React Elements are a way to represent instances of components as data. Components are expected to return React Elements objects. Helix provides a number of helpful tools to aid in Element creation.
The $
macro takes a component type (string, keyword, or symbol referring to a
Component), optionally some props, and any children, and returns a React Element
with that same information, like React.createElement.
($ "div" "hello")
;; => #js {:type "div" :props #js {:children "hello"}}
($ my-component {:data {:foo "bar"}} "red text in a div")
;; => #js {:type my-component :props #js {:data {:foo "bar"}}}
($ my-component ($ "div" "first")
($ "div" "second"
($ "span" "last")))
;; => #js {:type my-component
;; :props #js {:children #js [#js {:type "div"
;; :props #js {:children "first"}}
;; #js {:type "div"
;; :props #js {:children #js ["second"
;; #js {:type "span"
;; :props #js {:children "last"}}]}}]}}
When a map literal is passed to the second argument, it will treat this map as props to provide the component and will be compiled and output as a JS object. This is to avoid converting the map to a JS object at runtime, as well as seamlessly using helix and 3rd party React components together.
This conversion is shallow. If you pass in any CLJS type into a prop, it will be passed in as-is. All keys are converted to strings without any munging.
A few exceptions are documented below.
For "native" elements (in React DOM this is any string like "div", "span", etc.), all prop keys will be converted from kebab-case to camelCase and several props will be specially transformed.
An element is determined to be "native" and be subject to these transformations if:
:native
set to true($ "div" {:style {:color "red"
:background "green"}})
;; => #js {:type "div"
;; :props #js {:style #js {:color "red"
;; :background "green"}}
;; ...}
($ ^:native SomeComponent {:on-click do-thing})
;; => #js {:type SomeComponent :props #js {:onClick do-thing}}
Other special props:
:class
prop is renamed to :className
:for
prop is renamed to :htmlFor
Props that need to be determined at runtime can be passed in and merged with the
props map using the &
or :&
key. This is colloquially referred to as "spread
props", which is a reference to usage of JS' spread operator with JSX. The
syntax is meant to mirror dynamic arity in function definitions.
;; dynamic props
(def extra-props {:prop3 "baz"})
($ my-component {:prop1 "foo" :prop2 "bar" & extra-props})
;; => #js {:type my-component :props #js {:prop1 "foo" :prop2 "bar" :prop3 "baz"}}
Props in the dynamic map will override props that are defined statically.
(def extra-props {:b 3})
($ my-component {:a 1 :b 2 & extra-props})
;; => #js {:type my-component :props #js {:a 1 :b 3}}
You can use either the symbol &
or the keyword :&
, as some tools like
Cursive, joker, etc. use static analysis to find unimported symbols, which
&
looks like. Try and be consistent with which you use, especiallly on a
team!
The helix.dom
namespace contains helper macros for creating React DOM
Elements.
All macros use the same props syntax and rules as $
for native elements.
(ns my-app.feature
(:require [helix.dom :as d]))
(d/div "hello")
(d/div {:style {:color "red"}} "red text")
;; spread props
(d/input {:type "text" & other-props})
helix.core/<>
is a helper macro to create React Fragments
(<> ($ "div") ($ "span"))
;; => #js {:type react/Fragment :props #js {:children #js [ ... ]}}
helix.core/provider
is a helper macro to create a Provider element based on
a React Context value.
(def my-context (react/createContext "default"))
(helix.core/provider
{:context my-context
:value "overrides default value"}
($ some-component)
($ other-component))
;; => #js {:type (.-Provider my-context)
;; :props #js {:value "overrides default value"
;; :children #js [ ... ]}}
helix.core/suspense
is a helper macro to create a React Suspense boundary.
(helix.core/suspense
{:fallback ($ spinner)}
($ "div"
($ other-component)))
;; => #js {:type react/Suspense
;; :props #js {:fallback #js {:type Spinner}}
;; :children #js [ ... ]}
Factory functions can be used instead of calls to $
. Factory functions will
parse their props at runtime from a CLJS map to a JS object, thus being slightly
slower.
(ns my-app.feature
(:require [helix.core :refer [defnc factory]]
[helix.dom :as d]))
(defnc MyComponent [{:keys [name on-click]}]
(d/a {:on-click #(on-click name)}
"Greetings " name "!"))
(def my-component (factory MyComponent))
(my-component {:name "Uma" :on-click #(js/alert (str "hello," %))})
;; => {:type MyComponent
;; :props #js {:name "Uma" :on-click #function[...]}}
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