Note on terminology: When starting this project, I somehow confused the terms most-recently-used (MRU) and least-recently-used (LRU). I've meant the former but called it last-recently-used whose meaning is the same as most-recently-used but whose abbreviation LRU is actually the opposite. So now there are many commands with
lru
in their name: it always means most-recently-used (MRU), not least-recently-used (LRU). It's too late to rename the commands. Maybe I'll add aliases at some point and deprecate the old names...
Swayr consists of a daemon, and a client. The swayrd
daemon records
window/workspace creations, deletions, and focus changes using sway's JSON IPC
interface. The swayr
client offers subcommands, see swayr --help
, and
sends them to the daemon which executes them.
The swayr
binary provides many subcommands of different categories.
Those are commands which switch through a sequence of windows where the sequence is:
- All windows with urgency hints.
- All matching windows where which windows match is specific to the command.
- The most recently used window at the time of the sequence start.
- Back to the origin window, i.e., the window which had the focus at the time of the sequence start.
During each sequence no window will be visited twice, e.g., if some window has an urgency hint, matches the commands specification, and is also the LRU window, it's not visited once in each step 1, 2, and 3 but just in step 1.
The steps 1, 3, and 4 can be inhibited with the flags --skip-urgent
,
--skip-lru
, and --skip-origin
, respectively.
As said, which windows match is specific to each command:
switch-to-urgent-or-lru-window
matches nothing, so step 2 above is effectively disabled.switch-to-app-or-urgent-or-lru-window <name>
matches windows with the specified name. The name is compared literally against the window'sapp_id
for native Wayland windows or to the window class or instance for X11 windows. The command immediately exits non-zero if there is no matching window at all.switch-to-mark-or-urgent-or-lru-window <con_mark>
matches the window having the given mark. Asman sway(5)
defines, each mark can only be applied to a single window at a time. The command immediately exits non-zero if there is no matching window at all.switch-to-matching-or-urgent-or-lru-window <criteria>
matches windows according to the the given criteria query. The command immediately exits non-zero if there is no matching window at all.
All above commands also have a flag --skip-lru-if-current-doesnt-match
which
is like --skip-lru
but skips the LRU window only if the currently focused
window is no matching window (by app name, mark, or criteria). Note that
switch-to-urgent-or-lru-window
has this flag for purely technical reasons but
it has no effect there.
The switch-to-app-or-urgent-or-lru-window
can be conveniently used to define
switch-to-or-start commands for your favorite applications, e.g., I have those:
bindsym $mod+e exec \
swayr switch-to-app-or-urgent-or-lru-window \
--skip-lru-if-current-doesnt-match emacs \
|| emacs
bindsym $mod+b exec \
swayr switch-to-app-or-urgent-or-lru-window \
--skip-lru-if-current-doesnt-match firefoxdeveloperedition \
|| firefox-developer-edition
Those spawn a menu program where you can select a window (or workspace, or output, etc.) and act on that.
switch-window
displays all windows in the order of urgent windows first, then windows in most-recently-used order, and the currently focused window last. The window selected in the menu program will be focused.steal-window
displays all windows in the order orswitch-window
and moves the chosen window into the current workspace.steal-window-or-container
displays all windows and containers moves the window or container into the current workspace.switch-workspace
displays all workspaces in MRU order and switches to the selected one.switch-output
shows all outputs in the menu and focuses the selected one.switch-workspace-or-window
displays all workspaces and their windows and switches to the selected workspace or window.switch-workspace-container-or-window
shows workspaces, containers, and their windows in the menu program and switches to the selected one.switch-to
shows outputs, workspaces, containers, and their windows in the menu program and switches to the selected one.quit-window
displays all windows and quits the selected one. An optional--kill
/-k
flag may be specified in which case the window's process will be killed usingkill -9 <pid>
rather than only sending akill
IPC message to sway.quit-workspace-or-window
displays all workspaces and their windows and allows to quit either the selected workspace (all its windows) or the selected window.quit-workspace-container-or-window
shows workspaces, containers, and their windows and quits all windows of the selected workspace/container or the selected window.move-focused-to-workspace
moves the currently focused window or container to another workspace selected with the menu program. Non-matching input of the form#w:<workspace>
where the hash andw:
shortcut are optional can be used to move it to a new workspace.move-focused-to
moves the currently focused container or window to the selected output, workspace, container, window. Non-matching input is handled like withmove-focused-to-workspace
.swap-focused-with
swaps the currently focused window or container with the one selected from the menu program.
