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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 <sal/config.h>
#include <o3tl/string_view.hxx>
#include <svx/EnhancedCustomShape2d.hxx>
#include <svx/EnhancedCustomShapeGeometry.hxx>
#include <svx/EnhancedCustomShapeTypeNames.hxx>
#include <svx/svdoashp.hxx>
#include <svx/svdtrans.hxx>
#include <svx/svdogrp.hxx>
#include <svx/svdopath.hxx>
#include <svx/svdorect.hxx>
#include <svx/svdpage.hxx>
#include <svx/xflclit.hxx>
#include <svx/xfillit0.hxx>
#include <svx/xlineit0.hxx>
#include <svx/xlnstit.hxx>
#include <svx/xlnedit.hxx>
#include <svx/xlnstwit.hxx>
#include <svx/xlnedwit.hxx>
#include <svx/xlnstcit.hxx>
#include <svx/xlnedcit.hxx>
#include <svx/xflgrit.hxx>
#include <svx/xflhtit.hxx>
#include <svx/xbtmpit.hxx>
#include <svx/xhatch.hxx>
#include <svx/sdshitm.hxx>
#include <comphelper/configuration.hxx>
#include <com/sun/star/awt/Size.hpp>
#include <com/sun/star/drawing/EnhancedCustomShapeParameterType.hpp>
#include <com/sun/star/drawing/EnhancedCustomShapeSegmentCommand.hpp>
#include <com/sun/star/drawing/EnhancedCustomShapeAdjustmentValue.hpp>
#include <com/sun/star/drawing/EnhancedCustomShapeSegment.hpp>
#include <com/sun/star/drawing/EnhancedCustomShapeTextFrame.hpp>
#include <basegfx/numeric/ftools.hxx>
#include <basegfx/color/bcolortools.hxx>
#include <basegfx/polygon/b2dpolygon.hxx>
#include <basegfx/polygon/b2dpolygontools.hxx>
#include <basegfx/matrix/b2dhommatrixtools.hxx>
#include <sal/log.hxx>
#include <algorithm>
#include <cstdlib>
#include <string_view>
#include <unordered_set>
using namespace ::com::sun::star;
using namespace ::com::sun::star::uno;
using namespace ::com::sun::star::drawing;
using namespace ::com::sun::star::drawing::EnhancedCustomShapeSegmentCommand;
void EnhancedCustomShape2d::SetEnhancedCustomShapeParameter( EnhancedCustomShapeParameter& rParameter, const sal_Int32 nValue )
{
sal_uInt32 nDat = static_cast<sal_uInt32>(nValue);
sal_Int32 nNewValue = nValue;
// check if this is a special point
if ( ( nDat >> 16 ) == 0x8000 )
{
nNewValue = static_cast<sal_uInt16>(nDat);
rParameter.Type = EnhancedCustomShapeParameterType::EQUATION;
}
else
rParameter.Type = EnhancedCustomShapeParameterType::NORMAL;
rParameter.Value <<= nNewValue;
}
OUString EnhancedCustomShape2d::GetEquation( const sal_uInt16 nFlags, sal_Int32 nP1, sal_Int32 nP2, sal_Int32 nP3 )
{
OUString aEquation;
bool b1Special = ( nFlags & 0x2000 ) != 0;
bool b2Special = ( nFlags & 0x4000 ) != 0;
bool b3Special = ( nFlags & 0x8000 ) != 0;
switch( nFlags & 0xff )
{
case 0 :
case 14 :
{
sal_Int32 nOptimize = 0;
if ( nP1 )
nOptimize |= 1;
if ( nP2 )
nOptimize |= 2;
if ( b1Special )
nOptimize |= 4;
if ( b2Special )
nOptimize |= 8;
switch( nOptimize )
{
case 0 :
break;
case 1 :
case 4 :
case 5 :
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
break;
case 2 :
case 8 :
case 10:
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP2, b2Special );
break;
default :
{
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
aEquation += "+";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP2, b2Special );
}
break;
}
if ( b3Special || nP3 )
{
aEquation += "-";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP3, b3Special );
}
}
break;
case 1 :
{
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
if ( b2Special || ( nP2 != 1 ) )
{
aEquation += "*";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP2, b2Special );
}
if ( b3Special || ( ( nP3 != 1 ) && ( nP3 != 0 ) ) )
{
aEquation += "/";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP3, b3Special );
}
}
break;
case 2 :
{
aEquation += "(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
aEquation += "+";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP2, b2Special );
aEquation += ")/2";
}
break;
case 3 :
{
aEquation += "abs(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
aEquation += ")";
}
break;
case 4 :
{
aEquation += "min(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
aEquation += ",";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP2, b2Special );
aEquation += ")";
}
break;
case 5 :
{
aEquation += "max(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
aEquation += ",";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP2, b2Special );
aEquation += ")";
}
break;
case 6 :
{
aEquation += "if(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
aEquation += ",";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP2, b2Special );
aEquation += ",";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP3, b3Special );
aEquation += ")";
}
break;
case 7 :
{
aEquation += "sqrt(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
aEquation += "*";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
aEquation += "+";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP2, b2Special );
aEquation += "*";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP2, b2Special );
aEquation += "+";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP3, b3Special );
aEquation += "*";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP3, b3Special );
aEquation += ")";
}
break;
case 8 :
{
aEquation += "atan2(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP2, b2Special );
aEquation += ",";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
aEquation += ")/(pi/180)";
}
break;
case 9 :
{
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
aEquation += "*sin(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP2, b2Special );
aEquation += "*(pi/180))";
}
break;
case 10 :
{
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
aEquation += "*cos(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP2, b2Special );
aEquation += "*(pi/180))";
}
break;
case 11 :
{
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
aEquation += "*cos(atan2(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP3, b3Special );
aEquation += ",";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP2, b2Special );
aEquation += "))";
}
break;
case 12 :
{
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
aEquation += "*sin(atan2(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP3, b3Special );
aEquation += ",";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP2, b2Special );
aEquation += "))";
}
break;
case 13 :
{
aEquation += "sqrt(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
aEquation += ")";
}
break;
case 15 :
{
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP3, b3Special );
aEquation += "*sqrt(1-(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
aEquation += "/";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP2, b2Special );
aEquation += ")"
"*(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
aEquation += "/";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP2, b2Special );
aEquation += "))";
}
break;
case 16 :
{
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
aEquation += "*tan(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP2, b2Special );
aEquation += ")";
}
break;
case 0x80 :
{
aEquation += "sqrt(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP3, b3Special );
aEquation += "*";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP3, b3Special );
aEquation += "-";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
aEquation += "*";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
aEquation += ")";
}
break;
case 0x81 :
{
aEquation += "(cos(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP3, b3Special );
aEquation += "*(pi/180))*(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
aEquation += "-10800)+sin(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP3, b3Special );
aEquation += "*(pi/180))*(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP2, b2Special );
aEquation += "-10800))+10800";
}
break;
case 0x82 :
{
aEquation += "-(sin(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP3, b3Special );
aEquation += "*(pi/180))*(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP1, b1Special );
aEquation += "-10800)-cos(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP3, b3Special );
aEquation += "*(pi/180))*(";
EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( aEquation, nP2, b2Special );
aEquation += "-10800))+10800";
}
break;
}
return aEquation;
}
void EnhancedCustomShape2d::AppendEnhancedCustomShapeEquationParameter( OUString& rParameter, const sal_Int32 nPara, const bool bIsSpecialValue )
{
if ( bIsSpecialValue )
{
if ( nPara & 0x400 )
{
rParameter += "?";
rParameter += OUString::number( nPara & 0xff );
rParameter += " ";
}
else
{
switch( nPara )
{
case DFF_Prop_adjustValue :
case DFF_Prop_adjust2Value :
case DFF_Prop_adjust3Value :
case DFF_Prop_adjust4Value :
case DFF_Prop_adjust5Value :
case DFF_Prop_adjust6Value :
case DFF_Prop_adjust7Value :
case DFF_Prop_adjust8Value :
case DFF_Prop_adjust9Value :
case DFF_Prop_adjust10Value :
{
rParameter += "$";
rParameter += OUString::number( nPara - DFF_Prop_adjustValue );
rParameter += " ";
}
break;
case DFF_Prop_geoLeft :
{
rParameter += "left";
}
break;
case DFF_Prop_geoTop :
{
rParameter += "top";
}
break;
case DFF_Prop_geoRight :
{
rParameter += "right";
}
break;
case DFF_Prop_geoBottom :
{
rParameter += "bottom";
}
break;
}
}
}
else
{
rParameter += OUString::number( nPara );
}
}
void EnhancedCustomShape2d::SetEnhancedCustomShapeHandleParameter( EnhancedCustomShapeParameter& rParameter, const sal_Int32 nPara, const bool bIsSpecialValue, bool bHorz )
{
sal_Int32 nValue = 0;
if ( bIsSpecialValue )
{
if ( ( nPara >= 0x100 ) && ( nPara <= 0x107 ) )
{
nValue = nPara & 0xff;
rParameter.Type = EnhancedCustomShapeParameterType::ADJUSTMENT;
}
else if ( ( nPara >= 3 ) && ( nPara <= 0x82 ) )
{
nValue = nPara - 3;
rParameter.Type = EnhancedCustomShapeParameterType::EQUATION;
}
else if ( nPara == 0 )
{
nValue = 0;
if ( bHorz )
rParameter.Type = EnhancedCustomShapeParameterType::LEFT;
else
rParameter.Type = EnhancedCustomShapeParameterType::TOP;
}
else if ( nPara == 1 )
{
nValue = 0;
if ( bHorz )
rParameter.Type = EnhancedCustomShapeParameterType::RIGHT;
else
rParameter.Type = EnhancedCustomShapeParameterType::BOTTOM;
}
else if ( nPara == 2 ) // means to be centered, but should not be
{ // used in our implementation
nValue = 5600;
rParameter.Type = EnhancedCustomShapeParameterType::NORMAL;
}
else
{
nValue = nPara;
rParameter.Type = EnhancedCustomShapeParameterType::NORMAL;
}
}
else
{
nValue = nPara;
rParameter.Type = EnhancedCustomShapeParameterType::NORMAL;
}
rParameter.Value <<= nValue;
}
bool EnhancedCustomShape2d::ConvertSequenceToEnhancedCustomShape2dHandle(
const css::beans::PropertyValues& rHandleProperties,
EnhancedCustomShape2d::Handle& rDestinationHandle )
{
bool bRetValue = false;
if ( rHandleProperties.hasElements() )
{
rDestinationHandle.nFlags = HandleFlags::NONE;
for ( const css::beans::PropertyValue& rPropVal : rHandleProperties )
{
if ( rPropVal.Name == "Position" )
{
if ( rPropVal.Value >>= rDestinationHandle.aPosition )
bRetValue = true;
}
else if ( rPropVal.Name == "MirroredX" )
{
bool bMirroredX;
if ( rPropVal.Value >>= bMirroredX )
{
if ( bMirroredX )
rDestinationHandle.nFlags |= HandleFlags::MIRRORED_X;
}
}
else if ( rPropVal.Name == "MirroredY" )
{
bool bMirroredY;
if ( rPropVal.Value >>= bMirroredY )
{
if ( bMirroredY )
rDestinationHandle.nFlags |= HandleFlags::MIRRORED_Y;
}
}
else if ( rPropVal.Name == "Switched" )
{
bool bSwitched;
if ( rPropVal.Value >>= bSwitched )
{
if ( bSwitched )
rDestinationHandle.nFlags |= HandleFlags::SWITCHED;
}
}
else if ( rPropVal.Name == "Polar" )
{
if ( rPropVal.Value >>= rDestinationHandle.aPolar )
rDestinationHandle.nFlags |= HandleFlags::POLAR;
}
else if ( rPropVal.Name == "RefX" )
{
if ( rPropVal.Value >>= rDestinationHandle.nRefX )
rDestinationHandle.nFlags |= HandleFlags::REFX;
}
else if ( rPropVal.Name == "RefY" )
{
if ( rPropVal.Value >>= rDestinationHandle.nRefY )
rDestinationHandle.nFlags |= HandleFlags::REFY;
}
else if ( rPropVal.Name == "RefAngle" )
{
if ( rPropVal.Value >>= rDestinationHandle.nRefAngle )
rDestinationHandle.nFlags |= HandleFlags::REFANGLE;
}
else if ( rPropVal.Name == "RefR" )
{
if ( rPropVal.Value >>= rDestinationHandle.nRefR )
rDestinationHandle.nFlags |= HandleFlags::REFR;
}
else if ( rPropVal.Name == "RadiusRangeMinimum" )
{
if ( rPropVal.Value >>= rDestinationHandle.aRadiusRangeMinimum )
rDestinationHandle.nFlags |= HandleFlags::RADIUS_RANGE_MINIMUM;
}
else if ( rPropVal.Name == "RadiusRangeMaximum" )
{
if ( rPropVal.Value >>= rDestinationHandle.aRadiusRangeMaximum )
rDestinationHandle.nFlags |= HandleFlags::RADIUS_RANGE_MAXIMUM;
}
else if ( rPropVal.Name == "RangeXMinimum" )
{
if ( rPropVal.Value >>= rDestinationHandle.aXRangeMinimum )
rDestinationHandle.nFlags |= HandleFlags::RANGE_X_MINIMUM;
}
else if ( rPropVal.Name == "RangeXMaximum" )
{
if ( rPropVal.Value >>= rDestinationHandle.aXRangeMaximum )
rDestinationHandle.nFlags |= HandleFlags::RANGE_X_MAXIMUM;
}
else if ( rPropVal.Name == "RangeYMinimum" )
{
if ( rPropVal.Value >>= rDestinationHandle.aYRangeMinimum )
rDestinationHandle.nFlags |= HandleFlags::RANGE_Y_MINIMUM;
}
else if ( rPropVal.Name == "RangeYMaximum" )
{
if ( rPropVal.Value >>= rDestinationHandle.aYRangeMaximum )
rDestinationHandle.nFlags |= HandleFlags::RANGE_Y_MAXIMUM;
}
}
}
return bRetValue;
}
void EnhancedCustomShape2d::ApplyShapeAttributes( const SdrCustomShapeGeometryItem& rGeometryItem )
{
// AdjustmentValues
static constexpr OUStringLiteral sAdjustmentValues( u"AdjustmentValues" );
const Any* pAny = rGeometryItem.GetPropertyValueByName( sAdjustmentValues );
if ( pAny )
*pAny >>= m_seqAdjustmentValues;
// Coordsize
static constexpr OUStringLiteral sViewBox( u"ViewBox" );
const Any* pViewBox = rGeometryItem.GetPropertyValueByName( sViewBox );
css::awt::Rectangle aViewBox;
if ( pViewBox && (*pViewBox >>= aViewBox ) )
{
m_nCoordLeft = aViewBox.X;
m_nCoordTop = aViewBox.Y;
m_nCoordWidthG = aViewBox.Width;
if (m_nCoordWidthG < 0)
m_nCoordWidthG = o3tl::saturating_toggle_sign(m_nCoordWidthG);
m_nCoordHeightG = aViewBox.Height;
if (m_nCoordHeightG < 0)
m_nCoordHeightG = o3tl::saturating_toggle_sign(m_nCoordHeightG);
}
static constexpr OUString sPath( u"Path"_ustr );
static constexpr OUStringLiteral sCoordinates( u"Coordinates" );
static constexpr OUStringLiteral sGluePoints( u"GluePoints" );
static constexpr OUStringLiteral sGluePointLeavingDirections( u"GluePointLeavingDirections" );
static constexpr OUStringLiteral sSegments( u"Segments" );
static constexpr OUStringLiteral sSubViewSize( u"SubViewSize" );
static constexpr OUStringLiteral sStretchX( u"StretchX" );
static constexpr OUStringLiteral sStretchY( u"StretchY" );
static constexpr OUStringLiteral sTextFrames( u"TextFrames" );
static constexpr OUStringLiteral sEquations( u"Equations" );
static constexpr OUStringLiteral sHandles( u"Handles" );
