Liking cljdoc? Tell your friends :D

rehook

Clojars Project CircleCI

Clojurescript React library enabling data-driven architecture

About

rehook is built from small, modular blocks - each with an explicit notion of time, and a data-first design.

The core library does two things:

  • marry React hooks with Clojure atoms
  • avoids singleton state

Its modular design, and guiding philosophy has already enabled some rich tooling like rehook-test.

Example apps

Installation

The documentation assumes you are using shadow-cljs.

You will need to provide your own React dependencies, eg:

npm install --save react
npm install --save react-dom

Libraries

  • rehook/core - base state/effects fns
  • rehook/dom - hiccup templating DSL
  • rehook/test - test library

To include one of the above libraries, add the following to your dependencies:

[rehook/core "2.1.3"]

To include all of them:

[rehook "2.1.3"]

Usage

rehook.core

If you need a primer on React hooks, the API docs are a good start.

rehook.core exposes 5 useful functions for state and effects:

  • use-state convenient wrapper over react/useState
  • use-effect convenient wrapper over react/useEffect
  • use-atom use a Clojure atom (eg, for global app state) within a component
  • use-atom-path like use-atom, except for a path into a atom (eg, get-in)
  • use-atom-fn provide custom getter/setter fns to build your own abstractions

Usage

(ns demo
  (:require
    [rehook.core :as rehook]
    [rehook.dom :refer-macros [defui]]
    [react.dom.browser :as dom.browser]
    ["react-dom" :as react-dom]))

(defn system [] ;; <-- system map (this could be integrant, component, etc)
  {:state (atom {:missiles-fired? false})})

(defui my-component
  [{:keys [state]} ;; <-- context map from bootstrap fn
   props] ;; <-- any props passed from parent component
  (let [[curr-state _]                       (rehook/use-atom state) ;; <-- capture the current value of the atom
        [debug set-debug]                    (rehook/use-state false) ;; <-- local state
        [missiles-fired? set-missiles-fired] (rehook/use-atom-path state [:missiles-fired?])] ;; <-- capture current value of path in atom

    (rehook/use-effect
      (fn []
        (js/console.log (str "Debug set to " debug)) ;; <-- the side-effect invoked after the component mounts and debug's value changes
        (constantly nil)) ;; <-- the side-effect to be invoked when the component unmounts
      [debug])

    [:section {}
      [:div {}
        (if debug
          [:span {:onClick #(set-debug false)} "Hide debug"]
          [:span {:onClick #(set-debug true)} "Show debug"])
        (when debug
          (pr-str curr-state))]

      (if missiles-fired?
        [:div {} "Missiles have been fired!"]
        [:div {:onClick #(set-missiles-fired true)} "Fire missiles"])]))

;; How to render a component to the DOM
(react-dom/render
  (dom.browser/bootstrap
    (system) ;; <-- context map
    identity ;; <-- context transformer
    clj->js ;; <-- props transformer
    my-component) ;; <-- root component
  (js/document.getElementById "myapp"))

Hooks gotchas

  • When using use-effect, make sure the values of deps pass JavaScript's notion of equality! Solution: use simple values instead of complex maps.
  • Enforced via convention, React hooks and effects need to be defined at the top-level of your component (and not bound conditionally)

Components

rehook.dom

rehook.dom provides hiccup syntax.

rehook.dom provides a baggage free way to pass down application context (eg, integrant or component) as you will see below.

defui

rehook.dom/defui is a macro used to define rehook components. This macro is only syntactic sugar, as all rehook components are cljs fns.

defui takes in two arguments:

  • context: immutable, application context
  • props: any props passed to the component. This will be an untouched JS object from React.

It must return valid hiccup.

(ns demo
  (:require [rehook.dom :refer-macros [defui]]))

(defui my-component [{:keys [dispatch]} _]
  [:text {:onClick #(dispatch :fire-missiles)} "Fire missiles!"])

The anonymous counterpart is rehook.dom/ui

fragments

Simply return a collection of hiccup:

(defui fragmented-ui [_ _]
  [[:div {} "Div 1"] [:div {} "Div 2"]])

rehook components

Reference the component directly:

(defui child [_ _]
  [:div {} "I am the child"])

(defui parent [_ _]
  [child])

ReactJS components

Same as rehook components. Reference the component directly:

(require '["react-select" :as ReactSelect])

(defui select [_ props]
  [ReactSelect props])

reagent components

(require '[reagent.core :as r])

(defn my-reagent-component []
  [:div {} "I am a reagent component, I guess..."])

