601 lines
16 KiB
C++
601 lines
16 KiB
C++
#include <cassert>
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#include <vector>
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#include <unordered_map>
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#include <string>
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#include <iostream>
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#include <sstream>
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#include <YapInterface.h>
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#include "ParfactorList.h"
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#include "FactorGraph.h"
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#include "LiftedOperations.h"
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#include "LiftedVe.h"
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#include "VarElim.h"
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#include "LiftedBp.h"
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#include "CountingBp.h"
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#include "BeliefProp.h"
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#include "LiftedKc.h"
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#include "ElimGraph.h"
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#include "BayesBall.h"
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namespace Horus {
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namespace {
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Parfactor* readParfactor (YAP_Term);
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ObservedFormulas* readLiftedEvidence (YAP_Term);
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std::vector<unsigned> readUnsignedList (YAP_Term);
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Params readParameters (YAP_Term);
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YAP_Term fillSolutionList (const std::vector<Params>&);
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}
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typedef std::pair<ParfactorList*, ObservedFormulas*> LiftedNetwork;
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int
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createLiftedNetwork()
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{
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Parfactors parfactors;
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YAP_Term parfactorList = YAP_ARG1;
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while (parfactorList != YAP_TermNil()) {
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YAP_Term pfTerm = YAP_HeadOfTerm (parfactorList);
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parfactors.push_back (readParfactor (pfTerm));
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parfactorList = YAP_TailOfTerm (parfactorList);
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}
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// LiftedUtils::printSymbolDictionary();
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if (Globals::verbosity > 2) {
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Util::printHeader ("INITIAL PARFACTORS");
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for (size_t i = 0; i < parfactors.size(); i++) {
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parfactors[i]->print();
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std::cout << std::endl;
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}
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}
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ParfactorList* pfList = new ParfactorList (parfactors);
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if (Globals::verbosity > 2) {
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Util::printHeader ("SHATTERED PARFACTORS");
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pfList->print();
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}
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// read evidence
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ObservedFormulas* obsFormulas = readLiftedEvidence (YAP_ARG2);
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LiftedNetwork* network = new LiftedNetwork (pfList, obsFormulas);
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YAP_Int p = (YAP_Int) (network);
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return YAP_Unify (YAP_MkIntTerm (p), YAP_ARG3);
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}
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int
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createGroundNetwork()
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{
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std::string factorsType ((char*) YAP_AtomName (YAP_AtomOfTerm (YAP_ARG1)));
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FactorGraph* fg = new FactorGraph();
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if (factorsType == "bayes") {
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fg->setFactorsAsBayesian();
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}
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YAP_Term factorList = YAP_ARG2;
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while (factorList != YAP_TermNil()) {
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YAP_Term factor = YAP_HeadOfTerm (factorList);
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// read the var ids
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VarIds varIds = readUnsignedList (YAP_ArgOfTerm (1, factor));
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// read the ranges
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Ranges ranges = readUnsignedList (YAP_ArgOfTerm (2, factor));
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// read the parameters
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Params params = readParameters (YAP_ArgOfTerm (3, factor));
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// read dist id
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unsigned distId = (unsigned) YAP_IntOfTerm (YAP_ArgOfTerm (4, factor));
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fg->addFactor (Factor (varIds, ranges, params, distId));
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factorList = YAP_TailOfTerm (factorList);
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}
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unsigned nrObservedVars = 0;
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YAP_Term evidenceList = YAP_ARG3;
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while (evidenceList != YAP_TermNil()) {
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YAP_Term evTerm = YAP_HeadOfTerm (evidenceList);
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unsigned vid = (unsigned) YAP_IntOfTerm ((YAP_ArgOfTerm (1, evTerm)));
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unsigned ev = (unsigned) YAP_IntOfTerm ((YAP_ArgOfTerm (2, evTerm)));
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assert (fg->getVarNode (vid));
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fg->getVarNode (vid)->setEvidence (ev);
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evidenceList = YAP_TailOfTerm (evidenceList);
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nrObservedVars ++;
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}
