diff options
Diffstat (limited to 'lib/stdlib/src/epp.erl')
| -rw-r--r-- | lib/stdlib/src/epp.erl | 486 |
1 files changed, 280 insertions, 206 deletions
diff --git a/lib/stdlib/src/epp.erl b/lib/stdlib/src/epp.erl index d3124ac593..936c095aef 100644 --- a/lib/stdlib/src/epp.erl +++ b/lib/stdlib/src/epp.erl @@ -40,16 +40,21 @@ -type ifdef() :: 'ifdef' | 'ifndef' | 'else'. --type name() :: {'atom', atom()}. +-type name() :: atom(). -type argspec() :: 'none' %No arguments | non_neg_integer(). %Number of arguments -type tokens() :: [erl_scan:token()]. -type used() :: {name(), argspec()}. +-type function_name_type() :: 'undefined' + | {atom(),non_neg_integer()} + | tokens(). + -define(DEFAULT_ENCODING, utf8). %% Epp state record. --record(epp, {file :: file:io_device(), %Current file +-record(epp, {file :: file:io_device() + | 'undefined', %Current file location=1, %Current location delta=0 :: non_neg_integer(), %Offset from Location (-file) name="" :: file:name(), %Current file name @@ -57,21 +62,15 @@ istk=[] :: [ifdef()], %Ifdef stack sstk=[] :: [#epp{}], %State stack path=[] :: [file:name()], %Include-path - macs = dict:new() %Macros (don't care locations) - :: dict:dict(name(), {argspec(), tokens()}), - uses = dict:new() %Macro use structure - :: dict:dict(name(), [{argspec(), [used()]}]), + macs = #{} %Macros (don't care locations) + :: #{name() => {argspec(), tokens()}}, + uses = #{} %Macro use structure + :: #{name() => [{argspec(), [used()]}]}, default_encoding = ?DEFAULT_ENCODING :: source_encoding(), - pre_opened = false :: boolean() + pre_opened = false :: boolean(), + fname = [] :: function_name_type() }). -%%% Note on representation: as tokens, both {var, Location, Name} and -%%% {atom, Location, Name} can occur as macro identifiers. However, keeping -%%% this distinction here is done for historical reasons only: previously, -%%% ?FOO and ?'FOO' were not the same, but now they are. Removing the -%%% distinction in the internal representation would simplify the code -%%% a little. - %% open(Options) %% open(FileName, IncludePath) %% open(FileName, IncludePath, PreDefMacros) @@ -211,6 +210,10 @@ format_error({include,W,F}) -> io_lib:format("can't find include ~s \"~s\"", [W,F]); format_error({illegal,How,What}) -> io_lib:format("~s '-~s'", [How,What]); +format_error({illegal_function,Macro}) -> + io_lib:format("?~s can only be used within a function", [Macro]); +format_error({illegal_function_usage,Macro}) -> + io_lib:format("?~s must not begin a form", [Macro]); format_error({'NYI',What}) -> io_lib:format("not yet implemented '~s'", [What]); format_error(E) -> file:format_error(E). @@ -264,20 +267,7 @@ parse_file(Ifile, Options) -> parse_file(Epp) -> case parse_erl_form(Epp) of {ok,Form} -> - case Form of - {attribute,La,record,{Record, Fields}} -> - case normalize_typed_record_fields(Fields) of - {typed, NewFields} -> - [{attribute, La, record, {Record, NewFields}}, - {attribute, La, type, - {{record, Record}, Fields, []}} - |parse_file(Epp)]; - not_typed -> - [Form|parse_file(Epp)] - end; - _ -> - [Form|parse_file(Epp)] - end; + [Form|parse_file(Epp)]; {error,E} -> [{error,E}|parse_file(Epp)]; {eof,Location} -> @@ -549,7 +539,8 @@ init_server(Pid, Name, Options, St0) -> default_encoding=DefEncoding}, From = wait_request(St), Anno = erl_anno:new(AtLocation), - enter_file_reply(From, Name, Anno, AtLocation, code), + enter_file_reply(From, file_name(Name), Anno, + AtLocation, code), wait_req_scan(St); {error,E} -> epp_reply(Pid, {error,E}) @@ -560,18 +551,20 @@ init_server(Pid, Name, Options, St0) -> %% FILE, LINE, MODULE as undefined, MACHINE and MACHINE value. predef_macros(File) -> - Machine = list_to_atom(erlang:system_info(machine)), - Anno = line1(), - dict:from_list([ - {{atom,'FILE'}, {none,[{string,Anno,File}]}}, - {{atom,'LINE'}, {none,[{integer,Anno,1}]}}, - {{atom,'MODULE'}, undefined}, - {{atom,'MODULE_STRING'}, undefined}, - {{atom,'BASE_MODULE'}, undefined}, - {{atom,'BASE_MODULE_STRING'}, undefined}, - {{atom,'MACHINE'}, {none,[{atom,Anno,Machine}]}}, - {{atom,Machine}, {none,[{atom,Anno,true}]}} - ]). + Machine = list_to_atom(erlang:system_info(machine)), + Anno = line1(), + Defs = [{'FILE', {none,[{string,Anno,File}]}}, + {'FUNCTION_NAME', undefined}, + {'FUNCTION_ARITY', undefined}, + {'LINE', {none,[{integer,Anno,1}]}}, + {'MODULE', undefined}, + {'MODULE_STRING', undefined}, + {'BASE_MODULE', undefined}, + {'BASE_MODULE_STRING', undefined}, + {'MACHINE', {none,[{atom,Anno,Machine}]}}, + {Machine, {none,[{atom,Anno,true}]}} + ], + maps:from_list(Defs). %% user_predef(PreDefMacros, Macros) -> %% {ok,MacroDict} | {error,E} @@ -580,28 +573,21 @@ predef_macros(File) -> user_predef([{M,Val,redefine}|Pdm], Ms) when is_atom(M) -> Exp = erl_parse:tokens(erl_parse:abstract(Val)), - user_predef(Pdm, dict:store({atom,M}, {none,Exp}, Ms)); + user_predef(Pdm, Ms#{M=>{none,Exp}}); user_predef([{M,Val}|Pdm], Ms) when is_atom(M) -> - case dict:find({atom,M}, Ms) of - {ok,_Defs} when is_list(_Defs) -> %% User defined macros + case Ms of + #{M:=Defs} when is_list(Defs) -> + %% User defined macros. {error,{redefine,M}}; - {ok,_Def} -> %% Predefined macros + #{M:=_Defs} -> + %% Predefined macros. {error,{redefine_predef,M}}; - error -> + _ -> Exp = erl_parse:tokens(erl_parse:abstract(Val)), - user_predef(Pdm, dict:store({atom,M}, [{none, {none,Exp}}], Ms)) + user_predef(Pdm, Ms#{M=>[{none,{none,Exp}}]}) end; user_predef([M|Pdm], Ms) when is_atom(M) -> - case dict:find({atom,M}, Ms) of - {ok,_Defs} when is_list(_Defs) -> %% User defined macros - {error,{redefine,M}}; - {ok,_Def} -> %% Predefined macros - {error,{redefine_predef,M}}; - error -> - A = line1(), - user_predef(Pdm, - dict:store({atom,M}, [{none, {none,[{atom,A,true}]}}], Ms)) - end; + user_predef([{M,true}|Pdm], Ms); user_predef([Md|_Pdm], _Ms) -> {error,{bad,Md}}; user_predef([], Ms) -> {ok,Ms}. @@ -615,7 +601,9 @@ wait_request(St) -> receive {epp_request,From,scan_erl_form} -> From; {epp_request,From,macro_defs} -> - epp_reply(From, dict:to_list(St#epp.macs)), + %% Return the old format to avoid any incompability issues. + Defs = [{{atom,K},V} || {K,V} <- maps:to_list(St#epp.macs)], + epp_reply(From, Defs), wait_request(St); {epp_request,From,close} -> close_file(St), @@ -667,7 +655,8 @@ enter_file(NewName, Inc, From, St) -> enter_file2(NewF, Pname, From, St0, AtLocation) -> Anno = erl_anno:new(AtLocation), enter_file_reply(From, Pname, Anno, AtLocation, code), - Ms = dict:store({atom,'FILE'}, {none,[{string,Anno,Pname}]}, St0#epp.macs), + Ms0 = St0#epp.macs, + Ms = Ms0#{'FILE':={none,[{string,Anno,Pname}]}}, %% update the head of the include path to be the directory of the new %% source file, so that an included file can always include other files %% relative to its current location (this is also how C does it); note @@ -688,7 +677,7 @@ enter_file_reply(From, Name, LocationAnno, AtLocation, Where) -> generated -> erl_anno:set_generated(true, Anno0) end, Rep = {ok, [{'-',Anno},{atom,Anno,file},{'(',Anno}, - {string,Anno,file_name(Name)},{',',Anno}, + {string,Anno,Name},{',',Anno}, {integer,Anno,get_line(LocationAnno)},{')',LocationAnno}, {dot,Anno}]}, epp_reply(From, Rep). @@ -719,9 +708,8 @@ leave_file(From, St) -> name2=OldName2} = OldSt, CurrLoc = add_line(OldLoc, Delta), Anno = erl_anno:new(CurrLoc), - Ms = dict:store({atom,'FILE'}, - {none,[{string,Anno,OldName2}]}, - St#epp.macs), + Ms0 = St#epp.macs, + Ms = Ms0#{'FILE':={none,[{string,Anno,OldName2}]}}, NextSt = OldSt#epp{sstk=Sts,macs=Ms,uses=St#epp.uses}, enter_file_reply(From, OldName, Anno, CurrLoc, code), case OldName2 =:= OldName of @@ -778,7 +766,7 @@ scan_toks([{'-',_Lh},{atom,_Le,elif}=Elif|Toks], From, St) -> scan_toks([{'-',_Lh},{atom,_Le,endif}=Endif|Toks], From, St) -> scan_endif(Toks, Endif, From, St); scan_toks([{'-',_Lh},{atom,_Lf,file}=FileToken|Toks0], From, St) -> - case catch expand_macros(Toks0, {St#epp.macs, St#epp.uses}) of + case catch expand_macros(Toks0, St) of Toks1 when is_list(Toks1) -> scan_file(Toks1, FileToken, From, St); {error,ErrL,What} -> @@ -786,7 +774,7 @@ scan_toks([{'-',_Lh},{atom,_Lf,file}=FileToken|Toks0], From, St) -> wait_req_scan(St) end; scan_toks(Toks0, From, St) -> - case catch expand_macros(Toks0, {St#epp.macs, St#epp.uses}) of + case catch expand_macros(Toks0, St#epp{fname=Toks0}) of Toks1 when is_list(Toks1) -> epp_reply(From, {ok,Toks1}), wait_req_scan(St#epp{macs=scan_module(Toks1, St#epp.macs)}); @@ -796,91 +784,48 @@ scan_toks(Toks0, From, St) -> end. scan_module([{'-',_Lh},{atom,_Lm,module},{'(',_Ll}|Ts], Ms) -> - scan_module_1(Ts, [], Ms); + scan_module_1(Ts, Ms); scan_module([{'-',_Lh},{atom,_Lm,extends},{'(',_Ll}|Ts], Ms) -> - scan_extends(Ts, [], Ms); + scan_extends(Ts, Ms); scan_module(_Ts, Ms) -> Ms. -scan_module_1([{atom,_,_}=A,{',',L}|Ts], As, Ms) -> +scan_module_1([{atom,_,_}=A,{',',L}|Ts], Ms) -> %% Parameterized modules. - scan_module_1([A,{')',L}|Ts], As, Ms); -scan_module_1([{atom,Ln,A},{')',_Lr}|_Ts], As, Ms0) -> - Mod = lists:concat(lists:reverse([A|As])), - Ms = dict:store({atom,'MODULE'}, - {none,[{atom,Ln,list_to_atom(Mod)}]}, Ms0), - dict:store({atom,'MODULE_STRING'}, {none,[{string,Ln,Mod}]}, Ms); -scan_module_1([{atom,_Ln,A},{'.',_Lr}|Ts], As, Ms) -> - scan_module_1(Ts, [".",A|As], Ms); -scan_module_1([{'.',_Lr}|Ts], As, Ms) -> - scan_module_1(Ts, As, Ms); -scan_module_1(_Ts, _As, Ms) -> Ms. - -scan_extends([{atom,Ln,A},{')',_Lr}|_Ts], As, Ms0) -> - Mod = lists:concat(lists:reverse([A|As])), - Ms = dict:store({atom,'BASE_MODULE'}, - {none,[{atom,Ln,list_to_atom(Mod)}]}, Ms0), - dict:store({atom,'BASE_MODULE_STRING'}, {none,[{string,Ln,Mod}]}, Ms); -scan_extends([{atom,_Ln,A},{'.',_Lr}|Ts], As, Ms) -> - scan_extends(Ts, [".",A|As], Ms); -scan_extends([{'.',_Lr}|Ts], As, Ms) -> - scan_extends(Ts, As, Ms); -scan_extends(_Ts, _As, Ms) -> Ms. + scan_module_1([A,{')',L}|Ts], Ms); +scan_module_1([{atom,Ln,A}=ModAtom,{')',_Lr}|_Ts], Ms0) -> + ModString = atom_to_list(A), + Ms = Ms0#{'MODULE':={none,[ModAtom]}}, + Ms#{'MODULE_STRING':={none,[{string,Ln,ModString}]}}; +scan_module_1(_Ts, Ms) -> Ms. + +scan_extends([{atom,Ln,A}=ModAtom,{')',_Lr}|_Ts], Ms0) -> + ModString = atom_to_list(A), + Ms = Ms0#{'BASE_MODULE':={none,[ModAtom]}}, + Ms#{'BASE_MODULE_STRING':={none,[{string,Ln,ModString}]}}; +scan_extends(_Ts, Ms) -> Ms. %% scan_define(Tokens, DefineToken, From, EppState) -scan_define([{'(',_Lp},{Type,_Lm,M}=Mac,{',',_}=Comma|Toks], _Def, From, St) +scan_define([{'(',_Lp},{Type,_Lm,_}=Mac|Toks], Def, From, St) when Type =:= atom; Type =:= var -> + scan_define_1(Toks, Mac, Def, From, St); +scan_define(_Toks, Def, From, St) -> + epp_reply(From, {error,{loc(Def),epp,{bad,define}}}), + wait_req_scan(St). + +scan_define_1([{',',_}=Comma|Toks], Mac,_Def, From, St) -> case catch macro_expansion(Toks, Comma) of Expansion when is_list(Expansion) -> - case dict:find({atom,M}, St#epp.macs) of - {ok, Defs} when is_list(Defs) -> - %% User defined macros: can be overloaded - case proplists:is_defined(none, Defs) of - true -> - epp_reply(From, {error,{loc(Mac),epp,{redefine,M}}}), - wait_req_scan(St); - false -> - scan_define_cont(From, St, - {atom, M}, - {none, {none,Expansion}}) - end; - {ok, _PreDef} -> - %% Predefined macros: cannot be overloaded - epp_reply(From, {error,{loc(Mac),epp,{redefine_predef,M}}}), - wait_req_scan(St); - error -> - scan_define_cont(From, St, - {atom, M}, - {none, {none,Expansion}}) - end; + scan_define_2(none, {none,Expansion}, Mac, From, St); {error,ErrL,What} -> epp_reply(From, {error,{ErrL,epp,What}}), wait_req_scan(St) end; -scan_define([{'(',_Lp},{Type,_Lm,M}=Mac,{'(',_Lc}|Toks], Def, From, St) - when Type =:= atom; Type =:= var -> +scan_define_1([{'(',_Lc}|Toks], Mac, Def, From, St) -> case catch macro_pars(Toks, []) of - {ok, {As,Me}} -> + {ok,{As,_}=MacroDef} -> Len = length(As), - case dict:find({atom,M}, St#epp.macs) of - {ok, Defs} when is_list(Defs) -> - %% User defined macros: can be overloaded - case proplists:is_defined(Len, Defs) of - true -> - epp_reply(From,{error,{loc(Mac),epp,{redefine,M}}}), - wait_req_scan(St); - false -> - scan_define_cont(From, St, {atom, M}, - {Len, {As, Me}}) - end; - {ok, _PreDef} -> - %% Predefined macros: cannot be overloaded - %% (There are currently no predefined F(...) macros.) - epp_reply(From, {error,{loc(Mac),epp,{redefine_predef,M}}}), - wait_req_scan(St); - error -> - scan_define_cont(From, St, {atom, M}, {Len, {As, Me}}) - end; + scan_define_2(Len, MacroDef, Mac, From, St); {error,ErrL,What} -> epp_reply(From, {error,{ErrL,epp,What}}), wait_req_scan(St); @@ -888,10 +833,29 @@ scan_define([{'(',_Lp},{Type,_Lm,M}=Mac,{'(',_Lc}|Toks], Def, From, St) epp_reply(From, {error,{loc(Def),epp,{bad,define}}}), wait_req_scan(St) end; -scan_define(_Toks, Def, From, St) -> +scan_define_1(_Toks, _Mac, Def, From, St) -> epp_reply(From, {error,{loc(Def),epp,{bad,define}}}), wait_req_scan(St). +scan_define_2(Arity, Def, {_,_,Key}=Mac, From, #epp{macs=Ms}=St) -> + case Ms of + #{Key:=Defs} when