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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-07 09:06:44 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-07 09:06:44 +0000
commited5640d8b587fbcfed7dd7967f3de04b37a76f26 (patch)
tree7a5f7c6c9d02226d7471cb3cc8fbbf631b415303 /oox/source/export/drawingml.cxx
parentInitial commit. (diff)
downloadlibreoffice-cb75148ebd0135178ff46f89a30139c44f8d2040.tar.xz
libreoffice-cb75148ebd0135178ff46f89a30139c44f8d2040.zip
Adding upstream version 4:7.4.7.upstream/4%7.4.7upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'oox/source/export/drawingml.cxx')
-rw-r--r--oox/source/export/drawingml.cxx6125
1 files changed, 6125 insertions, 0 deletions
diff --git a/oox/source/export/drawingml.cxx b/oox/source/export/drawingml.cxx
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+/* -*- 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 <config_features.h>
+
+#include <config_folders.h>
+#include <rtl/bootstrap.hxx>
+#include <sal/log.hxx>
+#include <oox/core/xmlfilterbase.hxx>
+#include <oox/export/drawingml.hxx>
+#include <oox/export/utils.hxx>
+#include <oox/helper/propertyset.hxx>
+#include <oox/drawingml/color.hxx>
+#include <drawingml/fillproperties.hxx>
+#include <drawingml/textparagraph.hxx>
+#include <oox/token/namespaces.hxx>
+#include <oox/token/properties.hxx>
+#include <oox/token/relationship.hxx>
+#include <oox/token/tokens.hxx>
+#include <oox/drawingml/drawingmltypes.hxx>
+#include <svtools/unitconv.hxx>
+#include <sax/fastattribs.hxx>
+#include <tools/diagnose_ex.h>
+#include <comphelper/processfactory.hxx>
+#include <i18nlangtag/languagetag.hxx>
+#include <basegfx/matrix/b2dhommatrixtools.hxx>
+#include <basegfx/range/b2drange.hxx>
+
+#include <numeric>
+#include <string_view>
+
+#include <com/sun/star/awt/CharSet.hpp>
+#include <com/sun/star/awt/FontDescriptor.hpp>
+#include <com/sun/star/awt/FontSlant.hpp>
+#include <com/sun/star/awt/FontStrikeout.hpp>
+#include <com/sun/star/awt/FontWeight.hpp>
+#include <com/sun/star/awt/FontUnderline.hpp>
+#include <com/sun/star/awt/Gradient.hpp>
+#include <com/sun/star/beans/XPropertySet.hpp>
+#include <com/sun/star/beans/XPropertyState.hpp>
+#include <com/sun/star/beans/XPropertySetInfo.hpp>
+#include <com/sun/star/container/XEnumerationAccess.hpp>
+#include <com/sun/star/container/XIndexAccess.hpp>
+#include <com/sun/star/container/XNameAccess.hpp>
+#include <com/sun/star/drawing/BitmapMode.hpp>
+#include <com/sun/star/drawing/ColorMode.hpp>
+#include <com/sun/star/drawing/EnhancedCustomShapeAdjustmentValue.hpp>
+#include <com/sun/star/drawing/EnhancedCustomShapeParameterPair.hpp>
+#include <com/sun/star/drawing/EnhancedCustomShapeParameterType.hpp>
+#include <com/sun/star/drawing/EnhancedCustomShapeSegment.hpp>
+#include <com/sun/star/drawing/EnhancedCustomShapeSegmentCommand.hpp>
+#include <com/sun/star/drawing/Hatch.hpp>
+#include <com/sun/star/drawing/LineDash.hpp>
+#include <com/sun/star/drawing/LineJoint.hpp>
+#include <com/sun/star/drawing/LineStyle.hpp>
+#include <com/sun/star/drawing/TextFitToSizeType.hpp>
+#include <com/sun/star/drawing/TextHorizontalAdjust.hpp>
+#include <com/sun/star/drawing/TextVerticalAdjust.hpp>
+#include <com/sun/star/drawing/XShape.hpp>
+#include <com/sun/star/drawing/XShapes.hpp>
+#include <com/sun/star/drawing/FillStyle.hpp>
+#include <com/sun/star/frame/XModel.hpp>
+#include <com/sun/star/graphic/XGraphic.hpp>
+#include <com/sun/star/i18n/ScriptType.hpp>
+#include <com/sun/star/i18n/BreakIterator.hpp>
+#include <com/sun/star/i18n/XBreakIterator.hpp>
+#include <com/sun/star/io/XOutputStream.hpp>
+#include <com/sun/star/lang/XMultiServiceFactory.hpp>
+#include <com/sun/star/style/LineSpacing.hpp>
+#include <com/sun/star/style/LineSpacingMode.hpp>
+#include <com/sun/star/text/WritingMode.hpp>
+#include <com/sun/star/text/WritingMode2.hpp>
+#include <com/sun/star/text/GraphicCrop.hpp>
+#include <com/sun/star/text/XText.hpp>
+#include <com/sun/star/text/XTextColumns.hpp>
+#include <com/sun/star/text/XTextContent.hpp>
+#include <com/sun/star/text/XTextField.hpp>
+#include <com/sun/star/text/XTextRange.hpp>
+#include <com/sun/star/text/XTextFrame.hpp>
+#include <com/sun/star/style/CaseMap.hpp>
+#include <com/sun/star/xml/dom/XNodeList.hpp>
+#include <com/sun/star/xml/sax/Writer.hpp>
+#include <com/sun/star/xml/sax/XSAXSerializable.hpp>
+#include <com/sun/star/container/XNamed.hpp>
+#include <com/sun/star/drawing/XDrawPages.hpp>
+#include <com/sun/star/drawing/XDrawPagesSupplier.hpp>
+#include <com/sun/star/drawing/RectanglePoint.hpp>
+
+#include <comphelper/propertyvalue.hxx>
+#include <comphelper/random.hxx>
+#include <comphelper/seqstream.hxx>
+#include <comphelper/storagehelper.hxx>
+#include <comphelper/xmltools.hxx>
+#include <o3tl/any.hxx>
+#include <o3tl/safeint.hxx>
+#include <o3tl/string_view.hxx>
+#include <tools/stream.hxx>
+#include <tools/UnitConversion.hxx>
+#include <unotools/fontdefs.hxx>
+#include <vcl/cvtgrf.hxx>
+#include <vcl/svapp.hxx>
+#include <rtl/strbuf.hxx>
+#include <filter/msfilter/escherex.hxx>
+#include <filter/msfilter/util.hxx>
+#include <editeng/outlobj.hxx>
+#include <editeng/svxenum.hxx>
+#include <editeng/unonames.hxx>
+#include <editeng/unoprnms.hxx>
+#include <editeng/flditem.hxx>
+#include <editeng/escapementitem.hxx>
+#include <editeng/unonrule.hxx>
+#include <svx/svdoashp.hxx>
+#include <svx/svdomedia.hxx>
+#include <svx/unoshape.hxx>
+#include <svx/EnhancedCustomShape2d.hxx>
+#include <drawingml/presetgeometrynames.hxx>
+
+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
+{
+/// Extracts start or end alpha information from a transparency gradient.
+sal_Int32 GetAlphaFromTransparenceGradient(const awt::Gradient& rGradient, bool bStart)
+{
+ // Our alpha is a gray color value.
+ sal_uInt8 nRed = ::Color(ColorTransparency, bStart ? rGradient.StartColor : rGradient.EndColor).GetRed();
+ // drawingML alpha is a percentage on a 0..100000 scale.
