rdf-ex/test/unit/vocabulary_namespace_test.exs

defmodule RDF.Vocabulary.NamespaceTest do
  use ExUnit.Case

  doctest RDF.Vocabulary.Namespace

  import RDF.Sigils

  alias RDF.Description

  @compile {:no_warn_undefined, RDF.Vocabulary.NamespaceTest.TestNS.EX}
  @compile {:no_warn_undefined, RDF.Vocabulary.NamespaceTest.TestNS.ExampleFromGraph}
  @compile {:no_warn_undefined, RDF.Vocabulary.NamespaceTest.TestNS.ExampleFromNTriplesFile}
  @compile {:no_warn_undefined, RDF.Vocabulary.NamespaceTest.TestNS.NonStrictExampleFromTerms}
  @compile {:no_warn_undefined,
            RDF.Vocabulary.NamespaceTest.TestNS.NonStrictExampleFromAliasedTerms}
  @compile {:no_warn_undefined, RDF.Vocabulary.NamespaceTest.TestNS.StrictExampleFromTerms}
  @compile {:no_warn_undefined, RDF.Vocabulary.NamespaceTest.NSofEdgeCases.Example}
  @compile {:no_warn_undefined, RDF.Vocabulary.NamespaceTest.NSWithAliasesForElixirTerms.Example}
  @compile {:no_warn_undefined, RDF.Vocabulary.NamespaceTest.NSwithUnderscoreTerms.Example}
  @compile {:no_warn_undefined,
            RDF.Vocabulary.NamespaceTest.NSWithIgnoredTerms.ExampleIgnoredLowercasedTerm}
  @compile {:no_warn_undefined,
            RDF.Vocabulary.NamespaceTest.NSWithIgnoredTerms.ExampleIgnoredNonStrictLowercasedTerm}
  @compile {:no_warn_undefined,
            RDF.Vocabulary.NamespaceTest.NSWithIgnoredTerms.ExampleIgnoredLowercasedTermWithAlias}
  @compile {:no_warn_undefined,
            RDF.Vocabulary.NamespaceTest.NSWithIgnoredTerms.ExampleIgnoredLowercasedAlias}

  defmodule TestNS do
    use RDF.Vocabulary.Namespace

    defvocab EX, base_iri: "http://example.com/", terms: ~w[], strict: false

    defvocab EXS,
      base_iri: "http://example.com/strict#",
      terms: ~w[foo bar]

    defvocab ExampleFromGraph,
      base_iri: "http://example.com/from_graph#",
      data:
        RDF.Graph.new([
          {~I<http://example.com/from_graph#foo>,
           ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#type>,
           ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#Property>},
          {~I<http://example.com/from_graph#Bar>,
           ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#type>,
           ~I<http://www.w3.org/2000/01/rdf-schema#Resource>}
        ])

    defvocab ExampleFromDataset,
      base_iri: "http://example.com/from_dataset#",
      data:
        RDF.Dataset.new([
          {~I<http://example.com/from_dataset#foo>,
           ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#type>,
           ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#Property>},
          {~I<http://example.com/from_dataset#Bar>,
           ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#type>,
           ~I<http://www.w3.org/2000/01/rdf-schema#Resource>,
           ~I<http://example.com/from_dataset#Graph>}
        ])

    defvocab ExampleFromNTriplesFile,
      base_iri: "http://example.com/from_ntriples/",
      file: "test/data/vocab_ns_example.nt"

    defvocab ExampleFromNQuadsFile,
      base_iri: "http://example.com/from_nquads/",
      file: "test/data/vocab_ns_example.nq"

    defvocab ExampleFromTurtleFile,
      base_iri: "http://example.com/from_turtle/",
      file: "test/data/vocab_ns_example.ttl"

    defvocab StrictExampleFromTerms,
      base_iri: "http://example.com/strict_from_terms#",
      terms: ~w[foo Bar]

    defvocab NonStrictExampleFromTerms,
      base_iri: "http://example.com/non_strict_from_terms#",
      terms: ~w[foo Bar],
      strict: false

    defvocab StrictExampleFromAliasedTerms,
      base_iri: "http://example.com/strict_from_aliased_terms#",
      terms: ~w[term1 Term2 Term-3 term-4],
      alias: [
        Term1: "term1",
        term2: "Term2",
        Term3: "Term-3",
        term4: "term-4"
      ]

    defvocab NonStrictExampleFromAliasedTerms,
      base_iri: "http://example.com/non_strict_from_aliased_terms#",
      terms: ~w[],
      alias: [
        Term1: "term1",
        term2: "Term2",
        Term3: "Term-3",
        term4: "term-4"
      ],
      strict: false

    defvocab ExampleWithSynonymAliases,
      base_iri: "http://example.com/ex#",
      terms: ~w[bar Bar],
      alias: [foo: "bar", baz: "bar", Foo: "Bar", Baz: "Bar"]
  end

  describe "defvocab with bad base iri" do
    test "without a base_iri, an error is raised" do
      assert_raise KeyError, fn ->
        defmodule NSWithoutBaseIRI do
          use RDF.Vocabulary.Namespace

          defvocab Example, terms: []
        end
      end
    end

    test "when the base_iri doesn't end with '/' or '#', an error is raised" do
      assert_raise RDF.Namespace.InvalidVocabBaseIRIError, fn ->
        defmodule NSWithInvalidBaseIRI1 do
          use RDF.Vocabulary.Namespace

