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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 "oox/vml/vmlformatting.hxx"
#include <com/sun/star/table/ShadowFormat.hpp>
#include <rtl/strbuf.hxx>
#include "oox/drawingml/color.hxx"
#include "oox/drawingml/drawingmltypes.hxx"
#include "oox/drawingml/fillproperties.hxx"
#include "oox/drawingml/lineproperties.hxx"
#include "oox/drawingml/shapepropertymap.hxx"
#include "oox/helper/attributelist.hxx"
#include "oox/helper/graphichelper.hxx"
namespace oox {
namespace vml {
// ============================================================================
using namespace ::com::sun::star;
using namespace ::com::sun::star::geometry;
using ::oox::drawingml::Color;
using ::oox::drawingml::FillProperties;
using ::oox::drawingml::LineArrowProperties;
using ::oox::drawingml::LineProperties;
using ::oox::drawingml::ShapePropertyMap;
using ::rtl::OStringBuffer;
using ::rtl::OUString;
using ::com::sun::star::awt::Point;
using ::com::sun::star::drawing::PolygonFlags;
using ::com::sun::star::drawing::PolygonFlags_NORMAL;
using ::com::sun::star::drawing::PolygonFlags_CONTROL;
// ============================================================================
namespace {
bool lclExtractDouble( double& orfValue, sal_Int32& ornEndPos, const OUString& rValue )
{
// extract the double value and find start position of unit characters
rtl_math_ConversionStatus eConvStatus = rtl_math_ConversionStatus_Ok;
orfValue = ::rtl::math::stringToDouble( rValue, '.', '\0', &eConvStatus, &ornEndPos );
return eConvStatus == rtl_math_ConversionStatus_Ok;
}
} // namespace
// ----------------------------------------------------------------------------
/*static*/ bool ConversionHelper::separatePair( OUString& orValue1, OUString& orValue2,
const OUString& rValue, sal_Unicode cSep )
{
sal_Int32 nSepPos = rValue.indexOf( cSep );
if( nSepPos >= 0 )
{
orValue1 = rValue.copy( 0, nSepPos ).trim();
orValue2 = rValue.copy( nSepPos + 1 ).trim();
}
else
{
orValue1 = rValue.trim();
}
return !orValue1.isEmpty() && !orValue2.isEmpty();
}
/*static*/ bool ConversionHelper::decodeBool( const OUString& rValue )
{
sal_Int32 nToken = AttributeConversion::decodeToken( rValue );
// anything else than 't' or 'true' is considered to be false, as specified
return (nToken == XML_t) || (nToken == XML_true);
}
/*static*/ double ConversionHelper::decodePercent( const OUString& rValue, double fDefValue )
{
if( rValue.isEmpty() )
return fDefValue;
double fValue = 0.0;
sal_Int32 nEndPos = 0;
if( !lclExtractDouble( fValue, nEndPos, rValue ) )
return fDefValue;
if( nEndPos == rValue.getLength() )
return fValue;
if( (nEndPos + 1 == rValue.getLength()) && (rValue[ nEndPos ] == '%') )
return fValue / 100.0;
if( (nEndPos + 1 == rValue.getLength()) && (rValue[ nEndPos ] == 'f') )
return fValue / 65536.0;
OSL_FAIL( "ConversionHelper::decodePercent - unknown measure unit" );
return fDefValue;
}
/*static*/ sal_Int64 ConversionHelper::decodeMeasureToEmu( const GraphicHelper& rGraphicHelper,
const OUString& rValue, sal_Int32 nRefValue, bool bPixelX, bool bDefaultAsPixel )
{
// default for missing values is 0
if( rValue.isEmpty() )
return 0;
// TODO: according to spec, value may contain "auto"
if ( rValue == "auto" )
{
