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I'm a software developer. I love to code, but I hate databases.... Currently I'm creating a website on which user will have a functionality to make an entity marked as liked (like in fb), tag it and comment. And I get stuck on database tables design for handling this functionality. Solution is trivial, if we can do this only for one type of thing (eg. photos). But I need to enable this for 5 different things (for now, but I also assume, that this number can grow, as the whole service will grow).

I found some similar questions here, but none have an satisfying answer. So I asked the problem again.

So, the problem is, how properly, efficiently and elastically ;) design the database, to store comments for different tables, likes for different tables and tags for them. Some design pattern as answer will be best ;)

Detailed description: I have table User with some user data, and 3 more tables: Photo with photographs, Articles with articles, Places with places ;) I wan to enable to any logged use to:

  • comment any of those 3 tables

  • mark any of them as liked

  • tag any of them with some tag

  • I also want to count number of likes for every element and number of times that particular tag was used

I approach:

a) For tags, I create table Tag [TagId, tagName, tagCounter], then I create many-to-many relationships tables for: Photo_has_tags, Place_has_tag, Article_has_tag.

b) Analogically for comments.

c) I create a table LikedPhotos [idUser, idPhoto], LikedArticles[idUser, idArticle], LikedPlace [idUser, idPlace]. Number of likes are calculated by queries (which, I assume is bad). And...

I really don't like this design for the last part, it smells badly for me ;)

II approach:

I create table ElementType [idType, TypeName == some table name] which is populated by administrator (me) with the names of tables that can be liked, commented or tagged. Then I create tables:

a) LikedElement [idLike, idUser, idElementType, idLikedElement] and the same for Comments and Tags with the proper columns for each. Now, when I want to make a photo liked a insert:

typeId = select id from ElementType where TypeName == 'Photo' insert (user id, typeId, photoId) and for places: typeId = select id from ElementType where TypeName == 'Place' insert (user id, typeId, placeId)

and so on... I thing that the second approach is better but I also feel that something is missing in this design?

At last, I also wonder which is the best place to store counter for how many times the element was liked? Only two I can thought about are: in element (Photo/Article/Place) table or by select count().

I hope now the I have explained it better.

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Have you considered XML? –  Imray Apr 7 '14 at 16:21

7 Answers 7

up vote 58 down vote accepted

The most extensible solution is to have just one "base" table (connected to "likes", tags and comments), and "inherit" all other tables from it. Adding a new kind of entity involves just adding a new "inherited" table - it then automatically plugs into the whole like/tag/comment machinery.

Entity-relationship term for this is "category" (see the ERwin Methods Guide, section: "Subtype Relationships"). The category symbol is:


Assuming a user can like multiple entities, a same tag can be used for more than one entity but a comment is entity-specific, your model could look like this:

ER Diagram

BTW, there are roughly 3 ways to implement the "ER category":

  • All types in one table.
  • All concrete types in separate tables.
  • All concrete and abstract types in separate tables.

Unless you have very stringent performance requirements, the third approach is probably the best (meaning the physical tables match 1:1 the entities in the diagram above).

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great answer, thank you. I hope, I will manage to implement it... and I wonder how Django ORM will handle to map it (or how I will do that by myself...but, that is the other problem ;) ) But, can you explain me, cause I think I do not understand it properly - what you have drawn for me (thanks!) is the third approach you mentioned? –  Kokos Nov 13 '11 at 17:05
@Kokos Essentially, the approach (3) means that ENTITY is a table, PHOTO is a table, ARTICLE is a table and PLACE is a table. The approach (2) would mean there is no table for ENTITY and the approach (1) would mean there is only one table. The existence of all these approaches (all with their strengths and weaknesses) is the unfortunate consequence of the fact that a typical RDBMS does not support table inheritance natively. –  Branko Dimitrijevic Nov 13 '11 at 17:19
@Orion The maximum for BIGINT is 9223372036854775807. Assuming you insert one row each second, you will run-out of available values in ~300 billion years. Surely, you will be able to port to 128-bit integers by then! –  Branko Dimitrijevic Oct 16 '14 at 13:14
@Orion GUIDs are larger (hurting storage and caching), usually fill B-Trees to a lesser degree (again wasting space and hurting cache) and don't play well with clustering (table clustering not database clustering). They have their place, but probably not here. –  Branko Dimitrijevic Oct 16 '14 at 15:25
@Tresdin Then it looks like you need to keep the hierarchy above, and link from other tables to photos appropriately... As you add support for more features at the entity level, they will "propagate" to photos. –  Branko Dimitrijevic Jun 29 at 6:05

This is a general idea please don´t pay much attention to the field names styling, but more to the relation and structure

enter image description here

This pseudocode will get all the comments of photo with ID 5
SELECT * FROM actions
WHERE actions.id_Stuff = 5
AND actions.typeStuff="photo"
AND actions.typeAction = "comment"

This pseudocode will get all the likes or users who liked photo with ID 5
(you may use count() to just get the amount of likes)

SELECT * FROM actions  
WHERE actions.id_Stuff = 5  
AND actions.typeStuff="photo"  
AND actions.typeAction = "like"  
share|improve this answer
I think you may even like comments, as, clicking a "like" link in a comment. This query will get the likes of a comment(action) with ID 133: SELECT * FROM actions WHERE actions.id=133 AND actions.typeStuff = "comment" AND actions.typeAction = "like" –  user964260 Nov 15 '11 at 3:35
I will definitely remember this solution for further releases of my system :) –  Kokos Nov 19 '11 at 23:09
I have 2 stuff tables stuff1 and stuff2...I followed this diagram but there is sql error while using this...stuff1, stuff2 are two independent tables with their independent primary keys, and action table has a column id_stuff which is referencing to these two tabels stuff1, stuff2. Now for example stuff1 has 5 rows, stuff2 has 10 rows, when I try to add row in action table with id_stuff anything less than 5 lets say '3' it executes query because there exist a row with id_stuff '3' in both stuff1 and stuff2, but if I try to add row with id_stuff greater than 5 ...(continue to next comment) –  vikas devde Apr 10 '13 at 11:22
and less than 10 lets say '7' it shows error because id_stuff in action table is referencing id_stuff in stuff1,stuff2 and even though stuff2 has a row with stuff_id '7', stuff1 doen't have it, and as it is referencing to stuff1 also, it creates an error, how can I solve this problem? –  vikas devde Apr 10 '13 at 11:23
How will the id_stuff column contain unique values in each of three tables? –  volume one Sep 16 '14 at 14:34

Since you "hate" databases, why are you trying to implement one? Instead, solicit help from someone who loves and breathes this stuff.

Otherwise, learn to love your database. A well designed database simplifies programming, engineering the site, and smooths its continuing operation. Even an experienced d/b designer will not have complete and perfect foresight: some schema changes down the road will be needed as usage patterns emerge or requirements change.

If this is a one man project, program the database interface into simple operations using stored procedures: add_user, update_user, add_comment, add_like, upload_photo, list_comments, etc. Do not embed the schema into even one line of code. In this manner, the database schema can be changed without affecting any code: only the stored procedures should know about the schema.

You may have to refactor the schema several times. This is normal. Don't worry about getting it perfect the first time. Just make it functional enough to prototype an initial design. If you have the luxury of time, use it some, and then delete the schema and do it again. It is always better the second time.

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Because I need to implement it by myself. At least for now... and, I thought that maybe it is a good occasion to start liking a databases a little bit ;) Thank you about your suggestion with stored procedure. Do someone know, if they are mapped by Django ORM automatically ? –  Kokos Nov 13 '11 at 16:37
cannot upvote this enough: learn to love your database –  bpgergo Nov 13 '11 at 21:51
I love your last sentence - It is always better the second time. –  Tresdin Jun 26 at 15:26

as far as i understand. several tables are required. There is a many to many relation between them.

  • Table which stores the user data such as name, surname, birth date with a identity field.
  • Table which stores data types. these types may be photos, shares, links. each type must has a unique table. therefore, there is a relation between their individual tables and this table.
  • each different data type has its table. for example, status updates, photos, links.
  • the last table is for many to many relation storing an id, user id, data type and data id.
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More or less... maybe I will explain it better in the next post... –  Kokos Nov 13 '11 at 16:39
if you post your database diagram. i can draw the relation. –  erencan Nov 13 '11 at 16:44

Look at the access patterns you are going to need. Do any of them seem to made particularly difficult or inefficient my one design choice or the other?

If not favour the one that requires the fewer tables

In this case:

  1. Add Comment: you either pick a particular many/many table or insert into a common table with a known specific identifier for what is being liked, I think client code will be slightly simpler in your second case.
  2. Find comments for item: here it seems using a common table is slightly easier - we just have a single query parameterised by type of entity
  3. Find comments by a person about one kind of thing: simple query in either case
  4. Find all comments by a person about all things: this seems little gnarly either way.

I think your "discriminated" approach, option 2, yields simpler queries in some cases and doesn't seem much worse in the others so I'd go with it.

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Consider using table per entity for comments and etc. More tables - better sharding and scaling. It's not a problem to control many similar tables for all frameworks I know.

One day you'll need to optimize reads from such structure. You can easily create agragating tables over base ones and lose a bit on writes.

One big table with dictionary may become uncontrollable one day.

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Definitely go with the second approach where you have one table and store the element type for each row, it will give you a lot more flexibility. Basically when something can logically be done with fewer tables it is almost always better to go with fewer tables. One advantage that comes to my mind right now about your particular case, consider you want to delete all liked elements of a certain user, with your first approach you need to issue one query for each element type but with the second approach it can be done with only one query or consider when you want to add a new element type, with the first approach it involves creating a new table for each new type but with the second approach you shouldn't do anything...

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