z3-z3-4.13.0.src.api.api_array.cpp Maven / Gradle / Ivy
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/*++
Copyright (c) 2012 Microsoft Corporation
Module Name:
api_array.cpp
Abstract:
API for array theory
Author:
Leonardo de Moura (leonardo) 2012-02-29.
Revision History:
--*/
#include "api/z3.h"
#include "api/api_log_macros.h"
#include "api/api_context.h"
#include "api/api_util.h"
#include "ast/array_decl_plugin.h"
extern "C" {
Z3_sort Z3_API Z3_mk_array_sort(Z3_context c, Z3_sort domain, Z3_sort range) {
Z3_TRY;
LOG_Z3_mk_array_sort(c, domain, range);
RESET_ERROR_CODE();
parameter params[2] = { parameter(to_sort(domain)), parameter(to_sort(range)) };
sort * ty = mk_c(c)->m().mk_sort(mk_c(c)->get_array_fid(), ARRAY_SORT, 2, params);
mk_c(c)->save_ast_trail(ty);
RETURN_Z3(of_sort(ty));
Z3_CATCH_RETURN(nullptr);
}
Z3_sort Z3_API Z3_mk_array_sort_n(Z3_context c, unsigned n, Z3_sort const* domain, Z3_sort range) {
Z3_TRY;
LOG_Z3_mk_array_sort_n(c, n, domain, range);
RESET_ERROR_CODE();
vector params;
for (unsigned i = 0; i < n; ++i) params.push_back(parameter(to_sort(domain[i])));
params.push_back(parameter(to_sort(range)));
sort * ty = mk_c(c)->m().mk_sort(mk_c(c)->get_array_fid(), ARRAY_SORT, params.size(), params.data());
mk_c(c)->save_ast_trail(ty);
RETURN_Z3(of_sort(ty));
Z3_CATCH_RETURN(nullptr);
}
Z3_ast Z3_API Z3_mk_select(Z3_context c, Z3_ast a, Z3_ast i) {
Z3_TRY;
LOG_Z3_mk_select(c, a, i);
RESET_ERROR_CODE();
ast_manager & m = mk_c(c)->m();
CHECK_IS_EXPR(a, nullptr);
CHECK_IS_EXPR(i, nullptr);
expr * _a = to_expr(a);
expr * _i = to_expr(i);
sort * a_ty = _a->get_sort();
sort * i_ty = _i->get_sort();
if (a_ty->get_family_id() != mk_c(c)->get_array_fid()) {
SET_ERROR_CODE(Z3_SORT_ERROR, nullptr);
RETURN_Z3(nullptr);
}
sort * domain[2] = {a_ty, i_ty};
func_decl * d = m.mk_func_decl(mk_c(c)->get_array_fid(), OP_SELECT, 2, a_ty->get_parameters(), 2, domain);
expr * args[2] = {_a, _i};
app * r = m.mk_app(d, 2, args);
mk_c(c)->save_ast_trail(r);
check_sorts(c, r);
RETURN_Z3(of_ast(r));
Z3_CATCH_RETURN(nullptr);
}
Z3_ast Z3_API Z3_mk_select_n(Z3_context c, Z3_ast a, unsigned n, Z3_ast const* idxs) {
Z3_TRY;
LOG_Z3_mk_select_n(c, a, n, idxs);
RESET_ERROR_CODE();
ast_manager & m = mk_c(c)->m();
CHECK_IS_EXPR(a, nullptr);
expr * _a = to_expr(a);
sort * a_ty = _a->get_sort();
if (a_ty->get_family_id() != mk_c(c)->get_array_fid()) {
SET_ERROR_CODE(Z3_SORT_ERROR, nullptr);
RETURN_Z3(nullptr);
}
ptr_vector domain;
ptr_vector args;
args.push_back(_a);
