//===- llvm/unittest/Support/CommandLineTest.cpp - CommandLine tests ------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "llvm/Support/CommandLine.h" #include "llvm/ADT/STLExtras.h" #include "llvm/ADT/SmallString.h" #include "llvm/Config/config.h" #include "llvm/Support/FileSystem.h" #include "llvm/Support/Path.h" #include "llvm/Support/Program.h" #include "llvm/Support/StringSaver.h" #include "gtest/gtest.h" #include #include #include using namespace llvm; namespace { class TempEnvVar { public: TempEnvVar(const char *name, const char *value) : name(name) { const char *old_value = getenv(name); EXPECT_EQ(nullptr, old_value) << old_value; #if HAVE_SETENV setenv(name, value, true); #else # define SKIP_ENVIRONMENT_TESTS #endif } ~TempEnvVar() { #if HAVE_SETENV // Assume setenv and unsetenv come together. unsetenv(name); #else (void)name; // Suppress -Wunused-private-field. #endif } private: const char *const name; }; template class StackOption : public cl::opt { typedef cl::opt Base; public: // One option... template explicit StackOption(const M0t &M0) : Base(M0) {} // Two options... template StackOption(const M0t &M0, const M1t &M1) : Base(M0, M1) {} // Three options... template StackOption(const M0t &M0, const M1t &M1, const M2t &M2) : Base(M0, M1, M2) {} // Four options... template StackOption(const M0t &M0, const M1t &M1, const M2t &M2, const M3t &M3) : Base(M0, M1, M2, M3) {} ~StackOption() override { this->removeArgument(); } template StackOption &operator=(const DT &V) { this->setValue(V); return *this; } }; class StackSubCommand : public cl::SubCommand { public: StackSubCommand(StringRef Name, StringRef Description = StringRef()) : SubCommand(Name, Description) {} StackSubCommand() : SubCommand() {} ~StackSubCommand() { unregisterSubCommand(); } }; cl::OptionCategory TestCategory("Test Options", "Description"); TEST(CommandLineTest, ModifyExisitingOption) { StackOption TestOption("test-option", cl::desc("old description")); const char Description[] = "New description"; const char ArgString[] = "new-test-option"; const char ValueString[] = "Integer"; StringMap &Map = cl::getRegisteredOptions(*cl::TopLevelSubCommand); ASSERT_TRUE(Map.count("test-option") == 1) << "Could not find option in map."; cl::Option *Retrieved = Map["test-option"]; ASSERT_EQ(&TestOption, Retrieved) << "Retrieved wrong option."; ASSERT_EQ(&cl::GeneralCategory,Retrieved->Category) << "Incorrect default option category."; Retrieved->setCategory(TestCategory); ASSERT_EQ(&TestCategory,Retrieved->Category) << "Failed to modify option's option category."; Retrieved->setDescription(Description); ASSERT_STREQ(Retrieved->HelpStr.data(), Description) << "Changing option description failed."; Retrieved->setArgStr(ArgString); ASSERT_STREQ(ArgString, Retrieved->ArgStr.data()) << "Failed to modify option's Argument string."; Retrieved->setValueStr(ValueString); ASSERT_STREQ(Retrieved->ValueStr.data(), ValueString) << "Failed to modify option's Value string."; Retrieved->setHiddenFlag(cl::Hidden); ASSERT_EQ(cl::Hidden, TestOption.getOptionHiddenFlag()) << "Failed to modify option's hidden flag."; } #ifndef SKIP_ENVIRONMENT_TESTS const char