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If we can get data from two tables without having primary and foreign key relation, then why we need this rule? Can you please explain me clearly, with suitable example? It's a test database, don't mind on the bad structure.

tables' structure:


table - 'test1'
columns - id,lname,fname,dob
no primary and foreign key and also not unique(without any constraints)


**table - 'test2'
columns- id,native_city
again, no relations and no constraints** 

I can still join these tables with same columns 'id', so if there's no primary-foreign key, then what is the use of that?

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Please post your table structure - it will make explaining much easier. – No'am Newman Apr 24 '11 at 14:53
up vote 28 down vote accepted

The main reason for primary and foreign keys is to enforce data consistency.

A primary key enforces the consistency of uniqueness of values over one or more columns. If an ID column has a primary key then it is impossible to have two rows with the same ID value. Without that primary key, many rows could have the same ID value and you wouldn't be able to distinguish between them based on the ID value alone.

A foreign key enforces the consistency of data that points elsewhere. It ensures that the data which is pointed to actually exists. In a typical parent-child relationship, a foreign key ensures that every child always points at a parent and that the parent actually exists. Without the foreign key you could have "orphaned" children that point at a parent that doesn't exist.

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can you pls give practicle example? – user3177068 Jul 24 '14 at 10:44
without primary id test1 could have ''' id:1234 lname:wade fname:ka dob:1/1/1903 id:1234 lname:someone fname:elseWithSameID dob:1/1/1995 id:1234 lname:wade fname:ka dob:1/1/2016 // same person with two different records – pashute Dec 23 '15 at 12:51
without foreign key, test1 could have id:1 lname:Renshaw id:3 lname:kawade. While test2 could have id:1 Brooklyn id:2 Far-Rockaway id:3 Montreal. This would be inconsistent because there is no test1 record with Id of 2. Defining the foreign key in SQL makes it so that you cannot create a test2 record with id 2, if id of value 2 does not exist in test1 as well. Also it does not let you delete a record in test1 with id value of 3 if a record with id of value 3 exists in test2. – pashute Dec 23 '15 at 12:59

No, you can join arbitrary columns.

But having a foreign key ensures that the join will actually succeed in finding something.

Foreign key give you certain guarantees that would be extremely difficult and error prone to implement otherwise.

For example, if you don't have a foreign key, you might insert a detail record in the system and just after you checked that the matching master record is present somebody else deletes it. So in order to prevent this you need to lock the master table, when ever you modify the detail table (and vice versa). If you don't need/want that guarantee, screw the FKs.

Depending on your RDBMS a foreign key also might improve performance of select (but also degrades performance of updates, inserts and deletes)

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You need two columns of the same type, one on each table, to JOIN on. Whether they're primary and foreign keys or not doesn't matter.

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Wouldn't they only need to be the same type in the JOIN expression i.e. A casting and JOINing on the results would be fine too? – Russ Cam Apr 24 '11 at 14:55
ya!then why we need this rule to implement in database??? – kawade Apr 24 '11 at 14:56
@kawade - for relational semantics, constraints and indexes. – Russ Cam Apr 24 '11 at 14:58
Primary and foreign keys are about normalization and referential integrity first, JOIN second. If you don't know why you need a primary key for every row in a table, then you shouldn't be using relational databases. – duffymo Apr 24 '11 at 22:29

I know its late to post, but I use the site for my own reference and so I wanted to put an answer here for myself to reference in the future too. I hope you (and others) find it helpful.

Lets pretend a bunch of super Einstein experts designed our database. Our super perfect database has 3 tables, and the following relationships defined between them:

TblA 1:M TblB
TblB 1:M TblC

Notice there is no relationship between TblA and TblC

In most scenarios such a simple database is easy to navigate but in commercial databases it is usually impossible to be able to tell at the design stage all the possible uses and combination of uses for data, tables, and even whole databases, especially as systems get built upon and other systems get integrated or switched around or out. This simple fact has spawned a whole industry built on top of databases called Business Intelligence. But I digress...

In the above case, the structure is so simple to understand that its easy to see you can join from TblA, through to B, and through to C and vice versa to get at what you need. It also very vaguely highlights some of the problems with doing it. Now expand this simple chain to 10 or 20 or 50 relationships long. Now all of a sudden you start to envision a need for exactly your scenario. In simple terms, a join from A to C or vice versa or A to F or B to Z or whatever as our system grows.

There are many ways this can indeed be done. The one mentioned above being the most popular, that is driving through all the links. The major problem is that its very slow. And gets progressively slower the more tables you add to the chain, the more those tables grow, and the further you want to go through it.

Solution 1: Look for a common link. It must be there if you taught of a reason to join A to C. If it is not obvious, create a relationship and then join on it. i.e. To join A through B through C there must be some commonality or your join would either produce zero results or a massive number or results (Cartesian product). If you know this commonality, simply add the needed columns to A and C and link them directly.

The rule for relationships is that they simply must have a reason to exist. Nothing more. If you can find a good reason to link from A to C then do it. But you must ensure your reason is not redundant (i.e. its already handled in some other way).

Now a word of warning. There are some pitfalls. But I don't do a good job of explaining them so I will refer you to my source instead of talking about it here. But remember, this is getting into some heavy stuff, so this video about fan and chasm traps is really only a starting point. You can join without relationships. But I advise watching this video first as this goes beyond what most people learn in college and well into the territory of the BI and SAP guys. These guys, while they can program, their day job is to specialise in exactly this kind of thing. How to get massive amounts of data to talk to each other and make sense.

This video is one of the better videos I have come across on the subject. And it's worth looking over some of his other videos. I learned a lot from him.

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