/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ // Global header #include #include #include #include #include #include #include // Project-local header #include #include using namespace ::com::sun::star; using namespace ::com::sun::star::accessibility; namespace accessibility { AccessibleParaManager::AccessibleParaManager() : maChildren(1), maEEOffset( 0, 0 ), mnFocusedChild( -1 ), mbActive( false ) { } AccessibleParaManager::~AccessibleParaManager() { // owner is responsible for possible child death } void AccessibleParaManager::SetAdditionalChildStates( const VectorOfStates& rChildStates ) { maChildStates = rChildStates; } void AccessibleParaManager::SetNum( sal_Int32 nNumParas ) { if( o3tl::make_unsigned(nNumParas) < maChildren.size() ) Release( nNumParas, maChildren.size() ); maChildren.resize( nNumParas ); if( mnFocusedChild >= nNumParas ) mnFocusedChild = -1; } sal_Int32 AccessibleParaManager::GetNum() const { size_t nSize = maChildren.size(); if (nSize > SAL_MAX_INT32) { SAL_WARN( "editeng", "AccessibleParaManager::GetNum - overflow " << nSize); return SAL_MAX_INT32; } return static_cast(nSize); } AccessibleParaManager::VectorOfChildren::iterator AccessibleParaManager::begin() { return maChildren.begin(); } AccessibleParaManager::VectorOfChildren::iterator AccessibleParaManager::end() { return maChildren.end(); } void AccessibleParaManager::FireEvent( sal_Int32 nPara, const sal_Int16 nEventId ) const { DBG_ASSERT( 0 <= nPara && maChildren.size() > o3tl::make_unsigned(nPara), "AccessibleParaManager::FireEvent: invalid index" ); if( 0 <= nPara && maChildren.size() > o3tl::make_unsigned(nPara) ) { auto aChild( GetChild( nPara ).first.get() ); if( aChild.is() ) aChild->FireEvent( nEventId ); } } bool AccessibleParaManager::IsReferencable( rtl::Reference const & aChild) { return aChild.is(); } bool AccessibleParaManager::IsReferencable( sal_Int32 nChild ) const { DBG_ASSERT( 0 <= nChild && maChildren.size() > o3tl::make_unsigned(nChild), "AccessibleParaManager::IsReferencable: invalid index" ); if( 0 <= nChild && maChildren.size() > o3tl::make_unsigned(nChild) ) { // retrieve hard reference from weak one return IsReferencable( GetChild( nChild ).first.get() ); } else { return false; } } AccessibleParaManager::WeakChild AccessibleParaManager::GetChild( sal_Int32 nParagraphIndex ) const { DBG_ASSERT( 0 <= nParagraphIndex && maChildren.size() > o3tl::make_unsigned(nParagraphIndex), "AccessibleParaManager::GetChild: invalid index" ); if( 0 <= nParagraphIndex && maChildren.size() > o3tl::make_unsigned(nParagraphIndex) ) { return maChildren[ nParagraphIndex ]; } else { return WeakChild(); } } AccessibleParaManager::Child AccessibleParaManager::CreateChild( sal_Int32 nChild, const uno::Reference< XAccessible >& xFrontEnd, SvxEditSourceAdapter& rEditSource, sal_Int32 nParagraphIndex ) { DBG_ASSERT( 0 <= nParagraphIndex && maChildren.size() > o3tl::make_unsigned(nParagraphIndex), "AccessibleParaManager::CreateChild: invalid index" ); if( 0 <= nParagraphIndex && maChildren.size() > o3tl::make_unsigned(nParagraphIndex) ) { // retrieve hard reference from weak one auto aChild( GetChild( nParagraphIndex ).first.get() ); if( !IsReferencable( nParagraphIndex ) ) { // there is no hard reference available, create object then // #i27138# aChild = new AccessibleEditableTextPara(xFrontEnd, this); InitChild( *aChild, rEditSource, nChild, nParagraphIndex ); maChildren[ nParagraphIndex ] = WeakChild( aChild, aChild->getBounds() ); } return Child( aChild.get(), GetChild( nParagraphIndex ).second ); } else { return Child(); } } void AccessibleParaManager::SetEEOffset( const Point& rOffset ) { maEEOffset = rOffset; MemFunAdapter< const Point& > aAdapter( &::accessibility::AccessibleEditableTextPara::SetEEOffset, rOffset ); std::for_each( begin(), end(), aAdapter ); } void AccessibleParaManager::SetActive( bool bActive ) { mbActive = bActive; if( bActive ) { SetState( AccessibleStateType::ACTIVE ); SetState( AccessibleStateType::EDITABLE ); } else { UnSetState( AccessibleStateType::ACTIVE ); UnSetState( AccessibleStateType::EDITABLE ); } } void AccessibleParaManager::SetFocus( sal_Int32 nChild ) { if( mnFocusedChild != -1 ) UnSetState( mnFocusedChild, AccessibleStateType::FOCUSED ); mnFocusedChild = nChild; if( mnFocusedChild != -1 ) SetState( mnFocusedChild, AccessibleStateType::FOCUSED ); } void