Solution examples 2023: Difference between revisions
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g = Graph() | g = Graph() | ||
g.bind('', MOVIE) | g.bind('', MOVIE) | ||
g.bind('dc', DC) | |||
g.bind('foaf', FOAF) | |||
</pre> | </pre> | ||
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g = Graph() | g = Graph() | ||
g.bind('', MOVIE) | g.bind('', MOVIE) | ||
g.bind('dc', DC) | |||
g.bind('foaf', FOAF) | |||
load_movie_triples(g, DIRECTOR_FILE) | load_movie_triples(g, DIRECTOR_FILE) | ||
load_lead_role_triples(g, LEAD_ROLE_FILE) | load_lead_role_triples(g, LEAD_ROLE_FILE) |
Latest revision as of 12:34, 6 May 2024
Task 2: RDF and SHACL
Questions 51-54:
RDF: Add triples TBD
For questions 55-60:
*** SHACL examples - includes answers to the exam questions @prefix rdf: <http://www.w3.org/1999/02/22-rdf-syntax-ns#> . @prefix rdfs: <http://www.w3.org/2000/01/rdf-schema#> . @prefix xsd: <http://www.w3.org/2001/XMLSchema#> . @prefix owl: <http://www.w3.org/2002/07/owl#> . @prefix dc: <http://purl.org/dc/elements/1.1/> . @prefix foaf: <http://xmlns.com/foaf/0.1/> . @prefix sh: <http://www.w3.org/ns/shacl#> . @prefix : <http://info216.uib.no/movies/> .
Questions 55 and 56:
:DirectorShape a sh:NodeShape ; sh:targetClass :Director ; # A Director must have exactly one foaf:name of type xsd:string. sh:property [ sh:path foaf:name ; sh:minCount 1 ; # question 55 sh:maxCount 1 ; # question 55 sh:type xsd:string # question 56 ] ;
Question 57:
# A Director must be the director of at least one Movie. sh:property [ sh:path :director_of ; sh:minCount 1 ; sh:class :Movie ] .
Question 58:
:ActorShape a sh:NodeShape ; sh:targetClass :Actor ; # If an actor is an actor in a resource, that resource must be a movie. sh:property [ sh:path :actor_in ; sh:class :Movie ] ;
Question 59:
:ActorShape a sh:NodeShape ; sh:targetClass :Actor ; # If an actor plays a role that is a role in some resource, that resource must be a movie. sh:property [ sh:path ( :plays_role :role_in ) ; sh:qualifiedValueShape [ sh:path :actor_in ] ; sh:class :Movie ] .
Question 60:
:MovieShape a sh:NodeShape ; sh:targetClass :Movie ; # A movie must be directed by at least one director or acted in by at least one actor. sh:or ( [ sh:property [ sh:path [ sh:inversePath :actor_in ] ; sh:minCount 1 ; ] ] [ sh:property [ sh:path [ sh:inversePath :director_of ] ; sh:minCount 1 ; ] ] ) .
Task 3: RDFS rules and OWL expressions
RDFS rules
Question 61: A resource that is a director_of something is a director.
:director_of rdfs:domain :Director .
Question 62: A resource that something else is a director_of is a movie.
:director_of rdfs:range :Movie .
Question 63: The year of something has type xsd:year.
:year rdfs:range xsd:year .
Question 64: An actor is a Person.
:Actor rdfs:subClassOf foaf:Person .
Question 65: A director is a person.
:Director rdfs:subClassOf foaf:Person .
OWL axioms
Question 66: Nothing can be both a person and a movie.
:Person owl:disjointWith :Movie .
Question 67: Nothing can be more than one of a person, a role, or a movie.
[] a owl:DisjointClass ; owl:disjointClasses ( :Person :Role :Movie ) .
Question 68: Something that plays in at least one Movie is an Actor.
:Actor rdfs:subClassOf [ a owl:Restriction ; owl:onProperty :play_in ; owl:someValueFrom owl:Thing ]
Question 69: A LeadActor is an Actor that plays at least one LeadRole.
:LeadActor rdfs:subClassOf :Actor, [ a owl:Restriction ; owl:onProperty :plays_role ; owl:someValueFrom :LeadRole . ] .
Task 4: SPARQL queries
Question 70: Count the number of movies that are represented in the graph.
