%% 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. -module(jsx_decoder). -export([decoder/3]). -spec decoder(Handler::module(), State::any(), Config::jsx:config()) -> jsx:decoder(). decoder(Handler, State, Config) -> fun(JSON) -> start(JSON, {Handler, Handler:init(State)}, [], jsx_utils:parse_config(Config)) end. -include("jsx_config.hrl"). %% 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(doublequote, 16#22). -define(singlequote, 16#27). -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). %% math -define(zero, 16#30). -define(decimalpoint, 16#2E). -define(negative, 16#2D). -define(positive, 16#2B). %% comments -define(star, 16#2A). %% 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 ). %% error, incomplete and event macros -ifndef(error). -define(error(Args), erlang:error(badarg, Args) ). -endif. -ifndef(incomplete). -define(incomplete(State, Rest, Handler, Stack, Config), {incomplete, fun(Stream) when is_binary(Stream) -> State(<>, Handler, Stack, Config) ; (end_stream) -> case State(<>/binary>>, Handler, Stack, Config#config{explicit_end=false}) of {incomplete, _} -> ?error([Rest, Handler, Stack, Config]) ; Events -> Events end end } ). -define(incomplete(State, Rest, Handler, Acc, Stack, Config), {incomplete, fun(Stream) when is_binary(Stream) -> State(<>, Handler, Acc, Stack, Config) ; (end_stream) -> case State(<>/binary>>, Handler, Acc, Stack, Config#config{explicit_end=false}) of {incomplete, _} -> ?error([Rest, Handler, Acc, Stack, Config]) ; Events -> Events end end } ). -endif. -define(new_seq(), []). -define(new_seq(C), [C]). -define(acc_seq(Seq, C), [C] ++ Seq). -define(acc_seq(Seq, C, D), [C, D] ++ Seq). -define(end_seq(Seq), unicode:characters_to_binary(lists:reverse(Seq))). handle_event([], Handler, _Config) -> Handler; handle_event([Event|Rest], Handler, Config) -> handle_event(Rest, handle_event(Event, Handler, Config), Config); handle_event(Event, {Handler, State}, _Config) -> {Handler, Handler:handle_event(Event, State)}. start(<<16#ef, Rest/binary>>, Handler, Stack, Config) -> maybe_bom(Rest, Handler, Stack, Config); start(<<>>, Handler, Stack, Config) -> ?incomplete(start, <<>>, Handler, Stack, Config); start(Bin, Handler, Stack, Config) -> value(Bin, Handler, Stack, Config). maybe_bom(<<16#bb, Rest/binary>>, Handler, Stack, Config) -> definitely_bom(Rest, Handler, Stack, Config); maybe_bom(<<>>, Handler, Stack, Config) -> ?incomplete(maybe_bom, <<>>, Handler, Stack, Config); maybe_bom(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). definitely_bom(<<16#bf, Rest/binary>>, Handler, Stack, Config) -> value(Rest, Handler, Stack, Config); definitely_bom(<<>>, Handler, Stack, Config) -> ?incomplete(definitely_bom, <<>>, Handler, Stack, Config); definitely_bom(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). value(<>, Handler, Stack, Config) -> string(Rest, Handler, ?new_seq(), Stack, Config); value(<>, Handler, Stack, Config = #config{single_quoted_strings=true}) -> string(Rest, Handler, ?new_seq(), [single_quote|Stack], Config); value(<<$t, Rest/binary>>, Handler, Stack, Config) -> tr(Rest, Handler, Stack, Config); value(<<$f, Rest/binary>>, Handler, Stack, Config) -> fa(Rest, Handler, Stack, Config); value(<<$n, Rest/binary>>, Handler, Stack, Config) -> nu(Rest, Handler, Stack, Config); value(<>, Handler, Stack, Config) -> negative(Rest, Handler, [[$-]|Stack], Config); value(<>, Handler, Stack, Config) -> zero(Rest, Handler, [[$0]|Stack], Config); value(<>, Handler, Stack, Config) when ?is_nonzero(S) -> integer(Rest, Handler, [[S]|Stack], Config); value(<>, Handler, Stack, Config) -> object(Rest, handle_event(start_object, Handler, Config), [key|Stack], Config); value(<>, Handler, Stack, Config) -> array(Rest, handle_event(start_array, Handler, Config), [array|Stack], Config); value(<>, Handler, Stack, Config) when ?is_whitespace(S) -> value(Rest, Handler, Stack, Config); value(<>, Handler, Stack, Config=#config{comments=true}) -> comment(Rest, Handler, [value|Stack], Config); value(<<>>, Handler, Stack, Config) -> ?incomplete(value, <<>>, Handler, Stack, Config); value(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). object(<>, Handler, Stack, Config) -> string(Rest, Handler, ?new_seq(), Stack, Config); object(<>, Handler, Stack, Config = #config{single_quoted_strings=true}) -> string(Rest, Handler, ?new_seq(), [single_quote|Stack], Config); object(<>, Handler, [key|Stack], Config) -> maybe_done(Rest, handle_event(end_object, Handler, Config), Stack, Config); object(<>, Handler, Stack, Config) when ?is_whitespace(S) -> object(Rest, Handler, Stack, Config); object(<>, Handler, Stack, Config=#config{comments=true}) -> comment(Rest, Handler, [object|Stack], Config); object(<<>>, Handler, Stack, Config) -> ?incomplete(object, <<>>, Handler, Stack, Config); object(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). array(<>, Handler, [array|Stack], Config) -> maybe_done(Rest, handle_event(end_array, Handler, Config), Stack, Config); array(<>, Handler, Stack, Config) when ?is_whitespace(S) -> array(Rest, Handler, Stack, Config); array(<>, Handler, Stack, Config=#config{comments=true}) -> comment(Rest, Handler, [array|Stack], Config); array(<<>>, Handler, Stack, Config) -> ?incomplete(array, <<>>, Handler, Stack, Config); array(Bin, Handler, Stack, Config) -> value(Bin, Handler, Stack, Config). colon(<>, Handler, [key|Stack], Config) -> value(Rest, Handler, [object|Stack], Config); colon(<>, Handler, Stack, Config) when ?is_whitespace(S) -> colon(Rest, Handler, Stack, Config); colon(<>, Handler, Stack, Config=#config{comments=true}) -> comment(Rest, Handler, [colon|Stack], Config); colon(<<>>, Handler, Stack, Config) -> ?incomplete(colon, <<>>, Handler, Stack, Config); colon(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). key(<>, Handler, Stack, Config) -> string(Rest, Handler, ?new_seq(), Stack, Config); key(<>, Handler, Stack, Config = #config{single_quoted_strings=true}) -> string(Rest, Handler, ?new_seq(), [single_quote|Stack], Config); key(<>, Handler, Stack, Config) when ?is_whitespace(S) -> key(Rest, Handler, Stack, Config); key(<>, Handler, Stack, Config=#config{comments=true}) -> comment(Rest, Handler, [key|Stack], Config); key(<<>>, Handler, Stack, Config) -> ?incomplete(key, <<>>, Handler, Stack, Config); key(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). %% explicitly whitelist ascii set for better efficiency (seriously, it's worth %% almost a 20% increase) string(<<32, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 32), Stack, Config); string(<<33, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 33), Stack, Config); string(<>, Handler, Acc, Stack, Config) -> case Stack of [key|_] -> colon(Rest, handle_event({key, ?end_seq(Acc)}, Handler, Config), Stack, Config); [single_quote|_] -> string(Rest, Handler,?acc_seq(Acc, maybe_replace(?doublequote, Config)), Stack, Config); _ -> maybe_done(Rest, handle_event({string, ?end_seq(Acc)}, Handler, Config), Stack, Config) end; string(<<35, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 35), Stack, Config); string(<<36, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 36), Stack, Config); string(<<37, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 37), Stack, Config); string(<<38, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 38), Stack, Config); string(<>, Handler, Acc, Stack, Config) -> case Stack of [single_quote, key|S] -> colon(Rest, handle_event({key, ?end_seq(Acc)}, Handler, Config), [key|S], Config) ; [single_quote|S] -> maybe_done(Rest, handle_event({string, ?end_seq(Acc)}, Handler, Config), S, Config) ; _ -> string(Rest, Handler, ?acc_seq(Acc, maybe_replace(?singlequote, Config)), Stack, Config) end; string(<<40, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 40), Stack, Config); string(<<41, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 41), Stack, Config); string(<<42, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 42), Stack, Config); string(<<43, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 43), Stack, Config); string(<<44, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 