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rdf-ex/test/unit/graph_builder_test.exs
Marcel Otto 1d32d6ecc0 Run tests without Coveralls 
as it doesn't support the --warnings-as-errors option
2022-06-19 21:30:00 +02:00

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# These tests rely on running with mix test --warnings-as-errors to ensure
# the undefined-function warnings raised at compile-time are caught properly.
defmodule RDF.Graph.BuilderTest do
use ExUnit.Case
require RDF.Graph
doctest RDF.Graph.Builder
alias RDF.Graph.Builder
import ExUnit.CaptureLog
defmodule TestNS do
use RDF.Vocabulary.Namespace
defvocab EX, base_iri: "http://example.com/", terms: [], strict: false
defvocab Custom, base_iri: "http://custom.com/foo/", terms: [], strict: false
defvocab ImportTest, base_iri: "http://import.com/bar#", terms: [:foo, :Bar]
end
@compile {:no_warn_undefined, __MODULE__.TestNS.EX}
@compile {:no_warn_undefined, __MODULE__.TestNS.Custom}
@compile {:no_warn_undefined, RDF.Test.Case.EX}
alias TestNS.EX
alias RDF.NS
defmodule UseTest do
defmacro __using__(_opts) do
quote do
{EX.This, EX.ShouldNotAppearIn, EX.Graph}
end
end
end
test "single statement" do
graph =
RDF.Graph.build do
EX.S |> EX.p(EX.O)
end
assert graph == RDF.graph(EX.S |> EX.p(EX.O))
end
test "multiple statements" do
graph =
RDF.Graph.build do
EX.S1 |> EX.p1(EX.O1)
EX.S2 |> EX.p2(EX.O2)
end
assert graph ==
RDF.graph([
EX.S1 |> EX.p1(EX.O1),
EX.S2 |> EX.p2(EX.O2)
])
end
test "different kinds of description forms" do
graph =
RDF.Graph.build do
EX.S1
|> EX.p11(EX.O11, EX.O12)
|> EX.p12(EX.O11, EX.O12)
EX.S2
|> EX.p2([EX.O21, EX.O22])
EX.p3(EX.S3, EX.O3)
end
assert graph ==
RDF.graph([
EX.S1 |> EX.p11(EX.O11, EX.O12),
EX.S1 |> EX.p12(EX.O11, EX.O12),
EX.S2 |> EX.p2([EX.O21, EX.O22]),
EX.p3(EX.S3, EX.O3)
])
end
test "triples given as tuples" do
graph =
RDF.Graph.build do
EX.S1 |> EX.p1(EX.O1)
{EX.S2, EX.p2(), EX.O2}
end
assert graph ==
RDF.graph([
EX.S1 |> EX.p1(EX.O1),
EX.S2 |> EX.p2(EX.O2)
])
end
test "triples given as maps" do
graph =
RDF.Graph.build do
%{
EX.S => %{
EX.p1() => EX.O1,
EX.p2() => [EX.O2, EX.O3]
}
}
end
assert graph ==
RDF.graph([
EX.S
|> EX.p1(EX.O1)
|> EX.p2(EX.O2, EX.O3)
])
end
test "triples given as nested list" do
graph =
RDF.Graph.build do
[
{EX.S,
[
{EX.p1(), EX.O1},
{EX.p2(), [EX.O2, EX.O3]}
]}
]
end
assert graph ==
RDF.graph([
EX.S
|> EX.p1(EX.O1)
|> EX.p2(EX.O2, EX.O3)
])
end
test "nested statements" do
graph =
RDF.Graph.build do
[
EX.S1 |> EX.p1([EX.O11, EX.O12]),
[
{EX.S2, EX.p2(), EX.O2},
{EX.S31, EX.p31(), EX.O31}
],
{EX.S32, EX.p32(), EX.O32}
]
end
assert graph ==
RDF.graph([
EX.S1 |> EX.p1([EX.O11, EX.O12]),
EX.S2 |> EX.p2(EX.O2),
{EX.S31, EX.p31(), EX.O31},
{EX.S32, EX.p32(), EX.O32}
])
end
test "a functions as shortcut for rdf:type" do
graph =
RDF.Graph.build do
EX.S1 |> a(EX.Class1)
EX.S2 |> a(EX.Class1, EX.Class1)
EX.S3 |> a(EX.Class1, EX.Class2, EX.Class3)
EX.S4 |> a(EX.Class1, EX.Class2, EX.Class3)
EX.S5 |> a(EX.Class1, EX.Class2, EX.Class3, EX.Class4)
EX.S5 |> a(EX.Class1, EX.Class2, EX.Class3, EX.Class4, EX.Class5)
{EX.S6, a(), EX.O2}
end
assert graph ==
RDF.graph([
EX.S1 |> RDF.type(EX.Class1),
