Levenshtein | Double Levenshtein | SoundEx | MetaPhone | Manually curated |
---|---|---|---|---|
weeyin (0) - 22 freq weein (1) - 1 freq weezin (1) - 1 freq weetin (1) - 2 freq weyin (1) - 3 freq weepin (1) - 1 freq weemin (1) - 178 freq weerin (1) - 67 freq weedin (1) - 7 freq weeyins (1) - 22 freq peepin (2) - 6 freq feelin (2) - 497 freq keenin (2) - 10 freq heelin (2) - 1 freq keelin (2) - 1 freq geyin (2) - 1 freq eesin (2) - 1 freq weelie (2) - 3 freq weirin (2) - 58 freq eevin (2) - 5 freq jeelin (2) - 5 freq keekin (2) - 126 freq eetin (2) - 3 freq eenin (2) - 5 freq feezin (2) - 2 freq |
weeyin (0) - 22 freq weyin (1) - 3 freq weein (1) - 1 freq wayin (2) - 1 freq wyin (2) - 2 freq waein (2) - 1 freq ween (2) - 25 freq weeyins (2) - 22 freq weenie (2) - 1 freq wein (2) - 2 freq weepin (2) - 1 freq weetin (2) - 2 freq weezin (2) - 1 freq weerin (2) - 67 freq weemin (2) - 178 freq weedin (2) - 7 freq weytin (3) - 3 freq eryin (3) - 3 freq sweyin (3) - 6 freq geein (3) - 42 freq wieen (3) - 1 freq eekin (3) - 1 freq weemen (3) - 176 freq eelyin (3) - 1 freq weeman (3) - 9 freq |
SoundEx code - W500 when - 4506 freq win - 980 freq wan - 2472 freq whinny - 6 freq wean - 424 freq wun - 200 freq wheen - 829 freq winna - 384 freq whan - 2757 freq whein - 50 freq won - 282 freq wine - 272 freq ween - 25 freq weein - 1 freq wame - 75 freq 'when - 19 freq wain - 15 freq 'whan - 7 freq wunna - 10 freq wanae - 1 freq whiney - 1 freq win' - 7 freq wane - 12 freq waa'in - 1 freq whin - 755 freq 'whin - 1 freq whim - 9 freq wham - 21 freq wheem - 1 freq winnie - 80 freq wi'm - 3 freq wayne - 6 freq wi'in - 37 freq whiny - 2 freq whom - 17 freq winnae - 46 freq won' - 1 freq wyne - 16 freq weem - 11 freq wooin - 1 freq wim - 2 freq 'wan - 6 freq wanna - 17 freq whun - 92 freq wuhan - 2 freq wanny - 8 freq wuin - 3 freq winn - 1 freq wunnae - 13 freq wn - 7 freq weeyin - 22 freq wunny - 1 freq wunne - 1 freq whunny - 1 freq wi'ïn - 2 freq wwhan - 1 freq wen - 18 freq wona - 1 freq whin' - 1 freq waam - 1 freq weeny - 2 freq wye'in - 1 freq wino - 2 freq wine' - 1 freq waim'i - 1 freq wyme - 5 freq wymie - 1 freq whunnie - 1 freq wan-wye - 1 freq whine - 5 freq whaen - 3 freq winny - 7 freq wunn - 9 freq whaun - 5 freq wan- - 2 freq wan' - 2 freq wieen - 1 freq waen - 2 freq waein - 1 freq woun - 5 freq €˜when - 4 freq wone - 4 freq wyin - 2 freq 'winna' - 2 freq whinney - 1 freq €œwhan - 8 freq waw-en - 1 freq wien - 1 freq weyin - 3 freq €œwhen - 4 freq €œwhin - 1 freq whain - 1 freq €˜win - 1 freq whane - 3 freq wyn - 1 freq wannae - 6 freq wine-o - 1 freq wum - 1 freq weenie - 1 freq €œwinna - 2 freq €˜wan - 5 freq wu-yun - 14 freq whyn - 3 freq whaim - 1 freq €˜wean - 1 freq wein - 2 freq whammy - 2 freq wm- - 1 freq wuni - 1 freq wini - 2 freq wan” - 1 freq winae - 2 freq wina - 1 freq wenna - 1 freq 'winnae' - 2 freq win- - 2 freq -wan - 1 freq weemo - 1 freq wm - 12 freq 'win' - 1 freq wooin” - 1 freq wami - 1 freq 'wean' - 1 freq wmu - 1 freq wwn - 1 freq 'wheen' - 1 freq wme - 1 freq weanÂ’ - 1 freq wean' - 3 freq wayin - 1 freq weeeannie - 1 freq wayno - 1 freq 'wheen - 1 freq wam - 1 freq |
MetaPhone code - WYN weeyin - 22 freq weyin - 3 freq wu-yun - 14 freq wayin - 1 freq |
WEEYIN |
Time to execute Levenshtein function - 0.224738 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 - 0.342954 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 - 0.028197 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 - 0.036942 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 - 0.000924 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. |