rdf-ex/test/unit/property_map_test.exs

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defmodule RDF.PropertyMapTest do
use RDF.Test.Case
doctest RDF.PropertyMap
alias RDF.PropertyMap
defmodule TestNS do
use RDF.Vocabulary.Namespace
defvocab ExampleWithConflict,
base_iri: "http://example.com/",
terms: ~w[term],
alias: [alias_term: "term"]
end
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@example_property_map %PropertyMap{
iris: %{
foo: ~I<http://example.com/test/foo>,
bar: ~I<http://example.com/test/bar>,
Baz: RDF.iri(EX.Baz)
},
terms: %{
~I<http://example.com/test/foo> => :foo,
~I<http://example.com/test/bar> => :bar,
RDF.iri(EX.Baz) => :Baz
}
}
test "new/1" do
assert PropertyMap.new(
foo: ~I<http://example.com/test/foo>,
bar: "http://example.com/test/bar",
Baz: EX.Baz
) == @example_property_map
end
describe "iri/2" do
test "when the given term exists" do
assert PropertyMap.iri(@example_property_map, "foo") ==
~I<http://example.com/test/foo>
assert PropertyMap.iri(@example_property_map, :foo) ==
~I<http://example.com/test/foo>
end
test "when the given term not exists" do
assert PropertyMap.iri(PropertyMap.new(), "foo") == nil
assert PropertyMap.iri(PropertyMap.new(), :foo) == nil
end
end
describe "term/2" do
test "when the given IRI exists" do
assert PropertyMap.term(@example_property_map, ~I<http://example.com/test/foo>) ==
:foo
assert PropertyMap.term(@example_property_map, "http://example.com/test/foo") ==
:foo
end
test "when the given IRI not exists" do
assert PropertyMap.term(PropertyMap.new(), "http://example.com/test/foo") ==
nil
assert PropertyMap.term(PropertyMap.new(), ~I<http://example.com/test/foo>) ==
nil
end
end
describe "iri_defined?/2" do
test "when the given term exists" do
assert PropertyMap.iri_defined?(@example_property_map, "foo") == true
assert PropertyMap.iri_defined?(@example_property_map, :foo) == true
end
test "when the given term not exists" do
assert PropertyMap.iri_defined?(PropertyMap.new(), "foo") == false
assert PropertyMap.iri_defined?(PropertyMap.new(), :foo) == false
end
end
describe "term_defined?/2" do
test "when the given IRI exists" do
assert PropertyMap.term_defined?(@example_property_map, ~I<http://example.com/test/foo>) ==
true
assert PropertyMap.term_defined?(@example_property_map, "http://example.com/test/foo") ==
true
end
test "when the given IRI not exists" do
assert PropertyMap.term_defined?(PropertyMap.new(), "http://example.com/test/foo") == false
assert PropertyMap.term_defined?(PropertyMap.new(), ~I<http://example.com/test/foo>) ==
false
end
end
describe "add/2" do
test "with valid mappings as keyword options" do
assert PropertyMap.add(PropertyMap.new(),
foo: ~I<http://example.com/test/foo>,
bar: "http://example.com/test/bar",
Baz: EX.Baz
) == {:ok, @example_property_map}
end
test "with valid mappings as a map" do
assert PropertyMap.add(PropertyMap.new(), %{
:foo => ~I<http://example.com/test/foo>,
"bar" => "http://example.com/test/bar",
"Baz" => EX.Baz
}) == {:ok, @example_property_map}
end
test "with a disjunctive PropertyMap" do
assert {:ok, property_map} =
PropertyMap.new()
|> PropertyMap.add(PropertyMap.new(foo: ~I<http://example.com/test/foo>))
assert PropertyMap.add(
property_map,
PropertyMap.new(%{
bar: "http://example.com/test/bar",
Baz: EX.Baz
})
) == {:ok, @example_property_map}
end
test "with a conflicting PropertyMap" do
assert {:error, _} =
PropertyMap.add(@example_property_map, PropertyMap.new(foo: EX.other()))
assert {:error, _} =
PropertyMap.add(
@example_property_map,
PropertyMap.new(other: ~I<http://example.com/test/foo>)
)
end
test "with a strict vocabulary namespace" do
assert PropertyMap.add(PropertyMap.new(), RDF.NS.RDF) ==
{:ok,
PropertyMap.new(
type: RDF.type(),
first: RDF.first(),
langString: RDF.langString(),
nil: RDF.nil(),
object: RDF.object(),
predicate: RDF.predicate(),
rest: RDF.rest(),
subject: RDF.subject(),
value: RDF.value()
)}
end
test "with a vocabulary namespace with multiple terms for the same IRI" do
assert PropertyMap.add(PropertyMap.new(), TestNS.ExampleWithConflict) ==
{:ok, PropertyMap.new(alias_term: "http://example.com/term")}
end
test "with a non-strict vocabulary namespace" do
assert_raise ArgumentError, ~r/non-strict/, fn ->
PropertyMap.add(PropertyMap.new(), EX)
end
end
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test "when a mapping to the same IRI exists" do
assert PropertyMap.add(@example_property_map,
foo: ~I<http://example.com/test/foo>,
bar: "http://example.com/test/bar",
Baz: EX.Baz
) == {:ok, @example_property_map}
end
test "when a mapping to another IRI exists" do
