stats/rtc_stats_unittest.cc - src.git - Git at Google

 /*
  *  Copyright 2016 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/stats/rtc_stats.h"

 #include <cmath>
 #include <cstdint>
 #include <cstring>
 #include <iostream>

 #include "rtc_base/checks.h"
 #include "rtc_base/strings/json.h"
 #include "stats/test/rtc_test_stats.h"
 #include "test/gtest.h"

 namespace webrtc {

 namespace {

 // JSON stores numbers as floating point numbers with 53 significant bits, which
 // amounts to about 15.95 decimal digits. Thus, when comparing large numbers
 // processed by JSON, that's all the precision we should expect.
 const double JSON_EPSILON = 1e-15;

 // We do this since Google Test doesn't support relative error.
 // This is computed as follows:
 // If |a - b| / |a| < EPS, then |a - b| < |a| * EPS, so |a| * EPS is the
 // maximum expected error.
 double GetExpectedError(const double expected_value) {
   return JSON_EPSILON * fabs(expected_value);
 }

 }  // namespace

 class RTCChildStats : public RTCStats {
  public:
   WEBRTC_RTCSTATS_DECL();

   RTCChildStats(const std::string& id, int64_t timestamp_us)
       : RTCStats(id, timestamp_us), child_int("childInt") {}

   RTCStatsMember<int32_t> child_int;
 };

 WEBRTC_RTCSTATS_IMPL(RTCChildStats, RTCStats, "child-stats", &child_int)

 class RTCGrandChildStats : public RTCChildStats {
  public:
   WEBRTC_RTCSTATS_DECL();

   RTCGrandChildStats(const std::string& id, int64_t timestamp_us)
       : RTCChildStats(id, timestamp_us), grandchild_int("grandchildInt") {}

   RTCStatsMember<int32_t> grandchild_int;
 };

 WEBRTC_RTCSTATS_IMPL(RTCGrandChildStats,
                      RTCChildStats,
                      "grandchild-stats",
                      &grandchild_int)

 TEST(RTCStatsTest, RTCStatsAndMembers) {
   RTCTestStats stats("testId", 42);
   EXPECT_EQ(stats.id(), "testId");
   EXPECT_EQ(stats.timestamp_us(), static_cast<int64_t>(42));
   std::vector<const RTCStatsMemberInterface*> members = stats.Members();
   EXPECT_EQ(members.size(), static_cast<size_t>(14));
   for (const RTCStatsMemberInterface* member : members) {
     EXPECT_FALSE(member->is_defined());
   }
   stats.m_bool = true;
   stats.m_int32 = 123;
   stats.m_uint32 = 123;
   stats.m_int64 = 123;
   stats.m_uint64 = 123;
   stats.m_double = 123.0;
   stats.m_string = std::string("123");

   std::vector<bool> sequence_bool;
   sequence_bool.push_back(true);
   std::vector<int32_t> sequence_int32;
   sequence_int32.push_back(static_cast<int32_t>(1));
   std::vector<uint32_t> sequence_uint32;
   sequence_uint32.push_back(static_cast<uint32_t>(2));
   std::vector<int64_t> sequence_int64;
   sequence_int64.push_back(static_cast<int64_t>(3));
   std::vector<uint64_t> sequence_uint64;
   sequence_uint64.push_back(static_cast<uint64_t>(4));
   std::vector<double> sequence_double;
   sequence_double.push_back(5.0);
   std::vector<std::string> sequence_string;
   sequence_string.push_back(std::string("six"));

   stats.m_sequence_bool = sequence_bool;
   stats.m_sequence_int32 = sequence_int32;
   stats.m_sequence_uint32 = sequence_uint32;
   EXPECT_FALSE(stats.m_sequence_int64.is_defined());
   stats.m_sequence_int64 = sequence_int64;
   stats.m_sequence_uint64 = sequence_uint64;
   stats.m_sequence_double = sequence_double;
   stats.m_sequence_string = sequence_string;
   for (const RTCStatsMemberInterface* member : members) {
     EXPECT_TRUE(member->is_defined());
   }
   EXPECT_EQ(*stats.m_bool, true);
   EXPECT_EQ(*stats.m_int32, static_cast<int32_t>(123));
   EXPECT_EQ(*stats.m_uint32, static_cast<uint32_t>(123));
   EXPECT_EQ(*stats.m_int64, static_cast<int64_t>(123));
   EXPECT_EQ(*stats.m_uint64, static_cast<uint64_t>(123));
   EXPECT_EQ(*stats.m_double, 123.0);
   EXPECT_EQ(*stats.m_string, std::string("123"));
   EXPECT_EQ(*stats.m_sequence_bool, sequence_bool);
   EXPECT_EQ(*stats.m_sequence_int32, sequence_int32);
   EXPECT_EQ(*stats.m_sequence_uint32, sequence_uint32);
   EXPECT_EQ(*stats.m_sequence_int64, sequence_int64);
   EXPECT_EQ(*stats.m_sequence_uint64, sequence_uint64);
   EXPECT_EQ(*stats.m_sequence_double, sequence_double);
   EXPECT_EQ(*stats.m_sequence_string, sequence_string);

