/* -*- 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 #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 #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 #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 #include #include #include #include #include #include #include #include #include #include #include using namespace ::css; using namespace ::css::beans; using namespace ::css::drawing; using namespace ::css::i18n; using namespace ::css::style; using namespace ::css::text; using namespace ::css::uno; using namespace ::css::container; using namespace ::com::sun::star::drawing::EnhancedCustomShapeSegmentCommand; using ::css::io::XOutputStream; using ::sax_fastparser::FSHelperPtr; using ::sax_fastparser::FastSerializerHelper; namespace { const char* g_aPredefinedClrNames[] = { "dk1", "lt1", "dk2", "lt2", "accent1", "accent2", "accent3", "accent4", "accent5", "accent6", "hlink", "folHlink", }; } namespace oox::drawingml { URLTransformer::~URLTransformer() { } OUString URLTransformer::getTransformedString(const OUString& rString) const { return rString; } bool URLTransformer::isExternalURL(const OUString& rURL) const { bool bExternal = true; if (rURL.startsWith("#")) bExternal = false; return bExternal; } GraphicExportCache& GraphicExportCache::get() { static GraphicExportCache staticGraphicExportCache; return staticGraphicExportCache; } static css::uno::Any getLineDash( const css::uno::Reference& xModel, const OUString& rDashName ) { css::uno::Reference xFact(xModel, css::uno::UNO_QUERY); css::uno::Reference xNameAccess( xFact->createInstance("com.sun.star.drawing.DashTable"), css::uno::UNO_QUERY ); if(xNameAccess.is()) { if (!xNameAccess->hasByName(rDashName)) return css::uno::Any(); return xNameAccess->getByName(rDashName); } return css::uno::Any(); } namespace { void WriteGradientPath(const basegfx::BGradient& rBGradient, const FSHelperPtr& pFS, const bool bCircle) { pFS->startElementNS(XML_a, XML_path, XML_path, bCircle ? "circle" : "rect"); // Write the focus rectangle. Work with the focus point, and assume // that it extends 50% in all directions. The below // left/top/right/bottom values are percentages, where 0 means the // edge of the tile rectangle and 100% means the center of it. rtl::Reference pAttributeList( sax_fastparser::FastSerializerHelper::createAttrList()); sal_Int32 nLeftPercent = rBGradient.GetXOffset(); pAttributeList->add(XML_l, OString::number(nLeftPercent * PER_PERCENT)); sal_Int32 nTopPercent = rBGradient.GetYOffset(); pAttributeList->add(XML_t, OString::number(nTopPercent * PER_PERCENT)); sal_Int32 nRightPercent = 100 - rBGradient.GetXOffset(); pAttributeList->add(XML_r, OString::number(nRightPercent * PER_PERCENT)); sal_Int32 nBottomPercent = 100 - rBGradient.GetYOffset(); pAttributeList->add(XML_b, OString::number(nBottomPercent * PER_PERCENT)); pFS->singleElementNS(XML_a, XML_fillToRect, pAttributeList); pFS->endElementNS(XML_a, XML_path); } } // not thread safe sal_Int32 DrawingML::mnDrawingMLCount = 0; sal_Int32 DrawingML::mnVmlCount = 0; sal_Int32 DrawingML::mnChartCount = 0; sal_Int16 DrawingML::GetScriptType(const OUString& rStr) { if (rStr.getLength() > 0) { static Reference xBreakIterator = css::i18n::BreakIterator::create(comphelper::getProcessComponentContext()); sal_Int16 nScriptType = xBreakIterator->getScriptType(rStr, 0); if (nScriptType == css::i18n::ScriptType::WEAK) { sal_Int32 nPos = xBreakIterator->nextScript(rStr, 0, nScriptType); if (nPos < rStr.getLength()) nScriptType = xBreakIterator->getScriptType(rStr, nPos); } if (nScriptType != css::i18n::ScriptType::WEAK) return nScriptType; } return css::i18n::ScriptType::LATIN; } void DrawingML::ResetMlCounters() { mnDrawingMLCount = 0; mnVmlCount = 0; mnChartCount = 0; } bool DrawingML::GetProperty( const Reference< XPropertySet >& rXPropertySet, const OUString& aName ) { try { mAny = rXPropertySet->getPropertyValue(aName); if (mAny.hasValue()) return true; } catch( const Exception& ) { /* printf ("exception when trying to get value of property: %s\n", aName.toUtf8()); */ } return false; } bool DrawingML::GetPropertyAndState( const Reference< XPropertySet >& rXPropertySet, const Reference< XPropertyState >& rXPropertyState, const OUString& aName, PropertyState& eState ) { try { mAny = rXPropertySet->getPropertyValue(aName); if (mAny.hasValue()) { eState = rXPropertyState->getPropertyState(aName); return true; } } catch( const Exception& ) { /* printf ("exception when trying to get value of property: %s\n", aName.toUtf8()); */ } return false; } namespace { /// Gets hexa value of color on string format. OString getColorStr(const ::Color nColor) { // Transparency is a separate element. OString sColor = OString::number(sal_uInt32(nColor) & 0x00FFFFFF, 16); if (sColor.getLength() < 6) { OStringBuffer sBuf("0"); int remains = 5 - sColor.getLength(); while (remains > 0) { sBuf.append("0"); remains--; } sBuf.append(sColor); sColor = sBuf.toString(); } return sColor; } } void DrawingML::WriteColor( ::Color nColor, sal_Int32 nAlpha ) { const auto sColor = getColorStr(nColor); if( nAlpha < MAX_PERCENT ) { mpFS->startElementNS(XML_a, XML_srgbClr, XML_val, sColor); mpFS->singleElementNS(XML_a, XML_alpha, XML_val, OString::number(nAlpha)); mpFS->endElementNS( XML_a, XML_srgbClr ); } else { mpFS->singleElementNS(XML_a, XML_srgbClr, XML_val, sColor); } } void DrawingML::WriteColor( const OUString& sColorSchemeName, const Sequence< PropertyValue >& aTransformations, sal_Int32 nAlpha ) { // prevent writing a tag with empty val attribute if( sColorSchemeName.isEmpty() ) return; if( aTransformations.hasElements() ) { mpFS->startElementNS(XML_a, XML_schemeClr, XML_val, sColorSchemeName); WriteColorTransformations( aTransformations, nAlpha ); mpFS->endElementNS( XML_a, XML_schemeClr ); } else if(nAlpha < MAX_PERCENT) { mpFS->startElementNS(XML_a, XML_schemeClr, XML_val, sColorSchemeName); mpFS->singleElementNS(XML_a, XML_alpha, XML_val, OString::number(nAlpha)); mpFS->endElementNS( XML_a, XML_schemeClr ); } else { mpFS->singleElementNS(XML_a, XML_schemeClr, XML_val, sColorSchemeName); } } void DrawingML::WriteColor( const ::Color nColor, const Sequence< PropertyValue >& aTransformations, sal_Int32 nAlpha ) { const auto sColor = getColorStr(nColor); if( aTransformations.hasElements() ) { mpFS->startElementNS(XML_a, XML_srgbClr, XML_val, sColor); WriteColorTransformations(aTransformations, nAlpha); mpFS->endElementNS(XML_a, XML_srgbClr); } else if(nAlpha < MAX_PERCENT) { mpFS->startElementNS(XML_a, XML_srgbClr, XML_val, sColor); mpFS->singleElementNS(XML_a, XML_alpha, XML_val, OString::number(nAlpha)); mpFS->endElementNS(XML_a, XML_srgbClr); } else { mpFS->singleElementNS(XML_a, XML_srgbClr, XML_val, sColor); } } void DrawingML::WriteColorTransformations( const Sequence< PropertyValue >& aTransformations, sal_Int32 nAlpha ) { for( const auto& rTransformation : aTransformations ) { sal_Int32 nToken = Color::getColorTransformationToken( rTransformation.Name ); if( nToken != XML_TOKEN_INVALID && rTransformation.Value.hasValue() ) { if(nToken == XML_alpha && nAlpha < MAX_PERCENT) { mpFS->singleElementNS(XML_a, nToken, XML_val, OString::number(nAlpha)); } else { sal_Int32 nValue = rTransformation.Value.get(); mpFS->singleElementNS(XML_a, nToken, XML_val, OString::number(nValue)); } } } } void DrawingML::WriteSolidFill( ::Color nColor, sal_Int32 nAlpha ) { mpFS->startElementNS(XML_a, XML_solidFill); WriteColor( nColor, nAlpha ); mpFS->endElementNS( XML_a, XML_solidFill ); } void DrawingML::WriteSolidFill( const OUString& sSchemeName, const Sequence< PropertyValue >& aTransformations, sal_Int32 nAlpha ) { mpFS->startElementNS(XML_a, XML_solidFill); WriteColor( sSchemeName, aTransformations, nAlpha ); mpFS->endElementNS( XML_a, XML_solidFill ); } void DrawingML::WriteSolidFill( const ::Color nColor, const Sequence< PropertyValue >& aTransformations, sal_Int32 nAlpha ) { mpFS->startElementNS(XML_a, XML_solidFill); WriteColor(nColor, aTransformations, nAlpha); mpFS->endElementNS(XML_a, XML_solidFill); } void DrawingML::WriteSolidFill( const Reference< XPropertySet >& rXPropSet ) { // get fill color if ( !GetProperty( rXPropSet, "FillColor" ) ) return; sal_uInt32 nFillColor = mAny.get(); // get InteropGrabBag and search the relevant attributes OUString sColorFillScheme; sal_uInt32 nOriginalColor = 0; Sequence< PropertyValue > aStyleProperties, aTransformations; if ( GetProperty( rXPropSet, "InteropGrabBag" ) ) { Sequence< PropertyValue > aGrabBag; mAny >>= aGrabBag; for( const auto& rProp : std::as_const(aGrabBag) ) { if( rProp.Name == "SpPrSolidFillSchemeClr" ) rProp.Value >>= sColorFillScheme; else if( rProp.Name == "OriginalSolidFillClr" ) rProp.Value >>= nOriginalColor; else if( rProp.Name == "StyleFillRef" ) rProp.Value >>= aStyleProperties; else if( rProp.Name == "SpPrSolidFillSchemeClrTransformations" ) rProp.Value >>= aTransformations; } } sal_Int32 nAlpha = MAX_PERCENT; if( GetProperty( rXPropSet, "FillTransparence" ) ) { sal_Int32 nTransparency = 0; mAny >>= nTransparency; // Calculate alpha value (see oox/source/drawingml/color.cxx : getTransparency()) nAlpha = (MAX_PERCENT - ( PER_PERCENT * nTransparency ) ); } // OOXML has no separate transparence gradient but uses transparency in the gradient stops. // So we merge transparency and color and use gradient fill in such case. basegfx::BGradient aTransparenceGradient; OUString sFillTransparenceGradientName; bool bNeedGradientFill(false); if (GetProperty(rXPropSet, "FillTransparenceGradientName") && (mAny >>= sFillTransparenceGradientName) && !sFillTransparenceGradientName.isEmpty() && GetProperty(rXPropSet, "FillTransparenceGradient")) { aTransparenceGradient = model::gradient::getFromAny(mAny); basegfx::BColor aSingleColor; bNeedGradientFill = !aTransparenceGradient.GetColorStops().isSingleColor(aSingleColor); // we no longer need to 'guess' if FillTransparenceGradient is used by // comparing it's 1st color to COL_BLACK after having tested that the // FillTransparenceGradientName is set if (!bNeedGradientFill) { // Our alpha is a gray color value. const sal_uInt8 nRed(aSingleColor.getRed() * 255.0); // drawingML alpha is a percentage on a 0..100000 scale. nAlpha = (255 - nRed) * oox::drawingml::MAX_PERCENT / 255; } } // write XML if (bNeedGradientFill) { // no longer create copy/PseudoColorGradient, use new API of // WriteGradientFill to express fix fill color mpFS->startElementNS(XML_a, XML_gradFill, XML_rotWithShape, "0"); WriteGradientFill(nullptr, nFillColor, &aTransparenceGradient); mpFS->endElementNS( XML_a, XML_gradFill ); } else if ( nFillColor != nOriginalColor ) { // the user has set a different color for the shape if (!WriteSchemeColor(u"FillComplexColor"_ustr, rXPropSet)) { WriteSolidFill(::Color(ColorTransparency, nFillColor & 0xffffff), nAlpha); } } // tdf#91332 LO doesn't export the actual theme.xml in XLSX. else if ( !sColorFillScheme.isEmpty() && GetDocumentType() != DOCUMENT_XLSX ) { // the shape had a scheme color and the user didn't change it WriteSolidFill( sColorFillScheme, aTransformations, nAlpha ); } else { // the shape had a custom color and the user didn't change it // tdf#124013 WriteSolidFill( ::Color(ColorTransparency, nFillColor & 0xffffff), nAlpha ); } } bool DrawingML::WriteSchemeColor(OUString const& rPropertyName, const uno::Reference& xPropertySet) { if (!xPropertySet->getPropertySetInfo()->hasPropertyByName(rPropertyName)) return false; uno::Reference xComplexColor; xPropertySet->getPropertyValue(rPropertyName) >>= xComplexColor; if (!xComplexColor.is()) return false; auto aComplexColor = model::color::getFromXComplexColor(xComplexColor); if (aComplexColor.getThemeColorType() == model::ThemeColorType::Unknown) return false; const char* pColorName = g_aPredefinedClrNames[sal_Int16(aComplexColor.getThemeColorType())]; mpFS->startElementNS(XML_a, XML_solidFill); mpFS->startElementNS(XML_a, XML_schemeClr, XML_val, pColorName); for (auto const& rTransform : aComplexColor.getTransformations()) { switch (rTransform.meType) { case model::TransformationType::LumMod: mpFS->singleElementNS(XML_a, XML_lumMod, XML_val, OString::number(rTransform.mnValue * 10)); break; case model::TransformationType::LumOff: mpFS->singleElementNS(XML_a, XML_lumOff, XML_val, OString::number(rTransform.mnValue * 10)); break; case model::TransformationType::Tint: mpFS->singleElementNS(XML_a, XML_tint, XML_val, OString::number(rTransform.mnValue * 10)); break; case model::TransformationType::Shade: mpFS->singleElementNS(XML_a, XML_shade, XML_val, OString::number(rTransform.mnValue * 10)); break; default: break; } } // Alpha is actually not contained in maTransformations although possible (as of Mar 2023). sal_Int16 nAPITransparency(0); if ((rPropertyName == u"FillComplexColor" && GetProperty(xPropertySet, "FillTransparence")) || (rPropertyName == u"LineComplexColor" && GetProperty(xPropertySet, "LineTransparence")) || (rPropertyName == u"CharComplexColor" && GetProperty(xPropertySet, "CharTransparence"))) { mAny >>= nAPITransparency; } if (nAPITransparency != 0) mpFS->singleElementNS(XML_a, XML_alpha, XML_val, OString::number(MAX_PERCENT - (PER_PERCENT * nAPITransparency))); mpFS->endElementNS(XML_a, XML_schemeClr); mpFS->endElementNS(XML_a, XML_solidFill); return true; } void DrawingML::WriteGradientStop(double fOffset, const basegfx::BColor& rColor, const basegfx::BColor& rAlpha) { mpFS->startElementNS(XML_a, XML_gs, XML_pos, OString::number(basegfx::fround(fOffset * 100000))); WriteColor( ::Color(rColor), basegfx::fround((1.0 - rAlpha.luminance()) * oox::drawingml::MAX_PERCENT)); mpFS->endElementNS( XML_a, XML_gs ); } ::Color DrawingML::ColorWithIntensity( sal_uInt32 nColor, sal_uInt32 nIntensity ) { return ::Color(ColorTransparency, ( ( ( nColor & 0xff ) * nIntensity ) / 100 ) | ( ( ( ( ( nColor & 0xff00 ) >> 8 ) * nIntensity ) / 100 ) << 8 ) | ( ( ( ( ( nColor & 0xff0000 ) >> 8 ) * nIntensity ) / 100 ) << 8 )); } void DrawingML::WriteGradientFill( const Reference< XPropertySet >& rXPropSet ) { if (!GetProperty(rXPropSet, "FillGradient")) return; // use BGradient constructor directly, it will take care of Gradient/Gradient2 basegfx::BGradient aGradient = model::gradient::getFromAny(mAny); // get InteropGrabBag and search the relevant attributes basegfx::BGradient aOriginalGradient; Sequence< PropertyValue > aGradientStops; if ( GetProperty( rXPropSet, "InteropGrabBag" ) ) { Sequence< PropertyValue > aGrabBag; mAny >>= aGrabBag; for( const auto& rProp : std::as_const(aGrabBag) ) if( rProp.Name == "GradFillDefinition" ) rProp.Value >>= aGradientStops; else if( rProp.Name == "OriginalGradFill" ) aOriginalGradient = model::gradient::getFromAny(rProp.Value); } // check if an ooxml gradient had been imported and if the user has modified it // Gradient grab-bag depends on theme grab-bag, which is implemented // only for DOCX. if (aOriginalGradient == aGradient && GetDocumentType() == DOCUMENT_DOCX) { // If we have no gradient stops that means original gradient were defined by a theme. if( aGradientStops.hasElements() ) { mpFS->startElementNS(XML_a, XML_gradFill, XML_rotWithShape, "0"); WriteGrabBagGradientFill(aGradientStops, aGradient); mpFS->endElementNS( XML_a, XML_gradFill ); } } else { mpFS->startElementNS(XML_a, XML_gradFill, XML_rotWithShape, "0"); basegfx::BGradient aTransparenceGradient; basegfx::BGradient* pTransparenceGradient(nullptr); double fTransparency(0.0); OUString sFillTransparenceGradientName; if (GetProperty(rXPropSet, "FillTransparenceGradientName") && (mAny >>= sFillTransparenceGradientName) && !sFillTransparenceGradientName.isEmpty() && GetProperty(rXPropSet, "FillTransparenceGradient")) { // TransparenceGradient is only used when name is not empty aTransparenceGradient = model::gradient::getFromAny(mAny); pTransparenceGradient = &aTransparenceGradient; } else if (GetProperty(rXPropSet, "FillTransparence")) { // no longer create PseudoTransparencyGradient, use new API of // WriteGradientFill to express fix transparency sal_Int32 nTransparency(0); mAny >>= nTransparency; // nTransparency is [0..100]% fTransparency = nTransparency * 0.01; } // tdf#155852 The gradient might wrongly have StepCount==0, as the draw:gradient-step-count // attribute in ODF does not belong to the gradient definition but is an attribute in // the graphic style of the shape. if (GetProperty(rXPropSet, "FillGradientStepCount")) { sal_Int16 nStepCount = 0; mAny >>= nStepCount; aGradient.SetSteps(nStepCount); } WriteGradientFill(&aGradient, 0, pTransparenceGradient, fTransparency); mpFS->endElementNS(XML_a, XML_gradFill); } } void DrawingML::WriteGrabBagGradientFill( const Sequence< PropertyValue >& aGradientStops, const basegfx::BGradient& rBGradient ) { // write back the original gradient mpFS->startElementNS(XML_a, XML_gsLst); // get original stops and write them for( const auto& rGradientStop : aGradientStops ) { Sequence< PropertyValue > aGradientStop; rGradientStop.Value >>= aGradientStop; // get values OUString sSchemeClr; double nPos = 0; sal_Int16 nTransparency = 0; ::Color nRgbClr; Sequence< PropertyValue > aTransformations; for( const auto& rProp : std::as_const(aGradientStop) ) { if( rProp.Name == "SchemeClr" ) rProp.Value >>= sSchemeClr; else if( rProp.Name == "RgbClr" ) rProp.Value >>= nRgbClr; else if( rProp.Name == "Pos" ) rProp.Value >>= nPos; else if( rProp.Name == "Transparency" ) rProp.Value >>= nTransparency; else if( rProp.Name == "Transformations" ) rProp.Value >>= aTransformations; } // write stop mpFS->startElementNS(XML_a, XML_gs, XML_pos, OString::number(nPos * 100000.0)); if( sSchemeClr.isEmpty() ) { // Calculate alpha value (see oox/source/drawingml/color.cxx : getTransparency()) sal_Int32 nAlpha = MAX_PERCENT - ( PER_PERCENT * nTransparency ); WriteColor( nRgbClr, nAlpha ); } else { WriteColor( sSchemeClr, aTransformations ); } mpFS->endElementNS( XML_a, XML_gs ); } mpFS->endElementNS( XML_a, XML_gsLst ); switch (rBGradient.GetGradientStyle()) { default: { const sal_Int16 nAngle(rBGradient.GetAngle()); mpFS->singleElementNS( XML_a, XML_lin, XML_ang, OString::number(((3600 - static_cast(nAngle) + 900) * 6000) % 21600000)); break; } case awt::GradientStyle_RADIAL: { WriteGradientPath(rBGradient, mpFS, true); break; } } } void DrawingML::WriteGradientFill( const basegfx::BGradient* pColorGradient, sal_Int32 nFixColor, const basegfx::BGradient* pTransparenceGradient, double fFixTransparence) { basegfx::BColorStops aColorStops; basegfx::BColorStops aAlphaStops; basegfx::BColor aSingleColor(::Color(ColorTransparency, nFixColor).getBColor()); basegfx::BColor aSingleAlpha(fFixTransparence); const basegfx::BGradient* pGradient(pColorGradient); if (nullptr != pColorGradient) { // extract and correct/process ColorStops basegfx::utils::prepareColorStops(*pColorGradient, aColorStops, aSingleColor); // tdf#155827 Convert 'axial' to 'linear' before synchronize and for each gradient separate. if (aColorStops.size() > 0 && awt::GradientStyle_AXIAL == pColorGradient->GetGradientStyle()) aColorStops.doApplyAxial(); } if (nullptr != pTransparenceGradient) { // remember basic Gradient definition to use // So we can get the gradient geometry in any case from pGradient. if (nullptr == pGradient) { pGradient = pTransparenceGradient; } // extract and correct/process AlphaStops basegfx::utils::prepareColorStops(*pTransparenceGradient, aAlphaStops, aSingleAlpha); if (aAlphaStops.size() > 0 && awt::GradientStyle_AXIAL == pTransparenceGradient->GetGradientStyle()) { aAlphaStops.doApplyAxial(); } } if (nullptr == pGradient) { // an error - see comment in header - is to give neither pColorGradient // nor pTransparenceGradient assert(false && "pColorGradient or pTransparenceGradient should be set"); return; } // Apply steps if used. That increases the number of stops and thus needs to be done before // synchronize. if (pGradient->GetSteps()) { aColorStops.doApplySteps(pGradient->GetSteps()); // transparency gradients are always automatic, so do not have steps. } // synchronize ColorStops and AlphaStops as preparation to export // so also gradients 'coupled' indirectly using the 'FillTransparenceGradient' // method (at import time) will be exported again. basegfx::utils::synchronizeColorStops(aColorStops, aAlphaStops, aSingleColor, aSingleAlpha); if (aColorStops.size() != aAlphaStops.size()) { // this is an error - synchronizeColorStops above *has* to create that // state, see description there (!) assert(false && "oox::WriteGradientFill: non-synchronized gradients (!)"); return; } bool bLinearOrAxial(awt::GradientStyle_LINEAR == pGradient->GetGradientStyle() || awt::GradientStyle_AXIAL == pGradient->GetGradientStyle()); if (!bLinearOrAxial) { // case awt::GradientStyle_RADIAL: // case awt::GradientStyle_ELLIPTICAL: // case awt::GradientStyle_RECT: // case awt::GradientStyle_SQUARE: // all these types need the gradients to be mirrored aColorStops.reverseColorStops(); aAlphaStops.reverseColorStops(); } // If there were one stop, prepareColorStops() method would have cleared aColorStops, same for // aAlphaStops. In case of empty stops vectors synchronizeColorStops() method creates two stops // for each. So at this point we have at least two stops and can fulfill the requirement of // element to have at least two child elements. // export GradientStops (with alpha) mpFS->startElementNS(XML_a, XML_gsLst); basegfx::BColorStops::const_iterator aCurrColor(aColorStops.begin()); basegfx::BColorStops::const_iterator aCurrAlpha(aAlphaStops.begin()); while (aCurrColor != aColorStops.end() && aCurrAlpha != aAlphaStops.end()) { WriteGradientStop( aCurrColor->getStopOffset(), aCurrColor->getStopColor(), aCurrAlpha->getStopColor()); aCurrColor++; aCurrAlpha++; } mpFS->endElementNS( XML_a, XML_gsLst ); if (bLinearOrAxial) { // CT_LinearShadeProperties, cases where gradient rotation has to be exported // 'scaled' does not exist in LO, so only 'ang'. const sal_Int16 nAngle(pGradient->GetAngle()); mpFS->singleElementNS( XML_a, XML_lin, XML_ang, OString::number(((3600 - static_cast(nAngle) + 900) * 6000) % 21600000)); } else { // CT_PathShadeProperties, cases where gradient path has to be exported // Concentric fill is not yet implemented, therefore no type 'shape', only 'circle' or 'rect' const bool bCircle(pGradient->GetGradientStyle() == awt::GradientStyle_RADIAL || pGradient->GetGradientStyle() == awt::GradientStyle_ELLIPTICAL); WriteGradientPath(*pGradient, mpFS, bCircle); } } void DrawingML::WriteLineArrow( const Reference< XPropertySet >& rXPropSet, bool bLineStart ) { ESCHER_LineEnd eLineEnd; sal_Int32 nArrowLength; sal_Int32 nArrowWidth; if ( !EscherPropertyContainer::GetLineArrow( bLineStart, rXPropSet, eLineEnd, nArrowLength, nArrowWidth ) ) return; const char* len; const char* type; const char* width; switch( nArrowLength ) { case ESCHER_LineShortArrow: len = "sm"; break; default: case ESCHER_LineMediumLenArrow: len = "med"; break; case ESCHER_LineLongArrow: len = "lg"; break; } switch( eLineEnd ) { default: case ESCHER_LineNoEnd: type = "none"; break; case ESCHER_LineArrowEnd: type = "triangle"; break; case ESCHER_LineArrowStealthEnd: type = "stealth"; break; case ESCHER_LineArrowDiamondEnd: type = "diamond"; break; case ESCHER_LineArrowOvalEnd: type = "oval"; break; case ESCHER_LineArrowOpenEnd: type = "arrow"; break; } switch( nArrowWidth ) { case ESCHER_LineNarrowArrow: width = "sm"; break; default: case ESCHER_LineMediumWidthArrow: width = "med"; break; case ESCHER_LineWideArrow: width = "lg"; break; } mpFS->singleElementNS( XML_a, bLineStart ? XML_headEnd : XML_tailEnd, XML_len, len, XML_type, type, XML_w, width ); } void DrawingML::WriteOutline( const Reference& rXPropSet, Reference< frame::XModel > const & xModel ) { drawing::LineStyle aLineStyle( drawing::LineStyle_NONE ); if (GetProperty(rXPropSet, "LineStyle")) mAny >>= aLineStyle; const LineCap aLineCap = GetProperty(rXPropSet, "LineCap") ? mAny.get() : LineCap_BUTT; sal_uInt32 nLineWidth = 0; sal_uInt32 nEmuLineWidth = 0; ::Color nColor; sal_Int32 nColorAlpha = MAX_PERCENT; bool bColorSet = false; const char* cap = nullptr; drawing::LineDash aLineDash; bool bDashSet = false; bool bNoFill = false; // get InteropGrabBag and search the relevant attributes OUString sColorFillScheme; ::Color aResolvedColorFillScheme; ::Color nOriginalColor; ::Color nStyleColor; sal_uInt32 nStyleLineWidth = 0; Sequence