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What are the benefits and liabilities of including grandparent+ foriegn keys in a table.

For example, if my object model looks like below. (Greatly simplified, so its not eligable for hiearchical recursive table.)

a {aId, bCollection, ...}
b {bId, cCollection, ...}
c {cId, dCollection, ...}
d {dId}

The two data model options that come to mind are:

option 1:

a {pkA, ...}
b {pkB, fkA, ...}
c {pkC, fkB, ...}
d {pkD, fkC, ...}

option 2:

a {pkA, ...}
b {pkB, fkA, ...}
c {pkC, fkB, fkA, ...}
d {pkD, fkC, fkB, fkA, ...}

Option 1 is more normalized and inserts and updates will be easier but I can see queries getting quite complicated especially with many to many relationships and / or compound keys.

Option 2 complicates the inserts and updates but extracting reports will be easier. Furthermore the database will be larger, but I'm not really concerned with that as it's pretty small anyway.

But those are fairly insignificant concerns compared to the issues that one would have with an ORM like entity framework. I'm leaning toward option 2 because I'd like access the grandchildren directly from the parent like so:

Class A { id, bCollection, cCollection, dCollection, ... }
Class B { id, cCollection, dCollection, ... }
Class C { id, dCollection, ... }
Class D { id, ...}

Does entity framework 4.0 handle this situation gracefully? What are the pros and cons of the two options? Is there another alternative I should consider?

Or more simply, how the heck does one google this kinda question?!?

One other note: Like many of you, must gut and head lean heavily toward option A, but I know I've read an msdn article that goes into great detail about why option B is better. Unfortunately, I can't find it. :(

thanks in advance for your thoughts.

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This "related" question mentions in passing that compound keys are "much much harder to maange"... –  pascal Jan 28 '11 at 15:19

3 Answers 3

up vote 4 down vote accepted

I would avoid option B like the plague. Neither option is substantially more complex to query than the other, but the second option is much more difficult to maintain and is crying out for normalization into the option A.

For querying option A, all you're talking about are adding simple joins. Since this is not a recursive relationship, you must already know up-front how many levels "deep" the query can go, so you don't have to worry about it being brittle or only working for a subset of potential cases.

Compare selecting your deepest case where you're looking for the top-level parent of a deeply-nested node:

Option A:

select
    a.id

from d

join c on c.id = d.c_id
join b on b.id = c.b_id
join a on a.id = b.a_id

where d.id = @id

Option B:

select a_id from d where id = @id

Is Option A more complicated? Yes, but it shouldn't pose a challenge for anyone to figure out what's going on.

As for the compatibility with an EF4, this is not a problem. You can navigate up the chain of parents in a linear fashion to get the grandparent you want. You can either do this in code or in a query; either one will work fine:

In code:

var entity = context.D.Where(d => d.Id == 4).First();
var grandParent = entity.C.B.A;

In a query (using LINQ and joins):

var grandparent = (from d in context.D
                   join c in context.C on d.CId == c.Id
                   join b in context.B on c.BId == b.Id
                   join a in context.A on b.AId == a.Id

                   where d.Id == id

                   select a // or a.Id).First();

In a query (using navigation properties):

var grandparent = (from d in context.D
                  where d.Id == id
                  select d.C.B.A // or d.C.B.A.Id).First();
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If your database is primarily OLTP, I would go with option A. If your reports become an issue, you can create a view or denormalized table to represent option B.

If your database is primarily OLAP, I would go with option B.

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-1. I can't see any justifiable reason for going with Option B. The amount of complexity added for a properly normalized version (Option A) is trivial, and the risk/bad karma involved with Option B is high. –  Adam Robinson Jan 28 '11 at 15:27
    
@Adam: I only recommended option B for an OLAP situation, where I would expect that database/data warehouse would be populated at certain intervals and would remain relatively static. –  Joe Stefanelli Jan 28 '11 at 15:40

I'd say that if the DB has good support for recursive relationships (ie, Oracle is great at this, and several other have specific syntax for these queries), then use recursive (your option A). Otherwise you are going to be stuck several days debugging your code making sure you are updating all the records you need to update when the relationship changes and you need to cascade by hand your changes.

And for Google, use the term "recursive tables", or "recursive queries".

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While it looks like one, this is not a recursive relationship. While it's still a tree, the tree has a defined depth and the steps to get to each level are different. –  Adam Robinson Jan 28 '11 at 15:26
    
Agreed, I believe I think its a tree. I'm not worried about the cascading issue as I think even access will handle this situation effectively. (I'm using SQL 2008 R2) Thanks for the input! –  DanielEli Jan 28 '11 at 15:35

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