Before this commit, i3 used key bindings in SYNC mode for bindings
like Mode_switch + <a> and replayed the key if the current state
did not include Mode_switch. This had some problems:
1) The WM needed to acknowledge much more key presses than you
actually had bindings for, thus making the system a bit laggy
sometimes.
2) Users of layouts who constantly type in the third level (like
russian layouts) did not get their cyrillic symbols correctly
(they were not replayed right), neither did the keybindings
work in both modes.
So, the current implementation uses the following approach: XKB
provides an event which contains the current state (including
the current level). i3 signs up for this event and upon receival,
it re-maps the bindings using Mode_switch (enables them when the
level goes to the third level and disables them as soon as the
level goes back to normal). This fixes both problems.
visible == currently visible on the output it is on
(multiple workspaces can be visible at the same time)
focused == has the focus (only one workspace can be focused)
This is the foundation to use dzen2 or similar as a complete
replacement for the internal workspaces bar.
A testcase is included, more documentation about the IPC interface
will follow.
This fixes ticket #100, and is best explained using a little example.
Consider the following layout:
+---+---+
| | X |
+---+---+
| X |
+---+---+
Where X marks a window, so you have an empty container in the upper
left, the container on the bottom is snapped to the right. Before
this commit, nothing would happen when focusing "above". After
this commit, the upper window gets focused.
This fixes ticket #173, at least for the rendering errors.
I don’t really know why I implemented predict_text_width like it
was before (querying the whole table and pulling out information
one by one). Maybe I have overlooked xcb_query_text_extents. In
any case, it works better now.
Add --force-xinerama when starting i3 to use Xinerama instead of RandR.
This should *ONLY* be done if you have no other choice (nvidia’s
binary driver uses twinview and does not expose the monitor information
through RandR).
This enables compilation with llvm-clang and thus closes ticket #101.
While it makes the code more ugly, I don’t see a beautiful solution
which would enable us to stay with the more elegant solution of
nested functions and still allow compilation with any other compiler
than gcc.
Thanks to Merovius for doing a proof of concept on this one and
being a driving force behind the idea.
Using RandR instead of Xinerama means that we are now able to use
the full potential of the modern way of configuring screens. That
means, i3 now has an idea of the outputs your graphic driver
provides, which allowed us to get rid of the ugly way of detecting
changes in the screen configuration which we used before. Now, your
workspaces should not be confused when changing output modes anymore.
Also, instead of having ugly heuristics to assign your workspaces
to (the screen at position X or the second screen in the list of
screens) you will be able to just specify an output name.
As this change basically touches everything, you should be prepared
for bugs. Please test and report them!
Actually, WM_CLASS contains two null-terminated strings, so we cannot
use asprintf() to get its value but rather use strdup() to get both
of them. Both values are compared when a client is matched against
a wm_class/title combination (for assignments for example).
This makes it more clear that the option is meant to be a special
case (it *disables* part of the focus handling). Also, when
initializing the config data structure with zeros, it will get
initialized with the right value.
Furthermore, the config file parser now also accepts various values
which represent "true", not only numbers.
Even though i3 cannot know the width/height of some workspaces as
long as they are not initialized (say you used workspace 1 and 3,
but not workspace 2), some applications require this information.
In this case, it was Firefox which intersects the available workareas
(see mozilla/gfx/src/gtk/nsScreenGtk.cpp) and did not position some
windows correctly when being confronted with zero-width/height
workspaces.
Please note that rdesktop’s -g workarea option will not work on
64-bit systems at the moment because of a bug in rdesktop (see the
rdesktop-devel mailing list).
Starting from this commit, a borderless window will always be
borderless if it is the only window in a container. For example,
you can have Firefox borderless in a tabbed container and as soon
as the download manager or a viewer gets opened, the container
will be rendered like a normal tabbed container.
This solves the user-interface dilemma of borderless/1-px-border
windows inside stacked/tabbed containers, at least for this special
case. Thanks to Merovius for this suggestion.
When having 8 windows in a container which has 766 px available,
you ended up losing 0,75 px per window which would quickly sum up.
Now, the rest space (6 px in this example) is distributed in units
of one pixel to as many windows as possible.
