Пример #1
0
def test_rdfs_inference_subclass():
    EX = Namespace("http://example.com/building#")
    graph = Graph(load_brick=True).from_triples([(EX["a"], RDF.type,
                                                  BRICK.Temperature_Sensor)])
    graph.expand(profile="rdfs")

    res1 = graph.query(f"""SELECT ?type WHERE {{
        <{EX["a"]}> rdf:type ?type
    }}""")

    expected = [
        BRICK.Point,
        BRICK.Class,
        BRICK.Sensor,
        RDFS.Resource,
        BRICK.Temperature_Sensor,
    ]

    # filter out BNodes
    res = []
    for row in res1:
        row = tuple(filter(lambda x: not isinstance(x, BNode), row))
        res.append(row)
    res = list(filter(lambda x: len(x) > 0, res))

    assert len(res) == len(expected), f"Results were {res}"
    for expected_class in expected:
        assert (
            expected_class, ) in res, f"{expected_class} not found in {res}"
Пример #2
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def test_tagset_inference():

    g = Graph(load_brick=False)
    data = pkgutil.get_data(__name__, "data/tags.ttl").decode()
    g.load_file(source=io.StringIO(data))
    g.expand(profile="tag")

    afs1 = g.query("SELECT ?x WHERE { ?x rdf:type brick:Air_Flow_Sensor }")
    assert len(afs1) == 1
    afsp1 = g.query("SELECT ?x WHERE { ?x rdf:type brick:Air_Flow_Setpoint }")
    assert len(afsp1) == 1
    mafs1 = g.query(
        "SELECT ?x WHERE { ?x rdf:type brick:Max_Air_Flow_Setpoint_Limit }")
    assert len(mafs1) == 1
Пример #3
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def test_brick_inference():
    g = Graph(load_brick=True)
    data = pkgutil.get_data(__name__, "data/brick_inference_test.ttl").decode()
    g.load_file(source=io.StringIO(data))
    g.expand(profile="owlrl")
    g.expand(profile="tag")

    r = g.query("SELECT ?x WHERE { ?x rdf:type brick:Air_Temperature_Sensor }")
    # assert len(r) == 5
    urls = set([str(row[0]) for row in r])
    real_sensors = set([
        "http://example.com/mybuilding#sensor1",
        "http://example.com/mybuilding#sensor2",
        "http://example.com/mybuilding#sensor3",
        "http://example.com/mybuilding#sensor4",
        "http://example.com/mybuilding#sensor5",
    ])
    assert urls == real_sensors
def test_simplify():
    g = Graph(load_brick=True)
    data = pkgutil.get_data(__name__, "data/test.ttl").decode()
    g.load_file(source=io.StringIO(data))

    g.expand("brick", simplify=False, backend="owlrl")
    g.serialize("/tmp/test.ttl", format="ttl")

    q = "SELECT ?type WHERE { bldg:VAV2-4.ZN_T a ?type }"
    rows = list(g.query(q))
    bnodes = [r[0] for r in rows if isinstance(r[0], rdflib.BNode)]
    assert len(bnodes) > 0

    g.simplify()

    rows = list(g.query(q))
    bnodes = [r[0] for r in rows if isinstance(r[0], rdflib.BNode)]
    assert len(bnodes) == 0
Пример #5
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def test_brick_to_vbis_inference_with_owlrl():
    ALIGN = Namespace("https://brickschema.org/schema/Brick/alignments/vbis#")

    # input brick model; instances should have appropriate VBIS tags
    g = Graph(load_brick=True)
    data = pkgutil.get_data(__name__, "data/vbis_inference_test.ttl").decode()
    g.load_file(source=io.StringIO(data))
    g.expand(profile="owlrl")
    g.expand(profile="vbis")

    test_cases = [
        ("http://bldg#f1", "ME-Fa"),
        ("http://bldg#rtu1", "ME-ACU"),
    ]
    for (entity, vbistag) in test_cases:
        query = f"SELECT ?tag WHERE {{ <{entity}> <{ALIGN.hasVBISTag}> ?tag }}"
        res = list(g.query(query))
        assert len(res) == 1
        assert str(res[0][0]) == vbistag

    conforms, _, results = g.validate()
    assert conforms, results
Пример #6
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def test_owl_inference_tags():
    EX = Namespace("http://example.com/building#")
    graph = Graph(load_brick=True).from_triples([(EX["a"], RDF.type,
                                                  BRICK.Air_Flow_Setpoint)])
    graph.expand(profile="owlrl", backend="owlrl")

    res1 = graph.query(f"""SELECT ?type WHERE {{
        <{EX["a"]}> rdf:type ?type
    }}""")

    expected = [
        # RDF.Resource,
        # RDFS.Resource,
        OWL.Thing,
        BRICK.Point,
        BRICK.Class,
        BRICK.Setpoint,
        BRICK.Flow_Setpoint,
        BRICK.Air_Flow_Setpoint,
    ]
    # filter out BNodes
    res1 = filter_bnodes(res1)

    assert set(res1) == set(map(lambda x: (x, ), expected))

    res2 = graph.query(f"""SELECT ?tag WHERE {{
        <{EX["a"]}> brick:hasTag ?tag
    }}""")

    expected = [
        TAG.Point,
        TAG.Air,
        TAG.Flow,
        TAG.Setpoint,
    ]
    res2 = filter_bnodes(res2)

    assert set(res2) == set(map(lambda x: (x, ), expected))
Пример #7
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from brickschema.graph import Graph
from rdflib import Literal, URIRef
from .namespaces import SKOS, OWL, RDFS, BRICK, QUDTQK, QUDTDV, QUDT, UNIT


g = Graph()
g.load_file("support/VOCAB_QUDT-QUANTITY-KINDS-ALL-v2.1.ttl")
g.load_file("support/VOCAB_QUDT-UNITS-ALL-v2.1.ttl")
g.bind("qudt", QUDT)
g.bind("qudtqk", QUDTQK)
g.expand(profile="brick")


def get_units(brick_quantity):
    """
    Fetches the QUDT unit and symbol (as a Literal) from the QUDT ontology so
    in order to avoid having to pull the full QUDT ontology into Brick
    """
    res = g.query(
        f"""SELECT ?unit ?symbol WHERE {{
                    <{brick_quantity}> qudt:applicableUnit ?unit .
                    ?unit qudt:symbol ?symbol .
                    FILTER(isLiteral(?symbol))
                    }}"""
    )
    for r in res:
        yield r


"""
Each is a qudt:QuantityKind