// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license. /* eslint-disable @typescript-eslint/no-unused-vars, @typescript-eslint/no-explicit-any, no-var */ /// /// // This follows the WebIDL at: https://webassembly.github.io/spec/js-api/ // and: https://webassembly.github.io/spec/web-api/ declare namespace WebAssembly { interface WebAssemblyInstantiatedSource { module: Module; instance: Instance; } /** Compiles a `WebAssembly.Module` from WebAssembly binary code. This * function is useful if it is necessary to a compile a module before it can * be instantiated (otherwise, the `WebAssembly.instantiate()` function * should be used). */ function compile(bufferSource: BufferSource): Promise; /** Compiles a `WebAssembly.Module` directly from a streamed underlying * source. This function is useful if it is necessary to a compile a module * before it can be instantiated (otherwise, the * `WebAssembly.instantiateStreaming()` function should be used). */ function compileStreaming(source: Promise): Promise; /** Takes the WebAssembly binary code, in the form of a typed array or * `ArrayBuffer`, and performs both compilation and instantiation in one step. * The returned `Promise` resolves to both a compiled `WebAssembly.Module` and * its first `WebAssembly.Instance`. */ function instantiate( bufferSource: BufferSource, importObject?: object ): Promise; /** Takes an already-compiled `WebAssembly.Module` and returns a `Promise` * that resolves to an `Instance` of that `Module`. This overload is useful if * the `Module` has already been compiled. */ function instantiate( module: Module, importObject?: object ): Promise; /** Compiles and instantiates a WebAssembly module directly from a streamed * underlying source. This is the most efficient, optimized way to load wasm * code. */ function instantiateStreaming( source: Promise, importObject?: object ): Promise; /** Validates a given typed array of WebAssembly binary code, returning * whether the bytes form a valid wasm module (`true`) or not (`false`). */ function validate(bufferSource: BufferSource): boolean; type ImportExportKind = "function" | "table" | "memory" | "global"; interface ModuleExportDescriptor { name: string; kind: ImportExportKind; } interface ModuleImportDescriptor { module: string; name: string; kind: ImportExportKind; } class Module { constructor(bufferSource: BufferSource); /** Given a `Module` and string, returns a copy of the contents of all * custom sections in the module with the given string name. */ static customSections( moduleObject: Module, sectionName: string ): ArrayBuffer; /** Given a `Module`, returns an array containing descriptions of all the * declared exports. */ static exports(moduleObject: Module): ModuleExportDescriptor[]; /** Given a `Module`, returns an array containing descriptions of all the * declared imports. */ static imports(moduleObject: Module): ModuleImportDescriptor[]; } class Instance { constructor(module: Module, importObject?: object); /** An object containing as its members all the functions exported from the * WebAssembly module instance, to allow them to be accessed and used by * JavaScript. */ readonly exports: T; } interface MemoryDescriptor { initial: number; maximum?: number; } class Memory { constructor(descriptor: MemoryDescriptor); /** An accessor property that returns the buffer contained in the memory. */ readonly buffer: ArrayBuffer; /** Increases the size of the memory instance by a specified number of * WebAssembly pages (each one is 64KB in size). */ grow(delta: number): number; } type TableKind = "anyfunc"; interface TableDescriptor { element: TableKind; initial: number; maximum?: number; } class Table { constructor(descriptor: TableDescriptor); /** Returns the length of the table, i.e. the number of elements. */ readonly length: number; /** Accessor function — gets the element stored at a given index. */ get(index: number): (...args: any[]) => any; /** Increases the size of the Table instance by a specified number of * elements. */ grow(delta: number): number; /** Sets an element stored at a given index to a given value. */ set(index: number, value: (...args: any[]) => any): void; } type ValueType = "i32" | "i64" | "f32" | "f64"; interface GlobalDescriptor { value: ValueType; mutable?: boolean; } /** Represents a global variable instance, accessible from both JavaScript and * importable/exportable across one or more `WebAssembly.Module` instances. * This allows dynamic linking of multiple modules. */ class Global { constructor(descriptor: GlobalDescriptor, value?: any); /** Old-style method that returns the value contained inside the global * variable. */ valueOf(): any; /** The value contained inside the global variable — this can be used to * directly set and get the global's value. */ value: any; } /** Indicates an error during WebAssembly decoding or validation */ class CompileError extends Error { constructor(message: string, fileName?: string, lineNumber?: string); } /** Indicates an error during module instantiation (besides traps from the * start function). */ class LinkError extends Error { constructor(message: string, fileName?: string, lineNumber?: string); } /** Is thrown whenever WebAssembly specifies a trap. */ class RuntimeError extends Error { constructor(message: string, fileName?: string, lineNumber?: string); } } /** Sets a timer which executes a function once after the timer expires. Returns * an id which may be used to cancel the timeout. * * setTimeout(() => { console.log('hello'); }, 500); */ declare function setTimeout( /** callback function to execute when timer expires */ cb: (...args: any[]) => void, /** delay in ms */ delay?: number, /** arguments passed to callback function */ ...args: any[] ): number; /** Repeatedly calls a function , with a fixed time delay between each call. * * // Outputs 'hello' to the console every 500ms * setInterval(() => { console.log('hello'); }, 500); */ declare function setInterval( /** callback function to execute when timer expires */ cb: (...args: any[]) => void, /** delay in ms */ delay?: number, /** arguments passed to callback function */ ...args: any[] ): number; /** Cancels a timed, repeating action which was previously started by a call * to `setInterval()` * * const id = setInterval(()= > {console.log('hello');}, 500); * ... * clearInterval(id); */ declare function clearInterval(id?: number): void; /** Cancels a scheduled action initiated by `setTimeout()` * * const id = setTimeout(()= > {console.log('hello');}, 500); * ... * clearTimeout(id); */ declare function clearTimeout(id?: number): void; /** A microtask is a short function which is executed after the function or * module which created it exits and only if the JavaScript execution stack is * empty, but before returning control to the event loop being used to drive the * script's execution environment. This event loop may be either the main event * loop or the event loop driving a web worker. * * queueMicrotask(() => { console.log('This event loop stack is complete'); }); */ declare function queueMicrotask(func: Function): void; declare var console: Console; declare var crypto: Crypto; /** Registers an event listener in the global scope, which will be called * synchronously whenever the event `type` is dispatched. * * addEventListener('unload', () => { console.log('All finished!'); }); * ... * dispatchEvent(new Event('unload')); */ declare function addEventListener( type: string, callback: EventListenerOrEventListenerObject | null, options?: boolean | AddEventListenerOptions | undefined ): void; /** Dispatches an event in the global scope, synchronously invoking any * registered event listeners for this event in the appropriate order. Returns * false if event is cancelable and at least one of the event handlers which * handled this event called Event.preventDefault(). Otherwise it returns true. * * dispatchEvent(new Event('unload')); */ declare function dispatchEvent(event: Event): boolean; /** Remove a previously registered event listener from the global scope * * const lstnr = () => { console.log('hello'); }; * addEventListener('load', lstnr); * removeEventListener('load', lstnr); */ declare function removeEventListener( type: string, callback: EventListenerOrEventListenerObject | null, options?: boolean | EventListenerOptions | undefined ): void; declare interface ImportMeta { url: string; main: boolean; } interface DomIterable { keys(): IterableIterator; values(): IterableIterator; entries(): IterableIterator<[K, V]>; [Symbol.iterator](): IterableIterator<[K, V]>; forEach( callback: (value: V, key: K, parent: this) => void, thisArg?: any ): void; } interface ReadableStreamReadDoneResult { done: true; value?: T; } interface ReadableStreamReadValueResult { done: false; value: T; } type ReadableStreamReadResult = | ReadableStreamReadValueResult | ReadableStreamReadDoneResult; interface ReadableStreamDefaultReader { readonly closed: Promise; cancel(reason?: any): Promise; read(): Promise>; releaseLock(): void; } interface ReadableStreamReader { cancel(): Promise; read(): Promise>; releaseLock(): void; } interface ReadableByteStreamControllerCallback { (controller: ReadableByteStreamController): void | PromiseLike; } interface UnderlyingByteSource { autoAllocateChunkSize?: number; cancel?: ReadableStreamErrorCallback; pull?: ReadableByteStreamControllerCallback; start?: ReadableByteStreamControllerCallback; type: "bytes"; } interface UnderlyingSource { cancel?: ReadableStreamErrorCallback; pull?: ReadableStreamDefaultControllerCallback; start?: ReadableStreamDefaultControllerCallback; type?: undefined; } interface ReadableStreamErrorCallback { (reason: any): void | PromiseLike; } interface ReadableStreamDefaultControllerCallback { (controller: ReadableStreamDefaultController): void | PromiseLike; } interface ReadableStreamDefaultController { readonly desiredSize: number | null; close(): void; enqueue(chunk: R): void; error(error?: any): void; } interface ReadableByteStreamController { readonly byobRequest: undefined; readonly desiredSize: number | null; close(): void; enqueue(chunk: ArrayBufferView): void; error(error?: any): void; } interface PipeOptions { preventAbort?: boolean; preventCancel?: boolean; preventClose?: boolean; signal?: AbortSignal; } interface QueuingStrategySizeCallback { (chunk: T): number; } interface QueuingStrategy { highWaterMark?: number; size?: QueuingStrategySizeCallback; } /** This Streams API interface provides a built-in byte length queuing strategy * that can be used when constructing streams. */ declare class CountQueuingStrategy