/* -*- 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 "DataSeriesPointWrapper.hxx"
#include "Chart2ModelContact.hxx"
#include <ChartType.hxx>
#include <ChartTypeHelper.hxx>
#include <DiagramHelper.hxx>
#include <DataSeries.hxx>
#include <DataSeriesProperties.hxx>
#include <LinePropertiesHelper.hxx>
#include <FillProperties.hxx>
#include <CharacterProperties.hxx>
#include <UserDefinedProperties.hxx>
#include "WrappedCharacterHeightProperty.hxx"
#include <WrappedProperty.hxx>
#include <WrappedIgnoreProperty.hxx>
#include "WrappedStatisticProperties.hxx"
#include "WrappedSymbolProperties.hxx"
#include "WrappedDataCaptionProperties.hxx"
#include "WrappedSeriesAreaOrLineProperty.hxx"
#include "WrappedScaleTextProperties.hxx"
#include "WrappedNumberFormatProperty.hxx"
#include "WrappedTextRotationProperty.hxx"
#include <unonames.hxx>
#include <o3tl/safeint.hxx>
#include <rtl/math.hxx>
#include <algorithm>
#include <cppuhelper/supportsservice.hxx>
#include <com/sun/star/beans/PropertyAttribute.hpp>
#include <com/sun/star/chart/ChartAxisAssign.hpp>
#include <com/sun/star/chart/ChartErrorCategory.hpp>
#include <com/sun/star/chart/ChartSymbolType.hpp>
#include <com/sun/star/chart2/XDataSeries.hpp>
#include <com/sun/star/drawing/LineJoint.hpp>
#include <com/sun/star/drawing/LineStyle.hpp>
#include <com/sun/star/drawing/FillStyle.hpp>
#include <com/sun/star/lang/WrappedTargetRuntimeException.hpp>
#include <comphelper/sequence.hxx>
#include <cppuhelper/exc_hlp.hxx>
#include <cppuhelper/propshlp.hxx>
using namespace ::com::sun::star;
using namespace ::chart::wrapper;
using namespace ::chart::DataSeriesProperties;
using ::com::sun::star::uno::Reference;
using ::com::sun::star::uno::Sequence;
using ::com::sun::star::beans::Property;
using ::com::sun::star::uno::Any;
namespace
{
enum
{
//data point properties
PROP_SERIES_DATAPOINT_SOLIDTYPE,
PROP_SERIES_DATAPOINT_SEGMENT_OFFSET,
PROP_SERIES_DATAPOINT_PERCENT_DIAGONAL,
PROP_SERIES_DATAPOINT_LABEL_SEPARATOR,
PROP_SERIES_NUMBERFORMAT,
PROP_SERIES_LINK_NUMBERFORMAT_TO_SOURCE,
PROP_SERIES_PERCENTAGE_NUMBERFORMAT,
PROP_SERIES_DATAPOINT_TEXT_WORD_WRAP,
PROP_SERIES_DATAPOINT_LABEL_PLACEMENT,
//other series properties
PROP_SERIES_ATTACHED_AXIS,
PROP_SERIES_SHOW_CUSTOM_LEADERLINES,
PROP_SERIES_DATAPOINT_TEXT_ROTATION,
PROP_SERIES_DATAPOINT_LABEL_BORDER_STYLE,
PROP_SERIES_DATAPOINT_LABEL_BORDER_WIDTH,
PROP_SERIES_DATAPOINT_LABEL_BORDER_COLOR,
PROP_SERIES_DATAPOINT_LABEL_BORDER_TRANS,
PROP_SERIES_DATAPOINT_LABEL_FILL_STYLE,
PROP_SERIES_DATAPOINT_LABEL_FILL_COLOR,
PROP_SERIES_DATAPOINT_LABEL_FILL_BACKGROUND,
PROP_SERIES_DATAPOINT_LABEL_FILL_HATCH_NAME
};
void lcl_AddPropertiesToVector_PointProperties(
std::vector< Property > & rOutProperties )
{
//service chart::Chart3DBarProperties
rOutProperties.emplace_back( "SolidType",
PROP_SERIES_DATAPOINT_SOLIDTYPE,
cppu::UnoType<sal_Int32>::get(),
beans::PropertyAttribute::BOUND
| beans::PropertyAttribute::MAYBEDEFAULT );
rOutProperties.emplace_back( "SegmentOffset",
PROP_SERIES_DATAPOINT_SEGMENT_OFFSET,
cppu::UnoType<sal_Int32>::get(),
beans::PropertyAttribute::BOUND
| beans::PropertyAttribute::MAYBEDEFAULT );
rOutProperties.emplace_back( "D3DPercentDiagonal",
PROP_SERIES_DATAPOINT_PERCENT_DIAGONAL,
cppu::UnoType<sal_Int16>::get(),
beans::PropertyAttribute::BOUND
| beans::PropertyAttribute::MAYBEVOID );
rOutProperties.emplace_back( "LabelSeparator",
PROP_SERIES_DATAPOINT_LABEL_SEPARATOR,
cppu::UnoType<OUString>::get(),
beans::PropertyAttribute::BOUND
| beans::PropertyAttribute::MAYBEDEFAULT );
rOutProperties.emplace_back( CHART_UNONAME_NUMFMT,
PROP_SERIES_NUMBERFORMAT,
cppu::UnoType<sal_Int32>::get(),
beans::PropertyAttribute::BOUND
| beans::PropertyAttribute::MAYBEVOID );
rOutProperties.emplace_back( CHART_UNONAME_LINK_TO_SRC_NUMFMT,
PROP_SERIES_LINK_NUMBERFORMAT_TO_SOURCE,
cppu::UnoType<bool>::get(),
beans::PropertyAttribute::BOUND
