예제 #1
0
def model_data() -> None:
    """
	This function generates triples for user defined properties for uploading them to wikidata
	:return:
	"""
    stream = open(Path.cwd().parent /
                  "Datasets/new-property-configuration.yaml",
                  'r',
                  encoding='utf8')
    yaml_data = yaml.safe_load(stream)
    # initialize
    kg_schema = KGSchema()
    kg_schema.add_schema('@prefix : <http://isi.edu/> .', 'ttl')
    etk = ETK(kg_schema=kg_schema, modules=ETKModule)
    doc = etk.create_document({}, doc_id="http://isi.edu/default-ns/projects")

    # bind prefixes
    doc.kg.bind('wikibase', 'http://wikiba.se/ontology#')
    doc.kg.bind('wd', 'http://www.wikidata.org/entity/')
    doc.kg.bind('wdt', 'http://www.wikidata.org/prop/direct/')
    doc.kg.bind('wdtn', 'http://www.wikidata.org/prop/direct-normalized/')
    doc.kg.bind('wdno', 'http://www.wikidata.org/prop/novalue/')
    doc.kg.bind('wds', 'http://www.wikidata.org/entity/statement/')
    doc.kg.bind('wdv', 'http://www.wikidata.org/value/')
    doc.kg.bind('wdref', 'http://www.wikidata.org/reference/')
    doc.kg.bind('p', 'http://www.wikidata.org/prop/')
    doc.kg.bind('pr', 'http://www.wikidata.org/prop/reference/')
    doc.kg.bind('prv', 'http://www.wikidata.org/prop/reference/value/')
    doc.kg.bind('prn',
                'http://www.wikidata.org/prop/reference/value-normalized/')
    doc.kg.bind('ps', 'http://www.wikidata.org/prop/statement/')
    doc.kg.bind('psv', 'http://www.wikidata.org/prop/statement/value/')
    doc.kg.bind('psn',
                'http://www.wikidata.org/prop/statement/value-normalized/')
    doc.kg.bind('pq', 'http://www.wikidata.org/prop/qualifier/')
    doc.kg.bind('pqv', 'http://www.wikidata.org/prop/qualifier/value/')
    doc.kg.bind('pqn',
                'http://www.wikidata.org/prop/qualifier/value-normalized/')
    doc.kg.bind('skos', 'http://www.w3.org/2004/02/skos/core#')
    doc.kg.bind('prov', 'http://www.w3.org/ns/prov#')
    doc.kg.bind('schema', 'http://schema.org/')
    sparql_endpoint = "https://query.wikidata.org/sparql"
    type_map = {'quantity': Datatype.QuantityValue, 'url': URLValue}
    property_type_cache = {}
    for k, v in yaml_data.items():
        p = WDProperty(k,
                       type_map[v['type']],
                       creator='http://www.isi.edu/t2wml')
        for lang, value in v['label'].items():
            for val in value:
                p.add_label(val, lang=lang)
        for lang, value in v['description'].items():
            for val in value:
                p.add_description(val, lang=lang)
        for pnode, items in v['statements'].items():
            for item in items:
                try:
                    property_type = property_type_cache[pnode]
                except KeyError:
                    property_type = get_property_type(pnode, sparql_endpoint)
                    property_type_cache[pnode] = property_type
                if property_type == "WikibaseItem":
                    value = Item(str(item['value']))
                elif property_type == "WikibaseProperty":
                    value = Property(item['value'])
                elif property_type == "String":
                    value = StringValue(item['value'])
                elif property_type == "Quantity":
                    value = QuantityValue(item['value'])
                elif property_type == "Time":
                    value = TimeValue(
                        str(item['value']), Item(item["calendar"]),
                        translate_precision_to_integer(item["precision"]),
                        item["time_zone"])
                elif property_type == "Url":
                    value = URLValue(item['value'])
                elif property_type == "Monolingualtext":
                    value = MonolingualText(item['value'], item["lang"])
                elif property_type == "ExternalId":
                    value = ExternalIdentifier(item['value'])
                elif property_type == "GlobeCoordinate":
                    value = GlobeCoordinate(item["latitude"],
                                            item["longitude"],
                                            item["precision"])

                p.add_statement(pnode, value)

        doc.kg.add_subject(p)

    with open(Path.cwd().parent / "new_properties/result.ttl", "w") as f:
        data = doc.kg.serialize('ttl')
        f.write(data)
예제 #2
0
    def __init__(self, query_server=None, update_server=None):
        self.punctuation_table = str.maketrans(
            dict.fromkeys(string.punctuation))
        if query_server and update_server:
            self.query_server = query_server
            self.update_server = update_server
        else:
            self.query_server = DATAMRT_SERVER
            self.update_server = DATAMRT_SERVER

