"use strict"; var A = Object.defineProperty; var G = Object.getOwnPropertyDescriptor; var J = Object.getOwnPropertyNames; var U = Object.prototype.hasOwnProperty; var W = (n, s, t) => s in n ? A(n, s, { enumerable: !0, configurable: !0, writable: !0, value: t }) : n[s] = t; var X = (n, s) => { for (var t in s) A(n, t, { get: s[t], enumerable: !0 }); }, Z = (n, s, t, e) => { if (s && typeof s == "object" || typeof s == "function") for (let r of J(s)) !U.call(n, r) && r !== t && A(n, r, { get: () => s[r], enumerable: !(e = G(s, r)) || e.enumerable }); return n; }; var tt = (n) => Z(A({}, "__esModule", { value: !0 }), n); var i = (n, s, t) => (W(n, typeof s != "symbol" ? s + "" : s, t), t), S = (n, s, t) => { if (!s.has(n)) throw TypeError("Cannot " + t); }; var v = (n, s, t) => (S(n, s, "read from private field"), t ? t.call(n) : s.get(n)), O = (n, s, t) => { if (s.has(n)) throw TypeError("Cannot add the same private member more than once"); s instanceof WeakSet ? s.add(n) : s.set(n, t); }, d = (n, s, t, e) => (S(n, s, "write to private field"), e ? e.call(n, t) : s.set(n, t), t), B = (n, s, t, e) => ({ set _(r) { d(n, s, r, t); }, get _() { return v(n, s, e); } }); // src/index.ts var at = {}; X(at, { Bench: () => k, Task: () => w, default: () => ot, hrtimeNow: () => z, now: () => F }); module.exports = tt(at); // node_modules/.pnpm/yocto-queue@1.0.0/node_modules/yocto-queue/index.js var P = class { constructor(s) { i(this, "value"); i(this, "next"); this.value = s; } }, f, b, y, L = class { constructor() { O(this, f, void 0); O(this, b, void 0); O(this, y, void 0); this.clear(); } enqueue(s) { let t = new P(s); v(this, f) ? (v(this, b).next = t, d(this, b, t)) : (d(this, f, t), d(this, b, t)), B(this, y)._++; } dequeue() { let s = v(this, f); if (!!s) return d(this, f, v(this, f).next), B(this, y)._--, s.value; } clear() { d(this, f, void 0), d(this, b, void 0), d(this, y, 0); } get size() { return v(this, y); } *[Symbol.iterator]() { let s = v(this, f); for (; s; ) yield s.value, s = s.next; } }; f = new WeakMap(), b = new WeakMap(), y = new WeakMap(); // node_modules/.pnpm/p-limit@4.0.0/node_modules/p-limit/index.js function g(n) { if (!((Number.isInteger(n) || n === Number.POSITIVE_INFINITY) && n > 0)) throw new TypeError("Expected `concurrency` to be a number from 1 and up"); let s = new L(), t = 0, e = () => { t--, s.size > 0 && s.dequeue()(); }, r = async (c, m, h) => { t++; let p = (async () => c(...h))(); m(p); try { await p; } catch (x) { } e(); }, o = (c, m, h) => { s.enqueue(r.bind(void 0, c, m, h)), (async () => (await Promise.resolve(), t < n && s.size > 0 && s.dequeue()()))(); }, u = (c, ...m) => new Promise((h) => { o(c, h, m); }); return Object.defineProperties(u, { activeCount: { get: () => t }, pendingCount: { get: () => s.size }, clearQueue: { value: () => { s.clear(); } } }), u; } // src/event.ts function a(n, s = null) { let t = new Event(n); return s && Object.defineProperty(t, "task", { value: s, enumerable: !0, writable: !1, configurable: !1 }), t; } // src/constants.ts var et = { 1: 12.71, 2: 4.303, 3: 3.182, 4: 2.776, 5: 2.571, 6: 2.447, 7: 2.365, 8: 2.306, 9: 2.262, 10: 2.228, 11: 2.201, 12: 2.179, 13: 2.16, 14: 2.145, 15: 2.131, 16: 2.12, 17: 2.11, 18: 2.101, 19: 2.093, 20: 2.086, 21: 2.08, 22: 2.074, 23: 2.069, 24: 2.064, 25: 2.06, 26: 2.056, 27: 2.052, 28: 2.048, 29: 2.045, 30: 2.042, 31: 2.0399, 32: 2.0378, 33: 2.0357, 34: 2.0336, 35: 2.0315, 36: 2.0294, 37: 2.0273, 38: 2.0252, 39: 2.0231, 40: 2.021, 41: 2.0198, 42: 2.0186, 43: 2.0174, 44: 2.0162, 45: 2.015, 46: 2.0138, 47: 2.0126, 48: 2.0114, 49: 2.0102, 50: 2.009, 51: 2.0081, 52: 2.0072, 53: 2.0063, 54: 2.0054, 55: 2.0045, 56: 2.0036, 57: 2.0027, 58: 2.0018, 59: 2.0009, 60: 2, 61: 1.9995, 62: 1.999, 63: 1.9985, 64: 1.998, 65: 1.9975, 66: 1.997, 67: 1.9965, 68: 1.996, 69: 1.9955, 70: 1.995, 71: 1.9945, 72: 1.994, 73: 1.9935, 74: 1.993, 75: 1.9925, 76: 1.992, 77: 1.9915, 78: 1.991, 79: 1.9905, 80: 1.99, 81: 1.9897, 82: 1.9894, 83: 1.9891, 84: 1.9888, 85: 1.9885, 