An extremely fast and simple dmenu / rofi replacement for wlroots-based Wayland compositors such as Sway.
The aim is to do just what I want it to as quick as possible.
When configured correctly, tofi can get on screen within a single frame.
Install the necessary dependencies.
# Runtime dependencies
sudo pacman -S freetype2 harfbuzz cairo pango wayland libxkbcommon
# Build-time dependencies
sudo pacman -S meson scdoc wayland-protocols
# Runtime dependencies
sudo dnf install freetype-devel cairo-devel pango-devel wayland-devel libxkbcommon-devel harfbuzz
# Build-time dependencies
sudo dnf install meson scdoc wayland-protocols-devel
# Runtime dependencies
sudo apt install libfreetype-dev libcairo2-dev libpango1.0-dev libwayland-dev libxkbcommon-dev libharfbuzz-dev
# Build-time dependencies
sudo apt install meson scdoc wayland-protocols
Then build:
meson build && ninja -C build install
Tofi is available in the AUR:
paru -S tofi
By default, running tofi
causes it to act like dmenu, accepting options on
stdin
and printing the selection to stdout
.
tofi-run
is a symlink to tofi
, which will cause tofi to display a list of
executables under the user's $PATH
.
tofi-drun
is also a symlink to tofi
, which will cause tofi to display a
list of applications found in desktop files as described by the Desktop Entry
Specification.
To use as a launcher for Sway, add something similar to the following to your Sway config file:
set $menu tofi-run | xargs swaymsg exec --
bindsym $mod+d exec $menu
For tofi-drun
, there are two possible methods:
# Launch via Sway
set $drun tofi-drun | xargs swaymsg exec --
bindsym $mod+Shift+d exec $drun
# Launch directly
set $drun tofi-drun --drun-launch=true
bindsym $mod+Shift+d exec $drun
See the main manpage for more info.
Tofi supports a fair number of theming options - see the default config file or the config file manpage for a complete description. Theming is based on the box model shown below:
This consists of a box with a border, border outlines and optionally rounded corners. Text inside the box can either be laid out vertically:
╔═══════════════════╗
║ prompt input ║
║ result 1 ║
║ result 2 ║
║ ... ║
╚═══════════════════╝
or horizontally:
╔═══════════════════════════════════════════╗
║ prompt input result 1 result 2 ... ║
╚═══════════════════════════════════════════╝
Each piece of text can have its colour customised, and be surrounded by a box with optionally rounded corners,
A few example themes are included and shown below. Note that you may need to tweak them to look correct on your display.
By default, tofi isn't really any faster than its alternatives. However, when configured correctly, it can startup and get on screen within a single frame, or about 2ms in the ideal case.
In roughly descending order, the most important options for performance are:
-
--font
- This is by far the most important option. By default, tofi uses Pango for font rendering, which (on Linux) looks up fonts via Fontconfig. Unfortunately, this font lookup is about as slow as wading through treacle (relatively speaking). On battery power on my laptop (Arch linux, AMD Ryzen 5 5600U), with ~10000 fonts as the output offc-list
, loading a single font with Pango & Fontconfig takes ~120ms.The solution is to pass a path to a font file to
--font
, e.g.--font /usr/share/fonts/noto/NotoSansMono-Regular.ttf
. Tofi will then skip any font searching, and use Harfbuzz and Cairo directly to load the font and display text. This massively speeds up startup (font loading takes <1ms). The (minor for me) downside is that any character not in the specified font won't render correctly, but unless you have commands (or items) with CJK characters or emojis in their names, that shouldn't be an issue. -
--width
,--height
- Larger windows take longer to draw (mostly just for the first frame). Again, on battery power on my laptop, drawing a fullscreen window (2880px × 1800px) takes ~20ms on the first frame, whereas a dmenu-like ribbon (2880px × 60px) takes ~1ms. -
--num-results
- By default, tofi auto-detects how many results will fit in the window. This is quite tricky when--horizontal=true
is passed, and leads to a few ms slowdown (only in this case). Setting a fixed number of results will speed this up, but since this likely only applies to dmenu-like themes (which are already very quick) it's probably not worth setting this. -
--*-background
- Drawing background boxes around text effectively requires drawing the text twice, so specifying a lot of these options can lead to a couple of ms slowdown. -
--hint-font
- Getting really into it now, one of the remaining slow points is hinting fonts. For the dmenu theme on battery power on my laptop, with a specific font file chosen, the initial text render with the default font hinting takes ~4-6ms. Specifying--hint-font false
drops this to ~1ms. For hidpi screens or large font sizes, this doesn't noticeably impact font sharpness, but your mileage may vary. This option has no effect if a path to a font file hasn't been passed to--font
. -
--ascii-input
- Proper Unicode handling is slower than plain ASCII - on the order of a few ms for ~40 kB of input. Specifying--ascii-input true
will disable some of this handling, speeding up tofi's startup, but searching for non-ASCII characters may not work properly. -
--late-keyboard-init
- The last avoidable thing that slows down startup is initialisation of the keyboard. This only takes 1-2ms on my laptop, but up to 60ms on a Raspberry Pi Zero 2 W. Passing this option will delay keyboard initialisation until after the first draw to screen, meaning that keypresses will be missed until then, so it's disabled by default.