+ return (255 - nRed) * oox::drawingml::MAX_PERCENT / 255;
+}
+
+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;
+}
+
+static css::uno::Any getLineDash( const css::uno::Reference<css::frame::XModel>& xModel, const OUString& rDashName )
+ {
+ css::uno::Reference<css::lang::XMultiServiceFactory> xFact(xModel, css::uno::UNO_QUERY);
+ css::uno::Reference<css::container::XNameAccess> 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 awt::Gradient& rGradient, 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<sax_fastparser::FastAttributeList> pAttributeList(
+ sax_fastparser::FastSerializerHelper::createAttrList());
+ sal_Int32 nLeftPercent = rGradient.XOffset;
+ pAttributeList->add(XML_l, OString::number(nLeftPercent * PER_PERCENT));
+ sal_Int32 nTopPercent = rGradient.YOffset;
+ pAttributeList->add(XML_t, OString::number(nTopPercent * PER_PERCENT));
+ sal_Int32 nRightPercent = 100 - rGradient.XOffset;
+ pAttributeList->add(XML_r, OString::number(nRightPercent * PER_PERCENT));
+ sal_Int32 nBottomPercent = 100 - rGradient.YOffset;
+ 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
+std::stack<sal_Int32> DrawingML::mnImageCounter;
+std::stack<sal_Int32> DrawingML::mnWdpImageCounter;
+std::stack<std::map<OUString, OUString>> DrawingML::maWdpCache;
+sal_Int32 DrawingML::mnDrawingMLCount = 0;
+sal_Int32 DrawingML::mnVmlCount = 0;
+std::stack<std::unordered_map<BitmapChecksum, OUString>> DrawingML::maExportGraphics;
+
+sal_Int16 DrawingML::GetScriptType(const OUString& rStr)
+{
+ if (rStr.getLength() > 0)
+ {
+ static Reference<css::i18n::XBreakIterator> 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;
+}
+
+void DrawingML::PushExportGraphics()
+{
+ mnImageCounter.push(1);
+ maExportGraphics.emplace();
+
+ mnWdpImageCounter.push(1);
+ maWdpCache.emplace();
+}
+
+void DrawingML::PopExportGraphics()
+{
+ mnImageCounter.pop();
+ maExportGraphics.pop();
+
+ mnWdpImageCounter.pop();
+ maWdpCache.pop();
+}
+
+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.getStr();
+ }
+ 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<sal_Int32>();
+ mpFS->singleElementNS(XML_a, nToken, XML_val, OString::number(nValue));
+ }
+ }
+ }
+}
+
+bool DrawingML::WriteCharColor(const css::uno::Reference<css::beans::XPropertySet>& xPropertySet)
+{
+ if (!xPropertySet->getPropertySetInfo()->hasPropertyByName("CharColorTheme"))
+ {
+ return false;
+ }
+
+ sal_Int32 nCharColorTheme = -1;
+ xPropertySet->getPropertyValue("CharColorTheme") >>= nCharColorTheme;
+ if (nCharColorTheme < 0 || nCharColorTheme > 11)
+ {
+ return false;
+ }
+
+ const char* pColorName = g_aPredefinedClrNames[nCharColorTheme];
+
+ sal_Int32 nCharColorTintOrShade{};
+ xPropertySet->getPropertyValue("CharColorTintOrShade") >>= nCharColorTintOrShade;
+ if (nCharColorTintOrShade != 0)
+ {
+ return false;
+ }
+
+ mpFS->startElementNS(XML_a, XML_solidFill);
+ mpFS->startElementNS(XML_a, XML_schemeClr, XML_val, pColorName);
+
+ sal_Int32 nCharColorLumMod{};
+ xPropertySet->getPropertyValue("CharColorLumMod") >>= nCharColorLumMod;
+ if (nCharColorLumMod != 10000)
+ {
+ mpFS->singleElementNS(XML_a, XML_lumMod, XML_val, OString::number(nCharColorLumMod * 10));
+ }
+
+ sal_Int32 nCharColorLumOff{};
+ xPropertySet->getPropertyValue("CharColorLumOff") >>= nCharColorLumOff;
+ if (nCharColorLumOff != 0)
+ {
+ mpFS->singleElementNS(XML_a, XML_lumOff, XML_val, OString::number(nCharColorLumOff * 10));
+ }
+
+ mpFS->endElementNS(XML_a, XML_schemeClr);
+ mpFS->endElementNS(XML_a, XML_solidFill);
+
+ return true;
+}
+
+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<sal_uInt32>();
+
+ // 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.
+ awt::Gradient aTransparenceGradient;
+ bool bNeedGradientFill(false);
+ if (GetProperty(rXPropSet, "FillTransparenceGradient"))
+ {
+ mAny >>= aTransparenceGradient;
+ if (aTransparenceGradient.StartColor != aTransparenceGradient.EndColor)
+ bNeedGradientFill = true;
+ else if (aTransparenceGradient.StartColor != 0)
+ nAlpha = GetAlphaFromTransparenceGradient(aTransparenceGradient, true);
+ }
+
+ // write XML
+ if (bNeedGradientFill)
+ {
+ awt::Gradient aPseudoColorGradient;
+ aPseudoColorGradient.XOffset = aTransparenceGradient.XOffset;
+ aPseudoColorGradient.YOffset = aTransparenceGradient.YOffset;
+ aPseudoColorGradient.StartIntensity = 100;
+ aPseudoColorGradient.EndIntensity = 100;
+ aPseudoColorGradient.Angle = aTransparenceGradient.Angle;
+ aPseudoColorGradient.Border = aTransparenceGradient.Border;
+ aPseudoColorGradient.Style = aTransparenceGradient.Style;
+ aPseudoColorGradient.StartColor = nFillColor;
+ aPseudoColorGradient.EndColor = nFillColor;
+ aPseudoColorGradient.StepCount = aTransparenceGradient.StepCount;
+ mpFS->startElementNS(XML_a, XML_gradFill, XML_rotWithShape, "0");
+ WriteGradientFill(aPseudoColorGradient, aTransparenceGradient);
+ mpFS->endElementNS( XML_a, XML_gradFill );
+ }
+ else if ( nFillColor != nOriginalColor )
+ {
+ // the user has set a different color for the shape
+ if (!WriteFillColor(rXPropSet))
+ {
+ WriteSolidFill(::Color(ColorTransparency, nFillColor & 0xffffff), nAlpha);
+ }
+ }
+ else if ( !sColorFillScheme.isEmpty() )
+ {
+ // 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::WriteFillColor(const uno::Reference<beans::XPropertySet>& xPropertySet)
+{
+ if (!xPropertySet->getPropertySetInfo()->hasPropertyByName("FillColorTheme"))
+ {
+ return false;
+ }
+
+ sal_Int32 nFillColorTheme = -1;
+ xPropertySet->getPropertyValue("FillColorTheme") >>= nFillColorTheme;
+ if (nFillColorTheme < 0 || nFillColorTheme > 11)
+ {
+ return false;
+ }
+
+ const char* pColorName = g_aPredefinedClrNames[nFillColorTheme];
+
+ mpFS->startElementNS(XML_a, XML_solidFill);
+ mpFS->startElementNS(XML_a, XML_schemeClr, XML_val, pColorName);
+
+ sal_Int32 nFillColorLumMod{};
+ xPropertySet->getPropertyValue("FillColorLumMod") >>= nFillColorLumMod;
+ if (nFillColorLumMod != 10000)
+ {
+ mpFS->singleElementNS(XML_a, XML_lumMod, XML_val, OString::number(nFillColorLumMod * 10));
+ }
+
+ sal_Int32 nFillColorLumOff{};
+ xPropertySet->getPropertyValue("FillColorLumOff") >>= nFillColorLumOff;
+ if (nFillColorLumOff != 0)
+ {
+ mpFS->singleElementNS(XML_a, XML_lumOff, XML_val, OString::number(nFillColorLumOff * 10));
+ }
+
+ mpFS->endElementNS(XML_a, XML_schemeClr);
+ mpFS->endElementNS(XML_a, XML_solidFill);
+
+ return true;
+}
+
+void DrawingML::WriteGradientStop(sal_uInt16 nStop, ::Color nColor, sal_Int32 nAlpha)
+{
+ mpFS->startElementNS(XML_a, XML_gs, XML_pos, OString::number(nStop * 1000));
+ WriteColor(nColor, nAlpha);
+ 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 ));
+}
+
+bool DrawingML::EqualGradients( awt::Gradient aGradient1, awt::Gradient aGradient2 )
+{
+ return aGradient1.Style == aGradient2.Style &&
+ aGradient1.StartColor == aGradient2.StartColor &&
+ aGradient1.EndColor == aGradient2.EndColor &&
+ aGradient1.Angle == aGradient2.Angle &&
+ aGradient1.Border == aGradient2.Border &&
+ aGradient1.XOffset == aGradient2.XOffset &&
+ aGradient1.YOffset == aGradient2.YOffset &&
+ aGradient1.StartIntensity == aGradient2.StartIntensity &&
+ aGradient1.EndIntensity == aGradient2.EndIntensity &&
+ aGradient1.StepCount == aGradient2.StepCount;
+}
+
+void DrawingML::WriteGradientFill( const Reference< XPropertySet >& rXPropSet )
+{
+ awt::Gradient aGradient;
+ if (!GetProperty(rXPropSet, "FillGradient"))
+ return;
+
+ aGradient = *o3tl::doAccess<awt::Gradient>(mAny);
+
+ // get InteropGrabBag and search the relevant attributes
+ awt::Gradient 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" )
+ rProp.Value >>= aOriginalGradient;
+ }
+
+ // 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( EqualGradients( 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
+ {
+ awt::Gradient aTransparenceGradient;
+ mpFS->startElementNS(XML_a, XML_gradFill, XML_rotWithShape, "0");
+ OUString sFillTransparenceGradientName;