// Path/Coordinates
pAny = rGeometryItem.GetPropertyValueByName( sPath, sCoordinates );
if ( pAny )
*pAny >>= m_seqCoordinates;
// Path/GluePoints
pAny = rGeometryItem.GetPropertyValueByName( sPath, sGluePoints );
if ( pAny )
*pAny >>= m_seqGluePoints;
// Path/GluePointLeavingDirections
pAny = rGeometryItem.GetPropertyValueByName(sPath, sGluePointLeavingDirections);
if (pAny)
*pAny >>= m_seqGluePointLeavingDirections;
// Path/Segments
pAny = rGeometryItem.GetPropertyValueByName( sPath, sSegments );
if ( pAny )
*pAny >>= m_seqSegments;
// Path/SubViewSize
pAny = rGeometryItem.GetPropertyValueByName( sPath, sSubViewSize );
if ( pAny )
*pAny >>= m_seqSubViewSize;
// Path/StretchX
pAny = rGeometryItem.GetPropertyValueByName( sPath, sStretchX );
if ( pAny )
{
sal_Int32 nStretchX = 0;
if ( *pAny >>= nStretchX )
m_nXRef = nStretchX;
}
// Path/StretchY
pAny = rGeometryItem.GetPropertyValueByName( sPath, sStretchY );
if ( pAny )
{
sal_Int32 nStretchY = 0;
if ( *pAny >>= nStretchY )
m_nYRef = nStretchY;
}
// Path/TextFrames
pAny = rGeometryItem.GetPropertyValueByName( sPath, sTextFrames );
if ( pAny )
*pAny >>= m_seqTextFrames;
// Equations
pAny = rGeometryItem.GetPropertyValueByName( sEquations );
if ( pAny )
*pAny >>= m_seqEquations;
// Handles
pAny = rGeometryItem.GetPropertyValueByName( sHandles );
if ( pAny )
*pAny >>= m_seqHandles;
}
EnhancedCustomShape2d::~EnhancedCustomShape2d()
{
}
void EnhancedCustomShape2d::SetPathSize( sal_Int32 nIndex )
{
sal_Int32 nWidth = 0;
sal_Int32 nHeight = 0;
if ( m_seqSubViewSize.hasElements() && nIndex < m_seqSubViewSize.getLength() ) {
nWidth = m_seqSubViewSize[ nIndex ].Width;
nHeight = m_seqSubViewSize[ nIndex ].Height;
SAL_INFO(
"svx",
"set subpath " << nIndex << " size: " << nWidth << " x "
<< nHeight);
}
if ( nWidth && nHeight ) {
m_nCoordWidth = nWidth;
m_nCoordHeight = nHeight;
} else {
m_nCoordWidth = m_nCoordWidthG;
m_nCoordHeight = m_nCoordHeightG;
}
m_fXScale = m_nCoordWidth == 0 ? 0.0 : static_cast<double>(m_aLogicRect.GetWidth()) / static_cast<double>(m_nCoordWidth);
m_fYScale = m_nCoordHeight == 0 ? 0.0 : static_cast<double>(m_aLogicRect.GetHeight()) / static_cast<double>(m_nCoordHeight);
if ( m_bOOXMLShape )
{
SAL_INFO(
"svx",
"ooxml shape, path width: " << m_nCoordWidth << " height: "
<< m_nCoordHeight);
// Try to set up scale separately, if given only width or height
// This is possible case in OOXML when only width or height is non-zero
if ( m_nCoordWidth == 0 )
{
if ( nWidth )
m_fXScale = static_cast<double>(m_aLogicRect.GetWidth()) / static_cast<double>(nWidth);
else
m_fXScale = 1.0;
}
if ( m_nCoordHeight == 0 )
{
if ( nHeight )
m_fYScale = static_cast<double>(m_aLogicRect.GetHeight()) / static_cast<double>(nHeight);
else
m_fYScale = 1.0;
}
}
if ( static_cast<sal_uInt32>(m_nXRef) != 0x80000000 && m_aLogicRect.GetHeight() )
{
m_fXRatio = static_cast<double>(m_aLogicRect.GetWidth()) / static_cast<double>(m_aLogicRect.GetHeight());
if ( m_fXRatio > 1 )
m_fXScale /= m_fXRatio;
else
m_fXRatio = 1.0;
}
else
m_fXRatio = 1.0;
if ( static_cast<sal_uInt32>(m_nYRef) != 0x80000000 && m_aLogicRect.GetWidth() )
{
m_fYRatio = static_cast<double>(m_aLogicRect.GetHeight()) / static_cast<double>(m_aLogicRect.GetWidth());
if ( m_fYRatio > 1 )
m_fYScale /= m_fYRatio;
else
m_fYRatio = 1.0;
}
else
m_fYRatio = 1.0;
if (comphelper::IsFuzzing())
{
if (fabs(m_fXScale) > 100000)
{
SAL_WARN("svx", "unreasonable X Scale of: " << m_fXScale);
m_fXScale = 1.0;
}
if (fabs(m_fYScale) > 100000)
{
SAL_WARN("svx", "unreasonable Y Scale of: " << m_fYScale);
m_fYScale = 1.0;
}
}
}
EnhancedCustomShape2d::EnhancedCustomShape2d(SdrObjCustomShape& rSdrObjCustomShape)
: SfxItemSet ( rSdrObjCustomShape.GetMergedItemSet() ),
mrSdrObjCustomShape ( rSdrObjCustomShape ),
m_eSpType ( mso_sptNil ),
m_nCoordLeft ( 0 ),
m_nCoordTop ( 0 ),
m_nCoordWidthG ( 21600 ),
m_nCoordHeightG ( 21600 ),
m_bOOXMLShape ( false ),
m_nXRef ( 0x80000000 ),
m_nYRef ( 0x80000000 ),
m_nColorData ( 0 ),
m_bFilled ( rSdrObjCustomShape.GetMergedItem( XATTR_FILLSTYLE ).GetValue() != drawing::FillStyle_NONE ),
m_bStroked ( rSdrObjCustomShape.GetMergedItem( XATTR_LINESTYLE ).GetValue() != drawing::LineStyle_NONE ),
m_bFlipH ( false ),
m_bFlipV ( false )
{
// bTextFlow needs to be set before clearing the TextDirection Item
ClearItem( SDRATTR_TEXTDIRECTION ); //SJ: vertical writing is not required, by removing this item no outliner is created
// #i105323# For 2D AutoShapes, the shadow attribute does not need to be applied to any
// of the constructed helper SdrObjects. This would lead to problems since the shadow
// of one helper object would fall on one helper object behind it (e.g. with the
// eyes of the smiley shape). This is not wanted; instead a single shadow 'behind'
// the AutoShape visualisation is wanted. This is done with primitive functionality
// now in SdrCustomShapePrimitive2D::create2DDecomposition, but only for 2D objects
// (see there and in EnhancedCustomShape3d::Create3DObject to read more).
// This exception may be removed later when AutoShapes will create primitives directly.
// So, currently remove the ShadowAttribute from the ItemSet to not apply it to any
// 2D helper shape.
ClearItem(SDRATTR_SHADOW);
Point aP( mrSdrObjCustomShape.GetSnapRect().Center() );
Size aS( mrSdrObjCustomShape.GetLogicRect().GetSize() );
aP.AdjustX( -(aS.Width() / 2) );
aP.AdjustY( -(aS.Height() / 2) );
m_aLogicRect = tools::Rectangle( aP, aS );
OUString sShapeType;
const SdrCustomShapeGeometryItem& rGeometryItem(mrSdrObjCustomShape.GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY ));
static constexpr OUStringLiteral sType = u"Type";
const Any* pAny = rGeometryItem.GetPropertyValueByName( sType );
if ( pAny ) {
*pAny >>= sShapeType;
m_bOOXMLShape = sShapeType.startsWith("ooxml-");
SAL_INFO("svx", "shape type: " << sShapeType << " " << m_bOOXMLShape);
}
m_eSpType = EnhancedCustomShapeTypeNames::Get( sShapeType );
static constexpr OUStringLiteral sMirroredX = u"MirroredX";
static constexpr OUStringLiteral sMirroredY = u"MirroredY";
pAny = rGeometryItem.GetPropertyValueByName( sMirroredX );
if ( pAny )
*pAny >>= m_bFlipH;
pAny = rGeometryItem.GetPropertyValueByName( sMirroredY );
if ( pAny )
*pAny >>= m_bFlipV;
m_nRotateAngle = Degree100(static_cast<sal_Int32>(mrSdrObjCustomShape.GetObjectRotation() * 100.0));
/*const sal_Int32* pDefData =*/ ApplyShapeAttributes( rGeometryItem );
SetPathSize();
switch( m_eSpType )
{
case mso_sptCan : m_nColorData = 0x20400000; break;
case mso_sptCube : m_nColorData = 0x302e0000; break;
case mso_sptActionButtonBlank : m_nColorData = 0x502ce400; break;
case mso_sptActionButtonHome : m_nColorData = 0x702ce4ce; break;
case mso_sptActionButtonHelp : m_nColorData = 0x602ce4c0; break;
case mso_sptActionButtonInformation : m_nColorData = 0x702ce4c5; break;
case mso_sptActionButtonBackPrevious : m_nColorData = 0x602ce4c0; break;
case mso_sptActionButtonForwardNext : m_nColorData = 0x602ce4c0; break;
case mso_sptActionButtonBeginning : m_nColorData = 0x602ce4c0; break;
case mso_sptActionButtonEnd : m_nColorData = 0x602ce4c0; break;
case mso_sptActionButtonReturn : m_nColorData = 0x602ce4c0; break;
case mso_sptActionButtonDocument : m_nColorData = 0x702ce4ec; break;
case mso_sptActionButtonSound : m_nColorData = 0x602ce4c0; break;
case mso_sptActionButtonMovie : m_nColorData = 0x602ce4c0; break;
case mso_sptBevel : m_nColorData = 0x502ce400; break;
case mso_sptFoldedCorner : m_nColorData = 0x20e00000; break;
case mso_sptSmileyFace : m_nColorData = 0x20e00000; break;
case mso_sptNil :
{
// Because calculation method has changed in #i102797 original color encoding for
// Octagon Bevel and Diamond Bevel can no longer be used. We keep the color coding
// only for self-created shapes, as authors may have already considered the change.
// We use ColorData compatible to OOXML.
if (sShapeType == "col-60da8460") // Octagon Bevel
{
m_nColorData = 0x60ecc240;
}
else if (sShapeType == "col-502ad400") // Diamond Bevel
{
m_nColorData = 0x502ce400;
}
else if (sShapeType.getLength() > 4 && sShapeType.match( "col-" ))
{
m_nColorData = o3tl::toUInt32(sShapeType.subView( 4 ), 16);
}
}
break;
case mso_sptCurvedLeftArrow :
case mso_sptCurvedRightArrow :
case mso_sptCurvedUpArrow :
case mso_sptCurvedDownArrow : m_nColorData = 0x20d00000; break;
case mso_sptRibbon2 : m_nColorData = 0x30ee0000; break;
case mso_sptRibbon : m_nColorData = 0x30ee0000; break;
case mso_sptEllipseRibbon2 : m_nColorData = 0x30ee0000; break;
case mso_sptEllipseRibbon : m_nColorData = 0x30ee0000; break;
case mso_sptVerticalScroll : m_nColorData = 0x30ee0000; break;
case mso_sptHorizontalScroll : m_nColorData = 0x30ee0000; break;
default:
break;
}
sal_Int32 nLength = m_seqEquations.getLength();
if ( !nLength )
return;
m_vEquationResults.resize( nLength );
}
using EnhancedCustomShape::ExpressionFunct;
double EnhancedCustomShape2d::GetEnumFunc( const ExpressionFunct eFunc ) const
{
double fRet = 0.0;
switch( eFunc )
{
case ExpressionFunct::EnumPi : fRet = M_PI; break;
case ExpressionFunct::EnumLeft : fRet = static_cast<double>(m_nCoordLeft); break;
case ExpressionFunct::EnumTop : fRet = static_cast<double>(m_nCoordTop); break;
case ExpressionFunct::EnumRight : fRet = (static_cast<double>(m_nCoordLeft) + static_cast<double>(m_nCoordWidth)) * m_fXRatio; break;
case ExpressionFunct::EnumBottom : fRet = (static_cast<double>(m_nCoordTop) + static_cast<double>(m_nCoordHeight)) * m_fYRatio; break;
case ExpressionFunct::EnumXStretch : fRet = m_nXRef; break;
case ExpressionFunct::EnumYStretch : fRet = m_nYRef; break;
case ExpressionFunct::EnumHasStroke : fRet = m_bStroked ? 1.0 : 0.0; break;
case ExpressionFunct::EnumHasFill : fRet = m_bFilled ? 1.0 : 0.0; break;
case ExpressionFunct::EnumWidth : fRet = m_nCoordWidth; break;
case ExpressionFunct::EnumHeight : fRet = m_nCoordHeight; break;
case ExpressionFunct::EnumLogWidth : fRet = m_aLogicRect.GetWidth(); break;
case ExpressionFunct::EnumLogHeight : fRet = m_aLogicRect.GetHeight(); break;
default: break;
}
return fRet;
}
double EnhancedCustomShape2d::GetAdjustValueAsDouble( const sal_Int32 nIndex ) const
{
double fNumber = 0.0;
if ( nIndex < m_seqAdjustmentValues.getLength() )
{
if ( m_seqAdjustmentValues[ nIndex ].Value.getValueTypeClass() == TypeClass_DOUBLE )
m_seqAdjustmentValues[ nIndex ].Value >>= fNumber;
else
{
sal_Int32 nNumber = 0;
m_seqAdjustmentValues[ nIndex ].Value >>= nNumber;
fNumber = static_cast<double>(nNumber);
}
}
return fNumber;
}
double EnhancedCustomShape2d::GetEquationValueAsDouble( const sal_Int32 nIndex ) const
{
double fNumber = 0.0;
static sal_uInt32 nLevel = 0;
if ( nIndex >= static_cast<sal_Int32>(m_vEquationResults.size()) )
return fNumber;
if (!m_vEquationResults[nIndex].bParsed)
{
m_vEquationResults[nIndex].bParsed = true;
try
{
m_vEquationResults[nIndex].xNode = EnhancedCustomShape::FunctionParser::parseFunction( m_seqEquations[ nIndex ], *this );
}
catch ( EnhancedCustomShape::ParseError& )
{
SAL_INFO(
"svx",
"error: equation number: " << nIndex << ", parser failed ("
<< m_seqEquations[nIndex] << ")");
}
}
if ( m_vEquationResults[ nIndex ].xNode )
{
nLevel ++;
try
{
if ( m_vEquationResults[ nIndex ].bReady )
fNumber = m_vEquationResults[ nIndex ].fValue;
else {
// cast to non const, so that we can optimize by caching
// equation results, without changing all the const in the stack
struct EquationResult &aResult = const_cast<EnhancedCustomShape2d*>(this)->m_vEquationResults[ nIndex ];
fNumber = aResult.fValue = (*m_vEquationResults[ nIndex ].xNode)();
aResult.bReady = true;
SAL_INFO("svx", "equation " << nLevel << " (level: " << m_seqEquations[nIndex] << "): "
<< fNumber << " --> " << 180.0*fNumber/10800000.0);
}
if ( !std::isfinite( fNumber ) )
fNumber = 0.0;
}
catch ( ... )
{
SAL_WARN("svx", "EnhancedCustomShape2d::GetEquationValueAsDouble failed");
}
nLevel --;
}
SAL_INFO(
"svx",
"?" << nIndex << " --> " << fNumber << " (angle: "
<< 180.0*fNumber/10800000.0 << ")");
return fNumber;
}
bool EnhancedCustomShape2d::SetAdjustValueAsDouble( const double& rValue, const sal_Int32 nIndex )
{
bool bRetValue = false;
if ( nIndex < m_seqAdjustmentValues.getLength() )
{
// updating our local adjustment sequence
auto pseqAdjustmentValues = m_seqAdjustmentValues.getArray();
pseqAdjustmentValues[ nIndex ].Value <<= rValue;
pseqAdjustmentValues[ nIndex ].State = css::beans::PropertyState_DIRECT_VALUE;
bRetValue = true;
}
return bRetValue;
}
basegfx::B2DPoint EnhancedCustomShape2d::GetPointAsB2DPoint( const css::drawing::EnhancedCustomShapeParameterPair& rPair,
const bool bScale, const bool bReplaceGeoSize ) const
{
double fValX, fValY;
// width
GetParameter(fValX, rPair.First, bReplaceGeoSize, false);
fValX -= m_nCoordLeft;
if (bScale)
{
fValX *= m_fXScale;
}
// height
GetParameter(fValY, rPair.Second, false, bReplaceGeoSize);
fValY -= m_nCoordTop;
if (bScale)
{
fValY *= m_fYScale;
}
return basegfx::B2DPoint(fValX,fValY);
}
Point EnhancedCustomShape2d::GetPoint( const css::drawing::EnhancedCustomShapeParameterPair& rPair,
const bool bScale, const bool bReplaceGeoSize ) const
{
basegfx::B2DPoint aPoint(GetPointAsB2DPoint(rPair, bScale, bReplaceGeoSize));
return Point(static_cast<tools::Long>(aPoint.getX()), static_cast<tools::Long>(aPoint.getY()));
}
void EnhancedCustomShape2d::GetParameter( double& rRetValue, const EnhancedCustomShapeParameter& rParameter,
const bool bReplaceGeoWidth, const bool bReplaceGeoHeight ) const
{
rRetValue = 0.0;
switch ( rParameter.Type )
{
case EnhancedCustomShapeParameterType::ADJUSTMENT :
{
sal_Int32 nAdjustmentIndex = 0;
if ( rParameter.Value >>= nAdjustmentIndex )
{
rRetValue = GetAdjustValueAsDouble( nAdjustmentIndex );
}
}
break;
case EnhancedCustomShapeParameterType::EQUATION :
{
sal_Int32 nEquationIndex = 0;
if ( rParameter.Value >>= nEquationIndex )
{
rRetValue = GetEquationValueAsDouble( nEquationIndex );
}
}
break;
case EnhancedCustomShapeParameterType::NORMAL :
{
if ( rParameter.Value.getValueTypeClass() == TypeClass_DOUBLE )
{
double fValue(0.0);
if ( rParameter.Value >>= fValue )
{
rRetValue = fValue;
}
}
else
{
sal_Int32 nValue = 0;
if ( rParameter.Value >>= nValue )
{
rRetValue = nValue;
if ( bReplaceGeoWidth && ( nValue == m_nCoordWidth ) )
rRetValue *= m_fXRatio;
else if ( bReplaceGeoHeight && ( nValue == m_nCoordHeight ) )
rRetValue *= m_fYRatio;
}
}
}
break;
case EnhancedCustomShapeParameterType::LEFT :
case EnhancedCustomShapeParameterType::TOP :
{
rRetValue = 0.0;
}
break;
case EnhancedCustomShapeParameterType::RIGHT :
{
rRetValue = m_nCoordWidth;
}
break;
case EnhancedCustomShapeParameterType::BOTTOM :
{
rRetValue = m_nCoordHeight;
}
break;
}
}
// nLumDat 28-31 = number of luminance entries in nLumDat
// nLumDat 27-24 = nLumDatEntry 0
// nLumDat 23-20 = nLumDatEntry 1 ...
