src/base/profiler/tracked_time_unittest.cc - cobalt - Git at Google

 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 // Test of classes in tracked_time.cc

 #include "base/profiler/tracked_time.h"
 #include "base/time.h"
 #include "base/tracked_objects.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace tracked_objects {

 class TrackedTimeTest : public testing::Test {
  protected:
   TrackedTimeTest() {
     // On entry, leak any database structures in case they are still in use by
     // prior threads.
     ThreadData::ShutdownSingleThreadedCleanup(true);
   }

   virtual ~TrackedTimeTest() {
     // We should not need to leak any structures we create, since we are
     // single threaded, and carefully accounting for items.
     ThreadData::ShutdownSingleThreadedCleanup(false);
   }
 };

 TEST_F(TrackedTimeTest, TrackedTimerMilliseconds) {
   // First make sure we basicallly transfer simple milliseconds values as
   // expected.  Most critically, things should not become null.
   int32 kSomeMilliseconds = 243;  // Some example times.
   int64 kReallyBigMilliseconds = (1LL << 35) + kSomeMilliseconds;

   TrackedTime some = TrackedTime() +
       Duration::FromMilliseconds(kSomeMilliseconds);
   EXPECT_EQ(kSomeMilliseconds, (some - TrackedTime()).InMilliseconds());
   EXPECT_FALSE(some.is_null());

   // Now create a big time, to check that it is wrapped modulo 2^32.
   base::TimeTicks big = base::TimeTicks() +
       base::TimeDelta::FromMilliseconds(kReallyBigMilliseconds);
   EXPECT_EQ(kReallyBigMilliseconds, (big - base::TimeTicks()).InMilliseconds());

   TrackedTime wrapped_big(big);
   // Expect wrapping at 32 bits.
   EXPECT_EQ(kSomeMilliseconds, (wrapped_big - TrackedTime()).InMilliseconds());
 }

 TEST_F(TrackedTimeTest, TrackedTimerDuration) {
   int kFirstMilliseconds = 793;
   int kSecondMilliseconds = 14889;

   Duration first = Duration::FromMilliseconds(kFirstMilliseconds);
   Duration second = Duration::FromMilliseconds(kSecondMilliseconds);

   EXPECT_EQ(kFirstMilliseconds, first.InMilliseconds());
   EXPECT_EQ(kSecondMilliseconds, second.InMilliseconds());

   Duration sum = first + second;
   EXPECT_EQ(kFirstMilliseconds + kSecondMilliseconds, sum.InMilliseconds());
 }

 TEST_F(TrackedTimeTest, TrackedTimerVsTimeTicks) {
   // Make sure that our 32 bit timer is aligned with the TimeTicks() timer.

   // First get a 64 bit timer (which should not be null).
   base::TimeTicks ticks_before = base::TimeTicks::Now();
   EXPECT_FALSE(ticks_before.is_null());

   // Then get a 32 bit timer that can be be null when it wraps.
   TrackedTime now = TrackedTime::Now();

   // Then get a bracketing time.
   base::TimeTicks ticks_after = base::TimeTicks::Now();
   EXPECT_FALSE(ticks_after.is_null());

   // Now make sure that we bracketed our tracked time nicely.
   Duration before = now - TrackedTime(ticks_before);
   EXPECT_LE(0, before.InMilliseconds());
   Duration after = now - TrackedTime(ticks_after);
   EXPECT_GE(0, after.InMilliseconds());
 }

 TEST_F(TrackedTimeTest, TrackedTimerDisabled) {
   // Check to be sure disabling the collection of data induces a null time
   // (which we know will return much faster).
   if (!ThreadData::InitializeAndSetTrackingStatus(ThreadData::DEACTIVATED))
     return;
   // Since we disabled tracking, we should get a null response.
   TrackedTime track_now = ThreadData::Now();
   EXPECT_TRUE(track_now.is_null());
   track_now = ThreadData::NowForStartOfRun(NULL);
   EXPECT_TRUE(track_now.is_null());
   track_now = ThreadData::NowForEndOfRun();
   EXPECT_TRUE(track_now.is_null());
 }

 TEST_F(TrackedTimeTest, TrackedTimerEnabled) {
   if (!ThreadData::InitializeAndSetTrackingStatus(
       ThreadData::PROFILING_CHILDREN_ACTIVE))
     return;
   // Make sure that when we enable tracking, we get a real timer result.

   // First get a 64 bit timer (which should not be null).
   base::TimeTicks ticks_before = base::TimeTicks::Now();
   EXPECT_FALSE(ticks_before.is_null());

   // Then get a 32 bit timer that can be null when it wraps.
   // Crtical difference from  the TrackedTimerVsTimeTicks test, is that we use
   // ThreadData::Now().  It can sometimes return the null time.
   TrackedTime now = ThreadData::Now();

   // Then get a bracketing time.
   base::TimeTicks ticks_after = base::TimeTicks::Now();
   EXPECT_FALSE(ticks_after.is_null());

   // Now make sure that we bracketed our tracked time nicely.
   Duration before = now - TrackedTime(ticks_before);
   EXPECT_LE(0, before.InMilliseconds());
   Duration after = now - TrackedTime(ticks_after);
   EXPECT_GE(0, after.InMilliseconds());
 }

 }  // namespace tracked_objects
	// Copyright (c) 2012 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	// Test of classes in tracked_time.cc

	#include "base/profiler/tracked_time.h"
	#include "base/time.h"
	#include "base/tracked_objects.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace tracked_objects {

	class TrackedTimeTest : public testing::Test {
	protected:
	TrackedTimeTest() {
	// On entry, leak any database structures in case they are still in use by
	// prior threads.
	ThreadData::ShutdownSingleThreadedCleanup(true);
	}

	virtual ~TrackedTimeTest() {
	// We should not need to leak any structures we create, since we are
	// single threaded, and carefully accounting for items.
	ThreadData::ShutdownSingleThreadedCleanup(false);
	}
	};

	TEST_F(TrackedTimeTest, TrackedTimerMilliseconds) {
	// First make sure we basicallly transfer simple milliseconds values as
	// expected. Most critically, things should not become null.
	int32 kSomeMilliseconds = 243; // Some example times.
	int64 kReallyBigMilliseconds = (1LL << 35) + kSomeMilliseconds;

	TrackedTime some = TrackedTime() +
	Duration::FromMilliseconds(kSomeMilliseconds);
	EXPECT_EQ(kSomeMilliseconds, (some - TrackedTime()).InMilliseconds());
	EXPECT_FALSE(some.is_null());

	// Now create a big time, to check that it is wrapped modulo 2^32.
	base::TimeTicks big = base::TimeTicks() +
	base::TimeDelta::FromMilliseconds(kReallyBigMilliseconds);
	EXPECT_EQ(kReallyBigMilliseconds, (big - base::TimeTicks()).InMilliseconds());

	TrackedTime wrapped_big(big);
	// Expect wrapping at 32 bits.
	EXPECT_EQ(kSomeMilliseconds, (wrapped_big - TrackedTime()).InMilliseconds());
	}

	TEST_F(TrackedTimeTest, TrackedTimerDuration) {
	int kFirstMilliseconds = 793;
	int kSecondMilliseconds = 14889;

	Duration first = Duration::FromMilliseconds(kFirstMilliseconds);
	Duration second = Duration::FromMilliseconds(kSecondMilliseconds);

	EXPECT_EQ(kFirstMilliseconds, first.InMilliseconds());
	EXPECT_EQ(kSecondMilliseconds, second.InMilliseconds());

	Duration sum = first + second;
	EXPECT_EQ(kFirstMilliseconds + kSecondMilliseconds, sum.InMilliseconds());
	}

	TEST_F(TrackedTimeTest, TrackedTimerVsTimeTicks) {
	// Make sure that our 32 bit timer is aligned with the TimeTicks() timer.

	// First get a 64 bit timer (which should not be null).
	base::TimeTicks ticks_before = base::TimeTicks::Now();
	EXPECT_FALSE(ticks_before.is_null());

	// Then get a 32 bit timer that can be be null when it wraps.
	TrackedTime now = TrackedTime::Now();

	// Then get a bracketing time.
	base::TimeTicks ticks_after = base::TimeTicks::Now();
	EXPECT_FALSE(ticks_after.is_null());

	// Now make sure that we bracketed our tracked time nicely.
	Duration before = now - TrackedTime(ticks_before);
	EXPECT_LE(0, before.InMilliseconds());
	Duration after = now - TrackedTime(ticks_after);
	EXPECT_GE(0, after.InMilliseconds());
	}

	TEST_F(TrackedTimeTest, TrackedTimerDisabled) {
	// Check to be sure disabling the collection of data induces a null time
	// (which we know will return much faster).
	if (!ThreadData::InitializeAndSetTrackingStatus(ThreadData::DEACTIVATED))
	return;
	// Since we disabled tracking, we should get a null response.
	TrackedTime track_now = ThreadData::Now();
	EXPECT_TRUE(track_now.is_null());
	track_now = ThreadData::NowForStartOfRun(NULL);
	EXPECT_TRUE(track_now.is_null());
	track_now = ThreadData::NowForEndOfRun();
	EXPECT_TRUE(track_now.is_null());
	}

	TEST_F(TrackedTimeTest, TrackedTimerEnabled) {
	if (!ThreadData::InitializeAndSetTrackingStatus(
	ThreadData::PROFILING_CHILDREN_ACTIVE))
	return;
	// Make sure that when we enable tracking, we get a real timer result.

	// First get a 64 bit timer (which should not be null).
	base::TimeTicks ticks_before = base::TimeTicks::Now();
	EXPECT_FALSE(ticks_before.is_null());

	// Then get a 32 bit timer that can be null when it wraps.
	// Crtical difference from the TrackedTimerVsTimeTicks test, is that we use
	// ThreadData::Now(). It can sometimes return the null time.
	TrackedTime now = ThreadData::Now();

	// Then get a bracketing time.
	base::TimeTicks ticks_after = base::TimeTicks::Now();
	EXPECT_FALSE(ticks_after.is_null());

	// Now make sure that we bracketed our tracked time nicely.
	Duration before = now - TrackedTime(ticks_before);
	EXPECT_LE(0, before.InMilliseconds());
	Duration after = now - TrackedTime(ticks_after);
	EXPECT_GE(0, after.InMilliseconds());
	}

	} // namespace tracked_objects