void Paver::evaluate(PrePaving &paving, Ints &certainties, Box &box) { //std::cout << "Box: " << box << std::endl; //std::cout << "DirVars: " << dirvars() << std::endl; cert_ = 1; for (nat f = 0; f < nrels(); ++f) { // if f-th formula is certainly true, don't check it again if (certainties[f] > 0) continue; if (!dirvars().empty() && rels_[f].ope().isFresh(dirvars().back().var) && where(dirvars(), dirvars().back().var) != EXTERIOR) { // top variable doesn't appear in f-th formula, don't check it again cert_ = (cert_ > 0 ? certainties[f] : std::max(cert_, certainties[f])); continue; } evalDefs(); certainties[f] = rels_[f].eval(box, defbox_, bps_[f], tolerance_); // if f-th formula is certainly not true, conjunction of formulas is certainly not true if (certainties[f] == 0) { cert_ = 0; if (search_ == FULL) paving.push_box(3, box); // Whole interval (certainly not) return; } if (certainties[f] < 0) cert_ = (cert_ > 0 ? certainties[f] : std::max(cert_, certainties[f])); } if (cert_ > 0) // Conjunction of formulas is certainly true paving.push_box(0, box); // Whole interval (certainly) else // Conjunction of formulas is possibly true paving.push_box(std::abs(cert_), box); // Whole interval (possibly) }
void evaluate(PrePaving &paving, Ints &certainties, Environment &box) override { currentBoxCertainty_ = 1; nat numberOfFormulas = 1; Box aBox = box.box; for (nat i = 0; i < numberOfFormulas; ++i) { bool isCurrentFormulaTrue = certainties[i] > 0; if (isCurrentFormulaTrue) continue; // bool isSelectionNonEmpty = not dirvars().empty(); // if (isSelectionNonEmpty) { // Real currentFormulaLHS = relationalFormulas_[i].ope(); // nat mostRecentSelectionVariable = dirvars().back().var; // if (not currentFormulaLHS.hasVar(mostRecentSelectionVariable) // /* TODO: Remove the following line and other users trivially true // * that seems useless: // * && where(dirvars(), dirvars().back().var) != EXTERIOR */ // ) { // // top variable doesn't appear in i-th formula, don't check it again // currentBoxCertainty_ = (currentBoxCertainty_ > 0 ? certainties[i] : std::max(currentBoxCertainty_, certainties[i])); // continue; // } // } evalGlobalDefinitions(); // TODO: Take out from the loop, since it should be constant or, if not, it would be asymmetric certainties[i] = CertaintyClass::certainty2Int( this->booleanExpression_->eval(box, this->defaultEnclosureMethodTrueBernsteinFalseInterval_, this->absoluteToleranceForStoppingBranchAndBound_)); // if i-th formula is certainly not true, conjunction of formulas is certainly not true if (certainties[i] == 0) { currentBoxCertainty_ = 0; if (search_ == FULL) paving.push_box(3, aBox); // Whole interval (certainly not) return; } if (certainties[i] < 0) currentBoxCertainty_ = (currentBoxCertainty_ > 0 ? certainties[i] : std::max(currentBoxCertainty_, certainties[i])); } if (currentBoxCertainty_ > 0) // Conjunction of formulas is certainly true paving.push_box(0, aBox); // Whole interval (certainly) else // Conjunction of formulas is possibly true paving.push_box(std::abs(currentBoxCertainty_), aBox); // Whole interval (possibly) }