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| author | Hans Bolinder <[email protected]> | 2012-10-04 15:58:26 +0200 |
|---|---|---|
| committer | Hans Bolinder <[email protected]> | 2013-01-02 10:15:17 +0100 |
| commit | 300c5466a7c9cfe3ed22bba2a88ba21058406402 (patch) | |
| tree | b8c30800b17d5ae98255de2fd2818d8b5d4d6eba /lib/stdlib/src/erl_parse.yrl | |
| parent | 7a884a31cfcaaf23f7920ba1a006aa2855529030 (diff) | |
| download | otp-300c5466a7c9cfe3ed22bba2a88ba21058406402.tar.gz otp-300c5466a7c9cfe3ed22bba2a88ba21058406402.tar.bz2 otp-300c5466a7c9cfe3ed22bba2a88ba21058406402.zip | |
[stdlib, kernel] Introduce Unicode support for Erlang source files
Expect modifications, additions and corrections.
There is a kludge in file_io_server and
erl_scan:continuation_location() that's not so pleasing.
Diffstat (limited to 'lib/stdlib/src/erl_parse.yrl')
| -rw-r--r-- | lib/stdlib/src/erl_parse.yrl | 128 |
1 files changed, 66 insertions, 62 deletions
diff --git a/lib/stdlib/src/erl_parse.yrl b/lib/stdlib/src/erl_parse.yrl index 928c10f7f2..27a2ba80eb 100644 --- a/lib/stdlib/src/erl_parse.yrl +++ b/lib/stdlib/src/erl_parse.yrl @@ -2,7 +2,7 @@ %% %% %CopyrightBegin% %% -%% Copyright Ericsson AB 1996-2011. All Rights Reserved. +%% Copyright Ericsson AB 1996-2012. All Rights Reserved. %% %% The contents of this file are subject to the Erlang Public License, %% Version 1.1, (the "License"); you may not use this file except in @@ -923,73 +923,77 @@ normalise_list([]) -> -spec abstract(Data) -> AbsTerm when Data :: term(), AbsTerm :: abstract_expr(). -abstract(T) when is_integer(T) -> {integer,0,T}; -abstract(T) when is_float(T) -> {float,0,T}; -abstract(T) when is_atom(T) -> {atom,0,T}; -abstract([]) -> {nil,0}; -abstract(B) when is_bitstring(B) -> - {bin, 0, [abstract_byte(Byte, 0) || Byte <- bitstring_to_list(B)]}; -abstract([C|T]) when is_integer(C), 0 =< C, C < 256 -> - abstract_string(T, [C]); -abstract([H|T]) -> - {cons,0,abstract(H),abstract(T)}; -abstract(Tuple) when is_tuple(Tuple) -> - {tuple,0,abstract_list(tuple_to_list(Tuple))}. - -abstract_string([C|T], String) when is_integer(C), 0 =< C, C < 256 -> - abstract_string(T, [C|String]); -abstract_string([], String) -> - {string, 0, lists:reverse(String)}; -abstract_string(T, String) -> - not_string(String, abstract(T)). - -not_string([C|T], Result) -> - not_string(T, {cons, 0, {integer, 0, C}, Result}); -not_string([], Result) -> +abstract(T) -> + abstract(T, 0, epp:default_encoding()). + +%%% abstract/2 takes line and encoding options +-spec abstract(Data, Options) -> AbsTerm when + Data :: term(), + Options :: Line | [Option], + Option :: {line, Line} | {encoding, Encoding}, + Encoding :: latin1 | unicode | utf8, + Line :: erl_scan:line(), + AbsTerm :: abstract_expr(). + +abstract(T, Line) when is_integer(Line) -> + abstract(T, Line, epp:default_encoding()); +abstract(T, Options) when is_list(Options) -> + Line = proplists:get_value(line, Options, 0), + Encoding = proplists:get_value(encoding, Options,epp:default_encoding()), + abstract(T, Line, Encoding). + +-define(UNICODE(C), + (C >= 0 andalso C < 16#D800 orelse + C > 16#DFFF andalso C < 16#FFFE orelse + C > 16#FFFF andalso C =< 16#10FFFF)). + +abstract(T, L, _E) when is_integer(T) -> {integer,L,T}; +abstract(T, L, _E) when