/* -*- 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 #include #include #include #include #include #include #include "SchWhichPairs.hxx" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace ::com::sun::star; using namespace ::com::sun::star::chart2; using ::com::sun::star::uno::Reference; using ::com::sun::star::chart::TimeInterval; using ::com::sun::star::chart::TimeIncrement; namespace chart::wrapper { namespace { ItemPropertyMapType & lcl_GetAxisPropertyMap() { static ItemPropertyMapType aAxisPropertyMap{ {SCHATTR_AXIS_SHOWDESCR, {"DisplayLabels", 0}}, {SCHATTR_AXIS_TICKS, {"MajorTickmarks", 0}}, {SCHATTR_AXIS_HELPTICKS, {"MinorTickmarks", 0}}, {SCHATTR_AXIS_LABEL_ORDER, {"ArrangeOrder", 0}}, {SCHATTR_TEXT_STACKED, {"StackCharacters", 0}}, {SCHATTR_AXIS_LABEL_BREAK, {"TextBreak", 0}}, {SCHATTR_AXIS_LABEL_OVERLAP, {"TextOverlap", 0}}}; return aAxisPropertyMap; }; } // anonymous namespace AxisItemConverter::AxisItemConverter( const Reference< beans::XPropertySet > & rPropertySet, SfxItemPool& rItemPool, SdrModel& rDrawModel, const Reference< chart2::XChartDocument > & xChartDoc, ::chart::ExplicitScaleData const * pScale /* = NULL */, ::chart::ExplicitIncrementData const * pIncrement /* = NULL */, const awt::Size* pRefSize ) : ItemConverter( rPropertySet, rItemPool ), m_xChartDoc( xChartDoc ) { Reference< lang::XMultiServiceFactory > xNamedPropertyContainerFactory( xChartDoc, uno::UNO_QUERY ); if( pScale ) m_pExplicitScale.reset( new ::chart::ExplicitScaleData( *pScale ) ); if( pIncrement ) m_pExplicitIncrement.reset( new ::chart::ExplicitIncrementData( *pIncrement ) ); m_aConverters.emplace_back( new GraphicPropertyItemConverter( rPropertySet, rItemPool, rDrawModel, xNamedPropertyContainerFactory, GraphicObjectType::LineProperties )); m_aConverters.emplace_back( new CharacterPropertyItemConverter(rPropertySet, rItemPool, pRefSize, "ReferencePageSize")); m_xAxis.set( Reference< chart2::XAxis >( rPropertySet, uno::UNO_QUERY ) ); OSL_ASSERT( m_xAxis.is()); } AxisItemConverter::~AxisItemConverter() { } void AxisItemConverter::FillItemSet( SfxItemSet & rOutItemSet ) const { for( const auto& pConv : m_aConverters ) pConv->FillItemSet( rOutItemSet ); // own items ItemConverter::FillItemSet( rOutItemSet ); } bool AxisItemConverter::ApplyItemSet( const SfxItemSet & rItemSet ) { bool bResult = false; for( const auto& pConv : m_aConverters ) bResult = pConv->ApplyItemSet( rItemSet ) || bResult; // own items return ItemConverter::ApplyItemSet( rItemSet ) || bResult; } const sal_uInt16 * AxisItemConverter::GetWhichPairs() const { // must span all used items! return nAxisWhichPairs; } bool AxisItemConverter::GetItemProperty( tWhichIdType nWhichId, tPropertyNameWithMemberId & rOutProperty ) const { ItemPropertyMapType & rMap( lcl_GetAxisPropertyMap()); ItemPropertyMapType::const_iterator aIt( rMap.find( nWhichId )); if( aIt == rMap.end()) return false; rOutProperty =(*aIt).second; return true; } static bool lcl_hasTimeIntervalValue( const uno::Any& rAny ) { bool bRet = false; TimeInterval aValue; if( rAny >>= aValue ) bRet = true; return bRet; } void AxisItemConverter::FillSpecialItem( sal_uInt16 