I am new to Neo4j and have a question:

All I want is to be able to add/update nodes and relationships, have their props immediately indexed, some with fulltext indexing, and everything enclosed in transactions, usable from Python. Is this possible?

I have the following requirements for using Neo4j:

  1. Use it from Python.
  2. Immediate indexing of nodes and their properties.
  3. Immediate indexing of relationships and their properties.
  4. Fulltext indexing of some node/relationships properties.
  5. Adding and population of new indexes for an existing graph.
  6. Several separate read and write calls enclosed in one transaction (with a separate commit or rollback command at the end).

Added 2013-07-02: I'd like to integrate Neo4j with the plone cms, which has multiple transactional databases connected. A user can make a call to the cms, which will in return affect multiple databases. So just because Neo4j hasn't returned an error doesn't mean the transaction should commit - an abort can be caused by an error somewhere else, in another database or piece of code.

From the experiments I have done so far (using neo4j-community-2.0.0-M03) it seems to me:

  • configuring [node|relationship]_auto_index will give me 2,3,4, but not 5. And
    there is only one auto_index for nodes/relationships, so either all of the attributes are fulltext, or none.

  • The label/schema indexes would give me a run-time configurable indexes for 2, but not for 3, as they only work for nodes.

  • The REST API gives me 1,2,3,4, would allow 5 (because I could add existing
    nodes/relationships and their properties to new indexes). It can't do 6, because outside of batches its not transactional. So errors that happen after running the batch could not trigger an abort.

  • The transactional endpoint in combination with auto_indexing and labels/schema gives me 1,2,4,5 (nodes only) and 6, but not 3, because labels/schema only works on nodes. And Cypher doesn't allow adding e.g. relationships to indexes.

My big hope is that I missed something, and all 6 requirements could be fulfilled. Any hints?

  • 5. with auto_indexing, you have to 'touch' properties on existing nodes in order to be indexed, so it can be done (just traverse the graph and do my_node.my_prop_value = my_node.my_prop_value) 6. if you use Gremlin over REST, you can manage the transactions as you want (in a single call). It may be possible to do it with Cypher also, but I'm not very familiar with. – RaduK Jul 3 '13 at 7:59
  • Thanks for the hint on 'touching'. I see how I could first modify the list of auto_index attributes, then touch all nodes. Regarding the transactions - I'd like to mix multiple neo4j calls (read,write) with python logic, and only want to commit at the very end, if no error has occoured on the python side. So commiting one single script wouldn't be enough. – Joerg Baach Jul 3 '13 at 9:01
  • There's a transactional REST interface in the making, which would help you with 6. It's still experimental though. – Thomas Fenzl Jul 3 '13 at 19:06
  • My last point mentions that transaction rest interface - it gives me all but 3. Maybe I need to live with that? – Joerg Baach Jul 3 '13 at 21:54

As mentioned in the comments you need to go with the (currently experimental) transactional REST endpoint. In combination with labels and declarative indexing this solves requirements 1, 2, 5, 6.

Combining this with auto indexing for relationship properties solves 3 and 4. Rebuilding an relationship auto index can be done with cypher:

start r = rels(*) set r.<prop> = r.<prop>

for all autoindexable properties. For larger datasets consider using limit and skip in order to have control over transaction size while indexing.

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