1 //===-- Base class for libc unittests ---------------------------*- C++ -*-===// 2 // 3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4 // See https://llvm.org/LICENSE.txt for license information. 5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6 // 7 //===----------------------------------------------------------------------===// 8 9 #ifndef LLVM_LIBC_UTILS_UNITTEST_LIBCTEST_H 10 #define LLVM_LIBC_UTILS_UNITTEST_LIBCTEST_H 11 12 // This file can only include headers from src/__support/CPP/ or 13 // utils/testutils. No other headers should be included. 14 15 #include "PlatformDefs.h" 16 17 #include "src/__support/CPP/TypeTraits.h" 18 #include "utils/testutils/ExecuteFunction.h" 19 #include "utils/testutils/StreamWrapper.h" 20 21 namespace __llvm_libc { 22 namespace testing { 23 24 class RunContext; 25 26 // Only the following conditions are supported. Notice that we do not have 27 // a TRUE or FALSE condition. That is because, C library funtions do not 28 // return boolean values, but use integral return values to indicate true or 29 // false conditions. Hence, it is more appropriate to use the other comparison 30 // conditions for such cases. 31 enum TestCondition { 32 Cond_None, 33 Cond_EQ, 34 Cond_NE, 35 Cond_LT, 36 Cond_LE, 37 Cond_GT, 38 Cond_GE, 39 }; 40 41 namespace internal { 42 43 template <typename ValType> 44 bool test(RunContext *Ctx, TestCondition Cond, ValType LHS, ValType RHS, 45 const char *LHSStr, const char *RHSStr, const char *File, 46 unsigned long Line); 47 48 } // namespace internal 49 50 struct MatcherBase { 51 virtual ~MatcherBase() {} 52 virtual void explainError(testutils::StreamWrapper &OS) { 53 OS << "unknown error\n"; 54 } 55 }; 56 57 template <typename T> struct Matcher : public MatcherBase { bool match(T &t); }; 58 59 // NOTE: One should not create instances and call methods on them directly. One 60 // should use the macros TEST or TEST_F to write test cases. 61 class Test { 62 private: 63 Test *Next = nullptr; 64 RunContext *Ctx = nullptr; 65 66 void setContext(RunContext *C) { Ctx = C; } 67 68 public: 69 virtual ~Test() {} 70 virtual void SetUp() {} 71 virtual void TearDown() {} 72 73 static int runTests(const char *); 74 75 protected: 76 static void addTest(Test *T); 77 78 // We make use of a template function, with |LHS| and |RHS| as explicit 79 // parameters, for enhanced type checking. Other gtest like unittest 80 // frameworks have a similar function which takes a boolean argument 81 // instead of the explicit |LHS| and |RHS| arguments. This boolean argument 82 // is the result of the |Cond| operation on |LHS| and |RHS|. Though not bad, 83 // |Cond| on mismatched |LHS| and |RHS| types can potentially succeed because 84 // of type promotion. 85 template <typename ValType, 86 cpp::EnableIfType<cpp::IsIntegral<ValType>::Value, int> = 0> 87 bool test(TestCondition Cond, ValType LHS, ValType RHS, const char *LHSStr, 88 const char *RHSStr, const char *File, unsigned long Line) { 89 return internal::test(Ctx, Cond, LHS, RHS, LHSStr, RHSStr, File, Line); 90 } 91 92 template < 93 typename ValType, 94 cpp::EnableIfType<cpp::IsPointerType<ValType>::Value, ValType> = nullptr> 95 bool test(TestCondition Cond, ValType LHS, ValType RHS, const char *LHSStr, 96 const char *RHSStr, const char *File, unsigned long Line) { 97 return internal::test(Ctx, Cond, (unsigned long long)LHS, 98 (unsigned long long)RHS, LHSStr, RHSStr, File, Line); 99 } 100 101 bool testStrEq(const char *LHS, const char *RHS, const char *LHSStr, 102 const char *RHSStr, const char *File, unsigned long Line); 103 104 bool testStrNe(const char *LHS, const char *RHS, const char *LHSStr, 105 const char *RHSStr, const char *File, unsigned long Line); 106 107 bool testMatch(bool MatchResult, MatcherBase &Matcher, const char *LHSStr, 108 const char *RHSStr, const char *File, unsigned long Line); 109 110 bool testProcessExits(testutils::FunctionCaller *Func, int ExitCode, 111 const char *LHSStr, const char *RHSStr, 112 const char *File, unsigned long Line); 113 114 bool testProcessKilled(testutils::FunctionCaller *Func, int Signal, 115 const char *LHSStr, const char *RHSStr, 116 const char *File, unsigned long Line); 117 118 template <typename Func> testutils::FunctionCaller *createCallable(Func f) { 119 struct Callable : public testutils::FunctionCaller { 120 Func f; 121 Callable(Func f) : f(f) {} 122 void operator()() override { f(); } 123 }; 124 125 return new Callable(f); 126 } 127 128 private: 129 virtual void Run() = 0; 130 virtual const char *getName() const = 0; 131 132 static Test *Start; 133 static Test *End; 134 }; 135 136 namespace internal { 137 138 constexpr bool same_prefix(char const *lhs, char const *rhs, int const len) { 139 for (int i = 0; (*lhs || *rhs) && (i < len); ++lhs, ++rhs, ++i) 140 if (*lhs != *rhs) 141 return false; 142 return true; 143 } 144 145 constexpr bool valid_prefix(char const *lhs) { 146 return same_prefix(lhs, "LlvmLibc", 8); 147 } 148 149 // 'str' is a null terminated string of the form 150 // "const char *__llvm_libc::testing::internal::GetTypeName() [ParamType = XXX]" 151 // We return the substring that start at character '[' or a default message. 152 constexpr char const *GetPrettyFunctionParamType(char const *str) { 153 for (const char *ptr = str; *ptr != '\0'; ++ptr) 154 if (*ptr == '[') 155 return ptr; 156 return "UNSET : declare with REGISTER_TYPE_NAME"; 157 } 158 159 // This function recovers ParamType at compile time by using __PRETTY_FUNCTION__ 160 // It can be customized by using the REGISTER_TYPE_NAME macro below. 161 template <typename ParamType> static constexpr const char *GetTypeName() { 162 return GetPrettyFunctionParamType(__PRETTY_FUNCTION__); 163 } 164 165 template <typename T> 166 static inline void GenerateName(char *buffer, int buffer_size, 167 const char *prefix) { 168 if (buffer_size == 0) 169 return; 170 171 // Make sure string is null terminated. 172 --buffer_size; 173 buffer[buffer_size] = '\0'; 174 175 const auto AppendChar = [&](char c) { 176 if (buffer_size > 0) { 177 *buffer = c; 178 ++buffer; 179 --buffer_size; 180 } 181 }; 182 const auto AppendStr = [&](const char *str) { 183 for (; str && *str != '\0'; ++str) 184 AppendChar(*str); 185 }; 186 187 AppendStr(prefix); 188 AppendChar(' '); 189 AppendStr(GetTypeName<T>()); 190 AppendChar('\0'); 191 } 192 193 // TestCreator implements a linear hierarchy of test instances, effectively 194 // instanciating all tests with Types in a single object. 195 template <template <typename> class TemplatedTestClass, typename... Types> 196 struct TestCreator; 197 198 template <template <typename> class TemplatedTestClass, typename Head, 199 typename... Tail> 200 struct TestCreator<TemplatedTestClass, Head, Tail...> 201 : private TestCreator<TemplatedTestClass, Tail...