/************************************************************** * * 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 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_chart2.hxx" #include "VAxisBase.hxx" #include "ShapeFactory.hxx" #include "CommonConverters.hxx" #include "Tickmarks.hxx" #include "macros.hxx" // header for define DBG_ASSERT #include #include //............................................................................. namespace chart { //............................................................................. using namespace ::com::sun::star; using namespace ::com::sun::star::chart2; using ::com::sun::star::uno::Reference; VAxisBase::VAxisBase( sal_Int32 nDimensionIndex, sal_Int32 nDimensionCount , const AxisProperties& rAxisProperties , const uno::Reference< util::XNumberFormatsSupplier >& xNumberFormatsSupplier ) : VAxisOrGridBase( nDimensionIndex, nDimensionCount ) , m_xNumberFormatsSupplier( xNumberFormatsSupplier ) , m_aAxisProperties( rAxisProperties ) , m_bUseTextLabels( false ) , m_bReCreateAllTickInfos( true ) , m_bRecordMaximumTextSize(false) , m_nMaximumTextWidthSoFar(0) , m_nMaximumTextHeightSoFar(0) { } VAxisBase::~VAxisBase() { } sal_Int32 VAxisBase::getDimensionCount() { return m_nDimension; } void VAxisBase::initAxisLabelProperties( const ::com::sun::star::awt::Size& rFontReferenceSize , const ::com::sun::star::awt::Rectangle& rMaximumSpaceForLabels ) { m_aAxisLabelProperties.m_aFontReferenceSize = rFontReferenceSize; m_aAxisLabelProperties.m_aMaximumSpaceForLabels = rMaximumSpaceForLabels; if( !m_aAxisProperties.m_bDisplayLabels ) return; if( AxisType::SERIES==m_aAxisProperties.m_nAxisType ) { if( m_aAxisProperties.m_xAxisTextProvider.is() ) m_aTextLabels = m_aAxisProperties.m_xAxisTextProvider->getTextualData(); m_bUseTextLabels = true; if( m_aTextLabels.getLength() == 1 ) { //don't show a single series name m_aAxisProperties.m_bDisplayLabels = false; return; } } else if( AxisType::CATEGORY==m_aAxisProperties.m_nAxisType ) { if( m_aAxisProperties.m_pExplicitCategoriesProvider ) m_aTextLabels = m_aAxisProperties.m_pExplicitCategoriesProvider->getSimpleCategories(); m_bUseTextLabels = true; } m_aAxisLabelProperties.nNumberFormatKey = m_aAxisProperties.m_nNumberFormatKey; m_aAxisLabelProperties.init(m_aAxisProperties.m_xAxisModel); if( m_aAxisProperties.m_bComplexCategories && AxisType::CATEGORY == m_aAxisProperties.m_nAxisType ) m_aAxisLabelProperties.eStaggering = SIDE_BY_SIDE; } bool VAxisBase::isDateAxis() const { return AxisType::DATE == m_aScale.AxisType; } bool VAxisBase::isComplexCategoryAxis() const { return m_aAxisProperties.m_bComplexCategories && m_bUseTextLabels; } void VAxisBase::recordMaximumTextSize( const Reference< drawing::XShape >& xShape, double fRotationAngleDegree ) { if( m_bRecordMaximumTextSize && xShape.is() ) { awt::Size aSize( ShapeFactory::getSizeAfterRotation( xShape, fRotationAngleDegree ) ); m_nMaximumTextWidthSoFar = std::max( m_nMaximumTextWidthSoFar, aSize.Width ); m_nMaximumTextHeightSoFar = std::max( m_nMaximumTextHeightSoFar, aSize.Height ); } } sal_Int32 VAxisBase::estimateMaximumAutoMainIncrementCount() { return 10; } void VAxisBase::setExrtaLinePositionAtOtherAxis( const double& fCrossingAt ) { if( m_aAxisProperties.m_pfExrtaLinePositionAtOtherAxis ) delete m_aAxisProperties.m_pfExrtaLinePositionAtOtherAxis; m_aAxisProperties.m_pfExrtaLinePositionAtOtherAxis = new double(fCrossingAt); } sal_Bool VAxisBase::isAnythingToDraw() { if( !m_aAxisProperties.m_xAxisModel.is() ) return false; DBG_ASSERT(m_pShapeFactory&&m_xLogicTarget.is()&&m_xFinalTarget.is(),"Axis is not proper initialized"); if(!