| beans::PropertyAttribute::MAYBEDEFAULT );
rOutProperties.emplace_back( "PercentageNumberFormat",
PROP_SERIES_PERCENTAGE_NUMBERFORMAT,
cppu::UnoType<sal_Int32>::get(),
beans::PropertyAttribute::BOUND
| beans::PropertyAttribute::MAYBEVOID );
rOutProperties.emplace_back( "TextWordWrap",
PROP_SERIES_DATAPOINT_TEXT_WORD_WRAP,
cppu::UnoType<bool>::get(),
beans::PropertyAttribute::BOUND
| beans::PropertyAttribute::MAYBEVOID );
rOutProperties.emplace_back( "LabelPlacement",
PROP_SERIES_DATAPOINT_LABEL_PLACEMENT,
cppu::UnoType<sal_Int32>::get(),
beans::PropertyAttribute::BOUND
| beans::PropertyAttribute::MAYBEVOID );
rOutProperties.emplace_back( "TextRotation",
PROP_SERIES_DATAPOINT_TEXT_ROTATION,
cppu::UnoType<sal_Int32>::get(),
beans::PropertyAttribute::BOUND
| beans::PropertyAttribute::MAYBEDEFAULT );
rOutProperties.emplace_back( CHART_UNONAME_LABEL_BORDER_STYLE,
PROP_SERIES_DATAPOINT_LABEL_BORDER_STYLE,
cppu::UnoType<drawing::LineStyle>::get(),
beans::PropertyAttribute::BOUND
| beans::PropertyAttribute::MAYBEDEFAULT );
rOutProperties.emplace_back( CHART_UNONAME_LABEL_FILL_STYLE,
PROP_SERIES_DATAPOINT_LABEL_FILL_STYLE,
cppu::UnoType<drawing::FillStyle>::get(),
beans::PropertyAttribute::BOUND
| beans::PropertyAttribute::MAYBEDEFAULT );
rOutProperties.emplace_back( CHART_UNONAME_LABEL_FILL_COLOR,
PROP_SERIES_DATAPOINT_LABEL_FILL_COLOR,
cppu::UnoType<sal_Int32>::get(),
beans::PropertyAttribute::BOUND
| beans::PropertyAttribute::MAYBEVOID
| beans::PropertyAttribute::MAYBEDEFAULT );
rOutProperties.emplace_back( CHART_UNONAME_LABEL_FILL_BACKGROUND,
PROP_SERIES_DATAPOINT_LABEL_FILL_BACKGROUND,
cppu::UnoType<sal_Bool>::get(),
beans::PropertyAttribute::BOUND
| beans::PropertyAttribute::MAYBEDEFAULT );
rOutProperties.emplace_back( CHART_UNONAME_LABEL_FILL_HATCH_NAME,
PROP_SERIES_DATAPOINT_LABEL_FILL_HATCH_NAME,
cppu::UnoType<OUString>::get(),
beans::PropertyAttribute::BOUND
| beans::PropertyAttribute::MAYBEDEFAULT );
rOutProperties.emplace_back( CHART_UNONAME_LABEL_BORDER_WIDTH,
PROP_SERIES_DATAPOINT_LABEL_BORDER_WIDTH,
cppu::UnoType<sal_Int32>::get(),
beans::PropertyAttribute::BOUND
| beans::PropertyAttribute::MAYBEDEFAULT );
rOutProperties.emplace_back( CHART_UNONAME_LABEL_BORDER_COLOR,
PROP_SERIES_DATAPOINT_LABEL_BORDER_COLOR,
cppu::UnoType<sal_Int32>::get(),
beans::PropertyAttribute::BOUND
| beans::PropertyAttribute::MAYBEVOID // "maybe auto"
| beans::PropertyAttribute::MAYBEDEFAULT );
rOutProperties.emplace_back( CHART_UNONAME_LABEL_BORDER_TRANS,
PROP_SERIES_DATAPOINT_LABEL_BORDER_TRANS,
cppu::UnoType<sal_Int16>::get(),
beans::PropertyAttribute::BOUND
| beans::PropertyAttribute::MAYBEDEFAULT );
}
void lcl_AddPropertiesToVector_SeriesOnly(
std::vector< Property > & rOutProperties )
{
rOutProperties.emplace_back( "Axis",
PROP_SERIES_ATTACHED_AXIS,
cppu::UnoType<sal_Int32>::get(),
beans::PropertyAttribute::BOUND
| beans::PropertyAttribute::MAYBEDEFAULT );
rOutProperties.emplace_back( "ShowCustomLeaderLines",
PROP_SERIES_SHOW_CUSTOM_LEADERLINES,
cppu::UnoType<sal_Bool>::get(),
beans::PropertyAttribute::BOUND
| beans::PropertyAttribute::MAYBEDEFAULT );
}
uno::Sequence< Property > lcl_GetPropertySequence( DataSeriesPointWrapper::eType _eType )
{
std::vector< css::beans::Property > aProperties;
lcl_AddPropertiesToVector_PointProperties( aProperties );
if( _eType == DataSeriesPointWrapper::DATA_SERIES )
{
lcl_AddPropertiesToVector_SeriesOnly( aProperties );
WrappedStatisticProperties::addProperties( aProperties );
}
WrappedSymbolProperties::addProperties( aProperties ); //for series and points
WrappedDataCaptionProperties::addProperties( aProperties ); //for series and points
::chart::FillProperties::AddPropertiesToVector( aProperties );
::chart::LinePropertiesHelper::AddPropertiesToVector( aProperties );
::chart::CharacterProperties::AddPropertiesToVector( aProperties );
::chart::UserDefinedProperties::AddPropertiesToVector( aProperties );