is_float(T) -> {float,L,T}; +abstract(T, L, _E) when is_atom(T) -> {atom,L,T}; +abstract([], L, _E) -> {nil,L}; +abstract(B, L, _E) when is_bitstring(B) -> + {bin, L, [abstract_byte(Byte, L) || Byte <- bitstring_to_list(B)]}; +abstract([C|T], L, unicode=E) when ?UNICODE(C) -> + abstract_unicode_string(T, [C], L, E); +abstract([C|T], L, utf8=E) when ?UNICODE(C) -> + abstract_unicode_string(T, [C], L, E); +abstract([C|T], L, latin1=E) when is_integer(C), 0 =< C, C < 256 -> + abstract_string(T, [C], L, E); +abstract([H|T], L, E) -> + {cons,L,abstract(H, L, E),abstract(T, L, E)}; +abstract(Tuple, L, E) when is_tuple(Tuple) -> + {tuple,L,abstract_list(tuple_to_list(Tuple), L, E)}. + +abstract_string([C|T], String, L, E) when is_integer(C), 0 =< C, C < 256 -> + abstract_string(T, [C|String], L, E); +abstract_string([], String, L, _E) -> + {string, L, lists:reverse(String)}; +abstract_string(T, String, L, E) -> + not_string(String, abstract(T, L, E), L, E). + +abstract_unicode_string([C|T], String, L, E) when ?UNICODE(C) -> + abstract_unicode_string(T, [C|String], L, E); +abstract_unicode_string([], String, L, _E) -> + {string, L, lists:reverse(String)}; +abstract_unicode_string(T, String, L, E) -> + not_string(String, abstract(T, L, E), L, E). + +not_string([C|T], Result, L, E) -> + not_string(T, {cons, L, {integer, L, C}, Result}, L, E); +not_string([], Result, _L, _E) -> Result. -abstract_list([H|T]) -> - [abstract(H)|abstract_list(T)]; -abstract_list([]) -> +abstract_list([H|T], L, E) -> + [abstract(H, L, E)|abstract_list(T, L, E)]; +abstract_list([], _L, _E) -> []. -abstract_byte(Byte, Line) when is_integer(Byte) -> - {bin_element, Line, {integer, Line, Byte}, default, default}; -abstract_byte(Bits, Line) -> +abstract_byte(Byte, L) when is_integer(Byte) -> + {bin_element, L, {integer, L, Byte}, default, default}; +abstract_byte(Bits, L) -> Sz = bit_size(Bits), <<Val:Sz>> = Bits, - {bin_element, Line, {integer, Line, Val}, {integer, Line, Sz}, default}. - -%%% abstract/2 keeps the line number -abstract(T, Line) when is_integer(T) -> {integer,Line,T}; -abstract(T, Line) when is_float(T) -> {float,Line,T}; -abstract(T, Line) when is_atom(T) -> {atom,Line,T}; -abstract([], Line) -> {nil,Line}; -abstract(B, Line) when is_bitstring(B) -> - {bin, Line, [abstract_byte(Byte, Line) || Byte <- bitstring_to_list(B)]}; -abstract([C|T], Line) when is_integer(C), 0 =< C, C < 256 -> - abstract_string(T, [C], Line); -abstract([H|T], Line) -> - {cons,Line,abstract(H, Line),abstract(T, Line)}; -abstract(Tuple, Line) when is_tuple(Tuple) -> - {tuple,Line,abstract_list(tuple_to_list(Tuple), Line)}. - -abstract_string([C|T], String, Line) when is_integer(C), 0 =< C, C < 256 -> - abstract_string(T, [C|String], Line); -abstract_string([], String, Line) -> - {string, Line, lists:reverse(String)}; -abstract_string(T, String, Line) -> - not_string(String, abstract(T, Line), Line). - -not_string([C|T], Result, Line) -> - not_string(T, {cons, Line, {integer, Line, C}, Result}, Line); -not_string([], Result, _Line) -> - Result. - -abstract_list([H|T], Line) -> - [abstract(H, Line)|abstract_list(T, Line)]; -abstract_list([], _Line) -> - []. + {bin_element, L, {integer, L, Val}, {integer, L, Sz}, default}. %% Generate a list of tokens representing the abstract term. |