include/utils/GenerationCache.h - android_frameworks_native - Gitiles

 /*
  * Copyright (C) 2010 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_GENERATION_CACHE_H
 #define ANDROID_UTILS_GENERATION_CACHE_H

 #include <utils/KeyedVector.h>
 #include <utils/RefBase.h>

 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 EntryKey, typename EntryValue>
 struct Entry: public LightRefBase<Entry<EntryKey, EntryValue> > {
     Entry() { }
     Entry(const Entry<EntryKey, EntryValue>& e):
             key(e.key), value(e.value), parent(e.parent), child(e.child) { }
     Entry(sp<Entry<EntryKey, EntryValue> > e):
             key(e->key), value(e->value), parent(e->parent), child(e->child) { }

     EntryKey key;
     EntryValue value;

     sp<Entry<EntryKey, EntryValue> > parent;
     sp<Entry<EntryKey, EntryValue> > child;
 }; // struct Entry

 /**
  * A LRU type cache
  */
 template<typename K, typename V>
 class GenerationCache {
 public:
     GenerationCache(uint32_t maxCapacity);
     virtual ~GenerationCache();

     enum Capacity {
         kUnlimitedCapacity,
     };

     void setOnEntryRemovedListener(OnEntryRemoved<K, V>* listener);

     void clear();

     bool contains(K key) const;
     V get(K key);
     K getKeyAt(uint32_t index) const;
     bool put(K key, V value);
     V remove(K key);
     V removeOldest();
     V getValueAt(uint32_t index) const;

     uint32_t size() const;

     void addToCache(sp<Entry<K, V> > entry, K key, V value);
     void attachToCache(sp<Entry<K, V> > entry);
     void detachFromCache(sp<Entry<K, V> > entry);

     V removeAt(ssize_t index);

 private:
     KeyedVector<K, sp<Entry<K, V> > > mCache;
     uint32_t mMaxCapacity;

     OnEntryRemoved<K, V>* mListener;

     sp<Entry<K, V> > mOldest;
     sp<Entry<K, V> > mYoungest;
 }; // class GenerationCache

 template<typename K, typename V>
 GenerationCache<K, V>::GenerationCache(uint32_t maxCapacity): mMaxCapacity(maxCapacity),
     mListener(NULL) {
 };

 template<typename K, typename V>
 GenerationCache<K, V>::~GenerationCache() {
     clear();
 };

 template<typename K, typename V>
 uint32_t GenerationCache<K, V>::size() const {
     return mCache.size();
 }

 /**
  * Should be set by the user of the Cache so that the callback is called whenever an item is
  * removed from the cache
  */
 template<typename K, typename V>
 void GenerationCache<K, V>::setOnEntryRemovedListener(OnEntryRemoved<K, V>* listener) {
     mListener = listener;
 }

 template<typename K, typename V>
 void GenerationCache<K, V>::clear() {
     if (mListener) {
         for (uint32_t i = 0; i < mCache.size(); i++) {
             sp<Entry<K, V> > entry = mCache.valueAt(i);
             if (mListener) {
                 (*mListener)(entry->key, entry->value);
             }
         }
     }
     mCache.clear();
     mYoungest.clear();
     mOldest.clear();
 }

 template<typename K, typename V>
 bool GenerationCache<K, V>::contains(K key) const {
     return mCache.indexOfKey(key) >= 0;
 }

 template<typename K, typename V>
 K GenerationCache<K, V>::getKeyAt(uint32_t index) const {
     return mCache.keyAt(index);
 }

 template<typename K, typename V>
 V GenerationCache<K, V>::getValueAt(uint32_t index) const {
     return mCache.valueAt(index)->value;
 }

 template<typename K, typename V>
 V GenerationCache<K, V>::get(K key) {
     ssize_t index = mCache.indexOfKey(key);
     if (index >= 0) {
         sp<Entry<K, V> > entry = mCache.valueAt(index);
         if (entry.get()) {
             detachFromCache(entry);
             attachToCache(entry);
             return entry->value;
         }
     }

     return NULL;
 }

 template<typename K, typename V>
 bool GenerationCache<K, V>::put(K key, V value) {
     if (mMaxCapacity != kUnlimitedCapacity && mCache.size() >= mMaxCapacity) {
         removeOldest();
     }

     ssize_t index = mCache.indexOfKey(key);
     if (index < 0) {
         sp<Entry<K, V> > entry = new Entry<K, V>;
         addToCache(entry, key, value);
         return true;
     }

     return false;
 }

 template<typename K, typename V>
 void GenerationCache<K, V>::addToCache(sp<Entry<K, V> > entry, K key, V value) {
     entry->key = key;
     entry->value = value;
     mCache.add(key, entry);
     attachToCache(entry);
 }

 template<typename K, typename V>
 V GenerationCache<K, V>::remove(K key) {
     ssize_t index = mCache.indexOfKey(key);
     if (index >= 0) {
         return removeAt(index);
     }

     return NULL;
 }

 template<typename K, typename V>
 V GenerationCache<K, V>::removeAt(ssize_t index) {
     sp<Entry<K, V> > entry = mCache.valueAt(index);
     if (mListener) {
         (*mListener)(entry->key, entry->value);
     }
     mCache.removeItemsAt(index, 1);
     detachFromCache(entry);

     return entry->value;
 }

 template<typename K, typename V>
 V GenerationCache<K, V>::removeOldest() {
     if (mOldest.get()) {
         ssize_t index = mCache.indexOfKey(mOldest->key);
         if (index >= 0) {
             return removeAt(index);
         }
     }

     return NULL;
 }

 template<typename K, typename V>
 void GenerationCache<K, V>::attachToCache(sp<Entry<K, V> > entry) {
     if (!mYoungest.get()) {
         mYoungest = mOldest = entry;
     } else {
         entry->parent = mYoungest;
         mYoungest->child = entry;
         mYoungest = entry;
     }
 }

 template<typename K, typename V>
 void GenerationCache<K, V>::detachFromCache(sp<Entry<K, V> > entry) {
     if (entry->parent.get()) {
         entry->parent->child = entry->child;
     }

     if (entry->child.get()) {
         entry->child->parent = entry->parent;
     }

     if (mOldest == entry) {
         mOldest = entry->child;
     }

     if (mYoungest == entry) {
         mYoungest = entry->parent;
     }

     entry->parent.clear();
     entry->child.clear();
 }

 }; // namespace android

 #endif // ANDROID_UTILS_GENERATION_CACHE_H
	/*
	* Copyright (C) 2010 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_GENERATION_CACHE_H
	#define ANDROID_UTILS_GENERATION_CACHE_H

	#include <utils/KeyedVector.h>
	#include <utils/RefBase.h>

	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 EntryKey, typename EntryValue>
	struct Entry: public LightRefBase<Entry<EntryKey, EntryValue> > {
	Entry() { }
	Entry(const Entry<EntryKey, EntryValue>& e):
	key(e.key), value(e.value), parent(e.parent), child(e.child) { }
	Entry(sp<Entry<EntryKey, EntryValue> > e):
	key(e->key), value(e->value), parent(e->parent), child(e->child) { }

	EntryKey key;
	EntryValue value;

	sp<Entry<EntryKey, EntryValue> > parent;
	sp<Entry<EntryKey, EntryValue> > child;
	}; // struct Entry

	/**
	* A LRU type cache
	*/
	template<typename K, typename V>
	class GenerationCache {
	public:
	GenerationCache(uint32_t maxCapacity);
	virtual ~GenerationCache();

	enum Capacity {
	kUnlimitedCapacity,
	};

	void setOnEntryRemovedListener(OnEntryRemoved<K, V>* listener);

	void clear();

	bool contains(K key) const;
	V get(K key);
	K getKeyAt(uint32_t index) const;
	bool put(K key, V value);
	V remove(K key);
	V removeOldest();
	V getValueAt(uint32_t index) const;

	uint32_t size() const;

	void addToCache(sp<Entry<K, V> > entry, K key, V value);
	void attachToCache(sp<Entry<K, V> > entry);
	void detachFromCache(sp<Entry<K, V> > entry);

	V removeAt(ssize_t index);

	private:
	KeyedVector<K, sp<Entry<K, V> > > mCache;
	uint32_t mMaxCapacity;

	OnEntryRemoved<K, V>* mListener;

	sp<Entry<K, V> > mOldest;
	sp<Entry<K, V> > mYoungest;
	}; // class GenerationCache

	template<typename K, typename V>
	GenerationCache<K, V>::GenerationCache(uint32_t maxCapacity): mMaxCapacity(maxCapacity),
	mListener(NULL) {
	};

	template<typename K, typename V>
	GenerationCache<K, V>::~GenerationCache() {
	clear();
	};

	template<typename K, typename V>
	uint32_t GenerationCache<K, V>::size() const {
	return mCache.size();
	}

	/**
	* Should be set by the user of the Cache so that the callback is called whenever an item is
	* removed from the cache
	*/
	template<typename K, typename V>
	void GenerationCache<K, V>::setOnEntryRemovedListener(OnEntryRemoved<K, V>* listener) {
	mListener = listener;
	}

	template<typename K, typename V>
	void GenerationCache<K, V>::clear() {
	if (mListener) {
	for (uint32_t i = 0; i < mCache.size(); i++) {
	sp<Entry<K, V> > entry = mCache.valueAt(i);
	if (mListener) {
	(*mListener)(entry->key, entry->value);
	}
	}
	}
	mCache.clear();
	mYoungest.clear();
	mOldest.clear();
	}

	template<typename K, typename V>
	bool GenerationCache<K, V>::contains(K key) const {
	return mCache.indexOfKey(key) >= 0;
	}

	template<typename K, typename V>
	K GenerationCache<K, V>::getKeyAt(uint32_t index) const {
	return mCache.keyAt(index);
	}

	template<typename K, typename V>
	V GenerationCache<K, V>::getValueAt(uint32_t index) const {
	return mCache.valueAt(index)->value;
	}

	template<typename K, typename V>
	V GenerationCache<K, V>::get(K key) {
	ssize_t index = mCache.indexOfKey(key);
	if (index >= 0) {
	sp<Entry<K, V> > entry = mCache.valueAt(index);
	if (entry.get()) {
	detachFromCache(entry);
	attachToCache(entry);
	return entry->value;
	}
	}

	return NULL;
	}

	template<typename K, typename V>
	bool GenerationCache<K, V>::put(K key, V value) {
	if (mMaxCapacity != kUnlimitedCapacity && mCache.size() >= mMaxCapacity) {
	removeOldest();
	}

	ssize_t index = mCache.indexOfKey(key);
	if (index < 0) {
	sp<Entry<K, V> > entry = new Entry<K, V>;
	addToCache(entry, key, value);
	return true;
	}

	return false;
	}

	template<typename K, typename V>
	void GenerationCache<K, V>::addToCache(sp<Entry<K, V> > entry, K key, V value) {
	entry->key = key;
	entry->value = value;
	mCache.add(key, entry);
	attachToCache(entry);
	}

	template<typename K, typename V>
	V GenerationCache<K, V>::remove(K key) {
	ssize_t index = mCache.indexOfKey(key);
	if (index >= 0) {
	return removeAt(index);
	}

	return NULL;
	}

	template<typename K, typename V>
	V GenerationCache<K, V>::removeAt(ssize_t index) {
	sp<Entry<K, V> > entry = mCache.valueAt(index);
	if (mListener) {
	(*mListener)(entry->key, entry->value);
	}
	mCache.removeItemsAt(index, 1);
	detachFromCache(entry);

	return entry->value;
	}

	template<typename K, typename V>
	V GenerationCache<K, V>::removeOldest() {
	if (mOldest.get()) {
	ssize_t index = mCache.indexOfKey(mOldest->key);
	if (index >= 0) {
	return removeAt(index);
	}
	}

	return NULL;
	}

	template<typename K, typename V>
	void GenerationCache<K, V>::attachToCache(sp<Entry<K, V> > entry) {
	if (!mYoungest.get()) {
	mYoungest = mOldest = entry;
	} else {
	entry->parent = mYoungest;
	mYoungest->child = entry;
	mYoungest = entry;
	}
	}

	template<typename K, typename V>
	void GenerationCache<K, V>::detachFromCache(sp<Entry<K, V> > entry) {
	if (entry->parent.get()) {
	entry->parent->child = entry->child;
	}

	if (entry->child.get()) {
	entry->child->parent = entry->parent;
	}

	if (mOldest == entry) {
	mOldest = entry->child;
	}

	if (mYoungest == entry) {
	mYoungest = entry->parent;
	}

	entry->parent.clear();
	entry->child.clear();
	}

	}; // namespace android

	#endif // ANDROID_UTILS_GENERATION_CACHE_H