Wayland can expose displays in any arbitrary order, and doesn't have the native concept of a primary display. However, there are games that presume that the first listed display is the primary, which can lead to problems if that output isn't necessarily the ideal one, as they may use that display to build a resolution list or as the default fullscreen output. This sorts displays by position, then attempts to find the primary display, first by querying the explicit ordering hint, then the GNOME DBus property, then tries to determine the 'best' display according to the criteria that is generally ideal for games and media playback. The makes the list of displays deterministic, as long as the desktop configuration remains static, with a reasonably appropriate one prioritized as primary, even if there is no explicit way to retrieve the primary display. In the case where a user has a particularly esoteric physical display configuration, the new hint enables explicitly overriding the sorting and selection logic, allowing the entire display order to be customized, if necessary.
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Wayland
Wayland is a replacement for the X11 window system protocol and architecture and is favored over X11 by default in SDL3 for communicating with desktop compositors. It works well for the majority of applications, however, applications may encounter limitations or behavior that is different from other windowing systems.
Common issues:
Legacy, DPI-unaware applications are blurry
- Wayland handles high-DPI displays by scaling the desktop, which causes applications that are not designed to be
DPI-aware to be automatically scaled by the window manager, which results in them being blurry. SDL can attempt to
scale these applications such that they will be output with a 1:1 pixel aspect, however this may be buggy, especially
with odd-sized windows and/or scale factors that aren't quarter-increments (125%, 150%, etc...). To enable this, set
the environment variable
SDL_VIDEO_WAYLAND_SCALE_TO_DISPLAY=1
Window decorations are missing, or the decorations look strange
- On some desktops (i.e. GNOME), Wayland applications use a library called libdecor to provide window decorations. If this library is not installed, the decorations will be missing. This library uses plugins to generate different decoration styles, and if a plugin to generate native-looking decorations is not installed (i.e. the GTK plugin), the decorations will not appear to be 'native'.
Windows do not appear immediately after creation
- Wayland requires that the application initially present a buffer before the window becomes visible. Additionally, applications must have an event loop and processes messages on a regular basis, or the application can appear unresponsive to both the user and desktop compositor.
The display reported as the primary by SDL_GetPrimaryDisplay()
is incorrect
- Wayland doesn't natively have the concept of a primary display, so SDL attempts to determine it by querying various
system settings, and falling back to a selection algorithm if this fails. If it is incorrect, it can be manually
overridden by setting the
SDL_VIDEO_DISPLAY_PRIORITY
hint.
SDL_SetWindowPosition()
doesn't work on non-popup windows
- Wayland does not allow toplevel windows to position themselves programmatically.
Retrieving the global mouse cursor position when the cursor is outside a window doesn't work
- Wayland only provides applications with the cursor position within the borders of the application windows. Querying
the global position when an application window does not have mouse focus returns 0,0 as the actual cursor position is
unknown. In most cases, applications don't actually need the global cursor position and should use the window-relative
coordinates as provided by the mouse movement event or from
SDL_GetMouseState()
instead.
Warping the mouse cursor to or from a point outside the window doesn't work
- The cursor can be warped only within the window with mouse focus, provided that the
zwp_pointer_confinement_v1
protocol is supported by the compositor.
The application icon can't be set via SDL_SetWindowIcon()
- Wayland requires compositor support for the
xdg-toplevel-icon-v1
protocol to set window icons programmatically. Otherwise, the launcher icon from the associated desktop entry file, aka a.desktop
file, will typically be used. Please see the Desktop Entry Specification for more information on the format of this file. Note that if your application manually sets the application ID via theSDL_APP_ID
hint string, the desktop entry file name should match the application ID. For example, if your application ID is set toorg.my_org.sdl_app
, the desktop entry file should be namedorg.my_org.sdl_app.desktop
.
Using custom Wayland windowing protocols with SDL windows
Under normal operation, an SDL_Window
corresponds to an XDG toplevel window, which provides a standard desktop window.
If an application wishes to use a different windowing protocol with an SDL window (e.g. wlr_layer_shell) while still
having SDL handle input and rendering, it needs to create a custom, roleless surface and attach that surface to its own
toplevel window.
This is done by using SDL_CreateWindowWithProperties()
and setting the
SDL_PROP_WINDOW_CREATE_WAYLAND_SURFACE_ROLE_CUSTOM_BOOLEAN
property to true
. Once the window has been
successfully created, the wl_display
and wl_surface
objects can then be retrieved from the
SDL_PROP_WINDOW_WAYLAND_DISPLAY_POINTER
and SDL_PROP_WINDOW_WAYLAND_SURFACE_POINTER
properties respectively.
Surfaces don't receive any size change notifications, so if an application changes the window size, it must inform SDL that the surface size has changed by calling SDL_SetWindowSize() with the new dimensions.
Custom surfaces will automatically handle scaling internally if the window was created with the
SDL_PROP_WINDOW_CREATE_HIGH_PIXEL_DENSITY_BOOLEAN
property set to true
. In this case, applications should
not manually attach viewports or change the surface scale value, as SDL will handle this internally. Calls
to SDL_SetWindowSize()
should use the logical size of the window, and SDL_GetWindowSizeInPixels()
should be used to
query the size of the backbuffer surface in pixels. If this property is not set or is false
, applications can
attach their own viewports or change the surface scale manually, and the SDL backend will not interfere or change any
values internally. In this case, calls to SDL_SetWindowSize()
should pass the requested surface size in pixels, not
the logical window size, as no scaling calculations will be done internally.
All window functions that control window state aside from SDL_SetWindowSize()
are no-ops with custom surfaces.
Please see the minimal example in tests/testwaylandcustom.c
for an example of how to use a custom, roleless surface
and attach it to an application-managed toplevel window.
Importing external surfaces into SDL windows
Wayland windows and surfaces are more intrinsically tied to the client library than other windowing systems, therefore,
when importing surfaces, it is necessary for both SDL and the application or toolkit to use the same wl_display
object. This can be set/queried via the global SDL_PROP_GLOBAL_VIDEO_WAYLAND_WL_DISPLAY_POINTER
property. To
import an external wl_display
, set this property before initializing the SDL video subsystem, and read the value to
export the internal wl_display
after the video subsystem has been initialized. Setting this property after the video
subsystem has been initialized has no effect, and reading it when the video subsystem is uninitialized will either
return the user provided value, if one was set while in the uninitialized state, or NULL.
Once this is done, and the application has created or obtained the wl_surface
to be wrapped in an SDL_Window
, the
window is created with SDL_CreateWindowWithProperties()
with the
SDL_PROP_WINDOW_CREATE_WAYLAND_WL_SURFACE_POINTER
property to set to the wl_surface
object that is to be
imported by SDL.
SDL receives no notification regarding size changes on external surfaces or toplevel windows, so if the external surface needs to be resized, SDL must be informed by calling SDL_SetWindowSize() with the new dimensions.
If desired, SDL can automatically handle the scaling for the surface by setting the
SDL_PROP_WINDOW_CREATE_HIGH_PIXEL_DENSITY_BOOLEAN
property to true
, however, if the surface being imported
already has, or will have, a viewport/fractional scale manager attached to it by the application or an external toolkit,
a protocol violation will result. Avoid setting this property if importing surfaces from toolkits such as Qt or GTK.
If the window is flagged as high pixel density, calls to SDL_SetWindowSize()
should pass the logical size of the
window and SDL_GetWindowSizeInPixels()
should be used to retrieve the backbuffer size in pixels. Otherwise, calls to
SDL_SetWindowSize()
should pass the requested surface size in pixels, not the logical window size, as no scaling
calculations will be done internally.
All window functions that control window state aside from SDL_SetWindowSize()
are no-ops with external surfaces.
