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I have 2 strings - dir1 and dir2, and I need to check if one is subdirectory for other. I tried to go with Contains method:

dir1.contains(dir2);

, but that also returns true, if directories have similar names, for example - c:\abc and c:\abc1 are not subdirectories, bet returns true. There must be a better way.

share|improve this question
    
what about directories that have multiple names, e.g. Symlinks? – David Heffernan Apr 11 '11 at 6:53
up vote 19 down vote accepted
DirectoryInfo di1 = new DirectoryInfo(dir1);
DirectoryInfo di2 = new DirectoryInfo(dir2);
bool isParent = di2.Parent.FullName == di1.FullName;

Or in a loop to allow for nested sub-directories, i.e. C:\foo\bar\baz is a sub directory of C:\foo :

DirectoryInfo di1 = new DirectoryInfo(dir1);
DirectoryInfo di2 = new DirectoryInfo(dir2);
bool isParent = false;
while (di2.Parent != null)
{
    if (di2.Parent.FullName == di1.FullName)
    {
        isParent = true;
        break;
    }
    else di2 = di2.Parent;
}
share|improve this answer
2  
This works only if the directories lack the final slash. See Why isn't this DirectoryInfo comparison working? – Darcara Mar 10 '13 at 17:23
  • Case insensitive
  • Tolerates mix of \ and / folder delimiters
  • Tolerates ..\ in path
  • Avoids matching on partial folder names (c:\foobar not a subpath of c:\foo)

Code:

public static class StringExtensions
{
    /// <summary>
    /// Returns true if <paramref name="path"/> starts with the path <paramref name="baseDirPath"/>.
    /// The comparison is case-insensitive, handles / and \ slashes as folder separators and
    /// only matches if the base dir folder name is matched exactly ("c:\foobar\file.txt" is not a sub path of "c:\foo").
    /// </summary>
    public static bool IsSubPathOf(this string path, string baseDirPath)
    {
        string normalizedPath = Path.GetFullPath(path.Replace('/', '\\')
            .WithEnding("\\"));

        string normalizedBaseDirPath = Path.GetFullPath(baseDirPath.Replace('/', '\\')
            .WithEnding("\\"));

        return normalizedPath.StartsWith(normalizedBaseDirPath, StringComparison.OrdinalIgnoreCase);
    }

    /// <summary>
    /// Returns <paramref name="str"/> with the minimal concatenation of <paramref name="ending"/> (starting from end) that
    /// results in satisfying .EndsWith(ending).
    /// </summary>
    /// <example>"hel".WithEnding("llo") returns "hello", which is the result of "hel" + "lo".</example>
    public static string WithEnding([CanBeNull] this string str, string ending)
    {
        if (str == null)
            return ending;

        string result = str;

        // Right() is 1-indexed, so include these cases
        // * Append no characters
        // * Append up to N characters, where N is ending length
        for (int i = 0; i <= ending.Length; i++)
        {
            string tmp = result + ending.Right(i);
            if (tmp.EndsWith(ending))
                return tmp;
        }

        return result;
    }

    /// <summary>Gets the rightmost <paramref name="length" /> characters from a string.</summary>
    /// <param name="value">The string to retrieve the substring from.</param>
    /// <param name="length">The number of characters to retrieve.</param>
    /// <returns>The substring.</returns>
    public static string Right([NotNull] this string value, int length)
    {
        if (value == null)
        {
            throw new ArgumentNullException("value");
        }
        if (length < 0)
        {
            throw new ArgumentOutOfRangeException("length", length, "Length is less than zero");
        }

        return (length < value.Length) ? value.Substring(value.Length - length) : value;
    }
}

Test cases (NUnit):