44), Stack, Config); string(<<45, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 45), Stack, Config); string(<<46, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 46), Stack, Config); string(<>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, maybe_replace(?solidus, Config)), Stack, Config); string(<<48, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 48), Stack, Config); string(<<49, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 49), Stack, Config); string(<<50, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 50), Stack, Config); string(<<51, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 51), Stack, Config); string(<<52, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 52), Stack, Config); string(<<53, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 53), Stack, Config); string(<<54, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 54), Stack, Config); string(<<55, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 55), Stack, Config); string(<<56, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 56), Stack, Config); string(<<57, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 57), Stack, Config); string(<<58, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 58), Stack, Config); string(<<59, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 59), Stack, Config); string(<<60, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 60), Stack, Config); string(<<61, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 61), Stack, Config); string(<<62, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 62), Stack, Config); string(<<63, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 63), Stack, Config); string(<<64, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 64), Stack, Config); string(<<65, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 65), Stack, Config); string(<<66, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 66), Stack, Config); string(<<67, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 67), Stack, Config); string(<<68, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 68), Stack, Config); string(<<69, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 69), Stack, Config); string(<<70, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 70), Stack, Config); string(<<71, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 71), Stack, Config); string(<<72, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 72), Stack, Config); string(<<73, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 73), Stack, Config); string(<<74, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 74), Stack, Config); string(<<75, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 75), Stack, Config); string(<<76, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 76), Stack, Config); string(<<77, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 77), Stack, Config); string(<<78, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 78), Stack, Config); string(<<79, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 79), Stack, Config); string(<<80, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 80), Stack, Config); string(<<81, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 81), Stack, Config); string(<<82, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 82), Stack, Config); string(<<83, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 83), Stack, Config); string(<<84, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 84), Stack, Config); string(<<85, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 85), Stack, Config); string(<<86, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 86), Stack, Config); string(<<87, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 87), Stack, Config); string(<<88, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 88), Stack, Config); string(<<89, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 89), Stack, Config); string(<<90, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 90), Stack, Config); string(<<91, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 91), Stack, Config); string(<>, Handler, Acc, Stack, Config) -> escape(Rest, Handler, Acc, Stack, Config); string(<<93, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 93), Stack, Config); string(<<94, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 94), Stack, Config); string(<<95, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 95), Stack, Config); string(<<96, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 96), Stack, Config); string(<<97, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 97), Stack, Config); string(<<98, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 98), Stack, Config); string(<<99, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 99), Stack, Config); string(<<100, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 100), Stack, Config); string(<<101, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 101), Stack, Config); string(<<102, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 102), Stack, Config); string(<<103, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 103), Stack, Config); string(<<104, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 104), Stack, Config); string(<<105, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 105), Stack, Config); string(<<106, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 106), Stack, Config); string(<<107, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 107), Stack, Config); string(<<108, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 108), Stack, Config); string(<<109, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 109), Stack, Config); string(<<110, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 110), Stack, Config); string(<<111, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 111), Stack, Config); string(<<112, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 112), Stack, Config); string(<<113, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 113), Stack, Config); string(<<114, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 114), Stack, Config); string(<<115, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 115), Stack, Config); string(<<116, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 116), Stack, Config); string(<<117, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 117), Stack, Config); string(<<118, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 118), Stack, Config); string(<<119, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 119), Stack, Config); string(<<120, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 120), Stack, Config); string(<<121, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 121), Stack, Config); string(<<122, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 122), Stack, Config); string(<<123, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 123), Stack, Config); string(<<124, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 124), Stack, Config); string(<<125, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 125), Stack, Config); string(<<126, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 126), Stack, Config); string(<<127, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, 127), Stack, Config); string(<>, Handler, Acc, Stack, Config) when X >= 16#20, X < 16#2028 -> string(Rest, Handler, ?acc_seq(Acc, X), Stack, Config); string(<>, Handler, Acc, Stack, Config) when X == 16#2028; X == 16#2029 -> string(Rest, Handler, ?acc_seq(Acc, maybe_replace(X, Config)), Stack, Config); string(<>, Handler, Acc, Stack, Config) when X > 16#2029, X < 16#d800 -> string(Rest, Handler, ?acc_seq(Acc, X), Stack, Config); string(<>, Handler, Acc, Stack, Config) when X > 16#dfff, X < 16#fdd0 -> string(Rest, Handler, ?acc_seq(Acc, X), Stack, Config); string(<>, Handler, Acc, Stack, Config) when X > 16#fdef, X < 16#fffe -> string(Rest, Handler, ?acc_seq(Acc, X), Stack, Config); string(<>, Handler, Acc, Stack, Config) when X >= 16#10000, X < 16#1fffe -> string(Rest, Handler, ?acc_seq(Acc, X), Stack, Config); string(<>, Handler, Acc, Stack, Config) when