LRU Cache实现

时间:2021-12-19 06:25:38

最近在看Leveldb源码,里面用到LRU(Least Recently Used)缓存,所以自己动手来实现一下。LRU Cache通常实现方式为Hash Map + Double Linked List,我使用std::map来代替哈希表。

实现代码如下:

#include <iostream>

#include <map>

#include <assert.h>

using namespace std;

// define double linked list node

template<class K, class V>

struct Node{

	K key;

	V value;

	Node *pre_node;

	Node *nxt_node;

	Node() : key(K()), value(V()), pre_node(0), nxt_node(0){}

};

// define LRU cache.

template<class K, class V>

class LRUCache{

public:

	typedef Node<K, V> CacheNode;

	typedef map<K, CacheNode*> HashTable;

	LRUCache(const int size) : capacity(size), count(0), head(0), tail(0){

		head = new CacheNode;

		tail = new CacheNode;

		head->nxt_node = tail;

		tail->pre_node = head;

	}

	~LRUCache(){

		HashTable::iterator itr = key_node_map.begin();

		for (itr; itr != key_node_map.end(); ++itr)

			delete itr->second;

		delete head;

		delete tail;

	}

	void put(const K &key, const V &value){

		// check if key already exist.

		HashTable::const_iterator itr = key_node_map.find(key);

		if (itr == key_node_map.end()){

			CacheNode *node = new CacheNode;

			node->key = key;

			node->value = value;

			if (count == capacity)

			{

				CacheNode *tail_node = tail->pre_node;

				extricateTheNode(tail_node);

				key_node_map.erase(tail_node->key);

				delete tail_node;

				count--;

			}

			key_node_map[key] = node;

			count++;

			moveToHead(node);

		}

		else{

			itr->second->value = value;

			extricateTheNode(itr->second);

			moveToHead(itr->second);

		}

	}

	V get(const K &key){

		// check if key already exist.

		HashTable::const_iterator itr = key_node_map.find(key);

		if (itr == key_node_map.end()){

			return V();

		}

		else{

			extricateTheNode(itr->second);

			moveToHead(itr->second);

			return itr->second->value;

		}

	}

	void print(){

		if (count == 0)

			cout << "Empty cache." << endl;

		cout << "Cache information:" << endl;

		cout << "  " << "capacity: " << capacity << endl;

		cout << "  " << "count: " << count << endl;

		cout << "  " << "map size: " << key_node_map.size() << endl;

		cout << "  " << "keys: ";

		CacheNode *node = head;

		while (node->nxt_node != tail)

		{

			cout << node->nxt_node->key << ",";

			node = node->nxt_node;

		}

		cout << endl;

	}

private:

	void moveToHead(CacheNode *node){

		assert(head);

		node->pre_node = head;

		node->nxt_node = head->nxt_node;

		head->nxt_node->pre_node = node;

		head->nxt_node = node;

	}

	void extricateTheNode(CacheNode *node){ // evict the node from the list.

		assert(node != head && node != tail);

		node->pre_node->nxt_node = node->nxt_node;

		node->nxt_node->pre_node = node->pre_node;

	}

private:

	int capacity;

	int count;

	Node<K, V> *head;

	Node<K, V> *tail;

	HashTable key_node_map;

};

int main()

{

	LRUCache<int, int> my_cache(4);

	for (int i = 0; i < 20; ++i)

	{

		int key = rand() % 10 + 1;

		int value = key * 2;

		cout << "Put[" << key << "," << value << "]>>>" << endl;

		my_cache.put(key, value);

		my_cache.print();

	}

	for (int i = 0; i < 20; ++i)

	{

		int key = rand() % 10 + 1;

		int value = my_cache.get(key);

		cout << "Get value of " << key << ": " << value << ".>>>" << endl;

		my_cache.print();

	}

	return 0;

}

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