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Diffstat (limited to 'sdext/source/pdfimport/tree/pdfiprocessor.cxx')
-rw-r--r-- | sdext/source/pdfimport/tree/pdfiprocessor.cxx | 1463 |
1 files changed, 0 insertions, 1463 deletions
diff --git a/sdext/source/pdfimport/tree/pdfiprocessor.cxx b/sdext/source/pdfimport/tree/pdfiprocessor.cxx deleted file mode 100644 index 47f0def..0000000 --- a/sdext/source/pdfimport/tree/pdfiprocessor.cxx +++ /dev/null @@ -1,1463 +0,0 @@ -/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ -/************************************************************************* - * - * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. - * - * Copyright 2000, 2010 Oracle and/or its affiliates. - * - * OpenOffice.org - a multi-platform office productivity suite - * - * This file is part of OpenOffice.org. - * - * OpenOffice.org is free software: you can redistribute it and/or modify - * it under the terms of the GNU Lesser General Public License version 3 - * only, as published by the Free Software Foundation. - * - * OpenOffice.org is distributed in the hope that it will be useful, - * but WITHOUT ANY WARRANTY; without even the implied warranty of - * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - * GNU Lesser General Public License version 3 for more details - * (a copy is included in the LICENSE file that accompanied this code). - * - * You should have received a copy of the GNU Lesser General Public License - * version 3 along with OpenOffice.org. If not, see - * <http://www.openoffice.org/license.html> - * for a copy of the LGPLv3 License. - * - ************************************************************************/ - -// MARKER(update_precomp.py): autogen include statement, do not remove -#include "precompiled_sdext.hxx" - -#include "pdfiprocessor.hxx" -#include "xmlemitter.hxx" -#include "pdfihelper.hxx" -#include "imagecontainer.hxx" -#include "genericelements.hxx" -#include "style.hxx" -#include "treevisiting.hxx" - -#include <rtl/string.hxx> -#include <rtl/strbuf.hxx> - -#include <comphelper/sequence.hxx> -#include <basegfx/polygon/b2dpolypolygontools.hxx> -#include <basegfx/polygon/b2dpolygonclipper.hxx> -#include <basegfx/polygon/b2dpolygontools.hxx> -#include <basegfx/tools/canvastools.hxx> -#include <basegfx/matrix/b2dhommatrix.hxx> -#include <basegfx/range/b2irange.hxx> -#include <basegfx/range/b2drectangle.hxx> -#include <basegfx/matrix/b2dhommatrixtools.hxx> - -#include <com/sun/star/rendering/XVolatileBitmap.hpp> -#include <com/sun/star/geometry/RealSize2D.hpp> -#include <com/sun/star/geometry/RealPoint2D.hpp> -#include <com/sun/star/geometry/RealRectangle2D.hpp> - - -using namespace com::sun::star; - - -namespace pdfi -{ - - PDFIProcessor::PDFIProcessor( const uno::Reference< task::XStatusIndicator >& xStat , - com::sun::star::uno::Reference< com::sun::star::uno::XComponentContext > xContext) : - - m_xContext(xContext), - fYPrevTextPosition(-10000.0), - fPrevTextHeight(0.0), - fXPrevTextPosition(0.0), - fPrevTextWidth(0.0), - m_pElFactory( new ElementFactory() ), - m_pDocument( m_pElFactory->createDocumentElement() ), - m_pCurPage(0), - m_pCurElement(0), - m_nNextFontId( 1 ), - m_aIdToFont(), - m_aFontToId(), - m_aGCStack(), - m_nNextGCId( 1 ), - m_aIdToGC(), - m_aGCToId(), - m_aImages(), - m_eTextDirection( LrTb ), - m_nPages(0), - m_nNextZOrder( 1 ), - m_fWordSpace(0.0), - m_bIsWhiteSpaceInLine( false ), - m_xStatusIndicator( xStat ), - m_bHaveTextOnDocLevel(false), - m_bMirrorMapperTried(false) -{ - FontAttributes aDefFont; - aDefFont.familyName = USTR("Helvetica"); - aDefFont.isBold = false; - aDefFont.isItalic = false; - aDefFont.size = 10*PDFI_OUTDEV_RESOLUTION/72; - m_aIdToFont[ 0 ] = aDefFont; - m_aFontToId[ aDefFont ] = 0; - - GraphicsContext aDefGC; - m_aGCStack.push_back( aDefGC ); - m_aIdToGC[ 0 ] = aDefGC; - m_aGCToId[ aDefGC ] = 0; -} - -void PDFIProcessor::enableToplevelText() -{ - m_bHaveTextOnDocLevel = true; -} - -void PDFIProcessor::setPageNum( sal_Int32 nPages ) -{ - m_nPages = nPages; -} - - -void PDFIProcessor::pushState() -{ - m_aGCStack.push_back( m_aGCStack.back() ); -} - -void PDFIProcessor::popState() -{ - m_aGCStack.pop_back(); -} - -void PDFIProcessor::setFlatness( double value ) -{ - getCurrentContext().Flatness = value; -} - -void PDFIProcessor::setTransformation( const geometry::AffineMatrix2D& rMatrix ) -{ - basegfx::unotools::homMatrixFromAffineMatrix( - getCurrentContext().Transformation, - rMatrix ); -} - -void PDFIProcessor::setLineDash( const uno::Sequence<double>& dashes, - double /*start*/ ) -{ - // TODO(F2): factor in start offset - GraphicsContext& rContext( getCurrentContext() ); - comphelper::sequenceToContainer(rContext.DashArray,dashes); -} - -void PDFIProcessor::setLineJoin(sal_Int8 nJoin) -{ - getCurrentContext().LineJoin = nJoin; -} - -void PDFIProcessor::setLineCap(sal_Int8 nCap) -{ - getCurrentContext().LineCap = nCap; -} - -void PDFIProcessor::setMiterLimit(double) -{ - OSL_TRACE("PDFIProcessor::setMiterLimit(): not supported by ODF"); -} - -void PDFIProcessor::setLineWidth(double nWidth) -{ - getCurrentContext().LineWidth = nWidth; -} - -void PDFIProcessor::setFillColor( const rendering::ARGBColor& rColor ) -{ - getCurrentContext().FillColor = rColor; -} - -void PDFIProcessor::setStrokeColor( const rendering::ARGBColor& rColor ) -{ - getCurrentContext().LineColor = rColor; -} - -void PDFIProcessor::setBlendMode(sal_Int8) -{ - OSL_TRACE("PDFIProcessor::setBlendMode(): not supported by ODF"); -} - -void PDFIProcessor::setFont( const FontAttributes& i_rFont ) -{ - FontAttributes aChangedFont( i_rFont ); - GraphicsContext& rGC=getCurrentContext(); - // for text render modes, please see PDF reference manual - aChangedFont.isOutline = ( (rGC.TextRenderMode == 1) || (rGC. TextRenderMode == 2) ); - FontToIdMap::const_iterator it = m_aFontToId.find( aChangedFont ); - if( it != m_aFontToId.end() ) - rGC.FontId = it->second; - else - { - m_aFontToId[ aChangedFont ] = m_nNextFontId; - m_aIdToFont[ m_nNextFontId ] = aChangedFont; - rGC.FontId = m_nNextFontId; - m_nNextFontId++; - } -} - -void PDFIProcessor::setTextRenderMode( sal_Int32 i_nMode ) -{ - GraphicsContext& rGC=getCurrentContext(); - rGC.TextRenderMode = i_nMode; - IdToFontMap::iterator it = m_aIdToFont.find( rGC.FontId ); - if( it != m_aIdToFont.end() ) - setFont( it->second ); -} - -sal_Int32 PDFIProcessor::getFontId( const FontAttributes& rAttr ) const -{ - const sal_Int32 nCurFont = getCurrentContext().FontId; - const_cast<PDFIProcessor*>(this)->setFont( rAttr ); - const sal_Int32 nFont = getCurrentContext().FontId; - const_cast<PDFIProcessor*>(this)->getCurrentContext().FontId = nCurFont; - - return nFont; -} - -// line diagnose block - start -void PDFIProcessor::processGlyphLine() -{ - if( m_GlyphsList.empty() ) - return; - - double fPreAvarageSpaceValue= 0.0; - double fAvarageDiffCharSpaceValue= 0.0; - double fMinPreSpaceValue= 0.0; - double fMaxPreSpaceValue= 0.0; - double fNullSpaceBreakerAvaregeSpaceValue = 0.0; - - unsigned int nSpaceCount( 0 ); - unsigned int nDiffSpaceCount( 0 ); - unsigned int nNullSpaceBreakerCount=0; - bool preSpaceNull(true); - - for ( unsigned int i=0; i<m_GlyphsList.size()-1; i++ ) // i=1 because the first glyph doesn't have a prevGlyphSpace value - { - if( m_GlyphsList[i].getPrevGlyphsSpace()>0.0 ) - { - if( fMinPreSpaceValue>m_GlyphsList[i].getPrevGlyphsSpace() ) - fMinPreSpaceValue=m_GlyphsList[i].getPrevGlyphsSpace(); - - if( fMaxPreSpaceValue<m_GlyphsList[i].getPrevGlyphsSpace() ) - fMaxPreSpaceValue=m_GlyphsList[i].getPrevGlyphsSpace(); - - fPreAvarageSpaceValue+= m_GlyphsList[i].getPrevGlyphsSpace(); - nSpaceCount++; - } - } - - if( nSpaceCount!