+ if (GetProperty(rXPropSet, "FillTransparenceGradientName")
+ && (mAny >>= sFillTransparenceGradientName)
+ && !sFillTransparenceGradientName.isEmpty())
+ {
+ if (GetProperty(rXPropSet, "FillTransparenceGradient"))
+ aTransparenceGradient = *o3tl::doAccess<awt::Gradient>(mAny);
+ }
+ else if (GetProperty(rXPropSet, "FillTransparence"))
+ {
+ // currently only StartColor and EndColor are evaluated in WriteGradientFill()
+ sal_Int32 nTransparency = 0;
+ mAny >>= nTransparency;
+ // convert percent to gray color
+ nTransparency = nTransparency * 255/100;
+ const sal_Int32 aGrayColor = static_cast<sal_Int32>( nTransparency | nTransparency << 8 | nTransparency << 16 );
+ aTransparenceGradient.StartColor = aGrayColor;
+ aTransparenceGradient.EndColor = aGrayColor;
+ }
+ WriteGradientFill(aGradient, aTransparenceGradient);
+ mpFS->endElementNS(XML_a, XML_gradFill);
+ }
+}
+
+void DrawingML::WriteGrabBagGradientFill( const Sequence< PropertyValue >& aGradientStops, awt::Gradient rGradient )
+{
+ // 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).getStr());
+ 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 (rGradient.Style)
+ {
+ default:
+ mpFS->singleElementNS(
+ XML_a, XML_lin, XML_ang,
+ OString::number(((3600 - rGradient.Angle + 900) * 6000) % 21600000));
+ break;
+ case awt::GradientStyle_RADIAL:
+ WriteGradientPath(rGradient, mpFS, true);
+ break;
+ }
+}
+
+void DrawingML::WriteGradientFill(awt::Gradient rGradient, awt::Gradient rTransparenceGradient,
+ const uno::Reference<beans::XPropertySet>& rXPropSet)
+{
+ sal_Int32 nStartAlpha;
+ sal_Int32 nEndAlpha;
+ if( rXPropSet.is() && GetProperty(rXPropSet, "FillTransparence") )
+ {
+ sal_Int32 nTransparency = 0;
+ mAny >>= nTransparency;
+ nStartAlpha = nEndAlpha = (MAX_PERCENT - (PER_PERCENT * nTransparency));
+ }
+ else
+ {
+ nStartAlpha = GetAlphaFromTransparenceGradient(rTransparenceGradient, true);
+ nEndAlpha = GetAlphaFromTransparenceGradient(rTransparenceGradient, false);
+ }
+ switch( rGradient.Style )
+ {
+ default:
+ case awt::GradientStyle_LINEAR:
+ {
+ mpFS->startElementNS(XML_a, XML_gsLst);
+ WriteGradientStop(rGradient.Border, ColorWithIntensity(rGradient.StartColor, rGradient.StartIntensity),
+ nStartAlpha);
+ WriteGradientStop(100, ColorWithIntensity(rGradient.EndColor, rGradient.EndIntensity),
+ nEndAlpha);
+ mpFS->endElementNS( XML_a, XML_gsLst );
+ mpFS->singleElementNS(
+ XML_a, XML_lin, XML_ang,
+ OString::number(((3600 - rGradient.Angle + 900) * 6000) % 21600000));
+ break;
+ }
+
+ case awt::GradientStyle_AXIAL:
+ {
+ mpFS->startElementNS(XML_a, XML_gsLst);
+ WriteGradientStop(0, ColorWithIntensity(rGradient.EndColor, rGradient.EndIntensity),
+ nEndAlpha);
+ if (rGradient.Border > 0 && rGradient.Border < 100)
+ {
+ WriteGradientStop(rGradient.Border/2,
+ ColorWithIntensity(rGradient.EndColor, rGradient.EndIntensity),
+ nEndAlpha);
+ }
+ WriteGradientStop(50, ColorWithIntensity(rGradient.StartColor, rGradient.StartIntensity),
+ nStartAlpha);
+ if (rGradient.Border > 0 && rGradient.Border < 100)
+ {
+ WriteGradientStop(100 - rGradient.Border/2,
+ ColorWithIntensity(rGradient.EndColor, rGradient.EndIntensity),
+ nEndAlpha);
+ }
+ WriteGradientStop(100, ColorWithIntensity(rGradient.EndColor, rGradient.EndIntensity),
+ nEndAlpha);
+ mpFS->endElementNS(XML_a, XML_gsLst);
+ mpFS->singleElementNS(
+ XML_a, XML_lin, XML_ang,
+ OString::number(((3600 - rGradient.Angle + 900) * 6000) % 21600000));
+ break;
+ }
+
+ case awt::GradientStyle_RADIAL:
+ case awt::GradientStyle_ELLIPTICAL:
+ case awt::GradientStyle_RECT:
+ case awt::GradientStyle_SQUARE:
+ {
+ mpFS->startElementNS(XML_a, XML_gsLst);
+ WriteGradientStop(0, ColorWithIntensity(rGradient.EndColor, rGradient.EndIntensity),
+ nEndAlpha);
+ if (rGradient.Border > 0 && rGradient.Border < 100)
+ {
+ // Map border to an additional gradient stop, which has the
+ // same color as the final stop.
+ WriteGradientStop(100 - rGradient.Border,
+ ColorWithIntensity(rGradient.StartColor, rGradient.StartIntensity),
+ nStartAlpha);
+ }
+ WriteGradientStop(100,
+ ColorWithIntensity(rGradient.StartColor, rGradient.StartIntensity),
+ nStartAlpha);
+ mpFS->endElementNS(XML_a, XML_gsLst);
+
+ WriteGradientPath(rGradient, mpFS, rGradient.Style == awt::GradientStyle_RADIAL || rGradient.Style == awt::GradientStyle_ELLIPTICAL);
+ break;
+ }
+ }
+}
+
+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<XPropertySet>& 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<drawing::LineCap>() : 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<PropertyValue> aStyleProperties;
+ Sequence<PropertyValue> aTransformations;
+
+ drawing::LineStyle aStyleLineStyle(drawing::LineStyle_NONE);
+ drawing::LineJoint aStyleLineJoint(drawing::LineJoint_NONE);
+
+ if (GetProperty(rXPropSet, "InteropGrabBag"))
+ {
+ Sequence<PropertyValue> 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<drawing::LineDash>();
+ //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<sal_uInt32>() & 0xffffff);
+ bColorSet = true;
+ }
+ if (GetProperty(rXPropSet, "LineTransparence"))
+ {
+ nColorAlpha = MAX_PERCENT - (mAny.get<sal_Int16>() * 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<sal_uInt32>(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 || (nLineWidth > 1 && nStyleLineWidth != nLineWidth)) );
+
+ if( bColorSet )
+ {
+ if( nColor != nOriginalColor )
+ {
+ // the user has set a different color for the line
+ 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<LineJoint>();
+
+ if( aStyleLineJoint == LineJoint_NONE || 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 );
+}
+
+const char* DrawingML::GetComponentDir() const
+{
+ switch ( meDocumentType )
+ {
+ case DOCUMENT_DOCX: return "word";
+ case DOCUMENT_PPTX: return "ppt";
+ case DOCUMENT_XLSX: return "xl";
+ }
+
+ return "unknown";
+}
+
+const char* DrawingML::GetRelationCompPrefix() const
+{
+ switch ( meDocumentType )
+ {
+ case DOCUMENT_DOCX: return "";
+ case DOCUMENT_PPTX:
+ case DOCUMENT_XLSX: return "../";
+ }
+
+ return "unknown";
+}
+
+OUString DrawingML::WriteImage( const Graphic& rGraphic , bool bRelPathToMedia )
+{
+ GfxLink aLink = rGraphic.GetGfxLink ();
+ BitmapChecksum aChecksum = rGraphic.GetChecksum();
+ OUString sMediaType;
+ const char* pExtension = "";
+ OUString sRelId;
+ OUString sPath;
+
+ // tdf#74670 tdf#91286 Save image only once
+ if (!maExportGraphics.empty())
+ {
+ auto aIterator = maExportGraphics.top().find(aChecksum);
+ if (aIterator != maExportGraphics.top().end())
+ sPath = aIterator->second;
+ }
+
+ if (sPath.isEmpty())
+ {
+ SvMemoryStream aStream;
+ const void* aData = aLink.GetData();
+ std::size_t nDataSize = aLink.GetDataSize();
+
+ switch (aLink.GetType())
+ {
+ case GfxLinkType::NativeGif:
+ sMediaType = "image/gif";
+ pExtension = ".gif";
+ break;
+
+ // #i15508# added BMP type for better exports
+ // export not yet active, so adding for reference (not checked)
+ case GfxLinkType::NativeBmp:
+ sMediaType = "image/bmp";
+ pExtension = ".bmp";
+ break;
+
+ case GfxLinkType::NativeJpg:
+ sMediaType = "image/jpeg";
+ pExtension = ".jpeg";
+ break;
+ case GfxLinkType::NativePng:
+ sMediaType = "image/png";
+ pExtension = ".png";
+ break;
+ case GfxLinkType::NativeTif:
+ sMediaType = "image/tiff";
+ pExtension = ".tif";
+ break;
+ case GfxLinkType::NativeWmf:
+ sMediaType = "image/x-wmf";
+ pExtension = ".wmf";
+ break;
+ case GfxLinkType::NativeMet:
+ sMediaType = "image/x-met";
+ pExtension = ".met";
+ break;
+ case GfxLinkType::NativePct:
+ sMediaType = "image/x-pict";
+ pExtension = ".pct";
+ break;
+ case GfxLinkType::NativeMov:
+ sMediaType = "application/movie";
+ pExtension = ".MOV";
+ 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 = "image/png";
+ pExtension = ".png";
+ }
+ else
+ {
+ (void)GraphicConverter::Export(aStream, rGraphic, ConvertDataFormat::EMF);
+ sMediaType = "image/x-emf";
