Add a new Widget element to the main window.
In this example you will learn how to add a new tab to JupyterLab.
Visible elements such as tabs and notebooks are represented by widgets in the Lumino library that is the basis of the JupyterLab application.
It is the fundamental brick of any visual component in the JupyterLab interface.
The base widget class can be imported with:
// src/index.ts#L8-L8
import { Message } from '@lumino/messaging';It requires to add the library as package dependency:
jlpm add @lumino/widgetsA Widget can be added to the main area through the JupyterLab Shell.
Inside of the activate function, you can obtain it through the shell attribute
of the app object:
// src/index.ts#L19-L19
requires: [ICommandPalette],Then the widget can be inserted by calling the add method, like in the command defined
in this example:
// src/index.ts#L25-L28
label: 'Open a Tab Widget',
caption: 'Open the Widgets Example Tab',
execute: () => {
const widget = new ExampleWidget();The custom widget ExampleWidget is inherited from the base class Widget.
In this case, no specific behavior is defined for the widget. Only some properties are set:
addClass: Add a CSS class to allow widget stylingid: id of the widget's DOM node - it is mandatory to be set to be included in JupyterLabtitle.label: The widget tab titletitle.closable: Allow the widget tab to be closed
// src/index.ts#L36-L43
export default extension;
class ExampleWidget extends Widget {
constructor() {
super();
this.addClass('jp-example-view');
this.id = 'simple-widget-example';
this.title.label = 'Widget Example View';You can associate style properties to the custom CSS class in the file
style/base.css:
.jp-example-view {
background-color: aliceblue;
cursor: pointer;
}A very often required need for widgets is the ability to react to user events.
As widget is a wrapper around a HTML element accessible through the attribute
this.node, you can add event listeners using the standard API:
// src/index.ts#L69-L75
// The first two events are not linked to a specific callback but
// to this object. In that case, the object method `handleEvent`
// is the function called when an event occurs.
this.node.addEventListener('pointerenter', this);
this.node.addEventListener('pointerleave', this);
// This event will call a specific function when occuring
this.node.addEventListener('click', this._onEventClick.bind(this));The listeners can either be directly a function as for the click event in this
example or the widget (as for pointerenter and pointerleave here). In the
second case, you will need to defined a handleEvent method in the widget that will
be called when an event is triggered:
// src/index.ts#L52-L61
handleEvent(event: Event): void {
switch (event.type) {
case 'pointerenter':
this._onMouseEnter(event);
break;
case 'pointerleave':
this._onMouseLeave(event);
break;
}
}The best place for adding listeners is the method onAfterAttach that is inherited
by the Widget class and is called when the widget is attached to the DOM. And you
should remove the listeners in onBeforeDetach when the widget is about to be detached
from the DOM.
// src/index.ts#L83-L87
protected onBeforeDetach(msg: Message): void {
this.node.removeEventListener('pointerenter', this);
this.node.removeEventListener('pointerleave', this);
this.node.removeEventListener('click', this._onEventClick.bind(this));
}This example uses a command to display the widget. Have a look a the commands example for more information about it.
The widget created in this example is simple. You will find more advanced widgets in the following examples:
- Widget showing a Datagrid
- Widget integrating React components
- Widget interacting with a Kernel
- Extending document widget (like the notebook panel) with a new Toolbar Button