/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * 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 . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace sax_fastparser; using namespace oox::vml; using namespace com::sun::star; static const sal_Int32 Tag_Container = 44444; static const sal_Int32 Tag_Commit = 44445; VMLExport::VMLExport( ::sax_fastparser::FSHelperPtr const & pSerializer, VMLTextExport* pTextExport ) : EscherEx( std::make_shared(), nullptr, /*bOOXML=*/true ) , m_pSerializer( pSerializer ) , m_pTextExport( pTextExport ) , m_eHOri( 0 ) , m_eVOri( 0 ) , m_eHRel( 0 ) , m_eVRel( 0 ) , m_bInline( false ) , m_pSdrObject( nullptr ) , m_pShapeAttrList( nullptr ) , m_nShapeType( ESCHER_ShpInst_Nil ) , m_nShapeFlags(ShapeFlag::NONE) , m_ShapeStyle( 200 ) , m_aShapeTypeWritten( ESCHER_ShpInst_COUNT ) , m_bSkipwzName( false ) , m_bUseHashMarkForType( false ) , m_bOverrideShapeIdGeneration( false ) , m_nShapeIDCounter( 0 ) { mnGroupLevel = 1; } void VMLExport::SetFS( const ::sax_fastparser::FSHelperPtr& pSerializer ) { m_pSerializer = pSerializer; } VMLExport::~VMLExport() { delete mpOutStrm; mpOutStrm = nullptr; } void VMLExport::OpenContainer( sal_uInt16 nEscherContainer, int nRecInstance ) { EscherEx::OpenContainer( nEscherContainer, nRecInstance ); if ( nEscherContainer != ESCHER_SpContainer ) return; // opening a shape container SAL_WARN_IF(m_nShapeType != ESCHER_ShpInst_Nil, "oox.vml", "opening shape inside of a shape!"); m_nShapeType = ESCHER_ShpInst_Nil; m_pShapeAttrList = FastSerializerHelper::createAttrList(); m_ShapeStyle.setLength(0); m_ShapeStyle.ensureCapacity(200); // postpone the output so that we are able to write even the elements // that we learn inside Commit() m_pSerializer->mark(Tag_Container); } 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(Tag_Container); EndShape( nShapeElement ); // cleanup m_nShapeType = ESCHER_ShpInst_Nil; m_pShapeAttrList = nullptr; } EscherEx::CloseContainer(); } sal_uInt32 VMLExport::EnterGroup( const OUString& rShapeName, const tools::Rectangle* pRect ) { sal_uInt32 nShapeId = GenerateShapeId(); OStringBuffer aStyle( 200 ); FastAttributeList *pAttrList = FastSerializerHelper::createAttrList(); pAttrList->add( XML_id, ShapeIdString( nShapeId ) ); if ( rShapeName.getLength() ) pAttrList->add( XML_alt, OUStringToOString( rShapeName, RTL_TEXTENCODING_UTF8 ) ); bool rbAbsolutePos = true; //editAs OUString rEditAs = EscherEx::GetEditAs(); if (!rEditAs.isEmpty()) { pAttrList->add(XML_editas, OUStringToOString( rEditAs, RTL_TEXTENCODING_UTF8 )); rbAbsolutePos = false; } // style if ( pRect ) AddRectangleDimensions( aStyle, *pRect, rbAbsolutePos ); if ( !aStyle.isEmpty() ) 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( sal_uInt32 nShapeType, ShapeFlag nShapeFlags, sal_uInt32 nShapeId ) { m_nShapeType = nShapeType; m_nShapeFlags = nShapeFlags; m_sShapeId = ShapeIdString( nShapeId ); // If shape is a watermark object - should keep the original shape's name // because Microsoft detects if it is a watermark by the actual name if (!IsWaterMarkShape(m_pSdrObject->GetName())) { // Not a watermark object m_pShapeAttrList->add( XML_id, m_sShapeId ); } else { // A watermark object - store the optional shape ID m_pShapeAttrList->add( XML_id, OUStringToOString(m_pSdrObject->GetName(), RTL_TEXTENCODING_UTF8) ); // also ('o:spid') m_pShapeAttrList->addNS( XML_o, XML_spid, m_sShapeId ); } } bool VMLExport::IsWaterMarkShape(const OUString& rStr) { if (rStr.isEmpty() ) return false; return rStr.match("PowerPlusWaterMarkObject") || rStr.match("WordPictureWatermark"); } void VMLExport::OverrideShapeIDGen(bool bOverrideShapeIdGen, const OString& sShapeIDPrefix) { m_bOverrideShapeIdGeneration = bOverrideShapeIdGen; if(bOverrideShapeIdGen) { assert(!sShapeIDPrefix.isEmpty()); m_sShapeIDPrefix = sShapeIDPrefix; } else m_sShapeIDPrefix.clear(); } static void impl_AddArrowHead( sax_fastparser::FastAttributeList *pAttrList, sal_Int32 nElement, sal_uInt32 nValue ) { if ( !pAttrList ) return; const char *pArrowHead = nullptr; 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 = nullptr; 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 = nullptr; 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 = nullptr; 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::number( nValue ).getStr() ); } static sal_uInt16 impl_GetUInt16( const sal_uInt8* &pVal ) { sal_uInt16 nRet = *pVal++; nRet += ( *pVal++ ) << 8; return nRet; } static 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::AddSdrObjectVMLObject( const SdrObject& rObj) { m_pSdrObject = &rObj; } void VMLExport::Commit( EscherPropertyContainer& rProps, const tools::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(Tag_Commit); // dimensions if ( m_nShapeType == ESCHER_ShpInst_Line ) AddLineDimensions( rRect ); else { if ( IsWaterMarkShape( m_pSdrObject->GetName() ) ) { // Watermark need some padding to be compatible with MSO long nPaddingY = 0; const SfxItemSet& rSet = m_pSdrObject->GetMergedItemSet(); if ( const SdrMetricItem* pItem = rSet.GetItem( SDRATTR_TEXT_UPPERDIST ) ) nPaddingY += pItem->GetValue(); tools::Rectangle aRect( rRect ); aRect.setHeight( aRect.getHeight() + nPaddingY ); AddRectangleDimensions( m_ShapeStyle, aRect ); } else AddRectangleDimensions( m_ShapeStyle, rRect ); } // properties bool bAlreadyWritten[ 0xFFF ] = {}; const EscherProperties &rOpts = rProps.GetOpts(); for (auto const& opt : rOpts) { sal_uInt16 nId = ( opt.nPropId & 0x0FFF ); if ( bAlreadyWritten[ nId ] ) continue; switch ( nId ) { case ESCHER_Prop_WrapText: // 133 { const char *pWrapType = nullptr; switch ( opt.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: case ESCHER_WrapThrough: break; // last two are *undefined* in MS-ODRAW, don't exist in VML } if ( pWrapType ) { m_ShapeStyle.append(";mso-wrap-style:"); m_ShapeStyle.append(pWrapType); } } bAlreadyWritten[ ESCHER_Prop_WrapText ] = true; break; case ESCHER_Prop_AnchorText: // 135 { char const* pValue(nullptr); switch (opt.nPropValue) { case ESCHER_AnchorTop: pValue = "top"; break; case ESCHER_AnchorMiddle: pValue = "middle"; break; case ESCHER_AnchorBottom: pValue = "bottom"; break; case ESCHER_AnchorTopCentered: pValue = "top-center"; break; case ESCHER_AnchorMiddleCentered: pValue = "middle-center"; break; case ESCHER_AnchorBottomCentered: pValue = "bottom-center"; break; case ESCHER_AnchorTopBaseline: pValue = "top-baseline"; break; case ESCHER_AnchorBottomBaseline: pValue = "bottom-baseline"; break; case ESCHER_AnchorTopCenteredBaseline: pValue = "top-center-baseline"; break; case ESCHER_AnchorBottomCenteredBaseline: pValue = "bottom-center-baseline"; break; } m_ShapeStyle.append(";v-text-anchor:"); m_ShapeStyle.append(pValue); } break; case ESCHER_Prop_txflTextFlow: // 136 { // at least "bottom-to-top" only has an effect when it's on the v:textbox element, not on v:shape assert(m_TextboxStyle.isEmpty()); switch (opt.nPropValue) { case ESCHER_txflHorzN: m_TextboxStyle.append("layout-flow:horizontal"); break; case ESCHER_txflTtoBA: m_TextboxStyle.append("layout-flow:vertical"); break; case ESCHER_txflBtoT: m_TextboxStyle.append("mso-layout-flow-alt:bottom-to-top"); break; default: assert(false); // unimplemented in escher export break; } } break; // coordorigin case ESCHER_Prop_geoLeft: // 320 case ESCHER_Prop_geoTop: // 321 { sal_uInt32 nLeft = 0, nTop = 0; if ( nId == ESCHER_Prop_geoLeft ) { nLeft = opt.nPropValue; rProps.GetOpt( ESCHER_Prop_geoTop, nTop ); } else { nTop = opt.nPropValue; rProps.GetOpt( ESCHER_Prop_geoLeft, nLeft ); } if(nTop!