+ pExtension = ".emf";
+ }
+ }
+ else
+ {
+ SAL_WARN("oox.shape", "unhandled graphic type " << static_cast<int>(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 sRelId;
+ }
+
+ aData = aStream.GetData();
+ nDataSize = aStream.GetEndOfData();
+ break;
+ }
+ }
+
+ Reference<XOutputStream> xOutStream = mpFB->openFragmentStream(
+ OUStringBuffer()
+ .appendAscii(GetComponentDir())
+ .append("/media/image" + OUString::number(mnImageCounter.top()))
+ .appendAscii(pExtension)
+ .makeStringAndClear(),
+ sMediaType);
+ xOutStream->writeBytes(Sequence<sal_Int8>(static_cast<const sal_Int8*>(aData), nDataSize));
+ xOutStream->closeOutput();
+
+ const OString sRelPathToMedia = "media/image";
+ OString sRelationCompPrefix;
+ if (bRelPathToMedia)
+ sRelationCompPrefix = "../";
+ else
+ sRelationCompPrefix = GetRelationCompPrefix();
+ sPath = OUStringBuffer()
+ .appendAscii(sRelationCompPrefix.getStr())
+ .appendAscii(sRelPathToMedia.getStr())
+ .append(static_cast<sal_Int32>(mnImageCounter.top()++))
+ .appendAscii(pExtension)
+ .makeStringAndClear();
+
+ if (!maExportGraphics.empty())
+ maExportGraphics.top()[aChecksum] = sPath;
+ }
+
+ sRelId = mpFB->addRelation( mpFS->getOutputStream(),
+ oox::getRelationship(Relationship::IMAGE),
+ sPath );
+
+ return sRelId;
+}
+
+void DrawingML::WriteMediaNonVisualProperties(const css::uno::Reference<css::drawing::XShape>& xShape)
+{
+ SdrMediaObj* pMediaObj = dynamic_cast<SdrMediaObj*>(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 == "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)
+ {
+ // copy the video stream
+ Reference<XOutputStream> xOutStream = mpFB->openFragmentStream(OUStringBuffer()
+ .appendAscii(GetComponentDir())
+ .append("/media/media" +
+ OUString::number(mnImageCounter.top()) +
+ aExtension)
+ .makeStringAndClear(),
+ aMimeType);
+
+ uno::Reference<io::XInputStream> xInputStream(pMediaObj->GetInputStream());
+ comphelper::OStorageHelper::CopyInputToOutput(xInputStream, xOutStream);
+
+ xOutStream->closeOutput();
+
+ // create the relation
+ OUString aPath = OUStringBuffer().appendAscii(GetRelationCompPrefix())
+ .append("media/media" + OUString::number(mnImageCounter.top()++) + aExtension)
+ .makeStringAndClear();
+ 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<beans::XPropertySet> const & rXPropSet)
+{
+ sal_Int16 nBright = 0;
+ sal_Int32 nContrast = 0;
+ sal_Int32 nTransparence = 0;
+
+ if (GetProperty(rXPropSet, "AdjustLuminance"))
+ nBright = mAny.get<sal_Int16>();
+ if (GetProperty(rXPropSet, "AdjustContrast"))
+ nContrast = mAny.get<sal_Int32>();
+ // Used for shapes with picture fill
+ if (GetProperty(rXPropSet, "FillTransparence"))
+ nTransparence = mAny.get<sal_Int32>();
+ // Used for pictures
+ if (nTransparence == 0 && GetProperty(rXPropSet, "Transparency"))
+ nTransparence = static_cast<sal_Int32>(mAny.get<sal_Int16>());
+
+ 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));
+ }
+}
+
+OUString DrawingML::WriteXGraphicBlip(uno::Reference<beans::XPropertySet> const & rXPropSet,
+ uno::Reference<graphic::XGraphic> const & rxGraphic,
+ bool bRelPathToMedia)
+{
+ OUString sRelId;
+
+ if (!rxGraphic.is())
+ return sRelId;
+
+ Graphic aGraphic(rxGraphic);
+ sRelId = WriteImage(aGraphic, bRelPathToMedia);
+
+ mpFS->startElementNS(XML_a, XML_blip, FSNS(XML_r, XML_embed), sRelId);
+
+ WriteImageBrightnessContrastTransparence(rXPropSet);
+
+ WriteArtisticEffect(rXPropSet);
+
+ mpFS->endElementNS(XML_a, XML_blip);
+
+ return sRelId;
+}
+
+void DrawingML::WriteXGraphicBlipMode(uno::Reference<beans::XPropertySet> const & rXPropSet,
+ uno::Reference<graphic::XGraphic> const & rxGraphic)
+{
+ 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);
+ break;
+ case BitmapMode_STRETCH:
+ WriteXGraphicStretch(rXPropSet, rxGraphic);
+ break;
+ default:
+ break;
+ }
+}
+
+void DrawingML::WriteBlipOrNormalFill( const Reference< XPropertySet >& xPropSet, const OUString& rURLPropName )
+{
+ // 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);
+}
+
+void DrawingML::WriteBlipFill( const Reference< XPropertySet >& rXPropSet, const OUString& sURLPropName )
+{
+ WriteBlipFill( rXPropSet, sURLPropName, XML_a );
+}
+
+void DrawingML::WriteBlipFill( const Reference< XPropertySet >& rXPropSet, const OUString& sURLPropName, sal_Int32 nXmlNamespace )
+{
+ if ( !GetProperty( rXPropSet, sURLPropName ) )
+ return;
+
+ uno::Reference<graphic::XGraphic> xGraphic;
+ if (mAny.has<uno::Reference<awt::XBitmap>>())
+ {
+ uno::Reference<awt::XBitmap> xBitmap = mAny.get<uno::Reference<awt::XBitmap>>();
+ if (xBitmap.is())
+ xGraphic.set(xBitmap, uno::UNO_QUERY);
+ }
+ else if (mAny.has<uno::Reference<graphic::XGraphic>>())
+ {
+ xGraphic = mAny.get<uno::Reference<graphic::XGraphic>>();
+ }
+
+ if (xGraphic.is())
+ {
+ bool bWriteMode = false;
+ if (sURLPropName == "FillBitmap" || sURLPropName == "BackGraphic")
+ bWriteMode = true;
+ WriteXGraphicBlipFill(rXPropSet, xGraphic, nXmlNamespace, bWriteMode);
+ }
+}
+
+void DrawingML::WriteXGraphicBlipFill(uno::Reference<beans::XPropertySet> const & rXPropSet,
+ uno::Reference<graphic::XGraphic> const & rxGraphic,
+ sal_Int32 nXmlNamespace, bool bWriteMode, bool bRelPathToMedia)
+{
+ 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);
+ }
+ else if(GetProperty(rXPropSet, "FillBitmapStretch"))
+ {
+ bool bStretch = mAny.get<bool>();
+
+ 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<XPropertySet>& 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<beans::XPropertySet> 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<beans::XPropertySet> const & rxPropertySet,
+ uno::Reference<graphic::XGraphic> const & rxGraphic)
+{
+ Graphic aGraphic(rxGraphic);
+ Size aOriginalSize = aGraphic.GetPrefSize();
+ const MapMode& rMapMode = aGraphic.GetPrefMapMode();
+ WriteGraphicCropProperties(rxPropertySet, aOriginalSize, rMapMode);
+}
+
+void DrawingML::WriteXGraphicStretch(uno::Reference<beans::XPropertySet> const & rXPropSet,
+ uno::Reference<graphic::XGraphic> 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<beans::XPropertySet> const& rXPropSet,
+ uno::Reference<graphic::XGraphic> const& rxGraphic)
+{
+ 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 nOffsetX = 0;
+ if (GetProperty(rXPropSet, "FillBitmapPositionOffsetX"))
+ nOffsetX = (*o3tl::doAccess<sal_Int32>(mAny)) * aOriginalSize.Width() * 3.6;
+
+ sal_Int32 nOffsetY = 0;
+ if (GetProperty(rXPropSet, "FillBitmapPositionOffsetY"))
+ nOffsetY = (*o3tl::doAccess<sal_Int32>(mAny)) * aOriginalSize.Height() * 3.6;
+
+ // convert the X size of bitmap to a percentage
+ sal_Int32 nSizeX = 0;
+ if (GetProperty(rXPropSet, "FillBitmapSizeX"))
+ {
+ mAny >>= nSizeX;
+ if (nSizeX > 0)
+ nSizeX = double(nSizeX) / aOriginalSize.Width() * 100000;
+ else if (nSizeX < 0)
+ nSizeX *= 1000;
+ else
+ nSizeX = 100000;
+ }
+
+ // convert the Y size of bitmap to a percentage
+ sal_Int32 nSizeY = 0;
+ if (GetProperty(rXPropSet, "FillBitmapSizeY"))
+ {
+ mAny >>= nSizeY;
+ 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)
+ {
+ Reference<drawing::XDrawPagesSupplier> xDPS(GetFB()->getModel(), UNO_QUERY_THROW);
+ Reference<drawing::XDrawPages> xDrawPages(xDPS->getDrawPages(), UNO_SET_THROW);
+ // in this case, the size of the first slide is enough, because all slides are the same size
+ Reference<XDrawPage> xDrawPage(xDrawPages->getByIndex(0), UNO_QUERY);
+ css::uno::Reference<css::beans::XPropertySet> xPagePropSet(xDrawPage, UNO_QUERY);
+ if (xPagePropSet)
+ {
+ double nPageWidth, nPageHeight;
+ xPagePropSet->getPropertyValue("Width") >>= nPageWidth;
+ xPagePropSet->getPropertyValue("Height") >>= nPageHeight;
+ nSizeX = nPageWidth / aOriginalSize.Width() * std::abs(nSizeX);
+ nSizeY = nPageHeight / aOriginalSize.Height() * std::abs(nSizeY);
+ }
+ }
+
+ OUString sRectanglePoint;
+ if (GetProperty(rXPropSet, "FillBitmapRectanglePoint"))
