defmodule RDF.PrefixMap do @moduledoc """ A mapping a prefix atoms to IRI namespaces. `RDF.PrefixMap` implements the `Enumerable` protocol. """ alias RDF.IRI @type prefix :: atom @type namespace :: IRI.t() @type coercible_prefix :: atom | String.t() @type coercible_namespace :: RDF.Vocabulary.Namespace.t() | String.t() | IRI.t() @type prefix_map :: %{prefix => namespace} @type conflict_resolver :: (coercible_prefix, coercible_namespace, coercible_namespace -> coercible_namespace) | :ignore | :overwrite @type t :: %__MODULE__{ map: prefix_map } defstruct map: %{} @doc """ Creates an empty `RDF.PrefixMap`. """ @spec new :: t def new, do: %__MODULE__{} @doc """ Creates a new `RDF.PrefixMap` with initial mappings. The initial prefix mappings can be passed as keyword lists or maps. The keys for the prefixes can be given as atoms or strings and will be normalized to atoms. The namespaces can be given as `RDF.IRI`s or strings and will be normalized to `RDF.IRI`s. """ @spec new(t | map | keyword) :: t def new(map) def new(%__MODULE__{} = prefix_map), do: prefix_map def new(map) when is_map(map) do %__MODULE__{map: Map.new(map, &normalize/1)} end def new(map) when is_list(map) do map |> Map.new() |> new() end defp normalize({prefix, namespace}) when is_atom(prefix), do: {prefix, IRI.coerce_base(namespace)} defp normalize({prefix, namespace}) when is_binary(prefix), do: normalize({String.to_atom(prefix), namespace}) defp normalize({prefix, namespace}), do: raise(ArgumentError, "Invalid prefix mapping: #{inspect(prefix)} => #{inspect(namespace)}") @doc """ Adds a prefix mapping to `prefix_map`. Unless a mapping of `prefix` to a different namespace already exists, an `:ok` tuple is returned, otherwise an `:error` tuple. """ @spec add(t, coercible_prefix, coercible_namespace) :: {:ok, t} | {:error, String.t()} def add(prefix_map, prefix, namespace) def add(%__MODULE__{map: map}, prefix, %IRI{} = namespace) when is_atom(prefix) do if conflicts?(map, prefix, namespace) do {:error, "prefix #{inspect(prefix)} is already mapped to another namespace"} else {:ok, %__MODULE__{map: Map.put(map, prefix, namespace)}} end end def add(%__MODULE__{} = prefix_map, prefix, namespace) do with {prefix, namespace} = normalize({prefix, namespace}) do add(prefix_map, prefix, namespace) end end @doc """ Adds a prefix mapping to the given `RDF.PrefixMap` and raises an exception in error cases. """ @spec add!(t, coercible_prefix, coercible_namespace) :: t def add!(prefix_map, prefix, namespace) do with {:ok, new_prefix_map} <- add(prefix_map, prefix, namespace) do new_prefix_map else {:error, error} -> raise error end end @doc """ Adds a prefix mapping to `prefix_map` overwriting an existing mapping. """ @spec put(t, coercible_prefix, coercible_namespace) :: t def put(prefix_map, prefix, namespace) def put(%__MODULE__{map: map}, prefix, %IRI{} = namespace) when is_atom(prefix) do %__MODULE__{map: Map.put(map, prefix, namespace)} end def put(%__MODULE__{} = prefix_map, prefix, namespace) do with {prefix, namespace} = normalize({prefix, namespace}) do put(prefix_map, prefix, namespace) end end @doc """ Merges two `RDF.PrefixMap`s. The second prefix map can also be given as any structure which can converted to a `RDF.PrefixMap` via `new/1`. If the prefix maps can be merged without conflicts, that is there are no prefixes mapped to different namespaces an `:ok` tuple is returned. Otherwise an `:error` tuple with the list of prefixes with conflicting namespaces is returned. See also `merge/3` which allows you to resolve conflicts with a function. """ @spec merge(t, t | map | keyword) :: {:ok, t} | {:error, [atom | String.t()]} def merge(prefix_map1, prefix_map2) def merge(%__MODULE__{map: map1}, %__MODULE__{map: map2}) do with [] <- merge_conflicts(map1, map2) do {:ok, %__MODULE__{map: Map.merge(map1, map2)}} else conflicts -> {:error, conflicts} end end def merge(%__MODULE__{} = prefix_map, other_prefixes) do merge(prefix_map, new(other_prefixes)) rescue FunctionClauseError -> raise ArgumentError, "#{inspect(other_prefixes)} is not convertible to a RDF.PrefixMap" end @doc """ Merges two `RDF.PrefixMap`s, resolving conflicts through the given `conflict_resolver` function. The second prefix map can also be given as any structure which can converted to a `RDF.PrefixMap` via `new/1`. The given function will be invoked when there are conflicting mappings of prefixes to different namespaces; its arguments are `prefix`, `namespace1` (the namespace for the prefix in the first prefix map), and `namespace2` (the namespace for the prefix in the second prefix map). The value returned by the `conflict_resolver` function is used as the namespace for the prefix in the resulting prefix map. Non-`RDF.IRI` values will be tried to be converted to `RDF.IRI`s via `RDF.IRI.new` implicitly. The most common conflict resolution strategies on can be chosen directly with the following atoms: - `:ignore`: keep the original namespace from `prefix_map1` - `:overwrite`: use the other namespace from `prefix_map2` If a conflict can't be resolved, the provided function can return `nil`. This will result in an overall return of an `:error` tuple with the list of prefixes for which the conflict couldn't be resolved. If everything could be merged, an `:ok` tuple is returned. """ @spec merge(t, t | map | keyword, conflict_resolver | nil) :: {:ok, t} | {:error, [atom | String.t()]} def merge(prefix_map1, prefix_map2, conflict_resolver) def merge(prefix_map1, prefix_map2, :ignore) do merge(prefix_map1, prefix_map2, fn _, ns, _ -> ns end) end def merge(prefix_map1, prefix_map2, :overwrite) do merge(prefix_map1, prefix_map2, fn _, _, ns -> ns end) end def merge(%__MODULE__{map: map1}, %__MODULE__{map: map2}, conflict_resolver) when is_function(conflict_resolver) do conflict_resolution = fn prefix, namespace1, namespace2 -> case conflict_resolver.(prefix, namespace1, namespace2) do nil -> :conflict result -> IRI.new(result) end end with resolved_merge = Map.merge(map1, map2, conflict_resolution), [] <- resolved_merge_rest_conflicts(resolved_merge) do {:ok, %__MODULE__{map: resolved_merge}} else conflicts -> {:error, conflicts} end end def merge(%__MODULE__{} = prefix_map1, prefix_map2, conflict_resolver) when is_function(conflict_resolver) do merge(prefix_map1, new(prefix_map2), conflict_resolver) end def merge(prefix_map1, prefix_map2, nil), do: merge(prefix_map1, prefix_map2) defp resolved_merge_rest_conflicts(map) do Enum.reduce(map, [], fn {prefix, :conflict}, conflicts -> [prefix | conflicts] _, conflicts -> conflicts end) end defp merge_conflicts(map1, map2) do Enum.reduce(map1, [], fn {prefix, namespace}, conflicts -> if conflicts?(map2, prefix, namespace) do [prefix | conflicts] else conflicts end end) end defp conflicts?(map, prefix, namespace) do (existing_namespace = Map.get(map, prefix)) && existing_namespace != namespace end @doc """ Merges two `RDF.PrefixMap`s and raises an exception in error cases. See `merge/2` and `merge/3` for more information on merging prefix maps. """ @spec merge!(t, t | map | keyword, conflict_resolver | nil) :: t def merge!(prefix_map1, prefix_map2, conflict_resolver \\ nil) do with {:ok, new_prefix_map} <- merge(prefix_map1, prefix_map2, conflict_resolver) do new_prefix_map else {:error, conflicts} -> conflicts = conflicts |> Stream.map(&inspect/1) |> Enum.join(", ") raise "conflicting prefix mappings: #{conflicts}" end end @doc """ Deletes the prefix mapping for `prefix` from `prefix_map`. If no mapping for `prefix` exists, `prefix_map` is returned unchanged. """ @spec delete(t, coercible_prefix) :: t def delete(prefix_map, prefix) def delete(%__MODULE__{map: map}, prefix) when is_atom(prefix) do %__MODULE__{map: Map.delete(map, prefix)} end def delete(prefix_map, prefix) when is_binary(prefix) do delete(prefix_map, String.to_atom(prefix)) end @doc """ Drops the given `prefixes` from `prefix_map`. If `prefixes` contains prefixes that are not in `prefix_map`, they're simply ignored. """ @spec