=0 && nLeft!=0) 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 = opt.nPropValue; rProps.GetOpt( ESCHER_Prop_geoBottom, nBottom ); } else { nBottom = opt.nPropValue; rProps.GetOpt( ESCHER_Prop_geoRight, nRight ); } if(nTop!=0 && nLeft!=0 && nBottom!=0 && nRight!=0 ) 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.nProp.data() + 6; const sal_uInt8 *pSegmentIt = aSegments.nProp.data(); OStringBuffer aPath( 512 ); sal_uInt16 nPointSize = aVertices.nProp[4] + ( aVertices.nProp[5] << 8 ); // number of segments sal_uInt16 nSegments = impl_GetUInt16( pSegmentIt ); pSegmentIt += 4; for ( ; nSegments; --nSegments ) { sal_uInt16 nSeg = impl_GetUInt16( pSegmentIt ); // The segment type is stored in the upper 3 bits // and segment count is stored in the lower 13 // bits. unsigned char nSegmentType = (nSeg & 0xE000) >> 13; unsigned short nSegmentCount = nSeg & 0x03FF; switch (nSegmentType) { case msopathMoveTo: { sal_Int32 nX = impl_GetPointComponent( pVerticesIt, nPointSize ); sal_Int32 nY = impl_GetPointComponent( pVerticesIt, nPointSize ); if (nX >= 0 && nY >= 0 ) aPath.append( "m" ).append( nX ).append( "," ).append( nY ); break; } case msopathClientEscape: break; case msopathEscape: { // If the segment type is msopathEscape, the lower 13 bits are // divided in a 5 bit escape code and 8 bit // vertex count (not segment count!) unsigned char nEscapeCode = (nSegmentCount & 0x1F00) >> 8; unsigned char nVertexCount = nSegmentCount & 0x00FF; pVerticesIt += nVertexCount; switch (nEscapeCode) { case 0xa: // nofill aPath.append( "nf" ); break; case 0xb: // nostroke aPath.append( "ns" ); break; } break; } case msopathLineTo: for (unsigned short i = 0; i < nSegmentCount; ++i) { sal_Int32 nX = impl_GetPointComponent( pVerticesIt, nPointSize ); sal_Int32 nY = impl_GetPointComponent( pVerticesIt, nPointSize ); aPath.append( "l" ).append( nX ).append( "," ).append( nY ); } break; case msopathCurveTo: for (unsigned short i = 0; i < nSegmentCount; ++i) { 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 msopathClose: aPath.append( "x" ); break; case msopathEnd: aPath.append( "e" ); break; default: SAL_WARN("oox", "Totally b0rked"); break; case msopathInvalid: SAL_WARN("oox", "Invalid - should never be found"); break; } } OString pathString = aPath.makeStringAndClear(); if ( !aPath.isEmpty() && pathString != "xe" ) m_pShapeAttrList->add( XML_path, pathString ); } else SAL_WARN("oox.vml", "unhandled shape path, missing either pVertices or pSegmentInfo."); } 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_fillBlip: // 390 case ESCHER_Prop_fNoFillHitTest: // 447 case ESCHER_Prop_fillOpacity: // 386 { sal_uInt32 nValue; sax_fastparser::FastAttributeList* pAttrList = FastSerializerHelper::createAttrList(); bool imageData = false; EscherPropSortStruct aStruct; const SdrGrafObj* pSdrGrafObj = dynamic_cast(m_pSdrObject); if (pSdrGrafObj && pSdrGrafObj->isSignatureLine() && m_pTextExport) { sax_fastparser::FastAttributeList* pAttrListSignatureLine = FastSerializerHelper::createAttrList(); pAttrListSignatureLine->add(XML_issignatureline, "t"); if (!pSdrGrafObj->getSignatureLineId().isEmpty()) { pAttrListSignatureLine->add( XML_id, OUStringToOString(pSdrGrafObj->getSignatureLineId(), RTL_TEXTENCODING_UTF8)); } if (!pSdrGrafObj->getSignatureLineSuggestedSignerName().isEmpty()) { pAttrListSignatureLine->add( FSNS(XML_o, XML_suggestedsigner), OUStringToOString( pSdrGrafObj->getSignatureLineSuggestedSignerName(), RTL_TEXTENCODING_UTF8)); } if (!pSdrGrafObj->getSignatureLineSuggestedSignerTitle().isEmpty()) { pAttrListSignatureLine->add( FSNS(XML_o, XML_suggestedsigner2), OUStringToOString( pSdrGrafObj->getSignatureLineSuggestedSignerTitle(), RTL_TEXTENCODING_UTF8)); } if (!pSdrGrafObj->getSignatureLineSuggestedSignerEmail().isEmpty()) { pAttrListSignatureLine->add( FSNS(XML_o, XML_suggestedsigneremail), OUStringToOString( pSdrGrafObj->getSignatureLineSuggestedSignerEmail(), RTL_TEXTENCODING_UTF8)); } if (!pSdrGrafObj->getSignatureLineSigningInstructions().isEmpty()) { pAttrListSignatureLine->add(XML_signinginstructionsset, "t"); pAttrListSignatureLine->add( FSNS(XML_o, XML_signinginstructions), OUStringToOString( pSdrGrafObj->getSignatureLineSigningInstructions(), RTL_TEXTENCODING_UTF8)); } pAttrListSignatureLine->add( XML_showsigndate, pSdrGrafObj->isSignatureLineShowSignDate() ? "t" : "f"); pAttrListSignatureLine->add( XML_allowcomments, pSdrGrafObj->isSignatureLineCanAddComment() ? "t" : "f"); m_pSerializer->singleElementNS( XML_o, XML_signatureline, XFastAttributeListRef(pAttrListSignatureLine)); // Get signature line graphic const uno::Reference& xGraphic = pSdrGrafObj->getSignatureLineUnsignedGraphic(); Graphic aGraphic(xGraphic); BitmapChecksum nChecksum = aGraphic.GetChecksum(); OUString aImageId = m_pTextExport->FindRelId(nChecksum); if (aImageId.isEmpty()) { aImageId = m_pTextExport->GetDrawingML().WriteImage(aGraphic); m_pTextExport->CacheRelId(nChecksum, aImageId); } pAttrList->add(FSNS(XML_r, XML_id), OUStringToOString(aImageId, RTL_TEXTENCODING_UTF8)); imageData = true; } else if (rProps.GetOpt(ESCHER_Prop_fillBlip, aStruct) && m_pTextExport) { SvMemoryStream aStream; // The first bytes are WW8-specific, we're only interested in the PNG int nHeaderSize = 25; aStream.WriteBytes(aStruct.nProp.data() + nHeaderSize, aStruct.nProp.size() - nHeaderSize); aStream.Seek(0); Graphic aGraphic; GraphicConverter::Import(aStream, aGraphic); BitmapChecksum nChecksum = aGraphic.GetChecksum(); OUString aImageId = m_pTextExport->FindRelId(nChecksum); if (aImageId.isEmpty()) { aImageId = m_pTextExport->GetDrawingML().WriteImage(aGraphic); m_pTextExport->CacheRelId(nChecksum, aImageId); } pAttrList->add(FSNS(XML_r, XML_id), OUStringToOString(aImageId, RTL_TEXTENCODING_UTF8)); imageData = true; } if (rProps.GetOpt(ESCHER_Prop_fNoFillHitTest, nValue)) impl_AddBool(pAttrList, FSNS(XML_o, XML_detectmouseclick), nValue != 0); if (imageData) m_pSerializer->singleElementNS( XML_v, XML_imagedata, XFastAttributeListRef( pAttrList ) ); else { if ( rProps.GetOpt( ESCHER_Prop_fillType, nValue ) ) { const char *pFillType = nullptr; switch ( nValue ) { case ESCHER_FillSolid: pFillType = "solid"; break; // TODO case ESCHER_FillPattern: pFillType = ""; break; case ESCHER_FillTexture: pFillType = "tile"; 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: SAL_INFO("oox.vml", "Unhandled fill type: " << nValue); break; } if ( pFillType ) pAttrList->add( XML_type, pFillType ); } else if (!rProps.GetOpt(ESCHER_Prop_fillColor, nValue)) pAttrList->add( XML_on, "false" ); if ( rProps.GetOpt( ESCHER_Prop_fillColor, nValue ) ) impl_AddColor( m_pShapeAttrList, XML_fillcolor, nValue ); if ( rProps.GetOpt( ESCHER_Prop_fillBackColor, nValue ) ) impl_AddColor( pAttrList, XML_color2, nValue ); if (rProps.GetOpt(ESCHER_Prop_fillOpacity, nValue)) // Partly undo the transformation at the end of EscherPropertyContainer::CreateFillProperties(): VML opacity is 0..1. pAttrList->add(XML_opacity, OString::number(double((nValue * 100) >> 16) / 100)); 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_fillBlip ] = true; bAlreadyWritten[ ESCHER_Prop_fNoFillHitTest ] = true; bAlreadyWritten[ ESCHER_Prop_fillOpacity ] = 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 = FastSerializerHelper::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 = nullptr; 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 = nullptr; 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 = nullptr; 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: if ( !opt.nPropValue ) m_ShapeStyle.append( ";visibility:hidden" ); break; case ESCHER_Prop_shadowColor: case ESCHER_Prop_fshadowObscured: { sal_uInt32 nValue = 0; bool bShadow = false; bool bObscured = false; if ( rProps.GetOpt( ESCHER_Prop_fshadowObscured, nValue ) ) { bShadow = (( nValue & 0x20002 ) == 0x20002 ); bObscured = (( nValue & 0x10001 ) == 0x10001 ); } if ( bShadow ) { sax_fastparser::FastAttributeList *pAttrList = FastSerializerHelper::createAttrList(); impl_AddBool( pAttrList, XML_on, bShadow ); impl_AddBool( pAttrList, XML_obscured, bObscured ); if ( rProps.GetOpt( ESCHER_Prop_shadowColor, nValue ) ) impl_AddColor( pAttrList, XML_color, nValue ); m_pSerializer->singleElementNS( XML_v, XML_shadow, XFastAttributeListRef( pAttrList ) ); bAlreadyWritten[ ESCHER_Prop_fshadowObscured ] = true; bAlreadyWritten[ ESCHER_Prop_shadowColor ] = true; } } break; case ESCHER_Prop_gtextUNICODE: case ESCHER_Prop_gtextFont: { EscherPropSortStruct aUnicode; if (rProps.GetOpt(ESCHER_Prop_gtextUNICODE, aUnicode)) { SvMemoryStream aStream; if(!opt.nProp.empty()) { aStream.WriteBytes(opt.nProp.data(), opt.nProp.size()); } aStream.Seek(0); OUString aTextPathString = SvxMSDffManager::MSDFFReadZString(aStream, opt.nProp.size(), true); aStream.Seek(0); m_pSerializer->singleElementNS(XML_v, XML_path, XML_textpathok, "t"); sax_fastparser::FastAttributeList* pAttrList = FastSerializerHelper::createAttrList(); pAttrList->add(XML_on, "t"); pAttrList->add(XML_fitshape, "t"); pAttrList->add(XML_string, OUStringToOString(aTextPathString, RTL_TEXTENCODING_UTF8)); EscherPropSortStruct aFont; OUString aStyle; if (rProps.GetOpt(ESCHER_Prop_gtextFont, aFont)) { aStream.WriteBytes(aFont.nProp.data(), aFont.nProp.size()); aStream.Seek(0); OUString aTextPathFont = SvxMSDffManager::MSDFFReadZString(aStream, aFont.nProp.size(), true); aStyle += "font-family:\"" + aTextPathFont + "\""; } sal_uInt32 nSize; if (rProps.GetOpt(ESCHER_Prop_gtextSize, nSize)) { float nSizeF = static_cast(nSize) / 65536.0; OUString aSize = OUString::number(nSizeF); aStyle += ";font-size:" + aSize + "pt"; } if (IsWaterMarkShape(m_pSdrObject->GetName())) pAttrList->add(XML_trim, "t"); if (!aStyle.isEmpty()) pAttrList->add(XML_style, OUStringToOString(aStyle, RTL_TEXTENCODING_UTF8)); m_pSerializer->singleElementNS(XML_v, XML_textpath, XFastAttributeListRef(pAttrList)); } bAlreadyWritten[ESCHER_Prop_gtextUNICODE] = true; bAlreadyWritten[ESCHER_Prop_gtextFont] = true; } break; case ESCHER_Prop_Rotation: { // The higher half of the variable contains the angle. m_ShapeStyle.append(";rotation:").append(double(opt.nPropValue >> 16)); bAlreadyWritten[ESCHER_Prop_Rotation] = true; } break; case ESCHER_Prop_fNoLineDrawDash: { // See DffPropertyReader::ApplyLineAttributes(). impl_AddBool( m_pShapeAttrList, XML_stroked, (opt.nPropValue & 8) != 0 ); bAlreadyWritten[ESCHER_Prop_fNoLineDrawDash] = true; } break; case ESCHER_Prop_wzName: { SvMemoryStream aStream; if(!opt.nProp.empty()) { aStream.WriteBytes(opt.nProp.data(), opt.nProp.size()); } aStream.Seek(0); OUString idStr = SvxMSDffManager::MSDFFReadZString(aStream, opt.nProp.size(), true); aStream.Seek(0); if (!IsWaterMarkShape(m_pSdrObject->GetName()) && !m_bSkipwzName) m_pShapeAttrList->add(XML_ID, OUStringToOString(idStr, RTL_TEXTENCODING_UTF8).getStr()); bAlreadyWritten[ESCHER_Prop_wzName] = true; } break; default: #if OSL_DEBUG_LEVEL > 0 const size_t opt_nProp_size(opt.nProp.size()); const sal_uInt8 opt_nProp_empty(0); fprintf( stderr, "TODO VMLExport::Commit(), unimplemented