static tactic * mk_lia2sat_tactic(ast_manager & m) { params_ref pb2bv_p; pb2bv_p.set_bool("ite_extra", true); pb2bv_p.set_uint("pb2bv_all_clauses_limit", 8); return and_then(fail_if(mk_is_unbounded_probe()), fail_if(mk_produce_proofs_probe()), fail_if(mk_produce_unsat_cores_probe()), mk_propagate_ineqs_tactic(m), mk_normalize_bounds_tactic(m), mk_lia2pb_tactic(m), using_params(mk_pb2bv_tactic(m), pb2bv_p), fail_if_not(mk_is_qfbv_probe()), mk_bv2sat_tactic(m)); }
static tactic * mk_pb_tactic(ast_manager & m) { params_ref pb2bv_p; pb2bv_p.set_bool("ite_extra", true); pb2bv_p.set_uint("pb2bv_all_clauses_limit", 8); return and_then(fail_if_not(mk_is_pb_probe()), fail_if(mk_produce_proofs_probe()), fail_if(mk_produce_unsat_cores_probe()), or_else(and_then(fail_if(mk_ge(mk_num_exprs_probe(), mk_const_probe(SMALL_SIZE))), fail_if_not(mk_is_ilp_probe()), // try_for(mk_mip_tactic(m), 8000), mk_fail_if_undecided_tactic()), and_then(using_params(mk_pb2bv_tactic(m), pb2bv_p), fail_if_not(mk_is_qfbv_probe()), mk_bv2sat_tactic(m)))); }
tactic * mk_qfidl_tactic(ast_manager & m, params_ref const & p) { params_ref main_p; main_p.set_bool("elim_and", true); main_p.set_bool("blast_distinct", true); main_p.set_bool("som", true); params_ref lhs_p; lhs_p.set_bool("arith_lhs", true); params_ref lia2pb_p; lia2pb_p.set_uint("lia2pb_max_bits", 4); params_ref pb2bv_p; pb2bv_p.set_uint("pb2bv_all_clauses_limit", 8); params_ref pull_ite_p; pull_ite_p.set_bool("pull_cheap_ite", true); pull_ite_p.set_bool("local_ctx", true); pull_ite_p.set_uint("local_ctx_limit", 10000000); tactic * preamble_st = and_then(and_then(mk_simplify_tactic(m), mk_fix_dl_var_tactic(m), mk_propagate_values_tactic(m), mk_elim_uncnstr_tactic(m) ), and_then(mk_solve_eqs_tactic(m), using_params(mk_simplify_tactic(m), lhs_p), mk_propagate_values_tactic(m), mk_normalize_bounds_tactic(m), mk_solve_eqs_tactic(m))); params_ref bv_solver_p; // The cardinality constraint encoding generates a lot of shared if-then-else's that can be flattened. // Several of them are simplified to and/or. If we flat them, we increase a lot the memory consumption. bv_solver_p.set_bool("flat", false); bv_solver_p.set_bool("som", false); // dynamic psm seems to work well. bv_solver_p.set_sym("gc", symbol("dyn_psm")); tactic * bv_solver = using_params(and_then(mk_simplify_tactic(m), mk_propagate_values_tactic(m), mk_solve_eqs_tactic(m), mk_max_bv_sharing_tactic(m), mk_bit_blaster_tactic(m), mk_aig_tactic(), mk_sat_tactic(m)), bv_solver_p); tactic * try2bv = and_then(using_params(mk_lia2pb_tactic(m), lia2pb_p), mk_propagate_ineqs_tactic(m), using_params(mk_pb2bv_tactic(m), pb2bv_p), fail_if(mk_not(mk_is_qfbv_probe())), bv_solver); params_ref diff_neq_p; diff_neq_p.set_uint("diff_neq_max_k", 25); tactic * st = cond(mk_and(mk_lt(mk_num_consts_probe(), mk_const_probe(static_cast<double>(BIG_PROBLEM))), mk_and(mk_not(mk_produce_proofs_probe()), mk_not(mk_produce_unsat_cores_probe()))), using_params(and_then(preamble_st, or_else(using_params(mk_diff_neq_tactic(m), diff_neq_p), try2bv, mk_smt_tactic())), main_p), mk_smt_tactic()); st->updt_params(p); return st; }