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

 /*
  *  Copyright 2004 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 "webrtc/base/common.h"
 #include "webrtc/base/gunit.h"
 #include "webrtc/base/thread.h"
 #include "webrtc/base/timeutils.h"

 namespace rtc {

 TEST(TimeTest, TimeInMs) {
   uint32 ts_earlier = Time();
   Thread::SleepMs(100);
   uint32 ts_now = Time();
   // Allow for the thread to wakeup ~20ms early.
   EXPECT_GE(ts_now, ts_earlier + 80);
   // Make sure the Time is not returning in smaller unit like microseconds.
   EXPECT_LT(ts_now, ts_earlier + 1000);
 }

 TEST(TimeTest, Comparison) {
   // Obtain two different times, in known order
   TimeStamp ts_earlier = Time();
   Thread::SleepMs(100);
   TimeStamp ts_now = Time();
   EXPECT_NE(ts_earlier, ts_now);

   // Common comparisons
   EXPECT_TRUE( TimeIsLaterOrEqual(ts_earlier, ts_now));
   EXPECT_TRUE( TimeIsLater(       ts_earlier, ts_now));
   EXPECT_FALSE(TimeIsLaterOrEqual(ts_now,     ts_earlier));
   EXPECT_FALSE(TimeIsLater(       ts_now,     ts_earlier));

   // Edge cases
   EXPECT_TRUE( TimeIsLaterOrEqual(ts_earlier, ts_earlier));
   EXPECT_FALSE(TimeIsLater(       ts_earlier, ts_earlier));

   // Obtain a third time
   TimeStamp ts_later = TimeAfter(100);
   EXPECT_NE(ts_now, ts_later);
   EXPECT_TRUE( TimeIsLater(ts_now,     ts_later));
   EXPECT_TRUE( TimeIsLater(ts_earlier, ts_later));

   // Common comparisons
   EXPECT_TRUE( TimeIsBetween(ts_earlier, ts_now,     ts_later));
   EXPECT_FALSE(TimeIsBetween(ts_earlier, ts_later,   ts_now));
   EXPECT_FALSE(TimeIsBetween(ts_now,     ts_earlier, ts_later));
   EXPECT_TRUE( TimeIsBetween(ts_now,     ts_later,   ts_earlier));
   EXPECT_TRUE( TimeIsBetween(ts_later,   ts_earlier, ts_now));
   EXPECT_FALSE(TimeIsBetween(ts_later,   ts_now,     ts_earlier));

   // Edge cases
   EXPECT_TRUE( TimeIsBetween(ts_earlier, ts_earlier, ts_earlier));
   EXPECT_TRUE( TimeIsBetween(ts_earlier, ts_earlier, ts_later));
   EXPECT_TRUE( TimeIsBetween(ts_earlier, ts_later,   ts_later));

   // Earlier of two times
   EXPECT_EQ(ts_earlier, TimeMin(ts_earlier, ts_earlier));
   EXPECT_EQ(ts_earlier, TimeMin(ts_earlier, ts_now));
   EXPECT_EQ(ts_earlier, TimeMin(ts_earlier, ts_later));
   EXPECT_EQ(ts_earlier, TimeMin(ts_now,     ts_earlier));
   EXPECT_EQ(ts_earlier, TimeMin(ts_later,   ts_earlier));

   // Later of two times
   EXPECT_EQ(ts_earlier, TimeMax(ts_earlier, ts_earlier));
   EXPECT_EQ(ts_now,     TimeMax(ts_earlier, ts_now));
   EXPECT_EQ(ts_later,   TimeMax(ts_earlier, ts_later));
   EXPECT_EQ(ts_now,     TimeMax(ts_now,     ts_earlier));
   EXPECT_EQ(ts_later,   TimeMax(ts_later,   ts_earlier));
 }

 TEST(TimeTest, Intervals) {
   TimeStamp ts_earlier = Time();
   TimeStamp ts_later = TimeAfter(500);

   // We can't depend on ts_later and ts_earlier to be exactly 500 apart
   // since time elapses between the calls to Time() and TimeAfter(500)
   EXPECT_LE(500,  TimeDiff(ts_later, ts_earlier));
   EXPECT_GE(-500, TimeDiff(ts_earlier, ts_later));

   // Time has elapsed since ts_earlier
   EXPECT_GE(TimeSince(ts_earlier), 0);

   // ts_earlier is earlier than now, so TimeUntil ts_earlier is -ve
   EXPECT_LE(TimeUntil(ts_earlier), 0);

   // ts_later likely hasn't happened yet, so TimeSince could be -ve
   // but within 500
   EXPECT_GE(TimeSince(ts_later), -500);

   // TimeUntil ts_later is at most 500
   EXPECT_LE(TimeUntil(ts_later), 500);
 }

 TEST(TimeTest, BoundaryComparison) {
   // Obtain two different times, in known order
   TimeStamp ts_earlier = static_cast<TimeStamp>(-50);
   TimeStamp ts_later = ts_earlier + 100;
   EXPECT_NE(ts_earlier, ts_later);

   // Common comparisons
   EXPECT_TRUE( TimeIsLaterOrEqual(ts_earlier, ts_later));
   EXPECT_TRUE( TimeIsLater(       ts_earlier, ts_later));
   EXPECT_FALSE(TimeIsLaterOrEqual(ts_later,   ts_earlier));
   EXPECT_FALSE(TimeIsLater(       ts_later,   ts_earlier));

   // Earlier of two times
   EXPECT_EQ(ts_earlier, TimeMin(ts_earlier, ts_earlier));
   EXPECT_EQ(ts_earlier, TimeMin(ts_earlier, ts_later));
   EXPECT_EQ(ts_earlier, TimeMin(ts_later,   ts_earlier));

   // Later of two times
   EXPECT_EQ(ts_earlier, TimeMax(ts_earlier, ts_earlier));
   EXPECT_EQ(ts_later,   TimeMax(ts_earlier, ts_later));
   EXPECT_EQ(ts_later,   TimeMax(ts_later,   ts_earlier));

   // Interval
   EXPECT_EQ(100,  TimeDiff(ts_later, ts_earlier));
   EXPECT_EQ(-100, TimeDiff(ts_earlier, ts_later));
 }

 TEST(TimeTest, DISABLED_CurrentTmTime) {
   struct tm tm;
   int microseconds;

   time_t before = ::time(NULL);
   CurrentTmTime(&tm, &microseconds);
   time_t after = ::time(NULL);

   // Assert that 'tm' represents a time between 'before' and 'after'.
   // mktime() uses local time, so we have to compensate for that.
   time_t local_delta = before - ::mktime(::gmtime(&before));  // NOLINT
   time_t t = ::mktime(&tm) + local_delta;

   EXPECT_TRUE(before <= t && t <= after);
   EXPECT_TRUE(0 <= microseconds && microseconds < 1000000);
 }

 class TimestampWrapAroundHandlerTest : public testing::Test {
  public:
   TimestampWrapAroundHandlerTest() {}

  protected:
   TimestampWrapAroundHandler wraparound_handler_;
 };

 TEST_F(TimestampWrapAroundHandlerTest, Unwrap) {
   uint32 ts = 0xfffffff2;
   int64 unwrapped_ts = ts;
   EXPECT_EQ(ts, wraparound_handler_.Unwrap(ts));
   ts = 2;
   unwrapped_ts += 0x10;
   EXPECT_EQ(unwrapped_ts, wraparound_handler_.Unwrap(ts));
   ts = 0xfffffff2;
   unwrapped_ts += 0xfffffff0;
   EXPECT_EQ(unwrapped_ts, wraparound_handler_.Unwrap(ts));
   ts = 0;
   unwrapped_ts += 0xe;
   EXPECT_EQ(unwrapped_ts, wraparound_handler_.Unwrap(ts));
 }

 }  // namespace rtc
	/*
	* Copyright 2004 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 "webrtc/base/common.h"
	#include "webrtc/base/gunit.h"
	#include "webrtc/base/thread.h"
	#include "webrtc/base/timeutils.h"

	namespace rtc {

	TEST(TimeTest, TimeInMs) {
	uint32 ts_earlier = Time();
	Thread::SleepMs(100);
	uint32 ts_now = Time();
	// Allow for the thread to wakeup ~20ms early.
	EXPECT_GE(ts_now, ts_earlier + 80);
	// Make sure the Time is not returning in smaller unit like microseconds.
	EXPECT_LT(ts_now, ts_earlier + 1000);
	}

	TEST(TimeTest, Comparison) {
	// Obtain two different times, in known order
	TimeStamp ts_earlier = Time();
	Thread::SleepMs(100);
	TimeStamp ts_now = Time();
	EXPECT_NE(ts_earlier, ts_now);

	// Common comparisons
	EXPECT_TRUE( TimeIsLaterOrEqual(ts_earlier, ts_now));
	EXPECT_TRUE( TimeIsLater( ts_earlier, ts_now));
	EXPECT_FALSE(TimeIsLaterOrEqual(ts_now, ts_earlier));
	EXPECT_FALSE(TimeIsLater( ts_now, ts_earlier));

	// Edge cases
	EXPECT_TRUE( TimeIsLaterOrEqual(ts_earlier, ts_earlier));
	EXPECT_FALSE(TimeIsLater( ts_earlier, ts_earlier));

	// Obtain a third time
	TimeStamp ts_later = TimeAfter(100);
	EXPECT_NE(ts_now, ts_later);
	EXPECT_TRUE( TimeIsLater(ts_now, ts_later));
	EXPECT_TRUE( TimeIsLater(ts_earlier, ts_later));

	// Common comparisons
	EXPECT_TRUE( TimeIsBetween(ts_earlier, ts_now, ts_later));
	EXPECT_FALSE(TimeIsBetween(ts_earlier, ts_later, ts_now));
	EXPECT_FALSE(TimeIsBetween(ts_now, ts_earlier, ts_later));
	EXPECT_TRUE( TimeIsBetween(ts_now, ts_later, ts_earlier));
	EXPECT_TRUE( TimeIsBetween(ts_later, ts_earlier, ts_now));
	EXPECT_FALSE(TimeIsBetween(ts_later, ts_now, ts_earlier));

	// Edge cases
	EXPECT_TRUE( TimeIsBetween(ts_earlier, ts_earlier, ts_earlier));
	EXPECT_TRUE( TimeIsBetween(ts_earlier, ts_earlier, ts_later));
	EXPECT_TRUE( TimeIsBetween(ts_earlier, ts_later, ts_later));

	// Earlier of two times
	EXPECT_EQ(ts_earlier, TimeMin(ts_earlier, ts_earlier));
	EXPECT_EQ(ts_earlier, TimeMin(ts_earlier, ts_now));
	EXPECT_EQ(ts_earlier, TimeMin(ts_earlier, ts_later));
	EXPECT_EQ(ts_earlier, TimeMin(ts_now, ts_earlier));
	EXPECT_EQ(ts_earlier, TimeMin(ts_later, ts_earlier));

	// Later of two times
	EXPECT_EQ(ts_earlier, TimeMax(ts_earlier, ts_earlier));
	EXPECT_EQ(ts_now, TimeMax(ts_earlier, ts_now));
	EXPECT_EQ(ts_later, TimeMax(ts_earlier, ts_later));
	EXPECT_EQ(ts_now, TimeMax(ts_now, ts_earlier));
	EXPECT_EQ(ts_later, TimeMax(ts_later, ts_earlier));
	}

	TEST(TimeTest, Intervals) {
	TimeStamp ts_earlier = Time();
	TimeStamp ts_later = TimeAfter(500);

	// We can't depend on ts_later and ts_earlier to be exactly 500 apart
	// since time elapses between the calls to Time() and TimeAfter(500)
	EXPECT_LE(500, TimeDiff(ts_later, ts_earlier));
	EXPECT_GE(-500, TimeDiff(ts_earlier, ts_later));

	// Time has elapsed since ts_earlier
	EXPECT_GE(TimeSince(ts_earlier), 0);

	// ts_earlier is earlier than now, so TimeUntil ts_earlier is -ve
	EXPECT_LE(TimeUntil(ts_earlier), 0);

	// ts_later likely hasn't happened yet, so TimeSince could be -ve
	// but within 500
	EXPECT_GE(TimeSince(ts_later), -500);

	// TimeUntil ts_later is at most 500
	EXPECT_LE(TimeUntil(ts_later), 500);
	}

	TEST(TimeTest, BoundaryComparison) {
	// Obtain two different times, in known order
	TimeStamp ts_earlier = static_cast<TimeStamp>(-50);
	TimeStamp ts_later = ts_earlier + 100;
	EXPECT_NE(ts_earlier, ts_later);

	// Common comparisons
	EXPECT_TRUE( TimeIsLaterOrEqual(ts_earlier, ts_later));
	EXPECT_TRUE( TimeIsLater( ts_earlier, ts_later));
	EXPECT_FALSE(TimeIsLaterOrEqual(ts_later, ts_earlier));
	EXPECT_FALSE(TimeIsLater( ts_later, ts_earlier));

	// Earlier of two times
	EXPECT_EQ(ts_earlier, TimeMin(ts_earlier, ts_earlier));
	EXPECT_EQ(ts_earlier, TimeMin(ts_earlier, ts_later));
	EXPECT_EQ(ts_earlier, TimeMin(ts_later, ts_earlier));

	// Later of two times
	EXPECT_EQ(ts_earlier, TimeMax(ts_earlier, ts_earlier));
	EXPECT_EQ(ts_later, TimeMax(ts_earlier, ts_later));
	EXPECT_EQ(ts_later, TimeMax(ts_later, ts_earlier));

	// Interval
	EXPECT_EQ(100, TimeDiff(ts_later, ts_earlier));
	EXPECT_EQ(-100, TimeDiff(ts_earlier, ts_later));
	}

	TEST(TimeTest, DISABLED_CurrentTmTime) {
	struct tm tm;
	int microseconds;

	time_t before = ::time(NULL);
	CurrentTmTime(&tm, &microseconds);
	time_t after = ::time(NULL);

	// Assert that 'tm' represents a time between 'before' and 'after'.
	// mktime() uses local time, so we have to compensate for that.
	time_t local_delta = before - ::mktime(::gmtime(&before)); // NOLINT
	time_t t = ::mktime(&tm) + local_delta;

	EXPECT_TRUE(before <= t && t <= after);
	EXPECT_TRUE(0 <= microseconds && microseconds < 1000000);
	}

	class TimestampWrapAroundHandlerTest : public testing::Test {
	public:
	TimestampWrapAroundHandlerTest() {}

	protected:
	TimestampWrapAroundHandler wraparound_handler_;
	};

	TEST_F(TimestampWrapAroundHandlerTest, Unwrap) {
	uint32 ts = 0xfffffff2;
	int64 unwrapped_ts = ts;
	EXPECT_EQ(ts, wraparound_handler_.Unwrap(ts));
	ts = 2;
	unwrapped_ts += 0x10;
	EXPECT_EQ(unwrapped_ts, wraparound_handler_.Unwrap(ts));
	ts = 0xfffffff2;
	unwrapped_ts += 0xfffffff0;
	EXPECT_EQ(unwrapped_ts, wraparound_handler_.Unwrap(ts));
	ts = 0;
	unwrapped_ts += 0xe;
	EXPECT_EQ(unwrapped_ts, wraparound_handler_.Unwrap(ts));
	}

	} // namespace rtc