ttlcache – is a simple and efficient in-memory key value storage with TTL for each record.
The key is of uint64 type. Library provides wrappers for common types:
- IntKey
- ByteKey
- Int8Key
- Uint8Key
- Int16Key
- Uint16Key
- Int32Key
- Uint32Key
- Int64Key
- Uint64Key
- BytesKey ([]byte)
- StringKey
- AnyKey (interface{})
AnyKey is not suitable for very intensive usage. Consider writing your own hash function if your keys are complex types, and you faced performance degradation.
go get -u github.com/cheshir/ttlcache
package main import ( "github.com/cheshir/ttlcache" ) const ( minute = 60 * time.Second hour = 60 * minute ) func main() { // How often we need to stop the world and remove outdated records. resolution := minute cache := ttlcache.New(resolution) cache.Set(ttlcache.StringKey("some key"), "value", hour) value, ok := cache.Get(ttlcache.StringKey("some key")) if !ok { // there is no record with key "some key" in the cache. Probably it has been expired. } fmt.Println(value.(string)) // This is necessary type assertion, because returned value is of interface{} type. }If you're interested in benchmarks you can check them in repository. Just play with numbers and types and check that library is suitable for your purposes.
go test -bench=. -benchmem
For those of us who wants to get some numbers without downloading unknown stuff (MacBook Pro 16"):
BenchmarkCache_Set_100-16 8959221 125 ns/op BenchmarkCache_Set_1000-16 9177854 123 ns/op BenchmarkCache_Set_10000-16 9247304 131 ns/op BenchmarkCache_Get_100-16 50562800 23.9 ns/op BenchmarkCache_Get_1000-16 47270793 26.9 ns/op BenchmarkCache_Get_10000-16 42578484 27.7 ns/op