I need to decide whether file name fits to file mask. The file mask could contain * or ? characters. Is there any simple solution for this?

bool bFits = Fits("myfile.txt", "my*.txt");

private bool Fits(string sFileName, string sFileMask)
    {
        ??? anything simple here ???
    }

11 Answers 11

up vote 20 down vote accepted

Try this:

private bool FitsMask(string sFileName, string sFileMask)
{
    Regex mask = new Regex(sFileMask.Replace(".", "[.]").Replace("*", ".*").Replace("?", "."));
    return mask.IsMatch(sFileName);
}
  • Doesn't handle '?' (need to convert to "."). – Richard Apr 7 '09 at 12:28
  • Thanks, richard: updated. – Joel Coehoorn Apr 7 '09 at 12:50
  • 3
    If you're looking at windows then this isn't right. For example given the mask ".asp" it will match "foo.asp" and "foo.aspx" and "foo.aspxx", however given the mask ".aspx" it will only mask "foo.aspx". There are special rules for three-character extensions. – Greg Beech Nov 17 '09 at 23:36
  • 1
    Ok, now let's try to match file file$name.com with mask * $ *.com. The regexp will be .*$.*[.]com and it won't match filename. So, you have to escape all these valid characters that have special meaning in Regexp: []()^$+=!{,} – Artemix Apr 7 '11 at 11:13
  • 1
    @Nyderguds poses an alternative solution which I recommend people scroll down to find. – Jason Glover Mar 4 '14 at 1:29

I appreciate finding Joel's answer--saved me some time as well ! I did, however, have to make a few changes to make the method do what most users would expect:

  • I removed the 'this' keyword preceding the first argument. It does nothing here (though it could be useful if the method is intended to be an extension method, in which case it needs to be public and contained within a static class and itself be a static method).
  • I made the regular expression case-independent to match standard Windows wildcard behavior (so e.g. "c*.*" and "C*.*" both return the same result).
  • I added starting and ending anchors to the regular expression, again to match standard Windows wildcard behavior (so e.g. "stuff.txt" would be matched by "stuff*" or "s*" or "s*.*" but not by just "s").

private bool FitsMask(string fileName, string fileMask)
{
    Regex mask = new Regex(
        '^' + 
        fileMask
            .Replace(".", "[.]")
            .Replace("*", ".*")
            .Replace("?", ".")
        + '$',
        RegexOptions.IgnoreCase);
    return mask.IsMatch(fileName);
}

2009.11.04 Update: Match one of several masks

For even more flexibility, here is a plug-compatible method built on top of the original. This version lets you pass multiple masks (hence the plural on the second parameter name fileMasks) separated by lines, commas, vertical bars, or spaces. I wanted it so that I could let the user put as many choices as desired in a ListBox and then select all files matching any of them. Note that some controls (like a ListBox) use CR-LF for line breaks while others (e.g. RichTextBox) use just LF--that is why both "\r\n" and "\n" show up in the Split list.

private bool FitsOneOfMultipleMasks(string fileName, string fileMasks)
{
    return fileMasks
        .Split(new string[] {"\r\n", "\n", ",", "|", " "},
            StringSplitOptions.RemoveEmptyEntries)
        .Any(fileMask => FitsMask(fileName, fileMask));
}

2009.11.17 Update: Handle fileMask inputs more gracefully

The earlier version of FitsMask (which I have left in for comparison) does a fair job but since we are treating it as a regular expression it will throw an exception if it is not a valid regular expression when it comes in. The solution is that we actually want any regex metacharacters in the input fileMask to be considered literals, not metacharacters. But we still need to treat period, asterisk, and question mark specially. So this improved version of FitsMask safely moves these three characters out of the way, transforms all remaining metacharacters into literals, then puts the three interesting characters back, in their "regex'ed" form.

One other minor improvement is to allow for case-independence, per standard Windows behavior.

private bool FitsMask(string fileName, string fileMask)
{
    string pattern =
         '^' + 
         Regex.Escape(fileMask.Replace(".", "__DOT__")
                         .Replace("*", "__STAR__")
                         .Replace("?", "__QM__"))
             .Replace("__DOT__", "[.]")
             .Replace("__STAR__", ".*")
             .Replace("__QM__", ".")
         + '$';
    return new Regex(pattern, RegexOptions.IgnoreCase).IsMatch(fileName);
}

2010.09.30 Update: Somewhere along the way, passion ensued...

I have been remiss in not updating this earlier but these references will likely be of interest to readers who have made it to this point:

  • I embedded the FitsMask method as the heart of a WinForms user control aptly called a FileMask--see the API here.
  • I then wrote an article featuring the FileMask control published on Simple-Talk.com, entitled Using LINQ Lambda Expressions to Design Customizable Generic Components. (While the method itself does not use LINQ, the FileMask user control does, hence the title of the article.)
  • 1
    You still have a problem in your code. All these characters are allowed in file names, but have special meaning in regular expressions: []()^$+=!{,} You need to escape them as you escape dot character. – Artemix Apr 7 '11 at 10:44
  • That __DOT__ / __STAR__ / __QM__ stuff will still mess up on any filename that just happens to contain one of these special replace strings. Escaping first and then replacing the escaped strings is the only good solution. Especially since (Windows) filenames can't contain \, so escaped \ characters aren't a problem. – Nyerguds Oct 29 '13 at 12:21
  • 2
    @Nyderguds poses an alternative solution which I recommend people scroll down to find. – Jason Glover Mar 4 '14 at 1:29
  • This is the best answer for me. The accepted answer is incomplete. The '^' ... '$' is missing. – Mathias Müller Mar 4 '16 at 9:17

Many people don't know that, but .NET includes an internal class, called "PatternMatcher" (under the "System.IO" namespace).

This static class contains only 1 method: public static bool StrictMatchPattern(string expression, string name)

This method is used by .net whenever it needs to compare files with wildcard (FileSystemWatcher, GetFiles(), etc)

Using reflector, I exposed the code here. Didn't really go through it to understand how it works, but it works great,

So this is the code for anyone who doesn't want to work with the inefficient RegEx way:

public static class PatternMatcher
{
    // Fields
    private const char ANSI_DOS_QM = '<';
    private const char ANSI_DOS_STAR = '>';
    private const char DOS_DOT = '"';
    private const int MATCHES_ARRAY_SIZE = 16;

    // Methods
    public static bool StrictMatchPattern(string expression, string name)
    {
        expression = expression.ToLowerInvariant();
        name = name.ToLowerInvariant();
        int num9;
        char ch = '\0';
        char ch2 = '\0';
        int[] sourceArray = new int[16];
        int[] numArray2 = new int[16];
        bool flag = false;
        if (((name == null) || (name.Length == 0)) || ((expression == null) || (expression.Length == 0)))
        {
            return false;
        }
        if (expression.Equals("*") || expression.Equals("*.*"))
        {
            return true;
        }
        if ((expression[0] == '*') && (expression.IndexOf('*', 1) == -1))
        {
            int length = expression.Length - 1;
            if ((name.Length >= length) && (string.Compare(expression, 1, name, name.Length - length, length, StringComparison.OrdinalIgnoreCase) == 0))
            {
                return true;
            }
        }
        sourceArray[0] = 0;
        int num7 = 1;
        int num = 0;
        int num8 = expression.Length * 2;
        while (!flag)
        {
            int num3;
            if (num < name.Length)
            {
                ch = name[num];
                num3 = 1;
                num++;
            }
            else
            {
                flag = true;
                if (sourceArray[num7 - 1] == num8)
                {
                    break;
                }
            }
            int index = 0;
            int num5 = 0;
            int num6 = 0;
            while (index < num7)
            {
                int num2 = (sourceArray[index++] + 1) / 2;
                num3 = 0;
            Label_00F2:
                if (num2 != expression.Length)
                {
                    num2 += num3;
                    num9 = num2 * 2;
                    if (num2 == expression.Length)
                    {
                        numArray2[num5++] = num8;
                    }
                    else
                    {
                        ch2 = expression[num2];
                        num3 = 1;
                        if (num5 >= 14)
                        {
                            int num11 = numArray2.Length * 2;
                            int[] destinationArray = new int[num11];
                            Array.Copy(numArray2, destinationArray, numArray2.Length);
                            numArray2 = destinationArray;
                            destinationArray = new int[num11];
                            Array.Copy(sourceArray, destinationArray, sourceArray.Length);
                            sourceArray = destinationArray;
                        }
                        if (ch2 == '*')
                        {
                            numArray2[num5++] = num9;
                            numArray2[num5++] = num9 + 1;
                            goto Label_00F2;
                        }
                        if (ch2 == '>')
                        {
                            bool flag2 = false;
                            if (!flag && (ch == '.'))
                            {
                                int num13 = name.Length;
                                for (int i = num; i < num13; i++)
                                {
                                    char ch3 = name[i];
                                    num3 = 1;
                                    if (ch3 == '.')
                                    {
                                        flag2 = true;
                                        break;
                                    }
                                }
                            }
                            if ((flag || (ch != '.')) || flag2)
                            {
                                numArray2[num5++] = num9;
                                numArray2[num5++] = num9 + 1;
                            }
                            else
                            {
                                numArray2[num5++] = num9 + 1;
                            }
                            goto Label_00F2;
                        }
                        num9 += num3 * 2;
                        switch (ch2)
                        {
                            case '<':
                                if (flag || (ch == '.'))
                                {
                                    goto Label_00F2;
                                }
                                numArray2[num5++] = num9;
                                goto Label_028D;