implements QueuingStrategy { constructor(options: { highWaterMark: number }); highWaterMark: number; size(chunk: any): 1; } declare class ByteLengthQueuingStrategy implements QueuingStrategy { constructor(options: { highWaterMark: number }); highWaterMark: number; size(chunk: ArrayBufferView): number; } /** This Streams API interface represents a readable stream of byte data. The * Fetch API offers a concrete instance of a ReadableStream through the body * property of a Response object. */ interface ReadableStream { readonly locked: boolean; cancel(reason?: any): Promise; getIterator(options?: { preventCancel?: boolean }): AsyncIterableIterator; // getReader(options: { mode: "byob" }): ReadableStreamBYOBReader; getReader(): ReadableStreamDefaultReader; pipeThrough( { writable, readable, }: { writable: WritableStream; readable: ReadableStream; }, options?: PipeOptions ): ReadableStream; pipeTo(dest: WritableStream, options?: PipeOptions): Promise; tee(): [ReadableStream, ReadableStream]; [Symbol.asyncIterator](options?: { preventCancel?: boolean; }): AsyncIterableIterator; } declare var ReadableStream: { prototype: ReadableStream; new ( underlyingSource: UnderlyingByteSource, strategy?: { highWaterMark?: number; size?: undefined } ): ReadableStream; new ( underlyingSource?: UnderlyingSource, strategy?: QueuingStrategy ): ReadableStream; }; interface WritableStreamDefaultControllerCloseCallback { (): void | PromiseLike; } interface WritableStreamDefaultControllerStartCallback { (controller: WritableStreamDefaultController): void | PromiseLike; } interface WritableStreamDefaultControllerWriteCallback { (chunk: W, controller: WritableStreamDefaultController): void | PromiseLike< void >; } interface WritableStreamErrorCallback { (reason: any): void | PromiseLike; } interface UnderlyingSink { abort?: WritableStreamErrorCallback; close?: WritableStreamDefaultControllerCloseCallback; start?: WritableStreamDefaultControllerStartCallback; type?: undefined; write?: WritableStreamDefaultControllerWriteCallback; } /** This Streams API interface provides a standard abstraction for writing * streaming data to a destination, known as a sink. This object comes with * built-in backpressure and queuing. */ declare class WritableStream { constructor( underlyingSink?: UnderlyingSink, strategy?: QueuingStrategy ); readonly locked: boolean; abort(reason?: any): Promise; close(): Promise; getWriter(): WritableStreamDefaultWriter; } /** This Streams API interface represents a controller allowing control of a * WritableStream's state. When constructing a WritableStream, the underlying * sink is given a corresponding WritableStreamDefaultController instance to * manipulate. */ interface WritableStreamDefaultController { error(error?: any): void; } /** This Streams API interface is the object returned by * WritableStream.getWriter() and once created locks the < writer to the * WritableStream ensuring that no other streams can write to the underlying * sink. */ interface WritableStreamDefaultWriter { readonly closed: Promise; readonly desiredSize: number | null; readonly ready: Promise; abort(reason?: any): Promise; close(): Promise; releaseLock(): void; write(chunk: W): Promise; } declare class TransformStream { constructor( transformer?: Transformer, writableStrategy?: QueuingStrategy, readableStrategy?: QueuingStrategy ); readonly readable: ReadableStream; readonly writable: WritableStream; } interface TransformStreamDefaultController { readonly desiredSize: number | null; enqueue(chunk: O): void; error(reason?: any): void; terminate(): void; } interface Transformer { flush?: TransformStreamDefaultControllerCallback; readableType?: undefined; start?: TransformStreamDefaultControllerCallback; transform?: TransformStreamDefaultControllerTransformCallback; writableType?: undefined; } interface TransformStreamDefaultControllerCallback { (controller: TransformStreamDefaultController): void | PromiseLike; } interface TransformStreamDefaultControllerTransformCallback { ( chunk: I, controller: TransformStreamDefaultController ): void | PromiseLike; } interface DOMStringList { /** Returns the number of strings in strings. */ readonly length: number; /** Returns true if strings contains string, and false otherwise. */ contains(string: string): boolean; /** Returns the string with index index from strings. */ item(index: number): string | null; [index: number]: string; } declare class DOMException extends Error { constructor(message?: string, name?: string); readonly name: string; readonly message: string; } type BufferSource = ArrayBufferView | ArrayBuffer; type BlobPart = BufferSource | Blob | string; interface BlobPropertyBag { type?: string; ending?: "transparent" | "native"; } /** A file-like object of immutable, raw data. Blobs represent data that isn't necessarily in a JavaScript-native format. The File interface is based on Blob, inheriting blob functionality and expanding it to support files on the user's system. */ interface Blob { readonly size: number; readonly type: string; arrayBuffer(): Promise; slice(start?: number, end?: number, contentType?: string): Blob; stream(): ReadableStream; text(): Promise; } declare const Blob: { prototype: Blob; new (blobParts?: BlobPart[], options?: BlobPropertyBag): Blob; }; interface FilePropertyBag extends BlobPropertyBag { lastModified?: number; } /** Provides information about files and allows JavaScript in a web page to * access their content. */ interface File extends Blob { readonly lastModified: number; readonly name: string; } declare const File: { prototype: File; new (fileBits: BlobPart[], fileName: string, options?: FilePropertyBag): File; }; declare const isConsoleInstance: unique symbol; declare class Console { indentLevel: number; [isConsoleInstance]: boolean; /** Writes the arguments to stdout */ log: (...args: unknown[]) => void; /** Writes the arguments to stdout */ debug: (...args: unknown[]) => void; /** Writes the arguments to stdout */ info: (...args: unknown[]) => void; /** Writes the properties of the supplied `obj` to stdout */ dir: ( obj: unknown, options?: Partial<{ depth: number; indentLevel: number; }> ) => void; /** From MDN: * Displays an interactive tree of the descendant elements of * the specified XML/HTML element. If it is not possible to display * as an element the JavaScript Object view is shown instead. * The output is presented as a hierarchical listing of expandable * nodes that let you see the contents of child nodes. * * Since we write to stdout, we can't display anything interactive * we just fall back to `console.dir`. */ dirxml: ( obj: unknown, options?: Partial<{ showHidden: boolean; depth: number; colors: boolean; indentLevel: number; }> ) => void; /** Writes the arguments to stdout */ warn: (...args: unknown[]) => void; /** Writes the arguments to stdout */ error: (...args: unknown[]) => void; /** Writes an error message to stdout if the assertion is `false`. If the * assertion is `true`, nothing happens. * * ref: https://console.spec.whatwg.org/#assert */ assert: (condition?: boolean, ...args: unknown[]) => void; count: (label?: string) => void; countReset: (label?: string) => void; table: (data: unknown, properties?: string[] | undefined) => void; time: (label?: string) => void; timeLog: (label?: string, ...args: unknown[]) => void; timeEnd: (label?: string) => void; group: (...label: unknown[]) => void; groupCollapsed: (...label: unknown[]) => void; groupEnd: () => void; clear: () => void; trace: (...args: unknown[]) => void; static [Symbol.hasInstance](instance: Console): boolean; } declare interface Crypto { readonly subtle: null; getRandomValues< T extends | Int8Array | Int16Array | Int32Array | Uint8Array | Uint16Array | Uint32Array | Uint8ClampedArray | Float32Array | Float64Array | DataView | null >( array: T ): T; } type FormDataEntryValue = File | string; /** Provides a way to easily construct a set of key/value pairs representing * form fields and their values, which can then be easily sent using the * XMLHttpRequest.send() method. It uses the same format a form would use if the * encoding type were set to "multipart/form-data". */ interface FormData extends DomIterable { append(name: string, value: string | Blob, fileName?: string): void; delete(name: string): void; get(name: string): FormDataEntryValue | null; getAll(name: string): FormDataEntryValue[]; has(name: string): boolean; set(name: string, value: string | Blob, fileName?: string): void; } declare const FormData: { prototype: FormData; // TODO(ry) FormData constructor is non-standard. // new(form?: HTMLFormElement): FormData; new (): FormData; }; interface Body { /** A simple getter used to expose a `ReadableStream` of the body contents. */ readonly body: ReadableStream | null; /** Stores a `Boolean` that declares whether the body has been used in a * response yet. */ readonly bodyUsed: boolean; /** Takes a `Response` stream and reads it to completion. It returns a promise * that resolves with an `ArrayBuffer`. */ arrayBuffer(): Promise; /** Takes a `Response` stream and reads it to completion. It returns a promise * that resolves with a `Blob`. */ blob(): Promise; /** Takes a `Response` stream and reads it to completion. It returns a promise * that resolves with a `FormData` object. */ formData(): Promise; /** Takes a `Response` stream and reads it to completion. It returns a promise * that resolves with the result of parsing the body text as JSON. */ json(): Promise; /** Takes a `Response` stream and reads it to completion. It returns a promise * that resolves with a `USVString` (text). */ text(): Promise; } type HeadersInit = Headers | string[][] | Record; /** This Fetch API interface allows you to perform various actions on HTTP * request and response headers. These actions include retrieving, setting, * adding to, and removing. A Headers object has an associated header list, * which is initially empty and consists of zero or more name and value pairs. *  You can add to this using methods like append() (see Examples.) In all * methods of this interface, header names are matched by case-insensitive byte * sequence. */ interface Headers { append(name: string, value: string): void; delete(name: string): void; get(name: string): string | null; has(name: string): boolean; set(name: string, value: string): void; forEach( callbackfn: (value: string, key: string, parent: Headers) => void, thisArg?: any ): void; } interface Headers extends DomIterable { /** Appends a new value onto an existing header inside a `Headers` object, or * adds the header if it does not already