aStyleProperties; Sequence aTransformations; drawing::LineStyle aStyleLineStyle(drawing::LineStyle_NONE); drawing::LineJoint aStyleLineJoint(drawing::LineJoint_NONE); if (GetProperty(rXPropSet, "InteropGrabBag")) { Sequence aGrabBag; mAny >>= aGrabBag; for (const auto& rProp : std::as_const(aGrabBag)) { if( rProp.Name == "SpPrLnSolidFillSchemeClr" ) rProp.Value >>= sColorFillScheme; if( rProp.Name == "SpPrLnSolidFillResolvedSchemeClr" ) rProp.Value >>= aResolvedColorFillScheme; else if( rProp.Name == "OriginalLnSolidFillClr" ) rProp.Value >>= nOriginalColor; else if( rProp.Name == "StyleLnRef" ) rProp.Value >>= aStyleProperties; else if( rProp.Name == "SpPrLnSolidFillSchemeClrTransformations" ) rProp.Value >>= aTransformations; else if( rProp.Name == "EmuLineWidth" ) rProp.Value >>= nEmuLineWidth; } for (const auto& rStyleProp : std::as_const(aStyleProperties)) { if( rStyleProp.Name == "Color" ) rStyleProp.Value >>= nStyleColor; else if( rStyleProp.Name == "LineStyle" ) rStyleProp.Value >>= aStyleLineStyle; else if( rStyleProp.Name == "LineJoint" ) rStyleProp.Value >>= aStyleLineJoint; else if( rStyleProp.Name == "LineWidth" ) rStyleProp.Value >>= nStyleLineWidth; } } if (GetProperty(rXPropSet, "LineWidth")) mAny >>= nLineWidth; switch (aLineStyle) { case drawing::LineStyle_NONE: bNoFill = true; break; case drawing::LineStyle_DASH: if (GetProperty(rXPropSet, "LineDash")) { aLineDash = mAny.get(); //this query is good for shapes, but in the case of charts it returns 0 values if (aLineDash.Dots == 0 && aLineDash.DotLen == 0 && aLineDash.Dashes == 0 && aLineDash.DashLen == 0 && aLineDash.Distance == 0) { OUString aLineDashName; if (GetProperty(rXPropSet, "LineDashName")) mAny >>= aLineDashName; if (!aLineDashName.isEmpty() && xModel) { css::uno::Any aAny = getLineDash(xModel, aLineDashName); aAny >>= aLineDash; } } } else { //export the linestyle of chart wall (plot area) and chart page OUString aLineDashName; if (GetProperty(rXPropSet, "LineDashName")) mAny >>= aLineDashName; if (!aLineDashName.isEmpty() && xModel) { css::uno::Any aAny = getLineDash(xModel, aLineDashName); aAny >>= aLineDash; } } bDashSet = true; if (aLineDash.Style == DashStyle_ROUND || aLineDash.Style == DashStyle_ROUNDRELATIVE) { cap = "rnd"; } SAL_INFO("oox.shape", "dash dots: " << aLineDash.Dots << " dashes: " << aLineDash.Dashes << " dotlen: " << aLineDash.DotLen << " dashlen: " << aLineDash.DashLen << " distance: " << aLineDash.Distance); [[fallthrough]]; case drawing::LineStyle_SOLID: default: if (GetProperty(rXPropSet, "LineColor")) { nColor = ::Color(ColorTransparency, mAny.get() & 0xffffff); bColorSet = true; } if (GetProperty(rXPropSet, "LineTransparence")) { nColorAlpha = MAX_PERCENT - (mAny.get() * PER_PERCENT); } if (aLineCap == LineCap_ROUND) cap = "rnd"; else if (aLineCap == LineCap_SQUARE) cap = "sq"; break; } // if the line-width was not modified after importing then the original EMU value will be exported to avoid unexpected conversion (rounding) error if (nEmuLineWidth == 0 || static_cast(oox::drawingml::convertEmuToHmm(nEmuLineWidth)) != nLineWidth) nEmuLineWidth = oox::drawingml::convertHmmToEmu(nLineWidth); mpFS->startElementNS( XML_a, XML_ln, XML_cap, cap, XML_w, sax_fastparser::UseIf(OString::number(nEmuLineWidth), nLineWidth == 0 || GetDocumentType() == DOCUMENT_XLSX // tdf#119565 LO doesn't export the actual theme.xml in XLSX. || (nLineWidth > 1 && nStyleLineWidth != nLineWidth))); if( bColorSet ) { if( nColor != nOriginalColor ) { // the user has set a different color for the line if (!WriteSchemeColor(u"LineComplexColor"_ustr, rXPropSet)) WriteSolidFill(nColor, nColorAlpha); } else if( !sColorFillScheme.isEmpty() ) { // the line had a scheme color and the user didn't change it WriteSolidFill( aResolvedColorFillScheme, aTransformations ); } else { WriteSolidFill( nColor, nColorAlpha ); } } if( bDashSet && aStyleLineStyle != drawing::LineStyle_DASH ) { // Try to detect if it might come from ms preset line style import. // MS Office styles are always relative, both binary and OOXML. // "dot" is always the first dash and "dash" the second one. All OOXML presets linestyles // start with the longer one. Definitions are in OOXML part 1, 20.1.10.49 // The tests are strict, for to not catch styles from standard.sod (as of Aug 2019). bool bIsConverted = false; bool bIsRelative(aLineDash.Style == DashStyle_RECTRELATIVE || aLineDash.Style == DashStyle_ROUNDRELATIVE); if ( bIsRelative && aLineDash.Dots == 1) { // The length were tweaked on import in case of prstDash. Revert it here. sal_uInt32 nDotLen = aLineDash.DotLen; sal_uInt32 nDashLen = aLineDash.DashLen; sal_uInt32 nDistance = aLineDash.Distance; if (aLineCap != LineCap_BUTT && nDistance >= 99) { nDistance -= 99; nDotLen += 99; if (nDashLen > 0) nDashLen += 99; } // LO uses length 0 for 100%, if the attribute is missing in ODF. // Other applications might write 100%. Make is unique for the conditions. if (nDotLen == 0) nDotLen = 100; if (nDashLen == 0 && aLineDash.Dashes > 0) nDashLen = 100; bIsConverted = true; if (nDotLen == 100 && aLineDash.Dashes == 0 && nDashLen == 0 && nDistance == 300) { mpFS->singleElementNS(XML_a, XML_prstDash, XML_val, "dot"); } else if (nDotLen == 400 && aLineDash.Dashes == 0 && nDashLen == 0 && nDistance == 300) { mpFS->singleElementNS(XML_a, XML_prstDash, XML_val, "dash"); } else if (nDotLen == 400 && aLineDash.Dashes == 1 && nDashLen == 100 && nDistance == 300) { mpFS->singleElementNS(XML_a, XML_prstDash, XML_val, "dashDot"); } else if (nDotLen == 800 && aLineDash.Dashes == 0 && nDashLen == 0 && nDistance == 300) { mpFS->singleElementNS(XML_a, XML_prstDash, XML_val, "lgDash"); } else if (nDotLen == 800 && aLineDash.Dashes == 1 && nDashLen == 100 && nDistance == 300) { mpFS->singleElementNS(XML_a, XML_prstDash, XML_val, "lgDashDot"); } else if (nDotLen == 800 && aLineDash.Dashes == 2 && nDashLen == 100 && nDistance == 300) { mpFS->singleElementNS(XML_a, XML_prstDash, XML_val, "lgDashDotDot"); } else if (nDotLen == 100 && aLineDash.Dashes == 0 && nDashLen == 0 && nDistance == 100) { mpFS->singleElementNS(XML_a, XML_prstDash, XML_val, "sysDot"); } else if (nDotLen == 300 && aLineDash.Dashes == 0 && nDashLen == 0 && nDistance == 100) { mpFS->singleElementNS(XML_a, XML_prstDash, XML_val, "sysDash"); } else if (nDotLen == 300 && aLineDash.Dashes == 1 && nDashLen == 100 && nDistance == 100) { mpFS->singleElementNS(XML_a, XML_prstDash, XML_val, "sysDashDot"); } else if (nDotLen == 300 && aLineDash.Dashes == 2 && nDashLen == 100 && nDistance == 100) { mpFS->singleElementNS(XML_a, XML_prstDash, XML_val, "sysDashDotDot"); } else bIsConverted = false; } // Do not map our own line styles to OOXML prstDash values, because custDash gives better results. if (!bIsConverted) { mpFS->startElementNS(XML_a, XML_custDash); // In case of hairline we would need the current pixel size. Instead use a reasonable // ersatz for it. The value is the same as SMALLEST_DASH_WIDTH in xattr.cxx. // (And it makes sure fLineWidth is not zero in below division.) double fLineWidth = nLineWidth > 0 ? nLineWidth : 26.95; int i; double fSp = bIsRelative ? aLineDash.Distance : aLineDash.Distance * 100.0 / fLineWidth; // LO uses line width, in case Distance is zero. MS Office would use a space of zero length. // So set 100% explicitly. if (aLineDash.Distance <= 0) fSp = 100.0; // In case of custDash, round caps are included in dash length in MS Office. Square caps are added // to dash length, same as in ODF. Change the length values accordingly. if (aLineCap == LineCap_ROUND && fSp > 99.0) fSp -= 99.0; if (aLineDash.Dots > 0) { double fD = bIsRelative ? aLineDash.DotLen : aLineDash.DotLen * 100.0 / fLineWidth; // LO sets length to 0, if attribute is missing in ODF. Then a relative length of 100% is intended. if (aLineDash.DotLen == 0) fD = 100.0; // Tweak dash length, see above. if (aLineCap == LineCap_ROUND && fSp > 99.0) fD += 99.0; for( i = 0; i < aLineDash.Dots; i ++ ) { mpFS->singleElementNS( XML_a, XML_ds, XML_d , write1000thOfAPercent(fD), XML_sp, write1000thOfAPercent(fSp) ); } } if ( aLineDash.Dashes > 0 ) { double fD = bIsRelative ? aLineDash.DashLen : aLineDash.DashLen * 100.0 / fLineWidth; // LO sets length to 0, if attribute is missing in ODF. Then a relative length of 100% is intended. if (aLineDash.DashLen == 0) fD = 100.0; // Tweak dash length, see above. if (aLineCap == LineCap_ROUND && fSp > 99.0) fD += 99.0; for( i = 0; i < aLineDash.Dashes; i ++ ) { mpFS->singleElementNS( XML_a , XML_ds, XML_d , write1000thOfAPercent(fD), XML_sp, write1000thOfAPercent(fSp) ); } } SAL_WARN_IF(nLineWidth <= 0, "oox.shape", "while writing outline - custom dash - line width was < 0 : " << nLineWidth); SAL_WARN_IF(aLineDash.Dashes < 0, "oox.shape", "while writing outline - custom dash - number of dashes was < 0 : " << aLineDash.Dashes); SAL_WARN_IF(aLineDash.Dashes > 0 && aLineDash.DashLen <= 0, "oox.shape", "while writing outline - custom dash - dash length was < 0 : " << aLineDash.DashLen); SAL_WARN_IF(aLineDash.Dots < 0, "oox.shape", "while writing outline - custom dash - number of dots was < 0 : " << aLineDash.Dots); SAL_WARN_IF(aLineDash.Dots > 0 && aLineDash.DotLen <= 0, "oox.shape", "while writing outline - custom dash - dot length was < 0 : " << aLineDash.DotLen); SAL_WARN_IF(aLineDash.Distance <= 0, "oox.shape", "while writing outline - custom dash - distance was < 0 : " << aLineDash.Distance); mpFS->endElementNS( XML_a, XML_custDash ); } } if (!bNoFill && nLineWidth > 1 && GetProperty(rXPropSet, "LineJoint")) { LineJoint eLineJoint = mAny.get(); // tdf#119565 LO doesn't export the actual theme.xml in XLSX. if (aStyleLineJoint == LineJoint_NONE || GetDocumentType() == DOCUMENT_XLSX || aStyleLineJoint != eLineJoint) { // style-defined line joint does not exist, or is different from the shape's joint switch( eLineJoint ) { case LineJoint_NONE: case LineJoint_BEVEL: mpFS->singleElementNS(XML_a, XML_bevel); break; default: case LineJoint_MIDDLE: case LineJoint_MITER: mpFS->singleElementNS(XML_a, XML_miter); break; case LineJoint_ROUND: mpFS->singleElementNS(XML_a, XML_round); break; } } } if( !bNoFill ) { WriteLineArrow( rXPropSet, true ); WriteLineArrow( rXPropSet, false ); } else { mpFS->singleElementNS(XML_a, XML_noFill); } mpFS->endElementNS( XML_a, XML_ln ); } OUString DrawingML::GetComponentDir() const { return OUString(getComponentDir(meDocumentType)); } OUString DrawingML::GetRelationCompPrefix() const { return OUString(getRelationCompPrefix(meDocumentType)); } void GraphicExport::writeSvgExtension(OUString const& rSvgRelId) { if (rSvgRelId.isEmpty()) return; mpFS->startElementNS(XML_a, XML_extLst); mpFS->startElementNS(XML_a, XML_ext, XML_uri, "{96DAC541-7B7A-43D3-8B79-37D633B846F1}"); mpFS->singleElementNS(XML_asvg, XML_svgBlip, FSNS(XML_xmlns, XML_asvg), mpFilterBase->getNamespaceURL(OOX_NS(asvg)), FSNS(XML_r, XML_embed), rSvgRelId); mpFS->endElementNS(XML_a, XML_ext); mpFS->endElementNS( XML_a, XML_extLst); } void GraphicExport::writeBlip(Graphic const& rGraphic, std::vector const& rEffects, bool bRelPathToMedia) { OUString sRelId = writeToStorage(rGraphic, bRelPathToMedia); mpFS->startElementNS(XML_a, XML_blip, FSNS(XML_r, XML_embed), sRelId); auto const& rVectorGraphicDataPtr = rGraphic.getVectorGraphicData(); if (rVectorGraphicDataPtr && rVectorGraphicDataPtr->getType() == VectorGraphicDataType::Svg) { OUString sSvgRelId = writeToStorage(rGraphic, bRelPathToMedia, TypeHint::SVG); writeSvgExtension(sSvgRelId); } for (auto const& rEffect : rEffects) { switch (rEffect.meType) { case model::BlipEffectType::AlphaBiLevel: { mpFS->singleElementNS(XML_a, XML_alphaBiLevel, XML_thresh, OString::number(rEffect.mnThreshold)); } break; case model::BlipEffectType::AlphaCeiling: { mpFS->singleElementNS(XML_a, XML_alphaCeiling); } break; case model::BlipEffectType::AlphaFloor: { mpFS->singleElementNS(XML_a, XML_alphaFloor); } break; case model::BlipEffectType::AlphaInverse: { mpFS->singleElementNS(XML_a, XML_alphaInv); // TODO: export rEffect.maColor1 } break; case model::BlipEffectType::AlphaModulate: { mpFS->singleElementNS(XML_a, XML_alphaMod); // TODO } break; case model::BlipEffectType::AlphaModulateFixed: { mpFS->singleElementNS(XML_a, XML_alphaModFix, XML_amt, OString::number(rEffect.mnAmount)); } break; case model::BlipEffectType::AlphaReplace: { mpFS->singleElementNS(XML_a, XML_alphaRepl, XML_a, OString::number(rEffect.mnAlpha)); } break; case model::BlipEffectType::BiLevel: { mpFS->singleElementNS(XML_a, XML_biLevel, XML_thresh, OString::number(rEffect.mnThreshold)); } break; case model::BlipEffectType::Blur: { mpFS->singleElementNS(XML_a, XML_blur, XML_rad, OString::number(rEffect.mnRadius), XML_grow, rEffect.mbGrow ? "1" : "0"); } break; case model::BlipEffectType::ColorChange: { mpFS->startElementNS(XML_a, XML_clrChange, XML_useA, rEffect.mbUseAlpha ? "1" : "0"); mpFS->endElementNS(XML_a, XML_clrChange); } break; case model::BlipEffectType::ColorReplace: { mpFS->startElementNS(XML_a, XML_clrRepl); mpFS->endElementNS(XML_a, XML_clrRepl); } break; case model::BlipEffectType::DuoTone: { mpFS->startElementNS(XML_a, XML_duotone); mpFS->endElementNS(XML_a, XML_duotone); } break; case model::BlipEffectType::FillOverlay: { mpFS->singleElementNS(XML_a, XML_fillOverlay); } break; case model::BlipEffectType::Grayscale: { mpFS->singleElementNS(XML_a, XML_grayscl); } break; case model::BlipEffectType::HSL: { mpFS->singleElementNS(XML_a, XML_hsl, XML_hue, OString::number(rEffect.mnHue), XML_sat, OString::number(rEffect.mnSaturation), XML_lum, OString::number(rEffect.mnLuminance)); } break; case model::BlipEffectType::Luminance: { mpFS->singleElementNS(XML_a, XML_lum, XML_bright, OString::number(rEffect.mnBrightness), XML_contrast, OString::number(rEffect.mnContrast)); } break; case model::BlipEffectType::Tint: { mpFS->singleElementNS(XML_a, XML_tint, XML_hue, OString::number(rEffect.mnHue), XML_amt, OString::number(rEffect.mnAmount)); } break; default: break; } } mpFS->endElementNS(XML_a, XML_blip); } OUString GraphicExport::writeNewEntryToStorage(const Graphic& rGraphic, bool bRelPathToMedia) { GfxLink const& rLink = rGraphic.GetGfxLink(); OUString sMediaType; OUString aExtension; SvMemoryStream aStream; const void* aData = rLink.GetData(); std::size_t nDataSize = rLink.GetDataSize(); switch (rLink.GetType()) { case GfxLinkType::NativeGif: sMediaType = u"image/gif"_ustr; aExtension = u"gif"_ustr; break; // #i15508# added BMP type for better exports // export not yet active, so adding for reference (not checked) case GfxLinkType::NativeBmp: sMediaType = u"image/bmp"_ustr; aExtension = u"bmp"_ustr; break; case GfxLinkType::NativeJpg: sMediaType = u"image/jpeg"_ustr; aExtension = u"jpeg"_ustr; break; case GfxLinkType::NativePng: sMediaType = u"image/png"_ustr; aExtension = u"png"_ustr; break; case GfxLinkType::NativeTif: sMediaType = u"image/tiff"_ustr; aExtension = u"tif"_ustr; break; case GfxLinkType::NativeWmf: sMediaType = u"image/x-wmf"_ustr; aExtension = u"wmf"_ustr; break; case GfxLinkType::NativeMet: sMediaType = u"image/x-met"_ustr; aExtension = u"met"_ustr; break; case GfxLinkType::NativePct: sMediaType = u"image/x-pict"_ustr; aExtension = u"pct"_ustr; break; case GfxLinkType::NativeMov: sMediaType = u"application/movie"_ustr; aExtension = u"MOV"_ustr; break; default: { GraphicType aType = rGraphic.GetType(); if (aType == GraphicType::Bitmap || aType == GraphicType::GdiMetafile) { if (aType == GraphicType::Bitmap) { (void)GraphicConverter::Export(aStream, rGraphic, ConvertDataFormat::PNG); sMediaType = u"image/png"_ustr; aExtension = u"png"_ustr; } else { (void)GraphicConverter::Export(aStream, rGraphic, ConvertDataFormat::EMF); sMediaType = u"image/x-emf"_ustr; aExtension = u"emf"_ustr; } } else { SAL_WARN("oox.shape", "unhandled graphic type " << static_cast(aType)); /*Earlier, even in case of unhandled graphic types we were proceeding to write the image, which would eventually write an empty image with a zero size, and return a valid relationID, which is incorrect. */ return OUString(); } aData = aStream.GetData(); nDataSize = aStream.GetEndOfData(); } break; } GraphicExportCache& rGraphicExportCache = GraphicExportCache::get(); auto sImageCountString = OUString::number(rGraphicExportCache.nextImageCount()); OUString sComponentDir(getComponentDir(meDocumentType)); OUString sImagePath = sComponentDir + u"/media/image"_ustr + sImageCountString + u"."_ustr + aExtension; Reference xOutStream = mpFilterBase->openFragmentStream(sImagePath, sMediaType); xOutStream->writeBytes(Sequence(static_cast(aData), nDataSize)); xOutStream->closeOutput(); OUString sRelationCompPrefix; if (bRelPathToMedia) sRelationCompPrefix = u"../"_ustr; else sRelationCompPrefix = getRelationCompPrefix(meDocumentType); OUString sPath = sRelationCompPrefix + u"media/image"_ustr + sImageCountString + u"."_ustr + aExtension; rGraphicExportCache.addExportGraphics(rGraphic.GetChecksum(), sPath); return sPath; } namespace { BitmapChecksum makeChecksumUniqueForSVG(BitmapChecksum const& rChecksum) { // need to modify the checksum so we know it's for SVG - just invert it return ~rChecksum; } } // end anonymous namespace OUString GraphicExport::writeNewSvgEntryToStorage(const Graphic& rGraphic, bool bRelPathToMedia) { OUString sMediaType = u"image/svg"_ustr; OUString aExtension = u"svg"_ustr; GfxLink const& rLink = rGraphic.GetGfxLink(); if (rLink.GetType() != GfxLinkType::NativeSvg) return OUString(); const void* aData = rLink.GetData(); std::size_t nDataSize = rLink.GetDataSize(); GraphicExportCache& rGraphicExportCache = GraphicExportCache::get(); auto sImageCountString = OUString::number(rGraphicExportCache.nextImageCount()); OUString sComponentDir(getComponentDir(meDocumentType)); OUString sImagePath = sComponentDir + u"/media/image"_ustr + sImageCountString + u"."_ustr + aExtension; Reference xOutStream = mpFilterBase->openFragmentStream(sImagePath, sMediaType); xOutStream->writeBytes(Sequence(static_cast(aData), nDataSize)); xOutStream->closeOutput(); OUString sRelationCompPrefix; if (bRelPathToMedia) sRelationCompPrefix = u"../"_ustr; else sRelationCompPrefix = getRelationCompPrefix(meDocumentType); OUString sPath = sRelationCompPrefix + u"media/image"_ustr + sImageCountString + u"."_ustr + aExtension; rGraphicExportCache.addExportGraphics(makeChecksumUniqueForSVG(rGraphic.GetChecksum()), sPath); return sPath; } OUString GraphicExport::writeToStorage(const Graphic& rGraphic, bool bRelPathToMedia, TypeHint eHint) { OUString sPath; auto aChecksum = rGraphic.GetChecksum(); if (eHint == TypeHint::SVG) aChecksum = makeChecksumUniqueForSVG(aChecksum); GraphicExportCache& rGraphicExportCache = GraphicExportCache::get(); sPath = rGraphicExportCache.findExportGraphics(aChecksum); if (sPath.isEmpty()) { if (eHint == TypeHint::SVG) sPath = writeNewSvgEntryToStorage(rGraphic, bRelPathToMedia); else sPath = writeNewEntryToStorage(rGraphic, bRelPathToMedia); if (sPath.isEmpty()) return OUString(); // couldn't store } OUString sRelId = mpFilterBase->addRelation(mpFS->getOutputStream(), oox::getRelationship(Relationship::IMAGE), sPath); return sRelId; } std::shared_ptr DrawingML::createGraphicExport() { return std::make_shared(mpFS, mpFB, meDocumentType); } OUString DrawingML::writeGraphicToStorage(const Graphic& rGraphic , bool bRelPathToMedia, GraphicExport::TypeHint eHint) { GraphicExport aExporter(mpFS, mpFB, meDocumentType); return aExporter.writeToStorage(rGraphic, bRelPathToMedia, eHint); } void DrawingML::WriteMediaNonVisualProperties(const css::uno::Reference& xShape) { SdrMediaObj* pMediaObj = dynamic_cast(SdrObject::getSdrObjectFromXShape(xShape)); if (!pMediaObj) return; // extension OUString aExtension; const OUString& rURL(pMediaObj->getURL()); int nLastDot = rURL.lastIndexOf('.'); if (nLastDot >= 0) aExtension = rURL.copy(nLastDot); bool bEmbed = rURL.startsWith("vnd.sun.star.Package:"); Relationship eMediaType = Relationship::VIDEO; // mime type #if HAVE_FEATURE_AVMEDIA OUString aMimeType(pMediaObj->getMediaProperties().getMimeType()); #else OUString aMimeType("none"); #endif if (aMimeType.startsWith("audio/")) { eMediaType = Relationship::AUDIO; } else if (aMimeType == "application/vnd.sun.star.media") { // try to set something better // TODO fix the importer to actually set the mimetype on import if (aExtension.equalsIgnoreAsciiCase(".avi")) aMimeType = "video/x-msvideo"; else if (aExtension.equalsIgnoreAsciiCase(".flv")) aMimeType = "video/x-flv"; else if (aExtension.equalsIgnoreAsciiCase(".mp4")) aMimeType = "video/mp4"; else if (aExtension.equalsIgnoreAsciiCase(".mov")) aMimeType = "video/quicktime"; else if (aExtension.equalsIgnoreAsciiCase(".ogv")) aMimeType = "video/ogg"; else if (aExtension.equalsIgnoreAsciiCase(".wmv")) aMimeType = "video/x-ms-wmv"; else if (aExtension.equalsIgnoreAsciiCase(".wav")) { aMimeType = "audio/x-wav"; eMediaType = Relationship::AUDIO; } else if (aExtension.equalsIgnoreAsciiCase(".m4a")) { aMimeType = "audio/mp4"; eMediaType = Relationship::AUDIO; } else if (aExtension.equalsIgnoreAsciiCase(".mp3")) { aMimeType = "audio/mp3"; eMediaType = Relationship::AUDIO; } } OUString aVideoFileRelId; OUString aMediaRelId; if (bEmbed) { sal_Int32 nImageCount = GraphicExportCache::get().nextImageCount(); OUString sFileName = GetComponentDir() + u"/media/media"_ustr + OUString::number(nImageCount) + aExtension; // copy the video stream Reference xOutStream = mpFB->openFragmentStream(sFileName, aMimeType); uno::Reference xInputStream(pMediaObj->GetInputStream()); comphelper::OStorageHelper::CopyInputToOutput(xInputStream, xOutStream); xOutStream->closeOutput(); // create the relation OUString aPath = GetRelationCompPrefix() + u"media/media"_ustr + OUString::number(nImageCount) + aExtension; aVideoFileRelId = mpFB->addRelation(mpFS->getOutputStream(), oox::getRelationship(eMediaType), aPath); aMediaRelId = mpFB->addRelation(mpFS->getOutputStream(), oox::getRelationship(Relationship::MEDIA), aPath); } else { aVideoFileRelId = mpFB->addRelation(mpFS->getOutputStream(), oox::getRelationship(eMediaType), rURL, true); aMediaRelId = mpFB->addRelation(mpFS->getOutputStream(), oox::getRelationship(Relationship::MEDIA), rURL, true); } GetFS()->startElementNS(XML_p, XML_nvPr); GetFS()->singleElementNS(XML_a, eMediaType == Relationship::VIDEO ? XML_videoFile : XML_audioFile, FSNS(XML_r, XML_link), aVideoFileRelId); GetFS()->startElementNS(XML_p, XML_extLst); // media extensions; google this ID for details GetFS()->startElementNS(XML_p, XML_ext, XML_uri, "{DAA4B4D4-6D71-4841-9C94-3DE7FCFB9230}"); GetFS()->singleElementNS(XML_p14, XML_media, bEmbed? FSNS(XML_r, XML_embed): FSNS(XML_r, XML_link), aMediaRelId); GetFS()->endElementNS(XML_p, XML_ext); GetFS()->endElementNS(XML_p, XML_extLst); GetFS()->endElementNS(XML_p, XML_nvPr); } void DrawingML::WriteImageBrightnessContrastTransparence(uno::Reference const & rXPropSet) { sal_Int16 nBright = 0; sal_Int32 nContrast = 0; sal_Int32 nTransparence = 0; if (GetProperty(rXPropSet, "AdjustLuminance")) nBright = mAny.get(); if (GetProperty(rXPropSet, "AdjustContrast")) nContrast = mAny.get(); // Used for shapes with picture fill if (GetProperty(rXPropSet, "FillTransparence")) nTransparence = mAny.get(); // Used for pictures if (nTransparence == 0 && GetProperty(rXPropSet, "Transparency")) nTransparence = static_cast(mAny.get()); if (GetProperty(rXPropSet, "GraphicColorMode")) { drawing::ColorMode aColorMode; mAny >>= aColorMode; if (aColorMode == drawing::ColorMode_GREYS) mpFS->singleElementNS(XML_a, XML_grayscl); else if (aColorMode == drawing::ColorMode_MONO) //black/white has a 0,5 threshold in LibreOffice mpFS->singleElementNS(XML_a, XML_biLevel, XML_thresh, OString::number(50000)); else if (aColorMode == drawing::ColorMode_WATERMARK) { //map watermark with mso washout nBright = 70; nContrast = -70; } } if (nBright || nContrast) { mpFS->singleElementNS(XML_a, XML_lum, XML_bright, sax_fastparser::UseIf(OString::number(nBright * 1000), nBright != 0), XML_contrast, sax_fastparser::UseIf(OString::number(nContrast * 1000), nContrast != 0)); } if (nTransparence) { sal_Int32 nAlphaMod = (100 - nTransparence ) * PER_PERCENT; mpFS->singleElementNS(XML_a, XML_alphaModFix, XML_amt, OString::number(nAlphaMod)); } } void DrawingML::WriteXGraphicBlip(uno::Reference const & rXPropSet, uno::Reference const & rxGraphic, bool