// each 4bit entry is to be interpreted as a 10 percent signed luminance changing
sal_Int32 EnhancedCustomShape2d::GetLuminanceChange( sal_uInt32 nIndex ) const
{
const sal_uInt32 nCount = m_nColorData >> 28;
if ( !nCount )
return 0;
if ( nIndex >= nCount )
nIndex = nCount - 1;
const sal_Int32 nLumDat = m_nColorData << ( ( 1 + nIndex ) << 2 );
return ( nLumDat >> 28 ) * 10;
}
Color EnhancedCustomShape2d::GetColorData( const Color& rFillColor, sal_uInt32 nIndex, double dBrightness ) const
{
if ( m_bOOXMLShape || ( mso_sptMin == m_eSpType /* ODF "non-primitive" */ ) )
{ //do LibreOffice way, using dBrightness
if ( dBrightness == 0.0)
{
return rFillColor;
}
else
{
if (dBrightness >=0.0)
{ //lighten, blending with white
return Color( static_cast<sal_uInt8>(static_cast< sal_Int32 >( std::clamp(rFillColor.GetRed() * (1.0-dBrightness) + dBrightness * 255.0, 0.0, 255.0) )),
static_cast<sal_uInt8>(static_cast< sal_Int32 >( std::clamp(rFillColor.GetGreen() * (1.0-dBrightness) + dBrightness * 255.0, 0.0, 255.0) )),
static_cast<sal_uInt8>(static_cast< sal_Int32 >( std::clamp(rFillColor.GetBlue() * (1.0-dBrightness) + dBrightness * 255.0, 0.0, 255.0) )) );
}
else
{ //darken (indicated by negative sign), blending with black
return Color( static_cast<sal_uInt8>(static_cast< sal_Int32 >( std::clamp(rFillColor.GetRed() * (1.0+dBrightness), 0.0, 255.0) )),
static_cast<sal_uInt8>(static_cast< sal_Int32 >( std::clamp(rFillColor.GetGreen() * (1.0+dBrightness), 0.0, 255.0) )),
static_cast<sal_uInt8>(static_cast< sal_Int32 >( std::clamp(rFillColor.GetBlue() * (1.0+dBrightness), 0.0, 255.0) )) );
}
}
}
else
{ //do OpenOffice way, using nColorData
const sal_Int32 nLuminance = GetLuminanceChange(nIndex);
if( !nLuminance )
return rFillColor;
basegfx::BColor aHSVColor=
basegfx::utils::rgb2hsv(
basegfx::BColor(rFillColor.GetRed()/255.0,
rFillColor.GetGreen()/255.0,
rFillColor.GetBlue()/255.0));
if( nLuminance > 0 )
{
aHSVColor.setGreen(
aHSVColor.getGreen() * (1.0-nLuminance/100.0));
aHSVColor.setBlue(
nLuminance/100.0 +
(1.0-nLuminance/100.0)*aHSVColor.getBlue());
}
else if( nLuminance < 0 )
{
aHSVColor.setBlue(
(1.0+nLuminance/100.0)*aHSVColor.getBlue());
}
aHSVColor = basegfx::utils::hsv2rgb(aHSVColor);
return Color( static_cast<sal_uInt8>(static_cast< sal_Int32 >( std::clamp(aHSVColor.getRed(),0.0,1.0) * 255.0 + 0.5 )),
static_cast<sal_uInt8>(static_cast< sal_Int32 >( std::clamp(aHSVColor.getGreen(),0.0,1.0) * 255.0 + 0.5 )),
static_cast<sal_uInt8>(static_cast< sal_Int32 >( std::clamp(aHSVColor.getBlue(),0.0,1.0) * 255.0 + 0.5 )) );
}
}
tools::Rectangle EnhancedCustomShape2d::GetTextRect() const
{
if ( !m_seqTextFrames.hasElements() )
return m_aLogicRect;
sal_Int32 nIndex = 0;
Point aTopLeft( GetPoint( m_seqTextFrames[ nIndex ].TopLeft, !m_bOOXMLShape, true ) );
Point aBottomRight( GetPoint( m_seqTextFrames[ nIndex ].BottomRight, !m_bOOXMLShape, true ) );
tools::Rectangle aRect( aTopLeft, aBottomRight );
if ( m_bFlipH )
{
aRect.SetLeft(m_aLogicRect.GetWidth() - 1 - aBottomRight.X());
aRect.SetRight( m_aLogicRect.GetWidth() - 1 - aTopLeft.X());
}
if ( m_bFlipV )
{
aRect.SetTop(m_aLogicRect.GetHeight() - 1 - aBottomRight.Y());
aRect.SetBottom(m_aLogicRect.GetHeight() - 1 - aTopLeft.Y());
}
SAL_INFO("svx", aRect.GetWidth() << " x " << aRect.GetHeight());
if( aRect.GetWidth() <= 1 || aRect.GetHeight() <= 1 )
return m_aLogicRect;
aRect.Move( m_aLogicRect.Left(), m_aLogicRect.Top() );
aRect.Normalize();
return aRect;
}
sal_uInt32 EnhancedCustomShape2d::GetHdlCount() const
{
return m_seqHandles.getLength();
}
bool EnhancedCustomShape2d::GetHandlePosition( const sal_uInt32 nIndex, Point& rReturnPosition ) const
{
bool bRetValue = false;
if ( nIndex < GetHdlCount() )
{
Handle aHandle;
if ( ConvertSequenceToEnhancedCustomShape2dHandle( m_seqHandles[ nIndex ], aHandle ) )
{
if ( aHandle.nFlags & HandleFlags::POLAR )
{
Point aReferencePoint( GetPoint( aHandle.aPolar ) );
double fAngle;
double fRadius;
GetParameter( fRadius, aHandle.aPosition.First, false, false );
GetParameter( fAngle, aHandle.aPosition.Second, false, false );
double a = basegfx::deg2rad(360.0 - fAngle);
double dx = fRadius * m_fXScale;
double fX = dx * cos( a );
double fY =-dx * sin( a );
rReturnPosition =
Point(
basegfx::fround<tools::Long>( fX + aReferencePoint.X() ),
basegfx::fTools::equalZero(m_fXScale) ? aReferencePoint.Y() :
basegfx::fround<tools::Long>( ( fY * m_fYScale ) / m_fXScale + aReferencePoint.Y() ) );
}
else
{
if ( aHandle.nFlags & HandleFlags::SWITCHED )
{
if ( m_aLogicRect.GetHeight() > m_aLogicRect.GetWidth() )
{
std::swap(aHandle.aPosition.First, aHandle.aPosition.Second);
}
}
if (m_bOOXMLShape)
rReturnPosition = GetPoint(aHandle.aPosition, false /*bScale*/);
else
rReturnPosition = GetPoint(aHandle.aPosition, true /*bScale*/);
}
const GeoStat aGeoStat(mrSdrObjCustomShape.GetGeoStat());
if ( aGeoStat.m_nShearAngle )
{
double nTan = aGeoStat.mfTanShearAngle;
if (m_bFlipV != m_bFlipH)
nTan = -nTan;
ShearPoint( rReturnPosition, Point( m_aLogicRect.GetWidth() / 2, m_aLogicRect.GetHeight() / 2 ), nTan );
}
if ( m_nRotateAngle )
{
double a = toRadians(m_nRotateAngle);
RotatePoint( rReturnPosition, Point( m_aLogicRect.GetWidth() / 2, m_aLogicRect.GetHeight() / 2 ), sin( a ), cos( a ) );
}
if ( m_bFlipH )
rReturnPosition.setX( m_aLogicRect.GetWidth() - rReturnPosition.X() );
if ( m_bFlipV )
rReturnPosition.setY( m_aLogicRect.GetHeight() - rReturnPosition.Y() );
rReturnPosition.Move( m_aLogicRect.Left(), m_aLogicRect.Top() );
bRetValue = true;
}
}
return bRetValue;
}
static double lcl_getXAdjustmentValue(std::u16string_view rShapeType, const sal_uInt32 nHandleIndex,
const double fX, const double fW, const double fH)
{
// degenerated shapes are not worth to calculate special case for each shape type
if (fW <= 0.0 || fH <= 0.0)
return 50000;
// pattern (w - x) / ss * 100000 or (r - x) / ss * 100000
if ((rShapeType == u"ooxml-bentArrow" && nHandleIndex == 2) || (rShapeType == u"ooxml-chevron")
|| (rShapeType == u"ooxml-curvedRightArrow") || (rShapeType == u"ooxml-foldedCorner")
|| (rShapeType == u"ooxml-homePlate") || (rShapeType == u"ooxml-notchedRightArrow")
|| (rShapeType == u"ooxml-nonIsoscelesTrapezoid" && nHandleIndex == 1)
|| (rShapeType == u"ooxml-rightArrow")
|| (rShapeType == u"ooxml-rightArrowCallout" && nHandleIndex == 2)
|| (rShapeType == u"ooxml-round1Rect")
|| (rShapeType == u"ooxml-round2DiagRect" && nHandleIndex == 1)
|| (rShapeType == u"ooxml-round2SameRect" && nHandleIndex == 0)
|| (rShapeType == u"ooxml-snip1Rect")
|| (rShapeType == u"ooxml-snip2DiagRect" && nHandleIndex == 1)
|| (rShapeType == u"ooxml-snip2SameRect" && nHandleIndex == 0)
|| (rShapeType == u"ooxml-snipRoundRect" && nHandleIndex == 1)
|| (rShapeType == u"ooxml-swooshArrow") || (rShapeType == u"ooxml-stripedRightArrow"))
return (fW - fX) / std::min(fW, fH) * 100000.0;
// pattern x / ss * 100000 or (x - l) / ss * 100000
if ((rShapeType == u"ooxml-bentArrow" && nHandleIndex == 0)
|| (rShapeType == u"ooxml-bentArrow" && nHandleIndex == 3)
|| (rShapeType == u"ooxml-corner")
|| (rShapeType == u"ooxml-curvedDownArrow") || (rShapeType == u"ooxml-curvedLeftArrow")
|| (rShapeType == u"ooxml-curvedUpArrow") || (rShapeType == u"ooxml-leftArrow")
|| (rShapeType == u"ooxml-leftArrowCallout" && nHandleIndex == 2)
|| (rShapeType == u"ooxml-leftRightArrow")
|| (rShapeType == u"ooxml-leftRightArrowCallout" && nHandleIndex == 2)
|| (rShapeType == u"ooxml-leftRightRibbon")
|| (rShapeType == u"ooxml-nonIsoscelesTrapezoid" && nHandleIndex == 0)
|| (rShapeType == u"ooxml-parallelogram")
|| (rShapeType == u"ooxml-round2DiagRect" && nHandleIndex == 0)
|| (rShapeType == u"ooxml-round2SameRect" && nHandleIndex == 1)
|| (rShapeType == u"ooxml-roundRect")
|| (rShapeType == u"ooxml-snip2DiagRect" && nHandleIndex == 0)
|| (rShapeType == u"ooxml-snip2SameRect" && nHandleIndex == 1)
|| (rShapeType == u"ooxml-snipRoundRect" && nHandleIndex == 0)
|| (rShapeType == u"ooxml-uturnArrow" && nHandleIndex == 0)
|| (rShapeType == u"ooxml-uturnArrow" && nHandleIndex == 3))
return fX / std::min(fW, fH) * 100000.0;
// pattern (hc - x) / ss * 200000
if ((rShapeType == u"ooxml-downArrowCallout" && nHandleIndex == 0)
|| (rShapeType == u"ooxml-leftRightUpArrow" && nHandleIndex == 0)
|| (rShapeType == u"ooxml-quadArrow" && nHandleIndex == 0)
|| (rShapeType == u"ooxml-quadArrowCallout" && nHandleIndex == 0)
|| (rShapeType == u"ooxml-upArrowCallout" && nHandleIndex == 0)
|| (rShapeType == u"ooxml-upDownArrowCallout" && nHandleIndex == 0))
return (fW / 2.0 - fX) / std::min(fW, fH) * 200000.0;
// pattern (hc - x) / ss * 100000
if ((rShapeType == u"ooxml-downArrowCallout" && nHandleIndex == 1)
|| (rShapeType == u"ooxml-leftRightUpArrow" && nHandleIndex == 1)
|| (rShapeType == u"ooxml-quadArrow" && nHandleIndex == 1)
|| (rShapeType == u"ooxml-quadArrowCallout" && nHandleIndex == 1)
|| (rShapeType == u"ooxml-upArrowCallout" && nHandleIndex == 1)
|| (rShapeType == u"ooxml-upDownArrowCallout" && nHandleIndex == 1))
return (fW / 2.0 - fX) / std::min(fW, fH) * 100000.0;