        # initialize
        kg_schema = KGSchema()
        kg_schema.add_schema('@prefix : <http://isi.edu/> .', 'ttl')
        etk = ETK(kg_schema=kg_schema, modules=ETKModule)
        self.doc = etk.create_document(
            {}, doc_id="http://isi.edu/default-ns/projects")

        # bind prefixes
        self.doc.kg.bind('wikibase', 'http://wikiba.se/ontology#')
        self.doc.kg.bind('wd', 'http://www.wikidata.org/entity/')
        self.doc.kg.bind('wdt', 'http://www.wikidata.org/prop/direct/')
        self.doc.kg.bind('wdtn',
                         'http://www.wikidata.org/prop/direct-normalized/')
        self.doc.kg.bind('wdno', 'http://www.wikidata.org/prop/novalue/')
        self.doc.kg.bind('wds', 'http://www.wikidata.org/entity/statement/')
        self.doc.kg.bind('wdv', 'http://www.wikidata.org/value/')
        self.doc.kg.bind('wdref', 'http://www.wikidata.org/reference/')
        self.doc.kg.bind('p', 'http://www.wikidata.org/prop/')
        self.doc.kg.bind('pr', 'http://www.wikidata.org/prop/reference/')
        self.doc.kg.bind('prv',
                         'http://www.wikidata.org/prop/reference/value/')
        self.doc.kg.bind(
            'prn', 'http://www.wikidata.org/prop/reference/value-normalized/')
        self.doc.kg.bind('ps', 'http://www.wikidata.org/prop/statement/')
        self.doc.kg.bind('psv',
                         'http://www.wikidata.org/prop/statement/value/')
        self.doc.kg.bind(
            'psn', 'http://www.wikidata.org/prop/statement/value-normalized/')
        self.doc.kg.bind('pq', 'http://www.wikidata.org/prop/qualifier/')
        self.doc.kg.bind('pqv',
                         'http://www.wikidata.org/prop/qualifier/value/')
        self.doc.kg.bind(
            'pqn', 'http://www.wikidata.org/prop/qualifier/value-normalized/')
        self.doc.kg.bind('skos', 'http://www.w3.org/2004/02/skos/core#')
        self.doc.kg.bind('prov', 'http://www.w3.org/ns/prov#')
        self.doc.kg.bind('schema', 'http://schema.org/')

        # give definition of the nodes we definied
        p = WDProperty('C2001', Datatype.MonolingualText)
        p.add_label('keywords', lang='en')
        p.add_description('identifier of a dataset in the Datamart system',
                          lang='en')
        p.add_statement('P31', Item('Q19847637'))
        p.add_statement('P1629', Item('Q1172284'))
        self.doc.kg.add_subject(p)

        p = WDProperty('C2004', Datatype.StringValue)
        p.add_label('datamart identifier', lang='en')
        p.add_description(
            'keywords associated with an item to facilitate finding the item using text search',
            lang='en')
        p.add_statement('P31', Item('Q18616576'))
        self.doc.kg.add_subject(p)

        p = WDProperty('C2005', Datatype.StringValue)
        p.add_label('variable measured', lang='en')
        p.add_description('the variables measured in a dataset', lang='en')
        p.add_statement('P31', Item('Q18616576'))
        p.add_statement('P1628',
                        URLValue('http://schema.org/variableMeasured'))
        self.doc.kg.add_subject(p)

        p = WDProperty('C2006', Datatype.StringValue)
        p.add_label('values', lang='en')
        p.add_description(
            'the values of a variable represented as a text document',
            lang='en')
        p.add_statement('P31', Item('Q18616576'))
        self.doc.kg.add_subject(p)

        p = WDProperty('C2007', Datatype.Item)
        p.add_label('data type', lang='en')
        p.add_description(
            'the data type used to represent the values of a variable, integer (Q729138), Boolean (Q520777), '
            'Real (Q4385701), String (Q184754), Categorical (Q2285707)',
            lang='en')
        p.add_statement('P31', Item('Q18616576'))
        self.doc.kg.add_subject(p)

        p = WDProperty('C2008', Datatype.URLValue)
        p.add_label('semantic type', lang='en')
        p.add_description(
            'a URL that identifies the semantic type of a variable in a dataset',
            lang='en')
        p.add_statement('P31', Item('Q18616576'))
        self.doc.kg.add_subject(p)

