mirrors/z3
3
0
Fork 0
mirror of https://github.com/Z3Prover/z3 synced 2026-02-26 18:15:37 +00:00
Code Activity
z3/src/api/api_fpa.cpp
Christoph M. Wintersteiger 79d69cd5f0 Added FP to_ieee_bv to fpa_rewriter to enable model evaluation.
2015-09-16 12:57:05 +01:00

865 lines
28 KiB
C++
Raw Blame History

/*++
Copyright (c) 2013 Microsoft Corporation
Module Name:
api_fpa.cpp
Abstract:
Additional APIs for floating-point arithmetic (FP).
Author:
Christoph M. Wintersteiger (cwinter) 2013-06-05
Notes:
--*/
#include<iostream>
#include"z3.h"
#include"api_log_macros.h"
#include"api_context.h"
#include"fpa_decl_plugin.h"
extern "C" {
Z3_sort Z3_API Z3_mk_fpa_rounding_mode_sort(Z3_context c) {
Z3_TRY;
LOG_Z3_mk_fpa_rounding_mode_sort(c);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
sort * s = ctx->fpautil().mk_rm_sort();
mk_c(c)->save_ast_trail(s);
RETURN_Z3(of_sort(s));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_round_nearest_ties_to_even(Z3_context c) {
Z3_TRY;
LOG_Z3_mk_fpa_round_nearest_ties_to_even(c);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_round_nearest_ties_to_even();
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_rne(Z3_context c) {
Z3_TRY;
LOG_Z3_mk_fpa_rne(c);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_round_nearest_ties_to_even();
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_round_nearest_ties_to_away(Z3_context c) {
Z3_TRY;
LOG_Z3_mk_fpa_round_nearest_ties_to_away(c);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_round_nearest_ties_to_away();
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_rna(Z3_context c) {
Z3_TRY;
LOG_Z3_mk_fpa_rna(c);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_round_nearest_ties_to_away();
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_round_toward_positive(Z3_context c) {
Z3_TRY;
LOG_Z3_mk_fpa_round_toward_positive(c);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_round_toward_positive();
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_rtp(Z3_context c) {
Z3_TRY;
LOG_Z3_mk_fpa_rtp(c);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_round_toward_positive();
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_round_toward_negative(Z3_context c) {
Z3_TRY;
LOG_Z3_mk_fpa_round_toward_negative(c);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_round_toward_negative();
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_rtn(Z3_context c) {
Z3_TRY;
LOG_Z3_mk_fpa_rtn(c);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_round_toward_negative();
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_round_toward_zero(Z3_context c) {
Z3_TRY;
LOG_Z3_mk_fpa_round_toward_zero(c);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_round_toward_zero();
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_rtz(Z3_context c) {
Z3_TRY;
LOG_Z3_mk_fpa_rtz(c);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_round_toward_zero();
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_sort Z3_API Z3_mk_fpa_sort(Z3_context c, unsigned ebits, unsigned sbits) {
Z3_TRY;
LOG_Z3_mk_fpa_sort(c, ebits, sbits);
RESET_ERROR_CODE();
if (ebits < 2 || sbits < 3) {
SET_ERROR_CODE(Z3_INVALID_ARG);
}
api::context * ctx = mk_c(c);
sort * s = ctx->fpautil().mk_float_sort(ebits, sbits);
ctx->save_ast_trail(s);
RETURN_Z3(of_sort(s));
Z3_CATCH_RETURN(0);
}
