%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2006-2016. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (the "License");
%% you may not use this file except in compliance with the License.
%% You may obtain a copy of the License at
%%
%% http://www.apache.org/licenses/LICENSE-2.0
%%
%% Unless required by applicable law or agreed to in writing, software
%% distributed under the License is distributed on an "AS IS" BASIS,
%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
%% See the License for the specific language governing permissions and
%% limitations under the License.
%%
%% %CopyrightEnd%
%%
%%%----------------------------------------------------------------
%%% Purpose:Test Suite for the 'erl_pp' module.
%%%-----------------------------------------------------------------
-module(erl_pp_SUITE).
%%-define(debug, true).
-ifdef(debug).
-define(line, put(line, ?LINE), ).
-define(config(X,Y), foo).
-define(datadir, "erl_pp_SUITE_data").
-define(privdir, "erl_pp_SUITE_priv").
-define(t, test_server).
-else.
-include_lib("common_test/include/ct.hrl").
-define(datadir, proplists:get_value(data_dir, Config)).
-define(privdir, proplists:get_value(priv_dir, Config)).
-endif.
-export([all/0, suite/0,groups/0,init_per_suite/1, end_per_suite/1,
init_per_group/2,end_per_group/2,
init_per_testcase/2, end_per_testcase/2]).
-export([ func/1, call/1, recs/1, try_catch/1, if_then/1,
receive_after/1, bits/1, head_tail/1,
cond1/1, block/1, case1/1, ops/1, messages/1,
import_export/1, misc_attrs/1, dialyzer_attrs/1,
hook/1,
neg_indent/1,
maps_syntax/1,
otp_6321/1, otp_6911/1, otp_6914/1, otp_8150/1, otp_8238/1,
otp_8473/1, otp_8522/1, otp_8567/1, otp_8664/1, otp_9147/1,
otp_10302/1, otp_10820/1, otp_11100/1, otp_11861/1]).
%% Internal export.
-export([ehook/6]).
init_per_testcase(_Case, Config) ->
Config.
end_per_testcase(_Case, _Config) ->
ok.
suite() ->
[{ct_hooks,[ts_install_cth]},
{timetrap,{minutes,2}}].
all() ->
[{group, expr}, {group, attributes}, hook, neg_indent,
{group, tickets}].
groups() ->
[{expr, [],
[func, call, recs, try_catch, if_then, receive_after,
bits, head_tail, cond1, block, case1, ops,
messages, maps_syntax
]},
{attributes, [], [misc_attrs, import_export, dialyzer_attrs]},
{tickets, [],
[otp_6321, otp_6911, otp_6914, otp_8150, otp_8238,
otp_8473, otp_8522, otp_8567, otp_8664, otp_9147,
otp_10302, otp_10820, otp_11100, otp_11861]}].
init_per_suite(Config) ->
Config.
end_per_suite(_Config) ->
ok.
init_per_group(_GroupName, Config) ->
Config.
end_per_group(_GroupName, Config) ->
Config.
func(Config) when is_list(Config) ->
Ts = [{func_1,
<<"-record(r1, {a,b}).
-record(r3, {a = fun(_) -> #r1{} end(1), b}).
t() ->
fun(A) when record(A#r3.a, r1) -> 7 end(#r3{}).
">>},
{func_2,
<<"-record(r1, {a,b}).
-record(r3, {a = fun(_) -> #r1{} end(1), b}).
t() ->
fsdfsdfjsdfjkljf:sdlfjdsfjlf(
fun(sdfsd) -> {sdkjsdf,sdfjsdkljfsdl,sdfkjdklf} end).
">>},
{func_3,
<<"t() -> fun t/0.">>},
{func_4,
<<"t() -> fun modul:foo/3.">>},
{func_5, % 'when' is moved down one line
<<"tkjlksjflksdjflsdjlk()
when kljlsajflksjdfklsjdlkjfklsdklfjsdlf <
kljasjfdsjflsdjfklsdjfklsdjfklsd ->
foo.">>},
{func_6,
<<"t() ->
(fun() ->
true
end)().">>},
{func_7,
<<"t(M, F, A) -> fun M:F/A.">>},
{func_8,
<<"-record(r1, {a,b}).
-record(r3, {a = fun Id(_) -> #r1{} end(1), b}).
t() ->
fun Id(A) when record(A#r3.a, r1) -> 7 end(#r3{}).
">>},
{func_9,
<<"-record(r1, {a,b}).
-record(r3, {a = fun Id(_) -> #r1{} end(1), b}).
t() ->
fsdfsdfjsdfjkljf:sdlfjdsfjlf(
fun Id(sdfsd) -> {sdkjsdf,sdfjsdkljfsdl,sdfkjdklf} end).
">>},
{func_10,
<<"t() ->
(fun True() ->
true
end)().">>}
],
compile(Config, Ts),
ok.
call(Config) when is_list(Config) ->
Ts = [{call_1,
<<"t() ->
fookjljsflj:barlkjlkjsdfj(kjdslfjsdl,hej,san,sa,
foo,sdfds,sdfsdf,sdfsd,sdfdsf,sdfdsf,sfdsf,
sfds,sdfsdf,sfds).
">>}
],
compile(Config, Ts),
ok.
recs(Config) when is_list(Config) ->
%% Evolved while testing strict record tests in guards...
Ts = [{recs_1,
<<"-compile(strict_record_tests).
-record(r, {a = 4,b}).
-record(r1, {a,b}).
-record(r2, {a = #r1{},b,c=length([1,2,3])}).
-record(r3, {a = fun(_) -> #r1{} end(1), b}).
-record(r4, {a = fun R1(_) -> #r1{} end(1), b}).
t() ->
foo = fun(A) when A#r1.a > A#r1.b -> foo end(#r1{b = 2}),
0 = fun(A) when A#r2.a -> 0 end(#r2{a = true}),
1 = fun(A) when (#r1{a = A})#r1.a > 2 -> 1 end(3),
2 = fun(N) when ((#r2{a = #r{a = 4}, b = length([a,b,c])})#r2.a)#r.a > N ->
2 end(2),
3 = fun(A) when (A#r2.a)#r1.a =:= 3 -> 3 end(#r2{a = #r1{a = 3}}),
ok = fun() ->
F = fun(A) when record(A#r.a, r1) -> 4;
(A) when record(A#r1.a, r1) -> 5
end,
5 = F(#r1{a = #r1{}}),
4 = F(#r{a = #r1{}}),
ok
end(),
3 = fun(A) when record(A#r1.a, r),
(A#r1.a)#r.a > 3 -> 3
end(#r1{a = #r{a = 4}}),
7 = fun(A) when record(A#r3.a, r1) -> 7 end(#r3{}),
[#r1{a = 2,b = 1}] =
fun() ->
[A || A <- [#r1{a = 1, b = 3},
#r2{a = 2,b = 1},
#r1{a = 2, b = 1}],
A#r1.a >
A#r1.b]
end(),
{[_],b} =
fun(L) ->
%% A is checked only once:
R1 = [{A,B} || A <- L, A#r1.a, B <- L, A#r1.b],
A = #r2{a = true},
%% A is checked again:
B = if A#r1.a -> a; true -> b end,
{R1,B}
end([#r1{a = true, b = true}]),
p = fun(A) when (A#r1.a =:= 2) or (A#r2.a =:= 1) -> o;
(_) -> p
end(#r1{a = 2}),
o = fun(A) when (A#r1.a =:= 2) orelse (A#r2.a =:= 1) -> o;
(_) -> p
end(#r1{a = 2}),
%% The test done twice (an effect of doing the test as soon as possible).
