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yap-6.3/packages/CLPBN/horus/Solver.cpp

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#include "Solver.h"
#include "Util.h"
#include "BeliefProp.h"
#include "CountingBp.h"
#include "VarElim.h"
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void
Solver::printAnswer (const VarIds& vids)
{
Vars unobservedVars;
VarIds unobservedVids;
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for (size_t i = 0; i < vids.size(); i++) {
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VarNode* vn = fg.getVarNode (vids[i]);
if (vn->hasEvidence() == false) {
unobservedVars.push_back (vn);
unobservedVids.push_back (vids[i]);
}
}
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if (unobservedVids.empty() == false) {
Params res = solveQuery (unobservedVids);
vector<string> stateLines = Util::getStateLines (unobservedVars);
for (size_t i = 0; i < res.size(); i++) {
cout << "P(" << stateLines[i] << ") = " ;
cout << std::setprecision (Constants::PRECISION) << res[i];
cout << endl;
}
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cout << endl;
}
}
void
Solver::printAllPosterioris (void)
{
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VarNodes vars = fg.varNodes();
std::sort (vars.begin(), vars.end(), sortByVarId());
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for (size_t i = 0; i < vars.size(); i++) {
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printAnswer ({vars[i]->varId()});
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}
}
Params
Solver::getJointByConditioning (
GroundSolver solverType,
FactorGraph fg,
const VarIds& jointVarIds) const
{
VarNodes jointVars;
for (size_t i = 0; i < jointVarIds.size(); i++) {
assert (fg.getVarNode (jointVarIds[i]));
jointVars.push_back (fg.getVarNode (jointVarIds[i]));
}
Solver* solver = 0;
switch (solverType) {
case GroundSolver::BP: solver = new BeliefProp (fg); break;
case GroundSolver::CBP: solver = new CountingBp (fg); break;
case GroundSolver::VE: solver = new VarElim (fg); break;
}
Params prevBeliefs = solver->solveQuery ({jointVarIds[0]});
VarIds observedVids = {jointVars[0]->varId()};
for (size_t i = 1; i < jointVarIds.size(); i++) {
assert (jointVars[i]->hasEvidence() == false);
Params newBeliefs;
Vars observedVars;
Ranges observedRanges;
for (size_t j = 0; j < observedVids.size(); j++) {
observedVars.push_back (fg.getVarNode (observedVids[j]));
observedRanges.push_back (observedVars.back()->range());
}
Indexer indexer (observedRanges, false);
while (indexer.valid()) {
for (size_t j = 0; j < observedVars.size(); j++) {
observedVars[j]->setEvidence (indexer[j]);
}
delete solver;
switch (solverType) {
case GroundSolver::BP: solver = new BeliefProp (fg); break;
case GroundSolver::CBP: solver = new CountingBp (fg); break;
case GroundSolver::VE: solver = new VarElim (fg); break;
}
Params beliefs = solver->solveQuery ({jointVarIds[i]});
for (size_t k = 0; k < beliefs.size(); k++) {
newBeliefs.push_back (beliefs[k]);
}
++ indexer;
}
int count = -1;
for (size_t j = 0; j < newBeliefs.size(); j++) {
if (j % jointVars[i]->range() == 0) {
count ++;
}
newBeliefs[j] *= prevBeliefs[count];
}
prevBeliefs = newBeliefs;
observedVids.push_back (jointVars[i]->varId());
}
delete solver;
return prevBeliefs;
}