Levenshtein | Double Levenshtein | SoundEx | MetaPhone | Manually curated |
---|---|---|---|---|
whzxm (0) - 1 freq whim (2) - 9 freq whom (2) - 17 freq whaim (2) - 1 freq wnzum (2) - 1 freq wham (2) - 21 freq wheem (2) - 1 freq whammy (3) - 2 freq whizz (3) - 3 freq heem (3) - 17 freq hixt (3) - 1 freq whaes (3) - 27 freq shoom (3) - 1 freq wpz (3) - 1 freq why (3) - 828 freq wazn (3) - 2 freq thavm (3) - 4 freq whyn (3) - 3 freq xhrx (3) - 1 freq wha'r (3) - 2 freq wheat (3) - 30 freq shum (3) - 1 freq wim (3) - 2 freq theem (3) - 7 freq wazrl (3) - 1 freq |
whzxm (0) - 1 freq wheem (4) - 1 freq wham (4) - 21 freq wnzum (4) - 1 freq whim (4) - 9 freq whom (4) - 17 freq whaim (4) - 1 freq shazom (5) - 1 freq whyqx (5) - 1 freq whit'm (5) - 3 freq whilom (5) - 1 freq whizz (5) - 3 freq whammy (5) - 2 freq ahim (6) - 3 freq hom (6) - 38 freq waxt (6) - 2 freq whelp (6) - 1 freq sham (6) - 8 freq zyvxm (6) - 1 freq himm (6) - 1 freq xm (6) - 1 freq whara (6) - 1 freq wgfxp (6) - 1 freq ofzm (6) - 1 freq whaur (6) - 1972 freq |
SoundEx code - W250 wisna - 1039 freq waukin - 24 freq wickeyn - 1 freq wasna - 80 freq wisnae - 1002 freq wesna - 145 freq washin - 85 freq wakin - 20 freq wizzen - 4 freq wysin - 1 freq wagon - 21 freq wheezin - 8 freq wasnae - 137 freq wauken - 25 freq wakken - 2 freq wissin - 5 freq wakkin - 3 freq waesome - 19 freq weighin - 8 freq woken - 7 freq wushin - 4 freq wheechin - 40 freq wiznae - 12 freq waaken - 16 freq waggin - 24 freq wishin - 38 freq waashin - 29 freq waakin - 35 freq wisno - 20 freq waken - 9 freq wisn - 3 freq wheechin' - 1 freq wusnae - 64 freq weisna - 3 freq washen - 2 freq weisnae - 2 freq waashin' - 11 freq whizzin - 5 freq weicome - 1 freq weezin - 1 freq wishin' - 1 freq wuznae - 2 freq wheekin - 3 freq wisny - 4 freq waxin - 4 freq whuskin - 3 freq wik-en - 6 freq waaxin - 1 freq wizzna - 6 freq wizna - 4 freq wage-in - 1 freq waashin- - 1 freq whackin - 2 freq weaken - 1 freq wis-in - 1 freq weshin - 1 freq wusnay - 1 freq washin' - 3 freq wiken - 1 freq 'waashin - 1 freq waashen - 1 freq wishen - 2 freq washeen - 11 freq whessan - 3 freq wheezeen - 1 freq whizzan - 1 freq whackan - 1 freq wishan - 2 freq wisin - 11 freq waachin - 1 freq weyghan - 1 freq waakan - 9 freq wakkan - 1 freq waak-in' - 1 freq waash-han - 1 freq wakan - 1 freq waashan - 1 freq wesnae - 3 freq wa-gaan - 1 freq washan - 3 freq wöshen - 1 freq wheeshin - 2 freq weeackin - 2 freq wuishen - 1 freq weygaun - 1 freq wagaun - 3 freq wikeyn - 3 freq wizni - 3 freq wikkeyn - 2 freq wogan - 1 freq wiusna - 1 freq wissna - 1 freq week-en - 2 freq wasn - 3 freq wasney - 1 freq wizny - 1 freq wisne - 2 freq 'wasnae' - 1 freq wikein - 2 freq wisni - 7 freq wikeyne - 1 freq wusna - 1 freq wagaen - 1 freq wa-gaun - 1 freq wikken - 1 freq wuzna - 1 freq wussin - 1 freq wahkin - 1 freq €œwaaken - 1 freq weeshin - 1 freq €¦washin - 1 freq wisnay - 2 freq waaÂ’shinÂ’ - 1 freq wusni - 2 freq wasni - 4 freq waznae - 3 freq wsmn - 1 freq wigan - 1 freq wackin - 1 freq wicayam - 1 freq weekeyn - 1 freq ‘wisna - 1 freq wxen - 1 freq waakken - 1 freq whzxm - 1 freq whiskin - 1 freq wqn - 1 freq wazn - 2 freq wasnea - 1 freq |
MetaPhone code - WSKSM whzxm - 1 freq |
WHZXM |
Time to execute Levenshtein function - 0.705109 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 - 1.180829 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 - 0.099571 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 - 0.102311 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 - 0.001229 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. |