All menu switching commands (switch-window
, switch-workspace
, and
switch-workspace-or-window
) now handle non-matching input instead of doing
nothing. The input should start with any number of #
(in order to be able to
force a non-match), a shortcut followed by a colon, and some string as required
by the shortcut. The following shortcuts are supported.
w:<workspace>
: Switches to a possibly non-existing workspace.<workspace>
must be a digit, a name or<digit>:<name>
. The<digit>:<name>
format is explained inman 5 sway
. If that format is given,swayr
will create the workspace usingworkspace number <digit>:<name>
. If just a digit or name is given, thenumber
argument is not used.s:<cmd>
: Executes the sway command<cmd>
usingswaymsg
.- Any other input is assumed to be a workspace name and thus handled as
w:<input>
would do.
Those commands cycle through (a subset of windows) in most-recently-used order.
next-window (all-workspaces|current-workspace)
&prev-window (all-workspaces|current-workspace)
focus the next/previous window in depth-first iteration order of the tree. The argumentall-workspaces
orcurrent-workspace
define if all windows of all workspaces or only those of the current workspace are considered.next-tiled-window
&prev-tiled-window
do the same asnext-window
&prev-window
but switch only between windows contained in a tiled container.next-tabbed-or-stacked-window
&prev-tabbed-or-stacked-window
do the same asnext-window
&prev-window
but switch only between windows contained in a tabbed or stacked container.next-floating-window
&prev-floating-window
do the same asnext-window
&prev-window
but switch only between floating windows.next-window-of-same-layout
&prev-window-of-same-layout
is likenext-floating-window
/prev-floating-window
if the current window is floating, it is likenext-tabbed-or-stacked-window
/prev-tabbed-or-stacked-window
if the current window is in a tabbed or stacked container, it is likenext-tiled-window
/prev-tiled-window
if the current windows is in a tiled container, and is likenext-window
/prev-window
otherwise.next-matching-window
/prev-matching-window
both take a criteria query.
These commands change the layout of the current workspace.
tile-workspace exclude-floating|include-floating
tiles all windows on the current workspace (excluding or including floating ones). That's done by moving all windows away to some special workspace, setting the current workspace tosplith
layout, and then moving the windows back. If theauto_tile
feature is used, see the Configuration section below, it'll change from splitting horizontally to vertically during re-insertion.shuffle-tile-workspace exclude-floating|include-floating
shuffles & tiles all windows on the current workspace. The shuffle part means that (a) the windows are shuffled before re-insertion, and (b) a randomly chosen already re-inserted window is focused before re-inserting another window. So whiletile-workspace
on a typical horizontally oriented screen and 5 windows will usually result in a layout with one window on the left and all four others tiled vertially on the right,shuffle-tile-workspace
in combination withauto_tile
usually results in a more balanced layout, i.e., 2 windows tiled vertically on the right and the other 4 tiled vertially on the left. If you have less than a handful of windows, just repeatshuffle-tile-workspace
a few times until happenstance creates the layout you wanted.tab-workspace exclude-floating|include-floating
puts all windows of the current workspace into a tabbed container.toggle-tab-shuffle-tile-workspace exclude-floating|include-floating
toggles between a tabbed and tiled layout, i.e., it callsshuffle-tile-workspace
if it is currently tabbed, and callsshuffle-tile-workspace
if it is currently tiled.
