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/*++
Copyright (c) 2012 Microsoft Corporation
Module Name:
api_datalog.cpp
Abstract:
Datalog API
Author:
Leonardo de Moura (leonardo) 2012-02-29.
Revision History:
--*/
#include "api/api_datalog.h"
#include "api/api_context.h"
#include "api/api_util.h"
#include "ast/ast_pp.h"
#include "api/api_ast_vector.h"
#include "api/api_log_macros.h"
#include "api/api_stats.h"
#include "muz/fp/datalog_parser.h"
#include "util/cancel_eh.h"
#include "util/scoped_ctrl_c.h"
#include "util/scoped_timer.h"
#include "muz/fp/dl_cmds.h"
#include "cmd_context/cmd_context.h"
#include "parsers/smt2/smt2parser.h"
#include "muz/base/dl_context.h"
#include "muz/fp/dl_register_engine.h"
#include "muz/rel/dl_external_relation.h"
#include "ast/dl_decl_plugin.h"
#include "muz/rel/rel_context.h"
namespace api {
class fixedpoint_context : public datalog::external_relation_context {
void * m_state;
reduce_app_callback_fptr m_reduce_app;
reduce_assign_callback_fptr m_reduce_assign;
datalog::register_engine m_register_engine;
datalog::context m_context;
ast_ref_vector m_trail;
public:
fixedpoint_context(ast_manager& m, smt_params& p):
m_state(nullptr),
m_reduce_app(nullptr),
m_reduce_assign(nullptr),
m_context(m, m_register_engine, p),
m_trail(m) {}
family_id get_family_id() const override { return const_cast(m_context).get_decl_util().get_family_id(); }
void set_state(void* state) {
SASSERT(!m_state);
m_state = state;
symbol name("datalog_relation");
ast_manager& m = m_context.get_manager();
if (!m.has_plugin(name)) {
m.register_plugin(name, alloc(datalog::dl_decl_plugin));
}
datalog::rel_context_base* rel = m_context.get_rel_context();
if (rel) {
datalog::relation_manager& r = rel->get_rmanager();
r.register_plugin(alloc(datalog::external_relation_plugin, *this, r));
}
}
void set_reduce_app(reduce_app_callback_fptr f) {
m_reduce_app = f;
}
void set_reduce_assign(reduce_assign_callback_fptr f) {
m_reduce_assign = f;
}
void reduce(func_decl* f, unsigned num_args, expr * const* args, expr_ref& result) override {
expr* r = nullptr;
if (m_reduce_app) {
m_reduce_app(m_state, f, num_args, args, &r);
result = r;
m_trail.push_back(f);
for (unsigned i = 0; i < num_args; ++i) {
m_trail.push_back(args[i]);
}
m_trail.push_back(r);
}
// allow fallthrough.
if (r == nullptr) {
ast_manager& m = m_context.get_manager();
result = m.mk_app(f, num_args, args);
}
}
void reduce_assign(func_decl* f, unsigned num_args, expr * const* args, unsigned num_out, expr* const* outs) override {
if (m_reduce_assign) {
m_trail.push_back(f);
for (unsigned i = 0; i < num_args; ++i) {
m_trail.push_back(args[i]);
}
m_reduce_assign(m_state, f, num_args, args, num_out, outs);
}
}
datalog::context& ctx() { return m_context; }
void add_rule(expr* rule, symbol const& name) {