+ sRectanglePoint = lclConvertRectanglePointToToken(*o3tl::doAccess<RectanglePoint>(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);
+}
+
+namespace
+{
+bool IsTopGroupObj(const uno::Reference<drawing::XShape>& 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<beans::XPropertySet> xPropertySet(rXShape, uno::UNO_QUERY);
+ uno::Reference<beans::XPropertySetInfo> 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<beans::PropertyValue> 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<beans::PropertyValue> 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<beans::PropertyValue> 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<css::frame::XModel>& xModel, OUString& rURL)
+{
+ Reference<drawing::XDrawPagesSupplier> xDPS(xModel, uno::UNO_QUERY_THROW);
+ Reference<drawing::XDrawPages> xDrawPages(xDPS->getDrawPages(), uno::UNO_SET_THROW);
+ sal_uInt32 nPageCount = xDrawPages->getCount();
+ OUString sTarget;
+
+ for (sal_uInt32 i = 0; i < nPageCount; ++i)
+ {
+ Reference<XDrawPage> xDrawPage;
+ xDrawPages->getByIndex(i) >>= xDrawPage;
+ Reference<container::XNamed> 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<sal_Int32>(100*(*o3tl::doAccess<float>(mAny)));
+ if ( nElement == XML_rPr || nElement == XML_defRPr )
+ {
+ rbOverridingCharHeight = true;
+ rnCharHeight = nSize;
+ }
+ }
+
+ if (GetProperty(rXPropSet, "CharKerning"))
+ nCharKerning = static_cast<sal_Int32>(*o3tl::doAccess<sal_Int16>(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<float>(mAny) >= awt::FontWeight::SEMIBOLD )
+ bold = "1";
+ }
+
+ if ((bComplex && GetProperty(rXPropSet, "CharPostureComplex"))
+ || GetProperty(rXPropSet, "CharPosture"))
+ switch ( *o3tl::doAccess<awt::FontSlant>(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<sal_Int16>(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<sal_Int16>(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<sal_Int16>(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<sal_uInt32>(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<bool>(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 (!WriteCharColor(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 (!WriteCharColor(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>() != FillStyle_NONE
+ && GetProperty(rXShapePropSet, "FillColor"))
+ {
+ ::Color aShapeFillColor(ColorTransparency, mAny.get<sal_uInt32>());
+ 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<sal_uInt32>(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<sal_uInt32>(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<OUString>(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<SvxDateFormat>(nNumFmt));
+ }
+ else if(aFieldKind == "ExtTime")
+ {
+ sal_Int32 nNumFmt = -1;
+ rXPropSet->getPropertyValue(UNO_TC_PROP_NUMFORMAT) >>= nNumFmt;
+ aFieldValue = GetDatetimeTypeFromTime(static_cast<SvxTimeFormat>(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).getStr());
+ 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<PropertyValue> 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<graphic::XGraphic> 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<SvxNumType>(*o3tl::doAccess<sal_Int16>(rPropValue.Value));
+ }
+ else if ( aPropName == "Prefix" )
+ {
+ if( *o3tl::doAccess<OUString>(rPropValue.Value) == ")")
+ bPBoth = true;
+ }
+ else if ( aPropName == "Suffix" )
+ {
+ auto s = o3tl::doAccess<OUString>(rPropValue.Value);
+ if( *s == ".")
+ bSDot = true;
+ else if( *s == ")")
+ bPBehind = true;
+ }
+ else if(aPropName == "BulletColor")
+ {
+ nBulletColor = ::Color(ColorTransparency, *o3tl::doAccess<sal_uInt32>(rPropValue.Value));
+ bHasBulletColor = true;
+ }
+ else if ( aPropName == "BulletChar" )
+ {
+ aBulletChar = (*o3tl::doAccess<OUString>(rPropValue.Value))[ 0 ];
+ }
+ else if ( aPropName == "BulletFont" )
+ {
+ aFontDesc = *o3tl::doAccess<awt::FontDescriptor>(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<sal_Int16>(rPropValue.Value);
+ }
+ else if ( aPropName == "StartWith" )
+ {
+ nStartWith = *o3tl::doAccess<sal_Int16>(rPropValue.Value);
+ }
+ else if (aPropName == "GraphicBitmap")
+ {
+ auto xBitmap = rPropValue.Value.get<uno::Reference<awt::XBitmap>>();
+ xGraphic.set(xBitmap, uno::UNO_QUERY);
+ }
+ else if ( aPropName == "GraphicSize" )
+ {
+ aGraphicSize = *o3tl::doAccess<awt::Size>(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<float>(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<tools::Long>(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 = WriteImage(aDestGraphic);
+ fBulletSizeRel = 1.0f;
+ }
+ else
+ {
+ sRelationId = WriteImage(aGraphic);
+ }
+
+ mpFS->singleElementNS( XML_a, XML_buSzPct,
+ XML_val, OString::number(std::min<sal_Int32>(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<sal_Int32>(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<XPropertySet>& rXPropSet)
+{
+ css::uno::Sequence<css::style::TabStop> aTabStops;
+ if (GetProperty(rXPropSet, "ParaTabStops"))
+ aTabStops = *o3tl::doAccess<css::uno::Sequence<css::style::TabStop>>(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";
+ break;
+ case css::style::TabAlign_RIGHT:
+ sAlignment = "r";
+ break;
+ case css::style::TabAlign_CENTER:
+ sAlignment = "ctr";
+ break;
+ case css::style::TabAlign_LEFT:
+ default:
+ sAlignment = "l";
+ }
+ 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<lang::XServiceInfo> 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<PropertyValue> 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<sal_Int32>(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<sal_Int32>(rSpacing.Height)*1000));
+ }
+ else if (rSpacing.Mode == LineSpacingMode::MINIMUM
+ && fFirstCharHeight > static_cast<float>(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<sal_Int32>(100000)));
+ }
+ else
+ {
+ mpFS->singleElementNS( XML_a, XML_spcPts,
+ XML_val, OString::number(std::lround(rSpacing.Height / 25.4 * 72)));
+ }
+}
+
+bool DrawingML::WriteParagraphProperties(const Reference<XTextContent>& rParagraph, const Reference<XPropertySet>& rXShapePropSet, 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<PropertyValues>();
+ for (const PropertyValue& rRule : rNumRuleOfLevel)
+ if (rRule.Name == "NumberingType" && rRule.Value.hasValue())
+ bNumberingOnThisLevel = rRule.Value.get<sal_uInt16>() != style::NumberingType::NUMBER_NONE;
+ }
+
+ const bool bIsNumberingVisible = rXPropSet->getPropertyValue("NumberingIsNumber").get<bool>();
+ 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<style::ParagraphAdjust>(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;
+ }
+
+ // for autofitted textboxes, scale the indents
+ if (GetProperty(rXShapePropSet, "TextFitToSize") && mAny.get<TextFitToSizeType>() == TextFitToSizeType_AUTOFIT)
+ {
+ SvxShapeText* pTextShape = dynamic_cast<SvxShapeText*>(rXShapePropSet.get());
+ if (pTextShape)
+ {
+ SdrTextObj* pTextObject = dynamic_cast<SdrTextObj*>(pTextShape->GetSdrObject());
+ if (pTextObject)
+ {
+ const auto nFontScaleY = pTextObject->GetFontScaleY();
+ nLeftMargin = nLeftMargin * nFontScaleY / 100;
+ nLineIndentation = nLineIndentation * nFontScaleY / 100;
+ nParaLeftMargin = nParaLeftMargin * nFontScaleY / 100;
+ nParaFirstLineIndent = nParaFirstLineIndent * nFontScaleY / 100;
+ }
+ }
+ }
+
+ 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 ? oox::drawingml::convertHmmToEmu(nParaFirstLineIndent) : 0), (bForceZeroIndent || (nParaFirstLineIndent != 0))),
+ XML_algn, GetAlignment( nAlignment ),
+ 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_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<css::text::XTextContent>& rParagraph,
+ bool& rbOverridingCharHeight, sal_Int32& rnCharHeight,
+ const css::uno::Reference<css::beans::XPropertySet>& rXShapePropSet)
+{
+ Reference<XEnumerationAccess> xAccess(rParagraph, UNO_QUERY);
+ if (!xAccess.is())
+ return;
+
+ Reference<XEnumeration> xEnumeration(xAccess->createEnumeration());
+ if (!xEnumeration.is())
+ return;
+
+