        # get the starting source id
        sparql_query = """
            prefix wdt: <http://www.wikidata.org/prop/direct/>
            prefix wd: <http://www.wikidata.org/entity/>
            prefix wikibase: <http://wikiba.se/ontology#>
            PREFIX p: <http://www.wikidata.org/prop/>
            PREFIX pqv: <http://www.wikidata.org/prop/qualifier/value/>
            PREFIX pq: <http://www.wikidata.org/prop/qualifier/>
            PREFIX ps: <http://www.wikidata.org/prop/statement/>
            prefix bd: <http://www.bigdata.com/rdf#>
            prefix bds: <http://www.bigdata.com/rdf/search#>

            select ?x where {
              wd:Z00000 wdt:P1114 ?x .
            }
            """
        try:
            sparql = SPARQLWrapper(self.query_server)
            sparql.setQuery(sparql_query)
            sparql.setReturnFormat(JSON)
            sparql.setMethod(POST)
            sparql.setRequestMethod(URLENCODED)
            results = sparql.query().convert()['results']['bindings']
        except:
            print("Getting query of wiki data failed!")
            raise ValueError("Unable to initialize the datamart query service")
        if not results:
            print(
                "[WARNING] No starting source id found! Will initialize the starting source with D1000001"
            )
            self.resource_id = 1000001
        else:
            self.resource_id = 1000001
예제 #3
0
    def _init_etk():
        # initialize for etk
        kg_schema = KGSchema()
        kg_schema.add_schema('@prefix : <http://isi.edu/> .', 'ttl')
        etk = ETK(kg_schema=kg_schema, modules=ETKModule)
        doc = etk.create_document({},
                                  doc_id="http://isi.edu/default-ns/projects")

        # bind prefixes
        doc.kg.bind('wikibase', 'http://wikiba.se/ontology#')
        doc.kg.bind('wd', 'http://www.wikidata.org/entity/')
        doc.kg.bind('wdt', 'http://www.wikidata.org/prop/direct/')
        doc.kg.bind('wdtn', 'http://www.wikidata.org/prop/direct-normalized/')
        doc.kg.bind('wdno', 'http://www.wikidata.org/prop/novalue/')
        doc.kg.bind('wds', 'http://www.wikidata.org/entity/statement/')
        doc.kg.bind('wdv', 'http://www.wikidata.org/value/')
        doc.kg.bind('wdref', 'http://www.wikidata.org/reference/')
        doc.kg.bind('p', 'http://www.wikidata.org/prop/')
        doc.kg.bind('pr', 'http://www.wikidata.org/prop/reference/')
        doc.kg.bind('prv', 'http://www.wikidata.org/prop/reference/value/')
        doc.kg.bind(
            'prn', 'http://www.wikidata.org/prop/reference/value-normalized/')
        doc.kg.bind('ps', 'http://www.wikidata.org/prop/statement/')
        doc.kg.bind('psv', 'http://www.wikidata.org/prop/statement/value/')
        doc.kg.bind(
            'psn', 'http://www.wikidata.org/prop/statement/value-normalized/')
        doc.kg.bind('pq', 'http://www.wikidata.org/prop/qualifier/')
        doc.kg.bind('pqv', 'http://www.wikidata.org/prop/qualifier/value/')
        doc.kg.bind(
            'pqn', 'http://www.wikidata.org/prop/qualifier/value-normalized/')
        doc.kg.bind('skos', 'http://www.w3.org/2004/02/skos/core#')
        doc.kg.bind('prov', 'http://www.w3.org/ns/prov#')
        doc.kg.bind('schema', 'http://schema.org/')

        # give definition of the nodes we definied
        p = WDProperty('C2001', Datatype.MonolingualText)
        p.add_label('datamart identifier', lang='en')
        p.add_description('identifier of a dataset in the Datamart system',
                          lang='en')
        p.add_statement('P31', Item('Q19847637'))
        p.add_statement('P1629', Item('Q1172284'))
        doc.kg.add_subject(p)

        p = WDProperty('C2004', Datatype.StringValue)
        p.add_label('keywords', lang='en')
        p.add_description(
            'keywords associated with an item to facilitate finding the item using text search',
            lang='en')
        p.add_statement('P31', Item('Q18616576'))
        doc.kg.add_subject(p)

        p = WDProperty('C2005', Datatype.StringValue)
        p.add_label('variable measured', lang='en')
        p.add_description('the variables measured in a dataset', lang='en')
        p.add_statement('P31', Item('Q18616576'))
        p.add_statement('P1628',
                        URLValue('http://schema.org/variableMeasured'))
        doc.kg.add_subject(p)

