rdf-ex/test/unit/nquads_decoder_test.exs
2020-11-06 13:03:01 +01:00

218 lines
8.7 KiB
Elixir

defmodule RDF.NQuads.DecoderTest do
use ExUnit.Case, async: false
doctest RDF.NQuads.Decoder
alias RDF.NQuads.Decoder
alias RDF.Dataset
import RDF.Sigils
use RDF.Vocabulary.Namespace
defvocab EX, base_iri: "http://example.org/#", terms: [], strict: false
defvocab P, base_iri: "http://www.perceive.net/schemas/relationship/", terms: [], strict: false
import RDF.Sigils
import RDF.Test.Case, only: [string_to_stream: 1]
test "stream_support?/0" do
assert Decoder.stream_support?()
end
test "an empty string is deserialized to an empty graph" do
assert Decoder.decode!("") == Dataset.new()
assert Decoder.decode!(" \n\r\r\n ") == Dataset.new()
end
test "decoding comments" do
assert Decoder.decode!("# just a comment") == Dataset.new()
assert Decoder.decode!("""
<http://example.org/#S> <http://example.org/#p> _:1 <http://example.org/#G>. # a comment
""") == Dataset.new({EX.S, EX.p(), RDF.bnode("1"), EX.G})
assert Decoder.decode!("""
# a comment
<http://example.org/#S> <http://example.org/#p> <http://example.org/#O> <http://example.org/#G>.
""") == Dataset.new({EX.S, EX.p(), EX.O, EX.G})
assert Decoder.decode!("""
<http://example.org/#S> <http://example.org/#p> <http://example.org/#O> <http://example.org/#G>.
# a comment
""") == Dataset.new({EX.S, EX.p(), EX.O, EX.G})
assert Decoder.decode!("""
# Header line 1
# Header line 2
<http://example.org/#S1> <http://example.org/#p1> <http://example.org/#O1> <http://example.org/#G> .
# 1st comment
<http://example.org/#S1> <http://example.org/#p2> <http://example.org/#O2> . # 2nd comment
# last comment
""") ==
Dataset.new([
{EX.S1, EX.p1(), EX.O1, EX.G},
{EX.S1, EX.p2(), EX.O2}
])
end
test "empty lines" do
assert Decoder.decode!("""
<http://example.org/#spiderman> <http://www.perceive.net/schemas/relationship/enemyOf> <http://example.org/#green_goblin> <http://example.org/graphs/spiderman> .
""") ==
Dataset.new(
{EX.spiderman(), P.enemyOf(), EX.green_goblin(),
~I<http://example.org/graphs/spiderman>}
)
assert Decoder.decode!("""
<http://example.org/#spiderman> <http://www.perceive.net/schemas/relationship/enemyOf> <http://example.org/#green_goblin> <http://example.org/graphs/spiderman> .
""") ==
Dataset.new(
{EX.spiderman(), P.enemyOf(), EX.green_goblin(),
~I<http://example.org/graphs/spiderman>}
)
assert Decoder.decode!("""
<http://example.org/#S1> <http://example.org/#p1> <http://example.org/#O1> .
<http://example.org/#S1> <http://example.org/#p2> <http://example.org/#O2> <http://example.org/#G> .
""") ==
Dataset.new([
{EX.S1, EX.p1(), EX.O1},
{EX.S1, EX.p2(), EX.O2, EX.G}
])
end
test "decoding a single statement with iris" do
assert Decoder.decode!("""
<http://example.org/#spiderman> <http://www.perceive.net/schemas/relationship/enemyOf> <http://example.org/#green_goblin> .
""") == Dataset.new({EX.spiderman(), P.enemyOf(), EX.green_goblin()})
assert Decoder.decode!("""
<http://example.org/#spiderman> <http://www.perceive.net/schemas/relationship/enemyOf> <http://example.org/#green_goblin> <http://example.org/graphs/spiderman>.
""") ==
Dataset.new(
{EX.spiderman(), P.enemyOf(), EX.green_goblin(),
~I<http://example.org/graphs/spiderman>}
)
end
test "decoding a single statement with a blank node" do
assert Decoder.decode!("""
_:foo <http://example.org/#p> <http://example.org/#O> <http://example.org/#G> .
""") == Dataset.new({RDF.bnode("foo"), EX.p(), EX.O, EX.G})
assert Decoder.decode!("""
<http://example.org/#S> <http://example.org/#p> _:1 <http://example.org/#G> .
""") == Dataset.new({EX.S, EX.p(), RDF.bnode("1"), EX.G})
assert Decoder.decode!("""
_:foo <http://example.org/#p> _:bar <http://example.org/#G> .
""") == Dataset.new({RDF.bnode("foo"), EX.p(), RDF.bnode("bar"), EX.G})
assert Decoder.decode!("""
<http://example.org/#S> <http://example.org/#p> _:1 _:G .
