%% The MIT License %% Copyright (c) 2010 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. %% this is the implementation of the utf backends for the jsx decoder. it's %% included by the various jsx_utfxx.erl frontends and all modifications to %% this file should take that into account -spec decoder(OptsList::jsx_opts()) -> jsx_decoder(). %% opts record for decoder -record(opts, { multi_term = false, loose_unicode = false, encoding = auto }). %% whitespace -define(space, 16#20). -define(tab, 16#09). -define(cr, 16#0D). -define(newline, 16#0A). %% object delimiters -define(start_object, 16#7B). -define(end_object, 16#7D). %% array delimiters -define(start_array, 16#5B). -define(end_array, 16#5D). %% kv seperator -define(comma, 16#2C). -define(quote, 16#22). -define(colon, 16#3A). %% string escape sequences -define(escape, 16#5C). -define(rsolidus, 16#5C). -define(solidus, 16#2F). -define(formfeed, 16#0C). -define(backspace, 16#08). -define(unicode, 16#75). %% math -define(zero, 16#30). -define(decimalpoint, 16#2E). -define(negative, 16#2D). -define(positive, 16#2B). %% some useful guards -define(is_hex(Symbol), (Symbol >= $a andalso Symbol =< $z); (Symbol >= $A andalso Symbol =< $Z); (Symbol >= $0 andalso Symbol =< $9) ). -define(is_nonzero(Symbol), Symbol >= $1 andalso Symbol =< $9 ). -define(is_noncontrol(Symbol), (Symbol >= ?space) ). -define(is_whitespace(Symbol), Symbol =:= ?space; Symbol =:= ?tab; Symbol =:= ?cr; Symbol =:= ?newline ). %% partial codepoint max size differs across encodings -ifdef(utf8). -define(utfx, utf8). -define(partial_codepoint(Bin), byte_size(Bin) < 1). -endif. -ifdef(utf16). -define(utfx, utf16). -define(partial_codepoint(Bin), byte_size(Bin) < 2). -endif. -ifdef(utf16le). -define(utfx, utf16-little). -define(partial_codepoint(Bin), byte_size(Bin) < 2). -endif. -ifdef(utf32). -define(utfx, utf32). -define(partial_codepoint(Bin), byte_size(Bin) < 4). -endif. -ifdef(utf32le). -define(utfx, utf32-little). -define(partial_codepoint(Bin), byte_size(Bin) < 4). -endif. -export([decoder/1]). decoder(OptsList) -> case parse_opts(OptsList) of {error, badopt} -> {error, badopt} ; Opts -> fun(JSON) -> start(JSON, [], Opts) end end. %% converts a proplist into a tuple parse_opts(Opts) -> parse_opts(Opts, #opts{}). parse_opts([], Opts) -> Opts; parse_opts([{multi_term, Value}|Rest], Opts) -> true = lists:member(Value, [true, false]), parse_opts(Rest, Opts#opts{multi_term=Value}); parse_opts([multi_term|Rest], Opts) -> parse_opts(Rest, Opts#opts{multi_term=true}); parse_opts([loose_unicode|Rest], Opts) -> parse_opts(Rest, Opts#opts{loose_unicode=true}); parse_opts([{encoding, _}|Rest], Opts) -> parse_opts(Rest, Opts); parse_opts(_, _) -> {error, badarg}. start(<>, Stack, Opts) when ?is_whitespace(S) -> start(Rest, Stack, Opts); start(<>, Stack, Opts) -> {jsx, start_object, fun() -> object(Rest, [key|Stack], Opts) end}; start(<>, Stack, Opts) -> {jsx, start_array, fun() -> array(Rest, [array|Stack], Opts) end}; start(<>, Stack, Opts) -> string(Rest, Stack, Opts); start(<<$t/?utfx, Rest/binary>>, Stack, Opts) -> tr(Rest, Stack, Opts); start(<<$f/?utfx, Rest/binary>>, Stack, Opts) -> fa(Rest, Stack, Opts); start(<<$n/?utfx, Rest/binary>>, Stack, Opts) -> nu(Rest, Stack, Opts); start(<>, Stack, Opts) -> negative(Rest, Stack, Opts, "-"); start(<>, Stack, Opts) -> zero(Rest, Stack, Opts, "0"); start(<>, Stack, Opts) when ?is_nonzero(S) -> integer(Rest, Stack, Opts, [S]); start(Bin, Stack, Opts) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> start(<>, Stack, Opts) end} ; false -> {error, {badjson, Bin}} end. maybe_done(<>, Stack, Opts) when ?is_whitespace(S) -> maybe_done(Rest, Stack, Opts); maybe_done(<>, [object|Stack], Opts) -> {jsx, end_object, fun() -> maybe_done(Rest, Stack, Opts) end}; maybe_done(<>, [array|Stack], Opts) -> {jsx, end_array, fun() -> maybe_done(Rest, Stack, Opts) end}; maybe_done(<>, [object|Stack], Opts) -> key(Rest, [key|Stack], Opts); maybe_done(<>, [array|_] = Stack, Opts) -> value(Rest, Stack, Opts); maybe_done(Rest, [], #opts{multi_term=true}=Opts) -> {jsx, end_json, fun() -> start(Rest, [], Opts) end}; maybe_done(Rest, [], Opts) -> done(Rest, Opts); maybe_done(Bin, Stack, Opts) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> maybe_done(<>, Stack, Opts) end} ; false -> {error, {badjson, Bin}} end. done(<>, Opts) when ?is_whitespace(S) -> done(Rest, Opts); done(<<>>, Opts) -> {jsx, end_json, fun() -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, <<>>}} ; (Stream) -> done(Stream, Opts) end} end}; done(Bin, Opts) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> done(<>, Opts) end} ; false -> {error, {badjson, Bin}} end. object(<>, Stack, Opts) when ?is_whitespace(S) -> object(Rest, Stack, Opts); object(<>, Stack, Opts) -> string(Rest, Stack, Opts); object(<>, [key|Stack], Opts) -> {jsx, end_object, fun() -> maybe_done(Rest, Stack, Opts) end}; object(Bin, Stack, Opts) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> object(<>, Stack, Opts) end} ; false -> {error, {badjson, Bin}} end. array(<>, Stack, Opts) when ?is_whitespace(S) -> array(Rest, Stack, Opts); array(<>, Stack, Opts) -> string(Rest, Stack, Opts); array(<<$t/?utfx, Rest/binary>>, Stack, Opts) -> tr(Rest, Stack, Opts); array(<<$f/?utfx, Rest/binary>>, Stack, Opts) -> fa(Rest, Stack, Opts); array(<<$n/?utfx, Rest/binary>>, Stack, Opts) -> nu(Rest, Stack, Opts); array(<>, Stack, Opts) -> negative(Rest, Stack, Opts, "-"); array(<>, Stack, Opts) -> zero(Rest, Stack, Opts, "0"); array(<>, Stack, Opts) when ?is_nonzero(S) -> integer(Rest, Stack, Opts, [S]); array(<>, Stack, Opts) -> {jsx, start_object, fun() -> object(Rest, [key|Stack], Opts) end}; array(<>, Stack, Opts) -> {jsx, start_array, fun() -> array(Rest, [array|Stack], Opts) end}; array(<>, [array|Stack], Opts) -> {jsx, end_array, fun() -> maybe_done(Rest, Stack, Opts) end}; array(Bin, Stack, Opts) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> array(<>, Stack, Opts) end} ; false -> {error, {badjson, Bin}} end. value(<>, Stack, Opts) when ?is_whitespace(S) -> value(Rest, Stack, Opts); value(<>, Stack, Opts) -> string(Rest, Stack, Opts); value(<<$t/?utfx, Rest/binary>>, Stack, Opts) -> tr(Rest, Stack, Opts); value(<<$f/?utfx, Rest/binary>>, Stack, Opts) -> fa(Rest, Stack, Opts); value(<<$n/?utfx, Rest/binary>>, Stack, Opts) -> nu(Rest, Stack, Opts); value(<>, Stack, Opts) -> negative(Rest, Stack, Opts, "-"); value(<>, Stack, Opts) -> zero(Rest, Stack, Opts, "0"); value(<>, Stack, Opts) when ?is_nonzero(S) -> integer(Rest, Stack, Opts, [S]); value(<>, Stack, Opts) -> {jsx, start_object, fun() -> object(Rest, [key|Stack], Opts) end}; value(<>, Stack, Opts) -> {jsx, start_array, fun() -> array(Rest, [array|Stack], Opts) end}; value(Bin, Stack, Opts) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> value(<>, Stack, Opts) end} ; false -> {error, {badjson, Bin}} end. colon(<>, Stack, Opts) when ?is_whitespace(S) -> colon(Rest, Stack, Opts); colon(<>, [key|Stack], Opts) -> value(Rest, [object|Stack], Opts); colon(Bin, Stack, Opts) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> colon(<>, Stack, Opts) end} ; false -> {error, {badjson, Bin}} end. key(<>, Stack, Opts) when ?is_whitespace(S) -> key(Rest, Stack, Opts); key(<>, Stack, Opts) -> string(Rest, Stack, Opts); key(Bin, Stack, Opts) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> key(<>, Stack, Opts) end} ; false -> {error, {badjson, Bin}} end. %% string has an additional parameter, an accumulator (Acc) used to hold the %% intermediate representation of the string being parsed. using a list of %% integers representing unicode codepoints is faster than constructing %% binaries, many of which will be converted back to lists by the user anyways %% string uses partial_utf/1 to cease parsing when invalid encodings are %% encountered rather than just checking remaining binary size like other %% states string(Bin, Stack, Opts) -> string(Bin, Stack, Opts, <<>>). string(<>, [key|_] = Stack, Opts, Acc) -> {jsx, {key, Acc}, fun() -> colon(Rest, Stack, Opts) end}; string(<>, Stack, Opts, Acc) -> {jsx, {string, Acc}, fun() -> maybe_done(Rest, Stack, Opts) end}; string(<>, Stack, Opts, Acc) -> escape(Rest, Stack, Opts, Acc); %% things get dumb here. erlang doesn't properly restrict unicode non-characters %% so you can't trust the codepoints it returns always %% the range 32..16#fdcf is safe, so allow that string(<>, Stack, Opts, Acc) when ?is_noncontrol(S), S < 16#fdd0 -> string(Rest, Stack, Opts, <>); %% the range 16#fdf0..16#fffd is also safe string(<>, Stack, Opts, Acc) when S > 16#fdef, S < 16#fffe -> string(Rest, Stack, Opts, <>); %% i think doing it like this is faster than just putting this clause first. %% yes, i think it's insane too string(<>, Stack, Opts, Acc) when S > 16#ffff andalso S =/= 16#1fffe andalso S =/= 16#1ffff andalso S =/= 16#2fffe andalso S =/= 16#2ffff andalso S =/= 16#3fffe andalso S =/= 16#3ffff andalso S =/= 16#4fffe andalso S =/= 16#4ffff andalso S =/= 16#5fffe andalso S =/= 16#5ffff andalso S =/= 16#6fffe andalso S =/= 16#6ffff andalso S =/= 16#7fffe andalso S =/= 16#7ffff andalso S =/= 16#8fffe andalso S =/= 16#8ffff andalso S =/= 16#9fffe andalso S =/= 16#9ffff andalso S =/= 16#afffe andalso S =/= 16#affff andalso S =/= 16#bfffe andalso S =/= 16#bffff andalso S =/= 16#cfffe andalso S =/= 16#cffff andalso S =/= 16#dfffe andalso S =/= 16#dffff andalso S =/= 16#efffe andalso S =/= 16#effff andalso S =/= 16#ffffe andalso S =/= 16#fffff andalso S =/= 16#101fffe andalso S =/= 16#10ffff -> string(Rest, Stack, Opts, <>); string(Bin, Stack, Opts, Acc) -> case partial_utf(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> string(<>, Stack, Opts, Acc) end} ; false -> case Opts#opts.loose_unicode of true -> noncharacter(Bin, Stack, Opts, Acc) ; false -> {error, {badjson, Bin}} end end. -ifdef(utf8). partial_utf(<<>>) -> true; partial_utf(<>) when X >= 16#c2, X =< 16#df -> true; partial_utf(<>) when X >= 16#e0, X =< 16#ef -> case Rest of <<>> -> true ; <> when Y >= 16#80, Y =< 16#bf -> true ; _ -> false end; partial_utf(<>) when X >= 16#f0, X =< 16#f4 -> case