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Custom graph algorithms for Neo4j with own Java and REST APIs

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GraphAware Neo4j Algorithms - RETIRED

Algorithms Have Been Retired

As of August 14th 2016, this module is retiring. This means it will no longer be maintained and released together with new versions of the GraphAware Framework and Neo4j. The last compatible Neo4j version is 3.0.4.

If you're interested in Graph Generators, please use APOC instead. Unlike many other GraphAware modules, nobody is using Algorithms in production, to the best of our knowledge.

This repository will remain public. Please get in touch if you've been using Algorithms (especially the Path Finding part which hasn't been carried over to APOC) and APOC isn't good enough for you.

Introduction

Build Status | Downloads | Javadoc | Latest Release: 3.0.4.43.5

GraphAware Algorithms is a library of graph algorithms for Neo4j.

Getting the Software

Server Mode

When using Neo4j in the standalone server mode, you will need the GraphAware Neo4j Framework and GraphAware Neo4j Algorithms .jar files (both of which you can download here) dropped into the plugins directory of your Neo4j installation. After Neo4j restart, you will be able to use the REST APIs of the Algorithms.

Embedded Mode / Java Development

Java developers that use Neo4j in embedded mode and those developing Neo4j server plugins, unmanaged extensions, GraphAware Runtime Modules, or Spring MVC Controllers can include use the Algorithms as a dependency for their Java project.

Releases

Releases are synced to Maven Central repository. When using Maven for dependency management, include the following dependency in your pom.xml.

<dependencies>
    ...
    <dependency>
        <groupId>com.graphaware.neo4j</groupId>
        <artifactId>algorithms</artifactId>
        <version>3.0.4.43.5</version>
    </dependency>
    ...
</dependencies>

Snapshots

To use the latest development version, just clone this repository, run mvn clean install and change the version in the dependency above to 3.0.4.43.6-SNAPSHOT.

Note on Versioning Scheme

The version number has two parts. The first four numbers indicate compatibility with Neo4j GraphAware Framework. The last number is the version of the Algorithms library. For example, version 2.1.3.10.2 is version 2 of the library compatible with GraphAware Neo4j Framework 2.1.3.10.

Using the Software

Graph Generators

It is often required for testing and implementation to work with a randomly generated graph. Getting one isn't as simple as it sounds - care has to be taken when generating relationships in order to obtain the desired network shape. A lot of research has gone into networks in the past decades; we have taken some of it and implemented a number of random graph generators. For a theoretical introduction, please take a look at the following blog posts:

Java

In order to use the graph generators from Java, get the library following the instructions above and have a look at the Javadoc and tests. This will give you a really good idea of how the generators can be used. Provided implementations include:

  • Erdos-Renyi Model
  • Barabasi-Albert Model
  • Watts-Strogatz Model
  • Configuration Model

You have to choose two things: the shape of the network (one of the models above) and its contents (what labels will nodes get? what properties? what types of relationships will you generate?).

To choose the contents of the network, you can plug in your own implementations of NodeCreator and RelationshipCreator to create nodes and relationships with types, labels, and properties of your choosing. You can use the provided SocialNetworkNodeCreator and SocialNetworkRelationshipCreator to get started quickly.

Cypher

coming soon

REST API

For now, the provided REST API allows you to create social networks only with FRIEND_OF relationships and randomly generated English names and uniformly assigned genders for people nodes.

  • POST to http://your-server:7474/graphaware/algorithm/generator/social/watts-strogatz/{numberOfNodes}/{meanDegree}/{beta} will return a 201 CREATED status when your Watts-Strogatz network has been successfully created. Please refer to WattsStrogatzConfig for explanation of the parameters you need to provide.

  • POST to http://your-server:7474/graphaware/algorithm/generator/social/erdos-renyi/{numberOfNodes}/{numberOfEdges} will return a 201 CREATED status when your Erdos-Renyi network has been successfully created. Please refer to ErdosRenyiConfig for explanation of the parameters you need to provide.

