/* MIT License http://www.opensource.org/licenses/mit-license.php Author Tobias Koppers @sokra */ "use strict"; /** * @template {any[]} T */ class TupleSet { /** * @param {Iterable=} init init */ constructor(init) { /** @type {Map} */ this._map = new Map(); this.size = 0; if (init) { for (const tuple of init) { this.add(...tuple); } } } /** * @param {T} args tuple * @returns {void} */ add(...args) { let map = this._map; for (let i = 0; i < args.length - 2; i++) { const arg = args[i]; const innerMap = map.get(arg); if (innerMap === undefined) { map.set(arg, (map = new Map())); } else { map = innerMap; } } const beforeLast = args[args.length - 2]; let set = map.get(beforeLast); if (set === undefined) { map.set(beforeLast, (set = new Set())); } const last = args[args.length - 1]; this.size -= set.size; set.add(last); this.size += set.size; } /** * @param {T} args tuple * @returns {boolean} true, if the tuple is in the Set */ has(...args) { let map = this._map; for (let i = 0; i < args.length - 2; i++) { const arg = args[i]; map = map.get(arg); if (map === undefined) { return false; } } const beforeLast = args[args.length - 2]; const set = map.get(beforeLast); if (set === undefined) { return false; } const last = args[args.length - 1]; return set.has(last); } /** * @param {T} args tuple * @returns {void} */ delete(...args) { let map = this._map; for (let i = 0; i < args.length - 2; i++) { const arg = args[i]; map = map.get(arg); if (map === undefined) { return; } } const beforeLast = args[args.length - 2]; const set = map.get(beforeLast); if (set === undefined) { return; } const last = args[args.length - 1]; this.size -= set.size; set.delete(last); this.size += set.size; } /** * @returns {Iterator} iterator */ [Symbol.iterator]() { /** @type {TODO[]} */ const iteratorStack = []; /** @type {T[]} */ const tuple = []; /** @type {Iterator | undefined} */ let currentSetIterator; /** * @param {TODO} it iterator * @returns {boolean} result */ const next = it => { const result = it.next(); if (result.done) { if (iteratorStack.length === 0) return false; tuple.pop(); return next(iteratorStack.pop()); } const [key, value] = result.value; iteratorStack.push(it); tuple.push(key); if (value instanceof Set) { currentSetIterator = value[Symbol.iterator](); return true; } return next(value[Symbol.iterator]()); }; next(this._map[Symbol.iterator]()); return { next() { while (currentSetIterator) { const result = currentSetIterator.next(); if (result.done) { tuple.pop(); if (!next(iteratorStack.pop())) { currentSetIterator = undefined; } } else { return { done: false, value: /** @type {T} */ (tuple.concat(result.value)) }; } } return { done: true, value: undefined }; } }; } } module.exports = TupleSet;