using System; using System.Collections.Generic; using System.ComponentModel; using System.Linq; using static Wox.Infrastructure.StringMatcher; namespace Wox.Infrastructure { public class StringMatcher { private readonly MatchOption _defaultMatchOption = new MatchOption(); public SearchPrecisionScore UserSettingSearchPrecision { get; set; } private readonly IAlphabet _alphabet; public StringMatcher(IAlphabet alphabet = null) { _alphabet = alphabet; } public static StringMatcher Instance { get; internal set; } [Obsolete("This method is obsolete and should not be used. Please use the static function StringMatcher.FuzzySearch")] public static int Score(string source, string target) { return FuzzySearch(target, source).Score; } [Obsolete("This method is obsolete and should not be used. Please use the static function StringMatcher.FuzzySearch")] public static bool IsMatch(string source, string target) { return Score(source, target) > 0; } public static MatchResult FuzzySearch(string query, string stringToCompare) { return Instance.FuzzyMatch(query, stringToCompare); } public MatchResult FuzzyMatch(string query, string stringToCompare) { return FuzzyMatch(query, stringToCompare, _defaultMatchOption); } /// /// Current method: /// Character matching + substring matching; /// 1. Query search string is split into substrings, separator is whitespace. /// 2. Check each query substring's characters against full compare string, /// 3. if a character in the substring is matched, loop back to verify the previous character. /// 4. If previous character also matches, and is the start of the substring, update list. /// 5. Once the previous character is verified, move on to the next character in the query substring. /// 6. Move onto the next substring's characters until all substrings are checked. /// 7. Consider success and move onto scoring if every char or substring without whitespaces matched /// public MatchResult FuzzyMatch(string query, string stringToCompare, MatchOption opt) { if (string.IsNullOrEmpty(stringToCompare) || string.IsNullOrEmpty(query)) return new MatchResult (false, UserSettingSearchPrecision); query = query.Trim(); if (_alphabet != null) { query = _alphabet.Translate(query); stringToCompare = _alphabet.Translate(stringToCompare); } var fullStringToCompareWithoutCase = opt.IgnoreCase ? stringToCompare.ToLower() : stringToCompare; var queryWithoutCase = opt.IgnoreCase ? query.ToLower() : query; var querySubstrings = queryWithoutCase.Split(new[] { ' ' }, StringSplitOptions.RemoveEmptyEntries); int currentQuerySubstringIndex = 0; var currentQuerySubstring = querySubstrings[currentQuerySubstringIndex]; var currentQuerySubstringCharacterIndex = 0; var firstMatchIndex = -1; var firstMatchIndexInWord = -1; var lastMatchIndex = 0; bool allQuerySubstringsMatched = false; bool matchFoundInPreviousLoop = false; bool allSubstringsContainedInCompareString = true; var indexList = new List(); for (var compareStringIndex = 0; compareStringIndex < fullStringToCompareWithoutCase.Length; compareStringIndex++) { if (fullStringToCompareWithoutCase[compareStringIndex] != currentQuerySubstring[currentQuerySubstringCharacterIndex]) { matchFoundInPreviousLoop = false; continue; } if (firstMatchIndex < 0) { // first matched char will become the start of the compared string firstMatchIndex = compareStringIndex; } if (currentQuerySubstringCharacterIndex == 0) { // first letter of current word matchFoundInPreviousLoop = true; firstMatchIndexInWord = compareStringIndex; } else if (!matchFoundInPreviousLoop) { // we want to verify that there is not a better match if this is not a full word // in order to do so we need to verify all previous chars are part of the pattern var startIndexToVerify = compareStringIndex - currentQuerySubstringCharacterIndex; if (AllPreviousCharsMatched(startIndexToVerify, currentQuerySubstringCharacterIndex, fullStringToCompareWithoutCase, currentQuerySubstring)) { matchFoundInPreviousLoop = true; // if it's the beginning character of the first query substring that is matched then we need to update start index firstMatchIndex = currentQuerySubstringIndex == 0 ? startIndexToVerify : firstMatchIndex; indexList = GetUpdatedIndexList(startIndexToVerify, currentQuerySubstringCharacterIndex, firstMatchIndexInWord, indexList); } } lastMatchIndex = compareStringIndex + 1; indexList.Add(compareStringIndex); currentQuerySubstringCharacterIndex++; // if finished looping through every character in the current substring if (currentQuerySubstringCharacterIndex == currentQuerySubstring.Length) { // if any of the substrings was not matched then consider as all are not matched allSubstringsContainedInCompareString = matchFoundInPreviousLoop && allSubstringsContainedInCompareString; currentQuerySubstringIndex++; allQuerySubstringsMatched = AllQuerySubstringsMatched(currentQuerySubstringIndex, querySubstrings.Length); if (allQuerySubstringsMatched) break; // otherwise move to the next query substring currentQuerySubstring = querySubstrings[currentQuerySubstringIndex]; currentQuerySubstringCharacterIndex = 0; } } // proceed to calculate score if every char or substring without whitespaces matched if (allQuerySubstringsMatched) { var score = CalculateSearchScore(query, stringToCompare, firstMatchIndex, lastMatchIndex - firstMatchIndex, allSubstringsContainedInCompareString); return new MatchResult(true, UserSettingSearchPrecision, indexList, score); } return new MatchResult (false, UserSettingSearchPrecision); } private static bool AllPreviousCharsMatched(int startIndexToVerify, int currentQuerySubstringCharacterIndex, string fullStringToCompareWithoutCase, string currentQuerySubstring) { var allMatch = true; for (int indexToCheck = 0; indexToCheck < currentQuerySubstringCharacterIndex; indexToCheck++) { if (fullStringToCompareWithoutCase[startIndexToVerify + indexToCheck] != currentQuerySubstring[indexToCheck]) { allMatch = false; } } return allMatch; } private static List GetUpdatedIndexList(int startIndexToVerify, int currentQuerySubstringCharacterIndex, int firstMatchIndexInWord, List indexList) { var updatedList = new List(); indexList.RemoveAll(x => x >= firstMatchIndexInWord); updatedList.AddRange(indexList); for (int indexToCheck = 0; indexToCheck < currentQuerySubstringCharacterIndex; indexToCheck++) { updatedList.Add(startIndexToVerify + indexToCheck); } return updatedList; } private static bool AllQuerySubstringsMatched(int currentQuerySubstringIndex, int querySubstringsLength) { return currentQuerySubstringIndex >= querySubstringsLength; } private static int CalculateSearchScore(string query, string stringToCompare, int firstIndex, int matchLen, bool allSubstringsContainedInCompareString) { // A match found near the beginning of a string is scored more than a match found near the end // A match is scored more if the characters in the patterns are closer to each other, // while the score is lower if they are more spread out var score = 100 * (query.Length + 1) / ((1 + firstIndex) + (matchLen + 1)); // A match with less characters assigning more weights if (stringToCompare.Length - query.Length < 5) { score += 20; } else if (stringToCompare.Length - query.Length < 10) { score += 10; } if (allSubstringsContainedInCompareString) { int count = query.Count(c => !char.IsWhiteSpace(c)); int factor = count < 4 ? 10 : 5; score += factor * count; } return score; } public enum SearchPrecisionScore { Regular = 50, Low = 20, None = 0 } } public class MatchResult { public MatchResult(bool success, SearchPrecisionScore searchPrecision) { Success = success; SearchPrecision = searchPrecision; } public MatchResult(bool success, SearchPrecisionScore searchPrecision, List matchData, int rawScore) { Success = success; SearchPrecision = searchPrecision; MatchData = matchData; RawScore = rawScore; } public bool Success { get; set; } /// /// The final score of the match result with search precision filters applied. /// public int Score { get; private set; } /// /// The raw calculated search score without any search precision filtering applied. /// private int _rawScore; public int RawScore { get { return _rawScore; } set { _rawScore = value; Score = ScoreAfterSearchPrecisionFilter(_rawScore); } } /// /// Matched data to highlight. /// public List MatchData { get; set; } public SearchPrecisionScore SearchPrecision { get; set; } public bool IsSearchPrecisionScoreMet() { return IsSearchPrecisionScoreMet(_rawScore); } private bool IsSearchPrecisionScoreMet(int rawScore) { return rawScore >= (int)SearchPrecision; } private int ScoreAfterSearchPrecisionFilter(int rawScore) { return IsSearchPrecisionScoreMet(rawScore) ? rawScore : 0; } } public class MatchOption { /// /// prefix of match char, use for hightlight /// [Obsolete("this is never used")] public string Prefix { get; set; } = ""; /// /// suffix of match char, use for hightlight /// [Obsolete("this is never used")] public string Suffix { get; set; } = ""; public bool IgnoreCase { get; set; } = true; } }