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A react renderer for blessed.

Quick Overview

Ink is a React-based library for building command-line interfaces (CLIs) in Node.js. It allows developers to create interactive and visually appealing terminal applications using familiar React components and hooks, making CLI development more intuitive and efficient.

Pros

  • Leverages React's component-based architecture for CLI development
  • Provides a rich set of built-in components for common CLI elements
  • Supports real-time updates and dynamic rendering
  • Offers a familiar development experience for React developers

Cons

  • Learning curve for developers not familiar with React
  • May be overkill for simple CLI applications
  • Limited to Node.js environments
  • Potential performance overhead compared to native CLI tools

Code Examples

  1. Basic "Hello, World!" example:
import React from 'react';
import {render, Text} from 'ink';

const App = () => <Text>Hello, World!</Text>;

render(<App />);
  1. Interactive input example:
import React, {useState} from 'react';
import {render, Text, useInput} from 'ink';

const App = () => {
  const [name, setName] = useState('');

  useInput((input, key) => {
    if (key.return) {
      // Do something with the input
    } else {
      setName(name + input);
    }
  });

  return <Text>Enter your name: {name}</Text>;
};

render(<App />);
  1. Progress bar example:
import React from 'react';
import {render, Box} from 'ink';
import Spinner from 'ink-spinner';

const App = () => (
  <Box>
    <Spinner type="dots" />
    <Text> Loading...</Text>
  </Box>
);

render(<App />);

Getting Started

To start using Ink, follow these steps:

  1. Install Ink in your Node.js project:

    npm install ink react
    
  2. Create a new file (e.g., app.js) and add your Ink application:

    import React from 'react';
    import {render, Text} from 'ink';
    
    const App = () => <Text>Hello from Ink!</Text>;
    
    render(<App />);
    
  3. Run your application:

    node -r esm app.js
    

Note: You may need to install and use esm or set up Babel for ES6 module support in Node.js.

Competitor Comparisons

A framework for building native Windows apps with React.

Pros of React Native Windows

  • Enables building native Windows applications using React Native
  • Supports a wide range of Windows devices and versions
  • Integrates with Windows-specific APIs and features

Cons of React Native Windows

  • Larger learning curve due to Windows-specific components and APIs
  • Limited to Windows platform, reducing cross-platform compatibility
  • Requires more setup and configuration compared to Ink

Code Comparison

Ink (Terminal UI):

import React from 'react';
import {render, Text} from 'ink';

const App = () => <Text>Hello, Ink!</Text>;

render(<App />);

React Native Windows:

import React from 'react';
import {View, Text} from 'react-native';

const App = () => (
  <View>
    <Text>Hello, React Native Windows!</Text>
  </View>
);

export default App;

Summary

Ink is a React-based library for building command-line interfaces, while React Native Windows extends React Native to build native Windows applications. Ink is more lightweight and focused on terminal UIs, whereas React Native Windows offers broader capabilities for Windows app development but with increased complexity and platform-specific considerations.

A framework for building native applications using React

Pros of React Native

  • Enables cross-platform mobile app development for iOS and Android
  • Large ecosystem with extensive libraries and community support
  • Backed by Facebook, ensuring long-term maintenance and updates

Cons of React Native

  • Steeper learning curve for developers new to mobile development
  • Performance can be slower compared to native apps in some scenarios
  • Requires additional configuration and setup for platform-specific features

Code Comparison

React Native:

import React from 'react';
import { View, Text, StyleSheet } from 'react-native';

const App = () => (
  <View style={styles.container}>
    <Text>Hello, React Native!</Text>
  </View>
);

Ink:

import React from 'react';
import { render, Text } from 'ink';

const App = () => <Text>Hello, Ink!</Text>;

render(<App />);

Key Differences

  • React Native focuses on mobile app development, while Ink targets command-line interfaces
  • Ink provides a simpler setup for building CLI tools with React-like syntax
  • React Native offers more comprehensive UI components for mobile interfaces

Use Cases

  • React Native: Developing cross-platform mobile applications
  • Ink: Creating interactive command-line tools and applications

Both projects leverage React's component-based architecture, but cater to different platforms and development needs.

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Pros of Preact

  • Smaller bundle size and faster performance compared to React
  • Compatible with most React libraries and components
  • Easier learning curve for developers familiar with React

Cons of Preact

  • Smaller ecosystem and community compared to Ink's React-based approach
  • Less suitable for complex CLI applications with intricate UI requirements
  • May require additional configuration for certain React-specific features

Code Comparison

Ink (React-based CLI rendering):

import React from 'react';
import {render, Text} from 'ink';

const App = () => <Text>Hello, Ink!</Text>;

render(<App />);

Preact (for web applications):

import { h, render } from 'preact';

const App = () => <h1>Hello, Preact!</h1>;

render(<App />, document.body);

While both use JSX syntax, Ink is specifically designed for CLI applications, whereas Preact is a lightweight alternative to React for web development. Ink provides specialized components for terminal output, while Preact focuses on efficient DOM rendering.

Ink is better suited for building complex CLI interfaces, while Preact excels in creating lightweight web applications. The choice between them depends on the specific project requirements and target environment.

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:fire: An extremely fast, React-like JavaScript library for building modern user interfaces

Pros of Inferno

  • Higher performance and smaller bundle size for web applications
  • More suitable for complex, large-scale web projects
  • Offers a virtual DOM implementation for efficient rendering

Cons of Inferno

  • Steeper learning curve for developers new to virtual DOM concepts
  • Less suitable for command-line interface (CLI) applications
  • Requires additional setup and configuration for web projects

Code Comparison

Ink (React-like syntax for CLI):

import React from 'react';
import {render, Text} from 'ink';

const App = () => <Text>Hello, world!</Text>;

render(<App />);

Inferno (Virtual DOM for web):

import {render} from 'inferno';

const App = () => <div>Hello, world!</div>;

render(<App />, document.getElementById('app'));

Summary

Ink is designed for building CLI applications using React-like syntax, making it ideal for developers familiar with React. It's simpler to set up and use for command-line tools.