test_env_var[] = "LLVM_TEST_COMMAND_LINE_FLAGS"; cl::opt EnvironmentTestOption("env-test-opt"); TEST(CommandLineTest, ParseEnvironment) { TempEnvVar TEV(test_env_var, "-env-test-opt=hello"); EXPECT_EQ("", EnvironmentTestOption); cl::ParseEnvironmentOptions("CommandLineTest", test_env_var); EXPECT_EQ("hello", EnvironmentTestOption); } // This test used to make valgrind complain // ("Conditional jump or move depends on uninitialised value(s)") // // Warning: Do not run any tests after this one that try to gain access to // registered command line options because this will likely result in a // SEGFAULT. This can occur because the cl::opt in the test below is declared // on the stack which will be destroyed after the test completes but the // command line system will still hold a pointer to a deallocated cl::Option. TEST(CommandLineTest, ParseEnvironmentToLocalVar) { // Put cl::opt on stack to check for proper initialization of fields. StackOption EnvironmentTestOptionLocal("env-test-opt-local"); TempEnvVar TEV(test_env_var, "-env-test-opt-local=hello-local"); EXPECT_EQ("", EnvironmentTestOptionLocal); cl::ParseEnvironmentOptions("CommandLineTest", test_env_var); EXPECT_EQ("hello-local", EnvironmentTestOptionLocal); } #endif // SKIP_ENVIRONMENT_TESTS TEST(CommandLineTest, UseOptionCategory) { StackOption TestOption2("test-option", cl::cat(TestCategory)); ASSERT_EQ(&TestCategory,TestOption2.Category) << "Failed to assign Option " "Category."; } typedef void ParserFunction(StringRef Source, StringSaver &Saver, SmallVectorImpl &NewArgv, bool MarkEOLs); void testCommandLineTokenizer(ParserFunction *parse, StringRef Input, const char *const Output[], size_t OutputSize) { SmallVector Actual; BumpPtrAllocator A; StringSaver Saver(A); parse(Input, Saver, Actual, /*MarkEOLs=*/false); EXPECT_EQ(OutputSize, Actual.size()); for (unsigned I = 0, E = Actual.size(); I != E; ++I) { if (I < OutputSize) { EXPECT_STREQ(Output[I], Actual[I]); } } } TEST(CommandLineTest, TokenizeGNUCommandLine) { const char Input[] = "foo\\ bar \"foo bar\" \'foo bar\' 'foo\\\\bar' -DFOO=bar\\(\\) " "foo\"bar\"baz C:\\\\src\\\\foo.cpp \"C:\\src\\foo.cpp\""; const char *const Output[] = { "foo bar", "foo bar", "foo bar", "foo\\bar", "-DFOO=bar()", "foobarbaz", "C:\\src\\foo.cpp", "C:srcfoo.cpp"}; testCommandLineTokenizer(cl::TokenizeGNUCommandLine, Input, Output, array_lengthof(Output)); } TEST(CommandLineTest, TokenizeWindowsCommandLine) { const char Input[] = "a\\b c\\\\d e\\\\\"f g\" h\\\"i j\\\\\\\"k \"lmn\" o pqr " "\"st \\\"u\" \\v"; const char *const Output[] = { "a\\b", "c\\\\d", "e\\f g", "h\"i", "j\\\"k", "lmn", "o", "pqr", "st \"u", "\\v" }; testCommandLineTokenizer(cl::TokenizeWindowsCommandLine, Input, Output, array_lengthof(Output)); } TEST(CommandLineTest, TokenizeConfigFile1) { const char *Input = "\\"; const char *const Output[] = { "\\" }; testCommandLineTokenizer(cl::tokenizeConfigFile, Input, Output, array_lengthof(Output)); } TEST(CommandLineTest, TokenizeConfigFile2) { const char *Input = "\\abc"; const char *const Output[] = { "abc" }; testCommandLineTokenizer(cl::tokenizeConfigFile, Input, Output, array_lengthof(Output)); } TEST(CommandLineTest, TokenizeConfigFile3) { const