Huge News!Announcing our $40M Series B led by Abstract Ventures.Learn More
Socket
Sign inDemoInstall
Socket

@shopify/useful-types

Package Overview
Dependencies
Maintainers
19
Versions
65
Alerts
File Explorer

Advanced tools

Socket logo

Install Socket

Detect and block malicious and high-risk dependencies

Install

@shopify/useful-types

A few handy TypeScript types

  • 4.0.3
  • Source
  • npm
  • Socket score

Version published
Weekly downloads
0
Maintainers
19
Weekly downloads
 
Created
Source

@shopify/useful-types

Build Status Build Status License: MIT npm version npm bundle size (minified + gzip)

A few handy TypeScript types.

Installation

$ yarn add @shopify/useful-types

Usage

The following type aliases are provided by this library:

  • ThenType<T>: When T is a promise, resolves to the type the promise will resolve to (Promise<infer U>). Otherwise, resolves to T. Useful when you may or may not have a promise and need to reference the underlying type.

    const value = 'foo';
    const promise = Promise.resolve(value);
    
    type V = ThenType<typeof value>; // string
    type P = ThenType<typeof promise>; // string
    
  • ArgumentAtIndex<T, Index>: Resolves to the type of the argument of the passed function at the passed index. Useful for cases where you wish to extract the type of arguments without actually exporting the argument types, and is a nice complement to TypeScript’s built-in ReturnType.

    const func = (foo: Promise<any>, bar: string) => foo.then(() => bar);
    type Arg1 = ArgumentAtIndex<typeof func, 0>; // Promise<any>
    type Arg2 = ArgumentAtIndex<typeof func, 1>; // string
    type NotAnArg = ArgumentAtIndex<string, 0>; // never
    
  • FirstArgument<T>: Resolves to the type of the first argument to the passed function. This is shorthand for ArgumentAtIndex<T, 0>.

    const func = (foo: Promise<any>) => foo.then(() => 'bar');
    type Arg = FirstArgument<typeof func>; // Promise<any>
    
  • ConstructorArgumentAtIndex<T, Index>: Resolves to the type of the argument of the passed class's constructor at the passed index. Useful for cases where you wish to extract the type of arguments without actually exporting the argument types, and is a nice complement to TypeScript’s built-in ReturnType.

    class SomeClass {
      constructor(floop: string, doop: number) {
        console.log(floop);
      }
    }
    
    type DoopType = ConstructorArgument<typeof SomeClass, 1>; // number
    
  • FirstConstructorArgument<T>: Resolves to the type of the first argument to the passed class's constructor. This is shorthand for ConstructorArgumentAtIndex<T, 0>.

    class SomeClass {
      constructor(floop: string) {
        console.log(floop);
      }
    }
    
    type DoopType = FirstConstructorArgument<typeof SomeClass>; // string
    
  • ArrayElement<T>: When T is an array, resolves to the type contained within the array.

    type FooArray = (string | number)[];
    type Foo = ArrayElement<FooArray>; // string | number
    
  • Omit<T, K extends keyof T>: The opposite of TypeScript’s Pick type. Resolves to a new type that includes all keys in the original except those matching K.

    interface Obj {
      foo: string;
      bar: boolean;
      baz: number;
    }
    
    type SelectiveObj = Omit<Obj, 'foo' | 'bar'>; // {baz: number}
    
  • DeepPartial<T>: Recusively maps over all properties in a type and transforms them to be optional. Useful when you need to make optional all of the properties (and nested properties) of an existing type.

    interface Obj {
      foo: string;
      bar: {
        baz: boolean;
      };
    }
    
    type DeepPartialObj = DeepPartial<Obj>; // {foo?: string; bar?: { baz?: boolean }}
    
  • NoInfer<T>: creates a "lower priority inference site", which allows other uses of a generic to take precedence in inference.

    // Here, TypeScript will always use the type of the items in the `items` argument as `T`, and will not consider the type of the `item` argument of `renderItem`.
    function render<T>(items: T[], renderItem: (item: NoInfer<T>) => string) {
      /* implementation */
    }
    
  • DeepOmit<T, K> Recursively maps over all properties in a type and omits those matching K.

interface Obj {
  __typename: string;
  foo: string;
  bar: {
    __typename: string;
    baz: string;
  };
}

type SelectiveObj = DeepOmit<Obj, '__typename'>; // {foo: string; bar: {baz: string}}
  • DeepOmitArray<T extends any[], K> Iterate over all properties in an array of types and omits those matching K.

    interface Obj {
      __typename: string;
      foo: string;
    }
    
    type SelectiveObj = DeepOmitArray<Obj[], '__typename'>; // {foo: string}[]
    
  • PartialSome<T, K extends keyof T> Make specified keys K of T optional.

    interface Obj {
      foo: string;
      bar: string;
    }
    
    type HalfPartialObj = PartialSome<Obj, 'foo'>; // {foo?: string, bar: string}
    
  • RequireSome<T, K extends keyof T> Make specified keys K of T required.

    interface Obj {
      foo?: string;
      bar?: string;
    }
    
    type HalfRequiredObj = RequireSome<Obj, 'foo'>; // {foo: string, bar?: string}
    

FAQs

Package last updated on 25 Apr 2022

Did you know?

Socket

Socket for GitHub automatically highlights issues in each pull request and monitors the health of all your open source dependencies. Discover the contents of your packages and block harmful activity before you install or update your dependencies.

Install

Related posts

SocketSocket SOC 2 Logo

Product

  • Package Alerts
  • Integrations
  • Docs
  • Pricing
  • FAQ
  • Roadmap
  • Changelog

Packages

npm

Stay in touch

Get open source security insights delivered straight into your inbox.


  • Terms
  • Privacy
  • Security

Made with ⚡️ by Socket Inc