%% %% %CopyrightBegin% %% %% Copyright Ericsson AB 1997-2016. All Rights Reserved. %% %% Licensed under the Apache License, Version 2.0 (the "License"); %% you may not use this file except in compliance with the License. %% You may obtain a copy of the License at %% %% http://www.apache.org/licenses/LICENSE-2.0 %% %% Unless required by applicable law or agreed to in writing, software %% distributed under the License is distributed on an "AS IS" BASIS, %% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. %% See the License for the specific language governing permissions and %% limitations under the License. %% %% %CopyrightEnd% %% %% -module(icscan). -export([scan/2]). -include("ic.hrl"). %%---------------------------------------------------------------------- %%---------------------------------------------------------------------- -import(lists, [reverse/1]). scan(G, File) -> PL = call_preproc(G, File), call_scan(G, PL). call_preproc(G, File) -> case ic_options:get_opt(G, use_preproc) of true -> icpreproc:preproc(G, File); false -> case catch file:read_file(File) of {ok, Bin} -> binary_to_list(Bin); Other -> exit(Other) end end. call_scan(G, PL) -> BE = ic_options:get_opt(G, be), RSL = scan(G, BE, PL, 1, []), lists:reverse(RSL). %% Guard macros used at top scan functions only -define(is_number(X), X >= $0 , X =< $9). -define(is_upper(X), X >= $A , X =< $Z). -define(is_lower(X), X >= $a, X =< $z). -define(is_hex_uc(X), X >= $A , X =< $F). -define(is_hex_lc(X), X >= $a , X =< $f). -define(is_octal(X), X >=$0, X =< $7). %% Handle: %% const wchar aWChar = L'X'; scan(G, BE, [$L, $'|Str], Line, Out) -> scan_const(G, BE, wchar, Str, [], Line, Out); scan(G, BE, [$L, $"|Str], Line, Out) -> scan_const(G, BE, wstring, Str, [], Line, Out); scan(G, BE, [$_, X|Str], Line, Out) when ?is_upper(X) -> scan_name(G, BE, Str, [X], false, Line, Out); scan(G, BE, [$_, X|Str], Line, Out) when ?is_lower(X) -> scan_name(G, BE, Str, [X], false, Line, Out); scan(G, BE, [X|Str], Line, Out) when ?is_upper(X) -> scan_name(G, BE, Str, [X], true, Line, Out); scan(G, BE, [X|Str], Line, Out) when ?is_lower(X) -> scan_name(G, BE, Str, [X], true, Line, Out); scan(G, BE, [X|Str], Line, Out) when ?is_number(X) -> scan_number(G, BE, Str, [X], Line, Out); scan(G, BE, [9| T], Line, Out) -> scan(G, BE, T, Line, Out); scan(G, BE, [32| T], Line, Out) -> scan(G, BE, T, Line, Out); scan(G, BE, [$\r|Str], Line, Out) -> scan(G, BE, Str, Line, Out); scan(G, BE, [$\n|Str], Line, Out) -> scan(G, BE, Str, Line+1, Out); scan(G, BE, [$:, $: | Str], Line, Out) -> scan(G, BE, Str, Line, [{'::', Line} | Out]); scan(G, BE, [$/, $/ | Str], Line, Out) -> Rest = skip_to_nl(Str), scan(G, BE, Rest, Line, Out); scan(G, BE, [$/, $* | Str], Line, Out) -> Rest = skip_comment(Str), scan(G, BE, Rest, Line, Out); scan(G, BE, [$", $\\|Str], Line, Out) -> scan_const(G, BE, string, [$\\|Str], [], Line, Out); scan(G, BE, [$"|Str], Line, Out) -> scan_const(G, BE, string, Str, [], Line, Out); scan(G, BE, [$', $\\|Str], Line, Out) -> scan_const(G, BE, char, [$\\|Str], [], Line, Out); scan(G, BE, [$'|Str], Line, Out) -> scan_const(G, BE, char, Str, [], Line, Out); scan(G, BE, [$\\|Str], Line, Out) -> scan_const(G, BE, escaped, [$\\|Str], [], Line, Out); scan(G, BE, [$. | Str], Line, Out) -> scan_frac(G, BE, Str, [$.], Line, Out); scan(G, BE, [$# | Str], Line, Out) -> scan_preproc(G, BE, Str, Line, Out); scan(G, BE, [$<, $< | Str], Line, Out) -> scan(G, BE, Str, Line, [{'<<', Line} | Out]); scan(G, BE, [$>, $> | Str], Line, Out) -> scan(G, BE, Str, Line, [{'>>', Line} | Out]); scan(G, BE, [C|Str], Line, Out) -> scan(G, BE, Str, Line, [{list_to_atom([C]), Line} | Out]); scan(_G, _BE, [], _Line, Out) -> Out. scan_number(G, BE, [X|Str], [$0], Line, Out) when X == $X ; X ==$x -> case Str of [D|_TmpStr] when ?is_number(D); ?is_hex_uc(D); ?is_hex_lc(D) -> {Num,Rest} = scan_hex_number(Str,0), scan(G, BE, Rest, Line, [{'', Line, integer_to_list(Num)} | Out]); [D|TmpStr] -> scan(G, BE, TmpStr, Line, [{list_to_atom([D]), Line} | Out]) end; scan_number(G, BE, Str, [$0], Line, Out) -> %% If an integer literal starts with a 0 it may indicate that %% it is represented as an octal number. But, it can also be a fixed %% type which must use padding to match a fixed typedef. For example: %% typedef fixed<5,2> fixed52; %% 123.45d, 123.00d and 023.00d is all valid fixed values. %% Naturally, a float can be defined as 0.14 or 00.14. case pre_scan_number(Str, [], octal) of octal -> {Num, Rest} = scan_octal_number(Str,0), scan(G, BE, Rest, Line, [{'', Line, integer_to_list(Num)} | Out]); {fixed, Fixed, Rest} -> scan(G, BE, Rest, Line, [{'', Line, Fixed} | Out]); float -> %% Not very likely that someone defines a constant as 00.14 but ... NewStr = remove_leading_zeroes(Str), scan(G, BE, NewStr, Line, Out) end; scan_number(G, BE, [X|Str], Accum, Line, Out) when ?is_number(X) -> scan_number(G, BE, Str, [X|Accum], Line, Out); scan_number(G, BE, [X|Str], Accum, Line, Out) when X==$. -> scan_frac(G, BE, Str, [X|Accum], Line, Out); scan_number(G, BE, [X|Str], Accum, Line, Out) when X==$e ; X==$e -> scan_exp(G, BE, Str, [X|Accum], Line, Out); scan_number(G, BE, [X|Str], Accum, Line, Out) when X==$D ; X==$d -> scan(G, BE, Str, Line, [{'', Line, (lists:reverse(Accum))} | Out]); scan_number(G, BE, Str, Accum, Line, Out) -> scan(G, BE, Str, Line, [{'', Line, (lists:reverse(Accum))} | Out]). remove_leading_zeroes([$0|Rest]) -> remove_leading_zeroes(Rest); remove_leading_zeroes(L) -> L. scan_hex_number([X|Rest],Acc) when X >=$a, X =< $f -> scan_hex_number(Rest,(Acc bsl 4) + (X - $a + 10)); scan_hex_number([X|Rest],Acc) when X >=$A, X =< $F -> scan_hex_number(Rest,(Acc bsl 4) + (X - $A + 10)); scan_hex_number([X|Rest],Acc) when X >=$0, X =< $9 -> scan_hex_number(Rest,(Acc bsl 4) + (X-$0)); scan_hex_number(Rest,Acc) -> {Acc,Rest}. pre_scan_number([$d|Rest], Acc, _) -> {fixed, [$0|lists:reverse(Acc)], Rest}; pre_scan_number([$D|Rest], Acc, _) -> {fixed, [$0|lists:reverse(Acc)], Rest}; pre_scan_number([$.|Rest], Acc, _) -> %% Actually, we don't know if it's a float since it can be a fixed. pre_scan_number(Rest, [$.