::chart::wrapper::WrappedScaleTextProperties::addProperties( aProperties );
std::sort( aProperties.begin(), aProperties.end(), ::chart::PropertyNameLess() );
return comphelper::containerToSequence( aProperties );
}
const Sequence< Property >& StaticSeriesWrapperPropertyArray()
{
static Sequence< Property > aPropSeq( lcl_GetPropertySequence( DataSeriesPointWrapper::DATA_SERIES ) );
return aPropSeq;
};
const Sequence< Property >& StaticPointWrapperPropertyArray()
{
static Sequence< Property > aPropSeq( lcl_GetPropertySequence( DataSeriesPointWrapper::DATA_POINT ) );
return aPropSeq;
};
//PROP_SERIES_ATTACHED_AXIS
class WrappedAttachedAxisProperty : public ::chart::WrappedProperty
{
public:
explicit WrappedAttachedAxisProperty(const std::shared_ptr<Chart2ModelContact>& spChart2ModelContact);
virtual void setPropertyValue( const Any& rOuterValue, const css::uno::Reference< css::beans::XPropertySet >& xInnerPropertySet ) const override;
virtual Any getPropertyValue( const css::uno::Reference< css::beans::XPropertySet >& xInnerPropertySet ) const override;
virtual Any getPropertyDefault( const css::uno::Reference< css::beans::XPropertyState >& xInnerPropertyState ) const override;
protected:
std::shared_ptr< Chart2ModelContact > m_spChart2ModelContact;
};
WrappedAttachedAxisProperty::WrappedAttachedAxisProperty(
const std::shared_ptr<Chart2ModelContact>& spChart2ModelContact )
: WrappedProperty(u"Axis"_ustr,OUString())
, m_spChart2ModelContact( spChart2ModelContact )
{
}
Any WrappedAttachedAxisProperty::getPropertyDefault( const Reference< beans::XPropertyState >& /*xInnerPropertyState*/ ) const
{
Any aRet;
aRet <<= css::chart::ChartAxisAssign::PRIMARY_Y;
return aRet;
}
Any WrappedAttachedAxisProperty::getPropertyValue( const Reference< beans::XPropertySet >& xInnerPropertySet ) const
{
Any aRet;
rtl::Reference< ::chart::DataSeries > xDataSeries( dynamic_cast<::chart::DataSeries*>(xInnerPropertySet.get()) );
bool bAttachedToMainAxis = ::chart::DiagramHelper::isSeriesAttachedToMainAxis( xDataSeries );
if( bAttachedToMainAxis )
aRet <<= css::chart::ChartAxisAssign::PRIMARY_Y;
else
aRet <<= css::chart::ChartAxisAssign::SECONDARY_Y;
return aRet;
}
void WrappedAttachedAxisProperty::setPropertyValue( const Any& rOuterValue, const Reference< beans::XPropertySet >& xInnerPropertySet ) const
{
rtl::Reference< ::chart::DataSeries > xDataSeries( dynamic_cast<::chart::DataSeries*>(xInnerPropertySet.get()) );
sal_Int32 nChartAxisAssign = css::chart::ChartAxisAssign::PRIMARY_Y;
if( ! (rOuterValue >>= nChartAxisAssign) )
throw lang::IllegalArgumentException(u"Property Axis requires value of type sal_Int32"_ustr, nullptr, 0 );
bool bNewAttachedToMainAxis = nChartAxisAssign == css::chart::ChartAxisAssign::PRIMARY_Y;
bool bOldAttachedToMainAxis = ::chart::DiagramHelper::isSeriesAttachedToMainAxis( xDataSeries );
if( bNewAttachedToMainAxis != bOldAttachedToMainAxis)
{
rtl::Reference< ::chart::Diagram > xDiagram( m_spChart2ModelContact->getDiagram() );
if( xDiagram.is() )
xDiagram->attachSeriesToAxis( bNewAttachedToMainAxis, xDataSeries, m_spChart2ModelContact->m_xContext, false );
}
}
class WrappedSegmentOffsetProperty : public ::chart::WrappedProperty
{
public:
WrappedSegmentOffsetProperty();
protected:
virtual Any convertInnerToOuterValue( const Any& rInnerValue ) const override;
virtual Any convertOuterToInnerValue( const Any& rOuterValue ) const override;
};
WrappedSegmentOffsetProperty::WrappedSegmentOffsetProperty() :
WrappedProperty(u"SegmentOffset"_ustr,u"Offset"_ustr)
{}
Any WrappedSegmentOffsetProperty::convertInnerToOuterValue( const Any& rInnerValue ) const
{
// convert new double offset to former integer segment-offset
double fOffset = 0;
Any aResult( rInnerValue );
if( rInnerValue >>= fOffset )
aResult <<= static_cast< sal_Int32 >( ::rtl::math::round( fOffset * 100.0 ));
return aResult;
}
