gatus/vendor/github.com/TwiN/gocache/v2/entry.go

109 lines
3.1 KiB
Go

package gocache
import (
"fmt"
"time"
"unsafe"
)
// Entry is a cache entry
type Entry struct {
// Key is the name of the cache entry
Key string
// Value is the value of the cache entry
Value any
// RelevantTimestamp is the variable used to store either:
// - creation timestamp, if the Cache's EvictionPolicy is FirstInFirstOut
// - last access timestamp, if the Cache's EvictionPolicy is LeastRecentlyUsed
//
// Note that updating an existing entry will also update this value
RelevantTimestamp time.Time
// Expiration is the unix time in nanoseconds at which the entry will expire (-1 means no expiration)
Expiration int64
next *Entry
previous *Entry
}
// Accessed updates the Entry's RelevantTimestamp to now
func (entry *Entry) Accessed() {
entry.RelevantTimestamp = time.Now()
}
// Expired returns whether the Entry has expired
func (entry Entry) Expired() bool {
if entry.Expiration > 0 {
if time.Now().UnixNano() > entry.Expiration {
return true
}
}
return false
}
// SizeInBytes returns the size of an entry in bytes, approximately.
func (entry *Entry) SizeInBytes() int {
return toBytes(entry.Key) + toBytes(entry.Value) + 32
}
func toBytes(value any) int {
switch value.(type) {
case string:
return int(unsafe.Sizeof(value)) + len(value.(string))
case int8, uint8, bool:
return int(unsafe.Sizeof(value)) + 1
case int16, uint16:
return int(unsafe.Sizeof(value)) + 2
case int32, uint32, float32, complex64:
return int(unsafe.Sizeof(value)) + 4
case int64, uint64, int, uint, float64, complex128:
return int(unsafe.Sizeof(value)) + 8
case []any:
size := 0
for _, v := range value.([]any) {
size += toBytes(v)
}
return int(unsafe.Sizeof(value)) + size
case []string:
size := 0
for _, v := range value.([]string) {
size += toBytes(v)
}
return int(unsafe.Sizeof(value)) + size
case []int8:
return int(unsafe.Sizeof(value)) + len(value.([]int8))
case []uint8:
return int(unsafe.Sizeof(value)) + len(value.([]uint8))
case []bool:
return int(unsafe.Sizeof(value)) + len(value.([]bool))
case []int16:
return int(unsafe.Sizeof(value)) + (len(value.([]int16)) * 2)
case []uint16:
return int(unsafe.Sizeof(value)) + (len(value.([]uint16)) * 2)
case []int32:
return int(unsafe.Sizeof(value)) + (len(value.([]int32)) * 4)
case []uint32:
return int(unsafe.Sizeof(value)) + (len(value.([]uint32)) * 4)
case []float32:
return int(unsafe.Sizeof(value)) + (len(value.([]float32)) * 4)
case []complex64:
return int(unsafe.Sizeof(value)) + (len(value.([]complex64)) * 4)
case []int64:
return int(unsafe.Sizeof(value)) + (len(value.([]int64)) * 8)
case []uint64:
return int(unsafe.Sizeof(value)) + (len(value.([]uint64)) * 8)
case []int:
return int(unsafe.Sizeof(value)) + (len(value.([]int)) * 8)
case []uint:
return int(unsafe.Sizeof(value)) + (len(value.([]uint)) * 8)
case []float64:
return int(unsafe.Sizeof(value)) + (len(value.([]float64)) * 8)
case []complex128:
return int(unsafe.Sizeof(value)) + (len(value.([]complex128)) * 8)
default:
return int(unsafe.Sizeof(value)) + len(fmt.Sprintf("%v", value))
}
}