/************************************************************** * * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ #include "tools/debug.hxx" #include "aqua/saldata.hxx" #include "aqua/salgdi.h" #include "atsfonts.hxx" #include "sallayout.hxx" #include "salgdi.hxx" #include // ======================================================================= class ATSLayout : public SalLayout { public: explicit ATSLayout( ATSUStyle&, float fFontScale ); virtual ~ATSLayout(); virtual bool LayoutText( ImplLayoutArgs& ); virtual void AdjustLayout( ImplLayoutArgs& ); virtual void DrawText( SalGraphics& ) const; virtual int GetNextGlyphs( int nLen, sal_GlyphId* pOutGlyphIds, Point& rPos, int&, sal_Int32* pGlyphAdvances, int* pCharIndexes ) const; virtual long GetTextWidth() const; virtual long FillDXArray( long* pDXArray ) const; virtual int GetTextBreak( long nMaxWidth, long nCharExtra, int nFactor ) const; virtual void GetCaretPositions( int nArraySize, long* pCaretXArray ) const; virtual bool GetGlyphOutlines( SalGraphics&, PolyPolyVector& ) const; virtual bool GetBoundRect( SalGraphics&, Rectangle& ) const; const ImplFontData* GetFallbackFontData( sal_GlyphId ) const; virtual void InitFont(); virtual void MoveGlyph( int nStart, long nNewXPos ); virtual void DropGlyph( int nStart ); virtual void Simplify( bool bIsBase ); private: ATSUStyle& mrATSUStyle; ATSUTextLayout maATSULayout; int mnCharCount; // ==mnEndCharPos-mnMinCharPos // to prevent ATS overflowing the Fixed16.16 values // ATS font requests get size limited by downscaling huge fonts // in these cases the font scale becomes something bigger than 1.0 float mfFontScale; private: bool InitGIA( ImplLayoutArgs* pArgs = NULL ) const; bool GetIdealX() const; bool GetDeltaY() const; void InvalidateMeasurements(); int Fixed2Vcl( Fixed ) const; // convert ATSU-Fixed units to VCL units int AtsuPix2Vcl( int ) const; // convert ATSU-Pixel units to VCL units Fixed Vcl2Fixed( int ) const; // convert VCL units to ATSU-Fixed units // cached details about the resulting layout // mutable members since these details are all lazy initialized mutable int mnGlyphCount; // glyph count mutable Fixed mnCachedWidth; // cached value of resulting typographical width int mnTrailingSpaceWidth; // in Pixels mutable ATSGlyphRef* mpGlyphIds; // ATSU glyph ids mutable Fixed* mpCharWidths; // map relative charpos to charwidth mutable int* mpChars2Glyphs; // map relative charpos to absolute glyphpos mutable int* mpGlyphs2Chars; // map absolute glyphpos to absolute charpos mutable bool* mpGlyphRTLFlags; // BiDi status for glyphs: true if RTL mutable Fixed* mpGlyphAdvances; // contains glyph widths for the justified layout mutable Fixed* mpGlyphOrigAdvs; // contains glyph widths for the unjustified layout mutable Fixed* mpDeltaY; // vertical offset from the baseline struct SubPortion { int mnMinCharPos, mnEndCharPos; Fixed mnXOffset; }; typedef std::vector SubPortionVector; mutable SubPortionVector maSubPortions; // Writer&ATSUI layouts can differ quite a bit... // storing details about fonts used in glyph-fallback for this layout mutable class FallbackInfo* mpFallbackInfo; // x-offset relative to layout origin // currently only used in RTL-layouts mutable Fixed mnBaseAdv; }; class FallbackInfo { public: FallbackInfo() : mnMaxLevel(0) {} int AddFallback( ATSUFontID ); const ImplFontData* GetFallbackFontData( int nLevel ) const; private: const ImplMacFontData* maFontData[ MAX_FALLBACK ]; ATSUFontID maATSUFontId[ MAX_FALLBACK ]; int mnMaxLevel; }; // ======================================================================= ATSLayout::ATSLayout( ATSUStyle& rATSUStyle, float fFontScale ) : mrATSUStyle( rATSUStyle ), maATSULayout( NULL ), mnCharCount( 0 ), mfFontScale( fFontScale ), mnGlyphCount( -1 ), mnCachedWidth( 0 ), mnTrailingSpaceWidth( 0 ), mpGlyphIds( NULL ), mpCharWidths( NULL ), mpChars2Glyphs( NULL ), mpGlyphs2Chars( NULL ), mpGlyphRTLFlags( NULL ), mpGlyphAdvances( NULL ), mpGlyphOrigAdvs( NULL ), mpDeltaY( NULL ), mpFallbackInfo( NULL ), mnBaseAdv( 0 ) {} // ----------------------------------------------------------------------- ATSLayout::~ATSLayout() { if( mpDeltaY ) ATSUDirectReleaseLayoutDataArrayPtr( NULL, kATSUDirectDataBaselineDeltaFixedArray, (void**)&mpDeltaY ); if( maATSULayout ) ATSUDisposeTextLayout( maATSULayout ); delete[] mpGlyphRTLFlags; delete[] mpGlyphs2Chars; delete[] mpChars2Glyphs; if( mpCharWidths != mpGlyphAdvances ) delete[] mpCharWidths; delete[] mpGlyphIds; delete[] mpGlyphOrigAdvs; delete[] mpGlyphAdvances; delete mpFallbackInfo; } // ----------------------------------------------------------------------- inline int ATSLayout::Fixed2Vcl( Fixed nFixed ) const { float fFloat = mfFontScale * FixedToFloat( nFixed ); return