/************************************************************************* * * 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 * * for a copy of the LGPLv3 License. * ************************************************************************/ #include #include #include #include #include #include using rtl::OString; using rtl::OStringBuffer; using rtl::OUString; using rtl::OUStringBuffer; using namespace sax_fastparser; using namespace oox::vml; /// Implementation of an empty stream that silently succeeds, but does nothing. /// /// In fact, this is a hack. The right solution is to abstract EscherEx to be /// able to work without SvStream; but at the moment it is better to live with /// this I guess. class SvNullStream : public SvStream { protected: virtual sal_Size GetData( void* pData, sal_Size nSize ) { memset( pData, 0, nSize ); return nSize; } virtual sal_Size PutData( const void*, sal_Size nSize ) { return nSize; } virtual sal_Size SeekPos( sal_Size nPos ) { return nPos; } virtual void SetSize( sal_Size ) {} virtual void FlushData() {} public: SvNullStream() : SvStream() {} virtual ~SvNullStream() {} }; VMLExport::VMLExport( ::sax_fastparser::FSHelperPtr pSerializer ) : EscherEx( *( new SvNullStream ), 0 ), m_pSerializer( pSerializer ), m_pShapeAttrList( NULL ), m_nShapeType( ESCHER_ShpInst_Nil ), m_pShapeStyle( new OStringBuffer( 200 ) ), m_pShapeTypeWritten( new bool[ ESCHER_ShpInst_COUNT ] ) { mnGroupLevel = 1; memset( m_pShapeTypeWritten, 0, ESCHER_ShpInst_COUNT * sizeof( bool ) ); } VMLExport::~VMLExport() { delete mpOutStrm, mpOutStrm = NULL; delete m_pShapeStyle, m_pShapeStyle = NULL; delete[] m_pShapeTypeWritten, m_pShapeTypeWritten = NULL; } void VMLExport::OpenContainer( UINT16 nEscherContainer, int nRecInstance ) { EscherEx::OpenContainer( nEscherContainer, nRecInstance ); if ( nEscherContainer == ESCHER_SpContainer ) { // opening a shape container #if OSL_DEBUG_LEVEL > 0 if ( m_nShapeType != ESCHER_ShpInst_Nil ) fprintf( stderr, "Warning! VMLExport::OpenContainer(): opening shape inside a shape.\n" ); #endif m_nShapeType = ESCHER_ShpInst_Nil; m_pShapeAttrList = m_pSerializer->createAttrList(); if ( m_pShapeStyle->getLength() ) m_pShapeStyle->makeStringAndClear(); m_pShapeStyle->ensureCapacity( 200 ); // postpone the ouput so that we are able to write even the elements // that we learn inside Commit() m_pSerializer->mark(); } } void VMLExport::CloseContainer() { if ( mRecTypes.back() == ESCHER_SpContainer ) { // write the shape now when we have all the info sal_Int32 nShapeElement = StartShape(); m_pSerializer->mergeTopMarks(); EndShape( nShapeElement ); // cleanup m_nShapeType = ESCHER_ShpInst_Nil; m_pShapeAttrList = NULL; } EscherEx::CloseContainer(); } UINT32 VMLExport::EnterGroup( const String& rShapeName, const Rectangle* pRect ) { UINT32 nShapeId = GetShapeID(); OStringBuffer aStyle( 200 ); FastAttributeList *pAttrList = m_pSerializer->createAttrList(); pAttrList->add( XML_id, ShapeIdString( nShapeId ) ); if ( rShapeName.Len() ) pAttrList->add( XML_alt, OUStringToOString( OUString( rShapeName ), RTL_TEXTENCODING_UTF8 ) ); // style if ( pRect ) AddRectangleDimensions( aStyle, *pRect ); if ( aStyle.getLength() ) pAttrList->add( XML_style, aStyle.makeStringAndClear() ); // coordorigin/coordsize