std/testing/bdd.ts
eryue0220 6a4eb6cb91
fix(expect): support expect.hasAssertions() (#5901)
Co-authored-by: Yoshiya Hinosawa <stibium121@gmail.com>
2024-09-19 14:38:32 +09:00

1201 lines
30 KiB
TypeScript

// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
/**
* A {@link https://en.wikipedia.org/wiki/Behavior-driven_development | BDD} interface
* to `Deno.test()` API.
*
* With `@std/testing/bdd` module you can write your tests in a familiar format for
* grouping tests and adding setup/teardown hooks used by other JavaScript testing
* frameworks like Jasmine, Jest, and Mocha.
*
* The `describe` function creates a block that groups together several related
* tests. The `it` function registers an individual test case.
*
* ## Hooks
*
* There are 4 types of hooks available for test suites. A test suite can have
* multiples of each type of hook, they will be called in the order that they are
* registered. The `afterEach` and `afterAll` hooks will be called whether or not
* the test case passes. The *All hooks will be called once for the whole group
* while the *Each hooks will be called for each individual test case.
*
* - `beforeAll`: Runs before all of the tests in the test suite.
* - `afterAll`: Runs after all of the tests in the test suite finish.
* - `beforeEach`: Runs before each of the individual test cases in the test suite.
* - `afterEach`: Runs after each of the individual test cases in the test suite.
*
* If a hook is registered at the top level, a global test suite will be registered
* and all tests will belong to it. Hooks registered at the top level must be
* registered before any individual test cases or test suites.
*
* ## Focusing tests
*
* If you would like to run only specific test cases, you can do so by calling
* `it.only` instead of `it`. If you would like to run only specific test suites,
* you can do so by calling `describe.only` instead of `describe`.
*
* There is one limitation to this when using the flat test grouping style. When
* `describe` is called without being nested, it registers the test with
* `Deno.test`. If a child test case or suite is registered with `it.only` or
* `describe.only`, it will be scoped to the top test suite instead of the file. To
* make them the only tests that run in the file, you would need to register the
* top test suite with `describe.only` too.
*
* ## Ignoring tests
*
* If you would like to not run specific individual test cases, you can do so by
* calling `it.ignore` instead of `it`. If you would like to not run specific test
* suites, you can do so by calling `describe.ignore` instead of `describe`.
*
* ## Sanitization options
*
* Like `Deno.TestDefinition`, the `DescribeDefinition` and `ItDefinition` have
* sanitization options. They work in the same way.
*
* - `sanitizeExit`: Ensure the test case does not prematurely cause the process to
* exit, for example via a call to Deno.exit. Defaults to true.
* - `sanitizeOps`: Check that the number of async completed ops after the test is
* the same as number of dispatched ops. Defaults to true.
* - `sanitizeResources`: Ensure the test case does not "leak" resources - ie. the
* resource table after the test has exactly the same contents as before the
* test. Defaults to true.
*
* ## Permissions option
*
* Like `Deno.TestDefinition`, the `DescribeDefinition` and `ItDefinition` have a
* `permissions` option. They specify the permissions that should be used to run an
* individual test case or test suite. Set this to `"inherit"` to keep the calling
* thread's permissions. Set this to `"none"` to revoke all permissions.
*
* This setting defaults to `"inherit"`.
*
* There is currently one limitation to this, you cannot use the permissions option
* on an individual test case or test suite that belongs to another test suite.
* That's because internally those tests are registered with `t.step` which does
* not support the permissions option.
*
* ## Comparing to Deno\.test
*
* The default way of writing tests is using `Deno.test` and `t.step`. The
* `describe` and `it` functions have similar call signatures to `Deno.test`,
* making it easy to switch between the default style and the behavior-driven
* development style of writing tests. Internally, `describe` and `it` are
* registering tests with `Deno.test` and `t.step`.
*
* Below is an example of a test file using `Deno.test` and `t.step`. In the
* following sections there are examples of how the same test could be written with
* `describe` and `it` using nested test grouping, flat test grouping, or a mix of
* both styles.
