File: //var/www/design.system/node_modules/tinypool/dist/index.js
import {
isMovable,
isTaskQueue,
isTransferable,
kFieldCount,
kQueueOptions,
kRequestCountField,
kResponseCountField,
kTransferable,
kValue,
markMovable
} from "./chunk-UBWFVGJX.js";
import {
__privateAdd,
__privateGet,
__privateSet,
__publicField
} from "./chunk-6LX4VMOV.js";
// src/index.ts
import {
MessageChannel,
receiveMessageOnPort
} from "worker_threads";
import { once, EventEmitterAsyncResource } from "events";
import { AsyncResource } from "async_hooks";
import { fileURLToPath as fileURLToPath3, URL } from "url";
import { join } from "path";
import { inspect, types } from "util";
import assert from "assert";
import { performance } from "perf_hooks";
import { readFileSync } from "fs";
// src/physicalCpuCount.ts
import os from "os";
import childProcess from "child_process";
function exec(command) {
const output = childProcess.execSync(command, {
encoding: "utf8",
stdio: [null, null, null]
});
return output;
}
var amount;
try {
const platform = os.platform();
if (platform === "linux") {
const output1 = exec(
'cat /proc/cpuinfo | grep "physical id" | sort |uniq | wc -l'
);
const output2 = exec(
'cat /proc/cpuinfo | grep "core id" | sort | uniq | wc -l'
);
const physicalCpuAmount = parseInt(output1.trim(), 10);
const physicalCoreAmount = parseInt(output2.trim(), 10);
amount = physicalCpuAmount * physicalCoreAmount;
} else if (platform === "darwin") {
const output = exec("sysctl -n hw.physicalcpu_max");
amount = parseInt(output.trim(), 10);
} else if (platform === "win32") {
throw new Error();
} else {
const cores = os.cpus().filter(function(cpu, index) {
const hasHyperthreading = cpu.model.includes("Intel");
const isOdd = index % 2 === 1;
return !hasHyperthreading || isOdd;
});
amount = cores.length;
}
} catch {
amount = os.cpus().length;
}
if (amount === 0) {
amount = os.cpus().length;
}
// src/runtime/thread-worker.ts
import { fileURLToPath } from "url";
import { Worker } from "worker_threads";
var ThreadWorker = class {
constructor() {
__publicField(this, "name", "ThreadWorker");
__publicField(this, "runtime", "worker_threads");
__publicField(this, "thread");
__publicField(this, "threadId");
}
initialize(options) {
this.thread = new Worker(
fileURLToPath(import.meta.url + "/../entry/worker.js"),
options
);
this.threadId = this.thread.threadId;
}
async terminate() {
return this.thread.terminate();
}
postMessage(message, transferListItem) {
return this.thread.postMessage(message, transferListItem);
}
on(event, callback) {
return this.thread.on(event, callback);
}
once(event, callback) {
return this.thread.once(event, callback);
}
emit(event, ...data) {
return this.thread.emit(event, ...data);
}
ref() {
return this.thread.ref();
}
unref() {
return this.thread.unref();
}
setChannel() {
throw new Error(
"{ runtime: 'worker_threads' } doesn't support channel. Use transferListItem instead."
