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Boyer-Moore is probably the fastest non-indexed text-search algorithm known. So I'm implementing it in C# for my Black Belt Coder website.

I had it working and it showed roughly the expected performance improvements compared to String.IndexOf(). However, when I added the StringComparison.Ordinal argument to IndexOf, it started outperforming my Boyer-Moore implementation. Sometimes, by a considerable amount.

I wonder if anyone can help me figure out why. I understand why StringComparision.Ordinal might speed things up, but how could it be faster than Boyer-Moore? Is it because of the the overhead of the .NET platform itself, perhaps because array indexes must be validated to ensure they're in range, or something else altogether. Are some algorithms just not practical in C#.NET?

Below is the key code.

// Base for search classes
abstract class SearchBase
{
    public const int InvalidIndex = -1;
    protected string _pattern;
    public SearchBase(string pattern) { _pattern = pattern; }
    public abstract int Search(string text, int startIndex);
    public int Search(string text) { return Search(text, 0); }
}

/// <summary>
/// A simplified Boyer-Moore implementation.
/// 
/// Note: Uses a single skip array, which uses more memory than needed and
/// may not be large enough. Will be replaced with multi-stage table.
/// </summary>
class BoyerMoore2 : SearchBase
{
    private byte[] _skipArray;

    public BoyerMoore2(string pattern)
        : base(pattern)
    {
        // TODO: To be replaced with multi-stage table
        _skipArray = new byte[0x10000];

        for (int i = 0; i < _skipArray.Length; i++)
            _skipArray[i] = (byte)_pattern.Length;
        for (int i = 0; i < _pattern.Length - 1; i++)
            _skipArray[_pattern[i]] = (byte)(_pattern.Length - i - 1);
    }

    public override int Search(string text, int startIndex)
    {
        int i = startIndex;

        // Loop while there's still room for search term
        while (i <= (text.Length - _pattern.Length))
        {
            // Look if we have a match at this position
            int j = _pattern.Length - 1;
            while (j >= 0 && _pattern[j] == text[i + j])
                j--;

            if (j < 0)
            {
                // Match found
                return i;
            }

            // Advance to next comparision
            i += Math.Max(_skipArray[text[i + j]] - _pattern.Length + 1 + j, 1);
        }
        // No match found
        return InvalidIndex;
    }
}

EDIT: I've posted all my test code and conclusions on the matter at http://www.blackbeltcoder.com/Articles/algorithms/fast-text-search-with-boyer-moore.

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3  
Jonathan, there's no such thing as "C#.NET". –  John Saunders Feb 5 '11 at 2:23
    
Are you completely excluding the possibility that Boyer-Moore is employed in .net internally? Just curious. –  Nikita Rybak Feb 5 '11 at 2:26
    
See stackoverflow.com/questions/2584169/… and the comments under the accepted answer in particular. –  Ian Mercer Feb 5 '11 at 2:26
    
@Nikita: No, and I spent that last 30 minutes trying to get .NET Reflector up after Red Gate has all but ruined it. However, it looks like it goes into a routine that .NET Reflector won't show. (Unmanaged code, perhaps?) But even if it did use BM, how could it be so much faster? I'm not even including the skip-array setup in my timing. Does unmanaged code offer that much performance benefit? –  Jonathan Wood Feb 5 '11 at 2:42
    
@Hightechrider: Thanks for the reference, however it wasn't that much help. They basically speculate about IndexOf() using Boyer-Moore and talk about issues with Unicode (which I've already developed code to correctly handle). –  Jonathan Wood Feb 5 '11 at 2:43

2 Answers 2

My bet is that setting that flag allows String.IndexOf to use Boyer-Moore itself. And its implementation is better than yours.

Without that flag it has to be careful using Boyer-Moore (and probably doesn't) because of potential issues around Unicode. In particular the possibility of Unicode causes the transition tables that Boyer-Moore uses to blow up.

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Well, that would be a neat trick given that I'm using some pretty standard implementations. (They aren't mine, BTW.) However, if it runs in unmanaged code, that may offer some performance benefits. –  Jonathan Wood Feb 5 '11 at 2:38
1  
If the BCL is using a Boyer-Moore search, it should be detectable; searching for a long string ("abcdefghijklmnopqrstuvwxyz") should be measurably faster than searching for a short string ("a"). –  Gabe Feb 5 '11 at 3:44
    
@Gabe: Good point, but it doesn't seem to be. It just seems fast no matter what. My Boyer-Moore routines, on the other hand, are definitely affected by the length of the search pattern. –  Jonathan Wood Feb 5 '11 at 3:55
    
Hmmm, could it be .NET uses different algorithms for different cases? –  Martheen Feb 5 '11 at 5:00
2  
There's no reason for you to have to bet here. Has anyone opened it up in Reflector and checked? –  Billy ONeal Mar 9 '11 at 2:10
up vote 17 down vote accepted

Based on my own tests and the comments made here, I've concluded that the reason String.IndexOf() performs so well with StringComparision.Ordinal is because the method calls into unmanaged code that employs hand-optimized assembly language.

I've ran a number of different tests and String.IndexOf() just seems to be faster than anything I can implement using managed C# code.

If anyone's interested, I've written everything I've discovered about this and posted several variations of the Boyer-Moore algorithm in C# at http://www.blackbeltcoder.com/Articles/algorithms/fast-text-search-with-boyer-moore.

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For others who may find it is useful, String.Contains() calls String.IndexOf(value, StringComparison.Ordinal) >= 0 . So the conclution is to use String.Conatinst() for string search –  ValidfroM Sep 25 '13 at 20:58

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