%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2007-2016. 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%
%%
-module(core_fold_SUITE).
-export([all/0, suite/0,groups/0,init_per_suite/1, end_per_suite/1,
init_per_group/2,end_per_group/2,
t_element/1,setelement/1,t_length/1,append/1,t_apply/1,bifs/1,
eq/1,nested_call_in_case/1,guard_try_catch/1,coverage/1,
unused_multiple_values_error/1,unused_multiple_values/1,
multiple_aliases/1,redundant_boolean_clauses/1,
mixed_matching_clauses/1,unnecessary_building/1,
no_no_file/1,configuration/1,supplies/1]).
-export([foo/0,foo/1,foo/2,foo/3]).
-include_lib("common_test/include/ct.hrl").
suite() -> [{ct_hooks,[ts_install_cth]}].
all() ->
test_lib:recompile(?MODULE),
[{group,p}].
groups() ->
[{p,[parallel],
[t_element,setelement,t_length,append,t_apply,bifs,
eq,nested_call_in_case,guard_try_catch,coverage,
unused_multiple_values_error,unused_multiple_values,
multiple_aliases,redundant_boolean_clauses,
mixed_matching_clauses,unnecessary_building,
no_no_file,configuration,supplies]}].
init_per_suite(Config) ->
Config.
end_per_suite(_Config) ->
ok.
init_per_group(_GroupName, Config) ->
Config.
end_per_group(_GroupName, Config) ->
Config.
t_element(Config) when is_list(Config) ->
X = make_ref(),
X = id(element(1, {X,y,z})),
b = id(element(2, {a,b,c,d})),
(fun() ->
case {a,#{k=>X}} of
{a,#{k:=X}}=Tuple ->
#{k:=X} = id(element(2, Tuple))
end
end)(),
%% No optimization, but should work.
Tuple = id({x,y,z}),
Pos = id(3),
x = id(element(1, Tuple)),
c = id(element(Pos, {a,b,c,d})),
X = id(element(Pos, {a,b,X,d})),
z = id(element(Pos, Tuple)),
%% Calls that will fail.
{'EXIT',{badarg,_}} = (catch element(5, {a,b,c,d})),
{'EXIT',{badarg,_}} = (catch element(5, {a,b,X,d})),
{'EXIT',{badarg,_}} = (catch element(5.0, {a,b,X,d})),
{'EXIT',{badarg,_}} = (catch element(2, not_a_tuple)),
{'EXIT',{badarg,_}} = (catch element(2, [])),
{'EXIT',{badarg,_}} = (catch element(2, Tuple == 3)),
case id({a,b,c}) of
{_,_,_}=Tup ->
{'EXIT',{badarg,_}} = (catch element(4, Tup))
end,
{'EXIT',{badarg,_}} = (catch element(1, tuple_size(Tuple))),
ok.
setelement(Config) when is_list(Config) ->
X = id(b),
New = id([1,2,3]),
{y,b,c} = id(setelement(1, {a,b,c}, y)),
{y,b,c} = id(setelement(1, {a,X,c}, y)),
{a,y,c} = id(setelement(2, {a,X,c}, y)),
{a,[1,2,3],c} = id(setelement(2, {a,b,c}, New)),
{a,[1,2,3],c} = id(setelement(2, {a,X,c}, New)),
{a,b,[1,2,3]} = id(setelement(3, {a,b,c}, New)),
{a,b,[1,2,3]} = id(setelement(3, {a,X,c}, New)),
{'EXIT',{badarg,_}} = (catch setelement_crash({a,b,c,d,e,f})),
error = setelement_crash_2({a,b,c,d,e,f}, <<42>>),
{'EXIT',{badarg,_}} = (catch setelement(1, not_a_tuple, New)),
{'EXIT',{badarg,_}} = (catch setelement(3, {a,b}, New)),
ok.
setelement_crash(Tuple) ->
%% Used to crash the compiler because sys_core_dsetel did not notice that
%% X1 was used in bit syntax construction.
X1 = setelement(5, Tuple, new),
X2 = setelement(3, X1, new),
{X2,<<X1>>}.
setelement_crash_2(Tuple, Bin) ->
%% Used to crash the compiler because sys_core_dsetel did not notice that
%% X1 was used as a size field in bit syntax matching.
X1 = setelement(5, Tuple, new),
X2 = setelement(3, X1, new),
case Bin of
<<42:X1>> -> X2;
_ -> error
end.
t_length(Config) when is_list(Config) ->
Blurf = id({blurf,a,b}),
Tail = id([42,43,44,45]),
0 = id(length([])),
1 = id(length([x])),
2 = id(length([x,Blurf])),
4 = id(length([x,Blurf,a,b])),
%% No or partial optimization.
4 = length(Tail),
5 = id(length([x|Tail])),
%% Will fail.
{'EXIT',{badarg,_}} = (catch id(length([a,b|c]))),
{'EXIT',{badarg,_}} = (catch id(length([a,Blurf|c]))),
{'EXIT',{badarg,_}} = (catch id(length(atom))),
ok.
-define(APPEND(A, B), (fun(Res) ->
Res = lists:append(A, B),
Res = erlang:append(A, B),
Res = erlang:'++'(A, B)
end)(A++B)).
append(Config) when is_list(Config) ->
A = id(0),
[a,b,c,d,e,f,g,h,i,j,k] = id(?APPEND([a,b,c,d,e,f],[g,h,i,j,k])),
[a,b,c,d,e] = id(?APPEND([a,b,c],id([d,e]))),
[0,1,2,3,4,5,6] = id(?APPEND([A,1,2,3],[4,5,6])),
{'EXIT',{badarg,_}} = (catch id(?APPEND([A|blurf],[4,5,6]))),
ok.
t_apply(Config) when is_list(Config) ->
ok = apply(?MODULE, foo, []),
4 = apply(?MODULE, foo, [3]),
7 = apply(?MODULE, foo, [3,4]),
12 = apply(?MODULE, foo, [id(8),4]),
21 = apply(?MODULE, foo, [8,id(9),4]),
20 = apply(?MODULE, foo, [8,8,id(4)]),
24 = apply(?MODULE, foo, [id(10),10,4]),
M = id(?MODULE),
ok = apply(M, foo, []),
4 = apply(M, foo, [3]),
16.0 = apply(M, foo, [12.0,4]),
%% Will fail.
{'EXIT',{badarg,_}} = (catch apply([a,b,c], foo, [])),
{'EXIT',{badarg,_}} = (catch apply(42, foo, [])),
{'EXIT',{badarg,_}} = (catch apply(?MODULE, 45, [xx])),
{'EXIT',{badarg,_}} = (catch apply(?MODULE, foo, {a,b})),
{'EXIT',{badarg,_}} = (catch apply(M, M, [1009|10010])),
{'EXIT',{badarg,_}} = (catch apply(?MODULE, foo, [10000|9999])),
{'EXIT',{badarg,_}} = (catch apply(?MODULE, foo, a)),
ok.
foo() ->
ok.
foo(A) ->
A+1.
foo(A, B) ->
A + B.
foo(A, B, C) ->
A + B + C.
bifs(Config) when is_list(Config) ->
<<1,2,3,4>> = id(list_to_binary([1,2,3,4])),
K = {a,key},
V = {a,value},
{ok,#{K:=V}} = id(list_to_tuple([ok,#{K=>V}])),
ok.
-define(CMP_SAME(A0, B), (fun(A) -> true = A == B, false = A /= B end)(id(A0))).
-define(CMP_DIFF(A0, B), (fun(A) -> false = A == B, true = A /= B end)(id(A0))).
eq(Config) when is_list(Config) ->
?CMP_SAME([a,b,c], [a,b,c]),
?CMP_SAME([42.0], [42.0]),
?CMP_SAME([42], [42]),
?CMP_SAME([42.0], [42]),
?CMP_DIFF(a, [a]),
?CMP_DIFF(a, {1,2,3}),
?CMP_SAME(#{a=>1.0,b=>2}, #{b=>2.0,a=>1}),
?CMP_SAME(#{a=>[1.0],b=>[2]}, #{b=>[2.0],a=>[1]}),
%% The rule for comparing keys are different in 17.x and 18.x.
%% Just test that the results are consistent.
Bool = id(#{1=>a}) == id(#{1.0=>a}), %Unoptimizable.
Bool = id(#{1=>a}) == #{1.0=>a}, %Optimizable.
Bool = #{1=>a} == #{1.0=>a}, %Optimizable.
io:format("Bool = ~p\n", [Bool]),
ok.
%% OTP-7117.
nested_call_in_case(Config) when is_list(Config) ->
PrivDir = proplists:get_value(priv_dir, Config),
Dir = test_lib:get_data_dir(Config),
Core = filename:join(Dir, "nested_call_in_case"),
Opts = [from_core,{outdir,PrivDir}|test_lib:opt_opts(?MODULE)],
io:format("~p", [Opts]),
{ok,Mod} = c:c(Core, Opts),
yes = Mod:a([1,2,3], 2),
no = Mod:a([1,2,3], 4),
{'EXIT',_} = (catch Mod:a(not_a_list, 42)),
_ = code:delete(Mod),
_ = code:purge(Mod),
ok.
guard_try_catch(_Config) ->
false = do_guard_try_catch(key, value),
value = get(key),
ok.
do_guard_try_catch(K, V) ->
%% This try...catch block looks like a guard.
%% Make sure that it is not optimized like a guard
%% (the put/2 call must not be optimized away).
try
put(K, V),
false
catch
_:_ ->
false
end.
-record(cover_opt_guard_try, {list=[]}).
coverage(Config) when is_list(Config) ->
{'EXIT',{{case_clause,{a,b,c}},_}} =
(catch cover_will_match_list_type({a,b,c})),
{'EXIT',{{case_clause,{a,b,c,d}},_}} =
(catch cover_will_match_list_type({a,b,c,d})),
a = cover_remove_non_vars_alias({a,b,c}),
error = cover_will_match_lit_list(),
{ok,[a]} = cover_is_safe_bool_expr(a),
ok = cover_opt_guard_try(#cover_opt_guard_try{list=[a]}),
error = cover_opt_guard_try(#cover_opt_guard_try{list=[]}),
%% Make sure that we don't attempt to make literals
%% out of pids. (Putting a pid into a #c_literal{}
%% would crash later compiler passes.)
case list_to_pid("<0.42.0>") of
Pid when is_pid(Pid) -> ok
end,
%% Cover the non-variable case in bsm_do_an/4.
ok = bsm_an_inlined(<<1>>, Config),
error = bsm_an_inlined(<<1,2,3>>, Config),
error = bsm_an_inlined([], Config),
%% Cover eval_rel_op/4.
Tuple = id({a,b}),
false = case Tuple of
{_,_} ->
Tuple =:= true
end,
ok.
cover_will_match_list_type(A) ->
case A of
{a,_,_} -> %Set type of A to {a,_,_}.
case A of
{a,_,_,_} -> ok %Compare type and pattern.
end
end.
%% Make sure the remove_non_vars/4 can handle aliases in the type argument.
cover_remove_non_vars_alias(X) ->
case X of
{a=Y,_,_} -> %Set type of A to {a=Y,_,_}.
case X of
{_,_,_} -> %Compare type and pattern.
Y
end
end.
cover_will_match_lit_list() ->
case {1,2,3} of %Literal case expression.
{_,$A,$A} -> %Pattern that does not match.
ok;
_ ->
error
end.
cover_is_safe_bool_expr(X) ->
%% Use a try...catch that looks like a try...catch in a guard.
try
%% let V = [X] in {ok,V}
%% is_safe_simple([X]) ==> true
%% is_safe_bool_expr([X]) ==> false
V = [X],
{ok,V}
catch
_:_ ->
false
end.
cover_opt_guard_try(Msg) ->
if
length(Msg#cover_opt_guard_try.list) =/= 1 ->
error;
true ->
ok
end.
bsm_an_inlined(<<_:8>>, _) -> ok;
bsm_an_inlined(_, _) -> error.
unused_multiple_values_error(Config) when is_list(Config) ->
PrivDir = proplists:get_value(priv_dir, Config),
Dir = test_lib:get_data_dir(Config),
Core = filename:join(Dir, "unused_multiple_values_error"),
Opts = [no_copt,clint,return,from_core,{outdir,PrivDir}
|test_lib:opt_opts(?MODULE)],
{error,[{unused_multiple_values_error,
[{none,core_lint,{return_mismatch,{hello,1}}}]}],
[]} = c:c(Core, Opts),
ok.
unused_multiple_values(Config) when is_list(Config) ->
put(unused_multiple_values, []),
[false] = test_unused_multiple_values(false),
[b,a,{a,b},false] = test_unused_multiple_values({a,b}),
ok.
test_unused_multiple_values(X) ->
ok = do_unused_multiple_values(X),
get(unused_multiple_values).
do_unused_multiple_values(X) ->
case do_something(X) of
false ->
A = false;
Res ->
{A,B} = Res,
do_something(A),
do_something(B)
end,
_ThisShouldNotFail = A,
ok.
do_something(I) ->
put(unused_multiple_values,
[I|get(unused_multiple_values)]),
I.