m_context.add_rule(rule, name);
}
void update_rule(expr* rule, symbol const& name) {
m_context.update_rule(rule, name);
}
void add_table_fact(func_decl* r, unsigned num_args, unsigned args[]) {
m_context.add_table_fact(r, num_args, args);
}
std::string get_last_status() {
datalog::execution_result status = m_context.get_status();
switch(status) {
case datalog::INPUT_ERROR:
return "input error";
case datalog::OK:
return "ok";
case datalog::TIMEOUT:
return "timeout";
case datalog::APPROX:
return "approximated";
default:
UNREACHABLE();
return "unknown";
}
}
std::string to_string(unsigned num_queries, expr* const* queries) {
std::stringstream str;
m_context.display_smt2(num_queries, queries, str);
return str.str();
}
unsigned get_num_levels(func_decl* pred) {
return m_context.get_num_levels(pred);
}
expr_ref get_cover_delta(int level, func_decl* pred) {
return m_context.get_cover_delta(level, pred);
}
void add_cover(int level, func_decl* pred, expr* predicate) {
m_context.add_cover(level, pred, predicate);
}
void collect_param_descrs(param_descrs & p) { m_context.collect_params(p); }
void updt_params(params_ref const& p) { m_context.updt_params(p); }
};
};
extern "C" {
////////////////////////////////////
// Datalog utilities
//
unsigned Z3_API Z3_get_relation_arity(Z3_context c, Z3_sort s) {
Z3_TRY;
LOG_Z3_get_relation_arity(c, s);
RESET_ERROR_CODE();
sort * r = to_sort(s);
if (Z3_get_sort_kind(c, s) != Z3_RELATION_SORT) {
SET_ERROR_CODE(Z3_INVALID_ARG, "sort should be a relation");
return 0;
}
return r->get_num_parameters();
Z3_CATCH_RETURN(0);
}
Z3_sort Z3_API Z3_get_relation_column(Z3_context c, Z3_sort s, unsigned col) {
Z3_TRY;
LOG_Z3_get_relation_column(c, s, col);
RESET_ERROR_CODE();
sort * r = to_sort(s);
if (Z3_get_sort_kind(c, s) != Z3_RELATION_SORT) {
SET_ERROR_CODE(Z3_INVALID_ARG, "sort should be a relation");
RETURN_Z3(nullptr);
}
if (col >= r->get_num_parameters()) {
SET_ERROR_CODE(Z3_IOB, nullptr);
RETURN_Z3(nullptr);
}
parameter const& p = r->get_parameter(col);
if (!p.is_ast() || !is_sort(p.get_ast())) {
UNREACHABLE();
warning_msg("Sort parameter expected at %d", col);
SET_ERROR_CODE(Z3_INTERNAL_FATAL, "sort parameter expected");
RETURN_Z3(nullptr);
}
Z3_sort res = of_sort(to_sort(p.get_ast()));
RETURN_Z3(res);
Z3_CATCH_RETURN(nullptr);
}
Z3_sort Z3_API Z3_mk_finite_domain_sort(Z3_context c, Z3_symbol name, uint64_t size) {
Z3_TRY;
LOG_Z3_mk_finite_domain_sort(c, name, size);
RESET_ERROR_CODE();
sort* s = mk_c(c)->datalog_util().mk_sort(to_symbol(name), size);
mk_c(c)->save_ast_trail(s);
RETURN_Z3(of_sort(s));
Z3_CATCH_RETURN(nullptr);
}
bool Z3_API Z3_get_finite_domain_sort_size(Z3_context c, Z3_sort s, uint64_t * out) {
Z3_TRY;
if (out) {
*out = 0;
}
if (Z3_get_sort_kind(c, s) != Z3_FINITE_DOMAIN_SORT) {
return false;
