4dadffabf1
Some users prefer to use AutoHotKey v2, so this commit adds a check for both komorebi.ahk and komorebi.akh2 files, and the corresponding AHK executables, whenever commands around configuration loading are run (on startup, when manually reloading, and when watching for changes). If both files exist in the home directory, komorebi.ahk will be preferred (at least until AHKv2 is out of beta). An example of a configuration file compatible with AHKv2 by @crosstyan has been added to the documentation. resolve #10
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komorebi
Tiling Window Management for Windows.
About
komorebi is a tiling window manager that works as an extension to Microsoft's Desktop Window Manager in Windows 10 and above.
komorebi allows you to control application windows, virtual workspaces and display monitors with a CLI which can be used with third-party software such as AutoHotKey to set user-defined keyboard shortcuts.
Description
komorebi only responds to WinEvents and the messages it receives on a dedicated socket.
komorebic is a CLI that writes messages on komorebi's socket.
komorebi doesn't handle any keyboard or mouse inputs; a third party program (e.g. AutoHotKey) is needed in order to translate keyboard and mouse events to komorebic commands.
This architecture, popularised by bspwm on Linux and yabai on macOS, is outlined as follows:
PROCESS SOCKET
ahk --------> komorebic <------> komorebi
Design
komorebi is the successor to yatta and as such aims to build on the learnings from that project.
While yatta was primary an attempt to learn how to work with and call Windows APIs from Rust, while secondarily implementing a minimal viable tiling window manager for my own needs (largely single monitor, single workspace), komorebi has been redesigned from the ground-up to support more complex features that have become standard in tiling window managers on other platforms.
komorebi holds a list of physical monitors.
A monitor is just a rectangle of the available work area which contains one or more virtual workspaces.
A workspace holds a list of containers.
A container is just a rectangle where one or more application windows can be displayed.
This means that:
- Every monitor has its own collection of virtual workspaces
- Workspaces only know about containers and their dimensions, not about individual application windows
- Every application window must belong to a container, even if that container only contains one application window
- Many application windows can be stacked and cycled through in the same container within a workspace
Getting Started
Prebuilt binaries are available on the releases page in a zip archive.
Once downloaded, you will need to move the komorebi.exe and komorebic.exe binaries to a directory in your Path (
you can see these directories by running $Env:Path.split(";") at a PowerShell prompt).
Alternatively, you may add a new directory to your Path
using setx or the Environment
Variables pop up in System Properties Advanced (which can be launched with SystemPropertiesAdvanced.exe at a
PowerShell prompt), and then move the binaries to that directory.
If you use the Scoop command line installer, you can run the following commands to install the binaries from the latest GitHub Release:
scoop bucket add komorebi https://github.com/LGUG2Z/komorebi-bucket
scoop install komorebi
If you install komorebi using Scoop, the binaries will automatically be added to your Path and a command will be
shown for you to run in order to get started using the sample configuration file.
If you prefer to compile komorebi from source, you will need
a working Rust development environment on Windows 10. The x86_64-pc-windows-msvc toolchain is
required, so make sure you have also installed
the Build Tools for Visual Studio 2019.
You can then clone this repo and compile the source code to install the binaries for komorebi and komorebic:
cargo install --path komorebi --locked
cargo install --path komorebic --locked
Once you have either the prebuilt binaries in your Path, or have compiled the binaries from source (these will already
be in your Path if you installed Rust with rustup, which you absolutely should), you can
run komorebic start at a Powershell prompt, and you will see the following output:
Start-Process komorebi -WindowStyle hidden
This means that komorebi is now running in the background, tiling all your windows, and listening for commands sent to
it by komorebic. You can similarly stop the process by running komorebic stop.
Once komorebi is running, you can execute the komorebi.sample.ahk script to set up the default keybindings via AHK
(the file includes comments to help you start building your own configuration).
If you have AutoHotKey installed and a komorebi.ahk file in your home directory (run $Env:UserProfile at a
PowerShell prompt to find your home directory), komorebi will automatically try to load it when starting.
There is also tentative support for loading a AutoHotKey v2, if the file is named komorebi.ahk2 and
the AutoHotKey64.exe executable for AutoHotKey v2 is in your Path. If both komorebi.ahk and komorebi.ahk2 files
exist in your home directory, only komorebi.ahk will be loaded. An example of an AutoHotKey v2 configuration file
for komorebi can be found here.
If you are experiencing behaviour where closing a window leaves a blank tile, but minimizing the same window does not , you have probably enabled a 'close/minimize to tray' option for that application. You can tell komorebi to handle this application appropriately by identifying it via the executable name or the window class:
komorebic.exe identify-tray-application exe Discord.exe
komorebic.exe identify-tray-application exe Telegram.exe
Configuration
As previously mentioned, this project does not handle anything related to keybindings and shortcuts directly. I personally use AutoHotKey to manage my window management shortcuts, and have provided a sample komorebi.ahk AHK script that you can use as a starting point for your own.
