package simple import ( "sync" "codeberg.org/gruf/go-maps" ) // Entry represents an item in the cache. type Entry struct { Key any Value any } // Cache is the underlying Cache implementation, providing both the base Cache interface and unsafe access to underlying map to allow flexibility in building your own. type Cache[Key comparable, Value any] struct { // Evict is the hook that is called when an item is evicted from the cache. Evict func(Key, Value) // Invalid is the hook that is called when an item's data in the cache is invalidated, includes Add/Set. Invalid func(Key, Value) // Cache is the underlying hashmap used for this cache. Cache maps.LRUMap[Key, *Entry] // Embedded mutex. sync.Mutex } // New returns a new initialized Cache with given initial length, maximum capacity and item TTL. func New[K comparable, V any](len, cap int) *Cache[K, V] { c := new(Cache[K, V]) c.Init(len, cap) return c } // Init will initialize this cache with given initial length, maximum capacity and item TTL. func (c *Cache[K, V]) Init(len, cap int) { c.SetEvictionCallback(nil) c.SetInvalidateCallback(nil) c.Cache.Init(len, cap) } // SetEvictionCallback: implements cache.Cache's SetEvictionCallback(). func (c *Cache[K, V]) SetEvictionCallback(hook func(K, V)) { c.locked(func() { c.Evict = hook }) } // SetInvalidateCallback: implements cache.Cache's SetInvalidateCallback(). func (c *Cache[K, V]) SetInvalidateCallback(hook func(K, V)) { c.locked(func() { c.Invalid = hook }) } // Get: implements cache.Cache's Get(). func (c *Cache[K, V]) Get(key K) (V, bool) { var ( // did exist in cache? ok bool // cached value. v V ) c.locked(func() { var item *Entry // Check for item in cache item, ok = c.Cache.Get(key) if !ok { return } // Set item value. v = item.Value.(V) }) return v, ok } // Add: implements cache.Cache's Add(). func (c *Cache[K, V]) Add(key K, value V) bool { var ( // did exist in cache? ok bool // was entry evicted? ev bool // evicted key values. evcK K evcV V // hook func ptrs. evict func(K, V) ) c.locked(func() { // Check if in cache. ok = c.Cache.Has(key) if ok { return } // Alloc new entry. new := GetEntry() new.Key = key new.Value = value // Add new entry to cache and catched any evicted item. c.Cache.SetWithHook(key, new, func(_ K, item *Entry) { evcK = item.Key.(K) evcV = item.Value.(V) ev = true PutEntry(item) }) // Set hook func ptr. evict = c.Evict }) if ev && evict != nil { // Pass to eviction hook. evict(evcK, evcV) } return !ok } // Set: implements cache.Cache's Set(). func (c *Cache[K, V]) Set(key K, value V) { var ( // did exist in cache? ok bool // was entry evicted? ev bool // old value. oldV V // evicted key values. evcK K evcV V // hook func ptrs. invalid func(K, V) evict func(K, V) ) c.locked(func() { var item *Entry // Check for item in cache item, ok = c.Cache.Get(key) if ok { // Set old value. oldV = item.Value.(V) // Update the existing item. item.Value = value } else { // Alloc new entry. new := GetEntry() new.Key = key new.Value = value // Add new entry to cache and catched any evicted item. c.Cache.SetWithHook(key, new, func(_ K, item *Entry) { evcK = item.Key.(K) evcV = item.Value.(V) ev = true PutEntry(item) }) } // Set hook func ptrs. invalid = c.Invalid evict = c.Evict }) if ok && invalid != nil { // Pass to invalidate hook. invalid(key, oldV) } if ev && evict != nil { // Pass to eviction hook. evict(evcK, evcV) } } // CAS: implements cache.Cache's CAS(). func (c *Cache[K, V]) CAS(key K, old V, new V, cmp func(V, V) bool) bool { var ( // did exist in cache? ok bool // swapped value. oldV V // hook func ptrs. invalid func(K, V) ) c.locked(func() { var item *Entry // Check for item in cache item, ok = c.Cache.Get(key) if !ok { return } // Set old value. oldV = item.Value.(V) // Perform the comparison if !cmp(old, oldV) { var zero V oldV = zero return } // Update value. item.Value = new // Set hook func ptr. invalid = c.Invalid }) if ok && invalid != nil { // Pass to invalidate hook. invalid(key, oldV) } return ok } // Swap: implements cache.Cache's Swap(). func (c *Cache[K, V]) Swap(key K, swp V) V { var ( // did exist in cache? ok bool // swapped value. oldV V // hook func ptrs. invalid func(K, V) ) c.locked(func() { var item *Entry // Check for item in cache item, ok = c.Cache.Get(key) if !ok { return } // Set old value. oldV = item.Value.(V) // Update value. item.Value = swp // Set hook func ptr. invalid = c.Invalid }) if ok && invalid != nil { // Pass to invalidate hook. invalid(key, oldV) } return oldV } // Has: implements cache.Cache's Has(). func (c *Cache[K, V]) Has(key K) (ok bool) { c.locked(func() { ok = c.Cache.Has(key) }) return } // Invalidate: implements cache.Cache's Invalidate(). func (c *Cache[K, V]) Invalidate(key K) (ok bool) { var ( // old value. oldV V // hook func ptrs. invalid func(K, V) ) c.locked(func() { var item *Entry // Check for item in cache item, ok = c.Cache.Get(key) if !ok { return } // Set old value. oldV = item.Value.(V) // Remove from cache map _ = c.Cache.Delete(key) // Free entry PutEntry(item) // Set hook func ptrs. invalid = c.Invalid }) if ok && invalid != nil { // Pass to invalidate hook. invalid(key, oldV) } return } // InvalidateAll: implements cache.Cache's InvalidateAll(). func (c *Cache[K, V]) InvalidateAll(keys ...K) (ok bool) { var ( // deleted items. items []*Entry // hook func ptrs. invalid func(K, V) ) // Allocate a slice for invalidated. items = make([]*Entry, 0, len(keys)) c.locked(func() { for x := range keys { var item *Entry // Check for item in cache item, ok = c.Cache.Get(keys[x]) if !ok { continue } // Append this old value. items = append(items, item) // Remove from cache map _ = c.Cache.Delete(keys[x]) } // Set hook func ptrs. invalid = c.Invalid }) if invalid != nil { for x := range items { // Pass to invalidate hook. k := items[x].Key.(K) v := items[x].Value.(V) invalid(k, v) // Free this entry. PutEntry(items[x]) } } return } // Clear: implements cache.Cache's Clear(). func (c *Cache[K, V]) Clear() { c.Trim(100) } // Trim will truncate the cache to ensure it stays within given percentage of total capacity. func (c *Cache[K, V]) Trim(perc float64) { var ( // deleted items items []*Entry // hook func ptrs. invalid func(K, V) ) c.locked(func() { // Calculate number of cache items to truncate. max := (perc / 100) * float64(c.Cache.Cap()) diff := c.Cache.Len() - int(max) if diff <= 0 { return } // Set hook func ptr. invalid = c.Invalid // Truncate by calculated length. items = c.truncate(diff, invalid) }) if invalid != nil { for x := range items { // Pass to invalidate hook. k := items[x].Key.(K) v := items[x].Value.(V) invalid(k, v) // Free this entry. PutEntry(items[x]) } } } // Len: implements cache.Cache's Len(). func (c *Cache[K, V]) Len() (l int) { c.locked(func() { l = c.Cache.Len() }) return } // Cap: implements cache.Cache's Cap(). func (c *Cache[K, V]) Cap() (l int) { c.locked(func() { l = c.Cache.Cap() }) return } // locked performs given function within mutex lock (NOTE: UNLOCK IS NOT DEFERRED). func (c *Cache[K, V]) locked(fn func()) { c.Lock() fn() c.Unlock() } // truncate will truncate the cache by given size, returning deleted items. func (c *Cache[K, V]) truncate(sz int, hook func(K, V)) []*Entry { if hook == nil { // No hook to execute, simply release all truncated entries. c.Cache.Truncate(sz, func(_ K, item *Entry) { PutEntry(item) }) return nil } // Allocate a slice for deleted. deleted := make([]*Entry, 0, sz) // Truncate and catch all deleted k-v pairs. c.Cache.Truncate(sz, func(_ K, item *Entry) { deleted = append(deleted, item) }) return deleted }