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// Copyright 2022 The go-ethereum Authors
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// This file is part of the go-ethereum library.
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//
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// The go-ethereum library is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// The go-ethereum library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
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// Package lru implements generically-typed LRU caches.
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package lru
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// BasicLRU is a simple LRU cache.
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//
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// This type is not safe for concurrent use.
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// The zero value is not valid, instances must be created using NewCache.
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type BasicLRU[K comparable, V any] struct {
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list *list[K]
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items map[K]cacheItem[K, V]
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cap int
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}
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type cacheItem[K any, V any] struct {
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elem *listElem[K]
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value V
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}
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// NewBasicLRU creates a new LRU cache.
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func NewBasicLRU[K comparable, V any](capacity int) BasicLRU[K, V] {
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if capacity <= 0 {
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capacity = 1
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}
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c := BasicLRU[K, V]{
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items: make(map[K]cacheItem[K, V]),
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list: newList[K](),
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cap: capacity,
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}
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return c
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}
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// Add adds a value to the cache. Returns true if an item was evicted to store the new item.
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func (c *BasicLRU[K, V]) Add(key K, value V) (evicted bool) {
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item, ok := c.items[key]
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if ok {
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// Already exists in cache.
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item.value = value
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c.items[key] = item
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c.list.moveToFront(item.elem)
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return false
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}
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var elem *listElem[K]
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if c.Len() >= c.cap {
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elem = c.list.removeLast()
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delete(c.items, elem.v)
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evicted = true
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} else {
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elem = new(listElem[K])
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}
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// Store the new item.
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// Note that, if another item was evicted, we re-use its list element here.
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elem.v = key
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c.items[key] = cacheItem[K, V]{elem, value}
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c.list.pushElem(elem)
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return evicted
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}
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// Contains reports whether the given key exists in the cache.
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func (c *BasicLRU[K, V]) Contains(key K) bool {
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_, ok := c.items[key]
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return ok
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}
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// Get retrieves a value from the cache. This marks the key as recently used.
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func (c *BasicLRU[K, V]) Get(key K) (value V, ok bool) {
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item, ok := c.items[key]
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if !ok {
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return value, false
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}
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c.list.moveToFront(item.elem)
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return item.value, true
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}
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// GetOldest retrieves the least-recently-used item.
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// Note that this does not update the item's recency.
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func (c *BasicLRU[K, V]) GetOldest() (key K, value V, ok bool) {
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lastElem := c.list.last()
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if lastElem == nil {
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return key, value, false
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}
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key = lastElem.v
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item := c.items[key]
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return key, item.value, true
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}
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// Len returns the current number of items in the cache.
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func (c *BasicLRU[K, V]) Len() int {
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return len(c.items)
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}
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// Peek retrieves a value from the cache, but does not mark the key as recently used.
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func (c *BasicLRU[K, V]) Peek(key K) (value V, ok bool) {
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item, ok := c.items[key]
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return item.value, ok
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}
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// Purge empties the cache.
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func (c *BasicLRU[K, V]) Purge() {
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c.list.init()
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clear(c.items)
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}
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// Remove drops an item from the cache. Returns true if the key was present in cache.
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func (c *BasicLRU[K, V]) Remove(key K) bool {
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item, ok := c.items[key]
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if ok {
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delete(c.items, key)
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c.list.remove(item.elem)
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}
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return ok
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}
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// RemoveOldest drops the least recently used item.
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func (c *BasicLRU[K, V]) RemoveOldest() (key K, value V, ok bool) {
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lastElem := c.list.last()
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if lastElem == nil {
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return key, value, false
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}
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key = lastElem.v
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item := c.items[key]
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delete(c.items, key)
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c.list.remove(lastElem)
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return key, item.value, true
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}
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// Keys returns all keys in the cache.
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func (c *BasicLRU[K, V]) Keys() []K {
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keys := make([]K, 0, len(c.items))
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return c.list.appendTo(keys)
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}
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// list is a doubly-linked list holding items of type he.
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// The zero value is not valid, use newList to create lists.
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type list[T any] struct {
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root listElem[T]
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}
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type listElem[T any] struct {
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next *listElem[T]
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prev *listElem[T]
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v T
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}
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func newList[T any]() *list[T] {
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l := new(list[T])
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l.init()
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return l
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}
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// init reinitializes the list, making it empty.
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func (l *list[T]) init() {
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l.root.next = &l.root
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l.root.prev = &l.root
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}
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// pushElem adds an element to the front of the list.
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func (l *list[T]) pushElem(e *listElem[T]) {
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e.prev = &l.root
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e.next = l.root.next
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l.root.next = e
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e.next.prev = e
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}
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// moveToFront makes 'node' the head of the list.
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func (l *list[T]) moveToFront(e *listElem[T]) {
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e.prev.next = e.next
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e.next.prev = e.prev
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l.pushElem(e)
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}
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// remove removes an element from the list.
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func (l *list[T]) remove(e *listElem[T]) {
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e.prev.next = e.next
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e.next.prev = e.prev
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e.next, e.prev = nil, nil
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}
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// removeLast removes the last element of the list.
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func (l *list[T]) removeLast() *listElem[T] {
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last := l.last()
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if last != nil {
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l.remove(last)
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}
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return last
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}
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// last returns the last element of the list, or nil if the list is empty.
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func (l *list[T]) last() *listElem[T] {
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e := l.root.prev
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if e == &l.root {
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return nil
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}
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return e
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}
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// appendTo appends all list elements to a slice.
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func (l *list[T]) appendTo(slice []T) []T {
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for e := l.root.prev; e != &l.root; e = e.prev {
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slice = append(slice, e.v)
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}
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return slice
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}
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