3 = fun(A) when A#r1.a > 3,
record(A, r1) -> 3
end(#r1{a = 5}),
ok = fun() ->
F = fun(A) when (A#r2.a =:= 1) orelse (A#r2.a) -> 2;
(A) when (A#r1.a =:= 1) orelse (A#r1.a) -> 1;
(A) when (A#r2.a =:= 2) andalso (A#r2.b) -> 3
end,
1 = F(#r1{a = 1}),
2 = F(#r2{a = true}),
3 = F(#r2{a = 2, b = true}),
ok
end(),
b = fun(A) when false or not (A#r.a =:= 1) -> a;
(_) -> b
end(#r1{a = 1}),
b = fun(A) when not (A#r.a =:= 1) or false -> a;
(_) -> b
end(#r1{a = 1}),
ok = fun() ->
F = fun(A) when not (A#r.a =:= 1) -> yes;
(_) -> no
end,
no = F(#r1{a = 2}),
yes = F(#r{a = 2}),
no = F(#r{a = 1}),
ok
end(),
%% No extra check added:
a = fun(A) when record(A, r),
A#r.a =:= 1,
A#r.b =:= 2 ->a
end(#r{a = 1, b = 2}),
a = fun(A) when erlang:is_record(A, r),
A#r.a =:= 1,
A#r.b =:= 2 -> a
end(#r{a = 1, b = 2}),
a = fun(A) when is_record(A, r),
A#r.a =:= 1,
A#r.b =:= 2 -> a
end(#r{a = 1, b = 2}),
nop = fun(A) when (is_record(A, r1) and (A#r1.a > 3)) or (A#r2.a < 1) ->
japp;
(_) ->
nop
end(#r2{a = 0}),
nop = fun(A) when (A#r1.a > 3) or (A#r2.a < 1) -> japp;
(_) ->
nop
end(#r2{a = 0}),
ok = fun() ->
F = fun(A) when (A#r1.a =:= 2) or (A#r2.a =:= 1) -> o;
(_) -> p
end,
p = F(#r2{a = 1}),
p = F(#r1{a = 2}),
ok
end(),
ok = fun() ->
F = fun(A) when fail, A#r1.a; A#r1.a -> ab;
(_) -> bu
end,
ab = F(#r1{a = true}),
bu = F(#r2{a = true}),
ok
end(),
both = fun(A) when A#r.a, A#r.b -> both
end(#r{a = true, b = true}),
ok = fun() ->
F = fun(A, B) when ((A#r1.a) orelse (B#r2.a))
or (B#r2.b) or (A#r1.b) ->
true;
(_, _) -> false
end,
true = F(#r1{a = false, b = false},
#r2{a = false, b = true}),
false = F(#r1{a = true, b = true},
#r1{a = false, b = true}),
ok
end(),
ok.
">>},
{recs_2,
<<"-record(r1, {a, b = foo:bar(kljlfjsdlf, kjlksdjf)}).
-record(r2, {c = #r1{}, d = #r1{a = bar:foo(kljklsjdf)}}).
t() ->
R = #r2{},
R#r2{c = R, d = #r1{}}.">>}
],
compile(Config, Ts),
ok = pp_expr(<<"case #r{a={1,2},b=#r{}} of
X=Y=#r{a=foo,b=bar} ->
{(foooo:baaaar(X))#r{a = rep},Y,#r.b}
end">>),
ok = pp_expr(<<"R#r{a = {kljasdklf,sdkfjsdl,sdafjkllsdf,sdfkjsd,
sdafjsd,sdf,sdafsd,sdfdsf,sdfdsf,dsfds}}">>),
ok.
try_catch(Config) when is_list(Config) ->
Ts = [{try_1, % copied from erl_eval_SUITE
<<"t() -> try 1 of 1 -> 2 catch _:_ -> 3 end.">>},
{try_2,
<<"t() -> try 1 of 1 -> 2; 3 -> 4 catch _:_ -> 5 end.">>},
{try_3,
<<"t() -> try 3 of 1 -> 2; 3 -> 4 catch _:_ -> 5 end.">>},
{try_4,
<<"t() -> try 1 after put(try_catch, 2) end.">>},
{try_5,
<<"t() -> try 1 of 1 -> 2; 3 -> 4
after put(try_catch, 5) end.">>},
{try_6,
<<"t() -> try 1=2 catch throw:{badmatch,2} -> 3 end.">>},
{try_7,
<<"t() -> try 1=2 of 3 -> 4
catch error:{badmatch,2} -> 5 end.">>},
{try_8,
<<"t() -> try 1=2
catch error:{badmatch,2} -> 3
after put(try_catch, 4) end.">>},
{try_9,
<<"t() -> try 1=2
catch error:{badmatch,2} -> 3
after put(try_catch, 4) end.">>},
{try_10,
<<"t() -> try a,b,c
catch exit:_ -> d;
throw:_ -> t;
error:{foo,bar} -> foo,
bar
end.">>},
{catch_1,
<<"t() -> catch foo.">>},
{catch_2,
<<"t() -> case catch foo of bar -> foo end.">>},
{catch_3,
<<"t() -> catch begin begin foo, bar, foo:bar(kljsldkfjdls,kljsdl),
(catch bar:foo(foo)) end end.">>}
],
compile(Config, Ts),
ok = pp_expr(<<"try
erl_internal:bif(M,F,length(Args))
of
true ->
call(N,Args,Prec,Hook);
false ->
call(Name,Args,Prec,Hook)
after foo end">>),
ok.
if_then(Config) when is_list(Config) ->
Ts = [{if_1,
<<"t() -> if 1 > 2 -> 1; true -> b end.">>},
{if_2,
<<"t() -> if true -> true end.">>},
{if_3,
<<"t() -> if 1 == 2 -> a; 1 > 2 -> b; 1 < 2 -> c end.">>}
],
compile(Config, Ts),
ok.
