react-draggable vs react-resizable vs react-sizeme vs re-resizable vs react-grid-layout vs react-rnd
React Resizable and Draggable Libraries Comparison
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What's React Resizable and Draggable Libraries?

These libraries provide various functionalities for creating resizable and draggable components in React applications. They allow developers to enhance user interfaces by enabling dynamic layout adjustments and interactive elements. Each library offers unique features and design philosophies, catering to different use cases in web development, from simple draggable elements to complex grid layouts with resizing capabilities.

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react-draggable3,120,7819,199243 kB24221 days agoMIT
react-resizable1,332,5052,526116 kB782 years agoMIT
react-sizeme1,141,8921,959-344 years agoMIT
re-resizable1,103,2672,605139 kB905 months agoMIT
react-grid-layout882,86921,350508 kB24021 days agoMIT
react-rnd319,0994,16786.6 kB1785 months agoMIT
Feature Comparison: react-draggable vs react-resizable vs react-sizeme vs re-resizable vs react-grid-layout vs react-rnd

Draggable Functionality

  • react-draggable:

    Offers a straightforward API for making elements draggable, with support for mouse and touch events, making it easy to implement dragging behavior.

  • react-resizable:

    Does not focus on dragging but can be combined with other libraries to implement draggable behavior if needed.

  • react-sizeme:

    Does not provide dragging capabilities but can be used in conjunction with draggable libraries to manage size dynamically.

  • re-resizable:

    Provides basic draggable functionality, allowing elements to be repositioned within the viewport with minimal setup.

  • react-grid-layout:

    Integrates dragging capabilities within a grid layout, allowing users to rearrange grid items seamlessly while maintaining their positions in the layout.

  • react-rnd:

    Combines both draggable and resizable features, allowing elements to be moved and resized simultaneously, providing a cohesive user experience.

Resizable Functionality

  • react-draggable:

    Does not provide resizing capabilities; it focuses solely on dragging elements.

  • react-resizable:

    Offers extensive options for resizing components, including customizable handles and onResize callbacks for more control over the resizing process.

  • react-sizeme:

    Does not offer resizing features but can work alongside resizable libraries to manage component sizes.

  • re-resizable:

    Allows for easy resizing of elements with customizable handles and constraints, making it suitable for simple use cases.

  • react-grid-layout:

    Supports resizing of grid items, allowing users to adjust the size of components within a grid layout dynamically.

  • react-rnd:

    Provides robust resizing features alongside dragging, allowing for a flexible and interactive user interface.

Customization Options

  • react-draggable:

    Highly customizable with props to control drag behavior, including bounds, axis constraints, and event handling.

  • react-resizable:

    Allows for detailed customization of resizing behavior, including custom handles and event callbacks for more complex interactions.

  • react-sizeme:

    Focuses on size management rather than customization of draggable or resizable features.

  • re-resizable:

    Offers basic customization options for resizing behavior, such as minimum and maximum dimensions, but is generally straightforward and minimalistic.

  • react-grid-layout:

    Provides extensive customization for grid layouts, including breakpoints, layout configurations, and responsive design features.

  • react-rnd:

    Combines customization for both dragging and resizing, allowing developers to define behavior and styles for both functionalities.

Use Cases

  • react-draggable:

    Ideal for applications that require simple drag-and-drop functionality, such as sortable lists or interactive elements.

  • react-resizable:

    Useful in scenarios where components need to be resized independently without dragging, such as resizable panels or modals.

  • react-sizeme:

    Best for responsive applications where component sizes need to adapt based on the viewport or parent dimensions.

  • re-resizable:

    Best suited for simple applications where only resizing is needed, such as image editors or basic layout adjustments.

  • react-grid-layout:

    Perfect for dashboard applications where users need to rearrange widgets and components dynamically.

  • react-rnd:

    Great for applications that require both dragging and resizing, such as interactive design tools or customizable dashboards.

Learning Curve

  • react-draggable:

    Simple API with a low learning curve, allowing developers to implement dragging with minimal effort.

  • react-resizable:

    Requires some understanding of React component lifecycles and state management for effective use, but manageable for most developers.

  • react-sizeme:

    Easy to integrate into existing components, but understanding its responsive behavior may require some additional learning.

  • re-resizable:

    Easy to learn and implement, making it suitable for beginners looking to add resizing functionality quickly.

  • react-grid-layout:

    Moderate learning curve due to its grid system and configuration options, but well-documented for ease of use.

  • react-rnd:

    Combines the learning curves of both draggable and resizable functionalities, but is generally straightforward with good documentation.

How to Choose: react-draggable vs react-resizable vs react-sizeme vs re-resizable vs react-grid-layout vs react-rnd
  • react-draggable:

    Select react-draggable for straightforward dragging capabilities. If your primary requirement is to make elements draggable without resizing, this package is the best fit due to its simplicity and ease of use.

  • react-resizable:

    Use react-resizable when you need a more customizable resizing solution that can be integrated into various components. It provides more control over the resizing behavior compared to re-resizable, making it suitable for more complex layouts.

  • react-sizeme:

    Select react-sizeme when you need to manage component sizes dynamically based on the viewport or parent container. This package is useful for responsive designs where components need to adapt their size based on available space.

  • re-resizable:

    Choose re-resizable if you need a lightweight solution specifically for resizable components with minimal configuration. It is ideal for simple use cases where you want to add resizing functionality without additional overhead.

  • react-grid-layout:

    Opt for react-grid-layout if you are building a complex grid layout that requires both dragging and resizing of grid items. This library is perfect for dashboard-like interfaces where items need to be rearranged dynamically.

  • react-rnd:

    Choose react-rnd if you want a combination of draggable and resizable functionalities in one package. It is highly versatile and allows for both behaviors to be applied seamlessly, making it ideal for applications that require both features.

Similar Npm Packages to react-draggable

react-draggable is a popular library for creating draggable components in React applications. It provides a simple and flexible API to enable drag-and-drop functionality, allowing developers to easily implement draggable elements in their user interfaces. While react-draggable is a great choice for straightforward drag-and-drop needs, there are other libraries in the React ecosystem that offer alternative solutions. Here are a few notable alternatives:

  • react-beautiful-dnd is a powerful library designed specifically for creating beautiful and accessible drag-and-drop interfaces. It provides a higher-level abstraction over the drag-and-drop functionality, making it easier to implement complex drag-and-drop interactions, such as lists and grids. With features like automatic scrolling, keyboard accessibility, and customizable animations, react-beautiful-dnd is an excellent choice for applications that require a polished and user-friendly drag-and-drop experience.
  • react-dnd is another robust library for implementing drag-and-drop functionality in React applications. It offers a more flexible and customizable approach compared to react-draggable, allowing developers to create complex drag-and-drop interactions. With its powerful API, react-dnd supports various drag-and-drop scenarios, including dragging between different lists, custom drag previews, and more. If your application requires advanced drag-and-drop capabilities, react-dnd is a strong contender.
  • react-draggable is the same library mentioned at the beginning, emphasizing its simplicity and ease of use for basic dragging needs. It is particularly well-suited for scenarios where you need to make individual elements draggable without the overhead of more complex drag-and-drop libraries.

To see how these libraries compare, check out the comparison: Comparing react-beautiful-dnd vs react-dnd vs react-draggable.

Similar Npm Packages to react-resizable

react-resizable is a React component library that allows developers to create resizable components easily. It provides a simple API for adding resizable functionality to any element, enabling users to adjust the size of components dynamically. This can be particularly useful in applications that require flexible layouts or user-customizable interfaces. While react-resizable is a great tool for adding resizing capabilities, there are other libraries that offer similar functionalities. Here are a few alternatives:

  • react-draggable is a library that provides draggable functionality for React components. While its primary focus is on enabling drag-and-drop interactions, it can also be combined with other libraries to create resizable components. react-draggable is ideal for applications that require both dragging and resizing capabilities, allowing for a more interactive user experience. If you need to implement features like dragging elements around a canvas or grid, react-draggable is a solid choice.
  • react-grid-layout is a powerful library for creating grid-based layouts in React applications. It supports both draggable and resizable grid items, making it an excellent choice for building complex layouts where components can be rearranged and resized. react-grid-layout is particularly useful for dashboard-like interfaces or applications that require a flexible grid system. If your project involves managing a grid of components that users can manipulate, react-grid-layout offers a comprehensive solution.

To see how react-resizable compares with react-draggable and react-grid-layout, check out the comparison: Comparing react-draggable vs react-grid-layout vs react-resizable.

