This should fix focus problems where EnterNotify events were generated while
moving windows. Hopefully it does not trigger any regressions :).
Fixes#500
Fixes#452
This might also fix problems with Firefox where Firefox only displays a white
window (my guess is that it mapped a floating window outside of the actually
visible area for some reason).
- Introduce warp_to static variable in x.c that stores the coordinates
to warp to as a Rect.
- Add x_set_warp_to function to set this variable. Use in _tree_next,
workspace_show, and con_move_to_workspace.
- In x_push_chanages, if warp_to is set, then call xcb_warp_pointer_rect
and then reset it to NULL.
This fixes all know bugs for pointer warping for me.
1. Fix focus when moving to same workspace.
If we have a single window on a workspace and we switch to the same
worksapce, focus_next will be the workspace container, rather than the
current window, so simply call con_descend_focused to ensure we set the
focus to a window.
2. Fix focus when moving a container to a visible workspace.
Call workspace_show before we attaching to new visible workspace, so we
don't get in the weird situation where target workspace has focused
window, but it isn't considered focused.
It now uses the container orientation (if it is appropriate, the last focused
one otherwise) to recurse. This works better if the target workspace is in
vertical orientation when you use right/left or if it is in horizontal
orientation but you use up/down.
Modify _tree_next() so that when we reach the workspace container:
1. Find the next corresponding output (screen) using the added
get_output_next().
2. If there is another output, find the visible workspace.
3. Call workspace_show on found workspace.
4. Find the appropriate window to focus (leftmost/rightmost, etc.) using
con_descend_direction, and then focus it.
I've only tested on horizontal monitors (left/right).
Generally, the traversal goes: numbered workspaces in order, and then
named workspaces in the order in which they appear in the tree.
Example:
Output 1: Output 2:
1 3 D C 2 4 B A
Traversal: 1, 2, 3, 4, D, C, B, A, 1, ...
Note, after the numbered workspaces, we traverse the named workspaces
from output 1, and then output 2, etc.
