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I have a bunch of Xs in a MySQL database. Some Xs do not go together, and I want a table that holds all the pairs of Xs and a boolean that says whether they're OK or not.

This part is simple enough:

CREATE TABLE good_x (
    X_id_1 int(10) not null ,
    X_id_2 int(10) not null ,
    is_good tinyint(1) 
    ) ;

My question is this: Given Xsub1 and Xsub3 go together.

SELECT is_good from good_x where X_id_1 = "Xsub1" and X_id_2 = "Xsub3" ;

But what if the data comes in Xsub3, Xsub1? I could have two entries in the table:

Xsub1,Xsub3,1
Xsub3,Xsub1,1

But then, you have to keep track of two things. In my case, this is a controlled vocabulary so I don't expect much change. But if I want to add a third X, Xsub5, you then get six entries to mess with.

Xsub1,Xsub3,Xsub5,1
Xsub1,Xsub5,Xsub3,1
Xsub3,Xsub1,Xsub5,1
Xsub3,Xsub5,Xsub1,1
Xsub5,Xsub1,Xsub3,1
Xsub5,Xsub3,Xsub1,1

Which is hard to maintain.

Is there a way I can throw in a bunch of Xs, two or more, and associate that with the boolean, so I don't have to have separate tables for doubles, triples, quads, quints, etc. Is this possible in any SQL, and if so, what's the syntax?

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in this case, Xsubx is an id, not the data itself. Just to make that part clear. –  VarLogRant Feb 9 '12 at 17:51
    
Maybe you can sort the id values before looking them up. Then only one row is needed. –  Erik Ekman Feb 9 '12 at 17:56

5 Answers 5

up vote 6 down vote accepted

Store each valid grouping in a table like this:

CREATE TABLE good_x (x_id CHAR, group_id INT);

Seed it with groupings like this:

INSERT INTO good_x(x_id,group_id) values ('Xsub3',1);
INSERT INTO good_x(x_id,group_id) values ('Xsub1',1);

and for 3:

INSERT INTO good_x(x_id,group_id) values ('Xsub3',2);
INSERT INTO good_x(x_id,group_id) values ('Xsub1',2);
INSERT INTO good_x(x_id,group_id) values ('Xsub5',2);

Now run a SELECT like this:

SELECT 1
FROM   good_x
WHERE  x_id IN ([your list of values])
GROUP BY group_id
HAVING count(1) = n;
share|improve this answer
    
I like where you're going with this, it reminded me of things I had forgotten MySQL could do, but I'd likely have a third table, x_group, and then key good_x off x_group.id. I like that. –  VarLogRant Feb 9 '12 at 18:05
    
Note how your solution allows to store not just pairs but groups of arbitrary size. Maybe pair_id could be renamed :) –  9000 Feb 9 '12 at 18:11
    
I'm thinking there must be a better way that all the self-joins, but not sure offhand. –  BD. Feb 9 '12 at 18:14
    
Nice. Extra point if you change them to explicit joins using ON. –  Marcus Adams Feb 9 '12 at 18:18
    
How about the last option? –  BD. Feb 9 '12 at 18:41

I believe you could use the IN clause.

SELECT is_good 
  from good_x 
 where X_id_1 in ("Xsub1","Xsub3","Xsub5")
   and X_id_2 in ("Xsub1","Xsub3","Xsub5") 
   and X_id_3 in ("Xsub1","Xsub3","Xsub5") ; 

And if you don't want the same values in diferent columns, you could add

   and ( X_id_1 <> X_id_2
   and   X_id_1 <> X_id_3
   and   X_id_2 <> X_id_3 )

This, of course, would not be ideal when you have too many columns or different values.

share|improve this answer
    
I'm hoping to make the same basic queries work with up to five x_ids, so I think BD's way is best. But this is useful SQL that my haphazard learning had skipped over. Thank you. –  VarLogRant Feb 9 '12 at 19:12

If you order your Xs somehow (e.g. by their numerical artificial PK), you will only need to store one set of Xs, not all permutations. The cost of it would be the necessity to order Xs before query.

OTOH the query listing 'what is X compatible with' will become more expensive (you'll need 2 indexes and 2 queries).

You can use a totally general solution, like this:

create table compatible (
  group_id number not null,
  x_id number foreign key references x(id),
  primary key (group_id, x_id)
);
create unique index ... on compatible(x_id, group_id)

To store the fact that any number of Xs are compatible, you create as many records in compatible table with the same arbitrary group_id. You can efficiently find whether some items are compatible, querying their group_ids and checking if they match (use exists). You can efficiently find all things that are compatible with particular X. You're not constrained by the size of the group of compatible items, and never care about permutations.

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I see that. It's just that complexity pushed off the SQL table (which I created) is pushed on the client software (which I wrote), and I'm hoping that, in this case, Fred Brooks is wrong and there is a silver bullet. –  VarLogRant Feb 9 '12 at 19:02

A good solution depends a bit on the nature of the is_good relationship and the X values.

If the X values can be ordered, then you can use ordering to store a pairwise relationship with just one record rather than two. Just store min(x1, x2) in x_id_1, and max(x1, x2) in x_id_2 whenever you insert. Then use the same approach when querying over the pairs: select ... where x_id_1 = min(x_sub_1, x_sub_2) and x_id_2 = max(x_sub_1, x_sub_2).

If the is_good relation is symmetric and transitive, and if there is a fairly small and stable set of X values, then an alternative approach might be to use bitwise logic. Each bit represents a distinct X value, and each record in the table contains a bit pattern that denotes that all X bits with a "1" value are in an is_good relationship with each other. Querying would simply involve finding the record with the proper bits set: select ... where x_bitfield & my_query_bitfield = my_query_bitfield.

share|improve this answer
    
in this case, Xs are id codes, which I usually set as int(10). I think I'll go BD's way (will accept once I have code working), in part because it more elegantly handles triples, but it never occurred to me to use min() and max() in the INSERT and WHERE parts of a query. Very hackish, in the best way. Thank you. –  VarLogRant Feb 9 '12 at 19:11

The simplest solution, using your current design, is just ensure that when you store them in the pairs in the database, you store them in order.

For example, for pairs 'Xsub1' and 'Xsub3', store them in order alphabetically. Then when searching for them, you must order them alphabetically in the WHERE clause like this:

SELECT * FROM
good_x
WHERE x_id_1 = 'Xsub1'
AND x_id_2 = 'Xsub3'

This will avoid duplicates and only require a minimum amount of preprocessing.

I think that BD's solution is better, if you don't mind a redesign.

share|improve this answer
    
"But what if the data comes in Xsub3, Xsub1?" I guess we need to know more about this process. –  BD. Feb 9 '12 at 18:07
    
@BD, your solution is better. I edited my answer, but any application can reorder parameters. :) –  Marcus Adams Feb 9 '12 at 18:10
    
I do that elsewhere. Reasonable code for pairs, but it doesn't scale. –  VarLogRant Feb 9 '12 at 19:03

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