// Copyright 2016 Google Inc. All Rights Reserved. // // 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 // // https://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 "gmock/gmock.h" #include "gtest/gtest.h" #include "absl/base/config.h" #include "absl/time/internal/cctz/include/cctz/civil_time.h" #include "absl/time/internal/cctz/include/cctz/time_zone.h" namespace chrono = std::chrono; namespace absl { ABSL_NAMESPACE_BEGIN namespace time_internal { namespace cctz { namespace { // This helper is a macro so that failed expectations show up with the // correct line numbers. #define ExpectTime(tp, tz, y, m, d, hh, mm, ss, off, isdst, zone) \ do { \ time_zone::absolute_lookup al = tz.lookup(tp); \ EXPECT_EQ(y, al.cs.year()); \ EXPECT_EQ(m, al.cs.month()); \ EXPECT_EQ(d, al.cs.day()); \ EXPECT_EQ(hh, al.cs.hour()); \ EXPECT_EQ(mm, al.cs.minute()); \ EXPECT_EQ(ss, al.cs.second()); \ EXPECT_EQ(off, al.offset); \ EXPECT_TRUE(isdst == al.is_dst); \ EXPECT_STREQ(zone, al.abbr); \ } while (0) const char RFC3339_full[] = "%Y-%m-%d%ET%H:%M:%E*S%Ez"; const char RFC3339_sec[] = "%Y-%m-%d%ET%H:%M:%S%Ez"; const char RFC1123_full[] = "%a, %d %b %Y %H:%M:%S %z"; const char RFC1123_no_wday[] = "%d %b %Y %H:%M:%S %z"; // A helper that tests the given format specifier by itself, and with leading // and trailing characters. For example: TestFormatSpecifier(tp, "%a", "Thu"). template void TestFormatSpecifier(time_point tp, time_zone tz, const std::string& fmt, const std::string& ans) { EXPECT_EQ(ans, format(fmt, tp, tz)) << fmt; EXPECT_EQ("xxx " + ans, format("xxx " + fmt, tp, tz)); EXPECT_EQ(ans + " yyy", format(fmt + " yyy", tp, tz)); EXPECT_EQ("xxx " + ans + " yyy", format("xxx " + fmt + " yyy", tp, tz)); } } // namespace // // Testing format() // TEST(Format, TimePointResolution) { const char kFmt[] = "%H:%M:%E*S"; const time_zone utc = utc_time_zone(); const time_point t0 = chrono::system_clock::from_time_t(1420167845) + chrono::milliseconds(123) + chrono::microseconds(456) + chrono::nanoseconds(789); EXPECT_EQ( "03:04:05.123456789", format(kFmt, chrono::time_point_cast(t0), utc)); EXPECT_EQ( "03:04:05.123456", format(kFmt, chrono::time_point_cast(t0), utc)); EXPECT_EQ( "03:04:05.123", format(kFmt, chrono::time_point_cast(t0), utc)); EXPECT_EQ("03:04:05", format(kFmt, chrono::time_point_cast(t0), utc)); EXPECT_EQ( "03:04:05", format(kFmt, chrono::time_point_cast(t0), utc)); EXPECT_EQ("03:04:00", format(kFmt, chrono::time_point_cast(t0), utc)); EXPECT_EQ("03:00:00", format(kFmt, chrono::time_point_cast(t0), utc)); } TEST(Format, TimePointExtendedResolution) { const char kFmt[] = "%H:%M:%E*S"; const time_zone utc = utc_time_zone(); const time_point tp = chrono::time_point_cast( chrono::system_clock::from_time_t(0)) + chrono::hours(12) + chrono::minutes(34) + chrono::seconds(56); EXPECT_EQ( "12:34:56.123456789012345", detail::format(kFmt, tp, detail::femtoseconds(123456789012345), utc)); EXPECT_EQ( "12:34:56.012345678901234", detail::format(kFmt, tp, detail::femtoseconds(12345678901234), utc)); EXPECT_EQ("12:34:56.001234567890123", detail::format(kFmt, tp, detail::femtoseconds(1234567890123), utc)); EXPECT_EQ("12:34:56.000123456789012", detail::format(kFmt, tp, detail::femtoseconds(123456789012), utc)); EXPECT_EQ("12:34:56.000000000000123", detail::format(kFmt, tp, detail::femtoseconds(123), utc)); EXPECT_EQ("12:34:56.000000000000012", detail::format(kFmt, tp, detail::femtoseconds(12), utc)); EXPECT_EQ("12:34:56.000000000000001", detail::format(kFmt, tp, detail::femtoseconds(1), utc)); } TEST(Format, Basics) { time_zone tz = utc_time_zone(); time_point tp = chrono::system_clock::from_time_t(0); // Starts with a couple basic edge cases. EXPECT_EQ("", format("", tp, tz)); EXPECT_EQ(" ", format(" ", tp, tz)); EXPECT_EQ(" ", format(" ", tp, tz)); EXPECT_EQ("xxx", format("xxx", tp, tz)); std::string big(128, 'x'); EXPECT_EQ(big, format(big, tp, tz)); // Cause the 1024-byte buffer to grow. std::string bigger(100000, 'x'); EXPECT_EQ(bigger, format(bigger, tp, tz)); tp += chrono::hours(13) + chrono::minutes(4) + chrono::seconds(5); tp += chrono::milliseconds(6) + chrono::microseconds(7) + chrono::nanoseconds(8); EXPECT_EQ("1970-01-01", format("%Y-%m-%d", tp, tz)); EXPECT_EQ("13:04:05", format("%H:%M:%S", tp, tz)); EXPECT_EQ("13:04:05.006", format("%H:%M:%E3S", tp, tz)); EXPECT_EQ("13:04:05.006007", format("%H:%M:%E6S", tp, tz)); EXPECT_EQ("13:04:05.006007008", format("%H:%M:%E9S", tp, tz)); } TEST(Format, PosixConversions) { const time_zone tz = utc_time_zone(); auto tp = chrono::system_clock::from_time_t(0); TestFormatSpecifier(tp, tz, "%d", "01"); TestFormatSpecifier(tp, tz, "%e", " 1"); // extension but internal support TestFormatSpecifier(tp, tz, "%H", "00"); TestFormatSpecifier(tp, tz, "%I", "12"); TestFormatSpecifier(tp, tz, "%j", "001"); TestFormatSpecifier(tp, tz, "%m", "01"); TestFormatSpecifier(tp, tz, "%M", "00"); TestFormatSpecifier(tp, tz, "%S", "00"); TestFormatSpecifier(tp, tz, "%U", "00"); #if !defined(__EMSCRIPTEN__) TestFormatSpecifier(tp, tz, "%w", "4"); // 4=Thursday #endif TestFormatSpecifier(tp, tz, "%W", "00"); TestFormatSpecifier(tp, tz, "%y", "70"); TestFormatSpecifier(tp, tz, "%Y", "1970"); TestFormatSpecifier(tp, tz, "%z", "+0000"); TestFormatSpecifier(tp, tz, "%Z", "UTC"); TestFormatSpecifier(tp, tz, "%%", "%"); #if defined(__linux__) // SU/C99/TZ extensions TestFormatSpecifier(tp, tz, "%C", "19"); TestFormatSpecifier(tp, tz, "%D", "01/01/70"); TestFormatSpecifier(tp, tz, "%F", "1970-01-01"); TestFormatSpecifier(tp, tz, "%g", "70"); TestFormatSpecifier(tp, tz, "%G", "1970"); TestFormatSpecifier(tp, tz, "%k", " 0"); TestFormatSpecifier(tp, tz, "%l", "12"); TestFormatSpecifier(tp, tz, "%n", "\n"); TestFormatSpecifier(tp, tz, "%R", "00:00"); TestFormatSpecifier(tp, tz, "%t", "\t"); TestFormatSpecifier(tp, tz, "%T", "00:00:00"); TestFormatSpecifier(tp, tz, "%u", "4"); // 4=Thursday TestFormatSpecifier(tp, tz, "%V", "01"); TestFormatSpecifier(tp, tz, "%s", "0"); #endif } TEST(Format, LocaleSpecific) { const time_zone tz = utc_time_zone(); auto tp = chrono::system_clock::from_time_t(0); TestFormatSpecifier(tp, tz, "%a", "Thu"); TestFormatSpecifier(tp, tz, "%A", "Thursday"); TestFormatSpecifier(tp, tz, "%b", "Jan"); TestFormatSpecifier(tp, tz, "%B", "January"); // %c should at least produce the numeric year and time-of-day. const std::string s = format("%c", tp, utc_time_zone()); EXPECT_THAT(s, testing::HasSubstr("1970")); EXPECT_THAT(s, testing::HasSubstr("00:00:00")); TestFormatSpecifier(tp, tz, "%p", "AM"); TestFormatSpecifier(tp, tz, "%x", "01/01/70"); TestFormatSpecifier(tp, tz, "%X", "00:00:00"); #if defined(__linux__) // SU/C99/TZ extensions TestFormatSpecifier(tp, tz, "%h", "Jan"); // Same as %b TestFormatSpecifier(tp, tz, "%P", "am"); TestFormatSpecifier(tp, tz, "%r", "12:00:00 AM"); // Modified conversion specifiers %E_ TestFormatSpecifier(tp, tz, "%Ec", "Thu Jan 1 00:00:00 1970"); TestFormatSpecifier(tp, tz, "%EC", "19"); TestFormatSpecifier(tp, tz, "%Ex", "01/01/70"); TestFormatSpecifier(tp, tz, "%EX", "00:00:00"); TestFormatSpecifier(tp, tz, "%Ey", "70"); TestFormatSpecifier(tp, tz, "%EY", "1970"); // Modified conversion specifiers %O_ TestFormatSpecifier(tp, tz, "%Od", "01"); TestFormatSpecifier(tp, tz, "%Oe", " 