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Styling view components

Container components offer various ways to affect the way they are rendered on screen.

Styling components

The appearance of UI components can be modified using the style property. This refers to a UIStyle object.

const button = new UIButton("OK");
button.style  // => UIStyle object

UIStyle objects encapsulate the following aspects of a UI component’s appearance:

  • Dimensions — size of the component, and/or minimum and maximum values, as well as grow/shrink behavior similar to the DOM flexbox model (see below).
  • Positioning — placement within the parent component area.
  • Text style — applied to all text within the component (e.g. font weight, style, alignment, color, line height).
  • Control style — common styling that determines the look and feel of ‘controls’ (e.g. buttons, text fields, labels).
  • Container layout — settings for the placement of child components.

Once the UI component is rendered, each of these aspects is controlled by a single object, either taken from the current UIStyle object, or overridden on the component itself (using properties such as dimensions, position, etc.).

const button = new UIButton("OK");
button.dimensions.minWidth  // => 96

However, to change the style of a single component you can’t just change the UIStyle object itself. UIStyle instances are read-only, you’ll need to use one of the following methods instead:

  • Set the style property to a new instance of UIStyle. Note that this replaces all of the existing styles. The individual style properties on the component (dimensions, position, etc) are immediately updated to reflect the new styles.
  • Set the style property to an instance of UIStyle that extends the current style or mixes in individual style properties; see UIStyle.extend and UIStyle.mixin.
  • Override individual properties of the component, such as dimensions with a plain object. The properties of the object override the ones that are contained in the current UIStyle instance.
  • Preset components: set properties such as dimensions to a plain object; this overrides styles immediately after constructing the component.
  • Preset components: alternatively, set the style property of the object passed to with. This does not override the default styles entirely, but rather creates a new UIStyle instance that mixes in given styles. If you pass a string instead, the corresponding style is found in the current theme, i.e. UITheme.current — see examples below.
let myButton = new UIButton();

// replace all styles in one go:
myButton.style = UIStyle.create({
  dimensions: { width: 320 }
// extend current styles:
myButton.style = myButton.style.extend({
  dimensions: { width: 320 }
// override individual style objects:
myButton.dimensions = { width: 320 };

// preset with individual styles:
let TallButton = UIButton.with({
  dimensions: { height: 400 }
// preset with mixed in UIStyle:
let TallButton2 = UIButton.with({
  style: UIStyle.create({
    dimensions: { height: 400 }
// define new global style and mix it in:
UITheme.current.addStyle("TallButton", {
  dimensions: { height: 400 }
let TallButton3 = UIButton.with({
  style: "TallButton"

Cell styling

Unlike other components, UICell containers also include their own properties that control how a cell is presented on screen (on top of the usual styles in UIStyle), including additional spacing in the form of margins and padding, borders, as well as a background color and optional drop shadow.

In general, it’s best to use only UICell components for ‘decorative’ layouts, and avoid styling the elements inside of a cell. For example, to achieve a certain amount of spacing around a label in your UI, wrap the label in a cell instead of applying styles to the label itself.

Measurement in DP

A number of style and cell properties are assigned a ‘length value’, e.g. dimensions, positioning, padding, margin, and border thickness. These can be set to ‘CSS values’ (e.g. 20em, 10vh), but most commonly these are set to ‘dp’ (density independent pixel, or display pixel) values, which represent logical pixels on a screen — not to be confused with physical pixels which may be very small on newer high-density screens.

Numeric values represent such ‘dp’ values, whereas other CSS length values must be passed as strings. Typically UI elements are sized in multiples of 8 dp, which is a reasonable length for the space between two adjacent components on screen as well as minimal padding around grouped input elements.

    dimensions: { width: 512, maxWidth: "50vw" },
    padding: 8,
    borderRadius: 4,
  // ...


A number of style and cell properties are assigned a ‘color value’, for e.g. text and background colors. You can use CSS colors here, but Typescene also supports ‘named’ colors to enable a more consistent look throughout your application.

Default named colors include red, green, blue, black, and white along with some other colors, as well as semantic colors such as primary, accent, background, text, and separator. You can add your own colors using UITheme.addColor on the current theme (see UITheme.current), as well as override the existing ones for an application-specific palette.

Named colors can be used along with other color values:

  • #123, #112233, rgb(256,256,256), rgba(256,256,256,1) have the same meaning as in CSS.
  • @green is substituted with the color green defined in UITheme.colors; named colors can be added and changed using the methods on UITheme.
  • @green-20% takes the color green and darkens by 20%.
  • @green+20% takes the color green and lightens by 20%.
  • @green^-20% takes the color green and darkens light colors, lightens dark colors by 20%.
  • @green^+20% takes the color green and lightens light colors, darkens dark colors by 20%.
  • @green/80% takes the color green and makes it 20% (more) transparent.
  • @green:text is substituted with a contrasting text color (close to black or white) that is readable on the color green — depending on the ‘lightness’ of the named color.

These options can be combined to lighten, darken, apply transparency and find contrasting text colors in any combination.

  background: "@background^-10%",
  borderColor: "@separator",
  borderThickness: 2,
  textColor: "@background^-10%:text/80%"


Typescene offers two ways to toggle component visibility. These are fundamentally different:

  • Using the UI component hidden property — when set to true, the component is not shown at all and doesn’t take up any space in the UI, but it is still rendered. Also any child components are rendered (but invisible), whether this property is set or not.
  • Using a UIConditional wrapper — child component(s) of this special UI component are only rendered if the state property is set to true.
// using `hidden`:
  { hidden: bind("!showRow") },
    text: tt("Hello world! This is always rendered."),

// using a wrapper
  { state: bind("!showRow") },
			text: tt("Hello world! This is wrapped in UIConditional")


Various UI components have an icon property, for displaying an icon next to a text label or on its own. The value of this property is a string value, which refers to an icon by name. Icons are registered by name using the UITheme.addIcon method. This provides a platform-independent and bundler-agnostic way to include any icon set with your application.

The following icons are predefined:

  • blank (no visible icon),
  • close — an × mark,
  • expandDown — a ‘down’ chevron/arrow,
  • menu — the familiar hamburger menu icon,
  • check — a check mark.

As an example, to add all icons from the Feather icon set (installed using NPM) to a Web application, use the following code in your app.ts file:

import * as feather from "feather-icons";
for (let name in feather.icons) {
  let svg = feather.icons[name].toSvg();
  BrowserTheme.current.addIcon(name, svg);

CSS styling (Web)

The BrowserApplication class includes methods for applying arbitrary CSS to your page. The UITheme class provides a better way to add global styles, but if you already have existing CSS files for other purposes you can import those programmatically.


The browser renderer is resolution-independent, and converts all ‘dp’ (pixel) units in your view to fractional rem units. You can change the overall zoom level of your app using this static method:

BrowserApplication.setGlobalDpSize(1.5);  // scale up