6

Is there a way of getting a matched substring from a string using a culture-sensitive equality comparison? For example, under the en-US culture, æ and ae are considered equal. "Encyclopædia".IndexOf("aed") evaluates to 8, indicating a match; however, is there a way of extracting the matched substring, æd, that does not involve iterating over the source string? Note that the lengths of the sought and the matched substrings can differ by several characters.

2

I ended up solving this by first calling IndexOf to get the starting position of the match, then iteratively attempting to identify its length. I optimized for the hot path of the match having the same length as the specified substring; in that case, only a single comparison is performed.

public static class StringExtensions
{
    public static void Find(this string source, string substring, StringComparison comparisonType, out int matchIndex, out int matchLength)
    {
        Find(source, substring, 0, source.Length, comparisonType, out matchIndex, out matchLength);
    }

    public static void Find(this string source, string substring, int searchIndex, StringComparison comparisonType, out int matchIndex, out int matchLength)
    {
        Find(source, substring, searchIndex, source.Length - searchIndex, comparisonType, out matchIndex, out matchLength);
    }

    public static void Find(this string source, string substring, int searchIndex, int searchLength, StringComparison comparisonType, out int matchIndex, out int matchLength)
    {
        matchIndex = source.IndexOf(substring, searchIndex, searchLength, comparisonType);
        if (matchIndex == -1)
        {
            matchLength = -1;
            return;
        }

        matchLength = FindMatchLength(source, substring, searchIndex, searchLength, comparisonType, matchIndex);

        // Defensive programming, but should never happen
        if (matchLength == -1)
            matchIndex = -1;
    }

    private static int FindMatchLength(string source, string substring, int searchIndex, int searchLength, StringComparison comparisonType, int matchIndex)
    {
        int matchLengthMaximum = searchLength - (matchIndex - searchIndex);
        int matchLengthInitial = Math.Min(substring.Length, matchLengthMaximum);

        // Hot path: match length is same as substring length.
        if (Compare(source, matchIndex, matchLengthInitial, substring, 0, substring.Length, comparisonType) == 0)
            return matchLengthInitial;

        int matchLengthDecrementing = matchLengthInitial - 1;
        int matchLengthIncrementing = matchLengthInitial + 1;

        while (matchLengthDecrementing >= 0 || matchLengthIncrementing <= matchLengthMaximum)
        {
            if (matchLengthDecrementing >= 0)
            {
                if (Compare(source, matchIndex, matchLengthDecrementing, substring, 0, substring.Length, comparisonType) == 0)
                    return matchLengthDecrementing;

                matchLengthDecrementing--;
            }

            if (matchLengthIncrementing <= matchLengthMaximum)
            {
                if (Compare(source, matchIndex, matchLengthIncrementing, substring, 0, substring.Length, comparisonType) == 0)
                    return matchLengthIncrementing;

                matchLengthIncrementing++;
            }
        }

        // Should never happen
        return -1;
    }

    private static int Compare(string strA, int indexA, int lengthA, string strB, int indexB, int lengthB, StringComparison comparisonType)
    {
        switch (comparisonType)
        {
            case StringComparison.CurrentCulture:
                return CultureInfo.CurrentCulture.CompareInfo.Compare(strA, indexA, lengthA, strB, indexB, lengthB, CompareOptions.None);

            case StringComparison.CurrentCultureIgnoreCase:
                return CultureInfo.CurrentCulture.CompareInfo.Compare(strA, indexA, lengthA, strB, indexB, lengthB, CompareOptions.IgnoreCase);

            case StringComparison.InvariantCulture:
                return CultureInfo.InvariantCulture.CompareInfo.Compare(strA, indexA, lengthA, strB, indexB, lengthB, CompareOptions.None);

            case StringComparison.InvariantCultureIgnoreCase:
                return CultureInfo.InvariantCulture.CompareInfo.Compare(strA, indexA, lengthA, strB, indexB, lengthB, CompareOptions.IgnoreCase);

            case StringComparison.Ordinal:
                return CultureInfo.InvariantCulture.CompareInfo.Compare(strA, indexA, lengthA, strB, indexB, lengthB, CompareOptions.Ordinal);

            case StringComparison.OrdinalIgnoreCase:
                return CultureInfo.InvariantCulture.CompareInfo.Compare(strA, indexA, lengthA, strB, indexB, lengthB, CompareOptions.OrdinalIgnoreCase);

            default:
                throw new ArgumentException("The string comparison type passed in is currently not supported.", nameof(comparisonType));
        }
    }
}

Sample use:

int index, length;
source.Find(remove, StringComparison.CurrentCulture, out index, out length);
string clean = index < 0 ? source : source.Remove(index, length);

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