+ Reference<XTextRange> rRun;
+
+ if (!xEnumeration->hasMoreElements())
+ return;
+
+ Any aAny(xEnumeration->nextElement());
+ if (aAny >>= rRun)
+ {
+ float fFirstCharHeight = rnCharHeight / 1000.;
+ Reference<XPropertySet> xFirstRunPropSet(rRun, UNO_QUERY);
+ Reference<XPropertySetInfo> xFirstRunPropSetInfo
+ = xFirstRunPropSet->getPropertySetInfo();
+
+ if (xFirstRunPropSetInfo->hasPropertyByName("CharHeight"))
+ fFirstCharHeight = xFirstRunPropSet->getPropertyValue("CharHeight").get<float>();
+
+ mpFS->startElementNS(XML_a, XML_lstStyle);
+ if( !WriteParagraphProperties(rParagraph, rXShapePropSet, 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<float>();
+ rnCharHeight = 100 * fFirstCharHeight;
+ rbOverridingCharHeight = true;
+ }
+ WriteParagraphProperties(rParagraph, rXShapePropSet, 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<css::beans::XPropertySet>& rXShapePropSet)
+{
+ bool bResult(false);
+ if (rXShapePropSet.is())
+ {
+ Sequence<PropertyValue> aCustomShapeGeometryProps;
+ if (GetProperty(rXShapePropSet, "CustomShapeGeometry"))
+ {
+ mAny >>= aCustomShapeGeometryProps;
+ uno::Sequence<beans::PropertyValue> 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<XInterface>& rXIface, bool bBodyPr, bool bText,
+ sal_Int32 nXmlNamespace, bool bWritePropertiesAsLstStyles)
+{
+ // ToDo: Fontwork in DOCX
+ uno::Reference<XText> xXText(rXIface, UNO_QUERY);
+ if( !xXText.is() )
+ return;
+
+ uno::Reference<drawing::XShape> xShape(rXIface, UNO_QUERY);
+ uno::Reference<XPropertySet> rXPropSet(rXIface, UNO_QUERY);
+
+ sal_Int32 nTextPreRotateAngle = 0;
+ double nTextRotateAngle = 0;
+
+ 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<SdrObjCustomShape*>(SdrObject::getSdrObjectFromXShape(xShape));
+ if (pCustomShape)
+ {
+ const EnhancedCustomShape2d aCustomShape2d(*pCustomShape);
+ nTextHeight = aCustomShape2d.GetTextRect().getHeight();
+ 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 implicitely 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;
+ }
+ }
+
+ TextVerticalAdjust eVerticalAlignment( TextVerticalAdjust_TOP );
+ const char* sVerticalAlignment = nullptr;
+ if (GetProperty(rXPropSet, "TextVerticalAdjust"))
+ mAny >>= eVerticalAlignment;
+ sVerticalAlignment = GetTextVerticalAdjust(eVerticalAlignment);
+
+ const char* sWritingMode = nullptr;
+ bool bVertical = false;
+ if (GetProperty(rXPropSet, "TextWritingMode"))
+ {
+ WritingMode eMode;
+
+ if( ( mAny >>= eMode ) && eMode == WritingMode_TB_RL )
+ {
+ sWritingMode = "eaVert";
+ bVertical = true;
+ }
+ }
+
+ bool bIsFontworkShape(IsFontworkShape(rXPropSet));
+ Sequence<drawing::EnhancedCustomShapeAdjustmentValue> aAdjustmentSeq;
+ uno::Sequence<beans::PropertyValue> aTextPathSeq;
+ bool bScaleX(false);
+ OUString sShapeType("non-primitive");
+ // ToDo move to InteropGrabBag
+ OUString sMSWordPresetTextWarp;
+
+ 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 ) )
+ {
+ if ( nTextPreRotateAngle == -90 )
+ {
+ sWritingMode = "vert";
+ bVertical = true;
+ }
+ else if ( nTextPreRotateAngle == -270 )
+ {
+ sWritingMode = "vert270";
+ bVertical = true;
+ }
+ }
+ else if (rProp.Name == "AdjustmentValues")
+ rProp.Value >>= aAdjustmentSeq;
+ else if( rProp.Name == "TextRotateAngle" )
+ rProp.Value >>= nTextRotateAngle;
+ 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<beans::XPropertySet> xPropSet(xTextFrame, uno::UNO_QUERY);
+ auto aAny = xPropSet->getPropertyValue("WritingMode");
+ sal_Int16 nWritingMode;
+ if (aAny >>= nWritingMode)
+ {
+ switch (nWritingMode)
+ {
+ case WritingMode2::TB_RL:
+ sWritingMode = "vert";
+ bVertical = true;
+ break;
+ case WritingMode2::BT_LR:
+ sWritingMode = "vert270";
+ bVertical = true;
+ break;
+ default:
+ break;
+ }
+ }
+ }
+ }
+ }
+ }
+ 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");
+
+ TextHorizontalAdjust eHorizontalAlignment( TextHorizontalAdjust_CENTER );
+ bool bHorizontalCenter = false;
+ if (GetProperty(rXPropSet, "TextHorizontalAdjust"))
+ mAny >>= eHorizontalAlignment;
+ if( eHorizontalAlignment == TextHorizontalAdjust_CENTER )
+ bHorizontalCenter = true;
+ else if( bVertical && eHorizontalAlignment == TextHorizontalAdjust_LEFT )
+ sVerticalAlignment = "b";
+
+ bool bHasWrap = false;
+ bool bWrap = false;
+ // Only custom shapes obey the TextWordWrap option, normal text always wraps.
+ if (dynamic_cast<SvxCustomShape*>(rXIface.get()) && GetProperty(rXPropSet, "TextWordWrap"))
+ {
+ mAny >>= bWrap;
+ bHasWrap = true;
+ }
+
+ 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<lang::XServiceInfo> xServiceInfo(rXIface, uno::UNO_QUERY);
+ if (xServiceInfo.is() && xServiceInfo->supportsService("com.sun.star.drawing.TextShape"))
+ pWrap = "square";
+ }
+
+ std::optional<OUString> sHorzOverflow;
+ std::optional<OUString> sVertOverflow;
+ sal_Int32 nShapeRotateAngle = rXPropSet->getPropertyValue("RotateAngle").get<sal_Int32>() / 300;
+ sal_Int16 nCols = 0;
+ sal_Int32 nColSpacing = -1;
+ if (GetProperty(rXPropSet, "TextColumns"))
+ {
+ if (css::uno::Reference<css::text::XTextColumns> xCols{ mAny, css::uno::UNO_QUERY })
+ {
+ nCols = xCols->getColumnCount();
+ if (css::uno::Reference<css::beans::XPropertySet> xProps{ mAny,
+ css::uno::UNO_QUERY })
+ {
+ if (GetProperty(xProps, "AutomaticDistance"))
+ mAny >>= nColSpacing;
+ }
+ }
+ }
+
+ std::optional<OString> isUpright;
+ if (GetProperty(rXPropSet, "InteropGrabBag"))
+ {
+ if (rXPropSet->getPropertySetInfo()->hasPropertyByName("InteropGrabBag"))
+ {
+ bool bUpright = false;
+ sal_Int32 nOldShapeRotation = 0;
+ sal_Int32 nOldTextRotation = 0;
+ uno::Sequence<beans::PropertyValue> 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;
+ }
+ }
+ if (bUpright)
+ {
+ for (const auto& aProp : std::as_const(aGrabBag))
+ {
+ if (aProp.Name == "nShapeRotationAtImport")
+ aProp.Value >>= nOldShapeRotation;
+ else if (aProp.Name == "nTextRotationAtImport")
+ aProp.Value >>= nOldTextRotation;
+ }
+ // So our shape with the textbox in it was not rotated.
+ // Keep upright and make the preRotateAngle 0, it is an attribute
+ // of textBodyPr and must be 0 when upright is true, otherwise
+ // bad rotation happens in MSO.
+ if (nShapeRotateAngle == nOldShapeRotation && nShapeRotateAngle == nOldTextRotation)
+ nTextPreRotateAngle = 0;
+ // So we rotated the shape, in this case lose upright and do
+ // as LO normally does.
+ else
+ isUpright.reset();
+ }
+ }
+ }
+
+ 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)), nLeft != constDefaultLeftRightInset),
+ XML_rIns, sax_fastparser::UseIf(OString::number(oox::drawingml::convertHmmToEmu(nRight)), nRight != constDefaultLeftRightInset),
+ XML_tIns, sax_fastparser::UseIf(OString::number(oox::drawingml::convertHmmToEmu(nTop)), nTop != constDefaultTopBottomInset),
+ XML_bIns, sax_fastparser::UseIf(OString::number(oox::drawingml::convertHmmToEmu(nBottom)), nBottom != constDefaultTopBottomInset),
+ XML_anchor, sVerticalAlignment,
+ XML_anchorCtr, sax_fastparser::UseIf("1", bHorizontalCenter),
+ XML_vert, sWritingMode,
+ XML_upright, isUpright,
+ XML_rot, sax_fastparser::UseIf(oox::drawingml::calcRotationValue((nTextPreRotateAngle + nTextRotateAngle) * 100), (nTextPreRotateAngle + nTextRotateAngle) != 0));
+ 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<double>(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<SdrObjCustomShape*>(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;
+ SvxShapeText* pTextShape = dynamic_cast<SvxShapeText*>(rXIface.get());
+ if (pTextShape)
+ {
+ SdrTextObj* pTextObject = dynamic_cast<SdrTextObj*>(pTextShape->GetSdrObject());
+ if (pTextObject)
+ nFontScale = pTextObject->GetFontScaleY() * 1000;
+ }
+
+ mpFS->singleElementNS(XML_a, XML_normAutofit, XML_fontScale,
+ sax_fastparser::UseIf(OString::number(nFontScale), nFontScale < MAX_SCALE_VAL && nFontScale > 0));
+ }
+ else
+ {
+ // tdf#127030: Only custom shapes obey the TextAutoGrowHeight option.
