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-rw-r--r--lib/syntax_tools/test/Makefile1
-rw-r--r--lib/syntax_tools/test/syntax_tools_SUITE.erl53
-rw-r--r--lib/syntax_tools/test/syntax_tools_SUITE_data/syntax_tools_SUITE_test_module.erl540
-rw-r--r--lib/syntax_tools/test/syntax_tools_SUITE_data/syntax_tools_test.erl115
4 files changed, 706 insertions, 3 deletions
diff --git a/lib/syntax_tools/test/Makefile b/lib/syntax_tools/test/Makefile
index d4733b9a42..f67e3f8984 100644
--- a/lib/syntax_tools/test/Makefile
+++ b/lib/syntax_tools/test/Makefile
@@ -61,5 +61,6 @@ release_tests_spec: make_emakefile
$(INSTALL_DATA) $(EMAKEFILE) $(ERL_FILES) "$(RELSYSDIR)"
$(INSTALL_DATA) syntax_tools.spec syntax_tools.cover "$(RELSYSDIR)"
chmod -R u+w "$(RELSYSDIR)"
+ @tar cf - *_SUITE_data | (cd "$(RELSYSDIR)"; tar xf -)
release_docs_spec:
diff --git a/lib/syntax_tools/test/syntax_tools_SUITE.erl b/lib/syntax_tools/test/syntax_tools_SUITE.erl
index 3700e771eb..b4141956e6 100644
--- a/lib/syntax_tools/test/syntax_tools_SUITE.erl
+++ b/lib/syntax_tools/test/syntax_tools_SUITE.erl
@@ -25,13 +25,13 @@
%% Test cases
-export([app_test/1,appup_test/1,smoke_test/1,revert/1,revert_map/1,
- t_abstract_type/1,t_erl_parse_type/1]).
+ t_abstract_type/1,t_erl_parse_type/1,t_epp_dodger/1]).
suite() -> [{ct_hooks,[ts_install_cth]}].
all() ->
[app_test,appup_test,smoke_test,revert,revert_map,
- t_abstract_type,t_erl_parse_type].
+ t_abstract_type,t_erl_parse_type,t_epp_dodger].
groups() ->
[].
@@ -192,6 +192,53 @@ t_erl_parse_type(Config) when is_list(Config) ->
{"{a,b,c}", tuple,false}]),
ok.
+%% the macro ?MODULE seems faulty
+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"],
+ ok = test_epp_dodger(Filenames,DataDir,PrivDir),
+ ok.
+
+test_epp_dodger([], _, _) -> ok;
+test_epp_dodger([Filename|Files],DataDir,PrivDir) ->
+ io:format("Parsing ~p~n", [Filename]),
+ InFile = filename:join(DataDir, Filename),
+ Parsers = [{fun epp_dodger:parse_file/1,parse_file},
+ {fun epp_dodger:quick_parse_file/1,quick_parse_file},
+ {fun (File) ->
+ {ok,Dev} = file:open(File,[read]),
+ Res = epp_dodger:parse(Dev),
+ file:close(File),
+ Res
+ end, parse},
+ {fun (File) ->
+ {ok,Dev} = file:open(File,[read]),
+ Res = epp_dodger:quick_parse(Dev),
+ file:close(File),
+ Res
+ end, quick_parse}],
+ FsForms = parse_with(Parsers, InFile),
+ ok = pretty_print_parse_forms(FsForms,PrivDir,Filename),
+ test_epp_dodger(Files,DataDir,PrivDir).
+
+parse_with([],_) -> [];
+parse_with([{Fun,ParserType}|Funs],File) ->
+ {ok, Fs} = Fun(File),
+ [{Fs,ParserType}|parse_with(Funs,File)].
+
+pretty_print_parse_forms([],_,_) -> ok;
+pretty_print_parse_forms([{Fs0,Type}|FsForms],PrivDir,Filename) ->
+ Parser = atom_to_list(Type),
+ OutFile = filename:join(PrivDir, Parser ++"_" ++ Filename),
+ io:format("Pretty print ~p (~w) to ~p~n", [Filename,Type,OutFile]),
+ Fs1 = erl_syntax:form_list(Fs0),
+ PP = erl_prettypr:format(Fs1),
+ ok = file:write_file(OutFile,iolist_to_binary(PP)),
+ pretty_print_parse_forms(FsForms,PrivDir,Filename).