exist. */ append(name: string, value: string): void; /** Deletes a header from a `Headers` object. */ delete(name: string): void; /** Returns an iterator allowing to go through all key/value pairs * contained in this Headers object. The both the key and value of each pairs * are ByteString objects. */ entries(): IterableIterator<[string, string]>; /** Returns a `ByteString` sequence of all the values of a header within a * `Headers` object with a given name. */ get(name: string): string | null; /** Returns a boolean stating whether a `Headers` object contains a certain * header. */ has(name: string): boolean; /** Returns an iterator allowing to go through all keys contained in * this Headers object. The keys are ByteString objects. */ keys(): IterableIterator; /** Sets a new value for an existing header inside a Headers object, or adds * the header if it does not already exist. */ set(name: string, value: string): void; /** Returns an iterator allowing to go through all values contained in * this Headers object. The values are ByteString objects. */ values(): IterableIterator; forEach( callbackfn: (value: string, key: string, parent: this) => void, thisArg?: any ): void; /** The Symbol.iterator well-known symbol specifies the default * iterator for this Headers object */ [Symbol.iterator](): IterableIterator<[string, string]>; } declare const Headers: { prototype: Headers; new (init?: HeadersInit): Headers; }; type RequestInfo = Request | string; type RequestCache = | "default" | "force-cache" | "no-cache" | "no-store" | "only-if-cached" | "reload"; type RequestCredentials = "include" | "omit" | "same-origin"; type RequestMode = "cors" | "navigate" | "no-cors" | "same-origin"; type RequestRedirect = "error" | "follow" | "manual"; type ReferrerPolicy = | "" | "no-referrer" | "no-referrer-when-downgrade" | "origin" | "origin-when-cross-origin" | "same-origin" | "strict-origin" | "strict-origin-when-cross-origin" | "unsafe-url"; type BodyInit = | Blob | BufferSource | FormData | URLSearchParams | ReadableStream | string; type RequestDestination = | "" | "audio" | "audioworklet" | "document" | "embed" | "font" | "image" | "manifest" | "object" | "paintworklet" | "report" | "script" | "sharedworker" | "style" | "track" | "video" | "worker" | "xslt"; interface RequestInit { /** * A BodyInit object or null to set request's body. */ body?: BodyInit | null; /** * A string indicating how the request will interact with the browser's cache * to set request's cache. */ cache?: RequestCache; /** * A string indicating whether credentials will be sent with the request * always, never, or only when sent to a same-origin URL. Sets request's * credentials. */ credentials?: RequestCredentials; /** * A Headers object, an object literal, or an array of two-item arrays to set * request's headers. */ headers?: HeadersInit; /** * A cryptographic hash of the resource to be fetched by request. Sets * request's integrity. */ integrity?: string; /** * A boolean to set request's keepalive. */ keepalive?: boolean; /** * A string to set request's method. */ method?: string; /** * A string to indicate whether the request will use CORS, or will be * restricted to same-origin URLs. Sets request's mode. */ mode?: RequestMode; /** * A string indicating whether request follows redirects, results in an error * upon encountering a redirect, or returns the redirect (in an opaque * fashion). Sets request's redirect. */ redirect?: RequestRedirect; /** * A string whose value is a same-origin URL, "about:client", or the empty * string, to set request's referrer. */ referrer?: string; /** * A referrer policy to set request's referrerPolicy. */ referrerPolicy?: ReferrerPolicy; /** * An AbortSignal to set request's signal. */ signal?: AbortSignal | null; /** * Can only be null. Used to disassociate request from any Window. */ window?: any; } /** This Fetch API interface represents a resource request. */ interface Request extends Body { /** * Returns the cache mode associated with request, which is a string * indicating how the request will interact with the browser's cache when * fetching. */ readonly cache: RequestCache; /** * Returns the credentials mode associated with request, which is a string * indicating whether credentials will be sent with the request always, never, * or only when sent to a same-origin URL. */ readonly credentials: RequestCredentials; /** * Returns the kind of resource requested by request, e.g., "document" or "script". */ readonly destination: RequestDestination; /** * Returns a Headers object consisting of the headers associated with request. * Note that headers added in the network layer by the user agent will not be * accounted for in this object, e.g., the "Host" header. */ readonly headers: Headers; /** * Returns request's subresource integrity metadata, which is a cryptographic * hash of the resource being fetched. Its value consists of multiple hashes * separated by whitespace. [SRI] */ readonly integrity: string; /** * Returns a boolean indicating whether or not request is for a history * navigation (a.k.a. back-forward navigation). */ readonly isHistoryNavigation: boolean; /** * Returns a boolean indicating whether or not request is for a reload * navigation. */ readonly isReloadNavigation: boolean; /** * Returns a boolean indicating whether or not request can outlive the global * in which it was created. */ readonly keepalive: boolean; /** * Returns request's HTTP method, which is "GET" by default. */ readonly method: string; /** * Returns the mode associated with request, which is a string indicating * whether the request will use CORS, or will be restricted to same-origin * URLs. */ readonly mode: RequestMode; /** * Returns the redirect mode associated with request, which is a string * indicating how redirects for the request will be handled during fetching. A * request will follow redirects by default. */ readonly redirect: RequestRedirect; /** * Returns the referrer of request. Its value can be a same-origin URL if * explicitly set in init, the empty string to indicate no referrer, and * "about:client" when defaulting to the global's default. This is used during * fetching to determine the value of the `Referer` header of the request * being made. */ readonly referrer: string; /** * Returns the referrer policy associated with request. This is used during * fetching to compute the value of the request's referrer. */ readonly referrerPolicy: ReferrerPolicy; /** * Returns the signal associated with request, which is an AbortSignal object * indicating whether or not request has been aborted, and its abort event * handler. */ readonly signal: AbortSignal; /** * Returns the URL of request as a string. */ readonly url: string; clone(): Request; } declare const Request: { prototype: Request; new (input: RequestInfo, init?: RequestInit): Request; }; interface ResponseInit { headers?: HeadersInit; status?: number; statusText?: string; } type ResponseType = | "basic" | "cors" | "default" | "error" | "opaque" | "opaqueredirect"; /** This Fetch API interface represents the response to a request. */ interface Response extends Body { readonly headers: Headers; readonly ok: boolean; readonly redirected: boolean; readonly status: number; readonly statusText: string; readonly trailer: Promise; readonly type: ResponseType; readonly url: string; clone(): Response; } declare const Response: { prototype: Response; new (body?: BodyInit | null, init?: ResponseInit): Response; error(): Response; redirect(url: string, status?: number): Response; }; /** Fetch a resource from the network. It returns a Promise that resolves to the * Response to that request, whether it is successful or not. * * const response = await fetch("http://my.json.host/data.json"); * console.log(response.status); // e.g. 200 * console.log(response.statusText); // e.g. "OK" * const jsonData = await response.json(); */ declare function fetch( input: Request | URL | string, init?: RequestInit ): Promise; /** Decodes a string of data which has been encoded using base-64 encoding. * * console.log(atob("aGVsbG8gd29ybGQ=")); // outputs 'hello world' */ declare function atob(s: string): string; /** Creates a base-64 ASCII encoded string from the input string. * * console.log(btoa("hello world")); // outputs "aGVsbG8gd29ybGQ=" */ declare function btoa(s: string): string; declare class TextDecoder { /** Returns encoding's name, lowercased. */ readonly encoding: string; /** Returns `true` if error mode is "fatal", and `false` otherwise. */ readonly fatal: boolean; /** Returns `true` if ignore BOM flag is set, and `false` otherwise. */ readonly ignoreBOM = false; constructor( label?: string, options?: { fatal?: boolean; ignoreBOM?: boolean } ); /** Returns the result of running encoding's decoder. */ decode(input?: BufferSource, options?: { stream?: false }): string; readonly [Symbol.toStringTag]: string; } declare class TextEncoder { /** Returns "utf-8". */ readonly encoding = "utf-8"; /** Returns the result of running UTF-8's encoder. */ encode(input?: string): Uint8Array; encodeInto( input: string, dest: Uint8Array ): { read: number; written: number }; readonly [Symbol.toStringTag]: string; } interface URLSearchParams { /** Appends a specified key/value pair as a new search parameter. * * ```ts * let searchParams = new URLSearchParams(); * searchParams.append('name', 'first'); * searchParams.append('name', 'second'); * ``` */ append(name: string, value: string): void; /** Deletes the given search parameter and its associated value, * from the list of all search parameters. * * ```ts * let searchParams = new URLSearchParams([['name', 'value']]); * searchParams.delete('name'); * ``` */ delete(name: string): void; /** Returns all the values associated with a given search parameter * as an array. * * ```ts * searchParams.getAll('name'); * ``` */ getAll(name: string): string[]; /** Returns the first value associated to the given search parameter. * * ```ts * searchParams.get('name'); * ``` */ get(name: string): string | null; /** Returns a Boolean that indicates whether a parameter with the * specified name exists. * * ```ts * searchParams.has('name'); * ``` */ has(name: string): boolean; /** Sets the value associated with a given search parameter to the * given value. If there were several matching values, this method * deletes the others. If the search parameter doesn't exist, this * method creates it. * * ```ts * searchParams.set('name', 'value'); * ``` */ set(name: string, value: string): void; /** Sort all key/value pairs contained in this object in place and * return undefined. The sort order is according to Unicode code * points of the keys. * * ```ts * searchParams.sort(); * ``` */ sort(): void; /** Calls a function for each element contained in this object in * place and return undefined. Optionally accepts an object to use * as this when executing callback as second argument. * * ```ts * const params = new URLSearchParams([["a", "b"], ["c", "d"]]); * params.forEach((value, key, parent) => { * console.log(value, key, parent); * }); * ``` * */ forEach( callbackfn: (value: string, key: string, parent: this) => void, thisArg?: any ): void; /** Returns an iterator allowing to go through all keys contained * in this object. * * ```ts * const params = new URLSearchParams([["a", "b"], ["c", "d"]]); * for (const key of params.keys()) { * console.log(key); * } * ``` */ keys(): IterableIterator; /** Returns an iterator allowing to go through all values contained * in this object. * * ```ts * const params = new URLSearchParams([["a", "b"], ["c", "d"]]); * for (const value of params.values()) { * console.log(value); * } * ``` */ values(): IterableIterator; /** Returns an iterator allowing to go through all key/value * pairs contained in this object. * * ```ts * const params = new URLSearchParams([["a", "b"], ["c", "d"]]); * for (const [key, value] of params.entries()) { * console.log(key, value); * } * ``` */ entries(): IterableIterator<[string, string]>; /** Returns an iterator allowing to go through all key/value * pairs contained in this object. * * ```ts * const params = new URLSearchParams([["a", "b"], ["c", "d"]]); * for (const [key, value] of params) { * console.log(key, value); * } * ``` */ [Symbol.iterator](): IterableIterator<[string, string]>; /** Returns a query string suitable for use in a URL. * * ```ts * searchParams.toString(); * ``` */ toString(): string; } declare const URLSearchParams: { prototype: URLSearchParams; new ( init?: string[][] | Record | string | URLSearchParams ): URLSearchParams; toString(): string; }; /** The URL interface represents an object providing static methods used for creating object URLs. */ interface URL { hash: string; host: string; hostname: string; href: string; toString(): string; readonly origin: string; password: string; pathname: string; port: string; protocol: string; search: string; readonly searchParams: URLSearchParams; username: string; toJSON(): string; } declare const URL: { prototype: URL; new (url: string | URL, base?: string | URL): URL; createObjectURL(object: any): string; revokeObjectURL(url: string): void; }; interface MessageEventInit extends EventInit { data?: any; origin?: string; lastEventId?: string; } declare class MessageEvent extends Event { readonly data: any; readonly origin: string; readonly lastEventId: string; constructor(type: string, eventInitDict?: MessageEventInit); } interface ErrorEventInit extends EventInit { message?: string; filename?: string; lineno?: number; colno?: number; error?: any; } declare class ErrorEvent extends Event { readonly message: string; readonly filename: string; readonly lineno: number; readonly colno: number; readonly error: any; constructor(type: string, eventInitDict?: ErrorEventInit); } interface PostMessageOptions { transfer?: any[]; } declare class Worker extends EventTarget { onerror?: (e: ErrorEvent) => void; onmessage?: (e: MessageEvent) => void; onmessageerror?: (e: MessageEvent) => void; constructor( specifier: string, options?: { type?: "classic" | "module"; name?: string; /** UNSTABLE: New API. Expect many changes; most likely this * field will be made into an object for more granular * configuration of worker thread (permissions, import map, etc.). * * Set to `true` to make `Deno` namespace and all of its methods * available to worker thread. * * Currently worker inherits permissions from main thread (permissions * given using `--allow-*` flags). * Configurable permissions are on the roadmap to be implemented. * * Example: * * ```ts * // mod.ts * const worker = new Worker( * new URL("deno_worker.ts", import.meta.url).href, * { type: "module", deno: true } * ); * worker.postMessage({ cmd: "readFile", fileName: "./log.txt" }); * * // deno_worker.ts * * * self.onmessage = async function (e) { * const { cmd, fileName } = e.data; * if (cmd !== "readFile") { * throw new Error("Invalid command"); * } * const buf = await Deno.readFile(fileName); * const fileContents = new TextDecoder().decode(buf); * console.log(fileContents); * } * ``` * * // log.txt * hello world * hello world 2 * * // run program * $ deno run --allow-read mod.ts * hello world * hello world2 * */ deno?: boolean; } ); postMessage(message: any, transfer: ArrayBuffer[]): void; postMessage(message: any, options?: PostMessageOptions): void; terminate(): void; } declare namespace performance { /** Returns a current time from Deno's start in milliseconds. * * Use the permission flag `--allow-hrtime` return a precise value. * * ```ts * const t = performance.now(); * console.log(`${t} ms since start!