Exemplo n.º 1
0
// Function ReplacePartialRoot replaces all full nodes by a single P-node 
// with leaves corresponding the keys stored in leafKeys.
void PlanarPQTree::ReplacePartialRoot(SListPure<PlanarLeafKey<indInfo*>*> &leafKeys)
{
   m_pertinentRoot->childCount(m_pertinentRoot->childCount() + 1 -
							   fullChildren(m_pertinentRoot)->size());

   while (fullChildren(m_pertinentRoot)->size() > 1)
      removeChildFromSiblings(fullChildren(m_pertinentRoot)->popFrontRet());

   PQNode<edge,indInfo*,bool> *currentNode = fullChildren(m_pertinentRoot)->popFrontRet();

   currentNode->parent(m_pertinentRoot);
   m_pertinentRoot = currentNode;
   ReplaceFullRoot(leafKeys);
}
void PlanarSubgraphPQTree::
removeEliminatedLeaves(SList<PQLeafKey<edge,whaInfo*,bool>*> &eliminatedKeys)
{
	PQNode<edge,whaInfo*,bool>*  nodePtr = 0;
	PQNode<edge,whaInfo*,bool>*  parent  = 0;
	PQNode<edge,whaInfo*,bool>*  sibling = 0;

	SListIterator<PQLeafKey<edge,whaInfo*,bool>*> it;
	for (it = eliminatedKeys.begin(); it.valid(); it++)
	{
		nodePtr = (*it)->nodePointer();
		parent = nodePtr->parent();
		sibling = nodePtr->getNextSib(NULL);

		removeNodeFromTree(parent,nodePtr);
		checkIfOnlyChild(sibling,parent);
		if (parent->status() == TO_BE_DELETED)
		{
			parent->status(WHA_DELETE);
		}
		nodePtr->status(WHA_DELETE);
	}
}
Exemplo n.º 3
0
void EmbedPQTree::ReplacePartialRoot(
	SListPure<PlanarLeafKey<indInfo*>*> &leafKeys,
	SListPure<PQBasicKey<edge,indInfo*,bool>*> &frontier,
	node v)
{
	m_pertinentRoot->childCount(m_pertinentRoot->childCount() + 1 -
								fullChildren(m_pertinentRoot)->size());

	PQNode<edge,indInfo*,bool> *predNode = 0; // dummy
	PQNode<edge,indInfo*,bool> *beginSequence = 0; // marks begin consecuitve seqeunce
	PQNode<edge,indInfo*,bool> *endSequence	= 0; // marks end consecutive sequence
	PQNode<edge,indInfo*,bool> *beginInd = 0; // initially, marks direct sibling indicator
											  // next to beginSequence not contained 
											  // in consectuive sequence

	// Get beginning and end of sequence.
	while (fullChildren(m_pertinentRoot)->size())
	{
		PQNode<edge,indInfo*,bool> *currentNode = fullChildren(m_pertinentRoot)->popFrontRet();
		if (!clientSibLeft(currentNode) ||
			clientSibLeft(currentNode)->status() == EMPTY)
		{
			if (!beginSequence)
			{
				beginSequence = currentNode;
				predNode = clientSibLeft(currentNode);
				beginInd =PQTree<edge,indInfo*,bool>::clientSibLeft(currentNode);
			}
			else 
				endSequence = currentNode;
		}
		else if (!clientSibRight(currentNode) ||
				 clientSibRight(currentNode)->status() == EMPTY )
		{
			if (!beginSequence)
			{
				beginSequence = currentNode;
				predNode = clientSibRight(currentNode);
				beginInd =PQTree<edge,indInfo*,bool>::clientSibRight(currentNode);
			}
			else 
				endSequence = currentNode;
		}
	}

	SListPure<PQBasicKey<edge,indInfo*,bool>*> partialFrontier;
	

	// Now scan the sequence of full nodes. Remove all of them but the last.
	// Call ReplaceFullRoot on the last one.
	// For every full node get its frontier. Scan intermediate indicators.

	PQNode<edge,indInfo*,bool> *currentNode = beginSequence;
	while (currentNode != endSequence)
	{		
		PQNode<edge,indInfo*,bool>* nextNode = 
			clientNextSib(currentNode,predNode);
		front(currentNode,partialFrontier);
		frontier.conc(partialFrontier);

		PQNode<edge,indInfo*,bool>* currentInd	= PQTree<edge,indInfo*,bool>::
			clientNextSib(currentNode,beginInd);

		// Scan for intermediate direction indicators.
		while (currentInd != nextNode)
		{
			PQNode<edge,indInfo*,bool> *nextInd = PQTree<edge,indInfo*,bool>::
				clientNextSib(currentInd,currentNode);
			if (currentNode == currentInd->getSib(RIGHT)) //Direction changed
				currentInd->getNodeInfo()->userStructInfo()->changeDir = true;
			frontier.pushBack((PQBasicKey<edge,indInfo*,bool>*) 
								currentInd->getNodeInfo());
			removeChildFromSiblings(currentInd);
			m_pertinentNodes->pushBack(currentInd);
			currentInd = nextInd;
		}

		removeChildFromSiblings(currentNode);
		currentNode = nextNode;
	}
		
	currentNode->parent(m_pertinentRoot);
	m_pertinentRoot = currentNode;
	ReplaceFullRoot(leafKeys,partialFrontier,v,true,beginInd);
	frontier.conc(partialFrontier);
}