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package common
import (
"sync"
"time"
)
// Key type used in the cache.
type Key interface{}
// Value type held in the cache. Cannot be nil.
type Value interface{}
// RemovalListener is the callback function type that can be registered with
// the cache to receive notification of the removal of expired elements.
type RemovalListener func(k Key, v Value)
// Clock is the function type used to get the current time.
type clock func() time.Time
// An element stored in the cache.
type element struct {
expiration time.Time
timeout time.Duration
value Value
}
// IsExpired returns true if the element is expired (current time is greater
// than the expiration time).
func (e *element) IsExpired(now time.Time) bool {
return now.After(e.expiration)
}
// UpdateLastAccessTime updates the expiration time of the element. This
// should be called each time the element is accessed.
func (e *element) UpdateLastAccessTime(now time.Time, expiration time.Duration) {
e.expiration = now.Add(expiration)
}
// Cache is a semi-persistent mapping of keys to values. Elements added to the
// cache are store until they are explicitly deleted or are expired due time-
// based eviction based on last access time.
//
// Expired elements are not visible through classes methods, but they do remain
// stored in the cache until CleanUp() is invoked. Therefore CleanUp() must be
// invoked periodically to prevent the cache from becoming a memory leak. If
// you want to start a goroutine to perform periodic clean-up then see
// StartJanitor().
//
// Cache does not support storing nil values. Any attempt to put nil into
// the cache will cause a panic.
type Cache struct {
sync.RWMutex
timeout time.Duration // Length of time before cache elements expire.
elements map[Key]*element // Data stored by the cache.
clock clock // Function used to get the current time.
listener RemovalListener // Callback listen to notify of evictions.
janitorQuit chan struct{} // Closing this channel stop the janitor.
}
// NewCache creates and returns a new Cache. d is the length of time after last
// access that cache elements expire. initialSize is the initial allocation size
// used for the Cache's underlying map.
func NewCache(d time.Duration, initialSize int) *Cache {
return newCache(d, initialSize, nil, time.Now)
}
// NewCacheWithRemovalListener creates and returns a new Cache and register a
// RemovalListener callback function. d is the length of time after last access
// that cache elements expire. initialSize is the initial allocation size used
// for the Cache's underlying map. l is the callback function that will be
// invoked when cache elements are removed from the map on CleanUp.
func NewCacheWithRemovalListener(d time.Duration, initialSize int, l RemovalListener) *Cache {
return newCache(d, initialSize, l, time.Now)
}
func newCache(d time.Duration, initialSize int, l RemovalListener, t clock) *Cache {
return &Cache{
timeout: d,
elements: make(map[Key]*element, initialSize),
listener: l,
clock: t,
}
}
// PutIfAbsent writes the given key and value to the cache only if the key is
// absent from the cache. Nil is returned if the key-value pair were written,
// otherwise the old value is returned.
func (c *Cache) PutIfAbsent(k Key, v Value) Value {
return c.PutIfAbsentWithTimeout(k, v, 0)
}
// PutIfAbsentWithTimeout writes the given key and value to the cache only if
// the key is absent from the cache. Nil is returned if the key-value pair were
// written, otherwise the old value is returned.
// The cache expiration time will be overwritten by timeout of the key being
// inserted.
func (c *Cache) PutIfAbsentWithTimeout(k Key, v Value, timeout time.Duration) Value {
c.Lock()
defer c.Unlock()
oldValue, exists := c.get(k)
if exists {
return oldValue
}
c.put(k, v, timeout)
return nil
}
// Put writes the given key and value to the map replacing any existing value
// if it exists. The previous value associated with the key returned or nil
// if the key was not present.
func (c *Cache) Put(k Key, v Value) Value {
return c.PutWithTimeout(k, v, 0)
}
// PutWithTimeout writes the given key and value to the map replacing any
// existing value if it exists. The previous value associated with the key
// returned or nil if the key was not present.
// The cache expiration time will be overwritten by timeout of the key being
// inserted.
func (c *Cache) PutWithTimeout(k Key, v Value, timeout time.Duration) Value {
c.Lock()
defer c.Unlock()
oldValue, _ := c.get(k)
c.put(k, v, timeout)
return oldValue
}
// Replace overwrites the value for a key only if the key exists. The old
// value is returned if the value is updated, otherwise nil is returned.
func (c *Cache) Replace(k Key, v Value) Value {
return c.ReplaceWithTimeout(k, v, 0)
}
// ReplaceWithTimeout overwrites the value for a key only if the key exists. The
// old value is returned if the value is updated, otherwise nil is returned.
// The cache expiration time will be overwritten by timeout of the key being
// inserted.
func (c *Cache) ReplaceWithTimeout(k Key, v Value, timeout time.Duration) Value {
c.Lock()
defer c.Unlock()
oldValue, exists := c.get(k)
if !exists {
return nil
}
c.put(k, v, timeout)
return oldValue
}
// Get the current value associated with a key or nil if the key is not
// present. The last access time of the element is updated.
func (c *Cache) Get(k Key) Value {
c.RLock()
defer c.RUnlock()
v, _ := c.get(k)
return v
}
// Delete a key from the map and return the value or nil if the key does
// not exist. The RemovalListener is not notified for explicit deletions.
func (c *Cache) Delete(k Key) Value {
c.Lock()
defer c.Unlock()
v, _ := c.get(k)
delete(c.elements, k)
return v
}
// CleanUp performs maintenance on the cache by removing expired elements from
// the cache. If a RemoveListener is registered it will be invoked for each
// element that is removed during this clean up operation. The RemovalListener
// is invoked on the caller's goroutine.
func (c *Cache) CleanUp() int {
c.Lock()
defer c.Unlock()
count := 0
for k, v := range c.elements {
if v.IsExpired(c.clock()) {
delete(c.elements, k)
count++
if c.listener != nil {
c.listener(k, v.value)
}
}
}
return count
}
// Entries returns a copy of the non-expired elements in the cache.
func (c *Cache) Entries() map[Key]Value {
c.RLock()
defer c.RUnlock()
copy := make(map[Key]Value, len(c.elements))
for k, v := range c.elements {
if !v.IsExpired(c.clock()) {
copy[k] = v.value
}
}
return copy
}
// Size returns the number of elements in the cache. The number includes both
// active elements and expired elements that have not been cleaned up.
func (c *Cache) Size() int {
c.RLock()
defer c.RUnlock()
return len(c.elements)
}
// StartJanitor starts a goroutine that will periodically invoke the cache's
// CleanUp() method.
func (c *Cache) StartJanitor(interval time.Duration) {
ticker := time.NewTicker(interval)
c.janitorQuit = make(chan struct{})
go func() {
for {
select {
case <-ticker.C:
c.CleanUp()
case <-c.janitorQuit:
ticker.Stop()
return
}
}
}()
}
// StopJanitor stops the goroutine created by StartJanitor.
func (c *Cache) StopJanitor() {
close(c.janitorQuit)
}
// get returns the non-expired values from the cache.
func (c *Cache) get(k Key) (Value, bool) {
elem, exists := c.elements[k]
now := c.clock()
if exists && !elem.IsExpired(now) {
elem.UpdateLastAccessTime(now, elem.timeout)
return elem.value, true
}
return nil, false
}
// put writes a key-value to the cache replacing any existing mapping.
func (c *Cache) put(k Key, v Value, timeout time.Duration) {
if v == nil {
panic("Cache does not support storing nil values.")
}
if timeout <= 0 {
timeout = c.timeout
}
c.elements[k] = &element{
expiration: c.clock().Add(timeout),
timeout: timeout,
value: v,
}
}
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