%% %% %CopyrightBegin% %% %% Copyright Ericsson AB 2010-2013. 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 %% compliance with the License. You should have received a copy of the %% Erlang Public License along with this software. If not, it can be %% retrieved online at http://www.erlang.org/. %% %% Software distributed under the License is distributed on an "AS IS" %% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See %% the License for the specific language governing rights and limitations %% under the License. %% %% %CopyrightEnd% %% -module(diameter_codegen). %% %% This module generates erl/hrl files for encode/decode modules %% from the orddict parsed from a dictionary file (.dia) by %% diameter_dict_util. The generated code is simple (one-liners), %% the generated functions being called by code included iin the %% generated modules from diameter_gen.hrl. The orddict itself is %% returned by dict/0 in the generated module and diameter_dict_util %% calls this function when importing dictionaries as a consequence %% of @inherits sections. That is, @inherits introduces a dependency %% on the beam file of another dictionary. %% -export([from_dict/4]). %% Internal exports (for test). -export([file/1, file/2, file/3]). -include("diameter_forms.hrl"). -include("diameter_vsn.hrl"). -define(S, atom_to_list). -define(A, list_to_atom). -define(Atom(T), ?ATOM(?A(T))). %% =========================================================================== -spec from_dict(File, ParseD, Opts, Mode) -> ok when File :: string(), ParseD :: orddict:orddict(), Opts :: list(), Mode :: dict | erl | hrl. from_dict(File, ParseD, Opts, Mode) -> Outdir = proplists:get_value(outdir, Opts, "."), putr(verbose, lists:member(verbose, Opts)), putr(debug, lists:member(debug, Opts)), codegen(File, ParseD, Outdir, Mode). %% Optional reports when running verbosely. report(What, Data) -> report(getr(verbose), What, Data), Data. report(true, Tag, Data) -> io:format(">>~n>> ~p ~p~n", [Tag, Data]); report(false, _, _) -> ok. putr(Key, Value) -> put({?MODULE, Key}, Value). getr(Key) -> get({?MODULE, Key}). %% =========================================================================== %% =========================================================================== %% Generate from parsed dictionary in a file. file(F) -> file(F, dict). file(F, Mode) -> file(F, ".", Mode). file(F, Outdir, Mode) -> {ok, [ParseD]} = file:consult(F), from_dict(F, ParseD, Outdir, Mode). %% =========================================================================== %% =========================================================================== get_value(Key, Plist) -> proplists:get_value(Key, Plist, []). codegen(File, ParseD, Outdir, Mode) -> Mod = mod(File, orddict:find(name, ParseD)), Path = filename:join(Outdir, Mod), %% minus extension gen(Mode, ParseD, ?A(Mod), Path), ok. mod(File, error) -> filename:rootname(filename:basename(File)); mod(_, {ok, Mod}) -> Mod. gen(dict, ParseD, _Mod, Path) -> write_term(Path ++ ".D", [?VERSION | ParseD]); gen(hrl, ParseD, Mod, Path) -> write(Path ++ ".hrl", gen_hrl(Mod, ParseD)); gen(erl, ParseD, Mod, Path) -> Forms = erl_forms(Mod, ParseD), getr(debug) andalso write_term(Path ++ ".F", [Forms]), write(Path ++ ".erl", [header(), prettypr(Forms), $\n]). write(Path, T) -> write(Path, "~s", T). write_term(Path, T) -> write(Path, "~p.