22ea9ec0e8
* alias.c (component_uses_parent_alias_set): Constify. * alias.h (component_uses_parent_alias_set): Likewise. * cfgrtl.c (print_rtl_with_bb): Likewise. * double-int.c (tree_to_double_int, double_int_fits_to_tree_p, mpz_get_double_int): Likewise. * double-int.h (double_int_fits_to_tree_p, tree_to_double_int, mpz_get_double_int): Likewise. * expr.c (is_aligning_offset, undefined_operand_subword_p, mostly_zeros_p, all_zeros_p, safe_from_p, is_aligning_offset): Likewise. * expr.h (safe_from_p): Likewise. * gimple-low.c (try_catch_may_fallthru, block_may_fallthru): Likewise. * gimplify.c (should_carry_locus_p, zero_sized_field_decl, zero_sized_type, goa_lhs_expr_p): Likewise. * omp-low.c (is_variable_sized, use_pointer_for_field): Likewise. * rtl.h (print_rtl_with_bb): Likewise. * sched-vis.c (print_exp, print_value, print_pattern): Likewise. * tree-cfg.c (const_first_stmt, const_last_stmt): New. * tree-flow-inline.h (bb_stmt_list): Constify. (cbsi_start, cbsi_last, cbsi_end_p, cbsi_next, cbsi_prev, cbsi_stmt): New. * tree-flow.h (const_block_stmt_iterator, cbsi_start, cbsi_last, const_first_stmt, const_last_stmt): New. (block_may_fallthru, empty_block_p): Constify. * tree-iterator.c (EXPR_FIRST_BODY, EXPR_LAST_BODY, EXPR_ONLY_BODY): New. (expr_first, expr_last, expr_only): Use macro for body. (const_expr_first, const_expr_last, const_expr_only): New. * tree-iterator.h (const_tree_stmt_iterator, ctsi_start, ctsi_last, ctsi_end_p, ctsi_one_before_end_p, ctsi_next, ctsi_prev, ctsi_stmt): New. * tree-scalar-evolution.c (get_loop_exit_condition): Constify. * tree-scalar-evolution.h (get_loop_exit_condition): Likewise. * tree-ssa-loop-niter.c (loop_only_exit_p, derive_constant_upper_bound): Likewise. * tree-ssa-phiopt.c (empty_block_p): Likewise. * tree-ssa-threadupdate.c (redirection_block_p): Likewise. * tree-vectorizer.c (slpeel_can_duplicate_loop_p): Likewise. * tree-vectorizer.h (slpeel_can_duplicate_loop_p): Likewise. * tree-vrp.c (vrp_bitmap_equal_p): Likewise. * tree.c (get_type_static_bounds): Likewise. * tree.h (const_expr_first, const_expr_last, const_expr_only): New. (get_type_static_bounds): Constify. From-SVN: r127483
493 lines
11 KiB
C
493 lines
11 KiB
C
/* Operations with long integers.
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Copyright (C) 2006, 2007 Free Software Foundation, Inc.
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This file is part of GCC.
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GCC is free software; you can redistribute it and/or modify it
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under the terms of the GNU General Public License as published by the
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Free Software Foundation; either version 3, or (at your option) any
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later version.
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GCC is distributed in the hope that it will be useful, but WITHOUT
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ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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for more details.
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You should have received a copy of the GNU General Public License
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along with GCC; see the file COPYING3. If not see
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<http://www.gnu.org/licenses/>. */
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#include "config.h"
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#include "system.h"
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#include "coretypes.h"
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#include "tm.h"
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#include "tree.h"
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/* Returns mask for PREC bits. */
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double_int
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double_int_mask (unsigned prec)
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{
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unsigned HOST_WIDE_INT m;
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double_int mask;
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if (prec > HOST_BITS_PER_WIDE_INT)
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{
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prec -= HOST_BITS_PER_WIDE_INT;
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m = ((unsigned HOST_WIDE_INT) 2 << (prec - 1)) - 1;
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mask.high = (HOST_WIDE_INT) m;
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mask.low = ALL_ONES;
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}
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else
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{
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mask.high = 0;
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mask.low = ((unsigned HOST_WIDE_INT) 2 << (prec - 1)) - 1;
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}
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return mask;
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}
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/* Clears the bits of CST over the precision PREC. If UNS is false, the bits
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outside of the precision are set to the sign bit (i.e., the PREC-th one),
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otherwise they are set to zero.