);
}
};
// src/runtime/process-worker.ts
import { fork } from "child_process";
import { MessagePort } from "worker_threads";
import { fileURLToPath as fileURLToPath2 } from "url";
var __tinypool_worker_message__ = true;
var SIGKILL_TIMEOUT = 1e3;
var ProcessWorker = class {
constructor() {
__publicField(this, "name", "ProcessWorker");
__publicField(this, "runtime", "child_process");
__publicField(this, "process");
__publicField(this, "threadId");
__publicField(this, "port");
__publicField(this, "channel");
__publicField(this, "waitForExit");
__publicField(this, "isTerminating", false);
__publicField(this, "onUnexpectedExit", () => {
this.process.emit("error", new Error("Worker exited unexpectedly"));
});
}
initialize(options) {
this.process = fork(
fileURLToPath2(import.meta.url + "/../entry/process.js"),
options.argv,
{
...options,
stdio: "pipe",
env: {
...options.env,
TINYPOOL_WORKER_ID: options.workerData[0].workerId.toString()
}
}
);
process.stdout.setMaxListeners(1 + process.stdout.getMaxListeners());
process.stderr.setMaxListeners(1 + process.stderr.getMaxListeners());
this.process.stdout?.pipe(process.stdout);
this.process.stderr?.pipe(process.stderr);
this.threadId = this.process.pid;
this.process.on("exit", this.onUnexpectedExit);
this.waitForExit = new Promise((r) => this.process.on("exit", r));
}
async terminate() {
this.isTerminating = true;
this.process.off("exit", this.onUnexpectedExit);
const sigkillTimeout = setTimeout(
() => this.process.kill("SIGKILL"),
SIGKILL_TIMEOUT
);
this.process.kill();
await this.waitForExit;
this.process.stdout?.unpipe(process.stdout);
this.process.stderr?.unpipe(process.stderr);
this.port?.close();
clearTimeout(sigkillTimeout);
}
setChannel(channel) {
this.channel = channel;
this.channel.onMessage((message) => {
this.send(message);
});
}
send(message) {
if (!this.isTerminating) {
this.process.send(message);
}
}
postMessage(message, transferListItem) {
transferListItem?.forEach((item) => {
if (item instanceof MessagePort) {
this.port = item;
}
});
if (this.port) {
this.port.on(
"message",
(message2) => this.send({
...message2,
source: "port",
__tinypool_worker_message__
})
);
}
return this.send({
...message,
source: "pool",
__tinypool_worker_message__
});
}
on(event, callback) {
return this.process.on(event, (data) => {
if (event === "error") {
return callback(data);
}
if (!data || !data.__tinypool_worker_message__) {
return this.channel?.postMessage(data);
}
if (data.source === "pool") {
callback(data);
} else if (data.source === "port") {
this.port.postMessage(data);
}
});
}
once(event, callback) {
return this.process.once(event, callback);
}
emit(event, ...data) {
return this.process.emit(event, ...data);
}
ref() {
return this.process.ref();
}
unref() {
this.port?.unref();
this.process.channel?.unref();
if (hasUnref(this.process.stdout)) {
this.process.stdout.unref();
}
if (hasUnref(this.process.stderr)) {
this.process.stderr.unref();
}
return this.process.unref();
}
};
function hasUnref(stream) {
return stream != null && "unref" in stream && typeof stream.unref === "function";
}
// src/index.ts
var cpuCount = amount;
function onabort(abortSignal, listener) {
if ("addEventListener" in abortSignal) {
abortSignal.addEventListener("abort", listener, { once: true });
} else {
abortSignal.once("abort", listener);
}
}
var AbortError = class extends Error {
constructor() {
super("The task has been aborted");
}
get name() {
return "AbortError";
}
};
var CancelError = class extends Error {
constructor() {
super("The task has been cancelled");
}
get name() {
return "CancelError";
}
};
var ArrayTaskQueue = class {
constructor() {
__publicField(this, "tasks", []);
}
get size() {
return this.tasks.length;
}
shift() {
return this.tasks.shift();
}
push(task) {
this.tasks.push(task);
}
remove(task) {
const index = this.tasks.indexOf(task);
assert.notStrictEqual(index, -1);
this.tasks.splice(index, 1);
}
cancel() {
while (this.tasks.length > 0) {
const task = this.tasks.pop();
task?.cancel();
}
}
};