OSL_FAIL( "ConversionHelper::decodeMeasureToEmu - special value 'auto' must be handled by caller" );
return nRefValue;
}
// extract the double value and find start position of unit characters
double fValue = 0.0;
sal_Int32 nEndPos = 0;
if( !lclExtractDouble( fValue, nEndPos, rValue ) || (fValue == 0.0) )
return 0;
// process trailing unit, convert to EMU
OUString aUnit;
if( (0 < nEndPos) && (nEndPos < rValue.getLength()) )
aUnit = rValue.copy( nEndPos );
else if( bDefaultAsPixel )
aUnit = "px";
// else default is EMU
if( aUnit.getLength() == 2 )
{
sal_Unicode cChar1 = aUnit[ 0 ];
sal_Unicode cChar2 = aUnit[ 1 ];
if( (cChar1 == 'i') && (cChar2 == 'n') ) // 1 inch = 914,400 EMU
fValue *= 914400.0;
else if( (cChar1 == 'c') && (cChar2 == 'm') ) // 1 cm = 360,000 EMU
fValue *= 360000.0;
else if( (cChar1 == 'm') && (cChar2 == 'm') ) // 1 mm = 36,000 EMU
fValue *= 36000.0;
else if( (cChar1 == 'p') && (cChar2 == 't') ) // 1 point = 1/72 inch = 12,700 EMU
fValue *= 12700.0;
else if( (cChar1 == 'p') && (cChar2 == 'c') ) // 1 pica = 1/6 inch = 152,400 EMU
fValue *= 152400.0;
else if( (cChar1 == 'p') && (cChar2 == 'x') ) // 1 pixel, dependent on output device
fValue = static_cast< double >( ::oox::drawingml::convertHmmToEmu(
bPixelX ?
rGraphicHelper.convertScreenPixelXToHmm( fValue ) :
rGraphicHelper.convertScreenPixelYToHmm( fValue ) ) );
}
else if( (aUnit.getLength() == 1) && (aUnit[ 0 ] == '%') )
{
fValue *= nRefValue / 100.0;
}
else if( bDefaultAsPixel || !aUnit.isEmpty() ) // default as EMU and no unit -> do nothing
{
OSL_FAIL( "ConversionHelper::decodeMeasureToEmu - unknown measure unit" );
fValue = nRefValue;
}
return static_cast< sal_Int64 >( fValue + 0.5 );
}
/*static*/ sal_Int32 ConversionHelper::decodeMeasureToHmm( const GraphicHelper& rGraphicHelper,
const OUString& rValue, sal_Int32 nRefValue, bool bPixelX, bool bDefaultAsPixel )
{
return ::oox::drawingml::convertEmuToHmm( decodeMeasureToEmu( rGraphicHelper, rValue, nRefValue, bPixelX, bDefaultAsPixel ) );
}
/*static*/ Color ConversionHelper::decodeColor( const GraphicHelper& rGraphicHelper,
const OptValue< OUString >& roVmlColor, const OptValue< double >& roVmlOpacity,
sal_Int32 nDefaultRgb, sal_Int32 nPrimaryRgb )
{
Color aDmlColor;
// convert opacity
const sal_Int32 DML_FULL_OPAQUE = ::oox::drawingml::MAX_PERCENT;
double fOpacity = roVmlOpacity.get( 1.0 );
sal_Int32 nOpacity = getLimitedValue< sal_Int32, double >( fOpacity * DML_FULL_OPAQUE, 0, DML_FULL_OPAQUE );
if( nOpacity < DML_FULL_OPAQUE )
aDmlColor.addTransformation( XML_alpha, nOpacity );
// color attribute not present - set passed default color
if( !roVmlColor.has() )
{
aDmlColor.setSrgbClr( nDefaultRgb );
return aDmlColor;
}
// separate leading color name or RGB value from following palette index
OUString aColorName, aColorIndex;
separatePair( aColorName, aColorIndex, roVmlColor.get(), ' ' );
// RGB colors in the format '#RRGGBB'
if( (aColorName.getLength() == 7) && (aColorName[ 0 ] == '#') )
{
aDmlColor.setSrgbClr( aColorName.copy( 1 ).toInt32( 16 ) );
return aDmlColor;
}
// RGB colors in the format '#RGB'
if( (aColorName.getLength() == 4) && (aColorName[ 0 ] == '#') )
{
sal_Int32 nR = aColorName.copy( 1, 1 ).toInt32( 16 ) * 0x11;
sal_Int32 nG = aColorName.copy( 2, 1 ).toInt32( 16 ) * 0x11;
sal_Int32 nB = aColorName.copy( 3, 1 ).toInt32( 16 ) * 0x11;
