'use strict'; Object.defineProperty(exports, '__esModule', { value: true }); exports.stringNotMatching = exports.stringNotContaining = exports.stringMatching = exports.stringContaining = exports.objectNotContaining = exports.objectContaining = exports.notCloseTo = exports.closeTo = exports.arrayNotContaining = exports.arrayContaining = exports.anything = exports.any = exports.AsymmetricMatcher = void 0; var matcherUtils = _interopRequireWildcard(require('jest-matcher-utils')); var _jasmineUtils = require('./jasmineUtils'); var _jestMatchersObject = require('./jestMatchersObject'); var _utils = require('./utils'); function _getRequireWildcardCache(nodeInterop) { if (typeof WeakMap !== 'function') return null; var cacheBabelInterop = new WeakMap(); var cacheNodeInterop = new WeakMap(); return (_getRequireWildcardCache = function (nodeInterop) { return nodeInterop ? cacheNodeInterop : cacheBabelInterop; })(nodeInterop); } function _interopRequireWildcard(obj, nodeInterop) { if (!nodeInterop && obj && obj.__esModule) { return obj; } if (obj === null || (typeof obj !== 'object' && typeof obj !== 'function')) { return {default: obj}; } var cache = _getRequireWildcardCache(nodeInterop); if (cache && cache.has(obj)) { return cache.get(obj); } var newObj = {}; var hasPropertyDescriptor = Object.defineProperty && Object.getOwnPropertyDescriptor; for (var key in obj) { if (key !== 'default' && Object.prototype.hasOwnProperty.call(obj, key)) { var desc = hasPropertyDescriptor ? Object.getOwnPropertyDescriptor(obj, key) : null; if (desc && (desc.get || desc.set)) { Object.defineProperty(newObj, key, desc); } else { newObj[key] = obj[key]; } } } newObj.default = obj; if (cache) { cache.set(obj, newObj); } return newObj; } var global = (function () { if (typeof globalThis !== 'undefined') { return globalThis; } else if (typeof global !== 'undefined') { return global; } else if (typeof self !== 'undefined') { return self; } else if (typeof window !== 'undefined') { return window; } else { return Function('return this')(); } })(); var Symbol = global['jest-symbol-do-not-touch'] || global.Symbol; function _defineProperty(obj, key, value) { if (key in obj) { Object.defineProperty(obj, key, { value: value, enumerable: true, configurable: true, writable: true }); } else { obj[key] = value; } return obj; } const utils = Object.freeze({ ...matcherUtils, iterableEquality: _utils.iterableEquality, subsetEquality: _utils.subsetEquality }); class AsymmetricMatcher { constructor(sample, inverse = false) { _defineProperty(this, '$$typeof', Symbol.for('jest.asymmetricMatcher')); this.sample = sample; this.inverse = inverse; } getMatcherContext() { return { ...(0, _jestMatchersObject.getState)(), equals: _jasmineUtils.equals, isNot: this.inverse, utils }; } } exports.AsymmetricMatcher = AsymmetricMatcher; class Any extends AsymmetricMatcher { constructor(sample) { if (typeof sample === 'undefined') { throw new TypeError( 'any() expects to be passed a constructor function. ' + 'Please pass one or use anything() to match any object.' ); } super(sample); } asymmetricMatch(other) { if (this.sample == String) { return typeof other == 'string' || other instanceof String; } if (this.sample == Number) { return typeof other == 'number' || other instanceof Number; } if (this.sample == Function) { return typeof other == 'function' || other instanceof Function; } if (this.sample == Boolean) { return typeof other == 'boolean' || other instanceof Boolean; } if (this.sample == BigInt) { return typeof other == 'bigint' || other instanceof BigInt; } if (this.sample == Symbol) { return typeof other == 'symbol' || other instanceof Symbol; } if (this.sample == Object) { return typeof other == 'object'; } return other instanceof this.sample; } toString() { return 'Any'; } getExpectedType() { if (this.sample == String) { return 'string'; } if (this.sample == Number) { return 'number'; } if (this.sample == Function) { return 'function'; } if (this.sample == Object) { return 'object'; } if (this.sample == Boolean) { return 'boolean'; } return (0, _jasmineUtils.fnNameFor)(this.sample); } toAsymmetricMatcher() { return 'Any<' + (0, _jasmineUtils.fnNameFor)(this.sample) + '>'; } } class Anything extends AsymmetricMatcher { asymmetricMatch(other) { return !(0, _jasmineUtils.isUndefined)(other) && other !