var kDefaultOptions = {
filename: null,
name: "default",
runtime: "worker_threads",
minThreads: Math.max(cpuCount / 2, 1),
maxThreads: cpuCount,
idleTimeout: 0,
maxQueue: Infinity,
concurrentTasksPerWorker: 1,
useAtomics: true,
taskQueue: new ArrayTaskQueue(),
trackUnmanagedFds: true
};
var kDefaultRunOptions = {
transferList: void 0,
filename: null,
signal: null,
name: null
};
var _value;
var DirectlyTransferable = class {
constructor(value) {
__privateAdd(this, _value, void 0);
__privateSet(this, _value, value);
}
get [kTransferable]() {
return __privateGet(this, _value);
}
get [kValue]() {
return __privateGet(this, _value);
}
};
_value = new WeakMap();
var _view;
var ArrayBufferViewTransferable = class {
constructor(view) {
__privateAdd(this, _view, void 0);
__privateSet(this, _view, view);
}
get [kTransferable]() {
return __privateGet(this, _view).buffer;
}
get [kValue]() {
return __privateGet(this, _view);
}
};
_view = new WeakMap();
var taskIdCounter = 0;
function maybeFileURLToPath(filename) {
return filename.startsWith("file:") ? fileURLToPath3(new URL(filename)) : filename;
}
var TaskInfo = class extends AsyncResource {
constructor(task, transferList, filename, name, callback, abortSignal, triggerAsyncId, channel) {
super("Tinypool.Task", { requireManualDestroy: true, triggerAsyncId });
__publicField(this, "callback");
__publicField(this, "task");
__publicField(this, "transferList");
__publicField(this, "channel");
__publicField(this, "filename");
__publicField(this, "name");
__publicField(this, "taskId");
__publicField(this, "abortSignal");
__publicField(this, "abortListener", null);
__publicField(this, "workerInfo", null);
__publicField(this, "created");
__publicField(this, "started");
__publicField(this, "cancel");
this.callback = callback;
this.task = task;
this.transferList = transferList;
this.cancel = () => this.callback(new CancelError(), null);
this.channel = channel;
if (isMovable(task)) {
if (this.transferList == null) {
this.transferList = [];
}
this.transferList = this.transferList.concat(task[kTransferable]);
this.task = task[kValue];
}
this.filename = filename;
this.name = name;
this.taskId = taskIdCounter++;
this.abortSignal = abortSignal;
this.created = performance.now();
this.started = 0;
}
releaseTask() {
const ret = this.task;
this.task = null;
return ret;
}
done(err, result) {
this.emitDestroy();
this.runInAsyncScope(this.callback, null, err, result);
if (this.abortSignal && this.abortListener) {
if ("removeEventListener" in this.abortSignal && this.abortListener) {
this.abortSignal.removeEventListener("abort", this.abortListener);
} else {
;
this.abortSignal.off(
"abort",
this.abortListener
);
}
}
}
get [kQueueOptions]() {
return kQueueOptions in this.task ? this.task[kQueueOptions] : null;
}
};
var AsynchronouslyCreatedResource = class {
constructor() {
__publicField(this, "onreadyListeners", []);
}
markAsReady() {
const listeners = this.onreadyListeners;
assert(listeners !== null);
this.onreadyListeners = null;
for (const listener of listeners) {
listener();
}
}
isReady() {
return this.onreadyListeners === null;
}
onReady(fn) {
if (this.onreadyListeners === null) {
fn();
return;
}
this.onreadyListeners.push(fn);
}
};
var AsynchronouslyCreatedResourcePool = class {
constructor(maximumUsage) {
__publicField(this, "pendingItems", /* @__PURE__ */ new Set());
__publicField(this, "readyItems", /* @__PURE__ */ new Set());
__publicField(this, "maximumUsage");
__publicField(this, "onAvailableListeners");
this.maximumUsage = maximumUsage;
this.onAvailableListeners = [];
}
add(item) {
this.pendingItems.add(item);
item.onReady(() => {
if (this.pendingItems.has(item)) {
this.pendingItems.delete(item);
this.readyItems.add(item);
this.maybeAvailable(item);
}
});
}
delete(item) {
this.pendingItems.delete(item);
this.readyItems.delete(item);
}
findAvailable() {
let minUsage = this.maximumUsage;
let candidate = null;
for (const item of this.readyItems) {
const usage = item.currentUsage();
if (usage === 0)
return item;
