI", "DirPDI" }; #define BIDI_DEBUG qDebug QDebug operator<<(QDebug d, QChar::Direction dir) { return (d << directions[dir]); } #endif struct QBidiAlgorithm { template using Vector = QVarLengthArray; QBidiAlgorithm(const QChar *text, QScriptAnalysis *analysis, int length, bool baseDirectionIsRtl) : text(text), analysis(analysis), length(length), baseLevel(baseDirectionIsRtl ? 1 : 0) { } struct IsolatePair { int start; int end; }; void initScriptAnalysisAndIsolatePairs(Vector &isolatePairs) { int isolateStack[128]; int isolateLevel = 0; // load directions of string, and determine isolate pairs for (int i = 0; i < length; ++i) { int pos = i; uint uc = text[i].unicode(); if (QChar::isHighSurrogate(uc) && i < length - 1) { ++i; analysis[i].bidiDirection = QChar::DirNSM; uc = QChar::surrogateToUcs4(ushort(uc), text[i].unicode()); } const QUnicodeTables::Properties *p = QUnicodeTables::properties(uc); analysis[pos].bidiDirection = QChar::Direction(p->direction); switch (QChar::Direction(p->direction)) { case QChar::DirON: // all mirrored chars are DirON if (p->mirrorDiff) analysis[pos].bidiFlags = QScriptAnalysis::BidiMirrored; break; case QChar::DirLRE: case QChar::DirRLE: case QChar::DirLRO: case QChar::DirRLO: case QChar::DirPDF: case QChar::DirBN: analysis[pos].bidiFlags = QScriptAnalysis::BidiMaybeResetToParagraphLevel|QScriptAnalysis::BidiBN; break; case QChar::DirLRI: case QChar::DirRLI: case QChar::DirFSI: if (isolateLevel < 128) { isolateStack[isolateLevel] = isolatePairs.size(); isolatePairs.append({ pos, length }); } ++isolateLevel; analysis[pos].bidiFlags = QScriptAnalysis::BidiMaybeResetToParagraphLevel; break; case QChar::DirPDI: if (isolateLevel > 0) { --isolateLevel; if (isolateLevel < 128) isolatePairs[isolateStack[isolateLevel]].end = pos; } Q_FALLTHROUGH(); case QChar::DirWS: analysis[pos].bidiFlags = QScriptAnalysis::BidiMaybeResetToParagraphLevel; break; case QChar::DirS: case QChar::DirB: analysis[pos].bidiFlags = QScriptAnalysis::BidiResetToParagraphLevel; if (uc == QChar::ParagraphSeparator) { // close all open isolates as we start a new paragraph while (isolateLevel > 0) { --isolateLevel; if (isolateLevel < 128) isolatePairs[isolateStack[isolateLevel]].end = pos; } } break; default: break; } } } struct DirectionalRun { int start; int end; int continuation; ushort level; bool isContinuation; bool hasContent; }; void generateDirectionalRuns(const Vector &isolatePairs, Vector &runs) { struct DirectionalStack { enum { MaxDepth = 125 }; struct Item { ushort level; bool isOverride; bool isIsolate; int runBeforeIsolate; }; Item items[128]; int counter = 0; void push(Item i) { items[counter] = i; ++counter; } void pop() { --counter; } int depth() const { return counter; } const Item &top() const { return items[counter - 1]; } } stack; int overflowIsolateCount = 0; int overflowEmbeddingCount = 0; int validIsolateCount = 0; ushort level = baseLevel; bool override = false; stack.push({ level, false, false, -1 }); BIDI_DEBUG() << "resolving explicit levels"; int runStart = 0; int continuationFrom = -1; int lastRunWithContent = -1; bool runHasContent = false; auto appendRun = [&](int runEnd) { if (runEnd < runStart) return; bool isContinuation = false; if (continuationFrom != -1) { runs[continuationFrom].continuation = runs.size(); isContinuation = true; } else if (lastRunWithContent != -1 && level == runs.at(lastRunWithContent).level) { runs[lastRunWithContent].continuation = runs.size(); isContinuation = true; } if (runHasContent) lastRunWithContent = runs.size(); BIDI_DEBUG() << " appending run start/end" << runStart << runEnd << "level" << level; runs.append({ runStart, runEnd, -1, level, isContinuation, runHasContent }); runHasContent = false; runStart = runEnd + 1; continuationFrom = -1; }; int isolatePairPosition = 0; for (int i = 0; i < length; ++i) { QChar::Direction dir = analysis[i].bidiDirection; auto doEmbed = [&](bool isRtl, bool isOverride, bool isIsolate) { if (isIsolate) { if (override) analysis[i].bidiDirection = (level & 1) ? QChar::DirR : QChar::DirL; runHasContent = true; lastRunWithContent = -1; ++isolatePairPosition; } int runBeforeIsolate = runs.size(); ushort newLevel = isRtl ? ((stack.top().level + 1) | 1) : ((stack.top().level + 2) & ~1); if (newLevel <= DirectionalStack::MaxDepth && !overflowEmbeddingCount && !overflowIsolateCount) { if (isIsolate) ++validIsolateCount; else runBeforeIsolate = -1; appendRun(isIsolate ? i : i - 1); BIDI_DEBUG() << "pushing new item on stack: level" << (int)newLevel << "isOverride" << isOverride << "isIsolate" << isIsolate << runBeforeIsolate; stack.push({ newLevel, isOverride, isIsolate, runBeforeIsolate }); override = isOverride; level = newLevel; } else { if (isIsolate) ++overflowIsolateCount; else if (!overflowIsolateCount) ++overflowEmbeddingCount; } if (!isIsolate) { if (override) analysis[i].bidiDirection = (level & 1) ? QChar::DirR : QChar::DirL; else analysis[i].bidiDirection = QChar::DirBN; } }; switch (dir) { case QChar::DirLRE: doEmbed(false, false, false); break; case QChar::DirRLE: doEmbed(true, false, false); break; case QChar::DirLRO: doEmbed(false, true, false); break; case QChar::DirRLO: doEmbed(true, true, false); break; case QChar::DirLRI: doEmbed(false, false, true); break; case QChar::DirRLI: doEmbed(true, false, true); break; case QChar::DirFSI: { bool isRtl = false; if (isolatePairPosition < isolatePairs.size()) { const auto &pair = isolatePairs.at(isolatePairPosition); Q_ASSERT(pair.start == i); isRtl = QStringView(text + pair.start + 1, pair.end - pair.start - 1).isRightToLeft(); } doEmbed(isRtl, false, true); break; } case QChar::DirPDF: if (override) analysis[i].bidiDirection = (level & 1) ? QChar::DirR : QChar::DirL; else analysis[i].bidiDirection = QChar::DirBN; if (overflowIsolateCount) { ; // do nothing } else if (overflowEmbeddingCount) { --overflowEmbeddingCount; } else if (!stack.top().isIsolate && stack.depth() >= 2) { appendRun(i); stack.pop(); override = stack.top().isOverride; level = stack.top().level; BIDI_DEBUG() << "popped PDF from stack, level now" << (int)stack.top().level; } break; case QChar::DirPDI: runHasContent = true; if (overflowIsolateCount) { --overflowIsolateCount; } else if (validIsolateCount == 0) { ; // do nothing } else { appendRun(i - 1); overflowEmbeddingCount = 0; while (!stack.top().isIsolate) stack.pop(); continuationFrom = stack.top().runBeforeIsolate; BIDI_DEBUG() << "popped PDI from stack, level now" << (int)stack.top().level << "continuation from" << continuationFrom; stack.pop(); override = stack.top().isOverride; level = stack.top().level; lastRunWithContent = -1; --validIsolateCount; } if (override) analysis[i].bidiDirection = (level & 1) ? QChar::DirR : QChar::DirL; break; case QChar::DirB: // paragraph separator, go down to base direction, reset all state if (text[i].unicode() == QChar::ParagraphSeparator) { appendRun(i - 1); while (stack.counter > 1) { // there might be remaining isolates on the stack that are missing a PDI. Those need to get // a continuation indicating to take the eos from the end of the string (ie. the paragraph level) const auto &t = stack.top(); if (t.isIsolate) { runs[t.runBeforeIsolate].continuation = -2; } --stack.counter; } continuationFrom = -1; lastRunWithContent = -1; validIsolateCount = 0; overflowIsolateCount = 0; overflowEmbeddingCount = 0; level = baseLevel; } break; default: runHasContent = true; Q_FALLTHROUGH(); case QChar::DirBN: if (override) analysis[i].bidiDirection = (level & 1) ? QChar::DirR : QChar::DirL; break; } } appendRun(length - 1); while (stack.counter > 1) { // there might be remaining isolates on the stack that are missing a PDI. Those need to get // a continuation indicating to take the eos from the end of the string (ie. the paragraph level) const auto &t = stack.top(); if (t.isIsolate) { runs[t.runBeforeIsolate].continuation = -2; } --stack.counter; } } void resolveExplicitLevels(Vector &runs) { Vector isolatePairs; initScriptAnalysisAndIsolatePairs(isolatePairs); generateDirectionalRuns(isolatePairs, runs); } struct IsolatedRunSequenceIterator { struct Position { int current = -1; int pos = -1; Position() = default; Position(int current, int pos) : current(current), pos(pos) {} bool isValid() const { return pos != -1; } void clear() { pos = -1; } }; IsolatedRunSequenceIterator(const Vector &runs, int i) : runs(runs), current(i) { pos = runs.at(current).start; } int operator *() const { return pos; } bool atEnd() const { return pos < 0; } void operator++() { ++pos; if (pos > runs.at(current).end) { current = runs.at(current).continuation; if (current > -1) pos = runs.at(current).start; else pos = -1; } } void setPosition(Position p) { current = p.current; pos = p.pos; } Position position() const { return Position(current, pos); } bool operator !=(int position) const { return pos != position; } const Vector &runs; int current; int pos; }; void resolveW1W2W3(const Vector &runs, int i, QChar::Direction sos) { QChar::Direction last = sos; QChar::Direction lastStrong = sos; IsolatedRunSequenceIterator it(runs, i); while (!it.atEnd()) { int pos = *it; // Rule W1: Resolve NSM QChar::Direction current = analysis[pos].bidiDirection; if (current == QChar::DirNSM) { current = last; analysis[pos].bidiDirection = current; } else if (current >= QChar::DirLRI) { last = QChar::DirON; } else if (current == QChar::DirBN) { current = last; } else { // there shouldn't be any explicit embedding marks here Q_ASSERT(current != QChar::DirLRE); Q_ASSERT(current != QChar::DirRLE); Q_ASSERT(current != QChar::DirLRO); Q_ASSERT(current != QChar::DirRLO); Q_ASSERT(current != QChar::DirPDF); last = current; } // Rule W2 if (current == QChar::DirEN && lastStrong == QChar::DirAL) { current = QChar::DirAN; analysis[pos].bidiDirection = current; } // remember last strong char for rule W2 if (current == QChar::DirL || current == QChar::DirR) { lastStrong = current; } else if (current == QChar::DirAL) { // Rule W3 lastStrong = current; analysis[pos].bidiDirection = QChar::DirR; } last = current; ++it; } } void resolveW4(const Vector &runs, int i, QChar::Direction sos) { // Rule W4 QChar::Direction secondLast = sos; IsolatedRunSequenceIterator it(runs, i); int lastPos = *it; QChar::Direction last = analysis[lastPos].bidiDirection; // BIDI_DEBUG() << "Applying rule W4/W5"; ++it; while (!it.atEnd()) { int pos = *it; QChar::Direction current = analysis[pos].bidiDirection; if (current == QChar::DirBN) { ++it; continue; } // BIDI_DEBUG() << pos << secondLast << last << current; if (last == QChar::DirES && current == QChar::DirEN && secondLast == QChar::DirEN) { last = QChar::DirEN; analysis[lastPos].bidiDirection = last; } else if (last == QChar::DirCS) { if (current == QChar::DirEN && secondLast == QChar::DirEN) { last = QChar::DirEN; analysis[lastPos].bidiDirection = last; } else if (current == QChar::DirAN && secondLast == QChar::DirAN) { last = QChar::DirAN; analysis[lastPos].bidiDirection = last; } } secondLast = last; last = current; lastPos = pos; ++it; } } void resolveW5(const Vector &runs, int i) { // Rule W5 IsolatedRunSequenceIterator::Position lastETPosition; IsolatedRunSequenceIterator it(runs, i); int lastPos = *it; QChar::Direction last = analysis[lastPos].bidiDirection; if (last == QChar::DirET || last == QChar::DirBN) lastETPosition = it.position(); ++it; while (!it.atEnd()) { int pos = *it; QChar::Direction current = analysis[pos].bidiDirection; if (current == QChar::DirBN) { ++it; continue; } if (current == QChar::DirET) { if (last == QChar::DirEN) { current = QChar::DirEN; analysis[pos].bidiDirection = current; } else if (!lastETPosition.isValid()) { lastETPosition = it.position(); } } else if (lastETPosition.isValid()) { if (current == QChar::DirEN) { it.setPosition(lastETPosition); while (it != pos) { int pos = *it; analysis[pos].bidiDirection = QChar::DirEN; ++it; } } else { lastETPosition.clear(); } } last = current; lastPos = pos; ++it; } } void resolveW6W7(const Vector &runs, int i, QChar::Direction sos) { QChar::Direction lastStrong = sos; IsolatedRunSequenceIterator it(runs, i); while (!it.atEnd()) { int pos = *it; // Rule W6 QChar::Direction current = analysis[pos].bidiDirection; if (current == QChar::DirBN) { ++it; continue; } if (current == QChar::DirET || current == QChar::DirES || current == QChar::DirCS) { analysis[pos].bidiDirection = QChar::DirON; } // Rule W7 else if (current == QChar::DirL || current == QChar::DirR) { lastStrong = current; } else if (current == QChar::DirEN && lastStrong == QChar::DirL) { analysis[pos].bidiDirection = lastStrong; } ++it; } } struct BracketPair { int first; int second; bool isValid() const { return second > 0; } QChar::Direction containedDirection(const QScriptAnalysis *analysis, QChar::Direction embeddingDir) const { int isolateCounter = 0; QChar::Direction containedDir = QChar::DirON; for (int i = first + 1; i < second; ++i) { QChar::Direction dir = analysis[i].bidiDirection; if (isolateCounter) { if (dir == QChar::DirPDI) --isolateCounter; continue; } if (dir == QChar::DirL) { containedDir = dir; if (embeddingDir == dir) break; } else if (dir == QChar::DirR || dir == QChar::DirAN || dir == QChar::DirEN) { containedDir = QChar::DirR; if (embeddingDir == QChar::DirR) break; } else if (dir == QChar::DirLRI || dir == QChar::DirRLI || dir == QChar::DirFSI) ++isolateCounter; } BIDI_DEBUG() << " contained dir for backet pair" << first << "/" << second << "is" << containedDir; return containedDir; } }; struct