/**************************************************************************** ** ** Text engine classes ** ** Copyright (C) 2005-2008 Trolltech ASA. All rights reserved. ** ** This file is part of the kernel module of the TQt GUI Toolkit. ** ** This file may be used under the terms of the GNU General ** Public License versions 2.0 or 3.0 as published by the Free ** Software Foundation and appearing in the files LICENSE.GPL2 ** and LICENSE.GPL3 included in the packaging of this file. ** Alternatively you may (at your option) use any later version ** of the GNU General Public License if such license has been ** publicly approved by Trolltech ASA (or its successors, if any) ** and the KDE Free TQt Foundation. ** ** Please review the following information to ensure GNU General ** Public Licensing retquirements will be met: ** http://trolltech.com/products/qt/licenses/licensing/opensource/. ** If you are unsure which license is appropriate for your use, please ** review the following information: ** http://trolltech.com/products/qt/licenses/licensing/licensingoverview ** or contact the sales department at sales@trolltech.com. ** ** This file may be used under the terms of the Q Public License as ** defined by Trolltech ASA and appearing in the file LICENSE.TQPL ** included in the packaging of this file. Licensees holding valid TQt ** Commercial licenses may use this file in accordance with the TQt ** Commercial License Agreement provided with the Software. ** ** This file is provided "AS IS" with NO WARRANTY OF ANY KIND, ** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR ** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted ** herein. ** **********************************************************************/ #include "qtextengine_p.h" #include "qscriptengine_p.h" #include #include "qfontdata_p.h" #include "qfontengine_p.h" #include #include #include // ----------------------------------------------------------------------------------------------------- // // The BiDi algorithm // // ----------------------------------------------------------------------------------------------------- #define BIDI_DEBUG 0//2 #if (BIDI_DEBUG >= 1) #include using namespace std; static const char *directions[] = { "DirL", "DirR", "DirEN", "DirES", "DirET", "DirAN", "DirCS", "DirB", "DirS", "DirWS", "DirON", "DirLRE", "DirLRO", "DirAL", "DirRLE", "DirRLO", "DirPDF", "DirNSM", "DirBN" }; #endif struct BidiStatus { BidiStatus() { eor = TQChar::DirON; lastStrong = TQChar::DirON; last = TQChar:: DirON; dir = TQChar::DirON; } TQChar::Direction eor; TQChar::Direction lastStrong; TQChar::Direction last; TQChar::Direction dir; }; struct BidiControl { struct Context { unsigned char level : 6; unsigned char override : 1; unsigned char unused : 1; }; inline BidiControl( bool rtl ) : cCtx( 0 ), singleLine( FALSE ) { ctx[0].level = (rtl ? 1 : 0); ctx[0].override = FALSE; } inline void embed( int level, bool override = FALSE ) { if ( ctx[cCtx].level < 61 && cCtx < 61 ) { (void) ++cCtx; ctx[cCtx].level = level; ctx[cCtx].override = override; } } inline void pdf() { if ( cCtx ) (void) --cCtx; } inline uchar level() const { return ctx[cCtx].level; } inline bool override() const { return ctx[cCtx].override; } inline TQChar::Direction basicDirection() { return (ctx[0].level ? TQChar::DirR : TQChar:: DirL ); } inline uchar baseLevel() { return ctx[0].level; } inline TQChar::Direction direction() { return ((ctx[cCtx].level%2) ? TQChar::DirR : TQChar:: DirL ); } Context ctx[63]; unsigned int cCtx : 8; bool singleLine : 8; }; static TQChar::Direction basicDirection( const TQString &str ) { int len = str.length(); int pos = 0; const TQChar *uc = str.unicode() + pos; while( pos < len ) { switch( direction( *uc ) ) { case TQChar::DirL: case TQChar::DirLRO: case TQChar::DirLRE: return TQChar::DirL; case TQChar::DirR: case TQChar::DirAL: case TQChar::DirRLO: case TQChar::DirRLE: return TQChar::DirR; default: break; } ++pos; ++uc; } return TQChar::DirL; } static void qAppendItems(TQTextEngine *engine, int &start, int &stop, BidiControl &control, TQChar::Direction dir ) { TQScriptItemArray &items = engine->items; const TQChar *text = engine->string.unicode(); if ( start > stop ) { // #### the algorithm is currently not really safe against this. Still needs fixing. // qWarning( "Bidi: appendItems() internal error" ); return; } int level = control.level(); if(dir != TQChar::DirON && !control.override()) { // add level of run (cases I1 & I2) if( level % 2 ) { if(dir == TQChar::DirL || dir == TQChar::DirAN || dir == TQChar::DirEN ) level++; } else { if( dir == TQChar::DirR ) level++; else if( dir == TQChar::DirAN || dir == TQChar::DirEN ) level += 2; } } #if (BIDI_DEBUG >= 1) qDebug("new run: dir=%s from %d, to %d level = %d\n", directions[dir], start, stop, level); #endif TQFont::Script script = TQFont::NoScript; TQScriptItem item; item.position = start; item.analysis.script = script; item.analysis.bidiLevel = level; item.analysis.override = control.override(); item.analysis.reserved = 0; if ( control.singleLine ) { for ( int i = start; i <= stop; i++ ) { unsigned short uc = text[i].unicode(); TQFont::Script s = (TQFont::Script)scriptForChar( uc ); if (s == TQFont::UnknownScript || s == TQFont::CombiningMarks) s = script; if (s != script) { item.analysis.script = s; item.analysis.bidiLevel = level; item.position = i; items.append( item ); script = s; } } } else { for ( int i = start; i <= stop; i++ ) { unsigned short uc = text[i].unicode(); TQFont::Script s = (TQFont::Script)scriptForChar( uc ); if (s == TQFont::UnknownScript || s == TQFont::CombiningMarks) s = script; TQChar::Category category = ::category( uc ); if ( uc == 0xfffcU || uc == 0x2028U ) { item.analysis.bidiLevel = level % 2 ? level-1 : level; item.analysis.script = TQFont::Latin; item.isObject = TRUE; s = TQFont::NoScript; } else if ((uc >= 9 && uc <=13) || (category >= TQChar::Separator_Space && category <= TQChar::Separator_Paragraph)) { item.analysis.script = TQFont::Latin; item.isSpace = TRUE; item.isTab = ( uc == '\t' ); item.analysis.bidiLevel = item.isTab ? control.baseLevel() : level; s = TQFont::NoScript; } else if ( s != script && (category != TQChar::Mark_NonSpacing || script == TQFont::NoScript)) { item.analysis.script = s; item.analysis.bidiLevel = level; } else { if (i - start < 32000) continue; start = i; } item.position = i; items.append( item ); script = s; item.isSpace = item.isTab = item.isObject = FALSE; } } ++stop; start = stop; } typedef void (* fAppendItems)(TQTextEngine *, int &start, int &stop, BidiControl &control, TQChar::Direction dir); static fAppendItems appendItems = qAppendItems; // creates the next TQScript items. static void bidiItemize( TQTextEngine *engine, bool rightToLeft, int mode ) { BidiControl control( rightToLeft ); if ( mode & TQTextEngine::SingleLine ) control.singleLine = TRUE; int sor = 0; int eor = -1; // ### should get rid of this! bool first = TRUE; int length = engine->string.length(); if ( !length ) return; const TQChar *unicode = engine->string.unicode(); int current = 0; TQChar::Direction dir = rightToLeft ? TQChar::DirR : TQChar::DirL; BidiStatus status; TQChar::Direction sdir = direction( *unicode ); if ( sdir != TQChar::DirL && sdir != TQChar::DirR && sdir != TQChar::DirAL && sdir != TQChar::DirEN && sdir != TQChar::DirAN ) sdir = TQChar::DirON; else dir = TQChar::DirON; status.eor = sdir; status.lastStrong = rightToLeft ? TQChar::DirR : TQChar::DirL; status.last = status.lastStrong; status.dir = sdir; #if (BIDI_DEBUG >= 2) qDebug("---- bidiReorder --- '%s'", engine->string.utf8().data()); qDebug("rightToLeft = %d", rightToLeft); #endif while ( current <= length ) { TQChar::Direction dirCurrent; if ( current == (int)length ) dirCurrent = control.basicDirection(); else dirCurrent = direction( unicode[current] ); #if (BIDI_DEBUG >= 2) cout << "pos=" << current << " dir=" << directions[dir] << " current=" << directions[dirCurrent] << " last=" << directions[status.last] << " eor=" << eor << "/" << directions[status.eor] << " sor=" << sor << " lastStrong=" << directions[status.lastStrong] << " level=" << (int)control.level() << endl; #endif switch(dirCurrent) { // embedding and overrides (X1-X9 in the BiDi specs) case TQChar::DirRLE: case TQChar::DirRLO: case TQChar::DirLRE: case TQChar::DirLRO: { bool rtl = (dirCurrent == TQChar::DirRLE || dirCurrent == TQChar::DirRLO ); bool override = (dirCurrent == TQChar::DirLRO || dirCurrent == TQChar::DirRLO ); uchar level = control.level(); if( (level%2 != 0) == rtl ) level += 2; else level++; if(level < 61) { eor = current-1; appendItems(engine, sor, eor, control, dir); eor = current; control.embed( level, override ); TQChar::Direction edir = (rtl ? TQChar::DirR : TQChar::DirL ); dir = status.eor = edir; status.lastStrong = edir; } break; } case TQChar::DirPDF: { if (dir != control.direction()) { eor = current-1; appendItems(engine, sor, eor, control, dir); dir = control.direction(); } eor = current; appendItems(engine, sor, eor, control, dir); dir = TQChar::DirON; status.eor = TQChar::DirON; status.last = control.direction(); control.pdf(); if ( control.override() ) dir = control.direction(); else dir = TQChar::DirON; status.lastStrong = control.direction(); break; } // strong types case TQChar::DirL: if(dir == TQChar::DirON) dir = TQChar::DirL; switch(status.last) { case TQChar::DirL: eor = current; status.eor = TQChar::DirL; break; case TQChar::DirR: case TQChar::DirAL: case TQChar::DirEN: case TQChar::DirAN: if ( !first ) { appendItems(engine, sor, eor, control, dir); dir = eor < length ? direction( unicode[eor] ) : control.basicDirection(); status.eor = dir; } else { eor = current; status.eor = dir; } break; case TQChar::DirES: case TQChar::DirET: case TQChar::DirCS: case TQChar::DirBN: case TQChar::DirB: case TQChar::DirS: case TQChar::DirWS: case TQChar::DirON: if(dir != TQChar::DirL) { //last stuff takes embedding dir if( control.direction() == TQChar::DirR ) { if(status.eor != TQChar::DirR) { // AN or EN appendItems(engine, sor, eor, control, dir); status.eor = TQChar::DirON; dir = TQChar::DirR; } eor = current - 1; appendItems(engine, sor, eor, control, dir); dir = eor < length ? direction( unicode[eor] ) : control.basicDirection(); status.eor = dir; } else { if(status.eor != TQChar::DirL) { appendItems(engine, sor, eor, control, dir); status.eor = TQChar::DirON; dir = TQChar::DirL; } else { eor = current; status.eor = TQChar::DirL; break; } } } else { eor = current; status.eor = TQChar::DirL; } default: break; } status.lastStrong = TQChar::DirL; break; case TQChar::DirAL: case TQChar::DirR: if(dir == TQChar::DirON) dir = TQChar::DirR; switch(status.last) { case TQChar::DirL: case TQChar::DirEN: case TQChar::DirAN: if ( !first ) { appendItems(engine, sor, eor, control, dir); dir = TQChar::DirON; status.eor = TQChar::DirON; break; } case TQChar::DirR: case TQChar::DirAL: eor = current; status.eor = TQChar::DirR; break; case TQChar::DirES: case TQChar::DirET: case TQChar::DirCS: case TQChar::DirBN: case TQChar::DirB: case TQChar::DirS: case TQChar::DirWS: case TQChar::DirON: if( status.eor != TQChar::DirR && status.eor != TQChar::DirAL ) { //last stuff takes embedding dir if(control.direction() == TQChar::DirR || status.lastStrong == TQChar::DirR || status.lastStrong == TQChar::DirAL) { appendItems(engine, sor, eor, control, dir); dir = TQChar::DirON; status.eor = TQChar::DirON; dir = TQChar::DirR; eor = current; } else { eor = current - 1; appendItems(engine, sor, eor, control, dir); dir = TQChar::DirON; status.eor = TQChar::DirON; dir = TQChar::DirR; } } else { eor = current; status.eor = TQChar::DirR; } default: break; } status.lastStrong = dirCurrent; break; // weak types: case TQChar::DirNSM: if (eor == current-1) eor = current; break; case TQChar::DirEN: // if last strong was AL change EN to AN if(status.lastStrong != TQChar::DirAL) { if(dir == TQChar::DirON) { if(status.lastStrong == TQChar::DirL) dir = TQChar::DirL; else dir = TQChar::DirEN; } switch(status.last) { case TQChar::DirET: if ( status.lastStrong == TQChar::DirR || status.lastStrong == TQChar::DirAL ) { appendItems(engine, sor, eor, control, dir); status.eor = TQChar::DirON; dir = TQChar::DirAN; } // fall through case TQChar::DirEN: case TQChar::DirL: eor = current; status.eor = dirCurrent; break; case TQChar::DirR: case TQChar::DirAL: case TQChar::DirAN: if ( !first ) appendItems(engine, sor, eor, control, dir); status.eor = TQChar::DirEN; dir = TQChar::DirAN; break; case TQChar::DirES: case TQChar::DirCS: if(status.eor == TQChar::DirEN || dir == TQChar::DirAN) { eor = current; break; } case TQChar::DirBN: case TQChar::DirB: case TQChar::DirS: case TQChar::DirWS: case TQChar::DirON: if(status.eor == TQChar::DirR) { // neutrals go to R eor = current - 1; appendItems(engine, sor, eor, control, dir); dir = TQChar::DirON; status.eor = TQChar::DirEN; dir = TQChar::DirAN; } else if( status.eor == TQChar::DirL || (status.eor == TQChar::DirEN && status.lastStrong == TQChar::DirL)) { eor = current; status.eor = dirCurrent; } else { // numbers on both sides, neutrals get right to left direction if(dir != TQChar::DirL) { appendItems(engine, sor, eor, control, dir); dir = TQChar::DirON; status.eor = TQChar::DirON; eor = current - 1; dir = TQChar::DirR; appendItems(engine, sor, eor, control, dir); dir = TQChar::DirON; status.eor = TQChar::DirON; dir = TQChar::DirAN; } else { eor = current; status.eor = dirCurrent; } } default: break; } break; } case TQChar::DirAN: dirCurrent = TQChar::DirAN; if(dir == TQChar::DirON) dir = TQChar::DirAN; switch(status.last) { case TQChar::DirL: case TQChar::DirAN: eor = current; status.eor = TQChar::DirAN; break; case TQChar::DirR: case TQChar::DirAL: case TQChar::DirEN: if ( !first ) appendItems(engine, sor, eor, control, dir); dir = TQChar::DirON; status.eor = TQChar::DirAN; break; case TQChar::DirCS: if(status.eor == TQChar::DirAN) { eor = current; break; } case TQChar::DirES: case TQChar::DirET: case TQChar::DirBN: case TQChar::DirB: case TQChar::DirS: case TQChar::DirWS: case TQChar::DirON: if(status.eor == TQChar::DirR) { // neutrals go to R eor = current - 1; appendItems(engine, sor, eor, control, dir); status.eor = TQChar::DirAN; dir = TQChar::DirAN; } else if( status.eor == TQChar::DirL || (status.eor == TQChar::DirEN && status.lastStrong == TQChar::DirL)) { eor = current; status.eor = dirCurrent; } else { // numbers on both sides, neutrals get right to left direction if(dir != TQChar::DirL) { appendItems(engine, sor, eor, control, dir); status.eor = TQChar::DirON; eor = current - 1; dir = TQChar::DirR; appendItems(engine, sor, eor, control, dir); status.eor = TQChar::DirAN; dir = TQChar::DirAN; } else { eor = current; status.eor = dirCurrent; } } default: break; } break; case TQChar::DirES: case TQChar::DirCS: break; case TQChar::DirET: if(status.last == TQChar::DirEN) { dirCurrent = TQChar::DirEN; eor = current; status.eor = dirCurrent; } break; // boundary neutrals should be ignored case TQChar::DirBN: break; // neutrals case TQChar::DirB: // ### what do we do with newline and paragraph separators that come to here? break; case TQChar::DirS: // ### implement rule L1 break; case