siddontang.golib/cache/lru_cache.go

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2014-09-13 17:00:14 +08:00
// Copyright 2012, Google Inc. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// cache implements a LRU cache. The implementation borrows heavily
// from SmallLRUCache (originally by Nathan Schrenk). The object
// maintains a doubly-linked list of elements. When an element is
// accessed it is promoted to the head of the list, and when space is
// needed the element at the tail of the list (the least recently used
// element) is evicted.
package cache
import (
"container/list"
"fmt"
"sync"
"time"
)
// LRUCache is a typical LRU cache implementation. If the cache
// reaches the capacity, the least recently used item is deleted from
// the cache. Note the capacity is not the number of items, but the
// total sum of the Size() of each item.
type LRUCache struct {
mu sync.Mutex
// list & table of *entry objects
list *list.List
table map[string]*list.Element
// Our current size. Obviously a gross simplification and
// low-grade approximation.
size int64
// How much we are limiting the cache to.
capacity int64
}
// Value is the interface values that go into LRUCache need to satisfy
type Value interface {
// Size returns how big this value is.
Size() int
}
// Item is what is stored in the cache
type Item struct {
Key string
Value Value
}
type entry struct {
key string
value Value
size int64
time_accessed time.Time
}
// NewLRUCache creates a new empty cache with the given capacity.
func NewLRUCache(capacity int64) *LRUCache {
return &LRUCache{
list: list.New(),
table: make(map[string]*list.Element),
capacity: capacity,
}
}
// Get returns a value from the cache, and marks the entry as most
// recently used.
func (lru *LRUCache) Get(key string) (v Value, ok bool) {
lru.mu.Lock()
defer lru.mu.Unlock()
element := lru.table[key]
if element == nil {
return nil, false
}
lru.moveToFront(element)
return element.Value.(*entry).value, true
}
// Set sets a value in the cache.
func (lru *LRUCache) Set(key string, value Value) {
lru.mu.Lock()
defer lru.mu.Unlock()
if element := lru.table[key]; element != nil {
lru.updateInplace(element, value)
} else {
lru.addNew(key, value)
}
}
// SetIfAbsent will set the value in the cache if not present. If the
// value exists in the cache, we don't set it.
func (lru *LRUCache) SetIfAbsent(key string, value Value) {
lru.mu.Lock()
defer lru.mu.Unlock()
if element := lru.table[key]; element != nil {
lru.moveToFront(element)
} else {
lru.addNew(key, value)
}
}
// Delete removes an entry from the cache, and returns if the entry existed.
func (lru *LRUCache) Delete(key string) bool {
lru.mu.Lock()
defer lru.mu.Unlock()
element := lru.table[key]
if element == nil {
return false
}
lru.list.Remove(element)
delete(lru.table, key)
lru.size -= element.Value.(*entry).size
return true
}
// Clear will clear the entire cache.
func (lru *LRUCache) Clear() {
lru.mu.Lock()
defer lru.mu.Unlock()
lru.list.Init()
lru.table = make(map[string]*list.Element)
lru.size = 0
}
// SetCapacity will set the capacity of the cache. If the capacity is
// smaller, and the current cache size exceed that capacity, the cache
// will be shrank.
func (lru *LRUCache) SetCapacity(capacity int64) {
lru.mu.Lock()
defer lru.mu.Unlock()
lru.capacity = capacity
lru.checkCapacity()
}
// Stats returns a few stats on the cache.
func (lru *LRUCache) Stats() (length, size, capacity int64, oldest time.Time) {
lru.mu.Lock()
defer lru.mu.Unlock()
if lastElem := lru.list.Back(); lastElem != nil {
oldest = lastElem.Value.(*entry).time_accessed
}
return int64(lru.list.Len()), lru.size, lru.capacity, oldest
}
// StatsJSON returns stats as a JSON object in a string.
func (lru *LRUCache) StatsJSON() string {
if lru == nil {
return "{}"
}
l, s, c, o := lru.Stats()
return fmt.Sprintf("{\"Length\": %v, \"Size\": %v, \"Capacity\": %v, \"OldestAccess\": \"%v\"}", l, s, c, o)
}
// Length returns how many elements are in the cache
func (lru *LRUCache) Length() int64 {
lru.mu.Lock()
defer lru.mu.Unlock()
return int64(lru.list.Len())
}
// Size returns the sum of the objects' Size() method.
func (lru *LRUCache) Size() int64 {
lru.mu.Lock()
defer lru.mu.Unlock()
return lru.size
}
// Capacity returns the cache maximum capacity.
func (lru *LRUCache) Capacity() int64 {
lru.mu.Lock()
defer lru.mu.Unlock()
return lru.capacity
}
// Oldest returns the insertion time of the oldest element in the cache,
// or a IsZero() time if cache is empty.
func (lru *LRUCache) Oldest() (oldest time.Time) {
lru.mu.Lock()
defer lru.mu.Unlock()
if lastElem := lru.list.Back(); lastElem != nil {
oldest = lastElem.Value.(*entry).time_accessed
}
return
}
// Keys returns all the keys for the cache, ordered from most recently
// used to last recently used.
func (lru *LRUCache) Keys() []string {
lru.mu.Lock()
defer lru.mu.Unlock()
keys := make([]string, 0, lru.list.Len())
for e := lru.list.Front(); e != nil; e = e.Next() {
keys = append(keys, e.Value.(*entry).key)
}
return keys
}
// Items returns all the values for the cache, ordered from most recently
// used to last recently used.
func (lru *LRUCache) Items() []Item {
lru.mu.Lock()
defer lru.mu.Unlock()
items := make([]Item, 0, lru.list.Len())
for e := lru.list.Front(); e != nil; e = e.Next() {
v := e.Value.(*entry)
items = append(items, Item{Key: v.key, Value: v.value})
}
return items
}
func (lru *LRUCache) updateInplace(element *list.Element, value Value) {
valueSize := int64(value.Size())
sizeDiff := valueSize - element.Value.(*entry).size
element.Value.(*entry).value = value
element.Value.(*entry).size = valueSize
lru.size += sizeDiff
lru.moveToFront(element)
lru.checkCapacity()
}
func (lru *LRUCache) moveToFront(element *list.Element) {
lru.list.MoveToFront(element)
element.Value.(*entry).time_accessed = time.Now()
}
func (lru *LRUCache) addNew(key string, value Value) {
newEntry := &entry{key, value, int64(value.Size()), time.Now()}
element := lru.list.PushFront(newEntry)
lru.table[key] = element
lru.size += newEntry.size
lru.checkCapacity()
}
func (lru *LRUCache) checkCapacity() {
// Partially duplicated from Delete
for lru.size > lru.capacity {
delElem := lru.list.Back()
delValue := delElem.Value.(*entry)
lru.list.Remove(delElem)
delete(lru.table, delValue.key)
lru.size -= delValue.size
}
}