   int32_t numbers[] = {4, 8, 15, 16, 23, 42};
   std::vector<int32_t> numbers_sequence(&numbers[0], &numbers[6]);
   stats.m_sequence_int32->clear();
   stats.m_sequence_int32->insert(stats.m_sequence_int32->end(),
                                  numbers_sequence.begin(),
                                  numbers_sequence.end());
   EXPECT_EQ(*stats.m_sequence_int32, numbers_sequence);
 }

 TEST(RTCStatsTest, EqualityOperator) {
   RTCTestStats empty_stats("testId", 123);
   EXPECT_EQ(empty_stats, empty_stats);

   RTCTestStats stats_with_all_values = empty_stats;
   stats_with_all_values.m_bool = true;
   stats_with_all_values.m_int32 = 123;
   stats_with_all_values.m_uint32 = 123;
   stats_with_all_values.m_int64 = 123;
   stats_with_all_values.m_uint64 = 123;
   stats_with_all_values.m_double = 123.0;
   stats_with_all_values.m_string = "123";
   stats_with_all_values.m_sequence_bool = std::vector<bool>();
   stats_with_all_values.m_sequence_int32 = std::vector<int32_t>();
   stats_with_all_values.m_sequence_uint32 = std::vector<uint32_t>();
   stats_with_all_values.m_sequence_int64 = std::vector<int64_t>();
   stats_with_all_values.m_sequence_uint64 = std::vector<uint64_t>();
   stats_with_all_values.m_sequence_double = std::vector<double>();
   stats_with_all_values.m_sequence_string = std::vector<std::string>();
   EXPECT_NE(stats_with_all_values, empty_stats);
   EXPECT_EQ(stats_with_all_values, stats_with_all_values);
   EXPECT_NE(stats_with_all_values.m_int32, stats_with_all_values.m_uint32);

   RTCTestStats one_member_different[] = {
       stats_with_all_values, stats_with_all_values, stats_with_all_values,
       stats_with_all_values, stats_with_all_values, stats_with_all_values,
       stats_with_all_values, stats_with_all_values, stats_with_all_values,
       stats_with_all_values, stats_with_all_values, stats_with_all_values,
       stats_with_all_values, stats_with_all_values,
   };
   for (size_t i = 0; i < 14; ++i) {
     EXPECT_EQ(stats_with_all_values, one_member_different[i]);
   }
   one_member_different[0].m_bool = false;
   one_member_different[1].m_int32 = 321;
   one_member_different[2].m_uint32 = 321;
   one_member_different[3].m_int64 = 321;
   one_member_different[4].m_uint64 = 321;
   one_member_different[5].m_double = 321.0;
   one_member_different[6].m_string = "321";
   one_member_different[7].m_sequence_bool->push_back(false);
   one_member_different[8].m_sequence_int32->push_back(321);
   one_member_different[9].m_sequence_uint32->push_back(321);
   one_member_different[10].m_sequence_int64->push_back(321);
   one_member_different[11].m_sequence_uint64->push_back(321);
   one_member_different[12].m_sequence_double->push_back(321.0);
   one_member_different[13].m_sequence_string->push_back("321");
   for (size_t i = 0; i < 14; ++i) {
     EXPECT_NE(stats_with_all_values, one_member_different[i]);
   }

   RTCTestStats empty_stats_different_id("testId2", 123);
   EXPECT_NE(empty_stats, empty_stats_different_id);
   RTCTestStats empty_stats_different_timestamp("testId", 321);
   EXPECT_EQ(empty_stats, empty_stats_different_timestamp);

   RTCChildStats child("childId", 42);
   RTCGrandChildStats grandchild("grandchildId", 42);
   EXPECT_NE(child, grandchild);

