I would like to have some explaination about the characteristics of a primary key in the table of such database.This is for vb 2008 express edition,since im new to this language,if this is true, as far as i understand about the characteristic in setting the primary key on each field for true.My question is if you are doing an updates/edit records in your table using the DataContext,if you setup the primary key for true of one of your field in the table it would edit all records in one datarow but if you put the primary key for true in all fields except one of them,all the records in the data column of that field which primary key is false could be edited.Basically its impossible to edit all records in the datarow and all the records in the datacolumn of the table in such one event.
Is there any further explaination about the characteristics of primary key in the table?
The purpose of the primary key in a database table is to identify the field (or fields) that make up a value that uniquely identifies each record on the table. A typical examples are CustomerID in a Customer table; each customer is given a unique ID, and this ID can be used to link the customer into other tables (such as an order table).
Sometimes there are tables where not one single field will contain a unique value for each record. In such cases more than one field can be set as the primary key. In those cases, the combination of values in the primary key fields should always be unique.
So, on the database level, this is not related to the possibility to edit the field or not.
Of course, wikipedia has some content on the subject.
Related
One of the values to be inserted into a table is a foreign key. I need to figure out how to, inside the CHECK clause, check if a value in another table is equal to a specific value using the foreign key (which is unique in the other table).
Example Diagram
As an example, the MonkeySpecies table has a unique primary key. I need to make it so that the Monkey table can only be added to if the SpeciesID in the MonkeySpecies table is not 'extinct'.
I am a newbie at SQL/PostgreSQL, and I had a conceptual question about foreign keys and keys in general:
Let's say I have two tables: Table A and Table B.
A has a bunch of columns, two of which are A.id, A.seq. The primary key is btree(A.id, A.seq) and it has a foreign key constraint that A.id references B.id. Note that A.seq is a sequential column (first row has value 1, second has 2, etc).
Now say B has a bunch of columns, one of which is the above mentioned B.id. The primary key is btree(B.id).
I have the following questions:
What exactly does btree do? What is the significance of having two column names in the btree rather than just one (as in btree(B.id)).
Why is it important that A references B instead of B referencing A? Why does order matter when it comes to foreign keys??
Thanks so much! Please correct me if I used incorrect terminology for anything.
EDIT: I am using postgres
A btree index stored values in sorted order, which means you can not only search for a single primary key value, but you can also efficiently search for a range of values:
SELECT ... WHERE id between 6060842 AND 8675309
PostgreSQL also supports other index types, but only btree is supported for a unique index (for example, the primary key).
In your B table, the primary key being a single column id means that only one row can exist for each value in id. In other words, it is unique, and if you search for a value by primary key, it will find at most one row (it may also find zero rows if you don't have a row with that value).
The primary key in your A table is for (id, seq). This means you can have multiple rows for each value of id. You can also have multiple rows for each value of seq as long as they are for different id values. The combination must be unique though. You can't have more than one row with the same pair of values.
When a foreign key in A references B, it means that the row must exist in B before you are allowed to store the row in A with the same id value. But the reverse is not necessary.
Example:
Suppose B is for users and A is for phones. You must store a user before you can store a phone record for that user. You can store one or more phones for that user, one per row in the A table. We say that a row in A therefore references the user row in B, meaning, "this phone belongs to user #1234."
But the reverse is not restricted. A user might have no phones (at least not known to this database), so there is no requirement for B to reference A. In other words, it is not required for a user to have a phone. You can store a row in B (the user) even if there is no row in A (the phones) for that user.
The reference also means you are not allowed to DELETE FROM B WHERE id = ? if there are rows in another table that reference that given row in B. Deleting that user would cause those other rows to become orphaned. No one would be able to know who those phones belonged to, if the user row they reference is deleted.
To your questions:
There are several strategies to implement unique keys. The most common one is to use an index that is "unique" using a "b-tree" strategy. That's what "btree" means in PostgreSQL.
Having two columns in a key just depends on how you want to design your table. When you have a key with more than one column that is called a "composite key".
When A references B, the columns in B must represent a "key". The columns in A do not represent a key, but just a reference to one. In fact the values in A for that column can be repeated; that is, multiple rows in A can point to the same row in B.
Your data structure makes no sense. Why would the primary key of A haver both id and name? Normally it would just be id. In some data models, you might have a version or timestamp added. I can't think of a reasonable data model where name would also be included.
In addition, B's foreign key would have to be to both id and name.
