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I have two tables, SystemVariables and VariableOptions. SystemVariables should be self-explanatory, and VariableOptions contains all of the possible choices for all of the variables.

VariableOptions has a foreign key, variable_id, which states which variable it is an option for. SystemVariables has a foreign key, choice_id, which states which option is the currently selected one.

I've gotten around the circular relationship using use_alter on choice_id, and post_update on SystemVariables' choice relationship. However, I would like to add an extra database constraint that will ensure that choice_id is valid (i.e. it's referring to an option that is referring back to it).

The logic I need, assuming that sysVar represents a row in the SystemVariables table, is basically:

VariableOptions[sysVar.choice_id].variable_id == sysVar.id

But I don't know how to construct this kind of constraint using SQL, declarative, or any other method. If necessary I could just validate this at the application level, but I'd like to have it at the database level if possible. I'm using Postgres 9.1.

Is this possible?

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I think you should remove the [python] tag and add the [database-design] one. –  ypercube Dec 6 '11 at 23:13
1  
Once I get this working with SQLAlchemy, I'm going to post the code as an answer, so I'll leave the [python] tag for other SQLAlchemy users. I'll get rid of [declarative] instead. –  Cam Jackson Dec 6 '11 at 23:24
    
For future readers: See Erwin's answer for the SQL solution, see my answer for the same thing accomplished with SQLALchemy. –  Cam Jackson Dec 7 '11 at 0:01

3 Answers 3

up vote 9 down vote accepted

Actually you can implement that without dirty tricks. Just extend the foreign key referencing the chosen option to include variable_id in addition to choice_id.

Here is a working demo. Temporary tables, so you can easily play with it:

CREATE TEMP TABLE systemvariables (
 variable_id integer PRIMARY KEY
,variable text
,choice_id integer
);

INSERT INTO systemvariables(variable_id, variable) VALUES
 (1, 'var1')
,(2, 'var2')
,(3, 'var3');

CREATE TEMP TABLE variableoptions (
 option_id integer PRIMARY KEY
,option text
,variable_id integer
   REFERENCES systemvariables(variable_id)
   ON UPDATE CASCADE ON DELETE CASCADE
,UNIQUE (option_id, variable_id) -- needed for the foreign key
);

ALTER TABLE systemvariables
ADD CONSTRAINT systemvariables_choice_id_fk
   FOREIGN KEY (choice_id, variable_id)
   REFERENCES variableoptions(option_id, variable_id);

INSERT INTO variableoptions VALUES
 (1, 'var1_op1', 1)
,(2, 'var1_op2', 1)
,(3, 'var1_op3', 1)
,(4, 'var2_op1', 2)
,(5, 'var2_op2', 2)
,(6, 'var3_op1', 3);

So now, choosing an associated option is allowed:

UPDATE systemvariables SET choice_id = 2 WHERE variable_id = 1;
UPDATE systemvariables SET choice_id = 5 WHERE variable_id = 2;
UPDATE systemvariables SET choice_id = 6 WHERE variable_id = 3;

But there is no getting out of line:

UPDATE systemvariables SET choice_id = 7 WHERE variable_id = 3;
UPDATE systemvariables SET choice_id = 4 WHERE variable_id = 1;

ERROR: insert or update on table "systemvariables" violates foreign key constraint "systemvariables_choice_id_fk"
DETAIL: Key (choice_id,variable_id)=(4,1) is not present in table "variableoptions".

Voilá. Exactly what you wanted.


All key columns NOT NULL

I think I found a better solution in this later answer:
SQL: How to deal with mutually recursive inserts

Addressing the question of @yppercube in the comments, if you want to avoid entries with unknown association (all key columns NOT NULL, including foreign keys), you can do that, too.

The circular dependency would normally make that impossible. It's the classical chicken-egg problem: one of both has to be there first to spawn the other. But nature found a way around that, and so did PostgreSQL: deferrable foreign key constraints.

CREATE TEMP TABLE systemvariables (
 variable_id integer PRIMARY KEY
,variable    text
,choice_id   integer NOT NULL
);

CREATE TEMP TABLE variableoptions (
 option_id   integer PRIMARY KEY
,option      text
,variable_id integer NOT NULL
   REFERENCES systemvariables(variable_id)
   ON UPDATE CASCADE ON DELETE CASCADE
   DEFERRABLE INITIALLY DEFERRED
,UNIQUE (option_id, variable_id) -- needed for the foreign key
);

ALTER TABLE systemvariables
ADD CONSTRAINT systemvariables_choice_id_fk
   FOREIGN KEY (choice_id, variable_id)
   REFERENCES variableoptions(option_id, variable_id)
   DEFERRABLE INITIALLY DEFERRED; -- no CASCADING here!