Z3_sort Z3_API Z3_mk_fpa_sort_half(Z3_context c) {
return Z3_mk_fpa_sort(c, 5, 11);
}
Z3_sort Z3_API Z3_mk_fpa_sort_16(Z3_context c) {
return Z3_mk_fpa_sort(c, 5, 11);
}
Z3_sort Z3_API Z3_mk_fpa_sort_single(Z3_context c) {
return Z3_mk_fpa_sort(c, 8, 24);
}
Z3_sort Z3_API Z3_mk_fpa_sort_32(Z3_context c) {
return Z3_mk_fpa_sort(c, 8, 24);
}
Z3_sort Z3_API Z3_mk_fpa_sort_double(Z3_context c) {
return Z3_mk_fpa_sort(c, 11, 53);
}
Z3_sort Z3_API Z3_mk_fpa_sort_64(Z3_context c) {
return Z3_mk_fpa_sort(c, 11, 53);
}
Z3_sort Z3_API Z3_mk_fpa_sort_quadruple(Z3_context c) {
return Z3_mk_fpa_sort(c, 15, 113);
}
Z3_sort Z3_API Z3_mk_fpa_sort_128(Z3_context c) {
return Z3_mk_fpa_sort(c, 15, 113);
}
Z3_ast Z3_API Z3_mk_fpa_nan(Z3_context c, Z3_sort s) {
Z3_TRY;
LOG_Z3_mk_fpa_nan(c, s);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_nan(to_sort(s));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_inf(Z3_context c, Z3_sort s, Z3_bool negative) {
Z3_TRY;
LOG_Z3_mk_fpa_inf(c, s, negative);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = negative != 0 ? ctx->fpautil().mk_ninf(to_sort(s)) :
ctx->fpautil().mk_pinf(to_sort(s));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_zero(Z3_context c, Z3_sort s, Z3_bool negative) {
Z3_TRY;
LOG_Z3_mk_fpa_inf(c, s, negative);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = negative != 0 ? ctx->fpautil().mk_nzero(to_sort(s)) :
ctx->fpautil().mk_pzero(to_sort(s));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_fp(Z3_context c, Z3_ast sgn, Z3_ast exp, Z3_ast sig) {
Z3_TRY;
LOG_Z3_mk_fpa_fp(c, sgn, sig, exp);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_fp(to_expr(sgn), to_expr(sig), to_expr(exp));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_numeral_float(Z3_context c, float v, Z3_sort ty) {
Z3_TRY;
LOG_Z3_mk_fpa_numeral_float(c, v, ty);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
scoped_mpf tmp(ctx->fpautil().fm());
ctx->fpautil().fm().set(tmp,
ctx->fpautil().get_ebits(to_sort(ty)),
ctx->fpautil().get_sbits(to_sort(ty)),
v);
expr * a = ctx->fpautil().mk_value(tmp);
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_numeral_double(Z3_context c, double v, Z3_sort ty) {
Z3_TRY;
LOG_Z3_mk_fpa_numeral_double(c, v, ty);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
scoped_mpf tmp(ctx->fpautil().fm());
ctx->fpautil().fm().set(tmp, ctx->fpautil().get_ebits(to_sort(ty)), ctx->fpautil().get_sbits(to_sort(ty)), v);
expr * a = ctx->fpautil().mk_value(tmp);
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_numeral_int(Z3_context c, signed v, Z3_sort ty) {
Z3_TRY;
LOG_Z3_mk_fpa_numeral_int(c, v, ty);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
scoped_mpf tmp(ctx->fpautil().fm());
ctx->fpautil().fm().set(tmp,
ctx->fpautil().get_ebits(to_sort(ty)),
ctx->fpautil().get_sbits(to_sort(ty)),
v);
expr * a = ctx->fpautil().mk_value(tmp);
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_numeral_int_uint(Z3_context c, Z3_bool sgn, signed exp, unsigned sig, Z3_sort ty) {
Z3_TRY;
LOG_Z3_mk_fpa_numeral_int64_uint64(c, sgn, exp, sig, ty);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
scoped_mpf tmp(ctx->fpautil().fm());
ctx->fpautil().fm().set(tmp,
ctx->fpautil().get_ebits(to_sort(ty)),
ctx->fpautil().get_sbits(to_sort(ty)),
sgn != 0, sig, exp);
expr * a = ctx->fpautil().mk_value(tmp);