Inferno, on the other hand, is a high-performance alternative to React for web applications. It's more suitable for complex web projects that require optimized rendering and smaller bundle sizes.

The choice between Ink and Inferno depends on the target platform (CLI vs. web) and the specific requirements of your project.

8,695

Hyperscript Tagged Markup: JSX alternative using standard tagged templates, with compiler support.

Pros of htm

  • Lightweight and dependency-free, making it ideal for small projects or environments with limited resources
  • Can be used in both browser and Node.js environments without additional setup
  • Supports template literals for a more native JavaScript feel

Cons of htm

  • Less feature-rich compared to Ink, which offers more advanced CLI-specific components
  • May require more manual work for complex CLI interfaces
  • Limited community and ecosystem compared to Ink

Code Comparison

htm:

import { html, render } from 'htm/preact';

const App = () => html`
  <div>
    <h1>Hello, World!</h1>
    <p>This is a simple htm example.</p>
  </div>
`;

render(App, document.body);

Ink:

import React from 'react';
import { render, Text } from 'ink';

const App = () => (
  <Text>
    Hello, World!
    This is a simple Ink example.
  </Text>
);

render(<App />);

Both htm and Ink offer ways to create interactive command-line interfaces using JavaScript. htm provides a lightweight solution with a focus on simplicity and flexibility, while Ink leverages React's power for building more complex CLI applications with a rich set of pre-built components. The choice between them depends on the project's specific requirements and the developer's familiarity with React.

A react renderer for blessed.

Pros of react-blessed

  • Built directly on top of the blessed library, providing a more native terminal UI experience
  • Offers a wider range of pre-built components and layouts specific to terminal interfaces
  • Provides more fine-grained control over terminal-specific features like cursor positioning and colors

Cons of react-blessed

  • Less actively maintained compared to Ink
  • Steeper learning curve due to the need to understand blessed's API alongside React
  • Limited documentation and community support

Code Comparison

react-blessed:

import React from 'react';
import blessed from 'blessed';
import {render} from 'react-blessed';

const App = () => (
  <box label="Hello world!" border={{type: 'line'}}>
    <text content="Hello React!" />
  </box>
);

Ink:

import React from 'react';
import {render, Box, Text} from 'ink';

const App = () => (
  <Box borderStyle="single" borderColor="green">
    <Text>Hello React!</Text>
  </Box>
);

Both libraries allow you to create terminal UIs using React components, but react-blessed provides more terminal-specific features at the cost of complexity, while Ink offers a simpler, more React-like API with better maintenance and community support.

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README




Ink


React for CLIs. Build and test your CLI output using components.

Build Status npm

Ink provides the same component-based UI building experience that React offers in the browser, but for command-line apps. It uses Yoga to build Flexbox layouts in the terminal, so most CSS-like props are available in Ink as well. If you are already familiar with React, you already know Ink.

Since Ink is a React renderer, it means that all features of React are supported. Head over to React website for documentation on how to use it. Only Ink's methods will be documented in this readme.

Note: This is documentation for Ink 4 and 5. If you're looking for docs on Ink 3, check out this release.


Install

npm install ink react

Usage

import React, {useState, useEffect} from 'react';
import {render, Text} from 'ink';

const Counter = () => {
	const [counter, setCounter] = useState(0);

	useEffect(() => {
		const timer = setInterval(() => {
			setCounter(previousCounter => previousCounter + 1);
		}, 100);

		return () => {
			clearInterval(timer);
		};
	}, []);

	return <Text color="green">{counter} tests passed</Text>;
};

render(<Counter />);

You can also check it out live on repl.it sandbox. Feel free to play around with the code and fork this repl at https://repl.it/@vadimdemedes/ink-counter-demo.

Who's Using Ink?

  • GitHub Copilot for CLI - Just say what you want the shell to do.
  • Cloudflare's Wrangler - The CLI for Cloudflare Workers.
  • Linear - Linear built an internal CLI for managing deployments, configs and other housekeeping tasks.
  • Gatsby - Gatsby is a modern web framework for blazing fast websites.
  • tap - A Test-Anything-Protocol library for JavaScript.
  • Terraform CDK - CDK (Cloud Development Kit) for HashiCorp Terraform.
  • Specify CLI - Automate the distribution of your design tokens.
  • Twilio's SIGNAL - CLI for Twilio's SIGNAL conference. Blog post.
  • Typewriter - Generates strongly-typed Segment analytics clients from arbitrary JSON Schema.
  • Prisma - The unified data layer for modern applications.
  • Blitz - The Fullstack React Framework.
  • New York Times - NYT uses Ink kyt - a toolkit that encapsulates and manages the configuration for web apps.
  • tink - Next-generation runtime and package manager.
  • Inkle - Wordle game.
  • loki - Visual regression testing for Storybook.
  • Bit - Build, distribute and collaborate on components.
  • Remirror - Your friendly, world-class editor toolkit.
  • Prime - Open source GraphQL CMS.
  • Splash - Observe the splash zone of a change across the Shopify's Polaris component library.
  • emoj - Find relevant emojis.
  • emma - Find and install npm packages.
  • npm-check-extras - Check for outdated and unused dependencies, and run update/delete action over selected ones.
  • swiff - Multi-environment command line tools for time-saving web developers.
  • share - Quickly share files.
  • Kubelive - CLI for Kubernetes to provide live data about the cluster and its resources.
  • changelog-view - View changelogs.
  • cfpush - An interactive Cloud Foundry tutorial.
  • startd - Turn your React component into a web app.
  • wiki-cli - Search Wikipedia and read summaries.
  • garson - Build interactive config-based command-line interfaces.
  • git-contrib-calendar - Display a contributions calendar for any git repository.
  • gitgud - An interactive command-line GUI for Git.
  • Autarky - Find and delete old node_modules directories in order to free up disk space.
  • fast-cli - Test your download and upload speed.
  • tasuku - Minimal task runner.
  • mnswpr - Minesweeper game.
  • lrn - Learning by repetition.
  • turdle - Wordle game.
  • Shopify CLI - Build apps, themes, and storefronts for Shopify.
  • ToDesktop CLI - An all-in-one platform for building Electron apps.
  • Walle - Full-featured crypto wallet for EVM networks.
  • Sudoku - Sudoku game.

Contents

Getting Started

Use create-ink-app to quickly scaffold a new Ink-based CLI.

npx create-ink-app my-ink-cli

Alternatively, create a TypeScript project:

npx create-ink-app --typescript my-ink-cli
Manual JavaScript setup

Ink requires the same Babel setup as you would do for regular React-based apps in the browser.

Set up Babel with a React preset to ensure all examples in this readme work as expected. After installing Babel, install @babel/preset-react and insert the following configuration in babel.config.json:

npm install --save-dev @babel/preset-react
{
	"presets": ["@babel/preset-react"]
}

Next, create a file source.js, where you'll type code that uses Ink:

import React from 'react';
import {render, Text} from 'ink';

const Demo = () => <Text>Hello World</Text>;

render(<Demo />);

Then, transpile this file with Babel:

npx babel source.js -o cli.js

Now you can run cli.js with Node.js:

node cli

If you don't like transpiling files during development, you can use import-jsx or @esbuild-kit/esm-loader to import a JSX file and transpile it on the fly.

Ink uses Yoga - a Flexbox layout engine to build great user interfaces for your CLIs using familiar CSS-like props you've used when building apps for the browser. It's important to remember that each element is a Flexbox container. Think of it as if each <div> in the browser had display: flex. See <Box> built-in component below for documentation on how to use Flexbox layouts in Ink. Note that all text must be wrapped in a <Text> component.

Components

<Text>

This component can display text, and change its style to make it bold, underline, italic or strikethrough.

import {render, Text} from 'ink';

const Example = () => (
	<>
		<Text color="green">I am green</Text>
		<Text color="black" backgroundColor="white">
			I am black on white
		</Text>
		<Text color="#ffffff">I am white</Text>
		<Text bold>I am bold</Text>
		<Text italic>I am italic</Text>
		<Text underline>I am underline</Text>
		<Text strikethrough>I am strikethrough</Text>
		<Text inverse>I am inversed</Text>
	</>
);

render(<Example />);

Note: <Text> allows only text nodes and nested <Text> components inside of it. For example, <Box> component can't be used inside <Text>.

color

Type: string

Change text color. Ink uses chalk under the hood, so all its functionality is supported.

<Text color="green">Green</Text>
<Text color="#005cc5">Blue</Text>
<Text color="rgb(232, 131, 136)">Red</Text>

backgroundColor

Type: string

Same as color above, but for background.

<Text backgroundColor="green" color="white">Green</Text>
<Text backgroundColor="#005cc5" color="white">Blue</Text>
<Text backgroundColor="rgb(232, 131, 136)" color="white">Red</Text>

dimColor

Type: boolean
Default: false

Dim the color (emit a small amount of light).

<Text color="red" dimColor>
	Dimmed Red
</Text>

bold

Type: boolean
Default: false

Make the text bold.

italic

Type: boolean
Default: false

Make the text italic.

underline

Type: boolean
Default: false

Make the text underlined.

strikethrough

Type: boolean
Default: false

Make the text crossed with a line.

inverse

Type: boolean
Default: false

Inverse background and foreground colors.

<Text inverse color="yellow">
	Inversed Yellow
</Text>

wrap

Type: string
Allowed values: wrap truncate truncate-start truncate-middle truncate-end
Default: wrap

This property tells Ink to wrap or truncate text if its width is larger than container. If wrap is passed (by default), Ink will wrap text and split it into multiple lines. If truncate-* is passed, Ink will truncate text instead, which will result in one line of text with the rest cut off.

<Box width={7}>
	<Text>Hello World</Text>
</Box>
//=> 'Hello\nWorld'

// `truncate` is an alias to `truncate-end`
<Box width={7}>
	<Text wrap="truncate">Hello World</Text>
</Box>
//=> 'Hello…'

<Box width={7}>
	<Text wrap="truncate-middle">Hello World</Text>
</Box>
//=> 'He…ld'

<Box width={7}>
	<Text wrap="truncate-start">Hello World</Text>
</Box>
//=> '…World'

<Box>

<Box> is an essential Ink component to build your layout. It's like <div style="display: flex"> in the browser.

import {render, Box, Text} from 'ink';

const Example = () => (
	<Box margin={2}>
		<Text>This is a box with margin</Text>
	</Box>
);

render(<Example />);

Dimensions

width

Type: number string

Width of the element in spaces. You can also set it in percent, which will calculate the width based on the width of parent element.

<Box width={4}>
	<Text>X</Text>
</Box>
//=> 'X   '
<Box width={10}>
	<Box width="50%">
		<Text>X</Text>
	</Box>
	<Text>Y</Text>
</Box>
//=> 'X    Y'
height

Type: number string

Height of the element in lines (rows). You can also set it in percent, which will calculate the height based on the height of parent element.