+ bool bTextAutoGrowHeight = false;
+ if (dynamic_cast<SvxCustomShape*>(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 = dynamic_cast<SdrTextObj*>( pSdrObject );
+ if (pTxtObj && mpTextExport)
+ {
+ std::optional<OutlinerParaObject> 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);
+ }
+ 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<XTextContent> xParagraph;
+ if( aAny >>= xParagraph )
+ {
+ mpFS->startElementNS(XML_a, XML_p);
+ WriteParagraphProperties(xParagraph, rXPropSet, 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<sal_Int32,sal_Int32>> & 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<OString> > lcl_getAdjNames()
+{
+ std::map< OString, std::vector<OString> > 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<OString> > aAdjMap = lcl_getAdjNames();
+ // If there are predefined adj names for this shape type, look them up now.
+ std::vector<OString> aAdjustments;
+ if (aAdjMap.find(pShape) != aAdjMap.end())
+ aAdjustments = aAdjMap[pShape];
+
+ 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<sal_Int32>(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<drawing::EnhancedCustomShapeSegment>& 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<drawing::EnhancedCustomShapeSegment>& 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<Guide>& rGuideList, TextAreaRect& rTextAreaRect)
+{
+ tools::Rectangle aTextAreaLO(rEnhancedCustomShape2d.GetTextRect());
+ tools::Rectangle aLogicRectLO(rEnhancedCustomShape2d.GetLogicRect());
+ if (aTextAreaLO == aLogicRectLO)
+ {
+ rTextAreaRect.left = "l";
+ rTextAreaRect.top = "t";
+ rTextAreaRect.right = "r";
+ rTextAreaRect.bottom = "b";
+ 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";
+ 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";
+ 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";
+ 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";
+ 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<beans::XPropertySet>::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<uno::Sequence<beans::PropertyValue>>(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<beans::PropertyValue> aPathProp;
+ pPathProp->Value >>= aPathProp;
+
+ uno::Sequence<drawing::EnhancedCustomShapeParameterPair> aPairs;
+ uno::Sequence<drawing::EnhancedCustomShapeSegment> aSegments;
+ uno::Sequence<awt::Size> 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<drawing::EnhancedCustomShapeSegment>
+ {
+ { MOVETO, 1 },
+ { LINETO,
+ static_cast<sal_Int16>(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<SdrObjCustomShape&>(rSdrObjCustomShape));
+
+ TextAreaRect aTextAreaRect;
+ std::vector<Guide> aGuideList; // for now only for <a:rect>
+ 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 <a:path>
+ 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<OString> 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<OString> 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<css::drawing::EnhancedCustomShapeParameterPair>& 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 = (fX2 - fX1) / 2.0;
+ const double fHR = (fY2 - fY1) / 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<css::drawing::XShape>& rXShape,
+ const bool bClosed)
+{
+ tools::PolyPolygon aPolyPolygon = EscherPropertyContainer::GetPolyPolygon(rXShape);
+ // In case of Writer, the parent element is <wps:spPr>, and there the
+ // <a:custGeom> 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> xPropertySet(rXShape, UNO_QUERY);
+ uno::Reference<XPropertySetInfo> 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<OString> 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_uInt32 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 ( IsStarSymbol(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 char* sContentType,
+ const char* sRelationshipType,
+ OUString* pRelationshipId )
+{
+ OUString sRelationshipId;
+ if (xParentRelation.is())
+ sRelationshipId = GetFB()->addRelation( xParentRelation, OUString::createFromAscii( sRelationshipType), sRelativeStream );
+ else
+ sRelationshipId = GetFB()->addRelation( OUString::createFromAscii( sRelationshipType ), sRelativeStream );
+
+ if( pRelationshipId )
+ *pRelationshipId = sRelationshipId;
+
+ sax_fastparser::FSHelperPtr p = GetFB()->openFragmentStreamWithSerializer( sFullStream, OUString::createFromAscii( sContentType ) );
+
+ return p;
+}
+
+void DrawingML::WriteFill( const Reference< XPropertySet >& xPropSet )
+{
+ if ( !GetProperty( xPropSet, "FillStyle" ) )
+ return;
+ FillStyle aFillStyle( FillStyle_NONE );
+ xPropSet->getPropertyValue( "FillStyle" ) >>= aFillStyle;
+
+ // map full transparent background to no fill
+ if ( aFillStyle == FillStyle_SOLID && GetProperty( xPropSet, "FillTransparence" ) )
+ {
+ sal_Int16 nVal = 0;
+ xPropSet->getPropertyValue( "FillTransparence" ) >>= nVal;
+ if ( nVal == 100 )
+ aFillStyle = FillStyle_NONE;
+ }
+ if (aFillStyle == FillStyle_SOLID && GetProperty( xPropSet, "FillTransparenceGradient"))
+ {
+ awt::Gradient aTransparenceGradient;
+ mAny >>= aTransparenceGradient;
+ if (aTransparenceGradient.StartColor == 0xffffff && aTransparenceGradient.EndColor == 0xffffff)
+ 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" );
+ 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 <a:*Ref> 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 <a:fontRef>
+ 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<sax_fastparser::FastAttributeList> 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 ).getStr() );
+ }
+ else if( rOuterShdwProp.Name == "dir" )
+ {
+ sal_Int32 nVal = 0;
+ rOuterShdwProp.Value >>= nVal;
+ aOuterShdwAttrList->add( XML_dir, OString::number( nVal ).getStr() );
+ }
+ else if( rOuterShdwProp.Name == "dist" )
+ {
+ sal_Int32 nVal = 0;
+ rOuterShdwProp.Value >>= nVal;
+ aOuterShdwAttrList->add( XML_dist, OString::number( nVal ).getStr() );
+ }
+ else if( rOuterShdwProp.Name == "kx" )
+ {
+ sal_Int32 nVal = 0;
+ rOuterShdwProp.Value >>= nVal;
+ aOuterShdwAttrList->add( XML_kx, OString::number( nVal ).getStr() );
+ }
+ else if( rOuterShdwProp.Name == "ky" )
+ {
+ sal_Int32 nVal = 0;
+ rOuterShdwProp.Value >>= nVal;
+ aOuterShdwAttrList->add( XML_ky, OString::number( nVal ).getStr() );
+ }
+ else if( rOuterShdwProp.Name == "rotWithShape" )
+ {
+ sal_Int32 nVal = 0;
+ rOuterShdwProp.Value >>= nVal;
+ aOuterShdwAttrList->add( XML_rotWithShape, OString::number( nVal ).getStr() );
+ }
+ else if( rOuterShdwProp.Name == "sx" )
+ {
+ sal_Int32 nVal = 0;
+ rOuterShdwProp.Value >>= nVal;
+ aOuterShdwAttrList->add( XML_sx, OString::number( nVal ).getStr() );
+ }
+ else if( rOuterShdwProp.Name == "sy" )
+ {
+ sal_Int32 nVal = 0;
+ rOuterShdwProp.Value >>= nVal;
+ aOuterShdwAttrList->add( XML_sy, OString::number( nVal ).getStr() );
+ }
+ else if( rOuterShdwProp.Name == "rad" )
+ {
+ sal_Int64 nVal = 0;
+ rOuterShdwProp.Value >>= nVal;
+ aOuterShdwAttrList->add( XML_rad, OString::number( nVal ).getStr() );
+ }
+ else if( rOuterShdwProp.Name == "endA" )
+ {
+ sal_Int32 nVal = 0;
+ rOuterShdwProp.Value >>= nVal;
+ aOuterShdwAttrList->add( XML_endA, OString::number( nVal ).getStr() );
+ }
+ else if( rOuterShdwProp.Name == "endPos" )
+ {
+ sal_Int32 nVal = 0;
+ rOuterShdwProp.Value >>= nVal;
+ aOuterShdwAttrList->add( XML_endPos, OString::number( nVal ).getStr() );
+ }
+ else if( rOuterShdwProp.Name == "fadeDir" )
+ {
+ sal_Int32 nVal = 0;
+ rOuterShdwProp.Value >>= nVal;
+ aOuterShdwAttrList->add( XML_fadeDir, OString::number( nVal ).getStr() );
+ }
+ else if( rOuterShdwProp.Name == "stA" )
+ {
+ sal_Int32 nVal = 0;
+ rOuterShdwProp.Value >>= nVal;
+ aOuterShdwAttrList->add( XML_stA, OString::number( nVal ).getStr() );
+ }
+ else if( rOuterShdwProp.Name == "stPos" )
+ {
+ sal_Int32 nVal = 0;
+ rOuterShdwProp.Value >>= nVal;
+ aOuterShdwAttrList->add( XML_stPos, OString::number( nVal ).getStr() );
+ }
+ else if( rOuterShdwProp.Name == "grow" )
+ {
+ sal_Int32 nVal = 0;
+ rOuterShdwProp.Value >>= nVal;
+ aOuterShdwAttrList->add( XML_grow, OString::number( nVal ).getStr() );
+ }
+ }
+ }
+ 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 >(sqrt(dX*dX + dY*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<css::beans::XPropertySet>& rXPropSet)
+{
+ if (!rXPropSet->getPropertySetInfo()->hasPropertyByName("SoftEdgeRadius"))
+ {
+ return;
+ }
+
+ sal_Int32 nRad = 0;
+ rXPropSet->getPropertyValue("SoftEdgeRadius") >>= nRad;
+ if (!nRad)
+ return;
+
+ css::uno::Sequence<css::beans::PropertyValue> aAttribs{ comphelper::makePropertyValue(
+ "rad", oox::drawingml::convertHmmToEmu(nRad)) };
+ css::uno::Sequence<css::beans::PropertyValue> 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<sax_fastparser::FastAttributeList> aCameraAttrList = FastSerializerHelper::createAttrList();
