The type of fields x and y in wl_input_device was changed to wl_fixed_t
but input_device_attach() was still using it as if it were integer.
This bug caused the pointer sprite to be configured in the wrong place
on the screen (usually outside the visible area) but it would soon be
corrected in notify_motion() making it hard to notice and usually only
causing a quick flicker.
We were testing if the pointer were outside any output and doing a lot of
work to compute the bounding box of all output and then clip against that.
Just clip against previous (valid) output and don't bother with the
bounding box.
Add an xkb_names member to the base compositor info which contains the
RMLVO to use when building an XKB keymap. Add support for filling this
from the config file or from the underlying X11 server, with the usual
defaults.
Signed-off-by: Daniel Stone <daniel@fooishbar.org>
To add greater precision when working with transformed surfaces and/or
high-resolution input devices.
Signed-off-by: Daniel Stone <daniel@fooishbar.org>
To be used by input code, paralleling the existing integer versions.
Enlarge the surface_{to,from}_global_float input types to GLfloat to
avoid losing precision.
Signed-off-by: Daniel Stone <daniel@fooishbar.org>
No functional changes; it's only opening space for modifications coming along
on the next commits.
Signed-off-by: Tiago Vignatti <tiago.vignatti@intel.com>
and shut-up valgrind:
Conditional jump or move depends on uninitialised value(s)
at 0xB5AFB05: shell_surface_configure (shell.c:2162)
by 0x407B0C: surface_attach (compositor.c:1225)
by 0x621FA13: ffi_call_unix64
by 0x621F434: ffi_call
by 0x4E3D3F5: wl_closure_invoke (connection.c:758)
by 0x4E3786C: wl_client_connection_data (wayland-server.c:255)
by 0x4E3AA19: wl_event_source_fd_dispatch (event-loop.c:78)
by 0x4E3B533: wl_event_loop_dispatch (event-loop.c:460)
by 0x4E38D2C: wl_display_run (wayland-server.c:907)
by 0x40B5DD: main (compositor.c:2748)
Signed-off-by: Tiago Vignatti <tiago.vignatti@intel.com>
Currently, the drm backend will create and destroy a KMS FB for each
frame. However, the bos for a gbm surface are reused (at least with
mesa) so we can store the fb_id on it and destroy it only on the bo's
destroy callback.
To use the same path for scanning out client buffers, some refactor
was needed. Previously, the bo for the client buffer was destroyed
early so that gbm_surface_release_buffer() would not be called with
it, since at the page flip handler output->scanout_buffer can be
NULL even if the current frame is a client buffer.
This was solved by adding a drm_fb structure that holds a gbm_bo,
an fb_id, and information about the fb coming from a client buffer
or not. A drm_fb is created in such a way that it is destroyed
whenever the bo it references is destroyed. The fields current_*
and next_* in drm_output are changed into only two pointers to
drm_fb's.
Going from fullscreen to toplevel will restore the surface position
immediately. This will move the fullscreen surface to where the toplevel
surface was before, which will flicker for a frame of two before the
resized, non-fullscreen buffer is attached.
Instead, only change the surface geometry when we get the new buffer.
To ful-fill user experience, add the fading-in animation
when mapping a window.
v2: update that westom_surface_damage to repaint
remove that transform part in fade struct
Signed-off-by: Juan Zhao <juan.j.zhao@intel.com>
We're able now to create shell_surfaces inside Weston. This makes possible the
glue needed between shell and xserver-launcher.
On the desktop-shell, it was split the protocol part from shell_surface
specific functions to make this possible.
Signed-off-by: Tiago Vignatti <tiago.vignatti@intel.com>