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# foot
**foot** is a fast Wayland terminal emulator.
## Index
1. [Features](#features)
1. [Non-features](#non-features)
1. [What does not work?](#what-does-not-work)
1. [Fonts](#fonts)
1. [Shortcuts](#shortcuts)
1. [Keyboard](#keyboard)
1. [Normal mode](#normal-mode)
1. [Scrollback search](#scrollback-search)
1. [Mouse](#mouse)
1. [Server mode](#server-mode)
1. [Requirements](#requirements)
1. [Running](#running)
1. [Building](#building)
1. [Installing](#installing)
1. [Arch Linux](#arch-linux)
1. [Other](#other)
## Features
* Fast (**TODO** insert benchmark results here)
* Wayland native
* DE agnostic
* User configurable font fallback
* Scrollback search
* Color emoji support
* "Server" mode (one master process, many windows)
## Non-features
This is a non-exhaustive list of things some people might consider
being important features (i.e. _"must-haves"_), that are unlikely to
ever be supported by foot.
* Tabs
* Graphical elements (menu, buttons etc)
## What does not work?
This is a list of known, but probably not all, issues:
* Unicode combining characters
Examples: á (`LATIN SMALL LETTER A` + `COMBINING ACUTE ACCENT`)
* Reflow text on window resize
* GNOME; might work, but without window decorations.
Strictly speaking, foot is at fault here; all Wayland applications
_must_ be able to draw their own window decorations (but foot is
not).
However, most people want a uniform look and feel on their
desktop, including the window decorations. For this reason, a
Wayland application can request _Server Side Decorations_
(SSD). GNOME will reply with a "_I hear you, but sorry, I wont do
that_".
## Fonts
**foot** supports all fonts that can be loaded by _freetype_,
including **bitmap** fonts and **color emoji** fonts.
Foot uses _fontconfig_ to locate and configure the font(s) to
use. Since fontconfig's fallback mechanism is imperfect, especially
for monospace fonts (it doesn't prefer monospace fonts even though the
requested font is one), foot allows you, the user, to configure the
fallback fonts to use.
This also means you can configure _each_ fallback font individually;
you want _that_ fallback font to use _this_ size, and you want that
_other_ fallback font to be _italic_? No problem!
If a glyph cannot be found in _any_ of the user configured fallback
fonts, _then_ fontconfig's list is used.
## Shortcuts
At the moment, all shortcuts are hard coded and cannot be changed. It
is **not** possible to define new key bindings.
### Keyboard
#### Normal mode
<kbd>shift</kbd>+<kbd>page up</kbd>/<kbd>page down</kbd>
: Scroll up/down in history
<kbd>ctrl</kbd>+<kbd>shift</kbd>+<kbd>c</kbd>
: Copy selected text to the _clipboard_
<kbd>ctrl</kbd>+<kbd>shift</kbd>+<kbd>v</kbd>
: Paste from _clipboard_
<kbd>ctrl</kbd>+<kbd>shift</kbd>+<kbd>r</kbd>
: Start a scrollback search
#### Scrollback search
<kbd>ctrl</kbd>+<kbd>r</kbd>
: Search _backward_ for next match
<kbd>ctrl</kbd>+<kbd>s</kbd>
: Search _forward_ for next match
<kbd>ctrl</kbd>+<kbd>w</kbd>
: Extend current selection (and thus the search criteria) to the end
of the word, or the next word if currently at a word separating
character.
<kbd>ctrl</kbd>+<kbd>shift</kbd>+<kbd>w</kbd>
: Same as <kbd>ctrl</kbd>+<kbd>w</kbd>, except that the only word
separating characters are whitespace characters.
<kbd>escape</kbd>, <kbd>ctrl</kbd>+<kbd>g</kbd>
: Cancel the search
<kbd>return</kbd>
: Finish the search and copy the current match to the primary
selection
### Mouse
<kbd>left</kbd> - **single-click**
: Drag to select; when released, the selected text is copied to the
_primary_ selection. This feature is **disabled** when client has
enabled _mouse tracking_.
: Holding <kbd>shift</kbd> enables selection in mouse tracking enabled
clients.
: Holding <kbd>ctrl</kbd> will create a block selection.
<kbd>left</kbd> - **double-click**
: Selects the _word_ (separated by spaces, period, comma, parenthesis
etc) under the pointer. Hold <kbd>ctrl</kbd> to select everything
under the pointer up to, and until, the next space characters.