EX.S2 |> RDF.type(EX.Class1, EX.Class1),
EX.S3 |> RDF.type(EX.Class1, EX.Class2, EX.Class3),
EX.S4 |> RDF.type(EX.Class1, EX.Class2, EX.Class3),
EX.S5 |> RDF.type(EX.Class1, EX.Class2, EX.Class3, EX.Class4),
EX.S5 |> RDF.type(EX.Class1, EX.Class2, EX.Class3, EX.Class4, EX.Class5),
{EX.S6, RDF.type(), EX.O2}
])
end
test "non-RDF interpretable data is ignored" do
assert_raise Builder.Error, "invalid RDF data: 42", fn ->
RDF.Graph.build do
EX.S |> EX.p(EX.O)
42
end
end
assert_raise Builder.Error, "invalid RDF data: \"foo\"", fn ->
RDF.Graph.build do
EX.S |> EX.p(EX.O)
"foo"
end
end
end
describe "variable assignments" do
test "assignments on the outer level" do
graph =
RDF.Graph.build do
EX.S1 |> EX.p1(EX.O1)
literal = "foo"
EX.S2 |> EX.p2(literal)
end
assert graph ==
RDF.graph([
EX.S1 |> EX.p1(EX.O1),
EX.S2 |> EX.p2("foo")
])
end
test "including RDF data to assigned variables" do
graph =
RDF.Graph.build do
triple = EX.S |> EX.p(EX.O)
triple
end
assert graph == RDF.graph([EX.S |> EX.p(EX.O)])
end
test "assignments in blocks" do
graph =
RDF.Graph.build do
literal = "foo"
if false do
literal = "bar"
EX.S2 |> EX.p2(literal)
end
EX.S |> EX.p(literal)
end
assert graph == RDF.graph([EX.S |> EX.p("foo")])
graph =
RDF.Graph.build do
literal = "foo"
if true do
literal = "bar"
EX.S2 |> EX.p2(literal)
end
EX.S |> EX.p(literal)
end
assert graph == RDF.graph([EX.S |> EX.p("foo"), EX.S2 |> EX.p2("bar")])
end
end
test "function applications" do
graph =
RDF.Graph.build do
Enum.map(1..3, &{EX.S, EX.p(), &1})
Enum.map(1..2, fn i ->
RDF.iri("http://example.com/foo#{i}")
|> EX.bar(RDF.bnode("baz#{i}"))
end)
end
assert graph ==
RDF.graph([
{EX.S, EX.p(), 1},
{EX.S, EX.p(), 2},
{EX.S, EX.p(), 3},
{RDF.iri("http://example.com/foo1"), EX.bar(), RDF.bnode("baz1")},
{RDF.iri("http://example.com/foo2"), EX.bar(), RDF.bnode("baz2")}
])
end
test "conditionals" do
graph =
RDF.Graph.build do
foo = false
cond do
true -> EX.S1 |> EX.p1(EX.O1)
end
if foo do
EX.S2 |> EX.p2(EX.O2)
end
end
assert graph == RDF.graph([EX.S1 |> EX.p1(EX.O1)])
end
test "comprehensions" do
graph =
RDF.Graph.build do
range = 1..3
for i <- range do
EX.S |> EX.p(i)
end
end
assert graph ==
RDF.graph([
{EX.S, EX.p(), 1},
{EX.S, EX.p(), 2},
{EX.S, EX.p(), 3}
])
end
test "RDF.Sigils is imported" do
# we're wrapping this in a function to isolate the import
graph =
(fn ->
RDF.Graph.build do
~I"http://test/iri" |> EX.p(~B"foo")
end
end).()
assert graph == RDF.graph(RDF.iri("http://test/iri") |> EX.p(RDF.bnode("foo")))
end
test "RDF.XSD is aliased" do
graph =
RDF.Graph.build do
EX.S |> EX.p(XSD.byte(42))
end
assert graph == RDF.graph(EX.S |> EX.p(RDF.XSD.byte(42)))
end
test "default aliases" do
graph =
RDF.Graph.build do
OWL.Class |> RDFS.subClassOf(RDFS.Class)
end
assert graph == RDF.graph(NS.OWL.Class |> NS.RDFS.subClassOf(NS.RDFS.Class))
end
test "alias" do
graph =
RDF.Graph.build do
alias TestNS.Custom
Custom.S |> Custom.p(Custom.O)
end
assert graph == RDF.graph(TestNS.Custom.S |> TestNS.Custom.p(TestNS.Custom.O))
end
test "aliasing an already taken name" do
graph =
RDF.Graph.build do
alias RDF.Test.Case.EX, as: EX2
{EX2.S, EX.p(), EX2.foo()}
end
quote do
alias RDF.Test.Case.EX, as: EX2
end
