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I can't seem to find any discussion on this. I had been imagining a database that was schemaless and node based and heirarchical, and one day I decided it was too common sense to not exist, so I started searching around and neo4j is about 95% of what I imagined.

What I didn't imagine was the concept of relationships. I don't understand why they are necessary. They seem to add a ton of complexity to all topics centered around graph databases, but I don't quite understand what the benefit is. Relationships seem to be almost exactly like nodes, except more limited.

To explain what I'm thinking, I was imagining starting a company, so I create myself as my first nodes:

create (u:User { u.name:"mindreader"});
create (c:Company { c.name:"mindreader Corp"});

One day I get a customer, so I put his company into my db.

create (c:Company { c.name:"Customer Company"});
create (u:User { u.name:"Customer Employee1" });
create (u:User { u.name:"Customer Employee2"});

I decide to link users to their customers

match (u:User) where u.name =~ "Customer.*"
match (c:Company) where c.name =~ "Customer.*
create (u)-[:Employee]->(c);

match (u:User where name = "mindreader"
match (c:Company) where name =~ "mindreader.*"
create (u)-[:Employee]->(c);

Then I hire some people:

match (c:Company) where c.name =~ "mindreader.*"
create (u:User { name:"Employee1"})-[:Employee]->(c)
create (u:User { name:"Employee2"})-[:Employee]->(c);

One day hr says they need to know when I hired employees. Okay:

match (c:Company)<-[r:Employee]-(u:User)
where name =~ "mindreader.*" and u.name =~ "Employee.*"
set r.hiredate = '2013-01-01';

Then hr comes back and says hey, we need to know which person in the company recruited a new employee so that they can get a cash reward for it.

Well now what I need is for a relationship to point to a user but that isn't allowed (:Hired_By relationship between :Employee relationship and a User). We could have an extra relationship :Hired_By, but if the :Employee relationship is ever deleted, the hired_by will remain unless someone remembers to delete it.

What I could have done in neo4j was just have a

(u:User)-[:hiring_info]->(hire_info:HiringInfo)-[:hired_by]->(u:User)

In which case the relationships only confer minimal information, the name.

What I originally envisioned was that there would be nodes, and then each property of a node could be a datatype or it could be a pointer to another node. In my case, a user record would end up looking like:

User {
  name: "Employee1"
  hiring_info: {
    hire_date: "2013-01-01"
    hired_by: u:User # -> would point to a user
  }
}

Essentially it is still a graph. Nodes point to each other. The name of the relationship is just a field in the origin node. To query it you would just go

match (u:User) where ... return u.name, u.hiring_info.hiring_date, u.hiring_info.hired_by.name

If you needed a one to many relationship of the same type, you would just have a collection of pointers to nodes. If you referenced a collection in return, you'd get essentially a join. If you delete hiring_info, it would delete the pointer. References to other nodes would not have to be a disorganized list at the toplevel of a node. Furthermore when I query each user I will know all of the info about a user without both querying for the user itself and also all of its relationships. I would know his name and the fact that he hired someone in the same query. From the database backend, I'm not sure much would change.

I see quite a few questions from people asking whether they should use nodes or relationships to model this or that, and occasionally people asking for a relationship between relationships. It feels like the XML problem where you are wondering if a pieces of information should be its own tag or just a property its parent tag.

The query engine goes to great pains to handle relationships, so there must be some huge advantage to having them, but I can't quite see it.

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2 Answers 2

up vote 2 down vote accepted

Different databases are for different things. You seem to be looking for a noSQL database.

This is an extremely wide topic area that you've reached into, so I'll give you the short of it. There's a spectrum of database schemas, each of which have different use cases.

  • NoSQL aka Non-relational Databases:

    Every object is a single document. You can have references to other documents, but any additional traversal means you're making another query. Times when you don't have relationships between your data very often, and are usually just going to want to query once and have a large amount of flexibly-stored data as the document that is returnedNote: These are not "nodes". Node have a very specific definition and implies that there are edges.)

  • SQL aka Relational Databases:

    This is table land, this is where foreign keys and one-to-many relationships come into play. Here you have strict schemas and very fast queries. This is honestly what you should use for your user example. Small amounts of data where the relationships between things are shallow (You don't have to follow a relationship more than 1-2 times to get to the relevant entry) are where these excel.

  • Graph Database:

    Use this when relationships are key to what you're trying to do. The most common example of a graph is something like a social graph where you're connecting different users together and need to follow relationships for many steps. (Figure out if two people are connected within a depth for 4 for instance)

Relationships exist in graph databases because that is the entire concept of a graph database. It doesn't really fit your application, but to be fair you could just keep more in the node part of your database. In general the whole idea of a database is something that lets you query a LOT of data very quickly. Depending on the intrinsic structure of your data there are different ways that that makes sense. Hence the different kinds of databases.

In strongly connected graphs, Neo4j is 1000x faster on 1000x the data than a SQL database. NoSQL would probably never be able to perform in a strongly connected graph scenario.

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I see what you are saying, but that seems like a shame. Neo4j is so close to what I'm looking for. I just want to put data in and it evolves gradually as my needs become apparent. Mongodb is useless with max document sizes and references to other documents you have to resolve with manual queries. But at the same time it feels like graph databases have purposely designed themselves for niche types of graph data and analysis of it even though it could be more widely applicable at the cost of speed. –  mindreader Dec 7 '13 at 4:05
    
@mindreader Neo4j's purpose in industry is entirely based on that speed. It looks like you might want to use Cassandra instead of Mongo as they don't have maximum document sizes and you can do internal document queries, since it seems like what you're ideally looking for is something where you have relatively large, nested data types with internal references. –  Slater Tyranus Dec 8 '13 at 2:29

Take a look at what we're building right now: http://vimeo.com/81206025

Update: In reaction to mindreader's comment, we added the related properties to the picture: enter image description here

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You are definitely using it in the manner I want to use it. But I'm still unsure why you require lines from type to type in the schema. It seems like it should be from property in a type to another type (or just a list of types in your dropdown in addition to primitives). Still that is quite an accomplishment. –  mindreader Dec 7 '13 at 4:22
    
The lines (or relationships) in the schema graph define relations between the types, like in an E/R model. Nodes of a related type are automatically exposed as properties. Interesting idea to visualize that by showing lines pointing from a property to a related type... –  Axel Morgner Dec 11 '13 at 10:03

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