/* -*- 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 "vbarange.hxx" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "docfunc.hxx" #include #include #include #include #include #include #include #include #include #include #include "vbaapplication.hxx" #include "vbafont.hxx" #include "vbacomment.hxx" #include "vbainterior.hxx" #include "vbacharacters.hxx" #include "vbaborders.hxx" #include "vbaworksheet.hxx" #include "vbavalidation.hxx" #include "vbahyperlinks.hxx" #include "tabvwsh.hxx" #include "rangelst.hxx" #include "convuno.hxx" #include "compiler.hxx" #include "attrib.hxx" #include "undodat.hxx" #include "dbdocfun.hxx" #include "patattr.hxx" #include "olinetab.hxx" #include "transobj.hxx" #include "queryentry.hxx" #include "markdata.hxx" #include #include #include "vbaglobals.hxx" #include "vbastyle.hxx" #include "vbaname.hxx" #include #include // begin test includes #include // end test includes #include #include #include "tokenarray.hxx" #include "tokenuno.hxx" #include #include using namespace ::ooo::vba; using namespace ::com::sun::star; using ::std::vector; // difference between VBA and file format width, in character units const double fExtraWidth = 182.0 / 256.0; // * 1 point = 1/72 inch = 20 twips // * 1 inch = 72 points = 1440 twips // * 1 cm = 567 twips static double lcl_hmmToPoints( double nVal ) { return ( (double)((nVal /1000 ) * 567 ) / 20 ); } static const sal_Int16 supportedIndexTable[] = { excel::XlBordersIndex::xlEdgeLeft, excel::XlBordersIndex::xlEdgeTop, excel::XlBordersIndex::xlEdgeBottom, excel::XlBordersIndex::xlEdgeRight, excel::XlBordersIndex::xlDiagonalDown, excel::XlBordersIndex::xlDiagonalUp, excel::XlBordersIndex::xlInsideVertical, excel::XlBordersIndex::xlInsideHorizontal }; static sal_uInt16 lcl_pointsToTwips( double nVal ) { nVal = nVal * static_cast(20); short nTwips = static_cast(nVal); return nTwips; } static double lcl_TwipsToPoints( sal_uInt16 nVal ) { double nPoints = nVal; return nPoints / 20; } static double lcl_Round2DecPlaces( double nVal ) { nVal = (nVal * (double)100); long tmp = static_cast(nVal); if ( ( ( nVal - tmp ) >= 0.5 ) ) ++tmp; nVal = tmp; nVal = nVal/100; return nVal; } static uno::Any lcl_makeRange( const uno::Reference< XHelperInterface >& rParent, const uno::Reference< uno::XComponentContext >& rContext, const uno::Any& rAny, bool bIsRows, bool bIsColumns ) { uno::Reference< table::XCellRange > xCellRange(rAny, uno::UNO_QUERY_THROW); return uno::makeAny( uno::Reference< excel::XRange >( new ScVbaRange( rParent, rContext, xCellRange, bIsRows, bIsColumns ) ) ); } static uno::Reference< excel::XRange > lcl_makeXRangeFromSheetCellRanges( const uno::Reference< XHelperInterface >& xParent, const uno::Reference< uno::XComponentContext >& xContext, const uno::Reference< sheet::XSheetCellRanges >& xLocSheetCellRanges, ScDocShell* pDoc ) { uno::Reference< excel::XRange > xRange; uno::Sequence< table::CellRangeAddress > sAddresses = xLocSheetCellRanges->getRangeAddresses(); ScRangeList aCellRanges; sal_Int32 nLen = sAddresses.getLength(); if ( nLen ) { for ( sal_Int32 index = 0; index < nLen; ++index ) { ScRange refRange; ScUnoConversion::FillScRange( refRange, sAddresses[ index ] ); aCellRanges.Append( refRange ); } // Single range if ( aCellRanges.size() == 1 ) { uno::Reference< table::XCellRange > xTmpRange( new ScCellRangeObj( pDoc, *aCellRanges.front() ) ); xRange = new ScVbaRange( xParent, xContext, xTmpRange ); } else { uno::Reference< sheet::XSheetCellRangeContainer > xRanges( new ScCellRangesObj( pDoc, aCellRanges ) ); xRange = new ScVbaRange( xParent, xContext, xRanges ); } } return xRange; } ScCellRangesBase* ScVbaRange::getCellRangesBase() throw ( uno::RuntimeException ) { if( mxRanges.is() ) return ScCellRangesBase::getImplementation( mxRanges ); if( mxRange.is() ) return ScCellRangesBase::getImplementation( mxRange ); throw uno::RuntimeException("General Error creating range - Unknown" ); } ScCellRangeObj* ScVbaRange::getCellRangeObj() throw ( uno::RuntimeException ) { return dynamic_cast< ScCellRangeObj* >( getCellRangesBase() ); } SfxItemSet* ScVbaRange::getCurrentDataSet( ) throw ( uno::RuntimeException ) { SfxItemSet* pDataSet = excel::ScVbaCellRangeAccess::GetDataSet( getCellRangesBase() ); if ( !pDataSet ) throw uno::RuntimeException("Can't access Itemset for range" ); return pDataSet; } void ScVbaRange::fireChangeEvent() { if( ScVbaApplication::getDocumentEventsEnabled() ) { ScDocument& rDoc = getScDocument(); uno::Reference< script::vba::XVBAEventProcessor > xVBAEvents = rDoc.GetVbaEventProcessor(); if( xVBAEvents.is() ) try { uno::Sequence< uno::Any > aArgs( 1 ); aArgs[ 0 ] <<= uno::Reference< excel::XRange >( this ); xVBAEvents->processVbaEvent( script::vba::VBAEventId::WORKSHEET_CHANGE, aArgs ); } catch( uno::Exception& ) { } } } class SingleRangeEnumeration : public EnumerationHelper_BASE { uno::Reference< XHelperInterface > m_xParent; uno::Reference< table::XCellRange > m_xRange; uno::Reference< uno::XComponentContext > mxContext; bool bHasMore; public: SingleRangeEnumeration( const uno::Reference< XHelperInterface >& xParent, const uno::Reference< css::uno::XComponentContext >& xContext, const uno::Reference< table::XCellRange >& xRange ) throw ( uno::RuntimeException ) : m_xParent( xParent ), m_xRange( xRange ), mxContext( xContext ), bHasMore( true ) { } virtual sal_Bool SAL_CALL hasMoreElements( ) throw (uno::RuntimeException, std::exception) SAL_OVERRIDE { return bHasMore; } virtual uno::Any SAL_CALL nextElement( ) throw (container::NoSuchElementException, lang::WrappedTargetException, uno::RuntimeException, std::exception) SAL_OVERRIDE { if ( !bHasMore ) throw container::NoSuchElementException(); bHasMore = false; return uno::makeAny( m_xRange ); } }; // very simple class to pass to ScVbaCollectionBaseImpl containing // just one item typedef ::cppu::WeakImplHelper2< container::XIndexAccess, container::XEnumerationAccess > SingleRange_BASE; class SingleRangeIndexAccess : public SingleRange_BASE { private: uno::Reference< XHelperInterface > mxParent; uno::Reference< table::XCellRange > m_xRange; uno::Reference< uno::XComponentContext > mxContext; public: SingleRangeIndexAccess( const uno::Reference< XHelperInterface >& xParent, const uno::Reference< uno::XComponentContext >& xContext, const uno::Reference< table::XCellRange >& xRange ):mxParent( xParent ), m_xRange( xRange ), mxContext( xContext ) {} // XIndexAccess virtual ::sal_Int32 SAL_CALL getCount() throw (::uno::RuntimeException, std::exception) SAL_OVERRIDE { return 1; } virtual uno::Any SAL_CALL getByIndex( ::sal_Int32 Index ) throw (lang::IndexOutOfBoundsException, lang::WrappedTargetException, uno::RuntimeException, std::exception) SAL_OVERRIDE { if ( Index != 0 ) throw lang::IndexOutOfBoundsException(); return uno::makeAny( m_xRange ); } // XElementAccess virtual uno::Type SAL_CALL getElementType() throw (uno::RuntimeException, std::exception) SAL_OVERRIDE { return cppu::UnoType::get(); } virtual sal_Bool SAL_CALL hasElements() throw (uno::RuntimeException, std::exception) SAL_OVERRIDE { return sal_True; } // XEnumerationAccess virtual uno::Reference< container::XEnumeration > SAL_CALL createEnumeration() throw (uno::RuntimeException, std::exception) SAL_OVERRIDE { return new SingleRangeEnumeration( mxParent, mxContext, m_xRange ); } }; class RangesEnumerationImpl : public EnumerationHelperImpl { bool mbIsRows; bool mbIsColumns; public: RangesEnumerationImpl( const uno::Reference< XHelperInterface >& xParent, const uno::Reference< uno::XComponentContext >& xContext, const uno::Reference< container::XEnumeration >& xEnumeration, bool bIsRows, bool bIsColumns ) throw ( uno::RuntimeException ) : EnumerationHelperImpl( xParent, xContext, xEnumeration ), mbIsRows( bIsRows ), mbIsColumns( bIsColumns ) {} virtual uno::Any SAL_CALL nextElement( ) throw (container::NoSuchElementException, lang::WrappedTargetException, uno::RuntimeException, std::exception) SAL_OVERRIDE { return lcl_makeRange( m_xParent, m_xContext, m_xEnumeration->nextElement(), mbIsRows, mbIsColumns ); } }; class ScVbaRangeAreas : public ScVbaCollectionBaseImpl { bool mbIsRows; bool mbIsColumns; public: ScVbaRangeAreas( const uno::Reference< XHelperInterface >& xParent, const uno::Reference< uno::XComponentContext >& xContext, const uno::Reference< container::XIndexAccess >& xIndexAccess, bool bIsRows, bool bIsColumns ) : ScVbaCollectionBaseImpl( xParent, xContext, xIndexAccess ), mbIsRows( bIsRows ), mbIsColumns( bIsColumns ) {} // XEnumerationAccess virtual uno::Reference< container::XEnumeration > SAL_CALL createEnumeration() throw (uno::RuntimeException) SAL_OVERRIDE; // XElementAccess virtual uno::Type SAL_CALL getElementType() throw (uno::RuntimeException) SAL_OVERRIDE { return cppu::UnoType::get(); } virtual uno::Any createCollectionObject( const uno::Any& aSource ) SAL_OVERRIDE; virtual OUString getServiceImplName() SAL_OVERRIDE { return OUString(); } virtual uno::Sequence< OUString > getServiceNames() SAL_OVERRIDE { return uno::Sequence< OUString >(); } }; uno::Reference< container::XEnumeration > SAL_CALL ScVbaRangeAreas::createEnumeration() throw (uno::RuntimeException) { uno::Reference< container::XEnumerationAccess > xEnumAccess( m_xIndexAccess, uno::UNO_QUERY_THROW ); return new RangesEnumerationImpl( mxParent, mxContext, xEnumAccess->createEnumeration(), mbIsRows, mbIsColumns ); } uno::Any ScVbaRangeAreas::createCollectionObject( const uno::Any& aSource ) { return lcl_makeRange( mxParent, mxContext, aSource, mbIsRows, mbIsColumns ); } // assume that xIf is infact a ScCellRangesBase ScDocShell* getDocShellFromIf( const uno::Reference< uno::XInterface >& xIf ) throw ( uno::RuntimeException ) { ScCellRangesBase* pUno = ScCellRangesBase::getImplementation( xIf ); if ( !pUno ) throw uno::RuntimeException("Failed to access underlying uno range object" ); return pUno->GetDocShell(); } ScDocShell* getDocShellFromRange( const uno::Reference< table::XCellRange >& xRange ) throw ( uno::RuntimeException ) { // need the ScCellRangesBase to get docshell uno::Reference< uno::XInterface > xIf( xRange ); return getDocShellFromIf(xIf ); } ScDocShell* getDocShellFromRanges( const uno::Reference< sheet::XSheetCellRangeContainer >& xRanges ) throw ( uno::RuntimeException ) { // need the ScCellRangesBase to get docshell uno::Reference< uno::XInterface > xIf( xRanges ); return getDocShellFromIf(xIf ); } uno::Reference< frame::XModel > getModelFromXIf( const uno::Reference< uno::XInterface >& xIf ) throw ( uno::RuntimeException ) { ScDocShell* pDocShell = getDocShellFromIf(xIf ); return pDocShell->GetModel(); } uno::Reference< frame::XModel > getModelFromRange( const uno::Reference< table::XCellRange >& xRange ) throw ( uno::RuntimeException ) { // the XInterface for getImplementation can be any derived interface, no need for queryInterface uno::Reference< uno::XInterface > xIf( xRange ); return getModelFromXIf( xIf ); } ScDocument& getDocumentFromRange( const uno::Reference< table::XCellRange >& xRange ) { ScDocShell* pDocShell = getDocShellFromRange( xRange ); if ( !pDocShell ) throw uno::RuntimeException("Failed to access underlying docshell from uno range object" ); ScDocument& rDoc = pDocShell->GetDocument(); return rDoc; } ScDocument& ScVbaRange::getScDocument() throw (uno::RuntimeException) { if ( mxRanges.is() ) { uno::Reference< container::XIndexAccess > xIndex( mxRanges, uno::UNO_QUERY_THROW ); uno::Reference< table::XCellRange > xRange( xIndex->getByIndex( 0 ), uno::UNO_QUERY_THROW ); return getDocumentFromRange( xRange ); } return getDocumentFromRange( mxRange ); } ScDocShell* ScVbaRange::getScDocShell() throw (uno::RuntimeException) { if ( mxRanges.is() ) { uno::Reference< container::XIndexAccess > xIndex( mxRanges, uno::UNO_QUERY_THROW ); uno::Reference< table::XCellRange > xRange( xIndex->getByIndex( 0 ), uno::UNO_QUERY_THROW ); return getDocShellFromRange( xRange ); } return getDocShellFromRange( mxRange ); } ScVbaRange* ScVbaRange::getImplementation( const uno::Reference< excel::XRange >& rxRange ) { // FIXME: always save to use dynamic_cast? Or better to (implement and) use XTunnel? return dynamic_cast< ScVbaRange* >( rxRange.get() ); } uno::Reference< frame::XModel > ScVbaRange::getUnoModel() throw (uno::RuntimeException) { if( ScDocShell* pDocShell = getScDocShell() ) return pDocShell->GetModel(); throw uno::RuntimeException(); } uno::Reference< frame::XModel > ScVbaRange::getUnoModel( const uno::Reference< excel::XRange >& rxRange ) throw (uno::RuntimeException) { if( ScVbaRange* pScVbaRange = getImplementation( rxRange ) ) return pScVbaRange->getUnoModel(); throw uno::RuntimeException(); } const ScRangeList& ScVbaRange::getScRangeList() throw (uno::RuntimeException) { if( ScCellRangesBase* pScRangesBase = getCellRangesBase() ) return pScRangesBase->GetRangeList(); throw uno::RuntimeException("Cannot obtain UNO range implementation object" ); } const ScRangeList& ScVbaRange::getScRangeList( const uno::Reference< excel::XRange >& rxRange ) throw (uno::RuntimeException) { if( ScVbaRange* pScVbaRange = getImplementation( rxRange ) ) return pScVbaRange->getScRangeList(); throw uno::RuntimeException("Cannot obtain VBA range implementation object" ); } class NumFormatHelper { uno::Reference< util::XNumberFormatsSupplier > mxSupplier; uno::Reference< beans::XPropertySet > mxRangeProps; uno::Reference< util::XNumberFormats > mxFormats; public: NumFormatHelper( const uno::Reference< table::XCellRange >& xRange ) { mxSupplier.set( getModelFromRange( xRange ), uno::UNO_QUERY_THROW ); mxRangeProps.set( xRange, uno::UNO_QUERY_THROW); mxFormats = mxSupplier->getNumberFormats(); } uno::Reference< beans::XPropertySet > getNumberProps() { long nIndexKey = 0; uno::Any aValue = mxRangeProps->getPropertyValue( "NumberFormat" ); aValue >>= nIndexKey; if ( mxFormats.is() ) return mxFormats->getByKey( nIndexKey ); return uno::Reference< beans::XPropertySet > (); } bool isBooleanType() { if ( getNumberFormat() & util::NumberFormat::LOGICAL ) return true; return false; } bool isDateType() { sal_Int16 nType = getNumberFormat(); if(( nType & util::NumberFormat::DATETIME )) { return true; } return false; } OUString getNumberFormatString() { uno::Reference< uno::XInterface > xIf( mxRangeProps, uno::UNO_QUERY_THROW ); ScCellRangesBase* pUnoCellRange = ScCellRangesBase::getImplementation( xIf ); if ( pUnoCellRange ) { SfxItemSet* pDataSet = excel::ScVbaCellRangeAccess::GetDataSet( pUnoCellRange ); SfxItemState eState = pDataSet->GetItemState( ATTR_VALUE_FORMAT, true, NULL); // one of the cells in the range is not like the other ;-) // so return a zero length format to indicate that if ( eState == SfxItemState::DONTCARE ) return OUString(); } uno::Reference< beans::XPropertySet > xNumberProps( getNumberProps(), uno::UNO_QUERY_THROW ); OUString aFormatString; uno::Any aString = xNumberProps->getPropertyValue( "FormatString" ); aString >>= aFormatString; return aFormatString; } sal_Int16 getNumberFormat() { uno::Reference< beans::XPropertySet > xNumberProps = getNumberProps(); sal_Int16 nType = ::comphelper::getINT16( xNumberProps->getPropertyValue( "Type" ) ); return nType; } bool setNumberFormat( const OUString& rFormat ) { // #163288# treat "General" as "Standard" format sal_Int32 nNewIndex = 0; if( !rFormat.equalsIgnoreAsciiCase( "General" ) ) { lang::Locale aLocale; uno::Reference< beans::XPropertySet > xNumProps = getNumberProps(); xNumProps->getPropertyValue( "Locale" ) >>= aLocale; nNewIndex = mxFormats->queryKey( rFormat, aLocale, false ); if ( nNewIndex == -1 ) // format not defined nNewIndex = mxFormats->addNew( rFormat, aLocale ); } mxRangeProps->setPropertyValue( "NumberFormat", uno::makeAny( nNewIndex ) ); return true; } bool setNumberFormat( sal_Int16 nType ) { uno::Reference< beans::XPropertySet > xNumberProps = getNumberProps(); lang::Locale aLocale; xNumberProps->getPropertyValue( "Locale" ) >>= aLocale; uno::Reference xTypes( mxFormats, uno::UNO_QUERY ); if ( xTypes.is() ) { sal_Int32 nNewIndex = xTypes->getStandardFormat( nType, aLocale ); mxRangeProps->setPropertyValue( "NumberFormat", uno::makeAny( nNewIndex ) ); return true; } return false; } }; struct CellPos { CellPos( sal_Int32 nRow, sal_Int32 nCol, sal_Int32 nArea ):m_nRow(nRow), m_nCol(nCol), m_nArea( nArea ) {}; sal_Int32 m_nRow; sal_Int32 m_nCol; sal_Int32 m_nArea; }; typedef ::cppu::WeakImplHelper1< container::XEnumeration > CellsEnumeration_BASE; typedef ::std::vector< CellPos > vCellPos; // #FIXME - QUICK // we could probably could and should modify CellsEnumeration below // to handle rows and columns ( but I do this separately for now // and.. this class only handles singe areas ( does it have to handle // multi area ranges?? ) class ColumnsRowEnumeration: public CellsEnumeration_BASE { uno::Reference< uno::XComponentContext > mxContext; uno::Reference< excel::XRange > mxRange; sal_Int32 mMaxElems; sal_Int32 mCurElem; public: ColumnsRowEnumeration( const uno::Reference< uno::XComponentContext >& xContext, const uno::Reference< excel::XRange >& xRange, sal_Int32 nElems ) : mxContext( xContext ), mxRange( xRange ), mMaxElems( nElems ), mCurElem( 0 ) { } virtual sal_Bool SAL_CALL hasMoreElements() throw (::uno::RuntimeException, std::exception) SAL_OVERRIDE { return mCurElem < mMaxElems; } virtual uno::Any SAL_CALL nextElement() throw (container::NoSuchElementException, lang::WrappedTargetException, uno::RuntimeException, std::exception) SAL_OVERRIDE { if ( !hasMoreElements() ) throw container::NoSuchElementException(); sal_Int32 vbaIndex = 1 + mCurElem++; return uno::makeAny( mxRange->Item( uno::makeAny( vbaIndex ), uno::Any() ) ); } }; class CellsEnumeration : public CellsEnumeration_BASE { uno::WeakReference< XHelperInterface > mxParent; uno::Reference< uno::XComponentContext > mxContext; uno::Reference< XCollection > m_xAreas; vCellPos m_CellPositions; vCellPos::const_iterator m_it; uno::Reference< table::XCellRange > getArea( sal_Int32 nVBAIndex ) throw ( uno::RuntimeException ) { if ( nVBAIndex < 1 || nVBAIndex > m_xAreas->getCount() ) throw uno::RuntimeException(); uno::Reference< excel::XRange > xRange( m_xAreas->Item( uno::makeAny(nVBAIndex), uno::Any() ), uno::UNO_QUERY_THROW ); uno::Reference< table::XCellRange > xCellRange( ScVbaRange::getCellRange( xRange ), uno::UNO_QUERY_THROW ); return xCellRange; } void populateArea( sal_Int32 nVBAIndex ) { uno::Reference< table::XCellRange > xRange = getArea( nVBAIndex ); uno::Reference< table::XColumnRowRange > xColumnRowRange(xRange, uno::UNO_QUERY_THROW ); sal_Int32 nRowCount = xColumnRowRange->getRows()->getCount(); sal_Int32 nColCount = xColumnRowRange->getColumns()->getCount(); for ( sal_Int32 i=0; i& xParent, const uno::Reference< uno::XComponentContext >& xContext, const uno::Reference< XCollection >& xAreas ): mxParent( xParent ), mxContext( xContext ), m_xAreas( xAreas ) { sal_Int32 nItems = m_xAreas->getCount(); for ( sal_Int32 index=1; index <= nItems; ++index ) { populateArea( index ); } m_it = m_CellPositions.begin(); } virtual sal_Bool SAL_CALL hasMoreElements() throw (::uno::RuntimeException, std::exception) SAL_OVERRIDE { return m_it != m_CellPositions.end(); } virtual uno::Any SAL_CALL nextElement() throw (container::NoSuchElementException, lang::WrappedTargetException, uno::RuntimeException, std::exception) SAL_OVERRIDE { if ( !hasMoreElements() ) throw container::NoSuchElementException(); CellPos aPos = *(m_it)++; uno::Reference< table::XCellRange > xRangeArea = getArea( aPos.m_nArea ); uno::Reference< table::XCellRange > xCellRange( xRangeArea->getCellByPosition( aPos.m_nCol, aPos.m_nRow ), uno::UNO_QUERY_THROW ); return uno::makeAny( uno::Reference< excel::XRange >( new ScVbaRange( mxParent, mxContext, xCellRange ) ) ); } }; static const char ISVISIBLE[] = "IsVisible"; static const char POSITION[] = "Position"; static const char EQUALS[] = "="; static const char NOTEQUALS[] = "<>"; static const char GREATERTHAN[] = ">"; static const char GREATERTHANEQUALS[] = ">="; static const char LESSTHAN[] = "<"; static const char LESSTHANEQUALS[] = "<="; static const char CONTS_HEADER[] = "ContainsHeader"; static const char INSERTPAGEBREAKS[] = "InsertPageBreaks"; static const char STR_ERRORMESSAGE_APPLIESTOSINGLERANGEONLY[] = "The command you chose cannot be performed with multiple selections.