Copyright (c) 2012 Microsoft Corporation
Module Name:
bvarray2uf_rewriter.cpp
Abstract:
Rewriter that rewrites bit-vector arrays into bit-vector
(uninterpreted) functions.
Author:
Christoph (cwinter) 2015-11-04
Notes:
--*/
#include "ast/bv_decl_plugin.h"
#include "ast/array_decl_plugin.h"
#include "util/params.h"
#include "ast/ast_pp.h"
#include "tactic/bv/bvarray2uf_rewriter.h"
#include "ast/rewriter/rewriter_def.h"
#include "util/ref_util.h"
bvarray2uf_rewriter_cfg::bvarray2uf_rewriter_cfg(ast_manager & m, params_ref const & p) :
m_manager(m),
m_out(m),
m_bindings(m),
m_bv_util(m),
m_array_util(m),
m_fmc(nullptr),
extra_assertions(m) {
updt_params(p);
symbol s_bv("bv");
if (!m_manager.has_plugin(s_bv))
m_manager.register_plugin(s_bv, alloc(bv_decl_plugin));
symbol s_array("array");
if (!m_manager.has_plugin(s_array))
m_manager.register_plugin(s_array, alloc(array_decl_plugin));
}
bvarray2uf_rewriter_cfg::~bvarray2uf_rewriter_cfg() {
dec_ref_map_key_values(m_manager, m_arrays_fs);
}
void bvarray2uf_rewriter_cfg::reset() {}
sort * bvarray2uf_rewriter_cfg::get_index_sort(expr * e) {
return get_index_sort(e->get_sort());
}
sort * bvarray2uf_rewriter_cfg::get_index_sort(sort * s) {
SASSERT(s->get_num_parameters() >= 2);
unsigned total_width = 0;
for (unsigned i = 0; i < s->get_num_parameters() - 1; i++) {
parameter const & p = s->get_parameter(i);
SASSERT(p.is_ast() && is_sort(to_sort(p.get_ast())));
SASSERT(m_bv_util.is_bv_sort(to_sort(p.get_ast())));
total_width += m_bv_util.get_bv_size(to_sort(p.get_ast()));
}
return m_bv_util.mk_sort(total_width);
}
sort * bvarray2uf_rewriter_cfg::get_value_sort(expr * e) {
return get_value_sort(e->get_sort());
}
sort * bvarray2uf_rewriter_cfg::get_value_sort(sort * s) {
SASSERT(s->get_num_parameters() >= 2);
parameter const & p = s->get_parameter(s->get_num_parameters() - 1);
SASSERT(p.is_ast() && is_sort(to_sort(p.get_ast())));
return to_sort(p.get_ast());
}
bool bvarray2uf_rewriter_cfg::is_bv_array(expr * e) {
return is_bv_array(e->get_sort());
}
bool bvarray2uf_rewriter_cfg::is_bv_array(sort * s) {
if (!m_array_util.is_array(s))
return false;
SASSERT(s->get_num_parameters() >= 2);
for (unsigned i = 0; i < s->get_num_parameters(); i++) {
parameter const & p = s->get_parameter(i);
if (!p.is_ast() || !is_sort(to_sort(p.get_ast())) ||
!m_bv_util.is_bv_sort(to_sort(p.get_ast())))
return false;
}
return true;
}
func_decl_ref bvarray2uf_rewriter_cfg::mk_uf_for_array(expr * e) {
SASSERT(is_bv_array(e));
if (m_array_util.is_as_array(e))
return func_decl_ref(static_cast<func_decl*>(to_app(e)->get_decl()->get_parameter(0).get_ast()), m_manager);
else {
func_decl * bv_f = nullptr;
if (!m_arrays_fs.find(e, bv_f)) {
sort * domain = get_index_sort(e);
sort * range = get_value_sort(e);
bv_f = m_manager.mk_fresh_func_decl("f_t", "", 1, &domain, range);
TRACE("bvarray2uf_rw", tout << "for " << mk_ismt2_pp(e, m_manager) << " new func_decl is " << mk_ismt2_pp(bv_f, m_manager) << std::endl; );
if (m_fmc) {
m_fmc->hide(bv_f);
if (is_uninterp_const(e))
m_fmc->add(e, m_array_util.mk_as_array(bv_f));
}
m_arrays_fs.insert(e, bv_f);
m_manager.inc_ref(e);
m_manager.inc_ref(bv_f);
}
else {
TRACE("bvarray2uf_rw", tout << "for " << mk_ismt2_pp(e, m_manager) << " found " << mk_ismt2_pp(bv_f, m_manager) << std::endl; );
}
return func_decl_ref(bv_f, m_manager);
}
}
br_status bvarray2uf_rewriter_cfg::reduce_app(func_decl * f, unsigned num, expr * const * args, expr_ref & result, proof_ref & result_pr) {
br_status res = BR_FAILED;
if (m_manager.is_eq(f) && is_bv_array(f->get_domain()[0])) {
SASSERT(num == 2);
if (m_manager.are_equal(args[0], args[1])) {