Any WrappedSegmentOffsetProperty::convertOuterToInnerValue( const Any& rOuterValue ) const
{
// convert former integer segment-offset to new double offset
sal_Int32 nOffset = 0;
Any aResult( rOuterValue );
if( rOuterValue >>= nOffset )
aResult <<= static_cast< double >( nOffset ) / 100.0;
return aResult;
}
class WrappedLineColorProperty : public WrappedSeriesAreaOrLineProperty
{
public:
explicit WrappedLineColorProperty( DataSeriesPointWrapper* pDataSeriesPointWrapper );
virtual void setPropertyValue( const Any& rOuterValue, const css::uno::Reference< css::beans::XPropertySet >& xInnerPropertySet ) const override;
virtual void setPropertyToDefault( const css::uno::Reference< css::beans::XPropertyState >& xInnerPropertyState ) const override;
virtual css::uno::Any getPropertyDefault( const css::uno::Reference< css::beans::XPropertyState >& xInnerPropertyState ) const override;
protected:
DataSeriesPointWrapper* m_pDataSeriesPointWrapper;
mutable Any m_aDefaultValue;
};
WrappedLineColorProperty::WrappedLineColorProperty(
DataSeriesPointWrapper* pDataSeriesPointWrapper )
: WrappedSeriesAreaOrLineProperty(u"LineColor"_ustr,u"BorderColor"_ustr,u"Color"_ustr, pDataSeriesPointWrapper )
, m_pDataSeriesPointWrapper( pDataSeriesPointWrapper )
, m_aDefaultValue(uno::Any(sal_Int32( 0x0099ccff ))) // blue 8
{
}
void WrappedLineColorProperty::setPropertyValue( const Any& rOuterValue, const Reference< beans::XPropertySet >& xInnerPropertySet ) const
{
if( !m_pDataSeriesPointWrapper || !m_pDataSeriesPointWrapper->isLinesForbidden() )
WrappedSeriesAreaOrLineProperty::setPropertyValue( rOuterValue, xInnerPropertySet );
}
void WrappedLineColorProperty::setPropertyToDefault( const Reference< beans::XPropertyState >& xInnerPropertyState ) const
{
if( !m_pDataSeriesPointWrapper || !m_pDataSeriesPointWrapper->isLinesForbidden() )
WrappedSeriesAreaOrLineProperty::setPropertyToDefault( xInnerPropertyState );
}
Any WrappedLineColorProperty::getPropertyDefault( const Reference< beans::XPropertyState >& xInnerPropertyState ) const
{
if( m_pDataSeriesPointWrapper && !m_pDataSeriesPointWrapper->isSupportingAreaProperties() )
return m_aDefaultValue;
else
return WrappedSeriesAreaOrLineProperty::getPropertyDefault( xInnerPropertyState );
}
class WrappedLineStyleProperty : public WrappedSeriesAreaOrLineProperty
{
public:
explicit WrappedLineStyleProperty( DataSeriesPointWrapper* pDataSeriesPointWrapper );
virtual void setPropertyValue( const Any& rOuterValue, const css::uno::Reference< css::beans::XPropertySet >& xInnerPropertySet ) const override;
virtual void setPropertyToDefault( const css::uno::Reference< css::beans::XPropertyState >& xInnerPropertyState ) const override;
protected:
DataSeriesPointWrapper* m_pDataSeriesPointWrapper;
};
WrappedLineStyleProperty::WrappedLineStyleProperty(
DataSeriesPointWrapper* pDataSeriesPointWrapper )
: WrappedSeriesAreaOrLineProperty(u"LineStyle"_ustr,u"BorderStyle"_ustr, u"LineStyle"_ustr, pDataSeriesPointWrapper )
, m_pDataSeriesPointWrapper( pDataSeriesPointWrapper )
{
}
void WrappedLineStyleProperty::setPropertyValue( const Any& rOuterValue, const Reference< beans::XPropertySet >& xInnerPropertySet ) const
{
Any aNewValue(rOuterValue);
if( m_pDataSeriesPointWrapper && m_pDataSeriesPointWrapper->isLinesForbidden() )
{
aNewValue <<= drawing::LineStyle_NONE;
}
WrappedSeriesAreaOrLineProperty::setPropertyValue( aNewValue, xInnerPropertySet );
}
void WrappedLineStyleProperty::setPropertyToDefault( const Reference< beans::XPropertyState >& xInnerPropertyState ) const
{
if( !m_pDataSeriesPointWrapper || !m_pDataSeriesPointWrapper->isLinesForbidden() )
WrappedSeriesAreaOrLineProperty::setPropertyToDefault( xInnerPropertyState );
}
} // anonymous namespace
namespace chart::wrapper
{
DataSeriesPointWrapper::DataSeriesPointWrapper( std::shared_ptr<Chart2ModelContact> spChart2ModelContact)
: m_spChart2ModelContact( std::move(spChart2ModelContact) )
