kc3-lang/gnulib/tests/test-vasnwprintf-posix2.c
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tests/test-vasnwprintf-posix2.c
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/* Test of POSIX compatible vasnwprintf() and asnwprintf() functions. Copyright (C) 2007-2025 Free Software Foundation, Inc. This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see <https://www.gnu.org/licenses/>. */ /* Written by Bruno Haible <bruno@clisp.org>, 2007. */ #include <config.h> #include "vasnwprintf.h" #include <float.h> #include <locale.h> #include <stdlib.h> #include <string.h> #include <wchar.h> #if __GLIBC__ >= 2 || defined __CYGWIN__ # include <langinfo.h> # include <stdint.h> #endif #include "macros.h" int main (int argc, char *argv[]) { /* configure should already have checked that the locale is supported. */ if (setlocale (LC_ALL, "") == NULL) return 1; /* Test that a locale dependent decimal point is used. */ { size_t length; wchar_t *result = asnwprintf (NULL, &length, L"%.1a", 1.0); ASSERT (result != NULL); ASSERT (wcscmp (result, L"0x1,0p+0") == 0 || wcscmp (result, L"0x2,0p-1") == 0 || wcscmp (result, L"0x4,0p-2") == 0 || wcscmp (result, L"0x8,0p-3") == 0); ASSERT (length == wcslen (result)); free (result); } /* Test that a locale dependent decimal point is used. */ { size_t length; wchar_t *result = asnwprintf (NULL, &length, L"%.1La", 1.0L); ASSERT (result != NULL); ASSERT (wcscmp (result, L"0x1,0p+0") == 0 || wcscmp (result, L"0x2,0p-1") == 0 || wcscmp (result, L"0x4,0p-2") == 0 || wcscmp (result, L"0x8,0p-3") == 0); ASSERT (length == wcslen (result)); free (result); } /* Test that a locale dependent grouping separator is used correctly. */ { wchar_t separator[10]; #if __GLIBC__ >= 2 || defined __CYGWIN__ /* On glibc, in the unibyte locale fr_FR, the *wprintf routines use U+202F as separator, which cannot be represented in the locale encoding. */ separator[0] = (wchar_t) (uintptr_t) nl_langinfo (_NL_NUMERIC_THOUSANDS_SEP_WC); separator[1] = L'\0'; #else const char *separator_mb = localeconv ()->thousands_sep; /* = nl_langinfo (THOUSEP) */ mbstowcs (separator, separator_mb, SIZEOF (separator)); #endif size_t separator_len = wcslen (separator); /* Tests of %d directive with grouping separator. */ { size_t length; wchar_t *result = asnwprintf (NULL, &length, L"%'d", 1000); ASSERT (result != NULL); ASSERT (length == 4 + separator_len); ASSERT (wmemcmp (result, L"1", 1) == 0 && wmemcmp (result + 1, separator, separator_len) == 0 && wcscmp (result + 1 + separator_len, L"000") == 0); free (result); } { size_t length; wchar_t *result = asnwprintf (NULL, &length, L"%'d", -1000); ASSERT (result != NULL); ASSERT (length == 5 + separator_len); ASSERT (wmemcmp (result, L"-1", 2) == 0 && wmemcmp (result + 2, separator, separator_len) == 0 && wcscmp (result + 2 + separator_len, L"000") == 0); free (result); } { size_t length; wchar_t *result = asnwprintf (NULL, &length, L"%'d", -142857); ASSERT (result != NULL); ASSERT (length == 7 + separator_len); ASSERT (wmemcmp (result, L"-142", 4) == 0 && wmemcmp (result + 4, separator, separator_len) == 0 && wcscmp (result + 4 + separator_len, L"857") == 0); free (result); } { size_t length; wchar_t *result = asnwprintf (NULL, &length, L"%'d", 2147483647); ASSERT (result != NULL); ASSERT (length == 10 + 3 * separator_len); ASSERT (wmemcmp (result, L"2", 1) == 0 && wmemcmp (result + 1, separator, separator_len) == 0 && wmemcmp (result + 1 + separator_len, L"147", 3) == 0 && wmemcmp (result + 4 + separator_len, separator, separator_len) == 0 && wmemcmp (result + 4 + 2 * separator_len, L"483", 3) == 0 && wmemcmp (result + 7 + 2 * separator_len, separator, separator_len) == 0 && wcscmp (result + 7 + 3 * separator_len, L"647") == 0); free (result); } { size_t length; wchar_t *result = asnwprintf (NULL, &length, L"%'d", -2147483647); ASSERT (result != NULL); ASSERT (length == 11 + 3 * separator_len); ASSERT (wmemcmp (result, L"-2", 2) == 0 && wmemcmp (result + 2, separator, separator_len) == 0 && wmemcmp (result + 2 + separator_len, L"147", 3) == 0 && wmemcmp (result + 5 + separator_len, separator, separator_len) == 0 && wmemcmp (result + 5 + 2 * separator_len, L"483", 3) == 0 && wmemcmp (result + 8 + 2 * separator_len, separator, separator_len) == 0 && wcscmp (result + 8 + 3 * separator_len, L"647") == 0); free (result); } { size_t length; wchar_t *result = asnwprintf (NULL, &length, L"%'.10d", 1000); ASSERT (result != NULL); if (length == 10 + separator_len) { /* Most implementations don't add the grouping character within the leading zeroes. */ ASSERT (length == 10 + separator_len); ASSERT (wmemcmp (result, L"0000001", 7) == 0 && wmemcmp (result + 7, separator, separator_len) == 0 && wcscmp (result + 7 + separator_len, L"000") == 0); } else { /* But there are good arguments for adding the grouping character within the leading zeroes too. <https://sourceware.org/PR23432> */ ASSERT (length == 10 + 3 * separator_len); ASSERT (wmemcmp (result, L"0", 1) == 0 && wmemcmp (result + 1, separator, separator_len) == 0 && wmemcmp (result + 1 + separator_len, L"000", 3) == 0 && wmemcmp (result + 4 + separator_len, separator, separator_len) == 0 && wmemcmp (result + 4 + 2 * separator_len, L"001", 3) == 0 && wmemcmp (result + 7 + 2 * separator_len, separator, separator_len) == 0 && wcscmp (result + 7 + 3 * separator_len, L"000") == 0); } free (result); } { size_t length; wchar_t *result = asnwprintf (NULL, &length, L"%'.10d", -1000); ASSERT (result != NULL); if (length == 11 + separator_len) { /* Most implementations don't add the grouping character within the leading zeroes. */ ASSERT (length == 11 + separator_len); ASSERT (wmemcmp (result, L"-0000001", 8) == 0 && wmemcmp (result + 8, separator, separator_len) == 0 && wcscmp (result + 8 + separator_len, L"000") == 0); } else { /* But there are good arguments for adding the grouping character within the leading zeroes too. <https://sourceware.org/PR23432> */ ASSERT (length == 11 + 3 * separator_len); ASSERT (wmemcmp (result, L"-0", 2) == 0 && wmemcmp (result + 2, separator, separator_len) == 0 && wmemcmp (result + 2 + separator_len, L"000", 3) == 0 && wmemcmp (result + 5 + separator_len, separator, separator_len) == 0 && wmemcmp (result + 5 + 2 * separator_len, L"001", 3) == 0 && wmemcmp (result + 8 + 2 * separator_len, separator, separator_len) == 0 && wcscmp (result + 8 + 3 * separator_len, L"000") == 0); } free (result); } { size_t length; wchar_t *result = asnwprintf (NULL, &length, L"%'10d", 1000); ASSERT (result != NULL); ASSERT (length == 10); ASSERT (wmemcmp (result, L" 1" + separator_len, 7 - separator_len) == 0 && wmemcmp (result + 7 - separator_len, separator, separator_len) == 0 && wcscmp (result + 7, L"000") == 0); free (result); } { size_t length; wchar_t *result = asnwprintf (NULL, &length, L"%'10d", -1000); ASSERT (result != NULL); ASSERT (length == 10); ASSERT (wmemcmp (result, L" -1" + separator_len, 7 - separator_len) == 0 && wmemcmp (result + 7 - separator_len, separator, separator_len) == 0 && wcscmp (result + 7, L"000") == 0); free (result); } /* Tests of %f directive with grouping separator. */ { size_t length; wchar_t *result = asnwprintf (NULL, &length, L"%'.0f", 1000.0); ASSERT (result != NULL); ASSERT (length == 4 + separator_len); ASSERT (wmemcmp (result, L"1", 1) == 0 && wmemcmp (result + 1, separator, separator_len) == 0 && wcscmp (result + 1 + separator_len, L"000") == 0); free (result); } { size_t length; wchar_t *result = asnwprintf (NULL, &length, L"%'.5f", 3141592653.5897932386); ASSERT (result != NULL); ASSERT (length == 16 + 3 * separator_len); ASSERT (wmemcmp (result, L"3", 1) == 0 && wmemcmp (result + 1, separator, separator_len) == 0 && wmemcmp (result + 1 + separator_len, L"141", 3) == 0 && wmemcmp (result + 4 + separator_len, separator, separator_len) == 0 && wmemcmp (result + 4 + 2 * separator_len, L"592", 3) == 0 && wmemcmp (result + 7 + 2 * separator_len, separator, separator_len) == 0 && wcscmp (result + 7 + 3 * separator_len, L"653,58979") == 0); free (result); } { size_t length; wchar_t *result = asnwprintf (NULL, &length, L"%'.5f", -3141592653.5897932386); ASSERT (result != NULL); ASSERT (length == 17 + 3 * separator_len); ASSERT (wmemcmp (result, L"-3", 2) == 0 && wmemcmp (result + 2, separator, separator_len) == 0 && wmemcmp (result + 2 + separator_len, L"141", 3) == 0 && wmemcmp (result + 5 + separator_len, separator, separator_len) == 0 && wmemcmp (result + 5 + 2 * separator_len, L"592", 3) == 0 && wmemcmp (result + 8 + 2 * separator_len, separator, separator_len) == 0 && wcscmp (result + 8 + 3 * separator_len, L"653,58979") == 0); free (result); } { size_t length; wchar_t *result = asnwprintf (NULL, &length, L"%'010.0f", 1000.0); ASSERT (result != NULL); ASSERT (length == 10); ASSERT (wmemcmp (result, L"0000001" + separator_len, 7 - separator_len) == 0 && wmemcmp (result + 7 - separator_len, separator, separator_len) == 0 && wcscmp (result + 7, L"000") == 0); free (result); } /* Tests of %g directive with grouping separator. */ { size_t length; wchar_t *result = asnwprintf (NULL, &length, L"%'g", 1000.0); ASSERT (result != NULL); ASSERT (length == 4 + separator_len); ASSERT (wmemcmp (result, L"1", 1) == 0 && wmemcmp (result + 1, separator, separator_len) == 0 && wcscmp (result + 1 + separator_len, L"000") == 0); free (result); } { size_t length; wchar_t *result = asnwprintf (NULL, &length, L"%'g", -142857.0); ASSERT (result != NULL); ASSERT (length == 7 + separator_len); ASSERT (wmemcmp (result, L"-142", 4) == 0 && wmemcmp (result + 4, separator, separator_len) == 0 && wcscmp (result + 4 + separator_len, L"857") == 0); free (result); } { size_t length; wchar_t *result = asnwprintf (NULL, &length, L"%'.5g", 3141592653.5897932386); ASSERT (result != NULL); #if defined _WIN32 && !defined __CYGWIN__ /* Native Windows uses 3 digits for the exponent. */ ASSERT (length == 11); ASSERT (wcscmp (result, L"3,1416e+009") == 0); #else ASSERT (length == 10); ASSERT (wcscmp (result, L"3,1416e+09") == 0); #endif free (result); } { size_t length; wchar_t *result = asnwprintf (NULL, &length, L"%'.5g", -3141592653.5897932386); ASSERT (result != NULL); #if defined _WIN32 && !defined __CYGWIN__ /* Native Windows uses 3 digits for the exponent. */ ASSERT (length == 12); ASSERT (wcscmp (result, L"-3,1416e+009") == 0); #else ASSERT (length == 11); ASSERT (wcscmp (result, L"-3,1416e+09") == 0); #endif free (result); } { size_t length; wchar_t *result = asnwprintf (NULL, &length, L"%'.50g", 42351647362715016953416125033982098102569580078125.0); ASSERT (result != NULL); ASSERT (length == 50 + 16 * separator_len); ASSERT (wmemcmp (result, L"42", 2) == 0 && wmemcmp (result + 2, separator, separator_len) == 0 && wmemcmp (result + 2 + separator_len, L"351", 3) == 0 && wmemcmp (result + 5 + separator_len, separator, separator_len) == 0 && wmemcmp (result + 5 + 2 * separator_len, L"647", 3) == 0 && wmemcmp (result + 8 + 2 * separator_len, separator, separator_len) == 0 && wmemcmp (result + 8 + 3 * separator_len, L"362", 3) == 0 && wmemcmp (result + 11 + 3 * separator_len, separator, separator_len) == 0 && wmemcmp (result + 11 + 4 * separator_len, L"715", 3) == 0 && wmemcmp (result + 14 + 4 * separator_len, separator, separator_len) == 0); free (result); } { size_t length; wchar_t *result = asnwprintf (NULL, &length, L"%'010g", 1000.0); ASSERT (result != NULL); ASSERT (length == 10); ASSERT (wmemcmp (result, L"0000001" + separator_len, 7 - separator_len) == 0 && wmemcmp (result + 7 - separator_len, separator, separator_len) == 0 && wcscmp (result + 7, L"000") == 0); free (result); } #if LDBL_MAX_10_EXP > 500 { size_t length; wchar_t *result = asnwprintf (NULL, &length, L"%'.500Lg\n", 42351647362715016953416125033982098102569580078125000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000.0L); free (result); } #endif } return test_exit_status; }