test/Sema/expr-address-of.c - clang - Git at Google

 // RUN: %clang_cc1 %s -verify -fsyntax-only
 struct xx { int bitf:1; };

 struct entry { struct xx *whatever;
                int value;
                int bitf:1; };
 void add_one(int *p) { (*p)++; }

 void test() {
  register struct entry *p;
  add_one(&p->value);
  struct entry pvalue;
  add_one(&p->bitf);  // expected-error {{address of bit-field requested}}
  add_one(&pvalue.bitf); // expected-error {{address of bit-field requested}}
  add_one(&p->whatever->bitf); // expected-error {{address of bit-field requested}}
 }

 void foo() {
   register int x[10];
   &x[10];              // expected-error {{address of register variable requested}}

   register int *y;

   int *x2 = &y; // expected-error {{address of register variable requested}}
   int *x3 = &y[10];
 }

 void testVectorComponentAccess() {
   typedef float v4sf __attribute__ ((vector_size (16)));
   static v4sf q;
   float* r = &q[0]; // expected-error {{address of vector element requested}}
 }

 typedef __attribute__(( ext_vector_type(4) ))  float float4;

 float *testExtVectorComponentAccess(float4 x) {
   return &x.w; // expected-error {{address of vector element requested}}
 }

 void f0() {
   register int *x0;
   int *_dummy0 = &(*x0);

   register int *x1;
   int *_dummy1 = &(*(x1 + 1));
 }

 // FIXME: The checks for this function are broken; we should error
 // on promoting a register array to a pointer! (C99 6.3.2.1p3)
 void f1() {
   register int x0[10];
   int *_dummy00 = x0; // fixme-error {{address of register variable requested}}
   int *_dummy01 = &(*x0); // fixme-error {{address of register variable requested}}

   register int x1[10];
   int *_dummy1 = &(*(x1 + 1)); // fixme-error {{address of register variable requested}}

   register int *x2;
   int *_dummy2 = &(*(x2 + 1));

   register int x3[10][10][10];
   int (*_dummy3)[10] = &x3[0][0]; // expected-error {{address of register variable requested}}

   register struct { int f0[10]; } x4;
   int *_dummy4 = &x4.f0[2]; // expected-error {{address of register variable requested}}
 }

 void f2() {
   register int *y;

   int *_dummy0 = &y; // expected-error {{address of register variable requested}}
   int *_dummy1 = &y[10];
 }

 void f3() {
   extern void f4();
   void (*_dummy0)() = &****f4;
 }

 void f4() {
   register _Complex int x;

   int *_dummy0 = &__real__ x; // expected-error {{address of register variable requested}}
 }

 void f5() {
   register int arr[2];

   /* This is just here because if we happened to support this as an
      lvalue we would need to give a warning. Note that gcc warns about
      this as a register before it warns about it as an invalid
      lvalue. */
   int *_dummy0 = &(int*) arr; // expected-error {{cannot take the address of an rvalue}}
   int *_dummy1 = &(arr + 1); // expected-error {{cannot take the address of an rvalue}}
 }

 void f6(register int x) {
   int * dummy0 = &x; // expected-error {{address of register variable requested}}
 }

 char* f7() {
   register struct {char* x;} t1 = {"Hello"};
   char* dummy1 = &(t1.x[0]);

   struct {int a : 10; struct{int b : 10;};} t2;
   int* dummy2 = &(t2.a); // expected-error {{address of bit-field requested}}
   int* dummy3 = &(t2.b); // expected-error {{address of bit-field requested}}

   void* t3 = &(*(void*)0);
 }

 void f8() {
   void *dummy0 = &f8(); // expected-error {{cannot take the address of an rvalue of type 'void'}}

   extern void v;
   void *dummy1 = &(1 ? v : f8()); // expected-error {{cannot take the address of an rvalue of type 'void'}}

   void *dummy2 = &(f8(), v); // expected-error {{cannot take the address of an rvalue of type 'void'}}

