-
-
Notifications
You must be signed in to change notification settings - Fork 2.3k
raylib input system
raylib input system basically uses an event polling mechanism, centralized on raylib core module.
At the end of the game loop, EndDrawing()
function is called. This function calls SwapBuffers()
and PollInputEvents()
, multiple input devices are scanned at that moment and states are registered.
Depending on the platform, input events are managed using different mechanisms.
Default supported input systems are: KEYBOARD
, MOUSE
, GAMEPAD
, TOUCH
On this platform GLFW3 library (rglfw) is used for input management. Events polling is done using glfwPollEvents()
.
Input | Library | Details |
---|---|---|
KEYBOARD | GLFW3 | Values are registered through callbacks KeyCallback() , CharCallback()
|
MOUSE | GLFW3 | Values are registered through callbacks MouseButtonCallback() , MouseCursorPosCallback() , ScrollCallback()
|
GAMEPAD | GLFW3 | Values registered by (no-callbacks): glfwJoystickPresent() , glfwGetJoystickButtons() , glfwGetJoystickAxes() NOTE: Those functions do not require glfwPollEvents()
|
TOUCH | - | Not available by default. Mouse clicks are mapped to touch events using gestures API. |
Some inputs in this platform are directly using GLFW3 because the library has been partially ported to emscripten. Despite that, gamepad and touch inputs are directly managed using emscripten API.
WARNING: In the current implementation of GLFW in javascript, events are not handled at glfwPollEvents()
. Instead, keys down and the like are set directly when a key is pressed (which ordinarily will happen outside your game loop). This means that functions such as GetKeyPressed()
will have somewhat different behaviour. Specifically, in your game loop, try not to read any events after EndDrawing(). This could have different behaviour on PLATFORM_WEB. Reading events before EndDrawing() should be fine though.
Input | Library | Details |
---|---|---|
KEYBOARD | GLFW3 | Same as PLATFOM_DESKTOP , uses GLFW3 JS implementation |
MOUSE | GLFW3 | Same as PLATFOM_DESKTOP , uses GLFW3 JS implementation |
GAMEPAD | Emscripten | Using emscripten gamepad API: EmscriptenGamepadCallback()
|
TOUCH | Emscripten | Using emscripten touch API: EmscriptenTouchCallback()
|
Android NDK provides its own events polling system: ALooper_pollAll()
, called on PollInputEvents()
.
Using AndroidInputCallback()
, all inputs can be later processed. Currently, only some inputs are processed but additional inputs could be processed
Input | Library | Details |
---|---|---|
KEYBOARD | Android NDK | Keys registered on AndroidInputCallback()
|
MOUSE | - | Mouse inputs are actually mapped with TOUCH input |
GAMEPAD | Android NDK | Support partially implemented on AndroidInputCallback()
|
TOUCH | Android NDK | Touch points registered on AndroidInputCallback()
|
Probably this platform inputs polling is the most complex one. Some input events are polled by multiple secondary threads.
Keyboard polling is a special case, it can use directly stdin
inputs to read keycodes. In that case, stdin
is being reconfigured for ASCII chars reading and reseted at the end of the program... This approach presents several problems like a standard input lose if program is not closed properly but it does not require X.org
libraries or superuser rights... Second option is being implemented to avoid stdin
usage.
Input | Library | Details |
---|---|---|
KEYBOARD | - |
stdin is remapped to read keys using: InitKeyboard() , ProcessKeyboard() , RestoreKeyboard()
|
KEYBOARD | libevdev | Using standard input_event to read events from input device |
MOUSE | libevdev |
Threaded: InitMouse() -> EventThreadSpawn() -> EventThread() , uses input_event
|
GAMEPAD | joystick.h |
Threaded: InitGamepad() -> GamepadThread() , uses js_event
|
TOUCH | libevdev | Share MOUSE implementation |
Probably inputs could be further improved in all platforms, specially TOUCH inputs support and mapping with MOUSE.
www.raylib.com | itch.io | GitHub | Discord | YouTube
- Architecture
- Syntax analysis
- Data structures
- Enumerated types
- External dependencies
- GLFW dependency
- libc dependency
- Platforms and graphics
- Input system
- Default shader
- Custom shaders
- Coding conventions
- Integration with other libs
- Working on Windows
- Working on macOS
- Working on GNU Linux
- Working on Chrome OS
- Working on FreeBSD
- Working on Raspberry Pi
- Working for Android
- Working for Web (HTML5)
- Working on exaequOS Web Computer
- Creating Discord Activities
- Working anywhere with CMake
- CMake Build Options
- raylib templates: Get started easily
- How To: Quick C/C++ Setup in Visual Studio 2022, GCC or MinGW
- How To: C# Visual Studio Setup
- How To: VSCode
- How To: Eclipse
- How To: Sublime Text
- How To: Code::Blocks