        p = WDProperty('C2006', Datatype.StringValue)
        p.add_label('values', lang='en')
        p.add_description(
            'the values of a variable represented as a text document',
            lang='en')
        p.add_statement('P31', Item('Q18616576'))
        doc.kg.add_subject(p)

        p = WDProperty('C2007', Datatype.Item)
        p.add_label('data type', lang='en')
        p.add_description(
            'the data type used to represent the values of a variable, integer (Q729138), Boolean (Q520777), '
            'Real (Q4385701), String (Q184754), Categorical (Q2285707)',
            lang='en')
        p.add_statement('P31', Item('Q18616576'))
        doc.kg.add_subject(p)

        p = WDProperty('C2008', Datatype.URLValue)
        p.add_label('semantic type', lang='en')
        p.add_description(
            'a URL that identifies the semantic type of a variable in a dataset',
            lang='en')
        p.add_statement('P31', Item('Q18616576'))
        doc.kg.add_subject(p)

        p = WDProperty('C2010', Datatype.StringValue)
        p.add_label('extra information', lang='en')
        p.add_description(
            'some extra information that may needed for this dataset',
            lang='en')
        doc.kg.add_subject(p)

        p = WDProperty('C2011', Datatype.TimeValue)
        p.add_label('start date', lang='en')
        p.add_description(
            'The earlist time exist in this dataset, only valid when there exists time format data in this dataset',
            lang='en')
        p.add_statement('P31', Item('Q18616576'))
        doc.kg.add_subject(p)

        p = WDProperty('C2012', Datatype.TimeValue)
        p.add_label('end date', lang='en')
        p.add_description(
            'The latest time exist in this dataset, only valid when there exists time format data in this dataset',
            lang='en')
        p.add_statement('P31', Item('Q18616576'))
        doc.kg.add_subject(p)

        p = WDProperty('C2013', Datatype.QuantityValue)
        p.add_label('time granularity', lang='en')
        p.add_description('time granularity in a dataset', lang='en')
        p.add_statement('P31', Item('Q18616576'))
        doc.kg.add_subject(p)

        p = WDProperty('C2014', Datatype.StringValue)
        p.add_label('uploader information', lang='en')
        p.add_description('information about who uploaded and when uploaded',
                          lang='en')
        doc.kg.add_subject(p)
        return doc
예제 #4
0
        def genNormalTriple(self, node1: str, label: str, node2: str,
                            isPropEdge: bool) -> bool:
            """
            The normal triple's type is determined by 
            1. label's datatype in prop_types.tsv
            2. kgtk format convention of node2 field

            Update the self.STATEMENT
            """
            # determine the node type [property|item]
            if node1 in self.propTypes:
                entity = WDProperty(node1.upper(), self.propTypes[node1])
            else:
                entity = WDItem(node1.upper())
            # determine the edge type
            edgeType = self.propTypes[label]
            if edgeType == Item:
                OBJECT = Item(node2.upper())

            elif edgeType == TimeValue:
                # https://www.wikidata.org/wiki/Help:Dates
                # ^201301-01T00:00:00Z/11
                dateTimeString, precision = node2[1:].split("/")
                dateString, timeString = dateTimeString.split("T")
                OBJECT = TimeValue(
                    value=dateString,
                    calendar=Item("Q1985727"),
                    precision=precision,
                    time_zone=0,
                )

            elif edgeType == GlobeCoordinate:
                latitude, longitude = node2[1:].split("/")
                OBJECT = GlobeCoordinate(latitude,
                                         longitude,
                                         0.0001,
                                         globe=StringValue("Earth"))

            elif edgeType == QuantityValue:
                amount, unit = (re.compile("([\+|\-]?[0-9]+\.?[0-9]*)U([0-9]+)"
                                           ).match(node2).groups())
                OBJECT = QuantityValue(amount=float(amount), unit=Item(unit))

            elif edgeType == MonolingualText:
                try:
                    textString, lang = node2.split("@")
                    OBJECT = MonolingualText(textString, lang)
                except:
                    OBJECT = MonolingualText(textString, "en")
            else:
                # treat everything else as stringValue
                OBJECT = StringValue(node2)

            if isPropEdge:
                # edge: q1 p8 q2 e8
                # create brand new property edge and replace STATEMENT
                self.STATEMENT = entity.add_statement(label.upper(), OBJECT)
            else:
                # edge: e8 p9 ^2013-01-01T00:00:00Z/11
                # create qualifier edge on previous STATEMENT and return the updated STATEMENT
                self.STATEMENT.add_qualifier(label.upper(), OBJECT)
            self.doc.kg.add_subject(self.STATEMENT)
            return True