   void *dummy3 = &({ ; }); // expected-error {{cannot take the address of an rvalue of type 'void'}}
 }
	// RUN: %clang_cc1 %s -verify -fsyntax-only
	struct xx { int bitf:1; };

	struct entry { struct xx *whatever;
	int value;
	int bitf:1; };
	void add_one(int p) { (p)++; }

	void test() {
	register struct entry *p;
	add_one(&p->value);
	struct entry pvalue;
	add_one(&p->bitf); // expected-error {{address of bit-field requested}}
	add_one(&pvalue.bitf); // expected-error {{address of bit-field requested}}
	add_one(&p->whatever->bitf); // expected-error {{address of bit-field requested}}
	}

	void foo() {
	register int x[10];
	&x[10]; // expected-error {{address of register variable requested}}

	register int *y;

	int *x2 = &y; // expected-error {{address of register variable requested}}
	int *x3 = &y[10];
	}

	void testVectorComponentAccess() {
	typedef float v4sf __attribute__ ((vector_size (16)));
	static v4sf q;
	float* r = &q[0]; // expected-error {{address of vector element requested}}
	}

	typedef __attribute__(( ext_vector_type(4) )) float float4;

	float *testExtVectorComponentAccess(float4 x) {
	return &x.w; // expected-error {{address of vector element requested}}
	}

	void f0() {
	register int *x0;
	int _dummy0 = &(x0);

	register int *x1;
	int _dummy1 = &((x1 + 1));
	}

	// FIXME: The checks for this function are broken; we should error
	// on promoting a register array to a pointer! (C99 6.3.2.1p3)
	void f1() {
	register int x0[10];
	int *_dummy00 = x0; // fixme-error {{address of register variable requested}}
	int _dummy01 = &(x0); // fixme-error {{address of register variable requested}}

	register int x1[10];
	int _dummy1 = &((x1 + 1)); // fixme-error {{address of register variable requested}}

	register int *x2;
	int _dummy2 = &((x2 + 1));

	register int x3[10][10][10];
	int (*_dummy3)[10] = &x3[0][0]; // expected-error {{address of register variable requested}}

	register struct { int f0[10]; } x4;
	int *_dummy4 = &x4.f0[2]; // expected-error {{address of register variable requested}}
	}

	void f2() {
	register int *y;

	int *_dummy0 = &y; // expected-error {{address of register variable requested}}
	int *_dummy1 = &y[10];
	}

	void f3() {
	extern void f4();
	void (_dummy0)() = &***f4;
	}

	void f4() {
	register _Complex int x;

	int *_dummy0 = &__real__ x; // expected-error {{address of register variable requested}}
	}

	void f5() {
	register int arr[2];

	/* This is just here because if we happened to support this as an
	lvalue we would need to give a warning. Note that gcc warns about
	this as a register before it warns about it as an invalid
	lvalue. */
	int _dummy0 = &(int) arr; // expected-error {{cannot take the address of an rvalue}}
	int *_dummy1 = &(arr + 1); // expected-error {{cannot take the address of an rvalue}}
	}

	void f6(register int x) {
	int * dummy0 = &x; // expected-error {{address of register variable requested}}
	}

	char* f7() {
	register struct {char* x;} t1 = {"Hello"};
	char* dummy1 = &(t1.x[0]);

	struct {int a : 10; struct{int b : 10;};} t2;
	int* dummy2 = &(t2.a); // expected-error {{address of bit-field requested}}
	int* dummy3 = &(t2.b); // expected-error {{address of bit-field requested}}

	void* t3 = &((void)0);
	}

	void f8() {
	void *dummy0 = &f8(); // expected-error {{cannot take the address of an rvalue of type 'void'}}

	extern void v;
	void *dummy1 = &(1 ? v : f8()); // expected-error {{cannot take the address of an rvalue of type 'void'}}

	void *dummy2 = &(f8(), v); // expected-error {{cannot take the address of an rvalue of type 'void'}}

	void *dummy3 = &({ ; }); // expected-error {{cannot take the address of an rvalue of type 'void'}}
	}