1"); TestFormatSpecifier(tp, tz, "%OH", "00"); TestFormatSpecifier(tp, tz, "%OI", "12"); TestFormatSpecifier(tp, tz, "%Om", "01"); TestFormatSpecifier(tp, tz, "%OM", "00"); TestFormatSpecifier(tp, tz, "%OS", "00"); TestFormatSpecifier(tp, tz, "%Ou", "4"); // 4=Thursday TestFormatSpecifier(tp, tz, "%OU", "00"); TestFormatSpecifier(tp, tz, "%OV", "01"); TestFormatSpecifier(tp, tz, "%Ow", "4"); // 4=Thursday TestFormatSpecifier(tp, tz, "%OW", "00"); TestFormatSpecifier(tp, tz, "%Oy", "70"); #endif } TEST(Format, Escaping) { const time_zone tz = utc_time_zone(); auto tp = chrono::system_clock::from_time_t(0); TestFormatSpecifier(tp, tz, "%%", "%"); TestFormatSpecifier(tp, tz, "%%a", "%a"); TestFormatSpecifier(tp, tz, "%%b", "%b"); TestFormatSpecifier(tp, tz, "%%Ea", "%Ea"); TestFormatSpecifier(tp, tz, "%%Es", "%Es"); TestFormatSpecifier(tp, tz, "%%E3S", "%E3S"); TestFormatSpecifier(tp, tz, "%%OS", "%OS"); TestFormatSpecifier(tp, tz, "%%O3S", "%O3S"); // Multiple levels of escaping. TestFormatSpecifier(tp, tz, "%%%Y", "%1970"); TestFormatSpecifier(tp, tz, "%%%E3S", "%00.000"); TestFormatSpecifier(tp, tz, "%%%%E3S", "%%E3S"); } TEST(Format, ExtendedSeconds) { const time_zone tz = utc_time_zone(); // No subseconds. time_point tp = chrono::system_clock::from_time_t(0); tp += chrono::seconds(5); EXPECT_EQ("05", format("%E*S", tp, tz)); EXPECT_EQ("05", format("%E0S", tp, tz)); EXPECT_EQ("05.0", format("%E1S", tp, tz)); EXPECT_EQ("05.00", format("%E2S", tp, tz)); EXPECT_EQ("05.000", format("%E3S", tp, tz)); EXPECT_EQ("05.0000", format("%E4S", tp, tz)); EXPECT_EQ("05.00000", format("%E5S", tp, tz)); EXPECT_EQ("05.000000", format("%E6S", tp, tz)); EXPECT_EQ("05.0000000", format("%E7S", tp, tz)); EXPECT_EQ("05.00000000", format("%E8S", tp, tz)); EXPECT_EQ("05.000000000", format("%E9S", tp, tz)); EXPECT_EQ("05.0000000000", format("%E10S", tp, tz)); EXPECT_EQ("05.00000000000", format("%E11S", tp, tz)); EXPECT_EQ("05.000000000000", format("%E12S", tp, tz)); EXPECT_EQ("05.0000000000000", format("%E13S", tp, tz)); EXPECT_EQ("05.00000000000000", format("%E14S", tp, tz)); EXPECT_EQ("05.000000000000000", format("%E15S", tp, tz)); // With subseconds. tp += chrono::milliseconds(6) + chrono::microseconds(7) + chrono::nanoseconds(8); EXPECT_EQ("05.006007008", format("%E*S", tp, tz)); EXPECT_EQ("05", format("%E0S", tp, tz)); EXPECT_EQ("05.0", format("%E1S", tp, tz)); EXPECT_EQ("05.00", format("%E2S", tp, tz)); EXPECT_EQ("05.006", format("%E3S", tp, tz)); EXPECT_EQ("05.0060", format("%E4S", tp, tz)); EXPECT_EQ("05.00600", format("%E5S", tp, tz)); EXPECT_EQ("05.006007", format("%E6S", tp, tz)); EXPECT_EQ("05.0060070", format("%E7S", tp, tz)); EXPECT_EQ("05.00600700", format("%E8S", tp, tz)); EXPECT_EQ("05.006007008", format("%E9S", tp, tz)); EXPECT_EQ("05.0060070080", format("%E10S", tp, tz)); EXPECT_EQ("05.00600700800", format("%E11S", tp, tz)); EXPECT_EQ("05.006007008000", format("%E12S", tp, tz)); EXPECT_EQ("05.0060070080000", format("%E13S", tp, tz)); EXPECT_EQ("05.00600700800000", format("%E14S", tp, tz)); EXPECT_EQ("05.006007008000000", format("%E15S", tp, tz)); // Times before the Unix epoch. tp = chrono::system_clock::from_time_t(0) + chrono::microseconds(-1); EXPECT_EQ("1969-12-31 23:59:59.999999", format("%Y-%m-%d %H:%M:%E*S", tp, tz)); // Here is a "%E*S" case we got wrong for a while. While the first // instant below is correctly rendered as "...:07.333304", the second // one used to appear as "...:07.33330499999999999". tp = chrono::system_clock::from_time_t(0) + chrono::microseconds(1395024427333304); EXPECT_EQ("2014-03-17 02:47:07.333304", format("%Y-%m-%d %H:%M:%E*S", tp, tz)); tp += chrono::microseconds(1); EXPECT_EQ("2014-03-17 02:47:07.333305", format("%Y-%m-%d %H:%M:%E*S", tp, tz)); } TEST(Format, ExtendedSubeconds) { const time_zone tz = utc_time_zone(); // No subseconds. time_point tp = chrono::system_clock::from_time_t(0); tp += chrono::seconds(5); EXPECT_EQ("0", format("%E*f", tp, tz)); EXPECT_EQ("", format("%E0f", tp, tz)); EXPECT_EQ("0", format("%E1f", tp, tz)); EXPECT_EQ("00", format("%E2f", tp, tz)); EXPECT_EQ("000", format("%E3f", tp, tz)); EXPECT_EQ("0000", format("%E4f", tp, tz)); EXPECT_EQ("00000", format("%E5f", tp, tz)); EXPECT_EQ("000000", format("%E6f", tp, tz)); EXPECT_EQ("0000000", format("%E7f", tp, tz)); EXPECT_EQ("00000000", format("%E8f", tp, tz)); EXPECT_EQ("000000000", format("%E9f", tp, tz)); EXPECT_EQ("0000000000", format("%E10f", tp, tz)); EXPECT_EQ("00000000000", format("%E11f", tp, tz)); EXPECT_EQ("000000000000", format("%E12f", tp, tz)); EXPECT_EQ("0000000000000", format("%E13f", tp, tz)); EXPECT_EQ("00000000000000", format("%E14f", tp, tz)); EXPECT_EQ("000000000000000", format("%E15f", tp, tz)); // With subseconds. tp += chrono::milliseconds(6) + chrono::microseconds(7) + chrono::nanoseconds(8); EXPECT_EQ("006007008", format("%E*f", tp, tz)); EXPECT_EQ("", format("%E0f", tp, tz)); EXPECT_EQ("0", format("%E1f", tp, tz)); EXPECT_EQ("00", format("%E2f", tp, tz)); EXPECT_EQ("006", format("%E3f", tp, tz)); EXPECT_EQ("0060", format("%E4f", tp, tz)); EXPECT_EQ("00600", format("%E5f", tp, tz)); EXPECT_EQ("006007", format("%E6f", tp, tz)); EXPECT_EQ("0060070", format("%E7f", tp, tz)); EXPECT_EQ("00600700", format("%E8f", tp, tz)); EXPECT_EQ("006007008", format("%E9f", tp, tz)); EXPECT_EQ("0060070080", format("%E10f", tp, tz)); EXPECT_EQ("00600700800", format("%E11f", tp, tz)); EXPECT_EQ("006007008000", format("%E12f", tp, tz)); EXPECT_EQ("0060070080000", format("%E13f", tp, tz)); EXPECT_EQ("00600700800000", format("%E14f", tp, tz)); EXPECT_EQ("006007008000000", format("%E15f", tp, tz)); // Times before the Unix epoch. tp = chrono::system_clock::from_time_t(0) + chrono::microseconds(-1); EXPECT_EQ("1969-12-31 23:59:59.999999", format("%Y-%m-%d %H:%M:%S.%E*f", tp, tz)); // Here is a "%E*S" case we got wrong for a while. While the first // instant below is correctly rendered as "...:07.333304", the second // one used to appear as "...:07.33330499999999999". tp = chrono::system_clock::from_time_t(0) + chrono::microseconds(1395024427333304); EXPECT_EQ("2014-03-17 02:47:07.333304", format("%Y-%m-%d %H:%M:%S.%E*f", tp, tz)); tp += chrono::microseconds(1); EXPECT_EQ("2014-03-17 02:47:07.333305", format("%Y-%m-%d %H:%M:%S.%E*f", tp, tz)); } TEST(Format, CompareExtendSecondsVsSubseconds) { const time_zone tz = utc_time_zone(); // This test case illustrates the differences/similarities between: // fmt_A: %ES // fmt_B: %S.%Ef auto fmt_A = [](const std::string& prec) { return "%E" + prec + "S"; }; auto fmt_B = [](const std::string& prec) { return "%S.%E" + prec + "f"; }; // No subseconds: time_point tp = chrono::system_clock::from_time_t(0); tp += chrono::seconds(5); // ... %E*S and %S.%E*f are different. EXPECT_EQ("05", format(fmt_A("*"), tp, tz)); EXPECT_EQ("05.0", format(fmt_B("*"), tp, tz)); // ... %E0S and %S.%E0f are different. EXPECT_EQ("05", format(fmt_A("0"), tp, tz)); EXPECT_EQ("05.", format(fmt_B("0"), tp, tz)); // ... %ES and %S.%Ef are the same for prec in [1:15]. for (int prec = 1; prec <= 15; ++prec) { const std::string a = format(fmt_A(std::to_string(prec)), tp, tz); const std::string b = format(fmt_B(std::to_string(prec)), tp, tz); EXPECT_EQ(a, b) << "prec=" << prec; } // With subseconds: // ... %E*S and %S.%E*f are the same. tp += chrono::milliseconds(6) + chrono::microseconds(7) + chrono::nanoseconds(8); EXPECT_EQ("05.006007008", format(fmt_A("*"), tp, tz)); EXPECT_EQ("05.006007008", format(fmt_B("*"), tp, tz)); // ... %E0S and %S.