UIX has built-in support for JSX in .tsx
files.
In UIX, JSX is used to create native DOM elements and components in a declarative way. JSX elements can be used interchangeably in both frontend and backend code.
Note
UIX uses a custom JSX flavor called JUSIX which allows writing reactive code in a less verbose way. In order for that to work, make sure to have the Deno for UIX selected as your Deno runtime.
All native DOM elements (e.g. <div>
, <p>
, <img>
, <svg>
...) can be created with JSX and used in your UIX application both on frontend and backend code.
const section =
<div id="section">
<h1 style="font-weight: bold">Title</h1>
<p>First Paragraph</p>
</div>;
In contrast to frameworks such as React, the value returned by above JSX expression is an actual instance of an HTML element (in this case section
is an instance of HTMLDivElement.
This means that you can directly modify created elements using common DOM APIs to update attributes, attach event listeners, or change style or children. You can also append created elements to others, such as appending them directly to the document body:
const myElement = <p>Hello, UIX!</p>;
document.body.append(myElement);
For default DOM elements, all attributes that are natively supported by the element can be used in UIX.
Components support the common DOM element attributes (such as id
, class
, style
or event handlers) by default, and can accept additional custom attributes defined in the component class or function.
In UIX, you can define attributes directly on HTML elements. For example, the class attribute can be assigned a value as follows:
<div class="my-div">
Hello, UIX!
</div>
You can use dynamic values within curly braces {}
in your attributes. This allows you to pass variables or expressions into the element attributes:
const className = 'my-div';
<div class={className}>
Hello, UIX!
</div>
For setting inline styles, UIX allows the use of an object notation within the style attribute. This is done using double curly braces {{}}
such as shown in the following example:
<div style={{color: 'red', backgroundColor: 'yellow'}}>
Styled Text
</div>
Per default common HTML attributes are type safe to use, if you want to define custom data attributes, you can use the data-*
notation. This is useful for embedding custom data that can later be accessed via your applications code. For example:
const myArticle = {
id: 42,
title: 'My article #1'
};
<h1 data-article={myArticle.id}>
{myArticle.title}
</h1>
Thanks to DATEX, elements created with JSX are inherently reactive, even if they are not declared inside a component function like in React. JSX elements accept plain JavaScript values or DATEX Refs as attribute values and element children. Passing plain values does not dynamically update the component:
let myClass = 'xyz';
const myDiv = <div class={myClass}>Hello, UIX!</div>
myClass = 'abc'; // myDiv class is still 'xyz'
To achieve reactive behavior, you can pass in a Ref
value:
let myClass = $('xyz');
const myDiv = <div class={myClass}>Hello, UIX!</div>
myClass.val = 'abc'; // myDiv class is now 'abc'
To manage data binding between reactive Refs
and input elements, we can use the attr
, attr:in
, and attr:out
attributes for greater of data flow. These attributes allow for either bidirectional or unidirectional data binding, depending on the desired interaction between the Ref
and the input.
Input reactivity works with native attributes such as value
or checked
for HTMLInputElement
, HTMLTextAreaElement
, and <select>
elements.
Per default, all attributes are reactive and updated bidirectionally.
This means that if the attribute value is a Ref
, the attribute will be updated when the Ref
value is changed externally, and the Ref
value itself will be updated when the attribute is changed, e.g. by user interaction in an input field:
const inputText = $('Hello');
// add input element to the DOM
document.body.append(
<input type="text" value={inputText}/>
);
// observe inputText changes, log every time the input value changes
observe(
inputText,
val => console.log('Text changed to: ' + val)
);
You can opt for unidirectional data binding to restrict how changes flow between the input element and the Ref.
The value:in
and checked:in
attributes only bind the value of the input element to the reactive Ref
. The flow of data is one-way: when the Ref
is updated, the value of the input or textarea element is updated, but changes in the input field made by the user do not modify the Ref
's value.
const inputText = $('Hello');
// inputText updates will flow into the input field, but typing will not affect inputText
<input type="text" value:in={inputText}/>;
inputText.val = 'Hello, UIX!';
The value:out
and checked:out
attributes bind the input element to the reactive Ref
, but in this case, only changes from the input element will update the Ref
's value. Changes made to the Ref
won't reflect in the input field.
const inputText = $('Hello');
// typing in the input will update inputText, but changes to inputText will not reflect in the input field
<input type="text" value:out={inputText}/>;
Instead of single values, you can also pass in reactive expressions as attribute values or children. Reactive expressions are automatically recalculated when one of the dependencies changes:
const radius = $(0);
<div>
<h1>Circle Area Calculator</h1>
<input type="number" placeholder="Radius" value={radius}/>
<p>Area = { Math.PI * radius ** 2 }</p>
</div>;
The same is true for complex reactive data such as arrays. More information here.
