/* MIT License http://www.opensource.org/licenses/mit-license.php Author Tobias Koppers @sokra */ "use strict"; const { SyncHook, AsyncSeriesHook } = require("tapable"); const { makeWebpackError } = require("../HookWebpackError"); const WebpackError = require("../WebpackError"); const ArrayQueue = require("./ArrayQueue"); const QUEUED_STATE = 0; const PROCESSING_STATE = 1; const DONE_STATE = 2; let inHandleResult = 0; /** * @template T * @callback Callback * @param {(WebpackError | null)=} err * @param {T=} result */ /** * @template T * @template K * @template R */ class AsyncQueueEntry { /** * @param {T} item the item * @param {Callback} callback the callback */ constructor(item, callback) { this.item = item; /** @type {typeof QUEUED_STATE | typeof PROCESSING_STATE | typeof DONE_STATE} */ this.state = QUEUED_STATE; this.callback = callback; /** @type {Callback[] | undefined} */ this.callbacks = undefined; this.result = undefined; /** @type {WebpackError | undefined} */ this.error = undefined; } } /** * @template T * @template K * @template R */ class AsyncQueue { /** * @param {object} options options object * @param {string=} options.name name of the queue * @param {number=} options.parallelism how many items should be processed at once * @param {AsyncQueue=} options.parent parent queue, which will have priority over this queue and with shared parallelism * @param {function(T): K=} options.getKey extract key from item * @param {function(T, Callback): void} options.processor async function to process items */ constructor({ name, parallelism, parent, processor, getKey }) { this._name = name; this._parallelism = parallelism || 1; this._processor = processor; this._getKey = getKey || /** @type {(T) => K} */ (item => /** @type {any} */ (item)); /** @type {Map>} */ this._entries = new Map(); /** @type {ArrayQueue>} */ this._queued = new ArrayQueue(); /** @type {AsyncQueue[] | undefined} */ this._children = undefined; this._activeTasks = 0; this._willEnsureProcessing = false; this._needProcessing = false; this._stopped = false; this._root = parent ? parent._root : this; if (parent) { if (this._root._children === undefined) { this._root._children = [this]; } else { this._root._children.push(this); } } this.hooks = { /** @type {AsyncSeriesHook<[T]>} */ beforeAdd: new AsyncSeriesHook(["item"]), /** @type {SyncHook<[T]>} */ added: new SyncHook(["item"]), /** @type {AsyncSeriesHook<[T]>} */ beforeStart: new AsyncSeriesHook(["item"]), /** @type {SyncHook<[T]>} */ started: new SyncHook(["item"]), /** @type {SyncHook<[T, Error, R]>} */ result: new SyncHook(["item", "error", "result"]) }; this._ensureProcessing = this._ensureProcessing.bind(this); } /** * @param {T} item an item * @param {Callback} callback callback function * @returns {void} */ add(item, callback) { if (this._stopped) return callback(new WebpackError("Queue was stopped")); this.hooks.beforeAdd.callAsync(item, err => { if (err) { callback( makeWebpackError(err, `AsyncQueue(${this._name}).hooks.beforeAdd`) ); return; } const key = this._getKey(item); const entry = this._entries.get(key); if (entry !== undefined) { if (entry.state === DONE_STATE) { if (inHandleResult++ > 3) { process.nextTick(() => callback(entry.error, entry.result)); } else { callback(entry.error, entry.result); } inHandleResult--; } else if (entry.callbacks === undefined) { entry.callbacks = [callback]; } else { entry.callbacks.push(callback); } return; } const newEntry = new AsyncQueueEntry(item, callback); if (this._stopped) { this.hooks.added.call(item); this._root._activeTasks++; process.nextTick(() => this._handleResult(newEntry, new WebpackError("Queue was stopped")) ); } else { this._entries.set(key, newEntry); this._queued.enqueue(newEntry); const root = this._root; root._needProcessing = true; if (root._willEnsureProcessing === false) { root._willEnsureProcessing = true; setImmediate(root._ensureProcessing); } this.hooks.added.call(item); } }); } /** * @param {T} item an item * @returns {void} */ invalidate(item) { const key = this._getKey(item); const entry = /** @type {AsyncQueueEntry} */ (this._entries.get(key)); this._entries.delete(key); if (entry.state === QUEUED_STATE) { this._queued.delete(entry); } } /** * Waits for an already started item * @param {T} item an item * @param {Callback} callback callback function * @returns {void} */ waitFor(item, callback) { const key = this._getKey(item); const entry = this._entries.get(key); if (entry === undefined) { return callback( new WebpackError( "waitFor can only be called for an already started item" ) ); } if (entry.state === DONE_STATE) { process.nextTick(() => callback(entry.error, entry.result)); } else if (entry.callbacks === undefined) { entry.callbacks = [callback]; } else { entry.callbacks.push(callback); } } /** * @returns {void} */ stop() { this._stopped = true; const queue = this._queued; this._queued = new ArrayQueue(); const root = this._root; for (const entry of queue) { this._entries.delete(this._getKey(entry.item)); root._activeTasks++; this._handleResult(entry, new WebpackError("Queue was stopped")); } } /** * @returns {void} */ increaseParallelism() { const root = this._root; root._parallelism++; /* istanbul ignore next */ if (root._willEnsureProcessing === false && root._needProcessing) { root._willEnsureProcessing = true; setImmediate(root._ensureProcessing); } } /** * @returns {void} */ decreaseParallelism() { const root = this._root; root._parallelism--; } /** * @param {T} item an item * @returns {boolean} true, if the item is currently being processed */ isProcessing(item) { const key = this._getKey(item); const entry = this._entries.get(key); return entry !== undefined && entry.state === PROCESSING_STATE; } /** * @param {T} item an item * @returns {boolean} true, if the item is currently queued */ isQueued(item) { const key = this._getKey(item); const entry = this._entries.get(key); return entry !== undefined && entry.state === QUEUED_STATE; } /** * @param {T} item an item * @returns {boolean} true, if the item is currently queued */ isDone(item) { const key = this._getKey(item); const entry = this._entries.get(key); return entry !== undefined && entry.state === DONE_STATE; } /** * @returns {void} */ _ensureProcessing() { while (this._activeTasks < this._parallelism) { const entry = this._queued.dequeue(); if (entry === undefined) break; this._activeTasks++; entry.state = PROCESSING_STATE; this._startProcessing(entry); } this._willEnsureProcessing = false; if (this._queued.length > 0) return; if (this._children !== undefined) { for (const child of this._children) { while (this._activeTasks < this._parallelism) { const entry = child._queued.dequeue(); if (entry === undefined) break; this._activeTasks++; entry.state = PROCESSING_STATE; child._startProcessing(entry); } if (child._queued.length > 0) return; } } if (!this._willEnsureProcessing) this._needProcessing = false; } /** * @param {AsyncQueueEntry} entry the entry * @returns {void} */ _startProcessing(entry) { this.hooks.beforeStart.callAsync(entry.item, err => { if (err) { this._handleResult( entry, makeWebpackError(err, `AsyncQueue(${this._name}).hooks.beforeStart`) ); return; } let inCallback = false; try { this._processor(entry.item, (e, r) => { inCallback = true; this._handleResult(entry, e, r); }); } catch (err) { if (inCallback) throw err; this._handleResult(entry, err, null); } this.hooks.started.call(entry.item); }); } /** * @param {AsyncQueueEntry} entry the entry * @param {WebpackError=} err error, if any * @param {R=} result result, if any * @returns {void} */ _handleResult(entry, err, result) { this.hooks.result.callAsync(entry.item, err, result, hookError => { const error = hookError ? makeWebpackError(hookError, `AsyncQueue(${this._name}).hooks.result`) : err; const callback = entry.callback; const callbacks = entry.callbacks; entry.state = DONE_STATE; entry.callback = undefined; entry.callbacks = undefined; entry.result = result; entry.error = error; const root = this._root; root._activeTasks--; if (root._willEnsureProcessing === false && root._needProcessing) { root._willEnsureProcessing = true; setImmediate(root._ensureProcessing); } if (inHandleResult++ > 3) { process.nextTick(() => { callback(error, result); if (callbacks !== undefined) { for (const callback of callbacks) { callback(error, result); } } }); } else { callback(error, result); if (callbacks !== undefined) { for (const callback of callbacks) { callback(error, result); } } } inHandleResult--; }); } clear() { this._entries.clear(); this._queued.clear(); this._activeTasks = 0; this._willEnsureProcessing = false; this._needProcessing = false; this._stopped = false; } } module.exports = AsyncQueue;