aDmlColor.setSrgbClr( (nR << 16) | (nG << 8) | nB );
return aDmlColor;
}
/* Predefined color names or system color names (resolve to RGB to detect
valid color name). */
sal_Int32 nColorToken = AttributeConversion::decodeToken( aColorName );
sal_Int32 nRgbValue = Color::getVmlPresetColor( nColorToken, API_RGB_TRANSPARENT );
if( nRgbValue == API_RGB_TRANSPARENT )
nRgbValue = rGraphicHelper.getSystemColor( nColorToken, API_RGB_TRANSPARENT );
if( nRgbValue != API_RGB_TRANSPARENT )
{
aDmlColor.setSrgbClr( nRgbValue );
return aDmlColor;
}
// try palette colors enclosed in brackets
if( (aColorIndex.getLength() >= 3) && (aColorIndex[ 0 ] == '[') && (aColorIndex[ aColorIndex.getLength() - 1 ] == ']') )
{
aDmlColor.setPaletteClr( aColorIndex.copy( 1, aColorIndex.getLength() - 2 ).toInt32() );
return aDmlColor;
}
// try fill gradient modificator 'fill <modifier>(<amount>)'
if( (nPrimaryRgb != API_RGB_TRANSPARENT) && (nColorToken == XML_fill) )
{
sal_Int32 nOpenParen = aColorIndex.indexOf( '(' );
sal_Int32 nCloseParen = aColorIndex.indexOf( ')' );
if( (2 <= nOpenParen) && (nOpenParen + 1 < nCloseParen) && (nCloseParen + 1 == aColorIndex.getLength()) )
{
sal_Int32 nModToken = XML_TOKEN_INVALID;
switch( AttributeConversion::decodeToken( aColorIndex.copy( 0, nOpenParen ) ) )
{
case XML_darken: nModToken = XML_shade;break;
case XML_lighten: nModToken = XML_tint;
}
sal_Int32 nValue = aColorIndex.copy( nOpenParen + 1, nCloseParen - nOpenParen - 1 ).toInt32();
if( (nModToken != XML_TOKEN_INVALID) && (0 <= nValue) && (nValue < 255) )
{
/* Simulate this modifier color by a color with related transformation.
The modifier amount has to be converted from the range [0;255] to
percentage [0;100000] used by DrawingML. */
aDmlColor.setSrgbClr( nPrimaryRgb );
aDmlColor.addTransformation( nModToken, static_cast< sal_Int32 >( nValue * ::oox::drawingml::MAX_PERCENT / 255 ) );
return aDmlColor;
}
}
}
OSL_FAIL( OStringBuffer( "lclGetColor - invalid VML color name '" ).
append( OUStringToOString( roVmlColor.get(), RTL_TEXTENCODING_ASCII_US ) ).append( '\'' ).getStr() );
aDmlColor.setSrgbClr( nDefaultRgb );
return aDmlColor;
}
/*static*/ void ConversionHelper::decodeVmlPath( ::std::vector< ::std::vector< Point > >& rPointLists, ::std::vector< ::std::vector< PolygonFlags > >& rFlagLists, const OUString& rPath )
{
::std::vector< sal_Int32 > aCoordList;
Point aCurrentPoint;
sal_Int32 nTokenStart = 0;
sal_Int32 nTokenLen = 0;
sal_Int32 nParamCount = 0;
enum VML_State { START, MOVE_REL, MOVE_ABS, BEZIER_REL, BEZIER_ABS,
LINE_REL, LINE_ABS, CLOSE, END };
VML_State state = START;
rPointLists.push_back( ::std::vector< Point>() );
rFlagLists.push_back( ::std::vector< PolygonFlags >() );
for ( sal_Int32 i = 0; i < rPath.getLength(); i++ )
{
// Keep track of current integer token
if ( ( rPath[ i ] >= '0' && rPath[ i ] <= '9' ) || rPath[ i ] == '-' )
nTokenLen++;
else if ( rPath[ i ] != ' ' )
{
// Store coordinate from current token
if ( state != START )
{
if ( nTokenLen > 0 )
aCoordList.push_back( rPath.copy( nTokenStart, nTokenLen ).toInt32() );
else
aCoordList.push_back( 0 );
nTokenLen = 0;
}
if (rPath[ i ] == ',' )
{
nParamCount--;
}
// Upon finding the next command code, deal with stored
// coordinates for previous command and reset parameters counter if needed.
