The DDL statements could look like this:
CREATE TABLE product(
product_id serial PRIMARY KEY -- implicit primary key constraint
,product text NOT NULL
,price numeric NOT NULL DEFAULT 0
CREATE TABLE bill(
bill_id serial PRIMARY KEY
,bill text NOT NULL
,billdate date NOT NULL DEFAULT now()::date
CREATE TABLE bill_product(
bill_id integer references bill (bill_id) ON UPDATE CASCADE ON DELETE CASCADE
,product_id integer references product (product_id) ON UPDATE CASCADE
,amount numeric NOT NULL DEFAULT 1
,CONSTRAINT bill_product_pkey PRIMARY KEY (bill_id,product_id) -- explicit pk
I made a few adjustments:
I added surrogate primary keys of type serial. I would highly recommend that, because the name of a product is hardly unique. Also, the handling of a 4-Byte integer is much cheaper than the handling of a string.
I am not sure what the "name" of a
bill would be. Maybe the
bill_id can be the "name".
The n:m relationship is normally implemented by a separate table -
bill_product in this case.
"name" is not a good name. I renamed the "name" column of the table
product to be
product. That is a better naming convention IMO. Otherwise, when you join a couple of tables in a query - which you have to do a lot in a relational database - you end up with multiple columns named "name". And that's not helpful.
The amount ("products" in your question) goes into the
bill_product table and is of type
numeric to store fractional numbers precisely. If you deal with whole numbers exclusively, make that an
Don't use a type name like
date as identifier. While this is possible, it is bad style and leads to confusing errors and error messages. Also never use any reserved words as identifiers.
Use lower case identifiers. Avoid mixed case identifiers if you can.
You see the foreign keys in
bill_product? I create them to cascade changes, so if a
product_id should change, the change is cascaded to all depending entries in
bill_product and nothing breaks.
I also made it to
CASCADE DELETEs for bills: If you delete a bill, the details are deleted with it.
Not so for products: You don't want to delete a product that's used in a bill. PostgreSQL will throw an error if you attempt this.
All columns in this basic example end up to be
NOT NULL, so
NULL values are not allowed. (Yes, all columns - columns used in a primary key are defined
UNIQUE NOT NULL automatically.) That's because
NULL values in any of the columns would not make sense. It also makes a beginner's life easier, because
NULL handling needs to be understood. Additional columns might allow
NULL values ...
Be sure to read the chapter on
CREATE TABLE in the manual.