assert graph == RDF.graph(RDF.Test.Case.EX.S |> EX.p(RDF.Test.Case.EX.foo()))
end
test "import" do
graph =
RDF.Graph.build do
import TestNS.ImportTest
EX.S |> foo(TestNS.ImportTest.Bar)
end
assert graph == RDF.graph(EX.S |> TestNS.ImportTest.foo(TestNS.ImportTest.Bar))
end
test "require" do
log =
capture_log(fn ->
graph =
RDF.Graph.build do
require Logger
Logger.info("logged successfully")
EX.S |> EX.p(EX.O)
end
assert graph == RDF.graph(EX.S |> EX.p(EX.O))
end)
assert log =~ "logged successfully"
end
test "use" do
graph =
RDF.Graph.build do
use UseTest
EX.S |> EX.p(EX.O)
end
assert graph == RDF.graph(EX.S |> EX.p(EX.O))
end
describe "@prefix" do
test "for vocabulary namespace with explicit prefix" do
graph =
RDF.Graph.build do
@prefix cust: TestNS.Custom
Custom.S |> Custom.p(Custom.O)
end
assert graph ==
RDF.graph(TestNS.Custom.S |> TestNS.Custom.p(TestNS.Custom.O),
prefixes: RDF.default_prefixes(cust: TestNS.Custom)
)
end
test "for vocabulary namespace with auto-generated prefix" do
graph =
RDF.Graph.build do
@prefix TestNS.Custom
Custom.S |> Custom.p(Custom.O)
end
assert graph ==
RDF.graph(TestNS.Custom.S |> TestNS.Custom.p(TestNS.Custom.O),
prefixes: RDF.default_prefixes(custom: TestNS.Custom)
)
end
test "ad-hoc vocabulary namespace for URIs given as string" do
graph =
RDF.Graph.build do
@prefix ad: "http://example.com/ad-hoc/"
Ad.S |> Ad.p(Ad.O)
end
assert graph ==
RDF.graph(
{
RDF.iri("http://example.com/ad-hoc/S"),
RDF.iri("http://example.com/ad-hoc/p"),
RDF.iri("http://example.com/ad-hoc/O")
},
prefixes: RDF.default_prefixes(ad: "http://example.com/ad-hoc/")
)
end
test "two ad-hoc vocabulary namespaces for the same URI in the same context" do
graph1 =
RDF.Graph.build do
@prefix ad: "http://example.com/ad-hoc/"
@prefix ex1: "http://example.com/ad-hoc/ex1#"
Ad.S |> Ad.p(Ex1.O)
end
graph2 =
RDF.Graph.build do
@prefix ad: "http://example.com/ad-hoc/"
@prefix ex2: "http://example.com/ad-hoc/ex2#"
Ad.S |> Ad.p(Ex2.O)
end
assert graph1 ==
RDF.graph(
[
{
RDF.iri("http://example.com/ad-hoc/S"),
RDF.iri("http://example.com/ad-hoc/p"),
RDF.iri("http://example.com/ad-hoc/ex1#O")
}
],
prefixes:
RDF.default_prefixes(
ad: "http://example.com/ad-hoc/",
ex1: "http://example.com/ad-hoc/ex1#"
)
)
assert graph2 ==
RDF.graph(
[
{
RDF.iri("http://example.com/ad-hoc/S"),
RDF.iri("http://example.com/ad-hoc/p"),
RDF.iri("http://example.com/ad-hoc/ex2#O")
}
],
prefixes:
RDF.default_prefixes(
ad: "http://example.com/ad-hoc/",
ex2: "http://example.com/ad-hoc/ex2#"
)
)
end
test "merge with prefixes opt" do
graph =
RDF.Graph.build [], prefixes: [custom: EX] do
@prefix custom: TestNS.Custom
Custom.S |> Custom.p(Custom.O)
end
assert graph ==
RDF.graph(TestNS.Custom.S |> TestNS.Custom.p(TestNS.Custom.O),
prefixes: [custom: TestNS.Custom]
)
end
end
describe "@base" do
test "with vocabulary namespace" do
import RDF.Sigils
graph =
RDF.Graph.build do
@base TestNS.Custom
~I<S> |> Custom.p(~I<O>)
{~I<foo>, ~I<bar>, ~I<baz>}
end
assert graph ==
RDF.graph(
[
TestNS.Custom.S |> TestNS.Custom.p(TestNS.Custom.O),
TestNS.Custom.foo() |> TestNS.Custom.bar(TestNS.Custom.baz())
],
base_iri: TestNS.Custom
)
end
test "with RDF.IRI" do
graph =
RDF.Graph.build do
