Awesome
Crokey
Crokey helps incorporate configurable keybindings in crossterm based terminal applications by providing functions
- parsing key combinations from strings
- describing key combinations in strings
- parsing key combinations at compile time
- combining Crossterm key events in key combinations
The KeyCombination
A KeyCombination
is made of 1 to 3 "normal" keys with some optional modifiers (alt, shift, ctrl).
It can be parsed, ergonomically built with the key!
macro, obtained from key events.
The Combiner
With a Combiner
, you can change raw Crossterm key events into key combinations.
When the terminal is modern enough and supports the Kitty protocol, complex combinations with up to three non-modifier keys may be formed, for example Ctrl-Alt-Shift-g-y
or Space-!
.
For standard ANSI terminals, only regular combinations are available, like Shift-o
, Ctrl-Alt-Shift-g
or i
.
The combiner works in both cases:
if you presses the ctrl
, i
, and u
keys at the same time, it will result in one combination (ctrl-i-u
) on a kitty-compatible terminal, and as a sequence of 2 key combinations (ctrl-i
then ctrl-u
assuming you started pressing the i
before the u
) in other terminals.
The print_key
example shows how to deal with that:
let fmt = KeyCombinationFormat::default();
let mut combiner = Combiner::default();
let combines = combiner.enable_combining().unwrap();
if combines {
println!("Your terminal supports combining keys");
} else {
println!("Your terminal doesn't support combining non-modifier keys");
}
println!("Type any key combination");
loop {
terminal::enable_raw_mode().unwrap();
let e = read();
terminal::disable_raw_mode().unwrap();
match e {
Ok(Event::Key(key_event)) => {
if let Some(key_combination) = combiner.transform(key_event) {
match key_combination {
key!(ctrl-c) | key!(ctrl-q) => {
println!("quitting");
break;
}
_ => {
println!("You typed {}", fmt.to_string(key_combination));
}
}
}
},
...
}
}
Parse a string
Those strings are usually provided by a configuration file.
use crossterm::event::{KeyCode, KeyEvent, KeyModifiers};
assert_eq!(
crokey::parse("alt-enter").unwrap(),
KeyEvent::new(KeyCode::Enter, KeyModifiers::ALT),
);
assert_eq!(
crokey::parse("shift-F6").unwrap(),
KeyEvent::new(KeyCode::F(6), KeyModifiers::SHIFT),
);
Use key combination "literals" thanks to procedural macros
Those key combinations are parsed at compile time and have zero runtime cost.
They're efficient and convenient for matching events or defining hardcoded keybindings.
match key_event.into() {
key!(ctrl-c) => {
println!("Arg! You savagely killed me with a {}", fmt.to_string(key_event).red());
break;
}
key!(ctrl-q) => {
println!("You typed {} which gracefully quits", fmt.to_string(key_event).green());
break;
}
_ => {
println!("You typed {}", fmt.to_string(key_event).blue());
}
}
Complete example in /examples/print_key
:
The key!
macro can be called in const contexts:
const quit: KeyCombination = key!(ctrl-q);
Display a string with a configurable format
use crokey::*;
use crossterm::event::{KeyCode, KeyEvent, KeyModifiers};
// The default format
let format = KeyCombinationFormat::default();
assert_eq!(format.to_string(key!(shift-a)), "Shift-a");
assert_eq!(format.to_string(key!(ctrl-c)), "Ctrl-c");
// A more compact format
let format = KeyCombinationFormat::default()
.with_implicit_shift()
.with_control("^");
assert_eq!(format.to_string(key!(shift-a)), "A");
assert_eq!(format.to_string(key!(ctrl-c)), "^c");
Deserialize keybindings using Serde
With the "serde" feature enabled, you can read configuration files in a direct way:
use {
crokey::*,
crossterm::event::KeyEvent,
serde::Deserialize,
std::collections::HashMap,
};
#[derive(Debug, Deserialize)]
struct Config {
keybindings: HashMap<KeyCombination, String>,
}
static CONFIG_HJSON: &str = r#"
{
keybindings: {
a: aardvark
shift-b: babirussa
ctrl-k: koala
alt-j: jaguar
}
}
"#;
let config: Config = deser_hjson::from_str(CONFIG_HJSON).unwrap();
let key: KeyCombination = key!(shift-b);
assert_eq!(
config.keybindings.get(&key).unwrap(),
"babirussa",
);
You can use any Serde compatible format such as JSON or TOML.
Crossterm Compatibility
Crokey includes and reexports Crossterm, so you don't have to import it and to avoid conflicts.