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%% @author Bob Ippolito <bob@mochimedia.com>
%% @copyright 2006 Mochi Media, Inc.
%% @doc Yet another JSON (RFC 4627) library for Erlang.
-module(mochijson).
-author('bob@mochimedia.com').
-export([encoder/1, encode/1]).
-export([decoder/1, decode/1]).
-export([binary_encoder/1, binary_encode/1]).
-export([binary_decoder/1, binary_decode/1]).
-export([test/0]).
% This is a macro to placate syntax highlighters..
-define(Q, $\").
-define(ADV_COL(S, N), S#decoder{column=N+S#decoder.column}).
-define(INC_COL(S), S#decoder{column=1+S#decoder.column}).
-define(INC_LINE(S), S#decoder{column=1, line=1+S#decoder.line}).
%% @type iolist() = [char() | binary() | iolist()]
%% @type iodata() = iolist() | binary()
%% @type json_string() = atom | string() | binary()
%% @type json_number() = integer() | float()
%% @type json_array() = {array, [json_term()]}
%% @type json_object() = {struct, [{json_string(), json_term()}]}
%% @type json_term() = json_string() | json_number() | json_array() |
%% json_object()
%% @type encoding() = utf8 | unicode
%% @type encoder_option() = {input_encoding, encoding()} |
%% {handler, function()}
%% @type decoder_option() = {input_encoding, encoding()} |
%% {object_hook, function()}
%% @type bjson_string() = binary()
%% @type bjson_number() = integer() | float()
%% @type bjson_array() = [bjson_term()]
%% @type bjson_object() = {struct, [{bjson_string(), bjson_term()}]}
%% @type bjson_term() = bjson_string() | bjson_number() | bjson_array() |
%% bjson_object()
%% @type binary_encoder_option() = {handler, function()}
%% @type binary_decoder_option() = {object_hook, function()}
-record(encoder, {input_encoding=unicode,
handler=null}).
-record(decoder, {input_encoding=utf8,
object_hook=null,
line=1,
column=1,
state=null}).
%% @spec encoder([encoder_option()]) -> function()
%% @doc Create an encoder/1 with the given options.
encoder(Options) ->
State = parse_encoder_options(Options, #encoder{}),
fun (O) -> json_encode(O, State) end.
%% @spec encode(json_term()) -> iolist()
%% @doc Encode the given as JSON to an iolist.
encode(Any) ->
json_encode(Any, #encoder{}).
%% @spec decoder([decoder_option()]) -> function()
%% @doc Create a decoder/1 with the given options.
decoder(Options) ->
State = parse_decoder_options(Options, #decoder{}),
fun (O) -> json_decode(O, State) end.
%% @spec decode(iolist()) -> json_term()
%% @doc Decode the given iolist to Erlang terms.
decode(S) ->
json_decode(S, #decoder{}).
%% @spec binary_decoder([binary_decoder_option()]) -> function()
%% @doc Create a binary_decoder/1 with the given options.
binary_decoder(Options) ->
mochijson2:decoder(Options).
%% @spec binary_encoder([binary_encoder_option()]) -> function()
%% @doc Create a binary_encoder/1 with the given options.
binary_encoder(Options) ->
mochijson2:encoder(Options).
%% @spec binary_encode(bjson_term()) -> iolist()
%% @doc Encode the given as JSON to an iolist, using lists for arrays and
%% binaries for strings.
binary_encode(Any) ->
mochijson2:encode(Any).
%% @spec binary_decode(iolist()) -> bjson_term()
%% @doc Decode the given iolist to Erlang terms, using lists for arrays and
%% binaries for strings.
binary_decode(S) ->
mochijson2:decode(S).
test() ->
test_all(),
mochijson2:test().
