%% %% %CopyrightBegin% %% %% Copyright Ericsson AB 1997-2018. 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(compile_SUITE). %% Tests compile:file/1 and compile:file/2 with various options. -include_lib("common_test/include/ct.hrl"). -include_lib("stdlib/include/erl_compile.hrl"). -export([all/0, suite/0,groups/0,init_per_suite/1, end_per_suite/1, init_per_group/2,end_per_group/2, app_test/1,appup_test/1, debug_info/4, custom_debug_info/1, custom_compile_info/1, file_1/1, forms_2/1, module_mismatch/1, outdir/1, binary/1, makedep/1, cond_and_ifdef/1, listings/1, listings_big/1, other_output/1, kernel_listing/1, encrypted_abstr/1, strict_record/1, utf8_atoms/1, utf8_functions/1, extra_chunks/1, cover/1, env/1, core_pp/1, tuple_calls/1, core_roundtrip/1, asm/1, sys_pre_attributes/1, dialyzer/1, warnings/1, pre_load_check/1, env_compiler_options/1, bc_options/1, deterministic_include/1, deterministic_paths/1 ]). suite() -> [{ct_hooks,[ts_install_cth]}]. %% To cover the stripping of 'type' and 'spec' in beam_asm. -type all_return_type() :: [atom()]. -spec all() -> all_return_type(). all() -> [app_test, appup_test, file_1, forms_2, module_mismatch, outdir, binary, makedep, cond_and_ifdef, listings, listings_big, other_output, kernel_listing, encrypted_abstr, tuple_calls, strict_record, utf8_atoms, utf8_functions, extra_chunks, cover, env, core_pp, core_roundtrip, asm, sys_pre_attributes, dialyzer, warnings, pre_load_check, env_compiler_options, custom_debug_info, bc_options, custom_compile_info, deterministic_include, deterministic_paths]. groups() -> []. init_per_suite(Config) -> test_lib:recompile(?MODULE), Config. end_per_suite(_Config) -> ok. init_per_group(_GroupName, Config) -> Config. end_per_group(_GroupName, Config) -> Config. %% Test that the Application file has no `basic' errors."; app_test(Config) when is_list(Config) -> test_server:app_test(compiler). %% Test that the Application upgrade file has no `basic' errors."; appup_test(Config) when is_list(Config) -> ok = test_server:appup_test(compiler). %% Tests that we can compile and run a simple Erlang program, %% using compile:file/1. file_1(Config) when is_list(Config) -> process_flag(trap_exit, true), {Simple, Target} = get_files(Config, simple, "file_1"), {ok, Cwd} = file:get_cwd(), ok = file:set_cwd(filename:dirname(Target)), %% Native from BEAM without compilation info. {ok,simple} = compile:file(Simple, [slim]), %Smoke test only. {ok,simple} = compile:file(Target, [native,from_beam]), %Smoke test. %% Native from BEAM with compilation info. {ok,simple} = compile:file(Simple), %Smoke test only. {ok,simple} = compile:file(Target, [native,from_beam]), %Smoke test. {ok,simple} = compile:file(Simple, [native,report]), %Smoke test. compile_and_verify(Simple, Target, []), compile_and_verify(Simple, Target, [native]), compile_and_verify(Simple, Target, [debug_info]), compile_and_verify(Simple, Target, [no_postopt]), {ok,simple} = compile:file(Simple, [no_line_info]), %Coverage {ok,simple} = compile:file(Simple, [{eprof,beam_z}]), %Coverage %% Test option 'deterministic'. {ok,simple} = compile:file(Simple, [deterministic]), {module,simple} = c:l(simple), [{version,_}] = simple:module_info(compile), true = code:delete(simple), false = code:purge(simple), ok = file:set_cwd(Cwd), true = exists(Target), passed = run(Target, test, []), %% Test option 'deterministic' as a compiler attribute. Det = deterministic_module, {DetPath, DetTarget} = get_files(Config, Det, "det_target"), {ok,Det,DetCode} = compile:file(DetPath, [binary]), {module,Det} = code:load_binary(Det, "", DetCode), [{version,_}] = Det:module_info(compile), true = code:delete(Det), false = code:purge(Det), %% Cleanup. ok = file:delete(Target), ok = file:del_dir(filename:dirname(Target)), ok = file:del_dir(filename:dirname(DetTarget)), %% There should not be any messages in the messages. receive Any -> ct:fail({unexpected,Any}) after 10 -> ok end, ok. forms_2(Config) when is_list(Config) -> Src = "/foo/bar", AbsSrc = filename:absname(Src), Anno = erl_anno:new(1), SimpleCode = [{attribute,Anno,module,simple}], {ok,simple,Bin1} = compile:forms(SimpleCode, [binary,{source,Src}]), %% Load and test that the proper source is returned. AbsSrc = forms_load_code(simple, Src, Bin1), %% Work in a deleted directory. PrivDir = proplists:get_value(priv_dir, Config), WorkDir = filename:join(PrivDir, ?FUNCTION_NAME), ok = file:make_dir(WorkDir), ok = file:set_cwd(WorkDir), case os:type() of {unix,_} -> os:cmd("rm -rf " ++ WorkDir); _ -> ok end, {ok,simple,Bin2} = compile:forms(SimpleCode), undefined = forms_load_code(simple, "ignore", Bin2), {ok,simple,Bin3} = compile:forms(SimpleCode, [{source,Src},report]), case forms_load_code(simple, "ignore", Bin3) of Src -> %Unix. ok; AbsSrc -> %Windows. ok end, {ok,simple,Core} = compile:forms(SimpleCode, [to_core0,binary]), forms_compile_and_load(Core, [from_core]), forms_compile_and_load(Core, [from_core,native]), {ok,simple,Asm} = compile:forms(SimpleCode, [to_asm,binary]), forms_compile_and_load(Asm, [from_asm]), forms_compile_and_load(Asm, [from_asm,native]), {ok,simple,Beam} = compile:forms(SimpleCode, []), forms_compile_and_load(Beam, [from_beam]), forms_compile_and_load(Beam, [from_beam,native]), %% Cover the error handling code. error = compile:forms(bad_core, [from_core,report]), error = compile:forms(bad_asm, [from_asm,report]), error = compile:forms(<<"bad_beam">>, [from_beam,report]), error = compile:forms(<<"bad_beam">>, [from_beam,native,report]), ok. forms_load_code(Mod, Src, Bin) -> {module,Mod} = code:load_binary(Mod, Src, Bin), Info = Mod:module_info(compile), SourceOption = proplists:get_value(source, Info), %% Ensure that the options are not polluted with 'source'. [] = proplists:get_value(options, Info), %% Cleanup. true = code:delete(simple), false = code:purge(simple), SourceOption. forms_compile_and_load(Code, Opts) -> Mod = simple, {ok,Mod,Bin} = compile:forms(Code, Opts), {module,Mod} = code:load_binary(Mod, "ignore", Bin), _ = Mod:module_info(), true = code:delete(simple), false = code:purge(simple), ok. module_mismatch(Config) when is_list(Config) -> DataDir = proplists:get_value(data_dir, Config), File = filename:join(DataDir, "wrong_module_name.erl"), {error,[{"wrong_module_name.beam", [{none,compile,{module_name,arne,"wrong_module_name"}}]}], []} = compile:file(File, [return]), error = compile:file(File, [report]), {ok,arne,[]} = compile:file(File, [return,no_error_module_mismatch]), ok. %% Tests that the {outdir, Dir} option works. outdir(Config) when is_list(Config) -> {Simple, Target} = get_files(Config, simple, "outdir"), {ok, simple} = compile:file(Simple, [{outdir, filename:dirname(Target)}]), true = exists(Target), passed = run(Target, test, []), ok = file:delete(Target), ok = file:del_dir(filename:dirname(Target)), ok. %% Tests that the binary option works. binary(Config) when is_list(Config) -> {Simple, Target} = get_files(Config, simple, "binary"), {ok, simple, Binary} = compile:file(Simple, [binary]), code:load_binary(simple, Target, Binary), passed = simple:test(), true = code:delete(simple), false = code:purge(simple), ok = file:del_dir(filename:dirname(Target)), ok. %% Tests that the dependencies-Makefile-related options work. makedep(Config) when is_list(Config) -> {Simple,Target} = get_files(Config, simple, "makedep"), DataDir = proplists:get_value(data_dir, Config), SimpleRootname = filename:rootname(Simple), IncludeDir = filename:join(filename:dirname(Simple), "include"), IncludeOptions = [ {d,need_foo}, {d,foo_value,42}, {d,include_generated}, {i,IncludeDir} ], %% Basic rule. BasicMf1Name = SimpleRootname ++ "-basic1.mk", {ok,BasicMf1} = file:read_file(BasicMf1Name), {ok,_,Mf1} = compile:file(Simple, [binary,makedep]), BasicMf1 = makedep_canonicalize_result(Mf1, DataDir), %% Basic rule with one existing header. BasicMf2Name = SimpleRootname ++ "-basic2.mk", {ok,BasicMf2} = file:read_file(BasicMf2Name), {ok,_,Mf2} = compile:file(Simple, [binary,makedep|IncludeOptions]), BasicMf2 = makedep_canonicalize_result(Mf2, DataDir), %% Rule with one existing header and one missing header. MissingMfName = SimpleRootname ++ "-missing.mk", {ok,MissingMf} = file:read_file(MissingMfName), {ok,_,Mf3} = compile:file(Simple, [binary,makedep,makedep_add_missing|IncludeOptions]), MissingMf = makedep_canonicalize_result(Mf3, DataDir), %% Rule with modified target. TargetMf1Name = SimpleRootname ++ "-target1.mk", {ok,TargetMf1} = file:read_file(TargetMf1Name), {ok,_,Mf4} = compile:file(Simple, [binary,makedep,{makedep_target,"$target"}|IncludeOptions]), TargetMf1 = makedep_modify_target( makedep_canonicalize_result(Mf4, DataDir), "$$target"), %% Rule with quoted modified target. TargetMf2Name = SimpleRootname ++ "-target2.mk", {ok,TargetMf2} = file:read_file(TargetMf2Name), {ok,_,Mf5} = compile:file(Simple, [binary,makedep,{makedep_target,"$target"},makedep_quote_target| IncludeOptions]), TargetMf2 = makedep_modify_target( makedep_canonicalize_result(Mf5, DataDir), "$$target"), %% Basic rule written to some file. {ok,_} = compile:file(Simple, [makedep,{makedep_output,Target}|IncludeOptions]), {ok,Mf6} = file:read_file(Target), BasicMf2 = makedep_canonicalize_result(Mf6, DataDir), %% Rule with creating phony target. PhonyMfName = SimpleRootname ++ "-phony.mk", {ok,PhonyMf} = file:read_file(PhonyMfName), {ok,_,Mf7} = compile:file(Simple, [binary,makedep,makedep_phony|IncludeOptions]), PhonyMf = makedep_canonicalize_result(Mf7, DataDir), ok = file:delete(Target), ok = file:del_dir(filename:dirname(Target)), ok. makedep_canonicalize_result(Mf, DataDir) -> Mf0 = binary_to_list(Mf), %% Replace the Datadir by "$(srcdir)". Mf1 = re:replace(Mf0, DataDir, "$(srcdir)/", [global,multiline,{return,list}]), %% Long lines are splitted, put back everything on one line. Mf2 = re:replace(Mf1, "\\\\\n ", "", [global,multiline,{return,list}]), list_to_binary(Mf2). makedep_modify_target(Mf, Target) -> Mf0 = binary_to_list(Mf), Mf1 = re:replace(Mf0, Target, "$target", [{return,list}]), list_to_binary(Mf1). %% Tests that conditional compilation, defining values, including files work. cond_and_ifdef(Config) when is_list(Config) -> {Simple, Target} = get_files(Config, simple, "cond_and_ifdef"), IncludeDir = filename:join(filename:dirname(Simple), "include"), Options = [{outdir, filename:dirname(Target)}, {d, need_foo}, {d, foo_value, 42}, {i, IncludeDir}, report], {ok, simple} = compile:file(Simple, Options), true = exists(Target), {hiker, 42} = run(Target, foo, []), ok = file:delete(Target), ok = file:del_dir(filename:dirname(Target)), ok. listings(Config) when is_list(Config) -> DataDir = proplists:get_value(data_dir, Config), PrivDir = proplists:get_value(priv_dir, Config), ok = do_file_listings(DataDir, PrivDir, [ "simple", "small", "small_maps" ]), ok. do_file_listings(_, _, []) -> ok; do_file_listings(DataDir, PrivDir, [File|Files]) -> Simple = filename:join(DataDir, File), TargetDir = filename:join(PrivDir, listings), ok = file:make_dir(TargetDir), List = [{'S',".S"}, {'E',".E"}, {'P',".P"}, {dpp, ".pp"}, {dabstr, ".abstr"}, {dexp, ".expand"}, {dcore, ".core"}, {doldinline, ".oldinline"}, {dinline, ".inline"}, {dcore, ".core"}, {dcopt, ".copt"}, {dcbsm, ".core_bsm"}, {dkern, ".kernel"}, {dssa, ".ssa"}, {dbool, ".bool"}, {dssashare, ".ssashare"}, {dssaopt, ".ssaopt"}, {dprecg, ".precodegen"}, {dcg, ".codegen"}, {dblk, ".block"}, {djmp, ".jump"}, {dclean, ".clean"}, {dpeep, ".peep"}, {dopt, ".optimize"}, {diffable, ".S"}], p_listings(List, Simple, TargetDir), %% Test options that produce a listing file if 'binary' is not given. do_listing(Simple, TargetDir, to_pp, ".P"), do_listing(Simple, TargetDir, to_exp, ".E"), do_listing(Simple, TargetDir, to_core0, ".core"), Listings = filename:join(PrivDir, listings), ok = file:delete(filename:join(Listings, File ++ ".core")), do_listing(Simple, TargetDir, to_core, ".core"), do_listing(Simple, TargetDir, to_kernel, ".kernel"), do_listing(Simple, TargetDir, to_dis, ".dis"), %% Final clean up. lists:foreach(fun(F) -> ok = file:delete(F) end, filelib:wildcard(filename:join(Listings, "*"))), ok = file:del_dir(Listings), do_file_listings(DataDir,PrivDir,Files). listings_big(Config) when is_list(Config) -> {Big,Target} = get_files(Config, big, listings_big), TargetDir = filename:dirname(Target), List = [{'S',".S"}, {'E',".E"}, {'P',".P"}, {dkern, ".kernel"}, {dssa, ".ssa"}, {dssaopt, ".ssaopt"}, {dprecg, ".precodegen"}, {to_dis, ".dis"}], p_listings(List, Big, TargetDir). p_listings(List, File, BaseDir) -> Run = fun({Option,Extension}) -> Uniq = erlang:unique_integer([positive]), Dir = filename:join(BaseDir, integer_to_list(Uniq)), ok = file:make_dir(Dir), try do_listing(File, Dir, Option, Extension), ok catch Class:Error:Stk -> io:format("~p:~p\n~p\n", [Class,Error,Stk]), error after _ = [ok = file:delete(F) || F <- filelib:wildcard(filename:join(Dir, "*"))], ok = file:del_dir(Dir) end end, test_lib:p_run(Run, List). other_output(Config) when is_list(Config) -> {Simple,_Target} = get_files(Config, simple, "other_output"), io:put_chars("to_pp"), {ok,[],PP} = compile:file(Simple, [to_pp,binary,time]), [] = [E || E <- PP, begin case element(1, E) of attribute -> false; function -> false; eof -> false end end], io:put_chars("to_exp (file)"), {ok,[],Expand} = compile:file(Simple, [to_exp,binary,time]), true = is_list(Expand), {attribute,_,module,simple} = lists:keyfind(module, 3, Expand), io:put_chars("to_exp (forms)"), {ok,[],Expand} = compile:forms(PP, [to_exp,binary,time]), io:put_chars("to_core (file)"), {ok,simple,Core} = compile:file(Simple, [to_core,binary,time]), c_module = element(1, Core), {ok,_} = core_lint:module(Core), io:put_chars("to_core (forms)"), {ok,simple,Core} = compile:forms(PP, [to_core,binary,time]), io:put_chars("to_kernel (file)"), {ok,simple,Kernel} = compile:file(Simple, [to_kernel,binary,time]), k_mdef = element(1, Kernel), io:put_chars("to_kernel (forms)"), {ok,simple,Kernel} = compile:forms(PP, [to_kernel,binary,time]), io:put_chars("to_asm (file)"), {ok,simple,Asm} = compile:file(Simple, [to_asm,binary,time]), {simple,_,_,_,_} = Asm, io:put_chars("to_asm (forms)"), {ok,simple,Asm} = compile:forms(PP, [to_asm,binary,time]), ok. %% Smoke test and cover of pretty-printing of Kernel code. kernel_listing(_Config) -> TestBeams = get_unique_beam_files(), Abstr = [begin {ok,{Mod,[{abstract_code, {raw_abstract_v1,Abstr}}]}} = beam_lib:chunks(Beam, [abstract_code]), {Mod,Abstr} end || Beam <- TestBeams], test_lib:p_run(fun(F) -> do_kernel_listing(F) end, Abstr). do_kernel_listing({M,A}) -> try {ok,M,Kern} = compile:forms(A, [to_kernel]), IoList = v3_kernel_pp:format(Kern), case unicode:characters_to_binary(IoList) of Bin when is_binary(Bin) -> ok end catch throw:{error,Error} -> io:format("*** compilation failure '~p' for module ~s\n", [Error,M]), error; Class:Error:Stk -> io:format("~p: ~p ~p\n~p\n", [M,Class,Error,Stk]), error end. encrypted_abstr(Config) when is_list(Config) -> {Simple,Target} = get_files(Config, simple, "encrypted_abstr"), Res = case has_crypto() of false -> %% No crypto. encrypted_abstr_no_crypto(Simple, Target), {comment,"The crypto application is missing or broken"}; true -> %% Simulate not having crypto by removing %% the crypto application from the path. OldPath = code:get_path(), try NewPath = OldPath -- [filename:dirname(code:which(crypto))], (catch crypto:stop()), code:delete(crypto), code:purge(crypto), code:set_path(NewPath), encrypted_abstr_no_crypto(Simple, Target) after code:set_path(OldPath) end, %% Now run the tests that require crypto. encrypted_abstr_1(Simple, Target), ok = file:delete(Target), ok = file:del_dir(filename:dirname(Target)) end, %% Cleanup. Res. encrypted_abstr_1(Simple, Target) -> TargetDir = filename:dirname(Target), Key = "ablurf123BX#$;3", install_crypto_key(Key), {ok,simple} = compile:file(Simple, [debug_info,{debug_info_key,Key}, {outdir,TargetDir}]), verify_abstract(Target, erl_abstract_code), {ok,simple} = compile:file(Simple, [{debug_info_key,Key}, {outdir,TargetDir}]), verify_abstract(Target, erl_abstract_code), {ok,simple} = compile:file(Simple, [debug_info,{debug_info_key,{des3_cbc,Key}}, {outdir,TargetDir}]), verify_abstract(Target, erl_abstract_code), {ok,simple} = compile:file(Simple, [{debug_info,{?MODULE,ok}}, {debug_info_key,Key}, {outdir,TargetDir}]), verify_abstract(Target, ?MODULE), {ok,{simple,[{compile_info,CInfo}]}} = beam_lib:chunks(Target, [compile_info]), {_,Opts} = lists:keyfind(options, 1, CInfo), {_,'********'} = lists:keyfind(debug_info_key, 1, Opts), %% Try some illegal forms of crypto keys. error = compile:file(Simple, [debug_info,{debug_info_key,{blurf,"ss"}},report]), error = compile:file(Simple, [debug_info,{debug_info_key,{blurf,1,"ss"}},report]), error = compile:file(Simple, [debug_info,{debug_info_key,42},report]), %% Place the crypto key in .erlang.crypt. beam_lib:clear_crypto_key_fun(), {ok,OldCwd} = file:get_cwd(), ok = file:set_cwd(TargetDir), error = compile:file(Simple, [encrypt_debug_info,report]), NewKey = "better use another key here", write_crypt_file(["[{debug_info,des3_cbc,simple,\"",NewKey,"\"}].\n"]), {ok,simple} = compile:file(Simple, [encrypt_debug_info,report]), verify_abstract("simple.beam", erl_abstract_code), ok = file:delete(".erlang.crypt"), beam_lib:clear_crypto_key_fun(), {error,beam_lib,{key_missing_or_invalid,"simple.beam",abstract_code}} = beam_lib:chunks("simple.beam", [abstract_code]), ok = file:set_cwd(OldCwd), %% Test key compatibility by reading a BEAM file produced before %% the update to the new crypto functions. install_crypto_key("an old key"), KeyCompat = filename:join(filename:dirname(Simple), "key_compatibility"), {ok,{key_compatibility,[Chunk]}} = beam_lib:chunks(KeyCompat, [abstract_code]), {abstract_code,{raw_abstract_v1,_}} = Chunk, ok. write_crypt_file(Contents0) -> Contents = list_to_binary([Contents0]), io:format("~s\n", [binary_to_list(Contents)]), ok = file:write_file(".erlang.crypt", Contents). encrypted_abstr_no_crypto(Simple, Target) -> io:format("simpe: ~p~n", [Simple]), TargetDir = filename:dirname(Target), Key = "ablurf123BX#$;3", error = compile:file(Simple, [debug_info,{debug_info_key,Key}, {outdir,TargetDir},report]), ok. verify_abstract(Beam, Backend) -> {ok,{simple,[Abst, Dbgi]}} = beam_lib:chunks(Beam, [abstract_code, debug_info]), {abstract_code,{raw_abstract_v1,_}} = Abst, {debug_info,{debug_info_v1,Backend,_}} = Dbgi. has_crypto() -> try crypto:start(), crypto:stop(), true catch error:_ -> false end. install_crypto_key(Key) -> F = fun (init) -> ok; ({debug_info,des3_cbc,_,_}) -> Key; (clear) -> ok end, ok = beam_lib:crypto_key_fun(F). %% Miscellanous tests, mainly to get better coverage. debug_info(erlang_v1, Module, ok, _Opts) -> {ok, [Module]}; debug_info(erlang_v1, _Module, error, _Opts) -> {error, unknown_format}. custom_debug_info(Config) when is_list(Config) -> {Simple,_} = get_files(Config, simple, "file_1"), {ok,simple,OkBin} = compile:file(Simple, [binary, {debug_info,{?MODULE,ok}}]), %Coverage {ok,{simple,[{abstract_code,{raw_abstract_v1,[simple]}}]}} = beam_lib:chunks(OkBin, [abstract_code]), {ok,{simple,[{debug_info,{debug_info_v1,?MODULE,ok}}]}} = beam_lib:chunks(OkBin, [debug_info]), {ok,simple,ErrorBin} = compile:file(Simple, [binary, {debug_info,{?MODULE,error}}]), %Coverage {ok,{simple,[{abstract_code,no_abstract_code}]}} = beam_lib:chunks(ErrorBin, [abstract_code]), {ok,{simple,[{debug_info,{debug_info_v1,?MODULE,error}}]}} = beam_lib:chunks(ErrorBin, [debug_info]). custom_compile_info(Config) when is_list(Config) -> Anno = erl_anno:new(1), Forms = [{attribute,Anno,module,custom_compile_info}], Opts = [binary,{compile_info,[{another,version}]}], {ok,custom_compile_info,Bin} = compile:forms(Forms, Opts), {ok,{custom_compile_info,[{compile_info,CompileInfo}]}} = beam_lib:chunks(Bin, [compile_info]), version = proplists:get_value(another, CompileInfo), CompileOpts = proplists:get_value(options, CompileInfo), undefined = proplists:get_value(compile_info, CompileOpts), {ok,custom_compile_info,DetBin} = compile:forms(Forms, [deterministic|Opts]), {ok,{custom_compile_info,[{compile_info,DetInfo}]}} = beam_lib:chunks(DetBin, [compile_info]), version = proplists:get_value(another, DetInfo). cover(Config) when is_list(Config) -> io:format("~p\n", [compile:options()]), ok. do_listing(Source, TargetDir, Type, Ext) -> io:format("Source: ~p TargetDir: ~p\n Type: ~p Ext: ~p\n", [Source, TargetDir, Type, Ext]), case compile:file(Source, [Type, time, {outdir, TargetDir}]) of {ok, _} -> ok; Other -> ct:fail({unexpected_result, Other}) end, SourceBase = filename:rootname(filename:basename(Source)), Target = filename:join(TargetDir, SourceBase ++ Ext), true = exists(Target). get_files(Config, Module, OutputName) -> code:delete(Module), code:purge(Module), DataDir = proplists:get_value(data_dir, Config), PrivDir = proplists:get_value(priv_dir, Config), Src = filename:join(DataDir, atom_to_list(Module)), TargetDir = filename:join(PrivDir, OutputName), ok = file:make_dir(TargetDir), File = atom_to_list(Module) ++ code:objfile_extension(), Target = filename:join(TargetDir, File), {Src, Target}. run(Target, Func, Args) -> Module = list_to_atom(filename:rootname(filename:basename(Target))), {module, Module} = code:load_abs(filename:rootname(Target)), Result = (catch apply(Module, Func, Args)), true = code:delete(Module), false = code:purge(Module), Result. exists(Name) -> case file:read_file_info(Name) of {ok, _} -> true; {error, _} -> false end. strict_record(Config) when is_list(Config) -> Priv = proplists:get_value(priv_dir, Config), ok = file:set_cwd(proplists:get_value(data_dir, Config)), Opts = [{outdir,Priv},report_errors], M = record_access, {ok,M} = c:c(M, [strict_record_tests|Opts]), Turtle = test_strict(), {ok,M} = c:c(M, [no_strict_record_tests|Opts]), Turtle = test_sloppy(), %% The option first given wins. {ok,M} = c:c(M, [no_strict_record_tests,strict_record_tests|Opts]), Turtle = test_sloppy(), {ok,M} = c:c(M, [strict_record_tests,no_strict_record_tests|Opts]), Turtle = test_strict(), %% Default (possibly influenced by ERL_COMPILER_OPTIONS). {ok,M} = c:c(M, [{outdir,Priv},report_errors]), try {1,2} = record_access:test(Turtle), {comment,"Default: no_strict_record_tests"} catch error:{badrecord,tortoise} -> {comment,"Default: strict_record_tests"} end. test_strict() -> Turtle = record_access:turtle(), try record_access:test(Turtle) catch error:{badrecord,tortoise} -> ok end, Turtle. test_sloppy() -> Turtle = record_access:turtle(), {1,2} = record_access:test(Turtle), Turtle. utf8_atoms(Config) when is_list(Config) -> Anno = erl_anno:new(1), Atom = binary_to_atom(<<"こんにちは"/utf8>>, utf8), Forms = [{attribute,Anno,compile,[export_all]}, {function,Anno,atom,0,[{clause,Anno,[],[],[{atom,Anno,Atom}]}]}], Utf8AtomForms = [{attribute,Anno,module,utf8_atom}|Forms], {ok,utf8_atom,Utf8AtomBin} = compile:forms(Utf8AtomForms, [binary]), {ok,{utf8_atom,[{atoms,_}]}} = beam_lib:chunks(Utf8AtomBin, [atoms]), code:load_binary(utf8_atom, "compile_SUITE", Utf8AtomBin), Atom = utf8_atom:atom(), NoUtf8AtomForms = [{attribute,Anno,module,no_utf8_atom}|Forms], error = compile:forms(NoUtf8AtomForms, [binary, r19]). utf8_functions(Config) when is_list(Config) -> Anno = erl_anno:new(1), Atom = binary_to_atom(<<"こんにちは"/utf8>>, utf8), Forms = [{attribute,Anno,compile,[export_all]}, {function,Anno,Atom,0,[{clause,Anno,[],[],[{atom,Anno,world}]}]}], Utf8FunctionForms = [{attribute,Anno,module,utf8_function}|Forms], {ok,utf8_function,Utf8FunctionBin} = compile:forms(Utf8FunctionForms, [binary]), {ok,{utf8_function,[{atoms,_}]}} = beam_lib:chunks(Utf8FunctionBin, [atoms]), code:load_binary(utf8_function, "compile_SUITE", Utf8FunctionBin), world = utf8_function:Atom(), NoUtf8FunctionForms = [{attribute,Anno,module,no_utf8_function}|Forms], error = compile:forms(NoUtf8FunctionForms, [binary, r19]). extra_chunks(Config) when is_list(Config) -> Anno = erl_anno:new(1), Forms = [{attribute,Anno,module,extra_chunks}], {ok,extra_chunks,ExtraChunksBinary} = compile:forms(Forms, [binary, {extra_chunks, [{<<"ExCh">>, <<"Contents">>}]}]), {ok,{extra_chunks,[{"ExCh",<<"Contents">>}]}} = beam_lib:chunks(ExtraChunksBinary, ["ExCh"]). tuple_calls(Config) when is_list(Config) -> Anno = erl_anno:new(1), Forms = [{attribute,Anno,export,[{size,1},{store,1}]}, {function,Anno,size,1, [{clause,Anno,[{var,[],mod}],[], [{call,[],{remote,[],{var,[],mod},{atom,[],size}},[]}]}]}, {function,Anno,store,1, [{clause,Anno,[{var,[],mod}],[], [{call,[],{remote,[],{var,[],mod},{atom,[],store}},[{atom,[],key},{atom,[],value}]}]}]}], TupleCallsFalse = [{attribute,Anno,module,tuple_calls_false}|Forms], {ok,_,TupleCallsFalseBinary} = compile:forms(TupleCallsFalse, [binary]), code:load_binary(tuple_calls_false, "compile_SUITE.erl", TupleCallsFalseBinary), {'EXIT',{badarg,_}} = (catch tuple_calls_false:store(dict())), {'EXIT',{badarg,_}} = (catch tuple_calls_false:size(dict())), {'EXIT',{badarg,_}} = (catch tuple_calls_false:size(empty_tuple())), TupleCallsTrue = [{attribute,Anno,module,tuple_calls_true}|Forms], {ok,_,TupleCallsTrueBinary} = compile:forms(TupleCallsTrue, [binary,tuple_calls]), code:load_binary(tuple_calls_true, "compile_SUITE.erl", TupleCallsTrueBinary), Dict = tuple_calls_true:store(dict()), 1 = tuple_calls_true:size(Dict), {'EXIT',{badarg,_}} = (catch tuple_calls_true:size(empty_tuple())), ok. dict() -> dict:new(). empty_tuple() -> {}. env(Config) when is_list(Config) -> {Simple,Target} = get_files(Config, simple, env), {ok,Cwd} = file:get_cwd(), ok = file:set_cwd(filename:dirname(Target)), true = os:putenv("ERL_COMPILER_OPTIONS", "binary"), try env_1(Simple, Target) after true = os:putenv("ERL_COMPILER_OPTIONS", "ignore_me"), file:set_cwd(Cwd), file:delete(Target), file:del_dir(filename:dirname(Target)) end, ok. env_1(Simple, Target) -> %% file {ok,simple,<<_/binary>>} = compile:file(Simple), {ok,simple} = compile:noenv_file(Simple, [debug_info]), true = exists(Target), {ok,{simple,[{abstract_code,Abstr0}]}} = beam_lib:chunks(Target, [abstract_code]), {raw_abstract_v1,Forms} = Abstr0, %% forms true = os:putenv("ERL_COMPILER_OPTIONS", "strong_validation"), {ok,simple} = compile:forms(Forms), {ok,simple,<<"FOR1",_/binary>>} = compile:noenv_forms(Forms, []), %% output_generated false = compile:output_generated([]), true = compile:noenv_output_generated([]), ok = file:delete(Target), ok. %% Test pretty-printing in Core Erlang format and then try to %% compile the generated Core Erlang files. core_pp(Config) when is_list(Config) -> PrivDir = proplists:get_value(priv_dir, Config), Outdir = filename:join(PrivDir, atom_to_list(?FUNCTION_NAME)), ok = file:make_dir(Outdir), TestBeams = get_unique_beam_files(), Abstr = [begin {ok,{Mod,[{abstract_code, {raw_abstract_v1,Abstr}}]}} = beam_lib:chunks(Beam, [abstract_code]), {Mod,Abstr} end || Beam <- TestBeams], test_lib:p_run(fun(F) -> do_core_pp(F, Outdir) end, Abstr). do_core_pp({M,A}, Outdir) -> try do_core_pp_1(M, A, Outdir) catch throw:{error,Error} -> io:format("*** compilation failure '~p' for module ~s\n", [Error,M]), error; Class:Error:Stk -> io:format("~p: ~p ~p\n~p\n", [M,Class,Error,Stk]), error end. do_core_pp_1(M, A, Outdir) -> {ok,M,Core0} = compile:forms(A, [to_core]), CoreFile = filename:join(Outdir, atom_to_list(M)++".core"), CorePP = core_pp:format(Core0), ok = file:write_file(CoreFile, unicode:characters_to_binary(CorePP)), %% Parse the .core file and return the result as Core Erlang Terms. Core = case compile:file(CoreFile, [report_errors,from_core,no_copt,to_core,binary]) of {ok,M,Core1} -> Core1; Other -> throw({error,Other}) end, ok = file:delete(CoreFile), %% Compile as usual (including optimizations). compile_forms(M, Core, [clint,ssalint,from_core,binary]), %% Don't optimize to test that we are not dependent %% on the Core Erlang optmimization passes. %% (Example of a previous bug: The core_parse pass %% would not turn map literals into #c_literal{} %% records; if sys_core_fold was run it would fix %% that; if sys_core_fold was not run v3_kernel would %% crash.) compile_forms(M, Core, [clint,ssalint,from_core,no_copt,binary]), ok. compile_forms(Mod, Forms, Opts) -> case compile:forms(Forms, [report_errors|Opts]) of {ok,Mod,_} -> ok; Other -> throw({error,Other}) end. %% Pretty-print core and read it back. Should be identical. core_roundtrip(Config) -> PrivDir = proplists:get_value(priv_dir, Config), Outdir = filename:join(PrivDir, atom_to_list(?FUNCTION_NAME)), ok = file:make_dir(Outdir), TestBeams = get_unique_beam_files(), test_lib:p_run(fun(F) -> do_core_roundtrip(F, Outdir) end, TestBeams). do_core_roundtrip(Beam, Outdir) -> try {ok,{Mod,[{abstract_code,{raw_abstract_v1,Abstr}}]}} = beam_lib:chunks(Beam, [abstract_code]), do_core_roundtrip_1(Mod, Abstr, Outdir) catch throw:{error,Error} -> io:format("*** compilation failure '~p' for file ~s\n", [Error,Beam]), error; Class:Error:Stk -> io:format("~p: ~p ~p\n~p\n", [Beam,Class,Error,Stk]), error end. do_core_roundtrip_1(Mod, Abstr, Outdir) -> {ok,Mod,Core0} = compile:forms(Abstr, [to_core0]), do_core_roundtrip_2(Mod, Core0, Outdir), %% Primarily, test that annotations are accepted for all %% constructs. Secondarily, smoke test cerl_trees:label/1. {Core1,_} = cerl_trees:label(Core0), do_core_roundtrip_2(Mod, Core1, Outdir), %% Run the inliner to force generation of variables %% with numeric names. {ok,Mod,Core2} = compile:forms(Abstr, [inline,to_core]), do_core_roundtrip_2(Mod, Core2, Outdir). do_core_roundtrip_2(M, Core0, Outdir) -> CoreFile = filename:join(Outdir, atom_to_list(M)++".core"), CorePP = core_pp:format_all(Core0), ok = file:write_file(CoreFile, unicode:characters_to_binary(CorePP)), %% Parse the .core file and return the result as Core Erlang Terms. Core2 = case compile:file(CoreFile, [report_errors,from_core, no_copt,to_core,binary]) of {ok,M,Core1} -> Core1; Other -> throw({error,Other}) end, Core = undo_var_translation(Core2), ok = file:delete(CoreFile), case cmp_core(Core0, Core, M) of true -> ok; false -> error end. undo_var_translation(Tree) -> F = fun(Node) -> case cerl:is_c_var(Node) of true -> Name0 = cerl:var_name(Node), try atom_to_list(Name0) of "_X"++Name -> cerl:update_c_var(Node, list_to_atom(Name)); "_"++Name -> cerl:update_c_var(Node, list_to_atom(Name)); _ -> Node catch error:badarg -> Node end; false -> Node end end, cerl_trees:map(F, Tree). cmp_core(E, E, _Mod) -> true; cmp_core(M1, M2, Mod) -> cmp_core_fs(cerl:module_defs(M1), cerl:module_defs(M2), Mod). cmp_core_fs([F1|T1], [F2|T2], Mod) -> cmp_core_f(F1, F2, Mod) andalso cmp_core_fs(T1, T2, Mod); cmp_core_fs([], [], _Mod) -> true; cmp_core_fs(_, _, _Mod) -> false. cmp_core_f(E, E, _Mod) -> true; cmp_core_f({Name,F1}, {Name,F2}, Mod) -> case diff(F1, F2) of F1 -> true; Diff -> io:format("~p ~p:\n~p\n", [Mod,Name,Diff]), false end. diff(E, E) -> E; diff([H1|T1], [H2|T2]) -> [diff(H1, H2)|diff(T1, T2)]; diff(T1, T2) when tuple_size(T1) =:= tuple_size(T2) -> case cerl:is_c_var(T1) andalso cerl:is_c_var(T2) of true -> diff_var(T1, T2); false -> case cerl:is_c_map(T1) andalso cerl:is_c_map(T2) of true -> diff_map(T1, T2); false -> diff_tuple(T1, T2) end end; diff(E1, E2) -> {'DIFF',E1,E2}. diff_var(V1, V2) -> case {cerl:var_name(V1),cerl:var_name(V2)} of {Same,Same} -> V1; {Name1,Name2} -> %% The inliner uses integers as variable names. Such integers %% are read back as atoms. case is_integer(Name1) andalso list_to_atom(integer_to_list(Name1)) =:= Name2 of true -> V1; _ -> cerl:update_c_var(V1, {'DIFF',Name1,Name2}) end end. %% Annotations for maps are not preserved exactly, but that is not %% a real problem. Workaround by not comparing all annotations when %% comparing maps. diff_map(M, M) -> M; diff_map(M1, M2) -> case cerl:get_ann(M1) =:= cerl:get_ann(M2) of false -> diff_tuple(M1, M2); true -> case remove_compiler_gen(M1) =:= remove_compiler_gen(M2) of true -> M1; false -> diff_tuple(M1, M2) end end. diff_tuple(T1, T2) -> L = diff(tuple_to_list(T1), tuple_to_list(T2)), list_to_tuple(L). remove_compiler_gen(M) -> Arg0 = cerl:map_arg(M), Arg = cerl:set_ann(Arg0, []), Es0 = cerl:map_es(M), Es = [remove_compiler_gen_1(Pair) || Pair <- Es0], cerl:update_c_map(M, Arg, Es). remove_compiler_gen_1(Pair) -> Op0 = cerl:map_pair_op(Pair), Op = cerl:set_ann(Op0, []), K = map_var(cerl:map_pair_key(Pair)), V = map_var(cerl:map_pair_val(Pair)), cerl:update_c_map_pair(Pair, Op, K, V). map_var(Var) -> case cerl:is_c_var(Var) of true -> case cerl:var_name(Var) of Name when is_atom(Name) -> L = atom_to_list(Name), try list_to_integer(L) of Int -> cerl:update_c_var(Var, Int) catch error:_ -> Var end; _ -> Var end; false -> Var end. %% Compile to Beam assembly language (.S) and then try to %% run .S through the compiler again. asm(Config) when is_list(Config) -> PrivDir = proplists:get_value(priv_dir, Config), Outdir = filename:join(PrivDir, "asm"), ok = file:make_dir(Outdir), TestBeams = get_unique_beam_files(), Res = test_lib:p_run(fun(F) -> do_asm(F, Outdir) end, TestBeams), Res. do_asm(Beam, Outdir) -> {ok,{M,[{abstract_code,{raw_abstract_v1,A}}]}} = beam_lib:chunks(Beam, [abstract_code]), try {ok,M,Asm} = compile:forms(A, ['S']), AsmFile = filename:join(Outdir, atom_to_list(M)++".S"), {ok,Fd} = file:open(AsmFile, [write,{encoding,utf8}]), beam_listing:module(Fd, Asm), ok = file:close(Fd), case compile:file(AsmFile, [from_asm,binary,report]) of {ok,M,_} -> ok = file:delete(AsmFile); Other -> io:format("*** failure '~p' for ~s\n", [Other,AsmFile]), error end catch Class:Error:Stk -> io:format("~p: ~p ~p\n~p\n", [M,Class,Error,Stk]), error end. sys_pre_attributes(Config) -> DataDir = proplists:get_value(data_dir, Config), File = filename:join(DataDir, "attributes.erl"), Mod = attributes, CommonOpts = [binary,report,verbose, {parse_transform,sys_pre_attributes}], PreOpts = [{attribute,delete,deleted}], PostOpts = [{attribute,insert,inserted,"value"}], PrePostOpts = [{attribute,replace,replaced,42}, {attribute,replace,replace_nonexisting,new}], {ok,Mod,Code} = compile:file(File, PrePostOpts ++ PreOpts ++ PostOpts ++ CommonOpts), code:load_binary(Mod, File, Code), Attr = Mod:module_info(attributes), io:format("~p", [Attr]), {inserted,"value"} = lists:keyfind(inserted, 1, Attr), {replaced,[42]} = lists:keyfind(replaced, 1, Attr), {replace_nonexisting,[new]} = lists:keyfind(replace_nonexisting, 1, Attr), false = lists:keymember(deleted, 1, Attr), %% Cover more code. {ok,Mod,_} = compile:file(File, PostOpts ++ CommonOpts), {ok,Mod,_} = compile:file(File, CommonOpts -- [verbose]), {ok,Mod,_} = compile:file(File, PreOpts ++ CommonOpts), {ok,Mod,_} = compile:file(File, [{attribute,replace,replaced,42}|CommonOpts]), {ok,Mod,_} = compile:file(File, PrePostOpts ++ PreOpts ++ PostOpts ++ CommonOpts -- [report,verbose]), ok. %% Test the dialyzer option to cover more code. dialyzer(Config) -> Priv = proplists:get_value(priv_dir, Config), ok = file:set_cwd(proplists:get_value(data_dir, Config)), Opts = [{outdir,Priv},report_errors], M = dialyzer_test, {ok,M} = c:c(M, [dialyzer|Opts]), [{a,b,c}] = M:M(), %% Cover huge line numbers without the 'dialyzer' option. {ok,M} = c:c(M, Opts), [{a,b,c}] = M:M(), ok. %% Test that warnings contain filenames and line numbers. warnings(_Config) -> Files = get_unique_files(".erl"), test_lib:p_run(fun do_warnings/1, Files). do_warnings(F) -> {ok,_,_,Ws} = compile:file(F, [binary,bin_opt_info,return]), do_warnings_1(Ws, F). do_warnings_1([{"no_file",Ws}|_], F) -> io:format("~s:\nMissing file for warnings: ~p\n", [F,Ws]), error; do_warnings_1([{Name,Ws}|T], F) -> case filename:extension(Name) of ".erl" -> do_warnings_2(Ws, T, F); _ -> io:format("~s:\nNo .erl extension\n", [F]), error end; do_warnings_1([], _) -> ok. do_warnings_2([{Int,_,_}=W|T], Next, F) -> if is_integer(Int) -> do_warnings_2(T, Next, F); true -> io:format("~s:\nMissing line number: ~p\n", [F,W]), error end; do_warnings_2([], Next, F) -> do_warnings_1(Next, F). %% Test that the compile:pre_load/0 function (used by 'erlc') %% pre-loads the modules that are used by a typical compilation. pre_load_check(Config) -> case {test_server:is_cover(),code:module_info(native)} of {true,_} -> {skip,"Cover is running"}; {false,true} -> %% Tracing won't work. {skip,"'code' is native-compiled"}; {false,false} -> try do_pre_load_check(Config) after dbg:stop_clear() end end. do_pre_load_check(Config) -> DataDir = ?config(data_dir, Config), Simple = filename:join(DataDir, "simple.erl"), Big = filename:join(DataDir, "big.erl"), {ok,_} = dbg:tracer(process, {fun pre_load_trace/2,[]}), dbg:p(self(), call), dbg:p(new, call), {ok,_} = dbg:tpl({?MODULE,get_trace_data,0}, []), {ok,_} = dbg:tp({code,ensure_modules_loaded,1}, []), %% Compile a simple module using the erl_compile interface %% to find out the modules that are pre-loaded by %% compile:pre_load/0. Opts = #options{specific=[binary]}, {ok,simple,_} = compile:compile(Simple, "", Opts), [{code,ensure_modules_loaded,[PreLoaded0]}] = get_trace_data(), PreLoaded1 = ordsets:from_list(PreLoaded0), %% Since 'compile' is the function doing the pre-loaded, %% it is useless to include it in the list. case ordsets:is_element(compile, PreLoaded1) of true -> io:put_chars("The 'compile' module should not be included " "in the list of modules to be pre-loaded."), ?t:fail(compile); false -> [] end, PreLoaded = ordsets:add_element(compile, PreLoaded1), %% Now unload all pre-loaded modules and all modules in %% compiler application. Then compile a module to find %% which modules that get loaded. CompilerMods = compiler_modules(), Unload = ordsets:union(ordsets:from_list(CompilerMods), PreLoaded), _ = [begin code:delete(M), code:purge(M) end || M <- Unload], {ok,_} = dbg:ctp({code,ensure_modules_loaded,1}), {ok,_} = dbg:tp({code,ensure_loaded,1}, []), {ok,big,_} = compile:file(Big, [binary]), WasLoaded0 = get_trace_data(), WasLoaded1 = [M || {code,ensure_loaded,[M]} <- WasLoaded0], WasLoaded = ordsets:from_list(WasLoaded1), %% Check for modules that should have been pre-loaded. case ordsets:subtract(WasLoaded, PreLoaded) of [] -> ok; [_|_]=NotPreLoaded -> io:format("The following modules were used " "but not pre-loaded:\n~p\n", [NotPreLoaded]), ?t:fail({not_preload,NotPreLoaded}) end, %% Check for modules that should not be pre-loaded. case ordsets:subtract(PreLoaded, WasLoaded) of [] -> ok; [_|_]=NotUsed -> io:format("The following modules were pre-loaded" " but not used:\n~p\n", [NotUsed]), ?t:fail({not_used,NotUsed}) end, ok. get_trace_data() -> %% Apparantely, doing a receive at the beginning of %% a traced function can cause extra trace messages. %% To avoid that, don't do the receive in this function. do_get_trace_data(). do_get_trace_data() -> receive {trace_data,Data} -> Data end. pre_load_trace({trace,Pid,call,{?MODULE,get_trace_data,[]}}, Acc) -> Pid ! {trace_data,Acc}, []; pre_load_trace({trace,_,call,MFA}, Acc) -> [MFA|Acc]. compiler_modules() -> Wc = filename:join([code:lib_dir(compiler),"ebin","*.beam"]), Ms = filelib:wildcard(Wc), FN = filename, [list_to_atom(FN:rootname(FN:basename(M), ".beam")) || M <- Ms]. %% Test that ERL_COMPILER_OPTIONS are correctly retrieved %% by env_compiler_options/0 env_compiler_options(_Config) -> Cases = [ {"bin_opt_info", [bin_opt_info]}, {"'S'", ['S']}, {"{source, \"test.erl\"}", [{source, "test.erl"}]}, {"[{d,macro_one,1},{d,macro_two}]", [{d, macro_one, 1}, {d, macro_two}]}, {"[warn_export_all, warn_export_vars]", [warn_export_all, warn_export_vars]} ], F = fun({Env, Expected}) -> true = os:putenv("ERL_COMPILER_OPTIONS", Env), Expected = compile:env_compiler_options() end, lists:foreach(F, Cases). %% Test options for compatibility with previous major versions of OTP. bc_options(Config) -> DataDir = proplists:get_value(data_dir, Config), L = [{101, small_float, [no_shared_fun_wrappers, no_get_hd_tl,no_line_info]}, {103, big, [no_shared_fun_wrappers, no_put_tuple2,no_get_hd_tl,no_ssa_opt_record, no_line_info,no_stack_trimming]}, {125, small_float, [no_shared_fun_wrappers,no_get_hd_tl, no_line_info, no_ssa_opt_float]}, {132, small, [no_shared_fun_wrappers, no_put_tuple2,no_get_hd_tl,no_ssa_opt_record, no_ssa_opt_float,no_line_info,no_bsm3]}, {136, big, [no_shared_fun_wrappers,no_put_tuple2,no_get_hd_tl, no_ssa_opt_record,no_line_info]}, {153, small, [r20]}, {153, small, [r21]}, {153, big, [no_shared_fun_wrappers, no_put_tuple2,no_get_hd_tl, no_ssa_opt_record]}, {153, big, [r16]}, {153, big, [r17]}, {153, big, [r18]}, {153, big, [r19]}, {153, small_float, [r16]}, {153, small_float, [no_shared_fun_wrappers]}, {158, small_maps, [r17]}, {158, small_maps, [r18]}, {158, small_maps, [r19]}, {158, small_maps, [r20]}, {158, small_maps, [r21]}, {164, small_maps, [r22]}, {164, big, [r22]}, {164, small_maps, [no_shared_fun_wrappers]}, {164, big, [no_shared_fun_wrappers]}, {168, small, [r22]}, {168, small, [no_shared_fun_wrappers]}, {169, small_maps, []}, {169, big, []}, {169, small, []} ], Test = fun({Expected,Mod,Options}) -> case highest_opcode(DataDir, Mod, Options) of Expected -> ok; Got -> io:format("*** module ~p, options ~p => got ~p; expected ~p\n", [Mod,Options,Got,Expected]), error end end, test_lib:p_run(Test, L), ok. highest_opcode(DataDir, Mod, Opt) -> Src = filename:join(DataDir, atom_to_list(Mod)++".erl"), {ok,Mod,Beam} = compile:file(Src, [binary|Opt]), test_lib:highest_opcode(Beam). deterministic_include(Config) when is_list(Config) -> DataDir = proplists:get_value(data_dir, Config), Simple = filename:join(DataDir, "simple"), %% Files without +deterministic should differ if their include paths do, %% as their debug info will be different. {ok,_,NonDetA} = compile:file(Simple, [binary, {i,"gurka"}]), {ok,_,NonDetB} = compile:file(Simple, [binary, {i,"gaffel"}]), true = NonDetA =/= NonDetB, %% ... but files with +deterministic shouldn't. {ok,_,DetC} = compile:file(Simple, [binary, deterministic, {i,"gurka"}]), {ok,_,DetD} = compile:file(Simple, [binary, deterministic, {i,"gaffel"}]), true = DetC =:= DetD, ok. deterministic_paths(Config) when is_list(Config) -> DataDir = proplists:get_value(data_dir, Config), %% Files without +deterministic should differ if they were compiled from a %% different directory. true = deterministic_paths_1(DataDir, "simple", []), %% ... but files with +deterministic shouldn't. false = deterministic_paths_1(DataDir, "simple", [deterministic]), ok. deterministic_paths_1(DataDir, Name, Opts) -> Simple = filename:join(DataDir, "simple"), {ok, Cwd} = file:get_cwd(), try {ok,_,A} = compile:file(Simple, [binary | Opts]), ok = file:set_cwd(DataDir), {ok,_,B} = compile:file(Name, [binary | Opts]), A =/= B after file:set_cwd(Cwd) end. %%% %%% Utilities. %%% compile_and_verify(Name, Target, Opts) -> Mod = list_to_atom(filename:basename(Name, ".erl")), {ok,Mod} = compile:file(Name, Opts), {ok,{Mod,[{compile_info,CInfo}]}} = beam_lib:chunks(Target, [compile_info]), {options,BeamOpts} = lists:keyfind(options, 1, CInfo), Opts = BeamOpts. get_unique_beam_files() -> get_unique_files(".beam"). get_unique_files(Ext) -> Wc = filename:join(filename:dirname(code:which(?MODULE)), "*"++Ext), [F || F <- filelib:wildcard(Wc), not is_cloned(F, Ext), not is_lfe_module(F, Ext)]. is_cloned(File, Ext) -> Mod = list_to_atom(filename:basename(File, Ext)), test_lib:is_cloned_mod(Mod). is_lfe_module(File, Ext) -> case filename:basename(File, Ext) of "lfe_" ++ _ -> true; _ -> false end.