is_list(Defs) -> + %% User defined macros: can be overloaded + case proplists:is_defined(Arity, Defs) of + true -> + epp_reply(From, {error,{loc(Mac),epp,{redefine,Key}}}), + wait_req_scan(St); + false -> + scan_define_cont(From, St, Key, Defs, Arity, Def) + end; + #{Key:=_} -> + %% Predefined macros: cannot be overloaded + epp_reply(From, {error,{loc(Mac),epp,{redefine_predef,Key}}}), + wait_req_scan(St); + _ -> + scan_define_cont(From, St, Key, [], Arity, Def) + end. + %%% Detection of circular macro expansions (which would either keep %%% the compiler looping forever, or run out of memory): %%% When a macro is defined, we store the names of other macros it @@ -901,11 +865,17 @@ scan_define(_Toks, Def, From, St) -> %%% the information from St#epp.uses is traversed, and if a circularity %%% is detected, an error message is thrown. -scan_define_cont(F, St, M, {Arity, Def}) -> - Ms = dict:append_list(M, [{Arity, Def}], St#epp.macs), - try dict:append_list(M, [{Arity, macro_uses(Def)}], St#epp.uses) of +scan_define_cont(F, #epp{macs=Ms0}=St, M, Defs, Arity, Def) -> + Ms = Ms0#{M=>[{Arity,Def}|Defs]}, + try macro_uses(Def) of U -> - scan_toks(F, St#epp{uses=U, macs=Ms}) + Uses0 = St#epp.uses, + Val = [{Arity,U}|case Uses0 of + #{M:=UseList} -> UseList; + _ -> [] + end], + Uses = Uses0#{M=>Val}, + scan_toks(F, St#epp{uses=Uses,macs=Ms}) catch {error, Line, Reason} -> epp_reply(F, {error,{Line,epp,Reason}}), @@ -923,23 +893,23 @@ macro_ref([{'?', _}, {'?', _} | Rest]) -> macro_ref([{'?', _}, {atom, _, A}=Atom | Rest]) -> Lm = loc(Atom), Arity = count_args(Rest, Lm, A), - [{{atom, A}, Arity} | macro_ref(Rest)]; + [{A,Arity} | macro_ref(Rest)]; macro_ref([{'?', _}, {var, _, A}=Var | Rest]) -> Lm = loc(Var), Arity = count_args(Rest, Lm, A), - [{{atom, A}, Arity} | macro_ref(Rest)]; + [{A,Arity} | macro_ref(Rest)]; macro_ref([_Token | Rest]) -> macro_ref(Rest). %% scan_undef(Tokens, UndefToken, From, EppState) scan_undef([{'(',_Llp},{atom,_Lm,M},{')',_Lrp},{dot,_Ld}], _Undef, From, St) -> - Macs = dict:erase({atom,M}, St#epp.macs), - Uses = dict:erase({atom,M}, St#epp.uses), + Macs = maps:remove(M, St#epp.macs), + Uses = maps:remove(M, St#epp.uses), scan_toks(From, St#epp{macs=Macs, uses=Uses}); scan_undef([{'(',_Llp},{var,_Lm,M},{')',_Lrp},{dot,_Ld}], _Undef, From,St) -> - Macs = dict:erase({atom,M}, St#epp.macs), - Uses = dict:erase({atom,M}, St#epp.uses), + Macs = maps:remove(M, St#epp.macs), + Uses = maps:remove(M, St#epp.uses), scan_toks(From, St#epp{macs=Macs, uses=Uses}); scan_undef(_Toks, Undef, From, St) -> epp_reply(From, {error,{loc(Undef),epp,{bad,undef}}}), @@ -1006,17 +976,17 @@ scan_include_lib(_Toks, Inc, From, St) -> %% Report a badly formed if[n]def test and then treat as undefined macro. scan_ifdef([{'(',_Llp},{atom,_Lm,M},{')',_Lrp},{dot,_Ld}], _IfD, From, St) -> - case dict:find({atom,M}, St#epp.macs) of - {ok,_Def} -> + case St#epp.macs of + #{M:=_Def} -> scan_toks(From, St#epp{istk=[ifdef|St#epp.istk]}); - error -> + _ -> skip_toks(From, St, [ifdef]) end; scan_ifdef([{'(',_Llp},{var,_Lm,M},{')',_Lrp},{dot,_Ld}], _IfD, From, St) -> - case dict:find({atom,M}, St#epp.macs) of - {ok,_Def} -> + case St#epp.macs of + #{M:=_Def} -> scan_toks(From, St#epp{istk=[ifdef|St#epp.istk]}); - error -> + _ -> skip_toks(From, St, [ifdef]) end; scan_ifdef(_Toks, IfDef, From, St) -> @@ -1024,17 +994,17 @@ scan_ifdef(_Toks, IfDef, From, St) -> wait_req_skip(St, [ifdef]). scan_ifndef([{'(',_Llp},{atom,_Lm,M},{')',_Lrp},{dot,_Ld}], _IfnD, From, St) -> - case dict:find({atom,M}, St#epp.macs) of - {ok,_Def} -> + case St#epp.macs of + #{M:=_Def} -> skip_toks(From, St, [ifndef]); - error -> + _ -> scan_toks(From, St#epp{istk=[ifndef|St#epp.istk]}) end; scan_ifndef([{'(',_Llp},{var,_Lm,M},{')',_Lrp},{dot,_Ld}], _IfnD, From, St) -> - case dict:find({atom,M}, St#epp.macs) of - {ok,_Def} -> + case St#epp.macs of + #{M:=_Def} -> skip_toks(From, St, [ifndef]); - error -> + _ -> scan_toks(From, St#epp{istk=[ifndef|St#epp.istk]}) end; scan_ifndef(_Toks, IfnDef, From, St) -> @@ -1102,7 +1072,8 @@ scan_file([{'(',_Llp},{string,_Ls,Name},{',',_Lc},{integer,_Li,Ln},{')',_Lrp}, {dot,_Ld}], Tf, From, St) -> Anno = erl_anno:new(Ln), enter_file_reply(From, Name, Anno, loc(Tf), generated), - Ms = dict:store({atom,'FILE'}, {none,[{string,line1(),Name}]}, St#epp.macs), + Ms0 = St#epp.macs, + Ms = Ms0#{'FILE':={none,[{string,line1(),Name}]}}, Locf = loc(Tf), NewLoc = new_location(Ln, St#epp.location, Locf), Delta = get_line(element(2, Tf))-Ln + St#epp.delta, @@ -1185,45 +1156,47 @@ macro_expansion([T|Ts], _Anno0) -> [T|macro_expansion(Ts, T)]; macro_expansion([], Anno0) -> throw({error,loc(Anno0),premature_end}). -%% expand_macros(Tokens, Macros) +%% expand_macros(Tokens, St) %% expand_macro(Tokens, MacroToken, RestTokens) %% Expand the macros in a list of tokens, making sure that an expansion %% gets the same location as the macro call. -expand_macros(Type, MacT, M, Toks, Ms0) -> - %% (Type will always be 'atom') - {Ms, U} = Ms0, +expand_macros(MacT, M, Toks, St) -> + #epp{macs=Ms,uses=U} = St, Lm = loc(MacT), Tinfo = element(2, MacT), - case expand_macro1(Type, Lm, M, Toks, Ms) of + case expand_macro1(Lm, M, Toks, Ms) of {ok,{none,Exp}} -> - check_uses([{{Type,M}, none}], [], U, Lm), - Toks1 = expand_macros(expand_macro(Exp, Tinfo, [], dict:new()), Ms0), - expand_macros(Toks1++Toks, Ms0); + check_uses([{M,none}], [], U, Lm), + Toks1 = expand_macros(expand_macro(Exp, Tinfo, [], #{}), St), + expand_macros(Toks1++Toks, St); {ok,{As,Exp}} -> - check_uses([{{Type,M}, length(As)}], [], U, Lm), - {Bs,Toks1} = bind_args(Toks, Lm, M, As, dict:new()), - expand_macros(expand_macro(Exp, Tinfo, Toks1, Bs), Ms0) + check_uses([{M,length(As)}], [], U, Lm), + {Bs,Toks1} = bind_args(Toks, Lm, M, As, #{}), + expand_macros(expand_macro(Exp, Tinfo, Toks1, Bs), St) end. -expand_macro1(Type, Lm, M, Toks, Ms) -> +expand_macro1(Lm, M, Toks, Ms) -> Arity = count_args(Toks, Lm, M), - case dict:find({Type,M}, Ms) of - error -> %% macro not found + case Ms of + #{M:=undefined} -> + %% Predefined macro without definition. throw({error,Lm,{undefined,M,Arity}}); - {ok, undefined} -> %% Predefined macro without definition - throw({error,Lm,{undefined,M,Arity}}); - {ok, [{none, Def}]} -> - {ok, Def}; - {ok, Defs} when is_list(Defs) -> - case proplists:get_value(Arity, Defs) of + #{M:=[{none,Def}]} -> + {ok,Def}; + #{M:=Defs} when is_list(Defs) -> + case proplists:get_value(Arity, Defs) of undefined -> throw({error,Lm,{mismatch,M}}); Def -> - {ok, Def} + {ok,Def} end; - {ok, PreDef} -> %% Predefined macro - {ok, PreDef} + #{M:=PreDef} -> + %% Predefined macro. + {ok,PreDef}; + _ -> + %% Macro not found. + throw({error,Lm,{undefined,M,Arity}}) end. check_uses([], _Anc, _U, _Lm) -> @@ -1231,7 +1204,7 @@ check_uses([], _Anc, _U, _Lm) -> check_uses([M|Rest], Anc, U, Lm) -> case lists:member(M, Anc) of true -> - {{_, Name},Arity} = M, + {Name,Arity} = M, throw({error,Lm,{circular,Name,Arity}}); false -> L = get_macro_uses(M, U), @@ -1240,25 +1213,41 @@ check_uses([M|Rest], Anc, U, Lm) -> end. get_macro_uses({M,Arity}, U) -> - case dict:find(M, U) of - error -> - []; - {ok, L} -> - proplists:get_value(Arity, L, proplists:get_value(none, L, [])) + case U of + #{M:=L} -> + proplists:get_value(Arity, L, proplists:get_value(none, L, [])); + _ -> + [] end. %% Macro expansion %% Note: io:scan_erl_form() does not return comments or white spaces. -expand_macros([{'?',_Lq},{atom,_Lm,M}=MacT|Toks], Ms) -> - expand_macros(atom, MacT, M, Toks, Ms); +expand_macros([{'?',_Lq},{atom,_Lm,M}=MacT|Toks], St) -> + expand_macros(MacT, M, Toks, St); %% Special macros -expand_macros([{'?',_Lq},{var,Lm,'LINE'}=Tok|Toks], Ms) -> +expand_macros([{'?',_Lq},{var,Lm,'FUNCTION_NAME'}=Token|Toks], St0) -> + St = update_fun_name(Token, St0), + case St#epp.fname of + undefined -> + [{'?',_Lq},Token]; + {Name,_} -> + [{atom,Lm,Name}] + end ++ expand_macros(Toks, St); +expand_macros([{'?',_Lq},{var,Lm,'FUNCTION_ARITY'}=Token|Toks], St0) -> + St = update_fun_name(Token, St0), + case St#epp.fname of + undefined -> + [{'?',_Lq},Token]; + {_,Arity} -> + [{integer,Lm,Arity}] + end ++ expand_macros(Toks, St); +expand_macros([{'?',_Lq},{var,Lm,'LINE'}=Tok|Toks], St) -> Line = erl_scan:line(Tok), - [{integer,Lm,Line}|expand_macros(Toks, Ms)]; -expand_macros([{'?',_Lq},{var,_Lm,M}=MacT|Toks], Ms) -> - expand_macros(atom, MacT, M, Toks, Ms); + [{integer,Lm,Line}|expand_macros(Toks, St)]; +expand_macros([{'?',_Lq},{var,_Lm,M}=MacT|Toks], St) -> + expand_macros(MacT, M, Toks, St); %% Illegal macros -expand_macros([{'?',_Lq},Token|_Toks], _Ms) -> +expand_macros([{'?',_Lq},Token|_Toks], _St) -> T = case erl_scan:text(Token) of Text when is_list(Text) -> Text; @@ -1267,9 +1256,9 @@ expand_macros([{'?',_Lq},Token|_Toks], _Ms) -> io_lib:write(Symbol) end, throw({error,loc(Token),{call,[$?|T]}}); -expand_macros([T|Ts], Ms) -> - [T|expand_macros(Ts, Ms)]; -expand_macros([], _Ms) -> []. +expand_macros([T|Ts], St) -> + [T|expand_macros(Ts, St)]; +expand_macros([], _St) -> []. %% bind_args(Tokens, MacroLocation, MacroName, ArgumentVars, Bindings) %% Collect the arguments to a macro call. @@ -1295,7 +1284,7 @@ macro_args(_Toks, Lm, M, _As, _Bs) -> store_arg(L, M, _A, [], _Bs) -> throw({error,L,{mismatch,M}}); store_arg(_L, _M, A, Arg, Bs) -> - dict:store(A, Arg, Bs). + Bs#{A=>Arg}. %% count_args(Tokens, MacroLine, MacroName) %% Count the number of arguments in a macro call. @@ -1368,19 +1357,17 @@ macro_arg([], _E, Arg) -> %% and then the macro arguments, i.e. simulate textual expansion. expand_macro([{var,_Lv,V}|Ts], L, Rest, Bs) -> - case dict:find(V, Bs) of - {ok,Val} -> - %% lists:append(Val, expand_macro(Ts, L, Rest, Bs)); + case Bs of + #{V:=Val} -> expand_arg(Val, Ts, L, Rest, Bs); - error -> + _ -> [{var,L,V}|expand_macro(Ts, L, Rest, Bs)] end; expand_macro([{'?', _}, {'?', _}, {var,_Lv,V}|Ts], L, Rest, Bs) -> - case dict:find(V, Bs) of - {ok,Val} -> - %% lists:append(Val, expand_macro(Ts, L, Rest, Bs)); + case Bs of + #{V:=Val} -> expand_arg(stringify(Val, L), Ts, L, Rest, Bs); - error -> + _ -> [{var,L,V}|expand_macro(Ts, L, Rest, Bs)] end; expand_macro([T|Ts], L, Rest, Bs) -> @@ -1394,6 +1381,93 @@ expand_arg([A|As], Ts, _L, Rest, Bs) -> expand_arg([], Ts, L, Rest, Bs) -> expand_macro(Ts, L, Rest, Bs). +%%% +%%% Here follows support for the ?FUNCTION_NAME and ?FUNCTION_ARITY +%%% macros. Since the parser has not been run yet, we don't know the +%%% name and arity of the current function. Therefore, we will need to +%%% scan the beginning of the current form to extract the name and +%%% arity of the function. +%%% + +update_fun_name(Token, #epp{fname=Toks0}=St) when is_list(Toks0) -> + %% ?FUNCTION_NAME or ?FUNCTION_ARITY is used for the first time in + %% a function. First expand macros (except ?FUNCTION_NAME and + %% ?FUNCTION_ARITY) in the form. + + Toks1 = (catch expand_macros(Toks0, St#epp{fname=undefined})), + + %% Now extract the name and arity from the stream of tokens, and store + %% the result in the #epp{} record so we don't have to do it + %% again. + + case Toks1 of + [{atom,_,Name},{'(',_}|Toks] -> + %% This is the beginning of a function definition. + %% Scan the token stream up to the matching right + %% parenthesis and count the number of arguments. + FA = update_fun_name_1(Toks, 1, {Name,0}, St), + St#epp{fname=FA}; + [{'?',_}|_] -> + %% ?FUNCTION_NAME/?FUNCTION_ARITY used at the beginning + %% of a form. Does not make sense. + {var,_,Macro} = Token, + throw({error,loc(Token),{illegal_function_usage,Macro}}); + _ when is_list(Toks1) -> + %% Not the beginning of a function (an attribute or a + %% syntax error). + {var,_,Macro} = Token, + throw({error,loc(Token),{illegal_function,Macro}}); + _ -> + %% A macro expansion error. Return a dummy value and + %% let the caller notice and handle the error. + St#epp{fname={'_',0}} + end; +update_fun_name(_Token, St) -> + St. + +update_fun_name_1([Tok|Toks], L, FA, St) -> + case classify_token(Tok) of + comma -> + if + L =:= 1 -> + {Name,Arity} = FA, + update_fun_name_1(Toks, L, {Name,Arity+1}, St); + true -> + update_fun_name_1(Toks, L, FA, St) + end; + left -> + update_fun_name_1(Toks, L+1, FA, St); + right when L =:= 1 -> + FA; + right -> + update_fun_name_1(Toks, L-1, FA, St); + other -> + case FA of + {Name,0} -> + update_fun_name_1(Toks, L, {Name,1}, St); + {_,_} -> + update_fun_name_1(Toks, L, FA, St) + end + end; +update_fun_name_1([], _, FA, _) -> + %% Syntax error, but never mind. + FA. + +classify_token({C,_}) -> classify_token_1(C); +classify_token(_) -> other. + +classify_token_1(',') -> comma; +classify_token_1('(') -> left; +classify_token_1('{') -> left; +classify_token_1('[') -> left; +classify_token_1('<<') -> left; +classify_token_1(')') -> right; +classify_token_1('}') -> right; +classify_token_1(']') -> right; +classify_token_1('>>') -> right; +classify_token_1(_) -> other. + + %%% stringify(Ts, L) returns a list of one token: a string which when %%% tokenized would yield the token list Ts. |