You count the number of edges in a unique path using SPARQL's property paths and aggregate functions. For instance, with data like this, which contains two paths that we care about (a to c with two edges, and d to g with three edges):
@prefix : <http://stackoverflow.com/questions/19587520/sparql-path-between-two-instance/> .
:a :p :b . # a to c is a path of length 2
:b :p :c .
:d :p :e . # d to g is a path of length 3
:e :p :f .
:f :p :g .
you can use a query like the following one. Notice that I've used the specific property :p
, rather than a variable. This is necessary, because 9.1 Property Path Syntax from the SPARQL 1.1 specification doesn't allow variables in property paths.
prefix : <http://stackoverflow.com/questions/19587520/sparql-path-between-two-instance/>
select ?start ?end (count(?mid) as ?length)
where {
values (?start ?end) { (:a :c) (:d :g) }
?start :p+ ?mid .
?mid :p* ?end .
}
group by ?start ?end
and get results like this:
$ sparql --query query.rq --data data.n3
------------------------
| start | end | length |
========================
| :d | :g | 3 |
| :a | :c | 2 |
------------------------
A fuller description of what's happening here can be found in:
The basic idea, though, is that if you have a path from ?start
to ?end
, then you've also got, for a bunch of different values of ?mid
, a path from ?start
to ?mid
and a path from ?mid
to ?end
. The number of different values that you can pick for ?mid
(if you allow one of the endpoints, and disallow the other) is exactly the length of the path.