// Copyright 2020 The Chromium Authors // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "base/power_monitor/moving_average.h" #include "testing/gtest/include/gtest/gtest.h" namespace base { namespace test { // Ported from third_party/webrtc/rtc_base/numerics/moving_average_unittest.cc. TEST(MovingAverageTest, EmptyAverage) { MovingAverage moving_average(1); EXPECT_EQ(0u, moving_average.Size()); EXPECT_EQ(0, moving_average.GetAverageRoundedDown()); } TEST(MovingAverageTest, OneElement) { MovingAverage moving_average(1); moving_average.AddSample(3); EXPECT_EQ(1u, moving_average.Size()); EXPECT_EQ(3, moving_average.GetAverageRoundedDown()); } // Verify that Size() increases monotonically when samples are added up to the // window size. At that point the filter is full and shall return the window // size as Size() until Reset() is called. TEST(MovingAverageTest, Size) { constexpr uint8_t kWindowSize = 3; MovingAverage moving_average(kWindowSize); EXPECT_EQ(0u, moving_average.Size()); moving_average.AddSample(1); EXPECT_EQ(1u, moving_average.Size()); moving_average.AddSample(2); EXPECT_EQ(2u, moving_average.Size()); moving_average.AddSample(3); // Three samples have beend added and the filter is full (all elements in the // buffer have been given a valid value). EXPECT_EQ(kWindowSize, moving_average.Size()); // Adding a fourth sample will shift out the first sample (1) and the filter // should now contain [4,2,3] => average is 9 / 3 = 3. moving_average.AddSample(4); EXPECT_EQ(kWindowSize, moving_average.Size()); EXPECT_EQ(3, moving_average.GetAverageRoundedToClosest()); moving_average.Reset(); EXPECT_EQ(0u, moving_average.Size()); EXPECT_EQ(0, moving_average.GetAverageRoundedToClosest()); } TEST(MovingAverageTest, GetAverage) { MovingAverage moving_average(255); moving_average.AddSample(1); moving_average.AddSample(1); moving_average.AddSample(3); moving_average.AddSample(3); EXPECT_EQ(moving_average.GetAverageRoundedDown(), 2); EXPECT_EQ(moving_average.GetAverageRoundedToClosest(), 2); } TEST(MovingAverageTest, GetAverageRoundedDownRounds) { MovingAverage moving_average(255); moving_average.AddSample(1); moving_average.AddSample(2); moving_average.AddSample(2); moving_average.AddSample(2); EXPECT_EQ(moving_average.GetAverageRoundedDown(), 1); } TEST(MovingAverageTest, GetAverageRoundedToClosestRounds) { MovingAverage moving_average(255); moving_average.AddSample(1); moving_average.AddSample(2); moving_average.AddSample(2); moving_average.AddSample(2); EXPECT_EQ(moving_average.GetAverageRoundedToClosest(), 2); } TEST(MovingAverageTest, Reset) { MovingAverage moving_average(5); moving_average.AddSample(1); EXPECT_EQ(1, moving_average.GetAverageRoundedDown()); EXPECT_EQ(1, moving_average.GetAverageRoundedToClosest()); moving_average.Reset(); EXPECT_EQ(0, moving_average.GetAverageRoundedDown()); moving_average.AddSample(10); EXPECT_EQ(10, moving_average.GetAverageRoundedDown()); EXPECT_EQ(10, moving_average.GetAverageRoundedToClosest()); } TEST(MovingAverageTest, ManySamples) { MovingAverage moving_average(10); for (int i = 1; i < 11; i++) { moving_average.AddSample(i); } EXPECT_EQ(moving_average.GetAverageRoundedDown(), 5); EXPECT_EQ(moving_average.GetAverageRoundedToClosest(), 6); for (int i = 1; i < 2001; i++) { moving_average.AddSample(i); } EXPECT_EQ(moving_average.GetAverageRoundedDown(), 1995); EXPECT_EQ(moving_average.GetAverageRoundedToClosest(), 1996); } TEST(MovingAverageTest, VerifyNoOverflow) { constexpr int kMaxInt = std::numeric_limits::max(); MovingAverage moving_average(255); for (int i = 0; i < 255; i++) { moving_average.AddSample(kMaxInt); } EXPECT_EQ(moving_average.GetAverageRoundedDown(), kMaxInt); EXPECT_EQ(moving_average.GetAverageRoundedToClosest(), kMaxInt); EXPECT_EQ(moving_average.GetUnroundedAverage(), kMaxInt); } } // namespace test } // namespace base