Below are some rough benchmarks of the included themes on different machines.
These were generated with version 0.1.0 of tofi. The time shown is measured
from program launch to Sway reporting that the window has entered the screen.
Results are the mean and standard deviation of 10 runs. All tests were
performed with --font /path/to/font/file.ttf
, --hint-font false
and the
equivalent of --ascii-input true
(as tofi 0.1.0 didn't support Unicode text).
Theme | ||||
---|---|---|---|---|
fullscreen | dmenu | dos | ||
Machine | Ryzen 7 3700X 2560px × 1440px |
9.5ms ± 1.8ms | 5.2ms ± 1.5ms | 6.1ms ± 1.3ms |
Ryzen 5 5600U (AC) 2880px × 1800px |
17.1ms ± 1.4ms | 4.0ms ± 0.5ms | 6.7ms ± 1.1ms | |
Ryzen 5 5600U (battery) 2880px × 1800px |
28.1ms ± 3.7ms | 6.0ms ± 1.6ms | 12.3ms ± 3.4ms | |
Raspberry Pi Zero 2 W 1920px × 1080px |
119.0ms ± 5.9ms | 67.3ms ± 10.2ms | 110.0ms ± 10.3ms |
The table below additionally includes --late-keyboard-init
in the arguments.
Theme | ||||
---|---|---|---|---|
fullscreen | dmenu | dos | ||
Machine | Ryzen 7 3700X 2560px × 1440px |
7.9ms ± 1.0ms | 2.3ms ± 0.8ms | 3.8ms ± 0.8ms |
Ryzen 5 5600U (AC) 2880px × 1800px |
13.4ms ± 0.8ms | 2.6ms ± 0.5ms | 5.5ms ± 0.51ms | |
Ryzen 5 5600U (battery) 2880px × 1800px |
21.8ms ± 1.8ms | 3.6ms ± 0.7ms | 8.1ms ± 0.7ms | |
Raspberry Pi Zero 2 W 1920px × 1080px |
98.3ms ± 5.7ms | 44.8ms ± 16.3ms | 87.4ms ± 9.9ms |
It turns out that it's possible to speed up fullscreen windows somewhat with
some advanced memory tweaks. See this Stack Overflow
question
if you want full details, but basically by setting
/sys/kernel/mm/transparent_hugepage/shmem_enabled
to advise
, we can tell
the kernel we're going to be working with large memory areas. This results in
fewer page faults when first allocating memory, speeding up tofi.
Note that I don't recommend you play with this unless you know what you're doing (I don't), but I've included it just in case, and to show that the slowdown on large screens is partially due to factors beyond tofi's control.
The table below shows the effects of additionally enabling hugepages from the table above. The dmenu theme has been skipped, as the window it creates is too small to benefit from them. The Raspberry Pi is also omitted, as it doesn't support hugepages.
Theme | |||
---|---|---|---|
fullscreen | dos | ||
Machine | Ryzen 7 3700X 2560px × 1440px |
6.9ms ± 1.1ms | 3.2ms ± 0.4ms |
Ryzen 5 5600U (AC) 2880px × 1800px |
7.9ms ± 1.2ms | 3.4ms ± 1.0ms | |
Ryzen 5 5600U (battery) 2880px × 1800px |
13.7ms ± 0.9ms | 5.6ms ± 0.8ms |
For those who are interested in how much time there is even left to save, I've
plotted the startup performance of version 0.8.0 of tofi-run
below, alongside
the corresponding debug output. This is the data from 1000 runs of the dmenu
theme on a Ryzen 7 3700X machine, with all performance options set as mentioned
above, along with --num-results 10
. I've highlighted some points of interest,
most of which are out of tofi's control.
(You may want to click the image to see it at full size).
Note that this is slightly faster than shown in previous benchmarks (with some runs under 1.5ms!), due to some string handling improvements made in version 0.8.0. Also note that the real performance is slightly better still, as the performance logging used slows down the code by roughly 10%.
As you can see, there's not a huge amount of time that could even theoretically be saved. Somewhere around 50% of the startup time is simply spent waiting, and most of the code isn't parallelisable, as many steps depend on the result of previous steps. One idea would be to daemonize tofi, skipping much of this startup. I don't want to do this, however, for two main reasons: complexity, and I think it's probably about fast enough already!