, m_eType( DATA_SERIES )
, m_nSeriesIndexInNewAPI( -1 )
, m_nPointIndex( -1 )
, m_bLinesAllowed(true)
{
//need initialize call afterwards
}
void SAL_CALL DataSeriesPointWrapper::initialize( const uno::Sequence< uno::Any >& aArguments )
{
OSL_PRECOND(aArguments.hasElements(),"need at least 1 argument to initialize the DataSeriesPointWrapper: series reference + optional datapoint index");
m_nSeriesIndexInNewAPI = -1;//ignored in this case
m_nPointIndex = -1;
if( aArguments.hasElements() )
{
uno::Reference<chart2::XDataSeries> xTmp;
aArguments[0] >>= xTmp;
auto p = dynamic_cast<DataSeries*>(xTmp.get());
assert(p);
m_xDataSeries = p;
if( aArguments.getLength() >= 2 )
aArguments[1] >>= m_nPointIndex;
}
if( !m_xDataSeries.is() )
throw uno::Exception(
u"DataSeries index invalid"_ustr, static_cast< ::cppu::OWeakObject * >( this ));
//todo: check upper border of point index
if( m_nPointIndex >= 0 )
m_eType = DATA_POINT;
else
m_eType = DATA_SERIES;
}
DataSeriesPointWrapper::DataSeriesPointWrapper(eType _eType,
sal_Int32 nSeriesIndexInNewAPI ,
sal_Int32 nPointIndex, //ignored for series
std::shared_ptr<Chart2ModelContact> spChart2ModelContact)
: m_spChart2ModelContact( std::move(spChart2ModelContact) )
, m_eType( _eType )
, m_nSeriesIndexInNewAPI( nSeriesIndexInNewAPI )
, m_nPointIndex( (_eType == DATA_POINT) ? nPointIndex : -1 )
, m_bLinesAllowed( false )
{
}
DataSeriesPointWrapper::~DataSeriesPointWrapper()
{
}
// ____ XComponent ____
void SAL_CALL DataSeriesPointWrapper::dispose()
{
std::unique_lock g(m_aMutex);
uno::Reference< uno::XInterface > xSource( static_cast< ::cppu::OWeakObject* >( this ) );
m_aEventListenerContainer.disposeAndClear( g, lang::EventObject( xSource ) );
m_xDataSeries.clear();
clearWrappedPropertySet();
}
void SAL_CALL DataSeriesPointWrapper::addEventListener(
const uno::Reference< lang::XEventListener >& xListener )
{
std::unique_lock g(m_aMutex);
m_aEventListenerContainer.addInterface( g, xListener );
}
void SAL_CALL DataSeriesPointWrapper::removeEventListener(
const uno::Reference< lang::XEventListener >& aListener )
{
std::unique_lock g(m_aMutex);
m_aEventListenerContainer.removeInterface( g, aListener );
}
// ____ XEventListener ____
void SAL_CALL DataSeriesPointWrapper::disposing( const lang::EventObject& /*Source*/ )
{
}
bool DataSeriesPointWrapper::isSupportingAreaProperties()
{
rtl::Reference< DataSeries > xSeries( getDataSeries() );
rtl::Reference< ::chart::Diagram > xDiagram( m_spChart2ModelContact->getDiagram() );
rtl::Reference< ::chart::ChartType > xChartType( xDiagram->getChartTypeOfSeries( xSeries ) );
sal_Int32 nDimensionCount = xDiagram->getDimension();
return ChartTypeHelper::isSupportingAreaProperties( xChartType, nDimensionCount );
}
rtl::Reference< DataSeries > DataSeriesPointWrapper::getDataSeries()
{
rtl::Reference< DataSeries > xSeries = m_xDataSeries;
if( !xSeries.is() )
{
rtl::Reference< ::chart::Diagram > xDiagram( m_spChart2ModelContact->getDiagram() );
std::vector< rtl::Reference< DataSeries > > aSeriesList =
xDiagram->getDataSeries();
if( m_nSeriesIndexInNewAPI >= 0 && o3tl::make_unsigned(m_nSeriesIndexInNewAPI) < aSeriesList.size() )
xSeries = aSeriesList[m_nSeriesIndexInNewAPI];
}
return xSeries;
}
Reference< beans::XPropertySet > DataSeriesPointWrapper::getDataPointProperties()
{
Reference< beans::XPropertySet > xPointProp;
rtl::Reference< DataSeries > xSeries( getDataSeries() );
// may throw an IllegalArgumentException
if( xSeries.is() )
xPointProp = xSeries->getDataPointByIndex( m_nPointIndex );
return xPointProp;
}
//ReferenceSizePropertyProvider
void DataSeriesPointWrapper::updateReferenceSize()
{
Reference< beans::XPropertySet > xProp = getInnerPropertySet();
if( xProp.is() )
{
if( xProp->getPropertyValue(u"ReferencePageSize"_ustr).hasValue() )
xProp->setPropertyValue(u"ReferencePageSize"_ustr, uno::Any(
m_spChart2ModelContact->GetPageSize() ));
}
}