%E0f are different. EXPECT_EQ("05", format(fmt_A("0"), tp, tz)); EXPECT_EQ("05.", format(fmt_B("0"), tp, tz)); // ... %ES and %S.%Ef are the same for prec in [1:15]. for (int prec = 1; prec <= 15; ++prec) { const std::string a = format(fmt_A(std::to_string(prec)), tp, tz); const std::string b = format(fmt_B(std::to_string(prec)), tp, tz); EXPECT_EQ(a, b) << "prec=" << prec; } } TEST(Format, ExtendedOffset) { const auto tp = chrono::system_clock::from_time_t(0); auto tz = fixed_time_zone(absl::time_internal::cctz::seconds::zero()); TestFormatSpecifier(tp, tz, "%z", "+0000"); TestFormatSpecifier(tp, tz, "%:z", "+00:00"); TestFormatSpecifier(tp, tz, "%Ez", "+00:00"); tz = fixed_time_zone(chrono::seconds(56)); TestFormatSpecifier(tp, tz, "%z", "+0000"); TestFormatSpecifier(tp, tz, "%:z", "+00:00"); TestFormatSpecifier(tp, tz, "%Ez", "+00:00"); tz = fixed_time_zone(-chrono::seconds(56)); // NOTE: +00:00 TestFormatSpecifier(tp, tz, "%z", "+0000"); TestFormatSpecifier(tp, tz, "%:z", "+00:00"); TestFormatSpecifier(tp, tz, "%Ez", "+00:00"); tz = fixed_time_zone(chrono::minutes(34)); TestFormatSpecifier(tp, tz, "%z", "+0034"); TestFormatSpecifier(tp, tz, "%:z", "+00:34"); TestFormatSpecifier(tp, tz, "%Ez", "+00:34"); tz = fixed_time_zone(-chrono::minutes(34)); TestFormatSpecifier(tp, tz, "%z", "-0034"); TestFormatSpecifier(tp, tz, "%:z", "-00:34"); TestFormatSpecifier(tp, tz, "%Ez", "-00:34"); tz = fixed_time_zone(chrono::minutes(34) + chrono::seconds(56)); TestFormatSpecifier(tp, tz, "%z", "+0034"); TestFormatSpecifier(tp, tz, "%:z", "+00:34"); TestFormatSpecifier(tp, tz, "%Ez", "+00:34"); tz = fixed_time_zone(-chrono::minutes(34) - chrono::seconds(56)); TestFormatSpecifier(tp, tz, "%z", "-0034"); TestFormatSpecifier(tp, tz, "%:z", "-00:34"); TestFormatSpecifier(tp, tz, "%Ez", "-00:34"); tz = fixed_time_zone(chrono::hours(12)); TestFormatSpecifier(tp, tz, "%z", "+1200"); TestFormatSpecifier(tp, tz, "%:z", "+12:00"); TestFormatSpecifier(tp, tz, "%Ez", "+12:00"); tz = fixed_time_zone(-chrono::hours(12)); TestFormatSpecifier(tp, tz, "%z", "-1200"); TestFormatSpecifier(tp, tz, "%:z", "-12:00"); TestFormatSpecifier(tp, tz, "%Ez", "-12:00"); tz = fixed_time_zone(chrono::hours(12) + chrono::seconds(56)); TestFormatSpecifier(tp, tz, "%z", "+1200"); TestFormatSpecifier(tp, tz, "%:z", "+12:00"); TestFormatSpecifier(tp, tz, "%Ez", "+12:00"); tz = fixed_time_zone(-chrono::hours(12) - chrono::seconds(56)); TestFormatSpecifier(tp, tz, "%z", "-1200"); TestFormatSpecifier(tp, tz, "%:z", "-12:00"); TestFormatSpecifier(tp, tz, "%Ez", "-12:00"); tz = fixed_time_zone(chrono::hours(12) + chrono::minutes(34)); TestFormatSpecifier(tp, tz, "%z", "+1234"); TestFormatSpecifier(tp, tz, "%:z", "+12:34"); TestFormatSpecifier(tp, tz, "%Ez", "+12:34"); tz = fixed_time_zone(-chrono::hours(12) - chrono::minutes(34)); TestFormatSpecifier(tp, tz, "%z", "-1234"); TestFormatSpecifier(tp, tz, "%:z", "-12:34"); TestFormatSpecifier(tp, tz, "%Ez", "-12:34"); tz = fixed_time_zone(chrono::hours(12) + chrono::minutes(34) + chrono::seconds(56)); TestFormatSpecifier(tp, tz, "%z", "+1234"); TestFormatSpecifier(tp, tz, "%:z", "+12:34"); TestFormatSpecifier(tp, tz, "%Ez", "+12:34"); tz = fixed_time_zone(-chrono::hours(12) - chrono::minutes(34) - chrono::seconds(56)); TestFormatSpecifier(tp, tz, "%z", "-1234"); TestFormatSpecifier(tp, tz, "%:z", "-12:34"); TestFormatSpecifier(tp, tz, "%Ez", "-12:34"); } TEST(Format, ExtendedSecondOffset) { const auto tp = chrono::system_clock::from_time_t(0); auto tz = fixed_time_zone(absl::time_internal::cctz::seconds::zero()); TestFormatSpecifier(tp, tz, "%E*z", "+00:00:00"); TestFormatSpecifier(tp, tz, "%::z", "+00:00:00"); TestFormatSpecifier(tp, tz, "%:::z", "+00"); tz = fixed_time_zone(chrono::seconds(56)); TestFormatSpecifier(tp, tz, "%E*z", "+00:00:56"); TestFormatSpecifier(tp, tz, "%::z", "+00:00:56"); TestFormatSpecifier(tp, tz, "%:::z", "+00:00:56"); tz = fixed_time_zone(-chrono::seconds(56)); TestFormatSpecifier(tp, tz, "%E*z", "-00:00:56"); TestFormatSpecifier(tp, tz, "%::z", "-00:00:56"); TestFormatSpecifier(tp, tz, "%:::z", "-00:00:56"); tz = fixed_time_zone(chrono::minutes(34)); TestFormatSpecifier(tp, tz, "%E*z", "+00:34:00"); TestFormatSpecifier(tp, tz, "%::z", "+00:34:00"); TestFormatSpecifier(tp, tz, "%:::z", "+00:34"); tz = fixed_time_zone(-chrono::minutes(34)); TestFormatSpecifier(tp, tz, "%E*z", "-00:34:00"); TestFormatSpecifier(tp, tz, "%::z", "-00:34:00"); TestFormatSpecifier(tp, tz, "%:::z", "-00:34"); tz = fixed_time_zone(chrono::minutes(34) + chrono::seconds(56)); TestFormatSpecifier(tp, tz, "%E*z", "+00:34:56"); TestFormatSpecifier(tp, tz, "%::z", "+00:34:56"); TestFormatSpecifier(tp, tz, "%:::z", "+00:34:56"); tz = fixed_time_zone(-chrono::minutes(34) - chrono::seconds(56)); TestFormatSpecifier(tp, tz, "%E*z", "-00:34:56"); TestFormatSpecifier(tp, tz, "%::z", "-00:34:56"); TestFormatSpecifier(tp, tz, "%:::z", "-00:34:56"); tz = fixed_time_zone(chrono::hours(12)); TestFormatSpecifier(tp, tz, "%E*z", "+12:00:00"); TestFormatSpecifier(tp, tz, "%::z", "+12:00:00"); TestFormatSpecifier(tp, tz, "%:::z", "+12"); tz = fixed_time_zone(-chrono::hours(12)); TestFormatSpecifier(tp, tz, "%E*z", "-12:00:00"); TestFormatSpecifier(tp, tz, "%::z", "-12:00:00"); TestFormatSpecifier(tp, tz, "%:::z", "-12"); tz = fixed_time_zone(chrono::hours(12) + chrono::seconds(56)); TestFormatSpecifier(tp, tz, "%E*z", "+12:00:56"); TestFormatSpecifier(tp, tz, "%::z", "+12:00:56"); TestFormatSpecifier(tp, tz, "%:::z", "+12:00:56"); tz = fixed_time_zone(-chrono::hours(12) - chrono::seconds(56)); TestFormatSpecifier(tp, tz, "%E*z", "-12:00:56"); TestFormatSpecifier(tp, tz, "%::z", "-12:00:56"); TestFormatSpecifier(tp, tz, "%:::z", "-12:00:56"); tz = fixed_time_zone(chrono::hours(12) + chrono::minutes(34)); TestFormatSpecifier(tp, tz, "%E*z", "+12:34:00"); TestFormatSpecifier(tp, tz, "%::z", "+12:34:00"); TestFormatSpecifier(tp, tz, "%:::z", "+12:34"); tz = fixed_time_zone(-chrono::hours(12) - chrono::minutes(34)); TestFormatSpecifier(tp, tz, "%E*z", "-12:34:00"); TestFormatSpecifier(tp, tz, "%::z", "-12:34:00"); TestFormatSpecifier(tp, tz, "%:::z", "-12:34"); tz = fixed_time_zone(chrono::hours(12) + chrono::minutes(34) + chrono::seconds(56)); TestFormatSpecifier(tp, tz, "%E*z", "+12:34:56"); TestFormatSpecifier(tp, tz, "%::z", "+12:34:56"); TestFormatSpecifier(tp, tz, "%:::z", "+12:34:56"); tz = fixed_time_zone(-chrono::hours(12) - chrono::minutes(34) - chrono::seconds(56)); TestFormatSpecifier(tp, tz, "%E*z", "-12:34:56"); TestFormatSpecifier(tp, tz, "%::z", "-12:34:56"); TestFormatSpecifier(tp, tz, "%:::z", "-12:34:56"); } TEST(Format, ExtendedYears) { const time_zone utc = utc_time_zone(); const char e4y_fmt[] = "%E4Y%m%d"; // no separators // %E4Y zero-pads the year to produce at least 4 chars, including the sign. auto tp = convert(civil_second(-999, 11, 27, 0, 0, 0), utc); EXPECT_EQ("-9991127", format(e4y_fmt, tp, utc)); tp = convert(civil_second(-99, 11, 27, 0, 0, 0), utc); EXPECT_EQ("-0991127", format(e4y_fmt, tp, utc)); tp = convert(civil_second(-9, 11, 27, 0, 0, 0), utc); EXPECT_EQ("-0091127", format(e4y_fmt, tp, utc)); tp = convert(civil_second(-1, 11, 27, 0, 0, 0), utc); EXPECT_EQ("-0011127", format(e4y_fmt, tp, utc)); tp = convert(civil_second(0, 11, 27, 0, 0, 0), utc); EXPECT_EQ("00001127", format(e4y_fmt, tp, utc)); tp = convert(civil_second(1, 11, 27, 0, 0, 0), utc); EXPECT_EQ("00011127", format(e4y_fmt, tp, utc)); tp = convert(civil_second(9, 11, 27, 0, 0, 0), utc); EXPECT_EQ("00091127", format(e4y_fmt, tp, utc)); tp = convert(civil_second(99, 11, 27, 0, 0, 0), utc); EXPECT_EQ("00991127", format(e4y_fmt, tp, utc)); tp = convert(civil_second(999, 11, 27, 0, 0, 0), utc); EXPECT_EQ("09991127", format(e4y_fmt, tp, utc)); tp = convert(civil_second(9999, 11, 27, 0, 0, 0), utc); EXPECT_EQ("99991127", format(e4y_fmt, tp, utc)); // When the year is outside [-999:9999], more than 4 chars are produced. tp = convert(civil_second(-1000, 11, 27, 0, 0, 0), utc); EXPECT_EQ("-10001127", format(e4y_fmt, tp, utc)); tp = convert(civil_second(10000, 11, 27, 0, 0, 0), utc); EXPECT_EQ("100001127", format(e4y_fmt, tp, utc)); } TEST(Format, RFC3339Format) { time_zone tz; EXPECT_TRUE(load_time_zone("America/Los_Angeles", &tz)); time_point tp = convert(civil_second(1977, 6, 28, 9, 8, 7), tz); EXPECT_EQ("1977-06-28T09:08:07-07:00", format(RFC3339_full, tp, tz)); EXPECT_EQ("1977-06-28T09:08:07-07:00", format(RFC3339_sec, tp, tz)); tp += chrono::milliseconds(100); EXPECT_EQ("1977-06-28T09:08:07.1-07:00", format(RFC3339_full, tp, tz)); EXPECT_EQ("1977-06-28T09:08:07-07:00", format(RFC3339_sec, tp, tz)); tp += chrono::milliseconds(20); EXPECT_EQ("1977-06-28T09:08:07.12-07:00", format(RFC3339_full, tp, tz)); EXPECT_EQ("1977-06-28T09:08:07-07:00", format(RFC3339_sec, tp, tz)); tp += chrono::milliseconds(3); EXPECT_EQ("1977-06-28T09:08:07.123-07:00", format(RFC3339_full, tp, tz)); EXPECT_EQ("1977-06-28T09:08:07-07:00", format(RFC3339_sec, tp, tz)); tp += chrono::microseconds(400); EXPECT_EQ("1977-06-28T09:08:07.1234-07:00", format(RFC3339_full, tp, tz)); EXPECT_EQ("1977-06-28T09:08:07-07:00", format(RFC3339_sec, tp, tz)); tp += chrono::microseconds(50); EXPECT_EQ("1977-06-28T09:08:07.12345-07:00", format(RFC3339_full, tp, tz)); EXPECT_EQ("1977-06-28T09:08:07-07:00", format(RFC3339_sec, tp, tz)); tp += chrono::microseconds(6); EXPECT_EQ("1977-06-28T09:08:07.123456-07:00", format(RFC3339_full, tp, tz)); EXPECT_EQ("1977-06-28T09:08:07-07:00", format(RFC3339_sec, tp, tz)); tp += chrono::nanoseconds(700); EXPECT_EQ("1977-06-28T09:08:07.1234567-07:00", format(RFC3339_full, tp, tz)); EXPECT_EQ("1977-06-28T09:08:07-07:00", format(RFC3339_sec, tp, tz)); tp += chrono::nanoseconds(80); EXPECT_EQ("1977-06-28T09:08:07.12345678-07:00", format(RFC3339_full, tp, tz)); EXPECT_EQ("1977-06-28T09:08:07-07:00", format(RFC3339_sec, tp, tz)); tp += chrono::nanoseconds(9); EXPECT_EQ("1977-06-28T09:08:07.123456789-07:00", format(RFC3339_full, tp, tz)); EXPECT_EQ("1977-06-28T09:08:07-07:00", format(RFC3339_sec, tp, tz)); } TEST(Format, RFC1123Format) { // locale specific time_zone tz; EXPECT_TRUE(load_time_zone("America/Los_Angeles", &tz)); auto tp = convert(civil_second(1977, 6, 28, 9, 8, 7), tz); EXPECT_EQ("Tue, 28 Jun 1977 09:08:07 -0700", format(RFC1123_full, tp, tz)); EXPECT_EQ("28 Jun 1977 09:08:07 -0700", format(RFC1123_no_wday, tp, tz)); } TEST(Format, Week) { const time_zone utc = utc_time_zone(); auto tp = convert(civil_second(2017, 1, 1, 0, 0, 0), utc); EXPECT_EQ("2017-01-7", format("%Y-%U-%u", tp, utc)); EXPECT_EQ("2017-00-0", format("%Y-%W-%w", tp, utc)); tp = convert(civil_second(2017, 12, 31, 0, 0, 0), utc); EXPECT_EQ("2017-53-7", format("%Y-%U-%u", tp, utc)); EXPECT_EQ("2017-52-0", format("%Y-%W-%w", tp, utc)); tp = convert(civil_second(2018, 1, 1, 0, 0, 0), utc); EXPECT_EQ("2018-00-1", format("%Y-%U-%u", tp, utc)); EXPECT_EQ("2018-01-1", format("%Y-%W-%w", tp, utc)); tp = convert(civil_second(2018, 12, 31, 0, 0, 0), utc); EXPECT_EQ("2018-52-1", format("%Y-%U-%u", tp, utc)); EXPECT_EQ("2018-53-1", format("%Y-%W-%w", tp, utc)); tp = convert(civil_second(2019, 1, 1, 0, 0, 0), utc); EXPECT_EQ("2019-00-2", format("%Y-%U-%u", tp, utc)); EXPECT_EQ("2019-00-2", format("%Y-%W-%w", tp, utc)); tp = convert(civil_second(2019, 12, 31, 0, 0, 0), utc); EXPECT_EQ("2019-52-2", format("%Y-%U-%u", tp, utc)); EXPECT_EQ("2019-52-2", format("%Y-%W-%w", tp, utc)); } // // Testing parse() // TEST(Parse, TimePointResolution) { const char kFmt[] = "%H:%M:%E*S"; const time_zone utc = utc_time_zone(); time_point tp_ns; EXPECT_TRUE(parse(kFmt, "03:04:05.123456789", utc, &tp_ns)); EXPECT_EQ("03:04:05.123456789", format(kFmt, tp_ns, utc)); EXPECT_TRUE(parse(kFmt, "03:04:05.123456", utc, &tp_ns)); EXPECT_EQ("03:04:05.123456", format(kFmt, tp_ns, utc)); time_point tp_us; EXPECT_TRUE(parse(kFmt, "03:04:05.123456789", utc, &tp_us)); EXPECT_EQ("03:04:05.123456", format(kFmt, tp_us, utc)); EXPECT_TRUE(parse(kFmt, "03:04:05.123456", utc, &tp_us)); EXPECT_EQ("03:04:05.123456", format(kFmt, tp_us, utc)); EXPECT_TRUE(parse(kFmt, "03:04:05.123", utc, &tp_us)); EXPECT_EQ("03:04:05.123", format(kFmt, tp_us, utc)); time_point tp_ms; EXPECT_TRUE(parse(kFmt, "03:04:05.123456", utc, &tp_ms)); EXPECT_EQ("03:04:05.123", format(kFmt, tp_ms, utc)); EXPECT_TRUE(parse(kFmt, "03:04:05.123", utc, &tp_ms)); EXPECT_EQ("03:04:05.123", format(kFmt, tp_ms, utc)); EXPECT_TRUE(parse(kFmt, "03:04:05", utc, &tp_ms)); EXPECT_EQ("03:04:05", format(kFmt, tp_ms, utc)); time_point tp_s; EXPECT_TRUE(parse(kFmt, "03:04:05.123", utc, &tp_s)); EXPECT_EQ("03:04:05", format(kFmt, tp_s, utc)); EXPECT_TRUE(parse(kFmt, "03:04:05", utc, &tp_s)); EXPECT_EQ("03:04:05", format(kFmt, tp_s, utc)); time_point tp_m; EXPECT_TRUE(parse(kFmt, "03:04:05", utc, &tp_m)); EXPECT_EQ("03:04:00", format(kFmt, tp_m, utc)); time_point tp_h; EXPECT_TRUE(parse(kFmt, "03:04:05", utc, &tp_h)); EXPECT_EQ("03:00:00", format(kFmt, tp_h, utc)); } TEST(Parse, TimePointExtendedResolution) { const char kFmt[] = "%H:%M:%E*S"; const time_zone utc = utc_time_zone(); time_point tp; detail::femtoseconds fs; EXPECT_TRUE(detail::parse(kFmt, "12:34:56.123456789012345", utc, &tp, &fs)); EXPECT_EQ("12:34:56.123456789012345", detail::format(kFmt, tp, fs, utc)); EXPECT_TRUE(detail::parse(kFmt, "12:34:56.012345678901234", utc, &tp, &fs)); EXPECT_EQ("12:34:56.012345678901234", detail::format(kFmt, tp, fs, utc)); EXPECT_TRUE(detail::parse(kFmt, "12:34:56.001234567890123", utc, &tp, &fs)); EXPECT_EQ("12:34:56.001234567890123", detail::format(kFmt, tp, fs, utc)); EXPECT_TRUE(detail::parse(kFmt, "12:34:56.000000000000123", utc, &tp, &fs)); EXPECT_EQ("12:34:56.000000000000123", detail::format(kFmt, tp, fs, utc)); EXPECT_TRUE(detail::parse(kFmt, "12:34:56.000000000000012", utc, &tp, &fs)); EXPECT_EQ("12:34:56.000000000000012", detail::format(kFmt, tp, fs, utc)); EXPECT_TRUE(detail::parse(kFmt, "12:34:56.000000000000001", utc, &tp, &fs)); EXPECT_EQ("12:34:56.000000000000001", detail::format(kFmt, tp, fs, utc)); } TEST(Parse, Basics) { time_zone tz = utc_time_zone(); time_point tp = chrono::system_clock::from_time_t(1234567890); // Simple edge cases. EXPECT_TRUE(parse("", "", tz, &tp)); EXPECT_EQ(chrono::system_clock::from_time_t(0), tp); // everything defaulted EXPECT_TRUE(parse(" ", " ", tz, &tp)); EXPECT_TRUE(parse(" ", " ", tz, &tp)); EXPECT_TRUE(parse("x", "x", tz, &tp)); EXPECT_TRUE(parse("xxx", "xxx", tz, &tp)); EXPECT_TRUE( parse("%Y-%m-%d %H:%M:%S %z", "2013-06-28 19:08:09 -0800", tz, &tp)); ExpectTime(tp, tz, 2013, 6, 29, 3, 8, 9, 0, false, "UTC"); } TEST(Parse, WithTimeZone) { time_zone tz; EXPECT_TRUE(load_time_zone("America/Los_Angeles", &tz)); time_point tp; // We can parse a string without a UTC offset if we supply a timezone. EXPECT_TRUE(parse("%Y-%m-%d %H:%M:%S", "2013-06-28 19:08:09", tz, &tp)); ExpectTime(tp, tz, 2013, 6, 28, 19, 8, 9, -7 * 60 * 60, true, "PDT"); // But the timezone is ignored when a UTC offset is present. EXPECT_TRUE(parse("%Y-%m-%d %H:%M:%S %z", "2013-06-28 19:08:09 +0800", utc_time_zone(), &tp)); ExpectTime(tp, tz, 2013, 6, 28, 19 - 8 - 7, 8, 9, -7 * 60 * 60, true, "PDT"); // Check a skipped time (a Spring DST transition). parse() uses the // pre-transition offset. EXPECT_TRUE(parse("%Y-%m-%d %H:%M:%S", "2011-03-13 02:15:00", tz, &tp)); ExpectTime(tp, tz, 2011, 3, 13, 3, 15, 0, -7 * 60 * 60, true, "PDT"); // Check a repeated time (a Fall DST transition). parse() uses the // pre-transition offset. EXPECT_TRUE(parse("%Y-%m-%d %H:%M:%S", "2011-11-06 01:15:00", tz, &tp)); ExpectTime(tp, tz, 2011, 11, 6, 1, 15, 0, -7 * 60 * 60, true, "PDT"); } TEST(Parse, LeapSecond) { time_zone tz; EXPECT_TRUE(load_time_zone("America/Los_Angeles", &tz)); time_point tp; // ":59" -> ":59" EXPECT_TRUE(parse(RFC3339_full, "2013-06-28T07:08:59-08:00", tz, &tp)); ExpectTime(tp, tz, 2013, 6, 28, 8, 8, 59, -7 * 60 * 60, true, "PDT"); // ":59.5" -> ":59.5" EXPECT_TRUE(parse(RFC3339_full, "2013-06-28T07:08:59.5-08:00", tz, &tp)); ExpectTime(tp, tz, 2013, 6, 28, 8, 8, 59, -7 * 60 * 60, true, "PDT"); // ":60" -> ":00" EXPECT_TRUE(parse(RFC3339_full, "2013-06-28T07:08:60-08:00", tz, &tp)); ExpectTime(tp, tz, 2013, 6, 28, 8, 9, 0, -7 * 60 * 60, true, "PDT"); // ":60.5" -> ":00.0" EXPECT_TRUE(parse(RFC3339_full, "2013-06-28T07:08:60.5-08:00", tz, &tp)); ExpectTime(tp, tz, 2013, 6, 28, 8, 9, 0, -7 * 60 * 60, true, "PDT"); // ":61" -> error EXPECT_FALSE(parse(RFC3339_full, "2013-06-28T07:08:61-08:00", tz, &tp)); } TEST(Parse, ErrorCases) { const time_zone tz = utc_time_zone(); auto tp = chrono::system_clock::from_time_t(0); // Illegal trailing data. EXPECT_FALSE(parse("%S", "123", tz, &tp)); // Can't parse an illegal format specifier. EXPECT_FALSE(parse("%Q", "x", tz, &tp)); // Fails because of trailing, unparsed data "blah". EXPECT_FALSE(parse("%m-%d", "2-3 blah", tz, &tp)); // Trailing whitespace is allowed. EXPECT_TRUE(parse("%m-%d", "2-3 ", tz, &tp)); EXPECT_EQ(2, convert(tp, utc_time_zone()).month()); EXPECT_EQ(3, convert(tp, utc_time_zone()).day()); // Feb 31 requires normalization. EXPECT_FALSE(parse("%m-%d", "2-31", tz, &tp)); // Check that we cannot have spaces in UTC offsets. EXPECT_TRUE(parse("%z", "-0203", tz, &tp)); EXPECT_FALSE(parse("%z", "- 2 3", tz, &tp)); EXPECT_TRUE(parse("%Ez", "-02:03", tz, &tp)); EXPECT_FALSE(parse("%Ez", "- 2: 3", tz, &tp)); // Check that we reject other malformed UTC offsets. EXPECT_FALSE(parse("%Ez", "+-08:00", tz, &tp)); EXPECT_FALSE(parse("%Ez", "-+08:00", tz, &tp)); // Check that we do not accept "-0" in fields that allow zero. EXPECT_FALSE(parse("%Y", "-0", tz, &tp)); EXPECT_FALSE(parse("%E4Y", "-0", tz, &tp)); EXPECT_FALSE(parse("%H", "-0", tz, &tp)); EXPECT_FALSE(parse("%M", "-0", tz, &tp)); EXPECT_FALSE(parse("%S", "-0", tz, &tp)); EXPECT_FALSE(parse("%z", "+-000", tz, &tp)); EXPECT_FALSE(parse("%Ez", "+-0:00", tz, &tp)); EXPECT_FALSE(parse("%z", "-00-0", tz, &tp)); EXPECT_FALSE(parse("%Ez", "-00:-0", tz, &tp)); } TEST(Parse, PosixConversions) { time_zone tz = utc_time_zone(); auto tp = chrono::system_clock::from_time_t(0); const auto reset = convert(civil_second(1977, 6, 28, 9, 8, 7), tz); tp = reset; EXPECT_TRUE(parse("%d", "15", tz, &tp)); EXPECT_EQ(15, convert(tp, tz).day()); // %e is an extension, but is supported internally. tp = reset; EXPECT_TRUE(parse("%e", "15", tz, &tp)); EXPECT_EQ(15, convert(tp, tz).day()); // Equivalent to %d tp = reset; EXPECT_TRUE(parse("%H", "17", tz, &tp)); EXPECT_EQ(17, convert(tp, tz).hour()); tp = reset; EXPECT_TRUE(parse("%I", "5", tz, &tp)); EXPECT_EQ(5, convert(tp, tz).hour()); // %j is parsed but ignored. EXPECT_TRUE(parse("%j", "32", tz, &tp)); tp = reset; EXPECT_TRUE(parse("%m", "11", tz, &tp)); EXPECT_EQ(11, convert(tp, tz).month()); tp = reset; EXPECT_TRUE(parse("%M", "33", tz, &tp)); EXPECT_EQ(33, convert(tp, tz).minute()); tp = reset; EXPECT_TRUE(parse("%S", "55", tz, &tp)); EXPECT_EQ(55, convert(tp, tz).second()); // %U is parsed but ignored. EXPECT_TRUE(parse("%U", "15", tz, &tp)); // %w is parsed but ignored. EXPECT_TRUE(parse("%w", "2", tz, &tp)); // %W is parsed but ignored. EXPECT_TRUE(parse("%W", "22", tz, &tp)); tp = reset; EXPECT_TRUE(parse("%y", "04", tz, &tp)); EXPECT_EQ(2004, convert(tp, tz).year()); tp = reset; EXPECT_TRUE(parse("%Y", "2004", tz, &tp)); EXPECT_EQ(2004, convert(tp, tz).year()); EXPECT_TRUE(parse("%%", "%", tz, &tp)); #if defined(__linux__) // SU/C99/TZ extensions // Because we handle each (non-internal) specifier in a separate call // to strptime(), there is no way to group %C and %y together. So we // just skip the %C/%y case. #if 0 tp = reset; EXPECT_TRUE(parse("%C %y", "20 04", tz, &tp)); EXPECT_EQ(2004, convert(tp, tz).year()); #endif tp = reset; EXPECT_TRUE(parse("%D", "02/03/04", tz, &tp)); EXPECT_EQ(2, convert(tp, tz).month()); EXPECT_EQ(3, convert(tp, tz).day()); EXPECT_EQ(2004, convert(tp, tz).year()); EXPECT_TRUE(parse("%n", "\n", tz, &tp)); tp = reset; EXPECT_TRUE(parse("%R", "03:44", tz, &tp)); EXPECT_EQ(3, convert(tp, tz).hour()); EXPECT_EQ(44, convert(tp, tz).minute()); EXPECT_TRUE(parse("%t", "\t\v\f\n\r ", tz, &tp)); tp = reset; EXPECT_TRUE(parse("%T", "03:44:55", tz, &tp)); EXPECT_EQ(3, convert(tp, tz).hour()); EXPECT_EQ(44, convert(tp, tz).minute()); EXPECT_EQ(55, convert(tp, tz).second()); tp = reset; EXPECT_TRUE(parse("%s", "1234567890", tz, &tp)); EXPECT_EQ(chrono::system_clock::from_time_t(1234567890), tp); // %s conversion, like %z/%Ez, pays no heed to the optional zone. time_zone lax; EXPECT_TRUE(load_time_zone("America/Los_Angeles", &lax)); tp = reset; EXPECT_TRUE(parse("%s", "1234567890", lax, &tp)); EXPECT_EQ(chrono::system_clock::from_time_t(1234567890), tp); // This is most important when the time has the same YMDhms // breakdown in the zone as some other time. For example, ... // 1414917000 in US/Pacific -> Sun Nov 2 01:30:00 2014 (PDT) // 1414920600 in US/Pacific -> Sun Nov 2 01:30:00 2014 (PST) tp = reset; EXPECT_TRUE(parse("%s", "1414917000", lax, &tp)); EXPECT_EQ(chrono::system_clock::from_time_t(1414917000), tp); tp = reset; EXPECT_TRUE(parse("%s", "1414920600", lax, &tp)); EXPECT_EQ(chrono::system_clock::from_time_t(1414920600), tp); #endif } TEST(Parse, LocaleSpecific) { time_zone tz = utc_time_zone(); auto tp = chrono::system_clock::from_time_t(0); const auto reset = convert(civil_second(1977, 6, 28, 9, 8, 7), tz); // %a is parsed but ignored. EXPECT_TRUE(parse("%a", "Mon", tz, &tp)); // %A is parsed but ignored. EXPECT_TRUE(parse("%A", "Monday", tz, &tp)); tp = reset; EXPECT_TRUE(parse("%b", "Feb", tz, &tp)); EXPECT_EQ(2, convert(tp, tz).month()); tp = reset; EXPECT_TRUE(parse("%B", "February", tz, &tp)); EXPECT_EQ(2, convert(tp, tz).month()); // %p is parsed but ignored if it's alone. But it's used with %I. EXPECT_TRUE(parse("%p", "AM", tz, &tp)); tp = reset; EXPECT_TRUE(parse("%I %p", "5 PM", tz, &tp)); EXPECT_EQ(17, convert(tp, tz).hour()); tp = reset; EXPECT_TRUE(parse("%x", "02/03/04", tz, &tp)); if (convert(tp, tz).month() == 2) { EXPECT_EQ(3, convert(tp, tz).day()); } else { EXPECT_EQ(2, convert(tp, tz).day()); EXPECT_EQ(3, convert(tp, tz).month()); } EXPECT_EQ(2004, convert(tp, tz).year()); tp = reset; EXPECT_TRUE(parse("%X", "15:44:55", tz, &tp)); EXPECT_EQ(15, convert(tp, tz).hour()); EXPECT_EQ(44, convert(tp, tz).minute()); EXPECT_EQ(55, convert(tp, tz).second()); #if defined(__linux__) // SU/C99/TZ extensions tp = reset; EXPECT_TRUE(parse("%h", "Feb", tz, &tp)); EXPECT_EQ(2, convert(tp, tz).month()); // Equivalent to %b tp = reset; EXPECT_TRUE(parse("%l %p", "5 PM", tz, &tp)); EXPECT_EQ(17, convert(tp, tz).hour()); tp = reset; EXPECT_TRUE(parse("%r", "03:44:55 PM", tz, &tp)); EXPECT_EQ(15, convert(tp, tz).hour()); EXPECT_EQ(44, convert(tp, tz).minute()); EXPECT_EQ(55, convert(tp, tz).second()); tp = reset; EXPECT_TRUE(parse("%Ec", "Tue Nov 19 05:06:07 2013", tz, &tp)); EXPECT_EQ(convert(civil_second(2013, 11, 19, 5, 6, 7), tz), tp); // Modified conversion specifiers %E_ tp = reset; EXPECT_TRUE(parse("%Ex", "02/03/04", tz, &tp)); EXPECT_EQ(2, convert(tp, tz).month()); EXPECT_EQ(3, convert(tp, tz).day()); EXPECT_EQ(2004, convert(tp, tz).year()); tp = reset; EXPECT_TRUE(parse("%EX", "15:44:55", tz, &tp)); EXPECT_EQ(15, convert(tp, tz).hour()); EXPECT_EQ(44, convert(tp, tz).minute()); EXPECT_EQ(55, convert(tp, tz).second()); // %Ey, the year offset from %EC, doesn't really make sense alone as there // is no way to represent it in tm_year (%EC is not simply the century). // Yet, because we handle each (non-internal) specifier in a separate call // to strptime(), there is no way to group %EC and %Ey either. So we just // skip the %EC and %Ey cases. tp = reset; EXPECT_TRUE(parse("%EY", "2004", tz, &tp)); EXPECT_EQ(2004, convert(tp, tz).year()); // Modified conversion specifiers %O_ tp = reset; EXPECT_TRUE(parse("%Od", "15", tz, &tp)); EXPECT_EQ(15, convert(tp, tz).day()); tp = reset; EXPECT_TRUE(parse("%Oe", "15", tz, &tp)); EXPECT_EQ(15, convert(tp, tz).day()); // Equivalent to %d tp = reset; EXPECT_TRUE(parse("%OH", "17", tz, &tp)); EXPECT_EQ(17, convert(tp, tz).hour()); tp = reset; EXPECT_TRUE(parse("%OI", "5", tz, &tp)); EXPECT_EQ(5, convert(tp, tz).hour()); tp = reset; EXPECT_TRUE(parse("%Om", "11", tz, &tp)); EXPECT_EQ(11, convert(tp, tz).month()); tp = reset; EXPECT_TRUE(parse("%OM", "33", tz, &tp)); EXPECT_EQ(33, convert(tp, tz).minute()); tp = reset; EXPECT_TRUE(parse("%OS", "55", tz, &tp)); EXPECT_EQ(55, convert(tp, tz).second()); // %OU is parsed but ignored. EXPECT_TRUE(parse("%OU", "15", tz, &tp)); // %Ow is parsed but ignored. EXPECT_TRUE(parse("%Ow", "2", tz, &tp)); // %OW is parsed but ignored. EXPECT_TRUE(parse("%OW", "22", tz, &tp)); tp = reset; EXPECT_TRUE(parse("%Oy", "04", tz, &tp)); EXPECT_EQ(2004, convert(tp, tz).year()); #endif } TEST(Parse, ExtendedSeconds) { const time_zone tz = utc_time_zone(); const time_point unix_epoch = chrono::system_clock::from_time_t(0); // All %ES cases are treated the same as %E*S on input. auto precisions = {"*", "0", "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15"}; for (const std::string prec : precisions) { const std::string fmt = "%E" + prec + "S"; SCOPED_TRACE(fmt); time_point tp = unix_epoch; EXPECT_TRUE(parse(fmt, "5", tz, &tp)); EXPECT_EQ(unix_epoch + chrono::seconds(5), tp); tp = unix_epoch; EXPECT_TRUE(parse(fmt, "05", tz, &tp)); EXPECT_EQ(unix_epoch + chrono::seconds(5), tp); tp = unix_epoch; EXPECT_TRUE(parse(fmt, "05.0", tz, &tp)); EXPECT_EQ(unix_epoch + chrono::seconds(5), tp); tp = unix_epoch; EXPECT_TRUE(parse(fmt, "05.00", tz, &tp)); EXPECT_EQ(unix_epoch + chrono::seconds(5), tp); tp = unix_epoch; EXPECT_TRUE(parse(fmt, "05.6", tz, &tp)); EXPECT_EQ(unix_epoch + chrono::seconds(5) + chrono::milliseconds(600), tp); tp = unix_epoch; EXPECT_TRUE(parse(fmt, "05.60", tz, &tp)); EXPECT_EQ(unix_epoch + chrono::seconds(5) + chrono::milliseconds(600), tp); tp = unix_epoch; EXPECT_TRUE(parse(fmt, "05.600", tz, &tp)); EXPECT_EQ(unix_epoch + chrono::seconds(5) + chrono::milliseconds(600), tp); tp = unix_epoch; EXPECT_TRUE(parse(fmt, "05.67", tz, &tp)); EXPECT_EQ(unix_epoch + chrono::seconds(5) + chrono::milliseconds(670), tp); tp = unix_epoch; EXPECT_TRUE(parse(fmt, "05.670", tz, &tp)); EXPECT_EQ(unix_epoch + chrono::seconds(5) + chrono::milliseconds(670), tp); tp = unix_epoch; EXPECT_TRUE(parse(fmt, "05.678", tz, &tp)); EXPECT_EQ(unix_epoch + chrono::seconds(5) + chrono::milliseconds(678), tp); } // Here is a "%E*S" case we got wrong for a while. The fractional // part of the first instant is less than 2^31 and was correctly // parsed, while the second (and any subsecond field >=2^31) failed. time_point tp = unix_epoch; EXPECT_TRUE(parse("%E*S", "0.2147483647", tz, &tp)); EXPECT_EQ(unix_epoch + chrono::nanoseconds(214748364), tp); tp = unix_epoch; EXPECT_TRUE(parse("%E*S", "0.2147483648", tz, &tp)); EXPECT_EQ(unix_epoch + chrono::nanoseconds(214748364), tp); // We should also be able to specify long strings of digits far // beyond the current resolution and have them convert the same way. tp = unix_epoch; EXPECT_TRUE(parse( "%E*S", "0.214748364801234567890123456789012345678901234567890123456789", tz, &tp)); EXPECT_EQ(unix_epoch + chrono::nanoseconds(214748364), tp); } TEST(Parse, ExtendedSecondsScan) { const time_zone tz = utc_time_zone(); time_point tp; for (int ms = 0; ms < 1000; ms += 111) { for (int us = 0; us < 1000; us += 27) { const int micros = ms * 1000 + us; for (int ns = 0; ns < 1000; ns += 9) { const auto expected = chrono::system_clock::from_time_t(0) + chrono::nanoseconds(micros * 1000 + ns); std::ostringstream oss; oss << "0." << std::setfill('0') << std::setw(3); oss << ms << std::setw(3) << us << std::setw(3) << ns; const std::string input = oss.str(); EXPECT_TRUE(parse("%E*S", input, tz, &tp)); EXPECT_EQ(expected, tp) << input; } } } } TEST(Parse, ExtendedSubeconds) { const time_zone tz = utc_time_zone(); const time_point unix_epoch = chrono::system_clock::from_time_t(0); // All %Ef cases are treated the same as %E*f on input. auto precisions = {"*", "0", "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15"}; for (const std::string prec : precisions) { const std::string fmt = "%E" + prec + "f"; SCOPED_TRACE(fmt); time_point tp = unix_epoch - chrono::seconds(1); EXPECT_TRUE(parse(fmt, "", tz, &tp)); EXPECT_EQ(unix_epoch, tp); tp = unix_epoch; EXPECT_TRUE(parse(fmt, "6", tz, &tp)); EXPECT_EQ(unix_epoch + chrono::milliseconds(600), tp); tp = unix_epoch; EXPECT_TRUE(parse(fmt, "60", tz, &tp)); EXPECT_EQ(unix_epoch + chrono::milliseconds(600), tp); tp = unix_epoch; EXPECT_TRUE(parse(fmt, "600", tz, &tp)); EXPECT_EQ(unix_epoch + chrono::milliseconds(600), tp); tp = unix_epoch; EXPECT_TRUE(parse(fmt, "67", tz, &tp)); EXPECT_EQ(unix_epoch + chrono::milliseconds(670), tp); tp = unix_epoch; EXPECT_TRUE(parse(fmt, "670", tz, &tp)); EXPECT_EQ(unix_epoch + chrono::milliseconds(670), tp); tp = unix_epoch; EXPECT_TRUE(parse(fmt, "678", tz, &tp)); EXPECT_EQ(unix_epoch + chrono::milliseconds(678), tp); tp = unix_epoch; EXPECT_TRUE(parse(fmt, "6789", tz, &tp)); EXPECT_EQ( unix_epoch + chrono::milliseconds(678) + chrono::microseconds(900), tp); } // Here is a "%E*f" case we got wrong for a while. The fractional // part of the first instant is less than 2^31 and was correctly // parsed, while the second (and any subsecond field >=2^31) failed. time_point tp = unix_epoch; EXPECT_TRUE(parse("%E*f", "2147483647", tz, &tp)); EXPECT_EQ(unix_epoch + chrono::nanoseconds(214748364), tp); tp = unix_epoch; EXPECT_TRUE(parse("%E*f", "2147483648", tz, &tp)); EXPECT_EQ(unix_epoch + chrono::nanoseconds(214748364), tp); // We should also be able to specify long strings of digits far // beyond the current resolution and have them convert the same way. tp = unix_epoch; EXPECT_TRUE(parse( "%E*f", "214748364801234567890123456789012345678901234567890123456789", tz, &tp)); EXPECT_EQ(unix_epoch + chrono::nanoseconds(214748364), tp); } TEST(Parse, ExtendedSubecondsScan) { time_point tp; const time_zone tz = utc_time_zone(); for (int ms = 0; ms < 1000; ms += 111) { for (int us = 0; us < 1000; us += 27) { const int micros = ms * 1000 + us; for (int ns = 0; ns < 1000; ns += 9) { std::ostringstream oss; oss << std::setfill('0') << std::setw(3) << ms; oss << std::setw(3) << us << std::setw(3) << ns; const std::string nanos = oss.str(); const auto expected = chrono::system_clock::from_time_t(0) + chrono::nanoseconds(micros * 1000 + ns); for (int ps = 0; ps < 1000; ps += 250) { std::ostringstream ps_oss; oss << std::setfill('0') << std::setw(3) << ps; const std::string input = nanos + ps_oss.str() + "999"; EXPECT_TRUE(parse("%E*f", input, tz, &tp)); EXPECT_EQ(expected + chrono::nanoseconds(ps) / 1000, tp) << input; } } } } } TEST(Parse, ExtendedOffset) { const time_zone utc = utc_time_zone(); time_point tp; EXPECT_TRUE(parse("%Ez", "+00:00", utc, &tp)); EXPECT_EQ(convert(civil_second(1970, 1, 1, 0, 0, 0), utc), tp); EXPECT_TRUE(parse("%Ez", "-12:34", utc, &tp)); EXPECT_EQ(convert(civil_second(1970, 1, 1, 12, 34, 0), utc), tp); EXPECT_TRUE(parse("%Ez", "+12:34", utc, &tp)); EXPECT_EQ(convert(civil_second(1969, 12, 31, 11, 26, 0), utc), tp); EXPECT_FALSE(parse("%Ez", "-12:3", utc, &tp)); for (auto fmt : {"%Ez", "%z"}) { EXPECT_TRUE(parse(fmt, "+0000", utc, &tp)); EXPECT_EQ(convert(civil_second(1970, 1, 1, 0, 0, 0), utc), tp); EXPECT_TRUE(parse(fmt, "-1234", utc, &tp)); EXPECT_EQ(convert(civil_second(1970, 1, 1, 12, 34, 0), utc), tp); EXPECT_TRUE(parse(fmt, "+1234", utc, &tp)); EXPECT_EQ(convert(civil_second(1969, 12, 31, 11, 26, 0), utc), tp); EXPECT_FALSE(parse(fmt, "-123", utc, &tp)); EXPECT_TRUE(parse(fmt, "+00", utc, &tp)); EXPECT_EQ(convert(civil_second(1970, 1, 1, 0, 0, 0), utc), tp); EXPECT_TRUE(parse(fmt, "-12", utc, &tp)); EXPECT_EQ(convert(civil_second(1970, 1, 1, 12, 0, 0), utc), tp); EXPECT_TRUE(parse(fmt, "+12", utc, &tp)); EXPECT_EQ(convert(civil_second(1969, 12, 31, 12, 0, 0), utc), tp); EXPECT_FALSE(parse(fmt, "-1", utc, &tp)); } } TEST(Parse, ExtendedSecondOffset) { const time_zone utc = utc_time_zone(); time_point tp; for (auto fmt : {"%Ez", "%E*z", "%:z", "%::z", "%:::z"}) { EXPECT_TRUE(parse(fmt, "+00:00:00", utc, &tp)); EXPECT_EQ(convert(civil_second(1970, 1, 1, 0, 0, 0), utc), tp); EXPECT_TRUE(parse(fmt, "-12:34:56", utc, &tp)); EXPECT_EQ(convert(civil_second(1970, 1, 1, 12, 34, 56), utc), tp); EXPECT_TRUE(parse(fmt, "+12:34:56", utc, &tp)); EXPECT_EQ(convert(civil_second(1969, 12, 31, 11, 25, 4), utc), tp); EXPECT_FALSE(parse(fmt, "-12:34:5", utc, &tp)); EXPECT_TRUE(parse(fmt, "+000000", utc, &tp)); EXPECT_EQ(convert(civil_second(1970, 1, 1, 0, 0, 0), utc), tp); EXPECT_TRUE(parse(fmt, "-123456", utc, &tp)); EXPECT_EQ(convert(civil_second(1970, 1, 1, 12, 34, 56), utc), tp); EXPECT_TRUE(parse(fmt, "+123456", utc, &tp)); EXPECT_EQ(convert(civil_second(1969, 12, 31, 11, 25, 4), utc), tp); EXPECT_FALSE(parse(fmt, "-12345", utc, &tp)); EXPECT_TRUE(parse(fmt, "+00:00", utc, &tp)); EXPECT_EQ(convert(civil_second(1970, 1, 1, 0, 0, 0), utc), tp); EXPECT_TRUE(parse(fmt, "-12:34", utc, &tp)); EXPECT_EQ(convert(civil_second(1970, 1, 1, 12, 34, 0), utc), tp); EXPECT_TRUE(parse(fmt, "+12:34", utc, &tp)); EXPECT_EQ(convert(civil_second(1969, 12, 31, 11, 26, 0), utc), tp); EXPECT_FALSE(parse(fmt, "-12:3", utc, &tp)); EXPECT_TRUE(parse(fmt, "+0000", utc, &tp)); EXPECT_EQ(convert(civil_second(1970, 1, 1, 0, 0, 0), utc), tp); EXPECT_TRUE(parse(fmt, "-1234", utc, &tp)); EXPECT_EQ(convert(civil_second(1970, 1, 1, 12, 34, 0), utc), tp); EXPECT_TRUE(parse(fmt, "+1234", utc, &tp)); EXPECT_EQ(convert(civil_second(1969, 12, 31, 11, 26, 0), utc), tp); EXPECT_FALSE(parse(fmt, "-123", utc, &tp)); EXPECT_TRUE(parse(fmt, "+00", utc, &tp)); EXPECT_EQ(convert(civil_second(1970, 1, 1, 0, 0, 0), utc), tp); EXPECT_TRUE(parse(fmt, "-12", utc, &tp)); EXPECT_EQ(convert(civil_second(1970, 1, 1, 12, 0, 0), utc), tp); EXPECT_TRUE(parse(fmt, "+12", utc, &tp)); EXPECT_EQ(convert(civil_second(1969, 12, 31, 12, 0, 0), utc), tp); EXPECT_FALSE(parse(fmt, "-1", utc, &tp)); } } TEST(Parse, ExtendedYears) { const time_zone utc = utc_time_zone(); const char e4y_fmt[] = "%E4Y%m%d"; // no separators time_point tp; // %E4Y consumes exactly four chars, including any sign. EXPECT_TRUE(parse(e4y_fmt, "-9991127", utc, &tp)); EXPECT_EQ(convert(civil_second(-999, 11, 27, 0, 0, 0), utc), tp); EXPECT_TRUE(parse(e4y_fmt, "-0991127", utc, &tp)); EXPECT_EQ(convert(civil_second(-99, 11, 27, 0, 0, 0), utc), tp); EXPECT_TRUE(parse(e4y_fmt, "-0091127", utc, &tp)); EXPECT_EQ(convert(civil_second(-9, 11, 27, 0, 0, 0), utc), tp); EXPECT_TRUE(parse(e4y_fmt, "-0011127", utc, &tp)); EXPECT_EQ(convert(civil_second(-1, 11, 27, 0, 0, 0), utc), tp); EXPECT_TRUE(parse(e4y_fmt, "00001127", utc, &tp)); EXPECT_EQ(convert(civil_second(0, 11, 27, 0, 0, 0), utc), tp); EXPECT_TRUE(parse(e4y_fmt, "00011127", utc, &tp)); EXPECT_EQ(convert(civil_second(1, 11, 27, 0, 0, 0), utc), tp); EXPECT_TRUE(parse(e4y_fmt, "00091127", utc, &tp)); EXPECT_EQ(convert(civil_second(9, 11, 27, 0, 0, 0), utc), tp); EXPECT_TRUE(parse(e4y_fmt, "00991127", utc, &tp)); EXPECT_EQ(convert(civil_second(99, 11, 27, 0, 0, 0), utc), tp); EXPECT_TRUE(parse(e4y_fmt, "09991127", utc, &tp)); EXPECT_EQ(convert(civil_second(999, 11, 27, 0, 0, 0), utc), tp); EXPECT_TRUE(parse(e4y_fmt, "99991127", utc, &tp)); EXPECT_EQ(convert(civil_second(9999, 11, 27, 0, 0, 0), utc), tp); // When the year is outside [-999:9999], the parse fails. EXPECT_FALSE(parse(e4y_fmt, "-10001127", utc, &tp)); EXPECT_FALSE(parse(e4y_fmt, "100001127", utc, &tp)); } TEST(Parse, RFC3339Format) { const time_zone tz = utc_time_zone(); time_point tp; EXPECT_TRUE(parse(RFC3339_sec, "2014-02-12T20:21:00+00:00", tz, &tp)); ExpectTime(tp, tz, 2014, 2, 12, 20, 21, 0, 0, false, "UTC"); // Check that %ET also accepts "t". time_point tp2; EXPECT_TRUE(parse(RFC3339_sec, "2014-02-12t20:21:00+00:00", tz, &tp2)); EXPECT_EQ(tp, tp2); // Check that %Ez also accepts "Z" as a synonym for "+00:00". time_point tp3; EXPECT_TRUE(parse(RFC3339_sec, "2014-02-12T20:21:00Z", tz, &tp3)); EXPECT_EQ(tp, tp3); // Check that %Ez also accepts "z" as a synonym for "+00:00". time_point tp4; EXPECT_TRUE(parse(RFC3339_sec, "2014-02-12T20:21:00z", tz, &tp4)); EXPECT_EQ(tp, tp4); } TEST(Parse, Week) { const time_zone utc = utc_time_zone(); time_point tp; auto exp = convert(civil_second(2017, 1, 1, 0, 0, 0), utc); EXPECT_TRUE(parse("%Y-%U-%u", "2017-01-7", utc, &tp)); EXPECT_EQ(exp, tp); EXPECT_TRUE(parse("%Y-%W-%w", "2017-00-0", utc, &tp)); EXPECT_EQ(exp, tp); exp = convert(civil_second(2017, 12, 31, 0, 0, 0), utc); EXPECT_TRUE(parse("%Y-%U-%u", "2017-53-7", utc, &tp)); EXPECT_EQ(exp, tp); EXPECT_TRUE(parse("%Y-%W-%w", "2017-52-0", utc, &tp)); EXPECT_EQ(exp, tp); exp = convert(civil_second(2018, 1, 1, 0, 0, 0), utc); EXPECT_TRUE(parse("%Y-%U-%u", "2018-00-1", utc, &tp)); EXPECT_EQ(exp, tp); EXPECT_TRUE(parse("%Y-%W-%w", "2018-01-1", utc, &tp)); EXPECT_EQ(exp, tp); exp = convert(civil_second(2018, 12, 31, 0, 0, 0), utc); EXPECT_TRUE(parse("%Y-%U-%u", "2018-52-1", utc, &tp)); EXPECT_EQ(exp, tp); EXPECT_TRUE(parse("%Y-%W-%w", "2018-53-1", utc, &tp)); EXPECT_EQ(exp, tp); exp = convert(civil_second(2019, 1, 1, 0, 0, 0), utc); EXPECT_TRUE(parse("%Y-%U-%u", "2019-00-2", utc, &tp)); EXPECT_EQ(exp, tp); EXPECT_TRUE(parse("%Y-%W-%w", "2019-00-2", utc, &tp)); EXPECT_EQ(exp, tp); exp = convert(civil_second(2019, 12, 31, 0, 0, 0), utc); EXPECT_TRUE(parse("%Y-%U-%u", "2019-52-2", utc, &tp)); EXPECT_EQ(exp, tp); EXPECT_TRUE(parse("%Y-%W-%w", "2019-52-2", utc, &tp)); EXPECT_EQ(exp, tp); } TEST(Parse, WeekYearShift) { // %U/%W conversions with week values in {0, 52, 53} can slip // into the previous/following calendar years. const time_zone utc = utc_time_zone(); time_point tp; auto exp = convert(civil_second(2019, 12, 31, 0, 0, 0), utc); EXPECT_TRUE(parse("%Y-%U-%u", "2020-00-2", utc, &tp)); EXPECT_EQ(exp, tp); EXPECT_TRUE(parse("%Y-%W-%w", "2020-00-2", utc, &tp)); EXPECT_EQ(exp, tp); exp = convert(civil_second(2021, 1, 1, 0, 0, 0), utc); EXPECT_TRUE(parse("%Y-%U-%u", "2020-52-5", utc, &tp)); EXPECT_EQ(exp, tp); EXPECT_TRUE(parse("%Y-%W-%w", "2020-52-5", utc, &tp)); EXPECT_EQ(exp, tp); // Slipping into the previous/following calendar years should fail when // we're already at the extremes. EXPECT_FALSE(parse("%Y-%U-%u", "-9223372036854775808-0-7", utc, &tp)); EXPECT_FALSE(parse("%Y-%U-%u", "9223372036854775807-53-7", utc, &tp)); } TEST(Parse, MaxRange) { const time_zone utc = utc_time_zone(); time_point tp; // tests the upper limit using +00:00 offset EXPECT_TRUE( parse(RFC3339_sec, "292277026596-12-04T15:30:07+00:00", utc, &tp)); EXPECT_EQ(tp, time_point::max()); EXPECT_FALSE( parse(RFC3339_sec, "292277026596-12-04T15:30:08+00:00", utc, &tp)); // tests the upper limit using -01:00 offset EXPECT_TRUE( parse(RFC3339_sec, "292277026596-12-04T14:30:07-01:00", utc, &tp)); EXPECT_EQ(tp, time_point::max()); EXPECT_FALSE( parse(RFC3339_sec, "292277026596-12-04T14:30:08-01:00", utc, &tp)); // tests the lower limit using +00:00 offset EXPECT_TRUE( parse(RFC3339_sec, "-292277022657-01-27T08:29:52+00:00", utc, &tp)); EXPECT_EQ(tp, time_point::min()); EXPECT_FALSE( parse(RFC3339_sec, "-292277022657-01-27T08:29:51+00:00", utc, &tp)); // tests the lower limit using +01:00 offset EXPECT_TRUE( parse(RFC3339_sec, "-292277022657-01-27T09:29:52+01:00", utc, &tp)); EXPECT_EQ(tp, time_point::min()); EXPECT_FALSE( parse(RFC3339_sec, "-292277022657-01-27T08:29:51+01:00", utc, &tp)); // tests max/min civil-second overflow EXPECT_FALSE( parse(RFC3339_sec, "9223372036854775807-12-31T23:59:59-00:01", utc, &tp)); EXPECT_FALSE(parse(RFC3339_sec, "-9223372036854775808-01-01T00:00:00+00:01", utc, &tp)); } TEST(Parse, TimePointOverflow) { const time_zone utc = utc_time_zone(); using D = chrono::duration; time_point tp; EXPECT_TRUE( parse(RFC3339_full, "2262-04-11T23:47:16.8547758079+00:00", utc, &tp)); EXPECT_EQ(tp, time_point::max()); EXPECT_EQ("2262-04-11T23:47:16.854775807+00:00", format(RFC3339_full, tp, utc)); #if 0 // TODO(#199): Will fail until cctz::parse() properly detects overflow. EXPECT_FALSE( parse(RFC3339_full, "2262-04-11T23:47:16.8547758080+00:00", utc, &tp)); EXPECT_TRUE( parse(RFC3339_full, "1677-09-21T00:12:43.1452241920+00:00", utc, &tp)); EXPECT_EQ(tp, time_point::min()); EXPECT_EQ("1677-09-21T00:12:43.145224192+00:00", format(RFC3339_full, tp, utc)); EXPECT_FALSE( parse(RFC3339_full, "1677-09-21T00:12:43.1452241919+00:00", utc, &tp)); #endif using DS = chrono::duration; time_point stp; EXPECT_TRUE(parse(RFC3339_full, "1970-01-01T00:02:07.9+00:00", utc, &stp)); EXPECT_EQ(stp, time_point::max()); EXPECT_EQ("1970-01-01T00:02:07+00:00", format(RFC3339_full, stp, utc)); EXPECT_FALSE(parse(RFC3339_full, "1970-01-01T00:02:08+00:00", utc, &stp)); EXPECT_TRUE(parse(RFC3339_full, "1969-12-31T23:57:52+00:00", utc, &stp)); EXPECT_EQ(stp, time_point::min()); EXPECT_EQ("1969-12-31T23:57:52+00:00", format(RFC3339_full, stp, utc)); EXPECT_FALSE(parse(RFC3339_full, "1969-12-31T23:57:51.9+00:00", utc, &stp)); using DM = chrono::duration; time_point mtp; EXPECT_TRUE(parse(RFC3339_full, "1970-01-01T02:07:59+00:00", utc, &mtp)); EXPECT_EQ(mtp, time_point::max()); EXPECT_EQ("1970-01-01T02:07:00+00:00", format(RFC3339_full, mtp, utc)); EXPECT_FALSE(parse(RFC3339_full, "1970-01-01T02:08:00+00:00", utc, &mtp)); EXPECT_TRUE(parse(RFC3339_full, "1969-12-31T21:52:00+00:00", utc, &mtp)); EXPECT_EQ(mtp, time_point::min()); EXPECT_EQ("1969-12-31T21:52:00+00:00", format(RFC3339_full, mtp, utc)); EXPECT_FALSE(parse(RFC3339_full, "1969-12-31T21:51:59+00:00", utc, &mtp)); } TEST(Parse, TimePointOverflowFloor) { const time_zone utc = utc_time_zone(); using D = chrono::duration; time_point tp; EXPECT_TRUE( parse(RFC3339_full, "294247-01-10T04:00:54.7758079+00:00", utc, &tp)); EXPECT_EQ(tp, time_point::max()); EXPECT_EQ("294247-01-10T04:00:54.775807+00:00", format(RFC3339_full, tp, utc)); #if 0 // TODO(#199): Will fail until cctz::parse() properly detects overflow. EXPECT_FALSE( parse(RFC3339_full, "294247-01-10T04:00:54.7758080+00:00", utc, &tp)); EXPECT_TRUE( parse(RFC3339_full, "-290308-12-21T19:59:05.2241920+00:00", utc, &tp)); EXPECT_EQ(tp, time_point::min()); EXPECT_EQ("-290308-12-21T19:59:05.224192+00:00", format(RFC3339_full, tp, utc)); EXPECT_FALSE( parse(RFC3339_full, "-290308-12-21T19:59:05.2241919+00:00", utc, &tp)); #endif } // // Roundtrip test for format()/parse(). // TEST(FormatParse, RoundTrip) { time_zone lax; EXPECT_TRUE(load_time_zone("America/Los_Angeles", &lax)); const auto in = convert(civil_second(1977, 6, 28, 9, 8, 7), lax); const auto subseconds = chrono::nanoseconds(654321); // RFC3339, which renders subseconds. { time_point out; const std::string s = format(RFC3339_full, in + subseconds, lax); EXPECT_TRUE(parse(RFC3339_full, s, lax, &out)) << s; EXPECT_EQ(in + subseconds, out); // RFC3339_full includes %Ez } // RFC1123, which only does whole seconds. { time_point out; const std::string s = format(RFC1123_full, in, lax); EXPECT_TRUE(parse(RFC1123_full, s, lax, &out)) << s; EXPECT_EQ(in, out); // RFC1123_full includes %z } #if defined(_WIN32) || defined(_WIN64) // Initial investigations indicate the %c does not roundtrip on Windows. // TODO: Figure out what is going on here (perhaps a locale problem). #elif defined(__EMSCRIPTEN__) // strftime() and strptime() use different defintions for "%c" under // emscripten (see https://github.com/kripken/emscripten/pull/7491), // causing its round-trip test to fail. #else // Even though we don't know what %c will produce, it should roundtrip, // but only in the 0-offset timezone. { time_point out; time_zone utc = utc_time_zone(); const std::string s = format("%c", in, utc); EXPECT_TRUE(parse("%c", s, utc, &out)) << s; EXPECT_EQ(in, out); } #endif } TEST(FormatParse, RoundTripDistantFuture) { const time_zone utc = utc_time_zone(); const time_point in = time_point::max(); const std::string s = format(RFC3339_full, in, utc); time_point out; EXPECT_TRUE(parse(RFC3339_full, s, utc, &out)) << s; EXPECT_EQ(in, out); } TEST(FormatParse, RoundTripDistantPast) { const time_zone utc = utc_time_zone(); const time_point in = time_point::min(); const std::string s = format(RFC3339_full, in, utc); time_point out; EXPECT_TRUE(parse(RFC3339_full, s, utc, &out)) << s; EXPECT_EQ(in, out); } } // namespace cctz } // namespace time_internal ABSL_NAMESPACE_END } // namespace absl