%% Internal API
parse_encoder_options([], State) ->
State;
parse_encoder_options([{input_encoding, Encoding} | Rest], State) ->
parse_encoder_options(Rest, State#encoder{input_encoding=Encoding});
parse_encoder_options([{handler, Handler} | Rest], State) ->
parse_encoder_options(Rest, State#encoder{handler=Handler}).
parse_decoder_options([], State) ->
State;
parse_decoder_options([{input_encoding, Encoding} | Rest], State) ->
parse_decoder_options(Rest, State#decoder{input_encoding=Encoding});
parse_decoder_options([{object_hook, Hook} | Rest], State) ->
parse_decoder_options(Rest, State#decoder{object_hook=Hook}).
json_encode(true, _State) ->
"true";
json_encode(false, _State) ->
"false";
json_encode(null, _State) ->
"null";
json_encode(I, _State) when is_integer(I) ->
integer_to_list(I);
json_encode(F, _State) when is_float(F) ->
mochinum:digits(F);
json_encode(L, State) when is_list(L); is_binary(L); is_atom(L) ->
json_encode_string(L, State);
json_encode({array, Props}, State) when is_list(Props) ->
json_encode_array(Props, State);
json_encode({struct, Props}, State) when is_list(Props) ->
json_encode_proplist(Props, State);
json_encode(Bad, #encoder{handler=null}) ->
exit({json_encode, {bad_term, Bad}});
json_encode(Bad, State=#encoder{handler=Handler}) ->
json_encode(Handler(Bad), State).
json_encode_array([], _State) ->
"[]";
json_encode_array(L, State) ->
F = fun (O, Acc) ->
[$,, json_encode(O, State) | Acc]
end,
[$, | Acc1] = lists:foldl(F, "[", L),
lists:reverse([$\] | Acc1]).
json_encode_proplist([], _State) ->
"{}";
json_encode_proplist(Props, State) ->
F = fun ({K, V}, Acc) ->
KS = case K of
K when is_atom(K) ->
json_encode_string_utf8(atom_to_list(K));
K when is_integer(K) ->
json_encode_string(integer_to_list(K), State);
K when is_list(K); is_binary(K) ->
json_encode_string(K, State)
end,
VS = json_encode(V, State),
[$,, VS, $:, KS | Acc]
end,
[$, | Acc1] = lists:foldl(F, "{", Props),
lists:reverse([$\} | Acc1]).
json_encode_string(A, _State) when is_atom(A) ->
json_encode_string_unicode(xmerl_ucs:from_utf8(atom_to_list(A)));
json_encode_string(B, _State) when is_binary(B) ->
json_encode_string_unicode(xmerl_ucs:from_utf8(B));
json_encode_string(S, #encoder{input_encoding=utf8}) ->
json_encode_string_utf8(S);
json_encode_string(S, #encoder{input_encoding=unicode}) ->
json_encode_string_unicode(S).
json_encode_string_utf8(S) ->
[?Q | json_encode_string_utf8_1(S)].
json_encode_string_utf8_1([C | Cs]) when C >= 0, C =< 16#7f ->
NewC = case C of
$\\ -> "\\\\";
?Q -> "\\\"";
_ when C >= $\s, C < 16#7f -> C;
$\t -> "\\t";
$\n -> "\\n";
$\r -> "\\r";
$\f -> "\\f";
$\b -> "\\b";
_ when C >= 0, C =< 16#7f -> unihex(C);
_ -> exit({json_encode, {bad_char, C}})
end,
[NewC | json_encode_string_utf8_1(Cs)];
json_encode_string_utf8_1(All=[C | _]) when C >= 16#80, C =< 16#10FFFF ->
[?Q | Rest] = json_encode_string_unicode(xmerl_ucs:from_utf8(All)),
Rest;
json_encode_string_utf8_1([]) ->
"\"".
json_encode_string_unicode(S) ->
[?Q | json_encode_string_unicode_1(S)].