> { 202 TemplatedTestClass<Head> instance; 203 }; 204 205 template <template <typename> class TemplatedTestClass> 206 struct TestCreator<TemplatedTestClass> {}; 207 208 // A type list to declare the set of types to instantiate the tests with. 209 template <typename... Types> struct TypeList { 210 template <template <typename> class TemplatedTestClass> struct Tests { 211 using type = TestCreator<TemplatedTestClass, Types...>; 212 }; 213 }; 214 215 } // namespace internal 216 217 // Make TypeList visible in __llvm_libc::testing. 218 template <typename... Types> using TypeList = internal::TypeList<Types...>; 219 220 } // namespace testing 221 } // namespace __llvm_libc 222 223 // For TYPED_TEST and TYPED_TEST_F below we need to display which type was used 224 // to run the test. The default will return the fully qualified canonical type 225 // but it can be difficult to read. We provide the following macro to allow the 226 // client to register the type name as they see it in the code. 227 #define REGISTER_TYPE_NAME(TYPE) \ 228 template <> \ 229 constexpr const char *__llvm_libc::testing::internal::GetTypeName<TYPE>() { \ 230 return "[ParamType = " #TYPE "]"; \ 231 } 232 233 #define TYPED_TEST(SuiteName, TestName, TypeList) \ 234 static_assert( \ 235 __llvm_libc::testing::internal::valid_prefix(#SuiteName), \ 236 "All LLVM-libc TYPED_TEST suite names must start with 'LlvmLibc'."); \ 237 template <typename T> \ 238 class SuiteName##_##TestName : public __llvm_libc::testing::Test { \ 239 public: \ 240 using ParamType = T; \ 241 char name[256]; \ 242 SuiteName##_##TestName() { \ 243 addTest(this); \ 244 __llvm_libc::testing::internal::GenerateName<T>( \ 245 name, sizeof(name), #SuiteName "." #TestName); \ 246 } \ 247 void Run() override; \ 248 const char *getName() const override { return name; } \ 249 }; \ 250 TypeList::Tests<SuiteName##_##TestName>::type \ 251 SuiteName##_##TestName##_Instance; \ 252 template <typename T> void SuiteName##_##TestName<T>::Run() 253 254 #define TYPED_TEST_F(SuiteClass, TestName, TypeList) \ 255 static_assert(__llvm_libc::testing::internal::valid_prefix(#SuiteClass), \ 256 "All LLVM-libc TYPED_TEST_F suite class names must start " \ 257 "with 'LlvmLibc'."); \ 258 template <typename T> class SuiteClass##_##TestName : public SuiteClass<T> { \ 259 public: \ 260 using ParamType = T; \ 261 char name[256]; \ 262 SuiteClass##_##TestName() { \ 263 SuiteClass<T>::addTest(this); \ 264 __llvm_libc::testing::internal::GenerateName<T>( \ 265 name, sizeof(name), #SuiteClass "." #TestName); \ 266 } \ 267 void Run() override; \ 268 const char *getName() const override { return name; } \ 269 }; \ 270 TypeList::Tests<SuiteClass##_##TestName>::type \ 271 SuiteClass##_##TestName##_Instance; \ 272 template <typename T> void SuiteClass##_##TestName<T>::Run() 273 274 #define TEST(SuiteName, TestName) \ 275 static_assert(__llvm_libc::testing::internal::valid_prefix(#SuiteName), \ 276 "All LLVM-libc TEST suite names must start with 'LlvmLibc'."); \ 277 class SuiteName##_##TestName : public __llvm_libc::testing::Test { \ 278 public: \ 279 SuiteName##_##TestName() { addTest(this); } \ 280 void Run() override; \ 281 const char *getName() const override { return #SuiteName "." #TestName; } \ 282 }; \ 283 SuiteName##_##TestName SuiteName##_##TestName##_Instance; \ 284 void SuiteName##_##TestName::Run() 285 286 #define TEST_F(SuiteClass, TestName) \ 287 static_assert( \ 288 __llvm_libc::testing::internal::valid_prefix(#SuiteClass), \ 289 "All LLVM-libc TEST_F suite class names must start with 'LlvmLibc'."); \ 290 class SuiteClass##_##TestName : public SuiteClass { \ 291 public: \ 292 SuiteClass##_##TestName() { addTest(this); } \ 