Guid & GetHashCode uniqueness

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" `Guid`s, like:

``````c482fbe1-9f16-4ae9-a05c-383478ec9d13
c482fbe1-9f16-4ae9-a05c-383478ec9d14
c482fbe1-9f16-4ae9-a05c-383478ec9d15
...
c482fbe1-9f16-4ae9-a05c-383478ec9dff
c482fbe1-9f16-4ae9-a05c-383478ec9e00
c482fbe1-9f16-4ae9-a05c-383478ec9e01
``````

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.

• it should also be noted that GUIDs are not guaranteed to be unique – Muad'Dib Sep 6 '11 at 21:59
• A duplicate GUID is rumored to be generated on December 21st, 2012. – Hans Passant Sep 6 '11 at 22:23
• @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.