# 𝑋𝑟𝑒𝑚𝑎𝑝 :keyboard: [![cargo](https://github.com/k0kubun/xremap/actions/workflows/build.yml/badge.svg)](https://github.com/k0kubun/xremap/actions/workflows/build.yml) `xremap` is a key remapper for Linux. Unlike `xmodmap`, it supports app-specific remapping and Wayland. ## Concept * **Fast** - Xremap is written in Rust, which is faster than JIT-less interpreters like Python. * **Cross-platform** - Xremap uses `evdev` and `uinput`, which works whether you use X11 or Wayland. * **Language-agnostic** - The config is JSON-compatible. Generate it from any language, e.g. [Ruby](https://github.com/xremap/xremap-ruby), [Python](https://github.com/xremap/xremap-python). ## Features * Remap any keys, e.g. Ctrl or CapsLock. * Remap any key combination to another, even to a key sequence. * Remap a key sequence as well. You could do something like Emacs's `C-x C-c`. * Remap a key to two different keys depending on whether it's pressed alone or held. * Application-specific remapping. Even if it's not supported by your application, xremap can. * Automatically remap newly connected devices by starting xremap with `--watch`. * Support [Emacs-like key remapping](example/emacs.yml), including the mark mode. * Trigger commands on key press/release events. * Use a non-modifier key as a virtual modifier key. ## Installation Download a binary from [Releases](https://github.com/k0kubun/xremap/releases). If it doesn't work, please [install Rust](https://doc.rust-lang.org/cargo/getting-started/installation.html) and run one of the following commands: ```bash cargo install xremap --features x11 # X11 cargo install xremap --features gnome # GNOME Wayland cargo install xremap --features sway # Sway cargo install xremap # Others ``` You may also need to install `libx11-dev` to run the `xremap` binary for X11. ### Arch Linux If you are on Arch Linux and X11, you can install [xremap-x11-bin](https://aur.archlinux.org/packages/xremap-x11-bin/) from AUR. ### NixOS If you are using NixOS, xremap can be installed and configured through a [flake](https://github.com/xremap/nix-flake/). ## Usage Write [a config file](#Configuration) directly, or generate it with [xremap-ruby](https://github.com/xremap/xremap-ruby) or [xremap-python](https://github.com/xremap/xremap-python). Then run: ``` sudo xremap config.yml ```
If you want to run xremap without sudo, click here. ### Running xremap without sudo To do so, your normal user should be able to use `evdev` and `uinput` without sudo. In Ubuntu, this can be configured by running the following commands and rebooting your machine. ```bash sudo gpasswd -a YOUR_USER input echo 'KERNEL=="uinput", GROUP="input", TAG+="uaccess"' | sudo tee /etc/udev/rules.d/input.rules ``` #### Arch Linux The following can be used on Arch. ```bash lsmod | grep uinput ``` If this module is not loaded, add to `/etc/modules-load.d/uinput.conf`: ```bash uinput ``` Then add udev rule. ```bash echo 'KERNEL=="uinput", GROUP="input", MODE="0660"' | sudo tee /etc/udev/rules.d/99-input.rules ``` #### Other platforms In other platforms, you might need to create an `input` group first and run `echo 'KERNEL=="event*", NAME="input/%k", MODE="660", GROUP="input"' | sudo tee /etc/udev/rules.d/input.rules` as well. If you do this, in some environments, `--watch` may fail to recognize new devices due to temporary permission issues. Using `sudo` might be more useful in such cases. ---
See the following instructions for your environment to make `application`-specific remapping work. ### X11 If you use `sudo` to run `xremap`, you may need to run `xhost +SI:localuser:root` if you see `No protocol specified`. ### GNOME Wayland Install xremap's GNOME Shell extension from [this link](https://extensions.gnome.org/extension/5060/xremap/), switching OFF to ON.
