42

This seems like a duplicate even as I ask it, but I searched and didn't find it. It seems like a good question for SO -- even though I'm sure I can find it on many blogs etc. out there. SO will have more of a debate than you can get on a blog.

I'm running into an issue with a join: getting back too many records. I think of this as "expansion". I added a table to the set of joins and the number of rows expanded, way too much. Usually when this happens I add a select of all the ID fields that are involved in the join. That way it's pretty obvious where the expansion is happening and I can change the ON of the join to fix it. Except in this case, the table that I added doesn't have an ID field. To me, this is a problem. But perhaps I'm wrong.

The question: should every table in a database have an IDENTITY field that's used as the PK? Are there any drawbacks to having an ID field in every table? What if you're reasonably sure this table will never be used in a PK/FK relationship?

Related, but not duplicate: When having an identity column is not a good idea?

Apparently this debate has been going on for a while. Shoulda known.

This post (surrogate vs. natural keys) is also relevant.

10 Answers 10

60

There are two concepts that are close but should not be confused: IDENTITY and PRIMARY KEY

Every table (except for the rare conditions) should have a PRIMARY KEY, that is a value or a set of values that uniquely identify a row.

See here for discussion why.

IDENTITY is a property of a column in SQL Server which means that the column will be filled automatically with incrementing values.

Due to the nature of this property, the values of this column are inherently UNIQUE.

However, no UNIQUE constraint or UNIQUE index is automatically created on IDENTITY column, and after issuing SET IDENTITY_INSERT ON it's possible to insert duplicate values into an IDENTITY column, unless it had been explicity UNIQUE constrained.

The IDENTITY column should not necessarily be a PRIMARY KEY, but most often it's used to fill the surrogate PRIMARY KEYs

It may or may not be useful in any particular case.

Therefore, the answer to your question:

The question: should every table in a database have an IDENTITY field that's used as the PK?

is this:

No. There are cases when a database table should NOT have an IDENTITY field as a PRIMARY KEY.

Three cases come into my mind when it's not the best idea to have an IDENTITY as a PRIMARY KEY:

  • If your PRIMARY KEY is composite (like in many-to-many link tables)
  • If your PRIMARY KEY is natural (like, a state code)
  • If your PRIMARY KEY should be unique across databases (in this case you use GUID / UUID / NEWID)

All these cases imply the following condition:

You shouldn't have IDENTITY when you care for the values of your PRIMARY KEY and explicitly insert them into your table.

Update:

Many-to-many link tables should have the pair of id's to the table they link as the composite key.

It's a natural composite key which you already have to use (and make UNIQUE), so there is no point to generate a surrogate key for this.

I don't see why would you want to reference a many-to-many link table from any other table except the tables they link, but let's assume you have such a need.

In this case, you just reference the link table by the composite key.

This query:

CREATE TABLE a (id, data)
CREATE TABLE b (id, data)
CREATE TABLE ab (a_id, b_id, PRIMARY KEY (a_id, b_id))
CREATE TABLE business_rule (id, a_id, b_id, FOREIGN KEY (a_id, b_id) REFERENCES ab)

SELECT  *
FROM    business_rule br
JOIN    a
ON      a.id = br.a_id

is much more efficient than this one:

CREATE TABLE a (id, data)
CREATE TABLE b (id, data)
CREATE TABLE ab (id, a_id, b_id, PRIMARY KEY (id), UNIQUE KEY (a_id, b_id))
CREATE TABLE business_rule (id, ab_id, FOREIGN KEY (ab_id) REFERENCES ab)

SELECT  *
FROM    business_rule br
JOIN    a_to_b ab
ON      br.ab_id = ab.id
JOIN    a
ON      a.id = ab.a_id

, for obvious reasons.

  • 2
    I think you make a good point. – jcollum Jul 30 '09 at 17:40
  • On second thought I don't think you really answered the question as a yes/no. I don't care for this idea of using a composite key either. I know it happens in practice, but when building a database I'd prefer to have one field that is a unique PK (and an Identity field makes it easy). That way a change to your schema means only changing the unique index on one table instead of every place that that key is used. – jcollum Jul 30 '09 at 19:47
  • Also, I edited the question to clear up confusion: I do understand the difference between Unique, PK and Identity. – jcollum Jul 30 '09 at 19:48
  • 1
    @jcollum: Changing the values (not speak of layout) of PRIMARY KEY's is a sign of a bad design. The whole point of a PRIMARY KEY is that it never changes. It's what identifies the row. Your PRIMARY KEY is either natural (which means that the it never changes by its nature), or surrogate (which means you don't ever want to change it since it had no meaning from the begin with). A many-to-many link table is an example of a natural PRIMARY KEY. It's as stable as other (possibly surrrogate) PRIMARY KEYs are. – Quassnoi Jul 31 '09 at 18:25
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    @Quassnoi: I think jcollum is describing an auxiliary table that references a_to_b and he does not want to use two columns to do that. There may indeed be scenarios where that makes sense, but I would certainly say they are few and far between--in the usual case, you are absolutely correct that a composite key on {a_id, b_id} is the appropriate model. jcollum's original question betrays him as having only a basic understanding of relational data modeling (which your answer does well to address) and so I suspect that he's not operating in one of the aforementioned scenarios. – samael Aug 4 '09 at 17:41
13