`); * ``` */ export function now(): number; } interface EventInit { bubbles?: boolean; cancelable?: boolean; composed?: boolean; } /** An event which takes place in the DOM. */ declare class Event { constructor(type: string, eventInitDict?: EventInit); /** Returns true or false depending on how event was initialized. True if * event goes through its target's ancestors in reverse tree order, and * false otherwise. */ readonly bubbles: boolean; cancelBubble: boolean; /** Returns true or false depending on how event was initialized. Its return * value does not always carry meaning, but true can indicate that part of the * operation during which event was dispatched, can be canceled by invoking * the preventDefault() method. */ readonly cancelable: boolean; /** Returns true or false depending on how event was initialized. True if * event invokes listeners past a ShadowRoot node that is the root of its * target, and false otherwise. */ readonly composed: boolean; /** Returns the object whose event listener's callback is currently being * invoked. */ readonly currentTarget: EventTarget | null; /** Returns true if preventDefault() was invoked successfully to indicate * cancellation, and false otherwise. */ readonly defaultPrevented: boolean; /** Returns the event's phase, which is one of NONE, CAPTURING_PHASE, * AT_TARGET, and BUBBLING_PHASE. */ readonly eventPhase: number; /** Returns true if event was dispatched by the user agent, and false * otherwise. */ readonly isTrusted: boolean; /** Returns the object to which event is dispatched (its target). */ readonly target: EventTarget | null; /** Returns the event's timestamp as the number of milliseconds measured * relative to the time origin. */ readonly timeStamp: number; /** Returns the type of event, e.g. "click", "hashchange", or "submit". */ readonly type: string; /** Returns the invocation target objects of event's path (objects on which * listeners will be invoked), except for any nodes in shadow trees of which * the shadow root's mode is "closed" that are not reachable from event's * currentTarget. */ composedPath(): EventTarget[]; /** If invoked when the cancelable attribute value is true, and while * executing a listener for the event with passive set to false, signals to * the operation that caused event to be dispatched that it needs to be * canceled. */ preventDefault(): void; /** Invoking this method prevents event from reaching any registered event * listeners after the current one finishes running and, when dispatched in a * tree, also prevents event from reaching any other objects. */ stopImmediatePropagation(): void; /** When dispatched in a tree, invoking this method prevents event from * reaching any objects other than the current object. */ stopPropagation(): void; readonly AT_TARGET: number; readonly BUBBLING_PHASE: number; readonly CAPTURING_PHASE: number; readonly NONE: number; static readonly AT_TARGET: number; static readonly BUBBLING_PHASE: number; static readonly CAPTURING_PHASE: number; static readonly NONE: number; } /** * EventTarget is a DOM interface implemented by objects that can receive events * and may have listeners for them. */ declare class EventTarget { /** Appends an event listener for events whose type attribute value is type. * The callback argument sets the callback that will be invoked when the event * is dispatched. * * The options argument sets listener-specific options. For compatibility this * can be a boolean, in which case the method behaves exactly as if the value * was specified as options's capture. * * When set to true, options's capture prevents callback from being invoked * when the event's eventPhase attribute value is BUBBLING_PHASE. When false * (or not present), callback will not be invoked when event's eventPhase * attribute value is CAPTURING_PHASE. Either way, callback will be invoked if * event's eventPhase attribute value is AT_TARGET. * * When set to true, options's passive indicates that the callback will not * cancel the event by invoking preventDefault(). This is used to enable * performance optimizations described in § 2.8 Observing event listeners. * * When set to true, options's once indicates that the callback will only be * invoked once after which the event listener will be removed. * * The event listener is appended to target's event listener list and is not * appended if it has the same type, callback, and capture. */ addEventListener( type: string, listener: EventListenerOrEventListenerObject | null, options?: boolean | AddEventListenerOptions ): void; /** Dispatches a synthetic event event to target and returns true if either * event's cancelable attribute value is false or its preventDefault() method * was not invoked, and false otherwise. */ dispatchEvent(event: Event): boolean; /** Removes the event listener in target's event listener list with the same * type, callback, and options. */ removeEventListener( type: string, callback: EventListenerOrEventListenerObject | null, options?: EventListenerOptions | boolean ): void; [Symbol.toStringTag]: string; } interface EventListener { (evt: Event): void | Promise; } interface EventListenerObject { handleEvent(evt: Event): void | Promise; } declare type EventListenerOrEventListenerObject = | EventListener | EventListenerObject; interface AddEventListenerOptions extends EventListenerOptions { once?: boolean; passive?: boolean; } interface EventListenerOptions { capture?: boolean; } /** Events measuring progress of an underlying process, like an HTTP request * (for an XMLHttpRequest, or the loading of the underlying resource of an * ,