/*++ Copyright (c) 2012 Microsoft Corporation Module Name: fpa_rewriter.cpp Abstract: Basic rewriting rules for floating point numbers. Author: Leonardo (leonardo) 2012-02-02 Notes: --*/ #include "ast/rewriter/fpa_rewriter.h" #include "ast/rewriter/fpa_rewriter_params.hpp" #include "ast/ast_smt2_pp.h" fpa_rewriter::fpa_rewriter(ast_manager & m, params_ref const & p) : m_util(m), m_fm(m_util.fm()), m_hi_fp_unspecified(false) { updt_params(p); } fpa_rewriter::~fpa_rewriter() { } void fpa_rewriter::updt_params(params_ref const & _p) { fpa_rewriter_params p(_p); m_hi_fp_unspecified = p.hi_fp_unspecified(); } void fpa_rewriter::get_param_descrs(param_descrs & r) { } br_status fpa_rewriter::mk_app_core(func_decl * f, unsigned num_args, expr * const * args, expr_ref & result) { br_status st = BR_FAILED; SASSERT(f->get_family_id() == get_fid()); fpa_op_kind k = (fpa_op_kind)f->get_decl_kind(); switch (k) { case OP_FPA_RM_NEAREST_TIES_TO_EVEN: case OP_FPA_RM_NEAREST_TIES_TO_AWAY: case OP_FPA_RM_TOWARD_POSITIVE: case OP_FPA_RM_TOWARD_NEGATIVE: case OP_FPA_RM_TOWARD_ZERO: SASSERT(num_args == 0); result = m().mk_app(f, (expr * const *)nullptr); st = BR_DONE; break; case OP_FPA_PLUS_INF: case OP_FPA_MINUS_INF: case OP_FPA_NAN: case OP_FPA_PLUS_ZERO: case OP_FPA_MINUS_ZERO: SASSERT(num_args == 0); result = m().mk_app(f, (expr * const *)nullptr); st = BR_DONE; break; case OP_FPA_NUM: SASSERT(num_args == 0); result = m().mk_app(f, (expr * const *)nullptr); st = BR_DONE; break; case OP_FPA_ADD: SASSERT(num_args == 3); st = mk_add(args[0], args[1], args[2], result); break; case OP_FPA_SUB: SASSERT(num_args == 3); st = mk_sub(args[0], args[1], args[2], result); break; case OP_FPA_NEG: SASSERT(num_args == 1); st = mk_neg(args[0], result); break; case OP_FPA_MUL: SASSERT(num_args == 3); st = mk_mul(args[0], args[1], args[2], result); break; case OP_FPA_DIV: SASSERT(num_args == 3); st = mk_div(args[0], args[1], args[2], result); break; case OP_FPA_REM: SASSERT(num_args == 2); st = mk_rem(args[0], args[1], result); break; case OP_FPA_ABS: SASSERT(num_args == 1); st = mk_abs(args[0], result); break; case OP_FPA_MIN: SASSERT(num_args == 2); st = mk_min(args[0], args[1], result); break; case OP_FPA_MAX: SASSERT(num_args == 2); st = mk_max(args[0], args[1], result); break; case OP_FPA_FMA: SASSERT(num_args == 4); st = mk_fma(args[0], args[1], args[2], args[3], result); break; case OP_FPA_SQRT: SASSERT(num_args == 2); st = mk_sqrt(args[0], args[1], result); break; case OP_FPA_ROUND_TO_INTEGRAL: SASSERT(num_args == 2); st = mk_round_to_integral(args[0], args[1], result); break; case OP_FPA_EQ: SASSERT(num_args == 2); st = mk_float_eq(args[0], args[1], result); break; case OP_FPA_LT: SASSERT(num_args == 2); st = mk_lt(args[0], args[1], result); break; case OP_FPA_GT: SASSERT(num_args == 2); st = mk_gt(args[0], args[1], result); break; case OP_FPA_LE: SASSERT(num_args == 2); st = mk_le(args[0], args[1], result); break; case OP_FPA_GE: SASSERT(num_args == 2); st = mk_ge(args[0], args[1], result); break; case OP_FPA_IS_ZERO: SASSERT(num_args == 1); st = mk_is_zero(args[0], result); break; case OP_FPA_IS_NAN: SASSERT(num_args == 1); st = mk_is_nan(args[0], result); break; case OP_FPA_IS_INF: SASSERT(num_args == 1); st = mk_is_inf(args[0], result); break; case OP_FPA_IS_NORMAL: SASSERT(num_args == 1); st = mk_is_normal(args[0], result); break; case OP_FPA_IS_SUBNORMAL: SASSERT(num_args == 1); st = mk_is_subnormal(args[0], result); break; case OP_FPA_IS_NEGATIVE: SASSERT(num_args == 1); st = mk_is_negative(args[0], result); break; case OP_FPA_IS_POSITIVE: SASSERT(num_args == 1); st = mk_is_positive(args[0], result); break; case OP_FPA_FP: SASSERT(num_args == 3); st = mk_fp(args[0], args[1], args[2], result); break; case OP_FPA_TO_FP: st = mk_to_fp(f, num_args, args, result); break; case OP_FPA_TO_FP_UNSIGNED: SASSERT(num_args == 2); st = mk_to_fp_unsigned(f, args[0], args[1], result); break; case OP_FPA_TO_UBV: SASSERT(num_args == 2); st = mk_to_ubv(f, args[0], args[1], result); break; case OP_FPA_TO_SBV: SASSERT(num_args == 2); st = mk_to_sbv(f, args[0], args[1], result); break; case OP_FPA_TO_IEEE_BV: SASSERT(num_args == 1); st = mk_to_ieee_bv(f, args[0], result); break; case OP_FPA_TO_REAL: SASSERT(num_args == 1); st = mk_to_real(args[0], result); break; case OP_FPA_BVWRAP: SASSERT(num_args == 1); st = mk_bvwrap(args[0], result); break; case OP_FPA_BV2RM: SASSERT(num_args == 1); st = mk_bv2rm(args[0], result); break; default: NOT_IMPLEMENTED_YET(); } return st; } br_status fpa_rewriter::mk_to_fp(func_decl * f, unsigned num_args, expr * const * args, expr_ref & result) { SASSERT(f->get_num_parameters() == 2); SASSERT(f->get_parameter(0).is_int()); SASSERT(f->get_parameter(1).is_int()); scoped_mpf v(m_fm); mpf_rounding_mode rmv; rational r1, r2, r3; unsigned bvs1, bvs2, bvs3; unsigned ebits = f->get_parameter(0).get_int(); unsigned sbits = f->get_parameter(1).get_int(); if (num_args == 1) { if (m_util.bu().is_numeral(args[0], r1, bvs1)) { // BV -> float SASSERT(bvs1 == sbits + ebits); unsynch_mpz_manager & mpzm = m_fm.mpz_manager(); scoped_mpz sig(mpzm), exp(mpzm); const mpz & sm1 = m_fm.m_powers2(sbits - 1); const mpz & em1 = m_fm.m_powers2(ebits); const mpq & q = r1.to_mpq(); SASSERT(mpzm.is_one(q.denominator())); scoped_mpz z(mpzm); z = q.numerator(); mpzm.rem(z, sm1, sig); mpzm.div(z, sm1, z); mpzm.rem(z, em1, exp); mpzm.div(z, em1, z); SASSERT(mpzm.is_int64(exp)); mpf_exp_t mpf_exp = mpzm.get_int64(exp); mpf_exp = m_fm.unbias_exp(ebits, mpf_exp); m_fm.set(v, ebits, sbits, !mpzm.is_zero(z), mpf_exp, sig); TRACE("fp_rewriter", tout << "sgn: " << !mpzm.is_zero(z) << std::endl; tout << "sig: " << mpzm.to_string(sig) << std::endl; tout << "exp: " << mpf_exp << std::endl; tout << "v: " << m_fm.to_string(v) << std::endl;); result = m_util.mk_value(v); return BR_DONE; } } else if (num_args == 2) { if (!m_util.is_rm_numeral(args[0], rmv)) return BR_FAILED; if (m_util.au().is_numeral(args[1], r1)) { // rm + real -> float TRACE("fp_rewriter", tout << "r: " << r1 << std::endl;); scoped_mpf v(m_fm); m_fm.set(v, ebits, sbits, rmv, r1.to_mpq()); result = m_util.mk_value(v); // TRACE("fp_rewriter", tout << "result: " << result << std::endl; ); return BR_DONE; } else if (m_util.is_numeral(args[1], v)) { // rm + float -> float TRACE("fp_rewriter", tout << "v: " << m_fm.to_string(v) << std::endl; ); scoped_mpf vf(m_fm); m_fm.set(vf, ebits, sbits, rmv, v); result = m_util.mk_value(vf); // TRACE("fp_rewriter", tout << "result: " << result << std::endl; ); return BR_DONE; } else if (m_util.bu().is_numeral(args[1], r1, bvs1)) { // rm + signed bv -> float TRACE("fp_rewriter", tout << "r1: " << r1 << std::endl;); r1 = m_util.bu().norm(r1, bvs1, true); TRACE("fp_rewriter", tout << "r1 norm: " << r1 << std::endl;); m_fm.set(v, ebits, sbits, rmv, r1.to_mpq()); result = m_util.mk_value(v); return BR_DONE; } } else if (num_args == 3) { if (m_util.is_rm_numeral(args[0], rmv) && m_util.au().is_real(args[1]) && m_util.au().is_int(args[2])) { // rm + real + int -> float if (!m_util.is_rm_numeral(args[0], rmv) || !m_util.au().is_numeral(args[1], r1) || !m_util.au().is_numeral(args[2], r2)) return BR_FAILED; TRACE("fp_rewriter", tout << "r1: " << r1 << ", r2: " << r2 << "\n";); m_fm.set(v, ebits, sbits, rmv, r2.to_mpq().numerator(), r1.to_mpq()); result = m_util.mk_value(v); return BR_DONE; } else if (m_util.is_rm_numeral(args[0], rmv) && m_util.au().is_int(args[1]) && m_util.au().is_real(args[2])) { // rm + int + real -> float if (!m_util.is_rm_numeral(args[0], rmv) || !m_util.au().is_numeral(args[1], r1) || !m_util.au().is_numeral(args[2], r2)) return BR_FAILED; TRACE("fp_rewriter", tout << "r1: " << r1 << ", r2: " << r2 << "\n";); m_fm.set(v, ebits, sbits, rmv, r1.to_mpq().numerator(), r2.to_mpq()); result = m_util.mk_value(v); return BR_DONE; } else if (m_util.bu().is_numeral(args[0], r1, bvs1) && m_util.bu().is_numeral(args[1], r2, bvs2) && m_util.bu().is_numeral(args[2], r3, bvs3)) { // 3 BV -> float SASSERT(m_fm.mpz_manager().is_one(r2.to_mpq().denominator())); SASSERT(m_fm.mpz_manager().is_one(r3.to_mpq().denominator())); SASSERT(m_fm.mpz_manager().is_int64(r3.to_mpq().numerator())); mpf_exp_t biased_exp = m_fm.mpz_manager().get_int64(r2.to_mpq().numerator()); m_fm.set(v, bvs2, bvs3 + 1, r1.is_one(), m_fm.unbias_exp(bvs2, biased_exp), r3.to_mpq().numerator()); TRACE("fp_rewriter", tout << "v = " << m_fm.to_string(v) << std::endl;); result = m_util.mk_value(v); return BR_DONE; } } return BR_FAILED; } br_status fpa_rewriter::mk_to_fp_unsigned(func_decl * f, expr * arg1, expr * arg2, expr_ref & result) { SASSERT(f->get_num_parameters() == 2); SASSERT(f->get_parameter(0).is_int()); SASSERT(f->get_parameter(1).is_int()); unsigned