Similar Npm Packages to react-sizeme

react-sizeme is a React component that provides a simple way to measure the size of a component and respond to its size changes. This library is particularly useful for responsive design, allowing developers to create components that adapt based on their dimensions. By using react-sizeme, you can easily access the width and height of a component and use that information to adjust styles, layout, or functionality accordingly.

While react-sizeme offers a robust solution for size measurement, there are several alternatives in the React ecosystem that also provide similar functionality. Here are a few noteworthy options:

  • react-measure is a React component that allows you to measure the dimensions of a component and respond to size changes. It provides a more flexible API compared to react-sizeme, enabling developers to access size information through a render prop pattern. This can be particularly useful for more complex layouts where you need to measure multiple components or manage size changes in a more granular way. If you require detailed control over size measurements and want to implement custom logic based on those measurements, react-measure is a great choice.

  • react-resize-aware is another lightweight solution for detecting size changes in React components. It uses the ResizeObserver API to listen for changes in size and provides a simple API for handling those changes. react-resize-aware is particularly useful for applications that need to respond to size changes without the overhead of more complex libraries. If you are looking for a minimalistic approach to size detection that integrates seamlessly with React, react-resize-aware is worth considering.

To see how react-sizeme compares with react-measure and react-resize-aware, check out the comparison: Comparing react-measure vs react-resize-aware vs react-sizeme.

Similar Npm Packages to re-resizable

re-resizable is a React component that provides a simple and flexible way to create resizable elements in your applications. It allows users to adjust the size of components dynamically, making it particularly useful for building responsive layouts or customizable user interfaces. The library is lightweight and easy to integrate, offering a straightforward API for developers.

While re-resizable is a great option for adding resizing functionality, there are several alternatives in the React ecosystem that also provide similar capabilities. Here are a few noteworthy alternatives:

  • react-draggable is a library that enables dragging functionality for React components. While it does not specifically handle resizing, it can be combined with other libraries to create draggable and resizable components. If you need to implement drag-and-drop features alongside resizing, react-draggable is a solid choice.
  • react-grid-layout is a powerful library for building responsive grid layouts in React. It allows users to create draggable and resizable grid items, making it ideal for dashboard-like applications. If your project requires a grid-based layout with both drag-and-drop and resizing capabilities, react-grid-layout provides a comprehensive solution.
  • react-resizable is another library focused on providing resizable components. It offers a simple API for creating resizable elements and can be easily integrated into existing React applications. If you are looking for a straightforward way to add resizing functionality without additional features, react-resizable is a good alternative.
  • react-rnd combines both resizing and dragging capabilities into a single component. It allows users to create elements that can be both moved and resized, making it a versatile option for applications that require both functionalities. If you want a comprehensive solution that handles both dragging and resizing, react-rnd is worth considering.
  • react-sizeme is a library that provides size detection for React components. While it does not directly offer resizing functionality, it can be useful for managing responsive layouts by detecting changes in component size. If your application requires size awareness for layout adjustments, react-sizeme can complement other resizing libraries.

To explore how re-resizable compares with these alternatives, check out the comparison: Comparing re-resizable vs react-draggable vs react-grid-layout vs react-resizable vs react-rnd vs react-sizeme.

Similar Npm Packages to react-grid-layout

react-grid-layout is a powerful library for creating responsive grid layouts in React applications. It allows developers to build complex layouts with draggable and resizable grid items, making it ideal for dashboards and applications that require dynamic layouts. With a simple API and support for responsive design, react-grid-layout enables developers to create flexible and user-friendly interfaces.

While react-grid-layout is a robust solution for grid layouts, there are alternatives that may fit different project requirements. Here are a couple of noteworthy options:

  • gridstack is a powerful mobile-friendly TypeScript library for building responsive, draggable, and resizable dashboard layouts. It is framework neutral and works great with Angular (wrapper included), with example for React, Vue, and more. It allows developers to create dynamic and interactive grid interfaces easily, making it ideal for applications that require a flexible layout, such as dashboards and content management systems, complex nested grids and more.

  • react-flexbox-grid is a grid system based on CSS Flexbox. It provides a set of responsive, mobile-first grid components that can easily be integrated into React applications. react-flexbox-grid is designed to be simple and intuitive, making it a great choice for developers who prefer a lightweight grid solution without the complexity of draggable or resizable features. If your project requires a straightforward and flexible grid layout without the need for advanced interactions, react-flexbox-grid is an excellent option.

