/* * Copyright (C) 2000 Lars Knoll (knoll@kde.org) * Copyright (C) 2003, 2004, 2006, 2007, 2008 Apple Inc. All right reserved. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public License * along with this library; see the file COPYING.LIB. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. * */ #ifndef BidiResolver_h #define BidiResolver_h #include "BidiContext.h" #include <wtf/Noncopyable.h> #include <wtf/PassRefPtr.h> #include <wtf/Vector.h> namespace WebCore { template <class Iterator> struct MidpointState { MidpointState() { reset(); } void reset() { numMidpoints = 0; currentMidpoint = 0; betweenMidpoints = false; } // The goal is to reuse the line state across multiple // lines so we just keep an array around for midpoints and never clear it across multiple // lines. We track the number of items and position using the two other variables. Vector<Iterator> midpoints; unsigned numMidpoints; unsigned currentMidpoint; bool betweenMidpoints; }; // The BidiStatus at a given position (typically the end of a line) can // be cached and then used to restart bidi resolution at that position. struct BidiStatus { BidiStatus() : eor(WTF::Unicode::OtherNeutral) , lastStrong(WTF::Unicode::OtherNeutral) , last(WTF::Unicode::OtherNeutral) { } BidiStatus(WTF::Unicode::Direction eorDir, WTF::Unicode::Direction lastStrongDir, WTF::Unicode::Direction lastDir, PassRefPtr<BidiContext> bidiContext) : eor(eorDir) , lastStrong(lastStrongDir) , last(lastDir) , context(bidiContext) { } WTF::Unicode::Direction eor; WTF::Unicode::Direction lastStrong; WTF::Unicode::Direction last; RefPtr<BidiContext> context; }; inline bool operator==(const BidiStatus& status1, const BidiStatus& status2) { return status1.eor == status2.eor && status1.last == status2.last && status1.lastStrong == status2.lastStrong && *(status1.context) == *(status2.context); } inline bool operator!=(const BidiStatus& status1, const BidiStatus& status2) { return !(status1 == status2); } struct BidiCharacterRun { BidiCharacterRun(int start, int stop, BidiContext* context, WTF::Unicode::Direction dir) : m_start(start) , m_stop(stop) , m_override(context->override()) , m_next(0) { if (dir == WTF::Unicode::OtherNeutral) dir = context->dir(); m_level = context->level(); // add level of run (cases I1 & I2) if (m_level % 2) { if (dir == WTF::Unicode::LeftToRight || dir == WTF::Unicode::ArabicNumber || dir == WTF::Unicode::EuropeanNumber) m_level++; } else { if (dir == WTF::Unicode::RightToLeft) m_level++; else if (dir == WTF::Unicode::ArabicNumber || dir == WTF::Unicode::EuropeanNumber) m_level += 2; } } void destroy() { delete this; } int start() const { return m_start; } int stop() const { return m_stop; } unsigned char level() const { return m_level; } bool reversed(bool visuallyOrdered) { return m_level % 2 && !visuallyOrdered; } bool dirOverride(bool visuallyOrdered) { return m_override || visuallyOrdered; } BidiCharacterRun* next() const { return m_next; } unsigned char m_level; int m_start; int m_stop; bool m_override; BidiCharacterRun* m_next; }; template <class Iterator, class Run> class BidiResolver : public Noncopyable { public : BidiResolver() : m_direction(WTF::Unicode::OtherNeutral) , reachedEndOfLine(false) , emptyRun(true) , m_firstRun(0) , m_lastRun(0) , m_logicallyLastRun(0) , m_runCount(0) { } const Iterator& position() const { return current; } void setPosition(const Iterator& position) { current = position; } void increment() { current.increment(); } BidiContext* context() const { return m_status.context.get(); } void setContext(PassRefPtr<BidiContext> c) { m_status.context = c; } void setLastDir(WTF::Unicode::Direction lastDir) { m_status.last = lastDir; } void setLastStrongDir(WTF::Unicode::Direction lastStrongDir) { m_status.lastStrong = lastStrongDir; } void setEorDir(WTF::Unicode::Direction eorDir) { m_status.eor = eorDir; } WTF::Unicode::Direction dir() const { return m_direction; } void