id: %d, value: %" SAL_PRIuUINT32 ", data: [%zu, %p]\n", nId, opt.nPropValue, opt_nProp_size, 0 == opt_nProp_size ? &opt_nProp_empty : opt.nProp.data()); if ( opt.nProp.size() ) { const sal_uInt8 *pIt = opt.nProp.data(); fprintf( stderr, " ( " ); for ( int nCount = opt.nProp.size(); nCount; --nCount ) { fprintf( stderr, "%02x ", *pIt ); ++pIt; } fprintf( stderr, ")\n" ); } #endif break; } } m_pSerializer->mergeTopMarks(Tag_Commit, sax_fastparser::MergeMarks::POSTPONE ); } OString VMLExport::ShapeIdString( sal_uInt32 nId ) { if(m_bOverrideShapeIdGeneration) return m_sShapeIDPrefix + OString::number( nId ); else return "shape_" + OString::number( nId ); } void VMLExport::AddFlipXY( ) { if (m_nShapeFlags & (ShapeFlag::FlipH | ShapeFlag::FlipV)) { m_ShapeStyle.append( ";flip:" ); if (m_nShapeFlags & ShapeFlag::FlipH) m_ShapeStyle.append( "x" ); if (m_nShapeFlags & ShapeFlag::FlipV) m_ShapeStyle.append( "y" ); } } void VMLExport::AddLineDimensions( const tools::Rectangle& rRectangle ) { // style if (!m_ShapeStyle.isEmpty()) m_ShapeStyle.append( ";" ); m_ShapeStyle.append( "position:absolute" ); AddFlipXY(); // the actual dimensions OString aLeft, aTop, aRight, aBottom; if ( mnGroupLevel == 1 ) { const OString aPt( "pt" ); aLeft = OString::number( double( rRectangle.Left() ) / 20 ) + aPt; aTop = OString::number( double( rRectangle.Top() ) / 20 ) + aPt; aRight = OString::number( double( rRectangle.Right() ) / 20 ) + aPt; aBottom = OString::number( double( rRectangle.Bottom() ) / 20 ) + aPt; } else { aLeft = OString::number( rRectangle.Left() ); aTop = OString::number( rRectangle.Top() ); aRight = OString::number( rRectangle.Right() ); aBottom = OString::number( 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( OStringBuffer& rBuffer, const tools::Rectangle& rRectangle, bool rbAbsolutePos) { if ( !rBuffer.isEmpty() ) rBuffer.append( ";" ); if (rbAbsolutePos && !m_bInline) { rBuffer.append( "position:absolute;" ); } if(m_bInline) { rBuffer.append( "width:" ).append( double( rRectangle.Right() - rRectangle.Left() ) / 20 ) .append( "pt;height:" ).append( double( rRectangle.Bottom() - rRectangle.Top() ) / 20 ) .append( "pt" ); } else 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() ); } AddFlipXY(); } void VMLExport::AddShapeAttribute( sal_Int32 nAttribute, const OString& rValue ) { m_pShapeAttrList->add( nAttribute, rValue ); } static std::vector lcl_getShapeTypes() { std::vector aRet; OUString aPath("$BRAND_BASE_DIR/" LIBO_SHARE_FOLDER "/filter/vml-shape-types"); rtl::Bootstrap::expandMacros(aPath); SvFileStream aStream(aPath, StreamMode::READ); if (aStream.GetError() != ERRCODE_NONE) SAL_WARN("oox", "failed to open vml-shape-types"); OString aLine; bool bNotDone = aStream.ReadLine(aLine); while (bNotDone) { // Filter out comments. if (!aLine.startsWith("/")) aRet.push_back(aLine); bNotDone = aStream.ReadLine(aLine); } return aRet; } static bool lcl_isTextBox(const SdrObject* pSdrObject) { uno::Reference xPropertySet(const_cast(pSdrObject)->getUnoShape(), uno::UNO_QUERY); if (xPropertySet.is()) { uno::Reference xPropertySetInfo = xPropertySet->getPropertySetInfo(); return xPropertySetInfo->hasPropertyByName("TextBox") && xPropertySet->getPropertyValue("TextBox").get(); } return false; } static OUString lcl_getAnchorIdFromGrabBag(const SdrObject* pSdrObject) { OUString aResult; uno::Reference xShape(const_cast(pSdrObject)->getUnoShape(), uno::UNO_QUERY); if (xShape->getPropertySetInfo()->hasPropertyByName("InteropGrabBag")) { comphelper::SequenceAsHashMap aInteropGrabBag(xShape->getPropertyValue("InteropGrabBag")); if (aInteropGrabBag.find("AnchorId") != aInteropGrabBag.end()) aInteropGrabBag["AnchorId"] >>= aResult; } return aResult; } sal_uInt32 