/* -*- 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 #include #include #include using std::vector; using std::find; SwNumberTreeNode::SwNumberTreeNode() : mChildren(), mpParent( 0 ), mnNumber( 0 ), mbContinueingPreviousSubTree( false ), mbPhantom( false ), mItLastValid() { mItLastValid = mChildren.end(); } SwNumberTreeNode::~SwNumberTreeNode() { if (GetChildCount() > 0) { if (HasOnlyPhantoms()) { delete *mChildren.begin(); mChildren.clear(); mItLastValid = mChildren.end(); } else { OSL_FAIL("lost children!"); } } OSL_ENSURE( IsPhantom() || mpParent == NULL, ": I'm not supposed to have a parent."); mpParent = reinterpret_cast(0xdeadbeef); OSL_ENSURE(mChildren.empty(), "children left!"); } SwNumberTreeNode * SwNumberTreeNode::CreatePhantom() { SwNumberTreeNode * pNew = NULL; if (! mChildren.empty() && (*mChildren.begin())->IsPhantom()) { OSL_FAIL("phantom already present"); } else { pNew = Create(); pNew->SetPhantom(true); pNew->mpParent = this; std::pair aInsert = mChildren.insert(pNew); if (! aInsert.second) { OSL_FAIL("insert of phantom failed!"); delete pNew; pNew = NULL; } } return pNew; } SwNumberTreeNode * SwNumberTreeNode::GetRoot() const { SwNumberTreeNode * pResult = mpParent; if (pResult) while (pResult->mpParent) pResult = pResult->mpParent; return pResult; } void SwNumberTreeNode::ClearObsoletePhantoms() { tSwNumberTreeChildren::iterator aIt = mChildren.begin(); if (aIt != mChildren.end() && (*aIt)->IsPhantom()) { (*aIt)->ClearObsoletePhantoms(); if ((*aIt)->mChildren.empty()) { // #i60652# // Because could destroy the element, which // is referenced by , it's needed to adjust // before erasing . SetLastValid(mChildren.end()); delete *aIt; mChildren.erase(aIt); } } } void SwNumberTreeNode::ValidateHierarchical(const SwNumberTreeNode * pNode) const { tSwNumberTreeChildren::const_iterator aValidateIt = GetIterator(pNode); if (aValidateIt != mChildren.end()) { OSL_ENSURE((*aValidateIt)->mpParent == this, "wrong parent"); tSwNumberTreeChildren::const_iterator aIt = mItLastValid; // --> // improvement: // - Only one time checked for . // - Less checks for each loop run. // correction: // - consider case that current node isn't counted and isn't the first // child of its parent. In this case the number of last counted child // of the previous node determines the start value for the following // children loop, if all children have to be validated and the first // one doesn't restart the counting. SwNumberTree::tSwNumTreeNumber nTmpNumber( 0 ); if (aIt != mChildren.end()) nTmpNumber = (*aIt)->mnNumber; else { aIt = mChildren.begin(); (*aIt)->mbContinueingPreviousSubTree = false; // determine default start value // consider the case that the first child isn't counted. nTmpNumber = (*aIt)->GetStartValue(); if ( !(*aIt)->IsCounted() && ( !(*aIt)->HasCountedChildren() || (*aIt)->IsPhantom() ) ) { --nTmpNumber; } // determine special start value for the case that first child // doesn't restart the numbering and the parent node isn't counted // and isn't the first child. const bool bParentCounted( IsCounted() && ( !IsPhantom() || HasPhantomCountedParent() ) ); if ( !(*aIt)->IsRestart() && GetParent() && !bParentCounted ) { tSwNumberTreeChildren::const_iterator aParentChildIt = GetParent()->GetIterator( this ); while ( aParentChildIt != GetParent()->mChildren.begin() ) { --aParentChildIt; SwNumberTreeNode* pPrevNode( *aParentChildIt ); if ( pPrevNode->GetChildCount() > 0 ) { (*aIt)->mbContinueingPreviousSubTree = true; nTmpNumber = (*(pPrevNode->mChildren.rbegin()))->GetNumber(); if ( (*aIt)->IsCounted() && ( !(*aIt)->IsPhantom() || (*aIt)->HasPhantomCountedParent() ) ) { ++nTmpNumber; } break; } else if ( pPrevNode->IsCounted() ) { break; } else { // Previous node has no children and is not counted. // Thus, next turn and check for the previous node. } } } (*aIt)->mnNumber = nTmpNumber; } while (aIt != aValidateIt) { ++aIt; (*aIt)->mbContinueingPreviousSubTree = false; // --> only for counted nodes the number // has to be adjusted, compared to the previous node. // this condition is hold also for nodes, which restart the numbering. if ( (*aIt)->IsCounted() ) { if ((*aIt)->IsRestart()) nTmpNumber = (*aIt)->GetStartValue(); else ++nTmpNumber; } (*aIt)->mnNumber = nTmpNumber; } SetLastValid(aIt, true); } } void SwNumberTreeNode::ValidateContinuous(const SwNumberTreeNode * pNode) const { tSwNumberTreeChildren::const_iterator aIt = mItLastValid; do { if (aIt == mChildren.end()) { aIt = mChildren.begin(); } else ++aIt; if (aIt != mChildren.end()) { SwNumberTree::tSwNumTreeNumber nTmpNumber = 0; SwNumberTreeNode * pPred = (*aIt)->GetPred(); // #i64311# // correct consideration of phantoms // correct consideration of restart at a number tree node if ( pPred ) { if ( !(*aIt)->IsCounted() ) // #i65284# nTmpNumber = pPred->GetNumber( pPred->GetParent() != (*aIt)->GetParent() ); else { if ( (*aIt)->IsRestart() ) nTmpNumber = (*aIt)->GetStartValue(); else nTmpNumber = pPred->GetNumber( pPred->GetParent() != (*aIt)->GetParent() ) + 1; } } else { if ( !(*aIt)->IsCounted() ) nTmpNumber = GetStartValue() - 1; else { if ( (*aIt)->IsRestart() ) nTmpNumber = (*aIt)->GetStartValue(); else nTmpNumber = GetStartValue(); } } (*aIt)->mnNumber = nTmpNumber; } } while (aIt != mChildren.end() && *aIt != pNode); // #i74748# - applied patch from garnier_romain // number tree node has to be validated. SetLastValid( aIt, true ); } void SwNumberTreeNode::Validate(const SwNumberTreeNode * pNode) const { if (! IsValid(pNode)) { if (IsContinuous()) ValidateContinuous(pNode); else ValidateHierarchical(pNode); } } void SwNumberTreeNode::ValidateTree() { if (! IsContinuous()) { { tSwNumberTreeChildren::reverse_iterator aIt = mChildren.rbegin(); if (aIt != mChildren.rend()) Validate(*aIt); } { tSwNumberTreeChildren::iterator aIt; for (aIt = mChildren.begin(); aIt != mChildren.end(); ++aIt) (*aIt)->ValidateTree(); } } else { SwNumberTreeNode * pNode = GetLastDescendant(); if (pNode && pNode->mpParent) pNode->mpParent->Validate(pNode); } } void SwNumberTreeNode::_GetNumberVector(vector & rVector, bool bValidate) const { if (mpParent) { mpParent->_GetNumberVector(rVector, bValidate); rVector.push_back(GetNumber(bValidate)); } } SwNumberTreeNode * SwNumberTreeNode::GetFirstNonPhantomChild() { if (IsPhantom()) return (*mChildren.begin())->GetFirstNonPhantomChild(); return this; } /** Moves all children of this node that are greater than a given node to the destination node. */ void SwNumberTreeNode::MoveGreaterChildren( SwNumberTreeNode& _rCompareNode, SwNumberTreeNode& _rDestNode ) { if ( mChildren.empty() ) return; // determine first child, which has to move to <_rDestNode> tSwNumberTreeChildren::iterator aItUpper( mChildren.end() ); if ((*mChildren.begin())->IsPhantom() && _rCompareNode.LessThan(*(*mChildren.begin())->GetFirstNonPhantomChild())) { aItUpper = mChildren.begin(); } else { aItUpper = mChildren.upper_bound(&_rCompareNode); } // move children if (aItUpper != mChildren.end()) { tSwNumberTreeChildren::iterator aIt; for (aIt = aItUpper; aIt != mChildren.end(); ++aIt) (*aIt)->mpParent = &_rDestNode; _rDestNode.mChildren.insert(aItUpper, mChildren.end()); // #i60652# // Because could destroy // the element, which is referenced by , it's needed to // adjust before erasing . SetLastValid( mChildren.end() ); mChildren.erase(aItUpper, mChildren.end()); // #i60652# if ( !mChildren.empty() ) { SetLastValid( --(mChildren.end()) ); } } #ifdef __SW_NUMBER_TREE_SANITY_CHECK if (! IsSane(false) || ! IsSane(&_rDestNode)) clog << __FUNCTION__ << "insanity!" << endl; #endif } void SwNumberTreeNode::MoveChildren(SwNumberTreeNode * pDest) { if (! mChildren.empty()) { tSwNumberTreeChildren::iterator aItBegin = mChildren.begin(); SwNumberTreeNode * pMyFirst = *mChildren.begin(); // #i60652# // Because could destroy the element, // which is referenced by , it's needed to adjust // before erasing . SetLastValid(mChildren.end()); if (pMyFirst->IsPhantom()) { SwNumberTreeNode * pDestLast = NULL; if (pDest->mChildren.empty()) pDestLast = pDest->CreatePhantom(); else pDestLast = *pDest->mChildren.rbegin(); pMyFirst->MoveChildren(pDestLast); delete pMyFirst; mChildren.erase(aItBegin); aItBegin = mChildren.begin(); } tSwNumberTreeChildren::iterator aIt; for (aIt = mChildren.begin(); aIt != mChildren.end(); ++aIt) (*aIt)->mpParent = pDest; pDest->mChildren.insert(mChildren.begin(), mChildren.end()); mChildren.clear(); // destroys all existing iterators. // Thus, is also destroyed and reset becomes necessary mItLastValid = mChildren.end(); } OSL_ENSURE(mChildren.empty(), "MoveChildren failed!"); #ifdef __SW_NUMBER_TREE_SANITY_CHECK OSL_ENSURE(IsSane(false) && pDest->IsSane(false), "insanity!"); #endif } void SwNumberTreeNode::AddChild( SwNumberTreeNode * pChild, const int nDepth ) { /* Algorithm: Search first child A that is greater than pChild, A may be the end of children. If nDepth > 0 then { if A is first child then create new phantom child B at beginning of child list else B is A Add child to B with depth nDepth - 1. } else { Insert pNode before A. if A has predecessor B then remove children of B that are greater as A and insert them as children of A. } */ if ( nDepth < 0 ) { OSL_FAIL( " - parameter out of valid range. Serious defect -> please inform OD." ); return; } if ( pChild->GetParent() != NULL || pChild->GetChildCount() > 0 ) { OSL_FAIL("only orphans allowed."); return; } if (nDepth > 0) { tSwNumberTreeChildren::iterator aInsertDeepIt = mChildren.upper_bound(pChild); OSL_ENSURE(! (aInsertDeepIt != mChildren.end() && (*aInsertDeepIt)->IsPhantom()), " unexspected phantom"); if (aInsertDeepIt == mChildren.begin()) { SwNumberTreeNode * pNew = CreatePhantom(); SetLastValid(mChildren.end()); if (pNew) pNew->AddChild(pChild, nDepth - 1); } else { --aInsertDeepIt; (*aInsertDeepIt)->AddChild(pChild, nDepth - 1); } } else { pChild->PreAdd(); std::pair aResult = mChildren.insert(pChild); if (aResult.second) { pChild->mpParent = this; bool bNotification = pChild->IsNotificationEnabled(); tSwNumberTreeChildren::iterator aInsertedIt = aResult.first; if (aInsertedIt != mChildren.begin()) { tSwNumberTreeChildren::iterator aPredIt = aInsertedIt; --aPredIt; // --> // Move greater children of previous node to new child. // This has to be done recursively on the children levels. // Initialize loop variables and // for loop on children levels. SwNumberTreeNode* pPrevChildNode( *aPredIt ); SwNumberTreeNode* pDestNode( pChild ); while ( pDestNode && pPrevChildNode && pPrevChildNode->GetChildCount() > 0 ) { // move children pPrevChildNode->MoveGreaterChildren( *pChild, *pDestNode ); // prepare next loop: // - search of last child of GetChildCount() > 0 ) { tSwNumberTreeChildren::reverse_iterator aIt = pPrevChildNode->mChildren.rbegin(); pPrevChildNode = *aIt; // determine new destination node if ( pDestNode->GetChildCount() > 0 ) { pDestNode = *(pDestNode->mChildren.begin()); if ( !pDestNode->IsPhantom() ) { pDestNode = pDestNode->mpParent->CreatePhantom(); } } else { pDestNode = pDestNode->CreatePhantom(); } } else { // ready -> break loop. break; } } // assure that unnessary created phantoms at are deleted. pChild->ClearObsoletePhantoms(); if ((*aPredIt)->IsValid()) SetLastValid(aPredIt); } else SetLastValid(mChildren.end()); ClearObsoletePhantoms(); if( bNotification ) { // invalidation of not counted parent // and notification of its siblings. if ( !IsCounted() ) { InvalidateMe(); NotifyInvalidSiblings(); } NotifyInvalidChildren(); } } } #ifdef __SW_NUMBER_TREE_SANITY_CHECK if (! IsSane(false)) clog << __FUNCTION__ << ": insanity!" << endl; #endif } void SwNumberTreeNode::RemoveChild(SwNumberTreeNode * pChild) { /* Algorithm: if pChild has predecessor A then B is A else create phantom child B at beginning of child list Move children of pChild to B. */ if (pChild->IsPhantom()) { OSL_FAIL("not applicable to phantoms!"); return; } tSwNumberTreeChildren::const_iterator aRemoveIt = GetIterator(pChild); if (aRemoveIt != mChildren.end()) { SwNumberTreeNode * pRemove = *aRemoveIt; pRemove->mpParent = NULL; tSwNumberTreeChildren::const_iterator aItPred = mChildren.end(); if (aRemoveIt == mChildren.begin()) { if (! pRemove->mChildren.empty()) { CreatePhantom(); aItPred = mChildren.begin(); } } else { aItPred = aRemoveIt; --aItPred; } if (! pRemove->mChildren.empty()) { pRemove->MoveChildren(*aItPred); (*aItPred)->InvalidateTree(); (*aItPred)->NotifyInvalidChildren(); } // #i60652# // Because could destroy the element, // which is referenced by , it's needed to adjust // before erasing . if (aItPred != mChildren.end() && (*aItPred)->IsPhantom()) SetLastValid(mChildren.end()); else SetLastValid(aItPred); mChildren.erase(aRemoveIt); NotifyInvalidChildren(); } else { OSL_FAIL("RemoveChild: failed!"); } pChild->PostRemove(); } void SwNumberTreeNode::RemoveMe() { if (mpParent) { SwNumberTreeNode * pSavedParent = mpParent; pSavedParent->RemoveChild(this); while (pSavedParent && pSavedParent->IsPhantom() && pSavedParent->HasOnlyPhantoms()) pSavedParent = pSavedParent->GetParent(); if (pSavedParent) pSavedParent->ClearObsoletePhantoms(); #ifdef __SW_NUMBER_TREE_SANITY_CHECK if (! IsSane(false)) clog << __FUNCTION__ << ": insanity!" << endl; #endif } } bool SwNumberTreeNode::IsValid() const { return mpParent && mpParent->IsValid(this); } SwNumberTree::tSwNumTreeNumber SwNumberTreeNode::GetNumber(bool bValidate) const { if (bValidate && mpParent) mpParent->Validate(this); return mnNumber; } vector SwNumberTreeNode::GetNumberVector() const { vector aResult; _GetNumberVector(aResult); return aResult; } bool SwNumberTreeNode::IsValid(const SwNumberTreeNode * pChild) const { bool bResult = false; if (mItLastValid != mChildren.end()) { if (pChild && pChild->mpParent == this) { bResult = ! (*mItLastValid)->LessThan(*pChild); } } return bResult; } void SwNumberTreeNode::SetPhantom(bool _bPhantom) { mbPhantom = _bPhantom; } bool SwNumberTreeNode::HasOnlyPhantoms() const { bool bResult = false; if (GetChildCount() == 1) { tSwNumberTreeChildren::const_iterator aIt = mChildren.begin(); bResult = (*aIt)->IsPhantom() && (*aIt)->HasOnlyPhantoms(); } else if (GetChildCount() == 0) bResult = true; return bResult; } bool SwNumberTreeNode::IsCounted() const { return !IsPhantom() || ( IsCountPhantoms() && HasCountedChildren() ); } bool SwNumberTreeNode::HasPhantomCountedParent() const { bool bRet( false ); OSL_ENSURE( IsPhantom(), " - wrong usage of method - it's only for phantoms" ); if ( IsPhantom() && mpParent ) { if ( mpParent == GetRoot() ) { bRet = true; } else if ( !mpParent->IsPhantom() ) { bRet = mpParent->IsCounted(); } else { bRet = mpParent->IsCounted() && mpParent->HasPhantomCountedParent(); } } return bRet; } bool SwNumberTreeNode::IsFirst(const SwNumberTreeNode * pNode) const { tSwNumberTreeChildren::const_iterator aIt = mChildren.begin(); if ((*aIt)->IsPhantom()) ++aIt; return *aIt == pNode; } bool SwNumberTreeNode::IsFirst() const { bool bResult = true; if (GetParent()) { if (GetParent()->IsFirst(this)) { SwNumberTreeNode * pNode = GetParent(); while (pNode) { if (!pNode->IsPhantom() && pNode->GetParent()) { bResult = false; break; } pNode = pNode->GetParent(); } // If node isn't the first child, it is the second child and the // first child is a phanton. In this case check, if the first phantom // child have only phanton children if ( bResult && this != *(GetParent()->mChildren.begin()) && !(*(GetParent()->mChildren.begin()))->HasOnlyPhantoms() ) { bResult = false; } } else bResult = false; } return bResult; } void SwNumberTreeNode::SetLevelInListTree( const int nLevel ) { if ( nLevel < 0 ) { OSL_FAIL( " - parameter out of valid range. Serious defect -> please inform OD." ); return; } OSL_ENSURE( GetParent(), " - can only be called for number tree nodes in a list tree" ); if ( GetParent() ) { if ( nLevel != GetLevelInListTree() ) { SwNumberTreeNode* pRootTreeNode = GetRoot(); OSL_ENSURE( pRootTreeNode, " - no root tree node found. Serious defect -> please inform OD." ); RemoveMe(); pRootTreeNode->AddChild( this, nLevel ); } } } int SwNumberTreeNode::GetLevelInListTree() const { if (mpParent) return mpParent->GetLevelInListTree() + 1; return -1; } SwNumberTreeNode::tSwNumberTreeChildren::size_type SwNumberTreeNode::GetChildCount() const { return mChildren.size(); } #ifdef __SW_NUMBER_TREE_SANITY_CHECK bool SwNumberTreeNode::IsSane(bool bRecursive) const { vector aParents; return IsSane(bRecursive, aParents); } bool SwNumberTreeNode::IsSane(bool bRecursive, vector rParents) const { bool bResult = true; tSwNumberTreeChildren::const_iterator aIt; if (find(rParents.begin(), rParents.end(), this) != rParents.end()) { OSL_FAIL(" I'm