=0 ) - fPreAvarageSpaceValue= fPreAvarageSpaceValue/( nSpaceCount ); - - for ( unsigned int i=0; i<m_GlyphsList.size()-1; i++ ) // i=1 because the first glyph doesn't have a prevGlyphSpace value - { - if ( m_GlyphsList[i].getPrevGlyphsSpace()==0.0 ) - { - if ( - ( m_GlyphsList[i+1].getPrevGlyphsSpace()>0.0)&& - ( fPreAvarageSpaceValue>m_GlyphsList[i+1].getPrevGlyphsSpace()) - ) - { - fNullSpaceBreakerAvaregeSpaceValue+=m_GlyphsList[i+1].getPrevGlyphsSpace(); - nNullSpaceBreakerCount++; - } - } - } - - if( ( fNullSpaceBreakerAvaregeSpaceValue!= 0.0 )&& - ( fNullSpaceBreakerAvaregeSpaceValue < fPreAvarageSpaceValue ) - ) - { - fPreAvarageSpaceValue = fNullSpaceBreakerAvaregeSpaceValue; - } - - for ( unsigned int i=0; i<m_GlyphsList.size()-1; i++ ) // i=1 cose the first Glypth dont have prevGlyphSpace value - { - if ( ( m_GlyphsList[i].getPrevGlyphsSpace()>0.0 ) - ) - { - if ( - ( m_GlyphsList[i].getPrevGlyphsSpace() <= fPreAvarageSpaceValue )&& - ( m_GlyphsList[i+1].getPrevGlyphsSpace()<= fPreAvarageSpaceValue ) - ) - { - double temp= m_GlyphsList[i].getPrevGlyphsSpace()-m_GlyphsList[i+1].getPrevGlyphsSpace(); - - if(temp!=0.0) - { - if( temp< 0.0) - temp= temp* -1.0; - - fAvarageDiffCharSpaceValue+=temp; - nDiffSpaceCount++; - } - } - } - - } - - if ( - ( nNullSpaceBreakerCount>0 ) - ) - { - fNullSpaceBreakerAvaregeSpaceValue=fNullSpaceBreakerAvaregeSpaceValue/nNullSpaceBreakerCount; - } - - if ( - ( nDiffSpaceCount>0 )&&(fAvarageDiffCharSpaceValue>0) - ) - { - fAvarageDiffCharSpaceValue= fAvarageDiffCharSpaceValue/ nDiffSpaceCount; - } - - ParagraphElement* pPara= NULL ; - FrameElement* pFrame= NULL ; - - if(!m_GlyphsList.empty()) - { - pFrame = m_pElFactory->createFrameElement( m_GlyphsList[0].getCurElement(), getGCId( getTransformGlyphContext( m_GlyphsList[0])) ); - pFrame->ZOrder = m_nNextZOrder++; - pPara = m_pElFactory->createParagraphElement( pFrame ); - - - - processGlyph( 0, - m_GlyphsList[0], - pPara, - pFrame, - m_bIsWhiteSpaceInLine ); - - - } - - - preSpaceNull=false; - - for ( unsigned int i=1; i<m_GlyphsList.size()-1; i++ ) - { - double fPrevDiffCharSpace= m_GlyphsList[i].getPrevGlyphsSpace()-m_GlyphsList[i-1].getPrevGlyphsSpace(); - double fPostDiffCharSpace= m_GlyphsList[i].getPrevGlyphsSpace()-m_GlyphsList[i+1].getPrevGlyphsSpace(); - - - if( - preSpaceNull && (m_GlyphsList[i].getPrevGlyphsSpace()!= 0.0) - ) - { - preSpaceNull=false; - if( fNullSpaceBreakerAvaregeSpaceValue > m_GlyphsList[i].getPrevGlyphsSpace() ) - { - processGlyph( 0, - m_GlyphsList[i], - pPara, - pFrame, - m_bIsWhiteSpaceInLine ); - - } - else - { - processGlyph( 1, - m_GlyphsList[i], - pPara, - pFrame, - m_bIsWhiteSpaceInLine ); - - } - - } - else - { - if ( - ( ( m_GlyphsList[i].getPrevGlyphsSpace()<= fPreAvarageSpaceValue )&& - ( fPrevDiffCharSpace<=fAvarageDiffCharSpaceValue )&& - ( fPostDiffCharSpace<=fAvarageDiffCharSpaceValue ) - ) || - ( m_GlyphsList[i].getPrevGlyphsSpace() == 0.0 ) - ) - { - preSpaceNull=true; - - processGlyph( 0, - m_GlyphsList[i], - pPara, - pFrame, - m_bIsWhiteSpaceInLine ); - - } - else - { - processGlyph( 1, - m_GlyphsList[i], - pPara, - pFrame, - m_bIsWhiteSpaceInLine ); - - } - - } - - } - - if(!m_GlyphsList.empty()) - processGlyph( 0, - m_GlyphsList[m_GlyphsList.size()-1], - pPara, - pFrame, - m_bIsWhiteSpaceInLine ); - - m_GlyphsList.clear(); -} - -void PDFIProcessor::processGlyph( double fPreAvarageSpaceValue, - CharGlyph& aGlyph, - ParagraphElement* pPara, - FrameElement* pFrame, - bool bIsWhiteSpaceInLine - ) -{ - if( !bIsWhiteSpaceInLine ) - { - bool flag=( 0 < fPreAvarageSpaceValue ); - - drawCharGlyphs( aGlyph.getGlyph(), - aGlyph.getRect(), - aGlyph.getFontMatrix(), - aGlyph.getGC(), - aGlyph.getCurElement(), - pPara, - pFrame, - flag); - } - else - { - drawCharGlyphs( aGlyph.getGlyph(), - aGlyph.getRect(), - aGlyph.getFontMatrix(), - aGlyph.getGC(), - aGlyph.getCurElement(), - pPara, - pFrame, - false ); - } -} - -void PDFIProcessor::drawGlyphLine( const rtl::OUString& rGlyphs, - const geometry::RealRectangle2D& rRect, - const geometry::Matrix2D& rFontMatrix ) -{ - double isFirstLine= fYPrevTextPosition+ fXPrevTextPosition+ fPrevTextHeight+ fPrevTextWidth ; - if( - ( ( ( fYPrevTextPosition!= rRect.Y1 ) ) || - ( ( fXPrevTextPosition > rRect.X2 ) ) || - ( ( fXPrevTextPosition+fPrevTextWidth*1.3)<rRect.X1 ) - ) && ( isFirstLine> 0.0 ) - ) - { - processGlyphLine(); - } - - CharGlyph aGlyph; - - aGlyph.setGlyph ( rGlyphs ); - aGlyph.setRect ( rRect ); - aGlyph.setFontMatrix ( rFontMatrix ); - aGlyph.setGraphicsContext ( getCurrentContext() ); - getGCId(getCurrentContext()); - aGlyph.setCurElement( m_pCurElement ); - - aGlyph.setYPrevGlyphPosition( fYPrevTextPosition ); - aGlyph.setXPrevGlyphPosition( fXPrevTextPosition ); - aGlyph.setPrevGlyphHeight ( fPrevTextHeight ); - aGlyph.setPrevGlyphWidth ( fPrevTextWidth ); - - m_GlyphsList.push_back( aGlyph ); - - fYPrevTextPosition = rRect.Y1; - fXPrevTextPosition = rRect.X2; - fPrevTextHeight = rRect.Y2-rRect.Y1; - fPrevTextWidth = rRect.X2-rRect.X1; - - if( !m_bIsWhiteSpaceInLine ) - { - static rtl::OUString tempWhiteSpaceStr( 0x20 ); - static rtl::OUString tempWhiteSpaceNonBreakingStr( 0xa0 ); - m_bIsWhiteSpaceInLine=(rGlyphs.equals( tempWhiteSpaceStr ) || rGlyphs.equals( tempWhiteSpaceNonBreakingStr )); - } -} - -GraphicsContext& PDFIProcessor::getTransformGlyphContext( CharGlyph& rGlyph ) -{ - geometry::RealRectangle2D rRect = rGlyph.getRect(); - geometry::Matrix2D rFontMatrix = rGlyph.getFontMatrix(); - - rtl::OUString tempStr( 32 ); - geometry::RealRectangle2D aRect(rRect); - - basegfx::B2DHomMatrix aFontMatrix; - basegfx::unotools::homMatrixFromMatrix( - aFontMatrix, - rFontMatrix ); - - FontAttributes aFontAttrs = m_aIdToFont[ rGlyph.getGC().FontId ]; - - // add transformation to GC - basegfx::B2DHomMatrix aFontTransform(basegfx::tools::createTranslateB2DHomMatrix(-rRect.X1, -rRect.Y1)); - aFontTransform *= aFontMatrix; - aFontTransform.translate( rRect.X1, rRect.Y1 ); - - - rGlyph.getGC().Transformation = rGlyph.getGC().Transformation * aFontTransform; - getGCId(rGlyph.getGC()); - - return rGlyph.getGC(); -} -void PDFIProcessor::drawCharGlyphs( rtl::OUString& rGlyphs, - geometry::RealRectangle2D& rRect, - geometry::Matrix2D& , - GraphicsContext aGC, - Element* , - ParagraphElement* pPara, - FrameElement* pFrame, - bool bSpaceFlag ) -{ - - - rtl::OUString tempStr( 32 ); - geometry::RealRectangle2D aRect(rRect); - - ::basegfx::B2DRange aRect2; - calcTransformedRectBounds( aRect2, - ::basegfx::unotools::b2DRectangleFromRealRectangle2D(aRect), - aGC.Transformation ); - // check whether there was a previous draw frame - - TextElement* pText = m_pElFactory->createTextElement( pPara, - getGCId(aGC), - aGC.FontId ); - if( bSpaceFlag ) - pText->Text.append( tempStr ); - - pText->Text.append( rGlyphs ); - - pText->x = aRect2.getMinX() ; - pText->y = aRect2.getMinY() ; - pText->w = 0.0; // ToDO P2: 1.1 is a hack for solving of size auto-grow problem - pText->h = aRect2.getHeight(); // ToDO P2: 1.1 is a hack for solving of size auto-grow problem - - pPara->updateGeometryWith( pText ); - - if( pFrame ) - pFrame->updateGeometryWith( pPara ); - -} -void PDFIProcessor::drawGlyphs( const rtl::OUString& rGlyphs, - const geometry::RealRectangle2D& rRect, - const geometry::Matrix2D& rFontMatrix ) -{ - drawGlyphLine( rGlyphs, rRect, rFontMatrix ); -} - -void PDFIProcessor::endText() -{ - TextElement* pText = dynamic_cast<TextElement*>(m_pCurElement); - if( pText ) - m_pCurElement = pText->Parent; -} - -void PDFIProcessor::setupImage(ImageId nImage) -{ - const GraphicsContext& rGC( getCurrentContext() ); - - basegfx::B2DHomMatrix aTrans( rGC.Transformation ); - - // check for rotation, which is the other way around in ODF - basegfx::B2DTuple aScale, aTranslation; - double fRotate, fShearX; - rGC.Transformation.decompose( aScale, aTranslation, fRotate, fShearX ); - // TODDO(F4): correcting rotation when fShearX != 0 ? - if( fRotate != 0.0 ) - { - - // try to create a Transformation that corrects for the wrong rotation - aTrans.identity(); - aTrans.scale( aScale.getX(), aScale.getY() ); - aTrans.rotate( -fRotate ); - - basegfx::B2DRange aRect( 0, 0, 1, 1 ); - aRect.transform( aTrans ); - - // TODO(F3) treat translation correctly - // the corrections below work for multiples of 90 degree - // which is a common case (landscape/portrait/seascape) - // we need a general solution here; however this needs to - // work in sync with DrawXmlEmitter::fillFrameProps and WriterXmlEmitter::fillFrameProps - // admittedly this is a lame workaround and fails for arbitrary rotation - double fQuadrant = fmod( fRotate, 2.0*M_PI ) / M_PI_2; - int nQuadrant = (int)fQuadrant; - if( nQuadrant < 0 ) - nQuadrant += 4; - if( nQuadrant == 1 ) - { - aTranslation.setX( aTranslation.getX() + aRect.getHeight() + aRect.getWidth()); - aTranslation.setY( aTranslation.getY() + aRect.getHeight() ); - } - if( nQuadrant == 3 ) - aTranslation.setX( aTranslation.getX() - aRect.getHeight() ); - - aTrans.translate( aTranslation.getX(), - aTranslation.getY() ); - } - - bool bMirrorVertical = aScale.getY() > 0; - - // transform unit rect to determine view box - basegfx::B2DRange aRect( 0, 0, 1, 1 ); - aRect.transform( aTrans ); - - // TODO(F3): Handle clip - const sal_Int32 nGCId = getGCId(rGC); - FrameElement* pFrame = m_pElFactory->createFrameElement( m_pCurElement, nGCId ); - ImageElement* pImageElement = m_pElFactory->createImageElement( pFrame, nGCId, nImage ); - pFrame->x = pImageElement->x = aRect.getMinX(); - pFrame->y = pImageElement->y = aRect.getMinY(); - pFrame->w = pImageElement->w = aRect.getWidth(); - pFrame->h = pImageElement->h = aRect.getHeight(); - pFrame->ZOrder = m_nNextZOrder++; - - if( bMirrorVertical ) - { - pFrame->MirrorVertical = pImageElement->MirrorVertical = true; - pFrame->x += aRect.getWidth(); - pImageElement->x += aRect.getWidth(); - pFrame->y += aRect.getHeight(); - pImageElement->y += aRect.getHeight(); - } -} - -void PDFIProcessor::drawMask(const uno::Sequence<beans::PropertyValue>& xBitmap, - bool /*bInvert*/ ) -{ - // TODO(F3): Handle mask and inversion - setupImage( m_aImages.addImage(xBitmap) ); -} - -void PDFIProcessor::drawImage(const uno::Sequence<beans::PropertyValue>& xBitmap ) -{ - setupImage( m_aImages.addImage(xBitmap) ); -} - -void PDFIProcessor::drawColorMaskedImage(const uno::Sequence<beans::PropertyValue>& xBitmap, - const uno::Sequence<uno::Any>& /*xMaskColors*/ ) -{ - // TODO(F3): Handle mask colors - setupImage( m_aImages.addImage(xBitmap) ); -} - -void PDFIProcessor::drawMaskedImage(const uno::Sequence<beans::PropertyValue>& xBitmap, - const uno::Sequence<beans::PropertyValue>& /*xMask*/, - bool /*bInvertMask*/) -{ - // TODO(F3): Handle mask and inversion - setupImage( m_aImages.addImage(xBitmap) ); -} - -void PDFIProcessor::drawAlphaMaskedImage(const uno::Sequence<beans::PropertyValue>& xBitmap, - const uno::Sequence<beans::PropertyValue>& /*xMask*/) -{ - // TODO(F3): Handle mask - - setupImage( m_aImages.addImage(xBitmap) ); - -} - -void PDFIProcessor::strokePath( const uno::Reference< rendering::XPolyPolygon2D >& rPath ) -{ - basegfx::B2DPolyPolygon aPoly=basegfx::unotools::b2DPolyPolygonFromXPolyPolygon2D(rPath); - aPoly.transform(getCurrentContext().Transformation); - - PolyPolyElement* pPoly = m_pElFactory->createPolyPolyElement( - m_pCurElement, - getGCId(getCurrentContext()), - aPoly, - PATH_STROKE ); - pPoly->updateGeometry(); - pPoly->ZOrder = m_nNextZOrder++; -} - -void PDFIProcessor::fillPath( const uno::Reference< rendering::XPolyPolygon2D >& rPath ) -{ - basegfx::B2DPolyPolygon aPoly=basegfx::unotools::b2DPolyPolygonFromXPolyPolygon2D(rPath); - aPoly.transform(getCurrentContext().Transformation); - - PolyPolyElement* pPoly = m_pElFactory->createPolyPolyElement( - m_pCurElement, - getGCId(getCurrentContext()), - aPoly, - PATH_FILL ); - pPoly->updateGeometry(); - pPoly->ZOrder = m_nNextZOrder++; -} - -void PDFIProcessor::eoFillPath( const uno::Reference< rendering::XPolyPolygon2D >& rPath ) -{ - basegfx::B2DPolyPolygon aPoly=basegfx::unotools::b2DPolyPolygonFromXPolyPolygon2D(rPath); - aPoly.transform(getCurrentContext().Transformation); - - PolyPolyElement* pPoly = m_pElFactory->createPolyPolyElement( - m_pCurElement, - getGCId(getCurrentContext()), - aPoly, - PATH_EOFILL ); - pPoly->updateGeometry(); - pPoly->ZOrder = m_nNextZOrder++; -} - -void PDFIProcessor::intersectClip(const uno::Reference< rendering::XPolyPolygon2D >& rPath) -{ - // TODO(F3): interpret fill mode - basegfx::B2DPolyPolygon aNewClip = basegfx::unotools::b2DPolyPolygonFromXPolyPolygon2D(rPath); - aNewClip.transform(getCurrentContext().Transformation); - basegfx::B2DPolyPolygon aCurClip = getCurrentContext().Clip; - - if( aCurClip.count() ) // #i92985# adapted API from (..., false, false) to (..., true, false) - aNewClip = basegfx::tools::clipPolyPolygonOnPolyPolygon( aCurClip, aNewClip, true, false ); - - getCurrentContext().Clip = aNewClip; -} - -void PDFIProcessor::intersectEoClip(const uno::Reference< rendering::XPolyPolygon2D >& rPath) -{ - // TODO(F3): interpret fill mode - basegfx::B2DPolyPolygon aNewClip = basegfx::unotools::b2DPolyPolygonFromXPolyPolygon2D(rPath); - aNewClip.transform(getCurrentContext().Transformation); - basegfx::B2DPolyPolygon aCurClip = getCurrentContext().Clip; - - if( aCurClip.count() ) // #i92985# adapted API from (..., false, false) to (..., true, false) - aNewClip = basegfx::tools::clipPolyPolygonOnPolyPolygon( aCurClip, aNewClip, true, false ); - - getCurrentContext().Clip = aNewClip; -} - -void PDFIProcessor::hyperLink( const geometry::RealRectangle2D& rBounds, - const ::rtl::OUString& rURI ) -{ - if( rURI.getLength() ) - { - HyperlinkElement* pLink = m_pElFactory->createHyperlinkElement( - &m_pCurPage->Hyperlinks, - rURI ); - pLink->x = rBounds.X1; - pLink->y = rBounds.Y1; - pLink->w = rBounds.X2-rBounds.X1; - pLink->h = rBounds.Y2-rBounds.Y1; - } -} - -const FontAttributes& PDFIProcessor::getFont( sal_Int32 nFontId ) const -{ - IdToFontMap::const_iterator it = m_aIdToFont.find( nFontId ); - if( it == m_aIdToFont.end() ) - it = m_aIdToFont.find( 0 ); - return it->second; -} - -sal_Int32 PDFIProcessor::getGCId( const GraphicsContext& rGC ) -{ - sal_Int32 nGCId = 0; - GCToIdMap::const_iterator it = m_aGCToId.find( rGC ); - if( it != m_aGCToId.end() ) - nGCId = it->second; - else - { - m_aGCToId[ rGC ] = m_nNextGCId; - m_aIdToGC[ m_nNextGCId ] = rGC; - nGCId = m_nNextGCId; - m_nNextGCId++; - } - - return nGCId; -} - -const GraphicsContext& PDFIProcessor::getGraphicsContext( sal_Int32 nGCId ) const -{ - IdToGCMap::const_iterator it = m_aIdToGC.find( nGCId ); - if( it == m_aIdToGC.end() ) - it = m_aIdToGC.find( 0 ); - return it->second; -} - -void PDFIProcessor::endPage() -{ - processGlyphLine(); // draw last line - if( m_xStatusIndicator.is() - && m_pCurPage - && m_pCurPage->PageNumber == m_nPages - ) - m_xStatusIndicator->end(); -} - -void PDFIProcessor::startPage( const geometry::RealSize2D& rSize ) -{ - // initial clip is to page bounds - getCurrentContext().Clip = basegfx::B2DPolyPolygon( - basegfx::tools::createPolygonFromRect( - basegfx::B2DRange( 0, 0, rSize.Width, rSize.Height ))); - - sal_Int32 nNextPageNr = m_pCurPage ? m_pCurPage->PageNumber+1 : 1; - if( m_xStatusIndicator.is() ) - { - if( nNextPageNr == 1 ) - startIndicator( rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( " " ) ) ); - m_xStatusIndicator->setValue( nNextPageNr ); - } - m_pCurPage = m_pElFactory->createPageElement(m_pDocument.get(), nNextPageNr); - m_pCurElement = m_pCurPage; - m_pCurPage->w = rSize.Width; - m_pCurPage->h = rSize.Height; - m_nNextZOrder = 1; - - -} - -void PDFIProcessor::emit( XmlEmitter& rEmitter, - const TreeVisitorFactory& rVisitorFactory ) -{ -#if OSL_DEBUG_LEVEL > 1 - m_pDocument->emitStructure( 0 ); -#endif - - ElementTreeVisitorSharedPtr optimizingVisitor( - rVisitorFactory.createOptimizingVisitor(*this)); - // FIXME: localization - startIndicator( rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( " " ) ) ); - m_pDocument->visitedBy( *optimizingVisitor, std::list<Element*>::iterator()); - -#if OSL_DEBUG_LEVEL > 1 - m_pDocument->emitStructure( 0 ); -#endif - - // get styles - StyleContainer aStyles; - ElementTreeVisitorSharedPtr finalizingVisitor( - rVisitorFactory.createStyleCollectingVisitor(aStyles,*this)); - // FIXME: localization - - m_pDocument->visitedBy( *finalizingVisitor, std::list<Element*>::iterator() ); - - EmitContext aContext( rEmitter, aStyles, m_aImages, *this, m_xStatusIndicator, m_xContext ); - ElementTreeVisitorSharedPtr aEmittingVisitor( - rVisitorFactory.createEmittingVisitor(aContext, *this)); - - PropertyMap aProps; - // document prolog - #define OASIS_STR "urn:oasis:names:tc:opendocument:xmlns:" - aProps[ USTR( "xmlns:office" ) ] = USTR( OASIS_STR "office:1.0" ); - aProps[ USTR( "xmlns:style" ) ] = USTR( OASIS_STR "style:1.0" ); - aProps[ USTR( "xmlns:text" ) ] = USTR( OASIS_STR "text:1.0" ); - aProps[ USTR( "xmlns:svg" ) ] = USTR( OASIS_STR "svg-compatible:1.0" ); - aProps[ USTR( "xmlns:table" ) ] = USTR( OASIS_STR "table:1.0" ); - aProps[ USTR( "xmlns:draw" ) ] = USTR( OASIS_STR "drawing:1.0" ); - aProps[ USTR( "xmlns:fo" ) ] = USTR( OASIS_STR "xsl-fo-compatible:1.0" ); - aProps[ USTR( "xmlns:xlink" )] = USTR( "http://www.w3.org/1999/xlink" ); - aProps[ USTR( "xmlns:dc" )] = USTR( "http://purl.org/dc/elements/1.1/" ); - aProps[ USTR( "xmlns:number" )] = USTR( OASIS_STR "datastyle:1.0" ); - aProps[ USTR( "xmlns:presentation" )] = USTR( OASIS_STR "presentation:1.0" ); - aProps[ USTR( "xmlns:math" )] = USTR( "http://www.w3.org/1998/Math/MathML" ); - aProps[ USTR( "xmlns:form" )] = USTR( OASIS_STR "form:1.0" ); - aProps[ USTR( "xmlns:script" )] = USTR( OASIS_STR "script:1.0" ); - aProps[ USTR( "xmlns:dom" )] = USTR( "http://www.w3.org/2001/xml-events" ); - aProps[ USTR( "xmlns:xforms" )] = USTR( "http://www.w3.org/2002/xforms" ); - aProps[ USTR( "xmlns:xsd" )] = USTR( "http://www.w3.org/2001/XMLSchema" ); - aProps[ USTR( "xmlns:xsi" )] = USTR( "http://www.w3.org/2001/XMLSchema-instance" ); - aProps[ USTR( "office:version" ) ] = USTR( "1.0" ); - aProps[ USTR( "office:version" ) ] = USTR( "1.0" ); - - aContext.rEmitter.beginTag( "office:document", aProps ); - - // emit style list - aStyles.emit( aContext, *aEmittingVisitor ); - - m_pDocument->visitedBy( *aEmittingVisitor, std::list<Element*>::iterator() ); - aContext.rEmitter.endTag( "office:document" ); - endIndicator(); -} - -void PDFIProcessor::startIndicator( const rtl::OUString& rText, sal_Int32 nElements ) -{ - if( nElements == -1 ) - nElements = m_nPages; - if( m_xStatusIndicator.is() ) - { - sal_Int32 nUnicodes = rText.getLength(); - rtl::OUStringBuffer aStr( nUnicodes*2 ); - const sal_Unicode* pText = rText.getStr(); - for( int i = 0; i < nUnicodes; i++ ) - { - if( nUnicodes-i > 1&& - pText[i] == '%' && - pText[i+1] == 'd' - ) - { - aStr.append( nElements ); - i++; - } - else - aStr.append( pText[i] ); - } - m_xStatusIndicator->start( aStr.makeStringAndClear(), nElements ); - } -} - -void PDFIProcessor::endIndicator() -{ - if( m_xStatusIndicator.is() ) - m_xStatusIndicator->end(); -} - -void PDFIProcessor::sortDocument( bool bDeep ) -{ - for( std::list< Element* >::iterator it = m_pDocument->Children.begin(); - it != m_pDocument->Children.end(); ++it ) - { - if( dynamic_cast<PageElement*>(*it) != NULL ) - sortElements( *it, bDeep ); - } -} - -static bool lr_tb_sort( Element* pLeft, Element* pRight ) -{ - // first: top-bottom sorting - - // Note: allow for 10% overlap on text lines since text lines are usually - // of the same order as font height whereas the real paint area - // of text is usually smaller - double fudge_factor = 1.0; - if( dynamic_cast< TextElement* >(pLeft) || dynamic_cast< TextElement* >(pRight) ) - fudge_factor = 0.9; - - // if left's lower boundary is above right's upper boundary - // then left is smaller - if( pLeft->y+pLeft->h*fudge_factor < pRight->y ) - return true; - // if right's lower boundary is above left's upper boundary - // then left is definitely not smaller - if( pRight->y+pRight->h*fudge_factor < pLeft->y ) - return false; - - // by now we have established that left and right are inside - // a "line", that is they have vertical overlap - // second: left-right sorting - // if left's right boundary is left to right's left boundary - // then left is smaller - if( pLeft->x+pLeft->w < pRight->x ) - return true; - // if right's right boundary is left to left's left boundary - // then left is definitely not smaller - if( pRight->x+pRight->w < pLeft->x ) - return false; - - // here we have established vertical and horizontal overlap - // so sort left first, top second - if( pLeft->x < pRight->x ) - return true; - if( pRight->x < pLeft->x ) - return false; - if( pLeft->y < pRight->y ) - return true; - - return false; -} - -void PDFIProcessor::sortElements( Element* pEle, bool bDeep ) -{ - if( pEle->Children.empty() ) - return; - - if( bDeep ) - { - for( std::list< Element* >::iterator it = pEle->Children.begin(); - it != pEle->Children.end(); ++it ) - { - sortElements( *it, bDeep ); - } - } - // HACK: the stable sort member on std::list that takes a - // strict weak ordering requires member templates - which we - // do not have on all compilers. so we need to use std::stable_sort - // here - which does need random access iterators which the - // list iterators are not. - // so we need to copy the Element* to an array, stable sort that and - // copy them back. - std::vector<Element*> aChildren; - while( ! pEle->Children.empty() ) - { - aChildren.push_back( pEle->Children.front() ); - pEle->Children.pop_front(); - } - switch( m_eTextDirection ) - { - case LrTb: - default: - std::stable_sort( aChildren.begin(), aChildren.end(), lr_tb_sort ); - break; - } - int nChildren = aChildren.size(); - for( int i = 0; i < nChildren; i++ ) - pEle->Children.push_back( aChildren[i] ); -} - - -::basegfx::B2DRange& PDFIProcessor::calcTransformedRectBounds( ::basegfx::B2DRange& outRect, - const ::basegfx::B2DRange& inRect, - const ::basegfx::B2DHomMatrix& transformation ) - { - outRect.reset(); - - if( inRect.isEmpty() ) - return outRect; - - // transform all four extremal points of the rectangle, - // take bounding rect of those. - - // transform left-top point - outRect.expand( transformation * inRect.getMinimum() ); - - // transform bottom-right point - outRect.expand( transformation * inRect.getMaximum() ); - - ::basegfx::B2DPoint aPoint; - - // transform top-right point - aPoint.setX( inRect.getMaxX() ); - aPoint.setY( inRect.getMinY() ); - - aPoint *= transformation; - outRect.expand( aPoint ); - - // transform bottom-left point - aPoint.setX( inRect.getMinX() ); - aPoint.setY( inRect.getMaxY() ); - - aPoint *= transformation; - outRect.expand( aPoint ); - - // over and out. - return outRect; - } - -// helper method: get a mirrored string -rtl::OUString PDFIProcessor::mirrorString( const rtl::OUString& i_rString ) -{ - if( ! m_xMirrorMapper.is() && ! m_bMirrorMapperTried ) - { - m_bMirrorMapperTried = true; - uno::Reference< lang::XMultiComponentFactory > xMSF( m_xContext->getServiceManager(), uno::UNO_SET_THROW ); - uno::Reference < uno::XInterface > xInterface = xMSF->createInstanceWithContext(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("com.sun.star.awt.StringMirror")), m_xContext); - m_xMirrorMapper = uno::Reference< util::XStringMapping >( xInterface, uno::UNO_QUERY ); - #if OSL_DEBUG_LEVEL > 1 - if( m_xMirrorMapper.is() ) - fprintf( stderr, "using mirror mapper service\n" ); - #endif - } - if( m_xMirrorMapper.is() ) - { - uno::Sequence< rtl::OUString > aSeq( 1 ); - aSeq.getArray()[0] = i_rString; - m_xMirrorMapper->mapStrings( aSeq ); - return aSeq[0]; - } - - prepareMirrorMap(); - sal_Int32 nLen = i_rString.getLength(); - rtl::OUStringBuffer aRet( nLen ); - for(int i = nLen - 1; i >= 0; i--) - { - sal_Unicode cChar = i_rString[ i ]; - aRet.append( m_aMirrorMap[cChar] ); - } - return aRet.makeStringAndClear(); -} - -void PDFIProcessor::prepareMirrorMap() -{ - if( m_aMirrorMap.empty() ) - { - #if OSL_DEBUG_LEVEL > 1 - fprintf( stderr, "falling back to static mirror list\n" ); - #endif - - m_aMirrorMap.reserve( 0x10000 ); - for( int i = 0; i < 0x10000; i++ ) - m_aMirrorMap.push_back( sal_Unicode(i) ); - - m_aMirrorMap[ 0x0028 ] = 0x0029; // LEFT PARENTHESIS - m_aMirrorMap[ 0x0029 ] = 0x0028; // RIGHT PARENTHESIS - m_aMirrorMap[ 0x003C ] = 0x003E; // LESS-THAN SIGN - m_aMirrorMap[ 0x003E ] = 0x003C; // GREATER-THAN SIGN - m_aMirrorMap[ 0x005B ] = 0x005D; // LEFT SQUARE BRACKET - m_aMirrorMap[ 0x005D ] = 0x005B; // RIGHT SQUARE BRACKET - m_aMirrorMap[ 0x007B ] = 0x007D; // LEFT CURLY BRACKET - m_aMirrorMap[ 0x007D ] = 0x007B; // RIGHT CURLY BRACKET - m_aMirrorMap[ 0x00AB ] = 0x00BB; // LEFT-POINTING DOUBLE ANGLE QUOTATION MARK - m_aMirrorMap[ 0x00BB ] = 0x00AB; // RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK - m_aMirrorMap[ 0x0F3A ] = 0x0F3B; // TIBETAN MARK GUG RTAGS GYON - m_aMirrorMap[ 0x0F3B ] = 0x0F3A; // TIBETAN MARK GUG RTAGS GYAS - m_aMirrorMap[ 0x0F3C ] = 0x0F3D; // TIBETAN MARK ANG KHANG GYON - m_aMirrorMap[ 0x0F3D ] = 0x0F3C; // TIBETAN MARK ANG KHANG GYAS - m_aMirrorMap[ 0x169B ] = 0x169C; // OGHAM FEATHER MARK - m_aMirrorMap[ 0x169C ] = 0x169B; // OGHAM REVERSED FEATHER MARK - m_aMirrorMap[ 0x2039 ] = 0x203A; // SINGLE LEFT-POINTING ANGLE QUOTATION MARK - m_aMirrorMap[ 0x203A ] = 0x2039; // SINGLE RIGHT-POINTING ANGLE QUOTATION MARK - m_aMirrorMap[ 0x2045 ] = 0x2046; // LEFT SQUARE BRACKET WITH QUILL - m_aMirrorMap[ 0x2046 ] = 0x2045; // RIGHT SQUARE BRACKET WITH QUILL - m_aMirrorMap[ 0x207D ] = 0x207E; // SUPERSCRIPT LEFT PARENTHESIS - m_aMirrorMap[ 0x207E ] = 0x207D; // SUPERSCRIPT RIGHT PARENTHESIS - m_aMirrorMap[ 0x208D ] = 0x208E; // SUBSCRIPT LEFT PARENTHESIS - m_aMirrorMap[ 0x208E ] = 0x208D; // SUBSCRIPT RIGHT PARENTHESIS - m_aMirrorMap[ 0x2208 ] = 0x220B; // ELEMENT OF - m_aMirrorMap[ 0x2209 ] = 0x220C; // NOT AN ELEMENT OF - m_aMirrorMap[ 0x220A ] = 0x220D; // SMALL ELEMENT OF - m_aMirrorMap[ 0x220B ] = 0x2208; // CONTAINS AS MEMBER - m_aMirrorMap[ 0x220C ] = 0x2209; // DOES NOT CONTAIN AS MEMBER - m_aMirrorMap[ 0x220D ] = 0x220A; // SMALL CONTAINS AS MEMBER - m_aMirrorMap[ 0x2215 ] = 0x29F5; // DIVISION SLASH - m_aMirrorMap[ 0x223C ] = 0x223D; // TILDE OPERATOR - m_aMirrorMap[ 0x223D ] = 0x223C; // REVERSED TILDE - m_aMirrorMap[ 0x2243 ] = 0x22CD; // ASYMPTOTICALLY EQUAL TO - m_aMirrorMap[ 0x2252 ] = 0x2253; // APPROXIMATELY EQUAL TO OR THE IMAGE OF - m_aMirrorMap[ 0x2253 ] = 0x2252; // IMAGE OF OR APPROXIMATELY EQUAL TO - m_aMirrorMap[ 0x2254 ] = 0x2255; // COLON EQUALS - m_aMirrorMap[ 0x2255 ] = 0x2254; // EQUALS COLON - m_aMirrorMap[ 0x2264 ] = 0x2265; // LESS-THAN OR EQUAL TO - m_aMirrorMap[ 0x2265 ] = 0x2264; // GREATER-THAN OR EQUAL TO - m_aMirrorMap[ 0x2266 ] = 0x2267; // LESS-THAN OVER EQUAL TO - m_aMirrorMap[ 0x2267 ] = 0x2266; // GREATER-THAN OVER EQUAL TO - m_aMirrorMap[ 0x2268 ] = 0x2269; // [BEST FIT] LESS-THAN BUT NOT EQUAL TO - m_aMirrorMap[ 0x2269 ] = 0x2268; // [BEST FIT] GREATER-THAN BUT NOT EQUAL TO - m_aMirrorMap[ 0x226A ] = 0x226B; // MUCH LESS-THAN - m_aMirrorMap[ 0x226B ] = 0x226A; // MUCH GREATER-THAN - m_aMirrorMap[ 0x226E ] = 0x226F; // [BEST FIT] NOT LESS-THAN - m_aMirrorMap[ 0x226F ] = 0x226E; // [BEST FIT] NOT GREATER-THAN - m_aMirrorMap[ 0x2270 ] = 0x2271; // [BEST FIT] NEITHER LESS-THAN NOR EQUAL TO - m_aMirrorMap[ 0x2271 ] = 0x2270; // [BEST FIT] NEITHER GREATER-THAN NOR EQUAL TO - m_aMirrorMap[ 0x2272 ] = 0x2273; // [BEST FIT] LESS-THAN OR EQUIVALENT TO - m_aMirrorMap[ 0x2273 ] = 0x2272; // [BEST FIT] GREATER-THAN OR EQUIVALENT TO - m_aMirrorMap[ 0x2274 ] = 0x2275; // [BEST FIT] NEITHER LESS-THAN NOR EQUIVALENT TO - m_aMirrorMap[ 0x2275 ] = 0x2274; // [BEST FIT] NEITHER GREATER-THAN NOR EQUIVALENT TO - m_aMirrorMap[ 0x2276 ] = 