Given the following key:

int key = Guid.NewGuid().GetHashCode();

Is this key unique as the uniqueness of Guid?


The pigeonhole principle says no. A GUID has 16 bytes of information - 128 bits. An int has 32 bits of information. (EDIT: To clarify due to comments, the .NET GUID will allow these 128 bits to be set arbitrarily as far as I'm aware; randomly generated GUIDs follow a stricter pattern so there aren't 2128 different values which would be randomly generated. Still more than 232 though.)

There are 2128 possible GUIDs, and 232 possible hash codes - so you can't possibly have a different hash code for each GUID.

There's more than that though - GetHashCode() is never meant to represent uniqueness. If it can, then that's great - but it doesn't have to, even when there are enough int values available to do so.

It would be entirely valid for int.GetHashCode() to return (say) the value divided by two... so -1, 0 and 1 would all get a hash code of 0; 3 and 4 would get a hash code of 2 etc. It wouldn't be good (and it would be slower than just returning the value) - but it would be a valid implementation. It would satisfy all the constraints of GetHashCode - namely that if you call it on two equal values, it will return the same hash code.

In fact, returning a constant for all values is a valid implementation - although a pretty useless one, in that it renders the normally-fast lookup of a hash table into an O(N) operation.

  • @Joey: Randomly generated ones, sure - but I don't think there's anything stopping you from a 16-byte array into the Guid constructor with any values you want. Do you have any evidence to the contrary? – Jon Skeet Sep 6 '11 at 22:16
  • @Joey: Well we're specifically talking about the .NET Guid type, and I still maintain that there are 2^128 possible values for that type. – Jon Skeet Sep 6 '11 at 22:18
  • @Joey: Sure, and you don't normally end up with strings that have values unassigned within Unicode - but they're still values which can easily be created. – Jon Skeet Sep 6 '11 at 22:20

Just today I've noticed another problem of the Guid.GetHashCode(): in Microsoft .NET implementation, not every "byte" of the Guid is hashed: there are 6 bytes of the Guid that aren't hashed, so any change to one of them won't ever change the hash code.

We can see it in the reference source:

return _a ^ (((int)_b << 16) | (int)(ushort)_c) ^ (((int)_f << 24) | _k);

so the _d, _e, _g, _h, _i, _j bytes aren't hashed. This has an important impact with "sequential" Guids, like:


with Guid like these, the number of different hashes generated is very small (256 different values), because the 3478ec9d/3478ec9e won't be hashed.

  • Wow, very interesting observation.Not sure why MS wouldn't hash the whole GUID, but this is something to be aware of.... – Roger Hill Jan 22 '16 at 3:55
  • For version 1 UUID's the fields included in GetHashCode() are the 60 bit timestamp and parts of the MAC address. For version 4 UUID's (which you get from Guid.NewGuid()) almost all bytes of the GUID are random. So in these cases the algorithm seems OK. – Martin Liversage May 10 '17 at 10:03

GetHashCode() returns an integer - it cannot be as unique as a Guid, so no - there might be collisions and uniqueness is not guaranteed.

The point of a hash code is that it should distribute evenly across the hash range so that collisions should be generally rare, you always have a chance of collision though and have to accommodate for that.

  • 1
    it should also be noted that GUIDs are not guaranteed to be unique – Muad'Dib Sep 6 '11 at 21:59
  • 13
    A duplicate GUID is rumored to be generated on December 21st, 2012. – Hans Passant Sep 6 '11 at 22:23
  • 1
    @HansPassant I'm sorry to disappoint you. The rumour was false. – Fabian Bigler Jun 22 '15 at 22:27

I was having exactly the problem xanatos describes in another answer. I have a class where two Guid values are used to distinguish different objects, and I found I was getting a horrible number of collisions (my Guids are not randomly generated). Here is the code I used to solve the problem. Guid1 and Guid2 are the properties of type Guid that distinguish the objects. The code follows the approach described by Jon Skeet here.

    public override int GetHashCode()
        int hash = 173;
        foreach (Byte b in Guid1.ToByteArray().Concat(Guid2.ToByteArray()))
            hash = hash * 983 + b;
        return hash;

A Guid is a 128-bit number. An int is a 32-bit number, so it can't be "as unique" as the Guid.

Besides, GetHashCode returns ... a hash code, it's not meant to be unique in any way. See other discussions here on SO about why GetHashCode() exists.

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