defmodule RDF.Statement do @moduledoc """ Helper functions for RDF statements. A RDF statement is either a `RDF.Triple` or a `RDF.Quad`. """ alias RDF.{BlankNode, IRI, Literal, Quad, Term, Triple} import RDF.Guards @type subject :: IRI.t | BlankNode.t @type predicate :: IRI.t | BlankNode.t @type object :: IRI.t | BlankNode.t | Literal.t @type graph_name :: IRI.t | BlankNode.t @type coercible_subject :: subject | atom | String.t @type coercible_predicate :: predicate | atom | String.t @type coercible_object :: object | any @type coercible_graph_name :: graph_name | atom | String.t @type qualified_term :: {atom, Term.t | nil} @type term_mapping :: (qualified_term -> any | nil) @type t :: Triple.t | Quad.t @doc """ Creates a `RDF.Statement` tuple with proper RDF values. An error is raised when the given elements are not coercible to RDF values. ## Examples iex> RDF.Statement.coerce {"http://example.com/S", "http://example.com/p", 42} {~I, ~I, RDF.literal(42)} iex> RDF.Statement.coerce {"http://example.com/S", "http://example.com/p", 42, "http://example.com/Graph"} {~I, ~I, RDF.literal(42), ~I} """ @spec coerce(Triple.coercible_t) :: Triple.t @spec coerce(Quad.coercible_t) :: Quad.t def coerce(statement) def coerce({_, _, _} = triple), do: Triple.new(triple) def coerce({_, _, _, _} = quad), do: Quad.new(quad) @doc false @spec coerce_subject(coercible_subject) :: subject def coerce_subject(iri) def coerce_subject(iri = %IRI{}), do: iri def coerce_subject(bnode = %BlankNode{}), do: bnode def coerce_subject("_:" <> identifier), do: RDF.bnode(identifier) def coerce_subject(iri) when maybe_ns_term(iri) or is_binary(iri), do: RDF.iri!(iri) def coerce_subject(arg), do: raise RDF.Triple.InvalidSubjectError, subject: arg @doc false @spec coerce_predicate(coercible_predicate) :: predicate def coerce_predicate(iri) def coerce_predicate(iri = %IRI{}), do: iri # Note: Although, RDF does not allow blank nodes for properties, JSON-LD allows # them, by introducing the notion of "generalized RDF". # TODO: Support an option `:strict_rdf` to explicitly disallow them or produce warnings or ... def coerce_predicate(bnode = %BlankNode{}), do: bnode def coerce_predicate(iri) when maybe_ns_term(iri) or is_binary(iri), do: RDF.iri!(iri) def coerce_predicate(arg), do: raise RDF.Triple.InvalidPredicateError, predicate: arg @doc false @spec coerce_object(coercible_object) :: object def coerce_object(iri) def coerce_object(iri = %IRI{}), do: iri def coerce_object(literal = %Literal{}), do: literal def coerce_object(bnode = %BlankNode{}), do: bnode def coerce_object(bool) when is_boolean(bool), do: Literal.new(bool) def coerce_object(atom) when maybe_ns_term(atom), do: RDF.iri(atom) def coerce_object(arg), do: Literal.new(arg) @doc false @spec coerce_graph_name(coercible_graph_name) :: graph_name def coerce_graph_name(iri) def coerce_graph_name(nil), do: nil def coerce_graph_name(iri = %IRI{}), do: iri def coerce_graph_name(bnode = %BlankNode{}), do: bnode def coerce_graph_name("_:" <> identifier), do: RDF.bnode(identifier) def coerce_graph_name(iri) when maybe_ns_term(iri) or is_binary(iri), do: RDF.iri!(iri) def coerce_graph_name(arg), do: raise RDF.Quad.InvalidGraphContextError, graph_context: arg @doc """ Returns a tuple of native Elixir values from a `RDF.Statement` of RDF terms. Returns `nil` if one of the components of the given tuple is not convertible via `RDF.Term.value/1`. The optional second argument allows to specify a custom mapping with a function which will receive a tuple `{statement_position, rdf_term}` where `statement_position` is one of the atoms `:subject`, `:predicate`, `:object` or `:graph_name`, while `rdf_term` is the RDF term to be mapped. When the given function returns `nil` this will be interpreted as an error and will become the overhaul result of the `values/2` call. ## Examples iex> RDF.Statement.values {~I, ~I, RDF.literal(42)} {"http://example.com/S", "http://example.com/p", 42} iex> RDF.Statement.values {~I, ~I, RDF.literal(42), ~I} {"http://example.com/S", "http://example.com/p", 42, "http://example.com/Graph"} iex> {~I, ~I, RDF.literal(42), ~I} ...> |> RDF.Statement.values(fn ...> {:subject, subject} -> ...> subject |> to_string() |> String.last() ...> {:predicate, predicate} -> ...> predicate |> to_string() |> String.last() |> String.to_atom() ...> {:object, object} -> ...> RDF.Term.value(object) ...> {:graph_name, graph_name} -> ...> graph_name ...> end) {"S", :p, 42, ~I} """ @spec values(t | any, term_mapping) :: Triple.t_values | Quad.t_values | nil def values(statement, mapping \\ &default_term_mapping/1) def values({_, _, _} = triple, mapping), do: RDF.Triple.values(triple, mapping) def values({_, _, _, _} = quad, mapping), do: RDF.Quad.values(quad, mapping) def values(_, _), do: nil @doc false @spec default_term_mapping(qualified_term) :: any | nil def default_term_mapping(qualified_term) def default_term_mapping({:graph_name, nil}), do: nil def default_term_mapping({_, term}), do: RDF.Term.value(term) @doc """ Checks if the given tuple is a valid RDF statement, i.e. RDF triple or quad. The elements of a valid RDF statement must be RDF terms. On the subject position only IRIs and blank nodes allowed, while on the predicate and graph context position only IRIs allowed. The object position can be any RDF term. """ @spec valid?(Triple.t | Quad.t | any) :: boolean def valid?(tuple) def valid?({subject, predicate, object}) do valid_subject?(subject) && valid_predicate?(predicate) && valid_object?(object) end def valid?({subject, predicate, object, graph_name}) do valid_subject?(subject) && valid_predicate?(predicate) && valid_object?(object) && valid_graph_name?(graph_name) end def valid?(_), do: false @spec valid_subject?(subject | any) :: boolean def valid_subject?(%IRI{}), do: true def valid_subject?(%BlankNode{}), do: true def valid_subject?(_), do: false @spec valid_predicate?(predicate | any) :: boolean def valid_predicate?(%IRI{}), do: true def valid_predicate?(_), do: false @spec valid_object?(object | any) :: boolean def valid_object?(%IRI{}), do: true def valid_object?(%BlankNode{}), do: true def valid_object?(%Literal{}), do: true def valid_object?(_), do: false @spec valid_graph_name?(graph_name | any) :: boolean def valid_graph_name?(%IRI{}), do: true def valid_graph_name?(_), do: false end