if ( pRect && ( mnGroupLevel == 1 ) ) { pAttrList->add( XML_coordorigin, OStringBuffer( 20 ).append( sal_Int32( pRect->Left() ) ) .append( "," ).append( sal_Int32( pRect->Top() ) ) .makeStringAndClear() ); pAttrList->add( XML_coordsize, OStringBuffer( 20 ).append( sal_Int32( pRect->Right() ) - sal_Int32( pRect->Left() ) ) .append( "," ).append( sal_Int32( pRect->Bottom() ) - sal_Int32( pRect->Top() ) ) .makeStringAndClear() ); } m_pSerializer->startElementNS( XML_v, XML_group, XFastAttributeListRef( pAttrList ) ); mnGroupLevel++; return nShapeId; } void VMLExport::LeaveGroup() { --mnGroupLevel; m_pSerializer->endElementNS( XML_v, XML_group ); } void VMLExport::AddShape( UINT32 nShapeType, UINT32 nShapeFlags, UINT32 nShapeId ) { m_nShapeType = nShapeType; m_nShapeFlags = nShapeFlags; m_pShapeAttrList->add( XML_id, ShapeIdString( nShapeId ) ); } static void impl_AddArrowHead( sax_fastparser::FastAttributeList *pAttrList, sal_Int32 nElement, sal_uInt32 nValue ) { if ( !pAttrList ) return; const char *pArrowHead = NULL; switch ( nValue ) { case ESCHER_LineNoEnd: pArrowHead = "none"; break; case ESCHER_LineArrowEnd: pArrowHead = "block"; break; case ESCHER_LineArrowStealthEnd: pArrowHead = "classic"; break; case ESCHER_LineArrowDiamondEnd: pArrowHead = "diamond"; break; case ESCHER_LineArrowOvalEnd: pArrowHead = "oval"; break; case ESCHER_LineArrowOpenEnd: pArrowHead = "open"; break; } if ( pArrowHead ) pAttrList->add( nElement, pArrowHead ); } static void impl_AddArrowLength( sax_fastparser::FastAttributeList *pAttrList, sal_Int32 nElement, sal_uInt32 nValue ) { if ( !pAttrList ) return; const char *pArrowLength = NULL; switch ( nValue ) { case ESCHER_LineShortArrow: pArrowLength = "short"; break; case ESCHER_LineMediumLenArrow: pArrowLength = "medium"; break; case ESCHER_LineLongArrow: pArrowLength = "long"; break; } if ( pArrowLength ) pAttrList->add( nElement, pArrowLength ); } static void impl_AddArrowWidth( sax_fastparser::FastAttributeList *pAttrList, sal_Int32 nElement, sal_uInt32 nValue ) { if ( !pAttrList ) return; const char *pArrowWidth = NULL; switch ( nValue ) { case ESCHER_LineNarrowArrow: pArrowWidth = "narrow"; break; case ESCHER_LineMediumWidthArrow: pArrowWidth = "medium"; break; case ESCHER_LineWideArrow: pArrowWidth = "wide"; break; } if ( pArrowWidth ) pAttrList->add( nElement, pArrowWidth ); } static void impl_AddBool( sax_fastparser::FastAttributeList *pAttrList, sal_Int32 nElement, bool bValue ) { if ( !pAttrList ) return; pAttrList->add( nElement, bValue? "t": "f" ); } static void impl_AddColor( sax_fastparser::FastAttributeList *pAttrList, sal_Int32 nElement, sal_uInt32 nColor ) { #if OSL_DEBUG_LEVEL > 0 if ( nColor & 0xFF000000 ) fprintf( stderr, "TODO: this is not a RGB value!\n" ); #endif if ( !pAttrList || ( nColor & 0xFF000000 ) ) return; nColor = ( ( nColor & 0xFF ) << 16 ) + ( nColor & 0xFF00 ) + ( ( nColor & 0xFF0000 ) >> 16 ); const char *pColor = NULL; char pRgbColor[10]; switch ( nColor ) { case 0x000000: pColor = "black"; break; case 0xC0C0C0: pColor = "silver"; break; case 0x808080: pColor = "gray"; break; case 0xFFFFFF: pColor = "white"; break; case 0x800000: pColor = "maroon"; break; case 0xFF0000: pColor = "red"; break; case 0x800080: pColor = "purple"; break; case 