[TestFixture]
public class StringExtensionsTest
{
    [TestCase(@"c:\foo", @"c:", Result = true)]
    [TestCase(@"c:\foo", @"c:\", Result = true)]
    [TestCase(@"c:\foo", @"c:\foo", Result = true)]
    [TestCase(@"c:\foo", @"c:\foo\", Result = true)]
    [TestCase(@"c:\foo\", @"c:\foo", Result = true)]
    [TestCase(@"c:\foo\bar\", @"c:\foo\", Result = true)]
    [TestCase(@"c:\foo\bar", @"c:\foo\", Result = true)]
    [TestCase(@"c:\foo\a.txt", @"c:\foo", Result = true)]
    [TestCase(@"c:\FOO\a.txt", @"c:\foo", Result = true)]
    [TestCase(@"c:/foo/a.txt", @"c:\foo", Result = true)]
    [TestCase(@"c:\foobar", @"c:\foo", Result = false)]
    [TestCase(@"c:\foobar\a.txt", @"c:\foo", Result = false)]
    [TestCase(@"c:\foobar\a.txt", @"c:\foo\", Result = false)]
    [TestCase(@"c:\foo\a.txt", @"c:\foobar", Result = false)]
    [TestCase(@"c:\foo\a.txt", @"c:\foobar\", Result = false)]
    [TestCase(@"c:\foo\..\bar\baz", @"c:\foo", Result = false)]
    [TestCase(@"c:\foo\..\bar\baz", @"c:\bar", Result = true)]
    [TestCase(@"c:\foo\..\bar\baz", @"c:\barr", Result = false)]
    public bool IsSubPathOfTest(string path, string baseDirPath)
    {
        return path.IsSubPathOf(baseDirPath);
    }
}

Update 2015-08-18: Fix bug matching on partial folder names. Add test cases.

Update 2015-09-02: Support ..\ in paths, add missing code

share|improve this answer
    
What about path C:\foo\bar\..\bar2 vs C:\foo\bar2? Or C:\foo\bar\ vs C:\foo\bar\..\..\? – milanio Sep 2 '15 at 16:06
    
Good point. I believe we should add Path.GetFullPath() to resolve those examples. – anjdreas Sep 2 '15 at 19:52
    
Added three more test cases and fixed the implementation to support your examples. Also added two missing extension methods the implementation relied on. I'm sure this can all be simplified, but it seems to work. – anjdreas Sep 2 '15 at 20:14

Try:

dir1.contains(dir2+"\\");
share|improve this answer

My paths could possibly contain different casing and even have untrimmed segments... This seems to work:

public static bool IsParent(string fullPath, string base)
{
	var fullPathSegments = SegmentizePath(fullPath);
	var baseSegments = SegmentizePath(base);
	var index = 0;
	while (fullPathSegments.Count>index && baseSegments.Count>index && 
		fullPathSegments[index].Trim().ToLower() == baseSegments[index].Trim().ToLower())
		index++;
	return index==baseSegments.Count-1;
}

public static IList<string> SegmentizePath(string path)
{
	var segments = new List<string>();
	var remaining = new DirectoryInfo(path);
	while (null != remaining)
	{
		segments.Add(remaining.Name);
		remaining = remaining.Parent;
	}
	segments.Reverse();
	return segments;
}

share|improve this answer

Based on @BrokenGlass's answer but tweaked:

using System.IO;

internal static class DirectoryInfoExt
{
    internal static bool IsSubDirectoryOfOrSame(this DirectoryInfo directoryInfo, DirectoryInfo potentialParent)
    {
        if (DirectoryInfoComparer.Default.Equals(directoryInfo, potentialParent))
        {
            return true;
        }

        return IsStrictSubDirectoryOf(directoryInfo, potentialParent);
    }

    internal static bool IsStrictSubDirectoryOf(this DirectoryInfo directoryInfo, DirectoryInfo potentialParent)
    {
        while (directoryInfo.Parent != null)
        {
            if (DirectoryInfoComparer.Default.Equals(directoryInfo.Parent, potentialParent))
            {
                return true;
            }

            directoryInfo = directoryInfo.Parent;
        }

        return false;
    }
}

using System;
using System.Collections.Generic;
using System.IO;