<kbd>left</kbd> - **triple-click**
: Selects the entire row
<kbd>middle</kbd>
: Paste from _primary_ selection
<kbd>wheel</kbd>
: Scroll up/down in history
## Server mode
When run normally, **foot** is a single-window application; if you
want another window, start another foot process.
However, foot can also be run in a _server_ mode. In this mode, one
process hosts multiple windows. Note that this is **nothing** like
tabs. When first started in server mode, **no** windows are available.
You open new windows by running `footclient`. This is a small process
that instructs the foot server to open a new terminal window. The
client process remains running until the terminal window is
closed. The exit value of the client process is that of the shell that
was running in the terminal window.
The point of this mode is **a)** reduced memory footprint - all
terminal windows will share fonts and glyph cache, and **b)** reduced
startup time - loading fonts and populating the glyph cache takes
time, but in server mode it only happens once.
The downside is a performance penalty; all windows' input and output
are multiplexed in the same thread (but each window will have its own
set of rendering threads). This means that if one window is very busy
with, for example, producing output, then other windows will suffer.
And of course, should the server process crash, **all** windows will
be gone.
Typical usage would be to start the server process (`foot --server`)
when starting your Wayland compositor (i.e. logging in to your
desktop), and then run `footclient` instead of `foot` whenever you
want to launch a new terminal.
## Requirements
### Running
* fontconfig
* freetype
* pixman
* wayland (_client_ and _cursor_ libraries)
* xkbcommon
* [tllist](https://codeberg.org/dnkl/tllist) [^1]
* [fcft](https://codeberg.org/dnkl/fcft) [^1]
[^1]: can also be built as subprojects, in which case they are
statically linked.
### Building
In addition to the dev variant of the packages above, you need:
* meson
* ninja
* wayland protocols
* ncurses
* scdoc
## Installing
foot makes use of a couple of libraries I have developed:
[tllist](https://codeberg.org/dnkl/tllist) and
[fcft](https://codeberg.org/dnkl/fcft). As such, they will most likely
not have been installed already. You can either install them as system
libraries, or you can build them as _subprojects_ in foot.
When building foot, they will first be searched for as system
libraries. If **found**, foot will link dynamically against them.
If **not** found, they will be searched for as subprojects. In a foot
git clone, they will be available as git _submodules_ and you can
simply check them out with `git submodule update --init`. In this
case, foot will link statically against them.
If you have downloaded a zip/tar file, you need to manually copy the
correct version of the library source code into the `subprojects`
folder. If you are unsure how to do this, it might be easier to
install them as system libraries.
### Arch Linux
Use [makepkg](https://wiki.archlinux.org/index.php/Makepkg) to build
the bundled [PKGBUILD](PKGBUILD) (run `makepkg` in the source root
directory).
It **requires** [tllist](https://codeberg.org/dnkl/tllist) and
[fcft](https://codeberg.org/dnkl/fcft) to be installed as system
libraries. If you do not want this, please edit the PKGBUILD file, or
install manually (see [Other](#other) below).
Note that it will do a profiling-guided build, and that this requires
a running wayland session since it needs to run an intermediate build
of foot.
### Other
Foot uses _meson_. If you are unfamiliar with it, the official
[tutorial](https://mesonbuild.com/Tutorial.html) might be a good
starting point.
I also recommend taking a look at the bundled Arch
[PKGBUILD](PKGBUILD) file, to see how it builds foot. Especially so if
you intend to install a release build of foot, in which case you might
be interested in the compiler flags used there.
If you have not installed [tllist](https://codeberg.org/dnkl/tllist)
and [fcft](https://codeberg.org/dnkl/fcft) as system libraries, check
them out as git submodules:
```sh
git submodule update --init
```
To build, first, create a build directory, and switch to it:
```sh
mkdir -p bld/debug && cd bld/debug
```
Second, configure the build (if you intend to install it globally, you
might also want `--prefix=/usr`):
```sh
meson --buildtype=debug ../..
```
Three, build it:
```sh
ninja
```
You can now run it directly from the build directory:
```sh
./foot
```
But note that it will default to `TERM=foot`, and that this terminfo
has not been installed yet. However, most things should work with the
`xterm-256color` terminfo:
```sh
./foot --term xterm-256color
```
But, I **recommend** you install the `foot` and `foot-direct` terminfo
files. You can either copy them manually (typically to
`/usr/share/terminfo/f` - but this is dependens on the distro), or
just install everything:
```sh
ninja install
```
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