/* Support routines for range operations on wide ints. Copyright (C) 2018-2019 Free Software Foundation, Inc. This file is part of GCC. GCC is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. GCC is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GCC; see the file COPYING3. If not see . */ #ifndef GCC_WIDE_INT_RANGE_H #define GCC_WIDE_INT_RANGE_H extern bool wide_int_range_cross_product (wide_int &res_lb, wide_int &res_ub, enum tree_code code, signop sign, const wide_int &, const wide_int &, const wide_int &, const wide_int &, bool overflow_undefined); extern bool wide_int_range_mult_wrapping (wide_int &res_lb, wide_int &res_ub, signop sign, unsigned prec, const wide_int &min0_, const wide_int &max0_, const wide_int &min1_, const wide_int &max1_); extern bool wide_int_range_multiplicative_op (wide_int &res_lb, wide_int &res_ub, enum tree_code code, signop sign, unsigned prec, const wide_int &vr0_lb, const wide_int &vr0_ub, const wide_int &vr1_lb, const wide_int &vr1_ub, bool overflow_undefined); extern bool wide_int_range_lshift (wide_int &res_lb, wide_int &res_ub, signop sign, unsigned prec, const wide_int &, const wide_int &, const wide_int &, const wide_int &, bool overflow_undefined); extern void wide_int_range_set_zero_nonzero_bits (signop, const wide_int &lb, const wide_int &ub, wide_int &may_be_nonzero, wide_int &must_be_nonzero); extern bool wide_int_range_optimize_bit_op (wide_int &res_lb, wide_int &res_ub, enum tree_code code, signop sign, const wide_int &vr0_lb, const wide_int &vr0_ub, const wide_int &vr1_lb, const wide_int &vr1_ub); extern bool wide_int_range_get_mask_and_bounds (wide_int &mask, wide_int &lower_bound, wide_int &upper_bound, const wide_int &vr0_min, const wide_int &vr0_max, const wide_int &vr1_min, const wide_int &vr1_max); extern bool wide_int_range_bit_xor (wide_int &wmin, wide_int &wmax, signop sign, unsigned prec, const wide_int &must_be_nonzero0, const wide_int &may_be_nonzero0, const wide_int &must_be_nonzero1, const wide_int &may_be_nonzero1); extern bool wide_int_range_bit_ior (wide_int &wmin, wide_int &wmax, signop sign, const wide_int &vr0_min, const wide_int &vr0_max, const wide_int &vr1_min, const wide_int &vr1_max, const wide_int &must_be_nonzero0, const wide_int &may_be_nonzero0, const wide_int &must_be_nonzero1, const wide_int &may_be_nonzero1); extern bool wide_int_range_bit_and (wide_int &wmin, wide_int &wmax, signop sign, unsigned prec, const wide_int &vr0_min, const wide_int &vr0_max, const wide_int &vr1_min, const wide_int &vr1_max, const wide_int &must_be_nonzero0, const wide_int &may_be_nonzero0, const wide_int &must_be_nonzero1, const wide_int &may_be_nonzero1); extern void wide_int_range_trunc_mod (wide_int &wmin, wide_int &wmax, signop sign, unsigned prec, const wide_int &vr0_min, const wide_int &vr0_max, const wide_int &vr1_min, const wide_int &vr1_max); extern bool wide_int_range_abs (wide_int &min, wide_int &max, signop sign, unsigned prec, const wide_int &vr0_min, const wide_int &vr0_max, bool overflow_undefined); extern void wide_int_range_absu (wide_int &min, wide_int &max, unsigned prec, const wide_int &vr0_min, const wide_int &vr0_max); extern bool wide_int_range_convert (wide_int &min, wide_int &max, signop inner_sign, unsigned inner_prec, signop outer_sign, unsigned outer_prec, const wide_int &vr0_min, const wide_int &vr0_max); extern bool wide_int_range_div (wide_int &wmin, wide_int &wmax, enum tree_code code, signop sign, unsigned prec, const wide_int ÷nd_min, const wide_int ÷nd_max, const wide_int &divisor_min, const wide_int &divisor_max, bool overflow_undefined, bool &extra_range_p, wide_int &extra_min, wide_int &extra_max); /* Return TRUE if shifting by range [MIN, MAX] is undefined behavior, interpreting MIN and MAX according to SIGN. */ inline bool wide_int_range_shift_undefined_p (signop sign, unsigned prec, const wide_int &min, const wide_int &max) { /* ?? Note: The original comment said this only applied to RSHIFT_EXPR, but it was being applied to both left and right shifts. */ /* Shifting by any values outside [0..prec-1], gets undefined behavior from the shift operation. We cannot even trust SHIFT_COUNT_TRUNCATED at this stage, because that applies to rtl shifts, and the operation at the tree level may be widened. */ return wi::lt_p (min, 0, sign) || wi::ge_p (max, prec, sign); } /* Calculate MIN/MAX_EXPR of two ranges and store the result in [MIN, MAX]. */ inline bool wide_int_range_min_max (wide_int &min, wide_int &max, tree_code code, signop sign, unsigned prec, const wide_int &vr0_min, const wide_int &vr0_max, const wide_int &vr1_min, const wide_int &vr1_max) { wi::overflow_type overflow; wide_int_binop (min, code, vr0_min, vr1_min, sign, &overflow); wide_int_binop (max, code, vr0_max, vr1_max, sign, &overflow); /* If the new range covers the entire domain, that's really no range at all. */ if (min == wi::min_value (prec, sign) && max == wi::max_value (prec, sign)) return false; return true; } /* Return TRUE if 0 is within [WMIN, WMAX]. */ inline bool wide_int_range_includes_zero_p (const wide_int &wmin, const wide_int &wmax, signop sign) { return wi::le_p (wmin, 0, sign) && wi::ge_p (wmax, 0, sign); } /* Return TRUE if [WMIN, WMAX] is the singleton 0. */ inline bool wide_int_range_zero_p (const wide_int &wmin, const wide_int &wmax, unsigned prec) { return wmin == wmax && wi::eq_p (wmin, wi::zero (prec)); } #endif /* GCC_WIDE_INT_RANGE_H */