BracketStack { struct Item { Item() = default; Item(uint pairedBracked, int position) : pairedBracked(pairedBracked), position(position) {} uint pairedBracked = 0; int position = 0; }; void push(uint closingUnicode, int pos) { if (position < MaxDepth) stack[position] = Item(closingUnicode, pos); ++position; } int match(uint unicode) { Q_ASSERT(!overflowed()); int p = position; while (--p >= 0) { if (stack[p].pairedBracked == unicode || // U+3009 and U+2329 are canonical equivalents of each other. Fortunately it's the only pair in Unicode 10 (stack[p].pairedBracked == 0x3009 && unicode == 0x232a) || (stack[p].pairedBracked == 0x232a && unicode == 0x3009)) { position = p; return stack[p].position; } } return -1; } enum { MaxDepth = 63 }; Item stack[MaxDepth]; int position = 0; bool overflowed() const { return position > MaxDepth; } }; void resolveN0(const Vector &runs, int i, QChar::Direction sos) { ushort level = runs.at(i).level; Vector bracketPairs; { BracketStack bracketStack; IsolatedRunSequenceIterator it(runs, i); while (!it.atEnd()) { int pos = *it; QChar::Direction dir = analysis[pos].bidiDirection; if (dir == QChar::DirON) { const QUnicodeTables::Properties *p = QUnicodeTables::properties(text[pos].unicode()); if (p->mirrorDiff) { // either opening or closing bracket if (p->category == QChar::Punctuation_Open) { // opening bracked uint closingBracked = text[pos].unicode() + p->mirrorDiff; bracketStack.push(closingBracked, bracketPairs.size()); if (bracketStack.overflowed()) { bracketPairs.clear(); break; } bracketPairs.append({ pos, -1 }); } else if (p->category == QChar::Punctuation_Close) { int pairPos = bracketStack.match(text[pos].unicode()); if (pairPos != -1) bracketPairs[pairPos].second = pos; } } } ++it; } } if (BidiDebugEnabled && bracketPairs.size()) { BIDI_DEBUG() << "matched bracket pairs:"; for (int i = 0; i < bracketPairs.size(); ++i) BIDI_DEBUG() << " " << bracketPairs.at(i).first << bracketPairs.at(i).second; } QChar::Direction lastStrong = sos; IsolatedRunSequenceIterator it(runs, i); QChar::Direction embeddingDir = (level & 1) ? QChar::DirR : QChar::DirL; for (int i = 0; i < bracketPairs.size(); ++i) { const auto &pair = bracketPairs.at(i); if (!pair.isValid()) continue; QChar::Direction containedDir = pair.containedDirection(analysis, embeddingDir); if (containedDir == QChar::DirON) { BIDI_DEBUG() << " 3: resolve bracket pair" << i << "to DirON"; continue; } else if (containedDir == embeddingDir) { analysis[pair.first].bidiDirection = embeddingDir; analysis[pair.second].bidiDirection = embeddingDir; BIDI_DEBUG() << " 1: resolve bracket pair" << i << "to" << embeddingDir; } else { // case c. while (it.pos < pair.first) { int pos = *it; switch (analysis[pos].bidiDirection) { case QChar::DirR: case QChar::DirEN: case QChar::DirAN: lastStrong = QChar::DirR; break; case QChar::DirL: lastStrong = QChar::DirL; break; default: break; } ++it; } analysis[pair.first].bidiDirection = lastStrong; analysis[pair.second].bidiDirection = lastStrong; BIDI_DEBUG() << " 2: resolve bracket pair" << i << "to" << lastStrong; } for (int i = pair.second + 1; i < length; ++i) { if (text[i].direction() == QChar::DirNSM) analysis[i].bidiDirection = analysis[pair.second].bidiDirection; else break; } } } void resolveN1N2(const Vector &runs, int i, QChar::Direction sos, QChar::Direction eos) { // Rule N1 & N2 QChar::Direction lastStrong = sos; IsolatedRunSequenceIterator::Position niPos; IsolatedRunSequenceIterator it(runs, i); // QChar::Direction last = QChar::DirON; while (1) { int pos = *it; QChar::Direction current = pos >= 0 ? analysis[pos].bidiDirection : eos; QChar::Direction currentStrong = current; switch (current) { case QChar::DirEN: case QChar::DirAN: currentStrong = QChar::DirR; Q_FALLTHROUGH(); case QChar::DirL: case QChar::DirR: if (niPos.isValid()) { QChar::Direction dir = currentStrong; if (lastStrong != currentStrong) dir = (runs.at(i).level) & 1 ? QChar::DirR : QChar::DirL; it.setPosition(niPos); while (*it != pos) { if (analysis[*it].bidiDirection != QChar::DirBN) analysis[*it].bidiDirection = dir; ++it; } niPos.clear(); } lastStrong = currentStrong; break; case QChar::DirBN: case QChar::DirS: case QChar::DirWS: case QChar::DirON: case QChar::DirFSI: case QChar::DirLRI: case QChar::DirRLI: case QChar::DirPDI: case QChar::DirB: if (!niPos.isValid()) niPos = it.position(); break; default: Q_UNREACHABLE(); } if (it.atEnd()) break; // last = current; ++it; } } void resolveImplicitLevelsForIsolatedRun(const Vector &runs, int i) { // Rule X10 int level = runs.at(i).level; int before = i - 1; while (before >= 0 && !runs.at(before).hasContent) --before; int level_before = (before >= 0) ? runs.at(before).level : baseLevel; int after = i; while (runs.at(after).continuation >= 0) after = runs.at(after).continuation; if (runs.at(after).continuation == -2) { after = runs.size(); } else { ++after; while (after < runs.size() && !runs.at(after).hasContent) ++after; } int level_after = (after == runs.size()) ? baseLevel : runs.at(after).level; QChar::Direction sos = (qMax(level_before, level) & 1) ? QChar::DirR : QChar::DirL; QChar::Direction eos = (qMax(level_after, level) & 1) ? QChar::DirR : QChar::DirL; if (BidiDebugEnabled) { BIDI_DEBUG() << "Isolated run starting at" << i << "sos/eos" << sos << eos; BIDI_DEBUG() << "before implicit level processing:"; IsolatedRunSequenceIterator it(runs, i); while (!it.atEnd()) { BIDI_DEBUG() << " " << *it << Qt::hex << text[*it].unicode() << analysis[*it].bidiDirection; ++it; } } resolveW1W2W3(runs, i, sos); resolveW4(runs, i, sos); resolveW5(runs, i); if (BidiDebugEnabled) { BIDI_DEBUG() << "after W4/W5"; IsolatedRunSequenceIterator it(runs, i); while (!it.atEnd()) { BIDI_DEBUG() << " " << *it << Qt::hex << text[*it].unicode() << analysis[*it].bidiDirection; ++it; } } resolveW6W7(runs, i, sos); // Resolve neutral types // Rule N0 resolveN0(runs, i, sos); resolveN1N2(runs, i, sos, eos); BIDI_DEBUG() << "setting levels (run at" << level << ")"; // Rules I1 & I2: set correct levels { ushort level = runs.at(i).level; IsolatedRunSequenceIterator it(runs, i); while (!it.atEnd()) { int pos = *it; QChar::Direction current = analysis[pos].bidiDirection; switch (current) { case QChar::DirBN: break; case QChar::DirL: analysis[pos].bidiLevel = (level + 1) & ~1; break; case QChar::DirR: analysis[pos].bidiLevel = level | 1; break; case QChar::DirAN: case QChar::DirEN: analysis[pos].bidiLevel = (level + 2) & ~1; break; default: Q_UNREACHABLE(); } BIDI_DEBUG() << " " << pos << current << analysis[pos].bidiLevel; ++it; } } } void resolveImplicitLevels(const Vector &runs) { for (int i = 0; i < runs.size(); ++i) { if (runs.at(i).isContinuation) continue; resolveImplicitLevelsForIsolatedRun(runs, i); } } bool checkForBidi() const { if (baseLevel != 0) return true; for (int i = 0; i < length; ++i) { if (text[i].unicode() >= 0x590) { switch (text[i].direction()) { case QChar::DirR: case QChar::DirAN: case QChar::DirLRE: case QChar::DirLRO: case QChar::DirAL: case QChar::DirRLE: case QChar::DirRLO: case QChar::DirPDF: case QChar::DirLRI: case QChar::DirRLI: case QChar::DirFSI: case QChar::DirPDI: return true; default: break; } } } return false; } bool process() { memset(analysis, 0, length * sizeof(QScriptAnalysis)); bool hasBidi = checkForBidi(); if (!hasBidi) return false; if (BidiDebugEnabled) { BIDI_DEBUG() << ">>>> start bidi, text length" << length; for (int i = 0; i < length; ++i) BIDI_DEBUG() << Qt::hex << " (" << i << ")" << text[i].unicode() << text[i].direction(); } { Vector runs; resolveExplicitLevels(runs); if (BidiDebugEnabled) { BIDI_DEBUG() << "resolved explicit levels, nruns" << runs.size(); for (int i = 0; i < runs.size(); ++i) BIDI_DEBUG() << " " << i << "start/end" << runs.at(i).start << runs.at(i).end << "level" << (int)runs.at(i).level << "continuation" << runs.at(i).continuation; } // now we have a list of isolated run sequences inside the vector of runs, that can be fed // through the implicit level resolving resolveImplicitLevels(runs); } BIDI_DEBUG() << "Rule L1:"; // Rule L1: bool resetLevel = true; for (int i = length - 1; i >= 0; --i) { if (analysis[i].bidiFlags & QScriptAnalysis::BidiResetToParagraphLevel) { BIDI_DEBUG() << "resetting pos" << i << "to baselevel"; analysis[i].bidiLevel = baseLevel; resetLevel = true; } else if (resetLevel && analysis[i].bidiFlags & QScriptAnalysis::BidiMaybeResetToParagraphLevel) { BIDI_DEBUG() << "resetting pos" << i << "to baselevel (maybereset flag)"; analysis[i].bidiLevel = baseLevel; } else { resetLevel = false; } } // set directions for BN to the minimum of adjacent chars // This makes is possible to be conformant with the Bidi algorithm even though we don't // remove BN and explicit embedding chars from the stream of characters to reorder int lastLevel = baseLevel; int lastBNPos = -1; for (int i = 0; i < length; ++i) { if (analysis[i].bidiFlags & QScriptAnalysis::BidiBN) { if (lastBNPos < 0) lastBNPos = i; analysis[i].bidiLevel = lastLevel; } else { int l = analysis[i].bidiLevel; if (lastBNPos >= 0) { if (l < lastLevel) { while (lastBNPos < i) { analysis[lastBNPos].bidiLevel = l; ++lastBNPos; } } lastBNPos = -1; } lastLevel = l; } } if (lastBNPos >= 0 && baseLevel < lastLevel) { while (lastBNPos < length) { analysis[lastBNPos].bidiLevel = baseLevel; ++lastBNPos; } } if (BidiDebugEnabled) { BIDI_DEBUG() << "final resolved levels:"; for (int i = 0; i < length; ++i) BIDI_DEBUG() << " " << i << Qt::hex << text[i].unicode() << Qt::dec << (int)analysis[i].bidiLevel; } return true; } const QChar *text; QScriptAnalysis *analysis; int length; char baseLevel; }; } // namespace void QTextEngine::bidiReorder(int numItems, const quint8 *levels, int *visualOrder) { // first find highest and lowest levels quint8 levelLow = 128; quint8 levelHigh = 0; int i = 0; while (i < numItems) { //printf("level = %d\n", r->level); if (levels[i] > levelHigh) levelHigh = levels[i]; if (levels[i] < levelLow) levelLow = levels[i]; i++; } // implements reordering of the line (L2 according to BiDi spec): // L2. From the highest level found in the text to the lowest odd level on each line, // reverse any contiguous sequence of characters that are at that level or higher. // reversing is only done up to the lowest odd level if(!(levelLow%2)) levelLow++; BIDI_DEBUG() << "reorderLine: lineLow = " << (uint)levelLow << ", lineHigh = " << (uint)levelHigh; int count = numItems - 1; for (i = 0; i < numItems; i++) visualOrder[i] = i; while(levelHigh >= levelLow) { int i = 0; while (i < count) { while(i < count && levels[i] < levelHigh) i++; int start = i; while(i <= count && levels[i] >= levelHigh) i++; int end = i-1; if(start != end) { //qDebug() << "reversing from " << start << " to " << end; for(int j = 0; j < (end-start+1)/2; j++) { int tmp = visualOrder[start+j]; visualOrder[start+j] = visualOrder[end-j]; visualOrder[end-j] = tmp; } } i++; } levelHigh--; } // BIDI_DEBUG("visual order is:"); // for (i = 0; i < numItems; i++) // BIDI_DEBUG() << visualOrder[i]; } enum JustificationClass { Justification_Prohibited = 0, // Justification can not be applied after this glyph Justification_Arabic_Space = 1, // This glyph represents a space inside arabic text Justification_Character = 2, // Inter-character justification point follows this glyph Justification_Space = 4, // This glyph represents a blank outside an Arabic run Justification_Arabic_Normal = 7, // Normal Middle-Of-Word glyph that connects to the right (begin) Justification_Arabic_Waw = 8, // Next character is final form of Waw/Ain/Qaf/Feh Justification_Arabic_BaRa = 9, // Next two characters are Ba + Ra/Ya/AlefMaksura Justification_Arabic_Alef = 10, // Next character is final form of Alef/Tah/Lam/Kaf/Gaf Justification_Arabic_HahDal = 11, // Next character is final form of Hah/Dal/Teh Marbuta Justification_Arabic_Seen = 12, // Initial or medial form of Seen/Sad Justification_Arabic_Kashida = 13 // User-inserted Kashida(U+0640) }; #if QT_CONFIG(harfbuzz) /* Adds an inter character justification opportunity after the number or letter character and a space justification opportunity after the space character. */ static inline void qt_getDefaultJustificationOpportunities(const ushort *string, int length, const QGlyphLayout &g, ushort *log_clusters, int spaceAs) { int str_pos = 0; while (str_pos < length) { int glyph_pos = log_clusters[str_pos]; Q_ASSERT(glyph_pos < g.numGlyphs && g.attributes[glyph_pos].clusterStart); uint ucs4 = string[str_pos]; if (QChar::isHighSurrogate(ucs4) && str_pos + 1 < length) { ushort low = string[str_pos + 1]; if (QChar::isLowSurrogate(low)) { ++str_pos; ucs4 = QChar::surrogateToUcs4(ucs4, low); } } // skip whole cluster do { ++str_pos; } while (str_pos < length && log_clusters[str_pos] == glyph_pos); do { ++glyph_pos; } while (glyph_pos < g.numGlyphs && !g.attributes[glyph_pos].clusterStart); --glyph_pos; // justification opportunity at the end of cluster if (Q_LIKELY(QChar::isLetterOrNumber(ucs4))) g.attributes[glyph_pos].justification = Justification_Character; else if (Q_LIKELY(QChar::isSpace(ucs4))) g.attributes[glyph_pos].justification = spaceAs; } } static inline void qt_getJustificationOpportunities(const ushort *string, int length, const QScriptItem &si, const QGlyphLayout &g, ushort *log_clusters) { Q_ASSERT(length > 0 && g.numGlyphs > 0); for (int glyph_pos = 0; glyph_pos < g.numGlyphs; ++glyph_pos) g.attributes[glyph_pos].justification = Justification_Prohibited; int spaceAs; switch (si.analysis.script) { case QChar::Script_Arabic: case QChar::Script_Syriac: case QChar::Script_Nko: case QChar::Script_Mandaic: case QChar::Script_Mongolian: case QChar::Script_PhagsPa: case QChar::Script_Manichaean: case QChar::Script_PsalterPahlavi: // same as default but inter character justification takes precedence spaceAs = Justification_Arabic_Space; break; case QChar::Script_Tibetan: case QChar::Script_Hiragana: case QChar::Script_Katakana: case QChar::Script_Bopomofo: case QChar::Script_Han: // same as default but inter character justification is the only option spaceAs = Justification_Character; break; default: spaceAs = Justification_Space; break; } qt_getDefaultJustificationOpportunities(string, length, g, log_clusters, spaceAs); } #endif // harfbuzz // shape all the items that intersect with the line, taking tab widths into account to find out what text actually fits in the line. void QTextEngine::shapeLine(const QScriptLine &line) { QFixed x; bool first = true; int item = findItem(line.from); if (item == -1) return; const int end = findItem(line.from + line.length + line.trailingSpaces - 1, item); for ( ; item <= end; ++item) { QScriptItem &si = layoutData->items[item]; if (si.analysis.flags == QScriptAnalysis::Tab) { ensureSpace(1); si.width = calculateTabWidth(item, x); } else { shape(item); } if (first && si.position != line.from) { // that means our x position has to be offset QGlyphLayout glyphs = shapedGlyphs(&si); Q_ASSERT(line.from > si.position); for (int i = line.from - si.position - 1; i >= 0; i--) { x -= glyphs.effectiveAdvance(i); } } first = false; x += si.width; } } #if QT_CONFIG(harfbuzz) extern bool qt_useHarfbuzzNG(); // defined in qfontengine.cpp #endif void QTextEngine::shapeText(int item) const { Q_ASSERT(item < layoutData->items.size()); QScriptItem &si = layoutData->items[item]; if (si.num_glyphs) return; si.width = 0; si.glyph_data_offset = layoutData->used; const ushort *string = reinterpret_cast(layoutData->string.constData()) + si.position; const int itemLength = length(item); QString casedString; if (si.analysis.flags && si.analysis.flags <= QScriptAnalysis::SmallCaps) { casedString.resize(itemLength); ushort *uc = reinterpret_cast(casedString.data()); for (int i = 0; i < itemLength; ++i) { uint ucs4 = string[i]; if (QChar::isHighSurrogate(ucs4) && i + 1 < itemLength) { uint low = string[i + 1]; if (QChar::isLowSurrogate(low)) { // high part never changes in simple casing uc[i] = ucs4; ++i; ucs4 = QChar::surrogateToUcs4(ucs4, low); ucs4 = si.analysis.flags == QScriptAnalysis::Lowercase ? QChar::toLower(ucs4) : QChar::toUpper(ucs4); uc[i] = QChar::lowSurrogate(ucs4); } } else { uc[i] = si.analysis.flags == QScriptAnalysis::Lowercase ? QChar::toLower(ucs4) : QChar::toUpper(ucs4); } } string = reinterpret_cast(casedString.constData()); } if (Q_UNLIKELY(!ensureSpace(itemLength))) { Q_UNREACHABLE(); // ### report OOM error somehow return; } QFontEngine *fontEngine = this->fontEngine(si, &si.ascent, &si.descent, &si.leading); bool kerningEnabled; bool letterSpacingIsAbsolute; bool shapingEnabled; QFixed letterSpacing, wordSpacing; #ifndef QT_NO_RAWFONT if (useRawFont) { QTextCharFormat f = format(&si); QFont font = f.font(); kerningEnabled = font.kerning(); shapingEnabled = QFontEngine::scriptRequiresOpenType(QChar::Script(si.analysis.script)) || (font.styleStrategy() & QFont::PreferNoShaping) == 0; wordSpacing = QFixed::fromReal(font.wordSpacing()); letterSpacing = QFixed::fromReal(font.letterSpacing()); letterSpacingIsAbsolute = true; } else #endif { QFont font = this->font(si); kerningEnabled = font.d->kerning; shapingEnabled = QFontEngine::scriptRequiresOpenType(QChar::Script(si.analysis.script)) || (font.d->request.styleStrategy & QFont::PreferNoShaping) == 0; letterSpacingIsAbsolute = font.d->letterSpacingIsAbsolute; letterSpacing = font.d->letterSpacing; wordSpacing = font.d->wordSpacing; if (letterSpacingIsAbsolute && letterSpacing.value()) letterSpacing *= font.d->dpi / qt_defaultDpiY(); } // split up the item into parts that come from different font engines // k * 3 entries, array[k] == index in string, array[k + 1] == index in glyphs, array[k + 2] == engine index QVector itemBoundaries; itemBoundaries.reserve(24); QGlyphLayout initialGlyphs = availableGlyphs(&si); int nGlyphs = initialGlyphs.numGlyphs; if (fontEngine->type() == QFontEngine::Multi || !shapingEnabled) { // ask the font engine to find out which glyphs (as an index in the specific font) // to use for the text in one item. QFontEngine::ShaperFlags shaperFlags = shapingEnabled ? QFontEngine::GlyphIndicesOnly : QFontEngine::ShaperFlag(0); if (!fontEngine->stringToCMap(reinterpret_cast(string), itemLength, &initialGlyphs, &nGlyphs, shaperFlags)) Q_UNREACHABLE(); } if (fontEngine->type() == QFontEngine::Multi) { uint lastEngine = ~0u; for (int i = 0, glyph_pos = 0; i < itemLength; ++i, ++glyph_pos) { const uint engineIdx = initialGlyphs.glyphs[glyph_pos] >> 24; if (lastEngine != engineIdx) { itemBoundaries.append(i); itemBoundaries.append(glyph_pos); itemBoundaries.append(engineIdx); if (engineIdx != 0) { QFontEngine *actualFontEngine = static_cast(fontEngine)->engine(engineIdx); si.ascent = qMax(actualFontEngine->ascent(), si.ascent); si.descent = qMax(actualFontEngine->descent(), si.descent); si.leading = qMax(actualFontEngine->leading(), si.leading); } lastEngine = engineIdx; } if (QChar::isHighSurrogate(string[i]) && i + 1 < itemLength && QChar::isLowSurrogate(string[i + 1])) ++i; } } else { itemBoundaries.append(0); itemBoundaries.append(0); itemBoundaries.append(0); } if (Q_UNLIKELY(!shapingEnabled)) { ushort *log_clusters = logClusters(&si); int glyph_pos = 0; for (int i = 0; i < itemLength; ++i, ++glyph_pos) { log_clusters[i] = glyph_pos; initialGlyphs.attributes[glyph_pos].clusterStart = true; if (QChar::isHighSurrogate(string[i]) && i + 1 < itemLength && QChar::isLowSurrogate(string[i + 1])) { ++i; log_clusters[i] = glyph_pos; } } si.num_glyphs = glyph_pos; #if QT_CONFIG(harfbuzz) } else if (Q_LIKELY(qt_useHarfbuzzNG())) { si.num_glyphs = shapeTextWithHarfbuzzNG(si, string, itemLength, fontEngine, itemBoundaries, kerningEnabled, letterSpacing != 0); #endif } else { si.num_glyphs = shapeTextWithHarfbuzz(si, string, itemLength, fontEngine, itemBoundaries, kerningEnabled); } if (Q_UNLIKELY(si.num_glyphs == 0)) { Q_UNREACHABLE(); // ### report shaping errors somehow return; } layoutData->used += si.num_glyphs; QGlyphLayout glyphs = shapedGlyphs(&si); #if QT_CONFIG(harfbuzz) if (Q_LIKELY(qt_useHarfbuzzNG())) qt_getJustificationOpportunities(string, itemLength, si, glyphs, logClusters(&si)); #endif if (letterSpacing != 0) { for (int i = 1; i < si.num_glyphs; ++i) { if (glyphs.attributes[i].clusterStart) { if (letterSpacingIsAbsolute) glyphs.advances[i - 1] += letterSpacing; else { QFixed &advance = glyphs.advances[i - 1]; advance += (letterSpacing - 100) * advance / 100; } } } if (letterSpacingIsAbsolute) glyphs.advances[si.num_glyphs - 1] += letterSpacing; else { QFixed &advance = glyphs.advances[si.num_glyphs - 1]; advance += (letterSpacing - 100) * advance / 100; } } if (wordSpacing != 0) { for (int i = 0; i < si.num_glyphs; ++i) { if (glyphs.attributes[i].justification == Justification_Space || glyphs.attributes[i].justification == Justification_Arabic_Space) { // word spacing only gets added once to a consecutive run of spaces (see CSS spec) if (i + 1 == si.num_glyphs ||(glyphs.attributes[i+1].justification != Justification_Space && glyphs.attributes[i+1].justification != Justification_Arabic_Space)) glyphs.advances[i] += wordSpacing; } } } for (int i = 0; i < si.num_glyphs; ++i) si.width += glyphs.advances[i] * !glyphs.attributes[i].dontPrint; } #if QT_CONFIG(harfbuzz) QT_BEGIN_INCLUDE_NAMESPACE #include "qharfbuzzng_p.h" QT_END_INCLUDE_NAMESPACE int QTextEngine::shapeTextWithHarfbuzzNG(const QScriptItem &si, const ushort *string, int itemLength, QFontEngine *fontEngine, const QVector &itemBoundaries, bool kerningEnabled, bool hasLetterSpacing) const { uint glyphs_shaped = 0; hb_buffer_t *buffer = hb_buffer_create(); hb_buffer_set_unicode_funcs(buffer, hb_qt_get_unicode_funcs()); hb_buffer_pre_allocate(buffer, itemLength); if (Q_UNLIKELY(!hb_buffer_allocation_successful(buffer))) { hb_buffer_destroy(buffer); return 0; } hb_segment_properties_t props = HB_SEGMENT_PROPERTIES_DEFAULT; props.direction = si.analysis.bidiLevel % 2 ? HB_DIRECTION_RTL : HB_DIRECTION_LTR; QChar::Script script = QChar::Script(si.analysis.script); props.script = hb_qt_script_to_script(script); // ### props.language = hb_language_get_default_for_script(props.script); for (int k = 0; k < itemBoundaries.size(); k += 3) { const uint item_pos = itemBoundaries[k]; const uint item_length = (k + 4 < itemBoundaries.size() ? itemBoundaries[k + 3] : itemLength) - item_pos; const uint engineIdx = itemBoundaries[k + 2]; QFontEngine *actualFontEngine = fontEngine->type() != QFontEngine::Multi ? fontEngine : static_cast(fontEngine)->engine(engineIdx); // prepare buffer hb_buffer_clear_contents(buffer); hb_buffer_add_utf16(buffer, reinterpret_cast(string) + item_pos, item_length, 0, item_length); #if defined(Q_OS_DARWIN) // ### temporary workaround for QTBUG-38113 // CoreText throws away the PDF token, while the OpenType backend will replace it with // a zero-advance glyph. This becomes a real issue when PDF is the last character, // since it gets treated like if it were a grapheme extender, so we // temporarily replace it with some visible grapheme starter. bool endsWithPDF = actualFontEngine->type() == QFontEngine::Mac && string[item_pos + item_length - 1] == 0x202c; if (Q_UNLIKELY(endsWithPDF)) { uint num_glyphs; hb_glyph_info_t *infos = hb_buffer_get_glyph_infos(buffer, &num_glyphs); infos[num_glyphs - 1].codepoint = '.'; } #endif hb_buffer_set_segment_properties(buffer, &props); hb_buffer_guess_segment_properties(buffer); uint buffer_flags = HB_BUFFER_FLAG_DEFAULT; // Symbol encoding used to encode various crap in the 32..255 character code range, // and thus might override U+00AD [SHY]; avoid hiding default ignorables if (Q_UNLIKELY(actualFontEngine->symbol)) buffer_flags |= HB_BUFFER_FLAG_PRESERVE_DEFAULT_IGNORABLES; hb_buffer_set_flags(buffer, hb_buffer_flags_t(buffer_flags)); // shape { hb_font_t *hb_font = hb_qt_font_get_for_engine(actualFontEngine); Q_ASSERT(hb_font); hb_qt_font_set_use_design_metrics(hb_font, option.useDesignMetrics() ? uint(QFontEngine::DesignMetrics) : 0); // ### // Ligatures are incompatible with custom letter spacing, so when a letter spacing is set, // we disable them for writing systems where they are purely cosmetic. bool scriptRequiresOpenType = ((script >= QChar::Script_Syriac && script <= QChar::Script_Sinhala) || script == QChar::Script_Khmer || script == QChar::Script_Nko); bool dontLigate = hasLetterSpacing && !scriptRequiresOpenType; const hb_feature_t features[5] = { { HB_TAG('k','e','r','n'), !!kerningEnabled, 0, uint(-1) }, { HB_TAG('l','i','g','a'), !dontLigate, 0, uint(-1) }, { HB_TAG('c','l','i','g'), !dontLigate, 0, uint(-1) }, { HB_TAG('d','l','i','g'), !dontLigate, 0, uint(-1) }, { HB_TAG('h','l','i','g'), !dontLigate, 0, uint(-1) } }; const int num_features = dontLigate ? 5 : 1; const char *const *shaper_list = nullptr; #if defined(Q_OS_DARWIN) // What's behind QFontEngine::FaceData::user_data isn't compatible between different font engines // - specifically functions in hb-coretext.cc would run into undefined behavior with data // from non-CoreText engine. The other shapers works with that engine just fine. if (actualFontEngine->type() != QFontEngine::Mac) { static const char *s_shaper_list_without_coretext[] = { "graphite2", "ot", "fallback", nullptr }; shaper_list = s_shaper_list_without_coretext; } #endif bool shapedOk = hb_shape_full(hb_font, buffer, features, num_features, shaper_list); if (Q_UNLIKELY(!shapedOk)) { hb_buffer_destroy(buffer); return 0; } if (Q_UNLIKELY(HB_DIRECTION_IS_BACKWARD(props.direction))) hb_buffer_reverse(buffer); } const uint num_glyphs = hb_buffer_get_length(buffer); // ensure we have enough space for shaped glyphs and metrics if (Q_UNLIKELY(num_glyphs == 0 || !ensureSpace(glyphs_shaped + num_glyphs))) { hb_buffer_destroy(buffer); return 0; } // fetch the shaped glyphs and metrics QGlyphLayout g = availableGlyphs(&si).mid(glyphs_shaped, num_glyphs); ushort *log_clusters = logClusters(&si) + item_pos; hb_glyph_info_t *infos = hb_buffer_get_glyph_infos(buffer, 0); hb_glyph_position_t *positions = hb_buffer_get_glyph_positions(buffer, 0); uint str_pos = 0; uint last_cluster = ~0u; uint last_glyph_pos = glyphs_shaped; for (uint i = 0; i < num_glyphs; ++i, ++infos, ++positions) { g.glyphs[i] = infos->codepoint; g.advances[i] = QFixed::fromFixed(positions->x_advance); g.offsets[i].x = QFixed::fromFixed(positions->x_offset); g.offsets[i].y = QFixed::fromFixed(positions->y_offset); uint cluster = infos->cluster; if (Q_LIKELY(last_cluster != cluster)) { g.attributes[i].clusterStart = true; // fix up clusters so that the cluster indices will be monotonic // and thus we never return out-of-order indices while (last_cluster++ < cluster && str_pos < item_length) log_clusters[str_pos++] = last_glyph_pos; last_glyph_pos = i + glyphs_shaped; last_cluster = cluster; // hide characters that should normally be invisible switch (string[item_pos + str_pos]) { case QChar::LineFeed: case 0x000c: // FormFeed case QChar::CarriageReturn: case QChar::LineSeparator: case QChar::ParagraphSeparator: g.attributes[i].dontPrint = true; break; case QChar::SoftHyphen: if (!actualFontEngine->symbol) { // U+00AD [SOFT HYPHEN] is a default ignorable codepoint, // so we replace its glyph and metrics with ones for // U+002D [HYPHEN-MINUS] and make it visible if it appears at line-break g.glyphs[i] = actualFontEngine->glyphIndex('-'); if (Q_LIKELY(g.glyphs[i] != 0)) { QGlyphLayout tmp = g.mid(i, 1); actualFontEngine->recalcAdvances(&tmp, { }); } g.attributes[i].dontPrint = true; } break; default: break; } } } while (str_pos < item_length) log_clusters[str_pos++] = last_glyph_pos; #if defined(Q_OS_DARWIN) if (Q_UNLIKELY(endsWithPDF)) { int last_glyph_idx = num_glyphs - 1; g.glyphs[last_glyph_idx] = 0xffff; g.advances[last_glyph_idx] = QFixed(); g.offsets[last_glyph_idx].x = QFixed(); g.offsets[last_glyph_idx].y = QFixed(); g.attributes[last_glyph_idx].clusterStart = true; g.attributes[last_glyph_idx].dontPrint = true; log_clusters[item_length - 1] = glyphs_shaped + last_glyph_idx; } #endif if (Q_UNLIKELY(engineIdx != 0)) { for (quint32 i = 0; i < num_glyphs; ++i) g.glyphs[i] |= (engineIdx << 24); } #ifdef Q_OS_DARWIN if (actualFontEngine->type() == QFontEngine::Mac) { if (actualFontEngine->fontDef.stretch != 100 && actualFontEngine->fontDef.stretch != QFont::AnyStretch) { QFixed stretch = QFixed(int(actualFontEngine->fontDef.stretch)) / QFixed(100); for (uint i = 0; i < num_glyphs; ++i) g.advances[i] *= stretch; } } #endif if (!actualFontEngine->supportsSubPixelPositions() || (actualFontEngine->fontDef.styleStrategy & QFont::ForceIntegerMetrics)) { for (uint i = 0; i < num_glyphs; ++i) g.advances[i] = g.advances[i].round(); } glyphs_shaped += num_glyphs; } hb_buffer_destroy(buffer); return glyphs_shaped; } #endif // harfbuzz QT_BEGIN_INCLUDE_NAMESPACE #include QT_END_INCLUDE_NAMESPACE Q_STATIC_ASSERT(sizeof(HB_Glyph) == sizeof(glyph_t)); Q_STATIC_ASSERT(sizeof(HB_Fixed) == sizeof(QFixed)); Q_STATIC_ASSERT(sizeof(HB_FixedPoint) == sizeof(QFixedPoint)); static inline void moveGlyphData(const QGlyphLayout &destination, const QGlyphLayout &source, int num) { if (num > 0 && destination.glyphs != source.glyphs) memmove(destination.glyphs, source.glyphs, num * sizeof(glyph_t)); } int QTextEngine::shapeTextWithHarfbuzz(const QScriptItem &si, const ushort *string, int itemLength, QFontEngine *fontEngine, const QVector &itemBoundaries, bool kerningEnabled) const { HB_ShaperItem entire_shaper_item; memset(&entire_shaper_item, 0, sizeof(entire_shaper_item)); entire_shaper_item.string = reinterpret_cast(string); entire_shaper_item.stringLength = itemLength; entire_shaper_item.item.script = script_to_hbscript(si.analysis.script); entire_shaper_item.item.pos = 0; entire_shaper_item.item.length = itemLength; entire_shaper_item.item.bidiLevel = si.analysis.bidiLevel; entire_shaper_item.shaperFlags = 0; if (!kerningEnabled) entire_shaper_item.shaperFlags |= HB_ShaperFlag_NoKerning; if (option.useDesignMetrics()) entire_shaper_item.shaperFlags |= HB_ShaperFlag_UseDesignMetrics; // ensure we are not asserting in HB_HeuristicSetGlyphAttributes() entire_shaper_item.num_glyphs = 0; for (int i = 0; i < itemLength; ++i, ++entire_shaper_item.num_glyphs) { if (QChar::isHighSurrogate(string[i]) && i + 1 < itemLength && QChar::isLowSurrogate(string[i + 1])) ++i; } int remaining_glyphs = entire_shaper_item.num_glyphs; int glyph_pos = 0; // for each item shape using harfbuzz and store the results in our layoutData's glyphs array. for (int k = 0; k < itemBoundaries.size(); k += 3) { HB_ShaperItem shaper_item = entire_shaper_item; shaper_item.item.pos = itemBoundaries[k]; if (k + 4 < itemBoundaries.size()) { shaper_item.item.length = itemBoundaries[k + 3] - shaper_item.item.pos; shaper_item.num_glyphs = itemBoundaries[k + 4] - itemBoundaries[k + 1]; } else { // last combo in the list, avoid out of bounds access. shaper_item.item.length -= shaper_item.item.pos - entire_shaper_item.item.pos; shaper_item.num_glyphs -= itemBoundaries[k + 1]; } shaper_item.initialGlyphCount = shaper_item.num_glyphs; if (shaper_item.num_glyphs < shaper_item.item.length) shaper_item.num_glyphs = shaper_item.item.length; uint engineIdx = itemBoundaries[k + 2]; QFontEngine *actualFontEngine = fontEngine; if (fontEngine->type() == QFontEngine::Multi) { actualFontEngine = static_cast(fontEngine)->engine(engineIdx); if ((si.analysis.bidiLevel % 2) == 0) shaper_item.glyphIndicesPresent = true; } shaper_item.font = (HB_Font)actualFontEngine->harfbuzzFont(); shaper_item.face = (HB_Face)actualFontEngine->harfbuzzFace(); remaining_glyphs -= shaper_item.initialGlyphCount; QVarLengthArray hbGlyphAttributes; do { if (!ensureSpace(glyph_pos + shaper_item.num_glyphs + remaining_glyphs)) return 0; if (hbGlyphAttributes.size() < int(shaper_item.num_glyphs)) { hbGlyphAttributes.resize(shaper_item.num_glyphs); memset(hbGlyphAttributes.data(), 0, hbGlyphAttributes.size() * sizeof(HB_GlyphAttributes)); } const QGlyphLayout g = availableGlyphs(&si).mid(glyph_pos); if (fontEngine->type() == QFontEngine::Multi && shaper_item.num_glyphs > shaper_item.item.length) moveGlyphData(g.mid(shaper_item.num_glyphs), g.mid(shaper_item.initialGlyphCount), remaining_glyphs); shaper_item.glyphs = reinterpret_cast(g.glyphs); shaper_item.advances = reinterpret_cast(g.advances); shaper_item.offsets = reinterpret_cast(g.offsets); shaper_item.attributes = hbGlyphAttributes.data(); if (engineIdx != 0 && shaper_item.glyphIndicesPresent) { for (quint32 i = 0; i < shaper_item.initialGlyphCount; ++i) shaper_item.glyphs[i] &= 0x00ffffff; } shaper_item.log_clusters = logClusters(&si) + shaper_item.item.pos - entire_shaper_item.item.pos; } while (!qShapeItem(&shaper_item)); // this does the actual shaping via harfbuzz. QGlyphLayout g = availableGlyphs(&si).mid(glyph_pos, shaper_item.num_glyphs); if (fontEngine->type() == QFontEngine::Multi) moveGlyphData(g.mid(shaper_item.num_glyphs), g.mid(shaper_item.initialGlyphCount), remaining_glyphs); for (quint32 i = 0; i < shaper_item.num_glyphs; ++i) { HB_GlyphAttributes hbAttrs = hbGlyphAttributes.at(i); QGlyphAttributes &attrs = g.attributes[i]; attrs.clusterStart = hbAttrs.clusterStart; attrs.dontPrint = hbAttrs.dontPrint; attrs.justification = hbAttrs.justification; } for (quint32 i = 0; i < shaper_item.item.length; ++i) { // Workaround wrong log_clusters for surrogates (i.e. QTBUG-39875) if (shaper_item.log_clusters[i] >= shaper_item.num_glyphs) shaper_item.log_clusters[i] = shaper_item.num_glyphs - 1; shaper_item.log_clusters[i] += glyph_pos; } if (kerningEnabled && !shaper_item.kerning_applied) actualFontEngine->doKerning(&g, option.useDesignMetrics() ? QFontEngine::DesignMetrics : QFontEngine::ShaperFlags{}); if (engineIdx != 0) { for (quint32 i = 0; i < shaper_item.num_glyphs; ++i) g.glyphs[i] |= (engineIdx << 24); } glyph_pos += shaper_item.num_glyphs; } return glyph_pos; } void QTextEngine::init(QTextEngine *e) { e->ignoreBidi = false; e->cacheGlyphs = false; e->forceJustification = false; e->visualMovement = false; e->delayDecorations = false; e->layoutData = 0; e->minWidth = 0; e->maxWidth = 0; e->specialData = 0; e->stackEngine = false; #ifndef QT_NO_RAWFONT e->useRawFont = false; #endif } QTextEngine::QTextEngine() { init(this); } QTextEngine::QTextEngine(const QString &str, const QFont &f) : text(str), fnt(f) { init(this); } QTextEngine::~QTextEngine() { if (!stackEngine) delete layoutData; delete specialData; resetFontEngineCache(); } const QCharAttributes *QTextEngine::attributes() const { if (layoutData && layoutData->haveCharAttributes) return (QCharAttributes *) layoutData->memory; itemize(); if (! ensureSpace(layoutData->string.length())) return NULL; QVarLengthArray scriptItems(layoutData->items.size()); for (int i = 0; i < layoutData->items.size(); ++i) { const QScriptItem &si = layoutData->items.at(i); scriptItems[i].position = si.position; scriptItems[i].script = si.analysis.script; } QUnicodeTools::initCharAttributes(reinterpret_cast(layoutData->string.constData()), layoutData->string.length(), scriptItems.data(), scriptItems.size(), (QCharAttributes *)layoutData->memory, QUnicodeTools::CharAttributeOptions(QUnicodeTools::DefaultOptionsCompat | QUnicodeTools::HangulLineBreakTailoring)); layoutData->haveCharAttributes = true; return (QCharAttributes *) layoutData->memory; } void QTextEngine::shape(int item) const { auto &li = layoutData->items[item]; if (li.analysis.flags == QScriptAnalysis::Object) { ensureSpace(1); if (block.docHandle()) { docLayout()->resizeInlineObject(QTextInlineObject(item, const_cast(this)), li.position + block.position(), format(&li)); } // fix log clusters to point to the previous glyph, as the object doesn't have a glyph of it's own. // This is required so that all entries in the array get initialized and are ordered correctly. if (layoutData->logClustersPtr) { ushort *lc = logClusters(&li); *lc = (lc != layoutData->logClustersPtr) ? lc[-1] : 0; } } else if (li.analysis.flags == QScriptAnalysis::Tab) { // set up at least the ascent/descent/leading of the script item for the tab fontEngine(li, &li.ascent, &li.descent, &li.leading); // see the comment above if (layoutData->logClustersPtr) { ushort *lc = logClusters(&li); *lc = (lc != layoutData->logClustersPtr) ? lc[-1] : 0; } } else { shapeText(item); } } static inline void releaseCachedFontEngine(QFontEngine *fontEngine) { if (fontEngine && !fontEngine->ref.deref()) delete fontEngine; } void QTextEngine::resetFontEngineCache() { releaseCachedFontEngine(feCache.prevFontEngine); releaseCachedFontEngine(feCache.prevScaledFontEngine); feCache.reset(); } void QTextEngine::invalidate() { freeMemory(); minWidth = 0; maxWidth = 0; resetFontEngineCache(); } void QTextEngine::clearLineData() { lines.clear(); } void QTextEngine::validate() const { if (layoutData) return; layoutData = new LayoutData(); if (block.docHandle()) { layoutData->string = block.text(); const bool nextBlockValid = block.next().isValid(); if (!nextBlockValid && option.flags() & QTextOption::ShowDocumentTerminator) { layoutData->string += QChar(0xA7); } else if (option.flags() & QTextOption::ShowLineAndParagraphSeparators) { layoutData->string += QLatin1Char(nextBlockValid ? 0xb6 : 0x20); } } else { layoutData->string = text; } if (specialData && specialData->preeditPosition != -1) layoutData->string.insert(specialData->preeditPosition, specialData->preeditText); } void QTextEngine::itemize() const { validate(); if (layoutData->items.size()) return; int length = layoutData->string.length(); if (!length) return; const ushort *string = reinterpret_cast(layoutData->string.unicode()); bool rtl = isRightToLeft(); QVarLengthArray scriptAnalysis(length); QScriptAnalysis *analysis = scriptAnalysis.data(); QBidiAlgorithm bidi(layoutData->string.constData(), analysis, length, rtl); layoutData->hasBidi = bidi.process(); { QVarLengthArray scripts(length); QUnicodeTools::initScripts(string, length, scripts.data()); for (int i = 0; i < length; ++i) analysis[i].script = scripts.at(i); } const ushort *uc = string; const ushort *e = uc + length; while (uc < e) { switch (*uc) { case QChar::ObjectReplacementCharacter: analysis->flags = QScriptAnalysis::Object; break; case QChar::LineSeparator: analysis->flags = QScriptAnalysis::LineOrParagraphSeparator; if (option.flags() & QTextOption::ShowLineAndParagraphSeparators) { const int offset = uc - string; layoutData->string.detach(); string = reinterpret_cast(layoutData->string.unicode()); uc = string + offset; e = string + length; *const_cast(uc) = 0x21B5; // visual line separator } break; case QChar::Tabulation: analysis->flags = QScriptAnalysis::Tab; analysis->bidiLevel = bidi.baseLevel; break; case QChar::Space: case QChar::Nbsp: if (option.flags() & QTextOption::ShowTabsAndSpaces) { analysis->flags = (*uc == QChar::Space) ? QScriptAnalysis::Space : QScriptAnalysis::Nbsp; break; } Q_FALLTHROUGH(); default: analysis->flags = QScriptAnalysis::None; break; } #if !QT_CONFIG(harfbuzz) analysis->script = hbscript_to_script(script_to_hbscript(analysis->script)); #endif ++uc; ++analysis; } if (option.flags() & QTextOption::ShowLineAndParagraphSeparators) { (analysis-1)->flags = QScriptAnalysis::LineOrParagraphSeparator; // to exclude it from width } #if QT_CONFIG(harfbuzz) analysis = scriptAnalysis.data(); if (!qt_useHarfbuzzNG()) { for (int i = 0; i < length; ++i) analysis[i].script = hbscript_to_script(script_to_hbscript(analysis[i].script)); } #endif Itemizer itemizer(layoutData->string, scriptAnalysis.data(), layoutData->items); const QTextDocumentPrivate *p = block.docHandle(); if (p) { SpecialData *s = specialData; QTextDocumentPrivate::FragmentIterator it = p->find(block.position()); QTextDocumentPrivate::FragmentIterator end = p->find(block.position() + block.length() - 1); // -1 to omit the block separator char int format = it.value()->format; int prevPosition = 0; int position = prevPosition; while (1) { const QTextFragmentData * const frag = it.value(); if (it == end || format != frag->format) { if (s && position >= s->preeditPosition) { position += s->preeditText.length(); s = 0; } Q_ASSERT(position <= length); QFont::Capitalization capitalization = formatCollection()->charFormat(format).hasProperty(QTextFormat::FontCapitalization) ? formatCollection()->charFormat(format).fontCapitalization() : formatCollection()->defaultFont().capitalization(); itemizer.generate(prevPosition, position - prevPosition, capitalization); if (it == end) { if (position < length) itemizer.generate(position, length - position, capitalization); break; } format = frag->format; prevPosition = position; } position += frag->size_array[0]; ++it; } } else { #ifndef QT_NO_RAWFONT if (useRawFont && specialData) { int lastIndex = 0; for (int i = 0; i < specialData->formats.size(); ++i) { const QTextLayout::FormatRange &range = specialData->formats.at(i); const QTextCharFormat &format = range.format; if (format.hasProperty(QTextFormat::FontCapitalization)) { itemizer.generate(lastIndex, range.start - lastIndex, QFont::MixedCase); itemizer.generate(range.start, range.length, format.fontCapitalization()); lastIndex = range.start + range.length; } } itemizer.generate(lastIndex, length - lastIndex, QFont::MixedCase); } else #endif itemizer.generate(0, length, static_cast (fnt.d->capital)); } addRequiredBoundaries(); resolveFormats(); } bool QTextEngine::isRightToLeft() const { switch (option.textDirection()) { case Qt::LeftToRight: return false; case Qt::RightToLeft: return true; default: break; } if (!layoutData) itemize(); // this places the cursor in the right position depending on the keyboard layout if (layoutData->string.isEmpty()) return QGuiApplication::inputMethod()->inputDirection() == Qt::RightToLeft; return layoutData->string.isRightToLeft(); } int QTextEngine::findItem(int strPos, int firstItem) const { itemize(); if (strPos < 0 || strPos >= layoutData->string.size() || firstItem < 0) return -1; int left = firstItem + 1; int right = layoutData->items.size()-1; while(left <= right) { int middle = ((right-left)/2)+left; if (strPos > layoutData->items.at(middle).position) left = middle+1; else if (strPos < layoutData->items.at(middle).position) right = middle-1; else { return middle; } } return right; } QFixed QTextEngine::width(int from, int len) const { itemize(); QFixed w = 0; // qDebug("QTextEngine::width(from = %d, len = %d), numItems=%d, strleng=%d", from, len, items.size(), string.length()); for (int i = 0; i < layoutData->items.size(); i++) { const QScriptItem *si = layoutData->items.constData() + i; int pos = si->position; int ilen = length(i); // qDebug("item %d: from %d len %d", i, pos, ilen); if (pos >= from + len) break; if (pos + ilen > from) { if (!si->num_glyphs) shape(i); if (si->analysis.flags == QScriptAnalysis::Object) { w += si->width; continue; } else if (si->analysis.flags == QScriptAnalysis::Tab) { w += calculateTabWidth(i, w); continue; } QGlyphLayout glyphs = shapedGlyphs(si); unsigned short *logClusters = this->logClusters(si); // fprintf(stderr, " logclusters:"); // for (int k = 0; k < ilen; k++) // fprintf(stderr, " %d", logClusters[k]); // fprintf(stderr, "\n"); // do the simple thing for now and give the first glyph in a cluster the full width, all other ones 0. int charFrom = from - pos; if (charFrom < 0) charFrom = 0; int glyphStart = logClusters[charFrom]; if (charFrom > 0 && logClusters[charFrom-1] == glyphStart) while (charFrom < ilen && logClusters[charFrom] == glyphStart) charFrom++; if (charFrom < ilen) { glyphStart = logClusters[charFrom]; int charEnd = from + len - 1 - pos; if (charEnd >= ilen) charEnd = ilen-1; int glyphEnd = logClusters[charEnd]; while (charEnd < ilen && logClusters[charEnd] == glyphEnd) charEnd++; glyphEnd = (charEnd == ilen) ? si->num_glyphs : logClusters[charEnd]; // qDebug("char: start=%d end=%d / glyph: start = %d, end = %d", charFrom, charEnd, glyphStart, glyphEnd); for (int i = glyphStart; i < glyphEnd; i++) w += glyphs.advances[i] * !glyphs.attributes[i].dontPrint; } } } // qDebug(" --> w= %d ", w); return w; } glyph_metrics_t QTextEngine::boundingBox(int from, int len) const { itemize(); glyph_metrics_t gm; for (int i = 0; i < layoutData->items.size(); i++) { const QScriptItem *si = layoutData->items.constData() + i; int pos = si->position; int ilen = length(i); if (pos > from + len) break; if (pos + ilen > from) { if (!si->num_glyphs) shape(i); if (si->analysis.flags == QScriptAnalysis::Object) { gm.width += si->width; continue; } else if (si->analysis.flags == QScriptAnalysis::Tab) { gm.width += calculateTabWidth(i, gm.width); continue; } unsigned short *logClusters = this->logClusters(si); QGlyphLayout glyphs = shapedGlyphs(si); // do the simple thing for now and give the first glyph in a cluster the full width, all other ones 0. int charFrom = from - pos; if (charFrom < 0) charFrom = 0; int glyphStart = logClusters[charFrom]; if (charFrom > 0 && logClusters[charFrom-1] == glyphStart) while (charFrom < ilen && logClusters[charFrom] == glyphStart) charFrom++; if (charFrom < ilen) { QFontEngine *fe = fontEngine(*si); glyphStart = logClusters[charFrom]; int charEnd = from + len - 1 - pos; if (charEnd >= ilen) charEnd = ilen-1; int glyphEnd = logClusters[charEnd]; while (charEnd < ilen && logClusters[charEnd] == glyphEnd) charEnd++; glyphEnd = (charEnd == ilen) ? si->num_glyphs : logClusters[charEnd]; if (glyphStart <= glyphEnd ) { glyph_metrics_t m = fe->boundingBox(glyphs.mid(glyphStart, glyphEnd - glyphStart)); gm.x = qMin(gm.x, m.x + gm.xoff); gm.y = qMin(gm.y, m.y + gm.yoff); gm.width = qMax(gm.width, m.width+gm.xoff); gm.height = qMax(gm.height, m.height+gm.yoff); gm.xoff += m.xoff; gm.yoff += m.yoff; } } } } return gm; } glyph_metrics_t QTextEngine::tightBoundingBox(int from, int len) const { itemize(); glyph_metrics_t gm; for (int i = 0; i < layoutData->items.size(); i++) { const QScriptItem *si = layoutData->items.constData() + i; int pos = si->position; int ilen = length(i); if (pos > from + len) break; if (pos + len > from) { if (!si->num_glyphs) shape(i); unsigned short *logClusters = this->logClusters(si); QGlyphLayout glyphs = shapedGlyphs(si); // do the simple thing for now and give the first glyph in a cluster the full width, all other ones 0. int charFrom = from - pos; if (charFrom < 0) charFrom = 0; int glyphStart = logClusters[charFrom]; if (charFrom > 0 && logClusters[charFrom-1] == glyphStart) while (charFrom < ilen && logClusters[charFrom] == glyphStart) charFrom++; if (charFrom < ilen) { glyphStart = logClusters[charFrom]; int charEnd = from + len - 1 - pos; if (charEnd >= ilen) charEnd = ilen-1; int glyphEnd = logClusters[charEnd]; while (charEnd < ilen && logClusters[charEnd] == glyphEnd) charEnd++; glyphEnd = (charEnd == ilen) ? si->num_glyphs : logClusters[charEnd]; if (glyphStart <= glyphEnd ) { QFontEngine *fe = fontEngine(*si); glyph_metrics_t m = fe->tightBoundingBox(glyphs.mid(glyphStart, glyphEnd - glyphStart)); gm.x = qMin(gm.x, m.x + gm.xoff); gm.y = qMin(gm.y, m.y + gm.yoff); gm.width = qMax(gm.width, m.width+gm.xoff); gm.height = qMax(gm.height, m.height+gm.yoff); gm.xoff += m.xoff; gm.yoff += m.yoff; } } } } return gm; } QFont QTextEngine::font(const QScriptItem &si) const { QFont font = fnt; if (hasFormats()) { QTextCharFormat f = format(&si); font = f.font(); if (block.docHandle() && block.docHandle()->layout()) { // Make sure we get the right dpi on printers QPaintDevice *pdev = block.docHandle()->layout()->paintDevice(); if (pdev) font = QFont(font, pdev); } else { font = font.resolve(fnt); } QTextCharFormat::VerticalAlignment valign = f.verticalAlignment(); if (valign == QTextCharFormat::AlignSuperScript || valign == QTextCharFormat::AlignSubScript) { if (font.pointSize() != -1) font.setPointSize((font.pointSize() * 2) / 3); else font.setPixelSize((font.pixelSize() * 2) / 3); } } if (si.analysis.flags == QScriptAnalysis::SmallCaps) font = font.d->smallCapsFont(); return font; } QTextEngine::FontEngineCache::FontEngineCache() { reset(); } //we cache the previous results of this function, as calling it numerous times with the same effective //input is common (and hard to cache at a higher level) QFontEngine *QTextEngine::fontEngine(const QScriptItem &si, QFixed *ascent, QFixed *descent, QFixed *leading) const { QFontEngine *engine = 0; QFontEngine *scaledEngine = 0; int script = si.analysis.script; QFont font = fnt; #ifndef QT_NO_RAWFONT if (useRawFont && rawFont.isValid()) { if (feCache.prevFontEngine && feCache.prevFontEngine->type() == QFontEngine::Multi && feCache.prevScript == script) { engine = feCache.prevFontEngine; } else { engine = QFontEngineMulti::createMultiFontEngine(rawFont.d->fontEngine, script); feCache.prevFontEngine = engine; feCache.prevScript = script; engine->ref.ref(); if (feCache.prevScaledFontEngine) { releaseCachedFontEngine(feCache.prevScaledFontEngine); feCache.prevScaledFontEngine = 0; } } if (si.analysis.flags == QScriptAnalysis::SmallCaps) { if (feCache.prevScaledFontEngine) { scaledEngine = feCache.prevScaledFontEngine; } else { QFontEngine *scEngine = rawFont.d->fontEngine->cloneWithSize(smallCapsFraction * rawFont.pixelSize()); scEngine->ref.ref(); scaledEngine = QFontEngineMulti::createMultiFontEngine(scEngine, script); scaledEngine->ref.ref(); feCache.prevScaledFontEngine = scaledEngine; // If scEngine is not ref'ed by scaledEngine, make sure it is deallocated and not leaked. if (!scEngine->ref.deref()) delete scEngine; } } } else #endif { if (hasFormats()) { if (feCache.prevFontEngine && feCache.prevPosition == si.position && feCache.prevLength == length(&si) && feCache.prevScript == script) { engine = feCache.prevFontEngine; scaledEngine = feCache.prevScaledFontEngine; } else { QTextCharFormat f = format(&si); font = f.font(); if (block.docHandle() && block.docHandle()->layout()) { // Make sure we get the right dpi on printers QPaintDevice *pdev = block.docHandle()->layout()->paintDevice(); if (pdev) font = QFont(font, pdev); } else { font = font.resolve(fnt); } engine = font.d->engineForScript(script); if (engine) engine->ref.ref(); QTextCharFormat::VerticalAlignment valign = f.verticalAlignment(); if (valign == QTextCharFormat::AlignSuperScript || valign == QTextCharFormat::AlignSubScript) { if (font.pointSize() != -1) font.setPointSize((font.pointSize() * 2) / 3); else font.setPixelSize((font.pixelSize() * 2) / 3); scaledEngine = font.d->engineForScript(script); if (scaledEngine) scaledEngine->ref.ref(); } if (feCache.prevFontEngine) releaseCachedFontEngine(feCache.prevFontEngine); feCache.prevFontEngine = engine; if (feCache.prevScaledFontEngine) releaseCachedFontEngine(feCache.prevScaledFontEngine); feCache.prevScaledFontEngine = scaledEngine; feCache.prevScript = script; feCache.prevPosition = si.position; feCache.prevLength = length(&si); } } else { if (feCache.prevFontEngine && feCache.prevScript == script && feCache.prevPosition == -1) engine = feCache.prevFontEngine; else { engine = font.d->engineForScript(script); if (engine) engine->ref.ref(); if (feCache.prevFontEngine) releaseCachedFontEngine(feCache.prevFontEngine); feCache.prevFontEngine = engine; feCache.prevScript = script; feCache.prevPosition = -1; feCache.prevLength = -1; feCache.prevScaledFontEngine = 0; } } if (si.analysis.flags == QScriptAnalysis::SmallCaps) { QFontPrivate *p = font.d->smallCapsFontPrivate(); scaledEngine = p->engineForScript(script); } } if (ascent) { *ascent = engine->ascent(); *descent = engine->descent(); *leading = engine->leading(); } if (scaledEngine) return scaledEngine; return engine; } struct QJustificationPoint { int type; QFixed kashidaWidth; QGlyphLayout glyph; }; Q_DECLARE_TYPEINFO(QJustificationPoint, Q_PRIMITIVE_TYPE); static void set(QJustificationPoint *point, int type, const QGlyphLayout &glyph, QFontEngine *fe) { point->type = type; point->glyph = glyph; if (type >= Justification_Arabic_Normal) { QChar ch(0x640); // Kashida character glyph_t kashidaGlyph = fe->glyphIndex(ch.unicode()); if (kashidaGlyph != 0) { QGlyphLayout g; g.numGlyphs = 1; g.glyphs = &kashidaGlyph; g.advances = &point->kashidaWidth; fe->recalcAdvances(&g, { }); if (point->kashidaWidth == 0) point->type = Justification_Prohibited; } else { point->type = Justification_Prohibited; point->kashidaWidth = 0; } } } void QTextEngine::justify(const QScriptLine &line) { // qDebug("justify: line.gridfitted = %d, line.justified=%d", line.gridfitted, line.justified); if (line.gridfitted && line.justified) return; if (!line.gridfitted) { // redo layout in device metrics, then adjust const_cast(line).gridfitted = true; } if ((option.alignment() & Qt::AlignHorizontal_Mask) != Qt::AlignJustify) return; itemize(); if (!forceJustification) { int end = line.from + (int)line.length + line.trailingSpaces; if (end == layoutData->string.length()) return; // no justification at end of paragraph if (end && layoutData->items.at(findItem(end - 1)).analysis.flags == QScriptAnalysis::LineOrParagraphSeparator) return; // no justification at the end of an explicitly separated line } // justify line int maxJustify = 0; // don't include trailing white spaces when doing justification int line_length = line.length; const QCharAttributes *a = attributes(); if (! a) return; a += line.from; while (line_length && a[line_length-1].whiteSpace) --line_length; // subtract one char more, as we can't justfy after the last character --line_length; if (line_length <= 0) return; int firstItem = findItem(line.from); int lastItem = findItem(line.from + line_length - 1, firstItem); int nItems = (firstItem >= 0 && lastItem >= firstItem)? (lastItem-firstItem+1) : 0; QVarLengthArray justificationPoints; int nPoints = 0; // qDebug("justifying from %d len %d, firstItem=%d, nItems=%d (%s)", line.from, line_length, firstItem, nItems, layoutData->string.mid(line.from, line_length).toUtf8().constData()); QFixed minKashida = 0x100000; // we need to do all shaping before we go into the next loop, as we there // store pointers to the glyph data that could get