assert PropertyMap.add(@example_property_map, foo: ~I<http://example.com/test/other>) ==
{:error,
"conflicting mapping for foo: http://example.com/test/other; already mapped to http://example.com/test/foo"}
end
test "when another term mapping to the IRI exists" do
assert PropertyMap.add(@example_property_map, other: ~I<http://example.com/test/foo>) ==
{:error,
"conflicting mapping for other: http://example.com/test/foo; IRI already mapped to :foo"}
end
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end
describe "put/2" do
test "with valid mappings as keyword options" do
assert PropertyMap.put(PropertyMap.new(),
foo: ~I<http://example.com/test/foo>,
bar: "http://example.com/test/bar",
Baz: EX.Baz
) == @example_property_map
end
test "with valid mappings as a map" do
assert PropertyMap.put(PropertyMap.new(), %{
:foo => ~I<http://example.com/test/foo>,
"bar" => "http://example.com/test/bar",
"Baz" => EX.Baz
}) == @example_property_map
end
test "with a disjunctive PropertyMap" do
assert PropertyMap.new()
|> PropertyMap.put(PropertyMap.new(foo: ~I<http://example.com/test/foo>))
|> PropertyMap.put(
PropertyMap.new(%{
bar: "http://example.com/test/bar",
Baz: EX.Baz
})
) == @example_property_map
end
test "with a conflicting PropertyMap" do
assert @example_property_map
|> PropertyMap.put(PropertyMap.new(foo: EX.other()))
|> PropertyMap.put(PropertyMap.new(other: ~I<http://example.com/test/bar>)) ==
PropertyMap.new(
foo: EX.other(),
other: ~I<http://example.com/test/bar>,
Baz: RDF.iri(EX.Baz)
)
end
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test "when mapping exists" do
assert PropertyMap.put(@example_property_map,
bar: "http://example.com/test/bar",
Baz: EX.qux(),
quux: EX.quux()
) ==
PropertyMap.new(
foo: ~I<http://example.com/test/foo>,
bar: ~I<http://example.com/test/bar>,
Baz: EX.qux(),
quux: EX.quux()
)
end
test "when another term mapping to the IRI exists" do
{:ok, expected_result} =
@example_property_map
|> PropertyMap.delete(:foo)
|> PropertyMap.add(other: ~I<http://example.com/test/foo>)
assert PropertyMap.put(@example_property_map, other: ~I<http://example.com/test/foo>) ==
expected_result
end
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end
describe "delete/2" do
test "when a mapping for the given term exists" do
assert @example_property_map
|> PropertyMap.delete("foo")
|> PropertyMap.delete(:bar) == PropertyMap.new(Baz: EX.Baz)
end
test "when a mapping for the given term not exists" do
assert @example_property_map
|> PropertyMap.delete("foobar")
|> PropertyMap.delete(:barfoo) == @example_property_map
end
end
test "drop/2" do
assert PropertyMap.drop(@example_property_map, ["foo", :bar, :other]) ==
PropertyMap.new(Baz: EX.Baz)
end
describe "Access behaviour" do
test "fetch/2" do
assert @example_property_map[:foo] == ~I<http://example.com/test/foo>
assert @example_property_map["foo"] == ~I<http://example.com/test/foo>
assert @example_property_map[:missing] == nil
assert @example_property_map["missing"] == nil
end
test "get_and_update/2" do
update = fn current_value -> {current_value, to_string(current_value) <> "bar"} end
assert Access.get_and_update(@example_property_map, :foo, &{&1, IRI.append(&1, "bar")}) ==
{~I<http://example.com/test/foo>,
PropertyMap.put(@example_property_map, foo: ~I<http://example.com/test/foobar>)}
assert Access.get_and_update(@example_property_map, :foo, update) ==
{~I<http://example.com/test/foo>,
PropertyMap.put(@example_property_map, :foo, ~I<http://example.com/test/foobar>)}
assert Access.get_and_update(@example_property_map, :foo, fn _ -> :pop end) ==
{~I<http://example.com/test/foo>, PropertyMap.delete(@example_property_map, :foo)}
end
end
describe "Enumerable protocol" do
test "Enum.count" do
assert Enum.count(PropertyMap.new()) == 0
assert Enum.count(@example_property_map) == 3
end
test "Enum.member?" do
assert Enum.member?(@example_property_map, {:foo, ~I<http://example.com/test/foo>})
assert Enum.member?(@example_property_map, {:bar, ~I<http://example.com/test/bar>})
assert Enum.member?(@example_property_map, {:Baz, RDF.iri(EX.Baz)})
refute Enum.member?(@example_property_map, {:bar, ~I<http://example.com/test/foo>})
end
test "Enum.reduce" do
assert Enum.reduce(@example_property_map, [], fn mapping, acc -> [mapping | acc] end) ==
[
{:foo, ~I<http://example.com/test/foo>},
{:bar, ~I<http://example.com/test/bar>},
{:Baz, RDF.iri(EX.Baz)}
]
end
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test "Enum.at (for Enumerable.slice/1)" do
assert Enum.at(@example_property_map, 0) == {:Baz, RDF.iri(EX.Baz)}
end
end
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end