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I came across this behavior today while using the Substring method:

    static void Main(string[] args)
        string test = "123";
        for (int i = 0; true; i++)
                Console.WriteLine("\"{0}\".Substring({1}) is \"{2}\"", test, i, test.Substring(i));
            catch (ArgumentOutOfRangeException e)
                Console.WriteLine("\"{0}\".Substring({1}) threw an exception.", test, i);


"123".Substring(0) is "123"
"123".Substring(1) is "23"
"123".Substring(2) is "3"
"123".Substring(3) is ""
"123".Substring(4) threw an exception.

"123".Substring(3) returns an empty string and "123".Substring(4) throws an exception. However, "123"[3] and "123"[4] are both out of bounds. This is documented on MSDN, but I'm having a hard time understanding why the Substring method is written this way. I'd expect any out-of-bounds index to either always result in an exception or always result in an empty string. Any insight?

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Is your question why is Substring(3) return a different result to Substring(4)? –  PriestVallon Jul 28 '12 at 22:01
Sorry but where is the out-of-bounds index here? –  Daniel Jul 28 '12 at 22:02
PriestVallon: Yes, exactly. –  Pete Schlette Jul 28 '12 at 22:16
Daniel: test.Substring(3) and test.Substring(4) both supply an out-of-bounds index, but they behave differently. –  Pete Schlette Jul 28 '12 at 22:21
SubString(3) is only out of bounds when you expect (demand) a non-empty result. –  Henk Holterman Jul 28 '12 at 22:40

4 Answers 4

up vote 5 down vote accepted

The internal implementation of String.Substring(startindex) is like this

public string Substring(int startIndex)
    return this.Substring(startIndex, this.Length - startIndex);

So you are asking for a string of zero characters length. (A.K.A. String.Empty) I concur with you that this is not clear on MS part, but without a better explanation I think that is better to give this result than throwing an exception.

Going deeper in the implementation of String.Substring(startIndex, length) we see this code

if (length == 0)
    return Empty;

So, because length=0 is a valid input in the second overload, we get that result also for the first one.

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One convenience that this implementation provides is that if you had a loop that was doing something to some arbitrary strings (for example, returning the second half of the string), you wouldn't have to handle the empty string as a special case.

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Not sure why, can't think of a great reason why either but I suppose if you want to check if a substring call is at the end of a string, returning string.Empty is less expensive than throwing an exception.

Also I suppose you are just asking for the part of the string after the indexed character which would be blank, whereas the index after that is truly out of range

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The documentation of .Net-Substring clearly states that is throws an exception if the index is Greater than the length of the string, in the case of "123" being 3.

I guess the reason might be because of compatibility, to create the same behavior as the C++ substring function. In C++,


will return an empty string because of NULL-termination, which means the string "123" actually contains 4 characters! (the last one being \0).

That is probably the intention for having this behavior, even if .Net per specification doesnt have null-terminated strings (altough the implementation actually does...)

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