Commit 66bb6a58 authored by Spark's avatar Spark Committed by KangMin An
Browse files

typescript client

parent 0d025f8d
// Expose `JSX` namespace in `global` namespace
import './';
/**
* These are types for things that are present in the upcoming React 18 release.
*
* Once React 18 is released they can just be moved to the main index file.
*
* To load the types declared here in an actual project, there are three ways. The easiest one,
* if your `tsconfig.json` already has a `"types"` array in the `"compilerOptions"` section,
* is to add `"react/next"` to the `"types"` array.
*
* Alternatively, a specific import syntax can to be used from a typescript file.
* This module does not exist in reality, which is why the {} is important:
*
* ```ts
* import {} from 'react/next'
* ```
*
* It is also possible to include it through a triple-slash reference:
*
* ```ts
* /// <reference types="react/next" />
* ```
*
* Either the import or the reference only needs to appear once, anywhere in the project.
*/
// See https://github.com/facebook/react/blob/master/packages/react/src/React.js to see how the exports are declared,
import React = require('.');
export {};
declare const UNDEFINED_VOID_ONLY: unique symbol;
type VoidOrUndefinedOnly = void | { [UNDEFINED_VOID_ONLY]: never };
declare module '.' {
export interface SuspenseProps {
/**
* The presence of this prop indicates that the content is computationally expensive to render.
* In other words, the tree is CPU bound and not I/O bound (e.g. due to fetching data).
* @see {@link https://github.com/facebook/react/pull/19936}
*/
unstable_expectedLoadTime?: number;
}
export type SuspenseListRevealOrder = 'forwards' | 'backwards' | 'together';
export type SuspenseListTailMode = 'collapsed' | 'hidden';
export interface SuspenseListCommonProps {
/**
* Note that SuspenseList require more than one child;
* it is a runtime warning to provide only a single child.
*
* It does, however, allow those children to be wrapped inside a single
* level of `<React.Fragment>`.
*/
children: ReactElement | Iterable<ReactElement>;
}
interface DirectionalSuspenseListProps extends SuspenseListCommonProps {
/**
* Defines the order in which the `SuspenseList` children should be revealed.
*/
revealOrder: 'forwards' | 'backwards';
/**
* Dictates how unloaded items in a SuspenseList is shown.
*
* - By default, `SuspenseList` will show all fallbacks in the list.
* - `collapsed` shows only the next fallback in the list.
* - `hidden` doesn’t show any unloaded items.
*/
tail?: SuspenseListTailMode;
}
interface NonDirectionalSuspenseListProps extends SuspenseListCommonProps {
/**
* Defines the order in which the `SuspenseList` children should be revealed.
*/
revealOrder?: Exclude<SuspenseListRevealOrder, DirectionalSuspenseListProps['revealOrder']>;
/**
* The tail property is invalid when not using the `forwards` or `backwards` reveal orders.
*/
tail?: never;
}
export type SuspenseListProps = DirectionalSuspenseListProps | NonDirectionalSuspenseListProps;
/**
* `SuspenseList` helps coordinate many components that can suspend by orchestrating the order
* in which these components are revealed to the user.
*
* When multiple components need to fetch data, this data may arrive in an unpredictable order.
* However, if you wrap these items in a `SuspenseList`, React will not show an item in the list
* until previous items have been displayed (this behavior is adjustable).
*
* @see https://reactjs.org/docs/concurrent-mode-reference.html#suspenselist
* @see https://reactjs.org/docs/concurrent-mode-patterns.html#suspenselist
*/
export const SuspenseList: ExoticComponent<SuspenseListProps>;
// must be synchronous
export type TransitionFunction = () => VoidOrUndefinedOnly;
// strange definition to allow vscode to show documentation on the invocation
export interface TransitionStartFunction {
/**
* State updates caused inside the callback are allowed to be deferred.
*
* **If some state update causes a component to suspend, that state update should be wrapped in a transition.**
*
* @param callback A _synchronous_ function which causes state updates that can be deferred.
*/
(callback: TransitionFunction): void;
}
/**
* Returns a deferred version of the value that may “lag behind” it for at most `timeoutMs`.
*
* This is commonly used to keep the interface responsive when you have something that renders immediately
* based on user input and something that needs to wait for a data fetch.
*
* A good example of this is a text input.
*
* @param value The value that is going to be deferred
*
* @see https://reactjs.org/docs/concurrent-mode-reference.html#usedeferredvalue
*/
export function useDeferredValue<T>(value: T): T;
/**
* Allows components to avoid undesirable loading states by waiting for content to load
* before transitioning to the next screen. It also allows components to defer slower,
* data fetching updates until subsequent renders so that more crucial updates can be
* rendered immediately.
*
* The `useTransition` hook returns two values in an array.
*
* The first is boolean, React’s way of informing us whether we’re waiting for the transition to finish.
* The seconda is a function that takes a callback. We can use it to tell React which state we want to defer.
*
* **If some state update causes a component to suspend, that state update should be wrapped in a transition.**
*
* @param config An optional object with `timeoutMs`
*
* @see https://reactjs.org/docs/concurrent-mode-reference.html#usetransition
*/
export function useTransition(): [boolean, TransitionStartFunction];
/**
* Similar to `useTransition` but allows uses where hooks are not available.
*
* @param callback A _synchronous_ function which causes state updates that can be deferred.
*/
export function startTransition(scope: TransitionFunction): void;
const opaqueIdentifierBranding: unique symbol;
/**
* WARNING: Don't use this as a `string`.
*
* This is an opaque type that is not supposed to type-check structurally.
* It is only valid if returned from React methods and passed to React e.g. `<button aria-labelledby={opaqueIdentifier} />`
*/
// We can't create a type that would be rejected for string concatenation or `.toString()` calls.
// So in order to not have to add `string | OpaqueIdentifier` to every react-dom host prop we intersect it with `string`.
type OpaqueIdentifier = string & {
readonly [opaqueIdentifierBranding]: unknown;
// While this would cause `const stringified: string = opaqueIdentifier.toString()` to not type-check it also adds completions while typing.
// It would also still allow string concatenation.
// Unsure which is better. Not type-checking or not suggesting.
// toString(): void;
};
export function unstable_useOpaqueIdentifier(): OpaqueIdentifier;
/**
* this should be an internal type
*/
interface MutableSource<T> {
_source: T;
}
export type MutableSourceSubscribe<T> = (source: T, callback: () => void) => () => void;
/**
* @param source A source could be anything as long as they can be subscribed to and have a "version".
* @param getVersion A function returns a value which will change whenever part of the source changes.
*/
export function unstable_createMutableSource<T>(source: T, getVersion: () => any): MutableSource<T>;
/**
* useMutableSource() enables React components to safely and efficiently read from a mutable external source in Concurrent Mode.
* The API will detect mutations that occur during a render to avoid tearing
* and it will automatically schedule updates when the source is mutated.
