z3-z3-4.13.0.src.tactic.smtlogics.qfidl_tactic.cpp Maven / Gradle / Ivy
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/*++
Copyright (c) 2012 Microsoft Corporation
Module Name:
qfidl_tactic.cpp
Abstract:
Tactic for QF_IDL
Author:
Leonardo (leonardo) 2012-02-21
Notes:
--*/
#include "tactic/tactical.h"
#include "tactic/core/simplify_tactic.h"
#include "tactic/core/propagate_values_tactic.h"
#include "tactic/arith/propagate_ineqs_tactic.h"
#include "tactic/core/solve_eqs_tactic.h"
#include "tactic/core/elim_uncnstr_tactic.h"
#include "tactic/arith/normalize_bounds_tactic.h"
#include "tactic/arith/fix_dl_var_tactic.h"
#include "tactic/smtlogics/smt_tactic.h"
#include "tactic/arith/lia2pb_tactic.h"
#include "tactic/arith/pb2bv_tactic.h"
#include "tactic/arith/diff_neq_tactic.h"
#include "tactic/bv/bit_blaster_tactic.h"
#include "tactic/bv/max_bv_sharing_tactic.h"
#include "tactic/aig/aig_tactic.h"
#include "sat/tactic/sat_tactic.h"
#define BIG_PROBLEM 5000
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(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(m))),
main_p),
mk_smt_tactic(m));
st->updt_params(p);
return st;
}