168 lines
3.9 KiB
Go
168 lines
3.9 KiB
Go
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// Fuzzy searching allows for flexibly matching a string with partial input,
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// useful for filtering data very quickly based on lightweight user input.
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package fuzzy
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import (
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"unicode"
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"unicode/utf8"
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)
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var noop = func(r rune) rune { return r }
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// Match returns true if source matches target using a fuzzy-searching
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// algorithm. Note that it doesn't implement Levenshtein distance (see
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// RankMatch instead), but rather a simplified version where there's no
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// approximation. The method will return true only if each character in the
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// source can be found in the target and occurs after the preceding matches.
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func Match(source, target string) bool {
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return match(source, target, noop)
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}
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// MatchFold is a case-insensitive version of Match.
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func MatchFold(source, target string) bool {
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return match(source, target, unicode.ToLower)
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}
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func match(source, target string, fn func(rune) rune) bool {
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lenDiff := len(target) - len(source)
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if lenDiff < 0 {
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return false
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}
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if lenDiff == 0 && source == target {
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return true
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}
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Outer:
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for _, r1 := range source {
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for i, r2 := range target {
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if fn(r1) == fn(r2) {
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target = target[i+utf8.RuneLen(r2):]
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continue Outer
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}
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}
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return false
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}
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return true
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}
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// Find will return a list of strings in targets that fuzzy matches source.
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func Find(source string, targets []string) []string {
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return find(source, targets, noop)
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}
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// FindFold is a case-insensitive version of Find.
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func FindFold(source string, targets []string) []string {
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return find(source, targets, unicode.ToLower)
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}
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func find(source string, targets []string, fn func(rune) rune) []string {
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var matches []string
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for _, target := range targets {
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if match(source, target, fn) {
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matches = append(matches, target)
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}
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}
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return matches
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}
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// RankMatch is similar to Match except it will measure the Levenshtein
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// distance between the source and the target and return its result. If there
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// was no match, it will return -1.
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// Given the requirements of match, RankMatch only needs to perform a subset of
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// the Levenshtein calculation, only deletions need be considered, required
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// additions and substitutions would fail the match test.
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func RankMatch(source, target string) int {
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return rank(source, target, noop)
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}
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// RankMatchFold is a case-insensitive version of RankMatch.
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func RankMatchFold(source, target string) int {
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return rank(source, target, unicode.ToLower)
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}
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func rank(source, target string, fn func(rune) rune) int {
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lenDiff := len(target) - len(source)
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if lenDiff < 0 {
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return -1
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}
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if lenDiff == 0 && source == target {
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return 0
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}
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runeDiff := 0
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Outer:
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for _, r1 := range source {
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for i, r2 := range target {
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if fn(r1) == fn(r2) {
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target = target[i+utf8.RuneLen(r2):]
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continue Outer
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} else {
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runeDiff++
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}
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}
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return -1
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}
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// Count up remaining char
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for len(target) > 0 {
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target = target[utf8.RuneLen(rune(target[0])):]
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runeDiff++
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}
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return runeDiff
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}
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// RankFind is similar to Find, except it will also rank all matches using
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// Levenshtein distance.
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func RankFind(source string, targets []string) Ranks {
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var r Ranks
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for _, target := range find(source, targets, noop) {
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distance := LevenshteinDistance(source, target)
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r = append(r, Rank{source, target, distance})
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}
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return r
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}
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// RankFindFold is a case-insensitive version of RankFind.
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func RankFindFold(source string, targets []string) Ranks {
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var r Ranks
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for _, target := range find(source, targets, unicode.ToLower) {
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distance := LevenshteinDistance(source, target)
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r = append(r, Rank{source, target, distance})
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}
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return r
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}
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type Rank struct {
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// Source is used as the source for matching.
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Source string
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// Target is the word matched against.
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Target string
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// Distance is the Levenshtein distance between Source and Target.
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Distance int
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}
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type Ranks []Rank
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func (r Ranks) Len() int {
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return len(r)
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}
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func (r Ranks) Swap(i, j int) {
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r[i], r[j] = r[j], r[i]
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}
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func (r Ranks) Less(i, j int) bool {
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return r[i].Distance < r[j].Distance
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}
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