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Diffstat (limited to 'slideshow/source/engine/shapes/drawshapesubsetting.cxx')
| -rw-r--r-- | slideshow/source/engine/shapes/drawshapesubsetting.cxx | 808 |
1 files changed, 808 insertions, 0 deletions
diff --git a/slideshow/source/engine/shapes/drawshapesubsetting.cxx b/slideshow/source/engine/shapes/drawshapesubsetting.cxx new file mode 100644 index 000000000..fac2e2b57 --- /dev/null +++ b/slideshow/source/engine/shapes/drawshapesubsetting.cxx @@ -0,0 +1,808 @@ +/* -*- 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 <sal/config.h> + +#include <o3tl/safeint.hxx> +#include <tools/diagnose_ex.h> + +#include <sal/log.hxx> +#include <utility> +#include <vcl/metaact.hxx> +#include <vcl/gdimtf.hxx> + +#include "drawshapesubsetting.hxx" +#include "gdimtftools.hxx" + +#include <algorithm> + +using namespace ::com::sun::star; + + +namespace slideshow::internal +{ + + + // Private methods + + + void DrawShapeSubsetting::ensureInitializedNodeTree() const + { + ENSURE_OR_THROW( mpMtf, + "DrawShapeSubsetting::ensureInitializedNodeTree(): Invalid mtf" ); + + if( mbNodeTreeInitialized ) + return; // done, already initialized. + + // init doctree vector + maActionClassVector.clear(); + maActionClassVector.reserve( mpMtf->GetActionSize() ); + + // search metafile for text output + MetaAction* pCurrAct; + + sal_Int32 nActionIndex(0); + sal_Int32 nLastTextActionIndex(0); + for( pCurrAct = mpMtf->FirstAction(); pCurrAct; pCurrAct = mpMtf->NextAction() ) + { + // check for one of our special text doctree comments + switch( pCurrAct->GetType() ) + { + case MetaActionType::COMMENT: + { + MetaCommentAction* pAct = static_cast<MetaCommentAction*>(pCurrAct); + + // skip comment if not a special XTEXT... comment + if( pAct->GetComment().matchIgnoreAsciiCase( "XTEXT" ) ) + { + // fill classification vector with NOOPs, + // then insert corresponding classes at + // the given index + maActionClassVector.resize( nActionIndex+1, CLASS_NOOP ); + + if( pAct->GetComment().equalsIgnoreAsciiCase("XTEXT_EOC") ) + { + // special, because can happen + // in-between of portions - set + // character-end classificator at + // given index (relative to last text + // action). + const sal_Int32 nIndex( nLastTextActionIndex + pAct->GetValue() ); + + ENSURE_OR_THROW( o3tl::make_unsigned(nIndex) < maActionClassVector.size(), + "DrawShapeSubsetting::ensureInitializedNodeTree(): sentence index out of range" ); + + maActionClassVector[ nIndex ] = CLASS_CHARACTER_CELL_END; + } + else if( pAct->GetComment().equalsIgnoreAsciiCase("XTEXT_EOW") ) + { + // special, because can happen + // in-between of portions - set + // word-end classificator at given + // index (relative to last text + // action). + const sal_Int32 nIndex( nLastTextActionIndex + pAct->GetValue() ); + + ENSURE_OR_THROW( o3tl::make_unsigned(nIndex) < maActionClassVector.size(), + "DrawShapeSubsetting::ensureInitializedNodeTree(): sentence index out of range" ); + + maActionClassVector[ nIndex ] = CLASS_WORD_END; + } + else if( pAct->GetComment().equalsIgnoreAsciiCase("XTEXT_EOS") ) + { + // special, because can happen + // in-between of portions - set + // sentence-end classificator at given + // index (relative to last text + // action). + const sal_Int32 nIndex( nLastTextActionIndex + pAct->GetValue() ); + + ENSURE_OR_THROW( o3tl::make_unsigned(nIndex) < maActionClassVector.size(), + "DrawShapeSubsetting::ensureInitializedNodeTree(): sentence index out of range" ); + + maActionClassVector[ nIndex ] = CLASS_SENTENCE_END; + } + else if( pAct->GetComment().equalsIgnoreAsciiCase("XTEXT_EOL") ) + { + maActionClassVector[ nActionIndex ] = CLASS_LINE_END; + } + else if( pAct->GetComment().equalsIgnoreAsciiCase("XTEXT_EOP") ) + { + maActionClassVector[ nActionIndex ] = CLASS_PARAGRAPH_END; + } + else if( pAct->GetComment().equalsIgnoreAsciiCase("XTEXT_PAINTSHAPE_END") ) + { + maActionClassVector[ nActionIndex ] = CLASS_SHAPE_END; + } + else if( pAct->GetComment().equalsIgnoreAsciiCase("XTEXT_PAINTSHAPE_BEGIN") ) + { + maActionClassVector[ nActionIndex ] = CLASS_SHAPE_START; + } + } + SAL_INFO( + "slideshow", + "Shape text structure: " << pAct->GetComment() + << " at action #" << nActionIndex); + ++nActionIndex; + break; + } + case MetaActionType::TEXT: + case MetaActionType::TEXTARRAY: + case MetaActionType::STRETCHTEXT: + nLastTextActionIndex = nActionIndex; + SAL_INFO("slideshow.verbose", "Shape text \"" << + (static_cast<MetaTextAction*>(pCurrAct))->GetText() << + "\" at action #" << nActionIndex ); + [[fallthrough]]; + default: + // comment action and all actions not + // explicitly handled here: + nActionIndex += getNextActionOffset(pCurrAct); + break; + } + } + + mbNodeTreeInitialized = true; + } + + void DrawShapeSubsetting::excludeSubset(sal_Int32 nExcludedStart, sal_Int32 nExcludedEnd) + { + // If current subsets are empty, fill it with initial range + initCurrentSubsets(); + if (maCurrentSubsets.empty()) + { + // Non-subsetting mode (not a subset of anything; child subsets subtract content) + maCurrentSubsets.emplace_back(0, maActionClassVector.size()); + } + + slideshow::internal::VectorOfDocTreeNodes aNodesToAppend; + for (auto i = maCurrentSubsets.begin(); i != maCurrentSubsets.end();) + { + if (i->getStartIndex() < nExcludedStart) + { + if (i->getEndIndex() > nExcludedStart) + { + // Some overlap -> append new node (if required), and correct this node's end + if (i->getEndIndex() > nExcludedEnd) + { + aNodesToAppend.emplace_back(nExcludedEnd, i->getEndIndex()); + } + i->setEndIndex(nExcludedStart); + } + ++i; + } + else if (i->getStartIndex() < nExcludedEnd) + { + if (i->getEndIndex() > nExcludedEnd) + { + // Partial overlap; change the node's start + i->setStartIndex(nExcludedEnd); + ++i; + } + else + { + // Node is fully inside the removed range: erase it + i = maCurrentSubsets.erase(i); + } + } + else + { + // Node is fully outside (after) excluded range + ++i; + } + } + + maCurrentSubsets.insert(maCurrentSubsets.end(), aNodesToAppend.begin(), + aNodesToAppend.end()); + // Excluding subsets must not leave an absolutely empty maCurrentSubsets, because it + // would mean "non-subsetting" mode unconditionally, with whole object added to subsets. + // So to indicate a subset with all parts excluded, add two empty subsets (starting and + // ending). + if (!maCurrentSubsets.empty()) + return; + + if (maSubset.isEmpty()) + { + maCurrentSubsets.emplace_back(0, 0); + maCurrentSubsets.emplace_back(maActionClassVector.size(), + maActionClassVector.size()); + } + else + { + maCurrentSubsets.emplace_back(maSubset.getStartIndex(), + maSubset.getStartIndex()); + maCurrentSubsets.emplace_back(maSubset.getEndIndex(), maSubset.getEndIndex()); + } + } + + void