diff options
-rw-r--r-- | bootstrap/lib/stdlib/ebin/epp.beam | bin | 28200 -> 28828 bytes | |||
-rw-r--r-- | erts/doc/src/absform.xml | 10 | ||||
-rw-r--r-- | lib/compiler/src/v3_kernel.erl | 3 | ||||
-rw-r--r-- | lib/edoc/src/edoc.erl | 15 | ||||
-rw-r--r-- | lib/edoc/src/edoc_extract.erl | 48 | ||||
-rw-r--r-- | lib/edoc/src/edoc_specs.erl | 20 | ||||
-rw-r--r-- | lib/ssl/src/ssl_connection.erl | 6 | ||||
-rw-r--r-- | lib/ssl/src/tls_connection.erl | 13 | ||||
-rw-r--r-- | lib/stdlib/src/epp.erl | 65 | ||||
-rw-r--r-- | lib/stdlib/test/epp_SUITE.erl | 63 | ||||
-rw-r--r-- | lib/syntax_tools/src/erl_prettypr.erl | 374 | ||||
-rw-r--r-- | lib/syntax_tools/src/erl_syntax.erl | 1410 | ||||
-rw-r--r-- | lib/syntax_tools/src/erl_syntax_lib.erl | 181 | ||||
-rw-r--r-- | lib/syntax_tools/src/igor.erl | 13 | ||||
-rw-r--r-- | lib/syntax_tools/test/syntax_tools_SUITE.erl | 25 | ||||
-rw-r--r-- | lib/syntax_tools/test/syntax_tools_SUITE_data/empty.erl | 1 | ||||
-rw-r--r-- | lib/syntax_tools/test/syntax_tools_SUITE_data/igor_type_specs.erl | 80 | ||||
-rw-r--r-- | lib/syntax_tools/test/syntax_tools_SUITE_data/type_specs.erl | 84 | ||||
-rw-r--r-- | system/doc/reference_manual/macros.xml | 48 |
19 files changed, 2314 insertions, 145 deletions
diff --git a/bootstrap/lib/stdlib/ebin/epp.beam b/bootstrap/lib/stdlib/ebin/epp.beam Binary files differindex 5c98ffdafc..54909eeaa3 100644 --- a/bootstrap/lib/stdlib/ebin/epp.beam +++ b/bootstrap/lib/stdlib/ebin/epp.beam diff --git a/erts/doc/src/absform.xml b/erts/doc/src/absform.xml index 6d6ba224a0..bfabb7f042 100644 --- a/erts/doc/src/absform.xml +++ b/erts/doc/src/absform.xml @@ -68,22 +68,12 @@ <item>If D is a module declaration consisting of the forms <c>F_1</c>, ..., <c>F_k</c>, then Rep(D) = <c>[Rep(F_1), ..., Rep(F_k)]</c>.</item> - <item>If F is an attribute <c>-behavior(Behavior)</c>, then - Rep(F) = <c>{attribute,LINE,behavior,Behavior}</c>.</item> - <item>If F is an attribute <c>-behaviour(Behaviour)</c>, then - Rep(F) = <c>{attribute,LINE,behaviour,Behaviour}</c>.</item> - <item>If F is an attribute <c>-compile(Options)</c>, then - Rep(F) = <c>{attribute,LINE,compile,Options}</c>.</item> <item>If F is an attribute <c>-export([Fun_1/A_1, ..., Fun_k/A_k])</c>, then Rep(F) = <c>{attribute,LINE,export,[{Fun_1,A_1}, ..., {Fun_k,A_k}]}</c>.</item> - <item>If F is an attribute <c>-export_type([Type_1/A_1, ..., Type_k/A_k])</c>, then - Rep(F) = <c>{attribute,LINE,export_type,[{Type_1,A_1}, ..., {Type_k,A_k}]}</c>.</item> <item>If F is an attribute <c>-import(Mod,[Fun_1/A_1, ..., Fun_k/A_k])</c>, then Rep(F) = <c>{attribute,LINE,import,{Mod,[{Fun_1,A_1}, ..., {Fun_k,A_k}]}}</c>.</item> <item>If F is an attribute <c>-module(Mod)</c>, then Rep(F) = <c>{attribute,LINE,module,Mod}</c>.</item> - <item>If F is an attribute <c>-optional_callbacks([Fun_1/A_1, ..., Fun_k/A_k])</c>, then - Rep(F) = <c>{attribute,LINE,optional_callbacks,[{Fun_1,A_1}, ..., {Fun_k,A_k}]}</c>.</item> <item>If F is an attribute <c>-file(File,Line)</c>, then Rep(F) = <c>{attribute,LINE,file,{File,Line}}</c>.</item> <item>If F is a function declaration diff --git a/lib/compiler/src/v3_kernel.erl b/lib/compiler/src/v3_kernel.erl index 4a6330fce4..402e3c4912 100644 --- a/lib/compiler/src/v3_kernel.erl +++ b/lib/compiler/src/v3_kernel.erl @@ -1,7 +1,7 @@ %% %% %CopyrightBegin% %% -%% Copyright Ericsson AB 1999-2015. All Rights Reserved. +%% Copyright Ericsson AB 1999-2016. 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. @@ -147,6 +147,7 @@ include_attribute(callback) -> false; include_attribute(opaque) -> false; include_attribute(export_type) -> false; include_attribute(record) -> false; +include_attribute(optional_callbacks) -> false; include_attribute(_) -> true. function({#c_var{name={F,Arity}=FA},Body}, St0) -> diff --git a/lib/edoc/src/edoc.erl b/lib/edoc/src/edoc.erl index d2494b69fe..94013bb5ac 100644 --- a/lib/edoc/src/edoc.erl +++ b/lib/edoc/src/edoc.erl @@ -653,20 +653,7 @@ find_invalid_unicode([]) -> none. parse_file(Epp) -> case scan_and_parse(Epp) of {ok, Form} -> - case Form of - {attribute,La,record,{Record, Fields}} -> - case epp: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} -> diff --git a/lib/edoc/src/edoc_extract.erl b/lib/edoc/src/edoc_extract.erl index 758750083d..e7a4c36ca4 100644 --- a/lib/edoc/src/edoc_extract.erl +++ b/lib/edoc/src/edoc_extract.erl @@ -355,6 +355,8 @@ preprocess_forms_2(F, Fs) -> [F | preprocess_forms_1(Fs)]; text -> [F | preprocess_forms_1(Fs)]; + {attribute, {record, _}} -> + [F | preprocess_forms_1(Fs)]; {attribute, {N, _}} -> case edoc_specs:is_tag(N) of true -> @@ -373,50 +375,62 @@ preprocess_forms_2(F, Fs) -> %% in the list. collect(Fs, Mod) -> - collect(Fs, [], [], [], [], undefined, Mod). + collect(Fs, [], [], [], [], [], undefined, Mod). -collect([F | Fs], Cs, Ss, Ts, As, Header, Mod) -> +collect([F | Fs], Cs, Ss, Ts, Rs, As, Header, Mod) -> case erl_syntax_lib:analyze_form(F) of comment -> - collect(Fs, [F | Cs], Ss, Ts, As, Header, Mod); + collect(Fs, [F | Cs], Ss, Ts, Rs, As, Header, Mod); {function, Name} -> L = erl_syntax:get_pos(F), Export = ordsets:is_element(Name, Mod#module.exports), Args = parameters(erl_syntax:function_clauses(F)), - collect(Fs, [], [], [], + collect(Fs, [], [], [], [], [#entry{name = Name, args = Args, line = L, export = Export, - data = {comment_text(Cs),Ss,Ts}} | As], + data = {comment_text(Cs),Ss,Ts,Rs}} | As], Header, Mod); {attribute, {module, _}} when Header =:= undefined -> L = erl_syntax:get_pos(F), - collect(Fs, [], [], [], As, + collect(Fs, [], [], [], [], As, #entry{name = module, line = L, - data = {comment_text(Cs),Ss,Ts}}, + data = {comment_text(Cs),Ss,Ts,Rs}}, Mod); + {attribute, {record, {_Name, Fields}}} -> + case is_typed_record(Fields) of + true -> + collect(Fs, Cs, Ss, Ts, [F | Rs], As, Header, Mod); + false -> + collect(Fs, Cs, Ss, Ts, Rs, As, Header, Mod) + end; {attribute, {N, _}} -> case edoc_specs:tag(N) of spec -> - collect(Fs, Cs, [F | Ss], Ts, As, Header, Mod); + collect(Fs, Cs, [F | Ss], Ts, Rs, As, Header, Mod); type -> - collect(Fs, Cs, Ss, [F | Ts], As, Header, Mod); + collect(Fs, Cs, Ss, [F | Ts], Rs, As, Header, Mod); unknown -> %% Drop current seen comments. - collect(Fs, [], [], [], As, Header, Mod) + collect(Fs, [], [], [], Rs, As, Header, Mod) end; _ -> %% Drop current seen comments. - collect(Fs, [], [], [], As, Header, Mod) + collect(Fs, [], [], [], [], As, Header, Mod) end; -collect([], Cs, Ss, Ts, As, Header, _Mod) -> - Footer = #entry{name = footer, data = {comment_text(Cs),Ss,Ts}}, +collect([], Cs, Ss, Ts, Rs, As, Header, _Mod) -> + Footer = #entry{name = footer, data = {comment_text(Cs),Ss,Ts,Rs}}, As1 = lists:reverse(As), if Header =:= undefined -> - {#entry{name = module, data = {[],[],[]}}, Footer, As1}; + {#entry{name = module, data = {[],[],[],[]}}, Footer, As1}; true -> {Header, Footer, As1} end. +is_typed_record([]) -> + false; +is_typed_record([{_, {_, Type}} | Fs]) -> + Type =/= none orelse is_typed_record(Fs). + %% Returns a list of simplified comment information (position and text) %% for a list of abstract comments. The order of elements is reversed. @@ -549,8 +563,8 @@ get_tags(Es, Env, File, TypeDocs) -> How = dict:from_list(edoc_tags:tag_parsers()), get_tags(Es, Tags, Env, How, File, TypeDocs). -get_tags([#entry{name = Name, data = {Cs,Specs,Types}} = E | Es], Tags, Env, - How, File, TypeDocs) -> +get_tags([#entry{name = Name, data = {Cs,Specs,Types,Records}} = E | Es], + Tags, Env, How, File, TypeDocs) -> Where = {File, Name}, Ts0 = scan_tags(Cs), {Ts1,Specs1} = select_spec(Ts0, Where, Specs), @@ -558,7 +572,7 @@ get_tags([#entry{name = Name, data = {Cs,Specs,Types}} = E | Es], Tags, Env, Ts3 = edoc_macros:expand_tags(Ts2, Env, Where), Ts4 = edoc_tags:parse_tags(Ts3, How, Env, Where), Ts = selected_specs(Specs1, Ts4), - ETypes = [edoc_specs:type(Type, TypeDocs) || Type <- Types], + ETypes = [edoc_specs:type(Type, TypeDocs) || Type <- Types ++ Records], [E#entry{data = Ts++ETypes} | get_tags(Es, Tags, Env, How, File, TypeDocs)]; get_tags([], _, _, _, _, _) -> []. diff --git a/lib/edoc/src/edoc_specs.erl b/lib/edoc/src/edoc_specs.erl index f2e5891c2e..faee8adf7b 100644 --- a/lib/edoc/src/edoc_specs.erl +++ b/lib/edoc/src/edoc_specs.erl @@ -42,14 +42,15 @@ %% TypeDocs is a dict of {Name, Doc}. %% Note: #t_typedef.name is set to {record, R} for record types. type(Form, TypeDocs) -> - {Name, Data0} = erl_syntax_lib:analyze_wild_attribute(Form), - type = tag(Name), + {Name, Data0} = analyze_type_attribute(Form), {TypeName, Type, Args, Doc} = case Data0 of - {{record, R}, Fs, []} -> + {R, Fs} -> + record = Name, L = erl_syntax:get_pos(Form), {{record, R}, {type, L, record, [{atom,L,R} | Fs]}, [], ""}; {N,T,As} -> + type = tag(Name), Doc0 = case dict:find({N, length(As)}, TypeDocs) of {ok, Doc1} -> @@ -188,7 +189,7 @@ strip([_ | S]) -> %% Find the type name and the greatest line number of a type spec. %% Should use syntax_tools but this has to do for now. get_name_and_last_line(F) -> - {Name, Data} = erl_syntax_lib:analyze_wild_attribute(F), + {Name, Data} = analyze_type_attribute(F), type = edoc_specs:tag(Name), Attr = {attribute, erl_syntax:get_pos(F), Name, Data}, Fun = fun(A) -> @@ -229,6 +230,7 @@ get_all_tags(Es) -> %% Turns an opaque type into an abstract datatype. %% Note: top level annotation is ignored. opaque2abstr(opaque, _T) -> undefined; +opaque2abstr(record, T) -> T; opaque2abstr(type, T) -> T. %% Replaces the parameters extracted from the source (by @@ -608,6 +610,16 @@ type_name(#tag{name = type, data = {#t_typedef{name = Name, args = As},_}}) -> {Name, length(As)}. +analyze_type_attribute(Form) -> + Name = erl_syntax:atom_value(erl_syntax:attribute_name(Form)), + case tag(Name) of + type -> + erl_syntax_lib:analyze_wild_attribute(Form); + _ when Name =:= record -> + {attribute, _, record, {N, Fields}} = erl_syntax:revert(Form), + {record, {N, Fields}} + end. + %% @doc Return `true' if `Tag' is one of the specification and type %% attribute tags recognized by the Erlang compiler. diff --git a/lib/ssl/src/ssl_connection.erl b/lib/ssl/src/ssl_connection.erl index 5bb43725e3..26c371a8ea 100644 --- a/lib/ssl/src/ssl_connection.erl +++ b/lib/ssl/src/ssl_connection.erl @@ -1921,9 +1921,11 @@ prepare_connection(#state{renegotiation = Renegotiate, start_or_recv_from = RecvFrom} = State0, Connection) when Renegotiate =/= {false, first}, RecvFrom =/= undefined -> - {Record, State} = Connection:next_record(State0), + State1 = Connection:reinit_handshake_data(State0), + {Record, State} = Connection:next_record(State1), {Record, ack_connection(State)}; -prepare_connection(State, _) -> +prepare_connection(State0, Connection) -> + State = Connection:reinit_handshake_data(State0), {no_record, ack_connection(State)}. ack_connection(#state{renegotiation = {true, Initiater}} = State) diff --git a/lib/ssl/src/tls_connection.erl b/lib/ssl/src/tls_connection.erl index 2193fc18c2..208edc644a 100644 --- a/lib/ssl/src/tls_connection.erl +++ b/lib/ssl/src/tls_connection.erl @@ -49,7 +49,8 @@ -export([next_record/1, next_event/3]). %% Handshake handling --export([renegotiate/2, send_handshake/2, send_change_cipher/2]). +-export([renegotiate/2, send_handshake/2, send_change_cipher/2, + reinit_handshake_data/1]). %% Alert and close handling -export([send_alert/2, handle_own_alert/4, handle_close_alert/3, @@ -131,6 +132,16 @@ send_change_cipher(Msg, #state{connection_states = ConnectionStates0, Transport:send(Socket, BinChangeCipher), State0#state{connection_states = ConnectionStates}. +reinit_handshake_data(State) -> + %% premaster_secret, public_key_info and tls_handshake_info + %% are only needed during the handshake phase. + %% To reduce memory foot print of a connection reinitialize them. + State#state{ + premaster_secret = undefined, + public_key_info = undefined, + tls_handshake_history = ssl_handshake:init_handshake_history() + }. + %%==================================================================== %% tls_connection_sup API %%==================================================================== diff --git a/lib/stdlib/src/epp.erl b/lib/stdlib/src/epp.erl index 55a818e87c..73934e0e3c 100644 --- a/lib/stdlib/src/epp.erl +++ b/lib/stdlib/src/epp.erl @@ -53,6 +53,8 @@ | {atom(),non_neg_integer()} | tokens(). +-type warning_info() :: {erl_anno:location(), module(), term()}. + -define(DEFAULT_ENCODING, utf8). %% Epp state record. @@ -158,11 +160,13 @@ scan_erl_form(Epp) -> epp_request(Epp, scan_erl_form). -spec parse_erl_form(Epp) -> - {'ok', AbsForm} | {'eof', Line} | {error, ErrorInfo} when + {'ok', AbsForm} | {error, ErrorInfo} | + {'warning',WarningInfo} | {'eof',Line} when Epp :: epp_handle(), AbsForm :: erl_parse:abstract_form(), Line :: erl_anno:line(), - ErrorInfo :: erl_scan:error_info() | erl_parse:error_info(). + ErrorInfo :: erl_scan:error_info() | erl_parse:error_info(), + WarningInfo :: warning_info(). parse_erl_form(Epp) -> case epp_request(Epp, scan_erl_form) of @@ -219,6 +223,10 @@ 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({error,Term}) -> + io_lib:format("-error(~p).", [Term]); +format_error({warning,Term}) -> + io_lib:format("-warning(~p).", [Term]); format_error(E) -> file:format_error(E). -spec