/* * Copyright (C) 2005 - 2006, Marco Barisione * Copyright (C) 2010 Red Hat, Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, see . */ #undef G_DISABLE_ASSERT #undef G_LOG_DOMAIN #include "config.h" #include #include #include "glib.h" /* U+20AC EURO SIGN (symbol, currency) */ #define EURO "\xe2\x82\xac" /* U+00E0 LATIN SMALL LETTER A WITH GRAVE (letter, lowercase) */ #define AGRAVE "\xc3\xa0" /* U+00C0 LATIN CAPITAL LETTER A WITH GRAVE (letter, uppercase) */ #define AGRAVE_UPPER "\xc3\x80" /* U+00E8 LATIN SMALL LETTER E WITH GRAVE (letter, lowercase) */ #define EGRAVE "\xc3\xa8" /* U+00F2 LATIN SMALL LETTER O WITH GRAVE (letter, lowercase) */ #define OGRAVE "\xc3\xb2" /* U+014B LATIN SMALL LETTER ENG (letter, lowercase) */ #define ENG "\xc5\x8b" /* U+0127 LATIN SMALL LETTER H WITH STROKE (letter, lowercase) */ #define HSTROKE "\xc4\xa7" /* U+0634 ARABIC LETTER SHEEN (letter, other) */ #define SHEEN "\xd8\xb4" /* U+1374 ETHIOPIC NUMBER THIRTY (number, other) */ #define ETH30 "\xe1\x8d\xb4" /* A random value use to mark untouched integer variables. */ #define UNTOUCHED -559038737 static gint total; typedef struct { const gchar *pattern; GRegexCompileFlags compile_opts; GRegexMatchFlags match_opts; gint expected_error; gboolean check_flags; GRegexCompileFlags real_compile_opts; GRegexMatchFlags real_match_opts; } TestNewData; static void test_new (gconstpointer d) { const TestNewData *data = d; GRegex *regex; GError *error = NULL; regex = g_regex_new (data->pattern, data->compile_opts, data->match_opts, &error); g_assert (regex != NULL); g_assert_no_error (error); g_assert_cmpstr (data->pattern, ==, g_regex_get_pattern (regex)); if (data->check_flags) { g_assert_cmphex (g_regex_get_compile_flags (regex), ==, data->real_compile_opts); g_assert_cmphex (g_regex_get_match_flags (regex), ==, data->real_match_opts); } g_regex_unref (regex); } #define TEST_NEW(_pattern, _compile_opts, _match_opts) { \ TestNewData *data; \ gchar *path; \ data = g_new0 (TestNewData, 1); \ data->pattern = _pattern; \ data->compile_opts = _compile_opts; \ data->match_opts = _match_opts; \ data->expected_error = 0; \ data->check_flags = FALSE; \ path = g_strdup_printf ("/regex/new/%d", ++total); \ g_test_add_data_func_full (path, data, test_new, g_free); \ g_free (path); \ } #define TEST_NEW_CHECK_FLAGS(_pattern, _compile_opts, _match_opts, _real_compile_opts, _real_match_opts) { \ TestNewData *data; \ gchar *path; \ data = g_new0 (TestNewData, 1); \ data->pattern = _pattern; \ data->compile_opts = _compile_opts; \ data->match_opts = 0; \ data->expected_error = 0; \ data->check_flags = TRUE; \ data->real_compile_opts = _real_compile_opts; \ data->real_match_opts = _real_match_opts; \ path = g_strdup_printf ("/regex/new-check-flags/%d", ++total); \ g_test_add_data_func_full (path, data, test_new, g_free); \ g_free (path); \ } static void test_new_fail (gconstpointer d) { const TestNewData *data = d; GRegex *regex; GError *error = NULL; regex = g_regex_new (data->pattern, data->compile_opts, data->match_opts, &error); g_assert (regex == NULL); g_assert_error (error, G_REGEX_ERROR, data->expected_error); g_error_free (error); } #define TEST_NEW_FAIL(_pattern, _compile_opts, _expected_error) { \ TestNewData *data; \ gchar *path; \ data = g_new0 (TestNewData, 1); \ data->pattern = _pattern; \ data->compile_opts = _compile_opts; \ data->match_opts = 0; \ data->expected_error = _expected_error; \ path = g_strdup_printf ("/regex/new-fail/%d", ++total); \ g_test_add_data_func_full (path, data, test_new_fail, g_free); \ g_free (path); \ } typedef struct { const gchar *pattern; const gchar *string; GRegexCompileFlags compile_opts; GRegexMatchFlags match_opts; gboolean expected; gssize string_len; gint start_position; GRegexMatchFlags match_opts2; } TestMatchData; static void test_match_simple (gconstpointer d) { const TestMatchData *data = d; gboolean match; match = g_regex_match_simple (data->pattern, data->string, data->compile_opts, data->match_opts); g_assert_cmpint (match, ==, data->expected); } #define TEST_MATCH_SIMPLE_NAMED(_name, _pattern, _string, _compile_opts, _match_opts, _expected) { \ TestMatchData *data; \ gchar *path; \ data = g_new0 (TestMatchData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->compile_opts = _compile_opts; \ data->match_opts = _match_opts; \ data->expected = _expected; \ path = g_strdup_printf ("/regex/match-%s/%d", _name, ++total); \ g_test_add_data_func_full (path, data, test_match_simple, g_free); \ g_free (path); \ } #define TEST_MATCH_SIMPLE(_pattern, _string, _compile_opts, _match_opts, _expected) \ TEST_MATCH_SIMPLE_NAMED("simple", _pattern, _string, _compile_opts, _match_opts, _expected) #define TEST_MATCH_NOTEMPTY(_pattern, _string, _expected) \ TEST_MATCH_SIMPLE_NAMED("notempty", _pattern, _string, 0, G_REGEX_MATCH_NOTEMPTY, _expected) #define TEST_MATCH_NOTEMPTY_ATSTART(_pattern, _string, _expected) \ TEST_MATCH_SIMPLE_NAMED("notempty-atstart", _pattern, _string, 0, G_REGEX_MATCH_NOTEMPTY_ATSTART, _expected) static void test_match (gconstpointer d) { const TestMatchData *data = d; GRegex *regex; gboolean match; GError *error = NULL; regex = g_regex_new (data->pattern, data->compile_opts, data->match_opts, &error); g_assert (regex != NULL); g_assert_no_error (error); match = g_regex_match_full (regex, data->string, data->string_len, data->start_position, data->match_opts2, NULL, NULL); g_assert_cmpint (match, ==, data->expected); if (data->string_len == -1 && data->start_position == 0) { match = g_regex_match (regex, data->string, data->match_opts2, NULL); g_assert_cmpint (match, ==, data->expected); } g_regex_unref (regex); } #define TEST_MATCH(_pattern, _compile_opts, _match_opts, _string, \ _string_len, _start_position, _match_opts2, _expected) { \ TestMatchData *data; \ gchar *path; \ data = g_new0 (TestMatchData, 1); \ data->pattern = _pattern; \ data->compile_opts = _compile_opts; \ data->match_opts = _match_opts; \ data->string = _string; \ data->string_len = _string_len; \ data->start_position = _start_position; \ data->match_opts2 = _match_opts2; \ data->expected = _expected; \ path = g_strdup_printf ("/regex/match/%d", ++total); \ g_test_add_data_func_full (path, data, test_match, g_free); \ g_free (path); \ } struct _Match { gchar *string; gint start, end; }; typedef struct _Match Match; static void free_match (gpointer data) { Match *match = data; if (match == NULL) return; g_free (match->string); g_free (match); } typedef struct { const gchar *pattern; const gchar *string; gssize string_len; gint start_position; GSList *expected; } TestMatchNextData; static void test_match_next (gconstpointer d) { const TestMatchNextData *data = d; GRegex *regex; GMatchInfo *match_info; GSList *matches; GSList *l_exp, *l_match; regex = g_regex_new (data->pattern, 0, 0, NULL); g_assert (regex != NULL); g_regex_match_full (regex, data->string, data->string_len, data->start_position, 0, &match_info, NULL); matches = NULL; while (g_match_info_matches (match_info)) { Match *match = g_new0 (Match, 1); match->string = g_match_info_fetch (match_info, 0); match->start = UNTOUCHED; match->end = UNTOUCHED; g_match_info_fetch_pos (match_info, 0, &match->start, &match->end); matches = g_slist_prepend (matches, match); g_match_info_next (match_info, NULL); } g_assert (regex == g_match_info_get_regex (match_info)); g_assert_cmpstr (data->string, ==, g_match_info_get_string (match_info)); g_match_info_free (match_info); matches = g_slist_reverse (matches); g_assert_cmpint (g_slist_length (matches), ==, g_slist_length (data->expected)); l_exp = data->expected; l_match = matches; while (l_exp != NULL) { Match *exp = l_exp->data; Match *match = l_match->data; g_assert_cmpstr (exp->string, ==, match->string); g_assert_cmpint (exp->start, ==, match->start); g_assert_cmpint (exp->end, ==, match->end); l_exp = g_slist_next (l_exp); l_match = g_slist_next (l_match); } g_regex_unref (regex); g_slist_free_full (matches, free_match); } static void free_match_next_data (gpointer _data) { TestMatchNextData *data = _data; g_slist_free_full (data->expected, g_free); g_free (data); } #define TEST_MATCH_NEXT0(_pattern, _string, _string_len, _start_position) { \ TestMatchNextData *data; \ gchar *path; \ data = g_new0 (TestMatchNextData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->string_len = _string_len; \ data->start_position = _start_position; \ data->expected = NULL; \ path = g_strdup_printf ("/regex/match/next0/%d", ++total); \ g_test_add_data_func_full (path, data, test_match_next, free_match_next_data); \ g_free (path); \ } #define TEST_MATCH_NEXT1(_pattern, _string, _string_len, _start_position, \ t1, s1, e1) { \ TestMatchNextData *data; \ Match *match; \ gchar *path; \ data = g_new0 (TestMatchNextData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->string_len = _string_len; \ data->start_position = _start_position; \ match = g_new0 (Match, 1); \ match->string = t1; \ match->start = s1; \ match->end = e1; \ data->expected = g_slist_append (NULL, match); \ path = g_strdup_printf ("/regex/match/next1/%d", ++total); \ g_test_add_data_func_full (path, data, test_match_next, free_match_next_data); \ g_free (path); \ } #define TEST_MATCH_NEXT2(_pattern, _string, _string_len, _start_position, \ t1, s1, e1, t2, s2, e2) { \ TestMatchNextData *data; \ Match *match; \ gchar *path; \ data = g_new0 (TestMatchNextData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->string_len = _string_len; \ data->start_position = _start_position; \ match = g_new0 (Match, 1); \ match->string = t1; \ match->start = s1; \ match->end = e1; \ data->expected = g_slist_append (NULL, match); \ match = g_new0 (Match, 1); \ match->string = t2; \ match->start = s2; \ match->end = e2; \ data->expected = g_slist_append (data->expected, match); \ path = g_strdup_printf ("/regex/match/next2/%d", ++total); \ g_test_add_data_func_full (path, data, test_match_next, free_match_next_data); \ g_free (path); \ } #define TEST_MATCH_NEXT3(_pattern, _string, _string_len, _start_position, \ t1, s1, e1, t2, s2, e2, t3, s3, e3) { \ TestMatchNextData *data; \ Match *match; \ gchar *path; \ data = g_new0 (TestMatchNextData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->string_len = _string_len; \ data->start_position = _start_position; \ match = g_new0 (Match, 1); \ match->string = t1; \ match->start = s1; \ match->end = e1; \ data->expected = g_slist_append (NULL, match); \ match = g_new0 (Match, 1); \ match->string = t2; \ match->start = s2; \ match->end = e2; \ data->expected = g_slist_append (data->expected, match); \ match = g_new0 (Match, 1); \ match->string = t3; \ match->start = s3; \ match->end = e3; \ data->expected = g_slist_append (data->expected, match); \ path = g_strdup_printf ("/regex/match/next3/%d", ++total); \ g_test_add_data_func_full (path, data, test_match_next, free_match_next_data); \ g_free (path); \ } #define TEST_MATCH_NEXT4(_pattern, _string, _string_len, _start_position, \ t1, s1, e1, t2, s2, e2, t3, s3, e3, t4, s4, e4) { \ TestMatchNextData *data; \ Match *match; \ gchar *path; \ data = g_new0 (TestMatchNextData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->string_len = _string_len; \ data->start_position = _start_position; \ match = g_new0 (Match, 1); \ match->string = t1; \ match->start = s1; \ match->end = e1; \ data->expected = g_slist_append (NULL, match); \ match = g_new0 (Match, 1); \ match->string = t2; \ match->start = s2; \ match->end = e2; \ data->expected = g_slist_append (data->expected, match); \ match = g_new0 (Match, 1); \ match->string = t3; \ match->start = s3; \ match->end = e3; \ data->expected = g_slist_append (data->expected, match); \ match = g_new0 (Match, 1); \ match->string = t4; \ match->start = s4; \ match->end = e4; \ data->expected = g_slist_append (data->expected, match); \ path = g_strdup_printf ("/regex/match/next4/%d", ++total); \ g_test_add_data_func_full (path, data, test_match_next, free_match_next_data); \ g_free (path); \ } typedef struct { const gchar *pattern; const gchar *string; gint start_position; GRegexMatchFlags match_opts; gint expected_count; } TestMatchCountData; static void test_match_count (gconstpointer d) { const TestMatchCountData *data = d; GRegex *regex; GMatchInfo *match_info; gint count; regex = g_regex_new (data->pattern, 0, 0, NULL); g_assert (regex != NULL); g_regex_match_full (regex, data->string, -1, data->start_position, data->match_opts, &match_info, NULL); count = g_match_info_get_match_count (match_info); g_assert_cmpint (count, ==, data->expected_count); g_match_info_ref (match_info); g_match_info_unref (match_info); g_match_info_unref (match_info); g_regex_unref (regex); } #define TEST_MATCH_COUNT(_pattern, _string, _start_position, _match_opts, _expected_count) { \ TestMatchCountData *data; \ gchar *path; \ data = g_new0 (TestMatchCountData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->start_position = _start_position; \ data->match_opts = _match_opts; \ data->expected_count = _expected_count; \ path = g_strdup_printf ("/regex/match/count/%d", ++total); \ g_test_add_data_func_full (path, data, test_match_count, g_free); \ g_free (path); \ } static void test_partial (gconstpointer d) { const TestMatchData *data = d; GRegex *regex; GMatchInfo *match_info; regex = g_regex_new (data->pattern, 0, 0, NULL); g_assert (regex != NULL); g_regex_match (regex, data->string, data->match_opts, &match_info); g_assert_cmpint (data->expected, ==, g_match_info_is_partial_match (match_info)); if (data->expected) { g_assert (!g_match_info_fetch_pos (match_info, 0, NULL, NULL)); g_assert (!g_match_info_fetch_pos (match_info, 1, NULL, NULL)); } g_match_info_free (match_info); g_regex_unref (regex); } #define TEST_PARTIAL_FULL(_pattern, _string, _match_opts, _expected) { \ TestMatchData *data; \ gchar *path; \ data = g_new0 (TestMatchData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->match_opts = _match_opts; \ data->expected = _expected; \ path = g_strdup_printf ("/regex/match/partial/%d", ++total); \ g_test_add_data_func_full (path, data, test_partial, g_free); \ g_free (path); \ } #define TEST_PARTIAL(_pattern, _string, _expected) TEST_PARTIAL_FULL(_pattern, _string, G_REGEX_MATCH_PARTIAL, _expected) typedef struct { const gchar *pattern; const gchar *string; gint start_position; gint sub_n; const gchar *expected_sub; gint expected_start; gint expected_end; } TestSubData; static void test_sub_pattern (gconstpointer d) { const TestSubData *data = d; GRegex *regex; GMatchInfo *match_info; gchar *sub_expr; gint start = UNTOUCHED, end = UNTOUCHED; regex = g_regex_new (data->pattern, 0, 0, NULL); g_assert (regex != NULL); g_regex_match_full (regex, data->string, -1, data->start_position, 0, &match_info, NULL); sub_expr = g_match_info_fetch (match_info, data->sub_n); g_assert_cmpstr (sub_expr, ==, data->expected_sub); g_free (sub_expr); g_match_info_fetch_pos (match_info, data->sub_n, &start, &end); g_assert_cmpint (start, ==, data->expected_start); g_assert_cmpint (end, ==, data->expected_end); g_match_info_free (match_info); g_regex_unref (regex); } #define TEST_SUB_PATTERN(_pattern, _string, _start_position, _sub_n, _expected_sub, \ _expected_start, _expected_end) { \ TestSubData *data; \ gchar *path; \ data = g_new0 (TestSubData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->start_position = _start_position; \ data->sub_n = _sub_n; \ data->expected_sub = _expected_sub; \ data->expected_start = _expected_start; \ data->expected_end = _expected_end; \ path = g_strdup_printf ("/regex/match/subpattern/%d", ++total); \ g_test_add_data_func_full (path, data, test_sub_pattern, g_free); \ g_free (path); \ } typedef struct { const gchar *pattern; GRegexCompileFlags flags; const gchar *string; gint start_position; const gchar *sub_name; const gchar *expected_sub; gint expected_start; gint expected_end; } TestNamedSubData; static void test_named_sub_pattern (gconstpointer d) { const TestNamedSubData *data = d; GRegex *regex; GMatchInfo *match_info; gint start = UNTOUCHED, end = UNTOUCHED; gchar *sub_expr; regex = g_regex_new (data->pattern, data->flags, 0, NULL); g_assert (regex != NULL); g_regex_match_full (regex, data->string, -1, data->start_position, 0, &match_info, NULL); sub_expr = g_match_info_fetch_named (match_info, data->sub_name); g_assert_cmpstr (sub_expr, ==, data->expected_sub); g_free (sub_expr); g_match_info_fetch_named_pos (match_info, data->sub_name, &start, &end); g_assert_cmpint (start, ==, data->expected_start); g_assert_cmpint (end, ==, data->expected_end); g_match_info_free (match_info); g_regex_unref (regex); } #define TEST_NAMED_SUB_PATTERN(_pattern, _string, _start_position, _sub_name, \ _expected_sub, _expected_start, _expected_end) { \ TestNamedSubData *data; \ gchar *path; \ data = g_new0 (TestNamedSubData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->flags = 0; \ data->start_position = _start_position; \ data->sub_name = _sub_name; \ data->expected_sub = _expected_sub; \ data->expected_start = _expected_start; \ data->expected_end = _expected_end; \ path = g_strdup_printf ("/regex/match/named/subpattern/%d", ++total); \ g_test_add_data_func_full (path, data, test_named_sub_pattern, g_free); \ g_free (path); \ } #define TEST_NAMED_SUB_PATTERN_DUPNAMES(_pattern, _string, _start_position, _sub_name, \ _expected_sub, _expected_start, _expected_end) { \ TestNamedSubData *data; \ gchar *path; \ data = g_new0 (TestNamedSubData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->flags = G_REGEX_DUPNAMES; \ data->start_position = _start_position; \ data->sub_name = _sub_name; \ data->expected_sub = _expected_sub; \ data->expected_start = _expected_start; \ data->expected_end = _expected_end; \ path = g_strdup_printf ("/regex/match/subpattern/named/dupnames/%d", ++total); \ g_test_add_data_func_full (path, data, test_named_sub_pattern, g_free); \ g_free (path); \ } typedef struct { const gchar *pattern; const gchar *string; GSList *expected; gint start_position; gint max_tokens; } TestFetchAllData; static void test_fetch_all (gconstpointer d) { const TestFetchAllData *data = d; GRegex *regex; GMatchInfo *match_info; GSList *l_exp; gchar **matches; gint match_count; gint i; regex = g_regex_new (data->pattern, 0, 0, NULL); g_assert (regex != NULL); g_regex_match (regex, data->string, 0, &match_info); matches = g_match_info_fetch_all (match_info); if (matches) match_count = g_strv_length (matches); else match_count = 0; g_assert_cmpint (match_count, ==, g_slist_length (data->expected)); l_exp = data->expected; for (i = 0; l_exp != NULL; i++, l_exp = g_slist_next (l_exp)) { g_assert_cmpstr (l_exp->data, ==, matches[i]); } g_match_info_free (match_info); g_regex_unref (regex); g_strfreev (matches); } static void free_fetch_all_data (gpointer _data) { TestFetchAllData *data = _data; g_slist_free (data->expected); g_free (data); } #define TEST_FETCH_ALL0(_pattern, _string) { \ TestFetchAllData *data; \ gchar *path; \ data = g_new0 (TestFetchAllData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->expected = NULL; \ path = g_strdup_printf ("/regex/fetch-all0/%d", ++total); \ g_test_add_data_func_full (path, data, test_fetch_all, free_fetch_all_data); \ g_free (path); \ } #define TEST_FETCH_ALL1(_pattern, _string, e1) { \ TestFetchAllData *data; \ gchar *path; \ data = g_new0 (TestFetchAllData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->expected = g_slist_append (NULL, e1); \ path = g_strdup_printf ("/regex/fetch-all1/%d", ++total); \ g_test_add_data_func_full (path, data, test_fetch_all, free_fetch_all_data); \ g_free (path); \ } #define TEST_FETCH_ALL2(_pattern, _string, e1, e2) { \ TestFetchAllData *data; \ gchar *path; \ data = g_new0 (TestFetchAllData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->expected = g_slist_append (NULL, e1); \ data->expected = g_slist_append (data->expected, e2); \ path = g_strdup_printf ("/regex/fetch-all2/%d", ++total); \ g_test_add_data_func_full (path, data, test_fetch_all, free_fetch_all_data); \ g_free (path); \ } #define TEST_FETCH_ALL3(_pattern, _string, e1, e2, e3) { \ TestFetchAllData *data; \ gchar *path; \ data = g_new0 (TestFetchAllData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->expected = g_slist_append (NULL, e1); \ data->expected = g_slist_append (data->expected, e2); \ data->expected = g_slist_append (data->expected, e3); \ path = g_strdup_printf ("/regex/fetch-all3/%d", ++total); \ g_test_add_data_func_full (path, data, test_fetch_all, free_fetch_all_data); \ g_free (path); \ } static void test_split_simple (gconstpointer d) { const TestFetchAllData *data = d; GSList *l_exp; gchar **tokens; gint token_count; gint i; tokens = g_regex_split_simple (data->pattern, data->string, 0, 0); if (tokens) token_count = g_strv_length (tokens); else token_count = 0; g_assert_cmpint (token_count, ==, g_slist_length (data->expected)); l_exp = data->expected; for (i = 0; l_exp != NULL; i++, l_exp = g_slist_next (l_exp)) { g_assert_cmpstr (l_exp->data, ==, tokens[i]); } g_strfreev (tokens); } #define TEST_SPLIT_SIMPLE0(_pattern, _string) { \ TestFetchAllData *data; \ gchar *path; \ data = g_new0 (TestFetchAllData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->expected = NULL; \ path = g_strdup_printf ("/regex/split/simple0/%d", ++total); \ g_test_add_data_func_full (path, data, test_split_simple, free_fetch_all_data); \ g_free (path); \ } #define TEST_SPLIT_SIMPLE1(_pattern, _string, e1) { \ TestFetchAllData *data; \ gchar *path; \ data = g_new0 (TestFetchAllData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->expected = g_slist_append (NULL, e1); \ path = g_strdup_printf ("/regex/split/simple1/%d", ++total); \ g_test_add_data_func_full (path, data, test_split_simple, free_fetch_all_data); \ g_free (path); \ } #define TEST_SPLIT_SIMPLE2(_pattern, _string, e1, e2) { \ TestFetchAllData *data; \ gchar *path; \ data = g_new0 (TestFetchAllData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->expected = g_slist_append (NULL, e1); \ data->expected = g_slist_append (data->expected, e2); \ path = g_strdup_printf ("/regex/split/simple2/%d", ++total); \ g_test_add_data_func_full (path, data, test_split_simple, free_fetch_all_data); \ g_free (path); \ } #define TEST_SPLIT_SIMPLE3(_pattern, _string, e1, e2, e3) { \ TestFetchAllData *data; \ gchar *path; \ data = g_new0 (TestFetchAllData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->expected = g_slist_append (NULL, e1); \ data->expected = g_slist_append (data->expected, e2); \ data->expected = g_slist_append (data->expected, e3); \ path = g_strdup_printf ("/regex/split/simple3/%d", ++total); \ g_test_add_data_func_full (path, data, test_split_simple, free_fetch_all_data); \ g_free (path); \ } static void test_split_full (gconstpointer d) { const TestFetchAllData *data = d; GRegex *regex; GSList *l_exp; gchar **tokens; gint token_count; gint i; regex = g_regex_new (data->pattern, 0, 0, NULL); g_assert (regex != NULL); tokens = g_regex_split_full (regex, data->string, -1, data->start_position, 0, data->max_tokens, NULL); if (tokens) token_count = g_strv_length (tokens); else token_count = 0; g_assert_cmpint (token_count, ==, g_slist_length (data->expected)); l_exp = data->expected; for (i = 0; l_exp != NULL; i++, l_exp = g_slist_next (l_exp)) { g_assert_cmpstr (l_exp->data, ==, tokens[i]); } g_regex_unref (regex); g_strfreev (tokens); } static void test_split (gconstpointer d) { const TestFetchAllData *data = d; GRegex *regex; GSList *l_exp; gchar **tokens; gint token_count; gint i; regex = g_regex_new (data->pattern, 0, 0, NULL); g_assert (regex != NULL); tokens = g_regex_split (regex, data->string, 0); if (tokens) token_count = g_strv_length (tokens); else token_count = 0; g_assert_cmpint (token_count, ==, g_slist_length (data->expected)); l_exp = data->expected; for (i = 0; l_exp != NULL; i++, l_exp = g_slist_next (l_exp)) { g_assert_cmpstr (l_exp->data, ==, tokens[i]); } g_regex_unref (regex); g_strfreev (tokens); } #define TEST_SPLIT0(_pattern, _string, _start_position, _max_tokens) { \ TestFetchAllData *data; \ gchar *path; \ data = g_new0 (TestFetchAllData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->start_position = _start_position; \ data->max_tokens = _max_tokens; \ data->expected = NULL; \ if (_start_position == 0 && _max_tokens <= 0) { \ path = g_strdup_printf ("/regex/split0/%d", ++total); \ g_test_add_data_func (path, data, test_split); \ g_free (path); \ } \ path = g_strdup_printf ("/regex/full-split0/%d", ++total); \ g_test_add_data_func_full (path, data, test_split_full, free_fetch_all_data); \ g_free (path); \ } #define TEST_SPLIT1(_pattern, _string, _start_position, _max_tokens, e1) { \ TestFetchAllData *data; \ gchar *path; \ data = g_new0 (TestFetchAllData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->start_position = _start_position; \ data->max_tokens = _max_tokens; \ data->expected = NULL; \ data->expected = g_slist_append (data->expected, e1); \ if (_start_position == 0 && _max_tokens <= 0) { \ path = g_strdup_printf ("/regex/split1/%d", ++total); \ g_test_add_data_func (path, data, test_split); \ g_free (path); \ } \ path = g_strdup_printf ("/regex/full-split1/%d", ++total); \ g_test_add_data_func_full (path, data, test_split_full, free_fetch_all_data); \ g_free (path); \ } #define TEST_SPLIT2(_pattern, _string, _start_position, _max_tokens, e1, e2) { \ TestFetchAllData *data; \ gchar *path; \ data = g_new0 (TestFetchAllData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->start_position = _start_position; \ data->max_tokens = _max_tokens; \ data->expected = NULL; \ data->expected = g_slist_append (data->expected, e1); \ data->expected = g_slist_append (data->expected, e2); \ if (_start_position == 0 && _max_tokens <= 0) { \ path = g_strdup_printf ("/regex/split2/%d", ++total); \ g_test_add_data_func (path, data, test_split); \ g_free (path); \ } \ path = g_strdup_printf ("/regex/full-split2/%d", ++total); \ g_test_add_data_func_full (path, data, test_split_full, free_fetch_all_data); \ g_free (path); \ } #define TEST_SPLIT3(_pattern, _string, _start_position, _max_tokens, e1, e2, e3) { \ TestFetchAllData *data; \ gchar *path; \ data = g_new0 (TestFetchAllData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->start_position = _start_position; \ data->max_tokens = _max_tokens; \ data->expected = NULL; \ data->expected = g_slist_append (data->expected, e1); \ data->expected = g_slist_append (data->expected, e2); \ data->expected = g_slist_append (data->expected, e3); \ if (_start_position == 0 && _max_tokens <= 0) { \ path = g_strdup_printf ("/regex/split3/%d", ++total); \ g_test_add_data_func (path, data, test_split); \ g_free (path); \ } \ path = g_strdup_printf ("/regex/full-split3/%d", ++total); \ g_test_add_data_func_full (path, data, test_split_full, free_fetch_all_data); \ g_free (path); \ } typedef struct { const gchar *string_to_expand; gboolean expected; gboolean expected_refs; } TestCheckReplacementData; static void test_check_replacement (gconstpointer d) { const TestCheckReplacementData *data = d; gboolean has_refs; gboolean result; result = g_regex_check_replacement (data->string_to_expand, &has_refs, NULL); g_assert_cmpint (data->expected, ==, result); if (data->expected) g_assert_cmpint (data->expected_refs, ==, has_refs); } #define TEST_CHECK_REPLACEMENT(_string_to_expand, _expected, _expected_refs) { \ TestCheckReplacementData *data; \ gchar *path; \ data = g_new0 (TestCheckReplacementData, 1); \ data->string_to_expand = _string_to_expand; \ data->expected = _expected; \ data->expected_refs = _expected_refs; \ path = g_strdup_printf ("/regex/check-repacement/%d", ++total); \ g_test_add_data_func_full (path, data, test_check_replacement, g_free); \ g_free (path); \ } typedef struct { const gchar *pattern; const gchar *string; const gchar *string_to_expand; gboolean raw; const gchar *expected; } TestExpandData; static void test_expand (gconstpointer d) { const TestExpandData *data = d; GRegex *regex = NULL; GMatchInfo *match_info = NULL; gchar *res; if (data->pattern) { regex = g_regex_new (data->pattern, data->raw ? G_REGEX_RAW : 0, 0, NULL); g_regex_match (regex, data->string, 0, &match_info); } res = g_match_info_expand_references (match_info, data->string_to_expand, NULL); g_assert_cmpstr (res, ==, data->expected); g_free (res); g_match_info_free (match_info); if (regex) g_regex_unref (regex); } #define TEST_EXPAND(_pattern, _string, _string_to_expand, _raw, _expected) { \ TestExpandData *data; \ gchar *path; \ data = g_new0 (TestExpandData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->string_to_expand = _string_to_expand; \ data->raw = _raw; \ data->expected = _expected; \ path = g_strdup_printf ("/regex/expand/%d", ++total); \ g_test_add_data_func_full (path, data, test_expand, g_free); \ g_free (path); \ } typedef struct { const gchar *pattern; const gchar *string; gint start_position; const gchar *replacement; const gchar *expected; } TestReplaceData; static void test_replace (gconstpointer d) { const TestReplaceData *data = d; GRegex *regex; gchar *res; regex = g_regex_new (data->pattern, 0, 0, NULL); res = g_regex_replace (regex, data->string, -1, data->start_position, data->replacement, 0, NULL); g_assert_cmpstr (res, ==, data->expected); g_free (res); g_regex_unref (regex); } #define TEST_REPLACE(_pattern, _string, _start_position, _replacement, _expected) { \ TestReplaceData *data; \ gchar *path; \ data = g_new0 (TestReplaceData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->start_position = _start_position; \ data->replacement = _replacement; \ data->expected = _expected; \ path = g_strdup_printf ("/regex/replace/%d", ++total); \ g_test_add_data_func_full (path, data, test_replace, g_free); \ g_free (path); \ } static void test_replace_lit (gconstpointer d) { const TestReplaceData *data = d; GRegex *regex; gchar *res; regex = g_regex_new (data->pattern, 0, 0, NULL); res = g_regex_replace_literal (regex, data->string, -1, data->start_position, data->replacement, 0, NULL); g_assert_cmpstr (res, ==, data->expected); g_free (res); g_regex_unref (regex); } #define TEST_REPLACE_LIT(_pattern, _string, _start_position, _replacement, _expected) { \ TestReplaceData *data; \ gchar *path; \ data = g_new0 (TestReplaceData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->start_position = _start_position; \ data->replacement = _replacement; \ data->expected = _expected; \ path = g_strdup_printf ("/regex/replace-literally/%d", ++total); \ g_test_add_data_func_full (path, data, test_replace_lit, g_free); \ g_free (path); \ } typedef struct { const gchar *pattern; const gchar *name; gint expected_num; } TestStringNumData; static void test_get_string_number (gconstpointer d) { const TestStringNumData *data = d; GRegex *regex; gint num; regex = g_regex_new (data->pattern, 0, 0, NULL); num = g_regex_get_string_number (regex, data->name); g_assert_cmpint (num, ==, data->expected_num); g_regex_unref (regex); } #define TEST_GET_STRING_NUMBER(_pattern, _name, _expected_num) { \ TestStringNumData *data; \ gchar *path; \ data = g_new0 (TestStringNumData, 1); \ data->pattern = _pattern; \ data->name = _name; \ data->expected_num = _expected_num; \ path = g_strdup_printf ("/regex/string-number/%d", ++total); \ g_test_add_data_func_full (path, data, test_get_string_number, g_free); \ g_free (path); \ } typedef struct { const gchar *string; gint length; const gchar *expected; } TestEscapeData; static void test_escape (gconstpointer d) { const TestEscapeData *data = d; gchar *escaped; escaped = g_regex_escape_string (data->string, data->length); g_assert_cmpstr (escaped, ==, data->expected); g_free (escaped); } #define TEST_ESCAPE(_string, _length, _expected) { \ TestEscapeData *data; \ gchar *path; \ data = g_new0 (TestEscapeData, 1); \ data->string = _string; \ data->length = _length; \ data->expected = _expected; \ path = g_strdup_printf ("/regex/escape/%d", ++total); \ g_test_add_data_func_full (path, data, test_escape, g_free); \ g_free (path); \ } static void test_escape_nul (gconstpointer d) { const TestEscapeData *data = d; gchar *escaped; escaped = g_regex_escape_nul (data->string, data->length); g_assert_cmpstr (escaped, ==, data->expected); g_free (escaped); } #define TEST_ESCAPE_NUL(_string, _length, _expected) { \ TestEscapeData *data; \ gchar *path; \ data = g_new0 (TestEscapeData, 1); \ data->string = _string; \ data->length = _length; \ data->expected = _expected; \ path = g_strdup_printf ("/regex/escape_nul/%d", ++total); \ g_test_add_data_func_full (path, data, test_escape_nul, g_free); \ g_free (path); \ } typedef struct { const gchar *pattern; const gchar *string; gssize string_len; gint start_position; GSList *expected; } TestMatchAllData; static void test_match_all_full (gconstpointer d) { const TestMatchAllData *data = d; GRegex *regex; GMatchInfo *match_info; GSList *l_exp; gboolean match_ok; gint match_count; gint i; regex = g_regex_new (data->pattern, 0, 0, NULL); match_ok = g_regex_match_all_full (regex, data->string, data->string_len, data->start_position, 0, &match_info, NULL); if (g_slist_length (data->expected) == 0) g_assert (!match_ok); else g_assert (match_ok); match_count = g_match_info_get_match_count (match_info); g_assert_cmpint (match_count, ==, g_slist_length (data->expected)); l_exp = data->expected; for (i = 0; i < match_count; i++) { gint start, end; gchar *matched_string; Match *exp = l_exp->data; matched_string = g_match_info_fetch (match_info, i); g_match_info_fetch_pos (match_info, i, &start, &end); g_assert_cmpstr (exp->string, ==, matched_string); g_assert_cmpint (exp->start, ==, start); g_assert_cmpint (exp->end, ==, end); g_free (matched_string); l_exp = g_slist_next (l_exp); } g_match_info_free (match_info); g_regex_unref (regex); } static void test_match_all (gconstpointer d) { const TestMatchAllData *data = d; GRegex *regex; GMatchInfo *match_info; GSList *l_exp; gboolean match_ok; gint match_count; gint i; regex = g_regex_new (data->pattern, 0, 0, NULL); match_ok = g_regex_match_all (regex, data->string, 0, &match_info); if (g_slist_length (data->expected) == 0) g_assert (!match_ok); else g_assert (match_ok); match_count = g_match_info_get_match_count (match_info); g_assert_cmpint (match_count, ==, g_slist_length (data->expected)); l_exp = data->expected; for (i = 0; i < match_count; i++) { gint start, end; gchar *matched_string; Match *exp = l_exp->data; matched_string = g_match_info_fetch (match_info, i); g_match_info_fetch_pos (match_info, i, &start, &end); g_assert_cmpstr (exp->string, ==, matched_string); g_assert_cmpint (exp->start, ==, start); g_assert_cmpint (exp->end, ==, end); g_free (matched_string); l_exp = g_slist_next (l_exp); } g_match_info_free (match_info); g_regex_unref (regex); } static void free_match_all_data (gpointer _data) { TestMatchAllData *data = _data; g_slist_free_full (data->expected, g_free); g_free (data); } #define TEST_MATCH_ALL0(_pattern, _string, _string_len, _start_position) { \ TestMatchAllData *data; \ gchar *path; \ data = g_new0 (TestMatchAllData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->string_len = _string_len; \ data->start_position = _start_position; \ data->expected = NULL; \ if (_string_len == -1 && _start_position == 0) { \ path = g_strdup_printf ("/regex/match-all0/%d", ++total); \ g_test_add_data_func (path, data, test_match_all); \ g_free (path); \ } \ path = g_strdup_printf ("/regex/match-all-full0/%d", ++total); \ g_test_add_data_func_full (path, data, test_match_all_full, free_match_all_data); \ g_free (path); \ } #define TEST_MATCH_ALL1(_pattern, _string, _string_len, _start_position, \ t1, s1, e1) { \ TestMatchAllData *data; \ Match *match; \ gchar *path; \ data = g_new0 (TestMatchAllData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->string_len = _string_len; \ data->start_position = _start_position; \ data->expected = NULL; \ match = g_new0 (Match, 1); \ match->string = t1; \ match->start = s1; \ match->end = e1; \ data->expected = g_slist_append (data->expected, match); \ if (_string_len == -1 && _start_position == 0) { \ path = g_strdup_printf ("/regex/match-all1/%d", ++total); \ g_test_add_data_func (path, data, test_match_all); \ g_free (path); \ } \ path = g_strdup_printf ("/regex/match-all-full1/%d", ++total); \ g_test_add_data_func_full (path, data, test_match_all_full, free_match_all_data); \ g_free (path); \ } #define TEST_MATCH_ALL2(_pattern, _string, _string_len, _start_position, \ t1, s1, e1, t2, s2, e2) { \ TestMatchAllData *data; \ Match *match; \ gchar *path; \ data = g_new0 (TestMatchAllData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->string_len = _string_len; \ data->start_position = _start_position; \ data->expected = NULL; \ match = g_new0 (Match, 1); \ match->string = t1; \ match->start = s1; \ match->end = e1; \ data->expected = g_slist_append (data->expected, match); \ match = g_new0 (Match, 1); \ match->string = t2; \ match->start = s2; \ match->end = e2; \ data->expected = g_slist_append (data->expected, match); \ if (_string_len == -1 && _start_position == 0) { \ path = g_strdup_printf ("/regex/match-all2/%d", ++total); \ g_test_add_data_func (path, data, test_match_all); \ g_free (path); \ } \ path = g_strdup_printf ("/regex/match-all-full2/%d", ++total); \ g_test_add_data_func_full (path, data, test_match_all_full, free_match_all_data); \ g_free (path); \ } #define TEST_MATCH_ALL3(_pattern, _string, _string_len, _start_position, \ t1, s1, e1, t2, s2, e2, t3, s3, e3) { \ TestMatchAllData *data; \ Match *match; \ gchar *path; \ data = g_new0 (TestMatchAllData, 1); \ data->pattern = _pattern; \ data->string = _string; \ data->string_len = _string_len; \ data->start_position = _start_position; \ data->expected = NULL; \ match = g_new0 (Match, 1); \ match->string = t1; \ match->start = s1; \ match->end = e1; \ data->expected = g_slist_append (data->expected, match); \ match = g_new0 (Match, 1); \ match->string = t2; \ match->start = s2; \ match->end = e2; \ data->expected = g_slist_append (data->expected, match); \ match = g_new0 (Match, 1); \ match->string = t3; \ match->start = s3; \ match->end = e3; \ data->expected = g_slist_append (data->expected, match); \ if (_string_len == -1 && _start_position == 0) { \ path = g_strdup_printf ("/regex/match-all3/%d", ++total); \ g_test_add_data_func (path, data, test_match_all); \ g_free (path); \ } \ path = g_strdup_printf ("/regex/match-all-full3/%d", ++total); \ g_test_add_data_func_full (path, data, test_match_all_full, free_match_all_data); \ g_free (path); \ } static void test_properties (void) { GRegex *regex; GError *error; gboolean res; GMatchInfo *match; gchar *str; error = NULL; regex = g_regex_new ("\\p{L}\\p{Ll}\\p{Lu}\\p{L&}\\p{N}\\p{Nd}", G_REGEX_OPTIMIZE, 0, &error); res = g_regex_match (regex, "ppPP01", 0, &match); g_assert (res); str = g_match_info_fetch (match, 0); g_assert_cmpstr (str, ==, "ppPP01"); g_free (str); g_match_info_free (match); g_regex_unref (regex); } static void test_class (void) { GRegex *regex; GError *error; GMatchInfo *match; gboolean res; gchar *str; error = NULL; regex = g_regex_new ("[abc\\x{0B1E}\\p{Mn}\\x{0391}-\\x{03A9}]", G_REGEX_OPTIMIZE, 0, &error); res = g_regex_match (regex, "a:b:\340\254\236:\333\253:\316\240", 0, &match); g_assert (res); str = g_match_info_fetch (match, 0); g_assert_cmpstr (str, ==, "a"); g_free (str); res = g_match_info_next (match, NULL); g_assert (res); str = g_match_info_fetch (match, 0); g_assert_cmpstr (str, ==, "b"); g_free (str); res = g_match_info_next (match, NULL); g_assert (res); str = g_match_info_fetch (match, 0); g_assert_cmpstr (str, ==, "\340\254\236"); g_free (str); res = g_match_info_next (match, NULL); g_assert (res); str = g_match_info_fetch (match, 0); g_assert_cmpstr (str, ==, "\333\253"); g_free (str); res = g_match_info_next (match, NULL); g_assert (res); str = g_match_info_fetch (match, 0); g_assert_cmpstr (str, ==, "\316\240"); g_free (str); res = g_match_info_next (match, NULL); g_assert (!res); g_match_info_free (match); g_regex_unref (regex); } /* examples for lookahead assertions taken from pcrepattern(3) */ static void test_lookahead (void) { GRegex *regex; GError *error; GMatchInfo *match; gboolean res; gchar *str; gint start, end; error = NULL; regex = g_regex_new ("\\w+(?=;)", G_REGEX_OPTIMIZE, 0, &error); g_assert (regex); g_assert_no_error (error); res = g_regex_match (regex, "word1 word2: word3;", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_assert_cmpint (g_match_info_get_match_count (match), ==, 1); str = g_match_info_fetch (match, 0); g_assert_cmpstr (str, ==, "word3"); g_free (str); g_match_info_free (match); g_regex_unref (regex); error = NULL; regex = g_regex_new ("foo(?!bar)", G_REGEX_OPTIMIZE, 0, &error); g_assert (regex); g_assert_no_error (error); res = g_regex_match (regex, "foobar foobaz", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_assert_cmpint (g_match_info_get_match_count (match), ==, 1); res = g_match_info_fetch_pos (match, 0, &start, &end); g_assert (res); g_assert_cmpint (start, ==, 7); g_assert_cmpint (end, ==, 10); g_match_info_free (match); g_regex_unref (regex); error = NULL; regex = g_regex_new ("(?!bar)foo", G_REGEX_OPTIMIZE, 0, &error); g_assert (regex); g_assert_no_error (error); res = g_regex_match (regex, "foobar foobaz", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_assert_cmpint (g_match_info_get_match_count (match), ==, 1); res = g_match_info_fetch_pos (match, 0, &start, &end); g_assert (res); g_assert_cmpint (start, ==, 0); g_assert_cmpint (end, ==, 3); res = g_match_info_next (match, &error); g_assert (res); g_assert_no_error (error); res = g_match_info_fetch_pos (match, 0, &start, &end); g_assert (res); g_assert_cmpint (start, ==, 7); g_assert_cmpint (end, ==, 10); g_match_info_free (match); g_regex_unref (regex); } /* examples for lookbehind assertions taken from pcrepattern(3) */ static void test_lookbehind (void) { GRegex *regex; GError *error; GMatchInfo *match; gboolean res; gint start, end; error = NULL; regex = g_regex_new ("(?Mon|Fri|Sun)(?:day)?|(?Tue)(?:sday)?|(?Wed)(?:nesday)?|(?Thu)(?:rsday)?