static_cast(fFloat + 0.5); } // ----------------------------------------------------------------------- inline int ATSLayout::AtsuPix2Vcl( int nAtsuPixel) const { float fVclPixel = mfFontScale * nAtsuPixel; fVclPixel += (fVclPixel>=0) ? +0.5 : -0.5; // prepare rounding to int int nVclPixel = static_cast( fVclPixel); return nVclPixel; } // ----------------------------------------------------------------------- inline Fixed ATSLayout::Vcl2Fixed( int nPixel ) const { return FloatToFixed( nPixel / mfFontScale ); } // ----------------------------------------------------------------------- /** * ATSLayout::LayoutText : Manage text layouting * * @param rArgs: contains array of char to be layouted, starting and ending position of the text to layout * * Typographic layout of text by using the style maATSUStyle * * @return : true if everything is ok **/ bool ATSLayout::LayoutText( ImplLayoutArgs& rArgs ) { if( maATSULayout ) ATSUDisposeTextLayout( maATSULayout ); maATSULayout = NULL; // Layout text // set up our locals, verify parameters... DBG_ASSERT( (rArgs.mpStr!=NULL), "ATSLayout::LayoutText() with rArgs.mpStr==NULL !!!"); DBG_ASSERT( (mrATSUStyle!=NULL), "ATSLayout::LayoutText() with ATSUStyle==NULL !!!"); SalLayout::AdjustLayout( rArgs ); mnCharCount = mnEndCharPos - mnMinCharPos; // Workaround a bug in ATSUI with empty string if( mnCharCount<=0 ) return false; // create the ATSUI layout UniCharCount nRunLengths[1] = { mnCharCount }; const int nRunCount = sizeof(nRunLengths)/sizeof(*nRunLengths); OSStatus eStatus = ATSUCreateTextLayoutWithTextPtr( rArgs.mpStr, rArgs.mnMinCharPos, mnCharCount, rArgs.mnLength, nRunCount, &nRunLengths[0], &mrATSUStyle, &maATSULayout); DBG_ASSERT( (eStatus==noErr), "ATSUCreateTextLayoutWithTextPtr failed\n"); if( eStatus != noErr ) return false; // prepare setting of layout controls static const int nMaxTagCount = 1; ATSUAttributeTag aTagAttrs[ nMaxTagCount ]; ByteCount aTagSizes[ nMaxTagCount ]; ATSUAttributeValuePtr aTagValues[ nMaxTagCount ]; // prepare control of "glyph fallback" const SalData* pSalData = GetSalData(); ATSUFontFallbacks aFontFallbacks = pSalData->mpFontList->maFontFallbacks; aTagAttrs[0] = kATSULineFontFallbacksTag; aTagSizes[0] = sizeof( ATSUFontFallbacks ); aTagValues[0] = &aFontFallbacks; // set paragraph layout controls ATSUSetLayoutControls( maATSULayout, 1, aTagAttrs, aTagSizes, aTagValues ); // enable "glyph fallback" ATSUSetTransientFontMatching( maATSULayout, true ); // control run-specific layout controls if( (rArgs.mnFlags & SAL_LAYOUT_BIDI_STRONG) != 0 ) { // control BiDi defaults BOOL nLineDirTag = kATSULeftToRightBaseDirection; if( (rArgs.mnFlags & SAL_LAYOUT_BIDI_RTL) != 0 ) nLineDirTag = kATSURightToLeftBaseDirection; aTagAttrs[0] = kATSULineDirectionTag; aTagSizes[0] = sizeof( nLineDirTag ); aTagValues[0] = &nLineDirTag; // set run-specific layout controls #if 0 // why don't line-controls work as reliable as layout-controls??? ATSUSetLineControls( maATSULayout, rArgs.mnMinCharPos, 1, aTagAttrs, aTagSizes, aTagValues ); #else ATSUSetLayoutControls( maATSULayout, 1, aTagAttrs, aTagSizes, aTagValues ); #endif } return true; } // ----------------------------------------------------------------------- /** * ATSLayout::AdjustLayout : Adjust layout style * * @param rArgs: contains attributes relevant to do a text specific layout * * Adjust text layout by moving glyphs to match the requested logical widths * * @return : none **/ void ATSLayout::AdjustLayout( ImplLayoutArgs& rArgs ) { int nOrigWidth = GetTextWidth(); int nPixelWidth = rArgs.mnLayoutWidth; if( !nPixelWidth && rArgs.mpDXArray ) { // for now we are only interested in the layout width // TODO: use all mpDXArray elements for layouting nPixelWidth = rArgs.mpDXArray[ mnCharCount - 1 ]; // workaround for ATSUI not using trailing spaces for justification int i = mnCharCount; while( (--i >= 0) && IsSpacingGlyph( rArgs.mpStr[mnMinCharPos+i]|GF_ISCHAR ) ) {} if( i < 0 ) // nothing to do if the text is all spaces return; // #i91685# trailing letters are left aligned (right aligned for RTL) mnTrailingSpaceWidth = rArgs.mpDXArray[ mnCharCount-1 ]; if( i > 0 ) mnTrailingSpaceWidth -= rArgs.mpDXArray[ i-1 ]; InitGIA(); // ensure valid mpCharWidths[], TODO: use GetIdealX() instead? mnTrailingSpaceWidth -= Fixed2Vcl( mpCharWidths[i] ); // ignore trailing space for calculating the available width nOrigWidth -= mnTrailingSpaceWidth; nPixelWidth -= mnTrailingSpaceWidth; // in RTL-layouts trailing spaces are leftmost // TODO: use BiDi-algorithm to thoroughly check this assumption if( rArgs.mnFlags & SAL_LAYOUT_BIDI_RTL) mnBaseAdv = mnTrailingSpaceWidth; } // return early if there is nothing to do if( !nPixelWidth ) return; // HACK: justification requests which change the