* @param MutableSource
* @param getSnapshot
* @param subscribe
*
* @see https://github.com/reactjs/rfcs/blob/master/text/0147-use-mutable-source.md
*/
export function unstable_useMutableSource<T, TResult extends unknown>(MutableSource: MutableSource<T>, getSnapshot: (source: T) => TResult, subscribe: MutableSourceSubscribe<T>): TResult;
}
{
"name": "@types/react",
"version": "17.0.11",
"description": "TypeScript definitions for React",
"homepage": "https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/react",
"license": "MIT",
"contributors": [
{
"name": "Asana",
"url": "https://asana.com"
},
{
"name": "AssureSign",
"url": "http://www.assuresign.com"
},
{
"name": "Microsoft",
"url": "https://microsoft.com"
},
{
"name": "John Reilly",
"url": "https://github.com/johnnyreilly",
"githubUsername": "johnnyreilly"
},
{
"name": "Benoit Benezech",
"url": "https://github.com/bbenezech",
"githubUsername": "bbenezech"
},
{
"name": "Patricio Zavolinsky",
"url": "https://github.com/pzavolinsky",
"githubUsername": "pzavolinsky"
},
{
"name": "Digiguru",
"url": "https://github.com/digiguru",
"githubUsername": "digiguru"
},
{
"name": "Eric Anderson",
"url": "https://github.com/ericanderson",
"githubUsername": "ericanderson"
},
{
"name": "Dovydas Navickas",
"url": "https://github.com/DovydasNavickas",
"githubUsername": "DovydasNavickas"
},
{
"name": "Josh Rutherford",
"url": "https://github.com/theruther4d",
"githubUsername": "theruther4d"
},
{
"name": "Guilherme Hübner",
"url": "https://github.com/guilhermehubner",
"githubUsername": "guilhermehubner"
},
{
"name": "Ferdy Budhidharma",
"url": "https://github.com/ferdaber",
"githubUsername": "ferdaber"
},
{
"name": "Johann Rakotoharisoa",
"url": "https://github.com/jrakotoharisoa",
"githubUsername": "jrakotoharisoa"
},
{
"name": "Olivier Pascal",
"url": "https://github.com/pascaloliv",
"githubUsername": "pascaloliv"
},
{
"name": "Martin Hochel",
"url": "https://github.com/hotell",
"githubUsername": "hotell"
},
{
"name": "Frank Li",
"url": "https://github.com/franklixuefei",
"githubUsername": "franklixuefei"
},
{
"name": "Jessica Franco",
"url": "https://github.com/Jessidhia",
"githubUsername": "Jessidhia"
},
{
"name": "Saransh Kataria",
"url": "https://github.com/saranshkataria",
"githubUsername": "saranshkataria"
},
{
"name": "Kanitkorn Sujautra",
"url": "https://github.com/lukyth",
"githubUsername": "lukyth"
},
{
"name": "Sebastian Silbermann",
"url": "https://github.com/eps1lon",
"githubUsername": "eps1lon"
},
{
"name": "Kyle Scully",
"url": "https://github.com/zieka",
"githubUsername": "zieka"
},
{
"name": "Cong Zhang",
"url": "https://github.com/dancerphil",
"githubUsername": "dancerphil"
},
{
"name": "Dimitri Mitropoulos",
"url": "https://github.com/dimitropoulos",
"githubUsername": "dimitropoulos"
},
{
"name": "JongChan Choi",
"url": "https://github.com/disjukr",
"githubUsername": "disjukr"
},
{
"name": "Victor Magalhães",
"url": "https://github.com/vhfmag",
"githubUsername": "vhfmag"
},
{
"name": "Dale Tan",
"url": "https://github.com/hellatan",
"githubUsername": "hellatan"
},
{
"name": "Priyanshu Rav",
"url": "https://github.com/priyanshurav",
"githubUsername": "priyanshurav"
}
],
"main": "",
"types": "index.d.ts",
"repository": {
"type": "git",
"url": "https://github.com/DefinitelyTyped/DefinitelyTyped.git",
"directory": "types/react"
},
"scripts": {},
"dependencies": {
"@types/prop-types": "*",
"@types/scheduler": "*",
"csstype": "^3.0.2"
},
"typesPublisherContentHash": "c77392134576d6e26ea1cf5757ae9bb18e415173effa960387c647125921ac6b",
"typeScriptVersion": "3.6"
}
\ No newline at end of file
MIT License
Copyright (c) Microsoft Corporation. All rights reserved.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE
# Installation
> `npm install --save @types/scheduler`
# Summary
This package contains type definitions for scheduler (https://reactjs.org/).
# Details
Files were exported from https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/scheduler
Additional Details
* Last updated: Tue, 15 Oct 2019 18:43:08 GMT
* Dependencies: none
* Global values: none
# Credits
These definitions were written by Nathan Bierema <https://github.com/Methuselah96>, and Sebastian Silbermann <https://github.com/eps1lon>.
// Type definitions for scheduler 0.16
// Project: https://reactjs.org/
// Definitions by: Nathan Bierema <https://github.com/Methuselah96>
// Sebastian Silbermann <https://github.com/eps1lon>
// Definitions: https://github.com/DefinitelyTyped/DefinitelyTyped
// TypeScript Version: 2.8
export type FrameCallbackType = () => FrameCallbackType | void;
export interface CallbackNode {
callback: FrameCallbackType;
priorityLevel: number;
expirationTime: number;
next: CallbackNode | null;
prev: CallbackNode | null;
}
export const unstable_ImmediatePriority = 1;
export const unstable_UserBlockingPriority = 2;
export const unstable_NormalPriority = 3;
export const unstable_IdlePriority = 5;
export const unstable_LowPriority = 4;
export function unstable_runWithPriority<T>(priorityLevel: number, eventHandler: () => T): T;
export function unstable_scheduleCallback(priorityLevel: number, callback: FrameCallbackType, options?: { delay?: number, timeout?: number}): CallbackNode;
export function unstable_next<T>(eventHandler: () => T): T;
export function unstable_cancelCallback(callbackNode: CallbackNode): void;
export function unstable_wrapCallback(callback: FrameCallbackType): () => FrameCallbackType;
export function unstable_getCurrentPriorityLevel(): number;
export function unstable_shouldYield(): boolean;
export function unstable_continueExecution(): void;
export function unstable_pauseExecution(): void;
export function unstable_getFirstCallbackNode(): CallbackNode | null;
export function unstable_now(): number;
{
"name": "@types/scheduler",
"version": "0.16.1",
"description": "TypeScript definitions for scheduler",
"license": "MIT",
"contributors": [
{
"name": "Nathan Bierema",
"url": "https://github.com/Methuselah96",
"githubUsername": "Methuselah96"
},
{
"name": "Sebastian Silbermann",
"url": "https://github.com/eps1lon",
"githubUsername": "eps1lon"
}
],
"main": "",
"types": "index",
"repository": {
"type": "git",
"url": "https://github.com/DefinitelyTyped/DefinitelyTyped.git",
"directory": "types/scheduler"
},
"scripts": {},
"dependencies": {},
"typesPublisherContentHash": "de6e7ac9ebefa8aded2268fa4680d75483f921610b36328b5342711bb1f96af1",
"typeScriptVersion": "2.8"
}
\ No newline at end of file
// disable automatic export
export {};
/**
* This type is only interesting if you're only using this module for a specifc build environment.
*
* With module augmentation you can declare what build of scheduler you are using by
* augmenting this interface with e.g. `interface Build { type: 'development'; }`
* Depending on the build some exported members have different types.
* Possible values are `production`, `profiling` and `development`.
* The default behavior for the types is to use a union of all possible types.
*/
// tslint:disable-next-line: no-empty-interface
export interface Build {}
export type EnableSchedulerTracing = Build extends { type: infer BuildType }
? BuildType extends "production" | "profiling"
? false
: BuildType extends "development"
? true
: undefined
: undefined;
type TypeByBuildFlag<
Flag extends boolean | undefined,
WhenTrue,
WhenFalse
> = Flag extends undefined
? (WhenTrue | WhenFalse)
: Flag extends true
? WhenTrue
: WhenFalse;
type IfSchedulerTracing<WhenTrue, WhenFalse> = TypeByBuildFlag<
EnableSchedulerTracing,
WhenTrue,
WhenFalse
>;
export interface Interaction {
__count: number;
id: number;
name: string;
timestamp: number;
}
export interface Subscriber {
/**
* A new interaction has been created via the trace() method.
*/
onInteractionTraced: (interaction: Interaction) => void;
/**
* All scheduled async work for an interaction has finished.
*/
onInteractionScheduledWorkCompleted: (interaction: Interaction) => void;
/**
* New async work has been scheduled for a set of interactions.
* When this work is later run, onWorkStarted/onWorkStopped will be called.
* A batch of async/yieldy work may be scheduled multiple times before completing.
* In that case, onWorkScheduled may be called more than once before onWorkStopped.
* Work is scheduled by a "thread" which is identified by a unique ID.
*/
onWorkScheduled: (interactions: Set<Interaction>, threadID: number) => void;
/**
* A batch of scheduled work has been canceled.
* Work is done by a "thread" which is identified by a unique ID.
*/
onWorkCanceled: (interactions: Set<Interaction>, threadID: number) => void;
/**
* A batch of work has started for a set of interactions.
* When this work is complete, onWorkStopped will be called.
* Work is not always completed synchronously; yielding may occur in between.
* A batch of async/yieldy work may also be re-started before completing.
* In that case, onWorkStarted may be called more than once before onWorkStopped.
* Work is done by a "thread" which is identified by a unique ID.
*/
onWorkStarted: (interactions: Set<Interaction>, threadID: number) => void;
/**
* A batch of work has completed for a set of interactions.
* Work is done by a "thread" which is identified by a unique ID.
*/
onWorkStopped: (interactions: Set<Interaction>, threadID: number) => void;
}
export interface InteractionsRef {
current: Set<Interaction>;
}
export interface SubscriberRef {
current: Subscriber | null;
}
export const __interactionsRef: IfSchedulerTracing<InteractionsRef, null>;
export const __subscriberRef: IfSchedulerTracing<SubscriberRef, null>;
export function unstable_clear<T>(callback: () => T): T;
export function unstable_getCurrent(): Set<Interaction> | null;
export function unstable_getThreadID(): number;
export function unstable_trace<T>(
name: string,
timestamp: number,
callback: () => T,
threadID?: number
): T;
export type WrappedFunction<T extends (...args: any[]) => any> = T & {
cancel: () => void;
};
/**
* The callback is immediately returned if the enableSchedulerTracing is disabled.
* It is unclear for which bundles this is the case.
*
* @param callback
* @param threadID
*/
export function unstable_wrap<T extends (...args: any[]) => any>(
callback: T,
threadID?: number
): IfSchedulerTracing<WrappedFunction<T>, T>;
export function unstable_subscribe(subscriber: Subscriber): void;
export function unstable_unsubscribe(subscriber: Subscriber): void;
MIT License
Copyright (c) Microsoft Corporation.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE
# Installation
> `npm install --save @types/yargs-parser`
# Summary
This package contains type definitions for yargs-parser (https://github.com/yargs/yargs-parser#readme).
# Details
Files were exported from https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/yargs-parser.
### Additional Details
* Last updated: Wed, 23 Dec 2020 19:06:45 GMT
* Dependencies: none
* Global values: none
# Credits
These definitions were written by [Miles Johnson](https://github.com/milesj).
// Type definitions for yargs-parser 20.2
// Project: https://github.com/yargs/yargs-parser#readme
// Definitions by: Miles Johnson <https://github.com/milesj>
// Definitions: https://github.com/DefinitelyTyped/DefinitelyTyped
// TypeScript Version: 2.2
declare namespace yargsParser {
interface Arguments {
/** Non-option arguments */
_: string[];
/** The script name or node command */
$0: string;
/** All remaining options */
[argName: string]: any;
}
interface DetailedArguments {
/** An object representing the parsed value of `args` */
argv: Arguments;
/** Populated with an error object if an exception occurred during parsing. */
error: Error | null;
/** The inferred list of aliases built by combining lists in opts.alias. */
aliases: { [alias: string]: string[] };
/** Any new aliases added via camel-case expansion. */
newAliases: { [alias: string]: boolean };
/** The configuration loaded from the yargs stanza in package.json. */
configuration: Configuration;
}
interface Configuration {
/** Should variables prefixed with --no be treated as negations? Default is `true` */
'boolean-negation': boolean;
/** Should hyphenated arguments be expanded into camel-case aliases? Default is `true` */
'camel-case-expansion': boolean;
/** Should arrays be combined when provided by both command line arguments and a configuration file. Default is `false` */
'combine-arrays': boolean;
/** Should keys that contain . be treated as objects? Default is `true` */
'dot-notation': boolean;
/** Should arguments be coerced into an array when duplicated. Default is `true` */
'duplicate-arguments-array': boolean;
/** Should array arguments be coerced into a single array when duplicated. Default is `true` */
'flatten-duplicate-arrays': boolean;
/** Should arrays consume more than one positional argument following their flag. Default is `true` */
'greedy-arrays': boolean;
/** Should nargs consume dash options as well as positional arguments. Default is `false` */
'nargs-eats-options': boolean;
/** Should parsing stop at the first text argument? This is similar to how e.g. ssh parses its command line. Default is `false` */
'halt-at-non-option': boolean;
/** The prefix to use for negated boolean variables. Default is `'no-'` */
'negation-prefix': string;
/** Should keys that look like numbers be treated as such? Default is `true` */
'parse-numbers': boolean;
/** Should positional keys that look like numbers be treated as such? Default is `true` */
'parse-positional-numbers': boolean;
/** Should unparsed flags be stored in -- or _. Default is `false` */
'populate--': boolean;
/** Should a placeholder be added for keys not set via the corresponding CLI argument? Default is `false` */
'set-placeholder-key': boolean;
/** Should a group of short-options be treated as boolean flags? Default is `true` */
'short-option-groups': boolean;
/** Should aliases be removed before returning results? Default is `false` */
'strip-aliased': boolean;
/** Should dashed keys be removed before returning results? This option has no effect if camel-case-expansion is disabled. Default is `false` */
'strip-dashed': boolean;
/** Should unknown options be treated like regular arguments? An unknown option is one that is not configured in opts. Default is `false` */
'unknown-options-as-args': boolean;
}
interface Options {
/** An object representing the set of aliases for a key: `{ alias: { foo: ['f']} }`. */
alias?: { [key: string]: string | string[] };
/**
* Indicate that keys should be parsed as an array: `{ array: ['foo', 'bar'] }`.
* Indicate that keys should be parsed as an array and coerced to booleans / numbers:
* { array: [ { key: 'foo', boolean: true }, {key: 'bar', number: true} ] }`.
*/
array?: string[] | Array<{ key: string; boolean?: boolean, number?: boolean }>;
/** Arguments should be parsed as booleans: `{ boolean: ['x', 'y'] }`. */
boolean?: string[];
/** Indicate a key that represents a path to a configuration file (this file will be loaded and parsed). */
config?: string | string[] | { [key: string]: boolean };
/** Provide configuration options to the yargs-parser. */
configuration?: Partial<Configuration>;
/**
* Provide a custom synchronous function that returns a coerced value from the argument provided (or throws an error), e.g.
* `{ coerce: { foo: function (arg) { return modifiedArg } } }`.
*/
coerce?: { [key: string]: (arg: any) => any };
/** Indicate a key that should be used as a counter, e.g., `-vvv = {v: 3}`. */
count?: string[];
/** Provide default values for keys: `{ default: { x: 33, y: 'hello world!' } }`. */
default?: { [key: string]: any };
/** Environment variables (`process.env`) with the prefix provided should be parsed. */
envPrefix?: string;
/** Specify that a key requires n arguments: `{ narg: {x: 2} }`. */
narg?: { [key: string]: number };
/** `path.normalize()` will be applied to values set to this key. */
normalize?: string[];
/** Keys should be treated as strings (even if they resemble a number `-x 33`). */
string?: string[];
/** Keys should be treated as numbers. */
number?: string[];
}
interface Parser {
(argv: string | string[], opts?: Options): Arguments;
detailed(argv: string | string[], opts?: Options): DetailedArguments;
}
}
declare var yargsParser: yargsParser.Parser;
export = yargsParser;
{
"name": "@types/yargs-parser",
"version": "20.2.0",
"description": "TypeScript definitions for yargs-parser",
"license": "MIT",
"contributors": [
{
"name": "Miles Johnson",
"url": "https://github.com/milesj",
"githubUsername": "milesj"
}
],
"main": "",
"types": "index.d.ts",
"repository": {
"type": "git",
"url": "https://github.com/DefinitelyTyped/DefinitelyTyped.git",
"directory": "types/yargs-parser"
},
"scripts": {},
"dependencies": {},
"typesPublisherContentHash": "8910a9d6eab5721fa5cb05ff2f01d5042c4ecba6967efd4739f53c5f0e6b3c33",
"typeScriptVersion": "3.3"
}
\ No newline at end of file
MIT License
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# Installation
> `npm install --save @types/yargs`
# Summary
This package contains type definitions for yargs (https://github.com/chevex/yargs).
# Details
Files were exported from https://github.com/DefinitelyTyped/DefinitelyTyped/tree/master/types/yargs/v15.
### Additional Details
* Last updated: Fri, 29 Jan 2021 01:21:39 GMT
* Dependencies: [@types/yargs-parser](https://npmjs.com/package/@types/yargs-parser)
* Global values: none
# Credits
These definitions were written by [Martin Poelstra](https://github.com/poelstra), [Mizunashi Mana](https://github.com/mizunashi-mana), [Jeffery Grajkowski](https://github.com/pushplay), [Jimi (Dimitris) Charalampidis](https://github.com/JimiC), [Steffen Viken Valvåg](https://github.com/steffenvv), [Emily Marigold Klassen](https://github.com/forivall), [ExE Boss](https://github.com/ExE-Boss), and [Aankhen](https://github.com/Aankhen).