}
if (!out) {
return false;
}
// must start logging here, since function uses Z3_get_sort_kind above
LOG_Z3_get_finite_domain_sort_size(c, s, out);
RESET_ERROR_CODE();
VERIFY(mk_c(c)->datalog_util().try_get_size(to_sort(s), *out));
return true;
Z3_CATCH_RETURN(false);
}
Z3_fixedpoint Z3_API Z3_mk_fixedpoint(Z3_context c) {
Z3_TRY;
LOG_Z3_mk_fixedpoint(c);
RESET_ERROR_CODE();
Z3_fixedpoint_ref * d = alloc(Z3_fixedpoint_ref, *mk_c(c));
d->m_datalog = alloc(api::fixedpoint_context, mk_c(c)->m(), mk_c(c)->fparams());
mk_c(c)->save_object(d);
Z3_fixedpoint r = of_datalog(d);
RETURN_Z3(r);
Z3_CATCH_RETURN(nullptr);
}
void Z3_API Z3_fixedpoint_inc_ref(Z3_context c, Z3_fixedpoint s) {
Z3_TRY;
LOG_Z3_fixedpoint_inc_ref(c, s);
RESET_ERROR_CODE();
to_fixedpoint(s)->inc_ref();
Z3_CATCH;
}
void Z3_API Z3_fixedpoint_dec_ref(Z3_context c, Z3_fixedpoint s) {
Z3_TRY;
LOG_Z3_fixedpoint_dec_ref(c, s);
RESET_ERROR_CODE();
if (s)
to_fixedpoint(s)->dec_ref();
Z3_CATCH;
}
void Z3_API Z3_fixedpoint_assert(Z3_context c, Z3_fixedpoint d, Z3_ast a) {
Z3_TRY;
LOG_Z3_fixedpoint_assert(c, d, a);
RESET_ERROR_CODE();
CHECK_FORMULA(a,);
to_fixedpoint_ref(d)->ctx().assert_expr(to_expr(a));
Z3_CATCH;
}
void Z3_API Z3_fixedpoint_add_rule(Z3_context c, Z3_fixedpoint d, Z3_ast a, Z3_symbol name) {
Z3_TRY;
LOG_Z3_fixedpoint_add_rule(c, d, a, name);
RESET_ERROR_CODE();
CHECK_FORMULA(a,);
to_fixedpoint_ref(d)->add_rule(to_expr(a), to_symbol(name));
Z3_CATCH;
}
void Z3_API Z3_fixedpoint_add_fact(Z3_context c, Z3_fixedpoint d,
Z3_func_decl r, unsigned num_args, unsigned args[]) {
Z3_TRY;
LOG_Z3_fixedpoint_add_fact(c, d, r, num_args, args);
RESET_ERROR_CODE();
to_fixedpoint_ref(d)->add_table_fact(to_func_decl(r), num_args, args);
Z3_CATCH;
}
Z3_lbool Z3_API Z3_fixedpoint_query(Z3_context c,Z3_fixedpoint d, Z3_ast q) {
Z3_TRY;
LOG_Z3_fixedpoint_query(c, d, q);
RESET_ERROR_CODE();
lbool r = l_undef;
unsigned timeout = to_fixedpoint(d)->m_params.get_uint("timeout", mk_c(c)->get_timeout());
unsigned rlimit = to_fixedpoint(d)->m_params.get_uint("rlimit", mk_c(c)->get_rlimit());
bool use_ctrl_c = to_fixedpoint(d)->m_params.get_bool("ctrl_c", true);
{
scoped_rlimit _rlimit(mk_c(c)->m().limit(), rlimit);
cancel_eh eh(mk_c(c)->m().limit());
api::context::set_interruptable si(*(mk_c(c)), eh);
scoped_timer timer(timeout, &eh);
scoped_ctrl_c ctrlc(eh, false, use_ctrl_c);
try {
r = to_fixedpoint_ref(d)->ctx().query(to_expr(q));
}
catch (z3_exception& ex) {
r = l_undef;
mk_c(c)->handle_exception(ex);
}
to_fixedpoint_ref(d)->ctx().cleanup();
}
return of_lbool(r);
Z3_CATCH_RETURN(Z3_L_UNDEF);
}
Z3_lbool Z3_API Z3_fixedpoint_query_relations(
Z3_context c,Z3_fixedpoint d,
unsigned num_relations, Z3_func_decl const relations[]) {
Z3_TRY;
LOG_Z3_fixedpoint_query_relations(c, d, num_relations, relations);