|Acc], float); pre_scan_number([X|_], _Acc, _) when X == $E ; X ==$e -> %% Now we now it's a float. float; pre_scan_number([X|Rest], Acc, Type) when ?is_number(X) -> pre_scan_number(Rest, [X|Acc], Type); pre_scan_number(_Rest, _Acc, Type) -> %% At this point we know it's a octal or float. Type. scan_octal_number([X|Rest],Acc) when ?is_octal(X) -> scan_octal_number(Rest,(Acc bsl 3) + (X-$0)); scan_octal_number(Rest,Acc) -> {Acc, Rest}. %% Floating point number scan. %% %% Non trivial scan. A float consists of an integral part, a %% decimal point, a fraction part, an e or E and a signed integer %% exponent. Either the integer part or the fraction part but not %% both may be missing, and either the decimal point or the %% exponent part but not both may be missing. The exponent part %% must consist of an e or E and a possibly signed exponent. %% %% Analysis shows that "1." ".7" "1e2" ".5e-3" "1.7e2" "1.7e-2" %% is allowed and "1" ".e9" is not. The sign is only allowed just %% after an e or E. The scanner reads a number as an integer %% until it encounters a "." so the integer part only error case %% will not be caught in the scanner (but rather in expression %% evaluation) scan_frac(G, _BE, [$e | _Str], [$.], Line, _Out) -> ic_error:fatal_error(G, {illegal_float, Line}); scan_frac(G, _BE, [$E | _Str], [$.], Line, _Out) -> ic_error:fatal_error(G, {illegal_float, Line}); scan_frac(G, BE, Str, Accum, Line, Out) -> scan_frac2(G, BE, Str, Accum, Line, Out). scan_frac2(G, BE, [X|Str], Accum, Line, Out) when ?is_number(X) -> scan_frac2(G, BE, Str, [X|Accum], Line, Out); scan_frac2(G, BE, [X|Str], Accum, Line, Out) when X==$e ; X==$E -> scan_exp(G, BE, Str, [X|Accum], Line, Out); %% The following case is for fixed (e.g. 123.45d). scan_frac2(G, BE, [X|Str], Accum, Line, Out) when X==$d ; X==$D -> scan(G, BE, Str, Line, [{'', Line, (lists:reverse(Accum))} | Out]); scan_frac2(G, BE, Str, Accum, Line, Out) -> scan(G, BE, Str, Line, [{'', Line, (lists:reverse(Accum))} | Out]). scan_exp(G, BE, [X|Str], Accum, Line, Out) when X==$- -> scan_exp2(G, BE, Str, [X|Accum], Line, Out); scan_exp(G, BE, Str, Accum, Line, Out) -> scan_exp2(G, BE, Str, Accum, Line, Out). scan_exp2(G, BE, [X|Str], Accum, Line, Out) when ?is_number(X) -> scan_exp2(G, BE, Str, [X|Accum], Line, Out); scan_exp2(G, BE, Str, Accum, Line, Out) -> scan(G, BE, Str, Line, [{'', Line, (lists:reverse(Accum))} | Out]). scan_name(G, BE, [X|Str], Accum, TypeCheck, Line, Out) when ?is_upper(X) -> scan_name(G, BE, Str, [X|Accum], TypeCheck, Line, Out); scan_name(G, BE, [X|Str], Accum, TypeCheck, Line, Out) when ?is_lower(X) -> scan_name(G, BE, Str, [X|Accum], TypeCheck, Line, Out); scan_name(G, BE, [X|Str], Accum, TypeCheck, Line, Out) when ?is_number(X) -> scan_name(G, BE, Str, [X|Accum], TypeCheck, Line, Out); scan_name(G, BE, [$_|Str], Accum, TypeCheck, Line, Out) -> scan_name(G, BE, Str, [$_|Accum], TypeCheck, Line, Out); scan_name(G, BE, S, Accum, false, Line, Out) -> %% The CORBA 2.3 specification allows the user to override typechecking: %% typedef string _native; %% interface i { %% void foo(in _native VT); %% }; %% BUT, the IFR-id remains the same ("IDL:native:1.0") etc. The reason for %% this is that one don't have to re-write a large chunk of IDL- and %% application-code. scan(G, BE, S, Line, [{'', Line, lists:reverse(Accum)} | Out]); scan_name(G, BE, S, Accum, _, Line, Out) -> L = lists:reverse(Accum), X = case