// pattern (w - x) / ss * 50000 or (r - x) / ss * 50000
if ((rShapeType == u"ooxml-bentUpArrow") || (rShapeType == u"ooxml-leftUpArrow")
|| (rShapeType == u"ooxml-uturnArrow" && nHandleIndex == 1))
return (fW - fX) / std::min(fW, fH) * 50000.0;
// pattern x / ss * 200000
if (rShapeType == u"ooxml-nonIsoscelesTrapezoid" && nHandleIndex == 0)
return fX / std::min(fW, fH) * 200000.0;
// pattern (hc - x) / w * 200000
if ((rShapeType == u"ooxml-downArrow" && nHandleIndex == 0)
|| (rShapeType == u"ooxml-ellipseRibbon") || (rShapeType == u"ooxml-ellipseRibbon2")
|| (rShapeType == u"ooxml-leftRightArrowCallout" && nHandleIndex == 3)
|| (rShapeType == u"ooxml-ribbon") || (rShapeType == u"ooxml-ribbon2")
|| (rShapeType == u"ooxml-upArrow" && nHandleIndex == 0)
|| (rShapeType == u"ooxml-upDownArrow" && nHandleIndex == 0))
return (fW / 2.0 - fX) / fW * 200000.0;
// pattern (x - hc) / w * 100000
if ((rShapeType == u"ooxml-cloudCallout") || (rShapeType == u"ooxml-doubleWave")
|| (rShapeType == u"ooxml-wave") || (rShapeType == u"ooxml-wedgeEllipseCallout")
|| (rShapeType == u"ooxml-wedgeRectCallout")
|| (rShapeType == u"ooxml-wedgeRoundRectCallout"))
return (fX - fW / 2.0) / fW * 100000.0;
// pattern (x - hc) / w * 200000
if (rShapeType == u"ooxml-teardrop")
return (fX - fW / 2.0) / fW * 200000.0;
// pattern (w - x) / w * 100000 or (r - x) / w * 100000
if (rShapeType == u"ooxml-leftArrowCallout" && nHandleIndex == 3)
return (fW - fX) / fW * 100000.0;
// pattern (hc - x) / h * 100000
if (rShapeType == u"ooxml-mathDivide")
return (fW / 2.0 - fX) / fH * 100000.0;
// pattern x / w * 100000, simple scaling
if (o3tl::starts_with(rShapeType, u"ooxml-"))
return fX / fW * 100000.0;
return fX; // method is unknown
}
static double lcl_getYAdjustmentValue(std::u16string_view rShapeType, const sal_uInt32 nHandleIndex,
const double fY, const double fW, const double fH)
{
// degenerated shapes are not worth to calculate a special case for each shape type
if (fW <= 0.0 || fH <= 0.0)
return 50000;
// pattern (vc - y) / ss * 100000
if ((rShapeType == u"ooxml-leftArrowCallout" && nHandleIndex == 1)
|| (rShapeType == u"ooxml-leftRightArrowCallout" && nHandleIndex == 1)
|| (rShapeType == u"ooxml-rightArrowCallout" && nHandleIndex == 1))
return (fH / 2.0 - fY) / std::min(fW, fH) * 100000.0;
// pattern (vc - y) / ss * 200000
if ((rShapeType == u"ooxml-curvedLeftArrow") || (rShapeType == u"ooxml-curvedRightArrow")
|| (rShapeType == u"ooxml-leftArrowCallout" && nHandleIndex == 0)
|| (rShapeType == u"ooxml-leftRightArrowCallout" && nHandleIndex == 0)
|| (rShapeType == u"ooxml-mathPlus")
|| (rShapeType == u"ooxml-rightArrowCallout" && nHandleIndex == 0))
return (fH / 2.0 - fY) / std::min(fW, fH) * 200000.0;
// pattern (h - y) / ss * 100000 or (b - y) / ss * 100000
if ((rShapeType == u"ooxml-bentUpArrow" && nHandleIndex == 0) || (rShapeType == u"ooxml-corner")
|| (rShapeType == u"ooxml-curvedDownArrow") || (rShapeType == u"ooxml-downArrow")
|| (rShapeType == u"ooxml-downArrowCallout" && nHandleIndex == 2)
|| (rShapeType == u"ooxml-uturnArrow" && nHandleIndex == 2))
return (fH - fY) / std::min(fW, fH) * 100000.0;
// pattern (h - y) / ss * 200000 or (b - y) / ss * 200000
if (rShapeType == u"ooxml-leftUpArrow" && nHandleIndex == 0) // - adj2 * 2 outside
return (fH - fY) / std::min(fW, fH) * 200000.0;
// pattern y / ss * 100000 or (y - t) / ss * 100000
if ((rShapeType == u"ooxml-bentUpArrow" && nHandleIndex == 2)
|| (rShapeType == u"ooxml-bracePair") || (rShapeType == u"ooxml-bracketPair")
|| (rShapeType == u"ooxml-can") || (rShapeType == u"ooxml-cube")
|| (rShapeType == u"ooxml-curvedUpArrow") || (rShapeType == u"ooxml-halfFrame")
|| (rShapeType == u"ooxml-leftBrace" && nHandleIndex == 0)
|| (rShapeType == u"ooxml-leftBracket") || (rShapeType == u"ooxml-leftRightUpArrow")
|| (rShapeType == u"ooxml-leftUpArrow" && nHandleIndex == 2)
|| (rShapeType == u"ooxml-mathMultiply") || (rShapeType == u"ooxml-quadArrow")
|| (rShapeType == u"ooxml-quadArrowCallout" && nHandleIndex == 2)
|| (rShapeType == u"ooxml-rightBrace" && nHandleIndex == 0)
|| (rShapeType == u"ooxml-rightBracket") || (rShapeType == u"ooxml-upArrow")
|| (rShapeType == u"ooxml-upArrowCallout" && nHandleIndex == 2)
|| (rShapeType == u"ooxml-upDownArrow")
|| (rShapeType == u"ooxml-upDownArrowCallout" && nHandleIndex == 2)
|| (rShapeType == u"ooxml-verticalScroll"))
return fY / std::min(fW, fH) * 100000.0;
// pattern y / ss * 50000
if (rShapeType == u"ooxml-bentArrow")
return fY / std::min(fW, fH) * 50000.0;
// pattern (vc - y) / h * 100000
if ((rShapeType == u"ooxml-mathDivide" && nHandleIndex == 1) // -adj1 / 2 - adj3 outside
|| (rShapeType == u"ooxml-mathEqual" && nHandleIndex == 0) // -adj2 / 2 outside
|| (rShapeType == u"ooxml-mathNotEqual" && nHandleIndex == 0) // -adj3 / 2 outside
|| (rShapeType == u"ooxml-star4") || (rShapeType == u"ooxml-star6")
|| (rShapeType == u"ooxml-star8") || (rShapeType == u"ooxml-star10")
|| (rShapeType == u"ooxml-star12") || (rShapeType == u"ooxml-star16")
|| (rShapeType == u"ooxml-star24") || (rShapeType == u"ooxml-star32"))
return (fH / 2.0 - fY) / fH * 100000.0;
// pattern (vc - y) / h * 200000
if ((rShapeType == u"ooxml-leftArrow") || (rShapeType == u"ooxml-leftRightArrow")
|| (rShapeType == u"ooxml-mathDivide" && nHandleIndex == 0)
|| (rShapeType == u"ooxml-mathEqual" && nHandleIndex == 1)
|| (rShapeType == u"ooxml-mathMinus") || (rShapeType == u"ooxml-notchedRightArrow")
|| (rShapeType == u"ooxml-mathNotEqual" && nHandleIndex == 2)
|| (rShapeType == u"ooxml-quadArrowCallout" && nHandleIndex == 3)
|| (rShapeType == u"ooxml-rightArrow") || (rShapeType == u"ooxml-stripedRightArrow")
|| (rShapeType == u"ooxml-upDownArrowCallout" && nHandleIndex == 3))
return (fH / 2.0 - fY) / fH * 200000.0;
// pattern (y - vc) / h * 100000
if ((rShapeType == u"ooxml-cloudCallout") || (rShapeType == u"ooxml-wedgeEllipseCallout")
|| (rShapeType == u"ooxml-wedgeRectCallout")
|| (rShapeType == u"ooxml-wedgeRoundRectCallout"))
return (fY - fH / 2.0) / fH * 100000.0;
// pattern (h - y) / h * 100000 or (b - y) / h * 100000
if ((rShapeType == u"ooxml-ellipseRibbon" && nHandleIndex == 2)
|| (rShapeType == u"ooxml-ellipseRibbon2" && nHandleIndex == 0)
|| (rShapeType == u"ooxml-ribbon2")
|| (rShapeType == u"ooxml-upArrowCallout" && nHandleIndex == 3))
return (fH - fY) / fH * 100000.0;
// special pattern smiley
if (rShapeType == u"ooxml-smileyFace")
return (fY - fH * 16515.0 / 21600.0) / fH * 100000.0;
// special pattern for star with odd number of tips, because center of star not center of shape
if (rShapeType == u"ooxml-star5")
return (fH / 2.0 - fY * 100000.0 / 110557.0) / fH * 100000.0;
if (rShapeType == u"ooxml-star7")
return (fH / 2.0 - fY * 100000.0 / 105210.0) / fH * 100000.0;
// special pattern swooshArrow
if (rShapeType == u"ooxml-swooshArrow")
return (fY - std::min(fW, fH) / 8.0) / fH * 100000.0;
// special pattern leftRightRibbon
if (rShapeType == u"ooxml-leftRightRibbon")
return fY / fH * 200000 - 100000;
// pattern y / h * 100000, simple scaling
if (o3tl::starts_with(rShapeType, u"ooxml-"))
return fY / fH * 100000.0;
return fY; // method is unknown
}
static double lcl_getAngleInOOXMLUnit(double fDY, double fDX)
{
if (fDX != 0.0 || fDY != 0.0)
{
double fAngleRad(atan2(fDY, fDX));
double fAngle = basegfx::rad2deg(fAngleRad);
// atan2 returns angle in ]-pi; pi], OOXML preset shapes use [0;360[.
if (fAngle < 0.0)
fAngle += 360.0;
// OOXML uses angle unit 1/60000 degree.
fAngle *= 60000.0;
return fAngle;
}
return 0.0; // no angle defined for origin in polar coordinate system
}
static double lcl_getRadiusDistance(double fWR, double fHR, double fX, double fY)
{
// Get D so, that point (fX|fY) is on the ellipse, that has width fWR-D and
// height fHR-D and center in origin.
// Get solution of ellipse equation (fX/(fWR-D))^2 + (fY/(fHR-D)^2 = 1 by solving
// fX^2*(fHR-D)^2 + fY^2*(fWR-D)^2 - (fWR-D)^2 * (fHR-D)^2 = 0 with Newton-method.
if (fX == 0.0)
return std::min(fHR - fY, fWR);
else if (fY == 0.0)
return std::min(fWR - fX, fHR);
double fD = std::min(fWR, fHR) - std::hypot(fX, fY); // iteration start value
sal_uInt8 nIter(0);
bool bFound(false);
do
{
++nIter;
const double fOldD(fD);
const double fWRmD(fWR - fD);
const double fHRmD(fHR - fD);
double fNumerator
= fX * fX * fHRmD * fHRmD + fY * fY * fWRmD * fWRmD - fWRmD * fWRmD * fHRmD * fHRmD;
double fDenominator
= 2.0 * (fHRmD * (fWRmD * fWRmD - fX * fX) + fWRmD * (fHRmD * fHRmD - fY * fY));
if (fDenominator != 0.0)
{
fD = fD - fNumerator / fDenominator;
bFound = fabs(fOldD - fD) < 1.0E-12;
}
else
fD = fD * 0.9; // new start value
} while (nIter < 50 && !bFound);
return fD;
}
bool EnhancedCustomShape2d::SetHandleControllerPosition( const sal_uInt32 nIndex, const css::awt::Point& rPosition )
{
// The method name is misleading. Essentially it calculates the adjustment values from a given
// handle position.
// For ooxml-foo shapes, the way to calculate the adjustment value from the handle position depends on
// the type of the shape, therefore need 'Type'.