          defvocab Example,
            base_iri: "http://example.com/base_iri4",
            terms: []
        end
      end
    end

    test "when the base_iri isn't a valid IRI, an error is raised" do
      assert_raise RDF.Namespace.InvalidVocabBaseIRIError, fn ->
        defmodule NSWithInvalidBaseIRI2 do
          use RDF.Vocabulary.Namespace

          defvocab Example,
            base_iri: "invalid",
            terms: []
        end
      end

      assert_raise RDF.Namespace.InvalidVocabBaseIRIError, fn ->
        defmodule NSWithInvalidBaseIRI3 do
          use RDF.Vocabulary.Namespace

          defvocab Example,
            base_iri: :foo,
            terms: []
        end
      end
    end
  end

  describe "defvocab with bad terms" do
    test "when the given file not found, an error is raised" do
      assert_raise File.Error, fn ->
        defmodule NSWithMissingVocabFile do
          use RDF.Vocabulary.Namespace

          defvocab Example,
            base_iri: "http://example.com/ex#",
            file: "something.nt"
        end
      end
    end
  end

  describe "defvocab with bad aliases" do
    test "when an alias contains invalid characters, an error is raised" do
      assert_raise RDF.Namespace.InvalidAliasError, fn ->
        defmodule NSWithInvalidTerms do
          use RDF.Vocabulary.Namespace

          defvocab Example,
            base_iri: "http://example.com/ex#",
            terms: ~w[foo],
            alias: ["foo-bar": "foo"]
        end
      end
    end

    test "when trying to map an already existing term, an error is raised" do
      assert_raise RDF.Namespace.InvalidAliasError, fn ->
        defmodule NSWithInvalidAliases1 do
          use RDF.Vocabulary.Namespace

          defvocab Example,
            base_iri: "http://example.com/ex#",
            terms: ~w[foo bar],
            alias: [foo: "bar"]
        end
      end
    end

    test "when strict and trying to map to a term not in the vocabulary, an error is raised" do
      assert_raise RDF.Namespace.InvalidAliasError, fn ->
        defmodule NSWithInvalidAliases2 do
          use RDF.Vocabulary.Namespace

          defvocab Example,
            base_iri: "http://example.com/ex#",
            terms: ~w[],
            alias: [foo: "bar"]
        end
      end
    end

    test "when defining an alias for an alias, an error is raised" do
      assert_raise RDF.Namespace.InvalidAliasError, fn ->
        defmodule NSWithInvalidAliases3 do
          use RDF.Vocabulary.Namespace

          defvocab Example,
            base_iri: "http://example.com/ex#",
            terms: ~w[bar],
            alias: [foo: "bar", baz: "foo"]
        end
      end
    end
  end

  test "defvocab with special terms" do
    defmodule NSofEdgeCases do
      use RDF.Vocabulary.Namespace

      defvocab Example,
        base_iri: "http://example.com/ex#",
        terms: ~w[
          nil
          true
          false
          do
          end
          else
          try
          rescue
          catch
          after
          not
          cond
          inbits
          inlist
          receive
          __info__
          __MODULE__
          __FILE__
          __DIR__
          __ENV__
          __CALLER__
        ]

      # This one also passes the tests, but causes some warnings:
      # __block__
    end

    alias NSofEdgeCases.Example
    alias TestNS.EX

    assert Example.nil() == ~I<http://example.com/ex#nil>
    assert Example.true() == ~I<http://example.com/ex#true>
    assert Example.false() == ~I<http://example.com/ex#false>
    assert Example.do() == ~I<http://example.com/ex#do>
    assert Example.end() == ~I<http://example.com/ex#end>
    assert Example.else() == ~I<http://example.com/ex#else>
    assert Example.try() == ~I<http://example.com/ex#try>
    assert Example.rescue() == ~I<http://example.com/ex#rescue>
    assert Example.catch() == ~I<http://example.com/ex#catch>
    assert Example.after() == ~I<http://example.com/ex#after>
    assert Example.not() == ~I<http://example.com/ex#not>
    assert Example.cond() == ~I<http://example.com/ex#cond>
    assert Example.inbits() == ~I<http://example.com/ex#inbits>
    assert Example.inlist() == ~I<http://example.com/ex#inlist>
    assert Example.receive() == ~I<http://example.com/ex#receive>
    #    assert Example.__block__   == ~I<http://example.com/ex#__block__>
    assert Example.__info__() == ~I<http://example.com/ex#__info__>
    assert Example.__MODULE__() == ~I<http://example.com/ex#__MODULE__>
    assert Example.__FILE__() == ~I<http://example.com/ex#__FILE__>
    assert Example.__DIR__() == ~I<http://example.com/ex#__DIR__>
    assert Example.__ENV__() == ~I<http://example.com/ex#__ENV__>
    assert Example.__CALLER__() == ~I<http://example.com/ex#__CALLER__>