// Type definitions for yargs 15.0
// Project: https://github.com/chevex/yargs, https://yargs.js.org
// Definitions by: Martin Poelstra <https://github.com/poelstra>
// Mizunashi Mana <https://github.com/mizunashi-mana>
// Jeffery Grajkowski <https://github.com/pushplay>
// Jimi (Dimitris) Charalampidis <https://github.com/JimiC>
// Steffen Viken Valvåg <https://github.com/steffenvv>
// Emily Marigold Klassen <https://github.com/forivall>
// ExE Boss <https://github.com/ExE-Boss>
// Aankhen <https://github.com/Aankhen>
// Definitions: https://github.com/DefinitelyTyped/DefinitelyTyped
// TypeScript Version: 3.0
// The following TSLint rules have been disabled:
// unified-signatures: Because there is useful information in the argument names of the overloaded signatures
// Convention:
// Use 'union types' when:
// - parameter types have similar signature type (i.e. 'string | ReadonlyArray<string>')
// - parameter names have the same semantic meaning (i.e. ['command', 'commands'] , ['key', 'keys'])
// An example for not using 'union types' is the declaration of 'env' where `prefix` and `enable` parameters
// have different semantics. On the other hand, in the declaration of 'usage', a `command: string` parameter
// has the same semantic meaning with declaring an overload method by using `commands: ReadonlyArray<string>`,
// thus it's preferred to use `command: string | ReadonlyArray<string>`
// Use parameterless declaration instead of declaring all parameters optional,
// when all parameters are optional and more than one
import { DetailedArguments, Configuration } from 'yargs-parser';
declare namespace yargs {
type BuilderCallback<T, R> = ((args: Argv<T>) => PromiseLike<Argv<R>>) | ((args: Argv<T>) => Argv<R>) | ((args: Argv<T>) => void);
type ParserConfigurationOptions = Configuration & {
/** Sort commands alphabetically. Default is `false` */
'sort-commands': boolean;
};
/**
* The type parameter `T` is the expected shape of the parsed options.
* `Arguments<T>` is those options plus `_` and `$0`, and an indexer falling
* back to `unknown` for unknown options.
*
* For the return type / `argv` property, we create a mapped type over
* `Arguments<T>` to simplify the inferred type signature in client code.
*/
interface Argv<T = {}> {
(): { [key in keyof Arguments<T>]: Arguments<T>[key] };
(args: ReadonlyArray<string>, cwd?: string): Argv<T>;
/**
* Set key names as equivalent such that updates to a key will propagate to aliases and vice-versa.
*
* Optionally `.alias()` can take an object that maps keys to aliases.
* Each key of this object should be the canonical version of the option, and each value should be a string or an array of strings.
*/
// Aliases for previously declared options can inherit the types of those options.
alias<K1 extends keyof T, K2 extends string>(shortName: K1, longName: K2 | ReadonlyArray<K2>): Argv<T & { [key in K2]: T[K1] }>;
alias<K1 extends keyof T, K2 extends string>(shortName: K2, longName: K1 | ReadonlyArray<K1>): Argv<T & { [key in K2]: T[K1] }>;
alias(shortName: string | ReadonlyArray<string>, longName: string | ReadonlyArray<string>): Argv<T>;
alias(aliases: { [shortName: string]: string | ReadonlyArray<string> }): Argv<T>;
/**
* Get the arguments as a plain old object.
*
* Arguments without a corresponding flag show up in the `argv._` array.
*
* The script name or node command is available at `argv.$0` similarly to how `$0` works in bash or perl.
*
* If `yargs` is executed in an environment that embeds node and there's no script name (e.g. Electron or nw.js),
* it will ignore the first parameter since it expects it to be the script name. In order to override
* this behavior, use `.parse(process.argv.slice(1))` instead of .argv and the first parameter won't be ignored.
*/
argv: { [key in keyof Arguments<T>]: Arguments<T>[key] };
/**
* Tell the parser to interpret `key` as an array.
* If `.array('foo')` is set, `--foo foo bar` will be parsed as `['foo', 'bar']` rather than as `'foo'`.
* Also, if you use the option multiple times all the values will be flattened in one array so `--foo foo --foo bar` will be parsed as `['foo', 'bar']`
*
* When the option is used with a positional, use `--` to tell `yargs` to stop adding values to the array.
*/
array<K extends keyof T>(key: K | ReadonlyArray<K>): Argv<Omit<T, K> & { [key in K]: ToArray<T[key]> }>;
array<K extends string>(key: K | ReadonlyArray<K>): Argv<T & { [key in K]: Array<string | number> | undefined }>;
/**
* Interpret `key` as a boolean. If a non-flag option follows `key` in `process.argv`, that string won't get set as the value of `key`.
*
* `key` will default to `false`, unless a `default(key, undefined)` is explicitly set.
*
* If `key` is an array, interpret all the elements as booleans.
*/
boolean<K extends keyof T>(key: K | ReadonlyArray<K>): Argv<Omit<T, K> & { [key in K]: boolean | undefined }>;
boolean<K extends string>(key: K | ReadonlyArray<K>): Argv<T & { [key in K]: boolean | undefined }>;
/**
* Check that certain conditions are met in the provided arguments.
* @param func Called with two arguments, the parsed `argv` hash and an array of options and their aliases.
* If `func` throws or returns a non-truthy value, show the thrown error, usage information, and exit.
* @param global Indicates whether `check()` should be enabled both at the top-level and for each sub-command.
*/
check(func: (argv: Arguments<T>, aliases: { [alias: string]: string }) => any, global?: boolean): Argv<T>;
/**
* Limit valid values for key to a predefined set of choices, given as an array or as an individual value.
* If this method is called multiple times, all enumerated values will be merged together.
* Choices are generally strings or numbers, and value matching is case-sensitive.
*
* Optionally `.choices()` can take an object that maps multiple keys to their choices.
*
* Choices can also be specified as choices in the object given to `option()`.
*/
choices<K extends keyof T, C extends ReadonlyArray<any>>(key: K, values: C): Argv<Omit<T, K> & { [key in K]: C[number] | undefined }>;
choices<K extends string, C extends ReadonlyArray<any>>(key: K, values: C): Argv<T & { [key in K]: C[number] | undefined }>;
choices<C extends { [key: string]: ReadonlyArray<any> }>(choices: C): Argv<Omit<T, keyof C> & { [key in keyof C]: C[key][number] | undefined }>;
/**
* Provide a synchronous function to coerce or transform the value(s) given on the command line for `key`.
*
* The coercion function should accept one argument, representing the parsed value from the command line, and should return a new value or throw an error.
* The returned value will be used as the value for `key` (or one of its aliases) in `argv`.
*
* If the function throws, the error will be treated as a validation failure, delegating to either a custom `.fail()` handler or printing the error message in the console.
*
* Coercion will be applied to a value after all other modifications, such as `.normalize()`.
*
* Optionally `.coerce()` can take an object that maps several keys to their respective coercion function.
*
* You can also map the same function to several keys at one time. Just pass an array of keys as the first argument to `.coerce()`.
*
* If you are using dot-notion or arrays, .e.g., `user.email` and `user.password`, coercion will be applied to the final object that has been parsed
*/
coerce<K extends keyof T, V>(key: K | ReadonlyArray<K>, func: (arg: any) => V): Argv<Omit<T, K> & { [key in K]: V | undefined }>;
coerce<K extends string, V>(key: K | ReadonlyArray<K>, func: (arg: any) => V): Argv<T & { [key in K]: V | undefined }>;
coerce<O extends { [key: string]: (arg: any) => any }>(opts: O): Argv<Omit<T, keyof O> & { [key in keyof O]: ReturnType<O[key]> | undefined }>;
/**
* Define the commands exposed by your application.
* @param command Should be a string representing the command or an array of strings representing the command and its aliases.
* @param description Use to provide a description for each command your application accepts (the values stored in `argv._`).
* Set `description` to false to create a hidden command. Hidden commands don't show up in the help output and aren't available for completion.
* @param [builder] Object to give hints about the options that your command accepts.
* Can also be a function. This function is executed with a yargs instance, and can be used to provide advanced command specific help.
*
* Note that when `void` is returned, the handler `argv` object type will not include command-specific arguments.
* @param [handler] Function, which will be executed with the parsed `argv` object.
*/
command<U = T>(
command: string | ReadonlyArray<string>,
description: string,
builder?: BuilderCallback<T, U>,
handler?: (args: Arguments<U>) => void,
middlewares?: MiddlewareFunction[],
deprecated?: boolean | string,
): Argv<U>;
command<O extends { [key: string]: Options }>(
command: string | ReadonlyArray<string>,
description: string,
builder?: O,
handler?: (args: Arguments<InferredOptionTypes<O>>) => void,
middlewares?: MiddlewareFunction[],
deprecated?: boolean | string,
): Argv<T>;
command<U>(command: string | ReadonlyArray<string>, description: string, module: CommandModule<T, U>): Argv<U>;
command<U = T>(
command: string | ReadonlyArray<string>,
showInHelp: false,
builder?: BuilderCallback<T, U>,
handler?: (args: Arguments<U>) => void,
middlewares?: MiddlewareFunction[],
deprecated?: boolean | string,
): Argv<T>;
command<O extends { [key: string]: Options }>(
command: string | ReadonlyArray<string>,
showInHelp: false,
builder?: O,
handler?: (args: Arguments<InferredOptionTypes<O>>) => void,
): Argv<T>;
command<U>(command: string | ReadonlyArray<string>, showInHelp: false, module: CommandModule<T, U>): Argv<U>;
command<U>(module: CommandModule<T, U>): Argv<U>;
// Advanced API
/** Apply command modules from a directory relative to the module calling this method. */
commandDir(dir: string, opts?: RequireDirectoryOptions): Argv<T>;
/**
* Enable bash/zsh-completion shortcuts for commands and options.
*
* If invoked without parameters, `.completion()` will make completion the command to output the completion script.
*
* @param [cmd] When present in `argv._`, will result in the `.bashrc` or `.zshrc` completion script being outputted.
* To enable bash/zsh completions, concat the generated script to your `.bashrc` or `.bash_profile` (or `.zshrc` for zsh).
* @param [description] Provide a description in your usage instructions for the command that generates the completion scripts.
* @param [func] Rather than relying on yargs' default completion functionality, which shiver me timbers is pretty awesome, you can provide your own completion method.
*/
completion(): Argv<T>;
completion(cmd: string, func?: AsyncCompletionFunction): Argv<T>;
completion(cmd: string, func?: SyncCompletionFunction): Argv<T>;
completion(cmd: string, func?: PromiseCompletionFunction): Argv<T>;
completion(cmd: string, description?: string | false, func?: AsyncCompletionFunction): Argv<T>;
completion(cmd: string, description?: string | false, func?: SyncCompletionFunction): Argv<T>;
completion(cmd: string, description?: string | false, func?: PromiseCompletionFunction): Argv<T>;
/**
* Tells the parser that if the option specified by `key` is passed in, it should be interpreted as a path to a JSON config file.
* The file is loaded and parsed, and its properties are set as arguments.
* Because the file is loaded using Node's require(), the filename MUST end in `.json` to be interpreted correctly.
*
* If invoked without parameters, `.config()` will make --config the option to pass the JSON config file.
*
* @param [description] Provided to customize the config (`key`) option in the usage string.
* @param [explicitConfigurationObject] An explicit configuration `object`
*/
config(): Argv<T>;
config(key: string | ReadonlyArray<string>, description?: string, parseFn?: (configPath: string) => object): Argv<T>;
config(key: string | ReadonlyArray<string>, parseFn: (configPath: string) => object): Argv<T>;
config(explicitConfigurationObject: object): Argv<T>;
/**
* Given the key `x` is set, the key `y` must not be set. `y` can either be a single string or an array of argument names that `x` conflicts with.
*
* Optionally `.conflicts()` can accept an object specifying multiple conflicting keys.
*/
conflicts(key: string, value: string | ReadonlyArray<string>): Argv<T>;
conflicts(conflicts: { [key: string]: string | ReadonlyArray<string> }): Argv<T>;
/**
* Interpret `key` as a boolean flag, but set its parsed value to the number of flag occurrences rather than `true` or `false`. Default value is thus `0`.
*/
count<K extends keyof T>(key: K | ReadonlyArray<K>): Argv<Omit<T, K> & { [key in K]: number }>;
count<K extends string>(key: K | ReadonlyArray<K>): Argv<T & { [key in K]: number }>;
/**
* Set `argv[key]` to `value` if no option was specified in `process.argv`.
*
* Optionally `.default()` can take an object that maps keys to default values.
*
* The default value can be a `function` which returns a value. The name of the function will be used in the usage string.
*
* Optionally, `description` can also be provided and will take precedence over displaying the value in the usage instructions.
*/
default<K extends keyof T, V>(key: K, value: V, description?: string): Argv<Omit<T, K> & { [key in K]: V }>;
default<K extends string, V>(key: K, value: V, description?: string): Argv<T & { [key in K]: V }>;
default<D extends { [key: string]: any }>(defaults: D, description?: string): Argv<Omit<T, keyof D> & D>;
/**
* @deprecated since version 6.6.0
* Use '.demandCommand()' or '.demandOption()' instead
*/
demand<K extends keyof T>(key: K | ReadonlyArray<K>, msg?: string | true): Argv<Defined<T, K>>;
demand<K extends string>(key: K | ReadonlyArray<K>, msg?: string | true): Argv<T & { [key in K]: unknown }>;
demand(key: string | ReadonlyArray<string>, required?: boolean): Argv<T>;
demand(positionals: number, msg: string): Argv<T>;
demand(positionals: number, required?: boolean): Argv<T>;
demand(positionals: number, max: number, msg?: string): Argv<T>;
/**
* @param key If is a string, show the usage information and exit if key wasn't specified in `process.argv`.
* If is an array, demand each element.
* @param msg If string is given, it will be printed when the argument is missing, instead of the standard error message.
* @param demand Controls whether the option is demanded; this is useful when using .options() to specify command line parameters.
*/
demandOption<K extends keyof T>(key: K | ReadonlyArray<K>, msg?: string | true): Argv<Defined<T, K>>;
demandOption<K extends string>(key: K | ReadonlyArray<K>, msg?: string | true): Argv<T & { [key in K]: unknown }>;
demandOption(key: string | ReadonlyArray<string>, demand?: boolean): Argv<T>;
/**
* Demand in context of commands.
* You can demand a minimum and a maximum number a user can have within your program, as well as provide corresponding error messages if either of the demands is not met.
*/
demandCommand(): Argv<T>;
demandCommand(min: number, minMsg?: string): Argv<T>;
demandCommand(min: number, max?: number, minMsg?: string, maxMsg?: string): Argv<T>;
/**
* Shows a [deprecated] notice in front of the option
*/
deprecateOption(option: string, msg?: string): Argv<T>;
/**
* Describe a `key` for the generated usage information.
*
* Optionally `.describe()` can take an object that maps keys to descriptions.
*/
describe(key: string | ReadonlyArray<string>, description: string): Argv<T>;
describe(descriptions: { [key: string]: string }): Argv<T>;
/** Should yargs attempt to detect the os' locale? Defaults to `true`. */
detectLocale(detect: boolean): Argv<T>;
/**
* Tell yargs to parse environment variables matching the given prefix and apply them to argv as though they were command line arguments.
*
* Use the "__" separator in the environment variable to indicate nested options. (e.g. prefix_nested__foo => nested.foo)
*
* If this method is called with no argument or with an empty string or with true, then all env vars will be applied to argv.
*
* Program arguments are defined in this order of precedence:
* 1. Command line args
* 2. Env vars
* 3. Config file/objects
* 4. Configured defaults
*
* Env var parsing is disabled by default, but you can also explicitly disable it by calling `.env(false)`, e.g. if you need to undo previous configuration.
*/
env(): Argv<T>;
env(prefix: string): Argv<T>;
env(enable: boolean): Argv<T>;
/** A message to print at the end of the usage instructions */
epilog(msg: string): Argv<T>;
/** A message to print at the end of the usage instructions */
epilogue(msg: string): Argv<T>;
/**
* Give some example invocations of your program.
* Inside `cmd`, the string `$0` will get interpolated to the current script name or node command for the present script similar to how `$0` works in bash or perl.
* Examples will be printed out as part of the help message.
*/
example(command: string, description: string): Argv<T>;
example(command: ReadonlyArray<[string, string?]>): Argv<T>;
/** Manually indicate that the program should exit, and provide context about why we wanted to exit. Follows the behavior set by `.exitProcess().` */
exit(code: number, err: Error): void;
/**
* By default, yargs exits the process when the user passes a help flag, the user uses the `.version` functionality, validation fails, or the command handler fails.
* Calling `.exitProcess(false)` disables this behavior, enabling further actions after yargs have been validated.
*/
exitProcess(enabled: boolean): Argv<T>;
/**
* Method to execute when a failure occurs, rather than printing the failure message.
* @param func Is called with the failure message that would have been printed, the Error instance originally thrown and yargs state when the failure occurred.
*/
fail(func: (msg: string, err: Error, yargs: Argv<T>) => any): Argv<T>;
/**
* Allows to programmatically get completion choices for any line.
* @param args An array of the words in the command line to complete.
* @param done The callback to be called with the resulting completions.
*/
getCompletion(args: ReadonlyArray<string>, done: (completions: ReadonlyArray<string>) => void): Argv<T>;
/**
* Indicate that an option (or group of options) should not be reset when a command is executed
*
* Options default to being global.
*/
global(key: string | ReadonlyArray<string>): Argv<T>;
/** Given a key, or an array of keys, places options under an alternative heading when displaying usage instructions */
group(key: string | ReadonlyArray<string>, groupName: string): Argv<T>;
/** Hides a key from the generated usage information. Unless a `--show-hidden` option is also passed with `--help` (see `showHidden()`). */
hide(key: string): Argv<T>;
/**
* Configure an (e.g. `--help`) and implicit command that displays the usage string and exits the process.
* By default yargs enables help on the `--help` option.
*
* Note that any multi-char aliases (e.g. `help`) used for the help option will also be used for the implicit command.
* If there are no multi-char aliases (e.g. `h`), then all single-char aliases will be used for the command.
*
* If invoked without parameters, `.help()` will use `--help` as the option and help as the implicit command to trigger help output.
*
* @param [description] Customizes the description of the help option in the usage string.
* @param [enableExplicit] If `false` is provided, it will disable --help.
*/
help(): Argv<T>;
help(enableExplicit: boolean): Argv<T>;
help(option: string, enableExplicit: boolean): Argv<T>;
help(option: string, description?: string, enableExplicit?: boolean): Argv<T>;
/**
* Given the key `x` is set, it is required that the key `y` is set.
* y` can either be the name of an argument to imply, a number indicating the position of an argument or an array of multiple implications to associate with `x`.
*
* Optionally `.implies()` can accept an object specifying multiple implications.
*/
implies(key: string, value: string | ReadonlyArray<string>): Argv<T>;
implies(implies: { [key: string]: string | ReadonlyArray<string> }): Argv<T>;
/**
* Return the locale that yargs is currently using.
*
* By default, yargs will auto-detect the operating system's locale so that yargs-generated help content will display in the user's language.
*/
locale(): string;
/**
* Override the auto-detected locale from the user's operating system with a static locale.
* Note that the OS locale can be modified by setting/exporting the `LC_ALL` environment variable.
*/
locale(loc: string): Argv<T>;
/**
* Define global middleware functions to be called first, in list order, for all cli command.
* @param callbacks Can be a function or a list of functions. Each callback gets passed a reference to argv.
* @param [applyBeforeValidation] Set to `true` to apply middleware before validation. This will execute the middleware prior to validation checks, but after parsing.
*/
middleware(callbacks: MiddlewareFunction<T> | ReadonlyArray<MiddlewareFunction<T>>, applyBeforeValidation?: boolean): Argv<T>;
/**
* The number of arguments that should be consumed after a key. This can be a useful hint to prevent parsing ambiguity.
*
* Optionally `.nargs()` can take an object of `key`/`narg` pairs.
*/
nargs(key: string, count: number): Argv<T>;
nargs(nargs: { [key: string]: number }): Argv<T>;
/** The key provided represents a path and should have `path.normalize()` applied. */
normalize<K extends keyof T>(key: K | ReadonlyArray<K>): Argv<Omit<T, K> & { [key in K]: ToString<T[key]> }>;
normalize<K extends string>(key: K | ReadonlyArray<K>): Argv<T & { [key in K]: string | undefined }>;
/**
* Tell the parser to always interpret key as a number.
*
* If `key` is an array, all elements will be parsed as numbers.
*
* If the option is given on the command line without a value, `argv` will be populated with `undefined`.
*
* If the value given on the command line cannot be parsed as a number, `argv` will be populated with `NaN`.
*
* Note that decimals, hexadecimals, and scientific notation are all accepted.
*/
number<K extends keyof T>(key: K | ReadonlyArray<K>): Argv<Omit<T, K> & { [key in K]: ToNumber<T[key]> }>;
number<K extends string>(key: K | ReadonlyArray<K>): Argv<T & { [key in K]: number | undefined }>;
/**
* Method to execute when a command finishes successfully.
* @param func Is called with the successful result of the command that finished.
*/
onFinishCommand(func: (result: any) => void): Argv<T>;
/**
* This method can be used to make yargs aware of options that could exist.
* You can also pass an opt object which can hold further customization, like `.alias()`, `.demandOption()` etc. for that option.
*/
option<K extends keyof T, O extends Options>(key: K, options: O): Argv<Omit<T, K> & { [key in K]: InferredOptionType<O> }>;
option<K extends string, O extends Options>(key: K, options: O): Argv<T & { [key in K]: InferredOptionType<O> }>;
option<O extends { [key: string]: Options }>(options: O): Argv<Omit<T, keyof O> & InferredOptionTypes<O>>;
/**
* This method can be used to make yargs aware of options that could exist.
* You can also pass an opt object which can hold further customization, like `.alias()`, `.demandOption()` etc. for that option.
*/
options<K extends keyof T, O extends Options>(key: K, options: O): Argv<Omit<T, K> & { [key in K]: InferredOptionType<O> }>;
options<K extends string, O extends Options>(key: K, options: O): Argv<T & { [key in K]: InferredOptionType<O> }>;
options<O extends { [key: string]: Options }>(options: O): Argv<Omit<T, keyof O> & InferredOptionTypes<O>>;
/**
* Parse `args` instead of `process.argv`. Returns the `argv` object. `args` may either be a pre-processed argv array, or a raw argument string.
*
* Note: Providing a callback to parse() disables the `exitProcess` setting until after the callback is invoked.
* @param [context] Provides a useful mechanism for passing state information to commands
*/
parse(): { [key in keyof Arguments<T>]: Arguments<T>[key] };
parse(arg: string | ReadonlyArray<string>, context?: object, parseCallback?: ParseCallback<T>): { [key in keyof Arguments<T>]: Arguments<T>[key] };
/**
* If the arguments have not been parsed, this property is `false`.
*
* If the arguments have been parsed, this contain detailed parsed arguments.
*/
parsed: DetailedArguments | false;
/** Allows to configure advanced yargs features. */
parserConfiguration(configuration: Partial<ParserConfigurationOptions>): Argv<T>;
/**
* Similar to `config()`, indicates that yargs should interpret the object from the specified key in package.json as a configuration object.
* @param [cwd] If provided, the package.json will be read from this location
*/
pkgConf(key: string | ReadonlyArray<string>, cwd?: string): Argv<T>;
/**
* Allows you to configure a command's positional arguments with an API similar to `.option()`.
* `.positional()` should be called in a command's builder function, and is not available on the top-level yargs instance. If so, it will throw an error.
*/
positional<K extends keyof T, O extends PositionalOptions>(key: K, opt: O): Argv<Omit<T, K> & { [key in K]: InferredOptionType<O> }>;
positional<K extends string, O extends PositionalOptions>(key: K, opt: O): Argv<T & { [key in K]: InferredOptionType<O> }>;
/** Should yargs provide suggestions regarding similar commands if no matching command is found? */
recommendCommands(): Argv<T>;
/**
* @deprecated since version 6.6.0
* Use '.demandCommand()' or '.demandOption()' instead
*/
require<K extends keyof T>(key: K | ReadonlyArray<K>, msg?: string | true): Argv<Defined<T, K>>;
require(key: string, msg: string): Argv<T>;
require(key: string, required: boolean): Argv<T>;
require(keys: ReadonlyArray<number>, msg: string): Argv<T>;
require(keys: ReadonlyArray<number>, required: boolean): Argv<T>;
require(positionals: number, required: boolean): Argv<T>;
require(positionals: number, msg: string): Argv<T>;
/**
* @deprecated since version 6.6.0
* Use '.demandCommand()' or '.demandOption()' instead
*/
required<K extends keyof T>(key: K | ReadonlyArray<K>, msg?: string | true): Argv<Defined<T, K>>;
required(key: string, msg: string): Argv<T>;
required(key: string, required: boolean): Argv<T>;
required(keys: ReadonlyArray<number>, msg: string): Argv<T>;
required(keys: ReadonlyArray<number>, required: boolean): Argv<T>;
required(positionals: number, required: boolean): Argv<T>;
required(positionals: number, msg: string): Argv<T>;
requiresArg(key: string | ReadonlyArray<string>): Argv<T>;
/**
* @deprecated since version 6.6.0
* Use '.global()' instead
*/
reset(): Argv<T>;
/** Set the name of your script ($0). Default is the base filename executed by node (`process.argv[1]`) */
scriptName($0: string): Argv<T>;
/**
* Generate a bash completion script.
* Users of your application can install this script in their `.bashrc`, and yargs will provide completion shortcuts for commands and options.
*/
showCompletionScript(): Argv<T>;
/**
* Configure the `--show-hidden` option that displays the hidden keys (see `hide()`).
* @param option If `boolean`, it enables/disables this option altogether. i.e. hidden keys will be permanently hidden if first argument is `false`.