DrawShapeSubsetting::updateSubsets() + { + maCurrentSubsets.clear(); + initCurrentSubsets(); + + for (const auto& rSubsetShape : maSubsetShapes) + { + excludeSubset(rSubsetShape.mnStartActionIndex, rSubsetShape.mnEndActionIndex); + } + } + + + // Public methods + + + DrawShapeSubsetting::DrawShapeSubsetting() : + maActionClassVector(), + mpMtf(), + maSubset(), + maSubsetShapes(), + maCurrentSubsets(), + mbNodeTreeInitialized( false ) + { + } + + DrawShapeSubsetting::DrawShapeSubsetting( const DocTreeNode& rShapeSubset, + GDIMetaFileSharedPtr rMtf ) : + maActionClassVector(), + mpMtf(std::move( rMtf )), + maSubset( rShapeSubset ), + maSubsetShapes(), + maCurrentSubsets(), + mbNodeTreeInitialized( false ) + { + ENSURE_OR_THROW( mpMtf, + "DrawShapeSubsetting::DrawShapeSubsetting(): Invalid metafile" ); + + initCurrentSubsets(); + } + + void DrawShapeSubsetting::reset() + { + maActionClassVector.clear(); + mpMtf.reset(); + maSubset.reset(); + maSubsetShapes.clear(); + maCurrentSubsets.clear(); + mbNodeTreeInitialized = false; + } + + void DrawShapeSubsetting::reset( const ::std::shared_ptr< GDIMetaFile >& rMtf ) + { + reset(); + mpMtf = rMtf; + + initCurrentSubsets(); + } + + void DrawShapeSubsetting::initCurrentSubsets() + { + // only add subset to vector, if vector is empty, and subset is not empty - that's + // because the vector's content is later literally used + // for e.g. painting. + if (maCurrentSubsets.empty() && !maSubset.isEmpty()) + maCurrentSubsets.push_back( maSubset ); + } + + const DocTreeNode& DrawShapeSubsetting::getSubsetNode() const + { + return maSubset; + } + + AttributableShapeSharedPtr DrawShapeSubsetting::getSubsetShape( const DocTreeNode& rTreeNode ) const + { + SAL_INFO( "slideshow", "::presentation::internal::DrawShapeSubsetting::getSubsetShape()" ); + + // subset shape already created for this DocTreeNode? + SubsetEntry aEntry; + + aEntry.mnStartActionIndex = rTreeNode.getStartIndex(); + aEntry.mnEndActionIndex = rTreeNode.getEndIndex(); + + ShapeSet::const_iterator aIter; + if( (aIter=maSubsetShapes.find( aEntry )) != maSubsetShapes.end() ) + { + // already created, return found entry + return aIter->mpShape; + } + + return AttributableShapeSharedPtr(); + } + + void DrawShapeSubsetting::addSubsetShape( const AttributableShapeSharedPtr& rShape ) + { + SAL_INFO( "slideshow", "::presentation::internal::DrawShapeSubsetting::addSubsetShape()" ); + + // subset shape already created for this DocTreeNode? + SubsetEntry aEntry; + const DocTreeNode& rEffectiveSubset( rShape->getSubsetNode() ); + + aEntry.mnStartActionIndex = rEffectiveSubset.getStartIndex(); + aEntry.mnEndActionIndex = rEffectiveSubset.getEndIndex(); + + ShapeSet::const_iterator aIter; + if( (aIter=maSubsetShapes.find( aEntry )) != maSubsetShapes.end() ) + { + // already created, increment use count and return + + // safe cast, since set order does not depend on + // mnSubsetQueriedCount + const_cast<SubsetEntry&>(*aIter).mnSubsetQueriedCount++; + } + else + { + // not yet created, init entry + aEntry.mnSubsetQueriedCount = 1; + aEntry.mpShape = rShape; + + maSubsetShapes.insert( aEntry ); + + excludeSubset(aEntry.mnStartActionIndex, aEntry.mnEndActionIndex); + } + } + + bool DrawShapeSubsetting::revokeSubsetShape( const AttributableShapeSharedPtr& rShape ) + { + SAL_INFO( "slideshow", "::presentation::internal::DrawShapeSubsetting::revokeSubsetShape()" ); + + // lookup subset shape + SubsetEntry aEntry; + const DocTreeNode& rEffectiveSubset( rShape->getSubsetNode() ); + + aEntry.mnStartActionIndex = rEffectiveSubset.getStartIndex(); + aEntry.mnEndActionIndex = rEffectiveSubset.getEndIndex(); + + ShapeSet::iterator aIter; + if( (aIter=maSubsetShapes.find( aEntry )) == maSubsetShapes.end() ) + return false; // not found, subset was never queried + + // last client of the subset revoking? + if( aIter->mnSubsetQueriedCount > 1 ) + { + // no, still clients out there. Just decrement use count + // safe cast, since order does not depend on mnSubsetQueriedCount + const_cast<SubsetEntry&>(*aIter).mnSubsetQueriedCount--; + + SAL_INFO( + "slideshow", + "Subset summary: shape " << this << ", " + << maSubsetShapes.size() + << " open subsets, revoked subset has refcount " + << aIter->mnSubsetQueriedCount); + + return false; // not the last client + } + + SAL_INFO( + "slideshow", + "Subset summary: shape " << this << ", " + << maSubsetShapes.size() + << " open subsets, cleared subset has range [" + << aEntry.mnStartActionIndex << "," + << aEntry.mnEndActionIndex << "]"); + + // yes, remove from set + maSubsetShapes.erase( aIter ); + + + // update currently active subset for _our_ shape (the + // part of this shape that is visible, i.e. not displayed + // in subset shapes) + + // TODO(P2): This is quite expensive, when + // after every subset effect end, we have to scan + // the whole shape set + + updateSubsets(); + + return true; + } + + namespace + { + /** Iterate over all action classification entries in the + given range, pass each element range found to the + given functor. + + This method extracts, for each of the different action + classifications, the count and the ranges for each of + them, and calls the provided functor with that + information. + + @tpl FunctorT + This is the functor's operator() calling signature, + with eCurrElemClassification denoting the current + classification type the functor is called for, + nCurrElemCount the running total of elements visited + for the given class (starting from 0), and + rCurrElemBegin/rCurrElemEnd the range of the current + element (i.e. the iterators from the start to the end + of this element). + <pre> + bool operator()( IndexClassificator eCurrElemClassification + sal_Int32 nCurrElemCount, + const IndexClassificatorVector::const_iterator& rCurrElemBegin, + const IndexClassificatorVector::const_iterator& rCurrElemEnd ); + </pre> + If the functor returns false, iteration over the + shapes is immediately stopped. + + @param io_pFunctor + This functor is called for every shape found. + + @param rBegin + Start of range to iterate over + + @param rEnd + End of range to iterate over + + @return the number of shapes found in the metafile + */ + template< typename FunctorT > void iterateActionClassifications( + FunctorT& io_rFunctor, + const DrawShapeSubsetting::IndexClassificatorVector::const_iterator& rBegin, + const DrawShapeSubsetting::IndexClassificatorVector::const_iterator& rEnd ) + { + sal_Int32 nCurrShapeCount( 0 ); + sal_Int32 nCurrParaCount( 0 ); + sal_Int32 nCurrLineCount( 0 ); + sal_Int32 nCurrSentenceCount( 0 ); + sal_Int32 nCurrWordCount( 0 ); + sal_Int32 