#include #include "ElimGraph.h" ElimHeuristic ElimGraph::elimHeuristic_ = MIN_NEIGHBORS; ElimGraph::ElimGraph (const vector& factors) { for (size_t i = 0; i < factors.size(); i++) { if (factors[i]) { const VarIds& args = factors[i]->arguments(); for (size_t j = 0; j < args.size() - 1; j++) { EgNode* n1 = getEgNode (args[j]); if (!n1) { n1 = new EgNode (args[j], factors[i]->range (j)); addNode (n1); } for (size_t k = j + 1; k < args.size(); k++) { EgNode* n2 = getEgNode (args[k]); if (!n2) { n2 = new EgNode (args[k], factors[i]->range (k)); addNode (n2); } if (!neighbors (n1, n2)) { addEdge (n1, n2); } } } if (args.size() == 1 && !getEgNode (args[0])) { addNode (new EgNode (args[0], factors[i]->range (0))); } } } } ElimGraph::~ElimGraph (void) { for (size_t i = 0; i < nodes_.size(); i++) { delete nodes_[i]; } } VarIds ElimGraph::getEliminatingOrder (const VarIds& excludedVids) { VarIds elimOrder; unmarked_.reserve (nodes_.size()); for (size_t i = 0; i < nodes_.size(); i++) { if (Util::contains (excludedVids, nodes_[i]->varId()) == false) { unmarked_.insert (nodes_[i]); } } size_t nrVarsToEliminate = nodes_.size() - excludedVids.size(); for (size_t i = 0; i < nrVarsToEliminate; i++) { EgNode* node = getLowestCostNode(); unmarked_.remove (node); const EGNeighs& neighs = node->neighbors(); for (size_t j = 0; j < neighs.size(); j++) { neighs[j]->removeNeighbor (node); } elimOrder.push_back (node->varId()); connectAllNeighbors (node); } return elimOrder; } void ElimGraph::print (void) const { for (size_t i = 0; i < nodes_.size(); i++) { cout << "node " << nodes_[i]->label() << " neighs:" ; EGNeighs neighs = nodes_[i]->neighbors(); for (size_t j = 0; j < neighs.size(); j++) { cout << " " << neighs[j]->label(); } cout << endl; } } void ElimGraph::exportToGraphViz ( const char* fileName, bool showNeighborless, const VarIds& highlightVarIds) const { ofstream out (fileName); if (!out.is_open()) { cerr << "Error: couldn't open file '" << fileName << "'." ; return; } out << "strict graph {" << endl; for (size_t i = 0; i < nodes_.size(); i++) { if (showNeighborless || nodes_[i]->neighbors().empty() == false) { out << '"' << nodes_[i]->label() << '"' << endl; } } for (size_t i = 0; i < highlightVarIds.size(); i++) { EgNode* node =getEgNode (highlightVarIds[i]); if (node) { out << '"' << node->label() << '"' ; out << " [shape=box3d]" << endl; } else { cerr << "Error: invalid variable id: " << highlightVarIds[i] << "." ; cerr << endl; exit (EXIT_FAILURE); } } for (size_t i = 0; i < nodes_.size(); i++) { EGNeighs neighs = nodes_[i]->neighbors(); for (size_t j = 0; j < neighs.size(); j++) { out << '"' << nodes_[i]->label() << '"' << " -- " ; out << '"' << neighs[j]->label() << '"' << endl; } } out << "}" << endl; out.close(); } VarIds ElimGraph::getEliminationOrder ( const Factors& factors, VarIds excludedVids) { if (elimHeuristic_ == ElimHeuristic::SEQUENTIAL) { VarIds allVids; Factors::const_iterator first = factors.begin(); Factors::const_iterator end = factors.end(); for (; first != end; ++first) { Util::addToVector (allVids, (*first)->arguments()); } TinySet elimOrder (allVids); elimOrder -= TinySet (excludedVids); return elimOrder.elements(); } ElimGraph graph (factors); return graph.getEliminatingOrder (excludedVids); } void ElimGraph::addNode (EgNode* n) { nodes_.push_back (n); n->setIndex (nodes_.size() - 1); varMap_.insert (make_pair (n->varId(), n)); } EgNode* ElimGraph::getEgNode (VarId vid) const { unordered_map::const_iterator it; it = varMap_.find (vid); return (it != varMap_.end()) ? it->second : 0; } EgNode* ElimGraph::getLowestCostNode (void) const { EgNode* bestNode = 0; unsigned minCost = Util::maxUnsigned(); EGNeighs::const_iterator it; switch (elimHeuristic_) { case MIN_NEIGHBORS: { for (it = unmarked_.begin(); it != unmarked_.end(); ++ it) { unsigned cost = getNeighborsCost (*it); if (cost < minCost) { bestNode = *it; minCost = cost; } }} break; case MIN_WEIGHT: { for (it = unmarked_.begin(); it != unmarked_.end(); ++ it) { unsigned cost = getWeightCost (*it); if (cost < minCost) { bestNode = *it; minCost = cost; } }} break; case MIN_FILL: { for (it = unmarked_.begin(); it != unmarked_.end(); ++ it) { unsigned cost = getFillCost (*it); if (cost < minCost) { bestNode = *it; minCost = cost; } }} break; case WEIGHTED_MIN_FILL: { for (it = unmarked_.begin(); it != unmarked_.end(); ++ it) { unsigned cost = getWeightedFillCost (*it); if (cost < minCost) { bestNode = *it; minCost = cost; } }} break; default: assert (false); } assert (bestNode); return bestNode; } void ElimGraph::connectAllNeighbors (const EgNode* n) { const EGNeighs& neighs = n->neighbors(); if (neighs.size() > 0) { for (size_t i = 0; i < neighs.size() - 1; i++) { for (size_t j = i + 1; j < neighs.size(); j++) { if (!neighbors (neighs[i], neighs[j])) { addEdge (neighs[i], neighs[j]); } } } } }