width by just one pixel were probably // #i86038# introduced by lossy conversions between integer based coordinate system // => ignoring such requests has many more benefits than eventual drawbacks if( (nOrigWidth >= nPixelWidth-1) && (nOrigWidth <= nPixelWidth+1) ) return; // changing the layout will make all previous measurements invalid InvalidateMeasurements(); ATSUAttributeTag nTags[3]; ATSUAttributeValuePtr nVals[3]; ByteCount nBytes[3]; Fixed nFixedWidth = Vcl2Fixed( nPixelWidth ); mnCachedWidth = nFixedWidth; Fract nFractFactor = kATSUFullJustification; ATSLineLayoutOptions nLineLayoutOptions = kATSLineHasNoHangers | kATSLineHasNoOpticalAlignment | kATSLineBreakToNearestCharacter; nTags[0] = kATSULineWidthTag; nVals[0] = &nFixedWidth; nBytes[0] = sizeof(Fixed); nTags[1] = kATSULineLayoutOptionsTag; nVals[1] = &nLineLayoutOptions; nBytes[1] = sizeof(ATSLineLayoutOptions); nTags[2] = kATSULineJustificationFactorTag; nVals[2] = &nFractFactor; nBytes[2] = sizeof(Fract); OSStatus eStatus = ATSUSetLayoutControls( maATSULayout, 3, nTags, nBytes, nVals ); if( eStatus != noErr ) return; // update the measurements of the justified layout to match the justification request if( rArgs.mpDXArray ) InitGIA( &rArgs ); } // ----------------------------------------------------------------------- /** * ATSLayout::DrawText : Draw text to screen * * @param rGraphics: device to draw to * * Draw the layouted text to the CGContext * * @return : none **/ void ATSLayout::DrawText( SalGraphics& rGraphics ) const { AquaSalGraphics& rAquaGraphics = static_cast(rGraphics); // short circuit if there is nothing to do if( (mnCharCount <= 0) || !rAquaGraphics.CheckContext() ) return; // the view is vertically flipped => flipped glyphs // so apply a temporary transformation that it flips back // also compensate if the font was size limited CGContextSaveGState( rAquaGraphics.mrContext ); CGContextScaleCTM( rAquaGraphics.mrContext, +mfFontScale, -mfFontScale ); CGContextSetShouldAntialias( rAquaGraphics.mrContext, !rAquaGraphics.mbNonAntialiasedText ); // prepare ATSUI drawing attributes static const ItemCount nMaxControls = 8; ATSUAttributeTag theTags[ nMaxControls ]; ByteCount theSizes[ nMaxControls]; ATSUAttributeValuePtr theValues[ nMaxControls ]; ItemCount numcontrols = 0; // Tell ATSUI to use CoreGraphics theTags[numcontrols] = kATSUCGContextTag; theSizes[numcontrols] = sizeof( CGContextRef ); theValues[numcontrols++] = &rAquaGraphics.mrContext; // Rotate if necessary if( rAquaGraphics.mnATSUIRotation != 0 ) { Fixed theAngle = rAquaGraphics.mnATSUIRotation; theTags[numcontrols] = kATSULineRotationTag; theSizes[numcontrols] = sizeof( Fixed ); theValues[numcontrols++] = &theAngle; } DBG_ASSERT( (numcontrols <= nMaxControls), "ATSLayout::DrawText() numcontrols overflow" ); OSStatus theErr = ATSUSetLayoutControls (maATSULayout, numcontrols, theTags, theSizes, theValues); DBG_ASSERT( (theErr==noErr), "ATSLayout::DrawText ATSUSetLayoutControls failed!\n" ); // Draw the text const Point aPos = GetDrawPosition( Point(mnBaseAdv,0) ); const Fixed nFixedX = Vcl2Fixed( +aPos.X() ); const Fixed nFixedY = Vcl2Fixed( -aPos.Y() ); // adjusted for y-mirroring if( maSubPortions.empty() ) ATSUDrawText( maATSULayout, mnMinCharPos, mnCharCount, nFixedX, nFixedY ); else { // draw the sub-portions and apply individual adjustments SubPortionVector::const_iterator it = maSubPortions.begin(); for(; it != maSubPortions.end(); ++it ) { const SubPortion& rSubPortion = *it; // calculate sub-portion offset for rotated text Fixed nXOfsFixed = 0, nYOfsFixed = 0; if( rAquaGraphics.mnATSUIRotation != 0 ) { const double fRadians = rAquaGraphics.mnATSUIRotation * (M_PI/0xB40000); nXOfsFixed = static_cast(static_cast(+rSubPortion.mnXOffset) * cos( fRadians )); nYOfsFixed = static_cast(static_cast(+rSubPortion.mnXOffset) * sin( fRadians )); } // draw sub-portions ATSUDrawText( maATSULayout, rSubPortion.mnMinCharPos, rSubPortion.mnEndCharPos - rSubPortion.mnMinCharPos, nFixedX + nXOfsFixed, nFixedY + nYOfsFixed ); } } // request an update of the changed window area if( rAquaGraphics.IsWindowGraphics() ) { Rect drawRect; // rectangle of the changed area theErr = ATSUMeasureTextImage( maATSULayout, mnMinCharPos, mnCharCount, nFixedX, nFixedY, &drawRect ); if( theErr == noErr ) { // FIXME: transformation from baseline to top left // with the simple approach below we invalidate too much short d = drawRect.bottom - drawRect.top; drawRect.top -= d; drawRect.bottom += d; CGRect aRect = CGRectMake( drawRect.left, drawRect.top, drawRect.right - drawRect.left, drawRect.bottom - drawRect.top ); aRect = CGContextConvertRectToDeviceSpace( rAquaGraphics.mrContext, aRect ); rAquaGraphics.RefreshRect( aRect ); } } // restore the original graphic