/* -*- 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 using namespace ::com::sun::star; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::beans; using namespace ::com::sun::star::drawing; namespace oox { namespace drawingml { CustomShapeProperties::CustomShapeProperties() : mnShapePresetType ( -1 ) , mbShapeTypeOverride(false) , mbMirroredX ( false ) , mbMirroredY ( false ) , mnTextRotateAngle ( 0 ) , mnArcNum ( 0 ) { } CustomShapeProperties::~CustomShapeProperties() { } uno::Sequence< sal_Int8 > const & CustomShapeProperties::getShapePresetTypeName() const { return StaticTokenMap::get().getUtf8TokenName( mnShapePresetType ); } sal_Int32 CustomShapeProperties::SetCustomShapeGuideValue( std::vector< CustomShapeGuide >& rGuideList, const CustomShapeGuide& rGuide ) { std::vector::size_type nIndex = 0; for( ; nIndex < rGuideList.size(); nIndex++ ) { if ( rGuideList[ nIndex ].maName == rGuide.maName ) break; } if ( nIndex == rGuideList.size() ) rGuideList.push_back( rGuide ); return static_cast< sal_Int32 >( nIndex ); } // returns the index into the guidelist for a given formula name, // if the return value is < 0 then the guide value could not be found sal_Int32 CustomShapeProperties::GetCustomShapeGuideValue( const std::vector< CustomShapeGuide >& rGuideList, const OUString& rFormulaName ) { // traverse the list from the end, because guide names can be reused // and current is the last one // see a1 guide in gear6 custom shape preset as example sal_Int32 nIndex = static_cast< sal_Int32 >( rGuideList.size() ) - 1; for( ; nIndex >= 0; nIndex-- ) { if ( rGuideList[ nIndex ].maName == rFormulaName ) break; } return nIndex; } CustomShapeProperties::PresetDataMap CustomShapeProperties::maPresetDataMap; static OUString GetConnectorShapeType( sal_Int32 nType ) { SAL_INFO( "oox.drawingml", "preset: " << nType << " " << XML_straightConnector1); OUString sType; switch( nType ) { case XML_straightConnector1: sType = "mso-spt32"; break; default: break; } return sType; } void CustomShapeProperties::pushToPropSet( const Reference < XPropertySet >& xPropSet, const Reference < XShape > & xShape, const awt::Size &aSize ) { if ( mnShapePresetType >= 0 ) { SAL_INFO("oox.drawingml", "preset: " << mnShapePresetType); if (maPresetDataMap.empty()) initializePresetDataMap(); PropertyMap aPropertyMap; PropertySet aPropSet( xPropSet ); OUString sConnectorShapeType = GetConnectorShapeType( mnShapePresetType ); if (sConnectorShapeType.getLength() > 0) { SAL_INFO( "oox.drawingml", "connector shape: " << sConnectorShapeType << " (" << mnShapePresetType << ")"); //const uno::Reference < drawing::XShape > xShape( xPropSet, UNO_QUERY ); Reference< drawing::XEnhancedCustomShapeDefaulter > xDefaulter( xShape, UNO_QUERY ); if( xDefaulter.is() ) { xDefaulter->createCustomShapeDefaults( sConnectorShapeType ); aPropertyMap.setProperty( PROP_Type, sConnectorShapeType ); } } else if (maPresetDataMap.find(mnShapePresetType) != maPresetDataMap.end()) { SAL_INFO( "oox.drawingml", "found property map for preset: " << mnShapePresetType); aPropertyMap = maPresetDataMap[mnShapePresetType]; #ifdef DEBUG