This bug could happen if you have floating and tiling windows (for
example Firefox in tiling mode and its Open dialog in autmatically
floating mode) and you opened a new tiling window while in fullscreen.
i3 would then place the window below the floating windows, but
floating clients are above fullscreen windows. Thus, the client
would be placed above the fullscreen window.
This prevents errors in rounding leading to an unoccupied space of
-1 which in turn leads to infinity when calculating the new size
of a container after resizing.
Minimum width/height was not consistent with the limit for grabbing
and resizing a window at its border.
If one of both was violated (width < min_width for example), none
of them were updated.
Calculations were wrong (they simply didn’t take into account that
there is more than one border style, the code was from before we
implemented that…). We cannot directly set child_rect to the coordinates
as resize_client takes rect and calculates the child_rect, so we need
the new lines of code for this bugfix in any case (rect needs to be
updated).
The welcome message is displayed using xmessage(1), not using your
terminal. Thus, it makes no sense to have this option anymore. Also,
the new lex/yacc parser cannot correctly handle the situation:
normal variables are expanded before parsing the file. As a replacement,
you can use:
set $terminal /usr/bin/urxvt
This did not happen all the time. It seems like you need to have a
container which is in stacking/tabbing mode on the screen which
is being reconfigured. (when doing xrandr --output VGA1 --off for
example)
When the sending application was so fast (*cough*) that the messages
could get queued by the kernel, it may happen that we receive multiple
messages at once.
Sometimes, it may happen that the focus is "nowhere" and thus the
user is stuck. This was often the case with opera, sometimes with
pcmanfm. See ticket #118.
This fixes many problems we were having with a dynamically growing
array because of the realloc (pointers inside the area which was
allocated were no longer valid as soon as the realloc moved the
memory to another address).
Again, this is a rather big change, so expect problems and enable
core-dumps.
This is necessary now, because when creating a new row, several
containers have to be created. Since the implementation of the default
mode for containers, this also involves rendering the layout. However,
when rendering the layout, all of the containers are potentially
accessed…
As the workspaces are now created dynamically, we cannot rely on
the workspaces to be there when we need them without creating them.
On the other hand, this eliminates the case that there are no workspaces
to assign to a new screen, because now we can just create one.
The following new directives have been implemented for the configuration
file:
new_container <default|stacking|tabbed>
new_container stack-limit <cols|rows> <value>
Note that they require using the new lexer/parser, which you can
do by passing -l to i3 when starting.
For example, you can create a mode which will let you resize windows
with some easy to use keys. So, instead of binding a combination
of your homerow and modifiers to resize, like this:
bind Mod4+44 resize right +10
bind Mod4+45 resize right -10
...
You can instead define a new mode:
mode "resize" {
bind 44 resize right +10
bind 45 resize right -10
...
bind 36 mode default
}
bindsym Mod4+r mode resize
So, if you press Mod4+r now, your keybindings will be set to the ones
defined in your resize mode above. You can then use your homerow
(without any other modifier) to resize the current column/row and
press enter to go back to the default mode when you are done.
Note that using this option requires you to enable the new lexer/parser
by passing the -l flag to i3 when starting.
Warning: This is not yet thoroughly tested, so be prepared to
encounter some segfaults. Please enable logging and coredumps,
so we can fix bugs quickly.
xterm by default sets a border_width of 2. This was not taken into
account when determining the size of the window by i3. Still, you
probably want to set this to 0 in your .Xresources as the pixels
are just lost.
We now use the virtual screen’s size/position instead of the X root
window for the grabwin (grabwin = the area in which the pointer may
move when resizing).
Using this command, you can limit the amount of columns or rows for
a stacking container. This allows for better usage of screen estate
when using stacking containers with many clients.
Examples:
i3-msg "stack-limit cols 2"
You will now have a stack window which has two columns of windows.
Commands are 'mark' and 'goto'. Both can be used either directly,
like 'mark a' and 'goto a', or interactively (just 'mark'). For
interactive mode, i3-input must be installed and in your PATH.
This warning only showed up with CFLAGS=-O2.
The variables in question could never be uninitialized because
they were definitely set, have a look at the code. But anyways,
less warnings is always a good thing ;-).
Helgi Kristvin Sigurbjarnarson