| Levenshtein | Double Levenshtein | SoundEx | MetaPhone | Manually curated |
|---|---|---|---|---|
| gp (0) - 9 freq gw (1) - 1 freq p (1) - 333 freq gyp (1) - 3 freq vp (1) - 4 freq g' (1) - 1 freq gq (1) - 3 freq gps (1) - 4 freq up (1) - 13212 freq hp (1) - 3 freq gpo (1) - 4 freq ep (1) - 10 freq gi (1) - 27 freq gj (1) - 5 freq cp (1) - 4 freq gcp (1) - 1 freq gup (1) - 2 freq gs (1) - 3 freq jp (1) - 7 freq lp (1) - 8 freq gu (1) - 8 freq 'p (1) - 7 freq gm (1) - 10 freq mgp (1) - 1 freq gk (1) - 2 freq |
gp (0) - 9 freq gap (1) - 49 freq gup (1) - 2 freq agp (1) - 1 freq gpo (1) - 4 freq gyp (1) - 3 freq gip (1) - 3 freq gt (2) - 9 freq sp (2) - 8 freq rp (2) - 8 freq gx (2) - 4 freq gb (2) - 2 freq gz (2) - 3 freq xp (2) - 3 freq kp (2) - 6 freq dp (2) - 3 freq zp (2) - 6 freq ga (2) - 29 freq gr (2) - 4 freq op (2) - 7 freq yp (2) - 4 freq gh (2) - 5 freq gc (2) - 3 freq gaip (2) - 1 freq gipe (2) - 1 freq |
SoundEx code - G100 gave - 241 freq gab - 32 freq goave - 6 freq gf - 5 freq gove - 14 freq gap - 49 freq guff - 57 freq gob - 15 freq give - 166 freq goaf - 1 freq gawp - 9 freq 'give - 3 freq 'govey - 1 freq gype - 47 freq gif - 207 freq gowf - 26 freq gaff - 34 freq gub - 30 freq gaup - 4 freq gowff - 3 freq gie-up - 1 freq gub' - 2 freq gyp - 3 freq gabbie - 1 freq gpo - 4 freq gip - 3 freq gav - 2 freq gaive - 1 freq gibby - 6 freq geyp - 1 freq gibbie - 4 freq goab - 1 freq gowp - 65 freq gbh - 3 freq gp - 9 freq gov - 39 freq geev - 1 freq geff - 1 freq 'gif - 3 freq gaffe - 1 freq govie - 3 freq 'goavie - 1 freq giuff - 1 freq giveaway - 3 freq giff - 1 freq guffy - 2 freq gva - 1 freq geb - 1 freq gaip - 1 freq ghff - 1 freq gyf - 1 freq geve - 1 freq guffaw - 1 freq gup - 2 freq gaap - 1 freq gape - 4 freq gibb - 12 freq go-by - 2 freq €˜gave - 1 freq gaif - 1 freq gaub - 1 freq gabe - 1 freq €˜give - 1 freq guffie - 3 freq gipe - 1 freq giep - 1 freq gv - 11 freq gfb - 1 freq gsv - 2 freq geoff - 2 freq gooby - 2 freq gsf - 1 freq gb - 2 freq gcf - 1 freq gbbo - 1 freq ghb - 1 freq gvu - 1 freq gcp - 1 freq gabby - 1 freq |
MetaPhone code - KP cup - 316 freq keep - 1547 freq cowp - 64 freq kep - 136 freq kip - 38 freq gap - 49 freq cap - 47 freq cope - 36 freq gawp - 9 freq coup - 25 freq copy - 100 freq 'keep - 23 freq gaup - 4 freq cuppa - 21 freq cuppie - 27 freq co-op - 15 freq caip - 3 freq quip - 2 freq cop - 4 freq keip - 4 freq coapy - 2 freq gpo - 4 freq coap - 2 freq cape - 14 freq capo - 2 freq gowp - 65 freq caup - 11 freq 'cowp - 3 freq gp - 9 freq keepy - 1 freq kap - 1 freq 'kappa' - 1 freq kowp - 1 freq kop - 2 freq kepe - 4 freq copie - 17 freq copp - 1 freq cappie - 3 freq coapie - 4 freq kep' - 2 freq kaip - 2 freq caap - 6 freq gaip - 1 freq gup - 2 freq €™kiep - 1 freq gaap - 1 freq kypie - 1 freq gape - 4 freq coopie - 2 freq €œkeep - 8 freq coop - 1 freq keppy - 1 freq €˜keep - 2 freq kappa - 1 freq €˜copy - 1 freq cuppy - 3 freq €™keep - 1 freq co-opy - 2 freq co-oopie - 1 freq cappy - 3 freq kaypee - 2 freq kp - 6 freq qp - 7 freq qpo - 1 freq ykypy - 1 freq hqpw - 1 freq ckp - 1 freq cp - 4 freq kapo - 1 freq |
GP |
| Time to execute Levenshtein function - 0.174714 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 - 0.331477 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 - 0.029370 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 - 0.043038 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 - 0.001072 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. |