aPropertyMap.dumpCode( aPropertyMap.makePropertySet() ); #endif } aPropertyMap.setProperty( PROP_MirroredX, mbMirroredX ); aPropertyMap.setProperty( PROP_MirroredY, mbMirroredY ); aPropertyMap.setProperty( PROP_TextPreRotateAngle, mnTextRotateAngle ); Sequence< PropertyValue > aSeq = aPropertyMap.makePropertyValueSequence(); aPropSet.setProperty( PROP_CustomShapeGeometry, aSeq ); const OUString sCustomShapeGeometry("CustomShapeGeometry"); uno::Any aGeoPropSet = xPropSet->getPropertyValue( sCustomShapeGeometry ); uno::Sequence< beans::PropertyValue > aGeoPropSeq; sal_Int32 i, nCount = 0; if (aGeoPropSet >>= aGeoPropSeq) { nCount = aGeoPropSeq.getLength(); for ( i = 0; i < nCount; i++ ) { const OUString sAdjustmentValues("AdjustmentValues"); if ( aGeoPropSeq[ i ].Name == sAdjustmentValues ) { OUString presetTextWarp; if ( aGeoPropSeq[ i ].Value >>= presetTextWarp ) { aPropertyMap.setProperty( PROP_PresetTextWarp, presetTextWarp ); } } } } if ( !maAdjustmentGuideList.empty() ) { const OUString sType = "Type"; if ( aGeoPropSet >>= aGeoPropSeq ) { nCount = aGeoPropSeq.getLength(); for ( i = 0; i < nCount; i++ ) { const OUString sAdjustmentValues("AdjustmentValues"); if ( aGeoPropSeq[ i ].Name == sAdjustmentValues ) { uno::Sequence< css::drawing::EnhancedCustomShapeAdjustmentValue > aAdjustmentSeq; if ( aGeoPropSeq[ i ].Value >>= aAdjustmentSeq ) { int nIndex=0; for (auto const& adjustmentGuide : maAdjustmentGuideList) { if ( adjustmentGuide.maName.getLength() > 3 ) { sal_Int32 nAdjustmentIndex = adjustmentGuide.maName.copy( 3 ).toInt32() - 1; if ( ( nAdjustmentIndex >= 0 ) && ( nAdjustmentIndex < aAdjustmentSeq.getLength() ) ) { EnhancedCustomShapeAdjustmentValue aAdjustmentVal; aAdjustmentVal.Value <<= adjustmentGuide.maFormula.toInt32(); aAdjustmentVal.State = PropertyState_DIRECT_VALUE; aAdjustmentVal.Name = adjustmentGuide.maName; aAdjustmentSeq[ nAdjustmentIndex ] = aAdjustmentVal; } } else if ( aAdjustmentSeq.getLength() > 0 ) { EnhancedCustomShapeAdjustmentValue aAdjustmentVal; aAdjustmentVal.Value <<= adjustmentGuide.maFormula.toInt32(); aAdjustmentVal.State = PropertyState_DIRECT_VALUE; aAdjustmentVal.Name = adjustmentGuide.maName; aAdjustmentSeq[ nIndex++ ] = aAdjustmentVal; } } aGeoPropSeq[ i ].Value <<= aAdjustmentSeq; xPropSet->setPropertyValue( sCustomShapeGeometry, Any( aGeoPropSeq ) ); } } else if ( aGeoPropSeq[ i ].Name == sType ) { if ( sConnectorShapeType.getLength() > 0 ) aGeoPropSeq[ i ].Value <<= sConnectorShapeType; else aGeoPropSeq[ i ].Value <<= OUString( "ooxml-CustomShape" ); } } } } } else { PropertyMap aPropertyMap; aPropertyMap.setProperty( PROP_Type, OUString( "ooxml-non-primitive" )); aPropertyMap.setProperty( PROP_MirroredX, mbMirroredX ); aPropertyMap.setProperty( PROP_MirroredY, mbMirroredY ); // Note 1: If Equations are defined - they are processed using internal div by 360 coordinates // while if they are not, standard ooxml coordinates are used. // This size specifically affects scaling. // Note 2: Width and Height are set to 0 to force scaling to 1. awt::Rectangle aViewBox( 0, 0, aSize.Width, aSize.Height ); if( !maGuideList.empty() ) aViewBox = awt::Rectangle( 0, 0, 0, 0 ); aPropertyMap.setProperty( PROP_ViewBox, aViewBox); Sequence< EnhancedCustomShapeAdjustmentValue > aAdjustmentValues( maAdjustmentGuideList.size() ); for ( std::vector::size_type i = 0; i < maAdjustmentGuideList.size(); i++ ) { EnhancedCustomShapeAdjustmentValue aAdjustmentVal; aAdjustmentVal.Value <<= maAdjustmentGuideList[ i ].maFormula.toInt32(); aAdjustmentVal.State = PropertyState_DIRECT_VALUE; aAdjustmentVal.Name = maAdjustmentGuideList[ i ].maName; aAdjustmentValues[ i ] = aAdjustmentVal; } aPropertyMap.setProperty( PROP_AdjustmentValues, aAdjustmentValues); PropertyMap aPath; aPath.setProperty( PROP_Segments, comphelper::containerToSequence(maSegments) ); if ( maTextRect.has() ) { Sequence< EnhancedCustomShapeTextFrame > aTextFrames(1); aTextFrames[0].TopLeft.First = maTextRect.get().l; aTextFrames[0].TopLeft.Second = maTextRect.get().t; aTextFrames[0].BottomRight.First = maTextRect.get().r; aTextFrames[0].BottomRight.Second = maTextRect.get().b; aPath.setProperty( PROP_TextFrames, aTextFrames); } sal_uInt32 nParameterPairs = 0; for ( auto const & i: maPath2DList ) nParameterPairs += i.parameter.size(); Sequence< EnhancedCustomShapeParameterPair > aParameterPairs( nParameterPairs ); sal_uInt32 k = 0; for ( auto const & i: maPath2DList ) for ( auto const & j: i.parameter ) aParameterPairs[ k++ ] = j; aPath.setProperty( PROP_Coordinates, aParameterPairs); if ( !maPath2DList.empty() ) { bool bAllZero = true; for ( auto const & i: maPath2DList ) { if ( i.w || i.h ) { bAllZero = false; break; } } if ( !bAllZero ) { Sequence< awt::Size > aSubViewSize( maPath2DList.size() ); for ( std::vector::size_type i=0; i < maPath2DList.size(); i++ ) { aSubViewSize[i].Width = static_cast< sal_Int32 >( maPath2DList[i].w ); aSubViewSize[i].Height = static_cast< sal_Int32 >( maPath2DList[i].h ); SAL_INFO( "oox.cscode", "set subpath " << i << " size: " << maPath2DList[i].w << " x " << maPath2DList[i].h); } aPath.setProperty( PROP_SubViewSize, aSubViewSize); } } Sequence< PropertyValue > aPathSequence = aPath.makePropertyValueSequence(); aPropertyMap.setProperty( PROP_Path, aPathSequence); Sequence< OUString > aEquations( maGuideList.size() ); for ( std::vector::size_type i = 0; i < maGuideList.size(); i++ ) aEquations[ i ] = maGuideList[ i ].maFormula; aPropertyMap.setProperty( PROP_Equations, aEquations); Sequence< PropertyValues > aHandles( maAdjustHandleList.size() ); for ( std::vector::size_type i = 0; i < maAdjustHandleList.size(); i++ ) { PropertyMap aHandle; // maAdjustmentHandle[ i ].gdRef1 ... maAdjustmentHandle[ i ].gdRef2 ... :( // gdRef1 && gdRef2 -> we do not offer such reference, so it is difficult // to determine the correct adjustment handle that should be updated with the adjustment // position. here is the solution: the adjustment value that is used within the position // has to be updated, in case the position is a formula the first usage of a // adjustment value is decisive if ( maAdjustHandleList[ i ].polar ) { // Polar handles in DrawingML // 1. don't have reference center, so PROP_Polar isn't needed. // 2. position always