211 lines
4.3 KiB
JavaScript
211 lines
4.3 KiB
JavaScript
/*
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# Implementation strategy
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Create a tree of `Map`s, such that indexing the tree recursively (with items
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of a key array, sequentially), traverses the tree, so that when the key array
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is exhausted, the tree node we arrive at contains the value for that key
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array under the guaranteed-unique `Symbol` key `dataSymbol`.
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## Example
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Start with an empty `ArrayKeyedMap` tree:
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{
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}
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Add ['a'] → 1:
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{
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'a': {
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[dataSymbol]: 1,
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},
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}
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Add [] → 0:
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{
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[dataSymbol]: 0,
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'a': {
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[dataSymbol]: 1,
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},
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}
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Add ['a', 'b', 'c', 'd'] → 4:
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{
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[dataSymbol]: 0,
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'a': {
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[dataSymbol]: 1,
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'b': {
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'c': {
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'd': {
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[dataSymbol]: 4,
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},
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},
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},
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},
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}
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String array keys are used in the above example for simplicity. In reality,
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we can support any values in array keys, because `Map`s do.
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*/
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const dataSymbol = Symbol('path-store-trunk')
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//
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// This class represents the external API
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//
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class ArrayKeyedMap {
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constructor (initialEntries = []) {
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this._root = new Map()
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this._size = 0
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for (const [k, v] of initialEntries) { this.set(k, v) }
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}
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set (path, value) { return set.call(this, path, value) }
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has (path) { return has.call(this, path) }
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get (path) { return get.call(this, path) }
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delete (path) { return del.call(this, path) }
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get size () { return this._size }
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clear () {
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this._root.clear()
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this._size = 0
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}
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hasPrefix (path) { return hasPrefix.call(this, path) }
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get [Symbol.toStringTag] () { return 'ArrayKeyedMap' }
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* [Symbol.iterator] () { yield * entries.call(this) }
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* entries () { yield * entries.call(this) }
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* keys () { yield * keys.call(this) }
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* values () { yield * values.call(this) }
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forEach (callback, thisArg) { forEach.call(this, callback, thisArg) }
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}
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//
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// These stateless functions implement the internals
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//
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function set (path, value) {
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let map = this._root
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for (const item of path) {
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let nextMap = map.get(item)
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if (!nextMap) {
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// Create next map if none exists
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nextMap = new Map()
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map.set(item, nextMap)
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}
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map = nextMap
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}
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// Reached end of path. Set the data symbol to the given value, and
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// increment size if nothing was here before.
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if (!map.has(dataSymbol)) this._size += 1
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map.set(dataSymbol, value)
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return this
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}
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function has (path) {
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let map = this._root
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for (const item of path) {
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const nextMap = map.get(item)
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if (nextMap) {
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map = nextMap
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} else {
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return false
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}
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}
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return map.has(dataSymbol)
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}
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function get (path) {
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let map = this._root
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for (const item of path) {
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map = map.get(item)
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if (!map) return undefined
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}
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return map.get(dataSymbol)
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}
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function del (path) {
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let map = this._root
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// Maintain a stack of maps we visited, so we can go back and trim empty ones
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// if we delete something.
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const stack = []
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for (const item of path) {
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const nextMap = map.get(item)
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if (nextMap) {
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stack.unshift({ parent: map, child: nextMap, item })
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map = nextMap
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} else {
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// Nothing to delete
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return false
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}
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}
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// Reached end of path. Delete data, if it exists.
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const hadPreviousValue = map.delete(dataSymbol)
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// If something was deleted, decrement size and go through the stack of
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// visited maps, trimming any that are now empty.
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if (hadPreviousValue) {
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this._size -= 1
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for (const { parent, child, item } of stack) {
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if (child.size === 0) {
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parent.delete(item)
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}
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}
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}
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return hadPreviousValue
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}
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function hasPrefix (path) {
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let map = this._root
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for (const item of path) {
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map = map.get(item)
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if (!map) return false
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}
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return true
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}
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function * entries () {
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const stack = [{ path: [], map: this._root }]
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while (stack.length > 0) {
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const { path, map } = stack.pop()
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for (const [k, v] of map.entries()) {
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if (k === dataSymbol) yield [path, v]
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else stack.push({ path: path.concat([k]), map: v })
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}
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}
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}
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function * keys () {
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for (const [k] of this.entries()) yield k
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}
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function * values () {
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for (const [, v] of this.entries()) yield v
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}
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function forEach (callback, thisArg) {
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for (const [k, v] of this.entries()) callback.call(thisArg, v, k, this)
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}
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export {
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ArrayKeyedMap
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}
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