Пример #1
0
void CconnectClusterPlanar::constructWheelGraph(ClusterGraph &C,
												Graph &G,
												cluster &parent,
												PlanarPQTree* T,
												EdgeArray<node> &outgoingTable)
{

	const PQNode<edge,IndInfo*,bool>* root = T->root();
	const PQNode<edge,IndInfo*,bool>*  checkNode = nullptr;

	Queue<const PQNode<edge,IndInfo*,bool>*> treeNodes;
	treeNodes.append(root);

	node correspond = G.newNode(); // Corresponds to the root node.
								   // root node is either a leaf or a P-node
	C.reassignNode(correspond,parent);

	Queue<node> graphNodes;
	graphNodes.append(correspond);

	node hub;
	node next = nullptr;
	node pre;
	node newNode; // corresponds to anchor of a hub or a cut node



	while (!treeNodes.empty())
	{
		checkNode = treeNodes.pop();
		correspond = graphNodes.pop();

		PQNode<edge,IndInfo*,bool>*  firstSon  = nullptr;
		PQNode<edge,IndInfo*,bool>*  nextSon   = nullptr;
		PQNode<edge,IndInfo*,bool>*  oldSib    = nullptr;
		PQNode<edge,IndInfo*,bool>*  holdSib   = nullptr;


		if (checkNode->type() == PQNodeRoot::PNode)
		{
			// correspond is a cut node

			OGDF_ASSERT(checkNode->referenceChild())
			firstSon = checkNode->referenceChild();

			if (firstSon->type() != PQNodeRoot::leaf)
			{
				treeNodes.append(firstSon);
				newNode = G.newNode();
				C.reassignNode(newNode,parent);
				graphNodes.append(newNode);
				G.newEdge(correspond,newNode);
			}
			else
			{
				// insert Edge to the outside
				PQLeaf<edge,IndInfo*,bool>* leaf =
					(PQLeaf<edge,IndInfo*,bool>*) firstSon;
				edge f = leaf->getKey()->m_userStructKey;
				//node x = outgoingTable[f];
				G.newEdge(correspond,outgoingTable[f]);
				delete leaf->getKey();
			}

			nextSon = firstSon->getNextSib(oldSib);
			oldSib = firstSon;
			pre = next;
			while (nextSon && nextSon != firstSon)
			{
				if (nextSon->type() != PQNodeRoot::leaf)
				{
					treeNodes.append(nextSon);
					newNode = G.newNode();  // new node corresponding to anchor
											// or cutnode
					C.reassignNode(newNode,parent);
					graphNodes.append(newNode);
					G.newEdge(correspond,newNode);
				}
				else
				{
					// insert Edge to the outside
					PQLeaf<edge,IndInfo*,bool>* leaf =
						(PQLeaf<edge,IndInfo*,bool>*) nextSon;
					edge f = leaf->getKey()->m_userStructKey;
					//node x = outgoingTable[f];
					G.newEdge(correspond,outgoingTable[f]);
					delete leaf->getKey();
				}
				holdSib = nextSon->getNextSib(oldSib);
				oldSib = nextSon;
				nextSon = holdSib;
			}

		}
		else if (checkNode->type() == PQNodeRoot::QNode)
		{
			// correspond is the anchor of a hub
			OGDF_ASSERT(checkNode->getEndmost(PQNodeRoot::LEFT))
			firstSon = checkNode->getEndmost(PQNodeRoot::LEFT);

			hub = G.newNode();
			C.reassignNode(hub,parent);
			G.newEdge(hub,correspond); // link anchor and hub
			next = G.newNode();   // for first son
			C.reassignNode(next,parent);
			G.newEdge(hub,next);
			G.newEdge(correspond,next);

			if (firstSon->type() != PQNodeRoot::leaf)
			{
				treeNodes.append(firstSon);
				newNode = G.newNode();
				C.reassignNode(newNode,parent);
				graphNodes.append(newNode);
				G.newEdge(next,newNode);
			}
			else
			{
				// insert Edge to the outside
				PQLeaf<edge,IndInfo*,bool>* leaf =
					(PQLeaf<edge,IndInfo*,bool>*) firstSon;
				edge f = leaf->getKey()->m_userStructKey;
				//node x = outgoingTable[f];
				G.newEdge(next,outgoingTable[f]);
				delete leaf->getKey();
			}

			nextSon = firstSon->getNextSib(oldSib);
			oldSib = firstSon;
			pre = next;
			while (nextSon)
			{
				next = G.newNode();
				C.reassignNode(next,parent);
				G.newEdge(hub,next);
				G.newEdge(pre,next);
				if (nextSon->type() != PQNodeRoot::leaf)
				{
					treeNodes.append(nextSon);
					newNode = G.newNode();  // new node corresponding to anchor
											// or cutnode
					C.reassignNode(newNode,parent);
					graphNodes.append(newNode);

					G.newEdge(next,newNode);
				}
				else
				{
					// insert Edge to the outside
					PQLeaf<edge,IndInfo*,bool>* leaf =
						(PQLeaf<edge,IndInfo*,bool>*) nextSon;
					edge f = leaf->getKey()->m_userStructKey;
					G.newEdge(next,outgoingTable[f]);
					delete leaf->getKey();
				}
				holdSib = nextSon->getNextSib(oldSib);
				oldSib = nextSon;
				nextSon = holdSib;
				pre = next;

			}
			G.newEdge(next,correspond);
		}
	}

	OGDF_ASSERT(C.consistencyCheck());
}
Пример #2
0
// The function front scans the frontier of nodePtr. It returns the keys
// of the leaves found in the frontier of nodePtr in a SListPure.
// These keys include keys of direction indicators detected in the frontier.
//
// CAREFUL: Funktion marks all full nodes for destruction.
//			Only to be used in connection with replaceRoot.
//
void EmbedPQTree::front(
	PQNode<edge,IndInfo*,bool>* nodePtr,
	SListPure<PQBasicKey<edge,IndInfo*,bool>*> &keys)
{
	ArrayBuffer<PQNode<edge,IndInfo*,bool>*> S;
	S.push(nodePtr);

	while (!S.empty())
	{
		PQNode<edge,IndInfo*,bool> *checkNode = S.popRet();

		if (checkNode->type() == PQNodeRoot::PQNodeType::Leaf)
			keys.pushBack((PQBasicKey<edge,IndInfo*,bool>*) checkNode->getKey());
		else
		{
			PQNode<edge,IndInfo*,bool>* firstSon = nullptr;
			if (checkNode->type() == PQNodeRoot::PQNodeType::PNode)
			{
				firstSon = checkNode->referenceChild();
			}
			else if (checkNode->type() == PQNodeRoot::PQNodeType::QNode)
			{
				firstSon = checkNode->getEndmost(PQNodeRoot::SibDirection::Right);
				// By this, we make sure that we start on the left side
				// since the left endmost child will be on top of the stack
			}

			OGDF_ASSERT(firstSon != nullptr);
			if (firstSon->status() == PQNodeRoot::PQNodeStatus::Indicator)
			{
				keys.pushBack((PQBasicKey<edge,IndInfo*,bool>*) firstSon->getNodeInfo());
				m_pertinentNodes->pushBack(firstSon);
				destroyNode(firstSon);
			}
			else
				S.push(firstSon);

			PQNode<edge,IndInfo*,bool> *nextSon = firstSon->getNextSib(nullptr);
			PQNode<edge,IndInfo*,bool> *oldSib = firstSon;
			while (nextSon && nextSon != firstSon)
			{
				if (nextSon->status() == PQNodeRoot::PQNodeStatus::Indicator)
				{
					// Direction indicators point with their left sibling pointer
					// in the direction of their sequence. If an indicator is scanned
					// from the opposite direction, coming from its right sibling
					// the corresponding sequence must be reversed.
					if (oldSib == nextSon->getSib(PQNodeRoot::SibDirection::Left)) //Direction changed
						nextSon->getNodeInfo()->userStructInfo()->changeDir = true;
					keys.pushBack((PQBasicKey<edge,IndInfo*,bool>*) nextSon->getNodeInfo());
					m_pertinentNodes->pushBack(nextSon);
				}
				else
					S.push(nextSon);

				PQNode<edge,IndInfo*,bool> *holdSib = nextSon->getNextSib(oldSib);
				oldSib = nextSon;
				nextSon = holdSib;
			}
		}
	}
}