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This corresponds to returning the value represented by PREC lowermost bits
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of CST, with the given signedness. */
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double_int
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double_int_ext (double_int cst, unsigned prec, bool uns)
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{
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if (uns)
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return double_int_zext (cst, prec);
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else
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return double_int_sext (cst, prec);
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}
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/* The same as double_int_ext with UNS = true. */
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double_int
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double_int_zext (double_int cst, unsigned prec)
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{
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double_int mask = double_int_mask (prec);
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double_int r;
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r.low = cst.low & mask.low;
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r.high = cst.high & mask.high;
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return r;
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}
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/* The same as double_int_ext with UNS = false. */
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double_int
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double_int_sext (double_int cst, unsigned prec)
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{
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double_int mask = double_int_mask (prec);
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double_int r;
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unsigned HOST_WIDE_INT snum;
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if (prec <= HOST_BITS_PER_WIDE_INT)
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snum = cst.low;
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else
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{
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prec -= HOST_BITS_PER_WIDE_INT;
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snum = (unsigned HOST_WIDE_INT) cst.high;
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}
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if (((snum >> (prec - 1)) & 1) == 1)
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{
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r.low = cst.low | ~mask.low;
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r.high = cst.high | ~mask.high;
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}
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else
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{
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r.low = cst.low & mask.low;
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r.high = cst.high & mask.high;
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}
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return r;
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}
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/* Constructs long integer from tree CST. The extra bits over the precision of
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the number are filled with sign bit if CST is signed, and with zeros if it
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is unsigned. */
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double_int
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tree_to_double_int (const_tree cst)
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{
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/* We do not need to call double_int_restrict here to ensure the semantics as
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described, as this is the default one for trees. */
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return TREE_INT_CST (cst);
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}
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/* Returns true if CST fits in unsigned HOST_WIDE_INT. */
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bool
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double_int_fits_in_uhwi_p (double_int cst)
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{
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return cst.high == 0;
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}
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/* Returns true if CST fits in signed HOST_WIDE_INT. */
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bool
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double_int_fits_in_shwi_p (double_int cst)
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{
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if (cst.high == 0)
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return (HOST_WIDE_INT) cst.low >= 0;
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else if (cst.high == -1)
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return (HOST_WIDE_INT) cst.low < 0;
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else
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return false;
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}
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/* Returns true if CST fits in HOST_WIDE_INT if UNS is false, or in
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unsigned HOST_WIDE_INT if UNS is true. */
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bool
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double_int_fits_in_hwi_p (double_int cst, bool uns)
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{
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if (uns)
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return double_int_fits_in_uhwi_p (cst);
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else
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return double_int_fits_in_shwi_p (cst);
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}
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/* Returns value of CST as a signed number. CST must satisfy
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double_int_fits_in_shwi_p. */
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HOST_WIDE_INT
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double_int_to_shwi (double_int cst)
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{
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return (HOST_WIDE_INT) cst.low;
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}
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/* Returns value of CST as an unsigned number. CST must satisfy
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double_int_fits_in_uhwi_p. */
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unsigned HOST_WIDE_INT
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double_int_to_uhwi (double_int cst)
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{
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return cst.low;
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}
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/* Returns A * B. */
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double_int
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double_int_mul (double_int a, double_int b)
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{
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double_int ret;
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mul_double (a.low, a.high, b.low, b.high, &ret.low, &ret.high);
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return ret;
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}
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/* Returns A + B. */
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double_int
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double_int_add (double_int a, double_int b)
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{
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double_int ret;
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add_double (a.low, a.high, b.low, b.high, &ret.low, &ret.high);
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return ret;
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}
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/* Returns -A. */
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double_int
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double_int_neg (double_int a)
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{
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double_int ret;
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neg_double (a.low, a.high, &ret.low, &ret.high);
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return ret;