parse_file(FileName, IncludePath, PredefMacros) -> @@ -263,9 +271,11 @@ parse_file(Ifile, Options) -> -spec parse_file(Epp) -> [Form] when Epp :: epp_handle(), - Form :: erl_parse:abstract_form() | {'error', ErrorInfo} | {'eof',Line}, + Form :: erl_parse:abstract_form() | {'error', ErrorInfo} | + {'warning',WarningInfo} | {'eof',Line}, Line :: erl_anno:line(), - ErrorInfo :: erl_scan:error_info() | erl_parse:error_info(). + ErrorInfo :: erl_scan:error_info() | erl_parse:error_info(), + WarningInfo :: warning_info(). parse_file(Epp) -> case parse_erl_form(Epp) of @@ -273,6 +283,8 @@ parse_file(Epp) -> [Form|parse_file(Epp)]; {error,E} -> [{error,E}|parse_file(Epp)]; + {warning,W} -> + [{warning,W}|parse_file(Epp)]; {eof,Location} -> [{eof,erl_anno:new(Location)}] end. @@ -752,6 +764,10 @@ scan_toks([{'-',_Lh},{atom,_Ld,define}=Define|Toks], From, St) -> scan_define(Toks, Define, From, St); scan_toks([{'-',_Lh},{atom,_Ld,undef}=Undef|Toks], From, St) -> scan_undef(Toks, Undef, From, St); +scan_toks([{'-',_Lh},{atom,_Ld,error}=Error|Toks], From, St) -> + scan_err_warn(Toks, Error, From, St); +scan_toks([{'-',_Lh},{atom,_Ld,warning}=Warn|Toks], From, St) -> + scan_err_warn(Toks, Warn, From, St); scan_toks([{'-',_Lh},{atom,_Li,include}=Inc|Toks], From, St) -> scan_include(Toks, Inc, From, St); scan_toks([{'-',_Lh},{atom,_Li,include_lib}=IncLib|Toks], From, St) -> @@ -807,6 +823,24 @@ scan_extends([{atom,Ln,A}=ModAtom,{')',_Lr}|_Ts], Ms0) -> Ms#{'BASE_MODULE_STRING':={none,[{string,Ln,ModString}]}}; scan_extends(_Ts, Ms) -> Ms. +scan_err_warn([{'(',_}|_]=Toks0, {atom,_,Tag}=Token, From, St) -> + try expand_macros(Toks0, St) of + Toks when is_list(Toks) -> + case erl_parse:parse_term(Toks) of + {ok,Term} -> + epp_reply(From, {Tag,{loc(Token),epp,{Tag,Term}}}); + {error,_} -> + epp_reply(From, {error,{loc(Token),epp,{bad,Tag}}}) + end + catch + _:_ -> + epp_reply(From, {error,{loc(Token),epp,{bad,Tag}}}) + end, + wait_req_scan(St); +scan_err_warn(_Toks, {atom,_,Tag}=Token, From, St) -> + epp_reply(From, {error,{loc(Token),epp,{bad,Tag}}}), + wait_req_scan(St). + %% scan_define(Tokens, DefineToken, From, EppState) scan_define([{'(',_Lp},{Type,_Lm,_}=Mac|Toks], Def, From, St) @@ -933,9 +967,15 @@ scan_include(_Toks, Inc, From, St) -> %% normal search path, if not we assume that the first directory name %% is a library name, find its true directory and try with that. -find_lib_dir(NewName) -> - [Lib | Rest] = filename:split(NewName), - {code:lib_dir(list_to_atom(Lib)), Rest}. +expand_lib_dir(Name) -> + try + [App|Path] = filename:split(Name), + LibDir = code:lib_dir(list_to_atom(App)), + {ok,fname_join([LibDir|Path])} + catch + _:_ -> + error + end. scan_include_lib([{'(',_Llp},{string,_Lf,_NewName0},{')',_Lrp},{dot,_Ld}], Inc, From, St) @@ -950,12 +990,11 @@ scan_include_lib([{'(',_Llp},{string,_Lf,NewName0},{')',_Lrp},{dot,_Ld}], {ok,NewF,Pname} -> wait_req_scan(enter_file2(NewF, Pname, From, St, Loc)); {error,_E1} -> - case catch find_lib_dir(NewName) of - {LibDir, Rest} when is_list(LibDir) -> - LibName = fname_join([LibDir | Rest]), - case file:open(LibName, [read]) of + case expand_lib_dir(NewName) of + {ok,Header} -> + case file:open(Header, [read]) of {ok,NewF} -> - wait_req_scan(enter_file2(NewF, LibName, From, + wait_req_scan(enter_file2(NewF, Header, From, St, Loc)); {error,_E2} -> epp_reply(From, @@ -963,7 +1002,7 @@ scan_include_lib([{'(',_Llp},{string,_Lf,NewName0},{')',_Lrp},{dot,_Ld}], {include,lib,NewName}}}), wait_req_scan(St) end; - _Error -> + error -> epp_reply(From, {error,{loc(Inc),epp, {include,lib,NewName}}}), wait_req_scan(St) diff --git a/lib/stdlib/test/epp_SUITE.erl b/lib/stdlib/test/epp_SUITE.erl index ef2c912c57..4078513e38 100644 --- a/lib/stdlib/test/epp_SUITE.erl +++ b/lib/stdlib/test/epp_SUITE.erl @@ -27,7 +27,8 @@ pmod/1, not_circular/1, skip_header/1, otp_6277/1, otp_7702/1, otp_8130/1, overload_mac/1, otp_8388/1, otp_8470/1, otp_8562/1, otp_8665/1, otp_8911/1, otp_10302/1, otp_10820/1, - otp_11728/1, encoding/1, extends/1, function_macro/1]). + otp_11728/1, encoding/1, extends/1, function_macro/1, + test_error/1, test_warning/1]). -export([epp_parse_erl_form/2]). @@ -67,7 +68,7 @@ all() -> not_circular, skip_header, otp_6277, otp_7702, otp_8130, overload_mac, otp_8388, otp_8470, otp_8562, otp_8665, otp_8911, otp_10302, otp_10820, otp_11728, - encoding, extends, function_macro]. + encoding, extends, function_macro, test_error, test_warning]. groups() -> [{upcase_mac, [], [upcase_mac_1, upcase_mac_2]}, @@ -1055,7 +1056,65 @@ ifdef(Config) -> ], [] = run(Config, Ts). +%% OTP-12847: Test the -error directive. +test_error(Config) -> + Cs = [{error_c1, + <<"-error(\"string and macro: \" ?MODULE_STRING).\n" + "-ifdef(NOT_DEFINED).\n" + " -error(\"this one will be skipped\").\n" + "-endif.\n">>, + {errors,[{1,epp,{error,"string and macro: epp_test"}}],[]}}, + + {error_c2, + <<"-ifdef(CONFIG_A).\n" + " t() -> a.\n" + "-else.\n" + "-ifdef(CONFIG_B).\n" + " t() -> b.\n" + "-else.\n" + "-error(\"Neither CONFIG_A nor CONFIG_B are available\").\n" + "-endif.\n" + "-endif.\n">>, + {errors,[{7,epp,{error,"Neither CONFIG_A nor CONFIG_B are available"}}],[]}}, + + {error_c3, + <<"-error(a b c).\n">>, + {errors,[{1,epp,{bad,error}}],[]}} + ], + + [] = compile(Config, Cs), + ok. + +%% OTP-12847: Test the -warning directive. +test_warning(Config) -> + Cs = [{warn_c1, + <<"-warning({a,term,?MODULE}).\n" + "-ifdef(NOT_DEFINED).\n" + "-warning(\"this one will be skipped\").\n" + "-endif.\n">>, + {warnings,[{1,epp,{warning,{a,term,epp_test}}}]}}, + + {warn_c2, + <<"-ifdef(CONFIG_A).\n" + " t() -> a.\n" + "-else.\n" + "-ifdef(CONFIG_B).\n" + " t() -> b.\n" + "-else.\n" + " t() -> c.\n" + "-warning(\"Using fallback\").\n" + "-endif.\n" + "-endif.\n">>, + {warnings,[{8,epp,{warning,"Using fallback"}}]}}, + + {warn_c3, + <<"-warning(a b c).\n">>, + {errors,[{1,epp,{bad,warning}}],[]}} + ], + + [] = compile(Config, Cs), + ok. %% Advanced test on overloading macros. overload_mac(Config) when is_list(Config) -> diff --git a/lib/syntax_tools/src/erl_prettypr.erl b/lib/syntax_tools/src/erl_prettypr.erl index 81272e62de..119d375746 100644 --- a/lib/syntax_tools/src/erl_prettypr.erl +++ b/lib/syntax_tools/src/erl_prettypr.erl @@ -38,7 +38,7 @@ follow/3, empty/0]). -import(erl_parse, [preop_prec/1, inop_prec/1, func_prec/0, - max_prec/0]). + max_prec/0, type_inop_prec/1, type_preop_prec/1]). -define(PADDING, 2). -define(PAPER, 80). @@ -50,7 +50,8 @@ | fun((erl_syntax:syntaxTree(), _, _) -> prettypr:document()). -type clause_t() :: 'case_expr' | 'cond_expr' | 'fun_expr' | 'if_expr' | 'receive_expr' | 'try_expr' - | {'function', prettypr:document()}. + | {'function', prettypr:document()} + | 'spec'. -record(ctxt, {prec = 0 :: integer(), sub_indent = 2 :: non_neg_integer(), @@ -535,9 +536,6 @@ lay_2(Node, Ctxt) -> As = seq(erl_syntax:application_arguments(Node), floating(text(",")), reset_prec(Ctxt), fun lay/2), -%% D1 = beside(D, beside(text("("), -%% beside(par(As), -%% floating(text(")"))))), D1 = beside(D, beside(text("("), beside(par(As), floating(text(")"))))), @@ -651,7 +649,7 @@ lay_2(Node, Ctxt) -> beside(D1, beside(text(":"), D2)); %% - %% The rest is in alphabetical order + %% The rest is in alphabetical order (except map and types) %% arity_qualifier -> @@ -666,18 +664,67 @@ lay_2(Node, Ctxt) -> %% a period. If the arguments is `none', we only output the %% attribute name, without following parentheses. Ctxt1 = reset_prec(Ctxt), - N = erl_syntax:attribute_name(Node), - D = case erl_syntax:attribute_arguments(Node) of - none -> + Args = erl_syntax:attribute_arguments(Node), + N = erl_syntax:attribute_name(Node), + D = case attribute_type(Node) of + spec -> + [SpecTuple] = Args, + [FuncName, FuncTypes] = + erl_syntax:tuple_elements(SpecTuple), + Name = + case erl_syntax:type(FuncName) of + tuple -> + case erl_syntax:tuple_elements(FuncName) of + [F0, _] -> + F0; + [M0, F0, _] -> + erl_syntax:module_qualifier(M0, + F0); + _ -> + FuncName + end; + _ -> + FuncName + end, + Types = dodge_macros(FuncTypes), + D1 = lay_clauses(erl_syntax:concrete(Types), + spec, Ctxt1), + beside(follow(lay(N, Ctxt1), + lay(Name, Ctxt1), + Ctxt1#ctxt.break_indent), + D1); + type -> + [TypeTuple] = Args, + [Name, Type0, Elements] = + erl_syntax:tuple_elements(TypeTuple), + TypeName = dodge_macros(Name), + Type = dodge_macros(Type0), + As0 = dodge_macros(Elements), + As = erl_syntax:concrete(As0), + D1 = lay_type_application(TypeName, As, Ctxt1), + D2 = lay(erl_syntax:concrete(Type), Ctxt1), + beside(follow(lay(N, Ctxt1), + beside(D1, floating(text(" :: "))), + Ctxt1#ctxt.break_indent), + D2); + Tag when Tag =:= export_type; + Tag =:= optional_callbacks -> + [FuncNs] = Args, + FuncNames = erl_syntax:concrete(dodge_macros(FuncNs)), + As = unfold_function_names(FuncNames), + beside(lay(N, Ctxt1), + beside(text("("), + beside(lay(As, Ctxt1), + floating(text(")"))))); + _ when Args =:= none -> lay(N, Ctxt1); - Args -> - As = seq(Args, floating(text(",")), Ctxt1, - fun lay/2), + _ -> + D1 = par(seq(Args, floating(text(",")), Ctxt1, + fun lay/2)), beside(lay(N, Ctxt1), beside(text("("), - beside(par(As), - floating(text(")"))))) - end, + beside(D1, floating(text(")"))))) + end, beside(floating(text("-")), beside(D, floating(text(".")))); binary -> @@ -928,6 +975,16 @@ lay_2(Node, Ctxt) -> text -> text(erl_syntax:text_string(Node)); + typed_record_field -> + {_, Prec, _} = type_inop_prec('::'), + Ctxt1 = reset_prec(Ctxt), + D1 = lay(erl_syntax:typed_record_field_body(Node), Ctxt1), + D2 = lay(erl_syntax:typed_record_field_type(Node), + set_prec(Ctxt, Prec)), + D3 = par([D1, floating(text(" ::")), D2], + Ctxt1#ctxt.break_indent), + maybe_parentheses(D3, Prec, Ctxt); + try_expr -> Ctxt1 = reset_prec(Ctxt), D1 = sep(seq(erl_syntax:try_expr_body(Node), @@ -965,9 +1022,236 @@ lay_2(Node, Ctxt) -> warning_marker -> E = erl_syntax:warning_marker_info(Node), beside(text("%% WARNING: "), - lay_error_info(E, reset_prec(Ctxt))) + lay_error_info(E, reset_prec(Ctxt))); + + %% + %% Types + %% + + annotated_type -> + {_, Prec, _} = type_inop_prec('::'), + D1 = lay(erl_syntax:annotated_type_name(Node), + reset_prec(Ctxt)), + D2 = lay(erl_syntax:annotated_type_body(Node), + set_prec(Ctxt, Prec)), + D3 = follow(beside(D1, floating(text(" ::"))), D2, + Ctxt#ctxt.break_indent), + maybe_parentheses(D3, Prec, Ctxt); + + type_application -> + Name = erl_syntax:type_application_name(Node), + Arguments = erl_syntax:type_application_arguments(Node), + %% Prefer shorthand notation. + case erl_syntax_lib:analyze_type_application(Node) of + {nil, 0} -> + text("[]"); + {list, 1} -> + [A] = Arguments, + D1 = lay(A, reset_prec(Ctxt)), + beside(text("["), beside(D1, text("]"))); + {nonempty_list, 1} -> + [A] = Arguments, + D1 = lay(A, reset_prec(Ctxt)), + beside(text("["), beside(D1, text(", ...]"))); + _ -> + lay_type_application(Name, Arguments, Ctxt) + end; + + bitstring_type -> + Ctxt1 = set_prec(Ctxt, max_prec()), + M = erl_syntax:bitstring_type_m(Node), + N = erl_syntax:bitstring_type_n(Node), + D1 = [beside(text("_:"), lay(M, Ctxt1)) || + (erl_syntax:type(M) =/= integer orelse + erl_syntax:integer_value(M) =/= 0)], + D2 = [beside(text("_:_*"), lay(N, Ctxt1)) || + (erl_syntax:type(N) =/= integer orelse + erl_syntax:integer_value(N) =/= 0)], + F = fun(D, _) -> D end, + D = seq(D1 ++ D2, floating(text(",")), Ctxt1, F), + beside(floating(text("<<")), + beside(par(D), floating(text(">>")))); + + fun_type -> + text("fun()"); + + constrained_function_type -> + Ctxt1 = reset_prec(Ctxt), + D1 = lay(erl_syntax:constrained_function_type_body(Node), + Ctxt1), + D2 = lay(erl_syntax:constrained_function_type_argument(Node), + Ctxt1), + beside(D1, + beside(floating(text(" when ")), D2)); + + function_type -> + {Before, After} = case Ctxt#ctxt.clause of + spec -> + {"", ""}; + _ -> + {"fun(", ")"} + end, + Ctxt1 = reset_prec(Ctxt), + D1 = case erl_syntax:function_type_arguments(Node) of + any_arity -> + text("(...)"); + Arguments -> + As = seq(Arguments, + floating(text(",")), Ctxt1, + fun lay/2), + beside(text("("), + beside(par(As), + floating(text(")")))) + end, + D2 = lay(erl_syntax:function_type_return(Node), Ctxt1), + beside(floating(text(Before)), + beside(D1, + beside(floating(text(" -> ")), + beside(D2, floating(text(After)))))); + + constraint -> + Name = erl_syntax:constraint_argument(Node), + Args = erl_syntax:constraint_body(Node), + case is_subtype(Name, Args) of + true -> + [Var, Type] = Args, + {PrecL, Prec, PrecR} = type_inop_prec('::'), + D1 = lay(Var, set_prec(Ctxt, PrecL)), + D2 = lay(Type, set_prec(Ctxt, PrecR)), + D3 = follow(beside(D1, floating(text(" ::"))), D2, + Ctxt#ctxt.break_indent), + maybe_parentheses(D3, Prec, Ctxt); + false -> + lay_type_application(Name, Args, Ctxt) + end; + + map_type -> + case erl_syntax:map_type_fields(Node) of + any_size -> + text("map()"); + Fs -> + {Prec, _PrecR} = type_preop_prec('#'), + Es = lay_map_fields(Fs, + floating(text(",")), + reset_prec(Ctxt)), + D = beside(floating(text("#{")), + beside(par(Es), + floating(text("}")))), + maybe_parentheses(D, Prec, Ctxt) + end; + + map_type_assoc -> + Name = erl_syntax:map_type_assoc_name(Node), + Value = erl_syntax:map_type_assoc_value(Node), + lay_type_assoc(Name, Value, Ctxt); + + map_type_exact -> + Ctxt1 = reset_prec(Ctxt), + D1 = lay(erl_syntax:map_type_exact_name(Node), Ctxt1), + D2 = lay(erl_syntax:map_type_exact_value(Node), Ctxt1), + par([D1, floating(text(":=")), D2], Ctxt1#ctxt.break_indent); + + integer_range_type -> + {PrecL, Prec, PrecR} = type_inop_prec('..'), + D1 = lay(erl_syntax:integer_range_type_low(Node), + set_prec(Ctxt, PrecL)), + D2 = lay(erl_syntax:integer_range_type_high(Node), + set_prec(Ctxt, PrecR)), + D3 = beside(D1, beside(text(".."), D2)), + maybe_parentheses(D3, Prec, Ctxt); + + record_type -> + {Prec, _PrecR} = type_preop_prec('#'), + D1 = beside(text("#"), + lay(erl_syntax:record_type_name(Node), + reset_prec(Ctxt))), + Es = seq(erl_syntax:record_type_fields(Node), + floating(text(",")), reset_prec(Ctxt), + fun lay/2), + D2 = beside(D1, + beside(text("{"), + beside(par(Es), + floating(text("}"))))), + maybe_parentheses(D2, Prec, Ctxt); + + record_type_field -> + Ctxt1 = reset_prec(Ctxt), + D1 = lay(erl_syntax:record_type_field_name(Node), Ctxt1), + D2 = lay(erl_syntax:record_type_field_type(Node), Ctxt1), + par([D1, floating(text("::")), D2], Ctxt1#ctxt.break_indent); + + tuple_type -> + case erl_syntax:tuple_type_elements(Node) of + any_size -> + text("tuple()"); + Elements -> + Es = seq(Elements, + floating(text(",")), reset_prec(Ctxt), + fun lay/2), + beside(floating(text("{")), + beside(par(Es), floating(text("}")))) + end; + + type_union -> + {_, Prec, PrecR} = type_inop_prec('|'), + Es = par(seq(erl_syntax:type_union_types(Node), + floating(text(" |")), set_prec(Ctxt, PrecR), + fun lay/2)), + maybe_parentheses(Es, Prec, Ctxt); + + user_type_application -> + lay_type_application(erl_syntax:user_type_application_name(Node), + erl_syntax:user_type_application_arguments(Node), + Ctxt) + + end. + +attribute_type(Node) -> + N = erl_syntax:attribute_name(Node), + case catch erl_syntax:concrete(N) of + opaque -> + type; + spec -> + spec; + callback -> + spec; + type -> + type; + export_type -> + export_type; + optional_callbacks -> + optional_callbacks; + _ -> + N end. +is_subtype(Name, [Var, _]) -> + (erl_syntax:is_atom(Name, is_subtype) andalso + erl_syntax:type(Var) =:= variable); +is_subtype(_, _) -> false. + +unfold_function_names(Ns) -> + F = fun ({Atom, Arity}) -> + erl_syntax:arity_qualifier(erl_syntax:atom(Atom), + erl_syntax:integer(Arity)) + end, + erl_syntax:list([F(N) || N <- Ns]). + +%% Macros are not handled well. +dodge_macros(Type) -> + F = fun (T) -> + case erl_syntax:type(T) of + macro -> + Var = erl_syntax:macro_name(T), + VarName0 = erl_syntax:variable_name(Var), + VarName = list_to_atom("?"++atom_to_list(VarName0)), + Atom = erl_syntax:atom(VarName), + Atom; + _ -> T + end + end, + erl_syntax_lib:map(F, Type). + lay_parentheses(D, _Ctxt) -> beside(floating(text("(")), beside(D, floating(text(")")))). @@ -1020,6 +1304,8 @@ split_string_1([], _N, _L, As) -> split_string_2([$^, X | Xs], N, L, As) -> split_string_1(Xs, N - 2, L - 2, [X, $^ | As]); +split_string_2([$x, ${ | Xs], N, L, As) -> + split_string_3(Xs, N - 2, L - 2, [${, $x | As]); split_string_2([X1, X2, X3 | Xs], N, L, As) when X1 >= $0, X1 =< $7, X2 >= $0, X2 =< $7, X3 >= $0, X3 =< $7 -> split_string_1(Xs, N - 3, L - 3, [X3, X2, X1 | As]); @@ -1029,6 +1315,15 @@ split_string_2([X1, X2 | Xs], N, L, As) when split_string_2([X | Xs], N, L, As) -> split_string_1(Xs, N - 1, L - 1, [X | As]). +split_string_3([$} | Xs], N, L, As) -> + split_string_1(Xs, N - 1, L - 1, [$} | As]); +split_string_3([X | Xs], N, L, As) when + X >= $0, X =< $9; X >= $a, X =< $z; X >= $A, X =< $Z -> + split_string_3(Xs, N - 1, L -1, [X | As]); +split_string_3([X | Xs], N, L, As) when + X >= $0, X =< $9 -> + split_string_1(Xs, N - 1, L -1, [X | As]). + %% Note that there is nothing in `lay_clauses' that actually requires %% that the elements have type `clause'; it just sets up the proper %% context and arranges the elements suitably for clauses. @@ -1105,6 +1400,53 @@ lay_error_info(T, Ctxt) -> lay_concrete(T, Ctxt) -> lay(erl_syntax:abstract(T), Ctxt). +lay_map_fields([H | T], Separator, Ctxt) -> + case T of + [] -> + [case erl_syntax:type(H) of + map_type_assoc -> + lay_last_type_assoc(H, Ctxt); + _ -> + lay(H, Ctxt) + end]; + _ -> + [maybe_append(Separator, lay(H, Ctxt)) + | lay_map_fields(T, Separator, Ctxt)] + end; +lay_map_fields([], _, _) -> + [empty()]. + +lay_last_type_assoc(Node, Ctxt) -> + Name = erl_syntax:map_type_assoc_name(Node), + Value = erl_syntax:map_type_assoc_value(Node), + IsAny = fun({type,_,any,[]}) -> true; + %% ({var,_,'_'}) -> true; + (_) -> false + end, + case IsAny(Name) andalso IsAny(Value) of + true -> + text("..."); + false -> + lay_type_assoc(Name, Value, Ctxt) + end. + +lay_type_assoc(Name, Value, Ctxt) -> + Ctxt1 = reset_prec(Ctxt), + D1 = lay(Name, Ctxt1), + D2 = lay(Value, Ctxt1), + par([D1, floating(text("=>")), D2], Ctxt1#ctxt.break_indent). + +lay_type_application(Name, Arguments, Ctxt) -> + {PrecL, Prec} = func_prec(), % + D1 = lay(Name, set_prec(Ctxt, PrecL)), + As = seq(Arguments, + floating(text(",")), reset_prec(Ctxt), + fun lay/2), + D = beside(D1, beside(text("("), + beside(par(As), + floating(text(")"))))), + maybe_parentheses(D, Prec, Ctxt). + seq([H | T], Separator, Ctxt, Fun) -> case T of [] -> diff --git a/lib/syntax_tools/src/erl_syntax.erl b/lib/syntax_tools/src/erl_syntax.erl index 97b5797b06..f4cda814fc 100644 --- a/lib/syntax_tools/src/erl_syntax.erl +++ b/lib/syntax_tools/src/erl_syntax.erl @@ -120,6 +120,9 @@ normalize_list/1, compact_list/1, + annotated_type/2, + annotated_type_name/1, + annotated_type_body/1, application/2, application/3, application_arguments/1, @@ -150,6 +153,9 @@ binary_generator/2, binary_generator_body/1, binary_generator_pattern/1, + bitstring_type/2, + bitstring_type_m/1, + bitstring_type_n/1, block_expr/1, block_expr_body/1, case_expr/2, @@ -175,6 +181,12 @@ cond_expr_clauses/1, conjunction/1, conjunction_body/1, + constrained_function_type/2, + constrained_function_type_body/1, + constrained_function_type_argument/1, + constraint/2, + constraint_argument/1, + constraint_body/1, disjunction/1, disjunction_body/1, eof_marker/0, @@ -188,10 +200,15 @@ fun_expr/1, fun_expr_arity/1, fun_expr_clauses/1, + fun_type/0, function/2, function_arity/1, function_clauses/1, function_name/1, + function_type/1, + function_type/2, + function_type_arguments/1, + function_type_return/1, generator/2, generator_body/1, generator_pattern/1, @@ -209,6 +226,9 @@ is_integer/2, integer_value/1, integer_literal/1, + integer_range_type/2, + integer_range_type_low/1, + integer_range_type_high/1, list/1, list/2, list_comp/2, @@ -230,6 +250,15 @@ map_field_exact/2, map_field_exact_name/1, map_field_exact_value/1, + map_type/0, + map_type/1, + map_type_fields/1, + map_type_assoc/2, + map_type_assoc_name/1, + map_type_assoc_value/1, + map_type_exact/2, + map_type_exact_name/1, + map_type_exact_value/1, match_expr/2, match_expr_body/1, match_expr_pattern/1, @@ -270,6 +299,12 @@ record_index_expr/2, record_index_expr_field/1, record_index_expr_type/1, + record_type/2, + record_type_name/1, + record_type_fields/1, + record_type_field/2, + record_type_field_name/1, + record_type_field_type/1, size_qualifier/2, size_qualifier_argument/1, size_qualifier_body/1, @@ -288,6 +323,18 @@ try_expr_clauses/1, try_expr_handlers/1, try_expr_after/1, + tuple_type/0, + tuple_type/1, + tuple_type_elements/1, + type_application/2, + type_application/3, + type_application_name/1, + type_application_arguments/1, + type_union/1, + type_union_types/1, + typed_record_field/2, + typed_record_field_body/1, + typed_record_field_type/1, class_qualifier/2, class_qualifier_argument/1, class_qualifier_body/1, @@ -295,6 +342,9 @@ tuple_elements/1, tuple_size/1, underscore/0, + user_type_application/2, + user_type_application_name/1, + user_type_application_arguments/1, variable/1, variable_name/1, variable_literal/1, @@ -412,23 +462,28 @@ %% <center><table border="1"> %% <tr> %% <td>application</td> +%% <td>annotated_type</td> %% <td>arity_qualifier</td> %% <td>atom</td> -%% <td>attribute</td> %% </tr><tr> +%% <td>attribute</td> %% <td>binary</td> %% <td>binary_field</td> +%% <td>bitstring_type</td> +%% </tr><tr> %% <td>block_expr</td> %% <td>case_expr</td> -%% </tr><tr> %% <td>catch_expr</td> %% <td>char</td> +%% </tr><tr> %% <td>class_qualifier</td> %% <td>clause</td> -%% </tr><tr> %% <td>comment</td> %% <td>cond_expr</td> +%% </tr><tr> %% <td>conjunction</td> +%% <td>constrained_function_type</td> +%% <td>constraint</td> %% <td>disjunction</td> %% </tr><tr> %% <td>eof_marker</td> @@ -437,43 +492,58 @@ %% <td>form_list</td> %% </tr><tr> %% <td>fun_expr</td> +%% <td>fun_type</td> %% <td>function</td> +%% <td>function_type</td> +%% </tr><tr> %% <td>generator</td> %% <td>if_expr</td> -%% </tr><tr> %% <td>implicit_fun</td> %% <td>infix_expr</td> +%% </tr><tr> %% <td>integer</td> +%% <td>integer_range_type</td> %% <td>list</td> -%% </tr><tr> %% <td>list_comp</td> +%% </tr><tr> %% <td>macro</td> %% <td>map_expr</td> %% <td>map_field_assoc</td> -%% </tr><tr> %% <td>map_field_exact</td> +%% </tr><tr> +%% <td>map_type</td> +%% <td>map_type_assoc</td> +%% <td>map_type_exact</td> %% <td>match_expr</td> %% <td>module_qualifier</td> -%% <td>named_fun_expr</td> %% </tr><tr> +%% <td>named_fun_expr</td> %% <td>nil</td> %% <td>operator</td> %% <td>parentheses</td> -%% <td>prefix_expr</td> %% </tr><tr> +%% <td>prefix_expr</td> %% <td>receive_expr</td> %% <td>record_access</td> %% <td>record_expr</td> -%% <td>record_field</td> %% </tr><tr> +%% <td>record_field</td> %% <td>record_index_expr</td> +%% <td>record_type</td> +%% <td>record_type_field</td> +%% </tr><tr> %% <td>size_qualifier</td> %% <td>string</td> %% <td>text</td> -%% </tr><tr> %% <td>try_expr</td> +%% </tr><tr> %% <td>tuple</td> +%% <td>tuple_type</td> +%% <td>typed_record_field</td> +%% <td>type_application</td> +%% <td>type_union</td> %% <td>underscore</td> +%% <td>user_type_application</td> %% <td>variable</td> %% </tr><tr> %% <td>warning_marker</td> @@ -487,12 +557,14 @@ %% always have the same name as the node type itself. %% %% @see tree/2 +%% @see annotated_type/2 %% @see application/3 %% @see arity_qualifier/2 %% @see atom/1 %% @see attribute/2 %% @see binary/1 %% @see binary_field/2 +%% @see bitstring_type/2 %% @see block_expr/1 %% @see case_expr/2 %% @see catch_expr/1 @@ -502,24 +574,34 @@ %% @see comment/2 %% @see cond_expr/1 %% @see conjunction/1 +%% @see constrained_function_type/2 +%% @see constraint/2 %% @see disjunction/1 %% @see eof_marker/0 %% @see error_marker/1 %% @see float/1 %% @see form_list/1 %% @see fun_expr/1 +%% @see fun_type/0 %% @see function/2 +%% @see function_type/1 +%% @see function_type/2 %% @see generator/2 %% @see if_expr/1 %% @see implicit_fun/2 %% @see infix_expr/3 %% @see integer/1 +%% @see integer_range_type/2 %% @see list/2 %% @see list_comp/2 %% @see macro/2 %% @see map_expr/2 %% @see map_field_assoc/2 %% @see map_field_exact/2 +%% @see map_type/0 +%% @see map_type/1 +%% @see map_type_assoc/2 +%% @see map_type_exact/2 %% @see match_expr/2 %% @see module_qualifier/2 %% @see named_fun_expr/2 @@ -532,12 +614,20 @@ %% @see record_expr/2 %% @see record_field/2 %% @see record_index_expr/2 +%% @see record_type/2 +%% @see record_type_field/2 %% @see size_qualifier/2 %% @see string/1 %% @see text/1 %% @see try_expr/3 %% @see tuple/1 +%% @see tuple_type/0 +%% @see tuple_type/1 +%% @see typed_record_field/2 +%% @see type_application/2 +%% @see type_union/1 %% @see underscore/0 +%% @see user_type_application/2 %% @see variable/1 %% @see warning_marker/1 @@ -602,6 +692,25 @@ type(Node) -> {remote, _, _, _} -> module_qualifier; {'try', _, _, _, _, _} -> try_expr; {tuple, _, _} -> tuple; + + %% Type types + {ann_type, _, _} -> annotated_type; + {remote_type, _, _} -> type_application; + {type, _, binary, [_, _]} -> bitstring_type; + {type, _, bounded_fun, [_, _]} -> constrained_function_type; + {type, _, constraint, [_, _]} -> constraint; + {type, _, 'fun', []} -> fun_type; + {type, _, 'fun', [_, _]} -> function_type; + {type, _, map, _} -> map_type; + {type, _, map_field_assoc, _} -> map_type_assoc; + {type, _, map_field_exact, _} -> map_type_exact; + {type, _, record, _} -> record_type; + {type, _, field_type, _} -> record_type_field; + {type, _, range, _} -> integer_range_type; + {type, _, tuple, _} -> tuple_type; + {type, _, union, _} -> type_union; + {type, _, _, _} -> type_application; + {user_type, _, _, _} -> user_type_application; _ -> erlang:error({badarg, Node}) end. @@ -621,6 +730,7 @@ type(Node) -> %% <td>`error_marker'</td> %% </tr><tr> %% <td>`float'</td> +%% <td>`fun_type'</td> %% <td>`integer'</td> %% <td>`nil'</td> %% <td>`operator'</td> @@ -633,7 +743,13 @@ type(Node) -> %% </tr> %% </table></center> %% +%% A node of type `map_expr' is a leaf node if and only if it has no +%% argument