*
* ```ts
* import {
* assertEquals,
* assertStrictEquals,
* assertThrows,
* } from "@std/assert";
*
* class User {
* static users: Map<string, User> = new Map();
* name: string;
* age?: number;
*
* constructor(name: string) {
* if (User.users.has(name)) {
* throw new Deno.errors.AlreadyExists(`User ${name} already exists`);
* }
* this.name = name;
* User.users.set(name, this);
* }
*
* getAge(): number {
* if (!this.age) {
* throw new Error("Age unknown");
* }
* return this.age;
* }
*
* setAge(age: number) {
* this.age = age;
* }
* }
*
* Deno.test("User.users initially empty", () => {
* assertEquals(User.users.size, 0);
* });
*
* Deno.test("User constructor", () => {
* try {
* const user = new User("Kyle");
* assertEquals(user.name, "Kyle");
* assertStrictEquals(User.users.get("Kyle"), user);
* } finally {
* User.users.clear();
* }
* });
*
* Deno.test("User age", async (t) => {
* const user = new User("Kyle");
*
* await t.step("getAge", () => {
* assertThrows(() => user.getAge(), Error, "Age unknown");
* user.age = 18;
* assertEquals(user.getAge(), 18);
* });
*
* await t.step("setAge", () => {
* user.setAge(18);
* assertEquals(user.getAge(), 18);
* });
* });
* ```
*
* ### Nested test grouping
*
* Tests created within the callback of a `describe` function call will belong to
* the new test suite it creates. The hooks can be created within it or be added to
* the options argument for describe.
*
* ```ts
* import {
* assertEquals,
* assertStrictEquals,
* assertThrows,
* } from "@std/assert";
* import {
* afterEach,
* beforeEach,
* describe,
* it,
* } from "@std/testing/bdd";
*
* class User {
* static users: Map<string, User> = new Map();
* name: string;
* age?: number;
*
* constructor(name: string) {
* if (User.users.has(name)) {
* throw new Deno.errors.AlreadyExists(`User ${name} already exists`);
* }
* this.name = name;
* User.users.set(name, this);
* }
*
* getAge(): number {
* if (!this.age) {
* throw new Error("Age unknown");
* }
* return this.age;
* }
*
* setAge(age: number) {
* this.age = age;
* }
* }
*
* describe("User", () => {
* it("users initially empty", () => {
* assertEquals(User.users.size, 0);
* });
*
* it("constructor", () => {
* try {
* const user = new User("Kyle");
* assertEquals(user.name, "Kyle");
* assertStrictEquals(User.users.get("Kyle"), user);
* } finally {
* User.users.clear();
* }
* });
*
* describe("age", () => {
* let user: User;
*
* beforeEach(() => {
* user = new User("Kyle");
* });
*
* afterEach(() => {
* User.users.clear();
* });
*
* it("getAge", function () {
* assertThrows(() => user.getAge(), Error, "Age unknown");
* user.age = 18;
* assertEquals(user.getAge(), 18);
* });
*
* it("setAge", function () {
* user.setAge(18);
* assertEquals(user.getAge(), 18);
* });
* });
* });
* ```
*
* ### Flat test grouping
*
* The `describe` function returns a unique symbol that can be used to reference
* the test suite for adding tests to it without having to create them within a
* callback. The gives you the ability to have test grouping without any extra
* indentation in front of the grouped tests.
*
* ```ts
* import {
* assertEquals,
* assertStrictEquals,
* assertThrows,
* } from "@std/assert";
* import {
* describe,
* it,
* } from "@std/testing/bdd";
*
* class User {
* static users: Map<string, User> = new Map();
* name: string;
* age?: number;
*
* constructor(name: string) {
* if (User.users.has(name)) {
* throw new Deno.errors.AlreadyExists(`User ${name} already exists`);
* }
* this.name = name;
* User.users.set(name, this);
* }
*
* getAge(): number {
* if (!this.age) {
* throw new Error("Age unknown");
* }
* return this.age;
* }
*
* setAge(age: number) {
* this.age = age;
* }
* }
*
* const userTests = describe("User");
*
* it(userTests, "users initially empty", () => {
* assertEquals(User.users.size, 0);
* });
*
* it(userTests, "constructor", () => {
* try {
* const user = new User("Kyle");
* assertEquals(user.name, "Kyle");
* assertStrictEquals(User.users.get("Kyle"), user);
* } finally {
* User.users.clear();
* }
* });
*
* const ageTests = describe({
* name: "age",
* suite: userTests,
* beforeEach(this: { user: User }) {
* this.user = new User("Kyle");
* },
* afterEach() {
* User.users.clear();
* },
* });
*
* it(ageTests, "getAge", function () {
* const { user } = this;
* assertThrows(() => user.getAge(), Error, "Age unknown");
* user.age = 18;
* assertEquals(user.getAge(), 18);
* });
*
* it(ageTests, "setAge", function () {
* const { user } = this;
* user.setAge(18);
* assertEquals(user.getAge(), 18);
* });
* ```
*
* ### Mixed test grouping
*
* Both nested test grouping and flat test grouping can be used together. This can
* be useful if you'd like to create deep groupings without all the extra
* indentation in front of each line.
