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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-07 09:06:44 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-07 09:06:44 +0000 |
commit | ed5640d8b587fbcfed7dd7967f3de04b37a76f26 (patch) | |
tree | 7a5f7c6c9d02226d7471cb3cc8fbbf631b415303 /svl/source/items/stylepool.cxx | |
parent | Initial commit. (diff) | |
download | libreoffice-ed5640d8b587fbcfed7dd7967f3de04b37a76f26.tar.xz libreoffice-ed5640d8b587fbcfed7dd7967f3de04b37a76f26.zip |
Adding upstream version 4:7.4.7.upstream/4%7.4.7upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'svl/source/items/stylepool.cxx')
-rw-r--r-- | svl/source/items/stylepool.cxx | 468 |
1 files changed, 468 insertions, 0 deletions
diff --git a/svl/source/items/stylepool.cxx b/svl/source/items/stylepool.cxx new file mode 100644 index 000000000..dc992a6ed --- /dev/null +++ b/svl/source/items/stylepool.cxx @@ -0,0 +1,468 @@ +/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ +/* + * This file is part of the LibreOffice project. + * + * This Source Code Form is subject to the terms of the Mozilla Public + * License, v. 2.0. If a copy of the MPL was not distributed with this + * file, You can obtain one at http://mozilla.org/MPL/2.0/. + * + * This file incorporates work covered by the following license notice: + * + * Licensed to the Apache Software Foundation (ASF) under one or more + * contributor license agreements. See the NOTICE file distributed + * with this work for additional information regarding copyright + * ownership. The ASF licenses this file to you under the Apache + * License, Version 2.0 (the "License"); you may not use this file + * except in compliance with the License. You may obtain a copy of + * the License at http://www.apache.org/licenses/LICENSE-2.0 . + */ + +#include <svl/stylepool.hxx> +#include <svl/itemiter.hxx> +#include <svl/itempool.hxx> +#include <tools/debug.hxx> +#include <algorithm> +#include <map> +#include <memory> +#include <optional> +#include <vector> + +namespace { + /** A "Node" represents a subset of inserted SfxItemSets + * The root node represents the empty set + * The other nodes contain a SfxPoolItem and represents an item set which contains their + * pool item and the pool items of their parents. + */ + class Node + { + std::vector<std::unique_ptr<Node>> mChildren; // child nodes, create by findChildNode(..) + // container of shared pointers of inserted item sets; for non-poolable + // items more than one item set is needed + std::vector< std::shared_ptr<SfxItemSet> > maItemSet; + std::unique_ptr<const SfxPoolItem> mpItem; // my pool item + Node *mpUpper; // if I'm a child node that's my parent node + // #i86923# + const bool mbIsItemIgnorable; + public: + // #i86923# + Node() // root node Ctor + : mpUpper( nullptr ), + mbIsItemIgnorable( false ) + {} + Node( const SfxPoolItem& rItem, Node* pParent, const bool bIgnorable ) // child node Ctor + : mpItem( rItem.Clone() ), + mpUpper( pParent ), + mbIsItemIgnorable( bIgnorable ) + {} + // #i86923# + bool hasItemSet( const bool bCheckUsage ) const; + // #i87808# + std::shared_ptr<SfxItemSet> const & getItemSet() const + { + return maItemSet.back(); + } + std::shared_ptr<SfxItemSet> const & getUsedOrLastAddedItemSet() const; + void setItemSet( const SfxItemSet& rSet ){ maItemSet.push_back( std::shared_ptr<SfxItemSet>( rSet.Clone() ) ); } + // #i86923# + Node* findChildNode( const SfxPoolItem& rItem, + const bool bIsItemIgnorable ); + Node* nextItemSet( Node const * pLast, + const bool bSkipUnusedItemSet, + const bool bSkipIgnorable ); + // #i86923# + bool hasIgnorableChildren( const bool bCheckUsage ) const; + std::shared_ptr<SfxItemSet> getItemSetOfIgnorableChild( + const bool bSkipUnusedItemSets ) const; + }; + + // #i87808# + std::shared_ptr<SfxItemSet> const & Node::getUsedOrLastAddedItemSet() const + { + auto aIter = std::find_if(maItemSet.rbegin(), maItemSet.rend(), + [](const std::shared_ptr<SfxItemSet>& rxItemSet) { return rxItemSet.use_count() > 1; }); + + if (aIter != maItemSet.rend()) + return *aIter; + + return maItemSet.back(); + } + + // #i86923# + bool Node::hasItemSet( const bool bCheckUsage ) const + { + bool bHasItemSet = false; + + if ( !maItemSet.empty()) + { + if ( bCheckUsage ) + { + bHasItemSet = std::any_of(maItemSet.rbegin(), maItemSet.rend(), + [](const std::shared_ptr<SfxItemSet>& rxItemSet) { return rxItemSet.use_count() > 1; }); + } + else + { + bHasItemSet = true; + } + } + return bHasItemSet; + } + + // #i86923# + Node* Node::findChildNode( const SfxPoolItem& rItem, + const bool bIsItemIgnorable ) + { + for( auto const & rChild : mChildren ) + { + if( rItem.Which() == rChild->mpItem->Which() && + rItem == *rChild->mpItem ) + return rChild.get(); + } + // #i86923# + auto pNextNode = new Node( rItem, this, bIsItemIgnorable ); + mChildren.emplace_back( pNextNode ); + return pNextNode; + } + + /** + * Find the next node which has a SfxItemSet. + * The input parameter pLast has a sophisticated meaning: + * downstairs only: + * pLast == 0 => scan your children and their children + * but neither your parents neither your siblings + * downstairs and upstairs: + * pLast == this => scan your children, their children, + * the children of your parent behind you, and so on + * partial downstairs and upstairs + * pLast != 0 && pLast != this => scan your children behind the given children, + * the children of your parent behind you and so on. + * + * OD 2008-03-11 #i86923# + * introduce parameters <bSkipUnusedItemSets> and <bSkipIgnorable> + * and its handling. + */ + Node* Node::nextItemSet( Node const * pLast, + const bool bSkipUnusedItemSets, + const bool bSkipIgnorable ) + { + // Searching downstairs + auto aIter = mChildren.begin(); + // For pLast == 0 and pLast == this all children are of interest + // for another pLast the search starts behind pLast... + if( pLast && pLast != this ) + { + aIter = std::find_if( mChildren.begin(), mChildren.end(), + [&] (std::unique_ptr<Node> const &p) { return p.get() == pLast; }); + if( aIter != mChildren.end() ) + ++aIter; + } + Node *pNext = nullptr; + while( aIter != mChildren.end() ) + { + // #i86923# + if ( bSkipIgnorable && (*aIter)->mbIsItemIgnorable ) + { + ++aIter; + continue; + } + pNext = aIter->get(); + // #i86923# + if ( pNext->hasItemSet( bSkipUnusedItemSets ) ) + { + return pNext; + } + if ( bSkipIgnorable && + pNext->hasIgnorableChildren( bSkipUnusedItemSets ) ) + { + return pNext; + } + pNext = pNext->nextItemSet( nullptr, bSkipUnusedItemSets, bSkipIgnorable ); // 0 => downstairs only + if( pNext ) + return pNext; + ++aIter; + } + // Searching upstairs + if( pLast && mpUpper ) + { + // #i86923# + pNext = mpUpper->nextItemSet( this, bSkipUnusedItemSets, bSkipIgnorable ); + } + return pNext; + } + + // #i86923# + bool Node::hasIgnorableChildren( const bool bCheckUsage ) const + { + return std::any_of(mChildren.begin(), mChildren.end(), + [&bCheckUsage](const std::unique_ptr<Node>& rxChild) { + Node* pChild = rxChild.get(); + return pChild->mbIsItemIgnorable && + (!bCheckUsage || + ( pChild->hasItemSet( bCheckUsage /* == true */ ) || + pChild->hasIgnorableChildren( bCheckUsage /* == true */ ) )); + }); + } + + std::shared_ptr<SfxItemSet> Node::getItemSetOfIgnorableChild( + const bool bSkipUnusedItemSets ) const + { + DBG_ASSERT( hasIgnorableChildren( bSkipUnusedItemSets ), + "<Node::getItemSetOfIgnorableChild> - node has no ignorable children" ); + + for( const auto& rxChild : mChildren ) + { + Node* pChild = rxChild.get(); + if ( pChild->mbIsItemIgnorable ) + { + if ( pChild->hasItemSet( bSkipUnusedItemSets ) ) + { + return pChild->getUsedOrLastAddedItemSet(); + } + else + { + pChild = pChild->nextItemSet( nullptr, bSkipUnusedItemSets, false ); + if ( pChild ) + { + return pChild->getUsedOrLastAddedItemSet(); + } + } + } + } + + std::shared_ptr<SfxItemSet> pReturn; + return pReturn; + } + + class Iterator : public IStylePoolIteratorAccess + { + std::map< const SfxItemSet*, Node >& mrRoot; + std::map< const SfxItemSet*, Node >::iterator mpCurrNode; + Node* mpNode; + const bool mbSkipUnusedItemSets; + const bool mbSkipIgnorable; + /// List of item set parents, ordered by their name. + std::vector<const SfxItemSet*> maParents; + /// The iterator's current position. + std::vector<const SfxItemSet*>::iterator mpCurrParent; + public: + // #i86923# + Iterator( std::map< const SfxItemSet*, Node >& rR, + const bool bSkipUnusedItemSets, + const bool bSkipIgnorable, + const std::map< const SfxItemSet*, OUString>& rParentNames ) + : mrRoot( rR ), + mpNode(nullptr), + mbSkipUnusedItemSets( bSkipUnusedItemSets ), + mbSkipIgnorable( bSkipIgnorable ) + { + // Collect the parent pointers into a vector we can sort. + for (const auto& rParent : mrRoot) + maParents.push_back(rParent.first); + + // Sort the parents using their name, if they have one. + if (!rParentNames.empty()) + { + std::stable_sort(maParents.begin(), maParents.end(), + [&rParentNames](const SfxItemSet* pA, const SfxItemSet* pB) { + OUString aA; + OUString aB; + auto it = rParentNames.find(pA); + if (it != rParentNames.end()) + aA = it->second; + it = rParentNames.find(pB); + if (it != rParentNames.end()) + aB = it->second; + return aA < aB; + }); + } + + // Start the iteration. + mpCurrParent = maParents.begin(); + if (mpCurrParent != maParents.end()) + mpCurrNode = mrRoot.find(*mpCurrParent); + } + virtual std::shared_ptr<SfxItemSet> getNext() override; + }; + + std::shared_ptr<SfxItemSet> Iterator::getNext() + { + std::shared_ptr<SfxItemSet> pReturn; + while( mpNode || mpCurrParent != maParents.end() ) + { + if( !mpNode ) + { + mpNode = &mpCurrNode->second; + // Perform the actual increment. + ++mpCurrParent; + if (mpCurrParent != maParents.end()) + mpCurrNode = mrRoot.find(*mpCurrParent); + // #i86923# + if ( mpNode->hasItemSet( mbSkipUnusedItemSets ) ) + { + // #i87808# + return mpNode->getUsedOrLastAddedItemSet(); + } + } + // #i86923# + mpNode = mpNode->nextItemSet( mpNode, mbSkipUnusedItemSets, mbSkipIgnorable ); + if ( mpNode && mpNode->hasItemSet( mbSkipUnusedItemSets ) ) + { + // #i87808# + return mpNode->getUsedOrLastAddedItemSet(); + } + if ( mbSkipIgnorable && + mpNode && mpNode->hasIgnorableChildren( mbSkipUnusedItemSets ) ) + { + return mpNode->getItemSetOfIgnorableChild( mbSkipUnusedItemSets ); + } + } + return pReturn; + } + +} + +/** + * This static method creates a unique name from a shared pointer to a SfxItemSet + * The name is the memory address of the SfxItemSet itself. + */ +OUString StylePool::nameOf( const std::shared_ptr<SfxItemSet>& pSet ) +{ + return OUString::number( reinterpret_cast<sal_IntPtr>( pSet.get() ), 16 ); +} + +/** + * class StylePoolImpl organized a tree-structure where every node represents a SfxItemSet. + * The insertItemSet method adds a SfxItemSet into the tree if necessary and returns a shared_ptr + * to a copy of the SfxItemSet. + * The aRoot-Node represents an empty SfxItemSet. + */ +class StylePoolImpl +{ +private: + std::map< const SfxItemSet*, Node > maRoot; + /// Names of maRoot keys. + std::map< const SfxItemSet*, OUString> maParentNames; + // #i86923# + std::unique_ptr<SfxItemSet> mpIgnorableItems; +#ifdef DEBUG + sal_Int32 mnCount; +#endif +public: + // #i86923# + explicit StylePoolImpl( SfxItemSet const * pIgnorableItems ) + : +#ifdef DEBUG + mnCount(0), +#endif + mpIgnorableItems( pIgnorableItems != nullptr + ? pIgnorableItems->Clone( false ) + : nullptr ) + { + DBG_ASSERT( !pIgnorableItems || !pIgnorableItems->Count(), + "<StylePoolImpl::StylePoolImpl(..)