var describe; var test; var expect; // Stores the results of each test and suite. Has a terrible // name to avoid name collision. var __TestResults__ = {}; // So test names like "toString" don't automatically produce an error Object.setPrototypeOf(__TestResults__, null); // This array is used to communicate with the C++ program. It treats // each message in this array as a separate message. Has a terrible // name to avoid name collision. var __UserOutput__ = []; // We also rebind console.log here to use the array above console.log = (...args) => { __UserOutput__.push(args.join(" ")); }; class ExpectationError extends Error { constructor(message) { super(message); this.name = "ExpectationError"; } } // Use an IIFE to avoid polluting the global namespace as much as possible (() => { // FIXME: This is a very naive deepEquals algorithm const deepEquals = (a, b) => { if (Array.isArray(a)) return Array.isArray(b) && deepArrayEquals(a, b); if (typeof a === "object") return typeof b === "object" && deepObjectEquals(a, b); return Object.is(a, b); }; const deepArrayEquals = (a, b) => { if (a.length !== b.length) return false; for (let i = 0; i < a.length; ++i) { if (!deepEquals(a[i], b[i])) return false; } return true; }; const deepObjectEquals = (a, b) => { if (a === null) return b === null; for (let key of Reflect.ownKeys(a)) { if (!deepEquals(a[key], b[key])) return false; } return true; }; const valueToString = value => { try { return String(value); } catch { // e.g for objects without a prototype, the above throws. return Object.prototype.toString.call(value); } }; class Expector { constructor(target, inverted) { this.target = target; this.inverted = !!inverted; } get not() { return new Expector(this.target, !this.inverted); } toBe(value) { this.__doMatcher(() => { this.__expect( Object.is(this.target, value), () => `toBe: expected _${valueToString(value)}_, got _${valueToString( this.target )}_` ); }); } // FIXME: Take a precision argument like jest's toBeCloseTo matcher toBeCloseTo(value) { this.__expect( typeof this.target === "number", () => `toBeCloseTo: expected target of type number, got ${typeof value}` ); this.__expect( typeof value === "number", () => `toBeCloseTo: expected argument of type number, got ${typeof value}` ); this.__doMatcher(() => { this.__expect(Math.abs(this.target - value) < 0.000001); }); } toHaveLength(length) { this.__expect( typeof this.target.length === "number", () => "toHaveLength: target.length not of type number" ); this.__doMatcher(() => { this.__expect(Object.is(this.target.length, length)); }); } toHaveSize(size) { this.__expect( typeof this.target.size === "number", () => "toHaveSize: target.size not of type number" ); this.__doMatcher(() => { this.__expect(Object.is(this.target.size, size)); }); } toHaveProperty(property, value) { this.__doMatcher(() => { let object = this.target; if (typeof property === "string" && property.includes(".")) { let propertyArray = []; while (property.includes(".")) { let index = property.indexOf("."); propertyArray.push(property.substring(0, index)); if (index + 1 >= property.length) break; property = property.substring(index + 1, property.length); } propertyArray.push(property); property = propertyArray; } if (Array.isArray(property)) { for (let key of property) { this.__expect(object !== undefined && object !== null); object = object[key]; } } else { object = object[property]; } this.__expect(object !== undefined); if (value !== undefined) this.__expect(deepEquals(object, value)); }); } toBeDefined() { this.__doMatcher(() => { this.__expect( this.target !== undefined, () => "toBeDefined: expected target to be defined, got undefined" ); }); } toBeInstanceOf(class_) { this.__doMatcher(() => { this.__expect(this.target instanceof class_); }); } toBeNull() { this.__doMatcher(() => { this.__expect(this.target === null); }); } toBeUndefined() { this.__doMatcher(() => { this.__expect( this.target === undefined, () => `toBeUndefined: expected target to be undefined, got _${valueToString( this.target )}_` ); }); } toBeNaN() { this.__doMatcher(() => { this.__expect( isNaN(this.target), () => `toBeNaN: expected target to be NaN, got _${valueToString(this.target)}_` ); }); } toBeTrue() { this.__doMatcher(() => { this.__expect( this.target === true, () => `toBeTrue: expected target to be true, got _${valueToString(this.target)}_` ); }); } toBeFalse() { this.__doMatcher(() => { this.__expect( this.target === false, () => `toBeFalse: expected target to be false, got _${valueToString( this.target )}_` ); }); } __validateNumericComparisonTypes(value) { this.__expect(typeof this.target === "number" || typeof this.target === "bigint"); this.__expect(typeof value === "number" || typeof value === "bigint"); this.__expect(typeof this.target === typeof value); } toBeLessThan(value) { this.__validateNumericComparisonTypes(value); this.__doMatcher(() => { this.__expect(this.target < value); }); } toBeLessThanOrEqual(value) { this.__validateNumericComparisonTypes(value); this.__doMatcher(() => { this.__expect(this.target <= value); }); } toBeGreaterThan(value) { this.__validateNumericComparisonTypes(value); this.__doMatcher(() => { this.__expect(this.target > value); }); } toBeGreaterThanOrEqual(value) { this.__validateNumericComparisonTypes(value); this.__doMatcher(() => { this.__expect(this.target >= value); }); } toContain(item) { this.__doMatcher(() => { for (let element of this.target) { if (item === element) return; } throw new ExpectationError(); }); } toContainEqual(item) { this.__doMatcher(() => { for (let element of this.target) { if (deepEquals(item, element)) return; } throw new ExpectationError(); }); } toEqual(value) { this.__doMatcher(() => { this.__expect(deepEquals(this.target, value)); }); } toThrow(value) { this.__expect(typeof this.target === "function"); this.__expect( typeof value === "string" || typeof value === "function" || typeof value === "object" || value === undefined ); this.__doMatcher(() => { let threw = true; try { this.target(); threw = false; } catch (e) { if (typeof value === "string") { this.__expect(e.message.includes(value)); } else if (typeof value === "function") { this.__expect(e instanceof value); } else if (typeof value === "object") { this.__expect(e.message === value.message); } } this.__expect(threw); }); } pass(message) { // FIXME: This does nothing. If we want to implement things // like assertion count, this will have to do something } // jest-extended fail(message) { this.__doMatcher(() => { this.__expect(false, message); }); } // jest-extended toThrowWithMessage(class_, message) { this.__expect(typeof this.target === "function"); this.__expect(class_ !== undefined); this.__expect(message !== undefined); this.__doMatcher(() => { try { this.target(); this.__expect(false, () => "toThrowWithMessage: target function did not throw"); } catch (e) { this.__expect( e instanceof class_, () => `toThrowWithMessage: expected error to be instance of ${valueToString( class_.name )}, got ${valueToString(e.name)}` ); this.__expect( e.message.includes(message), () => `toThrowWithMessage: expected error message to include _${valueToString( message )}_, got _${valueToString(e.message)}_` ); } }); } // Test for syntax errors; target must be a string toEval() { this.__expect(typeof this.target === "string"); const success = canParseSource(this.target); this.__expect(this.inverted ? !success : success); } // Must compile regardless of inverted-ness toEvalTo(value) { this.__expect(typeof this.target === "string"); let result; try { result = eval(this.target); } catch (e) { throw new ExpectationError(); } this.__doMatcher(() => { this.__expect(deepEquals(value, result)); }); } toHaveConfigurableProperty(property) { this.__expect(this.target !== undefined && this.target !== null); let d = Object.getOwnPropertyDescriptor(this.target, property); this.__expect(d !== undefined); this.__doMatcher(() => { this.__expect(d.configurable); }); } toHaveEnumerableProperty(property) { this.__expect(this.target !== undefined && this.target !== null); let d = Object.getOwnPropertyDescriptor(this.target, property); this.__expect(d !== undefined); this.__doMatcher(() => { this.__expect(d.enumerable); }); } toHaveWritableProperty(property) { this.__expect(this.target !== undefined && this.target !== null); let d = Object.getOwnPropertyDescriptor(this.target, property); this.__expect(d !== undefined); this.__doMatcher(() => { this.__expect(d.writable); }); } toHaveValueProperty(property, value) { this.__expect(this.target !== undefined && this.target !== null); let d = Object.getOwnPropertyDescriptor(this.target, property); this.__expect(d !== undefined); this.__doMatcher(() => { this.__expect(d.value !== undefined); if (value !== undefined) this.__expect(deepEquals(value, d.value)); }); } toHaveGetterProperty(property) { this.__expect(this.target !== undefined && this.target !== null); let d = Object.getOwnPropertyDescriptor(this.target, property); this.__expect(d !== undefined); this.__doMatcher(() => { this.__expect(d.get !== undefined); }); } toHaveSetterProperty(property) { this.__expect(this.target !== undefined && this.target !== null); let d = Object.getOwnPropertyDescriptor(this.target, property); this.__expect(d !== undefined); this.__doMatcher(() => { this.__expect(d.set !== undefined); }); } __doMatcher(matcher) { if (!this.inverted) { matcher(); } else { let threw = false; try { matcher(); } catch (e) { if (e.name === "ExpectationError") threw = true; } if (!threw) throw new ExpectationError("not: test didn't fail"); } } __expect(value, details) { if (value !== true) { if (details !== undefined) { throw new ExpectationError(details()); } else { throw new ExpectationError(); } } } } expect = value => new Expector(value); // describe is able to lump test results inside of it by using this context // variable. Top level tests have the default suite message const defaultSuiteMessage = "__$$TOP_LEVEL$$__"; let suiteMessage = defaultSuiteMessage; describe = (message, callback) => { suiteMessage = message; if (!__TestResults__[suiteMessage]) __TestResults__[suiteMessage] = {}; try { callback(); } catch (e) { __TestResults__[suiteMessage][defaultSuiteMessage] = { result: "fail", details: String(e), }; } suiteMessage = defaultSuiteMessage; }; test = (message, callback) => { if (!__TestResults__[suiteMessage]) __TestResults__[suiteMessage] = {}; const suite = __TestResults__[suiteMessage]; if (Object.prototype.hasOwnProperty.call(suite, message)) { suite[message] = { result: "fail", details: "Another test with the same message did already run", }; return; } try { callback(); suite[message] = { result: "pass", }; } catch (e) { suite[message] = { result: "fail", details: String(e), }; } }; test.skip = (message, callback) => { if (typeof callback !== "function") throw new Error("test.skip has invalid second argument (must be a function)"); if (!__TestResults__[suiteMessage]) __TestResults__[suiteMessage] = {}; const suite = __TestResults__[suiteMessage]; if (Object.prototype.hasOwnProperty.call(suite, message)) { suite[message] = { result: "fail", details: "Another test with the same message did already run", }; return; } suite[message] = { result: "skip", }; }; })();