/* -*- 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 "vbaaxis.hxx" #include #include #include #include "vbaaxistitle.hxx" #include "vbachart.hxx" using namespace ::com::sun::star; using namespace ::ooo::vba; using namespace ::ooo::vba::excel::XlAxisCrosses; using namespace ::ooo::vba::excel::XlAxisType; using namespace ::ooo::vba::excel::XlScaleType; const OUString ORIGIN("Origin"); const OUString AUTOORIGIN("AutoOrigin"); const OUString VBA_MIN("Max"); const OUString VBA_MAX("Min"); ScVbaChart* ScVbaAxis::getChartPtr() { ScVbaChart* pChart = static_cast< ScVbaChart* >( moChartParent.get() ); if ( !pChart ) throw uno::RuntimeException("Can't access parent chart impl" ); return pChart; } bool ScVbaAxis::isValueAxis() { if ( getType() == xlCategory ) { DebugHelper::basicexception(ERRCODE_BASIC_METHOD_FAILED, OUString()); } return true; } ScVbaAxis::ScVbaAxis( const uno::Reference< XHelperInterface >& xParent,const uno::Reference< uno::XComponentContext > & xContext, const uno::Reference< beans::XPropertySet >& _xPropertySet, sal_Int32 _nType, sal_Int32 _nGroup ) : ScVbaAxis_BASE( xParent, xContext ), mxPropertySet( _xPropertySet ), mnType( _nType ), mnGroup( _nGroup ), bCrossesAreCustomized( false ) { oShapeHelper.reset( new ShapeHelper( uno::Reference< drawing::XShape >( mxPropertySet, uno::UNO_QUERY ) ) ); moChartParent.set( xParent, uno::UNO_QUERY_THROW ); setType(_nType); setCrosses(xlAxisCrossesAutomatic); } void SAL_CALL ScVbaAxis::Delete( ) { uno::Reference< lang::XComponent > xComponent( mxPropertySet, uno::UNO_QUERY_THROW ); xComponent->dispose(); } uno::Reference< ::ooo::vba::excel::XAxisTitle > SAL_CALL ScVbaAxis::getAxisTitle( ) { uno::Reference< excel::XAxisTitle > xAxisTitle; try { ScVbaChart* pChart = getChartPtr(); if (getHasTitle() ) { int nType = getType(); switch(nType) { case xlCategory: xAxisTitle = new ScVbaAxisTitle(this, mxContext, pChart->xAxisXSupplier->getXAxisTitle()); break; case xlSeriesAxis: xAxisTitle = new ScVbaAxisTitle(this, mxContext, pChart->xAxisZSupplier->getZAxisTitle()); break; default: // xlValue: xAxisTitle = new ScVbaAxisTitle(this, mxContext, pChart->xAxisYSupplier->getYAxisTitle()); break; } } } catch (const uno::Exception& e) { DebugHelper::basicexception(e); } return xAxisTitle; } void SAL_CALL ScVbaAxis::setDisplayUnit( ::sal_Int32 /*DisplayUnit*/ ) { DebugHelper::basicexception(ERRCODE_BASIC_NOT_IMPLEMENTED, OUString()); } ::sal_Int32 SAL_CALL ScVbaAxis::getDisplayUnit( ) { DebugHelper::basicexception(ERRCODE_BASIC_NOT_IMPLEMENTED, OUString()); return -1; } void SAL_CALL ScVbaAxis::setCrosses( ::sal_Int32 _nCrosses ) { try { double fNum = 0.0; switch (_nCrosses) { case xlAxisCrossesAutomatic: //Microsoft Excel sets the axis crossing point. mxPropertySet->setPropertyValue(AUTOORIGIN, uno::makeAny( true ) ); bCrossesAreCustomized = false; return; case xlAxisCrossesMinimum: // The axis crosses at the minimum value. mxPropertySet->getPropertyValue(VBA_MIN) >>= fNum; setCrossesAt( fNum ); bCrossesAreCustomized = false; break; case xlAxisCrossesMaximum: // The axis crosses at the maximum