and no fields. +%% A node of type `map_type' is a leaf node if and only if it has no +%% fields (`any_size'). %% A node of type `tuple' is a leaf node if and only if its arity is zero. +%% A node of type `tuple_type' is a leaf node if and only if it has no +%% elements (`any_size'). %% %% Note: not all literals are leaf nodes, and vice versa. E.g., %% tuples with nonzero arity and nonempty lists may be literals, but are @@ -653,6 +769,7 @@ is_leaf(Node) -> eof_marker -> true; error_marker -> true; float -> true; + fun_type -> true; integer -> true; nil -> true; operator -> true; % nonstandard type @@ -661,7 +778,9 @@ is_leaf(Node) -> map_expr -> map_expr_fields(Node) =:= [] andalso map_expr_argument(Node) =:= none; + map_type -> map_type_fields(Node) =:= any_size; tuple -> tuple_elements(Node) =:= []; + tuple_type -> tuple_type_elements(Node) =:= any_size; underscore -> true; variable -> true; warning_marker -> true; @@ -3114,6 +3233,39 @@ attribute(Name) -> %% `Imports' is `{Module, [{A1, N1}, ..., {Ak, Nk}]}', or %% `-import(A1.....An).', if `Imports' is `[A1, ..., An]'. %% +%% {attribute, Pos, export_type, ExportedTypes} +%% +%% ExportedTypes = [{atom(), integer()}] +%% +%% Representing `-export_type([N1/A1, ..., Nk/Ak]).', +%% if `ExportedTypes' is `[{N1, A1}, ..., {Nk, Ak}]'. +%% +%% {attribute, Pos, optional_callbacks, OptionalCallbacks} +%% +%% OptionalCallbacks = [{atom(), integer()}] +%% +%% Representing `-optional_callbacks([A1/N1, ..., Ak/Nk]).', +%% if `OptionalCallbacks' is `[{A1, N1}, ..., {Ak, Nk}]'. +%% +%% {attribute, Pos, SpecTag, {FuncSpec, FuncType}} +%% +%% SpecTag = spec | callback +%% FuncSpec = {module(), atom(), arity()} | {atom(), arity()} +%% FuncType = a (possibly constrained) function type +%% +%% Representing `-SpecTag M:F/A Ft1; ...; Ftk.' or +%% `-SpecTag F/A Ft1; ...; Ftk.', if `FuncTypes' is +%% `[Ft1, ..., Ftk]'. +%% +%% {attribute, Pos, TypeTag, {Name, Type, Parameters}} +%% +%% TypeTag = type | opaque +%% Type = a type +%% Parameters = [Variable] +%% +%% Representing `-TypeTag Name(V1, ..., Vk) :: Type .' +%% if `Parameters' is `[V1, ..., Vk]'. +%% %% {attribute, Pos, file, Position} %% %% Position = {filename(), integer()} @@ -3125,13 +3277,19 @@ attribute(Name) -> %% %% Info = {Name, [Entries]} %% Name = atom() -%% Entries = {record_field, Pos, atom()} -%% | {record_field, Pos, atom(), erl_parse()} %% -%% Representing `-record(Name, {<F1>, ..., <Fn>}).', if `Info' is +%% Entries = UntypedEntries +%% | {typed_record_field, UntypedEntries, Type} +%% UntypedEntries = {record_field, Pos, atom()} +%% | {record_field, Pos, atom(), erl_parse()} +%% +%% Representing `-record(Name, {<F1>, ..., <Fn>}).', if `Info' is %% `{Name, [D1, ..., D1]}', where each `Fi' is either `Ai = <Ei>', %% if the corresponding `Di' is `{record_field, Pos, Ai, Ei}', or -%% otherwise simply `Ai', if `Di' is `{record_field, Pos, Ai}'. +%% otherwise simply `Ai', if `Di' is `{record_field, Pos, Ai}', or +%% `Ai = <Ei> :: <Ti>', if `Di' is `{typed_record_field, +%% {record_field, Pos, Ai, Ei}, Ti}', or `Ai :: <Ti>', if `Di' is +%% `{typed_record_field, {record_field, Pos, Ai}, Ti}'. %% %% {attribute, L, Name, Term} %% @@ -3309,11 +3467,6 @@ attribute_arguments(Node) -> [set_pos( list(unfold_function_names(Data, Pos)), Pos)]; - optional_callbacks -> - D = try list(unfold_function_names(Data, Pos)) - catch _:_ -> abstract(Data) - end, - [set_pos(D, Pos)]; import -> {Module, Imports} = Data, [set_pos(atom(Module), Pos), @@ -4183,7 +4336,8 @@ record_field(Name) -> %% type(Node) = record_field %% data(Node) = #record_field{name :: Name, value :: Value} %% -%% Name = Value = syntaxTree() +%% Name = syntaxTree() +%% Value = none | syntaxTree() -spec record_field(syntaxTree(), 'none' | syntaxTree()) -> syntaxTree(). @@ -4568,7 +4722,7 @@ application(Module, Name, Arguments) -> %% %% `erl_parse' representation: %% -%% {call, Pos, Fun, Args} +%% {call, Pos, Operator, Args} %% %% Operator = erl_parse() %% Arguments = [erl_parse()] @@ -4623,6 +4777,1095 @@ application_arguments(Node) -> (data(Node1))#application.arguments end. +%% ===================================================================== +%% @doc Creates an abstract annotated type expression. The result +%% represents "<code><em>Name</em> :: <em>Type</em></code>". +%% +%% @see annotated_type_name/1 +%% @see annotated_type_body/1 + +-record(annotated_type, {name :: syntaxTree(), body :: syntaxTree()}). + +%% type(Node) = annotated_type +%% data(Node) = #annotated_type{name :: Name, +%% body :: Type} +%% +%% Name = syntaxTree() +%% Type = syntaxTree() +%% +%% `erl_parse' representation: +%% +%% {ann_type, Pos, [Name, Type]} +%% +%% Name = erl_parse() +%% Type = erl_parse() + +-spec annotated_type(syntaxTree(), syntaxTree()) -> syntaxTree(). + +annotated_type(Name, Type) -> + tree(annotated_type, #annotated_type{name = Name, body = Type}). + +revert_annotated_type(Node) -> + Pos = get_pos(Node), + Name = annotated_type_name(Node), + Type = annotated_type_body(Node), + {ann_type, Pos, [Name, Type]}. + + +%% ===================================================================== +%% @doc Returns the name subtree of an `annotated_type' node. +%% +%% @see annotated_type/2 + +-spec annotated_type_name(syntaxTree()) -> syntaxTree(). + +annotated_type_name(Node) -> + case unwrap(Node) of + {ann_type, _, [Name, _]} -> + Name; + Node1 -> + (data(Node1))#annotated_type.name + end. + + +%% ===================================================================== +%% @doc Returns the type subtrees of an `annotated_type' node. +%% +%% @see annotated_type/2 + +-spec annotated_type_body(syntaxTree()) -> syntaxTree(). + +annotated_type_body(Node) -> + case unwrap(Node) of + {ann_type, _, [_, Type]} -> + Type; + Node1 -> + (data(Node1))#annotated_type.body + end. + + +%% ===================================================================== +%% @doc Creates an abstract fun of any type. The result represents +%% "<code>fun()</code>". + +%% type(Node) = fun_type +%% +%% `erl_parse' representation: +%% +%% {type, Pos, 'fun', []} + +-spec fun_type() -> syntaxTree(). + +fun_type() -> + tree(fun_type). + +revert_fun_type(Node) -> + Pos = get_pos(Node), + {type, Pos, 'fun', []}. + + +%% ===================================================================== +%% @doc Creates an abstract type application expression. If +%% `Module' is `none', this is call is equivalent +%% to `type_application(TypeName, Arguments)', otherwise it is +%% equivalent to `type_application(module_qualifier(Module, TypeName), +%% Arguments)'. +%% +%% (This is a utility function.) +%% +%% @see type_application/2 +%% @see module_qualifier/2 + +-spec type_application('none' | syntaxTree(), syntaxTree(), [syntaxTree()]) -> + syntaxTree(). + +type_application(none, TypeName, Arguments) -> + type_application(TypeName, Arguments); +type_application(Module, TypeName, Arguments) -> + type_application(module_qualifier(Module, TypeName), Arguments). + + +%% ===================================================================== +%% @doc Creates an abstract type application expression. If `Arguments' is +%% `[T1, ..., Tn]', the result represents +%% "<code><em>TypeName</em>(<em>T1</em>, ...<em>Tn</em>)</code>". +%% +%% @see user_type_application/2 +%% @see type_application/3 +%% @see type_application_name/1 +%% @see type_application_arguments/1 + +-record(type_application, {type_name :: syntaxTree(), + arguments :: [syntaxTree()]}). + +%% type(Node) = type_application +%% data(Node) = #type_application{type_name :: TypeName, +%% arguments :: Arguments} +%% +%% TypeName = syntaxTree() +%% Arguments = [syntaxTree()] +%% +%% `erl_parse' representation: +%% +%% {remote, Pos, [Module, Name, Arguments]} | +%% {type, Pos, Name, Arguments} +%% +%% Module = erl_parse() +%% Name = atom() +%% Arguments = [erl_parse()] + +-spec type_application(syntaxTree(), [syntaxTree()]) -> syntaxTree(). + +type_application(TypeName, Arguments) -> + tree(type_application, + #type_application{type_name = TypeName, arguments = Arguments}). + +revert_type_application(Node) -> + Pos = get_pos(Node), + TypeName = type_application_name(Node), + Arguments = type_application_arguments(Node), + case type(TypeName) of + module_qualifier -> + Module = module_qualifier_argument(TypeName), + Name = module_qualifier_body(TypeName), + {remote_type, Pos, [Module, Name, Arguments]}; + atom -> + {type, Pos, atom_value(TypeName), Arguments} + end. + + +%% ===================================================================== +%% @doc Returns the type name subtree of a `type_application' node. +%% +%% @see type_application/2 + +-spec type_application_name(syntaxTree()) -> syntaxTree(). + +type_application_name(Node) -> + case unwrap(Node) of + {remote_type, _, [Module, Name, _]} -> + module_qualifier(Module, Name); + {type, Pos, Name, _} -> + set_pos(atom(Name), Pos); + Node1 -> + (data(Node1))#type_application.type_name + end. + + +%% ===================================================================== +%% @doc Returns the arguments subtrees of a `type_application' node. +%% +%% @see type_application/2 + +-spec type_application_arguments(syntaxTree()) -> [syntaxTree()]. + +type_application_arguments(Node) -> + case unwrap(Node) of + {remote_type, _, [_, _, Arguments]} -> + Arguments; + {type, _, _, Arguments} -> + Arguments; + Node1 -> + (data(Node1))#type_application.arguments + end. + + +%% ===================================================================== +%% @doc Creates an abstract bitstring type. The result represents +%% "<code><em><<_:M, _:_*N>></em></code>". +%% +%% @see bitstring_type_m/1 +%% @see bitstring_type_n/1 + +-record(bitstring_type, {m :: syntaxTree(), n :: syntaxTree()}). + +%% type(Node) = bitstring_type +%% data(Node) = #bitstring_type{m :: M, n :: N} +%% +%% M = syntaxTree() +%% N = syntaxTree() +%% + +-spec bitstring_type(syntaxTree(), syntaxTree()) -> syntaxTree(). + +bitstring_type(M, N) -> + tree(bitstring_type, #bitstring_type{m = M, n =N}). + +revert_bitstring_type(Node) -> + Pos = get_pos(Node), + M = bitstring_type_m(Node), + N = bitstring_type_n(Node), + {type, Pos, binary, [M, N]}. + +%% ===================================================================== +%% @doc Returns the number of start bits, `M', of a `bitstring_type' node. +%% +%% @see bitstring_type/2 + +-spec bitstring_type_m(syntaxTree()) -> syntaxTree(). + +bitstring_type_m(Node) -> + case unwrap(Node) of + {type, _, binary, [M, _]} -> + M; + Node1 -> + (data(Node1))#bitstring_type.m + end. + +%% ===================================================================== +%% @doc Returns the segment size, `N', of a `bitstring_type' node. +%% +%% @see bitstring_type/2 + +-spec bitstring_type_n(syntaxTree()) -> syntaxTree(). + +bitstring_type_n(Node) -> + case unwrap(Node) of + {type, _, binary, [_, N]} -> + N; + Node1 -> + (data(Node1))#bitstring_type.n + end. + + +%% ===================================================================== +%% @doc Creates an abstract constrained function type. +%% If `FunctionConstraint' is `[C1, ..., Cn]', the result represents +%% "<code><em>FunctionType</em> when <em>C1</em>, ...<em>Cn</em></code>". +%% +%% @see constrained_function_type_body/1 +%% @see constrained_function_type_argument/1 + +-record(constrained_function_type, {body :: syntaxTree(), + argument :: syntaxTree()}). + +%% type(Node) = constrained_function_type +%% data(Node) = #constrained_function_type{body :: FunctionType, +%% argument :: FunctionConstraint} +%% +%% FunctionType = syntaxTree() +%% FunctionConstraint = syntaxTree() +%% +%% `erl_parse' representation: +%% +%% {type, Pos, bounded_fun, [FunctionType, FunctionConstraint]} +%% +%% FunctionType = erl_parse() +%% FunctionConstraint = [erl_parse()] + +-spec constrained_function_type(syntaxTree(), [syntaxTree()]) -> syntaxTree(). + +constrained_function_type(FunctionType, FunctionConstraint) -> + Conj = conjunction(FunctionConstraint), + tree(constrained_function_type, + #constrained_function_type{body = FunctionType, + argument = Conj}). + +revert_constrained_function_type(Node) -> + Pos = get_pos(Node), + FunctionType = constrained_function_type_body(Node), + FunctionConstraint = + conjunction_body(constrained_function_type_argument(Node)), + {type, Pos, bounded_fun, [FunctionType, FunctionConstraint]}. + + +%% ===================================================================== +%% @doc Returns the function type subtree of a +%% `constrained_function_type' node. +%% +%% @see constrained_function_type/2 + +-spec constrained_function_type_body(syntaxTree()) -> syntaxTree(). + +constrained_function_type_body(Node) -> + case unwrap(Node) of + {type, _, bounded_fun, [FunctionType, _]} -> + FunctionType; + Node1 -> + (data(Node1))#constrained_function_type.body + end. + +%% ===================================================================== +%% @doc Returns the function constraint subtree of a +%% `constrained_function_type' node. +%% +%% @see constrained_function_type/2 + +-spec constrained_function_type_argument(syntaxTree()) -> syntaxTree(). + +constrained_function_type_argument(Node) -> + case unwrap(Node) of + {type, _, bounded_fun, [_, FunctionConstraint]} -> + conjunction(FunctionConstraint); + Node1 -> + (data(Node1))#constrained_function_type.argument + end. + + +%% ===================================================================== +%% @equiv function_type(any_arity, Type) + +function_type(Type) -> + function_type(any_arity, Type). + +%% ===================================================================== +%% @doc Creates an abstract function type. If `Arguments' is +%% `[T1, ..., Tn]', then if it occurs within a function +%% specification, the result represents +%% "<code>(<em>T1</em>, ...