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We use GUIDs extensively in our database design; Business Object properties provide Guid.Empty GUIDs for DB null values and null is always saved to the database if the value is Guid.Empty.

Apart from Guid.Empty (00000000-0000-0000-0000-000000000000) how likely is it that a GUID will be generated with all the same characters e. g.: 11111111-1111-1111-1111-111111111111

Just considering using GUIDs like these for specific values.

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very unlikely :D – Arnis L. Jan 28 '10 at 15:25
Even though it's insanely unlikely, surely there's a better design than just using GUIDs for magic numbers?! – Ed Woodcock Jan 28 '10 at 15:27
Here at work, a guy got a duplicate GUID once; he'll never win at lottery, as already spent all his luck – Rubens Farias Jan 28 '10 at 15:30
@Rubens Farias: And the universe still hasn't collapsed? Seriously, there is no such thing as a duplicate GUID. Your co-worker was wrong. (or there's something very wrong with the random number generator of his machine/OS) – Tamas Czinege Jan 28 '10 at 15:33
If the GUID is generated randomly, wouldn't a GUID containing all the same characters be just as likely as one with different characters? Isn't that the definition of random, that all outcomes have the same potential to occur? – Tester101 Jan 28 '10 at 15:50
up vote 64 down vote accepted

In short: For GUID generated according to the published standards and specifications it simply can't happen. A GUID has a structure and some of the fields actually have a meaning. What's more, .NET generates GUIDs of version 4, where it absolutely can't happen. They are defined in a way that there won't be such a GUID. For details, see below ;-)

There are five to seven bits which are the main pitfall here. Those are the version identifier (the first four bits of part three) and the variant field specifying what variant of GUID this is.

The version can be anything between 1 and 5 currently. So the only valid hex digits for which we could get such a GUID at this point are – obviously – 1 through 5.

Let's dissect the versions a little:

  1. MAC address and timestamp. Both are probably hard to coax into all-1 digits.
  2. MAC address and timestamp as well as user IDs. Same as for v1.
  3. MD5 hash. Could possibly even work.
  4. PRNG. Can't ever work since the first digit of the fourth part is always either 8, 9, A or B. This contradicts the 4 for the version number.
  5. SHA-1 hash. Could possibly even work.

So far we ruled out version 4 as impossible, others as highly unlikely. Lets take a look at the variant field.

The variant field specifies some bit patterns for backwards compatibility (x is a don't care), namely:

0 x x Reserved. NCS backward compatibility.
1 0 x The only pattern that currently can appear
1 1 0 Reserved, Microsoft Corporation backward compatibility
1 1 1 Reserved for future definition.

Since this pattern is at the very start of the fourth part, this means that the most significant bit is always set for the very first hex digit of the fourth part. This means that this very digit can never be 1, 2, 3 or 5. Not counting already generated GUIDs, of course. But those with the MSB set to 0 happen to be either v1 or v2. And the timestamp part of those means that they would have to be generated some millenia in the future for that to work out.

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This is the most correct. E.g. if you are using System.Guid it is impossible because the 13th "nibble" will always be 4 and the 17th will always be 8, 9, A, or B – Nick Jan 28 '10 at 15:36
However, he's not just asking specifically for the "all 1" GUID, he just used that as an example. It sounds as though he could potentially uses an all-x guid as well to distinguish different specific values. Not that this really makes this argument any less valid. – Kevin Jan 28 '10 at 15:53
@Kevin: Rewrote from scratch. Assuming GUIDs generated according to the specifications this couldn't have happened so far. – Joey Jan 28 '10 at 15:59
Wow =) +1!!!!!! – Max Galkin Jan 28 '10 at 16:39
Your "answer" is incorrect. A Guid has a finite number of possible values. If you generated an infinite number of Guids, how would you NOT end up with collisions? – Arash Mar 13 '13 at 8:25

Approx 1 in 5,316,911,983,139,663,491,615,228,241,121,400,000

So I think you're safe.


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"so you're saying there's a chance??" - movie quote, couldn't help myself – Martin Jan 28 '10 at 15:30
Dumb and Dumber – Erix Jan 28 '10 at 15:35
-1 - The source states that there is are that many GUID combinations, but GUIDs are not just random numbers, and so thats not the same as the probability of a given GUID existing. – Justin Jan 28 '10 at 15:55
Also, this is wrong on the virtue that there are 15 such GUIDs that meet the criteria, not just 1! :-) – Justin Jan 28 '10 at 15:56
-1 Wrong answer: this is the probability of getting any 1 specific GUID within this specific implementation. – Nick Jan 28 '10 at 16:02

About as likely as any other randomly generated guids will collide. So, highly unlikely.

Though, you may want to rethink using guids to "store" data like that. They are really used to uniquely identify objects and components.

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+1 for "rethink using guids," consider using an enum instead – BlueRaja - Danny Pflughoeft Jan 28 '10 at 15:34
-1 for saying that randomly generated guids are equally likely to collide - GUIDs are generated so that it is impossible for 2 GUIDs to collide except in silly circumstances such two machines with the same MAC address generating GUIDs at the exact same time. – Justin Jan 28 '10 at 15:52
Kragen, I think you misunderstood my point. It is next to impossible for any random GUID to be duplicated, so I was pointing out that there is no difference in probability (apart from the specific cases mentioned by Johannes) that two random generated GUIDs will match and a random guid and 11111111-1111-1111-1111-111111111111 will match. – Kevin Jan 28 '10 at 15:59

Why use a specially designed GUID? Beside the recognizable aspect, why not just use a properly generated GUID? (You know it will be unique, that is the point)

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Your question has already been answered, but I thought I'd be pragmatic here.

1) You will only give yourself 8 "hard-coded" options using this convention.

2) You could just create a real GUID for each these "special" cases instead of hand-cranking them. That way, it is guaranteed to be unique and you'll be able to have more than 8.

That's not a direct answer, I know, but it is probably a sensible suggestion given your intentions.

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+1 for actually allocating a GUID and using it. – John Saunders Jan 28 '10 at 17:43

GUID's are usually generated using an algorithm, rather than being a genuinely random string of hex characters. If you can be sure what algorithm is being used to generate them you can then be sure if the GUIDs you want to use as "magic numbers" are going to collide with generated ones.

The Wikipedia page on GUIDs has a decent amount of information regarding the algorithms that are used, so that may be able to give you a definitive answer. Or, running Reflector over the Guid.NewGuid() method in the .net framework, though based on looking at the reference source for the method this calls out to CoCreateGuid in OLE32.

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Very, very low. The GUID format includes a few bits identifying the scheme. If you'd "generate" them yourselves, the GUID scheme would most likely be wrong.

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For my last company, we used guids as primary keys for tables for all of our databases. In all we instantiated more than 1,000,000,000 objects and never had any issues.

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It's as likely as any other Guid.
If you insert it in the database (even with some special meaning) then you might also ensure that it's unique with an appropriate constraint.

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