Make the total padding between windows equal to the padding against the
screen borders by applying just half of it on the common borders.
Adjust tests accordingly.
BUG: 469720
FIXED-IN: 5.27.6
A screen should be considered further top, and therefore more previous, only it is strictly above the other with no vertical overlap, and not if only the vertical center is higher while they are horizontally on a line. Otherwise, on a left to right setup with screens of different resolutions aligned at the edges (and thus different vertical centesr), the order will be unintuitive.
BUG: 467996
FIXED-IN: 5.27
This patch adds mechanisms to find and interact with windows to the
scripting API:
- workspace.windowAt provides a way to list the windows at a given
location on the screen.
- workspace.stackingOrder provides a list of all windows in the order
they are stacked on the screen.
- workspace.raiseWindow provides a mechanism to bring a given window to
the top of that list, making it visible above all others.
Signed-off-by: Antonio Russo <aerusso@aerusso.net>
The magic lamp literally "squashes" the window through the window icon
in the task manager.
It's assumed that there's nothing below the panel, so the magic lamp
doesn't perform any clipping.
With floating panels, it's not the case. So let's clamp the x or the y
coordinates when the window moves horizontally or vertically,
respectively, in order to ensure that the window is not visible in the
gap between the floating panel and the screen edge.
BUG: 361121
BUG: 466177
This is done by converting from the sRGB + gamma 2.2 input from clients
to linear with the color space of the output (BT.709 or BT2020 atm) in
a shadow buffer, and then convert from the shadow buffer to the transfer
function the output needs (sRGB or PQ).
If the panel is placed between two outputs, the magic lamp can pick
wrong direction and the animation will look bad.
This change improves the direction heuristic by making it analyze the
position of the center point of the screen where the window is relative
to the center point of the icon in the task manager.
The screen center is used instead of the window center in order to
properly handle edge cases such as where the window center is offscreen.
For example, if the panel is vertical (e.g. it's attached to the left
side of a monitor), the magic lamp will pick the following directions:
- if the window is to the left side of the panel, the window will be
animated so it moves to the right hand side
- if the window is to the right side of the panel, the window will be
animated so it moves to the left hand side
Without this change, the window will always move to the left hand side.
BUG: 463581
If the pointer constraint region is null, the input region must be used
instead. If the pointer constraint region is valid, it should be
intersected with the input region.
BUG: 457021
This reverts commit 7c91c4bad9.
It created regressions in some video games. After a closer look at the
pointer constraint region handling, there are some issues, but it might
be safer to fix them in master.
In meanwhile, let's revert 7c91c4bad because it breaks more things than
it fixes.
CCBUG: 457021
BUG: 469555
From the spec
On surface.attach requests to the pointer surface, hotspot_x
and hotspot_y are decremented by the x and y parameters
passed to the request. Attach must be confirmed by
wl_surface.commit as usual.
In practice, I don't think it matters that much as most toolkits use
wl_pointer.set_cursor to change the hotspot.
The SurfaceCursorSource assumes that the cursor surface has a wl_shm
buffer attached to it, which is a bad assumption, as the client can
attach a buffer of any type to the surface. Furthermore, the cursor
surface can have custom transforms applied to it, for example a
wp_viewport, which current code fails to handle.
The ImageCursorSource used to be primarily a porting aid. That is, if we
couldn't port some code to SurfaceCursorSource or ShapeCursorSource, the
ImageCursorSource was used in interim. Now, all parts of kwin have been
ported to ShapeCursorSource and SurfaceCursorSource, so the image cursor
source can be dropped.
Use CursorSource::image() instead.
Cursor caching in the ScreenCastStream has been changed so
QImage::cacheKey() is not being used. This is rather a preparation for
making kwin grab the contents of the cursor scene.
When GraphicsBuffer::dropped() is emitted, the buffer can be
unreferenced. If that's the case, the GraphicsBuffer will be deleted
twice: first in GraphicsBuffer::unref(), the second time in drop().
In order to address the issue, this change gets rid of the
GraphicsBuffer::dropped() signal, so it's always guaranteed that the
buffer stays alive until the reference count is checked.
The GraphicsBuffer::dropped() signal is used to remove the mapping
between wl_resource and ShmClientBuffer when the corresponding
wl_shm_buffer object is destroyed. On the other hand, we could perform
such cleanup when calling drop() too. This code can be further improved
by reimplementing wl-shm, which we need to do at some point in the
future.