mirror of https://github.com/status-im/reagent.git
167 lines
6.2 KiB
Markdown
167 lines
6.2 KiB
Markdown
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# Interop with React
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A little understanding of what reagent is doing really helps when trying to use React libraries and reagent together.
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## Creating React Elements directly
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The `reagent.core/create-element` function simply calls React's `createElement` function (and therefore, it expects either a string representing an HTML element or a React Component).
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As an example, here are four ways to create the same element:
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```clojure
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(defn integration []
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[:div
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[:div.foo "Hello " [:strong "world"]]
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(r/create-element "div"
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#js{:className "foo"}
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"Hello "
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(r/create-element "strong"
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#js{}
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"world"))
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(r/create-element "div"
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#js{:className "foo"}
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"Hello "
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(r/as-element [:strong "world"]))
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[:div.foo "Hello " (r/create-element "strong"
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#js{}
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"world")]])
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(defn mount-root []
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(reagent/render [integration]
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(.getElementById js/document "app")))
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```
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This works because `reagent/render` itself expects (1) a React element or (2) a Hiccup form. If passed an element, it just uses it. If passed a Hiccup, it creats a (cached) React component and then creates an element from that component.
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## Creating React Elements from Hiccup forms
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The `reagent.core/as-element` function creates a React element from a Hiccup form. In the previous section, we discussed how `reagent/render` expects either (1) a Hiccup form or (2) a React Element. If it encounters a Hiccup form, it calls `as-element` on it. When you have a React component that wraps children, you can pass Hiccup forms to it wrapped in `as-element`.
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## Creating Reagent "Components" from React Components
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The function `reagent/adapt-react-class` will turn a React Component into something that can be placed into the first position of a Hiccup form, as if it were a Reagent function. Take, for example the react-flip-move library and assume that it has been properly imported as a React Component called `FlipMove`. By wrapping FlipMove with `adapt-react-class`, we can use it in a Hiccup form:
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```clojure
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(defn top-articles [articles]
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[(reagent/adapt-react-class FlipMove)
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{:duration 750
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:easing "ease-out"}
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articles]
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```
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There is also a convenience mechanism `:>` (colon greater-than) that shortens this and avoid some parenthesis:
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```clojure
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(defn top-articles [articles]
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[:> FlipMove
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{:duration 750
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:easing "ease-out"}
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articles]
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```
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This is the equivalent JavaScript:
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```clojure
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const TopArticles = ({ articles }) => (
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<FlipMove duration={750} easing="ease-out">
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{articles}
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</FlipMove>
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);
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```
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## Creating React Components from Reagent "Components"
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The `reagent/reactify-component` will take a Form-1, Form-2, or Form-3 reagent "component". For example:
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```clojure
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(defn exported [props]
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[:div "Hi, " (:name props)])
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(def react-comp (r/reactify-component exported))
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(defn could-be-jsx []
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(r/create-element react-comp #js{:name "world"}))
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```
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Note:
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* `adapt-react-class` and `reactify-component` are not perfectly symmetrical, because `reactify-component` requires that the reagent component accept everything in a single props map, including its children.
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## Example: "Decorator" Higher-Order Components
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Some React libraries use the decorator pattern: a React component which takes a component as an argument and returns a new component as its result. One example is the React DnD library. We will need to use both `adapt-react-class` and `reactify-component` to move back and forth between React and reagent:
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```clojure
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(defn react-dnd-component
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[]
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(let [decorator (DragDropContext HTML5Backend)]
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[(reagent/adapt-react-class
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(decorator (reagent/reactify-component top-level-component)))]))
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```
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This is the equivalent javascript:
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```clojure
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import HTML5Backend from 'react-dnd-html5-backend';
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import { DragDropContext } from 'react-dnd';
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class TopLevelComponent {
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/* ... */
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}
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export default DragDropContext(HTML5Backend)(TopLevelComponent);
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```
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## Example: Function-as-child Components
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Some React components expect a function as their only child. React autosizer is one such example.
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```clojure
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[(reagent/adapt-react-class AutoSizer)
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{}
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(fn [dims]
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(let [dims (js->clj dims :keywordize-keys true)]
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(reagent/as-element [my-component (:height dims)])))]
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```
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## Getting props and children of current component
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Because you just pass argument to reagent functions, you typically don't need to think about "props" and "children" as distinct things. But reagent does make a distinction and it is helpful to understand this particularly when interoperating with native elements and React libraries.
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Specifically, if the first argument to your reagent function is a map, that is assigned to `this.props` of the underlying reagent component. All other arguments are assigned as children to `this.props.children`.
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When interacting with native React components, it may be helpful to access props and children, which you can do with `reagent.core/current-component`. This function returns an object that allows you retrieve the props and children passed to the current component.
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Beware that `current-component` is only valid in component functions, and must be called outside of e.g event handlers and for expressions, so it’s safest to always put the call at the top, as in `my-div` here:
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```clojure
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(ns example
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(:require [reagent.core :as r]))
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(defn my-div []
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(let [this (r/current-component)]
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(into [:div.custom (r/props this)]
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(r/children this))))
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(defn call-my-div []
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[:div
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[my-div "Some text."]
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[my-div {:style {:font-weight 'bold}}
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[:p "Some other text in bold."]]])
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```
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## React Interop Macros
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Reagent provides two utility macros `$` and `$!` for getting and setting javascript properties in a way that is safe for advanced compilation.
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`($ o :foo)` is equivalent to `(.-foo o)`
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`($ o foo arg1 arg2)` is the same as `(.foo o arg1 arg2)`
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Similarly,
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`($! o :foo 1)` is equivalent to `(set! (.-foo o) 1)`
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Note, these are not necessary if your JavaScript library has an externs file or if externs inference is on and working.
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