get-windows-as-json
returns a JSON containing all windows, possibly with scratchpad windows if--include-scratchpad
is given. Furthermore,--matching <CRITERIA>
can be used to restrict the windows to those matching the given criteria query (see the criteria section). Lastly, if--error-if-no-match
is given and no windows exist or match the given criteria query, the command exits non-zero instead of printing a JSON array. This makes it suitable for shell scripting. Essentially,swayr get-windows-as-json --matching <CRITERIA> --error-if-no-match
is likeswaymsg <CRITERIA> nop
except that it returns the windows as JSON and support's swayr's extended criteria queries instead of the simple ones supported by sway.for-each-window <CRITERIA> <SHELL_COMMAND>
executes<SHELL_COMMAND>
for each window matched by<CRITERIA>
(see the criteria section). In<SHELL_COMMAND>
almost all placeholders defined in the section about window formats are replaced. For example,swayr for-each-window true echo "The app {app_name} has the PID {pid}."
tells the application name and the pid for each window. The result of the command is a JSON array with objects containing the exit code, stdout, stderr, and a (system) error field. If any command returns non-zero, so willfor-each-window
. The shell commands will be executed in parallel they must finish within 2 seconds, otherwise they'll be killed. Otherwise, the command execution would blockswayrd
for as long as the slowest thread requires, e.g.,sleep 10
would block for slightly over 10 seconds.
configure-outputs
lets you repeatedly issue output configuration commands until you abort the menu program.execute-swaymsg-command
displays most swaymsg which don't require additional input and executes the selected one. That's handy especially for less often used commands not bound to a key. Non-matching input will be executed executed as-is withswaymsg
. Also note that custom commands can be defined in the configuration file's[swaymsg_commands]
section.execute-swayr-command
displays all commands above and executes the selected one. (This is useful for accessing swayr commands which are not bound to a key.)nop
(unsurprisingly) does nothing, the command can be used to break out of a sequence of non-menu switching commands or window cycling commands. The LRU window order is frozen when the first cycling command is processed and remains so until a non-cycling command is received. Thenop
command can conveniently serve to interrupt a sequence without having any other side effects.
Swayr supports most of the criteria querys defined by Sway, see section
CRITERIA
in man sway(5)
. Right now, these are:
app_id=<regex | __focused__>
class=<regex | __focused__>
instance=<regex | __focused__>
title=<regex | __focused__>
workspace=<regex | __focused__>
con_mark=<regex>
con_id=<uint | __focused__>
shell=<"xdg_shell" | "xwayland" | __focused__>
pid=<uint>
floating
tiling
app_name=<regex | __focused__>
(not in sway!)
The last criterion app_name
is matched against the application's name which
can either be app_id
, window_properties.class
, or
window_properties.instance
(whatever is filled).
All regular expressions are Rust's regex crates
regexes. With the special
value __focused__
, comparison is performed literally.
In addition to the simple criteria listed above, criteria queries can be
combined using and
, or
, and not
with the syntax:
[and <crit1> <crit2> ...]
which is equivalent to[<crit1> <crit2> ...]
, i.e., theand
is optional for compatibility with sway which only supports this syntax and has noor
andnot
.[and]
and[]
always match.[or <crit1> <crit2> ...]
where[or]
never matches.not <crit>
where the following criterion is negated.
The combinators may also be written in all-caps, i.e., AND
, OR
, and NOT
,
or as &&
, ||
, and !
.
Obviously, criteria may be nested, so this is a valid one:
[|| [app_id="firefox" tiling]
[&& !app_id="firefox" floating workspace=__focused__]]
There are also the boolean literals true
and false
available which may also
be written in all-caps.
Some distros have packaged swayr so that you can install it using your distro's
package manager. Alternatively, it's easy to build and install it yourself
using cargo
.
The following GNU/Linux and BSD distros package swayr. Thanks a lot to the respective package maintainers! Refer to the repology site for details.
You'll need to install the current stable rust toolchain using the one-liner shown at the official rust installation page.
Then you can install swayr like so:
cargo install swayr
For getting updates easily, I recommend the cargo cargo-update
plugin.
