// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. All rights reserved. // https://developers.google.com/protocol-buffers/ // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #include #include #include #include #include #include namespace google { namespace protobuf { namespace util { using google::protobuf::Timestamp; using google::protobuf::Duration; namespace { TEST(TimeUtilTest, TimestampStringFormat) { Timestamp begin, end; EXPECT_TRUE(TimeUtil::FromString("0001-01-01T00:00:00Z", &begin)); EXPECT_EQ(TimeUtil::kTimestampMinSeconds, begin.seconds()); EXPECT_EQ(0, begin.nanos()); EXPECT_TRUE(TimeUtil::FromString("9999-12-31T23:59:59.999999999Z", &end)); EXPECT_EQ(TimeUtil::kTimestampMaxSeconds, end.seconds()); EXPECT_EQ(999999999, end.nanos()); EXPECT_EQ("0001-01-01T00:00:00Z", TimeUtil::ToString(begin)); EXPECT_EQ("9999-12-31T23:59:59.999999999Z", TimeUtil::ToString(end)); // Test negative timestamps. Timestamp time = TimeUtil::NanosecondsToTimestamp(-1); EXPECT_EQ(-1, time.seconds()); // Timestamp's nano part is always non-negative. EXPECT_EQ(999999999, time.nanos()); EXPECT_EQ("1969-12-31T23:59:59.999999999Z", TimeUtil::ToString(time)); // Generated output should contain 3, 6, or 9 fractional digits. EXPECT_EQ("1970-01-01T00:00:00Z", TimeUtil::ToString(TimeUtil::NanosecondsToTimestamp(0))); EXPECT_EQ("1970-01-01T00:00:00.010Z", TimeUtil::ToString(TimeUtil::NanosecondsToTimestamp(10000000))); EXPECT_EQ("1970-01-01T00:00:00.000010Z", TimeUtil::ToString(TimeUtil::NanosecondsToTimestamp(10000))); EXPECT_EQ("1970-01-01T00:00:00.000000010Z", TimeUtil::ToString(TimeUtil::NanosecondsToTimestamp(10))); // Parsing accepts an fractional digits as long as they fit into nano // precision. EXPECT_TRUE(TimeUtil::FromString("1970-01-01T00:00:00.1Z", &time)); EXPECT_EQ(100000000, TimeUtil::TimestampToNanoseconds(time)); EXPECT_TRUE(TimeUtil::FromString("1970-01-01T00:00:00.0001Z", &time)); EXPECT_EQ(100000, TimeUtil::TimestampToNanoseconds(time)); EXPECT_TRUE(TimeUtil::FromString("1970-01-01T00:00:00.0000001Z", &time)); EXPECT_EQ(100, TimeUtil::TimestampToNanoseconds(time)); // Also accpets offsets. EXPECT_TRUE(TimeUtil::FromString("1970-01-01T00:00:00-08:00", &time)); EXPECT_EQ(8 * 3600, TimeUtil::TimestampToSeconds(time)); } TEST(TimeUtilTest, DurationStringFormat) { Timestamp begin, end; EXPECT_TRUE(TimeUtil::FromString("0001-01-01T00:00:00Z", &begin)); EXPECT_TRUE(TimeUtil::FromString("9999-12-31T23:59:59.999999999Z", &end)); EXPECT_EQ("315537897599.999999999s", TimeUtil::ToString(end - begin)); EXPECT_EQ(999999999, (end - begin).nanos()); EXPECT_EQ("-315537897599.999999999s", TimeUtil::ToString(begin - end)); EXPECT_EQ(-999999999, (begin - end).nanos()); // Generated output should contain 3, 6, or 9 fractional digits. EXPECT_EQ("1s", TimeUtil::ToString(TimeUtil::SecondsToDuration(1))); EXPECT_EQ("0.010s", TimeUtil::ToString(TimeUtil::MillisecondsToDuration(10))); EXPECT_EQ("0.000010s", TimeUtil::ToString(TimeUtil::MicrosecondsToDuration(10))); EXPECT_EQ("0.000000010s", TimeUtil::ToString(TimeUtil::NanosecondsToDuration(10))); // Parsing accepts an fractional digits as long as they fit into nano // precision. Duration