/* -*- 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 "WrappedScaleProperty.hxx" #include "macros.hxx" #include "CommonConverters.hxx" #include "AxisHelper.hxx" #include #include #include using namespace ::com::sun::star; using ::com::sun::star::uno::Any; using namespace ::com::sun::star::chart2; using ::com::sun::star::uno::Reference; using ::com::sun::star::uno::Sequence; using ::com::sun::star::chart::TimeIncrement; namespace chart { namespace wrapper { WrappedScaleProperty::WrappedScaleProperty(tScaleProperty eScaleProperty , const std::shared_ptr& spChart2ModelContact) : WrappedProperty(OUString(),OUString()) , m_spChart2ModelContact( spChart2ModelContact ) , m_eScaleProperty( eScaleProperty ) { switch( m_eScaleProperty ) { case SCALE_PROP_MAX: m_aOuterName = "Max"; break; case SCALE_PROP_MIN: m_aOuterName = "Min"; break; case SCALE_PROP_ORIGIN: m_aOuterName = "Origin"; break; case SCALE_PROP_STEPMAIN: m_aOuterName = "StepMain"; break; case SCALE_PROP_STEPHELP: m_aOuterName = "StepHelp"; break; case SCALE_PROP_STEPHELP_COUNT: m_aOuterName = "StepHelpCount"; break; case SCALE_PROP_AUTO_MAX: m_aOuterName = "AutoMax"; break; case SCALE_PROP_AUTO_MIN: m_aOuterName = "AutoMin"; break; case SCALE_PROP_AUTO_ORIGIN: m_aOuterName = "AutoOrigin"; break; case SCALE_PROP_AUTO_STEPMAIN: m_aOuterName = "AutoStepMain"; break; case SCALE_PROP_AUTO_STEPHELP: m_aOuterName = "AutoStepHelp"; break; case SCALE_PROP_AXIS_TYPE: m_aOuterName = "AxisType"; break; case SCALE_PROP_DATE_INCREMENT: m_aOuterName = "TimeIncrement"; break; case SCALE_PROP_EXPLICIT_DATE_INCREMENT: m_aOuterName = "ExplicitTimeIncrement"; break; case SCALE_PROP_LOGARITHMIC: m_aOuterName = "Logarithmic"; break; case SCALE_PROP_REVERSEDIRECTION: m_aOuterName = "ReverseDirection"; break; default: OSL_FAIL("unknown scale property"); break; } } WrappedScaleProperty::~WrappedScaleProperty() { } void WrappedScaleProperty::addWrappedProperties( std::vector< WrappedProperty* >& rList , const std::shared_ptr< Chart2ModelContact >& spChart2ModelContact ) { rList.push_back( new WrappedScaleProperty( SCALE_PROP_MAX, spChart2ModelContact ) ); rList.push_back( new WrappedScaleProperty( SCALE_PROP_MIN, spChart2ModelContact ) ); rList.push_back( new WrappedScaleProperty( SCALE_PROP_ORIGIN, spChart2ModelContact ) ); rList.push_back( new WrappedScaleProperty( SCALE_PROP_STEPMAIN, spChart2ModelContact ) ); rList.push_back( new WrappedScaleProperty( SCALE_PROP_STEPHELP, spChart2ModelContact ) ); rList.push_back( new WrappedScaleProperty( SCALE_PROP_STEPHELP_COUNT, spChart2ModelContact ) ); rList.push_back( new WrappedScaleProperty( SCALE_PROP_AUTO_MAX, spChart2ModelContact ) ); rList.push_back( new WrappedScaleProperty( SCALE_PROP_AUTO_MIN, spChart2ModelContact ) ); rList.push_back( new WrappedScaleProperty( SCALE_PROP_AUTO_ORIGIN, spChart2ModelContact ) ); rList.push_back( new WrappedScaleProperty( SCALE_PROP_AUTO_STEPMAIN, spChart2ModelContact ) ); rList.push_back( new WrappedScaleProperty( SCALE_PROP_AUTO_STEPHELP, spChart2ModelContact ) ); rList.push_back( new WrappedScaleProperty( SCALE_PROP_AXIS_TYPE, spChart2ModelContact ) ); rList.push_back( new WrappedScaleProperty( SCALE_PROP_DATE_INCREMENT, spChart2ModelContact ) ); rList.push_back( new WrappedScaleProperty( SCALE_PROP_EXPLICIT_DATE_INCREMENT, spChart2ModelContact ) ); rList.push_back( new WrappedScaleProperty( SCALE_PROP_LOGARITHMIC, spChart2ModelContact ) ); rList.push_back( new WrappedScaleProperty( SCALE_PROP_REVERSEDIRECTION, spChart2ModelContact ) ); } void WrappedScaleProperty::setPropertyValue( const Any& rOuterValue, const Reference< beans::XPropertySet >& xInnerPropertySet ) const { setPropertyValue( m_eScaleProperty, rOuterValue, xInnerPropertySet ); } Any WrappedScaleProperty::getPropertyValue( const Reference< beans::XPropertySet >& xInnerPropertySet ) const { return getPropertyValue( m_eScaleProperty, xInnerPropertySet ); } void WrappedScaleProperty::setPropertyValue( tScaleProperty eScaleProperty, const Any& rOuterValue, const Reference< beans::XPropertySet >& xInnerPropertySet ) const { m_aOuterValue = rOuterValue; Reference< chart2::XAxis > xAxis( xInnerPropertySet, uno::UNO_QUERY ); OSL_ENSURE(xAxis.is(),"need an XAxis"); if(!xAxis.is()) return; bool bSetScaleData = false; chart2::ScaleData aScaleData( xAxis->getScaleData() ); bool bBool = false; switch( eScaleProperty ) { case SCALE_PROP_MAX: { aScaleData.Maximum = rOuterValue; bSetScaleData = true; break; } case SCALE_PROP_MIN: { aScaleData.Minimum = rOuterValue; bSetScaleData = true; break; } case SCALE_PROP_STEPMAIN: { aScaleData.IncrementData.Distance = rOuterValue; bSetScaleData = true; break; } case SCALE_PROP_STEPHELP: { Sequence< chart2::SubIncrement >& rSubIncrements( aScaleData.IncrementData.SubIncrements ); if( rSubIncrements.getLength() == 0 ) rSubIncrements.realloc( 1 ); double fStepHelp = 0; if( (rOuterValue >>= fStepHelp) ) { double fStepMain = 0; if( AxisHelper::isLogarithmic(aScaleData.Scaling) ) { sal_Int32 nIntervalCount = static_cast< sal_Int32 >(fStepHelp); rSubIncrements[ 0 ].IntervalCount <<= nIntervalCount; } else if( (fStepHelp != 0.0) && (aScaleData.IncrementData.Distance >>= fStepMain) ) { // approximate interval count sal_Int32 nIntervalCount = static_cast< sal_Int32 >(fStepMain / fStepHelp);//cppcheck-suppress zerodiv rSubIncrements[ 0 ].IntervalCount <<= nIntervalCount; } } bSetScaleData = true; break; } case SCALE_PROP_STEPHELP_COUNT: { Sequence< chart2::SubIncrement >& rSubIncrements( aScaleData.IncrementData.SubIncrements ); if( rSubIncrements.getLength() == 0 ) rSubIncrements.realloc( 1 ); sal_Int32 nIntervalCount=0; if( rOuterValue>>=nIntervalCount ) rSubIncrements[ 0 ].IntervalCount <<= nIntervalCount; else rSubIncrements[ 0 ].IntervalCount = Any(); bSetScaleData = true; break; } case SCALE_PROP_AUTO_MAX: { if( (rOuterValue >>= bBool) && bBool ) aScaleData.Maximum = Any(); else aScaleData.Maximum = getPropertyValue( SCALE_PROP_MAX, xInnerPropertySet ); bSetScaleData = true; break; } case SCALE_PROP_AUTO_MIN: { if( (rOuterValue >>= bBool) && bBool ) aScaleData.Minimum = Any(); else aScaleData.Minimum = getPropertyValue( SCALE_PROP_MIN, xInnerPropertySet ); bSetScaleData = true; break; } case SCALE_PROP_AUTO_STEPMAIN: { if( (rOuterValue >>= bBool) && bBool ) aScaleData.IncrementData.Distance = Any(); else aScaleData.IncrementData.Distance = getPropertyValue( SCALE_PROP_STEPMAIN, xInnerPropertySet ); bSetScaleData = true; break; } case SCALE_PROP_AUTO_STEPHELP: { Sequence< chart2::SubIncrement >& rSubIncrements( aScaleData.IncrementData.SubIncrements ); if( rSubIncrements.getLength() == 0 ) rSubIncrements.realloc( 1 ); if( (rOuterValue >>= bBool) && bBool ) rSubIncrements[ 0 ].IntervalCount = Any(); else rSubIncrements[ 0 ].IntervalCount = getPropertyValue( SCALE_PROP_STEPHELP_COUNT, xInnerPropertySet ); bSetScaleData = true; break; } case SCALE_PROP_ORIGIN: { aScaleData.Origin = rOuterValue; bSetScaleData = true; break; } case SCALE_PROP_AUTO_ORIGIN: { if( (rOuterValue >>= bBool) && bBool ) aScaleData.Origin = Any(); else aScaleData.Origin = getPropertyValue( SCALE_PROP_ORIGIN, xInnerPropertySet ); bSetScaleData = true; break; } case SCALE_PROP_AXIS_TYPE: { sal_Int32 nType = 0; if( (rOuterValue >>= nType) ) { if( css::chart::ChartAxisType::AUTOMATIC == nType ) { aScaleData.AutoDateAxis = true; if( aScaleData.AxisType == AxisType::DATE ) aScaleData.AxisType = AxisType::CATEGORY; } else if( css::chart::ChartAxisType::CATEGORY == nType ) { aScaleData.AutoDateAxis = false; if( aScaleData.AxisType == AxisType::DATE ) aScaleData.AxisType = AxisType::CATEGORY; } else if( css::chart::ChartAxisType::DATE == nType ) { if( aScaleData.AxisType == AxisType::CATEGORY ) aScaleData.AxisType = AxisType::DATE; } bSetScaleData = true; } break; } case SCALE_PROP_DATE_INCREMENT: { TimeIncrement aTimeIncrement; rOuterValue >>= aTimeIncrement; aScaleData.TimeIncrement = aTimeIncrement; bSetScaleData = true; break; } case SCALE_PROP_EXPLICIT_DATE_INCREMENT: //read only property break; case SCALE_PROP_LOGARITHMIC: { if( rOuterValue >>= bBool ) { bool bWasLogarithm = AxisHelper::isLogarithmic( aScaleData.Scaling ); // safe comparison between sal_Bool and bool if( (!bBool) != (!bWasLogarithm) ) { if( bBool ) aScaleData.Scaling = AxisHelper::createLogarithmicScaling( 10.0 ); else aScaleData.Scaling = nullptr; bSetScaleData = true; } } break; } case SCALE_PROP_REVERSEDIRECTION: { if( rOuterValue >>= bBool ) { bool bWasReverse = ( AxisOrientation_REVERSE == aScaleData.Orientation ); if( (!bBool) != (!bWasReverse) ) // safe comparison between sal_Bool and bool { aScaleData.Orientation = bBool ? AxisOrientation_REVERSE : AxisOrientation_MATHEMATICAL; bSetScaleData = true; } } break; } default: { OSL_FAIL("unknown scale property"); break; } } if( bSetScaleData ) xAxis->setScaleData( aScaleData ); } Any WrappedScaleProperty::getPropertyValue( tScaleProperty eScaleProperty, const Reference< beans::XPropertySet >& xInnerPropertySet ) const { Any aRet( m_aOuterValue ); Reference< chart2::XAxis > xAxis( xInnerPropertySet, uno::UNO_QUERY ); OSL_ENSURE(xAxis.is(),"need an XAxis"); if(!xAxis.is()) return aRet; chart2::ScaleData aScaleData( xAxis->getScaleData() ); ExplicitScaleData aExplicitScale; ExplicitIncrementData aExplicitIncrement; switch( eScaleProperty ) { case SCALE_PROP_MAX: { aRet = aScaleData.Maximum; if( !aRet.hasValue() ) { m_spChart2ModelContact->getExplicitValuesForAxis( xAxis, aExplicitScale, aExplicitIncrement ); aRet <<= aExplicitScale.Maximum; } break; } case SCALE_PROP_MIN: { aRet = aScaleData.Minimum; if( !aRet.hasValue() ) { m_spChart2ModelContact->getExplicitValuesForAxis( xAxis, aExplicitScale, aExplicitIncrement ); aRet <<= aExplicitScale.Minimum; } break; } case SCALE_PROP_STEPMAIN: { aRet = aScaleData.IncrementData.Distance; if( !aRet.hasValue() ) { m_spChart2ModelContact->getExplicitValuesForAxis( xAxis, aExplicitScale, aExplicitIncrement ); aRet <<= aExplicitIncrement.Distance; } break; } case SCALE_PROP_STEPHELP: { // todo: evaluate PostEquidistant bool bNeedToCalculateExplicitValues = true; bool bLogarithmic( AxisHelper::isLogarithmic(aScaleData.Scaling) ); Sequence< chart2::SubIncrement >& rSubIncrements( aScaleData.IncrementData.SubIncrements ); if( bLogarithmic ) { if( rSubIncrements.getLength() > 0 ) { sal_Int32 nIntervalCount = 0; rSubIncrements[ 0 ].IntervalCount >>= nIntervalCount; aRet = uno::Any( double(nIntervalCount) ); bNeedToCalculateExplicitValues = false; } } else if( aScaleData.IncrementData.Distance.hasValue() ) { if( rSubIncrements.getLength() > 0 ) { double fStepMain = 0; sal_Int32 nIntervalCount = 0; if( (aScaleData.IncrementData.Distance >>= fStepMain) && (rSubIncrements[ 0 ].IntervalCount >>= nIntervalCount) && nIntervalCount > 0 ) { aRet <<= ( fStepMain / static_cast< double >( nIntervalCount ) ); bNeedToCalculateExplicitValues = false; } } else { aRet = aScaleData.IncrementData.Distance; bNeedToCalculateExplicitValues = false; } } if( bNeedToCalculateExplicitValues ) { m_spChart2ModelContact->getExplicitValuesForAxis( xAxis, aExplicitScale, aExplicitIncrement ); if( !aExplicitIncrement.SubIncrements.empty() && aExplicitIncrement.SubIncrements[ 0 ].IntervalCount > 0 ) { if( bLogarithmic ) { if( rSubIncrements.getLength() > 0 ) { sal_Int32 nIntervalCount = aExplicitIncrement.SubIncrements[ 0 ].IntervalCount; aRet = uno::Any( double(nIntervalCount) ); } } else aRet <<= ( aExplicitIncrement.Distance / static_cast< double >( aExplicitIncrement.SubIncrements[ 0 ].IntervalCount )); } else { if( bLogarithmic ) aRet <<= 5.0; else aRet <<= aExplicitIncrement.Distance; } } break; } case SCALE_PROP_STEPHELP_COUNT: { sal_Int32 nIntervalCount = 0; bool bNeedToCalculateExplicitValues = true; Sequence< chart2::SubIncrement >& rSubIncrements( aScaleData.IncrementData.SubIncrements ); if( rSubIncrements.getLength() > 0 ) { if( (rSubIncrements[ 0 ].IntervalCount >>= nIntervalCount) && (nIntervalCount > 0) ) bNeedToCalculateExplicitValues = false; } if( bNeedToCalculateExplicitValues ) { m_spChart2ModelContact->getExplicitValuesForAxis( xAxis, aExplicitScale, aExplicitIncrement ); if( !aExplicitIncrement.SubIncrements.empty() ) nIntervalCount = aExplicitIncrement.SubIncrements[ 0 ].IntervalCount; } aRet = uno::Any( nIntervalCount ); break; } case SCALE_PROP_AUTO_MAX: { aRet <<= !aScaleData.Maximum.hasValue(); break; } case SCALE_PROP_AUTO_MIN: { aRet <<= !aScaleData.Minimum.hasValue(); break; } case SCALE_PROP_AUTO_STEPMAIN: { aRet <<= !aScaleData.IncrementData.Distance.hasValue(); break; } case SCALE_PROP_AUTO_STEPHELP: { Sequence< chart2::SubIncrement >& rSubIncrements( aScaleData.IncrementData.SubIncrements ); if( rSubIncrements.getLength() > 0 ) aRet <<= !rSubIncrements[ 0 ].IntervalCount.hasValue(); else aRet <<= true; break; } case SCALE_PROP_ORIGIN: { aRet = aScaleData.Origin; if( !aRet.hasValue() ) { m_spChart2ModelContact->getExplicitValuesForAxis( xAxis, aExplicitScale, aExplicitIncrement ); aRet <<= aExplicitScale.Origin; } break; } case SCALE_PROP_AUTO_ORIGIN: { aRet <<= !hasDoubleValue(aScaleData.Origin); break; } case SCALE_PROP_AXIS_TYPE: { sal_Int32 nType = css::chart::ChartAxisType::AUTOMATIC; if( aScaleData.AxisType == AxisType::DATE ) { nType = css::chart::ChartAxisType::DATE; } else if( aScaleData.AxisType == AxisType::CATEGORY ) { if( !aScaleData.AutoDateAxis ) nType = css::chart::ChartAxisType::CATEGORY; } aRet = uno::Any( nType ); break; } case SCALE_PROP_DATE_INCREMENT: { if( aScaleData.AxisType == AxisType::DATE || aScaleData.AutoDateAxis ) aRet = uno::Any( aScaleData.TimeIncrement ); break; } case SCALE_PROP_EXPLICIT_DATE_INCREMENT: { if( aScaleData.AxisType == AxisType::DATE || aScaleData.AutoDateAxis ) { m_spChart2ModelContact->getExplicitValuesForAxis( xAxis, aExplicitScale, aExplicitIncrement ); if( aExplicitScale.AxisType == AxisType::DATE ) { TimeIncrement aTimeIncrement; aTimeIncrement.MajorTimeInterval = uno::Any( aExplicitIncrement.MajorTimeInterval ); aTimeIncrement.MinorTimeInterval = uno::Any( aExplicitIncrement.MinorTimeInterval ); aTimeIncrement.TimeResolution = uno::Any( aExplicitScale.TimeResolution ); aRet = uno::Any(aTimeIncrement); } } if( aScaleData.AxisType == AxisType::DATE || aScaleData.AutoDateAxis ) aRet = uno::Any( aScaleData.TimeIncrement ); break; } case SCALE_PROP_LOGARITHMIC: { aRet <<= AxisHelper::isLogarithmic(aScaleData.Scaling); break; } case SCALE_PROP_REVERSEDIRECTION: { aRet <<= AxisOrientation_REVERSE == aScaleData.Orientation; break; } default: { OSL_FAIL("unknown scale property"); break; } } return aRet; } } // namespace wrapper } // namespace chart /* vim:set shiftwidth=4 softtabstop=4 expandtab: */