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webrtc_m130/api/units/time_delta_unittest.cc
Sebastian Jansson 88c1a9ecbc Adds infinite addition and subtraction to time units. 
This prepares for allowing use making arithmetic operators constexpr.

This also makes it easier to use for comparisons with offsets.
Now a > b + 10 ms works even if b is infinite.

Bug: webrtc:9574
Change-Id: Ie36092b72c2ec0f0c541641199a39155f5a796f3
Reviewed-on: https://webrtc-review.googlesource.com/96820
Reviewed-by: Karl Wiberg <kwiberg@webrtc.org>
Commit-Queue: Sebastian Jansson <srte@webrtc.org>
Cr-Commit-Position: refs/heads/master@{#24530}
2018-09-03 09:12:10 +00:00

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/*
* Copyright (c) 2018 The WebRTC project authors. All Rights Reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#include "api/units/time_delta.h"
#include "test/gtest.h"
namespace webrtc {
namespace test {
TEST(TimeDeltaTest, ConstExpr) {
constexpr int64_t kValue = -12345;
constexpr TimeDelta kTimeDeltaZero = TimeDelta::Zero();
constexpr TimeDelta kTimeDeltaPlusInf = TimeDelta::PlusInfinity();
constexpr TimeDelta kTimeDeltaMinusInf = TimeDelta::MinusInfinity();
static_assert(kTimeDeltaZero.IsZero(), "");
static_assert(kTimeDeltaPlusInf.IsPlusInfinity(), "");
static_assert(kTimeDeltaMinusInf.IsMinusInfinity(), "");
static_assert(kTimeDeltaPlusInf.ms_or(-1) == -1, "");
static_assert(kTimeDeltaPlusInf > kTimeDeltaZero, "");
constexpr TimeDelta kTimeDeltaSeconds = TimeDelta::Seconds<kValue>();
constexpr TimeDelta kTimeDeltaMs = TimeDelta::Millis<kValue>();
constexpr TimeDelta kTimeDeltaUs = TimeDelta::Micros<kValue>();
static_assert(kTimeDeltaSeconds.seconds_or(0) == kValue, "");
static_assert(kTimeDeltaMs.ms_or(0) == kValue, "");
static_assert(kTimeDeltaUs.us_or(0) == kValue, "");
}
TEST(TimeDeltaTest, GetBackSameValues) {
const int64_t kValue = 499;
for (int sign = -1; sign <= 1; ++sign) {
int64_t value = kValue * sign;
EXPECT_EQ(TimeDelta::ms(value).ms(), value);
EXPECT_EQ(TimeDelta::us(value).us(), value);
EXPECT_EQ(TimeDelta::seconds(value).seconds(), value);
EXPECT_EQ(TimeDelta::seconds(value).seconds(), value);
}
EXPECT_EQ(TimeDelta::Zero().us(), 0);
}
TEST(TimeDeltaTest, GetDifferentPrefix) {
const int64_t kValue = 3000000;
EXPECT_EQ(TimeDelta::us(kValue).seconds(), kValue / 1000000);
EXPECT_EQ(TimeDelta::ms(kValue).seconds(), kValue / 1000);
EXPECT_EQ(TimeDelta::us(kValue).ms(), kValue / 1000);
EXPECT_EQ(TimeDelta::ms(kValue).us(), kValue * 1000);
EXPECT_EQ(TimeDelta::seconds(kValue).ms(), kValue * 1000);
EXPECT_EQ(TimeDelta::seconds(kValue).us(), kValue * 1000000);
}
TEST(TimeDeltaTest, IdentityChecks) {
const int64_t kValue = 3000;
EXPECT_TRUE(TimeDelta::Zero().IsZero());
EXPECT_FALSE(TimeDelta::ms(kValue).IsZero());
EXPECT_TRUE(TimeDelta::PlusInfinity().IsInfinite());
EXPECT_TRUE(TimeDelta::MinusInfinity().IsInfinite());
EXPECT_FALSE(TimeDelta::Zero().IsInfinite());
EXPECT_FALSE(TimeDelta::ms(-kValue).IsInfinite());
EXPECT_FALSE(TimeDelta::ms(kValue).IsInfinite());
EXPECT_FALSE(TimeDelta::PlusInfinity().IsFinite());
EXPECT_FALSE(TimeDelta::MinusInfinity().IsFinite());
EXPECT_TRUE(TimeDelta::ms(-kValue).IsFinite());
EXPECT_TRUE(TimeDelta::ms(kValue).IsFinite());
EXPECT_TRUE(TimeDelta::Zero().IsFinite());
}
TEST(TimeDeltaTest, ComparisonOperators) {
const int64_t kSmall = 450;
const int64_t kLarge = 451;
const TimeDelta small = TimeDelta::ms(kSmall);
const TimeDelta large = TimeDelta::ms(kLarge);
EXPECT_EQ(TimeDelta::Zero(), TimeDelta::ms(0));
EXPECT_EQ(TimeDelta::PlusInfinity(), TimeDelta::PlusInfinity());
EXPECT_EQ(small, TimeDelta::ms(kSmall));
EXPECT_LE(small, TimeDelta::ms(kSmall));
EXPECT_GE(small, TimeDelta::ms(kSmall));
EXPECT_NE(small, TimeDelta::ms(kLarge));
EXPECT_LE(small, TimeDelta::ms(kLarge));
EXPECT_LT(small, TimeDelta::ms(kLarge));
EXPECT_GE(large, TimeDelta::ms(kSmall));
EXPECT_GT(large, TimeDelta::ms(kSmall));
EXPECT_LT(TimeDelta::Zero(), small);
EXPECT_GT(TimeDelta::Zero(), TimeDelta::ms(-kSmall));
EXPECT_GT(TimeDelta::Zero(), TimeDelta::ms(-kSmall));
EXPECT_GT(TimeDelta::PlusInfinity(), large);
EXPECT_LT(TimeDelta::MinusInfinity(), TimeDelta::Zero());
}
TEST(TimeDeltaTest, CanBeInititializedFromLargeInt) {
const int kMaxInt = std::numeric_limits<int>::max();
EXPECT_EQ(TimeDelta::seconds(kMaxInt).us(),
static_cast<int64_t>(kMaxInt) * 1000000);
EXPECT_EQ(TimeDelta::ms(kMaxInt).us(), static_cast<int64_t>(kMaxInt) * 1000);
}
TEST(TimeDeltaTest, ConvertsToAndFromDouble) {
const int64_t kMicros = 17017;
const double kNanosDouble = kMicros * 1e3;
const double kMicrosDouble = kMicros;
const double kMillisDouble = kMicros * 1e-3;
const double kSecondsDouble = kMillisDouble * 1e-3;
EXPECT_EQ(TimeDelta::us(kMicros).seconds<double>(), kSecondsDouble);
EXPECT_EQ(TimeDelta::seconds(kSecondsDouble).us(), kMicros);
EXPECT_EQ(TimeDelta::us(kMicros).ms<double>(), kMillisDouble);
EXPECT_EQ(TimeDelta::ms(kMillisDouble).us(), kMicros);
EXPECT_EQ(TimeDelta::us(kMicros).us<double>(), kMicrosDouble);
EXPECT_EQ(TimeDelta::us(kMicrosDouble).us(), kMicros);
EXPECT_NEAR(TimeDelta::us(kMicros).ns<double>(), kNanosDouble, 1);
const double kPlusInfinity = std::numeric_limits<double>::infinity();
const double kMinusInfinity = -kPlusInfinity;
EXPECT_EQ(TimeDelta::PlusInfinity().seconds<double>(), kPlusInfinity);
EXPECT_EQ(TimeDelta::MinusInfinity().seconds<double>(), kMinusInfinity);
EXPECT_EQ(TimeDelta::PlusInfinity().ms<double>(), kPlusInfinity);
EXPECT_EQ(TimeDelta::MinusInfinity().ms<double>(), kMinusInfinity);
EXPECT_EQ(TimeDelta::PlusInfinity().us<double>(), kPlusInfinity);
EXPECT_EQ(TimeDelta::MinusInfinity().us<double>(), kMinusInfinity);
EXPECT_EQ(TimeDelta::PlusInfinity().ns<double>(), kPlusInfinity);
EXPECT_EQ(TimeDelta::MinusInfinity().ns<double>(), kMinusInfinity);
EXPECT_TRUE(TimeDelta::seconds(kPlusInfinity).IsPlusInfinity());
EXPECT_TRUE(TimeDelta::seconds(kMinusInfinity).IsMinusInfinity());
EXPECT_TRUE(TimeDelta::ms(kPlusInfinity).IsPlusInfinity());
EXPECT_TRUE(TimeDelta::ms(kMinusInfinity).IsMinusInfinity());
EXPECT_TRUE(TimeDelta::us(kPlusInfinity).IsPlusInfinity());
EXPECT_TRUE(TimeDelta::us(kMinusInfinity).IsMinusInfinity());
}
TEST(TimeDeltaTest, MathOperations) {
const int64_t kValueA = 267;
const int64_t kValueB = 450;
const TimeDelta delta_a = TimeDelta::ms(kValueA);
const TimeDelta delta_b = TimeDelta::ms(kValueB);
EXPECT_EQ((delta_a + delta_b).ms(), kValueA + kValueB);
EXPECT_EQ((delta_a - delta_b).ms(), kValueA - kValueB);
const int32_t kInt32Value = 123;
const double kFloatValue = 123.0;
EXPECT_EQ((TimeDelta::us(kValueA) * kValueB).us(), kValueA * kValueB);
EXPECT_EQ((TimeDelta::us(kValueA) * kInt32Value).us(), kValueA * kInt32Value);
EXPECT_EQ((TimeDelta::us(kValueA) * kFloatValue).us(), kValueA * kFloatValue);
EXPECT_EQ((delta_b / 10).ms(), kValueB / 10);
EXPECT_EQ(delta_b / delta_a, static_cast<double>(kValueB) / kValueA);
EXPECT_EQ(TimeDelta::us(-kValueA).Abs().us(), kValueA);
EXPECT_EQ(TimeDelta::us(kValueA).Abs().us(), kValueA);
TimeDelta mutable_delta = TimeDelta::ms(kValueA);
mutable_delta += TimeDelta::ms(kValueB);
EXPECT_EQ(mutable_delta, TimeDelta::ms(kValueA + kValueB));
mutable_delta -= TimeDelta::ms(kValueB);
EXPECT_EQ(mutable_delta, TimeDelta::ms(kValueA));
}
TEST(TimeDeltaTest, InfinityOperations) {
const int64_t kValue = 267;
const TimeDelta finite = TimeDelta::ms(kValue);
EXPECT_TRUE((TimeDelta::PlusInfinity() + finite).IsPlusInfinity());
EXPECT_TRUE((TimeDelta::PlusInfinity() - finite).IsPlusInfinity());
EXPECT_TRUE((finite + TimeDelta::PlusInfinity()).IsPlusInfinity());
EXPECT_TRUE((finite - TimeDelta::MinusInfinity()).IsPlusInfinity());
EXPECT_TRUE((TimeDelta::MinusInfinity() + finite).IsMinusInfinity());
EXPECT_TRUE((TimeDelta::MinusInfinity() - finite).IsMinusInfinity());
EXPECT_TRUE((finite + TimeDelta::MinusInfinity()).IsMinusInfinity());
EXPECT_TRUE((finite - TimeDelta::PlusInfinity()).IsMinusInfinity());
}
} // namespace test
} // namespace webrtc
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