nWhichId, SfxItemSet & rOutItemSet ) const { if( !m_xAxis.is() ) return; const chart2::ScaleData& rScale( m_xAxis->getScaleData() ); const chart2::IncrementData& rIncrement( rScale.IncrementData ); const uno::Sequence< chart2::SubIncrement >& rSubIncrements( rScale.IncrementData.SubIncrements ); const TimeIncrement& rTimeIncrement( rScale.TimeIncrement ); bool bDateAxis = (rScale.AxisType == chart2::AxisType::DATE); if( m_pExplicitScale ) bDateAxis = (m_pExplicitScale->AxisType == chart2::AxisType::DATE); switch( nWhichId ) { case SCHATTR_AXIS_AUTO_MAX: rOutItemSet.Put( SfxBoolItem( nWhichId, !hasDoubleValue(rScale.Maximum) ) ); break; case SCHATTR_AXIS_MAX: { double fMax = 10.0; if( rScale.Maximum >>= fMax ) rOutItemSet.Put( SvxDoubleItem( fMax, nWhichId ) ); else { if( m_pExplicitScale ) fMax = m_pExplicitScale->Maximum; rOutItemSet.Put( SvxDoubleItem( fMax, nWhichId ) ); } } break; case SCHATTR_AXIS_AUTO_MIN: rOutItemSet.Put( SfxBoolItem( nWhichId, !hasDoubleValue(rScale.Minimum) ) ); break; case SCHATTR_AXIS_MIN: { double fMin = 0.0; if( rScale.Minimum >>= fMin ) rOutItemSet.Put( SvxDoubleItem( fMin, nWhichId ) ); else if( m_pExplicitScale ) rOutItemSet.Put( SvxDoubleItem( m_pExplicitScale->Minimum, nWhichId )); } break; case SCHATTR_AXIS_LOGARITHM: { bool bValue = AxisHelper::isLogarithmic( rScale.Scaling ); rOutItemSet.Put( SfxBoolItem( nWhichId, bValue )); } break; case SCHATTR_AXIS_REVERSE: rOutItemSet.Put( SfxBoolItem( nWhichId, (rScale.Orientation == AxisOrientation_REVERSE) )); break; // Increment case SCHATTR_AXIS_AUTO_STEP_MAIN: if( bDateAxis ) rOutItemSet.Put( SfxBoolItem( nWhichId, !lcl_hasTimeIntervalValue(rTimeIncrement.MajorTimeInterval) ) ); else rOutItemSet.Put( SfxBoolItem( nWhichId, !hasDoubleValue(rIncrement.Distance) ) ); break; case SCHATTR_AXIS_MAIN_TIME_UNIT: { TimeInterval aTimeInterval; if( rTimeIncrement.MajorTimeInterval >>= aTimeInterval ) rOutItemSet.Put( SfxInt32Item( nWhichId, aTimeInterval.TimeUnit ) ); else if( m_pExplicitIncrement ) rOutItemSet.Put( SfxInt32Item( nWhichId, m_pExplicitIncrement->MajorTimeInterval.TimeUnit ) ); } break; case SCHATTR_AXIS_STEP_MAIN: if( bDateAxis ) { TimeInterval aTimeInterval; if( rTimeIncrement.MajorTimeInterval >>= aTimeInterval ) rOutItemSet.Put( SvxDoubleItem(aTimeInterval.Number, nWhichId )); else if( m_pExplicitIncrement ) rOutItemSet.Put( SvxDoubleItem( m_pExplicitIncrement->MajorTimeInterval.Number, nWhichId )); } else { double fDistance = 1.0; if( rIncrement.Distance >>= fDistance ) rOutItemSet.Put( SvxDoubleItem(fDistance, nWhichId )); else if( m_pExplicitIncrement ) rOutItemSet.Put( SvxDoubleItem( m_pExplicitIncrement->Distance, nWhichId )); } break; // SubIncrement case SCHATTR_AXIS_AUTO_STEP_HELP: if( bDateAxis ) rOutItemSet.Put( SfxBoolItem( nWhichId, !lcl_hasTimeIntervalValue(rTimeIncrement.MinorTimeInterval) ) ); else rOutItemSet.Put( SfxBoolItem( nWhichId, ! ( rSubIncrements.hasElements() && rSubIncrements[0].IntervalCount.hasValue() ))); break; case SCHATTR_AXIS_HELP_TIME_UNIT: { TimeInterval aTimeInterval; if( rTimeIncrement.MinorTimeInterval >>= aTimeInterval ) rOutItemSet.Put( SfxInt32Item( nWhichId, aTimeInterval.TimeUnit ) ); else if( m_pExplicitIncrement ) rOutItemSet.Put( SfxInt32Item( nWhichId, m_pExplicitIncrement->MinorTimeInterval.TimeUnit ) ); } break; case SCHATTR_AXIS_STEP_HELP: if( bDateAxis ) { TimeInterval aTimeInterval; if( rTimeIncrement.MinorTimeInterval >>= aTimeInterval ) rOutItemSet.Put( SfxInt32Item( nWhichId, aTimeInterval.Number )); else if( m_pExplicitIncrement ) rOutItemSet.Put( SfxInt32Item( nWhichId, m_pExplicitIncrement->MinorTimeInterval.Number )); } else { if( rSubIncrements.hasElements() && rSubIncrements[0].IntervalCount.hasValue()) { rOutItemSet.Put( SfxInt32Item( nWhichId, *o3tl::doAccess( rSubIncrements[0].IntervalCount) )); } else { if( m_pExplicitIncrement && !m_pExplicitIncrement->SubIncrements.empty() ) { rOutItemSet.Put( SfxInt32Item( nWhichId, m_pExplicitIncrement->SubIncrements[0].IntervalCount )); } } } break; case SCHATTR_AXIS_AUTO_TIME_RESOLUTION: { rOutItemSet.Put( SfxBoolItem( nWhichId, !rTimeIncrement.TimeResolution.hasValue() )); } break; case SCHATTR_AXIS_TIME_RESOLUTION: { long nTimeResolution=0; if( rTimeIncrement.TimeResolution >>= nTimeResolution ) rOutItemSet.Put( SfxInt32Item( nWhichId, nTimeResolution ) ); else if( m_pExplicitScale ) rOutItemSet.Put( SfxInt32Item( nWhichId, m_pExplicitScale->TimeResolution ) ); } break; case SCHATTR_AXIS_AUTO_ORIGIN: { rOutItemSet.Put( SfxBoolItem( nWhichId, ( !hasDoubleValue(rScale.Origin) ))); } break; case SCHATTR_AXIS_ORIGIN: { double fOrigin = 0.0; if( !(rScale.Origin >>= fOrigin) ) { if( m_pExplicitScale ) fOrigin = m_pExplicitScale->Origin; } rOutItemSet.Put( SvxDoubleItem( fOrigin, nWhichId )); } break; case SCHATTR_AXIS_POSITION: { css::chart::ChartAxisPosition eAxisPos( css::chart::ChartAxisPosition_ZERO ); GetPropertySet()->getPropertyValue( "CrossoverPosition" ) >>= eAxisPos; rOutItemSet.Put( SfxInt32Item( nWhichId, static_cast(eAxisPos) ) ); } break; case SCHATTR_AXIS_POSITION_VALUE: { double fValue = 0.0; if( GetPropertySet()->getPropertyValue( "CrossoverValue" ) >>= fValue ) rOutItemSet.Put( SvxDoubleItem( fValue, nWhichId ) ); } break; case SCHATTR_AXIS_CROSSING_MAIN_AXIS_NUMBERFORMAT: { //read only item //necessary tp display the crossing value with an appropriate format Reference< chart2::XCoordinateSystem > xCooSys( AxisHelper::getCoordinateSystemOfAxis( m_xAxis, ChartModelHelper::findDiagram( m_xChartDoc ) ) ); Reference< chart2::XAxis > xCrossingMainAxis( AxisHelper::getCrossingMainAxis( m_xAxis, xCooSys ) ); sal_Int32 nFormatKey = ExplicitValueProvider::getExplicitNumberFormatKeyForAxis( xCrossingMainAxis, xCooSys, m_xChartDoc); rOutItemSet.Put( SfxUInt32Item( nWhichId, nFormatKey )); } break; case SCHATTR_AXIS_SHIFTED_CATEGORY_POSITION: rOutItemSet.Put(SfxBoolItem(nWhichId, rScale.ShiftedCategoryPosition)); break; case SCHATTR_AXIS_LABEL_POSITION: { css::chart::ChartAxisLabelPosition ePos( css::chart::ChartAxisLabelPosition_NEAR_AXIS ); GetPropertySet()->getPropertyValue( "LabelPosition" ) >>= ePos; rOutItemSet.Put( SfxInt32Item( nWhichId, static_cast(ePos) ) ); } break; case SCHATTR_AXIS_MARK_POSITION: { css::chart::ChartAxisMarkPosition ePos( css::chart::ChartAxisMarkPosition_AT_LABELS_AND_AXIS ); GetPropertySet()->getPropertyValue( "MarkPosition" ) >>= ePos; rOutItemSet.Put( SfxInt32Item( nWhichId, static_cast(ePos) ) ); } break; case SCHATTR_TEXT_DEGREES: { // convert double to int (times 100) double fVal = 0; if( GetPropertySet()->getPropertyValue( "TextRotation" ) >>= fVal ) { rOutItemSet.Put( SfxInt32Item( nWhichId, static_cast< sal_Int32 >( ::rtl::math::round( fVal * 100.0 ) ) )); } } break; case SID_ATTR_NUMBERFORMAT_VALUE: { if( m_pExplicitScale ) { Reference< chart2::XCoordinateSystem > xCooSys( AxisHelper::getCoordinateSystemOfAxis( m_xAxis, ChartModelHelper::findDiagram( m_xChartDoc ) ) ); sal_Int32 nFormatKey = ExplicitValueProvider::getExplicitNumberFormatKeyForAxis( m_xAxis, xCooSys, m_xChartDoc); rOutItemSet.Put( SfxUInt32Item( nWhichId, nFormatKey )); } } break; case SID_ATTR_NUMBERFORMAT_SOURCE: { bool bLinkToSource = true; GetPropertySet()->getPropertyValue(CHART_UNONAME_LINK_TO_SRC_NUMFMT) >>= bLinkToSource; rOutItemSet.Put(SfxBoolItem(nWhichId, bLinkToSource)); } break; case SCHATTR_AXISTYPE: rOutItemSet.Put( SfxInt32Item( nWhichId, rScale.AxisType )); break; case SCHATTR_AXIS_AUTO_DATEAXIS: rOutItemSet.Put( SfxBoolItem( nWhichId, rScale.AutoDateAxis )); break; case SCHATTR_AXIS_ALLOW_DATEAXIS: { Reference< chart2::XCoordinateSystem > xCooSys( AxisHelper::getCoordinateSystemOfAxis( m_xAxis, ChartModelHelper::findDiagram( m_xChartDoc ) ) ); sal_Int32 nDimensionIndex=0; sal_Int32 nAxisIndex=0; AxisHelper::getIndicesForAxis(m_xAxis, xCooSys, nDimensionIndex, nAxisIndex ); bool bChartTypeAllowsDateAxis = ChartTypeHelper::isSupportingDateAxis( AxisHelper::getChartTypeByIndex( xCooSys, 0 ), nDimensionIndex ); rOutItemSet.Put( SfxBoolItem( nWhichId, bChartTypeAllowsDateAxis )); } break; } } static bool lcl_isDateAxis( const SfxItemSet & rItemSet ) { sal_Int32 nAxisType = rItemSet.Get( SCHATTR_AXISTYPE ).GetValue();//css::chart2::AxisType return (nAxisType == chart2::AxisType::DATE); } static bool lcl_isAutoMajor( const SfxItemSet & rItemSet ) { bool bRet = rItemSet.Get( SCHATTR_AXIS_AUTO_STEP_MAIN ).GetValue(); return bRet; } static bool lcl_isAutoMinor( const SfxItemSet & rItemSet ) { bool bRet = rItemSet.Get( SCHATTR_AXIS_AUTO_STEP_HELP ).GetValue(); return bRet; } bool AxisItemConverter::ApplySpecialItem( sal_uInt16 nWhichId, const SfxItemSet & rItemSet ) { if( !m_xAxis.is() ) return false; chart2::ScaleData aScale( m_xAxis->getScaleData() ); bool bSetScale = false; bool bChangedOtherwise = false; uno::Any aValue; switch( nWhichId ) { case SCHATTR_AXIS_AUTO_MAX: if( static_cast< const SfxBoolItem & >(rItemSet.Get( nWhichId )).GetValue() ) { aScale.Maximum.clear(); bSetScale = true; } // else SCHATTR_AXIS_MAX must have some value break; case SCHATTR_AXIS_MAX: // only if auto if false if( ! (rItemSet.Get( SCHATTR_AXIS_AUTO_MAX ).GetValue() )) { rItemSet.Get( nWhichId ).QueryValue( aValue ); if( aScale.Maximum != aValue ) { aScale.Maximum = aValue; bSetScale = true; } } break; case SCHATTR_AXIS_AUTO_MIN: if( static_cast< const SfxBoolItem & >(rItemSet.Get( nWhichId )).GetValue() ) { aScale.Minimum.clear(); bSetScale = true; } // else SCHATTR_AXIS_MIN must have some value break; case SCHATTR_AXIS_MIN: // only if auto if false if( ! (rItemSet.Get( SCHATTR_AXIS_AUTO_MIN ).GetValue() )) { rItemSet.Get( nWhichId ).QueryValue( aValue ); if( aScale.Minimum != aValue ) { aScale.Minimum = aValue; bSetScale = true; } } break; case SCHATTR_AXIS_LOGARITHM: { bool bWasLogarithm = AxisHelper::isLogarithmic( aScale.Scaling ); if( static_cast< const SfxBoolItem & >(rItemSet.Get( nWhichId )).GetValue() ) { // logarithm is true if( ! bWasLogarithm ) { aScale.Scaling = AxisHelper::createLogarithmicScaling( 10.0 ); bSetScale = true; } } else { // logarithm is false => linear scaling if( bWasLogarithm ) { aScale.Scaling = AxisHelper::createLinearScaling(); bSetScale = true; } } } break; case SCHATTR_AXIS_REVERSE: { bool bWasReverse = ( aScale.Orientation == AxisOrientation_REVERSE ); bool bNewReverse = static_cast< const SfxBoolItem & >( rItemSet.Get( nWhichId )).GetValue(); if( bWasReverse != bNewReverse ) { aScale.Orientation = bNewReverse ? AxisOrientation_REVERSE : AxisOrientation_MATHEMATICAL; bSetScale = true; } } break; // Increment case SCHATTR_AXIS_AUTO_STEP_MAIN: if( lcl_isAutoMajor(rItemSet) ) { aScale.IncrementData.Distance.clear(); aScale.TimeIncrement.MajorTimeInterval.clear(); bSetScale = true; } // else SCHATTR_AXIS_STEP_MAIN must have some value break; case SCHATTR_AXIS_MAIN_TIME_UNIT: if( !lcl_isAutoMajor(rItemSet) ) { if( rItemSet.Get( nWhichId ).QueryValue( aValue ) ) { TimeInterval aTimeInterval; aScale.TimeIncrement.MajorTimeInterval >>= aTimeInterval; aValue >>= aTimeInterval.TimeUnit; aScale.TimeIncrement.MajorTimeInterval <<= aTimeInterval; bSetScale = true; } } break; case SCHATTR_AXIS_STEP_MAIN: // only if auto if false if( !lcl_isAutoMajor(rItemSet) ) { rItemSet.Get( nWhichId ).QueryValue( aValue ); if( lcl_isDateAxis(rItemSet) ) { double fValue = 1.0; if( aValue >>= fValue ) { TimeInterval aTimeInterval; aScale.TimeIncrement.MajorTimeInterval >>= aTimeInterval; aTimeInterval.Number = static_cast(fValue); aScale.TimeIncrement.MajorTimeInterval <<= aTimeInterval; bSetScale = true; } } else if( aScale.IncrementData.Distance != aValue ) { aScale.IncrementData.Distance = aValue; bSetScale = true; } } break; // SubIncrement case SCHATTR_AXIS_AUTO_STEP_HELP: if( lcl_isAutoMinor(rItemSet) ) { if( aScale.IncrementData.SubIncrements.hasElements() && aScale.IncrementData.SubIncrements[0].IntervalCount.hasValue() ) { aScale.IncrementData.SubIncrements[0].IntervalCount.clear(); bSetScale = true; } if( aScale.TimeIncrement.MinorTimeInterval.hasValue() ) { aScale.TimeIncrement.MinorTimeInterval.clear(); bSetScale = true; } } // else SCHATTR_AXIS_STEP_MAIN must have some value break; case SCHATTR_AXIS_HELP_TIME_UNIT: if( !lcl_isAutoMinor(rItemSet) ) { if( rItemSet.Get( nWhichId ).QueryValue( aValue ) ) { TimeInterval aTimeInterval; aScale.TimeIncrement.MinorTimeInterval >>= aTimeInterval; aValue >>= aTimeInterval.TimeUnit; aScale.TimeIncrement.MinorTimeInterval <<= aTimeInterval; bSetScale = true; } } break; case SCHATTR_AXIS_STEP_HELP: // only if auto is false if( !lcl_isAutoMinor(rItemSet) ) { rItemSet.Get( nWhichId ).QueryValue( aValue ); if( lcl_isDateAxis(rItemSet) ) { TimeInterval