/**************************************************************************** ** ** ??? ** ** Copyright (C) 2003-2008 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 "qfontengine_p.h" // #define FONTENGINE_DEBUG #include #include #include #include "qbitmap.h" #include "qfontdatabase.h" #include "qpaintdevice.h" #include "qpaintdevicemetrics.h" #include "qpainter.h" #include "qimage.h" #include "qt_x11_p.h" #include "qfont.h" #include "qtextengine_p.h" #include #include // defined in qfontdatbase_x11.cpp extern int qt_mib_for_xlfd_encoding( const char *encoding ); extern int qt_xlfd_encoding_id( const char *encoding ); extern void qt_draw_transformed_rect( TQPainter *p, int x, int y, int w, int h, bool fill ); static void drawLines( TQPainter *p, TQFontEngine *fe, int baseline, int x1, int w, int textFlags ) { int lw = fe->lineThickness(); if ( textFlags & TQt::Underline ) { int pos = fe->underlinePosition(); qt_draw_transformed_rect( p, x1, baseline+pos, w, lw, TRUE ); } if ( textFlags & TQt::Overline ) { int pos = fe->ascent()+1; if ( !pos ) pos = 1; qt_draw_transformed_rect( p, x1, baseline-pos, w, lw, TRUE ); } if ( textFlags & TQt::StrikeOut ) { int pos = fe->ascent()/3; if ( !pos ) pos = 1; qt_draw_transformed_rect( p, x1, baseline-pos, w, lw, TRUE ); } } inline static void qSafeXDestroyImage( XImage *x ) { if ( x->data ) { free( x->data ); x->data = 0; } XDestroyImage( x ); } extern bool qt_xForm_helper( const TQWMatrix &trueMat, int xoffset, int type, int depth, uchar *dptr, int dbpl, int p_inc, int dHeight, uchar *sptr, int sbpl, int sWidth, int sHeight ); static TQBitmap transform(Display *dpy, const TQBitmap &source, int xoff, int yoff, int w, int h, const TQWMatrix &matrix) { int ws = source.width(); int hs = source.height(); bool invertible; TQWMatrix mat = matrix.invert( &invertible ); // invert matrix if (!invertible ) return TQBitmap(); mat.translate(xoff, yoff); XImage *xi = XGetImage(dpy, source.handle(), 0, 0, ws, hs, AllPlanes, XYPixmap); if ( !xi ) return TQBitmap(); int sbpl = xi->bytes_per_line; uchar *sptr = (uchar *)xi->data; int dbpl = (w+7)/8; int dbytes = dbpl*h; uchar *dptr = (uchar *)malloc( dbytes ); // create buffer for bits memset( dptr, 0, dbytes ); int type = xi->bitmap_bit_order == MSBFirst ? QT_XFORM_TYPE_MSBFIRST : QT_XFORM_TYPE_LSBFIRST; int xbpl, p_inc; xbpl = (w+7)/8; p_inc = dbpl - xbpl; bool ok = qt_xForm_helper( mat, xi->xoffset, type, 1, dptr, xbpl, p_inc, h, sptr, sbpl, ws, hs ); qSafeXDestroyImage(xi); TQBitmap bm; if (ok) { bm = TQBitmap( w, h, dptr, TQImage::systemBitOrder() != TQImage::BigEndian ); } else { #if defined(QT_CHECK_RANGE) qWarning( "TQFontEngineXft::tranform: xform failed"); #endif } free( dptr ); return bm; } static void drawScaled(int x, int y, const TQTextEngine *engine, const TQScriptItem *si, int textFlags, Display *dpy, GC gc, TQPaintDevice *pdev, TQFontEngine *fe, const TQWMatrix &xmat, float scale) { // font doesn't support transformations, need to do it by hand int w = qRound(si->width/scale); int h = qRound((si->ascent + si->descent + 1)/scale); if (w == 0 || h == 0) return; TQWMatrix mat1 = xmat; mat1.scale(scale, scale); w += h; // add some pixels to width because of italic correction TQBitmap bm( w, h, TRUE ); // create bitmap TQPainter paint; paint.begin( &bm ); // draw text in bitmap fe->draw( &paint, 0, si->ascent/scale, engine, si, textFlags ); paint.end(); TQRect pdevRect; if (pdev->devType() == TQInternal::Widget) pdevRect = ((TQWidget *)pdev)->rect(); else if (pdev->devType() == TQInternal::Pixmap) pdevRect = ((TQPixmap *)pdev)->rect(); else return; TQRect br = mat1.mapRect(TQRect(x, y - si->ascent, w, h)); TQRect br2 = br & pdevRect; if (br2.width() <= 0 || br2.height() <= 0 || br2.width() >= 32768 || br2.height() >= 32768) return; TQWMatrix mat = TQPixmap::trueMatrix( mat1, w, h ); TQBitmap wx_bm = ::transform(dpy, bm, br2.x() - br.x(), br2.y() - br.y(), br2.width(), br2.height(), mat); if ( wx_bm.isNull() ) return; x = br2.x(); y = br2.y(); TQt::HANDLE hd = pdev->handle(); XSetFillStyle( dpy, gc, FillStippled ); XSetStipple( dpy, gc, wx_bm.handle() ); XSetTSOrigin( dpy, gc, x, y ); XFillRectangle( dpy, hd, gc, x, y, wx_bm.width(), wx_bm.height() ); XSetTSOrigin( dpy, gc, 0, 0 ); XSetFillStyle( dpy, gc, FillSolid ); } TQFontEngine::~TQFontEngine() { } int TQFontEngine::lineThickness() const { // ad hoc algorithm int score = fontDef.weight * fontDef.pixelSize; int lw = score / 700; // looks better with thicker line for small pointsizes if ( lw < 2 && score >= 1050 ) lw = 2; if ( lw == 0 ) lw = 1; return lw; } int TQFontEngine::underlinePosition() const { int pos = ( ( lineThickness() * 2 ) + 3 ) / 6; return pos ? pos : 1; } // ------------------------------------------------------------------ // The box font engine // ------------------------------------------------------------------ TQFontEngineBox::TQFontEngineBox( int size ) : _size( size ) { cache_cost = sizeof( TQFontEngineBox ); } TQFontEngineBox::~TQFontEngineBox() { } TQFontEngine::Error TQFontEngineBox::stringToCMap( const TQChar *, int len, glyph_t *glyphs, advance_t *advances, int *nglyphs, bool ) const { if ( *nglyphs < len ) { *nglyphs = len; return OutOfMemory; } memset( glyphs, 0, len * sizeof( glyph_t ) ); *nglyphs = len; if ( advances ) { for ( int i = 0; i < len; i++ ) *(advances++) = _size; } return NoError; } void TQFontEngineBox::draw( TQPainter *p, int x, int y, const TQTextEngine *engine, const TQScriptItem *si, int textFlags ) { Display *dpy = TQPaintDevice::x11AppDisplay(); TQt::HANDLE hd = p->device()->handle(); GC gc = p->gc; #ifdef FONTENGINE_DEBUG p->save(); p->setBrush( TQt::white ); glyph_metrics_t ci = boundingBox( glyphs, offsets, numGlyphs ); p->drawRect( x + ci.x, y + ci.y, ci.width, ci.height ); p->drawRect( x + ci.x, y + 50 + ci.y, ci.width, ci.height ); qDebug("bounding rect=%d %d (%d/%d)", ci.x, ci.y, ci.width, ci.height ); p->restore(); int xp = x; int yp = y; #endif GlyphAttributes *glyphAttributes = engine->glyphAttributes( si ); if ( p->txop > TQPainter::TxTranslate ) { int xp = x; int yp = _size + 2; int s = _size - 3; for (int k = 0; k < si->num_glyphs; k++) { if (!glyphAttributes[k].zeroWidth) qt_draw_transformed_rect( p, xp, yp, s, s, FALSE ); xp += _size; } } else { if ( p->txop == TQPainter::TxTranslate ) p->map( x, y, &x, &y ); XRectangle rects[64]; int gl = 0; while (gl < si->num_glyphs) { int toDraw = TQMIN(64, si->num_glyphs-gl); int adv = toDraw*_size; if (x + adv < SHRT_MAX && x > SHRT_MIN) { int ng = 0; for (int k = 0; k < toDraw; k++) { if (!glyphAttributes[gl + k].zeroWidth) { rects[ng].x = x + (k * _size); rects[ng].y = y - _size + 2; rects[ng].width = rects[k].height = _size - 3; ++ng; } } XDrawRectangles(dpy, hd, gc, rects, ng); } gl += toDraw; x += adv; } } if ( textFlags != 0 ) drawLines( p, this, y, x, si->num_glyphs*_size, textFlags ); #ifdef FONTENGINE_DEBUG x = xp; y = yp; p->save(); p->setPen( TQt::red ); for ( int i = 0; i < numGlyphs; i++ ) { glyph_metrics_t ci = boundingBox( glyphs[i] ); x += offsets[i].x; y += offsets[i].y; p->drawRect( x + ci.x, y + 50 + ci.y, ci.width, ci.height ); qDebug("bounding ci[%d]=%d %d (%d/%d) / %d %d offset=(%d/%d)", i, ci.x, ci.y, ci.width, ci.height, ci.xoff, ci.yoff, offsets[i].x, offsets[i].y ); x += ci.xoff; y += ci.yoff; } p->restore(); #endif } glyph_metrics_t TQFontEngineBox::boundingBox( const glyph_t *, const advance_t *, const qoffset_t *, int numGlyphs ) { glyph_metrics_t overall; overall.x = overall.y = 0; overall.width = _size*numGlyphs; overall.height = _size; overall.xoff = overall.width; overall.yoff = 0; return overall; } glyph_metrics_t TQFontEngineBox::boundingBox( glyph_t ) { return glyph_metrics_t( 0, _size, _size, _size, _size, 0 ); } int TQFontEngineBox::ascent() const { return _size; } int TQFontEngineBox::descent() const { return 0; } int TQFontEngineBox::leading() const { int l = qRound( _size * 0.15 ); return (l > 0) ? l : 1; } int TQFontEngineBox::maxCharWidth() const { return _size; } int TQFontEngineBox::cmap() const { return -1; } const char *TQFontEngineBox::name() const { return "null"; } bool TQFontEngineBox::canRender( const TQChar *, int ) { return TRUE; } TQFontEngine::Type TQFontEngineBox::type() const { return