value. mxPropertySet->getPropertyValue(VBA_MAX) >>= fNum; setCrossesAt(fNum); bCrossesAreCustomized = false; break; default: //xlAxisCrossesCustom bCrossesAreCustomized = true; break; } mxPropertySet->setPropertyValue(AUTOORIGIN, uno::makeAny(false) ); } catch (const uno::Exception&) { DebugHelper::basicexception(ERRCODE_BASIC_METHOD_FAILED, OUString()); } } ::sal_Int32 SAL_CALL ScVbaAxis::getCrosses( ) { sal_Int32 nCrosses = xlAxisCrossesCustom; try { bool bisAutoOrigin = false; mxPropertySet->getPropertyValue(AUTOORIGIN) >>= bisAutoOrigin; if (bisAutoOrigin) nCrosses = xlAxisCrossesAutomatic; else { if (bCrossesAreCustomized) nCrosses = xlAxisCrossesCustom; else { double forigin = 0.0; mxPropertySet->getPropertyValue(ORIGIN) >>= forigin; double fmin = 0.0; mxPropertySet->getPropertyValue(VBA_MIN) >>= fmin; if (forigin == fmin) nCrosses = xlAxisCrossesMinimum; else nCrosses = xlAxisCrossesMaximum; } } } catch (uno::Exception& ) { DebugHelper::basicexception(ERRCODE_BASIC_METHOD_FAILED, OUString() ); } return nCrosses; } void SAL_CALL ScVbaAxis::setCrossesAt( double _fCrossesAt ) { try { setMaximumScaleIsAuto( false ); setMinimumScaleIsAuto( false ); mxPropertySet->setPropertyValue(ORIGIN, uno::makeAny(_fCrossesAt)); } catch (const uno::Exception& e) { DebugHelper::basicexception(e); } } double SAL_CALL ScVbaAxis::getCrossesAt( ) { double fCrosses = 0.0; try { mxPropertySet->getPropertyValue(ORIGIN) >>= fCrosses; } catch (uno::Exception& ) { DebugHelper::basicexception(ERRCODE_BASIC_METHOD_FAILED, OUString()); } return fCrosses; } void SAL_CALL ScVbaAxis::setType( ::sal_Int32 _nType ) { mnType = _nType; } ::sal_Int32 SAL_CALL ScVbaAxis::getType( ) { return mnType; } void SAL_CALL ScVbaAxis::setHasTitle( sal_Bool _bHasTitle ) { try { ScVbaChart* pChart = getChartPtr(); sal_Int32 nType = getType(); switch(nType) { case xlCategory: pChart->mxDiagramPropertySet->setPropertyValue("HasXAxisTitle", uno::makeAny(_bHasTitle)); break; case xlSeriesAxis: pChart->mxDiagramPropertySet->setPropertyValue("HasZAxisTitle", uno::makeAny(_bHasTitle)); break; default: // xlValue: pChart->mxDiagramPropertySet->setPropertyValue("HasYAxisTitle", uno::makeAny(_bHasTitle)); } } catch (const uno::Exception& e) { DebugHelper::basicexception(e); } } sal_Bool SAL_CALL ScVbaAxis::getHasTitle( ) { bool bHasTitle = false; try { ScVbaChart* pChart = getChartPtr(); int nType = getType(); switch(nType) { case xlCategory: pChart->mxDiagramPropertySet->getPropertyValue("HasXAxisTitle") >>= bHasTitle; break; case xlSeriesAxis: pChart->mxDiagramPropertySet->getPropertyValue("HasZAxisTitle") >>= bHasTitle; break; default: // xlValue: pChart->mxDiagramPropertySet->getPropertyValue("HasYAxisTitle") >>= bHasTitle; } } catch (const uno::Exception& e) { DebugHelper::basicexception(e); } return bHasTitle; } void SAL_CALL ScVbaAxis::setMinorUnit( double _fMinorUnit ) { try { if (isValueAxis()) mxPropertySet->setPropertyValue("StepHelp", uno::makeAny(_fMinorUnit)); } catch (uno::Exception& ) { DebugHelper::basicexception(ERRCODE_BASIC_METHOD_FAILED, OUString()); } } double SAL_CALL ScVbaAxis::getMinorUnit( ) { double fMinor = 1.0; try { if (isValueAxis()) mxPropertySet->getPropertyValue("StepHelp") >>= fMinor; } catch (uno::Exception& ) { DebugHelper::basicexception(ERRCODE_BASIC_METHOD_FAILED, OUString()); } return fMinor; } void SAL_CALL ScVbaAxis::setMinorUnitIsAuto( sal_Bool _bMinorUnitIsAuto ) { try { if (isValueAxis()) mxPropertySet->setPropertyValue("AutoStepHelp", uno::makeAny(_bMinorUnitIsAuto)); } catch (uno::Exception& ) { DebugHelper::basicexception(ERRCODE_BASIC_METHOD_FAILED, OUString() ); } } sal_Bool SAL_CALL ScVbaAxis::getMinorUnitIsAuto( ) { bool bIsAuto = false; try { if (isValueAxis()) { mxPropertySet->getPropertyValue("AutoStepHelp") >>= bIsAuto; } } catch (const uno::Exception&) { DebugHelper::basicexception(ERRCODE_BASIC_METHOD_FAILED, OUString()); } return bIsAuto; } void SAL_CALL ScVbaAxis::setReversePlotOrder( sal_Bool /*ReversePlotOrder*/ ) { DebugHelper::basicexception(ERRCODE_BASIC_NOT_IMPLEMENTED, OUString()); } sal_Bool SAL_CALL ScVbaAxis::getReversePlotOrder( ) { DebugHelper::basicexception(ERRCODE_BASIC_NOT_IMPLEMENTED, OUString()); return false; } void SAL_CALL ScVbaAxis::setMajorUnit( double _fMajorUnit ) { try { if (isValueAxis()) { mxPropertySet->setPropertyValue("StepMain", uno::makeAny(_fMajorUnit)); } } catch (const uno::Exception&) { DebugHelper::basicexception(ERRCODE_BASIC_METHOD_FAILED, OUString()); } } double SAL_CALL ScVbaAxis::getMajorUnit( ) { double fMax = 1.0; try { if (isValueAxis()) mxPropertySet->getPropertyValue("StepMain") >>= fMax; } catch (const uno::Exception&) { DebugHelper::basicexception(ERRCODE_BASIC_METHOD_FAILED, OUString() ); } return fMax; } void SAL_CALL ScVbaAxis::setMajorUnitIsAuto( sal_Bool _bMajorUnitIsAuto ) { try { if (isValueAxis()) { mxPropertySet->setPropertyValue("AutoStepMain", uno::makeAny( _bMajorUnitIsAuto )); } } catch (const uno::Exception&) { DebugHelper::basicexception(ERRCODE_BASIC_METHOD_FAILED, OUString()); } } sal_Bool SAL_CALL ScVbaAxis::getMajorUnitIsAuto( ) { bool bIsAuto = false; try { if (isValueAxis()) { mxPropertySet->getPropertyValue("AutoStepMain") >>= bIsAuto; } } catch (const uno::Exception&) { DebugHelper::basicexception(ERRCODE_BASIC_METHOD_FAILED, OUString()); } return bIsAuto; } void SAL_CALL ScVbaAxis::setMaximumScale( double _fMaximumScale ) { try { if ( isValueAxis() ) { mxPropertySet->setPropertyValue("Max", uno::makeAny(_fMaximumScale)); } } catch (const uno::Exception&) { DebugHelper::basicexception(ERRCODE_BASIC_METHOD_FAILED, OUString()); } } double SAL_CALL ScVbaAxis::getMaximumScale( ) { double fMax = 1.0; try { if (isValueAxis()) { mxPropertySet->getPropertyValue("Max") >>= fMax; } } catch (const uno::Exception&) { DebugHelper::basicexception(ERRCODE_BASIC_METHOD_FAILED, OUString()); } return fMax; } void SAL_CALL ScVbaAxis::setMaximumScaleIsAuto( sal_Bool _bMaximumScaleIsAuto ) { try { if ( isValueAxis() ) mxPropertySet->setPropertyValue("AutoMax", uno::makeAny( _bMaximumScaleIsAuto )); } catch (const uno::Exception&) { DebugHelper::basicexception(ERRCODE_BASIC_METHOD_FAILED, OUString()); } } sal_Bool SAL_CALL ScVbaAxis::getMaximumScaleIsAuto( ) { bool bIsAuto = false; try { if (isValueAxis()) mxPropertySet->getPropertyValue("AutoMax") >>= bIsAuto; } catch (const uno::Exception&) { DebugHelper::basicexception( ERRCODE_BASIC_METHOD_FAILED, OUString() ); } return bIsAuto; } void SAL_CALL ScVbaAxis::setMinimumScale( double _fMinimumScale ) { try { if (isValueAxis()) mxPropertySet->setPropertyValue("Min", uno::makeAny( _fMinimumScale ) ); } catch ( uno::Exception& ) { DebugHelper::basicexception(ERRCODE_BASIC_METHOD_FAILED, OUString() ); } } double SAL_CALL ScVbaAxis::getMinimumScale( ) { double fMin = 0.0; try { if (isValueAxis()) mxPropertySet->getPropertyValue("Min") >>= fMin; } catch (const uno::Exception& e) { DebugHelper::basicexception(e); } return fMin; } void SAL_CALL ScVbaAxis::setMinimumScaleIsAuto( sal_Bool _bMinimumScaleIsAuto ) { try { if (isValueAxis()) { mxPropertySet->setPropertyValue("AutoMin", uno::makeAny(_bMinimumScaleIsAuto)); } } catch (const uno::Exception&) { DebugHelper::basicexception(ERRCODE_BASIC_METHOD_FAILED, OUString()); } } sal_Bool SAL_CALL ScVbaAxis::getMinimumScaleIsAuto( ) { bool bIsAuto = false; try { if (isValueAxis()) { mxPropertySet->getPropertyValue("AutoMin") >>= bIsAuto; } } catch (const uno::Exception&) { DebugHelper::basicexception(ERRCODE_BASIC_METHOD_FAILED, OUString()); } return bIsAuto; } ::sal_Int32 SAL_CALL ScVbaAxis::getAxisGroup( ) { return mnGroup; } void SAL_CALL ScVbaAxis::setScaleType( ::sal_Int32 _nScaleType ) { try { if (isValueAxis()) { switch (_nScaleType) { case xlScaleLinear: mxPropertySet->setPropertyValue("Logarithmic", uno::makeAny( false ) ); break; case xlScaleLogarithmic: mxPropertySet->setPropertyValue("Logarithmic", uno::makeAny( true ) ); break; default: // According to MS the parameter is ignored and no Error is thrown break; } } } catch (const uno::Exception&) { DebugHelper::basicexception(ERRCODE_BASIC_METHOD_FAILED, OUString()); } } ::sal_Int32 SAL_CALL ScVbaAxis::getScaleType( ) { sal_Int32 nScaleType = xlScaleLinear; try { if (isValueAxis()) { bool bisLogarithmic = false; mxPropertySet->getPropertyValue( "Logarithmic" ) >>= bisLogarithmic; if (bisLogarithmic) nScaleType = xlScaleLogarithmic; else nScaleType = xlScaleLinear; } } catch (const uno::Exception&) { DebugHelper::basicexception(ERRCODE_BASIC_METHOD_FAILED, OUString()); } return nScaleType; } double SAL_CALL ScVbaAxis::getHeight( ) { return oShapeHelper->getHeight(); } void SAL_CALL ScVbaAxis::setHeight( double height ) { oShapeHelper->setHeight( height ); } double SAL_CALL ScVbaAxis::getWidth( ) { return oShapeHelper->getWidth( ); } void SAL_CALL ScVbaAxis::setWidth( double width ) { oShapeHelper->setWidth( width ); } double SAL_CALL ScVbaAxis::getTop( ) { return oShapeHelper->getTop( ); } void SAL_CALL ScVbaAxis::setTop( double top ) { oShapeHelper->setTop( top ); } double SAL_CALL ScVbaAxis::getLeft( ) { return oShapeHelper->getLeft( ); } void SAL_CALL ScVbaAxis::setLeft( double left ) { oShapeHelper->setLeft( left ); } OUString ScVbaAxis::getServiceImplName() { return "ScVbaAxis"; } uno::Sequence< OUString > ScVbaAxis::getServiceNames() { static uno::Sequence< OUString > const aServiceNames { "ooo.vba.excel.Axis" }; return aServiceNames; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */