%% The MIT License %% Copyright (c) 2011 Alisdair Sullivan %% Permission is hereby granted, free of charge, to any person obtaining a copy %% of this software and associated documentation files (the "Software"), to deal %% in the Software without restriction, including without limitation the rights %% to use, copy, modify, merge, publish, distribute, sublicense, and/or sell %% copies of the Software, and to permit persons to whom the Software is %% furnished to do so, subject to the following conditions: %% The above copyright notice and this permission notice shall be included in %% all copies or substantial portions of the Software. %% THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR %% IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, %% FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE %% AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER %% LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, %% OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN %% THE SOFTWARE. -module(jsx_encoder). -export([encoder/3]). -spec encoder(Handler::module(), State::any(), Opts::jsx:opts()) -> jsx:encoder(). encoder(Handler, State, Opts) -> fun(JSON) -> start( JSON, {Handler, Handler:init(State)}, jsx_utils:parse_opts(Opts) ) end. -include("jsx_opts.hrl"). -ifndef(error). -define(error(Args), erlang:error(badarg, Args) ). -endif. start(Term, {Handler, State}, Opts) -> Handler:handle_event(end_json, value(Term, {Handler, State}, Opts)). value(String, {Handler, State}, Opts) when is_binary(String) -> Handler:handle_event({string, escape(String, {Handler, State}, Opts)}, State); value(Float, {Handler, State}, _Opts) when is_float(Float) -> Handler:handle_event({float, Float}, State); value(Int, {Handler, State}, _Opts) when is_integer(Int) -> Handler:handle_event({integer, Int}, State); value(Literal, {Handler, State}, _Opts) when Literal == true; Literal == false; Literal == null -> Handler:handle_event({literal, Literal}, State); value([{}], {Handler, State}, _Opts) -> Handler:handle_event(end_object, Handler:handle_event(start_object, State)); value([], {Handler, State}, _Opts) -> Handler:handle_event(end_array, Handler:handle_event(start_array, State)); value(List, {Handler, State}, Opts) when is_list(List) -> list_or_object(List, {Handler, State}, Opts); value(Term, Handler, Opts) -> ?error([Term, Handler, Opts]). list_or_object([Tuple|_] = List, {Handler, State}, Opts) when is_tuple(Tuple) -> object(List, {Handler, Handler:handle_event(start_object, State)}, Opts); list_or_object(List, {Handler, State}, Opts) -> list(List, {Handler, Handler:handle_event(start_array, State)}, Opts). object([{Key, Value}|Rest], {Handler, State}, Opts) -> object( Rest, { Handler, value( Value, {Handler, Handler:handle_event({key, escape(fix_key(Key), {Handler, State}, Opts)}, State)}, Opts ) }, Opts ); object([], {Handler, State}, _Opts) -> Handler:handle_event(end_object, State); object(Term, Handler, Opts) -> ?error([Term, Handler, Opts]). list([Value|Rest], {Handler, State}, Opts) -> list(Rest, {Handler, value(Value, {Handler, State}, Opts)}, Opts); list([], {Handler, State}, _Opts) -> Handler:handle_event(end_array, State); list(Term, Handler, Opts) -> ?error([Term, Handler, Opts]). fix_key(Key) when is_atom(Key) -> fix_key(atom_to_binary(Key, utf8)); fix_key(Key) when is_binary(Key) -> Key. escape(String, Handler, Opts) -> try jsx_utils:json_escape(String, Opts) catch error:badarg -> erlang:error(badarg, [String, Handler, Opts]) end. -ifdef(TEST). -include_lib("eunit/include/eunit.hrl"). encode(Term) -> (encoder(jsx, [], []))(Term). encode_test_() -> [ {"naked string", ?_assert(encode(<<"a string">>) =:= [{string, <<"a string">>}, end_json]) }, {"naked integer", ?_assert(encode(123) =:= [{integer, 123}, end_json]) }, {"naked float", ?_assert(encode(1.23) =:= [{float, 1.23}, end_json]) }, {"naked literal", ?_assert(encode(null) =:= [{literal, null}, end_json]) }, {"empty object", ?_assert(encode([{}]) =:= [start_object, end_object, end_json]) }, {"empty list", ?_assert(encode([]) =:= [start_array, end_array, end_json]) }, {"simple list", ?_assert(encode([1,2,3,true,false]) =:= [start_array, {integer, 1}, {integer, 2}, {integer, 3}, {literal, true}, {literal, false}, end_array, end_json]) }, {"simple object", ?_assert(encode([{<<"a">>, true}, {<<"b">>, false}]) =:= [start_object, {key, <<"a">>}, {literal, true}, {key, <<"b">>}, {literal, false}, end_object, end_json]) }, {"complex term", ?_assert(encode([ {<<"a">>, true}, {<<"b">>, false}, {<<"c">>, [1,2,3]}, {<<"d">>, [{<<"key">>, <<"value">>}]} ]) =:= [start_object, {key, <<"a">>}, {literal, true}, {key, <<"b">>}, {literal, false}, {key, <<"c">>}, start_array, {integer, 1}, {integer, 2}, {integer, 3}, end_array, {key, <<"d">>}, start_object, {key, <<"key">>}, {string, <<"value">>}, end_object, end_object, end_json]) }, {"atom keys", ?_assert(encode([{key, <<"value">>}]) =:= [start_object, {key, <<"key">>}, {string, <<"value">>}, end_object, end_json]) } ]. -endif.