    assert Example.nil(EX.S, 1) == RDF.description(EX.S, init: {EX.S, Example.nil(), 1})
    assert Example.true(EX.S, 1) == RDF.description(EX.S, init: {EX.S, Example.true(), 1})
    assert Example.false(EX.S, 1) == RDF.description(EX.S, init: {EX.S, Example.false(), 1})
    assert Example.do(EX.S, 1) == RDF.description(EX.S, init: {EX.S, Example.do(), 1})
    assert Example.end(EX.S, 1) == RDF.description(EX.S, init: {EX.S, Example.end(), 1})
    assert Example.else(EX.S, 1) == RDF.description(EX.S, init: {EX.S, Example.else(), 1})
    assert Example.try(EX.S, 1) == RDF.description(EX.S, init: {EX.S, Example.try(), 1})
    assert Example.rescue(EX.S, 1) == RDF.description(EX.S, init: {EX.S, Example.rescue(), 1})
    assert Example.catch(EX.S, 1) == RDF.description(EX.S, init: {EX.S, Example.catch(), 1})
    assert Example.after(EX.S, 1) == RDF.description(EX.S, init: {EX.S, Example.after(), 1})
    assert Example.not(EX.S, 1) == RDF.description(EX.S, init: {EX.S, Example.not(), 1})
    assert Example.cond(EX.S, 1) == RDF.description(EX.S, init: {EX.S, Example.cond(), 1})
    assert Example.inbits(EX.S, 1) == RDF.description(EX.S, init: {EX.S, Example.inbits(), 1})
    assert Example.inlist(EX.S, 1) == RDF.description(EX.S, init: {EX.S, Example.inlist(), 1})
    assert Example.receive(EX.S, 1) == RDF.description(EX.S, init: {EX.S, Example.receive(), 1})
  end

  describe "defvocab with invalid terms" do
    test "terms with a special meaning for Elixir cause a failure" do
      assert_raise RDF.Namespace.InvalidTermError, ~r/unquote_splicing/s, fn ->
        defmodule NSWithElixirTerms do
          use RDF.Vocabulary.Namespace

          defvocab Example,
            base_iri: "http://example.com/example#",
            terms: RDF.Vocabulary.Namespace.invalid_terms()
        end
      end
    end

    test "alias terms with a special meaning for Elixir cause a failure" do
      assert_raise RDF.Namespace.InvalidTermError, ~r/unquote_splicing/s, fn ->
        defmodule NSWithElixirAliasTerms do
          use RDF.Vocabulary.Namespace

          defvocab Example,
            base_iri: "http://example.com/example#",
            terms: ~w[foo],
            alias: [
              and: "foo",
              or: "foo",
              xor: "foo",
              in: "foo",
              fn: "foo",
              def: "foo",
              when: "foo",
              if: "foo",
              for: "foo",
              case: "foo",
              with: "foo",
              quote: "foo",
              unquote: "foo",
              unquote_splicing: "foo",
              alias: "foo",
              import: "foo",
              require: "foo",
              super: "foo",
              __aliases__: "foo"
            ]
        end
      end
    end

    test "terms with a special meaning for Elixir don't cause a failure when they are ignored" do
      defmodule NSWithIgnoredElixirTerms do
        use RDF.Vocabulary.Namespace

        defvocab Example,
          base_iri: "http://example.com/example#",
          terms: RDF.Vocabulary.Namespace.invalid_terms(),
          ignore: RDF.Vocabulary.Namespace.invalid_terms()
      end
    end

    test "terms with a special meaning for Elixir don't cause a failure when an alias is defined" do
      defmodule NSWithAliasesForElixirTerms do
        use RDF.Vocabulary.Namespace

        defvocab Example,
          base_iri: "http://example.com/example#",
          terms: RDF.Vocabulary.Namespace.invalid_terms(),
          alias: [
            and_: "and",
            or_: "or",
            xor_: "xor",
            in_: "in",
            fn_: "fn",
            def_: "def",
            when_: "when",
            if_: "if",
            for_: "for",
            case_: "case",
            with_: "with",
            quote_: "quote",
            unquote_: "unquote",
            unquote_splicing_: "unquote_splicing",
            alias_: "alias",
            import_: "import",
            require_: "require",
            super_: "super",
            _aliases_: "__aliases__"
          ]
      end

      alias NSWithAliasesForElixirTerms.Example

      assert Example.and_() == ~I<http://example.com/example#and>
      assert Example.or_() == ~I<http://example.com/example#or>
      assert Example.xor_() == ~I<http://example.com/example#xor>
      assert Example.in_() == ~I<http://example.com/example#in>
      assert Example.fn_() == ~I<http://example.com/example#fn>
      assert Example.def_() == ~I<http://example.com/example#def>
      assert Example.when_() == ~I<http://example.com/example#when>
      assert Example.if_() == ~I<http://example.com/example#if>
      assert Example.for_() == ~I<http://example.com/example#for>
      assert Example.case_() == ~I<http://example.com/example#case>
      assert Example.with_() == ~I<http://example.com/example#with>
      assert Example.quote_() == ~I<http://example.com/example#quote>
      assert Example.unquote_() == ~I<http://example.com/example#unquote>
      assert Example.unquote_splicing_() == ~I<http://example.com/example#unquote_splicing>
      assert Example.alias_() == ~I<http://example.com/example#alias>
      assert Example.import_() == ~I<http://example.com/example#import>
      assert Example.require_() == ~I<http://example.com/example#require>
      assert Example.super_() == ~I<http://example.com/example#super>
      assert Example._aliases_() == ~I<http://example.com/example#__aliases__>
    end
  end

  describe "defvocab invalid character handling" do
    test "when a term contains unallowed characters and no alias defined, it fails when invalid_characters = :fail" do
      assert_raise RDF.Namespace.InvalidTermError, ~r/Foo-bar.*foo-bar/s, fn ->
        defmodule NSWithInvalidTerms1 do
          use RDF.Vocabulary.Namespace