if (usage < minUsage) {
candidate = item;
minUsage = usage;
}
}
return candidate;
}
*[Symbol.iterator]() {
yield* this.pendingItems;
yield* this.readyItems;
}
get size() {
return this.pendingItems.size + this.readyItems.size;
}
maybeAvailable(item) {
if (item.currentUsage() < this.maximumUsage) {
for (const listener of this.onAvailableListeners) {
listener(item);
}
}
}
onAvailable(fn) {
this.onAvailableListeners.push(fn);
}
};
var Errors = {
ThreadTermination: () => new Error("Terminating worker thread"),
FilenameNotProvided: () => new Error("filename must be provided to run() or in options object"),
TaskQueueAtLimit: () => new Error("Task queue is at limit"),
NoTaskQueueAvailable: () => new Error("No task queue available and all Workers are busy")
};
var WorkerInfo = class extends AsynchronouslyCreatedResource {
constructor(worker, port, workerId, freeWorkerId, onMessage) {
super();
__publicField(this, "worker");
__publicField(this, "workerId");
__publicField(this, "freeWorkerId");
__publicField(this, "taskInfos");
__publicField(this, "idleTimeout", null);
__publicField(this, "port");
__publicField(this, "sharedBuffer");
__publicField(this, "lastSeenResponseCount", 0);
__publicField(this, "usedMemory");
__publicField(this, "onMessage");
__publicField(this, "shouldRecycle");
this.worker = worker;
this.workerId = workerId;
this.freeWorkerId = freeWorkerId;
this.port = port;
this.port.on(
"message",
(message) => this._handleResponse(message)
);
this.onMessage = onMessage;
this.taskInfos = /* @__PURE__ */ new Map();
this.sharedBuffer = new Int32Array(
new SharedArrayBuffer(kFieldCount * Int32Array.BYTES_PER_ELEMENT)
);
}
async destroy(timeout) {
let resolve;
let reject;
const ret = new Promise((res, rej) => {
resolve = res;
reject = rej;
});
const timer = timeout ? setTimeout(
() => reject(new Error("Failed to terminate worker")),
timeout
) : null;
void this.worker.terminate().then(() => {
if (timer !== null) {
clearTimeout(timer);
}
this.port.close();
this.clearIdleTimeout();
for (const taskInfo of this.taskInfos.values()) {
taskInfo.done(Errors.ThreadTermination());
}
this.taskInfos.clear();
resolve();
});
return ret;
}
clearIdleTimeout() {
if (this.idleTimeout !== null) {
clearTimeout(this.idleTimeout);
this.idleTimeout = null;
}
}
ref() {
this.port.ref();
return this;
}
unref() {
this.port.unref();
return this;
}
_handleResponse(message) {
this.usedMemory = message.usedMemory;
this.onMessage(message);
if (this.taskInfos.size === 0) {
this.unref();
}
}
postTask(taskInfo) {
assert(!this.taskInfos.has(taskInfo.taskId));
const message = {
task: taskInfo.releaseTask(),
taskId: taskInfo.taskId,
filename: taskInfo.filename,
name: taskInfo.name
};
try {
if (taskInfo.channel) {
this.worker.setChannel?.(taskInfo.channel);
}
this.port.postMessage(message, taskInfo.transferList);
} catch (err) {
taskInfo.done(err);
return;
}
taskInfo.workerInfo = this;
this.taskInfos.set(taskInfo.taskId, taskInfo);
this.ref();
this.clearIdleTimeout();
Atomics.add(this.sharedBuffer, kRequestCountField, 1);
Atomics.notify(this.sharedBuffer, kRequestCountField, 1);
}
processPendingMessages() {
const actualResponseCount = Atomics.load(
this.sharedBuffer,
kResponseCountField
);
if (actualResponseCount !== this.lastSeenResponseCount) {
this.lastSeenResponseCount = actualResponseCount;
let entry;
while ((entry = receiveMessageOnPort(this.port)) !== void 0) {
this._handleResponse(entry.message);
}
}
}
isRunningAbortableTask() {
if (this.taskInfos.size !== 1)
return false;
const [first] = this.taskInfos;
const [, task] = first || [];
return task?.abortSignal !== null;
}
currentUsage() {
if (this.isRunningAbortableTask())
return Infinity;
return this.taskInfos.size;
}
};
var ThreadPool = class {
constructor(publicInterface, options) {
__publicField(this, "publicInterface");
__publicField(this, "workers");
__publicField(this, "workerIds");
// Map<workerId, isIdAvailable>
