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See the * GNU Lesser General Public License version 3 for more details * (a copy is included in the LICENSE file that accompanied this code). * * You should have received a copy of the GNU Lesser General Public License * version 3 along with OpenOffice.org. If not, see * * for a copy of the LGPLv3 License. * ************************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_sw.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 using namespace ::com::sun::star; using namespace ::com::sun::star::accessibility; using ::rtl::OUString; using ::rtl::OUStringBuffer; using namespace ::sw::access; const sal_Char sServiceName[] = "com.sun.star.table.AccessibleTableView"; const sal_Char sImplementationName[] = "com.sun.star.comp.Writer.SwAccessibleTableView"; typedef ::std::less < sal_Int32 > Int32Less_Impl; typedef ::std::set < sal_Int32, Int32Less_Impl > Int32Set_Impl; typedef ::std::pair < sal_Int32, sal_Int32 > Int32Pair_Impl; typedef ::std::list < Int32Pair_Impl > Int32PairList_Impl; class SwAccTableSelHander_Impl { public: virtual void Unselect( sal_Int32 nRowOrCol, sal_Int32 nExt ) = 0; }; //------------------------------------------------------------------------------ class SwAccessibleTableData_Impl { SwAccessibleMap& mrAccMap; Int32Set_Impl maRows; Int32Set_Impl maColumns; Int32PairList_Impl maExtents; // cell extends for event processing only Point maTabFrmPos; const SwTabFrm *mpTabFrm; sal_Bool mbIsInPagePreview; bool mbOnlyTableColumnHeader; void CollectData( const SwFrm *pFrm ); void CollectExtents( const SwFrm *pFrm ); sal_Bool FindCell( const Point& rPos, const SwFrm *pFrm , sal_Bool bExact, const SwFrm *& rFrm ) const; void GetSelection( const Point& rTabPos, const SwRect& rArea, const SwSelBoxes& rSelBoxes, const SwFrm *pFrm, SwAccTableSelHander_Impl& rSelHdl, sal_Bool bColumns ) const; // #i77106# inline bool IncludeRow( const SwFrm& rFrm ) const { return !mbOnlyTableColumnHeader || mpTabFrm->IsInHeadline( rFrm ); } // <-- public: // #i77106# - add third optional parameter , default value SwAccessibleTableData_Impl( SwAccessibleMap& rAccMap, const SwTabFrm *pTabFrm, sal_Bool bIsInPagePreview, bool bOnlyTableColumnHeader = false ); // <-- const Int32Set_Impl& GetRows() const { return maRows; } const Int32Set_Impl& GetColumns() const { return maColumns; } inline Int32Set_Impl::const_iterator GetRowIter( sal_Int32 nRow ) const; inline Int32Set_Impl::const_iterator GetColumnIter( sal_Int32 nCol ) const; const SwFrm *GetCell( sal_Int32 nRow, sal_Int32 nColumn, sal_Bool bExact, SwAccessibleTable *pThis ) const throw(lang::IndexOutOfBoundsException ); const SwFrm *GetCellAtPos( sal_Int32 nLeft, sal_Int32 nTop, sal_Bool bExact ) const; inline sal_Int32 GetRowCount() const; inline sal_Int32 GetColumnCount() const; sal_Bool CompareExtents( const SwAccessibleTableData_Impl& r ) const; void GetSelection( sal_Int32 nStart, sal_Int32 nEnd, const SwSelBoxes& rSelBoxes, SwAccTableSelHander_Impl& rSelHdl, sal_Bool bColumns ) const; void CheckRowAndCol( sal_Int32 nRow, sal_Int32 nCol, SwAccessibleTable *pThis ) const throw(lang::IndexOutOfBoundsException ); void GetRowColumnAndExtent( const SwRect& rBox, sal_Int32& rRow, sal_Int32& rColumn, sal_Int32& rRowExtent, sal_Int32& rColumnExtent ) const; const Point& GetTablePos() const { return maTabFrmPos; } void SetTablePos( const Point& rPos ) { maTabFrmPos = rPos; } }; void SwAccessibleTableData_Impl::CollectData( const SwFrm *pFrm ) { const SwAccessibleChildSList aList( *pFrm, mrAccMap ); SwAccessibleChildSList::const_iterator aIter( aList.begin() ); SwAccessibleChildSList::const_iterator aEndIter( aList.end() ); while( aIter != aEndIter ) { const SwAccessibleChild& rLower = *aIter; const SwFrm *pLower = rLower.GetSwFrm(); if( pLower ) { if( pLower->IsRowFrm() ) { // #i77106# if ( IncludeRow( *pLower ) ) { maRows.insert( pLower->Frm().Top() - maTabFrmPos.Y() ); CollectData( pLower ); } } else if( pLower->IsCellFrm() && rLower.IsAccessible( mbIsInPagePreview ) ) { maColumns.insert( pLower->Frm().Left() - maTabFrmPos.X() ); } else { CollectData( pLower ); } } ++aIter; } } void SwAccessibleTableData_Impl::CollectExtents( const SwFrm *pFrm ) { const SwAccessibleChildSList aList( *pFrm, mrAccMap ); SwAccessibleChildSList::const_iterator aIter( aList.begin() ); SwAccessibleChildSList::const_iterator aEndIter( aList.end() ); while( aIter != aEndIter ) { const SwAccessibleChild& rLower = *aIter; const SwFrm *pLower = rLower.GetSwFrm(); if( pLower ) { if( pLower->IsCellFrm() && rLower.IsAccessible( mbIsInPagePreview ) ) { sal_Int32 nRow, nCol; Int32Pair_Impl aCellExtents; GetRowColumnAndExtent( pLower->Frm(), nRow, nCol, aCellExtents.first, aCellExtents.second ); maExtents.push_back( aCellExtents ); } else { // #i77106# if ( !pLower->IsRowFrm() || IncludeRow( *pLower ) ) { CollectExtents( pLower ); } } } ++aIter; } } sal_Bool SwAccessibleTableData_Impl::FindCell( const Point& rPos, const SwFrm *pFrm, sal_Bool bExact, const SwFrm *& rRet ) const { sal_Bool bFound = sal_False; const SwAccessibleChildSList aList( *pFrm, mrAccMap ); SwAccessibleChildSList::const_iterator aIter( aList.begin() ); SwAccessibleChildSList::const_iterator aEndIter( aList.end() ); while( !bFound && aIter != aEndIter ) { const SwAccessibleChild& rLower = *aIter; const SwFrm *pLower = rLower.GetSwFrm(); OSL_ENSURE( pLower, "child should be a frame" ); if( pLower ) { if( rLower.IsAccessible( mbIsInPagePreview ) ) { OSL_ENSURE( pLower->IsCellFrm(), "lower is not a cell frame" ); const SwRect& rFrm = pLower->Frm(); if( rFrm.Right() >= rPos.X() && rFrm.Bottom() >= rPos.Y() ) { // We have found the cell OSL_ENSURE( rFrm.Left() <= rPos.X() && rFrm.Top() <= rPos.Y(), "find frame moved to far!" ); bFound = sal_True; if( !bExact || (rFrm.Top() == rPos.Y() && rFrm.Left() == rPos.Y() ) ) { rRet = pLower; } } } else { // #i77106# if ( !pLower->IsRowFrm() || IncludeRow( *pLower ) ) { bFound = FindCell( rPos, pLower, bExact, rRet ); } } } ++aIter; } return bFound; } void SwAccessibleTableData_Impl::GetSelection( const Point& rTabPos, const SwRect& rArea, const SwSelBoxes& rSelBoxes, const SwFrm *pFrm, SwAccTableSelHander_Impl& rSelHdl, sal_Bool bColumns ) const { const SwAccessibleChildSList aList( *pFrm, mrAccMap ); SwAccessibleChildSList::const_iterator aIter( aList.begin() ); SwAccessibleChildSList::const_iterator aEndIter( aList.end() ); while( aIter != aEndIter ) { const SwAccessibleChild& rLower = *aIter; const SwFrm *pLower = rLower.GetSwFrm(); OSL_ENSURE( pLower, "child should be a frame" ); const SwRect& rBox = rLower.GetBox( mrAccMap ); if( pLower && rBox.IsOver( rArea ) ) { if( rLower.IsAccessible( mbIsInPagePreview ) ) { OSL_ENSURE( pLower->IsCellFrm(), "lower is not a cell frame" ); const SwCellFrm *pCFrm = static_cast < const SwCellFrm * >( pLower ); SwTableBox *pBox = const_cast< SwTableBox *>( pCFrm->GetTabBox() ); //SVPtrArr! if( !rSelBoxes.Seek_Entry( pBox ) ) { const Int32Set_Impl rRowsOrCols = bColumns ? maColumns : maRows; sal_Int32 nPos = bColumns ? (rBox.Left() - rTabPos.X()) : (rBox.Top() - rTabPos.Y()); Int32Set_Impl::const_iterator aSttRowOrCol( rRowsOrCols.lower_bound( nPos ) ); sal_Int32 nRowOrCol = static_cast< sal_Int32 >( ::std::distance( rRowsOrCols.begin(), aSttRowOrCol ) ); nPos = bColumns ? (rBox.Right() - rTabPos.X()) : (rBox.Bottom() - rTabPos.Y()); Int32Set_Impl::const_iterator aEndRowOrCol( rRowsOrCols.upper_bound( nPos ) ); sal_Int32 nExt = static_cast< sal_Int32 >( ::std::distance( aSttRowOrCol, aEndRowOrCol ) ); rSelHdl.Unselect( nRowOrCol, nExt ); } } else { // #i77106# if ( !pLower->IsRowFrm() || IncludeRow( *pLower ) ) { GetSelection( rTabPos, rArea, rSelBoxes, pLower, rSelHdl, bColumns ); } } } ++aIter; } } const SwFrm *SwAccessibleTableData_Impl::GetCell( sal_Int32 nRow, sal_Int32 nColumn, sal_Bool, SwAccessibleTable *pThis ) const throw(lang::IndexOutOfBoundsException ) { CheckRowAndCol( nRow, nColumn, pThis ); Int32Set_Impl::const_iterator aSttCol( GetColumnIter( nColumn ) ); Int32Set_Impl::const_iterator aSttRow( GetRowIter( nRow ) ); const SwFrm *pCellFrm = GetCellAtPos( *aSttCol, *aSttRow, sal_False ); return pCellFrm; } void SwAccessibleTableData_Impl::GetSelection( sal_Int32 nStart, sal_Int32 nEnd, const SwSelBoxes& rSelBoxes, SwAccTableSelHander_Impl& rSelHdl, sal_Bool bColumns ) const { SwRect aArea( mpTabFrm->Frm() ); Point aPos( aArea.Pos() ); const Int32Set_Impl& rRowsOrColumns = bColumns ? maColumns : maRows; if( nStart > 0 ) { Int32Set_Impl::const_iterator aStt( rRowsOrColumns.begin() ); ::std::advance( aStt, static_cast< Int32Set_Impl::difference_type >( nStart ) ); if( bColumns ) aArea.Left( *aStt + aPos.X() ); else aArea.Top( *aStt + aPos.Y() ); } if( nEnd < static_cast< sal_Int32 >( rRowsOrColumns.size() ) ) { Int32Set_Impl::const_iterator aEnd( rRowsOrColumns.begin() ); ::std::advance( aEnd, static_cast< Int32Set_Impl::difference_type >( nEnd ) ); if( bColumns ) aArea.Right( *aEnd + aPos.X() - 1 ); else aArea.Bottom( *aEnd + aPos.Y() - 1 ); } GetSelection( aPos, aArea, rSelBoxes, mpTabFrm, rSelHdl, bColumns ); } const SwFrm *SwAccessibleTableData_Impl::GetCellAtPos( sal_Int32 nLeft, sal_Int32 nTop, sal_Bool bExact ) const { Point aPos( mpTabFrm->Frm().Pos() ); aPos.Move( nLeft, nTop ); const SwFrm *pRet = 0; FindCell( aPos, mpTabFrm, bExact, pRet ); return pRet; } inline sal_Int32 SwAccessibleTableData_Impl::GetRowCount() const { return static_cast< sal_Int32 >( maRows.size() ); } inline sal_Int32 SwAccessibleTableData_Impl::GetColumnCount() const { return static_cast< sal_Int32 >( maColumns.size() ); } sal_Bool SwAccessibleTableData_Impl::CompareExtents( const SwAccessibleTableData_Impl& rCmp ) const { if( maExtents.size() != rCmp.maExtents.size() ) return sal_False; Int32PairList_Impl::const_iterator aIter( maExtents.begin() ); Int32PairList_Impl::const_iterator aEndIter( maExtents.end() ); Int32PairList_Impl::const_iterator aCmpIter( rCmp.maExtents.begin() ); while( aIter != aEndIter ) { if( *aIter != *aCmpIter ) return sal_False; ++aIter; ++aCmpIter; } return sal_True; } SwAccessibleTableData_Impl::SwAccessibleTableData_Impl( SwAccessibleMap& rAccMap, const SwTabFrm *pTabFrm, sal_Bool bIsInPagePreview, bool bOnlyTableColumnHeader ) : mrAccMap( rAccMap ) , maTabFrmPos( pTabFrm->Frm().Pos() ) , mpTabFrm( pTabFrm ) , mbIsInPagePreview( bIsInPagePreview ) , mbOnlyTableColumnHeader( bOnlyTableColumnHeader ) { CollectData( mpTabFrm ); CollectExtents( mpTabFrm ); } inline Int32Set_Impl::const_iterator SwAccessibleTableData_Impl::GetRowIter( sal_Int32 nRow ) const { Int32Set_Impl::const_iterator aCol( GetRows().begin() ); if( nRow > 0 ) { ::std::advance( aCol, static_cast< Int32Set_Impl::difference_type >( nRow ) ); } return aCol; } inline Int32Set_Impl::const_iterator SwAccessibleTableData_Impl::GetColumnIter( sal_Int32 nColumn ) const { Int32Set_Impl::const_iterator aCol = GetColumns().begin(); if( nColumn > 0 ) { ::std::advance( aCol, static_cast< Int32Set_Impl::difference_type >( nColumn ) ); } return aCol; } void SwAccessibleTableData_Impl::CheckRowAndCol( sal_Int32 nRow, sal_Int32 nCol, SwAccessibleTable *pThis ) const throw(lang::IndexOutOfBoundsException ) { if( ( nRow < 0 || nRow >= static_cast< sal_Int32 >( maRows.size() ) ) || ( nCol < 0 || nCol >= static_cast< sal_Int32 >( maColumns.size() ) ) ) { uno::Reference < XAccessibleTable > xThis( pThis ); lang::IndexOutOfBoundsException aExcept( OUString( RTL_CONSTASCII_USTRINGPARAM( "row or column index out of range") ), xThis ); throw aExcept; } } void SwAccessibleTableData_Impl::GetRowColumnAndExtent( const SwRect& rBox, sal_Int32& rRow, sal_Int32& rColumn, sal_Int32& rRowExtent, sal_Int32& rColumnExtent ) const { Int32Set_Impl::const_iterator aStt( maRows.lower_bound( rBox.Top() - maTabFrmPos.Y() ) ); Int32Set_Impl::const_iterator aEnd( maRows.upper_bound( rBox.Bottom() - maTabFrmPos.Y() ) ); rRow = static_cast< sal_Int32 >( ::std::distance( maRows.begin(), aStt ) ); rRowExtent = static_cast< sal_Int32 >( ::std::distance( aStt, aEnd ) ); aStt = maColumns.lower_bound( rBox.Left() - maTabFrmPos.X() ); aEnd = maColumns.upper_bound( rBox.Right() - maTabFrmPos.X() ); rColumn = static_cast< sal_Int32 >( ::std::distance( maColumns.begin(), aStt ) ); rColumnExtent = static_cast< sal_Int32 >( ::std::distance( aStt, aEnd ) ); } //------------------------------------------------------------------------------ class SwAccSingleTableSelHander_Impl : public SwAccTableSelHander_Impl { sal_Bool bSelected; public: inline SwAccSingleTableSelHander_Impl(); inline sal_Bool IsSelected() const { return bSelected; } virtual void Unselect( sal_Int32, sal_Int32 ); }; inline SwAccSingleTableSelHander_Impl::SwAccSingleTableSelHander_Impl() : bSelected( sal_True ) { } void SwAccSingleTableSelHander_Impl::Unselect( sal_Int32, sal_Int32 ) { bSelected = sal_False; } //------------------------------------------------------------------------------ class SwAccAllTableSelHander_Impl : public SwAccTableSelHander_Impl { ::std::vector< sal_Bool > aSelected; sal_Int32 nCount; public: inline SwAccAllTableSelHander_Impl( sal_Int32 nSize ); uno::Sequence < sal_Int32 > GetSelSequence(); virtual void Unselect( sal_Int32 nRowOrCol, sal_Int32 nExt ); virtual ~SwAccAllTableSelHander_Impl(); }; SwAccAllTableSelHander_Impl::~SwAccAllTableSelHander_Impl() { } inline SwAccAllTableSelHander_Impl::SwAccAllTableSelHander_Impl( sal_Int32 nSize ) : aSelected( nSize, sal_True ), nCount( nSize ) { } uno::Sequence < sal_Int32 > SwAccAllTableSelHander_Impl::GetSelSequence() { OSL_ENSURE( nCount >= 0, "underflow" ); uno::Sequence < sal_Int32 > aRet( nCount ); sal_Int32 *pRet = aRet.getArray(); sal_Int32 nPos = 0; size_t nSize = aSelected.size(); for( size_t i=0; i < nSize && nPos < nCount; i++ ) { if( aSelected[i] ) { *pRet++ = i; nPos++; } } OSL_ENSURE( nPos == nCount, "count is wrong" ); return aRet; } void SwAccAllTableSelHander_Impl::Unselect( sal_Int32 nRowOrCol, sal_Int32 nExt ) { OSL_ENSURE( static_cast< size_t >( nRowOrCol ) < aSelected.size(), "index to large" ); OSL_ENSURE( static_cast< size_t >( nRowOrCol+nExt ) <= aSelected.size(), "extent to large" ); while( nExt ) { if( aSelected[static_cast< size_t >( nRowOrCol )] ) { aSelected[static_cast< size_t >( nRowOrCol )] = sal_False; nCount--; } nExt--; nRowOrCol++; } } //------------------------------------------------------------------------------ const SwSelBoxes *SwAccessibleTable::GetSelBoxes() const { const SwSelBoxes *pSelBoxes = 0; const SwCrsrShell *pCSh = GetCrsrShell(); if( (pCSh != NULL) && pCSh->IsTableMode() ) { pSelBoxes = &pCSh->GetTableCrsr()->GetBoxes(); } return pSelBoxes; } void SwAccessibleTable::FireTableChangeEvent( const SwAccessibleTableData_Impl& rTableData ) { AccessibleTableModelChange aModelChange; aModelChange.Type = AccessibleTableModelChangeType::UPDATE; aModelChange.FirstRow = 0; aModelChange.LastRow = rTableData.GetRowCount() - 1; aModelChange.FirstColumn = 0; aModelChange.LastColumn = rTableData.GetColumnCount() - 1; AccessibleEventObject aEvent; aEvent.EventId = AccessibleEventId::TABLE_MODEL_CHANGED; aEvent.NewValue <<= aModelChange; FireAccessibleEvent( aEvent ); } const SwTableBox* SwAccessibleTable::GetTableBox( sal_Int32 nChildIndex ) const { DBG_ASSERT( nChildIndex >= 0, "Illegal child index." ); DBG_ASSERT( nChildIndex < const_cast(this)->getAccessibleChildCount(), "Illegal child index." ); // #i77106# const SwTableBox* pBox = NULL; // get table box for 'our' table cell SwAccessibleChild aCell( GetChild( *(const_cast(GetMap())), nChildIndex ) ); if( aCell.GetSwFrm() ) { const SwFrm* pChildFrm = aCell.GetSwFrm(); if( (pChildFrm != NULL) && pChildFrm->IsCellFrm() ) { const SwCellFrm* pCellFrm = static_cast( pChildFrm ); pBox = pCellFrm->GetTabBox(); } } DBG_ASSERT( pBox != NULL, "We need the table box." ); return pBox; } sal_Bool SwAccessibleTable::IsChildSelected( sal_Int32 nChildIndex ) const { sal_Bool bRet = sal_False; const SwSelBoxes* pSelBoxes = GetSelBoxes(); if( pSelBoxes ) { const SwTableBox* pBox = GetTableBox( nChildIndex ); DBG_ASSERT( pBox != NULL, "We need the table box." ); bRet = pSelBoxes->Seek_Entry( const_cast( pBox ) ); } return bRet; } sal_Int32 SwAccessibleTable::GetIndexOfSelectedChild( sal_Int32 nSelectedChildIndex ) const { // iterate over all children to n-th isAccessibleChildSelected() sal_Int32 nChildren = const_cast(this)->getAccessibleChildCount(); // #i77106# if( nSelectedChildIndex >= nChildren ) return -1L; sal_Int32 n = 0; while( n < nChildren ) { if( IsChildSelected( n ) ) { if( 0 == nSelectedChildIndex ) break; else --nSelectedChildIndex; } ++n; } return n < nChildren ? n : -1L; } void SwAccessibleTable::GetStates( ::utl::AccessibleStateSetHelper& rStateSet ) { SwAccessibleContext::GetStates( rStateSet ); // MULTISELECTABLE SwCrsrShell* pCrsrShell = GetCrsrShell(); if( pCrsrShell ) rStateSet.AddState( AccessibleStateType::MULTI_SELECTABLE ); } SwAccessibleTable::SwAccessibleTable( SwAccessibleMap* pInitMap, const SwTabFrm* pTabFrm ) : SwAccessibleContext( pInitMap, AccessibleRole::TABLE, pTabFrm ), mpTableData( 0 ) { SolarMutexGuard aGuard; const SwFrmFmt *pFrmFmt = pTabFrm->GetFmt(); const_cast< SwFrmFmt * >( pFrmFmt )->Add( this ); const String& rName = pFrmFmt->GetName(); OUStringBuffer aBuffer( rName.Len() + 4 ); aBuffer.append( OUString(rName) ); aBuffer.append( static_cast( '-' ) ); aBuffer.append( static_cast( pTabFrm->GetPhyPageNum() ) ); SetName( aBuffer.makeStringAndClear() ); OUString sArg1( static_cast< const SwTabFrm * >( GetFrm() ) ->GetFmt()->GetName() ); OUString sArg2( GetFormattedPageNumber() ); sDesc = GetResource( STR_ACCESS_TABLE_DESC, &sArg1, &sArg2 ); } SwAccessibleTable::~SwAccessibleTable() { SolarMutexGuard aGuard; delete mpTableData; } void SwAccessibleTable::Modify( SfxPoolItem *pOld, SfxPoolItem *pNew) { sal_uInt16 nWhich = pOld ? pOld->Which() : pNew ? pNew->Which() : 0 ; const SwTabFrm *pTabFrm = static_cast< const SwTabFrm * >( GetFrm() ); switch( nWhich ) { case RES_NAME_CHANGED: if( pTabFrm ) { const SwFrmFmt *pFrmFmt = pTabFrm->GetFmt(); OSL_ENSURE( pFrmFmt == GetRegisteredIn(), "invalid frame" ); OUString sOldName( GetName() ); const String& rNewTabName = pFrmFmt->GetName(); OUStringBuffer aBuffer( rNewTabName.Len() + 4 ); aBuffer.append( OUString(rNewTabName) ); aBuffer.append( static_cast( '-' ) ); aBuffer.append( static_cast( pTabFrm->GetPhyPageNum() ) ); SetName( aBuffer.makeStringAndClear() ); if( sOldName != GetName() ) { AccessibleEventObject aEvent; aEvent.EventId = AccessibleEventId::NAME_CHANGED; aEvent.OldValue <<= sOldName; aEvent.NewValue <<= GetName(); FireAccessibleEvent( aEvent ); } OUString sOldDesc( sDesc ); OUString sArg1( rNewTabName ); OUString sArg2( GetFormattedPageNumber() ); sDesc = GetResource( STR_ACCESS_TABLE_DESC, &sArg1, &sArg2 ); if( sDesc != sOldDesc ) { AccessibleEventObject aEvent; aEvent.EventId = AccessibleEventId::DESCRIPTION_CHANGED; aEvent.OldValue <<= sOldDesc; aEvent.NewValue <<= sDesc; FireAccessibleEvent( aEvent ); } } break; case RES_OBJECTDYING: if( GetRegisteredIn() == static_cast< SwModify *>( static_cast< SwPtrMsgPoolItem * >( pOld )->pObject ) ) pRegisteredIn->Remove( this ); break; default: SwClient::Modify( pOld, pNew ); break; } } uno::Any SwAccessibleTable::queryInterface( const uno::Type& rType ) throw (uno::RuntimeException) { uno::Any aRet; if ( rType == ::getCppuType( static_cast< uno::Reference< XAccessibleTable > * >( 0 ) ) ) { uno::Reference xThis( this ); aRet <<= xThis; } else if ( rType == ::getCppuType( static_cast< uno::Reference< XAccessibleSelection > * >( 0 ) ) ) { uno::Reference xSelection( this ); aRet <<= xSelection; } else { aRet = SwAccessibleContext::queryInterface(rType); } return aRet; } //====== XTypeProvider ==================================================== uno::Sequence< uno::Type > SAL_CALL SwAccessibleTable::getTypes() throw(uno::RuntimeException) { uno::Sequence< uno::Type > aTypes( SwAccessibleContext::getTypes() ); sal_Int32 nIndex = aTypes.getLength(); aTypes.realloc( nIndex + 2 ); uno::Type* pTypes = aTypes.getArray(); pTypes[nIndex++] = ::getCppuType( static_cast< uno::Reference< XAccessibleSelection > * >( 0 ) ); pTypes[nIndex++] = ::getCppuType( static_cast< uno::Reference< XAccessibleTable > * >( 0 ) ); return aTypes; } uno::Sequence< sal_Int8 > SAL_CALL SwAccessibleTable::getImplementationId() throw(uno::RuntimeException) { SolarMutexGuard aGuard; static uno::Sequence< sal_Int8 > aId( 16 ); static sal_Bool bInit = sal_False; if(!bInit) { rtl_createUuid( (sal_uInt8 *)(aId.getArray() ), 0, sal_True ); bInit = sal_True; } return aId; } // #i77106# SwAccessibleTableData_Impl* SwAccessibleTable::CreateNewTableData() { const SwTabFrm* pTabFrm = static_cast( GetFrm() ); return new SwAccessibleTableData_Impl( *GetMap(), pTabFrm, IsInPagePreview() ); } // <-- void SwAccessibleTable::UpdateTableData() { // #i77106# - usage of new method delete mpTableData; mpTableData = CreateNewTableData(); // <-- } void SwAccessibleTable::ClearTableData() { delete mpTableData; mpTableData = 0; } OUString SAL_CALL SwAccessibleTable::getAccessibleDescription (void) throw (uno::RuntimeException) { SolarMutexGuard aGuard; CHECK_FOR_DEFUNC( XAccessibleContext ) return sDesc; } sal_Int32 SAL_CALL SwAccessibleTable::getAccessibleRowCount() throw (uno::RuntimeException) { SolarMutexGuard aGuard; CHECK_FOR_DEFUNC( XAccessibleTable ) return GetTableData().GetRowCount(); } sal_Int32 SAL_CALL SwAccessibleTable::getAccessibleColumnCount( ) throw (uno::RuntimeException) { SolarMutexGuard aGuard; CHECK_FOR_DEFUNC( XAccessibleTable ) return GetTableData().GetColumnCount(); } OUString SAL_CALL SwAccessibleTable::getAccessibleRowDescription( sal_Int32 nRow ) throw (lang::IndexOutOfBoundsException, uno::RuntimeException) { // #i87532# - determine table cell in th row and // in first column of row header table and return its text content. OUString sRowDesc; GetTableData().CheckRowAndCol(nRow, 0, this); uno::Reference< XAccessibleTable > xTableRowHeader = getAccessibleRowHeaders(); if ( xTableRowHeader.is() ) { uno::Reference< XAccessible > xRowHeaderCell = xTableRowHeader->getAccessibleCellAt( nRow, 0 ); OSL_ENSURE( xRowHeaderCell.is(), " - missing row header cell -> serious issue." ); uno::Reference< XAccessibleContext > xRowHeaderCellContext = xRowHeaderCell->getAccessibleContext(); const sal_Int32 nCellChildCount( xRowHeaderCellContext->getAccessibleChildCount() ); for ( sal_Int32 nChildIndex = 0; nChildIndex < nCellChildCount; ++nChildIndex ) { uno::Reference< XAccessible > xChild = xRowHeaderCellContext->getAccessibleChild( nChildIndex ); uno::Reference< XAccessibleText > xChildText( xChild, uno::UNO_QUERY ); if ( xChildText.is() ) { sRowDesc = sRowDesc + xChildText->getText(); } } } return sRowDesc; // <-- } OUString SAL_CALL SwAccessibleTable::getAccessibleColumnDescription( sal_Int32 nColumn ) throw (lang::IndexOutOfBoundsException, uno::RuntimeException) { // #i87532# - determine table cell in first row and // in th column of column header table and return its text content. OUString sColumnDesc; GetTableData().CheckRowAndCol(0, nColumn, this); uno::Reference< XAccessibleTable > xTableColumnHeader = getAccessibleColumnHeaders(); if ( xTableColumnHeader.is() ) { uno::Reference< XAccessible > xColumnHeaderCell = xTableColumnHeader->getAccessibleCellAt( 0, nColumn ); OSL_ENSURE( xColumnHeaderCell.is(), " - missing column header cell -> serious issue." ); uno::Reference< XAccessibleContext > xColumnHeaderCellContext = xColumnHeaderCell->getAccessibleContext(); const sal_Int32 nCellChildCount( xColumnHeaderCellContext->getAccessibleChildCount() ); for ( sal_Int32 nChildIndex = 0; nChildIndex < nCellChildCount; ++nChildIndex ) { uno::Reference< XAccessible > xChild = xColumnHeaderCellContext->getAccessibleChild( nChildIndex ); uno::Reference< XAccessibleText > xChildText( xChild, uno::UNO_QUERY ); if ( xChildText.is() ) { sColumnDesc = sColumnDesc + xChildText->getText(); } } } return sColumnDesc; // <-- } sal_Int32 SAL_CALL SwAccessibleTable::getAccessibleRowExtentAt( sal_Int32 nRow, sal_Int32 nColumn ) throw (lang::IndexOutOfBoundsException, uno::RuntimeException) { sal_Int32 nExtend = -1; SolarMutexGuard aGuard; CHECK_FOR_DEFUNC( XAccessibleTable ) GetTableData().CheckRowAndCol( nRow, nColumn, this ); Int32Set_Impl::const_iterator aSttCol( GetTableData().GetColumnIter( nColumn ) ); Int32Set_Impl::const_iterator aSttRow( GetTableData().GetRowIter( nRow ) ); const SwFrm *pCellFrm = GetTableData().GetCellAtPos( *aSttCol, *aSttRow, sal_False ); if( pCellFrm ) { sal_Int32 nBottom = pCellFrm->Frm().Bottom(); nBottom -= GetFrm()->Frm().Top(); Int32Set_Impl::const_iterator aEndRow( GetTableData().GetRows().upper_bound( nBottom ) ); nExtend = static_cast< sal_Int32 >( ::std::distance( aSttRow, aEndRow ) ); } return nExtend; } sal_Int32 SAL_CALL SwAccessibleTable::getAccessibleColumnExtentAt( sal_Int32 nRow, sal_Int32 nColumn ) throw (lang::IndexOutOfBoundsException, uno::RuntimeException) { sal_Int32 nExtend = -1; SolarMutexGuard aGuard; CHECK_FOR_DEFUNC( XAccessibleTable ) GetTableData().CheckRowAndCol( nRow, nColumn, this ); Int32Set_Impl::const_iterator aSttCol( GetTableData().GetColumnIter( nColumn ) ); Int32Set_Impl::const_iterator aSttRow( GetTableData().GetRowIter( nRow ) ); const SwFrm *pCellFrm = GetTableData().GetCellAtPos( *aSttCol, *aSttRow, sal_False ); if( pCellFrm ) { sal_Int32 nRight = pCellFrm->Frm().Right(); nRight -= GetFrm()->Frm().Left(); Int32Set_Impl::const_iterator aEndCol( GetTableData().GetColumns().upper_bound( nRight ) ); nExtend = static_cast< sal_Int32 >( ::std::distance( aSttCol, aEndCol ) ); } return nExtend; } uno::Reference< XAccessibleTable > SAL_CALL SwAccessibleTable::getAccessibleRowHeaders( ) throw (uno::RuntimeException) { // Row headers aren't supported return uno::Reference< XAccessibleTable >(); } uno::Reference< XAccessibleTable > SAL_CALL SwAccessibleTable::getAccessibleColumnHeaders( ) throw (uno::RuntimeException) { // #i87532# - assure that return accesible object is empty, // if no column header exists. SwAccessibleTableColHeaders* pTableColHeaders = new SwAccessibleTableColHeaders( GetMap(), static_cast< const SwTabFrm *>( GetFrm() ) ); uno::Reference< XAccessibleTable > xTableColumnHeaders( pTableColHeaders ); if ( pTableColHeaders->getAccessibleChildCount() <= 0 ) { return uno::Reference< XAccessibleTable >(); } return xTableColumnHeaders; // <-- } uno::Sequence< sal_Int32 > SAL_CALL SwAccessibleTable::getSelectedAccessibleRows() throw (uno::RuntimeException) { SolarMutexGuard aGuard; CHECK_FOR_DEFUNC( XAccessibleTable ) const SwSelBoxes *pSelBoxes = GetSelBoxes(); if( pSelBoxes ) { sal_Int32 nRows = GetTableData().GetRowCount(); SwAccAllTableSelHander_Impl aSelRows( nRows ); GetTableData().GetSelection( 0, nRows, *pSelBoxes, aSelRows, sal_False ); return aSelRows.GetSelSequence(); } else { return uno::Sequence< sal_Int32 >( 0 ); } } uno::Sequence< sal_Int32 > SAL_CALL SwAccessibleTable::getSelectedAccessibleColumns() throw (uno::RuntimeException) { SolarMutexGuard aGuard; CHECK_FOR_DEFUNC( XAccessibleTable ) const SwSelBoxes *pSelBoxes = GetSelBoxes(); if( pSelBoxes ) { sal_Int32 nCols = GetTableData().GetColumnCount(); SwAccAllTableSelHander_Impl aSelCols( nCols ); GetTableData().GetSelection( 0, nCols, *pSelBoxes, aSelCols, sal_True ); return aSelCols.GetSelSequence(); } else { return uno::Sequence< sal_Int32 >( 0 ); } } sal_Bool SAL_CALL SwAccessibleTable::isAccessibleRowSelected( sal_Int32 nRow ) throw (lang::IndexOutOfBoundsException, uno::RuntimeException) { SolarMutexGuard aGuard; CHECK_FOR_DEFUNC( XAccessibleTable ) GetTableData().CheckRowAndCol( nRow, 0, this ); sal_Bool bRet; const SwSelBoxes *pSelBoxes = GetSelBoxes(); if( pSelBoxes ) { SwAccSingleTableSelHander_Impl aSelRow; GetTableData().GetSelection( nRow, nRow+1, *pSelBoxes, aSelRow, sal_False ); bRet = aSelRow.IsSelected(); } else { bRet = sal_False; } return bRet; } sal_Bool SAL_CALL SwAccessibleTable::isAccessibleColumnSelected( sal_Int32 nColumn ) throw (lang::IndexOutOfBoundsException, uno::RuntimeException) { SolarMutexGuard aGuard; CHECK_FOR_DEFUNC( XAccessibleTable ) GetTableData().CheckRowAndCol( 0, nColumn, this ); sal_Bool bRet; const SwSelBoxes *pSelBoxes = GetSelBoxes(); if( pSelBoxes ) { SwAccSingleTableSelHander_Impl aSelCol; GetTableData().GetSelection( nColumn, nColumn+1, *pSelBoxes, aSelCol, sal_True ); bRet = aSelCol.IsSelected(); } else { bRet = sal_False; } return bRet; } uno::Reference< XAccessible > SAL_CALL SwAccessibleTable::getAccessibleCellAt( sal_Int32 nRow, sal_Int32 nColumn ) throw (lang::IndexOutOfBoundsException, uno::RuntimeException) { uno::Reference< XAccessible > xRet; SolarMutexGuard aGuard; CHECK_FOR_DEFUNC( XAccessibleTable ) const SwFrm *pCellFrm = GetTableData().GetCell( nRow, nColumn, sal_False, this ); if( pCellFrm ) xRet = GetMap()->GetContext( pCellFrm, sal_True ); return xRet; } uno::Reference< XAccessible > SAL_CALL SwAccessibleTable::getAccessibleCaption() throw (uno::RuntimeException) { // captions aren't supported return uno::Reference< XAccessible >(); } uno::Reference< XAccessible > SAL_CALL SwAccessibleTable::getAccessibleSummary() throw (uno::RuntimeException) { // summaries aren't supported return uno::Reference< XAccessible >(); } sal_Bool SAL_CALL SwAccessibleTable::isAccessibleSelected( sal_Int32 nRow, sal_Int32 nColumn ) throw (lang::IndexOutOfBoundsException, uno::RuntimeException) { sal_Bool bRet = sal_False; SolarMutexGuard aGuard; CHECK_FOR_DEFUNC( XAccessibleTable ) const SwFrm *pFrm = GetTableData().GetCell( nRow, nColumn, sal_False, this ); if( pFrm && pFrm->IsCellFrm() ) { const SwSelBoxes *pSelBoxes = GetSelBoxes(); if( pSelBoxes ) { const SwCellFrm *pCFrm = static_cast < const SwCellFrm * >( pFrm ); SwTableBox *pBox = const_cast< SwTableBox *>( pCFrm->GetTabBox() ); //SVPtrArr! bRet = pSelBoxes->Seek_Entry( pBox ); } } return bRet; } sal_Int32 SAL_CALL SwAccessibleTable::getAccessibleIndex( sal_Int32 nRow, sal_Int32 nColumn ) throw (lang::IndexOutOfBoundsException, uno::RuntimeException) { sal_Int32 nRet = -1; SolarMutexGuard aGuard; CHECK_FOR_DEFUNC( XAccessibleTable ) SwAccessibleChild aCell( GetTableData().GetCell( nRow, nColumn, sal_False, this )); if ( aCell.IsValid() ) { nRet = GetChildIndex( *(GetMap()), aCell ); } return nRet; } sal_Int32 SAL_CALL SwAccessibleTable::getAccessibleRow( sal_Int32 nChildIndex ) throw (lang::IndexOutOfBoundsException, uno::RuntimeException) { sal_Int32 nRet = -1; SolarMutexGuard aGuard; CHECK_FOR_DEFUNC( XAccessibleTable ) // #i77106# if ( ( nChildIndex < 0 ) || ( nChildIndex >= getAccessibleChildCount() ) ) { throw lang::IndexOutOfBoundsException(); } // <-- SwAccessibleChild aCell( GetChild( *(GetMap()), nChildIndex ) ); if ( aCell.GetSwFrm() ) { sal_Int32 nTop = aCell.GetSwFrm()->Frm().Top(); nTop -= GetFrm()->Frm().Top(); Int32Set_Impl::const_iterator aRow( GetTableData().GetRows().lower_bound( nTop ) ); nRet = static_cast< sal_Int32 >( ::std::distance( GetTableData().GetRows().begin(), aRow ) ); } else { OSL_ENSURE( !aCell.IsValid(), "SwAccessibleTable::getAccessibleColumn:" "aCell not expected to be valid."); throw lang::IndexOutOfBoundsException(); } return nRet; } sal_Int32 SAL_CALL SwAccessibleTable::getAccessibleColumn( sal_Int32 nChildIndex ) throw (lang::IndexOutOfBoundsException, uno::RuntimeException) { sal_Int32 nRet = -1; SolarMutexGuard aGuard; CHECK_FOR_DEFUNC( XAccessibleTable ) // #i77106# if ( ( nChildIndex < 0 ) || ( nChildIndex >= getAccessibleChildCount() ) ) { throw lang::IndexOutOfBoundsException(); } // <-- SwAccessibleChild aCell( GetChild( *(GetMap()), nChildIndex ) ); if ( aCell.GetSwFrm() ) { sal_Int32 nLeft = aCell.GetSwFrm()->Frm().Left(); nLeft -= GetFrm()->Frm().Left(); Int32Set_Impl::const_iterator aCol( GetTableData().GetColumns().lower_bound( nLeft ) ); nRet = static_cast< sal_Int32 >( ::std::distance( GetTableData().GetColumns().begin(), aCol ) ); } else { OSL_ENSURE( !aCell.IsValid(), "SwAccessibleTable::getAccessibleColumn:" "aCell not expected to be valid."); throw lang::IndexOutOfBoundsException(); } return nRet; } OUString SAL_CALL SwAccessibleTable::getImplementationName() throw( uno::RuntimeException ) { return OUString(RTL_CONSTASCII_USTRINGPARAM(sImplementationName)); } sal_Bool SAL_CALL SwAccessibleTable::supportsService( const OUString& sTestServiceName) throw (uno::RuntimeException) { return sTestServiceName.equalsAsciiL( sServiceName, sizeof(sServiceName)-1 ) || sTestServiceName.equalsAsciiL( sAccessibleServiceName, sizeof(sAccessibleServiceName)-1 ); } uno::Sequence< OUString > SAL_CALL SwAccessibleTable::getSupportedServiceNames() throw( uno::RuntimeException ) { uno::Sequence< OUString > aRet(2); OUString* pArray = aRet.getArray(); pArray[0] = OUString( RTL_CONSTASCII_USTRINGPARAM(sServiceName) ); pArray[1] = OUString( RTL_CONSTASCII_USTRINGPARAM(sAccessibleServiceName) ); return aRet; } void SwAccessibleTable::InvalidatePosOrSize( const SwRect& rOldBox ) { SolarMutexGuard aGuard; if( HasTableData() ) GetTableData().SetTablePos( GetFrm()->Frm().Pos() ); SwAccessibleContext::InvalidatePosOrSize( rOldBox ); } void SwAccessibleTable::Dispose( sal_Bool bRecursive ) { SolarMutexGuard aGuard; if( GetRegisteredIn() ) pRegisteredIn->Remove( this ); SwAccessibleContext::Dispose( bRecursive ); } void SwAccessibleTable::DisposeChild( const SwAccessibleChild& rChildFrmOrObj, sal_Bool bRecursive ) { SolarMutexGuard aGuard; const SwFrm *pFrm = rChildFrmOrObj.GetSwFrm(); OSL_ENSURE( pFrm, "frame expected" ); if( HasTableData() ) { FireTableChangeEvent( GetTableData() ); ClearTableData(); } // There are two reason why this method has been called. The first one // is there is no context for pFrm. The method is them called by // the map, and we have to call our superclass. // The other situation is that we have been call by a call to get notified // about its change. We then must not call the superclass uno::Reference< XAccessible > xAcc( GetMap()->GetContext( pFrm, sal_False ) ); if( !xAcc.is() ) SwAccessibleContext::DisposeChild( rChildFrmOrObj, bRecursive ); } void SwAccessibleTable::InvalidateChildPosOrSize( const SwAccessibleChild& rChildFrmOrObj, const SwRect& rOldBox ) { SolarMutexGuard aGuard; if( HasTableData() ) { OSL_ENSURE( !HasTableData() || GetFrm()->Frm().Pos() == GetTableData().GetTablePos(), "table has invalid position" ); if( HasTableData() ) { SwAccessibleTableData_Impl *pNewTableData = CreateNewTableData(); // #i77106# if( !pNewTableData->CompareExtents( GetTableData() ) ) { FireTableChangeEvent( GetTableData() ); ClearTableData(); mpTableData = pNewTableData; } else { delete pNewTableData; } } } // #i013961# - always call super class method SwAccessibleContext::InvalidateChildPosOrSize( rChildFrmOrObj, rOldBox ); } // // XAccessibleSelection // void SAL_CALL SwAccessibleTable::selectAccessibleChild( sal_Int32 nChildIndex ) throw ( lang::IndexOutOfBoundsException, uno::RuntimeException ) { SolarMutexGuard aGuard; CHECK_FOR_DEFUNC( XAccessibleTable ); if( (nChildIndex < 0) || (nChildIndex >= getAccessibleChildCount()) ) // #i77106# throw lang::IndexOutOfBoundsException(); // preliminaries: get 'our' table box, and get the cursor shell const SwTableBox* pBox = GetTableBox( nChildIndex ); DBG_ASSERT( pBox != NULL, "We need the table box." ); SwCrsrShell* pCrsrShell = GetCrsrShell(); if( pCrsrShell == NULL ) return; // assure, that child, indentified by the given index, isn't already selected. if ( IsChildSelected( nChildIndex ) ) { return; } // now we can start to do the work: check whether we already have // a table selection (in 'our' table). If so, extend the // selection, else select the current cell. // if we have a selection in a table, check if it's in the // same table that we're trying to select in const SwTableNode* pSelectedTable = pCrsrShell->IsCrsrInTbl(); if( pSelectedTable != NULL ) { // get top-most table line const SwTableLine* pUpper = pBox->GetUpper(); while( pUpper->GetUpper() != NULL ) pUpper = pUpper->GetUpper()->GetUpper(); USHORT nPos = pSelectedTable->GetTable().GetTabLines().GetPos( pUpper ); if( nPos == USHRT_MAX ) pSelectedTable = NULL; } // create the new selection const SwStartNode* pStartNode = pBox->GetSttNd(); if( pSelectedTable == NULL || !pCrsrShell->GetTblCrs() ) { pCrsrShell->StartAction(); // Set cursor into current cell. This deletes any table cursor. SwPaM aPaM( *pStartNode ); aPaM.Move( fnMoveForward, fnGoNode ); Select( aPaM ); // Move cursor to the end of the table creating a selection and a table // cursor. pCrsrShell->SetMark(); pCrsrShell->MoveTable( fnTableCurr, fnTableEnd ); // now set the cursor into the cell again. SwPaM *pPaM = pCrsrShell->GetTblCrs() ? pCrsrShell->GetTblCrs() : pCrsrShell->GetCrsr(); *pPaM->GetPoint() = *pPaM->GetMark(); pCrsrShell->EndAction(); // we now have one cell selected! } else { // if the cursor is already in this table, // expand the current selection (i.e., set // point to new position; keep mark) SwPaM aPaM( *pStartNode ); aPaM.Move( fnMoveForward, fnGoNode ); aPaM.SetMark(); const SwPaM *pPaM = pCrsrShell->GetTblCrs() ? pCrsrShell->GetTblCrs() : pCrsrShell->GetCrsr(); *(aPaM.GetMark()) = *pPaM->GetMark(); Select( aPaM ); } } sal_Bool SAL_CALL SwAccessibleTable::isAccessibleChildSelected( sal_Int32 nChildIndex ) throw ( lang::IndexOutOfBoundsException, uno::RuntimeException ) { SolarMutexGuard aGuard; CHECK_FOR_DEFUNC( XAccessibleTable ); if( (nChildIndex < 0) || (nChildIndex >= getAccessibleChildCount()) ) // #i77106# throw lang::IndexOutOfBoundsException(); return IsChildSelected( nChildIndex ); } void SAL_CALL SwAccessibleTable::clearAccessibleSelection( ) throw ( uno::RuntimeException ) { SolarMutexGuard aGuard; CHECK_FOR_DEFUNC( XAccessibleTable ); SwCrsrShell* pCrsrShell = GetCrsrShell(); if( pCrsrShell != NULL ) { pCrsrShell->StartAction(); pCrsrShell->ClearMark(); pCrsrShell->EndAction(); } } void SAL_CALL SwAccessibleTable::selectAllAccessibleChildren( ) throw ( uno::RuntimeException ) { // first clear selection, then select first and last child clearAccessibleSelection(); selectAccessibleChild( 0 ); selectAccessibleChild( getAccessibleChildCount()-1 ); // #i77106# } sal_Int32 SAL_CALL SwAccessibleTable::getSelectedAccessibleChildCount( ) throw ( uno::RuntimeException ) { SolarMutexGuard aGuard; CHECK_FOR_DEFUNC( XAccessibleTable ); // iterate over all children and count isAccessibleChildSelected() sal_Int32 nCount = 0; sal_Int32 nChildren = getAccessibleChildCount(); // #i71106# for( sal_Int32 n = 0; n < nChildren; n++ ) if( IsChildSelected( n ) ) nCount++; return nCount; } uno::Reference SAL_CALL SwAccessibleTable::getSelectedAccessibleChild( sal_Int32 nSelectedChildIndex ) throw ( lang::IndexOutOfBoundsException, uno::RuntimeException) { SolarMutexGuard aGuard; CHECK_FOR_DEFUNC( XAccessibleTable ); // paremter checking (part 1): index lower 0 if( nSelectedChildIndex < 0 ) throw lang::IndexOutOfBoundsException(); sal_Int32 nChildIndex = GetIndexOfSelectedChild( nSelectedChildIndex ); // parameter checking (part 2): index higher than selected children? if( nChildIndex < 0 ) throw lang::IndexOutOfBoundsException(); // #i77106# if ( nChildIndex >= getAccessibleChildCount() ) { throw lang::IndexOutOfBoundsException(); } return getAccessibleChild( nChildIndex ); } // index has to be treated as global child index. void SAL_CALL SwAccessibleTable::deselectAccessibleChild( sal_Int32 nChildIndex ) throw ( lang::IndexOutOfBoundsException, uno::RuntimeException ) { SolarMutexGuard aGuard; CHECK_FOR_DEFUNC( XAccessibleTable ); SwCrsrShell* pCrsrShell = GetCrsrShell(); // index has to be treated as global child index if ( !pCrsrShell ) throw lang::IndexOutOfBoundsException(); // assure, that given child index is in bounds. if ( nChildIndex < 0 || nChildIndex >= getAccessibleChildCount() ) // #i77106# throw lang::IndexOutOfBoundsException(); // assure, that child, identified by the given index, is selected. if ( !IsChildSelected( nChildIndex ) ) return; // <-- const SwTableBox* pBox = GetTableBox( nChildIndex ); DBG_ASSERT( pBox != NULL, "We need the table box." ); // If we unselect point, then set cursor to mark. If we clear another // selected box, then set cursor to point. // reduce selection to mark. SwPaM *pPaM = pCrsrShell->GetTblCrs() ? pCrsrShell->GetTblCrs() : pCrsrShell->GetCrsr(); sal_Bool bDeselectPoint = pBox->GetSttNd() == pPaM->GetPoint()->nNode.GetNode().FindTableBoxStartNode(); SwPaM aPaM( bDeselectPoint ? *pPaM->GetMark() : *pPaM->GetPoint() ); pCrsrShell->StartAction(); // Set cursor into either point or mark Select( aPaM ); // Move cursor to the end of the table creating a selection and a table // cursor. pCrsrShell->SetMark(); pCrsrShell->MoveTable( fnTableCurr, fnTableEnd ); // now set the cursor into the cell again. pPaM = pCrsrShell->GetTblCrs() ? pCrsrShell->GetTblCrs() : pCrsrShell->GetCrsr(); *pPaM->GetPoint() = *pPaM->GetMark(); pCrsrShell->EndAction(); } // #i77106# - implementation of class SwAccessibleTableColHeaders::SwAccessibleTableColHeaders( SwAccessibleMap *pMap2, const SwTabFrm *pTabFrm ) : SwAccessibleTable( pMap2, pTabFrm ) { SolarMutexGuard aGuard; const SwFrmFmt *pFrmFmt = pTabFrm->GetFmt(); const_cast< SwFrmFmt * >( pFrmFmt )->Add( this ); const String& rName = pFrmFmt->GetName(); OUStringBuffer aBuffer( rName.Len() + 15 + 6 ); aBuffer.append( OUString(rName) ); aBuffer.append( String::CreateFromAscii("-ColumnHeaders-") ); aBuffer.append( static_cast( pTabFrm->GetPhyPageNum() ) ); SetName( aBuffer.makeStringAndClear() ); OUStringBuffer aBuffer2( rName.Len() + 14 ); aBuffer2.append( OUString(rName) ); aBuffer2.append( String::CreateFromAscii("-ColumnHeaders") ); OUString sArg1( aBuffer2.makeStringAndClear() ); OUString sArg2( GetFormattedPageNumber() ); OUString sDesc2 = GetResource( STR_ACCESS_TABLE_DESC, &sArg1, &sArg2 ); SetDesc( sDesc2 ); NotRegisteredAtAccessibleMap(); // #i85634# } SwAccessibleTableData_Impl* SwAccessibleTableColHeaders::CreateNewTableData() { const SwTabFrm* pTabFrm = static_cast( GetFrm() ); return new SwAccessibleTableData_Impl( *(GetMap()), pTabFrm, IsInPagePreview(), true ); } void SwAccessibleTableColHeaders::Modify( SfxPoolItem * /*pOld*/, SfxPoolItem * /*pNew*/ ) { } //===== XInterface ====================================================== uno::Any SAL_CALL SwAccessibleTableColHeaders::queryInterface( const uno::Type& aType ) throw (uno::RuntimeException) { return SwAccessibleTable::queryInterface( aType ); } //===== XAccessibleContext ============================================== sal_Int32 SAL_CALL SwAccessibleTableColHeaders::getAccessibleChildCount(void) throw (uno::RuntimeException) { SolarMutexGuard aGuard; CHECK_FOR_DEFUNC( XAccessibleContext ) sal_Int32 nCount = 0; const SwTabFrm* pTabFrm = static_cast( GetFrm() ); const SwAccessibleChildSList aVisList( GetVisArea(), *pTabFrm, *(GetMap()) ); SwAccessibleChildSList::const_iterator aIter( aVisList.begin() ); while( aIter != aVisList.end() ) { const SwAccessibleChild& rLower = *aIter; if( rLower.IsAccessible( IsInPagePreview() ) ) { nCount++; } else if( rLower.GetSwFrm() ) { // There are no unaccessible SdrObjects that count if ( !rLower.GetSwFrm()->IsRowFrm() || pTabFrm->IsInHeadline( *(rLower.GetSwFrm()) ) ) { nCount += SwAccessibleFrame::GetChildCount( *(GetMap()), GetVisArea(), rLower.GetSwFrm(), IsInPagePreview() ); } } ++aIter; } return nCount; } uno::Reference< XAccessible> SAL_CALL SwAccessibleTableColHeaders::getAccessibleChild (sal_Int32 nIndex) throw (uno::RuntimeException, lang::IndexOutOfBoundsException) { if ( nIndex < 0 || nIndex >= getAccessibleChildCount() ) { throw lang::IndexOutOfBoundsException(); } return SwAccessibleTable::getAccessibleChild( nIndex ); } //===== XAccessibleTable ================================================ uno::Reference< XAccessibleTable > SAL_CALL SwAccessibleTableColHeaders::getAccessibleRowHeaders() throw (uno::RuntimeException) { return uno::Reference< XAccessibleTable >(); } uno::Reference< XAccessibleTable > SAL_CALL SwAccessibleTableColHeaders::getAccessibleColumnHeaders() throw (uno::RuntimeException) { return uno::Reference< XAccessibleTable >(); } //===== XServiceInfo ==================================================== ::rtl::OUString SAL_CALL SwAccessibleTableColHeaders::getImplementationName (void) throw (uno::RuntimeException) { static const sal_Char sImplName[] = "com.sun.star.comp.Writer.SwAccessibleTableColumnHeadersView"; return OUString(RTL_CONSTASCII_USTRINGPARAM(sImplName)); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */