Levenshtein | Double Levenshtein | SoundEx | MetaPhone | Manually curated |
---|---|---|---|---|
cj (0) - 8 freq ce (1) - 7 freq cw (1) - 6 freq vj (1) - 8 freq bj (1) - 15 freq cd (1) - 50 freq cl (1) - 5 freq cz (1) - 5 freq ct (1) - 8 freq cjh (1) - 1 freq co (1) - 5195 freq c- (1) - 2 freq oj (1) - 2 freq cp (1) - 4 freq dj (1) - 24 freq cg (1) - 3 freq mj (1) - 6 freq cc (1) - 19 freq hj (1) - 2 freq cn (1) - 2 freq cx (1) - 5 freq wj (1) - 4 freq kj (1) - 4 freq ca (1) - 194 freq jcj (1) - 1 freq |
cj (0) - 8 freq yj (2) - 5 freq tj (2) - 3 freq nj (2) - 4 freq sj (2) - 2 freq cb (2) - 3 freq ck (2) - 14 freq cs (2) - 5 freq ej (2) - 1 freq ij (2) - 2 freq cr (2) - 8 freq cv (2) - 4 freq lcj (2) - 1 freq 'j (2) - 3 freq pj (2) - 10 freq uj (2) - 3 freq cu (2) - 7 freq ci (2) - 4 freq c (2) - 465 freq zj (2) - 1 freq gj (2) - 5 freq cf (2) - 12 freq cjb (2) - 5 freq lj (2) - 2 freq j (2) - 186 freq |
SoundEx code - C000 caa - 353 freq chow - 12 freq caw - 192 freq ca - 194 freq chaa - 7 freq chaw - 24 freq cow - 41 freq chew - 14 freq che - 8 freq 'ca - 2 freq c - 465 freq chou - 4 freq 'caw - 7 freq coo-ee - 1 freq co - 5195 freq ce - 7 freq coo - 190 freq chey - 1 freq cue - 10 freq chihuahua - 4 freq chi - 8 freq chae - 7 freq cou - 8 freq c-cou - 1 freq coy - 8 freq coo' - 1 freq cow' - 2 freq chewy - 5 freq choo - 3 freq cih - 2 freq chaw'y - 1 freq cc - 19 freq ca' - 24 freq cau - 3 freq csi - 3 freq ceo - 3 freq cj - 8 freq 'caa - 1 freq cha - 19 freq cae - 7 freq ckie - 1 freq ck - 14 freq chihuaha - 1 freq 'cawa - 1 freq «che - 1 freq 'co' - 1 freq 'c' - 1 freq cu - 7 freq cösh - 1 freq ch - 38 freq -c - 2 freq 'ch' - 2 freq chowe - 4 freq cia - 3 freq cgi - 3 freq c'wa - 6 freq ccea - 1 freq cce - 1 freq cs - 5 freq ca'a - 2 freq c'é - 1 freq ci - 4 freq chu - 8 freq chao-i - 1 freq ch'u - 2 freq chieh - 2 freq chu-i - 3 freq c's - 1 freq °c - 2 freq €˜caa - 2 freq €œcow - 1 freq cowe - 1 freq caie - 2 freq coe - 1 freq €˜ch - 8 freq €œcoh- - 1 freq coia - 1 freq ºc - 3 freq €œc - 6 freq €˜c - 5 freq choie - 1 freq €“c - 2 freq cw - 6 freq €œca - 1 freq chü-i - 5 freq €¦coo - 1 freq chiao - 2 freq chao - 2 freq €œcoo - 2 freq chiu - 1 freq €˜-ch - 1 freq chai - 1 freq €œcaa - 1 freq czy - 1 freq €œch - 5 freq €™c - 2 freq cah - 1 freq cx - 5 freq czj - 1 freq cz - 5 freq cqah - 1 freq cg - 3 freq chy - 1 freq “cei - 1 freq cei - 1 freq ‘cÂ’ - 1 freq cqu - 1 freq chh - 1 freq chowie - 2 freq cjq - 1 freq caÂ’ - 1 freq czxy - 1 freq “ce - 1 freq cxg - 1 freq coi - 1 freq cy - 4 freq cxxg - 1 freq ccyh - 1 freq cxi - 1 freq caiw - 1 freq csw - 2 freq czw - 1 freq cxy - 1 freq cqe - 1 freq cghee - 1 freq cjh - 1 freq cccg - 1 freq csco - 1 freq cea - 1 freq csihi - 1 freq ciu - 1 freq c- - 2 freq caai - 1 freq csa - 1 freq cgsa - 1 freq ckkg - 1 freq cee - 2 freq |
MetaPhone code - KJ gadgie - 39 freq cage - 59 freq gauge - 4 freq cogie - 6 freq gayge - 1 freq cj - 8 freq cagey - 4 freq cauge - 1 freq gouge - 1 freq gadge - 4 freq cadgy - 1 freq cadgie - 2 freq cgi - 3 freq gjo - 2 freq codgie - 2 freq cadge - 2 freq gudgie - 1 freq €œgadge - 2 freq kj - 4 freq qj - 3 freq wkj - 1 freq gj - 5 freq kge - 1 freq qjj - 1 freq quaj - 1 freq wqj - 1 freq cjh - 1 freq hcoj - 1 freq kjow - 1 freq cuhj - 1 freq |
CJ |
Time to execute Levenshtein function - 0.188565 milliseconds The Levenshtein distance is the number of characters you have to replace, insert or delete to transform one word into another, its useful for detecting typos and alternative spellings |
Time to execute Double Levenshtein function - 0.369483 milliseconds In a stroke of genius, this runs the Levenshtein function twice, once without vowels and adds the distance together, giving double weight to consonants. |
Time to execute SoundEx function - 0.029589 milliseconds Soundex is a phonetic algorithm for indexing names by sound, as pronounced in English. The goal is for homophones to be encoded to the same representation so that they can be matched despite minor differences in spelling. |
Time to execute MetaPhone function - 0.037080 milliseconds Metaphone is a phonetic algorithm, published by Lawrence Philips in 1990, for indexing words by their English pronunciation.[1] It fundamentally improves on the Soundex algorithm by using information about variations and inconsistencies in English spelling and pronunciation to produce a more accurate encoding, which does a better job of matching words and names which sound similar. |
Time to execute Manually curated function - 0.000891 milliseconds Manual Curation uses a lookup table / lexicon which has been created by hand which links words to their lemmas, and includes obvious typos and spelling variations. Not all words are covered. |