bRelPathToMedia) { OUString sRelId; if (!rxGraphic.is()) return; Graphic aGraphic(rxGraphic); sRelId = writeGraphicToStorage(aGraphic, bRelPathToMedia); mpFS->startElementNS(XML_a, XML_blip, FSNS(XML_r, XML_embed), sRelId); auto pVectorGraphicDataPtr = aGraphic.getVectorGraphicData(); if (pVectorGraphicDataPtr && pVectorGraphicDataPtr->getType() == VectorGraphicDataType::Svg) { GraphicExport aExporter(mpFS, mpFB, meDocumentType); OUString sSvgRelId = aExporter.writeToStorage(aGraphic, bRelPathToMedia, GraphicExport::TypeHint::SVG); if (!sSvgRelId.isEmpty()) aExporter.writeSvgExtension(sSvgRelId); } WriteImageBrightnessContrastTransparence(rXPropSet); WriteArtisticEffect(rXPropSet); mpFS->endElementNS(XML_a, XML_blip); } void DrawingML::WriteXGraphicBlipMode(uno::Reference const & rXPropSet, uno::Reference const & rxGraphic, css::awt::Size const& rSize) { BitmapMode eBitmapMode(BitmapMode_NO_REPEAT); if (GetProperty(rXPropSet, "FillBitmapMode")) mAny >>= eBitmapMode; SAL_INFO("oox.shape", "fill bitmap mode: " << int(eBitmapMode)); switch (eBitmapMode) { case BitmapMode_REPEAT: WriteXGraphicTile(rXPropSet, rxGraphic, rSize); break; case BitmapMode_STRETCH: WriteXGraphicStretch(rXPropSet, rxGraphic); break; case BitmapMode_NO_REPEAT: WriteXGraphicCustomPosition(rXPropSet, rxGraphic, rSize); break; default: break; } } void DrawingML::WriteBlipOrNormalFill(const Reference& xPropSet, const OUString& rURLPropName, const awt::Size& rSize) { // check for blip and otherwise fall back to normal fill // we always store normal fill properties but OOXML // uses a choice between our fill props and BlipFill if (GetProperty ( xPropSet, rURLPropName )) WriteBlipFill( xPropSet, rURLPropName ); else WriteFill(xPropSet, rSize); } void DrawingML::WriteBlipFill(const Reference& rXPropSet, const OUString& sURLPropName, const awt::Size& rSize) { WriteBlipFill( rXPropSet, rSize, sURLPropName, XML_a ); } void DrawingML::WriteBlipFill(const Reference& rXPropSet, const awt::Size& rSize, const OUString& sURLPropName, sal_Int32 nXmlNamespace) { if ( !GetProperty( rXPropSet, sURLPropName ) ) return; uno::Reference xGraphic; if (mAny.has>()) { uno::Reference xBitmap = mAny.get>(); if (xBitmap.is()) xGraphic.set(xBitmap, uno::UNO_QUERY); } else if (mAny.has>()) { xGraphic = mAny.get>(); } if (xGraphic.is()) { bool bWriteMode = false; if (sURLPropName == "FillBitmap" || sURLPropName == "BackGraphic") bWriteMode = true; WriteXGraphicBlipFill(rXPropSet, xGraphic, nXmlNamespace, bWriteMode, false, rSize); } } void DrawingML::WriteXGraphicBlipFill(uno::Reference const & rXPropSet, uno::Reference const & rxGraphic, sal_Int32 nXmlNamespace, bool bWriteMode, bool bRelPathToMedia, css::awt::Size const& rSize) { if (!rxGraphic.is() ) return; mpFS->startElementNS(nXmlNamespace , XML_blipFill, XML_rotWithShape, "0"); WriteXGraphicBlip(rXPropSet, rxGraphic, bRelPathToMedia); if (GetDocumentType() != DOCUMENT_DOCX) { // Write the crop rectangle of Impress as a source rectangle. WriteSrcRectXGraphic(rXPropSet, rxGraphic); } if (bWriteMode) { WriteXGraphicBlipMode(rXPropSet, rxGraphic, rSize); } else if(GetProperty(rXPropSet, "FillBitmapStretch")) { bool bStretch = mAny.get(); if (bStretch) { WriteXGraphicStretch(rXPropSet, rxGraphic); } } mpFS->endElementNS(nXmlNamespace, XML_blipFill); } void DrawingML::WritePattFill( const Reference< XPropertySet >& rXPropSet ) { if ( GetProperty( rXPropSet, "FillHatch" ) ) { drawing::Hatch aHatch; mAny >>= aHatch; WritePattFill(rXPropSet, aHatch); } } void DrawingML::WritePattFill(const Reference& rXPropSet, const css::drawing::Hatch& rHatch) { mpFS->startElementNS(XML_a, XML_pattFill, XML_prst, GetHatchPattern(rHatch)); sal_Int32 nAlpha = MAX_PERCENT; if (GetProperty(rXPropSet, "FillTransparence")) { sal_Int32 nTransparency = 0; mAny >>= nTransparency; nAlpha = (MAX_PERCENT - (PER_PERCENT * nTransparency)); } mpFS->startElementNS(XML_a, XML_fgClr); WriteColor(::Color(ColorTransparency, rHatch.Color), nAlpha); mpFS->endElementNS( XML_a , XML_fgClr ); ::Color nColor = COL_WHITE; if ( GetProperty( rXPropSet, "FillBackground" ) ) { bool isBackgroundFilled = false; mAny >>= isBackgroundFilled; if( isBackgroundFilled ) { if( GetProperty( rXPropSet, "FillColor" ) ) { mAny >>= nColor; } } else nAlpha = 0; } mpFS->startElementNS(XML_a, XML_bgClr); WriteColor(nColor, nAlpha); mpFS->endElementNS( XML_a , XML_bgClr ); mpFS->endElementNS( XML_a , XML_pattFill ); } void DrawingML::WriteGraphicCropProperties(uno::Reference const & rXPropSet, Size const & rOriginalSize, MapMode const & rMapMode) { if (!GetProperty(rXPropSet, "GraphicCrop")) return; css::text::GraphicCrop aGraphicCropStruct; mAny >>= aGraphicCropStruct; if(GetProperty(rXPropSet, "CustomShapeGeometry")) { // tdf#134210 GraphicCrop property is handled in import filter because of LibreOffice has not core // feature. We cropped the bitmap physically and MSO shouldn't crop bitmap one more time. When we // have core feature for graphic cropping in custom shapes, we should uncomment the code anymore. mpFS->singleElementNS( XML_a, XML_srcRect); } else { Size aOriginalSize(rOriginalSize); // GraphicCrop is in mm100, so in case the original size is in pixels, convert it over. if (rMapMode.GetMapUnit() == MapUnit::MapPixel) aOriginalSize = Application::GetDefaultDevice()->PixelToLogic(aOriginalSize, MapMode(MapUnit::Map100thMM)); if ( (0 != aGraphicCropStruct.Left) || (0 != aGraphicCropStruct.Top) || (0 != aGraphicCropStruct.Right) || (0 != aGraphicCropStruct.Bottom) ) { mpFS->singleElementNS( XML_a, XML_srcRect, XML_l, OString::number(rtl::math::round(aGraphicCropStruct.Left * 100000.0 / aOriginalSize.Width())), XML_t, OString::number(rtl::math::round(aGraphicCropStruct.Top * 100000.0 / aOriginalSize.Height())), XML_r, OString::number(rtl::math::round(aGraphicCropStruct.Right * 100000.0 / aOriginalSize.Width())), XML_b, OString::number(rtl::math::round(aGraphicCropStruct.Bottom * 100000.0 / aOriginalSize.Height())) ); } } } void DrawingML::WriteSrcRectXGraphic(uno::Reference const & rxPropertySet, uno::Reference const & rxGraphic) { Graphic aGraphic(rxGraphic); Size aOriginalSize = aGraphic.GetPrefSize(); const MapMode& rMapMode = aGraphic.GetPrefMapMode(); WriteGraphicCropProperties(rxPropertySet, aOriginalSize, rMapMode); } void DrawingML::WriteXGraphicStretch(uno::Reference const & rXPropSet, uno::Reference const & rxGraphic) { if (GetDocumentType() != DOCUMENT_DOCX) { // Limiting the area used for stretching is not supported in Impress. mpFS->singleElementNS(XML_a, XML_stretch); return; } mpFS->startElementNS(XML_a, XML_stretch); bool bCrop = false; if (GetProperty(rXPropSet, "GraphicCrop")) { css::text::GraphicCrop aGraphicCropStruct; mAny >>= aGraphicCropStruct; if ((0 != aGraphicCropStruct.Left) || (0 != aGraphicCropStruct.Top) || (0 != aGraphicCropStruct.Right) || (0 != aGraphicCropStruct.Bottom)) { Graphic aGraphic(rxGraphic); Size aOriginalSize(aGraphic.GetPrefSize()); mpFS->singleElementNS(XML_a, XML_fillRect, XML_l, OString::number(((aGraphicCropStruct.Left) * 100000) / aOriginalSize.Width()), XML_t, OString::number(((aGraphicCropStruct.Top) * 100000) / aOriginalSize.Height()), XML_r, OString::number(((aGraphicCropStruct.Right) * 100000) / aOriginalSize.Width()), XML_b, OString::number(((aGraphicCropStruct.Bottom) * 100000) / aOriginalSize.Height())); bCrop = true; } } if (!bCrop) { mpFS->singleElementNS(XML_a, XML_fillRect); } mpFS->endElementNS(XML_a, XML_stretch); } static OUString lclConvertRectanglePointToToken(RectanglePoint eRectanglePoint) { OUString sAlignment; switch (eRectanglePoint) { case RectanglePoint_LEFT_TOP: sAlignment = "tl"; break; case RectanglePoint_MIDDLE_TOP: sAlignment = "t"; break; case RectanglePoint_RIGHT_TOP: sAlignment = "tr"; break; case RectanglePoint_LEFT_MIDDLE: sAlignment = "l"; break; case RectanglePoint_MIDDLE_MIDDLE: sAlignment = "ctr"; break; case RectanglePoint_RIGHT_MIDDLE: sAlignment = "r"; break; case RectanglePoint_LEFT_BOTTOM: sAlignment = "bl"; break; case RectanglePoint_MIDDLE_BOTTOM: sAlignment = "b"; break; case RectanglePoint_RIGHT_BOTTOM: sAlignment = "br"; break; default: break; } return sAlignment; } void DrawingML::WriteXGraphicTile(uno::Reference const& rXPropSet, uno::Reference const& rxGraphic, css::awt::Size const& rSize) { Graphic aGraphic(rxGraphic); Size aOriginalSize(aGraphic.GetPrefSize()); const MapMode& rMapMode = aGraphic.GetPrefMapMode(); // if the original size is in pixel, convert it to mm100 if (rMapMode.GetMapUnit() == MapUnit::MapPixel) aOriginalSize = Application::GetDefaultDevice()->PixelToLogic(aOriginalSize, MapMode(MapUnit::Map100thMM)); sal_Int32 nSizeX = 0; sal_Int32 nOffsetX = 0; if (GetProperty(rXPropSet, "FillBitmapSizeX")) { mAny >>= nSizeX; if (GetProperty(rXPropSet, "FillBitmapPositionOffsetX")) { sal_Int32 nX = (nSizeX != 0) ? nSizeX : aOriginalSize.Width(); if (nX < 0 && rSize.Width > 0) nX = rSize.Width * std::abs(nX) / 100; nOffsetX = (*o3tl::doAccess(mAny)) * nX * 3.6; } // convert the X size of bitmap to a percentage if (nSizeX > 0) nSizeX = double(nSizeX) / aOriginalSize.Width() * 100000; else if (nSizeX < 0) nSizeX *= 1000; else nSizeX = 100000; } sal_Int32 nSizeY = 0; sal_Int32 nOffsetY = 0; if (GetProperty(rXPropSet, "FillBitmapSizeY")) { mAny >>= nSizeY; if (GetProperty(rXPropSet, "FillBitmapPositionOffsetY")) { sal_Int32 nY = (nSizeY != 0) ? nSizeY : aOriginalSize.Height(); if (nY < 0 && rSize.Height > 0) nY = rSize.Height * std::abs(nY) / 100; nOffsetY = (*o3tl::doAccess(mAny)) * nY * 3.6; } // convert the Y size of bitmap to a percentage if (nSizeY > 0) nSizeY = double(nSizeY) / aOriginalSize.Height() * 100000; else if (nSizeY < 0) nSizeY *= 1000; else nSizeY = 100000; } // if the "Scale" setting is checked in the images settings dialog. if (nSizeX < 0 && nSizeY < 0) { if (rSize.Width != 0 && rSize.Height != 0) { nSizeX = rSize.Width / double(aOriginalSize.Width()) * std::abs(nSizeX); nSizeY = rSize.Height / double(aOriginalSize.Height()) * std::abs(nSizeY); } else { nSizeX = std::abs(nSizeX); nSizeY = std::abs(nSizeY); } } OUString sRectanglePoint; if (GetProperty(rXPropSet, "FillBitmapRectanglePoint")) sRectanglePoint = lclConvertRectanglePointToToken(*o3tl::doAccess(mAny)); mpFS->singleElementNS(XML_a, XML_tile, XML_tx, OUString::number(nOffsetX), XML_ty, OUString::number(nOffsetY), XML_sx, OUString::number(nSizeX), XML_sy, OUString::number(nSizeY), XML_algn, sRectanglePoint); } void DrawingML::WriteXGraphicCustomPosition(uno::Reference const& rXPropSet, uno::Reference const& rxGraphic, css::awt::Size const& rSize) { Graphic aGraphic(rxGraphic); Size aOriginalSize(aGraphic.GetPrefSize()); const MapMode& rMapMode = aGraphic.GetPrefMapMode(); // if the original size is in pixel, convert it to mm100 if (rMapMode.GetMapUnit() == MapUnit::MapPixel) aOriginalSize = Application::GetDefaultDevice()->PixelToLogic(aOriginalSize, MapMode(MapUnit::Map100thMM)); double nSizeX = 0; if (GetProperty(rXPropSet, "FillBitmapSizeX")) { mAny >>= nSizeX; if (nSizeX <= 0) { if (nSizeX == 0) nSizeX = aOriginalSize.Width(); else nSizeX /= 100; // percentage } } double nSizeY = 0; if (GetProperty(rXPropSet, "FillBitmapSizeY")) { mAny >>= nSizeY; if (nSizeY <= 0) { if (nSizeY == 0) nSizeY = aOriginalSize.Height(); else nSizeY /= 100; // percentage } } if (nSizeX < 0 && nSizeY < 0 && rSize.Width != 0 && rSize.Height != 0) { nSizeX = rSize.Width * std::abs(nSizeX); nSizeY = rSize.Height * std::abs(nSizeY); } sal_Int32 nL = 0, nT = 0, nR = 0, nB = 0; if (GetProperty(rXPropSet, "FillBitmapRectanglePoint") && rSize.Width != 0 && rSize.Height != 0) { sal_Int32 nWidth = (1 - (nSizeX / rSize.Width)) * 100000; sal_Int32 nHeight = (1 - (nSizeY / rSize.Height)) * 100000; switch (*o3tl::doAccess(mAny)) { case RectanglePoint_LEFT_TOP: nR = nWidth; nB = nHeight; break; case RectanglePoint_RIGHT_TOP: nL = nWidth; nB = nHeight; break; case RectanglePoint_LEFT_BOTTOM: nR = nWidth; nT = nHeight; break; case RectanglePoint_RIGHT_BOTTOM: nL = nWidth; nT = nHeight; break; case RectanglePoint_LEFT_MIDDLE: nR = nWidth; nT = nB = nHeight / 2; break; case RectanglePoint_RIGHT_MIDDLE: nL = nWidth; nT = nB = nHeight / 2; break; case RectanglePoint_MIDDLE_TOP: nB = nHeight; nL = nR = nWidth / 2; break; case RectanglePoint_MIDDLE_BOTTOM: nT = nHeight; nL = nR = nWidth / 2; break; case RectanglePoint_MIDDLE_MIDDLE: nL = nR = nWidth / 2; nT = nB = nHeight / 2; break; default: break; } } mpFS->startElementNS(XML_a, XML_stretch); mpFS->singleElementNS(XML_a, XML_fillRect, XML_l, sax_fastparser::UseIf(OString::number(nL), nL != 0), XML_t, sax_fastparser::UseIf(OString::number(nT), nT != 0), XML_r, sax_fastparser::UseIf(OString::number(nR), nR != 0), XML_b, sax_fastparser::UseIf(OString::number(nB), nB != 0)); mpFS->endElementNS(XML_a, XML_stretch); } namespace { bool IsTopGroupObj(const uno::Reference& xShape) { SdrObject* pObject = SdrObject::getSdrObjectFromXShape(xShape); if (!pObject) return false; if (pObject->getParentSdrObjectFromSdrObject()) return false; return pObject->IsGroupObject(); } } void DrawingML::WriteTransformation(const Reference< XShape >& xShape, const tools::Rectangle& rRect, sal_Int32 nXmlNamespace, bool bFlipH, bool bFlipV, sal_Int32 nRotation, bool bIsGroupShape) { mpFS->startElementNS( nXmlNamespace, XML_xfrm, XML_flipH, sax_fastparser::UseIf("1", bFlipH), XML_flipV, sax_fastparser::UseIf("1", bFlipV), XML_rot, sax_fastparser::UseIf(OString::number(nRotation), nRotation % 21600000 != 0)); sal_Int32 nLeft = rRect.Left(); sal_Int32 nTop = rRect.Top(); if (GetDocumentType() == DOCUMENT_DOCX && !m_xParent.is()) { nLeft = 0; nTop = 0; } sal_Int32 nChildLeft = nLeft; sal_Int32 nChildTop = nTop; mpFS->singleElementNS(XML_a, XML_off, XML_x, OString::number(oox::drawingml::convertHmmToEmu(nLeft)), XML_y, OString::number(oox::drawingml::convertHmmToEmu(nTop))); mpFS->singleElementNS(XML_a, XML_ext, XML_cx, OString::number(oox::drawingml::convertHmmToEmu(rRect.GetWidth())), XML_cy, OString::number(oox::drawingml::convertHmmToEmu(rRect.GetHeight()))); if (bIsGroupShape && (GetDocumentType() != DOCUMENT_DOCX || IsTopGroupObj(xShape))) { mpFS->singleElementNS(XML_a, XML_chOff, XML_x, OString::number(oox::drawingml::convertHmmToEmu(nChildLeft)), XML_y, OString::number(oox::drawingml::convertHmmToEmu(nChildTop))); mpFS->singleElementNS(XML_a, XML_chExt, XML_cx, OString::number(oox::drawingml::convertHmmToEmu(rRect.GetWidth())), XML_cy, OString::number(oox::drawingml::convertHmmToEmu(rRect.GetHeight()))); } mpFS->endElementNS( nXmlNamespace, XML_xfrm ); } void DrawingML::WriteShapeTransformation( const Reference< XShape >& rXShape, sal_Int32 nXmlNamespace, bool bFlipH, bool bFlipV, bool bSuppressRotation, bool bSuppressFlipping, bool bFlippedBeforeRotation ) { SAL_INFO("oox.shape", "write shape transformation"); Degree100 nRotation; Degree100 nCameraRotation; awt::Point aPos = rXShape->getPosition(); awt::Size aSize = rXShape->getSize(); bool bFlipHWrite = bFlipH && !bSuppressFlipping; bool bFlipVWrite = bFlipV && !bSuppressFlipping; bFlipH = bFlipH && !bFlippedBeforeRotation; bFlipV = bFlipV && !bFlippedBeforeRotation; if (GetDocumentType() == DOCUMENT_DOCX && m_xParent.is()) { awt::Point aParentPos = m_xParent->getPosition(); aPos.X -= aParentPos.X; aPos.Y -= aParentPos.Y; } if ( aSize.Width < 0 ) aSize.Width = 1000; if ( aSize.Height < 0 ) aSize.Height = 1000; if (!bSuppressRotation) { SdrObject* pShape = SdrObject::getSdrObjectFromXShape(rXShape); nRotation = pShape ? pShape->GetRotateAngle() : 0_deg100; if ( GetDocumentType() != DOCUMENT_DOCX ) { int faccos=bFlipV ? -1 : 1; int facsin=bFlipH ? -1 : 1; aPos.X-=(1-faccos*cos(toRadians(nRotation)))*aSize.Width/2-facsin*sin(toRadians(nRotation))*aSize.Height/2; aPos.Y-=(1-faccos*cos(toRadians(nRotation)))*aSize.Height/2+facsin*sin(toRadians(nRotation))*aSize.Width/2; } else if (m_xParent.is() && nRotation != 0_deg100) { // Position for rotated shapes inside group is not set by DocxSdrExport. basegfx::B2DRange aRect(-aSize.Width / 2.0, -aSize.Height / 2.0, aSize.Width / 2.0, aSize.Height / 2.0); basegfx::B2DHomMatrix aRotateMatrix = basegfx::utils::createRotateB2DHomMatrix(toRadians(nRotation)); aRect.transform(aRotateMatrix); aPos.X += -aSize.Width / 2.0 - aRect.getMinX(); aPos.Y += -aSize.Height / 2.0 - aRect.getMinY(); } // The RotateAngle property's value is independent from any flipping, and that's exactly what we need here. uno::Reference xPropertySet(rXShape, uno::UNO_QUERY); uno::Reference xPropertySetInfo = xPropertySet->getPropertySetInfo(); if (xPropertySetInfo->hasPropertyByName("RotateAngle")) { sal_Int32 nTmp; if (xPropertySet->getPropertyValue("RotateAngle") >>= nTmp) nRotation = Degree100(nTmp); } // tdf#133037: restore original rotate angle before output if (nRotation && xPropertySetInfo->hasPropertyByName(UNO_NAME_MISC_OBJ_INTEROPGRABBAG)) { uno::Sequence aGrabBagProps; xPropertySet->getPropertyValue(UNO_NAME_MISC_OBJ_INTEROPGRABBAG) >>= aGrabBagProps; auto p3DEffectProps = std::find_if(std::cbegin(aGrabBagProps), std::cend(aGrabBagProps), [](const PropertyValue& rProp) { return rProp.Name == "3DEffectProperties"; }); if (p3DEffectProps != std::cend(aGrabBagProps)) { uno::Sequence a3DEffectProps; p3DEffectProps->Value >>= a3DEffectProps; auto pCameraProps = std::find_if(std::cbegin(a3DEffectProps), std::cend(a3DEffectProps), [](const PropertyValue& rProp) { return rProp.Name == "Camera"; }); if (pCameraProps != std::cend(a3DEffectProps)) { uno::Sequence aCameraProps; pCameraProps->Value >>= aCameraProps; auto pZRotationProp = std::find_if(std::cbegin(aCameraProps), std::cend(aCameraProps), [](const PropertyValue& rProp) { return rProp.Name == "rotRev"; }); if (pZRotationProp != std::cend(aCameraProps)) { sal_Int32 nTmp = 0; pZRotationProp->Value >>= nTmp; nCameraRotation = NormAngle36000(Degree100(nTmp / -600)); } } } } } // OOXML flips shapes before rotating them. if(bFlipH != bFlipV) nRotation = 36000_deg100 - nRotation; WriteTransformation(rXShape, tools::Rectangle(Point(aPos.X, aPos.Y), Size(aSize.Width, aSize.Height)), nXmlNamespace, bFlipHWrite, bFlipVWrite, ExportRotateClockwisify(nRotation + nCameraRotation), IsGroupShape( rXShape )); } static OUString lcl_GetTarget(const css::uno::Reference& xModel, OUString& rURL) { Reference xDPS(xModel, uno::UNO_QUERY_THROW); Reference xDrawPages(xDPS->getDrawPages(), uno::UNO_SET_THROW); sal_uInt32 nPageCount = xDrawPages->getCount(); OUString sTarget; for (sal_uInt32 i = 0; i < nPageCount; ++i) { Reference xDrawPage; xDrawPages->getByIndex(i) >>= xDrawPage; Reference xNamed(xDrawPage, UNO_QUERY); if (!xNamed) continue; OUString sSlideName = "#" + xNamed->getName(); if (rURL == sSlideName) { sTarget = "slide" + OUString::number(i + 1) + ".xml"; break; } } if (sTarget.isEmpty()) { sal_Int32 nSplit = rURL.lastIndexOf(' '); if (nSplit > -1) sTarget = OUString::Concat("slide") + rURL.subView(nSplit + 1) + ".xml"; } return sTarget; } void DrawingML::WriteRunProperties( const Reference< XPropertySet >& rRun, bool bIsField, sal_Int32 nElement, bool bCheckDirect,bool& rbOverridingCharHeight, sal_Int32& rnCharHeight, sal_Int16 nScriptType, const Reference< XPropertySet >& rXShapePropSet) { Reference< XPropertySet > rXPropSet = rRun; Reference< XPropertyState > rXPropState( rRun, UNO_QUERY ); OUString usLanguage; PropertyState eState; bool bComplex = ( nScriptType == css::i18n::ScriptType::COMPLEX ); const char* bold = "0"; const char* italic = nullptr; const char* underline = nullptr; const char* strikeout = nullptr; const char* cap = nullptr; sal_Int32 nSize = 1800; sal_Int32 nCharEscapement = 0; sal_Int32 nCharKerning = 0; sal_Int32 nCharEscapementHeight = 0; if ( nElement == XML_endParaRPr && rbOverridingCharHeight ) { nSize = rnCharHeight; } else if (GetProperty(rXPropSet, "CharHeight")) { nSize = static_cast(100*(*o3tl::doAccess(mAny))); if ( nElement == XML_rPr || nElement == XML_defRPr ) { rbOverridingCharHeight = true; rnCharHeight = nSize; } } if (GetProperty(rXPropSet, "CharKerning")) nCharKerning = static_cast(*o3tl::doAccess(mAny)); /** While setting values in propertymap, * CharKerning converted using GetTextSpacingPoint * i.e set @ https://opengrok.libreoffice.org/xref/core/oox/source/drawingml/textcharacterproperties.cxx#129 * therefore to get original value CharKerning need to be convert. * https://opengrok.libreoffice.org/xref/core/oox/source/drawingml/drawingmltypes.cxx#95 **/ nCharKerning = ((nCharKerning * 720)-360) / 254; if ((bComplex && GetProperty(rXPropSet, "CharWeightComplex")) || GetProperty(rXPropSet, "CharWeight")) { if ( *o3tl::doAccess(mAny) >= awt::FontWeight::SEMIBOLD ) bold = "1"; } if ((bComplex && GetProperty(rXPropSet, "CharPostureComplex")) || GetProperty(rXPropSet, "CharPosture")) switch ( *o3tl::doAccess(mAny) ) { case awt::FontSlant_OBLIQUE : case awt::FontSlant_ITALIC : italic = "1"; break; default: break; } if ((bCheckDirect && GetPropertyAndState(rXPropSet, rXPropState, "CharUnderline", eState) && eState == beans::PropertyState_DIRECT_VALUE) || GetProperty(rXPropSet, "CharUnderline")) { switch ( *o3tl::doAccess(mAny) ) { case awt::FontUnderline::SINGLE : underline = "sng"; break; case awt::FontUnderline::DOUBLE : underline = "dbl"; break; case awt::FontUnderline::DOTTED : underline = "dotted"; break; case awt::FontUnderline::DASH : underline = "dash"; break; case awt::FontUnderline::LONGDASH : underline = "dashLong"; break; case awt::FontUnderline::DASHDOT : underline = "dotDash"; break; case awt::FontUnderline::DASHDOTDOT : underline = "dotDotDash"; break; case awt::FontUnderline::WAVE : underline = "wavy"; break; case awt::FontUnderline::DOUBLEWAVE : underline = "wavyDbl"; break; case awt::FontUnderline::BOLD : underline = "heavy"; break; case awt::FontUnderline::BOLDDOTTED : underline = "dottedHeavy"; break; case awt::FontUnderline::BOLDDASH : underline = "dashHeavy"; break; case awt::FontUnderline::BOLDLONGDASH : underline = "dashLongHeavy"; break; case awt::FontUnderline::BOLDDASHDOT : underline = "dotDashHeavy"; break; case awt::FontUnderline::BOLDDASHDOTDOT : underline = "dotDotDashHeavy"; break; case awt::FontUnderline::BOLDWAVE : underline = "wavyHeavy"; break; } } if ((bCheckDirect && GetPropertyAndState(rXPropSet, rXPropState, "CharStrikeout", eState) && eState == beans::PropertyState_DIRECT_VALUE) || GetProperty(rXPropSet, "CharStrikeout")) { switch ( *o3tl::doAccess(mAny) ) { case awt::FontStrikeout::NONE : strikeout = "noStrike"; break; case awt::FontStrikeout::SINGLE : // LibO supports further values of character // strikeout, OOXML standard (20.1.10.78, // ST_TextStrikeType) however specifies only // 3 - single, double and none. Approximate // the remaining ones by single strike (better // some strike than none at all). // TODO: figure out how to do this better case awt::FontStrikeout::BOLD : case awt::FontStrikeout::SLASH : case awt::FontStrikeout::X : strikeout = "sngStrike"; break; case awt::FontStrikeout::DOUBLE : strikeout = "dblStrike"; break; } } bool bLang = false; switch(nScriptType) { case css::i18n::ScriptType::ASIAN: bLang = GetProperty(rXPropSet, "CharLocaleAsian"); break; case css::i18n::ScriptType::COMPLEX: bLang = GetProperty(rXPropSet, "CharLocaleComplex"); break; default: bLang = GetProperty(rXPropSet, "CharLocale"); break; } if (bLang) { css::lang::Locale aLocale; mAny >>= aLocale; LanguageTag aLanguageTag( aLocale); if (!aLanguageTag.isSystemLocale()) usLanguage = aLanguageTag.getBcp47MS(); } if (GetPropertyAndState(rXPropSet, rXPropState, "CharEscapement", eState) && eState == beans::PropertyState_DIRECT_VALUE) mAny >>= nCharEscapement; if (GetPropertyAndState(rXPropSet, rXPropState, "CharEscapementHeight", eState) && eState == beans::PropertyState_DIRECT_VALUE) mAny >>= nCharEscapementHeight; if (DFLT_ESC_AUTO_SUPER == nCharEscapement) { // Raised by the differences between the ascenders (ascent = baseline to top of highest letter). // The ascent is generally about 80% of the total font height. // That is why DFLT_ESC_PROP (58) leads to 33% (DFLT_ESC_SUPER) nCharEscapement = .8 * (100 - nCharEscapementHeight); } else if (DFLT_ESC_AUTO_SUB == nCharEscapement) { // Lowered by the differences between the descenders (descent = baseline to bottom of lowest letter). // The descent is generally about 20% of the total font height. // That is why DFLT_ESC_PROP (58) leads to 8% (DFLT_ESC_SUB) nCharEscapement = .2 * -(100 - nCharEscapementHeight); } if (nCharEscapement && nCharEscapementHeight) { nSize = (nSize * nCharEscapementHeight) / 100; // MSO uses default ~58% size nSize = (nSize / 0.58); } if (GetProperty(rXPropSet, "CharCaseMap")) { switch ( *o3tl::doAccess(mAny) ) { case CaseMap::UPPERCASE : cap = "all"; break; case CaseMap::SMALLCAPS : cap = "small"; break; } } mpFS->startElementNS( XML_a, nElement, XML_b, bold, XML_i, italic, XML_lang, sax_fastparser::UseIf(usLanguage, !usLanguage.isEmpty()), XML_sz, OString::number(nSize), // For Condensed character spacing spc value is negative. XML_spc, sax_fastparser::UseIf(OString::number(nCharKerning), nCharKerning != 0), XML_strike, strikeout, XML_u, underline, XML_baseline, sax_fastparser::UseIf(OString::number(nCharEscapement*1000), nCharEscapement != 0), XML_cap, cap ); // Fontwork-shapes in LO have text outline and fill from shape stroke and shape fill // PowerPoint has this as run properties if (IsFontworkShape(rXShapePropSet)) { WriteOutline(rXShapePropSet); WriteBlipOrNormalFill(rXShapePropSet, "Graphic"); WriteShapeEffects(rXShapePropSet); } else { // mso doesn't like text color to be placed after typeface if ((bCheckDirect && GetPropertyAndState(rXPropSet, rXPropState, "CharColor", eState) && eState == beans::PropertyState_DIRECT_VALUE) || GetProperty(rXPropSet, "CharColor")) { ::Color color( ColorTransparency, *o3tl::doAccess(mAny) ); SAL_INFO("oox.shape", "run color: " << sal_uInt32(color) << " auto: " << sal_uInt32(COL_AUTO)); // WriteSolidFill() handles MAX_PERCENT as "no transparency". sal_Int32 nTransparency = MAX_PERCENT; if (rXPropSet->getPropertySetInfo()->hasPropertyByName("CharTransparence")) { rXPropSet->getPropertyValue("CharTransparence") >>= nTransparency; // UNO scale is 0..100, OOXML scale is 0..100000; also UNO tracks transparency, OOXML // tracks opacity. nTransparency = MAX_PERCENT - (nTransparency * PER_PERCENT); } bool bContoured = false; if (GetProperty(rXPropSet, "CharContoured")) bContoured = *o3tl::doAccess(mAny); // tdf#127696 If the CharContoured is true, then the text color is white and the outline color is the CharColor. if (bContoured) { mpFS->startElementNS(XML_a, XML_ln); if (color == COL_AUTO) { mbIsBackgroundDark ? WriteSolidFill(COL_WHITE) : WriteSolidFill(COL_BLACK); } else { color.SetAlpha(255); if (!WriteSchemeColor(u"CharComplexColor"_ustr, rXPropSet)) WriteSolidFill(color, nTransparency); } mpFS->endElementNS(XML_a, XML_ln); WriteSolidFill(COL_WHITE); } // tdf#104219 In LibreOffice and MS Office, there are two types of colors: // Automatic and Fixed. OOXML is setting automatic color, by not providing color. else if( color != COL_AUTO ) { color.SetAlpha(255); // TODO: special handle embossed/engraved if (!WriteSchemeColor(u"CharComplexColor"_ustr, rXPropSet)) { WriteSolidFill(color, nTransparency); } } else if (GetDocumentType() == DOCUMENT_PPTX) { // Resolve COL_AUTO for PPTX since MS Powerpoint doesn't have automatic colors. bool bIsTextBackgroundDark = mbIsBackgroundDark; if (rXShapePropSet.is() && GetProperty(rXShapePropSet, "FillStyle") && mAny.get() != FillStyle_NONE && GetProperty(rXShapePropSet, "FillColor")) { ::Color aShapeFillColor(ColorTransparency, mAny.get()); bIsTextBackgroundDark = aShapeFillColor.IsDark(); } if (bIsTextBackgroundDark) WriteSolidFill(COL_WHITE); else WriteSolidFill(COL_BLACK); } } } // tdf#128096, exporting XML_highlight to docx already works fine, // so make sure this code is only run when exporting to pptx, just in case if (GetDocumentType() == DOCUMENT_PPTX) { if (GetProperty(rXPropSet, "CharBackColor")) { ::Color color(ColorTransparency, *o3tl::doAccess(mAny)); if( color != COL_AUTO ) { mpFS->startElementNS(XML_a, XML_highlight); WriteColor( color ); mpFS->endElementNS( XML_a, XML_highlight ); } } } if (underline && ((bCheckDirect && GetPropertyAndState(rXPropSet, rXPropState, "CharUnderlineColor", eState) && eState == beans::PropertyState_DIRECT_VALUE) || GetProperty(rXPropSet, "CharUnderlineColor"))) { ::Color color(ColorTransparency, *o3tl::doAccess(mAny)); // if color is automatic, then we shouldn't write information about color but to take color from character if( color != COL_AUTO ) { mpFS->startElementNS(XML_a, XML_uFill); WriteSolidFill( color ); mpFS->endElementNS( XML_a, XML_uFill ); } else { mpFS->singleElementNS(XML_a, XML_uFillTx); } } if (GetProperty(rXPropSet, "CharFontName")) { const char* const pitch = nullptr; const char* const charset = nullptr; OUString usTypeface; mAny >>= usTypeface; OUString aSubstName( GetSubsFontName( usTypeface, SubsFontFlags::ONLYONE | SubsFontFlags::MS ) ); if (!aSubstName.isEmpty()) usTypeface = aSubstName; mpFS->singleElementNS( XML_a, XML_latin, XML_typeface, usTypeface, XML_pitchFamily, pitch, XML_charset, charset ); } if ((bComplex && (GetPropertyAndState(rXPropSet, rXPropState, "CharFontNameComplex", eState) && eState == beans::PropertyState_DIRECT_VALUE)) || (!bComplex && (GetPropertyAndState(rXPropSet, rXPropState, "CharFontNameAsian", eState) && eState == beans::PropertyState_DIRECT_VALUE))) { const char* const pitch = nullptr; const char* const charset = nullptr; OUString usTypeface; mAny >>= usTypeface; OUString aSubstName( GetSubsFontName( usTypeface, SubsFontFlags::ONLYONE | SubsFontFlags::MS ) ); if (!aSubstName.isEmpty()) usTypeface = aSubstName; mpFS->singleElementNS( XML_a, bComplex ? XML_cs : XML_ea, XML_typeface, usTypeface, XML_pitchFamily, pitch, XML_charset, charset ); } if( bIsField ) { Reference< XTextField > rXTextField; if (GetProperty(rXPropSet, "TextField")) mAny >>= rXTextField; if( rXTextField.is() ) rXPropSet.set( rXTextField, UNO_QUERY ); } // field properties starts here if (GetProperty(rXPropSet, "URL")) { OUString sURL; mAny >>= sURL; if (!sURL.isEmpty()) { if (!sURL.match("#action?jump=")) { bool bExtURL = URLTransformer().isExternalURL(sURL); sURL = bExtURL ? sURL : lcl_GetTarget(GetFB()->getModel(), sURL); OUString sRelId = mpFB->addRelation(mpFS->getOutputStream(), bExtURL ? oox::getRelationship(Relationship::HYPERLINK) : oox::getRelationship(Relationship::SLIDE), sURL, bExtURL); if (bExtURL) mpFS->singleElementNS(XML_a, XML_hlinkClick, FSNS(XML_r, XML_id), sRelId); else mpFS->singleElementNS(XML_a, XML_hlinkClick, FSNS(XML_r, XML_id), sRelId, XML_action, "ppaction://hlinksldjump"); } else { sal_Int32 nIndex = sURL.indexOf('='); std::u16string_view aDestination(sURL.subView(nIndex + 1)); mpFS->singleElementNS(XML_a, XML_hlinkClick, FSNS(XML_r, XML_id), "", XML_action, OUString::Concat("ppaction://hlinkshowjump?jump=") + aDestination); } } } mpFS->endElementNS( XML_a, nElement ); } OUString DrawingML::GetFieldValue( const css::uno::Reference< css::text::XTextRange >& rRun, bool& bIsURLField ) { Reference< XPropertySet > rXPropSet( rRun, UNO_QUERY ); OUString aFieldType, aFieldValue; if (GetProperty(rXPropSet, "TextPortionType")) { aFieldType = *o3tl::doAccess(mAny); SAL_INFO("oox.shape", "field type: " << aFieldType); } if( aFieldType == "TextField" ) { Reference< XTextField > rXTextField; if (GetProperty(rXPropSet, "TextField")) mAny >>= rXTextField; if( rXTextField.is() ) { rXPropSet.set( rXTextField, UNO_QUERY ); if( rXPropSet.is() ) { OUString aFieldKind( rXTextField->getPresentation( true ) ); SAL_INFO("oox.shape", "field kind: " << aFieldKind); if( aFieldKind == "Page" ) { aFieldValue = "slidenum"; } else if( aFieldKind == "Pages" ) { aFieldValue = "slidecount"; } else if( aFieldKind == "PageName" ) { aFieldValue = "slidename"; } else if( aFieldKind == "URL" ) { bIsURLField = true; if (GetProperty(rXPropSet, "Representation")) mAny >>= aFieldValue; } else if(aFieldKind == "Date") { sal_Int32 nNumFmt = -1; rXPropSet->getPropertyValue(UNO_TC_PROP_NUMFORMAT) >>= nNumFmt; aFieldValue = GetDatetimeTypeFromDate(static_cast(nNumFmt)); } else if(aFieldKind == "ExtTime") { sal_Int32 nNumFmt = -1; rXPropSet->getPropertyValue(UNO_TC_PROP_NUMFORMAT) >>= nNumFmt; aFieldValue = GetDatetimeTypeFromTime(static_cast(nNumFmt)); } else if(aFieldKind == "ExtFile") { sal_Int32 nNumFmt = -1; rXPropSet->getPropertyValue(UNO_TC_PROP_FILE_FORMAT) >>= nNumFmt; switch(nNumFmt) { case 0: aFieldValue = "file"; // Path/File name break; case 1: aFieldValue = "file1"; // Path break; case 2: aFieldValue = "file2"; // File name without extension break; case 3: aFieldValue = "file3"; // File name with extension } } else if(aFieldKind == "Author") { aFieldValue = "author"; } } } } return aFieldValue; } OUString DrawingML::GetDatetimeTypeFromDate(SvxDateFormat eDate) { return GetDatetimeTypeFromDateTime(eDate, SvxTimeFormat::AppDefault); } OUString DrawingML::GetDatetimeTypeFromTime(SvxTimeFormat eTime) { return GetDatetimeTypeFromDateTime(SvxDateFormat::AppDefault, eTime); } OUString DrawingML::GetDatetimeTypeFromDateTime(SvxDateFormat eDate, SvxTimeFormat eTime) { OUString aDateField; switch (eDate) { case SvxDateFormat::StdSmall: case SvxDateFormat::A: aDateField = "datetime"; break; case SvxDateFormat::B: aDateField = "datetime1"; // 13/02/1996 break; case SvxDateFormat::C: aDateField = "datetime5"; break; case SvxDateFormat::D: aDateField = "datetime3"; // 13 February 1996 break; case SvxDateFormat::StdBig: case SvxDateFormat::E: case SvxDateFormat::F: aDateField = "datetime2"; break; default: break; } OUString aTimeField; switch (eTime) { case SvxTimeFormat::Standard: case SvxTimeFormat::HH24_MM_SS: case SvxTimeFormat::HH24_MM_SS_00: aTimeField = "datetime11"; // 13:49:38 break; case SvxTimeFormat::HH24_MM: aTimeField = "datetime10"; // 13:49 break; case SvxTimeFormat::HH12_MM: case SvxTimeFormat::HH12_MM_AMPM: aTimeField = "datetime12"; // 01:49 PM break; case SvxTimeFormat::HH12_MM_SS: case SvxTimeFormat::HH12_MM_SS_AMPM: case SvxTimeFormat::HH12_MM_SS_00: case SvxTimeFormat::HH12_MM_SS_00_AMPM: aTimeField = "datetime13"; // 01:49:38 PM break; default: break; } if (!aDateField.isEmpty() && aTimeField.isEmpty()) return aDateField; else if (!aTimeField.isEmpty() && aDateField.isEmpty()) return aTimeField; else if (!aDateField.isEmpty() && !aTimeField.isEmpty()) { if (aTimeField == "datetime11" || aTimeField == "datetime13") // only datetime format that has Date and HH:MM:SS return "datetime9"; // dd/mm/yyyy H:MM:SS else // only datetime format that has Date and HH:MM return "datetime8"; // dd/mm/yyyy H:MM } else return ""; } void DrawingML::WriteRun( const Reference< XTextRange >& rRun, bool& rbOverridingCharHeight, sal_Int32& rnCharHeight, const css::uno::Reference< css::beans::XPropertySet >& rXShapePropSet) { Reference< XPropertySet > rXPropSet( rRun, UNO_QUERY ); sal_Int16 nLevel = -1; if (GetProperty(rXPropSet, "NumberingLevel")) mAny >>= nLevel; bool bNumberingIsNumber = true; if (GetProperty(rXPropSet, "NumberingIsNumber")) mAny >>= bNumberingIsNumber; float nFontSize = -1; if (GetProperty(rXPropSet, "CharHeight")) mAny >>= nFontSize; bool bIsURLField = false; OUString sFieldValue = GetFieldValue( rRun, bIsURLField ); bool bWriteField = !( sFieldValue.isEmpty() || bIsURLField ); OUString sText = rRun->getString(); //if there is no text following the bullet, add a space after the bullet if (nLevel !=-1 && bNumberingIsNumber && sText.isEmpty() ) sText=" "; if ( bIsURLField ) sText = sFieldValue; if( sText.isEmpty()) { Reference< XPropertySet > xPropSet( rRun, UNO_QUERY ); try { if( !xPropSet.is() || !( xPropSet->getPropertyValue( "PlaceholderText" ) >>= sText ) ) return; if( sText.isEmpty() ) return; } catch (const Exception &) { return; } } if (sText == "\n") { // Empty run? Do not forget to write the font size in case of pptx: if ((GetDocumentType() == DOCUMENT_PPTX) && (nFontSize != -1)) { mpFS->startElementNS(XML_a, XML_br); mpFS->singleElementNS(XML_a, XML_rPr, XML_sz, OString::number(nFontSize * 100)); mpFS->endElementNS(XML_a, XML_br); } else mpFS->singleElementNS(XML_a, XML_br); } else { if( bWriteField ) { OString sUUID(comphelper::xml::generateGUIDString()); mpFS->startElementNS( XML_a, XML_fld, XML_id, sUUID.getStr(), XML_type, sFieldValue ); } else { mpFS->startElementNS(XML_a, XML_r); } Reference< XPropertySet > xPropSet( rRun, uno::UNO_QUERY ); WriteRunProperties( xPropSet, bIsURLField, XML_rPr, true, rbOverridingCharHeight, rnCharHeight, GetScriptType(sText), rXShapePropSet); mpFS->startElementNS(XML_a, XML_t); mpFS->writeEscaped( sText ); mpFS->endElementNS( XML_a, XML_t ); if( bWriteField ) mpFS->endElementNS( XML_a, XML_fld ); else mpFS->endElementNS( XML_a, XML_r ); } } static OUString GetAutoNumType(SvxNumType nNumberingType, bool bSDot, bool bPBehind, bool bPBoth) { OUString sPrefixSuffix; if (bPBoth) sPrefixSuffix = "ParenBoth"; else if (bPBehind) sPrefixSuffix = "ParenR"; else if (bSDot) sPrefixSuffix = "Period"; switch( nNumberingType ) { case SVX_NUM_CHARS_UPPER_LETTER_N : case SVX_NUM_CHARS_UPPER_LETTER : return "alphaUc" + sPrefixSuffix; case SVX_NUM_CHARS_LOWER_LETTER_N : case SVX_NUM_CHARS_LOWER_LETTER : return "alphaLc" + sPrefixSuffix; case SVX_NUM_ROMAN_UPPER : return "romanUc" + sPrefixSuffix; case SVX_NUM_ROMAN_LOWER : return "romanLc" + sPrefixSuffix; case SVX_NUM_ARABIC : { if (sPrefixSuffix.isEmpty()) return "arabicPlain"; else return "arabic" + sPrefixSuffix; } default: break; } return OUString(); } void DrawingML::WriteParagraphNumbering(const Reference< XPropertySet >& rXPropSet, float fFirstCharHeight, sal_Int16 nLevel ) { if (nLevel < 0 || !GetProperty(rXPropSet, "NumberingRules")) return; Reference< XIndexAccess > rXIndexAccess; if (!(mAny >>= rXIndexAccess) || nLevel >= rXIndexAccess->getCount()) return; SAL_INFO("oox.shape", "numbering rules"); Sequence aPropertySequence; rXIndexAccess->getByIndex(nLevel) >>= aPropertySequence; if (!aPropertySequence.hasElements()) return; SvxNumType nNumberingType = SVX_NUM_NUMBER_NONE; bool bSDot = false; bool bPBehind = false; bool bPBoth = false; sal_Unicode aBulletChar = 0x2022; // a bullet awt::FontDescriptor aFontDesc; bool bHasFontDesc = false; uno::Reference xGraphic; sal_Int16 nBulletRelSize = 0; sal_Int16 nStartWith = 1; ::Color nBulletColor; bool bHasBulletColor = false; awt::Size aGraphicSize; for ( const PropertyValue& rPropValue : std::as_const(aPropertySequence) ) { OUString aPropName( rPropValue.Name ); SAL_INFO("oox.shape", "pro name: " << aPropName); if ( aPropName == "NumberingType" ) { nNumberingType = static_cast(*o3tl::doAccess(rPropValue.Value)); } else if ( aPropName == "Prefix" ) { if( *o3tl::doAccess(rPropValue.Value) == ")") bPBoth = true; } else if ( aPropName == "Suffix" ) { auto s = o3tl::doAccess(rPropValue.Value); if( *s == ".") bSDot = true; else if( *s == ")") bPBehind = true; } else if(aPropName == "BulletColor") { nBulletColor = ::Color(ColorTransparency, *o3tl::doAccess(rPropValue.Value)); bHasBulletColor = true; } else if ( aPropName == "BulletChar" ) { aBulletChar = (*o3tl::doAccess(rPropValue.Value))[ 0 ]; } else if ( aPropName == "BulletFont" ) { aFontDesc = *o3tl::doAccess(rPropValue.Value); bHasFontDesc = true; // Our numbullet dialog has set the wrong textencoding for our "StarSymbol" font, // instead of a Unicode encoding the encoding RTL_TEXTENCODING_SYMBOL was used. // Because there might exist a lot of damaged documents I added this two lines // which fixes the bullet problem for the export. if ( aFontDesc.Name.equalsIgnoreAsciiCase("StarSymbol") ) aFontDesc.CharSet = RTL_TEXTENCODING_MS_1252; } else if ( aPropName == "BulletRelSize" ) { nBulletRelSize = *o3tl::doAccess(rPropValue.Value); } else if ( aPropName == "StartWith" ) { nStartWith = *o3tl::doAccess(rPropValue.Value); } else if (aPropName == "GraphicBitmap") { auto xBitmap = rPropValue.Value.get>(); xGraphic.set(xBitmap, uno::UNO_QUERY); } else if ( aPropName == "GraphicSize" ) { aGraphicSize = *o3tl::doAccess(rPropValue.Value); SAL_INFO("oox.shape", "graphic size: " << aGraphicSize.Width << "x" << aGraphicSize.Height); } } if (nNumberingType == SVX_NUM_NUMBER_NONE) return; Graphic aGraphic(xGraphic); if (xGraphic.is() && aGraphic.GetType() != GraphicType::NONE) { tools::Long nFirstCharHeightMm = TransformMetric(fFirstCharHeight * 100.f, FieldUnit::POINT, FieldUnit::MM); float fBulletSizeRel = aGraphicSize.Height / static_cast(nFirstCharHeightMm) / OOX_BULLET_LIST_SCALE_FACTOR; OUString sRelationId; if (fBulletSizeRel < 1.0f) { // Add padding to get the bullet point centered in PPT Size aDestSize(64, 64); float fBulletSizeRelX = fBulletSizeRel / aGraphicSize.Height * aGraphicSize.Width; tools::Long nPaddingX = std::max(0, std::lround((aDestSize.Width() - fBulletSizeRelX * aDestSize.Width()) / 2.f)); tools::Long nPaddingY = std::lround((aDestSize.Height() - fBulletSizeRel * aDestSize.Height()) / 2.f); tools::Rectangle aDestRect(nPaddingX, nPaddingY, aDestSize.Width() - nPaddingX, aDestSize.Height() - nPaddingY); AlphaMask aMask(aDestSize); aMask.Erase(255); BitmapEx aSourceBitmap(aGraphic.GetBitmapEx()); aSourceBitmap.Scale(aDestRect.GetSize()); tools::Rectangle aSourceRect(Point(0, 0), aDestRect.GetSize()); BitmapEx aDestBitmap(Bitmap(aDestSize, vcl::PixelFormat::N24_BPP), aMask); aDestBitmap.CopyPixel(aDestRect, aSourceRect, aSourceBitmap); Graphic aDestGraphic(aDestBitmap); sRelationId = writeGraphicToStorage(aDestGraphic); fBulletSizeRel = 1.0f; } else { sRelationId = writeGraphicToStorage(aGraphic); } mpFS->singleElementNS( XML_a, XML_buSzPct, XML_val, OString::number(std::min(std::lround(100000.f * fBulletSizeRel), 400000))); mpFS->startElementNS(XML_a, XML_buBlip); mpFS->singleElementNS(XML_a, XML_blip, FSNS(XML_r, XML_embed), sRelationId); mpFS->endElementNS( XML_a, XML_buBlip ); } else { if(bHasBulletColor) { if (nBulletColor == COL_AUTO ) { nBulletColor = ::Color(ColorTransparency, mbIsBackgroundDark ? 0xffffff : 0x000000); } mpFS->startElementNS(XML_a, XML_buClr); WriteColor( nBulletColor ); mpFS->endElementNS( XML_a, XML_buClr ); } if( nBulletRelSize && nBulletRelSize != 100 ) mpFS->singleElementNS( XML_a, XML_buSzPct, XML_val, OString::number(std::clamp(1000*nBulletRelSize, 25000, 400000))); if( bHasFontDesc ) { if ( SVX_NUM_CHAR_SPECIAL == nNumberingType ) aBulletChar = SubstituteBullet( aBulletChar, aFontDesc ); mpFS->singleElementNS( XML_a, XML_buFont, XML_typeface, aFontDesc.Name, XML_charset, sax_fastparser::UseIf("2", aFontDesc.CharSet == awt::CharSet::SYMBOL)); } OUString aAutoNumType = GetAutoNumType( nNumberingType, bSDot, bPBehind, bPBoth ); if (!aAutoNumType.isEmpty()) { mpFS->singleElementNS(XML_a, XML_buAutoNum, XML_type, aAutoNumType, XML_startAt, sax_fastparser::UseIf(OString::number(nStartWith), nStartWith > 1)); } else { mpFS->singleElementNS(XML_a, XML_buChar, XML_char, OUString(aBulletChar)); } } } void DrawingML::WriteParagraphTabStops(const Reference& rXPropSet) { css::uno::Sequence aTabStops; if (GetProperty(rXPropSet, "ParaTabStops")) aTabStops = *o3tl::doAccess>(mAny); if (aTabStops.getLength() > 0) mpFS->startElementNS(XML_a, XML_tabLst); for (const css::style::TabStop& rTabStop : std::as_const(aTabStops)) { OString sPosition = OString::number(GetPointFromCoordinate(rTabStop.Position)); OString sAlignment; switch (rTabStop.Alignment) { case css::style::TabAlign_DECIMAL: sAlignment = "dec"_ostr; break; case css::style::TabAlign_RIGHT: sAlignment = "r"_ostr; break; case css::style::TabAlign_CENTER: sAlignment = "ctr"_ostr; break; case css::style::TabAlign_LEFT: default: sAlignment = "l"_ostr; } mpFS->singleElementNS(XML_a, XML_tab, XML_algn, sAlignment, XML_pos, sPosition); } if (aTabStops.getLength() > 0) mpFS->endElementNS(XML_a, XML_tabLst); } bool DrawingML::IsGroupShape( const Reference< XShape >& rXShape ) { bool bRet = false; if ( rXShape.is() ) { uno::Reference xServiceInfo(rXShape, uno::UNO_QUERY_THROW); bRet = xServiceInfo->supportsService("com.sun.star.drawing.GroupShape"); } return bRet; } sal_Int32 DrawingML::getBulletMarginIndentation (const Reference< XPropertySet >& rXPropSet,sal_Int16 nLevel, std::u16string_view propName) { if (nLevel < 0 || !GetProperty(rXPropSet, "NumberingRules")) return 0; Reference< XIndexAccess > rXIndexAccess; if (!(mAny >>= rXIndexAccess) || nLevel >= rXIndexAccess->getCount()) return 0; SAL_INFO("oox.shape", "numbering rules"); Sequence aPropertySequence; rXIndexAccess->getByIndex(nLevel) >>= aPropertySequence; if (!aPropertySequence.hasElements()) return 0; for ( const PropertyValue& rPropValue : std::as_const(aPropertySequence) ) { OUString aPropName( rPropValue.Name ); SAL_INFO("oox.shape", "pro name: " << aPropName); if ( aPropName == propName ) return *o3tl::doAccess(rPropValue.Value); } return 0; } const char* DrawingML::GetAlignment( style::ParagraphAdjust nAlignment ) { const char* sAlignment = nullptr; switch( nAlignment ) { case style::ParagraphAdjust_CENTER: sAlignment = "ctr"; break; case style::ParagraphAdjust_RIGHT: sAlignment = "r"; break; case style::ParagraphAdjust_BLOCK: sAlignment = "just"; break; default: ; } return sAlignment; } void DrawingML::WriteLinespacing(const LineSpacing& rSpacing, float fFirstCharHeight) { if( rSpacing.Mode == LineSpacingMode::PROP ) { mpFS->singleElementNS( XML_a, XML_spcPct, XML_val, OString::number(static_cast(rSpacing.Height)*1000)); } else if (rSpacing.Mode == LineSpacingMode::MINIMUM && fFirstCharHeight > static_cast(rSpacing.Height) * 0.001 * 72.0 / 2.54) { // 100% proportional line spacing = single line spacing mpFS->singleElementNS(XML_a, XML_spcPct, XML_val, OString::number(static_cast(100000))); } else { mpFS->singleElementNS( XML_a, XML_spcPts, XML_val, OString::number(std::lround(rSpacing.Height / 25.4 * 72))); } } bool DrawingML::WriteParagraphProperties(const Reference& rParagraph, float fFirstCharHeight, sal_Int32 nElement) { Reference< XPropertySet > rXPropSet( rParagraph, UNO_QUERY ); Reference< XPropertyState > rXPropState( rParagraph, UNO_QUERY ); PropertyState eState; if( !rXPropSet.is() || !rXPropState.is() ) return false; sal_Int16 nLevel = -1; if (GetProperty(rXPropSet, "NumberingLevel")) mAny >>= nLevel; bool bWriteNumbering = true; bool bForceZeroIndent = false; if (mbPlaceholder) { Reference< text::XTextRange > xParaText(rParagraph, UNO_QUERY); if (xParaText) { bool bNumberingOnThisLevel = false; if (nLevel > -1) { Reference< XIndexAccess > xNumberingRules(rXPropSet->getPropertyValue("NumberingRules"), UNO_QUERY); const PropertyValues& rNumRuleOfLevel = xNumberingRules->getByIndex(nLevel).get(); for (const PropertyValue& rRule : rNumRuleOfLevel) if (rRule.Name == "NumberingType" && rRule.Value.hasValue()) bNumberingOnThisLevel = rRule.Value.get() != style::NumberingType::NUMBER_NONE; } const bool bIsNumberingVisible = rXPropSet->getPropertyValue("NumberingIsNumber").get(); const bool bIsLineEmpty = !xParaText->getString().getLength(); bWriteNumbering = !bIsLineEmpty && bIsNumberingVisible && (nLevel != -1); bForceZeroIndent = (!bIsNumberingVisible || bIsLineEmpty || !bNumberingOnThisLevel); } } sal_Int16 nTmp = sal_Int16(style::ParagraphAdjust_LEFT); if (GetProperty(rXPropSet, "ParaAdjust")) mAny >>= nTmp; style::ParagraphAdjust nAlignment = static_cast(nTmp); bool bHasLinespacing = false; LineSpacing aLineSpacing; if (GetPropertyAndState(rXPropSet, rXPropState, "ParaLineSpacing", eState) && (mAny >>= aLineSpacing) && (eState == beans::PropertyState_DIRECT_VALUE || // only export if it differs from the default 100% line spacing aLineSpacing.Mode != LineSpacingMode::PROP || aLineSpacing.Height != 100)) bHasLinespacing = true; bool bRtl = false; if (GetProperty(rXPropSet, "WritingMode")) { sal_Int16 nWritingMode; if( ( mAny >>= nWritingMode ) && nWritingMode == text::WritingMode2::RL_TB ) { bRtl = true; } } sal_Int32 nParaLeftMargin = 0; sal_Int32 nParaFirstLineIndent = 0; if (GetProperty(rXPropSet, "ParaLeftMargin")) mAny >>= nParaLeftMargin; if (GetProperty(rXPropSet, "ParaFirstLineIndent")) mAny >>= nParaFirstLineIndent; sal_Int32 nParaTopMargin = 0; sal_Int32 nParaBottomMargin = 0; if (GetProperty(rXPropSet, "ParaTopMargin")) mAny >>= nParaTopMargin; if (GetProperty(rXPropSet, "ParaBottomMargin")) mAny >>= nParaBottomMargin; sal_Int32 nLeftMargin = getBulletMarginIndentation ( rXPropSet, nLevel,u"LeftMargin"); sal_Int32 nLineIndentation = getBulletMarginIndentation ( rXPropSet, nLevel,u"FirstLineOffset"); if (bWriteNumbering && !bForceZeroIndent) { if (!