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I need some help and guidelines.

I have the following relation: R = {A, B, C, D, E, F} and the set of functional dependencies

F = {
  {AB -> C};
  {A  -> D};
  {D  -> AE};
  {E  -> F};

What is the primary key for R ?

If i apply inference rules i get these additional Function dependencies:

D -> A
D -> E
D -> F

D -> AEF

A -> E
A -> F
A -> DEF

How do I continue?

share|improve this question
I think that A and D are 1-1 equivalent in the scheme. – RBarryYoung Apr 15 '12 at 18:22
This process doesn't necessarily determine a primary key (a single key). ("Primary key" is well on its way to being mainly a SQL concept, and not a relational concept.) This process, correctly applied, will give you a set of candidate keys. How to choose a primary key from a set of candidate keys is not part of the process. – Mike Sherrill 'Cat Recall' Apr 15 '12 at 20:09
Yes, you are right. This process will give you candidate keys :)) – mrjasmin Apr 15 '12 at 20:41

There is a well known algorithm to do this. I don't remember it, but the excercise seems to be simple enough not to use it.

I think this is all about transitivity:

CurrentKey = {A, B, C, D, E, F}

You know D determines E and E determines F. Hence, D determines F by transitivity. As F doesn't determine anything, we can remove it and as E can be obtained from D we can remove it as well:

CurrentKey = {A, B, C, D}

As AB determines C and C doesn't determine anything we know it can't be part of the key, so we remove it:

CurrentKey = {A, B, D}

Finally we know A determines D so we can remove the latter from the key:

CurrentKey = {A, B}

If once you have this possible key, you can recreate all functional dependencies it is a possible key.

PS: If you happen to have the algorithm handy, please post it as I'd be glad to re-learn that :)

share|improve this answer
Thank you so much :) I haven't heard of any algorithm i just know some inference rules that can be used to derive new functional dependencies :)) – mrjasmin Apr 15 '12 at 20:37
@user1285737 No need to thanks, that's what accepting answers is there for :) Anyway, there IS an algorithm that will get you the right result regardless of the complexity of the relations and functional dependencies. I wish I could remember it :'( – Mosty Mostacho Apr 15 '12 at 20:39
hehe I also want to learn the algorithm :(( I – mrjasmin Apr 15 '12 at 20:41
Isn't {B, D} also a Candidate key and therefore can be picked as Primary key ? Thanks – mrjasmin Apr 15 '12 at 22:27
Yes, it is. It is possible to have more than one candidate key, but only one will be the primary key. – Mosty Mostacho Apr 15 '12 at 22:30

Algorithm: Key computation (call with x = ∅)

procedure key(x;A;F)
foreach  ! B 2 F do
if   x and B 2 x and B ̸2  then
return; /* x not minimal */
if x+ = A then
print x; /* found a minimal key x */
X   any element of A 􀀀 x+;
key(x [ fXg;A;F);
foreach  ! X 2 F do
key(x [ ;A;F);
share|improve this answer

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