Levenshtein | Double Levenshtein | SoundEx | MetaPhone | Manually curated |
---|---|---|---|---|
laft (0) - 27 freq laift (1) - 1 freq taft (1) - 1 freq raft (1) - 10 freq left (1) - 1591 freq laff (1) - 7 freq laf (1) - 1 freq layt (1) - 1 freq alaft (1) - 2 freq lat (1) - 555 freq lft (1) - 2 freq laet (1) - 9 freq latt (1) - 3 freq daft (1) - 444 freq lafn (1) - 1 freq lait (1) - 4 freq waft (1) - 9 freq lart (1) - 1 freq saft (1) - 293 freq lyft (1) - 2 freq haft (1) - 2 freq oaft (1) - 6 freq last (1) - 1873 freq lift (1) - 496 freq luft (1) - 2 freq |
laft (0) - 27 freq loft (1) - 13 freq luft (1) - 2 freq lift (1) - 496 freq alaft (1) - 2 freq lyft (1) - 2 freq lft (1) - 2 freq laift (1) - 1 freq left (1) - 1591 freq lifit (2) - 2 freq lapt (2) - 3 freq lufit (2) - 1 freq last (2) - 1873 freq aloft (2) - 3 freq lofty (2) - 4 freq leyft (2) - 1 freq leift (2) - 1 freq oaft (2) - 6 freq lefty (2) - 2 freq leeft (2) - 11 freq luift (2) - 3 freq aft (2) - 69 freq lat (2) - 555 freq haft (2) - 2 freq latt (2) - 3 freq |
SoundEx code - L130 left - 1591 freq luved - 70 freq loved - 190 freq lowped - 64 freq lowpit - 72 freq lowpt - 23 freq lived - 150 freq lift - 496 freq leived - 11 freq lft - 2 freq leeft - 11 freq leapt - 11 freq loft - 13 freq loupit - 31 freq louped - 17 freq leeved - 55 freq libbit - 3 freq luft - 2 freq life'd - 1 freq lapped - 4 freq laft - 27 freq lipt - 1 freq loupt - 2 freq leave't - 2 freq lowp't - 2 freq looped - 2 freq loppit - 1 freq luvit - 1 freq lippit - 2 freq lappit - 7 freq leviet - 1 freq leevit - 4 freq leyft - 1 freq lyfboat - 1 freq loupet - 2 freq laift - 1 freq lyft - 2 freq lofty - 4 freq livit - 2 freq life-wat - 1 freq libbed - 1 freq lapd - 1 freq 'lift - 2 freq lept - 2 freq lufit - 1 freq lafayette - 3 freq lobbed - 6 freq luvved - 4 freq levite - 2 freq lïft - 32 freq lapt - 3 freq livid - 4 freq levied - 1 freq luved- - 1 freq left' - 2 freq loupid - 2 freq loopid - 1 freq levit - 2 freq lifit - 2 freq leppid - 1 freq luift - 3 freq loopit - 1 freq leftie - 1 freq leivit - 3 freq leift - 1 freq leapit - 2 freq lovit - 2 freq leipit - 1 freq leaped - 2 freq lowp-the- - 1 freq lowpity - 16 freq €œlowpity - 1 freq labout - 1 freq lift't - 1 freq lavy-heid - 1 freq laupit - 1 freq luiffed - 2 freq leftÂ’ - 1 freq lefty - 2 freq livet - 1 freq lobbied - 1 freq lavvyheid - 2 freq lopped - 1 freq |
MetaPhone code - LFT left - 1591 freq luved - 70 freq loved - 190 freq light - 300 freq laughed - 97 freq lived - 150 freq lift - 496 freq leived - 11 freq lft - 2 freq leeft - 11 freq loft - 13 freq leeved - 55 freq luft - 2 freq life'd - 1 freq laft - 27 freq leave't - 2 freq luvit - 1 freq leviet - 1 freq leevit - 4 freq leyft - 1 freq laift - 1 freq lyft - 2 freq lofty - 4 freq livit - 2 freq 'lift - 2 freq lufit - 1 freq laught - 1 freq laughit - 1 freq luvved - 4 freq levite - 2 freq lïft - 32 freq livid - 4 freq laaght - 1 freq levied - 1 freq luved- - 1 freq left' - 2 freq 'light' - 1 freq levit - 2 freq lifit - 2 freq lyght - 2 freq luift - 3 freq leftie - 1 freq leivit - 3 freq leift - 1 freq lovit - 2 freq luiffed - 2 freq left’ - 1 freq lefty - 2 freq livet - 1 freq lightee - 1 freq |
LAFT |
Time to execute Levenshtein function - 0.190534 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 - 0.384241 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 - 0.029357 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 - 0.040241 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 - 0.000954 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. |