+
+
validate(_,[]) -> ok;
validate(F,[V|Vs]) ->
ok = F(V),
@@ -285,7 +332,7 @@ validate_special_type(_,_) ->
ok.
%%% scan_and_parse
-%
+
string_to_expr(String) ->
io:format("Str: ~p~n", [String]),
{ok, Ts, _} = erl_scan:string(String++"."),
diff --git a/lib/syntax_tools/test/syntax_tools_SUITE_data/syntax_tools_SUITE_test_module.erl b/lib/syntax_tools/test/syntax_tools_SUITE_data/syntax_tools_SUITE_test_module.erl
new file mode 100644
index 0000000000..07c419b4b7
--- /dev/null
+++ b/lib/syntax_tools/test/syntax_tools_SUITE_data/syntax_tools_SUITE_test_module.erl
@@ -0,0 +1,540 @@
+-module(syntax_tools_SUITE_test_module).
+
+-export([foo1/1,foo2/3,start_child/2]).
+
+-export([len/1,equal/2,concat/2,chr/2,rchr/2,str/2,rstr/2,
+ span/2,cspan/2,substr/2,substr/3,tokens/2,chars/2,chars/3]).
+-export([copies/2,words/1,words/2,strip/1,strip/2,strip/3,
+ sub_word/2,sub_word/3,left/2,left/3,right/2,right/3,
+ sub_string/2,sub_string/3,centre/2,centre/3, join/2]).
+-export([to_upper/1, to_lower/1]).
+
+-import(lists,[reverse/1,member/2]).
+
+
+%% @type some_type() = map()
+%% @type some_other_type() = {a, #{ list() => term()}}
+
+-type some_type() :: map().
+-type some_other_type() :: {'a', #{ list() => term()} }.
+
+-spec foo1(Map :: #{ 'a' => integer(), 'b' => term()}) -> term().
+
+%% @doc Gets value from map.
+
+foo1(#{ a:= 1, b := V}) -> V.
+
+%% @spec foo2(some_type(), Type2 :: some_other_type(), map()) -> Value
+%% @doc Gets value from map.
+
+-spec foo2(
+ Type1 :: some_type(),
+ Type2 :: some_other_type(),
+ Map :: #{ get => 'value', 'value' => binary()}) -> binary().
+
+foo2(Type1, {a,#{ "a" := _}}, #{get := value, value := B}) when is_map(Type1) -> B.
+
+%% from supervisor 18.0
+
+-type child() :: 'undefined' | pid().
+-type child_id() :: term().
+-type mfargs() :: {M :: module(), F :: atom(), A :: [term()] | undefined}.
+-type modules() :: [module()] | 'dynamic'.
+-type restart() :: 'permanent' | 'transient' | 'temporary'.
+-type shutdown() :: 'brutal_kill' | timeout().
+-type worker() :: 'worker' | 'supervisor'.
+-type sup_ref() :: (Name :: atom())
+ | {Name :: atom(), Node :: node()}
+ | {'global', Name :: atom()}
+ | {'via', Module :: module(), Name :: any()}
+ | pid().
+-type child_spec() :: #{name => child_id(), % mandatory
+ start => mfargs(), % mandatory
+ restart => restart(), % optional
+ shutdown => shutdown(), % optional
+ type => worker(), % optional
+ modules => modules()} % optional
+ | {Id :: child_id(),
+ StartFunc :: mfargs(),
+ Restart :: restart(),
+ Shutdown :: shutdown(),
+ Type :: worker(),
+ Modules :: modules()}.
+
+-type startchild_err() :: 'already_present'
+ | {'already_started', Child :: child()} | term().
+-type startchild_ret() :: {'ok', Child :: child()}
+ | {'ok', Child :: child(), Info :: term()}
+ | {'error', startchild_err()}.
