# Generating unique ID's ( check or not )?

Considering youtube video url (for example):

e.g. :

``````http://www.youtube.com/watch?v=-JVkaMqD5mI&feature=related
``````

I'm talking about the `-JVkaMqD5mI` part. ( length=11)

lets calc the options :

``````a-z = 26     |
A-Z = 26     |_______ >    26+26+10+2 = 64 optional chars in 11 places  = 64^11 = 73786976294838206464
0-9 = 10     |
-_ = 2       |
``````

Im still wondering , when they generate a new ID for a new video , do they still check if already exists ?

Im sure they have some list( db or cache) of the "already generated ID's" ... ( and if they do , do they aquire the db each time ? or in cache ? or...?)

Or do they rely on the `1.355252...e-20` chances which is almost `0`.( but still !=0)

What is the best practice solutions for this kind of situations ?

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Not a reql question....god...When SO will stop register KIDS ....when? –  Royi Namir Sep 23 '12 at 18:38
I have a solution to show you at this answer: stackoverflow.com/questions/8528720/… –  Aristos Dec 23 '12 at 20:29

Well, just because they are using an alphanumeric ID on the video, does not mean they are simply generating those characters at random. Just because that string looks like random garbage to you I assure you it is not random and there is lots of information hidden in there.

So quick answer: No, it is not feasable to generate a random sequence of letters then either a) hope for no collisions or b) check through possibly billions of records to see if you already have that.

Much easier to keep a central "last ID used" and have an algorithm that moves from "last ID used" to "next ID to use" in a way that is mathematically guaranteed to generate a previously unused ID. In the case of sequential ID numbers that formula is simply f(n+1) = f(n)+1 (eg. last ID used was 150, next one will be 151.. guaranteed unused so far) but you can devise your own formulas to suit your needs.

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"check through possibly billions of records to see if you already have that." Why is that unfeasible? –  ypercube Sep 22 '12 at 13:46
most probably a B-tree with a few billion leafs will paginate and eventually have to hit the disk everytime you query it. This will make the operation a few orders of magnitude slower than my proposed alternative. Not saying it can't be done; just that it shoudn't be –  Radu094 Sep 22 '12 at 19:04
@ypercube OK feasible to guess and check for collisions just silly. Use a generator that can create the next unique ID based on the last. E.G. Database Identity or NEWSEQUENTIALID. Why would you use an order n when you can use an order 0. –  Frisbee Sep 22 '12 at 21:34
@ypercube Exactly Identity is not a hash. OP asked what the was that was? Based on inspection you cannot conclude -JVkaMqD5mI is a hash or a sequential ID (or a random ID). Based on statistics you can conclude an 11 length alphanumeric is not a reliable unique hash. Again why go O(n) when you can go O(0)? –  Frisbee Sep 22 '12 at 22:13
@Blam: So, let me understand what you propose. Assuming that the GUID is generated in constant time (`O(1)`) and guaranteed (statistically) to be unique, we can skip checking uniqueness? Just to save a few milliseconds of hitting a unique index? If it is a column in a database table, won't it be stored anyway and certainly indexed? –  ypercube Sep 23 '12 at 21:24

For those purposes, usually something called a hash function is used. It creates a fixed-length data or strings from some other data, which can be any given length or type. It uses some algorithm for that. One example is the one you gave, encoding letters to numbers.

Hash functions are not that simple as they look. There can be a serious mathematical method behind them, and you can try to prove that they are perfect or minimal perfect (which is not that important for this example).

A perfect function is a hash function that cannot generate the same output for any two different imputs. If you have that kind of hash function, you do not have to check for duplicates. If you want to do that, you have to prove that your hash function is perfect.

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just wanted to add that in the presented case, the hash function needs to be bijective aswell.Since one is using the hash in the url to retrieve the video, the servers need to reproduce the original inputs given the hash from the url –  Radu094 Sep 22 '12 at 19:09
How can you conclude -JVkaMqD5mI is a hash. MD5 and GUID are both 32 hexidecimal / 128 bit for statistical uniqueness. I am not buying that youtube has an algorithm for a unique hash that is 11 alphanumeric. –  Frisbee Sep 22 '12 at 20:31
I did not conclude, it is just an presumption. I don't see anything impossible in it, really. –  Aleksandar Stojadinovic Sep 22 '12 at 23:03
Partially correct. A perfect hash function does generate the same output for two different inputs, but it guarantees that the number of those will be constant. Also, it comes with the cost of using a lot of memory. –  Sanja Sep 23 '12 at 14:46