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149 lines
3.5 KiB
Swift
149 lines
3.5 KiB
Swift
/**
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* Tae Won Ha - http://taewon.de - @hataewon
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* See LICENSE
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*/
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import Foundation
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class Matcher {
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static let uppercaseCharSet = CharacterSet.uppercaseLetters
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enum ExactMatchResult {
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case none
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case exact
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case prefix
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case suffix
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case contains
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}
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static func exactMatchIgnoringCase(_ target: String, pattern: String) -> ExactMatchResult {
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let ltarget = target.lowercased()
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let lpattern = pattern.lowercased()
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if ltarget == lpattern {
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return .exact
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}
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if ltarget.hasPrefix(lpattern) {
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return .prefix
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}
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if ltarget.hasSuffix(lpattern) {
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return .suffix
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}
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if ltarget.contains(lpattern) {
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return .contains
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}
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return .none
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}
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static func numberOfUppercaseMatches(_ target: String, pattern: String) -> Int {
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var tscalars = target.unicodeScalars.filter { uppercaseCharSet.contains(UnicodeScalar($0.value)!) }
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let count = tscalars.count
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guard count > 0 else {
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return 0
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}
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let pscalars = pattern.uppercased().unicodeScalars
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pscalars.forEach { scalar in
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if let idx = tscalars.index(of: scalar) {
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tscalars.remove(at: idx)
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}
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}
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return count - tscalars.count
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}
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/// Matches `pattern` to `target` in a fuzzy way.
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/// - returns: `Array` of `Range<String.UnicodeScalarIndex>`
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static func fuzzyIgnoringCase(_ target: String,
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pattern: String) -> (matches: Int, ranges: [CountableClosedRange<Int>]) {
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let tlower = target.lowercased()
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let plower = pattern.lowercased()
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let tchars = tlower.unicodeScalars
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let pchars = plower.unicodeScalars
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var flags = Array(repeating: false, count: tchars.count)
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var pidx = pchars.startIndex
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for (i, tchar) in tchars.enumerated() {
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if pchars[pidx] == tchar {
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flags[i] = true
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pidx = pchars.index(after: pidx)
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}
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}
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var ranges: [CountableClosedRange<Int>] = []
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var matches = 0
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var lastTrue = -1
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var curTrue = -1
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for (i, isTrue) in flags.enumerated() {
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if isTrue {
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matches = matches &+ 1
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if lastTrue == -1 {
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lastTrue = i
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}
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curTrue = i
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if i == flags.count &- 1 {
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if lastTrue > -1 && curTrue > -1 {
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ranges.append(lastTrue...curTrue)
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lastTrue = -1
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curTrue = -1
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}
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}
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} else {
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if lastTrue > -1 && curTrue > -1 {
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ranges.append(lastTrue...curTrue)
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lastTrue = -1
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curTrue = -1
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}
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}
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}
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return (matches, ranges)
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}
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/// Wagner-Fischer algorithm.
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/// We use the 32 bit representation (`String.unicodeScalars`) of both parameters to compare them.
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///
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/// - returns: the distance of pattern from target
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/// - seealso: https://en.wikipedia.org/wiki/Wagner–Fischer_algorithm
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static func wagnerFisherDistance(_ target: String, pattern: String) -> Int {
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let s = target.unicodeScalars
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let t = pattern.unicodeScalars
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let m = s.count
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var prevRow = Array(repeating: 0, count: m &+ 1)
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var curRow = Array(repeating: 0, count: m &+ 1)
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for i in 0...m {
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prevRow[i] = i
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}
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for (j, tchar) in t.enumerated() {
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curRow[0] = j &+ 1
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for (i, schar) in s.enumerated() {
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if schar == tchar {
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curRow[i &+ 1] = prevRow[i]
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} else {
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curRow[i &+ 1] = min(curRow[i] &+ 1, prevRow[i &+ 1] &+ 1, prevRow[i] &+ 1)
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}
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}
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prevRow = curRow
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}
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return curRow[m]
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}
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}
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