X >= 16#20000, X < 16#2fffe -> string(Rest, Handler, ?acc_seq(Acc, X), Stack, Config); string(<>, Handler, Acc, Stack, Config) when X >= 16#30000, X < 16#3fffe -> string(Rest, Handler, ?acc_seq(Acc, X), Stack, Config); string(<>, Handler, Acc, Stack, Config) when X >= 16#40000, X < 16#4fffe -> string(Rest, Handler, ?acc_seq(Acc, X), Stack, Config); string(<>, Handler, Acc, Stack, Config) when X >= 16#50000, X < 16#5fffe -> string(Rest, Handler, ?acc_seq(Acc, X), Stack, Config); string(<>, Handler, Acc, Stack, Config) when X >= 16#60000, X < 16#6fffe -> string(Rest, Handler, ?acc_seq(Acc, X), Stack, Config); string(<>, Handler, Acc, Stack, Config) when X >= 16#70000, X < 16#7fffe -> string(Rest, Handler, ?acc_seq(Acc, X), Stack, Config); string(<>, Handler, Acc, Stack, Config) when X >= 16#80000, X < 16#8fffe -> string(Rest, Handler, ?acc_seq(Acc, X), Stack, Config); string(<>, Handler, Acc, Stack, Config) when X >= 16#90000, X < 16#9fffe -> string(Rest, Handler, ?acc_seq(Acc, X), Stack, Config); string(<>, Handler, Acc, Stack, Config) when X >= 16#a0000, X < 16#afffe -> string(Rest, Handler, ?acc_seq(Acc, X), Stack, Config); string(<>, Handler, Acc, Stack, Config) when X >= 16#b0000, X < 16#bfffe -> string(Rest, Handler, ?acc_seq(Acc, X), Stack, Config); string(<>, Handler, Acc, Stack, Config) when X >= 16#c0000, X < 16#cfffe -> string(Rest, Handler, ?acc_seq(Acc, X), Stack, Config); string(<>, Handler, Acc, Stack, Config) when X >= 16#d0000, X < 16#dfffe -> string(Rest, Handler, ?acc_seq(Acc, X), Stack, Config); string(<>, Handler, Acc, Stack, Config) when X >= 16#e0000, X < 16#efffe -> string(Rest, Handler, ?acc_seq(Acc, X), Stack, Config); string(<>, Handler, Acc, Stack, Config) when X >= 16#f0000, X < 16#ffffe -> string(Rest, Handler, ?acc_seq(Acc, X), Stack, Config); string(<>, Handler, Acc, Stack, Config) when X >= 16#100000, X < 16#10fffe -> string(Rest, Handler, ?acc_seq(Acc, X), Stack, Config); %% surrogates string(<<237, X, _, Rest/binary>>, Handler, Acc, Stack, #config{replaced_bad_utf8=true} = Config) when X >= 160 -> string(Rest, Handler, ?acc_seq(Acc, 16#fffd), Stack, Config); %% u+fffe and u+ffff for R14BXX string(<<239, 191, X, Rest/binary>>, Handler, Acc, Stack, #config{replaced_bad_utf8=true} = Config) when X == 190; X == 191 -> string(Rest, Handler, ?acc_seq(Acc, 16#fffd), Stack, Config); %% u+xfffe, u+xffff, control codes and other noncharacters string(<<_/utf8, Rest/binary>>, Handler, Acc, Stack, #config{replaced_bad_utf8=true} = Config) -> string(Rest, Handler, ?acc_seq(Acc, 16#fffd), Stack, Config); %% overlong encodings and missing continuations of a 2 byte sequence string(<>, Handler, Acc, Stack, #config{replaced_bad_utf8=true} = Config) when X >= 192, X =< 223 -> strip_continuations(Rest, Handler, Acc, Stack, Config, 1); %% overlong encodings and missing continuations of a 3 byte sequence string(<>, Handler, Acc, Stack, #config{replaced_bad_utf8=true} = Config) when X >= 224, X =< 239 -> strip_continuations(Rest, Handler, Acc, Stack, Config, 2); %% overlong encodings and missing continuations of a 4 byte sequence string(<>, Handler, Acc, Stack, #config{replaced_bad_utf8=true} = Config) when X >= 240, X =< 247 -> strip_continuations(Rest, Handler, Acc, Stack, Config, 3); %% incompletes and unexpected bytes, including orphan continuations string(<<_, Rest/binary>> = Bin, Handler, Acc, Stack, #config{replaced_bad_utf8=true} = Config) -> case partial_utf(Bin) of true -> ?incomplete(string, Bin, Handler, Acc, Stack, Config); false -> string(Rest, Handler, ?acc_seq(Acc, 16#fffd), Stack, Config) end; string(Bin, Handler, Acc, Stack, Config) -> case partial_utf(Bin) of true -> ?incomplete(string, Bin, Handler, Acc, Stack, Config); false -> ?error([Bin, Handler, Acc, Stack, Config]) end. %% string appends it's output to the term at the top of the stack. for %% efficiency the strings are build in reverse order and reversed before %% being added to the output stream %% when parsing strings, the naive detection of partial codepoints is %% insufficient. this incredibly anal function should detect all badly formed %% utf sequences partial_utf(<<>>) -> true; partial_utf(<>) when X >= 16#c2, X =< 16#f4 -> true; partial_utf(<>) when X >= 16#e0, X =< 16#f4, Y >= 16#80, Y =< 16#bf -> true; partial_utf(<>) when X >= 16#f0, X =< 16#f4, Y >= 16#80, Y =< 16#bf, Z >= 16#80, Z =< 16#bf -> true; partial_utf(_) -> false. %% strips continuation bytes after bad utf bytes, guards against both too short %% and overlong sequences. N is the maximum number of bytes to strip strip_continuations(Rest, Handler, Acc, Stack, Config, 0) -> string(Rest, Handler, ?acc_seq(Acc, 16#fffd), Stack, Config); strip_continuations(<>, Handler, Acc, Stack, Config, N) when X >= 128, X =< 191 -> strip_continuations(Rest, Handler, Acc, Stack, Config, N - 1); %% incomplete strip_continuations(<<>>, Handler, Acc, Stack, Config, N) -> case N of 1 -> ?incomplete(string, <<192>>, Handler, Acc, Stack, Config); 2 -> ?incomplete(string, <<224>>, Handler, Acc, Stack, Config); 3 -> ?incomplete(string, <<240>>, Handler, Acc, Stack, Config) end; %% not a continuation byte, dispatch back to string strip_continuations(Rest, Handler, Acc, Stack, Config, _) -> string(Rest, Handler, ?acc_seq(Acc, 16#fffd), Stack, Config). escape(<<$b, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, maybe_replace($\b, Config)), Stack, Config); escape(<<$f, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, maybe_replace($\f, Config)), Stack, Config); escape(<<$n, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, maybe_replace($\n, Config)), Stack, Config); escape(<<$r, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, maybe_replace($\r, Config)), Stack, Config); escape(<<$t, Rest/binary>>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, maybe_replace($\t, Config)), Stack, Config); escape(<>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, maybe_replace($\\, Config)), Stack, Config); escape(<>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, maybe_replace($/, Config)), Stack, Config); escape(<>, Handler, Acc, Stack, Config) -> string(Rest, Handler, ?acc_seq(Acc, maybe_replace($\", Config)), Stack, Config); escape(<>, Handler, Acc, Stack, Config = #config{single_quoted_strings=true}) -> string(Rest, Handler, ?acc_seq(Acc, maybe_replace(?singlequote, Config)), Stack, Config); escape(<<$u, A, B, C, D, ?rsolidus, $u, W, X, Y, Z, Rest/binary>>, Handler, Acc, Stack, Config) when ?is_hex(A), ?is_hex(B), ?is_hex(C), ?is_hex(D), ?is_hex(W), ?is_hex(X), ?is_hex(Y), ?is_hex(Z) -> case {erlang:list_to_integer([A, B, C, D], 16), erlang:list_to_integer([W, X, Y, Z], 16)} of {High, Low} when High >= 16#d800, High =< 16#dbff, Low >= 16#dc00, Low =< 16#dfff -> case (High - 16#d800) * 16#400 + (Low - 16#dc00) + 16#10000 of Codepoint when Codepoint =< 16#d800; Codepoint >= 16#e000 -> string(Rest, Handler, ?acc_seq(Acc, maybe_replace(Codepoint, Config)), Stack, Config); _ when Config#config.replaced_bad_utf8 == true -> string(Rest, Handler, ?acc_seq(Acc, 16#fffd, 16#fffd), Stack, Config); _ -> ?error([<<$u, A, B, C, D, ?rsolidus, $u, W, X, Y, Z, Rest/binary>>, Handler, Stack, Config]) end; _ -> ?error([<<$u, A, B, C, D, ?rsolidus, $u, W, X, Y, Z, Rest/binary>>, Handler, Stack, Config]) end; escape(<<$u, A, B, C, D, Rest/binary>>, Handler, Acc, Stack, Config) when ?is_hex(A), ?is_hex(B), ?is_hex(C), ?is_hex(D) -> case erlang:list_to_integer([A, B, C, D], 16) of Codepoint when Codepoint >= 16#dc00, Codepoint =< 16#dfff -> ?incomplete(string, <>, Handler, Acc, Stack, Config); Codepoint when Codepoint =< 16#d800; Codepoint >= 16#e000 -> string(Rest, Handler, ?acc_seq(Acc, maybe_replace(Codepoint, Config)), Stack, Config); _ when Config#config.replaced_bad_utf8 == true -> string(Rest, Handler, ?acc_seq(Acc, 16#fffd), Stack, Config); _ -> ?error([<<$u, A, B, C, D, Rest/binary>>, Handler, Acc, Stack, Config]) end; escape(Bin, Handler, Acc, Stack, Config=#config{ignored_bad_escapes=true}) -> string(Bin, Handler, ?acc_seq(Acc, ?rsolidus), Stack, Config); escape(Bin, Handler, Acc, Stack, Config) -> case is_partial_escape(Bin) of true -> ?incomplete(string, <>, Handler, Acc, Stack, Config); false -> ?error([Bin, Handler, Acc, Stack, Config]) end. is_partial_escape(<<$u, A, B, C, D, ?rsolidus, $u, W, X, Y>>) when ?is_hex(A), ?is_hex(B), ?is_hex(C), ?is_hex(D), ?is_hex(W), ?is_hex(X), ?is_hex(Y) -> true; is_partial_escape(<<$u, A, B, C, D, ?rsolidus, $u, W, X>>) when ?is_hex(A), ?is_hex(B), ?is_hex(C), ?is_hex(D), ?is_hex(W), ?is_hex(X) -> true; is_partial_escape(<<$u, A, B, C, D, ?rsolidus, $u, W>>) when ?is_hex(A), ?is_hex(B), ?is_hex(C), ?is_hex(D), ?is_hex(W) -> true; is_partial_escape(<<$u, A, B, C, D, ?rsolidus, $u>>) when ?is_hex(A), ?is_hex(B), ?is_hex(C), ?is_hex(D) -> true; is_partial_escape(<<$u, A, B, C, D, ?rsolidus>>) when ?is_hex(A), ?is_hex(B), ?is_hex(C), ?is_hex(D) -> true; is_partial_escape(<<$u, A, B, C, D>>) when ?is_hex(A), ?is_hex(B), ?is_hex(C), ?is_hex(D) -> true; is_partial_escape(<<$u, A, B, C>>) when ?is_hex(A), ?is_hex(B), ?is_hex(C) -> true; is_partial_escape(<<$u, A, B>>) when ?is_hex(A), ?is_hex(B) -> true; is_partial_escape(<<$u, A>>) when ?is_hex(A) -> true; is_partial_escape(<<$u>>) -> true; is_partial_escape(<<>>) -> true; is_partial_escape(_) -> false. maybe_replace(X, #config{dirty_strings=true}) when is_integer(X) -> [X]; maybe_replace($\b, #config{escaped_strings=true}) -> [$\\, $b]; maybe_replace($\t, #config{escaped_strings=true}) -> [$\\, $t]; maybe_replace($\n, #config{escaped_strings=true}) -> [$\\, $n]; maybe_replace($\f, #config{escaped_strings=true}) -> [$\\, $f]; maybe_replace($\r, #config{escaped_strings=true}) -> [$\\, $r]; maybe_replace($\", #config{escaped_strings=true}) -> [$\\, $\"]; maybe_replace($', Config=#config{escaped_strings=true}) -> case Config#config.single_quoted_strings of true -> [$\\, $'] ; false -> [$'] end; maybe_replace($/, Config=#config{escaped_strings=true}) -> case Config#config.escaped_forward_slashes of true -> [$\\, $/] ; false -> [$/] end; maybe_replace($\\, #config{escaped_strings=true}) -> [$\\, $\\]; maybe_replace(X, Config=#config{escaped_strings=true}) when X == 16#2028; X == 16#2029 -> case Config#config.unescaped_jsonp of true -> [X] ; false -> jsx_utils:json_escape_sequence(X) end; maybe_replace(X, #config{escaped_strings=true}) when X < 32 -> jsx_utils:json_escape_sequence(X); maybe_replace(X, _Config) -> [X]. %% like strings, numbers are collected in an intermediate accumulator before %% being emitted to the callback handler negative(<<$0, Rest/binary>>, Handler, [Acc|Stack], Config) -> zero(Rest, Handler, ["0" ++ Acc|Stack], Config); negative(<>, Handler, [Acc|Stack], Config) when ?is_nonzero(S) -> integer(Rest, Handler, [[S] ++ Acc|Stack], Config); negative(<<>>, Handler, Stack, Config) -> ?incomplete(negative, <<>>, Handler, Stack, Config); negative(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). zero(<>, Handler, [Acc, object|Stack], Config) -> maybe_done(Rest, handle_event([format_number(Acc), end_object], Handler, Config), Stack, Config); zero(<>, Handler, [Acc, array|Stack], Config) -> maybe_done(Rest, handle_event(end_array, handle_event(format_number(Acc), Handler, Config), Config), Stack, Config); zero(<>, Handler, [Acc, object|Stack], Config) -> key(Rest, handle_event(format_number(Acc), Handler, Config), [key|Stack], Config); zero(<>, Handler, [Acc, array|Stack], Config) -> value(Rest, handle_event(format_number(Acc), Handler, Config), [array|Stack], Config); zero(<>, Handler, [Acc|Stack], Config) -> initial_decimal(Rest, Handler, [{Acc, []}|Stack], Config); zero(<>, Handler, [Acc|Stack], Config) when S =:= $e; S =:= $E -> e(Rest, Handler, [{Acc, [], []}|Stack], Config); zero(<>, Handler, [Acc|Stack], Config) when ?is_whitespace(S) -> maybe_done(Rest, handle_event(format_number(Acc), Handler, Config), Stack, Config); zero(<>, Handler, [Acc|Stack], Config=#config{comments=true}) -> comment(Rest, handle_event(format_number(Acc), Handler, Config), [maybe_done|Stack], Config); zero(<<>>, Handler, [Acc|[]], Config = #config{explicit_end=false}) -> maybe_done(<<>>, handle_event(format_number(Acc), Handler, Config), [], Config); zero(<<>>, Handler, Stack, Config) -> ?incomplete(zero, <<>>, Handler, Stack, Config); zero(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). integer(<>, Handler, [Acc|Stack], Config) when ?is_nonzero(S) -> integer(Rest, Handler, [[S] ++ Acc|Stack], Config); integer(<>, Handler, [Acc, object|Stack], Config) -> maybe_done(Rest, handle_event([format_number(Acc), end_object], Handler, Config), Stack, Config); integer(<>, Handler, [Acc, array|Stack], Config) -> maybe_done(Rest, handle_event([format_number(Acc), end_array], Handler, Config), Stack, Config); integer(<>, Handler, [Acc, object|Stack], Config) -> key(Rest, handle_event(format_number(Acc), Handler, Config), [key|Stack], Config); integer(<>, Handler, [Acc, array|Stack], Config) -> value(Rest, handle_event(format_number(Acc), Handler, Config), [array|Stack], Config); integer(<>, Handler, [Acc|Stack], Config) -> initial_decimal(Rest, Handler, [{Acc, []}|Stack], Config); integer(<>, Handler, [Acc|Stack], Config) -> integer(Rest, Handler, [[?zero] ++ Acc|Stack], Config); integer(<>, Handler, [Acc|Stack], Config) when S =:= $e; S =:= $E -> e(Rest, Handler, [{Acc, [], []}|Stack], Config); integer(<>, Handler, [Acc|Stack], Config) when ?is_whitespace(S) -> maybe_done(Rest, handle_event(format_number(Acc), Handler, Config), Stack, Config); integer(<>, Handler, [Acc|Stack], Config=#config{comments=true}) -> comment(Rest, handle_event(format_number(Acc), Handler, Config), [maybe_done|Stack], Config); integer(<<>>, Handler, [Acc|[]], Config = #config{explicit_end=false}) -> maybe_done(<<>>, handle_event(format_number(Acc), Handler, Config), [], Config); integer(<<>>, Handler, Stack, Config) -> ?incomplete(integer, <<>>, Handler, Stack, Config); integer(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). initial_decimal(<>, Handler, [{Int, Frac}|Stack], Config) when S =:= ?zero; ?is_nonzero(S) -> decimal(Rest, Handler, [{Int, [S] ++ Frac}|Stack], Config); initial_decimal(<<>>, Handler, Stack, Config) -> ?incomplete(initial_decimal, <<>>, Handler, Stack, Config); initial_decimal(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). decimal(<>, Handler, [{Int, Frac}|Stack], Config) when S=:= ?zero; ?is_nonzero(S) -> decimal(Rest, Handler, [{Int, [S] ++ Frac}|Stack], Config); decimal(<>, Handler, [Acc, object|Stack], Config) -> maybe_done(Rest, handle_event([format_number(Acc), end_object], Handler, Config), Stack, Config); decimal(<>, Handler, [Acc, array|Stack], Config) -> maybe_done(Rest, handle_event([format_number(Acc), end_array], Handler, Config), Stack, Config); decimal(<>, Handler, [Acc, object|Stack], Config) -> key(Rest, handle_event(format_number(Acc), Handler, Config), [key|Stack], Config); decimal(<>, Handler, [Acc, array|Stack], Config) -> value(Rest, handle_event(format_number(Acc), Handler, Config), [array|Stack], Config); decimal(<>, Handler, [{Int, Frac}|Stack], Config) when S =:= $e; S =:= $E -> e(Rest, Handler, [{Int, Frac, []}|Stack], Config); decimal(<>, Handler, [Acc|Stack], Config) when ?is_whitespace(S) -> maybe_done(Rest, handle_event(format_number(Acc), Handler, Config), Stack, Config); decimal(<>, Handler, [Acc|Stack], Config=#config{comments=true}) -> comment(Rest, handle_event(format_number(Acc), Handler, Config), [maybe_done|Stack], Config); decimal(<<>>, Handler, [Acc|[]], Config = #config{explicit_end=false}) -> maybe_done(<<>>, handle_event(format_number(Acc), Handler, Config), [], Config); decimal(<<>>, Handler, Stack, Config) -> ?incomplete(decimal, <<>>, Handler, Stack, Config); decimal(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). e(<>, Handler, [{Int, Frac, Exp}|Stack], Config) when S =:= ?zero; ?is_nonzero(S) -> exp(Rest, Handler, [{Int, Frac, [S] ++ Exp}|Stack], Config); e(<>, Handler, [{Int, Frac, Exp}|Stack], Config) when S =:= ?positive; S =:= ?negative -> ex(Rest, Handler, [{Int, Frac, [S] ++ Exp}|Stack], Config); e(<<>>, Handler, Stack, Config) -> ?incomplete(e, <<>>, Handler, Stack, Config); e(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). ex(<>, Handler, [{Int, Frac, Exp}|Stack], Config) when