Instead of having the render backends manage layers, have DrmGpu and DrmPipeline
do it. This makes it possible to unify code paths for leased and normal
outputs, remove some redirection and have more freedom with assigning layers
to screens.
It's leftover after the times when widget style was using wayland
connection. Breeze had to destroy all wayland resources before
terminating the internal connection.
Currently, the blur effect will shrink an opaque region even if it
doesn't intersect m_currentBlur.
This ensures that the blur effect won't do a stupid thing such as
clipping the opaque region of the desktop window.
We already try to ensure that the surface damage is within render target
bounds. Avoid clipping surface damage in render backend, which is a bit
excessive task and perhaps it should be done an abstraction level above.
If the main surface is translucent (e.g. it contains only the drop
shadow) but its subsurface is opaque, the "window->isOpaque()" check
will produce a false positive.
It's not guaranteed that there will be current render target in
postPaintScreen() as all painting have been completed. paintScreen() is
a much safer place to pick color.
It's not guaranteed that there will be current render target in
postPaintScreen() as all painting have been completed. Furthermore,
even the docs of the postPaintScreen() function indicate that no
painting should be done there, you can do only cleanup things, e.g.
schedule a repaint, etc. paintScreen() is a much safer place to
capture screenshot.
When casting from integer to pointer, promoting the integer to (u)intptr_t
will ensure that the resulting type can be converted to a pointer without
problems. These two casts changed in this commit trigger a warning when
building for CHERI-enabled architectures such as Arm Morello. This is not
just limited to CHERI, the cast from xcb_pixmap_t (uint32_t) to void*
should also be flagged by -Wint-to-void-pointer-cast when using Clang,
however, it appears that warning only handles C-style casts, and not
reinterpret_cast (https://github.com/llvm/llvm-project/issues/53964).
Software cursor has always been a major source of problems. Hopefully,
porting it to RenderLayer will help us with that.
Note that the cursor layer is currently visible only when using software
cursor, however it will be changed once the Compositor can allocate
a real hardware cursor plane.
Currently, software cursor uses graphics-specific APIs (OpenGL and
QPainter) to paint itself. That will be changed in the future when
rendering parts are extracted from the Scene in a reusable helper.
At this point, it's safe to assume that only X11 has weird rendering
model, which stands in the way of making rendering abstractions nice and
intuitive, so let's check operation mode. If OperationModeX11 is
dropped, this will also simplify finding X11-specific code in kwin.
This is the first tiny step towards the layer-based compositing in kwin.
The RenderLayer represents a layer with some contents. The actual
contents is represented by the RenderLayerDelegate class.
Currently, the RenderLayer is just a simple class responsible for
geometry, and repaints, but it will grow in the future. For example,
render layers need to form a tree.
The next (missing) biggest component in the layer-based compositing are
output layers. When output layers are added, each render layer would
have an output layer assigned to it or have its output layer inherited
from the parent.
The render layer tree wouldn't be affected by changes to the output
layer tree so transition between software and hardware cursors can be
seamless.
The next big milestone will be to try to port some of existing kwin
functionality to the RenderLayer, e.g. software cursor or screen edges.
The responsibilities of the Scene must be reduced to painting only so we
can move forward with the layer-based compositing.
This change moves direct scanout logic from the opengl scene to the base
scene class and the compositor. It makes the opengl scene less
overloaded and allows to share direct scanout logic.
Xcursor loading code has hardcoded search paths, in order to take into
account distros installing app data in a different location,
libwayland-cursor sets the ICONDIR to the icon directory computed based
on the install prefix.
However, that won't work with gitlab CI because it relocates binaries. A
more robust way to find cursors would be to use QStandardPaths to find
all the icon directories on the system.
Another advantage of using own cursor loading code is that it allows us
to reuse cursor images that are symlinks. For example, with
breeze_cursors, almost half of the files in the cursors directory are
symlinks.
The main disadvantage of this approach is that we would have to keep the
search paths up to date. However, on the hand, there are not that many
of them, e.g. ~/.icons, ~/.local/share/icons, /usr/share/icons,
/usr/local/share/icons. The last three are implicitly handled by the
QStandardPaths.
It's specified as a Path in the kcfg file and the KCM will replace the
/home path into $HOME, and I imagine it may do some others likethat.
BUG: 450430
Rather than assuming the input panel to always be less than or equal to
the maximized area, ensure it is. This ensures that the input panel gets
placed correctly when there maximized area is smaller, like when there's
a panel on the side.
Additionally, don't skip the entire positioning code when "m_output" is
empty, to avoid the placement not happening when Kickoff is open.
Whilst global shortcuts are blocked by grabbing the keyboard, user set
up manual scripts can still invoke a global action.
Given we already have code to deactivate when locking it makes sense to
also prevent activation.
BUG: 450331
qApp is defined differently depending on whether QCoreApplication,
QGuiApplication, or QApplication is included.
Use QGuiApplication::instance() to improve code readability.
CCBUG: 450359
qApp is defined differently depending on whether QCoreApplication,
QGuiApplication, or QApplication is included.
Use QGuiApplication::instance() to improve code readability.
CCBUG: 450359
This really should not fail unless we did something seriously wrong
on our end, such as changing GL context during paintScreen.
If we add an invalid `GLSync` to the queue it can lead to very hard
to debug crashes in seemingly unrelated parts of the rendering
process, when the queue is drained, potentially seconds after the
actual failure that occurred here.
Signed-off-by: Eike Hein <eike.hein@mbition.io>
If a window appears on the screen, the highlight window effect will try
to fast-forward animation to the target state by setting the animation
duration to 0. However, TimeLine doesn't like that because it will
eventually lead to division by zero.
This change makes the highlight window effect fast-forward the
transition to highlight or ghost state by using the complete() function.
BUG: 450323
Allows to drop the direct dependency on KDeclarative only used
for `QmlObjectSharedEngine` outside of `KCModuleQML`
Signed-off-by: Eike Hein <eike.hein@mbition.io>
With the xdg_toplevel.configure_bounds support, the compositor is
finally able to tell the client the maximum recommended window size.
That approach allows us to keep the compositor side simple and it
prevents (as long as the app is well behaved) annoying visual glitches
such as mapping window with one size and then quickly resizing it to
the final size.
paintScreen() already tries to ensure that the damage region doesn't go
outside the scene geometry. With this change, it will try to clip the
damage region to the render target rect, which saves us an extra region
intersection and simplifies code that calls paintScreen().
Having a render loop in the Platform has always been awkward. Another
way to interpret the platform not supporting per screen rendering would
be that all outputs share the same render loop.
On X11, Scene::painted_screen is going to correspond to the primary
screen, we should not rely on this assumption though!
Neither SceneQPainter nor SceneOpenGL have to compute the projection
matrix by themselves. It can be done by the Scene when setting the
projection matrix. The main benefit behind this change is that it
reduces the amount of custom setup code around paintScreen(), which
makes us one step closer to getting rid of graphics-specific paint()
function and just calling paintScreen().