(nLevel != -1 || nAlignment != style::ParagraphAdjust_LEFT || bHasLinespacing)) return false; } sal_Int32 nParaDefaultTabSize = 0; if (GetProperty(rXPropSet, "ParaTabStopDefaultDistance")) mAny >>= nParaDefaultTabSize; if (nParaLeftMargin) // For Paragraph mpFS->startElementNS( XML_a, nElement, XML_lvl, sax_fastparser::UseIf(OString::number(nLevel), nLevel > 0), XML_marL, sax_fastparser::UseIf(OString::number(oox::drawingml::convertHmmToEmu(nParaLeftMargin)), nParaLeftMargin > 0), XML_indent, sax_fastparser::UseIf(OString::number((bForceZeroIndent && nParaFirstLineIndent == 0) ? 0 : oox::drawingml::convertHmmToEmu(nParaFirstLineIndent)), (bForceZeroIndent || nParaFirstLineIndent != 0)), XML_algn, GetAlignment( nAlignment ), XML_defTabSz, sax_fastparser::UseIf(OString::number(oox::drawingml::convertHmmToEmu(nParaDefaultTabSize)), nParaDefaultTabSize > 0), XML_rtl, sax_fastparser::UseIf(ToPsz10(bRtl), bRtl)); else mpFS->startElementNS( XML_a, nElement, XML_lvl, sax_fastparser::UseIf(OString::number(nLevel), nLevel > 0), XML_marL, sax_fastparser::UseIf(OString::number(oox::drawingml::convertHmmToEmu(nLeftMargin)), nLeftMargin > 0), XML_indent, sax_fastparser::UseIf(OString::number(!bForceZeroIndent ? oox::drawingml::convertHmmToEmu(nLineIndentation) : 0), (bForceZeroIndent || ( nLineIndentation != 0))), XML_algn, GetAlignment( nAlignment ), XML_defTabSz, sax_fastparser::UseIf(OString::number(oox::drawingml::convertHmmToEmu(nParaDefaultTabSize)), nParaDefaultTabSize > 0), XML_rtl, sax_fastparser::UseIf(ToPsz10(bRtl), bRtl)); if( bHasLinespacing ) { mpFS->startElementNS(XML_a, XML_lnSpc); WriteLinespacing(aLineSpacing, fFirstCharHeight); mpFS->endElementNS( XML_a, XML_lnSpc ); } if( nParaTopMargin != 0 ) { mpFS->startElementNS(XML_a, XML_spcBef); { mpFS->singleElementNS( XML_a, XML_spcPts, XML_val, OString::number(std::lround(nParaTopMargin / 25.4 * 72))); } mpFS->endElementNS( XML_a, XML_spcBef ); } if( nParaBottomMargin != 0 ) { mpFS->startElementNS(XML_a, XML_spcAft); { mpFS->singleElementNS( XML_a, XML_spcPts, XML_val, OString::number(std::lround(nParaBottomMargin / 25.4 * 72))); } mpFS->endElementNS( XML_a, XML_spcAft ); } if (!bWriteNumbering) mpFS->singleElementNS(XML_a, XML_buNone); else WriteParagraphNumbering( rXPropSet, fFirstCharHeight, nLevel ); WriteParagraphTabStops( rXPropSet ); // do not end element for lstStyles since, defRPr should be stacked inside it if( nElement != XML_lvl1pPr ) mpFS->endElementNS( XML_a, nElement ); return true; } void DrawingML::WriteLstStyles(const css::uno::Reference& rParagraph, bool& rbOverridingCharHeight, sal_Int32& rnCharHeight, const css::uno::Reference& rXShapePropSet) { Reference xAccess(rParagraph, UNO_QUERY); if (!xAccess.is()) return; Reference xEnumeration(xAccess->createEnumeration()); if (!xEnumeration.is()) return; Reference rRun; if (!xEnumeration->hasMoreElements()) return; Any aAny(xEnumeration->nextElement()); if (aAny >>= rRun) { float fFirstCharHeight = rnCharHeight / 1000.; Reference xFirstRunPropSet(rRun, UNO_QUERY); Reference xFirstRunPropSetInfo = xFirstRunPropSet->getPropertySetInfo(); if (xFirstRunPropSetInfo->hasPropertyByName("CharHeight")) fFirstCharHeight = xFirstRunPropSet->getPropertyValue("CharHeight").get(); mpFS->startElementNS(XML_a, XML_lstStyle); if( !WriteParagraphProperties(rParagraph, fFirstCharHeight, XML_lvl1pPr) ) mpFS->startElementNS(XML_a, XML_lvl1pPr); WriteRunProperties(xFirstRunPropSet, false, XML_defRPr, true, rbOverridingCharHeight, rnCharHeight, GetScriptType(rRun->getString()), rXShapePropSet); mpFS->endElementNS(XML_a, XML_lvl1pPr); mpFS->endElementNS(XML_a, XML_lstStyle); } } void DrawingML::WriteParagraph( const Reference< XTextContent >& rParagraph, bool& rbOverridingCharHeight, sal_Int32& rnCharHeight, const css::uno::Reference< css::beans::XPropertySet >& rXShapePropSet) { Reference< XEnumerationAccess > access( rParagraph, UNO_QUERY ); if( !access.is() ) return; Reference< XEnumeration > enumeration( access->createEnumeration() ); if( !enumeration.is() ) return; mpFS->startElementNS(XML_a, XML_p); bool bPropertiesWritten = false; while( enumeration->hasMoreElements() ) { Reference< XTextRange > run; Any any ( enumeration->nextElement() ); if (any >>= run) { if( !bPropertiesWritten ) { float fFirstCharHeight = rnCharHeight / 1000.; Reference< XPropertySet > xFirstRunPropSet (run, UNO_QUERY); Reference< XPropertySetInfo > xFirstRunPropSetInfo = xFirstRunPropSet->getPropertySetInfo(); if( xFirstRunPropSetInfo->hasPropertyByName("CharHeight") ) { fFirstCharHeight = xFirstRunPropSet->getPropertyValue("CharHeight").get(); rnCharHeight = 100 * fFirstCharHeight; rbOverridingCharHeight = true; } WriteParagraphProperties(rParagraph, fFirstCharHeight, XML_pPr); bPropertiesWritten = true; } WriteRun( run, rbOverridingCharHeight, rnCharHeight, rXShapePropSet); } } Reference< XPropertySet > rXPropSet( rParagraph, UNO_QUERY ); sal_Int16 nDummy = -1; WriteRunProperties(rXPropSet, false, XML_endParaRPr, false, rbOverridingCharHeight, rnCharHeight, nDummy, rXShapePropSet); mpFS->endElementNS( XML_a, XML_p ); } bool DrawingML::IsFontworkShape(const css::uno::Reference& rXShapePropSet) { bool bResult(false); if (rXShapePropSet.is()) { Sequence aCustomShapeGeometryProps; if (GetProperty(rXShapePropSet, "CustomShapeGeometry")) { mAny >>= aCustomShapeGeometryProps; uno::Sequence aTextPathSeq; for (const auto& rProp : std::as_const(aCustomShapeGeometryProps)) { if (rProp.Name == "TextPath") { rProp.Value >>= aTextPathSeq; for (const auto& rTextPathItem : std::as_const(aTextPathSeq)) { if (rTextPathItem.Name == "TextPath") { rTextPathItem.Value >>= bResult; break; } } break; } } } } return bResult; } void DrawingML::WriteText(const Reference& rXIface, bool bBodyPr, bool bText, sal_Int32 nXmlNamespace, bool bWritePropertiesAsLstStyles) { // ToDo: Fontwork in DOCX uno::Reference xXText(rXIface, UNO_QUERY); if( !xXText.is() ) return; uno::Reference xShape(rXIface, UNO_QUERY); uno::Reference rXPropSet(rXIface, UNO_QUERY); constexpr const sal_Int32 constDefaultLeftRightInset = 254; constexpr const sal_Int32 constDefaultTopBottomInset = 127; sal_Int32 nLeft = constDefaultLeftRightInset; sal_Int32 nRight = constDefaultLeftRightInset; sal_Int32 nTop = constDefaultTopBottomInset; sal_Int32 nBottom = constDefaultTopBottomInset; // top inset looks a bit different compared to ppt export // check if something related doesn't work as expected if (GetProperty(rXPropSet, "TextLeftDistance")) mAny >>= nLeft; if (GetProperty(rXPropSet, "TextRightDistance")) mAny >>= nRight; if (GetProperty(rXPropSet, "TextUpperDistance")) mAny >>= nTop; if (GetProperty(rXPropSet, "TextLowerDistance")) mAny >>= nBottom; // Transform the text distance values so they are compatible with OOXML insets if (xShape.is()) { sal_Int32 nTextHeight = xShape->getSize().Height; // Hmm, default // CustomShape can have text area different from shape rectangle auto* pCustomShape = dynamic_cast(SdrObject::getSdrObjectFromXShape(xShape)); if (pCustomShape) { const EnhancedCustomShape2d aCustomShape2d(*pCustomShape); nTextHeight = aCustomShape2d.GetTextRect().getOpenHeight(); if (DOCUMENT_DOCX == meDocumentType) nTextHeight = convertTwipToMm100(nTextHeight); } if (nTop + nBottom >= nTextHeight) { // Effective bottom would be above effective top of text area. LO normalizes the // effective text area in such case implicitly for rendering. MS needs indents so that // the result is the normalized effective text area. std::swap(nTop, nBottom); nTop = nTextHeight - nTop; nBottom = nTextHeight - nBottom; } } std::optional sWritingMode; if (GetProperty(rXPropSet, "TextWritingMode")) { WritingMode eMode; if( ( mAny >>= eMode ) && eMode == WritingMode_TB_RL ) sWritingMode = "eaVert"; } if (GetProperty(rXPropSet, "WritingMode")) { sal_Int16 nWritingMode; if (mAny >>= nWritingMode) { if (nWritingMode == text::WritingMode2::TB_RL) sWritingMode = "eaVert"; else if (nWritingMode == text::WritingMode2::BT_LR) sWritingMode = "vert270"; else if (nWritingMode == text::WritingMode2::TB_RL90) sWritingMode = "vert"; else if (nWritingMode == text::WritingMode2::TB_LR) sWritingMode = "mongolianVert"; } } // read values from CustomShapeGeometry Sequence aAdjustmentSeq; uno::Sequence aTextPathSeq; bool bScaleX(false); OUString sShapeType("non-primitive"); OUString sMSWordPresetTextWarp; sal_Int32 nTextPreRotateAngle = 0; // degree std::optional nTextRotateAngleDeg100; // text area rotation if (GetProperty(rXPropSet, "CustomShapeGeometry")) { Sequence< PropertyValue > aProps; if ( mAny >>= aProps ) { for ( const auto& rProp : std::as_const(aProps) ) { if (rProp.Name == "TextPreRotateAngle") rProp.Value >>= nTextPreRotateAngle; else if (rProp.Name == "AdjustmentValues") rProp.Value >>= aAdjustmentSeq; else if (rProp.Name == "TextRotateAngle") { double fTextRotateAngle = 0; // degree rProp.Value >>= fTextRotateAngle; nTextRotateAngleDeg100 = Degree100(std::lround(fTextRotateAngle * 100.0)); } else if (rProp.Name == "Type") rProp.Value >>= sShapeType; else if (rProp.Name == "TextPath") { rProp.Value >>= aTextPathSeq; for (const auto& rTextPathItem : std::as_const(aTextPathSeq)) { if (rTextPathItem.Name == "ScaleX") rTextPathItem.Value >>= bScaleX; } } else if (rProp.Name == "PresetTextWarp") rProp.Value >>= sMSWordPresetTextWarp; } } } else { if (mpTextExport) { if (xShape) { auto xTextFrame = mpTextExport->GetUnoTextFrame(xShape); if (xTextFrame) { uno::Reference xPropSet(xTextFrame, uno::UNO_QUERY); auto aAny = xPropSet->getPropertyValue("WritingMode"); sal_Int16 nWritingMode; if (aAny >>= nWritingMode) { switch (nWritingMode) { case WritingMode2::TB_RL: sWritingMode = "eaVert"; break; case WritingMode2::BT_LR: sWritingMode = "vert270"; break; case WritingMode2::TB_RL90: sWritingMode = "vert"; break; case WritingMode2::TB_LR: sWritingMode = "mongolianVert"; break; default: break; } } } } } } // read InteropGrabBag if any std::optional sHorzOverflow; std::optional sVertOverflow; bool bUpright = false; std::optional isUpright; if (rXPropSet->getPropertySetInfo()->hasPropertyByName("InteropGrabBag")) { uno::Sequence aGrabBag; rXPropSet->getPropertyValue("InteropGrabBag") >>= aGrabBag; for (const auto& aProp : std::as_const(aGrabBag)) { if (aProp.Name == "Upright") { aProp.Value >>= bUpright; isUpright = OString(bUpright ? "1" : "0"); } else if (aProp.Name == "horzOverflow") { OUString sValue; aProp.Value >>= sValue; sHorzOverflow = sValue; } else if (aProp.Name == "vertOverflow") { OUString sValue; aProp.Value >>= sValue; sVertOverflow = sValue; } } } bool bIsFontworkShape(IsFontworkShape(rXPropSet)); OUString sPresetWarp(PresetGeometryTypeNames::GetMsoName(sShapeType)); // ODF may have user defined TextPath, use "textPlain" as ersatz. if (sPresetWarp.isEmpty()) sPresetWarp = bIsFontworkShape ? std::u16string_view(u"textPlain") : std::u16string_view(u"textNoShape"); bool bFromWordArt = !bScaleX && ( sPresetWarp == "textArchDown" || sPresetWarp == "textArchUp" || sPresetWarp == "textButton" || sPresetWarp == "textCircle"); // Fontwork shapes in LO ignore insets in rendering, Word interprets them. if (GetDocumentType() == DOCUMENT_DOCX && bIsFontworkShape) { nLeft = 0; nRight = 0; nTop = 0; nBottom = 0; } if (bUpright) { Degree100 nShapeRotateAngleDeg100(0_deg100); if (GetProperty(rXPropSet, "RotateAngle")) nShapeRotateAngleDeg100 = Degree100(mAny.get()); // Depending on shape rotation, the import has made 90deg changes to properties // "TextPreRotateAngle" and "TextRotateAngle". Revert it. bool bWasAngleChanged = (nShapeRotateAngleDeg100 > 4500_deg100 && nShapeRotateAngleDeg100 <= 13500_deg100) || (nShapeRotateAngleDeg100 > 22500_deg100 && nShapeRotateAngleDeg100 <= 31500_deg100); if (bWasAngleChanged) { nTextRotateAngleDeg100 = nTextRotateAngleDeg100.value_or(0_deg100) + 9000_deg100; nTextPreRotateAngle -= 90; } // If text is no longer upright, user has changed something. Do not write 'upright' then. // This try to detect the case assumes, that the text area rotation was 0 in the original // MS Office document. That is likely because MS Office has no UI to set it and the // predefined SmartArt shapes, which use it, do not use 'upright'. Degree100 nAngleSum = nShapeRotateAngleDeg100 + nTextRotateAngleDeg100.value_or(0_deg100); if (abs(NormAngle18000(nAngleSum)) < 100_deg100) // consider inaccuracy from rounding { nTextRotateAngleDeg100.reset(); // 'upright' does not overrule text area rotation. } else { // User changes. Keep current angles. isUpright.reset(); if (bWasAngleChanged) { nTextPreRotateAngle += 90; nTextRotateAngleDeg100 = nTextRotateAngleDeg100.value_or(0_deg100) - 9000_deg100; } } } // ToDo: Unsure about this. Need to investigate shapes from diagram import, especially diagrams // with vertical text directions. if (nTextPreRotateAngle != 0 && !sWritingMode) { if (nTextPreRotateAngle == -90 || nTextPreRotateAngle == 270) sWritingMode = "vert"; else if (nTextPreRotateAngle == -270 || nTextPreRotateAngle == 90) sWritingMode = "vert270"; else if (nTextPreRotateAngle == -180 || nTextPreRotateAngle == 180) { #if defined __GNUC__ && !defined __clang__ && __GNUC__ == 12 #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wmaybe-uninitialized" #endif nTextRotateAngleDeg100 = NormAngle18000(nTextRotateAngleDeg100.value_or(0_deg100) + 18000_deg100); #if defined __GNUC__ && !defined __clang__ && __GNUC__ == 12 #pragma GCC diagnostic pop #endif // ToDo: Examine insets. They might need rotation too. Check diagrams (SmartArt). } else SAL_WARN("oox", "unsuitable value for TextPreRotateAngle:" << nTextPreRotateAngle); } else if (nTextPreRotateAngle != 0 && sWritingMode && sWritingMode.value() == "eaVert") { // ToDo: eaVert plus 270deg clockwise rotation has to be written with vert="horz" // plus attribute 'normalEastAsianFlow="1"' on the element. } // else nothing to do // Our WritingMode introduces text pre rotation which includes padding, MSO vert does not include // padding. Therefore set padding so, that is looks the same in MSO as in LO. if (sWritingMode) { if (sWritingMode.value() == "vert" || sWritingMode.value() == "eaVert") { sal_Int32 nHelp = nLeft; nLeft = nBottom; nBottom = nRight; nRight = nTop; nTop = nHelp; } else if (sWritingMode.value() == "vert270") { sal_Int32 nHelp = nLeft; nLeft = nTop; nTop = nRight; nRight = nBottom; nBottom = nHelp; } else if (sWritingMode.value() == "mongolianVert") { // ToDo: Examine padding } } std::optional sTextRotateAngleMSUnit; if (nTextRotateAngleDeg100.has_value()) #if defined __GNUC__ && !defined __clang__ && __GNUC__ == 12 #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wmaybe-uninitialized" #endif sTextRotateAngleMSUnit = oox::drawingml::calcRotationValue(nTextRotateAngleDeg100.value().get()); #if defined __GNUC__ && !defined __clang__ && __GNUC__ == 12 #pragma GCC diagnostic pop #endif // Prepare attributes 'anchor' and 'anchorCtr' // LibreOffice has 12 value sets, MS Office only 6. We map them so, that it reverses the // 6 mappings from import, and we assign the others approximately. TextVerticalAdjust eVerticalAlignment(TextVerticalAdjust_TOP); if (GetProperty(rXPropSet, "TextVerticalAdjust")) mAny >>= eVerticalAlignment; TextHorizontalAdjust eHorizontalAlignment(TextHorizontalAdjust_CENTER); if (GetProperty(rXPropSet, "TextHorizontalAdjust")) mAny >>= eHorizontalAlignment; const char* sAnchor = nullptr; bool bAnchorCtr = false; if (sWritingMode.has_value() && (sWritingMode.value() == "eaVert" || sWritingMode.value() == "mongolianVert")) { bAnchorCtr = eVerticalAlignment == TextVerticalAdjust_CENTER || eVerticalAlignment == TextVerticalAdjust_BOTTOM || eVerticalAlignment == TextVerticalAdjust_BLOCK; switch (eHorizontalAlignment) { case TextHorizontalAdjust_CENTER: sAnchor = "ctr"; break; case TextHorizontalAdjust_LEFT: sAnchor = sWritingMode.value() == "eaVert" ? "b" : "t"; break; case TextHorizontalAdjust_RIGHT: default: // TextHorizontalAdjust_BLOCK, should not happen sAnchor = sWritingMode.value() == "eaVert" ? "t" : "b"; break; } } else { bAnchorCtr = eHorizontalAlignment == TextHorizontalAdjust_CENTER || eHorizontalAlignment == TextHorizontalAdjust_RIGHT; sAnchor = GetTextVerticalAdjust(eVerticalAlignment); } bool bHasWrap = false; bool bWrap = false; // Only custom shapes obey the TextWordWrap option, normal text always wraps. if (dynamic_cast(rXIface.get()) && GetProperty(rXPropSet, "TextWordWrap")) { mAny >>= bWrap; bHasWrap = true; } // tdf#134401: If AUTOGROWWIDTH and AUTOGROWHEIGHT are set, then export it as TextWordWrap if (SvxShapeText* pShpTxt = dynamic_cast(rXIface.get())) { const sdr::properties::BaseProperties& rProperties = pShpTxt->GetSdrObject()->GetProperties(); const SdrOnOffItem& rSdrTextFitWidth = rProperties.GetItem(SDRATTR_TEXT_AUTOGROWWIDTH); const SdrOnOffItem& rSdrTextFitHeight = rProperties.GetItem(SDRATTR_TEXT_AUTOGROWHEIGHT); if (rSdrTextFitWidth.GetValue() == true && rSdrTextFitHeight.GetValue() == true) { bHasWrap = true; bWrap = false; } } if (bBodyPr) { const char* pWrap = (bHasWrap && !bWrap) || bIsFontworkShape ? "none" : nullptr; if (GetDocumentType() == DOCUMENT_DOCX) { // In case of DOCX, if we want to have the same effect as // TextShape's automatic word wrapping, then we need to set // wrapping to square. uno::Reference xServiceInfo(rXIface, uno::UNO_QUERY); if ((xServiceInfo.is() && xServiceInfo->supportsService("com.sun.star.drawing.TextShape")) || bIsFontworkShape) pWrap = "square"; } sal_Int16 nCols = 0; sal_Int32 nColSpacing = -1; if (GetProperty(rXPropSet, "TextColumns")) { if (css::uno::Reference xCols{ mAny, css::uno::UNO_QUERY }) { nCols = xCols->getColumnCount(); if (css::uno::Reference xProps{ mAny, css::uno::UNO_QUERY }) { if (GetProperty(xProps, "AutomaticDistance")) mAny >>= nColSpacing; } } } if (!sVertOverflow && GetProperty(rXPropSet, "TextClipVerticalOverflow") && mAny.get()) { sVertOverflow = "clip"; } // tdf#151134 When writing placeholder shapes, inset must be explicitly specified bool bRequireInset = GetProperty(rXPropSet, "IsPresentationObject") && rXPropSet->getPropertyValue("IsPresentationObject").get(); mpFS->startElementNS( (nXmlNamespace ? nXmlNamespace : XML_a), XML_bodyPr, XML_numCol, sax_fastparser::UseIf(OString::number(nCols), nCols > 0), XML_spcCol, sax_fastparser::UseIf(OString::number(oox::drawingml::convertHmmToEmu(nColSpacing)), nCols > 0 && nColSpacing >= 0), XML_wrap, pWrap, XML_horzOverflow, sHorzOverflow, XML_vertOverflow, sVertOverflow, XML_fromWordArt, sax_fastparser::UseIf("1", bFromWordArt), XML_lIns, sax_fastparser::UseIf(OString::number(oox::drawingml::convertHmmToEmu(nLeft)), bRequireInset || nLeft != constDefaultLeftRightInset), XML_rIns, sax_fastparser::UseIf(OString::number(oox::drawingml::convertHmmToEmu(nRight)), bRequireInset || nRight != constDefaultLeftRightInset), XML_tIns, sax_fastparser::UseIf(OString::number(oox::drawingml::convertHmmToEmu(nTop)), bRequireInset || nTop != constDefaultTopBottomInset), XML_bIns, sax_fastparser::UseIf(OString::number(oox::drawingml::convertHmmToEmu(nBottom)), bRequireInset || nBottom != constDefaultTopBottomInset), XML_anchor, sAnchor, XML_anchorCtr, sax_fastparser::UseIf("1", bAnchorCtr), XML_vert, sWritingMode, XML_upright, isUpright, XML_rot, sTextRotateAngleMSUnit); if (bIsFontworkShape) { if (aAdjustmentSeq.hasElements()) { mpFS->startElementNS(XML_a, XML_prstTxWarp, XML_prst, sPresetWarp); mpFS->startElementNS(XML_a, XML_avLst); bool bHasTwoHandles( sPresetWarp == "textArchDownPour" || sPresetWarp == "textArchUpPour" || sPresetWarp == "textButtonPour" || sPresetWarp == "textCirclePour" || sPresetWarp == "textDoubleWave1" || sPresetWarp == "textWave1" || sPresetWarp == "textWave2" || sPresetWarp == "textWave4"); for (sal_Int32 i = 0, nElems = aAdjustmentSeq.getLength(); i < nElems; ++i ) { OString sName = "adj" + (bHasTwoHandles ? OString::number(i + 1) : OString()); double fValue(0.0); if (aAdjustmentSeq[i].Value.getValueTypeClass() == TypeClass_DOUBLE) aAdjustmentSeq[i].Value >>= fValue; else { sal_Int32 nNumber(0); aAdjustmentSeq[i].Value >>= nNumber; fValue = static_cast(nNumber); } // Convert from binary coordinate system with viewBox "0 0 21600 21600" and simple degree // to DrawingML with coordinate range 0..100000 and angle in 1/60000 degree. // Reverse to conversion in lcl_createPresetShape in drawingml/shape.cxx on import. if (sPresetWarp == "textArchDown" || sPresetWarp == "textArchUp" || sPresetWarp == "textButton" || sPresetWarp == "textCircle" || ((i == 0) && (sPresetWarp == "textArchDownPour" || sPresetWarp == "textArchUpPour" || sPresetWarp == "textButtonPour" || sPresetWarp == "textCirclePour"))) { fValue *= 60000.0; if (fValue < 0) fValue += 21600000; } else if ((i == 1) && (sPresetWarp == "textDoubleWave1" || sPresetWarp == "textWave1" || sPresetWarp == "textWave2" || sPresetWarp == "textWave4")) { fValue = fValue / 0.216 - 50000.0; } else if ((i == 1) && (sPresetWarp == "textArchDownPour" || sPresetWarp == "textArchUpPour" || sPresetWarp == "textButtonPour" || sPresetWarp == "textCirclePour")) { fValue /= 0.108; } else { fValue /= 0.216; } OString sFmla = "val " + OString::number(std::lround(fValue)); mpFS->singleElementNS(XML_a, XML_gd, XML_name, sName, XML_fmla, sFmla); // There exists faulty Favorite shapes with one handle but two adjustment values. if (!bHasTwoHandles) break; } mpFS->endElementNS(XML_a, XML_avLst); mpFS->endElementNS(XML_a, XML_prstTxWarp); } else { mpFS->singleElementNS(XML_a, XML_prstTxWarp, XML_prst, sPresetWarp); } } else if (GetDocumentType() == DOCUMENT_DOCX) { // interim solution for fdo#80897, roundtrip DOCX > LO > DOCX if (!sMSWordPresetTextWarp.isEmpty()) mpFS->singleElementNS(XML_a, XML_prstTxWarp, XML_prst, sMSWordPresetTextWarp); } if (GetDocumentType() == DOCUMENT_DOCX || GetDocumentType() == DOCUMENT_XLSX) { // tdf#112312: only custom shapes obey the TextAutoGrowHeight option bool bTextAutoGrowHeight = false; auto pSdrObjCustomShape = xShape.is() ? dynamic_cast(SdrObject::getSdrObjectFromXShape(xShape)) : nullptr; if (pSdrObjCustomShape && GetProperty(rXPropSet, "TextAutoGrowHeight")) { mAny >>= bTextAutoGrowHeight; } mpFS->singleElementNS(XML_a, (bTextAutoGrowHeight ? XML_spAutoFit : XML_noAutofit)); } if (GetDocumentType() == DOCUMENT_PPTX) { TextFitToSizeType eFit = TextFitToSizeType_NONE; if (GetProperty(rXPropSet, "TextFitToSize")) mAny >>= eFit; if (eFit == TextFitToSizeType_AUTOFIT) { const sal_Int32 MAX_SCALE_VAL = 100000; sal_Int32 nFontScale = MAX_SCALE_VAL; sal_Int32 nSpacingReduction = 0; SvxShapeText* pTextShape = dynamic_cast(rXIface.get()); if (pTextShape) { SdrTextObj* pTextObject = DynCastSdrTextObj(pTextShape->GetSdrObject()); if (pTextObject) { nFontScale = sal_Int32(pTextObject->GetFontScale() * 1000.0); nSpacingReduction = sal_Int32((100.0 - pTextObject->GetSpacingScale()) * 1000.0); } } bool bExportFontScale = false; if (nFontScale < MAX_SCALE_VAL && nFontScale > 0) bExportFontScale = true; bool bExportSpaceReduction = false; if (nSpacingReduction < MAX_SCALE_VAL && nSpacingReduction > 0) bExportSpaceReduction = true; mpFS->singleElementNS(XML_a, XML_normAutofit, XML_fontScale, sax_fastparser::UseIf(OString::number(nFontScale), bExportFontScale), XML_lnSpcReduction, sax_fastparser::UseIf(OString::number(nSpacingReduction), bExportSpaceReduction)); } else { // tdf#127030: Only custom shapes obey the TextAutoGrowHeight option. bool bTextAutoGrowHeight = false; if (dynamic_cast(rXIface.get()) && GetProperty(rXPropSet, "TextAutoGrowHeight")) mAny >>= bTextAutoGrowHeight; mpFS->singleElementNS(XML_a, (bTextAutoGrowHeight ? XML_spAutoFit : XML_noAutofit)); } } Write3DEffects( rXPropSet, /*bIsText=*/true ); mpFS->endElementNS((nXmlNamespace ? nXmlNamespace : XML_a), XML_bodyPr); } Reference< XEnumerationAccess > access( xXText, UNO_QUERY ); if( !access.is() || !bText ) return; Reference< XEnumeration > enumeration( access->createEnumeration() ); if( !enumeration.is() ) return; SdrObject* pSdrObject = xShape.is() ? SdrObject::getSdrObjectFromXShape(xShape) : nullptr; const SdrTextObj* pTxtObj = DynCastSdrTextObj( pSdrObject ); if (pTxtObj && mpTextExport) { std::vector aOldCharFillPropVec; if (bIsFontworkShape) { // Users may have set the character fill properties for more convenient editing. // Save the properties before changing them for Fontwork export. FontworkHelpers::collectCharColorProps(xXText, aOldCharFillPropVec); // Word has properties for abc-transform in the run properties of the text of the shape. // Writer has the Fontwork properties as shape properties. Create the character fill // properties