clang/test/AST/sourceranges.cpp - llvm-project - Git at Google

 // RUN: %clang_cc1 -triple i686-mingw32 -ast-dump %s | FileCheck %s
 // RUN: %clang_cc1 -triple i686-mingw32 -std=c++1z -ast-dump %s | FileCheck %s -check-prefix=CHECK-1Z

 template<class T>
 class P {
  public:
   P(T* t) {}
 };

 namespace foo {
 class A { public: A(int = 0) {} };
 enum B {};
 typedef int C;
 }

 // CHECK: VarDecl {{0x[0-9a-fA-F]+}} <line:[[@LINE+1]]:1, col:36> col:15 ImplicitConstrArray 'foo::A [2]'
 static foo::A ImplicitConstrArray[2];

 int main() {
   // CHECK: CXXNewExpr {{0x[0-9a-fA-F]+}} <col:19, col:28> 'foo::A *'
   P<foo::A> p14 = new foo::A;
   // CHECK: CXXNewExpr {{0x[0-9a-fA-F]+}} <col:19, col:28> 'foo::B *'
   P<foo::B> p24 = new foo::B;
   // CHECK: CXXNewExpr {{0x[0-9a-fA-F]+}} <col:19, col:28> 'foo::C *'
   P<foo::C> pr4 = new foo::C;
 }

 foo::A getName() {
   // CHECK: CXXConstructExpr {{0x[0-9a-fA-F]+}} <col:10, col:17> 'foo::A'
   return foo::A();
 }

 void destruct(foo::A *a1, foo::A *a2, P<int> *p1) {
   // CHECK: MemberExpr {{0x[0-9a-fA-F]+}} <col:3, col:8> '<bound member function type>' ->~A
   a1->~A();
   // CHECK: MemberExpr {{0x[0-9a-fA-F]+}} <col:3, col:16> '<bound member function type>' ->~A
   a2->foo::A::~A();
   // CHECK: MemberExpr {{0x[0-9a-fA-F]+}} <col:3, col:13> '<bound member function type>' ->~P
   p1->~P<int>();
 }

 struct D {
   D(int);
   ~D();
 };

 void construct() {
   using namespace foo;
   A a = A(12);
   // CHECK: CXXConstructExpr {{0x[0-9a-fA-F]+}} <col:9, col:13> 'foo::A' 'void (int){{( __attribute__\(\(thiscall\)\))?}}'
   D d = D(12);
   // CHECK: CXXConstructExpr {{0x[0-9a-fA-F]+}} <col:9, col:13> 'D' 'void (int){{( __attribute__\(\(thiscall\)\))?}}'
 }

 namespace PR38987 {
 struct A { A(); };
 template <class T> void f() { T{}; }
 template void f<A>();
 // CHECK: CXXTemporaryObjectExpr {{.*}} <col:31, col:33> 'PR38987::A':'PR38987::A'
 }

 void abort() __attribute__((noreturn));

 namespace std {
 typedef decltype(sizeof(int)) size_t;

 template <typename E> struct initializer_list {
   const E *p;
   size_t n;
   initializer_list(const E *p, size_t n) : p(p), n(n) {}
 };

 template <typename F, typename S> struct pair {
   F f;
   S s;
   pair(const F &f, const S &s) : f(f), s(s) {}
 };

 struct string {
   const char *str;
   string() { abort(); }
   string(const char *S) : str(S) {}
   ~string() { abort(); }
 };

 template<typename K, typename V>
 struct map {
   using T = pair<K, V>;
   map(initializer_list<T> i, const string &s = string()) {}
   ~map() { abort(); }
 };

 }; // namespace std

 // CHECK: NamespaceDecl {{.*}} attributed_decl
 namespace attributed_decl {
   void f() {
     // CHECK: DeclStmt {{.*}} <line:[[@LINE+1]]:5, col:28>
     [[maybe_unused]] int i1;
     // CHECK: DeclStmt {{.*}} <line:[[@LINE+1]]:5, col:35>
     __attribute__((unused)) int i2;
     // CHECK: DeclStmt {{.*}} <line:[[@LINE+1]]:5, col:35>
     int __attribute__((unused)) i3;
     // CHECK: DeclStmt {{.*}} <<built-in>:{{.*}}, {{.*}}:[[@LINE+1]]:40>
     __declspec(dllexport) extern int i4;
     // CHECK: DeclStmt {{.*}} <line:[[@LINE+1]]:5, col:40>
     extern int __declspec(dllexport) i5;
   }
 }