VMLExport::GenerateShapeId() { if(!m_bOverrideShapeIdGeneration) return EscherEx::GenerateShapeId(); else return m_nShapeIDCounter++; } 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; case ESCHER_ShpInst_HostControl: { // We don't have a shape definition for host control in presetShapeDefinitions.xml // So use a definition copied from DOCX file created with MSO bReferToShapeType = true; nShapeElement = XML_shape; if ( !m_aShapeTypeWritten[ m_nShapeType ] ) { OString sShapeType = "\n" "\n" "\n" "\n" ""; m_pSerializer->write(sShapeType); m_aShapeTypeWritten[ m_nShapeType ] = true; } break; } case ESCHER_ShpInst_PictureFrame: { // We don't have a shape definition for picture frame in presetShapeDefinitions.xml // So use a definition copied from DOCX file created with MSO bReferToShapeType = true; nShapeElement = XML_shape; if ( !m_aShapeTypeWritten[ m_nShapeType ] ) { OString sShapeType = "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" ""; m_pSerializer->write(sShapeType); m_aShapeTypeWritten[ m_nShapeType ] = true; } break; } default: if ( m_nShapeType < ESCHER_ShpInst_COUNT ) { nShapeElement = XML_shape; // a predefined shape? static std::vector aShapeTypes = lcl_getShapeTypes(); OString aShapeType = aShapeTypes[ m_nShapeType ]; if ( aShapeType != "NULL" ) { bReferToShapeType = true; if ( !m_aShapeTypeWritten[ m_nShapeType ] ) { m_pSerializer->write( aShapeType.getStr() ); m_aShapeTypeWritten[ m_nShapeType ] = true; } } else { // rectangle is probably the best fallback... nShapeElement = XML_rect; } } break; } // anchoring switch (m_eHOri) { case text::HoriOrientation::LEFT: m_ShapeStyle.append(";mso-position-horizontal:left"); break; case text::HoriOrientation::CENTER: m_ShapeStyle.append(";mso-position-horizontal:center"); break; case text::HoriOrientation::RIGHT: m_ShapeStyle.append(";mso-position-horizontal:right"); break; case text::HoriOrientation::INSIDE: m_ShapeStyle.append(";mso-position-horizontal:inside"); break; case text::HoriOrientation::OUTSIDE: m_ShapeStyle.append(";mso-position-horizontal:outside"); break; default: case text::HoriOrientation::NONE: break; } switch (m_eHRel) { case text::RelOrientation::PAGE_PRINT_AREA: m_ShapeStyle.append(";mso-position-horizontal-relative:margin"); break; case text::RelOrientation::PAGE_FRAME: case text::RelOrientation::PAGE_LEFT: case text::RelOrientation::PAGE_RIGHT: m_ShapeStyle.append(";mso-position-horizontal-relative:page"); break; case text::RelOrientation::CHAR: m_ShapeStyle.append(";mso-position-horizontal-relative:char"); break; default: break; } switch (m_eVOri) { case text::VertOrientation::TOP: case text::VertOrientation::LINE_TOP: case text::VertOrientation::CHAR_TOP: m_ShapeStyle.append(";mso-position-vertical:top"); break; case text::VertOrientation::CENTER: case text::VertOrientation::LINE_CENTER: m_ShapeStyle.append(";mso-position-vertical:center"); break; case text::VertOrientation::BOTTOM: case text::VertOrientation::LINE_BOTTOM: case text::VertOrientation::CHAR_BOTTOM: m_ShapeStyle.append(";mso-position-vertical:bottom"); break; default: case text::VertOrientation::NONE: break; } switch (m_eVRel) { case text::RelOrientation::PAGE_PRINT_AREA: m_ShapeStyle.append(";mso-position-vertical-relative:margin"); break; case text::RelOrientation::PAGE_FRAME: m_ShapeStyle.append(";mso-position-vertical-relative:page"); break; default: break; } // add style m_pShapeAttrList->add( XML_style, m_ShapeStyle.makeStringAndClear() ); OUString sAnchorId = lcl_getAnchorIdFromGrabBag(m_pSdrObject); if (!sAnchorId.isEmpty()) m_pShapeAttrList->addNS(XML_wp14, XML_anchorId, OUStringToOString(sAnchorId, RTL_TEXTENCODING_UTF8)); if ( nShapeElement >= 0 && !m_pShapeAttrList->hasAttribute( XML_type ) && bReferToShapeType ) { OStringBuffer sTypeBuffer( 20 ); if (m_bUseHashMarkForType) sTypeBuffer.append("#"); m_pShapeAttrList->add( XML_type, sTypeBuffer .append( "shapetype_" ).append( sal_Int32( m_nShapeType ) ) .makeStringAndClear() ); } // start of the shape m_pSerializer->startElementNS( XML_v, nShapeElement, XFastAttributeListRef( m_pShapeAttrList ) ); OString const textboxStyle(m_TextboxStyle.makeStringAndClear()); // now check if we have some editeng text (not associated textbox) and we have a text exporter registered const SdrTextObj* pTxtObj = dynamic_cast( m_pSdrObject ); if (pTxtObj && m_pTextExport && msfilter::util::HasTextBoxContent(m_nShapeType) && !IsWaterMarkShape(m_pSdrObject->GetName()) && !lcl_isTextBox(m_pSdrObject)) { const OutlinerParaObject* pParaObj = nullptr; bool bOwnParaObj = false; /* #i13885# When the object is actively being edited, that text is not set into the objects normal text object, but lives in a separate object. */ if (pTxtObj->IsTextEditActive()) { pParaObj = pTxtObj->CreateEditOutlinerParaObject().release(); bOwnParaObj = true; } else { pParaObj = pTxtObj->GetOutlinerParaObject(); } if( pParaObj ) { sax_fastparser::FastAttributeList* pTextboxAttrList = FastSerializerHelper::createAttrList(); sax_fastparser::XFastAttributeListRef xTextboxAttrList(pTextboxAttrList); if (!textboxStyle.isEmpty()) { pTextboxAttrList->add(XML_style, textboxStyle); } // this is reached only in case some text is attached to the shape m_pSerializer->startElementNS(XML_v, XML_textbox, xTextboxAttrList); m_pTextExport->WriteOutliner(*pParaObj); m_pSerializer->endElementNS(XML_v, XML_textbox); if( bOwnParaObj ) delete pParaObj; } } return nShapeElement; } void VMLExport::EndShape( sal_Int32 nShapeElement ) { if ( nShapeElement < 0 ) return; if (m_pTextExport && lcl_isTextBox(m_pSdrObject)) { uno::Reference xPropertySet(const_cast(m_pSdrObject)->getUnoShape(), uno::UNO_QUERY); comphelper::SequenceAsHashMap aCustomShapeProperties(xPropertySet->getPropertyValue("CustomShapeGeometry")); sax_fastparser::FastAttributeList* pTextboxAttrList = FastSerializerHelper::createAttrList(); if (aCustomShapeProperties.find("TextPreRotateAngle") != aCustomShapeProperties.end()) { sal_Int32 nTextRotateAngle = aCustomShapeProperties["TextPreRotateAngle"].get(); if (nTextRotateAngle == -270) pTextboxAttrList->add(XML_style, "mso-layout-flow-alt:bottom-to-top"); } sax_fastparser::XFastAttributeListRef xTextboxAttrList(pTextboxAttrList); pTextboxAttrList = nullptr; m_pSerializer->startElementNS(XML_v, XML_textbox, xTextboxAttrList); m_pTextExport->WriteVMLTextBox(uno::Reference(xPropertySet, uno::UNO_QUERY_THROW)); m_pSerializer->endElementNS(XML_v, XML_textbox); } if (m_pWrapAttrList) { sax_fastparser::XFastAttributeListRef const pWrapAttrList(m_pWrapAttrList.release()); m_pSerializer->singleElementNS(XML_w10, XML_wrap, pWrapAttrList); } // end of the shape m_pSerializer->endElementNS( XML_v, nShapeElement ); } OString const & VMLExport::AddSdrObject( const SdrObject& rObj, sal_Int16 eHOri, sal_Int16 eVOri, sal_Int16 eHRel, sal_Int16 eVRel, std::unique_ptr pWrapAttrList, const bool bOOxmlExport ) { m_pSdrObject = &rObj; m_eHOri = eHOri; m_eVOri = eVOri; m_eHRel = eHRel; m_eVRel = eVRel; m_pWrapAttrList = std::move(pWrapAttrList); m_bInline = false; EscherEx::AddSdrObject(rObj, bOOxmlExport); return m_sShapeId; } OString const & VMLExport::AddInlineSdrObject( const SdrObject& rObj, const bool bOOxmlExport ) { m_pSdrObject = &rObj; m_eHOri = -1; m_eVOri = -1; m_eHRel = -1; m_eVRel = -1; m_pWrapAttrList.reset(); m_bInline = true; EscherEx::AddSdrObject(rObj, bOOxmlExport); return m_sShapeId; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */