We'd be relying on AbstractEglDrmBackend on calling cleanup but we'd be
doing it when cleanupSurfaces cannot be reached out anymore, turning it
into a half-baked cleanup.
Instead call cleanup from the leaf class destructors.
The last presentation timestamps should be reset when all animations
finish rather than when the effect finishes. Otherwise, the calculated
time diff for the first animation frame will be too big.
BUG: 433471
Showing the panels makes this effect a little bit more integrated
with the desktop. With the panels disabled it creates a separate state,
with the panels enabled it creates a more friendly state with
the effect adding to the already existing experience.
We cannot use Workspace::clientArea() to get the geometry of the screen
as the clientArea() method needs a valid frame geometry. This is not the
case if the layer shell surface is being configured for the first time.
With ksplash migrating to the layer-shell protocol, it no longer
provides an app id. This means that the window class string will be
different, e.g. "ksplashqml " instead of "ksplashqml ksplashqml", and
some effects (login, etc) will stop working as expected.
In order to keep effects working as before, this change adjusts the
window class initialization in WaylandClient so both the resource class
and the resource name are set to the executable file name.
DrmPipeline is what now contains all the drm bits related to
modesetting and presentation, instead of that being in DrmOutput.
This gives a lot more freedom for managing drm resources and
enables far better usage of the atomic API with guaranteed
immutability for failed tests.
At the moment a streamed screen when the screen scale was differnt
buffer scale would render wrong. This change addresses it by
compensating it.
This change compensates it resizing the rendered viewport to their
difference.
BUG: 428594
In this context, the cursor will (almost) always be defined as we set it
as soon as an application is bound to it. We need to show the default
cursor if set_cursor hasn't been called yet. The way to do that is to
check whether the serial is still.
Instead use the device assigned output.
#0 KWin::Toplevel::screen() const (this=0x0) at /home/apol/devel/frameworks/kwin/src/toplevel.cpp:409
#1 0x00007fe60ad9bef9 in KWin::LibInput::Connection::processEvents() (this=0x55d9efc155f0) at kwin/src/libinput/connection.cpp:579
#2 0x00007fe60ad4987c in KWin::InputRedirection::setupLibInput()::$_3::operator()() const (this=0x55d9efc29a70) at kwin/src/input.cpp:2315
The stream object was deleted from a slot connected to its stopStreaming
signal. This is unsafe and can lead to memory corruption and ultimately
crashes when PipWwire streaming is stopped. Use deleteLater instead.
BUG: 428268 435588
screen() only gets updated after AbstractClient::sendToScreen if invoked
by a shortcut or menu (as opposed to moveresize), so we can't use it in
AbstractClient::updateGeometryRestoresForFullscreen as it points to the
old screen.
With the introduction of stripped down window items, the WindowPixmap
objects no longer form a hierarchy. WindowPixmap::children() method was
removed.
Surprisingly, the removal of the children() method didn't result in a
compilation error because the QObject class has a method with the same
name.
Currently, a window pixmap will have no QObject children even if the
associated wayland surface has child sub-surfaces. This may result in
blank thumbnails of apps that use sub-surfaces, e.g. Firefox. In order
to fix that issue, we need to check if there are child items instead.
We'd always get "0x0: something" where the 0x0 is the xcb_window which
obviously doesn't translate.
Instead show the class name so we can easily track what kind of object
we are dealing with.
It's an easy way to show which shell it's using on Wayland, will be
useful in other cases as well.
If a decoration is created for an already mapped maximized window, check
the workspace position to ensure that the window still fits the maximize
area.
BUG: 432326