Almost always yes. I generally default to including an identity field unless there's a compelling reason not to. I rarely encounter such reasons, and the cost of the identity field is minimal, so generally I include.

Only thing I can think of off the top of my head where I didn't was a highly specialized database that was being used more as a datastore than a relational database where the DBMS was being used for nearly every feature except significant relational modelling. (It was a high volume, high turnover data buffer thing.)

  • I think it's probably good to note that this is my personal approach (obviously) and I'm not necessarily claiming that it's the right approach. There could quite possible be better philosophies out there. – Greg D Jul 30 '09 at 17:14
  • 4
    Use an artificial key (identity in SQL Server parlance) as the pk if a natural key is not forthcoming. – OMG Ponies Jul 30 '09 at 17:18
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    I've immensely regretted EVERY time I tried to shortcut and avoid having an arbitrary primary key. I'm certain that I will include a non-domain-driven primary key in EVERY database I design from here on... – Will Shaver Jul 30 '09 at 17:25
  • 2
    @Will: I think that this comment deserves an answer of its own; maybe discuss your opinion of non-domain-driven primary keys – jcollum Jul 30 '09 at 17:44
  • I do the other way, I do not add an artificial primary key unless I have to as it creates a new set of functional dependencies and makes the queries more complicated and less efficient if there is an actual primary key. – Pouya BCD Sep 24 '18 at 20:14
10

I'm a firm believer that natural keys are often far worse than artificial keys because you often have no control over whether they will change which can cause horrendous data integrity or performance problems.

However, there are some (very few) natural keys that make sense without being an identity field (two-letter state abbreviation comes to mind, it is extremely rare for these official type abbreviations to change.)

Any table which is a join table to model a many to many relationship probably also does not need an additional identity field. Making the two key fields together the primary key will work just fine.

Other than that I would, in general, add an identity field to most other tables unless given a compelling reason in that particular case not to. It is a bad practice to fail to create a primary key on a table or if you are using surrogate keys to fail to place a unique index on the other fields needed to guarantee uniqueness where possible (unless you really enjoy resolving duplicates).

  • 3
    Amen! Never use a key field if there is any chance ever that it could change. – thursdaysgeek Jul 30 '09 at 17:31
  • 1
    Um, let me clarify that. Never define a field as a primary key if there is any chance that it could change. Using the state code for a primary key is probably ok, but don't use your customer ID. What happens when one buys out another and they merge? – thursdaysgeek Jul 30 '09 at 17:37
  • Yes there are far too many possible natural keys that change very easily and thus very few that actually are suitable for use as a primary key. – HLGEM Jul 30 '09 at 17:54
  • 2
    Assuming that anything will never change in programming is a Bad Idea. – jcollum Jul 30 '09 at 19:50
  • 1
    And you don't want to be changing keys when you have lots of records, I have a table with over 8 million records that is a primary key for 99 other tables. If I used a key that could change instead of a surrogate key, I would have the database locked up every day just propagating changes to the child tables from changes to parent table key. Change is something to be avoided at all costs in database primary keys if you want your system to continue to function. So considering how often the key could change is critical to database design. – HLGEM Jul 30 '09 at 19:59
4

Every table should have some set of field(s) that uniquely identify it. Whether or not there is a numeric identifier field separate from the data fields will depend on the domain you are attempting to model. Not all data easily falls into the 'single numeric id' paradigm, and as such it would be inappropriate to force it. Given that, a lot of data does easily fit in this paradigm and as such would call for such an identifier. There is no one answer to always do X in any programming environment, and this is another example.