An example of how to use external surfaces with a wl_display
owned by SDL can be seen in tests/testnativewayland.c
,
and the following is a minimal example of interoperation with Qt 6, with Qt owning the wl_display
:
#include <QApplication>
#include <QWindow>
#include <qpa/qplatformnativeinterface.h>
#include <SDL3/SDL.h>
int main(int argc, char *argv[])
{
int ret = -1;
int done = 0;
SDL_PropertiesID props;
SDL_Event e;
SDL_Window *sdlWindow = NULL;
SDL_Renderer *sdlRenderer = NULL;
struct wl_display *display = NULL;
struct wl_surface *surface = NULL;
/* Initialize Qt */
QApplication qtApp(argc, argv);
QWindow qtWindow;
/* The windowing system must be Wayland. */
if (QApplication::platformName() != "wayland") {
goto exit;
}
{
/* Get the wl_display object from Qt */
QNativeInterface::QWaylandApplication *qtWlApp = qtApp.nativeInterface<QNativeInterface::QWaylandApplication>();
display = qtWlApp->display();
if (!display) {
goto exit;
}
}
/* Set SDL to use the existing wl_display object from Qt and initialize. */
SDL_SetPointerProperty(SDL_GetGlobalProperties(), SDL_PROP_GLOBAL_VIDEO_WAYLAND_WL_DISPLAY_POINTER, display);
SDL_Init(SDL_INIT_VIDEO | SDL_INIT_EVENTS);
/* Create a basic, frameless QWindow */
qtWindow.setFlags(Qt::FramelessWindowHint);
qtWindow.setGeometry(0, 0, 640, 480);
qtWindow.show();
{
/* Get the native wl_surface backing resource for the window */
QPlatformNativeInterface *qtNative = qtApp.platformNativeInterface();
surface = (struct wl_surface *)qtNative->nativeResourceForWindow("surface", &qtWindow);
if (!surface) {
goto exit;
}
}
/* Create a window that wraps the wl_surface from the QWindow.
* Qt objects should not be flagged as DPI-aware or protocol violations will result.
*/
props = SDL_CreateProperties();
SDL_SetPointerProperty(props, SDL_PROP_WINDOW_CREATE_WAYLAND_WL_SURFACE_POINTER, surface);
SDL_SetBooleanProperty(props, SDL_PROP_WINDOW_CREATE_OPENGL_BOOLEAN, true);
SDL_SetNumberProperty(props, SDL_PROP_WINDOW_CREATE_WIDTH_NUMBER, 640);
SDL_SetNumberProperty(props, SDL_PROP_WINDOW_CREATE_HEIGHT_NUMBER, 480);
sdlWindow = SDL_CreateWindowWithProperties(props);
SDL_DestroyProperties(props);
if (!sdlWindow) {
goto exit;
}
/* Create a renderer */
sdlRenderer = SDL_CreateRenderer(sdlWindow, NULL);
if (!sdlRenderer) {
goto exit;
}
/* Draw a blue screen for the window until ESC is pressed or the window is no longer visible. */
while (!done) {
while (SDL_PollEvent(&e)) {
if (e.type == SDL_EVENT_KEY_DOWN && e.key.key == SDLK_ESCAPE) {
done = 1;
}
}
qtApp.processEvents();
/* Update the backbuffer size if the window scale changed. */
qreal scale = qtWindow.devicePixelRatio();
SDL_SetWindowSize(sdlWindow, SDL_lround(640. * scale), SDL_lround(480. * scale));
if (qtWindow.isVisible()) {
SDL_SetRenderDrawColor(sdlRenderer, 0, 0, 255, 255);
SDL_RenderClear(sdlRenderer);
SDL_RenderPresent(sdlRenderer);
} else {
done = 1;
}
}
ret = 0;
exit:
/* Cleanup */
if (sdlRenderer) {
SDL_DestroyRenderer(sdlRenderer);
}
if (sdlWindow) {
SDL_DestroyWindow(sdlWindow);
}
SDL_Quit();
return ret;
}