0x2277; // LESS-THAN OR GREATER-THAN - m_aMirrorMap[ 0x2277 ] = 0x2276; // GREATER-THAN OR LESS-THAN - m_aMirrorMap[ 0x2278 ] = 0x2279; // [BEST FIT] NEITHER LESS-THAN NOR GREATER-THAN - m_aMirrorMap[ 0x2279 ] = 0x2278; // [BEST FIT] NEITHER GREATER-THAN NOR LESS-THAN - m_aMirrorMap[ 0x227A ] = 0x227B; // PRECEDES - m_aMirrorMap[ 0x227B ] = 0x227A; // SUCCEEDS - m_aMirrorMap[ 0x227C ] = 0x227D; // PRECEDES OR EQUAL TO - m_aMirrorMap[ 0x227D ] = 0x227C; // SUCCEEDS OR EQUAL TO - m_aMirrorMap[ 0x227E ] = 0x227F; // [BEST FIT] PRECEDES OR EQUIVALENT TO - m_aMirrorMap[ 0x227F ] = 0x227E; // [BEST FIT] SUCCEEDS OR EQUIVALENT TO - m_aMirrorMap[ 0x2280 ] = 0x2281; // [BEST FIT] DOES NOT PRECEDE - m_aMirrorMap[ 0x2281 ] = 0x2280; // [BEST FIT] DOES NOT SUCCEED - m_aMirrorMap[ 0x2282 ] = 0x2283; // SUBSET OF - m_aMirrorMap[ 0x2283 ] = 0x2282; // SUPERSET OF - m_aMirrorMap[ 0x2284 ] = 0x2285; // [BEST FIT] NOT A SUBSET OF - m_aMirrorMap[ 0x2285 ] = 0x2284; // [BEST FIT] NOT A SUPERSET OF - m_aMirrorMap[ 0x2286 ] = 0x2287; // SUBSET OF OR EQUAL TO - m_aMirrorMap[ 0x2287 ] = 0x2286; // SUPERSET OF OR EQUAL TO - m_aMirrorMap[ 0x2288 ] = 0x2289; // [BEST FIT] NEITHER A SUBSET OF NOR EQUAL TO - m_aMirrorMap[ 0x2289 ] = 0x2288; // [BEST FIT] NEITHER A SUPERSET OF NOR EQUAL TO - m_aMirrorMap[ 0x228A ] = 0x228B; // [BEST FIT] SUBSET OF WITH NOT EQUAL TO - m_aMirrorMap[ 0x228B ] = 0x228A; // [BEST FIT] SUPERSET OF WITH NOT EQUAL TO - m_aMirrorMap[ 0x228F ] = 0x2290; // SQUARE IMAGE OF - m_aMirrorMap[ 0x2290 ] = 0x228F; // SQUARE ORIGINAL OF - m_aMirrorMap[ 0x2291 ] = 0x2292; // SQUARE IMAGE OF OR EQUAL TO - m_aMirrorMap[ 0x2292 ] = 0x2291; // SQUARE ORIGINAL OF OR EQUAL TO - m_aMirrorMap[ 0x2298 ] = 0x29B8; // CIRCLED DIVISION SLASH - m_aMirrorMap[ 0x22A2 ] = 0x22A3; // RIGHT TACK - m_aMirrorMap[ 0x22A3 ] = 0x22A2; // LEFT TACK - m_aMirrorMap[ 0x22A6 ] = 0x2ADE; // ASSERTION - m_aMirrorMap[ 0x22A8 ] = 0x2AE4; // TRUE - m_aMirrorMap[ 0x22A9 ] = 0x2AE3; // FORCES - m_aMirrorMap[ 0x22AB ] = 0x2AE5; // DOUBLE VERTICAL BAR DOUBLE RIGHT TURNSTILE - m_aMirrorMap[ 0x22B0 ] = 0x22B1; // PRECEDES UNDER RELATION - m_aMirrorMap[ 0x22B1 ] = 0x22B0; // SUCCEEDS UNDER RELATION - m_aMirrorMap[ 0x22B2 ] = 0x22B3; // NORMAL SUBGROUP OF - m_aMirrorMap[ 0x22B3 ] = 0x22B2; // CONTAINS AS NORMAL SUBGROUP - m_aMirrorMap[ 0x22B4 ] = 0x22B5; // NORMAL SUBGROUP OF OR EQUAL TO - m_aMirrorMap[ 0x22B5 ] = 0x22B4; // CONTAINS AS NORMAL SUBGROUP OR EQUAL TO - m_aMirrorMap[ 0x22B6 ] = 0x22B7; // ORIGINAL OF - m_aMirrorMap[ 0x22B7 ] = 0x22B6; // IMAGE OF - m_aMirrorMap[ 0x22C9 ] = 0x22CA; // LEFT NORMAL FACTOR SEMIDIRECT PRODUCT - m_aMirrorMap[ 0x22CA ] = 0x22C9; // RIGHT NORMAL FACTOR SEMIDIRECT PRODUCT - m_aMirrorMap[ 0x22CB ] = 0x22CC; // LEFT SEMIDIRECT PRODUCT - m_aMirrorMap[ 0x22CC ] = 0x22CB; // RIGHT SEMIDIRECT PRODUCT - m_aMirrorMap[ 0x22CD ] = 0x2243; // REVERSED TILDE EQUALS - m_aMirrorMap[ 0x22D0 ] = 0x22D1; // DOUBLE SUBSET - m_aMirrorMap[ 0x22D1 ] = 0x22D0; // DOUBLE SUPERSET - m_aMirrorMap[ 0x22D6 ] = 0x22D7; // LESS-THAN WITH DOT - m_aMirrorMap[ 0x22D7 ] = 0x22D6; // GREATER-THAN WITH DOT - m_aMirrorMap[ 0x22D8 ] = 0x22D9; // VERY MUCH LESS-THAN - m_aMirrorMap[ 0x22D9 ] = 0x22D8; // VERY MUCH GREATER-THAN - m_aMirrorMap[ 0x22DA ] = 0x22DB; // LESS-THAN EQUAL TO OR GREATER-THAN - m_aMirrorMap[ 0x22DB ] = 0x22DA; // GREATER-THAN EQUAL TO OR LESS-THAN - m_aMirrorMap[ 0x22DC ] = 0x22DD; // EQUAL TO OR LESS-THAN - m_aMirrorMap[ 0x22DD ] = 0x22DC; // EQUAL TO OR GREATER-THAN - m_aMirrorMap[ 0x22DE ] = 0x22DF; // EQUAL TO OR PRECEDES - m_aMirrorMap[ 0x22DF ] = 0x22DE; // EQUAL TO OR SUCCEEDS - m_aMirrorMap[ 0x22E0 ] = 0x22E1; // [BEST FIT] DOES NOT PRECEDE OR EQUAL - m_aMirrorMap[ 0x22E1 ] = 0x22E0; // [BEST FIT] DOES NOT SUCCEED OR EQUAL - m_aMirrorMap[ 0x22E2 ] = 0x22E3; // [BEST FIT] NOT SQUARE IMAGE OF OR EQUAL TO - m_aMirrorMap[ 0x22E3 ] = 0x22E2; // [BEST FIT] NOT SQUARE ORIGINAL OF OR EQUAL TO - m_aMirrorMap[ 0x22E4 ] = 0x22E5; // [BEST FIT] SQUARE IMAGE OF OR NOT EQUAL TO - m_aMirrorMap[ 0x22E5 ] = 0x22E4; // [BEST FIT] SQUARE ORIGINAL OF OR NOT EQUAL TO - m_aMirrorMap[ 0x22E6 ] = 0x22E7; // [BEST FIT] LESS-THAN BUT NOT EQUIVALENT TO - m_aMirrorMap[ 0x22E7 ] = 0x22E6; // [BEST FIT] GREATER-THAN BUT NOT EQUIVALENT TO - m_aMirrorMap[ 0x22E8 ] = 0x22E9; // [BEST FIT] PRECEDES BUT NOT EQUIVALENT TO - m_aMirrorMap[ 0x22E9 ] = 0x22E8; // [BEST FIT] SUCCEEDS BUT NOT EQUIVALENT TO - m_aMirrorMap[ 0x22EA ] = 0x22EB; // [BEST FIT] NOT NORMAL SUBGROUP OF - m_aMirrorMap[ 0x22EB ] = 0x22EA; // [BEST FIT] DOES NOT CONTAIN AS NORMAL SUBGROUP - m_aMirrorMap[ 0x22EC ] = 0x22ED; // [BEST FIT] NOT NORMAL SUBGROUP OF OR EQUAL TO - m_aMirrorMap[ 0x22ED ] = 0x22EC; // [BEST FIT] DOES NOT CONTAIN AS NORMAL SUBGROUP OR EQUAL - m_aMirrorMap[ 0x22F0 ] = 0x22F1; // UP RIGHT DIAGONAL ELLIPSIS - m_aMirrorMap[ 0x22F1 ] = 0x22F0; // DOWN RIGHT DIAGONAL ELLIPSIS - m_aMirrorMap[ 0x22F2 ] = 0x22FA; // ELEMENT OF WITH LONG HORIZONTAL STROKE - m_aMirrorMap[ 0x22F3 ] = 0x22FB; // ELEMENT OF WITH VERTICAL BAR AT END OF HORIZONTAL STROKE - m_aMirrorMap[ 0x22F4 ] = 0x22FC; // SMALL ELEMENT OF WITH VERTICAL BAR AT END OF HORIZONTAL STROKE - m_aMirrorMap[ 0x22F6 ] = 0x22FD; // ELEMENT OF WITH OVERBAR - m_aMirrorMap[ 0x22F7 ] = 0x22FE; // SMALL ELEMENT OF WITH OVERBAR - m_aMirrorMap[ 0x22FA ] = 0x22F2; // CONTAINS WITH LONG HORIZONTAL STROKE - m_aMirrorMap[ 0x22FB ] = 0x22F3; // CONTAINS WITH VERTICAL BAR AT END OF HORIZONTAL STROKE - m_aMirrorMap[ 0x22FC ] = 0x22F4; // SMALL CONTAINS WITH VERTICAL BAR AT END OF HORIZONTAL STROKE - m_aMirrorMap[ 0x22FD ] = 0x22F6; // CONTAINS WITH OVERBAR - m_aMirrorMap[ 0x22FE ] = 0x22F7; // SMALL CONTAINS WITH OVERBAR - m_aMirrorMap[ 0x2308 ] = 0x2309; // LEFT CEILING - m_aMirrorMap[ 0x2309 ] = 0x2308; // RIGHT CEILING - m_aMirrorMap[ 0x230A ] = 0x230B; // LEFT FLOOR - m_aMirrorMap[ 0x230B ] = 0x230A; // RIGHT FLOOR - m_aMirrorMap[ 0x2329 ] = 0x232A; // LEFT-POINTING ANGLE BRACKET - m_aMirrorMap[ 0x232A ] = 0x2329; // RIGHT-POINTING ANGLE BRACKET - m_aMirrorMap[ 0x2768 ] = 0x2769; // MEDIUM LEFT PARENTHESIS ORNAMENT - m_aMirrorMap[ 0x2769 ] = 0x2768; // MEDIUM RIGHT PARENTHESIS ORNAMENT - m_aMirrorMap[ 0x276A ] = 0x276B; // MEDIUM FLATTENED LEFT PARENTHESIS ORNAMENT - m_aMirrorMap[ 0x276B ] = 0x276A; // MEDIUM FLATTENED RIGHT PARENTHESIS ORNAMENT - m_aMirrorMap[ 0x276C ] = 0x276D; // MEDIUM LEFT-POINTING ANGLE BRACKET ORNAMENT - m_aMirrorMap[ 0x276D ] = 0x276C; // MEDIUM RIGHT-POINTING ANGLE BRACKET ORNAMENT - m_aMirrorMap[ 0x276E ] = 0x276F; // HEAVY LEFT-POINTING ANGLE QUOTATION MARK ORNAMENT - m_aMirrorMap[ 0x276F ] = 0x276E; // HEAVY RIGHT-POINTING ANGLE QUOTATION MARK ORNAMENT - m_aMirrorMap[ 0x2770 ] = 0x2771; // HEAVY LEFT-POINTING ANGLE BRACKET ORNAMENT - m_aMirrorMap[ 0x2771 ] = 0x2770; // HEAVY RIGHT-POINTING ANGLE BRACKET ORNAMENT - m_aMirrorMap[ 0x2772 ] = 0x2773; // LIGHT LEFT TORTOISE SHELL BRACKET - m_aMirrorMap[ 0x2773 ] = 0x2772; // LIGHT RIGHT TORTOISE SHELL BRACKET - m_aMirrorMap[ 0x2774 ] = 0x2775; // MEDIUM LEFT CURLY BRACKET ORNAMENT - m_aMirrorMap[ 0x2775 ] = 0x2774; // MEDIUM RIGHT CURLY BRACKET