setDir(WTF::Unicode::Direction d) { m_direction = d; } const BidiStatus& status() const { return m_status; } void setStatus(const BidiStatus s) { m_status = s; } MidpointState<Iterator>& midpointState() { return m_midpointState; } void embed(WTF::Unicode::Direction); void commitExplicitEmbedding(); void createBidiRunsForLine(const Iterator& end, bool visualOrder = false, bool hardLineBreak = false); Run* firstRun() const { return m_firstRun; } Run* lastRun() const { return m_lastRun; } Run* logicallyLastRun() const { return m_logicallyLastRun; } unsigned runCount() const { return m_runCount; } void addRun(Run*); void prependRun(Run*); void moveRunToEnd(Run*); void moveRunToBeginning(Run*); void deleteRuns(); protected: void appendRun(); void reverseRuns(unsigned start, unsigned end); Iterator current; Iterator sor; Iterator eor; Iterator last; BidiStatus m_status; WTF::Unicode::Direction m_direction; Iterator endOfLine; bool reachedEndOfLine; Iterator lastBeforeET; bool emptyRun; Run* m_firstRun; Run* m_lastRun; Run* m_logicallyLastRun; unsigned m_runCount; MidpointState<Iterator> m_midpointState; private: void raiseExplicitEmbeddingLevel(WTF::Unicode::Direction from, WTF::Unicode::Direction to); void lowerExplicitEmbeddingLevel(WTF::Unicode::Direction from); Vector<WTF::Unicode::Direction, 8> m_currentExplicitEmbeddingSequence; }; template <class Iterator, class Run> inline void BidiResolver<Iterator, Run>::addRun(Run* run) { if (!m_firstRun) m_firstRun = run; else m_lastRun->m_next = run; m_lastRun = run; m_runCount++; } template <class Iterator, class Run> inline void BidiResolver<Iterator, Run>::prependRun(Run* run) { ASSERT(!run->m_next); if (!m_lastRun) m_lastRun = run; else run->m_next = m_firstRun; m_firstRun = run; m_runCount++; } template <class Iterator, class Run> inline void BidiResolver<Iterator, Run>::moveRunToEnd(Run* run) { ASSERT(m_firstRun); ASSERT(m_lastRun); ASSERT(run->m_next); Run* current = 0; Run* next = m_firstRun; while (next != run) { current = next; next = current->next(); } if (!current) m_firstRun = run->next(); else current->m_next = run->m_next; run->m_next = 0; m_lastRun->m_next = run; m_lastRun = run; } template <class Iterator, class Run> inline void BidiResolver<Iterator, Run>::moveRunToBeginning(Run* run) { ASSERT(m_firstRun); ASSERT(m_lastRun); ASSERT(run != m_firstRun); Run* current = m_firstRun; Run* next = current->next(); while (next != run) { current = next; next = current->next(); } current->m_next = run->m_next; if (run == m_lastRun) m_lastRun = current; run->m_next = m_firstRun; m_firstRun = run; } template <class Iterator, class Run> void BidiResolver<Iterator, Run>::appendRun() { if (!emptyRun && !eor.atEnd()) { unsigned startOffset = sor.offset(); unsigned endOffset = eor.offset(); if (!endOfLine.atEnd() && endOffset >= endOfLine.offset()) { reachedEndOfLine = true; endOffset = endOfLine.offset(); } if (endOffset >= startOffset) addRun(new Run(startOffset, endOffset + 1, context(), m_direction)); eor.increment(); sor = eor; } m_direction = WTF::Unicode::OtherNeutral; m_status.eor = WTF::Unicode::OtherNeutral; } template <class Iterator, class Run> void BidiResolver<Iterator, Run>::embed(WTF::Unicode::Direction d) { using namespace WTF::Unicode; ASSERT(d == PopDirectionalFormat || d == LeftToRightEmbedding || d == LeftToRightOverride || d == RightToLeftEmbedding || d == RightToLeftOverride); m_currentExplicitEmbeddingSequence.append(d); } template <class Iterator, class Run> void BidiResolver<Iterator, Run>::lowerExplicitEmbeddingLevel(WTF::Unicode::Direction from) { using namespace WTF::Unicode; if (!emptyRun && eor != last) { ASSERT(m_status.eor != OtherNeutral || eor.atEnd()); // bidi.sor ... bidi.eor ... bidi.last eor; need to append the bidi.sor-bidi.eor run or extend it through bidi.last ASSERT(m_status.last == EuropeanNumberSeparator || m_status.last == EuropeanNumberTerminator || m_status.last == CommonNumberSeparator || m_status.last == BoundaryNeutral || m_status.last == BlockSeparator || m_status.last == SegmentSeparator || m_status.last == WhiteSpaceNeutral || m_status.last == OtherNeutral); if (m_direction == OtherNeutral) m_direction = m_status.lastStrong == LeftToRight ? LeftToRight : RightToLeft; if (from == LeftToRight) { // bidi.sor ... bidi.eor ... bidi.last L if (m_status.eor == EuropeanNumber) { if (m_status.lastStrong != LeftToRight) { m_direction = EuropeanNumber; appendRun(); } } else if (m_status.eor == ArabicNumber) { m_direction = ArabicNumber; appendRun(); } else if (m_status.lastStrong != LeftToRight) { appendRun(); m_direction = LeftToRight; } } else if (m_status.eor == EuropeanNumber || m_status.eor == ArabicNumber || m_status.lastStrong == LeftToRight) { appendRun(); m_direction = RightToLeft; } eor = last; } appendRun(); emptyRun = true; // sor for the new run is determined by the higher level (rule X10) setLastDir(from); setLastStrongDir(from); eor = Iterator(); } template <class Iterator, class Run> void BidiResolver<Iterator, Run>::raiseExplicitEmbeddingLevel(WTF::Unicode::Direction from, WTF::Unicode::Direction to) { using namespace WTF::Unicode; if (!emptyRun && eor != last) { ASSERT(m_status.eor != OtherNeutral || eor.atEnd()); // bidi.sor ... bidi.eor ... bidi.last eor; need to append the bidi.sor-bidi.eor run or extend it through bidi.last ASSERT(m_status.last == EuropeanNumberSeparator || m_status.last == EuropeanNumberTerminator || m_status.last == CommonNumberSeparator || m_status.last == BoundaryNeutral || m_status.last == BlockSeparator || m_status.last == SegmentSeparator || m_status.last == WhiteSpaceNeutral || m_status.last == OtherNeutral); if (m_direction == OtherNeutral) m_direction = m_status.lastStrong == LeftToRight ? LeftToRight : RightToLeft; if (to == LeftToRight) { // bidi.sor ... bidi.eor ... bidi.last L if (m_status.eor == EuropeanNumber) { if (m_status.lastStrong != LeftToRight) { m_direction = EuropeanNumber; appendRun(); } } else if (m_status.eor == ArabicNumber) { m_direction = ArabicNumber; appendRun(); } else if (m_status.lastStrong != LeftToRight && from == LeftToRight) { appendRun(); m_direction = LeftToRight; } } else if (m_status.eor == ArabicNumber || (m_status.eor == EuropeanNumber && (m_status.lastStrong != LeftToRight || from == RightToLeft)) || (m_status.eor != EuropeanNumber && m_status.lastStrong == LeftToRight && from == RightToLeft)) { appendRun(); m_direction = RightToLeft; } eor = last; } appendRun(); emptyRun = true; setLastDir(to); setLastStrongDir(to); eor = Iterator(); } template <class Iterator, class Run> void BidiResolver<Iterator, Run>::commitExplicitEmbedding() { using namespace WTF::Unicode; unsigned char fromLevel = context()->level(); RefPtr<BidiContext> toContext = context(); for (size_t i = 0; i < m_currentExplicitEmbeddingSequence.size(); ++i) { Direction embedding = m_currentExplicitEmbeddingSequence[i]; if (embedding == PopDirectionalFormat) { if (BidiContext* parentContext = toContext->parent()) toContext = parentContext; } else { Direction direction = (embedding == RightToLeftEmbedding || embedding == RightToLeftOverride) ? RightToLeft : LeftToRight; bool override = embedding == LeftToRightOverride || embedding == RightToLeftOverride; unsigned char level = toContext->level(); if (direction == RightToLeft) { // Go to the least greater odd integer level += 1; level |= 1; } else { // Go to the least greater even integer level += 2; level &= ~1; } if (level < 61) toContext = BidiContext::create(level, direction, override, toContext.get()); } } unsigned char toLevel = toContext->level(); if (toLevel > fromLevel) raiseExplicitEmbeddingLevel(fromLevel % 2 ? RightToLeft : LeftToRight, toLevel % 2 ? RightToLeft : LeftToRight); else if (toLevel < fromLevel) lowerExplicitEmbeddingLevel(fromLevel % 2 ? RightToLeft : LeftToRight); setContext(toContext); m_currentExplicitEmbeddingSequence.clear(); } template <class Iterator, class Run> void BidiResolver<Iterator, Run>::deleteRuns() { emptyRun = true; if (!m_firstRun) return; Run* curr = m_firstRun; while (curr) { Run* s = curr->next(); curr->destroy(); curr = s; } m_firstRun = 0; m_lastRun = 0; m_runCount = 0; } template <class Iterator, class Run> void BidiResolver<Iterator, Run>::reverseRuns(unsigned start, unsigned end) { if (start >= end) return; ASSERT(end < m_runCount); // Get the item before the start of the runs to reverse and put it in // |beforeStart|. |curr| should point to the first run to reverse. Run* curr = m_firstRun; Run* beforeStart = 0; unsigned i = 0; while (i < start) { i++; beforeStart = curr; curr = curr->next(); } Run* startRun = curr; while (i < end) { i++; curr = curr->next(); } Run* endRun = curr; Run* afterEnd = curr->next(); i = start; curr = startRun; Run* newNext = afterEnd; while (i <= end) { // Do the reversal. Run* next = curr->next(); curr->m_next = newNext; newNext = curr; curr = next; i++; } // Now hook up beforeStart and afterEnd to the startRun and endRun. if (beforeStart) beforeStart->m_next = endRun; else m_firstRun = endRun; startRun->m_next = afterEnd; if (!afterEnd) m_lastRun = startRun; } template <class Iterator, class Run> void BidiResolver<Iterator, Run>::createBidiRunsForLine(const Iterator& end, bool visualOrder, bool hardLineBreak) { using namespace WTF::Unicode; ASSERT(m_direction == OtherNeutral); emptyRun = true; eor = Iterator(); last = current; bool pastEnd = false; BidiResolver<Iterator, Run> stateAtEnd; while (true) { Direction dirCurrent; if (pastEnd && (hardLineBreak || current.atEnd())) { BidiContext* c = context(); while (c->parent()) c = c->parent(); dirCurrent = c->dir(); if (hardLineBreak) { // A deviation from the Unicode Bidi Algorithm in order to match // Mac OS X text and WinIE: a hard line break resets bidi state. stateAtEnd.setContext(c); stateAtEnd.setEorDir(dirCurrent); stateAtEnd.setLastDir(dirCurrent); stateAtEnd.setLastStrongDir(dirCurrent); } } else { dirCurrent = current.direction(); if (context()->override() && dirCurrent != RightToLeftEmbedding && dirCurrent != LeftToRightEmbedding && dirCurrent != RightToLeftOverride && dirCurrent != LeftToRightOverride && dirCurrent != PopDirectionalFormat) dirCurrent = context()->dir(); else if (dirCurrent == NonSpacingMark) dirCurrent = m_status.last; } ASSERT(m_status.eor != OtherNeutral || eor.atEnd()); switch (dirCurrent) { // embedding and overrides (X1-X9 in the Bidi specs) case RightToLeftEmbedding: case LeftToRightEmbedding: case RightToLeftOverride: case LeftToRightOverride: case PopDirectionalFormat: embed(dirCurrent); commitExplicitEmbedding(); break; // strong types case LeftToRight: switch(m_status.last) { case RightToLeft: case RightToLeftArabic: case EuropeanNumber: case ArabicNumber: if (m_status.last != EuropeanNumber || m_status.lastStrong != LeftToRight) appendRun(); break; case LeftToRight: break; case EuropeanNumberSeparator: case EuropeanNumberTerminator: case CommonNumberSeparator: case BoundaryNeutral: case BlockSeparator: case SegmentSeparator: case WhiteSpaceNeutral: case OtherNeutral: if (m_status.eor == EuropeanNumber) { if (m_status.lastStrong != LeftToRight) { // the numbers need to be on a higher embedding level, so let's close that run m_direction = EuropeanNumber; appendRun(); if (context()->dir() != LeftToRight) { // the neutrals take the embedding direction, which is R eor = last; m_direction = RightToLeft; appendRun(); } } } else if (m_status.eor == ArabicNumber) { // Arabic numbers are always on a higher embedding level, so let's close that run m_direction = ArabicNumber; appendRun(); if (context()->dir() != LeftToRight) { // the neutrals take the embedding direction, which is R eor = last; m_direction = RightToLeft; appendRun(); } } else if (m_status.lastStrong != LeftToRight) { //last stuff takes embedding dir if (context()->dir() == RightToLeft) { eor = last; m_direction = RightToLeft; } appendRun(); } default: break; } eor = current; m_status.eor = LeftToRight; m_status.lastStrong = LeftToRight; m_direction = LeftToRight; break; case RightToLeftArabic: case RightToLeft: switch (m_status.last) { case LeftToRight: case EuropeanNumber: case ArabicNumber: appendRun(); case RightToLeft: case RightToLeftArabic: break; case EuropeanNumberSeparator: case EuropeanNumberTerminator: case CommonNumberSeparator: case BoundaryNeutral: case BlockSeparator: case SegmentSeparator: case WhiteSpaceNeutral: case OtherNeutral: if (m_status.eor == EuropeanNumber) { if (m_status.lastStrong == LeftToRight && context()->dir() == LeftToRight) eor = last; appendRun(); } else if (m_status.eor == ArabicNumber) appendRun(); else if (m_status.lastStrong == LeftToRight) { if (context()->dir() == LeftToRight) eor = last; appendRun(); } default: break; } eor = current; m_status.eor = RightToLeft; m_status.lastStrong = dirCurrent; m_direction = RightToLeft; break; // weak types: case EuropeanNumber: if (m_status.lastStrong != RightToLeftArabic) { // if last strong was AL change EN to AN switch (m_status.last) { case EuropeanNumber: case LeftToRight: break; case RightToLeft: case RightToLeftArabic: case ArabicNumber: eor = last; appendRun(); m_direction = EuropeanNumber; break; case EuropeanNumberSeparator: case CommonNumberSeparator: if (m_status.eor == EuropeanNumber) break; case EuropeanNumberTerminator: case BoundaryNeutral: case BlockSeparator: case SegmentSeparator: case WhiteSpaceNeutral: case OtherNeutral: if (m_status.eor == EuropeanNumber) { if (m_status.lastStrong == RightToLeft) { // ENs on both sides behave like Rs, so the neutrals should be R. // Terminate the EN run. appendRun(); // Make an R run. eor = m_status.last == EuropeanNumberTerminator ? lastBeforeET : last; m_direction = RightToLeft; appendRun(); // Begin a new EN run. m_direction = EuropeanNumber; } } else if (m_status.eor == ArabicNumber) { // Terminate the AN run. appendRun(); if (m_status.lastStrong == RightToLeft || context()->dir() == RightToLeft) { // Make an R run. eor = m_status.last == EuropeanNumberTerminator ? lastBeforeET : last; m_direction = RightToLeft; appendRun(); // Begin a new EN run. m_direction = EuropeanNumber; } } else if (m_status.lastStrong == RightToLeft) { // Extend the R run to include the neutrals. eor = m_status.last == EuropeanNumberTerminator ? lastBeforeET : last; m_direction = RightToLeft; appendRun(); // Begin a new EN run. m_direction = EuropeanNumber; } default: break; } eor = current; m_status.eor = EuropeanNumber; if (m_direction == OtherNeutral) m_direction = LeftToRight; break; } case ArabicNumber: dirCurrent = ArabicNumber; switch (m_status.last) { case LeftToRight: if (context()->dir() == LeftToRight) appendRun(); break; case ArabicNumber: break; case RightToLeft: case RightToLeftArabic: case EuropeanNumber: eor = last; appendRun(); break; case CommonNumberSeparator: if (m_status.eor == ArabicNumber) break; case EuropeanNumberSeparator: case EuropeanNumberTerminator: case BoundaryNeutral: case BlockSeparator: case SegmentSeparator: case WhiteSpaceNeutral: case OtherNeutral: if (m_status.eor == ArabicNumber || (m_status.eor == EuropeanNumber && (m_status.lastStrong == RightToLeft || context()->dir() == RightToLeft)) || (m_status.eor != EuropeanNumber && m_status.lastStrong == LeftToRight && context()->dir() == RightToLeft)) { // Terminate the run before the neutrals. appendRun(); // Begin an R run for the neutrals. m_direction = RightToLeft; } else if (m_direction == OtherNeutral) m_direction = m_status.lastStrong == LeftToRight ? LeftToRight : RightToLeft; eor = last; appendRun(); default: break; } eor = current; m_status.eor = ArabicNumber; if (m_direction == OtherNeutral) m_direction = ArabicNumber; break; case EuropeanNumberSeparator: case CommonNumberSeparator: break; case EuropeanNumberTerminator: if (m_status.last == EuropeanNumber) { dirCurrent = EuropeanNumber; eor = current; m_status.eor = dirCurrent; } else if (m_status.last != EuropeanNumberTerminator) lastBeforeET = emptyRun ? eor : last; break; // boundary neutrals should be ignored case BoundaryNeutral: if (eor == last) eor = current; break; // neutrals case BlockSeparator: // ### what do we do with newline and paragraph seperators that come to here? break; case SegmentSeparator: // ### implement rule L1 break; case WhiteSpaceNeutral: break; case OtherNeutral: break; default: break; } if (pastEnd) { if (eor == current) { if (!reachedEndOfLine) { eor = endOfLine; switch (m_status.eor) { case LeftToRight: case RightToLeft: case ArabicNumber: m_direction = m_status.eor; break; case EuropeanNumber: m_direction = m_status.lastStrong == LeftToRight ? LeftToRight : EuropeanNumber; break; default: ASSERT(false); } appendRun(); } current = end; m_status = stateAtEnd.m_status; sor = stateAtEnd.sor; eor = stateAtEnd.eor; last = stateAtEnd.last; reachedEndOfLine = stateAtEnd.reachedEndOfLine; lastBeforeET = stateAtEnd.lastBeforeET; emptyRun = stateAtEnd.emptyRun; m_direction = OtherNeutral; break; } } // set m_status.last as needed. switch (dirCurrent) { case EuropeanNumberTerminator: if (m_status.last != EuropeanNumber) m_status.last = EuropeanNumberTerminator; break; case EuropeanNumberSeparator: case CommonNumberSeparator: case SegmentSeparator: case WhiteSpaceNeutral: case OtherNeutral: switch(m_status.last) { case LeftToRight: case RightToLeft: case RightToLeftArabic: case EuropeanNumber: case ArabicNumber: m_status.last = dirCurrent; break; default: m_status.last = OtherNeutral; } break; case NonSpacingMark: case BoundaryNeutral: case RightToLeftEmbedding: case LeftToRightEmbedding: case RightToLeftOverride: case LeftToRightOverride: case PopDirectionalFormat: // ignore these break; case EuropeanNumber: // fall through default: m_status.last = dirCurrent; } last = current; if (emptyRun && !(dirCurrent == RightToLeftEmbedding || dirCurrent == LeftToRightEmbedding || dirCurrent == RightToLeftOverride || dirCurrent == LeftToRightOverride || dirCurrent == PopDirectionalFormat)) { sor = current; emptyRun = false; } increment(); if (!m_currentExplicitEmbeddingSequence.isEmpty()) commitExplicitEmbedding(); if (emptyRun && (dirCurrent == RightToLeftEmbedding || dirCurrent == LeftToRightEmbedding || dirCurrent == RightToLeftOverride || dirCurrent == LeftToRightOverride || dirCurrent == PopDirectionalFormat)) { // exclude the embedding char itself from the new run so that ATSUI will never see it eor = Iterator(); last = current; sor = current; } if (!pastEnd && (current == end || current.atEnd())) { if (emptyRun) break; stateAtEnd.m_status = m_status; stateAtEnd.sor = sor; stateAtEnd.eor = eor; stateAtEnd.last = last; stateAtEnd.reachedEndOfLine = reachedEndOfLine; stateAtEnd.lastBeforeET = lastBeforeET; stateAtEnd.emptyRun = emptyRun; endOfLine = last; pastEnd = true; } } m_logicallyLastRun = m_lastRun; // reorder line according to run structure... // do not reverse for visually ordered web sites if (!visualOrder) { // first find highest and lowest levels unsigned char levelLow = 128; unsigned char levelHigh = 0; Run* r = firstRun(); while (r) { if (r->m_level > levelHigh) levelHigh = r->m_level; if (r->m_level < levelLow) levelLow = r->m_level; r = r->next(); } // 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++; unsigned count = runCount() - 1; while (levelHigh >= levelLow) { unsigned i = 0; Run* currRun = firstRun(); while (i < count) { while (i < count && currRun && currRun->m_level < levelHigh) { i++; currRun = currRun->next(); } unsigned start = i; while (i <= count && currRun && currRun->m_level >= levelHigh) { i++; currRun = currRun->next(); } unsigned end = i - 1; reverseRuns(start, end); } levelHigh--; } } endOfLine = Iterator(); } } // namespace WebCore #endif // BidiResolver_h