needed for export from the shape fill properties // and apply them to all runs. std::vector aExportCharFillPropVec; FontworkHelpers::createCharFillPropsFromShape(rXPropSet, aExportCharFillPropVec); FontworkHelpers::applyPropsToRuns(aExportCharFillPropVec, xXText); // Import has converted some items from CharInteropGrabBag to fill and line // properties of the shape. For export we convert them back because users might have // changed them. And we create them in case we come from an odt document. std::vector aUpdatePropVec; FontworkHelpers::createCharInteropGrabBagUpdatesFromShapeProps(rXPropSet, aUpdatePropVec); FontworkHelpers::applyUpdatesToCharInteropGrabBag(aUpdatePropVec, xXText); } std::optional pParaObj; /* #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(); } else if (pTxtObj->GetOutlinerParaObject()) pParaObj = *pTxtObj->GetOutlinerParaObject(); if (pParaObj) { // this is reached only in case some text is attached to the shape mpTextExport->WriteOutliner(*pParaObj); } if (bIsFontworkShape) FontworkHelpers::applyPropsToRuns(aOldCharFillPropVec, xXText); return; } bool bOverridingCharHeight = false; sal_Int32 nCharHeight = -1; bool bFirstParagraph = true; // tdf#144092 For shapes without text: Export run properties (into // endParaRPr) from the shape's propset instead of the paragraph's. if(xXText->getString().isEmpty() && enumeration->hasMoreElements()) { Any aAny (enumeration->nextElement()); Reference xParagraph; if( aAny >>= xParagraph ) { mpFS->startElementNS(XML_a, XML_p); WriteParagraphProperties(xParagraph, nCharHeight, XML_pPr); sal_Int16 nDummy = -1; WriteRunProperties(rXPropSet, false, XML_endParaRPr, false, bOverridingCharHeight, nCharHeight, nDummy, rXPropSet); mpFS->endElementNS(XML_a, XML_p); } return; } while( enumeration->hasMoreElements() ) { Reference< XTextContent > paragraph; Any any ( enumeration->nextElement() ); if( any >>= paragraph) { if (bFirstParagraph && bWritePropertiesAsLstStyles) WriteLstStyles(paragraph, bOverridingCharHeight, nCharHeight, rXPropSet); WriteParagraph(paragraph, bOverridingCharHeight, nCharHeight, rXPropSet); bFirstParagraph = false; } } } void DrawingML::WritePresetShape( const OString& pShape , std::vector< std::pair> & rAvList ) { mpFS->startElementNS(XML_a, XML_prstGeom, XML_prst, pShape); if ( !rAvList.empty() ) { mpFS->startElementNS(XML_a, XML_avLst); for (auto const& elem : rAvList) { OString sName = "adj" + ( ( elem.first > 0 ) ? OString::number(elem.first) : OString() ); OString sFmla = "val " + OString::number( elem.second ); mpFS->singleElementNS(XML_a, XML_gd, XML_name, sName, XML_fmla, sFmla); } mpFS->endElementNS( XML_a, XML_avLst ); } else mpFS->singleElementNS(XML_a, XML_avLst); mpFS->endElementNS( XML_a, XML_prstGeom ); } void DrawingML::WritePresetShape( const OString& pShape ) { mpFS->startElementNS(XML_a, XML_prstGeom, XML_prst, pShape); mpFS->singleElementNS(XML_a, XML_avLst); mpFS->endElementNS( XML_a, XML_prstGeom ); } static std::map< OString, std::vector > lcl_getAdjNames() { std::map< OString, std::vector > aRet; OUString aPath("$BRAND_BASE_DIR/" LIBO_SHARE_FOLDER "/filter/oox-drawingml-adj-names"); rtl::Bootstrap::expandMacros(aPath); SvFileStream aStream(aPath, StreamMode::READ); if (aStream.GetError() != ERRCODE_NONE) SAL_WARN("oox.shape", "failed to open oox-drawingml-adj-names"); OStringBuffer aLine; bool bNotDone = aStream.ReadLine(aLine); while (bNotDone) { sal_Int32 nIndex = 0; // Each line is in a "key\tvalue" format: read the key, the rest is the value. OString aKey( o3tl::getToken(aLine, 0, '\t', nIndex) ); OString aValue( std::string_view(aLine).substr(nIndex) ); aRet[aKey].push_back(aValue); bNotDone = aStream.ReadLine(aLine); } return aRet; } void DrawingML::WritePresetShape( const OString& pShape, MSO_SPT eShapeType, bool bPredefinedHandlesUsed, const PropertyValue& rProp ) { static std::map< OString, std::vector > aAdjMap = lcl_getAdjNames(); // If there are predefined adj names for this shape type, look them up now. std::vector aAdjustments; auto it = aAdjMap.find(pShape); if (it != aAdjMap.end()) aAdjustments = it->second; mpFS->startElementNS(XML_a, XML_prstGeom, XML_prst, pShape); mpFS->startElementNS(XML_a, XML_avLst); Sequence< drawing::EnhancedCustomShapeAdjustmentValue > aAdjustmentSeq; if ( ( rProp.Value >>= aAdjustmentSeq ) && eShapeType != mso_sptActionButtonForwardNext // we have adjustments values for these type of shape, but MSO doesn't like them && eShapeType != mso_sptActionButtonBackPrevious // so they are now disabled && pShape != "rect" //some shape types are commented out in pCustomShapeTypeTranslationTable[] & are being defaulted to rect & rect does not have adjustment values/name. ) { SAL_INFO("oox.shape", "adj seq len: " << aAdjustmentSeq.getLength()); sal_Int32 nAdjustmentsWhichNeedsToBeConverted = 0; if ( bPredefinedHandlesUsed ) EscherPropertyContainer::LookForPolarHandles( eShapeType, nAdjustmentsWhichNeedsToBeConverted ); sal_Int32 nValue, nLength = aAdjustmentSeq.getLength(); // aAdjustments will give info about the number of adj values for a particular geometry. For example for hexagon aAdjustments.size() will be 2 and for circular arrow it will be 5 as per lcl_getAdjNames. // Sometimes there are more values than needed, so we ignore the excessive ones. if (aAdjustments.size() <= o3tl::make_unsigned(nLength)) { for (sal_Int32 i = 0; i < static_cast(aAdjustments.size()); i++) { if( EscherPropertyContainer::GetAdjustmentValue( aAdjustmentSeq[ i ], i, nAdjustmentsWhichNeedsToBeConverted, nValue ) ) { // If the document model doesn't have an adjustment name (e.g. shape was created from VML), then take it from the predefined list. OString aAdjName = aAdjustmentSeq[i].Name.isEmpty() ? aAdjustments[i] : aAdjustmentSeq[i].Name.toUtf8(); mpFS->singleElementNS( XML_a, XML_gd, XML_name, aAdjName, XML_fmla, "val " + OString::number(nValue)); } } } } mpFS->endElementNS( XML_a, XML_avLst ); mpFS->endElementNS( XML_a, XML_prstGeom ); } namespace // helpers for DrawingML::WriteCustomGeometry { sal_Int32 FindNextCommandEndSubpath(const sal_Int32 nStart, const uno::Sequence& rSegments) { sal_Int32 i = nStart < 0 ? 0 : nStart; while (i < rSegments.getLength() && rSegments[i].Command != ENDSUBPATH) i++; return i; } bool HasCommandInSubPath(const sal_Int16 nCommand, const sal_Int32 nFirst, const sal_Int32 nLast, const uno::Sequence& rSegments) { for (sal_Int32 i = nFirst < 0 ? 0 : nFirst; i <= nLast && i < rSegments.getLength(); i++) { if (rSegments[i].Command == nCommand) return true; } return false; } // Ellipse is given by radii fwR and fhR and center (fCx|fCy). The ray from center through point RayP // intersects the ellipse in point S and this point S has angle fAngleDeg in degrees. void getEllipsePointAndAngleFromRayPoint(double& rfAngleDeg, double& rfSx, double& rfSy, const double fWR, const double fHR, const double fCx, const double fCy, const double fRayPx, const double fRayPy) { if (basegfx::fTools::equalZero(fWR) || basegfx::fTools::equalZero(fHR)) { rfSx = fCx; // needed for getting new 'current point' rfSy = fCy; } else { // center ellipse at origin, stretch in y-direction to circle, flip to Math orientation // and get angle double fCircleMathAngle = atan2(-fWR / fHR * (fRayPy - fCy), fRayPx - fCx); // use angle for intersection point on circle and stretch back to ellipse double fPointMathEllipse_x = fWR * cos(fCircleMathAngle); double fPointMathEllipse_y = fHR * sin(fCircleMathAngle); // get angle of intersection point on ellipse double fEllipseMathAngle = atan2(fPointMathEllipse_y, fPointMathEllipse_x); // convert from Math to View orientation and shift ellipse back from origin rfAngleDeg = -basegfx::rad2deg(fEllipseMathAngle); rfSx = fPointMathEllipse_x + fCx; rfSy = -fPointMathEllipse_y + fCy; } } void getEllipsePointFromViewAngle(double& rfSx, double& rfSy, const double fWR, const double fHR, const double fCx, const double fCy, const double fViewAngleDeg) { if (basegfx::fTools::equalZero(fWR) || basegfx::fTools::equalZero(fHR)) { rfSx = fCx; // needed for getting new 'current point' rfSy = fCy; } else { double fX = cos(basegfx::deg2rad(fViewAngleDeg)) / fWR; double fY = sin(basegfx::deg2rad(fViewAngleDeg)) / fHR; double fRadius = 1.0 / std::hypot(fX, fY); rfSx = fCx + fRadius * cos(basegfx::deg2rad(fViewAngleDeg)); rfSy = fCy + fRadius * sin(basegfx::deg2rad(fViewAngleDeg)); } } sal_Int32 GetCustomGeometryPointValue(const css::drawing::EnhancedCustomShapeParameter& rParam, const EnhancedCustomShape2d& rCustomShape2d, const bool bReplaceGeoWidth, const bool bReplaceGeoHeight) { double fValue = 0.0; rCustomShape2d.GetParameter(fValue, rParam, bReplaceGeoWidth, bReplaceGeoHeight); sal_Int32 nValue(std::lround(fValue)); return nValue; } struct TextAreaRect { OString left; OString top; OString right; OString bottom; }; struct Guide { OString sName; OString sFormula; }; void prepareTextArea(const EnhancedCustomShape2d& rEnhancedCustomShape2d, std::vector& rGuideList, TextAreaRect& rTextAreaRect) { tools::Rectangle aTextAreaLO(rEnhancedCustomShape2d.GetTextRect()); tools::Rectangle aLogicRectLO(rEnhancedCustomShape2d.GetLogicRect()); if (aTextAreaLO == aLogicRectLO) { rTextAreaRect.left = "l"_ostr; rTextAreaRect.top = "t"_ostr; rTextAreaRect.right = "r"_ostr; rTextAreaRect.bottom = "b"_ostr; return; } // Flip aTextAreaLO if shape is flipped if (rEnhancedCustomShape2d.IsFlipHorz()) aTextAreaLO.Move((aLogicRectLO.Center().X() - aTextAreaLO.Center().X()) * 2, 0); if (rEnhancedCustomShape2d.IsFlipVert()) aTextAreaLO.Move(0, (aLogicRectLO.Center().Y() - aTextAreaLO.Center().Y()) * 2); Guide aGuide; // horizontal const sal_Int32 nWidth = aLogicRectLO.Right() - aLogicRectLO.Left(); const OString sWidth = OString::number(oox::drawingml::convertHmmToEmu(nWidth)); // left aGuide.sName = "textAreaLeft"_ostr; sal_Int32 nHelp = aTextAreaLO.Left() - aLogicRectLO.Left(); const OString sLeft = OString::number(oox::drawingml::convertHmmToEmu(nHelp)); aGuide.sFormula = "*/ " + sLeft + " w " + sWidth; rTextAreaRect.left = aGuide.sName; rGuideList.push_back(aGuide); // right aGuide.sName = "textAreaRight"_ostr; nHelp = aTextAreaLO.Right() - aLogicRectLO.Left(); const OString sRight = OString::number(oox::drawingml::convertHmmToEmu(nHelp)); aGuide.sFormula = "*/ " + sRight + " w " + sWidth; rTextAreaRect.right = aGuide.sName; rGuideList.push_back(aGuide); // vertical const sal_Int32 nHeight = aLogicRectLO.Bottom() - aLogicRectLO.Top(); const OString sHeight = OString::number(oox::drawingml::convertHmmToEmu(nHeight)); // top aGuide.sName = "textAreaTop"_ostr; nHelp = aTextAreaLO.Top() - aLogicRectLO.Top(); const OString sTop = OString::number(oox::drawingml::convertHmmToEmu(nHelp)); aGuide.sFormula = "*/ " + sTop + " h " + sHeight; rTextAreaRect.top = aGuide.sName; rGuideList.push_back(aGuide); // bottom aGuide.sName = "textAreaBottom"_ostr; nHelp = aTextAreaLO.Bottom() - aLogicRectLO.Top(); const OString sBottom = OString::number(oox::drawingml::convertHmmToEmu(nHelp)); aGuide.sFormula = "*/ " + sBottom + " h " + sHeight; rTextAreaRect.bottom = aGuide.sName; rGuideList.push_back(aGuide); return; } } bool DrawingML::WriteCustomGeometry( const Reference< XShape >& rXShape, const SdrObjCustomShape& rSdrObjCustomShape) { uno::Reference< beans::XPropertySet > aXPropSet; uno::Any aAny( rXShape->queryInterface(cppu::UnoType::get())); if ( ! (aAny >>= aXPropSet) ) return false; try { aAny = aXPropSet->getPropertyValue( "CustomShapeGeometry" ); if ( !aAny.hasValue() ) return false; } catch( const ::uno::Exception& ) { return false; } auto pGeometrySeq = o3tl::tryAccess>(aAny); if (!pGeometrySeq) return false; auto pPathProp = std::find_if(std::cbegin(*pGeometrySeq), std::cend(*pGeometrySeq), [](const PropertyValue& rProp) { return rProp.Name == "Path"; }); if (pPathProp == std::cend(*pGeometrySeq)) return false; uno::Sequence aPathProp; pPathProp->Value >>= aPathProp; uno::Sequence aPairs; uno::Sequence aSegments; uno::Sequence aPathSize; bool bReplaceGeoWidth = false; bool bReplaceGeoHeight = false; for (const beans::PropertyValue& rPathProp : std::as_const(aPathProp)) { if (rPathProp.Name == "Coordinates") rPathProp.Value >>= aPairs; else if (rPathProp.Name == "Segments") rPathProp.Value >>= aSegments; else if (rPathProp.Name == "SubViewSize") rPathProp.Value >>= aPathSize; else if (rPathProp.Name == "StretchX") bReplaceGeoWidth = true; else if (rPathProp.Name == "StretchY") bReplaceGeoHeight = true; } if ( !aPairs.hasElements() ) return false; if ( !aSegments.hasElements() ) { aSegments = uno::Sequence { { MOVETO, 1 }, { LINETO, static_cast(std::min( aPairs.getLength() - 1, sal_Int32(32767) )) }, { CLOSESUBPATH, 0 }, { ENDSUBPATH, 0 } }; }; int nExpectedPairCount = std::accumulate(std::cbegin(aSegments), std::cend(aSegments), 0, [](const int nSum, const drawing::EnhancedCustomShapeSegment& rSegment) { return nSum + rSegment.Count; }); if ( nExpectedPairCount > aPairs.getLength() ) { SAL_WARN("oox.shape", "Segments need " << nExpectedPairCount << " coordinates, but Coordinates have only " << aPairs.getLength() << " pairs."); return false; } // A EnhancedCustomShape2d caches the equation results. Therefore we use only one of it for the // entire method. const EnhancedCustomShape2d aCustomShape2d(const_cast(rSdrObjCustomShape)); TextAreaRect aTextAreaRect; std::vector aGuideList; // for now only for prepareTextArea(aCustomShape2d, aGuideList, aTextAreaRect); mpFS->startElementNS(XML_a, XML_custGeom); mpFS->singleElementNS(XML_a, XML_avLst); if (aGuideList.empty()) { mpFS->singleElementNS(XML_a, XML_gdLst); } else { mpFS->startElementNS(XML_a, XML_gdLst); for (auto const& elem : aGuideList) { mpFS->singleElementNS(XML_a, XML_gd, XML_name, elem.sName, XML_fmla, elem.sFormula); } mpFS->endElementNS(XML_a, XML_gdLst); } mpFS->singleElementNS(XML_a, XML_ahLst); mpFS->singleElementNS(XML_a, XML_rect, XML_l, aTextAreaRect.left, XML_t, aTextAreaRect.top, XML_r, aTextAreaRect.right, XML_b, aTextAreaRect.bottom); mpFS->startElementNS(XML_a, XML_pathLst); // Prepare width and height for bool bUseGlobalViewBox(false); // nViewBoxWidth must be integer otherwise ReplaceGeoWidth in aCustomShape2d.GetParameter() is not // triggered; same for height. sal_Int32 nViewBoxWidth(0); sal_Int32 nViewBoxHeight(0); if (!aPathSize.hasElements()) { bUseGlobalViewBox = true; // If draw:viewBox is missing in draw:enhancedGeometry, then import sets // viewBox="0 0 21600 21600". Missing ViewBox can only occur, if user has manipulated // current file via macro. Author of macro has to fix it. auto pProp = std::find_if( std::cbegin(*pGeometrySeq), std::cend(*pGeometrySeq), [](const beans::PropertyValue& rGeomProp) { return rGeomProp.Name == "ViewBox"; }); if (pProp != std::cend(*pGeometrySeq)) { css::awt::Rectangle aViewBox; if (pProp->Value >>= aViewBox) { nViewBoxWidth = aViewBox.Width; nViewBoxHeight = aViewBox.Height; css::drawing::EnhancedCustomShapeParameter aECSP; aECSP.Type = css::drawing::EnhancedCustomShapeParameterType::NORMAL; aECSP.Value <<= nViewBoxWidth; double fRetValue; aCustomShape2d.GetParameter(fRetValue, aECSP, true, false); nViewBoxWidth = basegfx::fround(fRetValue); aECSP.Value <<= nViewBoxHeight; aCustomShape2d.GetParameter(fRetValue, aECSP, false, true); nViewBoxHeight = basegfx::fround(fRetValue); } } // Import from oox or documents, which are imported from oox and saved to strict ODF, might // have no subViewSize but viewBox="0 0 0 0". We need to generate width and height in those // cases. Even if that is fixed, we need the substitute for old documents. if ((nViewBoxWidth == 0 && nViewBoxHeight == 0) || pProp == std::cend(*pGeometrySeq)) { // Generate a substitute based on point coordinates sal_Int32 nXMin(0); aPairs[0].First.Value >>= nXMin; sal_Int32 nXMax = nXMin; sal_Int32 nYMin(0); aPairs[0].Second.Value >>= nYMin; sal_Int32 nYMax = nYMin; for (const auto& rPair : std::as_const(aPairs)) { sal_Int32 nX = GetCustomGeometryPointValue(rPair.First, aCustomShape2d, bReplaceGeoWidth, false); sal_Int32 nY = GetCustomGeometryPointValue(rPair.Second, aCustomShape2d, false, bReplaceGeoHeight); if (nX < nXMin) nXMin = nX; if (nY < nYMin) nYMin = nY; if (nX > nXMax) nXMax = nX; if (nY > nYMax) nYMax = nY; } nViewBoxWidth = std::max(nXMax, nXMax - nXMin); nViewBoxHeight = std::max(nYMax, nYMax - nYMin); } // ToDo: Other values of left,top than 0,0 are not considered yet. Such would require a // shift of the resulting path coordinates. } // Iterate over subpaths sal_Int32 nPairIndex = 0; // index over "Coordinates" sal_Int32 nPathSizeIndex = 0; // index over "SubViewSize" sal_Int32 nSubpathStartIndex(0); // index over "Segments" sal_Int32 nSubPathIndex(0); // serial number of current subpath do { bool bOK(true); // catch faulty paths were commands do not correspond to points // get index of next command ENDSUBPATH; if such doesn't exist use index behind last segment sal_Int32 nNextNcommandIndex = FindNextCommandEndSubpath(nSubpathStartIndex, aSegments); // Prepare attributes for a:path start element // NOFILL or one of the LIGHTEN commands std::optional sFill; if (HasCommandInSubPath(NOFILL, nSubpathStartIndex, nNextNcommandIndex - 1, aSegments)) sFill = "none"; else if (HasCommandInSubPath(DARKEN, nSubpathStartIndex, nNextNcommandIndex - 1, aSegments)) sFill = "darken"; else if (HasCommandInSubPath(DARKENLESS, nSubpathStartIndex, nNextNcommandIndex - 1, aSegments)) sFill = "darkenLess"; else if (HasCommandInSubPath(LIGHTEN, nSubpathStartIndex, nNextNcommandIndex - 1, aSegments)) sFill = "lighten"; else if (HasCommandInSubPath(LIGHTENLESS, nSubpathStartIndex, nNextNcommandIndex - 1, aSegments)) sFill = "lightenLess"; else { // shading info might be in object type, e.g. "Octagon Bevel". sal_Int32 nLuminanceChange(aCustomShape2d.GetLuminanceChange(nSubPathIndex)); if (nLuminanceChange <= -40) sFill = "darken"; else if (nLuminanceChange <= -10) sFill = "darkenLess"; else if (nLuminanceChange >= 40) sFill = "lighten"; else if (nLuminanceChange >= 10) sFill = "lightenLess"; } // NOSTROKE std::optional sStroke; if (HasCommandInSubPath(NOSTROKE, nSubpathStartIndex, nNextNcommandIndex - 1, aSegments)) sStroke = "0"; // Write a:path start element mpFS->startElementNS( XML_a, XML_path, XML_fill, sFill, XML_stroke, sStroke, XML_w, OString::number(bUseGlobalViewBox ? nViewBoxWidth : aPathSize[nPathSizeIndex].Width), XML_h, OString::number(bUseGlobalViewBox ? nViewBoxHeight : aPathSize[nPathSizeIndex].Height)); // Arcs drawn by commands ELLIPTICALQUADRANTX and ELLIPTICALQUADRANTY depend on the position // of the target point in regard to the current point. Therefore we need to track the // current point. A current point is not defined in the beginning. double fCurrentX(0.0); double fCurrentY(0.0); bool bCurrentValid(false); // Actually write the subpath for (sal_Int32 nSegmentIndex = nSubpathStartIndex; nSegmentIndex < nNextNcommandIndex; ++nSegmentIndex) { const auto& rSegment(aSegments[nSegmentIndex]); if (rSegment.Command == CLOSESUBPATH) { mpFS->singleElementNS(XML_a, XML_close); // command Z has no parameter // ODF 1.4 specifies, that the start of the subpath becomes the current point. // But that is not implemented yet. Currently LO keeps the last current point. } for (sal_Int32 k = 0; k < rSegment.Count && bOK; ++k) { bOK = WriteCustomGeometrySegment(rSegment.Command, k, aPairs, nPairIndex, fCurrentX, fCurrentY, bCurrentValid, aCustomShape2d, bReplaceGeoWidth, bReplaceGeoHeight); } } // end loop over all commands of subpath // finish this subpath in any case mpFS->endElementNS(XML_a, XML_path); if (!bOK) break; // exit loop if not enough values in aPairs // step forward to next subpath nSubpathStartIndex = nNextNcommandIndex + 1; nPathSizeIndex++; nSubPathIndex++; } while (nSubpathStartIndex < aSegments.getLength()); mpFS->endElementNS(XML_a, XML_pathLst); mpFS->endElementNS(XML_a, XML_custGeom); return true; // We have written custGeom even if path is poorly structured. } bool DrawingML::WriteCustomGeometrySegment( const sal_Int16 eCommand, const sal_Int32 nCount, const uno::Sequence& rPairs, sal_Int32& rnPairIndex, double& rfCurrentX, double& rfCurrentY, bool& rbCurrentValid, const EnhancedCustomShape2d& rCustomShape2d, const bool bReplaceGeoWidth, const bool bReplaceGeoHeight) { switch (eCommand) { case MOVETO: { if (rnPairIndex >= rPairs.getLength()) return false; mpFS->startElementNS(XML_a, XML_moveTo); WriteCustomGeometryPoint(rPairs[rnPairIndex], rCustomShape2d, bReplaceGeoWidth, bReplaceGeoHeight); mpFS->endElementNS(XML_a, XML_moveTo); rCustomShape2d.GetParameter(rfCurrentX, rPairs[rnPairIndex].First, bReplaceGeoWidth, false); rCustomShape2d.GetParameter(rfCurrentY, rPairs[rnPairIndex].Second, false, bReplaceGeoHeight); rbCurrentValid = true; rnPairIndex++; break; } case LINETO: { if (rnPairIndex >= rPairs.getLength()) return false; // LINETO without valid current point is a faulty path. LO is tolerant and makes a // moveTo instead. Do the same on export. MS OFFICE requires a current point for lnTo, // otherwise it shows nothing of the shape. if (rbCurrentValid) { mpFS->startElementNS(XML_a, XML_lnTo); WriteCustomGeometryPoint(rPairs[rnPairIndex], rCustomShape2d, bReplaceGeoWidth, bReplaceGeoHeight); mpFS->endElementNS(XML_a, XML_lnTo); } else { mpFS->startElementNS(XML_a, XML_moveTo); WriteCustomGeometryPoint(rPairs[rnPairIndex], rCustomShape2d, bReplaceGeoWidth, bReplaceGeoHeight); mpFS->endElementNS(XML_a, XML_moveTo); } rCustomShape2d.GetParameter(rfCurrentX, rPairs[rnPairIndex].First, bReplaceGeoWidth, false); rCustomShape2d.GetParameter(rfCurrentY, rPairs[rnPairIndex].Second, false, bReplaceGeoHeight); rbCurrentValid = true; rnPairIndex++; break; } case CURVETO: { if (rnPairIndex + 2 >= rPairs.getLength()) return false; mpFS->startElementNS(XML_a, XML_cubicBezTo); for (sal_uInt8 i = 0; i <= 2; ++i) { WriteCustomGeometryPoint(rPairs[rnPairIndex + i], rCustomShape2d, bReplaceGeoWidth, bReplaceGeoHeight); } mpFS->endElementNS(XML_a, XML_cubicBezTo); rCustomShape2d.GetParameter(rfCurrentX, rPairs[rnPairIndex + 2].First, bReplaceGeoWidth, false); rCustomShape2d.GetParameter(rfCurrentY, rPairs[rnPairIndex + 2].Second, false, bReplaceGeoHeight); rbCurrentValid = true; rnPairIndex += 3; break; } case ANGLEELLIPSETO: case ANGLEELLIPSE: { if (rnPairIndex + 2 >= rPairs.getLength()) return false; // Read parameters double fCx = 0.0; rCustomShape2d.GetParameter(fCx, rPairs[rnPairIndex].First, bReplaceGeoWidth, false); double fCy = 0.0; rCustomShape2d.GetParameter(fCy, rPairs[rnPairIndex].Second, false, bReplaceGeoHeight); double fWR = 0.0; rCustomShape2d.GetParameter(fWR, rPairs[rnPairIndex + 1].First, false, false); double fHR = 0.0; rCustomShape2d.GetParameter(fHR, rPairs[rnPairIndex + 1].Second, false, false); double fStartAngle = 0.0; rCustomShape2d.GetParameter(fStartAngle, rPairs[rnPairIndex + 2].First, false, false); double fEndAngle = 0.0; rCustomShape2d.GetParameter(fEndAngle, rPairs[rnPairIndex + 2].Second, false, false); // Prepare start and swing angle sal_Int32 nStartAng(std::lround(fStartAngle * 60000)); sal_Int32 nSwingAng = 0; if (basegfx::fTools::equalZero(fStartAngle) && basegfx::fTools::equalZero(fEndAngle - 360.0)) nSwingAng = 360 * 60000; // special case full circle else { nSwingAng = std::lround((fEndAngle - fStartAngle) * 60000); if (nSwingAng < 0) nSwingAng += 360 * 60000; } // calculate start point on ellipse double fSx = 0.0; double fSy = 0.0; getEllipsePointFromViewAngle(fSx, fSy, fWR, fHR, fCx, fCy, fStartAngle); // write markup for going to start point // lnTo requires a valid current point if (eCommand == ANGLEELLIPSETO && rbCurrentValid) { mpFS->startElementNS(XML_a, XML_lnTo); mpFS->singleElementNS(XML_a, XML_pt, XML_x, OString::number(std::lround(fSx)), XML_y, OString::number(std::lround(fSy))); mpFS->endElementNS(XML_a, XML_lnTo); } else { mpFS->startElementNS(XML_a, XML_moveTo); mpFS->singleElementNS(XML_a, XML_pt, XML_x, OString::number(std::lround(fSx)), XML_y, OString::number(std::lround(fSy))); mpFS->endElementNS(XML_a, XML_moveTo); } // write markup for arcTo if (!basegfx::fTools::equalZero(fWR) && !basegfx::fTools::equalZero(fHR)) mpFS->singleElement( FSNS(XML_a, XML_arcTo), XML_wR, OString::number(std::lround(fWR)), XML_hR, OString::number(std::lround(fHR)), XML_stAng, OString::number(nStartAng), XML_swAng, OString::number(nSwingAng)); getEllipsePointFromViewAngle(rfCurrentX, rfCurrentY, fWR, fHR, fCx, fCy, fEndAngle); rbCurrentValid = true; rnPairIndex += 3; break; } case ARCTO: case ARC: case CLOCKWISEARCTO: case CLOCKWISEARC: { if (rnPairIndex + 3 >= rPairs.getLength()) return false; // read parameters double fX1 = 0.0; rCustomShape2d.GetParameter(fX1, rPairs[rnPairIndex].First, bReplaceGeoWidth, false); double fY1 = 0.0; rCustomShape2d.GetParameter(fY1, rPairs[rnPairIndex].Second, false, bReplaceGeoHeight); double fX2 = 0.0; rCustomShape2d.GetParameter(fX2, rPairs[rnPairIndex + 1].First, bReplaceGeoWidth, false); double fY2 = 0.0; rCustomShape2d.GetParameter(fY2, rPairs[rnPairIndex + 1].Second, false, bReplaceGeoHeight); double fX3 = 0.0; rCustomShape2d.GetParameter(fX3, rPairs[rnPairIndex + 2].First, bReplaceGeoWidth, false); double fY3 = 0.0; rCustomShape2d.GetParameter(fY3, rPairs[rnPairIndex + 2].Second, false, bReplaceGeoHeight); double fX4 = 0.0; rCustomShape2d.GetParameter(fX4, rPairs[rnPairIndex + 3].First, bReplaceGeoWidth, false); double fY4 = 0.0; rCustomShape2d.GetParameter(fY4, rPairs[rnPairIndex + 3].Second, false, bReplaceGeoHeight); // calculate ellipse parameter const double fWR = (std::max(fX1, fX2) - std::min(fX1, fX2)) / 2.0; const double fHR = (std::max(fY1, fY2) - std::min(fY1, fY2)) / 2.0; const double fCx = (fX1 + fX2) / 2.0; const double fCy = (fY1 + fY2) / 2.0; // calculate start angle double fStartAngle = 0.0; double fPx = 0.0; double fPy = 0.0; getEllipsePointAndAngleFromRayPoint(fStartAngle, fPx, fPy, fWR, fHR, fCx, fCy, fX3, fY3); // markup for going to start point // lnTo requires a valid current point. if ((eCommand == ARCTO || eCommand == CLOCKWISEARCTO) && rbCurrentValid) { mpFS->startElementNS(XML_a, XML_lnTo); mpFS->singleElementNS(XML_a, XML_pt, XML_x, OString::number(std::lround(fPx)), XML_y, OString::number(std::lround(fPy))); mpFS->endElementNS(XML_a, XML_lnTo); } else { mpFS->startElementNS(XML_a, XML_moveTo); mpFS->singleElementNS(XML_a, XML_pt, XML_x, OString::number(std::lround(fPx)), XML_y, OString::number(std::lround(fPy))); mpFS->endElementNS(XML_a, XML_moveTo); } // calculate swing angle double fEndAngle = 0.0; getEllipsePointAndAngleFromRayPoint(fEndAngle, fPx, fPy, fWR, fHR, fCx, fCy, fX4, fY4); double fSwingAngle(fEndAngle - fStartAngle); const bool bIsClockwise(eCommand == CLOCKWISEARCTO || eCommand == CLOCKWISEARC); if (bIsClockwise && fSwingAngle < 0) fSwingAngle += 360.0; else if (!bIsClockwise && fSwingAngle > 0) fSwingAngle -= 360.0; // markup for arcTo // ToDo: write markup for case zero width or height of ellipse const sal_Int32 nStartAng(std::lround(fStartAngle * 60000)); const sal_Int32 nSwingAng(std::lround(fSwingAngle * 60000)); mpFS->singleElement(FSNS(XML_a, XML_arcTo), XML_wR, OString::number(std::lround(fWR)), XML_hR, OString::number(std::lround(fHR)), XML_stAng, OString::number(nStartAng), XML_swAng, OString::number(nSwingAng)); rfCurrentX = fPx; rfCurrentY = fPy; rbCurrentValid = true; rnPairIndex += 4; break; } case ELLIPTICALQUADRANTX: case ELLIPTICALQUADRANTY: { if (rnPairIndex >= rPairs.getLength()) return false; // read parameters double fX = 0.0; rCustomShape2d.GetParameter(fX, rPairs[rnPairIndex].First, bReplaceGeoWidth, false); double fY = 0.0; rCustomShape2d.GetParameter(fY, rPairs[rnPairIndex].Second, false, bReplaceGeoHeight); // Prepare parameters for arcTo if (rbCurrentValid) { double fWR = std::abs(rfCurrentX - fX); double fHR = std::abs(rfCurrentY - fY); double fStartAngle(0.0); double fSwingAngle(0.0); // The starting direction of the arc toggles between X and Y if ((eCommand == ELLIPTICALQUADRANTX && !