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754 lines
26 KiB
C
754 lines
26 KiB
C
#include <ansidecl.h>
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#include <errno.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <strings.h>
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#include <fcntl.h>
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#ifndef HAVE_GNU_LD
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#define _sys_nerr sys_nerr
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#define _sys_errlist sys_errlist
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#endif
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#define STREQ(a, b) (strcmp((a), (b)) == 0)
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CONST char *it = "<UNSET>"; /* Routine name for message routines. */
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size_t errors = 0;
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/* Complain if condition is not true. */
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void
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DEFUN(check, (thing, number), int thing AND int number)
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{
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if (!thing)
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{
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printf("%s flunked test %d\n", it, number);
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++errors;
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}
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}
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/* Complain if first two args don't strcmp as equal. */
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void
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DEFUN(equal, (a, b, number), CONST char *a AND CONST char *b AND int number)
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{
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check(a != NULL && b != NULL && STREQ(a, b), number);
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}
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char one[50];
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char two[50];
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int
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DEFUN(main, (argc, argv), int argc AND char **argv)
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{
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char *cp;
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/* Test strcmp first because we use it to test other things. */
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it = "strcmp";
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check(strcmp("", "") == 0, 1); /* Trivial case. */
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check(strcmp("a", "a") == 0, 2); /* Identity. */
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check(strcmp("abc", "abc") == 0, 3); /* Multicharacter. */
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check(strcmp("abc", "abcd") < 0, 4); /* Length mismatches. */
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check(strcmp("abcd", "abc") > 0, 5);
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check(strcmp("abcd", "abce") < 0, 6); /* Honest miscompares. */
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check(strcmp("abce", "abcd") > 0, 7);
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check(strcmp("a\203", "a") > 0, 8); /* Tricky if char signed. */
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check(strcmp("a\203", "a\003") > 0, 9);
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/* Test strcpy next because we need it to set up other tests. */
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it = "strcpy";
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check(strcpy(one, "abcd") == one, 1); /* Returned value. */
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equal(one, "abcd", 2); /* Basic test. */
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(void) strcpy(one, "x");
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equal(one, "x", 3); /* Writeover. */
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equal(one+2, "cd", 4); /* Wrote too much? */
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(void) strcpy(two, "hi there");
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(void) strcpy(one, two);
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equal(one, "hi there", 5); /* Basic test encore. */
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equal(two, "hi there", 6); /* Stomped on source? */
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(void) strcpy(one, "");
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equal(one, "", 7); /* Boundary condition. */
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/* stpncpy. */
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it = "stpncpy";
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memset(one, 'x', sizeof(one));
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check(stpncpy(one, "abc", 2) == one + 2, 1);
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check(stpncpy(one, "abc", 3) == one + 3, 2);
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check(stpncpy(one, "abc", 4) == one + 3, 3);
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check(one[3] == '\0' && one[4] == 'x', 4);
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check(stpncpy(one, "abcd", 5) == one + 4, 5);
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check(one[4] == '\0' && one[5] == 'x', 6);
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check(stpncpy(one, "abcd", 6) == one + 4, 7);
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check(one[4] == '\0' && one[5] == '\0' && one[6] == 'x', 8);
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/* strcat. */
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it = "strcat";
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(void) strcpy(one, "ijk");
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check(strcat(one, "lmn") == one, 1); /* Returned value. */
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equal(one, "ijklmn", 2); /* Basic test. */
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(void) strcpy(one, "x");
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(void) strcat(one, "yz");
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equal(one, "xyz", 3); /* Writeover. */
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equal(one+4, "mn", 4); /* Wrote too much? */
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(void) strcpy(one, "gh");
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(void) strcpy(two, "ef");
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(void) strcat(one, two);
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equal(one, "ghef", 5); /* Basic test encore. */
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equal(two, "ef", 6); /* Stomped on source? */
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(void) strcpy(one, "");
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(void) strcat(one, "");
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equal(one, "", 7); /* Boundary conditions. */
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(void) strcpy(one, "ab");
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(void) strcat(one, "");
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equal(one, "ab", 8);
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(void) strcpy(one, "");
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(void) strcat(one, "cd");
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equal(one, "cd", 9);
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/* strncat - first test it as strcat, with big counts,
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then test the count mechanism. */
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it = "strncat";
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(void) strcpy(one, "ijk");
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check(strncat(one, "lmn", 99) == one, 1); /* Returned value. */
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equal(one, "ijklmn", 2); /* Basic test. */
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(void) strcpy(one, "x");
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(void) strncat(one, "yz", 99);
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equal(one, "xyz", 3); /* Writeover. */
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equal(one+4, "mn", 4); /* Wrote too much? */
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(void) strcpy(one, "gh");
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(void) strcpy(two, "ef");
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(void) strncat(one, two, 99);
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equal(one, "ghef", 5); /* Basic test encore. */
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equal(two, "ef", 6); /* Stomped on source? */
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(void) strcpy(one, "");
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(void) strncat(one, "", 99);
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equal(one, "", 7); /* Boundary conditions. */
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(void) strcpy(one, "ab");
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(void) strncat(one, "", 99);
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equal(one, "ab", 8);
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(void) strcpy(one, "");
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(void) strncat(one, "cd", 99);
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equal(one, "cd", 9);
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(void) strcpy(one, "ab");
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(void) strncat(one, "cdef", 2);
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equal(one, "abcd", 10); /* Count-limited. */
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(void) strncat(one, "gh", 0);
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equal(one, "abcd", 11); /* Zero count. */
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(void) strncat(one, "gh", 2);
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equal(one, "abcdgh", 12); /* Count and length equal. */
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/* strncmp - first test as strcmp with big counts,
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then test count code. */
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it = "strncmp";
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check(strncmp("", "", 99) == 0, 1); /* Trivial case. */
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check(strncmp("a", "a", 99) == 0, 2); /* Identity. */
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check(strncmp("abc", "abc", 99) == 0, 3); /* Multicharacter. */
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check(strncmp("abc", "abcd", 99) < 0, 4); /* Length unequal. */
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check(strncmp("abcd", "abc", 99) > 0, 5);
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check(strncmp("abcd", "abce", 99) < 0, 6); /* Honestly unequal. */
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check(strncmp("abce", "abcd", 99) > 0, 7);
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check(strncmp("a\203", "a", 2) > 0, 8); /* Tricky if '\203' < 0 */
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check(strncmp("a\203", "a\003", 2) > 0, 9);
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check(strncmp("abce", "abcd", 3) == 0, 10); /* Count limited. */
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check(strncmp("abce", "abc", 3) == 0, 11); /* Count == length. */
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check(strncmp("abcd", "abce", 4) < 0, 12); /* Nudging limit. */
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check(strncmp("abc", "def", 0) == 0, 13); /* Zero count. */
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/* strncpy - testing is a bit different because of odd semantics. */
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it = "strncpy";
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check(strncpy(one, "abc", 4) == one, 1); /* Returned value. */
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equal(one, "abc", 2); /* Did the copy go right? */
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(void) strcpy(one, "abcdefgh");
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(void) strncpy(one, "xyz", 2);
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equal(one, "xycdefgh", 3); /* Copy cut by count. */
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(void) strcpy(one, "abcdefgh");
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(void) strncpy(one, "xyz", 3); /* Copy cut just before NUL. */
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equal(one, "xyzdefgh", 4);
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(void) strcpy(one, "abcdefgh");
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(void) strncpy(one, "xyz", 4); /* Copy just includes NUL. */
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equal(one, "xyz", 5);
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equal(one+4, "efgh", 6); /* Wrote too much? */
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(void) strcpy(one, "abcdefgh");
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(void) strncpy(one, "xyz", 5); /* Copy includes padding. */
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equal(one, "xyz", 7);
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equal(one+4, "", 8);
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equal(one+5, "fgh", 9);
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(void) strcpy(one, "abc");
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(void) strncpy(one, "xyz", 0); /* Zero-length copy. */
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equal(one, "abc", 10);
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(void) strncpy(one, "", 2); /* Zero-length source. */
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equal(one, "", 11);
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equal(one+1, "", 12);
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equal(one+2, "c", 13);
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(void) strcpy(one, "hi there");
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(void) strncpy(two, one, 9);
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equal(two, "hi there", 14); /* Just paranoia. */
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equal(one, "hi there", 15); /* Stomped on source? */
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/* strlen. */
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it = "strlen";
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check(strlen("") == 0, 1); /* Empty. */
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check(strlen("a") == 1, 2); /* Single char. */
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check(strlen("abcd") == 4, 3); /* Multiple chars. */
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{
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char buf[4096];
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int i;
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char *p;
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for (i=0; i < 0x100; i++)
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{
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p = (char *)((unsigned long int)(buf + 0xff) & ~0xff) + i;
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strcpy (p, "OK");
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strcpy (p+3, "BAD/WRONG");
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check(strlen(p) == 2, 4+i);
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}
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}
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/* strchr. */
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it = "strchr";
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check(strchr("abcd", 'z') == NULL, 1); /* Not found. */
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(void) strcpy(one, "abcd");
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check(strchr(one, 'c') == one+2, 2); /* Basic test. */
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check(strchr(one, 'd') == one+3, 3); /* End of string. */
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check(strchr(one, 'a') == one, 4); /* Beginning. */
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check(strchr(one, '\0') == one+4, 5); /* Finding NUL. */
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(void) strcpy(one, "ababa");
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check(strchr(one, 'b') == one+1, 6); /* Finding first. */
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(void) strcpy(one, "");
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check(strchr(one, 'b') == NULL, 7); /* Empty string. */
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check(strchr(one, '\0') == one, 8); /* NUL in empty string. */
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{
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char buf[4096];
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int i;
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char *p;
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for (i=0; i < 0x100; i++)
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{
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p = (char *)((unsigned long int)(buf + 0xff) & ~0xff) + i;
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strcpy (p, "OK");
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strcpy (p+3, "BAD/WRONG");
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check(strchr(p, '/') == NULL, 9+i);
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}
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}
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#if 0
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/* index - just like strchr. */
