@as-pect/assembly
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Write AssemblyScript tests at blazing fast speeds
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TypeScript
/**
* This function creates a test group in the test loader.
*
* @param {string} description - This is the name of the test group.
* @param {() => void} callback - A function that contains all of the closures for this test group.
*
* @example
* describe("my test suite", (): void => {
* // put your tests here
* });
*/
declare function describe(description: string, callback: () => void): void;
/**
* This function creates a test inside the given test group. It must be placed inside a describe
* block.
*
* @param {string} description - This is the name of the test, and should describe a behavior.
* @param {() => void} callback - A function that contains a set of expectations for this test.
*
* @example
* describe("the meaning of life", (): void => {
* it("should be 42", (): void => {
* // put your expectations here
* expect<i32>(29 + 13).toBe(42);
* });
* });
*/
declare function it(description: string, callback: () => void): void;
/**
* A test that does not run, and is longhand equivalent to using todo function without a
* callback. This test does not get run and is reported like a todo.
*
* @param {string} description - This is the name of the test, and should describe a behavior.
* @param {() => void} callback - A function that contains a set of expectations for this test.
*/
declare function xit(description: string, callback: () => void): void;
/**
* A test that does not run, and is longhand equivalent to using todo function without a
* callback. This test does not get run and is reported like a todo.
*
* @param {string} description - This is the name of the test, and should describe a behavior.
* @param {() => void} callback - A function that contains a set of expectations for this test.
*/
declare function xtest(description: string, callback: () => void): void;
/**
* This function creates a test inside the given test group. It must be placed inside a describe
* block.
*
* @param {string} description - This is the name of the test, and should describe a behavior.
* @param {() => void} callback - A function that contains a set of expectations for this test.
*
* @example
* describe("the meaning of life", (): void => {
* test("the value should be 42", (): void => {
* // put your expectations here
* expect<i32>(29 + 13).toBe(42);
* });
* });
*/
declare function test(description: string, callback: () => void): void;
/**
* This function creates a test that is expected to fail. This is useful to verify if a given
* behavior is expected to throw.
*
* @param {string} description - This is the name of the test, and should describe a behavior.
* @param {() => void} callback - A function that contains a set of expectations for this test.
* @param {string?} message - A message that describes why the test should fail.
* @example
* describe("the meaning of life", (): void => {
* throws("the value should be 42", (): void => {
* // put your expectations here
* expect<i32>(29 + 13).toBe(42);
* });
* });
*/
declare function throws(
description: string,
callback: () => void,
message?: string,
): void;
/**
* This function creates a test that is expected to fail. This is useful to verify if a given
* behavior is expected to throw.
*
* @param {string} description - This is the name of the test, and should describe a behavior.
* @param {() => void} callback - A function that contains a set of expectations for this test.
* @param {string?} message - A message that describes why the test should fail.
* @example
* describe("the meaning of life", (): void => {
* itThrows("when the value should be 42", (): void => {
* // put your expectations here
* expect<i32>(29 + 13).not.toBe(42);
* }, "The value is actually 42.");
* });
*/
declare function itThrows(
description: string,
callback: () => void,
message?: string,
): void;
/**
* This function creates a callback that is called before each individual test is run in this test
* group.
*
* @param {function} callback - The function to be run before each test in the current test group.
*
* @example
* // create a global
* var cat: Cat = new Cat();
*
* describe("cats", (): void => {
* beforeEach((): void => {
* cat.meow(1); // meow once per test
* });
* });
*/
declare function beforeEach(callback: () => void): void;
/**
* This function creates a callback that is called before the whole test group is run, and only
* once.
*
* @param {function} callback - The function to be run before each test in the current test group.
*
* @example
* // create a global
* var dog: Dog = null;
* describe("dogs", (): void => {
* beforeAll((): void => {
* dog = new Dog(); // create a single dog once before the tests start
* });
* });
*/
declare function beforeAll(callback: () => void): void;
/**
* This function creates a callback that is called after each individual test is run in this test
* group.
*
* @param {function} callback - The function to be run after each test in the current test group.