  • POST to http://your-server:7474/graphaware/algorithm/generator/social/barabasi-albert/{numberOfNodes}/{edgesPerNewNode} will return a 201 CREATED status when your Barabasi-Albert network has been successfully created. Please refer to BarabasiAlberConfig for explanation of the parameters you need to provide.

### Path Finding

This library allows to find a given number of shortest paths between two nodes. It is different from standard shortest path finding, because it allows to specify the desired number of results. Provided that there are enough paths between the two nodes in the graph, this path finder will first return all the shortest paths, then all the paths one hop longer, then two hops longer, etc., until enough paths have been returned.

Please note that nodes that are on a path with certain length will not be considered for paths with greater lengths.

For example, given the following graph:

(1)->(2)->(3)
(1)->(4)->(5)->(3)
(4)->(2)

the shortest path from (1) to (3) is (1)->(2)->(3) and has a length of 2. If more paths are needed, the next path returned will be (1)->(4)->(5)->(3) with a length of 3. Note that there is another path of length 3: (1)->(4)->(2)->(3), but it is not returned, since (2)->(3) is contained in a shorter path.

Cypher

coming soon

REST API

When deployed in server mode, issue a POST request to http://your-server-address:7474/graphaware/algorithm/path/increasinglyLongerShortestPath with the following JSON minimal payload

{
     "startNode": 0,
     "endNode": 2
 }

in order to find all paths between nodes with ID 0 and 2, sorted by increasing length.

You can also optionally specify the following:

  • maximum path depth (maxDepth), 3 by default
  • maximum number of results (maxResults), unlimited by default
  • cost property (costProperty), which must be a number-valued relationship property that indicates the cost of the path, none by default
  • sort order (sortOrder):
    • LENGTH_ASC (By increasing length. Ordering of paths with the same lengths is unspecified. This is the default.)
    • LENGTH_ASC_THEN_COST_ASC (By increasing length, then by increasing cost. The cost property must be specified.)
    • LENGTH_ASC_THEN_COST_DESC (By increasing length, then by decreasing cost. The cost property must be specified.)
  • whether to include node labels in the result (includeNodeLabels) set to true or false, default is true
  • which node properties to include in the result (nodeProperties) as an array of Strings, default is all
  • which relationship properties to include in the result (relationshipProperties) as an array of Strings, default is all
  • which relationships to traverse by supplying one of the following (default is all relationships in both directions):
    • the direction in which to traverse relationships (direction), INCOMING, OUTGOING, or BOTH
    • relationship types and directions for each (typesAndDirections array with type and optionally direction)

An example input with most of these parameters would look like this:

{
    "startNode": 0,
    "endNode": 2,
    "costProperty": "cost",
    "sortOrder": "LENGTH_ASC_THEN_COST_DESC",
    "maxDepth": 2,
    "maxResults": 10,
    "includeNodeLabels": true,
    "nodeProperties": [
            "name"
    ],
    "relationshipProperties": [
            "cost"
    ],
    "typesAndDirections": [
        {
            "type": "R1"
        },
        {
            "type": "R2",
            "direction": "INCOMING"
        }

    ]
}

The output depends on the specification, but could look something like this:

[
    {
        "nodes": [
            {
                "id": 0,
                "labels": ["L1", "L2"],
                "name": "one"
            },
            {
                "id": 1,
                "labels": ["L2"],
                "name": "two"
            },
            {
                "id": 2,
                "labels": ["L1", "L2"],
                "name": "three"
            }
        ],
        "relationships": [
            {
                "id": 0,
                "type": "R1",
                "direction": "OUTGOING",
                "cost": 5
            },
            {
                "id": 1,
                "type": "R2",
                "direction": "OUTGOING",
                "cost": 1
            }
        ]
    }
]
Java API

For the Java API, please refer to the Javadoc of NumberOfShortestPathsFinder and PathFinderInput.

License

Copyright (c) 2014-2016 GraphAware

GraphAware is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see http://www.gnu.org/licenses/.

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Custom graph algorithms for Neo4j with own Java and REST APIs

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