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/* Copyright 2016 MongoDB, Inc.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License, version 3,
* as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
* As a special exception, the copyright holders give permission to link the
* code of portions of this program with the OpenSSL library under certain
* conditions as described in each individual source file and distribute
* linked combinations including the program with the OpenSSL library. You
* must comply with the GNU Affero General Public License in all respects
* for all of the code used other than as permitted herein. If you modify
* file(s) with this exception, you may extend this exception to your
* version of the file(s), but you are not obligated to do so. If you do not
* wish to do so, delete this exception statement from your version. If you
* delete this exception statement from all source files in the program,
* then also delete it in the license file.
*/
#include "mongo/platform/basic.h"
#include "mongo/stdx/chrono.h"
#include "mongo/unittest/unittest.h"
#include "mongo/util/duration.h"
namespace mongo {
namespace {
// The DurationTestSameType Compare* tests server to check the implementation of the comparison
// operators as well as the compare() method, and so sometimes must explicitly check ASSERT_FALSE(v1
// OP v2). The DurationTestDifferentTypes Compare* tests rely on the fact that the operators all
// just call compare(), so if the operators worked in the SameType tests, they can be trusted in the
// DifferentType tests. As such, the DifferentType tests only use ASSERT_{GT,LT,LTE,GTE,EQ,NE} and
// never do an ASSERT_FALSE.
TEST(DurationComparisonSameType, CompareEqual) {
ASSERT_EQ(Microseconds::zero(), Microseconds::zero());
ASSERT_EQ(Microseconds::max(), Microseconds::max());
ASSERT_EQ(Microseconds::min(), Microseconds::min());
ASSERT_FALSE(Microseconds::zero() == Microseconds{-1});
}
TEST(DurationComparisonSameType, CompareNotEqual) {
ASSERT_NE(Microseconds{1}, Microseconds::zero());
ASSERT_NE(Microseconds{-1}, Microseconds{1});
ASSERT_FALSE(Microseconds::zero() != Microseconds{0});
}
TEST(DurationComparisonSameType, SameTypeCompareGreaterThan) {
ASSERT_GT(Microseconds::zero(), Microseconds::min());
ASSERT_GT(Microseconds{Microseconds::min().count() + 1}, Microseconds::min());
ASSERT_FALSE(Microseconds{-10} > Microseconds{103});
ASSERT_FALSE(Microseconds{1} > Microseconds{1});
}
TEST(DurationComparisonSameType, CompareLessThan) {
ASSERT_LT(Microseconds::zero(), Microseconds::max());
ASSERT_LT(Microseconds{Microseconds::max().count() - 1}, Microseconds::max());
ASSERT_LT(Microseconds{1}, Microseconds{10});
ASSERT_FALSE(Microseconds{1} < Microseconds{1});
ASSERT_FALSE(Microseconds{-3} < Microseconds{-1200});
}
TEST(DurationComparisonSameType, CompareGreaterThanOrEqual) {
ASSERT_GTE(Microseconds::zero(), Microseconds::min());
ASSERT_GTE(Microseconds{Microseconds::min().count() + 1}, Microseconds::min());
ASSERT_GTE(Microseconds::max(), Microseconds::max());
ASSERT_GTE(Microseconds::min(), Microseconds::min());
ASSERT_GTE(Microseconds{5}, Microseconds{5});
ASSERT_FALSE(Microseconds{-10} > Microseconds{103});
}
TEST(DurationComparisonSameType, CompareLessThanOrEqual) {
ASSERT_LTE(Microseconds::zero(), Microseconds::max());
ASSERT_LTE(Microseconds{Microseconds::max().count() - 1}, Microseconds::max());
ASSERT_LTE(Microseconds{1}, Microseconds{10});
ASSERT_LTE(Microseconds{1}, Microseconds{1});
ASSERT_FALSE(Microseconds{-3} < Microseconds{-1200});
}
// Since comparison operators are implemented in terms of Duration::compare, we do not need to
// re-test all of the operators when the duration types are different. It suffices to know that
// compare works, which can be accomplished with EQ, NE and LT alone.
TEST(DurationComparisonDifferentTypes, CompareEqual) {
ASSERT_EQ(Seconds::zero(), Milliseconds::zero());
ASSERT_EQ(Seconds{16}, Milliseconds{16000});
ASSERT_EQ(Minutes{60}, Hours{1});
}
TEST(DurationComparisonDifferentTypes, CompareNotEqual) {
ASSERT_NE(Milliseconds::max(), Seconds::max());
ASSERT_NE(Milliseconds::min(), Seconds::min());
ASSERT_NE(Seconds::max(), Milliseconds::max());
ASSERT_NE(Seconds::min(), Milliseconds::min());
ASSERT_NE(Seconds{1}, Milliseconds{1});
}
TEST(DurationComparisonDifferentTypes, CompareLessThan) {
ASSERT_LT(Milliseconds{1}, Seconds{1});
ASSERT_LT(Milliseconds{999}, Seconds{1});
ASSERT_LT(Seconds{1}, Milliseconds{1001});
ASSERT_LT(Milliseconds{-1001}, Seconds{-1});
ASSERT_LT(Seconds{-1}, Milliseconds{-1});
ASSERT_LT(Seconds{-1}, Milliseconds{-999});
}
TEST(DurationComparisonDifferentTypes, CompareAtLimits) {
ASSERT_LT(Milliseconds::max(), Seconds::max());
ASSERT_LT(Seconds::min(), Milliseconds::min());
ASSERT_LT(Milliseconds::min(),
duration_cast<Milliseconds>(duration_cast<Seconds>(Milliseconds::min())));
ASSERT_GT(Milliseconds::max(),
duration_cast<Milliseconds>(duration_cast<Seconds>(Milliseconds::max())));
}
TEST(DurationCast, NonTruncatingDurationCasts) {
ASSERT_EQ(1, duration_cast<Seconds>(Milliseconds{1000}).count());
ASSERT_EQ(1000, duration_cast<Milliseconds>(Seconds{1}).count());
ASSERT_EQ(1000, Milliseconds{Seconds{1}}.count());
ASSERT_EQ(1053, duration_cast<Milliseconds>(Milliseconds{1053}).count());
}
TEST(DurationCast, TruncatingDurationCasts) {
ASSERT_EQ(1, duration_cast<Seconds>(Milliseconds{1600}).count());
ASSERT_EQ(0, duration_cast<Seconds>(Milliseconds{999}).count());
ASSERT_EQ(-1, duration_cast<Seconds>(Milliseconds{-1600}).count());
ASSERT_EQ(0, duration_cast<Seconds>(Milliseconds{-999}).count());
}
TEST(DurationCast, OverflowingCastsThrow) {
ASSERT_THROWS_CODE(
duration_cast<Milliseconds>(Seconds::max()), UserException, ErrorCodes::DurationOverflow);
ASSERT_THROWS_CODE(
duration_cast<Milliseconds>(Seconds::min()), UserException, ErrorCodes::DurationOverflow);
}
TEST(DurationCast, ImplicitConversionToStdxDuration) {
auto standardMillis = Milliseconds{10}.toSystemDuration();
ASSERT_EQUALS(Milliseconds{10}, duration_cast<Milliseconds>(standardMillis));
}
TEST(DurationAssignment, DurationAssignment) {
Milliseconds ms = Milliseconds{15};
Milliseconds ms2 = ms;
Milliseconds ms3 = Milliseconds{30};
ms3 = ms;
ASSERT_EQ(ms, ms3);
ASSERT_EQ(ms2, ms3);
}
TEST(DurationArithmetic, AddNoOverflowSucceeds) {
ASSERT_EQ(Milliseconds{1001}, Milliseconds{1} + Seconds{1});
ASSERT_EQ(Milliseconds{1001}, Seconds{1} + Milliseconds{1});
ASSERT_EQ(Milliseconds{1001}, Milliseconds{1} + Milliseconds{1000});
}
TEST(DurationArithmetic, AddOverflowThrows) {
// Max + 1 should throw
ASSERT_THROWS_CODE(
Milliseconds::max() + Milliseconds{1}, UserException, ErrorCodes::DurationOverflow);
// Min + -1 should throw
ASSERT_THROWS_CODE(
Milliseconds::min() + Milliseconds{-1}, UserException, ErrorCodes::DurationOverflow);
// Conversion of Seconds::min() to Milliseconds should throw
ASSERT_THROWS_CODE(
Seconds::min() + Milliseconds{1}, UserException, ErrorCodes::DurationOverflow);
ASSERT_THROWS_CODE(
Milliseconds{1} + Seconds::min(), UserException, ErrorCodes::DurationOverflow);
}
TEST(DurationArithmetic, SubtractNoOverflowSucceeds) {
ASSERT_EQ(Milliseconds{-999}, Milliseconds{1} - Seconds{1});
ASSERT_EQ(Milliseconds{999}, Seconds{1} - Milliseconds{1});
ASSERT_EQ(Milliseconds{-999}, Milliseconds{1} - Milliseconds{1000});
ASSERT_EQ(Milliseconds::zero() - Milliseconds{1}, -Milliseconds{1});
}
TEST(DurationArithmetic, SubtractOverflowThrows) {
// Min - 1 should throw
ASSERT_THROWS_CODE(
Milliseconds::min() - Milliseconds{1}, UserException, ErrorCodes::DurationOverflow);
// Max + -1 should throw
ASSERT_THROWS_CODE(
Milliseconds::max() - Milliseconds{-1}, UserException, ErrorCodes::DurationOverflow);
// Conversion of Seconds::min() to Milliseconds should throw
ASSERT_THROWS_CODE(
Seconds::min() - Milliseconds{1}, UserException, ErrorCodes::DurationOverflow);
ASSERT_THROWS_CODE(
Milliseconds{1} - Seconds::min(), UserException, ErrorCodes::DurationOverflow);
}
TEST(DurationArithmetic, MultiplyNoOverflowSucceds) {
ASSERT_EQ(Milliseconds{150}, 15 * Milliseconds{10});
ASSERT_EQ(Milliseconds{150}, Milliseconds{15} * 10);
}
TEST(DurationArithmetic, MultilpyOverflowThrows) {
ASSERT_THROWS_CODE(Milliseconds::max() * 2, UserException, ErrorCodes::DurationOverflow);
ASSERT_THROWS_CODE(2 * Milliseconds::max(), UserException, ErrorCodes::DurationOverflow);
ASSERT_THROWS_CODE(Milliseconds::max() * -2, UserException, ErrorCodes::DurationOverflow);
ASSERT_THROWS_CODE(-2 * Milliseconds::max(), UserException, ErrorCodes::DurationOverflow);
}
TEST(DurationArithmetic, DivideNoOverflowSucceeds) {
ASSERT_EQ(Milliseconds{-1}, Milliseconds{2} / -2);
}
TEST(DurationArithmetic, DivideOverflowThrows) {
ASSERT_THROWS_CODE(Milliseconds::min() / -1, UserException, ErrorCodes::DurationOverflow);
}
} // namespace
} // namespace mongo
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