/* * Copyright (C) 2014 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #include #include #include #include #include #include "utils.h" #define NUM_WCHARS(num_bytes) ((num_bytes)/sizeof(wchar_t)) #ifdef __GLIBC__ // glibc immediately dereferences the locale passed to all wcsto*_l functions, // even if it won't be used, and even if it's LC_GLOBAL_LOCALE, which isn't a // pointer to valid memory. static locale_t SAFE_LC_GLOBAL_LOCALE = duplocale(LC_GLOBAL_LOCALE); #else static locale_t SAFE_LC_GLOBAL_LOCALE = LC_GLOBAL_LOCALE; #endif // Modern versions of UTF-8 (https://datatracker.ietf.org/doc/html/rfc3629 and // newer) explicitly disallow code points beyond U+10FFFF, which exclude all 5- // and 6-byte sequences. Earlier versions of UTF-8 allowed the wider range: // https://datatracker.ietf.org/doc/html/rfc2279. // // Bionic's unicode implementation was written after the high values were // excluded, so it has never supported them. Other implementations (at least // as of glibc 2.36), do support those sequences. #if defined(__ANDROID__) || defined(ANDROID_HOST_MUSL) constexpr bool kLibcRejectsOverLongUtf8Sequences = true; #elif defined(__GLIBC__) constexpr bool kLibcRejectsOverLongUtf8Sequences = false; #else #error kLibcRejectsOverLongUtf8Sequences must be configured for this platform #endif #if defined(__GLIBC__) constexpr bool kLibcSupportsParsingBinaryLiterals = __GLIBC_PREREQ(2, 38); #else constexpr bool kLibcSupportsParsingBinaryLiterals = true; #endif TEST(wchar, sizeof_wchar_t) { EXPECT_EQ(4U, sizeof(wchar_t)); EXPECT_EQ(4U, sizeof(wint_t)); } TEST(wchar, mbrlen) { char bytes[] = { 'h', 'e', 'l', 'l', 'o', '\0' }; EXPECT_EQ(static_cast(-2), mbrlen(&bytes[0], 0, nullptr)); EXPECT_EQ(1U, mbrlen(&bytes[0], 1, nullptr)); EXPECT_EQ(1U, mbrlen(&bytes[4], 1, nullptr)); EXPECT_EQ(0U, mbrlen(&bytes[5], 1, nullptr)); } TEST(wchar, wctomb_wcrtomb) { // wctomb and wcrtomb behave differently when s == NULL. EXPECT_EQ(0, wctomb(nullptr, L'h')); EXPECT_EQ(0, wctomb(nullptr, L'\0')); EXPECT_EQ(1U, wcrtomb(nullptr, L'\0', nullptr)); EXPECT_EQ(1U, wcrtomb(nullptr, L'h', nullptr)); char bytes[MB_LEN_MAX]; // wctomb and wcrtomb behave similarly for the null wide character. EXPECT_EQ(1, wctomb(bytes, L'\0')); EXPECT_EQ(1U, wcrtomb(bytes, L'\0', nullptr)); // ...and for regular characters. memset(bytes, 0, sizeof(bytes)); EXPECT_EQ(1, wctomb(bytes, L'h')); EXPECT_EQ('h', bytes[0]); memset(bytes, 0, sizeof(bytes)); EXPECT_EQ(1U, wcrtomb(bytes, L'h', nullptr)); EXPECT_EQ('h', bytes[0]); ASSERT_STREQ("C.UTF-8", setlocale(LC_CTYPE, "C.UTF-8")); uselocale(LC_GLOBAL_LOCALE); // 1-byte UTF-8. memset(bytes, 0, sizeof(bytes)); EXPECT_EQ(1U, wcrtomb(bytes, L'h', nullptr)); EXPECT_EQ('h', bytes[0]); // 2-byte UTF-8. memset(bytes, 0, sizeof(bytes)); EXPECT_EQ(2U, wcrtomb(bytes, 0x00a2, nullptr)); EXPECT_EQ('\xc2', bytes[0]); EXPECT_EQ('\xa2', bytes[1]); // 3-byte UTF-8. memset(bytes, 0, sizeof(bytes)); EXPECT_EQ(3U, wcrtomb(bytes, 0x20ac, nullptr)); EXPECT_EQ('\xe2', bytes[0]); EXPECT_EQ('\x82', bytes[1]); EXPECT_EQ('\xac', bytes[2]); // 4-byte UTF-8. memset(bytes, 0, sizeof(bytes)); EXPECT_EQ(4U, wcrtomb(bytes, 0x24b62, nullptr)); EXPECT_EQ('\xf0', bytes[0]); EXPECT_EQ('\xa4', bytes[1]); EXPECT_EQ('\xad', bytes[2]); EXPECT_EQ('\xa2', bytes[3]); // Invalid code point. EXPECT_EQ(static_cast(-1), wcrtomb(bytes, 0xffffffff, nullptr)); EXPECT_ERRNO(EILSEQ); } TEST(wchar, wcrtomb_start_state) { ASSERT_STREQ("C.UTF-8", setlocale(LC_CTYPE, "C.UTF-8")); uselocale(LC_GLOBAL_LOCALE); char out[MB_LEN_MAX]; mbstate_t ps; // Any non-initial state is invalid when calling wcrtomb. memset(&ps, 0, sizeof(ps)); EXPECT_EQ(static_cast(-2), mbrtowc(nullptr, "\xc2", 1, &ps)); EXPECT_EQ(static_cast(-1), wcrtomb(out, 0x00a2, &ps)); EXPECT_ERRNO(EILSEQ); // If the first argument to wcrtomb is NULL or the second is L'\0' the shift // state should be reset. memset(&ps, 0, sizeof(ps)); EXPECT_EQ(static_cast(-2), mbrtowc(nullptr, "\xc2", 1, &ps)); EXPECT_EQ(1U, wcrtomb(nullptr, 0x00a2, &ps)); EXPECT_TRUE(mbsinit(&ps)); memset(&ps, 0, sizeof(ps)); EXPECT_EQ(static_cast(-2), mbrtowc(nullptr, "\xf0\xa4", 1, &ps)); EXPECT_EQ(1U, wcrtomb(out, L'\0', &ps)); EXPECT_TRUE(mbsinit(&ps)); } TEST(wchar, wcstombs_wcrtombs) { ASSERT_STREQ("C.UTF-8", setlocale(LC_CTYPE, "C.UTF-8")); uselocale(LC_GLOBAL_LOCALE); const wchar_t chars[] = { L'h', L'e', L'l', L'l', L'o', 0 }; const wchar_t bad_chars[] = { L'h', L'i', static_cast(0xffffffff), 0 }; const wchar_t* src; char bytes[BUFSIZ]; // Given a NULL destination, these functions count valid characters. EXPECT_EQ(5U, wcstombs(nullptr, chars, 0)); EXPECT_EQ(5U, wcstombs(nullptr, chars, 4)); EXPECT_EQ(5U, wcstombs(nullptr, chars, 256)); src = chars; EXPECT_EQ(5U, wcsrtombs(nullptr, &src, 