With conditional rendering, specific elements are only rendered if a certain condition is met. There are multiple ways to achieve conditional rendering with UIX.
The simplest way to conditionally render elements is using ternary expressions:
const showDialog = $(false);
const myDiv = <div>
My Div
{ showDialog.val ?
<div id="dialog">My Dialog</div> :
null }
</div>;
Note that instead of showDialog
, the current value of showDialog
(showDialog.val
) is used in the ternary expression.
Otherwise, the ternary operator would always render the element, even if the Ref value is false
because the Ref object itself is always truthy.
Alternatively, you can use the &&
operator to conditionally render elements:
const showDialog = $(false);
const myDiv = <div>
My Div
{ showDialog.val && <div id="dialog">My Dialog</div> }
</div>;
This is especially useful if you want to render an element only if a certain condition is met and you have no need for an else
case.
With the toggle
function, you can achieve the same effect as with the always
function, but it is more efficient, because the return values are only every created once.
The toggle
function toggles between two values, depending on another input condition (in this case, showDialog
):
const showDialog = $(false);
const componentInstance = <MyComponent/>;
const myDiv = <div>
My Div
{toggle(
showDialog, // input trigger property
componentInstance, // rendered if showDialog is true
<span>Nothing to show</span> // rendered if showDialog is false
)}
</div>;
showDialog.val = true;
If the value of showDialog
is updated in the above example the of myDiv
will toggle between componentInstance
and the span
depending if set to true
or false
.
A different approach for conditional rendering is setting the display
style property to a Ref
:
const showDialog = $(false);
const myDiv = <div>
My Div
<div id="dialog" style={{display: showDialog}}>My Dialog</div>
</div>;
When showDialog
is set to false
, display
is none
and the div is not rendered.
Otherwise, display
is block
and the div is visible.
To render a list of elements, you can use the map
function on an array and map it to return an array of JSX elements:
const items = ['Item 1', 'Item 2', 'Item 3'];
<ul>
{items.map(item => <li>{item}</li>)}
</ul>;
This also works with reactive arrays:
const items = $(['Item 1', 'Item 2', 'Item 3']);
const list = <ul>
{items.map(item => <li>{item}</li>)}
</ul>;
// add an item to the list
items.push("Item 4");
You can use other array functions such as filter
, reduce
, forEach
or find
in the same way.
To map over other structures like Sets, which do not natively support the map
method like Arrays, you can use the map
function from DATEX to achieve a similar and reactive outcome. Pass the structure as the first argument, and the callback function for the transformation as the second argument.
const items = $(new Set());
const list = <ul>
{map(items, item => <li>{item}</li>)}
</ul>;
// add an item to the list
items.add("Item 4");
Input validation ensures that user inputs on HTMLInputElement or HTMLSelectElement meet the expected data requirements of their bound Ref
.
In UIX, default input validation is automatically applied to both HTMLInputElement and HTMLSelectElement elements. This guarantees that the value bound to a Ref
remains valid, even when a user attempts to enter invalid data, such as text in a numeric input field. Depending on the input type, the system enforces validation for formats like numbers or bigints to maintain consistent and reliable input data. For non-numeric inputs, UIX will cast the values appropriately (e.g. entering a number in a text field will still result in a text value).
const myValue = $(0);
<input type="number" value={myValue}/>;
To disable the default input validation behaviour or change the validity message shown by the browser on invalid user input the defaultInputValidation
of domUtils
can be used:
import { domUtils } from "uix/app/dom-context.ts";
// Disable validation for <input type="number"/>
domUtils.defaultInputValidation.number.enabled = false;
// Override the validation message (depends on the browser)
domUtils.defaultInputValidation.bigint.message = 'Why, just why?';
In addition to default validation, UIX supports custom validation through assertion methods. These methods allow you to enforce specific rules for properties, such as requiring a Ref
's value to remain within a numeric range or ensuring that it has a specific length, format, or pattern — such as a valid email address.