json_encode_string_unicode_1([C | Cs]) ->
NewC = case C of
$\\ -> "\\\\";
?Q -> "\\\"";
_ when C >= $\s, C < 16#7f -> C;
$\t -> "\\t";
$\n -> "\\n";
$\r -> "\\r";
$\f -> "\\f";
$\b -> "\\b";
_ when C >= 0, C =< 16#10FFFF -> unihex(C);
_ -> exit({json_encode, {bad_char, C}})
end,
[NewC | json_encode_string_unicode_1(Cs)];
json_encode_string_unicode_1([]) ->
"\"".
dehex(C) when C >= $0, C =< $9 ->
C - $0;
dehex(C) when C >= $a, C =< $f ->
C - $a + 10;
dehex(C) when C >= $A, C =< $F ->
C - $A + 10.
hexdigit(C) when C >= 0, C =< 9 ->
C + $0;
hexdigit(C) when C =< 15 ->
C + $a - 10.
unihex(C) when C < 16#10000 ->
<<D3:4, D2:4, D1:4, D0:4>> = <<C:16>>,
Digits = [hexdigit(D) || D <- [D3, D2, D1, D0]],
[$\\, $u | Digits];
unihex(C) when C =< 16#10FFFF ->
N = C - 16#10000,
S1 = 16#d800 bor ((N bsr 10) band 16#3ff),
S2 = 16#dc00 bor (N band 16#3ff),
[unihex(S1), unihex(S2)].
json_decode(B, S) when is_binary(B) ->
json_decode(binary_to_list(B), S);
json_decode(L, S) ->
{Res, L1, S1} = decode1(L, S),
{eof, [], _} = tokenize(L1, S1#decoder{state=trim}),
Res.
decode1(L, S=#decoder{state=null}) ->
case tokenize(L, S#decoder{state=any}) of
{{const, C}, L1, S1} ->
{C, L1, S1};
{start_array, L1, S1} ->
decode_array(L1, S1#decoder{state=any}, []);
{start_object, L1, S1} ->
decode_object(L1, S1#decoder{state=key}, [])
end.
make_object(V, #decoder{object_hook=null}) ->
V;
make_object(V, #decoder{object_hook=Hook}) ->
Hook(V).
decode_object(L, S=#decoder{state=key}, Acc) ->
case tokenize(L, S) of
{end_object, Rest, S1} ->
V = make_object({struct, lists:reverse(Acc)}, S1),
{V, Rest, S1#decoder{state=null}};
{{const, K}, Rest, S1} when is_list(K) ->
{colon, L2, S2} = tokenize(Rest, S1),
{V, L3, S3} = decode1(L2, S2#decoder{state=null}),
decode_object(L3, S3#decoder{state=comma}, [{K, V} | Acc])
end;
decode_object(L, S=#decoder{state=comma}, Acc) ->
case tokenize(L, S) of
{end_object, Rest, S1} ->
V = make_object({struct, lists:reverse(Acc)}, S1),
{V, Rest, S1#decoder{state=null}};
{comma, Rest, S1} ->
decode_object(Rest, S1#decoder{state=key}, Acc)
end.
decode_array(L, S=#decoder{state=any}, Acc) ->
case tokenize(L, S) of
{end_array, Rest, S1} ->
{{array, lists:reverse(Acc)}, Rest, S1#decoder{state=null}};
{start_array, Rest, S1} ->
{Array, Rest1, S2} = decode_array(Rest, S1#decoder{state=any}, []),
decode_array(Rest1, S2#decoder{state=comma}, [Array | Acc]);
{start_object, Rest, S1} ->
{Array, Rest1, S2} = decode_object(Rest, S1#decoder{state=key}, []),
decode_array(Rest1, S2#decoder{state=comma}, [Array | Acc]);
{{const, Const}, Rest, S1} ->
decode_array(Rest, S1#decoder{state=comma}, [Const | Acc])
end;
decode_array(L, S=#decoder{state=comma}, Acc) ->
case tokenize(L, S) of
{end_array, Rest, S1} ->
{{array, lists:reverse(Acc)}, Rest, S1#decoder{state=null}};
{comma, Rest, S1} ->
decode_array(Rest, S1#decoder{state=any}, Acc)
end.
