technofab/tmux-copyrat
1
0
Fork 0
mirror of https://github.com/TECHNOFAB11/tmux-copyrat.git synced 2025-12-12 08:00:08 +01:00
Code Issues Projects Releases Packages Wiki Activity Actions

refactor: better alphabets

Browse source
This commit is contained in:
graelo 2020-05-30 20:27:32 +02:00
parent 53f7084303
commit 56106f4e38
2 changed files with 83 additions and 30 deletions
Download patch file Download diff file Expand all files Collapse all files

105
src/alphabets.rs
View file

@ -1,8 +1,7 @@
use crate::error;
const ALPHABETS: [(&'static str, &'static str); 22] = [
("numeric", "1234567890"),
("abcd", "abcd"),
const ALPHABETS: [(&'static str, &'static str); 21] = [
// ("abcd", "abcd"),
("qwerty", "asdfqwerzxcvjklmiuopghtybn"),
("qwerty-homerow", "asdfjklgh"),
("qwerty-left-hand", "asdfqwerzcxv"),
@ -23,14 +22,45 @@ const ALPHABETS: [(&'static str, &'static str); 22] = [
("colemak-homerow", "arstneiodh"),
("colemak-left-hand", "arstqwfpzxcv"),
("colemak-right-hand", "neioluymjhk"),
(
"longest",
"aoeuqjkxpyhtnsgcrlmwvzfidb;,~<>'@!#$%^&*~1234567890",
),
];
/// Parse a name string into `Alphabet`, used during CLI parsing.
///
/// # Note
///
/// Letters 'n' and 'N' are systematically removed to prevent conflict with
/// navigation keys (arrows and 'n' 'N').
pub fn parse_alphabet(src: &str) -> Result<Alphabet, error::ParseError> {
let alphabet_pair = ALPHABETS.iter().find(|&(name, _letters)| name == &src);
match alphabet_pair {
Some((_name, letters)) => {
let letters = letters.replace(&['n', 'N'][..], "");
Ok(Alphabet(letters.to_string()))
}
None => Err(error::ParseError::UnknownAlphabet),
}
}
/// Type-safe string alphabet (newtype).
#[derive(Debug)]
pub struct Alphabet(pub String);
impl Alphabet {
/// Create `n` hints.
/// Create `n` hints from the Alphabet.
///
/// An Alphabet of `m` letters can produce at most `m^2` hints. In case
/// this limit is exceeded, this function will generate the `n` hints from
/// an Alphabet which has more letters (50). This will ensure 2500 hints
/// can be generated, which should cover all use cases (I think even
/// easymotion has less).
///
/// If more hints are needed, unfortunately, this will keep producing
/// empty (`""`) hints.
///
/// ```
/// // The algorithm works as follows:
@ -46,7 +76,19 @@ impl Alphabet {
/// // pick a, generate aa ab ac ad | (a) (b) (c) (d) aa ab ac ad ba bb bc bd ca cb cc cd da db dc dd
/// ```
pub fn make_hints(&self, n: usize) -> Vec<String> {
let letters: Vec<String> = self.0.chars().map(|s| s.to_string()).collect();
// Shortcut if we have enough letters in the Alphabet.
if self.0.len() >= n {
return self.0.chars().take(n).map(|c| c.to_string()).collect();
}
// Use the "longest" alphabet if the current alphabet cannot produce as
// many hints as asked.
let letters: Vec<char> = if self.0.len().pow(2) >= n {
self.0.chars().collect()
} else {
let alt_alphabet = parse_alphabet("longest").unwrap();
alt_alphabet.0.chars().collect()
};
let mut lead = letters.clone();
let mut prev: Vec<String> = Vec::new();
@ -65,34 +107,23 @@ impl Alphabet {
let gen: Vec<String> = letters
.iter()
.take(n - lead.len() - prev.len())
.map(|s| prefix.clone() + s)
.map(|c| format!("{}{}", prefix, c))
.collect();
// Insert gen in front of prev
prev.splice(0..0, gen);
prev.splice(..0, gen);
}
lead = lead.iter().take(n - prev.len()).cloned().collect();
lead.append(&mut prev);
lead
}
}
// Finalize by concatenating the lead and prev components, filling
// with "" as necessary.
let lead: Vec<String> = lead.iter().map(|c| c.to_string()).collect();
/// Parse a name string into `Alphabet`, supporting the CLI.
///
/// # Note
///
/// Letters 'n' and 'N' are systematically removed to prevent conflict with
/// navigation keys (arrows and 'n' 'N').
pub fn parse_alphabet(src: &str) -> Result<Alphabet, error::ParseError> {
let alphabet_pair = ALPHABETS.iter().find(|&(name, _letters)| name == &src);
let filler: Vec<String> = std::iter::repeat("")
.take(n - lead.len() - prev.len())
.map(|s| s.to_string())
.collect();
match alphabet_pair {
Some((_name, letters)) => {
let letters = letters.replace(&['n', 'N'][..], "");
Ok(Alphabet(letters.to_string()))
}
None => Err(error::ParseError::UnknownAlphabet),
[lead, prev, filler].concat()
}
}
@ -124,7 +155,7 @@ mod tests {
#[test]
fn composed_matches_max_2() {
let alphabet = Alphabet("ab".to_string());
let hints = alphabet.make_hints(8);
let hints = alphabet.make_hints(4);
assert_eq!(hints, ["aa", "ab", "ba", "bb"]);
}
@ -136,6 +167,24 @@ mod tests {
hints,
["a", "ba", "bb", "bc", "bd", "ca", "cb", "cc", "cd", "da", "db", "dc", "dd"]
);
// a (b) (c) (d) a ba bc bd ca cb cc cd da db dc dd
}
#[test]
fn matches_with_longest_alphabet() {
let alphabet = Alphabet("ab".to_string());
let hints = alphabet.make_hints(2500);
assert_eq!(hints.len(), 2500);
assert_eq!(&hints[..3], ["aa", "ao", "ae"]);
assert_eq!(&hints[2497..], ["08", "09", "00"]);
}
#[test]
fn matches_exceed_longest_alphabet() {
let alphabet = Alphabet("ab".to_string());
let hints = alphabet.make_hints(10000);
// 2500 unique hints are produced from the longest alphabet
// The 7500 last ones come from the filler ("" empty hints).
assert_eq!(hints.len(), 10000);
assert!(&hints[2500..].iter().all(|s| s == ""));
}
}

8
src/lib.rs
View file

@ -57,8 +57,12 @@ pub struct CliOpt {
/// Alphabet to draw hints from.
///
/// Possible values are "{A}", "{A}-homerow", "{A}-left-hand",
/// "{A}-right-hand", where "{A}" is one of "qwerty", "azerty", "qwertz",
/// "dvorak", "colemak". Examples: "qwerty", "dvorak-homerow".
/// "{A}-right-hand", where "{A}" is one of "qwerty", "azerty", "qwertz"
/// "dvorak", "colemak".
///
/// # Examples
///
/// "qwerty", "dvorak-homerow", "azerty-right-hand".
#[clap(short = "k", long, default_value = "dvorak",
parse(try_from_str = alphabets::parse_alphabet))]
alphabet: alphabets::Alphabet,