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A relation table is the common solution to representing a many-to-many (m:n) relationship.

In the simplest form, it combines foreign keys referencing the two relating tables to a new composite primary key:

A        AtoB     B
----     ----     ----
*id      *Aid     *id
data     *Bid     data

How should it be indexed to provide optimal performance in every JOIN situation?

  1. clustered index over (Aid ASC, Bid ASC) (this is mandatory anyway, I guess)
  2. option #1 plus an additional index over (Bid ASC, Aid ASC)
  3. or option #1 plus an additional index over (Bid ASC)
  4. any other options? Vendor-specific stuff, maybe?
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Nice question, thanks. I'll make a post in my blog out of it. –  Quassnoi May 12 '09 at 9:45
My Google Reader will tell me. :) –  Tomalak May 12 '09 at 9:49
Ah, so you're the other guy! –  Quassnoi May 12 '09 at 9:52

3 Answers 3

up vote 4 down vote accepted

I made some tests, and here is the update:

To cover all possible cases, you'll need to have:


This will cover all JOIN sutiations AND ORDER BY

Note that an index on B is actually sorted on (B, A) since it references clustered rows.

As long as your a and b tables have PRIMARY KEY's on id's, you don't need to create additional indexes to handle ORDER BY ASC, DESC.

See the entry in my blog for more details:

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You still need an index on (B DESC) to use an index for ORDER BY b, a DESC –  Quassnoi May 12 '09 at 9:44
An INDEX (b, a) does not have a benefit? –  Tomalak May 12 '09 at 9:47
INDEX (b) actually is INDEX(b, a, b), since your table is clustered. An index on (b, a) would actually be INDEX (b, a, a, b) which is totally pointless. –  Quassnoi May 12 '09 at 9:51
I see. Thanks for clarifying. I was just thinking along the lines of "if all required data for a given query can be pulled from a singe index, the DB server won't have to touch the table or other indexes". Does that make sense? –  Tomalak May 12 '09 at 9:58
If AB does not contain any other field but A and B, then all indexes I described (including ones on B) contain ALL data the table itself contains. The indexes contain a key and a pointer to the row in the table. Since yor table is clustered, the pointer to the row will be an (A, B) pair and it will be containted in ALL indexes. –  Quassnoi May 12 '09 at 10:03

I guess solution 2 is optimal. I'd choose the order of the clustered index by looking at the values and expecting which one has more distinct rows. That one goes first. Also it's important to have unique or primary key indexes on parent tables.

Depending on DBMS, number 3 might work as good as number 2. It might or might not be smart enough to consider the values (key of clustered index) in the nonclustered index for anything other than refering the the actual row. If it can use it, then number 3 would be better.

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But which one is optimal? 1., 2. or 3.? :) Also, the question is more a general how-to than a specific problem. –  Tomalak May 12 '09 at 9:25
Tomalak: I thought you mean all of them :) Oh, I didn't see #1 + ... I'd choose number 2. –  Mehrdad Afshari May 12 '09 at 9:26
Hm, maybe I have to reformat the question to make that more clear. :) –  Tomalak May 12 '09 at 9:28

I have done some quick and dirty tests by examining the execution plans in SQL server 2005. The plans showed that SQL uses the clustered index on Aid,Bid for most queries. Adding an index on Bid (ASC) shows that it's used for queries of type

select * from A
    inner join AtoB on Aid = A.id
    inner join B on Bid = B.id
where Bid = 1

So I'm voting for solution #3.

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You anticipated what @Quassnoi took the time to track down and explain. +1 in any case. :) –  Tomalak May 13 '09 at 17:28

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