0, nullptr)); EXPECT_EQ(&chars[0], src); src = chars; EXPECT_EQ(5U, wcsrtombs(nullptr, &src, 4, nullptr)); EXPECT_EQ(&chars[0], src); src = chars; EXPECT_EQ(5U, wcsrtombs(nullptr, &src, 256, nullptr)); EXPECT_EQ(&chars[0], src); // An unrepresentable char just returns an error from wcstombs... errno = 0; EXPECT_EQ(static_cast(-1), wcstombs(nullptr, bad_chars, 0)); EXPECT_ERRNO(EILSEQ); errno = 0; EXPECT_EQ(static_cast(-1), wcstombs(nullptr, bad_chars, 256)); EXPECT_ERRNO(EILSEQ); // And wcsrtombs doesn't tell us where it got stuck because we didn't ask it // to actually convert anything... errno = 0; src = bad_chars; EXPECT_EQ(static_cast(-1), wcsrtombs(nullptr, &src, 0, nullptr)); EXPECT_EQ(&bad_chars[0], src); EXPECT_ERRNO(EILSEQ); errno = 0; src = bad_chars; EXPECT_EQ(static_cast(-1), wcsrtombs(nullptr, &src, 256, nullptr)); EXPECT_EQ(&bad_chars[0], src); EXPECT_ERRNO(EILSEQ); // Okay, now let's test actually converting something... memset(bytes, 'x', sizeof(bytes)); EXPECT_EQ(0U, wcstombs(bytes, chars, 0)); memset(bytes, 'x', sizeof(bytes)); EXPECT_EQ(4U, wcstombs(bytes, chars, 4)); bytes[5] = 0; EXPECT_STREQ("hellx", bytes); memset(bytes, 'x', sizeof(bytes)); EXPECT_EQ(5U, wcstombs(bytes, chars, 256)); EXPECT_STREQ("hello", bytes); memset(bytes, 'x', sizeof(bytes)); EXPECT_EQ(5U, wcstombs(bytes, chars, 6)); EXPECT_STREQ("hello", bytes); errno = 0; memset(bytes, 'x', sizeof(bytes)); EXPECT_EQ(static_cast(-1), wcstombs(bytes, bad_chars, 256)); EXPECT_ERRNO(EILSEQ); bytes[3] = 0; EXPECT_STREQ("hix", bytes); // wcsrtombs is a bit more informative... memset(bytes, 'x', sizeof(bytes)); src = chars; EXPECT_EQ(0U, wcsrtombs(bytes, &src, 0, nullptr)); EXPECT_EQ(&chars[0], src); // No input consumed. EXPECT_ERRNO(EILSEQ); memset(bytes, 'x', sizeof(bytes)); src = chars; EXPECT_EQ(4U, wcsrtombs(bytes, &src, 4, nullptr)); EXPECT_EQ(&chars[4], src); // Some input consumed. EXPECT_ERRNO(EILSEQ); bytes[5] = 0; EXPECT_STREQ("hellx", bytes); memset(bytes, 'x', sizeof(bytes)); src = chars; EXPECT_EQ(5U, wcsrtombs(bytes, &src, 256, nullptr)); EXPECT_EQ(nullptr, src); // All input consumed! EXPECT_ERRNO(EILSEQ); EXPECT_STREQ("hello", bytes); memset(bytes, 'x', sizeof(bytes)); src = chars; EXPECT_EQ(5U, wcsrtombs(bytes, &src, 6, nullptr)); EXPECT_EQ(nullptr, src); // All input consumed. EXPECT_ERRNO(EILSEQ); EXPECT_STREQ("hello", bytes); memset(bytes, 'x', sizeof(bytes)); src = bad_chars; EXPECT_EQ(static_cast(-1), wcsrtombs(bytes, &src, 256, nullptr)); EXPECT_EQ(&bad_chars[2], src); EXPECT_ERRNO(EILSEQ); bytes[3] = 0; EXPECT_STREQ("hix", bytes); // Any non-initial state is invalid when calling wcsrtombs. mbstate_t ps; src = chars; memset(&ps, 0, sizeof(ps)); ASSERT_EQ(static_cast(-2), mbrtowc(nullptr, "\xc2", 1, &ps)); EXPECT_EQ(static_cast(-1), wcsrtombs(nullptr, &src, 0, &ps)); EXPECT_ERRNO(EILSEQ); } TEST(wchar, limits) { ASSERT_LT(WCHAR_MIN, WCHAR_MAX); } TEST(wchar, wcsstr) { const wchar_t* haystack = L"big daddy/giant haystacks!"; const wchar_t* empty_haystack = L""; // The empty needle is a special case. ASSERT_EQ(haystack, wcsstr(haystack, L"")); ASSERT_EQ(empty_haystack, wcsstr(empty_haystack, L"")); ASSERT_EQ(haystack, wcsstr(haystack, L"b")); ASSERT_EQ(haystack, wcsstr(haystack, L"big")); ASSERT_EQ(haystack + 9, wcsstr(haystack, L"/")); ASSERT_EQ(haystack + 9, wcsstr(haystack, L"/giant")); ASSERT_EQ(haystack + 25, wcsstr(haystack, L"!")); ASSERT_EQ(haystack + 19, wcsstr(haystack, L"stacks!")); ASSERT_EQ(nullptr, wcsstr(haystack, L"monkey")); ASSERT_EQ(nullptr, wcsstr(empty_haystack, L"monkey")); } TEST(wchar, wcsstr_80199) { // https://code.google.com/p/android/issues/detail?id=80199 ASSERT_TRUE(wcsstr(L"romrom", L"rom") != nullptr); } TEST(wchar, mbtowc) { wchar_t out[8]; // mbtowc and all the mbrto* APIs behave slightly differently when n is 0: // // mbrtowc returns 0 "if the next n or fewer bytes complete the multibyte // character that corresponds to the null wide character" // // mbrtoc (C23 7.24.7.2.4) says: // // If s is not a null pointer, the mbtowc function either returns 0 (if s // points to the null character), or returns the number of bytes that are // contained in the converted multibyte character (if the next n or fewer // bytes form a valid multibyte character), or returns -1 (if they do not // form a valid multibyte character). // // glibc's interpretation differs from all the BSDs (including macOS) and // bionic (by way of openbsd). glibc returns 0 since s does point to the null // character, whereas the BSDs return -1 because the next 0 bytes do not form // a valid multibyte chatacter. glibc's interpretation is probably more // correct from a strict interpretation of the spec, but considering the other // APIs behave more like the BSD interpretation that may be a bug in the spec. #ifdef __GLIBC__ int expected_result_for_zero_length_empty_string = 0; #else int expected_result_for_zero_length_empty_string = -1; #endif out[0] = 'x'; EXPECT_EQ(-1, mbtowc(out, "hello", 0)); EXPECT_EQ('x', out[0]); EXPECT_EQ(-1, mbtowc(out, "hello", 0)); EXPECT_EQ(expected_result_for_zero_length_empty_string, mbtowc(out, "", 0)); EXPECT_EQ(1, mbtowc(out, "hello", 1)); EXPECT_EQ(L'h', out[0]); EXPECT_EQ(-1, mbtowc(nullptr, "hello", 0)); EXPECT_EQ(expected_result_for_zero_length_empty_string, mbtowc(nullptr, "", 0)); EXPECT_EQ(1, mbtowc(nullptr, "hello", 1)); EXPECT_EQ(0, mbtowc(nullptr, nullptr, 0)); } TEST(wchar, mbrtowc) { wchar_t out[8]; out[0] = 'x'; EXPECT_EQ(static_cast(-2), mbrtowc(out, "hello", 0, nullptr)); EXPECT_EQ('x', out[0]); EXPECT_EQ(static_cast(-2), mbrtowc(out, "hello", 0, nullptr)); EXPECT_EQ(static_cast(-2), mbrtowc(out, "", 0, nullptr)); EXPECT_EQ(1U, mbrtowc(out, "hello", 1, nullptr)); EXPECT_EQ(L'h', out[0]); EXPECT_EQ(static_cast(-2), mbrtowc(nullptr, "hello", 0, nullptr)); EXPECT_EQ(static_cast(-2), mbrtowc(nullptr, "", 0, nullptr)); EXPECT_EQ(1U, mbrtowc(nullptr, "hello", 1, nullptr)); EXPECT_EQ(0U, mbrtowc(nullptr, nullptr, 0, nullptr)); EXPECT_STREQ("C.UTF-8", setlocale(LC_CTYPE, "C.UTF-8")); uselocale(LC_GLOBAL_LOCALE); // 1-byte UTF-8. EXPECT_EQ(1U, mbrtowc(out, "abcdef", 6, nullptr)); EXPECT_EQ(L'a', out[0]); // 2-byte UTF-8. EXPECT_EQ(2U, mbrtowc(out, "\xc2\xa2" "cdef", 6, nullptr)); EXPECT_EQ(static_cast(0x00a2), out[0]); // 3-byte UTF-8. EXPECT_EQ(3U, mbrtowc(out, "\xe2\x82\xac" "def", 6, nullptr)); EXPECT_EQ(static_cast(0x20ac), out[0]); // 4-byte UTF-8. EXPECT_EQ(4U, mbrtowc(out, "\xf0\xa4\xad\xa2" "ef", 6, nullptr)); EXPECT_EQ(static_cast(0x24b62), out[0]); #if defined(__BIONIC__) // glibc allows this. // Illegal 5-byte UTF-8. EXPECT_EQ(static_cast(-1), mbrtowc(out, "\xf8\xa1\xa2\xa3\xa4" "f", 6, nullptr)); EXPECT_ERRNO(EILSEQ); #endif // Illegal over-long sequence. EXPECT_EQ(static_cast(-1), mbrtowc(out, "\xf0\x82\x82\xac" "ef", 6, nullptr)); EXPECT_ERRNO(EILSEQ); } TEST(wchar, mbrtowc_valid_non_characters) { ASSERT_STREQ("C.UTF-8", setlocale(LC_CTYPE, "C.UTF-8")); uselocale(LC_GLOBAL_LOCALE); wchar_t out[8] = {}; ASSERT_EQ(3U, mbrtowc(out, "\xef\xbf\xbe", 3, nullptr)); ASSERT_EQ(static_cast(0xfffe), out[0]); ASSERT_EQ(3U, mbrtowc(out, "\xef\xbf\xbf", 3, nullptr)); ASSERT_EQ(static_cast(0xffff), out[0]); } TEST(wchar, mbrtowc_out_of_range) { ASSERT_STREQ("C.UTF-8", setlocale(LC_CTYPE, "C.UTF-8")); uselocale(LC_GLOBAL_LOCALE); wchar_t out[8] = {}; errno = 0; auto result = mbrtowc(out, "\xf5\x80\x80\x80", 4, nullptr); if (kLibcRejectsOverLongUtf8Sequences) { ASSERT_EQ(static_cast(-1), result); ASSERT_ERRNO(EILSEQ); } else { ASSERT_EQ(4U, result); ASSERT_ERRNO(0); } } static void test_mbrtowc_incomplete(mbstate_t* ps) { ASSERT_STREQ("C.UTF-8", setlocale(LC_CTYPE, "C.UTF-8")); uselocale(LC_GLOBAL_LOCALE); wchar_t out; // 2-byte UTF-8. ASSERT_EQ(static_cast(-2), mbrtowc(&out, "\xc2", 1, ps)); ASSERT_EQ(1U, mbrtowc(&out, "\xa2" "cdef", 5, ps)); ASSERT_EQ(static_cast(0x00a2), out); ASSERT_TRUE(mbsinit(ps)); // 3-byte UTF-8. ASSERT_EQ(static_cast(-2), mbrtowc(&out, "\xe2", 1, ps)); ASSERT_EQ(static_cast(-2), mbrtowc(&out, "\x82", 1, ps)); ASSERT_EQ(1U, mbrtowc(&out, "\xac" "def", 4, ps)); ASSERT_EQ(static_cast(0x20ac), out); ASSERT_TRUE(mbsinit(ps)); // 4-byte UTF-8. ASSERT_EQ(static_cast(-2), mbrtowc(&out, "\xf0", 1, ps)); ASSERT_EQ(static_cast(-2), mbrtowc(&out, "\xa4\xad", 2, ps)); ASSERT_EQ(1U, mbrtowc(&out, "\xa2" "ef", 3, ps)); ASSERT_EQ(static_cast(0x24b62), out); ASSERT_TRUE(mbsinit(ps)); // Invalid 2-byte ASSERT_EQ(static_cast(-2), mbrtowc(&out, "\xc2", 1, ps)); ASSERT_EQ(static_cast(-1), mbrtowc(&out, "\x20" "cdef", 5, ps)); ASSERT_ERRNO(EILSEQ); } TEST(wchar, mbrtowc_incomplete) { mbstate_t ps; memset(&ps, 0, sizeof(ps)); test_mbrtowc_incomplete(&ps); test_mbrtowc_incomplete(nullptr); } static void test_mbsrtowcs(mbstate_t* ps) { constexpr const char* VALID = "A" "\xc2\xa2" "\xe2\x82\xac" "\xf0\xa4\xad\xa2" "ef"; constexpr const char* INVALID = "A" "\xc2\x20" "ef"; constexpr const char* INCOMPLETE = "A" "\xc2"; wchar_t out[4]; const char* valid = VALID; ASSERT_EQ(4U, mbsrtowcs(out, &valid, 4, ps)); ASSERT_EQ(L'A', out[0]); ASSERT_EQ(static_cast(0x00a2), out[1]); ASSERT_EQ(static_cast(0x20ac), out[2]); ASSERT_EQ(static_cast(0x24b62), out[3]); // Check that valid has advanced to the next unread character. ASSERT_EQ('e', *valid); wmemset(out, L'x', NUM_WCHARS(sizeof(out))); ASSERT_EQ(2U, mbsrtowcs(out, &valid, 4, ps)); ASSERT_EQ(L'e', out[0]); ASSERT_EQ(L'f', out[1]); ASSERT_EQ(L'\0', out[2]); // Check that we didn't clobber the rest of out. ASSERT_EQ(L'x', out[3]); // Check that valid has advanced to the end of the string. ASSERT_EQ(nullptr, valid); const char* invalid = INVALID; ASSERT_EQ(static_cast(-1), mbsrtowcs(out, &invalid, 4, ps)); EXPECT_ERRNO(EILSEQ); ASSERT_EQ('\xc2', *invalid); const char* incomplete = INCOMPLETE; ASSERT_EQ(static_cast(-1), mbsrtowcs(out, &incomplete, 2, ps)); EXPECT_ERRNO(EILSEQ); ASSERT_EQ('\xc2', *incomplete); // If dst is null, *src shouldn't be updated. // https://code.google.com/p/android/issues/detail?id=166381 const char* mbs = VALID; EXPECT_EQ(6U, mbsrtowcs(nullptr, &mbs, 0, ps)); EXPECT_EQ(VALID, mbs); mbs = INVALID; EXPECT_EQ(static_cast(-1), mbsrtowcs(nullptr, &mbs, 0, ps)); EXPECT_EQ(INVALID, mbs); mbs = INCOMPLETE; EXPECT_EQ(static_cast(-1), mbsrtowcs(nullptr, &mbs, 0, ps)); EXPECT_EQ(INCOMPLETE, mbs); } TEST(wchar, mbsrtowcs) { ASSERT_STREQ("C.UTF-8", setlocale(LC_CTYPE, "C.UTF-8")); uselocale(LC_GLOBAL_LOCALE); mbstate_t ps; memset(&ps, 0, sizeof(ps)); test_mbsrtowcs(&ps); test_mbsrtowcs(nullptr); // Invalid multi byte continuation. const char* invalid = "\x20"; wchar_t out; ASSERT_EQ(static_cast(-2), mbrtowc(&out, "\xc2", 1, &ps)); ASSERT_EQ(static_cast(-1), mbsrtowcs(&out, &invalid, 1, &ps)); EXPECT_ERRNO(EILSEQ); ASSERT_EQ('\x20', *invalid); } template using WcsToIntFn = T (*)(const wchar_t*, wchar_t**, int); template void TestSingleWcsToInt(WcsToIntFn fn, const wchar_t* str, int base, T expected_value, ptrdiff_t expected_len) { wchar_t* p; EXPECT_EQ(expected_value, fn(str, &p, base)) << str << " " << base; EXPECT_EQ(expected_len, p - str) << str << " " << base; } template void TestWcsToInt(WcsToIntFn fn) { TestSingleWcsToInt(fn, L"123", 10, static_cast(123), 3); TestSingleWcsToInt(fn, L"123", 0, static_cast(123), 3); TestSingleWcsToInt(fn, L"123#", 10, static_cast(123), 3); TestSingleWcsToInt(fn, L"01000", 8, static_cast(512), 5); TestSingleWcsToInt(fn, L"01000", 0, static_cast(512), 5); TestSingleWcsToInt(fn, L" 123 45", 0, static_cast(123), 6); TestSingleWcsToInt(fn, L" -123", 0, static_cast(-123), 6); TestSingleWcsToInt(fn, L"0x10000", 0, static_cast(65536), 7); if (kLibcSupportsParsingBinaryLiterals) { TestSingleWcsToInt(fn, L"0b1011", 0, static_cast(0b1011), 6); } } template void TestWcsToIntLimits(WcsToIntFn fn, const wchar_t* min_str, const wchar_t* max_str) { if (std::is_signed::value) { ASSERT_EQ(std::numeric_limits::min(), fn(min_str, nullptr, 0)) << min_str; } else { // If the subject sequence begins with a , the value resulting // from the conversion shall be negated. // http://pubs.opengroup.org/onlinepubs/9699919799/functions/strtoul.html ASSERT_EQ(std::numeric_limits::max(), fn(min_str, nullptr, 0)) << min_str; } ASSERT_EQ(std::numeric_limits::max(), fn(max_str, nullptr, 0)) << max_str; } TEST(wchar, wcstol) { TestWcsToInt(wcstol); } TEST(wchar, wcstol_limits) { if (sizeof(long) == 8) { TestWcsToIntLimits(wcstol, L"-9223372036854775809", L"9223372036854775808"); } else { TestWcsToIntLimits(wcstol, L"-2147483649", L"2147483648"); } } TEST(wchar, wcstoul) { TestWcsToInt(wcstoul); } TEST(wchar, wcstoul_limits) { if (sizeof(long) == 8) { TestWcsToIntLimits(wcstoul, L"-1", L"18446744073709551616"); } else { TestWcsToIntLimits(wcstoul, L"-1", L"4294967296"); } } TEST(wchar, wcstoll) { TestWcsToInt(wcstoll); } TEST(wchar, wcstoll_limits) { TestWcsToIntLimits(wcstoll, L"-9223372036854775809", L"9223372036854775808"); } TEST(wchar, wcstoull) { TestWcsToInt(wcstoull); } TEST(wchar, wcstoull_limits) { TestWcsToIntLimits(wcstoull, L"-1", L"18446744073709551616"); } TEST(wchar, wcstoimax) { TestWcsToInt(wcstoimax); } TEST(wchar, wcstoimax_limits) { TestWcsToIntLimits(wcstoimax, L"-9223372036854775809", L"9223372036854775808"); } TEST(wchar, wcstoumax) { TestWcsToInt(wcstoumax); } TEST(wchar, wcstoumax_limits) { TestWcsToIntLimits(wcstoumax, L"-1", L"18446744073709551616"); } TEST(wchar, mbsnrtowcs) { wchar_t dst[128]; const char* s = "hello, world!"; const char* src; memset(dst, 0, sizeof(dst)); src = s; ASSERT_EQ(0U, mbsnrtowcs(dst, &src, 0, 0, nullptr)); memset(dst, 0, sizeof(dst)); src = s; ASSERT_EQ(2U, mbsnrtowcs(dst, &src, 2, 123, nullptr)); // glibc chokes on SIZE_MAX here. ASSERT_EQ(L'h', dst[0]); ASSERT_EQ(L'e', dst[1]); ASSERT_EQ(&s[2], src); memset(dst, 0, sizeof(dst)); src = s; ASSERT_EQ(3U, mbsnrtowcs(dst, &src, SIZE_MAX, 3, nullptr)); ASSERT_EQ(L'h', dst[0]); ASSERT_EQ(L'e', dst[1]); ASSERT_EQ(L'l', dst[2]); ASSERT_EQ(&s[3], src); memset(dst, 0, sizeof(dst)); const char* incomplete = "\xc2"; // Incomplete UTF-8 sequence. src = incomplete; errno = 0; ASSERT_EQ(static_cast(-1), mbsnrtowcs(dst, &src, SIZE_MAX, 3, nullptr)); ASSERT_ERRNO(EILSEQ); src = incomplete; errno = 0; ASSERT_EQ(static_cast(-1), mbsnrtowcs(nullptr, &src, SIZE_MAX, 