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_numeral_int64_uint64(Z3_context c, Z3_bool sgn, __int64 exp, __uint64 sig, Z3_sort ty) {
Z3_TRY;
LOG_Z3_mk_fpa_numeral_int64_uint64(c, sgn, exp, sig, ty);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
scoped_mpf tmp(ctx->fpautil().fm());
ctx->fpautil().fm().set(tmp,
ctx->fpautil().get_ebits(to_sort(ty)),
ctx->fpautil().get_sbits(to_sort(ty)),
sgn != 0, sig, exp);
expr * a = ctx->fpautil().mk_value(tmp);
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_abs(Z3_context c, Z3_ast t) {
Z3_TRY;
LOG_Z3_mk_fpa_abs(c, t);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_abs(to_expr(t));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_neg(Z3_context c, Z3_ast t) {
Z3_TRY;
LOG_Z3_mk_fpa_neg(c, t);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_neg(to_expr(t));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_add(Z3_context c, Z3_ast rm, Z3_ast t1, Z3_ast t2) {
Z3_TRY;
LOG_Z3_mk_fpa_add(c, rm, t1, t2);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_add(to_expr(rm), to_expr(t1), to_expr(t2));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_sub(Z3_context c, Z3_ast rm, Z3_ast t1, Z3_ast t2) {
Z3_TRY;
LOG_Z3_mk_fpa_add(c, rm, t1, t2);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_sub(to_expr(rm), to_expr(t1), to_expr(t2));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_mul(Z3_context c, Z3_ast rm, Z3_ast t1, Z3_ast t2) {
Z3_TRY;
LOG_Z3_mk_fpa_add(c, rm, t1, t2);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_mul(to_expr(rm), to_expr(t1), to_expr(t2));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_div(Z3_context c, Z3_ast rm, Z3_ast t1, Z3_ast t2) {
Z3_TRY;
LOG_Z3_mk_fpa_add(c, rm, t1, t2);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_div(to_expr(rm), to_expr(t1), to_expr(t2));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_fma(Z3_context c, Z3_ast rm, Z3_ast t1, Z3_ast t2, Z3_ast t3) {
Z3_TRY;
LOG_Z3_mk_fpa_fma(c, rm, t1, t2, t3);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_fma(to_expr(rm), to_expr(t1), to_expr(t2), to_expr(t3));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_sqrt(Z3_context c, Z3_ast rm, Z3_ast t) {
Z3_TRY;
LOG_Z3_mk_fpa_sqrt(c, rm, t);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_sqrt(to_expr(rm), to_expr(t));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_rem(Z3_context c, Z3_ast t1, Z3_ast t2) {
Z3_TRY;
LOG_Z3_mk_fpa_rem(c, t1, t2);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_rem(to_expr(t1), to_expr(t2));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_round_to_integral(Z3_context c, Z3_ast rm, Z3_ast t) {
Z3_TRY;
LOG_Z3_mk_fpa_round_to_integral(c, rm, t);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_round_to_integral(to_expr(rm), to_expr(t));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_min(Z3_context c, Z3_ast t1, Z3_ast t2) {
Z3_TRY;
LOG_Z3_mk_fpa_min(c, t1, t2);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_min(to_expr(t1), to_expr(t2));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_max(Z3_context c, Z3_ast t1, Z3_ast t2) {
Z3_TRY;
LOG_Z3_mk_fpa_max(c, t1, t2);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
Z3_ast r = of_ast(ctx->fpautil().mk_max(to_expr(t1), to_expr(t2)));
RETURN_Z3(r);
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_leq(Z3_context c, Z3_ast t1, Z3_ast t2) {
