Crate tao

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Tao is a cross-platform application window creation and event loop management library.

Building windows

Before you can build a Window, you first need to build an EventLoop. This is done with the EventLoop::new() function.

use tao::event_loop::EventLoop;
let event_loop = EventLoop::new();

Once this is done there are two ways to create a Window:

The first method is the simplest, and will give you default values for everything. The second method allows you to customize the way your Window will look and behave by modifying the fields of the WindowBuilder object before you create the Window.

Event handling

Once a Window has been created, it will generate different events. A Window object can generate WindowEvents when certain input events occur, such as a cursor moving over the window or a key getting pressed while the window is focused. Devices can generate DeviceEvents, which contain unfiltered event data that isn’t specific to a certain window. Some user activity, like mouse movement, can generate both a WindowEvent and a DeviceEvent. You can also create and handle your own custom UserEvents, if desired.

You can retrieve events by calling EventLoop::run. This function will dispatch events for every Window that was created with that particular EventLoop, and will run until the control_flow argument given to the closure is set to ControlFlow::ExitWithCode (which ControlFlow::Exit aliases to), at which point Event::LoopDestroyed is emitted and the entire program terminates.

Tao no longer uses a EventLoop::poll_events() -> impl Iterator<Event>-based event loop model, since that can’t be implemented properly on some platforms (e.g web, iOS) and works poorly on most other platforms. However, this model can be re-implemented to an extent with EventLoopExtRunReturn::run_return. See that method’s documentation for more reasons about why it’s discouraged, beyond compatibility reasons.

use tao::{
    event::{Event, WindowEvent},
    event_loop::{ControlFlow, EventLoop},
    window::WindowBuilder,
};

let event_loop = EventLoop::new();
let window = WindowBuilder::new().build(&event_loop).unwrap();

event_loop.run(move |event, _, control_flow| {
    // ControlFlow::Poll continuously runs the event loop, even if the OS hasn't
    // dispatched any events. This is ideal for games and similar applications.
    *control_flow = ControlFlow::Poll;

    // ControlFlow::Wait pauses the event loop if no events are available to process.
    // This is ideal for non-game applications that only update in response to user
    // input, and uses significantly less power/CPU time than ControlFlow::Poll.
    *control_flow = ControlFlow::Wait;

    match event {
        Event::WindowEvent {
            event: WindowEvent::CloseRequested,
            ..
        } => {
            println!("The close button was pressed; stopping");
            *control_flow = ControlFlow::Exit
        },
        Event::MainEventsCleared => {
            // Application update code.

            // Queue a RedrawRequested event.
            //
            // You only need to call this if you've determined that you need to redraw, in
            // applications which do not always need to. Applications that redraw continuously
            // can just render here instead.
            window.request_redraw();
        },
        Event::RedrawRequested(_) => {
            // Redraw the application.
            //
            // It's preferable for applications that do not render continuously to render in
            // this event rather than in MainEventsCleared, since rendering in here allows
            // the program to gracefully handle redraws requested by the OS.
        },
        _ => ()
    }
});

Event::WindowEvent has a WindowId member. In multi-window environments, it should be compared to the value returned by Window::id() to determine which Window dispatched the event.

Drawing on the window

Tao doesn’t directly provide any methods for drawing on a Window. However it allows you to retrieve the raw handle of the window and display (see the platform module and/or the raw_window_handle and raw_display_handle methods), which in turn allows you to create an OpenGL/Vulkan/DirectX/Metal/etc. context that can be used to render graphics.

Note that many platforms will display garbage data in the window’s client area if the application doesn’t render anything to the window by the time the desktop compositor is ready to display the window to the user. If you notice this happening, you should create the window with visible set to false and explicitly make the window visible only once you’re ready to render into it.

Modules

  • The Clipboard struct and associated types.
  • UI scaling is important, so read the docs for this module if you don’t want to be confused.
  • The Error struct and associated types.
  • The Event enum and assorted supporting types.
  • The EventLoop struct and assorted supporting types, including ControlFlow.
  • UNSTABLE – Types related to the keyboard.
  • Types useful for interacting with a user’s monitors.
  • Contains traits with platform-specific methods in them.
  • The Window struct and associated types.