char *Input = "abc\\"; const char *const Output[] = { "abc\\" }; testCommandLineTokenizer(cl::tokenizeConfigFile, Input, Output, array_lengthof(Output)); } TEST(CommandLineTest, TokenizeConfigFile4) { const char *Input = "abc\\\n123"; const char *const Output[] = { "abc123" }; testCommandLineTokenizer(cl::tokenizeConfigFile, Input, Output, array_lengthof(Output)); } TEST(CommandLineTest, TokenizeConfigFile5) { const char *Input = "abc\\\r\n123"; const char *const Output[] = { "abc123" }; testCommandLineTokenizer(cl::tokenizeConfigFile, Input, Output, array_lengthof(Output)); } TEST(CommandLineTest, TokenizeConfigFile6) { const char *Input = "abc\\\n"; const char *const Output[] = { "abc" }; testCommandLineTokenizer(cl::tokenizeConfigFile, Input, Output, array_lengthof(Output)); } TEST(CommandLineTest, TokenizeConfigFile7) { const char *Input = "abc\\\r\n"; const char *const Output[] = { "abc" }; testCommandLineTokenizer(cl::tokenizeConfigFile, Input, Output, array_lengthof(Output)); } TEST(CommandLineTest, TokenizeConfigFile8) { SmallVector Actual; BumpPtrAllocator A; StringSaver Saver(A); cl::tokenizeConfigFile("\\\n", Saver, Actual, /*MarkEOLs=*/false); EXPECT_TRUE(Actual.empty()); } TEST(CommandLineTest, TokenizeConfigFile9) { SmallVector Actual; BumpPtrAllocator A; StringSaver Saver(A); cl::tokenizeConfigFile("\\\r\n", Saver, Actual, /*MarkEOLs=*/false); EXPECT_TRUE(Actual.empty()); } TEST(CommandLineTest, TokenizeConfigFile10) { const char *Input = "\\\nabc"; const char *const Output[] = { "abc" }; testCommandLineTokenizer(cl::tokenizeConfigFile, Input, Output, array_lengthof(Output)); } TEST(CommandLineTest, TokenizeConfigFile11) { const char *Input = "\\\r\nabc"; const char *const Output[] = { "abc" }; testCommandLineTokenizer(cl::tokenizeConfigFile, Input, Output, array_lengthof(Output)); } TEST(CommandLineTest, AliasesWithArguments) { static const size_t ARGC = 3; const char *const Inputs[][ARGC] = { { "-tool", "-actual=x", "-extra" }, { "-tool", "-actual", "x" }, { "-tool", "-alias=x", "-extra" }, { "-tool", "-alias", "x" } }; for (size_t i = 0, e = array_lengthof(Inputs); i < e; ++i) { StackOption Actual("actual"); StackOption Extra("extra"); StackOption Input(cl::Positional); cl::alias Alias("alias", llvm::cl::aliasopt(Actual)); cl::ParseCommandLineOptions(ARGC, Inputs[i]); EXPECT_EQ("x", Actual); EXPECT_EQ(0, Input.getNumOccurrences()); Alias.removeArgument(); } } void testAliasRequired(int argc, const char *const *argv) { StackOption Option("option", cl::Required); cl::alias Alias("o", llvm::cl::aliasopt(Option)); cl::ParseCommandLineOptions(argc, argv); EXPECT_EQ("x", Option); EXPECT_EQ(1, Option.getNumOccurrences()); Alias.removeArgument(); } TEST(CommandLineTest, AliasRequired) { const char *opts1[] = { "-tool", "-option=x" }; const char *opts2[] = { "-tool", "-o", "x" }; testAliasRequired(array_lengthof(opts1), opts1); testAliasRequired(array_lengthof(opts2), opts2); } TEST(CommandLineTest, HideUnrelatedOptions) { StackOption TestOption1("hide-option-1"); StackOption TestOption2("hide-option-2", cl::cat(TestCategory)); cl::HideUnrelatedOptions(TestCategory); ASSERT_EQ(cl::ReallyHidden, TestOption1.getOptionHiddenFlag()) << "Failed