gcc/testsuite/gcc.dg/diag-aka-5b.c - gcc - Git at Google

 #include "diag-aka-5.h"

 typedef user_enum user_enum_copy;

 struct s { int i; };

 user_enum ue1;
 user_enum_copy ue2;
 user_enum_ptr ue_ptr1;
 user_enum *ue_ptr2;
 const user_enum *const_ue_ptr1;
 const user_enum_copy *const_ue_ptr2;
 volatile user_enum *volatile_ue_ptr1;
 volatile user_enum_copy *volatile_ue_ptr2;
 __extension__ _Atomic user_enum *atomic_ue_ptr1;
 __extension__ _Atomic user_enum_copy *atomic_ue_ptr2;
 user_enum (*ue_array_ptr1)[10];
 user_enum_copy (*ue_array_ptr2)[10];
 user_enum (*ue_fn_ptr1) (void);
 void (*ue_fn_ptr2) (user_enum);
 void (*ue_fn_ptr3) (user_enum, ...);
 user_enum_copy (*ue_fn_ptr4) (void);
 void (*ue_fn_ptr5) (user_enum_copy);
 void (*ue_fn_ptr6) (user_enum_copy, ...);
 user_enum (*__attribute__((__transaction_unsafe__)) unsafe_ue_fn_ptr1) (void);
 user_enum_copy (*__attribute__((__transaction_unsafe__)) unsafe_ue_fn_ptr2) (void);

 user_struct us1;
 user_struct_copy us2;
 user_struct_ptr us_ptr1;
 user_struct *us_ptr2;
 const user_struct *const_us_ptr1;
 const user_struct_copy *const_us_ptr2;

 user_union uu1;
 user_union_copy uu2;
 user_union_ptr uu_ptr1;
 user_union *uu_ptr2;
 const user_union *const_uu_ptr1;
 const user_union_copy *const_uu_ptr2;

 user_vector uv1;
 user_vector_copy uv2;
 user_vector_ptr uv_ptr1;
 user_vector *uv_ptr2;
 const user_vector *const_uv_ptr1;
 const user_vector_copy *const_uv_ptr2;

 user_int ui1;
 user_int_copy ui2;
 user_int_ptr ui_ptr1;
 user_int *ui_ptr2;
 const user_int *const_ui_ptr1;
 const user_int_copy *const_ui_ptr2;
 volatile user_int *volatile_ui_ptr1;
 volatile user_int_copy *volatile_ui_ptr2;
 __extension__ _Atomic user_int *atomic_ui_ptr1;
 __extension__ _Atomic user_int_copy *atomic_ui_ptr2;
 user_int (*ui_array_ptr1)[10];
 user_int_copy (*ui_array_ptr2)[10];
 user_int (*ui_fn_ptr1) (void);
 void (*ui_fn_ptr2) (user_int);
 void (*ui_fn_ptr3) (user_int, ...);
 user_int_copy (*ui_fn_ptr4) (void);
 void (*ui_fn_ptr5) (user_int_copy);
 void (*ui_fn_ptr6) (user_int_copy, ...);
 user_int (*__attribute__((__transaction_unsafe__)) unsafe_ui_fn_ptr1) (void);
 user_int_copy (*__attribute__((__transaction_unsafe__)) unsafe_ui_fn_ptr2) (void);

