This module defines an implementation of controllers and decorators for using the Context Protocol as defined by the Web Components Community Group.
This protocol facilitates the communication between components lower in the DOM hierarchy with their ancestors, allowing data to be passed down the tree without having to be passed via 'prop drilling' where each element in the path passes on the data.
For further explanation of the Context Protocol please see the community protocol documentation.
There are several different usages of the Context API.
First lets define a context key we can use elsewhere in our examples:
import {createContext} from '@lit/context';
export interface Logger {
log: (msg: string) => void;
}
export const loggerContext = createContext<Logger>('logger');
Now we can define a consumer for this context - some component in our app needs the logger.
Here we're using the @consume
property decorator to make a ContextConsumer
controller
and update its value when the context changes:
import {LitElement, property} from 'lit';
import {consume} from '@lit/context';
import {Logger, loggerContext} from './logger.js';
export class MyElement extends LitElement {
@consume({context: loggerContext, subscribe: true})
@property({attribute: false})
public logger?: Logger;
private doThing() {
this.logger?.log('a thing was done');
}
}
Another way we can use a context in a component is via the ContextConsumer
controller directly:
import {LitElement, property} from 'lit';
import {ContextConsumer} from '@lit/context';
import {Logger, loggerContext} from './logger.js';
export class MyElement extends LitElement {
public logger = new ContextConsumer(
this,
loggerContext,
undefined, // don't need to pass a callback
true // pass true to get updates if the logger changes
);
private doThing() {
this.logger.value?.log('a thing was done');
}
}
Finally we want to be able to provide this context from somewhere higher in the DOM.
Here we're using a @provide
property decorator to make a ContextProvider
controller and update its value when the property value changes.
import {LitElement, property, html} from 'lit';
import {provide} from '@lit/context';
import {loggerContext, Logger} from './logger.js';
export class MyApp extends LitElement {
@provide({context: loggerContext})
@property({attribute: false})
public logger: Logger = {
log: (msg) => {
console.log(`[my-app] ${msg}`);
},
});
protected render(): TemplateResult {
return html`<my-thing></my-thing>`;
}
}
We can also use the ContextProvider
controller directly:
import {LitElement, html} from 'lit';
import {ContextProvider} from '@lit/context';
import {loggerContext, Logger} from './logger.js';
export class MyApp extends LitElement {
// create a provider controller and a default logger
private provider = new ContextProvider(this, loggerContext, {
log: (msg) => {
console.log(`[my-app] ${msg}`);
},
});
protected render(): TemplateResult {
return html`<my-thing></my-thing>`;
}
public setLogger(newLogger: Logger) {
// update the provider with a new logger value
this.provider.setValue(newLogger);
}
}
ContextProvider
can also be used with plain HTML elements. This can be
useful to provide a context provider without introducing a custom element:
import {ContextProvider} from '@lit/context';
import {loggerContext, Logger} from './logger.js';
// create a provider for the whole document body.
const loggingProvider = new ContextProvider(document.body, {
context: loggerContext,
initialValue: {
log: (msg) => {
console.log(`[global] ${msg}`);
},
},
);
If the provider is being added when there is already a consumer registered with
a parent of the specified element or with a ContextRoot
, then
.hostConnected()
must be called on the provider after creating it. This
ensures existing downstream consumers will now get their context values from the
closest parent provider.
In some cases you might have a context providing element that is upgraded late. LightDOM content below this provider may end up requesting a context that is currently not provided by any provider.
To solve this case we provide a ContextRoot
class which can intercept and track unsatisfied context-request
events and then redispatch these requests when providers are updated.
Example usage:
import {ContextRoot} from '@lit/context';
const root = new ContextRoot();
root.attach(document.body);
The ContextRoot
can be attached to any element and it will gather a list of any context requests which are received at the attached element. The ContextProvider
controllers will emit context-provider
events when they are connected to the DOM. These events act as triggers for the ContextRoot
to redispatch these context-request
events from their sources.
This solution has a small overhead, in that if a provider is not within the DOM hierarchy of the unsatisfied requests we are unnecessarily refiring these requests, but this approach is safest and most correct in that it is very hard to manage unstable DOM hierarchies with the semantics of slotting and reparenting that is common in web components implementations.
Note that ContextRoot uses WeakRefs which are not supported in IE11.
You can use the @consume
and @provide
decorators on TypeScript protected
and private
properties, but be aware that there is no type checking between the type of the context and the type of the property. This is because the TypeScript compiler does not make type information for protected or private properties available to decorators. Standard #private
properties are not supported at all.
We expect to fix all of this when we switch to standard decorators. See #3926.
Please see CONTRIBUTING.md.