OUString sShapeType(u"non-primitive"_ustr); // default for ODF
const SdrCustomShapeGeometryItem& rGeometryItem(mrSdrObjCustomShape.GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY ));
const Any* pAny = rGeometryItem.GetPropertyValueByName(u"Type"_ustr);
if (pAny)
*pAny >>= sShapeType;
bool bRetValue = false;
if ( nIndex < GetHdlCount() )
{
Handle aHandle;
if ( ConvertSequenceToEnhancedCustomShape2dHandle( m_seqHandles[ nIndex ], aHandle ) )
{
Point aP( rPosition.X, rPosition.Y );
// apply the negative object rotation to the controller position
aP.Move( -m_aLogicRect.Left(), -m_aLogicRect.Top() );
if ( m_bFlipH )
aP.setX( m_aLogicRect.GetWidth() - aP.X() );
if ( m_bFlipV )
aP.setY( m_aLogicRect.GetHeight() - aP.Y() );
if ( m_nRotateAngle )
{
double a = -toRadians(m_nRotateAngle);
RotatePoint( aP, Point( m_aLogicRect.GetWidth() / 2, m_aLogicRect.GetHeight() / 2 ), sin( a ), cos( a ) );
}
const GeoStat aGeoStat(mrSdrObjCustomShape.GetGeoStat());
if ( aGeoStat.m_nShearAngle )
{
double nTan = -aGeoStat.mfTanShearAngle;
if (m_bFlipV != m_bFlipH)
nTan = -nTan;
ShearPoint( aP, Point( m_aLogicRect.GetWidth() / 2, m_aLogicRect.GetHeight() / 2 ), nTan );
}
double fPos1 = aP.X(); //( bFlipH ) ? aLogicRect.GetWidth() - aP.X() : aP.X();
double fPos2 = aP.Y(); //( bFlipV ) ? aLogicRect.GetHeight() -aP.Y() : aP.Y();
fPos1 = !basegfx::fTools::equalZero(m_fXScale) ? (fPos1 / m_fXScale) : SAL_MAX_INT32;
fPos2 = !basegfx::fTools::equalZero(m_fYScale) ? (fPos2 / m_fYScale) : SAL_MAX_INT32;
// revert -nCoordLeft and -nCoordTop aus GetPoint()
fPos1 += m_nCoordLeft;
fPos2 += m_nCoordTop;
// Used for scaling the adjustment values based on handle positions
double fWidth;
double fHeight;
if ( m_nCoordWidth || m_nCoordHeight )
{
fWidth = m_nCoordWidth;
fHeight = m_nCoordHeight;
}
else
{
fWidth = m_aLogicRect.GetWidth();
fHeight = m_aLogicRect.GetHeight();
}
if ( aHandle.nFlags & HandleFlags::SWITCHED )
{
if ( m_aLogicRect.GetHeight() > m_aLogicRect.GetWidth() )
{
double fX = fPos1;
double fY = fPos2;
double fTmp = fWidth;
fPos1 = fY;
fPos2 = fX;
fHeight = fWidth;
fWidth = fTmp;
}
}
sal_Int32 nFirstAdjustmentValue = -1, nSecondAdjustmentValue = -1;
// ODF shapes are expected to use a direct binding between position and adjustment
// values. OOXML preset shapes use known formulas. These are calculated backward to
// get the adjustment values. So far we do not have a general method to calculate
// the adjustment values for any shape from the handle position.
if ( aHandle.aPosition.First.Type == EnhancedCustomShapeParameterType::ADJUSTMENT )
aHandle.aPosition.First.Value >>= nFirstAdjustmentValue;
if ( aHandle.aPosition.Second.Type == EnhancedCustomShapeParameterType::ADJUSTMENT )
aHandle.aPosition.Second.Value>>= nSecondAdjustmentValue;
if ( aHandle.nFlags & ( HandleFlags::POLAR | HandleFlags::REFR | HandleFlags::REFANGLE))
{ // Polar-Handle
if (aHandle.nFlags & HandleFlags::REFR)
nFirstAdjustmentValue = aHandle.nRefR;
if (aHandle.nFlags & HandleFlags::REFANGLE)
nSecondAdjustmentValue = aHandle.nRefAngle;
double fAngle(0.0);
double fRadius(0.0);
// 'then' treats only shapes of type "ooxml-foo", fontwork shapes have been mapped
// to MS binary import and will be treated in 'else'.
if (m_bOOXMLShape)
{
// DrawingML polar handles set REFR or REFANGLE instead of POLAR
// use the shape center instead.
double fDX = fPos1 - fWidth / 2.0;
double fDY = fPos2 - fHeight / 2.0;
// There exists no common pattern. 'radius' or 'angle' might have special meaning.
if (sShapeType == "ooxml-blockArc" && nIndex == 1)
{
// usual angle, special radius
fAngle = lcl_getAngleInOOXMLUnit(fDY, fDX);
// The value connected to REFR is the _difference_ between the outer
// ellipse given by shape width and height and the inner ellipse through
// the handle position.
double fRadiusDifference
= lcl_getRadiusDistance(fWidth / 2.0, fHeight / 2.0, fDX, fDY);
double fss(std::min(fWidth, fHeight));
if (fss != 0)
fRadius = fRadiusDifference * 100000.0 / fss;
}
else if (sShapeType == "ooxml-donut" || sShapeType == "ooxml-noSmoking")
{
// no angle adjustment, radius bound to x-coordinate of handle
double fss(std::min(fWidth, fHeight));
if (fss != 0.0)
fRadius = fPos1 * 100000.0 / fss;
}
else if ((sShapeType == "ooxml-circularArrow"
|| sShapeType == "ooxml-leftRightCircularArrow"
|| sShapeType == "ooxml-leftCircularArrow")
&& nIndex == 0)
{
// The value adj2 is the increase compared to the angle in adj3
double fHandleAngle = lcl_getAngleInOOXMLUnit(fDY, fDX);
if (sShapeType == "ooxml-leftCircularArrow")
fAngle = GetAdjustValueAsDouble(2) - fHandleAngle;
else
fAngle = fHandleAngle - GetAdjustValueAsDouble(2);
if (fAngle < 0.0) // 0deg to 360deg cut
fAngle += 21600000.0;
// no REFR
}
else if ((sShapeType == "ooxml-circularArrow"
|| sShapeType == "ooxml-leftCircularArrow"
|| sShapeType == "ooxml-leftRightCircularArrow")
&& nIndex == 2)
{
// The value adj1 connected to REFR is the thickness of the arc. The adjustvalue adj5
// has the _difference_ between the outer ellipse given by shape width and height
// and the middle ellipse of the arc. The handle is on the outer side of the
// arc. So we calculate the difference between the ellipse through the handle
// and the outer ellipse and subtract then.
double fRadiusDifferenceHandle
= lcl_getRadiusDistance(fWidth / 2.0, fHeight / 2.0, fDX, fDY);
double fadj5(GetAdjustValueAsDouble(4));
double fss(std::min(fWidth, fHeight));
if (fss != 0.0)
{
fadj5 = fadj5 * fss / 100000.0;
fRadius = 2.0 * (fadj5 - fRadiusDifferenceHandle);
fRadius = fRadius * 100000.0 / fss;
}
// ToDo: Get angle adj3 exact. Use approximation for now
fAngle = lcl_getAngleInOOXMLUnit(fDY, fDX);
}
else if ((sShapeType == "ooxml-circularArrow"
|| sShapeType == "ooxml-leftCircularArrow"
|| sShapeType == "ooxml-leftRightCircularArrow")
&& nIndex == 3)
{
// ToDo: Getting handle position from adjustment value adj5 is complex.
// Analytical or numerical solution for backward calculation is missing.
// Approximation for now, using a line from center through handle position.
double fAngleRad(0.0);
if (fDX != 0.0 || fDY != 0.0)
fAngleRad = atan2(fDY, fDX);
double fHelpX = cos(fAngleRad) * fHeight / 2.0;
double fHelpY = sin(fAngleRad) * fWidth / 2.0;
if (fHelpX != 0.0 || fHelpY != 0.0)
{
double fHelpAngle = atan2(fHelpY, fHelpX);
double fOuterX = fWidth / 2.0 * cos(fHelpAngle);
double fOuterY = fHeight / 2.0 * sin(fHelpAngle);
double fOuterRadius = std::hypot(fOuterX, fOuterY);
double fHandleRadius = std::hypot(fDX, fDY);
fRadius = (fOuterRadius - fHandleRadius) / 2.0;
double fss(std::min(fWidth, fHeight));
if (fss != 0.0)
fRadius = fRadius * 100000.0 / fss;
}
// no REFANGLE
}
else if (sShapeType == "ooxml-mathNotEqual" && nIndex == 1)
{
double fadj1(GetAdjustValueAsDouble(0));
double fadj3(GetAdjustValueAsDouble(2));
fadj1 = fadj1 * fHeight / 100000.0;
fadj3 = fadj3 * fHeight / 100000.0;
double fDYRefHorizBar = fDY + fadj1 + fadj3;
if (fDX != 0.0 || fDYRefHorizBar != 0.0)
{
double fRawAngleDeg = basegfx::rad2deg(atan2(fDYRefHorizBar, fDX));
fAngle = (fRawAngleDeg + 180.0) * 60000.0;
}
// no REFR
}
else
{
// no special meaning of radius or angle, suitable for "ooxml-arc",
// "ooxml-chord", "ooxml-pie" and circular arrows value adj4.
fAngle = lcl_getAngleInOOXMLUnit(fDY, fDX);
fRadius = std::hypot(fDX, fDY);
double fss(std::min(fWidth, fHeight));
if (fss != 0.0)
fRadius = fRadius * 100000.0 / fss;
}
}
else // e.g. shapes from ODF, MS binary import or shape type "fontwork-foo"
{
double fXRef, fYRef;
if (aHandle.nFlags & HandleFlags::POLAR)
{
GetParameter(fXRef, aHandle.aPolar.First, false, false);
GetParameter(fYRef, aHandle.aPolar.Second, false, false);
}
else
{
fXRef = fWidth / 2.0;
fYRef = fHeight / 2.0;
}
const double fDX = fPos1 - fXRef;
const double fDY = fPos2 - fYRef;
// ToDo: MS binary uses fixed-point number for the angle. Make sure conversion
// to double is done in import and export.
// ToDo: Angle unit is degree, but range ]-180;180] or [0;360[? Assume ]-180;180].
if (fDX != 0.0 || fDY != 0.0)
{
fRadius = std::hypot(fDX, fDY);
fAngle = basegfx::rad2deg(atan2(fDY, fDX));
}
}
// All formats can restrict the radius to a range
if ( aHandle.nFlags & HandleFlags::RADIUS_RANGE_MINIMUM )
{
double fMin;
GetParameter( fMin, aHandle.aRadiusRangeMinimum, false, false );
if ( fRadius < fMin )
fRadius = fMin;
}
if ( aHandle.nFlags & HandleFlags::RADIUS_RANGE_MAXIMUM )
{
double fMax;
GetParameter( fMax, aHandle.aRadiusRangeMaximum, false, false );
if ( fRadius > fMax )
fRadius = fMax;
}
if ( nFirstAdjustmentValue >= 0 )
SetAdjustValueAsDouble( fRadius, nFirstAdjustmentValue );
if ( nSecondAdjustmentValue >= 0 )
SetAdjustValueAsDouble( fAngle, nSecondAdjustmentValue );
}
else // XY-Handle
{
// Calculating the adjustment values follows in most cases some patterns, which only
// need width and height of the shape and handle position. These patterns are calculated
// in the static, local methods. More complex calculations or additional steps are
// done here.
// Values for corner cases like 'root(negative)' or 'div zero' are meaningless dummies.
// Identifiers often refer to guide names in OOXML shape definitions.
double fAdjustX = fPos1;
double fAdjustY = fPos2;
if (aHandle.nFlags & HandleFlags::REFX)
{
nFirstAdjustmentValue = aHandle.nRefX;
if ((sShapeType == "ooxml-gear6") || (sShapeType == "ooxml-gear9"))
{
// special, needs angle calculations
double fss(std::min(fWidth, fHeight));
double fadj1(GetAdjustValueAsDouble(0)); // from point D6 or D9
double fth(fadj1 * fss / 100000.0); // radius difference
double frw(fWidth / 2.0 - fth); // inner ellipse
double frh(fHeight / 2.0 - fth);
double fDX(fPos1 - fWidth / 2.0);
double fDY(fPos2 - fHeight / 2.0);
double fbA(-1.7); // effective angle for point A6 or A9, dummy value
if (fDX != 0.0 || fDY != 0.0)
fbA = atan2(fDY, fDX);
double faA(fbA); // corresponding circle angle, dummy value
double ftmpX(frh * cos(fbA));
double ftmpY(frw * sin(fbA));
if (ftmpX != 0.0 || ftmpY != 0.0)
faA = atan2(ftmpY, ftmpX); // range ]-pi..pi], here -pi < faA < -pi/2
// screen 270 deg = mathematic coordinate system -pi/2
double fha(-M_PI_2 - faA); // positive circle angle difference to 270 deg
if (abs(fha) == M_PI_2) // should not happen, but ensure no tan(90deg)
fha = 0.12; // dummy value
double flFD(2 * std::min(frw, frh) * tan(fha) - fth);
if (fss != 0.0)
fAdjustX = flFD / fss * 100000.0;
}
else
{
fAdjustX
= lcl_getXAdjustmentValue(sShapeType, nIndex, fPos1, fWidth, fHeight);
if ((sShapeType == "ooxml-curvedDownArrow")
|| (sShapeType == "ooxml-curvedUpArrow"))
{
double fss(std::min(fWidth, fHeight));
if (fss != 0.0)
{
double fadj3(GetAdjustValueAsDouble(2));
double fHScaled(100000.0 * fHeight / fss);
double fRadicand(fHScaled * fHScaled - fadj3 * fadj3);
double fSqrt = fRadicand >= 0.0 ? sqrt(fRadicand) : 0.0;
double fPart(200000.0 * fWidth / fss * (fSqrt + fHScaled));
fAdjustX = fPart - 4.0 * fHScaled * fAdjustX;
if (nIndex == 0)
{
// calculate adj1
double fadj2(GetAdjustValueAsDouble(1));
fAdjustX = fAdjustX - fadj2 * (fSqrt + fHScaled);
double fDenominator(fSqrt - 3.0 * fHScaled);
fAdjustX /= fDenominator != 0.0 ? fDenominator : 1.0;
}
else
{
// nIndex == 1, calculate adj2
double fadj1(GetAdjustValueAsDouble(0));
fAdjustX = fAdjustX - fadj1 * (fSqrt - fHScaled);
double fDenominator(fSqrt + 3.0 * fHScaled);
fAdjustX /= fDenominator != 0.0 ? fDenominator : 1.0;
}
}
}
}
}
if (aHandle.nFlags & HandleFlags::REFY)
{
nSecondAdjustmentValue = aHandle.nRefY;
if ((sShapeType == "ooxml-gear6") || (sShapeType == "ooxml-gear9"))
{
// special, acts more like a polar handle radius
double fDX = fPos1 - fWidth / 2.0;
double fDY = fPos2 - fHeight / 2.0;
double fRadiusDifference
= lcl_getRadiusDistance(fWidth / 2.0, fHeight / 2.0, fDX, fDY);
double fss(std::min(fWidth, fHeight));
if (fss != 0)
fAdjustY = fRadiusDifference / fss * 100000.0;
}
else
{
fAdjustY
= lcl_getYAdjustmentValue(sShapeType, nIndex, fPos2, fWidth, fHeight);
if (sShapeType == "ooxml-mathDivide" && nIndex == 1)
fAdjustY = fAdjustY - GetAdjustValueAsDouble(0) / 2.0
- GetAdjustValueAsDouble(2);
else if (sShapeType == "ooxml-mathEqual" && nIndex == 0)
fAdjustY -= GetAdjustValueAsDouble(1) / 2.0;
else if (sShapeType == "ooxml-mathNotEqual" && nIndex == 0)
fAdjustY -= GetAdjustValueAsDouble(2) / 2.0;
else if (sShapeType == "ooxml-leftUpArrow" && nIndex == 0)
fAdjustY -= GetAdjustValueAsDouble(1) * 2.0;
else if ((sShapeType == "ooxml-curvedRightArrow")
|| (sShapeType == "ooxml-curvedLeftArrow"))
{
double fss(std::min(fWidth, fHeight));
if (fss != 0.0)
{
double fadj3(GetAdjustValueAsDouble(2));
double fWScaled(100000.0 * fWidth / fss);
double fRadicand(fWScaled * fWScaled - fadj3 * fadj3);
double fSqrt = fRadicand >= 0.0 ? sqrt(fRadicand) : 0.0;
