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When working with HashSets in C#, I recently came across an annoying problem: HashSets don't guarantee unicity of the elements; they are not Sets. What they do guarantee is that when Add(T item) is called the item is not added if for any item in the set item.equals(that) is true. This holds no longer if you manipulate items already in the set. A small program that demonstrates (copypasta from my Linqpad):

void Main()
    HashSet<Tester> testset = new HashSet<Tester>();
    testset.Add(new Tester(1));
    testset.Add(new Tester(2));
    foreach(Tester tester in testset){
    foreach(Tester tester in testset){
      tester.myint = 3;
    foreach(Tester tester in testset){
    HashSet<Tester> secondhashset = new HashSet<Tester>(testset);
    foreach(Tester tester in secondhashset){

class Tester{
  public int myint;

  public Tester(int i){
    this.myint = i;

  public override bool Equals(object o){
    if (o== null) return false;
    Tester that = o as Tester;
    if (that == null) return false;
    return (this.myint == that.myint);

  public override int GetHashCode(){
    return this.myint;

  public override string ToString(){
    return this.myint.ToString();

It will happily manipulate the items in the collection to be equal, only filtering them out when a new HashSet is built. What is advicible when I want to work with sets where I need to know the entries are unique? Roll my own, where Add(T item) adds a copy off the item, and the enumerator enumerates over copies of the contained items? This presents the challenge that every contained element should be deep-copyable, at least in its items that influence it's equality.

Another solution would be to roll your own, and only accepts elements that implement INotifyPropertyChanged, and taking action on the event to re-check for equality, but this seems severely limiting, not to mention a whole lot of work and performance loss under the hood.

Yet another possible solution I thought of is making sure that all fields are readonly or const in the constructor. All solutions seem to have very large drawbacks. Do I have any other options?

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I'm not sure I understand the question... you want to know which kind of collection guarantees that no two items inside it are equal ? – Alex Jul 10 '12 at 10:11
Tim, it does, you might have to scroll down – Martijn Jul 10 '12 at 10:16
@Martijn: I've overlooked the GetHashCode. Anyway, he should read this blog from Eric Lippert: blogs.msdn.com/b/ericlippert/archive/2011/02/28/… It explains the rules and guidelines of it. For example: "Guideline: the integer returned by GetHashCode should never change" and "Rule: the integer returned by GetHashCode must never change while the object is contained in a data structure that depends on the hash code remaining stable" – Tim Schmelter Jul 10 '12 at 10:20
+1 for "copypasta" – oleksii Jul 10 '12 at 10:28
@Tim, thanks! that's pretty much where things are going wrong. This also means that once instantiated and added to a collection, an object can never change identity. The real problem isn't with the hash code, it's with the equals. I could change this trivialy to public int GetHashCode() { return 0 } and the hashcode would be unchanging, but the problem remains the same. – Martijn Jul 10 '12 at 11:01
up vote 5 down vote accepted

You're really talking about object identity. If you're going to hash items they need to have some kind of identity so they can be compared.

  • If that changes, it is not a valid identity method. You currently have public int myint. It really should be readonly, and only set in the constructor.
  • If two objects are conceptually different (i.e. you want to treat them as different in your specific design) then their hash code should be different.
  • If you have two objects with the same content (i.e. two value objects that have the same field values) then they should have the same hash codes and should be equal.
  • If your data model says that you can have two objects with the same content but they can't be equal, you should use a surrogate id, not hash the contents.
  • Perhaps your objects should be immutable value types so the object can't change
  • If they are mutable types, you should assign a surrogate ID (i.e. one that is introduced externally, like an increasing counter id or using the object's hashcode) that never changes for the given object

This is a problem with your Tester objects, not the set. You need to think hard about how you define identity. It's not an easy problem.

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So you would take some sort of option 3: only use HashSets that have immutable identities? How would you guarantee that? – Martijn Jul 10 '12 at 10:18
That's a whole other question. Read this: stackoverflow.com/questions/750947/net-unique-object-identifier – Joe Jul 10 '12 at 10:24
"If you have more than one object that has a given identity, it is not a valid identity method" -- true (I think), but I misread this at first: it would help if you could rephrase this in a way that doesn't suggest to the careless reader that two different objects must return different hash codes from GetHashCode -- that is of course perfectly valid. – hvd Jul 10 '12 at 10:33
"If two objects are conceptually different (i.e. you want to treat them as different in your specific design) then their hash code should be different."? No, that's how I hoped I had misread at first, but that's wrong. Two different objects can have the same hash code and not compare equal. And a HashSet has no problems with that. For a simple example, there are only 2**32 possible hash codes, do you expect all hash codes for all valid values of an Int64 to be different? – hvd Jul 10 '12 at 10:57
The conclusion is that if you values change then you can't use them to define identity. There are strong guidelines and a hell of a lot of framework but they can't stop you shooting yourself in the foot. Some people have valid use cases for shooting themselves in the foot. – Joe Jul 10 '12 at 11:11

When I need a 1-dimensional collection of guaranteed unique items I usually go with Dictionary<TKey, Tvalue>: you cannot add elements with the same Key, plus I usually need to attach some properties to the items and the Value comes in handy (my go-to value type is Tuple<> for many values...).

OF course, it's not the most performant nor the least memory-hungry solution, but I don't usually have performance/memory concerns.

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You should implement your own IEqualityComparer and pass it to the constructor of the HashSet to ensure you get the desired equality comparer.

And as Joe said, if you want the collection to remain unique even beyond .Add(T item) you need to use ValueObjects that are created by the constructor and have no publicly visible set attributes. i.e.

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