result = m_manager.mk_true();
res = BR_DONE;
}
else {
func_decl_ref f_t(mk_uf_for_array(args[0]), m_manager);
func_decl_ref f_s(mk_uf_for_array(args[1]), m_manager);
sort * sorts[1] = { get_index_sort(args[0]->get_sort()) };
symbol names[1] = { symbol("x") };
var_ref x(m_manager.mk_var(0, sorts[0]), m_manager);
expr_ref body(m_manager);
body = m_manager.mk_eq(m_manager.mk_app(f_t, x.get()), m_manager.mk_app(f_s, x.get()));
result = m_manager.mk_forall(1, sorts, names, body);
res = BR_DONE;
}
}
else if (m_manager.is_distinct(f) && is_bv_array(f->get_domain()[0])) {
result = m_manager.mk_distinct_expanded(num, args);
res = BR_REWRITE1;
}
else if (m_manager.is_term_ite(f) && is_bv_array(f->get_range())) {
expr_ref c(args[0], m_manager);
func_decl_ref f_t(mk_uf_for_array(args[1]), m_manager);
func_decl_ref f_f(mk_uf_for_array(args[2]), m_manager);
TRACE("bvarray2uf_rw", tout << "(ite " << c << ", " << f_t->get_name()
<< ", " << f_f->get_name() << ")" << std::endl;);
sort * sorts[1] = { get_index_sort(args[1]->get_sort()) };
symbol names[1] = { symbol("x") };
var_ref x(m_manager.mk_var(0, sorts[0]), m_manager);
app_ref f_a(m_manager), f_ta(m_manager), f_fa(m_manager);
f_a = m_manager.mk_app(f, num, args);
f_ta = m_manager.mk_app(f_t, x.get());
f_fa = m_manager.mk_app(f_f, x.get());
app_ref e(m_manager);
func_decl_ref itefd(m_manager);
e = m_manager.mk_ite(c, f_ta, f_fa);
func_decl * bv_f = mk_uf_for_array(e);
expr_ref q(m_manager), body(m_manager);
body = m_manager.mk_eq(m_manager.mk_app(bv_f, x), e);
q = m_manager.mk_forall(1, sorts, names, body);
extra_assertions.push_back(q);
result = m_array_util.mk_as_array(bv_f);
TRACE("bvarray2uf_rw", tout << "result: " << mk_ismt2_pp(result, m_manager) << ")" << std::endl;);
res = BR_DONE;
}
else if (f->get_family_id() == m_manager.get_basic_family_id() && is_bv_array(f->get_range())) {
throw default_exception("not handled by bvarray2uf");
}
else if (f->get_family_id() == null_family_id) {
TRACE("bvarray2uf_rw", tout << "UF APP: " << f->get_name() << std::endl; );
bool has_bv_arrays = false;
func_decl_ref f_t(m_manager);
for (unsigned i = 0; i < num; i++) {
if (is_bv_array(args[i])) {
SASSERT(m_array_util.is_as_array(args[i]));
has_bv_arrays = true;
}
}
expr_ref t(m_manager);
t = m_manager.mk_app(f, num, args);
if (is_bv_array(t)) {
f_t = mk_uf_for_array(t);
result = m_array_util.mk_as_array(f_t);
res = BR_DONE;
}
else if (has_bv_arrays) {
result = t;
res = BR_DONE;
}
else
res = BR_FAILED;
}
else if (m_array_util.get_family_id() == f->get_family_id()) {
TRACE("bvarray2uf_rw", tout << "APP: " << f->get_name() << std::endl; );
if (m_array_util.is_select(f)) {
SASSERT(num == 2);
expr * t = args[0];
expr * i = args[1];
TRACE("bvarray2uf_rw", tout <<
"select; array: " << mk_ismt2_pp(t, m()) <<
" index: " << mk_ismt2_pp(i, m()) << std::endl;);
if (!is_bv_array(t))
throw default_exception("not handled by bvarray2uf");
else {
func_decl_ref f_t(mk_uf_for_array(t), m_manager);
result = m_manager.mk_app(f_t, i);
res = BR_DONE;
}
}
else {
if (!is_bv_array(f->get_range()))
throw default_exception("not handled by bvarray2uf");
else {
if (m_array_util.is_const(f)) {
SASSERT(num == 1);
expr_ref t(m_manager.mk_app(f, num, args), m_manager);
expr * v = args[0];
func_decl_ref f_t(mk_uf_for_array(t), m_manager);
result = m_array_util.mk_as_array(f_t);
res = BR_DONE;
sort * sorts[1] = { get_index_sort(f->get_range()) };
symbol names[1] = { symbol("x") };
var_ref x(m_manager.mk_var(0, sorts[0]), m_manager);
expr_ref body(m_manager);
body = m_manager.mk_eq(m_manager.mk_app(f_t, x.get()), v);
expr_ref frllx(m_manager.mk_forall(1, sorts, names, body), m_manager);
