I have a table with this layout:

  FavoriteId uuid NOT NULL PRIMARY KEY,
  UserId uuid NOT NULL,
  RecipeId uuid NOT NULL,
  MenuId uuid

I want to create a unique constraint similar to this:

ADD CONSTRAINT Favorites_UniqueFavorite UNIQUE(UserId, MenuId, RecipeId);

However, this will allow multiple rows with the same (UserId, RecipeId), if MenuId IS NULL. I want to allow NULL in MenuId to store a favorite that has no associated menu, but I only want at most one of these rows per user/recipe pair.

The ideas I have so far are:

  1. Use some hard-coded UUID (such as all zeros) instead of null.
    However, MenuId has a FK constraint on each user's menus, so I'd then have to create a special "null" menu for every user which is a hassle.

  2. Check for existence of a null entry using a trigger instead.
    I think this is a hassle and I like avoiding triggers wherever possible. Plus, I don't trust them to guarantee my data is never in a bad state.

  3. Just forget about it and check for the previous existence of a null entry in the middle-ware or in a insert function, and don't have this constraint.

I'm using Postgres 9.0.

Is there any method I'm overlooking?

  • Why is it that will allow multiple rows with the same (UserId, RecipeId), if MenuId IS NULL? – Drux Jul 22 '18 at 9:29

Create two partial indexes:

CREATE UNIQUE INDEX favo_3col_uni_idx ON favorites (user_id, menu_id, recipe_id)

CREATE UNIQUE INDEX favo_2col_uni_idx ON favorites (user_id, recipe_id)
WHERE menu_id IS NULL;

This way, there can only be one combination of (user_id, recipe_id) where menu_id IS NULL, effectively implementing the desired constraint.

Possible drawbacks: you cannot have a foreign key referencing (user_id, menu_id, recipe_id), you cannot base CLUSTER on a partial index, and queries without a matching WHERE condition cannot use the partial index. (It seems unlikely you'd want a FK reference three columns wide - use the PK column instead).

If you need a complete index, you can alternatively drop the WHERE condition from favo_3col_uni_idx and your requirements are still enforced.
The index, now comprising the whole table, overlaps with the other one and gets bigger. Depending on typical queries and the percentage of NULL values, this may or may not be useful. In extreme situations it might even help to maintain all three indexes (the two partial ones and a total on top).

Aside: I advise not to use mixed case identifiers in PostgreSQL.

  • 1
    @Erwin Brandsetter: regarding the "mixed case identifiers" remark: As long as no double quotes are used, using mixed cased identifiers is absolutely fine. There is no difference in using all lowercase identifiers (again: only if no quotes are used) – a_horse_with_no_name Nov 27 '11 at 22:07
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    @a_horse_with_no_name: I assume you know that I know that. That is actually one of the reasons I advise against it's usage. People who do not know the specifics so well get confused, as in other RDBMS identifiers are (partly) case sensitive. Sometimes people confuse themselves. Or they build dynamic SQL and use quote_ident() as they should and forget to pass identifiers as lower case strings now! Do not use mixed case identifiers in PostgreSQL, if you can avoid it. I have seen a number of desperate requests here stemming from this folly. – Erwin Brandstetter Nov 27 '11 at 22:19
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    @a_horse_with_no_name: Yes, that is of course true. But if you can avoid them: you don't want mixed case identifiers. They serve no purpose. If you can avoid them: don't use them. Besides: they are just plain ugly. Quoted identifies are ugly, too. SQL92 identifiers with spaces in them are a misstep made by a committee. Don't use them. – wildplasser Nov 27 '11 at 22:20
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    @Mike: I think you'd have to talk to the SQL standards committee about that, good luck :) – mu is too short Nov 27 '11 at 22:57
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    @buffer: Maintenance cost and total storage are basically the same (except for a minor fixed overhead per index). Each row is only represented in one index. Performance: If your results span both cases, an additional total plain index may pay. If not, a partial index is typically faster than a complete index, mainly due to the smaller size. Add the index condition to queries (redundantly) if Postgres doesn't figure out it can use a partial index by itself. Example. – Erwin Brandstetter Oct 15 '14 at 23:20

You could create a unique index with a coalesce on the MenuId:

Favorites_UniqueFavorite ON Favorites
(UserId, COALESCE(MenuId, '00000000-0000-0000-0000-000000000000'), RecipeId);