Box; } // ------------------------------------------------------------------ // Xlfd cont engine // ------------------------------------------------------------------ static inline XCharStruct *charStruct( XFontStruct *xfs, uint ch ) { XCharStruct *xcs = 0; unsigned char r = ch>>8; unsigned char c = ch&0xff; if ( r >= xfs->min_byte1 && r <= xfs->max_byte1 && c >= xfs->min_char_or_byte2 && c <= xfs->max_char_or_byte2) { if ( !xfs->per_char ) xcs = &(xfs->min_bounds); else { xcs = xfs->per_char + ((r - xfs->min_byte1) * (xfs->max_char_or_byte2 - xfs->min_char_or_byte2 + 1)) + (c - xfs->min_char_or_byte2); if (xcs->width == 0 && xcs->ascent == 0 && xcs->descent == 0) xcs = 0; } } return xcs; } TQFontEngineXLFD::TQFontEngineXLFD( XFontStruct *fs, const char *name, int mib ) : _fs( fs ), _name( name ), _codec( 0 ), _scale( 1. ), _cmap( mib ) { if ( _cmap ) _codec = TQTextCodec::codecForMib( _cmap ); cache_cost = (((fs->max_byte1 - fs->min_byte1) * (fs->max_char_or_byte2 - fs->min_char_or_byte2 + 1)) + fs->max_char_or_byte2 - fs->min_char_or_byte2); cache_cost = ((fs->max_bounds.ascent + fs->max_bounds.descent) * (fs->max_bounds.width * cache_cost / 8)); lbearing = SHRT_MIN; rbearing = SHRT_MIN; #if 1 // Server side transformations do not seem to work correctly for // all types of fonts (for example, it works for bdf/pcf fonts, // but not for ttf). It also seems to be extermely server // dependent. The best thing is to just disable server side // transformations until either server support matures or we // figure out a better way to do it. xlfd_transformations = XlfdTrUnsupported; #else xlfd_transformations = XlfdTrUnknown; // Hummingbird's Exceed X server will substitute 'fixed' for any // known fonts, and it doesn't seem to support transformations, so // we should never try to use xlfd transformations with it if (strstr(ServerVendor(TQPaintDevice::x11AppDisplay()), "Hummingbird")) xlfd_transformations = XlfdTrUnsupported; #endif } TQFontEngineXLFD::~TQFontEngineXLFD() { XFreeFont( TQPaintDevice::x11AppDisplay(), _fs ); _fs = 0; TransformedFont *trf = transformed_fonts; while ( trf ) { XUnloadFont( TQPaintDevice::x11AppDisplay(), trf->xlfd_font ); TransformedFont *tmp = trf; trf = trf->next; delete tmp; } } TQFontEngine::Error TQFontEngineXLFD::stringToCMap( const TQChar *str, int len, glyph_t *glyphs, advance_t *advances, int *nglyphs, bool mirrored ) const { if ( *nglyphs < len ) { *nglyphs = len; return OutOfMemory; } if ( _codec ) { bool haveNbsp = FALSE; for ( int i = 0; i < len; i++ ) if ( str[i].unicode() == 0xa0 ) { haveNbsp = TRUE; break; } TQChar *chars = (TQChar *)str; if ( haveNbsp || mirrored ) { chars = (TQChar *)malloc( len*sizeof(TQChar) ); for ( int i = 0; i < len; i++ ) chars[i] = (str[i].unicode() == 0xa0 ? 0x20 : (mirrored ? ::mirroredChar(str[i]).unicode() : str[i].unicode())); } _codec->fromUnicodeInternal( chars, glyphs, len ); if (chars != str) free( chars ); } else { glyph_t *g = glyphs + len; const TQChar *c = str + len; if ( mirrored ) { while ( c != str ) *(--g) = (--c)->unicode() == 0xa0 ? 0x20 : ::mirroredChar(*c).unicode(); } else { while ( c != str ) *(--g) = (--c)->unicode() == 0xa0 ? 0x20 : c->unicode(); } } *nglyphs = len; if ( advances ) { glyph_t *g = glyphs + len; advance_t *a = advances + len; XCharStruct *xcs; // inlined for better perfomance if ( !_fs->per_char ) { xcs = &_fs->min_bounds; while ( a != advances ) *(--a) = xcs->width; } else if ( !_fs->max_byte1 ) { XCharStruct *base = _fs->per_char - _fs->min_char_or_byte2; while ( g-- != glyphs ) { unsigned int gl = *g; xcs = (gl >= _fs->min_char_or_byte2 && gl <= _fs->max_char_or_byte2) ? base + gl : 0; *(--a) = (!xcs || (!xcs->width && !xcs->ascent && !xcs->descent)) ? _fs->ascent : xcs->width; } } else { while ( g != glyphs ) { xcs = charStruct( _fs, *(--g) ); *(--a) = (xcs ? xcs->width : _fs->ascent); } } if ( _scale != 1. ) { for ( int i = 0; i < len; i++ ) advances[i] = qRound(advances[i]*_scale); } } return NoError; } #if defined(Q_C_CALLBACKS) extern "C" { #endif static bool x_font_load_error = FALSE; static int x_font_errorhandler(Display *, XErrorEvent *) { x_font_load_error = TRUE; return 0; } #if defined(Q_C_CALLBACKS) } #endif void TQFontEngineXLFD::draw( TQPainter *p, int x, int y, const TQTextEngine *engine, const TQScriptItem *si, int textFlags ) { if ( !si->num_glyphs ) return; // qDebug("TQFontEngineXLFD::draw( %d, %d, numglyphs=%d", x, y, si->num_glyphs ); Display *dpy = TQPaintDevice::x11AppDisplay(); TQt::HANDLE hd = p->device()->handle(); GC gc = p->gc; bool transform = FALSE; int xorig = x; int yorig = y; TQt::HANDLE font_id = _fs->fid; if ( p->txop > TQPainter::TxTranslate || _scale < 0.9999 || _scale > 1.0001 ) { bool degenerate = TQABS( p->m11()*p->m22() - p->m12()*p->m21() ) < 0.01; if ( !degenerate && xlfd_transformations != XlfdTrUnsupported ) { // need a transformed font from the server TQCString xlfd_transformed = _name; int field = 0; char *data = xlfd_transformed.data(); int pos = 0; while ( field < 7 ) { if ( data[pos] == '-' ) field++; pos++; } int endPos = pos; while ( data[endPos] != '-' ) endPos++; float size = xlfd_transformed.mid( pos, endPos-pos ).toInt(); float mat[4]; mat[0] = p->m11()*size*_scale; mat[1] = -p->m12()*size*_scale; mat[2] = -p->m21()*size*_scale; mat[3] = p->m22()*size*_scale; // check if we have it cached TransformedFont *trf = transformed_fonts; TransformedFont *prev = 0; int i = 0; while ( trf ) { if ( trf->xx == mat[0] && trf->xy == mat[1] && trf->yx == mat[2] && trf->yy == mat[3] ) break; TransformedFont *tmp = trf; trf = trf->next; if (i > 10) { XUnloadFont( TQPaintDevice::x11AppDisplay(), tmp->xlfd_font ); delete tmp; prev->next = trf; } else { prev = tmp; } ++i; } if ( trf ) { if ( prev ) { // move to beginning of list prev->next = trf->next; trf->next = transformed_fonts; transformed_fonts = trf; } font_id = trf->xlfd_font; } else { TQCString matrix="["; for ( int i = 0; i < 4; i++ ) { float f = mat[i]; if ( f < 0 ) { matrix += '~'; f = -f; } matrix += TQString::number( f, 'f', 5 ).latin1(); matrix += ' '; } matrix += ']'; //qDebug("m: %2.2f %2.2f %2.2f %2.2f, matrix=%s", p->m11(), p->m12(), p->m21(), p->m22(), matrix.data()); xlfd_transformed.replace( pos, endPos-pos, matrix ); x_font_load_error = FALSE; XErrorHandler old_handler = XSetErrorHandler( x_font_errorhandler ); font_id = XLoadFont( dpy, xlfd_transformed.data() ); XSync( dpy, FALSE ); XSetErrorHandler( old_handler ); if ( x_font_load_error ) { //qDebug( "couldn't load transformed font" ); font_id = _fs->fid; xlfd_transformations = XlfdTrUnsupported; } else { TransformedFont *trf = new TransformedFont; trf->xx = mat[0]; trf->xy = mat[1]; trf->yx = mat[2]; trf->yy = mat[3]; trf->xlfd_font = font_id; trf->next = transformed_fonts; transformed_fonts = trf; } } } if ( degenerate || xlfd_transformations == XlfdTrUnsupported ) { // XServer or font don't support server side transformations, need to do it by hand float tmp = _scale; _scale = 1.; drawScaled(x, y, engine, si, textFlags, dpy, p->gc, p->device(), this, p->xmat, tmp); _scale = tmp; return; } transform = TRUE; } else if ( p->txop == TQPainter::TxTranslate ) { p->map( x, y, &x, &y ); } XSetFont(dpy, gc, font_id); #ifdef FONTENGINE_DEBUG p->save(); p->setBrush( TQt::white ); glyph_metrics_t ci = boundingBox( glyphs, advances, offsets, si->num_glyphs ); p->drawRect( x + ci.x, y + ci.y, ci.width, ci.height ); p->drawRect( x + ci.x, y + 100 + ci.y, ci.width, ci.height ); qDebug("bounding rect=%d %d (%d/%d)", ci.x, ci.y, ci.width, ci.height ); p->restore(); int xp = x; int yp = y; #endif glyph_t *glyphs = engine->glyphs( si ); advance_t *advances = engine->advances( si ); qoffset_t *offsets = engine->offsets( si ); XChar2b ch[256]; XChar2b *chars = ch; if ( si->num_glyphs > 255 ) chars = (XChar2b *)malloc( si->num_glyphs*sizeof(XChar2b) ); for (int i = 0; i < si->num_glyphs; i++) { chars[i].byte1 = glyphs[i] >> 8; chars[i].byte2 = glyphs[i] & 0xff; } int xpos = x; GlyphAttributes *glyphAttributes = engine->glyphAttributes( si ); if ( si->analysis.bidiLevel % 2 ) { int i = si->num_glyphs; while( i-- ) { advance_t adv = advances[i]; // qDebug("advance = %d/%d", adv.x, adv.y ); x += adv; glyph_metrics_t gi = boundingBox( glyphs[i] ); int