~n", T). write(Path, Fmt, T) -> {ok, Fd} = file:open(Path, [write]), io:fwrite(Fd, Fmt, [T]), file:close(Fd). erl_forms(Mod, ParseD) -> Forms = [[{?attribute, module, Mod}, {?attribute, compile, {parse_transform, diameter_exprecs}}, {?attribute, compile, nowarn_unused_function}], make_hrl_forms(ParseD), [{?attribute, export, [{name, 0}, {id, 0}, {vendor_id, 0}, {vendor_name, 0}, {decode_avps, 2}, %% in diameter_gen.hrl {encode_avps, 2}, %% {msg_name, 2}, {msg_header, 1}, {rec2msg, 1}, {msg2rec, 1}, {name2rec, 1}, {avp_name, 2}, {avp_arity, 2}, {avp_header, 1}, {avp, 3}, {grouped_avp, 3}, {enumerated_avp, 3}, {empty_value, 1}, {dict, 0}]}, %% diameter.hrl is included for #diameter_avp {?attribute, include_lib, "diameter/include/diameter.hrl"}, {?attribute, include_lib, "diameter/include/diameter_gen.hrl"}, f_name(Mod), f_id(ParseD), f_vendor_id(ParseD), f_vendor_name(ParseD), f_msg_name(ParseD), f_msg_header(ParseD), f_rec2msg(ParseD), f_msg2rec(ParseD), f_name2rec(ParseD), f_avp_name(ParseD), f_avp_arity(ParseD), f_avp_header(ParseD), f_avp(ParseD), f_enumerated_avp(ParseD), f_empty_value(ParseD), f_dict(ParseD), {eof, ?LINE}]], lists:append(Forms). make_hrl_forms(ParseD) -> {_Prefix, MsgRecs, GrpRecs, ImportedGrpRecs} = make_record_forms(ParseD), RecordForms = MsgRecs ++ GrpRecs ++ lists:flatmap(fun({_,Fs}) -> Fs end, ImportedGrpRecs), RecNames = lists:map(fun({attribute,_,record,{N,_}}) -> N end, RecordForms), %% export_records is used by the diameter_exprecs parse transform. [{?attribute, export_records, RecNames} | RecordForms]. make_record_forms(ParseD) -> Prefix = prefix(ParseD), MsgRecs = a_record(Prefix, fun msg_proj/1, get_value(messages, ParseD)), GrpRecs = a_record(Prefix, fun grp_proj/1, get_value(grouped, ParseD)), ImportedGrpRecs = [{M, a_record(Prefix, fun grp_proj/1, Gs)} || {M,Gs} <- get_value(import_groups, ParseD)], {to_upper(Prefix), MsgRecs, GrpRecs, ImportedGrpRecs}. msg_proj({Name, _, _, _, Avps}) -> {Name, Avps}. grp_proj({Name, _, _, Avps}) -> {Name, Avps}. %% a_record/3 a_record(Prefix, ProjF, L) -> lists:map(fun(T) -> a_record(ProjF(T), Prefix) end, L). a_record({Nm, Avps}, Prefix) -> Name = list_to_atom(Prefix ++ Nm), Fields = lists:map(fun field/1, Avps), {?attribute, record, {Name, Fields}}. field(Avp) -> {Name, Arity} = avp_info(Avp), if 1 == Arity -> {?record_field, ?Atom(Name)}; true -> {?record_field, ?Atom(Name), ?NIL} end. %%% ------------------------------------------------------------------------ %%% # name/0 %%% ------------------------------------------------------------------------ f_name(Name) -> {?function, name, 0, [{?clause, [], [], [?ATOM(Name)]}]}. %%% ------------------------------------------------------------------------ %%% # id/0 %%% ------------------------------------------------------------------------ f_id(ParseD) -> {?function, id, 0, [c_id(orddict:find(id, ParseD))]}. c_id({ok, Id}) -> {?clause, [], [], [?INTEGER(Id)]}; c_id(error) -> ?BADARG(0). %%% ------------------------------------------------------------------------ %%% # vendor_id/0 %%% ------------------------------------------------------------------------ f_vendor_id(ParseD) -> {?function, vendor_id, 0, [{?clause, [], [], [b_vendor_id(orddict:find(vendor, ParseD))]}]}. b_vendor_id({ok, {Id, _}}) -> ?INTEGER(Id); b_vendor_id(error) -> ?APPLY(erlang, error, [?TERM(undefined)]). %%% ------------------------------------------------------------------------ %%% # vendor_name/0 %%% ------------------------------------------------------------------------ f_vendor_name(ParseD) -> {?function, vendor_name, 0, [{?clause, [], [], [b_vendor_name(orddict:find(vendor, ParseD))]}]}. b_vendor_name({ok, {_, Name}}) -> ?Atom(Name); b_vendor_name(error) -> ?APPLY(erlang, error, [?TERM(undefined)]). %%% ------------------------------------------------------------------------ %%% # msg_name/1 %%% ------------------------------------------------------------------------ f_msg_name(ParseD) -> {?function, msg_name, 2, msg_name(ParseD)}. %% Return the empty name for any unknown command to which %% DIAMETER_COMMAND_UNSUPPORTED should be replied. msg_name(ParseD) -> lists:flatmap(fun c_msg_name/1, proplists:get_value(command_codes, ParseD, [])) ++ [{?clause, [?VAR('_'), ?VAR('_')], [], [?ATOM('')]}]. c_msg_name({Code, Req, Ans}) -> [{?clause, [?INTEGER(Code), ?ATOM(true)], [], [?Atom(Req)]}, {?clause, [?INTEGER(Code), ?ATOM(false)], [], [?Atom(Ans)]}]. %%% ------------------------------------------------------------------------ %%% # msg2rec/1 %%% ------------------------------------------------------------------------ f_msg2rec(ParseD) -> {?function, msg2rec, 1, msg2rec(ParseD)}. msg2rec(ParseD) -> Pre = prefix(ParseD), lists:map(fun(T) -> c_msg2rec(T, Pre) end, get_value(messages, ParseD)) ++ [?BADARG(1)]. c_msg2rec({N,_,_,_,_}, Pre) -> c_name2rec(N, Pre). %%% ------------------------------------------------------------------------ %%% # rec2msg/1 %%% ------------------------------------------------------------------------ f_rec2msg(ParseD) -> {?function, rec2msg, 1, rec2msg(ParseD)}. rec2msg(ParseD) -> Pre = prefix(ParseD), lists:map(fun(T) -> c_rec2msg(T, Pre) end, get_value(messages, ParseD)) ++ [?BADARG(1)]. c_rec2msg({N,_,_,_,_}, Pre) -> {?clause, [?Atom(rec_name(N, Pre))], [], [?Atom(N)]}. %%% ------------------------------------------------------------------------ %%% # name2rec/1 %%% ------------------------------------------------------------------------ f_name2rec(ParseD) -> {?function, name2rec, 1, name2rec(ParseD)}. name2rec(ParseD) -> Pre = prefix(ParseD), Groups = get_value(grouped, ParseD) ++ lists:flatmap(fun avps/1, get_value(import_groups, ParseD)), lists:map(fun({N,_,_,_}) -> c_name2rec(N, Pre) end, Groups) ++ [{?clause, [?VAR('T')], [], [?CALL(msg2rec, [?VAR('T')])]}]. c_name2rec(Name, Pre) -> {?clause, [?Atom(Name)], [], [?Atom(rec_name(Name, Pre))]}. avps({_Mod, Avps}) -> Avps. %%% ------------------------------------------------------------------------ %%% # avp_name/1 %%% ------------------------------------------------------------------------ f_avp_name(ParseD) -> {?function, avp_name, 2, avp_name(ParseD)}. %% 3588, 4.1: %% %% AVP Code %% The AVP Code, combined with the Vendor-Id field, identifies the %% attribute uniquely. AVP numbers 1 through 255 are reserved for %% backward compatibility with RADIUS, without setting the Vendor-Id %% field. AVP numbers 256 and above are used for Diameter, which are %% allocated by IANA (see Section 11.1). avp_name(ParseD) -> Avps = get_value(avp_types, ParseD), Imported = get_value(import_avps, ParseD), Vid = orddict:find(vendor, ParseD), Vs = vendor_id_map(ParseD), lists:map(fun(T) -> c_avp_name(T, Vs, Vid) end, Avps) ++ lists:flatmap(fun(T) -> c_imported_avp_name(T, Vs) end, Imported) ++ [{?clause, [?VAR('_'), ?VAR('_')], [], [?ATOM('AVP')]}]. c_avp_name({Name, Code, Type, Flags}, Vs, Vid) -> c_avp_name_(?TERM({?A(Name), ?A(Type)}), ?INTEGER(Code), vid(Name, Flags, Vs, Vid)). %% Note that an imported AVP's vendor id is determined by %% avp_vendor_id in the inheriting module and vendor in the inherited %% module. In particular, avp_vendor_id in the inherited module is %% ignored so can't just call Mod:avp_header/1 to retrieve the vendor %% id. A vendor id specified in @grouped is equivalent to one %% specified as avp_vendor_id. c_imported_avp_name({Mod, Avps}, Vs) -> lists:map(fun(A) -> c_avp_name(A, Vs, {module, Mod}) end, Avps). c_avp_name_(T, Code, undefined = U) -> {?clause, [Code, ?ATOM(U)], [], [T]}; c_avp_name_(T, Code, Vid) -> {?clause, [Code, ?INTEGER(Vid)], [], [T]}. vendor_id_map(ParseD) -> lists:flatmap(fun({V,Ns}) -> [{N,V} || N <- Ns] end, get_value(avp_vendor_id, ParseD)) ++ lists:flatmap(fun({_,_,[],_}) -> []; ({N,_,[V],_}) -> [{N,V}] end, get_value(grouped, ParseD)). %%% ------------------------------------------------------------------------ %%% # avp_arity/2 %%% ------------------------------------------------------------------------ f_avp_arity(ParseD) -> {?function, avp_arity, 2, avp_arity(ParseD)}. avp_arity(ParseD) -> Msgs = get_value(messages, ParseD), Groups = get_value(grouped, ParseD) ++ lists:flatmap(fun avps/1, get_value(import_groups, ParseD)), c_avp_arity(Msgs ++ Groups) ++ [{?clause, [?VAR('_'), ?VAR('_')], [], [?INTEGER(0)]}]. c_avp_arity(L) when is_list(L) -> lists:flatmap(fun c_avp_arity/1, L); c_avp_arity({N,_,_,_,As}) -> c_avp_arity(N,As); c_avp_arity({N,_,_,As}) -> c_avp_arity(N,As). c_avp_arity(Name, Avps) -> lists:map(fun(A) -> c_arity(Name, A) end, Avps). c_arity(Name, Avp) -> {AvpName, Arity} = avp_info(Avp), {?clause, [?Atom(Name), ?Atom(AvpName)], [], [?TERM(Arity)]}. %%% ------------------------------------------------------------------------ %%% # avp/3 %%% ------------------------------------------------------------------------ f_avp(ParseD) -> {?function, avp, 3, avp(ParseD) ++ [?BADARG(3)]}. avp(ParseD) -> Native = get_value(avp_types, ParseD), CustomMods = get_value(custom_types, ParseD), TypeMods = get_value(codecs, ParseD), Imported = get_value(import_avps, ParseD), Enums = get_value(enum, ParseD), Custom = lists:map(fun({M,As}) -> {M, custom_types, As} end, CustomMods) ++ lists:map(fun({M,As}) -> {M, codecs, As} end, TypeMods), avp(types(Native), Imported, Custom, Enums). types(Avps) -> lists:map(fun({N,_,T,_}) -> {N,T} end, Avps). avp(Native, Imported, Custom, Enums) -> report(native, Native), report(imported, Imported), report(custom, Custom), TypeDict = lists:foldl(fun({N,_,T,_}, D) -> orddict:store(N,T,D) end, orddict:from_list(Native), lists:flatmap(fun avps/1, Imported)), CustomNames = lists:flatmap(fun({_,_,Ns}) -> Ns end, Custom), lists:map(fun c_base_avp/1, lists:filter(fun({N,_}) -> not_in(CustomNames, N) end, Native)) ++ lists:flatmap(fun(I) -> cs_imported_avp(I, Enums, CustomNames) end, Imported) ++ lists:flatmap(fun(C) -> cs_custom_avp(C, TypeDict) end, Custom). not_in(List, X) -> not lists:member(X, List). c_base_avp({AvpName, T}) -> {?clause, [?VAR('T'), ?VAR('Data'), ?Atom(AvpName)], [], [b_base_avp(AvpName, T)]}. b_base_avp(AvpName, "Enumerated") -> ?CALL(enumerated_avp, [?VAR('T'), ?Atom(AvpName), ?VAR('Data')]); b_base_avp(AvpName, "Grouped") -> ?CALL(grouped_avp, [?VAR('T'), ?Atom(AvpName), ?VAR('Data')]); b_base_avp(_, Type) -> ?APPLY(diameter_types, ?A(Type), [?VAR('T'), ?VAR('Data')]). cs_imported_avp({Mod, Avps}, Enums, CustomNames) -> lists:map(fun(A) -> imported_avp(Mod, A, Enums) end, lists:filter(fun({N,_,_,_}) -> not_in(CustomNames, N) end, Avps)). imported_avp(_Mod, {AvpName, _, "Grouped" = T, _}, _) -> c_base_avp({AvpName, T}); imported_avp(Mod, {AvpName, _, "Enumerated" = T, _}, Enums) -> case lists:keymember(AvpName, 1, Enums) of true -> c_base_avp({AvpName, T}); false -> c_imported_avp(Mod, AvpName) end; imported_avp(Mod, {AvpName, _, _, _}, _) -> c_imported_avp(Mod, AvpName). c_imported_avp(Mod, AvpName) -> {?clause, [?VAR('T'), ?VAR('Data'), ?Atom(AvpName)], [], [?APPLY(Mod, avp, [?VAR('T'), ?VAR('Data'), ?Atom(AvpName)])]}. cs_custom_avp({Mod, Key, Avps}, Dict) -> lists:map(fun(N) -> c_custom_avp(Mod, Key, N, orddict:fetch(N, Dict)) end, Avps). c_custom_avp(Mod, Key, AvpName, Type) -> {F,A} = custom(Key, AvpName, Type), {?clause, [?VAR('T'), ?VAR('Data'), ?Atom(AvpName)], [], [?APPLY(?A(Mod), ?A(F), [?VAR('T'), ?Atom(A), ?VAR('Data')])]}. custom(custom_types, AvpName, Type) -> {AvpName, Type}; custom(codecs, AvpName, Type) -> {Type, AvpName}. %%% ------------------------------------------------------------------------ %%% # enumerated_avp/3 %%% ------------------------------------------------------------------------ f_enumerated_avp(ParseD) -> {?function, enumerated_avp, 3, enumerated_avp(ParseD) ++ [?BADARG(3)]}. enumerated_avp(ParseD) -> Enums = get_value(enum, ParseD), lists:flatmap(fun cs_enumerated_avp/1, Enums) ++ lists:flatmap(fun({M,Es}) -> enumerated_avp(M, Es, Enums) end, get_value(import_enums, ParseD)). enumerated_avp(Mod, Es, Enums) -> lists:flatmap(fun({N,_}) -> cs_enumerated_avp(lists:keymember(N, 1, Enums), Mod, N) end, Es). cs_enumerated_avp(true, Mod, Name) -> [c_imported_avp(Mod, Name)]; cs_enumerated_avp(false, _, _) -> []. cs_enumerated_avp({AvpName, Values}) -> lists:flatmap(fun(V) -> c_enumerated_avp(AvpName, V) end, Values). c_enumerated_avp(AvpName, {_,I}) -> [{?clause, [?ATOM(decode), ?Atom(AvpName), ?TERM(<>)], [], [?TERM(I)]}, {?clause, [?ATOM(encode), ?Atom(AvpName), ?INTEGER(I)], [], [?TERM(<>)]}]. %%% ------------------------------------------------------------------------ %%% msg_header/1 %%% ------------------------------------------------------------------------ f_msg_header(ParseD) -> {?function, msg_header, 1, msg_header(ParseD) ++ [?BADARG(1)]}. msg_header(ParseD) -> msg_header(get_value(messages, ParseD), ParseD). msg_header([], _) -> []; msg_header(Msgs, ParseD) -> ApplId = orddict:fetch(id, ParseD), lists:map(fun({M,C,F,_,_}) -> c_msg_header(M, C, F, ApplId) end, Msgs). %% Note that any application id in the message header spec is ignored. c_msg_header(Name, Code, Flags, ApplId) -> {?clause, [?Atom(Name)], [], [?TERM({Code, encode_msg_flags(Flags), ApplId})]}. encode_msg_flags(Flags) -> lists:foldl(fun emf/2, 0, Flags). emf('REQ', N) -> N bor 2#10000000; emf('PXY', N) -> N bor 2#01000000; emf('ERR', N) -> N bor 2#00100000. %%% ------------------------------------------------------------------------ %%% # avp_header/1 %%% ------------------------------------------------------------------------ f_avp_header(ParseD) -> {?function, avp_header, 1, avp_header(ParseD) ++ [?BADARG(1)]}. avp_header(ParseD) -> Native = get_value(avp_types, ParseD), Imported = get_value(import_avps, ParseD), Vid = orddict:find(vendor, ParseD), Vs = vendor_id_map(ParseD), lists:flatmap(fun(A) -> c_avp_header(A, Vs, Vid) end, Native ++ Imported). c_avp_header({Name, Code, _Type, Flags}, Vs, Vid) -> [{?clause, [?Atom(Name)], [], [?TERM({Code, encode_avp_flags(Flags), vid(Name, Flags, Vs, Vid)})]}]; c_avp_header({Mod, Avps}, Vs, _Vid) -> lists:map(fun(A) -> c_imported_avp_header(A, Mod, Vs) end, Avps). %% Note that avp_vendor_id in the inherited dictionary is ignored. The %% value must be changed in the inheriting dictionary. This is %% consistent with the semantics of avp_name/2. c_imported_avp_header({Name, _Code, _Type, _Flags}, Mod, Vs) -> Apply = ?APPLY(Mod, avp_header, [?Atom(Name)]), {?clause, [?Atom(Name)], [], [case proplists:get_value(Name, Vs) of undefined -> Apply; Vid -> ?CALL(setelement, [?INTEGER(3), Apply, ?INTEGER(Vid)]) end]}. encode_avp_flags(Fs) -> lists:foldl(fun eaf/2, 0, Fs). eaf($V, F) -> 2#10000000 bor F; eaf($M, F) -> 2#01000000 bor F; eaf($P, F) -> 2#00100000 bor F. vid(Name, Flags, Vs, Vid) -> v(lists:member($V, Flags), Name, Vs, Vid). v(true = T, Name, Vs, {module, Mod}) -> v(T, Name, Vs, {ok, {Mod:vendor_id(), Mod:vendor_name()}}); v(true, Name, Vs, Vid) -> case proplists:get_value(Name, Vs) of undefined -> {ok, {Id, _}} = Vid, Id; Id -> Id end; v(false, _, _, _) -> undefined. %%% ------------------------------------------------------------------------ %%% # empty_value/0 %%% ------------------------------------------------------------------------ f_empty_value(ParseD) -> {?function, empty_value, 1, empty_value(ParseD)}. empty_value(ParseD) -> Imported = lists:flatmap(fun avps/1, get_value(import_enums, ParseD)), Groups = get_value(grouped, ParseD) ++ lists:flatmap(fun avps/1, get_value(import_groups, ParseD)), Enums = [T || {N,_} = T <- get_value(enum, ParseD), not lists:keymember(N, 1, Imported)] ++ Imported, lists:map(fun c_empty_value/1, Groups ++ Enums) ++ [{?clause, [?VAR('Name')], [], [?CALL(empty, [?VAR('Name')])]}]. c_empty_value({Name, _, _, _}) -> {?clause, [?Atom(Name)], [], [?CALL(empty_group, [?Atom(Name)])]}; c_empty_value({Name, _}) -> {?clause, [?Atom(Name)], [], [?TERM(<<0:32>>)]}. %%% ------------------------------------------------------------------------ %%% # dict/0 %%% ------------------------------------------------------------------------ f_dict(ParseD) -> {?function, dict, 0, [{?clause, [], [], [?TERM([?VERSION | ParseD])]}]}. %%% ------------------------------------------------------------------------ %%% # gen_hrl/2 %%% ------------------------------------------------------------------------ gen_hrl(Mod, ParseD) -> {Prefix, MsgRecs, GrpRecs, ImportedGrpRecs} = make_record_forms(ParseD), [hrl_header(Mod), forms("Message records", MsgRecs), forms("Grouped AVP records", GrpRecs), lists:map(fun({M,Fs}) -> forms("Grouped AVP records from " ++ atom_to_list(M), Fs) end, ImportedGrpRecs), format("ENUM Macros", m_enums(Prefix, false, get_value(enum, ParseD))), format("DEFINE Macros", m_enums(Prefix, false, get_value(define, ParseD))), lists:map(fun({M,Es}) -> format("ENUM Macros from " ++ atom_to_list(M), m_enums(Prefix, true, Es)) end, get_value(import_enums, ParseD))]. forms(_, [] = No) -> No; forms(Banner, Forms) -> format(Banner, prettypr(Forms)). format(_, [] = No) -> No; format(Banner, Str) -> [banner(Banner), Str, $\n]. prettypr(Forms) -> erl_prettypr:format(erl_syntax:form_list(Forms)). banner(Heading) -> ["\n\n" "%%% -------------------------------------------------------\n" "%%% ", Heading, ":\n" "%%% -------------------------------------------------------\n\n"]. z(S) -> string:join(string:tokens(S, "\s\t"), "\s"). m_enums(Prefix, Wrap, Enums) -> lists:map(fun(T) -> m_enum(Prefix, Wrap, T) end, Enums). m_enum(Prefix, B, {Name, Values}) -> P = Prefix ++ to_upper(Name) ++ "_", lists:map(fun({A,I}) -> N = ["'", P, to_upper(z(A)), "'"], wrap(B, N, ["-define(", N, ", ", integer_to_list(I), ").\n"]) end, Values). wrap(true, Name, Def) -> ["-ifndef(", Name, ").\n", Def, "-endif.\n"]; wrap(false, _, Def) -> Def. to_upper(A) when is_atom(A) -> to_upper(atom_to_list(A)); to_upper(S) -> lists:map(fun tu/1, S). tu(C) when C >= $a, C =< $z -> C + $A - $a; tu(C) -> C. header() -> ("%% -------------------------------------------------------------------\n" "%% This is a generated file.\n" "%% -------------------------------------------------------------------\n" "\n" "%%\n" "%% Copyright (c) Ericsson AB. All rights reserved.\n" "%%\n" "%% The information in this document is the property of Ericsson.\n" "%%\n" "%% Except as specifically authorized in writing by Ericsson, the\n" "%% receiver of this document shall keep the information contained\n" "%% herein confidential and shall protect the same in whole or in\n" "%% part from disclosure and dissemination to third parties.\n" "%%\n" "%% Disclosure and disseminations to the receivers employees shall\n" "%% only be made on a strict need to know basis.\n" "%%\n\n"). hrl_header(Name) -> header() ++ "-hrl_name('" ++ ?S(Name) ++ ".hrl').\n". %% avp_info/1 avp_info(Entry) -> %% {Name, Arity} case Entry of {{A}} -> {A, 1}; {A} -> {A, 1}; [A] -> {A, {0,1}}; {Q,T} -> {A,_} = avp_info(T), {A, arity(T,Q)} end. %% Normalize arity to 1 or {N,X} where N is an integer. A record field %% for an AVP is list-valued iff the normalized arity is not 1. arity({{_}}, '*' = Inf) -> {0, Inf}; arity([_], '*' = Inf) -> {0, Inf}; arity({_}, '*' = Inf) -> {1, Inf}; arity(_, {_,_} = Q) -> Q. prefix(ParseD) -> case orddict:find(prefix, ParseD) of {ok, P} -> P ++ "_"; error -> "" end. rec_name(Name, Prefix) -> Prefix ++ Name.