reallocated by the shaping // process. for (int i = 0; i < nItems; ++i) { const QScriptItem &si = layoutData->items.at(firstItem + i); if (!si.num_glyphs) shape(firstItem + i); } for (int i = 0; i < nItems; ++i) { const QScriptItem &si = layoutData->items.at(firstItem + i); int kashida_type = Justification_Arabic_Normal; int kashida_pos = -1; int start = qMax(line.from - si.position, 0); int end = qMin(line.from + line_length - (int)si.position, length(firstItem+i)); unsigned short *log_clusters = logClusters(&si); int gs = log_clusters[start]; int ge = (end == length(firstItem+i) ? si.num_glyphs : log_clusters[end]); Q_ASSERT(ge <= si.num_glyphs); const QGlyphLayout g = shapedGlyphs(&si); for (int i = gs; i < ge; ++i) { g.justifications[i].type = QGlyphJustification::JustifyNone; g.justifications[i].nKashidas = 0; g.justifications[i].space_18d6 = 0; justificationPoints.resize(nPoints+3); int justification = g.attributes[i].justification; switch(justification) { case Justification_Prohibited: break; case Justification_Space: case Justification_Arabic_Space: if (kashida_pos >= 0) { // qDebug("kashida position at %d in word", kashida_pos); set(&justificationPoints[nPoints], kashida_type, g.mid(kashida_pos), fontEngine(si)); if (justificationPoints[nPoints].kashidaWidth > 0) { minKashida = qMin(minKashida, justificationPoints[nPoints].kashidaWidth); maxJustify = qMax(maxJustify, justificationPoints[nPoints].type); ++nPoints; } } kashida_pos = -1; kashida_type = Justification_Arabic_Normal; Q_FALLTHROUGH(); case Justification_Character: set(&justificationPoints[nPoints++], justification, g.mid(i), fontEngine(si)); maxJustify = qMax(maxJustify, justification); break; case Justification_Arabic_Normal: case Justification_Arabic_Waw: case Justification_Arabic_BaRa: case Justification_Arabic_Alef: case Justification_Arabic_HahDal: case Justification_Arabic_Seen: case Justification_Arabic_Kashida: if (justification >= kashida_type) { kashida_pos = i; kashida_type = justification; } } } if (kashida_pos >= 0) { set(&justificationPoints[nPoints], kashida_type, g.mid(kashida_pos), fontEngine(si)); if (justificationPoints[nPoints].kashidaWidth > 0) { minKashida = qMin(minKashida, justificationPoints[nPoints].kashidaWidth); maxJustify = qMax(maxJustify, justificationPoints[nPoints].type); ++nPoints; } } } QFixed leading = leadingSpaceWidth(line); QFixed need = line.width - line.textWidth - leading; if (need < 0) { // line overflows already! const_cast(line).justified = true; return; } // qDebug("doing justification: textWidth=%x, requested=%x, maxJustify=%d", line.textWidth.value(), line.width.value(), maxJustify); // qDebug(" minKashida=%f, need=%f", minKashida.toReal(), need.toReal()); // distribute in priority order if (maxJustify >= Justification_Arabic_Normal) { while (need >= minKashida) { for (int type = maxJustify; need >= minKashida && type >= Justification_Arabic_Normal; --type) { for (int i = 0; need >= minKashida && i < nPoints; ++i) { if (justificationPoints[i].type == type && justificationPoints[i].kashidaWidth <= need) { justificationPoints[i].glyph.justifications->nKashidas++; // ############ justificationPoints[i].glyph.justifications->space_18d6 += justificationPoints[i].kashidaWidth.value(); need -= justificationPoints[i].kashidaWidth; // qDebug("adding kashida type %d with width %x, neednow %x", type, justificationPoints[i].kashidaWidth, need.value()); } } } } } Q_ASSERT(need >= 0); if (!need) goto end; maxJustify = qMin(maxJustify, int(Justification_Space)); for (int type = maxJustify; need != 0 && type > 0; --type) { int n = 0; for (int i = 0; i < nPoints; ++i) { if (justificationPoints[i].type == type) ++n; } // qDebug("number of points for justification type %d: %d", type, n); if (!n) continue; for (int i = 0; i < nPoints; ++i) { if (justificationPoints[i].type == type) { QFixed add = need/n; // qDebug("adding %x to glyph %x", add.value(), justificationPoints[i].glyph->glyph); justificationPoints[i].glyph.justifications[0].space_18d6 = add.value(); need -= add; --n; } } Q_ASSERT(!need); } end: const_cast(line).justified = true; } void QScriptLine::setDefaultHeight(QTextEngine *eng) { QFont f; QFontEngine *e; if (eng->block.docHandle() && eng->block.docHandle()->layout()) { f = eng->block.charFormat().font(); // Make sure we get the right dpi on printers QPaintDevice *pdev = eng->block.docHandle()->layout()->paintDevice(); if (pdev) f = QFont(f, pdev); e = f.d->engineForScript(QChar::Script_Common); } else { e = eng->fnt.d->engineForScript(QChar::Script_Common); } QFixed other_ascent = e->ascent(); QFixed other_descent = e->descent(); QFixed other_leading = e->leading(); leading = qMax(leading + ascent, other_leading + other_ascent) - qMax(ascent, other_ascent); ascent = qMax(ascent, other_ascent); descent = qMax(descent, other_descent); } QTextEngine::LayoutData::LayoutData() { memory = 0; allocated = 0; memory_on_stack = false; used = 0; hasBidi = false; layoutState = LayoutEmpty; haveCharAttributes = false; logClustersPtr = 0; available_glyphs = 0; } QTextEngine::LayoutData::LayoutData(const QString &str, void **stack_memory, int _allocated) : string(str) { allocated = _allocated; int space_charAttributes = sizeof(QCharAttributes)*string.length()/sizeof(void*) + 1; int space_logClusters = sizeof(unsigned short)*string.length()/sizeof(void*) + 1; available_glyphs = ((int)allocated - space_charAttributes - space_logClusters)*(int)sizeof(void*)/(int)QGlyphLayout::SpaceNeeded; if (available_glyphs < str.length()) { // need to allocate on the heap allocated = 0; memory_on_stack = false; memory = 0; logClustersPtr = 0; } else { memory_on_stack = true; memory = stack_memory; logClustersPtr = (unsigned short *)(memory + space_charAttributes); void *m = memory + space_charAttributes + space_logClusters; glyphLayout = QGlyphLayout(reinterpret_cast(m), str.length()); glyphLayout.clear(); memset(memory, 0, space_charAttributes*sizeof(void *)); } used = 0; hasBidi = false; layoutState = LayoutEmpty; haveCharAttributes = false; } QTextEngine::LayoutData::~LayoutData() { if (!memory_on_stack) free(memory); memory = 0; } bool QTextEngine::LayoutData::reallocate(int totalGlyphs) { Q_ASSERT(totalGlyphs >= glyphLayout.numGlyphs); if (memory_on_stack && available_glyphs >= totalGlyphs) { glyphLayout.grow(glyphLayout.data(), totalGlyphs); return true; } int space_charAttributes = sizeof(QCharAttributes)*string.length()/sizeof(void*) + 1; int space_logClusters = sizeof(unsigned short)*string.length()/sizeof(void*) + 1; int space_glyphs = (totalGlyphs * QGlyphLayout::SpaceNeeded) / sizeof(void *) + 2; int newAllocated = space_charAttributes + space_glyphs + space_logClusters; // These values can be negative if the length of string/glyphs causes overflow, // we can't layout such a long string all at once, so return false here to // indicate there is a failure if (space_charAttributes < 0 || space_logClusters < 0 || space_glyphs < 0 || newAllocated < allocated) { layoutState = LayoutFailed; return false; } void **newMem = (void **)::realloc(memory_on_stack ? 0 : memory, newAllocated*sizeof(void *)); if (!newMem) { layoutState = LayoutFailed; return false; } if (memory_on_stack) memcpy(newMem, memory, allocated*sizeof(void *)); memory = newMem; memory_on_stack = false; void **m = memory; m += space_charAttributes; logClustersPtr = (unsigned short *) m; m += space_logClusters; const int space_preGlyphLayout = space_charAttributes + space_logClusters; if (allocated < space_preGlyphLayout) memset(memory + allocated, 0, (space_preGlyphLayout - allocated)*sizeof(void *)); glyphLayout.grow(reinterpret_cast(m), totalGlyphs); allocated = newAllocated; return true; } // grow to the new size, copying the existing data to the new layout void QGlyphLayout::grow(char *address, int totalGlyphs) { QGlyphLayout oldLayout(address, numGlyphs); QGlyphLayout newLayout(address, totalGlyphs); if (numGlyphs) { // move the existing data memmove(newLayout.attributes, oldLayout.attributes, numGlyphs * sizeof(QGlyphAttributes)); memmove(newLayout.justifications, oldLayout.justifications, numGlyphs * sizeof(QGlyphJustification)); memmove(newLayout.advances, oldLayout.advances, numGlyphs * sizeof(QFixed)); memmove(newLayout.glyphs, oldLayout.glyphs, numGlyphs * sizeof(glyph_t)); } // clear the new data newLayout.clear(numGlyphs); *this = newLayout; } void QTextEngine::freeMemory() { if (!stackEngine) { delete layoutData; layoutData = 0; } else { layoutData->used = 0; layoutData->hasBidi = false; layoutData->layoutState = LayoutEmpty; layoutData->haveCharAttributes = false; layoutData->items.clear(); } if (specialData) specialData->resolvedFormats.clear(); for (int i = 0; i < lines.size(); ++i) { lines[i].justified = 0; lines[i].gridfitted = 0; } } int QTextEngine::formatIndex(const QScriptItem *si) const { if (specialData && !specialData->resolvedFormats.isEmpty()) { QTextFormatCollection *collection = formatCollection(); Q_ASSERT(collection); return collection->indexForFormat(specialData->resolvedFormats.at(si - &layoutData->items.at(0))); } QTextDocumentPrivate *p = block.docHandle(); if (!p) return -1; int pos = si->position; if (specialData && si->position >= specialData->preeditPosition) { if (si->position < specialData->preeditPosition + specialData->preeditText.length()) pos = qMax(qMin(block.length(), specialData->preeditPosition) - 1, 0); else pos -= specialData->preeditText.length(); } QTextDocumentPrivate::FragmentIterator it = p->find(block.position() + pos); return it.value()->format; } QTextCharFormat QTextEngine::format(const QScriptItem *si) const { if (const QTextFormatCollection *collection = formatCollection()) return collection->charFormat(formatIndex(si)); return QTextCharFormat(); } void QTextEngine::addRequiredBoundaries() const { if (specialData) { for (int i = 0; i < specialData->formats.size(); ++i) { const QTextLayout::FormatRange &r = specialData->formats.at(i); setBoundary(r.start); setBoundary(r.start + r.length); //qDebug("adding boundaries %d %d", r.start, r.start+r.length); } } } bool QTextEngine::atWordSeparator(int position) const { const QChar c = layoutData->string.at(position); switch (c.unicode()) { case '.': case ',': case '?': case '!': case '@': case '#': case '$': case ':': case ';': case '-': case '<': case '>': case '[': case ']': case '(': case ')': case '{': case '}': case '=': case '/': case '+': case '%': case '&': case '^': case '*': case '\'': case '"': case '`': case '~': case '|': case '\\': return true; default: break; } return false; } void QTextEngine::setPreeditArea(int position, const QString &preeditText) { if (preeditText.isEmpty()) { if (!specialData) return; if (specialData->formats.isEmpty()) { delete specialData; specialData = 0; } else { specialData->preeditText = QString(); specialData->preeditPosition = -1; } } else { if (!specialData) specialData = new SpecialData; specialData->preeditPosition = position; specialData->preeditText = preeditText; } invalidate(); clearLineData(); } void QTextEngine::setFormats(const QVector &formats) { if (formats.isEmpty()) { if (!specialData) return; if (specialData->preeditText.isEmpty()) { delete specialData; specialData = 0; } else { specialData->formats.clear(); } } else { if (!specialData) { specialData = new SpecialData; specialData->preeditPosition = -1; } specialData->formats = formats; indexFormats(); } invalidate(); clearLineData(); } void QTextEngine::indexFormats() { QTextFormatCollection *collection = formatCollection(); if (!collection) { Q_ASSERT(!block.docHandle()); specialData->formatCollection.reset(new QTextFormatCollection); collection = specialData->formatCollection.data(); } // replace with shared copies for (int i = 0; i < specialData->formats.size(); ++i) { QTextCharFormat &format = specialData->formats[i].format; format = collection->charFormat(collection->indexForFormat(format)); } } /* These two helper functions are used to determine whether we need to insert a ZWJ character between the text that gets truncated and the ellipsis. This is important to get correctly shaped results for arabic text. */ static inline bool nextCharJoins(const QString &string, int pos) { while (pos < string.length() && string.at(pos).category() == QChar::Mark_NonSpacing) ++pos; if (pos == string.length()) return false; QChar::JoiningType joining = string.at(pos).joiningType(); return joining != QChar::Joining_None && joining != QChar::Joining_Transparent; } static inline bool prevCharJoins(const QString &string, int pos) { while (pos > 0 && string.at(pos - 1).category() == QChar::Mark_NonSpacing) --pos; if (pos == 0) return false; QChar::JoiningType joining = string.at(pos - 1).joiningType(); return joining == QChar::Joining_Dual || joining == QChar::Joining_Causing; } static inline bool isRetainableControlCode(QChar c) { return (c.unicode() >= 0x202a && c.unicode() <= 0x202e) // LRE, RLE, PDF, LRO, RLO || (c.unicode() >= 0x200e && c.unicode() <= 0x200f) // LRM, RLM || (c.unicode() >= 0x2066 && c.unicode() <= 0x2069); // LRI, RLI, FSI, PDI } static QString stringMidRetainingBidiCC(const QString &string, const QString &ellidePrefix, const QString &ellideSuffix, int subStringFrom, int subStringTo, int midStart, int midLength) { QString prefix; for (int i=subStringFrom; iwidth(0, layoutData->string.length()).toReal(); if (flags & Qt::TextShowMnemonic) { itemize(); QCharAttributes *attributes = const_cast(this->attributes()); if (!attributes) return QString(); for (int