package {{.PackageName}} import ( "fmt" "runtime" "sync" "time" ) // Attr is cachmap attribute type {{.ValueType}}CacheAttr struct { OnEvicted func(k string, v {{.ValueType}}) // called when k evicted if set DefaultCleanupInterval time.Duration // default clean interval DefaultExpiration time.Duration // default expiration duration Size int64 // inital size of map } // Item struct type Item struct { Object {{.ValueType}} Expiration int64 } // Expired Returns true if the item has expired, if valid Expiration is set. func (item Item) Expired() bool { return item.Expiration != 0 && time.Now().UnixNano() > item.Expiration } const ( // NoExpiration is for use with functions that take no expiration time. NoExpiration time.Duration = -1 // DefaultExpiration is for use with functions that take an // expiration time. Equivalent to passing in the same expiration // duration as was given to New() or NewFrom() when the cache was // created (e.g. 5 minutes.) DefaultExpiration time.Duration = 0 ) // Cache struct type {{.ValueType}}Cache struct { *cache // If this is confusing, see the comment at the bottom of New() } type cache struct { defaultExpiration time.Duration items map[string]Item mu sync.RWMutex onEvicted func(string, {{.ValueType}}) janitor *janitor } // Add an item to the cache, replacing any existing item. If the duration is 0 // (DefaultExpiration), the cache's default expiration time is used. If it is -1 // (NoExpiration), the item never expires. func (c *cache) Set(k string, x {{.ValueType}}, d time.Duration) { // "Inlining" of set var e int64 if d == DefaultExpiration { d = c.defaultExpiration } if d > 0 { e = time.Now().Add(d).UnixNano() } c.mu.Lock() c.items[k] = Item{ Object: x, Expiration: e, } // TODO: Calls to mu.Unlock are currently not deferred because defer // adds ~200 ns (as of go1.) c.mu.Unlock() } func (c *cache) set(k string, x {{.ValueType}}, d time.Duration) { var e int64 if d == DefaultExpiration { d = c.defaultExpiration } if d > 0 { e = time.Now().Add(d).UnixNano() } c.items[k] = Item{ Object: x, Expiration: e, } } // Add an item to the cache only if an item doesn't already exist for the given // key, or if the existing item has expired. Returns an error otherwise. func (c *cache) Add(k string, x {{.ValueType}}, d time.Duration) error { c.mu.Lock() _, found := c.get(k) if found { c.mu.Unlock() return fmt.Errorf("Item %s already exists", k) } c.set(k, x, d) c.mu.Unlock() return nil } // Set a new value for the cache key only if it already exists, and the existing // item hasn't expired. Returns an error otherwise. func (c *cache) Replace(k string, x {{.ValueType}}, d time.Duration) error { c.mu.Lock() _, found := c.get(k) if !found { c.mu.Unlock() return fmt.Errorf("Item %s doesn't exist", k) } c.set(k, x, d) c.mu.Unlock() return nil } // Get an item from the cache. Returns the item or nil, and a bool indicating // whether the key was found. func (c *cache) Get(k string) ({{.ValueType}}, bool) { c.mu.RLock() // "Inlining" of get and Expired item, found := c.items[k] // TODO: inline time.Now implementation if !found || item.Expiration > 0 && time.Now().UnixNano() > item.Expiration { c.mu.RUnlock() return {{.ValueType}}(0), false } c.mu.RUnlock() return item.Object, true } func (c *cache) get(k string) (*{{.ValueType}}, bool) { item, found := c.items[k] if !found || item.Expiration > 0 && time.Now().UnixNano() > item.Expiration { return nil, false } return &item.Object, true } // Increment an item of type int, int8, int16, int32, int64, uintptr, uint, // uint8, uint32, or uint64, float32 or float64 by n. Returns an error if the // item's value is not an integer, if it was not found, or if it is not // possible to increment it by n. To retrieve the incremented value, use one // of the specialized methods, e.g. IncrementInt64. // TODO: Increment for numberic type. func (c *cache) Increment(k string, n int64) error { return nil } // Decrement an item of type int, int8, int16, int32, int64, uintptr, uint, // uint8, uint32, or uint64, float32 or float64 by n. Returns an error if