In the following example, we define a reactive Ref
for a number input and ensure that its value is always less than 42 using the assert()
method.
const myValue = $(0);
myValue.assert((val) => val < 42);
<input type="number" value={myValue}/>;
If a user enters an invalid value — such as a number that doesn't satisfy the validation rule (e.g. 69) — the input state becomes invalid, and the browser will display an error message.
You can enhance and customize this behavior using defaultInputValidation
, which provides more control over how validation errors are presented to the user.
To display custom assertion messages for invalid states, the assert
method and decorator allow returning strings to be displayed as error messages:
assert(val =>
val < 42 || 'Not in range!'
);
You can use the @assert
decorator to apply custom validation logic to your Class component’s reactive instance properties. This allows you to enforce specific rules by providing a callback function that acts as the assertion. Here's an example:
@template(function() {
return <input type="text" value={this.myEmail}/>;
})
class MyForm extends Component {
@assert(val => /\S+@\S+\.\S+/.test(val))
@property myEmail = '[email protected]';
}
Each attribute value can be set to a DATEX pointer. When the pointer value changes, the attribute is updated accordingly.
Some attributes support special values that act as helpers to allow for easier modification, such as event handlers
, style
or class
.
All event listener attributes such as onclick
, onfocus
, or oninput
can take a callback function as value:
const btnDisabled = $(false);
<div>
<button disabled={btnDisabled}>Submit</button>
<button onclick={()=>btnDisabled.val=false}>Enable</button>
<button onclick={()=>btnDisabled.val=true}>Disable</button>
</div>;
The style
attribute accepts a string or an JavaScript object with style declarations. The style properties can be pointer values to allow for reactive updates:
<div style={{color:'blue', padding:'10px'}}/>;
const borderWidth = $(0);
// increase border width every second
setInterval(()=>borderWidth.val++, 1000);
<div style={{borderStyle: 'solid', borderWidth}}>
Hello, UIX!
</div>;
Most style properties accept only string values. However, UIX allows special shortcuts for some CSS properties. The following style properties also take other values:
display
- The display property accepts aboolean
value. If the value istrue
, thedisplay
property is set to the default display value (e.g.display: block
for a div). If the value isfalse
,display
is set tonone
.
The special stylesheet
attribute can be used on JSX elements to apply a whole CSS stylesheet to the scope of the element (See Element-scoped styles).
Similar to the style' attribute, the
class' attribute takes a string or an object.
The object must contain the potential class names as properties and booleans as corresponding values, indicating whether this class should be set or not.
Simple class string:
<div class="main big"/>;
Simple array list:
const myClasses = ['main', 'big'];
<div class={myClasses}/>;
Reactive class object:
const enableBig = $(false);
<div class={{main: true, big: enableBig}}/>; // class is set to "main"
// ...
enableBig.val = true; // class is now "main big"
All attributes that accept a path as a value (e.g. src
and href
) can be set to paths relative to the current module (For additional information check out uix-module
in Supported Attributes).
Relative paths in element attributes are always resolved correctly on the backend and on the frontend.
export default {
'/img1': <img href="../common/images/1.png"/>, // file is in common directory: can be resolved on the frontend
'/img2': <img href="./res/images/2.png"/>, // file is in backend directory: only accessible on the backend, not available on the frontend!
};
export default {
'/img3': <img href="../common/images/3.png"/>, // file is in common directory: can be resolved on the frontend
'/img4': <img href="./res/images/4.png"/>, // file is in frontend directory: accessible on the frontend
};
You can use the special href:route
attribute if you need paths that are relative to the current URL as displayed in the browser:
export default {
'/some/path' : <a href:route="./other-path"/>, // resolves to '/some/other-path'
'/some/other-path': 'Hello there'
};
Instead of assigning string values, the URL
object can also be set as path attribute.
The special checked
attribute of a checkbox element can be used to set or get the checked
state of a checkbox:
const isChecked = $(false);
// Bind the 'checked' state of the checkbox to the isChecked pointer
export default <input type="checkbox" checked={isChecked}/>;
// Observe the pointer
isChecked.observe(checked =>
console.log('checkbox is checked: ' + checked)
);
The action
attribute of a <form>
element can be an URL or string containing the URL of the form request, or a callback function that is triggered on submit.
