X-Git-Url: http://erislabs.net/gitweb/?a=blobdiff_plain;f=lib%2Fc-strcasestr.c;h=45fccca1d690466e7b031020e1f65451e9695760;hb=76074e9af140661560dc1ce16d0a80c2e768a740;hp=428be70014b66c1ffaea4dba308b4606263a3616;hpb=7855e1e3a12ea5e158d51b9ab7f38006ac5fc028;p=gnulib.git diff --git a/lib/c-strcasestr.c b/lib/c-strcasestr.c index 428be7001..45fccca1d 100644 --- a/lib/c-strcasestr.c +++ b/lib/c-strcasestr.c @@ -1,5 +1,5 @@ /* c-strcasestr.c -- case insensitive substring search in C locale - Copyright (C) 2005-2007 Free Software Foundation, Inc. + Copyright (C) 2005-2011 Free Software Foundation, Inc. Written by Bruno Haible , 2005. This program is free software: you can redistribute it and/or modify @@ -21,114 +21,57 @@ #include "c-strcasestr.h" #include -#include #include -#include "malloca.h" #include "c-ctype.h" +#include "c-strcase.h" -/* Knuth-Morris-Pratt algorithm. */ -#define CANON_ELEMENT(c) c_tolower (c) -#include "str-kmp.h" +/* Two-Way algorithm. */ +#define RETURN_TYPE char * +#define AVAILABLE(h, h_l, j, n_l) \ + (!memchr ((h) + (h_l), '\0', (j) + (n_l) - (h_l)) \ + && ((h_l) = (j) + (n_l))) +#define CANON_ELEMENT c_tolower +#define CMP_FUNC(p1, p2, l) \ + c_strncasecmp ((const char *) (p1), (const char *) (p2), l) +#include "str-two-way.h" /* Find the first occurrence of NEEDLE in HAYSTACK, using case-insensitive - comparison. - Note: This function may, in multibyte locales, return success even if - strlen (haystack) < strlen (needle) ! */ + comparison from the C locale, regardless of the current locale. */ char * -c_strcasestr (const char *haystack, const char *needle) +c_strcasestr (const char *haystack_start, const char *needle_start) { - /* Be careful not to look at the entire extent of haystack or needle - until needed. This is useful because of these two cases: - - haystack may be very long, and a match of needle found early, - - needle may be very long, and not even a short initial segment of - needle may be found in haystack. */ - if (*needle != '\0') - { - /* Minimizing the worst-case complexity: - Let n = strlen(haystack), m = strlen(needle). - The naïve algorithm is O(n*m) worst-case. - The Knuth-Morris-Pratt algorithm is O(n) worst-case but it needs a - memory allocation. - To achieve linear complexity and yet amortize the cost of the memory - allocation, we activate the Knuth-Morris-Pratt algorithm only once - the naïve algorithm has already run for some time; more precisely, - when - - the outer loop count is >= 10, - - the average number of comparisons per outer loop is >= 5, - - the total number of comparisons is >= m. - But we try it only once. If the memory allocation attempt failed, - we don't retry it. */ - bool try_kmp = true; - size_t outer_loop_count = 0; - size_t comparison_count = 0; - size_t last_ccount = 0; /* last comparison count */ - const char *needle_last_ccount = needle; /* = needle + last_ccount */ + const char *haystack = haystack_start; + const char *needle = needle_start; + size_t needle_len; /* Length of NEEDLE. */ + size_t haystack_len; /* Known minimum length of HAYSTACK. */ + bool ok = true; /* True if NEEDLE is prefix of HAYSTACK. */ - /* Speed up the following searches of needle by caching its first - character. */ - unsigned char b = c_tolower ((unsigned char) *needle); + /* Determine length of NEEDLE, and in the process, make sure + HAYSTACK is at least as long (no point processing all of a long + NEEDLE if HAYSTACK is too short). */ + while (*haystack && *needle) + ok &= (c_tolower ((unsigned char) *haystack++) + == c_tolower ((unsigned char) *needle++)); + if (*needle) + return NULL; + if (ok) + return (char *) haystack_start; + needle_len = needle - needle_start; + haystack = haystack_start + 1; + haystack_len = needle_len - 1; - needle++; - for (;; haystack++) - { - if (*haystack == '\0') - /* No match. */ - return NULL; - - /* See whether it's advisable to use an asymptotically faster - algorithm. */ - if (try_kmp - && outer_loop_count >= 10 - && comparison_count >= 5 * outer_loop_count) - { - /* See if needle + comparison_count now reaches the end of - needle. */ - if (needle_last_ccount != NULL) - { - needle_last_ccount += - strnlen (needle_last_ccount, comparison_count - last_ccount); - if (*needle_last_ccount == '\0') - needle_last_ccount = NULL; - last_ccount = comparison_count; - } - if (needle_last_ccount == NULL) - { - /* Try the Knuth-Morris-Pratt algorithm. */ - const char *result; - bool success = - knuth_morris_pratt_unibyte (haystack, needle - 1, &result); - if (success) - return (char *) result; - try_kmp = false; - } - } - - outer_loop_count++; - comparison_count++; - if (c_tolower ((unsigned char) *haystack) == b) - /* The first character matches. */ - { - const char *rhaystack = haystack + 1; - const char *rneedle = needle; - - for (;; rhaystack++, rneedle++) - { - if (*rneedle == '\0') - /* Found a match. */ - return (char *) haystack; - if (*rhaystack == '\0') - /* No match. */ - return NULL; - comparison_count++; - if (c_tolower ((unsigned char) *rhaystack) - != c_tolower ((unsigned char) *rneedle)) - /* Nothing in this round. */ - break; - } - } - } - } - else - return (char *) haystack; + /* Perform the search. Abstract memory is considered to be an array + of 'unsigned char' values, not an array of 'char' values. See + ISO C 99 section 6.2.6.1. */ + if (needle_len < LONG_NEEDLE_THRESHOLD) + return two_way_short_needle ((const unsigned char *) haystack, + haystack_len, + (const unsigned char *) needle_start, + needle_len); + return two_way_long_needle ((const unsigned char *) haystack, haystack_len, + (const unsigned char *) needle_start, + needle_len); } + +#undef LONG_NEEDLE_THRESHOLD