293 void Run() override; \ 294 const char *getName() const override { return #SuiteClass "." #TestName; } \ 295 }; \ 296 SuiteClass##_##TestName SuiteClass##_##TestName##_Instance; \ 297 void SuiteClass##_##TestName::Run() 298 299 #define EXPECT_EQ(LHS, RHS) \ 300 this->test(__llvm_libc::testing::Cond_EQ, (LHS), (RHS), #LHS, #RHS, \ 301 __FILE__, __LINE__) 302 #define ASSERT_EQ(LHS, RHS) \ 303 if (!EXPECT_EQ(LHS, RHS)) \ 304 return 305 306 #define EXPECT_NE(LHS, RHS) \ 307 this->test(__llvm_libc::testing::Cond_NE, (LHS), (RHS), #LHS, #RHS, \ 308 __FILE__, __LINE__) 309 #define ASSERT_NE(LHS, RHS) \ 310 if (!EXPECT_NE(LHS, RHS)) \ 311 return 312 313 #define EXPECT_LT(LHS, RHS) \ 314 this->test(__llvm_libc::testing::Cond_LT, (LHS), (RHS), #LHS, #RHS, \ 315 __FILE__, __LINE__) 316 #define ASSERT_LT(LHS, RHS) \ 317 if (!EXPECT_LT(LHS, RHS)) \ 318 return 319 320 #define EXPECT_LE(LHS, RHS) \ 321 this->test(__llvm_libc::testing::Cond_LE, (LHS), (RHS), #LHS, #RHS, \ 322 __FILE__, __LINE__) 323 #define ASSERT_LE(LHS, RHS) \ 324 if (!EXPECT_LE(LHS, RHS)) \ 325 return 326 327 #define EXPECT_GT(LHS, RHS) \ 328 this->test(__llvm_libc::testing::Cond_GT, (LHS), (RHS), #LHS, #RHS, \ 329 __FILE__, __LINE__) 330 #define ASSERT_GT(LHS, RHS) \ 331 if (!EXPECT_GT(LHS, RHS)) \ 332 return 333 334 #define EXPECT_GE(LHS, RHS) \ 335 this->test(__llvm_libc::testing::Cond_GE, (LHS), (RHS), #LHS, #RHS, \ 336 __FILE__, __LINE__) 337 #define ASSERT_GE(LHS, RHS) \ 338 if (!EXPECT_GE(LHS, RHS)) \ 339 return 340 341 #define EXPECT_STREQ(LHS, RHS) \ 342 this->testStrEq((LHS), (RHS), #LHS, #RHS, __FILE__, __LINE__) 343 #define ASSERT_STREQ(LHS, RHS) \ 344 if (!EXPECT_STREQ(LHS, RHS)) \ 345 return 346 347 #define EXPECT_STRNE(LHS, RHS) \ 348 this->testStrNe((LHS), (RHS), #LHS, #RHS, __FILE__, __LINE__) 349 #define ASSERT_STRNE(LHS, RHS) \ 350 if (!EXPECT_STRNE(LHS, RHS)) \ 351 return 352 353 #define EXPECT_TRUE(VAL) EXPECT_EQ((VAL), true) 354 355 #define ASSERT_TRUE(VAL) \ 356 if (!EXPECT_TRUE(VAL)) \ 357 return 358 359 #define EXPECT_FALSE(VAL) EXPECT_EQ((VAL), false) 360 361 #define ASSERT_FALSE(VAL) \ 362 if (!EXPECT_FALSE(VAL)) \ 363 return 364 365 #ifdef ENABLE_SUBPROCESS_TESTS 366 367 #define EXPECT_EXITS(FUNC, EXIT) \ 368 this->testProcessExits(__llvm_libc::testing::Test::createCallable(FUNC), \ 369 EXIT, #FUNC, #EXIT, __FILE__, __LINE__) 370 371 #define ASSERT_EXITS(FUNC, EXIT) \ 372 if (!EXPECT_EXITS(FUNC, EXIT)) \ 373 return 374 375 #define EXPECT_DEATH(FUNC, SIG) \ 376 this->testProcessKilled(__llvm_libc::testing::Test::createCallable(FUNC), \ 377 SIG, #FUNC, #SIG, __FILE__, __LINE__) 378 379 #define ASSERT_DEATH(FUNC, EXIT) \ 380 if (!EXPECT_DEATH(FUNC, EXIT)) \ 381 return 382 383 #endif // ENABLE_SUBPROCESS_TESTS 384 385 #define __CAT1(a, b) a##b 386 #define __CAT(a, b) __CAT1(a, b) 387 #define UNIQUE_VAR(prefix) __CAT(prefix, __LINE__) 388 389 #define EXPECT_THAT(MATCH, MATCHER) \ 390 do { \ 391 auto UNIQUE_VAR(__matcher) = (MATCHER); \ 392 this->testMatch(UNIQUE_VAR(__matcher).match((MATCH)), \ 393 UNIQUE_VAR(__matcher), #MATCH, #MATCHER, __FILE__, \ 394 __LINE__); \ 395 } while (0) 396 397 #define ASSERT_THAT(MATCH, MATCHER) \ 398 do { \ 399 auto UNIQUE_VAR(__matcher) = (MATCHER); \ 400 if (!this->testMatch(UNIQUE_VAR(__matcher).match((MATCH)), \ 401 UNIQUE_VAR(__matcher), #MATCH, #MATCHER, __FILE__, \ 402 __LINE__)) \ 403 return; \ 404 } while (0) 405 406 #define WITH_SIGNAL(X) X 407 408 #endif // LLVM_LIBC_UTILS_UNITTEST_LIBCTEST_H 409