<Box height={4}>
	<Text>X</Text>
</Box>
//=> 'X\n\n\n'
<Box height={6} flexDirection="column">
	<Box height="50%">
		<Text>X</Text>
	</Box>
	<Text>Y</Text>
</Box>
//=> 'X\n\n\nY\n\n'
minWidth

Type: number

Sets a minimum width of the element. Percentages aren't supported yet, see https://github.com/facebook/yoga/issues/872.

minHeight

Type: number

Sets a minimum height of the element. Percentages aren't supported yet, see https://github.com/facebook/yoga/issues/872.

Padding

paddingTop

Type: number
Default: 0

Top padding.

paddingBottom

Type: number
Default: 0

Bottom padding.

paddingLeft

Type: number
Default: 0

Left padding.

paddingRight

Type: number
Default: 0

Right padding.

paddingX

Type: number
Default: 0

Horizontal padding. Equivalent to setting paddingLeft and paddingRight.

paddingY

Type: number
Default: 0

Vertical padding. Equivalent to setting paddingTop and paddingBottom.

padding

Type: number
Default: 0

Padding on all sides. Equivalent to setting paddingTop, paddingBottom, paddingLeft and paddingRight.

<Box paddingTop={2}>Top</Box>
<Box paddingBottom={2}>Bottom</Box>
<Box paddingLeft={2}>Left</Box>
<Box paddingRight={2}>Right</Box>
<Box paddingX={2}>Left and right</Box>
<Box paddingY={2}>Top and bottom</Box>
<Box padding={2}>Top, bottom, left and right</Box>

Margin

marginTop

Type: number
Default: 0

Top margin.

marginBottom

Type: number
Default: 0

Bottom margin.

marginLeft

Type: number
Default: 0

Left margin.

marginRight

Type: number
Default: 0

Right margin.

marginX

Type: number
Default: 0

Horizontal margin. Equivalent to setting marginLeft and marginRight.

marginY

Type: number
Default: 0

Vertical margin. Equivalent to setting marginTop and marginBottom.

margin

Type: number
Default: 0

Margin on all sides. Equivalent to setting marginTop, marginBottom, marginLeft and marginRight.

<Box marginTop={2}>Top</Box>
<Box marginBottom={2}>Bottom</Box>
<Box marginLeft={2}>Left</Box>
<Box marginRight={2}>Right</Box>
<Box marginX={2}>Left and right</Box>
<Box marginY={2}>Top and bottom</Box>
<Box margin={2}>Top, bottom, left and right</Box>

Gap

gap

Type: number
Default: 0

Size of the gap between an element's columns and rows. Shorthand for columnGap and rowGap.

<Box gap={1} width={3} flexWrap="wrap">
	<Text>A</Text>
	<Text>B</Text>
	<Text>C</Text>
</Box>
// A B
//
// C

columnGap

Type: number
Default: 0

Size of the gap between an element's columns.

<Box columnGap={1}>
	<Text>A</Text>
	<Text>B</Text>
</Box>
// A B

rowGap

Type: number
Default: 0

Size of the gap between element's rows.

<Box flexDirection="column" rowGap={1}>
	<Text>A</Text>
	<Text>B</Text>
</Box>
// A
//
// B

Flex

flexGrow

Type: number
Default: 0

See flex-grow.

<Box>
	<Text>Label:</Text>
	<Box flexGrow={1}>
		<Text>Fills all remaining space</Text>
	</Box>
</Box>
flexShrink

Type: number
Default: 1

See flex-shrink.

<Box width={20}>
	<Box flexShrink={2} width={10}>
		<Text>Will be 1/4</Text>
	</Box>
	<Box width={10}>
		<Text>Will be 3/4</Text>
	</Box>
</Box>
flexBasis

Type: number string

See flex-basis.

<Box width={6}>
	<Box flexBasis={3}>
		<Text>X</Text>
	</Box>
	<Text>Y</Text>
</Box>
//=> 'X  Y'
<Box width={6}>
	<Box flexBasis="50%">
		<Text>X</Text>
	</Box>
	<Text>Y</Text>
</Box>
//=> 'X  Y'
flexDirection

Type: string
Allowed values: row row-reverse column column-reverse

See flex-direction.

<Box>
	<Box marginRight={1}>
		<Text>X</Text>
	</Box>
	<Text>Y</Text>
</Box>
// X Y

<Box flexDirection="row-reverse">
	<Text>X</Text>
	<Box marginRight={1}>
		<Text>Y</Text>
	</Box>
</Box>
// Y X

<Box flexDirection="column">
	<Text>X</Text>
	<Text>Y</Text>
</Box>
// X
// Y

<Box flexDirection="column-reverse">
	<Text>X</Text>
	<Text>Y</Text>
</Box>
// Y
// X
flexWrap

Type: string
Allowed values: nowrap wrap wrap-reverse

See flex-wrap.

<Box width={2} flexWrap="wrap">
	<Text>A</Text>
	<Text>BC</Text>
</Box>
// A
// B C
<Box flexDirection="column" height={2} flexWrap="wrap">
	<Text>A</Text>
	<Text>B</Text>
	<Text>C</Text>
</Box>
// A C
// B
alignItems

Type: string
Allowed values: flex-start center flex-end

See align-items.

<Box alignItems="flex-start">
	<Box marginRight={1}>
		<Text>X</Text>
	</Box>
	<Text>
		A
		<Newline/>
		B
		<Newline/>
		C
	</Text>
</Box>
// X A
//   B
//   C

<Box alignItems="center">
	<Box marginRight={1}>
		<Text>X</Text>
	</Box>
	<Text>
		A
		<Newline/>
		B
		<Newline/>
		C
	</Text>
</Box>
//   A
// X B
//   C

<Box alignItems="flex-end">
	<Box marginRight={1}>
		<Text>X</Text>
	</Box>
	<Text>
		A
		<Newline/>
		B
		<Newline/>
		C
	</Text>
</Box>
//   A
//   B
// X C
alignSelf

Type: string
Default: auto
Allowed values: auto flex-start center flex-end

See align-self.

