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// Copyright 2021 The Dawn Authors
//
// Licensed 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 <gtest/gtest.h>
#include "common/ConcurrentCache.h"
#include "dawn_native/AsyncTask.h"
#include "dawn_platform/DawnPlatform.h"
#include "utils/SystemUtils.h"
namespace {
class SimpleCachedObject {
public:
explicit SimpleCachedObject(size_t value) : mValue(value) {
}
size_t GetValue() const {
return mValue;
}
struct EqualityFunc {
bool operator()(const SimpleCachedObject* a, const SimpleCachedObject* b) const {
return a->mValue == b->mValue;
}
};
struct HashFunc {
size_t operator()(const SimpleCachedObject* obj) const {
return obj->mValue;
}
};
private:
size_t mValue;
};
} // anonymous namespace
class ConcurrentCacheTest : public testing::Test {
public:
ConcurrentCacheTest() : mPool(mPlatform.CreateWorkerTaskPool()), mTaskManager(mPool.get()) {
}
protected:
dawn::platform::Platform mPlatform;
std::unique_ptr<dawn::platform::WorkerTaskPool> mPool;
dawn_native::AsyncTaskManager mTaskManager;
ConcurrentCache<SimpleCachedObject> mCache;
};
// Test inserting two objects that are equal to each other into the concurrent cache works as
// expected.
TEST_F(ConcurrentCacheTest, InsertAtSameTime) {
SimpleCachedObject cachedObject(1);
SimpleCachedObject anotherCachedObject(1);
std::pair<SimpleCachedObject*, bool> insertOutput = {};
std::pair<SimpleCachedObject*, bool> anotherInsertOutput = {};
ConcurrentCache<SimpleCachedObject>* cachePtr = &mCache;
dawn_native::AsyncTask asyncTask1([&insertOutput, cachePtr, &cachedObject] {
insertOutput = cachePtr->Insert(&cachedObject);
});
dawn_native::AsyncTask asyncTask2([&anotherInsertOutput, cachePtr, &anotherCachedObject] {
anotherInsertOutput = cachePtr->Insert(&anotherCachedObject);
});
mTaskManager.PostTask(std::move(asyncTask1));
mTaskManager.PostTask(std::move(asyncTask2));
mTaskManager.WaitAllPendingTasks();
ASSERT_TRUE(insertOutput.first == &cachedObject || insertOutput.first == &anotherCachedObject);
ASSERT_EQ(insertOutput.first, anotherInsertOutput.first);
ASSERT_EQ(insertOutput.second, !anotherInsertOutput.second);
}
// Testing erasing an object after inserting into the cache works as expected.
TEST_F(ConcurrentCacheTest, EraseAfterInsertion) {
SimpleCachedObject cachedObject(1);
std::pair<SimpleCachedObject*, bool> insertOutput = {};
ConcurrentCache<SimpleCachedObject>* cachePtr = &mCache;
dawn_native::AsyncTask insertTask([&insertOutput, cachePtr, &cachedObject] {
insertOutput = cachePtr->Insert(&cachedObject);
});
size_t erasedObjectCount = 0;
dawn_native::AsyncTask eraseTask([&erasedObjectCount, cachePtr, &cachedObject] {
while (cachePtr->Find(&cachedObject) == nullptr) {
utils::USleep(100);
}
erasedObjectCount = cachePtr->Erase(&cachedObject);
});
mTaskManager.PostTask(std::move(insertTask));
mTaskManager.PostTask(std::move(eraseTask));
mTaskManager.WaitAllPendingTasks();
ASSERT_EQ(&cachedObject, insertOutput.first);
ASSERT_TRUE(insertOutput.second);
ASSERT_EQ(1u, erasedObjectCount);
}