static void track_clauses(sat::solver const& src, sat::solver& dst, sat::literal_vector& assumptions, vector<sat::literal_vector>& tracking_clauses) { for (sat::bool_var v = 0; v < src.num_vars(); ++v) { dst.mk_var(false, true); } sat::literal_vector lits; sat::literal lit; sat::clause * const * it = src.begin_clauses(); sat::clause * const * end = src.end_clauses(); svector<sat::solver::bin_clause> bin_clauses; src.collect_bin_clauses(bin_clauses, false); tracking_clauses.reserve(2*src.num_vars() + static_cast<unsigned>(end - it) + bin_clauses.size()); for (sat::bool_var v = 1; v < src.num_vars(); ++v) { if (src.value(v) != l_undef) { bool sign = src.value(v) == l_false; lits.reset(); lits.push_back(sat::literal(v, sign)); track_clause(dst, lits, assumptions, tracking_clauses); } } for (; it != end; ++it) { lits.reset(); sat::clause& cls = *(*it); lits.append(static_cast<unsigned>(cls.end()-cls.begin()), cls.begin()); track_clause(dst, lits, assumptions, tracking_clauses); } for (unsigned i = 0; i < bin_clauses.size(); ++i) { lits.reset(); lits.push_back(bin_clauses[i].first); lits.push_back(bin_clauses[i].second); track_clause(dst, lits, assumptions, tracking_clauses); } }
void read_clause(Buffer & in, std::ostream& err, sat::solver & solver, sat::literal_vector & lits) { int parsed_lit; int var; lits.reset(); while (true) { parsed_lit = parse_int(in, err); if (parsed_lit == 0) break; var = abs(parsed_lit); SASSERT(var > 0); while (static_cast<unsigned>(var) >= solver.num_vars()) solver.mk_var(); lits.push_back(sat::literal(var, parsed_lit < 0)); } }