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it = "index";
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check(index("abcd", 'z') == NULL, 1); /* Not found. */
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(void) strcpy(one, "abcd");
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check(index(one, 'c') == one+2, 2); /* Basic test. */
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check(index(one, 'd') == one+3, 3); /* End of string. */
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check(index(one, 'a') == one, 4); /* Beginning. */
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check(index(one, '\0') == one+4, 5); /* Finding NUL. */
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(void) strcpy(one, "ababa");
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check(index(one, 'b') == one+1, 6); /* Finding first. */
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(void) strcpy(one, "");
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check(index(one, 'b') == NULL, 7); /* Empty string. */
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check(index(one, '\0') == one, 8); /* NUL in empty string. */
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#endif
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/* strrchr. */
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it = "strrchr";
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check(strrchr("abcd", 'z') == NULL, 1); /* Not found. */
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(void) strcpy(one, "abcd");
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check(strrchr(one, 'c') == one+2, 2); /* Basic test. */
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check(strrchr(one, 'd') == one+3, 3); /* End of string. */
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check(strrchr(one, 'a') == one, 4); /* Beginning. */
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check(strrchr(one, '\0') == one+4, 5); /* Finding NUL. */
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(void) strcpy(one, "ababa");
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check(strrchr(one, 'b') == one+3, 6); /* Finding last. */
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(void) strcpy(one, "");
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check(strrchr(one, 'b') == NULL, 7); /* Empty string. */
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check(strrchr(one, '\0') == one, 8); /* NUL in empty string. */
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{
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char buf[4096];
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int i;
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char *p;
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for (i=0; i < 0x100; i++)
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{
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p = (char *)((unsigned long int)(buf + 0xff) & ~0xff) + i;
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strcpy (p, "OK");
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strcpy (p+3, "BAD/WRONG");
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check(strrchr(p, '/') == NULL, 9+i);
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}
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}
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#if 0
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/* rindex - just like strrchr. */
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it = "rindex";
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check(rindex("abcd", 'z') == NULL, 1); /* Not found. */
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(void) strcpy(one, "abcd");
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check(rindex(one, 'c') == one+2, 2); /* Basic test. */
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check(rindex(one, 'd') == one+3, 3); /* End of string. */
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check(rindex(one, 'a') == one, 4); /* Beginning. */
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check(rindex(one, '\0') == one+4, 5); /* Finding NUL. */
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(void) strcpy(one, "ababa");
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check(rindex(one, 'b') == one+3, 6); /* Finding last. */
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(void) strcpy(one, "");
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check(rindex(one, 'b') == NULL, 7); /* Empty string. */
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check(rindex(one, '\0') == one, 8); /* NUL in empty string. */
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#endif
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/* strpbrk - somewhat like strchr. */
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it = "strpbrk";
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check(strpbrk("abcd", "z") == NULL, 1); /* Not found. */
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(void) strcpy(one, "abcd");
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check(strpbrk(one, "c") == one+2, 2); /* Basic test. */
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check(strpbrk(one, "d") == one+3, 3); /* End of string. */
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check(strpbrk(one, "a") == one, 4); /* Beginning. */
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check(strpbrk(one, "") == NULL, 5); /* Empty search list. */
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check(strpbrk(one, "cb") == one+1, 6); /* Multiple search. */
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(void) strcpy(one, "abcabdea");
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check(strpbrk(one, "b") == one+1, 7); /* Finding first. */
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check(strpbrk(one, "cb") == one+1, 8); /* With multiple search. */
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check(strpbrk(one, "db") == one+1, 9); /* Another variant. */
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(void) strcpy(one, "");
