base/sequence_token_unittest.cc - chromium/src - Git at Google

 // Copyright 2016 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/sequence_token.h"

 #include "testing/gtest/include/gtest/gtest.h"

 namespace base::internal {

 TEST(SequenceTokenTest, IsValid) {
   EXPECT_FALSE(SequenceToken().IsValid());
   EXPECT_TRUE(SequenceToken::Create().IsValid());
 }

 TEST(SequenceTokenTest, OperatorEquals) {
   const SequenceToken invalid_a;
   const SequenceToken invalid_b;
   const SequenceToken valid_a = SequenceToken::Create();
   const SequenceToken valid_b = SequenceToken::Create();

   EXPECT_FALSE(invalid_a == invalid_a);
   EXPECT_FALSE(invalid_a == invalid_b);
   EXPECT_FALSE(invalid_a == valid_a);
   EXPECT_FALSE(invalid_a == valid_b);

   EXPECT_FALSE(valid_a == invalid_a);
   EXPECT_FALSE(valid_a == invalid_b);
   EXPECT_EQ(valid_a, valid_a);
   EXPECT_FALSE(valid_a == valid_b);
 }

 TEST(SequenceTokenTest, OperatorNotEquals) {
   const SequenceToken invalid_a;
   const SequenceToken invalid_b;
   const SequenceToken valid_a = SequenceToken::Create();
   const SequenceToken valid_b = SequenceToken::Create();

   EXPECT_NE(invalid_a, invalid_a);
   EXPECT_NE(invalid_a, invalid_b);
   EXPECT_NE(invalid_a, valid_a);
   EXPECT_NE(invalid_a, valid_b);

   EXPECT_NE(valid_a, invalid_a);
   EXPECT_NE(valid_a, invalid_b);
   EXPECT_FALSE(valid_a != valid_a);
   EXPECT_NE(valid_a, valid_b);
 }

 TEST(SequenceTokenTest, GetForCurrentThread) {
   const SequenceToken token = SequenceToken::Create();

   EXPECT_TRUE(SequenceToken::GetForCurrentThread().IsValid());

   {
     TaskScope task_scope(token, /* is_thread_bound=*/false);
     EXPECT_TRUE(SequenceToken::GetForCurrentThread().IsValid());
     EXPECT_EQ(token, SequenceToken::GetForCurrentThread());
   }

   EXPECT_TRUE(SequenceToken::GetForCurrentThread().IsValid());
 }

 TEST(SequenceTokenTest, ToInternalValue) {
   const SequenceToken token1 = SequenceToken::Create();
   const SequenceToken token2 = SequenceToken::Create();

   // Confirm that internal values are unique.
   EXPECT_NE(token1.ToInternalValue(), token2.ToInternalValue());
 }

 // Expect a default-constructed TaskToken to be invalid and not equal to
 // another invalid TaskToken.
 TEST(TaskTokenTest, InvalidDefaultConstructed) {
   EXPECT_FALSE(TaskToken().IsValid());
   EXPECT_NE(TaskToken(), TaskToken());
 }

 // Expect a TaskToken returned by TaskToken::GetForCurrentThread() outside the
 // scope of a TaskScope to be invalid.
 TEST(TaskTokenTest, InvalidOutsideScope) {
   EXPECT_FALSE(TaskToken::GetForCurrentThread().IsValid());
 }

 // Expect an invalid TaskToken not to be equal with a valid TaskToken.
 TEST(TaskTokenTest, ValidNotEqualsInvalid) {
   TaskScope task_scope(SequenceToken::Create(),
                        /* is_thread_bound=*/false);
   TaskToken valid = TaskToken::GetForCurrentThread();
   TaskToken invalid;
   EXPECT_NE(valid, invalid);
 }

 // Expect TaskTokens returned by TaskToken::GetForCurrentThread() in the scope
 // of the same TaskScope instance to be
 // valid and equal with each other.
 TEST(TaskTokenTest, EqualInSameScope) {
   TaskScope task_scope(SequenceToken::Create(),
                        /* is_thread_bound=*/false);

   const TaskToken token_a = TaskToken::GetForCurrentThread();
   const TaskToken token_b = TaskToken::GetForCurrentThread();

   EXPECT_TRUE(token_a.IsValid());
   EXPECT_TRUE(token_b.IsValid());
   EXPECT_EQ(token_a, token_b);
 }

 // Expect TaskTokens returned by TaskToken::GetForCurrentThread() in the scope
 // of different TaskScope instances to be
 // valid but not equal to each other.
 TEST(TaskTokenTest, NotEqualInDifferentScopes) {
   TaskToken token_a;
   TaskToken token_b;

   {
     TaskScope task_scope(SequenceToken::Create(),
                          /* is_thread_bound=*/false);
     token_a = TaskToken::GetForCurrentThread();
   }
   {
     TaskScope task_scope(SequenceToken::Create(),
                          /* is_thread_bound=*/false);
     token_b = TaskToken::GetForCurrentThread();
   }

   EXPECT_TRUE(token_a.IsValid());
   EXPECT_TRUE(token_b.IsValid());
   EXPECT_NE(token_a, token_b);
 }

 TEST(TaskScopeTest, ThreadBound) {
   // Code running outside of a `TaskScope` is thread-bound.
   EXPECT_TRUE(CurrentTaskIsThreadBound());

   {
     TaskScope scope(SequenceToken::Create(), /* is_thread_bound=*/false);
     EXPECT_FALSE(CurrentTaskIsThreadBound());
     {
       TaskScope inner_scope(SequenceToken::Create(), /* is_thread_bound=*/true);
       EXPECT_TRUE(CurrentTaskIsThreadBound());
     }
     EXPECT_FALSE(CurrentTaskIsThreadBound());
   }

   EXPECT_TRUE(CurrentTaskIsThreadBound());

   {
     TaskScope scope(SequenceToken::Create(), /* is_thread_bound=*/true);
     EXPECT_TRUE(CurrentTaskIsThreadBound());
     {
       TaskScope inner_scope(SequenceToken::Create(),
                             /* is_thread_bound=*/false);
       EXPECT_FALSE(CurrentTaskIsThreadBound());
     }
     EXPECT_TRUE(CurrentTaskIsThreadBound());
   }

   EXPECT_TRUE(CurrentTaskIsThreadBound());
 }

 }  // namespace base::internal
	// Copyright 2016 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/sequence_token.h"

	#include "testing/gtest/include/gtest/gtest.h"

	namespace base::internal {

	TEST(SequenceTokenTest, IsValid) {
	EXPECT_FALSE(SequenceToken().IsValid());
	EXPECT_TRUE(SequenceToken::Create().IsValid());
	}

	TEST(SequenceTokenTest, OperatorEquals) {
	const SequenceToken invalid_a;
	const SequenceToken invalid_b;
	const SequenceToken valid_a = SequenceToken::Create();
	const SequenceToken valid_b = SequenceToken::Create();

	EXPECT_FALSE(invalid_a == invalid_a);
	EXPECT_FALSE(invalid_a == invalid_b);
	EXPECT_FALSE(invalid_a == valid_a);
	EXPECT_FALSE(invalid_a == valid_b);

	EXPECT_FALSE(valid_a == invalid_a);
	EXPECT_FALSE(valid_a == invalid_b);
	EXPECT_EQ(valid_a, valid_a);
	EXPECT_FALSE(valid_a == valid_b);
	}

	TEST(SequenceTokenTest, OperatorNotEquals) {
	const SequenceToken invalid_a;
	const SequenceToken invalid_b;
	const SequenceToken valid_a = SequenceToken::Create();
	const SequenceToken valid_b = SequenceToken::Create();

	EXPECT_NE(invalid_a, invalid_a);
	EXPECT_NE(invalid_a, invalid_b);
	EXPECT_NE(invalid_a, valid_a);
	EXPECT_NE(invalid_a, valid_b);

	EXPECT_NE(valid_a, invalid_a);
	EXPECT_NE(valid_a, invalid_b);
	EXPECT_FALSE(valid_a != valid_a);
	EXPECT_NE(valid_a, valid_b);
	}

	TEST(SequenceTokenTest, GetForCurrentThread) {
	const SequenceToken token = SequenceToken::Create();

	EXPECT_TRUE(SequenceToken::GetForCurrentThread().IsValid());

	{
	TaskScope task_scope(token, /* is_thread_bound=*/false);
	EXPECT_TRUE(SequenceToken::GetForCurrentThread().IsValid());
	EXPECT_EQ(token, SequenceToken::GetForCurrentThread());
	}

	EXPECT_TRUE(SequenceToken::GetForCurrentThread().IsValid());
	}

	TEST(SequenceTokenTest, ToInternalValue) {
	const SequenceToken token1 = SequenceToken::Create();
	const SequenceToken token2 = SequenceToken::Create();

	// Confirm that internal values are unique.
	EXPECT_NE(token1.ToInternalValue(), token2.ToInternalValue());
	}

	// Expect a default-constructed TaskToken to be invalid and not equal to
	// another invalid TaskToken.
	TEST(TaskTokenTest, InvalidDefaultConstructed) {
	EXPECT_FALSE(TaskToken().IsValid());
	EXPECT_NE(TaskToken(), TaskToken());
	}

	// Expect a TaskToken returned by TaskToken::GetForCurrentThread() outside the
	// scope of a TaskScope to be invalid.
	TEST(TaskTokenTest, InvalidOutsideScope) {
	EXPECT_FALSE(TaskToken::GetForCurrentThread().IsValid());
	}

	// Expect an invalid TaskToken not to be equal with a valid TaskToken.
	TEST(TaskTokenTest, ValidNotEqualsInvalid) {
	TaskScope task_scope(SequenceToken::Create(),
	/* is_thread_bound=*/false);
	TaskToken valid = TaskToken::GetForCurrentThread();
	TaskToken invalid;
	EXPECT_NE(valid, invalid);
	}

	// Expect TaskTokens returned by TaskToken::GetForCurrentThread() in the scope
	// of the same TaskScope instance to be
	// valid and equal with each other.
	TEST(TaskTokenTest, EqualInSameScope) {
	TaskScope task_scope(SequenceToken::Create(),
	/* is_thread_bound=*/false);

	const TaskToken token_a = TaskToken::GetForCurrentThread();
	const TaskToken token_b = TaskToken::GetForCurrentThread();

	EXPECT_TRUE(token_a.IsValid());
	EXPECT_TRUE(token_b.IsValid());
	EXPECT_EQ(token_a, token_b);
	}

	// Expect TaskTokens returned by TaskToken::GetForCurrentThread() in the scope
	// of different TaskScope instances to be
	// valid but not equal to each other.
	TEST(TaskTokenTest, NotEqualInDifferentScopes) {
	TaskToken token_a;
	TaskToken token_b;

	{
	TaskScope task_scope(SequenceToken::Create(),
	/* is_thread_bound=*/false);
	token_a = TaskToken::GetForCurrentThread();
	}
	{
	TaskScope task_scope(SequenceToken::Create(),
	/* is_thread_bound=*/false);
	token_b = TaskToken::GetForCurrentThread();
	}

	EXPECT_TRUE(token_a.IsValid());
	EXPECT_TRUE(token_b.IsValid());
	EXPECT_NE(token_a, token_b);
	}

	TEST(TaskScopeTest, ThreadBound) {
	// Code running outside of a `TaskScope` is thread-bound.
	EXPECT_TRUE(CurrentTaskIsThreadBound());

	{
	TaskScope scope(SequenceToken::Create(), /* is_thread_bound=*/false);
	EXPECT_FALSE(CurrentTaskIsThreadBound());
	{
	TaskScope inner_scope(SequenceToken::Create(), /* is_thread_bound=*/true);
	EXPECT_TRUE(CurrentTaskIsThreadBound());
	}
	EXPECT_FALSE(CurrentTaskIsThreadBound());
	}

	EXPECT_TRUE(CurrentTaskIsThreadBound());

	{
	TaskScope scope(SequenceToken::Create(), /* is_thread_bound=*/true);
	EXPECT_TRUE(CurrentTaskIsThreadBound());
	{
	TaskScope inner_scope(SequenceToken::Create(),
	/* is_thread_bound=*/false);
	EXPECT_FALSE(CurrentTaskIsThreadBound());
	}
	EXPECT_TRUE(CurrentTaskIsThreadBound());
	}

	EXPECT_TRUE(CurrentTaskIsThreadBound());
	}

	} // namespace base::internal