// See http://www.w3.org/TR/NOTE-VML#_Toc416858382 for params count reference
if ( rPath[ i ] != ',' || nParamCount == 0)
{
switch ( state )
{
case MOVE_REL: // 2* params -> param count reset
rPointLists.back().push_back( Point( aCoordList[ 0 ], aCoordList[ 1 ] ) );
rFlagLists.back().push_back( PolygonFlags_NORMAL );
aCurrentPoint = rPointLists.back().back();
nParamCount = 2 * 2;
break;
case MOVE_ABS: // 2 params -> no param count reset
rPointLists.back().push_back( Point( aCoordList[ 0 ], aCoordList[ 1 ] ) );
rFlagLists.back().push_back( PolygonFlags_NORMAL );
aCurrentPoint = rPointLists.back().back();
break;
case BEZIER_REL: // 6* params -> param count reset
rPointLists.back().push_back( Point( aCurrentPoint.X + aCoordList[ 0 ],
aCurrentPoint.Y + aCoordList[ 1 ] ) );
rPointLists.back().push_back( Point( aCurrentPoint.X + aCoordList[ 2 ],
aCurrentPoint.Y + aCoordList[ 3 ] ) );
rPointLists.back().push_back( Point( aCurrentPoint.X + aCoordList[ 4 ],
aCurrentPoint.Y + aCoordList[ 5 ] ) );
rFlagLists.back().push_back( PolygonFlags_CONTROL );
rFlagLists.back().push_back( PolygonFlags_CONTROL );
rFlagLists.back().push_back( PolygonFlags_NORMAL );
aCurrentPoint = rPointLists.back().back();
nParamCount = 2 * 6;
break;
case BEZIER_ABS: // 6* params -> param count reset
rPointLists.back().push_back( Point( aCoordList[ 0 ], aCoordList[ 1 ] ) );
rPointLists.back().push_back( Point( aCoordList[ 2 ], aCoordList[ 3 ] ) );
rPointLists.back().push_back( Point( aCoordList[ 4 ], aCoordList[ 5 ] ) );
rFlagLists.back().push_back( PolygonFlags_CONTROL );
rFlagLists.back().push_back( PolygonFlags_CONTROL );
rFlagLists.back().push_back( PolygonFlags_NORMAL );
aCurrentPoint = rPointLists.back().back();
nParamCount = 2 * 6;
break;
case LINE_REL: // 2* params -> param count reset
rPointLists.back().push_back( Point( aCurrentPoint.X + aCoordList[ 0 ],
aCurrentPoint.Y + aCoordList[ 1 ] ) );
rFlagLists.back().push_back( PolygonFlags_NORMAL );
aCurrentPoint = rPointLists.back().back();
nParamCount = 2 * 2;
break;
case LINE_ABS: // 2* params -> param count reset
rPointLists.back().push_back( Point( aCoordList[ 0 ], aCoordList[ 1 ] ) );
rFlagLists.back().push_back( PolygonFlags_NORMAL );
aCurrentPoint = rPointLists.back().back();
nParamCount = 2 * 2;
break;
case CLOSE: // 0 param
rPointLists.back().push_back( rPointLists.back()[ 0 ] );
rFlagLists.back().push_back( rFlagLists.back()[ 0 ] );
aCurrentPoint = rPointLists.back().back();
break;
case END: // 0 param
rPointLists.push_back( ::std::vector< Point >() );
rFlagLists.push_back( ::std::vector< PolygonFlags >() );
break;
case START:
break;
}
aCoordList.clear();
}
// Move on to current command state
switch ( rPath[ i ] )
{
case 't': state = MOVE_REL; nTokenLen = 0; nParamCount = 2 * 2; break;
case 'm': state = MOVE_ABS; nTokenLen = 0; nParamCount = 2 * 2; break;
case 'v': state = BEZIER_REL; nTokenLen = 0; nParamCount = 2 * 6; break;
case 'c': state = BEZIER_ABS; nTokenLen = 0; nParamCount = 2 * 6; break;
case 'r': state = LINE_REL; nTokenLen = 0; nParamCount = 2 * 2; break;
case 'l': state = LINE_ABS; nTokenLen = 0; nParamCount = 2 * 2; break;
case 'x': state = CLOSE; nTokenLen = 0; break;