ebits = f->get_parameter(0).get_int(); unsigned sbits = f->get_parameter(1).get_int(); mpf_rounding_mode rmv; rational r; unsigned bvs; if (m_util.is_rm_numeral(arg1, rmv) && m_util.bu().is_numeral(arg2, r, bvs)) { scoped_mpf v(m_fm); m_fm.set(v, ebits, sbits, rmv, r.to_mpq()); result = m_util.mk_value(v); return BR_DONE; } return BR_FAILED; } br_status fpa_rewriter::mk_add(expr * arg1, expr * arg2, expr * arg3, expr_ref & result) { mpf_rounding_mode rm; if (m_util.is_rm_numeral(arg1, rm)) { scoped_mpf v2(m_fm), v3(m_fm); if (m_util.is_numeral(arg2, v2) && m_util.is_numeral(arg3, v3)) { scoped_mpf t(m_fm); m_fm.add(rm, v2, v3, t); result = m_util.mk_value(t); return BR_DONE; } } return BR_FAILED; } br_status fpa_rewriter::mk_sub(expr * arg1, expr * arg2, expr * arg3, expr_ref & result) { // a - b = a + (-b) result = m_util.mk_add(arg1, arg2, m_util.mk_neg(arg3)); return BR_REWRITE2; } br_status fpa_rewriter::mk_mul(expr * arg1, expr * arg2, expr * arg3, expr_ref & result) { mpf_rounding_mode rm; if (m_util.is_rm_numeral(arg1, rm)) { scoped_mpf v2(m_fm), v3(m_fm); if (m_util.is_numeral(arg2, v2) && m_util.is_numeral(arg3, v3)) { scoped_mpf t(m_fm); m_fm.mul(rm, v2, v3, t); result = m_util.mk_value(t); return BR_DONE; } } return BR_FAILED; } br_status fpa_rewriter::mk_div(expr * arg1, expr * arg2, expr * arg3, expr_ref & result) { mpf_rounding_mode rm; if (m_util.is_rm_numeral(arg1, rm)) { scoped_mpf v2(m_fm), v3(m_fm); if (m_util.is_numeral(arg2, v2) && m_util.is_numeral(arg3, v3)) { scoped_mpf t(m_fm); m_fm.div(rm, v2, v3, t); result = m_util.mk_value(t); return BR_DONE; } } return BR_FAILED; } br_status fpa_rewriter::mk_neg(expr * arg1, expr_ref & result) { if (m_util.is_nan(arg1)) { // -nan --> nan result = arg1; return BR_DONE; } if (m_util.is_pinf(arg1)) { // - +oo --> -oo result = m_util.mk_ninf(m().get_sort(arg1)); return BR_DONE; } if (m_util.is_ninf(arg1)) { // - -oo -> +oo result = m_util.mk_pinf(m().get_sort(arg1)); return BR_DONE; } if (m_util.is_neg(arg1)) { // - - a --> a result = to_app(arg1)->get_arg(0); return BR_DONE; } scoped_mpf v1(m_fm); if (m_util.is_numeral(arg1, v1)) { m_fm.neg(v1); result = m_util.mk_value(v1); return BR_DONE; } return BR_FAILED; } br_status fpa_rewriter::mk_rem(expr * arg1, expr * arg2, expr_ref & result) { scoped_mpf v1(m_fm), v2(m_fm); if (m_util.is_numeral(arg1, v1) && m_util.is_numeral(arg2, v2)) { scoped_mpf t(m_fm); m_fm.rem(v1, v2, t); result = m_util.mk_value(t); return BR_DONE; } return BR_FAILED; } br_status fpa_rewriter::mk_abs(expr * arg1, expr_ref & result) { if (m_util.is_nan(arg1)) { result = arg1; return BR_DONE; } scoped_mpf v(m_fm); if (m_util.is_numeral(arg1, v)) { if (m_fm.is_neg(v)) m_fm.neg(v); result = m_util.mk_value(v); return BR_DONE; } return BR_FAILED; } br_status fpa_rewriter::mk_min(expr * arg1, expr * arg2, expr_ref & result) { if (m_util.is_nan(arg1)) { result = arg2; return BR_DONE; } else if (m_util.is_nan(arg2)) { result = arg1; return BR_DONE; } scoped_mpf v1(m_fm), v2(m_fm); if (m_util.is_numeral(arg1, v1) && m_util.is_numeral(arg2, v2)) { if (m_fm.is_zero(v1) && m_fm.is_zero(v2) && m_fm.sgn(v1) != m_fm.sgn(v2)) return BR_FAILED; scoped_mpf r(m_fm); m_fm.minimum(v1, v2, r); result = m_util.mk_value(r); return BR_DONE; } return BR_FAILED; } br_status fpa_rewriter::mk_max(expr * arg1, expr * arg2, expr_ref & result) { if (m_util.is_nan(arg1)) { result = arg2; return BR_DONE; } else if (m_util.is_nan(arg2)) { result = arg1; return BR_DONE; } scoped_mpf v1(m_fm), v2(m_fm); if (m_util.is_numeral(arg1, v1) && m_util.is_numeral(arg2, v2)) { if (m_fm.is_zero(v1) && m_fm.is_zero(v2) && m_fm.sgn(v1) != m_fm.sgn(v2)) return BR_FAILED; scoped_mpf r(m_fm); m_fm.maximum(v1, v2, r); result = m_util.mk_value(r); return BR_DONE; } return BR_FAILED; } br_status fpa_rewriter::mk_fma(expr * arg1, expr * arg2, expr * arg3, expr * arg4, expr_ref & result) { mpf_rounding_mode rm; if (m_util.is_rm_numeral(arg1, rm)) { scoped_mpf v2(m_fm), v3(m_fm), v4(m_fm); if (m_util.is_numeral(arg2, v2) && m_util.is_numeral(arg3, v3) && m_util.is_numeral(arg4, v4)) { scoped_mpf t(m_fm); m_fm.fma(rm, v2, v3, v4, t); result = m_util.mk_value(t); return BR_DONE; } } return BR_FAILED; } br_status fpa_rewriter::mk_sqrt(expr * arg1, expr * arg2, expr_ref & result) { mpf_rounding_mode rm; if (m_util.is_rm_numeral(arg1, rm)) { scoped_mpf v2(m_fm); if (m_util.is_numeral(arg2, v2)) { scoped_mpf t(m_fm); m_fm.sqrt(rm, v2, t); result = m_util.mk_value(t); return BR_DONE; } } return BR_FAILED; } br_status fpa_rewriter::mk_round_to_integral(expr * arg1, expr * arg2, expr_ref & result) { mpf_rounding_mode rm; if (m_util.is_rm_numeral(arg1, rm)) { scoped_mpf v2(m_fm); if (m_util.is_numeral(arg2, v2)) { scoped_mpf t(m_fm); m_fm.round_to_integral(rm, v2, t); result = m_util.mk_value(t); return BR_DONE; } } return BR_FAILED; } // This the floating point theory == br_status fpa_rewriter::mk_float_eq(expr * arg1, expr * arg2, expr_ref & result) { scoped_mpf v1(m_fm), v2(m_fm); if (m_util.is_numeral(arg1, v1) && m_util.is_numeral(arg2, v2)) { result = (m_fm.eq(v1, v2)) ? m().mk_true() : m().mk_false(); return BR_DONE; } return BR_FAILED; } // Return (= arg NaN) app * fpa_rewriter::mk_eq_nan(expr * arg) { return m().mk_eq(arg, m_util.mk_nan(m().get_sort(arg))); } // Return (not (= arg NaN)) app * fpa_rewriter::mk_neq_nan(expr * arg) { return m().mk_not(mk_eq_nan(arg)); } br_status fpa_rewriter::mk_lt(expr * arg1, expr * arg2, expr_ref & result) { if (m_util.is_nan(arg1) || m_util.is_nan(arg2)) { result = m().mk_false(); return BR_DONE; } if (m_util.is_ninf(arg1)) { // -oo < arg2 --> not(arg2 = -oo) and not(arg2 = NaN) result = m().mk_and(m().mk_not(m().mk_eq(arg2, arg1)), mk_neq_nan(arg2)); return BR_REWRITE3; } if (m_util.is_ninf(arg2)) { // arg1 < -oo --> false result = m().mk_false(); return BR_DONE; } if (m_util.is_pinf(arg1)) { // +oo < arg2 --> false result = m().mk_false(); return BR_DONE; } if (m_util.is_pinf(arg2)) { // arg1 < +oo --> not(arg1 = +oo) and not(arg1 = NaN) result = m().mk_and(m().mk_not(m().mk_eq(arg1, arg2)), mk_neq_nan(arg1)); return BR_REWRITE3; } scoped_mpf v1(m_fm), v2(m_fm); if (m_util.is_numeral(arg1, v1) && m_util.is_numeral(arg2, v2)) { result = (m_fm.lt(v1, v2)) ? m().mk_true() : m().mk_false(); return BR_DONE; } return BR_FAILED; } br_status fpa_rewriter::mk_gt(expr * arg1, expr * arg2, expr_ref & result) { result = m_util.mk_lt(arg2, arg1); return BR_REWRITE1; } br_status fpa_rewriter::mk_le(expr * arg1, expr * arg2, expr_ref & result) { if (m_util.is_nan(arg1) || m_util.is_nan(arg2)) { result = m().mk_false(); return BR_DONE; } scoped_mpf v1(m_fm), v2(m_fm); if (m_util.is_numeral(arg1, v1) && m_util.is_numeral(arg2, v2)) { result = (m_fm.le(v1, v2)) ? m().mk_true() : m().mk_false(); return BR_DONE; } return BR_FAILED; } br_status fpa_rewriter::mk_ge(expr * arg1, expr * arg2, expr_ref & result) { result = m_util.mk_le(arg2, arg1); return BR_REWRITE1; } br_status fpa_rewriter::mk_is_zero(expr * arg1, expr_ref & result) { scoped_mpf v(m_fm); if (m_util.is_numeral(arg1, v)) { result = (m_fm.is_zero(v)) ? m().mk_true() : m().mk_false(); return BR_DONE; } return BR_FAILED; } br_status fpa_rewriter::mk_is_nzero(expr * arg1, expr_ref & result) { scoped_mpf v(m_fm); if (m_util.is_numeral(arg1, v)) { result = (m_fm.is_nzero(v)) ? m().mk_true() : m().mk_false(); return BR_DONE; } return BR_FAILED; } br_status fpa_rewriter::mk_is_pzero(expr * arg1, expr_ref & result) { scoped_mpf v(m_fm); if (m_util.is_numeral(arg1, v)) { result = (m_fm.is_pzero(v)) ? m().mk_true() : m().mk_false(); return BR_DONE; } return BR_FAILED; } br_status fpa_rewriter::mk_is_nan(expr * arg1, expr_ref & result) { scoped_mpf v(m_fm); if (m_util.is_numeral(arg1, v)) { result = (m_fm.is_nan(v)) ? m().mk_true() : m().mk_false(); return BR_DONE; } return BR_FAILED; } br_status fpa_rewriter::mk_is_inf(expr * arg1, expr_ref & result) { scoped_mpf v(m_fm); if (m_util.is_numeral(arg1, v)) { result = (m_fm.is_inf(v)) ? m().mk_true() : m().mk_false(); return BR_DONE; } return BR_FAILED; } br_status fpa_rewriter::mk_is_normal(expr * arg1, expr_ref & result) { scoped_mpf v(m_fm); if (m_util.is_numeral(arg1, v)) { result = (m_fm.is_normal(v)) ? m().mk_true() : m().mk_false(); return BR_DONE; } return BR_FAILED; } br_status fpa_rewriter::mk_is_subnormal(expr * arg1, expr_ref & result) { scoped_mpf v(m_fm); if (m_util.is_numeral(arg1, v)) { result = (m_fm.is_denormal(v)) ? m().mk_true() : m().mk_false(); return BR_DONE; } return BR_FAILED; } br_status fpa_rewriter::mk_is_negative(expr * arg1, expr_ref & result) { scoped_mpf v(m_fm); if (m_util.is_numeral(arg1, v)) { result = (m_fm.is_neg(v)) ? m().mk_true() : m().mk_false(); return BR_DONE; } return BR_FAILED; } br_status fpa_rewriter::mk_is_positive(expr * arg1, expr_ref & result) { scoped_mpf v(m_fm); if (m_util.is_numeral(arg1, v)) { result = (m_fm.is_neg(v) || m_fm.is_nan(v)) ? m().mk_false() : m().mk_true(); return BR_DONE; } return BR_FAILED; } // This the SMT = br_status fpa_rewriter::mk_eq_core(expr * arg1, expr * arg2, expr_ref & result) { scoped_mpf v1(m_fm), v2(m_fm); if (m_util.is_numeral(arg1, v1) && m_util.is_numeral(arg2, v2)) { // Note: == is the floats-equality, here we need normal equality. result = (m_fm.is_nan(v1) && m_fm.is_nan(v2)) ? m().mk_true() : (m_fm.is_zero(v1) && m_fm.is_zero(v2) && m_fm.sgn(v1)!=m_fm.sgn(v2)) ? m().mk_false() : (v1 == v2) ? m().mk_true() : m().mk_false(); return BR_DONE; } return BR_FAILED; } br_status fpa_rewriter::mk_bv2rm(expr * arg, expr_ref & result) { rational bv_val; unsigned sz = 0; if (m_util.bu().is_numeral(arg, bv_val, sz)) { SASSERT(bv_val.is_uint64()); switch (bv_val.get_uint64()) { case BV_RM_TIES_TO_AWAY: result = m_util.mk_round_nearest_ties_to_away(); break; case BV_RM_TIES_TO_EVEN: result = m_util.mk_round_nearest_ties_to_even(); break; case BV_RM_TO_NEGATIVE: result = m_util.mk_round_toward_negative(); break; case BV_RM_TO_POSITIVE: result = m_util.mk_round_toward_positive(); break; case BV_RM_TO_ZERO: default: result = m_util.mk_round_toward_zero(); } return BR_DONE; } return BR_FAILED; } br_status fpa_rewriter::mk_fp(expr * sgn, expr * exp, expr * sig, expr_ref & result) { unsynch_mpz_manager & mpzm = m_fm.mpz_manager(); rational rsgn, rexp, rsig; unsigned bvsz_sgn, bvsz_exp, bvsz_sig; if (m_util.bu().is_numeral(sgn, rsgn, bvsz_sgn) && m_util.bu().is_numeral(sig, rsig, bvsz_sig) && m_util.bu().is_numeral(exp, rexp, bvsz_exp)) { SASSERT(mpzm.is_one(rexp.to_mpq().denominator())); SASSERT(mpzm.is_one(rsig.to_mpq().denominator())); scoped_mpf v(m_fm); mpf_exp_t biased_exp = mpzm.get_int64(rexp.to_mpq().numerator()); m_fm.set(v, bvsz_exp, bvsz_sig + 1, rsgn.is_one(), m_fm.unbias_exp(bvsz_exp, biased_exp), rsig.to_mpq().numerator()); TRACE("fp_rewriter", tout << "simplified (fp ...) to " << m_fm.to_string(v) << std::endl;); result = m_util.mk_value(v); return BR_DONE; } return BR_FAILED; } br_status fpa_rewriter::mk_to_bv(func_decl * f, expr * arg1, expr * arg2, bool is_signed, expr_ref & result) { SASSERT(f->get_num_parameters() == 1); SASSERT(f->get_parameter(0).is_int()); int bv_sz = f->get_parameter(0).get_int(); mpf_rounding_mode rmv; scoped_mpf v(m_fm); if (m_util.is_rm_numeral(arg1, rmv) && m_util.is_numeral(arg2, v)) { if (m_fm.is_nan(v) || m_fm.is_inf(v)) return mk_to_bv_unspecified(f, result); bv_util bu(m()); scoped_mpq q(m_fm.mpq_manager()); m_fm.to_sbv_mpq(rmv, v, q); rational r(q); rational ul, ll; if (!is_signed) { ul = m_fm.m_powers2.m1(bv_sz); ll = rational(0); } else { ul = m_fm.m_powers2.m1(bv_sz - 1); ll = -m_fm.m_powers2(bv_sz - 1); } if (r >= ll && r <= ul) { result = bu.mk_numeral(r, bv_sz); return BR_DONE; } else return mk_to_bv_unspecified(f, result); } return BR_FAILED; } br_status fpa_rewriter::mk_to_bv_unspecified(func_decl * f, expr_ref & result) { if (m_hi_fp_unspecified) { unsigned bv_sz = m_util.bu().get_bv_size(f->get_range()); result = m_util.bu().mk_numeral(0, bv_sz); return BR_DONE; } else return BR_FAILED; } br_status fpa_rewriter::mk_to_ubv(func_decl * f, expr * arg1, expr * arg2, expr_ref & result) { return mk_to_bv(f, arg1, arg2, false, result); } br_status fpa_rewriter::mk_to_sbv(func_decl * f, expr * arg1, expr * arg2, expr_ref & result) { return mk_to_bv(f, arg1, arg2, true, result); } br_status fpa_rewriter::mk_to_ieee_bv(func_decl * f, expr * arg, expr_ref & result) { TRACE("fp_rewriter", tout << "to_ieee_bv of " << mk_ismt2_pp(arg, m()) << std::endl;); scoped_mpf v(m_fm); if (m_util.is_numeral(arg, v)) { TRACE("fp_rewriter", tout << "to_ieee_bv numeral: " << m_fm.to_string(v) << std::endl;); bv_util bu(m()); const mpf & x = v.get(); if (m_fm.is_nan(v)) { if (m_hi_fp_unspecified) { expr * args[4] = { bu.mk_numeral(0, 1), bu.mk_bv_neg(bu.mk_numeral(1, x.get_ebits())), bu.mk_numeral(0, x.get_sbits() - 2), bu.mk_numeral(1, 1) }; result = bu.mk_concat(4, args); return BR_REWRITE1; } } else { scoped_mpz rz(m_fm.mpq_manager()); m_fm.to_ieee_bv_mpz(v, rz); result = bu.mk_numeral(rational(rz), x.get_ebits() + x.get_sbits()); return BR_DONE; } } return BR_FAILED; } br_status fpa_rewriter::mk_to_real(expr * arg, expr_ref & result) { scoped_mpf v(m_fm); if (m_util.is_numeral(arg, v)) { if (m_fm.is_nan(v) || m_fm.is_inf(v)) { if (m_hi_fp_unspecified) { result = m_util.au().mk_numeral(rational(0), false); return BR_DONE; } } else { scoped_mpq r(m_fm.mpq_manager()); m_fm.to_rational(v, r); result = m_util.au().mk_numeral(r.get(), false); return BR_DONE; } } return BR_FAILED; } br_status fpa_rewriter::mk_bvwrap(expr * arg, expr_ref & result) { if (is_app_of(arg, m_util.get_family_id(), OP_FPA_FP)) { bv_util bu(m()); SASSERT(to_app(arg)->get_num_args() == 3); sort_ref fpsrt(m()); fpsrt = to_app(arg)->get_decl()->get_range(); expr_ref a0(m()), a1(m()), a2(m()); a0 = to_app(arg)->get_arg(0); a1 = to_app(arg)->get_arg(1); a2 = to_app(arg)->get_arg(2); if (bu.is_extract(a0) && bu.is_extract(a1) && bu.is_extract(a2)) { unsigned w0 = bu.get_extract_high(a0) - bu.get_extract_low(a0) + 1; unsigned w1 = bu.get_extract_high(a1) - bu.get_extract_low(a1) + 1; unsigned w2 = bu.get_extract_high(a2) - bu.get_extract_low(a2) + 1; unsigned cw = w0 + w1 + w2; if (cw == m_util.get_ebits(fpsrt) + m_util.get_sbits(fpsrt)) { expr_ref aa0(m()), aa1(m()), aa2(m()); aa0 = to_app(a0)->get_arg(0); aa1 = to_app(a1)->get_arg(0); aa2 = to_app(a2)->get_arg(0); if (aa0 == aa1 && aa1 == aa2 && bu.get_bv_size(aa0) == cw) { result = aa0; return BR_DONE; } } } } return BR_FAILED; }