src/third_party/angle/src/libANGLE/SizedMRUCache_unittest.cpp - cobalt - Git at Google

 //
 // Copyright 2017 The ANGLE 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.
 //
 // SizedMRUCache_unittest.h: Unit tests for the sized MRU cached.

 #include <gtest/gtest.h>

 #include "libANGLE/SizedMRUCache.h"

 namespace angle
 {

 using Blob = std::vector<uint8_t>;

 Blob MakeBlob(size_t size)
 {
     Blob blob;
     for (uint8_t value = 0; value < size; ++value)
     {
         blob.push_back(value);
     }
     return blob;
 }

 // Test a cache with a value that takes up maximum size.
 TEST(SizedMRUCacheTest, MaxSizedValue)
 {
     constexpr size_t kSize = 32;
     SizedMRUCache<std::string, Blob> sizedCache(kSize);

     EXPECT_TRUE(sizedCache.put("test", MakeBlob(kSize), kSize));
     EXPECT_EQ(32u, sizedCache.size());
     EXPECT_FALSE(sizedCache.empty());

     EXPECT_TRUE(sizedCache.put("test2", MakeBlob(kSize), kSize));
     EXPECT_EQ(32u, sizedCache.size());
     EXPECT_FALSE(sizedCache.empty());

     const Blob *blob = nullptr;
     EXPECT_FALSE(sizedCache.get("test", &blob));

     sizedCache.clear();
     EXPECT_TRUE(sizedCache.empty());
 }

 // Test a cache with many small values, that it can handle unlimited inserts.
 TEST(SizedMRUCacheTest, ManySmallValues)
 {
     constexpr size_t kSize = 32;
     SizedMRUCache<size_t, size_t> sizedCache(kSize);

     for (size_t value = 0; value < kSize; ++value)
     {
         EXPECT_TRUE(sizedCache.put(value, std::move(value), 1));

         const size_t *qvalue = nullptr;
         EXPECT_TRUE(sizedCache.get(value, &qvalue));
         if (qvalue)
         {
             EXPECT_EQ(value, *qvalue);
         }
     }

     EXPECT_EQ(32u, sizedCache.size());
     EXPECT_FALSE(sizedCache.empty());

     // Putting one element evicts the first element.
     EXPECT_TRUE(sizedCache.put(kSize, std::move(static_cast<int>(kSize)), 1));

     const size_t *qvalue = nullptr;
     EXPECT_FALSE(sizedCache.get(0, &qvalue));

     // Putting one large element cleans out the whole stack.
     EXPECT_TRUE(sizedCache.put(kSize + 1, kSize + 1, kSize));
     EXPECT_EQ(32u, sizedCache.size());
     EXPECT_FALSE(sizedCache.empty());

     for (size_t value = 0; value <= kSize; ++value)
     {
         EXPECT_FALSE(sizedCache.get(value, &qvalue));
     }
     EXPECT_TRUE(sizedCache.get(kSize + 1, &qvalue));
     if (qvalue)
     {
         EXPECT_EQ(kSize + 1, *qvalue);
     }

     // Put a bunch of items in the cache sequentially.
     for (size_t value = 0; value < kSize * 10; ++value)
     {
         EXPECT_TRUE(sizedCache.put(value, std::move(value), 1));
     }

     EXPECT_EQ(32u, sizedCache.size());
 }

 // Tests putting an oversize element.
 TEST(SizedMRUCacheTest, OversizeValue)
 {
     constexpr size_t kSize = 32;
     SizedMRUCache<size_t, size_t> sizedCache(kSize);

     EXPECT_FALSE(sizedCache.put(5, 5, 100));
 }

 }  // namespace angle
	//
	// Copyright 2017 The ANGLE 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.
	//
	// SizedMRUCache_unittest.h: Unit tests for the sized MRU cached.

	#include <gtest/gtest.h>

	#include "libANGLE/SizedMRUCache.h"

	namespace angle
	{

	using Blob = std::vector<uint8_t>;

	Blob MakeBlob(size_t size)
	{
	Blob blob;
	for (uint8_t value = 0; value < size; ++value)
	{
	blob.push_back(value);
	}
	return blob;
	}

	// Test a cache with a value that takes up maximum size.
	TEST(SizedMRUCacheTest, MaxSizedValue)
	{
	constexpr size_t kSize = 32;
	SizedMRUCache<std::string, Blob> sizedCache(kSize);

	EXPECT_TRUE(sizedCache.put("test", MakeBlob(kSize), kSize));
	EXPECT_EQ(32u, sizedCache.size());
	EXPECT_FALSE(sizedCache.empty());

	EXPECT_TRUE(sizedCache.put("test2", MakeBlob(kSize), kSize));
	EXPECT_EQ(32u, sizedCache.size());
	EXPECT_FALSE(sizedCache.empty());

	const Blob *blob = nullptr;
	EXPECT_FALSE(sizedCache.get("test", &blob));

	sizedCache.clear();
	EXPECT_TRUE(sizedCache.empty());
	}

	// Test a cache with many small values, that it can handle unlimited inserts.
	TEST(SizedMRUCacheTest, ManySmallValues)
	{
	constexpr size_t kSize = 32;
	SizedMRUCache<size_t, size_t> sizedCache(kSize);

	for (size_t value = 0; value < kSize; ++value)
	{
	EXPECT_TRUE(sizedCache.put(value, std::move(value), 1));

	const size_t *qvalue = nullptr;
	EXPECT_TRUE(sizedCache.get(value, &qvalue));
	if (qvalue)
	{
	EXPECT_EQ(value, *qvalue);
	}
	}

	EXPECT_EQ(32u, sizedCache.size());
	EXPECT_FALSE(sizedCache.empty());

	// Putting one element evicts the first element.
	EXPECT_TRUE(sizedCache.put(kSize, std::move(static_cast<int>(kSize)), 1));

	const size_t *qvalue = nullptr;
	EXPECT_FALSE(sizedCache.get(0, &qvalue));

	// Putting one large element cleans out the whole stack.
	EXPECT_TRUE(sizedCache.put(kSize + 1, kSize + 1, kSize));
	EXPECT_EQ(32u, sizedCache.size());
	EXPECT_FALSE(sizedCache.empty());

	for (size_t value = 0; value <= kSize; ++value)
	{
	EXPECT_FALSE(sizedCache.get(value, &qvalue));
	}
	EXPECT_TRUE(sizedCache.get(kSize + 1, &qvalue));
	if (qvalue)
	{
	EXPECT_EQ(kSize + 1, *qvalue);
	}

	// Put a bunch of items in the cache sequentially.
	for (size_t value = 0; value < kSize * 10; ++value)
	{
	EXPECT_TRUE(sizedCache.put(value, std::move(value), 1));
	}

	EXPECT_EQ(32u, sizedCache.size());
	}

	// Tests putting an oversize element.
	TEST(SizedMRUCacheTest, OversizeValue)
	{
	constexpr size_t kSize = 32;
	SizedMRUCache<size_t, size_t> sizedCache(kSize);

	EXPECT_FALSE(sizedCache.put(5, 5, 100));
	}

	} // namespace angle