#![forbid(unsafe_code)]
use std::char;
use std::cmp::{max, min};
use std::collections::HashMap;
use std::error::Error;
use std::fmt::{self, Display, Formatter};
use std::hash::Hash;
use std::str::Chars;
#[derive(Debug, PartialEq)]
pub enum StrSimError {
DifferentLengthArgs,
}
impl Display for StrSimError {
fn fmt(&self, fmt: &mut Formatter) -> Result<(), fmt::Error> {
let text = match self {
StrSimError::DifferentLengthArgs => "Differing length arguments provided",
};
write!(fmt, "{}", text)
}
}
impl Error for StrSimError {}
pub type HammingResult = Result<usize, StrSimError>;
pub fn generic_hamming<Iter1, Iter2, Elem1, Elem2>(a: Iter1, b: Iter2) -> HammingResult
where Iter1: IntoIterator<Item=Elem1>,
Iter2: IntoIterator<Item=Elem2>,
Elem1: PartialEq<Elem2> {
let (mut ita, mut itb) = (a.into_iter(), b.into_iter());
let mut count = 0;
loop {
match (ita.next(), itb.next()){
(Some(x), Some(y)) => if x != y { count += 1 },
(None, None) => return Ok(count),
_ => return Err(StrSimError::DifferentLengthArgs),
}
}
}
pub fn hamming(a: &str, b: &str) -> HammingResult {
generic_hamming(a.chars(), b.chars())
}
pub fn generic_jaro<'a, 'b, Iter1, Iter2, Elem1, Elem2>(a: &'a Iter1, b: &'b Iter2) -> f64
where &'a Iter1: IntoIterator<Item=Elem1>,
&'b Iter2: IntoIterator<Item=Elem2>,
Elem1: PartialEq<Elem2> {
let a_len = a.into_iter().count();
let b_len = b.into_iter().count();
if a_len == 0 && b_len == 0 {
return 1.0;
} else if a_len == 0 || b_len == 0 {
return 0.0;
} else if a_len == 1 && b_len == 1 {
return if a.into_iter().eq(b.into_iter()) { 1.0} else { 0.0 };
}
let search_range = (max(a_len, b_len) / 2) - 1;
let mut b_consumed = Vec::with_capacity(b_len);
for _ in 0..b_len {
b_consumed.push(false);
}
let mut matches = 0.0;
let mut transpositions = 0.0;
let mut b_match_index = 0;
for (i, a_elem) in a.into_iter().enumerate() {
let min_bound =
if i > search_range {
max(0, i - search_range)
} else {
0
};
let max_bound = min(b_len - 1, i + search_range);
if min_bound > max_bound {
continue;
}
for (j, b_elem) in b.into_iter().enumerate() {
if min_bound <= j && j <= max_bound && a_elem == b_elem &&
!b_consumed[j] {
b_consumed[j] = true;
matches += 1.0;
if j < b_match_index {
transpositions += 1.0;
}
b_match_index = j;
break;
}
}
}
if matches == 0.0 {
0.0
} else {
(1.0 / 3.0) * ((matches / a_len as f64) +
(matches / b_len as f64) +
((matches - transpositions) / matches))
}
}
struct StringWrapper<'a>(&'a str);
impl<'a, 'b> IntoIterator for &'a StringWrapper<'b> {
type Item = char;
type IntoIter = Chars<'b>;
fn into_iter(self) -> Self::IntoIter {
self.0.chars()
}
}
pub fn jaro(a: &str, b: &str) -> f64 {
generic_jaro(&StringWrapper(a), &StringWrapper(b))
}
pub fn generic_jaro_winkler<'a, 'b, Iter1, Iter2, Elem1, Elem2>(a: &'a Iter1, b: &'b Iter2) -> f64
where &'a Iter1: IntoIterator<Item=Elem1>,
&'b Iter2: IntoIterator<Item=Elem2>,
Elem1: PartialEq<Elem2> {
let jaro_distance = generic_jaro(a, b);
let prefix_length = a.into_iter()
.zip(b.into_iter())
.take_while(|&(ref a_elem, ref b_elem)| a_elem == b_elem)
.count();
let jaro_winkler_distance =
jaro_distance + (0.1 * prefix_length as f64 * (1.0 - jaro_distance));
if jaro_winkler_distance <= 1.0 {
jaro_winkler_distance
} else {
1.0
}
}