<Box height={3}>
	<Box alignSelf="flex-start">
		<Text>X</Text>
	</Box>
</Box>
// X
//
//

<Box height={3}>
	<Box alignSelf="center">
		<Text>X</Text>
	</Box>
</Box>
//
// X
//

<Box height={3}>
	<Box alignSelf="flex-end">
		<Text>X</Text>
	</Box>
</Box>
//
//
// X
justifyContent

Type: string
Allowed values: flex-start center flex-end space-between space-around

See justify-content.

<Box justifyContent="flex-start">
	<Text>X</Text>
</Box>
// [X      ]

<Box justifyContent="center">
	<Text>X</Text>
</Box>
// [   X   ]

<Box justifyContent="flex-end">
	<Text>X</Text>
</Box>
// [      X]

<Box justifyContent="space-between">
	<Text>X</Text>
	<Text>Y</Text>
</Box>
// [X      Y]

<Box justifyContent="space-around">
	<Text>X</Text>
	<Text>Y</Text>
</Box>
// [  X   Y  ]

Visibility

display

Type: string
Allowed values: flex none
Default: flex

Set this property to none to hide the element.

overflowX

Type: string
Allowed values: visible hidden
Default: visible

Behavior for an element's overflow in horizontal direction.

overflowY

Type: string
Allowed values: visible hidden
Default: visible

Behavior for an element's overflow in vertical direction.

overflow

Type: string
Allowed values: visible hidden
Default: visible

Shortcut for setting overflowX and overflowY at the same time.

Borders

borderStyle

Type: string
Allowed values: single double round bold singleDouble doubleSingle classic | BoxStyle

Add a border with a specified style. If borderStyle is undefined (which it is by default), no border will be added. Ink uses border styles from cli-boxes module.

<Box flexDirection="column">
	<Box>
		<Box borderStyle="single" marginRight={2}>
			<Text>single</Text>
		</Box>

		<Box borderStyle="double" marginRight={2}>
			<Text>double</Text>
		</Box>

		<Box borderStyle="round" marginRight={2}>
			<Text>round</Text>
		</Box>

		<Box borderStyle="bold">
			<Text>bold</Text>
		</Box>
	</Box>

	<Box marginTop={1}>
		<Box borderStyle="singleDouble" marginRight={2}>
			<Text>singleDouble</Text>
		</Box>

		<Box borderStyle="doubleSingle" marginRight={2}>
			<Text>doubleSingle</Text>
		</Box>

		<Box borderStyle="classic">
			<Text>classic</Text>
		</Box>
	</Box>
</Box>

Alternatively, pass a custom border style like so:

<Box
	borderStyle={{
		topLeft: '↘',
		top: '↓',
		topRight: '↙',
		left: '→',
		bottomLeft: '↗',
		bottom: '↑',
		bottomRight: '↖',
		right: '←'
	}}
>
	<Text>Custom</Text>
</Box>

See example in examples/borders.

borderColor

Type: string

Change border color. Shorthand for setting borderTopColor, borderRightColor, borderBottomColor and borderLeftColor.

<Box borderStyle="round" borderColor="green">
	<Text>Green Rounded Box</Text>
</Box>
borderTopColor

Type: string

Change top border color. Accepts the same values as color in <Text> component.

<Box borderStyle="round" borderTopColor="green">
	<Text>Hello world</Text>
</Box>
borderRightColor

Type: string

Change right border color. Accepts the same values as color in <Text> component.

<Box borderStyle="round" borderRightColor="green">
	<Text>Hello world</Text>
</Box>
borderRightColor

Type: string

Change right border color. Accepts the same values as color in <Text> component.

<Box borderStyle="round" borderRightColor="green">
	<Text>Hello world</Text>
</Box>
borderBottomColor

Type: string

Change bottom border color. Accepts the same values as color in <Text> component.

<Box borderStyle="round" borderBottomColor="green">
	<Text>Hello world</Text>
</Box>
borderLeftColor

Type: string

Change left border color. Accepts the same values as color in <Text> component.

<Box borderStyle="round" borderLeftColor="green">
	<Text>Hello world</Text>
</Box>
borderDimColor

Type: boolean
Default: false

Dim the border color. Shorthand for setting borderTopDimColor, borderBottomDimColor, borderLeftDimColor and borderRightDimColor.

<Box borderStyle="round" borderDimColor>
	<Text>Hello world</Text>
</Box>
borderTopDimColor

Type: boolean
Default: false

Dim the top border color.

<Box borderStyle="round" borderTopDimColor>
	<Text>Hello world</Text>
</Box>
borderBottomDimColor

Type: boolean
Default: false

Dim the bottom border color.

<Box borderStyle="round" borderBottomDimColor>
	<Text>Hello world</Text>
</Box>
borderLeftDimColor

Type: boolean
Default: false

Dim the left border color.

<Box borderStyle="round" borderLeftDimColor>
	<Text>Hello world</Text>
</Box>
borderRightDimColor

Type: boolean
Default: false

Dim the right border color.

<Box borderStyle="round" borderRightDimColor>
	<Text>Hello world</Text>
</Box>
borderTop

Type: boolean
Default: true

Determines whether top border is visible.

borderRight

Type: boolean
Default: true

Determines whether right border is visible.

borderBottom

Type: boolean
Default: true

Determines whether bottom border is visible.

borderLeft

Type: boolean
Default: true

Determines whether left border is visible.

<Newline>

Adds one or more newline (\n) characters. Must be used within <Text> components.

count

Type: number
Default: 1

Number of newlines to insert.

import {render, Text, Newline} from 'ink';

const Example = () => (
	<Text>
		<Text color="green">Hello</Text>
		<Newline />
		<Text color="red">World</Text>
	</Text>
);

render(<Example />);

Output:

Hello
World

<Spacer>

A flexible space that expands along the major axis of its containing layout. It's useful as a shortcut for filling all the available spaces between elements.

For example, using <Spacer> in a <Box> with default flex direction (row) will position "Left" on the left side and will push "Right" to the right side.

import {render, Box, Text, Spacer} from 'ink';

const Example = () => (
	<Box>
		<Text>Left</Text>
		<Spacer />
		<Text>Right</Text>
	</Box>
);

render(<Example />);

In a vertical flex direction (column), it will position "Top" to the top of the container and push "Bottom" to the bottom of it. Note, that container needs to be tall to enough to see this in effect.

import {render, Box, Text, Spacer} from 'ink';

const Example = () => (
	<Box flexDirection="column" height={10}>
		<Text>Top</Text>
		<Spacer />
		<Text>Bottom</Text>
	</Box>
);

render(<Example />);

<Static>

<Static> component permanently renders its output above everything else. It's useful for displaying activity like completed tasks or logs - things that are not changing after they're rendered (hence the name "Static").

It's preferred to use <Static> for use cases like these, when you can't know or control the amount of items that need to be rendered.

For example, Tap uses <Static> to display a list of completed tests. Gatsby uses it to display a list of generated pages, while still displaying a live progress bar.

import React, {useState, useEffect} from 'react';
import {render, Static, Box, Text} from 'ink';

const Example = () => {
	const [tests, setTests] = useState([]);

	useEffect(() => {
		let completedTests = 0;
		let timer;

		const run = () => {
			// Fake 10 completed tests
			if (completedTests++ < 10) {
				setTests(previousTests => [
					...previousTests,
					{
						id: previousTests.length,
						title: `Test #${previousTests.length + 1}`
					}
				]);

				setTimeout(run, 100);
			}
		};

		run();

		return () => {
			clearTimeout(timer);
		};
	}, []);

	return (
		<>
			{/* This part will be rendered once to the terminal */}
			<Static items={tests}>
				{test => (
					<Box key={test.id}>
						<Text color="green">✔ {test.title}</Text>
					</Box>
				)}
			</Static>

			{/* This part keeps updating as state changes */}
			<Box marginTop={1}>
				<Text dimColor>Completed tests: {tests.length}</Text>
			</Box>
		</>
	);
};

render(<Example />);

Note: <Static> only renders new items in items prop and ignores items that were previously rendered. This means that when you add new items to items array, changes you make to previous items will not trigger a rerender.

See examples/static for an example usage of <Static> component.

items

Type: Array

Array of items of any type to render using a function you pass as a component child.

style

Type: object

Styles to apply to a container of child elements. See <Box> for supported properties.

<Static items={...} style={{padding: 1}}>
	{...}
</Static>

children(item)

Type: Function

Function that is called to render every item in items array. First argument is an item itself and second argument is index of that item in items array.

Note that key must be assigned to the root component.

<Static items={['a', 'b', 'c']}>
	{(item, index) => {
		// This function is called for every item in ['a', 'b', 'c']
		// `item` is 'a', 'b', 'c'
		// `index` is 0, 1, 2
		return (
			<Box key={index}>
				<Text>Item: {item}</Text>
			</Box>
		);
	}}
</Static>

<Transform>

Transform a string representation of React components before they are written to output. For example, you might want to apply a gradient to text, add a clickable link or create some text effects. These use cases can't accept React nodes as input, they are expecting a string. That's what <Transform> component does, it gives you an output string of its child components and lets you transform it in any way.

Note: <Transform> must be applied only to <Text> children components and shouldn't change the dimensions of the output, otherwise layout will be incorrect.

import {render, Transform} from 'ink';

const Example = () => (
	<Transform transform={output => output.toUpperCase()}>
		<Text>Hello World</Text>
	</Transform>
);

render(<Example />);

Since transform function converts all characters to upper case, final output that's rendered to the terminal will be "HELLO WORLD", not "Hello World".

When the output wraps to multiple lines, it can be helpful to know which line is being processed.

For example, to implement a hanging indent component, you can indent all the lines except for the first.

import {render, Transform} from 'ink';

const HangingIndent = ({content, indent = 4, children, ...props}) => (
	<Transform
		transform={(line, index) =>
			index === 0 ? line : ' '.repeat(indent) + line
		}
		{...props}
	>
		{children}
	</Transform>
);

const text =
	'WHEN I WROTE the following pages, or rather the bulk of them, ' +
	'I lived alone, in the woods, a mile from any neighbor, in a ' +
	'house which I had built myself, on the shore of Walden Pond, ' +
	'in Concord, Massachusetts, and earned my living by the labor ' +
	'of my hands only. I lived there two years and two months. At ' +
	'present I am a sojourner in civilized life again.';

// Other text properties are allowed as well
render(
	<HangingIndent bold dimColor indent={4}>
		{text}
	</HangingIndent>
);

transform(outputLine, index)

Type: Function

Function which transforms children output. It accepts children and must return transformed children too.

children

Type: string

Output of child components.

index

Type: number

The zero-indexed line number of the line currently being transformed.

Hooks

useInput(inputHandler, options?)

This hook is used for handling user input. It's a more convenient alternative to using useStdin and listening to data events. The callback you pass to useInput is called for each character when user enters any input. However, if user pastes text and it's more than one character, the callback will be called only once and the whole string will be passed as input. You can find a full example of using useInput at examples/use-input.

import {useInput} from 'ink';

const UserInput = () => {
	useInput((input, key) => {
		if (input === 'q') {
			// Exit program
		}

		if (key.leftArrow) {
			// Left arrow key pressed
		}
	});

	return …
};

inputHandler(input, key)

Type: Function

The handler function that you pass to useInput receives two arguments:

input

Type: string

The input that the program received.

key

Type: object

Handy information about a key that was pressed.

key.leftArrow
key.rightArrow
key.upArrow
key.downArrow

Type: boolean
Default: false

If an arrow key was pressed, the corresponding property will be true. For example, if user presses left arrow key, key.leftArrow equals true.

key.return

Type: boolean
Default: false

Return (Enter) key was pressed.

key.escape

Type: boolean
Default: false

Escape key was pressed.

key.ctrl

Type: boolean
Default: false

Ctrl key was pressed.

key.shift

Type: boolean
Default: false

Shift key was pressed.

key.tab

Type: boolean
Default: false

Tab key was pressed.

key.backspace

Type: boolean
Default: false

Backspace key was pressed.

key.delete

Type: boolean
Default: false

Delete key was pressed.

key.pageDown
key.pageUp

Type: boolean
Default: false

If Page Up or Page Down key was pressed, the corresponding property will be true. For example, if user presses Page Down, key.pageDown equals true.

key.meta

Type: boolean
Default: false

Meta key was pressed.

options

Type: object

isActive

Type: boolean
Default: true

Enable or disable capturing of user input. Useful when there are multiple useInput hooks used at once to avoid handling the same input several times.

useApp()

useApp is a React hook, which exposes a method to manually exit the app (unmount).

exit(error?)

Type: Function

Exit (unmount) the whole Ink app.

error

Type: Error

Optional error. If passed, waitUntilExit will reject with that error.

import {useApp} from 'ink';

const Example = () => {
	const {exit} = useApp();

	// Exit the app after 5 seconds
	useEffect(() => {
		setTimeout(() => {
			exit();
		}, 5000);
	}, []);

	return …
};

useStdin()

useStdin is a React hook, which exposes stdin stream.

stdin

Type: stream.Readable
Default: process.stdin

Stdin stream passed to render() in options.stdin or process.stdin by default. Useful if your app needs to handle user input.

import {useStdin} from 'ink';

const Example = () => {
	const {stdin} = useStdin();

	return …
};

isRawModeSupported

Type: boolean

A boolean flag determining if the current stdin supports setRawMode. A component using setRawMode might want to use isRawModeSupported to nicely fall back in environments where raw mode is not supported.

import {useStdin} from 'ink';

const Example = () => {
	const {isRawModeSupported} = useStdin();

	return isRawModeSupported ? (
		<MyInputComponent />
	) : (
		<MyComponentThatDoesntUseInput />
	);
};

setRawMode(isRawModeEnabled)

Type: function

isRawModeEnabled

Type: boolean

See setRawMode. Ink exposes this function to be able to handle Ctrl+C, that's why you should use Ink's setRawMode instead of process.stdin.setRawMode.

Warning: This function will throw unless the current stdin supports setRawMode. Use isRawModeSupported to detect setRawMode support.

import {useStdin} from 'ink';

const Example = () => {
	const {setRawMode} = useStdin();

	useEffect(() => {
		setRawMode(true);

		return () => {
			setRawMode(false);
		};
	});

	return …
};

useStdout()

useStdout is a React hook, which exposes stdout stream, where Ink renders your app.

stdout

Type: stream.Writable
Default: process.stdout

import {useStdout} from 'ink';

const Example = () => {
	const {stdout} = useStdout();

	return …
};

write(data)

Write any string to stdout, while preserving Ink's output. It's useful when you want to display some external information outside of Ink's rendering and ensure there's no conflict between the two. It's similar to <Static>, except it can't accept components, it only works with strings.

data

Type: string

Data to write to stdout.

import {useStdout} from 'ink';

const Example = () => {
	const {write} = useStdout();

	useEffect(() => {
		// Write a single message to stdout, above Ink's output
		write('Hello from Ink to stdout\n');
	}, []);

	return …
};

See additional usage example in examples/use-stdout.

useStderr()

useStderr is a React hook, which exposes stderr stream.

stderr

Type: stream.Writable
Default: process.stderr

Stderr stream.

import {useStderr} from 'ink';

const Example = () => {
	const {stderr} = useStderr();

	return …
};

write(data)

Write any string to stderr, while preserving Ink's output.

It's useful when you want to display some external information outside of Ink's rendering and ensure there's no conflict between the two. It's similar to <Static>, except it can't accept components, it only works with strings.

data

Type: string

Data to write to stderr.

import {useStderr} from 'ink';

const Example = () => {
	const {write} = useStderr();

	useEffect(() => {
		// Write a single message to stderr, above Ink's output
		write('Hello from Ink to stderr\n');
	}, []);

	return …
};

useFocus(options?)

Component that uses useFocus hook becomes "focusable" to Ink, so when user presses Tab, Ink will switch focus to this component. If there are multiple components that execute useFocus hook, focus will be given to them in the order that these components are rendered in. This hook returns an object with isFocused boolean property, which determines if this component is focused or not.

options

autoFocus

Type: boolean
Default: false

Auto focus this component, if there's no active (focused) component right now.

isActive

Type: boolean
Default: true

Enable or disable this component's focus, while still maintaining its position in the list of focusable components. This is useful for inputs that are temporarily disabled.

id

Type: string
Required: false

Set a component's focus ID, which can be used to programmatically focus the component. This is useful for large interfaces with many focusable elements, to avoid having to cycle through all of them.

import {render, useFocus, Text} from 'ink';

const Example = () => {
	const {isFocused} = useFocus();

	return <Text>{isFocused ? 'I am focused' : 'I am not focused'}</Text>;
};

render(<Example />);

See example in examples/use-focus and examples/use-focus-with-id.

useFocusManager()

This hook exposes methods to enable or disable focus management for all components or manually switch focus to next or previous components.

enableFocus()

Enable focus management for all components.