receive_after(Config) when is_list(Config) ->
Ts = [{rec_1,
<<"t() -> receive foo -> bar; bar -> foo end.">>},
{rec_2,
<<"t() -> receive foo -> bar after foo:bar() -> 0 end.">>},
{rec_3,
<<"t() -> receive after 1 -> ok end.">>},
{rec_4,
<<"t() -> receive {X,Y} -> {a,X,Y} end.">>},
{rec_5,
<<"t() -> receive
{X,Y} ->
{X,Y};
Z ->
Z
after
foo:bar() ->
{3,4}
end.">>}
],
compile(Config, Ts),
ok.
bits(Config) when is_list(Config) ->
Ts = [{bit_1, % copied from shell_SUITE
<<"t() -> <<(<<\"abc\">>):3/binary>>.">>},
{bit_2,
<<"t() -> <<(<<\"abc\">>)/binary>>.">>},
{bit_3,
<<"t() -> <<3.14:64/float>>.">>},
{bit_4,
<<"t() -> <<-20/signed>> = <<-20>>.">>},
{bit_5,
<<"t() -> <<-300:16/signed>> = <<-300:16>>.">>},
{bit_6,
<<"t() -> <<-(1 bsl 29):32/signed>> = <<-(1 bsl 29):32>>.">>},
{bit_7,
<<"t() -> <<A:4,B:4,C:4,D:4,E:4,F:4>> = <<\"hej\">>.">>},
{bit_8,
<<"t() -> <<>>.">>},
{bit_9,
<<"">>}
],
compile(Config, Ts),
ok = pp_expr(<<"<<(list_to_binary([1,2]))/binary>>">>),
ok = pp_expr(
<<"<<(list_to_binary([1,2])):all/binary-unit:8-unsigned-big>>">>),
ok = pp_expr(<<"<<<<\"hej\">>/binary>>">>),
ok = pp_expr(<<"<<(foo:bar())/binary>>">>),
ok = pp_expr(<<"<<(a)/binary>>">>),
ok = pp_expr(<<"<<a/binary>>">>),
ok = pp_expr(<<"<<{a,b}/binary>>">>),
ok = pp_expr(<<"<<{foo:bar(),b}/binary>>">>),
ok = pp_expr(<<"<<(foo:bar()):(foo:bar())/binary>>">>),
ok.
head_tail(Config) when is_list(Config) ->
Ts = [{list_1,
<<"t() -> [a | b].">>},
{list_2,
<<"t() -> [a,b,$\n].">>},
{list_3,
<<"t() -> [].">>},
{list_4,
<<"t() -> [a].">>},
{list_5,
<<"t() ->
[foo:bar(lkjljlskdfj, klsdajflds, sdafkljsdlfkjdas, kjlsdadjl),
bar:foo(kljlkjsdf, lkjsdlfj, [kljsfj, sdfdsfsad])].">>}
],
compile(Config, Ts),
ok.
cond1(Config) when is_list(Config) ->
C = {'cond',1,[{clause,2,[],[[{tuple,2,[{atom,2,foo},{atom,2,bar}]}]],
[{cons,3,{atom,3,a},{cons,3,{atom,3,b},{nil,3}}}]},
{clause,4,[],[[{atom,4,true}]],
[{tuple,5,[{atom,5,x},{atom,5,y}]}]}]},
CChars = flat_expr1(C),
"cond\n"
" {foo,bar} ->\n"
" [a,b];\n"
" true ->\n"
" {x,y}\n"
"end" = CChars,
ok.
block(Config) when is_list(Config) ->
Ts = [{block_1,
<<"t() -> begin a,{c,d} end.">>}
],
compile(Config, Ts),
ok.
case1(Config) when is_list(Config) ->
Ts = [{case_1,
<<"t() -> case {foo,bar} of
{A,B} when true ->
[A,B];
_ ->
foo
end.">>}
],
compile(Config, Ts),
ok = pp_expr(<<"case
erl_internal:bif(M,F,length(Args))
of
true ->
call(N,Args,Prec,Hook);
false ->
call(Name,Args,Prec,Hook)
end">>),
ok.
ops(Config) when is_list(Config) ->
Ts = [{ops_1,
<<"t() -> {a,b} + (3 - 2) + 4.">>},
{ops_2,
<<"t() -> a - (3 + 4).">>},
{ops_3,
<<"t() -> - (- (- (- (- 3)))).">>}
],
compile(Config, Ts),
ok.
messages(Config) when is_list(Config) ->
true = "{error,{some,\"error\"}}\n" =:=
lists:flatten(erl_pp:form({error,{some,"error"}})),
true = "{warning,{some,\"warning\"}}\n" =:=
lists:flatten(erl_pp:form({warning,{some,"warning"}})),
"\n" = flat_form({eof,0}),
ok.
import_export(Config) when is_list(Config) ->
Ts = [{import_1,
<<"-import(lists, [max/1, reverse/1]).
-import(sofs, []).
t(L) ->
max(reverse(L)).">>},
{export_1,
<<"-export([t/0]).
-export([]).
t() -> [].">>},
{qlc_1,
<<"-include_lib(\"stdlib/include/qlc.hrl\").
t() -> qlc:q([X || X <- []]).">>}
],
compile(Config, Ts),
ok.
misc_attrs(Config) when is_list(Config) ->
ok = pp_forms(<<"-module(m). ">>),
ok = pp_forms(<<"-module(m, [Aafjlksfjdlsjflsdfjlsdjflkdsfjlk,"
"Blsjfdlslfjsdf]). ">>),
ok = pp_forms(<<"-export([]). ">>),
ok = pp_forms(<<"-export([foo/2, bar/0]). ">>),
ok = pp_forms(<<"-export([bar/0]). ">>),
ok = pp_forms(<<"-import(lists, []). ">>),
ok = pp_forms(<<"-import(lists, [map/2]). ">>),
ok = pp_forms(<<"-import(lists, [map/2, foreach/2]). ">>),
ok = pp_forms(<<"-'wild '({attr2,3}). ">>),
ok = pp_forms(<<"-record(a, {b,c}). ">>),
ok = pp_forms(<<"-record(' a ', {}). ">>),
ok = pp_forms(<<"-record(' a ', {foo = foo:bar()}). ">>),
ok = pp_forms(<<"-custom1(#{test1 => init/2, test2 => [val/1, val/2]}). ">>),
ok.
