/purescript-react

React Bindings for PureScript

Primary LanguagePureScriptMIT LicenseMIT

purescript-react

Maintainer: ethul Maintainer: paf31 React: 16

Low-level React Bindings for PureScript.

For a more high-level set of bindings, you might like to look at purescript-thermite.

bower install purescript-react

This library requires the react module. This dependency may be satisfied by installing the NPM react package.

npm install react

Related Modules

Example

Please refer to purescript-react-example

Troubleshooting

How to use JavaScript components?

To use a React component that is published as a JavaScript module, one can leverage PureScript's FFI to define a type for the component and its props. Consider the following example.

module Clock (clockComponent) where

import React (ReactClass, SyntheticEventHandler, Children)
import React.SyntheticEvent (SyntheticEvent)

foreign import clockComponent
  :: ReactClass
      { children :: Children
      , format :: String
      , className :: String
      , onTick :: SyntheticEventHandler SyntheticEvent
      }

Rendering the clockComponent can be done as follows.

module Component where

import Prelude

import React as React

import Clock as Clock

clock :: React.ReactElement
clock =
  React.createElement Clock.clockComponent
    { format: "HH:mm:ss"
    , className: "test-class-name"
    , onTick: React.handle $ \event -> do
        React.preventDefault event
        -- etc.
        pure unit
    } []

A consideration when defining a type for an external component is that some components pass their props through to a DOM element. In a case such as this, it can be helpful to leverage the props defined in the React.DOM.Props module. One way to accomplish this is to define the external component as follows.

module Clock
  ( clockComponent
  , format
  , onTick
  ) where

import Prelude

import React (ReactClass, ReactElement, SyntheticEventHandlerContext, Children, createElement, handle)
import React.SyntheticEvent (SyntheticEvent)
import React.DOM.Props (Props, unsafeFromPropsArray, unsafeMkProps)

clockComponent :: Array Props -> Array ReactElement -> ReactElement
clockComponent props children = createElement clockComponent_ (unsafeFromPropsArray props :: {}) children

format :: String -> Props
format = unsafeMkProps "format"

onTick :: forall eff props state. (SyntheticEvent -> SyntheticEventHandlerContext eff props state Unit) -> Props
onTick k = unsafeMkProps "onTick" (handle k)

foreign import clockComponent_
  :: ReactClass
      { children :: Children
      }

Rendering the clockComponent can be done as follows.

module Component where

import Prelude

import React as React
import React.DOM.Props as Props

import Clock as Clock

clock :: React.ReactElement
clock =
  Clock.clockComponent
    [ Clock.format "HH:mm:ss"
    , Clock.onTick $ \event -> do
        React.preventDefault event
        -- etc.
        pure unit
    , Props.className "test-class-name"
    , Props.style
        { fontWeight: "bold"
        , color: "blue"
        }
    -- additional Props.*
    ]
    [ ]

Components with type class constraints re-mount on every render?

Consider the following example where an ordered list component is defined for any item of type a, where a is constrained to have an Ord type class instance.

module OrderedList where

import Prelude

import Data.Array (sort)

import React as React
import React.DOM as DOM
import Debug.Trace as Trace

type OrderedListProps a
  = { items :: Array a
    , renderItem :: a -> React.ReactElement
    }

orderedList :: forall a. Ord a => React.ReactClass (OrderedListProps a)
orderedList = React.component "OrderedList" component
  where
  component this =
    pure { state: {}
         , componentDidMount: do
             _ <- pure $ Trace.spy "OrderedList.componentDidMount"
             pure unit
         , render: render <$> React.getProps this
         }
    where
    render
      { items
      , renderItem
      } =
      DOM.ol [ ] $
        renderItem' <$> sort items
      where
      renderItem' a =
        DOM.li
          [ ]
          [ renderItem a ]

-- This would be defined where the type parameter `a` is known.

orderedListInt :: React.ReactClass (OrderedListProps Int)
orderedListInt = orderedList

If the component orderedList above were to be rendered, the debugging statement OrderedList.componentDidMount is printed to the console each time the parent component is rendered. The reason for this is due to how the orderedList component is compiled to JavaScript.

var orderedList = function (dictOrd) {
  var component = function ($$this) {
    // ...
  };
  return React.component()("OrderedList")(component);
};

Above, the component creation is wrapped by the function with the dictOrd parameter. This means that a new component is being created on each render of the component using orderedList. This may not be ideal in all cases; e.g., if orderedList had needed to store state.

To avoid orderedList from being recreated each time, a function can be defined that specifies the type parameter with the type class contraint. If the component using the ordered list knows that the items are of type Int, the component can define orderedListInt as shown above, and use it to render the ordered list instead of orderedList.