          defvocab Example,
            base_iri: "http://example.com/example#",
            terms: ~w[Foo-bar foo-bar]
        end
      end
    end

    test "when a term contains unallowed characters it does not fail when invalid_characters = :ignore" do
      defmodule NSWithInvalidTerms2 do
        use RDF.Vocabulary.Namespace

        defvocab Example,
          base_iri: "http://example.com/example#",
          terms: ~w[Foo-bar foo-bar],
          invalid_characters: :ignore
      end
    end
  end

  describe "defvocab case violation handling" do
    test "aliases can fix case violations" do
      defmodule NSWithBadCasedTerms1 do
        use RDF.Vocabulary.Namespace

        defvocab Example,
          base_iri: "http://example.com/ex#",
          case_violations: :fail,
          data:
            RDF.Graph.new([
              {~I<http://example.com/ex#Foo>, ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#type>,
               ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#Property>},
              {~I<http://example.com/ex#bar>, ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#type>,
               ~I<http://www.w3.org/2000/01/rdf-schema#Resource>}
            ]),
          alias: [
            foo: "Foo",
            Bar: "bar"
          ]
      end
    end

    test "when case_violations == :ignore is set, case violations are ignored" do
      defmodule NSWithBadCasedTerms2 do
        use RDF.Vocabulary.Namespace

        defvocab Example,
          base_iri: "http://example.com/ex#",
          case_violations: :ignore,
          data:
            RDF.Graph.new([
              {~I<http://example.com/ex#Foo>, ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#type>,
               ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#Property>},
              {~I<http://example.com/ex#bar>, ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#type>,
               ~I<http://www.w3.org/2000/01/rdf-schema#Resource>}
            ]),
          alias: [
            foo: "Foo",
            Bar: "bar"
          ]
      end
    end

    test "a capitalized property without an alias and :case_violations == :fail, raises an error" do
      assert_raise RDF.Namespace.InvalidTermError, ~r<http://example\.com/ex#Foo>s, fn ->
        defmodule NSWithBadCasedTerms3 do
          use RDF.Vocabulary.Namespace

          defvocab Example,
            base_iri: "http://example.com/ex#",
            case_violations: :fail,
            data:
              RDF.Graph.new([
                {~I<http://example.com/ex#Foo>,
                 ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#type>,
                 ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#Property>}
              ])
        end
      end
    end

    test "a lowercased non-property without an alias and :case_violations == :fail, raises an error" do
      assert_raise RDF.Namespace.InvalidTermError, ~r<http://example\.com/ex#bar>s, fn ->
        defmodule NSWithBadCasedTerms4 do
          use RDF.Vocabulary.Namespace

          defvocab Example,
            base_iri: "http://example.com/ex#",
            case_violations: :fail,
            data:
              RDF.Graph.new([
                {~I<http://example.com/ex#bar>,
                 ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#type>,
                 ~I<http://www.w3.org/2000/01/rdf-schema#Resource>}
              ])
        end
      end
    end

    test "a capitalized alias for a property and :case_violations == :fail, raises an error" do
      assert_raise RDF.Namespace.InvalidTermError, fn ->
        defmodule NSWithBadCasedTerms5 do
          use RDF.Vocabulary.Namespace

          defvocab Example,
            base_iri: "http://example.com/ex#",
            case_violations: :fail,
            data:
              RDF.Graph.new([
                {~I<http://example.com/ex#foo>,
                 ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#type>,
                 ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#Property>}
              ]),
            alias: [Foo: "foo"]
        end
      end
    end

    test "a lowercased alias for a non-property and :case_violations == :fail, raises an error" do
      assert_raise RDF.Namespace.InvalidTermError, fn ->
        defmodule NSWithBadCasedTerms6 do
          use RDF.Vocabulary.Namespace

          defvocab Example,
            base_iri: "http://example.com/ex#",
            case_violations: :fail,
            data:
              RDF.Graph.new([
                {~I<http://example.com/ex#Bar>,
                 ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#type>,
                 ~I<http://www.w3.org/2000/01/rdf-schema#Resource>}
              ]),
            alias: [bar: "Bar"]
        end
      end
    end

    test "terms starting with an underscore are not checked" do
      defmodule NSWithUnderscoreTerms do
        use RDF.Vocabulary.Namespace

        defvocab Example,
          base_iri: "http://example.com/ex#",
          case_violations: :fail,
          data:
            RDF.Graph.new([
              {~I<http://example.com/ex#_Foo>,
               ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#type>,
               ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#Property>},
              {~I<http://example.com/ex#_bar>,
               ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#type>,
               ~I<http://www.w3.org/2000/01/rdf-schema#Resource>}
            ])
      end
    end
  end

  describe "defvocab ignore terms" do
    defmodule NSWithIgnoredTerms do
      use RDF.Vocabulary.Namespace

      defvocab ExampleIgnoredLowercasedTerm,
        base_iri: "http://example.com/",
        data:
          RDF.Graph.new([
            {~I<http://example.com/foo>, ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#type>,
             ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#Property>},
            {~I<http://example.com/Bar>, ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#type>,
             ~I<http://www.w3.org/2000/01/rdf-schema#Resource>}
          ]),
        ignore: ["foo"]