 void f (struct s s)
 {
   ue1 = s; /* { dg-error {assigning to type 'user_enum' {aka 'enum __internal_enum'} from type 'struct s'} } */
   ue2 = s; /* { dg-error {assigning to type 'user_enum_copy' {aka 'enum __internal_enum'} from type 'struct s'} } */
   ue_ptr1 = &s; /* { dg-error {assignment to 'user_enum_ptr' {aka 'enum __internal_enum \*'} from incompatible pointer type 'struct s \*'} } */
   ue_ptr2 = &s; /* { dg-error {assignment to 'user_enum \*' {aka 'enum __internal_enum \*'} from incompatible pointer type 'struct s \*'} } */
   const_ue_ptr1 = &s; /* { dg-error {assignment to 'const user_enum \*' {aka 'const enum __internal_enum \*'} from incompatible pointer type 'struct s \*'} } */
   const_ue_ptr2 = &s; /* { dg-error {assignment to 'const user_enum_copy \*' {aka 'const enum __internal_enum \*'} from incompatible pointer type 'struct s \*'} } */
   volatile_ue_ptr1 = &s; /* { dg-error {assignment to 'volatile user_enum \*' {aka 'volatile enum __internal_enum \*'} from incompatible pointer type 'struct s \*'} } */
   volatile_ue_ptr2 = &s; /* { dg-error {assignment to 'volatile user_enum_copy \*' {aka 'volatile enum __internal_enum \*'} from incompatible pointer type 'struct s \*'} } */
   atomic_ue_ptr1 = &s; /* { dg-error {assignment to '_Atomic user_enum \*' {aka '_Atomic enum __internal_enum \*'} from incompatible pointer type 'struct s \*'} } */
   atomic_ue_ptr2 = &s; /* { dg-error {assignment to '_Atomic user_enum_copy \*' {aka '_Atomic enum __internal_enum \*'} from incompatible pointer type 'struct s \*'} } */
   ue_array_ptr1 = &s; /* { dg-error {assignment to 'user_enum \(\*\)\[10\]' {aka 'enum __internal_enum \(\*\)\[10\]'} from incompatible pointer type 'struct s \*'} } */
   ue_array_ptr2 = &s; /* { dg-error {assignment to 'user_enum_copy \(\*\)\[10\]' {aka 'enum __internal_enum \(\*\)\[10\]'} from incompatible pointer type 'struct s \*'} } */
   ue_fn_ptr1 = &s; /* { dg-error {assignment to 'user_enum \(\*\)\(void\)' {aka 'enum __internal_enum \(\*\)\(void\)'} from incompatible pointer type 'struct s \*'} } */
   ue_fn_ptr2 = &s; /* { dg-error {assignment to 'void \(\*\)\(user_enum\)' {aka 'void \(\*\)\(enum __internal_enum\)'} from incompatible pointer type 'struct s \*'} } */
   ue_fn_ptr3 = &s; /* { dg-error {assignment to 'void \(\*\)\(user_enum, \.\.\.\)' {aka 'void \(\*\)\(enum __internal_enum, \.\.\.\)'} from incompatible pointer type 'struct s \*'} } */
   ue_fn_ptr4 = &s; /* { dg-error {assignment to 'user_enum_copy \(\*\)\(void\)' {aka 'enum __internal_enum \(\*\)\(void\)'} from incompatible pointer type 'struct s \*'} } */
   ue_fn_ptr5 = &s; /* { dg-error {assignment to 'void \(\*\)\(user_enum_copy\)' {aka 'void \(\*\)\(enum __internal_enum\)'} from incompatible pointer type 'struct s \*'} } */
   ue_fn_ptr6 = &s; /* { dg-error {assignment to 'void \(\*\)\(user_enum_copy, \.\.\.\)' {aka 'void \(\*\)\(enum __internal_enum, \.\.\.\)'} from incompatible pointer type 'struct s \*'} } */
   unsafe_ue_fn_ptr1 = &s; /* { dg-error {assignment to 'user_enum \(__attribute__\(\(transaction_unsafe\)\) \*\)\(void\)' {aka 'enum __internal_enum \(__attribute__\(\(transaction_unsafe\)\) \*\)\(void\)'} from incompatible pointer type 'struct s \*'} } */
   unsafe_ue_fn_ptr2 = &s; /* { dg-error {assignment to 'user_enum_copy \(__attribute__\(\(transaction_unsafe\)\) \*\)\(void\)' {aka 'enum __internal_enum \(__attribute__\(\(transaction_unsafe\)\) \*\)\(void\)'} from incompatible pointer type 'struct s \*'} } */

   us1 = s; /* { dg-error {assigning to type 'user_struct' {aka 'struct __internal_struct'} from type 'struct s'} } */
   us2 = s; /* { dg-error {assigning to type 'user_struct_copy' {aka 'struct __internal_struct'} from type 'struct s'} } */
   us_ptr1 = &s; /* { dg-error {assignment to 'user_struct_ptr' {aka 'struct __internal_struct \*'} from incompatible pointer type 'struct s \*'} } */
   us_ptr2 = &s; /* { dg-error {assignment to 'user_struct \*' {aka 'struct __internal_struct \*'} from incompatible pointer type 'struct s \*'} } */
   const_us_ptr1 = &s; /* { dg-error {assignment to 'const user_struct \*' {aka 'const struct __internal_struct \*'} from incompatible pointer type 'struct s \*'} } */
   const_us_ptr2 = &s; /* { dg-error {assignment to 'const user_struct_copy \*' {aka 'const struct __internal_struct \*'} from incompatible pointer type 'struct s \*'} } */

   uu1 = s; /* { dg-error {assigning to type 'user_union' {aka 'union __internal_union'} from type 'struct s'} } */
   uu2 = s; /* { dg-error {assigning to type 'user_union_copy' {aka 'union __internal_union'} from type 'struct s'} } */
   uu_ptr1 = &s; /* { dg-error {assignment to 'user_union_ptr' {aka 'union __internal_union \*'} from incompatible pointer type 'struct s \*'} } */
   uu_ptr2 = &s; /* { dg-error {assignment to 'user_union \*' {aka 'union __internal_union \*'} from incompatible pointer type 'struct s \*'} } */
   const_uu_ptr1 = &s; /* { dg-error {assignment to 'const user_union \*' {aka 'const union __internal_union \*'} from incompatible pointer type 'struct s \*'} } */
   const_uu_ptr2 = &s; /* { dg-error {assignment to 'const user_union_copy \*' {aka 'const union __internal_union \*'} from incompatible pointer type 'struct s \*'} } */

