source/drawingml/customshapeproperties.cxx

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#include "oox/drawingml/customshapeproperties.hxx"
#include "oox/helper/helper.hxx"
#include "oox/helper/propertymap.hxx"
#include "oox/helper/propertyset.hxx"
#include <com/sun/star/awt/Rectangle.hpp>
#include <com/sun/star/beans/XMultiPropertySet.hpp>
#include <com/sun/star/lang/XMultiServiceFactory.hpp>
#include <com/sun/star/graphic/XGraphicTransformer.hpp>
#include <com/sun/star/drawing/XShape.hpp>
#include <com/sun/star/drawing/XEnhancedCustomShapeDefaulter.hpp>

using rtl::OUString;
using namespace ::oox::core;
using namespace ::com::sun::star;
using namespace ::com::sun::star::uno;
using namespace ::com::sun::star::beans;
using namespace ::com::sun::star::graphic;
using namespace ::com::sun::star::drawing;

namespace oox { namespace drawingml {

CustomShapeProperties::CustomShapeProperties()
: mbMirroredX   ( sal_False )
, mbMirroredY   ( sal_False )
{
}
CustomShapeProperties::~CustomShapeProperties()
{
}

sal_Int32 CustomShapeProperties::SetCustomShapeGuideValue( std::vector< CustomShapeGuide >& rGuideList, const CustomShapeGuide& rGuide )
{
    sal_uInt32 nIndex = 0;
    for( ; nIndex < rGuideList.size(); nIndex++ )
    {
        if ( rGuideList[ nIndex ].maName == rGuide.maName )
            break;
    }
    if ( nIndex == rGuideList.size() )
        rGuideList.push_back( rGuide );
    return static_cast< sal_Int32 >( nIndex );
}

// returns the index into the guidelist for a given formula name,
// if the return value is < 0 then the guide value could not be found
sal_Int32 CustomShapeProperties::GetCustomShapeGuideValue( const std::vector< CustomShapeGuide >& rGuideList, const rtl::OUString& rFormulaName )
{
    sal_Int32 nIndex = 0;
    for( ; nIndex < static_cast< sal_Int32 >( rGuideList.size() ); nIndex++ )
    {
        if ( rGuideList[ nIndex ].maName == rFormulaName )
            break;
    }
    if ( nIndex == static_cast< sal_Int32 >( rGuideList.size() ) )
        nIndex = -1;
    return nIndex;
}

void CustomShapeProperties::apply( const CustomShapePropertiesPtr& /* rSourceCustomShapeProperties */ )
{
    // not sure if this needs to be implemented
}

void CustomShapeProperties::pushToPropSet( const ::oox::core::FilterBase& /* rFilterBase */,
    const Reference < XPropertySet >& xPropSet, const Reference < XShape > & xShape ) const
{
    if ( maShapePresetType.getLength() )
    {
        //const uno::Reference < drawing::XShape > xShape( xPropSet, UNO_QUERY );
        Reference< drawing::XEnhancedCustomShapeDefaulter > xDefaulter( xShape, UNO_QUERY );
        if( xDefaulter.is() )
            xDefaulter->createCustomShapeDefaults( maShapePresetType );

