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271 lines
8.1 KiB
C
271 lines
8.1 KiB
C
/* Copyright (C) 2013-2016 Free Software Foundation, Inc.
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This file is part of the GNU C Library.
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The GNU C Library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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The GNU C Library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with the GNU C Library; if not, write to the Free
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Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
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02111-1307 USA. */
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/* Specification of strstr. */
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#include <string.h>
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#include <stdbool.h>
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#include "string-endian.h"
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#define RETURN_TYPE char *
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#define AVAILABLE(h, h_l, j, n_l) \
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(!memchr ((h) + (h_l), '\0', (j) + (n_l) - (h_l)) \
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&& ((h_l) = (j) + (n_l)))
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#include "str-two-way.h"
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typeof(two_way_short_needle) two_way_short_needle __attribute__((unused));
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#undef strstr
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#ifndef STRSTR
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#define STRSTR strstr
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#endif
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#ifndef STRSTR2
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#define STRSTR2 strstr2
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#endif
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#ifndef STRCHR
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#define STRCHR strchr
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#endif
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#ifndef STRSTR_SCAN
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#define STRSTR_SCAN strstr_scan
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#endif
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#ifndef TOLOWER
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# define TOLOWER(Ch) (Ch)
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#endif
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#ifdef USE_AS_STRCASESTR
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static uint64_t
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vec_tolower (uint64_t cc)
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{
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/* For Uppercases letters, add 32 to convert to lower case. */
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uint64_t less_than_eq_Z = __insn_v1cmpltui (cc, 'Z' + 1);
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uint64_t less_than_A = __insn_v1cmpltui (cc, 'A');
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uint64_t is_upper = __insn_v1cmpne (less_than_eq_Z, less_than_A);
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return __insn_v1add (cc,__insn_v1shli (is_upper, 5));
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}
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/* There is no strcasechr() defined, but needed for 1 byte case
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of strcasestr(), so create it here. */
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static char *
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strcasechr (const char *s, int c)
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{
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int z, g;
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c = tolower (c);
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/* Get an aligned pointer. */
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const uintptr_t s_int = (uintptr_t) s;
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const uint64_t *p = (const uint64_t *) (s_int & -8);
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/* Create eight copies of the byte for which we are looking. */
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const uint64_t goal = copy_byte(c);
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/* Read the first aligned word, but force bytes before the string to
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match neither zero nor goal (we make sure the high bit of each byte
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is 1, and the low 7 bits are all the opposite of the goal byte). */
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const uint64_t before_mask = MASK (s_int);
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uint64_t v =
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(vec_tolower (*p) | before_mask) ^ (goal & __insn_v1shrui (before_mask, 1));
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uint64_t zero_matches, goal_matches;
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while (1)
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{
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/* Look for a terminating '\0'. */
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zero_matches = __insn_v1cmpeqi (v, 0);
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/* Look for the goal byte. */
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goal_matches = __insn_v1cmpeq (v, goal);
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if (__builtin_expect ((zero_matches | goal_matches) != 0, 0))
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break;
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v = vec_tolower (*++p);
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}
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z = CFZ (zero_matches);
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g = CFZ (goal_matches);
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/* If we found c before '\0' we got a match. Note that if c == '\0'
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then g == z, and we correctly return the address of the '\0'
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rather than NULL. */
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return (g <= z) ? ((char *) p) + (g >> 3) : NULL;
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}
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# define vec_load(p) vec_tolower (*(p))
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# define STRCHR strcasechr
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# define CMP_FUNC __strncasecmp
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#else
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# define vec_load(p) (*(p))
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# define STRCHR strchr
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# define CMP_FUNC memcmp
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#endif
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/* Compare 2-character needle using SIMD. */
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static char *
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STRSTR2 (const char *haystack_start, const char *needle)
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{
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int z, g;
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__insn_prefetch (haystack_start + 64);
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/* Get an aligned pointer. */
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const uintptr_t s_int = (uintptr_t) haystack_start;
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const uint64_t *p = (const uint64_t *) (s_int & -8);
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/* Create eight copies of the first byte for which we are looking. */
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const uint64_t byte1 = copy_byte (TOLOWER (*needle));
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/* Create eight copies of the second byte for which we are looking. */
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const uint64_t byte2 = copy_byte (TOLOWER (*(needle + 1)));
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/* Read the first aligned word, but force bytes before the string to
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match neither zero nor goal (we make sure the high bit of each byte
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is 1, and the low 7 bits are all the opposite of the goal byte). */
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const uint64_t before_mask = MASK (s_int);
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uint64_t v =
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(vec_load (p) | before_mask) ^ (byte1 & __insn_v1shrui (before_mask, 1));
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uint64_t zero_matches, goal_matches;
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while (1)
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{
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/* Look for a terminating '\0'. */
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zero_matches = __insn_v1cmpeqi (v, 0);
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uint64_t byte1_matches = __insn_v1cmpeq (v, byte1);
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if (__builtin_expect (zero_matches != 0, 0))
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{
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/* This is the last vector. Don't worry about matches
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crossing into the next vector. Shift the second byte
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back 1 byte to align it with the first byte, then and to
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check for both matching. Each vector has a 1 in the LSB
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of the byte if there was match. */
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uint64_t byte2_matches = __insn_v1cmpeq (v, byte2);
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goal_matches = byte1_matches & STRSHIFT (byte2_matches, 8);
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break;
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}
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else
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{
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/* This is not the last vector, so load the next vector now.
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And compare byte2 to the 8-bytes starting 1 byte shifted from v,
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which goes 1-byte into the next vector. */
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uint64_t v2 = vec_load (p + 1);
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if (byte1_matches)
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{
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/* 8-bytes starting 1 byte into v. */
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v = __insn_dblalign (v, v2, (void*)1);
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uint64_t byte2_matches_shifted = __insn_v1cmpeq (v, byte2);
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goal_matches = byte1_matches & byte2_matches_shifted;
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if (__builtin_expect (goal_matches != 0, 0))
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break;
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}
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__insn_prefetch (p + 4);
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/* Move to next vector. */
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v = v2;
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p++;
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}
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}
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z = CFZ (zero_matches);
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g = CFZ (goal_matches);
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/* If we found the match before '\0' we got a true match. Note that
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if c == '\0' then g == z, and we correctly return the address of
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the '\0' rather than NULL. */
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return (g <= z) ? ((char *) p) + (g >> 3) : NULL;
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}
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/* Scan for NEEDLE, using the first two characters as a filter. */
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static char *
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STRSTR_SCAN (const char *haystack, const char *needle,
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unsigned int needle_len)
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{
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char *match;
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while (1)
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{
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match = STRSTR2 (haystack, needle);
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if (match == NULL)
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return NULL;
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/* Found first two characters of needle, check for remainder. */
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if (CMP_FUNC (match + 2, needle + 2, needle_len - 2) == 0)
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return match;
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/* Move past the previous match. Could be +2 instead of +1 if
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first two characters are different, but that tested slower. */
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haystack = match + 1;
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}
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}
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/* Return the first occurrence of NEEDLE in HAYSTACK. Return HAYSTACK
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if NEEDLE is empty, otherwise NULL if NEEDLE is not found in
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HAYSTACK. */
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char *
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STRSTR (const char *haystack_start, const char *needle_start)
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{
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const char *haystack = haystack_start;
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const char *needle = needle_start;
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__insn_prefetch (haystack);
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size_t needle_len = strlen (needle_start); /* Length of NEEDLE. */
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size_t haystack_len; /* Known minimum length of HAYSTACK. */
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if (needle_len <= 2)
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{
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if (needle_len == 1)
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return STRCHR (haystack_start, *needle_start);
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if (needle_len == 0)
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return (char *) haystack_start;
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else
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return STRSTR2 (haystack_start, needle_start);
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}
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/* Fail if NEEDLE is longer than HAYSTACK. */
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if (__strnlen (haystack, needle_len) < needle_len)
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return NULL;
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/* Perform the search. Abstract memory is considered to be an array
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of 'unsigned char' values, not an array of 'char' values. See
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ISO C 99 section 6.2.6.1. */
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if (needle_len < 40)
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return STRSTR_SCAN (haystack_start, needle_start, needle_len);
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else
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{
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/* Reduce the size of haystack using STRSTR2, since it has a smaller
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linear coefficient than the Two-Way algorithm. */
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haystack = STRSTR2 (haystack_start, needle_start);
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if (haystack == NULL)
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return NULL;
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needle = needle_start;
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haystack_len = (haystack > haystack_start + needle_len ? 1
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: needle_len + haystack_start - haystack);
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return two_way_long_needle ((const unsigned char *) haystack,
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haystack_len,
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(const unsigned char *) needle, needle_len);
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}
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}
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#ifndef USE_AS_STRCASESTR
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libc_hidden_builtin_def (STRSTR)
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#endif
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#undef LONG_NEEDLE_THRESHOLD
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