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}
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/* Returns A / B (computed as unsigned depending on UNS, and rounded as
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specified by CODE). CODE is enum tree_code in fact, but double_int.h
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must be included before tree.h. The remainder after the division is
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stored to MOD. */
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double_int
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double_int_divmod (double_int a, double_int b, bool uns, unsigned code,
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double_int *mod)
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{
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double_int ret;
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div_and_round_double (code, uns, a.low, a.high, b.low, b.high,
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&ret.low, &ret.high, &mod->low, &mod->high);
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return ret;
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}
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/* The same as double_int_divmod with UNS = false. */
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double_int
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double_int_sdivmod (double_int a, double_int b, unsigned code, double_int *mod)
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{
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return double_int_divmod (a, b, false, code, mod);
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}
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/* The same as double_int_divmod with UNS = true. */
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double_int
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double_int_udivmod (double_int a, double_int b, unsigned code, double_int *mod)
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{
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return double_int_divmod (a, b, true, code, mod);
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}
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/* Returns A / B (computed as unsigned depending on UNS, and rounded as
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specified by CODE). CODE is enum tree_code in fact, but double_int.h
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must be included before tree.h. */
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double_int
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double_int_div (double_int a, double_int b, bool uns, unsigned code)
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{
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double_int mod;
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return double_int_divmod (a, b, uns, code, &mod);
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}
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/* The same as double_int_div with UNS = false. */
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double_int
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double_int_sdiv (double_int a, double_int b, unsigned code)
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{
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return double_int_div (a, b, false, code);
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}
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/* The same as double_int_div with UNS = true. */
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double_int
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double_int_udiv (double_int a, double_int b, unsigned code)
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{
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return double_int_div (a, b, true, code);
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}
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/* Returns A % B (computed as unsigned depending on UNS, and rounded as
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specified by CODE). CODE is enum tree_code in fact, but double_int.h
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must be included before tree.h. */
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double_int
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double_int_mod (double_int a, double_int b, bool uns, unsigned code)
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{
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double_int mod;
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double_int_divmod (a, b, uns, code, &mod);
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return mod;
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}
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/* The same as double_int_mod with UNS = false. */
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double_int
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double_int_smod (double_int a, double_int b, unsigned code)
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{
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return double_int_mod (a, b, false, code);
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}
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/* The same as double_int_mod with UNS = true. */
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double_int
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double_int_umod (double_int a, double_int b, unsigned code)
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{
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return double_int_mod (a, b, true, code);
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}
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/* Constructs tree in type TYPE from with value given by CST. Signedness of CST
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is assumed to be the same as the signedness of TYPE. */
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tree
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double_int_to_tree (tree type, double_int cst)
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{
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cst = double_int_ext (cst, TYPE_PRECISION (type), TYPE_UNSIGNED (type));
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return build_int_cst_wide (type, cst.low, cst.high);
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}
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/* Returns true if CST fits into range of TYPE. Signedness of CST is assumed
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to be the same as the signedness of TYPE. */
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bool
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double_int_fits_to_tree_p (const_tree type, double_int cst)
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{
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double_int ext = double_int_ext (cst,
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TYPE_PRECISION (type),
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TYPE_UNSIGNED (type));
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return double_int_equal_p (cst, ext);
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}
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/* Returns true if CST is negative. Of course, CST is considered to
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be signed. */
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bool
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double_int_negative_p (double_int cst)
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{
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return cst.high < 0;
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}
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/* Returns -1 if A < B, 0 if A == B and 1 if A > B. Signedness of the
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comparison is given by UNS. */
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int
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double_int_cmp (double_int a, double_int b, bool uns)
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{
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if (uns)
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return double_int_ucmp (a, b);
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else
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return double_int_scmp (a, b);
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}
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/* Compares two unsigned values A and B. Returns -1 if A < B, 0 if A == B,
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and 1 if A > B. */
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int
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double_int_ucmp (double_int a, double_int b)
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{
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if ((unsigned HOST_WIDE_INT) a.high < (unsigned HOST_WIDE_INT) b.high)
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return -1;
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if ((unsigned HOST_WIDE_INT) a.high > (unsigned HOST_WIDE_INT) b.high)
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return 1;
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if (a.low < b.low)
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return -1;
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if (a.low > b.low)
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return 1;
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return 0;
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}
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/* Compares two signed values A and B. Returns -1 if A < B, 0 if A == B,
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and 1 if A > B. */
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int
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double_int_scmp (double_int a, double_int b)
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{
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if (a.high < b.high)
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return -1;
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if (a.high > b.high)
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return 1;
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if (a.low < b.low)
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return -1;
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if (a.low > b.low)
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return 1;
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return 0;
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}
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/* Splits last digit of *CST (taken as unsigned) in BASE and returns it. */
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static unsigned
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double_int_split_digit (double_int *cst, unsigned base)
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{
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unsigned HOST_WIDE_INT resl, reml;
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HOST_WIDE_INT resh, remh;
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div_and_round_double (FLOOR_DIV_EXPR, true, cst->low, cst->high, base, 0,
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&resl, &resh, &reml, &remh);
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cst->high = resh;
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cst->low = resl;
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return reml;
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}
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/* Dumps CST to FILE. If UNS is true, CST is considered to be unsigned,
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otherwise it is signed. */
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void
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dump_double_int (FILE *file, double_int cst, bool uns)
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{
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unsigned digits[100], n;
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int i;
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if (double_int_zero_p (cst))
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{
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fprintf (file, "0");
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return;
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}
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if (!uns && double_int_negative_p (cst))
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{
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fprintf (file, "-");
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cst = double_int_neg (cst);
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}
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for (n = 0; !double_int_zero_p (cst); n++)
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digits[n] = double_int_split_digit (&cst, 10);
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for (i = n - 1; i >= 0; i--)
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fprintf (file, "%u", digits[i]);
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}
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/* Sets RESULT to VAL, taken unsigned if UNS is true and as signed
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otherwise. */
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void
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mpz_set_double_int (mpz_t result, double_int val, bool uns)
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{
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bool negate = false;
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unsigned HOST_WIDE_INT vp[2];
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if (!uns && double_int_negative_p (val))
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{
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negate = true;
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val = double_int_neg (val);
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}
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vp[0] = val.low;
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vp[1] = (unsigned HOST_WIDE_INT) val.high;
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mpz_import (result, 2, -1, sizeof (HOST_WIDE_INT), 0, 0, vp);
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if (negate)
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mpz_neg (result, result);
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}
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/* Returns VAL converted to TYPE. If WRAP is true, then out-of-range
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values of VAL will be wrapped; otherwise, they will be set to the
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appropriate minimum or maximum TYPE bound. */
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double_int
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mpz_get_double_int (const_tree type, mpz_t val, bool wrap)
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{
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unsigned HOST_WIDE_INT *vp;
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size_t count, numb;
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double_int res;
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if (!wrap)
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{
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mpz_t min, max;
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mpz_init (min);
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mpz_init (max);
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get_type_static_bounds (type, min, max);
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if (mpz_cmp (val, min) < 0)
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mpz_set (val, min);
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else if (mpz_cmp (val, max) > 0)
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mpz_set (val, max);
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mpz_clear (min);
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mpz_clear (max);
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}
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/* Determine the number of unsigned HOST_WIDE_INT that are required
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for representing the value. The code to calculate count is
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extracted from the GMP manual, section "Integer Import and Export":
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http://gmplib.org/manual/Integer-Import-and-Export.html */
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numb = 8*sizeof(HOST_WIDE_INT);
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count = (mpz_sizeinbase (val, 2) + numb-1) / numb;
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if (count < 2)
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count = 2;
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vp = (unsigned HOST_WIDE_INT *) alloca (count * sizeof(HOST_WIDE_INT));
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vp[0] = 0;
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vp[1] = 0;
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mpz_export (vp, &count, -1, sizeof (HOST_WIDE_INT), 0, 0, val);
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gcc_assert (wrap || count <= 2);
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res.low = vp[0];
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res.high = (HOST_WIDE_INT) vp[1];
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res = double_int_ext (res, TYPE_PRECISION (type), TYPE_UNSIGNED (type));
|
|
if (mpz_sgn (val) < 0)
|
|
res = double_int_neg (res);
|
|
|
|
return res;
|
|
}
|