You'd just need to pick a UUID for the COALESCE that will never occur in "real life". You'd probably never see a zero UUID in real life but you could add a CHECK constraint if you are paranoid (and since they really are out to get you...):

alter table Favorites
add constraint check
(MenuId <> '00000000-0000-0000-0000-000000000000')
  • 1
    This carries the (theoretical) flaw, that an entries with menu_id = '00000000-0000-0000-0000-000000000000' can trigger false unique violations - but you already addressed that in your comment. – Erwin Brandstetter Nov 27 '11 at 21:49
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    @muistooshort: Yup, that is a proper solution. Simplify to (MenuId <> '00000000-0000-0000-0000-000000000000') though. NULL is allowed by default. Btw, there is three kinds of people. The paranoid ones, and people who don't do databases. The third kind occasionally posts questions on SO in bewilderment. ;) – Erwin Brandstetter Nov 27 '11 at 23:11
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    @Erwin: Don't you mean "the paranoid ones and the ones with broken databases"? – mu is too short Nov 27 '11 at 23:18
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    Which causes the bewilderment of type 3. :) – Erwin Brandstetter Nov 27 '11 at 23:30
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    This excellent solution makes it very easy to include a null column of a simpler type, such as integer, in a unique constraint. – Markus Pscheidt Sep 25 '15 at 8:53

You can store favourites with no associated menu in a separate table:

CREATE TABLE FavoriteWithoutMenu
  FavoriteWithoutMenuId uuid NOT NULL, --Primary key
  UserId uuid NOT NULL,
  RecipeId uuid NOT NULL,
  UNIQUE KEY (UserId, RecipeId)
  • An interesting idea. It makes inserting a bit more complicated. I would need to check if a row already exists in FavoriteWithoutMenu first. If so, I just add a menu link - otherwise I create the FavoriteWithoutMenu row first and then link it to a menu if necessary. It also makes selecting all the favorites in one query very difficult: I'd have to do something weird like select all the menu links first, and then select all the Favorites whose IDs don't exist within the first query. I'm not sure if I like that. – Mike Christensen Nov 27 '11 at 21:40
  • I don't think inserting as more complicated. If you want to insert a record with NULL MenuId, you insert into this table. If not, to the Favorites table. But querying, yes, it will be more complicated. – ypercubeᵀᴹ Nov 27 '11 at 21:43
  • Actually scratch that, selecting all favorites would just be a single LEFT join to get the menu. Hmm yea this might be the way to go.. – Mike Christensen Nov 27 '11 at 21:44
  • The INSERT becomes more complicated if you want to add the same recipe to more than one menu, since you have a UNIQUE constraint on UserId/RecipeId on FavoriteWithoutMenu. I'd need to create this row only if it didn't exist already. – Mike Christensen Nov 27 '11 at 21:48
  • We might be talking about two different things. I interpreted your answer as normalizing the relationships between favorites and menus. Favorites would be the set of recipes a user has favorited. Menus would be an optional link between a favorite and a menu. Null menus would simply have no row in the Menus table. – Mike Christensen Nov 27 '11 at 21:50

I think there is a semantic problem here. In my view, a user can have a (but only one) favourite recipe to prepare a specific menu. (The OP has menu and recipe mixed up; if I am wrong: please interchange MenuId and RecipeId below) That implies that {user,menu} should be a unique key in this table. And it should point to exactly one recipe. If the user has no favourite recipe for this specific menu no row should exist for this {user,menu} key pair. Also: the surrogate key (FaVouRiteId) is superfluous: composite primary keys are perfectly valid for relational-mapping tables.

That would lead to the reduced table definition:

( UserId uuid NOT NULL REFERENCES users(id)
, MenuId uuid NOT NULL REFERENCES menus(id)
, RecipeId uuid NOT NULL REFERENCES recipes(id)
, PRIMARY KEY (UserId, MenuId)
  • 2
    Yea this is right. Except, in my case I want to support having a favorite that doesn't belong to any menu. Imagine it like your Bookmarks in your browser. You might just "bookmark" a page. Or, you could create sub-folders of bookmarks and title them different things. I want to allow users to favorite a recipe, or create sub-folders of favorites called menus. – Mike Christensen Nov 27 '11 at 23:32
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    As I said: it is all about semantics. (I was thinking about food, obviously) Having a favourite "that does not belong to any menu" makes no sense to me. You cannot favour something that does not exist, IMHO. – wildplasser Nov 27 '11 at 23:36
  • Seems like some db normalization could help. Create a second table that relates recipes to menus (or not). Though it generalizes the problem and allows for more than one menu that a recipe could be part of. Regardless, the question was about unique indexes in PostgreSQL. Thanks. – Chris Jul 19 '18 at 16:14

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