S =:= ?zero; ?is_nonzero(S) -> exp(Rest, Handler, [{Int, Frac, [S] ++ Exp}|Stack], Config); ex(<<>>, Handler, Stack, Config) -> ?incomplete(ex, <<>>, Handler, Stack, Config); ex(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). exp(<>, Handler, [{Int, Frac, Exp}|Stack], Config) when S =:= ?zero; ?is_nonzero(S) -> exp(Rest, Handler, [{Int, Frac, [S] ++ Exp}|Stack], Config); exp(<>, Handler, [Acc, object|Stack], Config) -> maybe_done(Rest, handle_event([format_number(Acc), end_object], Handler, Config), Stack, Config); exp(<>, Handler, [Acc, array|Stack], Config) -> maybe_done(Rest, handle_event([format_number(Acc), end_array], Handler, Config), Stack, Config); exp(<>, Handler, [Acc, object|Stack], Config) -> key(Rest, handle_event(format_number(Acc), Handler, Config), [key|Stack], Config); exp(<>, Handler, [Acc, array|Stack], Config) -> value(Rest, handle_event(format_number(Acc), Handler, Config), [array|Stack], Config); exp(<>, Handler, [Acc|Stack], Config) when ?is_whitespace(S) -> maybe_done(Rest, handle_event(format_number(Acc), Handler, Config), Stack, Config); exp(<>, Handler, [Acc|Stack], Config=#config{comments=true}) -> comment(Rest, handle_event(format_number(Acc), Handler, Config), [maybe_done|Stack], Config); exp(<<>>, Handler, [Acc|[]], Config = #config{explicit_end=false}) -> maybe_done(<<>>, handle_event(format_number(Acc), Handler, Config), [], Config); exp(<<>>, Handler, Stack, Config) -> ?incomplete(exp, <<>>, Handler, Stack, Config); exp(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). 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, Rest/binary>>, Handler, Stack, Config) -> tru(Rest, Handler, Stack, Config); tr(<<>>, Handler, Stack, Config) -> ?incomplete(tr, <<>>, Handler, Stack, Config); tr(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). tru(<<$u, Rest/binary>>, Handler, Stack, Config) -> true(Rest, Handler, Stack, Config); tru(<<>>, Handler, Stack, Config) -> ?incomplete(tru, <<>>, Handler, Stack, Config); tru(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). true(<<$e, Rest/binary>>, Handler, Stack, Config) -> maybe_done(Rest, handle_event({literal, true}, Handler, Config), Stack, Config); true(<<>>, Handler, Stack, Config) -> ?incomplete(true, <<>>, Handler, Stack, Config); true(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). fa(<<$a, Rest/binary>>, Handler, Stack, Config) -> fal(Rest, Handler, Stack, Config); fa(<<>>, Handler, Stack, Config) -> ?incomplete(fa, <<>>, Handler, Stack, Config); fa(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). fal(<<$l, Rest/binary>>, Handler, Stack, Config) -> fals(Rest, Handler, Stack, Config); fal(<<>>, Handler, Stack, Config) -> ?incomplete(fal, <<>>, Handler, Stack, Config); fal(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). fals(<<$s, Rest/binary>>, Handler, Stack, Config) -> false(Rest, Handler, Stack, Config); fals(<<>>, Handler, Stack, Config) -> ?incomplete(fals, <<>>, Handler, Stack, Config); fals(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). false(<<$e, Rest/binary>>, Handler, Stack, Config) -> maybe_done(Rest, handle_event({literal, false}, Handler, Config), Stack, Config); false(<<>>, Handler, Stack, Config) -> ?incomplete(false, <<>>, Handler, Stack, Config); false(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). nu(<<$u, Rest/binary>>, Handler, Stack, Config) -> nul(Rest, Handler, Stack, Config); nu(<<>>, Handler, Stack, Config) -> ?incomplete(nu, <<>>, Handler, Stack, Config); nu(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). nul(<<$l, Rest/binary>>, Handler, Stack, Config) -> null(Rest, Handler, Stack, Config); nul(<<>>, Handler, Stack, Config) -> ?incomplete(nul, <<>>, Handler, Stack, Config); nul(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). null(<<$l, Rest/binary>>, Handler, Stack, Config) -> maybe_done(Rest, handle_event({literal, null}, Handler, Config), Stack, Config); null(<<>>, Handler, Stack, Config) -> ?incomplete(null, <<>>, Handler, Stack, Config); null(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). comment(<>, Handler, Stack, Config) -> single_comment(Rest, Handler, Stack, Config); comment(<>, Handler, Stack, Config) -> multi_comment(Rest, Handler, Stack, Config); comment(<<>>, Handler, Stack, Config) -> ?incomplete(comment, <<>>, Handler, Stack, Config); comment(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). single_comment(<>, Handler, Stack, Config) -> end_comment(Rest, Handler, Stack, Config); single_comment(<<_/utf8, Rest/binary>>, Handler, Stack, Config) -> single_comment(Rest, Handler, Stack, Config); single_comment(<<>>, Handler, [done], Config=#config{explicit_end=false}) -> end_comment(<<>>, Handler, [done], Config); single_comment(<<>>, Handler, Stack, Config) -> ?incomplete(single_comment, <<>>, Handler, Stack, Config); single_comment(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). multi_comment(<>, Handler, Stack, Config) -> end_multi_comment(Rest, Handler, Stack, Config); multi_comment(<<_S/utf8, Rest/binary>>, Handler, Stack, Config) -> multi_comment(Rest, Handler, Stack, Config); multi_comment(<<>>, Handler, Stack, Config) -> ?incomplete(multi_comment, <<>>, Handler, Stack, Config); multi_comment(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). end_multi_comment(<>, Handler, Stack, Config) -> end_comment(Rest, Handler, Stack, Config); end_multi_comment(<<_S/utf8, Rest/binary>>, Handler, Stack, Config) -> multi_comment(Rest, Handler, Stack, Config); end_multi_comment(<<>>, Handler, Stack, Config) -> ?incomplete(end_multi_comment, <<>>, Handler, Stack, Config); end_multi_comment(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). end_comment(Rest, Handler, [Resume|Stack], Config) -> case Resume of value -> value(Rest, Handler, Stack, Config) ; object -> object(Rest, Handler, Stack, Config) ; array -> array(Rest, Handler, Stack, Config) ; colon -> colon(Rest, Handler, Stack, Config) ; key -> key(Rest, Handler, Stack, Config) ; maybe_done -> maybe_done(Rest, Handler, Stack, Config) ; done -> done(Rest, Handler, Stack, Config) end. maybe_done(Rest, Handler, [], Config) -> done(Rest, handle_event(end_json, Handler, Config), [], Config); maybe_done(<>, Handler, [object|Stack], Config) -> maybe_done(Rest, handle_event(end_object, Handler, Config), Stack, Config); maybe_done(<>, Handler, [array|Stack], Config) -> maybe_done(Rest, handle_event(end_array, Handler, Config), Stack, Config); maybe_done(<>, Handler, [object|Stack], Config) -> key(Rest, Handler, [key|Stack], Config); maybe_done(<>, Handler, [array|_] = Stack, Config) -> value(Rest, Handler, Stack, Config); maybe_done(<>, Handler, Stack, Config) when ?is_whitespace(S) -> maybe_done(Rest, Handler, Stack, Config); maybe_done(<>, Handler, Stack, Config=#config{comments=true}) -> comment(Rest, Handler, [maybe_done|Stack], Config); maybe_done(<<>>, Handler, Stack, Config) when length(Stack) > 0 -> ?incomplete(maybe_done, <<>>, Handler, Stack, Config); maybe_done(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). done(<>, Handler, [], Config) when ?is_whitespace(S) -> done(Rest, Handler, [], Config); done(<>, Handler, [], Config=#config{comments=true}) -> comment(Rest, Handler, [done], Config); done(<<>>, {Handler, State}, [], Config = #config{explicit_end=true}) -> {incomplete, fun(Stream) when is_binary(Stream) -> done(<>, {Handler, State}, [], Config) ; (end_stream) -> State end }; done(<<>>, {_Handler, State}, [], _Config) -> State; done(Bin, Handler, Stack, Config) -> ?error([Bin, Handler, Stack, Config]). -ifdef(TEST). -include_lib("eunit/include/eunit.hrl"). decode(JSON, Config) -> try start(JSON, {jsx, []}, [], jsx_utils:parse_config(Config)) catch error:badarg -> {error, badarg} end. decode_test_() -> Data = jsx:test_cases(), [{Title, ?_assertEqual(Events ++ [end_json], decode(JSON, []))} || {Title, JSON, _, Events} <- Data ]. %% all these numbers have different representation in erlang than in javascript and %% do not roundtrip like most integers/floats special_number_test_() -> [ {"-0", ?_assertEqual( [{integer, 0}, end_json], decode(<<"-0">>, []) )}, {"-0.0", ?