tokenize_string(IoList=[C | _], S=#decoder{input_encoding=utf8}, Acc)
when is_list(C); is_binary(C); C >= 16#7f ->
List = xmerl_ucs:from_utf8(iolist_to_binary(IoList)),
tokenize_string(List, S#decoder{input_encoding=unicode}, Acc);
tokenize_string("\"" ++ Rest, S, Acc) ->
{lists:reverse(Acc), Rest, ?INC_COL(S)};
tokenize_string("\\\"" ++ Rest, S, Acc) ->
tokenize_string(Rest, ?ADV_COL(S, 2), [$\" | Acc]);
tokenize_string("\\\\" ++ Rest, S, Acc) ->
tokenize_string(Rest, ?ADV_COL(S, 2), [$\\ | Acc]);
tokenize_string("\\/" ++ Rest, S, Acc) ->
tokenize_string(Rest, ?ADV_COL(S, 2), [$/ | Acc]);
tokenize_string("\\b" ++ Rest, S, Acc) ->
tokenize_string(Rest, ?ADV_COL(S, 2), [$\b | Acc]);
tokenize_string("\\f" ++ Rest, S, Acc) ->
tokenize_string(Rest, ?ADV_COL(S, 2), [$\f | Acc]);
tokenize_string("\\n" ++ Rest, S, Acc) ->
tokenize_string(Rest, ?ADV_COL(S, 2), [$\n | Acc]);
tokenize_string("\\r" ++ Rest, S, Acc) ->
tokenize_string(Rest, ?ADV_COL(S, 2), [$\r | Acc]);
tokenize_string("\\t" ++ Rest, S, Acc) ->
tokenize_string(Rest, ?ADV_COL(S, 2), [$\t | Acc]);
tokenize_string([$\\, $u, C3, C2, C1, C0 | Rest], S, Acc) ->
% coalesce UTF-16 surrogate pair?
C = dehex(C0) bor
(dehex(C1) bsl 4) bor
(dehex(C2) bsl 8) bor
(dehex(C3) bsl 12),
tokenize_string(Rest, ?ADV_COL(S, 6), [C | Acc]);
tokenize_string([C | Rest], S, Acc) when C >= $\s; C < 16#10FFFF ->
tokenize_string(Rest, ?ADV_COL(S, 1), [C | Acc]).
tokenize_number(IoList=[C | _], Mode, S=#decoder{input_encoding=utf8}, Acc)
when is_list(C); is_binary(C); C >= 16#7f ->
List = xmerl_ucs:from_utf8(iolist_to_binary(IoList)),
tokenize_number(List, Mode, S#decoder{input_encoding=unicode}, Acc);
tokenize_number([$- | Rest], sign, S, []) ->
tokenize_number(Rest, int, ?INC_COL(S), [$-]);
tokenize_number(Rest, sign, S, []) ->
tokenize_number(Rest, int, S, []);
tokenize_number([$0 | Rest], int, S, Acc) ->
tokenize_number(Rest, frac, ?INC_COL(S), [$0 | Acc]);
tokenize_number([C | Rest], int, S, Acc) when C >= $1, C =< $9 ->
tokenize_number(Rest, int1, ?INC_COL(S), [C | Acc]);
tokenize_number([C | Rest], int1, S, Acc) when C >= $0, C =< $9 ->
tokenize_number(Rest, int1, ?INC_COL(S), [C | Acc]);
tokenize_number(Rest, int1, S, Acc) ->
tokenize_number(Rest, frac, S, Acc);
tokenize_number([$., C | Rest], frac, S, Acc) when C >= $0, C =< $9 ->
tokenize_number(Rest, frac1, ?ADV_COL(S, 2), [C, $. | Acc]);
tokenize_number([E | Rest], frac, S, Acc) when E == $e; E == $E ->
tokenize_number(Rest, esign, ?INC_COL(S), [$e, $0, $. | Acc]);
tokenize_number(Rest, frac, S, Acc) ->
{{int, lists:reverse(Acc)}, Rest, S};