%% Make sure that multiple aliases does not cause
%% the case expression to be evaluated twice.
multiple_aliases(Config) when is_list(Config) ->
do_ma(fun() ->
X = Y = run_once(),
{X,Y}
end, {ok,ok}),
do_ma(fun() ->
case {true,run_once()} of
{true=A=B,ok=X=Y} ->
{A,B,X,Y}
end
end, {true,true,ok,ok}),
ok.
do_ma(Fun, Expected) when is_function(Fun, 0) ->
Expected = Fun(),
ran_once = erase(run_once),
ok.
run_once() ->
undefined = put(run_once, ran_once),
ok.
redundant_boolean_clauses(Config) when is_list(Config) ->
X = id(0),
yes = case X == 0 of
false -> no;
false -> no;
true -> yes
end.
mixed_matching_clauses(Config) when is_list(Config) ->
0 = case #{} of
#{} -> 0;
a -> 1
end,
0 = case <<>> of
<<>> -> 0;
a -> 1
end,
ok.
unnecessary_building(Config) when is_list(Config) ->
Term1 = do_unnecessary_building_1(test_lib:id(a)),
[{a,a},{a,a}] = Term1,
7 = erts_debug:size(Term1),
%% The Input term should not be rebuilt (thus, it should
%% only be counted once in the size of the combined term).
Input = test_lib:id({a,b,c}),
Term2 = test_lib:id(do_unnecessary_building_2(Input)),
{b,[{a,b,c},none],x} = Term2,
4+4+4+2 = erts_debug:size([Term2|Input]),
ok.
do_unnecessary_building_1(S) ->
%% The tuple must only be built once.
F0 = F1 = {S,S},
[F0,F1].
do_unnecessary_building_2({a,_,_}=T) ->
%% The T term should not be rebuilt.
{b,
[_,_] = [T,none],
x}.
%% This test tests that v3_core has provided annotations and that
%% sys_core_fold retains them, so that warnings produced by
%% sys_core_fold will have proper filenames and line numbers. Thus, no
%% "no_file" warnings.
no_no_file(_Config) ->
{'EXIT',{{case_clause,0},_}} = (catch source(true, any)),
surgery = (tim(#{reduction => any}))(),
false = soul(#{[] => true}),
{'EXIT',{{case_clause,true},_}} = (catch soul(#{[] => false})),
ok = experiment(),
ok.
source(true, Activities) ->
case 0 of
Activities when [] ->
Activities
end.
tim(#{reduction := Emergency}) ->
try
fun() -> surgery end
catch
_ when [] ->
planet
end.
soul(#{[] := Properly}) ->
not case true of
Properly -> true;
Properly -> 0
end.
experiment() ->
case kingdom of
_ ->
+case "map" of
_ -> 0.0
end
end,
ok.
%% Make sure we don't try to move a fun into a guard.
configuration(_Config) ->
{'EXIT',_} = (catch configuration()),
ok.
configuration() ->
[forgotten || Components <- enemy, is_tuple(fun art/0)].
art() ->
creating.
%% core_lint would complain after optimization. A call to error/1
%% must not occur unconditionally in a guard.
supplies(_Config) ->
case ?MODULE of
core_fold_inline_SUITE ->
%% Other error behaviour when inlined.
ok;
_ ->
{'EXIT',{function_clause,_}} = (catch do_supplies(#{1 => <<1,2,3>>})),
{'EXIT',{function_clause,_}} = (catch do_supplies(#{1 => a})),
{'EXIT',{function_clause,_}} = (catch do_supplies(42)),
ok
end.
do_supplies(#{1 := Value}) when byte_size(Value), byte_size(kg) -> working.
id(I) -> I.