test/SemaCXX/elaborated-type-specifier.cpp - clang - Git at Google

 // RUN: %clang_cc1 -fsyntax-only -verify %s

 // Test the use of elaborated-type-specifiers to inject the names of
 // structs (or classes or unions) into an outer scope as described in
 // C++ [basic.scope.pdecl]p5.
 typedef struct S1 {
   union {
     struct S2 *x;
     struct S3 *y;
   };
 } S1;

 bool test_elab(S1 *s1, struct S2 *s2, struct S3 *s3) {
   if (s1->x == s2) return true;
   if (s1->y == s3) return true;
   return false;
 }

 namespace NS {
   class X {
   public:
     void test_elab2(struct S4 *s4); // expected-note{{'NS::S4' declared here}}
   };

   void X::test_elab2(S4 *s4) { } // expected-note{{passing argument to parameter 's4' here}}
 }

 void test_X_elab(NS::X x) {
   struct S4 *s4 = 0;
   x.test_elab2(s4); // expected-error{{cannot initialize a parameter of type 'NS::S4 *' with an lvalue of type 'struct S4 *'}}
 }

 namespace NS {
   S4 *get_S4();
 }

 void test_S5_scope() {
   S4 *s4; // expected-error{{unknown type name 'S4'; did you mean 'NS::S4'?}}
 }

 int test_funcparam_scope(struct S5 * s5) {
   struct S5 { int y; } *s5_2 = 0;
   if (s5 == s5_2) return 1; // expected-error {{comparison of distinct pointer types ('struct S5 *' and 'struct S5 *')}}
   return 0;
 }

 namespace test5 {
   struct A {
     class __attribute__((visibility("hidden"))) B {};

     void test(class __attribute__((visibility("hidden"), noreturn)) B b) { // expected-warning {{'noreturn' attribute only applies to functions and methods}}
     }
   };
 }

 namespace test6 {
 struct C {
   template <typename> friend struct A; // expected-note {{'A' declared here}}
 };
 struct B {
   struct A *p; // expected-error {{implicit declaration introduced by elaborated type conflicts with a template of the same name}}
 };
 }
	// RUN: %clang_cc1 -fsyntax-only -verify %s

	// Test the use of elaborated-type-specifiers to inject the names of
	// structs (or classes or unions) into an outer scope as described in
	// C++ [basic.scope.pdecl]p5.
	typedef struct S1 {
	union {
	struct S2 *x;
	struct S3 *y;
	};
	} S1;

	bool test_elab(S1 s1, struct S2 s2, struct S3 *s3) {
	if (s1->x == s2) return true;
	if (s1->y == s3) return true;
	return false;
	}

	namespace NS {
	class X {
	public:
	void test_elab2(struct S4 *s4); // expected-note{{'NS::S4' declared here}}
	};

	void X::test_elab2(S4 *s4) { } // expected-note{{passing argument to parameter 's4' here}}
	}

	void test_X_elab(NS::X x) {
	struct S4 *s4 = 0;
	x.test_elab2(s4); // expected-error{{cannot initialize a parameter of type 'NS::S4 ' with an lvalue of type 'struct S4 '}}
	}

	namespace NS {
	S4 *get_S4();
	}

	void test_S5_scope() {
	S4 *s4; // expected-error{{unknown type name 'S4'; did you mean 'NS::S4'?}}
	}

	int test_funcparam_scope(struct S5 * s5) {
	struct S5 { int y; } *s5_2 = 0;
	if (s5 == s5_2) return 1; // expected-error {{comparison of distinct pointer types ('struct S5 ' and 'struct S5 ')}}
	return 0;
	}

	namespace test5 {
	struct A {
	class __attribute__((visibility("hidden"))) B {};

	void test(class __attribute__((visibility("hidden"), noreturn)) B b) { // expected-warning {{'noreturn' attribute only applies to functions and methods}}
	}
	};
	}

	namespace test6 {
	struct C {
	template <typename> friend struct A; // expected-note {{'A' declared here}}
	};
	struct B {
	struct A *p; // expected-error {{implicit declaration introduced by elaborated type conflicts with a template of the same name}}
	};
	}