from unittest import TestCase
-import RDF
+from rdflib import ConjunctiveGraph, BNode, Literal, Namespace, URIRef
+from rdflib.plugins.sparql import prepareQuery
-from htsworkflow.util.rdfhelp import get_model, \
- add_default_schemas, add_schema, load_string_into_model, dump_model
+from htsworkflow.util.rdfhelp import \
+ add_default_schemas, load_string_into_model, dump_model
from htsworkflow.util.rdfns import *
from htsworkflow.util.rdfinfer import Infer
-foafNS = RDF.NS('http://xmlns.com/foaf/0.1/')
+from rdflib.namespace import FOAF
MINI_FOAF_ONTOLOGY = """
@prefix rdf: <http://www.w3.org/1999/02/22-rdf-syntax-ns#> .
class TestInfer(TestCase):
def setUp(self):
- self.model = get_model()
+ self.model = ConjunctiveGraph()
add_default_schemas(self.model)
- load_string_into_model(self.model, 'turtle', MINI_FOAF_ONTOLOGY)
+ self.model.parse(data=MINI_FOAF_ONTOLOGY, format='turtle')
def test_class(self):
- fooNS = RDF.NS('http://example.org/')
- load_string_into_model(self.model, 'turtle', FOAF_DATA)
+ fooNS = Namespace('http://example.org/')
+ self.model.parse(data=FOAF_DATA, format='turtle')
inference = Infer(self.model)
- s = RDF.Statement(fooNS['me.jpg'], rdfNS['type'], rdfsNS['Class'])
- found = list(self.model.find_statements(s))
+ s = [fooNS['me.jpg'], RDF['type'], RDFS['Class']]
+ found = list(self.model.triples(s))
self.assertEqual(len(found), 0)
inference._rule_class()
- s = RDF.Statement(fooNS['me.jpg'], rdfNS['type'], rdfsNS['Class'])
- found = list(self.model.find_statements(s))
+ s = [fooNS['me.jpg'], RDF['type'], RDFS['Class']]
+ found = list(self.model.triples(s))
self.assertEqual(len(found), 1)
def test_inverse_of(self):
- fooNS = RDF.NS('http://example.org/')
- load_string_into_model(self.model, 'turtle', FOAF_DATA)
+ fooNS = Namespace('http://example.org/')
+ self.model.parse(data=FOAF_DATA, format='turtle')
inference = Infer(self.model)
- depiction = RDF.Statement(None,
- foafNS['depiction'],
- fooNS['me.jpg'])
- size = self.model.size()
- found_statements = list(self.model.find_statements(depiction))
+ depiction = (None, FOAF['depiction'], fooNS['me.jpg'])
+ size = len(self.model)
+ found_statements = list(self.model.triples(depiction))
self.assertEqual(len(found_statements), 0)
inference._rule_inverse_of()
- found_statements = list(self.model.find_statements(depiction))
+ found_statements = list(self.model.triples(depiction))
self.assertEqual(len(found_statements), 1)
# we should've added one statement.
- self.assertEqual(self.model.size(), size + 1)
+ self.assertEqual(len(self.model), size + 1)
- size = self.model.size()
+ size = len(self.model)
inference._rule_inverse_of()
# we should already have both versions in our model
- self.assertEqual(self.model.size(), size)
+ self.assertEqual(len(self.model), size)
def test_validate_types(self):
- fooNS = RDF.NS('http://example.org/')
- load_string_into_model(self.model, 'turtle', FOAF_DATA)
+ fooNS = Namespace('http://example.org/')
+ self.model.parse(data=FOAF_DATA, format='turtle')
inference = Infer(self.model)
errors = list(inference._validate_types())
self.assertEqual(len(errors), 0)
- s = RDF.Statement(fooNS['document'],
- dcNS['title'],
- RDF.Node("bleem"))
- self.model.append(s)
+ s = (fooNS['document'], DC['title'], Literal("bleem"))
+ self.model.add(s)
errors = list(inference._validate_types())
self.assertEqual(len(errors), 1)
- def test_validate_undefined_properties(self):
- fooNS = RDF.NS('http://example.org/')
+ def test_validate_undefined_properties_in_schemas(self):
+ fooNS = Namespace('http://example.org/')
inference = Infer(self.model)
errors = list(inference._validate_undefined_properties())
self.assertEqual(len(errors), 0)
- load_string_into_model(self.model, 'turtle', FOAF_DATA)
+ def test_validate_undefined_properties_in_inference(self):
+ fooNS = Namespace('http://example.org/')
+ foafNS = Namespace('http://xmlns.com/foaf/0.1/')
+ self.model.parse(data=FOAF_DATA, format='turtle')
+
+ inference = Infer(self.model)
errors = list(inference._validate_undefined_properties())
self.assertEqual(len(errors), 2)
-
- def test_validate_undefined_properties(self):
- fooNS = RDF.NS('http://example.org/')
- foafNS = RDF.NS('http://xmlns.com/foaf/0.1/')
- load_string_into_model(self.model, 'turtle', FOAF_DATA)
inference = Infer(self.model)
-
errors = list(inference._validate_property_types())
self.assertEqual(len(errors), 0)
- s = RDF.Statement(fooNS['me.jpg'],
- foafNS['firstName'],
- RDF.Node("name"))
- self.model.append(s)
+ s = (fooNS['me.jpg'], FOAF['firstName'], Literal("name"))
+ self.model.add(s)
errors = list(inference._validate_property_types())
self.assertEqual(len(errors), 1)
startswith = 'Domain of '
self.assertTrue('http://example.org/me.jpg' in errors[0])
endswith = 'http://xmlns.com/foaf/0.1/Person'
self.assertEqual(errors[0][-len(endswith):], endswith)
- del self.model[s]
+ self.model.remove(s)
errors = list(inference._validate_property_types())
self.assertEqual(len(errors), 0)
- s = RDF.Statement(fooNS['foo.txt'], rdfNS['type'], foafNS['Document'])
- self.model.append(s)
- s = RDF.Statement(fooNS['me.jpg'],
- foafNS['depicts'],
- foafNS['foo.txt'])
- self.model.append(s)
+ s = (fooNS['foo.txt'], RDF['type'], FOAF['Document'])
+ self.model.add(s)
+ s = (fooNS['me.jpg'], FOAF['depicts'], FOAF['foo.txt'])
+ self.model.add(s)
errors = list(inference._validate_property_types())
self.assertEqual(len(errors), 1)
self.assertTrue('http://example.org/me.jpg' in errors[0])
endswith = 'http://www.w3.org/2002/07/owl#Thing'
self.assertEqual(errors[0][-len(endswith):], endswith)
- del self.model[s]
+ self.model.remove(s)
def test_property_multiple_domain_types(self):
"""Can we process a property with multiple domain types?
bar:subject a bar:ABarClass ;
foo:aprop foo:object .
"""
- load_string_into_model(self.model, 'turtle', turtle)
+ self.model.parse(data=turtle, format='turtle')
inference = Infer(self.model)
errmsg = list(inference._validate_property_types())