nCurrCharCount( 0 ); + + DrawShapeSubsetting::IndexClassificatorVector::const_iterator aLastShapeStart(rBegin); + DrawShapeSubsetting::IndexClassificatorVector::const_iterator aLastParaStart(rBegin); + DrawShapeSubsetting::IndexClassificatorVector::const_iterator aLastLineStart(rBegin); + DrawShapeSubsetting::IndexClassificatorVector::const_iterator aLastSentenceStart(rBegin); + DrawShapeSubsetting::IndexClassificatorVector::const_iterator aLastWordStart(rBegin); + DrawShapeSubsetting::IndexClassificatorVector::const_iterator aLastCharStart(rBegin); + + DrawShapeSubsetting::IndexClassificatorVector::const_iterator aNext; + DrawShapeSubsetting::IndexClassificatorVector::const_iterator aCurr( rBegin ); + while( aCurr != rEnd ) + { + // aNext will hold an iterator to the next element + // (or the past-the-end iterator, if aCurr + // references the last element). Used to pass a + // valid half-open range to the functors. + aNext = aCurr; + ++aNext; + + switch( *aCurr ) + { + default: + ENSURE_OR_THROW( false, + "Unexpected type in iterateDocShapes()" ); + case DrawShapeSubsetting::CLASS_NOOP: + // ignore NOOP actions + break; + + case DrawShapeSubsetting::CLASS_SHAPE_START: + // regardless of ending action + // classifications before: a new shape + // always also starts contained elements + // anew + aLastShapeStart = + aLastParaStart = + aLastLineStart = + aLastSentenceStart = + aLastWordStart = + aLastCharStart = aCurr; + break; + + case DrawShapeSubsetting::CLASS_SHAPE_END: + if( !io_rFunctor( DrawShapeSubsetting::CLASS_SHAPE_END, + nCurrShapeCount, + aLastShapeStart, + aNext ) ) + { + return; + } + + ++nCurrShapeCount; + [[fallthrough]]; // shape end also ends lines + case DrawShapeSubsetting::CLASS_PARAGRAPH_END: + if( !io_rFunctor( DrawShapeSubsetting::CLASS_PARAGRAPH_END, + nCurrParaCount, + aLastParaStart, + aNext ) ) + { + return; + } + + ++nCurrParaCount; + aLastParaStart = aNext; + [[fallthrough]]; // para end also ends line + case DrawShapeSubsetting::CLASS_LINE_END: + if( !io_rFunctor( DrawShapeSubsetting::CLASS_LINE_END, + nCurrLineCount, + aLastLineStart, + aNext ) ) + { + return; + } + + ++nCurrLineCount; + aLastLineStart = aNext; + + if( *aCurr == DrawShapeSubsetting::CLASS_LINE_END ) + { + // DON'T fall through here, as a line + // does NOT end neither a sentence, + // nor a word. OTOH, all parent + // structures (paragraph and shape), + // which itself fall through to this + // code, DO end word, sentence and + // character cell. + + // TODO(F1): Maybe a line should end a + // character cell, OTOH? + break; + } + [[fallthrough]]; + case DrawShapeSubsetting::CLASS_SENTENCE_END: + if( !io_rFunctor( DrawShapeSubsetting::CLASS_SENTENCE_END, + nCurrSentenceCount, + aLastSentenceStart, + aNext ) ) + { + return; + } + + ++nCurrSentenceCount; + aLastSentenceStart = aNext; + [[fallthrough]]; + case DrawShapeSubsetting::CLASS_WORD_END: + if( !io_rFunctor( DrawShapeSubsetting::CLASS_WORD_END, + nCurrWordCount, + aLastWordStart, + aNext ) ) + { + return; + } + + ++nCurrWordCount; + aLastWordStart = aNext; + [[fallthrough]]; + case DrawShapeSubsetting::CLASS_CHARACTER_CELL_END: + if( !io_rFunctor( DrawShapeSubsetting::CLASS_CHARACTER_CELL_END, + nCurrCharCount, + aLastCharStart, + aNext ) ) + { + return; + } + + ++nCurrCharCount; + aLastCharStart = aNext; + break; + } + + aCurr = aNext; + } + } + + DrawShapeSubsetting::IndexClassificator mapDocTreeNode( DocTreeNode::NodeType eNodeType ) + { + switch( eNodeType ) + { + default: + SAL_WARN( "slideshow", "DrawShapeSubsetting::mapDocTreeNode(): unexpected node type"); + return DrawShapeSubsetting::CLASS_NOOP; + + case DocTreeNode::NodeType::LogicalParagraph: + return DrawShapeSubsetting::CLASS_PARAGRAPH_END; + + case DocTreeNode::NodeType::LogicalWord: + return DrawShapeSubsetting::CLASS_WORD_END; + + case DocTreeNode::NodeType::LogicalCharacterCell: + return DrawShapeSubsetting::CLASS_CHARACTER_CELL_END; + }; + } + + /// Counts number of class occurrences + class CountClassFunctor + { + public: + explicit CountClassFunctor( DrawShapeSubsetting::IndexClassificator eClass ) : + meClass( eClass ), + mnCurrCount(0) + { + } + + bool operator()( DrawShapeSubsetting::IndexClassificator eCurrElemClassification, + sal_Int32 /*nCurrElemCount*/, + const DrawShapeSubsetting::IndexClassificatorVector::const_iterator& /*rCurrElemBegin*/, + const DrawShapeSubsetting::IndexClassificatorVector::const_iterator& /*rCurrElemEnd*/ ) + { + if( eCurrElemClassification == meClass ) + ++mnCurrCount; + + return true; // never stop, count all occurrences + } + + sal_Int32 getCount() const + { + return mnCurrCount; + } + + private: + DrawShapeSubsetting::IndexClassificator meClass; + sal_Int32 mnCurrCount; + }; + } + + sal_Int32 DrawShapeSubsetting::implGetNumberOfTreeNodes( const DrawShapeSubsetting::IndexClassificatorVector::const_iterator& rBegin, + const DrawShapeSubsetting::IndexClassificatorVector::const_iterator& rEnd, + DocTreeNode::NodeType eNodeType ) + { + const IndexClassificator eRequestedClass( + mapDocTreeNode( eNodeType ) ); + + // create a counting functor for the requested class of + // actions + CountClassFunctor aFunctor( eRequestedClass ); + + // count all occurrences in the given range + iterateActionClassifications( aFunctor, rBegin, rEnd ); + + return aFunctor.getCount(); + } + + sal_Int32 DrawShapeSubsetting::getNumberOfTreeNodes( DocTreeNode::NodeType eNodeType ) const + { + ensureInitializedNodeTree(); + + return implGetNumberOfTreeNodes( maActionClassVector.begin(), + maActionClassVector.end(), + eNodeType ); + } + + namespace + { + /** This functor finds the nth occurrence of a given + action class. + + The operator() compares the given index value with the + requested index, as given on the functor's + constructor. Then, the operator() returns false, + denoting that the requested action is found. + */ + class FindNthElementFunctor + { + public: + FindNthElementFunctor( sal_Int32 nNodeIndex, + DrawShapeSubsetting::IndexClassificatorVector::const_iterator& rLastBegin, + DrawShapeSubsetting::IndexClassificatorVector::const_iterator& rLastEnd, + DrawShapeSubsetting::IndexClassificator eClass ) : + mnNodeIndex( nNodeIndex ), + mrLastBegin( rLastBegin ), + mrLastEnd( rLastEnd ), + meClass( eClass ) + { + } + + bool operator()( DrawShapeSubsetting::IndexClassificator eCurrElemClassification, + sal_Int32 nCurrElemCount, + const DrawShapeSubsetting::IndexClassificatorVector::const_iterator& rCurrElemBegin, + const DrawShapeSubsetting::IndexClassificatorVector::const_iterator& rCurrElemEnd ) + { + if( eCurrElemClassification == meClass && + nCurrElemCount == mnNodeIndex ) + { + mrLastBegin = rCurrElemBegin; + mrLastEnd = rCurrElemEnd; + + return false; // abort iteration, we've + // already found what we've been + // looking for + } + + return true; // keep on truckin' + } + + private: + sal_Int32 mnNodeIndex; + DrawShapeSubsetting::IndexClassificatorVector::const_iterator& mrLastBegin; + DrawShapeSubsetting::IndexClassificatorVector::const_iterator& mrLastEnd; + DrawShapeSubsetting::IndexClassificator meClass; + }; + + DocTreeNode makeTreeNode( const DrawShapeSubsetting::IndexClassificatorVector::const_iterator& rBegin, + const DrawShapeSubsetting::IndexClassificatorVector::const_iterator& rStart, + const DrawShapeSubsetting::IndexClassificatorVector::const_iterator& rEnd ) + { + return DocTreeNode( ::std::distance(rBegin, + rStart), + ::std::distance(rBegin, + rEnd) ); + } + } + + DocTreeNode DrawShapeSubsetting::implGetTreeNode( const IndexClassificatorVector::const_iterator& rBegin, + const IndexClassificatorVector::const_iterator& rEnd, + sal_Int32 nNodeIndex, + DocTreeNode::NodeType eNodeType ) const + { + const IndexClassificator eRequestedClass( + mapDocTreeNode( eNodeType ) ); + + DrawShapeSubsetting::IndexClassificatorVector::const_iterator aLastBegin(rEnd); + DrawShapeSubsetting::IndexClassificatorVector::const_iterator aLastEnd(rEnd); + + // create a nth element functor for the requested class of + // actions, and nNodeIndex as the target index + FindNthElementFunctor aFunctor( nNodeIndex, + aLastBegin, + aLastEnd, + eRequestedClass ); + + // find given index in the given range + iterateActionClassifications( aFunctor, rBegin, rEnd ); + + return makeTreeNode( maActionClassVector.begin(), + aLastBegin, aLastEnd ); + } + + DocTreeNode DrawShapeSubsetting::getTreeNode( sal_Int32 nNodeIndex, + DocTreeNode::NodeType eNodeType ) const + { + ensureInitializedNodeTree(); + + return implGetTreeNode( maActionClassVector.begin(), + maActionClassVector.end(), + nNodeIndex, + eNodeType ); + } + + sal_Int32 DrawShapeSubsetting::getNumberOfSubsetTreeNodes( const DocTreeNode& rParentNode, + DocTreeNode::NodeType eNodeType ) const + { + ensureInitializedNodeTree(); + + // convert from vector indices to vector iterators + const DrawShapeSubsetting::IndexClassificatorVector::const_iterator aBegin( maActionClassVector.begin() ); + const DrawShapeSubsetting::IndexClassificatorVector::const_iterator aParentBegin( aBegin + rParentNode.getStartIndex() ); + const DrawShapeSubsetting::IndexClassificatorVector::const_iterator aParentEnd( aBegin + rParentNode.getEndIndex() ); + + return implGetNumberOfTreeNodes( aParentBegin, + aParentEnd, + eNodeType ); + } + + DocTreeNode DrawShapeSubsetting::getSubsetTreeNode( const DocTreeNode& rParentNode, + sal_Int32 nNodeIndex, + DocTreeNode::NodeType eNodeType ) const + { + ensureInitializedNodeTree(); + + // convert from vector indices to vector iterators + const DrawShapeSubsetting::IndexClassificatorVector::const_iterator aBegin( maActionClassVector.begin() ); + const DrawShapeSubsetting::IndexClassificatorVector::const_iterator aParentBegin( aBegin + rParentNode.getStartIndex() ); + const DrawShapeSubsetting::IndexClassificatorVector::const_iterator aParentEnd( aBegin + rParentNode.getEndIndex() ); + + return implGetTreeNode( aParentBegin, + aParentEnd, + nNodeIndex, + eNodeType ); + } + + +} + +/* vim:set shiftwidth=4 softtabstop=4 expandtab: */ |