_assertEqual( [{float, 0.0}, end_json], decode(<<"-0.0">>, []) )}, {"0e0", ?_assertEqual( [{float, 0.0}, end_json], decode(<<"0e0">>, []) )}, {"0e4", ?_assertEqual( [{float, 0.0}, end_json], decode(<<"0e4">>, []) )}, {"1e0", ?_assertEqual( [{float, 1.0}, end_json], decode(<<"1e0">>, []) )}, {"-1e0", ?_assertEqual( [{float, -1.0}, end_json], decode(<<"-1e0">>, []) )}, {"1e4", ?_assertEqual( [{float, 1.0e4}, end_json], decode(<<"1e4">>, []) )} ]. comments_test_() -> [ {"preceeding // comment", ?_assertEqual( [start_array, end_array, end_json], decode(<<"// comment ", ?newline, "[]">>, [comments]) )}, {"preceeding /**/ comment", ?_assertEqual( [start_array, end_array, end_json], decode(<<"/* comment */[]">>, [comments]) )}, {"trailing // comment", ?_assertEqual( [start_array, end_array, end_json], decode(<<"[]// comment", ?newline>>, [comments]) )}, {"trailing // comment (no newline)", ?_assertEqual( [start_array, end_array, end_json], decode(<<"[]// comment">>, [comments]) )}, {"trailing /**/ comment", ?_assertEqual( [start_array, end_array, end_json], decode(<<"[] /* comment */">>, [comments]) )}, {"// comment inside array", ?_assertEqual( [start_array, end_array, end_json], decode(<<"[ // comment", ?newline, "]">>, [comments]) )}, {"/**/ comment inside array", ?_assertEqual( [start_array, end_array, end_json], decode(<<"[ /* comment */ ]">>, [comments]) )}, {"// comment at beginning of array", ?_assertEqual( [start_array, {literal, true}, end_array, end_json], decode(<<"[ // comment", ?newline, "true", ?newline, "]">>, [comments]) )}, {"/**/ comment at beginning of array", ?_assertEqual( [start_array, {literal, true}, end_array, end_json], decode(<<"[ /* comment */ true ]">>, [comments]) )}, {"// comment at end of array", ?_assertEqual( [start_array, {literal, true}, end_array, end_json], decode(<<"[ true // comment", ?newline, "]">>, [comments]) )}, {"/**/ comment at end of array", ?_assertEqual( [start_array, {literal, true}, end_array, end_json], decode(<<"[ true /* comment */ ]">>, [comments]) )}, {"// comment midarray (post comma)", ?_assertEqual( [start_array, {literal, true}, {literal, false}, end_array, end_json], decode(<<"[ true, // comment", ?newline, "false ]">>, [comments]) )}, {"/**/ comment midarray (post comma)", ?_assertEqual( [start_array, {literal, true}, {literal, false}, end_array, end_json], decode(<<"[ true, /* comment */ false ]">>, [comments]) )}, {"// comment midarray (pre comma)", ?_assertEqual( [start_array, {literal, true}, {literal, false}, end_array, end_json], decode(<<"[ true// comment", ?newline, ", false ]">>, [comments]) )}, {"/**/ comment midarray (pre comma)", ?_assertEqual( [start_array, {literal, true}, {literal, false}, end_array, end_json], decode(<<"[ true/* comment */, false ]">>, [comments]) )}, {"// comment inside object", ?_assertEqual( [start_object, end_object, end_json], decode(<<"{ // comment", ?newline, "}">>, [comments]) )}, {"/**/ comment inside object", ?_assertEqual( [start_object, end_object, end_json], decode(<<"{ /* comment */ }">>, [comments]) )}, {"// comment at beginning of object", ?_assertEqual( [start_object, {key, <<"key">>}, {literal, true}, end_object, end_json], decode(<<"{ // comment", ?newline, " \"key\": true", ?newline, "}">>, [comments]) )}, {"/**/ comment at beginning of object", ?_assertEqual( [start_object, {key, <<"key">>}, {literal, true}, end_object, end_json], decode(<<"{ /* comment */ \"key\": true }">>, [comments]) )}, {"// comment at end of object", ?_assertEqual( [start_object, {key, <<"key">>}, {literal, true}, end_object, end_json], decode(<<"{ \"key\": true // comment", ?newline, "}">>, [comments]) )}, {"/**/ comment at end of object", ?_assertEqual( [start_object, {key, <<"key">>}, {literal, true}, end_object, end_json], decode(<<"{ \"key\": true /* comment */ }">>, [comments]) )}, {"// comment midobject (post comma)", ?_assertEqual( [ start_object, {key, <<"x">>}, {literal, true}, {key, <<"y">>}, {literal, false}, end_object, end_json ], decode(<<"{ \"x\": true, // comment", ?newline, "\"y\": false }">>, [comments]) )}, {"/**/ comment midobject (post comma)", ?_assertEqual( [ start_object, {key, <<"x">>}, {literal, true}, {key, <<"y">>}, {literal, false}, end_object, end_json ], decode(<<"{ \"x\": true, /* comment */", ?newline, "\"y\": false }">>, [comments]) )}, {"// comment midobject (pre comma)", ?_assertEqual( [ start_object, {key, <<"x">>}, {literal, true}, {key, <<"y">>}, {literal, false}, end_object, end_json ], decode(<<"{ \"x\": true// comment", ?newline, ", \"y\": false }">>, [comments]) )}, {"/**/ comment midobject (pre comma)", ?_assertEqual( [ start_object, {key, <<"x">>}, {literal, true}, {key, <<"y">>}, {literal, false}, end_object, end_json ], decode(<<"{ \"x\": true/* comment */", ?newline, ", \"y\": false }">>, [comments]) )}, {"// comment precolon", ?_assertEqual( [start_object, {key, <<"key">>}, {literal, true}, end_object, end_json], decode(<<"{ \"key\" // comment", ?newline, ": true }">>, [comments]) )}, {"/**/ comment precolon", ?_assertEqual( [start_object, {key, <<"key">>}, {literal, true}, end_object, end_json], decode(<<"{ \"key\"/* comment */: true }">>, [comments]) )}, {"// comment postcolon", ?_assertEqual( [start_object, {key, <<"key">>}, {literal, true}, end_object, end_json], decode(<<"{ \"key\": // comment", ?newline, " true }">>, [comments]) )}, {"/**/ comment postcolon", ?_assertEqual( [start_object, {key, <<"key">>}, {literal, true}, end_object, end_json], decode(<<"{ \"key\":/* comment */ true }">>, [comments]) )}, {"// comment terminating zero", ?_assertEqual( [start_array, {integer, 0}, end_array, end_json], decode(<<"[ 0// comment", ?newline, "]">>, [comments]) )}, {"// comment terminating integer", ?_assertEqual( [start_array, {integer, 1}, end_array, end_json], decode(<<"[ 1// comment", ?newline, "]">>, [comments]) )}, {"// comment terminating float", ?_assertEqual( [start_array, {float, 1.0}, end_array, end_json], decode(<<"[ 1.0// comment", ?newline, "]">>, [comments]) )}, {"// comment terminating exp", ?_assertEqual( [start_array, {float, 1.0e1}, end_array, end_json], decode(<<"[ 1e1// comment", ?newline, "]">>, [comments]) )}, {"/**/ comment terminating zero", ?_assertEqual( [start_array, {integer, 0}, end_array, end_json], decode(<<"[ 0/* comment */ ]">>, [comments]) )}, {"/**/ comment terminating integer", ?_assertEqual( [start_array, {integer, 1}, end_array, end_json], decode(<<"[ 1/* comment */ ]">>, [comments]) )}, {"/**/ comment terminating float", ?_assertEqual( [start_array, {float, 1.0}, end_array, end_json], decode(<<"[ 1.0/* comment */ ]">>, [comments]) )}, {"/**/ comment terminating exp", ?_assertEqual( [start_array, {float, 1.0e1}, end_array, end_json], decode(<<"[ 1e1/* comment */ ]">>, [comments]) )}, {"/**/ comment following /**/ comment", ?_assertEqual( [start_array, {literal, true}, end_array, end_json], decode(<<"[/* comment *//* comment */true]">>, [comments]) )}, {"/**/ comment following // comment", ?_assertEqual( [start_array, {literal, true}, end_array, end_json], decode(<<"[// comment", ?newline, "/* comment */true]">>, [comments]) )}, {"// comment following /**/ comment", ?_assertEqual( [start_array, {literal, true}, end_array, end_json], decode(<<"[/* comment */// comment", ?newline, "true]">>, [comments]) )}, {"// comment following // comment", ?