Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am trying to develop a database for a website. This website has registered users and these users can befriend other users. Much like any traditional social networking site. Now my problem is, I have to store the friends list of each every user and also his profile information. Each user has his own profile id.Apart from this each user is allowed to create groups for his friends and there is also a status field that says the status of the friendship between the two users. Now to do this i thought of two solutions:-

  1. Maintain a table named profiles, in which each user has a profile id and his other profile information and have a global friends table, that has his profile id and his friends profile id.And the other fields would describe, the group, the user has chosen for the particular friend and a status for their friendship and so on...

  2. Maintain a table named profiles, in which each user has a profile id and his other profile information like above and have a separate friends table for each user that says something like friends_profileid... and each user has his own friends list which has all other information.

Which of the above two techniques is more appropriate ? I am using MySql Server5.0 and i also considered using abstract data types and array types, but thats making the front-end implementation more complex and difficult and combursome. While the first technique is increasing the number of rows in a single table at a very high rate, the second technique is increasing the number of tables to be proportional to the number of users..? what is more advised..? More number of tables or more number of rows..? While the second technique decreases the over head of searching in a single table, what is the overhead of storing the schema again and again..? What is the best method for this type of a situation..? Please help...

share|improve this question

3 Answers 3

up vote 3 down vote accepted

SQL was designed to work with a variable number of rows over a fixed set of relationships.

Problems with 1-table-per-user (just off the top of my head):

  1. Stuck with a bunch of hard-to-access and hard-to-maintain tables. No simple way to run queries spanning multiple users. Limits on query size to try to "decompose" these tables in a single query. Most SQL/ORM layers do not provide a nice way to handle this.
  2. The queries generated would need to be "dynamic" with different tables substituted in. While this wouldn't "change the shape", it is hard/impossible for a static analyzer to know this (perhaps that would introduce the notion of a "template"? -- more complexity. no thanks!). This applies to verifying if SQL DDL/DQL is valid (if such tools are used), removes the ability to use static-generated ORMs without additional work, and places more load on the query processor/analyzer.
  3. Could/would also generally lead to worse query plans and overall performance as in the general case, each table (say 100k? no thanks!) would need to be treated independently with potentially huge lack of logical locality. You may also be pushing on some upper RDBMS limits (on the other hand, tables with 2 million records are "small").

Conclusion: Please use your RDBMS to its strengths -- the world has run on SQL for decades now (at least 2 ;-) and most [trivial] problems have been solved numerous times.

share|improve this answer

You definitely do not need to create an additional, per-user "friends" table. The way that makes sense to me more closely resembles your first solution:

The traditional way to do this, I think, would be to use a join table to create a bidirectional, many-to-many mapping between users. The table would have two columns, both of them foreign keys into the primary key of the users table. An entry in the join table (call it user_friends) represents a "friendship" between two users.

share|improve this answer
    
I agree with you, but consider this: Say i have users 1 and 2, now the user1 may classify the user 2 to be in group A while the user2 classifies 1 to be in B. So obviously, i have to store both the values 1and2 & 2and1 in the user_friends table. Now say i have 1000 users and each has a 50 friends, now the table size would be as big as 50,000 and each time i have to query for the friends list, there would be a huge overhead, and i have to fetch the friends list frequently. The query execution time increases exponentially even for a small database.. is this advisable..? –  sasidhar Dec 13 '10 at 18:53
    
I also have one more thought about this, i don't know if this makes sense at all, but is it advisable to query the same table for fetching the friends list of any given user..? –  sasidhar Dec 13 '10 at 18:56
    
@sasidhar: when you say "traditional social networking site", I think Facebook. On Facebook, friendships are mutual. If A is friends with B then B must also be friends with A; conversely, A cannot be friends with B if B is not friends with A. This limits the size of your table because you only need to list each friendship once. –  Matt Ball Dec 13 '10 at 19:00
    
@sasidhar: re: your 2nd concern about querying the same table - don't worry about performance this early on in the game. You have bigger fish to fry. That said, at the very least, your database should probably be using row-level locks, not table level, which would all but eliminate that problem. –  Matt Ball Dec 13 '10 at 19:02
2  
@sasidhar: 50,000 rows is not a big table. Query time should NOT be exponential. Worst-case a full table scan proceeds in linear time (vs. number of rows); sane case is logN for an index scan. –  derobert Dec 13 '10 at 19:43

Rather than think in terms of tables, think in terms of what your domain objects are, and what the relationships between them look like.

Use this to drive your DB design, and then encapsulate your database structure behind well defined APIs that perform whatever joins are necessary behind the scenes.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.