 // CHECK-1Z: NamespaceDecl {{.*}} attributed_case
 namespace attributed_case {
 void f(int n) {
   switch (n) {
   case 0:
     n--;
     // CHECK: AttributedStmt {{.*}} <line:[[@LINE+2]]:5, line:[[@LINE+4]]:35>
     // CHECK: FallThroughAttr {{.*}} <line:[[@LINE+1]]:20>
     __attribute__((fallthrough))
     // CHECK: FallThroughAttr {{.*}} <line:[[@LINE+1]]:22>
       __attribute__((fallthrough));
   case 1:
     n++;
     break;
   }
 }
 } // namespace attributed_case

 // CHECK: NamespaceDecl {{.*}} attributed_stmt
 namespace attributed_stmt {
   // In DO_PRAGMA and _Pragma cases, `LoopHintAttr` comes from <scratch space>
   // file.

   #define DO_PRAGMA(x) _Pragma (#x)

   void f() {
     // CHECK: AttributedStmt {{.*}} <line:[[@LINE-3]]:24, line:[[@LINE+2]]:33>
     DO_PRAGMA (unroll(2))
     for (int i = 0; i < 10; ++i);

     // CHECK: AttributedStmt {{.*}} <line:[[@LINE+2]]:5, line:[[@LINE+3]]:33>
     // CHECK: LoopHintAttr {{.*}} <line:[[@LINE+1]]:13, col:22>
     #pragma unroll(2)
     for (int i = 0; i < 10; ++i);

     // CHECK: AttributedStmt {{.*}} <line:[[@LINE+2]]:5, line:[[@LINE+5]]:33>
     // CHECK: LoopHintAttr {{.*}} <line:[[@LINE+1]]:19, col:41>
     #pragma clang loop vectorize(enable)
     // CHECK: LoopHintAttr {{.*}} <line:[[@LINE+1]]:19, col:42>
     #pragma clang loop interleave(enable)
     for (int i = 0; i < 10; ++i);

     // CHECK: AttributedStmt {{.*}} <line:[[@LINE+1]]:5, line:[[@LINE+2]]:33>
     _Pragma("unroll(2)")
     for (int i = 0; i < 10; ++i);
   }
 }

 #if __cplusplus >= 201703L
 // CHECK-1Z: FunctionDecl {{.*}} construct_with_init_list
 std::map<int, int> construct_with_init_list() {
   // CHECK-1Z-NEXT: CompoundStmt
   // CHECK-1Z-NEXT: ReturnStmt {{.*}} <line:[[@LINE+5]]:3, col:35
   // CHECK-1Z-NEXT: ExprWithCleanups {{.*}} <col:10, col:35
   // CHECK-1Z-NEXT: CXXBindTemporaryExpr {{.*}} <col:10, col:35
   // CHECK-1Z-NEXT: CXXTemporaryObjectExpr {{.*}} <col:10, col:35
   // CHECK-1Z-NEXT: CXXStdInitializerListExpr {{.*}} <col:28, col:35
   return std::map<int, int>{{0, 0}};
 }

 // CHECK-1Z: NamespaceDecl {{.*}} in_class_init
 namespace in_class_init {
   struct A {};

   // CHECK-1Z: CXXRecordDecl {{.*}} struct B definition
   struct B {
     // CHECK-1Z: FieldDecl {{.*}} a 'in_class_init::A'
     // CHECK-1Z-NEXT: InitListExpr {{.*}} <col:11, col:12
     A a = {};
   };
 }

 // CHECK-1Z: NamespaceDecl {{.*}} delegating_constructor_init
 namespace delegating_constructor_init {
   struct A {};

   struct B : A {
     A a;
     B(A a) : a(a) {}
   };

   // CHECK-1Z: CXXRecordDecl {{.*}} struct C definition
   struct C : B {
     // CHECK-1Z: CXXConstructorDecl {{.*}} C
     // CHECK-1Z-NEXT: CXXCtorInitializer 'delegating_constructor_init::B'
     // CHECK-1Z-NEXT: CXXConstructExpr {{.*}} <col:11, col:15
     // CHECK-1Z-NEXT: InitListExpr {{.*}} <col:13, col:14
     C() : B({}) {};
   };
 }