+
+
+-spec start_child(SupRef, ChildSpec) -> startchild_ret() when
+ SupRef :: sup_ref(),
+ ChildSpec :: child_spec() | (List :: [term()]).
+start_child(Supervisor, ChildSpec) ->
+ {Supervisor,ChildSpec}.
+
+
+%% From string.erl
+%% Robert's bit
+
+%% len(String)
+%% Return the length of a string.
+
+-spec len(String) -> Length when
+ String :: string(),
+ Length :: non_neg_integer().
+
+len(S) -> length(S).
+
+%% equal(String1, String2)
+%% Test if 2 strings are equal.
+
+-spec equal(String1, String2) -> boolean() when
+ String1 :: string(),
+ String2 :: string().
+
+equal(S, S) -> true;
+equal(_, _) -> false.
+
+%% concat(String1, String2)
+%% Concatenate 2 strings.
+
+-spec concat(String1, String2) -> String3 when
+ String1 :: string(),
+ String2 :: string(),
+ String3 :: string().
+
+concat(S1, S2) -> S1 ++ S2.
+
+%% chr(String, Char)
+%% rchr(String, Char)
+%% Return the first/last index of the character in a string.
+
+-spec chr(String, Character) -> Index when
+ String :: string(),
+ Character :: char(),
+ Index :: non_neg_integer().
+
+chr(S, C) when is_integer(C) -> chr(S, C, 1).
+
+chr([C|_Cs], C, I) -> I;
+chr([_|Cs], C, I) -> chr(Cs, C, I+1);
+chr([], _C, _I) -> 0.
+
+-spec rchr(String, Character) -> Index when
+ String :: string(),
+ Character :: char(),
+ Index :: non_neg_integer().
+
+rchr(S, C) when is_integer(C) -> rchr(S, C, 1, 0).
+
+rchr([C|Cs], C, I, _L) -> %Found one, now find next!
+ rchr(Cs, C, I+1, I);
+rchr([_|Cs], C, I, L) ->
+ rchr(Cs, C, I+1, L);
+rchr([], _C, _I, L) -> L.
+
+%% str(String, SubString)
+%% rstr(String, SubString)
+%% index(String, SubString)
+%% Return the first/last index of the sub-string in a string.
+%% index/2 is kept for backwards compatibility.
+
+-spec str(String, SubString) -> Index when
+ String :: string(),
+ SubString :: string(),
+ Index :: non_neg_integer().
+
+str(S, Sub) when is_list(Sub) -> str(S, Sub, 1).
+
+str([C|S], [C|Sub], I) ->
+ case prefix(Sub, S) of
+ true -> I;
+ false -> str(S, [C|Sub], I+1)
+ end;
+str([_|S], Sub, I) -> str(S, Sub, I+1);
+str([], _Sub, _I) -> 0.
+
+-spec rstr(String, SubString) -> Index when
+ String :: string(),
+ SubString :: string(),
+ Index :: non_neg_integer().
+
+rstr(S, Sub) when is_list(Sub) -> rstr(S, Sub, 1, 0).
+
+rstr([C|S], [C|Sub], I, L) ->
+ case prefix(Sub, S) of
+ true -> rstr(S, [C|Sub], I+1, I);
+ false -> rstr(S, [C|Sub], I+1, L)
+ end;
+rstr([_|S], Sub, I, L) -> rstr(S, Sub, I+1, L);
+rstr([], _Sub, _I, L) -> L.
+
+prefix([C|Pre], [C|String]) -> prefix(Pre, String);
+prefix([], String) when is_list(String) -> true;
+prefix(Pre, String) when is_list(Pre), is_list(String) -> false.
+
+%% span(String, Chars) -> Length.
+%% cspan(String, Chars) -> Length.
+
+-spec span(String, Chars) -> Length when
+ String :: string(),
+ Chars :: string(),
+ Length :: non_neg_integer().
+
+span(S, Cs) when is_list(Cs) -> span(S, Cs, 0).
+
+span([C|S], Cs, I) ->
+ case member(C, Cs) of
+ true -> span(S, Cs, I+1);
+ false -> I
+ end;
+span([], _Cs, I) -> I.
+
+-spec cspan(String, Chars) -> Length when
+ String :: string(),
+ Chars :: string(),
+ Length :: non_neg_integer().
+
+cspan(S, Cs) when is_list(Cs) -> cspan(S, Cs, 0).
+
+cspan([C|S], Cs, I) ->
+ case member(C, Cs) of
+ true -> I;
+ false -> cspan(S, Cs, I+1)
+ end;
+cspan([], _Cs, I) -> I.
+
+%% substr(String, Start)
+%% substr(String, Start, Length)
+%% Extract a sub-string from String.
+
+-spec substr(String, Start) -> SubString when
+ String :: string(),
+ SubString :: string(),
+ Start :: pos_integer().
+
+substr(String, 1) when is_list(String) ->
+ String;
+substr(String, S) when is_integer(S), S > 1 ->
+ substr2(String, S).
+
+-spec substr(String, Start, Length) -> SubString when
+ String :: string(),
+ SubString :: string(),
+ Start :: pos_integer(),
+ Length :: non_neg_integer().
+
+substr(String, S, L) when is_integer(S), S >= 1, is_integer(L), L >= 0 ->
+ substr1(substr2(String, S), L).
+
+substr1([C|String], L) when L > 0 -> [C|substr1(String, L-1)];
+substr1(String, _L) when is_list(String) -> []. %Be nice!
+
+substr2(String, 1) when is_list(String) -> String;
+substr2([_|String], S) -> substr2(String, S-1).
+
+%% tokens(String, Seperators).
+%% Return a list of tokens seperated by characters in Seperators.
+
+-spec tokens(String, SeparatorList) -> Tokens when
+ String :: string(),
+ SeparatorList :: string(),
+ Tokens :: [Token :: nonempty_string()].
+
+tokens(S, Seps) ->
+ tokens1(S, Seps, []).
+
+tokens1([C|S], Seps, Toks) ->
+ case member(C, Seps) of
+ true -> tokens1(S, Seps, Toks);
+ false -> tokens2(S, Seps, Toks, [C])
+ end;
+tokens1([], _Seps, Toks) ->
+ reverse(Toks).
+
+tokens2([C|S], Seps, Toks, Cs) ->
+ case member(C, Seps) of
+ true -> tokens1(S, Seps, [reverse(Cs)|Toks]);
+ false -> tokens2(S, Seps, Toks, [C|Cs])
+ end;
+tokens2([], _Seps, Toks, Cs) ->
+ reverse([reverse(Cs)|Toks]).
+
+-spec chars(Character, Number) -> String when
+ Character :: char(),
+ Number :: non_neg_integer(),
+ String :: string().
+
+chars(C, N) -> chars(C, N, []).
+
+-spec chars(Character, Number, Tail) -> String when
+ Character :: char(),
+ Number :: non_neg_integer(),
+ Tail :: string(),
+ String :: string().
+
+chars(C, N, Tail) when N > 0 ->
+ chars(C, N-1, [C|Tail]);
+chars(C, 0, Tail) when is_integer(C) ->
+ Tail.
+
+%% Torbjörn's bit.
+
+%%% COPIES %%%
+
+-spec copies(String, Number) -> Copies when
+ String :: string(),
+ Copies :: string(),
+ Number :: non_neg_integer().
+
+copies(CharList, Num) when is_list(CharList), is_integer(Num), Num >= 0 ->
+ copies(CharList, Num, []).
+
+copies(_CharList, 0, R) ->
+ R;
+copies(CharList, Num, R) ->
+ copies(CharList, Num-1, CharList++R).
+
+%%% WORDS %%%
+
+-spec words(String) -> Count when
+ String :: string(),
+ Count :: pos_integer().
+
+words(String) -> words(String, $\s).
+
+-spec words(String, Character) -> Count when
+ String :: string(),
+ Character :: char(),
+ Count :: pos_integer().
