blob: 70901b63b4c517f43cf8c75f33c5d81685fbe92b [file] [log] [blame]
/*
* Copyright (C) 2012 The Android Open Source Project
*
* 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.
*/
#ifndef ANDROID_UTILS_LRU_CACHE_H
#define ANDROID_UTILS_LRU_CACHE_H
#include <memory>
#include <unordered_set>
#include "utils/TypeHelpers.h" // hash_t
namespace android {
/**
* GenerationCache callback used when an item is removed
*/
template<typename EntryKey, typename EntryValue>
class OnEntryRemoved {
public:
virtual ~OnEntryRemoved() { };
virtual void operator()(EntryKey& key, EntryValue& value) = 0;
}; // class OnEntryRemoved
template <typename TKey, typename TValue>
class LruCache {
public:
explicit LruCache(uint32_t maxCapacity);
virtual ~LruCache();
enum Capacity {
kUnlimitedCapacity,
};
void setOnEntryRemovedListener(OnEntryRemoved<TKey, TValue>* listener);
size_t size() const;
const TValue& get(const TKey& key);
bool put(const TKey& key, const TValue& value);
bool remove(const TKey& key);
bool removeOldest();
void clear();
const TValue& peekOldestValue();
private:
LruCache(const LruCache& that); // disallow copy constructor
// Super class so that we can have entries having only a key reference, for searches.
class KeyedEntry {
public:
virtual const TKey& getKey() const = 0;
// Make sure the right destructor is executed so that keys and values are deleted.
virtual ~KeyedEntry() {}
};
class Entry final : public KeyedEntry {
public:
TKey key;
TValue value;
Entry* parent;
Entry* child;
Entry(TKey _key, TValue _value) : key(_key), value(_value), parent(nullptr), child(nullptr) {
}
const TKey& getKey() const final { return key; }
};
class EntryForSearch : public KeyedEntry {
public:
const TKey& key;
EntryForSearch(const TKey& key_) : key(key_) {
}
const TKey& getKey() const final { return key; }
};
struct HashForEntry {
size_t operator() (const KeyedEntry* entry) const {
return hash_type(entry->getKey());
};
};
struct EqualityForHashedEntries {
bool operator() (const KeyedEntry* lhs, const KeyedEntry* rhs) const {
return lhs->getKey() == rhs->getKey();
};
};
// All entries in the set will be Entry*. Using the weaker KeyedEntry as to allow entries
// that have only a key reference, for searching.
typedef std::unordered_set<KeyedEntry*, HashForEntry, EqualityForHashedEntries> LruCacheSet;
void attachToCache(Entry& entry);
void detachFromCache(Entry& entry);
typename LruCacheSet::iterator findByKey(const TKey& key) {
EntryForSearch entryForSearch(key);
typename LruCacheSet::iterator result = mSet->find(&entryForSearch);
return result;
}
std::unique_ptr<LruCacheSet> mSet;
OnEntryRemoved<TKey, TValue>* mListener;
Entry* mOldest;
Entry* mYoungest;
uint32_t mMaxCapacity;
TValue mNullValue;
public:
// To be used like:
// while (it.next()) {
// it.value(); it.key();
// }
class Iterator {
public:
Iterator(const LruCache<TKey, TValue>& cache):
mCache(cache), mIterator(mCache.mSet->begin()), mBeginReturned(false) {
}
bool next() {
if (mIterator == mCache.mSet->end()) {
return false;
}
if (!mBeginReturned) {
// mIterator has been initialized to the beginning and
// hasn't been returned. Do not advance:
mBeginReturned = true;
} else {
std::advance(mIterator, 1);
}
bool ret = (mIterator != mCache.mSet->end());
return ret;
}
const TValue& value() const {
// All the elements in the set are of type Entry. See comment in the definition
// of LruCacheSet above.
return reinterpret_cast<Entry *>(*mIterator)->value;
}
const TKey& key() const {
return (*mIterator)->getKey();
}
private:
const LruCache<TKey, TValue>& mCache;
typename LruCacheSet::iterator mIterator;
bool mBeginReturned;
};
};
// Implementation is here, because it's fully templated
template <typename TKey, typename TValue>
LruCache<TKey, TValue>::LruCache(uint32_t maxCapacity)
: mSet(new LruCacheSet()),
mListener(nullptr),
mOldest(nullptr),
mYoungest(nullptr),
mMaxCapacity(maxCapacity),
mNullValue{} {
mSet->max_load_factor(1.0);
};
template <typename TKey, typename TValue>
LruCache<TKey, TValue>::~LruCache() {
// Need to delete created entries.
clear();
};
template<typename K, typename V>
void LruCache<K, V>::setOnEntryRemovedListener(OnEntryRemoved<K, V>* listener) {
mListener = listener;
}
template <typename TKey, typename TValue>
size_t LruCache<TKey, TValue>::size() const {
return mSet->size();
}
template <typename TKey, typename TValue>
const TValue& LruCache<TKey, TValue>::get(const TKey& key) {
typename LruCacheSet::const_iterator find_result = findByKey(key);
if (find_result == mSet->end()) {
return mNullValue;
}
// All the elements in the set are of type Entry. See comment in the definition
// of LruCacheSet above.
Entry *entry = reinterpret_cast<Entry*>(*find_result);
detachFromCache(*entry);
attachToCache(*entry);
return entry->value;
}
template <typename TKey, typename TValue>
bool LruCache<TKey, TValue>::put(const TKey& key, const TValue& value) {
if (mMaxCapacity != kUnlimitedCapacity && size() >= mMaxCapacity) {
removeOldest();
}
if (findByKey(key) != mSet->end()) {
return false;
}
Entry* newEntry = new Entry(key, value);
mSet->insert(newEntry);
attachToCache(*newEntry);
return true;
}
template <typename TKey, typename TValue>
bool LruCache<TKey, TValue>::remove(const TKey& key) {
typename LruCacheSet::const_iterator find_result = findByKey(key);
if (find_result == mSet->end()) {
return false;
}
// All the elements in the set are of type Entry. See comment in the definition
// of LruCacheSet above.
Entry* entry = reinterpret_cast<Entry*>(*find_result);
mSet->erase(entry);
if (mListener) {
(*mListener)(entry->key, entry->value);
}
detachFromCache(*entry);
delete entry;
return true;
}
template <typename TKey, typename TValue>
bool LruCache<TKey, TValue>::removeOldest() {
if (mOldest != nullptr) {
return remove(mOldest->key);
// TODO: should probably abort if false
}
return false;
}
template <typename TKey, typename TValue>
const TValue& LruCache<TKey, TValue>::peekOldestValue() {
if (mOldest) {
return mOldest->value;
}
return mNullValue;
}
template <typename TKey, typename TValue>
void LruCache<TKey, TValue>::clear() {
if (mListener) {
for (Entry* p = mOldest; p != nullptr; p = p->child) {
(*mListener)(p->key, p->value);
}
}
mYoungest = nullptr;
mOldest = nullptr;
for (auto entry : *mSet.get()) {
delete entry;
}
mSet->clear();
}
template <typename TKey, typename TValue>
void LruCache<TKey, TValue>::attachToCache(Entry& entry) {
if (mYoungest == nullptr) {
mYoungest = mOldest = &entry;
} else {
entry.parent = mYoungest;
mYoungest->child = &entry;
mYoungest = &entry;
}
}
template <typename TKey, typename TValue>
void LruCache<TKey, TValue>::detachFromCache(Entry& entry) {
if (entry.parent != nullptr) {
entry.parent->child = entry.child;
} else {
mOldest = entry.child;
}
if (entry.child != nullptr) {
entry.child->parent = entry.parent;
} else {
mYoungest = entry.parent;
}
entry.parent = nullptr;
entry.child = nullptr;
}
}
#endif // ANDROID_UTILS_LRU_CACHE_H