SELECT (COUNT(?movie) AS ?count) WHERE { ?movie rdf:type :Movie }
Question 71: List the titles and years of all movies.
SELECT ?title ?year WHERE { ?movie rdf:type :Movie ; dc:title ?title ; dc:year ?year }
Question 72: List the titles and years of all movies since 2000.
SELECT ?title ?year WHERE { ?movie rdf:type :Movie ; dc:title ?title ; dc:year ?year FILTER (INTEGER(?year) >= 2000) }
or:
SELECT ?title ?year WHERE { ?movie rdf:type :Movie ; dc:title ?title ; dc:year ?year FILTER (?year >= "2000"^^xsd:year) }
Question 73: List the titles and years of all movies sorted first by year, then by name.
SELECT ?title ?year WHERE { ?movie rdf:type :Movie ; dc:title ?title ; dc:year ?year } ORDER BY ?year, ?name
Question 74: Count the number of movies for each year with more than one movie.
SELECT ?year (COUNT(?movie) AS ?count) WHERE { ?movie rdf:type :Movie ; dc:year ?year } GROUP BY ?year HAVING ?count > 1
Question 75: List the names of all persons that are both directors and actors.
SELECT ?name WHERE { ?person (:plays_in & :director_of) / rdf:type :Movie ; foaf:name ?name }
Question 76: List the actor name and movie title for all lead roles.
SELECT ?name ?title WHERE { ?role rdf:type :LeadRole ; ^:plays_role / foaf:name ?name ; :role_in / dc:title ?title }
Question 77: List all distinct pairs of actor names that have played lead roles in the same movies.
SELECT ?name1 ?name2 WHERE { ?movie rdf:type :Movie ; ^:?role_in ?role1, ?role2 . ?role1 rdf:type :LeadRole ; ^:plays_role / foaf:name ?name1 . ?role2 rdf:type :LeadRole ; ^:plays_role / foaf:name ?name2 . FILTER (STR(?name1) < STR(?name2)) }
Question 78-79:
SPARQL Update TBD.
Task 5: Programming
Question 80:
from rdflib import Namespace, Graph, Literal, RDF, DC, FOAF, XSD BASE_URI = 'http://example.org/' MOVIE = Namespace(BASE_URI) g = Graph() g.bind('', MOVIE) g.bind('dc', DC) g.bind('foaf', FOAF)
Question 81:
def add_movie_triples(g, row): movie = row.to_dict() # example dict: # {'Movie': 'Pulp_Fiction', 'Director': 'Quentin_Tarantino', 'Year': 1994} movie_name = movie['Movie'] director_name = movie['Director'] movie_year = movie['Year'] # update g with a set of triples that represent the movie and its director g.add((MOVIE[director_name], RDF.type, MOVIE.Director)) g.add((MOVIE[director_name], FOAF.name, Literal(director_name))) g.add((MOVIE[director_name], MOVIE.director_of, MOVIE[movie_name])) g.add((MOVIE[movie_name], RDF.type, MOVIE.Movie)) g.add((MOVIE[movie_name], DC.title, Literal(movie_name))) g.add((MOVIE[movie_name], MOVIE.year, Literal(movie_year, datatype=XSD.year)))
Question 82:
from pyshacl import validate SHACL_FILE = './movie-shacl.ttl' # contains the rule for "A Movie must have exactly one dc:title." # ... sg = Graph() sg.parse(SHACL_FILE, format='ttl') r = validate(g, shacl_graph=sg, # ont_graph=og, inference='rdfs' ) val, rg, rep = r print(rep)
Question 83:
TBD.
