GUI elements are represented as instances of
UIWidget. The GUI is structured like a tree, every widget
can have other widgets as children.
The root of the tree is the
UIManager. The UIManager connects the user interactions with the GUI.
Read more about UIEvents.
Classes of Arcades GUI code are prefixed with UI- to make them easy to identify and search for in autocompletion.
UIWidget are the core of Arcades GUI. A widget represents the behaviour and graphical
representation of any element (like Buttons or Text)
UIWidget has following properties
x and y coordinates (bottom left of the widget), width and height
Child widgets, rendered within this widget A
UIWidgetwill not move or resize its children, use a
tuple of two floats, defines how much of the parents space it would like to occupy (range: 0.0-1.0). For maximal vertical and horizontal expansion, define size_hint of 1 for the axis.
tuple of two ints, defines minimal size of the widget. If set, changing the size of a widget to a lower values will use this size instead.
tuple of two ints, defines maximum size of the widget. If set, changing the size of a widget to a higher values will use this size instead.
size_hint, size_hint_min, and size_hint_max are values that are additional information of a widget, but do not effect the widget on its own.
UILayoutmay use these information to place or resize a widget.
UIWidget.do_render() is called recursively if rendering was requested via
In case widgets have to request their parents to render use
The widget has to draw itself and child widgets within
UIWidget.do_render(). Due to the deferred functionality
render does not have to check any dirty variables, as long as state changes use the trigger function.
For widgets, that might have transparent areas, they have to request a full rendering.
Enforced rendering of the whole GUI might be very expensive!
UILayout and UIWrapper
UILayout are widgets, which reserve the option to move or resize children. They might respect special properties
of a widget like size_hint, size_hint_min, or size_hint_max.
UIWrapper are widgets that are used to wrap a single child widget to apply additional effects
like borders or space around.
Algorithm (WIP, not fully implemented)
UIManager triggers the layout and render process right before the actual frame draw.
This opens the possibility, to adjust to multiple changes only ones.
Executed steps within
collect current size, size_hint, size_hint_min/max of children
calculate the new position and sizes
set position and size of children
recursive call do_layout on child layouts (done after
┌─────────┐ ┌────────┐ ┌────────┐ │UIManager│ │UILayout│ │children│ └────┬────┘ └───┬────┘ └───┬────┘ │ do_layout() ┌┴┐ │ │─────────────────>│ │ │ │ │ │ │ │ │ │ │ │ ╔════════════╪═╪════╤═════════════════════════╪══════════════╗ │ ║ place children │ │ ║ │ ╟────────────────use size, size_hint, ... │ ║ │ ║ │ │ <───────────────────────────── ║ │ ║ │ │ │ ║ │ ║ │ │ set size and pos │ ║ │ ║ │ │ ─────────────────────────────> ║ │ ╚════════════╪═╪══════════════════════════════╪══════════════╝ │ │ │ │ │ │ │ │ │ ╔═══════╤════╪═╪══════════════════════════════╪══════════════╗ │ ║ LOOP │ sub layouts │ ║ │ ╟───────┘ │ │ │ ║ │ ║ │ │ do_layout() │ ║ │ ║ │ │ ─────────────────────────────> ║ │ ╚════════════╪═╪══════════════════════════════╪══════════════╝ │ └┬┘ │ │ │ │ │<─ ─ ─ ─ ─ ─ ─ ─ ─ │ │ ┌────┴────┐ ┌───┴────┐ ┌───┴────┐ │UIManager│ │UILayout│ │children│ └─────────┘ └────────┘ └────────┘
Mixin classes are a base class which can be used to apply some specific behaviour. Currently the available Mixins are still under heavy development.
Constructs are predefined structures of widgets and layouts like a message box or (not yet available) file dialogues.
UIFlatButton- 2D flat button for simple interactions (hover, press, release, click)
UITextureButton- textured button (use
arcade.load_texture()) for simple interactions (hover, press, release, click)
UILabel- Simple text, supports multiline, fits content
UIInputText- field to accept user text input
UITextArea- Multiline scrollable text widget.
UISpriteWidget- Embeds a Sprite within the GUI tree
UIBoxLayout- Places widgets next to each other (vertical or horizontal)
UIPadding- Add space around a widget
UIBorder- Add border around a widget
UIAnchorWidget- Used to position UIWidgets relative on screen
UIMessageBox- Popup box with a message text and a few buttons.
UIDraggableMixin- Makes a widget draggable.
UIMouseFilterMixin- Catches mouse events that occure within the widget boundaries.
UIWindowLikeMixin- Combination of
UIEvents are fully typed dataclasses, which provide information about a event effecting the UI.
Events are passed top down to every
UIWidget by the UIManager.
General pyglet window events are converted by the UIManager into UIEvents and passed via dispatch_event
Widget specific UIEvents like UIOnClick are dispatched via “on_event” and are then dispatched as specific event types (like ‘on_click’)
UIEvent- Base class for all events
UIMouseEvent- Base class for mouse related event
UIMouseMovementEvent- Mouse moves
UIMousePressEvent- Mouse button pressed
UIMouseDragEvent- Mouse pressed and moved (drag)
UIMouseReleaseEvent- Mouse button released
UIMouseScrollEvent- Mouse scolls
UITextEvent- Text input from user
UITextMotionEvent- Text motion events like arrows
UITextMotionSelectEvent- Text motion events for selection
UIOnClickEvent- Click event of
UIOnChangeEvent- A value of a
UIOnUpdateEvent- arcade.Window on_update callback
Different Event Systems
The GUI uses different event systems, dependent on the required flow. A game developer should mostly interact with UIEvents
which are dispatched from specific UIWidgets like
on_click of a button.
In rare cases a developer might implement some UIWidgets or wants to modify the existing GUI behavior. In those cases a
developer might register own Pyglet event types on UIWidgets or overwrite the
### Pyglet Window Events
Received by UIManager, dispatched via
Window Events are wrapped into subclasses of UIEvent.
### Pyglet EventDispatcher - UIWidget
UIWidgets implement Pyglets EventDispatcher and register an
on_event event type.
UIWidget.on_event contains specific event handling and should not be overwritten without deeper understanding of the consequences.
To add custom event handling use the decorator syntax to add another listener (
UIEvents are typed representations of events that are passed within the GUI. UIWidgets might define their own UIEvents.
_Property is an internal, experimental, pure-Python implementation of Kivy Properties. They are used to detect attribute
changes of UIWidgets and trigger rendering. They should only be used in arcade internal code.