to hide extra option."; ASSERT_EQ(cl::NotHidden, TestOption2.getOptionHiddenFlag()) << "Hid extra option that should be visable."; StringMap &Map = cl::getRegisteredOptions(*cl::TopLevelSubCommand); ASSERT_EQ(cl::NotHidden, Map["help"]->getOptionHiddenFlag()) << "Hid default option that should be visable."; } cl::OptionCategory TestCategory2("Test Options set 2", "Description"); TEST(CommandLineTest, HideUnrelatedOptionsMulti) { StackOption TestOption1("multi-hide-option-1"); StackOption TestOption2("multi-hide-option-2", cl::cat(TestCategory)); StackOption TestOption3("multi-hide-option-3", cl::cat(TestCategory2)); const cl::OptionCategory *VisibleCategories[] = {&TestCategory, &TestCategory2}; cl::HideUnrelatedOptions(makeArrayRef(VisibleCategories)); ASSERT_EQ(cl::ReallyHidden, TestOption1.getOptionHiddenFlag()) << "Failed to hide extra option."; ASSERT_EQ(cl::NotHidden, TestOption2.getOptionHiddenFlag()) << "Hid extra option that should be visable."; ASSERT_EQ(cl::NotHidden, TestOption3.getOptionHiddenFlag()) << "Hid extra option that should be visable."; StringMap &Map = cl::getRegisteredOptions(*cl::TopLevelSubCommand); ASSERT_EQ(cl::NotHidden, Map["help"]->getOptionHiddenFlag()) << "Hid default option that should be visable."; } TEST(CommandLineTest, SetValueInSubcategories) { cl::ResetCommandLineParser(); StackSubCommand SC1("sc1", "First subcommand"); StackSubCommand SC2("sc2", "Second subcommand"); StackOption TopLevelOpt("top-level", cl::init(false)); StackOption SC1Opt("sc1", cl::sub(SC1), cl::init(false)); StackOption SC2Opt("sc2", cl::sub(SC2), cl::init(false)); EXPECT_FALSE(TopLevelOpt); EXPECT_FALSE(SC1Opt); EXPECT_FALSE(SC2Opt); const char *args[] = {"prog", "-top-level"}; EXPECT_TRUE( cl::ParseCommandLineOptions(2, args, StringRef(), &llvm::nulls())); EXPECT_TRUE(TopLevelOpt); EXPECT_FALSE(SC1Opt); EXPECT_FALSE(SC2Opt); TopLevelOpt = false; cl::ResetAllOptionOccurrences(); EXPECT_FALSE(TopLevelOpt); EXPECT_FALSE(SC1Opt); EXPECT_FALSE(SC2Opt); const char *args2[] = {"prog", "sc1", "-sc1"}; EXPECT_TRUE( cl::ParseCommandLineOptions(3, args2, StringRef(), &llvm::nulls())); EXPECT_FALSE(TopLevelOpt); EXPECT_TRUE(SC1Opt); EXPECT_FALSE(SC2Opt); SC1Opt = false; cl::ResetAllOptionOccurrences(); EXPECT_FALSE(TopLevelOpt); EXPECT_FALSE(SC1Opt); EXPECT_FALSE(SC2Opt); const char *args3[] = {"prog", "sc2", "-sc2"}; EXPECT_TRUE( cl::ParseCommandLineOptions(3, args3, StringRef(), &llvm::nulls())); EXPECT_FALSE(TopLevelOpt); EXPECT_FALSE(SC1Opt); EXPECT_TRUE(SC2Opt); } TEST(CommandLineTest, LookupFailsInWrongSubCommand) { cl::ResetCommandLineParser(); StackSubCommand SC1("sc1", "First subcommand"); StackSubCommand SC2("sc2", "Second subcommand"); StackOption SC1Opt("sc1", cl::sub(SC1), cl::init(false)); StackOption SC2Opt("sc2", cl::sub(SC2), cl::init(false)); std::string Errs; raw_string_ostream OS(Errs); const char *args[] = {"prog", "sc1", "-sc2"}; EXPECT_FALSE(cl::ParseCommandLineOptions(3, args, StringRef(), &OS)); OS.flush(); EXPECT_FALSE(Errs.empty()); } TEST(CommandLineTest, AddToAllSubCommands) { cl::ResetCommandLineParser(); StackSubCommand SC1("sc1", "First subcommand"); StackOption