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If not, see * * for a copy of the LGPLv3 License. * ************************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_vcl.hxx" #define ENABLE_ICU_LAYOUT #include #include #include #include #include #if OSL_DEBUG_LEVEL > 1 #include #endif #include namespace { struct SimpleLayoutEngine : public rtl::Static< ServerFontLayoutEngine, SimpleLayoutEngine > {}; } // ======================================================================= // layout implementation for ServerFont // ======================================================================= ServerFontLayout::ServerFontLayout( ServerFont& rFont ) : mrServerFont( rFont ) {} void ServerFontLayout::DrawText( SalGraphics& rSalGraphics ) const { rSalGraphics.DrawServerFontLayout( *this ); } // ----------------------------------------------------------------------- bool ServerFontLayout::LayoutText( ImplLayoutArgs& rArgs ) { ServerFontLayoutEngine* pLE = NULL; if( !(rArgs.mnFlags & SAL_LAYOUT_COMPLEX_DISABLED) ) pLE = mrServerFont.GetLayoutEngine(); if( !pLE ) pLE = &SimpleLayoutEngine::get(); bool bRet = (*pLE)( *this, rArgs ); return bRet; } // ----------------------------------------------------------------------- void ServerFontLayout::AdjustLayout( ImplLayoutArgs& rArgs ) { GenericSalLayout::AdjustLayout( rArgs ); // apply asian kerning if the glyphs are not already formatted if( (rArgs.mnFlags & SAL_LAYOUT_KERNING_ASIAN) && !(rArgs.mnFlags & SAL_LAYOUT_VERTICAL) ) if( (rArgs.mpDXArray != NULL) || (rArgs.mnLayoutWidth != 0) ) ApplyAsianKerning( rArgs.mpStr, rArgs.mnLength ); // insert kashidas where requested by the formatting array if( (rArgs.mnFlags & SAL_LAYOUT_KASHIDA_JUSTIFICATON) && rArgs.mpDXArray ) { int nKashidaIndex = mrServerFont.GetGlyphIndex( 0x0640 ); if( nKashidaIndex != 0 ) { const GlyphMetric& rGM = mrServerFont.GetGlyphMetric( nKashidaIndex ); KashidaJustify( nKashidaIndex, rGM.GetCharWidth() ); // TODO: kashida-GSUB/GPOS } } } // ======================================================================= bool ServerFontLayoutEngine::operator()( ServerFontLayout& rLayout, ImplLayoutArgs& rArgs ) { FreetypeServerFont& rFont = static_cast(rLayout.GetServerFont()); Point aNewPos( 0, 0 ); int nOldGlyphId = -1; int nGlyphWidth = 0; GlyphItem aPrevItem; bool bRightToLeft; for( int nCharPos = -1; rArgs.GetNextPos( &nCharPos, &bRightToLeft ); ) { sal_UCS4 cChar = rArgs.mpStr[ nCharPos ]; if( (cChar >= 0xD800) && (cChar <= 0xDFFF) ) { if( cChar >= 0xDC00 ) // this part of a surrogate pair was already processed continue; cChar = 0x10000 + ((cChar - 0xD800) << 10) + (rArgs.mpStr[ nCharPos+1 ] - 0xDC00); } if( bRightToLeft ) cChar = GetMirroredChar( cChar ); int nGlyphIndex = rFont.GetGlyphIndex( cChar ); // when glyph fallback is needed update LayoutArgs if( !nGlyphIndex ) { rArgs.NeedFallback( nCharPos, bRightToLeft ); if( cChar >= 0x10000 ) // handle surrogate pairs rArgs.NeedFallback( nCharPos+1, bRightToLeft ); } // apply pair kerning to prev glyph if requested if( SAL_LAYOUT_KERNING_PAIRS & rArgs.mnFlags ) { int nKernValue = rFont.GetGlyphKernValue( nOldGlyphId, nGlyphIndex ); nGlyphWidth += nKernValue; aPrevItem.mnNewWidth = nGlyphWidth; } // finish previous glyph if( nOldGlyphId >= 0 ) rLayout.AppendGlyph( aPrevItem ); aNewPos.X() += nGlyphWidth; // prepare GlyphItem for appending it in next round nOldGlyphId = nGlyphIndex; const GlyphMetric& rGM = rFont.GetGlyphMetric( nGlyphIndex ); nGlyphWidth = rGM.GetCharWidth(); int nGlyphFlags = bRightToLeft ? GlyphItem::IS_RTL_GLYPH : 0; aPrevItem = GlyphItem( nCharPos, nGlyphIndex, aNewPos, nGlyphFlags, nGlyphWidth ); } // append last glyph item if any if( nOldGlyphId >= 0 ) rLayout.AppendGlyph( aPrevItem ); return true; } // ======================================================================= // bridge to ICU LayoutEngine // ======================================================================= #ifdef ENABLE_ICU_LAYOUT #define bool_t signed char // disable warnings in icu layout headers #if defined __SUNPRO_CC #pragma disable_warn #endif #include #include #include // enable warnings again #if defined __SUNPRO_CC #pragma enable_warn #endif #include #include using namespace U_ICU_NAMESPACE; static const LEGlyphID ICU_DELETED_GLYPH = 0xFFFF; static const LEGlyphID ICU_MARKED_GLYPH = 0xFFFE; // ----------------------------------------------------------------------- class IcuFontFromServerFont : public LEFontInstance { private: FreetypeServerFont& mrServerFont; public: IcuFontFromServerFont( FreetypeServerFont& rFont ) : mrServerFont( rFont ) {} virtual const void* getFontTable(LETag tableTag) const; virtual le_int32 getUnitsPerEM() const; virtual float getXPixelsPerEm() const; virtual float getYPixelsPerEm() const; virtual float getScaleFactorX() const; virtual float getScaleFactorY() const; using LEFontInstance::mapCharToGlyph; virtual LEGlyphID mapCharToGlyph( LEUnicode32 ch ) const; virtual le_int32 getAscent() const; virtual le_int32 getDescent() const; virtual le_int32 getLeading() const; virtual void getGlyphAdvance( LEGlyphID glyph, LEPoint &advance ) const; virtual le_bool getGlyphPoint( LEGlyphID glyph, le_int32 pointNumber, LEPoint& point ) const; }; // ----------------------------------------------------------------------- const void* IcuFontFromServerFont::getFontTable( LETag nICUTableTag ) const { char pTagName[5]; pTagName[0] = (char)(nICUTableTag >> 24); pTagName[1] = (char)(nICUTableTag >> 16); pTagName[2] = (char)(nICUTableTag >> 8); pTagName[3] = (char)(nICUTableTag); pTagName[4] = 0; sal_uLong nLength; const unsigned char* pBuffer = mrServerFont.GetTable( pTagName, &nLength ); #ifdef VERBOSE_DEBUG fprintf(stderr,"IcuGetTable(\"%s\") => %p\n", pTagName, pBuffer); int mnHeight = mrServerFont.GetFontSelData().mnHeight; const char* pName = mrServerFont.GetFontFileName()->getStr(); fprintf(stderr,"font( h=%d, \"%s\" )\n", mnHeight, pName ); #endif return (const void*)pBuffer; } // ----------------------------------------------------------------------- le_int32 IcuFontFromServerFont::getUnitsPerEM() const { return mrServerFont.GetEmUnits(); } // ----------------------------------------------------------------------- float IcuFontFromServerFont::getXPixelsPerEm() const { const ImplFontSelectData& r = mrServerFont.GetFontSelData(); float fX = r.mnWidth ? r.mnWidth : r.mnHeight; return fX; } // ----------------------------------------------------------------------- float IcuFontFromServerFont::getYPixelsPerEm() const { float fY = mrServerFont.GetFontSelData().mnHeight; return fY; } // ----------------------------------------------------------------------- float IcuFontFromServerFont::getScaleFactorX() const { return 1.0; } // ----------------------------------------------------------------------- float IcuFontFromServerFont::getScaleFactorY() const { return 1.0; } // ----------------------------------------------------------------------- LEGlyphID IcuFontFromServerFont::mapCharToGlyph( LEUnicode32 ch ) const { LEGlyphID nGlyphIndex = mrServerFont.GetRawGlyphIndex( ch ); return nGlyphIndex; } // ----------------------------------------------------------------------- le_int32 IcuFontFromServerFont::getAscent() const { const FT_Size_Metrics& rMetrics = mrServerFont.GetMetricsFT(); le_int32 nAscent = (+rMetrics.ascender + 32) >> 6; return nAscent; } // ----------------------------------------------------------------------- le_int32 IcuFontFromServerFont::getDescent() const { const FT_Size_Metrics& rMetrics = mrServerFont.GetMetricsFT(); le_int32 nDescent = (-rMetrics.descender + 32) >> 6; return nDescent; } // ----------------------------------------------------------------------- le_int32 IcuFontFromServerFont::getLeading() const { const FT_Size_Metrics& rMetrics = mrServerFont.GetMetricsFT(); le_int32 nLeading = ((rMetrics.height - rMetrics.ascender + rMetrics.descender) + 32) >> 6; return nLeading; } // ----------------------------------------------------------------------- void IcuFontFromServerFont::getGlyphAdvance( LEGlyphID nGlyphIndex, LEPoint &advance ) const { if( (nGlyphIndex == ICU_MARKED_GLYPH) || (nGlyphIndex == ICU_DELETED_GLYPH) ) { // deleted glyph or mark glyph has not advance advance.fX = 0; } else { const GlyphMetric& rGM = mrServerFont.GetGlyphMetric( nGlyphIndex ); advance.fX = rGM.GetCharWidth(); } advance.fY = 0; } // ----------------------------------------------------------------------- le_bool IcuFontFromServerFont::getGlyphPoint( LEGlyphID, le_int32 #if OSL_DEBUG_LEVEL > 1 pointNumber #endif , LEPoint& ) const { //TODO: replace dummy implementation #if OSL_DEBUG_LEVEL > 1 fprintf(stderr,"getGlyphPoint(%d)\n", pointNumber ); #endif return false; } // ======================================================================= class IcuLayoutEngine : public ServerFontLayoutEngine { private: IcuFontFromServerFont maIcuFont; le_int32 meScriptCode; LayoutEngine* mpIcuLE; public: IcuLayoutEngine( FreetypeServerFont& ); virtual ~IcuLayoutEngine(); virtual bool operator()( ServerFontLayout&, ImplLayoutArgs& ); }; // ----------------------------------------------------------------------- IcuLayoutEngine::IcuLayoutEngine( FreetypeServerFont& rServerFont ) : maIcuFont( rServerFont ), meScriptCode( USCRIPT_INVALID_CODE ), mpIcuLE( NULL ) {} // ----------------------------------------------------------------------- IcuLayoutEngine::~IcuLayoutEngine() { if( mpIcuLE ) delete mpIcuLE; } // ----------------------------------------------------------------------- static bool lcl_CharIsJoiner(sal_Unicode cChar) { return ((cChar == 0x200C) || (cChar == 0x200D)); } bool IcuLayoutEngine::operator()( ServerFontLayout& rLayout, ImplLayoutArgs& rArgs ) { LEUnicode* pIcuChars; if( sizeof(LEUnicode) == sizeof(*rArgs.mpStr) ) pIcuChars = (LEUnicode*)rArgs.mpStr; else { // this conversion will only be needed when either // ICU's or OOo's unicodes stop being unsigned shorts // TODO: watch out for surrogates! pIcuChars = (LEUnicode*)alloca( rArgs.mnLength * sizeof(LEUnicode) ); for( xub_StrLen ic = 0; ic < rArgs.mnLength; ++ic ) pIcuChars[ic] = static_cast( rArgs.mpStr[ic] ); } // allocate temporary arrays, note: round to even int nGlyphCapacity = (3 * (rArgs.mnEndCharPos - rArgs.mnMinCharPos ) | 15) + 1; struct IcuPosition{ float fX, fY; }; const int nAllocSize = sizeof(LEGlyphID) + sizeof(le_int32) + sizeof(IcuPosition); LEGlyphID* pIcuGlyphs = (LEGlyphID*)alloca( (nGlyphCapacity * nAllocSize) + sizeof(IcuPosition) ); le_int32* pCharIndices = (le_int32*)((char*)pIcuGlyphs + nGlyphCapacity * sizeof(LEGlyphID) ); IcuPosition* pGlyphPositions = (IcuPosition*)((char*)pCharIndices + nGlyphCapacity * sizeof(le_int32) ); FreetypeServerFont& rFont = reinterpret_cast(rLayout.GetServerFont()); UErrorCode rcI18n = U_ZERO_ERROR; LEErrorCode rcIcu = LE_NO_ERROR; Point aNewPos( 0, 0 ); for( int nGlyphCount = 0;; ) { int nMinRunPos, nEndRunPos; bool bRightToLeft; if( !rArgs.GetNextRun( &nMinRunPos, &nEndRunPos, &bRightToLeft ) ) break; // find matching script // TODO: split up bidi run into script runs le_int32 eScriptCode = -1; for( int i = nMinRunPos; i < nEndRunPos; ++i ) { eScriptCode = uscript_getScript( pIcuChars[i], &rcI18n ); if( (eScriptCode > 0) && (eScriptCode != latnScriptCode) ) break; } if( eScriptCode < 0 ) // TODO: handle errors better eScriptCode = latnScriptCode; // get layout engine matching to this script // no engine change necessary if script is latin if( !mpIcuLE || ((eScriptCode != meScriptCode) && (eScriptCode > USCRIPT_INHERITED)) ) { // TODO: cache multiple layout engines when multiple scripts are used delete mpIcuLE; meScriptCode = eScriptCode; le_int32 eLangCode = 0; // TODO: get better value mpIcuLE = LayoutEngine::layoutEngineFactory( &maIcuFont, eScriptCode, eLangCode, rcIcu ); if( LE_FAILURE(rcIcu) ) { delete mpIcuLE; mpIcuLE = NULL; } } // fall back to default layout if needed if( !mpIcuLE ) break; // run ICU layout engine // TODO: get enough context, remove extra glyps below int nRawRunGlyphCount = mpIcuLE->layoutChars( pIcuChars, nMinRunPos, nEndRunPos - nMinRunPos, rArgs.mnLength, bRightToLeft, aNewPos.X(), aNewPos.Y(), rcIcu ); if( LE_FAILURE(rcIcu) ) return false; // import layout info from icu mpIcuLE->getGlyphs( pIcuGlyphs, rcIcu ); mpIcuLE->getCharIndices( pCharIndices, rcIcu ); mpIcuLE->getGlyphPositions( &pGlyphPositions->fX, rcIcu ); mpIcuLE->reset(); // TODO: get rid of this, PROBLEM: crash at exit when removed if( LE_FAILURE(rcIcu) ) return false; // layout bidi/script runs and export them to a ServerFontLayout // convert results to GlyphItems int nLastCharPos = -1; int nClusterMinPos = -1; int nClusterMaxPos = -1; bool bClusterStart = true; int nFilteredRunGlyphCount = 0; const IcuPosition* pPos = pGlyphPositions; for( int i = 0; i < nRawRunGlyphCount; ++i, ++pPos ) { LEGlyphID nGlyphIndex = pIcuGlyphs[i]; // ignore glyphs which were marked or deleted by ICU if( (nGlyphIndex == ICU_MARKED_GLYPH) || (nGlyphIndex == ICU_DELETED_GLYPH) ) continue; // adjust the relative char pos int nCharPos = pCharIndices[i]; if( nCharPos >= 0 ) { nCharPos += nMinRunPos; // ICU seems to return bad pCharIndices // for some combinations of ICU+font+text // => better give up now than crash later if( nCharPos >= nEndRunPos ) continue; } // if needed request glyph fallback by updating LayoutArgs if( !nGlyphIndex ) { if( nCharPos >= 0 ) { rArgs.NeedFallback( nCharPos, bRightToLeft ); if ( (nCharPos > 0) && lcl_CharIsJoiner(rArgs.mpStr[nCharPos-1]) ) rArgs.NeedFallback( nCharPos-1, bRightToLeft ); else if ( (nCharPos + 1 < nEndRunPos) && lcl_CharIsJoiner(rArgs.mpStr[nCharPos+1]) ) rArgs.NeedFallback( nCharPos+1, bRightToLeft ); } if( SAL_LAYOUT_FOR_FALLBACK & rArgs.mnFlags ) continue; } // apply vertical flags, etc. bool bDiacritic = false; if( nCharPos >= 0 ) { sal_UCS4 aChar = rArgs.mpStr[ nCharPos ]; #if 0 // TODO: enable if some unicodes>0xFFFF should need glyph flags!