0xFF00FF: pColor = "fuchsia"; break; case 0x008000: pColor = "green"; break; case 0x00FF00: pColor = "lime"; break; case 0x808000: pColor = "olive"; break; case 0xFFFF00: pColor = "yellow"; break; case 0x000080: pColor = "navy"; break; case 0x0000FF: pColor = "blue"; break; case 0x008080: pColor = "teal"; break; case 0x00FFFF: pColor = "aqua"; break; default: { snprintf( pRgbColor, sizeof( pRgbColor ), "#%06x", static_cast< unsigned int >( nColor ) ); // not too handy to use OString::valueOf() here :-( pColor = pRgbColor; } break; } pAttrList->add( nElement, pColor ); } static void impl_AddInt( sax_fastparser::FastAttributeList *pAttrList, sal_Int32 nElement, sal_uInt32 nValue ) { if ( !pAttrList ) return; pAttrList->add( nElement, OString::valueOf( static_cast< sal_Int32 >( nValue ) ).getStr() ); } inline sal_uInt16 impl_GetUInt16( const sal_uInt8* &pVal ) { sal_uInt16 nRet = *pVal++; nRet += ( *pVal++ ) << 8; return nRet; } inline sal_Int32 impl_GetPointComponent( const sal_uInt8* &pVal, sal_uInt16 nPointSize ) { sal_Int32 nRet = 0; if ( ( nPointSize == 0xfff0 ) || ( nPointSize == 4 ) ) { sal_uInt16 nUnsigned = *pVal++; nUnsigned += ( *pVal++ ) << 8; nRet = sal_Int16( nUnsigned ); } else if ( nPointSize == 8 ) { sal_uInt32 nUnsigned = *pVal++; nUnsigned += ( *pVal++ ) << 8; nUnsigned += ( *pVal++ ) << 16; nUnsigned += ( *pVal++ ) << 24; nRet = nUnsigned; } return nRet; } void VMLExport::Commit( EscherPropertyContainer& rProps, const Rectangle& rRect ) { if ( m_nShapeType == ESCHER_ShpInst_Nil ) return; // postpone the output of the embedded elements so that they are written // inside the shapes m_pSerializer->mark(); // dimensions if ( m_nShapeType == ESCHER_ShpInst_Line ) AddLineDimensions( rRect ); else AddRectangleDimensions( *m_pShapeStyle, rRect ); // properties bool bAlreadyWritten[ 0xFFF ]; memset( bAlreadyWritten, 0, sizeof( bAlreadyWritten ) ); const EscherProperties &rOpts = rProps.GetOpts(); for ( EscherProperties::const_iterator it = rOpts.begin(); it != rOpts.end(); ++it ) { sal_uInt16 nId = ( it->nPropId & 0x0FFF ); if ( bAlreadyWritten[ nId ] ) continue; switch ( nId ) { case ESCHER_Prop_WrapText: // 133 { const char *pWrapType = NULL; switch ( it->nPropValue ) { case ESCHER_WrapSquare: case ESCHER_WrapByPoints: pWrapType = "square"; break; // these two are equivalent according to the docu case ESCHER_WrapNone: pWrapType = "none"; break; case ESCHER_WrapTopBottom: pWrapType = "topAndBottom"; break; case ESCHER_WrapThrough: pWrapType = "through"; break; } if ( pWrapType ) m_pSerializer->singleElementNS( XML_w10, XML_wrap, FSNS( XML_w10, XML_type ), pWrapType, FSEND ); } bAlreadyWritten[ ESCHER_Prop_WrapText ] = true; break; // coordorigin case ESCHER_Prop_geoLeft: // 320 case ESCHER_Prop_geoTop: // 321 { sal_uInt32 nLeft = 0, nTop = 0; if ( nId == ESCHER_Prop_geoLeft ) { nLeft = it->nPropValue; rProps.GetOpt( ESCHER_Prop_geoTop, nTop ); } else { nTop = it->nPropValue; rProps.GetOpt( ESCHER_Prop_geoLeft, nLeft ); } m_pShapeAttrList->add( XML_coordorigin, OStringBuffer( 20 ).append( sal_Int32( nLeft ) ) .append( "," ).append( sal_Int32( nTop ) ) .makeStringAndClear() ); } bAlreadyWritten[ ESCHER_Prop_geoLeft ] = true; bAlreadyWritten[ ESCHER_Prop_geoTop ] = true; break; // coordsize