pub fn jaro_winkler(a: &str, b: &str) -> f64 {
generic_jaro_winkler(&StringWrapper(a), &StringWrapper(b))
}
pub fn generic_levenshtein<'a, 'b, Iter1, Iter2, Elem1, Elem2>(a: &'a Iter1, b: &'b Iter2) -> usize
where &'a Iter1: IntoIterator<Item=Elem1>,
&'b Iter2: IntoIterator<Item=Elem2>,
Elem1: PartialEq<Elem2> {
let b_len = b.into_iter().count();
if a.into_iter().next().is_none() { return b_len; }
let mut cache: Vec<usize> = (1..b_len+1).collect();
let mut result = 0;
for (i, a_elem) in a.into_iter().enumerate() {
result = i + 1;
let mut distance_b = i;
for (j, b_elem) in b.into_iter().enumerate() {
let cost = if a_elem == b_elem { 0usize } else { 1usize };
let distance_a = distance_b + cost;
distance_b = cache[j];
result = min(result + 1, min(distance_a, distance_b + 1));
cache[j] = result;
}
}
result
}
pub fn levenshtein(a: &str, b: &str) -> usize {
generic_levenshtein(&StringWrapper(a), &StringWrapper(b))
}
pub fn normalized_levenshtein(a: &str, b: &str) -> f64 {
if a.is_empty() && b.is_empty() {
return 1.0;
}
1.0 - (levenshtein(a, b) as f64) / (a.chars().count().max(b.chars().count()) as f64)
}
pub fn osa_distance(a: &str, b: &str) -> usize {
let a_len = a.chars().count();
let b_len = b.chars().count();
if a == b { return 0; }
else if a_len == 0 { return b_len; }
else if b_len == 0 { return a_len; }
let mut prev_two_distances: Vec<usize> = Vec::with_capacity(b_len + 1);
let mut prev_distances: Vec<usize> = Vec::with_capacity(b_len + 1);
let mut curr_distances: Vec<usize> = Vec::with_capacity(b_len + 1);
let mut prev_a_char = char::MAX;
let mut prev_b_char = char::MAX;
for i in 0..(b_len + 1) {
prev_two_distances.push(i);
prev_distances.push(i);
curr_distances.push(0);
}
for (i, a_char) in a.chars().enumerate() {
curr_distances[0] = i + 1;
for (j, b_char) in b.chars().enumerate() {
let cost = if a_char == b_char { 0 } else { 1 };
curr_distances[j + 1] = min(curr_distances[j] + 1,
min(prev_distances[j + 1] + 1,
prev_distances[j] + cost));
if i > 0 && j > 0 && a_char != b_char &&
a_char == prev_b_char && b_char == prev_a_char {
curr_distances[j + 1] = min(curr_distances[j + 1],
prev_two_distances[j - 1] + 1);
}
prev_b_char = b_char;
}
prev_two_distances.clone_from(&prev_distances);
prev_distances.clone_from(&curr_distances);
prev_a_char = a_char;
}
curr_distances[b_len]
}
fn flat_index(i: usize, j: usize, width: usize) -> usize {
j * width + i
}
pub fn generic_damerau_levenshtein<Elem>(a_elems: &[Elem], b_elems: &[Elem]) -> usize
where Elem: Eq + Hash + Clone {
let a_len = a_elems.len();
let b_len = b_elems.len();
if a_len == 0 { return b_len; }
if b_len == 0 { return a_len; }
let width = a_len + 2;
let mut distances = vec![0; (a_len + 2) * (b_len + 2)];
let max_distance = a_len + b_len;
distances[0] = max_distance;
for i in 0..(a_len + 1) {
distances[flat_index(i + 1, 0, width)] = max_distance;
distances[flat_index(i + 1, 1, width)] = i;
}
for j in 0..(b_len + 1) {
distances[flat_index(0, j + 1, width)] = max_distance;
distances[flat_index(1, j + 1, width)] = j;
}
let mut elems: HashMap<Elem, usize> = HashMap::with_capacity(64);
for i in 1..(a_len + 1) {
let mut db = 0;
for j in 1..(b_len + 1) {
let k = match elems.get(&b_elems[j - 1]) {
Some(&value) => value,
None => 0
};
let insertion_cost = distances[flat_index(i, j + 1, width)] + 1;
let deletion_cost = distances[flat_index(i + 1, j, width)] + 1;
let transposition_cost = distances[flat_index(k, db, width)] +
(i - k - 1) + 1 + (j - db - 1);
let mut substitution_cost = distances[flat_index(i, j, width)] + 1;
if a_elems[i - 1] == b_elems[j - 1] {
db = j;
substitution_cost -= 1;
}
distances[flat_index(i + 1, j + 1, width)] = min(substitution_cost,
min(insertion_cost, min(deletion_cost, transposition_cost)));
}
elems.insert(a_elems[i - 1].clone(), i);
}
distances[flat_index(a_len + 1, b_len + 1, width)]
}
pub fn damerau_levenshtein(a: &str, b: &str) -> usize {
let (x, y): (Vec<_>, Vec<_>) = (a.chars().collect(), b.chars().collect());
generic_damerau_levenshtein(x.as_slice(), y.as_slice())
}
pub fn normalized_damerau_levenshtein(a: &str, b: &str) -> f64 {
if a.is_empty() && b.is_empty() {
return 1.0;
}
1.0 - (damerau_levenshtein(a, b) as f64) / (a.chars().count().max(b.chars().count()) as f64)
}
fn bigrams(s: &str) -> impl Iterator<Item=(char, char)> + '_ {
s.chars().zip(s.chars().skip(1))
}
pub fn sorensen_dice(a: &str, b: &str) -> f64 {
let a: String = a.chars().filter(|&x| !char::is_whitespace(x)).collect();
let b: String = b.chars().filter(|&x| !char::is_whitespace(x)).collect();
if a.len() == 0 && b.len() == 0 {
return 1.0;
}
if a.len() == 0 || b.len() == 0 {
return 0.0;
}
if a == b {
return 1.0;
}
if a.len() == 1 && b.len() == 1 {
return 0.0;
}
if a.len() < 2 || b.len() < 2 {
return 0.0;
}
let mut a_bigrams: HashMap<(char, char), usize> = HashMap::new();
for bigram in bigrams(&a) {
*a_bigrams.entry(bigram).or_insert(0) += 1;
}
let mut intersection_size = 0;
for bigram in bigrams(&b) {
a_bigrams.entry(bigram).and_modify(|bi| {
if *bi > 0 {
*bi -= 1;
intersection_size += 1;
}
});
}
(2 * intersection_size) as f64 / (a.len() + b.len() - 2) as f64
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn bigrams_iterator() {
let mut bi = bigrams("abcde");
assert_eq!(Some(('a', 'b')), bi.next());
assert_eq!(Some(('b', 'c')), bi.next());
assert_eq!(Some(('c', 'd')), bi.next());
assert_eq!(Some(('d', 'e')), bi.next());
assert_eq!(None, bi.next());
}
fn assert_hamming_dist(dist: usize, str1: &str, str2: &str) {
assert_eq!(Ok(dist), hamming(str1, str2));
}
#[test]
fn hamming_empty() {
assert_hamming_dist(0, "", "")
}
#[test]
fn hamming_same() {
assert_hamming_dist(0, "hamming", "hamming")
}
#[test]
fn hamming_numbers() {
assert_eq!(Ok(1), generic_hamming(&[1, 2, 4], &[1, 2, 3]));
}
#[test]
fn hamming_diff() {
assert_hamming_dist(3, "hamming", "hammers")
}
#[test]
fn hamming_diff_multibyte() {
assert_hamming_dist(2, "hamming", "h香mmüng");
}
#[test]
fn hamming_unequal_length() {
assert_eq!(
Err(StrSimError::DifferentLengthArgs),
generic_hamming("ham".chars(), "hamming".chars())
);
}
#[test]
fn hamming_names() {
assert_hamming_dist(14, "Friedrich Nietzs", "Jean-Paul Sartre")
}
#[test]
fn jaro_both_empty() {
assert_eq!(1.0, jaro("", ""));
}
#[test]
fn jaro_first_empty() {
assert_eq!(0.0, jaro("", "jaro"));
}
#[test]
fn jaro_second_empty() {
assert_eq!(0.0, jaro("distance", ""));
}
#[test]
fn jaro_same() {
assert_eq!(1.0, jaro("jaro", "jaro"));
}
#[test]
fn jaro_multibyte() {
assert!((0.818 - jaro("testabctest", "testöঙ香test")) < 0.001);
assert!((0.818 - jaro("testöঙ香test", "testabctest")) < 0.001);
}
#[test]
fn jaro_diff_short() {
assert!((0.767 - jaro("dixon", "dicksonx")).abs() < 0.001);
}
#[test]
fn jaro_diff_one_character() {
assert_eq!(0.0, jaro("a", "b"));
}
#[test]
fn jaro_same_one_character() {
assert_eq!(1.0, jaro("a", "a"));
}
#[test]
fn generic_jaro_diff() {
assert_eq!(0.0, generic_jaro(&[1, 2], &[3, 4]));
}
#[test]
fn jaro_diff_one_and_two() {
assert!((0.83 - jaro("a", "ab")).abs() < 0.01);
}
#[test]
fn jaro_diff_two_and_one() {
assert!((0.83 - jaro("ab", "a")).abs() < 0.01);
}
#[test]
fn jaro_diff_no_transposition() {
assert!((0.822 - jaro("dwayne", "duane")).abs() < 0.001);
}
#[test]
fn jaro_diff_with_transposition() {
assert!((0.944 - jaro("martha", "marhta")).abs() < 0.001);
}
#[test]
fn jaro_names() {
assert!((0.392 - jaro("Friedrich Nietzsche",
"Jean-Paul Sartre")).abs() < 0.001);
}
#[test]
fn jaro_winkler_both_empty() {
assert_eq!(1.0, jaro_winkler("", ""));
}
#[test]
fn jaro_winkler_first_empty() {
assert_eq!(0.0, jaro_winkler("", "jaro-winkler"));
}
#[test]
fn jaro_winkler_second_empty() {
assert_eq!(0.0, jaro_winkler("distance", ""));
}
#[test]
fn jaro_winkler_same() {
assert_eq!(1.0, jaro_winkler("Jaro-Winkler", "Jaro-Winkler"));
}
#[test]
fn jaro_winkler_multibyte() {
assert!((0.89 - jaro_winkler("testabctest", "testöঙ香test")).abs() <
0.001);
assert!((0.89 - jaro_winkler("testöঙ香test", "testabctest")).abs() <
0.001);
}
#[test]
fn jaro_winkler_diff_short() {
assert!((0.813 - jaro_winkler("dixon", "dicksonx")).abs() < 0.001);
assert!((0.813 - jaro_winkler("dicksonx", "dixon")).abs() < 0.001);
}
#[test]
fn jaro_winkler_diff_one_character() {
assert_eq!(0.0, jaro_winkler("a", "b"));
}
#[test]
fn jaro_winkler_same_one_character() {
assert_eq!(1.0, jaro_winkler("a", "a"));
}
#[test]
fn jaro_winkler_diff_no_transposition() {
assert!((0.840 - jaro_winkler("dwayne", "duane")).abs() < 0.001);
}
#[test]
fn jaro_winkler_diff_with_transposition() {
assert!((0.961 - jaro_winkler("martha", "marhta")).abs() < 0.001);
}
#[test]
fn jaro_winkler_names() {
assert!((0.562 - jaro_winkler("Friedrich Nietzsche",
"Fran-Paul Sartre")).abs() < 0.001);
}
#[test]
fn jaro_winkler_long_prefix() {
assert!((0.911 - jaro_winkler("cheeseburger", "cheese fries")).abs() <
0.001);
}
#[test]
fn jaro_winkler_more_names() {
assert!((0.868 - jaro_winkler("Thorkel", "Thorgier")).abs() < 0.001);
}
#[test]
fn jaro_winkler_length_of_one() {
assert!((0.738 - jaro_winkler("Dinsdale", "D")).abs() < 0.001);
}
#[test]
fn jaro_winkler_very_long_prefix() {
assert!((1.0 - jaro_winkler("thequickbrownfoxjumpedoverx",
"thequickbrownfoxjumpedovery")).abs() <
0.001);
}
#[test]
fn levenshtein_empty() {
assert_eq!(0, levenshtein("", ""));
}
#[test]
fn levenshtein_same() {
assert_eq!(0, levenshtein("levenshtein", "levenshtein"));
}
#[test]
fn levenshtein_diff_short() {
assert_eq!(3, levenshtein("kitten", "sitting"));
}
#[test]
fn levenshtein_diff_with_space() {
assert_eq!(5, levenshtein("hello, world", "bye, world"));
}
#[test]
fn levenshtein_diff_multibyte() {
assert_eq!(3, levenshtein("öঙ香", "abc"));
assert_eq!(3, levenshtein("abc", "öঙ香"));
}
#[test]
fn levenshtein_diff_longer() {
let a = "The quick brown fox jumped over the angry dog.";