tokenize_number([C | Rest], frac1, S, Acc) when C >= $0, C =< $9 ->
tokenize_number(Rest, frac1, ?INC_COL(S), [C | Acc]);
tokenize_number([E | Rest], frac1, S, Acc) when E == $e; E == $E ->
tokenize_number(Rest, esign, ?INC_COL(S), [$e | Acc]);
tokenize_number(Rest, frac1, S, Acc) ->
{{float, lists:reverse(Acc)}, Rest, S};
tokenize_number([C | Rest], esign, S, Acc) when C == $-; C == $+ ->
tokenize_number(Rest, eint, ?INC_COL(S), [C | Acc]);
tokenize_number(Rest, esign, S, Acc) ->
tokenize_number(Rest, eint, S, Acc);
tokenize_number([C | Rest], eint, S, Acc) when C >= $0, C =< $9 ->
tokenize_number(Rest, eint1, ?INC_COL(S), [C | Acc]);
tokenize_number([C | Rest], eint1, S, Acc) when C >= $0, C =< $9 ->
tokenize_number(Rest, eint1, ?INC_COL(S), [C | Acc]);
tokenize_number(Rest, eint1, S, Acc) ->
{{float, lists:reverse(Acc)}, Rest, S}.
tokenize([], S=#decoder{state=trim}) ->
{eof, [], S};
tokenize([L | Rest], S) when is_list(L) ->
tokenize(L ++ Rest, S);
tokenize([B | Rest], S) when is_binary(B) ->
tokenize(xmerl_ucs:from_utf8(B) ++ Rest, S);
tokenize("\r\n" ++ Rest, S) ->
tokenize(Rest, ?INC_LINE(S));
tokenize("\n" ++ Rest, S) ->
tokenize(Rest, ?INC_LINE(S));
tokenize([C | Rest], S) when C == $\s; C == $\t ->
tokenize(Rest, ?INC_COL(S));
tokenize("{" ++ Rest, S) ->
{start_object, Rest, ?INC_COL(S)};
tokenize("}" ++ Rest, S) ->
{end_object, Rest, ?INC_COL(S)};
tokenize("[" ++ Rest, S) ->
{start_array, Rest, ?INC_COL(S)};
tokenize("]" ++ Rest, S) ->
{end_array, Rest, ?INC_COL(S)};
tokenize("," ++ Rest, S) ->
{comma, Rest, ?INC_COL(S)};
tokenize(":" ++ Rest, S) ->
{colon, Rest, ?INC_COL(S)};
tokenize("null" ++ Rest, S) ->
{{const, null}, Rest, ?ADV_COL(S, 4)};
tokenize("true" ++ Rest, S) ->
{{const, true}, Rest, ?ADV_COL(S, 4)};
tokenize("false" ++ Rest, S) ->
{{const, false}, Rest, ?ADV_COL(S, 5)};
tokenize("\"" ++ Rest, S) ->
{String, Rest1, S1} = tokenize_string(Rest, ?INC_COL(S), []),
{{const, String}, Rest1, S1};
tokenize(L=[C | _], S) when C >= $0, C =< $9; C == $- ->
case tokenize_number(L, sign, S, []) of
{{int, Int}, Rest, S1} ->
{{const, list_to_integer(Int)}, Rest, S1};
{{float, Float}, Rest, S1} ->
{{const, list_to_float(Float)}, Rest, S1}
end.
%% testing constructs borrowed from the Yaws JSON implementation.
%% Create an object from a list of Key/Value pairs.
obj_new() ->
{struct, []}.
is_obj({struct, Props}) ->
F = fun ({K, _}) when is_list(K) ->
true;
(_) ->
false
end,
lists:all(F, Props).
obj_from_list(Props) ->
Obj = {struct, Props},
case is_obj(Obj) of
true -> Obj;
false -> exit(json_bad_object)
end.
%% Test for equivalence of Erlang terms.