""") == Dataset.new({EX.S, EX.p(), RDF.bnode("1"), RDF.bnode("G")})
end
test "decoding a single statement with an untyped string literal" do
assert Decoder.decode!("""
<http://example.org/#spiderman> <http://www.perceive.net/schemas/relationship/realname> "Peter Parker" <http://example.org/#G> .
""") == Dataset.new({EX.spiderman(), P.realname(), RDF.literal("Peter Parker"), EX.G})
assert Decoder.decode!("""
<http://example.org/#spiderman> <http://www.perceive.net/schemas/relationship/realname> "Peter Parker" .
""") == Dataset.new({EX.spiderman(), P.realname(), RDF.literal("Peter Parker")})
end
test "decoding a single statement with a typed literal" do
assert Decoder.decode!("""
<http://example.org/#spiderman> <http://example.org/#p> "42"^^<http://www.w3.org/2001/XMLSchema#integer> <http://example.org/#G> .
""") == Dataset.new({EX.spiderman(), EX.p(), RDF.literal(42), EX.G})
assert Decoder.decode!("""
<http://example.org/#spiderman> <http://example.org/#p> "42"^^<http://www.w3.org/2001/XMLSchema#integer> .
""") == Dataset.new({EX.spiderman(), EX.p(), RDF.literal(42)})
end
test "decoding a single statement with a language tagged literal" do
assert Decoder.decode!("""
<http://example.org/#S> <http://example.org/#p> "foo"@en <http://example.org/#G> .
""") == Dataset.new({EX.S, EX.p(), RDF.literal("foo", language: "en"), EX.G})
assert Decoder.decode!("""
<http://example.org/#S> <http://example.org/#p> "foo"@en .
""") == Dataset.new({EX.S, EX.p(), RDF.literal("foo", language: "en")})
end
test "decoding multiple statements" do
assert Decoder.decode!("""
<http://example.org/#S1> <http://example.org/#p1> <http://example.org/#O1> <http://example.org/#G> .
<http://example.org/#S1> <http://example.org/#p2> <http://example.org/#O2> <http://example.org/#G> .
""") ==
Dataset.new([
{EX.S1, EX.p1(), EX.O1, EX.G},
{EX.S1, EX.p2(), EX.O2, EX.G}
])
assert Decoder.decode!("""
<http://example.org/#S1> <http://example.org/#p1> <http://example.org/#O1> <http://example.org/#G> .
<http://example.org/#S1> <http://example.org/#p2> <http://example.org/#O2> <http://example.org/#G> .
<http://example.org/#S2> <http://example.org/#p3> <http://example.org/#O3> <http://example.org/#G> .
<http://example.org/#S2> <http://example.org/#p3> <http://example.org/#O3> .
""") ==
Dataset.new([
{EX.S1, EX.p1(), EX.O1, EX.G},
{EX.S1, EX.p2(), EX.O2, EX.G},
{EX.S2, EX.p3(), EX.O3, EX.G},
{EX.S2, EX.p3(), EX.O3}
])
end
test "decode_from_stream/2" do
assert """
<http://example.org/#S1> <http://example.org/#p1> <http://example.org/#O1> <http://example.org/#G> .
<http://example.org/#S1> <http://example.org/#p2> <http://example.org/#O2> <http://example.org/#G> .
<http://example.org/#S2> <http://example.org/#p3> _:foo <http://example.org/#G> .
<http://example.org/#S2> <http://example.org/#p3> "foo"@en .
"""
|> string_to_stream()
|> Decoder.decode_from_stream() ==
{:ok,
Dataset.new([
{EX.S1, EX.p1(), EX.O1, EX.G},
{EX.S1, EX.p2(), EX.O2, EX.G},
{EX.S2, EX.p3(), ~B"foo", EX.G},
{EX.S2, EX.p3(), ~L"foo"en}
])}
end
test "decode_from_stream!/2" do
assert """
<http://example.org/#S1> <http://example.org/#p1> <http://example.org/#O1> <http://example.org/#G> .
<http://example.org/#S1> <http://example.org/#p2> <http://example.org/#O2> <http://example.org/#G> .
<http://example.org/#S2> <http://example.org/#p3> _:foo <http://example.org/#G> .
<http://example.org/#S2> <http://example.org/#p3> "foo"@en .
"""
|> string_to_stream()
|> Decoder.decode_from_stream!() ==
Dataset.new([
{EX.S1, EX.p1(), EX.O1, EX.G},
{EX.S1, EX.p2(), EX.O2, EX.G},
{EX.S2, EX.p3(), ~B"foo", EX.G},
{EX.S2, EX.p3(), ~L"foo"en}
])
end
end