dialyzer_attrs(Config) when is_list(Config) ->
ok = pp_forms(<<"-type foo() :: #bar{}. ">>),
ok = pp_forms(<<"-opaque foo() :: {bar, fun((X, [42,...]) -> X)}. ">>),
ok = pp_forms(<<"-spec foo(bar(), qux()) -> [T | baz(T)]. ">>),
ok = pp_forms(<<"-callback foo(<<_:32,_:_*4>>, T) -> T. ">>),
ok.
hook(Config) when is_list(Config) ->
F = fun(H) -> H end,
do_hook(F).
do_hook(HookFun) ->
Lc = parse_expr(binary_to_list(<<"[X || X <- [1,2,3]].">>)),
H = HookFun(fun hook/4),
A0 = erl_anno:new(0),
Expr = {call,A0,{atom,A0,fff},[{foo,Lc},{foo,Lc},{foo,Lc}]},
EChars = lists:flatten(erl_pp:expr(Expr, 0, H)),
Call = {call,A0,{atom,A0,foo},[Lc]},
Expr2 = {call,A0,{atom,A0,fff},[Call,Call,Call]},
EChars2 = erl_pp:exprs([Expr2]),
true = EChars =:= lists:flatten(EChars2),
EsChars = erl_pp:exprs([Expr], H),
true = EChars =:= lists:flatten(EsChars),
A1 = erl_anno:new(1),
F = {function,A1,ffff,0,[{clause,A1,[],[],[Expr]}]},
FuncChars = lists:flatten(erl_pp:function(F, H)),
F2 = {function,A1,ffff,0,[{clause,A1,[],[],[Expr2]}]},
FuncChars2 = erl_pp:function(F2),
true = FuncChars =:= lists:flatten(FuncChars2),
FFormChars = erl_pp:form(F, H),
true = FuncChars =:= lists:flatten(FFormChars),
A = {attribute,A1,record,{r,[{record_field,A1,{atom,A1,a},Expr}]}},
AChars = lists:flatten(erl_pp:attribute(A, H)),
A2 = {attribute,A1,record,{r,[{record_field,A1,{atom,A1,a},Expr2}]}},
AChars2 = erl_pp:attribute(A2),
true = AChars =:= lists:flatten(AChars2),
AFormChars = erl_pp:form(A, H),
true = AChars =:= lists:flatten(AFormChars),
"INVALID-FORM:{foo,bar}:" = lists:flatten(erl_pp:expr({foo,bar})),
%% A list (as before R6), not a list of lists.
G = [{op,A1,'>',{atom,A1,a},{foo,{atom,A1,b}}}], % not a proper guard
GChars = lists:flatten(erl_pp:guard(G, H)),
G2 = [{op,A1,'>',{atom,A1,a},
{call,A0,{atom,A0,foo},[{atom,A1,b}]}}], % not a proper guard
GChars2 = erl_pp:guard(G2),
true = GChars =:= lists:flatten(GChars2),
EH = HookFun({?MODULE, ehook, [foo,bar]}),
XEChars = erl_pp:expr(Expr, -1, EH),
true = remove_indentation(EChars) =:= lists:flatten(XEChars),
XEChars2 = erl_pp:expr(Expr, EH),
true = EChars =:= lists:flatten(XEChars2),
%% Note: no leading spaces before "begin".
Block = {block,A0,[{match,A0,{var,A0,'A'},{integer,A0,3}},
{atom,A0,true}]},
"begin\n A =" ++ _ =
lists:flatten(erl_pp:expr(Block, 17, none)),
%% Special...
true =
"{some,value}" =:= lists:flatten(erl_pp:expr({value,A0,{some,value}})),
%% Silly...
true =
"if true -> 0 end" =:=
flat_expr({'if',0,[{clause,0,[],[],[{atom,0,0}]}]}),
%% More compatibility: before R6
OldIf = {'if',A0,[{clause,A0,[],[{atom,A0,true}],[{atom,A0,b}]}]},
NewIf = {'if',A0,[{clause,A0,[],[[{atom,A0,true}]],[{atom,A0,b}]}]},
OldIfChars = lists:flatten(erl_pp:expr(OldIf)),
NewIfChars = lists:flatten(erl_pp:expr(NewIf)),
true = OldIfChars =:= NewIfChars,
ok.
remove_indentation(S) ->
%% T is for the very special leaf(" ") used for lc and bc.
T = re:replace(S, " \n *", "", [{return,list},global]),
re:replace(T, "\n *", " ", [{return,list},global]).
ehook(HE, I, P, H, foo, bar) ->
hook(HE, I, P, H).
hook({foo,E}, I, P, H) ->
A = erl_anno:new(0),
erl_pp:expr({call,A,{atom,A,foo},[E]}, I, P, H).
neg_indent(Config) when is_list(Config) ->
ok = pp_expr(<<"begin a end">>),
ok = pp_expr(<<"begin a,b end">>),
ok = pp_expr(<<"try a,b,c
catch exit:_ -> d;
throw:_ -> t;
error:{foo,bar} -> foo,
bar
end">>),
ok = pp_expr(
<<"fun() ->
F = fun(A, B) when ((A#r1.a) orelse (B#r2.a))
or (B#r2.b) or (A#r1.b) ->
true;
(_, _) -> false
end,
true = F(#r1{a = false, b = false},
#r2{a = false, b = true}),
false = F(#r1{a = true, b = true},
#r1{a = false, b = true}),
ok
end()">>),
ok = pp_expr(<<"[X || X <- a, true]">>),
ok = pp_expr(<<"{[a,b,c],[d,e|f]}">>),
ok = pp_expr(<<"f(a,b,c)">>),
ok = pp_expr(<<"fun() when a,b;c,d -> a end">>),
ok = pp_expr(<<"fun A() when a,b;c,d -> a end">>),
ok = pp_expr(<<"<<34:32,17:32>>">>),
ok = pp_expr(<<"if a,b,c -> d; e,f,g -> h,i end">>),
ok = pp_expr(<<"if a -> d; c -> d end">>),
ok = pp_expr(<<"receive after 1 -> 2 end">>),
ok = pp_expr(<<"begin a,b,c end">>),
"\"\"" = flat_expr({string,0,""}),
ok = pp_expr(<<"\"abc\"">>),
ok = pp_expr(<<"\"abc\n\n\n\n\nkjsd\n\n\n\n\nkljsddf\n\n\n\n\n"
"klafd\n\n\n\n\nkljsdf\n\n\n\n\nsdf\n\n\n\n\n\"">>),
ok = pp_expr(<<"fkjlskljklkkljlkjlkjkljlkjsljklf"
"lsdjlfdsjlfjsdlfjdslfjdlsjfsdjfklsdkfjsdf("
"\"abc\n\n\n\n\nkjsd\n\n\n\n\nkljsddf\n\n\n\n\n"
"kljsafd\n\n\n\n\nkljsdf\n\n\n\n\nkjsdf"
"\n\n\n\n\n\")">>),
%% fun-info is skipped when everything is to fit on one single line
Fun1 = {'fun',1,{function,t,0},{0,45353021,'-t/0-fun-0-'}},
"fun t/0" = flat_expr(Fun1),
Fun2 = {'fun',2,{clauses,[{clause,2,[],[],[{atom,3,true}]}]},
{0,108059557,'-t/0-fun-0-'}},
"fun() -> true end" = flat_expr(Fun2),
Fun3 = {named_fun,3,'True',[{clause,3,[],[],[{atom,3,true}]}],
{0,424242424,'-t/0-True-0-'}},
"fun True() -> true end" = flat_expr(Fun3),
ok.
%% OTP_6321. Bug fix of exprs().
otp_6321(Config) when is_list(Config) ->
Str = "S = hopp, {hej, S}. ",
{done, {ok, Tokens, _EndLine}, ""} = erl_scan:tokens("", Str, _L=1),
{ok, Exprs} = erl_parse:parse_exprs(Tokens),
"S = hopp, {hej,S}" = lists:flatten(erl_pp:exprs(Exprs)),
ok.
%% OTP_6911. More newlines.
otp_6911(Config) when is_list(Config) ->
F = {function,5,thomas,1,
[{clause,5,
[{var,5,'X'}],
[],
[{'case',6,
{var,6,'X'},
[{clause,7,[{atom,7,true}],[],[{integer,7,12}]},
{clause,8,[{atom,8,false}],[],[{integer,8,14}]}]}]}]},
Chars = flat_form(F),
"thomas(X) ->\n"
" case X of\n"
" true ->\n"
" 12;\n"
" false ->\n"
" 14\n"
" end.\n" = Chars,
ok = pp_expr(<<"case X of true -> 12; false -> 14 end">>),
ok = pp_expr(<<"receive after 1 -> ok end">>),
ok.
%% OTP_6914. Binary comprehensions.
otp_6914(Config) when is_list(Config) ->
ok = pp_expr(<<"<< <<B:1>> || B <- [0,1,1] >>">>),
ok = pp_expr(<<"[ B || <<B:1>> <= <<\"hi\">>]">>),
ok = pp_expr(<<"<< <<1:1>> || true >>">>),
ok.
%% OTP_8150. Types.
otp_8150(Config) when is_list(Config) ->
_ = [{N,ok} = {N,pp_forms(B)} ||
{N,B} <- type_examples()
],
ok.
%% OTP_8238. Bugfix 'E'.
otp_8238(Config) when is_list(Config) ->
Ex = [<<"-record(rec1, {}).\n"
"-record(rec2, {a, b}).\n"
"-record(rec3, {f123, g, h}).\n">>,
<<"-type line() :: integer().\n">>,
<<"-type info_line() :: integer() | term().\n">>,
<<"-type column() :: pos_integer().\n">>,
[["\n", B] || {_,B} <- type_examples()],
<<"t1(T) ->\n"
" foo:bar(#rec1{}, #rec2{}),\n"
" T.\n"
"t2() ->\n"
" #r{}.\n">>
],
compile(Config, [{otp_8238,iolist_to_binary(Ex)}]),
ok.
type_examples() ->
[{ex1,<<"-type ann() :: Var :: integer(). ">>},
{ex2,<<"-type ann2() :: Var :: "
"'return' | 'return_white_spaces' | 'return_comments'"
" | 'text' | ann(). ">>},
{ex3,<<"-type paren() :: (ann2()). ">>},
{ex4,<<"-type t1() :: atom(). ">>},
{ex5,<<"-type t2() :: [t1()]. ">>},
{ex56,<<"-type integer(A) :: A. ">>},
{ex6,<<"-type t3(Atom) :: integer(Atom). ">>},
{ex7,<<"-type '\\'t::4'() :: t3('\\'foobar'). ">>},
{ex8,<<"-type t5() :: {t1(), t3(foo)}. ">>},
{ex9,<<"-type t6() :: 1 | 2 | 3 | 'foo' | 'bar'. ">>},
{ex10,<<"-type t7() :: []. ">>},
{ex11,<<"-type t71() :: [_]. ">>},
{ex12,<<"-type t8() :: {any(),none(),pid(),port(),"
"reference(),float()}. ">>},
{ex13,<<"-type t9() :: [1|2|3|foo|bar] | "
"list(a | b | c) | t71(). ">>},
{ex14,<<"-type t10() :: {1|2|3|foo|t9()} | {}. ">>},
{ex15,<<"-type t11() :: 1..2. ">>},
{ex16,<<"-type t13() :: maybe_improper_list(integer(), t11()). ">>},
{ex17,<<"-type t14() :: [erl_scan:foo() | "
"erl_scan:bar(34, 92) | t13() | m:f(integer() | <<_:_*16>>)]. ">>},
{ex18,<<"-type t15() :: {binary(),<<>>,<<_:34>>,<<_:_*42>>,"
"<<_:3,_:_*14>>,<<>>} | [<<>>|<<_:34>>|<<_:16>>|"
"<<_:3,_:_*1472>>|<<_:19,_:_*14>>| <<_:34>>|"
"<<_:34>>|<<_:34>>|<<_:34>>]. ">>},
{ex19,<<"-type t16() :: fun(). ">>},
{ex20,<<"-type t17() :: fun((...) -> paren()). ">>},
{ex21,<<"-type t18() :: fun(() -> t17() | t16()). ">>},
{ex22,<<"-type t19() :: fun((t18()) -> t16()) |"
"fun((nonempty_maybe_improper_list('integer', any())|"
"1|2|3|a|b|<<_:3,_:_*14>>|integer()) ->"
"nonempty_maybe_improper_list('integer', any())|"
"1|2|3|a|b|<<_:3,_:_*14>>|integer()). ">>},
{ex23,<<"-type t20() :: [t19(), ...]. ">>},
{ex24,<<"-type t21() :: tuple(). ">>},
{ex25,<<"-type t21(A) :: A. ">>},
{ex26,<<"-type t22() :: t21(integer()). ">>},
{ex27,<<"-type t23() :: #rec1{}. ">>},
{ex28,<<"-type t24() :: #rec2{a :: t23(), b :: [atom()]}. ">>},
{ex29,<<"-type t25() :: #rec3{f123 :: [t24() | "
"1|2|3|4|a|b|c|d| "
"nonempty_maybe_improper_list(integer, any())]}. ">>},
{ex30,<<"-type t99() ::"
"{t2(),'\\'t::4'(),t5(),t6(),t7(),t8(),t10(),t14(),"
"t15(),t20(),t21(), t22(),t25()}. ">>},
%% Writing constraints as is_subtype(V, T) is not supported since
%% Erlang/OTP 19.0, but as long as the parser recognizes the
%% is_subtype(V, T) syntax, we need a few examples of the syntax.