                            case '"':
                                if (flag)
                                {
                                    goto Label_00F2;
                                }
                                if (ch == '.')
                                {
                                    numArray2[num5++] = num9;
                                    goto Label_028D;
                                }
                                break;
                        }
                        if (!flag)
                        {
                            if (ch2 == '?')
                            {
                                numArray2[num5++] = num9;
                            }
                            else if (ch2 == ch)
                            {
                                numArray2[num5++] = num9;
                            }
                        }
                    }
                }
            Label_028D:
                if ((index < num7) && (num6 < num5))
                {
                    while (num6 < num5)
                    {
                        int num14 = sourceArray.Length;
                        while ((index < num14) && (sourceArray[index] < numArray2[num6]))
                        {
                            index++;
                        }
                        num6++;
                    }
                }
            }
            if (num5 == 0)
            {
                return false;
            }
            int[] numArray4 = sourceArray;
            sourceArray = numArray2;
            numArray2 = numArray4;
            num7 = num5;
        }
        num9 = sourceArray[num7 - 1];
        return (num9 == num8);
    }
}

None of these answers quite seem to do the trick, and msorens's is needlessly complex. This one should work just fine:

public static Boolean Fits(string sFileName, string sFileMask)
{
    String convertedMask = "^" + Regex.Escape(sFileMask).Replace("\\*", ".*").Replace("\\?", ".") + "$";
    Regex regexMask = new Regex(convertedMask, RegexOptions.IgnoreCase);
    return regexMask.IsMatch(sFileName)
}

This makes sure possible regex chars in the mask are escaped, replaces the \* and \?, and surrounds it all by by ^ and $ to mark the boundaries.

Of course, in most situations, it's far more useful to simply make this into a FileMaskToRegex tool function which returns the Regex object, so you just got it once and can then make a loop in which you check all strings from your files list on it.

public static Regex FileMaskToRegex(string sFileMask)
{
    String convertedMask = "^" + Regex.Escape(sFileMask).Replace("\\*", ".*").Replace("\\?", ".") + "$";
    return new Regex(convertedMask, RegexOptions.IgnoreCase);
}

Nissim mentioned the PatternMatcher Class in his answer...

There is an explanation available here:

http://referencesource.microsoft.com/#System/services/io/system/io/PatternMatcher.cs

So you don't have to use the reflected code and guess how it works.

Also, I think using this code is probably the best solution, because it guarantees consistent behavior when using the same pattern in your comparisons and in Framework methods like GetFiles().

Fastest version of the previously proposed function:

    public static bool FitsMasks(string filePath, params string[] fileMasks)
            // or
    public static Regex FileMasksToRegex(params string[] fileMasks)
    {
        if (!_maskRegexes.ContainsKey(fileMasks))
        {
            StringBuilder sb = new StringBuilder("^");
            bool first = true;
            foreach (string fileMask in fileMasks)
            {
                if(first) first =false; else sb.Append("|");
                sb.Append('(');
                foreach (char c in fileMask)
                {
                    switch (c)
                    {
                        case '*': sb.Append(@".*"); break;
                        case '?': sb.Append(@"."); break;
                        default:
                                sb.Append(Regex.Escape(c.ToString()));
                            break;
                    }
                }
                sb.Append(')');
            }
            sb.Append("$");
            _maskRegexes[fileMasks] = new Regex(sb.ToString(), RegexOptions.IgnoreCase);
        }
        return _maskRegexes[fileMasks].IsMatch(filePath);
                    // or
        return _maskRegexes[fileMasks];
    }
    static readonly Dictionary<string[], Regex> _maskRegexes = new Dictionary<string[], Regex>(/*unordered string[] comparer*/);

Notes:

  1. Re-using Regex objects.
  2. Using StringBuilder to optimize Regex creation (multiple .Replace() calls are slow).
  3. Multiple masks, combined with OR.
  4. Another version returning the Regex.
  • In reality, I can imagine this kind of function is normally used on a whole list though, so just making the regex first before the filter loop and then going through the list with foreach to use the filter would solve the inefficiency of remaking the regex every time anyway. – Nyerguds Oct 29 '13 at 12:25
  • @Nyerguds Agreed. However, the above code can be adapted to produce the Regex object even for looping over multiple files, even if for little performance gain. On a side note, a simple improvement would allow multiple masks to be passed in for an "OR" comparison. – Mr. TA Oct 30 '13 at 14:26
  • True. I'd just go for a Regex FileMaskToRegex(String fileMask) function though; more generally usable. Oh, another small note on your code: the filtering out of the "." is completely unnecessary: your specific-case code for it does exactly the same as the default case, namely escaping it. You also forgot the "^" indicating the start of the expression – Nyerguds Oct 31 '13 at 13:48
  • @Nyerguds updated the answer... – Mr. TA Oct 31 '13 at 16:24
  • Heh. Well, if you keep the masks stored in that dictionary anyway, returning the Regex object isn't particularly useful. I just meant that returning the regex is generally a good alternative for the dictionary. Still, nice :) – Nyerguds Nov 13 '13 at 13:40

Use WildCardPattern class from System.Management.Automation available as NuGet package or in Windows PowerShell SDK.