<em>Tn</em>) -> <em>Return</em></code>"; otherwise +%% it represents +%% "<code>fun((<em>T1</em>, ...<em>Tn</em>) -> <em>Return</em>)</code>". +%% If `Arguments' is `any_arity', it represents +%% "<code>fun((...) -> <em>Return</em>)</code>". +%% +%% Note that the `erl_parse' representation is identical for +%% "<code><em>FunctionType</em></code>" and +%% "<code>fun(<em>FunctionType</em>)</code>". +%% +%% @see function_type_arguments/1 +%% @see function_type_return/1 + +-record(function_type, {arguments :: any_arity | [syntaxTree()], + return :: syntaxTree()}). + +%% type(Node) = function_type +%% data(Node) = #function_type{arguments :: any | Arguments, +%% return :: Type} +%% +%% Arguments = [syntaxTree()] +%% Type = syntaxTree() +%% +%% `erl_parse' representation: +%% +%% {type, Pos, 'fun', [{type, Pos, product, Arguments}, Type]} +%% {type, Pos, 'fun', [{type, Pos, any}, Type]} +%% +%% Arguments = [erl_parse()] +%% Type = erl_parse() + +-spec function_type('any_arity' | syntaxTree(), syntaxTree()) -> syntaxTree(). + +function_type(Arguments, Return) -> + tree(function_type, + #function_type{arguments = Arguments, return = Return}). + +revert_function_type(Node) -> + Pos = get_pos(Node), + Type = function_type_return(Node), + case function_type_arguments(Node) of + any_arity -> + {type, Pos, 'fun', [{type, Pos, any}, Type]}; + Arguments -> + {type, Pos, 'fun', [{type, Pos, product, Arguments}, Type]} + end. + + +%% ===================================================================== +%% @doc Returns the argument types subtrees of a `function_type' node. +%% If `Node' represents "<code>fun((...) -> <em>Return</em>)</code>", +%% `any_arity' is returned; otherwise, if `Node' represents +%% "<code>(<em>T1</em>, ...<em>Tn</em>) -> <em>Return</em></code>" or +%% "<code>fun((<em>T1</em>, ...<em>Tn</em>) -> <em>Return</em>)</code>", +%% `[T1, ..., Tn]' is returned. + +%% +%% @see function_type/1 +%% @see function_type/2 + +-spec function_type_arguments(syntaxTree()) -> any_arity | [syntaxTree()]. + +function_type_arguments(Node) -> + case unwrap(Node) of + {type, _, 'fun', [{type, _, any}, _]} -> + any_arity; + {type, _, 'fun', [{type, _, product, Arguments}, _]} -> + Arguments; + Node1 -> + (data(Node1))#function_type.arguments + end. + +%% ===================================================================== +%% @doc Returns the return type subtrees of a `function_type' node. +%% +%% @see function_type/1 +%% @see function_type/2 + +-spec function_type_return(syntaxTree()) -> syntaxTree(). + +function_type_return(Node) -> + case unwrap(Node) of + {type, _, 'fun', [_, Type]} -> + Type; + Node1 -> + (data(Node1))#function_type.return + end. + + +%% ===================================================================== +%% @doc Creates an abstract (subtype) constraint. The result represents +%% "<code><em>Name</em> :: <em>Type</em></code>". +%% +%% @see constraint_argument/1 +%% @see constraint_body/1 + +-record(constraint, {name :: syntaxTree(), + types :: [syntaxTree()]}). + +%% type(Node) = constraint +%% data(Node) = #constraint{name :: Name, +%% types :: [Type]} +%% +%% Name = syntaxTree() +%% Type = syntaxTree() +%% +%% `erl_parse' representation: +%% +%% {type, Pos, constraint, [Name, [Var, Type]]} +%% +%% Name = {atom, Pos, is_subtype} +%% Var = erl_parse() +%% Type = erl_parse() + +-spec constraint(syntaxTree(), [syntaxTree()]) -> syntaxTree(). + +constraint(Name, Types) -> + tree(constraint, + #constraint{name = Name, types = Types}). + +revert_constraint(Node) -> + Pos = get_pos(Node), + Name = constraint_argument(Node), + Types = constraint_body(Node), + {type, Pos, constraint, [Name, Types]}. + + +%% ===================================================================== +%% @doc Returns the name subtree of a `constraint' node. +%% +%% @see constraint/2 + +-spec constraint_argument(syntaxTree()) -> syntaxTree(). + +constraint_argument(Node) -> + case unwrap(Node) of + {type, _, constraint, [Name, _]} -> + Name; + Node1 -> + (data(Node1))#constraint.name + end. + +%% ===================================================================== +%% @doc Returns the type subtree of a `constraint' node. +%% +%% @see constraint/2 + +-spec constraint_body(syntaxTree()) -> [syntaxTree()]. + +constraint_body(Node) -> + case unwrap(Node) of + {type, _, constraint, [_, Types]} -> + Types; + Node1 -> + (data(Node1))#constraint.types + end. + + +%% ===================================================================== +%% @doc Creates an abstract map type assoc field. The result represents +%% "<code><em>Name</em> => <em>Value</em></code>". +%% +%% @see map_type_assoc_name/1 +%% @see map_type_assoc_value/1 +%% @see map_type/1 + +-record(map_type_assoc, {name :: syntaxTree(), value :: syntaxTree()}). + +%% `erl_parse' representation: +%% +%% {type, Pos, map_field_assoc, [Name, Value]} + +-spec map_type_assoc(syntaxTree(), syntaxTree()) -> syntaxTree(). + +map_type_assoc(Name, Value) -> + tree(map_type_assoc, #map_type_assoc{name = Name, value = Value}). + +revert_map_type_assoc(Node) -> + Pos = get_pos(Node), + Name = map_type_assoc_name(Node), + Value = map_type_assoc_value(Node), + {type, Pos, map_type_assoc, [Name, Value]}. + + +%% ===================================================================== +%% @doc Returns the name subtree of a `map_type_assoc' node. +%% +%% @see map_type_assoc/2 + +-spec map_type_assoc_name(syntaxTree()) -> syntaxTree(). + +map_type_assoc_name(Node) -> + case Node of + {type, _, map_field_assoc, [Name, _]} -> + Name; + _ -> + (data(Node))#map_type_assoc.name + end. + + +%% ===================================================================== +%% @doc Returns the value subtree of a `map_type_assoc' node. +%% +%% @see map_type_assoc/2 + +-spec map_type_assoc_value(syntaxTree()) -> syntaxTree(). + +map_type_assoc_value(Node) -> + case Node of + {type, _, map_field_assoc, [_, Value]} -> + Value; + _ -> + (data(Node))#map_type_assoc.value + end. + + +%% ===================================================================== +%% @doc Creates an abstract map type exact field. The result represents +%% "<code><em>Name</em> := <em>Value</em></code>". +%% +%% @see map_type_exact_name/1 +%% @see map_type_exact_value/1 +%% @see map_type/1 + +-record(map_type_exact, {name :: syntaxTree(), value :: syntaxTree()}). + +%% `erl_parse' representation: +%% +%% {type, Pos, map_field_exact, [Name, Value]} + +-spec map_type_exact(syntaxTree(), syntaxTree()) -> syntaxTree(). + +map_type_exact(Name, Value) -> + tree(map_type_exact, #map_type_exact{name = Name, value = Value}). + +revert_map_type_exact(Node) -> + Pos = get_pos(Node), + Name = map_type_exact_name(Node), + Value = map_type_exact_value(Node), + {type, Pos, map_type_exact, [Name, Value]}. + + +%% ===================================================================== +%% @doc Returns the name subtree of a `map_type_exact' node. +%% +%% @see map_type_exact/2 + +-spec map_type_exact_name(syntaxTree()) -> syntaxTree(). + +map_type_exact_name(Node) -> + case Node of + {type, _, map_field_exact, [Name, _]} -> + Name; + _ -> + (data(Node))#map_type_exact.name + end. + + +%% ===================================================================== +%% @doc Returns the value subtree of a `map_type_exact' node. +%% +%% @see map_type_exact/2 + +-spec map_type_exact_value(syntaxTree()) -> syntaxTree(). + +map_type_exact_value(Node) -> + case Node of + {type, _, map_field_exact, [_, Value]} -> + Value; + _ -> + (data(Node))#map_type_exact.value + end. + + +%% ===================================================================== +%% @equiv map_type(any_size) + +map_type() -> + map_type(any_size). + +%% ===================================================================== +%% @doc Creates an abstract type map. If `Fields' is +%% `[F1, ..., Fn]', the result represents +%% "<code>#{<em>F1</em>, ..., <em>Fn</em>}</code>"; +%% otherwise, if `Fields' is `any_size', it represents +%% "<code>map()</code>". +%% +%% @see map_type_fields/1 + +%% type(Node) = map_type +%% data(Node) = Fields +%% +%% Fields = any_size | [syntaxTree()] +%% +%% `erl_parse' representation: +%% +%% {type, Pos, map, [Field]} +%% {type, Pos, map, any} +%% +%% Field = erl_parse() + +-spec map_type('any_size' | [syntaxTree()]) -> syntaxTree(). + +map_type(Fields) -> + tree(map_type, Fields). + +revert_map_type(Node) -> + Pos = get_pos(Node), + {type, Pos, map, map_type_fields(Node)}. + + +%% ===================================================================== +%% @doc Returns the list of field subtrees of a `map_type' node. +%% If `Node' represents "<code>map()</code>", `any_size' is returned; +%% otherwise, if `Node' represents +%% "<code>#{<em>F1</em>, ..., <em>Fn</em>}</code>", +%% `[F1, ..., Fn]' is returned. +%% +%% @see map_type/0 +%% @see map_type/1 + +-spec map_type_fields(syntaxTree()) -> 'any_size' | [syntaxTree()]. + +map_type_fields(Node) -> + case unwrap(Node) of + {type, _, map, Fields} when is_list(Fields) -> + Fields; + {type, _, map, any} -> + any_size; + Node1 -> + data(Node1) + end. + + +%% ===================================================================== +%% @doc Creates an abstract range type. The result represents +%% "<code><em>Low</em> .. <em>High</em></code>". +%% +%% @see integer_range_type_low/1 +%% @see integer_range_type_high/1 + +-record(integer_range_type, {low :: syntaxTree(), + high :: syntaxTree()}). + +%% type(Node) = integer_range_type +%% data(Node) = #integer_range_type{low :: Low, high :: High} +%% +%% Low = syntaxTree() +%% High = syntaxTree() +%% +%% `erl_parse' representation: +%% +%% {type, Pos, range, [Low, High]} +%% +%% Low = erl_parse() +%% High = erl_parse() + +-spec integer_range_type(syntaxTree(), syntaxTree()) -> syntaxTree(). + +integer_range_type(Low, High) -> + tree(integer_range_type, #integer_range_type{low = Low, high = High}). + +revert_integer_range_type(Node) -> + Pos = get_pos(Node), + Low = integer_range_type_low(Node), + High = integer_range_type_high(Node), + {type, Pos, range, [Low, High]}. + + +%% ===================================================================== +%% @doc Returns the low limit of an `integer_range_type' node. +%% +%% @see integer_range_type/2 + +-spec integer_range_type_low(syntaxTree()) -> syntaxTree(). + +integer_range_type_low(Node) -> + case unwrap(Node) of + {type, _, range, [Low, _]} -> + Low; + Node1 -> + (data(Node1))#integer_range_type.low + end. + +%% ===================================================================== +%% @doc Returns the high limit of an `integer_range_type' node. +%% +%% @see integer_range_type/2 + +-spec integer_range_type_high(syntaxTree()) -> syntaxTree(). + +integer_range_type_high(Node) -> + case unwrap(Node) of + {type, _, range, [_, High]} -> + High; + Node1 -> + (data(Node1))#integer_range_type.high + end. + + +%% ===================================================================== +%% @doc Creates an abstract record type. If `Fields' is +%% `[F1, ..., Fn]', the result represents +%% "<code>#<em>Name</em>{<em>F1</em>, ..., <em>Fn</em>}</code>". +%% +%% @see record_type_name/1 +%% @see record_type_fields/1 + +-record(record_type, {name :: syntaxTree(), + fields :: [syntaxTree()]}). + +%% type(Node) = record_type +%% data(Node) = #record_type{name = Name, fields = Fields} +%% +%% Name = syntaxTree() +%% Fields = [syntaxTree()] +%% +%% `erl_parse' representation: +%% +%% {type, Pos, record, [Name|Fields]} +%% +%% Name = erl_parse() +%% Fields = [erl_parse()] + +-spec record_type(syntaxTree(), [syntaxTree()]) -> syntaxTree(). + +record_type(Name, Fields) -> + tree(record_type, #record_type{name = Name, fields = Fields}). + +revert_record_type(Node) -> + Pos = get_pos(Node), + Name = record_type_name(Node), + Fields = record_type_fields(Node), + {type, Pos, record, [Name | Fields]}. + + +%% ===================================================================== +%% @doc Returns the name subtree of a `record_type' node. +%% +%% @see record_type/2 + +-spec record_type_name(syntaxTree()) -> syntaxTree(). + +record_type_name(Node) -> + case unwrap(Node) of + {type, _, record, [Name|_]} -> + Name; + Node1 -> + (data(Node1))#record_type.name + end. + +%% ===================================================================== +%% @doc Returns the fields subtree of a `record_type' node. +%% +%% @see record_type/2 + +-spec record_type_fields(syntaxTree()) -> [syntaxTree()]. + +record_type_fields(Node) -> + case unwrap(Node) of + {type, _, record, [_|Fields]} -> + Fields; + Node1 -> + (data(Node1))#record_type.fields + end. + + +%% ===================================================================== +%% @doc Creates an abstract record type field. The result represents +%% "<code><em>Name</em> :: <em>Type</em></code>". +%% +%% @see record_type_field_name/1 +%% @see record_type_field_type/1 + +-record(record_type_field, {name :: syntaxTree(), + type :: syntaxTree()}). + +%% type(Node) = record_type_field +%% data(Node) = #record_type_field{name = Name, type = Type} +%% +%% Name = syntaxTree() +%% Type = syntaxTree() +%% +%% `erl_parse' representation: +%% +%% {type, Pos, field_type, [Name, Type]} +%% +%% Name = erl_parse() +%% Type = erl_parse() + +-spec record_type_field(syntaxTree(), syntaxTree()) -> syntaxTree(). + +record_type_field(Name, Type) -> + tree(record_type_field, #record_type_field{name = Name, type = Type}). + +revert_record_type_field(Node) -> + Pos = get_pos(Node), + Name = record_type_field_name(Node), + Type = record_type_field_type(Node), + {type, Pos, field_type, [Name, Type]}. + + +%% ===================================================================== +%% @doc Returns the name subtree of a `record_type_field' node. +%% +%% @see record_type_field/2 + +-spec record_type_field_name(syntaxTree()) -> syntaxTree(). + +record_type_field_name(Node) -> + case unwrap(Node) of + {type, _, field_type, [Name, _]} -> + Name; + Node1 -> + (data(Node1))#record_type_field.name + end. + +%% ===================================================================== +%% @doc Returns the type subtree of a `record_type_field' node. +%% +%% @see record_type_field/2 + +-spec record_type_field_type(syntaxTree()) -> syntaxTree(). + +record_type_field_type(Node) -> + case unwrap(Node) of + {type, _, field_type, [_, Type]} -> + Type; + Node1 -> + (data(Node1))#record_type_field.type + end. + + +%% ===================================================================== +%% @equiv tuple_type(any_size) + +tuple_type() -> + tuple_type(any_size). + +%% ===================================================================== +%% @doc Creates an abstract type tuple. If `Elements' is +%% `[T1, ..., Tn]', the result represents +%% "<code>{<em>T1</em>, ..., <em>Tn</em>}</code>"; +%% otherwise, if `Elements' is `any_size', it represents +%% "<code>tuple()</code>". +%% +%% @see tuple_type_elements/1 + +%% type(Node) = tuple_type +%% data(Node) = Elements +%% +%% Elements = any_size | [syntaxTree()] +%% +%% `erl_parse' representation: +%% +%% {type, Pos, tuple, [Element]} +%% {type, Pos, tuple, any} +%% +%% Element = erl_parse() + +-spec tuple_type(any_size | [syntaxTree()]) -> syntaxTree(). + +tuple_type(Elements) -> + tree(tuple_type, Elements). + +revert_tuple_type(Node) -> + Pos = get_pos(Node), + {type, Pos, tuple, tuple_type_elements(Node)}. + + +%% ===================================================================== +%% @doc Returns the list of type element subtrees of a `tuple_type' node. +%% If `Node' represents "<code>tuple()</code>", `any_size' is returned; +%% otherwise, if `Node' represents +%% "<code>{<em>T1</em>, ..., <em>Tn</em>}</code>", +%% `[T1, ..., Tn]' is returned. +%% +%% @see tuple_type/0 +%% @see tuple_type/1 + +-spec tuple_type_elements(syntaxTree()) -> 'any_size' | [syntaxTree()]. + +tuple_type_elements(Node) -> + case unwrap(Node) of + {type, _, tuple, Elements} when is_list(Elements) -> + Elements; + {type, _, tuple, any} -> + any_size; + Node1 -> + data(Node1) + end. + + +%% ===================================================================== +%% @doc Creates an abstract type union. If `Types' is +%% `[T1, ..., Tn]', the result represents +%% "<code><em>T1</em> | ... | <em>Tn</em></code>". +%% +%% @see type_union_types/1 + +%% type(Node) = type_union +%% data(Node) = Types +%% +%% Types = [syntaxTree()] +%% +%% `erl_parse' representation: +%% +%% {type, Pos, union, Elements} +%% +%% Elements = [erl_parse()] + +-spec type_union([syntaxTree()]) -> syntaxTree(). + +type_union(Types) -> + tree(type_union, Types). + +revert_type_union(Node) -> + Pos = get_pos(Node), + {type, Pos, union, type_union_types(Node)}. + + +%% ===================================================================== +%% @doc Returns the list of type subtrees of a `type_union' node. +%% +%% @see type_union/1 + +-spec type_union_types(syntaxTree()) -> [syntaxTree()]. + +type_union_types(Node) -> + case unwrap(Node) of + {type, _, union, Types} when is_list(Types) -> + Types; + Node1 -> + data(Node1) + end. + + +%% ===================================================================== +%% @doc Creates an abstract user type. If `Arguments' is +%% `[T1, ..., Tn]', the result represents +%% "<code><em>TypeName</em>(<em>T1</em>, ...<em>Tn</em>)</code>". +%% +%% @see type_application/2 +%% @see user_type_application_name/1 +%% @see user_type_application_arguments/1 + +-record(user_type_application, {type_name :: syntaxTree(), + arguments :: [syntaxTree()]}). + +%% type(Node) = user_type_application +%% data(Node) = #user_type_application{type_name :: TypeName, +%% arguments :: Arguments} +%% +%% TypeName = syntaxTree() +%% Arguments = [syntaxTree()] +%% +%% `erl_parse' representation: +%% +%% {user_type, Pos, Name, Arguments} +%% +%% Name = erl_parse() +%% Arguments = [Type] +%% Type = erl_parse() + +-spec user_type_application(syntaxTree(), [syntaxTree()]) -> syntaxTree(). + +user_type_application(TypeName, Arguments) -> + tree(user_type_application, + #user_type_application{type_name = TypeName, arguments = Arguments}). + +revert_user_type_application(Node) -> + Pos = get_pos(Node), + TypeName = user_type_application_name(Node), + Arguments = user_type_application_arguments(Node), + {user_type, Pos, atom_value(TypeName), Arguments}. + + +%% ===================================================================== +%% @doc Returns the type name subtree of a `user_type_application' node. +%% +%% @see user_type_application/2 + +-spec user_type_application_name(syntaxTree()) -> syntaxTree(). + +user_type_application_name(Node) -> + case unwrap(Node) of + {user_type, Pos, Name, _} -> + set_pos(atom(Name), Pos); + Node1 -> + (data(Node1))#user_type_application.type_name + end. + + +%% ===================================================================== +%% @doc Returns the arguments subtrees of a `user_type_application' node. +%% +%% @see user_type_application/2 + +-spec user_type_application_arguments(syntaxTree()) -> [syntaxTree()]. + +user_type_application_arguments(Node) -> + case unwrap(Node) of + {user_type, _, _, Arguments} -> + Arguments; + Node1 -> + (data(Node1))#user_type_application.arguments + end. + + +%% ===================================================================== +%% @doc Creates an abstract typed record field specification. The +%% result represents "<code><em>Field</em> :: <em>Type</em></code>". +%% +%% @see typed_record_field_body/1 +%% @see typed_record_field_type/1 + +-record(typed_record_field, {body :: syntaxTree(), + type :: syntaxTree()}). + +%% type(Node) = typed_record_field +%% data(Node) = #typed_record_field{body :: Field +%% type = Type} +%% +%% Field = syntaxTree() +%% Type = syntaxTree() + +-spec typed_record_field(syntaxTree(), syntaxTree()) -> syntaxTree(). + +typed_record_field(Field, Type) -> + tree(typed_record_field, + #typed_record_field{body = Field, type = Type}). + + +%% ===================================================================== +%% @doc Returns the field subtree of a `typed_record_field' node. +%% +%% @see typed_record_field/2 + +-spec typed_record_field_body(syntaxTree()) -> syntaxTree(). + +typed_record_field_body(Node) -> + (data(Node))#typed_record_field.body. + + +%% ===================================================================== +%% @doc Returns the type subtree of a `typed_record_field' node. +%% +%% @see typed_record_field/2 + +-spec typed_record_field_type(syntaxTree()) -> syntaxTree(). + +typed_record_field_type(Node) -> + (data(Node))#typed_record_field.type. + %% ===================================================================== %% @doc Creates an abstract list comprehension. If `Body' is @@ -6168,6 +7411,8 @@ revert(Node) -> revert_root(Node) -> case type(Node) of + annotated_type -> + revert_annotated_type(Node); application -> revert_application(Node); atom -> @@ -6182,6 +7427,8 @@ revert_root(Node) -> revert_binary_field(Node); binary_generator -> revert_binary_generator(Node); + bitstring_type -> + revert_bitstring_type(Node); block_expr -> revert_block_expr(Node); case_expr -> @@ -6194,6 +7441,10 @@ revert_root(Node) -> revert_clause(Node); cond_expr -> revert_cond_expr(Node); + constrained_function_type -> + revert_constrained_function_type(Node); + constraint -> + revert_constraint(Node); eof_marker -> revert_eof_marker(Node); error_marker -> @@ -6202,8 +7453,12 @@ revert_root(Node) -> revert_float(Node); fun_expr -> revert_fun_expr(Node); + fun_type -> + revert_fun_type(Node); function -> revert_function(Node); + function_type -> + revert_function_type(Node); generator -> revert_generator(Node); if_expr -> @@ -6214,6 +7469,8 @@ revert_root(Node) -> revert_infix_expr(Node); integer -> revert_integer(Node); + integer_range_type -> + revert_integer_range_type(Node); list -> revert_list(Node); list_comp -> @@ -6224,6 +7481,12 @@ revert_root(Node) -> revert_map_field_assoc(Node); map_field_exact -> revert_map_field_exact(Node); + map_type -> + revert_map_type(Node); + map_type_assoc -> + revert_map_type_assoc(Node); + map_type_exact -> + revert_map_type_exact(Node); match_expr -> revert_match_expr(Node); module_qualifier -> @@ -6244,14 +7507,26 @@ revert_root(Node) -> revert_record_expr(Node); record_index_expr -> revert_record_index_expr(Node); + record_type -> + revert_record_type(Node); + record_type_field -> + revert_record_type_field(Node); + type_application -> + revert_type_application(Node); + type_union -> + revert_type_union(Node); string -> revert_string(Node); try_expr -> revert_try_expr(Node); tuple -> revert_tuple(Node); + tuple_type -> + revert_tuple_type(Node); underscore -> revert_underscore(Node); + user_type_application -> + revert_user_type_application(Node); variable -> revert_variable(Node); warning_marker -> @@ -6379,6 +7654,9 @@ subtrees(T) -> []; false -> case type(T) of + annotated_type -> + [[annotated_type_name(T)], + [annotated_type_body(T)]]; application -> [[application_operator(T)], application_arguments(T)]; @@ -6407,6 +7685,9 @@ subtrees(T) -> binary_generator -> [[binary_generator_pattern(T)], [binary_generator_body(T)]]; + bitstring_type -> + [[bitstring_type_m(T)], + [bitstring_type_n(T)]]; block_expr -> [block_expr_body(T)]; case_expr -> @@ -6429,14 +7710,30 @@ subtrees(T) -> [cond_expr_clauses(T)]; conjunction -> [conjunction_body(T)]; + constrained_function_type -> + C = constrained_function_type_argument(T), + [[constrained_function_type_body(T)], + conjunction_body(C)]; + constraint -> + [[constraint_argument(T)], + constraint_body(T)]; disjunction -> [disjunction_body(T)]; form_list -> [form_list_elements(T)]; fun_expr -> [fun_expr_clauses(T)]; + fun_type -> + []; function -> [[function_name(T)], function_clauses(T)]; + function_type -> + case function_type_arguments(T) of + any_arity -> + [[function_type_return(T)]]; + As -> + [As,[function_type_return(T)]] + end; generator -> [[generator_pattern(T)], [generator_body(T)]]; if_expr -> @@ -6447,6 +7744,9 @@ subtrees(T) -> [[infix_expr_left(T)], [infix_expr_operator(T)], [infix_expr_right(T)]]; + integer_range_type -> + [[integer_range_type_low(T)], + [integer_range_type_high(T)]]; list -> case list_suffix(T) of none -> @@ -6476,6 +7776,14 @@ subtrees(T) -> map_field_exact -> [[map_field_exact_name(T)], [map_field_exact_value(T)]]; + map_type -> + [map_type_fields(T)]; + map_type_assoc -> + [[map_type_assoc_name(T)], + [map_type_assoc_value(T)]]; + map_type_exact -> + [[map_type_exact_name(T)], + [map_type_exact_value(T)]]; match_expr -> [[match_expr_pattern(T)], [match_expr_body(T)]]; @@ -6523,6 +7831,12 @@ subtrees(T) -> record_index_expr -> [[record_index_expr_type(T)], [record_index_expr_field(T)]]; + record_type -> + [[record_type_name(T)], + record_type_fields(T)]; + record_type_field -> + [[record_type_field_name(T)], + [record_type_field_type(T)]]; size_qualifier -> [[size_qualifier_body(T)], [size_qualifier_argument(T)]]; @@ -6532,7 +7846,20 @@ subtrees(T) -> try_expr_handlers(T), try_expr_after(T)]; tuple -> - [tuple_elements(T)] + [tuple_elements(T)]; + tuple_type -> + [tuple_type_elements(T)]; + type_application -> + [[type_application_name(T)], + type_application_arguments(T)]; + type_union -> + [type_union_types(T)]; + typed_record_field -> + [[typed_record_field_body(T)], + [typed_record_field_type(T)]]; + user_type_application -> + [[user_type_application_name(T)], + user_type_application_arguments(T)] end end. @@ -6576,6 +7903,7 @@ update_tree(Node, Groups) -> -spec make_tree(atom(), [[syntaxTree()]]) -> syntaxTree(). +make_tree(annotated_type, [[N], [T]]) -> annotated_type(N, T); make_tree(application, [[F], A]) -> application(F, A); make_tree(arity_qualifier, [[N], [A]]) -> arity_qualifier(N, A); make_tree(attribute, [[N]]) -> attribute(N); @@ -6585,6 +7913,7 @@ make_tree(binary_comp, [[T], B]) -> binary_comp(T, B); make_tree(binary_field, [[B]]) -> binary_field(B); make_tree(binary_field, [[B], Ts]) -> binary_field(B, Ts); make_tree(binary_generator, [[P], [E]]) -> binary_generator(P, E); +make_tree(bitstring_type, [[M], [N]]) -> bitstring_type(M, N); make_tree(block_expr, [B]) -> block_expr(B); make_tree(case_expr, [[A], C]) -> case_expr(A, C); make_tree(catch_expr, [[B]]) -> catch_expr(B); @@ -6593,14 +7922,20 @@ make_tree(clause, [P, B]) -> clause(P, none, B); make_tree(clause, [P, [G], B]) -> clause(P, G, B); make_tree(cond_expr, [C]) -> cond_expr(C); make_tree(conjunction, [E]) -> conjunction(E); +make_tree(constrained_function_type, [[F],C]) -> + constrained_function_type(F, C); +make_tree(constraint, [[N], Ts]) -> constraint(N, Ts); make_tree(disjunction, [E]) -> disjunction(E); make_tree(form_list, [E]) -> form_list(E); make_tree(fun_expr, [C]) -> fun_expr(C); make_tree(function, [[N], C]) -> function(N, C); +make_tree(function_type, [[T]]) -> function_type(T); +make_tree(function_type, [A,[T]]) -> function_type(A, T); make_tree(generator, [[P], [E]]) -> generator(P, E); make_tree(if_expr, [C]) -> if_expr(C); make_tree(implicit_fun, [[N]]) -> implicit_fun(N); make_tree(infix_expr, [[L], [F], [R]]) -> infix_expr(L, F, R); +make_tree(integer_range_type, [[L],[H]]) -> integer_range_type(L, H); make_tree(list, [P]) -> list(P); make_tree(list, [P, [S]]) -> list(P, S); make_tree(list_comp, [[T], B]) -> list_comp(T, B); @@ -6610,6 +7945,9 @@ make_tree(map_expr, [Fs]) -> map_expr(Fs); make_tree(map_expr, [[E], Fs]) -> map_expr(E, Fs); make_tree(map_field_assoc, [[K], [V]]) -> map_field_assoc(K, V); make_tree(map_field_exact, [[K], [V]]) -> map_field_exact(K, V); +make_tree(map_type, [Fs]) -> map_type(Fs); +make_tree(map_type_assoc, [[N],[V]]) -> map_type_assoc(N, V); +make_tree(map_type_exact, [[N],[V]]) -> map_type_exact(N, V); make_tree(match_expr, [[P], [E]]) -> match_expr(P, E); make_tree(named_fun_expr, [[N], C]) -> named_fun_expr(N, C); make_tree(module_qualifier, [[M], [N]]) -> module_qualifier(M, N); @@ -6625,9 +7963,16 @@ make_tree(record_field, [[N]]) -> record_field(N); make_tree(record_field, [[N], [E]]) -> record_field(N, E); make_tree(record_index_expr, [[T], [F]]) -> record_index_expr(T, F); +make_tree(record_type, [[N],Fs]) -> record_type(N, Fs); +make_tree(record_type_field, [[N],[T]]) -> record_type_field(N, T); make_tree(size_qualifier, [[N], [A]]) -> size_qualifier(N, A); make_tree(try_expr, [B, C, H, A]) -> try_expr(B, C, H, A); -make_tree(tuple, [E]) -> tuple(E). +make_tree(tuple, [E]) -> tuple(E); +make_tree(tuple_type, [Es]) -> tuple_type(Es); +make_tree(type_application, [[N], Ts]) -> type_application(N, Ts); +make_tree(type_union, [Es]) -> type_union(Es); +make_tree(typed_record_field, [[F],[T]]) -> typed_record_field(F, T); +make_tree(user_type_application, [[N], Ts]) -> user_type_application(N, Ts). %% ===================================================================== @@ -6954,6 +8299,7 @@ fold_variable_names(Vs) -> unfold_variable_names(Vs, Pos) -> [set_pos(variable(V), Pos) || V <- Vs]. + %% Support functions for transforming lists of record field definitions. %% %% There is no unique representation for field definitions in the @@ -6968,6 +8314,16 @@ fold_record_fields(Fs) -> [fold_record_field(F) || F <- Fs]. fold_record_field(F) -> + case type(F) of + typed_record_field -> + Field = fold_record_field_1(typed_record_field_body(F)), + Type = typed_record_field_type(F), + {typed_record_field, Field, Type}; + record_field -> + fold_record_field_1(F) + end. + +fold_record_field_1(F) -> Pos = get_pos(F), Name = record_field_name(F), case record_field_value(F) of @@ -6980,10 +8336,11 @@ fold_record_field(F) -> unfold_record_fields(Fs) -> [unfold_record_field(F) || F <- Fs]. -unfold_record_field({typed_record_field, Field, _Type}) -> - unfold_record_field_1(Field); +unfold_record_field({typed_record_field, Field, Type}) -> + F = unfold_record_field_1(Field), + set_pos(typed_record_field(F, Type), get_pos(F)); unfold_record_field(Field) -> - unfold_record_field_1(Field). + unfold_record_field_1(Field). unfold_record_field_1({record_field, Pos, Name}) -> set_pos(record_field(Name), Pos); @@ -7010,5 +8367,4 @@ unfold_binary_field_type({Type, Size}, Pos) -> unfold_binary_field_type(Type, Pos) -> set_pos(atom(Type), Pos). - %% ===================================================================== diff --git a/lib/syntax_tools/src/erl_syntax_lib.erl b/lib/syntax_tools/src/erl_syntax_lib.erl index 58c4cc5244..9815559779 100644 --- a/lib/syntax_tools/src/erl_syntax_lib.erl +++ b/lib/syntax_tools/src/erl_syntax_lib.erl @@ -36,6 +36,7 @@ analyze_import_attribute/1, analyze_module_attribute/1, analyze_record_attribute/1, analyze_record_expr/1, analyze_record_field/1, analyze_wild_attribute/1, annotate_bindings/1, + analyze_type_application/1, analyze_type_name/1, annotate_bindings/2, fold/3, fold_subtrees/3, foldl_listlist/3, function_name_expansions/1, is_fail_expr/1, limit/2, limit/3, map/2, map_subtrees/2, mapfold/3, mapfold_subtrees/3, @@ -1029,14 +1030,17 @@ is_fail_expr(E) -> %% <dt>`{records, Records}'</dt> %% <dd><ul> %% <li>`Records = [{atom(), Fields}]'</li> -%% <li>`Fields = [{atom(), Default}]'</li> +%% <li>`Fields = [{atom(), {Default, Type}}]'</li> %% <li>`Default = none | syntaxTree()'</li> +%% <li>`Type = none | syntaxTree()'</li> %% </ul> %% `Records' is a list of pairs representing the names %% and corresponding field declarations of all record declaration %% attributes occurring in `Forms'. For fields declared %% without a default value, the corresponding value for -%% `Default' is the atom `none' (cf. +%% `Default' is the atom `none'. Similarly, for fields declared +%% without a type, the corresponding value for `Type' is the +%% atom `none' (cf. %% `analyze_record_attribute/1'). We do not guarantee %% that each record name occurs at most once in the list. The %% order of listing is not defined.</dd> @@ -1055,9 +1059,9 @@ is_fail_expr(E) -> %% %% @see analyze_wild_attribute/1 %% @see analyze_export_attribute/1 +%% @see analyze_function/1 %% @see analyze_import_attribute/1 %% @see analyze_record_attribute/1 -%% @see analyze_function/1 %% @see erl_syntax:error_marker_info/1 %% @see erl_syntax:warning_marker_info/1 @@ -1102,8 +1106,6 @@ collect_attribute(file, _, Info) -> Info; collect_attribute(record, {R, L}, Info) -> finfo_add_record(R, L, Info); -collect_attribute(spec, _, Info) -> - Info; collect_attribute(_, {N, V}, Info) -> finfo_add_attribute(N, V, Info). @@ -1114,12 +1116,15 @@ collect_attribute(_, {N, V}, Info) -> module_imports = [] :: [atom()], imports = [] :: [{atom(), [{atom(), arity()}]}], attributes = [] :: [{atom(), term()}], - records = [] :: [{atom(), [{atom(), field_default()}]}], + records = [] :: [{atom(), [{atom(), + field_default(), + field_type()}]}], errors = [] :: [term()], warnings = [] :: [term()], functions = [] :: [{atom(), arity()}]}). -type field_default() :: 'none' | erl_syntax:syntaxTree(). +-type field_type() :: 'none' | erl_syntax:syntaxTree(). new_finfo() -> #forms{}. @@ -1326,8 +1331,6 @@ analyze_attribute(file, Node) -> analyze_file_attribute(Node); analyze_attribute(record, Node) -> analyze_record_attribute(Node); -analyze_attribute(spec, _Node) -> - spec; analyze_attribute(_, Node) -> %% A "wild" attribute (such as e.g. a `compile' directive). analyze_wild_attribute(Node). @@ -1523,6 +1526,55 @@ analyze_import_attribute(Node) -> %% ===================================================================== +%% @spec analyze_type_name(Node::syntaxTree()) -> TypeName +%% +%% TypeName = atom() +%% | {atom(), integer()} +%% | {ModuleName, {atom(), integer()}} +%% ModuleName = atom() +%% +%% @doc Returns the type name represented by a syntax tree. If +%% `Node' represents a type name, such as +%% "`foo/1'" or "`bloggs:fred/2'", a uniform +%% representation of that name is returned. +%% +%% The evaluation throws `syntax_error' if +%% `Node' does not represent a well-formed type name. + +-spec analyze_type_name(erl_syntax:syntaxTree()) -> typeName(). + +analyze_type_name(Node) -> + case erl_syntax:type(Node) of + atom -> + erl_syntax:atom_value(Node); + arity_qualifier -> + A = erl_syntax:arity_qualifier_argument(Node), + N = erl_syntax:arity_qualifier_body(Node), + + case ((erl_syntax:type(A) =:= integer) + and (erl_syntax:type(N) =:= atom)) + of + true -> + append_arity(erl_syntax:integer_value(A), + erl_syntax:atom_value(N)); + _ -> + throw(syntax_error) + end; + module_qualifier -> + M = erl_syntax:module_qualifier_argument(Node), + case erl_syntax:type(M) of + atom -> + N = erl_syntax:module_qualifier_body(Node), + N1 = analyze_type_name(N), + {erl_syntax:atom_value(M), N1}; + _ -> + throw(syntax_error) + end; + _ -> + throw(syntax_error) + end. + +%% ===================================================================== %% @spec analyze_wild_attribute(Node::syntaxTree()) -> {atom(), term()} %% %% @doc Returns the name and value of a "wild" attribute. The result is @@ -1547,6 +1599,7 @@ analyze_wild_attribute(Node) -> atom -> case erl_syntax:attribute_arguments(Node) of [V] -> + %% Note: does not work well with macros. case catch {ok, erl_syntax:concrete(V)} of {ok, Val} -> {erl_syntax:atom_value(N), Val}; @@ -1568,17 +1621,22 @@ analyze_wild_attribute(Node) -> %% @spec analyze_record_attribute(Node::syntaxTree()) -> %% {atom(), Fields} %% -%% Fields = [{atom(), none | syntaxTree()}] +%% Fields = [{atom(), {Default, Type}}] +%% Default = none | syntaxTree() +%% Type = none | syntaxTree() %% %% @doc Returns the name and the list of fields of a record declaration %% attribute. The result is a pair `{Name, Fields}', if %% `Node' represents "`-record(Name, {...}).'", %% where `Fields' is a list of pairs `{Label, -%% Default}' for each field "`Label'" or "`Label = -%% <em>Default</em>'" in the declaration, listed in left-to-right +%% {Default, Type}}' for each field "`Label'", "`Label = +%% <em>Default</em>'", "`Label :: <em>Type</em>'", or +%% "`Label = <em>Default</em> :: <em>Type</em>'" in the declaration, +%% listed in left-to-right %% order. If the field has no default-value declaration, the value for -%% `Default' will be the atom `none'. We do not -%% guarantee that each label occurs at most one in the list. +%% `Default' will be the atom `none'. If the field has no type declaration, +%% the value for `Type' will be the atom `none'. We do not +%% guarantee that each label occurs at most once in the list. %% %% The evaluation throws `syntax_error' if %% `Node' does not represent a well-formed record declaration @@ -1587,7 +1645,9 @@ analyze_wild_attribute(Node) -> %% @see analyze_attribute/1 %% @see analyze_record_field/1 --type fields() :: [{atom(), 'none' | erl_syntax:syntaxTree()}]. +-type field() :: {atom(), {field_default(), field_type()}}. + +-type fields() :: [field()]. -spec analyze_record_attribute(erl_syntax:syntaxTree()) -> {atom(), fields()}. @@ -1625,7 +1685,7 @@ analyze_record_attribute_tuple(Node) -> %% {atom(), Info} | atom() %% %% Info = {atom(), [{atom(), Value}]} | {atom(), atom()} | atom() -%% Value = none | syntaxTree() +%% Value = syntaxTree() %% %% @doc Returns the record name and field name/names of a record %% expression. If `Node' has type `record_expr', @@ -1645,9 +1705,9 @@ analyze_record_attribute_tuple(Node) -> %% %% For a `record_expr' node, `Info' represents %% the record name and the list of descriptors for the involved fields, -%% listed in the order they appear. (See -%% `analyze_record_field/1' for details on the field -%% descriptors). For a `record_access' node, +%% listed in the order they appear. A field descriptor is a pair +%% `{Label, Value}', if `Node' represents "`Label = <em>Value</em>'". +%% For a `record_access' node, %% `Info' represents the record name and the field name. For a %% `record_index_expr' node, `Info' represents the %% record name and the name field name. @@ -1659,7 +1719,7 @@ analyze_record_attribute_tuple(Node) -> %% @see analyze_record_attribute/1 %% @see analyze_record_field/1 --type info() :: {atom(), [{atom(), 'none' | erl_syntax:syntaxTree()}]} +-type info() :: {atom(), [{atom(), erl_syntax:syntaxTree()}]} | {atom(), atom()} | atom(). -spec analyze_record_expr(erl_syntax:syntaxTree()) -> {atom(), info()} | atom(). @@ -1670,8 +1730,9 @@ analyze_record_expr(Node) -> A = erl_syntax:record_expr_type(Node), case erl_syntax:type(A) of atom -> - Fs = [analyze_record_field(F) - || F <- erl_syntax:record_expr_fields(Node)], + Fs0 = [analyze_record_field(F) + || F <- erl_syntax:record_expr_fields(Node)], + Fs = [{N, D} || {N, {D, _T}} <- Fs0], {record_expr, {erl_syntax:atom_value(A), Fs}}; _ -> throw(syntax_error) @@ -1713,16 +1774,19 @@ analyze_record_expr(Node) -> end. %% ===================================================================== -%% @spec analyze_record_field(Node::syntaxTree()) -> {atom(), Value} +%% @spec