public class DirectoryInfoComparer : IEqualityComparer<DirectoryInfo>
{
    private static readonly char[] TrimEnd = { '\\' };
    public static readonly DirectoryInfoComparer Default = new DirectoryInfoComparer();
    private static readonly StringComparer OrdinalIgnoreCaseComparer = StringComparer.OrdinalIgnoreCase;

    private DirectoryInfoComparer()
    {
    }

    public bool Equals(DirectoryInfo x, DirectoryInfo y)
    {
        if (ReferenceEquals(x, y))
        {
            return true;
        }

        if (x == null || y == null)
        {
            return false;
        }

        return OrdinalIgnoreCaseComparer.Equals(x.FullName.TrimEnd(TrimEnd), y.FullName.TrimEnd(TrimEnd));
    }

    public int GetHashCode(DirectoryInfo obj)
    {
        if (obj == null)
        {
            throw new ArgumentNullException(nameof(obj));
        }
        return OrdinalIgnoreCaseComparer.GetHashCode(obj.FullName.TrimEnd(TrimEnd));
    }
}

Not ideal if performance is essential.

share|improve this answer

Update - this I wrote originally is wrong (see below):

It seems to me that you actually stick with the basic string comparison (using .ToLower() of course) using the .StartsWith() function, along with counting the path separators, but you add in an additional consideration in regard to the number of path separators - and you need to employ something like Path.GetFullPath() on the strings beforehand to make sure you're dealing with consistent path string formats. So you'd end up with something basic and simple, like this:

string dir1a = Path.GetFullPath(dir1).ToLower();
string dir2a = Path.GetFullPath(dir2).ToLower();
if (dir1a.StartsWith(dir2a) || dir2a.StartsWith(dir1a)) {
    if (dir1a.Count(x => x = Path.PathSeparator) != dir2a.Count(x => x = Path.PathSeparator)) {
        // one path is inside the other path
    }
}

Update...

As I discovered in using my code, the reason this is wrong, is because it does not account for cases where one directory name begins with the same characters as the entire name of the other directory. I had a case where I had one directory path of "D:\prog\dat\Mirror_SourceFiles" and another directory path of "D:\prog\dat\Mirror". Since my first path does indeed "start with" the letters "D:\prog\dat\Mirror" my code gave me a false match. I got rid of .StartsWith entirely and changed the code to this (method: split the path to the individual parts, and compare the parts up to the smaller number of parts):

// make sure "dir1" and "dir2a" are distinct from each other
// (i.e., not the same, and neither is a subdirectory of the other)
string[] arr_dir1 = Path.GetFullPath(dir1).Split(Path.DirectorySeparatorChar);
string[] arr_dir2 = Path.GetFullPath(dir2).Split(Path.DirectorySeparatorChar);
bool bSame = true;
int imax = Math.Min(arr_dir1.Length, arr_dir2.Length);
for (int i = 0; i < imax; ++i) {
  if (String.Compare(arr_dir1[i], arr_dir2[i], true) != 0) {
    bSame = false;
    break;
  }
}

if (bSame) {
  // do what you want to do if one path is the same or
  // a subdirectory of the other path
}
else {
  // do what you want to do if the paths are distinct
}

Of course, note that in a "real program" you are going to be using the Path.GetFullPath() function in a try-catch to handle the appropriate exceptions in regard to the string you're passing into it.

share|improve this answer
public static bool IsSubpathOf(string rootPath, string subpath)
{
    if (string.IsNullOrEmpty(rootPath))
        throw new ArgumentNullException("rootPath");
    if (string.IsNullOrEmpty(subpath))
        throw new ArgumentNulLException("subpath");
    Contract.EndContractBlock();

    return subath.StartsWith(rootPath, StringComparison.OrdinalIgnoreCase);
}
share|improve this answer
    
This unfortunately returns true for rootPath = @"c:\foo" and subPath = @"c:\foobar" - which is obviously a false positive. – Marcus Mangelsdorf Feb 1 at 10:15

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