+
+words(String, Char) when is_integer(Char) ->
+ w_count(strip(String, both, Char), Char, 0).
+
+w_count([], _, Num) -> Num+1;
+w_count([H|T], H, Num) -> w_count(strip(T, left, H), H, Num+1);
+w_count([_H|T], Char, Num) -> w_count(T, Char, Num).
+
+%%% SUB_WORDS %%%
+
+-spec sub_word(String, Number) -> Word when
+ String :: string(),
+ Word :: string(),
+ Number :: integer().
+
+sub_word(String, Index) -> sub_word(String, Index, $\s).
+
+-spec sub_word(String, Number, Character) -> Word when
+ String :: string(),
+ Word :: string(),
+ Number :: integer(),
+ Character :: char().
+
+sub_word(String, Index, Char) when is_integer(Index), is_integer(Char) ->
+ case words(String, Char) of
+ Num when Num < Index ->
+ [];
+ _Num ->
+ s_word(strip(String, left, Char), Index, Char, 1, [])
+ end.
+
+s_word([], _, _, _,Res) -> reverse(Res);
+s_word([Char|_],Index,Char,Index,Res) -> reverse(Res);
+s_word([H|T],Index,Char,Index,Res) -> s_word(T,Index,Char,Index,[H|Res]);
+s_word([Char|T],Stop,Char,Index,Res) when Index < Stop ->
+ s_word(strip(T,left,Char),Stop,Char,Index+1,Res);
+s_word([_|T],Stop,Char,Index,Res) when Index < Stop ->
+ s_word(T,Stop,Char,Index,Res).
+
+%%% STRIP %%%
+
+-spec strip(string()) -> string().
+
+strip(String) -> strip(String, both).
+
+-spec strip(String, Direction) -> Stripped when
+ String :: string(),
+ Stripped :: string(),
+ Direction :: left | right | both.
+
+strip(String, left) -> strip_left(String, $\s);
+strip(String, right) -> strip_right(String, $\s);
+strip(String, both) ->
+ strip_right(strip_left(String, $\s), $\s).
+
+-spec strip(String, Direction, Character) -> Stripped when
+ String :: string(),
+ Stripped :: string(),
+ Direction :: left | right | both,
+ Character :: char().
+
+strip(String, right, Char) -> strip_right(String, Char);
+strip(String, left, Char) -> strip_left(String, Char);
+strip(String, both, Char) ->
+ strip_right(strip_left(String, Char), Char).
+
+strip_left([Sc|S], Sc) ->
+ strip_left(S, Sc);
+strip_left([_|_]=S, Sc) when is_integer(Sc) -> S;
+strip_left([], Sc) when is_integer(Sc) -> [].
+
+strip_right([Sc|S], Sc) ->
+ case strip_right(S, Sc) of
+ [] -> [];
+ T -> [Sc|T]
+ end;
+strip_right([C|S], Sc) ->
+ [C|strip_right(S, Sc)];
+strip_right([], Sc) when is_integer(Sc) ->
+ [].
+
+%%% LEFT %%%
+
+-spec left(String, Number) -> Left when
+ String :: string(),
+ Left :: string(),
+ Number :: non_neg_integer().
+
+left(String, Len) when is_integer(Len) -> left(String, Len, $\s).
+
+-spec left(String, Number, Character) -> Left when
+ String :: string(),
+ Left :: string(),
+ Number :: non_neg_integer(),
+ Character :: char().
+
+left(String, Len, Char) when is_integer(Char) ->
+ Slen = length(String),
+ if
+ Slen > Len -> substr(String, 1, Len);
+ Slen < Len -> l_pad(String, Len-Slen, Char);
+ Slen =:= Len -> String
+ end.
+
+l_pad(String, Num, Char) -> String ++ chars(Char, Num).
+
+%%% RIGHT %%%
+
+-spec right(String, Number) -> Right when
+ String :: string(),
+ Right :: string(),
+ Number :: non_neg_integer().
+
+right(String, Len) when is_integer(Len) -> right(String, Len, $\s).
