Time slots app prototype
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import { importModule } from 'local-pkg';
/*
How it works:
`this.#head` is an instance of `Node` which keeps track of its current value and nests another instance of `Node` that keeps the value that comes after it. When a value is provided to `.enqueue()`, the code needs to iterate through `this.#head`, going deeper and deeper to find the last value. However, iterating through every single item is slow. This problem is solved by saving a reference to the last value as `this.#tail` so that it can reference it to add a new value.
*/
class Node {
value;
next;
constructor(value) {
this.value = value;
}
}
class Queue {
#head;
#tail;
#size;
constructor() {
this.clear();
}
enqueue(value) {
const node = new Node(value);
if (this.#head) {
this.#tail.next = node;
this.#tail = node;
} else {
this.#head = node;
this.#tail = node;
}
this.#size++;
}
dequeue() {
const current = this.#head;
if (!current) {
return;
}
this.#head = this.#head.next;
this.#size--;
return current.value;
}
clear() {
this.#head = undefined;
this.#tail = undefined;
this.#size = 0;
}
get size() {
return this.#size;
}
* [Symbol.iterator]() {
let current = this.#head;
while (current) {
yield current.value;
current = current.next;
}
}
}
function pLimit(concurrency) {
if (!((Number.isInteger(concurrency) || concurrency === Number.POSITIVE_INFINITY) && concurrency > 0)) {
throw new TypeError('Expected `concurrency` to be a number from 1 and up');
}
const queue = new Queue();
let activeCount = 0;
const next = () => {
activeCount--;
if (queue.size > 0) {
queue.dequeue()();
}
};
const run = async (fn, resolve, args) => {
activeCount++;
const result = (async () => fn(...args))();
resolve(result);
try {
await result;
} catch {}
next();
};
const enqueue = (fn, resolve, args) => {
queue.enqueue(run.bind(undefined, fn, resolve, args));
(async () => {
// This function needs to wait until the next microtask before comparing
// `activeCount` to `concurrency`, because `activeCount` is updated asynchronously
// when the run function is dequeued and called. The comparison in the if-statement
// needs to happen asynchronously as well to get an up-to-date value for `activeCount`.
await Promise.resolve();
if (activeCount < concurrency && queue.size > 0) {
queue.dequeue()();
}
})();
};
const generator = (fn, ...args) => new Promise(resolve => {
enqueue(fn, resolve, args);
});
Object.defineProperties(generator, {
activeCount: {
get: () => activeCount,
},
pendingCount: {
get: () => queue.size,
},
clearQueue: {
value: () => {
queue.clear();
},
},
});
return generator;
}
const CoverageProviderMap = {
c8: "@vitest/coverage-c8",
istanbul: "@vitest/coverage-istanbul"
};
async function resolveCoverageProvider(provider) {
if (typeof provider === "string") {
const pkg = CoverageProviderMap[provider];
if (!pkg)
throw new Error(`Unknown coverage provider: ${provider}`);
return await importModule(pkg);
} else {
return provider;
}
}
async function getCoverageProvider(options) {
if ((options == null ? void 0 : options.enabled) && (options == null ? void 0 : options.provider)) {
const { getProvider } = await resolveCoverageProvider(options.provider);
return await getProvider();
}
return null;
}
async function takeCoverageInsideWorker(options) {
if (options.enabled && options.provider) {
const { takeCoverage } = await resolveCoverageProvider(options.provider);
return await (takeCoverage == null ? void 0 : takeCoverage());
}
}
function interpretTaskModes(suite, namePattern, onlyMode, parentIsOnly, allowOnly) {
const suiteIsOnly = parentIsOnly || suite.mode === "only";
suite.tasks.forEach((t) => {
const includeTask = suiteIsOnly || t.mode === "only";
if (onlyMode) {
if (t.type === "suite" && (includeTask || someTasksAreOnly(t))) {
if (t.mode === "only") {
checkAllowOnly(t, allowOnly);
t.mode = "run";
}
} else if (t.mode === "run" && !includeTask) {
t.mode = "skip";
} else if (t.mode === "only") {
checkAllowOnly(t, allowOnly);
t.mode = "run";
}
}
if (t.type === "test") {
if (namePattern && !getTaskFullName(t).match(namePattern))
t.mode = "skip";
} else if (t.type === "suite") {
if (t.mode === "skip")
skipAllTasks(t);
else
interpretTaskModes(t, namePattern, onlyMode, includeTask, allowOnly);
}
});
if (suite.mode === "run") {
if (suite.tasks.length && suite.tasks.every((i) => i.mode !== "run"))
suite.mode = "skip";
}
}
function getTaskFullName(task) {
return `${task.suite ? `${getTaskFullName(task.suite)} ` : ""}${task.name}`;
}
function someTasksAreOnly(suite) {
return suite.tasks.some((t) => t.mode === "only" || t.type === "suite" && someTasksAreOnly(t));
}
function skipAllTasks(suite) {
suite.tasks.forEach((t) => {
if (t.mode === "run") {
t.mode = "skip";
if (t.type === "suite")
skipAllTasks(t);
}
});
}
function checkAllowOnly(task, allowOnly) {
if (allowOnly)
return;
task.result = {
state: "fail",
error: new Error("[Vitest] Unexpected .only modifier. Remove it or pass --allowOnly argument to bypass this error")
};
}
function generateHash(str) {
let hash = 0;
if (str.length === 0)
return `${hash}`;
for (let i = 0; i < str.length; i++) {
const char = str.charCodeAt(i);
hash = (hash << 5) - hash + char;
hash = hash & hash;
}
return `${hash}`;
}
function calculateSuiteHash(parent) {
parent.tasks.forEach((t, idx) => {
t.id = `${parent.id}_${idx}`;
if (t.type === "suite")
calculateSuiteHash(t);
});
}
export { CoverageProviderMap as C, getCoverageProvider as a, calculateSuiteHash as c, generateHash as g, interpretTaskModes as i, pLimit as p, someTasksAreOnly as s, takeCoverageInsideWorker as t };