domain.push_back(a_ty);
for (unsigned i = 0; i < n; ++i) {
CHECK_IS_EXPR(idxs[i], nullptr);
args.push_back(to_expr(idxs[i]));
domain.push_back(to_expr(idxs[i])->get_sort());
}
func_decl * d = m.mk_func_decl(mk_c(c)->get_array_fid(), OP_SELECT, 2, a_ty->get_parameters(), domain.size(), domain.data());
app * r = m.mk_app(d, args.size(), args.data());
mk_c(c)->save_ast_trail(r);
check_sorts(c, r);
RETURN_Z3(of_ast(r));
Z3_CATCH_RETURN(nullptr);
}
Z3_ast Z3_API Z3_mk_store(Z3_context c, Z3_ast a, Z3_ast i, Z3_ast v) {
Z3_TRY;
LOG_Z3_mk_store(c, a, i, v);
RESET_ERROR_CODE();
ast_manager & m = mk_c(c)->m();
CHECK_IS_EXPR(a, nullptr);
CHECK_IS_EXPR(i, nullptr);
CHECK_IS_EXPR(v, nullptr);
expr * _a = to_expr(a);
expr * _i = to_expr(i);
expr * _v = to_expr(v);
sort * a_ty = _a->get_sort();
sort * i_ty = _i->get_sort();
sort * v_ty = _v->get_sort();
if (a_ty->get_family_id() != mk_c(c)->get_array_fid()) {
SET_ERROR_CODE(Z3_SORT_ERROR, nullptr);
RETURN_Z3(nullptr);
}
sort * domain[3] = {a_ty, i_ty, v_ty};
func_decl * d = m.mk_func_decl(mk_c(c)->get_array_fid(), OP_STORE, 2, a_ty->get_parameters(), 3, domain);
expr * args[3] = {_a, _i, _v};
app * r = m.mk_app(d, 3, args);
mk_c(c)->save_ast_trail(r);
check_sorts(c, r);
RETURN_Z3(of_ast(r));
Z3_CATCH_RETURN(nullptr);
}
Z3_ast Z3_API Z3_mk_store_n(Z3_context c, Z3_ast a, unsigned n, Z3_ast const* idxs, Z3_ast v) {
Z3_TRY;
LOG_Z3_mk_store_n(c, a, n, idxs, v);
RESET_ERROR_CODE();
ast_manager & m = mk_c(c)->m();
expr * _a = to_expr(a);
expr * _v = to_expr(v);
sort * a_ty = _a->get_sort();
sort * v_ty = _v->get_sort();
if (a_ty->get_family_id() != mk_c(c)->get_array_fid()) {
SET_ERROR_CODE(Z3_SORT_ERROR, nullptr);
RETURN_Z3(nullptr);
}
ptr_vector domain;
ptr_vector args;
args.push_back(_a);
domain.push_back(a_ty);
for (unsigned i = 0; i < n; ++i) {
args.push_back(to_expr(idxs[i]));
domain.push_back(to_expr(idxs[i])->get_sort());
}
args.push_back(_v);
domain.push_back(v_ty);
func_decl * d = m.mk_func_decl(mk_c(c)->get_array_fid(), OP_STORE, 2, a_ty->get_parameters(), domain.size(), domain.data());
app * r = m.mk_app(d, args.size(), args.data());
mk_c(c)->save_ast_trail(r);
check_sorts(c, r);
RETURN_Z3(of_ast(r));
Z3_CATCH_RETURN(nullptr);
}
Z3_ast Z3_API Z3_mk_map(Z3_context c, Z3_func_decl f, unsigned n, Z3_ast const* args) {
Z3_TRY;
LOG_Z3_mk_map(c, f, n, args);
RESET_ERROR_CODE();
if (n == 0) {
SET_ERROR_CODE(Z3_INVALID_ARG, nullptr);
RETURN_Z3(nullptr);
}
ast_manager & m = mk_c(c)->m();
func_decl* _f = to_func_decl(f);
