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z3-z3-4.12.6.src.api.api_qe.cpp Maven / Gradle / Ivy
/*++
Copyright (c) Microsoft Corporation, Arie Gurfinkel 2017
Module Name:
api_qe.cpp
Abstract:
Model-based Projection (MBP) and Quantifier Elimination (QE) API
Author:
Arie Gurfinkel (arie)
Notes:
--*/
#include "ast/expr_map.h"
#include "api/z3.h"
#include "api/api_log_macros.h"
#include "api/api_context.h"
#include "api/api_util.h"
#include "api/api_model.h"
#include "api/api_ast_map.h"
#include "api/api_ast_vector.h"
#include "qe/lite/qe_lite_tactic.h"
#include "muz/spacer/spacer_util.h"
extern "C"
{
static bool to_apps(unsigned n, Z3_app const es[], app_ref_vector& result) {
for (unsigned i = 0; i < n; ++i) {
if (!is_app(to_app(es[i]))) {
return false;
}
result.push_back (to_app (es [i]));
}
return true;
}
Z3_ast Z3_API Z3_qe_model_project (Z3_context c,
Z3_model m,
unsigned num_bounds,
Z3_app const bound[],
Z3_ast body)
{
Z3_TRY;
LOG_Z3_qe_model_project (c, m, num_bounds, bound, body);
RESET_ERROR_CODE();
app_ref_vector vars(mk_c(c)->m ());
if (!to_apps(num_bounds, bound, vars)) {
SET_ERROR_CODE(Z3_INVALID_ARG, nullptr);
RETURN_Z3(nullptr);
}
expr_ref result (mk_c(c)->m ());
result = to_expr (body);
model_ref model (to_model_ref (m));
spacer::qe_project (mk_c(c)->m (), vars, result, *model);
mk_c(c)->save_ast_trail (result.get ());
return of_expr (result.get ());
Z3_CATCH_RETURN(nullptr);
}
Z3_ast Z3_API Z3_qe_model_project_skolem (Z3_context c,
Z3_model mdl,
unsigned num_bounds,
Z3_app const bound[],
Z3_ast body,
Z3_ast_map map)
{
Z3_TRY;
LOG_Z3_qe_model_project_skolem (c, mdl, num_bounds, bound, body, map);
RESET_ERROR_CODE();
ast_manager& m = mk_c(c)->m();
app_ref_vector vars(m);
if (!to_apps(num_bounds, bound, vars)) {
RETURN_Z3(nullptr);
}
expr_ref result (m);
result = to_expr (body);
model_ref model (to_model_ref (mdl));
expr_map emap (m);
spacer::qe_project(m, vars, result, model, emap);
mk_c(c)->save_ast_trail(result);
obj_map &map_z3 = to_ast_map_ref(map);
for (auto& kv : emap) {
m.inc_ref(kv.m_key);
m.inc_ref(kv.m_value);
map_z3.insert(kv.m_key, kv.m_value);
}
return of_expr (result);
Z3_CATCH_RETURN(nullptr);
}
Z3_ast Z3_API Z3_model_extrapolate (Z3_context c,
Z3_model m,
Z3_ast fml)
{
Z3_TRY;
LOG_Z3_model_extrapolate (c, m, fml);
RESET_ERROR_CODE();
model_ref model (to_model_ref (m));
expr_ref_vector facts (mk_c(c)->m ());
facts.push_back (to_expr (fml));
flatten_and (facts);
expr_ref_vector lits = spacer::compute_implicant_literals (*model, facts);
expr_ref result (mk_c(c)->m ());
result = mk_and (lits);
mk_c(c)->save_ast_trail (result);
return of_expr (result);
Z3_CATCH_RETURN(nullptr);
}
Z3_ast Z3_API Z3_qe_lite (Z3_context c, Z3_ast_vector vars, Z3_ast body)
{
Z3_TRY;
LOG_Z3_qe_lite (c, vars, body);
RESET_ERROR_CODE();
ast_ref_vector &vVars = to_ast_vector_ref (vars);
app_ref_vector vApps (mk_c(c)->m());
for (ast* v : vVars) {
app * a = to_app(v);
if (a->get_kind () != AST_APP) {
SET_ERROR_CODE(Z3_INVALID_ARG, nullptr);
RETURN_Z3(nullptr);
}
vApps.push_back (a);
}
expr_ref result (mk_c(c)->m ());
result = to_expr (body);
params_ref p;
qe_lite qe (mk_c(c)->m (), p);
qe (vApps, result);
// -- copy back variables that were not eliminated
if (vApps.size () < vVars.size ()) {
vVars.reset ();
for (app* v : vApps) {
vVars.push_back (v);
}
}
mk_c(c)->save_ast_trail (result);
return of_expr (result);
Z3_CATCH_RETURN(nullptr);
}
}