But, your question is what is btree for? Most databases don't have such an option. A primary key would typically be expressed as:
id int primary key;
constraint unq_t_id primary key (id);
btree is a type of index -- in fact the default type of index in all databases that I'm aware of. Databases that have a plethora of available types of indexes -- such as Postgres -- you can specify the index type associated with the primary key.
Sometimes, there are certain tables in an application with only one column in each of them. Data of records within the respective columns are unique. Examples are: a table for country names, a table for product names (up to 60 characters long, say), a table for company codes (3 characters long and determined by the user), a table for address types (say, billing, delivery), etc.
For tables like these, as the records are unique and not null, the only column can be used as the primary key, technically speaking.
So my question is, is it good enough to use that column as the primary key for the table? Or, is it still desirable to add another column (country_id, product_id, company_id, addresstype_id) as the primary key for the table? Why?
Thanks in advance for any advice.
there is always a debate between using surrogate keys and composite keys as primary key. using composite primary keys always introduces some complexity to your database design so to your application.
think that you have another table which is needed to have direct relationship between your resulting table (billing table). For the composite key scenario you need to have 4 columns in your related table in order to connect with the billing table. On the other hand, if you use surrogate keys, you will have one identity column (simplicity) and you can create unique constraint on (country_id, product_id, company_id, addresstype_id)
but it is hard to say this approach is better then the other one because they both have Pros and Cons.
You can check This for more information
This may seem like a simple question, but I am stumped:
I have created a database about cars (in Oracle SQL developer). I have amongst other tables a table called: Manufacturer and a table called Parentcompany.
Since some manufacturers are owned by bigger corporations, I will also show them in my database.
The parentcompany table is the "parent table" and the Manufacturer table the "child table".
for both I have created columns, each having their own Primary Key.
For some reason, when I inserted the values for my columns, I was able to use the same value for the primary key of Manufacturer and Parentcompany
The column: ManufacturerID is primary Key of Manufacturer. The value for this is: 'MBE'
The column: ParentcompanyID is primary key of Parentcompany. The value for this is 'MBE'
Both have the same value. Do I have a problem with the thinking logic?
Or do I just not understand how primary keys work?
Does a primary key only need to be unique in a table, and not the database?
I would appreciate it if someone shed light on the situation.
A primary key is unique for each table.
Have a look at this tutorial: SQL - Primary key
A primary key is a field in a table which uniquely identifies each
row/record in a database table. Primary keys must contain unique
values. A primary key column cannot have NULL values.
A table can have only one primary key, which may consist of single or
multiple fields. When multiple fields are used as a primary key, they
are called a composite key.
If a table has a primary key defined on any field(s), then you cannot
have two records having the same value of that field(s).
Primary key is table-unique. You can use same value of PI for every separate table in DB. Actually that often happens as PI often incremental number representing ID of a row: 1,2,3,4...
For your case more common implementation would be to have hierarchical table called Company, which would have fields: company_name and parent_company_name. In case company has a parent, in field parent_company_name it would have some value from field company_name.
There are several reasons why the same value in two different PKs might work out with no problems. In your case, it seems to flow naturally from the semantics of the data.
A row in the Manufacturers table and a row in the ParentCompany table both appear to refer to the same thing, namely a company. In that case, giving a company the same id in both tables is not only possible, but actually useful. It represents a 1 to 1 correspondence between manufacturers and parent companies without adding extra columns to serve as FKs.
Thanks for the quick answers!
I think I know what to do now. I will create a general company table, in which all companies will be stored. Then I will create, as I go along specific company tables like Manufacturer and parent company that reference a certain company in the company table.
To clarify, the only column I would put into the sub-company tables is a column with a foreign key referencing a column of the company table, yes?
For the primary key, I was just confused, because I hear so much about the key needing to be unique, and can't have the same value as another. So then this condition only goes for tables, not the whole database. Thanks for the clarification!
I have column having name id in my table. id is the primary key in table. I want to know that is it necessary to have separate column for id as it is primary key in my table.
Not necessary to have a separate column, you could have an existing column as primary key if it can identify each record uniquely..
Any field or combination of fields can be a primary key if:
The values in those fields are always non-null.
The records with values in those fields are unique.
Those fields are immutable. That is, you won't change the values of those fields
after the record is created.
It's always better to keep things simple. If you already have a column that identifies the record it's just fine - don't add a new one.
There is also something called composite primary keys. You can use it if a combination of 2 or more columns always creates a unique sequence. Than you don't really need the 'Id' column. The truth though is some frameworks don't like this approach.
In your case the column you already have should be sufficient.
The PRIMARY KEY constraint uniquely identifies each record in a database table and if your table already contain that column then u don't need to add another column.