        if ( maAdjustmentGuideList.size() )
        {
            const OUString sType = CREATE_OUSTRING( "Type" );
            const OUString sCustomShapeGeometry( RTL_CONSTASCII_USTRINGPARAM( "CustomShapeGeometry" ) );
            uno::Any aGeoPropSet = xPropSet->getPropertyValue( sCustomShapeGeometry );
            uno::Sequence< beans::PropertyValue > aGeoPropSeq;
            if ( aGeoPropSet >>= aGeoPropSeq )
            {
                sal_Int32 i, nCount = aGeoPropSeq.getLength();
                for ( i = 0; i < nCount; i++ )
                {
                    const rtl::OUString sAdjustmentValues( RTL_CONSTASCII_USTRINGPARAM( "AdjustmentValues" ) );
                    if ( aGeoPropSeq[ i ].Name.equals( sAdjustmentValues ) )
                    {
                        uno::Sequence< com::sun::star::drawing::EnhancedCustomShapeAdjustmentValue > aAdjustmentSeq;
                        if ( aGeoPropSeq[ i ].Value >>= aAdjustmentSeq )
                        {
                            std::vector< CustomShapeGuide >::const_iterator aIter( maAdjustmentGuideList.begin() );
                            while( aIter != maAdjustmentGuideList.end() )
                            {
                                if ( (*aIter).maName.getLength() > 3 )
                                {
                                    sal_Int32 nAdjustmentIndex = (*aIter).maName.copy( 3 ).toInt32() - 1;
                                    if ( ( nAdjustmentIndex >= 0 ) && ( nAdjustmentIndex < aAdjustmentSeq.getLength() ) )
                                    {
                                        EnhancedCustomShapeAdjustmentValue aAdjustmentVal;
                                        aAdjustmentVal.Value <<= (*aIter).maFormula.toInt32();
                                        aAdjustmentVal.State = PropertyState_DIRECT_VALUE;
                                        aAdjustmentSeq[ nAdjustmentIndex ] = aAdjustmentVal;
                                    }
                                }
                                aIter++;
                            }
                            aGeoPropSeq[ i ].Value <<= aAdjustmentSeq;
                            xPropSet->setPropertyValue( sCustomShapeGeometry, Any( aGeoPropSeq ) );
                        }
                    }
                    else if ( aGeoPropSeq[ i ].Name.equals( sType ) )
                    {
                        aGeoPropSeq[ i ].Value <<= maShapePresetType;
                    }
                }
            }
        }
    }
    else
    {
        sal_uInt32 i;
        PropertyMap aPropertyMap;
        aPropertyMap[ PROP_Type ] <<= CREATE_OUSTRING( "non-primitive" );
        aPropertyMap[ PROP_MirroredX ] <<= Any( mbMirroredX );
        aPropertyMap[ PROP_MirroredY ] <<= Any( mbMirroredY );
        awt::Size aSize( xShape->getSize() );
        awt::Rectangle aViewBox( 0, 0, aSize.Width * 360, aSize.Height * 360 );
        if ( maPath2DList.size() )
        {   // TODO: each polygon may have its own size, but I think it is rather been used
            // so we are only taking care of the first
            if ( maPath2DList[ 0 ].w )
                aViewBox.Width = static_cast< sal_Int32 >( maPath2DList[ 0 ].w );
            if ( maPath2DList[ 0 ].h )
                aViewBox.Height = static_cast< sal_Int32 >( maPath2DList[ 0 ].h );
        }
        aPropertyMap[ PROP_ViewBox ] <<= aViewBox;

        Sequence< EnhancedCustomShapeAdjustmentValue > aAdjustmentValues( maAdjustmentGuideList.size() );
        for ( i = 0; i < maAdjustmentGuideList.size(); i++ )
        {
            EnhancedCustomShapeAdjustmentValue aAdjustmentVal;
            aAdjustmentVal.Value <<= maAdjustmentGuideList[ i ].maFormula.toInt32();
            aAdjustmentVal.State = PropertyState_DIRECT_VALUE;
            aAdjustmentValues[ i ] = aAdjustmentVal;
        }
        aPropertyMap[ PROP_AdjustmentValues ] <<= aAdjustmentValues;

        Sequence< rtl::OUString > aEquations( maGuideList.size() );
        for ( i = 0; i < maGuideList.size(); i++ )
            aEquations[ i ] = maGuideList[ i ].maFormula;
        aPropertyMap[ PROP_Equations ] <<= aEquations;

        PropertyMap aPath;
        Sequence< EnhancedCustomShapeSegment > aSegments( maSegments.size() );
        for ( i = 0; i < maSegments.size(); i++ )
            aSegments[ i ] = maSegments[ i ];
        aPath[ PROP_Segments ] <<= aSegments;
        sal_uInt32 j, k, nParameterPairs = 0;
        for ( i = 0; i < maPath2DList.size(); i++ )
            nParameterPairs += maPath2DList[ i ].parameter.size();
        Sequence< EnhancedCustomShapeParameterPair > aParameterPairs( nParameterPairs );
        for ( i = 0, k = 0; i < maPath2DList.size(); i++ )
            for ( j = 0; j < maPath2DList[ i ].parameter.size(); j++ )
                aParameterPairs[ k++ ] = maPath2DList[ i ].parameter[ j ];
        aPath[ PROP_Coordinates ] <<= aParameterPairs;
        Sequence< PropertyValue > aPathSequence = aPath.makePropertyValueSequence();
        aPropertyMap[ PROP_Path ] <<= aPathSequence;

