I'd like to explain this using the traversal graph. We do two traversals in
ANY direction, so the number of results is a little bigger. We start it at points that have neighbors in common which will become the result of the join operation. One query will look at
E which should have
B in common, but others of the iteration not.
The basic iteration:
FOR v IN 1..1 ANY 'circles/A' GRAPH 'traversalGraph' RETURN v._key
circles/A this results in
["B","G"], starting from
circles/E this results in
["F", "B"] - so its obvious, we should only get
"B" as the result of the join.
Our first possible approach is to use two sub queries and join them using
LET firstTraversal = (FOR v IN 1..1 ANY 'circles/A' GRAPH 'traversalGraph' RETURN v) LET secondTraversal = (FOR v IN 1..1 ANY 'circles/E' GRAPH 'traversalGraph' RETURN v) RETURN INTERSECTION(firstTraversal, secondTraversal)
A possible problem here could be, that a full depth comparison of the objects will be done, which may become expensive. Another approach therefore could be to join them using their
LET firstTraversal = (FOR v IN 1..1 ANY 'circles/A' GRAPH 'traversalGraph' RETURN v) LET secondTraversal = (FOR v IN 1..1 ANY 'circles/E' GRAPH 'traversalGraph' RETURN v) FOR oneSet IN firstTraversal FOR otherSet IN secondTraversal FILTER oneSet._key == otherSet._key RETURN oneSet