case 'e': state = END; break;
}
nTokenStart = i+1;
}
}
}
// ============================================================================
namespace {
sal_Int64 lclGetEmu( const GraphicHelper& rGraphicHelper, const OptValue< OUString >& roValue, sal_Int64 nDefValue )
{
return roValue.has() ? ConversionHelper::decodeMeasureToEmu( rGraphicHelper, roValue.get(), 0, false, false ) : nDefValue;
}
void lclGetDmlLineDash( OptValue< sal_Int32 >& oroPresetDash, LineProperties::DashStopVector& orCustomDash, const OptValue< OUString >& roDashStyle )
{
if( roDashStyle.has() )
{
const OUString& rDashStyle = roDashStyle.get();
switch( AttributeConversion::decodeToken( rDashStyle ) )
{
case XML_solid: oroPresetDash = XML_solid; return;
case XML_shortdot: oroPresetDash = XML_sysDot; return;
case XML_shortdash: oroPresetDash = XML_sysDash; return;
case XML_shortdashdot: oroPresetDash = XML_sysDashDot; return;
case XML_shortdashdotdot: oroPresetDash = XML_sysDashDotDot; return;
case XML_dot: oroPresetDash = XML_dot; return;
case XML_dash: oroPresetDash = XML_dash; return;
case XML_dashdot: oroPresetDash = XML_dashDot; return;
case XML_longdash: oroPresetDash = XML_lgDash; return;
case XML_longdashdot: oroPresetDash = XML_lgDashDot; return;
case XML_longdashdotdot: oroPresetDash = XML_lgDashDotDot; return;
// try to convert user-defined dash style
default:
{
::std::vector< sal_Int32 > aValues;
sal_Int32 nIndex = 0;
while( nIndex >= 0 )
aValues.push_back( rDashStyle.getToken( 0, ' ', nIndex ).toInt32() );
size_t nPairs = aValues.size() / 2; // ignore last value if size is odd
for( size_t nPairIdx = 0; nPairIdx < nPairs; ++nPairIdx )
orCustomDash.push_back( LineProperties::DashStop( aValues[ 2 * nPairIdx ], aValues[ 2 * nPairIdx + 1 ] ) );
}
}
}
}
sal_Int32 lclGetDmlArrowType( const OptValue< sal_Int32 >& roArrowType )
{
if( roArrowType.has() ) switch( roArrowType.get() )
{
case XML_none: return XML_none;
case XML_block: return XML_triangle;
case XML_classic: return XML_stealth;
case XML_diamond: return XML_diamond;
case XML_oval: return XML_oval;
case XML_open: return XML_arrow;
}
return XML_none;
}
sal_Int32 lclGetDmlArrowWidth( const OptValue< sal_Int32 >& roArrowWidth )
{
if( roArrowWidth.has() ) switch( roArrowWidth.get() )
{
case XML_narrow: return XML_sm;
case XML_medium: return XML_med;
case XML_wide: return XML_lg;
}
return XML_med;
}
sal_Int32 lclGetDmlArrowLength( const OptValue< sal_Int32 >& roArrowLength )
{
if( roArrowLength.has() ) switch( roArrowLength.get() )
{
case XML_short: return XML_sm;
case XML_medium: return XML_med;
case XML_long: return XML_lg;
}
return XML_med;
}
void lclConvertArrow( LineArrowProperties& orArrowProp, const StrokeArrowModel& rStrokeArrow )
{
orArrowProp.moArrowType = lclGetDmlArrowType( rStrokeArrow.moArrowType );
orArrowProp.moArrowWidth = lclGetDmlArrowWidth( rStrokeArrow.moArrowWidth );
orArrowProp.moArrowLength = lclGetDmlArrowLength( rStrokeArrow.moArrowLength );
}
sal_Int32 lclGetDmlLineCompound( const OptValue< sal_Int32 >& roLineStyle )
{
if( roLineStyle.has() ) switch( roLineStyle.get() )
{
case XML_single: return XML_sng;
case XML_thinThin: return XML_dbl;