      defvocab ExampleIgnoredCapitalizedTerm,
        base_iri: "http://example.com/",
        data:
          RDF.Dataset.new([
            {~I<http://example.com/foo>, ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#type>,
             ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#Property>},
            {~I<http://example.com/Bar>, ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#type>,
             ~I<http://www.w3.org/2000/01/rdf-schema#Resource>,
             ~I<http://example.com/from_dataset#Graph>}
          ]),
        ignore: ~w[Bar]

      defvocab ExampleIgnoredLowercasedTermWithAlias,
        base_iri: "http://example.com/",
        terms: ~w[foo Bar],
        alias: [Foo: "foo"],
        ignore: ~w[foo]a

      defvocab ExampleIgnoredCapitalizedTermWithAlias,
        base_iri: "http://example.com/",
        terms: ~w[foo Bar],
        alias: [bar: "Bar"],
        ignore: ~w[Bar]a

      defvocab ExampleIgnoredLowercasedAlias,
        base_iri: "http://example.com/",
        terms: ~w[foo Bar],
        alias: [bar: "Bar"],
        ignore: ~w[bar]a

      defvocab ExampleIgnoredCapitalizedAlias,
        base_iri: "http://example.com/",
        terms: ~w[foo Bar],
        alias: [Foo: "foo"],
        ignore: ~w[Foo]a

      defvocab ExampleIgnoredNonStrictLowercasedTerm,
        base_iri: "http://example.com/",
        terms: ~w[],
        strict: false,
        ignore: ~w[foo]a

      defvocab ExampleIgnoredNonStrictCapitalizedTerm,
        base_iri: "http://example.com/",
        terms: ~w[],
        strict: false,
        ignore: ~w[Bar]a
    end

    test "resolution of ignored lowercased term on a strict vocab fails" do
      alias NSWithIgnoredTerms.ExampleIgnoredLowercasedTerm
      assert ExampleIgnoredLowercasedTerm.__terms__() == [:Bar]
      assert_raise UndefinedFunctionError, fn -> ExampleIgnoredLowercasedTerm.foo() end
    end

    test "resolution of ignored capitalized term on a strict vocab fails" do
      alias NSWithIgnoredTerms.ExampleIgnoredCapitalizedTerm
      assert ExampleIgnoredCapitalizedTerm.__terms__() == [:foo]

      assert_raise RDF.Namespace.UndefinedTermError, fn ->
        RDF.iri(ExampleIgnoredCapitalizedTerm.Bar)
      end
    end

    test "resolution of ignored lowercased term with alias on a strict vocab fails" do
      alias NSWithIgnoredTerms.ExampleIgnoredLowercasedTermWithAlias
      assert ExampleIgnoredLowercasedTermWithAlias.__terms__() == [:Bar, :Foo]
      assert_raise UndefinedFunctionError, fn -> ExampleIgnoredLowercasedTermWithAlias.foo() end
      assert RDF.iri(ExampleIgnoredLowercasedTermWithAlias.Foo) == ~I<http://example.com/foo>
    end

    test "resolution of ignored capitalized term with alias on a strict vocab fails" do
      alias NSWithIgnoredTerms.ExampleIgnoredCapitalizedTermWithAlias
      assert ExampleIgnoredCapitalizedTermWithAlias.__terms__() == [:bar, :foo]

      assert_raise RDF.Namespace.UndefinedTermError, fn ->
        RDF.iri(ExampleIgnoredCapitalizedTermWithAlias.Bar)
      end

      assert RDF.iri(ExampleIgnoredCapitalizedTermWithAlias.bar()) == ~I<http://example.com/Bar>
    end

    test "resolution of ignored lowercased alias on a strict vocab fails" do
      alias NSWithIgnoredTerms.ExampleIgnoredLowercasedAlias
      assert ExampleIgnoredLowercasedAlias.__terms__() == [:Bar, :foo]
      assert RDF.iri(ExampleIgnoredLowercasedAlias.Bar) == ~I<http://example.com/Bar>

      assert_raise UndefinedFunctionError, fn ->
        RDF.iri(ExampleIgnoredLowercasedAlias.bar())
      end
    end

    test "resolution of ignored capitalized alias on a strict vocab fails" do
      alias NSWithIgnoredTerms.ExampleIgnoredCapitalizedAlias
      assert ExampleIgnoredCapitalizedAlias.__terms__() == [:Bar, :foo]
      assert RDF.iri(ExampleIgnoredCapitalizedAlias.foo()) == ~I<http://example.com/foo>

      assert_raise RDF.Namespace.UndefinedTermError, fn ->
        RDF.iri(ExampleIgnoredCapitalizedAlias.Foo)
      end
    end

    test "resolution of ignored lowercased term on a non-strict vocab fails" do
      alias NSWithIgnoredTerms.ExampleIgnoredNonStrictLowercasedTerm

      assert_raise UndefinedFunctionError, fn ->
        ExampleIgnoredNonStrictLowercasedTerm.foo()
      end
    end

    test "resolution of ignored capitalized term on a non-strict vocab fails" do
      alias NSWithIgnoredTerms.ExampleIgnoredNonStrictCapitalizedTerm

      assert_raise RDF.Namespace.UndefinedTermError, fn ->
        RDF.iri(ExampleIgnoredNonStrictCapitalizedTerm.Bar)
      end
    end

    test "ignored terms with invalid characters do not raise anything" do
      defmodule IgnoredTermWithInvalidCharacters do
        use RDF.Vocabulary.Namespace

