/* -*- 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 using namespace ::oox::core; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::drawing; using namespace ::com::sun::star::xml::sax; namespace oox::drawingml { namespace { enum FormulaCommand { FC_MULDIV = 0, FC_PLUSMINUS, FC_PLUSDIV, FC_IFELSE, FC_IFELSE1, FC_ABS, FC_AT2, FC_CAT2, FC_COS, FC_MAX, FC_MIN, FC_MOD, FC_PIN, FC_SAT2, FC_SIN, FC_SQRT, FC_TAN, FC_VAL }; struct FormulaCommandNameTable { const char* pS; FormulaCommand pE; }; } const FormulaCommandNameTable pFormulaCommandNameTable[] = { { "*/", FC_MULDIV }, { "+-", FC_PLUSMINUS }, { "+/", FC_PLUSDIV }, { "ifelse", FC_IFELSE }, { "?:", FC_IFELSE1 }, { "abs", FC_ABS }, { "at2", FC_AT2 }, { "cat2", FC_CAT2 }, { "cos", FC_COS }, { "max", FC_MAX }, { "min", FC_MIN }, { "mod", FC_MOD }, { "pin", FC_PIN }, { "sat2", FC_SAT2 }, { "sin", FC_SIN }, { "sqrt", FC_SQRT }, { "tan", FC_TAN }, { "val", FC_VAL } }; typedef std::unordered_map< OUString, FormulaCommand > FormulaCommandHMap; static const FormulaCommandHMap* pCommandHashMap; static OUString GetFormulaParameter( const EnhancedCustomShapeParameter& rParameter ) { OUString aRet; switch( rParameter.Type ) { case EnhancedCustomShapeParameterType::NORMAL : { if ( rParameter.Value.getValueTypeClass() == TypeClass_DOUBLE ) { double fValue = 0.0; if ( rParameter.Value >>= fValue ) aRet = OUString::number( fValue ); } else { sal_Int32 nValue = 0; if ( rParameter.Value >>= nValue ) aRet = OUString::number( nValue ); } } break; case EnhancedCustomShapeParameterType::EQUATION : { if ( rParameter.Value.getValueTypeClass() == TypeClass_LONG ) { sal_Int32 nFormulaIndex; if ( rParameter.Value >>= nFormulaIndex ) { aRet = "?" + OUString::number( nFormulaIndex ) + " "; } } else { // ups... we should have an index here and not the formula name } } break; case EnhancedCustomShapeParameterType::ADJUSTMENT : { if ( rParameter.Value.getValueTypeClass() == TypeClass_LONG ) { sal_Int32 nAdjustmentIndex; if ( rParameter.Value >>= nAdjustmentIndex ) { aRet = "$" + OUString::number( nAdjustmentIndex ) + " "; } } else { // ups... we should have an index here and not the formula name } } break; case EnhancedCustomShapeParameterType::LEFT : aRet = "left"; break; case EnhancedCustomShapeParameterType::TOP : aRet = "top"; break; case EnhancedCustomShapeParameterType::RIGHT : aRet = "right"; break; case EnhancedCustomShapeParameterType::BOTTOM : aRet = "bottom"; break; case EnhancedCustomShapeParameterType::XSTRETCH : aRet = "xstretch"; break; case EnhancedCustomShapeParameterType::YSTRETCH : aRet = "ystretch"; break; case EnhancedCustomShapeParameterType::HASSTROKE : aRet = "hasstroke"; break; case EnhancedCustomShapeParameterType::HASFILL : aRet = "hasfill"; break; case EnhancedCustomShapeParameterType::WIDTH : aRet = "width"; break; case EnhancedCustomShapeParameterType::HEIGHT : aRet = "height"; break; case EnhancedCustomShapeParameterType::LOGWIDTH : aRet = "logwidth"; break; case EnhancedCustomShapeParameterType::LOGHEIGHT : aRet = "logheight"; break; } return aRet; } static EnhancedCustomShapeParameter GetAdjCoordinate( CustomShapeProperties& rCustomShapeProperties, const OUString& rValue, bool bNoSymbols = true ) { css::drawing::EnhancedCustomShapeParameter aRet; if ( !rValue.isEmpty() ) { bool bConstant = true; sal_Int32 nConstant = -1; sal_Int32 nIntVal = 0; // first check if it's a constant value switch( AttributeConversion::decodeToken( rValue ) ) { case XML_3cd4 : nConstant = 270 * 60000; break; case XML_3cd8 : nConstant = 135 * 60000; break; case XML_5cd8 : nConstant = 225 * 60000; break; case XML_7cd8 : nConstant = 315 * 60000; break; case XML_cd2 : nConstant = 180 * 60000; break; case XML_cd3 : nConstant = 120 * 60000; break; case XML_cd4 : nConstant = 90 * 60000; break; case XML_cd8 : nConstant = 45 * 60000; break; case XML_b : // variable height of the shape defined in spPr case XML_h : { if ( bNoSymbols ) { CustomShapeGuide aGuide; aGuide.maName = rValue; aGuide.maFormula = "logheight" ; aRet.Value <<= CustomShapeProperties::SetCustomShapeGuideValue( rCustomShapeProperties.getGuideList(), aGuide ); aRet.Type = EnhancedCustomShapeParameterType::EQUATION; } else aRet.Type = EnhancedCustomShapeParameterType::LOGHEIGHT; // TODO: HEIGHT needs to be implemented } break; case XML_hd10 : nIntVal += 2; // */ h 1.0 10.0 [[fallthrough]]; case XML_hd8 : // */ h 1.0 8.0 nIntVal += 2; [[fallthrough]]; case XML_hd6 : // */ h 1.0 6.0 nIntVal++; [[fallthrough]]; case XML_hd5 : // */ h 1.0 5.0 nIntVal++; [[fallthrough]]; case XML_hd4 : // */ h 1.0 4.0 nIntVal++; [[fallthrough]]; case XML_hd3 : // */ h 1.0 3.0 nIntVal++; [[fallthrough]]; case XML_hd2 : // */ h 1.0 2.0 case