case ESCHER_Prop_geoRight: // 322 case ESCHER_Prop_geoBottom: // 323 { sal_uInt32 nLeft = 0, nRight = 0, nTop = 0, nBottom = 0; rProps.GetOpt( ESCHER_Prop_geoLeft, nLeft ); rProps.GetOpt( ESCHER_Prop_geoTop, nTop ); if ( nId == ESCHER_Prop_geoRight ) { nRight = it->nPropValue; rProps.GetOpt( ESCHER_Prop_geoBottom, nBottom ); } else { nBottom = it->nPropValue; rProps.GetOpt( ESCHER_Prop_geoRight, nRight ); } m_pShapeAttrList->add( XML_coordsize, OStringBuffer( 20 ).append( sal_Int32( nRight ) - sal_Int32( nLeft ) ) .append( "," ).append( sal_Int32( nBottom ) - sal_Int32( nTop ) ) .makeStringAndClear() ); } bAlreadyWritten[ ESCHER_Prop_geoRight ] = true; bAlreadyWritten[ ESCHER_Prop_geoBottom ] = true; break; case ESCHER_Prop_pVertices: // 325 case ESCHER_Prop_pSegmentInfo: // 326 { EscherPropSortStruct aVertices; EscherPropSortStruct aSegments; if ( rProps.GetOpt( ESCHER_Prop_pVertices, aVertices ) && rProps.GetOpt( ESCHER_Prop_pSegmentInfo, aSegments ) ) { const sal_uInt8 *pVerticesIt = aVertices.pBuf + 6; const sal_uInt8 *pSegmentIt = aSegments.pBuf; OStringBuffer aPath( 512 ); sal_uInt16 nPointSize = aVertices.pBuf[4] + ( aVertices.pBuf[5] << 8 ); // number of segments sal_uInt16 nSegments = impl_GetUInt16( pSegmentIt ); pSegmentIt += 4; for ( ; nSegments; --nSegments ) { sal_uInt16 nSeg = impl_GetUInt16( pSegmentIt ); switch ( nSeg ) { case 0x4000: // moveto { sal_Int32 nX = impl_GetPointComponent( pVerticesIt, nPointSize ); sal_Int32 nY = impl_GetPointComponent( pVerticesIt, nPointSize ); aPath.append( "m" ).append( nX ).append( "," ).append( nY ); } break; case 0xb300: case 0xac00: break; case 0x0001: // lineto { sal_Int32 nX = impl_GetPointComponent( pVerticesIt, nPointSize ); sal_Int32 nY = impl_GetPointComponent( pVerticesIt, nPointSize ); aPath.append( "l" ).append( nX ).append( "," ).append( nY ); } break; case 0x2001: // curveto { sal_Int32 nX1 = impl_GetPointComponent( pVerticesIt, nPointSize ); sal_Int32 nY1 = impl_GetPointComponent( pVerticesIt, nPointSize ); sal_Int32 nX2 = impl_GetPointComponent( pVerticesIt, nPointSize ); sal_Int32 nY2 = impl_GetPointComponent( pVerticesIt, nPointSize ); sal_Int32 nX3 = impl_GetPointComponent( pVerticesIt, nPointSize ); sal_Int32 nY3 = impl_GetPointComponent( pVerticesIt, nPointSize ); aPath.append( "c" ).append( nX1 ).append( "," ).append( nY1 ).append( "," ) .append( nX2 ).append( "," ).append( nY2 ).append( "," ) .append( nX3 ).append( "," ).append( nY3 ); } break; case 0xaa00: // nofill aPath.append( "nf" ); break; case 0xab00: // nostroke aPath.append( "ns" ); break; case 0x6001: // close aPath.append( "x" ); break; case 0x8000: // end aPath.append( "e" ); break; default: #if OSL_DEBUG_LEVEL > 0 fprintf( stderr, "TODO: unhandled segment '%x' in the path\n", nSeg ); #endif break; } } if ( aPath.getLength() ) m_pShapeAttrList->add( XML_path, aPath.getStr() ); } #if OSL_DEBUG_LEVEL > 0 else fprintf( stderr, "TODO: unhandled shape path, missing either pVertices or pSegmentInfo.