case XML_thinThick: return XML_thinThick;
case XML_thickThin: return XML_thickThin;
case XML_thickBetweenThin: return XML_tri;
}
return XML_sng;
}
sal_Int32 lclGetDmlLineCap( const OptValue< sal_Int32 >& roEndCap )
{
if( roEndCap.has() ) switch( roEndCap.get() )
{
case XML_flat: return XML_flat;
case XML_square: return XML_sq;
case XML_round: return XML_rnd;
}
return XML_flat; // different defaults in VML (flat) and DrawingML (square)
}
sal_Int32 lclGetDmlLineJoint( const OptValue< sal_Int32 >& roJoinStyle )
{
if( roJoinStyle.has() ) switch( roJoinStyle.get() )
{
case XML_round: return XML_round;
case XML_bevel: return XML_bevel;
case XML_miter: return XML_miter;
}
return XML_round;
}
} // namespace
// ============================================================================
void StrokeArrowModel::assignUsed( const StrokeArrowModel& rSource )
{
moArrowType.assignIfUsed( rSource.moArrowType );
moArrowWidth.assignIfUsed( rSource.moArrowWidth );
moArrowLength.assignIfUsed( rSource.moArrowLength );
}
// ============================================================================
void StrokeModel::assignUsed( const StrokeModel& rSource )
{
moStroked.assignIfUsed( rSource.moStroked );
maStartArrow.assignUsed( rSource.maStartArrow );
maEndArrow.assignUsed( rSource.maEndArrow );
moColor.assignIfUsed( rSource.moColor );
moOpacity.assignIfUsed( rSource.moOpacity );
moWeight.assignIfUsed( rSource.moWeight );
moDashStyle.assignIfUsed( rSource.moDashStyle );
moLineStyle.assignIfUsed( rSource.moLineStyle );
moEndCap.assignIfUsed( rSource.moEndCap );
moJoinStyle.assignIfUsed( rSource.moJoinStyle );
}
void StrokeModel::pushToPropMap( ShapePropertyMap& rPropMap, const GraphicHelper& rGraphicHelper ) const
{
/* Convert VML line formatting to DrawingML line formatting and let the
DrawingML code do the hard work. */
LineProperties aLineProps;
if( moStroked.get( true ) )
{
aLineProps.maLineFill.moFillType = XML_solidFill;
lclConvertArrow( aLineProps.maStartArrow, maStartArrow );
lclConvertArrow( aLineProps.maEndArrow, maEndArrow );
aLineProps.maLineFill.maFillColor = ConversionHelper::decodeColor( rGraphicHelper, moColor, moOpacity, API_RGB_BLACK );
aLineProps.moLineWidth = getLimitedValue< sal_Int32, sal_Int64 >( lclGetEmu( rGraphicHelper, moWeight, 1 ), 0, SAL_MAX_INT32 );
lclGetDmlLineDash( aLineProps.moPresetDash, aLineProps.maCustomDash, moDashStyle );
aLineProps.moLineCompound = lclGetDmlLineCompound( moLineStyle );
aLineProps.moLineCap = lclGetDmlLineCap( moEndCap );
aLineProps.moLineJoint = lclGetDmlLineJoint( moJoinStyle );
}
else
{
aLineProps.maLineFill.moFillType = XML_noFill;
}
aLineProps.pushToPropMap( rPropMap, rGraphicHelper );
}
// ============================================================================
void FillModel::assignUsed( const FillModel& rSource )
{
moFilled.assignIfUsed( rSource.moFilled );
moColor.assignIfUsed( rSource.moColor );
moOpacity.assignIfUsed( rSource.moOpacity );
moColor2.assignIfUsed( rSource.moColor2 );
moOpacity2.assignIfUsed( rSource.moOpacity2 );
moType.assignIfUsed( rSource.moType );
moAngle.assignIfUsed( rSource.moAngle );
moFocus.assignIfUsed( rSource.moFocus );