Z3_TRY;
LOG_Z3_mk_fpa_leq(c, t1, t2);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_le(to_expr(t1), to_expr(t2));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_lt(Z3_context c, Z3_ast t1, Z3_ast t2) {
Z3_TRY;
LOG_Z3_mk_fpa_lt(c, t1, t2);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_lt(to_expr(t1), to_expr(t2));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_geq(Z3_context c, Z3_ast t1, Z3_ast t2) {
Z3_TRY;
LOG_Z3_mk_fpa_geq(c, t1, t2);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_ge(to_expr(t1), to_expr(t2));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_gt(Z3_context c, Z3_ast t1, Z3_ast t2) {
Z3_TRY;
LOG_Z3_mk_fpa_gt(c, t1, t2);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_gt(to_expr(t1), to_expr(t2));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_eq(Z3_context c, Z3_ast t1, Z3_ast t2) {
Z3_TRY;
LOG_Z3_mk_fpa_eq(c, t1, t2);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_float_eq(to_expr(t1), to_expr(t2));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_is_normal(Z3_context c, Z3_ast t) {
Z3_TRY;
LOG_Z3_mk_fpa_is_normal(c, t);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_is_normal(to_expr(t));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_is_subnormal(Z3_context c, Z3_ast t) {
Z3_TRY;
LOG_Z3_mk_fpa_is_subnormal(c, t);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_is_subnormal(to_expr(t));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_is_zero(Z3_context c, Z3_ast t) {
Z3_TRY;
LOG_Z3_mk_fpa_is_zero(c, t);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_is_zero(to_expr(t));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_is_infinite(Z3_context c, Z3_ast t) {
Z3_TRY;
LOG_Z3_mk_fpa_is_infinite(c, t);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_is_inf(to_expr(t));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_is_nan(Z3_context c, Z3_ast t) {
Z3_TRY;
LOG_Z3_mk_fpa_is_nan(c, t);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_is_nan(to_expr(t));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_is_negative(Z3_context c, Z3_ast t) {
Z3_TRY;
LOG_Z3_mk_fpa_is_negative(c, t);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_is_negative(to_expr(t));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_is_positive(Z3_context c, Z3_ast t) {
Z3_TRY;
LOG_Z3_mk_fpa_is_positive(c, t);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_is_positive(to_expr(t));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_to_fp_bv(Z3_context c, Z3_ast bv, Z3_sort s) {
Z3_TRY;
LOG_Z3_mk_fpa_to_fp_bv(c, bv, s);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
fpa_util & fu = ctx->fpautil();
if (!ctx->bvutil().is_bv(to_expr(bv)) ||
!fu.is_float(to_sort(s))) {
SET_ERROR_CODE(Z3_INVALID_ARG);
return 0;
}
expr * a = fu.mk_to_fp(to_sort(s), to_expr(bv));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_to_fp_float(Z3_context c, Z3_ast rm, Z3_ast t, Z3_sort s) {
Z3_TRY;
LOG_Z3_mk_fpa_to_fp_float(c, rm, t, s);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
fpa_util & fu = ctx->fpautil();
if (!fu.is_rm(to_expr(rm)) ||
!fu.is_float(to_expr(t)) ||
!fu.is_float(to_sort(s))) {
SET_ERROR_CODE(Z3_INVALID_ARG);
return 0;
}
expr * a = fu.mk_to_fp(to_sort(s), to_expr(rm), to_expr(t));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_to_fp_real(Z3_context c, Z3_ast rm, Z3_ast t, Z3_sort s) {