%% Due to arbitrary order of construction, equivalent objects might
%% compare unequal as erlang terms, so we need to carefully recurse
%% through aggregates (tuples and objects).
equiv({struct, Props1}, {struct, Props2}) ->
equiv_object(Props1, Props2);
equiv({array, L1}, {array, L2}) ->
equiv_list(L1, L2);
equiv(N1, N2) when is_number(N1), is_number(N2) -> N1 == N2;
equiv(S1, S2) when is_list(S1), is_list(S2) -> S1 == S2;
equiv(true, true) -> true;
equiv(false, false) -> true;
equiv(null, null) -> true.
%% Object representation and traversal order is unknown.
%% Use the sledgehammer and sort property lists.
equiv_object(Props1, Props2) ->
L1 = lists:keysort(1, Props1),
L2 = lists:keysort(1, Props2),
Pairs = lists:zip(L1, L2),
true = lists:all(fun({{K1, V1}, {K2, V2}}) ->
equiv(K1, K2) and equiv(V1, V2)
end, Pairs).
%% Recursively compare tuple elements for equivalence.
equiv_list([], []) ->
true;
equiv_list([V1 | L1], [V2 | L2]) ->
case equiv(V1, V2) of
true ->
equiv_list(L1, L2);
false ->
false
end.
test_all() ->
test_issue33(),
test_one(e2j_test_vec(utf8), 1).
test_issue33() ->
%% http://code.google.com/p/mochiweb/issues/detail?id=33
Js = {struct, [{"key", [194, 163]}]},
Encoder = encoder([{input_encoding, utf8}]),
"{\"key\":\"\\u00a3\"}" = lists:flatten(Encoder(Js)).
test_one([], _N) ->
%% io:format("~p tests passed~n", [N-1]),
ok;
test_one([{E, J} | Rest], N) ->
%% io:format("[~p] ~p ~p~n", [N, E, J]),
true = equiv(E, decode(J)),
true = equiv(E, decode(encode(E))),
test_one(Rest, 1+N).
e2j_test_vec(utf8) ->
[
{1, "1"},
{3.1416, "3.14160"}, % text representation may truncate, trail zeroes
{-1, "-1"},
{-3.1416, "-3.14160"},
{12.0e10, "1.20000e+11"},
{1.234E+10, "1.23400e+10"},
{-1.234E-10, "-1.23400e-10"},
{10.0, "1.0e+01"},
{123.456, "1.23456E+2"},
{10.0, "1e1"},
{"foo", "\"foo\""},
{"foo" ++ [5] ++ "bar", "\"foo\\u0005bar\""},
{"", "\"\""},
{"\"", "\"\\\"\""},
{"\n\n\n", "\"\\n\\n\\n\""},
{"\\", "\"\\\\\""},
{"\" \b\f\r\n\t\"", "\"\\\" \\b\\f\\r\\n\\t\\\"\""},
{obj_new(), "{}"},
{obj_from_list([{"foo", "bar"}]), "{\"foo\":\"bar\"}"},
{obj_from_list([{"foo", "bar"}, {"baz", 123}]),
"{\"foo\":\"bar\",\"baz\":123}"},
{{array, []}, "[]"},
{{array, [{array, []}]}, "[[]]"},
{{array, [1, "foo"]}, "[1,\"foo\"]"},
% json array in a json object
{obj_from_list([{"foo", {array, [123]}}]),
"{\"foo\":[123]}"},
% json object in a json object
{obj_from_list([{"foo", obj_from_list([{"bar", true}])}]),
"{\"foo\":{\"bar\":true}}"},
% fold evaluation order
{obj_from_list([{"foo", {array, []}},
{"bar", obj_from_list([{"baz", true}])},
{"alice", "bob"}]),
"{\"foo\":[],\"bar\":{\"baz\":true},\"alice\":\"bob\"}"},
% json object in a json array
{{array, [-123, "foo", obj_from_list([{"bar", {array, []}}]), null]},
"[-123,\"foo\",{\"bar\":[]},null]"}
].
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