mirror of
https://github.com/facebook/rocksdb.git
synced 2024-11-30 04:41:49 +00:00
13de000f07
Summary: In some environment such as android, the c++ library does not have std::to_string. This path adds rocksdb::ToString(), which wraps std::to_string when std::to_string is not available, and implements std::to_string in the other case. Test Plan: make dbg -j32 ./db_test make clean make dbg OPT=-DOS_ANDROID -j32 ./db_test Reviewers: ljin, sdong, igor Reviewed By: igor Subscribers: dhruba, leveldb Differential Revision: https://reviews.facebook.net/D29181
452 lines
12 KiB
C++
452 lines
12 KiB
C++
// Copyright (c) 2013, Facebook, Inc. All rights reserved.
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// This source code is licensed under the BSD-style license found in the
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// LICENSE file in the root directory of this source tree. An additional grant
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// of patent rights can be found in the PATENTS file in the same directory.
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//
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// Copyright (c) 2011 The LevelDB Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file. See the AUTHORS file for names of contributors.
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#include "rocksdb/cache.h"
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#include <vector>
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#include <string>
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#include <iostream>
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#include "util/coding.h"
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#include "util/testharness.h"
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namespace rocksdb {
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// Conversions between numeric keys/values and the types expected by Cache.
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static std::string EncodeKey(int k) {
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std::string result;
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PutFixed32(&result, k);
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return result;
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}
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static int DecodeKey(const Slice& k) {
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assert(k.size() == 4);
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return DecodeFixed32(k.data());
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}
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static void* EncodeValue(uintptr_t v) { return reinterpret_cast<void*>(v); }
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static int DecodeValue(void* v) {
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return static_cast<int>(reinterpret_cast<uintptr_t>(v));
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}
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class CacheTest {
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public:
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static CacheTest* current_;
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static void Deleter(const Slice& key, void* v) {
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current_->deleted_keys_.push_back(DecodeKey(key));
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current_->deleted_values_.push_back(DecodeValue(v));
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}
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static const int kCacheSize = 1000;
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static const int kNumShardBits = 4;
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static const int kRemoveScanCountLimit = 16;
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static const int kCacheSize2 = 100;
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static const int kNumShardBits2 = 2;
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static const int kRemoveScanCountLimit2 = 200;
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std::vector<int> deleted_keys_;
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std::vector<int> deleted_values_;
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shared_ptr<Cache> cache_;
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shared_ptr<Cache> cache2_;
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CacheTest() :
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cache_(NewLRUCache(kCacheSize, kNumShardBits, kRemoveScanCountLimit)),
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cache2_(NewLRUCache(kCacheSize2, kNumShardBits2,
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kRemoveScanCountLimit2)) {
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current_ = this;
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}
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~CacheTest() {
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}
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int Lookup(shared_ptr<Cache> cache, int key) {
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Cache::Handle* handle = cache->Lookup(EncodeKey(key));
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const int r = (handle == nullptr) ? -1 : DecodeValue(cache->Value(handle));
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if (handle != nullptr) {
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cache->Release(handle);
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}
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return r;
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}
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void Insert(shared_ptr<Cache> cache, int key, int value, int charge = 1) {
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cache->Release(cache->Insert(EncodeKey(key), EncodeValue(value), charge,
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&CacheTest::Deleter));
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}
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void Erase(shared_ptr<Cache> cache, int key) {
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cache->Erase(EncodeKey(key));
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}
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int Lookup(int key) {
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return Lookup(cache_, key);
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}
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void Insert(int key, int value, int charge = 1) {
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Insert(cache_, key, value, charge);
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}
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void Erase(int key) {
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Erase(cache_, key);
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}
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int Lookup2(int key) {
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return Lookup(cache2_, key);
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}
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void Insert2(int key, int value, int charge = 1) {
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Insert(cache2_, key, value, charge);
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}
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void Erase2(int key) {
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Erase(cache2_, key);
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}
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};
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CacheTest* CacheTest::current_;
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namespace {
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void dumbDeleter(const Slice& key, void* value) { }
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} // namespace
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TEST(CacheTest, UsageTest) {
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// cache is shared_ptr and will be automatically cleaned up.
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const uint64_t kCapacity = 100000;
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auto cache = NewLRUCache(kCapacity, 8, 200);
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size_t usage = 0;
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const char* value = "abcdef";
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// make sure everything will be cached
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for (int i = 1; i < 100; ++i) {
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std::string key(i, 'a');
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auto kv_size = key.size() + 5;
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cache->Release(
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cache->Insert(key, (void*)value, kv_size, dumbDeleter)
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);
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usage += kv_size;
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ASSERT_EQ(usage, cache->GetUsage());
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}
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// make sure the cache will be overloaded
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for (uint64_t i = 1; i < kCapacity; ++i) {
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auto key = ToString(i);
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cache->Release(
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cache->Insert(key, (void*)value, key.size() + 5, dumbDeleter)
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);
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}
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// the usage should be close to the capacity
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ASSERT_GT(kCapacity, cache->GetUsage());
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ASSERT_LT(kCapacity * 0.95, cache->GetUsage());
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}
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TEST(CacheTest, HitAndMiss) {
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ASSERT_EQ(-1, Lookup(100));
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Insert(100, 101);
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ASSERT_EQ(101, Lookup(100));
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ASSERT_EQ(-1, Lookup(200));
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ASSERT_EQ(-1, Lookup(300));
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Insert(200, 201);
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ASSERT_EQ(101, Lookup(100));
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ASSERT_EQ(201, Lookup(200));
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ASSERT_EQ(-1, Lookup(300));
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Insert(100, 102);
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ASSERT_EQ(102, Lookup(100));
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ASSERT_EQ(201, Lookup(200));
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ASSERT_EQ(-1, Lookup(300));
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ASSERT_EQ(1U, deleted_keys_.size());
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ASSERT_EQ(100, deleted_keys_[0]);
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ASSERT_EQ(101, deleted_values_[0]);
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}
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TEST(CacheTest, Erase) {
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Erase(200);
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ASSERT_EQ(0U, deleted_keys_.size());
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Insert(100, 101);
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Insert(200, 201);
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Erase(100);
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ASSERT_EQ(-1, Lookup(100));
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ASSERT_EQ(201, Lookup(200));
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ASSERT_EQ(1U, deleted_keys_.size());
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ASSERT_EQ(100, deleted_keys_[0]);
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ASSERT_EQ(101, deleted_values_[0]);
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Erase(100);
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ASSERT_EQ(-1, Lookup(100));
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ASSERT_EQ(201, Lookup(200));
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ASSERT_EQ(1U, deleted_keys_.size());
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}
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TEST(CacheTest, EntriesArePinned) {
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Insert(100, 101);
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Cache::Handle* h1 = cache_->Lookup(EncodeKey(100));
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ASSERT_EQ(101, DecodeValue(cache_->Value(h1)));
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Insert(100, 102);
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Cache::Handle* h2 = cache_->Lookup(EncodeKey(100));
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ASSERT_EQ(102, DecodeValue(cache_->Value(h2)));
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ASSERT_EQ(0U, deleted_keys_.size());
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cache_->Release(h1);
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ASSERT_EQ(1U, deleted_keys_.size());
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ASSERT_EQ(100, deleted_keys_[0]);
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ASSERT_EQ(101, deleted_values_[0]);
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Erase(100);
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ASSERT_EQ(-1, Lookup(100));
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ASSERT_EQ(1U, deleted_keys_.size());
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cache_->Release(h2);
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ASSERT_EQ(2U, deleted_keys_.size());
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ASSERT_EQ(100, deleted_keys_[1]);
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ASSERT_EQ(102, deleted_values_[1]);
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}
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TEST(CacheTest, EvictionPolicy) {
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Insert(100, 101);
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Insert(200, 201);
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// Frequently used entry must be kept around
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for (int i = 0; i < kCacheSize + 100; i++) {
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Insert(1000+i, 2000+i);
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ASSERT_EQ(2000+i, Lookup(1000+i));
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ASSERT_EQ(101, Lookup(100));
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}
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ASSERT_EQ(101, Lookup(100));
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ASSERT_EQ(-1, Lookup(200));
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}
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TEST(CacheTest, EvictionPolicyRef) {
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Insert(100, 101);
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Insert(101, 102);
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Insert(102, 103);
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Insert(103, 104);
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Insert(200, 101);
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Insert(201, 102);
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Insert(202, 103);
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Insert(203, 104);
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Cache::Handle* h201 = cache_->Lookup(EncodeKey(200));
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Cache::Handle* h202 = cache_->Lookup(EncodeKey(201));
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Cache::Handle* h203 = cache_->Lookup(EncodeKey(202));
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Cache::Handle* h204 = cache_->Lookup(EncodeKey(203));
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Insert(300, 101);
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Insert(301, 102);
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Insert(302, 103);
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Insert(303, 104);
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// Insert entries much more than Cache capacity
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for (int i = 0; i < kCacheSize + 100; i++) {
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Insert(1000 + i, 2000 + i);
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}
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// Check whether the entries inserted in the beginning
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// are evicted. Ones without extra ref are evicted and
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// those with are not.
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ASSERT_EQ(-1, Lookup(100));
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ASSERT_EQ(-1, Lookup(101));
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ASSERT_EQ(-1, Lookup(102));
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ASSERT_EQ(-1, Lookup(103));
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ASSERT_EQ(-1, Lookup(300));
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ASSERT_EQ(-1, Lookup(301));
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ASSERT_EQ(-1, Lookup(302));
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ASSERT_EQ(-1, Lookup(303));
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ASSERT_EQ(101, Lookup(200));
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ASSERT_EQ(102, Lookup(201));
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ASSERT_EQ(103, Lookup(202));
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ASSERT_EQ(104, Lookup(203));
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// Cleaning up all the handles
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cache_->Release(h201);
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cache_->Release(h202);
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cache_->Release(h203);
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cache_->Release(h204);
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}
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TEST(CacheTest, EvictionPolicyRef2) {
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std::vector<Cache::Handle*> handles;
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Insert(100, 101);
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// Insert entries much more than Cache capacity
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for (int i = 0; i < kCacheSize + 100; i++) {
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Insert(1000 + i, 2000 + i);
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if (i < kCacheSize ) {
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handles.push_back(cache_->Lookup(EncodeKey(1000 + i)));
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}
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}
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// Make sure referenced keys are also possible to be deleted
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// if there are not sufficient non-referenced keys
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for (int i = 0; i < 5; i++) {
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ASSERT_EQ(-1, Lookup(1000 + i));
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}
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for (int i = kCacheSize; i < kCacheSize + 100; i++) {
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ASSERT_EQ(2000 + i, Lookup(1000 + i));
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}
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ASSERT_EQ(-1, Lookup(100));
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// Cleaning up all the handles
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while (handles.size() > 0) {
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cache_->Release(handles.back());
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handles.pop_back();
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}
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}
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TEST(CacheTest, EvictionPolicyRefLargeScanLimit) {
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std::vector<Cache::Handle*> handles2;
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// Cache2 has a cache RemoveScanCountLimit higher than cache size
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// so it would trigger a boundary condition.
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// Populate the cache with 10 more keys than its size.
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// Reference all keys except one close to the end.
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for (int i = 0; i < kCacheSize2 + 10; i++) {
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Insert2(1000 + i, 2000+i);
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if (i != kCacheSize2 ) {
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handles2.push_back(cache2_->Lookup(EncodeKey(1000 + i)));
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}
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}
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// Make sure referenced keys are also possible to be deleted
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// if there are not sufficient non-referenced keys
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for (int i = 0; i < 3; i++) {
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ASSERT_EQ(-1, Lookup2(1000 + i));
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}
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// The non-referenced value is deleted even if it's accessed
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// recently.
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ASSERT_EQ(-1, Lookup2(1000 + kCacheSize2));
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// Other values recently accessed are not deleted since they
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// are referenced.
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for (int i = kCacheSize2 - 10; i < kCacheSize2 + 10; i++) {
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if (i != kCacheSize2) {
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ASSERT_EQ(2000 + i, Lookup2(1000 + i));
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}
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}
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// Cleaning up all the handles
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while (handles2.size() > 0) {
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cache2_->Release(handles2.back());
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handles2.pop_back();
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}
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}
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TEST(CacheTest, HeavyEntries) {
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// Add a bunch of light and heavy entries and then count the combined
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// size of items still in the cache, which must be approximately the
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// same as the total capacity.
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const int kLight = 1;
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const int kHeavy = 10;
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int added = 0;
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int index = 0;
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while (added < 2*kCacheSize) {
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const int weight = (index & 1) ? kLight : kHeavy;
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Insert(index, 1000+index, weight);
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added += weight;
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index++;
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}
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int cached_weight = 0;
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for (int i = 0; i < index; i++) {
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const int weight = (i & 1 ? kLight : kHeavy);
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int r = Lookup(i);
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if (r >= 0) {
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cached_weight += weight;
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ASSERT_EQ(1000+i, r);
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}
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}
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ASSERT_LE(cached_weight, kCacheSize + kCacheSize/10);
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}
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TEST(CacheTest, NewId) {
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uint64_t a = cache_->NewId();
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uint64_t b = cache_->NewId();
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ASSERT_NE(a, b);
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}
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class Value {
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private:
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int v_;
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public:
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explicit Value(int v) : v_(v) { }
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~Value() { std::cout << v_ << " is destructed\n"; }
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};
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namespace {
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void deleter(const Slice& key, void* value) {
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delete static_cast<Value *>(value);
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}
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} // namespace
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TEST(CacheTest, BadEviction) {
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int n = 10;
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// a LRUCache with n entries and one shard only
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std::shared_ptr<Cache> cache = NewLRUCache(n, 0);
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std::vector<Cache::Handle*> handles(n+1);
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// Insert n+1 entries, but not releasing.
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for (int i = 0; i < n+1; i++) {
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std::string key = ToString(i+1);
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handles[i] = cache->Insert(key, new Value(i+1), 1, &deleter);
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}
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// Guess what's in the cache now?
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for (int i = 0; i < n+1; i++) {
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std::string key = ToString(i+1);
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auto h = cache->Lookup(key);
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std::cout << key << (h?" found\n":" not found\n");
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// Only the first entry should be missing
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ASSERT_TRUE(h || i == 0);
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if (h) cache->Release(h);
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}
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for (int i = 0; i < n+1; i++) {
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cache->Release(handles[i]);
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}
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std::cout << "Poor entries\n";
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}
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namespace {
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std::vector<std::pair<int, int>> callback_state;
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void callback(void* entry, size_t charge) {
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callback_state.push_back({DecodeValue(entry), static_cast<int>(charge)});
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}
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};
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TEST(CacheTest, ApplyToAllCacheEntiresTest) {
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std::vector<std::pair<int, int>> inserted;
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callback_state.clear();
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for (int i = 0; i < 10; ++i) {
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Insert(i, i * 2, i + 1);
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inserted.push_back({i * 2, i + 1});
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}
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cache_->ApplyToAllCacheEntries(callback, true);
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sort(inserted.begin(), inserted.end());
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sort(callback_state.begin(), callback_state.end());
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ASSERT_TRUE(inserted == callback_state);
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}
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} // namespace rocksdb
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int main(int argc, char** argv) {
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return rocksdb::test::RunAllTests();
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}
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