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How would you do a many-to-many association with MongoDB?

For example; let's say you have a Users table and a Roles table. Users have many roles, and roles have many users. In SQL land you would create a UserRoles table.




How is same sort of relationship handled in MongoDB?

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See also answers to this question and this question – Matthew Murdoch Jul 27 '12 at 8:22

3 Answers 3

up vote 49 down vote accepted

Depending on your query needs you can put everything in the user document:


To get all the Engineers, use:

db.things.find( { roles : "Engineer" } );

If you want to maintain the roles in separate documents then you can include the document's _id in the roles array instead of the name:


and set up the roles like:

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The latter would be better since I need to get a list of all available roles. The only bad part is I need to setup both ends of the association then. When doing the SQL way, adding a UserRole will make the User know about the Role and the Role know about the User. This way means I'll have to set the Role on the User, and the User on the Role. I guess that's fine though. – Josh Close Feb 25 '10 at 19:26
sounds relational. You might want to use a relational DB... – DanInDC Mar 3 '10 at 21:49
Just because a database does not support sql does not mean that references are not useful tools NoSQL != NoReference see this explanation: – Tom Gruner Mar 16 '11 at 16:01
I seriously need to adjust after 8 years of RDB design lol – Dmitry Dec 8 '12 at 13:16
This doesn't seem like a good idea. If you only have six roles, sure, but what if you had 20000 objects that could be linked to 20000 more objects (in a many-many relationship)? Even the MongoDB docs hint that you should avoid having mutable, huge arrays of references.… – CaptSaltyJack Feb 1 at 20:07

Instead of trying to model according to our years of experience with RDBMS's, I have found it much easier to model document-repository solutions using MongoDB, Redis, and other NoSQL data stores by optimizing for the read use cases, while being considerate of the atomic write operations that need to be supported by the write use cases.

For instance, the uses of a "Users in Roles" domain follow: 1. Role - Create, Read, Update, Delete, List Users, Add User, Remove User, Clear All Users, Index of User or similar to support "Is User In Role" (operations like a container + its own metadata). 2. User - Create, Read, Update, Delete (CRUD operations like a free-standing entity)

This can be modeled as the following document templates: User: { _id: UniqueId, name: string, roles: string[] } Indexes: unique: [ name ] Role: { _id: UniqueId, name: string, users: string[] } Indexes: unique: [ name ]

To support the high frequency uses, such as Role-related features from the User entity, User.Roles is intentionally denormalized, stored on the User as well as Role.Users having duplicate storage.

If it is not readily apparent in the text, but this is the type of thinking that is encouraged when using document repositories.

I hope that this helps bridge the gap with regard to the read side of the operations.

For the write side, what is encouraged is to model according to atomic writes. For instance, if the document structures require acquiring a lock, updating one document, then another, and possibly more documents, then releasing the lock, likely the model has failed. Just because we can build distributed locks doesn't mean that we are supposed to use them.

For the case of the User in Roles model, the operations that stretch our atomic write avoidance of locks is adding or removing a User from a Role. In either case, a successful operation results in both a single User and a single Role document being updated. If something fails, it is easy to perform cleanup. This is the one reason the Unit of Work pattern comes up quite a lot where document repositories are used.

The operation that really stretches our atomic write avoidance of locks is clearing a Role, which would result in many User updates to remove the from the User.roles array. This operation of clear then is generally discouraged, but if needed can be implemented by ordering the operations:

  1. Get the list of user names from Role.users.
  2. Iterate the user names from step 1, remove the role name from User.roles.
  3. Clear the Role.users.

In the case of an issue, which is most likely to occur within step 2, a rollback is easy as the same set of user names from step 1 can be used to recover or continue.

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in case when employee and company is entity-object try to use following schema:

   //put your contract to employee
   contracts:{ item1, item2, item3,...}

   //and duplicate it in company
   contracts:{ item1, item2, item3,...}
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