context transformations CGContextRestoreGState( rAquaGraphics.mrContext ); } // ----------------------------------------------------------------------- /** * ATSLayout::GetNextGlyphs : Get info about next glyphs in the layout * * @param nLen: max number of char * @param pGlyphs: returned array of glyph ids * @param rPos: returned x starting position * @param nStart: index of the first requested glyph * @param pGlyphAdvances: returned array of glyphs advances * @param pCharIndexes: returned array of char indexes * * Returns infos about the next glyphs in the text layout * * @return : number of glyph details that were provided **/ int ATSLayout::GetNextGlyphs( int nLen, sal_GlyphId* pOutGlyphIds, Point& rPos, int& nStart, sal_Int32* pGlyphAdvances, int* pCharIndexes ) const { if( nStart < 0 ) // first glyph requested? nStart = 0; // get glyph measurements InitGIA(); // some measurements are only needed for multi-glyph results if( nLen > 1 ) { GetIdealX(); GetDeltaY(); } if( nStart >= mnGlyphCount ) // no glyph left? return 0; // calculate glyph position relative to layout base // TODO: avoid for nStart!=0 case by reusing rPos Fixed nXOffset = mnBaseAdv; for( int i = 0; i < nStart; ++i ) nXOffset += mpGlyphAdvances[ i ]; // if sub-portion offsets are involved there is an additional x-offset if( !maSubPortions.empty() ) { // prepare to find the sub-portion int nCharPos = nStart + mnMinCharPos; if( mpGlyphs2Chars ) nCharPos = mpGlyphs2Chars[nStart]; // find the matching subportion // TODO: is a non-linear search worth it? SubPortionVector::const_iterator it = maSubPortions.begin(); for(; it != maSubPortions.end(); ++it) { const SubPortion& r = *it; if( nCharPos < r.mnMinCharPos ) continue; if( nCharPos >= r.mnEndCharPos ) continue; // apply the sub-portion xoffset nXOffset += r.mnXOffset; break; } } Fixed nYOffset = 0; if( mpDeltaY ) nYOffset = mpDeltaY[ nStart ]; // calculate absolute position in pixel units const Point aRelativePos( Fix2Long(static_cast(nXOffset*mfFontScale)), Fix2Long(static_cast(nYOffset*mfFontScale)) ); rPos = GetDrawPosition( aRelativePos ); // update return values int nCount = 0; while( nCount < nLen ) { ++nCount; sal_GlyphId aGlyphId = mpGlyphIds[nStart]; // check if glyph fallback is needed for this glyph // TODO: use ATSUDirectGetLayoutDataArrayPtrFromTextLayout(kATSUDirectDataStyleIndex) API instead? const int nCharPos = mpGlyphs2Chars ? mpGlyphs2Chars[nStart] : nStart + mnMinCharPos; ATSUFontID nFallbackFontID = kATSUInvalidFontID; UniCharArrayOffset nChangedOffset = 0; UniCharCount nChangedLength = 0; OSStatus eStatus = ATSUMatchFontsToText( maATSULayout, nCharPos, kATSUToTextEnd, &nFallbackFontID, &nChangedOffset, &nChangedLength ); if( (eStatus == kATSUFontsMatched) && ((int)nChangedOffset == nCharPos) ) { // fallback is needed if( !mpFallbackInfo ) mpFallbackInfo = new FallbackInfo; // register fallback font const int nLevel = mpFallbackInfo->AddFallback( nFallbackFontID ); // update sal_GlyphId with fallback level aGlyphId |= (nLevel << GF_FONTSHIFT); } // update resulting glyphid array *(pOutGlyphIds++) = aGlyphId; // update returned glyph advance array if( pGlyphAdvances ) *(pGlyphAdvances++) = Fixed2Vcl( mpGlyphAdvances[nStart] ); // update returned index-into-string array if( pCharIndexes ) { int nCharPos; if( mpGlyphs2Chars ) nCharPos = mpGlyphs2Chars[nStart]; else nCharPos = nStart + mnMinCharPos; *(pCharIndexes++) = nCharPos; } // stop at last glyph if( ++nStart >= mnGlyphCount ) break; // stop when next the x-position is unexpected if( !maSubPortions.empty() ) break; // TODO: finish the complete sub-portion if( !pGlyphAdvances && mpGlyphOrigAdvs ) if( mpGlyphAdvances[nStart-1] != mpGlyphOrigAdvs[nStart-1] ) break; // stop when the next y-position is unexpected if( mpDeltaY ) if( mpDeltaY[nStart-1] != mpDeltaY[nStart] ) break; } return nCount; } // ----------------------------------------------------------------------- /** * ATSLayout::GetTextWidth : Get typographic width of layouted text * * Get typographic bounds of the text * * @return : text width **/ long ATSLayout::GetTextWidth() const { if( mnCharCount <= 0 ) return 0; DBG_ASSERT( (maATSULayout!=NULL), "ATSLayout::GetTextWidth() with maATSULayout==NULL !\n"); if( !maATSULayout ) return 0; if( !mnCachedWidth ) { // prepare precise measurements on pixel based or reference-device const UInt16 eTypeOfBounds = kATSUseFractionalOrigins; // determine number of needed measurement trapezoids ItemCount nMaxBounds = 0; OSStatus err = ATSUGetGlyphBounds( maATSULayout, 0, 0, mnMinCharPos, mnCharCount, eTypeOfBounds, 0, NULL, &nMaxBounds ); if( (err != noErr) || (nMaxBounds <= 0) ) return 0; // get the trapezoids typedef std::vector TrapezoidVector; TrapezoidVector aTrapezoidVector( nMaxBounds ); ItemCount nBoundsCount = 0; err = ATSUGetGlyphBounds( maATSULayout, 0, 0, mnMinCharPos, mnCharCount, eTypeOfBounds, nMaxBounds, &aTrapezoidVector[0], &nBoundsCount ); if( err != noErr ) return 0; DBG_ASSERT( (nBoundsCount <= nMaxBounds), "ATSLayout::GetTextWidth() : too many trapezoids !