webrtc/base/bandwidthsmoother_unittest.cc - src - Git at Google

 /*
  *  Copyright 2011 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 <limits.h>

 #include "webrtc/base/bandwidthsmoother.h"
 #include "webrtc/base/gunit.h"

 namespace rtc {

 static const int kTimeBetweenIncrease = 10;
 static const double kPercentIncrease = 1.1;
 static const size_t kSamplesCountToAverage = 2;
 static const double kMinSampleCountPercent = 1.0;

 TEST(BandwidthSmootherTest, TestSampleIncrease) {
   BandwidthSmoother mon(1000,  // initial_bandwidth_guess
                         kTimeBetweenIncrease,
                         kPercentIncrease,
                         kSamplesCountToAverage,
                         kMinSampleCountPercent);

   int bandwidth_sample = 1000;
   EXPECT_EQ(bandwidth_sample, mon.get_bandwidth_estimation());
   bandwidth_sample =
       static_cast<int>(bandwidth_sample * kPercentIncrease);
   EXPECT_FALSE(mon.Sample(9, bandwidth_sample));
   EXPECT_TRUE(mon.Sample(10, bandwidth_sample));
   EXPECT_EQ(bandwidth_sample, mon.get_bandwidth_estimation());
   int next_expected_est =
       static_cast<int>(bandwidth_sample * kPercentIncrease);
   bandwidth_sample *= 2;
   EXPECT_TRUE(mon.Sample(20, bandwidth_sample));
   EXPECT_EQ(next_expected_est, mon.get_bandwidth_estimation());
 }

 TEST(BandwidthSmootherTest, TestSampleIncreaseFromZero) {
   BandwidthSmoother mon(0,  // initial_bandwidth_guess
                         kTimeBetweenIncrease,
                         kPercentIncrease,
                         kSamplesCountToAverage,
                         kMinSampleCountPercent);

   const int kBandwidthSample = 1000;
   EXPECT_EQ(0, mon.get_bandwidth_estimation());
   EXPECT_FALSE(mon.Sample(9, kBandwidthSample));
   EXPECT_TRUE(mon.Sample(10, kBandwidthSample));
   EXPECT_EQ(kBandwidthSample, mon.get_bandwidth_estimation());
 }

 TEST(BandwidthSmootherTest, TestSampleDecrease) {
   BandwidthSmoother mon(1000,  // initial_bandwidth_guess
                         kTimeBetweenIncrease,
                         kPercentIncrease,
                         kSamplesCountToAverage,
                         kMinSampleCountPercent);

   const int kBandwidthSample = 999;
   EXPECT_EQ(1000, mon.get_bandwidth_estimation());
   EXPECT_FALSE(mon.Sample(1, kBandwidthSample));
   EXPECT_EQ(1000, mon.get_bandwidth_estimation());
   EXPECT_TRUE(mon.Sample(2, kBandwidthSample));
   EXPECT_EQ(kBandwidthSample, mon.get_bandwidth_estimation());
 }

 TEST(BandwidthSmootherTest, TestSampleTooFewSamples) {
   BandwidthSmoother mon(1000,  // initial_bandwidth_guess
                         kTimeBetweenIncrease,
                         kPercentIncrease,
                         10,  // 10 samples.
                         0.5);  // 5 min samples.

   const int kBandwidthSample = 500;
   EXPECT_EQ(1000, mon.get_bandwidth_estimation());
   EXPECT_FALSE(mon.Sample(1, kBandwidthSample));
   EXPECT_FALSE(mon.Sample(2, kBandwidthSample));
   EXPECT_FALSE(mon.Sample(3, kBandwidthSample));
   EXPECT_FALSE(mon.Sample(4, kBandwidthSample));
   EXPECT_EQ(1000, mon.get_bandwidth_estimation());
   EXPECT_TRUE(mon.Sample(5, kBandwidthSample));
   EXPECT_EQ(kBandwidthSample, mon.get_bandwidth_estimation());
 }

 TEST(BandwidthSmootherTest, TestSampleRollover) {
   const int kHugeBandwidth = 2000000000;  // > INT_MAX/1.1
   BandwidthSmoother mon(kHugeBandwidth,
                         kTimeBetweenIncrease,
                         kPercentIncrease,
                         kSamplesCountToAverage,
                         kMinSampleCountPercent);

   EXPECT_FALSE(mon.Sample(10, INT_MAX));
   EXPECT_FALSE(mon.Sample(11, INT_MAX));
   EXPECT_EQ(kHugeBandwidth, mon.get_bandwidth_estimation());
 }

 TEST(BandwidthSmootherTest, TestSampleNegative) {
   BandwidthSmoother mon(1000,  // initial_bandwidth_guess
                         kTimeBetweenIncrease,
                         kPercentIncrease,
                         kSamplesCountToAverage,
                         kMinSampleCountPercent);

   EXPECT_FALSE(mon.Sample(10, -1));
   EXPECT_FALSE(mon.Sample(11, -1));
   EXPECT_EQ(1000, mon.get_bandwidth_estimation());
 }

 }  // namespace rtc
	/*
	* Copyright 2011 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 <limits.h>

	#include "webrtc/base/bandwidthsmoother.h"
	#include "webrtc/base/gunit.h"

	namespace rtc {

	static const int kTimeBetweenIncrease = 10;
	static const double kPercentIncrease = 1.1;
	static const size_t kSamplesCountToAverage = 2;
	static const double kMinSampleCountPercent = 1.0;

	TEST(BandwidthSmootherTest, TestSampleIncrease) {
	BandwidthSmoother mon(1000, // initial_bandwidth_guess
	kTimeBetweenIncrease,
	kPercentIncrease,
	kSamplesCountToAverage,
	kMinSampleCountPercent);

	int bandwidth_sample = 1000;
	EXPECT_EQ(bandwidth_sample, mon.get_bandwidth_estimation());
	bandwidth_sample =
	static_cast<int>(bandwidth_sample * kPercentIncrease);
	EXPECT_FALSE(mon.Sample(9, bandwidth_sample));
	EXPECT_TRUE(mon.Sample(10, bandwidth_sample));
	EXPECT_EQ(bandwidth_sample, mon.get_bandwidth_estimation());
	int next_expected_est =
	static_cast<int>(bandwidth_sample * kPercentIncrease);
	bandwidth_sample *= 2;
	EXPECT_TRUE(mon.Sample(20, bandwidth_sample));
	EXPECT_EQ(next_expected_est, mon.get_bandwidth_estimation());
	}

	TEST(BandwidthSmootherTest, TestSampleIncreaseFromZero) {
	BandwidthSmoother mon(0, // initial_bandwidth_guess
	kTimeBetweenIncrease,
	kPercentIncrease,
	kSamplesCountToAverage,
	kMinSampleCountPercent);

	const int kBandwidthSample = 1000;
	EXPECT_EQ(0, mon.get_bandwidth_estimation());
	EXPECT_FALSE(mon.Sample(9, kBandwidthSample));
	EXPECT_TRUE(mon.Sample(10, kBandwidthSample));
	EXPECT_EQ(kBandwidthSample, mon.get_bandwidth_estimation());
	}

	TEST(BandwidthSmootherTest, TestSampleDecrease) {
	BandwidthSmoother mon(1000, // initial_bandwidth_guess
	kTimeBetweenIncrease,
	kPercentIncrease,
	kSamplesCountToAverage,
	kMinSampleCountPercent);

	const int kBandwidthSample = 999;
	EXPECT_EQ(1000, mon.get_bandwidth_estimation());
	EXPECT_FALSE(mon.Sample(1, kBandwidthSample));
	EXPECT_EQ(1000, mon.get_bandwidth_estimation());
	EXPECT_TRUE(mon.Sample(2, kBandwidthSample));
	EXPECT_EQ(kBandwidthSample, mon.get_bandwidth_estimation());
	}

	TEST(BandwidthSmootherTest, TestSampleTooFewSamples) {
	BandwidthSmoother mon(1000, // initial_bandwidth_guess
	kTimeBetweenIncrease,
	kPercentIncrease,
	10, // 10 samples.
	0.5); // 5 min samples.

	const int kBandwidthSample = 500;
	EXPECT_EQ(1000, mon.get_bandwidth_estimation());
	EXPECT_FALSE(mon.Sample(1, kBandwidthSample));
	EXPECT_FALSE(mon.Sample(2, kBandwidthSample));
	EXPECT_FALSE(mon.Sample(3, kBandwidthSample));
	EXPECT_FALSE(mon.Sample(4, kBandwidthSample));
	EXPECT_EQ(1000, mon.get_bandwidth_estimation());
	EXPECT_TRUE(mon.Sample(5, kBandwidthSample));
	EXPECT_EQ(kBandwidthSample, mon.get_bandwidth_estimation());
	}

	TEST(BandwidthSmootherTest, TestSampleRollover) {
	const int kHugeBandwidth = 2000000000; // > INT_MAX/1.1
	BandwidthSmoother mon(kHugeBandwidth,
	kTimeBetweenIncrease,
	kPercentIncrease,
	kSamplesCountToAverage,
	kMinSampleCountPercent);

	EXPECT_FALSE(mon.Sample(10, INT_MAX));
	EXPECT_FALSE(mon.Sample(11, INT_MAX));
	EXPECT_EQ(kHugeBandwidth, mon.get_bandwidth_estimation());
	}

	TEST(BandwidthSmootherTest, TestSampleNegative) {
	BandwidthSmoother mon(1000, // initial_bandwidth_guess
	kTimeBetweenIncrease,
	kPercentIncrease,
	kSamplesCountToAverage,
	kMinSampleCountPercent);

	EXPECT_FALSE(mon.Sample(10, -1));
	EXPECT_FALSE(mon.Sample(11, -1));
	EXPECT_EQ(1000, mon.get_bandwidth_estimation());
	}

	} // namespace rtc