(nCount % 2)) || (eCommand == ELLIPTICALQUADRANTY && (nCount % 2))) { // arc starts horizontal fStartAngle = fY < rfCurrentY ? 90.0 : 270.0; const bool bClockwise = (fX < rfCurrentX && fY < rfCurrentY) || (fX > rfCurrentX && fY > rfCurrentY); fSwingAngle = bClockwise ? 90.0 : -90.0; } else { // arc starts vertical fStartAngle = fX < rfCurrentX ? 0.0 : 180.0; const bool bClockwise = (fX < rfCurrentX && fY > rfCurrentY) || (fX > rfCurrentX && fY < rfCurrentY); fSwingAngle = bClockwise ? 90.0 : -90.0; } sal_Int32 nStartAng(std::lround(fStartAngle * 60000)); sal_Int32 nSwingAng(std::lround(fSwingAngle * 60000)); mpFS->singleElement( FSNS(XML_a, XML_arcTo), XML_wR, OString::number(std::lround(fWR)), XML_hR, OString::number(std::lround(fHR)), XML_stAng, OString::number(nStartAng), XML_swAng, OString::number(nSwingAng)); } else { // faulty path, but we continue with the target point mpFS->startElementNS(XML_a, XML_moveTo); WriteCustomGeometryPoint(rPairs[rnPairIndex], rCustomShape2d, bReplaceGeoWidth, bReplaceGeoHeight); mpFS->endElementNS(XML_a, XML_moveTo); } rfCurrentX = fX; rfCurrentY = fY; rbCurrentValid = true; rnPairIndex++; break; } case QUADRATICCURVETO: { if (rnPairIndex + 1 >= rPairs.getLength()) return false; mpFS->startElementNS(XML_a, XML_quadBezTo); for (sal_uInt8 i = 0; i < 2; ++i) { WriteCustomGeometryPoint(rPairs[rnPairIndex + i], rCustomShape2d, bReplaceGeoWidth, bReplaceGeoHeight); } mpFS->endElementNS(XML_a, XML_quadBezTo); rCustomShape2d.GetParameter(rfCurrentX, rPairs[rnPairIndex + 1].First, bReplaceGeoWidth, false); rCustomShape2d.GetParameter(rfCurrentY, rPairs[rnPairIndex + 1].Second, false, bReplaceGeoHeight); rbCurrentValid = true; rnPairIndex += 2; break; } case ARCANGLETO: { if (rnPairIndex + 1 >= rPairs.getLength()) return false; double fWR = 0.0; rCustomShape2d.GetParameter(fWR, rPairs[rnPairIndex].First, false, false); double fHR = 0.0; rCustomShape2d.GetParameter(fHR, rPairs[rnPairIndex].Second, false, false); double fStartAngle = 0.0; rCustomShape2d.GetParameter(fStartAngle, rPairs[rnPairIndex + 1].First, false, false); sal_Int32 nStartAng(std::lround(fStartAngle * 60000)); double fSwingAng = 0.0; rCustomShape2d.GetParameter(fSwingAng, rPairs[rnPairIndex + 1].Second, false, false); sal_Int32 nSwingAng(std::lround(fSwingAng * 60000)); mpFS->singleElement(FSNS(XML_a, XML_arcTo), XML_wR, OString::number(fWR), XML_hR, OString::number(fHR), XML_stAng, OString::number(nStartAng), XML_swAng, OString::number(nSwingAng)); double fPx = 0.0; double fPy = 0.0; getEllipsePointFromViewAngle(fPx, fPy, fWR, fHR, 0.0, 0.0, fStartAngle); double fCx = rfCurrentX - fPx; double fCy = rfCurrentY - fPy; getEllipsePointFromViewAngle(rfCurrentX, rfCurrentY, fWR, fHR, fCx, fCy, fStartAngle + fSwingAng); rbCurrentValid = true; rnPairIndex += 2; break; } default: // do nothing break; } return true; } void DrawingML::WriteCustomGeometryPoint( const drawing::EnhancedCustomShapeParameterPair& rParamPair, const EnhancedCustomShape2d& rCustomShape2d, const bool bReplaceGeoWidth, const bool bReplaceGeoHeight) { sal_Int32 nX = GetCustomGeometryPointValue(rParamPair.First, rCustomShape2d, bReplaceGeoWidth, false); sal_Int32 nY = GetCustomGeometryPointValue(rParamPair.Second, rCustomShape2d, false, bReplaceGeoHeight); mpFS->singleElementNS(XML_a, XML_pt, XML_x, OString::number(nX), XML_y, OString::number(nY)); } void DrawingML::WriteEmptyCustomGeometry() { // This method is used for export to docx in case WriteCustomGeometry fails. mpFS->startElementNS(XML_a, XML_custGeom); mpFS->singleElementNS(XML_a, XML_avLst); mpFS->singleElementNS(XML_a, XML_gdLst); mpFS->singleElementNS(XML_a, XML_ahLst); mpFS->singleElementNS(XML_a, XML_rect, XML_l, "0", XML_t, "0", XML_r, "r", XML_b, "b"); mpFS->singleElementNS(XML_a, XML_pathLst); mpFS->endElementNS(XML_a, XML_custGeom); } // version for SdrPathObj void DrawingML::WritePolyPolygon(const css::uno::Reference& rXShape, const bool bClosed) { tools::PolyPolygon aPolyPolygon = EscherPropertyContainer::GetPolyPolygon(rXShape); // In case of Writer, the parent element is , and there the // element is not optional. if (aPolyPolygon.Count() < 1 && GetDocumentType() != DOCUMENT_DOCX) return; mpFS->startElementNS(XML_a, XML_custGeom); mpFS->singleElementNS(XML_a, XML_avLst); mpFS->singleElementNS(XML_a, XML_gdLst); mpFS->singleElementNS(XML_a, XML_ahLst); mpFS->singleElementNS(XML_a, XML_rect, XML_l, "0", XML_t, "0", XML_r, "r", XML_b, "b"); mpFS->startElementNS(XML_a, XML_pathLst); awt::Size aSize = rXShape->getSize(); awt::Point aPos = rXShape->getPosition(); Reference xPropertySet(rXShape, UNO_QUERY); uno::Reference xPropertySetInfo = xPropertySet->getPropertySetInfo(); if (xPropertySetInfo->hasPropertyByName("AnchorPosition")) { awt::Point aAnchorPosition; xPropertySet->getPropertyValue("AnchorPosition") >>= aAnchorPosition; aPos.X += aAnchorPosition.X; aPos.Y += aAnchorPosition.Y; } // Only closed SdrPathObj can be filled std::optional sFill; if (!bClosed) sFill = "none"; // for possible values see ST_PathFillMode in OOXML standard // Put all polygons of rPolyPolygon in the same path element // to subtract the overlapped areas. mpFS->startElementNS(XML_a, XML_path, XML_fill, sFill, XML_w, OString::number(aSize.Width), XML_h, OString::number(aSize.Height)); for (sal_uInt16 i = 0; i < aPolyPolygon.Count(); i++) { const tools::Polygon& aPoly = aPolyPolygon[i]; if (aPoly.GetSize() > 0) { mpFS->startElementNS(XML_a, XML_moveTo); mpFS->singleElementNS(XML_a, XML_pt, XML_x, OString::number(aPoly[0].X() - aPos.X), XML_y, OString::number(aPoly[0].Y() - aPos.Y)); mpFS->endElementNS(XML_a, XML_moveTo); } for (sal_uInt16 j = 1; j < aPoly.GetSize(); j++) { PolyFlags flags = aPoly.GetFlags(j); if (flags == PolyFlags::Control) { // a:cubicBezTo can only contain 3 a:pt elements, so we need to make sure of this if (j + 2 < aPoly.GetSize() && aPoly.GetFlags(j + 1) == PolyFlags::Control && aPoly.GetFlags(j + 2) != PolyFlags::Control) { mpFS->startElementNS(XML_a, XML_cubicBezTo); for (sal_uInt8 k = 0; k <= 2; ++k) { mpFS->singleElementNS(XML_a, XML_pt, XML_x, OString::number(aPoly[j + k].X() - aPos.X), XML_y, OString::number(aPoly[j + k].Y() - aPos.Y)); } mpFS->endElementNS(XML_a, XML_cubicBezTo); j += 2; } } else if (flags == PolyFlags::Normal) { mpFS->startElementNS(XML_a, XML_lnTo); mpFS->singleElementNS(XML_a, XML_pt, XML_x, OString::number(aPoly[j].X() - aPos.X), XML_y, OString::number(aPoly[j].Y() - aPos.Y)); mpFS->endElementNS(XML_a, XML_lnTo); } } } if (bClosed) mpFS->singleElementNS(XML_a, XML_close); mpFS->endElementNS(XML_a, XML_path); mpFS->endElementNS(XML_a, XML_pathLst); mpFS->endElementNS(XML_a, XML_custGeom); } void DrawingML::WriteConnectorConnections( sal_Int32 nStartGlueId, sal_Int32 nEndGlueId, sal_Int32 nStartID, sal_Int32 nEndID ) { if( nStartID != -1 ) { mpFS->singleElementNS( XML_a, XML_stCxn, XML_id, OString::number(nStartID), XML_idx, OString::number(nStartGlueId) ); } if( nEndID != -1 ) { mpFS->singleElementNS( XML_a, XML_endCxn, XML_id, OString::number(nEndID), XML_idx, OString::number(nEndGlueId) ); } } sal_Unicode DrawingML::SubstituteBullet( sal_Unicode cBulletId, css::awt::FontDescriptor& rFontDesc ) { if ( IsOpenSymbol(rFontDesc.Name) ) { rtl_TextEncoding eCharSet = rFontDesc.CharSet; cBulletId = msfilter::util::bestFitOpenSymbolToMSFont(cBulletId, eCharSet, rFontDesc.Name); rFontDesc.CharSet = eCharSet; } return cBulletId; } sax_fastparser::FSHelperPtr DrawingML::CreateOutputStream ( const OUString& sFullStream, std::u16string_view sRelativeStream, const Reference< XOutputStream >& xParentRelation, const OUString& sContentType, const OUString& sRelationshipType, OUString* pRelationshipId ) { OUString sRelationshipId; if (xParentRelation.is()) sRelationshipId = GetFB()->addRelation( xParentRelation, sRelationshipType, sRelativeStream ); else sRelationshipId = GetFB()->addRelation( sRelationshipType, sRelativeStream ); if( pRelationshipId ) *pRelationshipId = sRelationshipId; sax_fastparser::FSHelperPtr p = GetFB()->openFragmentStreamWithSerializer( sFullStream, sContentType ); return p; } void DrawingML::WriteFill(const Reference& xPropSet, const awt::Size& rSize) { if ( !GetProperty( xPropSet, "FillStyle" ) ) return; FillStyle aFillStyle( FillStyle_NONE ); xPropSet->getPropertyValue( "FillStyle" ) >>= aFillStyle; // map full transparent background to no fill if (aFillStyle == FillStyle_SOLID) { OUString sFillTransparenceGradientName; if (GetProperty(xPropSet, "FillTransparenceGradientName") && (mAny >>= sFillTransparenceGradientName) && !sFillTransparenceGradientName.isEmpty() && GetProperty(xPropSet, "FillTransparenceGradient")) { // check if a fully transparent TransparenceGradient is used // use BGradient constructor & tooling here now const basegfx::BGradient aTransparenceGradient = model::gradient::getFromAny(mAny); basegfx::BColor aSingleColor; const bool bSingleColor(aTransparenceGradient.GetColorStops().isSingleColor(aSingleColor)); const bool bCompletelyTransparent(bSingleColor && basegfx::fTools::equal(aSingleColor.luminance(), 1.0)); if (bCompletelyTransparent) { aFillStyle = FillStyle_NONE; } } else if ( GetProperty( xPropSet, "FillTransparence" ) ) { // check if a fully transparent FillTransparence is used sal_Int16 nVal = 0; xPropSet->getPropertyValue( "FillTransparence" ) >>= nVal; if ( nVal == 100 ) aFillStyle = FillStyle_NONE; } } bool bUseBackground(false); if (GetProperty(xPropSet, "FillUseSlideBackground")) xPropSet->getPropertyValue("FillUseSlideBackground") >>= bUseBackground; switch( aFillStyle ) { case FillStyle_SOLID : WriteSolidFill( xPropSet ); break; case FillStyle_GRADIENT : WriteGradientFill( xPropSet ); break; case FillStyle_BITMAP : WriteBlipFill( xPropSet, "FillBitmap", rSize ); break; case FillStyle_HATCH : WritePattFill( xPropSet ); break; case FillStyle_NONE: if (!bUseBackground) // attribute `useBgFill` will be written at parent p:sp shape mpFS->singleElementNS(XML_a, XML_noFill); break; default: ; } } void DrawingML::WriteStyleProperties( sal_Int32 nTokenId, const Sequence< PropertyValue >& aProperties ) { if( aProperties.hasElements() ) { OUString sSchemeClr; sal_uInt32 nIdx = 0; Sequence< PropertyValue > aTransformations; for( const auto& rProp : aProperties) { if( rProp.Name == "SchemeClr" ) rProp.Value >>= sSchemeClr; else if( rProp.Name == "Idx" ) rProp.Value >>= nIdx; else if( rProp.Name == "Transformations" ) rProp.Value >>= aTransformations; } mpFS->startElementNS(XML_a, nTokenId, XML_idx, OString::number(nIdx)); WriteColor(sSchemeClr, aTransformations); mpFS->endElementNS( XML_a, nTokenId ); } else { // write mock tag mpFS->singleElementNS(XML_a, nTokenId, XML_idx, OString::number(0)); } } void DrawingML::WriteShapeStyle( const Reference< XPropertySet >& xPropSet ) { // check existence of the grab bag if ( !GetProperty( xPropSet, "InteropGrabBag" ) ) return; // extract the relevant properties from the grab bag Sequence< PropertyValue > aGrabBag; Sequence< PropertyValue > aFillRefProperties, aLnRefProperties, aEffectRefProperties; mAny >>= aGrabBag; for( const auto& rProp : std::as_const(aGrabBag)) { if( rProp.Name == "StyleFillRef" ) rProp.Value >>= aFillRefProperties; else if( rProp.Name == "StyleLnRef" ) rProp.Value >>= aLnRefProperties; else if( rProp.Name == "StyleEffectRef" ) rProp.Value >>= aEffectRefProperties; } WriteStyleProperties( XML_lnRef, aLnRefProperties ); WriteStyleProperties( XML_fillRef, aFillRefProperties ); WriteStyleProperties( XML_effectRef, aEffectRefProperties ); // write mock mpFS->singleElementNS(XML_a, XML_fontRef, XML_idx, "minor"); } void DrawingML::WriteShapeEffect( std::u16string_view sName, const Sequence< PropertyValue >& aEffectProps ) { if( !aEffectProps.hasElements() ) return; // assign the proper tag and enable bContainsColor if necessary sal_Int32 nEffectToken = 0; bool bContainsColor = false; if( sName == u"outerShdw" ) { nEffectToken = FSNS( XML_a, XML_outerShdw ); bContainsColor = true; } else if( sName == u"innerShdw" ) { nEffectToken = FSNS( XML_a, XML_innerShdw ); bContainsColor = true; } else if( sName == u"glow" ) { nEffectToken = FSNS( XML_a, XML_glow ); bContainsColor = true; } else if( sName == u"softEdge" ) nEffectToken = FSNS( XML_a, XML_softEdge ); else if( sName == u"reflection" ) nEffectToken = FSNS( XML_a, XML_reflection ); else if( sName == u"blur" ) nEffectToken = FSNS( XML_a, XML_blur ); OUString sSchemeClr; ::Color nRgbClr; sal_Int32 nAlpha = MAX_PERCENT; Sequence< PropertyValue > aTransformations; rtl::Reference aOuterShdwAttrList = FastSerializerHelper::createAttrList(); for( const auto& rEffectProp : aEffectProps ) { if( rEffectProp.Name == "Attribs" ) { // read tag attributes uno::Sequence< beans::PropertyValue > aOuterShdwProps; rEffectProp.Value >>= aOuterShdwProps; for( const auto& rOuterShdwProp : std::as_const(aOuterShdwProps) ) { if( rOuterShdwProp.Name == "algn" ) { OUString sVal; rOuterShdwProp.Value >>= sVal; aOuterShdwAttrList->add( XML_algn, sVal ); } else if( rOuterShdwProp.Name == "blurRad" ) { sal_Int64 nVal = 0; rOuterShdwProp.Value >>= nVal; aOuterShdwAttrList->add( XML_blurRad, OString::number( nVal ) ); } else if( rOuterShdwProp.Name == "dir" ) { sal_Int32 nVal = 0; rOuterShdwProp.Value >>= nVal; aOuterShdwAttrList->add( XML_dir, OString::number( nVal ) ); } else if( rOuterShdwProp.Name == "dist" ) { sal_Int32 nVal = 0; rOuterShdwProp.Value >>= nVal; aOuterShdwAttrList->add( XML_dist, OString::number( nVal ) ); } else if( rOuterShdwProp.Name == "kx" ) { sal_Int32 nVal = 0; rOuterShdwProp.Value >>= nVal; aOuterShdwAttrList->add( XML_kx, OString::number( nVal ) ); } else if( rOuterShdwProp.Name == "ky" ) { sal_Int32 nVal = 0; rOuterShdwProp.Value >>= nVal; aOuterShdwAttrList->add( XML_ky, OString::number( nVal ) ); } else if( rOuterShdwProp.Name == "rotWithShape" ) { sal_Int32 nVal = 0; rOuterShdwProp.Value >>= nVal; aOuterShdwAttrList->add( XML_rotWithShape, OString::number( nVal ) ); } else if( rOuterShdwProp.Name == "sx" ) { sal_Int32 nVal = 0; rOuterShdwProp.Value >>= nVal; aOuterShdwAttrList->add( XML_sx, OString::number( nVal ) ); } else if( rOuterShdwProp.Name == "sy" ) { sal_Int32 nVal = 0; rOuterShdwProp.Value >>= nVal; aOuterShdwAttrList->add( XML_sy, OString::number( nVal ) ); } else if( rOuterShdwProp.Name == "rad" ) { sal_Int64 nVal = 0; rOuterShdwProp.Value >>= nVal; aOuterShdwAttrList->add( XML_rad, OString::number( nVal ) ); } else if( rOuterShdwProp.Name == "endA" ) { sal_Int32 nVal = 0; rOuterShdwProp.Value >>= nVal; aOuterShdwAttrList->add( XML_endA, OString::number( nVal ) ); } else if( rOuterShdwProp.Name == "endPos" ) { sal_Int32 nVal = 0; rOuterShdwProp.Value >>= nVal; aOuterShdwAttrList->add( XML_endPos, OString::number( nVal ) ); } else if( rOuterShdwProp.Name == "fadeDir" ) { sal_Int32 nVal = 0; rOuterShdwProp.Value >>= nVal; aOuterShdwAttrList->add( XML_fadeDir, OString::number( nVal ) ); } else if( rOuterShdwProp.Name == "stA" ) { sal_Int32 nVal = 0; rOuterShdwProp.Value >>= nVal; aOuterShdwAttrList->add( XML_stA, OString::number( nVal ) ); } else if( rOuterShdwProp.Name == "stPos" ) { sal_Int32 nVal = 0; rOuterShdwProp.Value >>= nVal; aOuterShdwAttrList->add( XML_stPos, OString::number( nVal ) ); } else if( rOuterShdwProp.Name == "grow" ) { sal_Int32 nVal = 0; rOuterShdwProp.Value >>= nVal; aOuterShdwAttrList->add( XML_grow, OString::number( nVal ) ); } } } else if(rEffectProp.Name == "RgbClr") { rEffectProp.Value >>= nRgbClr; } else if(rEffectProp.Name == "RgbClrTransparency") { sal_Int32 nTransparency; if (rEffectProp.Value >>= nTransparency) // Calculate alpha value (see oox/source/drawingml/color.cxx : getTransparency()) nAlpha = MAX_PERCENT - ( PER_PERCENT * nTransparency ); } else if(rEffectProp.Name == "SchemeClr") { rEffectProp.Value >>= sSchemeClr; } else if(rEffectProp.Name == "SchemeClrTransformations") { rEffectProp.Value >>= aTransformations; } } if( nEffectToken <= 0 ) return; mpFS->startElement( nEffectToken, aOuterShdwAttrList ); if( bContainsColor ) { if( sSchemeClr.isEmpty() ) WriteColor( nRgbClr, nAlpha ); else WriteColor( sSchemeClr, aTransformations ); } mpFS->endElement( nEffectToken ); } static sal_Int32 lcl_CalculateDist(const double dX, const double dY) { return static_cast< sal_Int32 >(std::hypot(dX, dY) * 360); } static sal_Int32 lcl_CalculateDir(const double dX, const double dY) { return (static_cast< sal_Int32 >(basegfx::rad2deg<60000>(atan2(dY,dX))) + 21600000) % 21600000; } void DrawingML::WriteShapeEffects( const Reference< XPropertySet >& rXPropSet ) { Sequence< PropertyValue > aGrabBag, aEffects, aOuterShdwProps; bool bHasInteropGrabBag = rXPropSet->getPropertySetInfo()->hasPropertyByName("InteropGrabBag"); if (bHasInteropGrabBag && GetProperty(rXPropSet, "InteropGrabBag")) { mAny >>= aGrabBag; auto pProp = std::find_if(std::cbegin(aGrabBag), std::cend(aGrabBag), [](const PropertyValue& rProp) { return rProp.Name == "EffectProperties"; }); if (pProp != std::cend(aGrabBag)) { pProp->Value >>= aEffects; auto pEffect = std::find_if(std::cbegin(aEffects), std::cend(aEffects), [](const PropertyValue& rEffect) { return rEffect.Name == "outerShdw"; }); if (pEffect != std::cend(aEffects)) pEffect->Value >>= aOuterShdwProps; } } // tdf#132201: the order of effects is important. Effects order (CT_EffectList in ECMA-376): // blur -> fillOverlay -> glow -> innerShdw -> outerShdw -> prstShdw -> reflection -> softEdge if( !aEffects.hasElements() ) { bool bHasShadow = false; if( GetProperty( rXPropSet, "Shadow" ) ) mAny >>= bHasShadow; bool bHasEffects = bHasShadow; if (!bHasEffects && GetProperty(rXPropSet, "GlowEffectRadius")) { sal_Int32 rad = 0; mAny >>= rad; bHasEffects = rad > 0; } if (!bHasEffects && GetProperty(rXPropSet, "SoftEdgeRadius")) { sal_Int32 rad = 0; mAny >>= rad; bHasEffects = rad > 0; } if (bHasEffects) { mpFS->startElementNS(XML_a, XML_effectLst); WriteGlowEffect(rXPropSet); if( bHasShadow ) { double dX = +0.0, dY = +0.0; sal_Int32 nBlur =0; rXPropSet->getPropertyValue( "ShadowXDistance" ) >>= dX; rXPropSet->getPropertyValue( "ShadowYDistance" ) >>= dY; rXPropSet->getPropertyValue( "ShadowBlur" ) >>= nBlur; Sequence< PropertyValue > aShadowAttribsGrabBag{ comphelper::makePropertyValue("dist", lcl_CalculateDist(dX, dY)), comphelper::makePropertyValue("dir", lcl_CalculateDir(dX, dY)), comphelper::makePropertyValue("blurRad", oox::drawingml::convertHmmToEmu(nBlur)), comphelper::makePropertyValue("rotWithShape", false) //ooxml default is 'true', so must write it }; Sequence< PropertyValue > aShadowGrabBag{ comphelper::makePropertyValue("Attribs", aShadowAttribsGrabBag), comphelper::makePropertyValue("RgbClr", rXPropSet->getPropertyValue( "ShadowColor" )), comphelper::makePropertyValue("RgbClrTransparency", rXPropSet->getPropertyValue( "ShadowTransparence" )) }; WriteShapeEffect( u"outerShdw", aShadowGrabBag ); } WriteSoftEdgeEffect(rXPropSet); mpFS->endElementNS(XML_a, XML_effectLst); } } else { for( auto& rOuterShdwProp : asNonConstRange(aOuterShdwProps) ) { if( rOuterShdwProp.Name == "Attribs" ) { Sequence< PropertyValue > aAttribsProps; rOuterShdwProp.Value >>= aAttribsProps; double dX = +0.0, dY = +0.0; sal_Int32 nBlur =0; rXPropSet->getPropertyValue( "ShadowXDistance" ) >>= dX; rXPropSet->getPropertyValue( "ShadowYDistance" ) >>= dY; rXPropSet->getPropertyValue( "ShadowBlur" ) >>= nBlur; for( auto& rAttribsProp : asNonConstRange(aAttribsProps) ) { if( rAttribsProp.Name == "dist" ) { rAttribsProp.Value <<= lcl_CalculateDist(dX, dY); } else if( rAttribsProp.Name == "dir" ) { rAttribsProp.Value <<= lcl_CalculateDir(dX, dY); } else if( rAttribsProp.Name == "blurRad" ) { rAttribsProp.Value <<= oox::drawingml::convertHmmToEmu(nBlur); } } rOuterShdwProp.Value <<= aAttribsProps; } else if( rOuterShdwProp.Name == "RgbClr" ) { rOuterShdwProp.Value = rXPropSet->getPropertyValue( "ShadowColor" ); } else if( rOuterShdwProp.Name == "RgbClrTransparency" ) { rOuterShdwProp.Value = rXPropSet->getPropertyValue( "ShadowTransparence" ); } } mpFS->startElementNS(XML_a, XML_effectLst); bool bGlowWritten = false; for( const auto& rEffect : std::as_const(aEffects) ) { if (!bGlowWritten && (rEffect.Name == "innerShdw" || rEffect.Name == "outerShdw" || rEffect.Name == "prstShdw" || rEffect.Name == "reflection" || rEffect.Name == "softEdge")) { WriteGlowEffect(rXPropSet); bGlowWritten = true; } if( rEffect.Name == "outerShdw" ) { WriteShapeEffect( rEffect.Name, aOuterShdwProps ); } else { Sequence< PropertyValue > aEffectProps; rEffect.Value >>= aEffectProps; WriteShapeEffect( rEffect.Name, aEffectProps ); } } if (!bGlowWritten) WriteGlowEffect(rXPropSet); WriteSoftEdgeEffect(rXPropSet); // the last mpFS->endElementNS(XML_a, XML_effectLst); } } void DrawingML::WriteGlowEffect(const Reference< XPropertySet >& rXPropSet) { if (!rXPropSet->getPropertySetInfo()->hasPropertyByName("GlowEffectRadius")) { return; } sal_Int32 nRad = 0; rXPropSet->getPropertyValue("GlowEffectRadius") >>= nRad; if (!nRad) return; Sequence< PropertyValue > aGlowAttribs{ comphelper::makePropertyValue( "rad", oox::drawingml::convertHmmToEmu(nRad)) }; Sequence< PropertyValue > aGlowProps{ comphelper::makePropertyValue("Attribs", aGlowAttribs), comphelper::makePropertyValue("RgbClr", rXPropSet->getPropertyValue("GlowEffectColor")), comphelper::makePropertyValue("RgbClrTransparency", rXPropSet->getPropertyValue("GlowEffectTransparency")) }; // TODO other stuff like saturation or luminance WriteShapeEffect(u"glow", aGlowProps); } void DrawingML::WriteSoftEdgeEffect(const css::uno::Reference& rXPropSet) { if (!rXPropSet->getPropertySetInfo()->hasPropertyByName("SoftEdgeRadius")) { return; } sal_Int32 nRad = 0; rXPropSet->getPropertyValue("SoftEdgeRadius") >>= nRad; if (!nRad) return; css::uno::Sequence aAttribs{ comphelper::makePropertyValue( "rad", oox::drawingml::convertHmmToEmu(nRad)) }; css::uno::Sequence aProps{ comphelper::makePropertyValue("Attribs", aAttribs) }; WriteShapeEffect(u"softEdge", aProps); } void DrawingML::Write3DEffects( const Reference< XPropertySet >& xPropSet, bool bIsText ) { // check existence of the grab bag if( !GetProperty( xPropSet, "InteropGrabBag" ) ) return; // extract the relevant properties from the grab bag Sequence< PropertyValue > aGrabBag, aEffectProps, aLightRigProps, aShape3DProps; mAny >>= aGrabBag; auto pShapeProp = std::find_if( std::cbegin(aGrabBag), std::cend(aGrabBag), [bIsText](const PropertyValue& rProp) { return rProp.Name == (bIsText ? u"Text3DEffectProperties" : u"3DEffectProperties"); }); if (pShapeProp != std::cend(aGrabBag)) { Sequence< PropertyValue > a3DEffectProps; pShapeProp->Value >>= a3DEffectProps; for( const auto& r3DEffectProp : std::as_const(a3DEffectProps) ) { if( r3DEffectProp.Name == "Camera" ) r3DEffectProp.Value >>= aEffectProps; else if( r3DEffectProp.Name == "LightRig" ) r3DEffectProp.Value >>= aLightRigProps; else if( r3DEffectProp.Name == "Shape3D" ) r3DEffectProp.Value >>= aShape3DProps; } } if( !aEffectProps.hasElements() && !aLightRigProps.hasElements() && !aShape3DProps.hasElements() ) return; bool bCameraRotationPresent = false; rtl::Reference aCameraAttrList = FastSerializerHelper::createAttrList(); rtl::Reference aCameraRotationAttrList = FastSerializerHelper::createAttrList(); for( const auto& rEffectProp : std::as_const(aEffectProps) ) { if( rEffectProp.Name == "prst" ) { OUString sVal; rEffectProp.Value >>= sVal; aCameraAttrList->add(XML_prst, sVal); } else if( rEffectProp.Name == "fov" ) { float fVal = 0; rEffectProp.Value >>= fVal; aCameraAttrList->add( XML_fov, OString::number( fVal * 60000 ) ); } else if( rEffectProp.Name == "zoom" ) { float fVal = 1; rEffectProp.Value >>= fVal; aCameraAttrList->add( XML_zoom, OString::number( fVal * 100000 ) ); } else if( rEffectProp.Name == "rotLat" || rEffectProp.Name == "rotLon" || rEffectProp.Name == "rotRev" ) { sal_Int32 nVal = 0, nToken = XML_none; rEffectProp.Value >>= nVal; if( rEffectProp.Name == "rotLat" ) nToken = XML_lat; else if( rEffectProp.Name == "rotLon" ) nToken = XML_lon; else if( rEffectProp.Name == "rotRev" ) nToken = XML_rev; aCameraRotationAttrList->add( nToken, OString::number( nVal ) ); bCameraRotationPresent = true; } } bool bLightRigRotationPresent = false; rtl::Reference aLightRigAttrList = FastSerializerHelper::createAttrList(); rtl::Reference aLightRigRotationAttrList = FastSerializerHelper::createAttrList(); for( const auto& rLightRigProp : std::as_const(aLightRigProps) ) { if( rLightRigProp.Name == "rig" || rLightRigProp.Name == "dir" ) { OUString sVal; sal_Int32 nToken = XML_none; rLightRigProp.Value >>= sVal; if( rLightRigProp.Name == "rig" ) nToken = XML_rig; else if( rLightRigProp.Name == "dir" ) nToken = XML_dir; aLightRigAttrList->add(nToken, sVal); } else if( rLightRigProp.Name == "rotLat" || rLightRigProp.Name == "rotLon" || rLightRigProp.Name == "rotRev" ) { sal_Int32 nVal = 0, nToken = XML_none; rLightRigProp.Value >>= nVal; if( rLightRigProp.Name == "rotLat" ) nToken = XML_lat; else if( rLightRigProp.Name == "rotLon" ) nToken = XML_lon; else if( rLightRigProp.Name == "rotRev" ) nToken = XML_rev; aLightRigRotationAttrList->add( nToken, OString::number( nVal ) ); bLightRigRotationPresent = true; } } mpFS->startElementNS(XML_a, XML_scene3d); if( aEffectProps.hasElements() ) { mpFS->startElementNS( XML_a, XML_camera, aCameraAttrList ); if( bCameraRotationPresent ) { mpFS->singleElementNS( XML_a, XML_rot, aCameraRotationAttrList ); } mpFS->endElementNS( XML_a, XML_camera ); } else { // a:camera with Word default values - Word won't open the document if this is not present mpFS->singleElementNS(XML_a, XML_camera, XML_prst, "orthographicFront"); } if( aEffectProps.hasElements() ) { mpFS->startElementNS( XML_a, XML_lightRig, aLightRigAttrList ); if( bLightRigRotationPresent ) { mpFS->singleElementNS( XML_a, XML_rot, aLightRigRotationAttrList ); } mpFS->endElementNS( XML_a, XML_lightRig ); } else { // a:lightRig with Word default values - Word won't open the document if this is not present mpFS->singleElementNS(XML_a, XML_lightRig, XML_rig, "threePt", XML_dir, "t"); } mpFS->endElementNS( XML_a, XML_scene3d ); if( !aShape3DProps.hasElements() ) return; bool bBevelTPresent = false, bBevelBPresent = false; Sequence< PropertyValue > aExtrusionColorProps, aContourColorProps; rtl::Reference aBevelTAttrList = FastSerializerHelper::createAttrList(); rtl::Reference aBevelBAttrList = FastSerializerHelper::createAttrList(); rtl::Reference aShape3DAttrList = FastSerializerHelper::createAttrList(); for( const auto& rShape3DProp : std::as_const(aShape3DProps) ) { if( rShape3DProp.Name == "extrusionH" || rShape3DProp.Name == "contourW" || rShape3DProp.Name == "z" ) { sal_Int32 nVal = 0, nToken = XML_none; rShape3DProp.Value >>= nVal; if( rShape3DProp.Name == "extrusionH" ) nToken = XML_extrusionH; else if( rShape3DProp.Name == "contourW" ) nToken = XML_contourW; else if( rShape3DProp.Name == "z" ) nToken = XML_z; aShape3DAttrList->add( nToken, OString::number( nVal ) ); } else if( rShape3DProp.Name == "prstMaterial" ) { OUString sVal; rShape3DProp.Value >>= sVal; aShape3DAttrList->add(XML_prstMaterial, sVal); } else if( rShape3DProp.Name == "extrusionClr" ) { rShape3DProp.Value >>= aExtrusionColorProps; } else if( rShape3DProp.Name == "contourClr" ) { rShape3DProp.Value >>= aContourColorProps; } else if( rShape3DProp.Name == "bevelT" || rShape3DProp.Name == "bevelB" ) { Sequence< PropertyValue > aBevelProps; rShape3DProp.Value >>= aBevelProps; if ( !aBevelProps.hasElements() ) continue; rtl::Reference aBevelAttrList; if( rShape3DProp.Name == "bevelT" ) { bBevelTPresent = true; aBevelAttrList = aBevelTAttrList; } else { bBevelBPresent = true; aBevelAttrList = aBevelBAttrList; } for( const auto& rBevelProp : std::as_const(aBevelProps) ) { if( rBevelProp.Name == "w" || rBevelProp.Name == "h" ) { sal_Int32 nVal = 0, nToken = XML_none; rBevelProp.Value >>= nVal; if( rBevelProp.Name == "w" ) nToken = XML_w; else if( rBevelProp.Name == "h" ) nToken = XML_h; aBevelAttrList->add( nToken, OString::number( nVal ) ); } else if( rBevelProp.Name == "prst" ) { OUString sVal; rBevelProp.Value >>= sVal; aBevelAttrList->add(XML_prst, sVal); } } } } mpFS->startElementNS( XML_a, XML_sp3d, aShape3DAttrList ); if( bBevelTPresent ) { mpFS->singleElementNS( XML_a, XML_bevelT, aBevelTAttrList ); } if( bBevelBPresent ) { mpFS->singleElementNS( XML_a, XML_bevelB, aBevelBAttrList ); } if( aExtrusionColorProps.hasElements() ) { OUString sSchemeClr; ::Color nColor; sal_Int32 nTransparency(0); Sequence< PropertyValue > aColorTransformations; for( const auto& rExtrusionColorProp : std::as_const(aExtrusionColorProps) ) { if( rExtrusionColorProp.Name == "schemeClr" ) rExtrusionColorProp.Value >>= sSchemeClr; else if( rExtrusionColorProp.Name == "schemeClrTransformations" ) rExtrusionColorProp.Value >>= aColorTransformations; else if( rExtrusionColorProp.Name == "rgbClr" ) rExtrusionColorProp.Value >>= nColor; else if( rExtrusionColorProp.Name == "rgbClrTransparency" ) rExtrusionColorProp.Value >>= nTransparency; } mpFS->startElementNS(XML_a, XML_extrusionClr); if( sSchemeClr.isEmpty() ) WriteColor( nColor, MAX_PERCENT - ( PER_PERCENT * nTransparency ) ); else WriteColor( sSchemeClr, aColorTransformations ); mpFS->endElementNS( XML_a, XML_extrusionClr ); } if( aContourColorProps.hasElements() ) { OUString sSchemeClr; ::Color nColor; sal_Int32 nTransparency(0); Sequence< PropertyValue > aColorTransformations; for( const auto& rContourColorProp : std::as_const(aContourColorProps) ) { if( rContourColorProp.Name == "schemeClr" ) rContourColorProp.Value >>= sSchemeClr; else if( rContourColorProp.Name == "schemeClrTransformations" ) rContourColorProp.Value >>= aColorTransformations; else if( rContourColorProp.Name == "rgbClr" ) rContourColorProp.Value >>= nColor; else if( rContourColorProp.Name == "rgbClrTransparency" ) rContourColorProp.Value >>= nTransparency; } mpFS->startElementNS(XML_a, XML_contourClr); if( sSchemeClr.isEmpty() ) WriteColor( nColor, MAX_PERCENT - ( PER_PERCENT * nTransparency ) ); else WriteColor( sSchemeClr, aContourColorProps ); mpFS->endElementNS( XML_a, XML_contourClr ); } mpFS->endElementNS( XML_a, XML_sp3d ); } void DrawingML::WriteArtisticEffect( const Reference< XPropertySet >& rXPropSet ) { if( !GetProperty( rXPropSet, "InteropGrabBag" ) ) return; PropertyValue aEffect; Sequence< PropertyValue > aGrabBag; mAny >>= aGrabBag; auto pProp = std::find_if(std::cbegin(aGrabBag), std::cend(aGrabBag), [](const PropertyValue& rProp) { return rProp.Name == "ArtisticEffectProperties"; }); if (pProp != std::cend(aGrabBag)) pProp->Value >>= aEffect; sal_Int32 nEffectToken = ArtisticEffectProperties::getEffectToken( aEffect.Name ); if( nEffectToken == XML_none ) return; Sequence< PropertyValue > aAttrs; aEffect.Value >>= aAttrs; rtl::Reference aAttrList = FastSerializerHelper::createAttrList(); OString sRelId; for( const auto& rAttr : std::as_const(aAttrs) ) { sal_Int32 nToken = ArtisticEffectProperties::getEffectToken( rAttr.Name ); if( nToken != XML_none ) { sal_Int32 nVal = 0; rAttr.Value >>= nVal; aAttrList->add( nToken, OString::number( nVal ) ); } else if( rAttr.Name == "OriginalGraphic" ) { Sequence< PropertyValue > aGraphic; rAttr.Value >>= aGraphic; Sequence< sal_Int8 > aGraphicData; OUString sGraphicId; for( const auto& rProp : std::as_const(aGraphic) ) { if( rProp.Name == "Id" ) rProp.Value >>= sGraphicId; else if( rProp.Name == "Data" ) rProp.Value >>= aGraphicData; } sRelId = WriteWdpPicture( sGraphicId, aGraphicData ); } } mpFS->startElementNS(XML_a, XML_extLst); mpFS->startElementNS(XML_a, XML_ext, XML_uri, "{BEBA8EAE-BF5A-486C-A8C5-ECC9F3942E4B}"); mpFS->startElementNS( XML_a14, XML_imgProps, FSNS(XML_xmlns, XML_a14), mpFB->getNamespaceURL(OOX_NS(a14)) ); mpFS->startElementNS(XML_a14, XML_imgLayer, FSNS(XML_r, XML_embed), sRelId); mpFS->startElementNS(XML_a14, XML_imgEffect); mpFS->singleElementNS( XML_a14, nEffectToken, aAttrList ); mpFS->endElementNS( XML_a14, XML_imgEffect ); mpFS->endElementNS( XML_a14, XML_imgLayer ); mpFS->endElementNS( XML_a14, XML_imgProps ); mpFS->endElementNS( XML_a, XML_ext ); mpFS->endElementNS( XML_a, XML_extLst ); } OString DrawingML::WriteWdpPicture( const OUString& rFileId, const Sequence< sal_Int8 >& rPictureData ) { auto& rGraphicExportCache = GraphicExportCache::get(); OUString aId = rGraphicExportCache.findWdpID(rFileId); if (!aId.isEmpty()) return OUStringToOString(aId, RTL_TEXTENCODING_UTF8); sal_Int32 nWdpImageCount = rGraphicExportCache.nextWdpImageCount(); OUString sFileName = u"media/hdphoto"_ustr + OUString::number(nWdpImageCount) + u".wdp"_ustr; OUString sFragment = GetComponentDir() + u"/"_ustr + sFileName; Reference< XOutputStream > xOutStream = mpFB->openFragmentStream(sFragment, "image/vnd.ms-photo"); xOutStream->writeBytes( rPictureData ); xOutStream->closeOutput(); aId = mpFB->addRelation(mpFS->getOutputStream(), oox::getRelationship(Relationship::HDPHOTO), Concat2View(GetRelationCompPrefix() + sFileName)); rGraphicExportCache.addToWdpCache(rFileId, aId); return OUStringToOString(aId, RTL_TEXTENCODING_UTF8); } void DrawingML::WriteDiagram(const css::uno::Reference& rXShape, int nDiagramId) { uno::Reference xPropSet(rXShape, uno::UNO_QUERY); uno::Reference dataDom; uno::Reference layoutDom; uno::Reference styleDom; uno::Reference colorDom; uno::Reference drawingDom; uno::Sequence> xDataRelSeq; uno::Sequence diagramDrawing; // retrieve the doms from the GrabBag uno::Sequence propList; xPropSet->getPropertyValue(UNO_NAME_MISC_OBJ_INTEROPGRABBAG) >>= propList; for (const auto& rProp : std::as_const(propList)) { OUString propName = rProp.Name; if (propName == "OOXData") rProp.Value >>= dataDom; else if (propName == "OOXLayout") rProp.Value >>= layoutDom; else if (propName == "OOXStyle") rProp.Value >>= styleDom; else if (propName == "OOXColor") rProp.Value >>= colorDom; else if (propName == "OOXDrawing") { rProp.Value >>= diagramDrawing; diagramDrawing[0] >>= drawingDom; // if there is OOXDrawing property then set drawingDom here only. } else if (propName == "OOXDiagramDataRels") rProp.Value >>= xDataRelSeq; } // check that we have the 4 mandatory XDocuments // if not, there was an error importing and we won't output anything if (!dataDom.is() || !layoutDom.is() || !styleDom.is() || !colorDom.is()) return; // generate a unique id rtl::Reference pDocPrAttrList = sax_fastparser::FastSerializerHelper::createAttrList(); pDocPrAttrList->add(XML_id, OString::number(nDiagramId)); OString sName = "Diagram" + OString::number(nDiagramId); pDocPrAttrList->add(XML_name, sName); if (GetDocumentType() == DOCUMENT_DOCX) { mpFS->singleElementNS(XML_wp, XML_docPr, pDocPrAttrList); mpFS->singleElementNS(XML_wp, XML_cNvGraphicFramePr); mpFS->startElementNS(XML_a, XML_graphic, FSNS(XML_xmlns, XML_a), mpFB->getNamespaceURL(OOX_NS(dml))); } else { mpFS->startElementNS(XML_p, XML_nvGraphicFramePr); mpFS->singleElementNS(XML_p, XML_cNvPr, pDocPrAttrList); mpFS->singleElementNS(XML_p, XML_cNvGraphicFramePr); mpFS->startElementNS(XML_p, XML_nvPr); mpFS->startElementNS(XML_p, XML_extLst); // change tracking extension - required in PPTX mpFS->startElementNS(XML_p, XML_ext, XML_uri, "{D42A27DB-BD31-4B8C-83A1-F6EECF244321}"); mpFS->singleElementNS(XML_p14, XML_modId, FSNS(XML_xmlns, XML_p14), mpFB->getNamespaceURL(OOX_NS(p14)), XML_val, OString::number(comphelper::rng::uniform_uint_distribution(1, SAL_MAX_UINT32))); mpFS->endElementNS(XML_p, XML_ext); mpFS->endElementNS(XML_p, XML_extLst); mpFS->endElementNS(XML_p, XML_nvPr); mpFS->endElementNS(XML_p, XML_nvGraphicFramePr); // store size and position of background shape instead of group shape // as some shapes may be outside css::uno::Reference xShapes(rXShape, uno::UNO_QUERY); if (xShapes.is() && xShapes->hasElements()) { css::uno::Reference xShapeBg(xShapes->getByIndex(0), uno::UNO_QUERY); awt::Point aPos = xShapeBg->getPosition(); awt::Size aSize = xShapeBg->getSize(); WriteTransformation( xShapeBg, tools::Rectangle(Point(aPos.X, aPos.Y), Size(aSize.Width, aSize.Height)), XML_p, false, false, 0, false); } mpFS->startElementNS(XML_a, XML_graphic); } mpFS->startElementNS(XML_a, XML_graphicData, XML_uri, "http://schemas.openxmlformats.org/drawingml/2006/diagram"); OUString sRelationCompPrefix = GetRelationCompPrefix(); // add data relation OUString dataFileName = "diagrams/data" + OUString::number(nDiagramId) + ".xml"; OUString dataRelId = mpFB->addRelation(mpFS->getOutputStream(), oox::getRelationship(Relationship::DIAGRAMDATA), Concat2View(sRelationCompPrefix + dataFileName)); // add layout relation OUString layoutFileName = "diagrams/layout" + OUString::number(nDiagramId) + ".xml"; OUString layoutRelId = mpFB->addRelation(mpFS->getOutputStream(), oox::getRelationship(Relationship::DIAGRAMLAYOUT), Concat2View(sRelationCompPrefix + layoutFileName)); // add style relation OUString styleFileName = "diagrams/quickStyle" + OUString::number(nDiagramId) + ".xml"; OUString styleRelId = mpFB->addRelation(mpFS->getOutputStream(), oox::getRelationship(Relationship::DIAGRAMQUICKSTYLE), Concat2View(sRelationCompPrefix + styleFileName)); // add color relation OUString colorFileName = "diagrams/colors" + OUString::number(nDiagramId) + ".xml"; OUString colorRelId = mpFB->addRelation(mpFS->getOutputStream(), oox::getRelationship(Relationship::DIAGRAMCOLORS), Concat2View(sRelationCompPrefix + colorFileName)); OUString drawingFileName; if (drawingDom.is()) { // add drawing relation drawingFileName = "diagrams/drawing" + OUString::number(nDiagramId) + ".xml"; OUString drawingRelId = mpFB->addRelation( mpFS->getOutputStream(), oox::getRelationship(Relationship::DIAGRAMDRAWING), Concat2View(sRelationCompPrefix + drawingFileName)); // the data dom contains a reference to the drawing relation. We need to update it with the new generated // relation value before writing the dom to a file // Get the dsp:damaModelExt node from the dom uno::Reference nodeList = dataDom->getElementsByTagNameNS( "http://schemas.microsoft.com/office/drawing/2008/diagram", "dataModelExt"); // There must be one element only so get it uno::Reference node = nodeList->item(0); // Get the list of attributes of the node uno::Reference nodeMap = node->getAttributes(); // Get the node with the relId attribute and set its new value uno::Reference relIdNode = nodeMap->getNamedItem("relId"); relIdNode->setNodeValue(drawingRelId); } mpFS->singleElementNS(XML_dgm, XML_relIds, FSNS(XML_xmlns, XML_dgm), mpFB->getNamespaceURL(OOX_NS(dmlDiagram)), FSNS(XML_xmlns, XML_r), mpFB->getNamespaceURL(OOX_NS(officeRel)), FSNS(XML_r, XML_dm), dataRelId, FSNS(XML_r, XML_lo), layoutRelId, FSNS(XML_r, XML_qs), styleRelId, FSNS(XML_r, XML_cs), colorRelId); mpFS->endElementNS(XML_a, XML_graphicData); mpFS->endElementNS(XML_a, XML_graphic); uno::Reference serializer; uno::Reference writer = xml::sax::Writer::create(comphelper::getProcessComponentContext()); OUString sDir = GetComponentDir(); // write data file serializer.set(dataDom, uno::UNO_QUERY); uno::Reference xDataOutputStream = mpFB->openFragmentStream( sDir + "/" + dataFileName, "application/vnd.openxmlformats-officedocument.drawingml.diagramData+xml"); writer->setOutputStream(xDataOutputStream); serializer->serialize(uno::Reference(writer, uno::UNO_QUERY_THROW), uno::Sequence()); // write the associated Images and rels for data file writeDiagramRels(xDataRelSeq, xDataOutputStream, u"OOXDiagramDataRels", nDiagramId); // write layout file serializer.set(layoutDom, uno::UNO_QUERY); writer->setOutputStream(mpFB->openFragmentStream( sDir + "/" + layoutFileName, "application/vnd.openxmlformats-officedocument.drawingml.diagramLayout+xml")); serializer->serialize(uno::Reference(writer, uno::UNO_QUERY_THROW), uno::Sequence()); // write style file serializer.set(styleDom, uno::UNO_QUERY); writer->setOutputStream(mpFB->openFragmentStream( sDir + "/" + styleFileName, "application/vnd.openxmlformats-officedocument.drawingml.diagramStyle+xml")); serializer->serialize(uno::Reference(writer, uno::UNO_QUERY_THROW), uno::Sequence()); // write color file serializer.set(colorDom, uno::UNO_QUERY); writer->setOutputStream(mpFB->openFragmentStream( sDir + "/" + colorFileName, "application/vnd.openxmlformats-officedocument.drawingml.diagramColors+xml")); serializer->serialize(uno::Reference(writer, uno::UNO_QUERY_THROW), uno::Sequence()); // write drawing file if (!drawingDom.is()) return; serializer.set(drawingDom, uno::UNO_QUERY); uno::Reference xDrawingOutputStream = mpFB->openFragmentStream( sDir + "/" + drawingFileName, "application/vnd.ms-office.drawingml.diagramDrawing+xml"); writer->setOutputStream(xDrawingOutputStream); serializer->serialize( uno::Reference(writer, uno::UNO_QUERY_THROW), uno::Sequence()); // write the associated Images and rels for drawing file uno::Sequence> xDrawingRelSeq; diagramDrawing[1] >>= xDrawingRelSeq; writeDiagramRels(xDrawingRelSeq, xDrawingOutputStream, u"OOXDiagramDrawingRels", nDiagramId); } void DrawingML::writeDiagramRels(const uno::Sequence>& xRelSeq, const uno::Reference& xOutStream, std::u16string_view sGrabBagProperyName, int nDiagramId) { // add image relationships of OOXData, OOXDiagram OUString sType(oox::getRelationship(Relationship::IMAGE)); uno::Reference xWriter = xml::sax::Writer::create(comphelper::getProcessComponentContext()); xWriter->setOutputStream(xOutStream); // retrieve the relationships from Sequence for (sal_Int32 j = 0; j < xRelSeq.getLength(); j++) { // diagramDataRelTuple[0] => RID, // diagramDataRelTuple[1] => xInputStream // diagramDataRelTuple[2] => extension uno::Sequence diagramDataRelTuple = xRelSeq[j]; OUString sRelId; OUString sExtension; diagramDataRelTuple[0] >>= sRelId; diagramDataRelTuple[2] >>= sExtension; OUString sContentType; if (sExtension.equalsIgnoreAsciiCase(".WMF")) sContentType = "image/x-wmf"; else sContentType = OUString::Concat("image/") + sExtension.subView(1); sRelId = sRelId.copy(3); StreamDataSequence dataSeq; diagramDataRelTuple[1] >>= dataSeq; uno::Reference dataImagebin( new ::comphelper::SequenceInputStream(dataSeq)); //nDiagramId is used to make the name unique irrespective of the number of smart arts. OUString sFragment = OUString::Concat("media/") + sGrabBagProperyName + OUString::number(nDiagramId) + "_" + OUString::number(j) + sExtension; PropertySet aProps(xOutStream); aProps.setAnyProperty(PROP_RelId, uno::Any(sRelId.toInt32())); mpFB->addRelation(xOutStream, sType, Concat2View("../" + sFragment)); OUString sDir = GetComponentDir(); uno::Reference xBinOutStream = mpFB->openFragmentStream(sDir + "/" + sFragment, sContentType); try { comphelper::OStorageHelper::CopyInputToOutput(dataImagebin, xBinOutStream); } catch (const uno::Exception&) { TOOLS_WARN_EXCEPTION("oox.drawingml", "DrawingML::writeDiagramRels Failed to copy grabbaged Image"); } dataImagebin->closeInput(); } } void DrawingML::WriteFromTo(const uno::Reference& rXShape, const awt::Size& aPageSize, const FSHelperPtr& pDrawing) { awt::Point aTopLeft = rXShape->getPosition(); awt::Size aSize = rXShape->getSize(); SdrObject* pObj = SdrObject::getSdrObjectFromXShape(rXShape); if (pObj) { Degree100 nRotation = pObj->GetRotateAngle(); if (nRotation) { sal_Int16 nHalfWidth = aSize.Width / 2; sal_Int16 nHalfHeight = aSize.Height / 2; // aTopLeft needs correction for rotated customshapes if (pObj->GetObjIdentifier() == SdrObjKind::CustomShape) { // Center of bounding box of the rotated shape const auto aSnapRectCenter(pObj->GetSnapRect().Center()); aTopLeft.X = aSnapRectCenter.X() - nHalfWidth; aTopLeft.Y = aSnapRectCenter.Y() - nHalfHeight; } // MSO changes the anchor positions at these angles and that does an extra 90 degrees // rotation on our shapes, so we output it in such position that MSO // can draw this shape correctly. if ((nRotation >= 4500_deg100 && nRotation < 13500_deg100) || (nRotation >= 22500_deg100 && nRotation < 31500_deg100)) { aTopLeft.X = aTopLeft.X - nHalfHeight + nHalfWidth; aTopLeft.Y = aTopLeft.Y - nHalfWidth + nHalfHeight; std::swap(aSize.Width, aSize.Height); } } } tools::Rectangle aLocation(aTopLeft.X, aTopLeft.Y, aTopLeft.X + aSize.Width, aTopLeft.Y + aSize.Height); double nXpos = static_cast(aLocation.TopLeft().getX()) / static_cast(aPageSize.Width); double nYpos = static_cast(aLocation.TopLeft().getY()) / static_cast(aPageSize.Height); pDrawing->startElement(FSNS(XML_cdr, XML_from)); pDrawing->startElement(FSNS(XML_cdr, XML_x)); pDrawing->write(nXpos); pDrawing->endElement(FSNS(XML_cdr, XML_x)); pDrawing->startElement(FSNS(XML_cdr, XML_y)); pDrawing->write(nYpos); pDrawing->endElement(FSNS(XML_cdr, XML_y)); pDrawing->endElement(FSNS(XML_cdr, XML_from)); nXpos = static_cast(aLocation.BottomRight().getX()) / static_cast(aPageSize.Width); nYpos = static_cast(aLocation.BottomRight().getY()) / static_cast(aPageSize.Height); pDrawing->startElement(FSNS(XML_cdr, XML_to)); pDrawing->startElement(FSNS(XML_cdr, XML_x)); pDrawing->write(nXpos); pDrawing->endElement(FSNS(XML_cdr, XML_x)); pDrawing->startElement(FSNS(XML_cdr, XML_y)); pDrawing->write(nYpos); pDrawing->endElement(FSNS(XML_cdr, XML_y)); pDrawing->endElement(FSNS(XML_cdr, XML_to)); } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */