/************************************************************** * * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_svx.hxx" //------------------------------------------------------------------------ // // Global header // //------------------------------------------------------------------------ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include //IAccessibility2 Implementation 2009----- //add TEXT_SELECTION_CHANGED event #ifndef _TEXTDATA_HXX #include #endif #include #include //-----IAccessibility2 Implementation 2009 //------------------------------------------------------------------------ // // Project-local header // //------------------------------------------------------------------------ #include "AccessibleTextEventQueue.hxx" #include #include #include "editeng/unolingu.hxx" #include #include "editeng/unoedhlp.hxx" #include "editeng/unopracc.hxx" #include "editeng/AccessibleParaManager.hxx" #include "editeng/AccessibleEditableTextPara.hxx" #include #include // SD table ACC----, added by Steve Yin #include "../table/cell.hxx" #include "../table/accessiblecell.hxx" // ----SD table ACC #include #include #include using namespace ::com::sun::star; using namespace ::com::sun::star::accessibility; namespace accessibility { //IAccessibility2 Implementation 2009----- Window* GetCurrentEditorWnd() { Window* pWin = NULL; SfxViewFrame* pFrame = SfxViewFrame::Current(); if (pFrame) { const SfxViewShell * pViewShell = pFrame->GetViewShell(); if(pViewShell) { pWin = pViewShell->GetWindow(); } } return pWin; } //-----IAccessibility2 Implementation 2009 //------------------------------------------------------------------------ // // AccessibleTextHelper_Impl declaration // //------------------------------------------------------------------------ DBG_NAME( AccessibleTextHelper_Impl ) template < typename first_type, typename second_type > ::std::pair< first_type, second_type > makeSortedPair( first_type first, second_type second ) { if( first > second ) return ::std::make_pair( second, first ); else return ::std::make_pair( first, second ); } class AccessibleTextHelper_Impl : public SfxListener { public: typedef ::std::vector< sal_Int16 > VectorOfStates; // receive pointer to our frontend class and view window AccessibleTextHelper_Impl(); ~AccessibleTextHelper_Impl(); // XAccessibleContext child handling methods sal_Int32 SAL_CALL getAccessibleChildCount() SAL_THROW((uno::RuntimeException)); uno::Reference< XAccessible > SAL_CALL getAccessibleChild( sal_Int32 i ) SAL_THROW((lang::IndexOutOfBoundsException, uno::RuntimeException)); // XAccessibleEventBroadcaster child related methods void SAL_CALL addEventListener( const uno::Reference< XAccessibleEventListener >& xListener ) SAL_THROW((uno::RuntimeException)); void SAL_CALL removeEventListener( const uno::Reference< XAccessibleEventListener >& xListener ) SAL_THROW((uno::RuntimeException)); // XAccessibleComponent child related methods uno::Reference< XAccessible > SAL_CALL getAccessibleAtPoint( const awt::Point& aPoint ) SAL_THROW((uno::RuntimeException)); SvxEditSourceAdapter& GetEditSource() const SAL_THROW((uno::RuntimeException)); void SetEditSource( ::std::auto_ptr< SvxEditSource > pEditSource ) SAL_THROW((uno::RuntimeException)); void SetEventSource( const uno::Reference< XAccessible >& rInterface ) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); mxFrontEnd = rInterface; } uno::Reference< XAccessible > GetEventSource() const { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); return mxFrontEnd; } void SetOffset( const Point& ); Point GetOffset() const { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); ::osl::MutexGuard aGuard( maMutex ); Point aPoint( maOffset ); return aPoint; } void SetStartIndex( sal_Int32 nOffset ); sal_Int32 GetStartIndex() const { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); // Strictly correct only with locked solar mutex, // but // here we rely on the fact that sal_Int32 access is // atomic return mnStartIndex; } void SetAdditionalChildStates( const VectorOfStates& rChildStates ); const VectorOfStates& GetAdditionalChildStates() const; sal_Bool IsSelected() const; void Dispose(); // do NOT hold object mutex when calling this! Danger of deadlock void FireEvent( const sal_Int16 nEventId, const uno::Any& rNewValue = uno::Any(), const uno::Any& rOldValue = uno::Any() ) const; void FireEvent( const AccessibleEventObject& rEvent ) const; void SetFocus( sal_Bool bHaveFocus ) SAL_THROW((::com::sun::star::uno::RuntimeException)); sal_Bool HaveFocus() SAL_THROW((::com::sun::star::uno::RuntimeException)); void SetChildFocus( sal_Int32 nChild, sal_Bool bHaveFocus ) SAL_THROW((::com::sun::star::uno::RuntimeException)); void SetShapeFocus( sal_Bool bHaveFocus ) SAL_THROW((::com::sun::star::uno::RuntimeException)); void ChangeChildFocus( sal_Int32 nNewChild ) SAL_THROW((::com::sun::star::uno::RuntimeException)); #ifdef DBG_UTIL void CheckInvariants() const; #endif // checks all children for visibility, throws away invisible ones void UpdateVisibleChildren( bool bBroadcastEvents=true ); // check all children for changes in positíon and size void UpdateBoundRect(); // calls SetSelection on the forwarder and updates maLastSelection // cache. void UpdateSelection(); private: // Process event queue void ProcessQueue(); // syntactic sugar for FireEvent void GotPropertyEvent( const uno::Any& rNewValue, const sal_Int16 nEventId ) const { FireEvent( nEventId, rNewValue ); } void LostPropertyEvent( const uno::Any& rOldValue, const sal_Int16 nEventId ) const { FireEvent( nEventId, uno::Any(), rOldValue ); } // shutdown usage of current edit source on myself and the children. void ShutdownEditSource() SAL_THROW((uno::RuntimeException)); void ParagraphsMoved( sal_Int32 nFirst, sal_Int32 nMiddle, sal_Int32 nLast ); virtual void Notify( SfxBroadcaster& rBC, const SfxHint& rHint ); int getNotifierClientId() const { return mnNotifierClientId; } // lock solar mutex before SvxTextForwarder& GetTextForwarder() const SAL_THROW((uno::RuntimeException)); // lock solar mutex before SvxViewForwarder& GetViewForwarder() const SAL_THROW((uno::RuntimeException)); // lock solar mutex before SvxEditViewForwarder& GetEditViewForwarder( sal_Bool bCreate = sal_False ) const SAL_THROW((uno::RuntimeException)); // are we in edit mode? sal_Bool IsActive() const SAL_THROW((uno::RuntimeException)); // our frontend class (the one implementing the actual // interface). That's not necessarily the one containing the impl // pointer! uno::Reference< XAccessible > mxFrontEnd; // a wrapper for the text forwarders (guarded by solar mutex) mutable SvxEditSourceAdapter maEditSource; // store last selection (to correctly report selection changes, guarded by solar mutex) ESelection maLastSelection; // cache range of visible children (guarded by solar mutex) sal_Int32 mnFirstVisibleChild; sal_Int32 mnLastVisibleChild; // offset to add to all our children (unguarded, relying on // the fact that sal_Int32 access is atomic) sal_Int32 mnStartIndex; // the object handling our children (guarded by solar mutex) ::accessibility::AccessibleParaManager maParaManager; // number of not-yet-closed event frames (BEGIN/END sequences) (guarded by solar mutex) sal_Int32 maEventOpenFrames; // Queued events from Notify() (guarded by solar mutex) AccessibleTextEventQueue maEventQueue; // spin lock to prevent notify in notify (guarded by solar mutex) sal_Bool mbInNotify; // whether the object or it's children has the focus set (guarded by solar mutex) sal_Bool mbGroupHasFocus; // whether we (this object) has the focus set (guarded by solar mutex) sal_Bool mbThisHasFocus; mutable ::osl::Mutex maMutex; /// our current offset to the containing shape/cell (guarded by maMutex) Point maOffset; /// client Id from AccessibleEventNotifier int mnNotifierClientId; }; //------------------------------------------------------------------------ // // AccessibleTextHelper_Impl implementation // //------------------------------------------------------------------------ AccessibleTextHelper_Impl::AccessibleTextHelper_Impl() : mxFrontEnd( NULL ), maLastSelection( EE_PARA_NOT_FOUND,EE_PARA_NOT_FOUND,EE_PARA_NOT_FOUND,EE_PARA_NOT_FOUND ), mnFirstVisibleChild( -1 ), mnLastVisibleChild( -2 ), mnStartIndex( 0 ), maEventOpenFrames( 0 ), mbInNotify( sal_False ), mbGroupHasFocus( sal_False ), mbThisHasFocus( sal_False ), maOffset(0,0), // well, that's strictly exception safe, though not really // robust. We rely on the fact that this member is constructed // last, and that the constructor body is empty, thus no // chance for exceptions once the Id is fetched. Nevertheless, // normally should employ RAII here... mnNotifierClientId(::comphelper::AccessibleEventNotifier::registerClient()) { DBG_CTOR( AccessibleTextHelper_Impl, NULL ); #ifdef DBG_UTIL OSL_TRACE( "AccessibleTextHelper_Impl received ID: %d", mnNotifierClientId ); #endif } AccessibleTextHelper_Impl::~AccessibleTextHelper_Impl() { DBG_DTOR( AccessibleTextHelper_Impl, NULL ); ::vos::OGuard aGuard( Application::GetSolarMutex() ); try { // call Dispose here, too, since we've some resources not // automatically freed otherwise Dispose(); } catch( const uno::Exception& ) {} } SvxTextForwarder& AccessibleTextHelper_Impl::GetTextForwarder() const SAL_THROW((uno::RuntimeException)) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); if( !maEditSource.IsValid() ) throw uno::RuntimeException(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("Unknown edit source")), mxFrontEnd); SvxTextForwarder* pTextForwarder = maEditSource.GetTextForwarder(); if( !pTextForwarder ) throw uno::RuntimeException(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("Unable to fetch text forwarder, model might be dead")), mxFrontEnd); if( pTextForwarder->IsValid() ) return *pTextForwarder; else throw uno::RuntimeException(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("Text forwarder is invalid, model might be dead")), mxFrontEnd); } SvxViewForwarder& AccessibleTextHelper_Impl::GetViewForwarder() const SAL_THROW((uno::RuntimeException)) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); if( !maEditSource.IsValid() ) throw uno::RuntimeException(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("Unknown edit source")), mxFrontEnd); SvxViewForwarder* pViewForwarder = maEditSource.GetViewForwarder(); if( !pViewForwarder ) throw uno::RuntimeException(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("Unable to fetch view forwarder, model might be dead")), mxFrontEnd); if( pViewForwarder->IsValid() ) return *pViewForwarder; else throw uno::RuntimeException(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("View forwarder is invalid, model might be dead")), mxFrontEnd); } SvxEditViewForwarder& AccessibleTextHelper_Impl::GetEditViewForwarder( sal_Bool bCreate ) const SAL_THROW((uno::RuntimeException)) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); if( !maEditSource.IsValid() ) throw uno::RuntimeException(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("Unknown edit source")), mxFrontEnd); SvxEditViewForwarder* pViewForwarder = maEditSource.GetEditViewForwarder( bCreate ); if( !pViewForwarder ) { if( bCreate ) throw uno::RuntimeException(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("Unable to fetch edit view forwarder, model might be dead")), mxFrontEnd); else throw uno::RuntimeException(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("No edit view forwarder, object not in edit mode")), mxFrontEnd); } if( pViewForwarder->IsValid() ) return *pViewForwarder; else { if( bCreate ) throw uno::RuntimeException(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("View forwarder is invalid, model might be dead")), mxFrontEnd); else throw uno::RuntimeException(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("View forwarder is invalid, object not in edit mode")), mxFrontEnd); } } SvxEditSourceAdapter& AccessibleTextHelper_Impl::GetEditSource() const SAL_THROW((uno::RuntimeException)) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); if( maEditSource.IsValid() ) return maEditSource; else throw uno::RuntimeException(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("AccessibleTextHelper_Impl::GetEditSource: no edit source")), mxFrontEnd ); } sal_Bool AccessibleTextHelper_Impl::IsSelected() const { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); sal_Bool bRet = sal_False; try { ESelection aSelection; bRet = GetEditViewForwarder().GetSelection( aSelection ); } catch( const uno::Exception& ) {} return bRet; } // functor for sending child events (no stand-alone function, they are maybe not inlined) class AccessibleTextHelper_OffsetChildIndex : public ::std::unary_function< ::accessibility::AccessibleEditableTextPara&, void > { public: AccessibleTextHelper_OffsetChildIndex( sal_Int32 nDifference ) : mnDifference(nDifference) {} void operator()( ::accessibility::AccessibleEditableTextPara& rPara ) { rPara.SetIndexInParent( rPara.GetIndexInParent() + mnDifference ); } private: const sal_Int32 mnDifference; }; void AccessibleTextHelper_Impl::SetStartIndex( sal_Int32 nOffset ) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); sal_Int32 nOldOffset( mnStartIndex ); mnStartIndex = nOffset; if( nOldOffset != nOffset ) { // update children AccessibleTextHelper_OffsetChildIndex aFunctor( nOffset - nOldOffset ); ::std::for_each( maParaManager.begin(), maParaManager.end(), AccessibleParaManager::WeakChildAdapter< AccessibleTextHelper_OffsetChildIndex > (aFunctor) ); } } void AccessibleTextHelper_Impl::SetAdditionalChildStates( const VectorOfStates& rChildStates ) { maParaManager.SetAdditionalChildStates( rChildStates ); } const AccessibleTextHelper_Impl::VectorOfStates& AccessibleTextHelper_Impl::GetAdditionalChildStates() const { return maParaManager.GetAdditionalChildStates(); } void AccessibleTextHelper_Impl::SetChildFocus( sal_Int32 nChild, sal_Bool bHaveFocus ) SAL_THROW((::com::sun::star::uno::RuntimeException)) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); if( bHaveFocus ) { if( mbThisHasFocus ) SetShapeFocus( sal_False ); maParaManager.SetFocus( nChild ); // we just received the focus, also send caret event then UpdateSelection(); DBG_TRACE1("AccessibleTextHelper_Impl::SetChildFocus(): Paragraph %d received focus", nChild ); } else { maParaManager.SetFocus( -1 ); DBG_TRACE1("AccessibleTextHelper_Impl::SetChildFocus(): Paragraph %d lost focus", nChild ); if( mbGroupHasFocus ) SetShapeFocus( sal_True ); } } void AccessibleTextHelper_Impl::ChangeChildFocus( sal_Int32 nNewChild ) SAL_THROW((::com::sun::star::uno::RuntimeException)) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); if( mbThisHasFocus ) SetShapeFocus( sal_False ); mbGroupHasFocus = sal_True; maParaManager.SetFocus( nNewChild ); DBG_TRACE1("AccessibleTextHelper_Impl::ChangeChildFocus(): Paragraph %d received focus", nNewChild ); } void AccessibleTextHelper_Impl::SetShapeFocus( sal_Bool bHaveFocus ) SAL_THROW((::com::sun::star::uno::RuntimeException)) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); sal_Bool bOldFocus( mbThisHasFocus ); mbThisHasFocus = bHaveFocus; if( bOldFocus != bHaveFocus ) { if( bHaveFocus ) { // SD table ACC----, added by Steve Yin if( mxFrontEnd.is() ) { AccessibleCell* pAccessibleCell = dynamic_cast< AccessibleCell* > ( mxFrontEnd.get() ); if ( !pAccessibleCell ) GotPropertyEvent( uno::makeAny(AccessibleStateType::FOCUSED), AccessibleEventId::STATE_CHANGED ); else // Sym2_6108, the focus event on cell should be fired on table directly { AccessibleTableShape* pAccTable = pAccessibleCell->GetParentTable(); if (pAccTable) pAccTable->SetStateDirectly(AccessibleStateType::FOCUSED); } } // ----SD table ACC DBG_TRACE("AccessibleTextHelper_Impl::SetShapeFocus(): Parent object received focus" ); } else { // The focus state should be reset directly on table. //LostPropertyEvent( uno::makeAny(AccessibleStateType::FOCUSED), AccessibleEventId::STATE_CHANGED ); if( mxFrontEnd.is() ) { AccessibleCell* pAccessibleCell = dynamic_cast< AccessibleCell* > ( mxFrontEnd.get() ); if ( !pAccessibleCell ) LostPropertyEvent( uno::makeAny(AccessibleStateType::FOCUSED), AccessibleEventId::STATE_CHANGED ); else { AccessibleTableShape* pAccTable = pAccessibleCell->GetParentTable(); if (pAccTable) pAccTable->ResetStateDirectly(AccessibleStateType::FOCUSED); } } DBG_TRACE("AccessibleTextHelper_Impl::SetShapeFocus(): Parent object lost focus" ); } } } void AccessibleTextHelper_Impl::SetFocus( sal_Bool bHaveFocus ) SAL_THROW((::com::sun::star::uno::RuntimeException)) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); sal_Bool bOldFocus( mbGroupHasFocus ); mbGroupHasFocus = bHaveFocus; if( IsActive() ) { try { // find the one with the cursor and get/set focus accordingly ESelection aSelection; if( GetEditViewForwarder().GetSelection( aSelection ) ) SetChildFocus( aSelection.nEndPara, bHaveFocus ); } catch( const uno::Exception& ) {} } else if( bOldFocus != bHaveFocus ) { SetShapeFocus( bHaveFocus ); } DBG_TRACE2("AccessibleTextHelper_Impl::SetFocus: focus changed, Object %d, state: %s", this, bHaveFocus ? "focused" : "not focused"); } sal_Bool AccessibleTextHelper_Impl::HaveFocus() SAL_THROW((::com::sun::star::uno::RuntimeException)) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); // No locking of solar mutex here, since we rely on the fact // that sal_Bool access is atomic return mbThisHasFocus; } sal_Bool AccessibleTextHelper_Impl::IsActive() const SAL_THROW((uno::RuntimeException)) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); try { SvxEditSource& rEditSource = GetEditSource(); SvxEditViewForwarder* pViewForwarder = rEditSource.GetEditViewForwarder(); if( !pViewForwarder ) return sal_False; // SD table ACC----, added by Steve Yin if( mxFrontEnd.is() ) { AccessibleCell* pAccessibleCell = dynamic_cast< AccessibleCell* > ( mxFrontEnd.get() ); if ( pAccessibleCell ) { sdr::table::CellRef xCell = pAccessibleCell->getCellRef(); if ( xCell.is() ) return xCell->IsTextEditActive(); } } // ----SD table ACC if( pViewForwarder->IsValid() ) return sal_True; else return sal_False; } catch( const uno::RuntimeException& ) { return sal_False; } } void AccessibleTextHelper_Impl::UpdateSelection() { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); try { ESelection aSelection; if( GetEditViewForwarder().GetSelection( aSelection ) ) { if( !maLastSelection.IsEqual( aSelection ) && aSelection.nEndPara < maParaManager.GetNum() ) { // #103998# Not that important, changed from assertion to trace if( mbThisHasFocus ) { DBG_TRACE("AccessibleTextHelper_Impl::UpdateSelection(): Parent has focus!"); } sal_uInt16 nMaxValidParaIndex( static_cast< sal_uInt16 >( GetTextForwarder().GetParagraphCount() ) - 1 ); // notify all affected paragraphs (TODO: may be suboptimal, // since some paragraphs might stay selected) if( maLastSelection.nStartPara != EE_PARA_NOT_FOUND ) { // Did the caret move from one paragraph to another? // #100530# no caret events if not focused. if( mbGroupHasFocus && maLastSelection.nEndPara != aSelection.nEndPara ) { if( maLastSelection.nEndPara < maParaManager.GetNum() ) { maParaManager.FireEvent( ::std::min( maLastSelection.nEndPara, nMaxValidParaIndex ), ::std::min( maLastSelection.nEndPara, nMaxValidParaIndex )+1, AccessibleEventId::CARET_CHANGED, uno::makeAny(static_cast(-1)), uno::makeAny(static_cast(maLastSelection.nEndPos)) ); } ChangeChildFocus( aSelection.nEndPara ); DBG_TRACE3("AccessibleTextHelper_Impl::UpdateSelection(): focus changed, Object: %d, Paragraph: %d, Last paragraph: %d", this, aSelection.nEndPara, maLastSelection.nEndPara); } } // #100530# no caret events if not focused. if( mbGroupHasFocus ) { uno::Any aOldCursor; // #i13705# The old cursor can only contain valid // values if it's the same paragraph! if( maLastSelection.nStartPara != EE_PARA_NOT_FOUND && maLastSelection.nEndPara == aSelection.nEndPara ) { aOldCursor <<= static_cast(maLastSelection.nEndPos); } else { aOldCursor <<= static_cast(-1); } maParaManager.FireEvent( aSelection.nEndPara, aSelection.nEndPara+1, AccessibleEventId::CARET_CHANGED, uno::makeAny(static_cast(aSelection.nEndPos)), aOldCursor ); } DBG_TRACE5("AccessibleTextHelper_Impl::UpdateSelection(): caret changed, Object: %d, New pos: %d, Old pos: %d, New para: %d, Old para: %d", this, aSelection.nEndPos, maLastSelection.nEndPos, aSelection.nEndPara, maLastSelection.nEndPara); // #108947# Sort new range before calling FireEvent ::std::pair< xub_StrLen, xub_StrLen > sortedSelection( makeSortedPair(::std::min( aSelection.nStartPara, nMaxValidParaIndex ), ::std::min( aSelection.nEndPara, nMaxValidParaIndex ) ) ); // #108947# Sort last range before calling FireEvent ::std::pair< xub_StrLen, xub_StrLen > sortedLastSelection( makeSortedPair(::std::min( maLastSelection.nStartPara, nMaxValidParaIndex ), ::std::min( maLastSelection.nEndPara, nMaxValidParaIndex ) ) ); // --> OD 2005-12-15 #i27299# // event TEXT_SELECTION_CHANGED has to be submitted. const sal_Int16 nTextSelChgEventId = AccessibleEventId::TEXT_SELECTION_CHANGED; // <-- // #107037# notify selection change if( maLastSelection.nStartPara == EE_PARA_NOT_FOUND ) { // last selection is undefined // --> OD 2005-12-15 #i27299# - use method if ( aSelection.HasRange() ) // <-- { // selection was undefined, now is on maParaManager.FireEvent( sortedSelection.first, sortedSelection.second+1, nTextSelChgEventId ); } } else { // last selection is valid // --> OD 2005-12-15 #i27299# - use method if ( maLastSelection.HasRange() && !aSelection.HasRange() ) // <-- { // selection was on, now is empty maParaManager.FireEvent( sortedLastSelection.first, sortedLastSelection.second+1, nTextSelChgEventId ); } // --> OD 2005-12-15 #i27299# - use method else if( !maLastSelection.HasRange() && aSelection.HasRange() ) // <-- { // selection was empty, now is on maParaManager.FireEvent( sortedSelection.first, sortedSelection.second+1, nTextSelChgEventId ); } // --> OD 2005-12-15 #i27299# // - no event TEXT_SELECTION_CHANGED event, if new and // last selection are empty. else if ( maLastSelection.HasRange() && aSelection.HasRange() ) // <-- { // --> OD 2005-12-16 #i27299# // - send event TEXT_SELECTION_CHANGED for difference // between last and new selection. // // selection was on, now is different: take union of ranges // maParaManager.FireEvent( ::std::min(sortedSelection.first, // sortedLastSelection.second), // ::std::max(sortedSelection.first, // sortedLastSelection.second)+1, // nTextSelChgEventId ); // use sorted last and new selection ESelection aTmpLastSel( maLastSelection ); aTmpLastSel.Adjust(); ESelection aTmpSel( aSelection ); aTmpSel.Adjust(); // first submit event for new and changed selection sal_uInt32 nPara = aTmpSel.nStartPara; for ( ; nPara <= aTmpSel.nEndPara; ++nPara ) { if ( nPara < aTmpLastSel.nStartPara || nPara > aTmpLastSel.nEndPara ) { // new selection on paragraph maParaManager.FireEvent( nPara, nTextSelChgEventId ); } else { // check for changed selection on paragraph const xub_StrLen nParaStartPos = nPara == aTmpSel.nStartPara ? aTmpSel.nStartPos : 0; const xub_StrLen nParaEndPos = nPara == aTmpSel.nEndPara ? aTmpSel.nEndPos : STRING_LEN; const xub_StrLen nLastParaStartPos = nPara == aTmpLastSel.nStartPara ? aTmpLastSel.nStartPos : 0; const xub_StrLen nLastParaEndPos = nPara == aTmpLastSel.nEndPara ? aTmpLastSel.nEndPos : STRING_LEN; if ( nParaStartPos != nLastParaStartPos || nParaEndPos != nLastParaEndPos ) { maParaManager.FireEvent( nPara, nTextSelChgEventId ); } } } // second submit event for 'old' selections nPara = aTmpLastSel.nStartPara; for ( ; nPara <= aTmpLastSel.nEndPara; ++nPara ) { if ( nPara < aTmpSel.nStartPara || nPara > aTmpSel.nEndPara ) { maParaManager.FireEvent( nPara, nTextSelChgEventId ); } } } } maLastSelection = aSelection; } } } // no selection? no update actions catch( const uno::RuntimeException& ) {} } void AccessibleTextHelper_Impl::ShutdownEditSource() SAL_THROW((uno::RuntimeException)) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); // This should only be called with solar mutex locked, i.e. from the main office thread // This here is somewhat clumsy: As soon as our children have // a NULL EditSource (maParaManager.SetEditSource()), they // enter the disposed state and cannot be reanimated. Thus, it // is unavoidable and a hard requirement to let go and create // from scratch each and every child. // invalidate children maParaManager.Dispose(); maParaManager.SetNum(0); // lost all children if( mxFrontEnd.is() ) FireEvent(AccessibleEventId::INVALIDATE_ALL_CHILDREN); // quit listen on stale edit source if( maEditSource.IsValid() ) EndListening( maEditSource.GetBroadcaster() ); maEditSource.SetEditSource( ::std::auto_ptr< SvxEditSource >(NULL) ); } void AccessibleTextHelper_Impl::SetEditSource( ::std::auto_ptr< SvxEditSource > pEditSource ) SAL_THROW((uno::RuntimeException)) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); // This should only be called with solar mutex locked, i.e. from the main office thread // shutdown old edit source ShutdownEditSource(); // set new edit source maEditSource.SetEditSource( pEditSource ); // init child vector to the current child count if( maEditSource.IsValid() ) { maParaManager.SetNum( GetTextForwarder().GetParagraphCount() ); // listen on new edit source StartListening( maEditSource.GetBroadcaster() ); UpdateVisibleChildren(); } } void AccessibleTextHelper_Impl::SetOffset( const Point& rPoint ) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); // guard against non-atomic access to maOffset data structure { ::osl::MutexGuard aGuard( maMutex ); maOffset = rPoint; } maParaManager.SetEEOffset( rPoint ); // in all cases, check visibility afterwards. UpdateVisibleChildren(); UpdateBoundRect(); } void AccessibleTextHelper_Impl::UpdateVisibleChildren( bool bBroadcastEvents ) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); try { SvxTextForwarder& rCacheTF = GetTextForwarder(); SvxViewForwarder& rCacheVF = GetViewForwarder(); Rectangle aViewArea = rCacheVF.GetVisArea(); if( IsActive() ) { // maybe the edit view scrolls, adapt aViewArea Rectangle aEditViewArea = GetEditViewForwarder().GetVisArea(); aViewArea += aEditViewArea.TopLeft(); // now determine intersection aViewArea.Intersection( aEditViewArea ); } Rectangle aTmpBB, aParaBB; sal_Bool bFirstChild = sal_True; sal_Int32 nCurrPara; sal_Int32 nParas=rCacheTF.GetParagraphCount(); mnFirstVisibleChild = -1; mnLastVisibleChild = -2; for( nCurrPara=0; nCurrPara= 0 && nCurrPara <= USHRT_MAX, "AccessibleTextHelper_Impl::UpdateVisibleChildren: index value overflow"); aTmpBB = rCacheTF.GetParaBounds( static_cast< sal_uInt16 >( nCurrPara ) ); // convert to screen coordinates aParaBB = ::accessibility::AccessibleEditableTextPara::LogicToPixel( aTmpBB, rCacheTF.GetMapMode(), rCacheVF ); //IAccessibility2 Implementation 2009----- /* if( aParaBB.IsOver( aViewArea ) ) { */ //-----IAccessibility2 Implementation 2009 // at least partially visible if( bFirstChild ) { bFirstChild = sal_False; mnFirstVisibleChild = nCurrPara; } mnLastVisibleChild = nCurrPara; // child not yet created? ::accessibility::AccessibleParaManager::WeakChild aChild( maParaManager.GetChild(nCurrPara) ); if( aChild.second.Width == 0 && aChild.second.Height == 0 && mxFrontEnd.is() && bBroadcastEvents ) { GotPropertyEvent( uno::makeAny( maParaManager.CreateChild( nCurrPara - mnFirstVisibleChild, mxFrontEnd, GetEditSource(), nCurrPara ).first ), AccessibleEventId::CHILD ); } //IAccessibility2 Implementation 2009----- /* } else { // not or no longer visible if( maParaManager.IsReferencable( nCurrPara ) ) { if( bBroadcastEvents ) LostPropertyEvent( uno::makeAny( maParaManager.GetChild( nCurrPara ).first.get().getRef() ), AccessibleEventId::CHILD ); // clear reference maParaManager.Release( nCurrPara ); } }*/ //-----IAccessibility2 Implementation 2009 } } catch( const uno::Exception& ) { DBG_ERROR("AccessibleTextHelper_Impl::UpdateVisibleChildren error while determining visible children"); // something failed - currently no children mnFirstVisibleChild = -1; mnLastVisibleChild = -2; maParaManager.SetNum(0); // lost all children if( bBroadcastEvents ) FireEvent(AccessibleEventId::INVALIDATE_ALL_CHILDREN); } } // functor for checking changes in paragraph bounding boxes (no stand-alone function, maybe not inlined) class AccessibleTextHelper_UpdateChildBounds : public ::std::unary_function< const ::accessibility::AccessibleParaManager::WeakChild&, ::accessibility::AccessibleParaManager::WeakChild > { public: AccessibleTextHelper_UpdateChildBounds( AccessibleTextHelper_Impl& rImpl ) : mrImpl(rImpl) {} ::accessibility::AccessibleParaManager::WeakChild operator()( const ::accessibility::AccessibleParaManager::WeakChild& rChild ) { // retrieve hard reference from weak one ::accessibility::AccessibleParaManager::WeakPara::HardRefType aHardRef( rChild.first.get() ); if( aHardRef.is() ) { awt::Rectangle aNewRect = aHardRef->getBounds(); const awt::Rectangle& aOldRect = rChild.second; if( aNewRect.X != aOldRect.X || aNewRect.Y != aOldRect.Y || aNewRect.Width != aOldRect.Width || aNewRect.Height != aOldRect.Height ) { // visible data changed aHardRef->FireEvent( AccessibleEventId::BOUNDRECT_CHANGED ); // update internal bounds return ::accessibility::AccessibleParaManager::WeakChild( rChild.first, aNewRect ); } } // identity transform return rChild; } private: AccessibleTextHelper_Impl& mrImpl; }; void AccessibleTextHelper_Impl::UpdateBoundRect() { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); // send BOUNDRECT_CHANGED to affected children AccessibleTextHelper_UpdateChildBounds aFunctor( *this ); ::std::transform( maParaManager.begin(), maParaManager.end(), maParaManager.begin(), aFunctor ); } #ifdef DBG_UTIL void AccessibleTextHelper_Impl::CheckInvariants() const { if( mnFirstVisibleChild >= 0 && mnFirstVisibleChild > mnLastVisibleChild ) { DBG_ERROR( "AccessibleTextHelper: range invalid" ); } } #endif // functor for sending child events (no stand-alone function, they are maybe not inlined) class AccessibleTextHelper_LostChildEvent : public ::std::unary_function< const ::accessibility::AccessibleParaManager::WeakChild&, void > { public: AccessibleTextHelper_LostChildEvent( AccessibleTextHelper_Impl& rImpl ) : mrImpl(rImpl) {} void operator()( const ::accessibility::AccessibleParaManager::WeakChild& rPara ) { // retrieve hard reference from weak one ::accessibility::AccessibleParaManager::WeakPara::HardRefType aHardRef( rPara.first.get() ); if( aHardRef.is() ) mrImpl.FireEvent(AccessibleEventId::CHILD, uno::Any(), uno::makeAny( aHardRef.getRef() ) ); } private: AccessibleTextHelper_Impl& mrImpl; }; void AccessibleTextHelper_Impl::ParagraphsMoved( sal_Int32 nFirst, sal_Int32 nMiddle, sal_Int32 nLast ) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); const sal_Int32 nParas = GetTextForwarder().GetParagraphCount(); /* rotate paragraphs * ================= * * Three cases: * * 1. * ... nParagraph ... nParam1 ... nParam2 ... * |______________[xxxxxxxxxxx] * becomes * [xxxxxxxxxxx]|______________ * * tail is 0 * * 2. * ... nParam1 ... nParagraph ... nParam2 ... * [xxxxxxxxxxx|xxxxxxxxxxxxxx]____________ * becomes * ____________[xxxxxxxxxxx|xxxxxxxxxxxxxx] * * tail is nParagraph - nParam1 * * 3. * ... nParam1 ... nParam2 ... nParagraph ... * [xxxxxxxxxxx]___________|____________ * becomes * ___________|____________[xxxxxxxxxxx] * * tail is nParam2 - nParam1 */ // sort nParagraph, nParam1 and nParam2 in ascending order, calc range if( nMiddle < nFirst ) { ::std::swap(nFirst, nMiddle); } else if( nMiddle < nLast ) { nLast = nLast + nMiddle - nFirst; } else { ::std::swap(nMiddle, nLast); nLast = nLast + nMiddle - nFirst; } if( nFirst < nParas && nMiddle < nParas && nLast < nParas ) { // since we have no "paragraph index // changed" event on UAA, remove // [first,last] and insert again later (in // UpdateVisibleChildren) // maParaManager.Rotate( nFirst, nMiddle, nLast ); // send CHILD_EVENT to affected children ::accessibility::AccessibleParaManager::VectorOfChildren::const_iterator begin = maParaManager.begin(); ::accessibility::AccessibleParaManager::VectorOfChildren::const_iterator end = begin; ::std::advance( begin, nFirst ); ::std::advance( end, nLast+1 ); // TODO: maybe optimize here in the following way. If the // number of removed children exceeds a certain threshold, // use INVALIDATE_CHILDREN AccessibleTextHelper_LostChildEvent aFunctor( *this ); ::std::for_each( begin, end, aFunctor ); maParaManager.Release(nFirst, nLast+1); // should be no need for UpdateBoundRect, since all affected children are cleared. } } // functor for sending child events (no stand-alone function, they are maybe not inlined) class AccessibleTextHelper_ChildrenTextChanged : public ::std::unary_function< ::accessibility::AccessibleEditableTextPara&, void > { public: void operator()( ::accessibility::AccessibleEditableTextPara& rPara ) { rPara.TextChanged(); } }; /** functor processing queue events Reacts on TEXT_HINT_PARAINSERTED/REMOVED events and stores their content */ class AccessibleTextHelper_QueueFunctor : public ::std::unary_function< const SfxHint*, void > { public: AccessibleTextHelper_QueueFunctor() : mnParasChanged( 0 ), mnParaIndex(-1), mnHintId(-1) {} void operator()( const SfxHint* pEvent ) { if( pEvent && mnParasChanged != -1 ) { // determine hint type const TextHint* pTextHint = PTR_CAST( TextHint, pEvent ); const SvxEditSourceHint* pEditSourceHint = PTR_CAST( SvxEditSourceHint, pEvent ); if( !pEditSourceHint && pTextHint && (pTextHint->GetId() == TEXT_HINT_PARAINSERTED || pTextHint->GetId() == TEXT_HINT_PARAREMOVED ) ) { if( pTextHint->GetValue() == EE_PARA_ALL ) { mnParasChanged = -1; } else { mnHintId = pTextHint->GetId(); mnParaIndex = pTextHint->GetValue(); ++mnParasChanged; } } } } /** Query number of paragraphs changed during queue processing. @return number of changed paragraphs, -1 for "every paragraph changed" */ int GetNumberOfParasChanged() { return mnParasChanged; } /** Query index of last added/removed paragraph @return index of lastly added paragraphs, -1 for none added so far. */ int GetParaIndex() { return mnParaIndex; } /** Query hint id of last interesting event @return hint id of last interesting event (REMOVED/INSERTED). */ int GetHintId() { return mnHintId; } private: /** number of paragraphs changed during queue processing. -1 for "every paragraph changed" */ int mnParasChanged; /// index of paragraph added/removed last int mnParaIndex; /// TextHint ID (removed/inserted) of last interesting event int mnHintId; }; void AccessibleTextHelper_Impl::ProcessQueue() { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); // inspect queue for paragraph insert/remove events. If there // is exactly _one_ of those in the queue, and the number of // paragraphs has changed by exactly one, use that event to // determine a priori which paragraph was added/removed. This // is necessary, since I must sync right here with the // EditEngine state (number of paragraphs etc.), since I'm // potentially sending listener events right away. AccessibleTextHelper_QueueFunctor aFunctor; maEventQueue.ForEach( aFunctor ); const sal_Int32 nNewParas( GetTextForwarder().GetParagraphCount() ); const sal_Int32 nCurrParas( maParaManager.GetNum() ); // whether every paragraph already is updated (no need to // repeat that later on, e.g. for PARA_MOVED events) bool bEverythingUpdated( false ); if( labs( nNewParas - nCurrParas ) == 1 && aFunctor.GetNumberOfParasChanged() == 1 ) { // #103483# Exactly one paragraph added/removed. This is // the normal case, optimize event handling here. if( aFunctor.GetHintId() == TEXT_HINT_PARAINSERTED ) { // update num of paras maParaManager.SetNum( nNewParas ); // release everything from the insertion position until the end maParaManager.Release(aFunctor.GetParaIndex(), nCurrParas); // TODO: Clarify whether this behaviour _really_ saves // anybody anything! // update children, _don't_ broadcast UpdateVisibleChildren( false ); UpdateBoundRect(); // send insert event // #109864# Enforce creation of this paragraph try { GotPropertyEvent( uno::makeAny( getAccessibleChild( aFunctor.GetParaIndex() - mnFirstVisibleChild + GetStartIndex() ) ), AccessibleEventId::CHILD ); } catch( const uno::Exception& ) { DBG_ERROR("AccessibleTextHelper_Impl::ProcessQueue: could not create new paragraph"); } } else if( aFunctor.GetHintId() == TEXT_HINT_PARAREMOVED ) { ::accessibility::AccessibleParaManager::VectorOfChildren::const_iterator begin = maParaManager.begin(); ::std::advance( begin, aFunctor.GetParaIndex() ); ::accessibility::AccessibleParaManager::VectorOfChildren::const_iterator end = begin; ::std::advance( end, 1 ); // #i61812# remember para to be removed for later notification // AFTER the new state is applied (that after the para got removed) ::uno::Reference< XAccessible > xPara; ::accessibility::AccessibleParaManager::WeakPara::HardRefType aHardRef( begin->first.get() ); if( aHardRef.is() ) xPara = ::uno::Reference< XAccessible >( aHardRef.getRef(), ::uno::UNO_QUERY ); // release everything from the remove position until the end maParaManager.Release(aFunctor.GetParaIndex(), nCurrParas); // update num of paras maParaManager.SetNum( nNewParas ); // TODO: Clarify whether this behaviour _really_ saves // anybody anything! // update children, _don't_ broadcast UpdateVisibleChildren( false ); UpdateBoundRect(); // #i61812# notification for removed para if (xPara.is()) FireEvent(AccessibleEventId::CHILD, uno::Any(), uno::makeAny( xPara) ); } #ifdef DBG_UTIL else DBG_ERROR("AccessibleTextHelper_Impl::ProcessQueue() invalid hint id"); #endif } else if( nNewParas != nCurrParas ) { // release all paras maParaManager.Release(0, nCurrParas); // update num of paras maParaManager.SetNum( nNewParas ); // #109864# create from scratch, don't broadcast UpdateVisibleChildren( false ); UpdateBoundRect(); // number of paragraphs somehow changed - but we have no // chance determining how. Thus, throw away everything and // create from scratch. // (child events should be broadcast after the changes are done...) FireEvent(AccessibleEventId::INVALIDATE_ALL_CHILDREN); // no need for further updates later on bEverythingUpdated = true; } while( !maEventQueue.IsEmpty() ) { ::std::auto_ptr< SfxHint > pHint( maEventQueue.PopFront() ); if( pHint.get() ) { const SfxHint& rHint = *(pHint.get()); // determine hint type const SdrHint* pSdrHint = PTR_CAST( SdrHint, &rHint ); const SfxSimpleHint* pSimpleHint = PTR_CAST( SfxSimpleHint, &rHint ); const TextHint* pTextHint = PTR_CAST( TextHint, &rHint ); const SvxViewHint* pViewHint = PTR_CAST( SvxViewHint, &rHint ); const SvxEditSourceHint* pEditSourceHint = PTR_CAST( SvxEditSourceHint, &rHint ); try { const sal_Int32 nParas = GetTextForwarder().GetParagraphCount(); if( pEditSourceHint ) { switch( pEditSourceHint->GetId() ) { case EDITSOURCE_HINT_PARASMOVED: { DBG_ASSERT( pEditSourceHint->GetStartValue() < GetTextForwarder().GetParagraphCount() && pEditSourceHint->GetEndValue() < GetTextForwarder().GetParagraphCount(), "AccessibleTextHelper_Impl::NotifyHdl: Invalid notification"); if( !bEverythingUpdated ) { ParagraphsMoved(pEditSourceHint->GetStartValue(), pEditSourceHint->GetValue(), pEditSourceHint->GetEndValue()); // in all cases, check visibility afterwards. UpdateVisibleChildren(); } break; } case EDITSOURCE_HINT_SELECTIONCHANGED: // notify listeners try { UpdateSelection(); } // maybe we're not in edit mode (this is not an error) catch( const uno::Exception& ) {} break; } } else if( pTextHint ) { switch( pTextHint->GetId() ) { case TEXT_HINT_MODIFIED: { // notify listeners sal_Int32 nPara( pTextHint->GetValue() ); // #108900# Delegate change event to children AccessibleTextHelper_ChildrenTextChanged aNotifyChildrenFunctor; if( nPara == static_cast(EE_PARA_ALL) ) { // #108900# Call every child ::std::for_each( maParaManager.begin(), maParaManager.end(), AccessibleParaManager::WeakChildAdapter< AccessibleTextHelper_ChildrenTextChanged > (aNotifyChildrenFunctor) ); } else if( nPara < nParas ) { // #108900# Call child at index nPara ::std::for_each( maParaManager.begin()+nPara, maParaManager.begin()+nPara+1, AccessibleParaManager::WeakChildAdapter< AccessibleTextHelper_ChildrenTextChanged > (aNotifyChildrenFunctor) ); } break; } case TEXT_HINT_PARAINSERTED: // already happened above break; case TEXT_HINT_PARAREMOVED: // already happened above break; case TEXT_HINT_TEXTHEIGHTCHANGED: // visibility changed, done below break; case TEXT_HINT_VIEWSCROLLED: // visibility changed, done below break; } // in all cases, check visibility afterwards. UpdateVisibleChildren(); UpdateBoundRect(); } else if( pViewHint ) { switch( pViewHint->GetHintType() ) { case SvxViewHint::SVX_HINT_VIEWCHANGED: // just check visibility UpdateVisibleChildren(); UpdateBoundRect(); break; } } else if( pSdrHint ) { switch( pSdrHint->GetKind() ) { case HINT_BEGEDIT: { //IAccessibility2 Implementation 2009----- if(!IsActive()) { break; } //-----IAccessibility2 Implementation 2009 // change children state maParaManager.SetActive(); // per definition, edit mode text has the focus SetFocus( sal_True ); break; } case HINT_ENDEDIT: { // focused child now looses focus ESelection aSelection; if( GetEditViewForwarder().GetSelection( aSelection ) ) SetChildFocus( aSelection.nEndPara, sal_False ); // change children state maParaManager.SetActive( sal_False ); maLastSelection = ESelection( EE_PARA_NOT_FOUND, EE_PARA_NOT_FOUND, EE_PARA_NOT_FOUND, EE_PARA_NOT_FOUND); break; } default: break; } } // it's VITAL to keep the SfxSimpleHint last! It's the base of some classes above! else if( pSimpleHint ) { switch( pSimpleHint->GetId() ) { case SFX_HINT_DYING: // edit source is dying under us, become defunc then try { // make edit source inaccessible // Note: cannot destroy it here, since we're called from there! ShutdownEditSource(); } catch( const uno::Exception& ) {} break; } } } catch( const uno::Exception& ) { #ifdef DBG_UTIL OSL_TRACE("AccessibleTextHelper_Impl::ProcessQueue: Unhandled exception."); #endif } } } } void AccessibleTextHelper_Impl::Notify( SfxBroadcaster& /*rBC*/, const SfxHint& rHint ) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); // precondition: solar mutex locked DBG_TESTSOLARMUTEX(); // precondition: not in a recursion if( mbInNotify ) return; mbInNotify = sal_True; // determine hint type const SdrHint* pSdrHint = PTR_CAST( SdrHint, &rHint ); const SfxSimpleHint* pSimpleHint = PTR_CAST( SfxSimpleHint, &rHint ); const TextHint* pTextHint = PTR_CAST( TextHint, &rHint ); const SvxViewHint* pViewHint = PTR_CAST( SvxViewHint, &rHint ); const SvxEditSourceHint* pEditSourceHint = PTR_CAST( SvxEditSourceHint, &rHint ); try { // Process notification event if( pEditSourceHint ) { maEventQueue.Append( *pEditSourceHint ); // --> OD 2005-12-19 #i27299# if( maEventOpenFrames == 0 ) ProcessQueue(); // <-- } else if( pTextHint ) { switch( pTextHint->GetId() ) { case TEXT_HINT_BLOCKNOTIFICATION_END: case TEXT_HINT_INPUT_END: --maEventOpenFrames; if( maEventOpenFrames == 0 ) { // #103483# /* All information should have arrived * now, process queue. As stated in the * above bug, we can often avoid throwing * away all paragraphs by looking forward * in the event queue (searching for * PARAINSERT/REMOVE events). Furthermore, * processing the event queue only at the * end of an interaction cycle, ensures * that the EditEngine state and the * AccessibleText state are the same * (well, mostly. If there are _multiple_ * interaction cycles in the EE queues, it * can still happen that EE state is * different. That's so to say broken by * design with that delayed EE event * concept). */ ProcessQueue(); } break; case TEXT_HINT_BLOCKNOTIFICATION_START: case TEXT_HINT_INPUT_START: ++maEventOpenFrames; // --> OD 2005-12-19 #i27299# - no FALLTROUGH // reason: event will not be processes, thus appending // the event isn't necessary. break; // <-- default: maEventQueue.Append( *pTextHint ); // --> OD 2005-12-19 #i27299# if( maEventOpenFrames == 0 ) ProcessQueue(); // <-- break; } } else if( pViewHint ) { maEventQueue.Append( *pViewHint ); // process visibility right away, if not within an // open EE notification frame. Otherwise, event // processing would be delayed until next EE // notification sequence. if( maEventOpenFrames == 0 ) ProcessQueue(); } else if( pSdrHint ) { maEventQueue.Append( *pSdrHint ); // process drawing layer events right away, if not // within an open EE notification frame. Otherwise, // event processing would be delayed until next EE // notification sequence. if( maEventOpenFrames == 0 ) ProcessQueue(); } // it's VITAL to keep the SfxSimpleHint last! It's the base of some classes above! else if( pSimpleHint ) { // handle this event _at once_, because after that, objects are invalid switch( pSimpleHint->GetId() ) { case SFX_HINT_DYING: // edit source is dying under us, become defunc then maEventQueue.Clear(); try { // make edit source inaccessible // Note: cannot destroy it here, since we're called from there! ShutdownEditSource(); } catch( const uno::Exception& ) {} break; } } } catch( const uno::Exception& ) { #ifdef DBG_UTIL OSL_TRACE("AccessibleTextHelper_Impl::Notify: Unhandled exception."); #endif mbInNotify = sal_False; } mbInNotify = sal_False; } void AccessibleTextHelper_Impl::Dispose() { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); if( getNotifierClientId() != -1 ) { try { // #106234# Unregister from EventNotifier ::comphelper::AccessibleEventNotifier::revokeClient( getNotifierClientId() ); #ifdef DBG_UTIL OSL_TRACE( "AccessibleTextHelper_Impl disposed ID: %d", mnNotifierClientId ); #endif } catch( const uno::Exception& ) {} mnNotifierClientId = -1; } try { // dispose children maParaManager.Dispose(); } catch( const uno::Exception& ) {} // quit listen on stale edit source if( maEditSource.IsValid() ) EndListening( maEditSource.GetBroadcaster() ); // clear references maEditSource.SetEditSource( ::std::auto_ptr< SvxEditSource >(NULL) ); mxFrontEnd = NULL; } void AccessibleTextHelper_Impl::FireEvent( const sal_Int16 nEventId, const uno::Any& rNewValue, const uno::Any& rOldValue ) const { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); // -- object locked -- ::osl::ClearableMutexGuard aGuard( maMutex ); AccessibleEventObject aEvent; DBG_ASSERT(mxFrontEnd.is(), "AccessibleTextHelper::FireEvent: no event source set" ); if( mxFrontEnd.is() ) aEvent = AccessibleEventObject(mxFrontEnd->getAccessibleContext(), nEventId, rNewValue, rOldValue); else aEvent = AccessibleEventObject(uno::Reference< uno::XInterface >(), nEventId, rNewValue, rOldValue); // no locking necessary, FireEvent internally copies listeners // if someone removes/adds in between Further locking, // actually, might lead to deadlocks, since we're calling out // of this object aGuard.clear(); // -- until here -- FireEvent(aEvent); } void AccessibleTextHelper_Impl::FireEvent( const AccessibleEventObject& rEvent ) const { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); // #102261# Call global queue for focus events if( rEvent.EventId == AccessibleStateType::FOCUSED ) vcl::unohelper::NotifyAccessibleStateEventGlobally( rEvent ); // #106234# Delegate to EventNotifier ::comphelper::AccessibleEventNotifier::addEvent( getNotifierClientId(), rEvent ); } // XAccessibleContext sal_Int32 SAL_CALL AccessibleTextHelper_Impl::getAccessibleChildCount() SAL_THROW((uno::RuntimeException)) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); return mnLastVisibleChild - mnFirstVisibleChild + 1; } uno::Reference< XAccessible > SAL_CALL AccessibleTextHelper_Impl::getAccessibleChild( sal_Int32 i ) SAL_THROW((lang::IndexOutOfBoundsException, uno::RuntimeException)) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); i -= GetStartIndex(); if( 0 > i || i >= getAccessibleChildCount() || GetTextForwarder().GetParagraphCount() <= i ) { throw lang::IndexOutOfBoundsException(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("Invalid child index")), mxFrontEnd); } DBG_ASSERT(mxFrontEnd.is(), "AccessibleTextHelper_Impl::UpdateVisibleChildren: no frontend set"); if( mxFrontEnd.is() ) return maParaManager.CreateChild( i, mxFrontEnd, GetEditSource(), mnFirstVisibleChild + i ).first; else return NULL; } void SAL_CALL AccessibleTextHelper_Impl::addEventListener( const uno::Reference< XAccessibleEventListener >& xListener ) SAL_THROW((uno::RuntimeException)) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); if( getNotifierClientId() != -1 ) ::comphelper::AccessibleEventNotifier::addEventListener( getNotifierClientId(), xListener ); } void SAL_CALL AccessibleTextHelper_Impl::removeEventListener( const uno::Reference< XAccessibleEventListener >& xListener ) SAL_THROW((uno::RuntimeException)) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); if( getNotifierClientId() != -1 ) ::comphelper::AccessibleEventNotifier::removeEventListener( getNotifierClientId(), xListener ); } uno::Reference< XAccessible > SAL_CALL AccessibleTextHelper_Impl::getAccessibleAtPoint( const awt::Point& _aPoint ) SAL_THROW((uno::RuntimeException)) { DBG_CHKTHIS( AccessibleTextHelper_Impl, NULL ); // make given position relative if( !mxFrontEnd.is() ) throw uno::RuntimeException(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("AccessibleTextHelper_Impl::getAccessibleAt: frontend invalid")), mxFrontEnd ); uno::Reference< XAccessibleContext > xFrontEndContext = mxFrontEnd->getAccessibleContext(); if( !xFrontEndContext.is() ) throw uno::RuntimeException(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("AccessibleTextHelper_Impl::getAccessibleAt: frontend invalid")), mxFrontEnd ); uno::Reference< XAccessibleComponent > xFrontEndComponent( xFrontEndContext, uno::UNO_QUERY ); if( !xFrontEndComponent.is() ) throw uno::RuntimeException(::rtl::OUString(RTL_CONSTASCII_USTRINGPARAM("AccessibleTextHelper_Impl::getAccessibleAt: frontend is no XAccessibleComponent")), mxFrontEnd ); // #103862# No longer need to make given position relative Point aPoint( _aPoint.X, _aPoint.Y ); // respect EditEngine offset to surrounding shape/cell aPoint -= GetOffset(); // convert to EditEngine coordinate system SvxTextForwarder& rCacheTF = GetTextForwarder(); Point aLogPoint( GetViewForwarder().PixelToLogic( aPoint, rCacheTF.GetMapMode() ) ); // iterate over all visible children (including those not yet created) sal_Int32 nChild; for( nChild=mnFirstVisibleChild; nChild <= mnLastVisibleChild; ++nChild ) { DBG_ASSERT(nChild >= 0 && nChild <= USHRT_MAX, "AccessibleTextHelper_Impl::getAccessibleAt: index value overflow"); Rectangle aParaBounds( rCacheTF.GetParaBounds( static_cast< sal_uInt16 > (nChild) ) ); if( aParaBounds.IsInside( aLogPoint ) ) return getAccessibleChild( nChild - mnFirstVisibleChild + GetStartIndex() ); } // found none return NULL; } //------------------------------------------------------------------------ // // AccessibleTextHelper implementation (simply forwards to impl) // //------------------------------------------------------------------------ AccessibleTextHelper::AccessibleTextHelper( ::std::auto_ptr< SvxEditSource > pEditSource ) : mpImpl( new AccessibleTextHelper_Impl() ) { ::vos::OGuard aGuard( Application::GetSolarMutex() ); SetEditSource( pEditSource ); } AccessibleTextHelper::~AccessibleTextHelper() { } const SvxEditSource& AccessibleTextHelper::GetEditSource() const SAL_THROW((uno::RuntimeException)) { #ifdef DBG_UTIL mpImpl->CheckInvariants(); const SvxEditSource& aEditSource = mpImpl->GetEditSource(); mpImpl->CheckInvariants(); return aEditSource; #else return mpImpl->GetEditSource(); #endif } void AccessibleTextHelper::SetEditSource( ::std::auto_ptr< SvxEditSource > pEditSource ) SAL_THROW((uno::RuntimeException)) { #ifdef DBG_UTIL // precondition: solar mutex locked DBG_TESTSOLARMUTEX(); mpImpl->CheckInvariants(); #endif mpImpl->SetEditSource( pEditSource ); #ifdef DBG_UTIL mpImpl->CheckInvariants(); #endif } void AccessibleTextHelper::SetEventSource( const uno::Reference< XAccessible >& rInterface ) { #ifdef DBG_UTIL mpImpl->CheckInvariants(); #endif mpImpl->SetEventSource( rInterface ); #ifdef DBG_UTIL mpImpl->CheckInvariants(); #endif } uno::Reference< XAccessible > AccessibleTextHelper::GetEventSource() const { #ifdef DBG_UTIL mpImpl->CheckInvariants(); uno::Reference< XAccessible > xRet( mpImpl->GetEventSource() ); mpImpl->CheckInvariants(); return xRet; #else return mpImpl->GetEventSource(); #endif } void AccessibleTextHelper::SetFocus( sal_Bool bHaveFocus ) SAL_THROW((::com::sun::star::uno::RuntimeException)) { #ifdef DBG_UTIL // precondition: solar mutex locked DBG_TESTSOLARMUTEX(); mpImpl->CheckInvariants(); #endif mpImpl->SetFocus( bHaveFocus ); #ifdef DBG_UTIL mpImpl->CheckInvariants(); #endif } sal_Bool AccessibleTextHelper::HaveFocus() SAL_THROW((::com::sun::star::uno::RuntimeException)) { #ifdef DBG_UTIL mpImpl->CheckInvariants(); sal_Bool bRet( mpImpl->HaveFocus() ); mpImpl->CheckInvariants(); return bRet; #else return mpImpl->HaveFocus(); #endif } void AccessibleTextHelper::FireEvent( const sal_Int16 nEventId, const uno::Any& rNewValue, const uno::Any& rOldValue ) const { #ifdef DBG_UTIL mpImpl->CheckInvariants(); #endif mpImpl->FireEvent( nEventId, rNewValue, rOldValue ); #ifdef DBG_UTIL mpImpl->CheckInvariants(); #endif } void AccessibleTextHelper::FireEvent( const AccessibleEventObject& rEvent ) const { #ifdef DBG_UTIL mpImpl->CheckInvariants(); #endif mpImpl->FireEvent( rEvent ); #ifdef DBG_UTIL mpImpl->CheckInvariants(); #endif } void AccessibleTextHelper::SetOffset( const Point& rPoint ) { #ifdef DBG_UTIL // precondition: solar mutex locked DBG_TESTSOLARMUTEX(); mpImpl->CheckInvariants(); #endif mpImpl->SetOffset( rPoint ); #ifdef DBG_UTIL mpImpl->CheckInvariants(); #endif } Point AccessibleTextHelper::GetOffset() const { #ifdef DBG_UTIL mpImpl->CheckInvariants(); Point aPoint( mpImpl->GetOffset() ); mpImpl->CheckInvariants(); return aPoint; #else return mpImpl->GetOffset(); #endif } void AccessibleTextHelper::SetStartIndex( sal_Int32 nOffset ) { #ifdef DBG_UTIL // precondition: solar mutex locked DBG_TESTSOLARMUTEX(); mpImpl->CheckInvariants(); #endif mpImpl->SetStartIndex( nOffset ); #ifdef DBG_UTIL mpImpl->CheckInvariants(); #endif } sal_Int32 AccessibleTextHelper::GetStartIndex() const { #ifdef DBG_UTIL mpImpl->CheckInvariants(); sal_Int32 nOffset = mpImpl->GetStartIndex(); mpImpl->CheckInvariants(); return nOffset; #else return mpImpl->GetStartIndex(); #endif } void AccessibleTextHelper::SetAdditionalChildStates( const VectorOfStates& rChildStates ) { mpImpl->SetAdditionalChildStates( rChildStates ); } const AccessibleTextHelper::VectorOfStates& AccessibleTextHelper::GetAdditionalChildStates() const { return mpImpl->GetAdditionalChildStates(); } void AccessibleTextHelper::UpdateChildren() SAL_THROW((::com::sun::star::uno::RuntimeException)) { #ifdef DBG_UTIL // precondition: solar mutex locked DBG_TESTSOLARMUTEX(); mpImpl->CheckInvariants(); #endif mpImpl->UpdateVisibleChildren(); mpImpl->UpdateBoundRect(); mpImpl->UpdateSelection(); #ifdef DBG_UTIL mpImpl->CheckInvariants(); #endif } void AccessibleTextHelper::Dispose() { // As Dispose calls ShutdownEditSource, which in turn // deregisters as listener on the edit source, have to lock // here ::vos::OGuard aGuard( Application::GetSolarMutex() ); #ifdef DBG_UTIL mpImpl->CheckInvariants(); #endif mpImpl->Dispose(); #ifdef DBG_UTIL mpImpl->CheckInvariants(); #endif } sal_Bool AccessibleTextHelper::IsSelected() const { ::vos::OGuard aGuard( Application::GetSolarMutex() ); #ifdef DBG_UTIL mpImpl->CheckInvariants(); sal_Bool aRet = mpImpl->IsSelected(); mpImpl->CheckInvariants(); return aRet; #else return mpImpl->IsSelected(); #endif } // XAccessibleContext sal_Int32 AccessibleTextHelper::GetChildCount() SAL_THROW((uno::RuntimeException)) { ::vos::OGuard aGuard( Application::GetSolarMutex() ); #ifdef DBG_UTIL mpImpl->CheckInvariants(); sal_Int32 nRet = mpImpl->getAccessibleChildCount(); mpImpl->CheckInvariants(); return nRet; #else return mpImpl->getAccessibleChildCount(); #endif } uno::Reference< XAccessible > AccessibleTextHelper::GetChild( sal_Int32 i ) SAL_THROW((lang::IndexOutOfBoundsException, uno::RuntimeException)) { ::vos::OGuard aGuard( Application::GetSolarMutex() ); #ifdef DBG_UTIL mpImpl->CheckInvariants(); uno::Reference< XAccessible > xRet = mpImpl->getAccessibleChild( i ); mpImpl->CheckInvariants(); return xRet; #else return mpImpl->getAccessibleChild( i ); #endif } void AccessibleTextHelper::AddEventListener( const uno::Reference< XAccessibleEventListener >& xListener ) SAL_THROW((uno::RuntimeException)) { #ifdef DBG_UTIL mpImpl->CheckInvariants(); mpImpl->addEventListener( xListener ); mpImpl->CheckInvariants(); #else mpImpl->addEventListener( xListener ); #endif } void AccessibleTextHelper::RemoveEventListener( const uno::Reference< XAccessibleEventListener >& xListener ) SAL_THROW((uno::RuntimeException)) { #ifdef DBG_UTIL mpImpl->CheckInvariants(); mpImpl->removeEventListener( xListener ); mpImpl->CheckInvariants(); #else mpImpl->removeEventListener( xListener ); #endif } // XAccessibleComponent uno::Reference< XAccessible > AccessibleTextHelper::GetAt( const awt::Point& aPoint ) SAL_THROW((uno::RuntimeException)) { ::vos::OGuard aGuard( Application::GetSolarMutex() ); #ifdef DBG_UTIL mpImpl->CheckInvariants(); uno::Reference< XAccessible > xChild = mpImpl->getAccessibleAtPoint( aPoint ); mpImpl->CheckInvariants(); return xChild; #else return mpImpl->getAccessibleAtPoint( aPoint ); #endif } } // end of namespace accessibility //------------------------------------------------------------------------