@base ~I<http://example.com/base>
~I<#S> |> EX.p(~I<#O>)
{~I<#foo>, ~I<#bar>, ~I<#baz>}
end
import RDF.Sigils
assert graph ==
RDF.graph(
[
~I<http://example.com/base#S> |> EX.p(~I<http://example.com/base#O>),
{~I<http://example.com/base#foo>, ~I<http://example.com/base#bar>,
~I<http://example.com/base#baz>}
],
base_iri: "http://example.com/base"
)
end
test "with URI as string" do
graph =
RDF.Graph.build do
@base "http://example.com/base"
~I<#S> |> EX.p(~I<#O>)
{~I<#foo>, ~I<#bar>, ~I<#baz>}
end
import RDF.Sigils
assert graph ==
RDF.graph(
[
~I<http://example.com/base#S> |> EX.p(~I<http://example.com/base#O>),
{~I<http://example.com/base#foo>, ~I<http://example.com/base#bar>,
~I<http://example.com/base#baz>}
],
base_iri: "http://example.com/base"
)
end
test "conflict with base_iri opt" do
graph =
RDF.Graph.build base_iri: "http://example.com/old" do
@base "http://example.com/base"
~I<#S> |> EX.p(~I<#O>)
end
import RDF.Sigils
assert graph ==
RDF.graph(~I<http://example.com/base#S> |> EX.p(~I<http://example.com/base#O>),
base_iri: "http://example.com/base"
)
end
end
test "exclude" do
graph =
RDF.Graph.build do
exclude "this is not a triple"
EX.S |> EX.p(EX.O)
exclude "this is not a triple"
end
assert graph == RDF.graph(EX.S |> EX.p(EX.O))
end
describe "bindings" do
test "passing a variable from the outer context" do
literal = "foo"
graph =
RDF.Graph.build literal: literal do
EX.S1 |> EX.p1(EX.O1)
EX.S2 |> EX.p2(literal)
end
assert graph ==
RDF.graph([
EX.S1 |> EX.p1(EX.O1),
EX.S2 |> EX.p2("foo")
])
end
test "passing a complex expression from the outer context" do
literal = "foo"
graph =
RDF.Graph.build literal: String.upcase(literal <> "bar") do
EX.S1 |> EX.p1(EX.O1)
EX.S2 |> EX.p2(literal)
end
assert graph ==
RDF.graph([
EX.S1 |> EX.p1(EX.O1),
EX.S2 |> EX.p2("FOOBAR")
])
end
test "passing a graph from a previous build step" do
graph =
(fn ->
graph1 =
RDF.Graph.build do
@prefix ad: "http://example.com/ad-hoc/"
@prefix ex1: "http://example.com/ad-hoc/ex1#"
Ad.S |> Ad.p(Ex1.O)
end
RDF.Graph.build graph: graph1 do
@prefix ad: "http://example.com/ad-hoc/"
@prefix ex2: "http://example.com/ad-hoc/ex2#"
graph
Ad.S |> Ad.p(Ex2.O)
end
end).()
assert graph ==
RDF.graph(
[
{
RDF.iri("http://example.com/ad-hoc/S"),
RDF.iri("http://example.com/ad-hoc/p"),
RDF.iri("http://example.com/ad-hoc/ex1#O")
},
{
RDF.iri("http://example.com/ad-hoc/S"),
RDF.iri("http://example.com/ad-hoc/p"),
RDF.iri("http://example.com/ad-hoc/ex2#O")
}
],
prefixes:
RDF.default_prefixes(
ad: "http://example.com/ad-hoc/",
ex1: "http://example.com/ad-hoc/ex1#",
ex2: "http://example.com/ad-hoc/ex2#"
)
)
end
test "with opts" do
literal = "foo"
graph =
RDF.Graph.build [literal: literal], name: EX.Graph do
EX.S1 |> EX.p1(EX.O1)
EX.S2 |> EX.p2(literal)
end
assert graph ==
RDF.graph(
[
EX.S1 |> EX.p1(EX.O1),
EX.S2 |> EX.p2("foo")
],
name: EX.Graph
)
end
end
test "opts" do
initial = {EX.S, EX.p(), "init"}
opts = [
name: EX.Graph,
base_iri: "http://base_iri/",
prefixes: [ex: EX],
init: initial
]
graph =
RDF.Graph.build [], opts do
EX.S |> EX.p(EX.O)
end
assert graph == RDF.graph(EX.S |> EX.p(EX.O, "init"), opts)
end
end
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