  • react-grid-system is another alternative that offers a responsive grid layout system for React applications. It provides a simple API for creating grids and managing breakpoints, allowing developers to build responsive layouts with ease. react-grid-system focuses on providing a clean and flexible grid system without the additional features of drag-and-drop or resizing. This makes it a suitable choice for projects that prioritize simplicity and responsiveness over complex interactions.

For a detailed comparison of these packages, check out the link: Comparing gridstack vs react-flexbox-grid vs react-grid-layout vs react-grid-system.

Similar Npm Packages to react-rnd

react-rnd is a powerful library for creating resizable and draggable components in React applications. It combines the functionalities of both resizing and dragging, allowing developers to create flexible and interactive user interfaces. With react-rnd, you can easily implement features like movable panels, resizable containers, and dynamic layouts, making it a versatile choice for building responsive applications.

While react-rnd offers a comprehensive solution for draggable and resizable components, there are several alternatives in the React ecosystem that provide similar functionalities. Here are a few noteworthy options:

  • react-draggable is a simple and lightweight library that focuses solely on making components draggable. It provides an easy-to-use API for enabling drag-and-drop functionality in your React applications. If you only need to implement dragging without the resizing capabilities, react-draggable is an excellent choice. Its simplicity and ease of integration make it suitable for projects that require basic drag-and-drop features.

  • react-grid-layout is a powerful library that allows developers to create responsive grid layouts with draggable and resizable grid items. It is particularly useful for building complex layouts where items can be rearranged and resized dynamically. If your application requires a grid-based layout with advanced features like dragging and resizing, react-grid-layout is a robust option that provides a lot of flexibility and control over the layout.

  • react-resizable is a library that focuses specifically on making components resizable. It provides a simple API for adding resize handles to your components, allowing users to adjust their size interactively. If your primary need is to implement resizing functionality without the dragging aspect, react-resizable is a great choice. It can be used in combination with other libraries to create more complex interactions.

To see how react-rnd compares with react-draggable, react-grid-layout, and react-resizable, check out the comparison: Comparing react-draggable vs react-grid-layout vs react-resizable vs react-rnd.

README for react-draggable

React-Draggable

TravisCI Build Status Appveyor Build Status npm downloads gzip size version

A simple component for making elements draggable.

<Draggable>
  <div>I can now be moved around!</div>
</Draggable>

|Version | Compatibility| |------------|--------------| |4.x | React 16.3+ | |3.x | React 15-16 | |2.x | React 0.14 - 15 | |1.x | React 0.13 - 0.14 | |0.x | React 0.10 - 0.13 |

Technical Documentation

Installing

$ npm install react-draggable

If you aren't using browserify/webpack, a UMD version of react-draggable is available. It is updated per-release only. This bundle is also what is loaded when installing from npm. It expects external React and ReactDOM.

If you want a UMD version of the latest master revision, you can generate it yourself from master by cloning this repository and running $ make. This will create umd dist files in the dist/ folder.

Exports

The default export is <Draggable>. At the .DraggableCore property is <DraggableCore>. Here's how to use it:

// ES6
import Draggable from 'react-draggable'; // The default
import {DraggableCore} from 'react-draggable'; // <DraggableCore>
import Draggable, {DraggableCore} from 'react-draggable'; // Both at the same time

// CommonJS
let Draggable = require('react-draggable');
let DraggableCore = Draggable.DraggableCore;

<Draggable>

A <Draggable> element wraps an existing element and extends it with new event handlers and styles. It does not create a wrapper element in the DOM.

Draggable items are moved using CSS Transforms. This allows items to be dragged regardless of their current positioning (relative, absolute, or static). Elements can also be moved between drags without incident.

If the item you are dragging already has a CSS Transform applied, it will be overwritten by <Draggable>. Use an intermediate wrapper (<Draggable><span>...</span></Draggable>) in this case.

Draggable Usage

View the Demo and its source for more.

import React from 'react';
import ReactDOM from 'react-dom';
import Draggable from 'react-draggable';

class App extends React.Component {

  eventLogger = (e: MouseEvent, data: Object) => {
    console.log('Event: ', e);
    console.log('Data: ', data);
  };

  render() {
    return (
      <Draggable
        axis="x"
        handle=".handle"
        defaultPosition={{x: 0, y: 0}}
        position={null}
        grid={[25, 25]}
        scale={1}
        onStart={this.handleStart}
        onDrag={this.handleDrag}
        onStop={this.handleStop}>
        <div>
          <div className="handle">Drag from here</div>
          <div>This readme is really dragging on...</div>
        </div>
      </Draggable>
    );
  }
}

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

Draggable API

The <Draggable/> component transparently adds draggability to its children.

Note: Only a single child is allowed or an Error will be thrown.

For the <Draggable/> component to correctly attach itself to its child, the child element must provide support for the following props:

  • style is used to give the transform css to the child.
  • className is used to apply the proper classes to the object being dragged.
  • onMouseDown, onMouseUp, onTouchStart, and onTouchEnd are used to keep track of dragging state.

React.DOM elements support the above properties by default, so you may use those elements as children without any changes. If you wish to use a React component you created, you'll need to be sure to transfer prop.

<Draggable> Props:

//
// Types:
//
type DraggableEventHandler = (e: Event, data: DraggableData) => void | false;
type DraggableData = {
  node: HTMLElement,
  // lastX + deltaX === x
  x: number, y: number,
  deltaX: number, deltaY: number,
  lastX: number, lastY: number
};

//
// Props:
//
{
// If set to `true`, will allow dragging on non left-button clicks.
allowAnyClick: boolean,

// Default `false` and default behavior before 4.5.0.
// If set to `true`, the 'touchstart' event will not be prevented,
// which will allow scrolling inside containers. We recommend
// using the 'handle' / 'cancel' props when possible instead of enabling this.
// 
// See https://github.com/react-grid-layout/react-draggable/issues/728
allowMobileScroll: boolean,

// Determines which axis the draggable can move. This only affects
// flushing to the DOM. Callbacks will still include all values.
// Accepted values:
// - `both` allows movement horizontally and vertically (default).
// - `x` limits movement to horizontal axis.
// - `y` limits movement to vertical axis.
// - 'none' stops all movement.
axis: string,

// Specifies movement boundaries. Accepted values:
// - `parent` restricts movement within the node's offsetParent
//    (nearest node with position relative or absolute), or
// - a selector, restricts movement within the targeted node
// - An object with `left, top, right, and bottom` properties.
//   These indicate how far in each direction the draggable
//   can be moved.
bounds: {left?: number, top?: number, right?: number, bottom?: number} | string,

// Specifies a selector to be used to prevent drag initialization. The string is passed to
// Element.matches, so it's possible to use multiple selectors like `.first, .second`.
// Example: '.body'
cancel: string,

// Class names for draggable UI.
// Default to 'react-draggable', 'react-draggable-dragging', and 'react-draggable-dragged'
defaultClassName: string,
defaultClassNameDragging: string,
defaultClassNameDragged: string,

// Specifies the `x` and `y` that the dragged item should start at.
// This is generally not necessary to use (you can use absolute or relative
// positioning of the child directly), but can be helpful for uniformity in
// your callbacks and with css transforms.
defaultPosition: {x: number, y: number},

// If true, will not call any drag handlers.
disabled: boolean,

// Default `true`. Adds "user-select: none" while dragging to avoid selecting text.
enableUserSelectHack: boolean,

// Specifies the x and y that dragging should snap to.
grid: [number, number],

// Specifies a selector to be used as the handle that initiates drag.
// Example: '.handle'
handle: string,

// If desired, you can provide your own offsetParent for drag calculations.
// By default, we use the Draggable's offsetParent. This can be useful for elements
// with odd display types or floats.
offsetParent: HTMLElement,

// Called whenever the user mouses down. Called regardless of handle or
// disabled status.
onMouseDown: (e: MouseEvent) => void,

// Called when dragging starts. If `false` is returned any handler,
// the action will cancel.
onStart: DraggableEventHandler,