RESET_ERROR_CODE();
lbool r = l_undef;
unsigned timeout = to_fixedpoint(d)->m_params.get_uint("timeout", mk_c(c)->get_timeout());
cancel_eh eh(mk_c(c)->m().limit());
api::context::set_interruptable si(*(mk_c(c)), eh);
{
scoped_timer timer(timeout, &eh);
try {
r = to_fixedpoint_ref(d)->ctx().rel_query(num_relations, to_func_decls(relations));
}
catch (z3_exception& ex) {
mk_c(c)->handle_exception(ex);
r = l_undef;
}
to_fixedpoint_ref(d)->ctx().cleanup();
}
return of_lbool(r);
Z3_CATCH_RETURN(Z3_L_UNDEF);
}
Z3_ast Z3_API Z3_fixedpoint_get_answer(Z3_context c, Z3_fixedpoint d) {
Z3_TRY;
LOG_Z3_fixedpoint_get_answer(c, d);
RESET_ERROR_CODE();
expr* e = to_fixedpoint_ref(d)->ctx().get_answer_as_formula();
mk_c(c)->save_ast_trail(e);
RETURN_Z3(of_expr(e));
Z3_CATCH_RETURN(nullptr);
}
Z3_string Z3_API Z3_fixedpoint_get_reason_unknown(Z3_context c,Z3_fixedpoint d) {
Z3_TRY;
LOG_Z3_fixedpoint_get_reason_unknown(c, d);
RESET_ERROR_CODE();
return mk_c(c)->mk_external_string(to_fixedpoint_ref(d)->get_last_status());
Z3_CATCH_RETURN("");
}
Z3_string Z3_API Z3_fixedpoint_to_string(
Z3_context c,
Z3_fixedpoint d,
unsigned num_queries,
Z3_ast _queries[]) {
Z3_TRY;
expr*const* queries = to_exprs(num_queries, _queries);
LOG_Z3_fixedpoint_to_string(c, d, num_queries, _queries);
RESET_ERROR_CODE();
return mk_c(c)->mk_external_string(to_fixedpoint_ref(d)->to_string(num_queries, queries));
Z3_CATCH_RETURN("");
}
Z3_ast_vector Z3_fixedpoint_from_stream(
Z3_context c,
Z3_fixedpoint d,
std::istream& s) {
ast_manager& m = mk_c(c)->m();
dl_collected_cmds coll(m);
cmd_context ctx(false, &m);
install_dl_collect_cmds(coll, ctx);
ctx.set_ignore_check(true);
if (!parse_smt2_commands(ctx, s)) {
SET_ERROR_CODE(Z3_PARSER_ERROR, nullptr);
return nullptr;
}
Z3_ast_vector_ref* v = alloc(Z3_ast_vector_ref, *mk_c(c), m);
mk_c(c)->save_object(v);
for (expr * q : coll.m_queries) {
v->m_ast_vector.push_back(q);
}
for (func_decl * f : coll.m_rels) {
to_fixedpoint_ref(d)->ctx().register_predicate(f, true);
}
for (unsigned i = 0; i < coll.m_rules.size(); ++i) {
to_fixedpoint_ref(d)->add_rule(coll.m_rules[i].get(), coll.m_names[i]);
}
for (expr * e : ctx.assertions()) {
to_fixedpoint_ref(d)->ctx().assert_expr(e);
}
return of_ast_vector(v);
}
Z3_ast_vector Z3_API Z3_fixedpoint_from_string(
Z3_context c,
Z3_fixedpoint d,
Z3_string s) {
Z3_TRY;
LOG_Z3_fixedpoint_from_string(c, d, s);
std::istringstream is(s);
RETURN_Z3(Z3_fixedpoint_from_stream(c, d, is));
Z3_CATCH_RETURN(nullptr);
}
Z3_ast_vector Z3_API Z3_fixedpoint_from_file(
Z3_context c,
Z3_fixedpoint d,
Z3_string s) {
Z3_TRY;
LOG_Z3_fixedpoint_from_file(c, d, s);
std::ifstream is(s);
if (!is) {
SET_ERROR_CODE(Z3_PARSER_ERROR, nullptr);
RETURN_Z3(nullptr);
}
RETURN_Z3(Z3_fixedpoint_from_stream(c, d, is));
Z3_CATCH_RETURN(nullptr);