(m_pShapeFactory&&m_xLogicTarget.is()&&m_xFinalTarget.is())) return false; uno::Reference< beans::XPropertySet > xProps( m_aAxisProperties.m_xAxisModel, uno::UNO_QUERY ); if( xProps.is() ) { sal_Bool bShow = sal_False; xProps->getPropertyValue( C2U( "Show" ) ) >>= bShow; if( !bShow ) return false; } return true; } void VAxisBase::setExplicitScaleAndIncrement( const ExplicitScaleData& rScale , const ExplicitIncrementData& rIncrement ) throw (uno::RuntimeException) { m_bReCreateAllTickInfos = true; m_aScale = rScale; m_aIncrement = rIncrement; } void VAxisBase::createAllTickInfos( ::std::vector< ::std::vector< TickInfo > >& rAllTickInfos ) { std::auto_ptr< TickFactory > apTickFactory( this->createTickFactory() ); if( m_aScale.ShiftedCategoryPosition ) apTickFactory->getAllTicksShifted( rAllTickInfos ); else apTickFactory->getAllTicks( rAllTickInfos ); } bool VAxisBase::prepareShapeCreation() { //returns true if all is ready for further shape creation and any shapes need to be created if( !isAnythingToDraw() ) return false; if( m_bReCreateAllTickInfos ) { //----------------------------------------- //create all scaled tickmark values removeTextShapesFromTicks(); createAllTickInfos(m_aAllTickInfos); m_bReCreateAllTickInfos = false; } if( m_xGroupShape_Shapes.is() ) return true; //----------------------------------------- //create named group shape m_xGroupShape_Shapes = this->createGroupShape( m_xLogicTarget, m_nDimension==2 ? m_aCID : C2U("")); if( m_aAxisProperties.m_bDisplayLabels ) m_xTextTarget = m_pShapeFactory->createGroup2D( m_xFinalTarget, m_aCID ); return true; } sal_Int32 VAxisBase::getIndexOfLongestLabel( const uno::Sequence< rtl::OUString >& rLabels ) { sal_Int32 nRet = 0; sal_Int32 nLength = 0; sal_Int32 nN = 0; for( nN=0; nN nLength ) { nLength = rLabels[nN].getLength(); nRet = nN; } } return nRet; } void VAxisBase::removeTextShapesFromTicks() { if( m_xTextTarget.is() ) { ::std::vector< ::std::vector< TickInfo > >::iterator aDepthIter = m_aAllTickInfos.begin(); const ::std::vector< ::std::vector< TickInfo > >::const_iterator aDepthEnd = m_aAllTickInfos.end(); for( ; aDepthIter != aDepthEnd; aDepthIter++ ) { ::std::vector< TickInfo >::iterator aTickIter = (*aDepthIter).begin(); const ::std::vector< TickInfo >::const_iterator aTickEnd = (*aDepthIter).end(); for( ; aTickIter != aTickEnd; aTickIter++ ) { TickInfo& rTickInfo = (*aTickIter); if(rTickInfo.xTextShape.is()) { m_xTextTarget->remove(rTickInfo.xTextShape); rTickInfo.xTextShape = NULL; } } } } } void VAxisBase::updateUnscaledValuesAtTicks( TickIter& rIter ) { Reference< XScaling > xInverseScaling( NULL ); if( m_aScale.Scaling.is() ) xInverseScaling = m_aScale.Scaling->getInverseScaling(); for( TickInfo* pTickInfo = rIter.firstInfo() ; pTickInfo; pTickInfo = rIter.nextInfo() ) { //xxxxx pTickInfo->updateUnscaledValue( xInverseScaling ); } } //............................................................................. } //namespace chart //.............................................................................