the // item's value is not an integer, if it was not found, or if it is not // possible to decrement it by n. To retrieve the decremented value, use one // of the specialized methods, e.g. DecrementInt64. // TODO: Decrement func (c *cache) Decrement(k string, n int64) error { // TODO: Implement Increment and Decrement more cleanly. // (Cannot do Increment(k, n*-1) for uints.) return nil } // Delete an item from the cache. Does nothing if the key is not in the cache. func (c *cache) Delete(k string) { // fast path if c.onEvicted == nil { c.mu.Lock() c.deleteFast(k) c.mu.Unlock() return } // slow path c.mu.Lock() v, evicted := c.delete(k) c.mu.Unlock() if evicted { c.onEvicted(k, v) } } func (c *cache) delete(k string) ({{.ValueType}}, bool) { if v, found := c.items[k]; found { delete(c.items, k) return v.Object, true } //TODO: zeroValue return 0, false } func (c *cache) deleteFast(k string) { delete(c.items, k) } type keyAndValue struct { key string value {{.ValueType}} } // Delete all expired items from the cache. func (c *cache) DeleteExpired() { var evictedItems []keyAndValue now := time.Now().UnixNano() // fast path if c.onEvicted == nil { c.mu.Lock() for k, v := range c.items { // "Inlining" of expired if v.Expiration > 0 && now > v.Expiration { c.deleteFast(k) } } c.mu.Unlock() return } // slow path c.mu.Lock() for k, v := range c.items { // "Inlining" of expired if v.Expiration > 0 && now > v.Expiration { ov, evicted := c.delete(k) if evicted { evictedItems = append(evictedItems, keyAndValue{k, ov}) } } } c.mu.Unlock() for _, v := range evictedItems { c.onEvicted(v.key, v.value) } } // Sets an (optional) function that is called with the key and value when an // item is evicted from the cache. (Including when it is deleted manually, but // not when it is overwritten.) Set to nil to disable. // 这里加锁没有意义 func (c *cache) OnEvicted(f func(string, {{.ValueType}})) { c.mu.Lock() c.onEvicted = f c.mu.Unlock() } // Returns the number of items in the cache. This may include items that have // expired, but have not yet been cleaned up. Equivalent to len(c.Items()). func (c *cache) ItemCount() int { c.mu.RLock() n := len(c.items) c.mu.RUnlock() return n } // Delete all items from the cache. func (c *cache) Flush() { c.mu.Lock() c.items = map[string]Item{} c.mu.Unlock() } type janitor struct { Interval time.Duration stop chan bool } func (j *janitor) Run(c *cache) { j.stop = make(chan bool) ticker := time.NewTicker(j.Interval) for { select { case <-ticker.C: c.DeleteExpired() case <-j.stop: ticker.Stop() return } } } func stopJanitor(c *{{.ValueType}}Cache) { c.janitor.stop <- true } func runJanitor(c *cache, ci time.Duration) { j := &janitor{ Interval: ci, } c.janitor = j go j.Run(c) } func newCache(de time.Duration, m map[string]Item) *cache { if de == 0 { de = -1 } c := &cache{ defaultExpiration: de, items: m, } return c } func newCacheWithJanitor(de time.Duration, ci time.Duration, m map[string]Item, onEvicted func(k string, v {{.ValueType}})) *{{.ValueType}}Cache { c := newCache(de, m) c.onEvicted = onEvicted // This trick ensures that the janitor goroutine (which--granted it // was enabled--is running DeleteExpired on c forever) does not keep // the returned C object from being garbage collected. When it is // garbage collected, the finalizer stops the janitor goroutine, after // which c can be collected. C := &{{.ValueType}}Cache{c} if ci > 0 { runJanitor(c, ci) runtime.SetFinalizer(C, stopJanitor) } return C } // New Returns a new cache with a given default expiration duration and // cleanup interval. If the expiration duration is less than one // (or NoExpiration), the items in the cache never expire (by default), // and must be deleted manually. If the cleanup interval is less than one, // expired items are not deleted from the cache before calling c.DeleteExpired(). // func New{{.ValueType}}Cache(attr {{.ValueType}}CacheAttr) *{{.ValueType}}Cache { items := make(map[string]Item, attr.Size) return newCacheWithJanitor(attr.DefaultExpiration, attr.DefaultCleanupInterval, items, attr.OnEvicted) }