Rest of <<>> -> true ; <> when Y >= 16#80, Y =< 16#bf -> true ; <> when Y >= 16#80, Y =< 16#bf, Z >= 16#80, Z =< 16#bf -> true ; _ -> false end; partial_utf(_) -> false. -endif. -ifdef(utf16). partial_utf(<<>>) -> true; %% this case is not strictly true, there are single bytes that should be %% rejected, but they're rare enough they can be ignored partial_utf(<<_X>>) -> true; partial_utf(<>) when X >= 16#d8, X =< 16#df -> true; partial_utf(<>) when X >= 16#d8, X =< 16#df, Z >= 16#dc, Z =< 16#df -> true; partial_utf(_) -> false. -endif. -ifdef(utf16le). partial_utf(<<>>) -> true; %% this case is not strictly true, there are single bytes that should be %% rejected, but they're rare enough they can be ignored partial_utf(<<_X>>) -> true; partial_utf(<<_Y, X>>) when X >= 16#d8, X =< 16#df -> true; partial_utf(<<_Y, X, _Z>>) when X >= 16#d8, X =< 16#df -> true; partial_utf(_) -> false. -endif. -ifdef(utf32). partial_utf(<<>>) -> true; partial_utf(<<_>>) -> true; partial_utf(<<_, _>>) -> true; partial_utf(<<_, _, _>>) -> true; partial_utf(_) -> false. -endif. -ifdef(utf32le). partial_utf(<<>>) -> true; partial_utf(<<_>>) -> true; partial_utf(<<_, _>>) -> true; partial_utf(<<_, _, _>>) -> true; partial_utf(_) -> false. -endif. -ifdef(utf8). %% non-characters erlang doesn't recognize as non-characters, idiotically noncharacter(<>, Stack, Opts, Acc) when ?is_noncontrol(S) -> string(Rest, Stack, Opts, <>); %% u+fffe and u+ffff noncharacter(<<239, 191, X, Rest/binary>>, Stack, Opts, Acc) when X == 190; X == 191 -> string(Rest, Stack, Opts, <>); %% surrogates noncharacter(<<237, X, _, Rest/binary>>, Stack, Opts, Acc) when X >= 160 -> string(Rest, Stack, Opts, <>); noncharacter(Bin, _Stack, _Opts, _Acc) -> {error, {badjson, Bin}}. -endif. -ifdef(utf16). %% non-characters blah blah noncharacter(<>, Stack, Opts, Acc) when ?is_noncontrol(S) -> string(Rest, Stack, Opts, <>); %% u+ffff and u+fffe noncharacter(<<255, X, Rest/binary>>, Stack, Opts, Acc) when X == 253; X == 254 -> string(Rest, Stack, Opts, <>); %% surrogates noncharacter(<>, Stack, Opts, Acc) when X >= 216, X =< 223 -> string(Rest, Stack, Opts, <>); noncharacter(Bin, _Stack, _Opts, _Acc) -> {error, {badjson, Bin}}. -endif. -ifdef(utf16le). noncharacter(<>, Stack, Opts, Acc) when ?is_noncontrol(S) -> string(Rest, Stack, Opts, <>); %% u+ffff and u+fffe noncharacter(<>, Stack, Opts, Acc) when X == 253; X == 254 -> string(Rest, Stack, Opts, <>); %% surrogates noncharacter(<<_, X, Rest/binary>>, Stack, Opts, Acc) when X >= 216, X =< 223 -> string(Rest, Stack, Opts, <>); noncharacter(Bin, _Stack, _Opts, _Acc) -> {error, {badjson, Bin}}. -endif. -ifdef(utf32). noncharacter(<>, Stack, Opts, Acc) when ?is_noncontrol(S) -> string(Rest, Stack, Opts, <>); %% u+ffff and u+fffe noncharacter(<<0, 0, 255, X, Rest/binary>>, Stack, Opts, Acc) when X == 254; X == 255 -> string(Rest, Stack, Opts, <>); %% surrogates noncharacter(<<0, 0, X, _, Rest/binary>>, Stack, Opts, Acc) when X >= 216, X =< 223 -> string(Rest, Stack, Opts, <>); noncharacter(Bin, _Stack, _Opts, _Acc) -> {error, {badjson, Bin}}. -endif. -ifdef(utf32le). noncharacter(<>, Stack, Opts, Acc) when ?is_noncontrol(S) -> string(Rest, Stack, Opts, <>); %% u+ffff and u+fffe noncharacter(<>, Stack, Opts, Acc) when X == 254; X == 255 -> string(Rest, Stack, Opts, <>); %% surrogates noncharacter(<<_, X, 0, 0, Rest/binary>>, Stack, Opts, Acc) when