|(?Sat)(?:urday)?", G_REGEX_OPTIMIZE|G_REGEX_DUPNAMES, 0, &error); g_assert (regex); g_assert_no_error (error); res = g_regex_match (regex, "Mon Tuesday Wed Saturday", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); str = g_match_info_fetch_named (match, "DN"); g_assert_cmpstr (str, ==, "Mon"); g_free (str); res = g_match_info_next (match, &error); g_assert (res); str = g_match_info_fetch_named (match, "DN"); g_assert_cmpstr (str, ==, "Tue"); g_free (str); res = g_match_info_next (match, &error); g_assert (res); str = g_match_info_fetch_named (match, "DN"); g_assert_cmpstr (str, ==, "Wed"); g_free (str); res = g_match_info_next (match, &error); g_assert (res); str = g_match_info_fetch_named (match, "DN"); g_assert_cmpstr (str, ==, "Sat"); g_free (str); g_match_info_free (match); g_regex_unref (regex); regex = g_regex_new ("^(a|b\\1)+$", G_REGEX_OPTIMIZE|G_REGEX_DUPNAMES, 0, &error); g_assert (regex); g_assert_no_error (error); res = g_regex_match (regex, "aaaaaaaaaaaaaaaa", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_match_info_free (match); res = g_regex_match (regex, "ababbaa", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_match_info_free (match); g_regex_unref (regex); } /* examples for conditions taken from pcrepattern(3) */ static void test_condition (void) { GRegex *regex; GError *error; GMatchInfo *match; gboolean res; error = NULL; regex = g_regex_new ("^(a+)(\\()?[^()]+(?(-1)\\))(b+)$", G_REGEX_OPTIMIZE, 0, &error); g_assert (regex); g_assert_no_error (error); res = g_regex_match (regex, "a(zzzzzz)b", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_match_info_free (match); res = g_regex_match (regex, "aaazzzzzzbbb", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_match_info_free (match); g_regex_unref (regex); error = NULL; regex = g_regex_new ("^(a+)(?\\()?[^()]+(?()\\))(b+)$", G_REGEX_OPTIMIZE, 0, &error); g_assert (regex); g_assert_no_error (error); res = g_regex_match (regex, "a(zzzzzz)b", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_match_info_free (match); res = g_regex_match (regex, "aaazzzzzzbbb", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_match_info_free (match); g_regex_unref (regex); regex = g_regex_new ("^(a+)(?(+1)\\[|\\<)?[^()]+(\\])?(b+)$", G_REGEX_OPTIMIZE, 0, &error); g_assert (regex); g_assert_no_error (error); res = g_regex_match (regex, "a[zzzzzz]b", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_match_info_free (match); res = g_regex_match (regex, "aaa 2[0-4]\\d | 25[0-5] | 1\\d\\d | [1-9]?\\d) )" "\\b (?&byte) (\\.(?&byte)){3} \\b", G_REGEX_OPTIMIZE|G_REGEX_EXTENDED, 0, &error); g_assert (regex); g_assert_no_error (error); res = g_regex_match (regex, "128.0.0.1", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_match_info_free (match); res = g_regex_match (regex, "192.168.1.1", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_match_info_free (match); res = g_regex_match (regex, "209.132.180.167", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_match_info_free (match); g_regex_unref (regex); regex = g_regex_new ("^(?(?=[^a-z]*[a-z])" "\\d{2}-[a-z]{3}-\\d{2} | \\d{2}-\\d{2}-\\d{2} )$", G_REGEX_OPTIMIZE|G_REGEX_EXTENDED, 0, &error); g_assert (regex); g_assert_no_error (error); res = g_regex_match (regex, "01-abc-24", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_match_info_free (match); res = g_regex_match (regex, "01-23-45", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_match_info_free (match); res = g_regex_match (regex, "01-uv-45", 0, &match); g_assert (!res); g_assert (!g_match_info_matches (match)); g_match_info_free (match); res = g_regex_match (regex, "01-234-45", 0, &match); g_assert (!res); g_assert (!g_match_info_matches (match)); g_match_info_free (match); g_regex_unref (regex); } /* examples for recursion taken from pcrepattern(3) */ static void test_recursion (void) { GRegex *regex; GError *error; GMatchInfo *match; gboolean res; gint start; error = NULL; regex = g_regex_new ("\\( ( [^()]++ | (?R) )* \\)", G_REGEX_OPTIMIZE|G_REGEX_EXTENDED, 0, &error); g_assert (regex); g_assert_no_error (error); res = g_regex_match (regex, "(middle)", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_match_info_free (match); res = g_regex_match (regex, "((((((((((((((((middle))))))))))))))))", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_match_info_free (match); res = g_regex_match (regex, "(((xxx(((", 0, &match); g_assert (!res); g_assert (!g_match_info_matches (match)); g_match_info_free (match); g_regex_unref (regex); regex = g_regex_new ("^( \\( ( [^()]++ | (?1) )* \\) )$", G_REGEX_OPTIMIZE|G_REGEX_EXTENDED, 0, &error); g_assert (regex); g_assert_no_error (error); res = g_regex_match (regex, "((((((((((((((((middle))))))))))))))))", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_match_info_free (match); res = g_regex_match (regex, "(((xxx((()", 0, &match); g_assert (!res); g_assert (!g_match_info_matches (match)); g_match_info_free (match); g_regex_unref (regex); regex = g_regex_new ("^(? \\( ( [^()]++ | (?&pn) )* \\) )$", G_REGEX_OPTIMIZE|G_REGEX_EXTENDED, 0, &error); g_assert (regex); g_assert_no_error (error); g_regex_match (regex, "(aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa()", 0, &match); g_assert (!res); g_assert (!g_match_info_matches (match)); g_match_info_free (match); g_regex_unref (regex); regex = g_regex_new ("< (?: (?(R) \\d++ | [^<>]*+) | (?R)) * >", G_REGEX_OPTIMIZE|G_REGEX_EXTENDED, 0, &error); g_assert (regex); g_assert_no_error (error); res = g_regex_match (regex, ">>>", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); res = g_match_info_fetch_pos (match, 0, &start, NULL); g_assert (res); g_assert_cmpint (start, ==, 0); g_match_info_free (match); res = g_regex_match (regex, ">>>", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); res = g_match_info_fetch_pos (match, 0, &start, NULL); g_assert (res); g_assert_cmpint (start, >, 0); g_match_info_free (match); g_regex_unref (regex); regex = g_regex_new ("^((.)(?1)\\2|.)$", G_REGEX_OPTIMIZE, 0, &error); g_assert (regex); g_assert_no_error (error); res = g_regex_match (regex, "abcdcba", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_match_info_free (match); res = g_regex_match (regex, "abcddcba", 0, &match); g_assert (!res); g_assert (!g_match_info_matches (match)); g_match_info_free (match); g_regex_unref (regex); regex = g_regex_new ("^(?:((.)(?1)\\2|)|((.)(?3)\\4|.))$", G_REGEX_OPTIMIZE, 0, &error); g_assert (regex); g_assert_no_error (error); res = g_regex_match (regex, "abcdcba", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_match_info_free (match); res = g_regex_match (regex, "abcddcba", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_match_info_free (match); g_regex_unref (regex); regex = g_regex_new ("^\\W*+(?:((.)\\W*+(?1)\\W*+\\2|)|((.)\\W*+(?3)\\W*+\\4|\\W*+.\\W*+))\\W*+$", G_REGEX_OPTIMIZE|G_REGEX_CASELESS, 0, &error); g_assert (regex); g_assert_no_error (error); res = g_regex_match (regex, "abcdcba", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_match_info_free (match); res = g_regex_match (regex, "A man, a plan, a canal: Panama!", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_match_info_free (match); res = g_regex_match (regex, "Oozy rat in a sanitary zoo", 0, &match); g_assert (res); g_assert (g_match_info_matches (match)); g_match_info_free (match); g_regex_unref (regex); } static void test_multiline (void) { GRegex *regex; GMatchInfo *info; gint count; g_test_bug ("640489"); regex = g_regex_new ("^a$", G_REGEX_MULTILINE|G_REGEX_DOTALL, 0, NULL); count = 0; g_regex_match (regex, "a\nb\na", 0, &info); while (g_match_info_matches (info)) { count++; g_match_info_next (info, NULL); } g_match_info_free (info); g_regex_unref (regex); g_assert_cmpint (count, ==, 2); } static void test_explicit_crlf (void) { GRegex *regex; regex = g_regex_new ("[\r\n]a", 0, 0, NULL); g_assert_cmpint (g_regex_get_has_cr_or_lf (regex), ==, TRUE); g_regex_unref (regex); } static void test_max_lookbehind (void) { GRegex *regex; regex = g_regex_new ("abc", 0, 0, NULL); g_assert_cmpint (g_regex_get_max_lookbehind (regex), ==, 0); g_regex_unref (regex); regex = g_regex_new ("\\babc", 0, 0, NULL); g_assert_cmpint (g_regex_get_max_lookbehind (regex), ==, 1); g_regex_unref (regex); regex = g_regex_new ("(?<=123)abc", 0, 0, NULL); g_assert_cmpint (g_regex_get_max_lookbehind (regex), ==, 3); g_regex_unref (regex); } int main (int argc, char *argv[]) { setlocale (LC_ALL, ""); g_test_init (&argc, &argv, NULL); g_test_bug_base ("http://bugzilla.gnome.org/"); g_test_add_func ("/regex/properties", test_properties); g_test_add_func ("/regex/class", test_class); g_test_add_func ("/regex/lookahead", test_lookahead); g_test_add_func ("/regex/lookbehind", test_lookbehind); g_test_add_func ("/regex/subpattern", test_subpattern); g_test_add_func ("/regex/condition", test_condition); g_test_add_func ("/regex/recursion", test_recursion); g_test_add_func ("/regex/multiline", test_multiline); g_test_add_func ("/regex/explicit-crlf", test_explicit_crlf); g_test_add_func ("/regex/max-lookbehind", test_max_lookbehind); /* TEST_NEW(pattern, compile_opts, match_opts) */ TEST_NEW("[A-Z]+", G_REGEX_CASELESS | G_REGEX_EXTENDED | G_REGEX_OPTIMIZE, G_REGEX_MATCH_NOTBOL | G_REGEX_MATCH_PARTIAL); TEST_NEW("", 0, 0); TEST_NEW(".*", 0, 0); TEST_NEW(".*", G_REGEX_OPTIMIZE, 0); TEST_NEW(".*", G_REGEX_MULTILINE, 0); TEST_NEW(".*", G_REGEX_DOTALL, 0); TEST_NEW(".*", G_REGEX_DOTALL, G_REGEX_MATCH_NOTBOL); TEST_NEW("(123\\d*)[a-zA-Z]+(?P.*)", 0, 0); TEST_NEW("(123\\d*)[a-zA-Z]+(?P.*)", G_REGEX_CASELESS, 0); TEST_NEW("(123\\d*)[a-zA-Z]+(?P.*)", G_REGEX_CASELESS | G_REGEX_OPTIMIZE, 0); TEST_NEW("(?Px)|(?Py)", G_REGEX_DUPNAMES, 0); TEST_NEW("(?Px)|(?Py)", G_REGEX_DUPNAMES | G_REGEX_OPTIMIZE, 0); /* This gives "internal error: code overflow" with pcre 6.0 */ TEST_NEW("(?i)(?-i)", 0, 0); /* Check that flags are correct if the pattern modifies them */ /* TEST_NEW_CHECK_FLAGS(pattern, compile_opts, match_ops, real_compile_opts, real_match_opts) */ TEST_NEW_CHECK_FLAGS ("a", G_REGEX_OPTIMIZE, 0, G_REGEX_OPTIMIZE, 0); TEST_NEW_CHECK_FLAGS ("a", G_REGEX_RAW, 0, G_REGEX_RAW, 0); TEST_NEW_CHECK_FLAGS ("(?i)a", 0, 0, G_REGEX_CASELESS, 0); TEST_NEW_CHECK_FLAGS ("(?m)a", 0, 0, G_REGEX_MULTILINE, 0); TEST_NEW_CHECK_FLAGS ("(?s)a", 0, 0, G_REGEX_DOTALL, 0); TEST_NEW_CHECK_FLAGS ("(?x)a", 0, 0, G_REGEX_EXTENDED, 0); TEST_NEW_CHECK_FLAGS ("(?J)a", 0, 0, G_REGEX_DUPNAMES, 0); TEST_NEW_CHECK_FLAGS ("(?U)[a-z]+", 0, 0, G_REGEX_UNGREEDY, 0); TEST_NEW_CHECK_FLAGS ("(?X)a", 0, 0, 0 /* not exposed by GRegex */, 0); TEST_NEW_CHECK_FLAGS ("^.*", 0, 0, G_REGEX_ANCHORED, 0); TEST_NEW_CHECK_FLAGS ("(*UTF8)a", 0, 0, 0 /* this is the default in GRegex */, 0); TEST_NEW_CHECK_FLAGS ("(*UCP)a", 0, 0, 0 /* this always on in GRegex */, 0); TEST_NEW_CHECK_FLAGS ("(*CR)a", 0, 0, G_REGEX_NEWLINE_CR, 0); TEST_NEW_CHECK_FLAGS ("(*LF)a", 0, 0, G_REGEX_NEWLINE_LF, 0); TEST_NEW_CHECK_FLAGS ("(*CRLF)a", 0, 0, G_REGEX_NEWLINE_CRLF, 0); TEST_NEW_CHECK_FLAGS ("(*ANY)a", 0, 0, 0 /* this is the default in GRegex */, 0); TEST_NEW_CHECK_FLAGS ("(*ANYCRLF)a", 0, 0, G_REGEX_NEWLINE_ANYCRLF, 0); TEST_NEW_CHECK_FLAGS ("(*BSR_ANYCRLF)a", 0, 0, G_REGEX_BSR_ANYCRLF, 0); TEST_NEW_CHECK_FLAGS ("(*BSR_UNICODE)a", 0, 0, 0 /* this is the default in GRegex */, 0); TEST_NEW_CHECK_FLAGS ("(*NO_START_OPT)a", 0, 0, 0 /* not exposed in GRegex */, 0); /* TEST_NEW_FAIL(pattern, compile_opts, expected_error) */ TEST_NEW_FAIL("(", 0, G_REGEX_ERROR_UNMATCHED_PARENTHESIS); TEST_NEW_FAIL(")", 0, G_REGEX_ERROR_UNMATCHED_PARENTHESIS); TEST_NEW_FAIL("[", 0, G_REGEX_ERROR_UNTERMINATED_CHARACTER_CLASS); TEST_NEW_FAIL("*", 0, G_REGEX_ERROR_NOTHING_TO_REPEAT); TEST_NEW_FAIL("?", 0, G_REGEX_ERROR_NOTHING_TO_REPEAT); TEST_NEW_FAIL("(?Px)|(?Py)", 0, G_REGEX_ERROR_DUPLICATE_SUBPATTERN_NAME); /* Check all GRegexError codes */ TEST_NEW_FAIL ("a\\", 0, G_REGEX_ERROR_STRAY_BACKSLASH); TEST_NEW_FAIL ("a\\c", 0, G_REGEX_ERROR_MISSING_CONTROL_CHAR); TEST_NEW_FAIL ("a\\l", 0, G_REGEX_ERROR_UNRECOGNIZED_ESCAPE); TEST_NEW_FAIL ("a{4,2}", 0, G_REGEX_ERROR_QUANTIFIERS_OUT_OF_ORDER); TEST_NEW_FAIL ("a{999999,}", 0, G_REGEX_ERROR_QUANTIFIER_TOO_BIG); TEST_NEW_FAIL ("[a-z", 0, G_REGEX_ERROR_UNTERMINATED_CHARACTER_CLASS); TEST_NEW_FAIL ("(?X)[\\B]", 0, G_REGEX_ERROR_INVALID_ESCAPE_IN_CHARACTER_CLASS); TEST_NEW_FAIL ("[z-a]", 0, G_REGEX_ERROR_RANGE_OUT_OF_ORDER); TEST_NEW_FAIL ("{2,4}", 0, G_REGEX_ERROR_NOTHING_TO_REPEAT); TEST_NEW_FAIL ("a(?u)", 0, G_REGEX_ERROR_UNRECOGNIZED_CHARACTER); TEST_NEW_FAIL ("a(?<$foo)bar", 0, G_REGEX_ERROR_UNRECOGNIZED_CHARACTER); TEST_NEW_FAIL ("a[:alpha:]b", 0, G_REGEX_ERROR_POSIX_NAMED_CLASS_OUTSIDE_CLASS); TEST_NEW_FAIL ("a(b", 0, G_REGEX_ERROR_UNMATCHED_PARENTHESIS); TEST_NEW_FAIL ("a)b", 0, G_REGEX_ERROR_UNMATCHED_PARENTHESIS); TEST_NEW_FAIL ("a(?R", 0, G_REGEX_ERROR_UNMATCHED_PARENTHESIS); TEST_NEW_FAIL ("a(?-54", 0, G_REGEX_ERROR_UNMATCHED_PARENTHESIS); TEST_NEW_FAIL ("(ab\\2)", 0, G_REGEX_ERROR_INEXISTENT_SUBPATTERN_REFERENCE); TEST_NEW_FAIL ("a(?#abc", 0, G_REGEX_ERROR_UNTERMINATED_COMMENT); TEST_NEW_FAIL ("(?<=a+)b", 0, G_REGEX_ERROR_VARIABLE_LENGTH_LOOKBEHIND); TEST_NEW_FAIL ("(?(1?)a|b)", 0, G_REGEX_ERROR_MALFORMED_CONDITION); TEST_NEW_FAIL ("(a)(?(1)a|b|c)", 0, G_REGEX_ERROR_TOO_MANY_CONDITIONAL_BRANCHES); TEST_NEW_FAIL ("(?(?i))", 0, G_REGEX_ERROR_ASSERTION_EXPECTED); TEST_NEW_FAIL ("a[[:fubar:]]b", 0, G_REGEX_ERROR_UNKNOWN_POSIX_CLASS_NAME); TEST_NEW_FAIL ("[[.ch.]]", 0, G_REGEX_ERROR_POSIX_COLLATING_ELEMENTS_NOT_SUPPORTED); TEST_NEW_FAIL ("\\x{110000}", 0, G_REGEX_ERROR_HEX_CODE_TOO_LARGE); TEST_NEW_FAIL ("^(?(0)f|b)oo", 0, G_REGEX_ERROR_INVALID_CONDITION); TEST_NEW_FAIL ("(?<=\\C)X", 0, G_REGEX_ERROR_SINGLE_BYTE_MATCH_IN_LOOKBEHIND); TEST_NEW_FAIL ("(?!\\w)(?R)", 0, G_REGEX_ERROR_INFINITE_LOOP); TEST_NEW_FAIL ("(?(?eks)(?Peccs)", 0, G_REGEX_ERROR_DUPLICATE_SUBPATTERN_NAME); #if 0 TEST_NEW_FAIL (?, 0, G_REGEX_ERROR_MALFORMED_PROPERTY); TEST_NEW_FAIL (?, 0, G_REGEX_ERROR_UNKNOWN_PROPERTY); #endif TEST_NEW_FAIL ("\\666", G_REGEX_RAW, G_REGEX_ERROR_INVALID_OCTAL_VALUE); TEST_NEW_FAIL ("^(?(DEFINE) abc | xyz ) ", 0, G_REGEX_ERROR_TOO_MANY_BRANCHES_IN_DEFINE); TEST_NEW_FAIL ("a", G_REGEX_NEWLINE_CRLF | G_REGEX_NEWLINE_ANYCRLF, G_REGEX_ERROR_INCONSISTENT_NEWLINE_OPTIONS); TEST_NEW_FAIL ("^(a)\\g{3", 0, G_REGEX_ERROR_MISSING_BACK_REFERENCE); TEST_NEW_FAIL ("^(a)\\g{0}", 0, G_REGEX_ERROR_INVALID_RELATIVE_REFERENCE); TEST_NEW_FAIL ("abc(*FAIL:123)xyz", 0, G_REGEX_ERROR_BACKTRACKING_CONTROL_VERB_ARGUMENT_FORBIDDEN); TEST_NEW_FAIL ("a(*FOOBAR)b", 0, G_REGEX_ERROR_UNKNOWN_BACKTRACKING_CONTROL_VERB); TEST_NEW_FAIL ("(?i:A{1,}\\6666666666)", 0, G_REGEX_ERROR_NUMBER_TOO_BIG); TEST_NEW_FAIL ("(?)(?&)", 0, G_REGEX_ERROR_MISSING_SUBPATTERN_NAME); TEST_NEW_FAIL ("(?+-a)", 0, G_REGEX_ERROR_MISSING_DIGIT); TEST_NEW_FAIL ("TA]", G_REGEX_JAVASCRIPT_COMPAT, G_REGEX_ERROR_INVALID_DATA_CHARACTER); TEST_NEW_FAIL ("(?|(?A)|(?B))", 0, G_REGEX_ERROR_EXTRA_SUBPATTERN_NAME); TEST_NEW_FAIL ("a(*MARK)b", 0, G_REGEX_ERROR_BACKTRACKING_CONTROL_VERB_ARGUMENT_REQUIRED); TEST_NEW_FAIL ("^\\c€", 0, G_REGEX_ERROR_INVALID_CONTROL_CHAR); TEST_NEW_FAIL ("\\k", 0, G_REGEX_ERROR_MISSING_NAME); TEST_NEW_FAIL ("a[\\NB]c", 0, G_REGEX_ERROR_NOT_SUPPORTED_IN_CLASS); TEST_NEW_FAIL ("(*:0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF0123456789ABCDEFG)XX", 0, G_REGEX_ERROR_NAME_TOO_LONG); TEST_NEW_FAIL ("\\u0100", G_REGEX_RAW | G_REGEX_JAVASCRIPT_COMPAT, G_REGEX_ERROR_CHARACTER_VALUE_TOO_LARGE); /* These errors can't really be tested sanely: * G_REGEX_ERROR_EXPRESSION_TOO_LARGE * G_REGEX_ERROR_MEMORY_ERROR * G_REGEX_ERROR_SUBPATTERN_NAME_TOO_LONG * G_REGEX_ERROR_TOO_MANY_SUBPATTERNS * G_REGEX_ERROR_TOO_MANY_FORWARD_REFERENCES * * These errors are obsolete and never raised by PCRE: * G_REGEX_ERROR_DEFINE_REPETION */ /* TEST_MATCH_SIMPLE(pattern, string, compile_opts, match_opts, expected) */ TEST_MATCH_SIMPLE("a", "", 0, 0, FALSE); TEST_MATCH_SIMPLE("a", "a", 0, 0, TRUE); TEST_MATCH_SIMPLE("a", "ba", 0, 0, TRUE); TEST_MATCH_SIMPLE("^a", "ba", 0, 0, FALSE); TEST_MATCH_SIMPLE("a", "ba", G_REGEX_ANCHORED, 0, FALSE); TEST_MATCH_SIMPLE("a", "ba", 0, G_REGEX_MATCH_ANCHORED, FALSE); TEST_MATCH_SIMPLE("a", "ab", G_REGEX_ANCHORED, 0, TRUE); TEST_MATCH_SIMPLE("a", "ab", 0, G_REGEX_MATCH_ANCHORED, TRUE); TEST_MATCH_SIMPLE("a", "a", G_REGEX_CASELESS, 0, TRUE); TEST_MATCH_SIMPLE("a", "A", G_REGEX_CASELESS, 0, TRUE); /* These are needed to test extended properties. */ TEST_MATCH_SIMPLE(AGRAVE, AGRAVE, G_REGEX_CASELESS, 0, TRUE); TEST_MATCH_SIMPLE(AGRAVE, AGRAVE_UPPER, G_REGEX_CASELESS, 0, TRUE); TEST_MATCH_SIMPLE("\\p{L}", "a", 0, 0, TRUE); TEST_MATCH_SIMPLE("\\p{L}", "1", 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{L}", AGRAVE, 0, 0, TRUE); TEST_MATCH_SIMPLE("\\p{L}", AGRAVE_UPPER, 0, 0, TRUE); TEST_MATCH_SIMPLE("\\p{L}", SHEEN, 0, 0, TRUE); TEST_MATCH_SIMPLE("\\p{L}", ETH30, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Ll}", "a", 0, 0, TRUE); TEST_MATCH_SIMPLE("\\p{Ll}", AGRAVE, 0, 0, TRUE); TEST_MATCH_SIMPLE("\\p{Ll}", AGRAVE_UPPER, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Ll}", ETH30, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Sc}", AGRAVE, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Sc}", EURO, 0, 0, TRUE); TEST_MATCH_SIMPLE("\\p{Sc}", ETH30, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{N}", "a", 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{N}", "1", 0, 0, TRUE); TEST_MATCH_SIMPLE("\\p{N}", AGRAVE, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{N}", AGRAVE_UPPER, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{N}", SHEEN, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{N}", ETH30, 0, 0, TRUE); TEST_MATCH_SIMPLE("\\p{Nd}", "a", 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Nd}", "1", 0, 0, TRUE); TEST_MATCH_SIMPLE("\\p{Nd}", AGRAVE, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Nd}", AGRAVE_UPPER, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Nd}", SHEEN, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Nd}", ETH30, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Common}", SHEEN, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Common}", "a", 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Common}", AGRAVE, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Common}", AGRAVE_UPPER, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Common}", ETH30, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Common}", "%", 0, 0, TRUE); TEST_MATCH_SIMPLE("\\p{Common}", "1", 0, 0, TRUE); TEST_MATCH_SIMPLE("\\p{Arabic}", SHEEN, 0, 0, TRUE); TEST_MATCH_SIMPLE("\\p{Arabic}", "a", 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Arabic}", AGRAVE, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Arabic}", AGRAVE_UPPER, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Arabic}", ETH30, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Arabic}", "%", 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Arabic}", "1", 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Latin}", SHEEN, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Latin}", "a", 0, 0, TRUE); TEST_MATCH_SIMPLE("\\p{Latin}", AGRAVE, 0, 0, TRUE); TEST_MATCH_SIMPLE("\\p{Latin}", AGRAVE_UPPER, 0, 0, TRUE); TEST_MATCH_SIMPLE("\\p{Latin}", ETH30, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Latin}", "%", 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Latin}", "1", 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Ethiopic}", SHEEN, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Ethiopic}", "a", 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Ethiopic}", AGRAVE, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Ethiopic}", AGRAVE_UPPER, 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Ethiopic}", ETH30, 0, 0, TRUE); TEST_MATCH_SIMPLE("\\p{Ethiopic}", "%", 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{Ethiopic}", "1", 0, 0, FALSE); TEST_MATCH_SIMPLE("\\p{L}(?<=\\p{Arabic})", SHEEN, 0, 0, TRUE); TEST_MATCH_SIMPLE("\\p{L}(?<=\\p{Latin})", SHEEN, 0, 0, FALSE); /* Invalid patterns. */ TEST_MATCH_SIMPLE("\\", "a", 0, 0, FALSE); TEST_MATCH_SIMPLE("[", "", 0, 0, FALSE); /* TEST_MATCH(pattern, compile_opts, match_opts, string, * string_len, start_position, match_opts2, expected) */ TEST_MATCH("a", 0, 0, "a", -1, 0, 0, TRUE); TEST_MATCH("a", 0, 0, "A", -1, 0, 0, FALSE); TEST_MATCH("a", G_REGEX_CASELESS, 0, "A", -1, 0, 0, TRUE); TEST_MATCH("a", 0, 0, "ab", -1, 1, 0, FALSE); TEST_MATCH("a", 0, 0, "ba", 1, 0, 0, FALSE); TEST_MATCH("a", 0, 0, "bab", -1, 0, 0, TRUE); TEST_MATCH("a", 0, 0, "b", -1, 0, 0, FALSE); TEST_MATCH("a", 0, G_REGEX_ANCHORED, "a", -1, 0, 0, TRUE); TEST_MATCH("a", 0, G_REGEX_ANCHORED, "ab", -1, 1, 0, FALSE); TEST_MATCH("a", 0, G_REGEX_ANCHORED, "ba", 1, 0, 0, FALSE); TEST_MATCH("a", 0, G_REGEX_ANCHORED, "bab", -1, 0, 0, FALSE); TEST_MATCH("a", 0, G_REGEX_ANCHORED, "b", -1, 0, 0, FALSE); TEST_MATCH("a", 0, 0, "a", -1, 0, G_REGEX_ANCHORED, TRUE); TEST_MATCH("a", 0, 0, "ab", -1, 1, G_REGEX_ANCHORED, FALSE); TEST_MATCH("a", 0, 0, "ba", 1, 0, G_REGEX_ANCHORED, FALSE); TEST_MATCH("a", 0, 0, "bab", -1, 0, G_REGEX_ANCHORED, FALSE); TEST_MATCH("a", 0, 0, "b", -1, 0, G_REGEX_ANCHORED, FALSE); TEST_MATCH("a|b", 0, 0, "a", -1, 0, 0, TRUE); TEST_MATCH("\\d", 0, 0, EURO, -1, 0, 0, FALSE); TEST_MATCH("^.$", 0, 0, EURO, -1, 0, 0, TRUE); TEST_MATCH("^.{3}$", 0, 0, EURO, -1, 0, 0, FALSE); TEST_MATCH("^.$", G_REGEX_RAW, 0, EURO, -1, 0, 0, FALSE); TEST_MATCH("^.{3}$", G_REGEX_RAW, 0, EURO, -1, 0, 0, TRUE); TEST_MATCH(AGRAVE, G_REGEX_CASELESS, 0, AGRAVE_UPPER, -1, 0, 0, TRUE); /* New lines handling. */ TEST_MATCH("^a\\Rb$", 0, 0, "a\r\nb", -1, 0, 0, TRUE); TEST_MATCH("^a\\Rb$", 0, 0, "a\nb", -1, 0, 0, TRUE); TEST_MATCH("^a\\Rb$", 0, 0, "a\rb", -1, 0, 0, TRUE); TEST_MATCH("^a\\Rb$", 0, 0, "a\n\rb", -1, 0, 0, FALSE); TEST_MATCH("^a\\R\\Rb$", 0, 0, "a\n\rb", -1, 0, 0, TRUE); TEST_MATCH("^a\\nb$", 0, 0, "a\r\nb", -1, 0, 0, FALSE); TEST_MATCH("^a\\r\\nb$", 0, 0, "a\r\nb", -1, 0, 0, TRUE); TEST_MATCH("^b$", 0, 0, "a\nb\nc", -1, 0, 0, FALSE); TEST_MATCH("^b$", G_REGEX_MULTILINE, 0, "a\nb\nc", -1, 0, 0, TRUE); TEST_MATCH("^b$", G_REGEX_MULTILINE, 0, "a\r\nb\r\nc", -1, 0, 0, TRUE); TEST_MATCH("^b$", G_REGEX_MULTILINE, 0, "a\rb\rc", -1, 0, 0, TRUE); TEST_MATCH("^b$", G_REGEX_MULTILINE | G_REGEX_NEWLINE_CR, 0, "a\nb\nc", -1, 0, 0, FALSE); TEST_MATCH("^b$", G_REGEX_MULTILINE | G_REGEX_NEWLINE_LF, 0, "a\nb\nc", -1, 0, 0, TRUE); TEST_MATCH("^b$", G_REGEX_MULTILINE | G_REGEX_NEWLINE_CRLF, 0, "a\nb\nc", -1, 0, 0, FALSE); TEST_MATCH("^b$", G_REGEX_MULTILINE | G_REGEX_NEWLINE_CR, 0, "a\r\nb\r\nc", -1, 0, 0, FALSE); TEST_MATCH("^b$", G_REGEX_MULTILINE | G_REGEX_NEWLINE_LF, 0, "a\r\nb\r\nc", -1, 0, 0, FALSE); TEST_MATCH("^b$", G_REGEX_MULTILINE | G_REGEX_NEWLINE_CRLF, 0, "a\r\nb\r\nc", -1, 0, 0, TRUE); TEST_MATCH("^b$", G_REGEX_MULTILINE | G_REGEX_NEWLINE_CR, 0, "a\rb\rc", -1, 0, 0, TRUE); TEST_MATCH("^b$", G_REGEX_MULTILINE | G_REGEX_NEWLINE_LF, 0, "a\rb\rc", -1, 0, 0, FALSE); TEST_MATCH("^b$", G_REGEX_MULTILINE | G_REGEX_NEWLINE_CRLF, 0, "a\rb\rc", -1, 0, 0, FALSE); TEST_MATCH("^b$", G_REGEX_MULTILINE, G_REGEX_MATCH_NEWLINE_CR, "a\nb\nc", -1, 0, 0, FALSE); TEST_MATCH("^b$", G_REGEX_MULTILINE, G_REGEX_MATCH_NEWLINE_LF, "a\nb\nc", -1, 0, 0, TRUE); TEST_MATCH("^b$", G_REGEX_MULTILINE, G_REGEX_MATCH_NEWLINE_CRLF, "a\nb\nc", -1, 0, 0, FALSE); TEST_MATCH("^b$", G_REGEX_MULTILINE, G_REGEX_MATCH_NEWLINE_CR, "a\r\nb\r\nc", -1, 0, 0, FALSE); TEST_MATCH("^b$", G_REGEX_MULTILINE, G_REGEX_MATCH_NEWLINE_LF, "a\r\nb\r\nc", -1, 0, 0, FALSE); TEST_MATCH("^b$", G_REGEX_MULTILINE, G_REGEX_MATCH_NEWLINE_CRLF, "a\r\nb\r\nc", -1, 0, 0, TRUE); TEST_MATCH("^b$", G_REGEX_MULTILINE, G_REGEX_MATCH_NEWLINE_CR, "a\rb\rc", -1, 0, 0, TRUE); TEST_MATCH("^b$", G_REGEX_MULTILINE, G_REGEX_MATCH_NEWLINE_LF, "a\rb\rc", -1, 0, 0, FALSE); TEST_MATCH("^b$", G_REGEX_MULTILINE, G_REGEX_MATCH_NEWLINE_CRLF, "a\rb\rc", -1, 0, 0, FALSE); TEST_MATCH("^b$", G_REGEX_MULTILINE | G_REGEX_NEWLINE_CR, G_REGEX_MATCH_NEWLINE_ANY, "a\nb\nc", -1, 0, 0, TRUE); TEST_MATCH("^b$", G_REGEX_MULTILINE | G_REGEX_NEWLINE_CR, G_REGEX_MATCH_NEWLINE_ANY, "a\rb\rc", -1, 0, 0, TRUE); TEST_MATCH("^b$", G_REGEX_MULTILINE | G_REGEX_NEWLINE_CR, G_REGEX_MATCH_NEWLINE_ANY, "a\r\nb\r\nc", -1, 0, 0, TRUE); TEST_MATCH("^b$", G_REGEX_MULTILINE | G_REGEX_NEWLINE_CR, G_REGEX_MATCH_NEWLINE_LF, "a\nb\nc", -1, 0, 0, TRUE); TEST_MATCH("^b$", G_REGEX_MULTILINE | G_REGEX_NEWLINE_CR, G_REGEX_MATCH_NEWLINE_LF, "a\rb\rc", -1, 0, 0, FALSE); TEST_MATCH("^b$", G_REGEX_MULTILINE | G_REGEX_NEWLINE_CR, G_REGEX_MATCH_NEWLINE_CRLF, "a\r\nb\r\nc", -1, 0, 0, TRUE); TEST_MATCH("^b$", G_REGEX_MULTILINE | G_REGEX_NEWLINE_CR, G_REGEX_MATCH_NEWLINE_CRLF, "a\rb\rc", -1, 0, 0, FALSE); TEST_MATCH("a#\nb", G_REGEX_EXTENDED, 0, "a", -1, 0, 0, FALSE); TEST_MATCH("a#\r\nb", G_REGEX_EXTENDED, 0, "a", -1, 0, 0, FALSE); TEST_MATCH("a#\rb", G_REGEX_EXTENDED, 0, "a", -1, 0, 0, FALSE); TEST_MATCH("a#\nb", G_REGEX_EXTENDED, G_REGEX_MATCH_NEWLINE_CR, "a", -1, 0, 0, FALSE); TEST_MATCH("a#\nb", G_REGEX_EXTENDED | G_REGEX_NEWLINE_CR, 0, "a", -1, 0, 0, TRUE); TEST_MATCH("line\nbreak", G_REGEX_MULTILINE, 0, "this is a line\nbreak", -1, 0, 0, TRUE); TEST_MATCH("line\nbreak", G_REGEX_MULTILINE | G_REGEX_FIRSTLINE, 0, "first line\na line\nbreak", -1, 0, 0, FALSE); /* This failed with PCRE 7.2 (gnome bug #455640) */ TEST_MATCH(".*$", 0, 0, "\xe1\xbb\x85", -1, 0, 0, TRUE); /* Test that othercasing in our pcre/glib integration is bug-for-bug compatible * with pcre's internal tables. Bug #678273 */ TEST_MATCH("[DŽ]", G_REGEX_CASELESS, 0, "DŽ", -1, 0, 0, TRUE); TEST_MATCH("[DŽ]", G_REGEX_CASELESS, 0, "Dž", -1, 0, 0, FALSE); TEST_MATCH("[DŽ]", G_REGEX_CASELESS, 0, "dž", -1, 0, 0, TRUE); /* TEST_MATCH_NEXT#(pattern, string, string_len, start_position, ...) */ TEST_MATCH_NEXT0("a", "x", -1, 0); TEST_MATCH_NEXT0("a", "ax", -1, 1); TEST_MATCH_NEXT0("a", "xa", 1, 0); TEST_MATCH_NEXT0("a", "axa", 1, 2); TEST_MATCH_NEXT1("a", "a", -1, 0, "a", 0, 1); TEST_MATCH_NEXT1("a", "xax", -1, 0, "a", 1, 2); TEST_MATCH_NEXT1(EURO, ENG EURO, -1, 0, EURO, 2, 5); TEST_MATCH_NEXT1("a*", "", -1, 0, "", 0, 0); TEST_MATCH_NEXT2("a*", "aa", -1, 0, "aa", 0, 2, "", 2, 2); TEST_MATCH_NEXT2(EURO "*", EURO EURO, -1, 0, EURO EURO, 0, 6, "", 6, 6); TEST_MATCH_NEXT2("a", "axa", -1, 0, "a", 0, 1, "a", 2, 3); TEST_MATCH_NEXT2("a+", "aaxa", -1, 0, "aa", 0, 2, "a", 3, 4); TEST_MATCH_NEXT2("a", "aa", -1, 0, "a", 0, 1, "a", 1, 2); TEST_MATCH_NEXT2("a", "ababa", -1, 2, "a", 2, 3, "a", 4, 5); TEST_MATCH_NEXT2(EURO "+", EURO "-" EURO, -1, 0, EURO, 0, 3, EURO, 4, 7); TEST_MATCH_NEXT3("", "ab", -1, 0, "", 0, 0, "", 1, 1, "", 2, 2); TEST_MATCH_NEXT3("", AGRAVE "b", -1, 0, "", 0, 0, "", 2, 2, "", 3, 3); TEST_MATCH_NEXT3("a", "aaxa", -1, 0, "a", 0, 1, "a", 1, 2, "a", 3, 4); TEST_MATCH_NEXT3("a", "aa" OGRAVE "a", -1, 0, "a", 0, 1, "a", 1, 2, "a", 4, 5); TEST_MATCH_NEXT3("a*", "aax", -1, 0, "aa", 0, 2, "", 2, 2, "", 3, 3); TEST_MATCH_NEXT3("(?=[A-Z0-9])", "RegExTest", -1, 0, "", 0, 0, "", 3, 3, "", 5, 5); TEST_MATCH_NEXT4("a*", "aaxa", -1, 0, "aa", 0, 2, "", 2, 2, "a", 3, 4, "", 4, 4); /* TEST_MATCH_COUNT(pattern, string, start_position, match_opts, expected_count) */ TEST_MATCH_COUNT("a", "", 0, 0, 0); TEST_MATCH_COUNT("a", "a", 0, 0, 1); TEST_MATCH_COUNT("a", "a", 1, 0, 0); TEST_MATCH_COUNT("(.)", "a", 0, 0, 2); TEST_MATCH_COUNT("(.)", EURO, 0, 0, 2); TEST_MATCH_COUNT("(?:.)", "a", 0, 0, 1); TEST_MATCH_COUNT("(?P.)", "a", 0, 0, 2); TEST_MATCH_COUNT("a$", "a", 0, G_REGEX_MATCH_NOTEOL, 0); TEST_MATCH_COUNT("(a)?(b)", "b", 0, 0, 3); TEST_MATCH_COUNT("(a)?(b)", "ab", 0, 0, 3); /* TEST_PARTIAL(pattern, string, expected) */ TEST_PARTIAL("^ab", "a", TRUE); TEST_PARTIAL("^ab", "xa", FALSE); TEST_PARTIAL("ab", "xa", TRUE); TEST_PARTIAL("ab", "ab", FALSE); /* normal match. */ TEST_PARTIAL("a+b", "aa", TRUE); TEST_PARTIAL("(a)+b", "aa", TRUE); TEST_PARTIAL("a?b", "a", TRUE); /* Test soft vs. hard partial matching */ TEST_PARTIAL_FULL("cat(fish)?", "cat", G_REGEX_MATCH_PARTIAL_SOFT, FALSE); TEST_PARTIAL_FULL("cat(fish)?", "cat", G_REGEX_MATCH_PARTIAL_HARD, TRUE); /* TEST_SUB_PATTERN(pattern, string, start_position, sub_n, expected_sub, * expected_start, expected_end) */ TEST_SUB_PATTERN("a", "a", 0, 0, "a", 0, 1); TEST_SUB_PATTERN("a(.)", "ab", 0, 1, "b", 1, 2); TEST_SUB_PATTERN("a(.)", "a" EURO, 0, 1, EURO, 1, 4); TEST_SUB_PATTERN("(?:.*)(a)(.)", "xxa" ENG, 0, 2, ENG, 3, 5); TEST_SUB_PATTERN("(" HSTROKE ")", "a" HSTROKE ENG, 0, 1, HSTROKE, 1, 3); TEST_SUB_PATTERN("a", "a", 0, 1, NULL, UNTOUCHED, UNTOUCHED); TEST_SUB_PATTERN("a", "a", 0, 1, NULL, UNTOUCHED, UNTOUCHED); TEST_SUB_PATTERN("(a)?(b)", "b", 0, 0, "b", 0, 1); TEST_SUB_PATTERN("(a)?(b)", "b", 0, 1, "", -1, -1); TEST_SUB_PATTERN("(a)?(b)", "b", 0, 2, "b", 0, 1); /* TEST_NAMED_SUB_PATTERN(pattern, string, start_position, sub_name, * expected_sub, expected_start, expected_end) */ TEST_NAMED_SUB_PATTERN("a(?P.)(?P.)?", "ab", 0, "A", "b", 1, 2); TEST_NAMED_SUB_PATTERN("a(?P.)(?P.)?", "aab", 1, "A", "b", 2, 3); TEST_NAMED_SUB_PATTERN("a(?P.)(?P.)?", EURO "ab", 0, "A", "b", 4, 5); TEST_NAMED_SUB_PATTERN("a(?P.)(?P.)?", EURO "ab", 0, "B", NULL, UNTOUCHED, UNTOUCHED); TEST_NAMED_SUB_PATTERN("a(?P.)(?P.)?", EURO "ab", 0, "C", NULL, UNTOUCHED, UNTOUCHED); TEST_NAMED_SUB_PATTERN("a(?P.)(?P.)?", "a" EGRAVE "x", 0, "A", EGRAVE, 1, 3); TEST_NAMED_SUB_PATTERN("a(?P.)(?P.)?", "a" EGRAVE "x", 0, "B", "x", 3, 4); TEST_NAMED_SUB_PATTERN("(?Pa)?(?Pb)", "b", 0, "A", "", -1, -1); TEST_NAMED_SUB_PATTERN("(?Pa)?(?Pb)", "b", 0, "B", "b", 0, 1); /* TEST_NAMED_SUB_PATTERN_DUPNAMES(pattern, string, start_position, sub_name, * expected_sub, expected_start, expected_end) */ TEST_NAMED_SUB_PATTERN_DUPNAMES("(?Pa)|(?Pb)", "ab", 0, "N", "a", 0, 1); TEST_NAMED_SUB_PATTERN_DUPNAMES("(?Paa)|(?Pa)", "aa", 0, "N", "aa", 0, 2); TEST_NAMED_SUB_PATTERN_DUPNAMES("(?Paa)(?Pa)", "aaa", 0, "N", "aa", 0, 2); TEST_NAMED_SUB_PATTERN_DUPNAMES("(?Px)|(?Pa)", "a", 0, "N", "a", 0, 1); TEST_NAMED_SUB_PATTERN_DUPNAMES("(?Px)y|(?Pa)b", "ab", 0, "N", "a", 0, 1); /* DUPNAMES option inside the pattern */ TEST_NAMED_SUB_PATTERN("(?J)(?Pa)|(?Pb)", "ab", 0, "N", "a", 0, 1); TEST_NAMED_SUB_PATTERN("(?J)(?Paa)|(?Pa)", "aa", 0, "N", "aa", 0, 2); TEST_NAMED_SUB_PATTERN("(?J)(?Paa)(?Pa)", "aaa", 0, "N", "aa", 0, 2); TEST_NAMED_SUB_PATTERN("(?J)(?Px)|(?Pa)", "a", 0, "N", "a", 0, 1); TEST_NAMED_SUB_PATTERN("(?J)(?Px)y|(?Pa)b", "ab", 0, "N", "a", 0, 1); /* TEST_FETCH_ALL#(pattern, string, ...) */ TEST_FETCH_ALL0("a", ""); TEST_FETCH_ALL0("a", "b"); TEST_FETCH_ALL1("a", "a", "a"); TEST_FETCH_ALL1("a+", "aa", "aa"); TEST_FETCH_ALL1("(?:a)", "a", "a"); TEST_FETCH_ALL2("(a)", "a", "a", "a"); TEST_FETCH_ALL2("a(.)", "ab", "ab", "b"); TEST_FETCH_ALL2("a(.)", "a" HSTROKE, "a" HSTROKE, HSTROKE); TEST_FETCH_ALL3("(?:.*)(a)(.)", "xyazk", "xyaz", "a", "z"); TEST_FETCH_ALL3("(?P.)(a)", "xa", "xa", "x", "a"); TEST_FETCH_ALL3("(?P.)(a)", ENG "a", ENG "a", ENG, "a"); TEST_FETCH_ALL3("(a)?(b)", "b", "b", "", "b"); TEST_FETCH_ALL3("(a)?(b)", "ab", "ab", "a", "b"); /* TEST_SPLIT_SIMPLE#(pattern, string, ...) */ TEST_SPLIT_SIMPLE0("", ""); TEST_SPLIT_SIMPLE0("a", ""); TEST_SPLIT_SIMPLE1(",", "a", "a"); TEST_SPLIT_SIMPLE1("(,)\\s*", "a", "a"); TEST_SPLIT_SIMPLE2(",", "a,b", "a", "b"); TEST_SPLIT_SIMPLE3(",", "a,b,c", "a", "b", "c"); TEST_SPLIT_SIMPLE3(",\\s*", "a,b,c", "a", "b", "c"); TEST_SPLIT_SIMPLE3(",\\s*", "a, b, c", "a", "b", "c"); TEST_SPLIT_SIMPLE3("(,)\\s*", "a,b", "a", ",", "b"); TEST_SPLIT_SIMPLE3("(,)\\s*", "a, b", "a", ",", "b"); TEST_SPLIT_SIMPLE2("\\s", "ab c", "ab", "c"); TEST_SPLIT_SIMPLE3("\\s*", "ab c", "a", "b", "c"); /* Not matched sub-strings. */ TEST_SPLIT_SIMPLE2("a|(b)", "xay", "x", "y"); TEST_SPLIT_SIMPLE3("a|(b)", "xby", "x", "b", "y"); /* Empty matches. */ TEST_SPLIT_SIMPLE3("", "abc", "a", "b", "c"); TEST_SPLIT_SIMPLE3(" *", "ab c", "a", "b", "c"); /* Invalid patterns. */ TEST_SPLIT_SIMPLE0("\\", ""); TEST_SPLIT_SIMPLE0("[", ""); /* TEST_SPLIT#(pattern, string, start_position, max_tokens, ...) */ TEST_SPLIT0("", "", 0, 0); TEST_SPLIT0("a", "", 0, 0); TEST_SPLIT0("a", "", 0, 1); TEST_SPLIT0("a", "", 0, 2); TEST_SPLIT0("a", "a", 1, 0); TEST_SPLIT1(",", "a", 0, 0, "a"); TEST_SPLIT1(",", "a,b", 0, 1, "a,b"); TEST_SPLIT1("(,)\\s*", "a", 0, 0, "a"); TEST_SPLIT1(",", "a,b", 2, 0, "b"); TEST_SPLIT2(",", "a,b", 0, 0, "a", "b"); TEST_SPLIT2(",", "a,b,c", 0, 2, "a", "b,c"); TEST_SPLIT2(",", "a,b", 1, 0, "", "b"); TEST_SPLIT2(",", "a,", 0, 0, "a", ""); TEST_SPLIT3(",", "a,b,c", 0, 0, "a", "b", "c"); TEST_SPLIT3(",\\s*", "a,b,c", 0, 0, "a", "b", "c"); TEST_SPLIT3(",\\s*", "a, b, c", 0, 0, "a", "b", "c"); TEST_SPLIT3("(,)\\s*", "a,b", 0, 0, "a", ",", "b"); TEST_SPLIT3("(,)\\s*", "a, b", 0, 0, "a", ",", "b"); /* Not matched sub-strings. */ TEST_SPLIT2("a|(b)", "xay", 0, 0, "x", "y"); TEST_SPLIT3("a|(b)", "xby", 0, -1, "x", "b", "y"); /* Empty matches. */ TEST_SPLIT2(" *", "ab c", 1, 0, "b", "c"); TEST_SPLIT3("", "abc", 0, 0, "a", "b", "c"); TEST_SPLIT3(" *", "ab c", 0, 0, "a", "b", "c"); TEST_SPLIT1(" *", "ab c", 0, 1, "ab c"); TEST_SPLIT2(" *", "ab c", 0, 2, "a", "b c"); TEST_SPLIT3(" *", "ab c", 0, 3, "a", "b", "c"); TEST_SPLIT3(" *", "ab c", 0, 4, "a", "b", "c"); /* TEST_CHECK_REPLACEMENT(string_to_expand, expected, expected_refs) */ TEST_CHECK_REPLACEMENT("", TRUE, FALSE); TEST_CHECK_REPLACEMENT("a", TRUE, FALSE); TEST_CHECK_REPLACEMENT("\\t\\n\\v\\r\\f\\a\\b\\\\\\x{61}", TRUE, FALSE); TEST_CHECK_REPLACEMENT("\\0", TRUE, TRUE); TEST_CHECK_REPLACEMENT("\\n\\2", TRUE, TRUE); TEST_CHECK_REPLACEMENT("\\g", TRUE, TRUE); /* Invalid strings */ TEST_CHECK_REPLACEMENT("\\Q", FALSE, FALSE); TEST_CHECK_REPLACEMENT("x\\Ay", FALSE, FALSE); /* TEST_EXPAND(pattern, string, string_to_expand, raw, expected) */ TEST_EXPAND("a", "a", "", FALSE, ""); TEST_EXPAND("a", "a", "\\0", FALSE, "a"); TEST_EXPAND("a", "a", "\\1", FALSE, ""); TEST_EXPAND("(a)", "ab", "\\1", FALSE, "a"); TEST_EXPAND("(a)", "a", "\\1", FALSE, "a"); TEST_EXPAND("(a)", "a", "\\g<1>", FALSE, "a"); TEST_EXPAND("a", "a", "\\0130", FALSE, "X"); TEST_EXPAND("a", "a", "\\\\\\0", FALSE, "\\a"); TEST_EXPAND("a(?P.)c", "xabcy", "X\\gX", FALSE, "XbX"); TEST_EXPAND("(.)(?P<1>.)", "ab", "\\1", FALSE, "a"); TEST_EXPAND("(.)(?P<1>.)", "ab", "\\g<1>", FALSE, "a"); TEST_EXPAND(".", EURO, "\\0", FALSE, EURO); TEST_EXPAND("(.)", EURO, "\\1", FALSE, EURO); TEST_EXPAND("(?P.)", EURO, "\\g", FALSE, EURO); TEST_EXPAND(".", "a", EURO, FALSE, EURO); TEST_EXPAND(".", "a", EURO "\\0", FALSE, EURO "a"); TEST_EXPAND(".", "", "\\Lab\\Ec", FALSE, "abc"); TEST_EXPAND(".", "", "\\LaB\\EC", FALSE, "abC"); TEST_EXPAND(".", "", "\\Uab\\Ec", FALSE, "ABc"); TEST_EXPAND(".", "", "a\\ubc", FALSE, "aBc"); TEST_EXPAND(".", "", "a\\lbc", FALSE, "abc"); TEST_EXPAND(".", "", "A\\uBC", FALSE, "ABC"); TEST_EXPAND(".", "", "A\\lBC", FALSE, "AbC"); TEST_EXPAND(".", "", "A\\l\\\\BC", FALSE, "A\\BC"); TEST_EXPAND(".", "", "\\L" AGRAVE "\\E", FALSE, AGRAVE); TEST_EXPAND(".", "", "\\U" AGRAVE "\\E", FALSE, AGRAVE_UPPER); TEST_EXPAND(".", "", "\\u" AGRAVE "a", FALSE, AGRAVE_UPPER "a"); TEST_EXPAND(".", "ab", "x\\U\\0y\\Ez", FALSE, "xAYz"); TEST_EXPAND(".(.)", "AB", "x\\L\\1y\\Ez", FALSE, "xbyz"); TEST_EXPAND(".", "ab", "x\\u\\0y\\Ez", FALSE, "xAyz"); TEST_EXPAND(".(.)", "AB", "x\\l\\1y\\Ez", FALSE, "xbyz"); TEST_EXPAND(".(.)", "a" AGRAVE_UPPER, "x\\l\\1y", FALSE, "x" AGRAVE "y"); TEST_EXPAND("a", "bab", "\\x{61}", FALSE, "a"); TEST_EXPAND("a", "bab", "\\x61", FALSE, "a"); TEST_EXPAND("a", "bab", "\\x5a", FALSE, "Z"); TEST_EXPAND("a", "bab", "\\0\\x5A", FALSE, "aZ"); TEST_EXPAND("a", "bab", "\\1\\x{5A}", FALSE, "Z"); TEST_EXPAND("a", "bab", "\\x{00E0}", FALSE, AGRAVE); TEST_EXPAND("", "bab", "\\x{0634}", FALSE, SHEEN); TEST_EXPAND("", "bab", "\\x{634}", FALSE, SHEEN); TEST_EXPAND("", "", "\\t", FALSE, "\t"); TEST_EXPAND("", "", "\\v", FALSE, "\v"); TEST_EXPAND("", "", "\\r", FALSE, "\r"); TEST_EXPAND("", "", "\\n", FALSE, "\n"); TEST_EXPAND("", "", "\\f", FALSE, "\f"); TEST_EXPAND("", "", "\\a", FALSE, "\a"); TEST_EXPAND("", "", "\\b", FALSE, "\b"); TEST_EXPAND("a(.)", "abc", "\\0\\b\\1", FALSE, "ab\bb"); TEST_EXPAND("a(.)", "abc", "\\0141", FALSE, "a"); TEST_EXPAND("a(.)", "abc", "\\078", FALSE, "\a8"); TEST_EXPAND("a(.)", "abc", "\\077", FALSE, "?"); TEST_EXPAND("a(.)", "abc", "\\0778", FALSE, "?8"); TEST_EXPAND("a(.)", "a" AGRAVE "b", "\\1", FALSE, AGRAVE); TEST_EXPAND("a(.)", "a" AGRAVE "b", "\\1", TRUE, "\xc3"); TEST_EXPAND("a(.)", "a" AGRAVE "b", "\\0", TRUE, "a\xc3"); /* Invalid strings. */ TEST_EXPAND("", "", "\\Q", FALSE, NULL); TEST_EXPAND("", "", "x\\Ay", FALSE, NULL); TEST_EXPAND("", "", "\\g<", FALSE, NULL); TEST_EXPAND("", "", "\\g<>", FALSE, NULL); TEST_EXPAND("", "", "\\g<1a>", FALSE, NULL); TEST_EXPAND("", "", "\\g", FALSE, NULL); TEST_EXPAND("", "", "\\", FALSE, NULL); TEST_EXPAND("a", "a", "\\x{61", FALSE, NULL); TEST_EXPAND("a", "a", "\\x6X", FALSE, NULL); /* Pattern-less. */ TEST_EXPAND(NULL, NULL, "", FALSE, ""); TEST_EXPAND(NULL, NULL, "\\n", FALSE, "\n"); /* Invalid strings */ TEST_EXPAND(NULL, NULL, "\\Q", FALSE, NULL); TEST_EXPAND(NULL, NULL, "x\\Ay", FALSE, NULL); /* TEST_REPLACE(pattern, string, start_position, replacement, expected) */ TEST_REPLACE("a", "ababa", 0, "A", "AbAbA"); TEST_REPLACE("a", "ababa", 1, "A", "abAbA"); TEST_REPLACE("a", "ababa", 2, "A", "abAbA"); TEST_REPLACE("a", "ababa", 3, "A", "ababA"); TEST_REPLACE("a", "ababa", 4, "A", "ababA"); TEST_REPLACE("a", "ababa", 5, "A", "ababa"); TEST_REPLACE("a", "ababa", 6, "A", "ababa"); TEST_REPLACE("a", "abababa", 2, "A", "abAbAbA"); TEST_REPLACE("a", "abab", 0, "A", "AbAb"); TEST_REPLACE("a", "baba", 0, "A", "bAbA"); TEST_REPLACE("a", "bab", 0, "A", "bAb"); TEST_REPLACE("$^", "abc", 0, "X", "abc"); TEST_REPLACE("(.)a", "ciao", 0, "a\\1", "caio"); TEST_REPLACE("a.", "abc", 0, "\\0\\0", "ababc"); TEST_REPLACE("a", "asd", 0, "\\0101", "Asd"); TEST_REPLACE("(a).\\1", "aba cda", 0, "\\1\\n", "a\n cda"); TEST_REPLACE("a" AGRAVE "a", "a" AGRAVE "a", 0, "x", "x"); TEST_REPLACE("a" AGRAVE "a", "a" AGRAVE "a", 0, OGRAVE, OGRAVE); TEST_REPLACE("[^-]", "-" EURO "-x-" HSTROKE, 0, "a", "-a-a-a"); TEST_REPLACE("[^-]", "-" EURO "-" HSTROKE, 0, "a\\g<0>a", "-a" EURO "a-a" HSTROKE "a"); TEST_REPLACE("-", "-" EURO "-" HSTROKE, 0, "", EURO HSTROKE); TEST_REPLACE(".*", "hello", 0, "\\U\\0\\E", "HELLO"); TEST_REPLACE(".*", "hello", 0, "\\u\\0", "Hello"); TEST_REPLACE("\\S+", "hello world", 0, "\\U-\\0-", "-HELLO- -WORLD-"); TEST_REPLACE(".", "a", 0, "\\A", NULL); TEST_REPLACE(".", "a", 0, "\\g", NULL); /* TEST_REPLACE_LIT(pattern, string, start_position, replacement, expected) */ TEST_REPLACE_LIT("a", "ababa", 0, "A", "AbAbA"); TEST_REPLACE_LIT("a", "ababa", 1, "A", "abAbA"); TEST_REPLACE_LIT("a", "ababa", 2, "A", "abAbA"); TEST_REPLACE_LIT("a", "ababa", 3, "A", "ababA"); TEST_REPLACE_LIT("a", "ababa", 4, "A", "ababA"); TEST_REPLACE_LIT("a", "ababa", 5, "A", "ababa"); TEST_REPLACE_LIT("a", "ababa", 6, "A", "ababa"); TEST_REPLACE_LIT("a", "abababa", 2, "A", "abAbAbA"); TEST_REPLACE_LIT("a", "abcadaa", 0, "A", "AbcAdAA"); TEST_REPLACE_LIT("$^", "abc", 0, "X", "abc"); TEST_REPLACE_LIT("(.)a", "ciao", 0, "a\\1", "ca\\1o"); TEST_REPLACE_LIT("a.", "abc", 0, "\\0\\0\\n", "\\0\\0\\nc"); TEST_REPLACE_LIT("a" AGRAVE "a", "a" AGRAVE "a", 0, "x", "x"); TEST_REPLACE_LIT("a" AGRAVE "a", "a" AGRAVE "a", 0, OGRAVE, OGRAVE); TEST_REPLACE_LIT(AGRAVE, "-" AGRAVE "-" HSTROKE, 0, "a" ENG "a", "-a" ENG "a-" HSTROKE); TEST_REPLACE_LIT("[^-]", "-" EURO "-" AGRAVE "-" HSTROKE, 0, "a", "-a-a-a"); TEST_REPLACE_LIT("[^-]", "-" EURO "-" AGRAVE, 0, "a\\g<0>a", "-a\\g<0>a-a\\g<0>a"); TEST_REPLACE_LIT("-", "-" EURO "-" AGRAVE "-" HSTROKE, 0, "", EURO AGRAVE HSTROKE); TEST_REPLACE_LIT("(?=[A-Z0-9])", "RegExTest", 0, "_", "_Reg_Ex_Test"); TEST_REPLACE_LIT("(?=[A-Z0-9])", "RegExTest", 1, "_", "Reg_Ex_Test"); /* TEST_GET_STRING_NUMBER(pattern, name, expected_num) */ TEST_GET_STRING_NUMBER("", "A", -1); TEST_GET_STRING_NUMBER("(?P.)", "A", 1); TEST_GET_STRING_NUMBER("(?P.)", "B", -1); TEST_GET_STRING_NUMBER("(?P.)(?Pa)", "A", 1); TEST_GET_STRING_NUMBER("(?P.)(?Pa)", "B", 2); TEST_GET_STRING_NUMBER("(?P.)(?Pa)", "C", -1); TEST_GET_STRING_NUMBER("(?P.)(.)(?Pa)", "A", 1); TEST_GET_STRING_NUMBER("(?P.)(.)(?Pa)", "B", 3); TEST_GET_STRING_NUMBER("(?P.)(.)(?Pa)", "C", -1); TEST_GET_STRING_NUMBER("(?:a)(?P.)", "A", 1); TEST_GET_STRING_NUMBER("(?:a)(?P.)", "B", -1); /* TEST_ESCAPE_NUL(string, length, expected) */ TEST_ESCAPE_NUL("hello world", -1, "hello world"); TEST_ESCAPE_NUL("hello\0world", -1, "hello"); TEST_ESCAPE_NUL("\0world", -1, ""); TEST_ESCAPE_NUL("hello world", 5, "hello"); TEST_ESCAPE_NUL("hello.world", 11, "hello.world"); TEST_ESCAPE_NUL("a(b\\b.$", 7, "a(b\\b.$"); TEST_ESCAPE_NUL("hello\0", 6, "hello\\x00"); TEST_ESCAPE_NUL("\0world", 6, "\\x00world"); TEST_ESCAPE_NUL("\0\0", 2, "\\x00\\x00"); TEST_ESCAPE_NUL("hello\0world", 11, "hello\\x00world"); TEST_ESCAPE_NUL("hello\0world\0", 12, "hello\\x00world\\x00"); TEST_ESCAPE_NUL("hello\\\0world", 12, "hello\\x00world"); TEST_ESCAPE_NUL("hello\\\\\0world", 13, "hello\\\\\\x00world"); TEST_ESCAPE_NUL("|()[]{}^$*+?.", 13, "|()[]{}^$*+?."); TEST_ESCAPE_NUL("|()[]{}^$*+?.\\\\", 15, "|()[]{}^$*+?.\\\\"); /* TEST_ESCAPE(string, length, expected) */ TEST_ESCAPE("hello world", -1, "hello world"); TEST_ESCAPE("hello world", 5, "hello"); TEST_ESCAPE("hello.world", -1, "hello\\.world"); TEST_ESCAPE("a(b\\b.$", -1, "a\\(b\\\\b\\.\\$"); TEST_ESCAPE("hello\0world", -1, "hello"); TEST_ESCAPE("hello\0world", 11, "hello\\0world"); TEST_ESCAPE(EURO "*" ENG, -1, EURO "\\*" ENG); TEST_ESCAPE("a$", -1, "a\\$"); TEST_ESCAPE("$a", -1, "\\$a"); TEST_ESCAPE("a$a", -1, "a\\$a"); TEST_ESCAPE("$a$", -1, "\\$a\\$"); TEST_ESCAPE("$a$", 0, ""); TEST_ESCAPE("$a$", 1, "\\$"); TEST_ESCAPE("$a$", 2, "\\$a"); TEST_ESCAPE("$a$", 3, "\\$a\\$"); TEST_ESCAPE("$a$", 4, "\\$a\\$\\0"); TEST_ESCAPE("|()[]{}^$*+?.", -1, "\\|\\(\\)\\[\\]\\{\\}\\^\\$\\*\\+\\?\\."); TEST_ESCAPE("a|a(a)a[a]a{a}a^a$a*a+a?a.a", -1, "a\\|a\\(a\\)a\\[a\\]a\\{a\\}a\\^a\\$a\\*a\\+a\\?a\\.a"); /* TEST_MATCH_ALL#(pattern, string, string_len, start_position, ...) */ TEST_MATCH_ALL0("<.*>", "", -1, 0); TEST_MATCH_ALL0("a+", "", -1, 0); TEST_MATCH_ALL0("a+", "a", 0, 0); TEST_MATCH_ALL0("a+", "a", -1, 1); TEST_MATCH_ALL1("<.*>", "", -1, 0, "", 0, 3); TEST_MATCH_ALL1("a+", "a", -1, 0, "a", 0, 1); TEST_MATCH_ALL1("a+", "aa", 1, 0, "a", 0, 1); TEST_MATCH_ALL1("a+", "aa", -1, 1, "a", 1, 2); TEST_MATCH_ALL1("a+", "aa", 2, 1, "a", 1, 2); TEST_MATCH_ALL1(".+", ENG, -1, 0, ENG, 0, 2); TEST_MATCH_ALL2("<.*>", "", -1, 0, "", 0, 6, "", 0, 3); TEST_MATCH_ALL2("a+", "aa", -1, 0, "aa", 0, 2, "a", 0, 1); TEST_MATCH_ALL2(".+", ENG EURO, -1, 0, ENG EURO, 0, 5, ENG, 0, 2); TEST_MATCH_ALL3("<.*>", "", -1, 0, "", 0, 9, "", 0, 6, "", 0, 3); TEST_MATCH_ALL3("a+", "aaa", -1, 0, "aaa", 0, 3, "aa", 0, 2, "a", 0, 1); /* NOTEMPTY matching */ TEST_MATCH_NOTEMPTY("a?b?", "xyz", FALSE); TEST_MATCH_NOTEMPTY_ATSTART("a?b?", "xyz", TRUE); return g_test_run (); }