Any DataSeriesPointWrapper::getReferenceSize()
{
Any aRet;
Reference< beans::XPropertySet > xProp = getInnerPropertySet();
if( xProp.is() )
aRet = xProp->getPropertyValue(u"ReferencePageSize"_ustr);
return aRet;
}
awt::Size DataSeriesPointWrapper::getCurrentSizeForReference()
{
return m_spChart2ModelContact->GetPageSize();
}
// WrappedPropertySet
//XPropertyState
beans::PropertyState SAL_CALL DataSeriesPointWrapper::getPropertyState( const OUString& rPropertyName )
{
beans::PropertyState aState( beans::PropertyState_DIRECT_VALUE );
try
{
if (rPropertyName == "SymbolBitmap" || rPropertyName == "SymbolBitmapURL")
{
uno::Any aAny = WrappedPropertySet::getPropertyValue(u"SymbolType"_ustr);
sal_Int32 nVal = css::chart::ChartSymbolType::NONE;
if (aAny >>= nVal)
{
if (nVal != css::chart::ChartSymbolType::BITMAPURL)
return beans::PropertyState::PropertyState_DEFAULT_VALUE;
}
}
if( m_eType == DATA_SERIES )
aState = WrappedPropertySet::getPropertyState( rPropertyName );
else
{
if( rPropertyName == "FillColor")
{
rtl::Reference< DataSeries > xSeries = getDataSeries();
bool bVaryColorsByPoint = false;
// "VaryColorsByPoint"
if( xSeries.is() && (xSeries->getFastPropertyValue(PROP_DATASERIES_VARY_COLORS_BY_POINT) >>= bVaryColorsByPoint)
&& bVaryColorsByPoint )
return beans::PropertyState_DIRECT_VALUE;
}
else if( rPropertyName == "Lines"
|| rPropertyName == "SymbolType"
|| rPropertyName == "SymbolSize" )
return WrappedPropertySet::getPropertyState( rPropertyName );
uno::Any aDefault( getPropertyDefault( rPropertyName ) );
uno::Any aValue( getPropertyValue( rPropertyName ) );
if( aDefault==aValue )
aState = beans::PropertyState_DEFAULT_VALUE;
}
}
catch( const beans::UnknownPropertyException& )
{
throw;
}
catch( const uno::RuntimeException& )
{
throw;
}
catch( const lang::WrappedTargetException& e )
{
css::uno::Any a(e.TargetException);
throw css::lang::WrappedTargetRuntimeException(
"wrapped Exception " + e.Message,
css::uno::Reference<css::uno::XInterface>(), a);
}
catch( const uno::Exception& e )
{
css::uno::Any a(cppu::getCaughtException());
throw css::lang::WrappedTargetRuntimeException(
"wrapped Exception " + e.Message,
css::uno::Reference<css::uno::XInterface>(), a);
}
return aState;
}
void SAL_CALL DataSeriesPointWrapper::setPropertyToDefault( const OUString& rPropertyName )
{
if( m_eType == DATA_SERIES )
WrappedPropertySet::setPropertyToDefault( rPropertyName );
else
{
//for data points the default is given by the series
setPropertyValue( rPropertyName, getPropertyDefault( rPropertyName ) );
}
}
Any SAL_CALL DataSeriesPointWrapper::getPropertyDefault( const OUString& rPropertyName )
{
Any aRet;
try
{
sal_Int32 nHandle = getInfoHelper().getHandleByName( rPropertyName );
if( nHandle > 0 )
{
//always take the series current value as default for points
rtl::Reference< DataSeries > xInnerPropertySet = getDataSeries();
if( xInnerPropertySet.is() )
{
const WrappedProperty* pWrappedProperty = getWrappedProperty( rPropertyName );
if( pWrappedProperty )
aRet = pWrappedProperty->getPropertyValue(xInnerPropertySet);
else
aRet = xInnerPropertySet->getPropertyValue( rPropertyName );
}
}
}
catch( const beans::UnknownPropertyException& )
{
aRet = WrappedPropertySet::getPropertyDefault( rPropertyName );
}
return aRet;
}
Reference< beans::XPropertySet > DataSeriesPointWrapper::getInnerPropertySet()
{
if( m_eType == DATA_SERIES )
return getDataSeries();
return getDataPointProperties();
}
const Sequence< beans::Property >& DataSeriesPointWrapper::getPropertySequence()
{
if( m_eType == DATA_SERIES )
return StaticSeriesWrapperPropertyArray();
else
return StaticPointWrapperPropertyArray();
}
std::vector< std::unique_ptr<WrappedProperty> > DataSeriesPointWrapper::createWrappedProperties()
{
std::vector< std::unique_ptr<WrappedProperty> > aWrappedProperties;
WrappedCharacterHeightProperty::addWrappedProperties( aWrappedProperties, this );