 // CHECK-1Z: NamespaceDecl {{.*}} new_init
 namespace new_init {
   void A() {
     // CHECK-1Z: CXXNewExpr {{.*}} <line:[[@LINE+2]]:5, col:14
     // CHECK-1Z-NEXT: InitListExpr {{.*}} <col:12, col:14
     new int{0};
   }
 }
 #endif
	// RUN: %clang_cc1 -triple i686-mingw32 -ast-dump %s \| FileCheck %s
	// RUN: %clang_cc1 -triple i686-mingw32 -std=c++1z -ast-dump %s \| FileCheck %s -check-prefix=CHECK-1Z

	template<class T>
	class P {
	public:
	P(T* t) {}
	};

	namespace foo {
	class A { public: A(int = 0) {} };
	enum B {};
	typedef int C;
	}

	// CHECK: VarDecl {{0x[0-9a-fA-F]+}} <line:[[@LINE+1]]:1, col:36> col:15 ImplicitConstrArray 'foo::A [2]'
	static foo::A ImplicitConstrArray[2];

	int main() {
	// CHECK: CXXNewExpr {{0x[0-9a-fA-F]+}} <col:19, col:28> 'foo::A *'
	P<foo::A> p14 = new foo::A;
	// CHECK: CXXNewExpr {{0x[0-9a-fA-F]+}} <col:19, col:28> 'foo::B *'
	P<foo::B> p24 = new foo::B;
	// CHECK: CXXNewExpr {{0x[0-9a-fA-F]+}} <col:19, col:28> 'foo::C *'
	P<foo::C> pr4 = new foo::C;
	}

	foo::A getName() {
	// CHECK: CXXConstructExpr {{0x[0-9a-fA-F]+}} <col:10, col:17> 'foo::A'
	return foo::A();
	}

	void destruct(foo::A a1, foo::A a2, P<int> *p1) {
	// CHECK: MemberExpr {{0x[0-9a-fA-F]+}} <col:3, col:8> '<bound member function type>' ->~A
	a1->~A();
	// CHECK: MemberExpr {{0x[0-9a-fA-F]+}} <col:3, col:16> '<bound member function type>' ->~A
	a2->foo::A::~A();
	// CHECK: MemberExpr {{0x[0-9a-fA-F]+}} <col:3, col:13> '<bound member function type>' ->~P
	p1->~P<int>();
	}

	struct D {
	D(int);
	~D();
	};

	void construct() {
	using namespace foo;
	A a = A(12);
	// CHECK: CXXConstructExpr {{0x[0-9a-fA-F]+}} <col:9, col:13> 'foo::A' 'void (int){{( __attribute__\(\(thiscall\)\))?}}'
	D d = D(12);
	// CHECK: CXXConstructExpr {{0x[0-9a-fA-F]+}} <col:9, col:13> 'D' 'void (int){{( __attribute__\(\(thiscall\)\))?}}'
	}

	namespace PR38987 {
	struct A { A(); };
	template <class T> void f() { T{}; }
	template void f<A>();
	// CHECK: CXXTemporaryObjectExpr {{.*}} <col:31, col:33> 'PR38987::A':'PR38987::A'
	}

	void abort() __attribute__((noreturn));

	namespace std {
	typedef decltype(sizeof(int)) size_t;

	template <typename E> struct initializer_list {
	const E *p;
	size_t n;
	initializer_list(const E *p, size_t n) : p(p), n(n) {}
	};

	template <typename F, typename S> struct pair {
	F f;
	S s;
	pair(const F &f, const S &s) : f(f), s(s) {}
	};

	struct string {
	const char *str;
	string() { abort(); }
	string(const char *S) : str(S) {}
	~string() { abort(); }
	};

	template<typename K, typename V>
	struct map {
	using T = pair<K, V>;
	map(initializer_list<T> i, const string &s = string()) {}
	~map() { abort(); }
	};

	}; // namespace std

	// CHECK: NamespaceDecl {{.*}} attributed_decl
	namespace attributed_decl {
	void f() {
	// CHECK: DeclStmt {{.*}} <line:[[@LINE+1]]:5, col:28>
	[[maybe_unused]] int i1;
	// CHECK: DeclStmt {{.*}} <line:[[@LINE+1]]:5, col:35>
	__attribute__((unused)) int i2;
	// CHECK: DeclStmt {{.*}} <line:[[@LINE+1]]:5, col:35>
	int __attribute__((unused)) i3;
	// CHECK: DeclStmt {{.}} <<built-in>:{{.}}, {{.*}}:[[@LINE+1]]:40>
	__declspec(dllexport) extern int i4;
	// CHECK: DeclStmt {{.*}} <line:[[@LINE+1]]:5, col:40>
	extern int __declspec(dllexport) i5;
	}
	}