XML_vc : // */ h 1.0 2.0 { nIntVal += 2; CustomShapeGuide aGuide; aGuide.maName = rValue; aGuide.maFormula = "logheight/" + OUString::number( nIntVal ); aRet.Value <<= CustomShapeProperties::SetCustomShapeGuideValue( rCustomShapeProperties.getGuideList(), aGuide ); aRet.Type = EnhancedCustomShapeParameterType::EQUATION; } break; case XML_t : case XML_l : { nConstant = 0; aRet.Type = EnhancedCustomShapeParameterType::NORMAL; } break; case XML_ls : // longest side: max w h { CustomShapeGuide aGuide; aGuide.maName = rValue; aGuide.maFormula = "max(logwidth,logheight)"; aRet.Value <<= CustomShapeProperties::SetCustomShapeGuideValue( rCustomShapeProperties.getGuideList(), aGuide ); aRet.Type = EnhancedCustomShapeParameterType::EQUATION; } break; case XML_ss : // shortest side: min w h { CustomShapeGuide aGuide; aGuide.maName = rValue; aGuide.maFormula = "min(logwidth,logheight)"; aRet.Value <<= CustomShapeProperties::SetCustomShapeGuideValue( rCustomShapeProperties.getGuideList(), aGuide ); aRet.Type = EnhancedCustomShapeParameterType::EQUATION; } break; case XML_ssd32 : // */ ss 1.0 32.0 nIntVal += 16; [[fallthrough]]; case XML_ssd16 : // */ ss 1.0 16.0 nIntVal += 8; [[fallthrough]]; case XML_ssd8 : // */ ss 1.0 8.0 nIntVal += 2; [[fallthrough]]; case XML_ssd6 : // */ ss 1.0 6.0 nIntVal += 2; [[fallthrough]]; case XML_ssd4 : // */ ss 1.0 4.0 nIntVal += 2; [[fallthrough]]; case XML_ssd2 : // */ ss 1.0 2.0 { nIntVal += 2; CustomShapeGuide aGuide; aGuide.maName = rValue; aGuide.maFormula = "min(logwidth,logheight)/" + OUString::number( nIntVal ); aRet.Value <<= CustomShapeProperties::SetCustomShapeGuideValue( rCustomShapeProperties.getGuideList(), aGuide ); aRet.Type = EnhancedCustomShapeParameterType::EQUATION; } break; case XML_r : // variable width of the shape defined in spPr case XML_w : { if ( bNoSymbols ) { CustomShapeGuide aGuide; aGuide.maName = rValue; aGuide.maFormula = "logwidth" ; aRet.Value <<= CustomShapeProperties::SetCustomShapeGuideValue( rCustomShapeProperties.getGuideList(), aGuide ); aRet.Type = EnhancedCustomShapeParameterType::EQUATION; } else aRet.Type = EnhancedCustomShapeParameterType::LOGWIDTH; } break; case XML_wd32 : // */ w 1.0 32.0 nIntVal += 20; [[fallthrough]]; case XML_wd12 : // */ w 1.0 12.0 nIntVal += 2; [[fallthrough]]; case XML_wd10 : // */ w 1.0 10.0 nIntVal += 2; [[fallthrough]]; case XML_wd8 : // */ w 1.0 8.0 nIntVal += 2; [[fallthrough]]; case XML_wd6 : // */ w 1.0 6.0 nIntVal++; [[fallthrough]]; case XML_wd5 : // */ w 1.0 5.0 nIntVal++; [[fallthrough]]; case XML_wd4 : // */ w 1.0 4.0 nIntVal++; [[fallthrough]]; case XML_wd3 : // */ w 1.0 3.0 nIntVal++; [[fallthrough]]; case XML_hc : // */ w 1.0 2.0 case XML_wd2 : // */ w 1.0 2.0 { nIntVal += 2; CustomShapeGuide aGuide; aGuide.maName = rValue; aGuide.maFormula = "logwidth/" + OUString::number( nIntVal ); aRet.Value <<= CustomShapeProperties::SetCustomShapeGuideValue( rCustomShapeProperties.getGuideList(), aGuide ); aRet.Type = EnhancedCustomShapeParameterType::EQUATION; } break; default: bConstant = false; break; } if ( bConstant ) { if (nConstant != -1) { aRet.Value <<= nConstant; aRet.Type = EnhancedCustomShapeParameterType::NORMAL; } } else { sal_Unicode n = rValue[ 0 ]; if ( ( n == '+' ) || ( n == '-' ) ) { if ( rValue.getLength() > 1 ) n = rValue[ 1 ]; } if ( ( n >= '0' ) && ( n <= '9' ) ) { // seems to be a ST_Coordinate aRet.Value <<= rValue.toInt32(); aRet.Type = EnhancedCustomShapeParameterType::NORMAL; } else { sal_Int32 nGuideIndex = CustomShapeProperties::GetCustomShapeGuideValue( rCustomShapeProperties.getAdjustmentGuideList(), rValue ); if ( nGuideIndex >= 0 ) { aRet.Value <<= nGuideIndex; aRet.Type = EnhancedCustomShapeParameterType::ADJUSTMENT; } else { nGuideIndex = CustomShapeProperties::GetCustomShapeGuideValue( rCustomShapeProperties.getGuideList(), rValue ); if ( nGuideIndex >= 0 ) { aRet.Value <<= nGuideIndex; aRet.Type = EnhancedCustomShapeParameterType::EQUATION; } else { SAL_WARN("oox", "error: unhandled value " << rValue); aRet.Value <<= rValue; } } } } } return aRet; } namespace { // CT_GeomGuideList class GeomGuideListContext : public ContextHandler2 { public: GeomGuideListContext( ContextHandler2Helper const & rParent, CustomShapeProperties& rCustomShapeProperties, std::vector< CustomShapeGuide >& rGuideList ); virtual ::oox::core::ContextHandlerRef onCreateContext( sal_Int32 aElementToken, const ::oox::AttributeList& rAttribs ) override; protected: std::vector< CustomShapeGuide >& mrGuideList; CustomShapeProperties& mrCustomShapeProperties; }; } GeomGuideListContext::GeomGuideListContext( ContextHandler2Helper const & rParent, CustomShapeProperties& rCustomShapeProperties, std::vector< CustomShapeGuide >& rGuideList ) : ContextHandler2( rParent ) , mrGuideList( rGuideList ) , mrCustomShapeProperties( rCustomShapeProperties ) { } static OUString convertToOOEquation( CustomShapeProperties& rCustomShapeProperties, std::u16string_view rSource ) { if ( !pCommandHashMap ) { FormulaCommandHMap* pHM = new FormulaCommandHMap; for(const FormulaCommandNameTable& i : pFormulaCommandNameTable) (*pHM)[ OUString::createFromAscii( i.pS ) ] = i.pE; pCommandHashMap = pHM; } std::vector< OUString > aTokens; sal_Int32 nIndex = 0; do { OUString aToken( o3tl::getToken(rSource, 0, ' ', nIndex ) ); if ( !aToken.isEmpty() ) aTokens.push_back( aToken ); } while ( nIndex >= 0 ); OUString aEquation; if ( !aTokens.empty() ) { sal_Int32 i, nParameters = aTokens.size() - 1; if ( nParameters > 3 ) nParameters = 3; OUString sParameters[ 3 ]; for ( i = 0; i < nParameters; i++ ) sParameters[ i ] = GetFormulaParameter( GetAdjCoordinate( rCustomShapeProperties, aTokens[ i + 1 ], false ) ); const FormulaCommandHMap::const_iterator aIter( pCommandHashMap->find( aTokens[ 0 ] ) ); if ( aIter != pCommandHashMap->end() ) { switch( aIter->second ) { case FC_MULDIV : { if ( nParameters == 3 ) aEquation = sParameters[ 0 ] + "*" + sParameters[ 1 ] + "/" + sParameters[ 2 ]; } break; case FC_PLUSMINUS : { if ( nParameters == 3 ) aEquation = sParameters[ 0 ] + "+" + sParameters[ 1 ] + "-" + sParameters[ 2 ]; } break; case FC_PLUSDIV : { if ( nParameters == 3 ) aEquation = "(" + sParameters[ 0 ] + "+" + sParameters[ 1 ] + ")/" + sParameters[ 2 ]; } break; case FC_IFELSE : case FC_IFELSE1 : { if ( nParameters == 3 ) aEquation = "if(" + sParameters[ 0 ] + "," + sParameters[ 1 ] + "," + sParameters[ 2 ] + ")"; } break; case FC_ABS : { if ( nParameters == 1 ) aEquation = "abs(" + sParameters[ 0 ] + ")"; } break; case FC_AT2 : { if ( nParameters == 2 ) aEquation = "(10800000*atan2(" + sParameters[ 1 ] + "," + sParameters[ 0 ] + "))/pi"; } break; case FC_CAT2 : { if ( nParameters == 3 ) aEquation = sParameters[ 0 ] + "*(cos(atan2(" + sParameters[ 2 ] + "," + sParameters[ 1 ] + ")))"; } break; case FC_COS : { if ( nParameters == 2 ) aEquation = sParameters[ 0 ] + "*cos(pi*(" + sParameters[ 1 ] + ")/10800000)"; } break; case FC_MAX : { if ( nParameters == 2 ) aEquation = "max(" + sParameters[ 0 ] + "," + sParameters[ 1 ] + ")"; } break; case FC_MIN : { if ( nParameters == 2 ) aEquation = "min(" + sParameters[ 0 ] + "," + sParameters[ 1 ] + ")"; } break; case FC_MOD : { if ( nParameters == 3 ) aEquation = "sqrt(" + sParameters[ 0 ] + "*" + sParameters[ 0 ] + "+" + sParameters[ 1 ] + "*" + sParameters[ 1 ] + "+" + sParameters[ 2 ] + "*" + sParameters[ 2 ] + ")"; } break; case FC_PIN : { if ( nParameters == 3 ) // if(x-y,x,if(y-z,z,y)) aEquation = "if(" + sParameters[ 0 ] + "-" + sParameters[ 1 ] + "," + sParameters[ 0 ] + ",if(" + sParameters[ 2 ] + "-" + sParameters[ 1 ] + "," + sParameters[ 1 ] + "," + sParameters[ 2 ] + "))"; } break; case FC_SAT2 : { if ( nParameters == 3 ) aEquation = sParameters[ 0 ] + "*(sin(atan2(" + sParameters[ 2 ] + "," + sParameters[ 1 ] + ")))"; } break; case FC_SIN : { if ( nParameters == 2 ) aEquation = sParameters[ 0 ] + "*sin(pi*(" + sParameters[ 1 ] + ")/10800000)"; } break; case FC_SQRT : { if ( nParameters == 1 ) aEquation = "sqrt(" + sParameters[ 0 ] + ")"; } break; case FC_TAN : { if ( nParameters == 2 ) aEquation = sParameters[ 0 ] + "*tan(pi*(" + sParameters[ 1 ] + ")/10800000)"; } break; case FC_VAL : { if ( nParameters == 1 ) aEquation = sParameters[ 0 ]; } break; default : break; } } } return aEquation; } ContextHandlerRef GeomGuideListContext::onCreateContext( sal_Int32 aElementToken, const AttributeList& rAttribs ) { if ( aElementToken == A_TOKEN( gd ) ) // CT_GeomGuide { CustomShapeGuide aGuide; aGuide.maName = rAttribs.getStringDefaulted( XML_name ); aGuide.maFormula = convertToOOEquation( mrCustomShapeProperties, rAttribs.getStringDefaulted( XML_fmla ) ); mrGuideList.push_back( aGuide ); } return this; } static const OUString& GetGeomGuideName( const OUString& rValue ) { return rValue; } namespace { // CT_AdjPoint2D class AdjPoint2DContext : public ContextHandler2 { public: AdjPoint2DContext( ContextHandler2Helper const & rParent, const AttributeList& rAttribs, CustomShapeProperties& rCustomShapeProperties, EnhancedCustomShapeParameterPair& rAdjPoint2D ); }; } AdjPoint2DContext::AdjPoint2DContext( ContextHandler2Helper const & rParent, const AttributeList& rAttribs, CustomShapeProperties& rCustomShapeProperties, EnhancedCustomShapeParameterPair& rAdjPoint2D ) : ContextHandler2( rParent ) { rAdjPoint2D.First = GetAdjCoordinate( rCustomShapeProperties, rAttribs.getStringDefaulted( XML_x ) ); rAdjPoint2D.Second = GetAdjCoordinate( rCustomShapeProperties, rAttribs.getStringDefaulted( XML_y ) ); } namespace { // CT_XYAdjustHandle class XYAdjustHandleContext : public ContextHandler2 { public: XYAdjustHandleContext( ContextHandler2Helper const & rParent, const AttributeList& rAttribs, CustomShapeProperties& rCustomShapeProperties, AdjustHandle& rAdjustHandle ); virtual ::oox::core::ContextHandlerRef onCreateContext( sal_Int32 aElementToken, const ::oox::AttributeList& rAttribs ) override; protected: AdjustHandle& mrAdjustHandle; CustomShapeProperties& mrCustomShapeProperties; }; } XYAdjustHandleContext::XYAdjustHandleContext( ContextHandler2Helper const & rParent, const AttributeList& rAttribs, CustomShapeProperties& rCustomShapeProperties, AdjustHandle& rAdjustHandle ) : ContextHandler2( rParent ) , mrAdjustHandle( rAdjustHandle ) , mrCustomShapeProperties( rCustomShapeProperties ) { if ( rAttribs.hasAttribute( XML_gdRefX ) ) { mrAdjustHandle.gdRef1 = GetGeomGuideName( rAttribs.getStringDefaulted( XML_gdRefX) ); } if ( rAttribs.hasAttribute( XML_minX ) ) { mrAdjustHandle.min1 = GetAdjCoordinate( mrCustomShapeProperties, rAttribs.getStringDefaulted( XML_minX) ); } if ( rAttribs.hasAttribute( XML_maxX ) ) { mrAdjustHandle.max1 = GetAdjCoordinate( mrCustomShapeProperties, rAttribs.getStringDefaulted( XML_maxX) ); } if ( rAttribs.hasAttribute( XML_gdRefY ) ) { mrAdjustHandle.gdRef2 = GetGeomGuideName( rAttribs.getStringDefaulted( XML_gdRefY) ); } if ( rAttribs.hasAttribute( XML_minY ) ) { mrAdjustHandle.min2 = GetAdjCoordinate( mrCustomShapeProperties, rAttribs.getStringDefaulted( XML_minY) ); } if ( rAttribs.hasAttribute( XML_maxY ) ) { mrAdjustHandle.max2 = GetAdjCoordinate( mrCustomShapeProperties, rAttribs.getStringDefaulted( XML_maxY) ); } } ContextHandlerRef XYAdjustHandleContext::onCreateContext( sal_Int32 aElementToken, const AttributeList& rAttribs ) { if ( aElementToken == A_TOKEN( pos ) ) return new AdjPoint2DContext( *this, rAttribs, mrCustomShapeProperties, mrAdjustHandle.pos ); // CT_AdjPoint2D return nullptr; } namespace { // CT_PolarAdjustHandle class PolarAdjustHandleContext : public ContextHandler2 { public: PolarAdjustHandleContext( ContextHandler2Helper const & rParent, const AttributeList& rAttribs, CustomShapeProperties& rCustomShapeProperties, AdjustHandle& rAdjustHandle ); virtual ::oox::core::ContextHandlerRef onCreateContext( sal_Int32 aElementToken, const ::oox::AttributeList& rAttribs ) override; protected: AdjustHandle& mrAdjustHandle; CustomShapeProperties& mrCustomShapeProperties; }; } PolarAdjustHandleContext::PolarAdjustHandleContext( ContextHandler2Helper const & rParent, const AttributeList& rAttribs, CustomShapeProperties& rCustomShapeProperties, AdjustHandle& rAdjustHandle ) : ContextHandler2( rParent ) , mrAdjustHandle( rAdjustHandle ) , mrCustomShapeProperties( rCustomShapeProperties ) { if ( rAttribs.hasAttribute( XML_gdRefR ) ) { mrAdjustHandle.polar = true ; mrAdjustHandle.gdRef1 = GetGeomGuideName( rAttribs.getStringDefaulted( XML_gdRefR) ); } if ( rAttribs.hasAttribute( XML_minR ) ) { mrAdjustHandle.min1 = GetAdjCoordinate( mrCustomShapeProperties, rAttribs.getStringDefaulted( XML_minR) ); } if ( rAttribs.hasAttribute( XML_maxR ) ) { mrAdjustHandle.max1 = GetAdjCoordinate( mrCustomShapeProperties, rAttribs.getStringDefaulted( XML_maxR) ); } if ( rAttribs.hasAttribute( XML_gdRefAng ) ) { mrAdjustHandle.polar = true ; mrAdjustHandle.gdRef2 = GetGeomGuideName( rAttribs.getStringDefaulted( XML_gdRefAng) ); } if ( rAttribs.hasAttribute( XML_minAng ) ) { mrAdjustHandle.min2 = GetAdjCoordinate( mrCustomShapeProperties, rAttribs.getStringDefaulted( XML_minAng) ); } if ( rAttribs.hasAttribute( XML_maxAng ) ) { mrAdjustHandle.max2 = GetAdjCoordinate( mrCustomShapeProperties, rAttribs.getStringDefaulted( XML_maxAng) ); } } ContextHandlerRef PolarAdjustHandleContext::onCreateContext( sal_Int32 aElementToken, const AttributeList& rAttribs ) { // mrAdjustHandle.pos uses planar coordinates. if ( aElementToken == A_TOKEN( pos ) ) return new AdjPoint2DContext( *this, rAttribs, mrCustomShapeProperties, mrAdjustHandle.pos ); // CT_AdjPoint2D return nullptr; } namespace { // CT_AdjustHandleList class AdjustHandleListContext : public ContextHandler2 { public: AdjustHandleListContext( ContextHandler2Helper const & rParent, CustomShapeProperties& rCustomShapeProperties, std::vector< AdjustHandle >& rAdjustHandleList ); virtual ::oox::core::ContextHandlerRef onCreateContext( sal_Int32 aElementToken, const ::oox::AttributeList& rAttribs ) override; protected: std::vector< AdjustHandle >& mrAdjustHandleList; CustomShapeProperties& mrCustomShapeProperties; }; } AdjustHandleListContext::AdjustHandleListContext( ContextHandler2Helper