Z3_TRY;
LOG_Z3_mk_fpa_to_fp_real(c, rm, t, s);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
fpa_util & fu = ctx->fpautil();
if (!fu.is_rm(to_expr(rm)) ||
!ctx->autil().is_real(to_expr(t)) ||
!fu.is_float(to_sort(s))) {
SET_ERROR_CODE(Z3_INVALID_ARG);
return 0;
}
expr * a = fu.mk_to_fp(to_sort(s), to_expr(rm), to_expr(t));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_to_fp_signed(Z3_context c, Z3_ast rm, Z3_ast t, Z3_sort s) {
Z3_TRY;
LOG_Z3_mk_fpa_to_fp_signed(c, rm, t, s);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
fpa_util & fu = ctx->fpautil();
if (!fu.is_rm(to_expr(rm)) ||
!ctx->bvutil().is_bv(to_expr(t)) ||
!fu.is_float(to_sort(s))) {
SET_ERROR_CODE(Z3_INVALID_ARG);
return 0;
}
expr * a = fu.mk_to_fp(to_sort(s), to_expr(rm), to_expr(t));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_to_fp_unsigned(Z3_context c, Z3_ast rm, Z3_ast t, Z3_sort s) {
Z3_TRY;
LOG_Z3_mk_fpa_to_fp_unsigned(c, rm, t, s);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
fpa_util & fu = ctx->fpautil();
if (!fu.is_rm(to_expr(rm)) ||
!ctx->bvutil().is_bv(to_expr(t)) ||
!fu.is_float(to_sort(s))) {
SET_ERROR_CODE(Z3_INVALID_ARG);
return 0;
}
expr * a = fu.mk_to_fp_unsigned(to_sort(s), to_expr(rm), to_expr(t));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_to_ubv(Z3_context c, Z3_ast rm, Z3_ast t, unsigned sz) {
Z3_TRY;
LOG_Z3_mk_fpa_to_ubv(c, rm, t, sz);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_to_ubv(to_expr(rm), to_expr(t), sz);
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_to_sbv(Z3_context c, Z3_ast rm, Z3_ast t, unsigned sz) {
Z3_TRY;
LOG_Z3_mk_fpa_to_sbv(c, rm, t, sz);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_to_sbv(to_expr(rm), to_expr(t), sz);
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_to_real(Z3_context c, Z3_ast t) {
Z3_TRY;
LOG_Z3_mk_fpa_to_real(c, t);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
expr * a = ctx->fpautil().mk_to_real(to_expr(t));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
unsigned Z3_API Z3_fpa_get_ebits(Z3_context c, Z3_sort s) {
Z3_TRY;
LOG_Z3_fpa_get_ebits(c, s);
RESET_ERROR_CODE();
CHECK_NON_NULL(s, 0);
return mk_c(c)->fpautil().get_ebits(to_sort(s));
Z3_CATCH_RETURN(0);
}
unsigned Z3_API Z3_fpa_get_sbits(Z3_context c, Z3_sort s) {
Z3_TRY;
LOG_Z3_fpa_get_sbits(c, s);
RESET_ERROR_CODE();
CHECK_NON_NULL(s, 0);
return mk_c(c)->fpautil().get_sbits(to_sort(s));
Z3_CATCH_RETURN(0);
}
Z3_bool Z3_API Z3_fpa_get_numeral_sign(Z3_context c, Z3_ast t, int * sgn) {
Z3_TRY;
LOG_Z3_fpa_get_numeral_sign(c, t, sgn);
RESET_ERROR_CODE();
ast_manager & m = mk_c(c)->m();
mpf_manager & mpfm = mk_c(c)->fpautil().fm();
fpa_decl_plugin * plugin = (fpa_decl_plugin*)m.get_plugin(mk_c(c)->get_fpa_fid());
scoped_mpf val(mpfm);
bool r = plugin->is_numeral(to_expr(t), val);
if (!r || mpfm.is_nan(val)) {
SET_ERROR_CODE(Z3_INVALID_ARG);
return 0;
}
*sgn = (mpfm.is_nan(val)) ? 0 : mpfm.sgn(val);
return r;
Z3_CATCH_RETURN(0);
}
Z3_string Z3_API Z3_fpa_get_numeral_significand_string(Z3_context c, Z3_ast t) {
Z3_TRY;
LOG_Z3_fpa_get_numeral_significand_string(c, t);
RESET_ERROR_CODE();
ast_manager & m = mk_c(c)->m();
mpf_manager & mpfm = mk_c(c)->fpautil().fm();
unsynch_mpz_manager & mpzm = mpfm.mpz_manager();
