Before this commit, when a normal window is raised, xwayland thought it's
above always-on-top (AOT) windows even though it's actually below AOT
windows in the scene. This means mouse scroll events may be unexpectedly
sent to normal windows below AOT windows even when the cursor is hovering
over a AOT window.
So this commit fixes it by notifying the correct stacking order (where AOT
windows are placed above normal windows) to xwayland every time the
stacking order is updated.
Other benefits of this commit are:
- It makes the code more readable and predictable by aggregating logic
about stacking order management in xwayland (e.g. shaded windows or
windows in other workspaces should be notified to xwayland as being
placed at the bottom).
- As server->last_raised_view is removed in the previous commit, we were
notifying the stacking order to xwayland every time a window with dialog
windows is clicked (not when clicking a topmost window without dialogs,
due to some optimization in wlroots). This commit fixes this by caching
the window stacking order in xwayland_view->stacking_order and notifying
it to xwayland only when it's updated.
In the case of an initially-maximized view which is taking a long time
to un-maximize (seen for example with Thunderbird on slow machines), we
may end up in handle_configure_timeout() with an empty pending geometry.
In that case we have no great options (we can't center the view since we
don't know the un-maximized size yet), so set a fallback position.
v2: check wlr_box_empty() before comparing pending and current
Fixes: #2191
Currently, initially maximized (or fullscreen) xdg-shell views exhibit
one of two issues:
- some (e.g. GTK and Qt apps) paint an initial frame un-maximized
(before the "map" event) and only maximize in a later commit
- others (e.g. foot) maximize immediately without flicker, but never
store a valid natural size, so we end up using a fallback (640x480)
Under KWin, neither of these issues occur, so I looked into what labwc
is doing wrong. It seems that:
- wlroots internally sends an initial configure event with a size of
0x0 to all xdg-shell views. This requests the client to set its own
preferred (a.k.a. natural) size.
- For an initially maximized/fullscreen view, the initial configure
event should contain the maximized/fullscreen size rather than 0x0.
In labwc, this means we have to call wlr_xdg_toplevel_set_size()
earlier, i.e. from the new_surface event. Tracing with WAYLAND_DEBUG
shows that the initial configure event now has the correct geometry,
matching KWin behavior. With this change, GTK and Qt apps no longer
paint an incorrect un-maximized frame.
- However, this means that all xdg-shell views now suffer from the same
issue as foot, where we never receive a commit with the un-maximized
(natural) geometry. The correct way to get the natural geometry seems
to be to wait until we want to un-maximize, and send a configure
event of 0x0 at that point.
Sending a configure event of 0x0 when un-maximizing is a bit annoying as
it breaks some assumptions in labwc code. In particular:
- view->natural_geometry may now be unknown (0x0), requiring various
wlr_box_empty() checks sprinkled around. I added these in all the
obvious places, but there could be some code paths that I missed.
- Positioning the newly un-maximized view within view_maximize() no
longer works since we don't know the natural size. Instead we have to
run the positioning logic from the surface commit handler. This
results in some extra complexity, especially for interactive move.
See the new do_late_positioning() function in xdg.c.
Some TODOs/FIXMEs (non-blocking in my opinion):
- The view_wants_decorations() check is now duplicated in both the
new_surface and map event handlers. I'm not sure if this is necessary
but it seemed like the safest approach for now. More testing would be
nice, particularly with various combinations of config and client SSD
preferences.
- Aside from the interactive move case, the "late positioning" logic
always centers the view when un-maximizing, and does not invoke any
of the smart placement logic. If we want to invoke smart placement
here, I'd appreciate someone with more knowledge of that code to take
a look and figure out how to do that correctly.
<resize><drawContents>[yes|no] configures whether to let the clients
redraw its window content content while resizing.
When <resize><drawContents> is set to no, a multi-rect is shown to
indicate the geometry of the resized window.
Before this patch, labwc would happily kill itself when the user
called the `Kill` action when any xwayland view had focus.
The reason this happened was that wlroots creates the xwayland
wayland client via socketpair() and thus a lookup of the pid
of the socket connection would return the pid of labwc itself.
This patch fixes that by implementing different pid lookup
mechanisms based on the view implementation backend.
Fixes: #1739
This is undesired when a focusable popup (e.g. applications menu) of an
unfocusable view (e.g. XWayland panel) is closed.
This reverts commit f6e3527767.
Support `wrap` in view_get_adjacent_output(). This means that when seeking
an adjacent output in a particular direction from an output that is
already furthest in that direction within the layout, rather than
returning NULL, wrap around from the leftmost to the rightmost, or topmost
to the bottommost and vice versa.
Example usage:
<action name="MoveToOutput" direction="right" wrap="yes" />
Wrap is disabled by default to keep the user interface consistent.
...to edges actually encountered by motion during interactive moves and
resizes.
In addition, ignore edge resistance and attraction for minimized views.
This builds on the work of @Consolatis in #1018.
Co-authored-by: Consolatis <35009135+Consolatis@users.noreply.github.com>
Co-authored-by: Andrew J. Hesford <ajh@sideband.org>
Whenever the output layout changes, each view's original geometry will
be captured as last_layout_geometry (if it has not already been captured
by a previous layout change), which will remain valid unless the user
modifies the view's geometry (i.e., by tiling, maximizing, moving,
resizing or full-screening). On subsequent output layout changes, views
with valid last_layout_geometry will be back to their original position
if possible, or else to the closest possible output.