}
Z3_stats Z3_API Z3_fixedpoint_get_statistics(Z3_context c,Z3_fixedpoint d) {
Z3_TRY;
LOG_Z3_fixedpoint_get_statistics(c, d);
RESET_ERROR_CODE();
Z3_stats_ref * st = alloc(Z3_stats_ref, (*mk_c(c)));
to_fixedpoint_ref(d)->ctx().collect_statistics(st->m_stats);
mk_c(c)->save_object(st);
Z3_stats r = of_stats(st);
RETURN_Z3(r);
Z3_CATCH_RETURN(nullptr);
}
void Z3_API Z3_fixedpoint_register_relation(Z3_context c,Z3_fixedpoint d, Z3_func_decl f) {
Z3_TRY;
LOG_Z3_fixedpoint_register_relation(c, d, f);
to_fixedpoint_ref(d)->ctx().register_predicate(to_func_decl(f), true);
Z3_CATCH;
}
void Z3_API Z3_fixedpoint_set_predicate_representation(
Z3_context c,
Z3_fixedpoint d,
Z3_func_decl f,
unsigned num_relations,
Z3_symbol const relation_kinds[]) {
Z3_TRY;
LOG_Z3_fixedpoint_set_predicate_representation(c, d, f, num_relations, relation_kinds);
svector kinds;
for (unsigned i = 0; i < num_relations; ++i) {
kinds.push_back(to_symbol(relation_kinds[i]));
}
to_fixedpoint_ref(d)->ctx().set_predicate_representation(to_func_decl(f), num_relations, kinds.data());
Z3_CATCH;
}
Z3_ast_vector Z3_API Z3_fixedpoint_get_rules(
Z3_context c,
Z3_fixedpoint d)
{
Z3_TRY;
LOG_Z3_fixedpoint_get_rules(c, d);
ast_manager& m = mk_c(c)->m();
Z3_ast_vector_ref* v = alloc(Z3_ast_vector_ref, *mk_c(c), m);
mk_c(c)->save_object(v);
expr_ref_vector rules(m), queries(m);
svector names;
to_fixedpoint_ref(d)->ctx().get_rules_as_formulas(rules, queries, names);
for (expr* r : rules) {
v->m_ast_vector.push_back(r);
}
for (expr* q : queries) {
v->m_ast_vector.push_back(m.mk_not(q));
}
RETURN_Z3(of_ast_vector(v));
Z3_CATCH_RETURN(nullptr);
}
Z3_ast_vector Z3_API Z3_fixedpoint_get_assertions(
Z3_context c,
Z3_fixedpoint d)
{
Z3_TRY;
LOG_Z3_fixedpoint_get_assertions(c, d);
ast_manager& m = mk_c(c)->m();
Z3_ast_vector_ref* v = alloc(Z3_ast_vector_ref, *mk_c(c), m);
mk_c(c)->save_object(v);
unsigned num_asserts = to_fixedpoint_ref(d)->ctx().get_num_assertions();
for (unsigned i = 0; i < num_asserts; ++i) {
v->m_ast_vector.push_back(to_fixedpoint_ref(d)->ctx().get_assertion(i));
}
RETURN_Z3(of_ast_vector(v));
Z3_CATCH_RETURN(nullptr);
}
void Z3_API Z3_fixedpoint_set_reduce_assign_callback(
Z3_context c, Z3_fixedpoint d, Z3_fixedpoint_reduce_assign_callback_fptr f) {
Z3_TRY;
// no logging
to_fixedpoint_ref(d)->set_reduce_assign((reduce_assign_callback_fptr)f);
Z3_CATCH;
}
void Z3_API Z3_fixedpoint_set_reduce_app_callback(
Z3_context c, Z3_fixedpoint d, Z3_fixedpoint_reduce_app_callback_fptr f) {
Z3_TRY;
// no logging
to_fixedpoint_ref(d)->set_reduce_app((reduce_app_callback_fptr)f);
Z3_CATCH;
}
void Z3_API Z3_fixedpoint_init(Z3_context c,Z3_fixedpoint d, void* state) {
Z3_TRY;
// not logged
to_fixedpoint_ref(d)->set_state(state);
Z3_CATCH;
}
void Z3_API Z3_fixedpoint_update_rule(Z3_context c, Z3_fixedpoint d, Z3_ast a, Z3_symbol name) {
