use regex::Captures;
use regex::Regex;
use std::borrow::Cow;
static TRANSFORM_SMALL_MAP: &[char] = &[
'a', 'ƀ', 'ƈ', 'ḓ', 'e', 'ƒ', 'ɠ', 'ħ', 'i', 'ĵ', 'ķ', 'ŀ', 'ḿ', 'ƞ', 'o', 'ƥ', 'ɋ', 'ř', 'ş',
'ŧ', 'u', 'ṽ', 'ẇ', 'ẋ', 'ẏ', 'ẑ',
];
static TRANSFORM_CAPS_MAP: &[char] = &[
'A', 'Ɓ', 'Ƈ', 'Ḓ', 'E', 'Ƒ', 'Ɠ', 'Ħ', 'I', 'Ĵ', 'Ķ', 'Ŀ', 'Ḿ', 'Ƞ', 'O', 'Ƥ', 'Ɋ', 'Ř', 'Ş',
'Ŧ', 'U', 'Ṽ', 'Ẇ', 'Ẋ', 'Ẏ', 'Ẑ',
];
static FLIPPED_SMALL_MAP: &[char] = &[
'ɐ', 'q', 'ɔ', 'p', 'ǝ', 'ɟ', 'ƃ', 'ɥ', 'ı', 'ɾ', 'ʞ', 'ʅ', 'ɯ', 'u', 'o', 'd', 'b', 'ɹ', 's',
'ʇ', 'n', 'ʌ', 'ʍ', 'x', 'ʎ', 'z',
];
static FLIPPED_CAPS_MAP: &[char] = &[
'∀', 'Ԑ', 'Ↄ', 'ᗡ', 'Ǝ', 'Ⅎ', '⅁', 'H', 'I', 'ſ', 'Ӽ', '⅂', 'W', 'N', 'O', 'Ԁ', 'Ò', 'ᴚ', 'S',
'⊥', '∩', 'Ʌ', 'M', 'X', '⅄', 'Z',
];
static mut RE_EXCLUDED: Option<Regex> = None;
static mut RE_AZ: Option<Regex> = None;
pub fn transform_dom(s: &str, flipped: bool, elongate: bool, with_markers: bool) -> Cow<str> {
if s.len() == 1 {
return s.into();
}
let re_excluded =
unsafe { RE_EXCLUDED.get_or_insert_with(|| Regex::new(r"&[#\w]+;|<\s*.+?\s*>").unwrap()) };
let mut result = Cow::from(s);
let mut pos = 0;
let mut diff = 0;
for cap in re_excluded.captures_iter(s) {
let capture = cap.get(0).unwrap();
let sub_len = capture.start() - pos;
let range = pos..capture.start();
let result_range = pos + diff..capture.start() + diff;
let sub = &s[range.clone()];
let transform_sub = transform(sub, false, true);
diff += transform_sub.len() - sub_len;
result
.to_mut()
.replace_range(result_range.clone(), &transform_sub);
pos = capture.end();
}
let range = pos..s.len();
let result_range = pos + diff..result.len();
let transform_sub = transform(&s[range], flipped, elongate);
result.to_mut().replace_range(result_range, &transform_sub);
if with_markers {
return Cow::from("[") + result + "]";
}
result
}
pub fn transform(s: &str, flipped: bool, elongate: bool) -> Cow<str> {
let re_az = unsafe { RE_AZ.get_or_insert_with(|| Regex::new(r"[a-zA-Z]").unwrap()) };
let (small_map, caps_map) = if flipped {
(FLIPPED_SMALL_MAP, FLIPPED_CAPS_MAP)
} else {
(TRANSFORM_SMALL_MAP, TRANSFORM_CAPS_MAP)
};
re_az.replace_all(s, |caps: &Captures| {
let ch = caps[0].chars().next().unwrap();
let cc = ch as u8;
if (97..=122).contains(&cc) {
let pos = cc - 97;
let new_char = small_map[pos as usize];
if elongate && (cc == 97 || cc == 101 || cc == 111 || cc == 117) {
let mut s = new_char.to_string();
s.push(new_char);
s
} else {
new_char.to_string()
}
} else if (65..=90).contains(&cc) {
let pos = cc - 65;
let new_char = caps_map[pos as usize];
new_char.to_string()
} else {
ch.to_string()
}
})
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn it_works() {
let x = transform("Hello World", false, true);
assert_eq!(x, "Ħeeŀŀoo Ẇoořŀḓ");
let x = transform("Hello World", false, false);
assert_eq!(x, "Ħeŀŀo Ẇořŀḓ");
let x = transform("Hello World", true, false);
assert_eq!(x, "Hǝʅʅo Moɹʅp");
let x = transform("f", false, true);
assert_eq!(x, "ƒ");
}
#[test]
fn dom_test() {
let x = transform_dom("Hello <a>World</a>", false, true, false);
assert_eq!(x, "Ħeeŀŀoo <a>Ẇoořŀḓ</a>");
let x = transform_dom("Hello <a>World</a> in <b>my</b> House.", false, true, false);
assert_eq!(x, "Ħeeŀŀoo <a>Ẇoořŀḓ</a> iƞ <b>ḿẏ</b> Ħoouuşee.");
let x = transform_dom("Hello World within markers", false, false, true);
assert_eq!(x, "[Ħeŀŀo Ẇořŀḓ ẇiŧħiƞ ḿařķeřş]");
let x = transform_dom("f", false, true, false);
assert_eq!(x, "f");
}
}