Question 84:
from owlrl import DeductiveClosure, OWLRL_Semantics ONTOLOGY_FILE = './movie-ontology.ttl' # ... g.parse(ONTOLOGY_FILE) DeductiveClosure(OWLRL_Semantics).expand(g) print(g.serialize(format='ttl'))
Full program
For reference, not expected exam answer:
from owlrl import DeductiveClosure, OWLRL_Semantics import pandas as pd from pyshacl import validate from rdflib import Namespace, Graph, Literal, RDF, DC, FOAF, XSD ONTOLOGY_FILE = './movie-ontology.ttl' SHACL_FILE = './movie-shacl.ttl' DIRECTOR_FILE = './movie-director-year.csv' LEAD_ROLE_FILE = './movie-actor-lead-role.csv' OTHER_ROLE_FILE = './movie-actor-other-role.csv' BASE_URI = 'http://example.org/' MOVIE = Namespace(BASE_URI) def add_movie_triples(g, row): movie = row.to_dict() # example dict: # {'Movie': 'Pulp_Fiction', 'Director': 'Quentin_Tarantino', 'Year': 1994} movie_name = movie['Movie'] director_name = movie['Director'] movie_year = movie['Year'] # update g with a set of triples that represent the movie and its director g.add((MOVIE[director_name], RDF.type, MOVIE.Director)) g.add((MOVIE[director_name], FOAF.name, Literal(director_name))) g.add((MOVIE[director_name], MOVIE.director_of, MOVIE[movie_name])) g.add((MOVIE[movie_name], RDF.type, MOVIE.Movie)) g.add((MOVIE[movie_name], DC.title, Literal(movie_name))) g.add((MOVIE[movie_name], MOVIE.year, Literal(movie_year, datatype=XSD.year))) def add_lead_role_triples(g, row): movie = row.to_dict() # example dict: # {'Movie': 'Pulp_Fiction', 'Director': 'Quentin_Tarantino', 'Year': 1994} movie_name = movie['Movie'] actor_name = movie['Actor'] role_name = movie_name+'-role-'+movie['LeadRole'] # update g with a set of triples that represent the movie and its director g.add((MOVIE[actor_name], RDF.type, MOVIE.Actor)) g.add((MOVIE[actor_name], FOAF.name, Literal(actor_name))) g.add((MOVIE[actor_name], MOVIE.actor_in, MOVIE[movie_name])) g.add((MOVIE[actor_name], MOVIE.plays_role, MOVIE[role_name])) g.add((MOVIE[role_name], RDF.type, MOVIE.LeadRole)) g.add((MOVIE[role_name], FOAF.name, Literal(movie['LeadRole']))) g.add((MOVIE[role_name], MOVIE.role_in, MOVIE[movie_name])) g.add((MOVIE[movie_name], RDF.type, MOVIE.Movie)) def add_other_role_triples(g, row): movie = row.to_dict() # example dict: # {'Movie': 'Pulp_Fiction', 'Director': 'Quentin_Tarantino', 'Year': 1994} movie_name = movie['Movie'] actor_name = movie['Actor'] role_name = movie_name+'-role-'+movie['Role'] # update g with a set of triples that represent the movie and its director g.add((MOVIE[actor_name], RDF.type, MOVIE.Actor)) g.add((MOVIE[actor_name], FOAF.name, Literal(actor_name))) g.add((MOVIE[actor_name], MOVIE.actor_in, MOVIE[movie_name])) g.add((MOVIE[actor_name], MOVIE.plays_role, MOVIE[role_name])) g.add((MOVIE[role_name], RDF.type, MOVIE.Role)) g.add((MOVIE[role_name], FOAF.name, Literal(movie['Role']))) g.add((MOVIE[role_name], MOVIE.role_in, MOVIE[movie_name])) g.add((MOVIE[movie_name], RDF.type, MOVIE.Movie)) def load_movie_triples(g, fn): df = pd.read_csv(fn) df.apply(lambda row: add_movie_triples(g, row), axis=1) def load_lead_role_triples(g, fn): df = pd.read_csv(fn) df.apply(lambda row: add_lead_role_triples(g, row), axis=1) def load_other_role_triples(g, fn): df = pd.read_csv(fn) df.apply(lambda row: add_other_role_triples(g, row), axis=1) g = Graph() g.bind('', MOVIE) g.bind('dc', DC) g.bind('foaf', FOAF) load_movie_triples(g, DIRECTOR_FILE) load_lead_role_triples(g, LEAD_ROLE_FILE) load_other_role_triples(g, OTHER_ROLE_FILE) print(g.serialize(format='ttl')) sg = Graph() sg.parse(SHACL_FILE, format='ttl') r = validate(g, shacl_graph=sg, # ont_graph=og, inference='rdfs' ) val, rg, rep = r print(rep) g.parse(ONTOLOGY_FILE) DeductiveClosure(OWLRL_Semantics).expand(g) print(g.serialize(format='ttl'))