*
* @example
* // create a global
* var cat: Cat = new Cat();
*
* describe("cats", (): void => {
* afterEach((): void => {
* cat.sleep(12); // cats sleep a lot
* });
* });
*/
declare function afterEach(callback: () => void): void;
/**
* This function creates a callback that is called after the whole test group is run, and only
* once.
*
* @param {function} callback - The function to be run after each test in the current test group.
*
* @example
* // create a global
* var dog: Dog = null;
* describe("dogs", (): void => {
* afterAll((): void => {
* memory.free(changetype<usize>(dog)); // free some memory
* });
* });
*/
declare function afterAll(callback: () => void): void;
/**
* Describes a value and returns an expectation to test the value.
*
* @type {T} - The expectation's type.
* @param {T} actual - The value being tested.
*
* @example
* expect<i32>(42).not.toBe(-1, "42 should not be -1");
* expect<i32>(19 + 23).toBe(42, "19 + 23 should equal 42");
*/
declare function expect<T>(actual: T | null): Expectation<T>;
/**
* An expectation for a value.
*/
// @ts-ignore
declare class Expectation<T> {
/**
* This expectation performs a strict equality on value types and reference types.
*
* @param {T | null} expected - The value to be compared.
* @param {string} message - The optional message that describes the expectation.
*
* @example
* expect<i32>(42).not.toBe(-1, "42 should not be -1");
* expect<i32>(19 + 23).toBe(42, "19 + 23 should equal 42");
*/
toBe(expected: T | null, message?: string): void;
/**
* If the value is callable, it calls the function, and fails the expectation if it throws, or hits
* an unreachable().
*
* @param {string} message - The optional message that describes the expectation.
*
* @example
* expectFn((): void => unreachable()).toThrow("unreachable() should throw.");
* expectFn((): void => {
* cat.sleep(100); // cats can sleep quite a lot
* }).not.toThrow("cats should sleep, not throw");
*/
toThrow(message?: string): void;
/**
* If the value is callable, it calls the function and fails the expectation unless it throws with a
* message or stack trace that includes the expected message.
*
* @param {string} expectedMessage - The expected thrown message substring.
* @param {string} message - The optional message that describes the expectation.
*
* @example
* expectFn((): void => {
* throw new Error("cats cannot bark");
* }).toThrowWith("cannot bark");
*/
toThrowWith(expectedMessage: string, message?: string): void;
/**
* This expecation asserts that the value is truthy, like in javascript. If the value is a string,
* then strings of length 0 are not truthy.
*
* @param {string} message - The optional message that describes the expectation.
*
* @example
* expect<bool>(true).toBeTruthy("true is truthy.");
* expect<i32>(1).toBeTruthy("numeric values that are not 0 are truthy.");
* expect<Vec3>(new Vec3(1, 2, 3)).toBeTruthy("reference types that aren't null are truthy.");
* expect<bool>(false).not.toBeTruthy("false is not truthy.");
* expect<i32>(0).not.toBeTruthy("0 is not truthy.");
* expect<Vec3>(null).not.toBeTruthy("null is not truthy.");
*/
toBeTruthy(message?: string): void;
/**
* This expectation tests the value to see if it is null. If the value is a value type, it is
* never null. If the value is a reference type, it performs a strict null comparison.
*
* @param {string} message - The optional message that describes the expectation.
*
* @example
* expect<i32>(0).not.toBeNull("numbers are never null");
* expect<Vec3>(null).toBeNull("null reference types are null.");
*/
toBeNull(message?: string): void;
/**
* This expecation assert that the value is falsy, like in javascript. If the value is a string,
* then strings of length 0 are falsy.
*
* @param {string} message - The optional message that describes the expectation.
*
* @example
* expect<bool>(false).toBeFalsy("false is falsy.");
* expect<i32>(0).toBeFalsy("0 is falsy.");
* expect<Vec3>(null).toBeFalsy("null is falsy.");
* expect<bool>(true).not.toBeFalsy("true is not falsy.");
* expect<i32>(1).not.toBeFalsy("numeric values that are not 0 are not falsy.");
* expect<Vec3>(new Vec3(1, 2, 3)).not.toBeFalsy("reference types that aren't null are not falsy.");
*/
toBeFalsy(message?: string): void;
/**
* This expectation asserts that the value is greater than the expected value. Since operators can
* be overloaded in assemblyscript, it's possible for this to work on reference types.
