/* xbt_str.c - various helping functions to deal with strings */
-/* Copyright (c) 2007, 2008, 2009, 2010. The SimGrid Team.
+/* Copyright (c) 2007-2014. The SimGrid Team.
* All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
* under the terms of the license (GNU LGPL) which comes with this package. */
-#include "portable.h"
+#include "src/portable.h"
#include "xbt/misc.h"
#include "xbt/sysdep.h"
#include "xbt/str.h" /* headers of these functions */
xbt_str_ltrim(s, char_list);
}
-/** @brief Replace double whitespaces (but no other characters) from the string.
- *
- * The function modifies the string so that each time that several spaces appear,
- * they are replaced by a single space. It will only do so for spaces (ASCII 32, 0x20).
- *
- * @param s The string to strip. Modified in place.
- *
- */
-void xbt_str_strip_spaces(char *s)
-{
- char *p = s;
- int e = 0;
-
- if (!s)
- return;
-
- while (1) {
- if (!*p)
- goto end;
-
- if (*p != ' ')
- break;
-
- p++;
- }
-
- e = 1;
-
- do {
- if (e)
- *s++ = *p;
-
- if (!*++p)
- goto end;
-
- if (e ^ (*p != ' '))
- if ((e = !e))
- *s++ = ' ';
- } while (1);
-
-end:
- *s = '\0';
-}
-
/** @brief Substitutes a char for another in a string
*
* @param str the string to modify
//if substring was not found add the entire string
if (NULL == q) {
v = strlen(p);
- to_push = malloc(v + 1);
+ to_push = xbt_malloc(v + 1);
memcpy(to_push, p, v);
to_push[v] = '\0';
xbt_dynar_push(res, &to_push);
done = 1;
} else {
//get the appearance
- to_push = malloc(q - p + 1);
+ to_push = xbt_malloc(q - p + 1);
memcpy(to_push, p, q - p);
//add string terminator
to_push[q - p] = '\0';
*
* The string passed as argument must be writable (not const)
* The elements of the dynar are just parts of the string passed as argument.
- *
- * To free the structure constructed by this function, free the first element and free the dynar:
- *
- * free(xbt_dynar_get_ptr(dynar,0));
- * xbt_dynar_free(&dynar);
+ * So if you don't store that argument elsewhere, you should free it in addition
+ * to freeing the dynar. This can be done by simply freeing the first argument
+ * of the dynar:
+ * free(xbt_dynar_get_ptr(dynar,0));
+ *
+ * Actually this function puts a bunch of \0 in the memory area you passed as
+ * argument to separate the elements, and pushes the address of each chunk
+ * in the resulting dynar. Yes, that's uneven. Yes, that's gory. But that's efficient.
*/
xbt_dynar_t xbt_str_split_quoted_in_place(char *s) {
xbt_dynar_t res = xbt_dynar_new(sizeof(char *), NULL);
beg = s;
- /* do not trim leading spaces: caller responsability to clean his cruft */
+ /* do not trim leading spaces: caller responsibility to clean his cruft */
end = beg;
while (!done) {
return res;
}
-#if defined(SIMGRID_NEED_GETLINE) || defined(DOXYGEN)
-/** @brief Get a single line from the stream (reimplementation of the GNU getline)
- *
- * This is a redefinition of the GNU getline function, used on platforms where it does not exists.
- *
- * getline() reads an entire line from stream, storing the address of the buffer
- * containing the text into *buf. The buffer is null-terminated and includes
- * the newline character, if one was found.
- *
- * If *buf is NULL, then getline() will allocate a buffer for storing the line,
- * which should be freed by the user program. Alternatively, before calling getline(),
- * *buf can contain a pointer to a malloc()-allocated buffer *n bytes in size. If the buffer
- * is not large enough to hold the line, getline() resizes it with realloc(), updating *buf and *n
- * as necessary. In either case, on a successful call, *buf and *n will be updated to
- * reflect the buffer address and allocated size respectively.
- */
-long getline(char **buf, size_t * n, FILE * stream)
-{
-
- size_t i;
- int ch;
-
- if (!*buf) {
- *buf = xbt_malloc(512);
- *n = 512;
- }
-
- if (feof(stream))
- return (ssize_t) - 1;
-
- for (i = 0; (ch = fgetc(stream)) != EOF; i++) {
-
- if (i >= (*n) + 1)
- *buf = xbt_realloc(*buf, *n += 512);
-
- (*buf)[i] = ch;
-
- if ((*buf)[i] == '\n') {
- i++;
- (*buf)[i] = '\0';
- break;
- }
- }
-
- if (i == *n)
- *buf = xbt_realloc(*buf, *n += 1);
-
- (*buf)[i] = '\0';
-
- return (ssize_t) i;
-}
-
-#endif /* HAVE_GETLINE */
-
-/*
- * Diff related functions
- *
- * Implementation of the algorithm described in "An O(NP) Sequence Comparison
- * Algorithm", by Sun Wu, Udi Manber, Gene Myers, and Webb Miller (Information
- * Processing Letters 35(6):317-323, 1990), with the linear-space
- * divide-and-conquer strategy described in "An O(ND) Difference Algorithm and
- * Its Variations", by Eugene W. Myers (Algorithmica 1:251-266, 1986).
- */
-
-struct subsequence {
- int x, y; /* starting coordinates */
- int len; /* length */
-};
-
-static XBT_INLINE
-void diff_snake(const char *vec_a[], int a0, int len_a,
- const char *vec_b[], int b0, int len_b,
- struct subsequence *seqs, int *fp, int k, int limit)
-{
- int record_seq;
- int x, y;
- int fp_left = fp[k - 1] + 1;
- int fp_right = fp[k + 1];
- if (fp_left > fp_right) {
- x = fp_left;
- record_seq = k - 1;
- } else {
- x = fp_right;
- record_seq = k + 1;
- }
- y = x - k;
- if (x + y <= limit) {
- seqs[k].x = x;
- seqs[k].y = y;
- record_seq = k;
- } else {
- seqs[k] = seqs[record_seq];
- }
- while (x < len_a && y < len_b && !strcmp(vec_a[a0 + x], vec_b[b0 + y]))
- ++x, ++y;
- fp[k] = x;
- if (record_seq == k)
- seqs[k].len = x - seqs[k].x;
-}
-
-/* Returns the length of a shortest edit script, and a common
- * subsequence from the middle.
- */
-static int diff_middle_subsequence(const char *vec_a[], int a0, int len_a,
- const char *vec_b[], int b0, int len_b,
- struct subsequence *subseq,
- struct subsequence *seqs, int *fp)
-{
- const int delta = len_a - len_b;
- const int limit = (len_a + len_b) / 2;
- int kmin;
- int kmax;
- int k;
- int p = -1;
-
- if (delta >= 0) {
- kmin = 0;
- kmax = delta;
- } else {
- kmin = delta;
- kmax = 0;
- }
- for (k = kmin; k <= kmax; k++)
- fp[k] = -1;
- do {
- p++;
- fp[kmin - p - 1] = fp[kmax + p + 1] = -1;
- for (k = kmax + p; k > delta; k--)
- diff_snake(vec_a, a0, len_a, vec_b, b0, len_b, seqs, fp, k, limit);
- for (k = kmin - p; k <= delta; k++)
- diff_snake(vec_a, a0, len_a, vec_b, b0, len_b, seqs, fp, k, limit);
- } while (fp[delta] != len_a);
-
- subseq->x = a0 + seqs[delta].x;
- subseq->y = b0 + seqs[delta].y;
- subseq->len = seqs[delta].len;
- return abs(delta) + 2 * p;;
-}
-
-/* Finds a longest common subsequence.
- * Returns its length.
- */
-static int diff_compute_lcs(const char *vec_a[], int a0, int len_a,
- const char *vec_b[], int b0, int len_b,
- xbt_dynar_t common_sequence,
- struct subsequence *seqs, int *fp)
-{
- if (len_a > 0 && len_b > 0) {
- struct subsequence subseq;
- int ses_len = diff_middle_subsequence(vec_a, a0, len_a, vec_b, b0, len_b,
- &subseq, seqs, fp);
- int lcs_len = (len_a + len_b - ses_len) / 2;
- if (lcs_len == 0) {
- return 0;
- } else if (ses_len > 1) {
- int lcs_len1 = subseq.len;
- if (lcs_len1 < lcs_len)
- lcs_len1 += diff_compute_lcs(vec_a, a0, subseq.x - a0,
- vec_b, b0, subseq.y - b0,
- common_sequence, seqs, fp);
- if (subseq.len > 0)
- xbt_dynar_push(common_sequence, &subseq);
- if (lcs_len1 < lcs_len) {
- int u = subseq.x + subseq.len;
- int v = subseq.y + subseq.len;
- diff_compute_lcs(vec_a, u, a0 + len_a - u, vec_b, v, b0 + len_b - v,
- common_sequence, seqs, fp);
- }
- } else {
- int len = MIN(len_a, len_b) - subseq.len;
- if (subseq.x == a0 && subseq.y == b0) {
- if (subseq.len > 0)
- xbt_dynar_push(common_sequence, &subseq);
- if (len > 0) {
- struct subsequence subseq0 = {a0 + len_a - len,
- b0 + len_b - len, len};
- xbt_dynar_push(common_sequence, &subseq0);
- }
- } else {
- if (len > 0) {
- struct subsequence subseq0 = {a0, b0, len};
- xbt_dynar_push(common_sequence, &subseq0);
- }
- if (subseq.len > 0)
- xbt_dynar_push(common_sequence, &subseq);
- }
- }
- return lcs_len;
- } else {
- return 0;
- }
-}
-
-static int diff_member(const char *s, const char *vec[], int from, int to)
-{
- for ( ; from < to ; from++)
- if (!strcmp(s, vec[from]))
- return 1;
- return 0;
-}
-
-/* Extract common prefix.
- */
-static void diff_easy_prefix(const char *vec_a[], int *a0_p, int *len_a_p,
- const char *vec_b[], int *b0_p, int *len_b_p,
- xbt_dynar_t common_sequence)
-{
- int a0 = *a0_p;
- int b0 = *b0_p;
- int len_a = *len_a_p;
- int len_b = *len_b_p;
-
- while (len_a > 0 && len_b > 0) {
- struct subsequence subseq = {a0, b0, 0};
- while (len_a > 0 && len_b > 0 && !strcmp(vec_a[a0], vec_b[b0])) {
- a0++, len_a--;
- b0++, len_b--;
- subseq.len++;
- }
- if (subseq.len > 0)
- xbt_dynar_push(common_sequence, &subseq);
- if (len_a > 0 && len_b > 0 &&
- !diff_member(vec_a[a0], vec_b, b0 + 1, b0 + len_b)) {
- a0++, len_a--;
- } else {
- break;
- }
- }
-
- *a0_p = a0;
- *b0_p = b0;
- *len_a_p = len_a;
- *len_b_p = len_b;
-}
-
-/* Extract common suffix.
- */
-static void diff_easy_suffix(const char *vec_a[], int *a0_p, int *len_a_p,
- const char *vec_b[], int *b0_p, int *len_b_p,
- xbt_dynar_t common_suffix)
-{
- int a0 = *a0_p;
- int b0 = *b0_p;
- int len_a = *len_a_p;
- int len_b = *len_b_p;
-
- while (len_a > 0 && len_b > 0){
- struct subsequence subseq;
- subseq.len = 0;
- while (len_a > 0 && len_b > 0 &&
- !strcmp(vec_a[a0 + len_a - 1], vec_b[b0 + len_b - 1])) {
- len_a--;
- len_b--;
- subseq.len++;
- }
- if (subseq.len > 0) {
- subseq.x = a0 + len_a;
- subseq.y = b0 + len_b;
- xbt_dynar_push(common_suffix, &subseq);
- }
- if (len_a > 0 && len_b > 0 &&
- !diff_member(vec_b[b0 + len_b - 1], vec_a, a0, a0 + len_a - 1)) {
- len_b--;
- } else {
- break;
- }
- }
-
- *a0_p = a0;
- *b0_p = b0;
- *len_a_p = len_a;
- *len_b_p = len_b;
-}
-
-/** @brief Compute the unified diff of two strings */
-char *xbt_str_diff(const char *a, const char *b)
-{
- xbt_dynar_t da = xbt_str_split(a, "\n");
- xbt_dynar_t db = xbt_str_split(b, "\n");
- xbt_dynar_t common_sequence, common_suffix;
- size_t len;
- const char **vec_a, **vec_b;
- int a0, b0;
- int len_a, len_b;
- int max;
- int *fp_base, *fp;
- struct subsequence *seqs_base, *seqs;
- struct subsequence subseq;
- xbt_dynar_t diff;
- char *res;
- int x, y;
- unsigned s;
-
- /* Clean empty lines at the end of da and db */
- len = strlen(a);
- if (len > 0 && a[len - 1] == '\n')
- xbt_dynar_pop(da, NULL);
- len = strlen(b);
- if (len > 0 && b[len - 1] == '\n')
- xbt_dynar_pop(db, NULL);
-
- /* Various initializations */
- /* Assume that dynar's content is contiguous */
- a0 = 0;
- len_a = xbt_dynar_length(da);
- vec_a = len_a ? xbt_dynar_get_ptr(da, 0) : NULL;
- b0 = 0;
- len_b = xbt_dynar_length(db);
- vec_b = len_b ? xbt_dynar_get_ptr(db, 0) : NULL;
- max = MAX(len_a, len_b) + 1;
- fp_base = xbt_new(int, 2 * max + 1);
- fp = fp_base + max; /* indexes in [-max..max] */
- seqs_base = xbt_new(struct subsequence, 2 * max + 1);
- seqs = seqs_base + max; /* indexes in [-max..max] */
- common_sequence = xbt_dynar_new(sizeof(struct subsequence), NULL);
- common_suffix = xbt_dynar_new(sizeof(struct subsequence), NULL);
-
- /* Add a sentinel a the end of the sequence */
- subseq.x = len_a;
- subseq.y = len_b;
- subseq.len = 0;
- xbt_dynar_push(common_suffix, &subseq);
-
- /* Compute the Longest Common Subsequence */
- diff_easy_prefix(vec_a, &a0, &len_a, vec_b, &b0, &len_b, common_sequence);
- diff_easy_suffix(vec_a, &a0, &len_a, vec_b, &b0, &len_b, common_suffix);
- diff_compute_lcs(vec_a, a0, len_a, vec_b, b0, len_b, common_sequence, seqs, fp);
- while (!xbt_dynar_is_empty(common_suffix)) {
- xbt_dynar_pop(common_suffix, &subseq);
- xbt_dynar_push(common_sequence, &subseq);
- }
-
- /* Build a Shortest Edit Script, and the final result */
- diff = xbt_dynar_new(sizeof(char *), &xbt_free_ref);
- x = 0;
- y = 0;
- xbt_dynar_foreach(common_sequence, s, subseq) {
- while (x < subseq.x) {
- char *topush = bprintf("- %s", vec_a[x++]);
- xbt_dynar_push_as(diff, char*, topush);
- }
- while (y < subseq.y) {
- char *topush = bprintf("+ %s", vec_b[y++]);
- xbt_dynar_push_as(diff, char*, topush);
- }
- while (x < subseq.x + subseq.len) {
- char *topush = bprintf(" %s", vec_a[x++]);
- xbt_dynar_push_as(diff, char*, topush);
- y++;
- }
- }
- res = xbt_str_join(diff, "\n");
-
- xbt_free(fp_base);
- xbt_free(seqs_base);
- xbt_dynar_free(&db);
- xbt_dynar_free(&da);
- xbt_dynar_free(&common_sequence);
- xbt_dynar_free(&common_suffix);
- xbt_dynar_free(&diff);
-
- return res;
-}
-
-
/** @brief creates a new string containing what can be read on a fd
*
*/
return res;
}
-/* @brief Retrun 1 if string 'str' starts with string 'start'
+/** @brief Parse an integer out of a string, or raise an error
*
- * \param str a string
- * \param start the string to search in str
- *
- * \return 1 if 'str' starts with 'start'
+ * The #str is passed as argument to your #error_msg, as follows:
+ * THROWF(arg_error, 0, error_msg, str);
*/
-int xbt_str_start_with(const char* str, const char* start)
+long int xbt_str_parse_int(const char* str, const char* error_msg)
{
- int i;
- size_t l_str = strlen(str);
- size_t l_start = strlen(start);
+ char *endptr;
+ if (str == NULL || str[0] == '\0')
+ THROWF(arg_error, 0, error_msg, str);
- if(l_start > l_str) return 0;
+ long int res = strtol(str, &endptr, 10);
+ if (endptr[0] != '\0')
+ THROWF(arg_error, 0, error_msg, str);
- for(i = 0; i< l_start; i++){
- if(str[i] != start[i]) return 0;
- }
+ return res;
+}
+/** @brief Parse a double out of a string, or raise an error
+ *
+ * The #str is passed as argument to your #error_msg, as follows:
+ * THROWF(arg_error, 0, error_msg, str);
+ */
+double xbt_str_parse_double(const char* str, const char* error_msg)
+{
+ char *endptr;
+ if (str == NULL || str[0] == '\0')
+ THROWF(arg_error, 0, error_msg, str);
+
+ double res = strtod(str, &endptr);
+ if (endptr[0] != '\0')
+ THROWF(arg_error, 0, error_msg, str);
- return 1;
+ return res;
}
#ifdef SIMGRID_TEST
#include "xbt/str.h"
+XBT_TEST_SUITE("xbt_str", "String Handling");
+
#define mytest(name, input, expected) \
xbt_test_add(name); \
d=xbt_str_split_quoted(input); \
input,s,expected);\
free(s); \
xbt_dynar_free(&d);
-
-XBT_TEST_SUITE("xbt_str", "String Handling");
XBT_TEST_UNIT("xbt_str_split_quoted", test_split_quoted, "test the function xbt_str_split_quoted")
{
xbt_dynar_t d;
mytest_str("Basic test", "toto##tutu", "##", "totoXXXtutu");
}
-/* Last args are format string and parameters for xbt_test_add */
-#define mytest_diff(s1, s2, diff, ...) \
+#define test_parse_error(function, name, variable, str) \
do { \
- char *mytest_diff_res; \
- xbt_test_add(__VA_ARGS__); \
- mytest_diff_res = xbt_str_diff(s1, s2); \
- xbt_test_assert(!strcmp(mytest_diff_res, diff), \
- "Wrong output:\n--- got:\n%s\n--- expected:\n%s\n---", \
- mytest_diff_res, diff); \
- free(mytest_diff_res); \
+ xbt_test_add(name); \
+ TRY { \
+ variable = function(str, "Parse error"); \
+ xbt_test_fail("The test '%s' did not detect the problem",name ); \
+ } CATCH(e) { \
+ if (e.category != arg_error) { \
+ xbt_test_exception(e); \
+ } else { \
+ xbt_ex_free(e); \
+ } \
+ } \
+ } while (0)
+#define test_parse_ok(function, name, variable, str, value) \
+ do { \
+ xbt_test_add(name); \
+ TRY { \
+ variable = function(str, "Parse error"); \
+ } CATCH(e) { \
+ xbt_test_exception(e); \
+ } \
+ xbt_test_assert(variable == value, "Fail to parse '%s'", str); \
} while (0)
-XBT_TEST_UNIT("xbt_str_diff", test_diff, "test the function xbt_str_diff")
+XBT_TEST_UNIT("xbt_str_parse", test_parse, "Test the parsing functions")
{
- unsigned i;
-
- /* Trivial cases */
- mytest_diff("a", "a", " a", "1 word, no difference");
- mytest_diff("a", "A", "- a\n+ A", "1 word, different");
- mytest_diff("a\n", "a\n", " a", "1 line, no difference");
- mytest_diff("a\n", "A\n", "- a\n+ A", "1 line, different");
-
- /* Empty strings */
- mytest_diff("", "", "", "empty strings");
- mytest_diff("", "a", "+ a", "1 word, added");
- mytest_diff("a", "", "- a", "1 word, removed");
- mytest_diff("", "a\n", "+ a", "1 line, added");
- mytest_diff("a\n", "", "- a", "1 line, removed");
- mytest_diff("", "a\nb\nc\n", "+ a\n+ b\n+ c", "4 lines, all added");
- mytest_diff("a\nb\nc\n", "", "- a\n- b\n- c", "4 lines, all removed");
-
- /* Empty lines */
- mytest_diff("\n", "\n", " ", "empty lines");
- mytest_diff("", "\n", "+ ", "empty line, added");
- mytest_diff("\n", "", "- ", "empty line, removed");
-
- mytest_diff("a", "\na", "+ \n a", "empty line added before word");
- mytest_diff("a", "a\n\n", " a\n+ ", "empty line added after word");
- mytest_diff("\na", "a", "- \n a", "empty line removed before word");
- mytest_diff("a\n\n", "a", " a\n- ", "empty line removed after word");
-
- mytest_diff("a\n", "\na\n", "+ \n a", "empty line added before line");
- mytest_diff("a\n", "a\n\n", " a\n+ ", "empty line added after line");
- mytest_diff("\na\n", "a\n", "- \n a", "empty line removed before line");
- mytest_diff("a\n\n", "a\n", " a\n- ", "empty line removed after line");
-
- mytest_diff("a\nb\nc\nd\n", "\na\nb\nc\nd\n", "+ \n a\n b\n c\n d",
- "empty line added before 4 lines");
- mytest_diff("a\nb\nc\nd\n", "a\nb\nc\nd\n\n", " a\n b\n c\n d\n+ ",
- "empty line added after 4 lines");
- mytest_diff("\na\nb\nc\nd\n", "a\nb\nc\nd\n", "- \n a\n b\n c\n d",
- "empty line removed before 4 lines");
- mytest_diff("a\nb\nc\nd\n\n", "a\nb\nc\nd\n", " a\n b\n c\n d\n- ",
- "empty line removed after 4 lines");
-
- /* Missing newline at the end of one of the strings */
- mytest_diff("a\n", "a", " a", "1 line, 1 word, no difference");
- mytest_diff("a", "a\n", " a", "1 word, 1 line, no difference");
- mytest_diff("a\n", "A", "- a\n+ A", "1 line, 1 word, different");
- mytest_diff("a", "A\n", "- a\n+ A", "1 word, 1 line, different");
-
- mytest_diff("a\nb\nc\nd", "a\nb\nc\nd\n", " a\n b\n c\n d",
- "4 lines, no newline on first");
- mytest_diff("a\nb\nc\nd\n", "a\nb\nc\nd", " a\n b\n c\n d",
- "4 lines, no newline on second");
-
- /* Four lines, all combinations of differences */
- for (i = 0 ; i < (1U << 4) ; i++) {
- char d2[4 + 1];
- char s2[4 * 2 + 1];
- char res[4 * 8 + 1];
- char *pd = d2;
- char *ps = s2;
- char *pr = res;
- unsigned j = 0;
- while (j < 4) {
- unsigned k;
- for (/* j */ ; j < 4 && !(i & (1U << j)) ; j++) {
- *pd++ = "abcd"[j];
- ps += sprintf(ps, "%c\n", "abcd"[j]);
- pr += sprintf(pr, " %c\n", "abcd"[j]);
- }
- for (k = j ; k < 4 && (i & (1U << k)) ; k++) {
- *pd++ = "ABCD"[k];
- ps += sprintf(ps, "%c\n", "ABCD"[k]);
- pr += sprintf(pr, "- %c\n", "abcd"[k]);
- }
- for (/* j */ ; j < k ; j++) {
- pr += sprintf(pr, "+ %c\n", "ABCD"[j]);
- }
- }
- *pd = '\0';
- *--pr = '\0'; /* strip last '\n' from expected result */
- mytest_diff("a\nb\nc\nd\n", s2, res,
- "compare (abcd) with changed (%s)", d2);
- }
-
- /* Subsets of four lines, do not test for empty subset */
- for (i = 1 ; i < (1U << 4) ; i++) {
- char d2[4 + 1];
- char s2[4 * 2 + 1];
- char res[4 * 8 + 1];
- char *pd = d2;
- char *ps = s2;
- char *pr = res;
- unsigned j = 0;
- while (j < 4) {
- for (/* j */ ; j < 4 && (i & (1U << j)) ; j++) {
- *pd++ = "abcd"[j];
- ps += sprintf(ps, "%c\n", "abcd"[j]);
- pr += sprintf(pr, " %c\n", "abcd"[j]);
- }
- for (/* j */; j < 4 && !(i & (1U << j)) ; j++) {
- pr += sprintf(pr, "- %c\n", "abcd"[j]);
- }
- }
- *pd = '\0';
- *--pr = '\0'; /* strip last '\n' from expected result */
- mytest_diff("a\nb\nc\nd\n", s2, res,
- "compare (abcd) with subset (%s)", d2);
-
- for (pr = res ; *pr != '\0' ; pr++)
- if (*pr == '-')
- *pr = '+';
- mytest_diff(s2, "a\nb\nc\nd\n", res,
- "compare subset (%s) with (abcd)", d2);
- }
+ xbt_ex_t e;
+ int rint = -9999;
+ test_parse_ok(xbt_str_parse_int, "Parse int", rint, "42", 42);
+ test_parse_ok(xbt_str_parse_int, "Parse 0 as an int", rint, "0", 0);
+ test_parse_ok(xbt_str_parse_int, "Parse -1 as an int", rint, "-1", -1);
+
+ test_parse_error(xbt_str_parse_int, "Parse int + noise", rint, "342 cruft");
+ test_parse_error(xbt_str_parse_int, "Parse NULL as an int", rint, NULL);
+ test_parse_error(xbt_str_parse_int, "Parse '' as an int", rint, "");
+ test_parse_error(xbt_str_parse_int, "Parse cruft as an int", rint, "cruft");
+
+ double rdouble = -9999;
+ test_parse_ok(xbt_str_parse_double, "Parse 42 as a double", rdouble, "42", 42);
+ test_parse_ok(xbt_str_parse_double, "Parse 42.5 as a double", rdouble, "42.5", 42.5);
+ test_parse_ok(xbt_str_parse_double, "Parse 0 as a double", rdouble, "0", 0);
+ test_parse_ok(xbt_str_parse_double, "Parse -1 as a double", rdouble, "-1", -1);
+
+ test_parse_error(xbt_str_parse_double, "Parse double + noise", rdouble, "342 cruft");
+ test_parse_error(xbt_str_parse_double, "Parse NULL as a double", rdouble, NULL);
+ test_parse_error(xbt_str_parse_double, "Parse '' as a double", rdouble, "");
+ test_parse_error(xbt_str_parse_double, "Parse cruft as a double", rdouble, "cruft");
}
#endif /* SIMGRID_TEST */