TQChar::DirWS: case TQChar::DirON: break; default: break; } //cout << " after: dir=" << // dir << " current=" << dirCurrent << " last=" << status.last << " eor=" << status.eor << " lastStrong=" << status.lastStrong << " embedding=" << control.direction() << endl; if(current >= (int)length) break; // set status.last as needed. switch(dirCurrent) { case TQChar::DirET: case TQChar::DirES: case TQChar::DirCS: case TQChar::DirS: case TQChar::DirWS: case TQChar::DirON: switch(status.last) { case TQChar::DirL: case TQChar::DirR: case TQChar::DirAL: case TQChar::DirEN: case TQChar::DirAN: status.last = dirCurrent; break; default: status.last = TQChar::DirON; } break; case TQChar::DirNSM: case TQChar::DirBN: // ignore these break; case TQChar::DirLRO: case TQChar::DirLRE: status.last = TQChar::DirL; break; case TQChar::DirRLO: case TQChar::DirRLE: status.last = TQChar::DirR; break; case TQChar::DirEN: if ( status.last == TQChar::DirL ) { status.last = TQChar::DirL; break; } // fall through default: status.last = dirCurrent; } first = FALSE; ++current; } #if (BIDI_DEBUG >= 1) cout << "reached end of line current=" << current << ", eor=" << eor << endl; #endif eor = current - 1; // remove dummy char if ( sor <= eor ) appendItems(engine, sor, eor, control, dir); } void TQTextEngine::bidiReorder( int numItems, const Q_UINT8 *levels, int *visualOrder ) { // first find highest and lowest levels uchar levelLow = 128; uchar 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++; #if (BIDI_DEBUG >= 1) cout << "reorderLine: lineLow = " << (uint)levelLow << ", lineHigh = " << (uint)levelHigh << endl; #endif 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) { //cout << "reversing from " << start << " to " << end << endl; 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--; } #if (BIDI_DEBUG >= 1) cout << "visual order is:" << endl; for ( i = 0; i < numItems; i++ ) cout << visualOrder[i] << endl; #endif } // ----------------------------------------------------------------------------------------------------- // // The line break algorithm. See http://www.unicode.org/reports/tr14/tr14-13.html // // ----------------------------------------------------------------------------------------------------- /* The Unicode algorithm does in our opinion allow line breaks at some places they shouldn't be allowed. The following changes were thus made in comparison to the Unicode reference: CL->AL from Dbk to Ibk CL->PR from Dbk to Ibk EX->AL from Dbk to Ibk IS->AL from Dbk to Ibk PO->AL from Dbk to Ibk SY->AL from Dbk to Ibk SY->PO from Dbk to Ibk SY->PR from Dbk to Ibk SY->OP from Dbk to Ibk Al->OP from Dbk to Ibk AL->HY from Dbk to Ibk AL->PR from Dbk to Ibk AL->PO from Dbk to Ibk PR->PR from Dbk to Ibk PO->PO from Dbk to Ibk PR->PO from Dbk to Ibk PO->PR from Dbk to Ibk HY->PO from Dbk to Ibk HY->PR from Dbk to Ibk HY->OP from Dbk to Ibk PO->OP from Dbk to Ibk NU->EX from Dbk to Ibk NU->PR from Dbk to Ibk PO->NU from Dbk to Ibk EX->PO from Dbk to Ibk */ enum break_action { Dbk, // Direct break Ibk, // Indirect break; only allowed if space between the two chars Pbk // Prohibited break; no break allowed even if space between chars }; // The following line break classes are not treated by the table: // SA, BK, CR, LF, SG, CB, SP static const Q_UINT8 breakTable[TQUnicodeTables::LineBreak_CM+1][TQUnicodeTables::LineBreak_CM+1] = { // OP, CL, QU, GL, NS, EX, SY, IS, PR, PO, NU, AL, ID, IN, HY, BA, BB, B2, ZW, CM { Pbk, Pbk, Pbk, Pbk, Pbk, Pbk, Pbk, Pbk, Pbk, Pbk, Pbk, Pbk, Pbk, Pbk, Pbk, Pbk, Pbk, Pbk, Pbk, Pbk }, // OP { Dbk, Pbk, Ibk, Pbk, Pbk, Pbk, Pbk, Pbk, Ibk, Ibk, Dbk, Ibk, Dbk, Dbk, Ibk, Ibk, Pbk, Pbk, Pbk, Pbk }, // CL { Pbk, Pbk, Ibk, Pbk, Ibk, Pbk, Pbk, Pbk, Ibk, Ibk, Ibk, Ibk, Ibk, Ibk, Ibk, Ibk, Ibk, Ibk, Pbk, Pbk }, // QU { Ibk, Pbk, Ibk, Pbk, Ibk, Pbk, Pbk, Pbk, Ibk, Ibk, Ibk, Ibk, Ibk, Ibk, Ibk, Ibk, Ibk, Ibk, Pbk, Pbk }, // GL { Dbk, Pbk, Ibk, Pbk, Ibk, Pbk, Pbk, Pbk, Dbk, Dbk, Dbk, Dbk, Dbk, Dbk, Ibk, Ibk, Dbk, Dbk, Pbk, Ibk }, // NS { Dbk, Pbk, Ibk, Pbk, Ibk, Pbk, Pbk, Pbk, Dbk, Ibk, Ibk, Ibk, Dbk, Dbk, Ibk, Ibk, Dbk, Dbk, Pbk, Ibk }, // EX { Ibk, Pbk, Ibk, Pbk, Ibk, Pbk, Pbk, Pbk, Ibk, Ibk, Ibk, Ibk, Dbk, Dbk, Ibk, Ibk, Dbk, Dbk, Pbk, Ibk }, // SY { Dbk, Pbk, Ibk, Pbk, Ibk, Pbk, Pbk, Pbk, Dbk, Dbk, Ibk, Ibk, Dbk, Dbk, Ibk, Ibk, Dbk, Dbk, Pbk, Ibk }, // IS { Ibk, Pbk, Ibk, Pbk, Ibk, Pbk, Pbk, Pbk, Ibk, Ibk, Ibk, Ibk, Ibk, Dbk, Ibk, Ibk, Dbk, Dbk, Pbk, Pbk }, // PR { Ibk, Pbk, Ibk, Pbk, Ibk, Pbk, Pbk, Pbk, Ibk, Ibk, Ibk, Ibk, Dbk, Dbk, Ibk, Ibk, Dbk, Dbk, Pbk, Ibk }, // PO { Dbk, Pbk, Ibk, Pbk, Ibk, Pbk, Pbk, Pbk, Ibk, Ibk, Ibk, Ibk, Dbk, Ibk, Ibk, Ibk, Dbk, Dbk, Pbk, Pbk }, // NU { Ibk, Pbk, Ibk, Pbk, Ibk, Pbk, Pbk, Pbk, Ibk, Ibk, Ibk, Ibk, Dbk, Ibk, Ibk, Ibk, Dbk, Dbk, Pbk, Pbk }, // AL { Dbk, Pbk, Ibk, Pbk, Ibk, Pbk, Pbk, Pbk, Dbk, Ibk, Dbk, Dbk, Dbk, Ibk, Ibk, Ibk, Dbk, Dbk, Pbk, Ibk }, // ID { Dbk, Pbk, Ibk, Pbk, Ibk, Pbk, Pbk, Pbk, Dbk, Dbk, Dbk, Dbk, Dbk, Ibk, Ibk, Ibk, Dbk, Dbk, Pbk, Ibk }, // IN { Ibk, Pbk, Ibk, Pbk, Ibk, Pbk, Pbk, Pbk, Ibk, Ibk, Ibk, Ibk, Dbk, Dbk, Ibk, Ibk, Dbk, Dbk, Pbk, Ibk }, // HY { Dbk, Pbk, Ibk, Pbk, Ibk, Pbk, Pbk, Pbk, Dbk, Dbk, Dbk, Dbk, Dbk, Dbk, Ibk, Ibk, Dbk, Dbk, Pbk, Ibk }, // BA { Ibk, Pbk, Ibk, Pbk, Ibk, Pbk, Pbk, Pbk, Ibk, Ibk, Ibk, Ibk, Ibk, Ibk, Ibk, Ibk, Ibk, Ibk, Pbk, Ibk }, // BB { Dbk, Pbk, Ibk, Pbk, Ibk, Pbk, Pbk, Pbk, Dbk, Dbk, Dbk, Dbk, Dbk, Dbk, Ibk, Ibk, Dbk, Pbk, Pbk, Ibk }, // B2 { Dbk, Dbk, Dbk, Dbk, Dbk, Dbk, Dbk, Dbk, Dbk, Dbk, Dbk, Dbk, Dbk, Dbk, Dbk, Dbk, Dbk, Dbk, Pbk, Ibk }, // ZW { Dbk, Pbk, Ibk, Pbk, Ibk, Pbk, Pbk, Pbk, Dbk, Ibk, Dbk, Dbk, Dbk, Ibk, Ibk, Ibk, Dbk, Dbk, Pbk, Pbk } // CM }; // set the soft break flag at every possible line breaking point. This needs correct clustering information. static void calcLineBreaks(const TQString &str, TQCharAttributes *charAttributes) { int len = str.length(); if (!len) return; const TQChar *uc = str.unicode(); int cls = lineBreakClass(*uc); if (cls >= TQUnicodeTables::LineBreak_CM) cls = TQUnicodeTables::LineBreak_ID; charAttributes[0].softBreak = FALSE; charAttributes[0].whiteSpace = (cls == TQUnicodeTables::LineBreak_SP); charAttributes[0].charStop = TRUE; for (int i = 1; i < len; ++i) { int ncls = ::lineBreakClass(uc[i]); int category = ::category(uc[i]); if (category == TQChar::Mark_NonSpacing) goto nsm; if (category == TQChar::Other_Surrogate) { // char stop only on first pair if (uc[i].unicode() >= 0xd800 && uc[i].unicode() < 0xdc00 && i < len-1 && uc[i+1].unicode() >= 0xdc00 && uc[i+1].unicode() < 0xe000) goto nsm; // ### correctly handle second surrogate } if (ncls == TQUnicodeTables::LineBreak_SP) { charAttributes[i].softBreak = FALSE; charAttributes[i].whiteSpace = TRUE; charAttributes[i].charStop = TRUE; cls = ncls; continue; } if (cls == TQUnicodeTables::LineBreak_SA && ncls == TQUnicodeTables::LineBreak_SA) { // two complex chars (thai or lao), thai_attributes might override, but here // we do a best guess charAttributes[i].softBreak = TRUE; charAttributes[i].whiteSpace = FALSE; charAttributes[i].charStop = TRUE; cls = ncls; continue; } { int tcls = ncls; if (tcls >= TQUnicodeTables::LineBreak_SA) tcls = TQUnicodeTables::LineBreak_ID; if (cls >= TQUnicodeTables::LineBreak_SA) cls = TQUnicodeTables::LineBreak_ID; bool softBreak; int brk = breakTable[cls][tcls]; if (brk == Ibk) softBreak = (cls == TQUnicodeTables::LineBreak_SP); else softBreak = (brk == Dbk); // qDebug("char = %c %04x, cls=%d, ncls=%d, brk=%d soft=%d", uc[i].cell(), uc[i].unicode(), cls, ncls, brk, charAttributes[i].softBreak); charAttributes[i].softBreak = softBreak; charAttributes[i].whiteSpace = FALSE; charAttributes[i].charStop = TRUE; cls = ncls; } continue; nsm: charAttributes[i].softBreak = FALSE; charAttributes[i].whiteSpace = FALSE; charAttributes[i].charStop = FALSE; } } #if defined( Q_WS_X11 ) || defined ( Q_WS_QWS ) # include "qtextengine_unix.cpp" #elif defined( Q_WS_WIN ) # include "qtextengine_win.cpp" #elif defined( Q_WS_MAC ) # include "qtextengine_mac.cpp" #endif TQTextEngine::TQTextEngine( const TQString &str, TQFontPrivate *f ) : string( str ), fnt( f ), direction( TQChar::DirON ), haveCharAttributes( FALSE ), widthOnly( FALSE ) { #ifdef Q_WS_WIN if ( !resolvedUsp10 ) resolveUsp10(); #endif if ( fnt ) fnt->ref(); num_glyphs = TQMAX( 16, str.length()*3/2 ); int space_charAttributes = (sizeof(TQCharAttributes)*str.length()+sizeof(void*)-1)/sizeof(void*); int space_logClusters = (sizeof(unsigned short)*str.length()+sizeof(void*)-1)/sizeof(void*); int space_glyphs = (sizeof(glyph_t)*num_glyphs+sizeof(void*)-1)/sizeof(void*); int space_advances = (sizeof(advance_t)*num_glyphs+sizeof(void*)-1)/sizeof(void*); int space_offsets = (sizeof(qoffset_t)*num_glyphs+sizeof(void*)-1)/sizeof(void*); int space_glyphAttributes = (sizeof(GlyphAttributes)*num_glyphs+sizeof(void*)-1)/sizeof(void*); allocated = space_charAttributes + space_glyphs + space_advances + space_offsets + space_logClusters + space_glyphAttributes; memory = (void **)::malloc( allocated*sizeof( void * ) ); memset( memory, 0, allocated*sizeof( void * ) ); void **m = memory; m += space_charAttributes; logClustersPtr = (unsigned short *) m; m += space_logClusters; glyphPtr = (glyph_t *) m; m += space_glyphs; advancePtr = (advance_t *) m; m += space_advances; offsetsPtr = (qoffset_t *) m; m += space_offsets; glyphAttributesPtr = (GlyphAttributes *) m; used = 0; } TQTextEngine::~TQTextEngine() { if ( fnt && fnt->deref()) delete fnt; free( memory ); allocated = 0; } void TQTextEngine::reallocate( int totalGlyphs ) { int new_num_glyphs = totalGlyphs; int space_charAttributes = (sizeof(TQCharAttributes)*string.length()+sizeof(void*)-1)/sizeof(void*); int space_logClusters = (sizeof(unsigned short)*string.length()+sizeof(void*)-1)/sizeof(void*); int space_glyphs = (sizeof(glyph_t)*new_num_glyphs+sizeof(void*)-1)/sizeof(void*); int space_advances = (sizeof(advance_t)*new_num_glyphs+sizeof(void*)-1)/sizeof(void*); int space_offsets = (sizeof(qoffset_t)*new_num_glyphs+sizeof(void*)-1)/sizeof(void*); int space_glyphAttributes = (sizeof(GlyphAttributes)*new_num_glyphs+sizeof(void*)-1)/sizeof(void*); int newAllocated = space_charAttributes + space_glyphs + space_advances + space_offsets + space_logClusters + space_glyphAttributes; void ** newMemory = (void **)::malloc( newAllocated*sizeof( void * ) ); void **nm = newMemory; memcpy( nm, memory, string.length()*sizeof(TQCharAttributes) ); nm += space_charAttributes; memcpy( nm, logClustersPtr, num_glyphs*sizeof(unsigned short) ); logClustersPtr = (unsigned short *) nm; nm += space_logClusters; memcpy( nm, glyphPtr, num_glyphs*sizeof(glyph_t) ); glyphPtr = (glyph_t *) nm; nm += space_glyphs; memcpy( nm, advancePtr, num_glyphs*sizeof(advance_t) ); advancePtr = (advance_t *) nm; nm += space_advances; memcpy( nm, offsetsPtr, num_glyphs*sizeof(qoffset_t) ); offsetsPtr = (qoffset_t *) nm; nm += space_offsets; memcpy( nm, glyphAttributesPtr, num_glyphs*sizeof(GlyphAttributes) ); glyphAttributesPtr = (GlyphAttributes *) nm; free( memory ); memory = newMemory; allocated = newAllocated; num_glyphs = new_num_glyphs; } const TQCharAttributes *TQTextEngine::attributes() { TQCharAttributes *charAttributes = (TQCharAttributes *) memory; if ( haveCharAttributes ) return charAttributes; if ( !items.d ) itemize(); ensureSpace(string.length()); charAttributes = (TQCharAttributes *) memory; calcLineBreaks(string, charAttributes); for ( int i = 0; i < items.size(); i++ ) { TQScriptItem &si = items[i]; #ifdef Q_WS_WIN int script = uspScriptForItem(this, i); #else int script = si.analysis.script; #endif Q_ASSERT( script < TQFont::NScripts ); AttributeFunction attributes = scriptEngines[script].charAttributes; if (!attributes) continue; int from = si.position; int len = length( i ); attributes( script, string, from, len, charAttributes ); } haveCharAttributes = TRUE; return charAttributes; } void TQTextEngine::splitItem( int item, int pos ) { if ( pos <= 0 ) return; // we have to ensure we get correct shaping for arabic and other // complex languages so we have to call shape _before_ we split the item. shape(item); if ( items.d->size == items.d->alloc ) items.resize( items.d->size + 1 ); int numMove = items.d->size - item-1; if ( numMove > 0 ) memmove( items.d->items + item+2, items.d->items +item+1, numMove*sizeof( TQScriptItem ) ); items.d->size++; TQScriptItem &newItem = items.d->items[item+1]; TQScriptItem &oldItem = items.d->items[item]; newItem = oldItem; items.d->items[item+1].position += pos; if ( newItem.fontEngine ) newItem.fontEngine->ref(); if (oldItem.num_glyphs) { // already shaped, break glyphs aswell int breakGlyph = logClusters(&oldItem)[pos]; newItem.num_glyphs = oldItem.num_glyphs - breakGlyph; oldItem.num_glyphs = breakGlyph; newItem.glyph_data_offset = oldItem.glyph_data_offset + breakGlyph; for (int i = 0; i < newItem.num_glyphs; i++) logClusters(&newItem)[i] -= breakGlyph; int w = 0; const advance_t *a = advances(&oldItem); for(int j = 0; j < breakGlyph; ++j) w += *(a++); newItem.width = oldItem.width - w; oldItem.width = w; } // qDebug("split at position %d itempos=%d", pos, item ); } int TQTextEngine::width( int from, int len ) const { int w = 0; // qDebug("TQTextEngine::width( from = %d, len = %d ), numItems=%d, strleng=%d", from, len, items.size(), string.length() ); for ( int i = 0; i < items.size(); i++ ) { TQScriptItem *si = &items[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 ); advance_t *advances = this->advances( 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 += advances[i]; } } } // qDebug(" --> w= %d ", w ); return w; } void TQTextEngine::itemize( int mode ) { if ( !items.d ) { int size = 8; items.d = (TQScriptItemArrayPrivate *)malloc( sizeof( TQScriptItemArrayPrivate ) + sizeof( TQScriptItem ) * size ); items.d->alloc = size; } items.d->size = 0; if ( string.length() == 0 ) return; if ( !(mode & NoBidi) ) { if ( direction == TQChar::DirON ) direction = basicDirection( string ); bidiItemize( this, direction == TQChar::DirR, mode ); } else { BidiControl control( FALSE ); if ( mode & TQTextEngine::SingleLine ) control.singleLine = TRUE; int start = 0; int stop = string.length() - 1; appendItems(this, start, stop, control, TQChar::DirL); } if ( (mode & WidthOnly) == WidthOnly ) widthOnly = TRUE; } glyph_metrics_t TQTextEngine::boundingBox( int from, int len ) const { glyph_metrics_t gm; for ( int i = 0; i < items.size(); i++ ) { TQScriptItem *si = &items[i]; int pos = si->position; int ilen = length( i ); if ( pos > from + len ) break; if ( pos + len > from ) { if ( !si->num_glyphs ) shape( i ); advance_t *advances = this->advances( si ); unsigned short *logClusters = this->logClusters( si ); glyph_t *glyphs = this->glyphs( si ); qoffset_t *offsets = this->offsets( 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 ) { TQFontEngine *fe = si->fontEngine; glyph_metrics_t m = fe->boundingBox( glyphs+glyphStart, advances+glyphStart, offsets+glyphStart, glyphEnd-glyphStart ); gm.x = TQMIN( gm.x, m.x + gm.xoff ); gm.y = TQMIN( gm.y, m.y + gm.yoff ); gm.width = TQMAX( gm.width, m.width+gm.xoff ); gm.height = TQMAX( gm.height, m.height+gm.yoff ); gm.xoff += m.xoff; gm.yoff += m.yoff; } } } } return gm; }