src/jiffy_utf8.erl - couchdb-jiffy - Git at Google

 % This file is part of Jiffy released under the MIT license.
 % See the LICENSE file for more information.

 -module(jiffy_utf8).
 -export([fix/1]).


 fix({Props}) ->
     fix_props(Props, []);
 fix(Values) when is_list(Values) ->
     fix_array(Values, []);
 fix(Bin) when is_binary(Bin) ->
     fix_bin(Bin);
 fix(Val) ->
     maybe_map(Val).

 -ifndef(JIFFY_NO_MAPS).
 maybe_map(Obj) when is_map(Obj) ->
     maps:fold(fun fix_map/3, maps:new(), Obj);
 maybe_map(Val) ->
     Val.

 fix_map(K, V, Acc) ->
     maps:put(fix(K), fix(V), Acc).
 -else.
 maybe_map(Val) ->
     Val.
 -endif.

 fix_props([], Acc) ->
     {lists:reverse(Acc)};
 fix_props([{K0, V0} | Rest], Acc) ->
     K = fix(K0),
     V = fix(V0),
     fix_props(Rest, [{K, V} | Acc]).


 fix_array([], Acc) ->
     lists:reverse(Acc);
 fix_array([Val | Rest], Acc0) ->
     Acc = [fix(Val) | Acc0],
     fix_array(Rest, Acc).


 fix_bin(Bin) ->
     Dec0 = loose_decode(Bin, 0, []),
     Dec1 = try_combining(Dec0, []),
     Dec2 = replace_garbage(Dec1, []),
     list_to_binary(xmerl_ucs:to_utf8(Dec2)).


 loose_decode(Bin, O, Acc) ->
     case Bin of
         <<_:O/binary>> ->
             lists:reverse(Acc);
         <<_:O/binary, 0:1/integer, V:7/integer, _/binary>> ->
             loose_decode(Bin, O+1, [V | Acc]);
         <<_:O/binary, 6:3/integer, V0:5/integer,
                 2:2/integer, V1:6/integer, _/binary>> ->
             B = <<0:5/integer, V0:5/integer, V1:6/integer>>,
             <<V:16/integer>> = B,
             loose_decode(Bin, O+2, [V | Acc]);
         <<_:O/binary, 14:4/integer, V0:4/integer,
                 2:2/integer, V1:6/integer,
                 2:2/integer, V2:6/integer, _/binary>> ->
             B = <<V0:4/integer, V1:6/integer, V2:6/integer>>,
             <<V:16/integer>> = B,
             loose_decode(Bin, O+3, [V | Acc]);
         <<_:O/binary, 30:5/integer, V0:3/integer,
                 2:2/integer, V1:6/integer,
                 2:2/integer, V2:6/integer,
                 2:2/integer, V3:6/integer, _/binary>> ->
             B = <<0:11/integer, V0:3/integer, V1:6/integer,
                     V2:6/integer, V3:6/integer>>,
             <<V:32/integer>> = B,
             loose_decode(Bin, O+4, [V | Acc]);
         <<_:O/binary, _:8/integer, R/binary>> ->
             % Broken lead or continuation byte. Discard first
             % byte and all broken continuations. Replace the
             % whole mess with a replacment code point.
             T = 1 + count_continuation_bytes(R, 0),
             loose_decode(Bin, O+T, [16#FFFD | Acc])
     end.


 count_continuation_bytes(R, O) ->
     case R of
         <<_:O/binary, 2:2/integer, _:6/integer, _/binary>> ->
             count_continuation_bytes(R, O+1);
         _ ->
             O
     end.


 try_combining([], Acc) ->
     lists:reverse(Acc);
 try_combining([H, L | Rest], Acc) when H >= 16#D800, H =< 16#DFFF,
                                         L >= 16#D800, L =< 16#DFFF ->
     Bin = <<H:16/big-unsigned-integer, L:16/big-unsigned-integer>>,
     try
         [C] = xmerl_ucs:from_utf16be(Bin),
         try_combining(Rest, [C | Acc])
     catch _:_ ->
         try_combining(Rest, [L, H | Acc])
     end;
 try_combining([C | Rest], Acc) ->
     try_combining(Rest, [C | Acc]).


 replace_garbage([], Acc) ->
     lists:reverse(Acc);
 replace_garbage([C | Rest], Acc) ->
     case xmerl_ucs:is_unicode(C) of
         true -> replace_garbage(Rest, [C | Acc]);
         false -> replace_garbage(Rest, [16#FFFD | Acc])
     end.
	% This file is part of Jiffy released under the MIT license.
	% See the LICENSE file for more information.

