Clash.Meta/common/arc/arc.go

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package arc
import (
"sync"
"time"
list "github.com/bahlo/generic-list-go"
"github.com/samber/lo"
)
//modify from https://github.com/alexanderGugel/arc
// Option is part of Functional Options Pattern
type Option[K comparable, V any] func(*ARC[K, V])
func WithSize[K comparable, V any](maxSize int) Option[K, V] {
return func(a *ARC[K, V]) {
a.c = maxSize
}
}
type ARC[K comparable, V any] struct {
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p int
c int
t1 *list.List[*entry[K, V]]
b1 *list.List[*entry[K, V]]
t2 *list.List[*entry[K, V]]
b2 *list.List[*entry[K, V]]
mutex sync.Mutex
len int
cache map[K]*entry[K, V]
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}
// New returns a new Adaptive Replacement Cache (ARC).
func New[K comparable, V any](options ...Option[K, V]) *ARC[K, V] {
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arc := &ARC[K, V]{}
arc.Clear()
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for _, option := range options {
option(arc)
}
return arc
}
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func (a *ARC[K, V]) Clear() {
a.mutex.Lock()
defer a.mutex.Unlock()
a.p = 0
a.t1 = list.New[*entry[K, V]]()
a.b1 = list.New[*entry[K, V]]()
a.t2 = list.New[*entry[K, V]]()
a.b2 = list.New[*entry[K, V]]()
a.len = 0
a.cache = make(map[K]*entry[K, V])
}
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// Set inserts a new key-value pair into the cache.
// This optimizes future access to this entry (side effect).
func (a *ARC[K, V]) Set(key K, value V) {
a.mutex.Lock()
defer a.mutex.Unlock()
a.set(key, value)
}
func (a *ARC[K, V]) set(key K, value V) {
a.setWithExpire(key, value, time.Unix(0, 0))
}
// SetWithExpire stores any representation of a response for a given key and given expires.
// The expires time will round to second.
func (a *ARC[K, V]) SetWithExpire(key K, value V, expires time.Time) {
a.mutex.Lock()
defer a.mutex.Unlock()
a.setWithExpire(key, value, expires)
}
func (a *ARC[K, V]) setWithExpire(key K, value V, expires time.Time) {
ent, ok := a.cache[key]
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if !ok {
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a.len++
ent := &entry[K, V]{key: key, value: value, ghost: false, expires: expires.Unix()}
a.req(ent)
a.cache[key] = ent
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return
}
if ent.ghost {
a.len++
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}
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ent.value = value
ent.ghost = false
ent.expires = expires.Unix()
a.req(ent)
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}
// Get retrieves a previously via Set inserted entry.
// This optimizes future access to this entry (side effect).
func (a *ARC[K, V]) Get(key K) (value V, ok bool) {
a.mutex.Lock()
defer a.mutex.Unlock()
ent, ok := a.get(key)
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if !ok {
return lo.Empty[V](), false
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}
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return ent.value, true
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}
func (a *ARC[K, V]) get(key K) (e *entry[K, V], ok bool) {
ent, ok := a.cache[key]
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if !ok {
return ent, false
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}
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a.req(ent)
return ent, !ent.ghost
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}
// GetWithExpire returns any representation of a cached response,
// a time.Time Give expected expires,
// and a bool set to true if the key was found.
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// This method will NOT update the expires.
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func (a *ARC[K, V]) GetWithExpire(key K) (V, time.Time, bool) {
a.mutex.Lock()
defer a.mutex.Unlock()
ent, ok := a.get(key)
if !ok {
return lo.Empty[V](), time.Time{}, false
}
return ent.value, time.Unix(ent.expires, 0), true
}
// Len determines the number of currently cached entries.
// This method is side-effect free in the sense that it does not attempt to optimize random cache access.
func (a *ARC[K, V]) Len() int {
a.mutex.Lock()
defer a.mutex.Unlock()
return a.len
}
func (a *ARC[K, V]) req(ent *entry[K, V]) {
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switch {
case ent.ll == a.t1 || ent.ll == a.t2:
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// Case I
ent.setMRU(a.t2)
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case ent.ll == a.b1:
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// Case II
// Cache Miss in t1 and t2
// Adaptation
var d int
if a.b1.Len() >= a.b2.Len() {
d = 1
} else {
d = a.b2.Len() / a.b1.Len()
}
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a.p = min(a.p+d, a.c)
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a.replace(ent)
ent.setMRU(a.t2)
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case ent.ll == a.b2:
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// Case III
// Cache Miss in t1 and t2
// Adaptation
var d int
if a.b2.Len() >= a.b1.Len() {
d = 1
} else {
d = a.b1.Len() / a.b2.Len()
}
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a.p = max(a.p-d, 0)
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a.replace(ent)
ent.setMRU(a.t2)
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case ent.ll == nil && a.t1.Len()+a.b1.Len() == a.c:
// Case IV A
if a.t1.Len() < a.c {
a.delLRU(a.b1)
a.replace(ent)
} else {
a.delLRU(a.t1)
}
ent.setMRU(a.t1)
case ent.ll == nil && a.t1.Len()+a.b1.Len() < a.c:
// Case IV B
if a.t1.Len()+a.t2.Len()+a.b1.Len()+a.b2.Len() >= a.c {
if a.t1.Len()+a.t2.Len()+a.b1.Len()+a.b2.Len() == 2*a.c {
a.delLRU(a.b2)
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}
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a.replace(ent)
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}
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ent.setMRU(a.t1)
case ent.ll == nil:
// Case IV, not A nor B
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ent.setMRU(a.t1)
}
}
func (a *ARC[K, V]) delLRU(list *list.List[*entry[K, V]]) {
lru := list.Back()
list.Remove(lru)
a.len--
delete(a.cache, lru.Value.key)
}
func (a *ARC[K, V]) replace(ent *entry[K, V]) {
if a.t1.Len() > 0 && ((a.t1.Len() > a.p) || (ent.ll == a.b2 && a.t1.Len() == a.p)) {
lru := a.t1.Back().Value
lru.value = lo.Empty[V]()
lru.ghost = true
a.len--
lru.setMRU(a.b1)
} else {
lru := a.t2.Back().Value
lru.value = lo.Empty[V]()
lru.ghost = true
a.len--
lru.setMRU(a.b2)
}
}
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func min(a, b int) int {
if a < b {
return a
}
return b
}
func max(a int, b int) int {
if a < b {
return b
}
return a
}