*
* ```ts
* import {
* assertEquals,
* assertStrictEquals,
* assertThrows,
* } from "@std/assert";
* import {
* describe,
* it,
* } from "@std/testing/bdd";
*
* class User {
* static users: Map<string, User> = new Map();
* name: string;
* age?: number;
*
* constructor(name: string) {
* if (User.users.has(name)) {
* throw new Deno.errors.AlreadyExists(`User ${name} already exists`);
* }
* this.name = name;
* User.users.set(name, this);
* }
*
* getAge(): number {
* if (!this.age) {
* throw new Error("Age unknown");
* }
* return this.age;
* }
*
* setAge(age: number) {
* this.age = age;
* }
* }
*
* describe("User", () => {
* it("users initially empty", () => {
* assertEquals(User.users.size, 0);
* });
*
* it("constructor", () => {
* try {
* const user = new User("Kyle");
* assertEquals(user.name, "Kyle");
* assertStrictEquals(User.users.get("Kyle"), user);
* } finally {
* User.users.clear();
* }
* });
*
* const ageTests = describe({
* name: "age",
* beforeEach(this: { user: User }) {
* this.user = new User("Kyle");
* },
* afterEach() {
* User.users.clear();
* },
* });
*
* it(ageTests, "getAge", function () {
* const { user } = this;
* assertThrows(() => user.getAge(), Error, "Age unknown");
* user.age = 18;
* assertEquals(user.getAge(), 18);
* });
*
* it(ageTests, "setAge", function () {
* const { user } = this;
* user.setAge(18);
* assertEquals(user.getAge(), 18);
* });
* });
* ```
*
* @module
*/
import { getAssertionState } from "@std/internal/assertion-state";
import { AssertionError } from "@std/assert/assertion-error";
import {
type DescribeDefinition,
type HookNames,
type ItDefinition,
type TestSuite,
TestSuiteInternal,
} from "./_test_suite.ts";
export type { DescribeDefinition, ItDefinition, TestSuite };
/** The arguments for an ItFunction. */
export type ItArgs<T> =
| [options: ItDefinition<T>]
| [
name: string,
options: Omit<ItDefinition<T>, "name">,
]
| [
name: string,
fn: (this: T, t: Deno.TestContext) => void | Promise<void>,
]
| [fn: (this: T, t: Deno.TestContext) => void | Promise<void>]
| [
name: string,
options: Omit<ItDefinition<T>, "fn" | "name">,
fn: (this: T, t: Deno.TestContext) => void | Promise<void>,
]
| [
options: Omit<ItDefinition<T>, "fn">,
fn: (this: T, t: Deno.TestContext) => void | Promise<void>,
]
| [
options: Omit<ItDefinition<T>, "fn" | "name">,
fn: (this: T, t: Deno.TestContext) => void | Promise<void>,
]
| [
suite: TestSuite<T>,
name: string,
options: Omit<ItDefinition<T>, "name" | "suite">,
]
| [
suite: TestSuite<T>,
name: string,
fn: (this: T, t: Deno.TestContext) => void | Promise<void>,
]
| [
suite: TestSuite<T>,
fn: (this: T, t: Deno.TestContext) => void | Promise<void>,
]
| [
suite: TestSuite<T>,
name: string,
options: Omit<ItDefinition<T>, "fn" | "name" | "suite">,
fn: (this: T, t: Deno.TestContext) => void | Promise<void>,
]
| [
suite: TestSuite<T>,
options: Omit<ItDefinition<T>, "fn" | "suite">,
fn: (this: T, t: Deno.TestContext) => void | Promise<void>,
]
| [
suite: TestSuite<T>,
options: Omit<ItDefinition<T>, "fn" | "name" | "suite">,
fn: (this: T, t: Deno.TestContext) => void | Promise<void>,
];
/** Generates an ItDefinition from ItArgs. */
function itDefinition<T>(...args: ItArgs<T>): ItDefinition<T> {
let [
suiteOptionsOrNameOrFn,
optionsOrNameOrFn,
optionsOrFn,
fn,
] = args;
let suite: TestSuite<T> | undefined = undefined;
let name: string;