drop(t, [coercible_prefix]) :: t def drop(prefix_map, prefixes) def drop(%__MODULE__{map: map}, prefixes) do %__MODULE__{ map: Map.drop( map, Enum.map(prefixes, fn prefix when is_binary(prefix) -> String.to_atom(prefix) other -> other end) ) } end @doc """ Returns the namespace for the given `prefix` in `prefix_map`. Returns `nil`, when the given `prefix` is not present in `prefix_map`. """ @spec namespace(t, coercible_prefix) :: namespace | nil def namespace(prefix_map, prefix) def namespace(%__MODULE__{map: map}, prefix) when is_atom(prefix) do Map.get(map, prefix) end def namespace(prefix_map, prefix) when is_binary(prefix) do namespace(prefix_map, String.to_atom(prefix)) end @doc """ Returns the prefix for the given `namespace` in `prefix_map`. Returns `nil`, when the given `namespace` is not present in `prefix_map`. """ @spec prefix(t, coercible_namespace) :: coercible_prefix | nil def prefix(prefix_map, namespace) def prefix(%__MODULE__{map: map}, %IRI{} = namespace) do Enum.find_value(map, fn {prefix, ns} -> ns == namespace && prefix end) end def prefix(prefix_map, namespace) when is_binary(namespace) do prefix(prefix_map, IRI.new(namespace)) end @doc """ Returns whether the given prefix exists in the given `RDF.PrefixMap`. """ @spec has_prefix?(t, coercible_prefix) :: boolean def has_prefix?(prefix_map, prefix) def has_prefix?(%__MODULE__{map: map}, prefix) when is_atom(prefix) do Map.has_key?(map, prefix) end def has_prefix?(prefix_map, prefix) when is_binary(prefix) do has_prefix?(prefix_map, String.to_atom(prefix)) end @doc """ Returns all prefixes from the given `RDF.PrefixMap`. """ @spec prefixes(t) :: [coercible_prefix] def prefixes(%__MODULE__{map: map}) do Map.keys(map) end @doc """ Returns all namespaces from the given `RDF.PrefixMap`. """ @spec namespaces(t) :: [coercible_namespace] def namespaces(%__MODULE__{map: map}) do Map.values(map) end @doc """ Converts an IRI into a prefixed name. Returns `nil` when no prefix for the namespace of `iri` is defined in `prefix_map`. ## Examples iex> RDF.PrefixMap.new(ex: "http://example.com/") ...> |> RDF.PrefixMap.prefixed_name(~I) "ex:Foo" iex> RDF.PrefixMap.new(ex: "http://example.com/") ...> |> RDF.PrefixMap.prefixed_name("http://example.com/Foo") "ex:Foo" """ @spec prefixed_name(t, IRI.t() | String.t()) :: String.t() | nil def prefixed_name(prefix_map, iri) def prefixed_name(%__MODULE__{} = prefix_map, %IRI{} = iri) do prefixed_name(prefix_map, IRI.to_string(iri)) end def prefixed_name(%__MODULE__{} = prefix_map, iri) when is_binary(iri) do Enum.find_value(prefix_map, fn {prefix, namespace} -> case String.replace_leading(iri, IRI.to_string(namespace), ":") do ^iri -> nil truncated_name -> unless String.contains?(truncated_name, ~w[/ #]) do to_string(prefix) <> truncated_name end end end) end @doc """ Converts a prefixed name into an IRI. Returns `nil` when the prefix in `prefixed_name` is not defined in `prefix_map`. ## Examples iex> RDF.PrefixMap.new(ex: "http://example.com/") ...> |> RDF.PrefixMap.prefixed_name_to_iri("ex:Foo") ~I """ @spec prefixed_name_to_iri(t, String.t()) :: IRI.t() | nil def prefixed_name_to_iri(%__MODULE__{} = prefix_map, prefixed_name) when is_binary(prefixed_name) do case String.split(prefixed_name, ":", parts: 2) do [prefix, name] -> if ns = namespace(prefix_map, prefix) do RDF.iri(ns.value <> name) end _ -> nil end end defimpl Enumerable do def reduce(%RDF.PrefixMap{map: map}, acc, fun), do: Enumerable.reduce(map, acc, fun) def member?(%RDF.PrefixMap{map: map}, mapping), do: Enumerable.member?(map, mapping) def count(%RDF.PrefixMap{map: map}), do: Enumerable.count(map) def slice(%RDF.PrefixMap{map: map}), do: Enumerable.slice(map) end defimpl Inspect do import Inspect.Algebra def inspect(prefix_map, opts) do map = Map.to_list(prefix_map.map) open = color("%RDF.PrefixMap{", :map, opts) sep = color(",", :map, opts) close = color("}", :map, opts) container_doc(open, map, close, opts, &Inspect.List.keyword/2, separator: sep, break: :strict ) end end end