X >= 216, X =< 223 -> string(Rest, Stack, Opts, <>); noncharacter(Bin, _Stack, _Opts, _Acc) -> {error, {badjson, Bin}}. -endif. %% only thing to note here is the additional accumulator passed to %% escaped_unicode used to hold the codepoint sequence. unescessary, but nicer %% than using the string accumulator escape(<<$b/?utfx, Rest/binary>>, Stack, Opts, Acc) -> string(Rest, Stack, Opts, <>); escape(<<$f/?utfx, Rest/binary>>, Stack, Opts, Acc) -> string(Rest, Stack, Opts, <>); escape(<<$n/?utfx, Rest/binary>>, Stack, Opts, Acc) -> string(Rest, Stack, Opts, <>); escape(<<$r/?utfx, Rest/binary>>, Stack, Opts, Acc) -> string(Rest, Stack, Opts, <>); escape(<<$t/?utfx, Rest/binary>>, Stack, Opts, Acc) -> string(Rest, Stack, Opts, <>); escape(<<$u/?utfx, Rest/binary>>, Stack, Opts, Acc) -> escaped_unicode(Rest, Stack, Opts, Acc, []); escape(<>, Stack, Opts, Acc) when S =:= ?quote; S =:= ?solidus; S =:= ?rsolidus -> string(Rest, Stack, Opts, <>); escape(Bin, Stack, Opts, Acc) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> escape(<>, Stack, Opts, Acc) end} ; false -> {error, {badjson, Bin}} end. %% this code is ugly and unfortunate, but so is json's handling of escaped %% unicode codepoint sequences. %% fuck json escaping. new rule: if it's not a valid codepoint, it's an error escaped_unicode(<>, Stack, Opts, String, [C, B, A]) when ?is_hex(D) -> case erlang:list_to_integer([A, B, C, D], 16) of %% high surrogate, we need a low surrogate next X when X >= 16#d800, X =< 16#dbff -> low_surrogate(Rest, Stack, Opts, String, X) %% non-characters, you're not allowed to exchange these ; X when X == 16#fffe; X == 16#ffff; X >= 16#fdd0, X =< 16#fdef -> case Opts#opts.loose_unicode of true -> string(Rest, Stack, Opts, <>) ; false -> {error, {badjson, <>}} end %% allowing interchange of null bytes allows attackers to forge %% malicious streams ; X when X == 16#0000 -> case Opts#opts.loose_unicode of true -> string(Rest, Stack, Opts, <>) ; false -> {error, {badjson, <>}} end %% anything else ; X -> string(Rest, Stack, Opts, <>) end; escaped_unicode(<>, Stack, Opts, String, Acc) when ?is_hex(S) -> escaped_unicode(Rest, Stack, Opts, String, [S] ++ Acc); escaped_unicode(Bin, Stack, Opts, String, Acc) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> escaped_unicode(<>, Stack, Opts, String, Acc ) end} ; false -> {error, {badjson, Bin}} end. low_surrogate(<>, Stack, Opts, String, High) -> low_surrogate_u(Rest, Stack, Opts, String, High); %% not an escaped codepoint, our high codepoint is illegal low_surrogate(<> = Bin, Stack, Opts, String, _) -> case Opts#opts.loose_unicode of true -> string(Bin, Stack, Opts, <>) ; false -> {error, {badjson, <>}} end; low_surrogate(Bin, Stack, Opts, String, High) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> low_surrogate(<>, Stack, Opts, String, High ) end} ; false -> {error, {badjson, Bin}} end. low_surrogate_u(<<$u/?utfx, Rest/binary>>, Stack, Opts, String, High) -> low_surrogate(Rest, Stack, Opts, String, [], High); %% not a low surrogate, dispatch back to string to handle, including the %% rsolidus we parsed previously low_surrogate_u(<> = Bin, Stack, Opts, String, _) -> case Opts#opts.loose_unicode of true -> string(<>, Stack, Opts, <> ) ; false -> {error, {badjson, <>}} end; low_surrogate_u(Bin, Stack, Opts, String, High) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> low_surrogate_u(<>, Stack, Opts, String, High ) end} ; false -> {error, {badjson, Bin}} end. low_surrogate(<>, Stack, Opts, String, [C, B, A], High) when ?is_hex(D) -> case erlang:list_to_integer([A, B, C, D], 16) of X when X >= 16#dc00, X =< 16#dfff -> V = surrogate_to_codepoint(High, X), case V rem 16#10000 of Y when Y == 16#fffe; Y == 16#ffff -> case Opts#opts.loose_unicode of true -> string(Rest, Stack, Opts, <> ) ; false -> {error, {badjson, <>}} end ; Y -> io:format("~p ~p~n", [V, Y]), string(Rest, Stack, Opts, <>) end %% not a low surrogate, bad bad bad ; _ -> case Opts#opts.loose_unicode of true -> string(Rest, Stack, Opts, <> ) ; false -> {error, {badjson, <>}} end end; low_surrogate(<>, Stack, Opts, String, Acc, High) when ?is_hex(S) -> low_surrogate(Rest, Stack, Opts, String, [S] ++ Acc, High); low_surrogate(Bin, Stack, Opts, String, Acc, High) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> low_surrogate(<>, Stack, Opts, String, Acc, High ) end} ; false -> {error, {badjson, Bin}} end. %% stole this from the unicode spec surrogate_to_codepoint(High, Low) -> (High - 16#d800) * 16#400 + (Low - 16#dc00) + 16#10000. %% like strings, numbers are collected in an intermediate accumulator before %% being emitted to the callback handler negative(<<$0/?utfx, Rest/binary>>, Stack, Opts, Acc) -> zero(Rest, Stack, Opts, "0" ++ Acc); negative(<>, Stack, Opts, Acc) when ?is_nonzero(S) -> integer(Rest, Stack, Opts, [S] ++ Acc); negative(Bin, Stack, Opts, Acc) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> negative(<>, Stack, Opts, Acc) end} ; false -> {error, {badjson, Bin}} end. zero(<>, [object|Stack], Opts, Acc) -> {jsx, format_number(Acc), fun() -> {jsx, end_object, fun() -> maybe_done(Rest, Stack, Opts) end} end}; zero(<>, [array|Stack], Opts, Acc) -> {jsx, format_number(Acc), fun() -> {jsx, end_array, fun() -> maybe_done(Rest, Stack, Opts) end} end}; zero(<>, [object|Stack], Opts, Acc) -> {jsx, format_number(Acc), fun() -> key(Rest, [key|Stack], Opts) end}; zero(<>, [array|_] = Stack, Opts, Acc) -> {jsx, format_number(Acc), fun() -> value(Rest, Stack, Opts) end}; zero(<>, Stack, Opts, Acc) -> initial_decimal(Rest, Stack, Opts, {Acc, []}); zero(<>, Stack, Opts, Acc) when ?is_whitespace(S) -> {jsx, format_number(Acc), fun() -> maybe_done(Rest, Stack, Opts) end}; zero(<<>>, [], Opts, Acc) -> {jsx, incomplete, fun(end_stream) -> {jsx, format_number(Acc), fun() -> {jsx, end_json, fun() -> zero(<<>>, [], Opts, Acc) end} end} ; (Stream) -> zero(Stream, [], Opts, Acc) end}; zero(Bin, Stack, Opts, Acc) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> zero(<>, Stack, Opts, Acc) end} ; false -> {error, {badjson, Bin}} end. integer(<>, Stack, Opts, Acc) when ?is_nonzero(S) -> integer(Rest, Stack, Opts, [S] ++ Acc); integer(<>, [object|Stack], Opts, Acc) -> {jsx, format_number(Acc), fun() -> {jsx, end_object, fun() -> maybe_done(Rest, Stack, Opts) end} end}; integer(<>, [array|Stack], Opts, Acc) -> {jsx, format_number(Acc), fun() -> {jsx, end_array, fun() -> maybe_done(Rest, Stack, Opts) end} end}; integer(<>, [object|Stack], Opts, Acc) -> {jsx, format_number(Acc), fun() -> key(Rest, [key|Stack], Opts) end}; integer(<>, [array|_] = Stack, Opts, Acc) -> {jsx, format_number(Acc), fun() -> value(Rest, Stack, Opts) end}; integer(<>, Stack, Opts, Acc) -> initial_decimal(Rest, Stack, Opts, {Acc, []}); integer(<>, Stack, Opts, Acc) -> integer(Rest, Stack, Opts, [?zero] ++ Acc); integer(<>, Stack, Opts, Acc) when S =:= $e; S =:= $E -> e(Rest, Stack, Opts, {lists:reverse(Acc), [], []}); integer(<>, Stack, Opts, Acc) when ?is_whitespace(S) -> {jsx, format_number(Acc), fun() -> maybe_done(Rest, Stack, Opts) end}; integer(<<>>, [], Opts, Acc) -> {jsx, incomplete, fun(end_stream) -> {jsx, format_number(Acc), fun() -> {jsx, end_json, fun() -> integer(<<>>, [], Opts, Acc) end} end} ; (Stream) -> integer(Stream, [], Opts, Acc) end}; integer(Bin, Stack, Opts, Acc) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> integer(<>, Stack, Opts, Acc) end} ; false -> {error, {badjson, Bin}} end. initial_decimal(<>, Stack, Opts, {Int, Frac}) when S =:= ?zero; ?is_nonzero(S) -> decimal(Rest, Stack, Opts, {Int, [S] ++ Frac}); initial_decimal(Bin, Stack, Opts, Acc) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> initial_decimal(<>, Stack, Opts, Acc ) end} ; false -> {error, {badjson, Bin}} end. decimal(<>, Stack, Opts, {Int, Frac}) when S=:= ?zero; ?is_nonzero(S) -> decimal(Rest, Stack, Opts, {Int, [S] ++ Frac}); decimal(<>, [object|Stack], Opts, Acc) -> {jsx, format_number(Acc), fun() -> {jsx, end_object, fun() -> maybe_done(Rest, Stack, Opts) end} end}; decimal(<>, [array|Stack], Opts, Acc) -> {jsx, format_number(Acc), fun() -> {jsx, end_array, fun() -> maybe_done(Rest, Stack, Opts) end} end}; decimal(<>, [object|Stack], Opts, Acc) -> {jsx, format_number(Acc), fun() -> key(Rest, [key|Stack], Opts) end}; decimal(<>, [array|_] = Stack, Opts, Acc) -> {jsx, format_number(Acc), fun() -> value(Rest, Stack, Opts) end}; decimal(<>, Stack, Opts, {Int, Frac}) when S =:= $e; S =:= $E -> e(Rest, Stack, Opts, {Int, Frac, []}); decimal(<>, Stack, Opts, Acc) when ?is_whitespace(S) -> {jsx, format_number(Acc), fun() -> maybe_done(Rest, Stack, Opts) end}; decimal(<<>>, [], Opts, Acc) -> {jsx, incomplete, fun(end_stream) -> {jsx, format_number(Acc), fun() -> {jsx, end_json, fun() -> decimal(<<>>, [], Opts, Acc) end} end} ; (Stream) -> decimal(Stream, [], Opts, Acc) end}; decimal(Bin, Stack, Opts, Acc) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> decimal(<>, Stack, Opts, Acc) end} ; false -> {error, {badjson, Bin}} end. e(<>, Stack, Opts, {Int, Frac, Exp}) when S =:= ?zero; ?is_nonzero(S) -> exp(Rest, Stack, Opts, {Int, Frac, [S] ++ Exp}); e(<>, Stack, Opts, {Int, Frac, Exp}) when S =:= ?positive; S =:= ?negative -> ex(Rest, Stack, Opts, {Int, Frac, [S] ++ Exp}); e(Bin, Stack, Opts, Acc) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> e(<>, Stack, Opts, Acc) end} ; false -> {error, {badjson, Bin}} end. ex(<>, Stack, Opts, {Int, Frac, Exp}) when S =:= ?zero; ?is_nonzero(S) -> exp(Rest, Stack, Opts, {Int, Frac, [S] ++ Exp}); ex(Bin, Stack, Opts, Acc) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> ex(<>, Stack, Opts, Acc) end} ; false -> {error, {badjson, Bin}} end. exp(<>, Stack, Opts, {Int, Frac, Exp}) when S =:= ?zero; ?is_nonzero(S) -> exp(Rest, Stack, Opts, {Int, Frac, [S] ++ Exp}); exp(<>, [object|Stack], Opts, Acc) -> {jsx, format_number(Acc), fun() -> {jsx, end_object, fun() -> maybe_done(Rest, Stack, Opts) end} end}; exp(<>, [array|Stack], Opts, Acc) -> {jsx, format_number(Acc), fun() -> {jsx, end_array, fun() -> maybe_done(Rest, Stack, Opts) end} end}; exp(<>, [object|Stack], Opts, Acc) -> {jsx, format_number(Acc), fun() -> key(Rest, [key|Stack], Opts) end}; exp(<>, [array|_] = Stack, Opts, Acc) -> {jsx, format_number(Acc), fun() -> value(Rest, Stack, Opts) end}; exp(<>, Stack, Opts, Acc) when ?is_whitespace(S) -> {jsx, format_number(Acc), fun() -> maybe_done(Rest, Stack, Opts) end}; exp(<<>>, [], Opts, Acc) -> {jsx, incomplete, fun(end_stream) -> {jsx, format_number(Acc), fun() -> {jsx, end_json, fun() -> exp(<<>>, [], Opts, Acc) end} end} ; (Stream) -> exp(Stream, [], Opts, Acc) end}; exp(Bin, Stack, Opts, Acc) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> exp(<>, Stack, Opts, Acc) end} ; false -> {error, {badjson, Bin}} end. format_number(Int) when is_list(Int) -> {integer, list_to_integer(lists:reverse(Int))}; format_number({Int, Frac}) -> {float, list_to_float(lists:reverse(Frac ++ "." ++ Int))}; format_number({Int, [], Exp}) -> {float, list_to_float(lists:reverse(Exp ++ "e0." ++ Int))}; format_number({Int, Frac, Exp}) -> {float, list_to_float(lists:reverse(Exp ++ "e" ++ Frac ++ "." ++ Int))}. tr(<<$r/?utfx, Rest/binary>>, Stack, Opts) -> tru(Rest, Stack, Opts); tr(Bin, Stack, Opts) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> tr(<>, Stack, Opts) end} ; false -> {error, {badjson, Bin}} end. tru(<<$u/?utfx, Rest/binary>>, Stack, Opts) -> true(Rest, Stack, Opts); tru(Bin, Stack, Opts) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> tru(<>, Stack, Opts) end} ; false -> {error, {badjson, Bin}} end. true(<<$e/?utfx, Rest/binary>>, Stack, Opts) -> {jsx, {literal, true}, fun() -> maybe_done(Rest, Stack, Opts) end}; true(Bin, Stack, Opts) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> true(<>, Stack, Opts) end} ; false -> {error, {badjson, Bin}} end. fa(<<$a/?utfx, Rest/binary>>, Stack, Opts) -> fal(Rest, Stack, Opts); fa(Bin, Stack, Opts) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> fa(<>, Stack, Opts) end} ; false -> {error, {badjson, Bin}} end. fal(<<$l/?utfx, Rest/binary>>, Stack, Opts) -> fals(Rest, Stack, Opts); fal(Bin, Stack, Opts) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> fal(<>, Stack, Opts) end} ; false -> {error, {badjson, Bin}} end. fals(<<$s/?utfx, Rest/binary>>, Stack, Opts) -> false(Rest, Stack, Opts); fals(Bin, Stack, Opts) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> fals(<>, Stack, Opts) end} ; false -> {error, {badjson, Bin}} end. false(<<$e/?utfx, Rest/binary>>, Stack, Opts) -> {jsx, {literal, false}, fun() -> maybe_done(Rest, Stack, Opts) end}; false(Bin, Stack, Opts) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> false(<>, Stack, Opts) end} ; false -> {error, {badjson, Bin}} end. nu(<<$u/?utfx, Rest/binary>>, Stack, Opts) -> nul(Rest, Stack, Opts); nu(Bin, Stack, Opts) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> nu(<>, Stack, Opts) end} ; false -> {error, {badjson, Bin}} end. nul(<<$l/?utfx, Rest/binary>>, Stack, Opts) -> null(Rest, Stack, Opts); nul(Bin, Stack, Opts) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> nul(<>, Stack, Opts) end} ; false -> {error, {badjson, Bin}} end. null(<<$l/?utfx, Rest/binary>>, Stack, Opts) -> {jsx, {literal, null}, fun() -> maybe_done(Rest, Stack, Opts) end}; null(Bin, Stack, Opts) -> case ?partial_codepoint(Bin) of true -> {jsx, incomplete, fun(end_stream) -> {error, {badjson, Bin}} ; (Stream) -> null(<>, Stack, Opts) end} ; false -> {error, {badjson, Bin}} end.