   uv1 = s; /* { dg-error {assigning to type 'user_vector' {aka '__vector\([48]\) unsigned int'} from type 'struct s'} } */
   uv2 = s; /* { dg-error {assigning to type 'user_vector_copy' {aka '__vector\([48]\) unsigned int'} from type 'struct s'} } */
   uv_ptr1 = &s; /* { dg-error {assignment to 'user_vector_ptr' {aka '__vector\([48]\) unsigned int \*'} from incompatible pointer type 'struct s \*'} } */
   uv_ptr2 = &s; /* { dg-error {assignment to 'user_vector \*' {aka '__vector\([48]\) unsigned int \*'} from incompatible pointer type 'struct s \*'} } */
   const_uv_ptr1 = &s; /* { dg-error {assignment to 'const user_vector \*' {aka 'const __vector\([48]\) unsigned int \*'} from incompatible pointer type 'struct s \*'} } */
   const_uv_ptr2 = &s; /* { dg-error {assignment to 'const user_vector_copy \*' {aka 'const __vector\([48]\) unsigned int \*'} from incompatible pointer type 'struct s \*'} } */

   ui1 = s; /* { dg-error {assigning to type 'user_int' {aka 'int'} from type 'struct s'} } */
   ui2 = s; /* { dg-error {assigning to type 'user_int_copy' {aka 'int'} from type 'struct s'} } */
   ui_ptr1 = &s; /* { dg-error {assignment to 'user_int_ptr' {aka 'int \*'} from incompatible pointer type 'struct s \*'} } */
   ui_ptr2 = &s; /* { dg-error {assignment to 'user_int \*' {aka 'int \*'} from incompatible pointer type 'struct s \*'} } */
   const_ui_ptr1 = &s; /* { dg-error {assignment to 'const user_int \*' {aka 'const int \*'} from incompatible pointer type 'struct s \*'} } */
   const_ui_ptr2 = &s; /* { dg-error {assignment to 'const user_int_copy \*' {aka 'const int \*'} from incompatible pointer type 'struct s \*'} } */
   volatile_ui_ptr1 = &s; /* { dg-error {assignment to 'volatile user_int \*' {aka 'volatile int \*'} from incompatible pointer type 'struct s \*'} } */
   volatile_ui_ptr2 = &s; /* { dg-error {assignment to 'volatile user_int_copy \*' {aka 'volatile int \*'} from incompatible pointer type 'struct s \*'} } */
   atomic_ui_ptr1 = &s; /* { dg-error {assignment to '_Atomic user_int \*' {aka '_Atomic int \*'} from incompatible pointer type 'struct s \*'} } */
   atomic_ui_ptr2 = &s; /* { dg-error {assignment to '_Atomic user_int_copy \*' {aka '_Atomic int \*'} from incompatible pointer type 'struct s \*'} } */
   ui_array_ptr1 = &s; /* { dg-error {assignment to 'user_int \(\*\)\[10\]' {aka 'int \(\*\)\[10\]'} from incompatible pointer type 'struct s \*'} } */
   ui_array_ptr2 = &s; /* { dg-error {assignment to 'user_int_copy \(\*\)\[10\]' {aka 'int \(\*\)\[10\]'} from incompatible pointer type 'struct s \*'} } */
   ui_fn_ptr1 = &s; /* { dg-error {assignment to 'user_int \(\*\)\(void\)' {aka 'int \(\*\)\(void\)'} from incompatible pointer type 'struct s \*'} } */
   ui_fn_ptr2 = &s; /* { dg-error {assignment to 'void \(\*\)\(user_int\)' {aka 'void \(\*\)\(int\)'} from incompatible pointer type 'struct s \*'} } */
   ui_fn_ptr3 = &s; /* { dg-error {assignment to 'void \(\*\)\(user_int, \.\.\.\)' {aka 'void \(\*\)\(int, \.\.\.\)'} from incompatible pointer type 'struct s \*'} } */
   ui_fn_ptr4 = &s; /* { dg-error {assignment to 'user_int_copy \(\*\)\(void\)' {aka 'int \(\*\)\(void\)'} from incompatible pointer type 'struct s \*'} } */
   ui_fn_ptr5 = &s; /* { dg-error {assignment to 'void \(\*\)\(user_int_copy\)' {aka 'void \(\*\)\(int\)'} from incompatible pointer type 'struct s \*'} } */
   ui_fn_ptr6 = &s; /* { dg-error {assignment to 'void \(\*\)\(user_int_copy, \.\.\.\)' {aka 'void \(\*\)\(int, \.\.\.\)'} from incompatible pointer type 'struct s \*'} } */
   unsafe_ui_fn_ptr1 = &s; /* { dg-error {assignment to 'user_int \(__attribute__\(\(transaction_unsafe\)\) \*\)\(void\)' {aka 'int \(__attribute__\(\(transaction_unsafe\)\) \*\)\(void\)'} from incompatible pointer type 'struct s \*'} } */
   unsafe_ui_fn_ptr2 = &s; /* { dg-error {assignment to 'user_int_copy \(__attribute__\(\(transaction_unsafe\)\) \*\)\(void\)' {aka 'int \(__attribute__\(\(transaction_unsafe\)\) \*\)\(void\)'} from incompatible pointer type 'struct s \*'} } */
 }
	#include "diag-aka-5.h"