let b = "Lorem ipsum dolor sit amet, dicta latine an eam.";
assert_eq!(37, levenshtein(a, b));
}
#[test]
fn levenshtein_first_empty() {
assert_eq!(7, levenshtein("", "sitting"));
}
#[test]
fn levenshtein_second_empty() {
assert_eq!(6, levenshtein("kitten", ""));
}
#[test]
fn normalized_levenshtein_diff_short() {
assert!((normalized_levenshtein("kitten", "sitting") - 0.57142).abs() < 0.00001);
}
#[test]
fn normalized_levenshtein_for_empty_strings() {
assert!((normalized_levenshtein("", "") - 1.0).abs() < 0.00001);
}
#[test]
fn normalized_levenshtein_first_empty() {
assert!(normalized_levenshtein("", "second").abs() < 0.00001);
}
#[test]
fn normalized_levenshtein_second_empty() {
assert!(normalized_levenshtein("first", "").abs() < 0.00001);
}
#[test]
fn normalized_levenshtein_identical_strings() {
assert!((normalized_levenshtein("identical", "identical") - 1.0).abs() < 0.00001);
}
#[test]
fn osa_distance_empty() {
assert_eq!(0, osa_distance("", ""));
}
#[test]
fn osa_distance_same() {
assert_eq!(0, osa_distance("damerau", "damerau"));
}
#[test]
fn osa_distance_first_empty() {
assert_eq!(7, osa_distance("", "damerau"));
}
#[test]
fn osa_distance_second_empty() {
assert_eq!(7, osa_distance("damerau", ""));
}
#[test]
fn osa_distance_diff() {
assert_eq!(3, osa_distance("ca", "abc"));
}
#[test]
fn osa_distance_diff_short() {
assert_eq!(3, osa_distance("damerau", "aderua"));
}
#[test]
fn osa_distance_diff_reversed() {
assert_eq!(3, osa_distance("aderua", "damerau"));
}
#[test]
fn osa_distance_diff_multibyte() {
assert_eq!(3, osa_distance("öঙ香", "abc"));
assert_eq!(3, osa_distance("abc", "öঙ香"));
}
#[test]
fn osa_distance_diff_unequal_length() {
assert_eq!(6, osa_distance("damerau", "aderuaxyz"));
}
#[test]
fn osa_distance_diff_unequal_length_reversed() {
assert_eq!(6, osa_distance("aderuaxyz", "damerau"));
}
#[test]
fn osa_distance_diff_comedians() {
assert_eq!(5, osa_distance("Stewart", "Colbert"));
}
#[test]
fn osa_distance_many_transpositions() {
assert_eq!(4, osa_distance("abcdefghijkl", "bacedfgihjlk"));
}
#[test]
fn osa_distance_diff_longer() {
let a = "The quick brown fox jumped over the angry dog.";
let b = "Lehem ipsum dolor sit amet, dicta latine an eam.";
assert_eq!(36, osa_distance(a, b));
}
#[test]
fn osa_distance_beginning_transposition() {
assert_eq!(1, osa_distance("foobar", "ofobar"));
}
#[test]
fn osa_distance_end_transposition() {
assert_eq!(1, osa_distance("specter", "spectre"));
}
#[test]
fn osa_distance_restricted_edit() {
assert_eq!(4, osa_distance("a cat", "an abct"));
}
#[test]
fn damerau_levenshtein_empty() {
assert_eq!(0, damerau_levenshtein("", ""));
}
#[test]
fn damerau_levenshtein_same() {
assert_eq!(0, damerau_levenshtein("damerau", "damerau"));
}
#[test]
fn damerau_levenshtein_first_empty() {
assert_eq!(7, damerau_levenshtein("", "damerau"));
}
#[test]
fn damerau_levenshtein_second_empty() {
assert_eq!(7, damerau_levenshtein("damerau", ""));
}
#[test]
fn damerau_levenshtein_diff() {
assert_eq!(2, damerau_levenshtein("ca", "abc"));
}
#[test]
fn damerau_levenshtein_diff_short() {
assert_eq!(3, damerau_levenshtein("damerau", "aderua"));
}
#[test]
fn damerau_levenshtein_diff_reversed() {
assert_eq!(3, damerau_levenshtein("aderua", "damerau"));
}
#[test]
fn damerau_levenshtein_diff_multibyte() {