# Install it once.
cargo install cargo-update
# Then you can update all installed rust binary crates including swayr using:
cargo install-update --all
# If you only want to update swayr, you can do so using:
cargo install-update -- swayr
You need to start the swayr daemon (swayrd
) in your sway config
(~/.config/sway/config
) like so:
exec env RUST_BACKTRACE=1 RUST_LOG=swayr=debug swayrd > /tmp/swayrd.log 2>&1
The setting of RUST_BACKTRACE=1
, RUST_LOG=swayr=debug
and the redirection
of the output to some logfile is optional but helps a lot when something
doesn't work. Especially, if you encounter a crash in certain situations and
you want to report a bug, it would be utmost helpful if you could reproduce the
issue with backtrace and logging at the debug
level and attach that to your
bug report. Valid log levels in the order from logging more to logging less
are: trace
, debug
, info
, warn
, error
, off
.
Beyond starting the daemon, you will want to bind swayr commands to some keys like so:
bindsym $mod+Space exec swayr switch-window
bindsym $mod+Delete exec swayr quit-window
bindsym $mod+Tab exec swayr switch-to-urgent-or-lru-window
bindsym $mod+Next exec swayr next-window all-workspaces
bindsym $mod+Prior exec swayr prev-window all-workspaces
bindsym $mod+Shift+Space exec swayr switch-workspace-or-window
bindsym $mod+c exec swayr execute-swaymsg-command
bindsym $mod+Shift+c exec swayr execute-swayr-command
Of course, configure the keys to your liking.
Pending a fix for Sway issue
#6456 or a merge of Sway PR
#6920, it will be possible to close
a sequence of non-menu switching commands or
window cycling commands using a nop
command bound
to the release of the $mod
key. Assuming your $mod
is bound to Super_L
it could look something like this:
bindsym --release Super_L exec swayr nop
Until then, there's the focus.auto_nop_delay
option which see below in the
Configuration section.
Swayr can be configured using the ~/.config/swayr/config.toml
or
/etc/xdg/swayr/config.toml
config file.
If no config files exists, a simple default configuration will be created on the first invocation for use with the wofi menu program.
It should be easy to adapt that default config for usage with other menu programs such as fuzzel, dmenu, bemenu, rofi, a script spawning a terminal with fzf, or whatever. The only requirement is that the launcher needs to be able to read the items to choose from from stdin and spit out the selected item to stdout.
The default config looks like this:
[menu]
executable = 'wofi'
args = [
'--show=dmenu',
'--allow-markup',
'--allow-images',
'--insensitive',
'--cache-file=/dev/null',
'--parse-search',
'--height=40%',
'--prompt={prompt}',
]
[format]
output_format = '{indent}<b>Output {name}</b> <span alpha=\"20000\">({id})</span>'
workspace_format = '{indent}<b>Workspace {name} [{layout}]</b> <span alpha="20000">({id})</span>'
container_format = '{indent}<b>Container [{layout}]</b> on workspace {workspace_name} <i>{marks}</i> <span alpha="20000">({id})</span>'
window_format = 'img:{app_icon}:text:{indent}<i>{app_name}</i> β {urgency_start}<b>β{title}β</b>{urgency_end} on workspace {workspace_name} <i>{marks}</i> <span alpha="20000">({id})</span>'
indent = ' '
urgency_start = '<span background="darkred" foreground="yellow">'
urgency_end = '</span>'
html_escape = true
icon_dirs = [
'/usr/share/icons/hicolor/scalable/apps',
'/usr/share/icons/hicolor/64x64/apps',
'/usr/share/icons/hicolor/48x48/apps',
'/usr/share/icons/Adwaita/64x64/apps',
'/usr/share/icons/Adwaita/48x48/apps',
'/usr/share/pixmaps',
]
[layout]
auto_tile = false
auto_tile_min_window_width_per_output_width = [
[1024, 500],
[1280, 600],
[1400, 680],
[1440, 700],
[1600, 780],
[1920, 920],
[2560, 1000],
[3440, 1000],
[4096, 1200],
]
[focus]
lockin_delay = 750
[misc]
auto_nop_delay = 3000
seq_inhibit = false
[swaymsg_commands]
include_predefined = true
[swaymsg_commands.commands]
"Window to workspace XXX" = "move window to workspace XXX"
"Workspace to left output" = "move workspace to output left"
"Workspace to right output" = "move workspace to output right"
In the following, all sections are explained.