AllOpt("everywhere", cl::sub(*cl::AllSubCommands), cl::init(false)); StackSubCommand SC2("sc2", "Second subcommand"); const char *args[] = {"prog", "-everywhere"}; const char *args2[] = {"prog", "sc1", "-everywhere"}; const char *args3[] = {"prog", "sc2", "-everywhere"}; std::string Errs; raw_string_ostream OS(Errs); EXPECT_FALSE(AllOpt); EXPECT_TRUE(cl::ParseCommandLineOptions(2, args, StringRef(), &OS)); EXPECT_TRUE(AllOpt); AllOpt = false; cl::ResetAllOptionOccurrences(); EXPECT_FALSE(AllOpt); EXPECT_TRUE(cl::ParseCommandLineOptions(3, args2, StringRef(), &OS)); EXPECT_TRUE(AllOpt); AllOpt = false; cl::ResetAllOptionOccurrences(); EXPECT_FALSE(AllOpt); EXPECT_TRUE(cl::ParseCommandLineOptions(3, args3, StringRef(), &OS)); EXPECT_TRUE(AllOpt); // Since all parsing succeeded, the error message should be empty. OS.flush(); EXPECT_TRUE(Errs.empty()); } TEST(CommandLineTest, ReparseCommandLineOptions) { cl::ResetCommandLineParser(); StackOption TopLevelOpt("top-level", cl::sub(*cl::TopLevelSubCommand), cl::init(false)); const char *args[] = {"prog", "-top-level"}; EXPECT_FALSE(TopLevelOpt); EXPECT_TRUE( cl::ParseCommandLineOptions(2, args, StringRef(), &llvm::nulls())); EXPECT_TRUE(TopLevelOpt); TopLevelOpt = false; cl::ResetAllOptionOccurrences(); EXPECT_FALSE(TopLevelOpt); EXPECT_TRUE( cl::ParseCommandLineOptions(2, args, StringRef(), &llvm::nulls())); EXPECT_TRUE(TopLevelOpt); } TEST(CommandLineTest, RemoveFromRegularSubCommand) { cl::ResetCommandLineParser(); StackSubCommand SC("sc", "Subcommand"); StackOption RemoveOption("remove-option", cl::sub(SC), cl::init(false)); StackOption KeepOption("keep-option", cl::sub(SC), cl::init(false)); const char *args[] = {"prog", "sc", "-remove-option"}; std::string Errs; raw_string_ostream OS(Errs); EXPECT_FALSE(RemoveOption); EXPECT_TRUE(cl::ParseCommandLineOptions(3, args, StringRef(), &OS)); EXPECT_TRUE(RemoveOption); OS.flush(); EXPECT_TRUE(Errs.empty()); RemoveOption.removeArgument(); cl::ResetAllOptionOccurrences(); EXPECT_FALSE(cl::ParseCommandLineOptions(3, args, StringRef(), &OS)); OS.flush(); EXPECT_FALSE(Errs.empty()); } TEST(CommandLineTest, RemoveFromTopLevelSubCommand) { cl::ResetCommandLineParser(); StackOption TopLevelRemove( "top-level-remove", cl::sub(*cl::TopLevelSubCommand), cl::init(false)); StackOption TopLevelKeep( "top-level-keep", cl::sub(*cl::TopLevelSubCommand), cl::init(false)); const char *args[] = {"prog", "-top-level-remove"}; EXPECT_FALSE(TopLevelRemove); EXPECT_TRUE( cl::ParseCommandLineOptions(2, args, StringRef(), &llvm::nulls())); EXPECT_TRUE(TopLevelRemove); TopLevelRemove.removeArgument(); cl::ResetAllOptionOccurrences(); EXPECT_FALSE( cl::ParseCommandLineOptions(2, args, StringRef(), &llvm::nulls())); } TEST(CommandLineTest, RemoveFromAllSubCommands) { cl::ResetCommandLineParser(); StackSubCommand SC1("sc1", "First Subcommand"); StackSubCommand SC2("sc2", "Second Subcommand"); StackOption RemoveOption("remove-option", cl::sub(*cl::AllSubCommands), cl::init(false)); StackOption KeepOption("keep-option", cl::sub(*cl::AllSubCommands), cl::init(false)); const char *args0[] = {"prog", "-remove-option"}; const char *args1[] = {"prog", "sc1", "-remove-option"}; const