        Sequence< PropertyValues > aHandles( maAdjustHandleList.size() );
        for ( i = 0; i < maAdjustHandleList.size(); i++ )
        {
            PropertyMap aHandle;
            // maAdjustmentHandle[ i ].gdRef1 ... maAdjustmentHandle[ i ].gdRef2 ... :(
            // gdRef1 && gdRef2 -> we do not offer such reference, so it is difficult
            // to determine the correct adjustment handle that should be updated with the adjustment
            // position. here is the solution: the adjustment value that is used within the position
            // has to be updated, in case the position is a formula the first usage of a
            // adjument value is decisive
            if ( maAdjustHandleList[ i ].polar )
            {
                aHandle[ PROP_Position ] <<= maAdjustHandleList[ i ].pos;
                if ( maAdjustHandleList[ i ].min1.has() )
                    aHandle[ PROP_RadiusRangeMinimum ] <<= maAdjustHandleList[ i ].min1.get();
                if ( maAdjustHandleList[ i ].max1.has() )
                    aHandle[ PROP_RadiusRangeMaximum ] <<= maAdjustHandleList[ i ].max1.get();

                /* TODO: AngleMin & AngleMax
                if ( maAdjustHandleList[ i ].min2.has() )
                    aHandle[ PROP_ ] = maAdjustHandleList[ i ].min2.get();
                if ( maAdjustHandleList[ i ].max2.has() )
                    aHandle[ PROP_ ] = maAdjustHandleList[ i ].max2.get();
                */
            }
            else
            {
                aHandle[ PROP_Position ] <<= maAdjustHandleList[ i ].pos;
                if ( maAdjustHandleList[ i ].gdRef1.has() )
                {
                    // TODO: PROP_RefX and PROP_RefY are not yet part of our file format,
                    // so the handles will not work after save/reload
                    sal_Int32 nIndex = GetCustomShapeGuideValue( maAdjustmentGuideList, maAdjustHandleList[ i ].gdRef1.get() );
                    if ( nIndex >= 0 )
                        aHandle[ PROP_RefX ] <<= nIndex;
                }
                if ( maAdjustHandleList[ i ].gdRef2.has() )
                {
                    sal_Int32 nIndex = GetCustomShapeGuideValue( maAdjustmentGuideList, maAdjustHandleList[ i ].gdRef2.get() );
                    if ( nIndex >= 0 )
                        aHandle[ PROP_RefY ] <<= nIndex;
                }
                if ( maAdjustHandleList[ i ].min1.has() )
                    aHandle[ PROP_RangeXMinimum ] <<= maAdjustHandleList[ i ].min1.get();
                if ( maAdjustHandleList[ i ].max1.has() )
                    aHandle[ PROP_RangeXMaximum ] <<= maAdjustHandleList[ i ].max1.get();
                if ( maAdjustHandleList[ i ].min2.has() )
                    aHandle[ PROP_RangeYMinimum ] <<= maAdjustHandleList[ i ].min2.get();
                if ( maAdjustHandleList[ i ].max2.has() )
                    aHandle[ PROP_RangeYMaximum ] <<= maAdjustHandleList[ i ].max2.get();
            }
            aHandles[ i ] = aHandle.makePropertyValueSequence();
        }
        aPropertyMap[ PROP_Handles ] <<= aHandles;

        // converting the vector to a sequence
        Sequence< PropertyValue > aSeq = aPropertyMap.makePropertyValueSequence();
        PropertySet aPropSet( xPropSet );
        aPropSet.setProperty( PROP_CustomShapeGeometry, aSeq );
    }
}

double CustomShapeProperties::getValue( const std::vector< CustomShapeGuide >& rGuideList, sal_uInt32 nIndex ) const
{
    double fRet = 0.0;
    if ( nIndex < rGuideList.size() )
    {

    }
    return fRet;
}

} }