\n"); // find the bound extremas Fixed nLeftBound = 0; Fixed nRightBound = 0; for( ItemCount i = 0; i < nBoundsCount; ++i ) { const ATSTrapezoid& rTrap = aTrapezoidVector[i]; if( (i == 0) || (nLeftBound < rTrap.lowerLeft.x) ) nLeftBound = rTrap.lowerLeft.x; if( (i == 0) || (nRightBound > rTrap.lowerRight.x) ) nRightBound = rTrap.lowerRight.x; } // measure the bound extremas mnCachedWidth = nRightBound - nLeftBound; // adjust for eliminated trailing space widths } int nScaledWidth = Fixed2Vcl( mnCachedWidth ); nScaledWidth += mnTrailingSpaceWidth; return nScaledWidth; } // ----------------------------------------------------------------------- /** * ATSLayout::FillDXArray : Get Char widths * * @param pDXArray: array to be filled with x-advances * * Fill the pDXArray with horizontal deltas : CharWidths * * @return : typographical width of the complete text layout **/ long ATSLayout::FillDXArray( long* pDXArray ) const { // short circuit requests which don't need full details if( !pDXArray ) return GetTextWidth(); // check assumptions DBG_ASSERT( !mnTrailingSpaceWidth, "ATSLayout::FillDXArray() with nTSW!=0" ); // initialize details about the resulting layout InitGIA(); // distribute the widths among the string elements int nPixWidth = 0; mnCachedWidth = 0; for( int i = 0; i < mnCharCount; ++i ) { // convert and adjust for accumulated rounding errors mnCachedWidth += mpCharWidths[i]; const int nOldPixWidth = nPixWidth; nPixWidth = Fixed2Vcl( mnCachedWidth ); pDXArray[i] = nPixWidth - nOldPixWidth; } return nPixWidth; } // ----------------------------------------------------------------------- /** * ATSLayout::GetTextBreak : Find line break depending on width * * @param nMaxWidth : maximal logical text width in subpixel units * @param nCharExtra: expanded/condensed spacing in subpixel units * @param nFactor: number of subpixel units per pixel * * Measure the layouted text to find the typographical line break * the result is needed by the language specific line breaking * * @return : string index corresponding to the suggested line break **/ int ATSLayout::GetTextBreak( long nMaxWidth, long nCharExtra, int nFactor ) const { if( !maATSULayout ) return STRING_LEN; // the semantics of the legacy use case (nCharExtra!=0) cannot be mapped to ATSUBreakLine() if( nCharExtra != 0 ) { // prepare the measurement by layouting and measuring the un-expanded/un-condensed text if( !InitGIA() ) return STRING_LEN; // TODO: use a better way than by testing each the char position ATSUTextMeasurement nATSUSumWidth = 0; const ATSUTextMeasurement nATSUMaxWidth = Vcl2Fixed( nMaxWidth / nFactor ); const ATSUTextMeasurement nATSUExtraWidth = Vcl2Fixed( nCharExtra ) / nFactor; for( int i = 0; i < mnCharCount; ++i ) { nATSUSumWidth += mpCharWidths[i]; if( nATSUSumWidth >= nATSUMaxWidth ) return (mnMinCharPos + i); nATSUSumWidth += nATSUExtraWidth; if( nATSUSumWidth >= nATSUMaxWidth ) if( i+1 < mnCharCount ) return (mnMinCharPos + i); } return STRING_LEN; } // get a quick overview on what could fit const long nPixelWidth = (nMaxWidth - (nCharExtra * mnCharCount)) / nFactor; if( nPixelWidth <= 0 ) return mnMinCharPos; // check assumptions DBG_ASSERT( !mnTrailingSpaceWidth, "ATSLayout::GetTextBreak() with nTSW!=0" ); // initial measurement of text break position UniCharArrayOffset nBreakPos = mnMinCharPos; const ATSUTextMeasurement nATSUMaxWidth = Vcl2Fixed( nPixelWidth ); if( nATSUMaxWidth <= 0xFFFF ) // #i108584# avoid ATSU rejecting the parameter return mnMinCharPos; // or do ATSUMaxWidth=0x10000; OSStatus eStatus = ATSUBreakLine( maATSULayout, mnMinCharPos, nATSUMaxWidth, false, &nBreakPos ); if( (eStatus != noErr) && (eStatus != kATSULineBreakInWord) ) return STRING_LEN; // the result from ATSUBreakLine() doesn't match the semantics expected by its // application layer callers from SW+SVX+I18N. Adjust the results to the expectations: // ATSU reports that everything fits even when trailing spaces would break the line // #i89789# OOo's application layers expect STRING_LEN if everything fits if( nBreakPos >= static_cast(mnEndCharPos) ) return STRING_LEN; // GetTextBreak()'s callers expect it to return the "stupid visual line break". // Returning anything else result.s in subtle problems in the application layers. static const bool bInWord = true; // TODO: add as argument to GetTextBreak() method if( !bInWord ) return nBreakPos; // emulate stupid visual line breaking by line breaking for the remaining width