(defui my-rehook-component [_ _]
  [(r/reactify-component my-reagent-component)])

hiccup-free

You can opt-out of hiuccup templating by passing a third argument (the render fn) to defui:

(defui no-html-macro [_ _ $]
  ($ :div {} "rehook-dom without hiccup!"))

Because the $ render fn is passed into every rehook component you can overload it -- or better yet create your own custom templating syntax!

Props

A props transformation fn is passed to the initial bootstrap fn. The return value of this fn must be a JS object.

A good default to use is cljs.core/clj->js.

If you want to maintain Clojure idioms, a library like camel-snake-kebab could be used to convert keys in your props (eg, on-press to onPress)

Props transformation is used for interop with vanilla React components. Therefore, all props passed into rehook do not go through the transformation fn, and remain untouched.

If you need to access the React props in Rehook components (for example, to access children), the JS props computed by React are available as metadata on the props map, under the :react/props key.

You can use the util fn rehook.util/react-props to conveniently extract the React props.

Initializing

react-dom

You can call react-dom/render directly, and bootstrap your component:

(ns example.core
  (:require
    [example.components :refer [app]]
    [rehook.dom.browser :as dom]
    ["react-dom" :as react-dom]))

(defn system []
  {:dispatch (fn [& _] (js/console.log "TODO: implement dispatch fn..."))})

(defn main []
  (react-dom/render
    (dom/bootstrap (system) identity clj->js app)
    (js/document.getElementById "app")))

react-native

You can use the rehook.dom.native/component-provider fn if you directly call AppRegistry

(ns example.core
  (:require
    [rehook.dom :refer-macros [defui]]
    [rehook.dom.native :as dom]
    ["react-native" :refer [AppRegistry]]))

(defui app [{:keys [dispatch]} _]
  [:Text {:onPress #(dispatch :fire-missiles)} "Fire missiles!"])

(defn system []
  {:dispatch (fn [& _] (js/console.log "TODO: implement dispatch fn..."))})

(defn main []
  (.registerComponent AppRegistry "my-app" (dom/component-provider (system) app))

Alternatively, if you don't have access to the AppRegistry, you can use the rehook.dom.native/bootstrap fn instead - which will return a valid React element

Context transformer

The context transformer can be incredibly useful for instrumentation, or for adding additional abstractions on top of the library (eg implementing your own data flow engine ala domino)

For example:

(require '[rehook.util :as util])

(defn ctx-transformer [ctx component]
  (update ctx :log-ctx #(conj (or % []) (util/display-name component))))

(dom/component-provider (system) ctx-transformer clj->js app)

In this example, each component will have the hierarchy of its parents in the DOM tree under the key :log-ctx.

This can be incredibly useful context to pass to your logging/metrics library!

Linting / editor integration

cursive

  • rehook.dom/defui -- resolve as defn, indentation as indent
  • rehook.dom/ui -- resolve as fn, indentation as indent
  • rehook.test/defuitest -- resolve as defn, indentation as indent
  • rehook.test/initial-render -- indentation as 1
  • rehook.test/next-render -- indentation as 1
  • rehook.test/io -- indentation as 1
  • rehook.test/is -- indentation as 1

cljfmt

Add this to your cljfmt config:

TODO: add cljfmt instructions

clj-kondo (calva/etc)

Add this to your .clj-kondo/config.edn file:

TODO: add clj-kondo instructions

Testing

rehook allows you to test your entire application - from data layer to view.

How? Because rehook promotes building applications with no singleton global state.

Therefore, you can treat your components as 'pure functions', as all inputs to the component are passed in as arguments.

rehook-test supports:

rehook-test

Demo

A demo report generated from rehook's own todomvc tests can be found here

Screenshots

Write tests, and get reports like this:

image

And headless node cljs tests!

image

Time-travel driven development

Writing tests for rehook is not dissimilar to how you might test with datomic or Kafka's TopologyTestDriver, with a bit of devcards in the mix.

Each state change produces a snapshot in time that rehook captures as a 'scene'.

Like Kafka's ToplogyTestDriver, the tests run in a simulated library runtime.

However, a read-only snapshot of the dom is rendered for each scene (as you can see above)!

This allows you to catch any runtime errors caused by invalid inputs for each re-render.

rehook.test API

Note: while documentation is improving, please check out the rehook tests for a reference on how to use the API.

rehook.test wraps the cljs.test API with a bit of additional syntactic sugar.

This means rehook tests compile to something cljs.test understands!