ORNAMENT - m_aMirrorMap[ 0x27C3 ] = 0x27C4; // OPEN SUBSET - m_aMirrorMap[ 0x27C4 ] = 0x27C3; // OPEN SUPERSET - m_aMirrorMap[ 0x27C5 ] = 0x27C6; // LEFT S-SHAPED BAG DELIMITER - m_aMirrorMap[ 0x27C6 ] = 0x27C5; // RIGHT S-SHAPED BAG DELIMITER - m_aMirrorMap[ 0x27C8 ] = 0x27C9; // REVERSE SOLIDUS PRECEDING SUBSET - m_aMirrorMap[ 0x27C9 ] = 0x27C8; // SUPERSET PRECEDING SOLIDUS - m_aMirrorMap[ 0x27D5 ] = 0x27D6; // LEFT OUTER JOIN - m_aMirrorMap[ 0x27D6 ] = 0x27D5; // RIGHT OUTER JOIN - m_aMirrorMap[ 0x27DD ] = 0x27DE; // LONG RIGHT TACK - m_aMirrorMap[ 0x27DE ] = 0x27DD; // LONG LEFT TACK - m_aMirrorMap[ 0x27E2 ] = 0x27E3; // WHITE CONCAVE-SIDED DIAMOND WITH LEFTWARDS TICK - m_aMirrorMap[ 0x27E3 ] = 0x27E2; // WHITE CONCAVE-SIDED DIAMOND WITH RIGHTWARDS TICK - m_aMirrorMap[ 0x27E4 ] = 0x27E5; // WHITE SQUARE WITH LEFTWARDS TICK - m_aMirrorMap[ 0x27E5 ] = 0x27E4; // WHITE SQUARE WITH RIGHTWARDS TICK - m_aMirrorMap[ 0x27E6 ] = 0x27E7; // MATHEMATICAL LEFT WHITE SQUARE BRACKET - m_aMirrorMap[ 0x27E7 ] = 0x27E6; // MATHEMATICAL RIGHT WHITE SQUARE BRACKET - m_aMirrorMap[ 0x27E8 ] = 0x27E9; // MATHEMATICAL LEFT ANGLE BRACKET - m_aMirrorMap[ 0x27E9 ] = 0x27E8; // MATHEMATICAL RIGHT ANGLE BRACKET - m_aMirrorMap[ 0x27EA ] = 0x27EB; // MATHEMATICAL LEFT DOUBLE ANGLE BRACKET - m_aMirrorMap[ 0x27EB ] = 0x27EA; // MATHEMATICAL RIGHT DOUBLE ANGLE BRACKET - m_aMirrorMap[ 0x27EC ] = 0x27ED; // MATHEMATICAL LEFT WHITE TORTOISE SHELL BRACKET - m_aMirrorMap[ 0x27ED ] = 0x27EC; // MATHEMATICAL RIGHT WHITE TORTOISE SHELL BRACKET - m_aMirrorMap[ 0x27EE ] = 0x27EF; // MATHEMATICAL LEFT FLATTENED PARENTHESIS - m_aMirrorMap[ 0x27EF ] = 0x27EE; // MATHEMATICAL RIGHT FLATTENED PARENTHESIS - m_aMirrorMap[ 0x2983 ] = 0x2984; // LEFT WHITE CURLY BRACKET - m_aMirrorMap[ 0x2984 ] = 0x2983; // RIGHT WHITE CURLY BRACKET - m_aMirrorMap[ 0x2985 ] = 0x2986; // LEFT WHITE PARENTHESIS - m_aMirrorMap[ 0x2986 ] = 0x2985; // RIGHT WHITE PARENTHESIS - m_aMirrorMap[ 0x2987 ] = 0x2988; // Z NOTATION LEFT IMAGE BRACKET - m_aMirrorMap[ 0x2988 ] = 0x2987; // Z NOTATION RIGHT IMAGE BRACKET - m_aMirrorMap[ 0x2989 ] = 0x298A; // Z NOTATION LEFT BINDING BRACKET - m_aMirrorMap[ 0x298A ] = 0x2989; // Z NOTATION RIGHT BINDING BRACKET - m_aMirrorMap[ 0x298B ] = 0x298C; // LEFT SQUARE BRACKET WITH UNDERBAR - m_aMirrorMap[ 0x298C ] = 0x298B; // RIGHT SQUARE BRACKET WITH UNDERBAR - m_aMirrorMap[ 0x298D ] = 0x2990; // LEFT SQUARE BRACKET WITH TICK IN TOP CORNER - m_aMirrorMap[ 0x298E ] = 0x298F; // RIGHT SQUARE BRACKET WITH TICK IN BOTTOM CORNER - m_aMirrorMap[ 0x298F ] = 0x298E; // LEFT SQUARE BRACKET WITH TICK IN BOTTOM CORNER - m_aMirrorMap[ 0x2990 ] = 0x298D; // RIGHT SQUARE BRACKET WITH TICK IN TOP CORNER - m_aMirrorMap[ 0x2991 ] = 0x2992; // LEFT ANGLE BRACKET WITH DOT - m_aMirrorMap[ 0x2992 ] = 0x2991; // RIGHT ANGLE BRACKET WITH DOT - m_aMirrorMap[ 0x2993 ] = 0x2994; // LEFT ARC LESS-THAN BRACKET - m_aMirrorMap[ 0x2994 ] = 0x2993; // RIGHT ARC GREATER-THAN BRACKET - m_aMirrorMap[ 0x2995 ] = 0x2996; // DOUBLE LEFT ARC GREATER-THAN BRACKET - m_aMirrorMap[ 0x2996 ] = 0x2995; // DOUBLE RIGHT ARC LESS-THAN BRACKET - m_aMirrorMap[ 0x2997 ] = 0x2998; // LEFT BLACK TORTOISE SHELL BRACKET - m_aMirrorMap[ 0x2998 ] = 0x2997; // RIGHT BLACK TORTOISE SHELL BRACKET - m_aMirrorMap[ 0x29B8 ] = 0x2298; // CIRCLED REVERSE SOLIDUS - m_aMirrorMap[ 0x29C0 ] = 0x29C1; // CIRCLED LESS-THAN - m_aMirrorMap[ 0x29C1 ] = 0x29C0; // CIRCLED GREATER-THAN - m_aMirrorMap[ 0x29C4 ] = 0x29C5; // SQUARED RISING DIAGONAL SLASH - m_aMirrorMap[ 0x29C5 ] = 0x29C4; // SQUARED FALLING DIAGONAL SLASH - m_aMirrorMap[ 0x29CF ] = 0x29D0; // LEFT TRIANGLE BESIDE VERTICAL BAR - m_aMirrorMap[ 0x29D0 ] = 0x29CF; // VERTICAL BAR BESIDE RIGHT TRIANGLE - m_aMirrorMap[ 0x29D1 ] = 0x29D2; // BOWTIE WITH LEFT HALF BLACK - m_aMirrorMap[ 0x29D2 ] = 0x29D1; // BOWTIE WITH RIGHT HALF BLACK - m_aMirrorMap[ 0x29D4 ] = 0x29D5; // TIMES WITH LEFT HALF BLACK - m_aMirrorMap[ 0x29D5 ] = 0x29D4; // TIMES WITH RIGHT HALF BLACK - m_aMirrorMap[ 0x29D8 ] = 0x29D9; // LEFT WIGGLY FENCE - m_aMirrorMap[ 0x29D9 ] = 0x29D8; // RIGHT WIGGLY FENCE - m_aMirrorMap[ 0x29DA ] = 0x29DB; // LEFT DOUBLE WIGGLY FENCE - m_aMirrorMap[ 0x29DB ] = 0x29DA; // RIGHT DOUBLE WIGGLY FENCE - m_aMirrorMap[ 0x29F5 ] = 0x2215; // REVERSE SOLIDUS OPERATOR - m_aMirrorMap[ 0x29F8 ] = 0x29F9; // BIG SOLIDUS - m_aMirrorMap[ 0x29F9 ] = 0x29F8; // BIG REVERSE SOLIDUS - m_aMirrorMap[ 0x29FC ] = 0x29FD; // LEFT-POINTING CURVED ANGLE BRACKET - m_aMirrorMap[ 0x29FD ] = 0x29FC; // RIGHT-POINTING CURVED ANGLE BRACKET - m_aMirrorMap[ 0x2A2B ] = 0x2A2C; // MINUS SIGN WITH FALLING DOTS - m_aMirrorMap[ 0x2A2C ] = 0x2A2B; // MINUS SIGN WITH RISING DOTS - m_aMirrorMap[ 0x2A2D ] = 0x2A2E; // PLUS SIGN IN LEFT HALF CIRCLE - m_aMirrorMap[ 0x2A2E ] = 0x2A2D; // PLUS SIGN IN RIGHT HALF CIRCLE - m_aMirrorMap[ 0x2A34 ] = 0x2A35; // MULTIPLICATION SIGN IN LEFT HALF CIRCLE - m_aMirrorMap[ 0x2A35 ] = 0x2A34; // MULTIPLICATION SIGN IN RIGHT HALF CIRCLE - m_aMirrorMap[ 0x2A3C ] = 0x2A3D; // INTERIOR PRODUCT - m_aMirrorMap[ 0x2A3D ] = 0x2A3C; // RIGHTHAND INTERIOR PRODUCT - m_aMirrorMap[ 0x2A64 ] = 0x2A65; // Z NOTATION DOMAIN ANTIRESTRICTION - m_aMirrorMap[ 0x2A65 ] = 0x2A64; // Z NOTATION RANGE ANTIRESTRICTION - m_aMirrorMap[ 0x2A79 ] = 0x2A7A; // LESS-THAN WITH CIRCLE INSIDE - m_aMirrorMap[ 0x2A7A ] = 0x2A79; // GREATER-THAN WITH CIRCLE INSIDE - m_aMirrorMap[ 0x2A7D ] = 0x2A7E; // LESS-THAN OR SLANTED EQUAL TO - m_aMirrorMap[ 0x2A7E ] = 0x2A7D; // GREATER-THAN OR SLANTED EQUAL TO - m_aMirrorMap[ 0x2A7F ] = 0x2A80; // LESS-THAN OR SLANTED EQUAL TO WITH DOT INSIDE - m_aMirrorMap[ 0x2A80 ] = 0x2A7F; // GREATER-THAN OR SLANTED EQUAL TO WITH DOT INSIDE - m_aMirrorMap[ 0x2A81 ] = 0x2A82; // LESS-THAN OR SLANTED EQUAL TO WITH DOT ABOVE - m_aMirrorMap[ 0x2A82 ] = 0x2A81; // GREATER-THAN OR SLANTED EQUAL TO WITH DOT ABOVE - m_aMirrorMap[ 0x2A83 ] = 0x2A84; // LESS-THAN OR SLANTED EQUAL TO WITH DOT ABOVE RIGHT - m_aMirrorMap[ 0x2A84 ] = 0x2A83; // GREATER-THAN OR SLANTED EQUAL TO WITH DOT ABOVE LEFT - m_aMirrorMap[ 0x2A8B ] = 0x2A8C; // LESS-THAN ABOVE DOUBLE-LINE EQUAL ABOVE GREATER-THAN - m_aMirrorMap[ 0x2A8C ] = 0x2A8B; // GREATER-THAN ABOVE DOUBLE-LINE EQUAL ABOVE LESS-THAN - m_aMirrorMap[ 0x2A91 ] = 0x2A92; // LESS-THAN ABOVE GREATER-THAN ABOVE DOUBLE-LINE EQUAL - m_aMirrorMap[ 0x2A92 ] = 0x2A91; // GREATER-THAN ABOVE LESS-THAN ABOVE DOUBLE-LINE EQUAL - m_aMirrorMap[ 0x2A93 ] = 0x2A94; // LESS-THAN ABOVE SLANTED EQUAL ABOVE GREATER-THAN ABOVE SLANTED EQUAL - m_aMirrorMap[ 0x2A94 ] = 0x2A93; // GREATER-THAN ABOVE SLANTED EQUAL ABOVE LESS-THAN ABOVE SLANTED EQUAL - m_aMirrorMap[ 0x2A95 ] = 0x2A96; // SLANTED EQUAL TO OR LESS-THAN - m_aMirrorMap[ 0x2A96 ] = 0x2A95; // SLANTED EQUAL TO OR GREATER-THAN - m_aMirrorMap[ 0x2A97 ] = 0x2A98; // SLANTED EQUAL TO OR LESS-THAN WITH DOT INSIDE - m_aMirrorMap[ 0x2A98 ] = 0x2A97; // SLANTED EQUAL TO OR GREATER-THAN WITH DOT INSIDE - m_aMirrorMap[ 0x2A99 ] = 0x2A9A; // DOUBLE-LINE EQUAL TO OR LESS-THAN - m_aMirrorMap[ 0x2A9A ] = 0x2A99; // DOUBLE-LINE EQUAL TO OR GREATER-THAN - m_aMirrorMap[ 0x2A9B ] = 0x2A9C; // DOUBLE-LINE