aTimeInterval; aScale.TimeIncrement.MinorTimeInterval >>= aTimeInterval; aValue >>= aTimeInterval.Number; aScale.TimeIncrement.MinorTimeInterval <<= aTimeInterval; bSetScale = true; } else if( aScale.IncrementData.SubIncrements.hasElements() ) { if( ! aScale.IncrementData.SubIncrements[0].IntervalCount.hasValue() || aScale.IncrementData.SubIncrements[0].IntervalCount != aValue ) { OSL_ASSERT( aValue.getValueTypeClass() == uno::TypeClass_LONG ); aScale.IncrementData.SubIncrements[0].IntervalCount = aValue; bSetScale = true; } } } break; case SCHATTR_AXIS_AUTO_TIME_RESOLUTION: if( static_cast< const SfxBoolItem & >( rItemSet.Get( nWhichId )).GetValue() ) { aScale.TimeIncrement.TimeResolution.clear(); bSetScale = true; } break; case SCHATTR_AXIS_TIME_RESOLUTION: // only if auto is false if( ! ( rItemSet.Get( SCHATTR_AXIS_AUTO_TIME_RESOLUTION ).GetValue() )) { rItemSet.Get( nWhichId ).QueryValue( aValue ); if( aScale.TimeIncrement.TimeResolution != aValue ) { aScale.TimeIncrement.TimeResolution = aValue; bSetScale = true; } } break; case SCHATTR_AXIS_AUTO_ORIGIN: { if( static_cast< const SfxBoolItem & >(rItemSet.Get( nWhichId )).GetValue() ) { aScale.Origin.clear(); bSetScale = true; } } break; case SCHATTR_AXIS_ORIGIN: { // only if auto is false if( ! (rItemSet.Get( SCHATTR_AXIS_AUTO_ORIGIN ).GetValue() )) { rItemSet.Get( nWhichId ).QueryValue( aValue ); if( aScale.Origin != aValue ) { aScale.Origin = aValue; bSetScale = true; if( !AxisHelper::isAxisPositioningEnabled() ) { //keep old and new settings for axis positioning in sync somehow Reference< chart2::XCoordinateSystem > xCooSys( AxisHelper::getCoordinateSystemOfAxis( m_xAxis, ChartModelHelper::findDiagram( m_xChartDoc ) ) ); sal_Int32 nDimensionIndex=0; sal_Int32 nAxisIndex=0; if( AxisHelper::getIndicesForAxis( m_xAxis, xCooSys, nDimensionIndex, nAxisIndex ) && nAxisIndex==0 ) { Reference< beans::XPropertySet > xCrossingMainAxis( AxisHelper::getCrossingMainAxis( m_xAxis, xCooSys ), uno::UNO_QUERY ); if( xCrossingMainAxis.is() ) { double fValue = 0.0; if( aValue >>= fValue ) { xCrossingMainAxis->setPropertyValue( "CrossoverPosition" , uno::Any( css::chart::ChartAxisPosition_VALUE )); xCrossingMainAxis->setPropertyValue( "CrossoverValue" , uno::Any( fValue )); } else xCrossingMainAxis->setPropertyValue( "CrossoverPosition" , uno::Any( css::chart::ChartAxisPosition_START )); } } } } } } break; case SCHATTR_AXIS_POSITION: { css::chart::ChartAxisPosition eAxisPos = static_cast(static_cast< const SfxInt32Item & >( rItemSet.Get( nWhichId )).GetValue()); css::chart::ChartAxisPosition eOldAxisPos( css::chart::ChartAxisPosition_ZERO ); bool bPropExisted = ( GetPropertySet()->getPropertyValue( "CrossoverPosition" ) >>= eOldAxisPos ); if( !bPropExisted || ( eOldAxisPos != eAxisPos )) { GetPropertySet()->setPropertyValue( "CrossoverPosition" , uno::Any( eAxisPos )); bChangedOtherwise = true; //move the parallel axes to the other side if necessary if( eAxisPos==css::chart::ChartAxisPosition_START || eAxisPos==css::chart::ChartAxisPosition_END ) { Reference< beans::XPropertySet > xParallelAxis( AxisHelper::getParallelAxis( m_xAxis, ChartModelHelper::findDiagram( m_xChartDoc ) ), uno::UNO_QUERY ); if( xParallelAxis.is() ) { css::chart::ChartAxisPosition eOtherPos; if( xParallelAxis->getPropertyValue( "CrossoverPosition" ) >>= eOtherPos ) { if( eOtherPos == eAxisPos ) { css::chart::ChartAxisPosition eOppositePos = (eAxisPos==css::chart::ChartAxisPosition_START) ? css::chart::ChartAxisPosition_END : css::chart::ChartAxisPosition_START; xParallelAxis->setPropertyValue( "CrossoverPosition" , uno::Any( eOppositePos )); } } } } } } break; case SCHATTR_AXIS_POSITION_VALUE: { double fValue = static_cast< const SvxDoubleItem & >( rItemSet.Get( nWhichId )).GetValue(); double fOldValue = 0.0; bool bPropExisted = ( GetPropertySet()->getPropertyValue( "CrossoverValue" ) >>= fOldValue ); if( !bPropExisted || ( fOldValue != fValue )) { GetPropertySet()->setPropertyValue( "CrossoverValue" , uno::Any( fValue )); bChangedOtherwise = true; //keep old and new settings for axis positioning in sync somehow { Reference< chart2::XCoordinateSystem > xCooSys( AxisHelper::getCoordinateSystemOfAxis( m_xAxis, ChartModelHelper::findDiagram( m_xChartDoc ) ) ); sal_Int32 nDimensionIndex=0; sal_Int32 nAxisIndex=0; if( AxisHelper::getIndicesForAxis( m_xAxis, xCooSys, nDimensionIndex, nAxisIndex ) && nAxisIndex==0 ) { Reference< chart2::XAxis > xCrossingMainAxis( AxisHelper::getCrossingMainAxis( m_xAxis, xCooSys ) ); if( xCrossingMainAxis.is() ) { ScaleData aCrossingScale( xCrossingMainAxis->getScaleData() ); aCrossingScale.Origin <<= fValue; xCrossingMainAxis->setScaleData(aCrossingScale); } } } } } break; case SCHATTR_AXIS_SHIFTED_CATEGORY_POSITION: { bool bNewValue = static_cast (rItemSet.Get(nWhichId)).GetValue(); bool bOldValue = aScale.ShiftedCategoryPosition; if (bOldValue != bNewValue) { aScale.ShiftedCategoryPosition = bNewValue; bSetScale = true; } } break; case SCHATTR_AXIS_LABEL_POSITION: { css::chart::ChartAxisLabelPosition ePos = static_cast(static_cast< const SfxInt32Item & >( rItemSet.Get( nWhichId )).GetValue()); css::chart::ChartAxisLabelPosition eOldPos( css::chart::ChartAxisLabelPosition_NEAR_AXIS ); bool bPropExisted = ( GetPropertySet()->getPropertyValue( "LabelPosition" ) >>= eOldPos ); if( !bPropExisted || ( eOldPos != ePos )) { GetPropertySet()->setPropertyValue( "LabelPosition" , uno::Any( ePos )); bChangedOtherwise = true; //move the parallel axes to the other side if necessary if( ePos==css::chart::ChartAxisLabelPosition_OUTSIDE_START || ePos==css::chart::ChartAxisLabelPosition_OUTSIDE_END ) { Reference< beans::XPropertySet > xParallelAxis( AxisHelper::getParallelAxis( m_xAxis, ChartModelHelper::findDiagram( m_xChartDoc ) ), uno::UNO_QUERY ); if( xParallelAxis.is() ) { css::chart::ChartAxisLabelPosition eOtherPos; if( xParallelAxis->getPropertyValue( "LabelPosition" ) >>= eOtherPos ) { if( eOtherPos == ePos ) { css::chart::ChartAxisLabelPosition eOppositePos = (ePos==css::chart::ChartAxisLabelPosition_OUTSIDE_START) ? css::chart::ChartAxisLabelPosition_OUTSIDE_END : css::chart::ChartAxisLabelPosition_OUTSIDE_START; xParallelAxis->setPropertyValue( "LabelPosition" , uno::Any( eOppositePos )); } } } } } } break; case SCHATTR_AXIS_MARK_POSITION: { css::chart::ChartAxisMarkPosition ePos = static_cast(static_cast< const SfxInt32Item & >( rItemSet.Get( nWhichId )).GetValue()); css::chart::ChartAxisMarkPosition eOldPos( css::chart::ChartAxisMarkPosition_AT_LABELS_AND_AXIS ); bool bPropExisted = ( GetPropertySet()->getPropertyValue( "MarkPosition" ) >>= eOldPos ); if( !bPropExisted || ( eOldPos != ePos )) { GetPropertySet()->setPropertyValue( "MarkPosition" , uno::Any( ePos )); bChangedOtherwise = true; } } break; case SCHATTR_TEXT_DEGREES: { // convert int to double (divided by 100) double fVal = static_cast< double >( static_cast< const SfxInt32Item & >( rItemSet.Get( nWhichId )).GetValue()) / 100.0; double fOldVal = 0.0; bool bPropExisted = ( GetPropertySet()->getPropertyValue( "TextRotation" ) >>= fOldVal ); if( ! bPropExisted || fOldVal != fVal ) { GetPropertySet()->setPropertyValue( "TextRotation" , uno::Any( fVal )); bChangedOtherwise = true; } } break; case SID_ATTR_NUMBERFORMAT_VALUE: { if( m_pExplicitScale ) { bool bUseSourceFormat = static_cast< const SfxBoolItem & >( rItemSet.Get( SID_ATTR_NUMBERFORMAT_SOURCE )).GetValue(); if( ! bUseSourceFormat ) { sal_Int32 nFmt = static_cast< sal_Int32 >( static_cast< const SfxUInt32Item & >( rItemSet.Get( nWhichId )).GetValue()); aValue <<= nFmt; if (GetPropertySet()->getPropertyValue(CHART_UNONAME_NUMFMT) != aValue) { GetPropertySet()->setPropertyValue(CHART_UNONAME_NUMFMT , aValue); bChangedOtherwise = true; } } } } break; case SID_ATTR_NUMBERFORMAT_SOURCE: { bool bUseSourceFormat = static_cast< const SfxBoolItem & >( rItemSet.Get( nWhichId )).GetValue(); GetPropertySet()->setPropertyValue(CHART_UNONAME_LINK_TO_SRC_NUMFMT, uno::Any(bUseSourceFormat)); bool bNumberFormatIsSet = GetPropertySet()->getPropertyValue(CHART_UNONAME_NUMFMT).hasValue(); bChangedOtherwise = (bUseSourceFormat == bNumberFormatIsSet); if( bChangedOtherwise ) { if( ! bUseSourceFormat ) { SfxItemState aState = rItemSet.GetItemState( SID_ATTR_NUMBERFORMAT_VALUE ); if( aState == SfxItemState::SET ) { sal_Int32 nFormatKey = static_cast< sal_Int32 >( rItemSet.Get( SID_ATTR_NUMBERFORMAT_VALUE ).GetValue()); aValue <<= nFormatKey; } else { Reference< chart2::XCoordinateSystem > xCooSys( AxisHelper::getCoordinateSystemOfAxis( m_xAxis, ChartModelHelper::findDiagram( m_xChartDoc ) ) ); sal_Int32 nFormatKey = ExplicitValueProvider::getExplicitNumberFormatKeyForAxis( m_xAxis, xCooSys, m_xChartDoc); aValue <<= nFormatKey; } } // else set a void Any GetPropertySet()->setPropertyValue(CHART_UNONAME_NUMFMT , aValue); } } break; case SCHATTR_AXISTYPE: { sal_Int32 nNewAxisType = static_cast< const SfxInt32Item & >( rItemSet.Get( nWhichId )).GetValue();//css::chart2::AxisType aScale.AxisType = nNewAxisType; bSetScale = true; } break; case SCHATTR_AXIS_AUTO_DATEAXIS: { bool bNewValue = static_cast< const SfxBoolItem & >( rItemSet.Get( nWhichId )).GetValue(); bool bOldValue = aScale.AutoDateAxis; if( bOldValue != bNewValue ) { aScale.AutoDateAxis = bNewValue; bSetScale = true; } } break; } if( bSetScale ) m_xAxis->setScaleData( aScale ); return (bSetScale || bChangedOtherwise); } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */