tactic * mk_qffp_tactic(ast_manager & m, params_ref const & p) {
params_ref simp_p = p;
simp_p.set_bool("arith_lhs", true);
simp_p.set_bool("elim_and", true);
tactic * preamble = and_then(mk_simplify_tactic(m, simp_p),
mk_propagate_values_tactic(m, p),
mk_fpa2bv_tactic(m, p),
mk_propagate_values_tactic(m, p),
using_params(mk_simplify_tactic(m, p), simp_p),
if_no_proofs(if_no_unsat_cores(mk_ackermannize_bv_tactic(m, p))));
tactic * st = and_then(preamble,
mk_bit_blaster_tactic(m, p),
using_params(mk_simplify_tactic(m, p), simp_p),
cond(mk_is_propositional_probe(),
cond(mk_produce_proofs_probe(),
mk_smt_tactic(p), // `sat' does not support proofs.
mk_sat_tactic(m, p)),
cond(mk_is_fp_qfnra_probe(),
mk_qfnra_tactic(m, p),
mk_smt_tactic(p))));
st->updt_params(p);
return st;
}
static tactic * mk_qfaufbv_preamble(ast_manager & m, params_ref const & p) {
params_ref simp2_p = p;
simp2_p.set_bool("som", true);
simp2_p.set_bool("pull_cheap_ite", true);
simp2_p.set_bool("push_ite_bv", false);
simp2_p.set_bool("local_ctx", true);
simp2_p.set_uint("local_ctx_limit", 10000000);
return and_then(mk_simplify_tactic(m),
mk_propagate_values_tactic(m),
mk_solve_eqs_tactic(m),
mk_elim_uncnstr_tactic(m),
// sound to use? if_no_proofs(if_no_unsat_cores(mk_reduce_args_tactic(m))),
if_no_proofs(if_no_unsat_cores(mk_bv_size_reduction_tactic(m))),
using_params(mk_simplify_tactic(m), simp2_p),
mk_max_bv_sharing_tactic(m),
if_no_proofs(if_no_unsat_cores(mk_ackermannize_bv_tactic(m, p)))
);
}
static tactic * mk_qfbv_preamble(ast_manager& m, params_ref const& p) {
params_ref solve_eq_p;
// conservative guassian elimination.
solve_eq_p.set_uint("solve_eqs_max_occs", 2);
params_ref simp2_p = p;
simp2_p.set_bool("som", true);
simp2_p.set_bool("pull_cheap_ite", true);
simp2_p.set_bool("push_ite_bv", false);
simp2_p.set_bool("local_ctx", true);
simp2_p.set_uint("local_ctx_limit", 10000000);
simp2_p.set_bool("flat", true); // required by som
simp2_p.set_bool("hoist_mul", false); // required by som
params_ref hoist_p;
hoist_p.set_bool("hoist_mul", true);
hoist_p.set_bool("som", false);
return
and_then(
mk_simplify_tactic(m),
mk_propagate_values_tactic(m),
using_params(mk_solve_eqs_tactic(m), solve_eq_p),
mk_elim_uncnstr_tactic(m),
if_no_proofs(if_no_unsat_cores(mk_bv_size_reduction_tactic(m))),
using_params(mk_simplify_tactic(m), simp2_p),
//
// Z3 can solve a couple of extra benchmarks by using hoist_mul
// but the timeout in SMT-COMP is too small.
// Moreover, it impacted negatively some easy benchmarks.
// We should decide later, if we keep it or not.
//
using_params(mk_simplify_tactic(m), hoist_p),
mk_max_bv_sharing_tactic(m),
if_no_proofs(if_no_unsat_cores(mk_ackermannize_bv_tactic(m,p)))
);
}