xp = x-offsets[i].x-gi.xoff; int yp = y+offsets[i].y-gi.yoff; if ( transform ) p->map( xp, yp, &xp, &yp ); if (!glyphAttributes[i].zeroWidth && xp < SHRT_MAX && xp > SHRT_MIN) XDrawString16(dpy, hd, gc, xp, yp, chars+i, 1 ); } } else { if ( transform || si->hasPositioning ) { int i = 0; while( i < si->num_glyphs ) { int xp = x+offsets[i].x; int yp = y+offsets[i].y; if ( transform ) p->map( xp, yp, &xp, &yp ); if (!glyphAttributes[i].zeroWidth && xp < SHRT_MAX && xp > SHRT_MIN) XDrawString16(dpy, hd, gc, xp, yp, chars+i, 1 ); advance_t adv = advances[i]; // qDebug("advance = %d/%d", adv.x, adv.y ); x += adv; i++; } } else { // we can take a shortcut int gl = 0; while (gl < si->num_glyphs) { int toDraw = TQMIN(64, si->num_glyphs-gl); int adv = 0; for (int i = gl; i < gl+toDraw; ++i) adv += advances[i]; if (x + adv < SHRT_MAX && x > SHRT_MIN) XDrawString16(dpy, hd, gc, x, y, chars+gl, toDraw); gl += toDraw; x += adv; } } } if ( chars != ch ) free( chars ); if ( textFlags != 0 ) drawLines( p, this, yorig, xorig, x-xpos, textFlags ); #ifdef FONTENGINE_DEBUG x = xp; y = yp; p->save(); p->setPen( TQt::red ); for ( int i = 0; i < si->num_glyphs; i++ ) { glyph_metrics_t ci = boundingBox( glyphs[i] ); p->drawRect( x + ci.x + offsets[i].x, y + 100 + ci.y + offsets[i].y, ci.width, ci.height ); qDebug("bounding ci[%d]=%d %d (%d/%d) / %d %d offs=(%d/%d) advance=(%d/%d)", i, ci.x, ci.y, ci.width, ci.height, ci.xoff, ci.yoff, offsets[i].x, offsets[i].y, advances[i].x, advances[i].y); x += advances[i].x; y += advances[i].y; } p->restore(); #endif } glyph_metrics_t TQFontEngineXLFD::boundingBox( const glyph_t *glyphs, const advance_t *advances, const qoffset_t *offsets, int numGlyphs ) { int i; glyph_metrics_t overall; int ymax = 0; int xmax = 0; for (i = 0; i < numGlyphs; i++) { XCharStruct *xcs = charStruct( _fs, glyphs[i] ); if (xcs) { int x = overall.xoff + offsets[i].x - xcs->lbearing; int y = overall.yoff + offsets[i].y - xcs->ascent; overall.x = TQMIN( overall.x, x ); overall.y = TQMIN( overall.y, y ); xmax = TQMAX( xmax, overall.xoff + offsets[i].x + xcs->rbearing ); ymax = TQMAX( ymax, y + xcs->ascent + xcs->descent ); overall.xoff += qRound(advances[i]/_scale); } else { int size = _fs->ascent; overall.x = TQMIN(overall.x, overall.xoff ); overall.y = TQMIN(overall.y, overall.yoff - size ); ymax = TQMAX( ymax, overall.yoff ); overall.xoff += size; xmax = TQMAX( xmax, overall.xoff ); } } overall.height = ymax - overall.y; overall.width = xmax - overall.x; if ( _scale != 1. ) { overall.x = qRound(overall.x * _scale); overall.y = qRound(overall.y * _scale); overall.height = qRound(overall.height * _scale); overall.width = qRound(overall.width * _scale); overall.xoff = qRound(overall.xoff * _scale); overall.yoff = qRound(overall.yoff * _scale); } return overall; } glyph_metrics_t TQFontEngineXLFD::boundingBox( glyph_t glyph ) { glyph_metrics_t gm; // ### scale missing! XCharStruct *xcs = charStruct( _fs, glyph ); if (xcs) { gm = glyph_metrics_t( xcs->lbearing, -xcs->ascent, xcs->rbearing- xcs->lbearing, xcs->ascent + xcs->descent, xcs->width, 0 ); } else { int size = _fs->ascent; gm = glyph_metrics_t( 0, size, size, size, size, 0 ); } if ( _scale != 1. ) { gm.x = qRound(gm.x * _scale); gm.y = qRound(gm.y * _scale); gm.height = qRound(gm.height * _scale); gm.width = qRound(gm.width * _scale); gm.xoff = qRound(gm.xoff * _scale); gm.yoff = qRound(gm.yoff * _scale); } return gm; } int TQFontEngineXLFD::ascent() const { return qRound(_fs->ascent*_scale); } int TQFontEngineXLFD::descent() const { return qRound((_fs->descent-1)*_scale); } int TQFontEngineXLFD::leading() const { int l = qRound((TQMIN(_fs->ascent, _fs->max_bounds.ascent) + TQMIN(_fs->descent, _fs->max_bounds.descent)) * _scale * 0.15 ); return (l > 0) ? l : 1; } int TQFontEngineXLFD::maxCharWidth() const { return qRound(_fs->max_bounds.width*_scale); } // Loads the font for the specified script static inline int maxIndex(XFontStruct *f) { return (((f->max_byte1 - f->min_byte1) * (f->max_char_or_byte2 - f->min_char_or_byte2 + 1)) + f->max_char_or_byte2 - f->min_char_or_byte2); } int TQFontEngineXLFD::minLeftBearing() const { if ( lbearing == SHRT_MIN ) { if ( _fs->per_char ) { XCharStruct *cs = _fs->per_char; int nc = maxIndex(_fs) + 1; int mx = cs->lbearing; for (int c = 1; c < nc; c++) { // ignore the bearings for characters whose ink is // completely outside the normal bounding box if ((cs[c].lbearing <= 0 && cs[c].rbearing <= 0) || (cs[c].lbearing >= cs[c].width && cs[c].rbearing >= cs[c].width)) continue; int nmx = cs[c].lbearing; if (nmx < mx) mx = nmx; } ((TQFontEngineXLFD *)this)->lbearing = mx; } else ((TQFontEngineXLFD *)this)->lbearing = _fs->min_bounds.lbearing; } return qRound (lbearing*_scale); } int TQFontEngineXLFD::minRightBearing() const { if ( rbearing == SHRT_MIN ) { if ( _fs->per_char ) { XCharStruct *cs = _fs->per_char; int nc = maxIndex(_fs) + 1; int mx = cs->rbearing; for (int c = 1; c < nc; c++) { // ignore the bearings for characters whose ink is // completely outside the normal bounding box if ((cs[c].lbearing <= 0 && cs[c].rbearing <= 0) || (cs[c].lbearing >= cs[c].width && cs[c].rbearing >= cs[c].width)) continue; int nmx = cs[c].rbearing; if (nmx < mx) mx = nmx; } ((TQFontEngineXLFD *)this)->rbearing = mx; } else ((TQFontEngineXLFD *)this)->rbearing = _fs->min_bounds.rbearing; } return qRound (rbearing*_scale); } int TQFontEngineXLFD::cmap() const { return _cmap; } const char *TQFontEngineXLFD::name() const { return _name; } bool TQFontEngineXLFD::canRender( const TQChar *string, int len ) { glyph_t glyphs[256]; int nglyphs = 255; glyph_t *g = glyphs; if ( stringToCMap( string, len, g, 0, &nglyphs, FALSE ) == OutOfMemory ) { g = (glyph_t *)malloc( nglyphs*sizeof(glyph_t) ); stringToCMap( string, len, g, 0, &nglyphs, FALSE ); } bool allExist = TRUE; for ( int i = 0; i < nglyphs; i++ ) { if ( !g[i] || !charStruct( _fs, g[i] ) ) { allExist = FALSE; break; } } if ( g != glyphs ) free( g ); return allExist; } void TQFontEngineXLFD::setScale( double scale ) { _scale = scale; } TQFontEngine::Type TQFontEngineXLFD::type() const { return XLFD; } // ------------------------------------------------------------------ // LatinXLFD engine // ------------------------------------------------------------------ static const int engine_array_inc = 4; TQFontEngineLatinXLFD::TQFontEngineLatinXLFD( XFontStruct *xfs, const char *name, int mib ) { _engines = new TQFontEngine*[ engine_array_inc ]; _engines[0] = new TQFontEngineXLFD( xfs, name, mib ); _count = 1; cache_cost = _engines[0]->cache_cost; memset( glyphIndices, 0, sizeof( glyphIndices ) ); memset( glyphAdvances, 0, sizeof( glyphAdvances ) ); euroIndex = 0; euroAdvance = 0; } TQFontEngineLatinXLFD::~TQFontEngineLatinXLFD() { for ( int i = 0; i < _count; ++i ) { delete _engines[i]; _engines[i] = 0; } delete [] _engines; _engines = 0; } void TQFontEngineLatinXLFD::findEngine( const TQChar &ch ) { if ( ch.unicode() == 0 ) return; static const char *alternate_encodings[] = { "iso8859-1", "iso8859-2", "iso8859-3", "iso8859-4", "iso8859-9", "iso8859-10", "iso8859-13", "iso8859-14", "iso8859-15", "hp-roman8" }; static const int mib_count = sizeof( alternate_encodings ) / sizeof( const char * ); // see if one of the above mibs can map the char we want TQTextCodec *codec = 0; int which = -1; int i; for ( i = 0; i < mib_count; ++i ) { const int mib = qt_mib_for_xlfd_encoding( alternate_encodings[i] ); bool skip = FALSE; for ( int e = 0; e < _count; ++e ) { if ( _engines[e]->cmap() == mib ) { skip = TRUE; break; } } if ( skip ) continue; codec = TQTextCodec::codecForMib( mib ); if ( codec && codec->canEncode( ch ) ) { which = i; break; } } if ( ! codec || which == -1 ) return; const int enc_id = qt_xlfd_encoding_id( alternate_encodings[which] ); TQFontDef req = fontDef; TQFontEngine *engine = TQFontDatabase::findFont( TQFont::Latin, 0, req, enc_id ); if ( ! engine ) { req.family = TQString::null; engine = TQFontDatabase::findFont( TQFont::Latin, 0, req, enc_id ); if ( ! engine ) return; } engine->setScale( scale() ); if ( ! ( _count % engine_array_inc ) ) { // grow the engines array TQFontEngine **old = _engines; int new_size = ( ( ( _count+engine_array_inc ) / engine_array_inc ) * engine_array_inc ); _engines = new TQFontEngine*[new_size]; for ( i = 0; i < _count; ++i ) _engines[i] = old[i]; delete [] old; } _engines[_count] = engine; const int hi = _count << 8; ++_count; unsigned short chars[0x201]; glyph_t glyphs[0x201]; advance_t advances[0x201]; for ( i = 0; i < 0x200; ++i ) chars[i] = i; chars[0x200] = 0x20ac; int glyphCount = 0x201; engine->stringToCMap( (const TQChar *) chars, 0x201, glyphs, advances, &glyphCount, FALSE ); // merge member data with the above for ( i = 0; i < 0x200; ++i ) { if ( glyphIndices[i] != 0 || glyphs[i] == 0 ) continue; glyphIndices[i] = glyphs[i] >= 0x2100 ? glyphs[i] : hi | glyphs[i]; glyphAdvances[i] = advances[i]; } if (!euroIndex && glyphs[0x200]) { euroIndex = hi | glyphs[0x200]; euroAdvance = advances[0x200]; } } TQFontEngine::Error TQFontEngineLatinXLFD::stringToCMap( const TQChar *str, int len, glyph_t *glyphs, advance_t *advances, int *nglyphs, bool mirrored ) const { if ( *nglyphs < len ) { *nglyphs = len; return OutOfMemory; } int i; bool missing = FALSE; const TQChar *c = str+len; glyph_t *g = glyphs+len; if ( advances ) { int asc = ascent(); advance_t *a = advances+len; if ( mirrored ) { while ( c != str ) { --c; --g; --a; if ( c->unicode() < 0x200 ) { unsigned short ch = ::mirroredChar(*c).unicode(); *g = glyphIndices[ch]; *a = glyphAdvances[ch]; } else { if ( c->unicode() == 0x20ac ) { *g = euroIndex; *a = euroAdvance; } else { *g = 0; *a = asc; } } missing = ( missing || ( *g == 0 ) ); } } else { while ( c != str ) { --c; --g; --a; if ( c->unicode() < 0x200 ) { *g = glyphIndices[c->unicode()]; *a = glyphAdvances[c->unicode()]; } else { if ( c->unicode() == 0x20ac ) { *g = euroIndex; *a = euroAdvance; } else { *g = 0; *a = asc; } } missing = ( missing || ( *g == 0 ) ); } } } else { if ( mirrored ) { while ( c != str ) { --c; --g; *g = ( ( c->unicode() < 0x200 ) ? glyphIndices[::mirroredChar(*c).unicode()] : (c->unicode() == 0x20ac) ? euroIndex : 0 ); missing = ( missing || ( *g == 0 ) ); } } else { while ( c != str ) { --c; --g; *g = ( ( c->unicode() < 0x200 ) ? glyphIndices[c->unicode()] : (c->unicode() == 0x20ac) ? euroIndex : 0 ); missing = ( missing || ( *g == 0 ) ); } } } if ( missing ) { for ( i = 0; i < len; ++i ) { unsigned short uc = str[i].unicode(); if ( glyphs[i] != 0 || (uc >= 0x200 && uc != 0x20ac) ) continue; TQFontEngineLatinXLFD *that = (TQFontEngineLatinXLFD *) this; that->findEngine( str[i] ); glyphs[i] = (uc == 0x20ac ? euroIndex : that->glyphIndices[uc]); if ( advances ) advances[i] = (uc == 0x20ac ? euroAdvance : glyphAdvances[uc]); } } *nglyphs = len; return NoError; } void TQFontEngineLatinXLFD::draw( TQPainter *p, int x, int y, const TQTextEngine *engine, const TQScriptItem *si, int textFlags ) { if ( !si->num_glyphs ) return; glyph_t *glyphs = engine->glyphs( si ); advance_t *advances = engine->advances( si ); int which = glyphs[0] >> 8; if (which > 0x20) which = 0; int start = 0; int end, i; for ( end = 0; end < si->num_glyphs; ++end ) { int e = glyphs[end] >> 8; if (e > 0x20) e = 0; if ( e == which ) continue; // set the high byte to zero if (which != 0) { for ( i = start; i < end; ++i ) glyphs[i] = glyphs[i] & 0xff; } // draw the text TQScriptItem si2 = *si; si2.glyph_data_offset = si->glyph_data_offset + start; si2.num_glyphs = end - start; _engines[which]->draw( p, x, y, engine, &si2, textFlags ); // reset the high byte for all glyphs and advance to the next sub-string const int hi = which << 8; for ( i = start; i < end; ++i ) { glyphs[i] = hi | glyphs[i]; x += advances[i]; } // change engine start = end; which = e; } // set the high byte to zero if (which != 0) { for ( i = start; i < end; ++i ) glyphs[i] = glyphs[i] & 0xff; } // draw the text TQScriptItem si2 = *si; si2.glyph_data_offset = si->glyph_data_offset + start; si2.num_glyphs = end - start; _engines[which]->draw( p, x, y, engine, &si2, textFlags ); // reset the high byte for all glyphs if (which != 0) { const int hi = which << 8; for ( i = start; i < end; ++i ) glyphs[i] = hi | glyphs[i]; } } glyph_metrics_t TQFontEngineLatinXLFD::boundingBox( const glyph_t *glyphs_const, const advance_t *advances, const qoffset_t *offsets, int numGlyphs ) { if ( numGlyphs <= 0 ) return glyph_metrics_t(); glyph_metrics_t overall; glyph_t *glyphs = (glyph_t *) glyphs_const; int which = glyphs[0] >> 8; if (which > 0x20) which = 0; int start = 0; int end, i; for ( end = 0; end < numGlyphs; ++end ) { int e = glyphs[end] >> 8; if (e > 0x20) e = 0; if ( e == which ) continue; // set the high byte to zero if (which != 0) { for ( i = start; i < end; ++i ) glyphs[i] = glyphs[i] & 0xff; } // merge the bounding box for this run const glyph_metrics_t gm = _engines[which]->boundingBox( glyphs + start, advances + start, offsets + start, end - start ); overall.x = TQMIN( overall.x, gm.x ); overall.y = TQMIN( overall.y, gm.y ); overall.width = overall.xoff + gm.width; overall.height = TQMAX( overall.height + overall.y, gm.height + gm.y ) - TQMIN( overall.y, gm.y ); overall.xoff += gm.xoff; overall.yoff += gm.yoff; // reset the high byte for all glyphs if (which != 0) { const int hi = which << 8; for ( i = start; i < end; ++i ) glyphs[i] = hi | glyphs[i]; } // change engine start = end; which = e; } // set the high byte to zero if (which != 0) { for ( i = start; i < end; ++i ) glyphs[i] = glyphs[i] & 0xff; } // merge the bounding box for this run const glyph_metrics_t gm = _engines[which]->boundingBox( glyphs + start, advances + start, offsets + start, end - start ); overall.x = TQMIN( overall.x, gm.x ); overall.y = TQMIN( overall.y, gm.y ); overall.width = overall.xoff + gm.width; overall.height = TQMAX( overall.height + overall.y, gm.height + gm.y ) - TQMIN( overall.y, gm.y ); overall.xoff += gm.xoff; overall.yoff += gm.yoff; // reset the high byte for all glyphs if (which != 0) { const int hi = which << 8; for ( i = start; i < end; ++i ) glyphs[i] = hi | glyphs[i]; } return overall; } glyph_metrics_t TQFontEngineLatinXLFD::boundingBox( glyph_t glyph ) { int engine = glyph >> 8; if (engine > 0x20) engine = 0; Q_ASSERT( engine < _count ); return _engines[engine]->boundingBox( engine > 0 ? glyph & 0xff : glyph ); } int TQFontEngineLatinXLFD::ascent() const { return _engines[0]->ascent(); } int TQFontEngineLatinXLFD::descent() const { return _engines[0]->descent(); } int TQFontEngineLatinXLFD::leading() const { return _engines[0]->leading(); } int TQFontEngineLatinXLFD::maxCharWidth() const { return _engines[0]->maxCharWidth(); } int TQFontEngineLatinXLFD::minLeftBearing() const { return _engines[0]->minLeftBearing(); } int TQFontEngineLatinXLFD::minRightBearing() const { return _engines[0]->minRightBearing(); } const char *TQFontEngineLatinXLFD::name() const { return _engines[0]->name(); } bool TQFontEngineLatinXLFD::canRender( const TQChar *string, int len ) { bool all = TRUE; int i; for ( i = 0; i < len; ++i ) { if ( string[i].unicode() >= 0x200 || glyphIndices[string[i].unicode()] == 0 ) { if (string[i].unicode() != 0x20ac || euroIndex == 0) all = FALSE; break; } } if ( all ) return TRUE; all = TRUE; for ( i = 0; i < len; ++i ) { if ( string[i].unicode() >= 0x200 ) { if (string[i].unicode() == 0x20ac) { if (euroIndex) continue; findEngine(string[i]); if (euroIndex) continue; } all = FALSE; break; } if ( glyphIndices[string[i].unicode()] != 0 ) continue; findEngine( string[i] ); if ( glyphIndices[string[i].unicode()] == 0 ) { all = FALSE; break; } } return all; } void TQFontEngineLatinXLFD::setScale( double scale ) { int i; for ( i = 0; i < _count; ++i ) _engines[i]->setScale( scale ); unsigned short chars[0x200]; for ( i = 0; i < 0x200; ++i ) chars[i] = i; int glyphCount = 0x200; _engines[0]->stringToCMap( (const TQChar *)chars, 0x200, glyphIndices, glyphAdvances, &glyphCount, FALSE ); } // ------------------------------------------------------------------ // Xft cont engine // ------------------------------------------------------------------ // #define FONTENGINE_DEBUG #ifndef QT_NO_XFTFREETYPE class Q_HackPaintDevice : public TQPaintDevice { public: inline Q_HackPaintDevice() : TQPaintDevice( 0 ) {} inline XftDraw *xftDrawHandle() const { return (XftDraw *)rendhd; } }; #ifdef QT_XFT2 static inline void getGlyphInfo( XGlyphInfo *xgi, XftFont *font, int glyph ) { FT_UInt x = glyph; XftGlyphExtents( TQPaintDevice::x11AppDisplay(), font, &x, 1, xgi ); } #else static inline XftFontStruct *getFontStruct( XftFont *font ) { if (font->core) return 0; return font->u.ft.font; } static inline void getGlyphInfo(XGlyphInfo *xgi, XftFont *font, int glyph) { XftTextExtents32(TQPaintDevice::x11AppDisplay(), font, (XftChar32 *) &glyph, 1, xgi); } #endif // QT_XFT2 static inline FT_Face lockFTFace( XftFont *font ) { #ifdef QT_XFT2 return XftLockFace( font ); #else if (font->core) return 0; return font->u.ft.font->face; #endif // QT_XFT2 } static inline void unlockFTFace( XftFont *font ) { #ifdef QT_XFT2 XftUnlockFace( font ); #else Q_UNUSED( font ); #endif // QT_XFT2 } TQFontEngineXft::TQFontEngineXft( XftFont *font, XftPattern *pattern, int cmap ) : _font( font ), _pattern( pattern ), _openType( 0 ), _cmap( cmap ) { _face = lockFTFace( _font ); #ifndef QT_XFT2 XftFontStruct *xftfs = getFontStruct( _font ); if ( xftfs ) { // dirty hack: we set the charmap in the Xftfreetype to -1, so // XftFreetype assumes no encoding and really draws glyph // indices. The FT_Face still has the Unicode encoding to we // can convert from Unicode to glyph index xftfs->charmap = -1; } #else _cmap = -1; // Xft maps Unicode and adobe roman for us. for (int i = 0; i < _face->num_charmaps; ++i) { FT_CharMap cm = _face->charmaps[i]; // qDebug("font has charmap %x", cm->encoding); if (cm->encoding == ft_encoding_adobe_custom || cm->encoding == ft_encoding_symbol) { // qDebug("font has adobe custom or ms symbol charmap"); _cmap = i; break; } } #endif // QT_XFT2 cache_cost = _font->height * _font->max_advance_width * ( _face ? _face->num_glyphs : 1024 ); // if the Xft font is not antialiased, it uses bitmaps instead of // 8-bit alpha maps... adjust the cache_cost to reflect this Bool antialiased = TRUE; if ( XftPatternGetBool( pattern, XFT_ANTIALIAS, 0, &antialiased ) == XftResultMatch && ! antialiased ) { cache_cost /= 8; } lbearing = SHRT_MIN; rbearing = SHRT_MIN; memset( widthCache, 0, sizeof(widthCache) ); memset( cmapCache, 0, sizeof(cmapCache) ); } TQFontEngineXft::~TQFontEngineXft() { delete _openType; unlockFTFace( _font ); XftFontClose( TQPaintDevice::x11AppDisplay(),_font ); XftPatternDestroy( _pattern ); _font = 0; _pattern = 0; TransformedFont *trf = transformed_fonts; while ( trf ) { XftFontClose( TQPaintDevice::x11AppDisplay(), trf->xft_font ); TransformedFont *tmp = trf; trf = trf->next; delete tmp; } } #ifdef QT_XFT2 static glyph_t getAdobeCharIndex(XftFont *font, int cmap, uint ucs4) { FT_Face _face = XftLockFace( font ); FT_Set_Charmap(_face, _face->charmaps[cmap]); glyph_t g = FT_Get_Char_Index(_face, ucs4); XftUnlockFace(font); return g; } #endif TQFontEngine::Error TQFontEngineXft::stringToCMap( const TQChar *str, int len, glyph_t *glyphs, advance_t *advances, int *nglyphs, bool mirrored ) const { if ( *nglyphs < len ) { *nglyphs = len; return OutOfMemory; } #ifdef QT_XFT2 if (_cmap != -1) { for ( int i = 0; i < len; ++i ) { unsigned short uc = str[i].unicode(); if (mirrored) uc = ::mirroredChar(str[i]).unicode(); glyphs[i] = uc < cmapCacheSize ? cmapCache[uc] : 0; if ( !glyphs[i] ) { glyph_t glyph = XftCharIndex(0, _font, uc); if (!glyph) glyph = getAdobeCharIndex(_font, _cmap, uc); glyphs[i] = glyph; if ( uc < cmapCacheSize ) ((TQFontEngineXft *)this)->cmapCache[uc] = glyph; } } } else if ( mirrored ) { for ( int i = 0; i < len; ++i ) { unsigned short uc = ::mirroredChar(str[i]).unicode(); glyphs[i] = uc < cmapCacheSize ? cmapCache[uc] : 0; if ( !glyphs[i] ) { if (uc == 0xa0) uc = 0x20; glyph_t glyph = XftCharIndex(0, _font, uc); glyphs[i] = glyph; if ( uc < cmapCacheSize ) ((TQFontEngineXft *)this)->cmapCache[uc] = glyph; } } } else { for ( int i = 0; i < len; ++i ) { unsigned short uc = str[i].unicode(); glyphs[i] = uc < cmapCacheSize ? cmapCache[uc] : 0; if ( !glyphs[i] ) { if (uc == 0xa0) uc = 0x20; glyph_t glyph = XftCharIndex(0, _font, uc); glyphs[i] = glyph; if ( uc < cmapCacheSize ) ((TQFontEngineXft *)this)->cmapCache[uc] = glyph; } } } if ( advances ) { for ( int i = 0; i < len; i++ ) { FT_UInt glyph = *(glyphs + i); advances[i] = (glyph < widthCacheSize) ? widthCache[glyph] : 0; if ( !advances[i] ) { XGlyphInfo gi; XftGlyphExtents( TQPaintDevice::x11AppDisplay(), _font, &glyph, 1, &gi ); advances[i] = gi.xOff; if ( glyph < widthCacheSize && gi.xOff > 0 && gi.xOff < 0x100 ) ((TQFontEngineXft *)this)->widthCache[glyph] = gi.xOff; } } if ( _scale != 1. ) { for ( int i = 0; i < len; i++ ) advances[i] = qRound(advances[i]*_scale); } } #else if ( !_face ) { if ( mirrored ) { for ( int i = 0; i < len; i++ ) glyphs[i] = ::mirroredChar(str[i]).unicode(); } else { for ( int i = 0; i < len; i++ ) glyphs[i] = str[i].unicode(); } } else { if ( _cmap == 1 ) { // symbol font for ( int i = 0; i < len; i++ ) { unsigned short uc = str[i].unicode(); glyphs[i] = uc < cmapCacheSize ? cmapCache[uc] : 0; if ( !glyphs[i] ) { glyph_t glyph = FT_Get_Char_Index( _face, uc ); if(!glyph && uc < 0x100) glyph = FT_Get_Char_Index( _face, uc+0xf000 ); glyphs[i] = glyph; if ( uc < cmapCacheSize ) ((TQFontEngineXft *)this)->cmapCache[uc] = glyph; } } } else if ( mirrored ) { for ( int i = 0; i < len; i++ ) { unsigned short uc = ::mirroredChar(str[i]).unicode(); glyphs[i] = uc < cmapCacheSize ? cmapCache[uc] : 0; if ( !glyphs[i] ) { glyph_t glyph = FT_Get_Char_Index( _face, uc ); glyphs[i] = glyph; if ( uc < cmapCacheSize ) ((TQFontEngineXft *)this)->cmapCache[uc] = glyph; } } } else { for ( int i = 0; i < len; i++ ) { unsigned short uc = str[i].unicode(); glyphs[i] = uc < cmapCacheSize ? cmapCache[uc] : 0; if ( !glyphs[i] ) { glyph_t glyph = FT_Get_Char_Index( _face, uc ); glyphs[i] = glyph; if ( uc < cmapCacheSize ) ((TQFontEngineXft *)this)->cmapCache[uc] = glyph; } } } } if ( advances ) { for ( int i = 0; i < len; i++ ) { XftChar16 glyph = *(glyphs + i); advances[i] = (glyph < widthCacheSize) ? widthCache[glyph] : 0; if ( !advances[i] ) { XGlyphInfo gi; XftTextExtents16(TQPaintDevice::x11AppDisplay(), _font, &glyph, 1, &gi); advances[i] = gi.xOff; if ( glyph < widthCacheSize && gi.xOff > 0 && gi.xOff < 0x100 ) ((TQFontEngineXft *)this)->widthCache[glyph] = gi.xOff; } } if ( _scale != 1. ) { for ( int i = 0; i < len; i++ ) advances[i] = qRound(advances[i]*_scale); } } #endif // QT_XFT2 *nglyphs = len; return NoError; } void TQFontEngineXft::recalcAdvances( int len, glyph_t *glyphs, advance_t *advances ) { #ifdef QT_XFT2 for ( int i = 0; i < len; i++ ) { FT_UInt glyph = *(glyphs + i); advances[i] = (glyph < widthCacheSize) ? widthCache[glyph] : 0; if ( !advances[i] ) { XGlyphInfo gi; XftGlyphExtents( TQPaintDevice::x11AppDisplay(), _font, &glyph, 1, &gi ); advances[i] = gi.xOff; if ( glyph < widthCacheSize && gi.xOff > 0 && gi.xOff < 0x100 ) ((TQFontEngineXft *)this)->widthCache[glyph] = gi.xOff; } if ( _scale != 1. ) { for ( int i = 0; i < len; i++ ) advances[i] = qRound(advances[i]*_scale); } } #else for ( int i = 0; i < len; i++ ) { XftChar16 glyph = *(glyphs + i); advances[i] = (glyph < widthCacheSize) ? widthCache[glyph] : 0; if ( !advances[i] ) { XGlyphInfo gi; XftTextExtents16(TQPaintDevice::x11AppDisplay(), _font, &glyph, 1, &gi); advances[i] = gi.xOff; if ( glyph < widthCacheSize && gi.xOff > 0 && gi.xOff < 0x100 ) ((TQFontEngineXft *)this)->widthCache[glyph] = gi.xOff; } } if ( _scale != 1. ) { for ( int i = 0; i < len; i++ ) advances[i] = qRound(advances[i]*_scale); } #endif // QT_XFT2 } //#define FONTENGINE_DEBUG void TQFontEngineXft::draw( TQPainter *p, int x, int y, const TQTextEngine *engine, const TQScriptItem *si, int textFlags ) { if ( !si->num_glyphs ) return; Display *dpy = TQPaintDevice::x11AppDisplay(); int xorig = x; int yorig = y; GlyphAttributes *glyphAttributes = engine->glyphAttributes( si ); XftFont *fnt = _font; bool transform = FALSE; if ( p->txop >= TQPainter::TxScale || p->rop != TQt::CopyROP || _scale < 0.9999 || _scale > 1.001) { bool can_scale = (_face->face_flags & FT_FACE_FLAG_SCALABLE) && p->rop == TQt::CopyROP; double size = (p->m11()*p->m22() - p->m12()*p->m21())*_scale*_scale*fontDef.pixelSize*fontDef.pixelSize; if (size > 256*256 || _scale < .9999 || _scale > 1.001) can_scale = FALSE; if (!can_scale) { // font doesn't support