i = 0; i < layoutData->items.size(); ++i) { const QScriptItem &si = layoutData->items.at(i); if (!si.num_glyphs) shape(i); unsigned short *logClusters = this->logClusters(&si); QGlyphLayout glyphs = shapedGlyphs(&si); const int end = si.position + length(&si); for (int i = si.position; i < end - 1; ++i) { if (layoutData->string.at(i) == QLatin1Char('&') && !attributes[i + 1].whiteSpace && attributes[i + 1].graphemeBoundary) { const int gp = logClusters[i - si.position]; glyphs.attributes[gp].dontPrint = true; // emulate grapheme cluster attributes[i] = attributes[i + 1]; memset(attributes + i + 1, 0, sizeof(QCharAttributes)); if (layoutData->string.at(i + 1) == QLatin1Char('&')) ++i; } } } } validate(); const int to = count >= 0 && count <= layoutData->string.length() - from ? from + count : layoutData->string.length(); if (mode == Qt::ElideNone || this->width(from, layoutData->string.length()) <= width || to - from <= 1) return layoutData->string.mid(from, from - to); QFixed ellipsisWidth; QString ellipsisText; { QFontEngine *engine = fnt.d->engineForScript(QChar::Script_Common); QChar ellipsisChar(0x2026); // We only want to use the ellipsis character if it is from the main // font (not one of the fallbacks), since using a fallback font // will affect the metrics of the text, potentially causing it to shift // when it is being elided. if (engine->type() == QFontEngine::Multi) { QFontEngineMulti *multiEngine = static_cast(engine); multiEngine->ensureEngineAt(0); engine = multiEngine->engine(0); } glyph_t glyph = engine->glyphIndex(ellipsisChar.unicode()); QGlyphLayout glyphs; glyphs.numGlyphs = 1; glyphs.glyphs = &glyph; glyphs.advances = &ellipsisWidth; if (glyph != 0) { engine->recalcAdvances(&glyphs, { }); ellipsisText = ellipsisChar; } else { glyph = engine->glyphIndex('.'); if (glyph != 0) { engine->recalcAdvances(&glyphs, { }); ellipsisWidth *= 3; ellipsisText = QStringLiteral("..."); } } } const QFixed availableWidth = width - ellipsisWidth; if (availableWidth < 0) return QString(); const QCharAttributes *attributes = this->attributes(); if (!attributes) return QString(); if (mode == Qt::ElideRight) { QFixed currentWidth; int pos; int nextBreak = from; do { pos = nextBreak; ++nextBreak; while (nextBreak < layoutData->string.length() && !attributes[nextBreak].graphemeBoundary) ++nextBreak; currentWidth += this->width(pos, nextBreak - pos); } while (nextBreak < to && currentWidth < availableWidth); if (nextCharJoins(layoutData->string, pos)) ellipsisText.prepend(QChar(0x200d) /* ZWJ */); return stringMidRetainingBidiCC(layoutData->string, QString(), ellipsisText, from, to, from, pos - from); } else if (mode == Qt::ElideLeft) { QFixed currentWidth; int pos; int nextBreak = to; do { pos = nextBreak; --nextBreak; while (nextBreak > 0 && !attributes[nextBreak].graphemeBoundary) --nextBreak; currentWidth += this->width(nextBreak, pos - nextBreak); } while (nextBreak > from && currentWidth < availableWidth); if (prevCharJoins(layoutData->string, pos)) ellipsisText.append(QChar(0x200d) /* ZWJ */); return stringMidRetainingBidiCC(layoutData->string, ellipsisText, QString(), from, to, pos, to - pos); } else if (mode == Qt::ElideMiddle) { QFixed leftWidth; QFixed rightWidth; int leftPos = from; int nextLeftBreak = from; int rightPos = to; int nextRightBreak = to; do { leftPos = nextLeftBreak; rightPos = nextRightBreak; ++nextLeftBreak; while (nextLeftBreak < layoutData->string.length() && !attributes[nextLeftBreak].graphemeBoundary) ++nextLeftBreak; --nextRightBreak; while (nextRightBreak > from && !attributes[nextRightBreak].graphemeBoundary) --nextRightBreak; leftWidth += this->width(leftPos, nextLeftBreak - leftPos); rightWidth += this->width(nextRightBreak, rightPos - nextRightBreak); } while (nextLeftBreak < to && nextRightBreak > from && leftWidth + rightWidth < availableWidth); if (nextCharJoins(layoutData->string, leftPos)) ellipsisText.prepend(QChar(0x200d) /* ZWJ */); if (prevCharJoins(layoutData->string, rightPos)) ellipsisText.append(QChar(0x200d) /* ZWJ */); return layoutData->string.midRef(from, leftPos - from) + ellipsisText + layoutData->string.midRef(rightPos, to - rightPos); } return layoutData->string.mid(from, to - from); } void QTextEngine::setBoundary(int strPos) const { const int item = findItem(strPos); if (item < 0) return; QScriptItem newItem = layoutData->items.at(item); if (newItem.position != strPos) { newItem.position = strPos; layoutData->items.insert(item + 1, newItem); } } QFixed QTextEngine::calculateTabWidth(int item, QFixed x) const { const QScriptItem &si = layoutData->items[item]; QFixed dpiScale = 1; if (block.docHandle() && block.docHandle()->layout()) { QPaintDevice *pdev = block.docHandle()->layout()->paintDevice(); if (pdev) dpiScale = QFixed::fromReal(pdev->logicalDpiY() / qreal(qt_defaultDpiY())); } else { dpiScale = QFixed::fromReal(fnt.d->dpi / qreal(qt_defaultDpiY())); } QList tabArray = option.tabs(); if (!tabArray.isEmpty()) { if (isRightToLeft()) { // rebase the tabArray positions. auto isLeftOrRightTab = [](const QTextOption::Tab &tab) { return tab.type == QTextOption::LeftTab || tab.type == QTextOption::RightTab; }; const auto cbegin = tabArray.cbegin(); const auto cend = tabArray.cend(); const auto cit = std::find_if(cbegin, cend, isLeftOrRightTab); if (cit != cend) { const int index = std::distance(cbegin, cit); auto iter = tabArray.begin() + index; const auto end = tabArray.end(); while (iter != end) { QTextOption::Tab &tab = *iter; if (tab.type == QTextOption::LeftTab) tab.type = QTextOption::RightTab; else if (tab.type == QTextOption::RightTab) tab.type = QTextOption::LeftTab; ++iter; } } } for (const QTextOption::Tab &tabSpec : qAsConst(tabArray)) { QFixed tab = QFixed::fromReal(tabSpec.position) * dpiScale; if (tab > x) { // this is the tab we need. int tabSectionEnd = layoutData->string.count(); if (tabSpec.type == QTextOption::RightTab || tabSpec.type == QTextOption::CenterTab) { // find next tab to calculate the width required. tab = QFixed::fromReal(tabSpec.position); for (int i=item + 1; i < layoutData->items.count(); i++) { const QScriptItem &item = layoutData->items[i]; if (item.analysis.flags == QScriptAnalysis::TabOrObject) { // found it. tabSectionEnd = item.position; break; } } } else if (tabSpec.type == QTextOption::DelimiterTab) // find delimitor character to calculate the width required tabSectionEnd = qMax(si.position, layoutData->string.indexOf(tabSpec.delimiter, si.position) + 1); if (tabSectionEnd > si.position) { QFixed length; // Calculate the length of text between this tab and the tabSectionEnd for (int i=item; i < layoutData->items.count(); i++) { const QScriptItem &item = layoutData->items.at(i); if (item.position > tabSectionEnd || item.position <= si.position) continue; shape(i); // first, lets make sure relevant text is already shaped if (item.analysis.flags == QScriptAnalysis::Object) { length += item.width; continue; } QGlyphLayout glyphs = this->shapedGlyphs(&item); const int end = qMin(item.position + item.num_glyphs, tabSectionEnd) - item.position; for (int i=0; i < end; i++) length += glyphs.advances[i] * !glyphs.attributes[i].dontPrint; if (end + item.position == tabSectionEnd && tabSpec.type == QTextOption::DelimiterTab) // remove half of matching char length -= glyphs.advances[end] / 2 * !glyphs.attributes[end].dontPrint; } switch (tabSpec.type) { case QTextOption::CenterTab: length /= 2; Q_FALLTHROUGH(); case QTextOption::DelimiterTab: case QTextOption::RightTab: tab = QFixed::fromReal(tabSpec.position) * dpiScale - length; if (tab < x) // default to tab taking no space return QFixed(); break; case QTextOption::LeftTab: break; } } return tab - x; } } } QFixed tab = QFixed::fromReal(option.tabStopDistance()); if (tab <= 0) tab = 80; // default tab *= dpiScale; QFixed nextTabPos = ((x / tab).truncate() + 1) * tab; QFixed tabWidth = nextTabPos - x; return tabWidth; } namespace { class FormatRangeComparatorByStart { const QVector &list; public: FormatRangeComparatorByStart(const QVector &list) : list(list) { } bool operator()(int a, int b) { return list.at(a).start < list.at(b).start; } }; class FormatRangeComparatorByEnd { const QVector &list; public: FormatRangeComparatorByEnd(const QVector &list) : list(list) { } bool operator()(int a, int b) { return list.at(a).start + list.at(a).length < list.at(b).start + list.at(b).length; } }; } void QTextEngine::resolveFormats() const { if (!specialData || specialData->formats.isEmpty()) return; Q_ASSERT(specialData->resolvedFormats.isEmpty()); QTextFormatCollection *collection = formatCollection(); QVector resolvedFormats(layoutData->items.count()); QVarLengthArray formatsSortedByStart; formatsSortedByStart.reserve(specialData->formats.size()); for (int i = 0; i < specialData->formats.size(); ++i) { if (specialData->formats.at(i).length >= 0) formatsSortedByStart.append(i); } QVarLengthArray formatsSortedByEnd = formatsSortedByStart; std::sort(formatsSortedByStart.begin(), formatsSortedByStart.end(), FormatRangeComparatorByStart(specialData->formats)); std::sort(formatsSortedByEnd.begin(), formatsSortedByEnd.end(), FormatRangeComparatorByEnd(specialData->formats)); QVarLengthArray currentFormats; const int *startIt = formatsSortedByStart.constBegin(); const int *endIt = formatsSortedByEnd.constBegin(); for (int i = 0; i < layoutData->items.count(); ++i) { const QScriptItem *si = &layoutData->items.at(i); int end = si->position + length(si); while (startIt != formatsSortedByStart.constEnd() && specialData->formats.at(*startIt).start <= si->position) { currentFormats.insert(std::upper_bound(currentFormats.begin(), currentFormats.end(), *startIt), *startIt); ++startIt; } while (endIt != formatsSortedByEnd.constEnd() && specialData->formats.at(*endIt).start + specialData->formats.at(*endIt).length < end) { int *currentFormatIterator = std::lower_bound(currentFormats.begin(), currentFormats.end(), *endIt); if (*endIt < *currentFormatIterator) currentFormatIterator = currentFormats.end(); currentFormats.remove(currentFormatIterator - currentFormats.begin()); ++endIt; } QTextCharFormat &format = resolvedFormats[i]; if (block.docHandle()) { // when we have a docHandle, formatIndex might still return a valid index based // on the preeditPosition. for all other cases, we cleared the resolved format indices format = collection->charFormat(formatIndex(si)); } if (!currentFormats.isEmpty()) { for (int cur : currentFormats) { const QTextLayout::FormatRange &range = specialData->formats.at(cur); Q_ASSERT(range.start <= si->position && range.start + range.length >= end); format.merge(range.format); } format = collection->charFormat(collection->indexForFormat(format)); // get shared copy } } specialData->resolvedFormats = resolvedFormats; } QFixed QTextEngine::leadingSpaceWidth(const QScriptLine &line) { if (!line.hasTrailingSpaces || (option.flags() & QTextOption::IncludeTrailingSpaces) || !isRightToLeft()) return QFixed(); return width(line.from + line.length, line.trailingSpaces); } QFixed QTextEngine::alignLine(const QScriptLine &line) { QFixed x = 0; justify(line); // if width is QFIXED_MAX that means we used setNumColumns() and that implicitly makes this line left aligned. if (!line.justified && line.width != QFIXED_MAX) { int align = option.alignment(); if (align & Qt::AlignJustify && isRightToLeft()) align = Qt::AlignRight; if (align & Qt::AlignRight) x = line.width - (line.textAdvance); else if (align & Qt::AlignHCenter) x = (line.width - line.textAdvance)/2; } return x; } QFixed QTextEngine::offsetInLigature(const QScriptItem *si, int pos, int max, int glyph_pos) { unsigned short *logClusters = this->logClusters(si); const QGlyphLayout &glyphs = shapedGlyphs(si); int offsetInCluster = 0; for (int i = pos - 1; i >= 0; i--) { if (logClusters[i] == glyph_pos) offsetInCluster++; else break; } // in the case that the offset is inside a (multi-character) glyph, // interpolate the position. if (offsetInCluster > 0) { int clusterLength = 0; for (int i = pos - offsetInCluster; i < max; i++) { if (logClusters[i] == glyph_pos) clusterLength++; else break; } if (clusterLength) return glyphs.advances[glyph_pos] * offsetInCluster / clusterLength; } return 0; } // Scan in logClusters[from..to-1] for glyph_pos int QTextEngine::getClusterLength(unsigned short *logClusters, const QCharAttributes *attributes, int from, int to, int glyph_pos, int *start) { int clusterLength = 0; for (int i = from; i < to; i++) { if (logClusters[i] == glyph_pos && attributes[i].graphemeBoundary) { if (*start < 0) *start = i; clusterLength++; } else if (clusterLength) break; } return clusterLength; } int QTextEngine::positionInLigature(const QScriptItem *si, int end, QFixed x, QFixed edge, int glyph_pos, bool cursorOnCharacter) { unsigned short *logClusters = this->logClusters(si); int clusterStart = -1; int clusterLength = 0; if (si->analysis.script != QChar::Script_Common && si->analysis.script != QChar::Script_Greek && si->analysis.script != QChar::Script_Latin && si->analysis.script != QChar::Script_Hiragana && si->analysis.script != QChar::Script_Katakana && si->analysis.script != QChar::Script_Bopomofo && si->analysis.script != QChar::Script_Han) { if (glyph_pos == -1) return si->position + end; else { int i; for (i = 0; i < end; i++) if (logClusters[i] == glyph_pos) break; return si->position + i; } } if (glyph_pos == -1 && end > 0) glyph_pos = logClusters[end - 1]; else { if (x <= edge) glyph_pos--; } const QCharAttributes *attrs = attributes() + si->position; logClusters = this->logClusters(si); clusterLength = getClusterLength(logClusters, attrs, 0, end, glyph_pos, &clusterStart); if (clusterLength) { const QGlyphLayout &glyphs = shapedGlyphs(si); QFixed glyphWidth = glyphs.effectiveAdvance(glyph_pos); // the approximate width of each individual element of the ligature QFixed perItemWidth = glyphWidth / clusterLength; if (perItemWidth <= 0) return si->position + clusterStart; QFixed left = x > edge ? edge : edge - glyphWidth; int n = ((x - left) / perItemWidth).floor().toInt(); QFixed dist = x - left - n * perItemWidth; int closestItem = dist > (perItemWidth / 2) ? n + 1 : n; if (cursorOnCharacter && closestItem > 0) closestItem--; int pos = clusterStart + closestItem; // Jump to the next grapheme boundary while (pos < end && !attrs[pos].graphemeBoundary) pos++; return si->position + pos; } return si->position + end; } int QTextEngine::previousLogicalPosition(int oldPos) const { const QCharAttributes *attrs = attributes(); int len = block.isValid() ? block.length() - 1 : layoutData->string.length(); Q_ASSERT(len <= layoutData->string.length()); if (!attrs || oldPos <= 0 || oldPos > len) return oldPos; oldPos--; while (oldPos && !attrs[oldPos].graphemeBoundary) oldPos--; return oldPos; } int QTextEngine::nextLogicalPosition(int oldPos) const { const QCharAttributes *attrs = attributes(); int len = block.isValid() ? block.length() - 1 : layoutData->string.length(); Q_ASSERT(len <= layoutData->string.length()); if (!attrs || oldPos < 0 || oldPos >= len) return oldPos; oldPos++; while (oldPos < len && !attrs[oldPos].graphemeBoundary) oldPos++; return oldPos; } int QTextEngine::lineNumberForTextPosition(int pos) { if (!layoutData) itemize(); if (pos == layoutData->string.length() && lines.size()) return lines.size() - 1; for (int i = 0; i < lines.size(); ++i) { const QScriptLine& line = lines[i]; if (line.from + line.length + line.trailingSpaces > pos) return i; } return -1; } std::vector QTextEngine::insertionPointsForLine(int lineNum) { QTextLineItemIterator iterator(this, lineNum); std::vector insertionPoints; insertionPoints.reserve(size_t(iterator.line.length)); bool lastLine = lineNum >= lines.size() - 1; while (!iterator.atEnd()) { const QScriptItem &si = iterator.next(); int end = iterator.itemEnd; if (lastLine && iterator.item == iterator.lastItem) ++end; // the last item in the last line -> insert eol position if (si.analysis.bidiLevel % 2) { for (int i = end - 1; i >= iterator.itemStart; --i) insertionPoints.push_back(i); } else { for (int i = iterator.itemStart; i < end; ++i) insertionPoints.push_back(i); } } return insertionPoints; } int QTextEngine::endOfLine(int lineNum) { const auto insertionPoints = insertionPointsForLine(lineNum); if (insertionPoints.size() > 0) return insertionPoints.back(); return 0; } int QTextEngine::beginningOfLine(int lineNum) { const auto insertionPoints = insertionPointsForLine(lineNum); if (insertionPoints.size() > 0) return insertionPoints.front(); return 0; } int QTextEngine::positionAfterVisualMovement(int pos, QTextCursor::MoveOperation op) { itemize(); bool moveRight = (op == QTextCursor::Right); bool alignRight = isRightToLeft(); if (!layoutData->hasBidi) return moveRight ^ alignRight ? nextLogicalPosition(pos) : previousLogicalPosition(pos); int lineNum = lineNumberForTextPosition(pos); if (lineNum < 0) return pos; const auto insertionPoints = insertionPointsForLine(lineNum); for (size_t i = 0, max = insertionPoints.size(); i < max; ++i) if (pos == insertionPoints[i]) { if (moveRight) { if (i + 1 < max) return insertionPoints[i + 1]; } else { if (i > 0) return insertionPoints[i - 1]; } if (moveRight ^ alignRight) { if (lineNum + 1 < lines.size()) return alignRight ? endOfLine(lineNum + 1) : beginningOfLine(lineNum + 1); } else { if (lineNum > 0) return alignRight ? beginningOfLine(lineNum - 1) : endOfLine(lineNum - 1); } break; } return pos; } void QTextEngine::addItemDecoration(QPainter *painter, const QLineF &line, ItemDecorationList *decorationList) { if (delayDecorations) { decorationList->append(ItemDecoration(line.x1(), line.x2(), line.y1(), painter->pen())); } else { painter->drawLine(line); } } void QTextEngine::addUnderline(QPainter *painter, const QLineF &line) { // qDebug() << "Adding underline:" << line; addItemDecoration(painter, line, &underlineList); } void QTextEngine::addStrikeOut(QPainter *painter, const QLineF &line) { addItemDecoration(painter, line, &strikeOutList); } void QTextEngine::addOverline(QPainter *painter, const QLineF &line) { addItemDecoration(painter, line, &overlineList); } void QTextEngine::drawItemDecorationList(QPainter *painter, const ItemDecorationList &decorationList) { // qDebug() << "Drawing" << decorationList.size() << "decorations"; if (decorationList.isEmpty()) return; for (const ItemDecoration &decoration : decorationList) { painter->setPen(decoration.pen); painter->drawLine(QLineF(decoration.x1, decoration.y, decoration.x2, decoration.y)); } } void QTextEngine::drawDecorations(QPainter *painter) { QPen oldPen = painter->pen(); bool wasCompatiblePainting = painter->renderHints() & QPainter::Qt4CompatiblePainting; if (wasCompatiblePainting) painter->setRenderHint(QPainter::Qt4CompatiblePainting, false); adjustUnderlines(); drawItemDecorationList(painter, underlineList); drawItemDecorationList(painter, strikeOutList); drawItemDecorationList(painter, overlineList); clearDecorations(); if (wasCompatiblePainting) painter->setRenderHint(QPainter::Qt4CompatiblePainting); painter->setPen(oldPen); } void QTextEngine::clearDecorations() { underlineList.clear(); strikeOutList.clear(); overlineList.clear(); } void QTextEngine::adjustUnderlines() { // qDebug() << __PRETTY_FUNCTION__ << underlineList.count() << "underlines"; if (underlineList.isEmpty()) return; ItemDecorationList::iterator start = underlineList.begin(); ItemDecorationList::iterator end = underlineList.end(); ItemDecorationList::iterator it = start; qreal underlinePos = start->y; qreal penWidth = start->pen.widthF(); qreal lastLineEnd = start->x1; while (it != end) { if (qFuzzyCompare(lastLineEnd, it->x1)) { // no gap between underlines underlinePos = qMax(underlinePos, it->y); penWidth = qMax(penWidth, it->pen.widthF()); } else { // gap between this and the last underline adjustUnderlines(start, it, underlinePos, penWidth); start = it; underlinePos = start->y; penWidth = start->pen.widthF(); } lastLineEnd = it->x2; ++it; } adjustUnderlines(start, end, underlinePos, penWidth); } void QTextEngine::adjustUnderlines(ItemDecorationList::iterator start, ItemDecorationList::iterator end, qreal underlinePos, qreal penWidth) { for (ItemDecorationList::iterator it = start; it != end; ++it) { it->y = underlinePos; it->pen.setWidthF(penWidth); } } QStackTextEngine::QStackTextEngine(const QString &string, const QFont &f) : QTextEngine(string, f), _layoutData(string, _memory, MemSize) { stackEngine = true; layoutData = &_layoutData; } QTextItemInt::QTextItemInt(const QScriptItem &si, QFont *font, const QTextCharFormat &format) : charFormat(format), f(font), fontEngine(font->d->engineForScript(si.analysis.script)) { Q_ASSERT(fontEngine); initWithScriptItem(si); } QTextItemInt::QTextItemInt(const QGlyphLayout &g, QFont *font, const QChar *chars_, int numChars, QFontEngine *fe, const QTextCharFormat &format) : charFormat(format), num_chars(numChars), chars(chars_), f(font), glyphs(g), fontEngine(fe) { } // Fix up flags and underlineStyle with given info void QTextItemInt::initWithScriptItem(const QScriptItem &si) { // explicitly initialize flags so that initFontAttributes can be called // multiple times on the same TextItem flags = { }; if (si.analysis.bidiLevel %2) flags |= QTextItem::RightToLeft; ascent = si.ascent; descent = si.descent; if (charFormat.hasProperty(QTextFormat::TextUnderlineStyle)) { underlineStyle = charFormat.underlineStyle(); } else if (charFormat.boolProperty(QTextFormat::FontUnderline) || f->d->underline) { underlineStyle = QTextCharFormat::SingleUnderline; } // compat if (underlineStyle == QTextCharFormat::SingleUnderline) flags |= QTextItem::Underline; if (f->d->overline || charFormat.fontOverline()) flags |= QTextItem::Overline; if (f->d->strikeOut || charFormat.fontStrikeOut()) flags |= QTextItem::StrikeOut; } QTextItemInt QTextItemInt::midItem(QFontEngine *fontEngine, int firstGlyphIndex, int numGlyphs) const { QTextItemInt ti = *this; const int end = firstGlyphIndex + numGlyphs; ti.glyphs = glyphs.mid(firstGlyphIndex, numGlyphs); ti.fontEngine = fontEngine; if (logClusters && chars) { const int logClusterOffset = logClusters[0]; while (logClusters[ti.chars - chars] - logClusterOffset < firstGlyphIndex) ++ti.chars; ti.logClusters += (ti.chars - chars); ti.num_chars = 0; int char_start = ti.chars - chars; while (char_start + ti.num_chars < num_chars && ti.logClusters[ti.num_chars] - logClusterOffset < end) ++ti.num_chars; } return ti; } QTransform qt_true_matrix(qreal w, qreal h, const QTransform &x) { QRectF rect = x.mapRect(QRectF(0, 0, w, h)); return x * QTransform::fromTranslate(-rect.x(), -rect.y()); } glyph_metrics_t glyph_metrics_t::transformed(const QTransform &matrix) const { if (matrix.type() < QTransform::TxTranslate) return *this; glyph_metrics_t m = *this; qreal w = width.toReal(); qreal h = height.toReal(); QTransform xform = qt_true_matrix(w, h, matrix); QRectF rect(0, 0, w, h); rect = xform.mapRect(rect); m.width = QFixed::fromReal(rect.width()); m.height = QFixed::fromReal(rect.height()); QLineF l = xform.map(QLineF(x.toReal(), y.toReal(), xoff.toReal(), yoff.toReal())); m.x = QFixed::fromReal(l.x1()); m.y = QFixed::fromReal(l.y1()); // The offset is relative to the baseline which is why we use dx/dy of the line m.xoff = QFixed::fromReal(l.dx()); m.yoff = QFixed::fromReal(l.dy()); return m; } QTextLineItemIterator::QTextLineItemIterator(QTextEngine *_eng, int _lineNum, const QPointF &pos, const QTextLayout::FormatRange *_selection) : eng(_eng), line(eng->lines[_lineNum]), si(0), lineNum(_lineNum), lineEnd(line.from + line.length), firstItem(eng->findItem(line.from)), lastItem(eng->findItem(lineEnd - 1, firstItem)), nItems((firstItem >= 0 && lastItem >= firstItem)? (lastItem-firstItem+1) : 0), logicalItem(-1), item(-1), visualOrder(nItems), selection(_selection) { x = QFixed::fromReal(pos.x()); x += line.x; x += eng->alignLine(line); QVarLengthArray levels(nItems); for (int i = 0; i < nItems; ++i) levels[i] = eng->layoutData->items.at(i + firstItem).analysis.bidiLevel; QTextEngine::bidiReorder(nItems, levels.data(), visualOrder.data()); eng->shapeLine(line); } QScriptItem &QTextLineItemIterator::next() { x += itemWidth; ++logicalItem; item = visualOrder[logicalItem] + firstItem; itemLength = eng->length(item); si = &eng->layoutData->items[item]; if (!si->num_glyphs) eng->shape(item); itemStart = qMax(line.from, si->position); itemEnd = qMin(lineEnd, si->position + itemLength); if (si->analysis.flags >= QScriptAnalysis::TabOrObject) { glyphsStart = 0; glyphsEnd = 1; itemWidth = si->width; return *si; } unsigned short *logClusters = eng->logClusters(si); QGlyphLayout glyphs = eng->shapedGlyphs(si); glyphsStart = logClusters[itemStart - si->position]; glyphsEnd = (itemEnd == si->position + itemLength) ? si->num_glyphs : logClusters[itemEnd - si->position]; // show soft-hyphen at line-break if (si->position + itemLength >= lineEnd && eng->layoutData->string.at(lineEnd - 1).unicode() == QChar::SoftHyphen) glyphs.attributes[glyphsEnd - 1].dontPrint = false; itemWidth = 0; for (int g = glyphsStart; g < glyphsEnd; ++g) itemWidth += glyphs.effectiveAdvance(g); return *si; } bool QTextLineItemIterator::getSelectionBounds(QFixed *selectionX, QFixed *selectionWidth) const { *selectionX = *selectionWidth = 0; if (!selection) return false; if (si->analysis.flags >= QScriptAnalysis::TabOrObject) { if (si->position >= selection->start + selection->length || si->position + itemLength <= selection->start) return false; *selectionX = x; *selectionWidth = itemWidth; } else { unsigned short *logClusters = eng->logClusters(si); QGlyphLayout glyphs = eng->shapedGlyphs(si); int from = qMax(itemStart, selection->start) - si->position; int to = qMin(itemEnd, selection->start + selection->length) - si->position; if (from >= to) return false; int start_glyph = logClusters[from]; int end_glyph = (to == itemLength) ? si->num_glyphs : logClusters[to]; QFixed soff; QFixed swidth; if (si->analysis.bidiLevel %2) { for (int g = glyphsEnd - 1; g >= end_glyph; --g) soff += glyphs.effectiveAdvance(g); for (int g = end_glyph - 1; g >= start_glyph; --g) swidth += glyphs.effectiveAdvance(g); } else { for (int g = glyphsStart; g < start_glyph; ++g) soff += glyphs.effectiveAdvance(g); for (int g = start_glyph; g < end_glyph; ++g) swidth += glyphs.effectiveAdvance(g); } // If the starting character is in the middle of a ligature, // selection should only contain the right part of that ligature // glyph, so we need to get the width of the left part here and // add it to *selectionX QFixed leftOffsetInLigature = eng->offsetInLigature(si, from, to, start_glyph); *selectionX = x + soff + leftOffsetInLigature; *selectionWidth = swidth - leftOffsetInLigature; // If the ending character is also part of a ligature, swidth does // not contain that part yet, we also need to find out the width of // that left part *selectionWidth += eng->offsetInLigature(si, to, itemLength, end_glyph); } return true; } QT_END_NAMESPACE