br_status float_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()); switch (f->get_decl_kind()) { case OP_TO_FLOAT: st = mk_to_fp(f, num_args, args, result); break; case OP_FLOAT_ADD: SASSERT(num_args == 3); st = mk_add(args[0], args[1], args[2], result); break; case OP_FLOAT_SUB: SASSERT(num_args == 3); st = mk_sub(args[0], args[1], args[2], result); break; case OP_FLOAT_NEG: SASSERT(num_args == 1); st = mk_neg(args[0], result); break; case OP_FLOAT_MUL: SASSERT(num_args == 3); st = mk_mul(args[0], args[1], args[2], result); break; case OP_FLOAT_DIV: SASSERT(num_args == 3); st = mk_div(args[0], args[1], args[2], result); break; case OP_FLOAT_REM: SASSERT(num_args == 2); st = mk_rem(args[0], args[1], result); break; case OP_FLOAT_ABS: SASSERT(num_args == 1); st = mk_abs(args[0], result); break; case OP_FLOAT_MIN: SASSERT(num_args == 2); st = mk_min(args[0], args[1], result); break; case OP_FLOAT_MAX: SASSERT(num_args == 2); st = mk_max(args[0], args[1], result); break; case OP_FLOAT_FMA: SASSERT(num_args == 4); st = mk_fma(args[0], args[1], args[2], args[3], result); break; case OP_FLOAT_SQRT: SASSERT(num_args == 2); st = mk_sqrt(args[0], args[1], result); break; case OP_FLOAT_ROUND_TO_INTEGRAL: SASSERT(num_args == 2); st = mk_round(args[0], args[1], result); break; case OP_FLOAT_EQ: SASSERT(num_args == 2); st = mk_float_eq(args[0], args[1], result); break; case OP_FLOAT_LT: SASSERT(num_args == 2); st = mk_lt(args[0], args[1], result); break; case OP_FLOAT_GT: SASSERT(num_args == 2); st = mk_gt(args[0], args[1], result); break; case OP_FLOAT_LE: SASSERT(num_args == 2); st = mk_le(args[0], args[1], result); break; case OP_FLOAT_GE: SASSERT(num_args == 2); st = mk_ge(args[0], args[1], result); break; case OP_FLOAT_IS_ZERO: SASSERT(num_args == 1); st = mk_is_zero(args[0], result); break; case OP_FLOAT_IS_NZERO: SASSERT(num_args == 1); st = mk_is_nzero(args[0], result); break; case OP_FLOAT_IS_PZERO: SASSERT(num_args == 1); st = mk_is_pzero(args[0], result); break; case OP_FLOAT_IS_NAN: SASSERT(num_args == 1); st = mk_is_nan(args[0], result); break; case OP_FLOAT_IS_INF: SASSERT(num_args == 1); st = mk_is_inf(args[0], result); break; case OP_FLOAT_IS_NORMAL: SASSERT(num_args == 1); st = mk_is_normal(args[0], result); break; case OP_FLOAT_IS_SUBNORMAL: SASSERT(num_args == 1); st = mk_is_subnormal(args[0], result); break; case OP_FLOAT_IS_NEGATIVE: SASSERT(num_args == 1); st = mk_is_negative(args[0], result); break; case OP_FLOAT_IS_POSITIVE: SASSERT(num_args == 1); st = mk_is_positive(args[0], result); break; case OP_FLOAT_TO_IEEE_BV: SASSERT(num_args == 1); st = mk_to_ieee_bv(args[0], result); break; case OP_FLOAT_FP: SASSERT(num_args == 3); st = mk_fp(args[0], args[1], args[2], result); break; case OP_FLOAT_TO_UBV: SASSERT(num_args == 2); st = mk_to_ubv(args[0], args[1], result); break; case OP_FLOAT_TO_SBV: SASSERT(num_args == 2); st = mk_to_sbv(args[0], args[1], result); break; case OP_FLOAT_TO_REAL: SASSERT(num_args == 1); st = mk_to_real(args[0], result); break; } return st; }
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 *)0); 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 *)0); st = BR_DONE; break; case OP_FPA_NUM: SASSERT(num_args == 0); result = m().mk_app(f, (expr * const *)0); 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_INTERNAL_MIN_I: case OP_FPA_INTERNAL_MAX_I: case OP_FPA_INTERNAL_MIN_UNSPECIFIED: case OP_FPA_INTERNAL_MAX_UNSPECIFIED: SASSERT(num_args == 2); st = BR_FAILED; break; case OP_FPA_INTERNAL_RM: SASSERT(num_args == 1); st = mk_rm(args[0], result); break; case OP_FPA_INTERNAL_TO_UBV_UNSPECIFIED: SASSERT(num_args == 0); st = mk_to_ubv_unspecified(f, result); break; case OP_FPA_INTERNAL_TO_SBV_UNSPECIFIED: SASSERT(num_args == 0); st = mk_to_sbv_unspecified(f, result); break; case OP_FPA_INTERNAL_TO_REAL_UNSPECIFIED: SASSERT(num_args == 0); st = mk_to_real_unspecified(result); break; case OP_FPA_INTERNAL_BVWRAP: case OP_FPA_INTERNAL_BVUNWRAP: st = BR_FAILED; break; default: NOT_IMPLEMENTED_YET(); } return st; }