{ex31,<<"-spec t1(FooBar :: t99()) -> t99();"
"(t2()) -> t2();"
"('\\'t::4'()) -> '\\'t::4'() when is_subtype('\\'t::4'(), t24);"
"(t23()) -> t23() when is_subtype(t23(), atom()),"
" is_subtype(t23(), t14());"
"(t24()) -> t24() when is_subtype(t24(), atom()),"
" is_subtype(t24(), t14()),"
" is_subtype(t24(), '\\'t::4'()).">>},
{ex32,<<"-spec mod:t2() -> any(). ">>},
{ex33,<<"-opaque attributes_data() :: "
"[{'column', column()} | {'line', info_line()} |"
" {'text', string()}] | {line(),column()}. ">>},
{ex34,<<"-record(r,{"
"f1 :: attributes_data(),"
"f222 = foo:bar(34, #rec3{}, 234234234423, "
" aassdsfsdfsdf, 2234242323) :: "
" [t24() | 1|2|3|4|a|b|c|d| "
" nonempty_maybe_improper_list(integer, any())],"
"f333 :: [t24() | 1|2|3|4|a|b|c|d| "
" nonempty_maybe_improper_list(integer, any())],"
"f3 = x:y(),"
"f4 = x:z() :: t99(),"
"f17 :: 'undefined',"
"f18 :: 1 | 2 | 'undefined',"
"f19 = 3 :: integer()|undefined,"
"f5 = 3 :: undefined|integer()}). ">>}].
%% OTP_8473. Bugfix abstract type 'fun'.
otp_8473(Config) when is_list(Config) ->
Ex = [{ex1,<<"-type 'fun'(A) :: A.\n"
"-type funkar() :: 'fun'(fun((integer()) -> atom())).\n">>}],
_ = [{N,ok} = {N,pp_forms(B)} ||
{N,B} <- Ex],
ok.
%% OTP_8522. Avoid duplicated 'undefined' in record field types.
otp_8522(Config) when is_list(Config) ->
FileName = filename('otp_8522.erl', Config),
C = <<"-module(otp_8522).\n"
"-record(r, {f1 :: undefined,\n"
" f2 :: A :: undefined,\n"
" f3 :: (undefined),\n"
" f4 :: x | y | undefined | z,\n"
" f5 :: a}).\n">>,
ok = file:write_file(FileName, C),
{ok, _} = compile:file(FileName, [{outdir,?privdir},debug_info]),
BF = filename("otp_8522", Config),
{ok, A} = beam_lib:chunks(BF, [abstract_code]),
%% OTP-12719: Since 'undefined' is no longer added by the Erlang
%% Parser, the number of 'undefined' is 4. It used to be 5.
4 = count_atom(A, undefined),
ok.
count_atom(A, A) ->
1;
count_atom(T, A) when is_tuple(T) ->
count_atom(tuple_to_list(T), A);
count_atom(L, A) when is_list(L) ->
lists:sum([count_atom(T, A) || T <- L]);
count_atom(_, _) ->
0.
maps_syntax(Config) when is_list(Config) ->
Ts = [{map_fun_1,
<<"t() ->\n"
" M0 = #{ 1 => hi, hi => 42, 1.0 => {hi,world}},\n"
" M1 = M0#{ 1 := hello, new_val => 1337 },\n"
" map_fun_2:val(M1).\n">>},
{map_fun_2,
<<"val(#{ 1 := V1, hi := V2, new_val := V3}) -> {V1,V2,V3}.\n">>}],
compile(Config, Ts),
ok = pp_expr(<<"#{}">>),
ok = pp_expr(<<"#{ a => 1, <<\"hi\">> => \"world\", 33 => 1.0 }">>),
ok = pp_expr(<<"#{ a := V1, <<\"hi\">> := V2 } = M">>),
ok = pp_expr(<<"M#{ a => V1, <<\"hi\">> := V2 }">>),
F = <<"-module(maps_type_syntax).\n"
"-compile(export_all).\n"
"-type t1() :: map().\n"
"-type t2() :: #{ atom() => integer(), atom() => float() }.\n"
"-type u() :: #{a => (I :: integer()) | (A :: atom()),\n"
" (X :: atom()) | (Y :: atom()) =>\n"
" (I :: integer()) | (A :: atom())}.\n"
"-spec f1(t1()) -> 'true'.\n"
"f1(M) when is_map(M) -> true.\n"
"-spec f2(t2()) -> integer().\n"
"f2(#{a := V1,b := V2}) -> V1 + V2.\n"
"\n">>,
ok = pp_forms(F),
ok.
%% OTP_8567. Avoid duplicated 'undefined' in record field types.
otp_8567(Config) when is_list(Config) ->
FileName = filename('otp_8567.erl', Config),
C = <<"-module otp_8567.\n"
"-compile export_all.\n"
"-spec(a).\n"
"-record r, {a}.\n"
"-record s, {a :: integer()}.\n"
"-type t() :: {#r{},#s{}}.\n">>,
ok = file:write_file(FileName, C),
{error,[{_,[{3,erl_parse,["syntax error before: ","')'"]}]}],_} =
compile:file(FileName, [return]),
F = <<"-module(otp_8567).\n"
"-compile(export_all).\n"
"-record(t, {a}).\n"
"-record(u, {a :: integer()}).\n"
"-opaque ot() :: {#t{}, #u{}}.\n"
"-opaque(ot1() :: atom()).\n"
"-type a() :: integer().\n"
"-spec t() -> a().\n"
"t() ->\n"
" 3.\n"
"\n"
"-spec(t2 (ot()) -> ot1()).\n"
"t2(A) ->\n"
" A.\n"
"\n"
"-spec(otp_8567:t4 (ot()) -> ot1()).\n"
"t4(A) ->\n"
" A.\n">>,
ok = pp_forms(F),
ok.