ATSUTextMeasurement nLeft, nRight, nDummy; eStatus = ATSUGetUnjustifiedBounds( maATSULayout, mnMinCharPos, nBreakPos-mnMinCharPos, &nLeft, &nRight, &nDummy, &nDummy ); if( eStatus != noErr ) return nBreakPos; const ATSUTextMeasurement nATSURemWidth = nATSUMaxWidth - (nRight - nLeft); if( nATSURemWidth <= 0xFFFF ) // #i108584# avoid ATSU rejecting the parameter return nBreakPos; UniCharArrayOffset nBreakPosInWord = nBreakPos; eStatus = ATSUBreakLine( maATSULayout, nBreakPos, nATSURemWidth, false, &nBreakPosInWord ); return nBreakPosInWord; } // ----------------------------------------------------------------------- /** * ATSLayout::GetCaretPositions : Find positions of carets * * @param nMaxIndex position to which we want to find the carets * * Fill the array of positions of carets (for cursors and selections) * * @return : none **/ void ATSLayout::GetCaretPositions( int nMaxIndex, long* pCaretXArray ) const { DBG_ASSERT( ((nMaxIndex>0)&&!(nMaxIndex&1)), "ATSLayout::GetCaretPositions() : invalid number of caret pairs requested"); // initialize the caret positions for( int i = 0; i < nMaxIndex; ++i ) pCaretXArray[ i ] = -1; for( int n = 0; n <= mnCharCount; ++n ) { // measure the characters cursor position typedef unsigned char Boolean; const Boolean bIsLeading = true; ATSUCaret aCaret0, aCaret1; Boolean bIsSplit; OSStatus eStatus = ATSUOffsetToCursorPosition( maATSULayout, mnMinCharPos + n, bIsLeading, kATSUByCharacter, &aCaret0, &aCaret1, &bIsSplit ); if( eStatus != noErr ) continue; const Fixed nFixedPos = mnBaseAdv + aCaret0.fX; // convert the measurement to pixel units const int nPixelPos = Fixed2Vcl( nFixedPos ); // update previous trailing position if( n > 0 ) pCaretXArray[2*n-1] = nPixelPos; // update current leading position if( 2*n >= nMaxIndex ) break; pCaretXArray[2*n+0] = nPixelPos; } } // ----------------------------------------------------------------------- /** * ATSLayout::GetBoundRect : Get rectangle dim containing the layouted text * * @param rVCLRect: rectangle of text image (layout) measures * * Get ink bounds of the text * * @return : measurement valid **/ bool ATSLayout::GetBoundRect( SalGraphics&, Rectangle& rVCLRect ) const { const Point aPos = GetDrawPosition( Point(mnBaseAdv, 0) ); const Fixed nFixedX = Vcl2Fixed( +aPos.X() ); const Fixed nFixedY = Vcl2Fixed( +aPos.Y() ); Rect aMacRect; OSStatus eStatus = ATSUMeasureTextImage( maATSULayout, mnMinCharPos, mnCharCount, nFixedX, nFixedY, &aMacRect ); if( eStatus != noErr ) return false; // ATSU top-bottom are vertically flipped from a VCL aspect rVCLRect.Left() = AtsuPix2Vcl( aMacRect.left ); rVCLRect.Top() = AtsuPix2Vcl( aMacRect.top ); rVCLRect.Right() = AtsuPix2Vcl( aMacRect.right ); rVCLRect.Bottom() = AtsuPix2Vcl( aMacRect.bottom ); return true; } // ----------------------------------------------------------------------- /** * ATSLayout::InitGIA() : get many informations about layouted text * * Fills arrays of information about the gylph layout previously done * in ASTLayout::LayoutText() : glyph advance (width), glyph delta Y (from baseline), * mapping between glyph index and character index, chars widths * * @return : true if everything could be computed, otherwise false **/ bool ATSLayout::InitGIA( ImplLayoutArgs* pArgs ) const { // no need to run InitGIA more than once on the same ATSLayout object if( mnGlyphCount >= 0 ) return true; mnGlyphCount = 0; // Workaround a bug in ATSUI with empty string if( mnCharCount <= 0 ) return false; // initialize character details mpCharWidths = new Fixed[ mnCharCount ]; mpChars2Glyphs = new int[ mnCharCount ]; for( int n = 0; n < mnCharCount; ++n ) { mpCharWidths[ n ] = 0; mpChars2Glyphs[ n ] = -1; } // get details about the glyph layout ItemCount iLayoutDataCount; const ATSLayoutRecord* pALR; OSStatus eStatus = ATSUDirectGetLayoutDataArrayPtrFromTextLayout( maATSULayout, mnMinCharPos, kATSUDirectDataLayoutRecordATSLayoutRecordCurrent, (void**)&pALR, &iLayoutDataCount ); DBG_ASSERT( (eStatus==noErr), "ATSLayout::InitGIA() : no ATSLayoutRecords!\n"); if( (eStatus != noErr) || (iLayoutDataCount <= 1) ) return false; // initialize glyph details mpGlyphIds = new ATSGlyphRef[ iLayoutDataCount ]; mpGlyphAdvances = new Fixed[ iLayoutDataCount ]; mpGlyphs2Chars = new int[ iLayoutDataCount ]; // measure details of the glyph layout Fixed nLeftPos = 0; for( ItemCount i = 0; i < iLayoutDataCount; ++i ) { const ATSLayoutRecord& rALR = pALR[i]; // distribute the widths as fairly as possible among the chars const int nRelativeIdx = (rALR.originalOffset / 2); if( i+1 < iLayoutDataCount ) mpCharWidths[ nRelativeIdx ] += pALR[i+1].realPos - rALR.realPos; // new glyph is available => finish measurement of old glyph if( mnGlyphCount > 0 ) mpGlyphAdvances[ mnGlyphCount-1 ] = rALR.realPos - nLeftPos; // ignore marker or deleted glyphs enum { MARKED_OUTGLYPH=0xFFFE, DROPPED_OUTGLYPH=0xFFFF}; if( rALR.glyphID >= MARKED_OUTGLYPH ) continue; DBG_ASSERT( !(rALR.flags & kATSGlyphInfoTerminatorGlyph), "ATSLayout::InitGIA(): terminator glyph not marked as deleted!" ); // store details of the visible glyphs nLeftPos = rALR.realPos; mpGlyphIds[ mnGlyphCount ] = rALR.glyphID; // map visible glyphs to their counterparts in the UTF16-character array mpGlyphs2Chars[ mnGlyphCount ] = nRelativeIdx + mnMinCharPos; mpChars2Glyphs[ nRelativeIdx ] = mnGlyphCount; ++mnGlyphCount; } // measure complete width mnCachedWidth = mnBaseAdv; mnCachedWidth += pALR[iLayoutDataCount-1].realPos - pALR[0].realPos; #if (OSL_DEBUG_LEVEL > 1) Fixed nWidthSum = mnBaseAdv; for( int n = 0; n < mnCharCount; ++n ) nWidthSum += mpCharWidths[ n ]; DBG_ASSERT( (nWidthSum==mnCachedWidth), "ATSLayout::InitGIA(): measured widths do not match!\n" ); #endif // #i91183# we need to split up the portion into sub-portions // if the ATSU-layout differs too much from the requested layout if( pArgs && pArgs->mpDXArray ) { // TODO: non-strong-LTR case cases should be handled too if( (pArgs->mnFlags & TEXT_LAYOUT_BIDI_STRONG) && !(pArgs->mnFlags & TEXT_LAYOUT_BIDI_RTL) ) { Fixed nSumCharWidths = 0; SubPortion aSubPortion = { mnMinCharPos, 0, 0 }; for( int i = 0; i < mnCharCount; ++i ) { // calculate related logical position nSumCharWidths += mpCharWidths[i]; // start new sub-portion if needed const Fixed nNextXPos = Vcl2Fixed(pArgs->mpDXArray[i]); const Fixed nNextXOffset = nNextXPos - nSumCharWidths; const Fixed nFixedDiff = aSubPortion.mnXOffset - nNextXOffset; if( (nFixedDiff < -0xC000) || (nFixedDiff > +0xC000) ) { // get to the end of the current sub-portion // prevent splitting up at diacritics etc. int j = i; while( (++j < mnCharCount) && !mpCharWidths[j] ); aSubPortion.mnEndCharPos = mnMinCharPos + j; // emit current sub-portion maSubPortions.push_back( aSubPortion ); // prepare next sub-portion aSubPortion.mnMinCharPos = aSubPortion.mnEndCharPos; aSubPortion.mnXOffset = nNextXOffset; } } // emit the remaining sub-portion if( !maSubPortions.empty() ) { aSubPortion.mnEndCharPos = mnEndCharPos; if( aSubPortion.mnEndCharPos != aSubPortion.mnMinCharPos ) maSubPortions.push_back( aSubPortion ); } } // override layouted charwidths with requested charwidths for( int n = 0; n < mnCharCount; ++n ) mpCharWidths[ n ] = pArgs->mpDXArray[ n ]; } // release the ATSU layout records ATSUDirectReleaseLayoutDataArrayPtr(NULL, kATSUDirectDataLayoutRecordATSLayoutRecordCurrent, (void**)&pALR ); return true; } // ----------------------------------------------------------------------- bool ATSLayout::GetIdealX() const { // compute the ideal advance widths only once if( mpGlyphOrigAdvs != NULL ) return true; DBG_ASSERT( (mpGlyphIds!=NULL), "GetIdealX() called with mpGlyphIds==NULL !" ); DBG_ASSERT( (mrATSUStyle!=NULL), "GetIdealX called with mrATSUStyle==NULL !" ); // TODO: cache ideal metrics per glyph? std::vector aIdealMetrics; aIdealMetrics.resize( mnGlyphCount ); OSStatus theErr = ATSUGlyphGetIdealMetrics( mrATSUStyle, mnGlyphCount, &mpGlyphIds[0], sizeof(*mpGlyphIds), &aIdealMetrics[0] ); DBG_ASSERT( (theErr==noErr), "ATSUGlyphGetIdealMetrics failed!"); if( theErr != noErr ) return false; mpGlyphOrigAdvs = new Fixed[ mnGlyphCount ]; for( int i = 0;i < mnGlyphCount;++i ) mpGlyphOrigAdvs[i] = FloatToFixed( aIdealMetrics[i].advance.x ); return true; } // ----------------------------------------------------------------------- bool ATSLayout::GetDeltaY() const { // don't bother to get the same delta-y-array more than once if( mpDeltaY != NULL ) return true; #if 1 if( !maATSULayout ) return false; // get and keep the y-deltas in the mpDeltaY member variable // => release it in the destructor ItemCount nDeltaCount = 0; OSStatus theErr = ATSUDirectGetLayoutDataArrayPtrFromTextLayout( maATSULayout, mnMinCharPos, kATSUDirectDataBaselineDeltaFixedArray, (void**)&mpDeltaY, &nDeltaCount ); DBG_ASSERT( (theErr==noErr ), "mpDeltaY - ATSUDirectGetLayoutDataArrayPtrFromTextLayout failed!