For the following block of code:

For I = 0 To listOfStrings.Count - 1
    If myString.Contains(lstOfStrings.Item(I)) Then
        Return True
    End If
Return False

The output is:

Case 1:

myString: C:\Files\myfile.doc
listOfString: C:\Files\, C:\Files2\
Result: True

Case 2:

myString: C:\Files3\myfile.doc
listOfString: C:\Files\, C:\Files2\
Result: False

The list (listOfStrings) may contain several items (minimum 20) and it has to be checked against a thousands of strings (like myString).

Is there a better (more efficient) way to write this code?

14 Answers 14


With LINQ, and using C# (I don't know VB much these days):

bool b = listOfStrings.Any(s=>myString.Contains(s));

or (shorter and more efficient, but arguably less clear):

bool b = listOfStrings.Any(myString.Contains);

If you were testing equality, it would be worth looking at HashSet etc, but this won't help with partial matches unless you split it into fragments and add an order of complexity.

update: if you really mean "StartsWith", then you could sort the list and place it into an array ; then use Array.BinarySearch to find each item - check by lookup to see if it is a full or partial match.

Update: in the recent .Net, Contains has optional StringComparison parameter , that can be used for case-insensitive comparison, e.g. myString.Contains(s,StringComparison.CurrentCultureIgnoreCase);

  • 1
    Instead of Contains I'd use StartsWith based on his examples.
    – tvanfosson
    Feb 1, 2009 at 15:01
  • @tvanfosson - that depends on whether the examples are fully inclusive, but yes, I'd agree. Simple to change, of course. Feb 1, 2009 at 15:05
  • In how far is this code more efficient on the algorithmic level? It's shorter and faster if the loops in "Any" are faster, but the problem that you have to perform exact matching many times is the same. Feb 1, 2009 at 15:20
  • You could setup a custom comparator if you are using a set. Feb 1, 2009 at 15:29
  • 2
    I find putting this in an extension method with params keyword for the array makes it much more readable. myString.ContainsAny("this", "that", "those");.
    – Connell
    May 29, 2015 at 11:23

when you construct yours strings it should be like this

bool inact = new string[] { "SUSPENDARE", "DIZOLVARE" }.Any(s=>stare.Contains(s));

I liked Marc's answer, but needed the Contains matching to be CaSe InSenSiTiVe.

This was the solution:

bool b = listOfStrings.Any(s => myString.IndexOf(s, StringComparison.OrdinalIgnoreCase) >= 0))
  • Shouldn't it be >-1 ?
    – CSharped
    Jun 15, 2016 at 9:15
  • 2
    @CSharped Doesn't matter as >-1 ( more than minus 1 ) and >=0 ( more or equal to zero ) are the same thing.
    – WhoIsRich
    Jun 15, 2016 at 14:11

There were a number of suggestions from an earlier similar question "Best way to test for existing string against a large list of comparables".

Regex might be sufficient for your requirement. The expression would be a concatenation of all the candidate substrings, with an OR "|" operator between them. Of course, you'll have to watch out for unescaped characters when building the expression, or a failure to compile it because of complexity or size limitations.

Another way to do this would be to construct a trie data structure to represent all the candidate substrings (this may somewhat duplicate what the regex matcher is doing). As you step through each character in the test string, you would create a new pointer to the root of the trie, and advance existing pointers to the appropriate child (if any). You get a match when any pointer reaches a leaf.


Old question. But since VB.NET was the original requirement. Using the same values of the accepted answer:

listOfStrings.Any(Function(s) myString.Contains(s))

As I needed to check if there are items from a list in a (long) string, I ended up with this one:

listOfStrings.Any(x => myString.ToUpper().Contains(x.ToUpper()));

Or in vb.net:

listOfStrings.Any(Function(x) myString.ToUpper().Contains(x.ToUpper()))

Based on your patterns one improvement would be to change to using StartsWith instead of Contains. StartsWith need only iterate through each string until it finds the first mismatch instead of having to restart the search at every character position when it finds one.

Also, based on your patterns, it looks like you may be able to extract the first part of the path for myString, then reverse the comparison -- looking for the starting path of myString in the list of strings rather than the other way around.

string[] pathComponents = myString.Split( Path.DirectorySeparatorChar );
string startPath = pathComponents[0] + Path.DirectorySeparatorChar;

return listOfStrings.Contains( startPath );

EDIT: This would be even faster using the HashSet idea @Marc Gravell mentions since you could change Contains to ContainsKey and the lookup would be O(1) instead of O(N). You would have to make sure that the paths match exactly. Note that this is not a general solution as is @Marc Gravell's but is tailored to your examples.

Sorry for the C# example. I haven't had enough coffee to translate to VB.

  • Re starts-with; perhaps pre-sort and use binary search? That might be faster again. Feb 1, 2009 at 20:36

The drawback of Contains method is that it doesn't allow to specify comparison type which is often important when comparing strings. It is always culture-sensitive and case-sensitive. So I think the answer of WhoIsRich is valuable, I just want to show a simpler alternative:

listOfStrings.Any(s => s.Equals(myString, StringComparison.OrdinalIgnoreCase))

Have you tested the speed?

i.e. Have you created a sample set of data and profiled it? It may not be as bad as you think.

This might also be something you could spawn off into a separate thread and give the illusion of speed!


If speed is critical, you might want to look for the Aho-Corasick algorithm for sets of patterns.

It's a trie with failure links, that is, complexity is O(n+m+k), where n is the length of the input text, m the cumulative length of the patterns and k the number of matches. You just have to modify the algorithm to terminate after the first match is found.


Slight variation, I needed to find if there were whole words and case insensitive in a string.

myString.Split(' ', StringSplitOptions.RemoveEmptyEntries).Intersect(listOfStrings).Any())

for case insensitive myString and listOfStrings have been converted to uppercase.


It's not a very big chunk of code, but this is a nice use case for an extension method as a way to provide reusability, readability, and documentation.

public static class StringExtensions
    /// <summary>
    /// Tests whether any of the entries in the search list can be found in the source string
    /// </summary>
    public static bool ContainsAny(this string source, IEnumerable<string> search)
        return search.Any(source.Contains);

public static class LinqExtensions
    /// <summary>
    /// Tests whether the any value in the source list matches any of the values in the search list
    /// </summary>
    public static bool ContainsAny<T>(this IEnumerable<T> source, IEnumerable<T> search)
        return source.Any(search.Contains);

Then you can consume like this for strings:

var containsMatch = "Hello World".ContainsAny(new[] { "World", "Earth" }); // true

Or like this for strings:

var list = new [] {"a","b"};
var containsMatch = list.ContainsAny(new [] {"b", "c"}); // true

Demo in CodePen

Similar Questions:


Case -insensitive extension

 public static bool ContainsAnyOfKeys(this string text,List<string> keys)
     bool b = keys.Any(s => text.Contains(s,StringComparison.CurrentCultureIgnoreCase));
     return b;

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.