moFocusPos.assignIfUsed( rSource.moFocusPos );
moFocusSize.assignIfUsed( rSource.moFocusSize );
moBitmapPath.assignIfUsed( rSource.moBitmapPath );
moRotate.assignIfUsed( rSource.moRotate );
}
void FillModel::pushToPropMap( ShapePropertyMap& rPropMap, const GraphicHelper& rGraphicHelper ) const
{
/* Convert VML fill formatting to DrawingML fill formatting and let the
DrawingML code do the hard work. */
FillProperties aFillProps;
if( moFilled.get( true ) )
{
sal_Int32 nFillType = moType.get( XML_solid );
switch( nFillType )
{
case XML_gradient:
case XML_gradientRadial:
{
aFillProps.moFillType = XML_gradFill;
aFillProps.maGradientProps.moRotateWithShape = moRotate.get( false );
double fFocus = moFocus.get( 0.0 );
// prepare colors
Color aColor1 = ConversionHelper::decodeColor( rGraphicHelper, moColor, moOpacity, API_RGB_WHITE );
Color aColor2 = ConversionHelper::decodeColor( rGraphicHelper, moColor2, moOpacity2, API_RGB_WHITE, aColor1.getColor( rGraphicHelper ) );
// type XML_gradient is linear or axial gradient
if( nFillType == XML_gradient )
{
// normalize angle to range [0;360) degrees
sal_Int32 nVmlAngle = getIntervalValue< sal_Int32, sal_Int32 >( moAngle.get( 0 ), 0, 360 );
// focus of -50% or 50% is axial gradient
if( ((-0.75 <= fFocus) && (fFocus <= -0.25)) || ((0.25 <= fFocus) && (fFocus <= 0.75)) )
{
/* According to spec, focus of 50% is outer-to-inner,
and -50% is inner-to-outer (color to color2).
BUT: For angles >= 180 deg., the behaviour is
reversed... that's not spec'ed of course. So,
[0;180) deg. and 50%, or [180;360) deg. and -50% is
outer-to-inner in fact. */
bool bOuterToInner = (fFocus > 0.0) == (nVmlAngle < 180);
// simulate axial gradient by 3-step DrawingML gradient
const Color& rOuterColor = bOuterToInner ? aColor1 : aColor2;
const Color& rInnerColor = bOuterToInner ? aColor2 : aColor1;
aFillProps.maGradientProps.maGradientStops[ 0.0 ] = aFillProps.maGradientProps.maGradientStops[ 1.0 ] = rOuterColor;
aFillProps.maGradientProps.maGradientStops[ 0.5 ] = rInnerColor;
}
else // focus of -100%, 0%, and 100% is linear gradient
{
/* According to spec, focus of -100% or 100% swaps the
start and stop colors, effectively reversing the
gradient. BUT: For angles >= 180 deg., the
behaviour is reversed. This means that in this case
a focus of 0% swaps the gradient. */
if( ((fFocus < -0.75) || (fFocus > 0.75)) == (nVmlAngle < 180) )
(nVmlAngle += 180) %= 360;
// set the start and stop colors
aFillProps.maGradientProps.maGradientStops[ 0.0 ] = aColor1;
aFillProps.maGradientProps.maGradientStops[ 1.0 ] = aColor2;
}
// VML counts counterclockwise from bottom, DrawingML clockwise from left
sal_Int32 nDmlAngle = (630 - nVmlAngle) % 360;
aFillProps.maGradientProps.moShadeAngle = nDmlAngle * ::oox::drawingml::PER_DEGREE;
}
else // XML_gradientRadial is rectangular gradient
{
aFillProps.maGradientProps.moGradientPath = XML_rect;
// convert VML focus position and size to DrawingML fill-to-rect
DoublePair aFocusPos = moFocusPos.get( DoublePair( 0.0, 0.0 ) );
DoublePair aFocusSize = moFocusSize.get( DoublePair( 0.0, 0.0 ) );
double fLeft = getLimitedValue< double, double >( aFocusPos.first, 0.0, 1.0 );