\n"); if( theErr != noErr ) return false; if( mpDeltaY == NULL ) return true; if( nDeltaCount != (ItemCount)mnGlyphCount ) { DBG_WARNING( "ATSLayout::GetDeltaY() : wrong deltaY count!" ); ATSUDirectReleaseLayoutDataArrayPtr( NULL, kATSUDirectDataBaselineDeltaFixedArray, (void**)&mpDeltaY ); mpDeltaY = NULL; return false; } #endif return true; } // ----------------------------------------------------------------------- #define DELETEAZ( X ) { delete[] X; X = NULL; } void ATSLayout::InvalidateMeasurements() { mnGlyphCount = -1; DELETEAZ( mpGlyphIds ); DELETEAZ( mpCharWidths ); DELETEAZ( mpChars2Glyphs ); DELETEAZ( mpGlyphs2Chars ); DELETEAZ( mpGlyphRTLFlags ); DELETEAZ( mpGlyphAdvances ); DELETEAZ( mpGlyphOrigAdvs ); DELETEAZ( mpDeltaY ); } // ======================================================================= #if 0 // helper class to convert ATSUI outlines to VCL PolyPolygons class PolyArgs { public: PolyArgs(); ~PolyArgs(); void Init( PolyPolygon* pPolyPoly, long nXOffset, long nYOffset ); void AddPoint( const Float32Point&, PolyFlags ); void ClosePolygon(); private: PolyPolygon* mpPolyPoly; long mnXOffset, mnYOffset; Point* mpPointAry; BYTE* mpFlagAry; USHORT mnMaxPoints; USHORT mnPointCount; USHORT mnPolyCount; bool mbHasOffline; }; // ----------------------------------------------------------------------- PolyArgs::PolyArgs() : mpPolyPoly(NULL), mnPointCount(0), mnPolyCount(0), mbHasOffline(false) { mnMaxPoints = 256; mpPointAry = new Point[ mnMaxPoints ]; mpFlagAry = new BYTE [ mnMaxPoints ]; } // ----------------------------------------------------------------------- PolyArgs::~PolyArgs() { delete[] mpFlagAry; delete[] mpPointAry; } // ----------------------------------------------------------------------- void PolyArgs::Init( PolyPolygon* pPolyPoly, long nXOffset, long nYOffset ) { mnXOffset = nXOffset; mnYOffset = nYOffset; mpPolyPoly = pPolyPoly; mpPolyPoly->Clear(); mnPointCount = 0; mnPolyCount = 0; } // ----------------------------------------------------------------------- void PolyArgs::AddPoint( const Float32Point& rPoint, PolyFlags eFlags ) { if( mnPointCount >= mnMaxPoints ) { // resize if needed (TODO: use STL?) mnMaxPoints *= 4; Point* mpNewPoints = new Point[ mnMaxPoints ]; BYTE* mpNewFlags = new BYTE[ mnMaxPoints ]; for( int i = 0; i < mnPointCount; ++i ) { mpNewPoints[ i ] = mpPointAry[ i ]; mpNewFlags[ i ] = mpFlagAry[ i ]; } delete[] mpFlagAry; delete[] mpPointAry; mpPointAry = mpNewPoints; mpFlagAry = mpNewFlags; } // convert to pixels and add startpoint offset int nXPos = Float32ToInt( rPoint.x ); int nYPos = Float32ToInt( rPoint.y ); mpPointAry[ mnPointCount ] = Point( nXPos + mnXOffset, nYPos + mnYOffset ); // set point flags mpFlagAry[ mnPointCount++ ]= eFlags; mbHasOffline |= (eFlags != POLY_NORMAL); } // ----------------------------------------------------------------------- void PolyArgs::ClosePolygon() { if( !mnPolyCount++ ) return; // append finished polygon Polygon aPoly( mnPointCount, mpPointAry, (mbHasOffline ? mpFlagAry : NULL) ); mpPolyPoly->Insert( aPoly ); // prepare for new polygon mnPointCount = 0; mbHasOffline = false; } #endif // ======================================================================= // glyph fallback is supported directly by Aqua // so methods used only by MultiSalLayout can be dummy implemented bool ATSLayout::GetGlyphOutlines( SalGraphics&, PolyPolyVector& ) const { return false; } void ATSLayout::InitFont() {} void ATSLayout::MoveGlyph( int /*nStart*/, long /*nNewXPos*/ ) {} void ATSLayout::DropGlyph( int /*nStart*/ ) {} void ATSLayout::Simplify( bool /*bIsBase*/ ) {} // get the ImplFontData for a glyph fallback font // for a glyphid that was returned by ATSLayout::GetNextGlyphs() const ImplFontData* ATSLayout::GetFallbackFontData( sal_GlyphId aGlyphId ) const { // check if any fallback fonts were needed if( !mpFallbackInfo ) return NULL; // check if the current glyph needs a fallback font int nFallbackLevel = (aGlyphId & GF_FONTMASK) >> GF_FONTSHIFT; if( !nFallbackLevel ) return NULL; return mpFallbackInfo->GetFallbackFontData( nFallbackLevel ); } // ======================================================================= int FallbackInfo::AddFallback( ATSUFontID nFontId ) { // check if the fallback font is already known for( int nLevel = 0; nLevel < mnMaxLevel; ++nLevel ) if( maATSUFontId[ nLevel ] == nFontId ) return (nLevel + 1); // append new fallback font if possible if( mnMaxLevel >= MAX_FALLBACK-1 ) return 0; // keep ATSU font id of fallback font maATSUFontId[ mnMaxLevel ] = nFontId; // find and cache the corresponding ImplFontData pointer const SystemFontList* pSFL = GetSalData()->mpFontList; const ImplMacFontData* pFontData = pSFL->GetFontDataFromId( nFontId ); maFontData[ mnMaxLevel ] = pFontData; // increase fallback level by one return (++mnMaxLevel); } // ----------------------------------------------------------------------- const ImplFontData* FallbackInfo::GetFallbackFontData( int nFallbackLevel ) const { const ImplMacFontData* pFallbackFont = maFontData[ nFallbackLevel-1 ]; return pFallbackFont; } // ======================================================================= SalLayout* AquaSalGraphics::GetTextLayout( ImplLayoutArgs&, int /*nFallbackLevel*/ ) { ATSLayout* pATSLayout = new ATSLayout( maATSUStyle, mfFontScale ); return pATSLayout; } // =======================================================================