  • Give an example of data that can't be modeled as a table that has a unique PK identity with a unique index on the set of fields that make the entry unique vis a vis the domain. I can't think of any. Wow I hope that makes sense; a little sleep deprived here. – jcollum Jul 30 '09 at 19:50
  • @jcollum I wasn't trying to say that it can't be done, but that there are cases where it doesn't necessarily make the most sense to do so. I'm sure that for every case data could be modeled with a single identifier primary key, but in some edge cases, not using a numeric identifier primary case makes more sense. The point I would want to stress is that even though the identity approach makes sense in the majority of cases there are exceptions where this is not the case. As an example, last year I worked on a db with deep hierarchical data where the leaf items had large (multi-gig) tables – Mark Roddy Jul 31 '09 at 3:20
  • OK, after reading what you said I may rephrase the question... this sort of thing is so rarely binary yes/no that it seems dumb to ask the question that way – jcollum Jul 31 '09 at 17:13
  • Agreed, very few design decisions are binary, but there's value in determining what the common case is while acknowledging the edge cases as well. – Mark Roddy Jul 31 '09 at 21:04
4

No. Whenever you have a table with an artificial identity column, you also need to identify the natural primary key for the table and ensure that there is a unique constraint on that set of columns too so that you don't get two rows that are identical apart from the meaningless identity column by accident.

Adding an identity column is not cost free. There is an overhead in adding an unnecessary identity column to a table - typically 4 bytes per row of storage for the identity value, plus a whole extra index (which will probably weigh in at 8-12 bytes per row plus overhead). It also takes slightly to work out the most cost-effective query plan because there is an extra index per table. Granted, if the table is small and the machine is big, this overhead is not critical - but for the biggest systems, it matters.

3

If you have modelled, designed, normalised etc, then you will have no identity columns.

You will have identified natural and candidate keys for your tables.

You may decide on a surrogate key because of the physical architecture (eg narrow, numeric, strictly monotonically increasing), say, because using a nvarchar(100) column is not a good idea (still need unique constraint).

Or because of ideology: they appeal to OO developers I've found.

Ok, assume ID columns. As your db gets more complex, say several layers, how can you jon parent and grand-.child tables directly. You can't: you always need intermediate tables and well indexed PK-FL columns. With a composite key, it's all there for you...

Don't get me wrong: I use them. But I know why I use them...

Edit:

I'd be interested to collate "always ID"+"no stored procs" matches on one hand, with "use stored procs"+"IDs when they benefit" on the other...

1

Yes, for the vast majority of cases.

Edge cases or exceptions might be things like:

  • two-way join tables to model m:n relationships
  • temporary tables used for bulk-inserting huge amounts of data

But other than that, I think there is no good reason against having a primary key to uniquely identify each row in a table, and in my opinion, using an IDENTITY field is one of the best choices (I prefer surrogate keys over natural keys - they're more reliable, stable, never changing etc.).

Marc

  • can you explain the downvote?? What's wrong with my answer? – marc_s Jul 30 '09 at 17:24
  • i hear ya, hate it when people downvote without explaining why, but i've gotten over it now – jcollum Jul 30 '09 at 17:42
1

Recognize the distinction between an Identity field and a key... Every table should have a key, to eliminate the data corruption of inadvertently entering multiple rows that represent the same 'entity'. If the only key a table has is a meaningless surrogate key, then this function is effectively missing.

otoh, No table 'needs' an identity, and certainly not every table benefits from one... Examples are: A table with a short and functional key, a table which does not have any other table referencing it through a foreign Key, or a table which is in a one to zero-or-one relationship with another table... none of these need an Identity

0

I'd say, if you can find a simple, natural key in your table (i.e. one column), use that as a key instead of an identity column.

I generally give every table some kind of unique identifier, whether it is natural or generated, because then I am guaranteed that every row is uniquely identified somehow.

Personally, I avoid IDENTITY (incrementing identity columns, like 1, 2, 3, 4) columns like the plague. They cause a lot of hassle, especially if you delete rows from that table. I use generated uniqueidentifiers instead if there is no natural key in the table.

Anyway, no idea if this is the accepted practice, just seems right to me. YMMV.

  • 3
    What's the downside of having holes in your set of identity values (when a row is deleted)? I don't see one. – jcollum Jul 30 '09 at 17:15
  • Not a whole lot. The problem can occur if you need to keep the incremental items in order (like using the IDENTITY column as both identifier and ordering). Good design, however, minimizes the problems. I just prefer uniqueidentifiers. – Matthew Jones Jul 30 '09 at 17:19
  • 2
    You are aware of the massive performance drawbacks of GUIDs as clustered key in a SQL Server scenario, right? – marc_s Jul 30 '09 at 17:20
0

I can't think of any drawback about having an ID field in each table. Providing your the type of your ID field provides enough space for your table to grow.

However, you don't necessarily need a single field to ensure the identity of your rows. So no, a single ID field is not mandatory.

Primary and Foreign Keys can consist not only of one field, but of multiple fields. This is typical for tables implementing a N-N relationship.

You can perfectly have PRIMARY KEY (fa, fb) on your table:

CREATE TABLE t(fa INT , fb INT);
ALTER TABLE t ADD PRIMARY KEY(fa , fb);

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