# Calculate length of path between nodes?

How can I retrieve the length of a path between two nodes? For instance, given an organizational hierarchy, how can I determine how far separated are a parent and an descendant organization? Consider the following scenarios:

1. `OrgA -hasSubOrganization-> OrgB, OrgC`

This is the very simplistic case where I want to get all the immediate suborganizations of an entity. Hence the path length is 1.

2. `OrgA -> OrgB -> OrgC`

or the general case

``````OrgA -> OrgB - - - - - - - - OrgZ
``````

I want to recursively traverse down the graph and find each organization belonging to another organization through the `hasSubOrganization` property. To get all the sub-organizations recursive I can use property paths, e.g., the `+` operator:

``````OrgA hasSubOrganization+ ?subOrg
``````

This will give me all the suborganizations right down to the leaf nodes. But my ultimate goal is to build the organization hierarchy, but the information about the "Number of nodes/steps/levels/hops away a suborganization is" is lost. This means that I cannot recreate the org structure for a visualization.

How can I capture the "number of nodes away" information in addition to the name of the suborganization?

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It's not a trivial on line query, but this can be achieved. Is it possible to get the position of an element in an RDF Collection in SPARQL? reduces to the same kind of query, and the answer there was a resounding "yes". –  Joshua Taylor Sep 24 '13 at 20:23

This is based on the same technique used to compute the position of an element in an RDF list using SPARQL that is described in: Is it possible to get the position of an element in an RDF Collection in SPARQL?

If you have data like this:

``````@prefix : <http://example.org> .

:orgA :hasSuborganization :orgB, :orgC, :orgD.
:orgB :hasSuborganization :orgE, :orgF.
:orgE :hasSuborganization :orgG.
:orgG :hasSuborganization :orgH.
``````

which describes a hierarchy like this:

then you can use a query like this:

``````prefix : <http://example.org>

select ?super ?sub (count(?mid) as ?distance) {
?super :hasSuborganization* ?mid .
?mid :hasSuborganization+ ?sub .
}
group by ?super ?sub
order by ?super ?sub
``````

to get results like these:

``````\$ sparql --query query.rq --data subs.n3
----------------------------
| super | sub   | distance |
============================
| :orgA | :orgB | 1        |
| :orgA | :orgC | 1        |
| :orgA | :orgD | 1        |
| :orgA | :orgE | 2        |
| :orgA | :orgF | 2        |
| :orgA | :orgG | 3        |
| :orgA | :orgH | 4        |
| :orgB | :orgE | 1        |
| :orgB | :orgF | 1        |
| :orgB | :orgG | 2        |
| :orgB | :orgH | 3        |
| :orgE | :orgG | 1        |
| :orgE | :orgH | 2        |
| :orgG | :orgH | 1        |
----------------------------
``````

The trick here is to recognize that any path from X to Y can be viewed as a (possibly empty) path from X to some intermediate node Z (nonempty means that you can choose X as Z) concatenated with a (non empty) path from Z to Y. The number of possible ways of picking Z indicates the length of the path.

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