my own ancestor!"); bResult = false; } if (! rParents.empty() && rParents.back() != mpParent) { OSL_FAIL(" I'm a bastard!"); bResult = false; } rParents.push_back(this); bool bFirst = true; for (aIt = mChildren.begin(); aIt != mChildren.end(); ++aIt) { if (*aIt) { if ((*aIt)->IsPhantom()) { if ((*aIt)->HasOnlyPhantoms()) { bResult = false; } if (! bFirst) { OSL_FAIL(" found phantom not at first position."); bResult = false; } } if ((*aIt)->mpParent != (SwNumberTreeNode *) this) { OSL_FAIL("found a bastard"); bResult = false; } if (mpParent) { if (!(*aIt)->IsPhantom() && (*aIt)->LessThan(*this)) { OSL_FAIL(" found child less than me"); bResult = false; } } } else { OSL_FAIL("found child that is NULL"); bResult = false; } if (bRecursive) bResult = (*aIt)->IsSane(bRecursive, rParents) && bResult; } rParents.pop_back(); return bResult; } #endif // __SW_NUMBER_TREE_SANITY_CHECK SwNumberTreeNode::tSwNumberTreeChildren::const_iterator SwNumberTreeNode::GetIterator(const SwNumberTreeNode * pChild) const { tSwNumberTreeChildren::const_iterator aItResult = mChildren.find(const_cast(pChild)); OSL_ENSURE( aItResult != mChildren.end(), "something went wrong getting the iterator for a child"); return aItResult; } bool SwNumberTreeNodeLessThan(const SwNumberTreeNode * pA, const SwNumberTreeNode * pB) { bool bResult = false; if (pA == NULL && pB != NULL) bResult = true; else if (pA != NULL && pB != NULL) bResult = pA->LessThan(*pB); return bResult; } SwNumberTreeNode * SwNumberTreeNode::GetLastDescendant() const { SwNumberTreeNode * pResult = NULL; tSwNumberTreeChildren::const_reverse_iterator aIt = mChildren.rbegin(); if (aIt != mChildren.rend()) { pResult = (*aIt)->GetLastDescendant(); if (! pResult) pResult = *aIt; } return pResult; } bool SwNumberTreeNode::LessThan(const SwNumberTreeNode & rTreeNode) const { return this < &rTreeNode; } SwNumberTreeNode * SwNumberTreeNode::GetPred(bool bSibling) const { SwNumberTreeNode * pResult = NULL; if (mpParent) { tSwNumberTreeChildren::const_iterator aIt = mpParent->GetIterator(this); if ( aIt == mpParent->mChildren.begin() ) { // #i64311# // root node is no valid predecessor pResult = mpParent->GetParent() ? mpParent : NULL; } else { --aIt; if ( !bSibling ) pResult = (*aIt)->GetLastDescendant(); else pResult = (*aIt); if (! pResult) pResult = (*aIt); } } return pResult; } void SwNumberTreeNode::SetLastValid ( SwNumberTreeNode::tSwNumberTreeChildren::const_iterator aItValid, bool bValidating ) const { OSL_ENSURE( (aItValid == mChildren.end() || GetIterator(*aItValid) != mChildren.end()), "last-valid iterator"); if ( bValidating || aItValid == mChildren.end() || (mItLastValid != mChildren.end() && (*aItValid)->LessThan(**mItLastValid)) ) { mItLastValid = aItValid; // invalidation of children of next not counted is needed if ( GetParent() ) { tSwNumberTreeChildren::const_iterator aParentChildIt = GetParent()->GetIterator( this ); ++aParentChildIt; if ( aParentChildIt != GetParent()->mChildren.end() ) { SwNumberTreeNode* pNextNode( *aParentChildIt ); if ( !pNextNode->IsCounted() ) { pNextNode->InvalidateChildren(); } } } } { if (IsContinuous()) { tSwNumberTreeChildren::const_iterator aIt = mItLastValid; if (aIt != mChildren.end()) ++aIt; else aIt = mChildren.begin(); while (aIt != mChildren.end()) { (*aIt)->InvalidateTree(); ++aIt; } SetLastValid(bValidating); } } } void