package fzf import "strings" /* * String matching algorithms here do not use strings.ToLower to avoid * performance penalty. And they assume pattern runes are given in lowercase * letters when caseSensitive is false. * * In short: They try to do as little work as possible. */ func FuzzyMatch(caseSensitive bool, input *string, pattern []rune) (int, int) { runes := []rune(*input) // 0. (FIXME) How to find the shortest match? // a_____b__c__abc // ^^^^^^^^^^ ^^^ // 1. forward scan (abc) // *-----*-----*> // a_____b___abc__ // 2. reverse scan (cba) // a_____b___abc__ // <*** pidx := 0 sidx := -1 eidx := -1 for index, char := range runes { // This is considerably faster than blindly applying strings.ToLower to the // whole string if !caseSensitive && char >= 65 && char <= 90 { char += 32 } if char == pattern[pidx] { if sidx < 0 { sidx = index } if pidx += 1; pidx == len(pattern) { eidx = index + 1 break } } } if sidx >= 0 && eidx >= 0 { pidx -= 1 for index := eidx - 1; index >= sidx; index-- { char := runes[index] if !caseSensitive && char >= 65 && char <= 90 { char += 32 } if char == pattern[pidx] { if pidx -= 1; pidx < 0 { sidx = index break } } } return sidx, eidx } return -1, -1 } func ExactMatchStrings(caseSensitive bool, input *string, pattern []rune) (int, int) { var str string if caseSensitive { str = *input } else { str = strings.ToLower(*input) } if idx := strings.Index(str, string(pattern)); idx >= 0 { prefixRuneLen := len([]rune((*input)[:idx])) return prefixRuneLen, prefixRuneLen + len(pattern) } return -1, -1 } /* * This is a basic string searching algorithm that handles case sensitivity. * Although naive, it still performs better than the combination of * strings.ToLower + strings.Index for typical fzf use cases where input * strings and patterns are not very long. * * We might try to implement better algorithms in the future: * http://en.wikipedia.org/wiki/String_searching_algorithm */ func ExactMatchNaive(caseSensitive bool, input *string, pattern []rune) (int, int) { runes := []rune(*input) numRunes := len(runes) plen := len(pattern) if len(runes) < plen { return -1, -1 } pidx := 0 for index := 0; index < numRunes; index++ { char := runes[index] if !caseSensitive && char >= 65 && char <= 90 { char += 32 } if pattern[pidx] == char { pidx += 1 if pidx == plen { return index - plen + 1, index + 1 } } else { index -= pidx pidx = 0 } } return -1, -1 } func PrefixMatch(caseSensitive bool, input *string, pattern []rune) (int, int) { runes := []rune(*input) if len(runes) < len(pattern) { return -1, -1 } for index, r := range pattern { char := runes[index] if !caseSensitive && char >= 65 && char <= 90 { char += 32 } if char != r { return -1, -1 } } return 0, len(pattern) } func SuffixMatch(caseSensitive bool, input *string, pattern []rune) (int, int) { runes := []rune(strings.TrimRight(*input, " ")) trimmedLen := len(runes) diff := trimmedLen - len(pattern) if diff < 0 { return -1, -1 } for index, r := range pattern { char := runes[index+diff] if !caseSensitive && char >= 65 && char <= 90 { char += 32 } if char != r { return -1, -1 } } return trimmedLen - len(pattern), trimmedLen }