let options:
| ItDefinition<T>
| Omit<ItDefinition<T>, "fn">
| Omit<ItDefinition<T>, "name">
| Omit<ItDefinition<T>, "fn" | "name">;
if (
typeof suiteOptionsOrNameOrFn === "object" &&
typeof (suiteOptionsOrNameOrFn as TestSuite<T>).symbol === "symbol"
) {
suite = suiteOptionsOrNameOrFn as TestSuite<T>;
} else {
fn = optionsOrFn as typeof fn;
optionsOrFn = optionsOrNameOrFn as typeof optionsOrFn;
optionsOrNameOrFn = suiteOptionsOrNameOrFn as typeof optionsOrNameOrFn;
}
if (typeof optionsOrNameOrFn === "string") {
name = optionsOrNameOrFn;
if (typeof optionsOrFn === "function") {
fn = optionsOrFn;
options = {};
} else {
options = optionsOrFn!;
if (!fn) fn = (options as Omit<ItDefinition<T>, "name">).fn;
}
} else if (typeof optionsOrNameOrFn === "function") {
fn = optionsOrNameOrFn;
name = fn.name;
options = {};
} else {
options = optionsOrNameOrFn!;
if (typeof optionsOrFn === "function") {
fn = optionsOrFn;
} else {
fn = (options as ItDefinition<T>).fn;
}
name = (options as ItDefinition<T>).name ?? fn.name;
}
return {
...(suite !== undefined ? { suite } : {}),
...options,
name,
fn,
};
}
/** Registers an individual test case. */
export interface it {
<T>(...args: ItArgs<T>): void;
/** Registers an individual test case with only set to true. */
only<T>(...args: ItArgs<T>): void;
/** Registers an individual test case with ignore set to true. */
ignore<T>(...args: ItArgs<T>): void;
/**
* Registers an individual test case with ignore set to true. Alias of
* `.ignore()`.
*/
skip<T>(...args: ItArgs<T>): void;
}
/**
* Registers an individual test case.
*
* @example Usage
* ```ts
* import { describe, it } from "@std/testing/bdd";
* import { assertEquals } from "@std/assert";
*
* describe("example", () => {
* it("should pass", () => {
* // test case
* assertEquals(2 + 2, 4);
* });
* });
* ```
*
* @typeParam T The self type of the function to implement the test case
* @param args The test case
*/
export function it<T>(...args: ItArgs<T>) {
if (TestSuiteInternal.runningCount > 0) {
throw new Error(
"Cannot register new test cases after already registered test cases start running",
);
}
const assertionState = getAssertionState();
const options = itDefinition(...args);
const { suite } = options;
const testSuite = suite
? TestSuiteInternal.suites.get(suite.symbol)
: TestSuiteInternal.current;
if (!TestSuiteInternal.started) TestSuiteInternal.started = true;
if (testSuite) {
TestSuiteInternal.addStep(testSuite, options);
} else {
const {
name,
fn,
ignore,
only,
permissions,
sanitizeExit,
sanitizeOps,
sanitizeResources,
} = options;
const opts: Deno.TestDefinition = {
name,
async fn(t) {
TestSuiteInternal.runningCount++;
try {
await fn.call({} as T, t);
} finally {
TestSuiteInternal.runningCount--;
}
if (assertionState.checkAssertionErrorStateAndReset()) {
throw new AssertionError(
"Expected at least one assertion to be called but received none",
);
}
},
};
if (ignore !== undefined) {
opts.ignore = ignore;
}
if (only !== undefined) {
opts.only = only;
}
if (permissions !== undefined) {
opts.permissions = permissions;
}
if (sanitizeExit !== undefined) {
opts.sanitizeExit = sanitizeExit;
}
if (sanitizeOps !== undefined) {
opts.sanitizeOps = sanitizeOps;
}
if (sanitizeResources !== undefined) {
opts.sanitizeResources = sanitizeResources;
}
TestSuiteInternal.registerTest(opts);
}
}
/**
* Only execute this test case.
*
* @example Usage
* ```ts
* import { describe, it } from "@std/testing/bdd";
* import { assertEquals } from "@std/assert";
*
* describe("example", () => {
* it("should pass", () => {
* assertEquals(2 + 2, 4);
* });
*
* it.only("should pass too", () => {
* assertEquals(3 + 4, 7);
* });
* });
* ```
*
* @param args The test case
*/
it.only = function itOnly<T>(...args: ItArgs<T>): void {
const options = itDefinition(...args);
return it({
...options,
only: true,
});
};
/**
* Ignore this test case.
*
* @example Usage
* ```ts
* import { describe, it } from "@std/testing/bdd";
* import { assertEquals } from "@std/assert";
*
* describe("example", () => {
* it("should pass", () => {
* assertEquals(2 + 2, 4);
* });
*
* it.ignore("should pass too", () => {
* assertEquals(3 + 4, 7);
* });
* });
* ```
*
* @param args The test case
*/
it.ignore = function itIgnore<T>(...args: ItArgs<T>): void {
const options = itDefinition(...args);
return it({
...options,
ignore: true,
});
};
/** Skip this test case.
*
* @example Usage
* ```ts
* import { describe, it } from "@std/testing/bdd";
* import { assertEquals } from "@std/assert";
*
* describe("example", () => {
* it("should pass", () => {
* assertEquals(2 + 2, 4);
* });
*
* it.skip("should pass too", () => {
* assertEquals(3 + 4, 7);
* });
* });
* ```
*
* @param args The test case
*/
it.skip = function itSkip<T>(...args: ItArgs<T>): void {
it.ignore(...args);
};
/**
* Alias of {@linkcode it}
*
* Registers an individual test case.
*
* @example Usage
* ```ts
* import { test } from "@std/testing/bdd";
* import { assertEquals } from "@std/assert";
*
* test("a test case", () => {
* // test case
* assertEquals(2 + 2, 4);
* });
* ```
*
* @typeParam T The self type of the function to implement the test case
* @param args The test case
*/
export function test<T>(...args: ItArgs<T>) {
it(...args);
}
function addHook<T>(
name: HookNames,
fn: (this: T) => void | Promise<void>,
) {
if (!TestSuiteInternal.current) {
if (TestSuiteInternal.started) {
throw new Error(
"Cannot add global hooks after a global test is registered",
);
}
TestSuiteInternal.current = new TestSuiteInternal({
name: "global",
[name]: fn,
});
} else {
TestSuiteInternal.setHook(TestSuiteInternal.current!, name, fn);
}
}
/**
* Run some shared setup before all of the tests in the suite.
*
* @example Usage
* ```ts
* import { describe, it, beforeAll } from "@std/testing/bdd";
* import { assertEquals } from "@std/assert";
*
* beforeAll(() => {
* console.log("beforeAll");
* });
*
* describe("example", () => {
* it("should pass", () => {
* // test case
* assertEquals(2 + 2, 4);
* });
* });
* ```
*
* @typeParam T The self type of the function
* @param fn The function to implement the setup behavior.
*/
export function beforeAll<T>(
fn: (this: T) => void | Promise<void>,
) {
addHook("beforeAll", fn);
}
/**
* Alias of {@linkcode beforeAll}
*
* Run some shared setup before all of the tests in the suite.
*
* @example Usage
* ```ts
* import { describe, it, before } from "@std/testing/bdd";
* import { assertEquals } from "@std/assert";
*
* before(() => {
* console.log("before");
* });
*
* describe("example", () => {
* it("should pass", () => {
* // test case
* assertEquals(2 + 2, 4);
* });
* });
* ```
*
* @typeParam T The self type of the function
* @param fn The function to implement the setup behavior.
*/
export function before<T>(
fn: (this: T) => void | Promise<void>,
) {
beforeAll(fn);
}
/**
* Run some shared teardown after all of the tests in the suite.
*
* @example Usage
* ```ts
* import { describe, it, afterAll } from "@std/testing/bdd";
* import { assertEquals } from "@std/assert";
*
* afterAll(() => {
* console.log("afterAll");
* });
*
* describe("example", () => {
* it("should pass", () => {
* // test case
* assertEquals(2 + 2, 4);
* });
* });
* ```
*
* @typeParam T The self type of the function
* @param fn The function to implement the teardown behavior.
*/
export function afterAll<T>(
fn: (this: T) => void | Promise<void>,
) {
addHook("afterAll", fn);
}
/**
* Alias of {@linkcode afterAll}.
*
* Run some shared teardown after all of the tests in the suite.
*
* @example Usage
* ```ts
* import { describe, it, after } from "@std/testing/bdd";
* import { assertEquals } from "@std/assert";
*
* after(() => {
* console.log("after");
* });
*
* describe("example", () => {
* it("should pass", () => {
* // test case
* assertEquals(2 + 2, 4);
* });
* });
* ```
*
* @typeParam T The self type of the function
* @param fn The function to implement the teardown behavior.
*/
export function after<T>(
fn: (this: T) => void | Promise<void>,
) {
afterAll(fn);
}
/**
* Run some shared setup before each test in the suite.
*
* @example Usage
* ```ts
* import { describe, it, beforeEach } from "@std/testing/bdd";
* import { assertEquals } from "@std/assert";
*
* beforeEach(() => {
* console.log("beforeEach");
* });
*
* describe("example", () => {
* it("should pass", () => {
* // test case
* assertEquals(2 + 2, 4);
* });
* });
* ```
*
* @typeParam T The self type of the function
* @param fn The function to implement the shared setup behavior
*/
export function beforeEach<T>(
fn: (this: T) => void | Promise<void>,
) {
addHook("beforeEach", fn);
}
/**
* Run some shared teardown after each test in the suite.
*
* @example Usage
* ```ts
* import { describe, it, afterEach } from "@std/testing/bdd";
* import { assertEquals } from "@std/assert";
*
* afterEach(() => {
* console.log("afterEach");
* });
*
* describe("example", () => {
* it("should pass", () => {
* // test case
* assertEquals(2 + 2, 4);
* });
* });
* ```
*
* @typeParam T The self type of the function
* @param fn The function to implement the shared teardown behavior
*/
export function afterEach<T>(
fn: (this: T) => void | Promise<void>,
) {
addHook("afterEach", fn);
}
/** The arguments for a DescribeFunction. */
export type DescribeArgs<T> =
| [options: DescribeDefinition<T>]
| [name: string]
| [
name: string,
options: Omit<DescribeDefinition<T>, "name">,
]
| [name: string, fn: () => void | undefined]
| [fn: () => void | undefined]
| [
name: string,
options: Omit<DescribeDefinition<T>, "fn" | "name">,
fn: () => void | undefined,
]
| [
options: Omit<DescribeDefinition<T>, "fn">,
fn: () => void | undefined,
]
| [
options: Omit<DescribeDefinition<T>, "fn" | "name">,
fn: () => void | undefined,
]
| [
suite: TestSuite<T>,
name: string,
]
| [
suite: TestSuite<T>,
name: string,
options: Omit<DescribeDefinition<T>, "name" | "suite">,
]
| [
suite: TestSuite<T>,
name: string,
fn: () => void | undefined,
]
| [
suite: TestSuite<T>,
fn: () => void | undefined,
]
| [
suite: TestSuite<T>,
name: string,
options: Omit<DescribeDefinition<T>, "fn" | "name" | "suite">,
fn: () => void | undefined,
]
| [
suite: TestSuite<T>,
options: Omit<DescribeDefinition<T>, "fn" | "suite">,
fn: () => void | undefined,
]
| [
suite: TestSuite<T>,
options: Omit<DescribeDefinition<T>, "fn" | "name" | "suite">,
fn: () => void | undefined,
];
/** Generates a DescribeDefinition from DescribeArgs. */
function describeDefinition<T>(
...args: DescribeArgs<T>
): DescribeDefinition<T> {
let [
suiteOptionsOrNameOrFn,
optionsOrNameOrFn,
optionsOrFn,
fn,
] = args;
let suite: TestSuite<T> | undefined = undefined;
let name: string;
let options:
| DescribeDefinition<T>
| Omit<DescribeDefinition<T>, "fn">
| Omit<DescribeDefinition<T>, "name">
| Omit<DescribeDefinition<T>, "fn" | "name">;
if (
typeof suiteOptionsOrNameOrFn === "object" &&
typeof (suiteOptionsOrNameOrFn as TestSuite<T>).symbol === "symbol"
) {
suite = suiteOptionsOrNameOrFn as TestSuite<T>;
} else {
fn = optionsOrFn as typeof fn;
optionsOrFn = optionsOrNameOrFn as typeof optionsOrFn;
optionsOrNameOrFn = suiteOptionsOrNameOrFn as typeof optionsOrNameOrFn;
}
if (typeof optionsOrNameOrFn === "string") {
name = optionsOrNameOrFn;
if (typeof optionsOrFn === "function") {
fn = optionsOrFn;
options = {};
} else {
options = optionsOrFn ?? {};
if (fn === undefined) {
fn = (options as Omit<DescribeDefinition<T>, "name">).fn;
}
}
} else if (typeof optionsOrNameOrFn === "function") {
fn = optionsOrNameOrFn;
name = fn.name;
options = {};
} else {
options = optionsOrNameOrFn ?? {};
if (typeof optionsOrFn === "function") {
fn = optionsOrFn;
} else {
fn = (options as DescribeDefinition<T>).fn;
}
name = (options as DescribeDefinition<T>).name ?? fn?.name ?? "";
}
if (suite === undefined) {
suite = options.suite;
}
if (suite === undefined && TestSuiteInternal.current) {
const { symbol } = TestSuiteInternal.current;
suite = { symbol };
}
return {
...options,
suite: suite!,
name,
fn: fn!,
};
}
/** Registers a test suite. */
export interface describe {
<T>(...args: DescribeArgs<T>): TestSuite<T>;
/** Registers a test suite with only set to true. */
only<T>(...args: DescribeArgs<T>): TestSuite<T>;
/** Registers a test suite with ignore set to true. */
ignore<T>(...args: DescribeArgs<T>): TestSuite<T>;
/** Registers a test suite with ignore set to true. Alias of `.ignore()`. */
skip<T>(...args: ItArgs<T>): void;
}
/**
* Registers a test suite.
*
* @example Usage
* ```ts
* import { describe, it } from "@std/testing/bdd";
* import { assertEquals } from "@std/assert";
*
* describe("example", () => {
* it("should pass", () => {
* // test case
* assertEquals(2 + 2, 4);
* });
* });
* ```
*
* @typeParam T The self type of the test suite body.
* @param args The test suite body.
* @returns The test suite
*/
export function describe<T>(
...args: DescribeArgs<T>
): TestSuite<T> {
if (TestSuiteInternal.runningCount > 0) {
throw new Error(
"Cannot register new test suites after already registered test cases start running",
);
}
const options = describeDefinition(...args);
if (!TestSuiteInternal.started) TestSuiteInternal.started = true;
const { symbol } = new TestSuiteInternal(options);
return { symbol };
}
/**
* Only execute this test suite.
*
* @example Usage
* ```ts
* import { describe, it, beforeAll } from "@std/testing/bdd";
* import { assertEquals } from "@std/assert";
*
* describe("example", () => {
* it("should pass", () => {
* assertEquals(2 + 2, 4);
* });
* });
*
* // Only this test suite will run
* describe.only("example 2", () => {
* it("should pass too", () => {
* assertEquals(3 + 4, 7);
* });
* });
* ```
*
* @param args The test suite body
*/
describe.only = function describeOnly<T>(
...args: DescribeArgs<T>
): TestSuite<T> {
const options = describeDefinition(...args);
return describe({
...options,
only: true,
});
};
/**
* Ignore the test suite.
*
* @example Usage
* ```ts
* import { describe, it, beforeAll } from "@std/testing/bdd";
* import { assertEquals } from "@std/assert";
*
* describe("example", () => {
* it("should pass", () => {
* assertEquals(2 + 2, 4);
* });
* });
*
* describe.ignore("example 2", () => {
* it("should pass too", () => {
* assertEquals(3 + 4, 7);
* });
* });
* ```
*
* @param args The test suite body
*/
describe.ignore = function describeIgnore<T>(
...args: DescribeArgs<T>
): TestSuite<T> {
const options = describeDefinition(...args);
return describe({
...options,
ignore: true,
});
};
/**
* Skip the test suite.
*
* @example Usage
* ```ts
* import { describe, it, beforeAll } from "@std/testing/bdd";
* import { assertEquals } from "@std/assert";
*
* describe("example", () => {
* it("should pass", () => {
* assertEquals(2 + 2, 4);
* });
* });
*
* describe.skip("example 2", () => {
* it("should pass too", () => {
* assertEquals(3 + 4, 7);
* });
* });
* ```
*
* @param args The test suite body
*/
describe.skip = function describeSkip<T>(
...args: DescribeArgs<T>
): TestSuite<T> {
return describe.ignore(...args);
};