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I've read over a number of posts regarding DB table design for a common one-to-many / users-to-friends scenario. One post included the following:


* user_id (primary key)
* username


* user_id (primary key, foreign key to USERS(user_id))
* friend_id (primary key, foreign key to USERS(user_id))

> This will stop duplicates (IE: 1, 2) from happening, but won't stop reversals because (2, 1) is valid. You'd need a trigger to enforce that there's only one instance of the relationship...

The bold portion motivated me to post my question: is there a difference between how SQL Server and MySQL handle these types of composite keys? Do both require this trigger that the poster mentions, in order to ensure uniqueness?

I ask, because up until this point I've been using a similar table structure in SQL Server, without any such triggers. Have I just luckily not run into this data duplication snake that's lurking in the grass?

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Possibly the best username I've ever seen... – gbn Sep 10 '10 at 18:42
Thanks. I take myself VERY seriously... – asfsadf Sep 10 '10 at 18:43
up vote 4 down vote accepted

Yes, all DBMS will treat this the same. The reason is that the DBMS assumes that the column has meaning. I.e., the tuple is not comprised of meaningless numbers. Each attribute has meaning. user_id is assumed to have different meaning than friend_id. Thus, it is incumbent upon the designer to build a rule that claims that 1,2 is equivalent to 2,1.

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Wow, I can't tell you how many examples/tutorials I've seen that don't make any mention at all of this potential data duplicaton. – asfsadf Sep 10 '10 at 18:39
@PolishedTurd - There is no means by which the db could know that it is a duplication. It is the designer that states that they are equivalent. Imagine the two columns were manager_id and subordinate_id. The order makes a difference there. You might have 1,2 for one project and 2,1 for another project. – Thomas Sep 10 '10 at 18:44
This is making a lot more sense now. Man there's a lot of misleading learning material out there. – asfsadf Sep 10 '10 at 18:48

You could just use a check constraint that friend_id > user_id to prevent "reversals". This would enforce that it was not possible to enter a pair such as (2, 1) such a relationship would have to be entered as (1, 2).

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So 1,2 and 2,1 are considered two unique records? Pardon my ignorance. – asfsadf Sep 10 '10 at 18:36
And are they handled the same in both SQL Server and MySQL? – asfsadf Sep 10 '10 at 18:36
Solves the problem but would require some minor hoop jumping in the client code to always put the lower valued id in a specific column. – Thomas Sep 10 '10 at 18:37
Thomas: But do you want to do that check in every instance of the client? I'm talking application code instance--Java, C/C++, .NET, Perl, Ruby, Python... when a check constraint (not supported on MySQL) or trigger would alleviate that dependency & ensure data centrally. – OMG Ponies Sep 10 '10 at 18:43
@OMG Ponies - The check constraint simply enforces the rule. Barring database-side CRUD code (i.e. stored procs), all client-side code would have to have logic that posts the value into the right order which is obviously awkward for the app developers. – Thomas Sep 10 '10 at 18:50

If you friendship relationship is symmetrical, you need to add a CHECK(user_id < friend_id) into the table definition and insert the data like this:

INTO    friends
        (CASE user_id < friend_id THEN user_id ELSE friend_id END),
        (CASE user_id > friend_id THEN user_id ELSE friend_id END)

In SQL Server, you can build a UNIQUE index on a pair of computed columns:

CREATE TABLE friends (orestes INT, pylades INT, me AS CASE WHEN orestes < pylades THEN orestes ELSE pylades END, friend AS CASE WHEN orestes > pylades THEN orestes ELSE pylades END)

CREATE UNIQUE INDEX ux_friends_me_friend ON friends (me, friend)

INTO    friends
VALUES  (1, 2)

INTO    friends
VALUES  (2, 1)
-- Fails

To fetch all friends for a given user, you need to run this query:

SELECT  friend_id
FROM    friends
WHERE   user_id = @myuser
SELECT  user_id
FROM    friends
WHERE   friend_id = @myuser

However, in MySQL, it may be more efficient to always keep each both copies of each pair.

You may find these article interesting:

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True, but MySQL has CHECK constraints which it doesn't enforce on any engine. – OMG Ponies Sep 10 '10 at 18:42
@OMGPonies: of course. But if you always run the query correctly, you won't need the constraint. – Quassnoi Sep 10 '10 at 18:44
That article is great. Thanks. – asfsadf Sep 10 '10 at 18:46

If relationship is symmetrical, then one alternative is to "define" the relationship as asymetrical in the database, but just always add both tuples every time you add either one.

You are basically saying "Nature of friendship is in DB assymetrical, A can be friend to B while B is not friend to A, but application will always add (or remove) BOTH records (a,B) and (B, A) anytime I add (remove) either. That simplifies the query logic as well since you don't have to look in both columns anymore. One extra insert / delete each time you modify data, but fewer reads when querying...

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