if( m_eType == DATA_SERIES )
{
WrappedStatisticProperties::addWrappedPropertiesForSeries( aWrappedProperties, m_spChart2ModelContact );
aWrappedProperties.emplace_back( new WrappedAttachedAxisProperty( m_spChart2ModelContact ) );
aWrappedProperties.emplace_back( new WrappedNumberFormatProperty(m_spChart2ModelContact) );
aWrappedProperties.emplace_back( new WrappedLinkNumberFormatProperty );
}
WrappedSymbolProperties::addWrappedPropertiesForSeries( aWrappedProperties, m_spChart2ModelContact );
WrappedDataCaptionProperties::addWrappedPropertiesForSeries( aWrappedProperties, m_spChart2ModelContact );
WrappedScaleTextProperties::addWrappedProperties( aWrappedProperties, m_spChart2ModelContact );
//add unnamed line properties (different inner names here)
aWrappedProperties.emplace_back( new WrappedProperty(u"FillColor"_ustr,u"Color"_ustr) );
aWrappedProperties.emplace_back( new WrappedLineStyleProperty( this ) );
aWrappedProperties.emplace_back( new WrappedLineColorProperty( this ) );
aWrappedProperties.emplace_back( new WrappedSeriesAreaOrLineProperty(u"LineDashName"_ustr,u"BorderDashName"_ustr,u"LineDashName"_ustr, this ) );
aWrappedProperties.emplace_back( new WrappedSeriesAreaOrLineProperty(u"LineTransparence"_ustr,u"BorderTransparency"_ustr,u"Transparency"_ustr, this ) );
aWrappedProperties.emplace_back( new WrappedSeriesAreaOrLineProperty(u"LineWidth"_ustr,u"BorderWidth"_ustr,u"LineWidth"_ustr, this ) );
aWrappedProperties.emplace_back( new WrappedSeriesAreaOrLineProperty(u"LineCap"_ustr,u"LineCap"_ustr,u"LineCap"_ustr, this ) );
aWrappedProperties.emplace_back( new WrappedProperty(u"FillStyle"_ustr,u"FillStyle"_ustr ) );
aWrappedProperties.emplace_back( new WrappedProperty(u"FillTransparence"_ustr,u"Transparency"_ustr) );
aWrappedProperties.emplace_back( new WrappedIgnoreProperty(u"LineJoint"_ustr, uno::Any( drawing::LineJoint_ROUND ) ) );
aWrappedProperties.emplace_back( new WrappedProperty(u"FillTransparenceGradientName"_ustr,u"TransparencyGradientName"_ustr) );
aWrappedProperties.emplace_back( new WrappedProperty(u"FillGradientName"_ustr,u"GradientName"_ustr) );
aWrappedProperties.emplace_back( new WrappedProperty(u"FillGradientStepCount"_ustr,u"GradientStepCount"_ustr) );
aWrappedProperties.emplace_back( new WrappedProperty(u"FillHatchName"_ustr,u"HatchName"_ustr) );
aWrappedProperties.emplace_back( new WrappedProperty(u"FillBitmapName"_ustr,u"FillBitmapName"_ustr) );
aWrappedProperties.emplace_back( new WrappedProperty(u"FillBackground"_ustr,u"FillBackground"_ustr) );
//bitmap properties
aWrappedProperties.emplace_back( new WrappedProperty(u"FillBitmapMode"_ustr,u"FillBitmapMode"_ustr) );
aWrappedProperties.emplace_back( new WrappedProperty(u"FillBitmapSizeX"_ustr,u"FillBitmapSizeX"_ustr) );
aWrappedProperties.emplace_back( new WrappedProperty(u"FillBitmapSizeY"_ustr,u"FillBitmapSizeY"_ustr) );
aWrappedProperties.emplace_back( new WrappedProperty(u"FillBitmapLogicalSize"_ustr,u"FillBitmapLogicalSize"_ustr) );
aWrappedProperties.emplace_back( new WrappedProperty(u"FillBitmapOffsetX"_ustr,u"FillBitmapOffsetX"_ustr) );
aWrappedProperties.emplace_back( new WrappedProperty(u"FillBitmapOffsetY"_ustr,u"FillBitmapOffsetY"_ustr) );
aWrappedProperties.emplace_back( new WrappedProperty(u"FillBitmapRectanglePoint"_ustr,u"FillBitmapRectanglePoint"_ustr) );
aWrappedProperties.emplace_back( new WrappedProperty(u"FillBitmapPositionOffsetX"_ustr,u"FillBitmapPositionOffsetX"_ustr) );
aWrappedProperties.emplace_back( new WrappedProperty(u"FillBitmapPositionOffsetY"_ustr,u"FillBitmapPositionOffsetY"_ustr) );
aWrappedProperties.emplace_back( new WrappedProperty(u"SolidType"_ustr,u"Geometry3D"_ustr) );
aWrappedProperties.emplace_back( new WrappedSegmentOffsetProperty() );
aWrappedProperties.emplace_back( new WrappedProperty(u"D3DPercentDiagonal"_ustr,u"PercentDiagonal"_ustr) );
aWrappedProperties.emplace_back( new WrappedTextRotationProperty() );