* If `string` it changes the key name ("--show-hidden").
* @param description Changes the default description ("Show hidden options")
*/
showHidden(option?: string | boolean): Argv<T>;
showHidden(option: string, description?: string): Argv<T>;
/**
* Print the usage data using the console function consoleLevel for printing.
* @param [consoleLevel='error']
*/
showHelp(consoleLevel?: string): Argv<T>;
/**
* Provide the usage data as a string.
* @param printCallback a function with a single argument.
*/
showHelp(printCallback: (s: string) => void): Argv<T>;
/**
* By default, yargs outputs a usage string if any error is detected.
* Use the `.showHelpOnFail()` method to customize this behavior.
* @param enable If `false`, the usage string is not output.
* @param [message] Message that is output after the error message.
*/
showHelpOnFail(enable: boolean, message?: string): Argv<T>;
/** Specifies either a single option key (string), or an array of options. If any of the options is present, yargs validation is skipped. */
skipValidation(key: string | ReadonlyArray<string>): Argv<T>;
/**
* Any command-line argument given that is not demanded, or does not have a corresponding description, will be reported as an error.
*
* Unrecognized commands will also be reported as errors.
*/
strict(): Argv<T>;
strict(enabled: boolean): Argv<T>;
/**
* Similar to .strict(), except that it only applies to unrecognized commands.
* A user can still provide arbitrary options, but unknown positional commands
* will raise an error.
*/
strictCommands(): Argv<T>;
strictCommands(enabled: boolean): Argv<T>;
/**
* Tell the parser logic not to interpret `key` as a number or boolean. This can be useful if you need to preserve leading zeros in an input.
*
* If `key` is an array, interpret all the elements as strings.
*
* `.string('_')` will result in non-hyphenated arguments being interpreted as strings, regardless of whether they resemble numbers.
*/
string<K extends keyof T>(key: K | ReadonlyArray<K>): Argv<Omit<T, K> & { [key in K]: ToString<T[key]> }>;
string<K extends string>(key: K | ReadonlyArray<K>): Argv<T & { [key in K]: string | undefined }>;
// Intended to be used with '.wrap()'
terminalWidth(): number;
updateLocale(obj: { [key: string]: string }): Argv<T>;
/**
* Override the default strings used by yargs with the key/value pairs provided in obj
*
* If you explicitly specify a locale(), you should do so before calling `updateStrings()`.
*/
updateStrings(obj: { [key: string]: string }): Argv<T>;
/**
* Set a usage message to show which commands to use.
* Inside `message`, the string `$0` will get interpolated to the current script name or node command for the present script similar to how `$0` works in bash or perl.
*
* If the optional `description`/`builder`/`handler` are provided, `.usage()` acts an an alias for `.command()`.
* This allows you to use `.usage()` to configure the default command that will be run as an entry-point to your application
* and allows you to provide configuration for the positional arguments accepted by your program:
*/
usage(message: string): Argv<T>;
usage<U>(command: string | ReadonlyArray<string>, description: string, builder?: (args: Argv<T>) => Argv<U>, handler?: (args: Arguments<U>) => void): Argv<T>;
usage<U>(command: string | ReadonlyArray<string>, showInHelp: boolean, builder?: (args: Argv<T>) => Argv<U>, handler?: (args: Arguments<U>) => void): Argv<T>;
usage<O extends { [key: string]: Options }>(command: string | ReadonlyArray<string>, description: string, builder?: O, handler?: (args: Arguments<InferredOptionTypes<O>>) => void): Argv<T>;
usage<O extends { [key: string]: Options }>(command: string | ReadonlyArray<string>, showInHelp: boolean, builder?: O, handler?: (args: Arguments<InferredOptionTypes<O>>) => void): Argv<T>;
/**
* Add an option (e.g. `--version`) that displays the version number (given by the version parameter) and exits the process.
* By default yargs enables version for the `--version` option.
*
* If no arguments are passed to version (`.version()`), yargs will parse the package.json of your module and use its version value.
*
* If the boolean argument `false` is provided, it will disable `--version`.
*/
version(): Argv<T>;
version(version: string): Argv<T>;
version(enable: boolean): Argv<T>;
version(optionKey: string, version: string): Argv<T>;
version(optionKey: string, description: string, version: string): Argv<T>;
/**
* Format usage output to wrap at columns many columns.
*
* By default wrap will be set to `Math.min(80, windowWidth)`. Use `.wrap(null)` to specify no column limit (no right-align).
* Use `.wrap(yargs.terminalWidth())` to maximize the width of yargs' usage instructions.
*/
wrap(columns: number | null): Argv<T>;
}
type Arguments<T = {}> = T & {
/** Non-option arguments */
_: Array<string | number>;
/** The script name or node command */
$0: string;
/** All remaining options */
[argName: string]: unknown;
};
interface RequireDirectoryOptions {
/** Look for command modules in all subdirectories and apply them as a flattened (non-hierarchical) list. */
recurse?: boolean;
/** The types of files to look for when requiring command modules. */
extensions?: ReadonlyArray<string>;
/**
* A synchronous function called for each command module encountered.
* Accepts `commandObject`, `pathToFile`, and `filename` as arguments.
* Returns `commandObject` to include the command; any falsy value to exclude/skip it.
*/
visit?: (commandObject: any, pathToFile?: string, filename?: string) => any;
/** Whitelist certain modules */
include?: RegExp | ((pathToFile: string) => boolean);
/** Blacklist certain modules. */
exclude?: RegExp | ((pathToFile: string) => boolean);
}
interface Options {
/** string or array of strings, alias(es) for the canonical option key, see `alias()` */
alias?: string | ReadonlyArray<string>;
/** boolean, interpret option as an array, see `array()` */
array?: boolean;
/** boolean, interpret option as a boolean flag, see `boolean()` */
boolean?: boolean;
/** value or array of values, limit valid option arguments to a predefined set, see `choices()` */
choices?: Choices;
/** function, coerce or transform parsed command line values into another value, see `coerce()` */
coerce?: (arg: any) => any;
/** boolean, interpret option as a path to a JSON config file, see `config()` */
config?: boolean;
/** function, provide a custom config parsing function, see `config()` */
configParser?: (configPath: string) => object;
/** string or object, require certain keys not to be set, see `conflicts()` */
conflicts?: string | ReadonlyArray<string> | { [key: string]: string | ReadonlyArray<string> };
/** boolean, interpret option as a count of boolean flags, see `count()` */
count?: boolean;
/** value, set a default value for the option, see `default()` */
default?: any;
/** string, use this description for the default value in help content, see `default()` */
defaultDescription?: string;
/**
* @deprecated since version 6.6.0
* Use 'demandOption' instead
*/
demand?: boolean | string;
/** boolean or string, mark the argument as deprecated, see `deprecateOption()` */
deprecate?: boolean | string;
/** boolean or string, mark the argument as deprecated, see `deprecateOption()` */
deprecated?: boolean | string;
/** boolean or string, demand the option be given, with optional error message, see `demandOption()` */
demandOption?: boolean | string;
/** string, the option description for help content, see `describe()` */
desc?: string;
/** string, the option description for help content, see `describe()` */
describe?: string;
/** string, the option description for help content, see `describe()` */
description?: string;
/** boolean, indicate that this key should not be reset when a command is invoked, see `global()` */
global?: boolean;
/** string, when displaying usage instructions place the option under an alternative group heading, see `group()` */
group?: string;
/** don't display option in help output. */
hidden?: boolean;
/** string or object, require certain keys to be set, see `implies()` */
implies?: string | ReadonlyArray<string> | { [key: string]: string | ReadonlyArray<string> };
/** number, specify how many arguments should be consumed for the option, see `nargs()` */
nargs?: number;
/** boolean, apply path.normalize() to the option, see `normalize()` */
normalize?: boolean;
/** boolean, interpret option as a number, `number()` */
number?: boolean;
/**
* @deprecated since version 6.6.0
* Use 'demandOption' instead
*/
require?: boolean | string;
/**