__publicField(this, "options");
__publicField(this, "taskQueue");
__publicField(this, "skipQueue", []);
__publicField(this, "completed", 0);
__publicField(this, "start", performance.now());
__publicField(this, "inProcessPendingMessages", false);
__publicField(this, "startingUp", false);
__publicField(this, "workerFailsDuringBootstrap", false);
this.publicInterface = publicInterface;
this.taskQueue = options.taskQueue || new ArrayTaskQueue();
const filename = options.filename ? maybeFileURLToPath(options.filename) : null;
this.options = { ...kDefaultOptions, ...options, filename, maxQueue: 0 };
if (options.maxThreads !== void 0 && this.options.minThreads >= options.maxThreads) {
this.options.minThreads = options.maxThreads;
}
if (options.minThreads !== void 0 && this.options.maxThreads <= options.minThreads) {
this.options.maxThreads = options.minThreads;
}
if (options.maxQueue === "auto") {
this.options.maxQueue = this.options.maxThreads ** 2;
} else {
this.options.maxQueue = options.maxQueue ?? kDefaultOptions.maxQueue;
}
this.workerIds = new Map(
new Array(this.options.maxThreads).fill(0).map((_, i) => [i + 1, true])
);
this.workers = new AsynchronouslyCreatedResourcePool(
this.options.concurrentTasksPerWorker
);
this.workers.onAvailable((w) => this._onWorkerAvailable(w));
this.startingUp = true;
this._ensureMinimumWorkers();
this.startingUp = false;
}
_ensureEnoughWorkersForTaskQueue() {
while (this.workers.size < this.taskQueue.size && this.workers.size < this.options.maxThreads) {
this._addNewWorker();
}
}
_ensureMaximumWorkers() {
while (this.workers.size < this.options.maxThreads) {
this._addNewWorker();
}
}
_ensureMinimumWorkers() {
while (this.workers.size < this.options.minThreads) {
this._addNewWorker();
}
}
_addNewWorker() {
const workerIds = this.workerIds;
let workerId;
workerIds.forEach((isIdAvailable, _workerId2) => {
if (isIdAvailable && !workerId) {
workerId = _workerId2;
workerIds.set(_workerId2, false);
}
});
const tinypoolPrivateData = { workerId };
const worker = this.options.runtime === "child_process" ? new ProcessWorker() : new ThreadWorker();
worker.initialize({
env: this.options.env,
argv: this.options.argv,
execArgv: this.options.execArgv,
resourceLimits: this.options.resourceLimits,
workerData: [
tinypoolPrivateData,
this.options.workerData
],
trackUnmanagedFds: this.options.trackUnmanagedFds
});
const onMessage = (message2) => {
const { taskId, result } = message2;
const taskInfo = workerInfo.taskInfos.get(taskId);
workerInfo.taskInfos.delete(taskId);
if (!this.shouldRecycleWorker(taskInfo)) {
this.workers.maybeAvailable(workerInfo);
}
if (taskInfo === void 0) {
const err = new Error(
`Unexpected message from Worker: ${inspect(message2)}`
);
this.publicInterface.emit("error", err);
} else {
taskInfo.done(message2.error, result);
}
this._processPendingMessages();
};
const { port1, port2 } = new MessageChannel();
const workerInfo = new WorkerInfo(
worker,
port1,
workerId,
() => workerIds.set(workerId, true),
onMessage
);
if (this.startingUp) {
workerInfo.markAsReady();
}
const message = {
filename: this.options.filename,
name: this.options.name,
port: port2,
sharedBuffer: workerInfo.sharedBuffer,
useAtomics: this.options.useAtomics
};
worker.postMessage(message, [port2]);
worker.on("message", (message2) => {
if (message2.ready === true) {
if (workerInfo.currentUsage() === 0) {
workerInfo.unref();
}
if (!workerInfo.isReady()) {
workerInfo.markAsReady();
}
return;
}
worker.emit(
"error",
new Error(`Unexpected message on Worker: ${inspect(message2)}`)
);
});
worker.on("error", (err) => {
worker.ref = () => {
};
const taskInfos = [...workerInfo.taskInfos.values()];
workerInfo.taskInfos.clear();
void this._removeWorker(workerInfo);
if (workerInfo.isReady() && !this.workerFailsDuringBootstrap) {
this._ensureMinimumWorkers();
} else {
this.workerFailsDuringBootstrap = true;
}
if (taskInfos.length > 0) {
for (const taskInfo of taskInfos) {
taskInfo.done(err, null);
}
} else {
this.publicInterface.emit("error", err);
}
});
worker.unref();
port1.on("close", () => {
worker.ref();
});
this.workers.add(workerInfo);
}
_processPendingMessages() {
if (this.inProcessPendingMessages || !this.options.useAtomics) {
return;
}
this.inProcessPendingMessages = true;
try {
for (const workerInfo of this.workers) {
workerInfo.processPendingMessages();
}
} finally {
this.inProcessPendingMessages = false;
}
}
_removeWorker(workerInfo) {
workerInfo.freeWorkerId();
this.workers.delete(workerInfo);
return workerInfo.destroy(this.options.terminateTimeout);
}
_onWorkerAvailable(workerInfo) {
while ((this.taskQueue.size > 0 || this.skipQueue.length > 0) && workerInfo.currentUsage() < this.options.concurrentTasksPerWorker) {
const taskInfo = this.skipQueue.shift() || this.taskQueue.shift();
if (taskInfo.abortSignal && workerInfo.taskInfos.size > 0) {
this.skipQueue.push(taskInfo);
break;
}
const now = performance.now();
taskInfo.started = now;
workerInfo.postTask(taskInfo);
this._maybeDrain();
return;
}
if (workerInfo.taskInfos.size === 0 && this.workers.size > this.options.minThreads) {
workerInfo.idleTimeout = setTimeout(() => {
assert.strictEqual(workerInfo.taskInfos.size, 0);
if (this.workers.size > this.options.minThreads) {
void this._removeWorker(workerInfo);
}
}, this.options.idleTimeout).unref();
}
}
runTask(task, options) {
let { filename, name } = options;
const { transferList = [], signal = null, channel } = options;
if (filename == null) {
filename = this.options.filename;
}
if (name == null) {
name = this.options.name;
}
if (typeof filename !== "string") {
return Promise.reject(Errors.FilenameNotProvided());
}
filename = maybeFileURLToPath(filename);
let resolve;
let reject;
const ret = new Promise((res, rej) => {
resolve = res;
reject = rej;
});
const taskInfo = new TaskInfo(
task,
transferList,
filename,
name,
(err, result) => {
this.completed++;
if (err !== null) {
reject(err);
}
if (this.shouldRecycleWorker(taskInfo)) {
this._removeWorker(taskInfo.workerInfo).then(() => this._ensureMinimumWorkers()).then(() => this._ensureEnoughWorkersForTaskQueue()).then(() => resolve(result)).catch(reject);
} else {
resolve(result);
}
},
signal,
this.publicInterface.asyncResource.asyncId(),
channel
);
if (signal !== null) {
if (signal.aborted) {
return Promise.reject(new AbortError());
}
taskInfo.abortListener = () => {
reject(new AbortError());
if (taskInfo.workerInfo !== null) {
void this._removeWorker(taskInfo.workerInfo);
this._ensureMinimumWorkers();
} else {
this.taskQueue.remove(taskInfo);
}
};
onabort(signal, taskInfo.abortListener);
}
if (this.taskQueue.size > 0) {
const totalCapacity = this.options.maxQueue + this.pendingCapacity();
if (this.taskQueue.size >= totalCapacity) {
if (this.options.maxQueue === 0) {
return Promise.reject(Errors.NoTaskQueueAvailable());
} else {
return Promise.reject(Errors.TaskQueueAtLimit());
}
} else {
if (this.workers.size < this.options.maxThreads) {
this._addNewWorker();
}
this.taskQueue.push(taskInfo);
}
return ret;
}
let workerInfo = this.workers.findAvailable();
if (workerInfo !== null && workerInfo.currentUsage() > 0 && signal) {
workerInfo = null;
}
let waitingForNewWorker = false;
if ((workerInfo === null || workerInfo.currentUsage() > 0) && this.workers.size < this.options.maxThreads) {
this._addNewWorker();
waitingForNewWorker = true;
}
if (workerInfo === null) {
if (this.options.maxQueue <= 0 && !waitingForNewWorker) {
return Promise.reject(Errors.NoTaskQueueAvailable());
} else {
this.taskQueue.push(taskInfo);
}
return ret;
}
const now = performance.now();
taskInfo.started = now;
workerInfo.postTask(taskInfo);
this._maybeDrain();
return ret;
}
shouldRecycleWorker(taskInfo) {
if (taskInfo?.workerInfo?.shouldRecycle) {
return true;
}
if (this.options.isolateWorkers && taskInfo?.workerInfo) {
return true;
}
if (!this.options.isolateWorkers && this.options.maxMemoryLimitBeforeRecycle !== void 0 && (taskInfo?.workerInfo?.usedMemory || 0) > this.options.maxMemoryLimitBeforeRecycle) {
return true;
}
return false;
}
pendingCapacity() {
return this.workers.pendingItems.size * this.options.concurrentTasksPerWorker;
}
_maybeDrain() {
if (this.taskQueue.size === 0 && this.skipQueue.length === 0) {
this.publicInterface.emit("drain");
}
}
async destroy() {
while (this.skipQueue.length > 0) {
const taskInfo = this.skipQueue.shift();
taskInfo.done(new Error("Terminating worker thread"));
}
while (this.taskQueue.size > 0) {
const taskInfo = this.taskQueue.shift();
taskInfo.done(new Error("Terminating worker thread"));
}
const exitEvents = [];
while (this.workers.size > 0) {
const [workerInfo] = this.workers;
exitEvents.push(once(workerInfo.worker, "exit"));
void this._removeWorker(workerInfo);
}
await Promise.all(exitEvents);
}
async recycleWorkers(options = {}) {
const runtimeChanged = options?.runtime && options.runtime !== this.options.runtime;
if (options?.runtime) {
this.options.runtime = options.runtime;
}
if (this.options.isolateWorkers && !runtimeChanged) {
return;
}
const exitEvents = [];
Array.from(this.workers).filter((workerInfo) => {
if (workerInfo.currentUsage() === 0) {
exitEvents.push(once(workerInfo.worker, "exit"));
void this._removeWorker(workerInfo);
} else {
workerInfo.shouldRecycle = true;
}
});
await Promise.all(exitEvents);
this._ensureMinimumWorkers();
}
};
var _pool;
var Tinypool = class extends EventEmitterAsyncResource {
constructor(options = {}) {
if (options.minThreads !== void 0 && options.minThreads > 0 && options.minThreads < 1) {
options.minThreads = Math.max(
1,
Math.floor(options.minThreads * cpuCount)
);
}
if (options.maxThreads !== void 0 && options.maxThreads > 0 && options.maxThreads < 1) {
options.maxThreads = Math.max(
1,
Math.floor(options.maxThreads * cpuCount)
);
}
super({ ...options, name: "Tinypool" });
__privateAdd(this, _pool, void 0);
if (options.minThreads !== void 0 && options.maxThreads !== void 0 && options.minThreads > options.maxThreads) {
throw new RangeError(
"options.minThreads and options.maxThreads must not conflict"
);
}
__privateSet(this, _pool, new ThreadPool(this, options));
}
run(task, options = kDefaultRunOptions) {
const { transferList, filename, name, signal, runtime, channel } = options;
return __privateGet(this, _pool).runTask(task, {
transferList,
filename,
name,
signal,
runtime,
channel
});
}
async destroy() {
await __privateGet(this, _pool).destroy();
this.emitDestroy();
}
get options() {
return __privateGet(this, _pool).options;
}
get threads() {
const ret = [];
for (const workerInfo of __privateGet(this, _pool).workers) {
ret.push(workerInfo.worker);
}
return ret;
}
get queueSize() {
const pool = __privateGet(this, _pool);
return Math.max(pool.taskQueue.size - pool.pendingCapacity(), 0);
}
cancelPendingTasks() {
const pool = __privateGet(this, _pool);
pool.taskQueue.cancel();
}
async recycleWorkers(options = {}) {
await __privateGet(this, _pool).recycleWorkers(options);
}
get completed() {
return __privateGet(this, _pool).completed;
}
get duration() {
return performance.now() - __privateGet(this, _pool).start;
}
static get isWorkerThread() {
return process.__tinypool_state__?.isWorkerThread || false;
}
static get workerData() {
return process.__tinypool_state__?.workerData || void 0;
}
static get version() {
const { version } = JSON.parse(
readFileSync(join(__dirname, "../package.json"), "utf-8")
);
return version;
}
static move(val) {
if (val != null && typeof val === "object" && typeof val !== "function") {
if (!isTransferable(val)) {
if (types.isArrayBufferView(val)) {
val = new ArrayBufferViewTransferable(val);
} else {
val = new DirectlyTransferable(val);
}
}
markMovable(val);
}
return val;
}
static get transferableSymbol() {
return kTransferable;
}
static get valueSymbol() {
return kValue;
}
static get queueOptionsSymbol() {
return kQueueOptions;
}
};
_pool = new WeakMap();
var _workerId = process.__tinypool_state__?.workerId;
var src_default = Tinypool;
export {
Tinypool,
src_default as default,
isMovable,
isTaskQueue,
isTransferable,
kFieldCount,
kQueueOptions,
kRequestCountField,
kResponseCountField,
kTransferable,
kValue,
markMovable,
_workerId as workerId
};