unsynch_mpq_manager & mpqm = mpfm.mpq_manager();
fpa_decl_plugin * plugin = (fpa_decl_plugin*)m.get_plugin(mk_c(c)->get_fpa_fid());
scoped_mpf val(mpfm);
if (!plugin->is_numeral(to_expr(t), val)) {
SET_ERROR_CODE(Z3_INVALID_ARG);
return "";
}
else if (!mpfm.is_regular(val)) {
SET_ERROR_CODE(Z3_INVALID_ARG)
return "";
}
unsigned sbits = val.get().get_sbits();
scoped_mpq q(mpqm);
scoped_mpz sn(mpzm);
mpfm.sig_normalized(val, sn);
mpqm.set(q, sn);
mpqm.div(q, mpfm.m_powers2(sbits - 1), q);
std::stringstream ss;
mpqm.display_decimal(ss, q, sbits);
return mk_c(c)->mk_external_string(ss.str());
Z3_CATCH_RETURN("");
}
Z3_bool Z3_API Z3_fpa_get_numeral_significand_uint64(Z3_context c, Z3_ast t, __uint64 * n) {
Z3_TRY;
LOG_Z3_fpa_get_numeral_significand_uint64(c, t, n);
RESET_ERROR_CODE();
ast_manager & m = mk_c(c)->m();
mpf_manager & mpfm = mk_c(c)->fpautil().fm();
unsynch_mpz_manager & mpzm = mpfm.mpz_manager();
fpa_decl_plugin * plugin = (fpa_decl_plugin*)m.get_plugin(mk_c(c)->get_fpa_fid());
scoped_mpf val(mpfm);
bool r = plugin->is_numeral(to_expr(t), val);
if (!r) {
SET_ERROR_CODE(Z3_INVALID_ARG);
return 0;
}
const mpz & z = mpfm.sig(val);
if (!mpzm.is_uint64(z)) {
SET_ERROR_CODE(Z3_INVALID_ARG);
return 0;
}
*n = mpzm.get_uint64(z);
return 1;
Z3_CATCH_RETURN(0);
}
Z3_string Z3_API Z3_fpa_get_numeral_exponent_string(Z3_context c, Z3_ast t) {
Z3_TRY;
LOG_Z3_fpa_get_numeral_exponent_string(c, t);
RESET_ERROR_CODE();
ast_manager & m = mk_c(c)->m();
mpf_manager & mpfm = mk_c(c)->fpautil().fm();
fpa_decl_plugin * plugin = (fpa_decl_plugin*)m.get_plugin(mk_c(c)->get_fpa_fid());
scoped_mpf val(mpfm);
bool r = plugin->is_numeral(to_expr(t), val);
if (!r) {
SET_ERROR_CODE(Z3_INVALID_ARG);
return "";
}
else if (!mpfm.is_normal(val) && !mpfm.is_denormal(val)) {
SET_ERROR_CODE(Z3_INVALID_ARG)
return "";
}
mpf_exp_t exp = mpfm.exp_normalized(val);
std::stringstream ss;
ss << exp;
return mk_c(c)->mk_external_string(ss.str());
Z3_CATCH_RETURN("");
}
Z3_bool Z3_API Z3_fpa_get_numeral_exponent_int64(Z3_context c, Z3_ast t, __int64 * n) {
Z3_TRY;
LOG_Z3_fpa_get_numeral_exponent_int64(c, t, n);
RESET_ERROR_CODE();
ast_manager & m = mk_c(c)->m();
mpf_manager & mpfm = mk_c(c)->fpautil().fm();
fpa_decl_plugin * plugin = (fpa_decl_plugin*)m.get_plugin(mk_c(c)->get_fpa_fid());
scoped_mpf val(mpfm);
bool r = plugin->is_numeral(to_expr(t), val);
if (!r) {
SET_ERROR_CODE(Z3_INVALID_ARG);
return 0;
}
*n = mpfm.exp(val);
return 1;
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_to_ieee_bv(Z3_context c, Z3_ast t) {
Z3_TRY;
LOG_Z3_mk_fpa_to_ieee_bv(c, t);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
Z3_ast r = of_ast(ctx->fpautil().mk_to_ieee_bv(to_expr(t)));
RETURN_Z3(r);
Z3_CATCH_RETURN(0);
}
Z3_ast Z3_API Z3_mk_fpa_to_fp_int_real(Z3_context c, Z3_ast rm, Z3_ast exp, Z3_ast sig, Z3_sort s) {
Z3_TRY;
LOG_Z3_mk_fpa_to_fp_int_real(c, rm, sig, exp, s);
RESET_ERROR_CODE();
api::context * ctx = mk_c(c);
fpa_util & fu = ctx->fpautil();
if (!fu.is_rm(to_expr(rm)) ||
!ctx->autil().is_real(to_expr(sig)) ||
!ctx->autil().is_int(to_expr(exp)) ||
!fu.is_float(to_sort(s))) {
SET_ERROR_CODE(Z3_INVALID_ARG);
return 0;
}
expr * a = fu.mk_to_fp(to_sort(s), to_expr(rm), to_expr(sig), to_expr(exp));
ctx->save_ast_trail(a);
RETURN_Z3(of_expr(a));
Z3_CATCH_RETURN(0);
}
};
View git blame Copy permalink