\nSelect a single range and click the command again"; static const char STR_ERRORMESSAGE_NOCELLSWEREFOUND[] = "No cells were found"; static const char CELLSTYLE[] = "CellStyle"; class CellValueSetter : public ValueSetter { protected: uno::Any maValue; public: CellValueSetter( const uno::Any& aValue ); virtual bool processValue( const uno::Any& aValue, const uno::Reference< table::XCell >& xCell ) SAL_OVERRIDE; virtual void visitNode( sal_Int32 x, sal_Int32 y, const uno::Reference< table::XCell >& xCell ) SAL_OVERRIDE; }; CellValueSetter::CellValueSetter( const uno::Any& aValue ): maValue( aValue ) {} void CellValueSetter::visitNode( sal_Int32 /*i*/, sal_Int32 /*j*/, const uno::Reference< table::XCell >& xCell ) { processValue( maValue, xCell ); } bool CellValueSetter::processValue( const uno::Any& aValue, const uno::Reference< table::XCell >& xCell ) { bool isExtracted = false; switch ( aValue.getValueTypeClass() ) { case uno::TypeClass_BOOLEAN: { bool bState = false; if ( aValue >>= bState ) { uno::Reference< table::XCellRange > xRange( xCell, uno::UNO_QUERY_THROW ); if ( bState ) xCell->setValue( (double) 1 ); else xCell->setValue( (double) 0 ); NumFormatHelper cellNumFormat( xRange ); cellNumFormat.setNumberFormat( util::NumberFormat::LOGICAL ); } break; } case uno::TypeClass_STRING: { OUString aString; if ( aValue >>= aString ) { // The required behavior for a string value is: // 1. If the first character is a single quote, use the rest as a string cell, regardless of the cell's number format. // 2. Otherwise, if the cell's number format is "text", use the string value as a string cell. // 3. Otherwise, parse the string value in English locale, and apply a corresponding number format with the cell's locale // if the cell's number format was "General". // Case 1 is handled here, the rest in ScCellObj::InputEnglishString if ( aString.toChar() == '\'' ) // case 1 - handle with XTextRange { OUString aRemainder( aString.copy(1) ); // strip the quote uno::Reference< text::XTextRange > xTextRange( xCell, uno::UNO_QUERY_THROW ); xTextRange->setString( aRemainder ); } else { // call implementation method InputEnglishString ScCellObj* pCellObj = dynamic_cast< ScCellObj* >( xCell.get() ); if ( pCellObj ) pCellObj->InputEnglishString( aString ); } } else isExtracted = false; break; } default: { double nDouble = 0.0; if ( aValue >>= nDouble ) { uno::Reference< table::XCellRange > xRange( xCell, uno::UNO_QUERY_THROW ); NumFormatHelper cellFormat( xRange ); // If we are setting a number and the cell types was logical // then we need to reset the logical format. ( see case uno::TypeClass_BOOLEAN: // handling above ) if ( cellFormat.isBooleanType() ) cellFormat.setNumberFormat("General"); xCell->setValue( nDouble ); } else isExtracted = false; break; } } return isExtracted; } class CellValueGetter : public ValueGetter { protected: uno::Any maValue; public: CellValueGetter() {} virtual void visitNode( sal_Int32 x, sal_Int32 y, const uno::Reference< table::XCell >& xCell ) SAL_OVERRIDE; virtual void processValue( sal_Int32 x, sal_Int32 y, const uno::Any& aValue ) SAL_OVERRIDE; const uno::Any& getValue() const SAL_OVERRIDE { return maValue; } }; void CellValueGetter::processValue( sal_Int32 /*x*/, sal_Int32 /*y*/, const uno::Any& aValue ) { maValue = aValue; } void CellValueGetter::visitNode( sal_Int32 x, sal_Int32 y, const uno::Reference< table::XCell >& xCell ) { uno::Any aValue; table::CellContentType eType = xCell->getType(); if( eType == table::CellContentType_VALUE || eType == table::CellContentType_FORMULA ) { if ( eType == table::CellContentType_FORMULA ) { OUString sFormula = xCell->getFormula(); if ( sFormula == "=TRUE()" ) aValue <<= sal_True; else if ( sFormula == "=FALSE()" ) aValue <<= false; else { uno::Reference< beans::XPropertySet > xProp( xCell, uno::UNO_QUERY_THROW ); table::CellContentType eFormulaType = table::CellContentType_VALUE; // some formulas give textual results xProp->getPropertyValue( "FormulaResultType" ) >>= eFormulaType; if ( eFormulaType == table::CellContentType_TEXT ) { uno::Reference< text::XTextRange > xTextRange(xCell, ::uno::UNO_QUERY_THROW); aValue <<= xTextRange->getString(); } else aValue <<= xCell->getValue(); } } else { uno::Reference< table::XCellRange > xRange( xCell, uno::UNO_QUERY_THROW ); NumFormatHelper cellFormat( xRange ); if ( cellFormat.isBooleanType() ) aValue = uno::makeAny( ( xCell->getValue() != 0.0 ) ); else if ( cellFormat.isDateType() ) aValue = uno::makeAny( bridge::oleautomation::Date( xCell->getValue() ) ); else aValue <<= xCell->getValue(); } } if( eType == table::CellContentType_TEXT ) { uno::Reference< text::XTextRange > xTextRange(xCell, ::uno::UNO_QUERY_THROW); aValue <<= xTextRange->getString(); } processValue( x,y,aValue ); } class CellFormulaValueSetter : public CellValueSetter { private: ScDocument* m_pDoc; formula::FormulaGrammar::Grammar m_eGrammar; public: CellFormulaValueSetter( const uno::Any& aValue, ScDocument* pDoc, formula::FormulaGrammar::Grammar eGram ):CellValueSetter( aValue ), m_pDoc( pDoc ), m_eGrammar( eGram ){} protected: bool processValue( const uno::Any& aValue, const uno::Reference< table::XCell >& xCell ) SAL_OVERRIDE { OUString sFormula; double aDblValue = 0.0; if ( aValue >>= sFormula ) { // convert to GRAM_PODF_A1 style grammar because XCell::setFormula // always compile it in that grammar. Perhaps // css.sheet.FormulaParser should be used in future to directly // pass formula tokens when that API stabilizes. if ( m_eGrammar != formula::FormulaGrammar::GRAM_PODF_A1 && ( sFormula.trim().startsWith("=") ) ) { uno::Reference< uno::XInterface > xIf( xCell, uno::UNO_QUERY_THROW ); ScCellRangesBase* pUnoRangesBase = dynamic_cast< ScCellRangesBase* >( xIf.get() ); if ( pUnoRangesBase ) { ScRangeList aCellRanges = pUnoRangesBase->GetRangeList(); ScCompiler aCompiler( m_pDoc, aCellRanges.front()->aStart ); aCompiler.SetGrammar(m_eGrammar); // compile the string in the format passed in boost::scoped_ptr pArray(aCompiler.CompileString(sFormula)); // set desired convention to that of the document aCompiler.SetGrammar( formula::FormulaGrammar::GRAM_PODF_A1 ); OUString sConverted; aCompiler.CreateStringFromTokenArray(sConverted); sFormula = EQUALS + sConverted; } } xCell->setFormula( sFormula ); return true; } else if ( aValue >>= aDblValue ) { xCell->setValue( aDblValue ); return true; } return false; } }; class CellFormulaValueGetter : public CellValueGetter { private: ScDocument* m_pDoc; formula::FormulaGrammar::Grammar m_eGrammar; public: CellFormulaValueGetter(ScDocument* pDoc, formula::FormulaGrammar::Grammar eGram ) : CellValueGetter( ), m_pDoc( pDoc ), m_eGrammar( eGram ) {} virtual void visitNode( sal_Int32 x, sal_Int32 y, const uno::Reference< table::XCell >& xCell ) SAL_OVERRIDE { uno::Any aValue; aValue <<= xCell->getFormula(); OUString sVal; aValue >>= sVal; uno::Reference< uno::XInterface > xIf( xCell, uno::UNO_QUERY_THROW ); ScCellRangesBase* pUnoRangesBase = dynamic_cast< ScCellRangesBase* >( xIf.get() ); if ( ( xCell->getType() == table::CellContentType_FORMULA ) && pUnoRangesBase ) { ScRangeList aCellRanges = pUnoRangesBase->GetRangeList(); ScCompiler aCompiler( m_pDoc, aCellRanges.front()->aStart ); aCompiler.SetGrammar(formula::FormulaGrammar::GRAM_DEFAULT); boost::scoped_ptr pArray(aCompiler.CompileString(sVal)); // set desired convention aCompiler.SetGrammar( m_eGrammar ); OUString sConverted; aCompiler.CreateStringFromTokenArray(sConverted); sVal = EQUALS + sConverted; aValue <<= sVal; } processValue( x,y,aValue ); } }; class Dim2ArrayValueGetter : public ArrayVisitor { protected: uno::Any maValue; ValueGetter& mValueGetter; void processValue( sal_Int32 x, sal_Int32 y, const uno::Any& aValue ) { uno::Sequence< uno::Sequence< uno::Any > >& aMatrix = *const_cast> *>(static_cast > const *>(maValue.getValue())); aMatrix[x][y] = aValue; } public: Dim2ArrayValueGetter(sal_Int32 nRowCount, sal_Int32 nColCount, ValueGetter& rValueGetter ): mValueGetter(rValueGetter) { uno::Sequence< uno::Sequence< uno::Any > > aMatrix; aMatrix.realloc( nRowCount ); for ( sal_Int32 index = 0; index < nRowCount; ++index ) aMatrix[index].realloc( nColCount ); maValue <<= aMatrix; } void visitNode( sal_Int32 x, sal_Int32 y, const uno::Reference< table::XCell >& xCell ) SAL_OVERRIDE { mValueGetter.visitNode( x, y, xCell ); processValue( x, y, mValueGetter.getValue() ); } const uno::Any& getValue() const { return maValue; } }; static const char sNA[] = "#N/A"; class Dim1ArrayValueSetter : public ArrayVisitor { uno::Sequence< uno::Any > aMatrix; sal_Int32 nColCount; ValueSetter& mCellValueSetter; public: Dim1ArrayValueSetter( const uno::Any& aValue, ValueSetter& rCellValueSetter ):mCellValueSetter( rCellValueSetter ) { aValue >>= aMatrix; nColCount = aMatrix.getLength(); } virtual void visitNode( sal_Int32 /*x*/, sal_Int32 y, const uno::Reference< table::XCell >& xCell ) SAL_OVERRIDE { if ( y < nColCount ) mCellValueSetter.processValue( aMatrix[ y ], xCell ); else mCellValueSetter.processValue( uno::makeAny( OUString(sNA) ), xCell ); } }; class Dim2ArrayValueSetter : public ArrayVisitor { uno::Sequence< uno::Sequence< uno::Any > > aMatrix; ValueSetter& mCellValueSetter; sal_Int32 nRowCount; sal_Int32 nColCount; public: Dim2ArrayValueSetter( const uno::Any& aValue, ValueSetter& rCellValueSetter ) : mCellValueSetter( rCellValueSetter ) { aValue >>= aMatrix; nRowCount = aMatrix.getLength(); nColCount = aMatrix[0].getLength(); } virtual void visitNode( sal_Int32 x, sal_Int32 y, const uno::Reference< table::XCell >& xCell ) SAL_OVERRIDE { if ( x < nRowCount && y < nColCount ) mCellValueSetter.processValue( aMatrix[ x ][ y ], xCell ); else mCellValueSetter.processValue( uno::makeAny( OUString(sNA) ), xCell ); } }; class RangeProcessor { public: virtual void process( const uno::Reference< excel::XRange >& xRange ) = 0; protected: ~RangeProcessor() {} }; class RangeValueProcessor : public RangeProcessor { const uno::Any& m_aVal; public: RangeValueProcessor( const uno::Any& rVal ):m_aVal( rVal ) {} virtual ~RangeValueProcessor() {} virtual void process( const uno::Reference< excel::XRange >& xRange ) SAL_OVERRIDE { xRange->setValue( m_aVal ); } }; class RangeFormulaProcessor : public RangeProcessor { const uno::Any& m_aVal; public: RangeFormulaProcessor( const uno::Any& rVal ):m_aVal( rVal ) {} virtual ~RangeFormulaProcessor() {} virtual void process( const uno::Reference< excel::XRange >& xRange ) SAL_OVERRIDE { xRange->setFormula( m_aVal ); } }; class RangeCountProcessor : public RangeProcessor { sal_Int32 nCount; public: RangeCountProcessor():nCount(0){} virtual ~RangeCountProcessor() {} virtual void process( const uno::Reference< excel::XRange >& xRange ) SAL_OVERRIDE { nCount = nCount + xRange->getCount(); } sal_Int32 value() { return nCount; } }; class AreasVisitor { private: uno::Reference< XCollection > m_Areas; public: AreasVisitor( const uno::Reference< XCollection >& rAreas ):m_Areas( rAreas ){} void visit( RangeProcessor& processor ) { if ( m_Areas.is() ) { sal_Int32 nItems = m_Areas->getCount(); for ( sal_Int32 index=1; index <= nItems; ++index ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny(index), uno::Any() ), uno::UNO_QUERY_THROW ); processor.process( xRange ); } } } }; class RangeHelper { uno::Reference< table::XCellRange > m_xCellRange; public: RangeHelper( const uno::Reference< table::XCellRange >& xCellRange ) throw (uno::RuntimeException) : m_xCellRange( xCellRange ) { if ( !m_xCellRange.is() ) throw uno::RuntimeException(); } RangeHelper( const uno::Any& rCellRange ) throw (uno::RuntimeException) { m_xCellRange.set(rCellRange, uno::UNO_QUERY_THROW); } uno::Reference< sheet::XSheetCellRange > getSheetCellRange() throw (uno::RuntimeException) { return uno::Reference< sheet::XSheetCellRange >(m_xCellRange, uno::UNO_QUERY_THROW); } uno::Reference< sheet::XSpreadsheet > getSpreadSheet() throw (uno::RuntimeException) { return getSheetCellRange()->getSpreadsheet(); } uno::Reference< table::XCellRange > getCellRangeFromSheet() throw (uno::RuntimeException) { return uno::Reference< table::XCellRange >(getSpreadSheet(), uno::UNO_QUERY_THROW ); } uno::Reference< sheet::XCellRangeAddressable > getCellRangeAddressable() throw (uno::RuntimeException) { return uno::Reference< sheet::XCellRangeAddressable >(m_xCellRange, ::uno::UNO_QUERY_THROW); } uno::Reference< sheet::XSheetCellCursor > getSheetCellCursor() throw ( uno::RuntimeException ) { return uno::Reference< sheet::XSheetCellCursor >( getSpreadSheet()->createCursorByRange( getSheetCellRange() ), uno::UNO_QUERY_THROW ); } static uno::Reference< excel::XRange > createRangeFromRange( const uno::Reference< XHelperInterface >& xParent, const uno::Reference& xContext, const uno::Reference< table::XCellRange >& xRange, const uno::Reference< sheet::XCellRangeAddressable >& xCellRangeAddressable, sal_Int32 nStartColOffset = 0, sal_Int32 nStartRowOffset = 0, sal_Int32 nEndColOffset = 0, sal_Int32 nEndRowOffset = 0 ) { return uno::Reference< excel::XRange >( new ScVbaRange( xParent, xContext, xRange->getCellRangeByPosition( xCellRangeAddressable->getRangeAddress().StartColumn + nStartColOffset, xCellRangeAddressable->getRangeAddress().StartRow + nStartRowOffset, xCellRangeAddressable->getRangeAddress().EndColumn + nEndColOffset, xCellRangeAddressable->getRangeAddress().EndRow + nEndRowOffset ) ) ); } }; bool ScVbaRange::getCellRangesForAddress( sal_uInt16& rResFlags, const OUString& sAddress, ScDocShell* pDocSh, ScRangeList& rCellRanges, formula::FormulaGrammar::AddressConvention& eConv, char cDelimiter ) { if ( pDocSh ) { ScDocument& rDoc = pDocSh->GetDocument(); sal_uInt16 nMask = SCA_VALID; rResFlags = rCellRanges.Parse( sAddress, &rDoc, nMask, eConv, 0, cDelimiter ); if ( rResFlags & SCA_VALID ) { return true; } } return false; } bool getScRangeListForAddress( const OUString& sName, ScDocShell* pDocSh, ScRange& refRange, ScRangeList& aCellRanges, formula::FormulaGrammar::AddressConvention aConv ) throw ( uno::RuntimeException ) { // see if there is a match with a named range uno::Reference< beans::XPropertySet > xProps( pDocSh->GetModel(), uno::UNO_QUERY_THROW ); uno::Reference< container::XNameAccess > xNameAccess( xProps->getPropertyValue( "NamedRanges" ), uno::UNO_QUERY_THROW ); // Strangly enough you can have Range( "namedRange1, namedRange2, etc," ) // loop around each ',' separated name std::vector< OUString > vNames; sal_Int32 nIndex = 0; do { OUString aToken = sName.getToken( 0, ',', nIndex ); vNames.push_back( aToken ); } while ( nIndex >= 0 ); if ( vNames.empty() ) vNames.push_back( sName ); std::vector< OUString >::iterator it = vNames.begin(); std::vector< OUString >::iterator it_end = vNames.end(); for ( ; it != it_end; ++it ) { formula::FormulaGrammar::AddressConvention eConv = aConv; // spaces are illegal ( but the user of course can enter them ) OUString sAddress = (*it).trim(); // if a local name ( on the active sheet ) exists this will // take precedence over a global with the same name if ( !xNameAccess->hasByName( sAddress ) ) { // try a local name ScDocument& rDoc = pDocSh->GetDocument(); SCTAB nCurTab = ScDocShell::GetCurTab(); ScRangeName* pRangeName = rDoc.GetRangeName(nCurTab); if (pRangeName) { bool bLocalName = pRangeName->findByUpperName(ScGlobal::pCharClass->uppercase(sAddress)) != NULL; // TODO: Handle local names correctly. (void)bLocalName; } } char aChar = 0; if ( xNameAccess->hasByName( sAddress ) ) { uno::Reference< sheet::XNamedRange > xNamed( xNameAccess->getByName( sAddress ), uno::UNO_QUERY_THROW ); sAddress = xNamed->getContent(); // As the address comes from OOO, the addressing // style is may not be XL_A1 eConv = pDocSh->GetDocument().GetAddressConvention(); aChar = ';'; } sal_uInt16 nFlags = 0; if ( !ScVbaRange::getCellRangesForAddress( nFlags, sAddress, pDocSh, aCellRanges, eConv, aChar ) ) return false; bool bTabFromReferrer = !( nFlags & SCA_TAB_3D ); for ( size_t i = 0, nRanges = aCellRanges.size(); i < nRanges; ++i ) { ScRange* pRange = aCellRanges[ i ]; pRange->aStart.SetCol( refRange.aStart.Col() + pRange->aStart.Col() ); pRange->aStart.SetRow( refRange.aStart.Row() + pRange->aStart.Row() ); pRange->aStart.SetTab( bTabFromReferrer ? refRange.aStart.Tab() : pRange->aStart.Tab() ); pRange->aEnd.SetCol( refRange.aStart.Col() + pRange->aEnd.Col() ); pRange->aEnd.SetRow( refRange.aStart.Row() + pRange->aEnd.Row() ); pRange->aEnd.SetTab( bTabFromReferrer ? refRange.aEnd.Tab() : pRange->aEnd.Tab() ); } } return true; } ScVbaRange* getRangeForName( const uno::Reference< uno::XComponentContext >& xContext, const OUString& sName, ScDocShell* pDocSh, table::CellRangeAddress& pAddr, formula::FormulaGrammar::AddressConvention eConv = formula::FormulaGrammar::CONV_XL_A1 ) throw ( uno::RuntimeException ) { ScRangeList aCellRanges; ScRange refRange; ScUnoConversion::FillScRange( refRange, pAddr ); if ( !getScRangeListForAddress ( sName, pDocSh, refRange, aCellRanges, eConv ) ) throw uno::RuntimeException(); // Single range if ( aCellRanges.size() == 1 ) { uno::Reference< table::XCellRange > xRange( new ScCellRangeObj( pDocSh, *aCellRanges.front() ) ); uno::Reference< XHelperInterface > xFixThisParent = excel::getUnoSheetModuleObj( xRange ); return new ScVbaRange( xFixThisParent, xContext, xRange ); } uno::Reference< sheet::XSheetCellRangeContainer > xRanges( new ScCellRangesObj( pDocSh, aCellRanges ) ); uno::Reference< XHelperInterface > xFixThisParent = excel::getUnoSheetModuleObj( xRanges ); return new ScVbaRange( xFixThisParent, xContext, xRanges ); } namespace { template< typename RangeType > inline table::CellRangeAddress lclGetRangeAddress( const uno::Reference< RangeType >& rxCellRange ) throw (uno::RuntimeException) { return uno::Reference< sheet::XCellRangeAddressable >( rxCellRange, uno::UNO_QUERY_THROW )->getRangeAddress(); } void lclClearRange( const uno::Reference< table::XCellRange >& rxCellRange ) throw (uno::RuntimeException) { using namespace ::com::sun::star::sheet::CellFlags; sal_Int32 nFlags = VALUE | DATETIME | STRING | ANNOTATION | FORMULA | HARDATTR | STYLES | EDITATTR | FORMATTED; uno::Reference< sheet::XSheetOperation > xSheetOperation( rxCellRange, uno::UNO_QUERY_THROW ); xSheetOperation->clearContents( nFlags ); } uno::Reference< sheet::XSheetCellRange > lclExpandToMerged( const uno::Reference< table::XCellRange >& rxCellRange, bool bRecursive ) throw (uno::RuntimeException) { uno::Reference< sheet::XSheetCellRange > xNewCellRange( rxCellRange, uno::UNO_QUERY_THROW ); uno::Reference< sheet::XSpreadsheet > xSheet( xNewCellRange->getSpreadsheet(), uno::UNO_SET_THROW ); table::CellRangeAddress aNewAddress = lclGetRangeAddress( xNewCellRange ); table::CellRangeAddress aOldAddress; // expand as long as there are new merged ranges included do { aOldAddress = aNewAddress; uno::Reference< sheet::XSheetCellCursor > xCursor( xSheet->createCursorByRange( xNewCellRange ), uno::UNO_SET_THROW ); xCursor->collapseToMergedArea(); xNewCellRange.set( xCursor, uno::UNO_QUERY_THROW ); aNewAddress = lclGetRangeAddress( xNewCellRange ); } while( bRecursive && (aOldAddress != aNewAddress) ); return xNewCellRange; } uno::Reference< sheet::XSheetCellRangeContainer > lclExpandToMerged( const uno::Reference< sheet::XSheetCellRangeContainer >& rxCellRanges, bool bRecursive ) throw (uno::RuntimeException) { if( !rxCellRanges.is() ) throw uno::RuntimeException("Missing cell ranges object" ); sal_Int32 nCount = rxCellRanges->getCount(); if( nCount < 1 ) throw uno::RuntimeException("Missing cell ranges object" ); ScRangeList aScRanges; for( sal_Int32 nIndex = 0; nIndex < nCount; ++nIndex ) { uno::Reference< table::XCellRange > xRange( rxCellRanges->getByIndex( nIndex ), uno::UNO_QUERY_THROW ); table::CellRangeAddress aRangeAddr = lclGetRangeAddress( lclExpandToMerged( xRange, bRecursive ) ); ScRange aScRange; ScUnoConversion::FillScRange( aScRange, aRangeAddr ); aScRanges.Append( aScRange ); } return new ScCellRangesObj( getDocShellFromRanges( rxCellRanges ), aScRanges ); } void lclExpandAndMerge( const uno::Reference< table::XCellRange >& rxCellRange, bool bMerge ) throw (uno::RuntimeException) { uno::Reference< util::XMergeable > xMerge( lclExpandToMerged( rxCellRange, true ), uno::UNO_QUERY_THROW ); // Calc cannot merge over merged ranges, always unmerge first xMerge->merge( false ); if( bMerge ) { // clear all contents of the covered cells (not the top-left cell) table::CellRangeAddress aRangeAddr = lclGetRangeAddress( rxCellRange ); sal_Int32 nLastColIdx = aRangeAddr.EndColumn - aRangeAddr.StartColumn; sal_Int32 nLastRowIdx = aRangeAddr.EndRow - aRangeAddr.StartRow; // clear cells of top row, right of top-left cell if( nLastColIdx > 0 ) lclClearRange( rxCellRange->getCellRangeByPosition( 1, 0, nLastColIdx, 0 ) ); // clear all rows below top row if( nLastRowIdx > 0 ) lclClearRange( rxCellRange->getCellRangeByPosition( 0, 1, nLastColIdx, nLastRowIdx ) ); // merge the range xMerge->merge( sal_True ); } } util::TriState lclGetMergedState( const uno::Reference< table::XCellRange >& rxCellRange ) throw (uno::RuntimeException) { /* 1) Check if range is completely inside one single merged range. To do this, try to extend from top-left cell only (not from entire range). This will exclude cases where this range consists of several merged ranges (or parts of them). */ table::CellRangeAddress aRangeAddr = lclGetRangeAddress( rxCellRange ); uno::Reference< table::XCellRange > xTopLeft( rxCellRange->getCellRangeByPosition( 0, 0, 0, 0 ), uno::UNO_SET_THROW ); uno::Reference< sheet::XSheetCellRange > xExpanded( lclExpandToMerged( xTopLeft, false ), uno::UNO_SET_THROW ); table::CellRangeAddress aExpAddr = lclGetRangeAddress( xExpanded ); // check that expanded range has more than one cell (really merged) if( ((aExpAddr.StartColumn < aExpAddr.EndColumn) || (aExpAddr.StartRow < aExpAddr.EndRow)) && ScUnoConversion::Contains( aExpAddr, aRangeAddr ) ) return util::TriState_YES; /* 2) Check if this range contains any merged cells (completely or partly). This seems to be hardly possible via API, as XMergeable::getIsMerged() returns only true, if the top-left cell of a merged range is part of this range, so cases where just the lower part of a merged range is part of this range are not covered. */ ScRange aScRange; ScUnoConversion::FillScRange( aScRange, aRangeAddr ); bool bHasMerged = getDocumentFromRange( rxCellRange ).HasAttrib( aScRange, HASATTR_MERGED | HASATTR_OVERLAPPED ); return bHasMerged ? util::TriState_INDETERMINATE : util::TriState_NO; } } // namespace css::uno::Reference< excel::XRange > ScVbaRange::getRangeObjectForName( const uno::Reference< uno::XComponentContext >& xContext, const OUString& sRangeName, ScDocShell* pDocSh, formula::FormulaGrammar::AddressConvention eConv ) throw ( uno::RuntimeException ) { table::CellRangeAddress refAddr; return getRangeForName( xContext, sRangeName, pDocSh, refAddr, eConv ); } table::CellRangeAddress getCellRangeAddressForVBARange( const uno::Any& aParam, ScDocShell* pDocSh, formula::FormulaGrammar::AddressConvention aConv = formula::FormulaGrammar::CONV_XL_A1) throw ( uno::RuntimeException ) { uno::Reference< table::XCellRange > xRangeParam; switch ( aParam.getValueTypeClass() ) { case uno::TypeClass_STRING: { OUString rString; aParam >>= rString; ScRangeList aCellRanges; ScRange refRange; if ( getScRangeListForAddress ( rString, pDocSh, refRange, aCellRanges, aConv ) ) { if ( aCellRanges.size() == 1 ) { table::CellRangeAddress aRangeAddress; ScUnoConversion::FillApiRange( aRangeAddress, *aCellRanges.front() ); return aRangeAddress; } } } break; case uno::TypeClass_INTERFACE: { uno::Reference< excel::XRange > xRange; aParam >>= xRange; if ( xRange.is() ) xRange->getCellRange() >>= xRangeParam; } break; default: throw uno::RuntimeException("Can't extact CellRangeAddress from type" ); } return lclGetRangeAddress( xRangeParam ); } static uno::Reference< XCollection > lcl_setupBorders( const uno::Reference< excel::XRange >& xParentRange, const uno::Reference& xContext, const uno::Reference< table::XCellRange >& xRange ) throw( uno::RuntimeException ) { uno::Reference< XHelperInterface > xParent( xParentRange, uno::UNO_QUERY_THROW ); ScDocument& rDoc = getDocumentFromRange(xRange); ScVbaPalette aPalette( rDoc.GetDocumentShell() ); uno::Reference< XCollection > borders( new ScVbaBorders( xParent, xContext, xRange, aPalette ) ); return borders; } ScVbaRange::ScVbaRange( uno::Sequence< uno::Any> const & args, uno::Reference< uno::XComponentContext> const & xContext ) throw ( lang::IllegalArgumentException, uno::RuntimeException ) : ScVbaRange_BASE( getXSomethingFromArgs< XHelperInterface >( args, 0 ), xContext, getXSomethingFromArgs< beans::XPropertySet >( args, 1, false ), getModelFromXIf( getXSomethingFromArgs< uno::XInterface >( args, 1 ) ), true ), mbIsRows( false ), mbIsColumns( false ) { mxRange.set( mxPropertySet, uno::UNO_QUERY ); mxRanges.set( mxPropertySet, uno::UNO_QUERY ); uno::Reference< container::XIndexAccess > xIndex; if ( mxRange.is() ) { xIndex = new SingleRangeIndexAccess( mxParent, mxContext, mxRange ); } else if ( mxRanges.is() ) { xIndex.set( mxRanges, uno::UNO_QUERY_THROW ); } m_Areas = new ScVbaRangeAreas( mxParent, mxContext, xIndex, mbIsRows, mbIsColumns ); } ScVbaRange::ScVbaRange( const uno::Reference< XHelperInterface >& xParent, const uno::Reference< uno::XComponentContext >& xContext, const uno::Reference< table::XCellRange >& xRange, bool bIsRows, bool bIsColumns ) throw( lang::IllegalArgumentException ) : ScVbaRange_BASE( xParent, xContext, uno::Reference< beans::XPropertySet >( xRange, uno::UNO_QUERY_THROW ), getModelFromRange( xRange), true ), mxRange( xRange ), mbIsRows( bIsRows ), mbIsColumns( bIsColumns ) { if ( !xContext.is() ) throw lang::IllegalArgumentException("context is not set ", uno::Reference< uno::XInterface >() , 1 ); if ( !xRange.is() ) throw lang::IllegalArgumentException("range is not set ", uno::Reference< uno::XInterface >() , 1 ); uno::Reference< container::XIndexAccess > xIndex( new SingleRangeIndexAccess( mxParent, mxContext, xRange ) ); m_Areas = new ScVbaRangeAreas( mxParent, mxContext, xIndex, mbIsRows, mbIsColumns ); } ScVbaRange::ScVbaRange(const uno::Reference< XHelperInterface >& xParent, const uno::Reference< uno::XComponentContext >& xContext, const uno::Reference< sheet::XSheetCellRangeContainer >& xRanges, bool bIsRows, bool bIsColumns) throw (lang::IllegalArgumentException, uno::RuntimeException) : ScVbaRange_BASE( xParent, xContext, uno::Reference< beans::XPropertySet >( xRanges, uno::UNO_QUERY_THROW ), getModelFromXIf( uno::Reference< uno::XInterface >( xRanges, uno::UNO_QUERY_THROW ) ), true ), mxRanges( xRanges ),mbIsRows( bIsRows ), mbIsColumns( bIsColumns ) { uno::Reference< container::XIndexAccess > xIndex( mxRanges, uno::UNO_QUERY_THROW ); m_Areas = new ScVbaRangeAreas( xParent, mxContext, xIndex, mbIsRows, mbIsColumns ); } ScVbaRange::~ScVbaRange() { } uno::Reference< XCollection >& ScVbaRange::getBorders() { if ( !m_Borders.is() ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny( sal_Int32(1) ), uno::Any() ), uno::UNO_QUERY_THROW ); m_Borders = lcl_setupBorders( this, mxContext, uno::Reference< table::XCellRange >( xRange->getCellRange(), uno::UNO_QUERY_THROW ) ); } return m_Borders; } void ScVbaRange::visitArray( ArrayVisitor& visitor ) { table::CellRangeAddress aRangeAddr = lclGetRangeAddress( mxRange ); sal_Int32 nRowCount = aRangeAddr.EndRow - aRangeAddr.StartRow + 1; sal_Int32 nColCount = aRangeAddr.EndColumn - aRangeAddr.StartColumn + 1; for ( sal_Int32 i=0; i xCell( mxRange->getCellByPosition( j, i ), uno::UNO_QUERY_THROW ); visitor.visitNode( i, j, xCell ); } } } uno::Any ScVbaRange::getValue( ValueGetter& valueGetter) throw (uno::RuntimeException) { uno::Reference< table::XColumnRowRange > xColumnRowRange(mxRange, uno::UNO_QUERY_THROW ); // single cell range if ( isSingleCellRange() ) { visitArray( valueGetter ); return valueGetter.getValue(); } sal_Int32 nRowCount = xColumnRowRange->getRows()->getCount(); sal_Int32 nColCount = xColumnRowRange->getColumns()->getCount(); // multi cell range ( return array ) Dim2ArrayValueGetter arrayGetter( nRowCount, nColCount, valueGetter ); visitArray( arrayGetter ); return uno::makeAny( script::ArrayWrapper( false, arrayGetter.getValue() ) ); } uno::Any SAL_CALL ScVbaRange::getValue() throw (uno::RuntimeException, std::exception) { // #TODO code within the test below "if ( m_Areas.... " can be removed // Test is performed only because m_xRange is NOT set to be // the first range in m_Areas ( to force failure while // the implementations for each method are being updated ) if ( m_Areas->getCount() > 1 ) { uno::Reference< excel::XRange > xRange( getArea( 0 ), uno::UNO_QUERY_THROW ); return xRange->getValue(); } CellValueGetter valueGetter; return getValue( valueGetter ); } void ScVbaRange::setValue( const uno::Any& aValue, ValueSetter& valueSetter, bool bFireEvent ) throw (uno::RuntimeException) { uno::TypeClass aClass = aValue.getValueTypeClass(); if ( aClass == uno::TypeClass_SEQUENCE ) { uno::Reference< script::XTypeConverter > xConverter = getTypeConverter( mxContext ); uno::Any aConverted; try { // test for single dimension, could do // with a better test than this if ( aValue.getValueTypeName().indexOf('[') == aValue.getValueTypeName().lastIndexOf('[') ) { aConverted = xConverter->convertTo( aValue, cppu::UnoType>::get() ); Dim1ArrayValueSetter setter( aConverted, valueSetter ); visitArray( setter ); } else { aConverted = xConverter->convertTo( aValue, cppu::UnoType >>::get() ); Dim2ArrayValueSetter setter( aConverted, valueSetter ); visitArray( setter ); } } catch ( const uno::Exception& e ) { OSL_TRACE("Bahhh, caught exception %s", OUStringToOString( e.Message, RTL_TEXTENCODING_UTF8 ).getStr() ); } } else { visitArray( valueSetter ); } if( bFireEvent ) fireChangeEvent(); } void SAL_CALL ScVbaRange::setValue( const uno::Any &aValue ) throw (uno::RuntimeException, std::exception) { // If this is a multiple selection apply setValue over all areas if ( m_Areas->getCount() > 1 ) { AreasVisitor aVisitor( m_Areas ); RangeValueProcessor valueProcessor( aValue ); aVisitor.visit( valueProcessor ); return; } CellValueSetter valueSetter( aValue ); setValue( aValue, valueSetter, true ); } void SAL_CALL ScVbaRange::Clear() throw (uno::RuntimeException, std::exception) { using namespace ::com::sun::star::sheet::CellFlags; sal_Int32 nFlags = VALUE | DATETIME | STRING | FORMULA | HARDATTR | EDITATTR | FORMATTED; ClearContents( nFlags, true ); } //helper ClearContent void ScVbaRange::ClearContents( sal_Int32 nFlags, bool bFireEvent ) throw (uno::RuntimeException) { // #TODO code within the test below "if ( m_Areas.... " can be removed // Test is performed only because m_xRange is NOT set to be // the first range in m_Areas ( to force failure while // the implementations for each method are being updated ) if ( m_Areas->getCount() > 1 ) { sal_Int32 nItems = m_Areas->getCount(); for ( sal_Int32 index=1; index <= nItems; ++index ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny(index), uno::Any() ), uno::UNO_QUERY_THROW ); ScVbaRange* pRange = getImplementation( xRange ); if ( pRange ) pRange->ClearContents( nFlags, false ); // do not fire for single ranges } // fire change event for the entire range list if( bFireEvent ) fireChangeEvent(); return; } uno::Reference< sheet::XSheetOperation > xSheetOperation(mxRange, uno::UNO_QUERY_THROW); xSheetOperation->clearContents( nFlags ); if( bFireEvent ) fireChangeEvent(); } void SAL_CALL ScVbaRange::ClearComments() throw (uno::RuntimeException, std::exception) { ClearContents( sheet::CellFlags::ANNOTATION, false ); } void SAL_CALL ScVbaRange::ClearContents() throw (uno::RuntimeException, std::exception) { using namespace ::com::sun::star::sheet::CellFlags; sal_Int32 nFlags = VALUE | DATETIME | STRING | FORMULA; ClearContents( nFlags, true ); } void SAL_CALL ScVbaRange::ClearFormats() throw (uno::RuntimeException, std::exception) { // FIXME: need to check if we need to combine FORMATTED using namespace ::com::sun::star::sheet::CellFlags; sal_Int32 nFlags = HARDATTR | FORMATTED | EDITATTR; ClearContents( nFlags, false ); } void ScVbaRange::setFormulaValue( const uno::Any& rFormula, formula::FormulaGrammar::Grammar eGram, bool bFireEvent ) throw (uno::RuntimeException) { // If this is a multiple selection apply setFormula over all areas if ( m_Areas->getCount() > 1 ) { AreasVisitor aVisitor( m_Areas ); RangeFormulaProcessor valueProcessor( rFormula ); aVisitor.visit( valueProcessor ); return; } CellFormulaValueSetter formulaValueSetter( rFormula, &getScDocument(), eGram ); setValue( rFormula, formulaValueSetter, bFireEvent ); } uno::Any ScVbaRange::getFormulaValue( formula::FormulaGrammar::Grammar eGram ) throw (uno::RuntimeException) { // #TODO code within the test below "if ( m_Areas.... " can be removed // Test is performed only because m_xRange is NOT set to be // the first range in m_Areas ( to force failure while // the implementations for each method are being updated ) if ( m_Areas->getCount() > 1 ) { uno::Reference< excel::XRange > xRange( getArea( 0 ), uno::UNO_QUERY_THROW ); return xRange->getFormula(); } CellFormulaValueGetter valueGetter( &getScDocument(), eGram ); return getValue( valueGetter ); } void ScVbaRange::setFormula(const uno::Any &rFormula ) throw (uno::RuntimeException, std::exception) { // #FIXME converting "=$a$1" e.g. CONV_XL_A1 -> CONV_OOO // results in "=$a$1:a1", temporalily disable conversion setFormulaValue( rFormula,formula::FormulaGrammar::GRAM_NATIVE_XL_A1, true ); } uno::Any ScVbaRange::getFormulaR1C1() throw (::com::sun::star::uno::RuntimeException, std::exception) { return getFormulaValue( formula::FormulaGrammar::GRAM_NATIVE_XL_R1C1 ); } void ScVbaRange::setFormulaR1C1(const uno::Any& rFormula ) throw (uno::RuntimeException, std::exception) { setFormulaValue( rFormula,formula::FormulaGrammar::GRAM_NATIVE_XL_R1C1, true ); } uno::Any ScVbaRange::getFormula() throw (::com::sun::star::uno::RuntimeException, std::exception) { return getFormulaValue( formula::FormulaGrammar::GRAM_NATIVE_XL_A1 ); } sal_Int32 ScVbaRange::getCount() throw (uno::RuntimeException, std::exception) { // If this is a multiple selection apply setValue over all areas if ( m_Areas->getCount() > 1 ) { AreasVisitor aVisitor( m_Areas ); RangeCountProcessor valueProcessor; aVisitor.visit( valueProcessor ); return valueProcessor.value(); } sal_Int32 rowCount = 0; sal_Int32 colCount = 0; uno::Reference< table::XColumnRowRange > xColumnRowRange(mxRange, uno::UNO_QUERY_THROW ); rowCount = xColumnRowRange->getRows()->getCount(); colCount = xColumnRowRange->getColumns()->getCount(); if( IsRows() ) return rowCount; if( IsColumns() ) return colCount; return rowCount * colCount; } sal_Int32 ScVbaRange::getRow() throw (uno::RuntimeException, std::exception) { // #TODO code within the test below "if ( m_Areas.... " can be removed // Test is performed only because m_xRange is NOT set to be // the first range in m_Areas ( to force failure while // the implementations for each method are being updated ) if ( m_Areas->getCount() > 1 ) { uno::Reference< excel::XRange > xRange( getArea( 0 ), uno::UNO_QUERY_THROW ); return xRange->getRow(); } uno::Reference< sheet::XCellAddressable > xCellAddressable(mxRange->getCellByPosition(0, 0), uno::UNO_QUERY_THROW ); return xCellAddressable->getCellAddress().Row + 1; // Zero value indexing } sal_Int32 ScVbaRange::getColumn() throw (uno::RuntimeException, std::exception) { // #TODO code within the test below "if ( m_Areas.... " can be removed // Test is performed only because m_xRange is NOT set to be // the first range in m_Areas ( to force failure while // the implementations for each method are being updated ) if ( m_Areas->getCount() > 1 ) { uno::Reference< excel::XRange > xRange( getArea( 0 ), uno::UNO_QUERY_THROW ); return xRange->getColumn(); } uno::Reference< sheet::XCellAddressable > xCellAddressable(mxRange->getCellByPosition(0, 0), uno::UNO_QUERY_THROW ); return xCellAddressable->getCellAddress().Column + 1; // Zero value indexing } uno::Any ScVbaRange::HasFormula() throw (uno::RuntimeException, std::exception) { if ( m_Areas->getCount() > 1 ) { sal_Int32 nItems = m_Areas->getCount(); uno::Any aResult = aNULL(); for ( sal_Int32 index=1; index <= nItems; ++index ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny(index), uno::Any() ), uno::UNO_QUERY_THROW ); // if the HasFormula for any area is different to another // return null if ( index > 1 ) if ( aResult != xRange->HasFormula() ) return aNULL(); aResult = xRange->HasFormula(); if ( aNULL() == aResult ) return aNULL(); } return aResult; } uno::Reference< uno::XInterface > xIf( mxRange, uno::UNO_QUERY_THROW ); ScCellRangesBase* pThisRanges = dynamic_cast< ScCellRangesBase * > ( xIf.get() ); if ( pThisRanges ) { uno::Reference xRanges( pThisRanges->queryFormulaCells( ( sheet::FormulaResult::ERROR | sheet::FormulaResult::VALUE | sheet::FormulaResult::STRING ) ), uno::UNO_QUERY_THROW ); ScCellRangesBase* pFormulaRanges = dynamic_cast< ScCellRangesBase * > ( xRanges.get() ); // check if there are no formula cell, return false if ( pFormulaRanges->GetRangeList().empty() ) return uno::makeAny(sal_False); // chech if there are holes (where some cells are not formulas) // or returned range is not equal to this range if ( ( pFormulaRanges->GetRangeList().size() > 1 ) || ( pFormulaRanges->GetRangeList().front()->aStart != pThisRanges->GetRangeList().front()->aStart ) || ( pFormulaRanges->GetRangeList().front()->aEnd != pThisRanges->GetRangeList().front()->aEnd ) ) return aNULL(); // should return aNULL; } return uno::makeAny( sal_True ); } void ScVbaRange::fillSeries( sheet::FillDirection nFillDirection, sheet::FillMode nFillMode, sheet::FillDateMode nFillDateMode, double fStep, double fEndValue ) throw( uno::RuntimeException ) { if ( m_Areas->getCount() > 1 ) { // Multi-Area Range uno::Reference< XCollection > xCollection( m_Areas, uno::UNO_QUERY_THROW ); for ( sal_Int32 index = 1; index <= xCollection->getCount(); ++index ) { uno::Reference< excel::XRange > xRange( xCollection->Item( uno::makeAny( index ), uno::Any() ), uno::UNO_QUERY_THROW ); ScVbaRange* pThisRange = getImplementation( xRange ); pThisRange->fillSeries( nFillDirection, nFillMode, nFillDateMode, fStep, fEndValue ); } return; } uno::Reference< sheet::XCellSeries > xCellSeries(mxRange, uno::UNO_QUERY_THROW ); xCellSeries->fillSeries( nFillDirection, nFillMode, nFillDateMode, fStep, fEndValue ); fireChangeEvent(); } void ScVbaRange::FillLeft() throw (uno::RuntimeException, std::exception) { fillSeries(sheet::FillDirection_TO_LEFT, sheet::FillMode_SIMPLE, sheet::FillDateMode_FILL_DATE_DAY, 0, 0x7FFFFFFF); } void ScVbaRange::FillRight() throw (uno::RuntimeException, std::exception) { fillSeries(sheet::FillDirection_TO_RIGHT, sheet::FillMode_SIMPLE, sheet::FillDateMode_FILL_DATE_DAY, 0, 0x7FFFFFFF); } void ScVbaRange::FillUp() throw (uno::RuntimeException, std::exception) { fillSeries(sheet::FillDirection_TO_TOP, sheet::FillMode_SIMPLE, sheet::FillDateMode_FILL_DATE_DAY, 0, 0x7FFFFFFF); } void ScVbaRange::FillDown() throw (uno::RuntimeException, std::exception) { fillSeries(sheet::FillDirection_TO_BOTTOM, sheet::FillMode_SIMPLE, sheet::FillDateMode_FILL_DATE_DAY, 0, 0x7FFFFFFF); } OUString ScVbaRange::getText() throw (uno::RuntimeException, std::exception) { // #TODO code within the test below "if ( m_Areas.... " can be removed // Test is performed only because m_xRange is NOT set to be // the first range in m_Areas ( to force failure while // the implementations for each method are being updated ) if ( m_Areas->getCount() > 1 ) { uno::Reference< excel::XRange > xRange( getArea( 0 ), uno::UNO_QUERY_THROW ); return xRange->getText(); } uno::Reference< text::XTextRange > xTextRange(mxRange->getCellByPosition(0,0), uno::UNO_QUERY_THROW ); return xTextRange->getString(); } uno::Reference< excel::XRange > ScVbaRange::Offset( const ::uno::Any &nRowOff, const uno::Any &nColOff ) throw (uno::RuntimeException, std::exception) { SCROW nRowOffset = 0; SCCOL nColOffset = 0; bool bIsRowOffset = ( nRowOff >>= nRowOffset ); bool bIsColumnOffset = ( nColOff >>= nColOffset ); ScCellRangesBase* pUnoRangesBase = getCellRangesBase(); ScRangeList aCellRanges = pUnoRangesBase->GetRangeList(); for ( size_t i = 0, nRanges = aCellRanges.size(); i < nRanges; ++i ) { ScRange* pRange = aCellRanges[ i ]; if ( bIsColumnOffset ) { pRange->aStart.SetCol( pRange->aStart.Col() + nColOffset ); pRange->aEnd.SetCol( pRange->aEnd.Col() + nColOffset ); } if ( bIsRowOffset ) { pRange->aStart.SetRow( pRange->aStart.Row() + nRowOffset ); pRange->aEnd.SetRow( pRange->aEnd.Row() + nRowOffset ); } } if ( aCellRanges.size() > 1 ) // Multi-Area { uno::Reference< sheet::XSheetCellRangeContainer > xRanges( new ScCellRangesObj( pUnoRangesBase->GetDocShell(), aCellRanges ) ); return new ScVbaRange( mxParent, mxContext, xRanges ); } // normal range uno::Reference< table::XCellRange > xRange( new ScCellRangeObj( pUnoRangesBase->GetDocShell(), *aCellRanges.front() ) ); return new ScVbaRange( mxParent, mxContext, xRange ); } uno::Reference< excel::XRange > ScVbaRange::CurrentRegion() throw (uno::RuntimeException, std::exception) { // #TODO code within the test below "if ( m_Areas.... " can be removed // Test is performed only because m_xRange is NOT set to be // the first range in m_Areas ( to force failure while // the implementations for each method are being updated ) if ( m_Areas->getCount() > 1 ) { uno::Reference< excel::XRange > xRange( getArea( 0 ), uno::UNO_QUERY_THROW ); return xRange->CurrentRegion(); } RangeHelper helper( mxRange ); uno::Reference< sheet::XSheetCellCursor > xSheetCellCursor = helper.getSheetCellCursor(); xSheetCellCursor->collapseToCurrentRegion(); uno::Reference< sheet::XCellRangeAddressable > xCellRangeAddressable(xSheetCellCursor, uno::UNO_QUERY_THROW); return RangeHelper::createRangeFromRange( mxParent, mxContext, helper.getCellRangeFromSheet(), xCellRangeAddressable ); } uno::Reference< excel::XRange > ScVbaRange::CurrentArray() throw (uno::RuntimeException, std::exception) { // #TODO code within the test below "if ( m_Areas.... " can be removed // Test is performed only because m_xRange is NOT set to be // the first range in m_Areas ( to force failure while // the implementations for each method are being updated ) if ( m_Areas->getCount() > 1 ) { uno::Reference< excel::XRange > xRange( getArea( 0 ), uno::UNO_QUERY_THROW ); return xRange->CurrentArray(); } RangeHelper helper( mxRange ); uno::Reference< sheet::XSheetCellCursor > xSheetCellCursor = helper.getSheetCellCursor(); xSheetCellCursor->collapseToCurrentArray(); uno::Reference< sheet::XCellRangeAddressable > xCellRangeAddressable(xSheetCellCursor, uno::UNO_QUERY_THROW); return RangeHelper::createRangeFromRange( mxParent, mxContext, helper.getCellRangeFromSheet(), xCellRangeAddressable ); } uno::Any ScVbaRange::getFormulaArray() throw (uno::RuntimeException, std::exception) { // #TODO code within the test below "if ( m_Areas.... " can be removed // Test is performed only because m_xRange is NOT set to be // the first range in m_Areas ( to force failure while // the implementations for each method are being updated ) if ( m_Areas->getCount() > 1 ) { uno::Reference< excel::XRange > xRange( getArea( 0 ), uno::UNO_QUERY_THROW ); return xRange->getFormulaArray(); } // return a formula if there is one or else an array // still not sure when the return as array code should run // ( I think it is if there is more than one formula ) at least // that is what the doc says ( but I am not even sure how to detect that ) // for the moment any tests we have pass uno::Reference< sheet::XArrayFormulaRange> xFormulaArray( mxRange, uno::UNO_QUERY_THROW ); if ( xFormulaArray.is() && !xFormulaArray->getArrayFormula().isEmpty() ) return uno::makeAny( xFormulaArray->getArrayFormula() ); uno::Reference< sheet::XCellRangeFormula> xCellRangeFormula( mxRange, uno::UNO_QUERY_THROW ); uno::Reference< script::XTypeConverter > xConverter = getTypeConverter( mxContext ); uno::Any aSingleValueOrMatrix; // When dealing with a single element ( embedded in the sequence of sequence ) unwrap and return // that value uno::Sequence< uno::Sequence > aTmpSeq = xCellRangeFormula->getFormulaArray(); if ( aTmpSeq.getLength() == 1 ) { if ( aTmpSeq[ 0 ].getLength() == 1 ) aSingleValueOrMatrix <<= aTmpSeq[ 0 ][ 0 ]; } else aSingleValueOrMatrix = xConverter->convertTo( uno::makeAny( aTmpSeq ) , cppu::UnoType >>::get() ) ; return aSingleValueOrMatrix; } void ScVbaRange::setFormulaArray(const uno::Any& rFormula) throw (uno::RuntimeException, std::exception) { // #TODO code within the test below "if ( m_Areas.... " can be removed // Test is performed only because m_xRange is NOT set to be // the first range in m_Areas ( to force failure while // the implementations for each method are being updated ) if ( m_Areas->getCount() > 1 ) { uno::Reference< excel::XRange > xRange( getArea( 0 ), uno::UNO_QUERY_THROW ); return xRange->setFormulaArray( rFormula ); } // #TODO need to distinguish between getFormula and getFormulaArray e.g. (R1C1) // but for the moment its just easier to treat them the same for setting // seems uno::Reference< lang::XMultiServiceFactory > xModelFactory( getUnoModel(), uno::UNO_QUERY_THROW ); uno::Reference< sheet::XFormulaParser > xParser( xModelFactory->createInstance( "com.sun.star.sheet.FormulaParser" ), uno::UNO_QUERY_THROW ); uno::Reference< sheet::XCellRangeAddressable > xSource( mxRange, uno::UNO_QUERY_THROW); table::CellRangeAddress aRangeAddress = xSource->getRangeAddress(); // #TODO check if api orders the address // e.g. do we need to order the RangeAddress to get the topleft ( or can we assume it // is in the correct order ) table::CellAddress aAddress; aAddress.Sheet = aRangeAddress.Sheet; aAddress.Column = aRangeAddress.StartColumn; aAddress.Row = aRangeAddress.StartRow; OUString sFormula; rFormula >>= sFormula; uno::Sequence aTokens = xParser->parseFormula( sFormula, aAddress ); ScTokenArray aTokenArray; (void)ScTokenConversion::ConvertToTokenArray( getScDocument(), aTokenArray, aTokens ); getScDocShell()->GetDocFunc().EnterMatrix( *getScRangeList()[0], NULL, &aTokenArray, OUString(), true, true, EMPTY_OUSTRING, formula::FormulaGrammar::GRAM_PODF_A1 ); } OUString ScVbaRange::Characters(const uno::Any& Start, const uno::Any& Length) throw (uno::RuntimeException, std::exception) { // #TODO code within the test below "if ( m_Areas.... " can be removed // Test is performed only because m_xRange is NOT set to be // the first range in m_Areas ( to force failure while // the implementations for each method are being updated ) if ( m_Areas->getCount() > 1 ) { uno::Reference< excel::XRange > xRange( getArea( 0 ), uno::UNO_QUERY_THROW ); return xRange->Characters( Start, Length ); } long nIndex = 0, nCount = 0; OUString rString; uno::Reference< text::XTextRange > xTextRange(mxRange, ::uno::UNO_QUERY_THROW ); rString = xTextRange->getString(); if( !( Start >>= nIndex ) && !( Length >>= nCount ) ) return rString; if(!( Start >>= nIndex ) ) nIndex = 1; if(!( Length >>= nCount ) ) nIndex = rString.getLength(); return rString.copy( --nIndex, nCount ); // Zero value indexing } OUString ScVbaRange::Address( const uno::Any& RowAbsolute, const uno::Any& ColumnAbsolute, const uno::Any& ReferenceStyle, const uno::Any& External, const uno::Any& RelativeTo ) throw (uno::RuntimeException, std::exception) { if ( m_Areas->getCount() > 1 ) { // Multi-Area Range OUString sAddress; uno::Reference< XCollection > xCollection( m_Areas, uno::UNO_QUERY_THROW ); uno::Any aExternalCopy = External; for ( sal_Int32 index = 1; index <= xCollection->getCount(); ++index ) { uno::Reference< excel::XRange > xRange( xCollection->Item( uno::makeAny( index ), uno::Any() ), uno::UNO_QUERY_THROW ); if ( index > 1 ) { sAddress += OUString( ',' ); // force external to be false // only first address should have the // document and sheet specifications aExternalCopy = uno::makeAny(sal_False); } sAddress += xRange->Address( RowAbsolute, ColumnAbsolute, ReferenceStyle, aExternalCopy, RelativeTo ); } return sAddress; } ScAddress::Details dDetails( formula::FormulaGrammar::CONV_XL_A1, 0, 0 ); if ( ReferenceStyle.hasValue() ) { sal_Int32 refStyle = excel::XlReferenceStyle::xlA1; ReferenceStyle >>= refStyle; if ( refStyle == excel::XlReferenceStyle::xlR1C1 ) dDetails = ScAddress::Details( formula::FormulaGrammar::CONV_XL_R1C1, 0, 0 ); } sal_uInt16 nFlags = SCA_VALID; ScDocShell* pDocShell = getScDocShell(); ScDocument& rDoc = pDocShell->GetDocument(); RangeHelper thisRange( mxRange ); table::CellRangeAddress thisAddress = thisRange.getCellRangeAddressable()->getRangeAddress(); ScRange aRange( static_cast< SCCOL >( thisAddress.StartColumn ), static_cast< SCROW >( thisAddress.StartRow ), static_cast< SCTAB >( thisAddress.Sheet ), static_cast< SCCOL >( thisAddress.EndColumn ), static_cast< SCROW >( thisAddress.EndRow ), static_cast< SCTAB >( thisAddress.Sheet ) ); sal_uInt16 ROW_ABSOLUTE = ( SCA_ROW_ABSOLUTE | SCA_ROW2_ABSOLUTE ); sal_uInt16 COL_ABSOLUTE = ( SCA_COL_ABSOLUTE | SCA_COL2_ABSOLUTE ); // default nFlags |= ( SCA_TAB_ABSOLUTE | SCA_COL_ABSOLUTE | SCA_ROW_ABSOLUTE | SCA_TAB2_ABSOLUTE | SCA_COL2_ABSOLUTE | SCA_ROW2_ABSOLUTE ); if ( RowAbsolute.hasValue() ) { bool bVal = true; RowAbsolute >>= bVal; if ( !bVal ) nFlags &= ~ROW_ABSOLUTE; } if ( ColumnAbsolute.hasValue() ) { bool bVal = true; ColumnAbsolute >>= bVal; if ( !bVal ) nFlags &= ~COL_ABSOLUTE; } if ( External.hasValue() ) { bool bLocal = false; External >>= bLocal; if ( bLocal ) nFlags |= SCA_TAB_3D | SCA_FORCE_DOC; } if ( RelativeTo.hasValue() ) { // #TODO should I throw an error if R1C1 is not set? table::CellRangeAddress refAddress = getCellRangeAddressForVBARange( RelativeTo, pDocShell ); dDetails = ScAddress::Details( formula::FormulaGrammar::CONV_XL_R1C1, static_cast< SCROW >( refAddress.StartRow ), static_cast< SCCOL >( refAddress.StartColumn ) ); } return aRange.Format(nFlags, &rDoc, dDetails); } uno::Reference < excel::XFont > ScVbaRange::Font() throw ( script::BasicErrorException, uno::RuntimeException) { uno::Reference< beans::XPropertySet > xProps(mxRange, ::uno::UNO_QUERY ); ScDocument& rDoc = getScDocument(); if ( mxRange.is() ) xProps.set(mxRange, ::uno::UNO_QUERY ); else if ( mxRanges.is() ) xProps.set(mxRanges, ::uno::UNO_QUERY ); ScVbaPalette aPalette( rDoc.GetDocumentShell() ); ScCellRangeObj* pRangeObj = NULL; try { pRangeObj = getCellRangeObj(); } catch( uno::Exception& ) { } return new ScVbaFont( this, mxContext, aPalette, xProps, pRangeObj ); } uno::Reference< excel::XRange > ScVbaRange::Cells( const uno::Any &nRowIndex, const uno::Any &nColumnIndex ) throw(uno::RuntimeException, std::exception) { // #TODO code within the test below "if ( m_Areas.... " can be removed // Test is performed only because m_xRange is NOT set to be // the first range in m_Areas ( to force failure while // the implementations for each method are being updated ) if ( m_Areas->getCount() > 1 ) { uno::Reference< excel::XRange > xRange( getArea( 0 ), uno::UNO_QUERY_THROW ); return xRange->Cells( nRowIndex, nColumnIndex ); } // Performance: Use a common helper method for ScVbaRange::Cells and ScVbaWorksheet::Cells, // instead of creating a new ScVbaRange object in often-called ScVbaWorksheet::Cells return CellsHelper( mxParent, mxContext, mxRange, nRowIndex, nColumnIndex ); } // static uno::Reference< excel::XRange > ScVbaRange::CellsHelper( const uno::Reference< ov::XHelperInterface >& xParent, const uno::Reference< uno::XComponentContext >& xContext, const uno::Reference< css::table::XCellRange >& xRange, const uno::Any &nRowIndex, const uno::Any &nColumnIndex ) throw(uno::RuntimeException) { sal_Int32 nRow = 0, nColumn = 0; bool bIsIndex = nRowIndex.hasValue(); bool bIsColumnIndex = nColumnIndex.hasValue(); // Sometimes we might get a float or a double or whatever // set in the Any, we should convert as appropriate // #FIXME - perhaps worth turning this into some sort of // conversion routine e.g. bSuccess = getValueFromAny( nRow, nRowIndex, cppu::UnoType::get() ) uno::Any aRowIndexAny = nRowIndex; if ( aRowIndexAny.hasValue() && !( aRowIndexAny >>= nRow ) ) { uno::Reference< script::XTypeConverter > xConverter = getTypeConverter( xContext ); uno::Any aConverted; try { aConverted = xConverter->convertTo( aRowIndexAny, cppu::UnoType::get() ); bIsIndex = ( aConverted >>= nRow ); } catch( uno::Exception& ) {} // silence any errors } uno::Any aColumnAny = nColumnIndex; if ( bIsColumnIndex ) { // Column index can be a col address e.g Cells( 1, "B" ) etc. OUString sCol; if ( nColumnIndex >>= sCol ) { ScAddress::Details dDetails( formula::FormulaGrammar::CONV_XL_A1, 0, 0 ); ScRange tmpRange; sal_uInt16 flags = tmpRange.ParseCols( sCol, &getDocumentFromRange( xRange ), dDetails ); if ( ( flags & 0x200 ) != 0x200 ) throw uno::RuntimeException(); nColumn = tmpRange.aStart.Col() + 1; } else { if ( !( aColumnAny >>= nColumn ) ) { uno::Reference< script::XTypeConverter > xConverter = getTypeConverter( xContext ); uno::Any aConverted; try { aConverted = xConverter->convertTo( aColumnAny, cppu::UnoType::get() ); bIsColumnIndex = ( aConverted >>= nColumn ); } catch( uno::Exception& ) {} // silence any errors } } } RangeHelper thisRange( xRange ); table::CellRangeAddress thisRangeAddress = thisRange.getCellRangeAddressable()->getRangeAddress(); uno::Reference< table::XCellRange > xSheetRange = thisRange.getCellRangeFromSheet(); if( !bIsIndex && !bIsColumnIndex ) // .Cells // #FIXE needs proper parent ( Worksheet ) return uno::Reference< excel::XRange >( new ScVbaRange( xParent, xContext, xRange ) ); sal_Int32 nIndex = --nRow; if( bIsIndex && !bIsColumnIndex ) // .Cells(n) { uno::Reference< table::XColumnRowRange > xColumnRowRange(xRange, ::uno::UNO_QUERY_THROW); sal_Int32 nColCount = xColumnRowRange->getColumns()->getCount(); if ( !nIndex || nIndex < 0 ) nRow = 0; else nRow = nIndex / nColCount; nColumn = nIndex % nColCount; } else --nColumn; nRow = nRow + thisRangeAddress.StartRow; nColumn = nColumn + thisRangeAddress.StartColumn; return new ScVbaRange( xParent, xContext, xSheetRange->getCellRangeByPosition( nColumn, nRow, nColumn, nRow ) ); } void ScVbaRange::Select() throw (uno::RuntimeException, std::exception) { ScCellRangesBase* pUnoRangesBase = getCellRangesBase(); if ( !pUnoRangesBase ) throw uno::RuntimeException("Failed to access underlying uno range object" ); ScDocShell* pShell = pUnoRangesBase->GetDocShell(); if ( pShell ) { uno::Reference< frame::XModel > xModel( pShell->GetModel(), uno::UNO_QUERY_THROW ); uno::Reference< view::XSelectionSupplier > xSelection( xModel->getCurrentController(), uno::UNO_QUERY_THROW ); if ( mxRanges.is() ) xSelection->select( uno::Any( lclExpandToMerged( mxRanges, true ) ) ); else xSelection->select( uno::Any( lclExpandToMerged( mxRange, true ) ) ); // set focus on document e.g. // ThisComponent.CurrentController.Frame.getContainerWindow.SetFocus try { uno::Reference< frame::XController > xController( xModel->getCurrentController(), uno::UNO_QUERY_THROW ); uno::Reference< frame::XFrame > xFrame( xController->getFrame(), uno::UNO_QUERY_THROW ); uno::Reference< awt::XWindow > xWin( xFrame->getContainerWindow(), uno::UNO_QUERY_THROW ); xWin->setFocus(); } catch( uno::Exception& ) { } } } bool cellInRange( const table::CellRangeAddress& rAddr, const sal_Int32& nCol, const sal_Int32& nRow ) { if ( nCol >= rAddr.StartColumn && nCol <= rAddr.EndColumn && nRow >= rAddr.StartRow && nRow <= rAddr.EndRow ) return true; return false; } void setCursor( const SCCOL& nCol, const SCROW& nRow, const uno::Reference< frame::XModel >& xModel, bool bInSel = true ) { ScTabViewShell* pShell = excel::getBestViewShell( xModel ); if ( pShell ) { if ( bInSel ) pShell->SetCursor( nCol, nRow ); else pShell->MoveCursorAbs( nCol, nRow, SC_FOLLOW_NONE, false, false, true, false ); } } void ScVbaRange::Activate() throw (uno::RuntimeException, std::exception) { // get first cell of current range uno::Reference< table::XCellRange > xCellRange; if ( mxRanges.is() ) { uno::Reference< container::XIndexAccess > xIndex( mxRanges, uno::UNO_QUERY_THROW ); xCellRange.set( xIndex->getByIndex( 0 ), uno::UNO_QUERY_THROW ); } else xCellRange.set( mxRange, uno::UNO_QUERY_THROW ); RangeHelper thisRange( xCellRange ); uno::Reference< sheet::XCellRangeAddressable > xThisRangeAddress = thisRange.getCellRangeAddressable(); table::CellRangeAddress thisRangeAddress = xThisRangeAddress->getRangeAddress(); uno::Reference< frame::XModel > xModel; ScDocShell* pShell = getScDocShell(); if ( pShell ) xModel = pShell->GetModel(); if ( !xModel.is() ) throw uno::RuntimeException(); // get current selection uno::Reference< sheet::XCellRangeAddressable > xRange( xModel->getCurrentSelection(), ::uno::UNO_QUERY); uno::Reference< sheet::XSheetCellRanges > xRanges( xModel->getCurrentSelection(), ::uno::UNO_QUERY); if ( xRanges.is() ) { uno::Sequence< table::CellRangeAddress > nAddrs = xRanges->getRangeAddresses(); for ( sal_Int32 index = 0; index < nAddrs.getLength(); ++index ) { if ( cellInRange( nAddrs[index], thisRangeAddress.StartColumn, thisRangeAddress.StartRow ) ) { setCursor( static_cast< SCCOL >( thisRangeAddress.StartColumn ), static_cast< SCROW >( thisRangeAddress.StartRow ), xModel ); return; } } } if ( xRange.is() && cellInRange( xRange->getRangeAddress(), thisRangeAddress.StartColumn, thisRangeAddress.StartRow ) ) setCursor( static_cast< SCCOL >( thisRangeAddress.StartColumn ), static_cast< SCROW >( thisRangeAddress.StartRow ), xModel ); else { // if this range is multi cell select the range other // wise just position the cell at this single range position if ( isSingleCellRange() ) // This top-leftmost cell of this Range is not in the current // selection so just select this range setCursor( static_cast< SCCOL >( thisRangeAddress.StartColumn ), static_cast< SCROW >( thisRangeAddress.StartRow ), xModel, false ); else Select(); } } uno::Reference< excel::XRange > ScVbaRange::Rows(const uno::Any& aIndex ) throw (uno::RuntimeException, std::exception) { OUString sAddress; if ( aIndex.hasValue() ) { sal_Int32 nValue = 0; ScCellRangesBase* pUnoRangesBase = getCellRangesBase(); ScRangeList aCellRanges = pUnoRangesBase->GetRangeList(); ScRange aRange = *aCellRanges.front(); if( aIndex >>= nValue ) { aRange.aStart.SetRow( aRange.aStart.Row() + --nValue ); aRange.aEnd.SetRow( aRange.aStart.Row() ); } else if ( aIndex >>= sAddress ) { ScAddress::Details dDetails( formula::FormulaGrammar::CONV_XL_A1, 0, 0 ); ScRange tmpRange; tmpRange.ParseRows( sAddress, &getDocumentFromRange( mxRange ), dDetails ); SCROW nStartRow = tmpRange.aStart.Row(); SCROW nEndRow = tmpRange.aEnd.Row(); aRange.aStart.SetRow( aRange.aStart.Row() + nStartRow ); aRange.aEnd.SetRow( aRange.aStart.Row() + ( nEndRow - nStartRow )); } else throw uno::RuntimeException("Illegal param" ); if ( aRange.aStart.Row() < 0 || aRange.aEnd.Row() < 0 ) throw uno::RuntimeException("Internal failure, illegal param" ); // return a normal range ( even for multi-selection uno::Reference< table::XCellRange > xRange( new ScCellRangeObj( pUnoRangesBase->GetDocShell(), aRange ) ); return new ScVbaRange( mxParent, mxContext, xRange, true ); } // Rows() - no params if ( m_Areas->getCount() > 1 ) return new ScVbaRange( mxParent, mxContext, mxRanges, true ); return new ScVbaRange( mxParent, mxContext, mxRange, true ); } uno::Reference< excel::XRange > ScVbaRange::Columns(const uno::Any& aIndex ) throw (uno::RuntimeException, std::exception) { OUString sAddress; ScCellRangesBase* pUnoRangesBase = getCellRangesBase(); ScRangeList aCellRanges = pUnoRangesBase->GetRangeList(); ScRange aRange = *aCellRanges.front(); if ( aIndex.hasValue() ) { sal_Int32 nValue = 0; if ( aIndex >>= nValue ) { aRange.aStart.SetCol( aRange.aStart.Col() + static_cast< SCCOL > ( --nValue ) ); aRange.aEnd.SetCol( aRange.aStart.Col() ); } else if ( aIndex >>= sAddress ) { ScAddress::Details dDetails( formula::FormulaGrammar::CONV_XL_A1, 0, 0 ); ScRange tmpRange; tmpRange.ParseCols( sAddress, &getDocumentFromRange( mxRange ), dDetails ); SCCOL nStartCol = tmpRange.aStart.Col(); SCCOL nEndCol = tmpRange.aEnd.Col(); aRange.aStart.SetCol( aRange.aStart.Col() + nStartCol ); aRange.aEnd.SetCol( aRange.aStart.Col() + ( nEndCol - nStartCol )); } else throw uno::RuntimeException("Illegal param" ); if ( aRange.aStart.Col() < 0 || aRange.aEnd.Col() < 0 ) throw uno::RuntimeException("Internal failure, illegal param" ); } // Columns() - no params uno::Reference< table::XCellRange > xRange( new ScCellRangeObj( pUnoRangesBase->GetDocShell(), aRange ) ); return new ScVbaRange( mxParent, mxContext, xRange, false, true ); } void ScVbaRange::setMergeCells( const uno::Any& aIsMerged ) throw (script::BasicErrorException, uno::RuntimeException) { bool bMerge = extractBoolFromAny( aIsMerged ); if( mxRanges.is() ) { sal_Int32 nCount = mxRanges->getCount(); // VBA does nothing (no error) if the own ranges overlap somehow ::std::vector< table::CellRangeAddress > aList; for( sal_Int32 nIndex = 0; nIndex < nCount; ++nIndex ) { uno::Reference< sheet::XCellRangeAddressable > xRangeAddr( mxRanges->getByIndex( nIndex ), uno::UNO_QUERY_THROW ); table::CellRangeAddress aAddress = xRangeAddr->getRangeAddress(); for( ::std::vector< table::CellRangeAddress >::const_iterator aIt = aList.begin(), aEnd = aList.end(); aIt != aEnd; ++aIt ) if( ScUnoConversion::Intersects( *aIt, aAddress ) ) return; aList.push_back( aAddress ); } // (un)merge every range after it has been extended to intersecting merged ranges from sheet for( sal_Int32 nIndex = 0; nIndex < nCount; ++nIndex ) { uno::Reference< table::XCellRange > xRange( mxRanges->getByIndex( nIndex ), uno::UNO_QUERY_THROW ); lclExpandAndMerge( xRange, bMerge ); } return; } // otherwise, merge single range lclExpandAndMerge( mxRange, bMerge ); } uno::Any ScVbaRange::getMergeCells() throw (script::BasicErrorException, uno::RuntimeException) { if( mxRanges.is() ) { sal_Int32 nCount = mxRanges->getCount(); for( sal_Int32 nIndex = 0; nIndex < nCount; ++nIndex ) { uno::Reference< table::XCellRange > xRange( mxRanges->getByIndex( nIndex ), uno::UNO_QUERY_THROW ); util::TriState eMerged = lclGetMergedState( xRange ); /* Excel always returns NULL, if one range of the range list is partly or completely merged. Even if all ranges are completely merged, the return value is still NULL. */ if( eMerged != util::TriState_NO ) return aNULL(); } // no range is merged anyhow, return false return uno::Any( false ); } // otherwise, check single range switch( lclGetMergedState( mxRange ) ) { case util::TriState_YES: return uno::Any( true ); case util::TriState_NO: return uno::Any( false ); default: return aNULL(); } } void ScVbaRange::Copy(const ::uno::Any& Destination) throw (uno::RuntimeException, std::exception) { if ( m_Areas->getCount() > 1 ) throw uno::RuntimeException("That command cannot be used on multiple selections" ); if ( Destination.hasValue() ) { uno::Reference< excel::XRange > xRange( Destination, uno::UNO_QUERY_THROW ); uno::Any aRange = xRange->getCellRange(); uno::Reference< table::XCellRange > xCellRange; aRange >>= xCellRange; uno::Reference< sheet::XSheetCellRange > xSheetCellRange(xCellRange, ::uno::UNO_QUERY_THROW); uno::Reference< sheet::XSpreadsheet > xSheet = xSheetCellRange->getSpreadsheet(); uno::Reference< table::XCellRange > xDest( xSheet, uno::UNO_QUERY_THROW ); uno::Reference< sheet::XCellRangeMovement > xMover( xSheet, uno::UNO_QUERY_THROW); uno::Reference< sheet::XCellAddressable > xDestination( xDest->getCellByPosition( xRange->getColumn()-1,xRange->getRow()-1), uno::UNO_QUERY_THROW ); uno::Reference< sheet::XCellRangeAddressable > xSource( mxRange, uno::UNO_QUERY); xMover->copyRange( xDestination->getCellAddress(), xSource->getRangeAddress() ); if ( ScVbaRange* pRange = getImplementation( xRange ) ) pRange->fireChangeEvent(); } else { uno::Reference< frame::XModel > xModel = getModelFromRange( mxRange ); Select(); excel::implnCopy( xModel ); } } void ScVbaRange::Cut(const ::uno::Any& Destination) throw (uno::RuntimeException, std::exception) { if ( m_Areas->getCount() > 1 ) throw uno::RuntimeException("That command cannot be used on multiple selections" ); if (Destination.hasValue()) { uno::Reference< excel::XRange > xRange( Destination, uno::UNO_QUERY_THROW ); uno::Reference< table::XCellRange > xCellRange( xRange->getCellRange(), uno::UNO_QUERY_THROW ); uno::Reference< sheet::XSheetCellRange > xSheetCellRange(xCellRange, ::uno::UNO_QUERY_THROW ); uno::Reference< sheet::XSpreadsheet > xSheet = xSheetCellRange->getSpreadsheet(); uno::Reference< table::XCellRange > xDest( xSheet, uno::UNO_QUERY_THROW ); uno::Reference< sheet::XCellRangeMovement > xMover( xSheet, uno::UNO_QUERY_THROW); uno::Reference< sheet::XCellAddressable > xDestination( xDest->getCellByPosition( xRange->getColumn()-1,xRange->getRow()-1), uno::UNO_QUERY); uno::Reference< sheet::XCellRangeAddressable > xSource( mxRange, uno::UNO_QUERY); xMover->moveRange( xDestination->getCellAddress(), xSource->getRangeAddress() ); } else { uno::Reference< frame::XModel > xModel = getModelFromRange( mxRange ); Select(); excel::implnCut( xModel ); } } void ScVbaRange::setNumberFormat( const uno::Any& aFormat ) throw ( script::BasicErrorException, uno::RuntimeException) { OUString sFormat; aFormat >>= sFormat; if ( m_Areas->getCount() > 1 ) { sal_Int32 nItems = m_Areas->getCount(); for ( sal_Int32 index=1; index <= nItems; ++index ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny(index), uno::Any() ), uno::UNO_QUERY_THROW ); xRange->setNumberFormat( aFormat ); } return; } NumFormatHelper numFormat( mxRange ); numFormat.setNumberFormat( sFormat ); } uno::Any ScVbaRange::getNumberFormat() throw ( script::BasicErrorException, uno::RuntimeException) { if ( m_Areas->getCount() > 1 ) { sal_Int32 nItems = m_Areas->getCount(); uno::Any aResult = aNULL(); for ( sal_Int32 index=1; index <= nItems; ++index ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny(index), uno::Any() ), uno::UNO_QUERY_THROW ); // if the numberformat of one area is different to another // return null if ( index > 1 ) if ( aResult != xRange->getNumberFormat() ) return aNULL(); aResult = xRange->getNumberFormat(); if ( aNULL() == aResult ) return aNULL(); } return aResult; } NumFormatHelper numFormat( mxRange ); OUString sFormat = numFormat.getNumberFormatString(); if ( !sFormat.isEmpty() ) return uno::makeAny( sFormat ); return aNULL(); } uno::Reference< excel::XRange > ScVbaRange::Resize( const uno::Any &RowSize, const uno::Any &ColumnSize ) throw (uno::RuntimeException, std::exception) { long nRowSize = 0, nColumnSize = 0; bool bIsRowChanged = ( RowSize >>= nRowSize ), bIsColumnChanged = ( ColumnSize >>= nColumnSize ); uno::Reference< table::XColumnRowRange > xColumnRowRange(mxRange, ::uno::UNO_QUERY_THROW); uno::Reference< sheet::XSheetCellRange > xSheetRange(mxRange, ::uno::UNO_QUERY_THROW); uno::Reference< sheet::XSheetCellCursor > xCursor( xSheetRange->getSpreadsheet()->createCursorByRange(xSheetRange), ::uno::UNO_QUERY_THROW ); if( !bIsRowChanged ) nRowSize = xColumnRowRange->getRows()->getCount(); if( !bIsColumnChanged ) nColumnSize = xColumnRowRange->getColumns()->getCount(); xCursor->collapseToSize( nColumnSize, nRowSize ); uno::Reference< sheet::XCellRangeAddressable > xCellRangeAddressable(xCursor, ::uno::UNO_QUERY_THROW ); uno::Reference< table::XCellRange > xRange( xSheetRange->getSpreadsheet(), ::uno::UNO_QUERY_THROW ); return new ScVbaRange( mxParent, mxContext,xRange->getCellRangeByPosition( xCellRangeAddressable->getRangeAddress().StartColumn, xCellRangeAddressable->getRangeAddress().StartRow, xCellRangeAddressable->getRangeAddress().EndColumn, xCellRangeAddressable->getRangeAddress().EndRow ) ); } void ScVbaRange::setWrapText( const uno::Any& aIsWrapped ) throw (script::BasicErrorException, uno::RuntimeException) { if ( m_Areas->getCount() > 1 ) { sal_Int32 nItems = m_Areas->getCount(); for ( sal_Int32 index=1; index <= nItems; ++index ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny(index), uno::Any() ), uno::UNO_QUERY_THROW ); xRange->setWrapText( aIsWrapped ); } return; } uno::Reference< beans::XPropertySet > xProps(mxRange, ::uno::UNO_QUERY_THROW ); bool bIsWrapped = extractBoolFromAny( aIsWrapped ); xProps->setPropertyValue( "IsTextWrapped", uno::Any( bIsWrapped ) ); } uno::Any ScVbaRange::getWrapText() throw (script::BasicErrorException, uno::RuntimeException) { if ( m_Areas->getCount() > 1 ) { sal_Int32 nItems = m_Areas->getCount(); uno::Any aResult; for ( sal_Int32 index=1; index <= nItems; ++index ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny(index), uno::Any() ), uno::UNO_QUERY_THROW ); if ( index > 1 ) if ( aResult != xRange->getWrapText() ) return aNULL(); aResult = xRange->getWrapText(); } return aResult; } SfxItemSet* pDataSet = getCurrentDataSet(); SfxItemState eState = pDataSet->GetItemState( ATTR_LINEBREAK, true, NULL); if ( eState == SfxItemState::DONTCARE ) return aNULL(); uno::Reference< beans::XPropertySet > xProps(mxRange, ::uno::UNO_QUERY_THROW ); uno::Any aValue = xProps->getPropertyValue( "IsTextWrapped" ); return aValue; } uno::Reference< excel::XInterior > ScVbaRange::Interior( ) throw ( script::BasicErrorException, uno::RuntimeException) { uno::Reference< beans::XPropertySet > xProps( mxRange, uno::UNO_QUERY_THROW ); return new ScVbaInterior ( this, mxContext, xProps, &getScDocument() ); } uno::Reference< excel::XRange > ScVbaRange::Range( const uno::Any &Cell1, const uno::Any &Cell2 ) throw (uno::RuntimeException, std::exception) { return Range( Cell1, Cell2, false ); } uno::Reference< excel::XRange > ScVbaRange::Range( const uno::Any &Cell1, const uno::Any &Cell2, bool bForceUseInpuRangeTab ) throw (uno::RuntimeException) { uno::Reference< table::XCellRange > xCellRange = mxRange; if ( m_Areas->getCount() > 1 ) { uno::Reference< container::XIndexAccess > xIndex( mxRanges, uno::UNO_QUERY_THROW ); xCellRange.set( xIndex->getByIndex( 0 ), uno::UNO_QUERY_THROW ); } else xCellRange.set( mxRange ); RangeHelper thisRange( xCellRange ); uno::Reference< table::XCellRange > xRanges = thisRange.getCellRangeFromSheet(); uno::Reference< sheet::XCellRangeAddressable > xAddressable( xRanges, uno::UNO_QUERY_THROW ); uno::Reference< table::XCellRange > xReferrer = xRanges->getCellRangeByPosition( getColumn()-1, getRow()-1, xAddressable->getRangeAddress().EndColumn, xAddressable->getRangeAddress().EndRow ); // xAddressable now for this range xAddressable.set( xReferrer, uno::UNO_QUERY_THROW ); if( !Cell1.hasValue() ) throw uno::RuntimeException( "Invalid Argument" ); table::CellRangeAddress resultAddress; table::CellRangeAddress parentRangeAddress = xAddressable->getRangeAddress(); ScRange aRange; // Cell1 defined only if ( !Cell2.hasValue() ) { OUString sName; Cell1 >>= sName; RangeHelper referRange( xReferrer ); table::CellRangeAddress referAddress = referRange.getCellRangeAddressable()->getRangeAddress(); return getRangeForName( mxContext, sName, getScDocShell(), referAddress ); } else { table::CellRangeAddress cell1, cell2; cell1 = getCellRangeAddressForVBARange( Cell1, getScDocShell() ); // Cell1 & Cell2 defined // Excel seems to combine the range as the range defined by // the combination of Cell1 & Cell2 cell2 = getCellRangeAddressForVBARange( Cell2, getScDocShell() ); resultAddress.StartColumn = ( cell1.StartColumn < cell2.StartColumn ) ? cell1.StartColumn : cell2.StartColumn; resultAddress.StartRow = ( cell1.StartRow < cell2.StartRow ) ? cell1.StartRow : cell2.StartRow; resultAddress.EndColumn = ( cell1.EndColumn > cell2.EndColumn ) ? cell1.EndColumn : cell2.EndColumn; resultAddress.EndRow = ( cell1.EndRow > cell2.EndRow ) ? cell1.EndRow : cell2.EndRow; if ( bForceUseInpuRangeTab ) { // this is a call from Application.Range( x,y ) // its possiblefor x or y to specify a different sheet from // the current or active on ( but they must be the same ) if ( cell1.Sheet != cell2.Sheet ) throw uno::RuntimeException(); parentRangeAddress.Sheet = cell1.Sheet; } else { // this is not a call from Application.Range( x,y ) // if a different sheet from this range is specified it's // an error if ( parentRangeAddress.Sheet != cell1.Sheet || parentRangeAddress.Sheet != cell2.Sheet ) throw uno::RuntimeException(); } ScUnoConversion::FillScRange( aRange, resultAddress ); } ScRange parentAddress; ScUnoConversion::FillScRange( parentAddress, parentRangeAddress); if ( aRange.aStart.Col() >= 0 && aRange.aStart.Row() >= 0 && aRange.aEnd.Col() >= 0 && aRange.aEnd.Row() >= 0 ) { sal_Int32 nStartX = parentAddress.aStart.Col() + aRange.aStart.Col(); sal_Int32 nStartY = parentAddress.aStart.Row() + aRange.aStart.Row(); sal_Int32 nEndX = parentAddress.aStart.Col() + aRange.aEnd.Col(); sal_Int32 nEndY = parentAddress.aStart.Row() + aRange.aEnd.Row(); if ( nStartX <= nEndX && nEndX <= parentAddress.aEnd.Col() && nStartY <= nEndY && nEndY <= parentAddress.aEnd.Row() ) { ScRange aNew( (SCCOL)nStartX, (SCROW)nStartY, parentAddress.aStart.Tab(), (SCCOL)nEndX, (SCROW)nEndY, parentAddress.aEnd.Tab() ); xCellRange = new ScCellRangeObj( getScDocShell(), aNew ); } } return new ScVbaRange( mxParent, mxContext, xCellRange ); } // Allow access to underlying openoffice uno api ( useful for debugging // with openoffice basic ) uno::Any SAL_CALL ScVbaRange::getCellRange( ) throw (uno::RuntimeException, std::exception) { uno::Any aAny; if ( mxRanges.is() ) aAny <<= mxRanges; else if ( mxRange.is() ) aAny <<= mxRange; return aAny; } uno::Any ScVbaRange::getCellRange( const uno::Reference< excel::XRange >& rxRange ) throw (uno::RuntimeException) { if( ScVbaRange* pVbaRange = getImplementation( rxRange ) ) return pVbaRange->getCellRange(); throw uno::RuntimeException(); } static InsertDeleteFlags getPasteFlags (sal_Int32 Paste) { InsertDeleteFlags nFlags = IDF_NONE; switch (Paste) { case excel::XlPasteType::xlPasteComments: nFlags = IDF_NOTE;break; case excel::XlPasteType::xlPasteFormats: nFlags = IDF_ATTRIB;break; case excel::XlPasteType::xlPasteFormulas: nFlags = IDF_FORMULA;break; case excel::XlPasteType::xlPasteFormulasAndNumberFormats : case excel::XlPasteType::xlPasteValues: nFlags = ( IDF_VALUE | IDF_DATETIME | IDF_STRING | IDF_SPECIAL_BOOLEAN ); break; case excel::XlPasteType::xlPasteValuesAndNumberFormats: nFlags = IDF_VALUE | IDF_ATTRIB; break; case excel::XlPasteType::xlPasteColumnWidths: case excel::XlPasteType::xlPasteValidation: nFlags = IDF_NONE;break; case excel::XlPasteType::xlPasteAll: case excel::XlPasteType::xlPasteAllExceptBorders: default: nFlags = IDF_ALL;break; } return nFlags; } static sal_uInt16 getPasteFormulaBits( sal_Int32 Operation) { sal_uInt16 nFormulaBits = PASTE_NOFUNC ; switch (Operation) { case excel::XlPasteSpecialOperation::xlPasteSpecialOperationAdd: nFormulaBits = PASTE_ADD;break; case excel::XlPasteSpecialOperation::xlPasteSpecialOperationSubtract: nFormulaBits = PASTE_SUB;break; case excel::XlPasteSpecialOperation::xlPasteSpecialOperationMultiply: nFormulaBits = PASTE_MUL;break; case excel::XlPasteSpecialOperation::xlPasteSpecialOperationDivide: nFormulaBits = PASTE_DIV;break; case excel::XlPasteSpecialOperation::xlPasteSpecialOperationNone: default: nFormulaBits = PASTE_NOFUNC; break; } return nFormulaBits; } void SAL_CALL ScVbaRange::PasteSpecial( const uno::Any& Paste, const uno::Any& Operation, const uno::Any& SkipBlanks, const uno::Any& Transpose ) throw (::com::sun::star::uno::RuntimeException, std::exception) { if ( m_Areas->getCount() > 1 ) throw uno::RuntimeException("That command cannot be used on multiple selections" ); ScDocShell* pShell = getScDocShell(); if (!pShell) throw uno::RuntimeException("That command cannot be used with no ScDocShell" ); uno::Reference< frame::XModel > xModel(pShell->GetModel(), uno::UNO_QUERY_THROW); uno::Reference< view::XSelectionSupplier > xSelection( xModel->getCurrentController(), uno::UNO_QUERY_THROW ); // select this range xSelection->select( uno::makeAny( mxRange ) ); // set up defaults sal_Int32 nPaste = excel::XlPasteType::xlPasteAll; sal_Int32 nOperation = excel::XlPasteSpecialOperation::xlPasteSpecialOperationNone; bool bTranspose = false; bool bSkipBlanks = false; if ( Paste.hasValue() ) Paste >>= nPaste; if ( Operation.hasValue() ) Operation >>= nOperation; if ( SkipBlanks.hasValue() ) SkipBlanks >>= bSkipBlanks; if ( Transpose.hasValue() ) Transpose >>= bTranspose; InsertDeleteFlags nFlags = getPasteFlags(nPaste); sal_uInt16 nFormulaBits = getPasteFormulaBits(nOperation); excel::implnPasteSpecial(pShell->GetModel(), nFlags,nFormulaBits,bSkipBlanks,bTranspose); } uno::Reference< excel::XRange > ScVbaRange::getEntireColumnOrRow( bool bColumn ) throw (uno::RuntimeException) { ScCellRangesBase* pUnoRangesBase = getCellRangesBase(); // copy the range list ScRangeList aCellRanges = pUnoRangesBase->GetRangeList(); for ( size_t i = 0, nRanges = aCellRanges.size(); i < nRanges; ++i ) { ScRange* pRange = aCellRanges[ i ]; if ( bColumn ) { pRange->aStart.SetRow( 0 ); pRange->aEnd.SetRow( MAXROW ); } else { pRange->aStart.SetCol( 0 ); pRange->aEnd.SetCol( MAXCOL ); } } if ( aCellRanges.size() > 1 ) // Multi-Area { uno::Reference< sheet::XSheetCellRangeContainer > xRanges( new ScCellRangesObj( pUnoRangesBase->GetDocShell(), aCellRanges ) ); return new ScVbaRange( mxParent, mxContext, xRanges, !bColumn, bColumn ); } uno::Reference< table::XCellRange > xRange( new ScCellRangeObj( pUnoRangesBase->GetDocShell(), *aCellRanges.front() ) ); return new ScVbaRange( mxParent, mxContext, xRange, !bColumn, bColumn ); } uno::Reference< excel::XRange > SAL_CALL ScVbaRange::getEntireRow() throw (uno::RuntimeException, std::exception) { return getEntireColumnOrRow(false); } uno::Reference< excel::XRange > SAL_CALL ScVbaRange::getEntireColumn() throw (uno::RuntimeException, std::exception) { return getEntireColumnOrRow(); } uno::Reference< excel::XComment > SAL_CALL ScVbaRange::AddComment( const uno::Any& Text ) throw (uno::RuntimeException, std::exception) { // if there is already a comment in the top-left cell then throw if( getComment().is() ) throw uno::RuntimeException(); // workaround: Excel allows to create empty comment, Calc does not OUString aNoteText; if( Text.hasValue() && !(Text >>= aNoteText) ) throw uno::RuntimeException(); if( aNoteText.isEmpty() ) aNoteText = " "; // try to create a new annotation table::CellRangeAddress aRangePos = lclGetRangeAddress( mxRange ); table::CellAddress aNotePos( aRangePos.Sheet, aRangePos.StartColumn, aRangePos.StartRow ); uno::Reference< sheet::XSheetCellRange > xCellRange( mxRange, uno::UNO_QUERY_THROW ); uno::Reference< sheet::XSheetAnnotationsSupplier > xAnnosSupp( xCellRange->getSpreadsheet(), uno::UNO_QUERY_THROW ); uno::Reference< sheet::XSheetAnnotations > xAnnos( xAnnosSupp->getAnnotations(), uno::UNO_SET_THROW ); xAnnos->insertNew( aNotePos, aNoteText ); return new ScVbaComment( this, mxContext, getUnoModel(), mxRange ); } uno::Reference< excel::XComment > SAL_CALL ScVbaRange::getComment() throw (uno::RuntimeException, std::exception) { // intentional behavior to return a null object if no // comment defined uno::Reference< excel::XComment > xComment( new ScVbaComment( this, mxContext, getUnoModel(), mxRange ) ); if ( xComment->Text( uno::Any(), uno::Any(), uno::Any() ).isEmpty() ) return NULL; return xComment; } uno::Reference< beans::XPropertySet > getRowOrColumnProps( const uno::Reference< table::XCellRange >& xCellRange, bool bRows ) throw ( uno::RuntimeException ) { uno::Reference< table::XColumnRowRange > xColRow( xCellRange, uno::UNO_QUERY_THROW ); uno::Reference< beans::XPropertySet > xProps; if ( bRows ) xProps.set( xColRow->getRows(), uno::UNO_QUERY_THROW ); else xProps.set( xColRow->getColumns(), uno::UNO_QUERY_THROW ); return xProps; } uno::Any SAL_CALL ScVbaRange::getHidden() throw (uno::RuntimeException, std::exception) { // if multi-area result is the result of the // first area if ( m_Areas->getCount() > 1 ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny(sal_Int32(1)), uno::Any() ), uno::UNO_QUERY_THROW ); return xRange->getHidden(); } bool bIsVisible = false; try { uno::Reference< beans::XPropertySet > xProps = getRowOrColumnProps( mxRange, mbIsRows ); if ( !( xProps->getPropertyValue( ISVISIBLE ) >>= bIsVisible ) ) throw uno::RuntimeException("Failed to get IsVisible property" ); } catch( const uno::Exception& e ) { throw uno::RuntimeException( e.Message ); } return uno::makeAny( !bIsVisible ); } void SAL_CALL ScVbaRange::setHidden( const uno::Any& _hidden ) throw (uno::RuntimeException, std::exception) { if ( m_Areas->getCount() > 1 ) { sal_Int32 nItems = m_Areas->getCount(); for ( sal_Int32 index=1; index <= nItems; ++index ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny(index), uno::Any() ), uno::UNO_QUERY_THROW ); xRange->setHidden( _hidden ); } return; } bool bHidden = extractBoolFromAny( _hidden ); try { uno::Reference< beans::XPropertySet > xProps = getRowOrColumnProps( mxRange, mbIsRows ); xProps->setPropertyValue( ISVISIBLE, uno::Any( !bHidden ) ); } catch( const uno::Exception& e ) { throw uno::RuntimeException( e.Message ); } } sal_Bool SAL_CALL ScVbaRange::Replace( const OUString& What, const OUString& Replacement, const uno::Any& LookAt, const uno::Any& SearchOrder, const uno::Any& MatchCase, const uno::Any& MatchByte, const uno::Any& SearchFormat, const uno::Any& ReplaceFormat ) throw (uno::RuntimeException, std::exception) { if ( m_Areas->getCount() > 1 ) { for ( sal_Int32 index = 1; index <= m_Areas->getCount(); ++index ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny( index ), uno::Any() ), uno::UNO_QUERY_THROW ); xRange->Replace( What, Replacement, LookAt, SearchOrder, MatchCase, MatchByte, SearchFormat, ReplaceFormat ); } return sal_True; // seems to return true always ( or at least I haven't found the trick of } // sanity check required params if ( What.isEmpty() ) throw uno::RuntimeException("Range::Replace, missing params" ); OUString sWhat = VBAToRegexp( What); // #TODO #FIXME SearchFormat & ReplacesFormat are not processed // What do we do about MatchByte.. we don't seem to support that const SvxSearchItem& globalSearchOptions = ScGlobal::GetSearchItem(); SvxSearchItem newOptions( globalSearchOptions ); sal_Int16 nLook = globalSearchOptions.GetWordOnly() ? excel::XlLookAt::xlPart : excel::XlLookAt::xlWhole; sal_Int16 nSearchOrder = globalSearchOptions.GetRowDirection() ? excel::XlSearchOrder::xlByRows : excel::XlSearchOrder::xlByColumns; uno::Reference< util::XReplaceable > xReplace( mxRange, uno::UNO_QUERY ); if ( xReplace.is() ) { uno::Reference< util::XReplaceDescriptor > xDescriptor = xReplace->createReplaceDescriptor(); xDescriptor->setSearchString( sWhat); xDescriptor->setPropertyValue( SC_UNO_SRCHREGEXP, uno::makeAny( sal_True ) ); xDescriptor->setReplaceString( Replacement); if ( LookAt.hasValue() ) { // sets SearchWords ( true is Cell match ) nLook = ::comphelper::getINT16( LookAt ); bool bSearchWords = false; if ( nLook == excel::XlLookAt::xlPart ) bSearchWords = false; else if ( nLook == excel::XlLookAt::xlWhole ) bSearchWords = true; else throw uno::RuntimeException("Range::Replace, illegal value for LookAt" ); // set global search props ( affects the find dialog // and of course the defaults for this method newOptions.SetWordOnly( bSearchWords ); xDescriptor->setPropertyValue( SC_UNO_SRCHWORDS, uno::makeAny( bSearchWords ) ); } // sets SearchByRow ( true for Rows ) if ( SearchOrder.hasValue() ) { nSearchOrder = ::comphelper::getINT16( SearchOrder ); bool bSearchByRow = false; if ( nSearchOrder == excel::XlSearchOrder::xlByColumns ) bSearchByRow = false; else if ( nSearchOrder == excel::XlSearchOrder::xlByRows ) bSearchByRow = true; else throw uno::RuntimeException("Range::Replace, illegal value for SearchOrder" ); newOptions.SetRowDirection( bSearchByRow ); xDescriptor->setPropertyValue( SC_UNO_SRCHBYROW, uno::makeAny( bSearchByRow ) ); } if ( MatchCase.hasValue() ) { bool bMatchCase = false; // SearchCaseSensitive MatchCase >>= bMatchCase; xDescriptor->setPropertyValue( SC_UNO_SRCHCASE, uno::makeAny( bMatchCase ) ); } ScGlobal::SetSearchItem( newOptions ); // ignore MatchByte for the moment, its not supported in // OOo.org afaik uno::Reference< util::XSearchDescriptor > xSearch( xDescriptor, uno::UNO_QUERY ); uno::Reference< container::XIndexAccess > xIndexAccess = xReplace->findAll( xSearch ); xReplace->replaceAll( xSearch ); if ( xIndexAccess.is() && xIndexAccess->getCount() > 0 ) { for ( sal_Int32 i = 0; i < xIndexAccess->getCount(); ++i ) { uno::Reference< table::XCellRange > xCellRange( xIndexAccess->getByIndex( i ), uno::UNO_QUERY ); if ( xCellRange.is() ) { uno::Reference< excel::XRange > xRange( new ScVbaRange( mxParent, mxContext, xCellRange ) ); uno::Reference< container::XEnumerationAccess > xEnumAccess( xRange, uno::UNO_QUERY_THROW ); uno::Reference< container::XEnumeration > xEnum = xEnumAccess->createEnumeration(); while ( xEnum->hasMoreElements() ) { uno::Reference< excel::XRange > xNextRange( xEnum->nextElement(), uno::UNO_QUERY_THROW ); ScVbaRange* pRange = dynamic_cast< ScVbaRange * > ( xNextRange.get() ); if ( pRange ) pRange->fireChangeEvent(); } } } } } return sal_True; // always } uno::Reference< excel::XRange > SAL_CALL ScVbaRange::Find( const uno::Any& What, const uno::Any& After, const uno::Any& LookIn, const uno::Any& LookAt, const uno::Any& SearchOrder, const uno::Any& SearchDirection, const uno::Any& MatchCase, const uno::Any& /*MatchByte*/, const uno::Any& /*SearchFormat*/ ) throw (uno::RuntimeException, std::exception) { // return a Range object that represents the first cell where that information is found. OUString sWhat; sal_Int32 nWhat = 0; double fWhat = 0.0; // string. if( What >>= sWhat ) { if( sWhat.isEmpty() ) throw uno::RuntimeException("Range::Find, missing params" ); } else if( What >>= nWhat ) { sWhat = OUString::number( nWhat ); } else if( What >>= fWhat ) { sWhat = OUString::number( fWhat ); } else throw uno::RuntimeException("Range::Find, missing params" ); OUString sSearch = VBAToRegexp( sWhat ); const SvxSearchItem& globalSearchOptions = ScGlobal::GetSearchItem(); SvxSearchItem newOptions( globalSearchOptions ); sal_Int16 nSearchOrder = globalSearchOptions.GetRowDirection() ? excel::XlSearchOrder::xlByRows : excel::XlSearchOrder::xlByColumns; uno::Reference< util::XSearchable > xSearch( mxRange, uno::UNO_QUERY ); if( xSearch.is() ) { uno::Reference< util::XSearchDescriptor > xDescriptor = xSearch->createSearchDescriptor(); xDescriptor->setSearchString( sSearch ); xDescriptor->setPropertyValue( SC_UNO_SRCHREGEXP, uno::Any( true ) ); uno::Reference< excel::XRange > xAfterRange; uno::Reference< table::XCellRange > xStartCell; if( After >>= xAfterRange ) { // After must be a single cell in the range if( xAfterRange->getCount() > 1 ) throw uno::RuntimeException("After must be a single cell." ); uno::Reference< excel::XRange > xCell( Cells( uno::makeAny( xAfterRange->getRow() ), uno::makeAny( xAfterRange->getColumn() ) ), uno::UNO_QUERY ); if( !xCell.is() ) throw uno::RuntimeException("After must be in range." ); xStartCell.set( xAfterRange->getCellRange(), uno::UNO_QUERY_THROW ); } // LookIn if( LookIn.hasValue() ) { sal_Int32 nLookIn = 0; if( LookIn >>= nLookIn ) { SvxSearchCellType nSearchType; switch( nLookIn ) { case excel::XlFindLookIn::xlComments : nSearchType = SvxSearchCellType::NOTE; // Notes break; case excel::XlFindLookIn::xlFormulas : nSearchType = SvxSearchCellType::FORMULA; break; case excel::XlFindLookIn::xlValues : nSearchType = SvxSearchCellType::VALUE; break; default: throw uno::RuntimeException("Range::Replace, illegal value for LookIn." ); } newOptions.SetCellType( nSearchType ); xDescriptor->setPropertyValue( "SearchType", uno::makeAny( static_cast(nSearchType) ) ); } } // LookAt if ( LookAt.hasValue() ) { sal_Int16 nLookAt = ::comphelper::getINT16( LookAt ); bool bSearchWords = false; if ( nLookAt == excel::XlLookAt::xlPart ) bSearchWords = false; else if ( nLookAt == excel::XlLookAt::xlWhole ) bSearchWords = true; else throw uno::RuntimeException("Range::Replace, illegal value for LookAt" ); newOptions.SetWordOnly( bSearchWords ); xDescriptor->setPropertyValue( SC_UNO_SRCHWORDS, uno::makeAny( bSearchWords ) ); } // SearchOrder if ( SearchOrder.hasValue() ) { nSearchOrder = ::comphelper::getINT16( SearchOrder ); bool bSearchByRow = false; if ( nSearchOrder == excel::XlSearchOrder::xlByColumns ) bSearchByRow = false; else if ( nSearchOrder == excel::XlSearchOrder::xlByRows ) bSearchByRow = true; else throw uno::RuntimeException("Range::Replace, illegal value for SearchOrder" ); newOptions.SetRowDirection( bSearchByRow ); xDescriptor->setPropertyValue( SC_UNO_SRCHBYROW, uno::makeAny( bSearchByRow ) ); } // SearchDirection if ( SearchDirection.hasValue() ) { sal_Int32 nSearchDirection = 0; if( SearchDirection >>= nSearchDirection ) { bool bSearchBackwards = false; if ( nSearchDirection == excel::XlSearchDirection::xlNext ) bSearchBackwards = false; else if( nSearchDirection == excel::XlSearchDirection::xlPrevious ) bSearchBackwards = true; else throw uno::RuntimeException("Range::Replace, illegal value for SearchDirection" ); newOptions.SetBackward( bSearchBackwards ); xDescriptor->setPropertyValue( "SearchBackwards", uno::makeAny( bSearchBackwards ) ); } } // MatchCase bool bMatchCase = false; if ( MatchCase.hasValue() ) { // SearchCaseSensitive if( !( MatchCase >>= bMatchCase ) ) throw uno::RuntimeException("Range::Replace, illegal value for MatchCase" ); } xDescriptor->setPropertyValue( SC_UNO_SRCHCASE, uno::makeAny( bMatchCase ) ); // MatchByte // SearchFormat // ignore ScGlobal::SetSearchItem( newOptions ); uno::Reference< uno::XInterface > xInterface = xStartCell.is() ? xSearch->findNext( xStartCell, xDescriptor) : xSearch->findFirst( xDescriptor ); uno::Reference< table::XCellRange > xCellRange( xInterface, uno::UNO_QUERY ); // if we are searching from a starting cell and failed to find a match // then try from the beginning if ( !xCellRange.is() && xStartCell.is() ) { xInterface = xSearch->findFirst( xDescriptor ); xCellRange.set( xInterface, uno::UNO_QUERY ); } if ( xCellRange.is() ) { uno::Reference< excel::XRange > xResultRange = new ScVbaRange( mxParent, mxContext, xCellRange ); if( xResultRange.is() ) { return xResultRange; } } } return uno::Reference< excel::XRange >(); } uno::Reference< table::XCellRange > processKey( const uno::Any& Key, uno::Reference< uno::XComponentContext >& xContext, ScDocShell* pDocSh ) { uno::Reference< excel::XRange > xKeyRange; if ( Key.getValueType() == cppu::UnoType::get() ) { xKeyRange.set( Key, uno::UNO_QUERY_THROW ); } else if ( Key.getValueType() == ::cppu::UnoType::get() ) { OUString sRangeName = ::comphelper::getString( Key ); table::CellRangeAddress aRefAddr; if ( !pDocSh ) throw uno::RuntimeException("Range::Sort no docshell to calculate key param" ); xKeyRange = getRangeForName( xContext, sRangeName, pDocSh, aRefAddr ); } else throw uno::RuntimeException("Range::Sort illegal type value for key param" ); uno::Reference< table::XCellRange > xKey; xKey.set( xKeyRange->getCellRange(), uno::UNO_QUERY_THROW ); return xKey; } // helper method for Sort sal_Int32 findSortPropertyIndex( const uno::Sequence< beans::PropertyValue >& props, const OUString& sPropName ) throw( uno::RuntimeException ) { const beans::PropertyValue* pProp = props.getConstArray(); sal_Int32 nItems = props.getLength(); sal_Int32 count=0; for ( ; count < nItems; ++count, ++pProp ) if ( pProp->Name.equals( sPropName ) ) return count; if ( count == nItems ) throw uno::RuntimeException("Range::Sort unknown sort property" ); return -1; //should never reach here ( satisfy compiler ) } // helper method for Sort void updateTableSortField( const uno::Reference< table::XCellRange >& xParentRange, const uno::Reference< table::XCellRange >& xColRowKey, sal_Int16 nOrder, table::TableSortField& aTableField, bool bIsSortColumn, bool bMatchCase ) throw ( uno::RuntimeException ) { RangeHelper parentRange( xParentRange ); RangeHelper colRowRange( xColRowKey ); table::CellRangeAddress parentRangeAddress = parentRange.getCellRangeAddressable()->getRangeAddress(); table::CellRangeAddress colRowKeyAddress = colRowRange.getCellRangeAddressable()->getRangeAddress(); // make sure that upper left poing of key range is within the // parent range if ( ( !bIsSortColumn && colRowKeyAddress.StartColumn >= parentRangeAddress.StartColumn && colRowKeyAddress.StartColumn <= parentRangeAddress.EndColumn ) || ( bIsSortColumn && colRowKeyAddress.StartRow >= parentRangeAddress.StartRow && colRowKeyAddress.StartRow <= parentRangeAddress.EndRow ) ) { //determine col/row index if ( bIsSortColumn ) aTableField.Field = colRowKeyAddress.StartRow - parentRangeAddress.StartRow; else aTableField.Field = colRowKeyAddress.StartColumn - parentRangeAddress.StartColumn; aTableField.IsCaseSensitive = bMatchCase; if ( nOrder == excel::XlSortOrder::xlAscending ) aTableField.IsAscending = sal_True; else aTableField.IsAscending = false; } else throw uno::RuntimeException("Illegal Key param" ); } void SAL_CALL ScVbaRange::Sort( const uno::Any& Key1, const uno::Any& Order1, const uno::Any& Key2, const uno::Any& /*Type*/, const uno::Any& Order2, const uno::Any& Key3, const uno::Any& Order3, const uno::Any& Header, const uno::Any& OrderCustom, const uno::Any& MatchCase, const uno::Any& Orientation, const uno::Any& SortMethod, const uno::Any& DataOption1, const uno::Any& DataOption2, const uno::Any& DataOption3 ) throw (uno::RuntimeException, std::exception) { // #TODO# #FIXME# can we do something with Type if ( m_Areas->getCount() > 1 ) throw uno::RuntimeException("That command cannot be used on multiple selections" ); sal_Int16 nDataOption1 = excel::XlSortDataOption::xlSortNormal; sal_Int16 nDataOption2 = excel::XlSortDataOption::xlSortNormal; sal_Int16 nDataOption3 = excel::XlSortDataOption::xlSortNormal; ScDocument& rDoc = getScDocument(); RangeHelper thisRange( mxRange ); table::CellRangeAddress thisRangeAddress = thisRange.getCellRangeAddressable()->getRangeAddress(); ScSortParam aSortParam; SCTAB nTab = thisRangeAddress.Sheet; rDoc.GetSortParam( aSortParam, nTab ); if ( DataOption1.hasValue() ) DataOption1 >>= nDataOption1; if ( DataOption2.hasValue() ) DataOption2 >>= nDataOption2; if ( DataOption3.hasValue() ) DataOption3 >>= nDataOption3; // 1) #TODO #FIXME need to process DataOption[1..3] not used currently // 2) #TODO #FIXME need to refactor this ( below ) into a IsSingleCell() method uno::Reference< table::XColumnRowRange > xColumnRowRange(mxRange, uno::UNO_QUERY_THROW ); // set up defaults sal_Int16 nOrder1 = aSortParam.maKeyState[1].bAscending ? excel::XlSortOrder::xlAscending : excel::XlSortOrder::xlDescending; sal_Int16 nOrder2 = aSortParam.maKeyState[2].bAscending ? excel::XlSortOrder::xlAscending : excel::XlSortOrder::xlDescending; sal_Int16 nOrder3 = aSortParam.maKeyState[3].bAscending ? excel::XlSortOrder::xlAscending : excel::XlSortOrder::xlDescending; sal_Int16 nCustom = aSortParam.nUserIndex; sal_Int16 nSortMethod = excel::XlSortMethod::xlPinYin; bool bMatchCase = aSortParam.bCaseSens; // seems to work opposite to expected, see below sal_Int16 nOrientation = aSortParam.bByRow ? excel::XlSortOrientation::xlSortColumns : excel::XlSortOrientation::xlSortRows; if ( Orientation.hasValue() ) { // Documentation says xlSortRows is default but that doesn't appear to be // the case. Also it appears that xlSortColumns is the default which // strangely enough sorts by Row nOrientation = ::comphelper::getINT16( Orientation ); // persist new option to be next calls default if ( nOrientation == excel::XlSortOrientation::xlSortRows ) aSortParam.bByRow = false; else aSortParam.bByRow = true; } bool bIsSortColumns=false; // sort by row if ( nOrientation == excel::XlSortOrientation::xlSortRows ) bIsSortColumns = true; sal_Int16 nHeader = 0; nHeader = aSortParam.nCompatHeader; bool bContainsHeader = false; if ( Header.hasValue() ) { nHeader = ::comphelper::getINT16( Header ); aSortParam.nCompatHeader = nHeader; } if ( nHeader == excel::XlYesNoGuess::xlGuess ) { bool bHasColHeader = rDoc.HasColHeader( static_cast< SCCOL >( thisRangeAddress.StartColumn ), static_cast< SCROW >( thisRangeAddress.StartRow ), static_cast< SCCOL >( thisRangeAddress.EndColumn ), static_cast< SCROW >( thisRangeAddress.EndRow ), static_cast< SCTAB >( thisRangeAddress.Sheet )); bool bHasRowHeader = rDoc.HasRowHeader( static_cast< SCCOL >( thisRangeAddress.StartColumn ), static_cast< SCROW >( thisRangeAddress.StartRow ), static_cast< SCCOL >( thisRangeAddress.EndColumn ), static_cast< SCROW >( thisRangeAddress.EndRow ), static_cast< SCTAB >( thisRangeAddress.Sheet ) ); if ( bHasColHeader || bHasRowHeader ) nHeader = excel::XlYesNoGuess::xlYes; else nHeader = excel::XlYesNoGuess::xlNo; aSortParam.nCompatHeader = nHeader; } if ( nHeader == excel::XlYesNoGuess::xlYes ) bContainsHeader = true; if ( SortMethod.hasValue() ) { nSortMethod = ::comphelper::getINT16( SortMethod ); } if ( OrderCustom.hasValue() ) { OrderCustom >>= nCustom; --nCustom; // 0-based in OOo aSortParam.nUserIndex = nCustom; } if ( MatchCase.hasValue() ) { MatchCase >>= bMatchCase; aSortParam.bCaseSens = bMatchCase; } if ( Order1.hasValue() ) { nOrder1 = ::comphelper::getINT16(Order1); if ( nOrder1 == excel::XlSortOrder::xlAscending ) aSortParam.maKeyState[0].bAscending = true; else aSortParam.maKeyState[0].bAscending = false; } if ( Order2.hasValue() ) { nOrder2 = ::comphelper::getINT16(Order2); if ( nOrder2 == excel::XlSortOrder::xlAscending ) aSortParam.maKeyState[1].bAscending = true; else aSortParam.maKeyState[1].bAscending = false; } if ( Order3.hasValue() ) { nOrder3 = ::comphelper::getINT16(Order3); if ( nOrder3 == excel::XlSortOrder::xlAscending ) aSortParam.maKeyState[2].bAscending = true; else aSortParam.maKeyState[2].bAscending = false; } uno::Reference< table::XCellRange > xKey1; uno::Reference< table::XCellRange > xKey2; uno::Reference< table::XCellRange > xKey3; ScDocShell* pDocShell = getScDocShell(); xKey1 = processKey( Key1, mxContext, pDocShell ); if ( !xKey1.is() ) throw uno::RuntimeException("Range::Sort needs a key1 param" ); if ( Key2.hasValue() ) xKey2 = processKey( Key2, mxContext, pDocShell ); if ( Key3.hasValue() ) xKey3 = processKey( Key3, mxContext, pDocShell ); uno::Reference< util::XSortable > xSort( mxRange, uno::UNO_QUERY_THROW ); uno::Sequence< beans::PropertyValue > sortDescriptor = xSort->createSortDescriptor(); sal_Int32 nTableSortFieldIndex = findSortPropertyIndex( sortDescriptor, OUString( "SortFields" ) ); uno::Sequence< table::TableSortField > sTableFields(1); sal_Int32 nTableIndex = 0; updateTableSortField( mxRange, xKey1, nOrder1, sTableFields[ nTableIndex++ ], bIsSortColumns, bMatchCase ); if ( xKey2.is() ) { sTableFields.realloc( sTableFields.getLength() + 1 ); updateTableSortField( mxRange, xKey2, nOrder2, sTableFields[ nTableIndex++ ], bIsSortColumns, bMatchCase ); } if ( xKey3.is() ) { sTableFields.realloc( sTableFields.getLength() + 1 ); updateTableSortField( mxRange, xKey3, nOrder3, sTableFields[ nTableIndex++ ], bIsSortColumns, bMatchCase ); } sortDescriptor[ nTableSortFieldIndex ].Value <<= sTableFields; sal_Int32 nIndex = findSortPropertyIndex( sortDescriptor, OUString("IsSortColumns") ); sortDescriptor[ nIndex ].Value <<= bIsSortColumns; nIndex = findSortPropertyIndex( sortDescriptor, CONTS_HEADER ); sortDescriptor[ nIndex ].Value <<= bContainsHeader; rDoc.SetSortParam( aSortParam, nTab ); xSort->sort( sortDescriptor ); // #FIXME #TODO // The SortMethod param is not processed ( not sure what its all about, need to (void)nSortMethod; } uno::Reference< excel::XRange > SAL_CALL ScVbaRange::End( ::sal_Int32 Direction ) throw (uno::RuntimeException, std::exception) { if ( m_Areas->getCount() > 1 ) { uno::Reference< excel::XRange > xRange( getArea( 0 ), uno::UNO_QUERY_THROW ); return xRange->End( Direction ); } // #FIXME #TODO // euch! found my orig implementation sucked, so // trying this even suckier one ( really need to use/expose code in // around ScTabView::MoveCursorArea(), thats the bit that calcutes // where the cursor should go ) // Main problem with this method is the ultra hacky attempt to preserve // the ActiveCell, there should be no need to go to these extremes // Save ActiveSheet/ActiveCell pos ( to restore later ) uno::Any aDft; uno::Reference< excel::XApplication > xApplication( Application(), uno::UNO_QUERY_THROW ); uno::Reference< excel::XWorksheet > sActiveSheet = xApplication->getActiveSheet(); OUString sActiveCell = xApplication->getActiveCell()->Address(aDft, aDft, aDft, aDft, aDft ); // position current cell upper left of this range Cells( uno::makeAny( (sal_Int32) 1 ), uno::makeAny( (sal_Int32) 1 ) )->Select(); uno::Reference< frame::XModel > xModel = getModelFromRange( mxRange ); SfxViewFrame* pViewFrame = excel::getViewFrame( xModel ); if ( pViewFrame ) { SfxAllItemSet aArgs( SfxGetpApp()->GetPool() ); // Hoping this will make sure this slot is called // synchronously SfxBoolItem sfxAsync( SID_ASYNCHRON, false ); aArgs.Put( sfxAsync, sfxAsync.Which() ); SfxDispatcher* pDispatcher = pViewFrame->GetDispatcher(); sal_uInt16 nSID = 0; switch( Direction ) { case excel::XlDirection::xlDown: nSID = SID_CURSORBLKDOWN; break; case excel::XlDirection::xlUp: nSID = SID_CURSORBLKUP; break; case excel::XlDirection::xlToLeft: nSID = SID_CURSORBLKLEFT; break; case excel::XlDirection::xlToRight: nSID = SID_CURSORBLKRIGHT; break; default: throw uno::RuntimeException(": Invalid ColumnIndex" ); } if ( pDispatcher ) { pDispatcher->Execute( nSID, (SfxCallMode)SfxCallMode::SYNCHRON, aArgs ); } } // result is the ActiveCell OUString sMoved = xApplication->getActiveCell()->Address(aDft, aDft, aDft, aDft, aDft ); uno::Any aVoid; uno::Reference< excel::XRange > resultCell; resultCell.set( xApplication->getActiveSheet()->Range( uno::makeAny( sMoved ), aVoid ), uno::UNO_QUERY_THROW ); // restore old ActiveCell uno::Reference< excel::XRange > xOldActiveCell( sActiveSheet->Range( uno::makeAny( sActiveCell ), aVoid ), uno::UNO_QUERY_THROW ); xOldActiveCell->Select(); // return result return resultCell; } bool ScVbaRange::isSingleCellRange() { uno::Reference< sheet::XCellRangeAddressable > xAddressable( mxRange, uno::UNO_QUERY ); if ( xAddressable.is() ) { table::CellRangeAddress aRangeAddr = xAddressable->getRangeAddress(); return ( aRangeAddr.EndColumn == aRangeAddr.StartColumn && aRangeAddr.EndRow == aRangeAddr.StartRow ); } return false; } uno::Reference< excel::XCharacters > SAL_CALL ScVbaRange::characters( const uno::Any& Start, const uno::Any& Length ) throw (uno::RuntimeException, std::exception) { if ( !isSingleCellRange() ) throw uno::RuntimeException("Can't create Characters property for multicell range " ); uno::Reference< text::XSimpleText > xSimple(mxRange->getCellByPosition(0,0) , uno::UNO_QUERY_THROW ); ScDocument& rDoc = getDocumentFromRange(mxRange); ScVbaPalette aPalette( rDoc.GetDocumentShell() ); return new ScVbaCharacters( this, mxContext, aPalette, xSimple, Start, Length ); } void SAL_CALL ScVbaRange::Delete( const uno::Any& Shift ) throw (uno::RuntimeException, std::exception) { if ( m_Areas->getCount() > 1 ) { sal_Int32 nItems = m_Areas->getCount(); for ( sal_Int32 index=1; index <= nItems; ++index ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny(index), uno::Any() ), uno::UNO_QUERY_THROW ); xRange->Delete( Shift ); } return; } sheet::CellDeleteMode mode = sheet::CellDeleteMode_NONE ; RangeHelper thisRange( mxRange ); table::CellRangeAddress thisAddress = thisRange.getCellRangeAddressable()->getRangeAddress(); if ( Shift.hasValue() ) { sal_Int32 nShift = 0; Shift >>= nShift; switch ( nShift ) { case excel::XlDeleteShiftDirection::xlShiftUp: mode = sheet::CellDeleteMode_UP; break; case excel::XlDeleteShiftDirection::xlShiftToLeft: mode = sheet::CellDeleteMode_LEFT; break; default: throw uno::RuntimeException("Illegal parameter " ); } } else { bool bFullRow = ( thisAddress.StartColumn == 0 && thisAddress.EndColumn == MAXCOL ); sal_Int32 nCols = thisAddress.EndColumn - thisAddress.StartColumn; sal_Int32 nRows = thisAddress.EndRow - thisAddress.StartRow; if ( mbIsRows || bFullRow || ( nCols >= nRows ) ) mode = sheet::CellDeleteMode_UP; else mode = sheet::CellDeleteMode_LEFT; } uno::Reference< sheet::XCellRangeMovement > xCellRangeMove( thisRange.getSpreadSheet(), uno::UNO_QUERY_THROW ); xCellRangeMove->removeRange( thisAddress, mode ); } //XElementAccess sal_Bool SAL_CALL ScVbaRange::hasElements() throw (uno::RuntimeException, std::exception) { uno::Reference< table::XColumnRowRange > xColumnRowRange(mxRange, uno::UNO_QUERY ); if ( xColumnRowRange.is() ) if ( xColumnRowRange->getRows()->getCount() || xColumnRowRange->getColumns()->getCount() ) return sal_True; return false; } // XEnumerationAccess uno::Reference< container::XEnumeration > SAL_CALL ScVbaRange::createEnumeration() throw (uno::RuntimeException, std::exception) { if ( mbIsColumns || mbIsRows ) { uno::Reference< table::XColumnRowRange > xColumnRowRange(mxRange, uno::UNO_QUERY ); uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny( sal_Int32(1) ), uno::Any() ), uno::UNO_QUERY_THROW ); sal_Int32 nElems = 0; if ( mbIsColumns ) nElems = xColumnRowRange->getColumns()->getCount(); else nElems = xColumnRowRange->getRows()->getCount(); return new ColumnsRowEnumeration( mxContext, xRange, nElems ); } return new CellsEnumeration( mxParent, mxContext, m_Areas ); } OUString SAL_CALL ScVbaRange::getDefaultMethodName( ) throw (uno::RuntimeException, std::exception) { return OUString( "Item" ); } // returns calc internal col. width ( in points ) double ScVbaRange::getCalcColWidth(const table::CellRangeAddress& rAddress) throw (uno::RuntimeException, std::exception) { ScDocument& rDoc = getScDocument(); sal_uInt16 nWidth = rDoc.GetOriginalWidth( static_cast< SCCOL >( rAddress.StartColumn ), static_cast< SCTAB >( rAddress.Sheet ) ); double nPoints = lcl_TwipsToPoints( nWidth ); nPoints = lcl_Round2DecPlaces( nPoints ); return nPoints; } double ScVbaRange::getCalcRowHeight(const table::CellRangeAddress& rAddress) throw (uno::RuntimeException, std::exception) { ScDocument& rDoc = getDocumentFromRange( mxRange ); sal_uInt16 nWidth = rDoc.GetOriginalHeight( rAddress.StartRow, rAddress.Sheet ); double nPoints = lcl_TwipsToPoints( nWidth ); nPoints = lcl_Round2DecPlaces( nPoints ); return nPoints; } // return Char Width in points double getDefaultCharWidth( ScDocShell* pDocShell ) { ScDocument& rDoc = pDocShell->GetDocument(); OutputDevice* pRefDevice = rDoc.GetRefDevice(); ScPatternAttr* pAttr = rDoc.GetDefPattern(); vcl::Font aDefFont; pAttr->GetFont( aDefFont, SC_AUTOCOL_BLACK, pRefDevice ); pRefDevice->SetFont( aDefFont ); long nCharWidth = pRefDevice->GetTextWidth( OUString( '0' ) ); // 1/100th mm return lcl_hmmToPoints( nCharWidth ); } uno::Any SAL_CALL ScVbaRange::getColumnWidth() throw (uno::RuntimeException, std::exception) { sal_Int32 nLen = m_Areas->getCount(); if ( nLen > 1 ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny( sal_Int32(1) ), uno::Any() ), uno::UNO_QUERY_THROW ); return xRange->getColumnWidth(); } double nColWidth = 0; ScDocShell* pShell = getScDocShell(); if ( pShell ) { double defaultCharWidth = getDefaultCharWidth( pShell ); RangeHelper thisRange( mxRange ); table::CellRangeAddress thisAddress = thisRange.getCellRangeAddressable()->getRangeAddress(); sal_Int32 nStartCol = thisAddress.StartColumn; sal_Int32 nEndCol = thisAddress.EndColumn; sal_uInt16 nColTwips = 0; for( sal_Int32 nCol = nStartCol ; nCol <= nEndCol; ++nCol ) { thisAddress.StartColumn = nCol; sal_uInt16 nCurTwips = pShell->GetDocument().GetOriginalWidth( static_cast< SCCOL >( thisAddress.StartColumn ), static_cast< SCTAB >( thisAddress.Sheet ) ); if ( nCol == nStartCol ) nColTwips = nCurTwips; if ( nColTwips != nCurTwips ) return aNULL(); } nColWidth = lcl_TwipsToPoints( nColTwips ); if ( nColWidth != 0.0 ) nColWidth = ( nColWidth / defaultCharWidth ) - fExtraWidth; } nColWidth = lcl_Round2DecPlaces( nColWidth ); return uno::makeAny( nColWidth ); } void SAL_CALL ScVbaRange::setColumnWidth( const uno::Any& _columnwidth ) throw (uno::RuntimeException, std::exception) { sal_Int32 nLen = m_Areas->getCount(); if ( nLen > 1 ) { for ( sal_Int32 index = 1; index != nLen; ++index ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny( sal_Int32(index) ), uno::Any() ), uno::UNO_QUERY_THROW ); xRange->setColumnWidth( _columnwidth ); } return; } double nColWidth = 0; _columnwidth >>= nColWidth; nColWidth = lcl_Round2DecPlaces( nColWidth ); ScDocShell* pDocShell = getScDocShell(); if ( pDocShell ) { if ( nColWidth != 0.0 ) nColWidth = ( nColWidth + fExtraWidth ) * getDefaultCharWidth( pDocShell ); RangeHelper thisRange( mxRange ); table::CellRangeAddress thisAddress = thisRange.getCellRangeAddressable()->getRangeAddress(); sal_uInt16 nTwips = lcl_pointsToTwips( nColWidth ); std::vector aColArr(1, sc::ColRowSpan(thisAddress.StartColumn, thisAddress.EndColumn)); // #163561# use mode SC_SIZE_DIRECT: hide for width 0, show for other values pDocShell->GetDocFunc().SetWidthOrHeight( true, aColArr, thisAddress.Sheet, SC_SIZE_DIRECT, nTwips, true, true); } } uno::Any SAL_CALL ScVbaRange::getWidth() throw (uno::RuntimeException, std::exception) { if ( m_Areas->getCount() > 1 ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny( sal_Int32(1) ), uno::Any() ), uno::UNO_QUERY_THROW ); return xRange->getWidth(); } uno::Reference< table::XColumnRowRange > xColRowRange( mxRange, uno::UNO_QUERY_THROW ); uno::Reference< container::XIndexAccess > xIndexAccess( xColRowRange->getColumns(), uno::UNO_QUERY_THROW ); sal_Int32 nElems = xIndexAccess->getCount(); double nWidth = 0; for ( sal_Int32 index=0; index xAddressable( xIndexAccess->getByIndex( index ), uno::UNO_QUERY_THROW ); double nTmpWidth = getCalcColWidth( xAddressable->getRangeAddress() ); nWidth += nTmpWidth; } return uno::makeAny( nWidth ); } uno::Any SAL_CALL ScVbaRange::Areas( const uno::Any& item) throw (uno::RuntimeException, std::exception) { if ( !item.hasValue() ) return uno::makeAny( m_Areas ); return m_Areas->Item( item, uno::Any() ); } uno::Reference< excel::XRange > ScVbaRange::getArea( sal_Int32 nIndex ) throw( css::uno::RuntimeException ) { if ( !m_Areas.is() ) throw uno::RuntimeException("No areas available" ); uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny( ++nIndex ), uno::Any() ), uno::UNO_QUERY_THROW ); return xRange; } uno::Any ScVbaRange::Borders( const uno::Any& item ) throw( script::BasicErrorException, uno::RuntimeException ) { if ( !item.hasValue() ) return uno::makeAny( getBorders() ); return getBorders()->Item( item, uno::Any() ); } uno::Any SAL_CALL ScVbaRange::BorderAround( const css::uno::Any& LineStyle, const css::uno::Any& Weight, const css::uno::Any& ColorIndex, const css::uno::Any& Color ) throw (css::uno::RuntimeException, std::exception) { sal_Int32 nCount = getBorders()->getCount(); for( sal_Int32 i = 0; i < nCount; i++ ) { const sal_Int32 nLineType = supportedIndexTable[i]; switch( nLineType ) { case excel::XlBordersIndex::xlEdgeLeft: case excel::XlBordersIndex::xlEdgeTop: case excel::XlBordersIndex::xlEdgeBottom: case excel::XlBordersIndex::xlEdgeRight: { uno::Reference< excel::XBorder > xBorder( m_Borders->Item( uno::makeAny( nLineType ), uno::Any() ), uno::UNO_QUERY_THROW ); if( LineStyle.hasValue() ) { xBorder->setLineStyle( LineStyle ); } if( Weight.hasValue() ) { xBorder->setWeight( Weight ); } if( ColorIndex.hasValue() ) { xBorder->setColorIndex( ColorIndex ); } if( Color.hasValue() ) { xBorder->setColor( Color ); } break; } case excel::XlBordersIndex::xlInsideVertical: case excel::XlBordersIndex::xlInsideHorizontal: case excel::XlBordersIndex::xlDiagonalDown: case excel::XlBordersIndex::xlDiagonalUp: break; default: return uno::makeAny( false ); } } return uno::makeAny( sal_True ); } uno::Any SAL_CALL ScVbaRange::getRowHeight() throw (uno::RuntimeException, std::exception) { sal_Int32 nLen = m_Areas->getCount(); if ( nLen > 1 ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny( sal_Int32(1) ), uno::Any() ), uno::UNO_QUERY_THROW ); return xRange->getRowHeight(); } // if any row's RowHeight in the // range is different from any other then return NULL RangeHelper thisRange( mxRange ); table::CellRangeAddress thisAddress = thisRange.getCellRangeAddressable()->getRangeAddress(); sal_Int32 nStartRow = thisAddress.StartRow; sal_Int32 nEndRow = thisAddress.EndRow; sal_uInt16 nRowTwips = 0; // #TODO probably possible to use the SfxItemSet ( and see if // SfxItemState::DONTCARE is set ) to improve performance // #CHECKME looks like this is general behaviour not just row Range specific // if ( mbIsRows ) ScDocShell* pShell = getScDocShell(); if ( pShell ) { for ( sal_Int32 nRow = nStartRow ; nRow <= nEndRow; ++nRow ) { thisAddress.StartRow = nRow; sal_uInt16 nCurTwips = pShell->GetDocument().GetOriginalHeight( thisAddress.StartRow, thisAddress.Sheet ); if ( nRow == nStartRow ) nRowTwips = nCurTwips; if ( nRowTwips != nCurTwips ) return aNULL(); } } double nHeight = lcl_Round2DecPlaces( lcl_TwipsToPoints( nRowTwips ) ); return uno::makeAny( nHeight ); } void SAL_CALL ScVbaRange::setRowHeight( const uno::Any& _rowheight) throw (uno::RuntimeException, std::exception) { sal_Int32 nLen = m_Areas->getCount(); if ( nLen > 1 ) { for ( sal_Int32 index = 1; index != nLen; ++index ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny( sal_Int32(index) ), uno::Any() ), uno::UNO_QUERY_THROW ); xRange->setRowHeight( _rowheight ); } return; } double nHeight = 0; // Incoming height is in points _rowheight >>= nHeight; nHeight = lcl_Round2DecPlaces( nHeight ); RangeHelper thisRange( mxRange ); table::CellRangeAddress thisAddress = thisRange.getCellRangeAddressable()->getRangeAddress(); sal_uInt16 nTwips = lcl_pointsToTwips( nHeight ); ScDocShell* pDocShell = getDocShellFromRange( mxRange ); std::vector aRowArr(1, sc::ColRowSpan(thisAddress.StartRow, thisAddress.EndRow)); pDocShell->GetDocFunc().SetWidthOrHeight( false, aRowArr, thisAddress.Sheet, SC_SIZE_ORIGINAL, nTwips, true, true); } uno::Any SAL_CALL ScVbaRange::getPageBreak() throw (uno::RuntimeException, std::exception) { sal_Int32 nPageBreak = excel::XlPageBreak::xlPageBreakNone; ScDocShell* pShell = getDocShellFromRange( mxRange ); if ( pShell ) { RangeHelper thisRange( mxRange ); table::CellRangeAddress thisAddress = thisRange.getCellRangeAddressable()->getRangeAddress(); bool bColumn = false; if (thisAddress.StartRow==0) bColumn = true; uno::Reference< frame::XModel > xModel = pShell->GetModel(); if ( xModel.is() ) { ScDocument& rDoc = getDocumentFromRange( mxRange ); ScBreakType nBreak = BREAK_NONE; if ( !bColumn ) nBreak = rDoc.HasRowBreak(thisAddress.StartRow, thisAddress.Sheet); else nBreak = rDoc.HasColBreak(thisAddress.StartColumn, thisAddress.Sheet); if (nBreak & BREAK_PAGE) nPageBreak = excel::XlPageBreak::xlPageBreakAutomatic; if (nBreak & BREAK_MANUAL) nPageBreak = excel::XlPageBreak::xlPageBreakManual; } } return uno::makeAny( nPageBreak ); } void SAL_CALL ScVbaRange::setPageBreak( const uno::Any& _pagebreak) throw (uno::RuntimeException, std::exception) { sal_Int32 nPageBreak = 0; _pagebreak >>= nPageBreak; ScDocShell* pShell = getDocShellFromRange( mxRange ); if ( pShell ) { RangeHelper thisRange( mxRange ); table::CellRangeAddress thisAddress = thisRange.getCellRangeAddressable()->getRangeAddress(); if ((thisAddress.StartColumn==0) && (thisAddress.StartRow==0)) return; bool bColumn = false; if (thisAddress.StartRow==0) bColumn = true; ScAddress aAddr( static_cast(thisAddress.StartColumn), thisAddress.StartRow, thisAddress.Sheet ); uno::Reference< frame::XModel > xModel = pShell->GetModel(); if ( xModel.is() ) { ScTabViewShell* pViewShell = excel::getBestViewShell( xModel ); if ( nPageBreak == excel::XlPageBreak::xlPageBreakManual ) pViewShell->InsertPageBreak( bColumn, true, &aAddr); else if ( nPageBreak == excel::XlPageBreak::xlPageBreakNone ) pViewShell->DeletePageBreak( bColumn, true, &aAddr); } } } uno::Any SAL_CALL ScVbaRange::getHeight() throw (uno::RuntimeException, std::exception) { if ( m_Areas->getCount() > 1 ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny( sal_Int32(1) ), uno::Any() ), uno::UNO_QUERY_THROW ); return xRange->getHeight(); } uno::Reference< table::XColumnRowRange > xColRowRange( mxRange, uno::UNO_QUERY_THROW ); uno::Reference< container::XIndexAccess > xIndexAccess( xColRowRange->getRows(), uno::UNO_QUERY_THROW ); sal_Int32 nElems = xIndexAccess->getCount(); double nHeight = 0; for ( sal_Int32 index=0; index xAddressable( xIndexAccess->getByIndex( index ), uno::UNO_QUERY_THROW ); nHeight += getCalcRowHeight(xAddressable->getRangeAddress() ); } return uno::makeAny( nHeight ); } awt::Point ScVbaRange::getPosition() throw ( uno::RuntimeException ) { awt::Point aPoint; uno::Reference< beans::XPropertySet > xProps; if ( mxRange.is() ) xProps.set( mxRange, uno::UNO_QUERY_THROW ); else xProps.set( mxRanges, uno::UNO_QUERY_THROW ); xProps->getPropertyValue( POSITION ) >>= aPoint; return aPoint; } uno::Any SAL_CALL ScVbaRange::getLeft() throw (uno::RuntimeException, std::exception) { // helperapi returns the first ranges left ( and top below ) if ( m_Areas->getCount() > 1 ) return getArea( 0 )->getLeft(); awt::Point aPoint = getPosition(); return uno::makeAny( lcl_hmmToPoints( aPoint.X ) ); } uno::Any SAL_CALL ScVbaRange::getTop() throw (uno::RuntimeException, std::exception) { // helperapi returns the first ranges top if ( m_Areas->getCount() > 1 ) return getArea( 0 )->getTop(); awt::Point aPoint= getPosition(); return uno::makeAny( lcl_hmmToPoints( aPoint.Y ) ); } uno::Reference< sheet::XCellRangeReferrer > getNamedRange( const uno::Reference< uno::XInterface >& xIf, const uno::Reference< table::XCellRange >& thisRange ) { uno::Reference< beans::XPropertySet > xProps( xIf, uno::UNO_QUERY_THROW ); uno::Reference< container::XNameAccess > xNameAccess( xProps->getPropertyValue( "NamedRanges" ), uno::UNO_QUERY_THROW ); uno::Sequence< OUString > sNames = xNameAccess->getElementNames(); // uno::Reference< table::XCellRange > thisRange( getCellRange(), uno::UNO_QUERY_THROW ); uno::Reference< sheet::XCellRangeReferrer > xNamedRange; for ( sal_Int32 i=0; i < sNames.getLength(); ++i ) { uno::Reference< sheet::XCellRangeReferrer > xName( xNameAccess->getByName( sNames[ i ] ), uno::UNO_QUERY ); if ( xName.is() ) { if ( thisRange == xName->getReferredCells() ) { xNamedRange = xName; break; } } } return xNamedRange; } uno::Reference< excel::XName > ScVbaRange::getName() throw (uno::RuntimeException, std::exception) { uno::Reference< beans::XPropertySet > xProps( getUnoModel(), uno::UNO_QUERY ); uno::Reference< table::XCellRange > thisRange( getCellRange(), uno::UNO_QUERY_THROW ); // Application range uno::Reference< sheet::XCellRangeReferrer > xNamedRange = getNamedRange( xProps, thisRange ); if ( !xNamedRange.is() ) { // not in application range then assume it might be in // sheet namedranges RangeHelper aRange( thisRange ); uno::Reference< sheet::XSpreadsheet > xSheet = aRange.getSpreadSheet(); xProps.set( xSheet, uno::UNO_QUERY ); // impl here xNamedRange = getNamedRange( xProps, thisRange ); } if ( xProps.is() && xNamedRange.is() ) { uno::Reference< sheet::XNamedRanges > xNamedRanges( xProps, uno::UNO_QUERY_THROW ); uno::Reference< sheet::XNamedRange > xName( xNamedRange, uno::UNO_QUERY_THROW ); return new ScVbaName( mxParent, mxContext, xName, xNamedRanges, getUnoModel() ); } return uno::Reference< excel::XName >(); } uno::Reference< excel::XWorksheet > ScVbaRange::getWorksheet() throw (uno::RuntimeException, std::exception) { // #TODO #FIXME parent should always be set up ( currently thats not // the case ) uno::Reference< excel::XWorksheet > xSheet( getParent(), uno::UNO_QUERY ); if ( !xSheet.is() ) { uno::Reference< table::XCellRange > xRange = mxRange; if ( mxRanges.is() ) // assign xRange to first range { uno::Reference< container::XIndexAccess > xIndex( mxRanges, uno::UNO_QUERY_THROW ); xRange.set( xIndex->getByIndex( 0 ), uno::UNO_QUERY_THROW ); } ScDocShell* pDocShell = getDocShellFromRange(xRange); RangeHelper rHelper(xRange); // parent should be Thisworkbook xSheet.set( new ScVbaWorksheet( uno::Reference< XHelperInterface >(), mxContext,rHelper.getSpreadSheet(),pDocShell->GetModel()) ); } return xSheet; } // #TODO remove this ugly application processing // Process an application Range request e.g. 'Range("a1,b2,a4:b6") uno::Reference< excel::XRange > ScVbaRange::ApplicationRange( const uno::Reference< uno::XComponentContext >& xContext, const css::uno::Any &Cell1, const css::uno::Any &Cell2 ) throw (css::uno::RuntimeException) { // Although the documentation seems clear that Range without a // qualifier then it's a shortcut for ActiveSheet.Range // however, similarly Application.Range is apparently also a // shortcut for ActiveSheet.Range // The is however a subtle behavioural difference I've come across // wrt to named ranges. // If a named range "test" exists { Sheet1!$A1 } and the active sheet // is Sheet2 then the following will fail // msgbox ActiveSheet.Range("test").Address ' failes // msgbox WorkSheets("Sheet2").Range("test").Address // but !!! // msgbox Range("test").Address ' works // msgbox Application.Range("test").Address ' works // Single param Range OUString sRangeName; Cell1 >>= sRangeName; if ( Cell1.hasValue() && !Cell2.hasValue() && !sRangeName.isEmpty() ) { static const char sNamedRanges[] = "NamedRanges"; uno::Reference< beans::XPropertySet > xPropSet( getCurrentExcelDoc(xContext), uno::UNO_QUERY_THROW ); uno::Reference< container::XNameAccess > xNamed( xPropSet->getPropertyValue( sNamedRanges ), uno::UNO_QUERY_THROW ); uno::Reference< sheet::XCellRangeReferrer > xReferrer; try { xReferrer.set ( xNamed->getByName( sRangeName ), uno::UNO_QUERY ); } catch( uno::Exception& /*e*/ ) { // do nothing } if ( xReferrer.is() ) { uno::Reference< table::XCellRange > xRange = xReferrer->getReferredCells(); if ( xRange.is() ) { uno::Reference< excel::XRange > xVbRange = new ScVbaRange( excel::getUnoSheetModuleObj( xRange ), xContext, xRange ); return xVbRange; } } } uno::Reference< sheet::XSpreadsheetView > xView( getCurrentExcelDoc(xContext)->getCurrentController(), uno::UNO_QUERY ); uno::Reference< table::XCellRange > xSheetRange( xView->getActiveSheet(), uno::UNO_QUERY_THROW ); ScVbaRange* pRange = new ScVbaRange( excel::getUnoSheetModuleObj( xSheetRange ), xContext, xSheetRange ); uno::Reference< excel::XRange > xVbSheetRange( pRange ); return pRange->Range( Cell1, Cell2, true ); } // Helper functions for AutoFilter static ScDBData* lcl_GetDBData_Impl( ScDocShell* pDocShell, sal_Int16 nSheet ) { ScDBData* pRet = NULL; if (pDocShell) { pRet = pDocShell->GetDocument().GetAnonymousDBData(nSheet); } return pRet; } static void lcl_SelectAll( ScDocShell* pDocShell, ScQueryParam& aParam ) { if ( pDocShell ) { ScViewData* pViewData = ScDocShell::GetViewData(); if ( pViewData ) { OSL_TRACE("Pushing out SelectAll query"); pViewData->GetView()->Query( aParam, NULL, true ); } } } static ScQueryParam lcl_GetQueryParam( ScDocShell* pDocShell, sal_Int16 nSheet ) { ScDBData* pDBData = lcl_GetDBData_Impl( pDocShell, nSheet ); ScQueryParam aParam; if (pDBData) { pDBData->GetQueryParam( aParam ); } return aParam; } static void lcl_SetAllQueryForField( ScDocShell* pDocShell, SCCOLROW nField, sal_Int16 nSheet ) { ScQueryParam aParam = lcl_GetQueryParam( pDocShell, nSheet ); aParam.RemoveEntryByField(nField); lcl_SelectAll( pDocShell, aParam ); } // Modifies sCriteria, and nOp depending on the value of sCriteria static void lcl_setTableFieldsFromCriteria( OUString& sCriteria1, uno::Reference< beans::XPropertySet >& xDescProps, sheet::TableFilterField2& rFilterField ) { // #TODO make this more efficient and cycle through // sCriteria1 character by character to pick up <,<>,=, * etc. // right now I am more concerned with just getting it to work right sCriteria1 = sCriteria1.trim(); // table of translation of criteria text to FilterOperators // <>searchtext - NOT_EQUAL // =searchtext - EQUAL // *searchtext - startwith // <>*searchtext - doesn't startwith // *searchtext* - contains // <>*searchtext* - doesn't contain // [>|>=|<=|...]searchtext for GREATER_value, GREATER_EQUAL_value etc. bool bIsNumeric = false; if ( sCriteria1.startsWith( EQUALS ) ) { if ( sCriteria1.getLength() == (sal_Int32)strlen(EQUALS) ) rFilterField.Operator = sheet::FilterOperator2::EMPTY; else { rFilterField.Operator = sheet::FilterOperator2::EQUAL; sCriteria1 = sCriteria1.copy( strlen(EQUALS) ); sCriteria1 = VBAToRegexp( sCriteria1 ); // UseRegularExpressions if ( xDescProps.is() ) xDescProps->setPropertyValue( "UseRegularExpressions", uno::Any( sal_True ) ); } } else if ( sCriteria1.startsWith( NOTEQUALS ) ) { if ( sCriteria1.getLength() == (sal_Int32)strlen(NOTEQUALS) ) rFilterField.Operator = sheet::FilterOperator2::NOT_EMPTY; else { rFilterField.Operator = sheet::FilterOperator2::NOT_EQUAL; sCriteria1 = sCriteria1.copy( strlen(NOTEQUALS) ); sCriteria1 = VBAToRegexp( sCriteria1 ); // UseRegularExpressions if ( xDescProps.is() ) xDescProps->setPropertyValue( "UseRegularExpressions", uno::Any( sal_True ) ); } } else if ( sCriteria1.startsWith( GREATERTHAN ) ) { bIsNumeric = true; if ( sCriteria1.startsWith( GREATERTHANEQUALS ) ) { sCriteria1 = sCriteria1.copy( strlen(GREATERTHANEQUALS) ); rFilterField.Operator = sheet::FilterOperator2::GREATER_EQUAL; } else { sCriteria1 = sCriteria1.copy( strlen(GREATERTHAN) ); rFilterField.Operator = sheet::FilterOperator2::GREATER; } } else if ( sCriteria1.startsWith( LESSTHAN ) ) { bIsNumeric = true; if ( sCriteria1.startsWith( LESSTHANEQUALS ) ) { sCriteria1 = sCriteria1.copy( strlen(LESSTHANEQUALS) ); rFilterField.Operator = sheet::FilterOperator2::LESS_EQUAL; } else { sCriteria1 = sCriteria1.copy( strlen(LESSTHAN) ); rFilterField.Operator = sheet::FilterOperator2::LESS; } } else rFilterField.Operator = sheet::FilterOperator2::EQUAL; if ( bIsNumeric ) { rFilterField.IsNumeric= sal_True; rFilterField.NumericValue = sCriteria1.toDouble(); } rFilterField.StringValue = sCriteria1; } void SAL_CALL ScVbaRange::AutoFilter( const uno::Any& aField, const uno::Any& Criteria1, const uno::Any& Operator, const uno::Any& Criteria2, const uno::Any& VisibleDropDown ) throw (uno::RuntimeException, std::exception) { // Is there an existing autofilter RangeHelper thisRange( mxRange ); table::CellRangeAddress thisAddress = thisRange.getCellRangeAddressable()->getRangeAddress(); sal_Int16 nSheet = thisAddress.Sheet; ScDocShell* pShell = getScDocShell(); bool bHasAuto = false; uno::Reference< sheet::XDatabaseRange > xDataBaseRange = excel::GetAutoFiltRange( pShell, nSheet ); if ( xDataBaseRange.is() ) bHasAuto = true; uno::Reference< table::XCellRange > xFilterRange; if ( !bHasAuto ) { if ( m_Areas->getCount() > 1 ) throw uno::RuntimeException( STR_ERRORMESSAGE_APPLIESTOSINGLERANGEONLY ); table::CellRangeAddress autoFiltAddress; //CurrentRegion() if ( isSingleCellRange() ) { uno::Reference< excel::XRange > xCurrent( CurrentRegion() ); if ( xCurrent.is() ) { ScVbaRange* pRange = getImplementation( xCurrent ); if ( pRange ) { if ( pRange->isSingleCellRange() ) throw uno::RuntimeException("Can't create AutoFilter" ); RangeHelper currentRegion( pRange->mxRange ); autoFiltAddress = currentRegion.getCellRangeAddressable()->getRangeAddress(); } } } else // multi-cell range { RangeHelper multiCellRange( mxRange ); autoFiltAddress = multiCellRange.getCellRangeAddressable()->getRangeAddress(); // #163530# Filter box shows only entry of first row ScDocument* pDocument = ( pShell ? &pShell->GetDocument() : NULL ); if ( pDocument ) { SCCOL nStartCol = autoFiltAddress.StartColumn; SCROW nStartRow = autoFiltAddress.StartRow; SCCOL nEndCol = autoFiltAddress.EndColumn; SCROW nEndRow = autoFiltAddress.EndRow; pDocument->GetDataArea( autoFiltAddress.Sheet, nStartCol, nStartRow, nEndCol, nEndRow, true, true ); autoFiltAddress.StartColumn = nStartCol; autoFiltAddress.StartRow = nStartRow; autoFiltAddress.EndColumn = nEndCol; autoFiltAddress.EndRow = nEndRow; } } uno::Reference< sheet::XUnnamedDatabaseRanges > xDBRanges = excel::GetUnnamedDataBaseRanges( pShell ); if ( xDBRanges.is() ) { OSL_TRACE("Going to add new autofilter range.. sheet %i", nSheet ); if ( !xDBRanges->hasByTable( nSheet ) ) xDBRanges->setByTable( autoFiltAddress ); xDataBaseRange.set( xDBRanges->getByTable(nSheet ), uno::UNO_QUERY_THROW ); } if ( !xDataBaseRange.is() ) throw uno::RuntimeException("Failed to find the autofilter placeholder range" ); uno::Reference< beans::XPropertySet > xDBRangeProps( xDataBaseRange, uno::UNO_QUERY_THROW ); // set autofilter xDBRangeProps->setPropertyValue( "AutoFilter", uno::Any(sal_True) ); // set header (autofilter always need column headers) uno::Reference< beans::XPropertySet > xFiltProps( xDataBaseRange->getFilterDescriptor(), uno::UNO_QUERY_THROW ); bool bHasColHeader = false; ScDocument* pDoc = pShell ? &pShell->GetDocument() : NULL; if (pDoc) { bHasColHeader = pDoc->HasColHeader( static_cast< SCCOL >( autoFiltAddress.StartColumn ), static_cast< SCROW >( autoFiltAddress.StartRow ), static_cast< SCCOL >( autoFiltAddress.EndColumn ), static_cast< SCROW >( autoFiltAddress.EndRow ), static_cast< SCTAB >( autoFiltAddress.Sheet ) ); } xFiltProps->setPropertyValue( "ContainsHeader", uno::Any( bHasColHeader ) ); } sal_Int32 nField = 0; // *IS* 1 based OUString sCriteria1; sal_Int32 nOperator = excel::XlAutoFilterOperator::xlAnd; bool bVisible = true; VisibleDropDown >>= bVisible; if ( bVisible == bHasAuto ) // dropdown is displayed/notdisplayed as required bVisible = false; sheet::FilterConnection nConn = sheet::FilterConnection_AND; double nCriteria1 = 0; bool bHasCritValue = Criteria1.hasValue(); bool bCritHasNumericValue = false; // not sure if a numeric criteria is possible if ( bHasCritValue ) bCritHasNumericValue = ( Criteria1 >>= nCriteria1 ); if ( !aField.hasValue() && ( Criteria1.hasValue() || Operator.hasValue() || Criteria2.hasValue() ) ) throw uno::RuntimeException(); uno::Any Field( aField ); if ( !( Field >>= nField ) ) { uno::Reference< script::XTypeConverter > xConverter = getTypeConverter( mxContext ); try { Field = xConverter->convertTo( aField, cppu::UnoType::get() ); } catch( uno::Exception& ) { } } // Use the normal uno api, sometimes e.g. when you want to use ALL as the filter // we can't use refresh as the uno interface doesn't have a concept of ALL // in this case we just call the core calc functionality - if ( ( Field >>= nField ) ) { bool bAll = false; uno::Reference< sheet::XSheetFilterDescriptor2 > xDesc( xDataBaseRange->getFilterDescriptor(), uno::UNO_QUERY ); if ( xDesc.is() ) { uno::Sequence< sheet::TableFilterField2 > sTabFilts; uno::Reference< beans::XPropertySet > xDescProps( xDesc, uno::UNO_QUERY_THROW ); if ( Criteria1.hasValue() ) { sTabFilts.realloc( 1 ); sTabFilts[0].Operator = sheet::FilterOperator2::EQUAL;// sensible default if ( !bCritHasNumericValue ) { Criteria1 >>= sCriteria1; sTabFilts[0].IsNumeric = bCritHasNumericValue; if ( bHasCritValue && !sCriteria1.isEmpty() ) lcl_setTableFieldsFromCriteria( sCriteria1, xDescProps, sTabFilts[0] ); else bAll = true; } else // numeric { sTabFilts[0].IsNumeric = sal_True; sTabFilts[0].NumericValue = nCriteria1; } } else // no value specified bAll = true; // not sure what the relationship between Criteria1 and Operator is, // e.g. can you have a Operator without a Criteria ? in openoffice it if ( Operator.hasValue() && ( Operator >>= nOperator ) ) { // if it's a bottom/top Ten(Percent/Value) and there // is no value specified for criteria1 set it to 10 if ( !bCritHasNumericValue && sCriteria1.isEmpty() && ( nOperator != excel::XlAutoFilterOperator::xlOr ) && ( nOperator != excel::XlAutoFilterOperator::xlAnd ) ) { sTabFilts[0].IsNumeric = sal_True; sTabFilts[0].NumericValue = 10; bAll = false; } switch ( nOperator ) { case excel::XlAutoFilterOperator::xlBottom10Items: sTabFilts[0].Operator = sheet::FilterOperator2::BOTTOM_VALUES; break; case excel::XlAutoFilterOperator::xlBottom10Percent: sTabFilts[0].Operator = sheet::FilterOperator2::BOTTOM_PERCENT; break; case excel::XlAutoFilterOperator::xlTop10Items: sTabFilts[0].Operator = sheet::FilterOperator2::TOP_VALUES; break; case excel::XlAutoFilterOperator::xlTop10Percent: sTabFilts[0].Operator = sheet::FilterOperator2::TOP_PERCENT; break; case excel::XlAutoFilterOperator::xlOr: nConn = sheet::FilterConnection_OR; break; case excel::XlAutoFilterOperator::xlAnd: nConn = sheet::FilterConnection_AND; break; default: throw uno::RuntimeException("UnknownOption" ); } } if ( !bAll ) { sTabFilts[0].Connection = sheet::FilterConnection_AND; sTabFilts[0].Field = (nField - 1); OUString sCriteria2; if ( Criteria2.hasValue() ) // there is a Criteria2 { sTabFilts.realloc(2); sTabFilts[1].Field = sTabFilts[0].Field; sTabFilts[1].Connection = nConn; if ( Criteria2 >>= sCriteria2 ) { if ( !sCriteria2.isEmpty() ) { uno::Reference< beans::XPropertySet > xProps; lcl_setTableFieldsFromCriteria( sCriteria2, xProps, sTabFilts[1] ); sTabFilts[1].IsNumeric = false; } } else // numeric { Criteria2 >>= sTabFilts[1].NumericValue; sTabFilts[1].IsNumeric = sal_True; sTabFilts[1].Operator = sheet::FilterOperator2::EQUAL; } } } xDesc->setFilterFields2( sTabFilts ); if ( !bAll ) { xDataBaseRange->refresh(); } else // was 0 based now seems to be 1 lcl_SetAllQueryForField( pShell, nField, nSheet ); } } else { // this is just to toggle autofilter on and off ( not to be confused with // a VisibleDropDown option combined with a field, in that case just the // button should be disabled ) - currently we don't support that uno::Reference< beans::XPropertySet > xDBRangeProps( xDataBaseRange, uno::UNO_QUERY_THROW ); if ( bHasAuto ) { // find the any field with the query and select all ScQueryParam aParam = lcl_GetQueryParam( pShell, nSheet ); for (SCSIZE i = 0; i< aParam.GetEntryCount(); ++i) { ScQueryEntry& rEntry = aParam.GetEntry(i); if ( rEntry.bDoQuery ) lcl_SetAllQueryForField( pShell, rEntry.nField, nSheet ); } // remove exising filters uno::Reference< sheet::XSheetFilterDescriptor2 > xSheetFilterDescriptor( xDataBaseRange->getFilterDescriptor(), uno::UNO_QUERY ); if( xSheetFilterDescriptor.is() ) xSheetFilterDescriptor->setFilterFields2( uno::Sequence< sheet::TableFilterField2 >() ); } xDBRangeProps->setPropertyValue( "AutoFilter", uno::Any(!bHasAuto) ); } } void SAL_CALL ScVbaRange::Insert( const uno::Any& Shift, const uno::Any& /*CopyOrigin*/ ) throw (uno::RuntimeException, std::exception) { // It appears ( from the web ) that the undocumented CopyOrigin // param should contain member of enum XlInsertFormatOrigin // which can have values xlFormatFromLeftOrAbove or xlFormatFromRightOrBelow // #TODO investigate resultant behaviour using these constants // currently just processing Shift sheet::CellInsertMode mode = sheet::CellInsertMode_NONE; if ( Shift.hasValue() ) { sal_Int32 nShift = 0; Shift >>= nShift; switch ( nShift ) { case excel::XlInsertShiftDirection::xlShiftToRight: mode = sheet::CellInsertMode_RIGHT; break; case excel::XlInsertShiftDirection::xlShiftDown: mode = sheet::CellInsertMode_DOWN; break; default: throw uno::RuntimeException("Illegal parameter " ); } } else { if ( getRow() >= getColumn() ) mode = sheet::CellInsertMode_DOWN; else mode = sheet::CellInsertMode_RIGHT; } RangeHelper thisRange( mxRange ); table::CellRangeAddress thisAddress = thisRange.getCellRangeAddressable()->getRangeAddress(); uno::Reference< sheet::XCellRangeMovement > xCellRangeMove( thisRange.getSpreadSheet(), uno::UNO_QUERY_THROW ); xCellRangeMove->insertCells( thisAddress, mode ); // Paste from clipboard only if the clipboard content was copied via VBA, and not already pasted via VBA again. // "Insert" behavior should not depend on random clipboard content previously copied by the user. ScTransferObj* pClipObj = ScTransferObj::GetOwnClipboard( NULL ); if ( pClipObj && pClipObj->GetUseInApi() ) { // After the insert ( this range ) actually has moved ScRange aRange( static_cast< SCCOL >( thisAddress.StartColumn ), static_cast< SCROW >( thisAddress.StartRow ), static_cast< SCTAB >( thisAddress.Sheet ), static_cast< SCCOL >( thisAddress.EndColumn ), static_cast< SCROW >( thisAddress.EndRow ), static_cast< SCTAB >( thisAddress.Sheet ) ); uno::Reference< table::XCellRange > xRange( new ScCellRangeObj( getDocShellFromRange( mxRange ) , aRange ) ); uno::Reference< excel::XRange > xVbaRange( new ScVbaRange( mxParent, mxContext, xRange, mbIsRows, mbIsColumns ) ); xVbaRange->PasteSpecial( uno::Any(), uno::Any(), uno::Any(), uno::Any() ); } } void SAL_CALL ScVbaRange::Autofit() throw (script::BasicErrorException, uno::RuntimeException, std::exception) { sal_Int32 nLen = m_Areas->getCount(); if ( nLen > 1 ) { for ( sal_Int32 index = 1; index != nLen; ++index ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny( sal_Int32(index) ), uno::Any() ), uno::UNO_QUERY_THROW ); xRange->Autofit(); } return; } // if the range is a not a row or column range autofit will // throw an error if ( !( mbIsColumns || mbIsRows ) ) DebugHelper::basicexception(SbERR_METHOD_FAILED, OUString()); ScDocShell* pDocShell = getDocShellFromRange( mxRange ); if ( pDocShell ) { RangeHelper thisRange( mxRange ); table::CellRangeAddress thisAddress = thisRange.getCellRangeAddressable()->getRangeAddress(); std::vector aColArr(1, sc::ColRowSpan(thisAddress.StartColumn,thisAddress.EndColumn)); bool bDirection = true; if ( mbIsRows ) { bDirection = false; aColArr[0].mnStart = thisAddress.StartRow; aColArr[0].mnEnd = thisAddress.EndRow; } pDocShell->GetDocFunc().SetWidthOrHeight( bDirection, aColArr, thisAddress.Sheet, SC_SIZE_OPTIMAL, 0, true, true); } } uno::Any SAL_CALL ScVbaRange::Hyperlinks( const uno::Any& aIndex ) throw (uno::RuntimeException, std::exception) { /* The range object always returns a new Hyperlinks object containing a fixed list of existing hyperlinks in the range. See vbahyperlinks.hxx for more details. */ // get the global hyperlink object of the sheet (sheet should always be the parent of a Range object) uno::Reference< excel::XWorksheet > xWorksheet( getParent(), uno::UNO_QUERY_THROW ); uno::Reference< excel::XHyperlinks > xSheetHlinks( xWorksheet->Hyperlinks( uno::Any() ), uno::UNO_QUERY_THROW ); ScVbaHyperlinksRef xScSheetHlinks( dynamic_cast< ScVbaHyperlinks* >( xSheetHlinks.get() ) ); if( !xScSheetHlinks.is() ) throw uno::RuntimeException("Cannot obtain hyperlinks implementation object" ); // create a new local hyperlinks object based on the sheet hyperlinks ScVbaHyperlinksRef xHlinks( new ScVbaHyperlinks( getParent(), mxContext, xScSheetHlinks, getScRangeList() ) ); if( aIndex.hasValue() ) return xHlinks->Item( aIndex, uno::Any() ); return uno::Any( uno::Reference< excel::XHyperlinks >( xHlinks.get() ) ); } css::uno::Reference< excel::XValidation > SAL_CALL ScVbaRange::getValidation() throw (css::uno::RuntimeException, std::exception) { if ( !m_xValidation.is() ) m_xValidation = new ScVbaValidation( this, mxContext, mxRange ); return m_xValidation; } namespace { sal_Unicode lclGetPrefixChar( const uno::Reference< table::XCell >& rxCell ) throw (uno::RuntimeException) { /* TODO/FIXME: We need an apostroph-prefix property at the cell to implement this correctly. For now, return an apostroph for every text cell. TODO/FIXME: When Application.TransitionNavigKeys is supported and true, this function needs to inspect the cell formatting and return different prefixes according to the horizontal cell alignment. */ return (rxCell->getType() == table::CellContentType_TEXT) ? '\'' : 0; } sal_Unicode lclGetPrefixChar( const uno::Reference< table::XCellRange >& rxRange ) throw (uno::RuntimeException) { /* This implementation is able to handle different prefixes (needed if Application.TransitionNavigKeys is true). The function lclGetPrefixChar for single cells called from here may return any prefix. If that function returns an empty prefix (NUL character) or different non-empty prefixes for two cells, this function returns 0. */ sal_Unicode cCurrPrefix = 0; table::CellRangeAddress aRangeAddr = lclGetRangeAddress( rxRange ); sal_Int32 nEndCol = aRangeAddr.EndColumn - aRangeAddr.StartColumn; sal_Int32 nEndRow = aRangeAddr.EndRow - aRangeAddr.StartRow; for( sal_Int32 nRow = 0; nRow <= nEndRow; ++nRow ) { for( sal_Int32 nCol = 0; nCol <= nEndCol; ++nCol ) { uno::Reference< table::XCell > xCell( rxRange->getCellByPosition( nCol, nRow ), uno::UNO_SET_THROW ); sal_Unicode cNewPrefix = lclGetPrefixChar( xCell ); if( (cNewPrefix == 0) || ((cCurrPrefix != 0) && (cNewPrefix != cCurrPrefix)) ) return 0; cCurrPrefix = cNewPrefix; } } // all cells contain the same prefix - return it return cCurrPrefix; } sal_Unicode lclGetPrefixChar( const uno::Reference< sheet::XSheetCellRangeContainer >& rxRanges ) throw (uno::RuntimeException) { sal_Unicode cCurrPrefix = 0; uno::Reference< container::XEnumerationAccess > xRangesEA( rxRanges, uno::UNO_QUERY_THROW ); uno::Reference< container::XEnumeration > xRangesEnum( xRangesEA->createEnumeration(), uno::UNO_SET_THROW ); while( xRangesEnum->hasMoreElements() ) { uno::Reference< table::XCellRange > xRange( xRangesEnum->nextElement(), uno::UNO_QUERY_THROW ); sal_Unicode cNewPrefix = lclGetPrefixChar( xRange ); if( (cNewPrefix == 0) || ((cCurrPrefix != 0) && (cNewPrefix != cCurrPrefix)) ) return 0; cCurrPrefix = cNewPrefix; } // all ranges contain the same prefix - return it return cCurrPrefix; } inline uno::Any lclGetPrefixVariant( sal_Unicode cPrefixChar ) { return uno::Any( (cPrefixChar == 0) ? OUString() : OUString( cPrefixChar ) ); } } // namespace uno::Any SAL_CALL ScVbaRange::getPrefixCharacter() throw (uno::RuntimeException, std::exception) { /* (1) If Application.TransitionNavigKeys is false, this function returns an apostroph character if the text cell begins with an apostroph character (formula return values are not taken into account); otherwise an empty string. (2) If Application.TransitionNavigKeys is true, this function returns an apostroph character, if the cell is left-aligned; a double-quote character, if the cell is right-aligned; a circumflex character, if the cell is centered; a backslash character, if the cell is set to filled; or an empty string, if nothing of the above. If a range or a list of ranges contains texts with leading apostroph character as well as other cells, this function returns an empty string. */ if( mxRange.is() ) return lclGetPrefixVariant( lclGetPrefixChar( mxRange ) ); if( mxRanges.is() ) return lclGetPrefixVariant( lclGetPrefixChar( mxRanges ) ); throw uno::RuntimeException("Unexpected empty Range object" ); } uno::Any ScVbaRange::getShowDetail() throw ( css::uno::RuntimeException, std::exception) { // #FIXME, If the specified range is in a PivotTable report // In MSO VBA, the specified range must be a single summary column or row in an outline. otherwise throw exception if( m_Areas->getCount() > 1 ) throw uno::RuntimeException("Can not get Range.ShowDetail attribute " ); RangeHelper helper( mxRange ); uno::Reference< sheet::XSheetCellCursor > xSheetCellCursor = helper.getSheetCellCursor(); xSheetCellCursor->collapseToCurrentRegion(); uno::Reference< sheet::XCellRangeAddressable > xCellRangeAddressable(xSheetCellCursor, uno::UNO_QUERY_THROW); table::CellRangeAddress aOutlineAddress = xCellRangeAddressable->getRangeAddress(); // check if the specified range is a single summary column or row. table::CellRangeAddress thisAddress = helper.getCellRangeAddressable()->getRangeAddress(); if( (thisAddress.StartRow == thisAddress.EndRow && thisAddress.EndRow == aOutlineAddress.EndRow ) || (thisAddress.StartColumn == thisAddress.EndColumn && thisAddress.EndColumn == aOutlineAddress.EndColumn )) { bool bColumn = thisAddress.StartRow != thisAddress.EndRow; ScDocument& rDoc = getDocumentFromRange( mxRange ); ScOutlineTable* pOutlineTable = rDoc.GetOutlineTable(static_cast(thisAddress.Sheet), true); const ScOutlineArray& rOutlineArray = bColumn ? pOutlineTable->GetColArray(): pOutlineTable->GetRowArray(); SCCOLROW nPos = bColumn ? (SCCOLROW)(thisAddress.EndColumn-1):(SCCOLROW)(thisAddress.EndRow-1); const ScOutlineEntry* pEntry = rOutlineArray.GetEntryByPos( 0, nPos ); if( pEntry ) { const bool bShowDetail = !pEntry->IsHidden(); return uno::makeAny( bShowDetail ); } } else { throw uno::RuntimeException("Can not set Range.ShowDetail attribute" ); } return aNULL(); } void ScVbaRange::setShowDetail(const uno::Any& aShowDetail) throw ( css::uno::RuntimeException, std::exception) { // #FIXME, If the specified range is in a PivotTable report // In MSO VBA, the specified range must be a single summary column or row in an outline. otherwise throw exception if( m_Areas->getCount() > 1 ) throw uno::RuntimeException("Can not set Range.ShowDetail attribute" ); bool bShowDetail = extractBoolFromAny( aShowDetail ); RangeHelper helper( mxRange ); uno::Reference< sheet::XSheetCellCursor > xSheetCellCursor = helper.getSheetCellCursor(); xSheetCellCursor->collapseToCurrentRegion(); uno::Reference< sheet::XCellRangeAddressable > xCellRangeAddressable(xSheetCellCursor, uno::UNO_QUERY_THROW); table::CellRangeAddress aOutlineAddress = xCellRangeAddressable->getRangeAddress(); // check if the specified range is a single summary column or row. table::CellRangeAddress thisAddress = helper.getCellRangeAddressable()->getRangeAddress(); if( (thisAddress.StartRow == thisAddress.EndRow && thisAddress.EndRow == aOutlineAddress.EndRow ) || (thisAddress.StartColumn == thisAddress.EndColumn && thisAddress.EndColumn == aOutlineAddress.EndColumn )) { // #FIXME, seems there is a different behavior between MSO and OOo. // In OOo, the showDetail will show all the level entrys, while only show the first level entry in MSO uno::Reference< sheet::XSheetOutline > xSheetOutline( helper.getSpreadSheet(), uno::UNO_QUERY_THROW ); if( bShowDetail ) xSheetOutline->showDetail( aOutlineAddress ); else xSheetOutline->hideDetail( aOutlineAddress ); } else { throw uno::RuntimeException("Can not set Range.ShowDetail attribute" ); } } uno::Reference< excel::XRange > SAL_CALL ScVbaRange::MergeArea() throw (script::BasicErrorException, uno::RuntimeException, std::exception) { uno::Reference< sheet::XSheetCellRange > xMergeShellCellRange(mxRange->getCellRangeByPosition(0,0,0,0), uno::UNO_QUERY_THROW); uno::Reference< sheet::XSheetCellCursor > xMergeSheetCursor(xMergeShellCellRange->getSpreadsheet()->createCursorByRange( xMergeShellCellRange ), uno::UNO_QUERY_THROW); if( xMergeSheetCursor.is() ) { xMergeSheetCursor->collapseToMergedArea(); uno::Reference xMergeCellAddress(xMergeSheetCursor, uno::UNO_QUERY_THROW); if( xMergeCellAddress.is() ) { table::CellRangeAddress