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My database design is currently at stage 3NF. The issue that is of concern is the foreign keys and in some cases compound keys.

My question is this and I think the answer is yes due to this link

Yes you can move Keys

That you can move compound keys and/or foreign keys to create other tables provided the attributes associated with the compound keys/foreign keys do not rely on the primary key.

So which lead me to ask is my current normalization stage that i am processing (3NF) actually in (3NF).

I cannot post my tables in regards to this question as i am new and do not have enough points.

Thank you

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2 Answers

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I'm not sure that I understand your question. If you are asking, "Can you have a foreign key in a table without violating 3NF?" the answer is absolutely, positively yes. Nothing about any stage of normalization says that you should eliminate foreign keys. Indeed, it's pretty much impossible to normalize all but the most trivial data without using foreign keys.

** Update **

Okay, maybe now I understand your question, but then I think you've answered it for yourself. Yes, in a fully-normalized DB, you should not have non-key dependencies. If you have FKs that are not dependent on the PK, then they should be moved to another table.

To make a simple example, suppose you want to keep track of people, the city they live in, and the country that that city is in. So for your first draft, you make this structure: (Asterisk marks the PK.)

Person (person_id*, person_name, city_id, country_id)
City (city_id*, city_name)
Country (country_id*, country_name)

This is not normalized. A city is in the same country regardless of what resident of that city we are talking about. Paris is not in France when we are talking about Pierre but in Germany when we are talking about Francois. (If there are two cities with the same name, of course those are different cities and should have different records. I suppose a city could cross national boundaries, but for our purposes here let's assume that if it does, we consider it two cities that happen to touch. They would surely have different city governments, different postal systems, etc.) So we have a non-key dependency. country_id depends on city_id, not on person_id.

So to normalize this schema, we should move the country_id to a table where it is dependent solely on the PK. Presumably, the City table:

Person (person_id*, person_name, city_id)
City (city_id*, city_name, country_id)
Country (country_id*, country_name)
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Hello, this is what i mean I have a table with a primary key and 3 foreign keys. As part of the 3NF process "Remove columns that are not fully dependent upon the primary key". As foreign key2 does not depend on the primary key it depends on foreign key1 so can I move a foreign key 1 and create a copy that key that will remain in the table with the primary key and then move foreign key 2 to that new table with foreign key 1 that acts a the primary key of the newly created table with foreign key 2 that depends on Foreign Key 1 and not the primary key itself. –  user1655231 Sep 7 '12 at 18:28
    
@user1655231: you need to outline your table structure so we can have some idea what you're talking about. You can edit your question and type in a CREATE TABLE statement that gives the key information, or you can simply list the table name and the column names, and identify the foreign key references. You may need to specify the functional dependencies too. –  Jonathan Leffler Sep 7 '12 at 18:43
    
i was going to add the tables as pictures so you can get the concept quicker then list of the 1 to many and 1 to 1 relationships but the 10 points requiremnets stop me. I will write them out after looking at how others have been written out on this site and come back with that format –  user1655231 Sep 7 '12 at 19:36
    
I've updated my answer in response to your comment. –  Jay Sep 11 '12 at 16:09
    
"If you have FKs that are not dependent on the PK, then they should be moved to another table." Thank you ! Tried both avenues of my query. (1) Normalize without moving and (2) Normalize with moving and decided on the moving them model and as no one who answered said "No you cannot move foreign keys". Therefore thought "you can" and did. I did then encounter another problem to which i posted an not to good question so hmm stuck for now will see if i can solve myself. –  user1655231 Sep 11 '12 at 18:46
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Preamble

In pure relational database theory, there is nothing to stop you having composite primary keys (PKs), and you can have foreign keys (FKs) that reference them and those FKs are necessarily composite too. Some software has difficulty with composite keys, so you often find that people add an ID column which contains an automatically generated number, which is then designated as the PK of the table. Other tables can then have (simple) FKs that reference the (simple) ID column. One not uncommon mistake is to forget that the original composite PK is still a candidate key (CK), and its uniqueness should be enforced by the DBMS with a unique constraint on the table; it becomes an alternative key (AK).

Diversion

The system of CKs, AKs and PKs works like this:

  • Every CK is a set of (one or more) columns that is a unique identifier for the data in the rest of each row of data in a table.
  • One CK may be designated as the PK.
  • The other CKs become AKs.

Consider this table:

CREATE TABLE elements
(
    atomic_number   INTEGER NOT NULL PRIMARY KEY
                    CHECK (atomic_number > 0 AND atomic_number < 120),
    symbol          CHAR(3) NOT NULL UNIQUE,
    name            CHAR(20) NOT NULL UNIQUE,
    atomic_weight   DECIMAL(8,4) NOT NULL,
    period          SMALLINT NOT NULL
                    CHECK (period BETWEEN 1 AND 7),
    group           CHAR(2) NOT NULL
                    -- 'L' for Lanthanoids, 'A' for Actinoids
                    CHECK (group IN ('1', '2', 'L', 'A', '3', '4', '5', '6',
                                     '7', '8', '9', '10', '11', '12', '13',
                                     '14', '15', '16', '17', '18')),
    stable          CHAR(1) DEFAULT 'Y' NOT NULL
                    CHECK (stable IN ('Y', 'N'))
);

Each of atomic_number, symbol and name is a candidate key. For chemistry, the symbol is most convenient as the primary key; for physics, the atomic_number is most convenient. The tables related to isotopes etc reference the atomic_number column, but the tables related to chemical compounds reference the symbol column. The three CKs here are all simple; on the other hand, the isotopes table has a compound PK consisting of the atomic number of the element (the number of protons) and the number of neutrons.

Answer

Getting back to your question, your data may well be in 3NF, or more likely BCNF (which is formally stronger than 3NF).

You'd have to show us your table schemas and specify the constraints (functional dependencies, etc) that apply to the columns before we could assess your design. But there is nothing that you've described which, a priori, prevents it from being well normalized.

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+1, Great answer. –  Dave Sep 11 '12 at 16:40
    
Thank you that helped see comments on Jays answer below. In a nutshell tried both concepts moved keys as regarding their dependency. –  user1655231 Sep 11 '12 at 18:53
    
During normalization, it is perfectly kosher to move the columns which constitute a foreign key from one table to another if the foreign key is not determined by the whole primary key on the original table (so it is OK to move FKs around). –  Jonathan Leffler Sep 11 '12 at 19:44
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