SLANTED EQUAL TO OR LESS-THAN - m_aMirrorMap[ 0x2A9C ] = 0x2A9B; // DOUBLE-LINE SLANTED EQUAL TO OR GREATER-THAN - m_aMirrorMap[ 0x2AA1 ] = 0x2AA2; // DOUBLE NESTED LESS-THAN - m_aMirrorMap[ 0x2AA2 ] = 0x2AA1; // DOUBLE NESTED GREATER-THAN - m_aMirrorMap[ 0x2AA6 ] = 0x2AA7; // LESS-THAN CLOSED BY CURVE - m_aMirrorMap[ 0x2AA7 ] = 0x2AA6; // GREATER-THAN CLOSED BY CURVE - m_aMirrorMap[ 0x2AA8 ] = 0x2AA9; // LESS-THAN CLOSED BY CURVE ABOVE SLANTED EQUAL - m_aMirrorMap[ 0x2AA9 ] = 0x2AA8; // GREATER-THAN CLOSED BY CURVE ABOVE SLANTED EQUAL - m_aMirrorMap[ 0x2AAA ] = 0x2AAB; // SMALLER THAN - m_aMirrorMap[ 0x2AAB ] = 0x2AAA; // LARGER THAN - m_aMirrorMap[ 0x2AAC ] = 0x2AAD; // SMALLER THAN OR EQUAL TO - m_aMirrorMap[ 0x2AAD ] = 0x2AAC; // LARGER THAN OR EQUAL TO - m_aMirrorMap[ 0x2AAF ] = 0x2AB0; // PRECEDES ABOVE SINGLE-LINE EQUALS SIGN - m_aMirrorMap[ 0x2AB0 ] = 0x2AAF; // SUCCEEDS ABOVE SINGLE-LINE EQUALS SIGN - m_aMirrorMap[ 0x2AB3 ] = 0x2AB4; // PRECEDES ABOVE EQUALS SIGN - m_aMirrorMap[ 0x2AB4 ] = 0x2AB3; // SUCCEEDS ABOVE EQUALS SIGN - m_aMirrorMap[ 0x2ABB ] = 0x2ABC; // DOUBLE PRECEDES - m_aMirrorMap[ 0x2ABC ] = 0x2ABB; // DOUBLE SUCCEEDS - m_aMirrorMap[ 0x2ABD ] = 0x2ABE; // SUBSET WITH DOT - m_aMirrorMap[ 0x2ABE ] = 0x2ABD; // SUPERSET WITH DOT - m_aMirrorMap[ 0x2ABF ] = 0x2AC0; // SUBSET WITH PLUS SIGN BELOW - m_aMirrorMap[ 0x2AC0 ] = 0x2ABF; // SUPERSET WITH PLUS SIGN BELOW - m_aMirrorMap[ 0x2AC1 ] = 0x2AC2; // SUBSET WITH MULTIPLICATION SIGN BELOW - m_aMirrorMap[ 0x2AC2 ] = 0x2AC1; // SUPERSET WITH MULTIPLICATION SIGN BELOW - m_aMirrorMap[ 0x2AC3 ] = 0x2AC4; // SUBSET OF OR EQUAL TO WITH DOT ABOVE - m_aMirrorMap[ 0x2AC4 ] = 0x2AC3; // SUPERSET OF OR EQUAL TO WITH DOT ABOVE - m_aMirrorMap[ 0x2AC5 ] = 0x2AC6; // SUBSET OF ABOVE EQUALS SIGN - m_aMirrorMap[ 0x2AC6 ] = 0x2AC5; // SUPERSET OF ABOVE EQUALS SIGN - m_aMirrorMap[ 0x2ACD ] = 0x2ACE; // SQUARE LEFT OPEN BOX OPERATOR - m_aMirrorMap[ 0x2ACE ] = 0x2ACD; // SQUARE RIGHT OPEN BOX OPERATOR - m_aMirrorMap[ 0x2ACF ] = 0x2AD0; // CLOSED SUBSET - m_aMirrorMap[ 0x2AD0 ] = 0x2ACF; // CLOSED SUPERSET - m_aMirrorMap[ 0x2AD1 ] = 0x2AD2; // CLOSED SUBSET OR EQUAL TO - m_aMirrorMap[ 0x2AD2 ] = 0x2AD1; // CLOSED SUPERSET OR EQUAL TO - m_aMirrorMap[ 0x2AD3 ] = 0x2AD4; // SUBSET ABOVE SUPERSET - m_aMirrorMap[ 0x2AD4 ] = 0x2AD3; // SUPERSET ABOVE SUBSET - m_aMirrorMap[ 0x2AD5 ] = 0x2AD6; // SUBSET ABOVE SUBSET - m_aMirrorMap[ 0x2AD6 ] = 0x2AD5; // SUPERSET ABOVE SUPERSET - m_aMirrorMap[ 0x2ADE ] = 0x22A6; // SHORT LEFT TACK - m_aMirrorMap[ 0x2AE3 ] = 0x22A9; // DOUBLE VERTICAL BAR LEFT TURNSTILE - m_aMirrorMap[ 0x2AE4 ] = 0x22A8; // VERTICAL BAR DOUBLE LEFT TURNSTILE - m_aMirrorMap[ 0x2AE5 ] = 0x22AB; // DOUBLE VERTICAL BAR DOUBLE LEFT TURNSTILE - m_aMirrorMap[ 0x2AEC ] = 0x2AED; // DOUBLE STROKE NOT SIGN - m_aMirrorMap[ 0x2AED ] = 0x2AEC; // REVERSED DOUBLE STROKE NOT SIGN - m_aMirrorMap[ 0x2AF7 ] = 0x2AF8; // TRIPLE NESTED LESS-THAN - m_aMirrorMap[ 0x2AF8 ] = 0x2AF7; // TRIPLE NESTED GREATER-THAN - m_aMirrorMap[ 0x2AF9 ] = 0x2AFA; // DOUBLE-LINE SLANTED LESS-THAN OR EQUAL TO - m_aMirrorMap[ 0x2AFA ] = 0x2AF9; // DOUBLE-LINE SLANTED GREATER-THAN OR EQUAL TO - m_aMirrorMap[ 0x2E02 ] = 0x2E03; // LEFT SUBSTITUTION BRACKET - m_aMirrorMap[ 0x2E03 ] = 0x2E02; // RIGHT SUBSTITUTION BRACKET - m_aMirrorMap[ 0x2E04 ] = 0x2E05; // LEFT DOTTED SUBSTITUTION BRACKET - m_aMirrorMap[ 0x2E05 ] = 0x2E04; // RIGHT DOTTED SUBSTITUTION BRACKET - m_aMirrorMap[ 0x2E09 ] = 0x2E0A; // LEFT TRANSPOSITION BRACKET - m_aMirrorMap[ 0x2E0A ] = 0x2E09; // RIGHT TRANSPOSITION BRACKET - m_aMirrorMap[ 0x2E0C ] = 0x2E0D; // LEFT RAISED OMISSION BRACKET - m_aMirrorMap[ 0x2E0D ] = 0x2E0C; // RIGHT RAISED OMISSION BRACKET - m_aMirrorMap[ 0x2E1C ] = 0x2E1D; // LEFT LOW PARAPHRASE BRACKET - m_aMirrorMap[ 0x2E1D ] = 0x2E1C; // RIGHT LOW PARAPHRASE BRACKET - m_aMirrorMap[ 0x2E20 ] = 0x2E21; // LEFT VERTICAL BAR WITH QUILL - m_aMirrorMap[ 0x2E21 ] = 0x2E20; // RIGHT VERTICAL BAR WITH QUILL - m_aMirrorMap[ 0x2E22 ] = 0x2E23; // TOP LEFT HALF BRACKET - m_aMirrorMap[ 0x2E23 ] = 0x2E22; // TOP RIGHT HALF BRACKET - m_aMirrorMap[ 0x2E24 ] = 0x2E25; // BOTTOM LEFT HALF BRACKET - m_aMirrorMap[ 0x2E25 ] = 0x2E24; // BOTTOM RIGHT HALF BRACKET - m_aMirrorMap[ 0x2E26 ] = 0x2E27; // LEFT SIDEWAYS U BRACKET - m_aMirrorMap[ 0x2E27 ] = 0x2E26; // RIGHT SIDEWAYS U BRACKET - m_aMirrorMap[ 0x2E28 ] = 0x2E29; // LEFT DOUBLE PARENTHESIS - m_aMirrorMap[ 0x2E29 ] = 0x2E28; // RIGHT DOUBLE PARENTHESIS - m_aMirrorMap[ 0x3008 ] = 0x3009; // LEFT ANGLE BRACKET - m_aMirrorMap[ 0x3009 ] = 0x3008; // RIGHT ANGLE BRACKET - m_aMirrorMap[ 0x300A ] = 0x300B; // LEFT DOUBLE ANGLE BRACKET - m_aMirrorMap[ 0x300B ] = 0x300A; // RIGHT DOUBLE ANGLE BRACKET - m_aMirrorMap[ 0x300C ] = 0x300D; // [BEST FIT] LEFT CORNER BRACKET - m_aMirrorMap[ 0x300D ] = 0x300C; // [BEST FIT] RIGHT CORNER BRACKET - m_aMirrorMap[ 0x300E ] = 0x300F; // [BEST FIT] LEFT WHITE CORNER BRACKET - m_aMirrorMap[ 0x300F ] = 0x300E; // [BEST FIT] RIGHT WHITE CORNER BRACKET - m_aMirrorMap[ 0x3010 ] = 0x3011; // LEFT BLACK LENTICULAR BRACKET - m_aMirrorMap[ 0x3011 ] = 0x3010; // RIGHT BLACK LENTICULAR BRACKET - m_aMirrorMap[ 0x3014 ] = 0x3015; // LEFT TORTOISE SHELL BRACKET - m_aMirrorMap[ 0x3015 ] = 0x3014; // RIGHT TORTOISE SHELL BRACKET - m_aMirrorMap[ 0x3016 ] = 0x3017; // LEFT WHITE LENTICULAR BRACKET - m_aMirrorMap[ 0x3017 ] = 0x3016; // RIGHT WHITE LENTICULAR BRACKET - m_aMirrorMap[ 0x3018 ] = 0x3019; // LEFT WHITE TORTOISE SHELL BRACKET - m_aMirrorMap[ 0x3019 ] = 0x3018; // RIGHT WHITE TORTOISE SHELL BRACKET - m_aMirrorMap[ 0x301A ] = 0x301B; // LEFT WHITE SQUARE BRACKET - m_aMirrorMap[ 0x301B ] = 0x301A; // RIGHT WHITE SQUARE BRACKET - m_aMirrorMap[ 0xFE59 ] = 0xFE5A; // SMALL LEFT PARENTHESIS - m_aMirrorMap[ 0xFE5A ] = 0xFE59; // SMALL RIGHT PARENTHESIS - m_aMirrorMap[ 0xFE5B ] = 0xFE5C; // SMALL LEFT CURLY BRACKET - m_aMirrorMap[ 0xFE5C ] = 0xFE5B; // SMALL RIGHT CURLY BRACKET - m_aMirrorMap[ 0xFE5D ] = 0xFE5E; // SMALL LEFT TORTOISE SHELL BRACKET - m_aMirrorMap[ 0xFE5E ] = 0xFE5D; // SMALL RIGHT TORTOISE SHELL BRACKET - m_aMirrorMap[ 0xFE64 ] = 0xFE65; // SMALL LESS-THAN SIGN - m_aMirrorMap[ 0xFE65 ] = 0xFE64; // SMALL GREATER-THAN SIGN - m_aMirrorMap[ 0xFF08 ] = 0xFF09; // FULLWIDTH LEFT PARENTHESIS - m_aMirrorMap[ 0xFF09 ] = 0xFF08; // FULLWIDTH RIGHT PARENTHESIS - m_aMirrorMap[ 0xFF1C ] = 0xFF1E; // FULLWIDTH LESS-THAN SIGN - m_aMirrorMap[ 0xFF1E ] = 0xFF1C; // FULLWIDTH GREATER-THAN SIGN - m_aMirrorMap[ 0xFF3B ] = 0xFF3D; // FULLWIDTH LEFT SQUARE BRACKET - m_aMirrorMap[ 0xFF3D ] = 0xFF3B; // FULLWIDTH RIGHT SQUARE BRACKET - m_aMirrorMap[ 0xFF5B ] = 0xFF5D; // FULLWIDTH LEFT CURLY BRACKET - m_aMirrorMap[ 0xFF5D ] = 0xFF5B; // FULLWIDTH RIGHT CURLY BRACKET - m_aMirrorMap[ 0xFF5F ] = 0xFF60; // FULLWIDTH LEFT WHITE PARENTHESIS - m_aMirrorMap[ 0xFF60 ] = 0xFF5F; // FULLWIDTH RIGHT WHITE PARENTHESIS - m_aMirrorMap[ 0xFF62 ] = 0xFF63; // [BEST FIT] HALFWIDTH LEFT CORNER BRACKET - m_aMirrorMap[ 0xFF63 ] = 0xFF62; // [BEST FIT] HALFWIDTH RIGHT CORNER BRACKET - } -} - -} - -/* vim:set shiftwidth=4 softtabstop=4 expandtab: */ |