analyze_record_field(Node::syntaxTree()) -> {atom(), {Default, Type}} %% -%% Value = none | syntaxTree() +%% Default = none | syntaxTree() +%% Type = none | syntaxTree() %% -%% @doc Returns the label and value-expression of a record field -%% specifier. The result is a pair `{Label, Value}', if -%% `Node' represents "`Label = <em>Value</em>'" or -%% "`Label'", where in the first case, `Value' is -%% a syntax tree, and in the second case `Value' is -%% `none'. +%% @doc Returns the label, value-expression, and type of a record field +%% specifier. The result is a pair `{Label, {Default, Type}}', if +%% `Node' represents "`Label'", "`Label = <em>Default</em>'", +%% "`Label :: <em>Type</em>'", or +%% "`Label = <em>Default</em> :: <em>Type</em>'". +%% If the field has no value-expression, the value for +%% `Default' will be the atom `none'. If the field has no type, +%% the value for `Type' will be the atom `none'. %% %% The evaluation throws `syntax_error' if %% `Node' does not represent a well-formed record field @@ -1731,8 +1795,7 @@ analyze_record_expr(Node) -> %% @see analyze_record_attribute/1 %% @see analyze_record_expr/1 --spec analyze_record_field(erl_syntax:syntaxTree()) -> - {atom(), 'none' | erl_syntax:syntaxTree()}. +-spec analyze_record_field(erl_syntax:syntaxTree()) -> field(). analyze_record_field(Node) -> case erl_syntax:type(Node) of @@ -1741,10 +1804,15 @@ analyze_record_field(Node) -> case erl_syntax:type(A) of atom -> T = erl_syntax:record_field_value(Node), - {erl_syntax:atom_value(A), T}; + {erl_syntax:atom_value(A), {T, none}}; _ -> throw(syntax_error) end; + typed_record_field -> + F = erl_syntax:typed_record_field_body(Node), + {N, {V, _none}} = analyze_record_field(F), + T = erl_syntax:typed_record_field_type(Node), + {N, {V, T}}; _ -> throw(syntax_error) end. @@ -1887,6 +1955,55 @@ analyze_application(Node) -> %% ===================================================================== +%% @spec analyze_type_application(Node::syntaxTree()) -> typeName() +%% +%% TypeName = {atom(), integer()} +%% | {ModuleName, {atom(), integer()}} +%% ModuleName = atom() +%% +%% @doc Returns the name of a used type. The result is a +%% representation of the name of the used pre-defined or local type `N/A', +%% if `Node' represents a local (user) type application +%% "`<em>N</em>(<em>T_1</em>, ..., <em>T_A</em>)'", or +%% a representation of the name of the used remote type `M:N/A' +%% if `Node' represents a remote user type application +%% "`<em>M</em>:<em>N</em>(<em>T_1</em>, ..., <em>T_A</em>)'". +%% +%% The evaluation throws `syntax_error' if `Node' does not represent a +%% well-formed (user) type application expression. +%% +%% @see analyze_type_name/1 + +-type typeName() :: atom() | {module(), atom(), arity()} | {atom(), arity()}. + +-spec analyze_type_application(erl_syntax:syntaxTree()) -> typeName(). + +analyze_type_application(Node) -> + case erl_syntax:type(Node) of + type_application -> + A = length(erl_syntax:type_application_arguments(Node)), + N = erl_syntax:type_application_name(Node), + case catch {ok, analyze_type_name(N)} of + {ok, TypeName} -> + append_arity(A, TypeName); + _ -> + throw(syntax_error) + end; + user_type_application -> + A = length(erl_syntax:user_type_application_arguments(Node)), + N = erl_syntax:user_type_application_name(Node), + case catch {ok, analyze_type_name(N)} of + {ok, TypeName} -> + append_arity(A, TypeName); + _ -> + throw(syntax_error) + end; + _ -> + throw(syntax_error) + end. + + +%% ===================================================================== %% @spec function_name_expansions(Names::[Name]) -> [{ShortName, Name}] %% %% Name = ShortName | {atom(), Name} diff --git a/lib/syntax_tools/src/igor.erl b/lib/syntax_tools/src/igor.erl index 4557678f9d..1d14bd7c3a 100644 --- a/lib/syntax_tools/src/igor.erl +++ b/lib/syntax_tools/src/igor.erl @@ -2612,6 +2612,19 @@ get_module_info(Forms) -> fold_record_fields(Rs) -> [{N, [fold_record_field(F) || F <- Fs]} || {N, Fs} <- Rs]. +fold_record_field({_Name, {none, _Type}} = None) -> + None; +fold_record_field({Name, {F, Type}}) -> + case erl_syntax:is_literal(F) of + true -> + {Name, {value, erl_syntax:concrete(F)}, Type}; + false -> + %% The default value for the field is not a constant, so we + %% represent it by a hash value instead. (We don't want to + %% do this in the general case.) + {Name, {hash, erlang:phash(F, 16#ffffff)}, Type} + end; +%% The following two clauses handle code before Erlang/OTP 19.0. fold_record_field({_Name, none} = None) -> None; fold_record_field({Name, F}) -> diff --git a/lib/syntax_tools/test/syntax_tools_SUITE.erl b/lib/syntax_tools/test/syntax_tools_SUITE.erl index eb52cce6af..b935d42bb7 100644 --- a/lib/syntax_tools/test/syntax_tools_SUITE.erl +++ b/lib/syntax_tools/test/syntax_tools_SUITE.erl @@ -61,7 +61,7 @@ appup_test(Config) when is_list(Config) -> smoke_test(Config) when is_list(Config) -> Dog = ?t:timetrap(?t:minutes(12)), Wc = filename:join([code:lib_dir(),"*","src","*.erl"]), - Fs = filelib:wildcard(Wc), + Fs = filelib:wildcard(Wc) ++ test_files(Config), io:format("~p files\n", [length(Fs)]), case p_run(fun smoke_test_file/1, Fs) of 0 -> ok; @@ -93,7 +93,7 @@ print_error_markers(F, File) -> revert(Config) when is_list(Config) -> Dog = ?t:timetrap(?t:minutes(12)), Wc = filename:join([code:lib_dir("stdlib"),"src","*.erl"]), - Fs = filelib:wildcard(Wc), + Fs = filelib:wildcard(Wc) ++ test_files(Config), Path = [filename:join(code:lib_dir(stdlib), "include"), filename:join(code:lib_dir(kernel), "include")], io:format("~p files\n", [length(Fs)]), @@ -203,18 +203,25 @@ t_erl_parse_type(Config) when is_list(Config) -> t_epp_dodger(Config) when is_list(Config) -> DataDir = ?config(data_dir, Config), PrivDir = ?config(priv_dir, Config), - Filenames = ["syntax_tools_SUITE_test_module.erl", - "syntax_tools_test.erl"], + Filenames = test_files(), ok = test_epp_dodger(Filenames,DataDir,PrivDir), ok. t_comment_scan(Config) when is_list(Config) -> DataDir = ?config(data_dir, Config), - Filenames = ["syntax_tools_SUITE_test_module.erl", - "syntax_tools_test.erl"], + Filenames = test_files(), ok = test_comment_scan(Filenames,DataDir), ok. +test_files(Config) -> + DataDir = ?config(data_dir, Config), + [ filename:join(DataDir,Filename) || Filename <- test_files() ]. + +test_files() -> + ["syntax_tools_SUITE_test_module.erl", + "syntax_tools_test.erl", + "type_specs.erl"]. + t_igor(Config) when is_list(Config) -> DataDir = ?config(data_dir, Config), PrivDir = ?config(priv_dir, Config), @@ -222,6 +229,12 @@ t_igor(Config) when is_list(Config) -> FileM2 = filename:join(DataDir,"m2.erl"), ["m.erl",_]=R = igor:merge(m,[FileM1,FileM2],[{outdir,PrivDir}]), io:format("igor:merge/3 = ~p~n", [R]), + + FileTypeSpecs = filename:join(DataDir,"igor_type_specs.erl"), + Empty = filename:join(DataDir,"empty.erl"), + ["n.erl",_]=R2 = igor:merge(n,[FileTypeSpecs,Empty],[{outdir,PrivDir}]), + io:format("igor:merge/3 = ~p~n", [R2]), + ok. test_comment_scan([],_) -> ok; diff --git a/lib/syntax_tools/test/syntax_tools_SUITE_data/empty.erl b/lib/syntax_tools/test/syntax_tools_SUITE_data/empty.erl new file mode 100644 index 0000000000..877ff66013 --- /dev/null +++ b/lib/syntax_tools/test/syntax_tools_SUITE_data/empty.erl @@ -0,0 +1 @@ +-module(empty). diff --git a/lib/syntax_tools/test/syntax_tools_SUITE_data/igor_type_specs.erl b/lib/syntax_tools/test/syntax_tools_SUITE_data/igor_type_specs.erl new file mode 100644 index 0000000000..5a156c7fa3 --- /dev/null +++ b/lib/syntax_tools/test/syntax_tools_SUITE_data/igor_type_specs.erl @@ -0,0 +1,80 @@ +%% Same as ./type_specs.erl, but without macros. +-module(igor_type_specs). + +-include_lib("syntax_tools/include/merl.hrl"). + +-export([f/1, b/0, c/2]). + +-export_type([t/0, ot/2, ff2/0]). + +-type aa() :: _. + +-type t() :: integer(). + +-type ff(A) :: ot(A, A) | tuple() | 1..3 | map() | {}. +-type ff1() :: ff(bin()) | foo:bar(). +-type ff2() :: {list(), [_], list(integer()), + nonempty_list(), nonempty_list(atom()), [ff1(), ...], + nil(), []}. +-type bin() :: <<>> + | <<_:(+4)>> + | <<_:_*8>> + | <<_:12, _:_*16>> + | <<_:16, _:_*(0)>> % same as "<<_:16>>" + | <<_:16, _:_*(+0)>>. + +-callback cb() -> t(). + +-optional_callbacks([cb/0]). + +-opaque ot(A, B) :: {A, B}. + +-type f1() :: fun(). +-type f2() :: fun((...) -> t()). +-type f3() :: fun(() -> t()). +-type f4() :: fun((t(), t()) -> t()). + +-wild(attribute). + +-record(par, {a :: undefined | igor_type_specs}). + +-record(r0, {}). + +-record(r, + {f1 :: integer(), + f2 = a :: atom(), + f3 :: fun(), + f4 = 7}). + +-type r0() :: #r0{} | #r{f1 :: 3} | #r{f1 :: 3, f2 :: 'sju'}. + +-type m1() :: #{}. +-type m2() :: #{a => m1(), b => #{} | fy:m2()}. +-type b1() :: B1 :: binary() | (BitString :: bitstring()). + +-define(PAIR(A, B), {(A), (B)}). + +-spec igor_type_specs:f({r0(), r0()}) -> {t(), t()}. + +f({R, R}) -> + _ = "igor_type_specs" ++ "hej", + _ = <<"foo">>, + _ = R#r.f1, + _ = R#r{f1 = 17, f2 = b}, + {1, 1}. + +-spec igor_type_specs:b() -> integer() | fun(). + +b() -> + case foo:bar() of + #{a := 2} -> 19 + end. + +-spec c(Atom :: atom(), Integer :: integer()) -> {atom(), integer()}; + (X, Y) -> {atom(), float()} when X :: atom(), + is_subtype(Y, float()); + (integer(), atom()) -> {integer(), atom()}. + +c(A, B) -> + _ = integer, + {A, B}. diff --git a/lib/syntax_tools/test/syntax_tools_SUITE_data/type_specs.erl b/lib/syntax_tools/test/syntax_tools_SUITE_data/type_specs.erl new file mode 100644 index 0000000000..5621d3a293 --- /dev/null +++ b/lib/syntax_tools/test/syntax_tools_SUITE_data/type_specs.erl @@ -0,0 +1,84 @@ +-module(type_specs). + +-include_lib("syntax_tools/include/merl.hrl"). + +-export([f/1, b/0, c/2]). + +-export_type([t/0, ot/2, ff2/0]). + +-type aa() :: _. + +-type t() :: integer(). + +-type ff(A) :: ot(A, A) | tuple() | 1..3 | map() | {}. +-type ff1() :: ff(bin()) | foo:bar(). +-type ff2() :: {list(), [_], list(integer()), + nonempty_list(), nonempty_list(atom()), [ff1(), ...], + nil(), []}. +-type bin() :: <<>> + | <<_:(+4)>> + | <<_:_*8>> + | <<_:12, _:_*16>> + | <<_:16, _:_*(0)>> % same as "<<_:16>>" + | <<_:16, _:_*(+0)>>. + +-callback cb() -> t(). + +-optional_callbacks([cb/0]). + +-opaque ot(A, B) :: {A, B}. + +-type f1() :: fun(). +-type f2() :: fun((...) -> t()). +-type f3() :: fun(() -> t()). +-type f4() :: fun((t(), t()) -> t()). + +-wild(attribute). + +-record(par, {a :: undefined | ?MODULE}). + +-record(r0, {}). + +-record(r, + {f1 :: integer(), + f2 = a :: atom(), + f3 :: fun(), + f4 = 7}). + +-type r0() :: #r0{} | #r{f1 :: 3} | #r{f1 :: 3, f2 :: 'sju'}. + +-type m1() :: #{} | map(). +-type m2() :: #{a := m1(), b => #{} | fy:m2()}. +-type m3() :: #{...}. +-type m4() :: #{_ => _, ...}. +-type m5() :: #{any() => any(), ...}. % Currently printed as `#{..., ...}'. +-type b1() :: B1 :: binary() | (BitString :: bitstring()). + +-define(PAIR(A, B), {(A), (B)}). + +-spec ?MODULE:f(?PAIR(r0(), r0())) -> ?PAIR(t(), t()). + +f({R, R}) -> + _ = ?MODULE_STRING ++ "hej", + _ = <<"foo">>, + _ = R#r.f1, + _ = R#r{f1 = 17, f2 = b}, + {1, 1}. + +-spec ?MODULE:b() -> integer() | fun(). + +b() -> + case foo:bar() of + #{a := 2} -> 19 + end. + +-define(I, integer). + +-spec c(Atom :: atom(), Integer :: ?I()) -> {atom(), integer()}; + (X, Y) -> {atom(), float()} when X :: atom(), + is_subtype(Y, float()); + (integer(), atom()) -> {integer(), atom()}. + +c(A, B) -> + _ = ?I, + {A, B}. diff --git a/system/doc/reference_manual/macros.xml b/system/doc/reference_manual/macros.xml index 42ea639b54..350bb1d123 100644 --- a/system/doc/reference_manual/macros.xml +++ b/system/doc/reference_manual/macros.xml @@ -234,6 +234,53 @@ or </section> <section> + <title>-error() and -warning() directives</title> + + <p>The directive <c>-error(Term)</c> causes a compilation error.</p> + + <p><em>Example:</em></p> + <code type="none"> +-module(t). +-export([version/0]). + +-ifdef(VERSION). +version() -> ?VERSION. +-else. +-error("Macro VERSION must be defined."). +version() -> "". +-endif.</code> + + <p>The error message will look like this:</p> + + <pre> +% <input>erlc t.erl</input> +t.erl:7: -error("Macro VERSION must be defined.").</pre> + + <p>The directive <c>-warning(Term)</c> causes a compilation warning.</p> + + <p><em>Example:</em></p> + <code type="none"> +-module(t). +-export([version/0]). + +-ifndef(VERSION). +-warning("Macro VERSION not defined -- using default version."). +-define(VERSION, "0"). +-endif. +version() -> ?VERSION.</code> + + <p>The warning message will look like this:</p> + + <pre> +% <input>erlc t.erl</input> +t.erl:5: Warning: -warning("Macro VERSION not defined -- using default version.").</pre> + + <p>The <c>-error()</c> and <c>-warning()</c> directives were added + in OTP 19.</p> + + </section> + + <section> <title>Stringifying Macro Arguments</title> <p>The construction <c>??Arg</c>, where <c>Arg</c> is a macro argument, is expanded to a string containing the tokens of @@ -253,5 +300,6 @@ io:format("Call ~s: ~w~n",["you : function ( 2 , 1 )",you:function(2,1)]).</code <p>That is, a trace output, with both the function called and the resulting value.</p> </section> + </chapter> |