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Is it possible to generate (highly probable) unique Integer from GUIDs?

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

int j = BitConverter.ToInt32(Guid.NewGuid().ToByteArray(), 0);

Which one is better?

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Why not just use the GUIDs for whatever purpose you'd be using the 32-bit integers? – JAB May 27 '10 at 14:24
Unique over what domain? I just wrote and executed a program that generates all the 32 bit integers, so you're not going to be able to generate one that I haven't already! – Eric Lippert May 29 '10 at 4:31
if you can forget Guid, then the best way of getting "unique" (100%) is just to have an int variable somewhere and do int++. You are sure to get 2^32 unique values and that's pretty large space too.. – nawfal Mar 31 '13 at 11:52
up vote 20 down vote accepted

Eric Lippert did a very interesting (as always) post about the probability of hash collisions.

You should read it all but he concluded with this very illustrative graphic:

Probability of hash collisions

Related to your specific question, I would also go with GetHashCode since collisions will be unavoidable either way.

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i.e. don't do it. – richard Mar 15 at 1:39

The GetHashCode function is specifically designed to create a well distributed range of integers with a low probability of collision, so for this use case is likely to be the best you can do.

But, as I'm sure you're aware, hashing 128 bits of information into 32 bits of information throws away a lot of data, so there will almost certainly be collisions if you have a sufficiently large number of GUIDs.

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You can remove the "almost" if you take "sufficiently large" to be greater than 2^32. In that case, collision is guaranteed. – phoog May 29 '15 at 22:07

Here is the simplest way:

Guid guid = Guid.NewGuid();
Random random = new Random();
int i = random.Next();

You'll notice that guid is not actually used here, mainly because there would be no point in using it. Microsoft's GUID algorithm does not use the computer's MAC address any more - GUID's are actually generated using a pseudo-random generator (based on time values), so if you want a random integer it makes more sense to use the Random class for this.

Update: actually, using a GUID to generate an int would probably be worse than just using Random ("worse" in the sense that this would be more likely to generate collisions). This is because not all 128 bits in a GUID are random. Ideally, you would want to exclude the non-varying bits from a hashing function, although it would be a lot easier to just generate a random number, as I think I mentioned before. :)

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Perhaps there's a good reason why the OP wants to derive the integer from a GUID. – LukeH May 27 '10 at 11:58
The OP may think there's a good reason to derive an integer from a GUID (namely, in order to ensure uniqueness of the int), but there really isn't. – MusiGenesis May 27 '10 at 12:07
32 bit Integer's and uniqueness is an oxymoron in any case. – Justin May 27 '10 at 12:10
The chance of collision is high with a 32 bit integer as shown in the link of João Angelo's answer. 9300 random 32 bit integers have collision chance of 1% and 77000 have a collision chance of 50%. Hence relying on 32 bit random numbers for uniqueness is an oxymoron. – Justin May 27 '10 at 12:19
Just for the sake of readability: 79,228,162,514,264,337,593,543,950,336. – phoog May 29 '15 at 22:09

Because the GUID space is larger than the number of 32-bit integers, you're guaranteed to have collisions if you have enough GUIDs. Given that you understand that and are prepared to deal with collisions, however rare, GetHashCode() is designed for exactly this purpose and should be preferred.

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A GUID is a 128 bit integer (its just in hex rather than base 10). With .NET 4 use http://msdn.microsoft.com/en-us/library/dd268285%28v=VS.100%29.aspx like so:

// Turn a GUID into a string and strip out the '-' characters.
BigInteger huge = BigInteger.Parse(modifiedGuidString, NumberStyles.AllowHexSpecifier)

If you don't have .NET 4 you can look at IntX or Solver Foundation.

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This works, although one must note that the numbers produced are negative as well see this fiddle: dotnetfiddle.net/B97Fhv. – dotnetguy May 1 at 4:05

In a static class, keep a static const integer, then add 1 to it before every single access (using a public get property). This will ensure you cycle the whole int range before you get a non-unique value.

    /// <summary>
    /// The command id to use. This is a thread-safe id, that is unique over the lifetime of the process. It changes
    /// at each access.
    /// </summary>
    internal static int NextCommandId
            return _nextCommandId++;
    private static int _nextCommandId = 0;

This will produce a unique integer value within a running process. Since you do not explicitly define how unique your integer should be, this will probably fit.

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...until the next time you open app. Or your webserver restarts. Or you're running a distributed application (multiple servers). /obvious (as I'm sure you knew) – drzaus Mar 31 at 14:30

Maybe not integers but small unique keys, anyway shorter then guids:


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If you are looking to break through the 2^32 barrier then try this method:

/// <summary>
/// Generate a BigInteger given a Guid. Returns a number from 0 to 2^128
/// 0 to 340,282,366,920,938,463,463,374,607,431,768,211,456
/// </summary>
    public BigInteger GuidToBigInteger(Guid guid)
        BigInteger l_retval = 0;
        byte[] ba = guid.ToByteArray();
        int i = ba.Count();
        foreach (byte b in ba)
            l_retval += b * BigInteger.Pow(256, --i);
        return l_retval;

The universe will decay to a cold and dark expanse before you experience a collision.

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