expr* const* _args = to_exprs(n, args);
ptr_vector domain;
for (unsigned i = 0; i < n; ++i) {
domain.push_back(_args[i]->get_sort());
}
parameter param(_f);
func_decl * d = m.mk_func_decl(mk_c(c)->get_array_fid(), OP_ARRAY_MAP, 1, ¶m, n, domain.data());
app* r = m.mk_app(d, n, _args);
mk_c(c)->save_ast_trail(r);
check_sorts(c, r);
RETURN_Z3(of_ast(r));
Z3_CATCH_RETURN(nullptr);
}
Z3_ast Z3_API Z3_mk_const_array(Z3_context c, Z3_sort domain, Z3_ast v) {
Z3_TRY;
LOG_Z3_mk_const_array(c, domain, v);
RESET_ERROR_CODE();
ast_manager & m = mk_c(c)->m();
expr * _v = to_expr(v);
sort * _range = _v->get_sort();
sort * _domain = to_sort(domain);
parameter params[2] = { parameter(_domain), parameter(_range) };
sort * a_ty = mk_c(c)->m().mk_sort(mk_c(c)->get_array_fid(), ARRAY_SORT, 2, params);
parameter param(a_ty);
func_decl* cd = m.mk_func_decl(mk_c(c)->get_array_fid(), OP_CONST_ARRAY, 1, ¶m, 1, &_range);
app * r = m.mk_app(cd, 1, &_v);
mk_c(c)->save_ast_trail(r);
check_sorts(c, r);
RETURN_Z3(of_ast(r));
Z3_CATCH_RETURN(nullptr);
}
Z3_ast Z3_API Z3_mk_array_default(Z3_context c, Z3_ast array) {
Z3_TRY;
LOG_Z3_mk_array_default(c, array);
RESET_ERROR_CODE();
ast_manager & m = mk_c(c)->m();
expr * _a = to_expr(array);
func_decl * f = m.mk_func_decl(mk_c(c)->get_array_fid(), OP_ARRAY_DEFAULT, 0, nullptr, 1, &_a);
app * r = m.mk_app(f, 1, &_a);
mk_c(c)->save_ast_trail(r);
check_sorts(c, r);
RETURN_Z3(of_ast(r));
Z3_CATCH_RETURN(nullptr);
}
Z3_ast mk_app_array_core(Z3_context c, Z3_sort domain, Z3_ast v) {
RESET_ERROR_CODE();
ast_manager & m = mk_c(c)->m();
expr * _v = to_expr(v);
sort * _range = _v->get_sort();
sort * _domain = to_sort(domain);
parameter params[2] = { parameter(_domain), parameter(_range) };
sort * a_ty = mk_c(c)->m().mk_sort(mk_c(c)->get_array_fid(), ARRAY_SORT, 2, params);
parameter param(a_ty);
func_decl * cd = m.mk_func_decl(mk_c(c)->get_array_fid(), OP_CONST_ARRAY, 1, ¶m, 1, &_range);
app * r = m.mk_app(cd, 1, &_v);
mk_c(c)->save_ast_trail(r);
check_sorts(c, r);
return of_ast(r);
}
Z3_sort Z3_API Z3_mk_set_sort(Z3_context c, Z3_sort ty) {
Z3_TRY;
return Z3_mk_array_sort(c, ty, Z3_mk_bool_sort(c));
Z3_CATCH_RETURN(nullptr);
}
Z3_ast Z3_API Z3_mk_empty_set(Z3_context c, Z3_sort domain) {
Z3_TRY;
LOG_Z3_mk_empty_set(c, domain);
RESET_ERROR_CODE();
Z3_ast r = mk_app_array_core(c, domain, Z3_mk_false(c));
RETURN_Z3(r);
Z3_CATCH_RETURN(nullptr);
}
Z3_ast Z3_API Z3_mk_full_set(Z3_context c, Z3_sort domain) {
Z3_TRY;
LOG_Z3_mk_full_set(c, domain);
RESET_ERROR_CODE();
