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So I was pondering about certain problem involving serialization of objects to relational databases.

Let's say you have N different objects, all implementing a certain interface (a directed graph interface for that matter. they provide methods such as getIncomingNodes() , getOutgoingNodes()).

If each such object has a corresponding table in a relational database, What's the best practice of serializing such a directed graph to a relational database?

Assuming N is small, (in my case, N=3) I decomposed all possible links to be contained in a separate table. For example, A table of links directed from object x to y will be similar to:

tbl_links_X_Y {
int X_id
int Y_id

Problem is , you get N^2 such tables - not very efficient, and could prove difficult to extend in the future to N+1 objects.

Is there any pattern that solves that issue? (even if it does not involve relational databases, I would be happy to hear...)


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Your question is tagged both mysql and postgresql. Which are you using? – eggyal Jun 4 '12 at 12:01
I haven't really committed to any framework. I guess I'll use the one that can solve my problem most efficiently :-) – Protostome Jun 4 '12 at 12:18

You can easily store the class of the objects (table names) in the connection table as well.

tbl_links_X_Y {
int X_id
int Y_id
enum {user, customer, product} X_type
enum {user, customer, product} Y_type

They you would just include this in the where or join clause.

I guess this would not be a strictly relational database, since you can't (?) use/enforce foreign key constraints.

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Would be problematic when you try joins as well. I guess that if you have N different objects, and you want to get all the neighbors of some object, there is no refuge. You have to make O(N) queries... I think the edge-list approach works best. Perhaps with some optimizations it won't be so bad... – Protostome Jun 18 '12 at 14:11

You could also "force" your graph to follow the relational model : ie

Table Graph { integer vertexid, varchar edgelist }

edgelist could be made a delimiter based string: For instance {2,10},{3,12},{4,13} etc where entries are {incident vertex,weight}
That way, the number of rows in your table will be O(n) instead of O(n^2)

Then when your application reads the graph and perform some operation, you would have to build the graph in memory,and do the same.

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up vote 0 down vote accepted

So recently I ran into a NoSQL framework calls OrientDB
That DB engine handles this issue exactly. It is a graph database that has the ability to perform SQL queries and lazy-load object (such as neighboring vertices) that are pointed by another object.

One thing that remains is to compare the performance of this framework to that of a traditional SQL database. (Of course, I'll have to take into account the time it would take for constructing the objects from the raw responses to the query in a traditional SQL database.. )

Once I'll have the results of this comparison i'll post them here.

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Did you get a chance to make this comparison? In your original question,you had asked about mapping a graph structure to a relational model. One thing that should not be overlooked /underestimated is that riding on the strengths of a battle-hardened,well-tested Relational DB like Postgres,and the responsiveness of the associated forums/mailing lists. It's not just the performance-if you are ever debugging corrupted data.. you don't want to find a dead mailing list and that that main guys who developed this, have moved on!! – Arvind Aug 8 '12 at 2:44

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