assert_eq!(3, damerau_levenshtein("öঙ香", "abc"));
assert_eq!(3, damerau_levenshtein("abc", "öঙ香"));
}
#[test]
fn damerau_levenshtein_diff_unequal_length() {
assert_eq!(6, damerau_levenshtein("damerau", "aderuaxyz"));
}
#[test]
fn damerau_levenshtein_diff_unequal_length_reversed() {
assert_eq!(6, damerau_levenshtein("aderuaxyz", "damerau"));
}
#[test]
fn damerau_levenshtein_diff_comedians() {
assert_eq!(5, damerau_levenshtein("Stewart", "Colbert"));
}
#[test]
fn damerau_levenshtein_many_transpositions() {
assert_eq!(4, damerau_levenshtein("abcdefghijkl", "bacedfgihjlk"));
}
#[test]
fn damerau_levenshtein_diff_longer() {
let a = "The quick brown fox jumped over the angry dog.";
let b = "Lehem ipsum dolor sit amet, dicta latine an eam.";
assert_eq!(36, damerau_levenshtein(a, b));
}
#[test]
fn damerau_levenshtein_beginning_transposition() {
assert_eq!(1, damerau_levenshtein("foobar", "ofobar"));
}
#[test]
fn damerau_levenshtein_end_transposition() {
assert_eq!(1, damerau_levenshtein("specter", "spectre"));
}
#[test]
fn damerau_levenshtein_unrestricted_edit() {
assert_eq!(3, damerau_levenshtein("a cat", "an abct"));
}
#[test]
fn normalized_damerau_levenshtein_diff_short() {
assert!((normalized_damerau_levenshtein("levenshtein", "löwenbräu") - 0.27272).abs() < 0.00001);
}
#[test]
fn normalized_damerau_levenshtein_for_empty_strings() {
assert!((normalized_damerau_levenshtein("", "") - 1.0).abs() < 0.00001);
}
#[test]
fn normalized_damerau_levenshtein_first_empty() {
assert!(normalized_damerau_levenshtein("", "flower").abs() < 0.00001);
}
#[test]
fn normalized_damerau_levenshtein_second_empty() {
assert!(normalized_damerau_levenshtein("tree", "").abs() < 0.00001);
}
#[test]
fn normalized_damerau_levenshtein_identical_strings() {
assert!((normalized_damerau_levenshtein("sunglasses", "sunglasses") - 1.0).abs() < 0.00001);
}
#[test]
fn sorensen_dice_all() {
assert_eq!(1.0, sorensen_dice("a", "a"));
assert_eq!(0.0, sorensen_dice("a", "b"));
assert_eq!(1.0, sorensen_dice("", ""));
assert_eq!(0.0, sorensen_dice("a", ""));
assert_eq!(0.0, sorensen_dice("", "a"));
assert_eq!(1.0, sorensen_dice("apple event", "apple event"));
assert_eq!(0.9090909090909091, sorensen_dice("iphone", "iphone x"));
assert_eq!(0.0, sorensen_dice("french", "quebec"));
assert_eq!(1.0, sorensen_dice("france", "france"));
assert_eq!(0.2, sorensen_dice("fRaNce", "france"));
assert_eq!(0.8, sorensen_dice("healed", "sealed"));
assert_eq!(
0.7878787878787878,
sorensen_dice("web applications", "applications of the web")
);
assert_eq!(
0.92,
sorensen_dice(
"this will have a typo somewhere",
"this will huve a typo somewhere"
)
);
assert_eq!(
0.6060606060606061,
sorensen_dice(
"Olive-green table for sale, in extremely good condition.",
"For sale: table in very good condition, olive green in colour."
)
);
assert_eq!(
0.2558139534883721,
sorensen_dice(
"Olive-green table for sale, in extremely good condition.",
"For sale: green Subaru Impreza, 210,000 miles"
)
);
assert_eq!(
0.1411764705882353,
sorensen_dice(
"Olive-green table for sale, in extremely good condition.",
"Wanted: mountain bike with at least 21 gears."
)
);
assert_eq!(
0.7741935483870968,
sorensen_dice("this has one extra word", "this has one word")
);
}
}