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Lets assume that I have N tables for N Bookstores. I have to keep data about books in separate tables for each bookstore, because each table has different scheme (number and types of columns is different), however there are same set of columns which is common for all Bookstores table;

Now I want to create one "MasterTable" with only few columns.

|   MasterTable   |
|id. | title| isbn|     
| 1  | abc  | 123 |


| MasterToBookstores |
|m_id | tb_id | p_id |
| 1   |   1   |  2   |
| 1   |   2   |  1   |


|       BookStore_Foo          |
|p_id| title| isbn| date | size|     
| 1  | xyz  | 456 | 1998 | 3KB |
| 2  | abc  | 123 | 2003 | 4KB |

|       BookStore_Bar                  |
|p_id| title| isbn| publisher | Format |     
| 1  | abc  | 123 |   H&K     |   PDF  |
| 2  | mnh  | 986 |   Amazon  |   MOBI |

My question, is it right to keep data in such way? What are best-practise about this and similar cases? Can I give particular Bookstore table an aliase with number, which will help me manage whole set of tables?

Is there a better way of doing such thing?

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Are the tables for the books on each bookstore on a different database or are they all in the same database? – Lie Ryan Mar 26 '13 at 22:14

I think you are confusing the concepts of "store" and "book".

From you comments and the example data, it appears the problem is in having different sets of attributes for books, not stores. If so, you'll need a structure similar to this:

enter image description here

The symbol: enter image description here denotes inheritance1. The BOOK is the "base class" and BOOK1/BOOK2/BOOK3 are various "subclasses"2. This is a common strategy when entities share a set of attributes or relationships3. For the fuller explanation of this concept, please search for "Subtype Relationships" in the ERwin Methods Guide.

Unfortunately, inheritance is not directly supported by current relational databases, so you'll need to transform this hierarchy into plain tables. There are generally 3 strategies for doing so, as described in these posts:

NOTE: The structure above allows various book types to be mixed inside the same bookstore. Let me know if that's not desirable (i.e. you need exactly one type of books in any given bookstore)...


1 Aka. category, subclassing, subtyping, generalization hierarchy etc.

2 I.e. types of books, depending on which attributes they require.

3 In this case, books of all types are in the many-to-many relationship with stores.

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If you had at least two columns which all other tables use it then you could have base table for all books and add more tables for the rest of the data using the id from Base table.

UPDATE:

If you use entity framework to connect to your DB I suggest you to try this:

Create your entities model something like this:

Entities model

then let entity framework generate the database(Update database from Model) for you. Note this uses inheritance(not in database).

Let me know if you have questions.

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Suggest data model:
1. Have a master database, which saves master data
2. The dimension tables in master database, transtional replicated to your distributed bookstore database
3. You can choose to use updatable scriscriber or merge replication is also a good choice
4. Each distributed bookstore database still work independently, however master data either merge back by merge replication or updatable subscriber.
5. If you want to make sure master data integrity, you can only read-only subscriber, and use transational replication to distribute master data into distributed database, but in this design, you need to have store proceduces in master database to register your dimension data. Make sure there is no double-hop issue.

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I would suggest you to have two tables:

bookStores:

id name someMoreColumns

books:

id bookStore_id title isbn date publisher format size someMoreColumns

It's easy to see the relationship here: a bookStore has many books.

Pay attention that I'm putting all the columns you have in all of your BookStore tables in just one table, even if some row from some table does not have a value to some column.

Why I prefer this way:

1) To all the data from BookStore tables, just few columns will never have a value on table books (as example, size and format if you don't have an e-book version). The other columns can be filled someday (you can set a date to your e-books, but you don't have this column on your table BookStore_Bar, which seems to refer to the e-books). This way you can have much more detailed infos from all your books if someday you want to update it.

2) If you have a bunch of tables BookStore, lets say 12, you will not be able to handle your data easily. What I say is, if you want to run some query to all your books (which means to all your tables), you will have at least three ways:

  • First: run manually the query to each of the 12 tables and so merge the data;

  • Second: write a query with 12 joins or set 12 tables on your FROM clause to query all your data;

  • Third: be dependent of some script, stored procedure or software to do for you the first or the second way I just said;

I like to be able to work with my data as easy as possible and with no dependence of some other script or software, unless I really need it.

3) As of MySQL (because I know much more of MySQL) you can use partitions on your table books. It is a high level of data management in which you can distribute the data from your table to several files on your disk instead of just one, as generally a table is allocated. It is very useful when handling a large ammount of data in a same table and it speeds up queries based on your data distribution plan. Lets see an example:

Lets say you already have 12 distinct bookStores, but under my database model. For each row in your table books you'll have an association to one of the 12 bookStore. If you partition your data over the bookStore_id it will be almost the same as you had 12 tables, because you can create a partition for each bookStore_id and so each partition will handle only the related data (the data that match the bookStore_id).

Lets say you want to query the table books to the bookStore_id in (1, 4, 9). If your query really just need of these three partitions to give you the desired output, then the others will not be queried and it will be as fast as you were querying each separated table.

You can drop a partition and the other will not be affected. You can add new partitions to handle new bookStores. You can subpartition a partition. You can merge two partitions. In a nutshell, you can turn your single table books in an easy-to-handle, multi-storage table.

Side Effects:

1) I don't know all of table partitioning, so it's good to refer to the documentation to learn all important points to create and manage it.

2) Take care of data with regular backups (dumps) as you probably may have a very populated table books.

I hope it helps you!

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