The return value of that function is rendered on the page and must be a valid Entrypoint value (e.g. an HTML element, a string or a Response
object).
// this function gets called when the form is submitted
function handleForm(ctx: Entrypoint) {
// ...
return "Form submitted";
}
export default
<form action={handleForm}>
<input type="text" name="username"/>
<input type="password" name="password">
<button type="submit">Login</button>
</form>
There are a few special attributes for UIX-specific functionality:
uix-module
- specify the module path which is used as a reference for relative paths, e.g.:This is only required for compatibility with Safari. In other runtime environments (e.g. Deno), the<img uix-module={import.meta.url} src="./relative/path/from/current/module/image.png"/>
import.meta.url
is always automatically inferred and does not have to be explicitly set.datex-pointer
- A boolean set to true if the element should be bound to a pointer. Pointers are automatically created for elements that are sent over DATEX. By default, only class components are automatically bound to a pointer.uix-title
- A string that can be set on a JSX Element to override the title and description meta tags in the<head>
section of the DOM and auto generate OpenGraph meta tags.
Components defined with functions or component classes can also be instantiated with JSX. In addition to the common DOM element attributes, all component options can also be set via type-safe JSX attributes if defined so:
<MyComponent style="color:green" myParameter="Hello UIX!"/>
Fragments represent a minimal document object that has no parent. There are two ways to use fragments within UIX.
You can create HTML DocumentFragments using the <></>
-fragment tags:
<>
<div>Content 1</div>
<div>Content 2</div>
</>
This is equivalent to
<DocumentFragment>
<div>Content 1</div>
<div>Content 2</div>
</DocumentFragment>
A fragment is collapsed into its child elements when appended to another DOM element.
Note
Keep in mind that native DocumentFragments are not reusable. This means that after a fragment was appended to another element, it no longer has any content. If you want to directly return a top-level fragment for an entrypoint, you should always return it from a function, not as a single instantiation:
export default <>Content</>; // Don't do this
export default () => <>Content</>; // This is correct
Alternatively, you can use the uix-fragment element.
A uix-fragment
is a reusable fragment that is part of the actual DOM but is never rendered itself. All of it's children are visible in the DOM. It can be instantiated like this:
<uix-fragment>
<div>Content 1</div>
<div>Content 2</div>
</uix-fragment>
UIX Fragments do not face the reusablity issues of DocumentFragments, but you need to keep in mind that they are always visible to CSS selectors:
<div>
<uix-fragment>
<h1>Title</h1>
</uix-fragment>
</div>
div > h1 {
/* this does not work */
}
div h1 {
/* this works */
}
div > uix-fragment > h1 {
/* this also works */
}
As an alternative to JSX, you can also use the HTML
template string function which provides exactly the same functionality as JSX:
This is how we would do it in JSX:
const count = $(0);
const div =
<div>
<p>Count: {count}</p>
</div> as HTMLDivElement;
If we don't want to use JSX, we can treat the DOM as template string and pass it to the HTML
helper function:
const count = $(0);
const div = HTML `
<div>
<p>Count: ${count}</p>
</div>` as HTMLDivElement;
In contrast to JSX, the HTML
function does not require an extra transpiler step and can also be used in plain .js
files.
Besides JavaScript injections (with ${}
), the HTML
function also supports reactive DATEX code injections with the #()
syntax:
const count = $(0);
const div = HTML `<div>next count: #(${count} + 1)</div>`;
The expression inside #()
is always handled as a transform function that results in a new reactive pointer value.
This is equivalent to a JavaScript always()
transform function
const div = HTML `<div>next count: ${always(() => count + 1)}</div>`;
or a DATEX always
command
const div = HTML `<div>next count: ${always `${count} + 1`}</div>`;
TypeScript has no support for dynamic return types for JSX declarations.
As a result, all JSX-generated elements must be explicitly cast to the correct class for proper HTML type handling. The same applies to elements created with the HTML
helper function.
const anchor = <a href="/link">Link</a> as HTMLAnchorElement;
const anchor = HTML `<a href="/link">Link</a>` as HTMLAnchorElement;