if (nIndex == 0)
{
// calculate adj1
double fadj2(GetAdjustValueAsDouble(1));
fAdjustY = fWScaled * (2.0 * fAdjustY - fadj2);
fAdjustY += (200000.0 / fss * fHeight - fadj2) * fSqrt;
double fDenominator(fSqrt + fWScaled);
fAdjustY /= fDenominator != 0.0 ? fDenominator : 1.0;
}
else
{
// nIndex == 1, calculate adj2
double fadj1(GetAdjustValueAsDouble(0));
fAdjustY = fWScaled * (2.0 * fAdjustY + fadj1);
fAdjustY += (200000.0 / fss * fHeight - fadj1) * fSqrt;
double fDenominator(fSqrt + 3.0 * fWScaled);
fAdjustY /= fDenominator != 0.0 ? fDenominator : 1.0;
}
}
}
else if (sShapeType == "ooxml-uturnArrow" && nIndex == 2)
{
double fss(std::min(fWidth, fHeight));
if (fss != 0.0)
{
double fadj5(GetAdjustValueAsDouble(4));
fAdjustY += fHeight / fss * (fadj5 - 100000.0);
}
}
else if (sShapeType == "ooxml-leftRightRibbon")
{
if (nIndex == 0)
fAdjustY = GetAdjustValueAsDouble(2) - fAdjustY;
else // nIndex == 2
fAdjustY = GetAdjustValueAsDouble(0) + fAdjustY;
}
}
}
if ( nFirstAdjustmentValue >= 0 )
{
if ( aHandle.nFlags & HandleFlags::RANGE_X_MINIMUM ) // check if horizontal handle needs to be within a range
{
double fXMin;
GetParameter( fXMin, aHandle.aXRangeMinimum, false, false );
if (fAdjustX < fXMin)
fAdjustX = fXMin;
}
if ( aHandle.nFlags & HandleFlags::RANGE_X_MAXIMUM ) // check if horizontal handle needs to be within a range
{
double fXMax;
GetParameter( fXMax, aHandle.aXRangeMaximum, false, false );
if (fAdjustX > fXMax)
fAdjustX = fXMax;
}
SetAdjustValueAsDouble(fAdjustX, nFirstAdjustmentValue);
}
if ( nSecondAdjustmentValue >= 0 )
{
if ( aHandle.nFlags & HandleFlags::RANGE_Y_MINIMUM ) // check if vertical handle needs to be within a range
{
double fYMin;
GetParameter( fYMin, aHandle.aYRangeMinimum, false, false );
if (fAdjustY < fYMin)
fAdjustY = fYMin;
}
if ( aHandle.nFlags & HandleFlags::RANGE_Y_MAXIMUM ) // check if vertical handle needs to be within a range
{
double fYMax;
GetParameter( fYMax, aHandle.aYRangeMaximum, false, false );
if (fAdjustY > fYMax)
fAdjustY = fYMax;
}
SetAdjustValueAsDouble(fAdjustY, nSecondAdjustmentValue);
}
}
// and writing them back into the GeometryItem
SdrCustomShapeGeometryItem aGeometryItem(mrSdrObjCustomShape.GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY ));
css::beans::PropertyValue aPropVal;
aPropVal.Name = "AdjustmentValues";
aPropVal.Value <<= m_seqAdjustmentValues;
aGeometryItem.SetPropertyValue( aPropVal );
mrSdrObjCustomShape.SetMergedItem( aGeometryItem );
bRetValue = true;
}
}
return bRetValue;
}
void EnhancedCustomShape2d::SwapStartAndEndArrow( SdrObject* pObj ) //#108274
{
XLineStartItem aLineStart;
aLineStart.SetLineStartValue(pObj->GetMergedItem( XATTR_LINEEND ).GetLineEndValue());
XLineStartWidthItem aLineStartWidth(pObj->GetMergedItem( XATTR_LINEENDWIDTH ).GetValue());
XLineStartCenterItem aLineStartCenter(pObj->GetMergedItem( XATTR_LINEENDCENTER ).GetValue());
XLineEndItem aLineEnd;
aLineEnd.SetLineEndValue(pObj->GetMergedItem( XATTR_LINESTART ).GetLineStartValue());
XLineEndWidthItem aLineEndWidth(pObj->GetMergedItem( XATTR_LINESTARTWIDTH ).GetValue());
XLineEndCenterItem aLineEndCenter(pObj->GetMergedItem( XATTR_LINESTARTCENTER ).GetValue());
pObj->SetMergedItem( aLineStart );
pObj->SetMergedItem( aLineStartWidth );
pObj->SetMergedItem( aLineStartCenter );
pObj->SetMergedItem( aLineEnd );
pObj->SetMergedItem( aLineEndWidth );
pObj->SetMergedItem( aLineEndCenter );
}
static basegfx::B2DPolygon CreateArc( const tools::Rectangle& rRect, const Point& rStart, const Point& rEnd, const bool bClockwise )
{
tools::Rectangle aRect( rRect );
Point aStart( rStart );
Point aEnd( rEnd );
sal_Int32 bSwapStartEndAngle = 0;
if ( aRect.Left() > aRect.Right() )
bSwapStartEndAngle ^= 0x01;
if ( aRect.Top() > aRect.Bottom() )
bSwapStartEndAngle ^= 0x11;
if ( bSwapStartEndAngle )
{
aRect.Normalize();
if ( bSwapStartEndAngle & 1 )
{
Point aTmp( aStart );
aStart = aEnd;
aEnd = aTmp;
}
}
tools::Polygon aTempPoly( aRect, aStart, aEnd, PolyStyle::Arc );
basegfx::B2DPolygon aRetval;
if ( bClockwise )
{
for ( sal_uInt16 j = aTempPoly.GetSize(); j--; )
{
aRetval.append(basegfx::B2DPoint(aTempPoly[ j ].X(), aTempPoly[ j ].Y()));
}
}
else
{
for ( sal_uInt16 j = 0; j < aTempPoly.GetSize(); j++ )
{
aRetval.append(basegfx::B2DPoint(aTempPoly[ j ].X(), aTempPoly[ j ].Y()));
}
}
return aRetval;
}
static double lcl_getNormalizedCircleAngleRad(const double fWR, const double fHR, const double fEllipseAngleDeg)
{
double fRet(0.0);
double fEAngleDeg(fmod(fEllipseAngleDeg, 360.0));
if (fEAngleDeg < 0.0)
fEAngleDeg += 360.0;
if (fEAngleDeg == 0.0 || fEAngleDeg == 90.0 || fEAngleDeg == 180.0 || fEAngleDeg == 270.0)
return basegfx::deg2rad(fEAngleDeg);
const double fX(fHR * cos(basegfx::deg2rad(fEAngleDeg)));
const double fY(fWR * sin(basegfx::deg2rad(fEAngleDeg)));
if (fX != 0.0 || fY != 0.0)
{
fRet = atan2(fY, fX);
if (fRet < 0.0)
fRet += 2 * M_PI;
}
return fRet;
}
static double lcl_getNormalizedAngleRad(const double fCircleAngleDeg)
{
double fRet(fmod(fCircleAngleDeg, 360.0));
if (fRet < 0.0)
fRet += 360.0;
return basegfx::deg2rad(fRet);
}
void EnhancedCustomShape2d::CreateSubPath(
sal_Int32& rSrcPt,
sal_Int32& rSegmentInd,
std::vector< std::pair< rtl::Reference<SdrPathObj>, double> >& rObjectList,
const bool bLineGeometryNeededOnly,
const bool bSortFilledObjectsToBack,
sal_Int32 nIndex)
{
bool bNoFill = false;
bool bNoStroke = false;
double dBrightness = 0.0; //no blending
basegfx::B2DPolyPolygon aNewB2DPolyPolygon;
basegfx::B2DPolygon aNewB2DPolygon;
SetPathSize( nIndex );
sal_Int32 nSegInfoSize = m_seqSegments.getLength();
if ( !nSegInfoSize )
{
for (const EnhancedCustomShapeParameterPair& rCoordinate : m_seqCoordinates)
{
const Point aTempPoint(GetPoint( rCoordinate, true, true ));
aNewB2DPolygon.append(basegfx::B2DPoint(aTempPoint.X(), aTempPoint.Y()));
}
aNewB2DPolygon.setClosed(true);
}
else
{
sal_Int32 nCoordSize = m_seqCoordinates.getLength();
for ( ;rSegmentInd < nSegInfoSize; )
{
sal_Int16 nCommand = m_seqSegments[ rSegmentInd ].Command;
sal_Int16 nPntCount= m_seqSegments[ rSegmentInd++ ].Count;
switch ( nCommand )
{
case NOFILL :
bNoFill = true;
break;
case NOSTROKE :
bNoStroke = true;
break;
case DARKEN :
dBrightness = -0.4; //use sign to distinguish DARKEN from LIGHTEN
break;
case DARKENLESS :
dBrightness = -0.2;
break;
case LIGHTEN :
dBrightness = 0.4;
break;
case LIGHTENLESS :
dBrightness = 0.2;
break;
case MOVETO :
{
if(aNewB2DPolygon.count() > 1)
{
// #i76201# Add conversion to closed polygon when first and last points are equal
basegfx::utils::checkClosed(aNewB2DPolygon);
aNewB2DPolyPolygon.append(aNewB2DPolygon);
}
aNewB2DPolygon.clear();
if ( rSrcPt < nCoordSize )
{
const Point aTempPoint(GetPoint( m_seqCoordinates[ rSrcPt++ ], true, true ));
SAL_INFO(
"svx",
"moveTo: " << aTempPoint.X() << ","
<< aTempPoint.Y());
aNewB2DPolygon.append(basegfx::B2DPoint(aTempPoint.X(), aTempPoint.Y()));
}
}
break;
case ENDSUBPATH :
break;
case CLOSESUBPATH :
{
if(aNewB2DPolygon.count())
{
if(aNewB2DPolygon.count() > 1)
{
aNewB2DPolygon.setClosed(true);
aNewB2DPolyPolygon.append(aNewB2DPolygon);
}
aNewB2DPolygon.clear();
}
}
break;
case CURVETO :
{
for ( sal_uInt16 i = 0; ( i < nPntCount ) && ( ( rSrcPt + 2 ) < nCoordSize ); i++ )
{
const Point aControlA(GetPoint( m_seqCoordinates[ rSrcPt++ ], true, true ));
const Point aControlB(GetPoint( m_seqCoordinates[ rSrcPt++ ], true, true ));
const Point aEnd(GetPoint( m_seqCoordinates[ rSrcPt++ ], true, true ));
DBG_ASSERT(aNewB2DPolygon.count(), "EnhancedCustomShape2d::CreateSubPath: Error in adding control point (!)");
aNewB2DPolygon.appendBezierSegment(
basegfx::B2DPoint(aControlA.X(), aControlA.Y()),
basegfx::B2DPoint(aControlB.X(), aControlB.Y()),
basegfx::B2DPoint(aEnd.X(), aEnd.Y()));
}
}
break;
case ANGLEELLIPSE: // command U
case ANGLEELLIPSETO: // command T
{
// Some shapes will need special handling, decide on property 'Type'.
OUString sShpType;
const SdrCustomShapeGeometryItem& rGeometryItem = mrSdrObjCustomShape.GetMergedItem(SDRATTR_CUSTOMSHAPE_GEOMETRY);
const Any* pAny = rGeometryItem.GetPropertyValueByName(u"Type"_ustr);
if (pAny)
*pAny >>= sShpType;
// User defined shapes in MS binary format, which contain command U or T after import
// in LibreOffice, starts with "mso".
const bool bIsFromBinaryImport(sShpType.startsWith("mso"));
// The only own or imported preset shapes with U command are those listed below.
// Command T is not used in preset shapes.
const std::unordered_set<OUString> aPresetShapesWithU =
{ u"ellipse"_ustr, u"ring"_ustr, u"smiley"_ustr, u"sun"_ustr, u"forbidden"_ustr, u"flowchart-connector"_ustr,
u"flowchart-summing-junction"_ustr, u"flowchart-or"_ustr, u"cloud-callout"_ustr};
std::unordered_set<OUString>::const_iterator aIter = aPresetShapesWithU.find(sShpType);
const bool bIsPresetShapeWithU(aIter != aPresetShapesWithU.end());
for (sal_uInt16 i = 0; (i < nPntCount) && ((rSrcPt + 2) < nCoordSize); i++)
{
// ANGLEELLIPSE is the same as ANGLEELLIPSETO, only that it
// makes an implicit MOVETO. That ends the previous subpath.
if (ANGLEELLIPSE == nCommand)
{
if (aNewB2DPolygon.count() > 1)
{
// #i76201# Add conversion to closed polygon when first and last points are equal
basegfx::utils::checkClosed(aNewB2DPolygon);
aNewB2DPolyPolygon.append(aNewB2DPolygon);
}
aNewB2DPolygon.clear();
}
// Read all parameters, but do not finally handle them.
basegfx::B2DPoint aCenter(GetPointAsB2DPoint(m_seqCoordinates[ rSrcPt ], true, true));
double fWR; // horizontal ellipse radius
double fHR; // vertical ellipse radius
GetParameter(fWR, m_seqCoordinates[rSrcPt + 1].First, true, false);
GetParameter(fHR, m_seqCoordinates[rSrcPt + 1].Second, false, true);
double fStartAngle;
GetParameter(fStartAngle, m_seqCoordinates[rSrcPt + 2].First, false, false);
double fEndAngle;
GetParameter(fEndAngle, m_seqCoordinates[rSrcPt + 2].Second, false, false);
// Increasing here allows flat case differentiation tree by using 'continue'.
rSrcPt += 3;
double fScaledWR(fWR * m_fXScale);
double fScaledHR(fHR * m_fYScale);
if (fScaledWR == 0.0 && fScaledHR == 0.0)
{
// degenerated ellipse, add center point
aNewB2DPolygon.append(aCenter);
continue;
}
if (bIsFromBinaryImport)
{
// If a shape comes from MS binary ('escher') import, the angles are in degrees*2^16
// and the second angle is not an end angle, but a swing angle.
// MS Word shows this behavior: 0deg right, 90deg top, 180deg left and 270deg
// bottom. Third and forth parameter are horizontal and vertical radius, not width
// and height as noted in VML spec. A positive swing angle goes counter-clock
// wise (in user view). The swing angle might go several times around in case
// abs(swing angle) >= 360deg. Stroke accumulates, so that e.g. dash-dot might fill the
// gaps of previous turn. Fill does not accumulate but uses even-odd rule, semi-transparent
// fill does not become darker. The start and end points of the arc are calculated by
// using the angles on a circle and then scaling the circle to the ellipse. Caution, that
// is different from angle handling in ARCANGLETO and ODF.
// The following implementation generates such rendering. It is only for rendering legacy
// MS shapes and independent of the meaning of commands U and T in ODF specification.
// The WordArt shape 'RingOutside' has already angles in degree, all other need
// conversion from fixed-point number.
double fSwingAngle = fEndAngle;
if (sShpType != "mso-spt143")
{
fStartAngle /= 65536.0;
fSwingAngle = fEndAngle / 65536.0;
}
// Convert orientation
fStartAngle = -fStartAngle;
fSwingAngle = -fSwingAngle;
fEndAngle = fStartAngle + fSwingAngle;
if (fSwingAngle < 0.0)
std::swap(fStartAngle, fEndAngle);
double fFrom(fStartAngle);
double fTo(fFrom + 180.0);
basegfx::B2DPolygon aTempB2DPolygon;
double fS; // fFrom in radians in [0..2Pi[
double fE; // fTo or fEndAngle in radians in [0..2PI[
while (fTo < fEndAngle)
{
fS = lcl_getNormalizedAngleRad(fFrom);
fE = lcl_getNormalizedAngleRad(fTo);
aTempB2DPolygon.append(basegfx::utils::createPolygonFromEllipseSegment(aCenter, fScaledWR, fScaledHR, fS,fE));
fFrom = fTo;
fTo += 180.0;
}
fS = lcl_getNormalizedAngleRad(fFrom);
fE = lcl_getNormalizedAngleRad(fEndAngle);
aTempB2DPolygon.append(basegfx::utils::createPolygonFromEllipseSegment(aCenter, fScaledWR, fScaledHR,fS, fE));
if (fSwingAngle < 0)
aTempB2DPolygon.flip();
aNewB2DPolygon.append(aTempB2DPolygon);
continue;
}
// The not yet handled shapes are own preset shapes, or preset shapes from MS binary import, or user
// defined shapes, or foreign shapes. Shapes from OOXML import do not use ANGLEELLIPSE or
// ANGLEELLIPSETO, but use ARCANGLETO.
if (bIsPresetShapeWithU)
{
// Besides "cloud-callout" all preset shapes have angle values '0 360'.