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if (FactorGraph::exportToLibDai()) {
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fg->exportToLibDai ("model.fg");
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}
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if (FactorGraph::exportToUai()) {
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fg->exportToUai ("model.uai");
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}
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if (FactorGraph::exportGraphViz()) {
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fg->exportToGraphViz ("model.dot");
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}
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if (FactorGraph::printFactorGraph()) {
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fg->print();
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}
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if (Globals::verbosity > 0) {
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std::cout << "factor graph contains " ;
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std::cout << fg->nrVarNodes() << " variables and " ;
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std::cout << fg->nrFacNodes() << " factors " << std::endl;
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}
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YAP_Int p = (YAP_Int) (fg);
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return YAP_Unify (YAP_MkIntTerm (p), YAP_ARG4);
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}
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int
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runLiftedSolver()
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{
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LiftedNetwork* network = (LiftedNetwork*) YAP_IntOfTerm (YAP_ARG1);
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ParfactorList copy (*network->first);
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LiftedOperations::absorveEvidence (copy, *network->second);
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LiftedSolver* solver = 0;
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switch (Globals::liftedSolver) {
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case LiftedSolverType::lveSolver: solver = new LiftedVe (copy); break;
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case LiftedSolverType::lbpSolver: solver = new LiftedBp (copy); break;
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case LiftedSolverType::lkcSolver: solver = new LiftedKc (copy); break;
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}
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if (Globals::verbosity > 0) {
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solver->printSolverFlags();
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std::cout << std::endl;
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}
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YAP_Term taskList = YAP_ARG2;
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std::vector<Params> results;
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while (taskList != YAP_TermNil()) {
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Grounds queryVars;
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YAP_Term jointList = YAP_HeadOfTerm (taskList);
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while (jointList != YAP_TermNil()) {
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YAP_Term ground = YAP_HeadOfTerm (jointList);
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if (YAP_IsAtomTerm (ground)) {
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std::string name ((char*) YAP_AtomName (YAP_AtomOfTerm (ground)));
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queryVars.push_back (Ground (LiftedUtils::getSymbol (name)));
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} else {
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assert (YAP_IsApplTerm (ground));
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YAP_Functor yapFunctor = YAP_FunctorOfTerm (ground);
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std::string name ((char*) (YAP_AtomName (
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YAP_NameOfFunctor (yapFunctor))));
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unsigned arity = (unsigned) YAP_ArityOfFunctor (yapFunctor);
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Symbol functor = LiftedUtils::getSymbol (name);
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Symbols args;
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for (unsigned i = 1; i <= arity; i++) {
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YAP_Term ti = YAP_ArgOfTerm (i, ground);
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assert (YAP_IsAtomTerm (ti));
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std::string arg ((char *) YAP_AtomName (YAP_AtomOfTerm (ti)));
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args.push_back (LiftedUtils::getSymbol (arg));
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}
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queryVars.push_back (Ground (functor, args));
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}
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jointList = YAP_TailOfTerm (jointList);
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}
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results.push_back (solver->solveQuery (queryVars));
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taskList = YAP_TailOfTerm (taskList);
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}
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delete solver;
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return YAP_Unify (fillSolutionList (results), YAP_ARG3);
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}
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int
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runGroundSolver()
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{
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FactorGraph* fg = (FactorGraph*) YAP_IntOfTerm (YAP_ARG1);
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std::vector<VarIds> tasks;
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YAP_Term taskList = YAP_ARG2;
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while (taskList != YAP_TermNil()) {
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tasks.push_back (readUnsignedList (YAP_HeadOfTerm (taskList)));
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taskList = YAP_TailOfTerm (taskList);
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}
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FactorGraph* mfg = fg;
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if (fg->bayesianFactors()) {
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std::set<VarId> vids;
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for (size_t i = 0; i < tasks.size(); i++) {
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Util::addToSet (vids, tasks[i]);
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}
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mfg = BayesBall::getMinimalFactorGraph (
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*fg, VarIds (vids.begin(), vids.end()));
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}
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GroundSolver* solver = 0;