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check(strpbrk(one, "bc") == NULL, 10); /* Empty string. */
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check(strpbrk(one, "") == NULL, 11); /* Both strings empty. */
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/* strstr - somewhat like strchr. */
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it = "strstr";
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check(strstr("abcd", "z") == NULL, 1); /* Not found. */
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check(strstr("abcd", "abx") == NULL, 2); /* Dead end. */
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(void) strcpy(one, "abcd");
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check(strstr(one, "c") == one+2, 3); /* Basic test. */
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check(strstr(one, "bc") == one+1, 4); /* Multichar. */
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check(strstr(one, "d") == one+3, 5); /* End of string. */
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check(strstr(one, "cd") == one+2, 6); /* Tail of string. */
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check(strstr(one, "abc") == one, 7); /* Beginning. */
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check(strstr(one, "abcd") == one, 8); /* Exact match. */
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check(strstr(one, "abcde") == NULL, 9); /* Too long. */
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check(strstr(one, "de") == NULL, 10); /* Past end. */
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check(strstr(one, "") == one, 11); /* Finding empty. */
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(void) strcpy(one, "ababa");
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check(strstr(one, "ba") == one+1, 12); /* Finding first. */
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(void) strcpy(one, "");
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check(strstr(one, "b") == NULL, 13); /* Empty string. */
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check(strstr(one, "") == one, 14); /* Empty in empty string. */
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(void) strcpy(one, "bcbca");
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check(strstr(one, "bca") == one+2, 15); /* False start. */
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(void) strcpy(one, "bbbcabbca");
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check(strstr(one, "bbca") == one+1, 16); /* With overlap. */
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/* strspn. */
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it = "strspn";
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check(strspn("abcba", "abc") == 5, 1); /* Whole string. */
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check(strspn("abcba", "ab") == 2, 2); /* Partial. */
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check(strspn("abc", "qx") == 0, 3); /* None. */
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check(strspn("", "ab") == 0, 4); /* Null string. */
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check(strspn("abc", "") == 0, 5); /* Null search list. */
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/* strcspn. */
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it = "strcspn";
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check(strcspn("abcba", "qx") == 5, 1); /* Whole string. */
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check(strcspn("abcba", "cx") == 2, 2); /* Partial. */
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check(strcspn("abc", "abc") == 0, 3); /* None. */
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check(strcspn("", "ab") == 0, 4); /* Null string. */
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check(strcspn("abc", "") == 3, 5); /* Null search list. */
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/* strtok - the hard one. */
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it = "strtok";
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(void) strcpy(one, "first, second, third");
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equal(strtok(one, ", "), "first", 1); /* Basic test. */
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equal(one, "first", 2);
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equal(strtok((char *)NULL, ", "), "second", 3);
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equal(strtok((char *)NULL, ", "), "third", 4);
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check(strtok((char *)NULL, ", ") == NULL, 5);
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(void) strcpy(one, ", first, ");
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equal(strtok(one, ", "), "first", 6); /* Extra delims, 1 tok. */
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check(strtok((char *)NULL, ", ") == NULL, 7);
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(void) strcpy(one, "1a, 1b; 2a, 2b");
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equal(strtok(one, ", "), "1a", 8); /* Changing delim lists. */
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equal(strtok((char *)NULL, "; "), "1b", 9);
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equal(strtok((char *)NULL, ", "), "2a", 10);
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(void) strcpy(two, "x-y");
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equal(strtok(two, "-"), "x", 11); /* New string before done. */
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equal(strtok((char *)NULL, "-"), "y", 12);
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check(strtok((char *)NULL, "-") == NULL, 13);
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(void) strcpy(one, "a,b, c,, ,d");
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equal(strtok(one, ", "), "a", 14); /* Different separators. */
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equal(strtok((char *)NULL, ", "), "b", 15);
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equal(strtok((char *)NULL, " ,"), "c", 16); /* Permute list too. */
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equal(strtok((char *)NULL, " ,"), "d", 17);
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check(strtok((char *)NULL, ", ") == NULL, 18);
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check(strtok((char *)NULL, ", ") == NULL, 19); /* Persistence. */
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(void) strcpy(one, ", ");
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check(strtok(one, ", ") == NULL, 20); /* No tokens. */
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(void) strcpy(one, "");
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check(strtok(one, ", ") == NULL, 21); /* Empty string. */
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(void) strcpy(one, "abc");
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equal(strtok(one, ", "), "abc", 22); /* No delimiters. */
|
|
check(strtok((char *)NULL, ", ") == NULL, 23);
|
|
(void) strcpy(one, "abc");
|
|
equal(strtok(one, ""), "abc", 24); /* Empty delimiter list. */
|
|
check(strtok((char *)NULL, "") == NULL, 25);
|
|
(void) strcpy(one, "abcdefgh");
|
|
(void) strcpy(one, "a,b,c");
|
|
equal(strtok(one, ","), "a", 26); /* Basics again... */
|
|
equal(strtok((char *)NULL, ","), "b", 27);
|
|
equal(strtok((char *)NULL, ","), "c", 28);
|
|
check(strtok((char *)NULL, ",") == NULL, 29);
|
|
equal(one+6, "gh", 30); /* Stomped past end? */
|
|
equal(one, "a", 31); /* Stomped old tokens? */
|
|
equal(one+2, "b", 32);
|
|
equal(one+4, "c", 33);
|
|
|
|
/* strtok_r. */
|
|
it = "strtok_r";
|
|
(void) strcpy(one, "first, second, third");
|
|
equal(strtok_r(one, ", ", &cp), "first", 1); /* Basic test. */
|
|
equal(one, "first", 2);
|
|
equal(strtok_r((char *)NULL, ", ", &cp), "second", 3);
|
|
equal(strtok_r((char *)NULL, ", ", &cp), "third", 4);
|
|
check(strtok_r((char *)NULL, ", ", &cp) == NULL, 5);
|
|
(void) strcpy(one, ", first, ");
|
|
equal(strtok_r(one, ", ", &cp), "first", 6); /* Extra delims, 1 tok. */
|
|
check(strtok_r((char *)NULL, ", ", &cp) == NULL, 7);
|
|
(void) strcpy(one, "1a, 1b; 2a, 2b");
|
|
equal(strtok_r(one, ", ", &cp), "1a", 8); /* Changing delim lists. */
|
|
equal(strtok_r((char *)NULL, "; ", &cp), "1b", 9);
|
|
equal(strtok_r((char *)NULL, ", ", &cp), "2a", 10);
|
|
(void) strcpy(two, "x-y");
|
|
equal(strtok_r(two, "-", &cp), "x", 11); /* New string before done. */
|
|
equal(strtok_r((char *)NULL, "-", &cp), "y", 12);
|
|
check(strtok_r((char *)NULL, "-", &cp) == NULL, 13);
|
|
(void) strcpy(one, "a,b, c,, ,d");
|
|
equal(strtok_r(one, ", ", &cp), "a", 14); /* Different separators. */
|
|
equal(strtok_r((char *)NULL, ", ", &cp), "b", 15);
|
|
equal(strtok_r((char *)NULL, " ,", &cp), "c", 16); /* Permute list too. */
|
|
equal(strtok_r((char *)NULL, " ,", &cp), "d", 17);
|
|
check(strtok_r((char *)NULL, ", ", &cp) == NULL, 18);
|
|
check(strtok_r((char *)NULL, ", ", &cp) == NULL, 19); /* Persistence. */
|
|
(void) strcpy(one, ", ");
|
|
check(strtok_r(one, ", ", &cp) == NULL, 20); /* No tokens. */
|
|
(void) strcpy(one, "");
|
|
check(strtok_r(one, ", ", &cp) == NULL, 21); /* Empty string. */
|
|
(void) strcpy(one, "abc");
|
|
equal(strtok_r(one, ", ", &cp), "abc", 22); /* No delimiters. */
|
|
check(strtok_r((char *)NULL, ", ", &cp) == NULL, 23);
|
|
(void) strcpy(one, "abc");
|
|
equal(strtok_r(one, "", &cp), "abc", 24); /* Empty delimiter list. */
|
|
check(strtok_r((char *)NULL, "", &cp) == NULL, 25);
|
|
(void) strcpy(one, "abcdefgh");
|
|
(void) strcpy(one, "a,b,c");
|
|
equal(strtok_r(one, ",", &cp), "a", 26); /* Basics again... */
|
|
equal(strtok_r((char *)NULL, ",", &cp), "b", 27);
|
|
equal(strtok_r((char *)NULL, ",", &cp), "c", 28);
|
|
check(strtok_r((char *)NULL, ",", &cp) == NULL, 29);
|
|
equal(one+6, "gh", 30); /* Stomped past end? */
|
|
equal(one, "a", 31); /* Stomped old tokens? */
|
|
equal(one+2, "b", 32);
|
|
equal(one+4, "c", 33);
|
|
|
|
/* strsep. */
|
|
it = "strsep";
|
|
cp = strcpy(one, "first, second, third");
|
|
equal(strsep(&cp, ", "), "first", 1); /* Basic test. */
|
|
equal(one, "first", 2);
|
|
equal(strsep(&cp, ", "), "", 3);
|
|
equal(strsep(&cp, ", "), "second", 4);
|
|
equal(strsep(&cp, ", "), "", 5);
|
|
equal(strsep(&cp, ", "), "third", 6);
|
|
check(strsep(&cp, ", ") == NULL, 7);
|
|
cp = strcpy(one, ", first, ");
|
|
equal(strsep(&cp, ", "), "", 8);
|
|
equal(strsep(&cp, ", "), "", 9);
|
|
equal(strsep(&cp, ", "), "first", 10); /* Extra delims, 1 tok. */
|
|
equal(strsep(&cp, ", "), "", 11);
|
|
check(strsep(&cp, ", ") == NULL, 12);
|
|
cp = strcpy(one, "1a, 1b; 2a, 2b");
|
|
equal(strsep(&cp, ", "), "1a", 13); /* Changing delim lists. */
|
|
equal(strsep(&cp, ", "), "", 14);
|
|
equal(strsep(&cp, "; "), "1b", 15);
|
|
equal(strsep(&cp, ", "), "", 16);
|
|
equal(strsep(&cp, ", "), "2a", 17);
|
|
cp = strcpy(two, "x-y");
|
|
equal(strsep(&cp, "-"), "x", 18); /* New string before done. */
|
|
equal(strsep(&cp, "-"), "y", 19);
|
|
check(strsep(&cp, "-") == NULL, 20);
|
|
cp = strcpy(one, "a,b, c,, ,d");
|
|
equal(strsep(&cp, ", "), "a", 21); /* Different separators. */
|
|
equal(strsep(&cp, ", "), "b", 22);
|
|
equal(strsep(&cp, " ,"), "", 23);
|
|
equal(strsep(&cp, " ,"), "c", 24); /* Permute list too. */
|
|
equal(strsep(&cp, " ,"), "", 25);
|
|
equal(strsep(&cp, " ,"), "", 26);
|
|
equal(strsep(&cp, " ,"), "", 27);
|
|
equal(strsep(&cp, " ,"), "d", 28);
|
|
check(strsep(&cp, ", ") == NULL, 29);
|
|
check(strsep(&cp, ", ") == NULL, 30); /* Persistence. */
|
|
cp = strcpy(one, ", ");
|
|
equal(strsep(&cp, ", "), "", 31);
|
|
equal(strsep(&cp, ", "), "", 32);
|
|
check(strsep(&cp, ", ") == NULL, 33); /* No tokens. */
|
|
cp = strcpy(one, "");
|
|
check(strsep(&cp, ", ") == NULL, 34); /* Empty string. */
|
|
cp = strcpy(one, "abc");
|
|
equal(strsep(&cp, ", "), "abc", 35); /* No delimiters. */
|
|
check(strsep(&cp, ", ") == NULL, 36);
|
|
cp = strcpy(one, "abc");
|
|
equal(strsep(&cp, ""), "abc", 37); /* Empty delimiter list. */
|
|
check(strsep(&cp, "") == NULL, 38);
|
|
(void) strcpy(one, "abcdefgh");
|
|
cp = strcpy(one, "a,b,c");
|
|
equal(strsep(&cp, ","), "a", 39); /* Basics again... */
|
|
equal(strsep(&cp, ","), "b", 40);
|
|
equal(strsep(&cp, ","), "c", 41);
|
|
check(strsep(&cp, ",") == NULL, 42);
|
|
equal(one+6, "gh", 43); /* Stomped past end? */
|
|
equal(one, "a", 44); /* Stomped old tokens? */
|
|
equal(one+2, "b", 45);
|
|
equal(one+4, "c", 46);
|
|
|
|
/* memcmp. */
|
|
it = "memcmp";
|
|
check(memcmp("a", "a", 1) == 0, 1); /* Identity. */
|
|
check(memcmp("abc", "abc", 3) == 0, 2); /* Multicharacter. */
|
|
check(memcmp("abcd", "abce", 4) < 0, 3); /* Honestly unequal. */
|
|
check(memcmp("abce", "abcd", 4) > 0, 4);
|
|
check(memcmp("alph", "beta", 4) < 0, 5);
|
|
check(memcmp("a\203", "a\003", 2) > 0, 6);
|
|
check(memcmp("abce", "abcd", 3) == 0, 7); /* Count limited. */
|
|
check(memcmp("abc", "def", 0) == 0, 8); /* Zero count. */
|
|
|
|
/* memchr. */
|
|
it = "memchr";
|
|
check(memchr("abcd", 'z', 4) == NULL, 1); /* Not found. */
|
|
(void) strcpy(one, "abcd");
|
|
check(memchr(one, 'c', 4) == one+2, 2); /* Basic test. */
|
|
check(memchr(one, ~0xff|'c', 4) == one+2, 2); /* ignore highorder bits. */
|
|
check(memchr(one, 'd', 4) == one+3, 3); /* End of string. */
|
|
check(memchr(one, 'a', 4) == one, 4); /* Beginning. */
|
|
check(memchr(one, '\0', 5) == one+4, 5); /* Finding NUL. */
|
|
(void) strcpy(one, "ababa");
|
|
check(memchr(one, 'b', 5) == one+1, 6); /* Finding first. */
|
|
check(memchr(one, 'b', 0) == NULL, 7); /* Zero count. */
|
|
check(memchr(one, 'a', 1) == one, 8); /* Singleton case. */
|
|
(void) strcpy(one, "a\203b");
|
|
check(memchr(one, 0203, 3) == one+1, 9); /* Unsignedness. */
|
|
|
|
/* now test all possible alignment and length combinations to catch
|
|
bugs due to unrolled loops (assuming unrolling is limited to no
|
|
more than 128 byte chunks: */
|
|
{
|
|
char buf[128 + sizeof(long)];
|
|
long align, len, i, pos;
|
|
|
|
for (align = 0; align < (long) sizeof(long); ++align) {
|
|
for (len = 0; len < (long) (sizeof(buf) - align); ++len) {
|
|
for (i = 0; i < len; ++i) {
|
|
buf[align + i] = 'x'; /* don't depend on memset... */
|
|
}
|
|
for (pos = 0; pos < len; ++pos) {
|
|
#if 0
|
|
printf("align %d, len %d, pos %d\n", align, len, pos);
|
|
#endif
|
|
check(memchr(buf + align, 'x', len) == buf + align + pos, 10);
|
|
check(memchr(buf + align, 'x', pos) == NULL, 11);
|
|
buf[align + pos] = '-';
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
/* memcpy - need not work for overlap. */
|
|
it = "memcpy";
|
|
check(memcpy(one, "abc", 4) == one, 1); /* Returned value. */
|
|
equal(one, "abc", 2); /* Did the copy go right? */
|
|
|
|
(void) strcpy(one, "abcdefgh");
|
|
(void) memcpy(one+1, "xyz", 2);
|
|
equal(one, "axydefgh", 3); /* Basic test. */
|
|
|
|
(void) strcpy(one, "abc");
|
|
(void) memcpy(one, "xyz", 0);
|
|
equal(one, "abc", 4); /* Zero-length copy. */
|
|
|
|
(void) strcpy(one, "hi there");
|
|
(void) strcpy(two, "foo");
|
|
(void) memcpy(two, one, 9);
|
|
equal(two, "hi there", 5); /* Just paranoia. */
|
|
equal(one, "hi there", 6); /* Stomped on source? */
|
|
|
|
/* memmove - must work on overlap. */
|
|
it = "memmove";
|
|
check(memmove(one, "abc", 4) == one, 1); /* Returned value. */
|
|
equal(one, "abc", 2); /* Did the copy go right? */
|
|
|
|
(void) strcpy(one, "abcdefgh");
|
|
(void) memmove(one+1, "xyz", 2);
|
|
equal(one, "axydefgh", 3); /* Basic test. */
|
|
|
|
(void) strcpy(one, "abc");
|
|
(void) memmove(one, "xyz", 0);
|
|
equal(one, "abc", 4); /* Zero-length copy. */
|
|
|
|
(void) strcpy(one, "hi there");
|
|
(void) strcpy(two, "foo");
|
|
(void) memmove(two, one, 9);
|
|
equal(two, "hi there", 5); /* Just paranoia. */
|
|
equal(one, "hi there", 6); /* Stomped on source? */
|
|
|
|
(void) strcpy(one, "abcdefgh");
|
|
(void) memmove(one+1, one, 9);
|
|
equal(one, "aabcdefgh", 7); /* Overlap, right-to-left. */
|
|
|
|
(void) strcpy(one, "abcdefgh");
|
|
(void) memmove(one+1, one+2, 7);
|
|
equal(one, "acdefgh", 8); /* Overlap, left-to-right. */
|
|
|
|
(void) strcpy(one, "abcdefgh");
|
|
(void) memmove(one, one, 9);
|
|
equal(one, "abcdefgh", 9); /* 100% overlap. */
|
|
|
|
/* memccpy - first test like memcpy, then the search part
|
|
The SVID, the only place where memccpy is mentioned, says
|
|
overlap might fail, so we don't try it. Besides, it's hard
|
|
to see the rationale for a non-left-to-right memccpy. */
|
|
it = "memccpy";
|
|
check(memccpy(one, "abc", 'q', 4) == NULL, 1); /* Returned value. */
|
|
equal(one, "abc", 2); /* Did the copy go right? */
|
|
|
|
(void) strcpy(one, "abcdefgh");
|
|
(void) memccpy(one+1, "xyz", 'q', 2);
|
|
equal(one, "axydefgh", 3); /* Basic test. */
|
|
|
|
(void) strcpy(one, "abc");
|
|
(void) memccpy(one, "xyz", 'q', 0);
|
|
equal(one, "abc", 4); /* Zero-length copy. */
|
|
|
|
(void) strcpy(one, "hi there");
|
|
(void) strcpy(two, "foo");
|
|
(void) memccpy(two, one, 'q', 9);
|
|
equal(two, "hi there", 5); /* Just paranoia. */
|
|
equal(one, "hi there", 6); /* Stomped on source? */
|
|
|
|
(void) strcpy(one, "abcdefgh");
|
|
(void) strcpy(two, "horsefeathers");
|
|
check(memccpy(two, one, 'f', 9) == two+6, 7); /* Returned value. */
|
|
equal(one, "abcdefgh", 8); /* Source intact? */
|
|
equal(two, "abcdefeathers", 9); /* Copy correct? */
|
|
|
|
(void) strcpy(one, "abcd");
|
|
(void) strcpy(two, "bumblebee");
|
|
check(memccpy(two, one, 'a', 4) == two+1, 10); /* First char. */
|
|
equal(two, "aumblebee", 11);
|
|
check(memccpy(two, one, 'd', 4) == two+4, 12); /* Last char. */
|
|
equal(two, "abcdlebee", 13);
|
|
(void) strcpy(one, "xyz");
|
|
check(memccpy(two, one, 'x', 1) == two+1, 14); /* Singleton. */
|
|
equal(two, "xbcdlebee", 15);
|
|
|
|
/* memset. */
|
|
it = "memset";
|
|
(void) strcpy(one, "abcdefgh");
|
|
check(memset(one+1, 'x', 3) == one+1, 1); /* Return value. */
|
|
equal(one, "axxxefgh", 2); /* Basic test. */
|
|
|
|
(void) memset(one+2, 'y', 0);
|
|
equal(one, "axxxefgh", 3); /* Zero-length set. */
|
|
|
|
(void) memset(one+5, 0, 1);
|
|
equal(one, "axxxe", 4); /* Zero fill. */
|
|
equal(one+6, "gh", 5); /* And the leftover. */
|
|
|
|
(void) memset(one+2, 010045, 1);
|
|
equal(one, "ax\045xe", 6); /* Unsigned char convert. */
|
|
|
|
/* bcopy - much like memcpy.
|
|
Berklix manual is silent about overlap, so don't test it. */
|
|
it = "bcopy";
|
|
(void) bcopy("abc", one, 4);
|
|
equal(one, "abc", 1); /* Simple copy. */
|
|
|
|
(void) strcpy(one, "abcdefgh");
|
|
(void) bcopy("xyz", one+1, 2);
|
|
equal(one, "axydefgh", 2); /* Basic test. */
|
|
|
|
(void) strcpy(one, "abc");
|
|
(void) bcopy("xyz", one, 0);
|
|
equal(one, "abc", 3); /* Zero-length copy. */
|
|
|
|
(void) strcpy(one, "hi there");
|
|
(void) strcpy(two, "foo");
|
|
(void) bcopy(one, two, 9);
|
|
equal(two, "hi there", 4); /* Just paranoia. */
|
|
equal(one, "hi there", 5); /* Stomped on source? */
|
|
|
|
/* bzero. */
|
|
it = "bzero";
|
|
(void) strcpy(one, "abcdef");
|
|
bzero(one+2, 2);
|
|
equal(one, "ab", 1); /* Basic test. */
|
|
equal(one+3, "", 2);
|
|
equal(one+4, "ef", 3);
|
|
|
|
(void) strcpy(one, "abcdef");
|
|
bzero(one+2, 0);
|
|
equal(one, "abcdef", 4); /* Zero-length copy. */
|
|
|
|
#if 0
|
|
/* bcmp - somewhat like memcmp. */
|
|
it = "bcmp";
|
|
check(bcmp("a", "a", 1) == 0, 1); /* Identity. */
|
|
check(bcmp("abc", "abc", 3) == 0, 2); /* Multicharacter. */
|
|
check(bcmp("abcd", "abce", 4) != 0, 3); /* Honestly unequal. */
|
|
check(bcmp("abce", "abcd", 4) != 0, 4);
|
|
check(bcmp("alph", "beta", 4) != 0, 5);
|
|
check(bcmp("abce", "abcd", 3) == 0, 6); /* Count limited. */
|
|
check(bcmp("abc", "def", 0) == 0, 8); /* Zero count. */
|
|
#endif
|
|
|
|
{
|
|
char text[] = "This,is,a,test";
|
|
char *list = text;
|
|
it = "strsep";
|
|
check (!strcmp ("This", strsep (&list, ",")), 1);
|
|
check (!strcmp ("is", strsep (&list, ",")), 2);
|
|
check (!strcmp ("a", strsep (&list, ",")), 3);
|
|
check (!strcmp ("test", strsep (&list, ",")), 4);
|
|
check (strsep (&list, ",") == NULL, 5);
|
|
}
|
|
|
|
/* strerror - VERY system-dependent. */
|
|
{
|
|
int f;
|
|
it = "strerror";
|
|
f = __open("/", O_WRONLY); /* Should always fail. */
|
|
check(f < 0 && errno > 0 && errno < _sys_nerr, 1);
|
|
equal(strerror(errno), _sys_errlist[errno], 2);
|
|
}
|
|
|
|
{
|
|
int status;
|
|
if (errors == 0)
|
|
{
|
|
status = EXIT_SUCCESS;
|
|
puts("No errors.");
|
|
}
|
|
else
|
|
{
|
|
status = EXIT_FAILURE;
|
|
printf("%Zd errors.\n", errors);
|
|
}
|
|
exit(status);
|
|
}
|
|
}
|