double fTop = getLimitedValue< double, double >( aFocusPos.second, 0.0, 1.0 );
double fRight = getLimitedValue< double, double >( fLeft + aFocusSize.first, fLeft, 1.0 );
double fBottom = getLimitedValue< double, double >( fTop + aFocusSize.second, fTop, 1.0 );
aFillProps.maGradientProps.moFillToRect = IntegerRectangle2D(
static_cast< sal_Int32 >( fLeft * ::oox::drawingml::MAX_PERCENT ),
static_cast< sal_Int32 >( fTop * ::oox::drawingml::MAX_PERCENT ),
static_cast< sal_Int32 >( (1.0 - fRight) * ::oox::drawingml::MAX_PERCENT ),
static_cast< sal_Int32 >( (1.0 - fBottom) * ::oox::drawingml::MAX_PERCENT ) );
// set the start and stop colors (focus of 0% means outer-to-inner)
bool bOuterToInner = (-0.5 <= fFocus) && (fFocus <= 0.5);
aFillProps.maGradientProps.maGradientStops[ 0.0 ] = bOuterToInner ? aColor2 : aColor1;
aFillProps.maGradientProps.maGradientStops[ 1.0 ] = bOuterToInner ? aColor1 : aColor2;
}
}
break;
case XML_pattern:
case XML_tile:
case XML_frame:
{
if( moBitmapPath.has() && !moBitmapPath.get().isEmpty() )
{
aFillProps.maBlipProps.mxGraphic = rGraphicHelper.importEmbeddedGraphic( moBitmapPath.get() );
if( aFillProps.maBlipProps.mxGraphic.is() )
{
aFillProps.moFillType = XML_blipFill;
aFillProps.maBlipProps.moBitmapMode = (nFillType == XML_frame) ? XML_stretch : XML_tile;
break; // do not break if bitmap is missing, but run to XML_solid instead
}
}
}
// run-through to XML_solid in case of missing bitmap path intended!
case XML_solid:
default:
{
aFillProps.moFillType = XML_solidFill;
// fill color (default is white)
aFillProps.maFillColor = ConversionHelper::decodeColor( rGraphicHelper, moColor, moOpacity, API_RGB_WHITE );
}
}
}
else
{
aFillProps.moFillType = XML_noFill;
}
aFillProps.pushToPropMap( rPropMap, rGraphicHelper );
}
// ============================================================================
ShadowModel::ShadowModel()
: mbHasShadow(false)
{
}
void ShadowModel::pushToPropMap(ShapePropertyMap& rPropMap, const GraphicHelper& rGraphicHelper) const
{
if (!mbHasShadow || (moShadowOn.has() && !moShadowOn.get()))
return;
drawingml::Color aColor = ConversionHelper::decodeColor(rGraphicHelper, moColor, moOpacity, API_RGB_GRAY);
// nOffset* is in mm100, default value is 35 twips, see DffPropertyReader::ApplyAttributes() in msfilter.
sal_Int32 nOffsetX = 62, nOffsetY = 62;
if (moOffset.has())
{
OUString aOffsetX, aOffsetY;
ConversionHelper::separatePair(aOffsetX, aOffsetY, moOffset.get(), ',');
if (!aOffsetX.isEmpty())
nOffsetX = ConversionHelper::decodeMeasureToHmm(rGraphicHelper, aOffsetX, 0, false, false );
if (!aOffsetY.isEmpty())
nOffsetY = ConversionHelper::decodeMeasureToHmm(rGraphicHelper, aOffsetY, 0, false, false );
}
table::ShadowFormat aFormat;
aFormat.Color = aColor.getColor(rGraphicHelper);
aFormat.Location = table::ShadowLocation_BOTTOM_RIGHT;
// The width of the shadow is the average of the x and y values, see SwWW8ImplReader::MatchSdrItemsIntoFlySet().
aFormat.ShadowWidth = ((nOffsetX + nOffsetY) / 2);
rPropMap.setProperty(PROP_ShadowFormat, uno::makeAny(aFormat));
}
} // namespace vml
} // namespace oox
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