Z3_TRY;
LOG_Z3_fixedpoint_update_rule(c, d, a, name);
RESET_ERROR_CODE();
CHECK_FORMULA(a,);
to_fixedpoint_ref(d)->update_rule(to_expr(a), to_symbol(name));
Z3_CATCH;
}
unsigned Z3_API Z3_fixedpoint_get_num_levels(Z3_context c, Z3_fixedpoint d, Z3_func_decl pred) {
Z3_TRY;
LOG_Z3_fixedpoint_get_num_levels(c, d, pred);
RESET_ERROR_CODE();
return to_fixedpoint_ref(d)->get_num_levels(to_func_decl(pred));
Z3_CATCH_RETURN(0)
}
Z3_ast Z3_API Z3_fixedpoint_get_cover_delta(Z3_context c, Z3_fixedpoint d, int level, Z3_func_decl pred) {
Z3_TRY;
LOG_Z3_fixedpoint_get_cover_delta(c, d, level, pred);
RESET_ERROR_CODE();
expr_ref r = to_fixedpoint_ref(d)->get_cover_delta(level, to_func_decl(pred));
mk_c(c)->save_ast_trail(r);
RETURN_Z3(of_expr(r.get()));
Z3_CATCH_RETURN(nullptr);
}
void Z3_API Z3_fixedpoint_add_cover(Z3_context c, Z3_fixedpoint d, int level, Z3_func_decl pred, Z3_ast property) {
Z3_TRY;
LOG_Z3_fixedpoint_add_cover(c, d, level, pred, property);
RESET_ERROR_CODE();
to_fixedpoint_ref(d)->add_cover(level, to_func_decl(pred), to_expr(property));
Z3_CATCH;
}
Z3_string Z3_API Z3_fixedpoint_get_help(Z3_context c, Z3_fixedpoint d) {
Z3_TRY;
LOG_Z3_fixedpoint_get_help(c, d);
RESET_ERROR_CODE();
std::ostringstream buffer;
param_descrs descrs;
to_fixedpoint_ref(d)->collect_param_descrs(descrs);
descrs.display(buffer);
return mk_c(c)->mk_external_string(buffer.str());
Z3_CATCH_RETURN("");
}
Z3_param_descrs Z3_API Z3_fixedpoint_get_param_descrs(Z3_context c, Z3_fixedpoint f) {
Z3_TRY;
LOG_Z3_fixedpoint_get_param_descrs(c, f);
RESET_ERROR_CODE();
Z3_param_descrs_ref * d = alloc(Z3_param_descrs_ref, *mk_c(c));
mk_c(c)->save_object(d);
to_fixedpoint_ref(f)->collect_param_descrs(d->m_descrs);
Z3_param_descrs r = of_param_descrs(d);
RETURN_Z3(r);
Z3_CATCH_RETURN(nullptr);
}
void Z3_API Z3_fixedpoint_set_params(Z3_context c, Z3_fixedpoint d, Z3_params p) {
Z3_TRY;
LOG_Z3_fixedpoint_set_params(c, d, p);
RESET_ERROR_CODE();
param_descrs descrs;
to_fixedpoint_ref(d)->collect_param_descrs(descrs);
to_params(p)->m_params.validate(descrs);
to_fixedpoint_ref(d)->updt_params(to_param_ref(p));
to_fixedpoint(d)->m_params.append(to_param_ref(p));
Z3_CATCH;
}
void Z3_API Z3_fixedpoint_add_callback(Z3_context c, Z3_fixedpoint d,
void *state,
Z3_fixedpoint_new_lemma_eh new_lemma_eh,
Z3_fixedpoint_predecessor_eh predecessor_eh,
Z3_fixedpoint_unfold_eh unfold_eh){
Z3_TRY;
// not logged
to_fixedpoint_ref(d)->ctx().add_callback(state,
reinterpret_cast(new_lemma_eh),
reinterpret_cast(predecessor_eh),
reinterpret_cast(unfold_eh));
Z3_CATCH;
}
void Z3_API Z3_fixedpoint_add_constraint (Z3_context c, Z3_fixedpoint d, Z3_ast e, unsigned lvl){
to_fixedpoint_ref(d)->ctx().add_constraint(to_expr(e), lvl);
}