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CountingBp::setFindIdenticalFactorsFlag (false);
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switch (Globals::groundSolver) {
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case GroundSolverType::veSolver: solver = new VarElim (*mfg); break;
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case GroundSolverType::bpSolver: solver = new BeliefProp (*mfg); break;
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case GroundSolverType::CbpSolver: solver = new CountingBp (*mfg); break;
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}
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if (Globals::verbosity > 0) {
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solver->printSolverFlags();
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std::cout << std::endl;
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}
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std::vector<Params> results;
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results.reserve (tasks.size());
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for (size_t i = 0; i < tasks.size(); i++) {
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results.push_back (solver->solveQuery (tasks[i]));
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}
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delete solver;
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if (fg->bayesianFactors()) {
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delete mfg;
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}
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return YAP_Unify (fillSolutionList (results), YAP_ARG3);
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}
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int
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setParfactorsParams()
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{
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LiftedNetwork* network = (LiftedNetwork*) YAP_IntOfTerm (YAP_ARG1);
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ParfactorList* pfList = network->first;
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YAP_Term distIdsList = YAP_ARG2;
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YAP_Term paramsList = YAP_ARG3;
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std::unordered_map<unsigned, Params> paramsMap;
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while (distIdsList != YAP_TermNil()) {
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unsigned distId = (unsigned) YAP_IntOfTerm (
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YAP_HeadOfTerm (distIdsList));
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assert (Util::contains (paramsMap, distId) == false);
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paramsMap[distId] = readParameters (YAP_HeadOfTerm (paramsList));
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distIdsList = YAP_TailOfTerm (distIdsList);
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paramsList = YAP_TailOfTerm (paramsList);
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}
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ParfactorList::iterator it = pfList->begin();
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while (it != pfList->end()) {
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assert (Util::contains (paramsMap, (*it)->distId()));
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(*it)->setParams (paramsMap[(*it)->distId()]);
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++ it;
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}
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return TRUE;
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}
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int
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setFactorsParams()
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{
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FactorGraph* fg = (FactorGraph*) YAP_IntOfTerm (YAP_ARG1);
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YAP_Term distIdsList = YAP_ARG2;
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YAP_Term paramsList = YAP_ARG3;
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std::unordered_map<unsigned, Params> paramsMap;
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while (distIdsList != YAP_TermNil()) {
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unsigned distId = (unsigned) YAP_IntOfTerm (
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YAP_HeadOfTerm (distIdsList));
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assert (Util::contains (paramsMap, distId) == false);
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paramsMap[distId] = readParameters (YAP_HeadOfTerm (paramsList));
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distIdsList = YAP_TailOfTerm (distIdsList);
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paramsList = YAP_TailOfTerm (paramsList);
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}
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const FacNodes& facNodes = fg->facNodes();
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for (size_t i = 0; i < facNodes.size(); i++) {
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unsigned distId = facNodes[i]->factor().distId();
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assert (Util::contains (paramsMap, distId));
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facNodes[i]->factor().setParams (paramsMap[distId]);
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}
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return TRUE;
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}
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int
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setVarsInformation()
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{
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Var::clearVarsInfo();
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std::vector<std::string> labels;
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YAP_Term labelsL = YAP_ARG1;
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while (labelsL != YAP_TermNil()) {
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YAP_Atom atom = YAP_AtomOfTerm (YAP_HeadOfTerm (labelsL));
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labels.push_back ((char*) YAP_AtomName (atom));
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labelsL = YAP_TailOfTerm (labelsL);
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}
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unsigned count = 0;
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YAP_Term stateNamesL = YAP_ARG2;
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while (stateNamesL != YAP_TermNil()) {
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States states;
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YAP_Term namesL = YAP_HeadOfTerm (stateNamesL);
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while (namesL != YAP_TermNil()) {
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YAP_Atom atom = YAP_AtomOfTerm (YAP_HeadOfTerm (namesL));
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states.push_back ((char*) YAP_AtomName (atom));
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namesL = YAP_TailOfTerm (namesL);
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}
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Var::addVarInfo (count, labels[count], states);
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count ++;
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stateNamesL = YAP_TailOfTerm (stateNamesL);
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}
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return TRUE;
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}
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int
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setHorusFlag()
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{
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std::string option ((char*) YAP_AtomName (YAP_AtomOfTerm (YAP_ARG1)));
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std::string value;
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if (option == "verbosity") {
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std::stringstream ss;
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ss << (int) YAP_IntOfTerm (YAP_ARG2);
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ss >> value;
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} else if (option == "bp_accuracy") {
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std::stringstream ss;
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ss << (float) YAP_FloatOfTerm (YAP_ARG2);
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ss >> value;
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} else if (option == "bp_max_iter") {
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std::stringstream ss;
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ss << (int) YAP_IntOfTerm (YAP_ARG2);
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ss >> value;
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} else {
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value = ((char*) YAP_AtomName (YAP_AtomOfTerm (YAP_ARG2)));
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}
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return Util::setHorusFlag (option, value);
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}
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int
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freeGroundNetwork()
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{
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delete (FactorGraph*) YAP_IntOfTerm (YAP_ARG1);
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return TRUE;
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}
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int
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freeLiftedNetwork()
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{
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LiftedNetwork* network = (LiftedNetwork*) YAP_IntOfTerm (YAP_ARG1);
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delete network->first;
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delete network->second;
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delete network;
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return TRUE;
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}
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namespace {
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Parfactor*
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readParfactor (YAP_Term pfTerm)
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{
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// read dist id
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unsigned distId = YAP_IntOfTerm (YAP_ArgOfTerm (1, pfTerm));
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// read the ranges
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Ranges ranges;
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YAP_Term rangeList = YAP_ArgOfTerm (3, pfTerm);
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while (rangeList != YAP_TermNil()) {
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unsigned range = (unsigned) YAP_IntOfTerm (YAP_HeadOfTerm (rangeList));
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ranges.push_back (range);
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rangeList = YAP_TailOfTerm (rangeList);
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}
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// read parametric random vars
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ProbFormulas formulas;
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unsigned count = 0;
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std::unordered_map<YAP_Term, LogVar> lvMap;
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YAP_Term pvList = YAP_ArgOfTerm (2, pfTerm);
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while (pvList != YAP_TermNil()) {
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YAP_Term formulaTerm = YAP_HeadOfTerm (pvList);
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if (YAP_IsAtomTerm (formulaTerm)) {
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std::string name ((char*) YAP_AtomName (YAP_AtomOfTerm (formulaTerm)));
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Symbol functor = LiftedUtils::getSymbol (name);
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formulas.push_back (ProbFormula (functor, ranges[count]));
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} else {
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LogVars logVars;
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YAP_Functor yapFunctor = YAP_FunctorOfTerm (formulaTerm);
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std::string name ((char*) YAP_AtomName (
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YAP_NameOfFunctor (yapFunctor)));
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Symbol functor = LiftedUtils::getSymbol (name);
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unsigned arity = (unsigned) YAP_ArityOfFunctor (yapFunctor);
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for (unsigned i = 1; i <= arity; i++) {
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YAP_Term ti = YAP_ArgOfTerm (i, formulaTerm);
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std::unordered_map<YAP_Term, LogVar>::iterator it = lvMap.find (ti);
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if (it != lvMap.end()) {
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logVars.push_back (it->second);
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} else {
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unsigned newLv = lvMap.size();
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lvMap[ti] = newLv;
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logVars.push_back (newLv);
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}
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}
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formulas.push_back (ProbFormula (functor, logVars, ranges[count]));
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}
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count ++;
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pvList = YAP_TailOfTerm (pvList);
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}
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// read the parameters
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Params params = readParameters (YAP_ArgOfTerm (4, pfTerm));
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// read the constraint
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Tuples tuples;
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if (lvMap.size() >= 1) {
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YAP_Term tupleList = YAP_ArgOfTerm (5, pfTerm);
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while (tupleList != YAP_TermNil()) {
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YAP_Term term = YAP_HeadOfTerm (tupleList);
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assert (YAP_IsApplTerm (term));
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YAP_Functor yapFunctor = YAP_FunctorOfTerm (term);
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unsigned arity = (unsigned) YAP_ArityOfFunctor (yapFunctor);
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assert (lvMap.size() == arity);
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Tuple tuple (arity);
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for (unsigned i = 1; i <= arity; i++) {
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YAP_Term ti = YAP_ArgOfTerm (i, term);
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if (YAP_IsAtomTerm (ti) == false) {
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std::cerr << "Error: the constraint contains free variables." ;
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std::cerr << std::endl;
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exit (EXIT_FAILURE);
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}
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std::string name ((char*) YAP_AtomName (YAP_AtomOfTerm (ti)));
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tuple[i - 1] = LiftedUtils::getSymbol (name);
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}
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tuples.push_back (tuple);
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tupleList = YAP_TailOfTerm (tupleList);
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}
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}
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return new Parfactor (formulas, params, tuples, distId);
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}
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ObservedFormulas*
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readLiftedEvidence (YAP_Term observedList)
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{
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ObservedFormulas* obsFormulas = new ObservedFormulas();
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while (observedList != YAP_TermNil()) {
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YAP_Term pair = YAP_HeadOfTerm (observedList);
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YAP_Term ground = YAP_ArgOfTerm (1, pair);
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Symbol functor;
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Symbols args;
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if (YAP_IsAtomTerm (ground)) {
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std::string name ((char*) YAP_AtomName (YAP_AtomOfTerm (ground)));
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functor = LiftedUtils::getSymbol (name);
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} else {
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assert (YAP_IsApplTerm (ground));
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YAP_Functor yapFunctor = YAP_FunctorOfTerm (ground);
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std::string name ((char*) (YAP_AtomName (
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YAP_NameOfFunctor (yapFunctor))));
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functor = LiftedUtils::getSymbol (name);
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unsigned arity = (unsigned) YAP_ArityOfFunctor (yapFunctor);
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for (unsigned i = 1; i <= arity; i++) {
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YAP_Term ti = YAP_ArgOfTerm (i, ground);
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assert (YAP_IsAtomTerm (ti));
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std::string arg ((char *) YAP_AtomName (YAP_AtomOfTerm (ti)));
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args.push_back (LiftedUtils::getSymbol (arg));
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}
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}
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unsigned evidence = (unsigned) YAP_IntOfTerm (YAP_ArgOfTerm (2, pair));
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bool found = false;
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for (size_t i = 0; i < obsFormulas->size(); i++) {
|
|
if ((*obsFormulas)[i].functor() == functor &&
|
|
(*obsFormulas)[i].arity() == args.size() &&
|
|
(*obsFormulas)[i].evidence() == evidence) {
|
|
(*obsFormulas)[i].addTuple (args);
|
|
found = true;
|
|
}
|
|
}
|
|
if (found == false) {
|
|
obsFormulas->push_back (ObservedFormula (functor, evidence, args));
|
|
}
|
|
observedList = YAP_TailOfTerm (observedList);
|
|
}
|
|
return obsFormulas;
|
|
}
|
|
|
|
|
|
|
|
std::vector<unsigned>
|
|
readUnsignedList (YAP_Term list)
|
|
{
|
|
std::vector<unsigned> vec;
|
|
while (list != YAP_TermNil()) {
|
|
vec.push_back ((unsigned) YAP_IntOfTerm (YAP_HeadOfTerm (list)));
|
|
list = YAP_TailOfTerm (list);
|
|
}
|
|
return vec;
|
|
}
|
|
|
|
|
|
|
|
Params
|
|
readParameters (YAP_Term paramL)
|
|
{
|
|
Params params;
|
|
assert (YAP_IsPairTerm (paramL));
|
|
while (paramL != YAP_TermNil()) {
|
|
YAP_Term hd = YAP_HeadOfTerm (paramL);
|
|
if (YAP_IsFloatTerm (hd)) {
|
|
params.push_back ((double) YAP_FloatOfTerm (hd));
|
|
} else {
|
|
params.push_back ((double) YAP_IntOfTerm (hd));
|
|
}
|
|
paramL = YAP_TailOfTerm (paramL);
|
|
}
|
|
if (Globals::logDomain) {
|
|
Util::log (params);
|
|
}
|
|
return params;
|
|
}
|
|
|
|
|
|
|
|
YAP_Term
|
|
fillSolutionList (const std::vector<Params>& results)
|
|
{
|
|
YAP_Term list = YAP_TermNil();
|
|
for (size_t i = results.size(); i-- > 0; ) {
|
|
const Params& beliefs = results[i];
|
|
YAP_Term queryBeliefsL = YAP_TermNil();
|
|
for (size_t j = beliefs.size(); j-- > 0; ) {
|
|
YAP_Int sl = YAP_InitSlot (list);
|
|
YAP_Term belief = YAP_MkFloatTerm (beliefs[j]);
|
|
queryBeliefsL = YAP_MkPairTerm (belief, queryBeliefsL);
|
|
list = YAP_GetFromSlot (sl);
|
|
YAP_RecoverSlots (1, sl);
|
|
}
|
|
list = YAP_MkPairTerm (queryBeliefsL, list);
|
|
}
|
|
return list;
|
|
}
|
|
|
|
}
|
|
|
|
|
|
|
|
extern "C" void
|
|
init_predicates()
|
|
{
|
|
YAP_UserCPredicate ("cpp_create_lifted_network",
|
|
createLiftedNetwork, 3);
|
|
|
|
YAP_UserCPredicate ("cpp_create_ground_network",
|
|
createGroundNetwork, 4);
|
|
|
|
YAP_UserCPredicate ("cpp_run_lifted_solver",
|
|
runLiftedSolver, 3);
|
|
|
|
YAP_UserCPredicate ("cpp_run_ground_solver",
|
|
runGroundSolver, 3);
|
|
|
|
YAP_UserCPredicate ("cpp_set_parfactors_params",
|
|
setParfactorsParams, 3);
|
|
|
|
YAP_UserCPredicate ("cpp_set_factors_params",
|
|
setFactorsParams, 3);
|
|
|
|
YAP_UserCPredicate ("cpp_set_vars_information",
|
|
setVarsInformation, 2);
|
|
|
|
YAP_UserCPredicate ("cpp_set_horus_flag",
|
|
setHorusFlag, 2);
|
|
|
|
YAP_UserCPredicate ("cpp_free_lifted_network",
|
|
freeLiftedNetwork, 1);
|
|
|
|
YAP_UserCPredicate ("cpp_free_ground_network",
|
|
freeGroundNetwork, 1);
|
|
}
|
|
|
|
} // namespace Horus
|
|
|