3, nullptr)); ASSERT_ERRNO(EILSEQ); } TEST(wchar, wcsftime__wcsftime_l) { setenv("TZ", "UTC", 1); struct tm t; memset(&t, 0, sizeof(tm)); t.tm_year = 200; t.tm_mon = 2; t.tm_mday = 10; wchar_t buf[64]; EXPECT_EQ(24U, wcsftime(buf, sizeof(buf), L"%c", &t)); EXPECT_STREQ(L"Sun Mar 10 00:00:00 2100", buf); EXPECT_EQ(24U, wcsftime_l(buf, sizeof(buf), L"%c", &t, SAFE_LC_GLOBAL_LOCALE)); EXPECT_STREQ(L"Sun Mar 10 00:00:00 2100", buf); } TEST(wchar, wmemmove_smoke) { const wchar_t const_wstr[] = L"This is a test of something or other....."; wchar_t wstr[NUM_WCHARS(sizeof(const_wstr))]; EXPECT_EQ(wstr, wmemmove(wstr, const_wstr, NUM_WCHARS(sizeof(const_wstr)))); EXPECT_STREQ(const_wstr, wstr); EXPECT_EQ(wstr+5, wmemmove(wstr+5, wstr, NUM_WCHARS(sizeof(const_wstr)) - 6)); EXPECT_STREQ(L"This This is a test of something or other", wstr); } TEST(wchar, wmemcpy_smoke) { const wchar_t src[] = L"Source string"; wchar_t dst[NUM_WCHARS(sizeof(src))]; EXPECT_EQ(dst, wmemcpy(dst, src, NUM_WCHARS(sizeof(src)))); EXPECT_STREQ(dst, src); } TEST(wchar, wcpcpy_smoke) { const wchar_t src[] = L"Source string"; wchar_t dst[NUM_WCHARS(sizeof(src))]; EXPECT_EQ(dst + NUM_WCHARS(sizeof(src)) - 1, wcpcpy(dst, src)); EXPECT_STREQ(dst, src); } TEST(wchar, wcpncpy_smoke) { const wchar_t src[] = L"Source string"; wchar_t dst[NUM_WCHARS(sizeof(src)) + 5]; size_t src_len = NUM_WCHARS(sizeof(src)) - 1; EXPECT_EQ(dst + src_len, wcpncpy(dst, src, src_len + 1)); EXPECT_STREQ(dst, src); EXPECT_EQ(dst + 6, wcpncpy(dst, src, 6)); dst[6] = L'\0'; EXPECT_STREQ(dst, L"Source"); wmemset(dst, L'x', NUM_WCHARS(sizeof(dst))); EXPECT_EQ(dst + src_len, wcpncpy(dst, src, src_len + 4)); EXPECT_STREQ(dst, src); EXPECT_EQ(dst[src_len], L'\0'); EXPECT_EQ(dst[src_len+1], L'\0'); EXPECT_EQ(dst[src_len+2], L'\0'); EXPECT_EQ(dst[src_len+3], L'\0'); EXPECT_EQ(dst[src_len+4], L'x'); } TEST(wchar, wcscpy_smoke) { const wchar_t src[] = L"Source string"; wchar_t dst[NUM_WCHARS(sizeof(src))]; EXPECT_EQ(dst, wcscpy(dst, src)); EXPECT_STREQ(src, dst); } TEST(wchar, wcsncpy_smoke) { const wchar_t src[] = L"Source string"; wchar_t dst[NUM_WCHARS(sizeof(src)) + 5]; size_t src_len = NUM_WCHARS(sizeof(src)) - 1; EXPECT_EQ(dst, wcsncpy(dst, src, src_len + 1)); EXPECT_STREQ(dst, src); EXPECT_EQ(dst, wcsncpy(dst, src, 6)); dst[6] = L'\0'; EXPECT_STREQ(dst, L"Source"); EXPECT_EQ(dst, wcsncpy(dst, L"clobber", 0)); EXPECT_STREQ(dst, L"Source"); wmemset(dst, L'x', NUM_WCHARS(sizeof(dst))); EXPECT_EQ(dst, wcsncpy(dst, src, src_len + 4)); EXPECT_STREQ(dst, src); EXPECT_EQ(dst[src_len], L'\0'); EXPECT_EQ(dst[src_len+1], L'\0'); EXPECT_EQ(dst[src_len+2], L'\0'); EXPECT_EQ(dst[src_len+3], L'\0'); EXPECT_EQ(dst[src_len+4], L'x'); } TEST(wchar, mbrtowc_15439554) { // http://b/15439554 ASSERT_STREQ("C.UTF-8", setlocale(LC_CTYPE, "C.UTF-8")); uselocale(LC_GLOBAL_LOCALE); ASSERT_GE(static_cast(MB_LEN_MAX), MB_CUR_MAX); ASSERT_GE(MB_CUR_MAX, 4U); wchar_t wc; size_t n; // 1-byte character. n = mbrtowc(&wc, "x", MB_CUR_MAX, nullptr); EXPECT_EQ(1U, n); EXPECT_EQ(L'x', wc); // 2-byte character. n = mbrtowc(&wc, "\xc2\xa2", MB_CUR_MAX, nullptr); EXPECT_EQ(2U, n); EXPECT_EQ(L'¢', wc); // 3-byte character. n = mbrtowc(&wc, "\xe2\x82\xac", MB_CUR_MAX, nullptr); EXPECT_EQ(3U, n); EXPECT_EQ(L'€', wc); // 4-byte character. n = mbrtowc(&wc, "\xf0\xa4\xad\xa2", MB_CUR_MAX, nullptr); EXPECT_EQ(4U, n); EXPECT_EQ(L'𤭢', wc); } TEST(wchar, open_wmemstream) { wchar_t* p = nullptr; size_t size = 0; FILE* fp = open_wmemstream(&p, &size); ASSERT_NE(EOF, fputws(L"hello, world!", fp)); fclose(fp); ASSERT_STREQ(L"hello, world!", p); ASSERT_EQ(wcslen(L"hello, world!"), size); free(p); } TEST(stdio, open_wmemstream_EINVAL) { #if defined(__BIONIC__) wchar_t* p; size_t size; #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wnonnull" // Invalid buffer. errno = 0; ASSERT_EQ(nullptr, open_wmemstream(nullptr, &size)); ASSERT_ERRNO(EINVAL); // Invalid size. errno = 0; ASSERT_EQ(nullptr, open_wmemstream(&p, nullptr)); ASSERT_ERRNO(EINVAL); #pragma clang diagnostic pop #else GTEST_SKIP() << "This test is bionic-specific"; #endif } TEST(wchar, wcstol_EINVAL) { errno = 0; wcstol(L"123", nullptr, -1); ASSERT_ERRNO(EINVAL); errno = 0; wcstol(L"123", nullptr, 1); ASSERT_ERRNO(EINVAL); errno = 0; wcstol(L"123", nullptr, 37); ASSERT_ERRNO(EINVAL); } TEST(wchar, wcstoll_EINVAL) { errno = 0; wcstoll(L"123", nullptr, -1); ASSERT_ERRNO(EINVAL); errno = 0; wcstoll(L"123", nullptr, 1); ASSERT_ERRNO(EINVAL); errno = 0; wcstoll(L"123", nullptr, 37); ASSERT_ERRNO(EINVAL); } TEST(wchar, wcstoul_EINVAL) { errno = 0; wcstoul(L"123", nullptr, -1); ASSERT_ERRNO(EINVAL); errno = 0; wcstoul(L"123", nullptr, 1); ASSERT_ERRNO(EINVAL); errno = 0; wcstoul(L"123", nullptr, 37); ASSERT_ERRNO(EINVAL); } TEST(wchar, wcstoull_EINVAL) { errno = 0; wcstoull(L"123", nullptr, -1); ASSERT_ERRNO(EINVAL); errno = 0; wcstoull(L"123", nullptr, 1); ASSERT_ERRNO(EINVAL); errno = 0; wcstoull(L"123", nullptr, 37); ASSERT_ERRNO(EINVAL); } TEST(wchar, wcstoll_l_EINVAL) { errno = 0; wcstoll_l(L"123", nullptr, -1, SAFE_LC_GLOBAL_LOCALE); ASSERT_ERRNO(EINVAL); errno = 0; wcstoll_l(L"123", nullptr, 1, SAFE_LC_GLOBAL_LOCALE); ASSERT_ERRNO(EINVAL); errno = 0; wcstoll_l(L"123", nullptr, 37, SAFE_LC_GLOBAL_LOCALE); ASSERT_ERRNO(EINVAL); } TEST(wchar, wcstoull_l_EINVAL) { errno = 0; wcstoull_l(L"123", nullptr, -1, SAFE_LC_GLOBAL_LOCALE); ASSERT_ERRNO(EINVAL); errno = 0; wcstoull_l(L"123", nullptr, 1, SAFE_LC_GLOBAL_LOCALE); ASSERT_ERRNO(EINVAL); errno = 0; wcstoull_l(L"123", nullptr, 37, SAFE_LC_GLOBAL_LOCALE); ASSERT_ERRNO(EINVAL); } TEST(wchar, wmempcpy) { #if !defined(ANDROID_HOST_MUSL) wchar_t dst[6]; ASSERT_EQ(&dst[4], wmempcpy(dst, L"hello", 4)); #else GTEST_SKIP() << "musl doesn't have wmempcpy"; #endif } template using WcsToFloatFn = T (*)(const wchar_t*, wchar_t**); template void TestSingleWcsToFloat(WcsToFloatFn fn, const wchar_t* str, T expected_value, ptrdiff_t expected_len) { wchar_t* p; ASSERT_EQ(expected_value, fn(str, &p)); ASSERT_EQ(expected_len, p - str); } template void TestWcsToFloat(WcsToFloatFn fn) { TestSingleWcsToFloat(fn, L"123", static_cast(123.0L), 3); TestSingleWcsToFloat(fn, L"123#", static_cast(123.0L), 3); TestSingleWcsToFloat(fn, L" 123 45", static_cast(123.0L), 6); TestSingleWcsToFloat(fn, L"9.0", static_cast(9.0L), 3); TestSingleWcsToFloat(fn, L"-9.0", static_cast(-9.0L), 4); TestSingleWcsToFloat(fn, L" \t\v\f\r\n9.0", static_cast(9.0L), 9); } template void TestWcsToFloatHexFloats(WcsToFloatFn fn) { TestSingleWcsToFloat(fn, L"0.9e1", static_cast(9.0L), 5); TestSingleWcsToFloat(fn, L"0x1.2p3", static_cast(9.0L), 7); TestSingleWcsToFloat(fn, L"+1e+100", static_cast(1e100L), 7); TestSingleWcsToFloat(fn, L"0x10000.80", static_cast(65536.50L), 10); } template void TestWcsToFloatInfNan(WcsToFloatFn fn) { ASSERT_TRUE(isnan(fn(L"+nan", nullptr))); ASSERT_TRUE(isnan(fn(L"nan", nullptr))); ASSERT_TRUE(isnan(fn(L"-nan", nullptr))); ASSERT_TRUE(isnan(fn(L"+nan(0xff)", nullptr))); ASSERT_TRUE(isnan(fn(L"nan(0xff)", nullptr))); ASSERT_TRUE(isnan(fn(L"-nan(0xff)", nullptr))); wchar_t* p; ASSERT_TRUE(isnan(fn(L"+nanny", &p))); ASSERT_STREQ(L"ny", p); ASSERT_TRUE(isnan(fn(L"nanny", &p))); ASSERT_STREQ(L"ny", p); ASSERT_TRUE(isnan(fn(L"-nanny", &p))); ASSERT_STREQ(L"ny", p); ASSERT_EQ(0, fn(L"muppet", &p)); ASSERT_STREQ(L"muppet", p); ASSERT_EQ(0, fn(L" muppet", &p)); ASSERT_STREQ(L" muppet", p); ASSERT_EQ(std::numeric_limits::infinity(), fn(L"+inf", nullptr)); ASSERT_EQ(std::numeric_limits::infinity(), fn(L"inf", nullptr)); ASSERT_EQ(-std::numeric_limits::infinity(), fn(L"-inf", nullptr)); ASSERT_EQ(std::numeric_limits::infinity(), fn(L"+infinity", nullptr)); ASSERT_EQ(std::numeric_limits::infinity(), fn(L"infinity", nullptr)); ASSERT_EQ(-std::numeric_limits::infinity(), fn(L"-infinity", nullptr)); ASSERT_EQ(std::numeric_limits::infinity(), fn(L"+infinitude", &p)); ASSERT_STREQ(L"initude", p); ASSERT_EQ(std::numeric_limits::infinity(), fn(L"infinitude", &p)); ASSERT_STREQ(L"initude", p); ASSERT_EQ(-std::numeric_limits::infinity(), fn(L"-infinitude", &p)); ASSERT_STREQ(L"initude", p); // Check case-insensitivity. ASSERT_EQ(std::numeric_limits::infinity(), fn(L"InFiNiTy", nullptr)); ASSERT_TRUE(isnan(fn(L"NaN", nullptr))); } TEST(wchar, wcstof) { TestWcsToFloat(wcstof); } TEST(wchar, wcstof_hex_floats) { TestWcsToFloatHexFloats(wcstof); } TEST(wchar, wcstof_hex_inf_nan) { TestWcsToFloatInfNan(wcstof); } TEST(wchar, wcstod) { TestWcsToFloat(wcstod); } TEST(wchar, wcstod_hex_floats) { TestWcsToFloatHexFloats(wcstod); } TEST(wchar, wcstod_hex_inf_nan) { TestWcsToFloatInfNan(wcstod); } TEST(wchar, wcstold) { TestWcsToFloat(wcstold); } TEST(wchar, wcstold_hex_floats) { TestWcsToFloatHexFloats(wcstold); } TEST(wchar, wcstold_hex_inf_nan) { TestWcsToFloatInfNan(wcstold); } TEST(wchar, wcstod_l) { #if !defined(ANDROID_HOST_MUSL) EXPECT_EQ(1.23, wcstod_l(L"1.23", nullptr, SAFE_LC_GLOBAL_LOCALE)); #else GTEST_SKIP() << "musl doesn't have wcstod_l"; #endif } TEST(wchar, wcstof_l) { #if !defined(ANDROID_HOST_MUSL) EXPECT_EQ(1.23f, wcstof_l(L"1.23", nullptr, SAFE_LC_GLOBAL_LOCALE)); #else GTEST_SKIP() << "musl doesn't have wcstof_l"; #endif } TEST(wchar, wcstol_l) { #if !defined(ANDROID_HOST_MUSL) EXPECT_EQ(123L, wcstol_l(L"123", nullptr, 10, SAFE_LC_GLOBAL_LOCALE)); #else GTEST_SKIP() << "musl doesn't have wcstol_l"; #endif } TEST(wchar, wcstold_l) { EXPECT_EQ(1.23L, wcstold_l(L"1.23", nullptr, SAFE_LC_GLOBAL_LOCALE)); } TEST(wchar, wcstoll_l) { EXPECT_EQ(123LL, wcstoll_l(L"123", nullptr, 10, SAFE_LC_GLOBAL_LOCALE)); } TEST(wchar, wcstoul_l) { #if !defined(ANDROID_HOST_MUSL) EXPECT_EQ(123UL, wcstoul_l(L"123", nullptr, 10, SAFE_LC_GLOBAL_LOCALE)); #else GTEST_SKIP() << "musl doesn't have wcstoul_l"; #endif } TEST(wchar, wcstoull_l) { EXPECT_EQ(123ULL, wcstoull_l(L"123", nullptr, 10, SAFE_LC_GLOBAL_LOCALE)); } static void AssertWcwidthRange(wchar_t begin, wchar_t end, int expected) { for (wchar_t i = begin; i < end; ++i) { EXPECT_EQ(expected, wcwidth(i)) << static_cast(i); } } TEST(wchar, wcwidth_NUL) { // NUL is defined to return 0 rather than -1, despite being a C0 control. EXPECT_EQ(0, wcwidth(0)); } TEST(wchar, wcwidth_ascii) { AssertWcwidthRange(0x20, 0x7f, 1); // Non-C0 non-DEL ASCII. } TEST(wchar, wcwidth_controls) { AssertWcwidthRange(0x01, 0x20, -1); // C0 controls. EXPECT_EQ(-1, wcwidth(0x7f)); // DEL. AssertWcwidthRange(0x80, 0xa0, -1); // C1 controls. } TEST(wchar, wcwidth_non_spacing_and_enclosing_marks_and_format) { if (!have_dl()) return; EXPECT_EQ(0, wcwidth(0x0300)); // Combining grave. EXPECT_EQ(0, wcwidth(0x20dd)); // Combining enclosing circle. EXPECT_EQ(0, wcwidth(0x200b)); // Zero width space. } TEST(wchar, wcwidth_non_spacing_special_cases) { if (!have_dl()) return; // U+00AD is a soft hyphen, which normally shouldn't be rendered at all. // I think the assumption here is that you elide the soft hyphen character // completely in that case, and never call wcwidth() if you don't want to // render it as an actual hyphen. Whereas if you do want to render it, // you call wcwidth(), and 1 is the right answer. This is what Markus Kuhn's // original https://www.cl.cam.ac.uk/~mgk25/ucs/wcwidth.c did, // and glibc and iOS do the same. // See also: https://en.wikipedia.org/wiki/Soft_hyphen#Text_to_be_formatted_by_the_recipient EXPECT_EQ(1, wcwidth(0x00ad)); // Soft hyphen (SHY). // U+115F is the Hangeul choseong filler (for a degenerate composed // character missing an initial consonant (as opposed to one with a // leading ieung). Since the code points for combining jungseong (medial // vowels) and jongseong (trailing consonants) have width 0, the choseong // (initial consonant) has width 2 to cover the entire syllable. So unless // U+115f has width 2, a degenerate composed "syllable" without an initial // consonant or ieung would have a total width of 0, which is silly. // The following sequence is effectively "약" without the leading ieung... EXPECT_EQ(2, wcwidth(0x115f)); // Hangeul choseong filler. EXPECT_EQ(0, wcwidth(0x1163)); // Hangeul jungseong "ya". EXPECT_EQ(0, wcwidth(0x11a8)); // Hangeul jongseong "kiyeok". // U+1160, the jungseong filler, has width 0 because it must have been // preceded by either a choseong or choseong filler. EXPECT_EQ(0, wcwidth(0x1160)); } TEST(wchar, wcwidth_cjk) { if (!have_dl()) return; EXPECT_EQ(2, wcwidth(0x4e00)); // Start of CJK unified block. EXPECT_EQ(2, wcwidth(0x9fff)); // End of CJK unified block. EXPECT_EQ(2, wcwidth(0x3400)); // Start of CJK extension A block. EXPECT_EQ(2, wcwidth(0x4dbf)); // End of CJK extension A block. EXPECT_EQ(2, wcwidth(0x20000)); // Start of CJK extension B block. EXPECT_EQ(2, wcwidth(0x2a6df)); // End of CJK extension B block. } TEST(wchar, wcwidth_korean_combining_jamo) { if (!have_dl()) return; AssertWcwidthRange(0x1160, 0x1200, 0); // Original range. EXPECT_EQ(0, wcwidth(0xd7b0)); // Newer. EXPECT_EQ(0, wcwidth(0xd7cb)); } TEST(wchar, wcwidth_korean_jeongeul_syllables) { if (!have_dl()) return; EXPECT_EQ(2, wcwidth(0xac00)); // Start of block. EXPECT_EQ(2, wcwidth(0xd7a3)); // End of defined code points as of Unicode 15. // Undefined characters at the end of the block currently have width 1, // but since they're undefined, we don't test that. } TEST(wchar, wcwidth_kana) { if (!have_dl()) return; // Hiragana (most, not undefined). AssertWcwidthRange(0x3041, 0x3097, 2); // Katakana. AssertWcwidthRange(0x30a0, 0x3100, 2); } TEST(wchar, wcwidth_circled_two_digit_cjk) { if (!have_dl()) return; // Circled two-digit CJK "speed sign" numbers are wide, // though EastAsianWidth is ambiguous. AssertWcwidthRange(0x3248, 0x3250, 2); } TEST(wchar, wcwidth_hexagrams) { if (!have_dl()) return; // Hexagrams are wide, though EastAsianWidth is neutral. AssertWcwidthRange(0x4dc0, 0x4e00, 2); } TEST(wchar, wcwidth_default_ignorables) { if (!have_dl()) return; AssertWcwidthRange(0xfff0, 0xfff8, 0); // Unassigned by default ignorable. EXPECT_EQ(0, wcwidth(0xe0000)); // ...through 0xe0fff. } TEST(wchar, wcwidth_hangeul_compatibility_jamo) { if (!have_dl()) return; // These are actually the *compatibility* jamo code points, *not* the regular // jamo code points (U+1100-U+11FF) using a jungseong filler. If you use the // Android IME to type any of these, you get these code points. // (Half of) the Korean "crying" emoticon "ㅠㅠ". // Actually U+3160 "Hangeul Letter Yu" from Hangeul Compatibility Jamo. EXPECT_EQ(2, wcwidth(L'ㅠ')); // The two halves of the Korean internet shorthand "ㄱㅅ" (short for 감사). // Actually U+3131 "Hangeul Letter Kiyeok" and U+3145 "Hangeul Letter Sios" // from Hangeul Compatibility Jamo. EXPECT_EQ(2, wcwidth(L'ㄱ')); EXPECT_EQ(2, wcwidth(L'ㅅ')); } TEST(wchar, wcswidth) { EXPECT_EQ(2, wcswidth(L"abc", 2)); EXPECT_EQ(2, wcswidth(L"ab\t", 2)); EXPECT_EQ(-1, wcswidth(L"a\tb", 2)); } TEST(wchar, wcslcpy) { #if defined(__BIONIC__) wchar_t dst[32]; ASSERT_EQ(11U, wcslcpy(dst, L"hello world", 3)); ASSERT_STREQ(L"he", dst); ASSERT_EQ(11U, wcslcpy(dst, L"hello world", 32)); ASSERT_STREQ(L"hello world", dst); #else GTEST_SKIP() << "no wcslcpy in glibc"; #endif } TEST(wchar, wcscat) { wchar_t dst[32]; ASSERT_EQ(dst, wcscat(dst, L"hello")); ASSERT_STREQ(dst, L"hello"); ASSERT_EQ(dst, wcscat(dst, L" world")); ASSERT_STREQ(dst, L"hello world"); } TEST(wchar, wcscpy) { wchar_t dst[32]; ASSERT_EQ(dst, wcscpy(dst, L"hello")); ASSERT_STREQ(dst, L"hello"); ASSERT_EQ(dst, wcscpy(dst, L"world")); ASSERT_STREQ(dst, L"world"); } TEST(wchar, wcscasecmp) { ASSERT_EQ(0, wcscasecmp(L"hello", L"HELLO")); ASSERT_TRUE(wcscasecmp(L"hello1", L"HELLO2") < 0); ASSERT_TRUE(wcscasecmp(L"hello2", L"HELLO1") > 0); ASSERT_TRUE(wcscasecmp(L"hello", L"HELL") > 0); ASSERT_TRUE(wcscasecmp(L"hell", L"HELLO") < 0); } TEST(wchar, wcscspn) { ASSERT_EQ(0U, wcscspn(L"hello world", L"abcdefghijklmnopqrstuvwxyz")); ASSERT_EQ(5U, wcscspn(L"hello world", L" ")); ASSERT_EQ(11U, wcscspn(L"hello world", L"!")); } TEST(wchar, wcsspn) { ASSERT_EQ(0U, wcsspn(L"hello world", L"!")); ASSERT_EQ(5U, wcsspn(L"hello world", L"abcdefghijklmnopqrstuvwxyz")); ASSERT_EQ(11U, wcsspn(L"hello world", L"abcdefghijklmnopqrstuvwxyz ")); } TEST(wchar, wcsdup) { wchar_t* s = wcsdup(L"hello"); ASSERT_STREQ(s, L"hello"); free(s); } TEST(wchar, wcslcat) { #if defined(__BIONIC__) wchar_t dst[4] = {}; ASSERT_EQ(1U, wcslcat(dst, L"a", 4)); ASSERT_EQ(7U, wcslcat(dst, L"bcdefg", 4)); ASSERT_STREQ(dst, L"abc"); #else GTEST_SKIP() << "no wcslcpy in glibc"; #endif } TEST(wchar, wcsncasecmp) { ASSERT_EQ(0, wcsncasecmp(L"foo", L"bar", 0)); ASSERT_EQ(0, wcsncasecmp(L"hello1", L"HELLO2", 5)); ASSERT_TRUE(wcsncasecmp(L"hello1", L"HELLO2", 6) < 0); ASSERT_TRUE(wcsncasecmp(L"hello2", L"HELLO1", 6) > 0); ASSERT_TRUE(wcsncasecmp(L"hello", L"HELL", 5) > 0); ASSERT_TRUE(wcsncasecmp(L"hell", L"HELLO", 5) < 0); } TEST(wchar, wcsncat) { wchar_t dst[32]; ASSERT_EQ(dst, wcsncat(dst, L"hello, world!", 5)); ASSERT_STREQ(dst, L"hello"); ASSERT_EQ(dst, wcsncat(dst, L"hello, world!", 0)); ASSERT_STREQ(dst, L"hello"); ASSERT_EQ(dst, wcsncat(dst, L", world!", 8)); ASSERT_STREQ(dst, L"hello, world!"); } TEST(wchar, wcsncmp) { ASSERT_EQ(0, wcsncmp(L"foo", L"bar", 0)); ASSERT_EQ(0, wcsncmp(L"aaaa", L"aaab", 3)); ASSERT_TRUE(wcsncmp(L"aaaa", L"aaab", 4) < 0); ASSERT_TRUE(wcsncmp(L"aaab", L"aaaa", 4) > 0); } TEST(wchar, wcsnlen) { ASSERT_EQ(2U, wcsnlen(L"hello", 2)); ASSERT_EQ(5U, wcsnlen(L"hello", 5)); ASSERT_EQ(5U, wcsnlen(L"hello", 666)); } TEST(wchar, wcspbrk) { const wchar_t* s = L"hello, world!"; ASSERT_EQ(nullptr, wcspbrk(s, L"-")); ASSERT_EQ(s, wcspbrk(s, L"abch")); ASSERT_EQ(s + 2, wcspbrk(s, L"l")); ASSERT_EQ(s + 5, wcspbrk(s, L",. !")); } TEST(wchar, wcstok) { wchar_t s[] = L"this is\ta\nstring"; wchar_t* p; ASSERT_EQ(s, wcstok(s, L"\t\n ", &p)); ASSERT_STREQ(s, L"this"); ASSERT_STREQ(p, L"is\ta\nstring"); ASSERT_EQ(s + 5, wcstok(nullptr, L"\t\n ", &p)); ASSERT_STREQ(s + 5, L"is"); ASSERT_STREQ(p, L"a\nstring"); ASSERT_EQ(s + 8, wcstok(nullptr, L"\t\n ", &p)); ASSERT_STREQ(s + 8, L"a"); ASSERT_STREQ(p, L"string"); ASSERT_EQ(s + 10, wcstok(nullptr, L"\t\n ", &p)); ASSERT_STREQ(s + 10, L"string"); ASSERT_EQ(nullptr, p); } TEST(wchar, wmemchr) { const wchar_t* s = L"hello, world!"; ASSERT_EQ(s, wmemchr(s, L'h', 13)); ASSERT_EQ(s + 5, wmemchr(s, L',', 13)); ASSERT_EQ(s + 12, wmemchr(s, L'!', 13)); ASSERT_EQ(nullptr, wmemchr(s, L'a', 13)); } TEST(wchar, wmemcmp) { ASSERT_EQ(0, wmemcmp(L"aaaa", L"aaab", 3)); ASSERT_TRUE(wmemcmp(L"aaaa", L"aaab", 4) < 0); ASSERT_TRUE(wmemcmp(L"aaab", L"aaaa", 4) > 0); } TEST(wchar, wmemcpy) { wchar_t dst[32] = {}; ASSERT_EQ(dst, wmemcpy(dst, L"hello", 5)); ASSERT_STREQ(dst, L"hello"); } TEST(wchar, wmemmove) { wchar_t dst[32] = {}; ASSERT_EQ(dst, wmemmove(dst, L"hello", 5)); ASSERT_STREQ(dst, L"hello"); } TEST(wchar, wmemset) { wchar_t dst[4] = {}; ASSERT_EQ(dst, wmemset(dst, 0x12345678, 3)); ASSERT_EQ(dst[0], wchar_t(0x12345678)); ASSERT_EQ(dst[1], wchar_t(0x12345678)); ASSERT_EQ(dst[2], wchar_t(0x12345678)); ASSERT_EQ(dst[3], wchar_t(0)); ASSERT_EQ(dst, wmemset(dst, L'y', 0)); ASSERT_EQ(dst[0], wchar_t(0x12345678)); }