be/src/kudu/util/atomic-test.cc - impala - Git at Google

 // Licensed to the Apache Software Foundation (ASF) under one
 // or more contributor license agreements.  See the NOTICE file
 // distributed with this work for additional information
 // regarding copyright ownership.  The ASF licenses this file
 // to you under the Apache License, Version 2.0 (the
 // "License"); you may not use this file except in compliance
 // with the License.  You may obtain a copy of the License at
 //
 //   http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing,
 // software distributed under the License is distributed on an
 // "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 // KIND, either express or implied.  See the License for the
 // specific language governing permissions and limitations
 // under the License.

 #include "kudu/util/atomic.h"

 #include <cstdint>
 #include <limits>
 #include <vector>

 #include <gtest/gtest.h>

 #include "kudu/util/test_util.h"

 namespace kudu {

 using std::numeric_limits;
 using std::vector;

 // TODO Add some multi-threaded tests; currently AtomicInt is just a
 // wrapper around 'atomicops.h', but should the underlying
 // implemention change, it would help to have tests that make sure
 // invariants are preserved in a multi-threaded environment.

 template<typename T>
 class AtomicIntTest : public KuduTest {
  public:

   AtomicIntTest()
       : max_(numeric_limits<T>::max()),
         min_(numeric_limits<T>::min()) {
     acquire_release_ = { kMemOrderNoBarrier, kMemOrderAcquire, kMemOrderRelease };
     barrier_ = { kMemOrderNoBarrier, kMemOrderBarrier };
   }

   vector<MemoryOrder> acquire_release_;
   vector<MemoryOrder> barrier_;

   T max_;
   T min_;
 };

 typedef ::testing::Types<int32_t, int64_t, uint32_t, uint64_t> IntTypes;
 TYPED_TEST_CASE(AtomicIntTest, IntTypes);

 TYPED_TEST(AtomicIntTest, LoadStore) {
   for (const MemoryOrder mem_order : this->acquire_release_) {
     AtomicInt<TypeParam> i(0);
     EXPECT_EQ(0, i.Load(mem_order));
     i.Store(42, mem_order);
     EXPECT_EQ(42, i.Load(mem_order));
     i.Store(this->min_, mem_order);
     EXPECT_EQ(this->min_, i.Load(mem_order));
     i.Store(this->max_, mem_order);
     EXPECT_EQ(this->max_, i.Load(mem_order));
   }
 }

 TYPED_TEST(AtomicIntTest, SetSwapExchange) {
   for (const MemoryOrder mem_order : this->acquire_release_) {
     AtomicInt<TypeParam> i(0);
     EXPECT_TRUE(i.CompareAndSet(0, 5, mem_order));
     EXPECT_EQ(5, i.Load(mem_order));
     EXPECT_FALSE(i.CompareAndSet(0, 10, mem_order));

     EXPECT_EQ(5, i.CompareAndSwap(5, this->max_, mem_order));
     EXPECT_EQ(this->max_, i.CompareAndSwap(42, 42, mem_order));
     EXPECT_EQ(this->max_, i.CompareAndSwap(this->max_, this->min_, mem_order));

     EXPECT_EQ(this->min_, i.Exchange(this->max_, mem_order));
     EXPECT_EQ(this->max_, i.Load(mem_order));
   }
 }

 TYPED_TEST(AtomicIntTest, MinMax) {
   for (const MemoryOrder mem_order : this->acquire_release_) {
     AtomicInt<TypeParam> i(0);

     i.StoreMax(100, mem_order);
     EXPECT_EQ(100, i.Load(mem_order));
     i.StoreMin(50, mem_order);
     EXPECT_EQ(50, i.Load(mem_order));

     i.StoreMax(25, mem_order);
     EXPECT_EQ(50, i.Load(mem_order));
     i.StoreMin(75, mem_order);
     EXPECT_EQ(50, i.Load(mem_order));

     i.StoreMax(this->max_, mem_order);
     EXPECT_EQ(this->max_, i.Load(mem_order));
     i.StoreMin(this->min_, mem_order);
     EXPECT_EQ(this->min_, i.Load(mem_order));
   }
 }

 TYPED_TEST(AtomicIntTest, Increment) {
   for (const MemoryOrder mem_order : this->barrier_) {
     AtomicInt<TypeParam> i(0);
     EXPECT_EQ(1, i.Increment(mem_order));
     EXPECT_EQ(3, i.IncrementBy(2, mem_order));
     EXPECT_EQ(3, i.IncrementBy(0, mem_order));
   }
 }

 TEST(Atomic, AtomicBool) {
   vector<MemoryOrder> memory_orders = { kMemOrderNoBarrier, kMemOrderRelease, kMemOrderAcquire };
   for (const MemoryOrder mem_order : memory_orders) {
     AtomicBool b(false);
     EXPECT_FALSE(b.Load(mem_order));
     b.Store(true, mem_order);
     EXPECT_TRUE(b.Load(mem_order));
     EXPECT_TRUE(b.CompareAndSet(true, false, mem_order));
     EXPECT_FALSE(b.Load(mem_order));
     EXPECT_FALSE(b.CompareAndSet(true, false, mem_order));
     EXPECT_FALSE(b.CompareAndSwap(false, true, mem_order));
     EXPECT_TRUE(b.Load(mem_order));
     EXPECT_TRUE(b.Exchange(false, mem_order));
     EXPECT_FALSE(b.Load(mem_order));
   }
 }

 } // namespace kudu
	// Licensed to the Apache Software Foundation (ASF) under one
	// or more contributor license agreements. See the NOTICE file
	// distributed with this work for additional information
	// regarding copyright ownership. The ASF licenses this file
	// to you under the Apache License, Version 2.0 (the
	// "License"); you may not use this file except in compliance
	// with the License. You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing,
	// software distributed under the License is distributed on an
	// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	// KIND, either express or implied. See the License for the
	// specific language governing permissions and limitations
	// under the License.

	#include "kudu/util/atomic.h"

	#include <cstdint>
	#include <limits>
	#include <vector>

	#include <gtest/gtest.h>

	#include "kudu/util/test_util.h"

	namespace kudu {

	using std::numeric_limits;
	using std::vector;

	// TODO Add some multi-threaded tests; currently AtomicInt is just a
	// wrapper around 'atomicops.h', but should the underlying
	// implemention change, it would help to have tests that make sure
	// invariants are preserved in a multi-threaded environment.

	template<typename T>
	class AtomicIntTest : public KuduTest {
	public:

	AtomicIntTest()
	: max_(numeric_limits<T>::max()),
	min_(numeric_limits<T>::min()) {
	acquire_release_ = { kMemOrderNoBarrier, kMemOrderAcquire, kMemOrderRelease };
	barrier_ = { kMemOrderNoBarrier, kMemOrderBarrier };
	}

	vector<MemoryOrder> acquire_release_;
	vector<MemoryOrder> barrier_;

	T max_;
	T min_;
	};

	typedef ::testing::Types<int32_t, int64_t, uint32_t, uint64_t> IntTypes;
	TYPED_TEST_CASE(AtomicIntTest, IntTypes);

	TYPED_TEST(AtomicIntTest, LoadStore) {
	for (const MemoryOrder mem_order : this->acquire_release_) {
	AtomicInt<TypeParam> i(0);
	EXPECT_EQ(0, i.Load(mem_order));
	i.Store(42, mem_order);
	EXPECT_EQ(42, i.Load(mem_order));
	i.Store(this->min_, mem_order);
	EXPECT_EQ(this->min_, i.Load(mem_order));
	i.Store(this->max_, mem_order);
	EXPECT_EQ(this->max_, i.Load(mem_order));
	}
	}

	TYPED_TEST(AtomicIntTest, SetSwapExchange) {
	for (const MemoryOrder mem_order : this->acquire_release_) {
	AtomicInt<TypeParam> i(0);
	EXPECT_TRUE(i.CompareAndSet(0, 5, mem_order));
	EXPECT_EQ(5, i.Load(mem_order));
	EXPECT_FALSE(i.CompareAndSet(0, 10, mem_order));

	EXPECT_EQ(5, i.CompareAndSwap(5, this->max_, mem_order));
	EXPECT_EQ(this->max_, i.CompareAndSwap(42, 42, mem_order));
	EXPECT_EQ(this->max_, i.CompareAndSwap(this->max_, this->min_, mem_order));

	EXPECT_EQ(this->min_, i.Exchange(this->max_, mem_order));
	EXPECT_EQ(this->max_, i.Load(mem_order));
	}
	}

	TYPED_TEST(AtomicIntTest, MinMax) {
	for (const MemoryOrder mem_order : this->acquire_release_) {
	AtomicInt<TypeParam> i(0);

	i.StoreMax(100, mem_order);
	EXPECT_EQ(100, i.Load(mem_order));
	i.StoreMin(50, mem_order);
	EXPECT_EQ(50, i.Load(mem_order));

	i.StoreMax(25, mem_order);
	EXPECT_EQ(50, i.Load(mem_order));
	i.StoreMin(75, mem_order);
	EXPECT_EQ(50, i.Load(mem_order));

	i.StoreMax(this->max_, mem_order);
	EXPECT_EQ(this->max_, i.Load(mem_order));
	i.StoreMin(this->min_, mem_order);
	EXPECT_EQ(this->min_, i.Load(mem_order));
	}
	}

	TYPED_TEST(AtomicIntTest, Increment) {
	for (const MemoryOrder mem_order : this->barrier_) {
	AtomicInt<TypeParam> i(0);
	EXPECT_EQ(1, i.Increment(mem_order));
	EXPECT_EQ(3, i.IncrementBy(2, mem_order));
	EXPECT_EQ(3, i.IncrementBy(0, mem_order));
	}
	}

	TEST(Atomic, AtomicBool) {
	vector<MemoryOrder> memory_orders = { kMemOrderNoBarrier, kMemOrderRelease, kMemOrderAcquire };
	for (const MemoryOrder mem_order : memory_orders) {
	AtomicBool b(false);
	EXPECT_FALSE(b.Load(mem_order));
	b.Store(true, mem_order);
	EXPECT_TRUE(b.Load(mem_order));
	EXPECT_TRUE(b.CompareAndSet(true, false, mem_order));
	EXPECT_FALSE(b.Load(mem_order));
	EXPECT_FALSE(b.CompareAndSet(true, false, mem_order));
	EXPECT_FALSE(b.CompareAndSwap(false, true, mem_order));
	EXPECT_TRUE(b.Load(mem_order));
	EXPECT_TRUE(b.Exchange(false, mem_order));
	EXPECT_FALSE(b.Load(mem_order));
	}
	}

	} // namespace kudu