Z3_ast r = mk_app_array_core(c, domain, Z3_mk_true(c));
RETURN_Z3(r);
Z3_CATCH_RETURN(nullptr);
}
MK_NARY(Z3_mk_set_union, mk_c(c)->get_array_fid(), OP_SET_UNION, SKIP);
MK_NARY(Z3_mk_set_intersect, mk_c(c)->get_array_fid(), OP_SET_INTERSECT, SKIP);
MK_BINARY(Z3_mk_set_difference, mk_c(c)->get_array_fid(), OP_SET_DIFFERENCE, SKIP);
MK_UNARY(Z3_mk_set_complement, mk_c(c)->get_array_fid(), OP_SET_COMPLEMENT, SKIP);
MK_BINARY(Z3_mk_set_subset, mk_c(c)->get_array_fid(), OP_SET_SUBSET, SKIP);
MK_BINARY(Z3_mk_array_ext, mk_c(c)->get_array_fid(), OP_ARRAY_EXT, SKIP);
MK_BINARY(Z3_mk_set_has_size, mk_c(c)->get_array_fid(), OP_SET_HAS_SIZE, SKIP);
Z3_ast Z3_API Z3_mk_as_array(Z3_context c, Z3_func_decl f) {
Z3_TRY;
LOG_Z3_mk_as_array(c, f);
RESET_ERROR_CODE();
ast_manager & m = mk_c(c)->m();
array_util a(m);
app * r = a.mk_as_array(to_func_decl(f));
mk_c(c)->save_ast_trail(r);
return of_ast(r);
Z3_CATCH_RETURN(nullptr);
}
Z3_ast Z3_mk_set_member(Z3_context c, Z3_ast elem, Z3_ast set) {
return Z3_mk_select(c, set, elem);
}
Z3_ast Z3_mk_set_add(Z3_context c, Z3_ast set, Z3_ast elem) {
return Z3_mk_store(c, set, elem, Z3_mk_true(c));
}
Z3_ast Z3_mk_set_del(Z3_context c, Z3_ast set, Z3_ast elem) {
return Z3_mk_store(c, set, elem, Z3_mk_false(c));
}
static bool is_array_sort(Z3_context c, Z3_sort t) {
return
to_sort(t)->get_family_id() == mk_c(c)->get_array_fid() &&
to_sort(t)->get_decl_kind() == ARRAY_SORT;
}
Z3_sort Z3_API Z3_get_array_sort_domain(Z3_context c, Z3_sort t) {
Z3_TRY;
LOG_Z3_get_array_sort_domain(c, t);
RESET_ERROR_CODE();
CHECK_VALID_AST(t, nullptr);
if (is_array_sort(c, t)) {
Z3_sort r = of_sort(get_array_domain(to_sort(t), 0));
RETURN_Z3(r);
}
SET_ERROR_CODE(Z3_INVALID_ARG, nullptr);
RETURN_Z3(nullptr);
Z3_CATCH_RETURN(nullptr);
}
Z3_sort Z3_API Z3_get_array_sort_domain_n(Z3_context c, Z3_sort t, unsigned idx) {
Z3_TRY;
LOG_Z3_get_array_sort_domain_n(c, t, idx);
RESET_ERROR_CODE();
CHECK_VALID_AST(t, nullptr);
if (is_array_sort(c, t) && get_array_arity(to_sort(t)) > idx) {
Z3_sort r = of_sort(get_array_domain(to_sort(t), idx));
RETURN_Z3(r);
}
SET_ERROR_CODE(Z3_INVALID_ARG, nullptr);
RETURN_Z3(nullptr);
Z3_CATCH_RETURN(nullptr);
}
Z3_sort Z3_API Z3_get_array_sort_range(Z3_context c, Z3_sort t) {
Z3_TRY;
LOG_Z3_get_array_sort_range(c, t);
RESET_ERROR_CODE();
CHECK_VALID_AST(t, nullptr);
if (is_array_sort(c, t)) {
Z3_sort r = of_sort(get_array_range(to_sort(t)));
RETURN_Z3(r);
}
SET_ERROR_CODE(Z3_INVALID_ARG, nullptr);
RETURN_Z3(nullptr);
Z3_CATCH_RETURN(nullptr);
}
};