d; EXPECT_TRUE(TimeUtil::FromString("0.1s", &d)); EXPECT_EQ(100, TimeUtil::DurationToMilliseconds(d)); EXPECT_TRUE(TimeUtil::FromString("0.0001s", &d)); EXPECT_EQ(100, TimeUtil::DurationToMicroseconds(d)); EXPECT_TRUE(TimeUtil::FromString("0.0000001s", &d)); EXPECT_EQ(100, TimeUtil::DurationToNanoseconds(d)); // Duration must support range from -315,576,000,000s to +315576000000s // which includes negative values. EXPECT_TRUE(TimeUtil::FromString("315576000000.999999999s", &d)); EXPECT_EQ(315576000000LL, d.seconds()); EXPECT_EQ(999999999, d.nanos()); EXPECT_TRUE(TimeUtil::FromString("-315576000000.999999999s", &d)); EXPECT_EQ(-315576000000LL, d.seconds()); EXPECT_EQ(-999999999, d.nanos()); } TEST(TimeUtilTest, GetEpoch) { EXPECT_EQ(0, TimeUtil::TimestampToNanoseconds(TimeUtil::GetEpoch())); } TEST(TimeUtilTest, DurationIntegerConversion) { EXPECT_EQ("0.000000001s", TimeUtil::ToString(TimeUtil::NanosecondsToDuration(1))); EXPECT_EQ("-0.000000001s", TimeUtil::ToString(TimeUtil::NanosecondsToDuration(-1))); EXPECT_EQ("0.000001s", TimeUtil::ToString(TimeUtil::MicrosecondsToDuration(1))); EXPECT_EQ("-0.000001s", TimeUtil::ToString(TimeUtil::MicrosecondsToDuration(-1))); EXPECT_EQ("0.001s", TimeUtil::ToString(TimeUtil::MillisecondsToDuration(1))); EXPECT_EQ("-0.001s", TimeUtil::ToString(TimeUtil::MillisecondsToDuration(-1))); EXPECT_EQ("1s", TimeUtil::ToString(TimeUtil::SecondsToDuration(1))); EXPECT_EQ("-1s", TimeUtil::ToString(TimeUtil::SecondsToDuration(-1))); EXPECT_EQ("60s", TimeUtil::ToString(TimeUtil::MinutesToDuration(1))); EXPECT_EQ("-60s", TimeUtil::ToString(TimeUtil::MinutesToDuration(-1))); EXPECT_EQ("3600s", TimeUtil::ToString(TimeUtil::HoursToDuration(1))); EXPECT_EQ("-3600s", TimeUtil::ToString(TimeUtil::HoursToDuration(-1))); EXPECT_EQ( 1, TimeUtil::DurationToNanoseconds(TimeUtil::NanosecondsToDuration(1))); EXPECT_EQ( -1, TimeUtil::DurationToNanoseconds(TimeUtil::NanosecondsToDuration(-1))); EXPECT_EQ( 1, TimeUtil::DurationToMicroseconds(TimeUtil::MicrosecondsToDuration(1))); EXPECT_EQ(-1, TimeUtil::DurationToMicroseconds( TimeUtil::MicrosecondsToDuration(-1))); EXPECT_EQ( 1, TimeUtil::DurationToMilliseconds(TimeUtil::MillisecondsToDuration(1))); EXPECT_EQ(-1, TimeUtil::DurationToMilliseconds( TimeUtil::MillisecondsToDuration(-1))); EXPECT_EQ(1, TimeUtil::DurationToSeconds(TimeUtil::SecondsToDuration(1))); EXPECT_EQ(-1, TimeUtil::DurationToSeconds(TimeUtil::SecondsToDuration(-1))); EXPECT_EQ(1, TimeUtil::DurationToMinutes(TimeUtil::MinutesToDuration(1))); EXPECT_EQ(-1, TimeUtil::DurationToMinutes(TimeUtil::MinutesToDuration(-1))); EXPECT_EQ(1, TimeUtil::DurationToHours(TimeUtil::HoursToDuration(1))); EXPECT_EQ(-1, TimeUtil::DurationToHours(TimeUtil::HoursToDuration(-1))); // Test truncation behavior. EXPECT_EQ(1, TimeUtil::DurationToMicroseconds( TimeUtil::NanosecondsToDuration(1999))); // For negative values, Duration will be rounded towards 0. EXPECT_EQ(-1, TimeUtil::DurationToMicroseconds( TimeUtil::NanosecondsToDuration(-1999))); } TEST(TestUtilTest, TimestampIntegerConversion) { EXPECT_EQ("1970-01-01T00:00:00.000000001Z", TimeUtil::ToString(TimeUtil::NanosecondsToTimestamp(1))); EXPECT_EQ("1969-12-31T23:59:59.999999999Z", TimeUtil::ToString(TimeUtil::NanosecondsToTimestamp(-1))); EXPECT_EQ("1970-01-01T00:00:00.000001Z", TimeUtil::ToString(TimeUtil::MicrosecondsToTimestamp(1))); EXPECT_EQ("1969-12-31T23:59:59.999999Z", TimeUtil::ToString(TimeUtil::MicrosecondsToTimestamp(-1))); EXPECT_EQ("1970-01-01T00:00:00.001Z", TimeUtil::ToString(TimeUtil::MillisecondsToTimestamp(1))); EXPECT_EQ("1969-12-31T23:59:59.999Z", TimeUtil::ToString(TimeUtil::MillisecondsToTimestamp(-1))); EXPECT_EQ("1970-01-01T00:00:01Z", TimeUtil::ToString(TimeUtil::SecondsToTimestamp(1))); EXPECT_EQ("1969-12-31T23:59:59Z", TimeUtil::ToString(TimeUtil::SecondsToTimestamp(-1))); EXPECT_EQ( 1, TimeUtil::TimestampToNanoseconds(TimeUtil::NanosecondsToTimestamp(1))); EXPECT_EQ(-1, TimeUtil::TimestampToNanoseconds( TimeUtil::NanosecondsToTimestamp(-1))); EXPECT_EQ(1, TimeUtil::TimestampToMicroseconds( TimeUtil::MicrosecondsToTimestamp(1))); EXPECT_EQ(-1, TimeUtil::TimestampToMicroseconds( TimeUtil::MicrosecondsToTimestamp(-1))); EXPECT_EQ(1, TimeUtil::TimestampToMilliseconds( TimeUtil::MillisecondsToTimestamp(1))); EXPECT_EQ(-1, TimeUtil::TimestampToMilliseconds( TimeUtil::MillisecondsToTimestamp(-1))); EXPECT_EQ(1, TimeUtil::TimestampToSeconds(TimeUtil::SecondsToTimestamp(1))); EXPECT_EQ(-1, TimeUtil::TimestampToSeconds(TimeUtil::SecondsToTimestamp(-1))); // Test truncation behavior. EXPECT_EQ(1, TimeUtil::TimestampToMicroseconds( TimeUtil::NanosecondsToTimestamp(1999))); // For negative values, Timestamp will be rounded down. // For example, "1969-12-31T23:59:59.5Z" (i.e., -0.5s) rounded to seconds // will be "1969-12-31T23:59:59Z" (i.e., -1s) rather than // "1970-01-01T00:00:00Z" (i.e., 0s). EXPECT_EQ(-2, TimeUtil::TimestampToMicroseconds( TimeUtil::NanosecondsToTimestamp(-1999))); } TEST(TimeUtilTest, TimeTConversion) { time_t value = time(NULL); EXPECT_EQ(value, TimeUtil::TimestampToTimeT(TimeUtil::TimeTToTimestamp(value))); EXPECT_EQ( 1, TimeUtil::TimestampToTimeT(TimeUtil::MillisecondsToTimestamp(1999))); } TEST(TimeUtilTest, TimevalConversion) { timeval value = TimeUtil::TimestampToTimeval( TimeUtil::NanosecondsToTimestamp(1999999999)); EXPECT_EQ(1, value.tv_sec); EXPECT_EQ(999999, value.tv_usec); value = TimeUtil::TimestampToTimeval( TimeUtil::NanosecondsToTimestamp(-1999999999)); EXPECT_EQ(-2, value.tv_sec); EXPECT_EQ(0, value.tv_usec); value = TimeUtil::DurationToTimeval(TimeUtil::NanosecondsToDuration(1999999999)); EXPECT_EQ(1, value.tv_sec); EXPECT_EQ(999999, value.tv_usec); value = TimeUtil::DurationToTimeval(TimeUtil::NanosecondsToDuration(-1999999999)); EXPECT_EQ(-2, value.tv_sec); EXPECT_EQ(1, value.tv_usec); } TEST(TimeUtilTest, DurationOperators) { Duration one_second = TimeUtil::SecondsToDuration(1); Duration one_nano = TimeUtil::NanosecondsToDuration(1); // Test +/- Duration a = one_second; a += one_second; a -= one_nano; EXPECT_EQ("1.999999999s", TimeUtil::ToString(a)); Duration b = -a; EXPECT_EQ("-1.999999999s", TimeUtil::ToString(b)); EXPECT_EQ("3.999999998s", TimeUtil::ToString(a + a)); EXPECT_EQ("0s", TimeUtil::ToString(a + b)); EXPECT_EQ("0s", TimeUtil::ToString(b + a)); EXPECT_EQ("-3.999999998s", TimeUtil::ToString(b + b)); EXPECT_EQ("3.999999998s", TimeUtil::ToString(a - b)); EXPECT_EQ("0s", TimeUtil::ToString(a - a)); EXPECT_EQ("0s", TimeUtil::ToString(b - b)); EXPECT_EQ("-3.999999998s", TimeUtil::ToString(b - a)); // Test * EXPECT_EQ(a + a, a * 2); EXPECT_EQ(b + b, a * (-2)); EXPECT_EQ(b + b, b * 2); EXPECT_EQ(a + a, b * (-2)); EXPECT_EQ("0.999999999s", TimeUtil::ToString(a * 0.5)); EXPECT_EQ("-0.999999999s", TimeUtil::ToString(b * 0.5)); // Multiplication should not overflow if the result fits into the supported // range of Duration (intermediate result may be larger than int64). EXPECT_EQ("315575999684.424s", TimeUtil::ToString((one_second - one_nano) * 315576000000LL)); EXPECT_EQ("-315575999684.424s", TimeUtil::ToString((one_nano - one_second) * 315576000000LL)); EXPECT_EQ("-315575999684.424s", TimeUtil::ToString((one_second - one_nano) * (-315576000000LL))); // Test / and % EXPECT_EQ("0.999999999s", TimeUtil::ToString(a / 2)); EXPECT_EQ("-0.999999999s", TimeUtil::ToString(b / 2)); Duration large = TimeUtil::SecondsToDuration(315576000000LL) - one_nano; // We have to handle division with values beyond 64 bits. EXPECT_EQ("0.999999999s", TimeUtil::ToString(large / 315576000000LL)); EXPECT_EQ("-0.999999999s", TimeUtil::ToString((-large) / 315576000000LL)); EXPECT_EQ("-0.999999999s", TimeUtil::ToString(large / (-315576000000LL))); Duration large2 = large + one_nano; EXPECT_EQ(large, large % large2); EXPECT_EQ(-large, (-large) % large2); EXPECT_EQ(large, large % (-large2)); EXPECT_EQ(one_nano, large2 % large); EXPECT_EQ(-one_nano, (-large2) % large); EXPECT_EQ(one_nano, large2 % (-large)); // Some corner cases about negative values. // // (-5) / 2 = -2, remainder = -1 // (-5) / (-2) = 2, remainder = -1 a = TimeUtil::NanosecondsToDuration(-5); EXPECT_EQ(TimeUtil::NanosecondsToDuration(-2), a / 2); EXPECT_EQ(TimeUtil::NanosecondsToDuration(2), a / (-2)); b = TimeUtil::NanosecondsToDuration(2); EXPECT_EQ(-2, a / b); EXPECT_EQ(TimeUtil::NanosecondsToDuration(-1), a % b); EXPECT_EQ(2, a / (-b)); EXPECT_EQ(TimeUtil::NanosecondsToDuration(-1), a % (-b)); // Test relational operators. EXPECT_TRUE(one_nano < one_second); EXPECT_FALSE(one_second < one_second); EXPECT_FALSE(one_second < one_nano); EXPECT_FALSE(-one_nano < -one_second); EXPECT_FALSE(-one_second < -one_second); EXPECT_TRUE(-one_second < -one_nano); EXPECT_TRUE(-one_nano < one_nano); EXPECT_FALSE(one_nano < -one_nano); EXPECT_FALSE(one_nano > one_second); EXPECT_FALSE(one_nano > one_nano); EXPECT_TRUE(one_second > one_nano); EXPECT_FALSE(one_nano >= one_second); EXPECT_TRUE(one_nano >= one_nano); EXPECT_TRUE(one_second >= one_nano); EXPECT_TRUE(one_nano <= one_second); EXPECT_TRUE(one_nano <= one_nano); EXPECT_FALSE(one_second <= one_nano); EXPECT_TRUE(one_nano == one_nano); EXPECT_FALSE(one_nano == one_second); EXPECT_FALSE(one_nano != one_nano); EXPECT_TRUE(one_nano != one_second); } TEST(TimeUtilTest, TimestampOperators) { Timestamp begin, end; EXPECT_TRUE(TimeUtil::FromString("0001-01-01T00:00:00Z", &begin)); EXPECT_TRUE(TimeUtil::FromString("9999-12-31T23:59:59.999999999Z", &end)); Duration d = end - begin; EXPECT_TRUE(end == begin + d); EXPECT_TRUE(end == d + begin); EXPECT_TRUE(begin == end - d); // Test relational operators Timestamp t1 = begin + d / 4; Timestamp t2 = end - d / 4; EXPECT_TRUE(t1 < t2); EXPECT_FALSE(t1 < t1); EXPECT_FALSE(t2 < t1); EXPECT_FALSE(t1 > t2); EXPECT_FALSE(t1 > t1); EXPECT_TRUE(t2 > t1); EXPECT_FALSE(t1 >= t2); EXPECT_TRUE(t1 >= t1); EXPECT_TRUE(t2 >= t1); EXPECT_TRUE(t1 <= t2); EXPECT_TRUE(t1 <= t1); EXPECT_FALSE(t2 <= t1); EXPECT_FALSE(t1 == t2); EXPECT_TRUE(t1 == t1); EXPECT_FALSE(t2 == t1); EXPECT_TRUE(t1 != t2); EXPECT_FALSE(t1 != t1); EXPECT_TRUE(t2 != t1); } } // namespace } // namespace util } // namespace protobuf } // namespace google