	-module(jiffy_utf8).
	-export([fix/1]).


	fix({Props}) ->
	fix_props(Props, []);
	fix(Values) when is_list(Values) ->
	fix_array(Values, []);
	fix(Bin) when is_binary(Bin) ->
	fix_bin(Bin);
	fix(Val) ->
	maybe_map(Val).

	-ifndef(JIFFY_NO_MAPS).
	maybe_map(Obj) when is_map(Obj) ->
	maps:fold(fun fix_map/3, maps:new(), Obj);
	maybe_map(Val) ->
	Val.

	fix_map(K, V, Acc) ->
	maps:put(fix(K), fix(V), Acc).
	-else.
	maybe_map(Val) ->
	Val.
	-endif.

	fix_props([], Acc) ->
	{lists:reverse(Acc)};
	fix_props([{K0, V0} \| Rest], Acc) ->
	K = fix(K0),
	V = fix(V0),
	fix_props(Rest, [{K, V} \| Acc]).


	fix_array([], Acc) ->
	lists:reverse(Acc);
	fix_array([Val \| Rest], Acc0) ->
	Acc = [fix(Val) \| Acc0],
	fix_array(Rest, Acc).


	fix_bin(Bin) ->
	Dec0 = loose_decode(Bin, 0, []),
	Dec1 = try_combining(Dec0, []),
	Dec2 = replace_garbage(Dec1, []),
	list_to_binary(xmerl_ucs:to_utf8(Dec2)).


	loose_decode(Bin, O, Acc) ->
	case Bin of
	<<_:O/binary>> ->
	lists:reverse(Acc);
	<<_:O/binary, 0:1/integer, V:7/integer, _/binary>> ->
	loose_decode(Bin, O+1, [V \| Acc]);
	<<_:O/binary, 6:3/integer, V0:5/integer,
	2:2/integer, V1:6/integer, _/binary>> ->
	B = <<0:5/integer, V0:5/integer, V1:6/integer>>,
	<<V:16/integer>> = B,
	loose_decode(Bin, O+2, [V \| Acc]);
	<<_:O/binary, 14:4/integer, V0:4/integer,
	2:2/integer, V1:6/integer,
	2:2/integer, V2:6/integer, _/binary>> ->
	B = <<V0:4/integer, V1:6/integer, V2:6/integer>>,
	<<V:16/integer>> = B,
	loose_decode(Bin, O+3, [V \| Acc]);
	<<_:O/binary, 30:5/integer, V0:3/integer,
	2:2/integer, V1:6/integer,
	2:2/integer, V2:6/integer,
	2:2/integer, V3:6/integer, _/binary>> ->
	B = <<0:11/integer, V0:3/integer, V1:6/integer,
	V2:6/integer, V3:6/integer>>,
	<<V:32/integer>> = B,
	loose_decode(Bin, O+4, [V \| Acc]);
	<<_:O/binary, _:8/integer, R/binary>> ->
	% Broken lead or continuation byte. Discard first
	% byte and all broken continuations. Replace the
	% whole mess with a replacment code point.
	T = 1 + count_continuation_bytes(R, 0),
	loose_decode(Bin, O+T, [16#FFFD \| Acc])
	end.


	count_continuation_bytes(R, O) ->
	case R of
	<<_:O/binary, 2:2/integer, _:6/integer, _/binary>> ->
	count_continuation_bytes(R, O+1);
	_ ->
	O
	end.


	try_combining([], Acc) ->
	lists:reverse(Acc);
	try_combining([H, L \| Rest], Acc) when H >= 16#D800, H =< 16#DFFF,
	L >= 16#D800, L =< 16#DFFF ->
	Bin = <<H:16/big-unsigned-integer, L:16/big-unsigned-integer>>,
	try
	[C] = xmerl_ucs:from_utf16be(Bin),
	try_combining(Rest, [C \| Acc])
	catch _:_ ->
	try_combining(Rest, [L, H \| Acc])
	end;
	try_combining([C \| Rest], Acc) ->
	try_combining(Rest, [C \| Acc]).


	replace_garbage([], Acc) ->
	lists:reverse(Acc);
	replace_garbage([C \| Rest], Acc) ->
	case xmerl_ucs:is_unicode(C) of
	true -> replace_garbage(Rest, [C \| Acc]);
	false -> replace_garbage(Rest, [16#FFFD \| Acc])
	end.