test/UnitTest/LibcTest.h - llvm-project/libc - Git at Google

 //===-- Base class for libc unittests ---------------------------*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_LIBC_TEST_UNITTEST_LIBCTEST_H
 #define LLVM_LIBC_TEST_UNITTEST_LIBCTEST_H

 // This is defined as a simple macro in test.h so that it exists for platforms
 // that don't use our test infrastructure. It's defined as a proper function
 // below.
 #ifdef libc_make_test_file_path
 #undef libc_make_test_file_path
 #endif // libc_make_test_file_path

 // This is defined as a macro here to avoid namespace issues.
 #define libc_make_test_file_path(file_name)                                    \
   (LIBC_NAMESPACE::testing::libc_make_test_file_path_func(file_name))

 // This file can only include headers from src/__support/ or test/UnitTest. No
 // other headers should be included.

 #include "PlatformDefs.h"

 #include "src/__support/CPP/string.h"
 #include "src/__support/CPP/string_view.h"
 #include "src/__support/CPP/type_traits.h"
 #include "src/__support/c_string.h"
 #include "test/UnitTest/ExecuteFunction.h"
 #include "test/UnitTest/TestLogger.h"

 namespace LIBC_NAMESPACE {
 namespace testing {

 // Only the following conditions are supported. Notice that we do not have
 // a TRUE or FALSE condition. That is because, C library functions do not
 // return boolean values, but use integral return values to indicate true or
 // false conditions. Hence, it is more appropriate to use the other comparison
 // conditions for such cases.
 enum class TestCond { EQ, NE, LT, LE, GT, GE };

 struct MatcherBase {
   virtual ~MatcherBase() {}
   virtual void explainError() { tlog << "unknown error\n"; }
   // Override and return true to skip `explainError` step.
   virtual bool is_silent() const { return false; }
 };

 template <typename T> struct Matcher : public MatcherBase {
   bool match(const T &t);
 };

 namespace internal {

 // A simple location object to allow consistent passing of __FILE__ and
 // __LINE__.
 struct Location {
   Location(const char *file, int line) : file(file), line(line) {}
   const char *file;
   int line;
 };

 // Supports writing a failing Location to tlog.
 TestLogger &operator<<(TestLogger &logger, Location Loc);

 #define LIBC_TEST_LOC_()                                                       \
   LIBC_NAMESPACE::testing::internal::Location(__FILE__, __LINE__)

 // Object to forward custom logging after the EXPECT / ASSERT macros.
 struct Message {
   template <typename T> Message &operator<<(T value) {
     tlog << value;
     return *this;
   }
 };

 // A trivial object to catch the Message, this enables custom logging and
 // returning from the test function, see LIBC_TEST_SCAFFOLDING_ below.
 struct Failure {
   void operator=(Message msg) {}
 };

 struct RunContext {
   enum class RunResult : bool { Pass, Fail };

   RunResult status() const { return Status; }

   void markFail() { Status = RunResult::Fail; }

 private:
   RunResult Status = RunResult::Pass;
 };

 template <typename ValType>
 bool test(RunContext *Ctx, TestCond Cond, ValType LHS, ValType RHS,
           const char *LHSStr, const char *RHSStr, Location Loc);

 } // namespace internal

 struct TestOptions {
   // If set, then just this one test from the suite will be run.
   const char *TestFilter = nullptr;
   // Should the test results print color codes to stdout?
   bool PrintColor = true;
   // Should the test results print timing only in milliseconds, as GTest does?
   bool TimeInMs = false;
 };

 // NOTE: One should not create instances and call methods on them directly. One
 // should use the macros TEST or TEST_F to write test cases.
 class Test {
   Test *Next = nullptr;
   internal::RunContext *Ctx = nullptr;

   void setContext(internal::RunContext *C) { Ctx = C; }
   static int getNumTests();

 public:
   virtual ~Test() {}
   virtual void SetUp() {}
   virtual void TearDown() {}

   static int runTests(const TestOptions &Options);

 protected:
   static void addTest(Test *T);

   // We make use of a template function, with |LHS| and |RHS| as explicit
   // parameters, for enhanced type checking. Other gtest like unittest
   // frameworks have a similar function which takes a boolean argument
   // instead of the explicit |LHS| and |RHS| arguments. This boolean argument
   // is the result of the |Cond| operation on |LHS| and |RHS|. Though not bad,
   // |Cond| on mismatched |LHS| and |RHS| types can potentially succeed because
   // of type promotion.
   template <
       typename ValType,
       cpp::enable_if_t<cpp::is_integral_v<ValType> || is_big_int_v<ValType> ||
                            cpp::is_fixed_point_v<ValType>,
                        int> = 0>
   bool test(TestCond Cond, ValType LHS, ValType RHS, const char *LHSStr,
             const char *RHSStr, internal::Location Loc) {
     return internal::test(Ctx, Cond, LHS, RHS, LHSStr, RHSStr, Loc);
   }

   template <typename ValType,
             cpp::enable_if_t<cpp::is_enum_v<ValType>, int> = 0>
   bool test(TestCond Cond, ValType LHS, ValType RHS, const char *LHSStr,
             const char *RHSStr, internal::Location Loc) {
     return internal::test(Ctx, Cond, (long long)LHS, (long long)RHS, LHSStr,
                           RHSStr, Loc);
   }

   template <typename ValType,
             cpp::enable_if_t<cpp::is_pointer_v<ValType>, ValType> = nullptr>
   bool test(TestCond Cond, ValType LHS, ValType RHS, const char *LHSStr,
             const char *RHSStr, internal::Location Loc) {
     return internal::test(Ctx, Cond, (unsigned long long)LHS,
                           (unsigned long long)RHS, LHSStr, RHSStr, Loc);
   }

   template <
       typename ValType,
       cpp::enable_if_t<
           cpp::is_same_v<ValType, LIBC_NAMESPACE::cpp::string_view>, int> = 0>
   bool test(TestCond Cond, ValType LHS, ValType RHS, const char *LHSStr,
             const char *RHSStr, internal::Location Loc) {
     return internal::test(Ctx, Cond, LHS, RHS, LHSStr, RHSStr, Loc);
   }

   template <typename ValType,
             cpp::enable_if_t<
                 cpp::is_same_v<ValType, LIBC_NAMESPACE::cpp::string>, int> = 0>
   bool test(TestCond Cond, ValType LHS, ValType RHS, const char *LHSStr,
             const char *RHSStr, internal::Location Loc) {
     return internal::test(Ctx, Cond, LHS, RHS, LHSStr, RHSStr, Loc);
   }

   bool testStrEq(const char *LHS, const char *RHS, const char *LHSStr,
                  const char *RHSStr, internal::Location Loc);

   bool testStrNe(const char *LHS, const char *RHS, const char *LHSStr,
                  const char *RHSStr, internal::Location Loc);

   bool testMatch(bool MatchResult, MatcherBase &Matcher, const char *LHSStr,
                  const char *RHSStr, internal::Location Loc);

   template <typename MatcherT, typename ValType>
   bool matchAndExplain(MatcherT &&Matcher, ValType Value,
                        const char *MatcherStr, const char *ValueStr,
                        internal::Location Loc) {
     return testMatch(Matcher.match(Value), Matcher, ValueStr, MatcherStr, Loc);
   }

   bool testProcessExits(testutils::FunctionCaller *Func, int ExitCode,
                         const char *LHSStr, const char *RHSStr,
                         internal::Location Loc);

   bool testProcessKilled(testutils::FunctionCaller *Func, int Signal,
                          const char *LHSStr, const char *RHSStr,
                          internal::Location Loc);

   template <typename Func> testutils::FunctionCaller *createCallable(Func f) {
     struct Callable : public testutils::FunctionCaller {
       Func f;
       Callable(Func f) : f(f) {}
       void operator()() override { f(); }
     };

     return new Callable(f);
   }

 private:
   virtual void Run() = 0;
   virtual const char *getName() const = 0;

   static Test *Start;
   static Test *End;
 };

 extern int argc;
 extern char **argv;
 extern char **envp;

 namespace internal {

 constexpr bool same_prefix(char const *lhs, char const *rhs, int const len) {
   for (int i = 0; (*lhs || *rhs) && (i < len); ++lhs, ++rhs, ++i)
     if (*lhs != *rhs)
       return false;
   return true;
 }

 constexpr bool valid_prefix(char const *lhs) {
   return same_prefix(lhs, "LlvmLibc", 8);
 }

 // 'str' is a null terminated string of the form
 // "const char *LIBC_NAMESPACE::testing::internal::GetTypeName() [ParamType =
 // XXX]" We return the substring that start at character '[' or a default
 // message.
 constexpr char const *GetPrettyFunctionParamType(char const *str) {
   for (const char *ptr = str; *ptr != '\0'; ++ptr)
     if (*ptr == '[')
       return ptr;
   return "UNSET : declare with REGISTER_TYPE_NAME";
 }

 // This function recovers ParamType at compile time by using __PRETTY_FUNCTION__
 // It can be customized by using the REGISTER_TYPE_NAME macro below.
 template <typename ParamType> static constexpr const char *GetTypeName() {
   return GetPrettyFunctionParamType(__PRETTY_FUNCTION__);
 }

 template <typename T>
 static inline void GenerateName(char *buffer, int buffer_size,
                                 const char *prefix) {
   if (buffer_size == 0)
     return;

   // Make sure string is null terminated.
   --buffer_size;
   buffer[buffer_size] = '\0';

   const auto AppendChar = [&](char c) {
     if (buffer_size > 0) {
       *buffer = c;
       ++buffer;
       --buffer_size;
     }
   };
   const auto AppendStr = [&](const char *str) {
     for (; str && *str != '\0'; ++str)
       AppendChar(*str);
   };

   AppendStr(prefix);
   AppendChar(' ');
   AppendStr(GetTypeName<T>());
   AppendChar('\0');
 }

 // TestCreator implements a linear hierarchy of test instances, effectively
 // instanciating all tests with Types in a single object.
 template <template <typename> class TemplatedTestClass, typename... Types>
 struct TestCreator;

 template <template <typename> class TemplatedTestClass, typename Head,
           typename... Tail>
 struct TestCreator<TemplatedTestClass, Head, Tail...>
     : private TestCreator<TemplatedTestClass, Tail...> {
   TemplatedTestClass<Head> instance;
 };

 template <template <typename> class TemplatedTestClass>
 struct TestCreator<TemplatedTestClass> {};

 // A type list to declare the set of types to instantiate the tests with.
 template <typename... Types> struct TypeList {
   template <template <typename> class TemplatedTestClass> struct Tests {
     using type = TestCreator<TemplatedTestClass, Types...>;
   };
 };

 } // namespace internal

 // Make TypeList visible in LIBC_NAMESPACE::testing.
 template <typename... Types> using TypeList = internal::TypeList<Types...>;

 CString libc_make_test_file_path_func(const char *file_name);

 } // namespace testing
 } // namespace LIBC_NAMESPACE

 // For TYPED_TEST and TYPED_TEST_F below we need to display which type was used
 // to run the test. The default will return the fully qualified canonical type
 // but it can be difficult to read. We provide the following macro to allow the
 // client to register the type name as they see it in the code.
 #define REGISTER_TYPE_NAME(TYPE)                                               \
   template <>                                                                  \
   constexpr const char *                                                       \
   LIBC_NAMESPACE::testing::internal::GetTypeName<TYPE>() {                     \
     return "[ParamType = " #TYPE "]";                                          \
   }

 #define TYPED_TEST(SuiteName, TestName, TypeList)                              \
   static_assert(                                                               \
       LIBC_NAMESPACE::testing::internal::valid_prefix(#SuiteName),             \
       "All LLVM-libc TYPED_TEST suite names must start with 'LlvmLibc'.");     \
   template <typename T>                                                        \
   class SuiteName##_##TestName : public LIBC_NAMESPACE::testing::Test {        \
   public:                                                                      \
     using ParamType = T;                                                       \
     char name[256];                                                            \
     SuiteName##_##TestName() {                                                 \
       addTest(this);                                                           \
       LIBC_NAMESPACE::testing::internal::GenerateName<T>(                      \
           name, sizeof(name), #SuiteName "." #TestName);                       \
     }                                                                          \
     void Run() override;                                                       \
     const char *getName() const override { return name; }                      \
   };                                                                           \
   TypeList::Tests<SuiteName##_##TestName>::type                                \
       SuiteName##_##TestName##_Instance;                                       \
   template <typename T> void SuiteName##_##TestName<T>::Run()

 #define TYPED_TEST_F(SuiteClass, TestName, TypeList)                           \
   static_assert(LIBC_NAMESPACE::testing::internal::valid_prefix(#SuiteClass),  \
                 "All LLVM-libc TYPED_TEST_F suite class names must start "     \
                 "with 'LlvmLibc'.");                                           \
   template <typename T> class SuiteClass##_##TestName : public SuiteClass<T> { \
   public:                                                                      \
     using ParamType = T;                                                       \
     char name[256];                                                            \
     SuiteClass##_##TestName() {                                                \
       SuiteClass<T>::addTest(this);                                            \
       LIBC_NAMESPACE::testing::internal::GenerateName<T>(                      \
           name, sizeof(name), #SuiteClass "." #TestName);                      \
     }                                                                          \
     void Run() override;                                                       \
     const char *getName() const override { return name; }                      \
   };                                                                           \
   TypeList::Tests<SuiteClass##_##TestName>::type                               \
       SuiteClass##_##TestName##_Instance;                                      \
   template <typename T> void SuiteClass##_##TestName<T>::Run()

 #define TEST(SuiteName, TestName)                                              \
   static_assert(LIBC_NAMESPACE::testing::internal::valid_prefix(#SuiteName),   \
                 "All LLVM-libc TEST suite names must start with 'LlvmLibc'."); \
   class SuiteName##_##TestName : public LIBC_NAMESPACE::testing::Test {        \
   public:                                                                      \
     SuiteName##_##TestName() { addTest(this); }                                \
     void Run() override;                                                       \
     const char *getName() const override { return #SuiteName "." #TestName; }  \
   };                                                                           \
   SuiteName##_##TestName SuiteName##_##TestName##_Instance;                    \
   void SuiteName##_##TestName::Run()

 #define TEST_F(SuiteClass, TestName)                                           \
   static_assert(                                                               \
       LIBC_NAMESPACE::testing::internal::valid_prefix(#SuiteClass),            \
       "All LLVM-libc TEST_F suite class names must start with 'LlvmLibc'.");   \
   class SuiteClass##_##TestName : public SuiteClass {                          \
   public:                                                                      \
     SuiteClass##_##TestName() { addTest(this); }                               \
     void Run() override;                                                       \
     const char *getName() const override { return #SuiteClass "." #TestName; } \
   };                                                                           \
   SuiteClass##_##TestName SuiteClass##_##TestName##_Instance;                  \
   void SuiteClass##_##TestName::Run()

 // If RET_OR_EMPTY is the 'return' keyword we perform an early return which
 // corresponds to an assert. If it is empty the execution continues, this
 // corresponds to an expect.
 //
 // The 'else' clause must not be enclosed into braces so that the << operator
 // can be used to fill the Message.
 //
 // TEST is usually implemented as a function performing checking logic and
 // returning a boolean. This expression is responsible for logging the
 // diagnostic in case of failure.
 #define LIBC_TEST_SCAFFOLDING_(TEST, RET_OR_EMPTY)                             \
   if (TEST)                                                                    \
     ;                                                                          \
   else                                                                         \
     RET_OR_EMPTY LIBC_NAMESPACE::testing::internal::Failure() =                \
         LIBC_NAMESPACE::testing::internal::Message()

 #define LIBC_TEST_BINOP_(COND, LHS, RHS, RET_OR_EMPTY)                         \
   LIBC_TEST_SCAFFOLDING_(test(LIBC_NAMESPACE::testing::TestCond::COND, LHS,    \
                               RHS, #LHS, #RHS, LIBC_TEST_LOC_()),              \
                          RET_OR_EMPTY)

 ////////////////////////////////////////////////////////////////////////////////
 // Binary operations corresponding to the TestCond enum.

 #define EXPECT_EQ(LHS, RHS) LIBC_TEST_BINOP_(EQ, LHS, RHS, )
 #define ASSERT_EQ(LHS, RHS) LIBC_TEST_BINOP_(EQ, LHS, RHS, return)

 #define EXPECT_NE(LHS, RHS) LIBC_TEST_BINOP_(NE, LHS, RHS, )
 #define ASSERT_NE(LHS, RHS) LIBC_TEST_BINOP_(NE, LHS, RHS, return)

 #define EXPECT_LT(LHS, RHS) LIBC_TEST_BINOP_(LT, LHS, RHS, )
 #define ASSERT_LT(LHS, RHS) LIBC_TEST_BINOP_(LT, LHS, RHS, return)

 #define EXPECT_LE(LHS, RHS) LIBC_TEST_BINOP_(LE, LHS, RHS, )
 #define ASSERT_LE(LHS, RHS) LIBC_TEST_BINOP_(LE, LHS, RHS, return)

 #define EXPECT_GT(LHS, RHS) LIBC_TEST_BINOP_(GT, LHS, RHS, )
 #define ASSERT_GT(LHS, RHS) LIBC_TEST_BINOP_(GT, LHS, RHS, return)

 #define EXPECT_GE(LHS, RHS) LIBC_TEST_BINOP_(GE, LHS, RHS, )
 #define ASSERT_GE(LHS, RHS) LIBC_TEST_BINOP_(GE, LHS, RHS, return)

 ////////////////////////////////////////////////////////////////////////////////
 // Boolean checks are handled as comparison to the true / false values.

 #define EXPECT_TRUE(VAL) EXPECT_EQ(VAL, true)
 #define ASSERT_TRUE(VAL) ASSERT_EQ(VAL, true)

 #define EXPECT_FALSE(VAL) EXPECT_EQ(VAL, false)
 #define ASSERT_FALSE(VAL) ASSERT_EQ(VAL, false)

 ////////////////////////////////////////////////////////////////////////////////
 // String checks.

 #define LIBC_TEST_STR_(TEST_FUNC, LHS, RHS, RET_OR_EMPTY)                      \
   LIBC_TEST_SCAFFOLDING_(TEST_FUNC(LHS, RHS, #LHS, #RHS, LIBC_TEST_LOC_()),    \
                          RET_OR_EMPTY)

 #define EXPECT_STREQ(LHS, RHS) LIBC_TEST_STR_(testStrEq, LHS, RHS, )
 #define ASSERT_STREQ(LHS, RHS) LIBC_TEST_STR_(testStrEq, LHS, RHS, return)

 #define EXPECT_STRNE(LHS, RHS) LIBC_TEST_STR_(testStrNe, LHS, RHS, )
 #define ASSERT_STRNE(LHS, RHS) LIBC_TEST_STR_(testStrNe, LHS, RHS, return)

 ////////////////////////////////////////////////////////////////////////////////
 // Subprocess checks.

 #ifdef ENABLE_SUBPROCESS_TESTS

 #define LIBC_TEST_PROCESS_(TEST_FUNC, FUNC, VALUE, RET_OR_EMPTY)               \
   LIBC_TEST_SCAFFOLDING_(                                                      \
       TEST_FUNC(LIBC_NAMESPACE::testing::Test::createCallable(FUNC), VALUE,    \
                 #FUNC, #VALUE, LIBC_TEST_LOC_()),                              \
       RET_OR_EMPTY)

 #define EXPECT_EXITS(FUNC, EXIT)                                               \
   LIBC_TEST_PROCESS_(testProcessExits, FUNC, EXIT, )
 #define ASSERT_EXITS(FUNC, EXIT)                                               \
   LIBC_TEST_PROCESS_(testProcessExits, FUNC, EXIT, return)

 #define EXPECT_DEATH(FUNC, SIG)                                                \
   LIBC_TEST_PROCESS_(testProcessKilled, FUNC, SIG, )
 #define ASSERT_DEATH(FUNC, SIG)                                                \
   LIBC_TEST_PROCESS_(testProcessKilled, FUNC, SIG, return)

 #endif // ENABLE_SUBPROCESS_TESTS

 ////////////////////////////////////////////////////////////////////////////////
 // Custom matcher checks.

 #define LIBC_TEST_MATCH_(MATCHER, MATCH, MATCHER_STR, MATCH_STR, RET_OR_EMPTY) \
   LIBC_TEST_SCAFFOLDING_(matchAndExplain(MATCHER, MATCH, MATCHER_STR,          \
                                          MATCH_STR, LIBC_TEST_LOC_()),         \
                          RET_OR_EMPTY)

 #define EXPECT_THAT(MATCH, MATCHER)                                            \
   LIBC_TEST_MATCH_(MATCHER, MATCH, #MATCHER, #MATCH, )
 #define ASSERT_THAT(MATCH, MATCHER)                                            \
   LIBC_TEST_MATCH_(MATCHER, MATCH, #MATCHER, #MATCH, return)

 #define WITH_SIGNAL(X) X

 #define LIBC_TEST_HAS_MATCHERS() (1)

 #endif // LLVM_LIBC_TEST_UNITTEST_LIBCTEST_H
	//===-- Base class for libc unittests ---------------------------- C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_LIBC_TEST_UNITTEST_LIBCTEST_H
	#define LLVM_LIBC_TEST_UNITTEST_LIBCTEST_H

	// This is defined as a simple macro in test.h so that it exists for platforms
	// that don't use our test infrastructure. It's defined as a proper function
	// below.
	#ifdef libc_make_test_file_path
	#undef libc_make_test_file_path
	#endif // libc_make_test_file_path

	// This is defined as a macro here to avoid namespace issues.
	#define libc_make_test_file_path(file_name) \
	(LIBC_NAMESPACE::testing::libc_make_test_file_path_func(file_name))

	// This file can only include headers from src/__support/ or test/UnitTest. No
	// other headers should be included.

	#include "PlatformDefs.h"

	#include "src/__support/CPP/string.h"
	#include "src/__support/CPP/string_view.h"
	#include "src/__support/CPP/type_traits.h"
	#include "src/__support/c_string.h"
	#include "test/UnitTest/ExecuteFunction.h"
	#include "test/UnitTest/TestLogger.h"

	namespace LIBC_NAMESPACE {
	namespace testing {

	// Only the following conditions are supported. Notice that we do not have
	// a TRUE or FALSE condition. That is because, C library functions do not
	// return boolean values, but use integral return values to indicate true or
	// false conditions. Hence, it is more appropriate to use the other comparison
	// conditions for such cases.
	enum class TestCond { EQ, NE, LT, LE, GT, GE };

	struct MatcherBase {
	virtual ~MatcherBase() {}
	virtual void explainError() { tlog << "unknown error\n"; }
	// Override and return true to skip `explainError` step.
	virtual bool is_silent() const { return false; }
	};

	template <typename T> struct Matcher : public MatcherBase {
	bool match(const T &t);
	};

	namespace internal {

	// A simple location object to allow consistent passing of __FILE__ and
	// __LINE__.
	struct Location {
	Location(const char *file, int line) : file(file), line(line) {}
	const char *file;
	int line;
	};

	// Supports writing a failing Location to tlog.
	TestLogger &operator<<(TestLogger &logger, Location Loc);

	#define LIBC_TEST_LOC_() \
	LIBC_NAMESPACE::testing::internal::Location(__FILE__, __LINE__)

	// Object to forward custom logging after the EXPECT / ASSERT macros.
	struct Message {
	template <typename T> Message &operator<<(T value) {
	tlog << value;
	return *this;
	}
	};

	// A trivial object to catch the Message, this enables custom logging and
	// returning from the test function, see LIBC_TEST_SCAFFOLDING_ below.
	struct Failure {
	void operator=(Message msg) {}
	};

	struct RunContext {
	enum class RunResult : bool { Pass, Fail };

	RunResult status() const { return Status; }

	void markFail() { Status = RunResult::Fail; }

	private:
	RunResult Status = RunResult::Pass;
	};

	template <typename ValType>
	bool test(RunContext *Ctx, TestCond Cond, ValType LHS, ValType RHS,
	const char LHSStr, const char RHSStr, Location Loc);

	} // namespace internal

	struct TestOptions {
	// If set, then just this one test from the suite will be run.
	const char *TestFilter = nullptr;
	// Should the test results print color codes to stdout?
	bool PrintColor = true;
	// Should the test results print timing only in milliseconds, as GTest does?
	bool TimeInMs = false;
	};

	// NOTE: One should not create instances and call methods on them directly. One
	// should use the macros TEST or TEST_F to write test cases.
	class Test {
	Test *Next = nullptr;
	internal::RunContext *Ctx = nullptr;

	void setContext(internal::RunContext *C) { Ctx = C; }
	static int getNumTests();

	public:
	virtual ~Test() {}
	virtual void SetUp() {}
	virtual void TearDown() {}

	static int runTests(const TestOptions &Options);

	protected:
	static void addTest(Test *T);

	// We make use of a template function, with \|LHS\| and \|RHS\| as explicit
	// parameters, for enhanced type checking. Other gtest like unittest
	// frameworks have a similar function which takes a boolean argument
	// instead of the explicit \|LHS\| and \|RHS\| arguments. This boolean argument
	// is the result of the \|Cond\| operation on \|LHS\| and \|RHS\|. Though not bad,
	// \|Cond\| on mismatched \|LHS\| and \|RHS\| types can potentially succeed because
	// of type promotion.
	template <
	typename ValType,
	cpp::enable_if_t<cpp::is_integral_v<ValType> \|\| is_big_int_v<ValType> \|\|
	cpp::is_fixed_point_v<ValType>,
	int> = 0>
	bool test(TestCond Cond, ValType LHS, ValType RHS, const char *LHSStr,
	const char *RHSStr, internal::Location Loc) {
	return internal::test(Ctx, Cond, LHS, RHS, LHSStr, RHSStr, Loc);
	}

	template <typename ValType,
	cpp::enable_if_t<cpp::is_enum_v<ValType>, int> = 0>
	bool test(TestCond Cond, ValType LHS, ValType RHS, const char *LHSStr,
	const char *RHSStr, internal::Location Loc) {
	return internal::test(Ctx, Cond, (long long)LHS, (long long)RHS, LHSStr,
	RHSStr, Loc);
	}

	template <typename ValType,
	cpp::enable_if_t<cpp::is_pointer_v<ValType>, ValType> = nullptr>
	bool test(TestCond Cond, ValType LHS, ValType RHS, const char *LHSStr,
	const char *RHSStr, internal::Location Loc) {
	return internal::test(Ctx, Cond, (unsigned long long)LHS,
	(unsigned long long)RHS, LHSStr, RHSStr, Loc);
	}

	template <
	typename ValType,
	cpp::enable_if_t<
	cpp::is_same_v<ValType, LIBC_NAMESPACE::cpp::string_view>, int> = 0>
	bool test(TestCond Cond, ValType LHS, ValType RHS, const char *LHSStr,
	const char *RHSStr, internal::Location Loc) {
	return internal::test(Ctx, Cond, LHS, RHS, LHSStr, RHSStr, Loc);
	}

	template <typename ValType,
	cpp::enable_if_t<
	cpp::is_same_v<ValType, LIBC_NAMESPACE::cpp::string>, int> = 0>
	bool test(TestCond Cond, ValType LHS, ValType RHS, const char *LHSStr,
	const char *RHSStr, internal::Location Loc) {
	return internal::test(Ctx, Cond, LHS, RHS, LHSStr, RHSStr, Loc);
	}

	bool testStrEq(const char LHS, const char RHS, const char *LHSStr,
	const char *RHSStr, internal::Location Loc);

	bool testStrNe(const char LHS, const char RHS, const char *LHSStr,
	const char *RHSStr, internal::Location Loc);

	bool testMatch(bool MatchResult, MatcherBase &Matcher, const char *LHSStr,
	const char *RHSStr, internal::Location Loc);

	template <typename MatcherT, typename ValType>
	bool matchAndExplain(MatcherT &&Matcher, ValType Value,
	const char MatcherStr, const char ValueStr,
	internal::Location Loc) {
	return testMatch(Matcher.match(Value), Matcher, ValueStr, MatcherStr, Loc);
	}

	bool testProcessExits(testutils::FunctionCaller *Func, int ExitCode,
	const char LHSStr, const char RHSStr,
	internal::Location Loc);

	bool testProcessKilled(testutils::FunctionCaller *Func, int Signal,
	const char LHSStr, const char RHSStr,
	internal::Location Loc);

	template <typename Func> testutils::FunctionCaller *createCallable(Func f) {
	struct Callable : public testutils::FunctionCaller {
	Func f;
	Callable(Func f) : f(f) {}
	void operator()() override { f(); }
	};

	return new Callable(f);
	}

	private:
	virtual void Run() = 0;
	virtual const char *getName() const = 0;

	static Test *Start;
	static Test *End;
	};

	extern int argc;
	extern char **argv;
	extern char **envp;

	namespace internal {

	constexpr bool same_prefix(char const lhs, char const rhs, int const len) {
	for (int i = 0; (lhs \|\| rhs) && (i < len); ++lhs, ++rhs, ++i)
	if (lhs != rhs)
	return false;
	return true;
	}

	constexpr bool valid_prefix(char const *lhs) {
	return same_prefix(lhs, "LlvmLibc", 8);
	}

	// 'str' is a null terminated string of the form
	// "const char *LIBC_NAMESPACE::testing::internal::GetTypeName() [ParamType =
	// XXX]" We return the substring that start at character '[' or a default
	// message.
	constexpr char const GetPrettyFunctionParamType(char const str) {
	for (const char ptr = str; ptr != '\0'; ++ptr)
	if (*ptr == '[')
	return ptr;
	return "UNSET : declare with REGISTER_TYPE_NAME";
	}

	// This function recovers ParamType at compile time by using __PRETTY_FUNCTION__
	// It can be customized by using the REGISTER_TYPE_NAME macro below.
	template <typename ParamType> static constexpr const char *GetTypeName() {
	return GetPrettyFunctionParamType(__PRETTY_FUNCTION__);
	}

	template <typename T>
	static inline void GenerateName(char *buffer, int buffer_size,
	const char *prefix) {
	if (buffer_size == 0)
	return;

	// Make sure string is null terminated.
	--buffer_size;
	buffer[buffer_size] = '\0';

	const auto AppendChar = [&](char c) {
	if (buffer_size > 0) {
	*buffer = c;
	++buffer;
	--buffer_size;
	}
	};
	const auto AppendStr = [&](const char *str) {
	for (; str && *str != '\0'; ++str)
	AppendChar(*str);
	};

	AppendStr(prefix);
	AppendChar(' ');
	AppendStr(GetTypeName<T>());
	AppendChar('\0');
	}

	// TestCreator implements a linear hierarchy of test instances, effectively
	// instanciating all tests with Types in a single object.
	template <template <typename> class TemplatedTestClass, typename... Types>
	struct TestCreator;

	template <template <typename> class TemplatedTestClass, typename Head,
	typename... Tail>
	struct TestCreator<TemplatedTestClass, Head, Tail...>
	: private TestCreator<TemplatedTestClass, Tail...> {
	TemplatedTestClass<Head> instance;
	};

	template <template <typename> class TemplatedTestClass>
	struct TestCreator<TemplatedTestClass> {};

	// A type list to declare the set of types to instantiate the tests with.
	template <typename... Types> struct TypeList {
	template <template <typename> class TemplatedTestClass> struct Tests {
	using type = TestCreator<TemplatedTestClass, Types...>;
	};
	};

	} // namespace internal

	// Make TypeList visible in LIBC_NAMESPACE::testing.
	template <typename... Types> using TypeList = internal::TypeList<Types...>;

	CString libc_make_test_file_path_func(const char *file_name);

	} // namespace testing
	} // namespace LIBC_NAMESPACE

	// For TYPED_TEST and TYPED_TEST_F below we need to display which type was used
	// to run the test. The default will return the fully qualified canonical type
	// but it can be difficult to read. We provide the following macro to allow the
	// client to register the type name as they see it in the code.
	#define REGISTER_TYPE_NAME(TYPE) \
	template <> \
	constexpr const char * \
	LIBC_NAMESPACE::testing::internal::GetTypeName<TYPE>() { \
	return "[ParamType = " #TYPE "]"; \
	}

	#define TYPED_TEST(SuiteName, TestName, TypeList) \
	static_assert( \
	LIBC_NAMESPACE::testing::internal::valid_prefix(#SuiteName), \
	"All LLVM-libc TYPED_TEST suite names must start with 'LlvmLibc'."); \
	template <typename T> \
	class SuiteName##_##TestName : public LIBC_NAMESPACE::testing::Test { \
	public: \
	using ParamType = T; \
	char name[256]; \
	SuiteName##_##TestName() { \
	addTest(this); \
	LIBC_NAMESPACE::testing::internal::GenerateName<T>( \
	name, sizeof(name), #SuiteName "." #TestName); \
	} \
	void Run() override; \
	const char *getName() const override { return name; } \
	}; \
	TypeList::Tests<SuiteName##_##TestName>::type \
	SuiteName##_##TestName##_Instance; \
	template <typename T> void SuiteName##_##TestName<T>::Run()

	#define TYPED_TEST_F(SuiteClass, TestName, TypeList) \
	static_assert(LIBC_NAMESPACE::testing::internal::valid_prefix(#SuiteClass), \
	"All LLVM-libc TYPED_TEST_F suite class names must start " \
	"with 'LlvmLibc'."); \
	template <typename T> class SuiteClass##_##TestName : public SuiteClass<T> { \
	public: \
	using ParamType = T; \
	char name[256]; \
	SuiteClass##_##TestName() { \
	SuiteClass<T>::addTest(this); \
	LIBC_NAMESPACE::testing::internal::GenerateName<T>( \
	name, sizeof(name), #SuiteClass "." #TestName); \
	} \
	void Run() override; \
	const char *getName() const override { return name; } \
	}; \
	TypeList::Tests<SuiteClass##_##TestName>::type \
	SuiteClass##_##TestName##_Instance; \
	template <typename T> void SuiteClass##_##TestName<T>::Run()

	#define TEST(SuiteName, TestName) \
	static_assert(LIBC_NAMESPACE::testing::internal::valid_prefix(#SuiteName), \
	"All LLVM-libc TEST suite names must start with 'LlvmLibc'."); \
	class SuiteName##_##TestName : public LIBC_NAMESPACE::testing::Test { \
	public: \
	SuiteName##_##TestName() { addTest(this); } \
	void Run() override; \
	const char *getName() const override { return #SuiteName "." #TestName; } \
	}; \
	SuiteName##_##TestName SuiteName##_##TestName##_Instance; \
	void SuiteName##_##TestName::Run()

	#define TEST_F(SuiteClass, TestName) \
	static_assert( \
	LIBC_NAMESPACE::testing::internal::valid_prefix(#SuiteClass), \
	"All LLVM-libc TEST_F suite class names must start with 'LlvmLibc'."); \
	class SuiteClass##_##TestName : public SuiteClass { \
	public: \
	SuiteClass##_##TestName() { addTest(this); } \
	void Run() override; \
	const char *getName() const override { return #SuiteClass "." #TestName; } \
	}; \
	SuiteClass##_##TestName SuiteClass##_##TestName##_Instance; \
	void SuiteClass##_##TestName::Run()

	// If RET_OR_EMPTY is the 'return' keyword we perform an early return which
	// corresponds to an assert. If it is empty the execution continues, this
	// corresponds to an expect.
	//
	// The 'else' clause must not be enclosed into braces so that the << operator
	// can be used to fill the Message.
	//
	// TEST is usually implemented as a function performing checking logic and
	// returning a boolean. This expression is responsible for logging the
	// diagnostic in case of failure.
	#define LIBC_TEST_SCAFFOLDING_(TEST, RET_OR_EMPTY) \
	if (TEST) \
	; \
	else \
	RET_OR_EMPTY LIBC_NAMESPACE::testing::internal::Failure() = \
	LIBC_NAMESPACE::testing::internal::Message()

	#define LIBC_TEST_BINOP_(COND, LHS, RHS, RET_OR_EMPTY) \
	LIBC_TEST_SCAFFOLDING_(test(LIBC_NAMESPACE::testing::TestCond::COND, LHS, \
	RHS, #LHS, #RHS, LIBC_TEST_LOC_()), \
	RET_OR_EMPTY)

	////////////////////////////////////////////////////////////////////////////////
	// Binary operations corresponding to the TestCond enum.

	#define EXPECT_EQ(LHS, RHS) LIBC_TEST_BINOP_(EQ, LHS, RHS, )
	#define ASSERT_EQ(LHS, RHS) LIBC_TEST_BINOP_(EQ, LHS, RHS, return)

	#define EXPECT_NE(LHS, RHS) LIBC_TEST_BINOP_(NE, LHS, RHS, )
	#define ASSERT_NE(LHS, RHS) LIBC_TEST_BINOP_(NE, LHS, RHS, return)

	#define EXPECT_LT(LHS, RHS) LIBC_TEST_BINOP_(LT, LHS, RHS, )
	#define ASSERT_LT(LHS, RHS) LIBC_TEST_BINOP_(LT, LHS, RHS, return)

	#define EXPECT_LE(LHS, RHS) LIBC_TEST_BINOP_(LE, LHS, RHS, )
	#define ASSERT_LE(LHS, RHS) LIBC_TEST_BINOP_(LE, LHS, RHS, return)

	#define EXPECT_GT(LHS, RHS) LIBC_TEST_BINOP_(GT, LHS, RHS, )
	#define ASSERT_GT(LHS, RHS) LIBC_TEST_BINOP_(GT, LHS, RHS, return)

	#define EXPECT_GE(LHS, RHS) LIBC_TEST_BINOP_(GE, LHS, RHS, )
	#define ASSERT_GE(LHS, RHS) LIBC_TEST_BINOP_(GE, LHS, RHS, return)

	////////////////////////////////////////////////////////////////////////////////
	// Boolean checks are handled as comparison to the true / false values.

	#define EXPECT_TRUE(VAL) EXPECT_EQ(VAL, true)
	#define ASSERT_TRUE(VAL) ASSERT_EQ(VAL, true)

	#define EXPECT_FALSE(VAL) EXPECT_EQ(VAL, false)
	#define ASSERT_FALSE(VAL) ASSERT_EQ(VAL, false)

	////////////////////////////////////////////////////////////////////////////////
	// String checks.

	#define LIBC_TEST_STR_(TEST_FUNC, LHS, RHS, RET_OR_EMPTY) \
	LIBC_TEST_SCAFFOLDING_(TEST_FUNC(LHS, RHS, #LHS, #RHS, LIBC_TEST_LOC_()), \
	RET_OR_EMPTY)

	#define EXPECT_STREQ(LHS, RHS) LIBC_TEST_STR_(testStrEq, LHS, RHS, )
	#define ASSERT_STREQ(LHS, RHS) LIBC_TEST_STR_(testStrEq, LHS, RHS, return)

	#define EXPECT_STRNE(LHS, RHS) LIBC_TEST_STR_(testStrNe, LHS, RHS, )
	#define ASSERT_STRNE(LHS, RHS) LIBC_TEST_STR_(testStrNe, LHS, RHS, return)

	////////////////////////////////////////////////////////////////////////////////
	// Subprocess checks.

	#ifdef ENABLE_SUBPROCESS_TESTS

	#define LIBC_TEST_PROCESS_(TEST_FUNC, FUNC, VALUE, RET_OR_EMPTY) \
	LIBC_TEST_SCAFFOLDING_( \
	TEST_FUNC(LIBC_NAMESPACE::testing::Test::createCallable(FUNC), VALUE, \
	#FUNC, #VALUE, LIBC_TEST_LOC_()), \
	RET_OR_EMPTY)

	#define EXPECT_EXITS(FUNC, EXIT) \
	LIBC_TEST_PROCESS_(testProcessExits, FUNC, EXIT, )
	#define ASSERT_EXITS(FUNC, EXIT) \
	LIBC_TEST_PROCESS_(testProcessExits, FUNC, EXIT, return)

	#define EXPECT_DEATH(FUNC, SIG) \
	LIBC_TEST_PROCESS_(testProcessKilled, FUNC, SIG, )
	#define ASSERT_DEATH(FUNC, SIG) \
	LIBC_TEST_PROCESS_(testProcessKilled, FUNC, SIG, return)

	#endif // ENABLE_SUBPROCESS_TESTS

	////////////////////////////////////////////////////////////////////////////////
	// Custom matcher checks.

	#define LIBC_TEST_MATCH_(MATCHER, MATCH, MATCHER_STR, MATCH_STR, RET_OR_EMPTY) \
	LIBC_TEST_SCAFFOLDING_(matchAndExplain(MATCHER, MATCH, MATCHER_STR, \
	MATCH_STR, LIBC_TEST_LOC_()), \
	RET_OR_EMPTY)

	#define EXPECT_THAT(MATCH, MATCHER) \
	LIBC_TEST_MATCH_(MATCHER, MATCH, #MATCHER, #MATCH, )
	#define ASSERT_THAT(MATCH, MATCHER) \
	LIBC_TEST_MATCH_(MATCHER, MATCH, #MATCHER, #MATCH, return)

	#define WITH_SIGNAL(X) X

	#define LIBC_TEST_HAS_MATCHERS() (1)

	#endif // LLVM_LIBC_TEST_UNITTEST_LIBCTEST_H