const & rParent, CustomShapeProperties& rCustomShapeProperties, std::vector< AdjustHandle >& rAdjustHandleList ) : ContextHandler2( rParent ) , mrAdjustHandleList( rAdjustHandleList ) , mrCustomShapeProperties( rCustomShapeProperties ) { } ContextHandlerRef AdjustHandleListContext::onCreateContext( sal_Int32 aElementToken, const AttributeList& rAttribs ) { if ( aElementToken == A_TOKEN( ahXY ) ) // CT_XYAdjustHandle { AdjustHandle aAdjustHandle( false ); mrAdjustHandleList.push_back( aAdjustHandle ); return new XYAdjustHandleContext( *this, rAttribs, mrCustomShapeProperties, mrAdjustHandleList.back() ); } else if ( aElementToken == A_TOKEN( ahPolar ) ) // CT_PolarAdjustHandle { AdjustHandle aAdjustHandle( true ); mrAdjustHandleList.push_back( aAdjustHandle ); return new PolarAdjustHandleContext( *this, rAttribs, mrCustomShapeProperties, mrAdjustHandleList.back() ); } return nullptr; } namespace { // CT_ConnectionSite class ConnectionSiteContext : public ContextHandler2 { public: ConnectionSiteContext( ContextHandler2Helper const & rParent, const AttributeList& rAttribs, CustomShapeProperties& rCustomShapeProperties, ConnectionSite& rConnectionSite ); virtual ::oox::core::ContextHandlerRef onCreateContext( sal_Int32 aElementToken, const ::oox::AttributeList& rAttribs ) override; protected: ConnectionSite& mrConnectionSite; CustomShapeProperties& mrCustomShapeProperties; }; } ConnectionSiteContext::ConnectionSiteContext( ContextHandler2Helper const & rParent, const AttributeList& rAttribs, CustomShapeProperties& rCustomShapeProperties, ConnectionSite& rConnectionSite ) : ContextHandler2( rParent ) , mrConnectionSite( rConnectionSite ) , mrCustomShapeProperties( rCustomShapeProperties ) { mrConnectionSite.ang = GetAdjCoordinate( mrCustomShapeProperties, rAttribs.getStringDefaulted( XML_ang ) ); } ContextHandlerRef ConnectionSiteContext::onCreateContext( sal_Int32 aElementToken, const AttributeList& rAttribs ) { if ( aElementToken == A_TOKEN( pos ) ) return new AdjPoint2DContext( *this, rAttribs, mrCustomShapeProperties, mrConnectionSite.pos ); // CT_AdjPoint2D return nullptr; } namespace { // CT_Path2DMoveTo class Path2DMoveToContext : public ContextHandler2 { public: Path2DMoveToContext( ContextHandler2Helper const & rParent, CustomShapeProperties& rCustomShapeProperties, EnhancedCustomShapeParameterPair& rAdjPoint2D ); virtual ::oox::core::ContextHandlerRef onCreateContext( sal_Int32 aElementToken, const ::oox::AttributeList& rAttribs ) override; protected: EnhancedCustomShapeParameterPair& mrAdjPoint2D; CustomShapeProperties& mrCustomShapeProperties; }; } Path2DMoveToContext::Path2DMoveToContext( ContextHandler2Helper const & rParent, CustomShapeProperties& rCustomShapeProperties, EnhancedCustomShapeParameterPair& rAdjPoint2D ) : ContextHandler2( rParent ) , mrAdjPoint2D( rAdjPoint2D ) , mrCustomShapeProperties( rCustomShapeProperties ) { } ContextHandlerRef Path2DMoveToContext::onCreateContext( sal_Int32 aElementToken, const AttributeList& rAttribs ) { if ( aElementToken == A_TOKEN( pt ) ) return new AdjPoint2DContext( *this, rAttribs, mrCustomShapeProperties, mrAdjPoint2D ); // CT_AdjPoint2D return nullptr; } namespace { // CT_Path2DLineTo class Path2DLineToContext : public ContextHandler2 { public: Path2DLineToContext( ContextHandler2Helper const & rParent, CustomShapeProperties& rCustomShapeProperties, EnhancedCustomShapeParameterPair& rAdjPoint2D ); virtual ::oox::core::ContextHandlerRef onCreateContext( sal_Int32 aElementToken, const ::oox::AttributeList& rAttribs ) override; protected: EnhancedCustomShapeParameterPair& mrAdjPoint2D; CustomShapeProperties& mrCustomShapeProperties; }; } Path2DLineToContext::Path2DLineToContext( ContextHandler2Helper const & rParent, CustomShapeProperties& rCustomShapeProperties, EnhancedCustomShapeParameterPair& rAdjPoint2D ) : ContextHandler2( rParent ) , mrAdjPoint2D( rAdjPoint2D ) , mrCustomShapeProperties( rCustomShapeProperties ) { } ContextHandlerRef Path2DLineToContext::onCreateContext( sal_Int32 aElementToken, const AttributeList& rAttribs ) { if ( aElementToken == A_TOKEN( pt ) ) return new AdjPoint2DContext( *this, rAttribs, mrCustomShapeProperties, mrAdjPoint2D ); // CT_AdjPoint2D return nullptr; } namespace { // CT_Path2DQuadBezierTo class Path2DQuadBezierToContext : public ContextHandler2 { public: Path2DQuadBezierToContext( ContextHandler2Helper const & rParent, CustomShapeProperties& rCustomShapeProperties, EnhancedCustomShapeParameterPair& rPt1, EnhancedCustomShapeParameterPair& rPt2 ); virtual ::oox::core::ContextHandlerRef onCreateContext( sal_Int32 aElementToken, const ::oox::AttributeList& rAttribs ) override; protected: EnhancedCustomShapeParameterPair& mrPt1; EnhancedCustomShapeParameterPair& mrPt2; int nCount; CustomShapeProperties& mrCustomShapeProperties; }; } Path2DQuadBezierToContext::Path2DQuadBezierToContext( ContextHandler2Helper const & rParent, CustomShapeProperties& rCustomShapeProperties, EnhancedCustomShapeParameterPair& rPt1, EnhancedCustomShapeParameterPair& rPt2 ) : ContextHandler2( rParent ) , mrPt1( rPt1 ) , mrPt2( rPt2 ) , nCount( 0 ) , mrCustomShapeProperties( rCustomShapeProperties ) { } ContextHandlerRef Path2DQuadBezierToContext::onCreateContext( sal_Int32 aElementToken, const AttributeList& rAttribs ) { if ( aElementToken == A_TOKEN( pt ) ) return new AdjPoint2DContext( *this, rAttribs, mrCustomShapeProperties, nCount++ ? mrPt2 : mrPt1 ); // CT_AdjPoint2D return nullptr; } namespace { // CT_Path2DCubicBezierTo class Path2DCubicBezierToContext : public ContextHandler2 { public: Path2DCubicBezierToContext( ContextHandler2Helper const & rParent, CustomShapeProperties& rCustomShapeProperties, EnhancedCustomShapeParameterPair&, EnhancedCustomShapeParameterPair&, EnhancedCustomShapeParameterPair& ); virtual ::oox::core::ContextHandlerRef onCreateContext( sal_Int32 aElementToken, const ::oox::AttributeList& rAttribs ) override; protected: CustomShapeProperties& mrCustomShapeProperties; EnhancedCustomShapeParameterPair& mrControlPt1; EnhancedCustomShapeParameterPair& mrControlPt2; EnhancedCustomShapeParameterPair& mrEndPt; int nCount; }; } Path2DCubicBezierToContext::Path2DCubicBezierToContext( ContextHandler2Helper const & rParent, CustomShapeProperties& rCustomShapeProperties, EnhancedCustomShapeParameterPair& rControlPt1, EnhancedCustomShapeParameterPair& rControlPt2, EnhancedCustomShapeParameterPair& rEndPt ) : ContextHandler2( rParent ) , mrCustomShapeProperties( rCustomShapeProperties ) , mrControlPt1( rControlPt1 ) , mrControlPt2( rControlPt2 ) , mrEndPt( rEndPt ) , nCount( 0 ) { } ContextHandlerRef Path2DCubicBezierToContext::onCreateContext( sal_Int32 aElementToken, const AttributeList& rAttribs ) { if ( aElementToken == A_TOKEN( pt ) ) return new AdjPoint2DContext( *this, rAttribs, mrCustomShapeProperties, nCount++ ? nCount == 2 ? mrControlPt2 : mrEndPt : mrControlPt1 ); // CT_AdjPoint2D return nullptr; } namespace { // CT_Path2DContext class Path2DContext : public ContextHandler2 { public: Path2DContext( ContextHandler2Helper const & rParent, const AttributeList& rAttribs, CustomShapeProperties& rCustomShapeProperties, std::vector< css::drawing::EnhancedCustomShapeSegment >& rSegments, Path2D& rPath2D ); virtual void onEndElement() override; virtual ::oox::core::ContextHandlerRef onCreateContext( sal_Int32 aElementToken, const ::oox::AttributeList& rAttribs ) override; protected: Path2D& mrPath2D; std::vector< css::drawing::EnhancedCustomShapeSegment >& mrSegments; CustomShapeProperties& mrCustomShapeProperties; }; } Path2DContext::Path2DContext( ContextHandler2Helper const & rParent, const AttributeList& rAttribs, CustomShapeProperties& rCustomShapeProperties, std::vector< css::drawing::EnhancedCustomShapeSegment >& rSegments, Path2D& rPath2D ) : ContextHandler2( rParent ) , mrPath2D( rPath2D ) , mrSegments( rSegments ) , mrCustomShapeProperties( rCustomShapeProperties ) { rPath2D.w = rAttribs.getHyper( XML_w, 0 ); rPath2D.h = rAttribs.getHyper( XML_h, 0 ); rPath2D.fill = rAttribs.getToken( XML_fill, XML_norm ); rPath2D.stroke = rAttribs.getBool( XML_stroke, true ); rPath2D.extrusionOk = rAttribs.getBool( XML_extrusionOk, true ); } void Path2DContext::onEndElement() { EnhancedCustomShapeSegment aNewSegment; switch ( mrPath2D.fill ) { case XML_none: aNewSegment.Command = EnhancedCustomShapeSegmentCommand::NOFILL; break; case XML_darken: aNewSegment.Command = EnhancedCustomShapeSegmentCommand::DARKEN; break; case XML_darkenLess: aNewSegment.Command = EnhancedCustomShapeSegmentCommand::DARKENLESS; break; case XML_lighten: aNewSegment.Command = EnhancedCustomShapeSegmentCommand::LIGHTEN; break; case XML_lightenLess: aNewSegment.Command = EnhancedCustomShapeSegmentCommand::LIGHTENLESS; break; } if (mrPath2D.fill != XML_norm) { aNewSegment.Count = 0; mrSegments.push_back( aNewSegment ); } if ( !mrPath2D.stroke ) { aNewSegment.Command = EnhancedCustomShapeSegmentCommand::NOSTROKE; aNewSegment.Count = 0; mrSegments.push_back( aNewSegment ); } aNewSegment.Command = EnhancedCustomShapeSegmentCommand::ENDSUBPATH; aNewSegment.Count = 0; mrSegments.push_back( aNewSegment ); } ContextHandlerRef Path2DContext::onCreateContext( sal_Int32 aElementToken, const AttributeList& rAttribs ) { switch( aElementToken ) { case A_TOKEN( close ) : { // ignore close after move to (ppt does seems to do the same, see accentCallout2 preset for