photoprism-client-go/vendor/github.com/dsoprea/go-utility/data/lru.go

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package ridata
import (
"errors"
"fmt"
log "github.com/dsoprea/go-logging"
)
var (
// ErrLruEmpty indicates that the LRU is empty..
ErrLruEmpty = errors.New("lru is empty")
)
// LruKey is the type of an LRU key.
type LruKey interface{}
// LruItem is the interface that any item we add to the LRU must satisfy.
type LruItem interface {
Id() LruKey
}
type lruNode struct {
before *lruNode
after *lruNode
item LruItem
}
// String will return a string representation of the node.
func (ln *lruNode) String() string {
var beforePhrase string
if ln.before != nil {
beforePhrase = fmt.Sprintf("%v", ln.before.item.Id())
} else {
beforePhrase = "<NULL>"
}
var afterPhrase string
if ln.after != nil {
afterPhrase = fmt.Sprintf("%v", ln.after.item.Id())
} else {
afterPhrase = "<NULL>"
}
return fmt.Sprintf("[%v] BEFORE=[%s] AFTER=[%s]", ln.item.Id(), beforePhrase, afterPhrase)
}
type lruEventFunc func(id LruKey) (err error)
// Lru establises an LRU of IDs of any type.
type Lru struct {
top *lruNode
bottom *lruNode
lookup map[LruKey]*lruNode
maxSize int
dropCb lruEventFunc
}
// NewLru returns a new instance.
func NewLru(maxSize int) *Lru {
return &Lru{
lookup: make(map[LruKey]*lruNode),
maxSize: maxSize,
}
}
// SetDropCb sets a callback that will be triggered whenever an item ages out
// or is manually dropped.
func (lru *Lru) SetDropCb(cb lruEventFunc) {
lru.dropCb = cb
}
// Count returns the number of items in the LRU.
func (lru *Lru) Count() int {
return len(lru.lookup)
}
// MaxCount returns the maximum number of items the LRU can contain.
func (lru *Lru) MaxCount() int {
return lru.maxSize
}
// IsFull will return true if at capacity.
func (lru *Lru) IsFull() bool {
return lru.Count() == lru.maxSize
}
// Exists will do a membership check for the given key.
func (lru *Lru) Exists(id LruKey) bool {
_, found := lru.lookup[id]
return found
}
// FindPosition will return the numerical position in the list. Since the LRU
// will never be very large, this call is not expensive, per se. But, it *is*
// O(n) and any call to us will compound with any loops you happen to wrap us
// into.
func (lru *Lru) FindPosition(id LruKey) int {
node, found := lru.lookup[id]
if found == false {
return -1
}
position := 0
for ; node.before != nil; node = node.before {
position++
}
return position
}
// Get touches the cache and returns the data.
func (lru *Lru) Get(id LruKey) (found bool, item LruItem, err error) {
defer func() {
if state := recover(); state != nil {
err = log.Wrap(state.(error))
}
}()
if node, found := lru.lookup[id]; found == true {
_, _, err := lru.Set(node.item)
log.PanicIf(err)
return true, node.item, nil
}
return false, nil, nil
}
// Set bumps an item to the front of the LRU. It will be added if it doesn't
// already exist. If as a result of adding an item the LRU exceeds the maximum
// size, the least recently used item will be discarded.
//
// If it was not previously in the LRU, `added` will be `true`.
func (lru *Lru) Set(item LruItem) (added bool, droppedItem LruItem, err error) {
defer func() {
if state := recover(); state != nil {
err = log.Wrap(state.(error))
}
}()
// TODO(dustin): !! Add tests for added/droppedItem returns.
id := item.Id()
node, found := lru.lookup[id]
added = (found == false)
if found == true {
// It's already at the front.
if node.before == nil {
return added, nil, nil
}
// If we were at the bottom, the bottom is now whatever was upstream of
// us.
if lru.bottom == node {
lru.bottom = lru.bottom.before
}
// Prune.
if node.before != nil {
node.before.after = node.after
node.before = nil
}
// Insert at the front.
node.after = lru.top
// Point the head of the list to us.
lru.top = node
} else {
node = &lruNode{
after: lru.top,
item: item,
}
lru.lookup[id] = node
// Point the head of the list to us.
lru.top = node
}
// Update the link from the downstream node.
if node.after != nil {
node.after.before = node
}
if lru.bottom == nil {
lru.bottom = node
}
if len(lru.lookup) > lru.maxSize {
lastItemId := lru.Oldest()
lastNode := lru.lookup[lastItemId]
found, err := lru.Drop(lastItemId)
log.PanicIf(err)
if found == false {
log.Panicf("drop of old item was ineffectual")
}
droppedItem = lastNode.item
}
return added, droppedItem, nil
}
// Drop discards the given item.
func (lru *Lru) Drop(id LruKey) (found bool, err error) {
defer func() {
if state := recover(); state != nil {
err = log.Wrap(state.(error))
}
}()
node, found := lru.lookup[id]
if found == false {
return false, nil
}
// Keep the `top` node up-to-date.
if node.before == nil {
lru.top = node.after
}
// Keep the `bottom` node up-to-date.
if node.after == nil {
lru.bottom = node.before
}
// Detach us from the previous node and link that node to the one after us.
if node.before != nil {
node.before.after = node.after
}
delete(lru.lookup, id)
if lru.dropCb != nil {
err := lru.dropCb(id)
log.PanicIf(err)
}
return true, nil
}
// Newest returns the most recently used ID.
func (lru *Lru) Newest() LruKey {
if lru.top != nil {
return lru.top.item.Id()
}
return nil
}
// Oldest returns the least recently used ID.
func (lru *Lru) Oldest() LruKey {
if lru.bottom != nil {
return lru.bottom.item.Id()
}
return nil
}
// All returns a list of all IDs.
func (lru *Lru) All() []LruKey {
collected := make([]LruKey, len(lru.lookup))
i := 0
for value := range lru.lookup {
collected[i] = value
i++
}
return collected
}
// PopOldest will pop the oldest entry out of the LRU and return it. It will
// return ErrLruEmpty when empty.
func (lru *Lru) PopOldest() (item LruItem, err error) {
lk := lru.Oldest()
if lk == nil {
return nil, ErrLruEmpty
}
node := lru.lookup[lk]
if node == nil {
log.Panicf("something went wrong resolving the oldest item")
}
found, err := lru.Drop(lk)
log.PanicIf(err)
if found == false {
log.Panicf("something went wrong dropping the oldest item")
}
return node.item, nil
}
// Dump returns a list of all IDs.
func (lru *Lru) Dump() {
fmt.Printf("Count: (%d)\n", len(lru.lookup))
fmt.Printf("\n")
fmt.Printf("Top: %v\n", lru.top)
fmt.Printf("Bottom: %v\n", lru.bottom)
fmt.Printf("\n")
i := 0
for ptr := lru.top; ptr != nil; ptr = ptr.after {
fmt.Printf("%03d: %s\n", i, ptr)
i++
}
}