+
+-spec right(String, Number, Character) -> Right when
+ String :: string(),
+ Right :: string(),
+ Number :: non_neg_integer(),
+ Character :: char().
+
+right(String, Len, Char) when is_integer(Char) ->
+ Slen = length(String),
+ if
+ Slen > Len -> substr(String, Slen-Len+1);
+ Slen < Len -> r_pad(String, Len-Slen, Char);
+ Slen =:= Len -> String
+ end.
+
+r_pad(String, Num, Char) -> chars(Char, Num, String).
+
+%%% CENTRE %%%
+
+-spec centre(String, Number) -> Centered when
+ String :: string(),
+ Centered :: string(),
+ Number :: non_neg_integer().
+
+centre(String, Len) when is_integer(Len) -> centre(String, Len, $\s).
+
+-spec centre(String, Number, Character) -> Centered when
+ String :: string(),
+ Centered :: string(),
+ Number :: non_neg_integer(),
+ Character :: char().
+
+centre(String, 0, Char) when is_list(String), is_integer(Char) ->
+ []; % Strange cases to centre string
+centre(String, Len, Char) when is_integer(Char) ->
+ Slen = length(String),
+ if
+ Slen > Len -> substr(String, (Slen-Len) div 2 + 1, Len);
+ Slen < Len ->
+ N = (Len-Slen) div 2,
+ r_pad(l_pad(String, Len-(Slen+N), Char), N, Char);
+ Slen =:= Len -> String
+ end.
+
+%%% SUB_STRING %%%
+
+-spec sub_string(String, Start) -> SubString when
+ String :: string(),
+ SubString :: string(),
+ Start :: pos_integer().
+
+sub_string(String, Start) -> substr(String, Start).
+
+-spec sub_string(String, Start, Stop) -> SubString when
+ String :: string(),
+ SubString :: string(),
+ Start :: pos_integer(),
+ Stop :: pos_integer().
+
+sub_string(String, Start, Stop) -> substr(String, Start, Stop - Start + 1).
+
+%% ISO/IEC 8859-1 (latin1) letters are converted, others are ignored
+%%
+
+to_lower_char(C) when is_integer(C), $A =< C, C =< $Z ->
+ C + 32;
+to_lower_char(C) when is_integer(C), 16#C0 =< C, C =< 16#D6 ->
+ C + 32;
+to_lower_char(C) when is_integer(C), 16#D8 =< C, C =< 16#DE ->
+ C + 32;
+to_lower_char(C) ->
+ C.
+
+to_upper_char(C) when is_integer(C), $a =< C, C =< $z ->
+ C - 32;
+to_upper_char(C) when is_integer(C), 16#E0 =< C, C =< 16#F6 ->
+ C - 32;
+to_upper_char(C) when is_integer(C), 16#F8 =< C, C =< 16#FE ->
+ C - 32;
+to_upper_char(C) ->
+ C.
+
+-spec to_lower(String) -> Result when
+ String :: io_lib:latin1_string(),
+ Result :: io_lib:latin1_string()
+ ; (Char) -> CharResult when
+ Char :: char(),
+ CharResult :: char().
+
+to_lower(S) when is_list(S) ->
+ [to_lower_char(C) || C <- S];
+to_lower(C) when is_integer(C) ->
+ to_lower_char(C).
+
+-spec to_upper(String) -> Result when
+ String :: io_lib:latin1_string(),
+ Result :: io_lib:latin1_string()
+ ; (Char) -> CharResult when
+ Char :: char(),
+ CharResult :: char().
+
+to_upper(S) when is_list(S) ->
+ [to_upper_char(C) || C <- S];
+to_upper(C) when is_integer(C) ->
+ to_upper_char(C).
+
+-spec join(StringList, Separator) -> String when
+ StringList :: [string()],
+ Separator :: string(),
+ String :: string().
+
+join([], Sep) when is_list(Sep) ->
+ [];
+join([H|T], Sep) ->
+ H ++ lists:append([Sep ++ X || X <- T]).
diff --git a/lib/syntax_tools/test/syntax_tools_SUITE_data/syntax_tools_test.erl b/lib/syntax_tools/test/syntax_tools_SUITE_data/syntax_tools_test.erl
new file mode 100644
index 0000000000..dd3f88d7a8
--- /dev/null
+++ b/lib/syntax_tools/test/syntax_tools_SUITE_data/syntax_tools_test.erl
@@ -0,0 +1,115 @@
+%%
+%% File: syntax_tools_test.erl
+%% Author: Björn-Egil Dahlberg
+%% Created: 2014-10-23
+%%
+
+-module(syntax_tools_test).
+
+-export([foo1/0,foo2/2,foo3/0,foo4/3,foo5/1]).
+
+-include_lib("kernel/include/file.hrl").
+-record(state, { a, b, c, d}).
+-attribute([foo/0]).
+
+-define(attrib, some_attrib).
+
+-?attrib([foo2/2]).
+
+-define(macro_simple1, ok).
+-define(MACRO_SIMPLE2, (other)).
+-define(macro_simple3, ?MODULE).
+-define(macro_simple4, [?macro_simple3,?MODULE,?MACRO_SIMPLE2]).
+-define(macro_simple5, (process_info)).
+-define(macro_string, "hello world").
+-define(macro_argument1(X), (X + 3)).
+-define(macro_argument2(X,Y), (X + 3 * Y)).
+-define(macro_block(X), begin X end).
+-define(macro_if(X1,X2), if X1 -> X2; true -> none end).
+
+
+-ifdef(macro_def1).
+-define(macro_cond1, yep).
+-else.
+-define(macro_cond1, nope).
+-endif.
+-ifndef(macro_def2).
+-define(macro_cond2, nope).
+-else.
+-define(macro_cond2, yep).
+-endif.
+-undef(macro_def1).
+-undef(macro_def2).
+
+%% basic test
+foo1() ->
+ ok.
+
+%% macro test
+foo2(A,B) ->
+ % string combining ?
+ [?macro_string, ?macro_string
+ ?macro_string,
+ "hello world "
+ "more hello",
+ [?macro_simple1,
+ ?MACRO_SIMPLE2,
+ ?macro_simple3,
+ ?macro_simple4,
+ ?macro_simple5,
+ ?macro_string,
+ ?macro_cond1,
+ ?macro_cond2,
+ ?macro_block(A),
+ ?macro_if(A,B),
+ ?macro_argument1(A),
+ ?macro_argument1(begin A end),
+ ?macro_block(<<"hello">>),
+ ?macro_block("hello"),
+ ?macro_block([$h,$e,$l,$l,$0]),
+ ?macro_argument1(id(<<"hello">>)),
+ ?macro_argument1(if A -> B; true -> 3.14 end),
+ ?macro_argument1(case A of ok -> B; C -> C end),
+ ?macro_argument1(receive M -> M after 100 -> 3 end),
+ ?macro_argument1(try foo5(A) catch C:?macro_simple5 -> {C,B} end),
+ ?macro_argument2(A,B)],
+ A,B,ok].
+
+id(I) -> I.
+%% basic terms
+
+foo3() ->
+ [atom,
+ 'some other atom',
+ {tuple,1,2,3},
+ 1,2,3,3333,
+ 3,3333,2,1,
+ [$a,$b,$c],
+ "hello world",
+ <<"hello world">>,
+ <<1,2,3,4,5:6>>,
+ 3.1415,
+ 1.03e33].
+
+%% application and records
+
+foo4(A,B,#state{c = C}=S) ->
+ Ls = foo3(),
+ S1 = #state{ a = 1, b = 2 },
+ [foo2(A,Ls),B,C,
+ B(3,C),
+ erlang:process_info(self()),
+ erlang:?macro_simple5(self()),
+ A:?MACRO_SIMPLE2(),
+ A:?macro_simple1(),
+ A:process_info(self()),
+ A:B(3),
+ S#state{ a = 2, b = B, d = S1 }].
+
+foo5(A) ->
+ try foo2(A,A) of
+ R -> R
+ catch
+ error:?macro_simple5 ->
+ nope
+ end.