is_reserved(L, BE) of undefined -> {'', Line, L}; Yes -> {Yes, Line} end, scan(G, BE, S, Line, [X | Out]). %% Shall scan a constant scan_const(G, BE, string, [$" | Rest], Accum, Line, [{'', _, Str}|Out]) -> scan(G, BE, Rest, Line, [{'', Line, Str ++ lists:reverse(Accum)} | Out]); scan_const(G, BE, string, [$" | Rest], Accum, Line, Out) -> scan(G, BE, Rest, Line, [{'', Line, lists:reverse(Accum)} | Out]); scan_const(G, BE, wstring, [$" | Rest], Accum, Line, [{'', _,Wstr}|Out]) -> %% WSTRING scan(G, BE, Rest, Line, [{'', Line, Wstr ++ lists:reverse(Accum)} | Out]); scan_const(G, BE, wstring, [$" | Rest], Accum, Line, Out) -> %% WSTRING scan(G, BE, Rest, Line, [{'', Line, lists:reverse(Accum)} | Out]); scan_const(G, _BE, string, [], _Accum, Line, Out) -> %% Bad string ic_error:error(G, {bad_string, Line}), Out; scan_const(G, _BE, wstring, [], _Accum, Line, Out) -> %% Bad WSTRING ic_error:error(G, {bad_string, Line}), Out; scan_const(G, BE, char, [$' | Rest], Accum, Line, Out) -> scan(G, BE, Rest, Line, [{'', Line, lists:reverse(Accum)} | Out]); scan_const(G, BE, wchar, [$' | Rest], Accum, Line, Out) -> %% WCHAR scan(G, BE, Rest, Line, [{'', Line, lists:reverse(Accum)} | Out]); scan_const(G, BE, Mode, [$\\, C | Rest], Accum, Line, Out) -> case escaped_char(C) of error -> ic_error:error(G, {bad_escape_character, Line, C}), %% Bad escape character scan_const(G, BE, Mode, Rest, [C | Accum], Line, Out); octal -> {Num,Rest2} = scan_octal_number([C|Rest], 0), scan_const(G, BE, Mode, Rest2, [Num|Accum], Line, Out); hexadecimal -> {Num,Rest2} = scan_hex_number(Rest, 0), if Num > 255 -> %% 16#FF ic_error:error(G, {bad_escape_character, Line, C}), scan_const(G, BE, Mode, Rest, [C | Accum], Line, Out); true -> scan_const(G, BE, Mode, Rest2, [Num|Accum], Line, Out) end; unicode -> {Num,Rest2} = scan_hex_number(Rest, 0), if Num > 65535 -> %% 16#FFFF ic_error:error(G, {bad_escape_character, Line, C}), scan_const(G, BE, Mode, Rest, [C | Accum], Line, Out); true -> scan_const(G, BE, Mode, Rest2, [Num|Accum], Line, Out) end; EC -> scan_const(G, BE, Mode, Rest, [EC | Accum], Line, Out) end; scan_const(G, BE, Mode, [C | Rest], Accum, Line, Out) -> scan_const(G, BE, Mode, Rest, [C | Accum], Line, Out). %% %% Preprocessor output handling %% %% gcc outputs a line with line number, file name (within \") and %% one or more integer flags. The scanner scans the line number, %% the id and all integers up to nl. %% %% NOTE: This will have to be enhanced in order to eat #pragma %% scan_preproc(G, BE, Str, Line, Out) -> {List, Rest} = scan_to_nl(strip(Str), []), NewLine = get_new_line_nr(strip(List), Line+1, []), case scan_number(G, BE, List, [], Line, [{'#', Line} | Out]) of L when is_list(L) -> scan(G, BE, Rest, NewLine, [{'#', Line} | L]) end. get_new_line_nr([C|R], Line, Acc) when C>=$0, C=<$9 -> get_new_line_nr(R, Line, [C|Acc]); get_new_line_nr(_, Line, []) -> Line; % No line nr found get_new_line_nr(_, _, Acc) -> list_to_integer(reverse(Acc)). scan_to_nl([], Acc) -> {reverse(Acc), []}; scan_to_nl([$\n|Str], Acc) -> {reverse(Acc), Str}; scan_to_nl([$\r|R], Acc) -> scan_to_nl(R, Acc); scan_to_nl([C|R], Acc) -> scan_to_nl(R, [C|Acc]). strip([$ |R]) -> strip(R); strip(L) -> L. %% Escaped character. Escaped chars are repr as two characters in the %% input list of letters and this is translated into one char. escaped_char($n) -> $\n; escaped_char($t) -> $\t; escaped_char($v) -> $\v; escaped_char($b) -> $\b; escaped_char($r) -> $ ; escaped_char($f) -> $\f; escaped_char($a) -> $\a; escaped_char($\\) -> $\\; escaped_char($?) -> $?; escaped_char($') -> $'; escaped_char($") -> $"; escaped_char($x) -> hexadecimal; escaped_char($u) -> unicode; escaped_char(X) when ?is_octal(X) -> octal; %% Error escaped_char(_Other) -> error. skip_to_nl([]) -> []; skip_to_nl([$\n | Str]) ->[$\n | Str]; skip_to_nl([_|Str]) -> skip_to_nl(Str). skip_comment([$\\, _ | Str]) -> skip_comment(Str); skip_comment([$*, $/ | Str]) -> Str; skip_comment([_|Str]) -> skip_comment(Str). %%---------------------------------------------------------------------- %% Shall separate keywords from identifiers and numbers %% Fill in the ets of reserved words is_reserved("Object", _) -> 'Object'; is_reserved("in", _) -> in; is_reserved("interface", _) -> interface; is_reserved("case", _) -> 'case'; is_reserved("union", _) -> union; is_reserved("struct", _) -> struct; is_reserved("any", _) -> any; is_reserved("long", _) -> long; is_reserved("float", _) -> float; is_reserved("out", _) -> out; is_reserved("enum", _) -> enum; is_reserved("double", _) -> double; is_reserved("context", _) -> context; is_reserved("oneway", _) -> oneway; is_reserved("sequence", _) -> sequence; is_reserved("FALSE", _) -> 'FALSE'; is_reserved("readonly", _) -> readonly; is_reserved("char", _) -> char; is_reserved("wchar", _) -> wchar; is_reserved("void", _) -> void; is_reserved("inout", _) -> inout; is_reserved("attribute", _) -> attribute; is_reserved("octet", _) -> octet; is_reserved("TRUE", _) -> 'TRUE'; is_reserved("switch", _) -> switch; is_reserved("unsigned", _) -> unsigned; is_reserved("typedef", _) -> typedef; is_reserved("const", _) -> const; is_reserved("raises", _) -> raises; is_reserved("string", _) -> string; is_reserved("wstring", _) -> wstring; is_reserved("default", _) -> default; is_reserved("short", _) -> short; is_reserved("module", _) -> module; is_reserved("exception", _) -> exception; is_reserved("boolean", _) -> boolean; %% --- New keywords Introduced in CORBA-2.3.1 --- %% For now we cannot add these for all backends right now since it would cause %% some problems for at least one customer. is_reserved("fixed", BE) -> check_be(BE, fixed); %is_reserved("abstract", BE) -> check_be(BE, abstract); %is_reserved("custom", BE) -> check_be(BE, custom); %is_reserved("factory", BE) -> check_be(BE, factory); %is_reserved("local", BE) -> check_be(BE, local); %is_reserved("native", BE) -> check_be(BE, native); %is_reserved("private", BE) -> check_be(BE, private); %is_reserved("public", BE) -> check_be(BE, public); %is_reserved("supports", BE) -> check_be(BE, supports); %is_reserved("truncatable", BE) -> check_be(BE, truncatable); %is_reserved("ValueBase", BE) -> check_be(BE, 'ValueBase'); %is_reserved("valuetype", BE) -> check_be(BE, valuetype); is_reserved(_, _) -> undefined. check_be(erl_corba, KeyWord) -> KeyWord; check_be(_, _) -> undefined.