Z3_lbool Z3_API Z3_fixedpoint_query_from_lvl (Z3_context c, Z3_fixedpoint d, Z3_ast q, unsigned lvl) {
Z3_TRY;
LOG_Z3_fixedpoint_query_from_lvl (c, d, q, lvl);
RESET_ERROR_CODE();
lbool r = l_undef;
unsigned timeout = to_fixedpoint(d)->m_params.get_uint("timeout", mk_c(c)->get_timeout());
unsigned rlimit = to_fixedpoint(d)->m_params.get_uint("rlimit", mk_c(c)->get_rlimit());
{
scoped_rlimit _rlimit(mk_c(c)->m().limit(), rlimit);
cancel_eh eh(mk_c(c)->m().limit());
api::context::set_interruptable si(*(mk_c(c)), eh);
scoped_timer timer(timeout, &eh);
try {
r = to_fixedpoint_ref(d)->ctx().query_from_lvl (to_expr(q), lvl);
}
catch (z3_exception& ex) {
mk_c(c)->handle_exception(ex);
r = l_undef;
}
to_fixedpoint_ref(d)->ctx().cleanup();
}
return of_lbool(r);
Z3_CATCH_RETURN(Z3_L_UNDEF);
}
Z3_ast Z3_API Z3_fixedpoint_get_ground_sat_answer(Z3_context c, Z3_fixedpoint d) {
Z3_TRY;
LOG_Z3_fixedpoint_get_ground_sat_answer(c, d);
RESET_ERROR_CODE();
expr* e = to_fixedpoint_ref(d)->ctx().get_ground_sat_answer();
mk_c(c)->save_ast_trail(e);
RETURN_Z3(of_expr(e));
Z3_CATCH_RETURN(nullptr);
}
Z3_ast_vector Z3_API Z3_fixedpoint_get_rules_along_trace(
Z3_context c,
Z3_fixedpoint d)
{
Z3_TRY;
LOG_Z3_fixedpoint_get_rules_along_trace(c, d);
ast_manager& m = mk_c(c)->m();
Z3_ast_vector_ref* v = alloc(Z3_ast_vector_ref, *mk_c(c), m);
mk_c(c)->save_object(v);
expr_ref_vector rules(m);
svector names;
to_fixedpoint_ref(d)->ctx().get_rules_along_trace_as_formulas(rules, names);
for (unsigned i = 0; i < rules.size(); ++i) {
v->m_ast_vector.push_back(rules[i].get());
}
RETURN_Z3(of_ast_vector(v));
Z3_CATCH_RETURN(nullptr);
}
Z3_symbol Z3_API Z3_fixedpoint_get_rule_names_along_trace(
Z3_context c,
Z3_fixedpoint d)
{
Z3_TRY;
LOG_Z3_fixedpoint_get_rule_names_along_trace(c, d);
ast_manager& m = mk_c(c)->m();
Z3_ast_vector_ref* v = alloc(Z3_ast_vector_ref, *mk_c(c), m);
mk_c(c)->save_object(v);
expr_ref_vector rules(m);
svector names;
std::stringstream ss;
to_fixedpoint_ref(d)->ctx().get_rules_along_trace_as_formulas(rules, names);
for (unsigned i = 0; i < names.size(); ++i) {
if (i != 0)
ss << ';';
ss << names[i].str();
}
return of_symbol(symbol(ss.str()));
Z3_CATCH_RETURN(of_symbol(symbol::null));
}
void Z3_API Z3_fixedpoint_add_invariant(Z3_context c, Z3_fixedpoint d, Z3_func_decl pred, Z3_ast property) {
Z3_TRY;
LOG_Z3_fixedpoint_add_invariant(c, d, pred, property);
RESET_ERROR_CODE();
to_fixedpoint_ref(d)->ctx ().add_invariant(to_func_decl(pred), to_expr(property));
Z3_CATCH;
}
Z3_ast Z3_API Z3_fixedpoint_get_reachable(Z3_context c, Z3_fixedpoint d, Z3_func_decl pred) {
Z3_TRY;
LOG_Z3_fixedpoint_get_reachable(c, d, pred);
RESET_ERROR_CODE();
expr_ref r = to_fixedpoint_ref(d)->ctx().get_reachable(to_func_decl(pred));
mk_c(c)->save_ast_trail(r);
RETURN_Z3(of_expr(r.get()));
Z3_CATCH_RETURN(nullptr);
}
};