Now, inserting new variables and associated options has to be done together in a transaction:

BEGIN;
INSERT INTO systemvariables VALUES
 (1, 'var1', 2)
,(2, 'var2', 5)
,(3, 'var3', 6);

INSERT INTO variableoptions VALUES
 (1, 'var1_op1', 1)
,(2, 'var1_op2', 1)
,(3, 'var1_op3', 1)
,(4, 'var2_op1', 2)
,(5, 'var2_op2', 2)
,(6, 'var3_op1', 3);
END;

The NOT NULL constraint cannot be deferred, it is enforced immediately. But the foreign key constraint can, because we defined it that way. It is checked at the end of the transaction, thereby offering a solution to the chicken-egg problem.

In this edited scenario, both foreign keys are deferred. You can enter variables and options in arbitrary sequence.

You may have noticed that the first foreign key constraint has no CASCADING option. It would not make sense, you don't want to allow changes to variableoptions.variable_id to cascade back.

On the other hand, the second foreign key has CASCADING options and is defined deferrable nonetheless. This carries some limitations. I quote the manual here:

Referential actions other than the NO ACTION check cannot be deferred, even if the constraint is declared deferrable.

No ACTION is the default.

So, referential integrity checks on INSERT are deferred, but the declared cascading actions on DELETE and UPDATE are not. The following is not permitted in PostgreSQL 9.0 or 9.1, because referential integrity is checked during the UPDATE:

UPDATE option SET var_id = 4 WHERE var_id = 5;
DELETE FROM var WHERE var_id = 5;

Strangely enough, the same thing works in PostgreSQL 8.4, while the documentation claims the same behavior. Looks like a bug in the old version - even if it seems to be beneficial rather than harmful at a first glance. Must have been fixed for the newer versions without changing the docs for 8.4.

share|improve this answer
    
Oh cool, that will work great! Now I just have to go look up compound foreign keys in SQLAlchemy and I'm set :) Thanks! –  Cam Jackson Dec 6 '11 at 5:15
2  
@Erwin: Can all ids be defined as NOT NULL in this scenario? –  ypercube Dec 6 '11 at 22:28
1  
@yppercube: Excellent question. You can easily define variableoptions.variable_id as NOT NULL. Forces you to always enter variables before you can enter associated options. You can also define systemvariables.choice_id as NOT NULL but this requires additional measures. See my amended answer for that. –  Erwin Brandstetter Dec 6 '11 at 22:57
1  
Nice! Deferrable constraints is a (twisted) but valid solution, indeed. –  ypercube Dec 6 '11 at 23:21
    
Lots of useful information here :) I've successfully implemented your SQL using the declarative method of SQLAlchemy's ORM. I'll add the code as (yet another) answer to this question in a moment. –  Cam Jackson Dec 6 '11 at 23:49

EDIT: The 0.7.4 release of SQLAlchemy (released the same day I started asking about this issue, 7/12/'11!), contains a new autoincrement value for primary keys that are also part of foreign keys, ignore_fk. The documentation has also been expanded to include a good example of what I was originally trying to accomplish.

All is now explained well here.

If you want to see the code I came up with before the above release, check the revision history of this answer.

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I really do not like circular references. There is usually a way to avoid them. Here is an approach:

SystemVariables 
---------------
  variable_id 
  PRIMARY KEY (variable_id)


VariableOptions 
---------------
  option_id 
  variable_id 
  PRIMARY KEY (option_id)
  UNIQUE KEY (variable_id, option_id) 
  FOREIGN KEY (variable_id) 
    REFERENCES SystemVariables(variable_id)


CurrentOptions
--------------
  variable_id 
  option_id 
  PRIMARY KEY (variable_id)
  FOREIGN KEY (variable_id, option_id)
    REFERENCES VariableOptions(variable_id, option_id)
share|improve this answer
    
The circular reference doesn't really bother me, and I'd rather have the relationship contained nicely in just two tables. Either way, the compound foreign key is the important part, so yours and Erwin's answers are both valid :) –  Cam Jackson Dec 6 '11 at 22:51
    
If you are happy with having some of your columns - like the systemvariables.choice_id - defined as NULL, then the two approaches are almost the same. –  ypercube Dec 6 '11 at 23:09
    
What if it's easier to delete off of a child, and the information is only written through a transation thus preventing writes where some data is missing, null? dba.stackexchange.com/questions/58949/… –  user1382306 Feb 14 at 22:36

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