        defvocab Example,
          base_iri: "http://example.com/",
          terms: ~w[foo-bar],
          ignore: ~w[foo-bar]a
      end
    end

    test "ignored terms with case violations do not raise anything" do
      defmodule IgnoredTermWithCaseViolations do
        use RDF.Vocabulary.Namespace

        defvocab Example,
          base_iri: "http://example.com/",
          data:
            RDF.Dataset.new([
              {~I<http://example.com/Foo>, ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#type>,
               ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#Property>},
              {~I<http://example.com/bar>, ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#type>,
               ~I<http://www.w3.org/2000/01/rdf-schema#Resource>,
               ~I<http://example.com/from_dataset#Graph>}
            ]),
          case_violations: :fail,
          ignore: ~w[Foo bar]a
      end
    end
  end

  test "__base_iri__ returns the base_iri" do
    alias TestNS.ExampleFromGraph, as: HashVocab
    alias TestNS.ExampleFromNTriplesFile, as: SlashVocab

    assert HashVocab.__base_iri__() == "http://example.com/from_graph#"
    assert SlashVocab.__base_iri__() == "http://example.com/from_ntriples/"
  end

  test "__iris__ returns all IRIs of the vocabulary" do
    alias TestNS.ExampleFromGraph, as: Example1
    assert length(Example1.__iris__()) == 2
    assert RDF.iri(Example1.foo()) in Example1.__iris__()
    assert RDF.iri(Example1.Bar) in Example1.__iris__()

    alias TestNS.ExampleFromNTriplesFile, as: Example2
    assert length(Example2.__iris__()) == 2
    assert RDF.iri(Example2.foo()) in Example2.__iris__()
    assert RDF.iri(Example2.Bar) in Example2.__iris__()

    alias TestNS.ExampleFromNQuadsFile, as: Example3
    assert length(Example3.__iris__()) == 2
    assert RDF.iri(Example3.foo()) in Example3.__iris__()
    assert RDF.iri(Example3.Bar) in Example3.__iris__()

    alias TestNS.ExampleFromTurtleFile, as: Example4
    assert length(Example4.__iris__()) == 2
    assert RDF.iri(Example4.foo()) in Example4.__iris__()
    assert RDF.iri(Example4.Bar) in Example4.__iris__()

    alias TestNS.StrictExampleFromAliasedTerms, as: Example4
    assert length(Example4.__iris__()) == 4
    assert RDF.iri(Example4.Term1) in Example4.__iris__()
    assert RDF.iri(Example4.term2()) in Example4.__iris__()
    assert RDF.iri(Example4.Term3) in Example4.__iris__()
    assert RDF.iri(Example4.term4()) in Example4.__iris__()
  end

  describe "__terms__" do
    alias TestNS.{ExampleFromGraph, ExampleFromDataset, StrictExampleFromAliasedTerms}

    test "includes all defined terms" do
      assert length(ExampleFromGraph.__terms__()) == 2

      for term <- ~w[foo Bar]a do
        assert term in ExampleFromGraph.__terms__()
      end

      assert length(ExampleFromDataset.__terms__()) == 2

      for term <- ~w[foo Bar]a do
        assert term in ExampleFromDataset.__terms__()
      end
    end

    test "includes aliases" do
      assert length(StrictExampleFromAliasedTerms.__terms__()) == 8

      for term <- ~w[term1 Term1 term2 Term2 Term3 term4 Term-3 term-4]a do
        assert term in StrictExampleFromAliasedTerms.__terms__()
      end
    end
  end

  test "resolving an unqualified term raises an error" do
    assert_raise RDF.Namespace.UndefinedTermError, fn -> RDF.iri(:foo) end
  end

  test "resolving an non-RDF.Namespace module" do
    assert_raise RDF.Namespace.UndefinedTermError, fn -> RDF.iri(ExUnit.Test) end
  end

  test "resolving an top-level module" do
    assert_raise RDF.Namespace.UndefinedTermError,
                 "ExUnit is not a RDF.Namespace; top-level modules can't be RDF.Namespaces",
                 fn -> RDF.iri(ExUnit) end
  end

  test "resolving an non-existing RDF.Namespace module" do
    assert_raise RDF.Namespace.UndefinedTermError, fn -> RDF.iri(NonExisting.Test) end
  end

  describe "term resolution in a strict vocab namespace" do
    alias TestNS.{ExampleFromGraph, ExampleFromNTriplesFile, StrictExampleFromTerms}

    test "undefined terms" do
      assert_raise UndefinedFunctionError, fn ->
        ExampleFromGraph.undefined()
      end

      assert_raise UndefinedFunctionError, fn ->
        ExampleFromNTriplesFile.undefined()
      end

      assert_raise UndefinedFunctionError, fn ->
        StrictExampleFromTerms.undefined()
      end

      assert {:error, %RDF.Namespace.UndefinedTermError{}} =
               RDF.Namespace.resolve_term(TestNS.ExampleFromGraph.Undefined)

      assert {:error, %RDF.Namespace.UndefinedTermError{}} =
               RDF.Namespace.resolve_term(ExampleFromNTriplesFile.Undefined)

      assert {:error, %RDF.Namespace.UndefinedTermError{}} =
               RDF.Namespace.resolve_term(StrictExampleFromTerms.Undefined)