_assertEqual( [start_array, {literal, true}, end_array, end_json], decode(<<"[// comment", ?newline, "// comment", ?newline, "true]">>, [comments]) )} ]. codepoints() -> unicode:characters_to_binary( [32, 33] ++ lists:seq(35, 38) ++ lists:seq(40, 46) ++ lists:seq(48, 91) ++ lists:seq(93, 16#2027) ++ lists:seq(16#202a, 16#d7ff) ++ lists:seq(16#e000, 16#fdcf) ++ lists:seq(16#fdf0, 16#fffd) ). extended_codepoints() -> unicode:characters_to_binary( lists:seq(16#10000, 16#1fffd) ++ [ 16#20000, 16#30000, 16#40000, 16#50000, 16#60000, 16#70000, 16#80000, 16#90000, 16#a0000, 16#b0000, 16#c0000, 16#d0000, 16#e0000, 16#f0000, 16#100000 ] ). reserved_space() -> [ to_fake_utf8(N) || N <- lists:seq(16#fdd0, 16#fdef) ]. surrogates() -> [ to_fake_utf8(N) || N <- lists:seq(16#d800, 16#dfff) ]. noncharacters() -> [ to_fake_utf8(N) || N <- lists:seq(16#fffe, 16#ffff) ]. extended_noncharacters() -> [ to_fake_utf8(N) || N <- [16#1fffe, 16#1ffff, 16#2fffe, 16#2ffff] ++ [16#3fffe, 16#3ffff, 16#4fffe, 16#4ffff] ++ [16#5fffe, 16#5ffff, 16#6fffe, 16#6ffff] ++ [16#7fffe, 16#7ffff, 16#8fffe, 16#8ffff] ++ [16#9fffe, 16#9ffff, 16#afffe, 16#affff] ++ [16#bfffe, 16#bffff, 16#cfffe, 16#cffff] ++ [16#dfffe, 16#dffff, 16#efffe, 16#effff] ++ [16#ffffe, 16#fffff, 16#10fffe, 16#10ffff] ]. %% erlang refuses to decode certain codepoints, so fake them all to_fake_utf8(N) when N < 16#0080 -> <<34/utf8, N:8, 34/utf8>>; to_fake_utf8(N) when N < 16#0800 -> <<0:5, Y:5, X:6>> = <>, <<34/utf8, 2#110:3, Y:5, 2#10:2, X:6, 34/utf8>>; to_fake_utf8(N) when N < 16#10000 -> <> = <>, <<34/utf8, 2#1110:4, Z:4, 2#10:2, Y:6, 2#10:2, X:6, 34/utf8>>; to_fake_utf8(N) -> <<0:3, W:3, Z:6, Y:6, X:6>> = <>, <<34/utf8, 2#11110:5, W:3, 2#10:2, Z:6, 2#10:2, Y:6, 2#10:2, X:6, 34/utf8>>. clean_string_test_() -> [ {"clean codepoints", ?_assertEqual( [{string, codepoints()}, end_json], decode(<<34, (codepoints())/binary, 34>>, []) )}, {"clean extended codepoints", ?_assertEqual( [{string, extended_codepoints()}, end_json], decode(<<34, (extended_codepoints())/binary, 34>>, []) )}, {"error reserved space", ?_assertEqual( lists:duplicate(length(reserved_space()), {error, badarg}), lists:map(fun(Codepoint) -> decode(Codepoint, []) end, reserved_space()) )}, {"error surrogates", ?_assertEqual( lists:duplicate(length(surrogates()), {error, badarg}), lists:map(fun(Codepoint) -> decode(Codepoint, []) end, surrogates()) )}, {"error noncharacters", ?_assertEqual( lists:duplicate(length(noncharacters()), {error, badarg}), lists:map(fun(Codepoint) -> decode(Codepoint, []) end, noncharacters()) )}, {"error extended noncharacters", ?_assertEqual( lists:duplicate(length(extended_noncharacters()), {error, badarg}), lists:map(fun(Codepoint) -> decode(Codepoint, []) end, extended_noncharacters()) )}, {"clean reserved space", ?_assertEqual( lists:duplicate(length(reserved_space()), [{string, <<16#fffd/utf8>>}, end_json]), lists:map(fun(Codepoint) -> decode(Codepoint, [replaced_bad_utf8]) end, reserved_space()) )}, {"clean surrogates", ?_assertEqual( lists:duplicate(length(surrogates()), [{string, <<16#fffd/utf8>>}, end_json]), lists:map(fun(Codepoint) -> decode(Codepoint, [replaced_bad_utf8]) end, surrogates()) )}, {"clean noncharacters", ?_assertEqual( lists:duplicate(length(noncharacters()), [{string, <<16#fffd/utf8>>}, end_json]), lists:map(fun(Codepoint) -> decode(Codepoint, [replaced_bad_utf8]) end, noncharacters()) )}, {"clean extended noncharacters", ?_assertEqual( lists:duplicate(length(extended_noncharacters()), [{string, <<16#fffd/utf8>>}, end_json]), lists:map(fun(Codepoint) -> decode(Codepoint, [replaced_bad_utf8]) end, extended_noncharacters()) )} ]. clean_string(String, Config) -> [{string, S}, end_json] = start(<<34, String/binary, 34>>, {jsx, []}, [], Config), S. bad_utf8_test_() -> [ {"noncharacter u+fffe", ?_assertError( badarg, clean_string(<<239, 191, 190>>, #config{}) )}, {"noncharacter u+fffe replaced", ?_assertEqual( <<16#fffd/utf8>>, clean_string(<<239, 191, 190>>, #config{replaced_bad_utf8=true}) )}, {"noncharacter u+ffff", ?_assertError( badarg, clean_string(<<239, 191, 191>>, #config{}) )}, {"noncharacter u+ffff replaced", ?_assertEqual( <<16#fffd/utf8>>, clean_string(<<239, 191, 191>>, #config{replaced_bad_utf8=true}) )}, {"orphan continuation byte u+0080", ?_assertError( badarg, clean_string(<<16#0080>>, #config{}) )}, {"orphan continuation byte u+0080 replaced", ?_assertEqual( <<16#fffd/utf8>>, clean_string(<<16#0080>>, #config{replaced_bad_utf8=true}) )}, {"orphan continuation byte u+00bf", ?_assertError( badarg, clean_string(<<16#00bf>>, #config{}) )}, {"orphan continuation byte u+00bf replaced", ?_assertEqual( <<16#fffd/utf8>>, clean_string(<<16#00bf>>, #config{replaced_bad_utf8=true}) )}, {"2 continuation bytes", ?_assertError( badarg, clean_string(<<(binary:copy(<<16#0080>>, 2))/binary>>, #config{}) )}, {"2 continuation bytes replaced", ?_assertEqual( binary:copy(<<16#fffd/utf8>>, 2), clean_string(<<(binary:copy(<<16#0080>>, 2))/binary>>, #config{replaced_bad_utf8=true}) )}, {"3 continuation bytes", ?_assertError( badarg, clean_string(<<(binary:copy(<<16#0080>>, 3))/binary>>, #config{}) )}, {"3 continuation bytes replaced", ?_assertEqual( binary:copy(<<16#fffd/utf8>>, 3), clean_string(<<(binary:copy(<<16#0080>>, 3))/binary>>, #config{replaced_bad_utf8=true}) )}, {"4 continuation bytes", ?_assertError( badarg, clean_string(<<(binary:copy(<<16#0080>>, 4))/binary>>, #config{}) )}, {"4 continuation bytes replaced", ?_assertEqual( binary:copy(<<16#fffd/utf8>>, 4), clean_string(<<(binary:copy(<<16#0080>>, 4))/binary>>, #config{replaced_bad_utf8=true}) )}, {"5 continuation bytes", ?_assertError( badarg, clean_string(<<(binary:copy(<<16#0080>>, 5))/binary>>, #config{}) )}, {"5 continuation bytes replaced", ?_assertEqual( binary:copy(<<16#fffd/utf8>>, 5), clean_string(<<(binary:copy(<<16#0080>>, 5))/binary>>, #config{replaced_bad_utf8=true}) )}, {"6 continuation bytes", ?_assertError( badarg, clean_string(<<(binary:copy(<<16#0080>>, 6))/binary>>, #config{}) )}, {"6 continuation bytes replaced", ?_assertEqual( binary:copy(<<16#fffd/utf8>>, 6), clean_string(<<(binary:copy(<<16#0080>>, 6))/binary>>, #config{replaced_bad_utf8=true}) )}, {"all continuation bytes", ?_assertError( badarg, clean_string(<<(list_to_binary(lists:seq(16#0080, 16#00bf)))/binary>>, #config{}) )}, {"all continuation bytes replaced", ?_assertEqual( binary:copy(<<16#fffd/utf8>>, length(lists:seq(16#0080, 16#00bf))), clean_string( <<(list_to_binary(lists:seq(16#0080, 16#00bf)))/binary>>, #config{replaced_bad_utf8=true} ) )}, {"lonely start byte", ?_assertError( badarg, clean_string(<<16#00c0>>, #config{}) )}, {"lonely start byte replaced", ?_assertEqual( <<16#fffd/utf8>>, clean_string(<<16#00c0>>, #config{replaced_bad_utf8=true}) )}, {"lonely start bytes (2 byte)", ?_assertError( badarg, clean_string(<<16#00c0, 32, 16#00df>>, #config{}) )}, {"lonely start bytes (2 byte) replaced", ?_assertEqual( <<16#fffd/utf8, 32, 16#fffd/utf8>>, clean_string(<<16#00c0, 32, 16#00df>>, #config{replaced_bad_utf8=true}) )}, {"lonely start bytes (3 byte)", ?_assertError( badarg, clean_string(<<16#00e0, 32, 16#00ef>>, #config{}) )}, {"lonely start bytes (3 byte) replaced", ?_assertEqual( <<16#fffd/utf8, 32, 16#fffd/utf8>>, clean_string(<<16#00e0, 32, 16#00ef>>, #config{replaced_bad_utf8=true}) )}, {"lonely start bytes (4 byte)", ?_assertError( badarg, clean_string(<<16#00f0, 32, 16#00f7>>, #config{}) )}, {"lonely start bytes (4 byte) replaced", ?_assertEqual( <<16#fffd/utf8, 32, 16#fffd/utf8>>, clean_string(<<16#00f0, 32, 16#00f7>>, #config{replaced_bad_utf8=true}) )}, {"missing continuation byte (3 byte)", ?_assertError( badarg, clean_string(<<224, 160, 32>>, #config{}) )}, {"missing continuation byte (3 byte) replaced", ?_assertEqual( <<16#fffd/utf8, 32>>, clean_string(<<224, 160, 32>>, #config{replaced_bad_utf8=true}) )}, {"missing continuation byte (4 byte missing one)", ?_assertError( badarg, clean_string(<<240, 144, 128, 32>>, #config{}) )}, {"missing continuation byte (4 byte missing one) replaced", ?_assertEqual( <<16#fffd/utf8, 32>>, clean_string(<<240, 144, 128, 32>>, #config{replaced_bad_utf8=true}) )}, {"missing continuation byte (4 byte missing two)", ?_assertError( badarg, clean_string(<<240, 144, 32>>, #config{}) )}, {"missing continuation byte (4 byte missing two) replaced", ?_assertEqual( <<16#fffd/utf8, 32>>, clean_string(<<240, 144, 32>>, #config{replaced_bad_utf8=true}) )}, {"overlong encoding of u+002f (2 byte)", ?_assertError( badarg, clean_string(<<16#c0, 16#af, 32>>, #config{}) )}, {"overlong encoding of u+002f (2 byte) replaced", ?_assertEqual( <<16#fffd/utf8, 32>>, clean_string(<<16#c0, 16#af, 32>>, #config{replaced_bad_utf8=true}) )}, {"overlong encoding of u+002f (3 byte)", ?_assertError( badarg, clean_string(<<16#e0, 16#80, 16#af, 32>>, #config{}) )}, {"overlong encoding of u+002f (3 byte) replaced", ?_assertEqual( <<16#fffd/utf8, 32>>, clean_string(<<16#e0, 16#80, 16#af, 32>>, #config{replaced_bad_utf8=true}) )}, {"overlong encoding of u+002f (4 byte)", ?