In the [menu]
section, you can specify the menu program using the
executable
name or full path and the args
(flags and options) it should get
passed. If some argument contains the placeholder {prompt}
, it is replaced
with a prompt such as "Switch to window" depending on context.
In the [format]
section, format strings are specified defining how selection
choices are to be layed out. wofi
supports pango
markup which makes it possible
to style the text using HTML and CSS. The following formats are supported
right now.
output_format
defines how outputs (monitors) are displayed in the menu program,workspace_format
defines how workspaces are displayed,container_format
defines how non-workspace containers are displayed, andwindow_format
defines how application windows are displayed.- In these formats, the following placeholders can be used:
{name}
gets replaced by the output name, the workspace number or name or a window's title. The placeholder{title}
is an obsolete synonym which will be removed in a later version.{layout}
shows the workspace or container's layout.{id}
gets replaced by the sway-internal con id.{pid}
gets replaced by the PID.{indent}
gets replaced with N times the newformat.indent
value where N is the depth in the shown menu input.{app_name}
gets replaced with a window's application name.{marks}
shows a comma-separated list of the container's or window's marks.{app_icon}
shows the application's icon (a path to a PNG or SVG file).{workspace_name}
gets replaced with the name or number of the workspace the container or window belongs to.- The placeholders
{urgency_start}
and{urgency_end}
get replaced by the empty string if the window has no urgency flag and with the values of the same-named formats if the window has the urgency flag set. That makes it possible to highlight urgent windows as shown in the default config.
indent
is a string which is repeatedly inserted at the{indent}
placeholder in formats.html_escape
defines if the strings replacing the placeholders above (except for{urgency_start}
and{urgency_end}
) should be HTML-escaped.urgency_start
is a string which replaces the{urgency_start}
placeholder inwindow_format
.urgency_end
is a string which replaces the{urgency_end}
placeholder inwindow_format
.icon_dirs
is a vector of directories in which to look for application icons in order to compute the{app_icon}
replacement.fallback_icon
is a path to some PNG/SVG icon which will be used as{app_icon}
if no application-specific icon can be determined.
All the placeholders except {app_icon}
,
{indent}
, {urgency_start}
, and {urgency_end}
may optionally provide a
format string as specified by Rust's
std::fmt. The syntax is
{<placeholder>:<fmt_str><clipped_str>}
. For example, {app_name:{:>10.10}}
would mean that the application name is printed with exactly 10 characters. If
it's shorter, it will be right-aligned (the >
) and padded with spaces, if
it's longer, it'll be cut after the 10th character. Another example,
{app_name:{:.10}...}
would mean that the application name is truncated at 10
characters. If it's shorter, it will be printed as-is (no padding), if it's
longer, it'll be cut after the 10th character and the last 3 characters of that
substring will be replaced with ...
(<clipped_str>
).
It is crucial that during selection (using wofi or some other menu program)
each window has a different display string. Therefore, it is highly
recommended to include the {id}
placeholder at least in container_format
and window_format
. Otherwise, e.g., two vertical splits on the same
workspace or two terminals (of the same terminal app) with the same working
directory (and therefore, the same title) wouldn't be distinguishable.
Hint for wofi: wofi
supports icons with the syntax
'img:<image-file>:text:<text>'
, so a suitable window_format
with
application icon should start with img:{app_icon}:text:
.
Hint for rofi: rofi
supports icons with the syntax
"<text>\u0000icon\u001f<image-file>"
, so a suitable window_format with
application icon should end with "\u0000icon\u001f{app_icon}"
. Also note
that you must enclose your window_format
value with double-quotes and not
with single-quotes. Singe-quote strings are literal strings in
TOML where no escape-sequences are
processed whereas for double-quoted strings (so-called basic strings)
escape-sequences are processed. rofi
requires a null character and a
PARAGRAPH SEPARATOR for image sequences.
Hint for fuzzel: I've been told that fuzzel
supports the very same icon
syntax as discussed for rofi
above.
In the [layout]
section, you can enable auto-tiling by setting auto_tile
to
true
(the default is false
). The option
auto_tile_min_window_width_per_output_width
defines the minimum width in
pixels which your windows should have per output width. For example, the
example setting above says that on an output which is 1600 pixels wide, each
window should have at least a width of 780 pixels, thus there may be at most
two side-by-side windows (Caution, include your borders and gaps in your
calculation!). There will be no auto-tiling doesn't include your output's
exact width.
If auto_tile
is enabled, swayr will automatically split either vertically or
horizontally according to this algorithm:
- For all outputs:
- For all (nested) containers on that output (except the scratchpad):
- For all child windows of that container:
- If the container is split horizontally and creating another window
would make the current child window smaller than the minimum width,
execute
split vertical
(theswaymsg
command over IPC) on the child. - Else if the container is split vertically and now there is enough space
so that creating another window would still leave the current child
window above or equal to the minimum width, call
split horizontal
on the child. - Otherwise, do nothing for this container. This means that stacked or tabbed containers will never be affected by auto-tiling.
- If the container is split horizontally and creating another window
would make the current child window smaller than the minimum width,
execute
- For all child windows of that container:
- For all (nested) containers on that output (except the scratchpad):
There is one caveat: it would be nice to also trigger auto-tiling when windows or containers are resized but unfortunately, resizing doesn't issue any events over IPC. Therefore, auto-tiling is triggered by new-window events, close-events, move-events, floating-events, and also focus-events. The latter are a workaround and wouldn't be required if there were resize-events.
In the [focus]
section, you can configure the amount of time a window has to
keep the focus in order to affect the LRU order, the lockin_delay
(specified
in milliseconds). If a given window is only briefly focused, e.g., by moving
the mouse over it on the way to another window with sway's
focus_follows_mouse
set to yes
or always
, then its position in the LRU
order will not be modified.
In the [misc]
section, there's the auto_nop_delay
option. When some swayr
command is executed, this amount of milliseconds is waited before a nop
command (see the commands documentation) is executed in
order to break out of a next-*-window
/prev-*-window
sequence or a
switch-to-*or-urgent-or-lru-window
cycle automatically. If another swayr
command is executed within this time frame, the auto-nop
execution will be
delayed for another auto_nop_delay
milliseconds. If this option is not
specified explicitly, no automatic nop
commands will be executed.
A more elegant solution using a key release binding is discussed at the end of the Usage section. However, that requires a PR to sway which has not been merged so far.
The seq_inhibit
boolean controls how swayrd
behaves during a sequence of
window cycling commands.
-
When the setting is
true
,swayrd
will inhibit updates to the window LRU order while a sequence of window cycling commands is in progress. LRU updates are reactivated when the sequence ends. A sequence is considered to have ended when any non-window-cycling-command is received byswayrd
(e.g. anop
command).Note: LRU update inhibition also applies to focus changes made outside of
swayr
, for instance by using sway commands directly. -
When the setting is
false
(the default),swayrd
will handle focus events the same way regardless of whether a window cycling sequence is in progress or not.
Note that the key release binding solution lends itself to using
seq_inhibit=true
.
This section configures the execute-swaymsg-command
command.
- The option
include_predefined
defines if the default swaymsg commands, which swayr provided for a long time, should be included. - The
commands
hashmap defines your custom commands aslabel = command
pairs. Since it's a map, the labels (keys) need to be unique.
Since version 0.8.0, I've started writing a NEWS file listing the
news, and changes to swayr
commands or configuration options. If something
doesn't seem to work as expected after an update, please consult this file to
check if there has been some (possibly incompatible) change requiring an update
of your config.
swayrbar
is a status command for sway's swaybar
implementing the
swaybar-protocol(7)
.