* @deprecated since version 6.6.0
* Use 'demandOption' instead
*/
required?: boolean | string;
/** boolean, require the option be specified with a value, see `requiresArg()` */
requiresArg?: boolean;
/** boolean, skips validation if the option is present, see `skipValidation()` */
skipValidation?: boolean;
/** boolean, interpret option as a string, see `string()` */
string?: boolean;
type?: "array" | "count" | PositionalOptionsType;
}
interface PositionalOptions {
/** string or array of strings, see `alias()` */
alias?: string | ReadonlyArray<string>;
/** boolean, interpret option as an array, see `array()` */
array?: boolean;
/** value or array of values, limit valid option arguments to a predefined set, see `choices()` */
choices?: Choices;
/** function, coerce or transform parsed command line values into another value, see `coerce()` */
coerce?: (arg: any) => any;
/** string or object, require certain keys not to be set, see `conflicts()` */
conflicts?: string | ReadonlyArray<string> | { [key: string]: string | ReadonlyArray<string> };
/** value, set a default value for the option, see `default()` */
default?: any;
/** boolean or string, demand the option be given, with optional error message, see `demandOption()` */
demandOption?: boolean | string;
/** string, the option description for help content, see `describe()` */
desc?: string;
/** string, the option description for help content, see `describe()` */
describe?: string;
/** string, the option description for help content, see `describe()` */
description?: string;
/** string or object, require certain keys to be set, see `implies()` */
implies?: string | ReadonlyArray<string> | { [key: string]: string | ReadonlyArray<string> };
/** boolean, apply path.normalize() to the option, see normalize() */
normalize?: boolean;
type?: PositionalOptionsType;
}
/** Remove keys K in T */
type Omit<T, K> = { [key in Exclude<keyof T, K>]: T[key] };
/** Remove undefined as a possible value for keys K in T */
type Defined<T, K extends keyof T> = Omit<T, K> & { [key in K]: Exclude<T[key], undefined> };
/** Convert T to T[] and T | undefined to T[] | undefined */
type ToArray<T> = Array<Exclude<T, undefined>> | Extract<T, undefined>;
/** Gives string[] if T is an array type, otherwise string. Preserves | undefined. */
type ToString<T> = (Exclude<T, undefined> extends any[] ? string[] : string) | Extract<T, undefined>;
/** Gives number[] if T is an array type, otherwise number. Preserves | undefined. */
type ToNumber<T> = (Exclude<T, undefined> extends any[] ? number[] : number) | Extract<T, undefined>;
type InferredOptionType<O extends Options | PositionalOptions> =
O extends { default: any, coerce: (arg: any) => infer T } ? T :
O extends { default: infer D } ? D :
O extends { type: "count" } ? number :
O extends { count: true } ? number :
O extends { required: string | true } ? RequiredOptionType<O> :
O extends { require: string | true } ? RequiredOptionType<O> :
O extends { demand: string | true } ? RequiredOptionType<O> :
O extends { demandOption: string | true } ? RequiredOptionType<O> :
RequiredOptionType<O> | undefined;
type RequiredOptionType<O extends Options | PositionalOptions> =
O extends { type: "array", string: true } ? string[] :
O extends { type: "array", number: true } ? number[] :
O extends { type: "array", normalize: true } ? string[] :
O extends { type: "string", array: true } ? string[] :
O extends { type: "number", array: true } ? number[] :
O extends { string: true, array: true } ? string[] :
O extends { number: true, array: true } ? number[] :
O extends { normalize: true, array: true } ? string[] :
O extends { type: "array" } ? Array<string | number> :
O extends { type: "boolean" } ? boolean :
O extends { type: "number" } ? number :
O extends { type: "string" } ? string :
O extends { array: true } ? Array<string | number> :
O extends { boolean: true } ? boolean :
O extends { number: true } ? number :
O extends { string: true } ? string :
O extends { normalize: true } ? string :
O extends { choices: ReadonlyArray<infer C> } ? C :
O extends { coerce: (arg: any) => infer T } ? T :
unknown;
type InferredOptionTypes<O extends { [key: string]: Options }> = { [key in keyof O]: InferredOptionType<O[key]> };
interface CommandModule<T = {}, U = {}> {
/** array of strings (or a single string) representing aliases of `exports.command`, positional args defined in an alias are ignored */
aliases?: ReadonlyArray<string> | string;
/** object declaring the options the command accepts, or a function accepting and returning a yargs instance */
builder?: CommandBuilder<T, U>;
/** string (or array of strings) that executes this command when given on the command line, first string may contain positional args */
command?: ReadonlyArray<string> | string;
/** boolean (or string) to show deprecation notice */
deprecated?: boolean | string;
/** string used as the description for the command in help text, use `false` for a hidden command */
describe?: string | false;
/** a function which will be passed the parsed argv. */
handler: (args: Arguments<U>) => void;
}
type ParseCallback<T = {}> = (err: Error | undefined, argv: Arguments<T>, output: string) => void;
type CommandBuilder<T = {}, U = {}> = { [key: string]: Options } | ((args: Argv<T>) => Argv<U>) | ((args: Argv<T>) => PromiseLike<Argv<U>>);
type SyncCompletionFunction = (current: string, argv: any) => string[];
type AsyncCompletionFunction = (current: string, argv: any, done: (completion: ReadonlyArray<string>) => void) => void;
type PromiseCompletionFunction = (current: string, argv: any) => Promise<string[]>;
type MiddlewareFunction<T = {}> = (args: Arguments<T>) => void;
type Choices = ReadonlyArray<string | number | true | undefined>;
type PositionalOptionsType = "boolean" | "number" | "string";
}
declare var yargs: yargs.Argv;
export = yargs;
{
"name": "@types/yargs",
"version": "15.0.13",
"description": "TypeScript definitions for yargs",
"license": "MIT",
"contributors": [
{
"name": "Martin Poelstra",
"url": "https://github.com/poelstra",
"githubUsername": "poelstra"
},
{
"name": "Mizunashi Mana",
"url": "https://github.com/mizunashi-mana",
"githubUsername": "mizunashi-mana"
},
{
"name": "Jeffery Grajkowski",
"url": "https://github.com/pushplay",
"githubUsername": "pushplay"
},
{
"name": "Jimi (Dimitris) Charalampidis",
"url": "https://github.com/JimiC",
"githubUsername": "JimiC"
},
{
"name": "Steffen Viken Valvåg",
"url": "https://github.com/steffenvv",
"githubUsername": "steffenvv"
},
{
"name": "Emily Marigold Klassen",
"url": "https://github.com/forivall",
"githubUsername": "forivall"
},
{
"name": "ExE Boss",
"url": "https://github.com/ExE-Boss",
"githubUsername": "ExE-Boss"
},
{
"name": "Aankhen",
"url": "https://github.com/Aankhen",
"githubUsername": "Aankhen"
}
],
"main": "",
"types": "index.d.ts",
"repository": {
"type": "git",
"url": "https://github.com/DefinitelyTyped/DefinitelyTyped.git",
"directory": "types/yargs"
},
"scripts": {},
"dependencies": {
"@types/yargs-parser": "*"
},
"typesPublisherContentHash": "9dc5dfe6f64e907144ccb7cbdc31a59a4f0d5408c4fe0c0b1975f64ac7d3b312",
"typeScriptVersion": "3.4"
}
\ No newline at end of file
import { Argv } from '.';
export = Yargs;
declare function Yargs(
processArgs?: ReadonlyArray<string>,
cwd?: string,
parentRequire?: NodeRequire,
): Argv;
declare namespace ansiRegex {
interface Options {
/**
Match only the first ANSI escape.
@default false
*/
onlyFirst: boolean;
}
}
/**
Regular expression for matching ANSI escape codes.
@example
```
import ansiRegex = require('ansi-regex');
ansiRegex().test('\u001B[4mcake\u001B[0m');
//=> true
ansiRegex().test('cake');
//=> false
'\u001B[4mcake\u001B[0m'.match(ansiRegex());
//=> ['\u001B[4m', '\u001B[0m']
'\u001B[4mcake\u001B[0m'.match(ansiRegex({onlyFirst: true}));
//=> ['\u001B[4m']
'\u001B]8;;https://github.com\u0007click\u001B]8;;\u0007'.match(ansiRegex());
//=> ['\u001B]8;;https://github.com\u0007', '\u001B]8;;\u0007']
```
*/
declare function ansiRegex(options?: ansiRegex.Options): RegExp;
export = ansiRegex;
'use strict';
module.exports = ({onlyFirst = false} = {}) => {
const pattern = [
'[\\u001B\\u009B][[\\]()#;?]*(?:(?:(?:[a-zA-Z\\d]*(?:;[-a-zA-Z\\d\\/#&.:=?%@~_]*)*)?\\u0007)',
'(?:(?:\\d{1,4}(?:;\\d{0,4})*)?[\\dA-PR-TZcf-ntqry=><~]))'
].join('|');
return new RegExp(pattern, onlyFirst ? undefined : 'g');
};
MIT License
Copyright (c) Sindre Sorhus <sindresorhus@gmail.com> (sindresorhus.com)
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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