extra_assertions.push_back(frllx);
}
else if (m_array_util.is_as_array(f)) {
res = BR_FAILED;
}
else if (m_array_util.is_map(f)) {
SASSERT(f->get_num_parameters() == 1);
SASSERT(f->get_parameter(0).is_ast());
expr_ref t(m_manager.mk_app(f, num, args), m_manager);
func_decl_ref f_t(mk_uf_for_array(t), m_manager);
func_decl_ref map_f(to_func_decl(f->get_parameter(0).get_ast()), m_manager);
func_decl_ref_vector ss(m_manager);
for (unsigned i = 0; i < num; i++) {
SASSERT(m_array_util.is_array(args[i]));
func_decl_ref fd(mk_uf_for_array(args[i]), m_manager);
ss.push_back(fd);
}
sort * sorts[1] = { get_index_sort(f->get_range()) };
symbol names[1] = { symbol("x") };
var_ref x(m_manager.mk_var(0, sorts[0]), m_manager);
expr_ref_vector new_args(m_manager);
for (unsigned i = 0; i < num; i++)
new_args.push_back(m_manager.mk_app(ss[i].get(), x.get()));
expr_ref body(m_manager);
body = m_manager.mk_eq(m_manager.mk_app(f_t, x.get()),
m_manager.mk_app(map_f, num, new_args.data()));
expr_ref frllx(m_manager.mk_forall(1, sorts, names, body), m_manager);
extra_assertions.push_back(frllx);
result = m_array_util.mk_as_array(f_t);
res = BR_DONE;
}
else if (m_array_util.is_store(f)) {
SASSERT(num == 3);
expr * s = args[0];
expr * i = args[1];
expr * v = args[2];
TRACE("bvarray2uf_rw", tout <<
"store; array: " << mk_ismt2_pp(s, m()) <<
" index: " << mk_ismt2_pp(i, m()) <<
" value: " << mk_ismt2_pp(v, m()) << std::endl;);
if (!is_bv_array(s))
throw default_exception("not handled by bvarray2uf");
else {
expr_ref t(m_manager.mk_app(f, num, args), m_manager);
func_decl_ref f_s(mk_uf_for_array(s), m_manager);
func_decl_ref f_t(mk_uf_for_array(t), m_manager);
result = m_array_util.mk_as_array(f_t);
res = BR_DONE;
sort * sorts[1] = { get_index_sort(f->get_range()) };
symbol names[1] = { symbol("x") };
var_ref x(m_manager.mk_var(0, sorts[0]), m_manager);
expr_ref body(m_manager);
body = m_manager.mk_or(m_manager.mk_eq(x, i),
m_manager.mk_eq(m_manager.mk_app(f_t, x.get()),
m_manager.mk_app(f_s, x.get())));
expr_ref frllx(m_manager.mk_forall(1, sorts, names, body), m_manager);
extra_assertions.push_back(frllx);
expr_ref ground_atom(m_manager);
ground_atom = m_manager.mk_eq(m_manager.mk_app(f_t, i), v);
extra_assertions.push_back(ground_atom);
TRACE("bvarray2uf_rw", tout << "ground atom: " << mk_ismt2_pp(ground_atom, m()) << std::endl; );
}
}
else {
throw default_exception("not handled by bvarray2uf");
}
}
}
}
CTRACE("bvarray2uf_rw", res == BR_DONE, tout << "result: " << mk_ismt2_pp(result, m()) << std::endl; );
return res;
}
bool bvarray2uf_rewriter_cfg::pre_visit(expr * t)
{
TRACE("bvarray2uf_rw_q", tout << "pre_visit: " << mk_ismt2_pp(t, m()) << std::endl;);
if (is_quantifier(t)) {
quantifier * q = to_quantifier(t);
TRACE("bvarray2uf_rw_q", tout << "pre_visit quantifier [" << q->get_id() << "]: " << mk_ismt2_pp(q->get_expr(), m()) << std::endl;);
sort_ref_vector new_bindings(m_manager);
for (unsigned i = 0; i < q->get_num_decls(); i++)
new_bindings.push_back(q->get_decl_sort(i));
SASSERT(new_bindings.size() == q->get_num_decls());
m_bindings.append(new_bindings);
}
return true;
}
bool bvarray2uf_rewriter_cfg::reduce_quantifier(quantifier * old_q,
expr * new_body,
expr * const * new_patterns,
expr * const * new_no_patterns,
expr_ref & result,
proof_ref & result_pr) {
throw default_exception("not handled by bvarray2uf");
}
bool bvarray2uf_rewriter_cfg::reduce_var(var * t, expr_ref & result, proof_ref & result_pr) {
if (t->get_idx() >= m_bindings.size())
return false;
throw default_exception("not handled by bvarray2uf");
}
template class rewriter_tpl<bvarray2uf_rewriter_cfg>;