%% OTP_8664. Types with integer expressions.
otp_8664(Config) when is_list(Config) ->
FileName = filename('otp_8664.erl', Config),
C1 = <<"-module(otp_8664).\n"
"-export([t/0]).\n"
"-define(A, -3).\n"
"-define(B, (?A*(-1 band (((2)))))).\n"
"-type t1() :: ?B | ?A.\n"
"-type t2() :: ?B-1 .. -?B.\n"
"-type t3() :: 9 band (8 - 3) | 1+2 | 5 band 3.\n"
"-type b1() :: <<_:_*(3-(-1))>>\n"
" | <<_:(-(?B))>>\n"
" | <<_:4>>.\n"
"-type u() :: 1 .. 2 | 3.. 4 | (8-3) ..6 | 5+0..6.\n"
"-type t() :: t1() | t2() | t3() | b1() | u().\n"
"-spec t() -> t().\n"
"t() -> 3.\n">>,
ok = file:write_file(FileName, C1),
{ok, _, []} = compile:file(FileName, [return]),
C2 = <<"-module(otp_8664).\n"
"-export([t/0]).\n"
"-spec t() -> 9 and 4.\n"
"t() -> 0.\n">>,
ok = file:write_file(FileName, C2),
{error,[{_,[{3,erl_lint,{type_syntax,integer}}]}],_} =
compile:file(FileName, [return]),
ok.
%% OTP-9147. Create well-formed types when adding 'undefined'.
otp_9147(Config) when is_list(Config) ->
FileName = filename('otp_9147.erl', Config),
C1 = <<"-module(otp_9147).\n"
"-export_type([undef/0]).\n"
"-record(undef, {f1 :: F1 :: a | b}).\n"
"-type undef() :: #undef{}.\n">>,
ok = file:write_file(FileName, C1),
{ok, _, []} =
compile:file(FileName, [return,'P',{outdir,?privdir}]),
PFileName = filename('otp_9147.P', Config),
{ok, Bin} = file:read_file(PFileName),
%% The parentheses around "F1 :: a | b" are new (bugfix).
true =
lists:member("-record(undef,{f1 :: F1 :: a | b}).",
string:tokens(binary_to_list(Bin), "\n")),
ok.
%% OTP-10302. Unicode characters scanner/parser.
otp_10302(Config) when is_list(Config) ->
Ts = [{uni_1,
<<"t() -> <<(<<\"abc\\x{aaa}\">>):3/binary>>.">>}
],
compile(Config, Ts),
ok = pp_expr(<<"$\\x{aaa}">>),
ok = pp_expr(<<"\"1\\x{aaa}\"">>),
ok = pp_expr(<<"<<<<\"hej\">>/binary>>">>),
ok = pp_expr(<<"<< <<\"1\\x{aaa}\">>/binary>>">>),
U = [{encoding,unicode}],
do_hook(fun(H) -> [{hook,H}] end),
do_hook(fun(H) -> [{hook,H}]++U end),
ok = pp_expr(<<"$\\x{aaa}">>, [{hook,fun hook/4}]),
Opts = [{hook, fun unicode_hook/4},{encoding,unicode}],
Lc = parse_expr("[X || X <- [\"\x{400}\",\"\xFF\"]]."),
A0 = erl_anno:new(0),
Expr = {call,A0,{atom,A0,fff},[{foo,{foo,Lc}},{foo,{foo,Lc}}]},
EChars = lists:flatten(erl_pp:expr(Expr, 0, Opts)),
Call = {call,A0,{atom,A0,foo},[{call,A0,{atom,A0,foo},[Lc]}]},
Expr2 = {call,A0,{atom,A0,fff},[Call,Call]},
EChars2 = erl_pp:exprs([Expr2], U),
EChars = lists:flatten(EChars2),
[$\x{400},$\x{400}] = [C || C <- EChars, C > 255],
ok = pp_forms(<<"function() -> {\"\x{400}\",$\x{400}}. "/utf8>>, U),
ok = pp_forms("function() -> {\"\x{400}\",$\x{400}}. ", []),
ok.
unicode_hook({foo,E}, I, P, H) ->
A = erl_anno:new(0),
erl_pp:expr({call,A,{atom,A,foo},[E]}, I, P, H).
%% OTP-10820. Unicode filenames.
otp_10820(Config) when is_list(Config) ->
C1 = <<"%% coding: utf-8\n -module(any).">>,
ok = do_otp_10820(Config, C1, "+pc latin1"),
ok = do_otp_10820(Config, C1, "+pc unicode"),
C2 = <<"%% coding: latin-1\n -module(any).">>,
ok = do_otp_10820(Config, C2, "+pc latin1"),
ok = do_otp_10820(Config, C2, "+pc unicode").
do_otp_10820(Config, C, PC) ->
{ok,Node} = start_node(erl_pp_helper, "+fnu " ++ PC),
L = [915,953,959,973,957,953,954,959,957,964],
FileName = filename(L++".erl", Config),
ok = rpc:call(Node, file, write_file, [FileName, C]),
{ok, _, []} = rpc:call(Node, compile, file,
[FileName, [return,'P',{outdir,?privdir}]]),
PFileName = filename(L++".P", Config),
{ok, Bin} = rpc:call(Node, file, read_file, [PFileName]),
true = test_server:stop_node(Node),
true = file_attr_is_string(binary_to_list(Bin)),
ok.
file_attr_is_string("-file(\"" ++ _) -> true;
file_attr_is_string([_ | L]) ->
file_attr_is_string(L).
%% OTP-11100. Fix printing of invalid forms.
otp_11100(Config) when is_list(Config) ->
%% There are a few places where the added code ("options(none)")
%% doesn't make a difference (pp:bit_elem_type/1 is an example).
%% Cannot trigger the use of the hook function with export/import.
"-export([{fy,a}/b]).\n" =
pf({attribute,1,export,[{{fy,a},b}]}),
A1 = erl_anno:new(1),
"-type foo() :: integer(INVALID-FORM:{foo,bar}:).\n" =
pf({attribute,A1,type,{foo,{type,A1,integer,[{foo,bar}]},[]}}),
pf({attribute,A1,type,
{a,{type,A1,range,[{integer,A1,1},{foo,bar}]},[]}}),
"-type foo(INVALID-FORM:{foo,bar}:) :: A.\n" =
pf({attribute,A1,type,{foo,{var,A1,'A'},[{foo,bar}]}}),
"-type foo() :: INVALID-FORM:{foo,bar}: :: [].\n" =
pf({attribute,A1,type,
{foo,{paren_type,A1,
[{ann_type,A1,[{foo,bar},{type,A1,nil,[]}]}]},
[]}}),
"-type foo() :: <<_:INVALID-FORM:{foo,bar}:>>.\n" =
pf({attribute,A1,type,
{foo,{type,A1,binary,[{foo,bar},{integer,A1,0}]},[]}}),
"-type foo() :: <<_:10, _:_*INVALID-FORM:{foo,bar}:>>.\n" =
pf({attribute,A1,type,
{foo,{type,A1,binary,[{integer,A1,10},{foo,bar}]},[]}}),
"-type foo() :: #r{INVALID-FORM:{foo,bar}: :: integer()}.\n" =
pf({attribute,A1,type,
{foo,{type,A1,record,
[{atom,A1,r},
{type,A1,field_type,
[{foo,bar},{type,A1,integer,[]}]}]},
[]}}),
ok.