// The imported "cloud-callout" has angle values '0 360' too, only our own "cloud-callout"
// has values '0 23592960'. But that is fixedfloat and means 360*2^16. Thus all these shapes
// have a full ellipse with start at 0deg.
aNewB2DPolygon.append(basegfx::utils::createPolygonFromEllipse(aCenter, fScaledWR, fScaledHR));
continue;
}
// In all other cases, full ODF conform handling is necessary. ODF rules:
// Third and forth parameter are horizontal and vertical radius.
// An angle determines the start or end point of the segment by intersection of the second angle
// leg with the ellipse. The first angle leg is always the positive x-axis. For the position
// of the intersection points the angle is used modulo 360deg in range [0deg..360deg[.
// The position of range [0deg..360deg[ is the same as in command ARCANGLETO, with 0deg right,
// 90deg bottom, 180deg left and 270deg top. Only if abs(end angle - start angle) == 360 deg,
// a full ellipse is drawn. The segment is always drawn clock wise (in user view) from start
// point to end point. The end point of the segment becomes the new "current" point.
if (fabs(fabs(fEndAngle - fStartAngle) - 360.0) < 1.0E-15)
{
// draw full ellipse
// Because createPolygonFromEllipseSegment cannot create full ellipse and
// createPolygonFromEllipse has no varying starts, we use two half ellipses.
const double fS(lcl_getNormalizedCircleAngleRad(fWR, fHR, fStartAngle));
const double fH(lcl_getNormalizedCircleAngleRad(fWR, fHR, fStartAngle + 180.0));
const double fE(lcl_getNormalizedCircleAngleRad(fWR, fHR, fEndAngle));
aNewB2DPolygon.append(basegfx::utils::createPolygonFromEllipseSegment(aCenter, fScaledWR, fScaledHR, fS, fH));
aNewB2DPolygon.append(basegfx::utils::createPolygonFromEllipseSegment(aCenter, fScaledWR, fScaledHR, fH, fE));
continue;
}
// remaining cases with central segment angle < 360
double fS(lcl_getNormalizedCircleAngleRad(fWR, fHR, fStartAngle));
double fE(lcl_getNormalizedCircleAngleRad(fWR, fHR, fEndAngle));
aNewB2DPolygon.append(basegfx::utils::createPolygonFromEllipseSegment(aCenter, fScaledWR, fScaledHR, fS, fE));
} // end for
} // end case
break;
case QUADRATICCURVETO :
{
for ( sal_Int32 i(0); ( i < nPntCount ) && ( rSrcPt + 1 < nCoordSize ); i++ )
{
DBG_ASSERT(aNewB2DPolygon.count(), "EnhancedCustomShape2d::CreateSubPath: Error no previous point for Q (!)");
if (aNewB2DPolygon.count() > 0)
{
const basegfx::B2DPoint aPreviousEndPoint(aNewB2DPolygon.getB2DPoint(aNewB2DPolygon.count()-1));
const basegfx::B2DPoint aControlQ(GetPointAsB2DPoint( m_seqCoordinates[ rSrcPt++ ], true, true ));
const basegfx::B2DPoint aEnd(GetPointAsB2DPoint( m_seqCoordinates[ rSrcPt++ ], true, true ));
const basegfx::B2DPoint aControlA((aPreviousEndPoint + (aControlQ * 2)) / 3);
const basegfx::B2DPoint aControlB(((aControlQ * 2) + aEnd) / 3);
aNewB2DPolygon.appendBezierSegment(aControlA, aControlB, aEnd);
}
else // no previous point; ill structured path, but try to draw as much as possible
{
rSrcPt++; // skip control point
const basegfx::B2DPoint aEnd(GetPointAsB2DPoint( m_seqCoordinates[ rSrcPt++ ], true, true ));
aNewB2DPolygon.append(aEnd);
}
}
}
break;
case LINETO :
{
for ( sal_Int32 i(0); ( i < nPntCount ) && ( rSrcPt < nCoordSize ); i++ )
{
const Point aTempPoint(GetPoint( m_seqCoordinates[ rSrcPt++ ], true, true ));
SAL_INFO(
"svx",
"lineTo: " << aTempPoint.X() << ","
<< aTempPoint.Y());
aNewB2DPolygon.append(basegfx::B2DPoint(aTempPoint.X(), aTempPoint.Y()));
}
}
break;
case ARC :
case CLOCKWISEARC :
case ARCTO :
case CLOCKWISEARCTO :
{
bool bClockwise = ( nCommand == CLOCKWISEARC ) || ( nCommand == CLOCKWISEARCTO );
bool bImplicitMoveTo = (nCommand == ARC) || (nCommand == CLOCKWISEARC);
sal_uInt32 nXor = bClockwise ? 3 : 2;
for ( sal_uInt16 i = 0; ( i < nPntCount ) && ( ( rSrcPt + 3 ) < nCoordSize ); i++ )
{
if (bImplicitMoveTo)
{
if (aNewB2DPolygon.count() > 1)
{
// #i76201# Add conversion to closed polygon when first and last
// points are equal
basegfx::utils::checkClosed(aNewB2DPolygon);
aNewB2DPolyPolygon.append(aNewB2DPolygon);
}
aNewB2DPolygon.clear();
}
tools::Rectangle aRect = tools::Rectangle::Normalize( GetPoint( m_seqCoordinates[ rSrcPt ], true, true ), GetPoint( m_seqCoordinates[ rSrcPt + 1 ], true, true ) );
if ( aRect.GetWidth() && aRect.GetHeight() )
{
Point aStart( GetPoint( m_seqCoordinates[ static_cast<sal_uInt16>( rSrcPt + nXor ) ], true, true ) );
Point aEnd( GetPoint( m_seqCoordinates[ static_cast<sal_uInt16>( rSrcPt + ( nXor ^ 1 ) ) ], true, true ) );
aNewB2DPolygon.append(CreateArc( aRect, aStart, aEnd, bClockwise));
}
rSrcPt += 4;
}
}
break;
case ARCANGLETO :
{
double fWR, fHR; // in Shape coordinate system
double fStartAngle, fSwingAngle; // in deg
for ( sal_uInt16 i = 0; ( i < nPntCount ) && ( rSrcPt + 1 < nCoordSize ); i++ )
{
basegfx::B2DPoint aTempPair;
aTempPair = GetPointAsB2DPoint(m_seqCoordinates[static_cast<sal_uInt16>(rSrcPt)], false /*bScale*/, false /*bReplaceGeoSize*/);
fWR = aTempPair.getX();
fHR = aTempPair.getY();
aTempPair = GetPointAsB2DPoint(m_seqCoordinates[static_cast<sal_uInt16>(rSrcPt + 1)], false /*bScale*/, false /*bReplaceGeoSize*/);
fStartAngle = aTempPair.getX();
fSwingAngle = aTempPair.getY();
// tdf#122323 MS Office clamps the swing angle to [-360,360]. Such restriction
// is neither in OOXML nor in ODF. Nevertheless, to be compatible we do it for
// "ooxml-foo" shapes. Those shapes have their origin in MS Office.
if (m_bOOXMLShape)
{
fSwingAngle = std::clamp(fSwingAngle, -360.0, 360.0);
}
SAL_INFO("svx", "ARCANGLETO scale: " << fWR << "x" << fHR << " angles: " << fStartAngle << "," << fSwingAngle);
if (aNewB2DPolygon.count() > 0) // otherwise no "current point"
{
// use similar methods as in command U
basegfx::B2DPolygon aTempB2DPolygon;
if (fWR == 0.0 && fHR == 0.0)
{
// degenerated ellipse, add this one point
aTempB2DPolygon.append(basegfx::B2DPoint(0.0, 0.0));
}
else
{
double fEndAngle = fStartAngle + fSwingAngle;
// Generate arc with ellipse left|top = 0|0.
basegfx::B2DPoint aCenter(fWR, fHR);
if (fSwingAngle < 0.0)
std::swap(fStartAngle, fEndAngle);
double fS; // fFrom in radians in [0..2Pi[
double fE; // fTo or fEndAngle in radians in [0..2PI[
double fFrom(fStartAngle);
// createPolygonFromEllipseSegment expects angles in [0..2PI[.
if (fSwingAngle >= 360.0 || fSwingAngle <= -360.0)
{
double fTo(fFrom + 180.0);
while (fTo < fEndAngle)
{
fS = lcl_getNormalizedCircleAngleRad(fWR, fHR, fFrom);
fE = lcl_getNormalizedCircleAngleRad(fWR, fHR, fTo);
aTempB2DPolygon.append(basegfx::utils::createPolygonFromEllipseSegment(aCenter, fWR, fHR, fS,fE));
fFrom = fTo;
fTo += 180.0;
}
}
fS = lcl_getNormalizedCircleAngleRad(fWR, fHR, fFrom);
fE = lcl_getNormalizedCircleAngleRad(fWR, fHR, fEndAngle);
aTempB2DPolygon.append(basegfx::utils::createPolygonFromEllipseSegment(aCenter, fWR, fHR,fS, fE));
if (fSwingAngle < 0)
aTempB2DPolygon.flip();
aTempB2DPolygon.removeDoublePoints();
}
// Scale arc to 1/100mm
basegfx::B2DHomMatrix aMatrix = basegfx::utils::createScaleB2DHomMatrix(m_fXScale, m_fYScale);
aTempB2DPolygon.transform(aMatrix);
// Now that we have the arc, move it to the "current point".
basegfx::B2DPoint aCurrentPointB2D( aNewB2DPolygon.getB2DPoint(aNewB2DPolygon.count() - 1 ) );
const double fDx(aCurrentPointB2D.getX() - aTempB2DPolygon.getB2DPoint(0).getX());
const double fDy(aCurrentPointB2D.getY() - aTempB2DPolygon.getB2DPoint(0).getY());
aMatrix = basegfx::utils::createTranslateB2DHomMatrix(fDx, fDy);
aTempB2DPolygon.transform(aMatrix);
aNewB2DPolygon.append(aTempB2DPolygon);
}
rSrcPt += 2;
}
}
break;
case ELLIPTICALQUADRANTX :
case ELLIPTICALQUADRANTY :
{
if (nPntCount && (rSrcPt < nCoordSize))
{
// The arc starts at the previous point and ends at the point given in the parameter.
basegfx::B2DPoint aStart;
basegfx::B2DPoint aEnd;
sal_uInt16 i = 0;
if (rSrcPt)
{
aStart = GetPointAsB2DPoint(m_seqCoordinates[rSrcPt - 1], true, true);
}
else
{ // no previous point, path is ill-structured. But we want to show as much as possible.
// Thus make a moveTo to the point given as parameter and continue from there.
aStart = GetPointAsB2DPoint(m_seqCoordinates[static_cast<sal_uInt16>(rSrcPt)], true, true);
aNewB2DPolygon.append(aStart);
rSrcPt++;
i++;
}
// If there are several points, then the direction changes with every point.
bool bIsXDirection(nCommand == ELLIPTICALQUADRANTX);
basegfx::B2DPolygon aArc;
for ( ; ( i < nPntCount ) && ( rSrcPt < nCoordSize ); i++ )
{
aEnd = GetPointAsB2DPoint(m_seqCoordinates[rSrcPt], true, true);
basegfx::B2DPoint aCenter;
double fRadiusX = fabs(aEnd.getX() - aStart.getX());
double fRadiusY = fabs(aEnd.getY() - aStart.getY());
if (bIsXDirection)
{
aCenter = basegfx::B2DPoint(aStart.getX(),aEnd.getY());
if (aEnd.getX()<aStart.getX())
{
if (aEnd.getY()<aStart.getY()) // left, up
{
aArc = basegfx::utils::createPolygonFromEllipseSegment(aCenter, fRadiusX, fRadiusY, M_PI_2, M_PI);
}
else // left, down
{
aArc = basegfx::utils::createPolygonFromEllipseSegment(aCenter, fRadiusX, fRadiusY, M_PI, 1.5*M_PI);
aArc.flip();
}
}
else // aEnd.getX()>=aStart.getX()
{
if (aEnd.getY()<aStart.getY()) // right, up
{
aArc = basegfx::utils::createPolygonFromEllipseSegment(aCenter, fRadiusX, fRadiusY, 0.0, M_PI_2);
aArc.flip();
}
else // right, down
{
aArc = basegfx::utils::createPolygonFromEllipseSegment(aCenter, fRadiusX, fRadiusY, 1.5*M_PI, 2*M_PI);
}
}
}
else // y-direction
{
aCenter = basegfx::B2DPoint(aEnd.getX(),aStart.getY());
if (aEnd.getX()<aStart.getX())
{
if (aEnd.getY()<aStart.getY()) // up, left
{
aArc = basegfx::utils::createPolygonFromEllipseSegment(aCenter, fRadiusX, fRadiusY, 1.5*M_PI, 2*M_PI);
aArc.flip();
}
else // down, left
{
aArc = basegfx::utils::createPolygonFromEllipseSegment(aCenter, fRadiusX, fRadiusY, 0.0, M_PI_2);
}
}
else // aEnd.getX()>=aStart.getX()
{
if (aEnd.getY()<aStart.getY()) // up, right
{
aArc = basegfx::utils::createPolygonFromEllipseSegment(aCenter, fRadiusX, fRadiusY, M_PI, 1.5*M_PI);
}
else // down, right
{
aArc = basegfx::utils::createPolygonFromEllipseSegment(aCenter, fRadiusX, fRadiusY, M_PI_2, M_PI);
aArc.flip();
}
}
}
aNewB2DPolygon.append(aArc);
rSrcPt++;
bIsXDirection = !bIsXDirection;
aStart = aEnd;
}
}
// else error in path syntax, do nothing
}
break;
#ifdef DBG_CUSTOMSHAPE
case UNKNOWN :
default :
{
SAL_WARN( "svx", "CustomShapes::unknown PolyFlagValue :" << nCommand );
}
break;
#endif
}
if ( nCommand == ENDSUBPATH )
break;
}
}
if ( rSegmentInd == nSegInfoSize )
rSegmentInd++;
if(aNewB2DPolygon.count() > 1)
{
// #i76201# Add conversion to closed polygon when first and last points are equal
basegfx::utils::checkClosed(aNewB2DPolygon);
aNewB2DPolyPolygon.append(aNewB2DPolygon);
}
if(!aNewB2DPolyPolygon.count())
return;
// #i37011#
bool bForceCreateTwoObjects(false);
if(!bSortFilledObjectsToBack && !aNewB2DPolyPolygon.isClosed() && !bNoStroke)
{
bForceCreateTwoObjects = true;
}
if(bLineGeometryNeededOnly)
{
bForceCreateTwoObjects = true;
bNoFill = true;
bNoStroke = false;
}
if(bForceCreateTwoObjects || bSortFilledObjectsToBack)
{
if(m_bFilled && !bNoFill)
{
basegfx::B2DPolyPolygon aClosedPolyPolygon(aNewB2DPolyPolygon);
aClosedPolyPolygon.setClosed(true);
rtl::Reference<SdrPathObj> pFill(new SdrPathObj(
mrSdrObjCustomShape.getSdrModelFromSdrObject(),
SdrObjKind::Polygon,
std::move(aClosedPolyPolygon)));
SfxItemSet aTempSet(*this);
aTempSet.Put(makeSdrShadowItem(false));
aTempSet.Put(XLineStyleItem(drawing::LineStyle_NONE));
pFill->SetMergedItemSet(aTempSet);
rObjectList.push_back(std::pair< rtl::Reference<SdrPathObj>, double >(std::move(pFill), dBrightness));
}
if(!bNoStroke)
{
// there is no reason to use OBJ_PLIN here when the polygon is actually closed,
// the non-fill is defined by XFILL_NONE. Since SdrPathObj::ImpForceKind() needs
// to correct the polygon (here: open it) using the type, the last edge may get lost.
