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I have a large set of strings, including many duplicates. It is important that all of the duplicates have the same casing. So this set would fail the test:

String[] strings = new String[] { "a", "A", "b", "C", "b" };

....but this test would pass:

String[] strings = new String[] { "A", "A", "b", "C", "b" };

As I iterate through each string in strings, how can my program see that A is a case-insensitive duplicate of a (and thus fail), but allow the duplicate b through?

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Your title says HashSet and your question has array, is something missing ? – Habib Apr 29 '13 at 5:41
If you use Equals to check two strings for equality, there's an overload that takes in a StringComparison enum value. You might want to use StringComparison.OrdinalIgnoreCase. If you need to make a HashSet<string> (or Dictionary<string, X>) use a specific comparison, construct the instance of HashSet<> (etc.) using the instance constructor that takes in an IEqualityComparer<string>. In this case you might want to use the comparer StringComparer.OrdinalIgnoreCase. – Jeppe Stig Nielsen Apr 29 '13 at 5:52

One simple approach would be to create two sets - one using a case-insensitive string comparer, and one using a case-sensitive one. (It's not clear to me whether you want a culture-sensitive string or not, or in which culture.)

After construction, if the two sets has a different size (Count) then there must be some elements which are equal by case-insensitive comparison, but not equal by case-sensitive comparison.

So something like:

public static bool AllDuplicatesSameCase(IEnumerable<string> input)
    var sensitive = new HashSet<String>(input, StringComparer.InvariantCulture);
    var insensitive = new HashSet<String>(input, 
    return sensitive.Count == insensitive.Count;
share|improve this answer
+1. Simple and no need for any custom code! – Alexei Levenkov Apr 29 '13 at 6:00
This will work because one comparer should be more "strict" than the other one, that is the logical implication if InvariantCulture declares two strings to be equal, then InvariantCultureIgnoreCase will also declare them equal. There are two major issues to consider before choosing this solution. First, this creates two full copies of the source input. If the input is huge, this might be a waste of memory. Second, this iterates through the entire source twice. If there is a "counter-example" early in the input list, some other solutions might exit fast and not continue iterating. – Jeppe Stig Nielsen Apr 29 '13 at 7:46
@JeppeStigNielsen: Agreed. I was definitely going for simplicity over everything else. – Jon Skeet Apr 29 '13 at 7:48
Also note: If you create a HashSet<string> using the default IEqualityComparer<string>, you get an ordinal comparison (equivalent to StringComparer.Ordinal). This is distinct from the invariant culture. For example the invariant culture considers "ss" and "ß" equal. – Jeppe Stig Nielsen Apr 29 '13 at 7:49
@JeppeStigNielsen: Indeed - that's why I specified comparers in both sets :) – Jon Skeet Apr 29 '13 at 9:06

You could check each entry explicitly.

static bool DuplicatesHaveSameCasing(string[] strings)
  for (int i = 0; i < strings.Length; ++i)
    for (int j = i + 1; j < strings.Length; ++j)
      if (string.Equals(strings[i], strings[j], StringComparison.OrdinalIgnoreCase)
        && strings[i] != strings[j])
        return false;
  return true;

Comment: I chose to use ordinal comparison. Note that != operator uses an ordinal and case-sensitive comparison. It is rather trivial to change this into some culture-dependent comparison.

share|improve this answer

And another option using LINQ.

                    //Group strings without considering case
bool doesListPass = strings.GroupBy(s => s.ToUpper())
                    //Check that all strings in each group has the same case
                    .All(group => group.All(s => group.First() == s));

                    //Group strings without considering case
IEnumerable<string> cleanedList = strings.GroupBy(s => s.ToUpper())
                    //Check that all strings in each group has the same case
                    .Where(group => group.All(s => group.First() == s))
                    //Map all the "passing" groups to a list of strings 
                    .SelectMany(g => g.ToList());

Note: You can use ToUpper() or ToUpperInvariant() depending on your need.

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