== null; } toString() { return 'Anything'; } // No getExpectedType method, because it matches either null or undefined. toAsymmetricMatcher() { return 'Anything'; } } class ArrayContaining extends AsymmetricMatcher { constructor(sample, inverse = false) { super(sample, inverse); } asymmetricMatch(other) { if (!Array.isArray(this.sample)) { throw new Error( `You must provide an array to ${this.toString()}, not '` + typeof this.sample + "'." ); } const result = this.sample.length === 0 || (Array.isArray(other) && this.sample.every(item => other.some(another => (0, _jasmineUtils.equals)(item, another)) )); return this.inverse ? !result : result; } toString() { return `Array${this.inverse ? 'Not' : ''}Containing`; } getExpectedType() { return 'array'; } } class ObjectContaining extends AsymmetricMatcher { constructor(sample, inverse = false) { super(sample, inverse); } asymmetricMatch(other) { if (typeof this.sample !== 'object') { throw new Error( `You must provide an object to ${this.toString()}, not '` + typeof this.sample + "'." ); } let result = true; for (const property in this.sample) { if ( !(0, _jasmineUtils.hasProperty)(other, property) || !(0, _jasmineUtils.equals)(this.sample[property], other[property]) ) { result = false; break; } } return this.inverse ? !result : result; } toString() { return `Object${this.inverse ? 'Not' : ''}Containing`; } getExpectedType() { return 'object'; } } class StringContaining extends AsymmetricMatcher { constructor(sample, inverse = false) { if (!(0, _jasmineUtils.isA)('String', sample)) { throw new Error('Expected is not a string'); } super(sample, inverse); } asymmetricMatch(other) { const result = (0, _jasmineUtils.isA)('String', other) && other.includes(this.sample); return this.inverse ? !result : result; } toString() { return `String${this.inverse ? 'Not' : ''}Containing`; } getExpectedType() { return 'string'; } } class StringMatching extends AsymmetricMatcher { constructor(sample, inverse = false) { if ( !(0, _jasmineUtils.isA)('String', sample) && !(0, _jasmineUtils.isA)('RegExp', sample) ) { throw new Error('Expected is not a String or a RegExp'); } super(new RegExp(sample), inverse); } asymmetricMatch(other) { const result = (0, _jasmineUtils.isA)('String', other) && this.sample.test(other); return this.inverse ? !result : result; } toString() { return `String${this.inverse ? 'Not' : ''}Matching`; } getExpectedType() { return 'string'; } } class CloseTo extends AsymmetricMatcher { constructor(sample, precision = 2, inverse = false) { if (!(0, _jasmineUtils.isA)('Number', sample)) { throw new Error('Expected is not a Number'); } if (!(0, _jasmineUtils.isA)('Number', precision)) { throw new Error('Precision is not a Number'); } super(sample); _defineProperty(this, 'precision', void 0); this.inverse = inverse; this.precision = precision; } asymmetricMatch(other) { if (!(0, _jasmineUtils.isA)('Number', other)) { return false; } let result = false; if (other === Infinity && this.sample === Infinity) { result = true; // Infinity - Infinity is NaN } else if (other === -Infinity && this.sample === -Infinity) { result = true; // -Infinity - -Infinity is NaN } else { result = Math.abs(this.sample - other) < Math.pow(10, -this.precision) / 2; } return this.inverse ? !result : result; } toString() { return `Number${this.inverse ? 'Not' : ''}CloseTo`; } getExpectedType() { return 'number'; } } const any = expectedObject => new Any(expectedObject); exports.any = any; const anything = () => new Anything(); exports.anything = anything; const arrayContaining = sample => new ArrayContaining(sample); exports.arrayContaining = arrayContaining; const arrayNotContaining = sample => new ArrayContaining(sample, true); exports.arrayNotContaining = arrayNotContaining; const objectContaining = sample => new ObjectContaining(sample); exports.objectContaining = objectContaining; const objectNotContaining = sample => new ObjectContaining(sample, true); exports.objectNotContaining = objectNotContaining; const stringContaining = expected => new StringContaining(expected); exports.stringContaining = stringContaining; const stringNotContaining = expected => new StringContaining(expected, true); exports.stringNotContaining = stringNotContaining; const stringMatching = expected => new StringMatching(expected); exports.stringMatching = stringMatching; const stringNotMatching = expected => new StringMatching(expected, true); exports.stringNotMatching = stringNotMatching; const closeTo = (expected, precision) => new CloseTo(expected, precision); exports.closeTo = closeTo; const notCloseTo = (expected, precision) => new CloseTo(expected, precision, true); exports.notCloseTo = notCloseTo;