This means, you would setup your swaybar
like so in your
~/.config/sway/config
:
bar {
swaybar_command swaybar
# Use swayrbar as status command with some logging output which
# is redirected to /tmp/swayrbar.log. Be sure to only redirect
# stderr because the swaybar protocol requires the status_command
# to emit JSON to stdout which swaybar reads.
status_command env RUST_BACKTRACE=1 RUST_LOG=swayr=debug swayrbar 2> /tmp/swayrbar.log
position top
font pango:Iosevka 11
height 20
colors {
statusline #f8c500
background #33333390
}
}
swayrbar
, like waybar, consists of a
set of modules which you can enable and configure via its config file, either
the one specified via the command line option --config-file
, the
user-specific (~/.config/swayrbar/config.toml
), or the system-wide
(/etc/xdg/swayrbar/config.toml
). Modules emit information which swaybar
then displays and mouse clicks on a module's space in swaybar
are propagated
back and trigger some action (e.g., a shell command).
Right now, there are the following modules:
- The
window
module can show the title and application name of the current window in sway. - The
sysinfo
module can show things like CPU/memory utilization or system load. - The
battery
module can show the current state of charge, the state (e.g., charging), and the state of health. - The
date
module can show, you guess it, the current date and time! - The
pactl
module can show the current volume percentage and muted state. Clicks can increase/decrease the volume or toggle the mute state. - The
nmcli
module uses NetworkManager'snmcli
command line tool to show the currently connected wifi and its signal strength. - The
iwctl
module theiwctl
command line tool to show the currently connected wifi and its signal strength.
I guess there will be more modules in the future as time permits. Patches are certainly very welcome!
Some distros have a swayrbar package so that you can install it using your
distro's package manager, see the repology
site for details.
Alternatively, it's easy to build and install it yourself using cargo
.
You'll need to install the current stable rust toolchain using the one-liner shown at the official rust installation page.
Then you can install swayrbar like so:
cargo install swayrbar
For getting updates easily, I recommend the cargo install-update
plugin.
# Install it once.
cargo install install-update
# Then you can update all installed rust binary crates including swayr using:
cargo install-update --all
# If you only want to update swayr, you can do so using:
cargo install-update -- swayrbar
When swayrbar
is run for the very first time and doesn't find an existing
configuration file at ~/.config/swayrbar/config.toml
(user-specific) or
/etc/xdg/swayrbar/config.toml
(system-wide), it'll create a new user-specific
one where all modules are enabled and set up with some reasonable (according to
the author) default values. Adapt it to your needs.
The syntax of the config file is TOML. Here's a short example with all top-level options (one!) and one module.
refresh_interval = 1000
[[modules]]
name = 'window'
instance = '0'
format = 'πͺ {title} β {app_name}'
html_escape = false
[modules.on_click]
Left = ['swayr', 'switch-to-urgent-or-lru-window']
Right = ['kill', '{pid}']
The refresh_interval
defines the number of milliseconds between refreshes of
swaybar
.
The remainder of the configuration defines a list of modules with their
configuration (which is an array of
tables in TOML where a module's
on_click
).
name
is the name or type of the module, e.g.,window
,sysinfo
,battery
,date
,...instance
is an arbitrary string used for distinguishing two modules of the samename
. For example, you might want to have twosysinfo
modules, one for CPU and one for memory utilization, simply to have a separator between these different kinds of information. That's easily doable, just give them differentinstance
values.format
is the string to be printed inswaybar
where certain placeholders are substituted with module-specific values. Usually, such placeholders are written like{title}
, i.e., inside braces. Like inswayr
, formatting (padding, aligning, precision, etc.) is available, see here.html_escape
defines if<
,>
, and&
should be escaped as<
,>
, and&
becauseformat
may contain pango markup. Obviously, if you make use of this feature, you want to sethtml_escape = true
for that module. This option is optional and may be omitted which has the same meaning as setting it tofalse
.on_click
is a table defining shell commands to be performed when you click on a module's space inswaybar
. All placeholders available informat
are available here, too. The action for each mouse button is specified as an array['command', 'arg1', 'arg2',...]