WildcardPattern pattern = new WildcardPattern("my*.txt");
bool fits = pattern.IsMatch("myfile.txt");

If PowerShell is available, it has direct support for wildcard type matching (as well as Regex).

WildcardPattern pat = new WildcardPattern("a*.b*");
if (pat.IsMatch(filename)) { ... }

From Windows 7 using P/Invoke (without 260 char count limit):

// UNICODE_STRING for Rtl... method
[StructLayout(LayoutKind.Sequential, CharSet = CharSet.Unicode)]
public struct UNICODE_STRING
{
    public ushort Length;
    public ushort MaximumLength;
    [MarshalAs(UnmanagedType.LPWStr)]
    string Buffer;

    public UNICODE_STRING(string buffer)
    {
        if (buffer == null)
            Length = MaximumLength = 0;
        else
            Length = MaximumLength = unchecked((ushort)(buffer.Length * 2));
        Buffer = buffer;
    }
}

// RtlIsNameInExpression method from NtDll.dll system library
public static class NtDll
{
    [DllImport("NtDll.dll", CharSet=CharSet.Unicode, ExactSpelling=true)]
    [return: MarshalAs(UnmanagedType.U1)]
    public extern static bool RtlIsNameInExpression(
        ref UNICODE_STRING Expression,
        ref UNICODE_STRING Name,
        [MarshalAs(UnmanagedType.U1)]
        bool IgnoreCase,
        IntPtr Zero
        );
}

public bool MatchMask(string mask, string fileName)
{
    // Expression must be uppercase for IgnoreCase == true (see MSDN for RtlIsNameInExpression)
    UNICODE_STRING expr = new UNICODE_STRING(mask.ToUpper());
    UNICODE_STRING name = new UNICODE_STRING(fileName);

    if (NtDll.RtlIsNameInExpression(ref expr, ref name, true, IntPtr.Zero))
    {
        // MATCHES !!!
    }
}

My version, which supports ** wild card:

    static Regex FileMask2Regex(string mask)
    {
        var sb = new StringBuilder(mask);

        // hide wildcards
        sb.Replace("**", "affefa0d52e84c2db78f5510117471aa-StarStar");
        sb.Replace("*", "affefa0d52e84c2db78f5510117471aa-Star");
        sb.Replace("?", "affefa0d52e84c2db78f5510117471aa-Question");
        sb.Replace("/", "affefa0d52e84c2db78f5510117471aa-Slash");
        sb.Replace("\\", "affefa0d52e84c2db78f5510117471aa-Slash");

        sb = new StringBuilder(Regex.Escape(sb.ToString()));

        // unhide wildcards
        sb.Replace("affefa0d52e84c2db78f5510117471aa-StarStar", @".*");
        sb.Replace("affefa0d52e84c2db78f5510117471aa-Star", @"[^/\\]*");
        sb.Replace("affefa0d52e84c2db78f5510117471aa-Question", @"[^/\\]");
        sb.Replace("affefa0d52e84c2db78f5510117471aa-Slash", @"[/\\]");

        sb.Append("$");

        // allowed to have prefix
        sb.Insert(0, @"^(?:.*?[/\\])?");

        return new Regex(sb.ToString(), RegexOptions.IgnoreCase);
    }
  • You could just escape them with Regex.Escape, and then search for the escaped backslash first to avoid collisions. – Nyerguds Sep 21 '17 at 8:38

How about using reflection to get access to the function in the .NET framework?

Like this:

public class PatternMatcher
{
  public delegate bool StrictMatchPatternDelegate(string expression, string name);
  public StrictMatchPatternDelegate StrictMatchPattern;
  public PatternMatcher()
  {
    Type patternMatcherType = typeof(FileSystemWatcher).Assembly.GetType("System.IO.PatternMatcher");
    MethodInfo patternMatchMethod = patternMatcherType.GetMethod("StrictMatchPattern", System.Reflection.BindingFlags.Static | System.Reflection.BindingFlags.Public);
    StrictMatchPattern = (expression, name) => (bool)patternMatchMethod.Invoke(null, new object[] { expression, name });
  }
}

void Main()
{
  PatternMatcher patternMatcher = new PatternMatcher();
  Console.WriteLine(patternMatcher.StrictMatchPattern("*.txt", "test.txt")); //displays true
  Console.WriteLine(patternMatcher.StrictMatchPattern("*.doc", "test.txt")); //displays false
}

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