Note: You don't need to call this method manually, unless you've disabled focus management. Focus management is enabled by default.

import {useFocusManager} from 'ink';

const Example = () => {
	const {enableFocus} = useFocusManager();

	useEffect(() => {
		enableFocus();
	}, []);

	return …
};

disableFocus()

Disable focus management for all components. Currently active component (if there's one) will lose its focus.

import {useFocusManager} from 'ink';

const Example = () => {
	const {disableFocus} = useFocusManager();

	useEffect(() => {
		disableFocus();
	}, []);

	return …
};

focusNext()

Switch focus to the next focusable component. If there's no active component right now, focus will be given to the first focusable component. If active component is the last in the list of focusable components, focus will be switched to the first active component.

Note: Ink calls this method when user presses Tab.

import {useFocusManager} from 'ink';

const Example = () => {
	const {focusNext} = useFocusManager();

	useEffect(() => {
		focusNext();
	}, []);

	return …
};

focusPrevious()

Switch focus to the previous focusable component. If there's no active component right now, focus will be given to the first focusable component. If active component is the first in the list of focusable components, focus will be switched to the last component.

Note: Ink calls this method when user presses Shift+Tab.

import {useFocusManager} from 'ink';

const Example = () => {
	const {focusPrevious} = useFocusManager();

	useEffect(() => {
		focusPrevious();
	}, []);

	return …
};

focus(id)

id

Type: string

Switch focus to the component with the given id. If there's no component with that ID, focus will be given to the next focusable component.

import {useFocusManager, useInput} from 'ink';

const Example = () => {
	const {focus} = useFocusManager();

	useInput(input => {
		if (input === 's') {
			// Focus the component with focus ID 'someId'
			focus('someId');
		}
	});

	return …
};

API

render(tree, options?)

Returns: Instance

Mount a component and render the output.

tree

Type: ReactElement

options

Type: object

stdout

Type: stream.Writable
Default: process.stdout

Output stream where app will be rendered.

stdin

Type: stream.Readable
Default: process.stdin

Input stream where app will listen for input.

exitOnCtrlC

Type: boolean
Default: true

Configure whether Ink should listen to Ctrl+C keyboard input and exit the app. This is needed in case process.stdin is in raw mode, because then Ctrl+C is ignored by default and process is expected to handle it manually.

patchConsole

Type: boolean
Default: true

Patch console methods to ensure console output doesn't mix with Ink output. When any of console.* methods are called (like console.log()), Ink intercepts their output, clears main output, renders output from the console method and then rerenders main output again. That way both are visible and are not overlapping each other.

This functionality is powered by patch-console, so if you need to disable Ink's interception of output but want to build something custom, you can use it.

debug

Type: boolean
Default: false

If true, each update will be rendered as a separate output, without replacing the previous one.

Instance

This is the object that render() returns.

rerender(tree)

Replace previous root node with a new one or update props of the current root node.

tree

Type: ReactElement

// Update props of the root node
const {rerender} = render(<Counter count={1} />);
rerender(<Counter count={2} />);

// Replace root node
const {rerender} = render(<OldCounter />);
rerender(<NewCounter />);
unmount()

Manually unmount the whole Ink app.

const {unmount} = render(<MyApp />);
unmount();
waitUntilExit()

Returns a promise, which resolves when app is unmounted.

const {unmount, waitUntilExit} = render(<MyApp />);

setTimeout(unmount, 1000);

await waitUntilExit(); // resolves after `unmount()` is called
clear()

Clear output.

const {clear} = render(<MyApp />);
clear();

measureElement(ref)

Measure the dimensions of a particular <Box> element. It returns an object with width and height properties. This function is useful when your component needs to know the amount of available space it has. You could use it when you need to change the layout based on the length of its content.

Note: measureElement() returns correct results only after the initial render, when layout has been calculated. Until then, width and height equal to zero. It's recommended to call measureElement() in a useEffect hook, which fires after the component has rendered.

ref

Type: MutableRef

A reference to a <Box> element captured with a ref property. See Refs for more information on how to capture references.

import {render, measureElement, Box, Text} from 'ink';

const Example = () => {
	const ref = useRef();

	useEffect(() => {
		const {width, height} = measureElement(ref.current);
		// width = 100, height = 1
	}, []);

	return (
		<Box width={100}>
			<Box ref={ref}>
				<Text>This box will stretch to 100 width</Text>
			</Box>
		</Box>
	);
};

render(<Example />);

Testing

Ink components are simple to test with ink-testing-library. Here's a simple example that checks how component is rendered:

import React from 'react';
import {Text} from 'ink';
import {render} from 'ink-testing-library';

const Test = () => <Text>Hello World</Text>;
const {lastFrame} = render(<Test />);

lastFrame() === 'Hello World'; //=> true

Check out ink-testing-library for more examples and full documentation.

Using React Devtools

Ink supports React Devtools out-of-the-box. To enable integration with React Devtools in your Ink-based CLI, first ensure you have installed the optional react-devtools-core dependency, and then run your app with DEV=true environment variable:

DEV=true my-cli

Then, start React Devtools itself:

npx react-devtools

After it starts up, you should see the component tree of your CLI. You can even inspect and change the props of components, and see the results immediatelly in the CLI, without restarting it.

Note: You must manually quit your CLI via Ctrl+C after you're done testing.

Useful Components

Useful Hooks

Examples

The examples directory contains a set of real examples. You can run them with:

npm run example examples/[example name]
# e.g. npm run example examples/borders

Maintainers

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