=0 if( (aChar >= 0xD800) && (aChar <= 0xDFFF) ) { if( cChar >= 0xDC00 ) // this part of a surrogate pair was already processed continue; // calculate unicode scalar value of surrogate pair aChar = 0x10000 + ((aChar - 0xD800) << 10); sal_UCS4 aLow = rArgs.mpStr[ nCharPos+1 ]; aChar += aLow & 0x03FF; } #endif nGlyphIndex = rFont.FixupGlyphIndex( nGlyphIndex, aChar ); // #i99367# HACK: try to detect all diacritics if( aChar>=0x0300 && aChar<0x2100 ) bDiacritic = IsDiacritic( aChar ); } // get glyph position and its metrics aNewPos = Point( (int)(pPos->fX+0.5), (int)(pPos->fY+0.5) ); const GlyphMetric& rGM = rFont.GetGlyphMetric( nGlyphIndex ); int nGlyphWidth = rGM.GetCharWidth(); if( nGlyphWidth <= 0 ) bDiacritic |= true; // #i99367# force all diacritics to zero width // TODO: we need mnOrigWidth/mnLogicWidth/mnNewWidth else if( bDiacritic ) nGlyphWidth = 0; // heuristic to detect glyph clusters bool bInCluster = true; if( nLastCharPos == -1 ) { nClusterMinPos = nClusterMaxPos = nCharPos; bInCluster = false; } else if( !bRightToLeft ) { // left-to-right case if( nClusterMinPos > nCharPos ) nClusterMinPos = nCharPos; // extend cluster else if( nCharPos <= nClusterMaxPos ) /*NOTHING*/; // inside cluster else if( bDiacritic ) nClusterMaxPos = nCharPos; // add diacritic to cluster else { nClusterMinPos = nClusterMaxPos = nCharPos; // new cluster bInCluster = false; } } else { // right-to-left case if( nClusterMaxPos < nCharPos ) nClusterMaxPos = nCharPos; // extend cluster else if( nCharPos >= nClusterMinPos ) /*NOTHING*/; // inside cluster else if( bDiacritic ) { nClusterMinPos = nCharPos; // ICU often has [diacritic* baseglyph*] if( bClusterStart ) { nClusterMaxPos = nCharPos; bInCluster = false; } } else { nClusterMinPos = nClusterMaxPos = nCharPos; // new cluster bInCluster = !bClusterStart; } } long nGlyphFlags = 0; if( bInCluster ) nGlyphFlags |= GlyphItem::IS_IN_CLUSTER; if( bRightToLeft ) nGlyphFlags |= GlyphItem::IS_RTL_GLYPH; if( bDiacritic ) nGlyphFlags |= GlyphItem::IS_DIACRITIC; // add resulting glyph item to layout const GlyphItem aGI( nCharPos, nGlyphIndex, aNewPos, nGlyphFlags, nGlyphWidth ); rLayout.AppendGlyph( aGI ); ++nFilteredRunGlyphCount; nLastCharPos = nCharPos; bClusterStart = !aGI.IsDiacritic(); // TODO: only needed in RTL-codepath } aNewPos = Point( (int)(pPos->fX+0.5), (int)(pPos->fY+0.5) ); nGlyphCount += nFilteredRunGlyphCount; } // sort glyphs in visual order // and then in logical order (e.g. diacritics after cluster start) rLayout.SortGlyphItems(); // determine need for kashida justification if( (rArgs.mpDXArray || rArgs.mnLayoutWidth) && ((meScriptCode == arabScriptCode) || (meScriptCode == syrcScriptCode)) ) rArgs.mnFlags |= SAL_LAYOUT_KASHIDA_JUSTIFICATON; return true; } #endif // ENABLE_ICU_LAYOUT // ======================================================================= ServerFontLayoutEngine* FreetypeServerFont::GetLayoutEngine() { // find best layout engine for font, platform, script and language #ifdef ENABLE_ICU_LAYOUT if( !mpLayoutEngine && FT_IS_SFNT( maFaceFT ) ) mpLayoutEngine = new IcuLayoutEngine( *this ); #endif // ENABLE_ICU_LAYOUT return mpLayoutEngine; } // =======================================================================