   RTCChildStats stats_with_defined_member("leId", 0);
   stats_with_defined_member.child_int = 0;
   RTCChildStats stats_with_undefined_member("leId", 0);
   EXPECT_NE(stats_with_defined_member, stats_with_undefined_member);
   EXPECT_NE(stats_with_undefined_member, stats_with_defined_member);
 }

 TEST(RTCStatsTest, RTCStatsGrandChild) {
   RTCGrandChildStats stats("grandchild", 0.0);
   stats.child_int = 1;
   stats.grandchild_int = 2;
   int32_t sum = 0;
   for (const RTCStatsMemberInterface* member : stats.Members()) {
     sum += *member->cast_to<const RTCStatsMember<int32_t>>();
   }
   EXPECT_EQ(sum, static_cast<int32_t>(3));

   std::unique_ptr<RTCStats> copy_ptr = stats.copy();
   const RTCGrandChildStats& copy = copy_ptr->cast_to<RTCGrandChildStats>();
   EXPECT_EQ(*copy.child_int, *stats.child_int);
   EXPECT_EQ(*copy.grandchild_int, *stats.grandchild_int);
 }

 TEST(RTCStatsTest, RTCStatsPrintsValidJson) {
   std::string id = "statsId";
   int timestamp = 42;
   bool m_bool = true;
   int m_int32 = 123;
   int64_t m_int64 = 1234567890123456499L;
   double m_double = 123.4567890123456499;
   std::string m_string = "123";

   std::vector<bool> sequence_bool;
   std::vector<int32_t> sequence_int32;
   sequence_int32.push_back(static_cast<int32_t>(1));
   std::vector<int64_t> sequence_int64;
   sequence_int64.push_back(static_cast<int64_t>(-1234567890123456499L));
   sequence_int64.push_back(static_cast<int64_t>(1));
   sequence_int64.push_back(static_cast<int64_t>(1234567890123456499L));
   std::vector<double> sequence_double;
   sequence_double.push_back(123.4567890123456499);
   sequence_double.push_back(1234567890123.456499);
   std::vector<std::string> sequence_string;
   sequence_string.push_back(std::string("four"));

   RTCTestStats stats(id, timestamp);
   stats.m_bool = m_bool;
   stats.m_int32 = m_int32;
   stats.m_int64 = m_int64;
   stats.m_double = m_double;
   stats.m_string = m_string;
   stats.m_sequence_bool = sequence_bool;
   stats.m_sequence_int32 = sequence_int32;
   stats.m_sequence_int64 = sequence_int64;
   stats.m_sequence_double = sequence_double;
   stats.m_sequence_string = sequence_string;

   Json::Value json_output;
   EXPECT_TRUE(Json::Reader().parse(stats.ToJson(), json_output));

   EXPECT_TRUE(rtc::GetStringFromJsonObject(json_output, "id", &id));
   EXPECT_TRUE(rtc::GetIntFromJsonObject(json_output, "timestamp", &timestamp));
   EXPECT_TRUE(rtc::GetBoolFromJsonObject(json_output, "mBool", &m_bool));
   EXPECT_TRUE(rtc::GetIntFromJsonObject(json_output, "mInt32", &m_int32));
   EXPECT_TRUE(rtc::GetDoubleFromJsonObject(json_output, "mDouble", &m_double));
   EXPECT_TRUE(rtc::GetStringFromJsonObject(json_output, "mString", &m_string));

   Json::Value json_array;

   EXPECT_TRUE(
       rtc::GetValueFromJsonObject(json_output, "mSequenceBool", &json_array));
   EXPECT_TRUE(rtc::JsonArrayToBoolVector(json_array, &sequence_bool));

   EXPECT_TRUE(
       rtc::GetValueFromJsonObject(json_output, "mSequenceInt32", &json_array));
   EXPECT_TRUE(rtc::JsonArrayToIntVector(json_array, &sequence_int32));

   EXPECT_TRUE(
       rtc::GetValueFromJsonObject(json_output, "mSequenceDouble", &json_array));
   EXPECT_TRUE(rtc::JsonArrayToDoubleVector(json_array, &sequence_double));

   EXPECT_TRUE(
       rtc::GetValueFromJsonObject(json_output, "mSequenceString", &json_array));
   EXPECT_TRUE(rtc::JsonArrayToStringVector(json_array, &sequence_string));

   EXPECT_EQ(id, stats.id());
   EXPECT_EQ(timestamp, stats.timestamp_us());
   EXPECT_EQ(m_bool, *stats.m_bool);
   EXPECT_EQ(m_int32, *stats.m_int32);
   EXPECT_EQ(m_string, *stats.m_string);
   EXPECT_EQ(sequence_bool, *stats.m_sequence_bool);
   EXPECT_EQ(sequence_int32, *stats.m_sequence_int32);
   EXPECT_EQ(sequence_string, *stats.m_sequence_string);

   EXPECT_NEAR(m_double, *stats.m_double, GetExpectedError(*stats.m_double));

   EXPECT_EQ(sequence_double.size(), stats.m_sequence_double->size());
   for (size_t i = 0; i < stats.m_sequence_double->size(); ++i) {
     EXPECT_NEAR(sequence_double[i], stats.m_sequence_double->at(i),
                 GetExpectedError(stats.m_sequence_double->at(i)));
   }

   // We read mInt64 as double since JSON stores all numbers as doubles, so there
   // is not enough precision to represent large numbers.
   double m_int64_as_double;
   std::vector<double> sequence_int64_as_double;

   EXPECT_TRUE(
       rtc::GetDoubleFromJsonObject(json_output, "mInt64", &m_int64_as_double));

   EXPECT_TRUE(
       rtc::GetValueFromJsonObject(json_output, "mSequenceInt64", &json_array));
   EXPECT_TRUE(
       rtc::JsonArrayToDoubleVector(json_array, &sequence_int64_as_double));

   double stats_m_int64_as_double = static_cast<double>(*stats.m_int64);
   EXPECT_NEAR(m_int64_as_double, stats_m_int64_as_double,
               GetExpectedError(stats_m_int64_as_double));

   EXPECT_EQ(sequence_int64_as_double.size(), stats.m_sequence_int64->size());
   for (size_t i = 0; i < stats.m_sequence_int64->size(); ++i) {
     const double stats_value_as_double =
         static_cast<double>((*stats.m_sequence_int64)[i]);
     EXPECT_NEAR(sequence_int64_as_double[i], stats_value_as_double,
                 GetExpectedError(stats_value_as_double));
   }

   // Neither stats.m_uint32 nor stats.m_uint64 are defined, so "mUint64" and
   // "mUint32" should not be part of the generated JSON object.
   int m_uint32;
   int m_uint64;
   EXPECT_FALSE(stats.m_uint32.is_defined());
   EXPECT_FALSE(stats.m_uint64.is_defined());
   EXPECT_FALSE(rtc::GetIntFromJsonObject(json_output, "mUint32", &m_uint32));
   EXPECT_FALSE(rtc::GetIntFromJsonObject(json_output, "mUint64", &m_uint64));

   std::cout << stats.ToJson() << std::endl;
 }

 TEST(RTCStatsTest, IsStandardized) {
   RTCStatsMember<int32_t> standardized("standardized");
   RTCNonStandardStatsMember<int32_t> unstandardized("unstandardized");
   EXPECT_TRUE(standardized.is_standardized());
   EXPECT_FALSE(unstandardized.is_standardized());
 }

 TEST(RTCStatsTest, NonStandardGroupId) {
   auto group_id = NonStandardGroupId::kGroupIdForTesting;
   RTCNonStandardStatsMember<int32_t> with_group_id("stat", {group_id});
   std::vector<NonStandardGroupId> expected_ids({group_id});
   EXPECT_EQ(expected_ids, with_group_id.group_ids());

   RTCNonStandardStatsMember<int32_t> without_group_id("stat");
   EXPECT_TRUE(without_group_id.group_ids().empty());
 }

 // Death tests.
 // Disabled on Android because death tests misbehave on Android, see
 // base/test/gtest_util.h.
 #if RTC_DCHECK_IS_ON && GTEST_HAS_DEATH_TEST && !defined(WEBRTC_ANDROID)

 TEST(RTCStatsDeathTest, ValueOfUndefinedMember) {
   RTCTestStats stats("testId", 0.0);
   EXPECT_FALSE(stats.m_int32.is_defined());
   EXPECT_DEATH(*stats.m_int32, "");
 }

 TEST(RTCStatsDeathTest, InvalidCasting) {
   RTCGrandChildStats stats("grandchild", 0.0);
   EXPECT_DEATH(stats.cast_to<RTCChildStats>(), "");
 }

 #endif  // RTC_DCHECK_IS_ON && GTEST_HAS_DEATH_TEST && !defined(WEBRTC_ANDROID)

 }  // namespace webrtc
	/*
	* Copyright 2016 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/stats/rtc_stats.h"

	#include <cmath>
	#include <cstdint>
	#include <cstring>
	#include <iostream>

	#include "rtc_base/checks.h"
	#include "rtc_base/strings/json.h"
	#include "stats/test/rtc_test_stats.h"
	#include "test/gtest.h"

	namespace webrtc {

	namespace {

	// JSON stores numbers as floating point numbers with 53 significant bits, which
	// amounts to about 15.95 decimal digits. Thus, when comparing large numbers
	// processed by JSON, that's all the precision we should expect.
	const double JSON_EPSILON = 1e-15;

	// We do this since Google Test doesn't support relative error.
	// This is computed as follows:
	// If \|a - b\| / \|a\| < EPS, then \|a - b\| < \|a\| * EPS, so \|a\| * EPS is the
	// maximum expected error.
	double GetExpectedError(const double expected_value) {
	return JSON_EPSILON * fabs(expected_value);
	}

	} // namespace

	class RTCChildStats : public RTCStats {
	public:
	WEBRTC_RTCSTATS_DECL();

	RTCChildStats(const std::string& id, int64_t timestamp_us)
	: RTCStats(id, timestamp_us), child_int("childInt") {}

	RTCStatsMember<int32_t> child_int;
	};

	WEBRTC_RTCSTATS_IMPL(RTCChildStats, RTCStats, "child-stats", &child_int)

	class RTCGrandChildStats : public RTCChildStats {
	public:
	WEBRTC_RTCSTATS_DECL();

	RTCGrandChildStats(const std::string& id, int64_t timestamp_us)
	: RTCChildStats(id, timestamp_us), grandchild_int("grandchildInt") {}

	RTCStatsMember<int32_t> grandchild_int;
	};

	WEBRTC_RTCSTATS_IMPL(RTCGrandChildStats,
	RTCChildStats,
	"grandchild-stats",
	&grandchild_int)

	TEST(RTCStatsTest, RTCStatsAndMembers) {
	RTCTestStats stats("testId", 42);
	EXPECT_EQ(stats.id(), "testId");
	EXPECT_EQ(stats.timestamp_us(), static_cast<int64_t>(42));
	std::vector<const RTCStatsMemberInterface*> members = stats.Members();
	EXPECT_EQ(members.size(), static_cast<size_t>(14));
	for (const RTCStatsMemberInterface* member : members) {
	EXPECT_FALSE(member->is_defined());
	}
	stats.m_bool = true;
	stats.m_int32 = 123;
	stats.m_uint32 = 123;
	stats.m_int64 = 123;
	stats.m_uint64 = 123;
	stats.m_double = 123.0;
	stats.m_string = std::string("123");

	std::vector<bool> sequence_bool;
	sequence_bool.push_back(true);
	std::vector<int32_t> sequence_int32;
	sequence_int32.push_back(static_cast<int32_t>(1));
	std::vector<uint32_t> sequence_uint32;
	sequence_uint32.push_back(static_cast<uint32_t>(2));
	std::vector<int64_t> sequence_int64;
	sequence_int64.push_back(static_cast<int64_t>(3));
	std::vector<uint64_t> sequence_uint64;
	sequence_uint64.push_back(static_cast<uint64_t>(4));
	std::vector<double> sequence_double;
	sequence_double.push_back(5.0);
	std::vector<std::string> sequence_string;
	sequence_string.push_back(std::string("six"));

	stats.m_sequence_bool = sequence_bool;
	stats.m_sequence_int32 = sequence_int32;
	stats.m_sequence_uint32 = sequence_uint32;
	EXPECT_FALSE(stats.m_sequence_int64.is_defined());
	stats.m_sequence_int64 = sequence_int64;
	stats.m_sequence_uint64 = sequence_uint64;
	stats.m_sequence_double = sequence_double;
	stats.m_sequence_string = sequence_string;
	for (const RTCStatsMemberInterface* member : members) {
	EXPECT_TRUE(member->is_defined());
	}
	EXPECT_EQ(*stats.m_bool, true);
	EXPECT_EQ(*stats.m_int32, static_cast<int32_t>(123));
	EXPECT_EQ(*stats.m_uint32, static_cast<uint32_t>(123));
	EXPECT_EQ(*stats.m_int64, static_cast<int64_t>(123));
	EXPECT_EQ(*stats.m_uint64, static_cast<uint64_t>(123));
	EXPECT_EQ(*stats.m_double, 123.0);
	EXPECT_EQ(*stats.m_string, std::string("123"));
	EXPECT_EQ(*stats.m_sequence_bool, sequence_bool);
	EXPECT_EQ(*stats.m_sequence_int32, sequence_int32);
	EXPECT_EQ(*stats.m_sequence_uint32, sequence_uint32);
	EXPECT_EQ(*stats.m_sequence_int64, sequence_int64);
	EXPECT_EQ(*stats.m_sequence_uint64, sequence_uint64);
	EXPECT_EQ(*stats.m_sequence_double, sequence_double);
	EXPECT_EQ(*stats.m_sequence_string, sequence_string);

	int32_t numbers[] = {4, 8, 15, 16, 23, 42};
	std::vector<int32_t> numbers_sequence(&numbers[0], &numbers[6]);
	stats.m_sequence_int32->clear();
	stats.m_sequence_int32->insert(stats.m_sequence_int32->end(),
	numbers_sequence.begin(),
	numbers_sequence.end());
	EXPECT_EQ(*stats.m_sequence_int32, numbers_sequence);
	}

	TEST(RTCStatsTest, EqualityOperator) {
	RTCTestStats empty_stats("testId", 123);
	EXPECT_EQ(empty_stats, empty_stats);

	RTCTestStats stats_with_all_values = empty_stats;
	stats_with_all_values.m_bool = true;
	stats_with_all_values.m_int32 = 123;
	stats_with_all_values.m_uint32 = 123;
	stats_with_all_values.m_int64 = 123;
	stats_with_all_values.m_uint64 = 123;
	stats_with_all_values.m_double = 123.0;
	stats_with_all_values.m_string = "123";
	stats_with_all_values.m_sequence_bool = std::vector<bool>();
	stats_with_all_values.m_sequence_int32 = std::vector<int32_t>();
	stats_with_all_values.m_sequence_uint32 = std::vector<uint32_t>();
	stats_with_all_values.m_sequence_int64 = std::vector<int64_t>();
	stats_with_all_values.m_sequence_uint64 = std::vector<uint64_t>();
	stats_with_all_values.m_sequence_double = std::vector<double>();
	stats_with_all_values.m_sequence_string = std::vector<std::string>();
	EXPECT_NE(stats_with_all_values, empty_stats);
	EXPECT_EQ(stats_with_all_values, stats_with_all_values);
	EXPECT_NE(stats_with_all_values.m_int32, stats_with_all_values.m_uint32);

	RTCTestStats one_member_different[] = {
	stats_with_all_values, stats_with_all_values, stats_with_all_values,
	stats_with_all_values, stats_with_all_values, stats_with_all_values,
	stats_with_all_values, stats_with_all_values, stats_with_all_values,
	stats_with_all_values, stats_with_all_values, stats_with_all_values,
	stats_with_all_values, stats_with_all_values,
	};
	for (size_t i = 0; i < 14; ++i) {
	EXPECT_EQ(stats_with_all_values, one_member_different[i]);
	}
	one_member_different[0].m_bool = false;
	one_member_different[1].m_int32 = 321;
	one_member_different[2].m_uint32 = 321;
	one_member_different[3].m_int64 = 321;
	one_member_different[4].m_uint64 = 321;
	one_member_different[5].m_double = 321.0;
	one_member_different[6].m_string = "321";
	one_member_different[7].m_sequence_bool->push_back(false);
	one_member_different[8].m_sequence_int32->push_back(321);
	one_member_different[9].m_sequence_uint32->push_back(321);
	one_member_different[10].m_sequence_int64->push_back(321);
	one_member_different[11].m_sequence_uint64->push_back(321);
	one_member_different[12].m_sequence_double->push_back(321.0);
	one_member_different[13].m_sequence_string->push_back("321");
	for (size_t i = 0; i < 14; ++i) {
	EXPECT_NE(stats_with_all_values, one_member_different[i]);
	}

	RTCTestStats empty_stats_different_id("testId2", 123);
	EXPECT_NE(empty_stats, empty_stats_different_id);
	RTCTestStats empty_stats_different_timestamp("testId", 321);
	EXPECT_EQ(empty_stats, empty_stats_different_timestamp);

	RTCChildStats child("childId", 42);
	RTCGrandChildStats grandchild("grandchildId", 42);
	EXPECT_NE(child, grandchild);

	RTCChildStats stats_with_defined_member("leId", 0);
	stats_with_defined_member.child_int = 0;
	RTCChildStats stats_with_undefined_member("leId", 0);
	EXPECT_NE(stats_with_defined_member, stats_with_undefined_member);
	EXPECT_NE(stats_with_undefined_member, stats_with_defined_member);
	}

	TEST(RTCStatsTest, RTCStatsGrandChild) {
	RTCGrandChildStats stats("grandchild", 0.0);
	stats.child_int = 1;
	stats.grandchild_int = 2;
	int32_t sum = 0;
	for (const RTCStatsMemberInterface* member : stats.Members()) {
	sum += *member->cast_to<const RTCStatsMember<int32_t>>();
	}
	EXPECT_EQ(sum, static_cast<int32_t>(3));

	std::unique_ptr<RTCStats> copy_ptr = stats.copy();
	const RTCGrandChildStats& copy = copy_ptr->cast_to<RTCGrandChildStats>();
	EXPECT_EQ(copy.child_int, stats.child_int);
	EXPECT_EQ(copy.grandchild_int, stats.grandchild_int);
	}

	TEST(RTCStatsTest, RTCStatsPrintsValidJson) {
	std::string id = "statsId";
	int timestamp = 42;
	bool m_bool = true;
	int m_int32 = 123;
	int64_t m_int64 = 1234567890123456499L;
	double m_double = 123.4567890123456499;
	std::string m_string = "123";

	std::vector<bool> sequence_bool;
	std::vector<int32_t> sequence_int32;
	sequence_int32.push_back(static_cast<int32_t>(1));
	std::vector<int64_t> sequence_int64;
	sequence_int64.push_back(static_cast<int64_t>(-1234567890123456499L));
	sequence_int64.push_back(static_cast<int64_t>(1));
	sequence_int64.push_back(static_cast<int64_t>(1234567890123456499L));
	std::vector<double> sequence_double;
	sequence_double.push_back(123.4567890123456499);
	sequence_double.push_back(1234567890123.456499);
	std::vector<std::string> sequence_string;
	sequence_string.push_back(std::string("four"));

	RTCTestStats stats(id, timestamp);
	stats.m_bool = m_bool;
	stats.m_int32 = m_int32;
	stats.m_int64 = m_int64;
	stats.m_double = m_double;
	stats.m_string = m_string;
	stats.m_sequence_bool = sequence_bool;
	stats.m_sequence_int32 = sequence_int32;
	stats.m_sequence_int64 = sequence_int64;
	stats.m_sequence_double = sequence_double;
	stats.m_sequence_string = sequence_string;

	Json::Value json_output;
	EXPECT_TRUE(Json::Reader().parse(stats.ToJson(), json_output));

	EXPECT_TRUE(rtc::GetStringFromJsonObject(json_output, "id", &id));
	EXPECT_TRUE(rtc::GetIntFromJsonObject(json_output, "timestamp", &timestamp));
	EXPECT_TRUE(rtc::GetBoolFromJsonObject(json_output, "mBool", &m_bool));
	EXPECT_TRUE(rtc::GetIntFromJsonObject(json_output, "mInt32", &m_int32));
	EXPECT_TRUE(rtc::GetDoubleFromJsonObject(json_output, "mDouble", &m_double));
	EXPECT_TRUE(rtc::GetStringFromJsonObject(json_output, "mString", &m_string));

	Json::Value json_array;

	EXPECT_TRUE(
	rtc::GetValueFromJsonObject(json_output, "mSequenceBool", &json_array));
	EXPECT_TRUE(rtc::JsonArrayToBoolVector(json_array, &sequence_bool));

	EXPECT_TRUE(
	rtc::GetValueFromJsonObject(json_output, "mSequenceInt32", &json_array));
	EXPECT_TRUE(rtc::JsonArrayToIntVector(json_array, &sequence_int32));

	EXPECT_TRUE(
	rtc::GetValueFromJsonObject(json_output, "mSequenceDouble", &json_array));
	EXPECT_TRUE(rtc::JsonArrayToDoubleVector(json_array, &sequence_double));

	EXPECT_TRUE(
	rtc::GetValueFromJsonObject(json_output, "mSequenceString", &json_array));
	EXPECT_TRUE(rtc::JsonArrayToStringVector(json_array, &sequence_string));

	EXPECT_EQ(id, stats.id());
	EXPECT_EQ(timestamp, stats.timestamp_us());
	EXPECT_EQ(m_bool, *stats.m_bool);
	EXPECT_EQ(m_int32, *stats.m_int32);
	EXPECT_EQ(m_string, *stats.m_string);
	EXPECT_EQ(sequence_bool, *stats.m_sequence_bool);
	EXPECT_EQ(sequence_int32, *stats.m_sequence_int32);
	EXPECT_EQ(sequence_string, *stats.m_sequence_string);

	EXPECT_NEAR(m_double, stats.m_double, GetExpectedError(stats.m_double));

	EXPECT_EQ(sequence_double.size(), stats.m_sequence_double->size());
	for (size_t i = 0; i < stats.m_sequence_double->size(); ++i) {
	EXPECT_NEAR(sequence_double[i], stats.m_sequence_double->at(i),
	GetExpectedError(stats.m_sequence_double->at(i)));
	}

	// We read mInt64 as double since JSON stores all numbers as doubles, so there
	// is not enough precision to represent large numbers.
	double m_int64_as_double;
	std::vector<double> sequence_int64_as_double;

	EXPECT_TRUE(
	rtc::GetDoubleFromJsonObject(json_output, "mInt64", &m_int64_as_double));

	EXPECT_TRUE(
	rtc::GetValueFromJsonObject(json_output, "mSequenceInt64", &json_array));
	EXPECT_TRUE(
	rtc::JsonArrayToDoubleVector(json_array, &sequence_int64_as_double));

	double stats_m_int64_as_double = static_cast<double>(*stats.m_int64);
	EXPECT_NEAR(m_int64_as_double, stats_m_int64_as_double,
	GetExpectedError(stats_m_int64_as_double));

	EXPECT_EQ(sequence_int64_as_double.size(), stats.m_sequence_int64->size());
	for (size_t i = 0; i < stats.m_sequence_int64->size(); ++i) {
	const double stats_value_as_double =
	static_cast<double>((*stats.m_sequence_int64)[i]);
	EXPECT_NEAR(sequence_int64_as_double[i], stats_value_as_double,
	GetExpectedError(stats_value_as_double));
	}

	// Neither stats.m_uint32 nor stats.m_uint64 are defined, so "mUint64" and
	// "mUint32" should not be part of the generated JSON object.
	int m_uint32;
	int m_uint64;
	EXPECT_FALSE(stats.m_uint32.is_defined());
	EXPECT_FALSE(stats.m_uint64.is_defined());
	EXPECT_FALSE(rtc::GetIntFromJsonObject(json_output, "mUint32", &m_uint32));
	EXPECT_FALSE(rtc::GetIntFromJsonObject(json_output, "mUint64", &m_uint64));

	std::cout << stats.ToJson() << std::endl;
	}

	TEST(RTCStatsTest, IsStandardized) {
	RTCStatsMember<int32_t> standardized("standardized");
	RTCNonStandardStatsMember<int32_t> unstandardized("unstandardized");
	EXPECT_TRUE(standardized.is_standardized());
	EXPECT_FALSE(unstandardized.is_standardized());
	}

	TEST(RTCStatsTest, NonStandardGroupId) {
	auto group_id = NonStandardGroupId::kGroupIdForTesting;
	RTCNonStandardStatsMember<int32_t> with_group_id("stat", {group_id});
	std::vector<NonStandardGroupId> expected_ids({group_id});
	EXPECT_EQ(expected_ids, with_group_id.group_ids());

	RTCNonStandardStatsMember<int32_t> without_group_id("stat");
	EXPECT_TRUE(without_group_id.group_ids().empty());
	}

	// Death tests.
	// Disabled on Android because death tests misbehave on Android, see
	// base/test/gtest_util.h.
	#if RTC_DCHECK_IS_ON && GTEST_HAS_DEATH_TEST && !defined(WEBRTC_ANDROID)

	TEST(RTCStatsDeathTest, ValueOfUndefinedMember) {
	RTCTestStats stats("testId", 0.0);
	EXPECT_FALSE(stats.m_int32.is_defined());
	EXPECT_DEATH(*stats.m_int32, "");
	}

	TEST(RTCStatsDeathTest, InvalidCasting) {
	RTCGrandChildStats stats("grandchild", 0.0);
	EXPECT_DEATH(stats.cast_to<RTCChildStats>(), "");
	}

	#endif // RTC_DCHECK_IS_ON && GTEST_HAS_DEATH_TEST && !defined(WEBRTC_ANDROID)

	} // namespace webrtc