// Thus, use a type that fits the polygon
rtl::Reference<SdrPathObj> pStroke(new SdrPathObj(
mrSdrObjCustomShape.getSdrModelFromSdrObject(),
aNewB2DPolyPolygon.isClosed() ? SdrObjKind::Polygon : SdrObjKind::PolyLine,
aNewB2DPolyPolygon));
SfxItemSet aTempSet(*this);
aTempSet.Put(makeSdrShadowItem(false));
aTempSet.Put(XFillStyleItem(drawing::FillStyle_NONE));
pStroke->SetMergedItemSet(aTempSet);
rObjectList.push_back(std::pair< rtl::Reference<SdrPathObj>, double >(std::move(pStroke), dBrightness));
}
}
else
{
rtl::Reference<SdrPathObj> pObj;
SfxItemSet aTempSet(*this);
aTempSet.Put(makeSdrShadowItem(false));
if(bNoFill)
{
// see comment above about OBJ_PLIN
pObj = new SdrPathObj(
mrSdrObjCustomShape.getSdrModelFromSdrObject(),
aNewB2DPolyPolygon.isClosed() ? SdrObjKind::Polygon : SdrObjKind::PolyLine,
aNewB2DPolyPolygon);
aTempSet.Put(XFillStyleItem(drawing::FillStyle_NONE));
}
else
{
aNewB2DPolyPolygon.setClosed(true);
pObj = new SdrPathObj(
mrSdrObjCustomShape.getSdrModelFromSdrObject(),
SdrObjKind::Polygon,
std::move(aNewB2DPolyPolygon));
}
if(bNoStroke)
{
aTempSet.Put(XLineStyleItem(drawing::LineStyle_NONE));
}
pObj->SetMergedItemSet(aTempSet);
rObjectList.push_back(std::pair< rtl::Reference<SdrPathObj>, double >(std::move(pObj), dBrightness));
}
}
static void CorrectCalloutArrows(
MSO_SPT eSpType,
sal_uInt32 nLineObjectCount,
std::vector< std::pair< rtl::Reference<SdrPathObj>, double> >& vObjectList )
{
bool bAccent = false;
switch( eSpType )
{
case mso_sptCallout1 :
case mso_sptBorderCallout1 :
case mso_sptCallout90 :
case mso_sptBorderCallout90 :
default:
break;
case mso_sptAccentCallout1 :
case mso_sptAccentBorderCallout1 :
case mso_sptAccentCallout90 :
case mso_sptAccentBorderCallout90 :
{
sal_uInt32 nLine = 0;
for ( const std::pair< rtl::Reference<SdrPathObj>, double >& rCandidate : vObjectList )
{
SdrPathObj* pObj(rCandidate.first.get());
if(pObj->IsLine())
{
nLine++;
if ( nLine == nLineObjectCount )
{
pObj->ClearMergedItem( XATTR_LINESTART );
pObj->ClearMergedItem( XATTR_LINEEND );
}
}
}
}
break;
// switch start & end
case mso_sptAccentCallout2 :
case mso_sptAccentBorderCallout2 :
bAccent = true;
[[fallthrough]];
case mso_sptCallout2 :
case mso_sptBorderCallout2 :
{
sal_uInt32 nLine = 0;
for ( const std::pair< rtl::Reference<SdrPathObj>, double >& rCandidate : vObjectList )
{
SdrPathObj* pObj(rCandidate.first.get());
if(pObj->IsLine())
{
nLine++;
if ( nLine == 1 )
pObj->ClearMergedItem( XATTR_LINEEND );
else if ( ( bAccent && ( nLine == nLineObjectCount - 1 ) ) || ( !bAccent && ( nLine == nLineObjectCount ) ) )
pObj->ClearMergedItem( XATTR_LINESTART );
else
{
pObj->ClearMergedItem( XATTR_LINESTART );
pObj->ClearMergedItem( XATTR_LINEEND );
}
}
}
}
break;
case mso_sptAccentCallout3 :
case mso_sptAccentBorderCallout3 :
case mso_sptCallout3 :
case mso_sptBorderCallout3 :
{
sal_uInt32 nLine = 0;
for ( const std::pair< rtl::Reference<SdrPathObj>, double >& rCandidate : vObjectList )
{
SdrPathObj* pObj(rCandidate.first.get());
if(pObj->IsLine())
{
if ( nLine )
{
pObj->ClearMergedItem( XATTR_LINESTART );
pObj->ClearMergedItem( XATTR_LINEEND );
}
else
EnhancedCustomShape2d::SwapStartAndEndArrow( pObj );
nLine++;
}
}
}
break;
}
}
void EnhancedCustomShape2d::AdaptObjColor(
SdrPathObj& rObj,
double dBrightness,
const SfxItemSet& rCustomShapeSet,
sal_uInt32& nColorIndex,
sal_uInt32 nColorCount)
{
if ( rObj.IsLine() )
return;
const drawing::FillStyle eFillStyle = rObj.GetMergedItem(XATTR_FILLSTYLE).GetValue();
if (eFillStyle == drawing::FillStyle_NONE)
return;
switch( eFillStyle )
{
default:
case drawing::FillStyle_SOLID:
{
if ( nColorCount || 0.0 != dBrightness )
{
Color aFillColor = GetColorData(
rCustomShapeSet.Get( XATTR_FILLCOLOR ).GetColorValue(),
nColorCount ? std::min(nColorIndex, nColorCount-1) : nColorIndex,
dBrightness );
rObj.SetMergedItem( XFillColorItem( u""_ustr, aFillColor ) );
}
break;
}
case drawing::FillStyle_GRADIENT:
{
basegfx::BGradient aBGradient(rObj.GetMergedItem(XATTR_FILLGRADIENT).GetGradientValue());
if ( nColorCount || 0.0 != dBrightness )
{
basegfx::BColorStops aColorStops(aBGradient.GetColorStops());
for (auto& candidate : aColorStops)
{
candidate = basegfx::BColorStop(
candidate.getStopOffset(),
GetColorData(
Color(candidate.getStopColor()),
nColorCount ? std::min(nColorIndex, nColorCount-1) : nColorIndex,
dBrightness ).getBColor());
}
aBGradient.SetColorStops(aColorStops);
}
rObj.SetMergedItem( XFillGradientItem( u""_ustr, aBGradient ) );
break;
}
case drawing::FillStyle_HATCH:
{
XHatch aXHatch(rObj.GetMergedItem(XATTR_FILLHATCH).GetHatchValue());
if ( nColorCount || 0.0 != dBrightness )
{
aXHatch.SetColor(
GetColorData(
aXHatch.GetColor(),
nColorCount ? std::min(nColorIndex, nColorCount-1) : nColorIndex,
dBrightness ));
}
rObj.SetMergedItem( XFillHatchItem( u""_ustr, aXHatch ) );
break;
}
case drawing::FillStyle_BITMAP:
{
if ( nColorCount || 0.0 != dBrightness )
{
BitmapEx aBitmap(rObj.GetMergedItem(XATTR_FILLBITMAP).GetGraphicObject().GetGraphic().GetBitmapEx());
short nLuminancePercent = static_cast< short > ( GetLuminanceChange(
nColorCount ? std::min(nColorIndex, nColorCount-1) : nColorIndex));
aBitmap.Adjust( nLuminancePercent, 0, 0, 0, 0 );
rObj.SetMergedItem(XFillBitmapItem(OUString(), Graphic(aBitmap)));
}
break;
}
}
if ( nColorIndex < nColorCount )
nColorIndex++;
}
rtl::Reference<SdrObject> EnhancedCustomShape2d::CreatePathObj( bool bLineGeometryNeededOnly )
{
if ( !m_seqCoordinates.hasElements() )
{
return nullptr;
}
std::vector< std::pair< rtl::Reference<SdrPathObj>, double > > vObjectList;
const bool bSortFilledObjectsToBack(SortFilledObjectsToBackByDefault(m_eSpType));
sal_Int32 nSubPathIndex(0);
sal_Int32 nSrcPt(0);
sal_Int32 nSegmentInd(0);
rtl::Reference<SdrObject> pRet;
while( nSegmentInd <= m_seqSegments.getLength() )
{
CreateSubPath(
nSrcPt,
nSegmentInd,
vObjectList,
bLineGeometryNeededOnly,
bSortFilledObjectsToBack,
nSubPathIndex);
nSubPathIndex++;
}
if ( !vObjectList.empty() )
{
const SfxItemSet& rCustomShapeSet(mrSdrObjCustomShape.GetMergedItemSet());
const sal_uInt32 nColorCount(m_nColorData >> 28);
sal_uInt32 nColorIndex(0);
// #i37011# remove invisible objects
std::vector< std::pair< rtl::Reference<SdrPathObj>, double> > vNewList;
for ( std::pair< rtl::Reference<SdrPathObj>, double >& rCandidate : vObjectList )
{
SdrPathObj* pObj(rCandidate.first.get());
const drawing::LineStyle eLineStyle(pObj->GetMergedItem(XATTR_LINESTYLE).GetValue());
const drawing::FillStyle eFillStyle(pObj->GetMergedItem(XATTR_FILLSTYLE).GetValue());
const auto pText = pObj->getActiveText();
// #i40600# if bLineGeometryNeededOnly is set, linestyle does not matter
if(pText || bLineGeometryNeededOnly || (drawing::LineStyle_NONE != eLineStyle) || (drawing::FillStyle_NONE != eFillStyle))
vNewList.push_back(std::move(rCandidate));
}
vObjectList = std::move(vNewList);
if(1 == vObjectList.size())
{
// a single object, correct some values
AdaptObjColor(
*vObjectList.begin()->first,
vObjectList.begin()->second,
rCustomShapeSet,
nColorIndex,
nColorCount);
}
else
{
sal_Int32 nLineObjectCount(0);
// correct some values and collect content data
for ( const std::pair< rtl::Reference<SdrPathObj>, double >& rCandidate : vObjectList )
{
SdrPathObj* pObj(rCandidate.first.get());
if(pObj->IsLine())
{
nLineObjectCount++;
}
else
{
AdaptObjColor(
*pObj,
rCandidate.second,
rCustomShapeSet,
nColorIndex,
nColorCount);
// OperationSmiley: when we have access to the SdrObjCustomShape and the
// CustomShape is built with more than a single filled Geometry, use it
// to define that all helper geometries defined here (SdrObjects currently)
// will use the same FillGeometryDefinition (from the referenced SdrObjCustomShape).
// This will all same-filled objects look like filled smoothly with the same style.
pObj->setFillGeometryDefiningShape(&mrSdrObjCustomShape);
}
}
// #i88870# correct line arrows for callouts
if ( nLineObjectCount )
{
CorrectCalloutArrows(
m_eSpType,
nLineObjectCount,
vObjectList);
}
// sort objects so that filled ones are in front. Necessary
// for some strange objects
if(bSortFilledObjectsToBack)
{
std::vector< std::pair< rtl::Reference<SdrPathObj>, double> > vTempList;
vTempList.reserve(vObjectList.size());
for ( std::pair< rtl::Reference<SdrPathObj>, double >& rCandidate : vObjectList )
{
SdrPathObj* pObj(rCandidate.first.get());
if ( !pObj->IsLine() )
vTempList.push_back(std::move(rCandidate));
}
for ( std::pair< rtl::Reference<SdrPathObj>, double >& rCandidate : vObjectList )
{
if ( rCandidate.first )
vTempList.push_back(std::move(rCandidate));
}
vObjectList = std::move(vTempList);
}
}
}
// #i37011#
if(!vObjectList.empty())
{
// copy remaining objects to pRet
if(vObjectList.size() > 1)
{
pRet = new SdrObjGroup(mrSdrObjCustomShape.getSdrModelFromSdrObject());
for ( std::pair< rtl::Reference<SdrPathObj>, double >& rCandidate : vObjectList )
{
pRet->GetSubList()->NbcInsertObject(rCandidate.first.get());
}
}
else if(1 == vObjectList.size())
{
pRet = vObjectList.begin()->first;
}
if(pRet)
{
// move to target position
tools::Rectangle aCurRect(pRet->GetSnapRect());
aCurRect.Move(m_aLogicRect.Left(), m_aLogicRect.Top());
pRet->NbcSetSnapRect(aCurRect);
}
}
return pRet;
}
rtl::Reference<SdrObject> EnhancedCustomShape2d::CreateObject( bool bLineGeometryNeededOnly )
{
rtl::Reference<SdrObject> pRet;
if ( m_eSpType == mso_sptRectangle )
{
pRet = new SdrRectObj(mrSdrObjCustomShape.getSdrModelFromSdrObject(), m_aLogicRect);
pRet->SetMergedItemSet( *this );
}
if ( !pRet )
pRet = CreatePathObj( bLineGeometryNeededOnly );
return pRet;
}
static SdrEscapeDirection lcl_GetEscapeDirection(sal_Int32 nDirection)
{
switch (nDirection)
{
case 1: return SdrEscapeDirection::LEFT;
case 2: return SdrEscapeDirection::RIGHT;
case 3: return SdrEscapeDirection::TOP;
case 4: return SdrEscapeDirection::BOTTOM;
default: return SdrEscapeDirection::SMART;
}
}
void EnhancedCustomShape2d::ApplyGluePoints(SdrObject* pObj)
{
if ( !pObj )
return;
SdrEscapeDirection aDirection = SdrEscapeDirection::SMART;
for (size_t i = 0; i < m_seqGluePoints.size(); i++)
{
EnhancedCustomShapeParameterPair aGluePointPair = m_seqGluePoints[i];
if (m_seqGluePointLeavingDirections.hasElements())
{
sal_Int32 aGluePointLeavingDirection = m_seqGluePointLeavingDirections[i];
aDirection = lcl_GetEscapeDirection(aGluePointLeavingDirection);
}
SdrGluePoint aGluePoint;
aGluePoint.SetPos( GetPoint( aGluePointPair, !m_bOOXMLShape, true ) );
aGluePoint.SetPercent( false );
aGluePoint.SetAlign( SdrAlign::VERT_TOP | SdrAlign::HORZ_LEFT );
aGluePoint.SetEscDir( aDirection );
SdrGluePointList* pList = pObj->ForceGluePointList();
if( pList )
/* sal_uInt16 nId = */ pList->Insert( aGluePoint );
}
}
rtl::Reference<SdrObject> EnhancedCustomShape2d::CreateLineGeometry()
{
return CreateObject( true );
}
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