I have a fairly large graph (currently 3806702 vertices and 7774654 edges, all edges with the same label) in JanusGraph. I am interested in shortest path searches in it. Gremlin recipes mention this query:
g.V(startId).until(hasId(targetId)).repeat(out().simplePath()).path().limit(1)
This returns path that I know to be a correct one immediately but then hangs the console (top
shows janusgraph and scylla to be processing stuff furiously though, so I guess it's working in the background, but it takes forever). It does the right thing and returns first (correct) shortest path if used like this:
g.V(startId).until(hasId(targetId)).repeat(out().simplePath()).path().next()
I would like to limit this query so that gremlin/janusgraph stops searching for path over, let's say, 100 hops (so I want max depth of 100 edges basically). I have tried to use .times(100)
in multiple positions but if .until()
is used with .times()
in the same query it always crashes with a NullPointerException in gremlin traversal classes, ie:
java.lang.NullPointerException
at org.apache.tinkerpop.gremlin.process.traversal.util.TraversalHelper.hasStepOfAssignableClassRecursively(TraversalHelper.java:351)
at org.apache.tinkerpop.gremlin.process.traversal.strategy.optimization.RepeatUnrollStrategy.apply(RepeatUnrollStrategy.java:61)
at org.apache.tinkerpop.gremlin.process.traversal.util.DefaultTraversalStrategies.applyStrategies(DefaultTraversalStrategies.java:86)
at org.apache.tinkerpop.gremlin.process.traversal.util.DefaultTraversal.applyStrategies(DefaultTraversal.java:119)
at org.apache.tinkerpop.gremlin.process.traversal.util.DefaultTraversal.next(DefaultTraversal.java:198)
at java_util_Iterator$next.call(Unknown Source)
...
Does anyone have any idea how can I apply such limit? I need this to return first result or fail, fast.
Thanks!
Add another break condition in your
until()
and also make sure tolimit()
the result before you ask for paths:Calling
tryNext()
on this traversal will give you anOptional<Path>
. If it's empty, then no path was found within the given distance.