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OK, I hope this is an appropriate question for stackoverflow as I'm trying to understand a concept rather than fixing a piece of code that won't work.

I'll take a general example of a form (parent table) and a form field (child table). Logically, this would be an identifying relationship, since a form field cannot exist without a form.

form and form_field tables

This would make me think that in order to translate the logical relationship into the technical relationship, a simple NOT NULL for the form_id field in the form_field table would suffice. (see the left part of above screenshot)

However, when I add an identifying relationship using MySQL Workbench, form_id is not only NOT NULL but also part of the primary key. (see the right part of above screenshot)
And when I add a non-identifying relationship, NOT NULL is still applied so logically it would actually be an identifying relationship as well.

I guess this confuses me a little, as well as the fact that until now I always simply used the id field as primary key.

So I understand the logical concept of identifying vs. non-identifying relationships, but I don't understand the technical part. Why is it, as this answer states, 'the "right" way to make the foreign key part of the child's primary key'? What is the benefit of these composite primary keys?

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Unless the field ids are numbered per form, I don't see any point in including them in the PK. –  Olivier Jacot-Descombes Nov 8 '12 at 18:17

2 Answers 2

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Logically, this would be an identifying relationship, since a form field cannot exist without a form.

No, identifying relationship is about identification, not existence.

Any X:Y relationship where X >= 1 guarantees existence of the left side, whether identifying or not. In your case, a 1:N relationship guarantees existence of form for any given form_field. You could make it identifying or non-identifying and it would still guarantee the same.

Remarks:

  • You would model an identifying relationship by making form_field.form_id part of a key. For example form_field PK could look like: {form_id, label}, which BTW would be quite beneficial for proper clustering of your data (InnoDB tables are always clustered).
  • Just making a PK: {id, form_id} would be incorrect, since this superkey is not a candidate key (i.e. it is not minimal - we could remove form_id from it and still retain the uniqueness).
  • You would model a 0..1:N relationship by making the form_field.form_id NULL-able (but then you wouldn't be able to make it identifying as well - see below).

There are two definitions of the "identifying relationship":

  • Strict definition: A relationship that migrates parent key into child primary key1.
  • Loose definition: A relationship that migrates parent key into child key.

In other words, the loose definition allows migration into alternate key as well (and not just primary).

Most tools2 seem to use the strict definition though, so if you mark the relationship as identifying, that will automatically make the migrated attributes part of the child PK, and none of the PK attributes can be NULL.


1 Which is then either completely comprised from migrated attributes, or is a combination of migrated attributes and some additional attributes.

2 ERwin and Visio do. I haven't used MySQL Workbench for modeling yet, but your description seems to suggest it behaves the same.

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So, if I understand you correctly: - The idea is that the primary key consists of two or more columns. - One of them is the foreign key to the parent table - The other is a column that is unique within all records that share the foreign key to the parent table, but (possibly) not within all records of the table - All of this is simply an alternative to an auto-incremented ID column. –  Nic Nov 8 '12 at 19:42
    
@NicNLD I think you got it, except if natural key exists, it's not strictly an "alternative" to the surrogate key - if a label needs to be unique per form, then you'd have to make a key {form_id, label} in any case. The only question is whether you'll also make a surrogate key id (there are pros and cons for that, as you can imagine). –  Branko Dimitrijevic Nov 8 '12 at 20:03
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@NicNLD "I'd have to make the key {form_id, label} to ensure there are not two duplicate labels in one form, right?" Correct. The sentence from the linked answer: "An identifying relationship is when the existence of a row in a child table depends on a row in a parent table." is incorrect. The same guarantee can be achieved with a non-identifying relationship (as I already mentioned). –  Branko Dimitrijevic Nov 8 '12 at 22:25
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@NicNLD Let me quote ERwin Methods Guide: "In relational terms, a child entity that depends on the foreign key attribute for uniqueness is called a dependent entity" ...and... "If you want the foreign key to migrate to the key area of the child entity (and create a dependent entity as a result), you can create an identifying relationship between the parent and child entities." So this determines where you migrate the key, not whether parent is "1" or "0..1" (although it could imply "1", as I discussed). –  Branko Dimitrijevic Nov 8 '12 at 22:27
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@NicNLD Let me put it in a different way: can you guarantee uniqueness with child fields only, or you have to combine them with fields migrated from the parent? If you have to combine them, this is a dependent (aka. weak) entity and an identifying relationship. This is about identification-dependence, not (directly) existence-dependence. –  Branko Dimitrijevic Nov 8 '12 at 22:42

An identifying relationship is supposed to be one where the primary key includes foreign key attributes. That's why when you designate a relationship as identifying the posted foreign key is deemed to be part of the primary key.

The difference between an "identifying" relationship and a non-identifying one is purely informational or diagrammatic if the same key constraints and nullability constraints apply in each case. The concept is analogous to and a consequence of designating a "primary" key. If a table has more than one candidate key then all other things being equal it doesn't matter from a logical perspective which key is designated the primary one - the form, function and (presumably) the business meaning of the table is the same.

In your example however, the keys in the two tables are NOT the same. In the first case ID is unique in the form_field table while in the second case it apparently isn't. I expect that's not what you intended.

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What do you mean with the second last sentence: the keys in the two tables are NOT the same. In the first case ID is unique in the form_field table while in the second case it apparently isn't? All id fields have an auto-increment, so they should be unique... but perhaps I didn't understand you correctly. –  Nic Nov 8 '12 at 19:53
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@NicNLD You could make id "locally unique" in this scenario. If you chose not to however, then {id, form_id} is not a "good" key (it's not minimal). sqlvogel probably assumed you did the right thing (and made it "locally unique"), which would indeed mean "the keys in the two tables are NOT the same". –  Branko Dimitrijevic Nov 8 '12 at 20:09
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@NicNLD With "locally unique" I simply meant "unique for the same form_id", i.e. you could have the same id for a different form_id. Remember, when you make a composite key, a combination of all fields is unique, not any (proper) subset of fields. If any subset of fields could still guarantee uniqueness, then it would be the key. That's the difference between "superkey" and "candidate key". Any set of fields that guarantees uniqueness is a superkey, but only some of the superkeys are also candidate keys - you should only create PRIMARY KEY and UNIQUE constraints on candidate keys. –  Branko Dimitrijevic Nov 8 '12 at 22:33
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Thanks for the explanation! I'm starting to get a grip on it. In other words, a candidate key is the smallest possible superkey, without losing uniqueness. (this being a redundant description because without uniqueness it wouldn't be a superkey at all) –  Nic Nov 8 '12 at 22:41
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@NicNLD Exactly. –  Branko Dimitrijevic Nov 8 '12 at 22:43

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