use planar coordinates. // 3. use RefAngle and RefR to specify adjustment value to be updated. // 4. The unit of angular adjustment values are 6000th degree. aHandle.setProperty( PROP_Position, maAdjustHandleList[ i ].pos); if ( maAdjustHandleList[ i ].gdRef1.has() ) { sal_Int32 nIndex = GetCustomShapeGuideValue( maAdjustmentGuideList, maAdjustHandleList[ i ].gdRef1.get() ); if ( nIndex >= 0 ) aHandle.setProperty( PROP_RefR, nIndex); } if ( maAdjustHandleList[ i ].gdRef2.has() ) { sal_Int32 nIndex = GetCustomShapeGuideValue( maAdjustmentGuideList, maAdjustHandleList[ i ].gdRef2.get() ); if ( nIndex >= 0 ) aHandle.setProperty( PROP_RefAngle, nIndex); } if ( maAdjustHandleList[ i ].min1.has() ) aHandle.setProperty( PROP_RadiusRangeMinimum, maAdjustHandleList[ i ].min1.get()); if ( maAdjustHandleList[ i ].max1.has() ) aHandle.setProperty( PROP_RadiusRangeMaximum, maAdjustHandleList[ i ].max1.get()); /* TODO: AngleMin & AngleMax if ( maAdjustHandleList[ i ].min2.has() ) aHandle.setProperty( PROP_ ] = maAdjustHandleList[ i ].min2.get()); if ( maAdjustHandleList[ i ].max2.has() ) aHandle.setProperty( PROP_ ] = maAdjustHandleList[ i ].max2.get()); */ } else { aHandle.setProperty( PROP_Position, maAdjustHandleList[ i ].pos); if ( maAdjustHandleList[ i ].gdRef1.has() ) { // TODO: PROP_RefX and PROP_RefY are not yet part of our file format, // so the handles will not work after save/reload sal_Int32 nIndex = GetCustomShapeGuideValue( maAdjustmentGuideList, maAdjustHandleList[ i ].gdRef1.get() ); if ( nIndex >= 0 ) aHandle.setProperty( PROP_RefX, nIndex); } if ( maAdjustHandleList[ i ].gdRef2.has() ) { sal_Int32 nIndex = GetCustomShapeGuideValue( maAdjustmentGuideList, maAdjustHandleList[ i ].gdRef2.get() ); if ( nIndex >= 0 ) aHandle.setProperty( PROP_RefY, nIndex); } if ( maAdjustHandleList[ i ].min1.has() ) aHandle.setProperty( PROP_RangeXMinimum, maAdjustHandleList[ i ].min1.get()); if ( maAdjustHandleList[ i ].max1.has() ) aHandle.setProperty( PROP_RangeXMaximum, maAdjustHandleList[ i ].max1.get()); if ( maAdjustHandleList[ i ].min2.has() ) aHandle.setProperty( PROP_RangeYMinimum, maAdjustHandleList[ i ].min2.get()); if ( maAdjustHandleList[ i ].max2.has() ) aHandle.setProperty( PROP_RangeYMaximum, maAdjustHandleList[ i ].max2.get()); } aHandles[ i ] = aHandle.makePropertyValueSequence(); } aPropertyMap.setProperty( PROP_Handles, aHandles); #ifdef DEBUG // Note that the script oox/source/drawingml/customshapes/generatePresetsData.pl looks // for these ==cscode== and ==csdata== markers, so don't "clean up" these SAL_INFOs. SAL_INFO("oox.cscode", "==cscode== begin"); aPropertyMap.dumpCode( aPropertyMap.makePropertySet() ); SAL_INFO("oox.cscode", "==cscode== end"); SAL_INFO("oox.csdata", "==csdata== begin"); aPropertyMap.dumpData( aPropertyMap.makePropertySet() ); SAL_INFO("oox.csdata", "==csdata== end"); #endif // converting the vector to a sequence Sequence< PropertyValue > aSeq = aPropertyMap.makePropertyValueSequence(); PropertySet aPropSet( xPropSet ); aPropSet.setProperty( PROP_CustomShapeGeometry, aSeq ); } } } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */