Design and implement a data structure for Least Recently Used (LRU) cache. It should support the following operations: get and put.
get(key) - Get the value (will always be positive) of the key if the key exists in the cache, otherwise return -1.put(key, value) - Set or insert the value if the key is not already present. When the cache reached its capacity, it should invalidate the least recently used item before inserting a new item.
The cache is initialized with a positive capacity.
Follow up:
Could you do both operations in O(1) time complexity?
Example:
LRUCache cache = new LRUCache( 2 /* capacity */ ); cache.put(1, 1); cache.put(2, 2); cache.get(1); // returns 1 cache.put(3, 3); // evicts key 2 cache.get(2); // returns -1 (not found) cache.put(4, 4); // evicts key 1 cache.get(1); // returns -1 (not found) cache.get(3); // returns 3 cache.get(4); // returns 4
考察:lru頁面置換算法;
class LRUCache {
public:
LRUCache(int capacity) {
cap = capacity;
}
int get(int key) {
auto it = m.find(key);
if (it == m.end())
return -1;
l.splice(l.begin(), l, it->second);
return it->second->second;
}
void put(int key, int value) {
auto it = m.find(key);
if (it != m.end())
l.erase(it->second);
l.push_front(make_pair(key, value));
m[key] = l.begin();
if (m.size() > cap) {
int k = l.rbegin()->first;
l.pop_back();
m.erase(k);
}
}
private:
int cap;
list<pair<int, int>> l;
unordered_map<int, list<pair<int, int>>::iterator> m;
};
/**
* Your LRUCache object will be instantiated and called as such:
* LRUCache* obj = new LRUCache(capacity);
* int param_1 = obj->get(key);
* obj->put(key,value);
*/