char *args2[] = {"prog", "sc2", "-remove-option"}; // It should work for all subcommands including the top-level. EXPECT_FALSE(RemoveOption); EXPECT_TRUE( cl::ParseCommandLineOptions(2, args0, StringRef(), &llvm::nulls())); EXPECT_TRUE(RemoveOption); RemoveOption = false; cl::ResetAllOptionOccurrences(); EXPECT_FALSE(RemoveOption); EXPECT_TRUE( cl::ParseCommandLineOptions(3, args1, StringRef(), &llvm::nulls())); EXPECT_TRUE(RemoveOption); RemoveOption = false; cl::ResetAllOptionOccurrences(); EXPECT_FALSE(RemoveOption); EXPECT_TRUE( cl::ParseCommandLineOptions(3, args2, StringRef(), &llvm::nulls())); EXPECT_TRUE(RemoveOption); RemoveOption.removeArgument(); // It should not work for any subcommands including the top-level. cl::ResetAllOptionOccurrences(); EXPECT_FALSE( cl::ParseCommandLineOptions(2, args0, StringRef(), &llvm::nulls())); cl::ResetAllOptionOccurrences(); EXPECT_FALSE( cl::ParseCommandLineOptions(3, args1, StringRef(), &llvm::nulls())); cl::ResetAllOptionOccurrences(); EXPECT_FALSE( cl::ParseCommandLineOptions(3, args2, StringRef(), &llvm::nulls())); } TEST(CommandLineTest, GetRegisteredSubcommands) { cl::ResetCommandLineParser(); StackSubCommand SC1("sc1", "First Subcommand"); StackOption Opt1("opt1", cl::sub(SC1), cl::init(false)); StackSubCommand SC2("sc2", "Second subcommand"); StackOption Opt2("opt2", cl::sub(SC2), cl::init(false)); const char *args0[] = {"prog", "sc1"}; const char *args1[] = {"prog", "sc2"}; EXPECT_TRUE( cl::ParseCommandLineOptions(2, args0, StringRef(), &llvm::nulls())); EXPECT_FALSE(Opt1); EXPECT_FALSE(Opt2); for (auto *S : cl::getRegisteredSubcommands()) { if (*S) { EXPECT_EQ("sc1", S->getName()); } } cl::ResetAllOptionOccurrences(); EXPECT_TRUE( cl::ParseCommandLineOptions(2, args1, StringRef(), &llvm::nulls())); EXPECT_FALSE(Opt1); EXPECT_FALSE(Opt2); for (auto *S : cl::getRegisteredSubcommands()) { if (*S) { EXPECT_EQ("sc2", S->getName()); } } } TEST(CommandLineTest, ArgumentLimit) { std::string args(32 * 4096, 'a'); EXPECT_FALSE(llvm::sys::commandLineFitsWithinSystemLimits("cl", args.data())); } TEST(CommandLineTest, ResponseFiles) { llvm::SmallString<128> TestDir; std::error_code EC = llvm::sys::fs::createUniqueDirectory("unittest", TestDir); EXPECT_TRUE(!EC); // Create included response file of first level. llvm::SmallString<128> IncludedFileName; llvm::sys::path::append(IncludedFileName, TestDir, "resp1"); std::ofstream IncludedFile(IncludedFileName.c_str()); EXPECT_TRUE(IncludedFile.is_open()); IncludedFile << "-option_1 -option_2\n" "@incdir/resp2\n" "-option_3=abcd\n"; IncludedFile.close(); // Directory for included file. llvm::SmallString<128> IncDir; llvm::sys::path::append(IncDir, TestDir, "incdir"); EC = llvm::sys::fs::create_directory(IncDir); EXPECT_TRUE(!EC); // Create included response file of second level. llvm::SmallString<128> IncludedFileName2; llvm::sys::path::append(IncludedFileName2, IncDir, "resp2"); std::ofstream IncludedFile2(IncludedFileName2.c_str()); EXPECT_TRUE(IncludedFile2.is_open()); IncludedFile2 << "-option_21 -option_22\n"; IncludedFile2 << "-option_23=abcd\n"; IncludedFile2.close(); // Prepare 'file' with reference to response file. SmallString<128> IncRef; IncRef.append(1, '@'); IncRef.append(IncludedFileName.c_str()); llvm::SmallVector Argv = { "test/test", "-flag_1", IncRef.c_str(), "-flag_2" }; // Expand response files. llvm::BumpPtrAllocator A; llvm::StringSaver Saver(A); bool Res = llvm::cl::ExpandResponseFiles( Saver, llvm::cl::TokenizeGNUCommandLine, Argv, false, true); EXPECT_TRUE(Res); EXPECT_EQ(Argv.size(), 9U); EXPECT_STREQ(Argv[0], "test/test"); EXPECT_STREQ(Argv[1], "-flag_1"); EXPECT_STREQ(Argv[2], "-option_1"); EXPECT_STREQ(Argv[3], "-option_2"); EXPECT_STREQ(Argv[4], "-option_21"); EXPECT_STREQ(Argv[5], "-option_22"); EXPECT_STREQ(Argv[6], "-option_23=abcd"); EXPECT_STREQ(Argv[7], "-option_3=abcd"); EXPECT_STREQ(Argv[8], "-flag_2"); llvm::sys::fs::remove(IncludedFileName2); llvm::sys::fs::remove(IncDir); llvm::sys::fs::remove(IncludedFileName); llvm::sys::fs::remove(TestDir); } TEST(CommandLineTest, SetDefautValue) { cl::ResetCommandLineParser(); StackOption Opt1("opt1", cl::init("true")); StackOption Opt2("opt2", cl::init(true)); cl::alias Alias("alias", llvm::cl::aliasopt(Opt2)); StackOption Opt3("opt3", cl::init(3)); const char *args[] = {"prog", "-opt1=false", "-opt2", "-opt3"}; EXPECT_TRUE( cl::ParseCommandLineOptions(2, args, StringRef(), &llvm::nulls())); EXPECT_TRUE(Opt1 == "false"); EXPECT_TRUE(Opt2); EXPECT_TRUE(Opt3 == 3); Opt2 = false; Opt3 = 1; cl::ResetAllOptionOccurrences(); for (auto &OM : cl::getRegisteredOptions(*cl::TopLevelSubCommand)) { cl::Option *O = OM.second; if (O->ArgStr == "opt2") { continue; } O->setDefault(); } EXPECT_TRUE(Opt1 == "true"); EXPECT_TRUE(Opt2); EXPECT_TRUE(Opt3 == 3); } TEST(CommandLineTest, ReadConfigFile) { llvm::SmallVector Argv; llvm::SmallString<128> TestDir; std::error_code EC = llvm::sys::fs::createUniqueDirectory("unittest", TestDir); EXPECT_TRUE(!EC); llvm::SmallString<128> TestCfg; llvm::sys::path::append(TestCfg, TestDir, "foo"); std::ofstream ConfigFile(TestCfg.c_str()); EXPECT_TRUE(ConfigFile.is_open()); ConfigFile << "# Comment\n" "-option_1\n" "@subconfig\n" "-option_3=abcd\n" "-option_4=\\\n" "cdef\n"; ConfigFile.close(); llvm::SmallString<128> TestCfg2; llvm::sys::path::append(TestCfg2, TestDir, "subconfig"); std::ofstream ConfigFile2(TestCfg2.c_str()); EXPECT_TRUE(ConfigFile2.is_open()); ConfigFile2 << "-option_2\n" "\n" " # comment\n"; ConfigFile2.close(); // Make sure the current directory is not the directory where config files // resides. In this case the code that expands response files will not find // 'subconfig' unless it resolves nested inclusions relative to the including // file. llvm::SmallString<128> CurrDir; EC = llvm::sys::fs::current_path(CurrDir); EXPECT_TRUE(!EC); EXPECT_TRUE(StringRef(CurrDir) != StringRef(TestDir)); llvm::BumpPtrAllocator A; llvm::StringSaver Saver(A); bool Result = llvm::cl::readConfigFile(TestCfg, Saver, Argv); EXPECT_TRUE(Result); EXPECT_EQ(Argv.size(), 4U); EXPECT_STREQ(Argv[0], "-option_1"); EXPECT_STREQ(Argv[1], "-option_2"); EXPECT_STREQ(Argv[2], "-option_3=abcd"); EXPECT_STREQ(Argv[3], "-option_4=cdef"); llvm::sys::fs::remove(TestCfg2); llvm::sys::fs::remove(TestCfg); llvm::sys::fs::remove(TestDir); } } // anonymous namespace