> - misusage: item set for ignorable item should be empty. Please correct usage." ); + DBG_ASSERT( !mpIgnorableItems || !mpIgnorableItems->Count(), + "<StylePoolImpl::StylePoolImpl(..)> - <SfxItemSet::Clone( sal_False )> does not work as expected - <mpIgnorableItems> is not empty." ); + } + + std::shared_ptr<SfxItemSet> insertItemSet( const SfxItemSet& rSet, const OUString* pParentName = nullptr ); + + // #i86923# + std::unique_ptr<IStylePoolIteratorAccess> createIterator( bool bSkipUnusedItemSets, + bool bSkipIgnorableItems ); +}; + + +std::shared_ptr<SfxItemSet> StylePoolImpl::insertItemSet( const SfxItemSet& rSet, const OUString* pParentName ) +{ + bool bNonPoolable = false; + Node* pCurNode = &maRoot[ rSet.GetParent() ]; + if (pParentName) + maParentNames[ rSet.GetParent() ] = *pParentName; + SfxItemIter aIter( rSet ); + const SfxPoolItem* pItem = aIter.GetCurItem(); + // Every SfxPoolItem in the SfxItemSet causes a step deeper into the tree, + // a complete empty SfxItemSet would stay at the root node. + // #i86923# insert ignorable items to the tree leaves. + std::optional<SfxItemSet> xFoundIgnorableItems; + if ( mpIgnorableItems ) + { + xFoundIgnorableItems.emplace( *mpIgnorableItems ); + } + while( pItem ) + { + if( !rSet.GetPool()->IsItemPoolable(pItem->Which() ) ) + bNonPoolable = true; + if (!xFoundIgnorableItems || (xFoundIgnorableItems->Put(*pItem) == nullptr)) + { + pCurNode = pCurNode->findChildNode( *pItem, false ); + } + pItem = aIter.NextItem(); + } + if ( xFoundIgnorableItems && xFoundIgnorableItems->Count() > 0 ) + { + SfxItemIter aIgnorableItemsIter( *xFoundIgnorableItems ); + pItem = aIgnorableItemsIter.GetCurItem(); + while( pItem ) + { + if( !rSet.GetPool()->IsItemPoolable(pItem->Which() ) ) + bNonPoolable = true; + pCurNode = pCurNode->findChildNode( *pItem, true ); + pItem = aIgnorableItemsIter.NextItem(); + } + } + // Every leaf node represents an inserted item set, but "non-leaf" nodes represents subsets + // of inserted itemsets. + // These nodes could have but does not need to have a shared_ptr to an item set. + if( !pCurNode->hasItemSet( false ) ) + { + pCurNode->setItemSet( rSet ); + bNonPoolable = false; // to avoid a double insertion +#ifdef DEBUG + ++mnCount; +#endif + } + // If rSet contains at least one non poolable item, a new itemset has to be inserted + if( bNonPoolable ) + pCurNode->setItemSet( rSet ); +#ifdef DEBUG + { + sal_Int32 nCheck = -1; + std::unique_ptr<IStylePoolIteratorAccess> pIter = createIterator(false,false); + std::shared_ptr<SfxItemSet> pTemp; + do + { + ++nCheck; + pTemp = pIter->getNext(); + } while( pTemp.get() ); + DBG_ASSERT( mnCount == nCheck, "Wrong counting"); + } +#endif + return pCurNode->getItemSet(); +} + +// #i86923# +std::unique_ptr<IStylePoolIteratorAccess> StylePoolImpl::createIterator( bool bSkipUnusedItemSets, + bool bSkipIgnorableItems ) +{ + return std::make_unique<Iterator>( maRoot, bSkipUnusedItemSets, bSkipIgnorableItems, maParentNames ); +} +// Ctor, Dtor and redirected methods of class StylePool, nearly inline ;-) + +// #i86923# +StylePool::StylePool( SfxItemSet const * pIgnorableItems ) + : pImpl( new StylePoolImpl( pIgnorableItems ) ) +{} + +std::shared_ptr<SfxItemSet> StylePool::insertItemSet( const SfxItemSet& rSet, const OUString* pParentName ) +{ return pImpl->insertItemSet( rSet, pParentName ); } + +// #i86923# +std::unique_ptr<IStylePoolIteratorAccess> StylePool::createIterator( const bool bSkipUnusedItemSets, + const bool bSkipIgnorableItems ) +{ + return pImpl->createIterator( bSkipUnusedItemSets, bSkipIgnorableItems ); +} + +StylePool::~StylePool() +{} + +/* vim:set shiftwidth=4 softtabstop=4 expandtab: */ |