/* -*- 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 namespace oox::vml { using namespace ::com::sun::star; using ::oox::core::ContextHandler2; using ::oox::core::ContextHandler2Helper; using ::oox::core::ContextHandlerRef; namespace { /** Returns the boolean value from the specified VML attribute (if present). */ std::optional< bool > lclDecodeBool( const AttributeList& rAttribs, sal_Int32 nToken ) { std::optional< OUString > oValue = rAttribs.getString( nToken ); if( oValue.has_value() ) return std::optional< bool >( ConversionHelper::decodeBool( oValue.value() ) ); return std::optional< bool >(); } /** Returns the percentage value from the specified VML attribute (if present). The value will be normalized (1.0 is returned for 100%). */ std::optional< double > lclDecodePercent( const AttributeList& rAttribs, sal_Int32 nToken, double fDefValue ) { std::optional< OUString > oValue = rAttribs.getString( nToken ); if( oValue.has_value() ) return std::optional< double >( ConversionHelper::decodePercent( oValue.value(), fDefValue ) ); return std::optional< double >(); } /** #119750# Special method for opacity; it *should* be a percentage value, but there are cases where a value relative to 0xffff (65536) is used, ending with an 'f' */ std::optional< double > lclDecodeOpacity( const AttributeList& rAttribs, sal_Int32 nToken, double fDefValue ) { std::optional< OUString > oValue = rAttribs.getString( nToken ); double fRetval(fDefValue); if( oValue.has_value() ) { const OUString& aString(oValue.value()); const sal_Int32 nLength(aString.getLength()); if(nLength > 0) { if(aString.endsWith("f")) { fRetval = std::clamp(aString.toDouble() / 65536.0, 0.0, 1.0); } else { fRetval = ConversionHelper::decodePercent( aString, fDefValue ); } } } return std::optional< double >(fRetval); } /** Returns the integer value pair from the specified VML attribute (if present). */ std::optional< Int32Pair > lclDecodeInt32Pair( const AttributeList& rAttribs, sal_Int32 nToken ) { std::optional< OUString > oValue = rAttribs.getString( nToken ); std::optional< Int32Pair > oRetValue; if( oValue.has_value() ) { std::u16string_view aValue1, aValue2; ConversionHelper::separatePair( aValue1, aValue2, oValue.value(), ',' ); oRetValue = Int32Pair( o3tl::toInt32(aValue1), o3tl::toInt32(aValue2) ); } return oRetValue; } /** Returns the percentage pair from the specified VML attribute (if present). */ std::optional< DoublePair > lclDecodePercentPair( const AttributeList& rAttribs, sal_Int32 nToken ) { std::optional< OUString > oValue = rAttribs.getString( nToken ); std::optional< DoublePair > oRetValue; if( oValue.has_value() ) { std::u16string_view aValue1, aValue2; ConversionHelper::separatePair( aValue1, aValue2, oValue.value(), ',' ); oRetValue = DoublePair( ConversionHelper::decodePercent( aValue1, 0.0 ), ConversionHelper::decodePercent( aValue2, 0.0 ) ); } return oRetValue; } /** Returns the boolean value from the passed string of an attribute in the x: namespace (VML for spreadsheets). Supported values: f, t, False, True. @param bDefaultForEmpty Default value for the empty string. */ bool lclDecodeVmlxBool( std::u16string_view rValue, bool bDefaultForEmpty ) { if( rValue.empty() ) return bDefaultForEmpty; sal_Int32 nToken = AttributeConversion::decodeToken( rValue ); // anything else than 't' or 'True' is considered to be false, as specified return (nToken == XML_t) || (nToken == XML_True); } } // namespace ShapeLayoutContext::ShapeLayoutContext( ContextHandler2Helper const & rParent, Drawing& rDrawing ) : ContextHandler2( rParent ), mrDrawing( rDrawing ) { } ContextHandlerRef ShapeLayoutContext::onCreateContext( sal_Int32 nElement, const AttributeList& rAttribs ) { switch( nElement ) { case O_TOKEN( idmap ): { OUString aBlockIds = rAttribs.getStringDefaulted( XML_data); sal_Int32 nIndex = 0; while( nIndex >= 0 ) { std::u16string_view aToken = o3tl::trim(o3tl::getToken(aBlockIds, 0, ' ', nIndex )); if( !aToken.empty() ) mrDrawing.registerBlockId( o3tl::toInt32(aToken) ); } } break; } return nullptr; } ClientDataContext::ClientDataContext( ContextHandler2Helper const & rParent, ClientData& rClientData, const AttributeList& rAttribs ) : ContextHandler2( rParent ), mrClientData( rClientData ) { mrClientData.mnObjType = rAttribs.getToken( XML_ObjectType, XML_TOKEN_INVALID ); } ContextHandlerRef ClientDataContext::onCreateContext( sal_Int32 /*nElement*/, const AttributeList& /*rAttribs*/ ) { if( isRootElement() ) { maElementText.clear(); return this; } return nullptr; } void ClientDataContext::onCharacters( const OUString& rChars ) { /* Empty but existing elements have special meaning, e.g. 'true'. Collect existing text and convert it in onEndElement(). */ maElementText = rChars; } void ClientDataContext::onEndElement() { switch( getCurrentElement() ) { case VMLX_TOKEN( Anchor ): mrClientData.maAnchor = maElementText; break; case VMLX_TOKEN( FmlaMacro ): mrClientData.maFmlaMacro = maElementText; break; case VMLX_TOKEN( FmlaPict ): mrClientData.maFmlaPict = maElementText; break; case VMLX_TOKEN( FmlaLink ): mrClientData.maFmlaLink = maElementText; break; case VMLX_TOKEN( FmlaRange ): mrClientData.maFmlaRange = maElementText; break; case VMLX_TOKEN( FmlaGroup ): mrClientData.maFmlaGroup = maElementText; break; case VMLX_TOKEN( TextHAlign ): mrClientData.mnTextHAlign = AttributeConversion::decodeToken( maElementText ); break; case VMLX_TOKEN( TextVAlign ): mrClientData.mnTextVAlign = AttributeConversion::decodeToken( maElementText ); break; case VMLX_TOKEN( Column ): mrClientData.mnCol = maElementText.toInt32(); break; case VMLX_TOKEN( Row ): mrClientData.mnRow = maElementText.toInt32(); break; case VMLX_TOKEN( Checked ): mrClientData.mnChecked = maElementText.toInt32(); break; case VMLX_TOKEN( DropStyle ): mrClientData.mnDropStyle = AttributeConversion::decodeToken( maElementText ); break; case VMLX_TOKEN( DropLines ): mrClientData.mnDropLines = maElementText.toInt32(); break; case VMLX_TOKEN( Val ): mrClientData.mnVal = maElementText.toInt32(); break; case VMLX_TOKEN( Min ): mrClientData.mnMin = maElementText.toInt32(); break; case VMLX_TOKEN( Max ): mrClientData.mnMax = maElementText.toInt32(); break; case VMLX_TOKEN( Inc ): mrClientData.mnInc = maElementText.toInt32(); break; case VMLX_TOKEN( Page ): mrClientData.mnPage = maElementText.toInt32(); break; case VMLX_TOKEN( SelType ): mrClientData.mnSelType = AttributeConversion::decodeToken( maElementText ); break; case VMLX_TOKEN( VTEdit ): mrClientData.mnVTEdit = maElementText.toInt32(); break; case VMLX_TOKEN( PrintObject ): mrClientData.mbPrintObject = lclDecodeVmlxBool( maElementText, true ); break; case VMLX_TOKEN( Visible ): mrClientData.mbVisible = lclDecodeVmlxBool( maElementText, true ); break; case VMLX_TOKEN( DDE ): mrClientData.mbDde = lclDecodeVmlxBool( maElementText, true ); break; case VMLX_TOKEN( NoThreeD ): mrClientData.mbNo3D = lclDecodeVmlxBool( maElementText, true ); break; case VMLX_TOKEN( NoThreeD2 ): mrClientData.mbNo3D2 = lclDecodeVmlxBool( maElementText, true ); break; case VMLX_TOKEN( MultiLine ): mrClientData.mbMultiLine = lclDecodeVmlxBool( maElementText, true ); break; case VMLX_TOKEN( VScroll ): mrClientData.mbVScroll = lclDecodeVmlxBool( maElementText, true ); break; case VMLX_TOKEN( SecretEdit ): mrClientData.mbSecretEdit = lclDecodeVmlxBool( maElementText, true ); break; } } ShapeContextBase::ShapeContextBase( ContextHandler2Helper const & rParent ) : ContextHandler2( rParent ) { } ContextHandlerRef ShapeContextBase::createShapeContext( ContextHandler2Helper const & rParent, ShapeContainer& rShapes, sal_Int32 nElement, const AttributeList& rAttribs ) { switch( nElement ) { case O_TOKEN( shapelayout ): return new ShapeLayoutContext( rParent, rShapes.getDrawing() ); case VML_TOKEN( shapetype ): return new ShapeTypeContext( rParent, rShapes.createShapeType(), rAttribs ); case VML_TOKEN( group ): return new GroupShapeContext( rParent, rShapes.createShape< GroupShape >(), rAttribs ); case VML_TOKEN( shape ): if (rAttribs.hasAttribute(XML_path) && // tdf#122563 skip in the case of empty path !rAttribs.getStringDefaulted(XML_path).isEmpty()) return new ShapeContext( rParent, rShapes.createShape< BezierShape >(), rAttribs ); else return new ShapeContext( rParent, rShapes.createShape< ComplexShape >(), rAttribs ); case VML_TOKEN(background): case VML_TOKEN( rect ): return new RectangleShapeContext( rParent, rAttribs, rShapes.createShape< RectangleShape >() ); case VML_TOKEN( roundrect ): return new ShapeContext( rParent, rShapes.createShape< RectangleShape >(), rAttribs ); case VML_TOKEN( oval ): return new ShapeContext( rParent, rShapes.createShape< EllipseShape >(), rAttribs ); case VML_TOKEN( polyline ): return new ShapeContext( rParent, rShapes.createShape< PolyLineShape >(), rAttribs ); case VML_TOKEN( line ): return new ShapeContext( rParent, rShapes.createShape< LineShape >(), rAttribs ); case VML_TOKEN( curve ): return new ShapeContext( rParent, rShapes.createShape< BezierShape >(), rAttribs ); // TODO: case VML_TOKEN( arc ): case VML_TOKEN( diagram ): case VML_TOKEN( image ): return new ShapeContext( rParent, rShapes.createShape< ComplexShape >(), rAttribs ); case W_TOKEN(control): return new ControlShapeContext( rParent, rShapes, rAttribs ); } return nullptr; } ShapeTypeContext::ShapeTypeContext(ContextHandler2Helper const & rParent, std::shared_ptr const& pShapeType, const AttributeList& rAttribs) : ShapeContextBase(rParent) , m_pShapeType(pShapeType) // tdf#112311 keep it alive , mrTypeModel( pShapeType->getTypeModel() ) { // shape identifier and shape name bool bHasOspid = rAttribs.hasAttribute( O_TOKEN( spid ) ); mrTypeModel.maShapeId = rAttribs.getXString( bHasOspid ? O_TOKEN( spid ) : XML_id, OUString() ); mrTypeModel.maLegacyId = rAttribs.getStringDefaulted( XML_id); OSL_ENSURE( !mrTypeModel.maShapeId.isEmpty(), "ShapeTypeContext::ShapeTypeContext - missing shape identifier" ); // builtin shape type identifier mrTypeModel.moShapeType = rAttribs.getInteger( O_TOKEN( spt ) ); // if the o:spid attribute exists, the id attribute contains the user-defined shape name if( bHasOspid ) { mrTypeModel.maShapeName = rAttribs.getXString( XML_id, OUString() ); // get ShapeType and ShapeId from name for compatibility static constexpr OUString sShapeTypePrefix = u"shapetype_"_ustr; OUString tmp; if( mrTypeModel.maShapeName.startsWith( sShapeTypePrefix ) ) { mrTypeModel.maShapeId = mrTypeModel.maShapeName; mrTypeModel.moShapeType = o3tl::toInt32(mrTypeModel.maShapeName.subView(sShapeTypePrefix.getLength())); } else if (mrTypeModel.maShapeName.startsWith("_x0000_t", &tmp)) { mrTypeModel.maShapeId = mrTypeModel.maShapeName; mrTypeModel.moShapeType = tmp.toInt32(); } } // coordinate system position/size, CSS style mrTypeModel.moCoordPos = lclDecodeInt32Pair( rAttribs, XML_coordorigin ); mrTypeModel.moCoordSize = lclDecodeInt32Pair( rAttribs, XML_coordsize ); setStyle( rAttribs.getStringDefaulted( XML_style) ); if( lclDecodeBool( rAttribs, O_TOKEN( hr )).value_or( false )) { // MSO's handling of o:hr width is nowhere near what the spec says: // - o:hrpct is not in % but in 0.1% // - if o:hrpct is not given, 100% width is assumed // - given width is used only if explicit o:hrpct="0" is given OUString hrpct = rAttribs.getString( O_TOKEN( hrpct ), u"1000"_ustr ); if( hrpct != "0" ) mrTypeModel.maWidthPercent = OUString::number( hrpct.toInt32() ); mrTypeModel.maWrapDistanceLeft = "0"; mrTypeModel.maWrapDistanceRight = "0"; mrTypeModel.maPositionHorizontal = rAttribs.getString( O_TOKEN( hralign ), u"left"_ustr ); mrTypeModel.moWrapType = "topAndBottom"; } // stroke settings (may be overridden by v:stroke element later) mrTypeModel.maStrokeModel.moStroked = lclDecodeBool( rAttribs, XML_stroked ); mrTypeModel.maStrokeModel.moColor = rAttribs.getString( XML_strokecolor ); mrTypeModel.maStrokeModel.moWeight = rAttribs.getString( XML_strokeweight ); // fill settings (may be overridden by v:fill element later) mrTypeModel.maFillModel.moFilled = lclDecodeBool( rAttribs, XML_filled ); mrTypeModel.maFillModel.moColor = rAttribs.getString( XML_fillcolor ); // For roundrect we may have an arcsize attribute to read mrTypeModel.maArcsize = rAttribs.getStringDefaulted(XML_arcsize); // editas mrTypeModel.maEditAs = rAttribs.getStringDefaulted(XML_editas); mrTypeModel.maAdjustments = rAttribs.getStringDefaulted(XML_adj); } ContextHandlerRef ShapeTypeContext::onCreateContext( sal_Int32 nElement, const AttributeList& rAttribs ) { if( isRootElement() ) switch( nElement ) { case VML_TOKEN( stroke ): assignIfUsed( mrTypeModel.maStrokeModel.moStroked, lclDecodeBool( rAttribs, XML_on ) ); mrTypeModel.maStrokeModel.maStartArrow.moArrowType = rAttribs.getToken( XML_startarrow ); mrTypeModel.maStrokeModel.maStartArrow.moArrowWidth = rAttribs.getToken( XML_startarrowwidth ); mrTypeModel.maStrokeModel.maStartArrow.moArrowLength = rAttribs.getToken( XML_startarrowlength ); mrTypeModel.maStrokeModel.maEndArrow.moArrowType = rAttribs.getToken( XML_endarrow ); mrTypeModel.maStrokeModel.maEndArrow.moArrowWidth = rAttribs.getToken( XML_endarrowwidth ); mrTypeModel.maStrokeModel.maEndArrow.moArrowLength = rAttribs.getToken( XML_endarrowlength ); assignIfUsed( mrTypeModel.maStrokeModel.moColor, rAttribs.getString( XML_color ) ); mrTypeModel.maStrokeModel.moOpacity = lclDecodeOpacity( rAttribs, XML_opacity, 1.0 ); assignIfUsed( mrTypeModel.maStrokeModel.moWeight, rAttribs.getString( XML_weight ) ); mrTypeModel.maStrokeModel.moDashStyle = rAttribs.getString( XML_dashstyle ); mrTypeModel.maStrokeModel.moLineStyle = rAttribs.getToken( XML_linestyle ); mrTypeModel.maStrokeModel.moEndCap = rAttribs.getToken( XML_endcap ); mrTypeModel.maStrokeModel.moJoinStyle = rAttribs.getToken( XML_joinstyle ); break; case VML_TOKEN( fill ): { // in DOCX shapes use r:id for the relationship id // in XLSX they use o:relid bool bHasORelId = rAttribs.hasAttribute( O_TOKEN(relid) ); assignIfUsed( mrTypeModel.maFillModel.moFilled, lclDecodeBool( rAttribs, XML_on ) ); assignIfUsed( mrTypeModel.maFillModel.moColor, rAttribs.getString( XML_color ) ); mrTypeModel.maFillModel.moOpacity = lclDecodeOpacity( rAttribs, XML_opacity, 1.0 ); mrTypeModel.maFillModel.moColor2 = rAttribs.getString( XML_color2 ); mrTypeModel.maFillModel.moOpacity2 = lclDecodeOpacity( rAttribs, XML_opacity2, 1.0 ); mrTypeModel.maFillModel.moType = rAttribs.getToken( XML_type ); mrTypeModel.maFillModel.moAngle = rAttribs.getInteger( XML_angle ); mrTypeModel.maFillModel.moFocus = lclDecodePercent( rAttribs, XML_focus, 0.0 ); mrTypeModel.maFillModel.moFocusPos = lclDecodePercentPair( rAttribs, XML_focusposition ); mrTypeModel.maFillModel.moFocusSize = lclDecodePercentPair( rAttribs, XML_focussize ); mrTypeModel.maFillModel.moBitmapPath = decodeFragmentPath( rAttribs, bHasORelId ? O_TOKEN(relid) : R_TOKEN(id) ); mrTypeModel.maFillModel.moRotate = lclDecodeBool( rAttribs, XML_rotate ); break; } case VML_TOKEN( imagedata ): { // shapes in docx use r:id for the relationship id // in xlsx it they use o:relid bool bHasORelId = rAttribs.hasAttribute( O_TOKEN( relid ) ); mrTypeModel.moGraphicPath = decodeFragmentPath( rAttribs, bHasORelId ? O_TOKEN( relid ) : R_TOKEN( id ) ); mrTypeModel.moGraphicTitle = rAttribs.getString( O_TOKEN( title ) ); // Get crop attributes. mrTypeModel.moCropBottom = rAttribs.getString(XML_cropbottom); mrTypeModel.moCropLeft = rAttribs.getString(XML_cropleft); mrTypeModel.moCropRight = rAttribs.getString(XML_cropright); mrTypeModel.moCropTop = rAttribs.getString(XML_croptop); // Gain / contrast. std::optional oGain = rAttribs.getString(XML_gain); sal_Int32 nGain = 0x10000; if (oGain.has_value() && oGain.value().endsWith("f")) { nGain = oGain.value().toInt32(); } if (nGain < 0x10000) { nGain *= 101; // 100 + 1 to round nGain /= 0x10000; nGain -= 100; } mrTypeModel.mnGain = nGain; // Blacklevel / brightness. std::optional oBlacklevel = rAttribs.getString(XML_blacklevel); sal_Int16 nBlacklevel = 0; if (oBlacklevel.has_value() && oBlacklevel.value().endsWith("f")) { nBlacklevel = oBlacklevel.value().toInt32(); } if (nBlacklevel != 0) { nBlacklevel /= 327; } mrTypeModel.mnBlacklevel = nBlacklevel; } break; case NMSP_vmlWord | XML_wrap: mrTypeModel.moWrapAnchorX = rAttribs.getString(XML_anchorx); mrTypeModel.moWrapAnchorY = rAttribs.getString(XML_anchory); mrTypeModel.moWrapType = rAttribs.getString(XML_type); mrTypeModel.moWrapSide = rAttribs.getString(XML_side); break; case VML_TOKEN( shadow ): { mrTypeModel.maShadowModel.mbHasShadow = true; mrTypeModel.maShadowModel.moShadowOn = lclDecodeBool(rAttribs, XML_on).value_or(false); assignIfUsed(mrTypeModel.maShadowModel.moColor, rAttribs.getString(XML_color)); assignIfUsed(mrTypeModel.maShadowModel.moOffset, rAttribs.getString(XML_offset)); mrTypeModel.maShadowModel.moOpacity = lclDecodePercent(rAttribs, XML_opacity, 1.0); } break; case VML_TOKEN( textpath ): assignIfUsed(mrTypeModel.maTextpathModel.moString, rAttribs.getString(XML_string)); assignIfUsed(mrTypeModel.maTextpathModel.moStyle, rAttribs.getString(XML_style)); assignIfUsed(mrTypeModel.maTextpathModel.moTrim, lclDecodeBool(rAttribs, XML_trim)); break; } return nullptr; } std::optional< OUString > ShapeTypeContext::decodeFragmentPath( const AttributeList& rAttribs, sal_Int32 nToken ) const { std::optional< OUString > oFragmentPath; std::optional< OUString > oRelId = rAttribs.getString( nToken ); if( oRelId.has_value() ) oFragmentPath = getFragmentPathFromRelId( oRelId.value() ); return oFragmentPath; } void ShapeTypeContext::setStyle( std::u16string_view rStyle ) { sal_Int32 nIndex = 0; while( nIndex >= 0 ) { std::u16string_view aName, aValue; if( ConversionHelper::separatePair( aName, aValue, o3tl::getToken(rStyle, 0, ';', nIndex ), ':' ) ) { if( aName == u"position" ) mrTypeModel.maPosition = aValue; else if( aName == u"z-index" ) mrTypeModel.maZIndex = aValue; else if( aName == u"left" ) mrTypeModel.maLeft = aValue; else if( aName == u"top" ) mrTypeModel.maTop = aValue; else if( aName == u"width" ) mrTypeModel.maWidth = aValue; else if( aName == u"height" ) mrTypeModel.maHeight = aValue; else if( aName == u"margin-left" ) mrTypeModel.maMarginLeft = aValue; else if( aName == u"margin-top" ) mrTypeModel.maMarginTop = aValue; else if( aName == u"mso-position-vertical-relative" ) mrTypeModel.maPositionVerticalRelative = aValue; else if( aName == u"mso-position-horizontal-relative" ) mrTypeModel.maPositionHorizontalRelative = aValue; else if( aName == u"mso-position-horizontal" ) mrTypeModel.maPositionHorizontal = aValue; else if( aName == u"mso-position-vertical" ) mrTypeModel.maPositionVertical = aValue; else if( aName == u"mso-width-percent" ) mrTypeModel.maWidthPercent = aValue; else if( aName == u"mso-width-relative" ) mrTypeModel.maWidthRelative = aValue; else if( aName == u"mso-height-percent" ) mrTypeModel.maHeightPercent = aValue; else if( aName == u"mso-height-relative" ) mrTypeModel.maHeightRelative = aValue; else if( aName == u"mso-fit-shape-to-text" ) mrTypeModel.mbAutoHeight = true; else if( aName == u"rotation" ) mrTypeModel.maRotation = aValue; else if( aName == u"flip" ) mrTypeModel.maFlip = aValue; else if( aName == u"visibility" ) mrTypeModel.mbVisible = aValue != u"hidden"; else if( aName == u"mso-wrap-style" ) mrTypeModel.maWrapStyle = aValue; else if ( aName == u"v-text-anchor" ) mrTypeModel.maVTextAnchor = aValue; else if ( aName == u"mso-wrap-distance-left" ) mrTypeModel.maWrapDistanceLeft = aValue; else if ( aName == u"mso-wrap-distance-right" ) mrTypeModel.maWrapDistanceRight = aValue; else if ( aName == u"mso-wrap-distance-top" ) mrTypeModel.maWrapDistanceTop = aValue; else if ( aName == u"mso-wrap-distance-bottom" ) mrTypeModel.maWrapDistanceBottom = aValue; } } } ShapeContext::ShapeContext(ContextHandler2Helper const& rParent, const std::shared_ptr& pShape, const AttributeList& rAttribs) : ShapeTypeContext(rParent, pShape, rAttribs) , mrShape(*pShape) , mrShapeModel(pShape->getShapeModel()) { // collect shape specific attributes mrShapeModel.maType = rAttribs.getXString( XML_type, OUString() ); // polyline path setPoints( rAttribs.getStringDefaulted( XML_points) ); // line start and end positions setFrom(rAttribs.getStringDefaulted(XML_from)); setTo(rAttribs.getStringDefaulted(XML_to)); setControl1(rAttribs.getStringDefaulted(XML_control1)); setControl2(rAttribs.getStringDefaulted(XML_control2)); setVmlPath(rAttribs.getStringDefaulted(XML_path)); setHyperlink(rAttribs.getStringDefaulted(XML_href)); } ContextHandlerRef ShapeContext::onCreateContext( sal_Int32 nElement, const AttributeList& rAttribs ) { // Excel specific shape client data if( isRootElement() ) switch( nElement ) { case VML_TOKEN( textbox ): { // Calculate the shape type: map both and with a textbox shape type to // a TextShape. sal_Int32 nShapeType = 0; if (ShapeContainer* pShapeContainer = mrShape.getContainer()) { OUString aType = mrShapeModel.maType; if (!aType.isEmpty() && aType[0] == '#') { aType = aType.copy(1); } if (const ShapeType* pShapeType = pShapeContainer->getShapeTypeById(aType)) { nShapeType = pShapeType->getTypeModel().moShapeType.value(); } } mrShapeModel.mbInGroup = (getParentElement() == VML_TOKEN(group)); // FIXME: the shape with textbox should be used for the next cases if (getCurrentElement() == VML_TOKEN(rect) || nShapeType == ESCHER_ShpInst_TextBox) { if (mrShapeModel.mbInGroup) // FIXME: without this a text will be added into the group-shape instead of its // parent shape dynamic_cast(mrShape).setService(u"com.sun.star.drawing.TextShape"_ustr); else // FIXME: without this we does not handle some properties like shadow dynamic_cast(mrShape).setService(u"com.sun.star.text.TextFrame"_ustr); } return new TextBoxContext( *this, mrShapeModel.createTextBox(mrShape.getTypeModel()), rAttribs, mrShape.getDrawing().getFilter().getGraphicHelper()); } case VMLX_TOKEN( ClientData ): // tdf#41466 ActiveX control shapes with a textbox are transformed into a frame // (see unit test testActiveXOptionButtonGroup) dynamic_cast(mrShape).setService(u"com.sun.star.text.TextFrame"_ustr); return new ClientDataContext( *this, mrShapeModel.createClientData(), rAttribs ); case VMLPPT_TOKEN( textdata ): // Force RectangleShape, this is ugly :( // and is there because of the lines above which change it to TextFrame dynamic_cast< SimpleShape& >( mrShape ).setService( u"com.sun.star.drawing.RectangleShape"_ustr); mrShapeModel.maLegacyDiagramPath = getFragmentPathFromRelId(rAttribs.getStringDefaulted(XML_id)); break; case O_TOKEN( signatureline ): mrShapeModel.mbIsSignatureLine = true; mrShapeModel.maSignatureId = rAttribs.getStringDefaulted(XML_id); mrShapeModel.maSignatureLineSuggestedSignerName = rAttribs.getStringDefaulted(O_TOKEN(suggestedsigner)); mrShapeModel.maSignatureLineSuggestedSignerTitle = rAttribs.getStringDefaulted(O_TOKEN(suggestedsigner2)); mrShapeModel.maSignatureLineSuggestedSignerEmail = rAttribs.getStringDefaulted(O_TOKEN(suggestedsigneremail)); mrShapeModel.maSignatureLineSigningInstructions = rAttribs.getStringDefaulted(O_TOKEN(signinginstructions)); mrShapeModel.mbSignatureLineShowSignDate = ConversionHelper::decodeBool( rAttribs.getString(XML_showsigndate, u"t"_ustr)); // default is true mrShapeModel.mbSignatureLineCanAddComment = ConversionHelper::decodeBool( rAttribs.getString(XML_allowcomments, u"f"_ustr)); // default is false break; case O_TOKEN( lock ): // TODO break; } // handle remaining stuff in base class return ShapeTypeContext::onCreateContext( nElement, rAttribs ); } void ShapeContext::setPoints(std::u16string_view rPoints) { mrShapeModel.maPoints.clear(); sal_Int32 nIndex = 0; while (nIndex >= 0) { sal_Int32 nX = ConversionHelper::decodeMeasureToTwip( mrShape.getDrawing().getFilter().getGraphicHelper(), o3tl::getToken(rPoints, 0, ',', nIndex), 0, true, true); sal_Int32 nY = ConversionHelper::decodeMeasureToTwip( mrShape.getDrawing().getFilter().getGraphicHelper(), o3tl::getToken(rPoints, 0, ',', nIndex), 0, false, true); mrShapeModel.maPoints.emplace_back(nX, nY); } // VML polyline has no size in its style attribute. Word writes the size to attribute // coordsize with values in twip but without unit. For others we get size from points. if (!mrShape.getTypeModel().maWidth.isEmpty() || !mrShape.getTypeModel().maHeight.isEmpty()) return; if (mrShape.getTypeModel().moCoordSize.has_value()) { double fWidth = mrShape.getTypeModel().moCoordSize.value().first; fWidth = o3tl::convert(fWidth, o3tl::Length::twip, o3tl::Length::pt); double fHeight = mrShape.getTypeModel().moCoordSize.value().second; fHeight = o3tl::convert(fHeight, o3tl::Length::twip, o3tl::Length::pt); mrShape.getTypeModel().maWidth = OUString::number(fWidth) + "pt"; mrShape.getTypeModel().maHeight = OUString::number(fHeight) + "pt"; } else if (mrShapeModel.maPoints.size()) { double fMinX = mrShapeModel.maPoints[0].X; double fMaxX = mrShapeModel.maPoints[0].X; double fMinY = mrShapeModel.maPoints[0].Y; double fMaxY = mrShapeModel.maPoints[0].Y; for (const auto& rPoint : mrShapeModel.maPoints) { if (rPoint.X < fMinX) fMinX = rPoint.X; else if (rPoint.X > fMaxX) fMaxX = rPoint.X; if (rPoint.Y < fMinY) fMinY = rPoint.Y; else if (rPoint.Y > fMaxY) fMaxY = rPoint.Y; } mrShape.getTypeModel().maWidth = OUString::number( o3tl::convert(fMaxX - fMinX, o3tl::Length::twip, o3tl::Length::pt)) + "pt"; mrShape.getTypeModel().maHeight = OUString::number( o3tl::convert(fMaxY - fMinY, o3tl::Length::twip, o3tl::Length::pt)) + "pt"; // Set moCoordSize, otherwise default (1000,1000) is used. mrShape.getTypeModel().moCoordSize = Int32Pair(basegfx::fround(fMaxX - fMinX), basegfx::fround(fMaxY - fMinY)); } } void ShapeContext::setFrom( const OUString& rPoints ) { if (!rPoints.isEmpty()) mrShapeModel.maFrom = rPoints; } void ShapeContext::setTo( const OUString& rPoints ) { if (!rPoints.isEmpty()) mrShapeModel.maTo = rPoints; } void ShapeContext::setControl1( const OUString& rPoints ) { if (!rPoints.isEmpty()) mrShapeModel.maControl1 = rPoints; } void ShapeContext::setControl2( const OUString& rPoints ) { if (!rPoints.isEmpty()) mrShapeModel.maControl2 = rPoints; } void ShapeContext::setVmlPath( const OUString& rPath ) { if (!rPath.isEmpty()) mrShapeModel.maVmlPath = rPath; } void ShapeContext::setHyperlink( const OUString& rHyperlink ) { if (!rHyperlink.isEmpty()) mrShapeModel.maHyperlink = rHyperlink; } GroupShapeContext::GroupShapeContext(ContextHandler2Helper const& rParent, const std::shared_ptr& pShape, const AttributeList& rAttribs) : ShapeContext(rParent, pShape, rAttribs) , mrShapes(pShape->getChildren()) { } ContextHandlerRef GroupShapeContext::onCreateContext( sal_Int32 nElement, const AttributeList& rAttribs ) { // try to create a context of an embedded shape ContextHandlerRef xContext = createShapeContext( *this, mrShapes, nElement, rAttribs ); // handle remaining stuff of this shape in base class return xContext ? xContext : ShapeContext::onCreateContext( nElement, rAttribs ); } RectangleShapeContext::RectangleShapeContext(ContextHandler2Helper const& rParent, const AttributeList& rAttribs, const std::shared_ptr& pShape) : ShapeContext(rParent, pShape, rAttribs) { } ContextHandlerRef RectangleShapeContext::onCreateContext( sal_Int32 nElement, const AttributeList& rAttribs ) { // The parent class's context is fine return ShapeContext::onCreateContext( nElement, rAttribs ); } ControlShapeContext::ControlShapeContext( ::oox::core::ContextHandler2Helper const & rParent, ShapeContainer& rShapes, const AttributeList& rAttribs ) : ShapeContextBase (rParent) { ::oox::vml::ControlInfo aInfo; aInfo.maShapeId = rAttribs.getXString( W_TOKEN( shapeid ), OUString() ); aInfo.maFragmentPath = getFragmentPathFromRelId(rAttribs.getStringDefaulted( R_TOKEN(id))); aInfo.maName = rAttribs.getStringDefaulted( W_TOKEN( name )); aInfo.mbTextContentShape = true; rShapes.getDrawing().registerControl(aInfo); } } // namespace oox /* vim:set shiftwidth=4 softtabstop=4 expandtab: */