aCellAddress = xMergeCellAddress->getRangeAddress(); if( aCellAddress.StartColumn ==0 && aCellAddress.EndColumn==0 && aCellAddress.StartRow==0 && aCellAddress.EndRow==0) { return new ScVbaRange( mxParent,mxContext,mxRange ); } else { ScRange refRange( static_cast< SCCOL >( aCellAddress.StartColumn ), static_cast< SCROW >( aCellAddress.StartRow ), static_cast< SCTAB >( aCellAddress.Sheet ), static_cast< SCCOL >( aCellAddress.EndColumn ), static_cast< SCROW >( aCellAddress.EndRow ), static_cast< SCTAB >( aCellAddress.Sheet ) ); uno::Reference< table::XCellRange > xRange( new ScCellRangeObj( getScDocShell() , refRange ) ); return new ScVbaRange( mxParent, mxContext,xRange ); } } } return new ScVbaRange( mxParent, mxContext, mxRange ); } void SAL_CALL ScVbaRange::PrintOut( const uno::Any& From, const uno::Any& To, const uno::Any& Copies, const uno::Any& Preview, const uno::Any& ActivePrinter, const uno::Any& PrintToFile, const uno::Any& Collate, const uno::Any& PrToFileName ) throw (uno::RuntimeException, std::exception) { ScDocShell* pShell = NULL; sal_Int32 nItems = m_Areas->getCount(); uno::Sequence< table::CellRangeAddress > printAreas( nItems ); uno::Reference< sheet::XPrintAreas > xPrintAreas; for ( sal_Int32 index=1; index <= nItems; ++index ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny(index), uno::Any() ), uno::UNO_QUERY_THROW ); RangeHelper thisRange( xRange->getCellRange() ); table::CellRangeAddress rangeAddress = thisRange.getCellRangeAddressable()->getRangeAddress(); if ( index == 1 ) { ScVbaRange* pRange = getImplementation( xRange ); // initialise the doc shell and the printareas pShell = getDocShellFromRange( pRange->mxRange ); xPrintAreas.set( thisRange.getSpreadSheet(), uno::UNO_QUERY_THROW ); } printAreas[ index - 1 ] = rangeAddress; } if ( pShell ) { if ( xPrintAreas.is() ) { xPrintAreas->setPrintAreas( printAreas ); uno::Reference< frame::XModel > xModel = pShell->GetModel(); PrintOutHelper( excel::getBestViewShell( xModel ), From, To, Copies, Preview, ActivePrinter, PrintToFile, Collate, PrToFileName, true ); } } } void SAL_CALL ScVbaRange::AutoFill( const uno::Reference< excel::XRange >& Destination, const uno::Any& Type ) throw (uno::RuntimeException, std::exception) { uno::Reference< excel::XRange > xDest( Destination, uno::UNO_QUERY_THROW ); ScVbaRange* pRange = getImplementation( xDest ); RangeHelper destRangeHelper( pRange->mxRange ); table::CellRangeAddress destAddress = destRangeHelper.getCellRangeAddressable()->getRangeAddress(); RangeHelper thisRange( mxRange ); table::CellRangeAddress thisAddress = thisRange.getCellRangeAddressable()->getRangeAddress(); ScRange sourceRange; ScRange destRange; ScUnoConversion::FillScRange( destRange, destAddress ); ScUnoConversion::FillScRange( sourceRange, thisAddress ); FillDir eDir = FILL_TO_BOTTOM; double fStep = 1.0; ScRange aRange( destRange ); ScRange aSourceRange( destRange ); // default to include the number of Rows in the source range; SCCOLROW nSourceCount = ( sourceRange.aEnd.Row() - sourceRange.aStart.Row() ) + 1; SCCOLROW nCount = 0; if ( sourceRange != destRange ) { // Find direction of fill, vertical or horizontal if ( sourceRange.aStart == destRange.aStart ) { if ( sourceRange.aEnd.Row() == destRange.aEnd.Row() ) { nSourceCount = ( sourceRange.aEnd.Col() - sourceRange.aStart.Col() + 1 ); aSourceRange.aEnd.SetCol( static_cast( aSourceRange.aStart.Col() + nSourceCount - 1 ) ); eDir = FILL_TO_RIGHT; nCount = aRange.aEnd.Col() - aSourceRange.aEnd.Col(); } else if ( sourceRange.aEnd.Col() == destRange.aEnd.Col() ) { aSourceRange.aEnd.SetRow( static_cast( aSourceRange.aStart.Row() + nSourceCount ) - 1 ); nCount = aRange.aEnd.Row() - aSourceRange.aEnd.Row(); eDir = FILL_TO_BOTTOM; } } else if ( aSourceRange.aEnd == destRange.aEnd ) { if ( sourceRange.aStart.Col() == destRange.aStart.Col() ) { aSourceRange.aStart.SetRow( static_cast( aSourceRange.aEnd.Row() - nSourceCount + 1 ) ); nCount = aSourceRange.aStart.Row() - aRange.aStart.Row(); eDir = FILL_TO_TOP; fStep = -fStep; } else if ( sourceRange.aStart.Row() == destRange.aStart.Row() ) { nSourceCount = ( sourceRange.aEnd.Col() - sourceRange.aStart.Col() ) + 1; aSourceRange.aStart.SetCol( static_cast( aSourceRange.aEnd.Col() - nSourceCount + 1 ) ); nCount = aSourceRange.aStart.Col() - aRange.aStart.Col(); eDir = FILL_TO_LEFT; fStep = -fStep; } } } FillCmd eCmd = FILL_AUTO; FillDateCmd eDateCmd = FILL_DAY; if ( Type.hasValue() ) { sal_Int16 nFillType = excel::XlAutoFillType::xlFillDefault; Type >>= nFillType; switch ( nFillType ) { case excel::XlAutoFillType::xlFillCopy: eCmd = FILL_SIMPLE; fStep = 0.0; break; case excel::XlAutoFillType::xlFillDays: eCmd = FILL_DATE; break; case excel::XlAutoFillType::xlFillMonths: eCmd = FILL_DATE; eDateCmd = FILL_MONTH; break; case excel::XlAutoFillType::xlFillWeekdays: eCmd = FILL_DATE; eDateCmd = FILL_WEEKDAY; break; case excel::XlAutoFillType::xlFillYears: eCmd = FILL_DATE; eDateCmd = FILL_YEAR; break; case excel::XlAutoFillType::xlGrowthTrend: eCmd = FILL_GROWTH; break; case excel::XlAutoFillType::xlFillFormats: throw uno::RuntimeException("xlFillFormat not supported for AutoFill" ); case excel::XlAutoFillType::xlFillValues: case excel::XlAutoFillType::xlFillSeries: case excel::XlAutoFillType::xlLinearTrend: eCmd = FILL_LINEAR; break; case excel::XlAutoFillType::xlFillDefault: default: eCmd = FILL_AUTO; break; } } double fEndValue = MAXDOUBLE; ScDocShell* pDocSh = getDocShellFromRange( mxRange ); pDocSh->GetDocFunc().FillAuto( aSourceRange, NULL, eDir, eCmd, eDateCmd, nCount, fStep, fEndValue, true, true ); } sal_Bool SAL_CALL ScVbaRange::GoalSeek( const uno::Any& Goal, const uno::Reference< excel::XRange >& ChangingCell ) throw (uno::RuntimeException, std::exception) { ScDocShell* pDocShell = getScDocShell(); bool bRes = true; ScVbaRange* pRange = static_cast< ScVbaRange* >( ChangingCell.get() ); if ( pDocShell && pRange ) { uno::Reference< sheet::XGoalSeek > xGoalSeek( pDocShell->GetModel(), uno::UNO_QUERY_THROW ); RangeHelper thisRange( mxRange ); table::CellRangeAddress thisAddress = thisRange.getCellRangeAddressable()->getRangeAddress(); RangeHelper changingCellRange( pRange->mxRange ); table::CellRangeAddress changingCellAddr = changingCellRange.getCellRangeAddressable()->getRangeAddress(); OUString sGoal = getAnyAsString( Goal ); table::CellAddress thisCell( thisAddress.Sheet, thisAddress.StartColumn, thisAddress.StartRow ); table::CellAddress changingCell( changingCellAddr.Sheet, changingCellAddr.StartColumn, changingCellAddr.StartRow ); sheet::GoalResult res = xGoalSeek->seekGoal( thisCell, changingCell, sGoal ); ChangingCell->setValue( uno::makeAny( res.Result ) ); // openoffice behaves differently, result is 0 if the divergence is too great // but... if it detects 0 is the value it requires then it will use that // e.g. divergence & result both = 0.0 does NOT mean there is an error if ( ( res.Divergence != 0.0 ) && ( res.Result == 0.0 ) ) bRes = false; } else bRes = false; return bRes; } void ScVbaRange::Calculate( ) throw (script::BasicErrorException, uno::RuntimeException, std::exception) { getWorksheet()->Calculate(); } uno::Reference< excel::XRange > SAL_CALL ScVbaRange::Item( const uno::Any& row, const uno::Any& column ) throw (script::BasicErrorException, uno::RuntimeException, std::exception) { if ( mbIsRows || mbIsColumns ) { if ( column.hasValue() ) DebugHelper::basicexception(SbERR_BAD_PARAMETER, OUString() ); uno::Reference< excel::XRange > xRange; if ( mbIsColumns ) xRange = Columns( row ); else xRange = Rows( row ); return xRange; } return Cells( row, column ); } void ScVbaRange::AutoOutline( ) throw (script::BasicErrorException, uno::RuntimeException, std::exception) { // #TODO #FIXME needs to check for summary row/col ( whatever they are ) // not valid for multi Area Addresses if ( m_Areas->getCount() > 1 ) DebugHelper::basicexception(SbERR_METHOD_FAILED, STR_ERRORMESSAGE_APPLIESTOSINGLERANGEONLY); // So needs to either span an entire Row or a just be a single cell // ( that contains a summary RowColumn ) // also the Single cell cause doesn't seem to be handled specially in // this code ( ported from the helperapi RangeImpl.java, // RangeRowsImpl.java, RangesImpl.java, RangeSingleCellImpl.java RangeHelper thisRange( mxRange ); table::CellRangeAddress thisAddress = thisRange.getCellRangeAddressable()->getRangeAddress(); if ( isSingleCellRange() || mbIsRows ) { uno::Reference< sheet::XSheetOutline > xSheetOutline( thisRange.getSpreadSheet(), uno::UNO_QUERY_THROW ); xSheetOutline->autoOutline( thisAddress ); } else DebugHelper::basicexception(SbERR_METHOD_FAILED, OUString()); } void SAL_CALL ScVbaRange:: ClearOutline( ) throw (script::BasicErrorException, uno::RuntimeException, std::exception) { if ( m_Areas->getCount() > 1 ) { sal_Int32 nItems = m_Areas->getCount(); for ( sal_Int32 index=1; index <= nItems; ++index ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny(index), uno::Any() ), uno::UNO_QUERY_THROW ); xRange->ClearOutline(); } return; } RangeHelper thisRange( mxRange ); uno::Reference< sheet::XSheetOutline > xSheetOutline( thisRange.getSpreadSheet(), uno::UNO_QUERY_THROW ); xSheetOutline->clearOutline(); } void ScVbaRange::groupUnGroup( bool bUnGroup ) throw ( script::BasicErrorException, uno::RuntimeException ) { if ( m_Areas->getCount() > 1 ) DebugHelper::basicexception(SbERR_METHOD_FAILED, STR_ERRORMESSAGE_APPLIESTOSINGLERANGEONLY); table::TableOrientation nOrient = table::TableOrientation_ROWS; if ( mbIsColumns ) nOrient = table::TableOrientation_COLUMNS; RangeHelper thisRange( mxRange ); table::CellRangeAddress thisAddress = thisRange.getCellRangeAddressable()->getRangeAddress(); uno::Reference< sheet::XSheetOutline > xSheetOutline( thisRange.getSpreadSheet(), uno::UNO_QUERY_THROW ); if ( bUnGroup ) xSheetOutline->ungroup( thisAddress, nOrient ); else xSheetOutline->group( thisAddress, nOrient ); } void SAL_CALL ScVbaRange::Group( ) throw (script::BasicErrorException, uno::RuntimeException, std::exception) { groupUnGroup(); } void SAL_CALL ScVbaRange::Ungroup( ) throw (script::BasicErrorException, uno::RuntimeException, std::exception) { groupUnGroup(true); } static void lcl_mergeCellsOfRange( const uno::Reference< table::XCellRange >& xCellRange, bool _bMerge = true ) throw ( uno::RuntimeException ) { uno::Reference< util::XMergeable > xMergeable( xCellRange, uno::UNO_QUERY_THROW ); xMergeable->merge(_bMerge); } void SAL_CALL ScVbaRange::Merge( const uno::Any& Across ) throw (script::BasicErrorException, uno::RuntimeException, std::exception) { if ( m_Areas->getCount() > 1 ) { sal_Int32 nItems = m_Areas->getCount(); for ( sal_Int32 index=1; index <= nItems; ++index ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny(index), uno::Any() ), uno::UNO_QUERY_THROW ); xRange->Merge(Across); } return; } uno::Reference< table::XCellRange > oCellRange; bool bAcross = false; Across >>= bAcross; if ( !bAcross ) lcl_mergeCellsOfRange( mxRange ); else { uno::Reference< excel::XRange > oRangeRowsImpl = Rows( uno::Any() ); // #TODO #FIXME this seems incredibly lame, this can't be right for (sal_Int32 i=1; i <= oRangeRowsImpl->getCount();i++) { oRangeRowsImpl->Cells( uno::makeAny( i ), uno::Any() )->Merge( uno::makeAny( false ) ); } } } void SAL_CALL ScVbaRange::UnMerge( ) throw (script::BasicErrorException, uno::RuntimeException, std::exception) { if ( m_Areas->getCount() > 1 ) { sal_Int32 nItems = m_Areas->getCount(); for ( sal_Int32 index=1; index <= nItems; ++index ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny(index), uno::Any() ), uno::UNO_QUERY_THROW ); xRange->UnMerge(); } return; } lcl_mergeCellsOfRange( mxRange, false); } uno::Any SAL_CALL ScVbaRange::getStyle() throw (css::script::BasicErrorException, uno::RuntimeException, std::exception) { if ( m_Areas->getCount() > 1 ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny( sal_Int32( 1 ) ), uno::Any() ), uno::UNO_QUERY_THROW ); return xRange->getStyle(); } uno::Reference< beans::XPropertySet > xProps( mxRange, uno::UNO_QUERY_THROW ); OUString sStyleName; xProps->getPropertyValue( CELLSTYLE ) >>= sStyleName; ScDocShell* pShell = getScDocShell(); uno::Reference< frame::XModel > xModel( pShell->GetModel() ); uno::Reference< excel::XStyle > xStyle = new ScVbaStyle( this, mxContext, sStyleName, xModel ); return uno::makeAny( xStyle ); } void SAL_CALL ScVbaRange::setStyle( const uno::Any& _style ) throw (uno::RuntimeException, std::exception) { if ( m_Areas->getCount() > 1 ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny( sal_Int32( 1 ) ), uno::Any() ), uno::UNO_QUERY_THROW ); xRange->setStyle( _style ); return; } uno::Reference< beans::XPropertySet > xProps( mxRange, uno::UNO_QUERY_THROW ); uno::Reference< excel::XStyle > xStyle; _style >>= xStyle; xProps->setPropertyValue( CELLSTYLE, uno::makeAny( xStyle->getName() ) ); } uno::Reference< excel::XRange > ScVbaRange::PreviousNext( bool bIsPrevious ) { ScMarkData markedRange; ScRange refRange; RangeHelper thisRange( mxRange ); ScUnoConversion::FillScRange( refRange, thisRange.getCellRangeAddressable()->getRangeAddress()); markedRange. SetMarkArea( refRange ); short nMove = bIsPrevious ? -1 : 1; SCCOL nNewX = refRange.aStart.Col(); SCROW nNewY = refRange.aStart.Row(); SCTAB nTab = refRange.aStart.Tab(); ScDocument& rDoc = getScDocument(); rDoc.GetNextPos( nNewX,nNewY, nTab, nMove,0, true,true, markedRange ); refRange.aStart.SetCol( nNewX ); refRange.aStart.SetRow( nNewY ); refRange.aStart.SetTab( nTab ); refRange.aEnd.SetCol( nNewX ); refRange.aEnd.SetRow( nNewY ); refRange.aEnd.SetTab( nTab ); uno::Reference< table::XCellRange > xRange( new ScCellRangeObj( getScDocShell() , refRange ) ); return new ScVbaRange( mxParent, mxContext, xRange ); } uno::Reference< excel::XRange > SAL_CALL ScVbaRange::Next() throw (script::BasicErrorException, uno::RuntimeException, std::exception) { if ( m_Areas->getCount() > 1 ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny( sal_Int32( 1 ) ), uno::Any() ) , uno::UNO_QUERY_THROW ); return xRange->Next(); } return PreviousNext( false ); } uno::Reference< excel::XRange > SAL_CALL ScVbaRange::Previous() throw (script::BasicErrorException, uno::RuntimeException, std::exception) { if ( m_Areas->getCount() > 1 ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny( sal_Int32( 1 ) ), uno::Any() ), uno::UNO_QUERY_THROW ); return xRange->Previous(); } return PreviousNext( true ); } uno::Reference< excel::XRange > SAL_CALL ScVbaRange::SpecialCells( const uno::Any& _oType, const uno::Any& _oValue) throw (script::BasicErrorException, uno::RuntimeException, std::exception) { bool bIsSingleCell = isSingleCellRange(); bool bIsMultiArea = ( m_Areas->getCount() > 1 ); ScVbaRange* pRangeToUse = this; uno::Reference< excel::XRange > xUsedRange( getWorksheet()->getUsedRange() ); sal_Int32 nType = 0; if ( !( _oType >>= nType ) ) DebugHelper::basicexception(SbERR_BAD_PARAMETER, OUString() ); switch(nType) { case excel::XlCellType::xlCellTypeSameFormatConditions: case excel::XlCellType::xlCellTypeAllValidation: case excel::XlCellType::xlCellTypeSameValidation: DebugHelper::basicexception(SbERR_NOT_IMPLEMENTED, OUString()); break; case excel::XlCellType::xlCellTypeBlanks: case excel::XlCellType::xlCellTypeComments: case excel::XlCellType::xlCellTypeConstants: case excel::XlCellType::xlCellTypeFormulas: case excel::XlCellType::xlCellTypeVisible: case excel::XlCellType::xlCellTypeLastCell: { if ( bIsMultiArea ) { // need to process each area, gather the results and // create a new range from those std::vector< table::CellRangeAddress > rangeResults; sal_Int32 nItems = ( m_Areas->getCount() + 1 ); for ( sal_Int32 index=1; index <= nItems; ++index ) { uno::Reference< excel::XRange > xRange( m_Areas->Item( uno::makeAny(index), uno::Any() ), uno::UNO_QUERY_THROW ); xRange = xRange->SpecialCells( _oType, _oValue); ScVbaRange* pRange = getImplementation( xRange ); if ( xRange.is() && pRange ) { sal_Int32 nElems = ( pRange->m_Areas->getCount() + 1 ); for ( sal_Int32 nArea = 1; nArea < nElems; ++nArea ) { uno::Reference< excel::XRange > xTmpRange( m_Areas->Item( uno::makeAny( nArea ), uno::Any() ), uno::UNO_QUERY_THROW ); RangeHelper rHelper( xTmpRange->getCellRange() ); rangeResults.push_back( rHelper.getCellRangeAddressable()->getRangeAddress() ); } } } ScRangeList aCellRanges; std::vector< table::CellRangeAddress >::iterator it = rangeResults.begin(); std::vector< table::CellRangeAddress >::iterator it_end = rangeResults.end(); for ( ; it != it_end; ++ it ) { ScRange refRange; ScUnoConversion::FillScRange( refRange, *it ); aCellRanges.Append( refRange ); } // Single range if ( aCellRanges.size() == 1 ) { uno::Reference< table::XCellRange > xRange( new ScCellRangeObj( getScDocShell(), *aCellRanges.front() ) ); return new ScVbaRange( mxParent, mxContext, xRange ); } uno::Reference< sheet::XSheetCellRangeContainer > xRanges( new ScCellRangesObj( getScDocShell(), aCellRanges ) ); return new ScVbaRange( mxParent, mxContext, xRanges ); } else if ( bIsSingleCell ) { pRangeToUse = static_cast< ScVbaRange* >( xUsedRange.get() ); } break; } default: DebugHelper::basicexception(SbERR_BAD_PARAMETER, OUString() ); break; } if ( !pRangeToUse ) DebugHelper::basicexception(SbERR_METHOD_FAILED, OUString() ); return pRangeToUse->SpecialCellsImpl( nType, _oValue ); } static sal_Int32 lcl_getFormulaResultFlags(const uno::Any& aType) throw ( script::BasicErrorException ) { sal_Int32 nType = excel::XlSpecialCellsValue::xlNumbers; aType >>= nType; sal_Int32 nRes = sheet::FormulaResult::VALUE; switch(nType) { case excel::XlSpecialCellsValue::xlErrors: nRes= sheet::FormulaResult::ERROR; break; case excel::XlSpecialCellsValue::xlLogical: //TODO bc93774: ask NN if this is really an appropriate substitute nRes = sheet::FormulaResult::VALUE; break; case excel::XlSpecialCellsValue::xlNumbers: nRes = sheet::FormulaResult::VALUE; break; case excel::XlSpecialCellsValue::xlTextValues: nRes = sheet::FormulaResult::STRING; break; default: DebugHelper::basicexception(SbERR_BAD_PARAMETER, OUString() ); } return nRes; } uno::Reference< excel::XRange > ScVbaRange::SpecialCellsImpl( sal_Int32 nType, const uno::Any& _oValue) throw ( script::BasicErrorException ) { uno::Reference< excel::XRange > xRange; try { uno::Reference< sheet::XCellRangesQuery > xQuery( mxRange, uno::UNO_QUERY_THROW ); uno::Reference< excel::XRange > oLocRangeImpl; uno::Reference< sheet::XSheetCellRanges > xLocSheetCellRanges; switch(nType) { case excel::XlCellType::xlCellTypeAllFormatConditions: case excel::XlCellType::xlCellTypeSameFormatConditions: case excel::XlCellType::xlCellTypeAllValidation: case excel::XlCellType::xlCellTypeSameValidation: // Shouldn't get here ( should be filtered out by // ScVbaRange::SpecialCells() DebugHelper::basicexception(SbERR_NOT_IMPLEMENTED, OUString()); break; case excel::XlCellType::xlCellTypeBlanks: xLocSheetCellRanges = xQuery->queryEmptyCells(); break; case excel::XlCellType::xlCellTypeComments: xLocSheetCellRanges = xQuery->queryContentCells(sheet::CellFlags::ANNOTATION); break; case excel::XlCellType::xlCellTypeConstants: xLocSheetCellRanges = xQuery->queryContentCells(23); break; case excel::XlCellType::xlCellTypeFormulas: { sal_Int32 nFormulaResult = lcl_getFormulaResultFlags(_oValue); xLocSheetCellRanges = xQuery->queryFormulaCells(nFormulaResult); break; } case excel::XlCellType::xlCellTypeLastCell: xRange = Cells( uno::makeAny( getCount() ), uno::Any() ); case excel::XlCellType::xlCellTypeVisible: xLocSheetCellRanges = xQuery->queryVisibleCells(); break; default: DebugHelper::basicexception(SbERR_BAD_PARAMETER, OUString() ); break; } if (xLocSheetCellRanges.is()) { xRange = lcl_makeXRangeFromSheetCellRanges( getParent(), mxContext, xLocSheetCellRanges, getScDocShell() ); } } catch (uno::Exception& ) { DebugHelper::basicexception(SbERR_METHOD_FAILED, STR_ERRORMESSAGE_NOCELLSWEREFOUND); } return xRange; } void SAL_CALL ScVbaRange::RemoveSubtotal( ) throw (script::BasicErrorException, uno::RuntimeException, std::exception) { uno::Reference< sheet::XSubTotalCalculatable > xSub( mxRange, uno::UNO_QUERY_THROW ); xSub->removeSubTotals(); } void SAL_CALL ScVbaRange::Subtotal( ::sal_Int32 _nGroupBy, ::sal_Int32 _nFunction, const uno::Sequence< ::sal_Int32 >& _nTotalList, const uno::Any& aReplace, const uno::Any& PageBreaks, const uno::Any& /*SummaryBelowData*/ ) throw (script::BasicErrorException, uno::RuntimeException, std::exception) { try { bool bDoReplace = false; aReplace >>= bDoReplace; bool bAddPageBreaks = false; PageBreaks >>= bAddPageBreaks; uno::Reference< sheet::XSubTotalCalculatable> xSub(mxRange, uno::UNO_QUERY_THROW ); uno::Reference< sheet::XSubTotalDescriptor > xSubDesc = xSub->createSubTotalDescriptor(sal_True); uno::Reference< beans::XPropertySet > xSubDescPropertySet( xSubDesc, uno::UNO_QUERY_THROW ); xSubDescPropertySet->setPropertyValue(INSERTPAGEBREAKS, uno::makeAny( bAddPageBreaks)); sal_Int32 nLen = _nTotalList.getLength(); uno::Sequence< sheet::SubTotalColumn > aColumns( nLen ); for (int i = 0; i < nLen; i++) { aColumns[i].Column = _nTotalList[i] - 1; switch (_nFunction) { case excel::XlConsolidationFunction::xlAverage: aColumns[i].Function = sheet::GeneralFunction_AVERAGE; break; case excel::XlConsolidationFunction::xlCount: aColumns[i].Function = sheet::GeneralFunction_COUNT; break; case excel::XlConsolidationFunction::xlCountNums: aColumns[i].Function = sheet::GeneralFunction_COUNTNUMS; break; case excel::XlConsolidationFunction::xlMax: aColumns[i].Function = sheet::GeneralFunction_MAX; break; case excel::XlConsolidationFunction::xlMin: aColumns[i].Function = sheet::GeneralFunction_MIN; break; case excel::XlConsolidationFunction::xlProduct: aColumns[i].Function = sheet::GeneralFunction_PRODUCT; break; case excel::XlConsolidationFunction::xlStDev: aColumns[i].Function = sheet::GeneralFunction_STDEV; break; case excel::XlConsolidationFunction::xlStDevP: aColumns[i].Function = sheet::GeneralFunction_STDEVP; break; case excel::XlConsolidationFunction::xlSum: aColumns[i].Function = sheet::GeneralFunction_SUM; break; case excel::XlConsolidationFunction::xlUnknown: aColumns[i].Function = sheet::GeneralFunction_NONE; break; case excel::XlConsolidationFunction::xlVar: aColumns[i].Function = sheet::GeneralFunction_VAR; break; case excel::XlConsolidationFunction::xlVarP: aColumns[i].Function = sheet::GeneralFunction_VARP; break; default: DebugHelper::basicexception(SbERR_BAD_PARAMETER, OUString()) ; return; } } xSubDesc->addNew(aColumns, _nGroupBy - 1); xSub->applySubTotals(xSubDesc, bDoReplace); } catch (const uno::Exception&) { DebugHelper::basicexception(SbERR_METHOD_FAILED, OUString()); } } OUString ScVbaRange::getServiceImplName() { return OUString("ScVbaRange"); } uno::Sequence< OUString > ScVbaRange::getServiceNames() { static uno::Sequence< OUString > aServiceNames; if ( aServiceNames.getLength() == 0 ) { aServiceNames.realloc( 1 ); aServiceNames[ 0 ] = "ooo.vba.excel.Range"; } return aServiceNames; } sal_Bool SAL_CALL ScVbaRange::hasError() throw (uno::RuntimeException, std::exception) { double dResult = 0.0; uno::Reference< excel::XApplication > xApplication( Application(), uno::UNO_QUERY_THROW ); uno::Reference< script::XInvocation > xInvoc( xApplication->WorksheetFunction(), uno::UNO_QUERY_THROW ); static const char FunctionName[] = "IsError"; uno::Sequence< uno::Any > Params(1); uno::Reference< excel::XRange > aRange( this ); Params[0] = uno::makeAny( aRange ); uno::Sequence< sal_Int16 > OutParamIndex; uno::Sequence< uno::Any > OutParam; xInvoc->invoke( FunctionName, Params, OutParamIndex, OutParam ) >>= dResult; return dResult > 0.0; } namespace range { namespace sdecl = comphelper::service_decl; sdecl::vba_service_class_ > serviceImpl; extern sdecl::ServiceDecl const serviceDecl( serviceImpl, "SvVbaRange", "ooo.vba.excel.Range" ); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */