ClangTidyOptionsTest.cpp
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#include "ClangTidyOptions.h"
#include "ClangTidyCheck.h"
#include "ClangTidyDiagnosticConsumer.h"
#include "llvm/ADT/StringExtras.h"
#include "gtest/gtest.h"
namespace clang {
namespace tidy {
enum class Colours { Red, Orange, Yellow, Green, Blue, Indigo, Violet };
template <> struct OptionEnumMapping<Colours> {
static llvm::ArrayRef<std::pair<Colours, StringRef>> getEnumMapping() {
static constexpr std::pair<Colours, StringRef> Mapping[] = {
{Colours::Red, "Red"}, {Colours::Orange, "Orange"},
{Colours::Yellow, "Yellow"}, {Colours::Green, "Green"},
{Colours::Blue, "Blue"}, {Colours::Indigo, "Indigo"},
{Colours::Violet, "Violet"}};
return makeArrayRef(Mapping);
}
};
namespace test {
TEST(ParseLineFilter, EmptyFilter) {
ClangTidyGlobalOptions Options;
EXPECT_FALSE(parseLineFilter("", Options));
EXPECT_TRUE(Options.LineFilter.empty());
EXPECT_FALSE(parseLineFilter("[]", Options));
EXPECT_TRUE(Options.LineFilter.empty());
}
TEST(ParseLineFilter, InvalidFilter) {
ClangTidyGlobalOptions Options;
EXPECT_TRUE(!!parseLineFilter("asdf", Options));
EXPECT_TRUE(Options.LineFilter.empty());
EXPECT_TRUE(!!parseLineFilter("[{}]", Options));
EXPECT_TRUE(!!parseLineFilter("[{\"name\":\"\"}]", Options));
EXPECT_TRUE(
!!parseLineFilter("[{\"name\":\"test\",\"lines\":[[1]]}]", Options));
EXPECT_TRUE(
!!parseLineFilter("[{\"name\":\"test\",\"lines\":[[1,2,3]]}]", Options));
EXPECT_TRUE(
!!parseLineFilter("[{\"name\":\"test\",\"lines\":[[1,-1]]}]", Options));
}
TEST(ParseLineFilter, ValidFilter) {
ClangTidyGlobalOptions Options;
std::error_code Error = parseLineFilter(
"[{\"name\":\"file1.cpp\",\"lines\":[[3,15],[20,30],[42,42]]},"
"{\"name\":\"file2.h\"},"
"{\"name\":\"file3.cc\",\"lines\":[[100,1000]]}]",
Options);
EXPECT_FALSE(Error);
EXPECT_EQ(3u, Options.LineFilter.size());
EXPECT_EQ("file1.cpp", Options.LineFilter[0].Name);
EXPECT_EQ(3u, Options.LineFilter[0].LineRanges.size());
EXPECT_EQ(3u, Options.LineFilter[0].LineRanges[0].first);
EXPECT_EQ(15u, Options.LineFilter[0].LineRanges[0].second);
EXPECT_EQ(20u, Options.LineFilter[0].LineRanges[1].first);
EXPECT_EQ(30u, Options.LineFilter[0].LineRanges[1].second);
EXPECT_EQ(42u, Options.LineFilter[0].LineRanges[2].first);
EXPECT_EQ(42u, Options.LineFilter[0].LineRanges[2].second);
EXPECT_EQ("file2.h", Options.LineFilter[1].Name);
EXPECT_EQ(0u, Options.LineFilter[1].LineRanges.size());
EXPECT_EQ("file3.cc", Options.LineFilter[2].Name);
EXPECT_EQ(1u, Options.LineFilter[2].LineRanges.size());
EXPECT_EQ(100u, Options.LineFilter[2].LineRanges[0].first);
EXPECT_EQ(1000u, Options.LineFilter[2].LineRanges[0].second);
}
TEST(ParseConfiguration, ValidConfiguration) {
llvm::ErrorOr<ClangTidyOptions> Options =
parseConfiguration("Checks: \"-*,misc-*\"\n"
"HeaderFilterRegex: \".*\"\n"
"AnalyzeTemporaryDtors: true\n"
"User: some.user");
EXPECT_TRUE(!!Options);
EXPECT_EQ("-*,misc-*", *Options->Checks);
EXPECT_EQ(".*", *Options->HeaderFilterRegex);
EXPECT_EQ("some.user", *Options->User);
}
TEST(ParseConfiguration, MergeConfigurations) {
llvm::ErrorOr<ClangTidyOptions> Options1 = parseConfiguration(R"(
Checks: "check1,check2"
HeaderFilterRegex: "filter1"
AnalyzeTemporaryDtors: true
User: user1
ExtraArgs: ['arg1', 'arg2']
ExtraArgsBefore: ['arg-before1', 'arg-before2']
UseColor: false
)");
ASSERT_TRUE(!!Options1);
llvm::ErrorOr<ClangTidyOptions> Options2 = parseConfiguration(R"(
Checks: "check3,check4"
HeaderFilterRegex: "filter2"
AnalyzeTemporaryDtors: false
User: user2
ExtraArgs: ['arg3', 'arg4']
ExtraArgsBefore: ['arg-before3', 'arg-before4']
UseColor: true
)");
ASSERT_TRUE(!!Options2);
ClangTidyOptions Options = Options1->mergeWith(*Options2, 0);
EXPECT_EQ("check1,check2,check3,check4", *Options.Checks);
EXPECT_EQ("filter2", *Options.HeaderFilterRegex);
EXPECT_EQ("user2", *Options.User);
ASSERT_TRUE(Options.ExtraArgs.hasValue());
EXPECT_EQ("arg1,arg2,arg3,arg4", llvm::join(Options.ExtraArgs->begin(),
Options.ExtraArgs->end(), ","));
ASSERT_TRUE(Options.ExtraArgsBefore.hasValue());
EXPECT_EQ("arg-before1,arg-before2,arg-before3,arg-before4",
llvm::join(Options.ExtraArgsBefore->begin(),
Options.ExtraArgsBefore->end(), ","));
ASSERT_TRUE(Options.UseColor.hasValue());
EXPECT_TRUE(*Options.UseColor);
}
namespace {
class TestCheck : public ClangTidyCheck {
public:
TestCheck(ClangTidyContext *Context) : ClangTidyCheck("test", Context) {}
template <typename... Args> auto getLocal(Args &&... Arguments) {
return Options.get(std::forward<Args>(Arguments)...);
}
template <typename... Args> auto getGlobal(Args &&... Arguments) {
return Options.getLocalOrGlobal(std::forward<Args>(Arguments)...);
}
template <typename IntType = int, typename... Args>
auto getIntLocal(Args &&... Arguments) {
return Options.get<IntType>(std::forward<Args>(Arguments)...);
}
template <typename IntType = int, typename... Args>
auto getIntGlobal(Args &&... Arguments) {
return Options.getLocalOrGlobal<IntType>(std::forward<Args>(Arguments)...);
}
};
} // namespace
#define CHECK_VAL(Value, Expected) \
do { \
auto Item = Value; \
ASSERT_TRUE(!!Item); \
EXPECT_EQ(*Item, Expected); \
} while (false)
#define CHECK_ERROR(Value, ErrorType, ExpectedMessage) \
do { \
auto Item = Value; \
ASSERT_FALSE(Item); \
ASSERT_TRUE(Item.errorIsA<ErrorType>()); \
ASSERT_FALSE(llvm::handleErrors( \
Item.takeError(), [&](const ErrorType &Err) -> llvm::Error { \
EXPECT_EQ(Err.message(), ExpectedMessage); \
return llvm::Error::success(); \
})); \
} while (false)
TEST(CheckOptionsValidation, MissingOptions) {
ClangTidyOptions Options;
ClangTidyContext Context(std::make_unique<DefaultOptionsProvider>(
ClangTidyGlobalOptions(), Options));
TestCheck TestCheck(&Context);
CHECK_ERROR(TestCheck.getLocal("Opt"), MissingOptionError,
"option not found 'test.Opt'");
EXPECT_EQ(TestCheck.getLocal("Opt", "Unknown"), "Unknown");
}
TEST(CheckOptionsValidation, ValidIntOptions) {
ClangTidyOptions Options;
auto &CheckOptions = Options.CheckOptions;
CheckOptions["test.IntExpected1"] = "1";
CheckOptions["test.IntExpected2"] = "1WithMore";
CheckOptions["test.IntExpected3"] = "NoInt";
CheckOptions["GlobalIntExpected1"] = "1";
CheckOptions["GlobalIntExpected2"] = "NoInt";
CheckOptions["test.DefaultedIntInvalid"] = "NoInt";
CheckOptions["GlobalIntInvalid"] = "NoInt";
CheckOptions["test.BoolITrueValue"] = "1";
CheckOptions["test.BoolIFalseValue"] = "0";
CheckOptions["test.BoolTrueValue"] = "true";
CheckOptions["test.BoolFalseValue"] = "false";
CheckOptions["test.BoolUnparseable"] = "Nothing";
CheckOptions["test.BoolCaseMismatch"] = "True";
ClangTidyContext Context(std::make_unique<DefaultOptionsProvider>(
ClangTidyGlobalOptions(), Options));
TestCheck TestCheck(&Context);
#define CHECK_ERROR_INT(Name, Expected) \
CHECK_ERROR(Name, UnparseableIntegerOptionError, Expected)
CHECK_VAL(TestCheck.getIntLocal("IntExpected1"), 1);
CHECK_VAL(TestCheck.getIntGlobal("GlobalIntExpected1"), 1);
CHECK_ERROR_INT(TestCheck.getIntLocal("IntExpected2"),
"invalid configuration value '1WithMore' for option "
"'test.IntExpected2'; expected an integer value");
CHECK_ERROR_INT(TestCheck.getIntLocal("IntExpected3"),
"invalid configuration value 'NoInt' for option "
"'test.IntExpected3'; expected an integer value");
CHECK_ERROR_INT(TestCheck.getIntGlobal("GlobalIntExpected2"),
"invalid configuration value 'NoInt' for option "
"'GlobalIntExpected2'; expected an integer value");
ASSERT_EQ(TestCheck.getIntLocal("DefaultedIntInvalid", 1), 1);
ASSERT_EQ(TestCheck.getIntGlobal("GlobalIntInvalid", 1), 1);
CHECK_VAL(TestCheck.getIntLocal<bool>("BoolITrueValue"), true);
CHECK_VAL(TestCheck.getIntLocal<bool>("BoolIFalseValue"), false);
CHECK_VAL(TestCheck.getIntLocal<bool>("BoolTrueValue"), true);
CHECK_VAL(TestCheck.getIntLocal<bool>("BoolFalseValue"), false);
CHECK_ERROR_INT(TestCheck.getIntLocal<bool>("BoolUnparseable"),
"invalid configuration value 'Nothing' for option "
"'test.BoolUnparseable'; expected a bool");
CHECK_ERROR_INT(TestCheck.getIntLocal<bool>("BoolCaseMismatch"),
"invalid configuration value 'True' for option "
"'test.BoolCaseMismatch'; expected a bool");
#undef CHECK_ERROR_INT
}
TEST(ValidConfiguration, ValidEnumOptions) {
ClangTidyOptions Options;
auto &CheckOptions = Options.CheckOptions;
CheckOptions["test.Valid"] = "Red";
CheckOptions["test.Invalid"] = "Scarlet";
CheckOptions["test.ValidWrongCase"] = "rED";
CheckOptions["test.NearMiss"] = "Oragne";
CheckOptions["GlobalValid"] = "Violet";
CheckOptions["GlobalInvalid"] = "Purple";
CheckOptions["GlobalValidWrongCase"] = "vIOLET";
CheckOptions["GlobalNearMiss"] = "Yelow";
ClangTidyContext Context(std::make_unique<DefaultOptionsProvider>(
ClangTidyGlobalOptions(), Options));
TestCheck TestCheck(&Context);
#define CHECK_ERROR_ENUM(Name, Expected) \
CHECK_ERROR(Name, UnparseableEnumOptionError, Expected)
CHECK_VAL(TestCheck.getIntLocal<Colours>("Valid"), Colours::Red);
CHECK_VAL(TestCheck.getIntGlobal<Colours>("GlobalValid"), Colours::Violet);
CHECK_VAL(
TestCheck.getIntLocal<Colours>("ValidWrongCase", /*IgnoreCase*/ true),
Colours::Red);
CHECK_VAL(TestCheck.getIntGlobal<Colours>("GlobalValidWrongCase",
/*IgnoreCase*/ true),
Colours::Violet);
CHECK_ERROR_ENUM(TestCheck.getIntLocal<Colours>("Invalid"),
"invalid configuration value "
"'Scarlet' for option 'test.Invalid'");
CHECK_ERROR_ENUM(TestCheck.getIntLocal<Colours>("ValidWrongCase"),
"invalid configuration value 'rED' for option "
"'test.ValidWrongCase'; did you mean 'Red'?");
CHECK_ERROR_ENUM(TestCheck.getIntLocal<Colours>("NearMiss"),
"invalid configuration value 'Oragne' for option "
"'test.NearMiss'; did you mean 'Orange'?");
CHECK_ERROR_ENUM(TestCheck.getIntGlobal<Colours>("GlobalInvalid"),
"invalid configuration value "
"'Purple' for option 'GlobalInvalid'");
CHECK_ERROR_ENUM(TestCheck.getIntGlobal<Colours>("GlobalValidWrongCase"),
"invalid configuration value 'vIOLET' for option "
"'GlobalValidWrongCase'; did you mean 'Violet'?");
CHECK_ERROR_ENUM(TestCheck.getIntGlobal<Colours>("GlobalNearMiss"),
"invalid configuration value 'Yelow' for option "
"'GlobalNearMiss'; did you mean 'Yellow'?");
#undef CHECK_ERROR_ENUM
}
#undef CHECK_VAL
#undef CHECK_ERROR
} // namespace test
} // namespace tidy
} // namespace clang