whenever i start using sql i tend to throw a couple of exploratory statements at the database in order to understand what is avaliable, and what form the data takes.
Well, the obvious first start is to look at the classes and properties present in the data.
Here is how to see what classes are being used:
SELECT DISTINCT ?class
WHERE {
?s a ?class .
}
LIMIT 25
OFFSET 0
(LIMIT
and OFFSET
are there for paging. It is worth getting used to these especially if you are sending your query over the Internet. I'll omit them in the other examples.)
a
is a special SPARQL (and Notation3/Turtle) syntax to represent the rdf:type
predicate - this links individual instances to owl:Class
/rdfs:Class
types (roughly equivalent to tables in SQL RDBMSes).
Secondly, you want to look at the properties. You can do this either by using the classes you've searched for or just looking for properties. Let's just get all the properties out of the store:
SELECT DISTINCT ?property
WHERE {
?s ?property ?o .
}
This will get all the properties, which you probably aren't interested in. This is equivalent to a list of all the row columns in SQL, but without any grouping by the table.
More useful is to see what properties are being used by instances that declare a particular class:
SELECT DISTINCT ?property
WHERE {
?s a <http://xmlns.com/foaf/0.1/Person>;
?property ?o .
}
This will get you back the properties used on any instances that satisfy the first triple - namely, that have the rdf:type
of http://xmlns.com/foaf/0.1/Person
.
Remember, because a rdf:Resource can have multiple rdf:type properties - classes if you will - and because RDF's data model is additive, you don't have a diamond problem. The type is just another property - it's just a useful social agreement to say that some things are persons or dogs or genes or football teams. It doesn't mean that the data store is going to contain properties usually associated with that type. The type doesn't guarantee anything in terms of what properties a resource might have.
You need to familiarise yourself with the data model and the use of SPARQL's UNION and OPTIONAL syntax. The rough mapping of rdf:type to SQL tables is just that - rough.
You might want to know what kind of entity the property is pointing to. Firstly, you probably want to know about datatype properties - equivalent to literals or primitives. You know, strings, integers, etc. RDF defines these literals as all inheriting from string. We can filter out just those properties that are literals using the SPARQL filter method isLiteral
:
SELECT DISTINCT ?property
WHERE {
?s a <http://xmlns.com/foaf/0.1/Person>;
?property ?o .
FILTER isLiteral(?o)
}
We are here only going to get properties that have as their object a literal - a string, date-time, boolean, or one of the other XSD datatypes.
But what about the non-literal objects? Consider this very simple pseudo-Java class definition as an analogy:
public class Person {
int age;
Person marriedTo;
}
Using the above query, we would get back the literal that would represent age if the age property is bound. But marriedTo isn't a primitive (i.e. a literal in RDF terms) - it's a reference to another object - in RDF/OWL terminology, that's an object property. But we don't know what sort of objects are being referred to by those properties (predicates). This query will get you back properties with the accompanying types (the classes of which ?o
values are members of).
SELECT DISTINCT ?property, ?class
WHERE {
?s a <http://xmlns.com/foaf/0.1/Person>;
?property ?o .
?o a ?class .
FILTER(!isLiteral(?o))
}
That should be enough to orient yourself in a particular dataset. Of course, I'd also recommend that you just pull out some individual resources and inspect them. You can do that using the DESCRIBE query:
DESCRIBE <http://example.org/resource>
There are some SPARQL tools - SNORQL, for instance - that let you do this in a browser. The SNORQL instance I've linked to has a sample query for exploring the possible named graphs, which I haven't covered here.
If you are unfamiliar with SPARQL, honestly, the best resource if you get stuck is the specification. It's a W3C spec but a pretty good one (they built a decent test suite so you can actually see whether implementations have done it properly or not) and if you can get over the complicated language, it is pretty helpful.
SELECT DISTINCT * WHERE {
?s ?p ?o
}
LIMIT 10
I often refer to this list of queries from the voiD project. They are mainly of a statistical nature, but not only. It shouldn't be hard to remove the COUNTs from some statements to get the actual values.
I find the following set of exploratory queries useful:
Seeing the classes:
select distinct ?type ?label
where {
?s a ?type .
OPTIONAL { ?type rdfs:label ?label }
}
Seeing the properties:
select distinct ?objprop ?label
where {
?objprop a owl:ObjectProperty .
OPTIONAL { ?objprop rdfs:label ?label }
}
Seeing the data properties:
select distinct ?dataprop ?label
where {
?dataprop a owl:DatatypeProperty .
OPTIONAL { ?dataprop rdfs:label ?label }
}
Seeing which properties are actually used:
select distinct ?p ?label
where {
?s ?p ?o .
OPTIONAL { ?p rdfs:label ?label }
}
Seeing what entities are asserted:
select distinct ?entity ?elabel ?type ?tlabel
where {
?entity a ?type .
OPTIONAL { ?entity rdfs:label ?elabel } .
OPTIONAL { ?type rdfs:label ?tlabel }
}
Seeing the distinct graphs in use:
select distinct ?g where {
graph ?g {
?s ?p ?o
}
}