\n" ); #endif } bAlreadyWritten[ ESCHER_Prop_pVertices ] = true; bAlreadyWritten[ ESCHER_Prop_pSegmentInfo ] = true; break; case ESCHER_Prop_fillType: // 384 case ESCHER_Prop_fillColor: // 385 case ESCHER_Prop_fillBackColor: // 387 case ESCHER_Prop_fNoFillHitTest: // 447 { sal_uInt32 nValue; sax_fastparser::FastAttributeList *pAttrList = m_pSerializer->createAttrList(); if ( rProps.GetOpt( ESCHER_Prop_fillType, nValue ) ) { const char *pFillType = NULL; switch ( nValue ) { case ESCHER_FillSolid: pFillType = "solid"; break; // TODO case ESCHER_FillPattern: pFillType = ""; break; // TODO case ESCHER_FillTexture: pFillType = ""; break; // TODO case ESCHER_FillPicture: pFillType = ""; break; // TODO case ESCHER_FillShade: pFillType = ""; break; // TODO case ESCHER_FillShadeCenter: pFillType = ""; break; // TODO case ESCHER_FillShadeShape: pFillType = ""; break; // TODO case ESCHER_FillShadeScale: pFillType = ""; break; // TODO case ESCHER_FillShadeTitle: pFillType = ""; break; // TODO case ESCHER_FillBackground: pFillType = ""; break; default: #if OSL_DEBUG_LEVEL > 0 fprintf( stderr, "TODO: unhandled fill type\n" ); #endif break; } if ( pFillType ) pAttrList->add( XML_type, pFillType ); } if ( rProps.GetOpt( ESCHER_Prop_fillColor, nValue ) ) impl_AddColor( pAttrList, XML_color, nValue ); if ( rProps.GetOpt( ESCHER_Prop_fillBackColor, nValue ) ) impl_AddColor( pAttrList, XML_color2, nValue ); if ( rProps.GetOpt( ESCHER_Prop_fNoFillHitTest, nValue ) ) impl_AddBool( pAttrList, XML_detectmouseclick, nValue ); m_pSerializer->singleElementNS( XML_v, XML_fill, XFastAttributeListRef( pAttrList ) ); } bAlreadyWritten[ ESCHER_Prop_fillType ] = true; bAlreadyWritten[ ESCHER_Prop_fillColor ] = true; bAlreadyWritten[ ESCHER_Prop_fillBackColor ] = true; bAlreadyWritten[ ESCHER_Prop_fNoFillHitTest ] = true; break; case ESCHER_Prop_lineColor: // 448 case ESCHER_Prop_lineWidth: // 459 case ESCHER_Prop_lineDashing: // 462 case ESCHER_Prop_lineStartArrowhead: // 464 case ESCHER_Prop_lineEndArrowhead: // 465 case ESCHER_Prop_lineStartArrowWidth: // 466 case ESCHER_Prop_lineStartArrowLength: // 467 case ESCHER_Prop_lineEndArrowWidth: // 468 case ESCHER_Prop_lineEndArrowLength: // 469 case ESCHER_Prop_lineJoinStyle: // 470 case ESCHER_Prop_lineEndCapStyle: // 471 { sal_uInt32 nValue; sax_fastparser::FastAttributeList *pAttrList = m_pSerializer->createAttrList(); if ( rProps.GetOpt( ESCHER_Prop_lineColor, nValue ) ) impl_AddColor( pAttrList, XML_color, nValue ); if ( rProps.GetOpt( ESCHER_Prop_lineWidth, nValue ) ) impl_AddInt( pAttrList, XML_weight, nValue ); if ( rProps.GetOpt( ESCHER_Prop_lineDashing, nValue ) ) { const char *pDashStyle = NULL; switch ( nValue ) { case ESCHER_LineSolid: pDashStyle = "solid"; break; case ESCHER_LineDashSys: pDashStyle = "shortdash"; break; case ESCHER_LineDotSys: pDashStyle = "shortdot"; break; case ESCHER_LineDashDotSys: pDashStyle = "shortdashdot"; break; case ESCHER_LineDashDotDotSys: pDashStyle = "shortdashdotdot"; break; case ESCHER_LineDotGEL: pDashStyle = "dot"; break; case ESCHER_LineDashGEL: pDashStyle = "dash"; break; case ESCHER_LineLongDashGEL: pDashStyle = "longdash"; break; case ESCHER_LineDashDotGEL: pDashStyle = "dashdot"; break; case ESCHER_LineLongDashDotGEL: pDashStyle = "longdashdot"; break; case ESCHER_LineLongDashDotDotGEL: pDashStyle = "longdashdotdot"; break; } if ( pDashStyle ) pAttrList->add( XML_dashstyle, pDashStyle ); } if ( rProps.GetOpt( ESCHER_Prop_lineStartArrowhead, nValue ) ) impl_AddArrowHead( pAttrList, XML_startarrow, nValue ); if ( rProps.GetOpt( ESCHER_Prop_lineEndArrowhead, nValue ) ) impl_AddArrowHead( pAttrList, XML_endarrow, nValue ); if ( rProps.GetOpt( ESCHER_Prop_lineStartArrowWidth, nValue ) ) impl_AddArrowWidth( pAttrList, XML_startarrowwidth, nValue ); if ( rProps.GetOpt( ESCHER_Prop_lineStartArrowLength, nValue ) ) impl_AddArrowLength( pAttrList, XML_startarrowlength, nValue ); if ( rProps.GetOpt( ESCHER_Prop_lineEndArrowWidth, nValue ) ) impl_AddArrowWidth( pAttrList, XML_endarrowwidth, nValue ); if ( rProps.GetOpt( ESCHER_Prop_lineEndArrowLength, nValue ) ) impl_AddArrowLength( pAttrList, XML_endarrowlength, nValue ); if ( rProps.GetOpt( ESCHER_Prop_lineJoinStyle, nValue ) ) { const char *pJoinStyle = NULL; switch ( nValue ) { case ESCHER_LineJoinBevel: pJoinStyle = "bevel"; break; case ESCHER_LineJoinMiter: pJoinStyle = "miter"; break; case ESCHER_LineJoinRound: pJoinStyle = "round"; break; } if ( pJoinStyle ) pAttrList->add( XML_joinstyle, pJoinStyle ); } if ( rProps.GetOpt( ESCHER_Prop_lineEndCapStyle, nValue ) ) { const char *pEndCap = NULL; switch ( nValue ) { case ESCHER_LineEndCapRound: pEndCap = "round"; break; case ESCHER_LineEndCapSquare: pEndCap = "square"; break; case ESCHER_LineEndCapFlat: pEndCap = "flat"; break; } if ( pEndCap ) pAttrList->add( XML_endcap, pEndCap ); } m_pSerializer->singleElementNS( XML_v, XML_stroke, XFastAttributeListRef( pAttrList ) ); } bAlreadyWritten[ ESCHER_Prop_lineColor ] = true; bAlreadyWritten[ ESCHER_Prop_lineWidth ] = true; bAlreadyWritten[ ESCHER_Prop_lineDashing ] = true; bAlreadyWritten[ ESCHER_Prop_lineStartArrowhead ] = true; bAlreadyWritten[ ESCHER_Prop_lineEndArrowhead ] = true; bAlreadyWritten[ ESCHER_Prop_lineStartArrowWidth ] = true; bAlreadyWritten[ ESCHER_Prop_lineStartArrowLength ] = true; bAlreadyWritten[ ESCHER_Prop_lineEndArrowWidth ] = true; bAlreadyWritten[ ESCHER_Prop_lineEndArrowLength ] = true; bAlreadyWritten[ ESCHER_Prop_lineJoinStyle ] = true; bAlreadyWritten[ ESCHER_Prop_lineEndCapStyle ] = true; break; case ESCHER_Prop_fHidden: m_pShapeStyle->append( ";visibility:hidden" ); break; default: #if OSL_DEBUG_LEVEL > 0 fprintf( stderr, "TODO VMLExport::Commit(), unimplemented id: %d, value: %d, data: [%d, %p]\n", it->nPropId, it->nPropValue, it->nPropSize, it->pBuf ); if ( it->nPropSize ) { const sal_uInt8 *pIt = it->pBuf; fprintf( stderr, " ( " ); for ( int nCount = it->nPropSize; nCount; --nCount ) { fprintf( stderr, "%02x ", *pIt ); ++pIt; } fprintf( stderr, ")\n" ); } #endif break; } } m_pSerializer->mergeTopMarks( sax_fastparser::MERGE_MARKS_POSTPONE ); } OString VMLExport::ShapeIdString( sal_uInt32 nId ) { return OStringBuffer( 20 ).append( "shape_" ).append( sal_Int64( nId ) ).makeStringAndClear(); } void VMLExport::AddLineDimensions( const Rectangle& rRectangle ) { // style if ( m_pShapeStyle->getLength() ) m_pShapeStyle->append( ";" ); m_pShapeStyle->append( "position:absolute" ); switch ( m_nShapeFlags & 0xC0 ) { case 0x40: m_pShapeStyle->append( ";flip:y" ); break; case 0x80: m_pShapeStyle->append( ";flip:x" ); break; case 0xC0: m_pShapeStyle->append( ";flip:xy" ); break; } // the actual dimensions OString aLeft, aTop, aRight, aBottom; if ( mnGroupLevel == 1 ) { const OString aPt( "pt" ); aLeft = OString::valueOf( double( rRectangle.Left() ) / 20 ) + aPt; aTop = OString::valueOf( double( rRectangle.Top() ) / 20 ) + aPt; aRight = OString::valueOf( double( rRectangle.Right() ) / 20 ) + aPt; aBottom = OString::valueOf( double( rRectangle.Bottom() ) / 20 ) + aPt; } else { aLeft = OString::valueOf( rRectangle.Left() ); aTop = OString::valueOf( rRectangle.Top() ); aRight = OString::valueOf( rRectangle.Right() ); aBottom = OString::valueOf( rRectangle.Bottom() ); } m_pShapeAttrList->add( XML_from, OStringBuffer( 20 ).append( aLeft ) .append( "," ).append( aTop ) .makeStringAndClear() ); m_pShapeAttrList->add( XML_to, OStringBuffer( 20 ).append( aRight ) .append( "," ).append( aBottom ) .makeStringAndClear() ); } void VMLExport::AddRectangleDimensions( rtl::OStringBuffer& rBuffer, const Rectangle& rRectangle ) { if ( rBuffer.getLength() ) rBuffer.append( ";" ); rBuffer.append( "position:absolute;" ); if ( mnGroupLevel == 1 ) { rBuffer.append( "margin-left:" ).append( double( rRectangle.Left() ) / 20 ) .append( "pt;margin-top:" ).append( double( rRectangle.Top() ) / 20 ) .append( "pt;width:" ).append( double( rRectangle.Right() - rRectangle.Left() ) / 20 ) .append( "pt;height:" ).append( double( rRectangle.Bottom() - rRectangle.Top() ) / 20 ) .append( "pt" ); } else { rBuffer.append( "left:" ).append( rRectangle.Left() ) .append( ";top:" ).append( rRectangle.Top() ) .append( ";width:" ).append( rRectangle.Right() - rRectangle.Left() ) .append( ";height:" ).append( rRectangle.Bottom() - rRectangle.Top() ); } } void VMLExport::AddShapeAttribute( sal_Int32 nAttribute, const rtl::OString& rValue ) { m_pShapeAttrList->add( nAttribute, rValue ); } extern const char* pShapeTypes[]; sal_Int32 VMLExport::StartShape() { if ( m_nShapeType == ESCHER_ShpInst_Nil ) return -1; // some of the shapes have their own name ;-) sal_Int32 nShapeElement = -1; bool bReferToShapeType = false; switch ( m_nShapeType ) { case ESCHER_ShpInst_NotPrimitive: nShapeElement = XML_shape; break; case ESCHER_ShpInst_Rectangle: nShapeElement = XML_rect; break; case ESCHER_ShpInst_RoundRectangle: nShapeElement = XML_roundrect; break; case ESCHER_ShpInst_Ellipse: nShapeElement = XML_oval; break; case ESCHER_ShpInst_Arc: nShapeElement = XML_arc; break; case ESCHER_ShpInst_Line: nShapeElement = XML_line; break; default: if ( m_nShapeType < ESCHER_ShpInst_COUNT ) { nShapeElement = XML_shape; // a predefined shape? const char* pShapeType = pShapeTypes[ m_nShapeType ]; if ( pShapeType ) { bReferToShapeType = true; if ( !m_pShapeTypeWritten[ m_nShapeType ] ) { m_pSerializer->write( pShapeType ); m_pShapeTypeWritten[ m_nShapeType ] = true; } } else { // rectangle is probably the best fallback... nShapeElement = XML_rect; } } break; } // add style m_pShapeAttrList->add( XML_style, m_pShapeStyle->makeStringAndClear() ); if ( nShapeElement >= 0 ) { if ( bReferToShapeType ) { m_pShapeAttrList->add( XML_type, OStringBuffer( 20 ) .append( "shapetype_" ).append( sal_Int32( m_nShapeType ) ) .makeStringAndClear() ); } // start of the shape m_pSerializer->startElementNS( XML_v, nShapeElement, XFastAttributeListRef( m_pShapeAttrList ) ); } return nShapeElement; } void VMLExport::EndShape( sal_Int32 nShapeElement ) { if ( nShapeElement >= 0 ) { // end of the shape m_pSerializer->endElementNS( XML_v, nShapeElement ); } }