You can run komorebic.exe to get a full list of the commands that you can use to customise komorebi and create
keybindings with. You can run komorebic.exe <COMMAND> --help to get a full explanation of the arguments required for
each command.
Features
- Multi-monitor
- Virtual workspaces
- Window stacks
- Cycle through stacked windows
- Change focused window by direction
- Move focused window container in direction
- Move focused window container to monitor
- Move focused window container to workspace
- Mouse follows focused container
- Resize window container in direction
- Resize child window containers by split ratio
- Mouse drag to swap window container position
- Mouse drag to resize window container
- Configurable workspace and container gaps
- BSP tree layout
- Flip BSP tree layout horizontally or vertically
- Equal-width, max-height column layout
- Floating rules based on exe name
- Floating rules based on window title
- Floating rules based on window class
- Identify 'close/minimize to tray' applications
- Toggle floating windows
- Toggle monocle window
- Toggle focus follows mouse
- Toggle automatic tiling
- Pause all window management
- Load configuration on startup
- Manually reload configuration
- Watch configuration for changes
- View window manager state
Development
If you would like to contribute code to this repository, there are a few requests that I have to ensure a foundation of code quality, consistency and commit hygiene:
- Flatten all
usestatements - Run
cargo +nightly clippyand ensure that all lints and suggestions have been addressed before committing - Run
cargo +nightly fmt --allto ensure consistent formatting before committing - Use
git czwith the Commitizen CLI to prepare commit messages - Provide at least one short sentence or paragraph in your commit message body to describe your thought process for the changes being committed
If you use IntelliJ, you should enable the following settings to ensure that code generated by macros is recognised by the IDE for completions and navigation:
- Set
Expand declarative macrostoUse new enginehere - Enable the following experimental features:
org.rust.cargo.evaluate.build.scriptsorg.rust.macros.proc
Logs and Debugging
Logs from komorebi will be appended to ~/komorebi.log; this file is never rotated or overwritten, so it will keep
growing until it is deleted by the user.
Whenever running the komorebic stop command or sending a Ctrl-C signal to komorebi directly, the komorebi process
ensures that all hidden windows are restored before termination.
If however, you ever end up with windows that are hidden and cannot be restored, a list of window handles known
to komorebi are stored and continuously updated in ~/komorebi.hwnd.json.
Running komorebic restore-windows will read the list of window handles and forcibly restore them, regardless of
whether the main komorebi process is running.
Window Manager State and Integrations
The current state of the window manager can be queried using the komorebic state command, which returns a JSON
representation of the WindowManager struct.
This may also be polled to build further integrations and widgets on top of (if you ever wanted to build something like Stackline for Windows, you could do it by polling this command).
{
"monitors": {
"elements": [
{
"id": 65537,
"monitor_size": {
"left": 0,
"top": 0,
"right": 3840,
"bottom": 2160
},
"work_area_size": {
"left": 0,
"top": 40,
"right": 3840,
"bottom": 2120
},
"workspaces": {
"elements": [
{
"name": "bsp",
"containers": {
"elements": [
{
"windows": {
"elements": [
{
"hwnd": 2623596,
"title": "komorebi – README.md",
"exe": "idea64.exe",
"class": "SunAwtFrame",
"rect": {
"left": 8,
"top": 60,
"right": 1914,
"bottom": 2092
}
}
],
"focused": 0
}
},
{
"windows": {
"elements": [
{
"hwnd": 198266,
"title": "LGUG2Z/komorebi: A(nother) tiling window manager for Windows 10 based on binary space partitioning - Mozilla Firefox",
"exe": "firefox.exe",
"class": "MozillaWindowClass",
"rect": {
"left": 1918,
"top": 60,
"right": 1914,
"bottom": 1042
}
}
],
"focused": 0
}
},
{
"windows": {
"elements": [
{
"hwnd": 1247352,
"title": "Windows PowerShell",
"exe": "WindowsTerminal.exe",
"class": "CASCADIA_HOSTING_WINDOW_CLASS",
"rect": {
"left": 1918,
"top": 1110,
"right": 959,
"bottom": 1042
}
}
],
"focused": 0
}
},
{
"windows": {
"elements": [
{
"hwnd": 395464,
"title": "Signal",
"exe": "Signal.exe",
"class": "Chrome_WidgetWin_1",
"rect": {
"left": 2873,
"top": 1110,
"right": 959,
"bottom": 1042
}
}
],
"focused": 0
}
}
],
"focused": 2
},
"monocle_container": null,
"floating_windows": [],
"layout": "BSP",
"layout_flip": null,
"workspace_padding": 10,
"container_padding": 10
}
],
"focused": 0
}
}
],
"focused": 0
},
"is_paused": false
}