transformations, need to do it by hand float tmp = _scale; _scale = 1.; drawScaled(x, y, engine, si, textFlags, dpy, p->gc, p->device(), this, p->xmat, tmp); _scale = tmp; return; } XftMatrix *mat = 0; XftPatternGetMatrix( _pattern, XFT_MATRIX, 0, &mat ); XftMatrix m2; m2.xx = p->m11()*_scale; m2.xy = -p->m21()*_scale; m2.yx = -p->m12()*_scale; m2.yy = p->m22()*_scale; // check if we have it cached TransformedFont *trf = transformed_fonts; TransformedFont *prev = 0; int i = 0; while ( trf ) { if ( trf->xx == (float)m2.xx && trf->xy == (float)m2.xy && trf->yx == (float)m2.yx && trf->yy == (float)m2.yy ) break; TransformedFont *tmp = trf; trf = trf->next; if (i > 10) { XftFontClose( TQPaintDevice::x11AppDisplay(), tmp->xft_font ); delete tmp; prev->next = trf; } else { prev = tmp; } ++i; } if ( trf ) { if ( prev ) { // move to beginning of list prev->next = trf->next; trf->next = transformed_fonts; transformed_fonts = trf; } fnt = trf->xft_font; } else { if ( mat ) XftMatrixMultiply( &m2, &m2, mat ); XftPattern *pattern = XftPatternDuplicate( _pattern ); XftPatternDel( pattern, XFT_MATRIX ); XftPatternAddMatrix( pattern, XFT_MATRIX, &m2 ); fnt = XftFontOpenPattern( dpy, pattern ); #ifndef QT_XFT2 XftFontStruct *xftfs = getFontStruct( fnt ); if ( xftfs ) { // dirty hack: we set the charmap in the Xftfreetype to -1, so // XftFreetype assumes no encoding and really draws glyph // indices. The FT_Face still has the Unicode encoding to we // can convert from Unicode to glyph index xftfs->charmap = -1; } #endif // QT_XFT2 TransformedFont *trf = new TransformedFont; trf->xx = (float)m2.xx; trf->xy = (float)m2.xy; trf->yx = (float)m2.yx; trf->yy = (float)m2.yy; trf->xft_font = fnt; trf->next = transformed_fonts; transformed_fonts = trf; } transform = TRUE; } else if ( p->txop == TQPainter::TxTranslate ) { p->map( x, y, &x, &y ); } glyph_t *glyphs = engine->glyphs( si ); advance_t *advances = engine->advances( si ); qoffset_t *offsets = engine->offsets( si ); const TQColor &pen = p->cpen.color(); XftDraw *draw = ((Q_HackPaintDevice *)p->pdev)->xftDrawHandle(); XftColor col; col.color.red = pen.red () | pen.red() << 8; col.color.green = pen.green () | pen.green() << 8; col.color.blue = pen.blue () | pen.blue() << 8; col.color.alpha = 0xffff; col.pixel = pen.pixel(); #ifdef FONTENGINE_DEBUG qDebug("===== drawing %d glyphs reverse=%s ======", si->num_glyphs, si->analysis.bidiLevel % 2?"TRUE":"FALSE" ); p->save(); p->setBrush( TQt::white ); glyph_metrics_t ci = boundingBox( glyphs, advances, offsets, si->num_glyphs ); p->drawRect( x + ci.x, y + ci.y, ci.width, ci.height ); p->drawRect( x + ci.x, y + 100 + ci.y, ci.width, ci.height ); qDebug("bounding rect=%d %d (%d/%d)", ci.x, ci.y, ci.width, ci.height ); p->restore(); int yp = y; int xp = x; #endif if ( textFlags != 0 ) drawLines( p, this, yorig, xorig, si->width, textFlags ); if ( si->isSpace ) return; if ( transform || si->hasPositioning ) { if ( si->analysis.bidiLevel % 2 ) { int i = si->num_glyphs; while( i-- ) { int xp = x + offsets[i].x; int yp = y + offsets[i].y; if ( transform ) p->map( xp, yp, &xp, &yp ); #ifdef QT_XFT2 FT_UInt glyph = *(glyphs + i); if (!glyphAttributes[i].zeroWidth && xp < SHRT_MAX && xp > SHRT_MIN) XftDrawGlyphs( draw, &col, fnt, xp, yp, &glyph, 1 ); #else if (!glyphAttributes[i].zeroWidth && xp < SHRT_MAX && xp > SHRT_MIN) XftDrawString16( draw, &col, fnt, xp, yp, (XftChar16 *) (glyphs+i), 1); #endif // QT_XFT2 #ifdef FONTENGINE_DEBUG glyph_metrics_t gi = boundingBox( glyphs[i] ); p->drawRect( x+offsets[i].x+gi.x, y+offsets[i].y+100+gi.y, gi.width, gi.height ); p->drawLine( x+offsets[i].x, y + 150 + 5*i , x+offsets[i].x+advances[i], y + 150 + 5*i ); p->drawLine( x+offsets[i].x, y + 152 + 5*i , x+offsets[i].x+gi.xoff, y + 152 + 5*i ); qDebug("bounding ci[%d]=%d %d (%d/%d) / %d %d offs=(%d/%d) advance=%d", i, gi.x, gi.y, gi.width, gi.height, gi.xoff, gi.yoff, offsets[i].x, offsets[i].y, advances[i]); #endif x += advances[i]; } } else { int i = 0; while ( i < si->num_glyphs ) { int xp = x + offsets[i].x; int yp = y + offsets[i].y; if ( transform ) p->map( xp, yp, &xp, &yp ); #ifdef QT_XFT2 FT_UInt glyph = *(glyphs + i); if (!glyphAttributes[i].zeroWidth && xp < SHRT_MAX && xp > SHRT_MIN) XftDrawGlyphs( draw, &col, fnt, xp, yp, &glyph, 1 ); #else if (!glyphAttributes[i].zeroWidth && xp < SHRT_MAX && xp > SHRT_MIN) XftDrawString16( draw, &col, fnt, xp, yp, (XftChar16 *) (glyphs+i), 1 ); #endif // QT_XFT2 // qDebug("advance = %d/%d", adv.x, adv.y ); x += advances[i]; i++; } } } else { // Xft has real trouble drawing the glyphs on their own. // Drawing them as one string increases performance significantly. #ifdef QT_XFT2 // #### we should use a different method anyways on Xft2 FT_UInt g[64]; int gl = 0; while (gl < si->num_glyphs) { int toDraw = TQMIN(64, si->num_glyphs-gl); int adv = 0; if ( si->analysis.bidiLevel % 2 ) { for ( int i = 0; i < toDraw; i++ ) { g[i] = glyphs[si->num_glyphs-1-(gl+i)]; adv += advances[si->num_glyphs-1-(gl+i)]; } } else { for ( int i = 0; i < toDraw; i++ ) { g[i] = glyphs[gl+i]; adv += advances[gl+i]; } } if (x + adv < SHRT_MAX && x > SHRT_MIN) XftDrawGlyphs( draw, &col, fnt, x, y, g, toDraw ); gl += toDraw; x += adv; } #else XftChar16 g[64]; int gl = 0; while (gl < si->num_glyphs) { int toDraw = TQMIN(64, si->num_glyphs-gl); int adv = 0; if ( si->analysis.bidiLevel % 2 ) { for ( int i = 0; i < toDraw; i++ ) { g[i] = glyphs[si->num_glyphs-1-(gl+i)]; adv += advances[si->num_glyphs-1-(gl+i)]; } } else { for ( int i = 0; i < toDraw; i++ ) { g[i] = glyphs[gl+i]; adv += advances[gl+i]; } } if (x + adv < SHRT_MAX && x > SHRT_MIN) XftDrawString16( draw, &col, fnt, x, y, g, toDraw ); gl += toDraw; x += adv; } #endif // QT_XFT2 } #ifdef FONTENGINE_DEBUG if ( !si->analysis.bidiLevel % 2 ) { x = xp; y = yp; p->save(); p->setPen( TQt::red ); for ( int i = 0; i < si->num_glyphs; i++ ) { glyph_metrics_t ci = boundingBox( glyphs[i] ); p->drawRect( x + ci.x + offsets[i].x, y + 100 + ci.y + offsets[i].y, ci.width, ci.height ); qDebug("bounding ci[%d]=%d %d (%d/%d) / %d %d offs=(%d/%d) advance=%d", i, ci.x, ci.y, ci.width, ci.height, ci.xoff, ci.yoff, offsets[i].x, offsets[i].y, advances[i]); x += advances[i]; } p->restore(); } #endif } glyph_metrics_t TQFontEngineXft::boundingBox( const glyph_t *glyphs, const advance_t *advances, const qoffset_t *offsets, int numGlyphs ) { XGlyphInfo xgi; glyph_metrics_t overall; int ymax = 0; int xmax = 0; if (_scale != 1) { for (int i = 0; i < numGlyphs; i++) { getGlyphInfo( &xgi, _font, glyphs[i] ); int x = overall.xoff + offsets[i].x - xgi.x; int y = overall.yoff + offsets[i].y - xgi.y; overall.x = TQMIN( overall.x, x ); overall.y = TQMIN( overall.y, y ); xmax = TQMAX( xmax, x + xgi.width ); ymax = TQMAX( ymax, y + xgi.height ); overall.xoff += qRound(advances[i]/_scale); } overall.x = qRound(overall.x * _scale); overall.y = qRound(overall.y * _scale); overall.xoff = qRound(overall.xoff * _scale); overall.yoff = qRound(overall.yoff * _scale); xmax = qRound(xmax * _scale); ymax = qRound(ymax * _scale); } else { for (int i = 0; i < numGlyphs; i++) { getGlyphInfo( &xgi, _font, glyphs[i] ); int x = overall.xoff + offsets[i].x - xgi.x; int y = overall.yoff + offsets[i].y - xgi.y; overall.x = TQMIN( overall.x, x ); overall.y = TQMIN( overall.y, y ); xmax = TQMAX( xmax, x + xgi.width ); ymax = TQMAX( ymax, y + xgi.height ); overall.xoff += advances[i]; } } overall.height = ymax - overall.y; overall.width = xmax - overall.x; return overall; } glyph_metrics_t TQFontEngineXft::boundingBox( glyph_t glyph ) { XGlyphInfo xgi; getGlyphInfo( &xgi, _font, glyph ); glyph_metrics_t gm = glyph_metrics_t( -xgi.x, -xgi.y, xgi.width, xgi.height, xgi.xOff, -xgi.yOff ); if ( _scale != 1. ) { gm.x = qRound(gm.x * _scale); gm.y = qRound(gm.y * _scale); gm.height = qRound(gm.height * _scale); gm.width = qRound(gm.width * _scale); gm.xoff = qRound(gm.xoff * _scale); gm.yoff = qRound(gm.yoff * _scale); } return gm; } int TQFontEngineXft::ascent() const { return qRound(_font->ascent*_scale); } int TQFontEngineXft::descent() const { return qRound((_font->descent-1)*_scale); } // #### use Freetype to determine this int TQFontEngineXft::leading() const { int l = qRound(TQMIN( _font->height - (_font->ascent + _font->descent), ((_font->ascent + _font->descent) >> 4)*_scale )); return (l > 0) ? l : 1; } // #### use Freetype to determine this int TQFontEngineXft::lineThickness() const { // ad hoc algorithm int score = fontDef.weight * fontDef.pixelSize; int lw = score / 700; // looks better with thicker line for small pointsizes if ( lw < 2 && score >= 1050 ) lw = 2; if ( lw == 0 ) lw = 1; return lw; } // #### use Freetype to determine this int TQFontEngineXft::underlinePosition() const { int pos = ( ( lineThickness() * 2 ) + 3 ) / 6; return pos ? pos : 1; } int TQFontEngineXft::maxCharWidth() const { return qRound(_font->max_advance_width*_scale); } static const ushort char_table[] = { 40, 67, 70, 75, 86, 88, 89, 91, 102, 114, 124, 127, 205, 645, 884, 922, 1070, 12386 }; static const int char_table_entries = sizeof(char_table)/sizeof(ushort); int TQFontEngineXft::minLeftBearing() const { if ( lbearing == SHRT_MIN ) minRightBearing(); // calculates both return lbearing; } int TQFontEngineXft::minRightBearing() const { if ( rbearing == SHRT_MIN ) { TQFontEngineXft *that = (TQFontEngineXft *)this; that->lbearing = that->rbearing = 0; TQChar *ch = (TQChar *)char_table; glyph_t glyphs[char_table_entries]; int ng = char_table_entries; stringToCMap(ch, char_table_entries, glyphs, 0, &ng, FALSE); while (--ng) { if (glyphs[ng]) { glyph_metrics_t gi = that->boundingBox( glyphs[ng] ); if (gi.xoff) { that->lbearing = TQMIN(lbearing, gi.x); that->rbearing = TQMIN(rbearing, gi.xoff - gi.x - gi.width); } } } } return rbearing; } int TQFontEngineXft::cmap() const { return _cmap; } const char *TQFontEngineXft::name() const { return "xft"; } void TQFontEngineXft::setScale( double scale ) { _scale = scale; } bool TQFontEngineXft::canRender( const TQChar *string, int len ) { bool allExist = TRUE; #ifdef QT_XFT2 if (_cmap != -1) { for ( int i = 0; i < len; i++ ) { if (!XftCharExists(0, _font, string[i].unicode()) && getAdobeCharIndex(_font, _cmap, string[i].unicode()) == 0) { allExist = FALSE; break; } } } else { for ( int i = 0; i < len; i++ ) { if (!XftCharExists(0, _font, string[i].unicode())) { allExist = FALSE; break; } } } #else glyph_t glyphs[256]; int nglyphs = 255; glyph_t *g = glyphs; if ( stringToCMap( string, len, g, 0, &nglyphs, FALSE ) == OutOfMemory ) { g = (glyph_t *)malloc( nglyphs*sizeof(glyph_t) ); stringToCMap( string, len, g, 0, &nglyphs, FALSE ); } for ( int i = 0; i < nglyphs; i++ ) { if ( !XftGlyphExists(TQPaintDevice::x11AppDisplay(), _font, g[i]) ) { allExist = FALSE; break; } } if ( g != glyphs ) free( g ); #endif // QT_XFT2 return allExist; } TQOpenType *TQFontEngineXft::openType() const { // qDebug("openTypeIface requested!"); if ( _openType ) return _openType; if ( !_face || ! FT_IS_SFNT( _face ) ) return 0; TQFontEngineXft *that = (TQFontEngineXft *)this; that->_openType = new TQOpenType(that); return _openType; } TQFontEngine::Type TQFontEngineXft::type() const { return Xft; } #endif // -------------------------------------------------------------------------------------------------------------------- // Open type support // -------------------------------------------------------------------------------------------------------------------- #ifndef QT_NO_XFTFREETYPE #include "qscriptengine_p.h" //#define OT_DEBUG #ifdef OT_DEBUG static inline char *tag_to_string(FT_ULong tag) { static char string[5]; string[0] = (tag >> 24)&0xff; string[1] = (tag >> 16)&0xff; string[2] = (tag >> 8)&0xff; string[3] = tag&0xff; string[4] = 0; return string; } #endif #define DefaultLangSys 0xffff #define DefaultScript FT_MAKE_TAG('D', 'F', 'L', 'T') enum { RetquiresGsub = 1, RetquiresGpos = 2 }; struct OTScripts { unsigned int tag; int flags; }; static const OTScripts ot_scripts [] = { // // European Alphabetic Scripts // Latin, { FT_MAKE_TAG( 'l', 'a', 't', 'n' ), 0 }, // Greek, { FT_MAKE_TAG( 'g', 'r', 'e', 'k' ), 0 }, // Cyrillic, { FT_MAKE_TAG( 'c', 'y', 'r', 'l' ), 0 }, // Armenian, { FT_MAKE_TAG( 'a', 'r', 'm', 'n' ), 0 }, // Georgian, { FT_MAKE_TAG( 'g', 'e', 'o', 'r' ), 0 }, // Runic, { FT_MAKE_TAG( 'r', 'u', 'n', 'r' ), 0 }, // Ogham, { FT_MAKE_TAG( 'o', 'g', 'a', 'm' ), 0 }, // SpacingModifiers, { FT_MAKE_TAG( 'D', 'F', 'L', 'T' ), 0 }, // CombiningMarks, { FT_MAKE_TAG( 'D', 'F', 'L', 'T' ), 0 }, // // Middle Eastern Scripts // Hebrew, { FT_MAKE_TAG( 'h', 'e', 'b', 'r' ), 1 }, // Arabic, { FT_MAKE_TAG( 'a', 'r', 'a', 'b' ), 1 }, // Syriac, { FT_MAKE_TAG( 's', 'y', 'r', 'c' ), 1 }, // Thaana, { FT_MAKE_TAG( 't', 'h', 'a', 'a' ), 1 }, // // South and Southeast Asian Scripts // Devanagari, { FT_MAKE_TAG( 'd', 'e', 'v', 'a' ), 1 }, // Bengali, { FT_MAKE_TAG( 'b', 'e', 'n', 'g' ), 1 }, // Gurmukhi, { FT_MAKE_TAG( 'g', 'u', 'r', 'u' ), 1 }, // Gujarati, { FT_MAKE_TAG( 'g', 'u', 'j', 'r' ), 1 }, // Oriya, { FT_MAKE_TAG( 'o', 'r', 'y', 'a' ), 1 }, // Tamil, { FT_MAKE_TAG( 't', 'a', 'm', 'l' ), 1 }, // Telugu, { FT_MAKE_TAG( 't', 'e', 'l', 'u' ), 1 }, // Kannada, { FT_MAKE_TAG( 'k', 'n', 'd', 'a' ), 1 }, // Malayalam, { FT_MAKE_TAG( 'm', 'l', 'y', 'm' ), 1 }, // Sinhala, // ### could not find any OT specs on this { FT_MAKE_TAG( 's', 'i', 'n', 'h' ), 1 }, // Thai, { FT_MAKE_TAG( 't', 'h', 'a', 'i' ), 1 }, // Lao, { FT_MAKE_TAG( 'l', 'a', 'o', ' ' ), 1 }, // Tibetan, { FT_MAKE_TAG( 't', 'i', 'b', 't' ), 1 }, // Myanmar, { FT_MAKE_TAG( 'm', 'y', 'm', 'r' ), 1 }, // Khmer, { FT_MAKE_TAG( 'k', 'h', 'm', 'r' ), 1 }, // // East Asian Scripts // Han, { FT_MAKE_TAG( 'h', 'a', 'n', 'i' ), 0 }, // Hiragana, { FT_MAKE_TAG( 'k', 'a', 'n', 'a' ), 0 }, // Katakana, { FT_MAKE_TAG( 'k', 'a', 'n', 'a' ), 0 }, // Hangul, { FT_MAKE_TAG( 'h', 'a', 'n', 'g' ), 1 }, // Bopomofo, { FT_MAKE_TAG( 'b', 'o', 'p', 'o' ), 0 }, // Yi, { FT_MAKE_TAG( 'y', 'i', ' ', ' ' ), 0 }, // // Additional Scripts // Ethiopic, { FT_MAKE_TAG( 'e', 't', 'h', 'i' ), 0 }, // Cherokee, { FT_MAKE_TAG( 'c', 'h', 'e', 'r' ), 0 }, // CanadianAboriginal, { FT_MAKE_TAG( 'c', 'a', 'n', 's' ), 0 }, // Mongolian, { FT_MAKE_TAG( 'm', 'o', 'n', 'g' ), 0 }, // // Symbols // CurrencySymbols, { FT_MAKE_TAG( 'D', 'F', 'L', 'T' ), 0 }, // LetterlikeSymbols, { FT_MAKE_TAG( 'D', 'F', 'L', 'T' ), 0 }, // NumberForms, { FT_MAKE_TAG( 'D', 'F', 'L', 'T' ), 0 }, // MathematicalOperators, { FT_MAKE_TAG( 'D', 'F', 'L', 'T' ), 0 }, // TechnicalSymbols, { FT_MAKE_TAG( 'D', 'F', 'L', 'T' ), 0 }, // GeometricSymbols, { FT_MAKE_TAG( 'D', 'F', 'L', 'T' ), 0 }, // MiscellaneousSymbols, { FT_MAKE_TAG( 'D', 'F', 'L', 'T' ), 0 }, // EnclosedAndSquare, { FT_MAKE_TAG( 'D', 'F', 'L', 'T' ), 0 }, // Braille, { FT_MAKE_TAG( 'b', 'r', 'a', 'i' ), 0 }, // Unicode, should be used { FT_MAKE_TAG( 'D', 'F', 'L', 'T' ), 0 } // ### where are these? // { FT_MAKE_TAG( 'b', 'y', 'z', 'm' ), 0 }, // { FT_MAKE_TAG( 'D', 'F', 'L', 'T' ), 0 }, // ### Hangul Jamo // { FT_MAKE_TAG( 'j', 'a', 'm', 'o' ), 0 }, }; TQOpenType::TQOpenType(TQFontEngineXft *fe) : fontEngine(fe), gdef(0), gsub(0), gpos(0), current_script(0) { face = fe->face(); otl_buffer_new(face->memory, &otl_buffer); tmpAttributes = 0; tmpLogClusters = 0; FT_Error error; if ((error = TT_Load_GDEF_Table(face, &gdef))) { #ifdef OT_DEBUG qDebug("error loading gdef table: %d", error); #endif gdef = 0; } if ((error = TT_Load_GSUB_Table(face, &gsub, gdef))) { gsub = 0; #ifdef OT_DEBUG if (error != FT_Err_Table_Missing) { qDebug("error loading gsub table: %d", error); } else { qDebug("face doesn't have a gsub table"); } #endif } if ((error = TT_Load_GPOS_Table(face, &gpos, gdef))) { gpos = 0; #ifdef OT_DEBUG qDebug("error loading gpos table: %d", error); #endif } for (uint i = 0; i < TQFont::NScripts; ++i) supported_scripts[i] = checkScript(i); } TQOpenType::~TQOpenType() { if (gpos) TT_Done_GPOS_Table(gpos); if (gsub) TT_Done_GSUB_Table(gsub); if (gdef) TT_Done_GDEF_Table(gdef); if (otl_buffer) otl_buffer_free(otl_buffer); if (tmpAttributes) free(tmpAttributes); if (tmpLogClusters) free(tmpLogClusters); } bool TQOpenType::checkScript(unsigned int script) { assert(script < TQFont::NScripts); uint tag = ot_scripts[script].tag; int retquirements = ot_scripts[script].flags; if (retquirements & RetquiresGsub) { if (!gsub) return FALSE; FT_UShort script_index; FT_Error error = TT_GSUB_Select_Script(gsub, tag, &script_index); if (error) { #ifdef OT_DEBUG qDebug("could not select script %d in GSub table: %d", (int)script, error); #endif return FALSE; } } if (retquirements & RetquiresGpos) { if (!gpos) return FALSE; FT_UShort script_index; FT_Error error = TT_GPOS_Select_Script(gpos, script, &script_index); if (error) { #ifdef OT_DEBUG qDebug("could not select script in gpos table: %d", error); #endif return FALSE; } } return TRUE; } void TQOpenType::selectScript(unsigned int script, const Features *features) { if (current_script == script) return; assert(script < TQFont::NScripts); // find script in our list of supported scripts. uint tag = ot_scripts[script].tag; if (gsub && features) { #ifdef OT_DEBUG { TTO_FeatureList featurelist = gsub->FeatureList; int numfeatures = featurelist.FeatureCount; qDebug("gsub table has %d features", numfeatures); for(int i = 0; i < numfeatures; i++) { TTO_FeatureRecord *r = featurelist.FeatureRecord + i; qDebug(" feature '%s'", tag_to_string(r->FeatureTag)); } } #endif TT_GSUB_Clear_Features(gsub); FT_UShort script_index; FT_Error error = TT_GSUB_Select_Script(gsub, tag, &script_index); if (!error) { #ifdef OT_DEBUG qDebug("script %s has script index %d", tag_to_string(script), script_index); #endif while (features->tag) { FT_UShort feature_index; error = TT_GSUB_Select_Feature(gsub, features->tag, script_index, 0xffff, &feature_index); if (!error) { #ifdef OT_DEBUG qDebug(" adding feature %s", tag_to_string(features->tag)); #endif TT_GSUB_Add_Feature(gsub, feature_index, features->property); } ++features; } } } if (gpos) { TT_GPOS_Clear_Features(gpos); FT_UShort script_index; FT_Error error = TT_GPOS_Select_Script(gpos, tag, &script_index); if (!error) { #ifdef OT_DEBUG { TTO_FeatureList featurelist = gpos->FeatureList; int numfeatures = featurelist.FeatureCount; qDebug("gpos table has %d features", numfeatures); for(int i = 0; i < numfeatures; i++) { TTO_FeatureRecord *r = featurelist.FeatureRecord + i; FT_UShort feature_index; TT_GPOS_Select_Feature(gpos, r->FeatureTag, script_index, 0xffff, &feature_index); qDebug(" feature '%s'", tag_to_string(r->FeatureTag)); } } #endif FT_ULong *feature_tag_list; error = TT_GPOS_Query_Features(gpos, script_index, 0xffff, &feature_tag_list); if (!error) { while (*feature_tag_list) { FT_UShort feature_index; error = TT_GPOS_Select_Feature(gpos, *feature_tag_list, script_index, 0xffff, &feature_index); if (!error) TT_GPOS_Add_Feature(gpos, feature_index, PositioningProperties); ++feature_tag_list; } } } } current_script = script; } #ifdef OT_DEBUG static void dump_string(OTL_Buffer buffer) { for (uint i = 0; i < buffer->in_length; ++i) { qDebug(" %x: cluster=%d", buffer->in_string[i].gindex, buffer->in_string[i].cluster); } } #endif extern void qt_heuristicPosition(TQShaperItem *item); bool TQOpenType::shape(TQShaperItem *item, const unsigned int *properties) { length = item->num_glyphs; otl_buffer_clear(otl_buffer); tmpAttributes = (GlyphAttributes *) realloc(tmpAttributes, length*sizeof(GlyphAttributes)); tmpLogClusters = (unsigned int *) realloc(tmpLogClusters, length*sizeof(unsigned int)); for (int i = 0; i < length; ++i) { otl_buffer_add_glyph(otl_buffer, item->glyphs[i], properties ? properties[i] : 0, i); tmpAttributes[i] = item->attributes[i]; tmpLogClusters[i] = item->log_clusters[i]; } #ifdef OT_DEBUG qDebug("-----------------------------------------"); // qDebug("log clusters before shaping:"); // for (int j = 0; j < length; j++) // qDebug(" log[%d] = %d", j, item->log_clusters[j]); qDebug("original glyphs: %p", item->glyphs); for (int i = 0; i < length; ++i) qDebug(" glyph=%4x", otl_buffer->in_string[i].gindex); // dump_string(otl_buffer); #endif loadFlags = FT_LOAD_DEFAULT; if (gsub) { uint error = TT_GSUB_Apply_String(gsub, otl_buffer); if (error && error != TTO_Err_Not_Covered) return false; } #ifdef OT_DEBUG // qDebug("log clusters before shaping:"); // for (int j = 0; j < length; j++) // qDebug(" log[%d] = %d", j, item->log_clusters[j]); qDebug("shaped glyphs:"); for (int i = 0; i < length; ++i) qDebug(" glyph=%4x", otl_buffer->in_string[i].gindex); qDebug("-----------------------------------------"); // dump_string(otl_buffer); #endif return true; } bool TQOpenType::positionAndAdd(TQShaperItem *item, bool doLogClusters) { if (gpos) { #ifdef Q_WS_X11 Q_ASSERT(fontEngine->type() == TQFontEngine::Xft); face = lockFTFace(static_cast(fontEngine)->font()); #endif memset(otl_buffer->positions, 0, otl_buffer->in_length*sizeof(OTL_PositionRec)); // #### check that passing "FALSE,FALSE" is correct TT_GPOS_Apply_String(face, gpos, loadFlags, otl_buffer, FALSE, FALSE); #ifdef Q_WS_X11 unlockFTFace(static_cast(fontEngine)->font()); #endif } // make sure we have enough space to write everything back if (item->num_glyphs < (int)otl_buffer->in_length) { item->num_glyphs = otl_buffer->in_length; return FALSE; } for (unsigned int i = 0; i < otl_buffer->in_length; ++i) { item->glyphs[i] = otl_buffer->in_string[i].gindex; item->attributes[i] = tmpAttributes[otl_buffer->in_string[i].cluster]; if (i && otl_buffer->in_string[i].cluster == otl_buffer->in_string[i-1].cluster) item->attributes[i].clusterStart = FALSE; } item->num_glyphs = otl_buffer->in_length; if (doLogClusters) { // we can't do this for indic, as we pass the stuf in syllables and it's easier to do it in the shaper. unsigned short *logClusters = item->log_clusters; int clusterStart = 0; int oldCi = 0; for (unsigned int i = 0; i < otl_buffer->in_length; ++i) { int ci = otl_buffer->in_string[i].cluster; // qDebug(" ci[%d] = %d mark=%d, cmb=%d, cs=%d", // i, ci, glyphAttributes[i].mark, glyphAttributes[i].combiningClass, glyphAttributes[i].clusterStart); if (!item->attributes[i].mark && item->attributes[i].clusterStart && ci != oldCi) { for (int j = oldCi; j < ci; j++) logClusters[j] = clusterStart; clusterStart = i; oldCi = ci; } } for (int j = oldCi; j < length; j++) logClusters[j] = clusterStart; } // calulate the advances for the shaped glyphs // qDebug("unpositioned: "); static_cast(item->font)->recalcAdvances(item->num_glyphs, item->glyphs, item->advances); // positioning code: if (gpos) { float scale = item->font->scale(); OTL_Position positions = otl_buffer->positions; // qDebug("positioned glyphs:"); for (unsigned int i = 0; i < otl_buffer->in_length; i++) { // qDebug(" %d:\t orig advance: (%d/%d)\tadv=(%d/%d)\tpos=(%d/%d)\tback=%d\tnew_advance=%d", i, // glyphs[i].advance.x.toInt(), glyphs[i].advance.y.toInt(), // (int)(positions[i].x_advance >> 6), (int)(positions[i].y_advance >> 6), // (int)(positions[i].x_pos >> 6), (int)(positions[i].y_pos >> 6), // positions[i].back, positions[i].new_advance); // ###### fix the case where we have y advances. How do we handle this in Uniscribe????? if (positions[i].new_advance) { item->advances[i] = item->flags & TQTextEngine::RightToLeft ? -qRound((positions[i].x_advance >> 6)*scale) : qRound((positions[i].x_advance >> 6)*scale); } else { item->advances[i] += item->flags & TQTextEngine::RightToLeft ? -qRound((positions[i].x_advance >> 6)*scale) : qRound((positions[i].x_advance >> 6)*scale); } item->offsets[i].x = qRound((positions[i].x_pos >> 6)*scale); item->offsets[i].y = -qRound((positions[i].y_pos >> 6)*scale); int back = positions[i].back; if (item->flags & TQTextEngine::RightToLeft) { while (back--) { item->offsets[i].x -= item->advances[i-back]; } } else { while (back) { item->offsets[i].x -= item->advances[i-back]; --back; } } // qDebug(" ->\tadv=%d\tpos=(%d/%d)", // glyphs[i].advance.x.toInt(), glyphs[i].offset.x.toInt(), glyphs[i].offset.y.toInt()); } item->has_positioning = TRUE; } else { qt_heuristicPosition(item); } #ifdef OT_DEBUG // if (doLogClusters) { // qDebug("log clusters after shaping:"); // for (int j = 0; j < length; j++) // qDebug(" log[%d] = %d", j, item->log_clusters[j]); // } qDebug("final glyphs:"); for (int i = 0; i < (int)otl_buffer->in_length; ++i) qDebug(" glyph=%4x char_index=%d mark: %d cmp: %d, clusterStart: %d advance=%d offset=%d/%d", item->glyphs[i], otl_buffer->in_string[i].cluster, item->attributes[i].mark, item->attributes[i].combiningClass, item->attributes[i].clusterStart, item->advances[i], item->offsets[i].x, item->offsets[i].y); qDebug("-----------------------------------------"); #endif return TRUE; } #endif