(ns todo-test
  (:require [rehook.test :as rehook.test :refer-macros [defuitest is io initial-render next-render]]
            [rehook.demo.todo :as todo]))

(defuitest todo-app--clear-completed
  [[scenes ctx] {:system      todo/system
                 :system-args []
                 :shutdown-f  identity
                 :ctx-f       identity
                 :props-f     identity
                :component   todo/todo-app}]

  (-> (initial-render scenes
        (is "Initial render should show 4 TODO items"
          (= (rehook.test/children :clear-completed) ["Clear completed " 4]))

        (io "Click 'Clear completed'"
          (rehook.test/invoke-prop :clear-completed :onClick [{}])))

      (next-render
       (is "After clicking 'Clear Completed', there should be no TODO items"
         (nil? (rehook.test/children :clear-completed)))))

The -> threading macro is used to chain our tests.

Writing tests consists of using two basic primitives:

  • rehook.test/io - wrapping any side-effects that will trigger a re-render (such as DOM events, HTTP calls, etc)
  • rehook.test/is - like cljs.test/is, this is how you write assertions for the current render

Each test body (consisting of is and io) is scoped to a 'snapshot' of a render:

  • rehook.test/initial-render - called on our first test
  • rehook.test/next-render - trigger a re-render by playing any effects

defuitest

rehook.test/defuitest takes in a map describing your application:

{:system      todo/system ;; <-- your ctx constructor, eg ig/init
 :system-args [] ;; <-- any arguments to your ctx constructor
 :shutdown-f  identity ;; <-- called after the test has finished, eg ig/halt!
 :ctx-f       identity ;; <-- likely the same ctx-f passed into your applications bootstrap call
 :props-f     identity ;; <-- likely the same props-f passed into your applications bootstrap call
 :component   todo/todo-app}] ;; <-- the rehook component your are writing tests for

Instrumenting the DOM

Add a unique key named :rehook/id to the props of any component you want to instrument:

[:div {:rehook/id :my-unique-key} "I will be instrumented!"]

Note: this key gets compiled out when running outside of rehook.test!

You can then invoke props and view the props and children using the following fns:

  • rehook.test/children - returns a collection of children
  • rehook.test/get-prop - returns the props of the component
  • rehook.test/invoke-prop - invokes a component's event (eg, onClick)

You can see these three fns in action in the demo code above.

TODO: provide an easy way to construct mock JS events. Perhaps look to using jsdom?

Testing the data layer

  • The test reports provides a way to view effects and state over time. However, this is provided only as a means of debugging. Both use-state and use-effects are implementation details - and shouldn't be tested.
  • Therefore, rehook-test is about testing the resulting output of the component.
  • If you follow a re-frame like pattern of using global app state, it should be possible to inspect your subscriptions and invoke your effects using the rehook.test primitives. More documentation to follow.

rehook.test reports

Note: the graphical test reporter only works for react-dom tests. It would be great to implement something similar for React Native (using the simulator, expo web preview, etc)!

Create a build in your shadow-cljs.edn file like so:

  {:target :browser
   :output-dir "public/js"
   :asset-path "/js"
   :closure-defines {rehook.test.browser/HTML "<!DOCTYPE html><html><head><link rel=\"stylesheet\" href=\"styles/todo.css\"></head><body><div></div></body></html>" ;; optional, the initial DOM html (eg, the index.html of your actual app)
                     rehook.test/target "app" ;; optional, the div id where rehook's report renders
                     rehook.test/domheight 400} ;; optional, the dom preview's iframe height
   :devtools {:before-load rehook.test/clear-registry!} ;; add this if using hot reload
   :modules {:main {:entries [rehook.test.browser
                              todo-test] ;; <-- your test nses go here...
                    :init-fn rehook.test.browser/report}}}

And you are done!

shadow-cljs watch :my-build-id

Will render your test report. As you update your test/application code, the report will also update!

Inside of the folder dev-http serves, add a report.html file like this one.

rehook.test headless

Add a build in your shadow-cljs.edn file like so:

{:target    :node-test
 :output-to "out/test.js"}

And you are done!

shadow-cljs compile :my-build-id
node out/test.js

Will run your headless tests

rehook.test TODOs

  • Better feedback when things don't go as expected (eg, io call didn't cause a re-render)
  • I want Github-level diffs between the previous scene and the next scene's hiccup. react-diff-viewer?
  • How can we use clojure spec and perhaps property based testing to put this thing on steroids? Eg, instrument and render shrunk result
  • This tool could be used to instrument running app? Eg, reframe10x but on even more steroids :)
  • This tool could lint/detect various warnings/runtime problems. Eg, when a :key on a component is required, when state/effects are setup incorrectly, etc

Can you improve this documentation?Edit on GitHub

cljdoc is a website building & hosting documentation for Clojure/Script libraries

× close