	// CHECK-1Z: NamespaceDecl {{.*}} attributed_case
	namespace attributed_case {
	void f(int n) {
	switch (n) {
	case 0:
	n--;
	// CHECK: AttributedStmt {{.*}} <line:[[@LINE+2]]:5, line:[[@LINE+4]]:35>
	// CHECK: FallThroughAttr {{.*}} <line:[[@LINE+1]]:20>
	__attribute__((fallthrough))
	// CHECK: FallThroughAttr {{.*}} <line:[[@LINE+1]]:22>
	__attribute__((fallthrough));
	case 1:
	n++;
	break;
	}
	}
	} // namespace attributed_case

	// CHECK: NamespaceDecl {{.*}} attributed_stmt
	namespace attributed_stmt {
	// In DO_PRAGMA and _Pragma cases, `LoopHintAttr` comes from <scratch space>
	// file.

	#define DO_PRAGMA(x) _Pragma (#x)

	void f() {
	// CHECK: AttributedStmt {{.*}} <line:[[@LINE-3]]:24, line:[[@LINE+2]]:33>
	DO_PRAGMA (unroll(2))
	for (int i = 0; i < 10; ++i);

	// CHECK: AttributedStmt {{.*}} <line:[[@LINE+2]]:5, line:[[@LINE+3]]:33>
	// CHECK: LoopHintAttr {{.*}} <line:[[@LINE+1]]:13, col:22>
	#pragma unroll(2)
	for (int i = 0; i < 10; ++i);

	// CHECK: AttributedStmt {{.*}} <line:[[@LINE+2]]:5, line:[[@LINE+5]]:33>
	// CHECK: LoopHintAttr {{.*}} <line:[[@LINE+1]]:19, col:41>
	#pragma clang loop vectorize(enable)
	// CHECK: LoopHintAttr {{.*}} <line:[[@LINE+1]]:19, col:42>
	#pragma clang loop interleave(enable)
	for (int i = 0; i < 10; ++i);

	// CHECK: AttributedStmt {{.*}} <line:[[@LINE+1]]:5, line:[[@LINE+2]]:33>
	_Pragma("unroll(2)")
	for (int i = 0; i < 10; ++i);
	}
	}

	#if __cplusplus >= 201703L
	// CHECK-1Z: FunctionDecl {{.*}} construct_with_init_list
	std::map<int, int> construct_with_init_list() {
	// CHECK-1Z-NEXT: CompoundStmt
	// CHECK-1Z-NEXT: ReturnStmt {{.*}} <line:[[@LINE+5]]:3, col:35
	// CHECK-1Z-NEXT: ExprWithCleanups {{.*}} <col:10, col:35
	// CHECK-1Z-NEXT: CXXBindTemporaryExpr {{.*}} <col:10, col:35
	// CHECK-1Z-NEXT: CXXTemporaryObjectExpr {{.*}} <col:10, col:35
	// CHECK-1Z-NEXT: CXXStdInitializerListExpr {{.*}} <col:28, col:35
	return std::map<int, int>{{0, 0}};
	}

	// CHECK-1Z: NamespaceDecl {{.*}} in_class_init
	namespace in_class_init {
	struct A {};

	// CHECK-1Z: CXXRecordDecl {{.*}} struct B definition
	struct B {
	// CHECK-1Z: FieldDecl {{.*}} a 'in_class_init::A'
	// CHECK-1Z-NEXT: InitListExpr {{.*}} <col:11, col:12
	A a = {};
	};
	}

	// CHECK-1Z: NamespaceDecl {{.*}} delegating_constructor_init
	namespace delegating_constructor_init {
	struct A {};

	struct B : A {
	A a;
	B(A a) : a(a) {}
	};

	// CHECK-1Z: CXXRecordDecl {{.*}} struct C definition
	struct C : B {
	// CHECK-1Z: CXXConstructorDecl {{.*}} C
	// CHECK-1Z-NEXT: CXXCtorInitializer 'delegating_constructor_init::B'
	// CHECK-1Z-NEXT: CXXConstructExpr {{.*}} <col:11, col:15
	// CHECK-1Z-NEXT: InitListExpr {{.*}} <col:13, col:14
	C() : B({}) {};
	};
	}

	// CHECK-1Z: NamespaceDecl {{.*}} new_init
	namespace new_init {
	void A() {
	// CHECK-1Z: CXXNewExpr {{.*}} <line:[[@LINE+2]]:5, col:14
	// CHECK-1Z-NEXT: InitListExpr {{.*}} <col:12, col:14
	new int{0};
	}
	}
	#endif