_assertError( badarg, clean_string(<<16#f0, 16#80, 16#80, 16#af, 32>>, #config{}) )}, {"overlong encoding of u+002f (4 byte) replaced", ?_assertEqual( <<16#fffd/utf8, 32>>, clean_string(<<16#f0, 16#80, 16#80, 16#af, 32>>, #config{replaced_bad_utf8=true}) )}, {"highest overlong 2 byte sequence", ?_assertError( badarg, clean_string(<<16#c1, 16#bf, 32>>, #config{}) )}, {"highest overlong 2 byte sequence replaced", ?_assertEqual( <<16#fffd/utf8, 32>>, clean_string(<<16#c1, 16#bf, 32>>, #config{replaced_bad_utf8=true}) )}, {"highest overlong 3 byte sequence", ?_assertError( badarg, clean_string(<<16#e0, 16#9f, 16#bf, 32>>, #config{}) )}, {"highest overlong 3 byte sequence replaced", ?_assertEqual( <<16#fffd/utf8, 32>>, clean_string(<<16#e0, 16#9f, 16#bf, 32>>, #config{replaced_bad_utf8=true}) )}, {"highest overlong 4 byte sequence", ?_assertError( badarg, clean_string(<<16#f0, 16#8f, 16#bf, 16#bf, 32>>, #config{}) )}, {"highest overlong 4 byte sequence replaced", ?_assertEqual( <<16#fffd/utf8, 32>>, clean_string(<<16#f0, 16#8f, 16#bf, 16#bf, 32>>, #config{replaced_bad_utf8=true}) )} ]. unescape(Bin, Config) -> [{string, String}, end_json] = decode(<<34, Bin/binary, 34>>, Config), String. unescape_test_() -> [ {"unescape backspace", ?_assertEqual( <<"\b">>, unescape(<<"\\b"/utf8>>, []) )}, {"unescape tab", ?_assertEqual( <<"\t">>, unescape(<<"\\t"/utf8>>, []) )}, {"unescape newline", ?_assertEqual( <<"\n">>, unescape(<<"\\n"/utf8>>, []) )}, {"unescape formfeed", ?_assertEqual( <<"\f">>, unescape(<<"\\f"/utf8>>, []) )}, {"unescape carriage return", ?_assertEqual( <<"\r">>, unescape(<<"\\r"/utf8>>, []) )}, {"unescape quote", ?_assertEqual( <<"\"">>, unescape(<<"\\\""/utf8>>, []) )}, {"unescape single quote", ?_assertEqual( <<"'">>, unescape(<<"\\'"/utf8>>, [single_quoted_strings]) )}, {"unescape solidus", ?_assertEqual( <<"/">>, unescape(<<"\\/"/utf8>>, []) )}, {"unescape reverse solidus", ?_assertEqual( <<"\\">>, unescape(<<"\\\\"/utf8>>, []) )}, {"unescape control", ?_assertEqual( <<0>>, unescape(<<"\\u0000"/utf8>>, []) )}, {"unescape surrogate pair", ?_assertEqual( <<16#10000/utf8>>, unescape(<<"\\ud800\\udc00"/utf8>>, []) )} ]. maybe_escape(Bin, Config) -> [{string, String}, end_json] = decode(Bin, Config), String. escape_test_() -> [ {"maybe_escape backspace", ?_assertEqual( <<"\\b">>, maybe_escape(<<34, "\\b"/utf8, 34>>, [escaped_strings]) )}, {"don't escape backspace", ?_assertEqual( <<"\b">>, maybe_escape(<<34, "\\b"/utf8, 34>>, []) )}, {"maybe_escape tab", ?_assertEqual( <<"\\t">>, maybe_escape(<<34, "\\t"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape newline", ?_assertEqual( <<"\\n">>, maybe_escape(<<34, "\\n"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape formfeed", ?_assertEqual( <<"\\f">>, maybe_escape(<<34, "\\f"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape carriage return", ?_assertEqual( <<"\\r">>, maybe_escape(<<34, "\\r"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape quote", ?_assertEqual( <<"\\\"">>, maybe_escape(<<34, "\\\""/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape forward slash", ?_assertEqual( <<"\\/">>, maybe_escape(<<34, "/"/utf8, 34>>, [escaped_strings, escaped_forward_slashes]) )}, {"do not maybe_escape forward slash", ?_assertEqual( <<"/">>, maybe_escape(<<34, "/"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape backslash", ?_assertEqual( <<"\\\\">>, maybe_escape(<<34, "\\\\"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape jsonp (u2028)", ?_assertEqual( <<"\\u2028">>, maybe_escape(<<34, 16#2028/utf8, 34>>, [escaped_strings]) )}, {"do not maybe_escape jsonp (u2028)", ?_assertEqual( <<16#2028/utf8>>, maybe_escape(<<34, 16#2028/utf8, 34>>, [escaped_strings, unescaped_jsonp]) )}, {"maybe_escape jsonp (u2029)", ?_assertEqual( <<"\\u2029">>, maybe_escape(<<34, 16#2029/utf8, 34>>, [escaped_strings]) )}, {"do not maybe_escape jsonp (u2029)", ?_assertEqual( <<16#2029/utf8>>, maybe_escape(<<34, 16#2029/utf8, 34>>, [escaped_strings, unescaped_jsonp]) )}, {"maybe_escape u0000", ?_assertEqual( <<"\\u0000">>, maybe_escape(<<34, "\\u0000"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u0001", ?_assertEqual( <<"\\u0001">>, maybe_escape(<<34, "\\u0001"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u0002", ?_assertEqual( <<"\\u0002">>, maybe_escape(<<34, "\\u0002"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u0003", ?_assertEqual( <<"\\u0003">>, maybe_escape(<<34, "\\u0003"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u0004", ?_assertEqual( <<"\\u0004">>, maybe_escape(<<34, "\\u0004"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u0005", ?_assertEqual( <<"\\u0005">>, maybe_escape(<<34, "\\u0005"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u0006", ?_assertEqual( <<"\\u0006">>, maybe_escape(<<34, "\\u0006"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u0007", ?_assertEqual( <<"\\u0007">>, maybe_escape(<<34, "\\u0007"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u000b", ?_assertEqual( <<"\\u000b">>, maybe_escape(<<34, "\\u000b"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u000e", ?_assertEqual( <<"\\u000e">>, maybe_escape(<<34, "\\u000e"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u000f", ?_assertEqual( <<"\\u000f">>, maybe_escape(<<34, "\\u000f"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u0010", ?_assertEqual( <<"\\u0010">>, maybe_escape(<<34, "\\u0010"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u0011", ?_assertEqual( <<"\\u0011">>, maybe_escape(<<34, "\\u0011"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u0012", ?_assertEqual( <<"\\u0012">>, maybe_escape(<<34, "\\u0012"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u0013", ?_assertEqual( <<"\\u0013">>, maybe_escape(<<34, "\\u0013"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u0014", ?_assertEqual( <<"\\u0014">>, maybe_escape(<<34, "\\u0014"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u0015", ?_assertEqual( <<"\\u0015">>, maybe_escape(<<34, "\\u0015"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u0016", ?_assertEqual( <<"\\u0016">>, maybe_escape(<<34, "\\u0016"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u0017", ?_assertEqual( <<"\\u0017">>, maybe_escape(<<34, "\\u0017"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u0018", ?_assertEqual( <<"\\u0018">>, maybe_escape(<<34, "\\u0018"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u0019", ?_assertEqual( <<"\\u0019">>, maybe_escape(<<34, "\\u0019"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u001a", ?_assertEqual( <<"\\u001a">>, maybe_escape(<<34, "\\u001a"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u001b", ?_assertEqual( <<"\\u001b">>, maybe_escape(<<34, "\\u001b"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u001c", ?_assertEqual( <<"\\u001c">>, maybe_escape(<<34, "\\u001c"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u001d", ?_assertEqual( <<"\\u001d">>, maybe_escape(<<34, "\\u001d"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u001e", ?_assertEqual( <<"\\u001e">>, maybe_escape(<<34, "\\u001e"/utf8, 34>>, [escaped_strings]) )}, {"maybe_escape u001f", ?_assertEqual( <<"\\u001f">>, maybe_escape(<<34, "\\u001f"/utf8, 34>>, [escaped_strings]) )} ]. single_quoted_string_test_() -> [ {"single quoted string", ?_assertEqual( [{string, <<"hello world">>}, end_json], decode(<<39, "hello world", 39>>, [single_quoted_strings]) )}, {"single quoted string with embedded double quotes", ?_assertEqual( [{string, <<"quoth the raven, \"nevermore\"">>}, end_json], decode(<<39, "quoth the raven, \"nevermore\"", 39>>, [single_quoted_strings]) )}, {"string with embedded single quotes", ?_assertEqual( [{string, <<"quoth the raven, 'nevermore'">>}, end_json], decode(<<34, "quoth the raven, 'nevermore'", 34>>, []) )} ]. ignored_bad_escapes_test_() -> [ {"ignore unrecognized escape sequence", ?_assertEqual( [{string, <<"\\x25">>}, end_json], decode(<<"\"\\x25\"">>, [ignored_bad_escapes]) )} ]. bom_test_() -> [ {"bom", ?_assertEqual( [start_array, end_array, end_json], decode(<<16#ef, 16#bb, 16#bf, "[]"/utf8>>, []) )} ]. -endif.