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React

React is a popular library for building declarative, component-based UI.

Electric and React

Electric has first-class support for React. We maintain a react-hooks package that provides a number of React Hooks to bind Shape data to your components.

How to use

Install

The package is published on NPM as @electric-sql/react. Install using e.g.:

shell
npm i @electricsql/react

useShape

useShape binds a materialised Shape to a state variable. For example:

tsx
import { useShape } from '@electric-sql/react'

const MyComponent = () => {
  const { isLoading, data } = useShape<{title: string}>({
    url: `http://localhost:3000/v1/shape`,
    table: 'items'
  })

  if (isLoading) {
    return <div>Loading ...</div>
  }

  return (
    <div>
      {data.map(item => <div>{item.title}</div>)}
    </div>
  )
}

useShape takes the same options as ShapeStream. The return value is a UseShapeResult:

tsx
export interface UseShapeResult<T extends Row<unknown> = Row> {
  /**
   * The array of rows that make up the materialised Shape.
   * @type {T[]}
   */
  data: T[]

  /**
   * The Shape instance used by this useShape
   * @type {Shape<T>}
   */
  shape: Shape<T>

  /** True during initial fetch. False afterwise. */
  isLoading: boolean

  /** Unix time at which we last synced. Undefined when `isLoading` is true. */
  lastSyncedAt?: number

  /** Unix time at which we last synced. Undefined when `isLoading` is true. */
  isError: boolean
  error: Shape<T>[`error`]

}

preloadShape

preloadShape is useful to call in route loading functions or elsewhere when you want to ensure Shape data is loaded before rendering a route or component.

tsx
export const clientLoader = async () => {
  return await preloadShape({
    url: `http://localhost:3000/v1/shape`,
    table: 'items'
  })
}

It takes the same options as ShapeStream.

getShapeStream

getShapeStream<T> get-or-creates a ShapeStream off the global cache.

tsx
const itemsStream = getShapeStream<Item>({
  url: `http://localhost:3000/v1/shape`,
  table: 'items'
})

This allows you to avoid consuming multiple streams for the same shape log.

getShape

getShape<T> get-or-creates a Shape off the global cache.

tsx
const itemsShape = getShape<Item>(stream)

This allows you to avoid materialising multiple shapes for the same stream.