      assert_raise RDF.Namespace.UndefinedTermError, fn ->
        RDF.Namespace.resolve_term!(TestNS.ExampleFromGraph.Undefined)
      end

      assert_raise RDF.Namespace.UndefinedTermError, fn ->
        RDF.Namespace.resolve_term!(ExampleFromNTriplesFile.Undefined)
      end

      assert_raise RDF.Namespace.UndefinedTermError, fn ->
        RDF.Namespace.resolve_term!(StrictExampleFromTerms.Undefined)
      end
    end

    test "lowercased terms" do
      assert ExampleFromGraph.foo() == ~I<http://example.com/from_graph#foo>
      assert RDF.iri(ExampleFromGraph.foo()) == ~I<http://example.com/from_graph#foo>

      assert ExampleFromNTriplesFile.foo() == ~I<http://example.com/from_ntriples/foo>
      assert RDF.iri(ExampleFromNTriplesFile.foo()) == ~I<http://example.com/from_ntriples/foo>

      assert StrictExampleFromTerms.foo() == ~I<http://example.com/strict_from_terms#foo>
      assert RDF.iri(StrictExampleFromTerms.foo()) == ~I<http://example.com/strict_from_terms#foo>
    end

    test "capitalized terms" do
      assert RDF.iri(ExampleFromGraph.Bar) == ~I<http://example.com/from_graph#Bar>
      assert RDF.iri(ExampleFromNTriplesFile.Bar) == ~I<http://example.com/from_ntriples/Bar>
      assert RDF.iri(StrictExampleFromTerms.Bar) == ~I<http://example.com/strict_from_terms#Bar>
    end

    test "terms starting with an underscore" do
      defmodule NSwithUnderscoreTerms do
        use RDF.Vocabulary.Namespace

        defvocab Example,
          base_iri: "http://example.com/ex#",
          terms: ~w[_foo]
      end

      alias NSwithUnderscoreTerms.Example
      alias TestNS.EX

      assert Example._foo() == ~I<http://example.com/ex#_foo>
      assert Example._foo(EX.S, 1) == RDF.description(EX.S, init: {EX.S, Example._foo(), 1})
    end
  end

  describe "term resolution in a non-strict vocab namespace" do
    alias TestNS.NonStrictExampleFromTerms

    test "undefined lowercased terms" do
      assert NonStrictExampleFromTerms.random() ==
               ~I<http://example.com/non_strict_from_terms#random>
    end

    test "undefined capitalized terms" do
      assert RDF.iri(NonStrictExampleFromTerms.Random) ==
               ~I<http://example.com/non_strict_from_terms#Random>
    end

    test "undefined terms starting with an underscore" do
      assert NonStrictExampleFromTerms._random() ==
               ~I<http://example.com/non_strict_from_terms#_random>
    end

    test "defined lowercase terms" do
      assert NonStrictExampleFromTerms.foo() == ~I<http://example.com/non_strict_from_terms#foo>
    end

    test "defined capitalized terms" do
      assert RDF.iri(NonStrictExampleFromTerms.Bar) ==
               ~I<http://example.com/non_strict_from_terms#Bar>
    end
  end

  describe "term resolution of aliases on a strict vocabulary" do
    alias TestNS.StrictExampleFromAliasedTerms, as: Example

    test "the alias resolves to the correct IRI" do
      assert RDF.iri(Example.Term1) == ~I<http://example.com/strict_from_aliased_terms#term1>
      assert RDF.iri(Example.term2()) == ~I<http://example.com/strict_from_aliased_terms#Term2>
      assert RDF.iri(Example.Term3) == ~I<http://example.com/strict_from_aliased_terms#Term-3>
      assert RDF.iri(Example.term4()) == ~I<http://example.com/strict_from_aliased_terms#term-4>
    end

    test "the old term remains resolvable" do
      assert RDF.iri(Example.term1()) == ~I<http://example.com/strict_from_aliased_terms#term1>
      assert RDF.iri(Example.Term2) == ~I<http://example.com/strict_from_aliased_terms#Term2>
    end

    test "defining multiple aliases for a term" do
      alias TestNS.ExampleWithSynonymAliases, as: Example
      assert Example.foo() == Example.baz()
      assert RDF.iri(Example.foo()) == RDF.iri(Example.baz())
    end
  end

  describe "term resolution of aliases on a non-strict vocabulary" do
    alias TestNS.NonStrictExampleFromAliasedTerms, as: Example

    test "the alias resolves to the correct IRI" do
      assert RDF.iri(Example.Term1) == ~I<http://example.com/non_strict_from_aliased_terms#term1>

      assert RDF.iri(Example.term2()) ==
               ~I<http://example.com/non_strict_from_aliased_terms#Term2>

      assert RDF.iri(Example.Term3) == ~I<http://example.com/non_strict_from_aliased_terms#Term-3>

      assert RDF.iri(Example.term4()) ==
               ~I<http://example.com/non_strict_from_aliased_terms#term-4>
    end

    test "the old term remains resolvable" do
      assert RDF.iri(Example.term1()) ==
               ~I<http://example.com/non_strict_from_aliased_terms#term1>

      assert RDF.iri(Example.Term2) == ~I<http://example.com/non_strict_from_aliased_terms#Term2>
    end
  end

  describe "description DSL" do
    alias TestNS.{EX, EXS}

    test "one statement with a strict property term" do
      assert EXS.foo(EX.S, EX.O) == Description.new(EX.S, init: {EXS.foo(), EX.O})
    end

