%% -*- mode: erlang; tab-width: 4; indent-tabs-mode: 1; st-rulers: [70] -*-
%% vim: ts=4 sw=4 ft=erlang noet
%%%-------------------------------------------------------------------
%%% @author Andrew Bennett <potatosaladx@gmail.com>
%%% @copyright 2014-2022, Andrew Bennett
%%% @doc
%%%
%%% @end
%%% Created : 14 Aug 2015 by Andrew Bennett <potatosaladx@gmail.com>
%%%-------------------------------------------------------------------
-module(jose_json_poison_compat_encoder).
-behaviour(jose_json).
%% jose_json callbacks
-export([decode/1]).
-export([encode/1]).
%%====================================================================
%% jose_json callbacks
%%====================================================================
decode(Binary) ->
'Elixir.Poison':'decode!'(Binary).
encode(Term) ->
'Elixir.IO':'iodata_to_binary'(lexical_encode(Term)).
%%%-------------------------------------------------------------------
%%% Internal functions
%%%-------------------------------------------------------------------
%% @private
lexical_encode(Atom) when is_atom(Atom) ->
apply('Elixir.Poison.Encoder.Atom', 'encode', [Atom, #{}]);
lexical_encode(BitString) when is_bitstring(BitString) ->
apply('Elixir.Poison.Encoder.BitString', 'encode', [BitString, #{}]);
lexical_encode(Integer) when is_integer(Integer) ->
apply('Elixir.Poison.Encoder.Integer', 'encode', [Integer, #{}]);
lexical_encode(Float) when is_float(Float) ->
apply('Elixir.Poison.Encoder.Float', 'encode', [Float, #{}]);
lexical_encode(Struct = #{ '__struct__' := Type }) ->
lexical_encode_struct(Type, Struct);
lexical_encode(Map) when is_map(Map) ->
lexical_encode_map(Map);
lexical_encode(List) when is_list(List) ->
lexical_encode_list(List);
lexical_encode(Any) ->
erlang:error('Elixir.Poison.EncodeError':'exception'([{value, Any}])).
%% @private
lexical_encode_name(Binary) when is_binary(Binary) ->
Binary;
lexical_encode_name(Atom) when is_atom(Atom) ->
'Elixir.Atom':'to_string'(Atom);
lexical_encode_name(Any) ->
erlang:error('Elixir.Poison.EncodeError':'exception'([
{value, Any},
{message, <<
"expected string or atom key, got: ",
('Elixir.Kernel':'inspect'(Any))/binary
>>}
])).
%% @private
lexical_encode_map(Map) when map_size(Map) < 1 ->
<<"{}">>;
lexical_encode_map(Map) when is_map(Map) ->
Folder = fun (Key, Acc) ->
[
$,,
apply('Elixir.Poison.Encoder.BitString', 'encode', [lexical_encode_name(Key), #{}]),
$:,
lexical_encode(maps:get(Key, Map))
| Acc
]
end,
[
${,
tl(lists:foldr(Folder, [], lists:sort(maps:keys(Map)))),
$}
].
%% @private
lexical_encode_list([]) ->
<<"[]">>;
lexical_encode_list(List) when is_list(List) ->
Folder = fun (Element, Acc) ->
[
$,,
lexical_encode(Element)
| Acc
]
end,
[
$[,
tl(lists:foldr(Folder, [], List)),
$]
].
%% @private
lexical_encode_struct(Type, Struct)
when Type == 'Elixir.Range'
orelse Type == 'Elixir.Stream'
orelse Type == 'Elixir.MapSet'
orelse Type == 'Elixir.HashSet' ->
FlatMapper = fun (Element) ->
[
$,,
lexical_encode(Element)
]
end,
case 'Elixir.Enum':'flat_map'(Struct, FlatMapper) of
[] ->
<<"[]">>;
[_ | Tail] ->
[
$[,
Tail,
$]
]
end;
lexical_encode_struct('Elixir.HashDict', HashDict) ->
case 'Elixir.HashDict':'size'(HashDict) < 1 of
true ->
<<"{}">>;
false ->
FlatMapper = fun ({Key, Value}) ->
[
$,,
apply('Elixir.Poison.Encoder.BitString', 'encode', [lexical_encode_name(Key), #{}]),
$:,
lexical_encode(Value)
]
end,
[
${,
tl('Elixir.Enum':'flat_map'(HashDict, FlatMapper)),
$}
]
end;
lexical_encode_struct(Type, Struct)
when Type == 'Elixir.Date'
orelse Type == 'Elixir.Time'
orelse Type == 'Elixir.NaiveDateTime'
orelse Type == 'Elixir.DateTime' ->
apply('Elixir.Poison.Encoder.BitString', 'encode', [Type:'to_iso8601'(Struct), #{}]);
lexical_encode_struct(Type, Struct) ->
case find_encoder(Type) of
{true, Encoder} ->
apply(Encoder, 'encode', [Struct, #{}]);
false ->
lexical_encode_map('Elixir.Map':'from_struct'(Struct))
end.
%% @private
find_encoder(ElixirType) ->
case atom_to_binary(ElixirType, unicode) of
<< "Elixir.", Type/binary >> ->
try binary_to_existing_atom(<< "Elixir.Poison.Encoder.", Type/binary >>, unicode) of
EncoderType ->
case code:ensure_loaded(EncoderType) of
{module, EncoderType} ->
{true, EncoderType};
_ ->
false
end
catch
_:_ ->
false
end;
_ ->
false
end.