return aWrappedProperties;
}
void SAL_CALL DataSeriesPointWrapper::setPropertyValue( const OUString& rPropertyName, const Any& rValue )
{
if(rPropertyName == "Lines")
{
if( ! (rValue >>= m_bLinesAllowed) )
throw lang::IllegalArgumentException(u"Property Lines requires value of type sal_Bool"_ustr, nullptr, 0 );
}
sal_Int32 nHandle = getInfoHelper().getHandleByName( rPropertyName );
static const sal_Int32 nErrorCategoryHandle = getInfoHelper().getHandleByName(u"ErrorCategory"_ustr);
if( nErrorCategoryHandle == nHandle )
{
css::chart::ChartErrorCategory aNewValue = css::chart::ChartErrorCategory_NONE;
rValue >>= aNewValue;
Any aLow, aHigh;
bool bSetHighAndLowValues = false;
switch(aNewValue)
{
case css::chart::ChartErrorCategory_CONSTANT_VALUE:
aHigh = getPropertyValue(u"ConstantErrorHigh"_ustr);
aLow = getPropertyValue(u"ConstantErrorLow"_ustr);
bSetHighAndLowValues = true;
break;
case css::chart::ChartErrorCategory_PERCENT:
aHigh = aLow = getPropertyValue(u"PercentageError"_ustr);
bSetHighAndLowValues = true;
break;
case css::chart::ChartErrorCategory_ERROR_MARGIN:
aHigh = aLow = getPropertyValue(u"ErrorMargin"_ustr);
bSetHighAndLowValues = true;
break;
default:
break;
}
WrappedPropertySet::setPropertyValue( rPropertyName, rValue );
if(bSetHighAndLowValues)
{
switch(aNewValue)
{
case css::chart::ChartErrorCategory_CONSTANT_VALUE:
setPropertyValue(u"ConstantErrorHigh"_ustr,aHigh);
setPropertyValue(u"ConstantErrorLow"_ustr,aLow);
break;
case css::chart::ChartErrorCategory_PERCENT:
setPropertyValue(u"PercentageError"_ustr,aHigh);
break;
case css::chart::ChartErrorCategory_ERROR_MARGIN:
setPropertyValue(u"ErrorMargin"_ustr,aHigh);
break;
default:
break;
}
}
}
else
WrappedPropertySet::setPropertyValue( rPropertyName, rValue );
}
Any SAL_CALL DataSeriesPointWrapper::getPropertyValue( const OUString& rPropertyName )
{
if( m_eType == DATA_POINT )
{
if( rPropertyName == "FillColor" )
{
rtl::Reference< DataSeries > xSeries = getDataSeries();
bool bVaryColorsByPoint = false;
// "VaryColorsByPoint"
if( xSeries.is() && (xSeries->getFastPropertyValue(PROP_DATASERIES_VARY_COLORS_BY_POINT) >>= bVaryColorsByPoint)
&& bVaryColorsByPoint )
{
uno::Reference< beans::XPropertyState > xPointState( DataSeriesPointWrapper::getDataPointProperties(), uno::UNO_QUERY );
if( xPointState.is() && xPointState->getPropertyState(u"Color"_ustr) == beans::PropertyState_DEFAULT_VALUE )
{
rtl::Reference< ::chart::Diagram > xDiagram( m_spChart2ModelContact->getDiagram() );
if( xDiagram.is() )
{
Reference< chart2::XColorScheme > xColorScheme( xDiagram->getDefaultColorScheme() );
if( xColorScheme.is() )
return uno::Any( xColorScheme->getColorByIndex( m_nPointIndex ) );
}
}
}
}
}
return WrappedPropertySet::getPropertyValue( rPropertyName );
}
OUString SAL_CALL DataSeriesPointWrapper::getImplementationName()
{
return u"com.sun.star.comp.chart.DataSeries"_ustr;
}
sal_Bool SAL_CALL DataSeriesPointWrapper::supportsService( const OUString& rServiceName )
{
return cppu::supportsService(this, rServiceName);
}
css::uno::Sequence< OUString > SAL_CALL DataSeriesPointWrapper::getSupportedServiceNames()
{
return {
u"com.sun.star.chart.ChartDataRowProperties"_ustr,
u"com.sun.star.chart.ChartDataPointProperties"_ustr,
u"com.sun.star.xml.UserDefinedAttributesSupplier"_ustr,
u"com.sun.star.beans.PropertySet"_ustr,
u"com.sun.star.drawing.FillProperties"_ustr,
u"com.sun.star.drawing.LineProperties"_ustr,
u"com.sun.star.style.CharacterProperties"_ustr
};
}
} // namespace chart
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
↑ V1019 Compound assignment expression is used inside condition.
↑ V1019 Compound assignment expression is used inside condition.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.
↑ V1023 A pointer without owner is added to the 'aWrappedProperties' container by the 'emplace_back' method. A memory leak will occur in case of an exception.