If you use sudo to run xremap, also click here. Update `/usr/share/dbus-1/session.conf` as follows, and reboot your machine. ```diff + ```
## Configuration Your `config.yml` should look like this: ```yml modmap: - name: Except Chrome application: not: Google-chrome remap: CapsLock: Esc keymap: - name: Emacs binding application: only: Slack remap: C-b: left C-f: right C-p: up C-n: down ``` See also: [example/config.yml](example/config.yml) and [example/emacs.yml](example/emacs.yml) ### modmap `modmap` is for key-to-key remapping like xmodmap. Note that remapping a key to a modifier key, e.g. CapsLock to Control\_L, is supported only in `modmap` since `keymap` handles modifier keys differently. ```yml modmap: - name: Name # Optional exact_match: false # Optional, defaults to false remap: # Required # Replace a key with another KEY_XXX: KEY_YYY # Required # Dispatch different keys depending on whether you hold it or press it alone KEY_XXX: held: KEY_YYY # Required alone: KEY_ZZZ # Required alone_timeout_millis: 1000 # Optional # Hook `keymap` action on key press/release events. KEY_XXX: press: { launch: ["xdotool", "mousemove", "0", "7200"] } # Required release: { launch: ["xdotool", "mousemove", "0", "0"] } # Required application: # Optional not: [Application, ...] # or only: [Application, ...] ``` For `KEY_XXX` and `KEY_YYY`, use [these names](https://github.com/emberian/evdev/blob/1d020f11b283b0648427a2844b6b980f1a268221/src/scancodes.rs#L26-L572). You can skip `KEY_` and the name is case-insensitive. So `KEY_CAPSLOCK`, `CAPSLOCK`, and `CapsLock` are the same thing. Some [custom aliases](src/config/key.rs) like `SHIFT_R`, `CONTROL_L`, etc. are provided. If you specify a map containing `held` and `alone`, you can use the key for two purposes. The key is considered `alone` if it's pressed and released within `alone_timeout_millis` (default: 1000) before any other key is pressed. Otherwise it's considered `held`. ### keymap `keymap` is for remapping a sequence of key combinations to another sequence of key combinations or other actions. ```yml keymap: - name: Name # Optional remap: # Required # Key press -> Key press MOD1-KEY_XXX: MOD2-KEY_YYY # Sequence (MOD1-KEY_XXX, MOD2-KEY_YYY) -> Key press (MOD3-KEY_ZZZ) MOD1-KEY_XXX: remap: MOD2-KEY_YYY: MOD3-KEY_ZZZ timeout_millis: 200 # Optional. No timeout by default. # Key press (MOD1-KEY_XXX) -> Sequence (MOD2-KEY_YYY, MOD3-KEY_ZZZ) MOD1-KEY_XXX: [MOD2-KEY_YYY, MOD3-KEY_ZZZ] # Execute a command MOD1-KEY_XXX: launch: ["bash", "-c", "echo hello > /tmp/test"] # Let `with_mark` also press a Shift key (useful for Emacs emulation) MOD1-KEY_XXX: { set_mark: true } # use { set_mark: false } to disable it # Also press Shift only when { set_mark: true } is used before MOD1-KEY_XXX: { with_mark: MOD2-KEY_YYY } # The next key press will ignore keymap MOD1-KEY_XXX: { escape_next_key: true } # Set mode to configure Vim-like modal remapping MOD1-KEY_XXX: { set_mode: default } application: # Optional not: [Application, ...] # or only: [Application, ...] mode: default # Optional default_mode: default # Optional ``` For `KEY_XXX`, use [these names](https://github.com/emberian/evdev/blob/1d020f11b283b0648427a2844b6b980f1a268221/src/scancodes.rs#L26-L572). You can skip `KEY_` and the name is case-insensitive. So `KEY_CAPSLOCK`, `CAPSLOCK`, and `CapsLock` are the same thing. For the `MOD1-` part, the following prefixes can be used (also case-insensitive): * Shift: `SHIFT-` * Control: `C-`, `CTRL-`, `CONTROL-` * Alt: `M-`, `ALT-` * Windows: `SUPER-`, `WIN-`, `WINDOWS-` You can use multiple prefixes like `C-M-Shift-a`. You may also suffix them with `_L` or `_R` (case-insensitive) so that remapping is triggered only on a left or right modifier, e.g. `Ctrl_L-a`. If you use `virtual_modifiers` explained below, you can use it in the `MOD1-` part too. `exact_match` defines whether to use exact match when matching key presses. For example, given a mapping of `C-n: down` and `exact_match: false` (default), and you pressed C-Shift-n, it will automatically be remapped to Shift-down, without you having to define a mapping for C-Shift-n, which you would have to do if you use `exact_match: true`. ### application `application` can be used for both `modmap` and `keymap`, which allows you to specify application-specific remapping. ```yml application: not: Application # or not: [Application, ...] # or only: Application # or only: [Application, ...] ``` The application name can be specified as a normal string to exactly match the name, or a regex surrounded by `/`s like `/application/`. To check the application names, you can use the following commands: #### X11 ``` $ wmctrl -x -l 0x02800003 0 slack.Slack ubuntu-jammy Slack | general | ruby-jp 0x05400003 0 code.Code ubuntu-jammy application.rs - xremap - Visual Studio Code ``` You may use the entire string of the third column (`slack.Slack`, `code.Code`), or just the last segment after `.` (`Slack`, `Code`). #### GNOME Wayland ``` busctl --user call org.gnome.Shell /com/k0kubun/Xremap com.k0kubun.Xremap WMClass ``` #### Sway ``` swaymsg -t get_tree ``` Locate `app_id` in the output. #### application-specific key overrides Sometimes you want to define a generic key map that is available in all applications, but give specific keys in that map their own definition in specific applications. You can do this by putting the generic map at the bottom of the config, after any specific overrides, as follows. ```yml # Emacs-style word-forward and word-back keymap: - name: override to make libreoffice-writer go to end of word but before final space like emacs application: only: libreoffice-writter remap: Alt-f: [right, C-right, left] - name: generic for all apps remap: Alt-f: C-right Alt-b: C-left ``` Note how Alt-f and Alt-b work in all apps, but the definition of Alt-f is slightly different in LibreOffice Writer. When that app is active, the first definition overrides the second definition; but for any other app, only the second definition is found. This is because xremap uses the first matching definition that it finds. ### virtual\_modifiers You can declare keys that should act like a modifier. ```yml virtual_modifiers: - CapsLock keymap: - remap: CapsLock-i: Up CapsLock-j: Left CapsLock-k: Down CapsLock-l: Right ``` ### keypress_delay_ms Some applications have trouble understanding synthesized key events, especially on Wayland. `keypress_delay_ms` can be used to workaround the issue. See [#179](https://github.com/k0kubun/xremap/issues/179) for the detail. ## License `xremap` is available as open source under the terms of the [MIT License](https://opensource.org/licenses/MIT).