// Called while dragging.
onDrag: DraggableEventHandler,

// Called when dragging stops.
onStop: DraggableEventHandler,

// If running in React Strict mode, ReactDOM.findDOMNode() is deprecated.
// Unfortunately, in order for <Draggable> to work properly, we need raw access
// to the underlying DOM node. If you want to avoid the warning, pass a `nodeRef`
// as in this example:
//
// function MyComponent() {
//   const nodeRef = React.useRef(null);
//   return (
//     <Draggable nodeRef={nodeRef}>
//       <div ref={nodeRef}>Example Target</div>
//     </Draggable>
//   );
// }
//
// This can be used for arbitrarily nested components, so long as the ref ends up
// pointing to the actual child DOM node and not a custom component.
//
// For rich components, you need to both forward the ref *and props* to the underlying DOM
// element. Props must be forwarded so that DOM event handlers can be attached. 
// For example:
//
//   const Component1 = React.forwardRef(function (props, ref) {
//     return <div {...props} ref={ref}>Nested component</div>;
//   });
//
//   const nodeRef = React.useRef(null);
//   <DraggableCore onDrag={onDrag} nodeRef={nodeRef}>
//     <Component1 ref={nodeRef} />
//   </DraggableCore>
//
// Thanks to react-transition-group for the inspiration.
//
// `nodeRef` is also available on <DraggableCore>.
nodeRef: React.Ref<typeof React.Component>,

// Much like React form elements, if this property is present, the item
// becomes 'controlled' and is not responsive to user input. Use `position`
// if you need to have direct control of the element.
position: {x: number, y: number}

// A position offset to start with. Useful for giving an initial position
// to the element. Differs from `defaultPosition` in that it does not
// affect the position returned in draggable callbacks, and in that it
// accepts strings, like `{x: '10%', y: '10%'}`.
positionOffset: {x: number | string, y: number | string},

// Specifies the scale of the canvas your are dragging this element on. This allows
// you to, for example, get the correct drag deltas while you are zoomed in or out via
// a transform or matrix in the parent of this element.
scale: number
}

Note that sending className, style, or transform as properties will error - set them on the child element directly.

Controlled vs. Uncontrolled

<Draggable> is a 'batteries-included' component that manages its own state. If you want to completely control the lifecycle of the component, use <DraggableCore>.

For some users, they may want the nice state management that <Draggable> provides, but occasionally want to programmatically reposition their components. <Draggable> allows this customization via a system that is similar to how React handles form components.

If the prop position: {x: number, y: number} is defined, the <Draggable> will ignore its internal state and use the provided position instead. Alternatively, you can seed the position using defaultPosition. Technically, since <Draggable> works only on position deltas, you could also seed the initial position using CSS top/left.

We make one modification to the React philosophy here - we still allow dragging while a component is controlled. We then expect you to use at least an onDrag or onStop handler to synchronize state.

To disable dragging while controlled, send the prop disabled={true} - at this point the <Draggable> will operate like a completely static component.

<DraggableCore>

For users that require absolute control, a <DraggableCore> element is available. This is useful as an abstraction over touch and mouse events, but with full control. <DraggableCore> has no internal state.

See React-Resizable and React-Grid-Layout for some usage examples.

<DraggableCore> is a useful building block for other libraries that simply want to abstract browser-specific quirks and receive callbacks when a user attempts to move an element. It does not set styles or transforms on itself and thus must have callbacks attached to be useful.

DraggableCore API

<DraggableCore> takes a limited subset of options:

{
  allowAnyClick: boolean,
  allowMobileScroll: boolean,
  cancel: string,
  disabled: boolean,
  enableUserSelectHack: boolean,
  offsetParent: HTMLElement,
  grid: [number, number],
  handle: string,
  onStart: DraggableEventHandler,
  onDrag: DraggableEventHandler,
  onStop: DraggableEventHandler,
  onMouseDown: (e: MouseEvent) => void,
  scale: number
}

Note that there is no start position. <DraggableCore> simply calls drag handlers with the below parameters, indicating its position (as inferred from the underlying MouseEvent) and deltas. It is up to the parent to set actual positions on <DraggableCore>.

Drag callbacks (onStart, onDrag, onStop) are called with the same arguments as <Draggable>.

Contributing

  • Fork the project
  • Run the project in development mode: $ npm run dev
  • Make changes.
  • Add appropriate tests
  • $ npm test
  • If tests don't pass, make them pass.
  • Update README with appropriate docs.
  • Commit and PR

Release checklist

  • Update CHANGELOG
  • make release-patch, make release-minor, or make-release-major
  • make publish

License

MIT

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