%% OTP-11861. behaviour_info() and -callback.
otp_11861(Config) when is_list(Config) ->
"-optional_callbacks([bar/0]).\n" =
pf({attribute,3,optional_callbacks,[{bar,0}]}),
"-optional_callbacks([{bar,1,bad}]).\n" =
pf({attribute,4,optional_callbacks,[{bar,1,bad}]}),
ok.
pf(Form) ->
lists:flatten(erl_pp:form(Form, none)).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
compile(Config, Tests) ->
F = fun({N,P}, BadL) ->
case catch compile_file(Config, P) of
ok ->
case pp_forms(P) of
ok ->
BadL;
not_ok ->
io:format("~nTest ~p failed.~n", [N]),
fail()
end;
Bad ->
io:format("~nTest ~p failed. got~n ~p~n",
[N, Bad]),
fail()
end
end,
lists:foldl(F, [], Tests).
compile_file(Config, Test0) ->
case compile_file(Config, Test0, ['E']) of
{ok, RootFile} ->
File = RootFile ++ ".E",
{ok, Bin0} = file:read_file(File),
Bin = strip_module_info(Bin0),
%% A very simple check: just try to compile the output.
case compile_file(Config, Bin, []) of
{ok, RootFile2} ->
File2 = RootFile2 ++ ".E",
{ok, Bin1} = file:read_file(File2),
case Bin0 =:= Bin1 of
true ->
test_max_line(binary_to_list(Bin));
false ->
{error, file_contents_modified, {Bin0, Bin1}}
end;
Error ->
{error, could_not_compile_E_file, Error}
end;
Error ->
Error
end.
compile_file(Config, Test0, Opts0) ->
FileName = filename('erl_pp_test.erl', Config),
Test = list_to_binary(["-module(erl_pp_test). "
"-compile(export_all). ",
Test0]),
Opts = [export_all,return,nowarn_unused_record,{outdir,?privdir} | Opts0],
ok = file:write_file(FileName, Test),
case compile:file(FileName, Opts) of
{ok, _M, _Ws} ->
{ok, filename:rootname(FileName)};
Error -> Error
end.
strip_module_info(Bin) ->
{match, [{Start,_Len}|_]} = re:run(Bin, "module_info"),
<<R:Start/binary,_/binary>> = Bin,
R.
flat_expr1(Expr0) ->
Expr = erl_parse:new_anno(Expr0),
lists:flatten(erl_pp:expr(Expr)).
flat_expr(Expr0) ->
Expr = erl_parse:new_anno(Expr0),
lists:flatten(erl_pp:expr(Expr, -1, none)).
flat_form(Form0) ->
Form = erl_parse:new_anno(Form0),
lists:flatten(erl_pp:form(Form)).
pp_forms(Bin) ->
pp_forms(Bin, none).
pp_forms(Bin, Options) when is_binary(Bin) ->
pp_forms(to_list(Bin, Options), Options);
pp_forms(List, Options) when is_list(List) ->
PP1 = (catch parse_and_pp_forms(List, Options)),
PP2 = (catch parse_and_pp_forms(PP1, Options)),
case PP1 =:= PP2 of % same line numbers
true ->
test_max_line(PP1);
false ->
not_ok
end.
parse_and_pp_forms(String, Options) ->
lists:append(lists:map(fun(AF) -> erl_pp:form(AF, Options)
end, parse_forms(String))).
parse_forms(Chars) ->
String = lists:flatten(Chars),
parse_forms2(String, [], 1, []).
parse_forms2([], _Cont, _Line, Forms) ->
lists:reverse(Forms);
parse_forms2(String, Cont0, Line, Forms) ->
case erl_scan:tokens(Cont0, String, Line, [unicode]) of
{done, {ok, Tokens, EndLine}, Chars} ->
{ok, Form} = erl_parse:parse_form(Tokens),
parse_forms2(Chars, [], EndLine, [Form | Forms]);
{more, Cont} when element(4, Cont) =:= [] ->
%% extra spaces after forms...
parse_forms2([], Cont, Line, Forms);
{more, Cont} ->
%% final dot needs a space...
parse_forms2(" ", Cont, Line, Forms)
end.
pp_expr(Bin) ->
pp_expr(Bin, none).
%% Final dot is added.
pp_expr(Bin, Options) when is_binary(Bin) ->
pp_expr(to_list(Bin, Options), Options);
pp_expr(List, Options) when is_list(List) ->
PP1 = (catch parse_and_pp_expr(List, 0, Options)),
PPneg = (catch parse_and_pp_expr(List, -1, Options)),
PP2 = (catch parse_and_pp_expr(PPneg, 0, Options)),
if
PP1 =:= PP2 -> % same line numbers
case
(test_max_line(PP1) =:= ok) and (test_new_line(PPneg) =:= ok)
of
true ->
ok;
false ->
not_ok
end;
true ->
not_ok
end.
parse_and_pp_expr(String, Indent, Options) ->
StringDot = lists:flatten(String) ++ ".",
erl_pp:expr(parse_expr(StringDot), Indent, Options).
parse_expr(Chars) ->
{ok, Tokens, _} = erl_scan:string(Chars, 1, [unicode]),
{ok, [Expr]} = erl_parse:parse_exprs(Tokens),
Expr.
to_list(Bin, Options) when is_list(Options) ->
case proplists:get_value(encoding, Options) of
unicode -> unicode:characters_to_list(Bin);
encoding -> binary_to_list(Bin);
undefined -> binary_to_list(Bin)
end;
to_list(Bin, _Hook) ->
binary_to_list(Bin).
test_new_line(String) ->
case string:chr(String, $\n) of
0 -> ok;
_ -> not_ok
end.
test_max_line(String) ->
case max_line(String) of
ML when ML > 100 ->
{error, max_line_too_big, {ML,String}};
_ML ->
ok
end.
max_line(String) ->
lists:max([0 | [length(Sub) ||
Sub <- string:tokens(String, "\n"),
string:substr(Sub, 1, 5) =/= "-file"]]).
filename(Name, Config) when is_atom(Name) ->
filename(atom_to_list(Name), Config);
filename(Name, Config) ->
filename:join(?privdir, Name).
fail() ->
ct:fail(failed).
%% +fnu means a peer node has to be started; slave will not do
start_node(Name, Xargs) ->
PA = filename:dirname(code:which(?MODULE)),
test_server:start_node(Name, peer, [{args, "-pa " ++ PA ++ " " ++ Xargs}]).