. The available button names to be assigned to areLeft
,Middle
,Right
,WheelUp
,WheelDown
,WheelLeft
, andWheelRight
.
The on_click
table can also be written as inline table
on_click = { Left = ['swayr', 'switch-to-urgent-or-lru-window'], Right = ['kill', '{pid}'] }
but then it has to be on one single line.
The window
module supports the following placeholders:
{title}
or{name}
expand to the currently focused window's title.{app_name}
is the application name.{pid}
is the process id.
Note that the window
module also reacts to title change events of windows
which are not current and that's a feature! For examle, consider your Emacs on
workspace 1 is focused. Now you click a link in there which causes your
Firefox on (the invisible) workspace 2 to open a new tab. This will cause
swayrbar
to display the Firefox title so you can see that your click had an
effect. After at most 3 seconds, the title of the focused application will be
displayed again.
By default, it has the following click bindings:
Left
executesswayr switch-to-urgent-or-lru-window
.Right
kills the process of the window.
The sysinfo
module supports the following placeholders:
{cpu_usage}
is the percentage of CPU utilization.{mem_usage}
is the percentage of memory utilization.{load_avg_1}
is the average system load in the last minute.{load_avg_5}
is the average system load in the last five minutes.{load_avg_15}
is the average system load in the last fifteen minutes.
By default, it has the following click bindings:
Left
executesfoot htop
.
The battery
module supports the following placeholders:
{state_of_charge}
is the percentage of charge wrt. the battery's current capacity.{state_of_health}
is the percentage of the battery's remaining capacity compared to its original capacity.{state}
is the current state, e.g., something like Discharging or Full.
The pactl
module requires the pulse-audio command line tool of the same name
to be installed. It supports the following placeholders:
{volume}
is the current volume percentage of the default sink.{muted}
is the string" muted"
if the default sink is currently muted, otherwise it is the empty string.{volume_source}
is the current volume percentage of the default source.{muted_source}
is the string" muted"
if the default source is currently muted, otherwise it is the empty string.
By default, it has the following click bindings:
Left
calls thepavucontrol
program (PulseAudio GUI control).Right
toggles the default sink's mute state.WheelUp
andWheelDown
increase/decrease the volume of the default sink.
The nmcli
module requires NetworkManager and the nmcli
command line tool.
It can display information about the wifi connection. It supports the
following placeholders:
{name}
wifi network name.{signal}
wireless signal strength (in %).{bars}
a visualization of connection strength, like "βββ_".
The iwctl
module requires the iwctl
command line tool which comes with
iwd
. It can display information about the wifi connection. It supports the
following placeholders:
{name}
wifi network name.{signal}
wireless signal strength (in dBm).{bars}
a visualization of connection strength, like "βββ_".
The date
module shows the date and time by defining the format
using
chrono's strftime
format.
The cmd
module can be used to run shell commands and display their
output.
The command is specified using the format
configuration option. It will be
executed by sh -c
and its output will be displayed in the module's space in
swaybar
.
The html_escape
option controls if HTML entity replacements should be
performed on the command's output before it is displayed in the bar, i.e., you
should set it to true
if your command outputs text containing <
, >
, or
&
but is not valid pango markup.
This module has no placeholders or default configuration.
Version changes are summarized in the NEWS file. If something doesn't seem to work as expected after an update, please consult this file to check if there has been some (possibly incompatible) change requiring an update of your config.
For asking questions, sending feedback, or patches, refer to my public inbox
(mailinglist). Please mention the
project you are referring to in the subject, e.g., swayr
or swayrbar
(or
other projects in different repositories).
It compiles, therefore there are no bugs. Oh well, if you still found one or want to request a feature, you can do so here.
Swayr & Swayrbar are licensed under the GPLv3 (or later).