+ rtl::Reference<sax_fastparser::FastAttributeList> 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 ).getStr() );
+ }
+ else if( rEffectProp.Name == "zoom" )
+ {
+ float fVal = 1;
+ rEffectProp.Value >>= fVal;
+ aCameraAttrList->add( XML_zoom, OString::number( fVal * 100000 ).getStr() );
+ }
+ 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 ).getStr() );
+ bCameraRotationPresent = true;
+ }
+ }
+
+ bool bLightRigRotationPresent = false;
+ rtl::Reference<sax_fastparser::FastAttributeList> aLightRigAttrList = FastSerializerHelper::createAttrList();
+ rtl::Reference<sax_fastparser::FastAttributeList> 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 ).getStr() );
+ 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<sax_fastparser::FastAttributeList> aBevelTAttrList = FastSerializerHelper::createAttrList();
+ rtl::Reference<sax_fastparser::FastAttributeList> aBevelBAttrList = FastSerializerHelper::createAttrList();
+ rtl::Reference<sax_fastparser::FastAttributeList> 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 ).getStr() );
+ }
+ 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<sax_fastparser::FastAttributeList> 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 ).getStr() );
+ }
+ 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<sax_fastparser::FastAttributeList> 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 ).getStr() );
+ }
+ 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 )
+{
+ if (!maWdpCache.empty())
+ {
+ std::map<OUString, OUString>::iterator aCachedItem = maWdpCache.top().find(rFileId);
+ if (aCachedItem != maWdpCache.top().end())
+ return OUStringToOString(aCachedItem->second, RTL_TEXTENCODING_UTF8);
+ }
+
+ OUString sFileName = "media/hdphoto" + OUString::number( mnWdpImageCounter.top()++ ) + ".wdp";
+ Reference< XOutputStream > xOutStream = mpFB->openFragmentStream( OUStringBuffer()
+ .appendAscii( GetComponentDir() )
+ .append( "/" + sFileName )
+ .makeStringAndClear(),
+ "image/vnd.ms-photo" );
+ OUString sId;
+ xOutStream->writeBytes( rPictureData );
+ xOutStream->closeOutput();
+
+ sId = mpFB->addRelation( mpFS->getOutputStream(),
+ oox::getRelationship(Relationship::HDPHOTO),
+ OUStringBuffer()
+ .appendAscii( GetRelationCompPrefix() )
+ .append( sFileName )
+ .makeStringAndClear() );
+
+ if (!maWdpCache.empty())
+ maWdpCache.top()[rFileId] = sId;
+
+ return OUStringToOString( sId, RTL_TEXTENCODING_UTF8 );
+}
+
+void DrawingML::WriteDiagram(const css::uno::Reference<css::drawing::XShape>& rXShape, int nDiagramId)
+{
+ uno::Reference<beans::XPropertySet> xPropSet(rXShape, uno::UNO_QUERY);
+
+ uno::Reference<xml::dom::XDocument> dataDom;
+ uno::Reference<xml::dom::XDocument> layoutDom;
+ uno::Reference<xml::dom::XDocument> styleDom;
+ uno::Reference<xml::dom::XDocument> colorDom;
+ uno::Reference<xml::dom::XDocument> drawingDom;
+ uno::Sequence<uno::Sequence<uno::Any>> xDataRelSeq;
+ uno::Sequence<uno::Any> diagramDrawing;
+
+ // retrieve the doms from the GrabBag
+ uno::Sequence<beans::PropertyValue> 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<sax_fastparser::FastAttributeList> pDocPrAttrList
+ = sax_fastparser::FastSerializerHelper::createAttrList();
+ pDocPrAttrList->add(XML_id, OString::number(nDiagramId).getStr());
+ 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<css::drawing::XShapes> xShapes(rXShape, uno::UNO_QUERY);
+ if (xShapes.is() && xShapes->hasElements())
+ {
+ css::uno::Reference<css::drawing::XShape> 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 = OUString::createFromAscii(GetRelationCompPrefix());
+
+ // add data relation
+ OUString dataFileName = "diagrams/data" + OUString::number(nDiagramId) + ".xml";
+ OUString dataRelId =
+ mpFB->addRelation(mpFS->getOutputStream(), oox::getRelationship(Relationship::DIAGRAMDATA),
+ OUStringConcatenation(sRelationCompPrefix + dataFileName));
+
+ // add layout relation
+ OUString layoutFileName = "diagrams/layout" + OUString::number(nDiagramId) + ".xml";
+ OUString layoutRelId = mpFB->addRelation(mpFS->getOutputStream(),
+ oox::getRelationship(Relationship::DIAGRAMLAYOUT),
+ OUStringConcatenation(sRelationCompPrefix + layoutFileName));
+
+ // add style relation
+ OUString styleFileName = "diagrams/quickStyle" + OUString::number(nDiagramId) + ".xml";
+ OUString styleRelId = mpFB->addRelation(mpFS->getOutputStream(),
+ oox::getRelationship(Relationship::DIAGRAMQUICKSTYLE),
+ OUStringConcatenation(sRelationCompPrefix + styleFileName));
+
+ // add color relation
+ OUString colorFileName = "diagrams/colors" + OUString::number(nDiagramId) + ".xml";
+ OUString colorRelId = mpFB->addRelation(mpFS->getOutputStream(),
+ oox::getRelationship(Relationship::DIAGRAMCOLORS),
+ OUStringConcatenation(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),
+ OUStringConcatenation(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<xml::dom::XNodeList> nodeList = dataDom->getElementsByTagNameNS(
+ "http://schemas.microsoft.com/office/drawing/2008/diagram", "dataModelExt");
+
+ // There must be one element only so get it
+ uno::Reference<xml::dom::XNode> node = nodeList->item(0);
+
+ // Get the list of attributes of the node
+ uno::Reference<xml::dom::XNamedNodeMap> nodeMap = node->getAttributes();
+
+ // Get the node with the relId attribute and set its new value
+ uno::Reference<xml::dom::XNode> 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<xml::sax::XSAXSerializable> serializer;
+ uno::Reference<xml::sax::XWriter> writer
+ = xml::sax::Writer::create(comphelper::getProcessComponentContext());
+
+ OUString sDir = OUString::createFromAscii(GetComponentDir());
+
+ // write data file
+ serializer.set(dataDom, uno::UNO_QUERY);
+ uno::Reference<io::XOutputStream> xDataOutputStream = mpFB->openFragmentStream(
+ sDir + "/" + dataFileName,
+ "application/vnd.openxmlformats-officedocument.drawingml.diagramData+xml");
+ writer->setOutputStream(xDataOutputStream);
+ serializer->serialize(uno::Reference<xml::sax::XDocumentHandler>(writer, uno::UNO_QUERY_THROW),
+ uno::Sequence<beans::StringPair>());
+
+ // 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<xml::sax::XDocumentHandler>(writer, uno::UNO_QUERY_THROW),
+ uno::Sequence<beans::StringPair>());
+
+ // 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<xml::sax::XDocumentHandler>(writer, uno::UNO_QUERY_THROW),
+ uno::Sequence<beans::StringPair>());
+
+ // 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<xml::sax::XDocumentHandler>(writer, uno::UNO_QUERY_THROW),
+ uno::Sequence<beans::StringPair>());
+
+ // write drawing file
+ if (!drawingDom.is())
+ return;
+
+ serializer.set(drawingDom, uno::UNO_QUERY);
+ uno::Reference<io::XOutputStream> xDrawingOutputStream = mpFB->openFragmentStream(
+ sDir + "/" + drawingFileName, "application/vnd.ms-office.drawingml.diagramDrawing+xml");
+ writer->setOutputStream(xDrawingOutputStream);
+ serializer->serialize(
+ uno::Reference<xml::sax::XDocumentHandler>(writer, uno::UNO_QUERY_THROW),
+ uno::Sequence<beans::StringPair>());
+
+ // write the associated Images and rels for drawing file
+ uno::Sequence<uno::Sequence<uno::Any>> xDrawingRelSeq;
+ diagramDrawing[1] >>= xDrawingRelSeq;
+ writeDiagramRels(xDrawingRelSeq, xDrawingOutputStream, u"OOXDiagramDrawingRels", nDiagramId);
+}
+
+void DrawingML::writeDiagramRels(const uno::Sequence<uno::Sequence<uno::Any>>& xRelSeq,
+ const uno::Reference<io::XOutputStream>& xOutStream,
+ std::u16string_view sGrabBagProperyName, int nDiagramId)
+{
+ // add image relationships of OOXData, OOXDiagram
+ OUString sType(oox::getRelationship(Relationship::IMAGE));
+ uno::Reference<xml::sax::XWriter> 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<uno::Any> 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<io::XInputStream> 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, OUStringConcatenation("../" + sFragment));
+
+ OUString sDir = OUString::createFromAscii(GetComponentDir());
+ uno::Reference<io::XOutputStream> 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<css::drawing::XShape>& 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<double>(aLocation.TopLeft().getX()) / static_cast<double>(aPageSize.Width);
+ double nYpos = static_cast<double>(aLocation.TopLeft().getY()) / static_cast<double>(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<double>(aLocation.BottomRight().getX()) / static_cast<double>(aPageSize.Width);
+ nYpos = static_cast<double>(aLocation.BottomRight().getY()) / static_cast<double>(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: */