    test "multiple statements with strict property terms and one object" do
      description =
        EX.S
        |> EXS.foo(EX.O1)
        |> EXS.bar(EX.O2)

      assert description ==
               Description.new(EX.S, init: [{EXS.foo(), EX.O1}, {EXS.bar(), EX.O2}])
    end

    test "multiple statements with strict property terms and multiple objects in a list" do
      description =
        EX.S
        |> EXS.foo([EX.O1, EX.O2])
        |> EXS.bar([EX.O3, EX.O4])

      assert description ==
               Description.new(EX.S,
                 init: [
                   {EXS.foo(), EX.O1},
                   {EXS.foo(), EX.O2},
                   {EXS.bar(), EX.O3},
                   {EXS.bar(), EX.O4}
                 ]
               )
    end

    test "multiple statements with strict property terms and multiple objects as arguments" do
      description =
        EX.S
        |> EXS.foo(EX.O1, EX.O2)
        |> EXS.bar(EX.O3, EX.O4, EX.O5)

      assert description ==
               Description.new(EX.S,
                 init: [
                   {EXS.foo(), EX.O1},
                   {EXS.foo(), EX.O2},
                   {EXS.bar(), EX.O3},
                   {EXS.bar(), EX.O4},
                   {EXS.bar(), EX.O5}
                 ]
               )
    end

    test "one statement with a non-strict property term" do
      assert EX.p(EX.S, EX.O) == Description.new(EX.S, init: {EX.p(), EX.O})
    end

    test "multiple statements with non-strict property terms and one object" do
      description =
        EX.S
        |> EX.p1(EX.O1)
        |> EX.p2(EX.O2)

      assert description ==
               Description.new(EX.S, init: [{EX.p1(), EX.O1}, {EX.p2(), EX.O2}])
    end

    test "multiple statements with non-strict property terms and multiple objects in a list" do
      description =
        EX.S
        |> EX.p1([EX.O1, EX.O2])
        |> EX.p2([EX.O3, EX.O4])

      assert description ==
               Description.new(EX.S,
                 init: [
                   {EX.p1(), EX.O1},
                   {EX.p1(), EX.O2},
                   {EX.p2(), EX.O3},
                   {EX.p2(), EX.O4}
                 ]
               )
    end

    test "multiple statements with non-strict property terms and multiple objects as arguments" do
      description =
        EX.S
        |> EX.p1(EX.O1, EX.O2)
        |> EX.p2(EX.O3, EX.O4)

      assert description ==
               Description.new(EX.S,
                 init: [
                   {EX.p1(), EX.O1},
                   {EX.p1(), EX.O2},
                   {EX.p2(), EX.O3},
                   {EX.p2(), EX.O4}
                 ]
               )
    end
  end

  describe "term resolution on the top-level RDF module" do
    test "capitalized terms" do
      assert RDF.iri(RDF.Property) == ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#Property>
      assert RDF.iri(RDF.Statement) == ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#Statement>
      assert RDF.iri(RDF.List) == ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#List>
      assert RDF.iri(RDF.Nil) == ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#nil>
      assert RDF.iri(RDF.Seq) == ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#Seq>
      assert RDF.iri(RDF.Bag) == ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#Bag>
      assert RDF.iri(RDF.Alt) == ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#Alt>
      assert RDF.iri(RDF.LangString) == ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#langString>

      assert RDF.iri(RDF.PlainLiteral) ==
               ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#PlainLiteral>

      assert RDF.iri(RDF.XMLLiteral) == ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#XMLLiteral>
      assert RDF.iri(RDF.HTML) == ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#HTML>
      assert RDF.iri(RDF.Property) == ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#Property>
    end

    test "lowercase terms" do
      assert RDF.type() == ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#type>
      assert RDF.subject() == ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#subject>
      assert RDF.predicate() == ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#predicate>
      assert RDF.object() == ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#object>
      assert RDF.first() == ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#first>
      assert RDF.rest() == ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#rest>
      assert RDF.value() == ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#value>

      assert RDF.langString() == ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#langString>
      assert RDF.nil() == ~I<http://www.w3.org/1999/02/22-rdf-syntax-ns#nil>
    end

    test "description DSL" do
      alias TestNS.EX
      assert RDF.type(EX.S, 1) == RDF.NS.RDF.type(EX.S, 1)
      assert RDF.subject(EX.S, 1, 2) == RDF.NS.RDF.subject(EX.S, 1, 2)
      assert RDF.predicate(EX.S, 1, 2, 3) == RDF.NS.RDF.predicate(EX.S, 1, 2, 3)
      assert RDF.object(EX.S, 1, 2, 3, 4) == RDF.NS.RDF.object(EX.S, 1, 2, 3, 4)
      assert RDF.first(EX.S, 1, 2, 3, 4, 5) == RDF.NS.RDF.first(EX.S, 1, 2, 3, 4, 5)
      assert RDF.rest(EX.S, [1, 2, 3, 4, 5, 6]) == RDF.NS.RDF.rest(EX.S, [1, 2, 3, 4, 5, 6])

      assert RDF.value(EX.S, [1, 2, 3, 4, 5, 6, 7]) ==
               RDF.NS.RDF.value(EX.S, [1, 2, 3, 4, 5, 6, 7])
    end
  end
end