SwNumberTreeNode::SetLastValid(bool bValidating) const { if (mpParent) { tSwNumberTreeChildren::const_iterator aIt = mpParent->GetIterator(this); mpParent->SetLastValid(aIt, bValidating); } } void SwNumberTreeNode::InvalidateTree() const { // do not call SetInvalid, would cause loop !!! mItLastValid = mChildren.end(); tSwNumberTreeChildren::const_iterator aIt; for (aIt = mChildren.begin(); aIt != mChildren.end(); ++aIt) (*aIt)->InvalidateTree(); } void SwNumberTreeNode::Invalidate(SwNumberTreeNode * pChild) { if (pChild->IsValid()) { tSwNumberTreeChildren::const_iterator aIt = GetIterator(pChild); if (aIt != mChildren.begin()) --aIt; else aIt = mChildren.end(); SetLastValid(aIt); } } void SwNumberTreeNode::InvalidateMe() { if (mpParent) mpParent->Invalidate(this); } void SwNumberTreeNode::ValidateMe() { if (mpParent) mpParent->Validate(this); } void SwNumberTreeNode::Notify() { if (IsNotifiable()) { if (! IsPhantom()) NotifyNode(); tSwNumberTreeChildren::iterator aIt; for (aIt = mChildren.begin(); aIt != mChildren.end(); ++aIt) (*aIt)->Notify(); } } void SwNumberTreeNode::NotifyInvalidChildren() { if (IsNotifiable()) { tSwNumberTreeChildren::const_iterator aIt = mItLastValid; if (aIt == mChildren.end()) aIt = mChildren.begin(); else ++aIt; while (aIt != mChildren.end()) { (*aIt)->Notify(); ++aIt; } // notification of next not counted node is also needed. if ( GetParent() ) { tSwNumberTreeChildren::const_iterator aParentChildIt = GetParent()->GetIterator( this ); ++aParentChildIt; if ( aParentChildIt != GetParent()->mChildren.end() ) { SwNumberTreeNode* pNextNode( *aParentChildIt ); if ( !pNextNode->IsCounted() ) { pNextNode->NotifyInvalidChildren(); } } } } if (IsContinuous() && mpParent) mpParent->NotifyInvalidChildren(); } void SwNumberTreeNode::NotifyInvalidSiblings() { if (mpParent != NULL) mpParent->NotifyInvalidChildren(); } // #i81002# const SwNumberTreeNode* SwNumberTreeNode::GetPrecedingNodeOf( const SwNumberTreeNode& rNode ) const { const SwNumberTreeNode* pPrecedingNode( 0 ); if ( GetChildCount() > 0 ) { tSwNumberTreeChildren::const_iterator aUpperBoundIt = mChildren.upper_bound( const_cast(&rNode) ); if ( aUpperBoundIt != mChildren.begin() ) { --aUpperBoundIt; pPrecedingNode = (*aUpperBoundIt)->GetPrecedingNodeOf( rNode ); } } if ( pPrecedingNode == 0 && GetRoot() ) { // node has no children or the given node precedes all its children // and the node isn't the root node. // Thus, compare the given node with the node in order to check, // if the node precedes the given node. if ( !(rNode.LessThan( *this )) ) { pPrecedingNode = this; } } return pPrecedingNode; } void SwNumberTreeNode::NotifyNodesOnListLevel( const int nListLevel ) { if ( nListLevel < 0 ) { OSL_FAIL( " - invalid list level provided" ); return; } SwNumberTreeNode* pRootNode = GetParent() ? GetRoot() : this; pRootNode->NotifyChildrenOnDepth( nListLevel ); } void SwNumberTreeNode::NotifyChildrenOnDepth( const int nDepth ) { OSL_ENSURE( nDepth >= 0, " - misusage" ); SwNumberTreeNode::tSwNumberTreeChildren::iterator aChildIter = mChildren.begin(); while ( aChildIter != mChildren.end() ) { if ( nDepth == 0 ) { (*aChildIter)->NotifyNode(); } else { (*aChildIter)->NotifyChildrenOnDepth( nDepth - 1 ); } ++aChildIter; } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */