/* Test for struct grouping_iterator. Copyright (C) 2022 Free Software Foundation, Inc. This file is part of the GNU C Library. The GNU C 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 2.1 of the License, or (at your option) any later version. The GNU C 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 the GNU C Library; if not, see . */ /* Rebuild the fail to access internal-only functions. */ #include #include #include #include #include static void check (int lineno, const char *groupings, const char *input, const char *expected) { if (test_verbose) { printf ("info: %s:%d: \"%s\" via \"", __FILE__, lineno, input); for (const char *p = groupings; *p != 0; ++p) printf ("\\%o", *p & 0xff); printf ("\" to \"%s\"\n", expected); } size_t initial_group = strchrnul (expected, '\'') - expected; size_t separators = 0; for (const char *p = expected; *p != '\0'; ++p) separators += *p == '\''; size_t digits = strlen (input); char *out = xmalloc (2 * digits + 1); struct grouping_iterator it; TEST_COMPARE (grouping_iterator_setup (&it, digits, groupings), strchr (expected, '\'') != NULL); TEST_COMPARE (it.remaining, digits); TEST_COMPARE (it.remaining_in_current_group, initial_group); TEST_COMPARE (it.separators, separators); char *p = out; while (*input != '\0') { if (__grouping_iterator_next (&it)) *p++ = '\''; TEST_COMPARE (it.separators, separators); *p++ = *input++; } *p++ = '\0'; TEST_COMPARE (it.remaining, 0); TEST_COMPARE (it.remaining_in_current_group, 0); TEST_COMPARE_STRING (out, expected); free (out); } static int do_test (void) { check (__LINE__, "", "1", "1"); check (__LINE__, "", "12", "12"); check (__LINE__, "", "123", "123"); check (__LINE__, "", "1234", "1234"); check (__LINE__, "\3", "1", "1"); check (__LINE__, "\3", "12", "12"); check (__LINE__, "\3", "123", "123"); check (__LINE__, "\3", "1234", "1'234"); check (__LINE__, "\3", "12345", "12'345"); check (__LINE__, "\3", "123456", "123'456"); check (__LINE__, "\3", "1234567", "1'234'567"); check (__LINE__, "\3", "12345678", "12'345'678"); check (__LINE__, "\3", "123456789", "123'456'789"); check (__LINE__, "\3", "1234567890", "1'234'567'890"); check (__LINE__, "\2\3", "1", "1"); check (__LINE__, "\2\3", "12", "12"); check (__LINE__, "\2\3", "123", "1'23"); check (__LINE__, "\2\3", "1234", "12'34"); check (__LINE__, "\2\3", "12345", "123'45"); check (__LINE__, "\2\3", "123456", "1'234'56"); check (__LINE__, "\2\3", "1234567", "12'345'67"); check (__LINE__, "\2\3", "12345678", "123'456'78"); check (__LINE__, "\2\3", "123456789", "1'234'567'89"); check (__LINE__, "\2\3", "1234567890", "12'345'678'90"); check (__LINE__, "\3\2", "1", "1"); check (__LINE__, "\3\2", "12", "12"); check (__LINE__, "\3\2", "123", "123"); check (__LINE__, "\3\2", "1234", "1'234"); check (__LINE__, "\3\2", "12345", "12'345"); check (__LINE__, "\3\2", "123456", "1'23'456"); check (__LINE__, "\3\2", "1234567", "12'34'567"); check (__LINE__, "\3\2", "12345678", "1'23'45'678"); check (__LINE__, "\3\2", "123456789", "12'34'56'789"); check (__LINE__, "\3\2", "1234567890", "1'23'45'67'890"); check (__LINE__, "\3\2\1", "1", "1"); check (__LINE__, "\3\2\1", "12", "12"); check (__LINE__, "\3\2\1", "123", "123"); check (__LINE__, "\3\2\1", "1234", "1'234"); check (__LINE__, "\3\2\1", "12345", "12'345"); check (__LINE__, "\3\2\1", "123456", "1'23'456"); check (__LINE__, "\3\2\1", "1234567", "1'2'34'567"); check (__LINE__, "\3\2\1", "12345678", "1'2'3'45'678"); check (__LINE__, "\3\2\1", "123456789", "1'2'3'4'56'789"); check (__LINE__, "\3\2\1", "1234567890", "1'2'3'4'5'67'890"); check (__LINE__, "\2\3\1", "1", "1"); check (__LINE__, "\2\3\1", "12", "12"); check (__LINE__, "\2\3\1", "123", "1'23"); check (__LINE__, "\2\3\1", "1234", "12'34"); check (__LINE__, "\2\3\1", "12345", "123'45"); check (__LINE__, "\2\3\1", "123456", "1'234'56"); check (__LINE__, "\2\3\1", "1234567", "1'2'345'67"); check (__LINE__, "\2\3\1", "12345678", "1'2'3'456'78"); check (__LINE__, "\2\3\1", "123456789", "1'2'3'4'567'89"); check (__LINE__, "\2\3\1", "1234567890", "1'2'3'4'5'678'90"); /* No repeats. */ check (__LINE__, "\3\377", "1", "1"); check (__LINE__, "\3\377", "12", "12"); check (__LINE__, "\3\377", "123", "123"); check (__LINE__, "\3\377", "1234", "1'234"); check (__LINE__, "\3\377", "12345", "12'345"); check (__LINE__, "\3\377", "123456", "123'456"); check (__LINE__, "\3\377", "1234567", "1234'567"); check (__LINE__, "\3\377", "12345678", "12345'678"); check (__LINE__, "\2\3\377", "1", "1"); check (__LINE__, "\2\3\377", "12", "12"); check (__LINE__, "\2\3\377", "123", "1'23"); check (__LINE__, "\2\3\377", "1234", "12'34"); check (__LINE__, "\2\3\377", "12345", "123'45"); check (__LINE__, "\2\3\377", "123456", "1'234'56"); check (__LINE__, "\2\3\377", "1234567", "12'345'67"); check (__LINE__, "\2\3\377", "12345678", "123'456'78"); check (__LINE__, "\2\3\377", "123456789", "1234'567'89"); check (__LINE__, "\2\3\377", "1234567890", "12345'678'90"); check (__LINE__, "\3\2\377", "1", "1"); check (__LINE__, "\3\2\377", "12", "12"); check (__LINE__, "\3\2\377", "123", "123"); check (__LINE__, "\3\2\377", "1234", "1'234"); check (__LINE__, "\3\2\377", "12345", "12'345"); check (__LINE__, "\3\2\377", "123456", "1'23'456"); check (__LINE__, "\3\2\377", "1234567", "12'34'567"); check (__LINE__, "\3\2\377", "12345678", "123'45'678"); check (__LINE__, "\3\2\377", "123456789", "1234'56'789"); check (__LINE__, "\3\2\377", "1234567890", "12345'67'890"); /* Locale-based tests. */ locale_t loc; struct lc_ctype_data *ctype; struct grouping_iterator it; loc = newlocale (LC_ALL_MASK, "de_DE.UTF-8", 0); TEST_VERIFY_EXIT (loc != 0); ctype = loc->__locales[LC_CTYPE]->private; TEST_VERIFY (!ctype->outdigit_translation_needed); for (int i = 0; i <= 9; ++i) TEST_COMPARE (ctype->outdigit_bytes[i], 1); TEST_COMPARE (ctype->outdigit_bytes_all_equal, 1); TEST_COMPARE (__grouping_iterator_init (&it, LC_NUMERIC, loc, 8), true); TEST_COMPARE (it.remaining_in_current_group, 2); TEST_COMPARE (it.remaining, 8); TEST_COMPARE (*it.groupings, 3); TEST_COMPARE (it.non_repeating_groups, 3); /* Locale duplicates 3. */ TEST_COMPARE (it.separators, 2); TEST_COMPARE (__grouping_iterator_init (&it, LC_MONETARY, loc, 8), true); TEST_COMPARE (it.remaining_in_current_group, 2); TEST_COMPARE (it.remaining, 8); TEST_COMPARE (*it.groupings, 3); TEST_COMPARE (it.non_repeating_groups, 3); /* Locale duplicates 3. */ TEST_COMPARE (it.separators, 2); freelocale (loc); loc = newlocale (LC_ALL_MASK, "tg_TJ.UTF-8", 0); TEST_VERIFY_EXIT (loc != 0); ctype = loc->__locales[LC_CTYPE]->private; TEST_VERIFY (!ctype->outdigit_translation_needed); for (int i = 0; i <= 9; ++i) TEST_COMPARE (ctype->outdigit_bytes[i], 1); TEST_COMPARE (ctype->outdigit_bytes_all_equal, 1); TEST_COMPARE (__grouping_iterator_init (&it, LC_NUMERIC, loc, 8), true); TEST_COMPARE (it.remaining_in_current_group, 2); TEST_COMPARE (it.remaining, 8); TEST_COMPARE (*it.groupings, 3); TEST_COMPARE (it.non_repeating_groups, 3); /* Locale duplicates 3. */ TEST_COMPARE (it.separators, 2); TEST_COMPARE (__grouping_iterator_init (&it, LC_MONETARY, loc, 8), true); TEST_COMPARE (it.remaining_in_current_group, 2); TEST_COMPARE (it.remaining, 8); TEST_COMPARE (*it.groupings, 3); TEST_COMPARE (it.non_repeating_groups, 3); /* Locale duplicates 3. */ TEST_COMPARE (it.separators, 2); freelocale (loc); loc = newlocale (LC_ALL_MASK, "hi_IN.UTF-8", 0); TEST_VERIFY_EXIT (loc != 0); ctype = loc->__locales[LC_CTYPE]->private; TEST_VERIFY (ctype->outdigit_translation_needed); for (int i = 0; i <= 9; ++i) /* Locale uses Devanagari digits. */ TEST_COMPARE (ctype->outdigit_bytes[i], 3); TEST_COMPARE (ctype->outdigit_bytes_all_equal, 3); TEST_COMPARE (__grouping_iterator_init (&it, LC_NUMERIC, loc, 8), true); TEST_COMPARE (it.remaining_in_current_group, 2); TEST_COMPARE (it.remaining, 8); TEST_COMPARE (*it.groupings, 3); TEST_COMPARE (it.non_repeating_groups, 0); TEST_COMPARE (it.separators, 2); TEST_COMPARE (__grouping_iterator_init (&it, LC_MONETARY, loc, 8), true); TEST_COMPARE (it.remaining_in_current_group, 1); TEST_COMPARE (it.remaining, 8); TEST_COMPARE (*it.groupings, 2); TEST_COMPARE (it.non_repeating_groups, 3); TEST_COMPARE (it.separators, 3); freelocale (loc); loc = newlocale (LC_ALL_MASK, "ps_AF.UTF-8", 0); TEST_VERIFY_EXIT (loc != 0); ctype = loc->__locales[LC_CTYPE]->private; TEST_VERIFY (ctype->outdigit_translation_needed); for (int i = 0; i <= 9; ++i) /* Locale uses non-ASCII digits. */ TEST_COMPARE (ctype->outdigit_bytes[i], 2); TEST_COMPARE (ctype->outdigit_bytes_all_equal, 2); TEST_COMPARE (__grouping_iterator_init (&it, LC_NUMERIC, loc, 8), true); TEST_COMPARE (it.remaining_in_current_group, 2); TEST_COMPARE (it.remaining, 8); TEST_COMPARE (*it.groupings, 3); TEST_COMPARE (it.non_repeating_groups, 0); TEST_COMPARE (it.separators, 2); TEST_COMPARE (__grouping_iterator_init (&it, LC_MONETARY, loc, 8), true); TEST_COMPARE (it.remaining_in_current_group, 2); TEST_COMPARE (it.remaining, 8); TEST_COMPARE (*it.groupings, 3); TEST_COMPARE (it.non_repeating_groups, 0); TEST_COMPARE (it.separators, 2); freelocale (loc); return 0; } #include