*
* @param {T | null} expected - The expected value that the actual value should be greater than.
* @param {string} message - The optional message that describes this expectation.
*
* @example
* expect<i32>(10).toBeGreaterThan(4);
* expect<i32>(12).not.toBeGreaterThan(42);
*/
toBeGreaterThan(expected: T | null, message?: string): void;
/**
* This expectation asserts that the value is less than the expected value. Since operators can
* be overloaded in assemblyscript, it's possible for this to work on reference types.
*
* @param {T | null} value - The expected value that the actual value should be less than.
* @param {string} message - The optional message that describes this expectation.
*
* @example
* expect<i32>(10).not.toBeLessThan(4);
* expect<i32>(12).toBeLessThan(42);
*/
toBeLessThan(expected: T | null, message?: string): void;
/**
* This expectation asserts that the value is greater than or equal to the expected value. Since
* operators can be overloaded in assemblyscript, it's possible for this to work on reference
* types.
*
* @param {T | null} value - The expected value that the actual value should be greater than or
* equal to.
* @param {string} message - The optional message that describes this expectation.
*
* @example
* expect<i32>(42).toBeGreaterThanOrEqual(42);
* expect<i32>(10).toBeGreaterThanOrEqual(4);
* expect<i32>(12).not.toBeGreaterThanOrEqual(42);
*/
toBeGreaterThanOrEqual(expected: T | null, message?: string): void;
/**
* This expectation asserts that the value is less than or equal to the expected value. Since
* operators can be overloaded in assemblyscript, it's possible for this to work on reference
* types.
*
* @param {T | null} value - The expected value that the actual value should be less than or equal
* to.
* @param {string} message - The optional message that describes this expectation.
*
* @example
* expect<i32>(42).toBeLessThanOrEqual(42);
* expect<i32>(10).not.toBeLessThanOrEqual(4);
* expect<i32>(12).toBeLessThanOrEqual(42);
*/
toBeLessThanOrEqual(expected: T | null, message?: string): void;
/**
* This expectation asserts that the value is close to another value. Both numbers must be finite,
* and T must extend f64 or f32.
*
* @param {T extends f64 | f32} value - The expected value to be close to.
* @param {i32} decimalPlaces - The number of decimal places used to calculate the half-unit
* decimal tolerance. Default is 2.
* @param {string} message - The optional message that describes this expectation.
*/
toBeCloseTo(expected: T, decimalPlaces?: number, message?: string): void;
/**
* This function asserts the float type value is NaN.
*
* @param {string} message - The optional message the describes this expectation.
* @example
* expect<f64>(NaN).toBeNaN();
* expect<f32>(42).not.toBeNaN();
*/
toBeNaN(message?: string): void;
/**
* This function asserts a float is finite.
*
* @param {string} message - The optional message the describes this expectation.
* @example
* expect<f32>(42).toBeFinite();
* expect<f64>(Infinity).not.toBeFinite();
*/
toBeFinite(message?: string): void;
/**
* This method asserts the item has the expected length.
*
* @param {i32} expected - The expected length.
* @param {string} message - The optional message the describes this expectation.
*/
toHaveLength(expected: i32, message?: string): void;
/**
* This method asserts that a given T that extends Array<U> has a value/reference included.
*
* @param {i32} expected - The expected item to be included in the Array.
* @param {string} message - The optional message the describes this expectation.
*/
// @ts-ignore: expected value should be known at compile time
toContain(expected: valueof<T>, message?: string): void;
/**
* This method asserts that a given T that extends Array<U> has a value/reference included and
* compared via memory.compare().
*
* @param {i32} expected - The expected item to be included in the Array.
* @param {string} message - The optional message the describes this expectation.
*/
// @ts-ignore: expected value should be known at compile time
toContainEqual(expected: valueof<T>, message?: string): void;
/**
* This computed property is chainable, and negates the existing expectation. It returns itself.
*
* @param {U} expected - The expected item.
* @param {string} message - The optional message the describes this expectation.
* @type {Expectation<T>}
*/
not: Expectation<T>;
}