86: 1.9882, 87: 1.9879, 88: 1.9876, 89: 1.9873, 90: 1.987, 91: 1.9867, 92: 1.9864, 93: 1.9861, 94: 1.9858, 95: 1.9855, 96: 1.9852, 97: 1.9849, 98: 1.9846, 99: 1.9843, 100: 1.984, 101: 1.9838, 102: 1.9836, 103: 1.9834, 104: 1.9832, 105: 1.983, 106: 1.9828, 107: 1.9826, 108: 1.9824, 109: 1.9822, 110: 1.982, 111: 1.9818, 112: 1.9816, 113: 1.9814, 114: 1.9812, 115: 1.9819, 116: 1.9808, 117: 1.9806, 118: 1.9804, 119: 1.9802, 120: 1.98, infinity: 1.96 }, R = et; // src/utils.ts var st = (n) => n / 1e6, z = () => st(Number(process.hrtime.bigint())), F = () => performance.now(); function nt(n) { return n !== null && typeof n == "object" && typeof n.then == "function"; } var j = (n, s) => n.reduce((e, r) => e + (r - s) ** 2, 0) / (n.length - 1) || 0, rt = (async () => { }).constructor, it = (n) => n.constructor === rt, H = async (n) => { if (it(n.fn)) return !0; try { if (n.opts.beforeEach != null) try { await n.opts.beforeEach.call(n); } catch (e) { } let s = n.fn(), t = nt(s); if (t) try { await s; } catch (e) { } if (n.opts.afterEach != null) try { await n.opts.afterEach.call(n); } catch (e) { } return t; } catch (s) { return !1; } }; // src/task.ts var w = class extends EventTarget { constructor(t, e, r, o = {}) { super(); i(this, "bench"); i(this, "name"); i(this, "fn"); i(this, "runs", 0); i(this, "result"); i(this, "opts"); this.bench = t, this.name = e, this.fn = r, this.opts = o; } async loop(t, e) { var x; let r = this.bench.concurrency === "task", { threshold: o } = this.bench, u = 0, c = []; if (this.opts.beforeAll != null) try { await this.opts.beforeAll.call(this); } catch (l) { return { error: l }; } let m = await H(this), h = async () => { this.opts.beforeEach != null && await this.opts.beforeEach.call(this); let l = 0; if (m) { let E = this.bench.now(); await this.fn.call(this), l = this.bench.now() - E; } else { let E = this.bench.now(); this.fn.call(this), l = this.bench.now() - E; } c.push(l), u += l, this.opts.afterEach != null && await this.opts.afterEach.call(this); }, p = g(o); try { let l = []; for (; (u < t || c.length + p.activeCount + p.pendingCount < e) && !((x = this.bench.signal) != null && x.aborted); ) r ? l.push(p(h)) : await h(); l.length && await Promise.all(l); } catch (l) { return { error: l }; } if (this.opts.afterAll != null) try { await this.opts.afterAll.call(this); } catch (l) { return { error: l }; } return { samples: c }; } async run() { var r, o; if ((r = this.result) != null && r.error) return this; this.dispatchEvent(a("start", this)), await this.bench.setup(this, "run"); let { samples: t, error: e } = await this.loop(this.bench.time, this.bench.iterations); if (this.bench.teardown(this, "run"), t) { let u = t.reduce((M, N) => M + N, 0); this.runs = t.length, t.sort((M, N) => M - N); let c = u / this.runs, m = 1e3 / c, h = t.length, p = h - 1, x = t[0], l = t[p], E = u / t.length || 0, I = j(t, E), _ = Math.sqrt(I), K = _ / Math.sqrt(h), C = R[String(Math.round(p) || 1)] || R.infinity, q = K * C, V = q / E * 100, Q = t[Math.ceil(h * 0.75) - 1], Y = t[Math.ceil(h * 0.99) - 1], $ = t[Math.ceil(h * 0.995) - 1], D = t[Math.ceil(h * 0.999) - 1]; if ((o = this.bench.signal) != null && o.aborted) return this; this.setResult({ totalTime: u, min: x, max: l, hz: m, period: c, samples: t, mean: E, variance: I, sd: _, sem: K, df: p, critical: C, moe: q, rme: V, p75: Q, p99: Y, p995: $, p999: D }); } if (e) { if (this.setResult({ error: e }), this.bench.throws) throw e; this.dispatchEvent(a("error", this)), this.bench.dispatchEvent(a("error", this)); } return this.dispatchEvent(a("cycle", this)), this.bench.dispatchEvent(a("cycle", this)), this.dispatchEvent(a("complete", this)), this; } async warmup() { var e; if ((e = this.result) != null && e.error) return; this.dispatchEvent(a("warmup", this)), await this.bench.setup(this, "warmup"); let { error: t } = await this.loop(this.bench.warmupTime, this.bench.warmupIterations); if (this.bench.teardown(this, "warmup"), t && (this.setResult({ error: t }), this.bench.throws)) throw t; } addEventListener(t, e, r) { super.addEventListener(t, e, r); } removeEventListener(t, e, r) { super.removeEventListener(t, e, r); } setResult(t) { this.result = { ...this.result, ...t }, Object.freeze(this.result); } reset() { this.dispatchEvent(a("reset", this)), this.runs = 0, this.result = void 0; } }; // src/bench.ts var k = class extends EventTarget { constructor(t = {}) { var e, r, o, u, c, m, h, p; super(); i(this, "_tasks", /* @__PURE__ */ new Map()); i(this, "_todos", /* @__PURE__ */ new Map()); i(this, "concurrency", null); i(this, "threshold", 1 / 0); i(this, "signal"); i(this, "throws"); i(this, "warmupTime", 100); i(this, "warmupIterations", 5); i(this, "time", 500); i(this, "iterations", 10); i(this, "now", F); i(this, "setup"); i(this, "teardown"); this.now = (e = t.now) != null ? e : this.now, this.warmupTime = (r = t.warmupTime) != null ? r : this.warmupTime, this.warmupIterations = (o = t.warmupIterations) != null ? o : this.warmupIterations, this.time = (u = t.time) != null ? u : this.time, this.iterations = (c = t.iterations) != null ? c : this.iterations, this.signal = t.signal, this.throws = (m = t.throws) != null ? m : !1, this.setup = (h = t.setup) != null ? h : () => { }, this.teardown = (p = t.teardown) != null ? p : () => { }, this.signal && this.signal.addEventListener( "abort", () => { this.dispatchEvent(a("abort")); }, { once: !0 } ); } runTask(t) { var e; return (e = this.signal) != null && e.aborted ? t : t.run(); } async run() { if (this.concurrency === "bench") return this.runConcurrently(this.threshold, this.concurrency); this.dispatchEvent(a("start")); let t = []; for (let e of [...this._tasks.values()]) t.push(await this.runTask(e)); return this.dispatchEvent(a("complete")), t; } async runConcurrently(t = 1 / 0, e = "bench") { if (this.threshold = t, this.concurrency = e, e === "task") return this.run(); this.dispatchEvent(a("start")); let r = g(t), o = []; for (let c of [...this._tasks.values()]) o.push(r(() => this.runTask(c))); let u = await Promise.all(o); return this.dispatchEvent(a("complete")), u; } async warmup() { if (this.concurrency === "bench") { await this.warmupConcurrently(this.threshold, this.concurrency); return; } this.dispatchEvent(a("warmup")); for (let [, t] of this._tasks) await t.warmup(); } async warmupConcurrently(t = 1 / 0, e = "bench") { if (this.threshold = t, this.concurrency = e, e === "task") { await this.warmup(); return; } this.dispatchEvent(a("warmup")); let r = g(t), o = []; for (let [, u] of this._tasks) o.push(r(() => u.warmup())); await Promise.all(o); } reset() { this.dispatchEvent(a("reset")), this._tasks.forEach((t) => { t.reset(); }); } add(t, e, r = {}) { let o = new w(this, t, e, r); return this._tasks.set(t, o), this.dispatchEvent(a("add", o)), this; } todo(t, e = () => { }, r = {}) { let o = new w(this, t, e, r); return this._todos.set(t, o), this.dispatchEvent(a("todo", o)), this; } remove(t) { let e = this.getTask(t); return e && (this.dispatchEvent(a("remove", e)), this._tasks.delete(t)), this; } addEventListener(t, e, r) { super.addEventListener(t, e, r); } removeEventListener(t, e, r) { super.removeEventListener(t, e, r); } table(t) { return this.tasks.map((e) => { if (e.result) { if (e.result.error) throw e.result.error; return (t == null ? void 0 : t(e)) || { "Task Name": e.name, "ops/sec": e.result.error ? "NaN" : parseInt(e.result.hz.toString(), 10).toLocaleString(), "Average Time (ns)": e.result.error ? "NaN" : e.result.mean * 1e3 * 1e3, Margin: e.result.error ? "NaN" : `\xB1${e.result.rme.toFixed(2)}%`, Samples: e.result.error ? "NaN" : e.result.samples.length }; } return null; }); } get results() { return [...this._tasks.values()].map((t) => t.result); } get tasks() { return [...this._tasks.values()]; } get todos() { return [...this._todos.values()]; } getTask(t) { return this._tasks.get(t); } }; // src/index.ts var ot = k; // Annotate the CommonJS export names for ESM import in node: 0 && (module.exports = { Bench, Task, hrtimeNow, now });