AccessibleParaManager::InitChild( AccessibleEditableTextPara& rChild, SvxEditSourceAdapter& rEditSource, sal_Int32 nChild, sal_Int32 nParagraphIndex ) const { rChild.SetEditSource( &rEditSource ); rChild.SetIndexInParent( nChild ); rChild.SetParagraphIndex( nParagraphIndex ); rChild.SetEEOffset( maEEOffset ); if( mbActive ) { rChild.SetState( AccessibleStateType::ACTIVE ); rChild.SetState( AccessibleStateType::EDITABLE ); } if( mnFocusedChild == nParagraphIndex ) rChild.SetState( AccessibleStateType::FOCUSED ); // add states passed from outside for( const auto& rState : maChildStates ) rChild.SetState( rState ); } void AccessibleParaManager::SetState( sal_Int32 nChild, const sal_Int16 nStateId ) { MemFunAdapter< const sal_Int16 > aFunc( &AccessibleEditableTextPara::SetState, nStateId ); aFunc( GetChild(nChild) ); } void AccessibleParaManager::SetState( const sal_Int16 nStateId ) { std::for_each( begin(), end(), MemFunAdapter< const sal_Int16 >( &AccessibleEditableTextPara::SetState, nStateId ) ); } void AccessibleParaManager::UnSetState( sal_Int32 nChild, const sal_Int16 nStateId ) { MemFunAdapter< const sal_Int16 > aFunc( &AccessibleEditableTextPara::UnSetState, nStateId ); aFunc( GetChild(nChild) ); } void AccessibleParaManager::UnSetState( const sal_Int16 nStateId ) { std::for_each( begin(), end(), MemFunAdapter< const sal_Int16 >( &AccessibleEditableTextPara::UnSetState, nStateId ) ); } namespace { // not generic yet, no arguments... class AccessibleParaManager_DisposeChildren { public: AccessibleParaManager_DisposeChildren() {} void operator()( ::accessibility::AccessibleEditableTextPara& rPara ) { rPara.Dispose(); } }; } void AccessibleParaManager::Dispose() { AccessibleParaManager_DisposeChildren aFunctor; std::for_each( begin(), end(), WeakChildAdapter< AccessibleParaManager_DisposeChildren > (aFunctor) ); } namespace { // not generic yet, too many method arguments... class StateChangeEvent { public: StateChangeEvent( const sal_Int16 nEventId, const uno::Any& rNewValue, const uno::Any& rOldValue ) : mnEventId( nEventId ), mrNewValue( rNewValue ), mrOldValue( rOldValue ) {} void operator()( ::accessibility::AccessibleEditableTextPara const & rPara ) { rPara.FireEvent( mnEventId, mrNewValue, mrOldValue ); } private: const sal_Int16 mnEventId; const uno::Any& mrNewValue; const uno::Any& mrOldValue; }; } void AccessibleParaManager::FireEvent( sal_Int32 nStartPara, sal_Int32 nEndPara, const sal_Int16 nEventId, const uno::Any& rNewValue, const uno::Any& rOldValue ) const { DBG_ASSERT( 0 <= nStartPara && 0 <= nEndPara && maChildren.size() > o3tl::make_unsigned(nStartPara) && maChildren.size() >= o3tl::make_unsigned(nEndPara) && nEndPara >= nStartPara, "AccessibleParaManager::FireEvent: invalid index" ); if( 0 <= nStartPara && 0 <= nEndPara && maChildren.size() > o3tl::make_unsigned(nStartPara) && maChildren.size() >= o3tl::make_unsigned(nEndPara) && nEndPara >= nStartPara ) { VectorOfChildren::const_iterator front = maChildren.begin(); VectorOfChildren::const_iterator back = front; std::advance( front, nStartPara ); std::advance( back, nEndPara ); StateChangeEvent aFunctor( nEventId, rNewValue, rOldValue ); std::for_each( front, back, AccessibleParaManager::WeakChildAdapter< StateChangeEvent >( aFunctor ) ); } } namespace { class ReleaseChild { public: AccessibleParaManager::WeakChild operator()( const AccessibleParaManager::WeakChild& rPara ) { AccessibleParaManager::ShutdownPara( rPara ); // clear reference return AccessibleParaManager::WeakChild(); } }; } void AccessibleParaManager::Release( sal_Int32 nStartPara, sal_Int32 nEndPara ) { DBG_ASSERT( 0 <= nStartPara && 0 <= nEndPara && maChildren.size() > o3tl::make_unsigned(nStartPara) && maChildren.size() >= o3tl::make_unsigned(nEndPara), "AccessibleParaManager::Release: invalid index" ); if( 0 <= nStartPara && 0 <= nEndPara && maChildren.size() > o3tl::make_unsigned(nStartPara) && maChildren.size() >= o3tl::make_unsigned(nEndPara) ) { VectorOfChildren::iterator front = maChildren.begin(); VectorOfChildren::iterator back = front; std::advance( front, nStartPara ); std::advance( back, nEndPara ); std::transform( front, back, front, ReleaseChild() ); } } void AccessibleParaManager::ShutdownPara( const WeakChild& rChild ) { auto aChild( rChild.first.get() ); if( IsReferencable( aChild ) ) aChild->SetEditSource( nullptr ); } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */