var Pretender = (function(self) { function getModuleDefault(module) { return module.default || module; } var appearsBrowserified = typeof self !== 'undefined' && typeof process !== 'undefined' && (Object.prototype.toString.call(process) === '[object Object]' || Object.prototype.toString.call(process) === '[object process]'); var RouteRecognizer = appearsBrowserified ? getModuleDefault(require('route-recognizer')) : self.RouteRecognizer; var FakeXMLHttpRequest = appearsBrowserified ? getModuleDefault(require('fake-xml-http-request')) : self.FakeXMLHttpRequest; var Pretender = (function (RouteRecognizer, FakeXMLHttpRequest) { 'use strict'; RouteRecognizer = RouteRecognizer && Object.prototype.hasOwnProperty.call(RouteRecognizer, 'default') ? RouteRecognizer['default'] : RouteRecognizer; FakeXMLHttpRequest = FakeXMLHttpRequest && Object.prototype.hasOwnProperty.call(FakeXMLHttpRequest, 'default') ? FakeXMLHttpRequest['default'] : FakeXMLHttpRequest; var commonjsGlobal = typeof globalThis !== 'undefined' ? globalThis : typeof window !== 'undefined' ? window : typeof global !== 'undefined' ? global : typeof self !== 'undefined' ? self : {}; /** * Check if we're required to add a port number. * * @see https://url.spec.whatwg.org/#default-port * @param {Number|String} port Port number we need to check * @param {String} protocol Protocol we need to check against. * @returns {Boolean} Is it a default port for the given protocol * @api private */ var requiresPort = function required(port, protocol) { protocol = protocol.split(':')[0]; port = +port; if (!port) return false; switch (protocol) { case 'http': case 'ws': return port !== 80; case 'https': case 'wss': return port !== 443; case 'ftp': return port !== 21; case 'gopher': return port !== 70; case 'file': return false; } return port !== 0; }; var has = Object.prototype.hasOwnProperty , undef; /** * Decode a URI encoded string. * * @param {String} input The URI encoded string. * @returns {String|Null} The decoded string. * @api private */ function decode(input) { try { return decodeURIComponent(input.replace(/\+/g, ' ')); } catch (e) { return null; } } /** * Simple query string parser. * * @param {String} query The query string that needs to be parsed. * @returns {Object} * @api public */ function querystring(query) { var parser = /([^=?&]+)=?([^&]*)/g , result = {} , part; while (part = parser.exec(query)) { var key = decode(part[1]) , value = decode(part[2]); // // Prevent overriding of existing properties. This ensures that build-in // methods like `toString` or __proto__ are not overriden by malicious // querystrings. // // In the case if failed decoding, we want to omit the key/value pairs // from the result. // if (key === null || value === null || key in result) continue; result[key] = value; } return result; } /** * Transform a query string to an object. * * @param {Object} obj Object that should be transformed. * @param {String} prefix Optional prefix. * @returns {String} * @api public */ function querystringify(obj, prefix) { prefix = prefix || ''; var pairs = [] , value , key; // // Optionally prefix with a '?' if needed // if ('string' !== typeof prefix) prefix = '?'; for (key in obj) { if (has.call(obj, key)) { value = obj[key]; // // Edge cases where we actually want to encode the value to an empty // string instead of the stringified value. // if (!value && (value === null || value === undef || isNaN(value))) { value = ''; } key = encodeURIComponent(key); value = encodeURIComponent(value); // // If we failed to encode the strings, we should bail out as we don't // want to add invalid strings to the query. // if (key === null || value === null) continue; pairs.push(key +'='+ value); } } return pairs.length ? prefix + pairs.join('&') : ''; } // // Expose the module. // var stringify = querystringify; var parse = querystring; var querystringify_1 = { stringify: stringify, parse: parse }; var slashes = /^[A-Za-z][A-Za-z0-9+-.]*:\/\// , protocolre = /^([a-z][a-z0-9.+-]*:)?(\/\/)?([\\/]+)?([\S\s]*)/i , windowsDriveLetter = /^[a-zA-Z]:/ , whitespace = '[\\x09\\x0A\\x0B\\x0C\\x0D\\x20\\xA0\\u1680\\u180E\\u2000\\u2001\\u2002\\u2003\\u2004\\u2005\\u2006\\u2007\\u2008\\u2009\\u200A\\u202F\\u205F\\u3000\\u2028\\u2029\\uFEFF]' , left = new RegExp('^'+ whitespace +'+'); /** * Trim a given string. * * @param {String} str String to trim. * @public */ function trimLeft(str) { return (str ? str : '').toString().replace(left, ''); } /** * These are the parse rules for the URL parser, it informs the parser * about: * * 0. The char it Needs to parse, if it's a string it should be done using * indexOf, RegExp using exec and NaN means set as current value. * 1. The property we should set when parsing this value. * 2. Indication if it's backwards or forward parsing, when set as number it's * the value of extra chars that should be split off. * 3. Inherit from location if non existing in the parser. * 4. `toLowerCase` the resulting value. */ var rules = [ ['#', 'hash'], // Extract from the back. ['?', 'query'], // Extract from the back. function sanitize(address, url) { // Sanitize what is left of the address return isSpecial(url.protocol) ? address.replace(/\\/g, '/') : address; }, ['/', 'pathname'], // Extract from the back. ['@', 'auth', 1], // Extract from the front. [NaN, 'host', undefined, 1, 1], // Set left over value. [/:(\d+)$/, 'port', undefined, 1], // RegExp the back. [NaN, 'hostname', undefined, 1, 1] // Set left over. ]; /** * These properties should not be copied or inherited from. This is only needed * for all non blob URL's as a blob URL does not include a hash, only the * origin. * * @type {Object} * @private */ var ignore = { hash: 1, query: 1 }; /** * The location object differs when your code is loaded through a normal page, * Worker or through a worker using a blob. And with the blobble begins the * trouble as the location object will contain the URL of the blob, not the * location of the page where our code is loaded in. The actual origin is * encoded in the `pathname` so we can thankfully generate a good "default" * location from it so we can generate proper relative URL's again. * * @param {Object|String} loc Optional default location object. * @returns {Object} lolcation object. * @public */ function lolcation(loc) { var globalVar; if (typeof window !== 'undefined') globalVar = window; else if (typeof commonjsGlobal !== 'undefined') globalVar = commonjsGlobal; else if (typeof self !== 'undefined') globalVar = self; else globalVar = {}; var location = globalVar.location || {}; loc = loc || location; var finaldestination = {} , type = typeof loc , key; if ('blob:' === loc.protocol) { finaldestination = new Url(unescape(loc.pathname), {}); } else if ('string' === type) { finaldestination = new Url(loc, {}); for (key in ignore) delete finaldestination[key]; } else if ('object' === type) { for (key in loc) { if (key in ignore) continue; finaldestination[key] = loc[key]; } if (finaldestination.slashes === undefined) { finaldestination.slashes = slashes.test(loc.href); } } return finaldestination; } /** * Check whether a protocol scheme is special. * * @param {String} The protocol scheme of the URL * @return {Boolean} `true` if the protocol scheme is special, else `false` * @private */ function isSpecial(scheme) { return ( scheme === 'file:' || scheme === 'ftp:' || scheme === 'http:' || scheme === 'https:' || scheme === 'ws:' || scheme === 'wss:' ); } /** * @typedef ProtocolExtract * @type Object * @property {String} protocol Protocol matched in the URL, in lowercase. * @property {Boolean} slashes `true` if protocol is followed by "//", else `false`. * @property {String} rest Rest of the URL that is not part of the protocol. */ /** * Extract protocol information from a URL with/without double slash ("//"). * * @param {String} address URL we want to extract from. * @param {Object} location * @return {ProtocolExtract} Extracted information. * @private */ function extractProtocol(address, location) { address = trimLeft(address); location = location || {}; var match = protocolre.exec(address); var protocol = match[1] ? match[1].toLowerCase() : ''; var forwardSlashes = !!match[2]; var otherSlashes = !!match[3]; var slashesCount = 0; var rest; if (forwardSlashes) { if (otherSlashes) { rest = match[2] + match[3] + match[4]; slashesCount = match[2].length + match[3].length; } else { rest = match[2] + match[4]; slashesCount = match[2].length; } } else { if (otherSlashes) { rest = match[3] + match[4]; slashesCount = match[3].length; } else { rest = match[4]; } } if (protocol === 'file:') { if (slashesCount >= 2) { rest = rest.slice(2); } } else if (isSpecial(protocol)) { rest = match[4]; } else if (protocol) { if (forwardSlashes) { rest = rest.slice(2); } } else if (slashesCount >= 2 && isSpecial(location.protocol)) { rest = match[4]; } return { protocol: protocol, slashes: forwardSlashes || isSpecial(protocol), slashesCount: slashesCount, rest: rest }; } /** * Resolve a relative URL pathname against a base URL pathname. * * @param {String} relative Pathname of the relative URL. * @param {String} base Pathname of the base URL. * @return {String} Resolved pathname. * @private */ function resolve(relative, base) { if (relative === '') return base; var path = (base || '/').split('/').slice(0, -1).concat(relative.split('/')) , i = path.length , last = path[i - 1] , unshift = false , up = 0; while (i--) { if (path[i] === '.') { path.splice(i, 1); } else if (path[i] === '..') { path.splice(i, 1); up++; } else if (up) { if (i === 0) unshift = true; path.splice(i, 1); up--; } } if (unshift) path.unshift(''); if (last === '.' || last === '..') path.push(''); return path.join('/'); } /** * The actual URL instance. Instead of returning an object we've opted-in to * create an actual constructor as it's much more memory efficient and * faster and it pleases my OCD. * * It is worth noting that we should not use `URL` as class name to prevent * clashes with the global URL instance that got introduced in browsers. * * @constructor * @param {String} address URL we want to parse. * @param {Object|String} [location] Location defaults for relative paths. * @param {Boolean|Function} [parser] Parser for the query string. * @private */ function Url(address, location, parser) { address = trimLeft(address); if (!(this instanceof Url)) { return new Url(address, location, parser); } var relative, extracted, parse, instruction, index, key , instructions = rules.slice() , type = typeof location , url = this , i = 0; // // The following if statements allows this module two have compatibility with // 2 different API: // // 1. Node.js's `url.parse` api which accepts a URL, boolean as arguments // where the boolean indicates that the query string should also be parsed. // // 2. The `URL` interface of the browser which accepts a URL, object as // arguments. The supplied object will be used as default values / fall-back // for relative paths. // if ('object' !== type && 'string' !== type) { parser = location; location = null; } if (parser && 'function' !== typeof parser) parser = querystringify_1.parse; location = lolcation(location); // // Extract protocol information before running the instructions. // extracted = extractProtocol(address || '', location); relative = !extracted.protocol && !extracted.slashes; url.slashes = extracted.slashes || relative && location.slashes; url.protocol = extracted.protocol || location.protocol || ''; address = extracted.rest; // // When the authority component is absent the URL starts with a path // component. // if ( extracted.protocol === 'file:' && ( extracted.slashesCount !== 2 || windowsDriveLetter.test(address)) || (!extracted.slashes && (extracted.protocol || extracted.slashesCount < 2 || !isSpecial(url.protocol))) ) { instructions[3] = [/(.*)/, 'pathname']; } for (; i < instructions.length; i++) { instruction = instructions[i]; if (typeof instruction === 'function') { address = instruction(address, url); continue; } parse = instruction[0]; key = instruction[1]; if (parse !== parse) { url[key] = address; } else if ('string' === typeof parse) { if (~(index = address.indexOf(parse))) { if ('number' === typeof instruction[2]) { url[key] = address.slice(0, index); address = address.slice(index + instruction[2]); } else { url[key] = address.slice(index); address = address.slice(0, index); } } } else if ((index = parse.exec(address))) { url[key] = index[1]; address = address.slice(0, index.index); } url[key] = url[key] || ( relative && instruction[3] ? location[key] || '' : '' ); // // Hostname, host and protocol should be lowercased so they can be used to // create a proper `origin`. // if (instruction[4]) url[key] = url[key].toLowerCase(); } // // Also parse the supplied query string in to an object. If we're supplied // with a custom parser as function use that instead of the default build-in // parser. // if (parser) url.query = parser(url.query); // // If the URL is relative, resolve the pathname against the base URL. // if ( relative && location.slashes && url.pathname.charAt(0) !== '/' && (url.pathname !== '' || location.pathname !== '') ) { url.pathname = resolve(url.pathname, location.pathname); } // // Default to a / for pathname if none exists. This normalizes the URL // to always have a / // if (url.pathname.charAt(0) !== '/' && isSpecial(url.protocol)) { url.pathname = '/' + url.pathname; } // // We should not add port numbers if they are already the default port number // for a given protocol. As the host also contains the port number we're going // override it with the hostname which contains no port number. // if (!requiresPort(url.port, url.protocol)) { url.host = url.hostname; url.port = ''; } // // Parse down the `auth` for the username and password. // url.username = url.password = ''; if (url.auth) { instruction = url.auth.split(':'); url.username = instruction[0] || ''; url.password = instruction[1] || ''; } url.origin = url.protocol !== 'file:' && isSpecial(url.protocol) && url.host ? url.protocol +'//'+ url.host : 'null'; // // The href is just the compiled result. // url.href = url.toString(); } /** * This is convenience method for changing properties in the URL instance to * insure that they all propagate correctly. * * @param {String} part Property we need to adjust. * @param {Mixed} value The newly assigned value. * @param {Boolean|Function} fn When setting the query, it will be the function * used to parse the query. * When setting the protocol, double slash will be * removed from the final url if it is true. * @returns {URL} URL instance for chaining. * @public */ function set(part, value, fn) { var url = this; switch (part) { case 'query': if ('string' === typeof value && value.length) { value = (fn || querystringify_1.parse)(value); } url[part] = value; break; case 'port': url[part] = value; if (!requiresPort(value, url.protocol)) { url.host = url.hostname; url[part] = ''; } else if (value) { url.host = url.hostname +':'+ value; } break; case 'hostname': url[part] = value; if (url.port) value += ':'+ url.port; url.host = value; break; case 'host': url[part] = value; if (/:\d+$/.test(value)) { value = value.split(':'); url.port = value.pop(); url.hostname = value.join(':'); } else { url.hostname = value; url.port = ''; } break; case 'protocol': url.protocol = value.toLowerCase(); url.slashes = !fn; break; case 'pathname': case 'hash': if (value) { var char = part === 'pathname' ? '/' : '#'; url[part] = value.charAt(0) !== char ? char + value : value; } else { url[part] = value; } break; default: url[part] = value; } for (var i = 0; i < rules.length; i++) { var ins = rules[i]; if (ins[4]) url[ins[1]] = url[ins[1]].toLowerCase(); } url.origin = url.protocol !== 'file:' && isSpecial(url.protocol) && url.host ? url.protocol +'//'+ url.host : 'null'; url.href = url.toString(); return url; } /** * Transform the properties back in to a valid and full URL string. * * @param {Function} stringify Optional query stringify function. * @returns {String} Compiled version of the URL. * @public */ function toString(stringify) { if (!stringify || 'function' !== typeof stringify) stringify = querystringify_1.stringify; var query , url = this , protocol = url.protocol; if (protocol && protocol.charAt(protocol.length - 1) !== ':') protocol += ':'; var result = protocol + (url.slashes || isSpecial(url.protocol) ? '//' : ''); if (url.username) { result += url.username; if (url.password) result += ':'+ url.password; result += '@'; } result += url.host + url.pathname; query = 'object' === typeof url.query ? stringify(url.query) : url.query; if (query) result += '?' !== query.charAt(0) ? '?'+ query : query; if (url.hash) result += url.hash; return result; } Url.prototype = { set: set, toString: toString }; // // Expose the URL parser and some additional properties that might be useful for // others or testing. // Url.extractProtocol = extractProtocol; Url.location = lolcation; Url.trimLeft = trimLeft; Url.qs = querystringify_1; var urlParse = Url; /** * parseURL - decompose a URL into its parts * @param {String} url a URL * @return {Object} parts of the URL, including the following * * 'https://www.yahoo.com:1234/mypage?test=yes#abc' * * { * host: 'www.yahoo.com:1234', * protocol: 'https:', * search: '?test=yes', * hash: '#abc', * href: 'https://www.yahoo.com:1234/mypage?test=yes#abc', * pathname: '/mypage', * fullpath: '/mypage?test=yes' * } */ function parseURL(url) { var parsedUrl = new urlParse(url); if (!parsedUrl.host) { // eslint-disable-next-line no-self-assign parsedUrl.href = parsedUrl.href; // IE: load the host and protocol } var pathname = parsedUrl.pathname; if (pathname.charAt(0) !== '/') { pathname = '/' + pathname; // IE: prepend leading slash } var host = parsedUrl.host; if (parsedUrl.port === '80' || parsedUrl.port === '443') { host = parsedUrl.hostname; // IE: remove default port } return { host: host, protocol: parsedUrl.protocol, search: parsedUrl.query, hash: parsedUrl.hash, href: parsedUrl.href, pathname: pathname, fullpath: pathname + (parsedUrl.query || '') + (parsedUrl.hash || '') }; } /** * Registry * * A registry is a map of HTTP verbs to route recognizers. */ var Registry = /** @class */ (function () { function Registry( /* host */) { // Herein we keep track of RouteRecognizer instances // keyed by HTTP method. Feel free to add more as needed. this.verbs = { GET: new RouteRecognizer(), PUT: new RouteRecognizer(), POST: new RouteRecognizer(), DELETE: new RouteRecognizer(), PATCH: new RouteRecognizer(), HEAD: new RouteRecognizer(), OPTIONS: new RouteRecognizer() }; } return Registry; }()); /** * Hosts * * a map of hosts to Registries, ultimately allowing * a per-host-and-port, per HTTP verb lookup of RouteRecognizers */ var Hosts = /** @class */ (function () { function Hosts() { this.registries = {}; } /** * Hosts#forURL - retrieve a map of HTTP verbs to RouteRecognizers * for a given URL * * @param {String} url a URL * @return {Registry} a map of HTTP verbs to RouteRecognizers * corresponding to the provided URL's * hostname and port */ Hosts.prototype.forURL = function (url) { var host = parseURL(url).host; var registry = this.registries[host]; if (registry === undefined) { registry = (this.registries[host] = new Registry( /*host*/)); } return registry.verbs; }; return Hosts; }()); var global$1 = (typeof globalThis !== 'undefined' && globalThis) || (typeof self !== 'undefined' && self) || (typeof global$1 !== 'undefined' && global$1); var support = { searchParams: 'URLSearchParams' in global$1, iterable: 'Symbol' in global$1 && 'iterator' in Symbol, blob: 'FileReader' in global$1 && 'Blob' in global$1 && (function() { try { new Blob(); return true } catch (e) { return false } })(), formData: 'FormData' in global$1, arrayBuffer: 'ArrayBuffer' in global$1 }; function isDataView(obj) { return obj && DataView.prototype.isPrototypeOf(obj) } if (support.arrayBuffer) { var viewClasses = [ '[object Int8Array]', '[object Uint8Array]', '[object Uint8ClampedArray]', '[object Int16Array]', '[object Uint16Array]', '[object Int32Array]', '[object Uint32Array]', '[object Float32Array]', '[object Float64Array]' ]; var isArrayBufferView = ArrayBuffer.isView || function(obj) { return obj && viewClasses.indexOf(Object.prototype.toString.call(obj)) > -1 }; } function normalizeName(name) { if (typeof name !== 'string') { name = String(name); } if (/[^a-z0-9\-#$%&'*+.^_`|~!]/i.test(name) || name === '') { throw new TypeError('Invalid character in header field name: "' + name + '"') } return name.toLowerCase() } function normalizeValue(value) { if (typeof value !== 'string') { value = String(value); } return value } // Build a destructive iterator for the value list function iteratorFor(items) { var iterator = { next: function() { var value = items.shift(); return {done: value === undefined, value: value} } }; if (support.iterable) { iterator[Symbol.iterator] = function() { return iterator }; } return iterator } function Headers(headers) { this.map = {}; if (headers instanceof Headers) { headers.forEach(function(value, name) { this.append(name, value); }, this); } else if (Array.isArray(headers)) { headers.forEach(function(header) { this.append(header[0], header[1]); }, this); } else if (headers) { Object.getOwnPropertyNames(headers).forEach(function(name) { this.append(name, headers[name]); }, this); } } Headers.prototype.append = function(name, value) { name = normalizeName(name); value = normalizeValue(value); var oldValue = this.map[name]; this.map[name] = oldValue ? oldValue + ', ' + value : value; }; Headers.prototype['delete'] = function(name) { delete this.map[normalizeName(name)]; }; Headers.prototype.get = function(name) { name = normalizeName(name); return this.has(name) ? this.map[name] : null }; Headers.prototype.has = function(name) { return this.map.hasOwnProperty(normalizeName(name)) }; Headers.prototype.set = function(name, value) { this.map[normalizeName(name)] = normalizeValue(value); }; Headers.prototype.forEach = function(callback, thisArg) { for (var name in this.map) { if (this.map.hasOwnProperty(name)) { callback.call(thisArg, this.map[name], name, this); } } }; Headers.prototype.keys = function() { var items = []; this.forEach(function(value, name) { items.push(name); }); return iteratorFor(items) }; Headers.prototype.values = function() { var items = []; this.forEach(function(value) { items.push(value); }); return iteratorFor(items) }; Headers.prototype.entries = function() { var items = []; this.forEach(function(value, name) { items.push([name, value]); }); return iteratorFor(items) }; if (support.iterable) { Headers.prototype[Symbol.iterator] = Headers.prototype.entries; } function consumed(body) { if (body.bodyUsed) { return Promise.reject(new TypeError('Already read')) } body.bodyUsed = true; } function fileReaderReady(reader) { return new Promise(function(resolve, reject) { reader.onload = function() { resolve(reader.result); }; reader.onerror = function() { reject(reader.error); }; }) } function readBlobAsArrayBuffer(blob) { var reader = new FileReader(); var promise = fileReaderReady(reader); reader.readAsArrayBuffer(blob); return promise } function readBlobAsText(blob) { var reader = new FileReader(); var promise = fileReaderReady(reader); reader.readAsText(blob); return promise } function readArrayBufferAsText(buf) { var view = new Uint8Array(buf); var chars = new Array(view.length); for (var i = 0; i < view.length; i++) { chars[i] = String.fromCharCode(view[i]); } return chars.join('') } function bufferClone(buf) { if (buf.slice) { return buf.slice(0) } else { var view = new Uint8Array(buf.byteLength); view.set(new Uint8Array(buf)); return view.buffer } } function Body() { this.bodyUsed = false; this._initBody = function(body) { /* fetch-mock wraps the Response object in an ES6 Proxy to provide useful test harness features such as flush. However, on ES5 browsers without fetch or Proxy support pollyfills must be used; the proxy-pollyfill is unable to proxy an attribute unless it exists on the object before the Proxy is created. This change ensures Response.bodyUsed exists on the instance, while maintaining the semantic of setting Request.bodyUsed in the constructor before _initBody is called. */ this.bodyUsed = this.bodyUsed; this._bodyInit = body; if (!body) { this._bodyText = ''; } else if (typeof body === 'string') { this._bodyText = body; } else if (support.blob && Blob.prototype.isPrototypeOf(body)) { this._bodyBlob = body; } else if (support.formData && FormData.prototype.isPrototypeOf(body)) { this._bodyFormData = body; } else if (support.searchParams && URLSearchParams.prototype.isPrototypeOf(body)) { this._bodyText = body.toString(); } else if (support.arrayBuffer && support.blob && isDataView(body)) { this._bodyArrayBuffer = bufferClone(body.buffer); // IE 10-11 can't handle a DataView body. this._bodyInit = new Blob([this._bodyArrayBuffer]); } else if (support.arrayBuffer && (ArrayBuffer.prototype.isPrototypeOf(body) || isArrayBufferView(body))) { this._bodyArrayBuffer = bufferClone(body); } else { this._bodyText = body = Object.prototype.toString.call(body); } if (!this.headers.get('content-type')) { if (typeof body === 'string') { this.headers.set('content-type', 'text/plain;charset=UTF-8'); } else if (this._bodyBlob && this._bodyBlob.type) { this.headers.set('content-type', this._bodyBlob.type); } else if (support.searchParams && URLSearchParams.prototype.isPrototypeOf(body)) { this.headers.set('content-type', 'application/x-www-form-urlencoded;charset=UTF-8'); } } }; if (support.blob) { this.blob = function() { var rejected = consumed(this); if (rejected) { return rejected } if (this._bodyBlob) { return Promise.resolve(this._bodyBlob) } else if (this._bodyArrayBuffer) { return Promise.resolve(new Blob([this._bodyArrayBuffer])) } else if (this._bodyFormData) { throw new Error('could not read FormData body as blob') } else { return Promise.resolve(new Blob([this._bodyText])) } }; this.arrayBuffer = function() { if (this._bodyArrayBuffer) { var isConsumed = consumed(this); if (isConsumed) { return isConsumed } if (ArrayBuffer.isView(this._bodyArrayBuffer)) { return Promise.resolve( this._bodyArrayBuffer.buffer.slice( this._bodyArrayBuffer.byteOffset, this._bodyArrayBuffer.byteOffset + this._bodyArrayBuffer.byteLength ) ) } else { return Promise.resolve(this._bodyArrayBuffer) } } else { return this.blob().then(readBlobAsArrayBuffer) } }; } this.text = function() { var rejected = consumed(this); if (rejected) { return rejected } if (this._bodyBlob) { return readBlobAsText(this._bodyBlob) } else if (this._bodyArrayBuffer) { return Promise.resolve(readArrayBufferAsText(this._bodyArrayBuffer)) } else if (this._bodyFormData) { throw new Error('could not read FormData body as text') } else { return Promise.resolve(this._bodyText) } }; if (support.formData) { this.formData = function() { return this.text().then(decode$1) }; } this.json = function() { return this.text().then(JSON.parse) }; return this } // HTTP methods whose capitalization should be normalized var methods = ['DELETE', 'GET', 'HEAD', 'OPTIONS', 'POST', 'PUT']; function normalizeMethod(method) { var upcased = method.toUpperCase(); return methods.indexOf(upcased) > -1 ? upcased : method } function Request(input, options) { if (!(this instanceof Request)) { throw new TypeError('Please use the "new" operator, this DOM object constructor cannot be called as a function.') } options = options || {}; var body = options.body; if (input instanceof Request) { if (input.bodyUsed) { throw new TypeError('Already read') } this.url = input.url; this.credentials = input.credentials; if (!options.headers) { this.headers = new Headers(input.headers); } this.method = input.method; this.mode = input.mode; this.signal = input.signal; if (!body && input._bodyInit != null) { body = input._bodyInit; input.bodyUsed = true; } } else { this.url = String(input); } this.credentials = options.credentials || this.credentials || 'same-origin'; if (options.headers || !this.headers) { this.headers = new Headers(options.headers); } this.method = normalizeMethod(options.method || this.method || 'GET'); this.mode = options.mode || this.mode || null; this.signal = options.signal || this.signal; this.referrer = null; if ((this.method === 'GET' || this.method === 'HEAD') && body) { throw new TypeError('Body not allowed for GET or HEAD requests') } this._initBody(body); if (this.method === 'GET' || this.method === 'HEAD') { if (options.cache === 'no-store' || options.cache === 'no-cache') { // Search for a '_' parameter in the query string var reParamSearch = /([?&])_=[^&]*/; if (reParamSearch.test(this.url)) { // If it already exists then set the value with the current time this.url = this.url.replace(reParamSearch, '$1_=' + new Date().getTime()); } else { // Otherwise add a new '_' parameter to the end with the current time var reQueryString = /\?/; this.url += (reQueryString.test(this.url) ? '&' : '?') + '_=' + new Date().getTime(); } } } } Request.prototype.clone = function() { return new Request(this, {body: this._bodyInit}) }; function decode$1(body) { var form = new FormData(); body .trim() .split('&') .forEach(function(bytes) { if (bytes) { var split = bytes.split('='); var name = split.shift().replace(/\+/g, ' '); var value = split.join('=').replace(/\+/g, ' '); form.append(decodeURIComponent(name), decodeURIComponent(value)); } }); return form } function parseHeaders(rawHeaders) { var headers = new Headers(); // Replace instances of \r\n and \n followed by at least one space or horizontal tab with a space // https://tools.ietf.org/html/rfc7230#section-3.2 var preProcessedHeaders = rawHeaders.replace(/\r?\n[\t ]+/g, ' '); // Avoiding split via regex to work around a common IE11 bug with the core-js 3.6.0 regex polyfill // https://github.com/github/fetch/issues/748 // https://github.com/zloirock/core-js/issues/751 preProcessedHeaders .split('\r') .map(function(header) { return header.indexOf('\n') === 0 ? header.substr(1, header.length) : header }) .forEach(function(line) { var parts = line.split(':'); var key = parts.shift().trim(); if (key) { var value = parts.join(':').trim(); headers.append(key, value); } }); return headers } Body.call(Request.prototype); function Response(bodyInit, options) { if (!(this instanceof Response)) { throw new TypeError('Please use the "new" operator, this DOM object constructor cannot be called as a function.') } if (!options) { options = {}; } this.type = 'default'; this.status = options.status === undefined ? 200 : options.status; this.ok = this.status >= 200 && this.status < 300; this.statusText = options.statusText === undefined ? '' : '' + options.statusText; this.headers = new Headers(options.headers); this.url = options.url || ''; this._initBody(bodyInit); } Body.call(Response.prototype); Response.prototype.clone = function() { return new Response(this._bodyInit, { status: this.status, statusText: this.statusText, headers: new Headers(this.headers), url: this.url }) }; Response.error = function() { var response = new Response(null, {status: 0, statusText: ''}); response.type = 'error'; return response }; var redirectStatuses = [301, 302, 303, 307, 308]; Response.redirect = function(url, status) { if (redirectStatuses.indexOf(status) === -1) { throw new RangeError('Invalid status code') } return new Response(null, {status: status, headers: {location: url}}) }; var DOMException = global$1.DOMException; try { new DOMException(); } catch (err) { DOMException = function(message, name) { this.message = message; this.name = name; var error = Error(message); this.stack = error.stack; }; DOMException.prototype = Object.create(Error.prototype); DOMException.prototype.constructor = DOMException; } function fetch(input, init) { return new Promise(function(resolve, reject) { var request = new Request(input, init); if (request.signal && request.signal.aborted) { return reject(new DOMException('Aborted', 'AbortError')) } var xhr = new XMLHttpRequest(); function abortXhr() { xhr.abort(); } xhr.onload = function() { var options = { status: xhr.status, statusText: xhr.statusText, headers: parseHeaders(xhr.getAllResponseHeaders() || '') }; options.url = 'responseURL' in xhr ? xhr.responseURL : options.headers.get('X-Request-URL'); var body = 'response' in xhr ? xhr.response : xhr.responseText; setTimeout(function() { resolve(new Response(body, options)); }, 0); }; xhr.onerror = function() { setTimeout(function() { reject(new TypeError('Network request failed')); }, 0); }; xhr.ontimeout = function() { setTimeout(function() { reject(new TypeError('Network request failed')); }, 0); }; xhr.onabort = function() { setTimeout(function() { reject(new DOMException('Aborted', 'AbortError')); }, 0); }; function fixUrl(url) { try { return url === '' && global$1.location.href ? global$1.location.href : url } catch (e) { return url } } xhr.open(request.method, fixUrl(request.url), true); if (request.credentials === 'include') { xhr.withCredentials = true; } else if (request.credentials === 'omit') { xhr.withCredentials = false; } if ('responseType' in xhr) { if (support.blob) { xhr.responseType = 'blob'; } else if ( support.arrayBuffer && request.headers.get('Content-Type') && request.headers.get('Content-Type').indexOf('application/octet-stream') !== -1 ) { xhr.responseType = 'arraybuffer'; } } if (init && typeof init.headers === 'object' && !(init.headers instanceof Headers)) { Object.getOwnPropertyNames(init.headers).forEach(function(name) { xhr.setRequestHeader(name, normalizeValue(init.headers[name])); }); } else { request.headers.forEach(function(value, name) { xhr.setRequestHeader(name, value); }); } if (request.signal) { request.signal.addEventListener('abort', abortXhr); xhr.onreadystatechange = function() { // DONE (success or failure) if (xhr.readyState === 4) { request.signal.removeEventListener('abort', abortXhr); } }; } xhr.send(typeof request._bodyInit === 'undefined' ? null : request._bodyInit); }) } fetch.polyfill = true; if (!global$1.fetch) { global$1.fetch = fetch; global$1.Headers = Headers; global$1.Request = Request; global$1.Response = Response; } var FakeFetch = /*#__PURE__*/Object.freeze({ __proto__: null, Headers: Headers, Request: Request, Response: Response, get DOMException () { return DOMException; }, fetch: fetch }); function createPassthrough(fakeXHR, nativeXMLHttpRequest) { // event types to handle on the xhr var evts = ['error', 'timeout', 'abort', 'readystatechange']; // event types to handle on the xhr.upload var uploadEvents = []; // properties to copy from the native xhr to fake xhr var lifecycleProps = [ 'readyState', 'responseText', 'response', 'responseXML', 'responseURL', 'status', 'statusText', ]; var xhr = (fakeXHR._passthroughRequest = new nativeXMLHttpRequest()); xhr.open(fakeXHR.method, fakeXHR.url, fakeXHR.async, fakeXHR.username, fakeXHR.password); if (fakeXHR.responseType === 'arraybuffer') { lifecycleProps = ['readyState', 'response', 'status', 'statusText']; xhr.responseType = fakeXHR.responseType; } // use onload if the browser supports it if ('onload' in xhr) { evts.push('load'); } // add progress event for async calls // avoid using progress events for sync calls, they will hang https://bugs.webkit.org/show_bug.cgi?id=40996. if (fakeXHR.async && fakeXHR.responseType !== 'arraybuffer') { evts.push('progress'); uploadEvents.push('progress'); } // update `propertyNames` properties from `fromXHR` to `toXHR` function copyLifecycleProperties(propertyNames, fromXHR, toXHR) { for (var i = 0; i < propertyNames.length; i++) { var prop = propertyNames[i]; if (prop in fromXHR) { toXHR[prop] = fromXHR[prop]; } } } // fire fake event on `eventable` function dispatchEvent(eventable, eventType, event) { eventable.dispatchEvent(event); if (eventable['on' + eventType]) { eventable['on' + eventType](event); } } // set the on- handler on the native xhr for the given eventType function createHandler(eventType) { xhr['on' + eventType] = function (event) { copyLifecycleProperties(lifecycleProps, xhr, fakeXHR); dispatchEvent(fakeXHR, eventType, event); }; } // set the on- handler on the native xhr's `upload` property for // the given eventType function createUploadHandler(eventType) { if (xhr.upload && fakeXHR.upload && fakeXHR.upload['on' + eventType]) { xhr.upload['on' + eventType] = function (event) { dispatchEvent(fakeXHR.upload, eventType, event); }; } } var i; for (i = 0; i < evts.length; i++) { createHandler(evts[i]); } for (i = 0; i < uploadEvents.length; i++) { createUploadHandler(uploadEvents[i]); } if (fakeXHR.async) { xhr.timeout = fakeXHR.timeout; xhr.withCredentials = fakeXHR.withCredentials; } // XMLHttpRequest.timeout default initializes to 0, and is not allowed to be used for // synchronous XMLHttpRequests requests in a document environment. However, when a XHR // polyfill does not sets the timeout value, it will throw in React Native environment. // TODO: // synchronous XHR is deprecated, make async the default as XMLHttpRequest.open(), // and throw error if sync XHR has timeout not 0 if (!xhr.timeout && xhr.timeout !== 0) { xhr.timeout = 0; // default XMLHttpRequest timeout } for (var h in fakeXHR.requestHeaders) { xhr.setRequestHeader(h, fakeXHR.requestHeaders[h]); } return xhr; } function interceptor(ctx) { function FakeRequest() { // super() FakeXMLHttpRequest.call(this); } FakeRequest.prototype = Object.create(FakeXMLHttpRequest.prototype); FakeRequest.prototype.constructor = FakeRequest; // extend FakeRequest.prototype.send = function send() { this.sendArguments = arguments; if (!ctx.pretender.running) { throw new Error('You shut down a Pretender instance while there was a pending request. ' + 'That request just tried to complete. Check to see if you accidentally shut down ' + 'a pretender earlier than you intended to'); } FakeXMLHttpRequest.prototype.send.apply(this, arguments); if (ctx.pretender.checkPassthrough(this)) { this.passthrough(); } else { ctx.pretender.handleRequest(this); } }; FakeRequest.prototype.passthrough = function passthrough() { if (!this.sendArguments) { throw new Error('You attempted to passthrough a FakeRequest that was never sent. ' + 'Call `.send()` on the original request first'); } var xhr = createPassthrough(this, ctx.pretender._nativeXMLHttpRequest); xhr.send.apply(xhr, this.sendArguments); return xhr; }; FakeRequest.prototype._passthroughCheck = function (method, args) { if (this._passthroughRequest) { return this._passthroughRequest[method].apply(this._passthroughRequest, args); } return FakeXMLHttpRequest.prototype[method].apply(this, args); }; FakeRequest.prototype.abort = function abort() { return this._passthroughCheck('abort', arguments); }; FakeRequest.prototype.getResponseHeader = function getResponseHeader() { return this._passthroughCheck('getResponseHeader', arguments); }; FakeRequest.prototype.getAllResponseHeaders = function getAllResponseHeaders() { return this._passthroughCheck('getAllResponseHeaders', arguments); }; if (ctx.pretender._nativeXMLHttpRequest.prototype._passthroughCheck) { // eslint-disable-next-line no-console console.warn('You created a second Pretender instance while there was already one running. ' + 'Running two Pretender servers at once will lead to unexpected results and will ' + 'be removed entirely in a future major version.' + 'Please call .shutdown() on your instances when you no longer need them to respond.'); } return FakeRequest; } var NoopArray = /** @class */ (function () { function NoopArray() { this.length = 0; } NoopArray.prototype.push = function () { var _items = []; for (var _i = 0; _i < arguments.length; _i++) { _items[_i] = arguments[_i]; } return 0; }; return NoopArray; }()); function scheduleProgressEvent(request, startTime, totalTime) { var totalSize = 0; var body = request.requestBody; if (body) { if (body instanceof FormData) { body.forEach(function (value) { if (value instanceof File) { totalSize += value.size; } else { totalSize += value.length; } }); } else { // Support Blob, BufferSource, USVString, ArrayBufferView totalSize = body.byteLength || body.size || body.length || 0; } } setTimeout(function () { if (!request.aborted && !request.status) { var elapsedTime = new Date().getTime() - startTime.getTime(); var progressTransmitted = totalTime <= 0 ? 0 : (elapsedTime / totalTime) * totalSize; // ProgressEvent expects loaded, total // https://xhr.spec.whatwg.org/#interface-progressevent request.upload._progress(true, progressTransmitted, totalSize); request._progress(true, progressTransmitted, totalSize); scheduleProgressEvent(request, startTime, totalTime); } else if (request.status) { // we're done, send a final progress event with loaded === total request.upload._progress(true, totalSize, totalSize); request._progress(true, totalSize, totalSize); } }, 50); } function isArray(array) { return Object.prototype.toString.call(array) === '[object Array]'; } var PASSTHROUGH = {}; function verbify(verb) { return function (path, handler, async) { return this.register(verb, path, handler, async); }; } var Pretender = /** @class */ (function () { function Pretender() { var _this = this; this.hosts = new Hosts(); this.handlers = []; this.get = verbify('GET'); this.post = verbify('POST'); this.put = verbify('PUT'); this.delete = verbify('DELETE'); this.patch = verbify('PATCH'); this.head = verbify('HEAD'); this.options = verbify('OPTIONS'); this.passthrough = PASSTHROUGH; var lastArg = arguments[arguments.length - 1]; var options = typeof lastArg === 'object' ? lastArg : null; var shouldNotTrack = options && options.trackRequests === false; this.handledRequests = shouldNotTrack ? new NoopArray() : []; this.passthroughRequests = shouldNotTrack ? new NoopArray() : []; this.unhandledRequests = shouldNotTrack ? new NoopArray() : []; this.requestReferences = []; this.forcePassthrough = options && options.forcePassthrough === true; this.disableUnhandled = options && options.disableUnhandled === true; // reference the native XMLHttpRequest object so // it can be restored later this._nativeXMLHttpRequest = self.XMLHttpRequest; this.running = false; var ctx = { pretender: this }; this.ctx = ctx; // capture xhr requests, channeling them into // the route map. self.XMLHttpRequest = interceptor(ctx); // polyfill fetch when xhr is ready this._fetchProps = FakeFetch ? ['fetch', 'Headers', 'Request', 'Response'] : []; this._fetchProps.forEach(function (name) { _this['_native' + name] = self[name]; self[name] = FakeFetch[name]; }, this); // 'start' the server this.running = true; // trigger the route map DSL. var argLength = options ? arguments.length - 1 : arguments.length; for (var i = 0; i < argLength; i++) { this.map(arguments[i]); } } Pretender.prototype.map = function (maps) { maps.call(this); }; Pretender.prototype.register = function (verb, url, handler, async) { if (!handler) { throw new Error('The function you tried passing to Pretender to handle ' + verb + ' ' + url + ' is undefined or missing.'); } var handlerInstance = handler; handlerInstance.numberOfCalls = 0; handlerInstance.async = async; this.handlers.push(handlerInstance); var registry = this.hosts.forURL(url)[verb]; registry.add([ { path: parseURL(url).fullpath, handler: handlerInstance, }, ]); return handlerInstance; }; Pretender.prototype.checkPassthrough = function (request) { var verb = request.method.toUpperCase(); var path = parseURL(request.url).fullpath; var recognized = this.hosts.forURL(request.url)[verb].recognize(path); var match = recognized && recognized[0]; if ((match && match.handler === PASSTHROUGH) || this.forcePassthrough) { this.passthroughRequests.push(request); this.passthroughRequest(verb, path, request); return true; } return false; }; Pretender.prototype.handleRequest = function (request) { var verb = request.method.toUpperCase(); var path = request.url; var handler = this._handlerFor(verb, path, request); if (handler) { handler.handler.numberOfCalls++; var async_1 = handler.handler.async; this.handledRequests.push(request); var pretender_1 = this; var _handleRequest_1 = function (statusHeadersAndBody) { if (!isArray(statusHeadersAndBody)) { var note = 'Remember to `return [status, headers, body];` in your route handler.'; throw new Error('Nothing returned by handler for ' + path + '. ' + note); } var status = statusHeadersAndBody[0]; var headers = pretender_1.prepareHeaders(statusHeadersAndBody[1]); var body = pretender_1.prepareBody(statusHeadersAndBody[2], headers); pretender_1.handleResponse(request, async_1, function () { request.respond(status, headers, body); pretender_1.handledRequest(verb, path, request); }); }; try { var result = handler.handler(request); if (result && typeof result.then === 'function') { // `result` is a promise, resolve it result.then(function (resolvedResult) { _handleRequest_1(resolvedResult); }); } else { _handleRequest_1(result); } } catch (error) { this.erroredRequest(verb, path, request, error); this.resolve(request); } } else { if (!this.disableUnhandled) { this.unhandledRequests.push(request); this.unhandledRequest(verb, path, request); } } }; Pretender.prototype.handleResponse = function (request, strategy, callback) { var delay = typeof strategy === 'function' ? strategy() : strategy; delay = typeof delay === 'boolean' || typeof delay === 'number' ? delay : 0; if (delay === false) { callback(); } else { var pretender_2 = this; pretender_2.requestReferences.push({ request: request, callback: callback, }); if (delay !== true) { scheduleProgressEvent(request, new Date(), delay); setTimeout(function () { pretender_2.resolve(request); }, delay); } } }; Pretender.prototype.resolve = function (request) { for (var i = 0, len = this.requestReferences.length; i < len; i++) { var res = this.requestReferences[i]; if (res.request === request) { res.callback(); this.requestReferences.splice(i, 1); break; } } }; Pretender.prototype.requiresManualResolution = function (verb, path) { var handler = this._handlerFor(verb.toUpperCase(), path, {}); if (!handler) { return false; } var async = handler.handler.async; return typeof async === 'function' ? async() === true : async === true; }; Pretender.prototype.prepareBody = function (body, _headers) { return body; }; Pretender.prototype.prepareHeaders = function (headers) { return headers; }; Pretender.prototype.handledRequest = function (_verb, _path, _request) { /* no-op */ }; Pretender.prototype.passthroughRequest = function (_verb, _path, _request) { /* no-op */ }; Pretender.prototype.unhandledRequest = function (verb, path, _request) { throw new Error('Pretender intercepted ' + verb + ' ' + path + ' but no handler was defined for this type of request'); }; Pretender.prototype.erroredRequest = function (verb, path, _request, error) { error.message = 'Pretender intercepted ' + verb + ' ' + path + ' but encountered an error: ' + error.message; throw error; }; Pretender.prototype.shutdown = function () { var _this = this; self.XMLHttpRequest = this._nativeXMLHttpRequest; this._fetchProps.forEach(function (name) { self[name] = _this['_native' + name]; }, this); this.ctx.pretender = undefined; // 'stop' the server this.running = false; }; Pretender.prototype._handlerFor = function (verb, url, request) { var registry = this.hosts.forURL(url)[verb]; var matches = registry.recognize(parseURL(url).fullpath); var match = matches ? matches[0] : null; if (match) { request.params = match.params; request.queryParams = matches.queryParams; } return match; }; Pretender.parseURL = parseURL; Pretender.Hosts = Hosts; Pretender.Registry = Registry; return Pretender; }()); Pretender.parseURL = parseURL; Pretender.Hosts = Hosts; Pretender.Registry = Registry; return Pretender; }(RouteRecognizer, FakeXMLHttpRequest)); if (typeof module === 'object') { module.exports = Pretender; } else if (typeof define !== 'undefined') { define('pretender', [], function() { return Pretender; }); } self.Pretender = Pretender; return Pretender; })(self);