example) if ( mrSegments.empty() || ( mrSegments.back().Command != EnhancedCustomShapeSegmentCommand::MOVETO ) ) { EnhancedCustomShapeSegment aNewSegment; aNewSegment.Command = EnhancedCustomShapeSegmentCommand::CLOSESUBPATH; aNewSegment.Count = 0; mrSegments.push_back( aNewSegment ); } } break; case A_TOKEN( moveTo ) : { EnhancedCustomShapeSegment aNewSegment; aNewSegment.Command = EnhancedCustomShapeSegmentCommand::MOVETO; aNewSegment.Count = 1; mrSegments.push_back( aNewSegment ); EnhancedCustomShapeParameterPair aAdjPoint2D; mrPath2D.parameter.push_back( aAdjPoint2D ); return new Path2DMoveToContext( *this, mrCustomShapeProperties, mrPath2D.parameter.back() ); } break; case A_TOKEN( lnTo ) : { if ( !mrSegments.empty() && ( mrSegments.back().Command == EnhancedCustomShapeSegmentCommand::LINETO ) ) mrSegments.back().Count++; else { EnhancedCustomShapeSegment aSegment; aSegment.Command = EnhancedCustomShapeSegmentCommand::LINETO; aSegment.Count = 1; mrSegments.push_back( aSegment ); } EnhancedCustomShapeParameterPair aAdjPoint2D; mrPath2D.parameter.push_back( aAdjPoint2D ); return new Path2DLineToContext( *this, mrCustomShapeProperties, mrPath2D.parameter.back() ); } break; case A_TOKEN( arcTo ) : // CT_Path2DArcTo { if ( !mrSegments.empty() && ( mrSegments.back().Command == EnhancedCustomShapeSegmentCommand::ARCANGLETO ) ) mrSegments.back().Count++; else { EnhancedCustomShapeSegment aSegment; aSegment.Command = EnhancedCustomShapeSegmentCommand::ARCANGLETO; aSegment.Count = 1; mrSegments.push_back( aSegment ); } EnhancedCustomShapeParameterPair aScale; EnhancedCustomShapeParameterPair aAngles; aScale.First = GetAdjCoordinate( mrCustomShapeProperties, rAttribs.getStringDefaulted( XML_wR ) ); aScale.Second = GetAdjCoordinate( mrCustomShapeProperties, rAttribs.getStringDefaulted( XML_hR ) ); CustomShapeGuide aGuide; sal_Int32 nArcNum = mrCustomShapeProperties.getArcNum(); // start angle aGuide.maName = "arctosa" + OUString::number( nArcNum ); aGuide.maFormula = "(" + GetFormulaParameter( GetAdjCoordinate( mrCustomShapeProperties, rAttribs.getStringDefaulted( XML_stAng ) ) ) + ")/60000.0"; aAngles.First.Value <<= CustomShapeProperties::SetCustomShapeGuideValue( mrCustomShapeProperties.getGuideList(), aGuide ); aAngles.First.Type = EnhancedCustomShapeParameterType::EQUATION; // swing angle aGuide.maName = "arctosw" + OUString::number( nArcNum ); aGuide.maFormula = "(" + GetFormulaParameter( GetAdjCoordinate( mrCustomShapeProperties, rAttribs.getStringDefaulted( XML_swAng ) ) ) + ")/60000.0"; aAngles.Second.Value <<= CustomShapeProperties::SetCustomShapeGuideValue( mrCustomShapeProperties.getGuideList(), aGuide ); aAngles.Second.Type = EnhancedCustomShapeParameterType::EQUATION; mrPath2D.parameter.push_back( aScale ); mrPath2D.parameter.push_back( aAngles ); } break; case A_TOKEN( quadBezTo ) : { if ( !mrSegments.empty() && ( mrSegments.back().Command == EnhancedCustomShapeSegmentCommand::QUADRATICCURVETO ) ) mrSegments.back().Count++; else { EnhancedCustomShapeSegment aSegment; aSegment.Command = EnhancedCustomShapeSegmentCommand::QUADRATICCURVETO; aSegment.Count = 1; mrSegments.push_back( aSegment ); } EnhancedCustomShapeParameterPair aPt1; EnhancedCustomShapeParameterPair aPt2; mrPath2D.parameter.push_back( aPt1 ); mrPath2D.parameter.push_back( aPt2 ); return new Path2DQuadBezierToContext( *this, mrCustomShapeProperties, mrPath2D.parameter[ mrPath2D.parameter.size() - 2 ], mrPath2D.parameter.back() ); } break; case A_TOKEN( cubicBezTo ) : { if ( !mrSegments.empty() && ( mrSegments.back().Command == EnhancedCustomShapeSegmentCommand::CURVETO ) ) mrSegments.back().Count++; else { EnhancedCustomShapeSegment aSegment; aSegment.Command = EnhancedCustomShapeSegmentCommand::CURVETO; aSegment.Count = 1; mrSegments.push_back( aSegment ); } EnhancedCustomShapeParameterPair aControlPt1; EnhancedCustomShapeParameterPair aControlPt2; EnhancedCustomShapeParameterPair aEndPt; mrPath2D.parameter.push_back( aControlPt1 ); mrPath2D.parameter.push_back( aControlPt2 ); mrPath2D.parameter.push_back( aEndPt ); return new Path2DCubicBezierToContext( *this, mrCustomShapeProperties, mrPath2D.parameter[ mrPath2D.parameter.size() - 3 ], mrPath2D.parameter[ mrPath2D.parameter.size() - 2 ], mrPath2D.parameter.back() ); } break; } return nullptr; } namespace { // CT_Path2DList class Path2DListContext : public ContextHandler2 { public: Path2DListContext( ContextHandler2Helper const & rParent, CustomShapeProperties & rCustomShapeProperties, std::vector< EnhancedCustomShapeSegment >& rSegments, std::vector< Path2D >& rPath2DList ); virtual ::oox::core::ContextHandlerRef onCreateContext( sal_Int32 aElementToken, const ::oox::AttributeList& rAttribs ) override; protected: CustomShapeProperties& mrCustomShapeProperties; std::vector< css::drawing::EnhancedCustomShapeSegment >& mrSegments; std::vector< Path2D >& mrPath2DList; }; } Path2DListContext:: Path2DListContext( ContextHandler2Helper const & rParent, CustomShapeProperties& rCustomShapeProperties, std::vector< EnhancedCustomShapeSegment >& rSegments, std::vector< Path2D >& rPath2DList ) : ContextHandler2( rParent ) , mrCustomShapeProperties( rCustomShapeProperties ) , mrSegments( rSegments ) , mrPath2DList( rPath2DList ) { } ContextHandlerRef Path2DListContext::onCreateContext( sal_Int32 aElementToken, const AttributeList& rAttribs ) { if ( aElementToken == A_TOKEN( path ) ) { Path2D aPath2D; mrPath2DList.push_back( aPath2D ); return new Path2DContext( *this, rAttribs, mrCustomShapeProperties, mrSegments, mrPath2DList.back() ); } return nullptr; } // CT_CustomGeometry2D CustomShapeGeometryContext::CustomShapeGeometryContext( ContextHandler2Helper const & rParent, CustomShapeProperties& rCustomShapeProperties ) : ContextHandler2( rParent ) , mrCustomShapeProperties( rCustomShapeProperties ) { } ContextHandlerRef CustomShapeGeometryContext::onCreateContext( sal_Int32 aElementToken, const AttributeList& rAttribs ) { switch( aElementToken ) { case A_TOKEN( avLst ): // CT_GeomGuideList adjust value list return new GeomGuideListContext( *this, mrCustomShapeProperties, mrCustomShapeProperties.getAdjustmentGuideList() ); case A_TOKEN( gdLst ): // CT_GeomGuideList guide list return new GeomGuideListContext( *this, mrCustomShapeProperties, mrCustomShapeProperties.getGuideList() ); case A_TOKEN( ahLst ): // CT_AdjustHandleList adjust handle list return new AdjustHandleListContext( *this, mrCustomShapeProperties, mrCustomShapeProperties.getAdjustHandleList() ); case A_TOKEN( cxnLst ): // CT_ConnectionSiteList connection site list return this; case A_TOKEN( rect ): // CT_GeomRectList geometry rect list { GeomRect aGeomRect; aGeomRect.l = GetAdjCoordinate( mrCustomShapeProperties, rAttribs.getStringDefaulted( XML_l ) ); aGeomRect.t = GetAdjCoordinate( mrCustomShapeProperties, rAttribs.getStringDefaulted( XML_t ) ); aGeomRect.r = GetAdjCoordinate( mrCustomShapeProperties, rAttribs.getStringDefaulted( XML_r ) ); aGeomRect.b = GetAdjCoordinate( mrCustomShapeProperties, rAttribs.getStringDefaulted( XML_b ) ); mrCustomShapeProperties.getTextRect() = aGeomRect; } break; case A_TOKEN( pathLst ): // CT_Path2DList 2d path list return new Path2DListContext( *this, mrCustomShapeProperties, mrCustomShapeProperties.getSegments(), mrCustomShapeProperties.getPath2DList() ); // from cxnLst: case A_TOKEN( cxn ): // CT_ConnectionSite { ConnectionSite aConnectionSite; mrCustomShapeProperties.getConnectionSiteList().push_back( aConnectionSite ); return new ConnectionSiteContext( *this, rAttribs, mrCustomShapeProperties, mrCustomShapeProperties.getConnectionSiteList().back() ); } } return nullptr; } // CT_PresetGeometry2D PresetShapeGeometryContext::PresetShapeGeometryContext( ContextHandler2Helper const & rParent, const AttributeList& rAttribs, CustomShapeProperties& rCustomShapeProperties ) : ContextHandler2( rParent ) , mrCustomShapeProperties( rCustomShapeProperties ) { sal_Int32 nShapeType = rAttribs.getToken( XML_prst, FastToken::DONTKNOW ); OSL_ENSURE( nShapeType != FastToken::DONTKNOW, "oox::drawingml::CustomShapeCustomGeometryContext::CustomShapeCustomGeometryContext(), unknown shape type" ); mrCustomShapeProperties.setShapePresetType( nShapeType ); } ContextHandlerRef PresetShapeGeometryContext::onCreateContext( sal_Int32 aElementToken, const AttributeList& ) { if ( aElementToken == A_TOKEN( avLst ) ) return new GeomGuideListContext( *this, mrCustomShapeProperties, mrCustomShapeProperties.getAdjustmentGuideList() ); else return this; } // CT_PresetTextShape PresetTextShapeContext::PresetTextShapeContext( ContextHandler2Helper const & rParent, const AttributeList& rAttribs, CustomShapeProperties& rCustomShapeProperties ) : ContextHandler2( rParent ) , mrCustomShapeProperties( rCustomShapeProperties ) { sal_Int32 nShapeType = rAttribs.getToken( XML_prst, FastToken::DONTKNOW ); OSL_ENSURE( nShapeType != FastToken::DONTKNOW, "oox::drawingml::CustomShapeCustomGeometryContext::CustomShapeCustomGeometryContext(), unknown shape type" ); mrCustomShapeProperties.setShapePresetType( nShapeType ); } ContextHandlerRef PresetTextShapeContext::onCreateContext( sal_Int32 aElementToken, const AttributeList& ) { if ( aElementToken == A_TOKEN( avLst ) ) return new GeomGuideListContext( *this, mrCustomShapeProperties, mrCustomShapeProperties.getAdjustmentGuideList() ); else return this; } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */