package cache import ( "container/list" sync "sync" ) // Lru simple, fast lru cache implementation type Lru interface { Get(key interface{}) (value interface{}, ok bool) GetKeyFromValue(value interface{}) (key interface{}, ok bool) Put(key, value interface{}) } type lru struct { capacity int doubleLinkedlist *list.List keyToElement *sync.Map valueToElement *sync.Map mu *sync.Mutex } type lruElement struct { key interface{} value interface{} } // NewLru init a lru cache func NewLru(cap int) Lru { return lru{ capacity: cap, doubleLinkedlist: list.New(), keyToElement: new(sync.Map), valueToElement: new(sync.Map), mu: new(sync.Mutex), } } func (l lru) Get(key interface{}) (value interface{}, ok bool) { if v, ok := l.keyToElement.Load(key); ok { element := v.(*list.Element) l.doubleLinkedlist.MoveBefore(element, l.doubleLinkedlist.Front()) return element.Value.(lruElement).value, true } return nil, false } func (l lru) GetKeyFromValue(value interface{}) (key interface{}, ok bool) { if k, ok := l.valueToElement.Load(value); ok { element := k.(*list.Element) l.doubleLinkedlist.MoveBefore(element, l.doubleLinkedlist.Front()) return element.Value.(lruElement).key, true } return nil, false } func (l lru) Put(key, value interface{}) { e := lruElement{key, value} if v, ok := l.keyToElement.Load(key); ok { element := v.(*list.Element) element.Value = e l.doubleLinkedlist.MoveBefore(element, l.doubleLinkedlist.Front()) } else { l.mu.Lock() element := l.doubleLinkedlist.PushFront(e) l.keyToElement.Store(key, element) l.valueToElement.Store(value, element) if l.doubleLinkedlist.Len() > l.capacity { toBeRemove := l.doubleLinkedlist.Back() l.doubleLinkedlist.Remove(toBeRemove) l.keyToElement.Delete(toBeRemove.Value.(lruElement).key) l.valueToElement.Delete(toBeRemove.Value.(lruElement).value) } l.mu.Unlock() } }