	typedef user_enum user_enum_copy;

	struct s { int i; };

	user_enum ue1;
	user_enum_copy ue2;
	user_enum_ptr ue_ptr1;
	user_enum *ue_ptr2;
	const user_enum *const_ue_ptr1;
	const user_enum_copy *const_ue_ptr2;
	volatile user_enum *volatile_ue_ptr1;
	volatile user_enum_copy *volatile_ue_ptr2;
	__extension__ _Atomic user_enum *atomic_ue_ptr1;
	__extension__ _Atomic user_enum_copy *atomic_ue_ptr2;
	user_enum (*ue_array_ptr1)[10];
	user_enum_copy (*ue_array_ptr2)[10];
	user_enum (*ue_fn_ptr1) (void);
	void (*ue_fn_ptr2) (user_enum);
	void (*ue_fn_ptr3) (user_enum, ...);
	user_enum_copy (*ue_fn_ptr4) (void);
	void (*ue_fn_ptr5) (user_enum_copy);
	void (*ue_fn_ptr6) (user_enum_copy, ...);
	user_enum (*__attribute__((__transaction_unsafe__)) unsafe_ue_fn_ptr1) (void);
	user_enum_copy (*__attribute__((__transaction_unsafe__)) unsafe_ue_fn_ptr2) (void);

	user_struct us1;
	user_struct_copy us2;
	user_struct_ptr us_ptr1;
	user_struct *us_ptr2;
	const user_struct *const_us_ptr1;
	const user_struct_copy *const_us_ptr2;

	user_union uu1;
	user_union_copy uu2;
	user_union_ptr uu_ptr1;
	user_union *uu_ptr2;
	const user_union *const_uu_ptr1;
	const user_union_copy *const_uu_ptr2;

	user_vector uv1;
	user_vector_copy uv2;
	user_vector_ptr uv_ptr1;
	user_vector *uv_ptr2;
	const user_vector *const_uv_ptr1;
	const user_vector_copy *const_uv_ptr2;

	user_int ui1;
	user_int_copy ui2;
	user_int_ptr ui_ptr1;
	user_int *ui_ptr2;
	const user_int *const_ui_ptr1;
	const user_int_copy *const_ui_ptr2;
	volatile user_int *volatile_ui_ptr1;
	volatile user_int_copy *volatile_ui_ptr2;
	__extension__ _Atomic user_int *atomic_ui_ptr1;
	__extension__ _Atomic user_int_copy *atomic_ui_ptr2;
	user_int (*ui_array_ptr1)[10];
	user_int_copy (*ui_array_ptr2)[10];
	user_int (*ui_fn_ptr1) (void);
	void (*ui_fn_ptr2) (user_int);
	void (*ui_fn_ptr3) (user_int, ...);
	user_int_copy (*ui_fn_ptr4) (void);
	void (*ui_fn_ptr5) (user_int_copy);
	void (*ui_fn_ptr6) (user_int_copy, ...);
	user_int (*__attribute__((__transaction_unsafe__)) unsafe_ui_fn_ptr1) (void);
	user_int_copy (*__attribute__((__transaction_unsafe__)) unsafe_ui_fn_ptr2) (void);

	void f (struct s s)
	{
	ue1 = s; /* { dg-error {assigning to type 'user_enum' {aka 'enum __internal_enum'} from type 'struct s'} } */
	ue2 = s; /* { dg-error {assigning to type 'user_enum_copy' {aka 'enum __internal_enum'} from type 'struct s'} } */
	ue_ptr1 = &s; /* { dg-error {assignment to 'user_enum_ptr' {aka 'enum __internal_enum \'} from incompatible pointer type 'struct s \'} } */
	ue_ptr2 = &s; /* { dg-error {assignment to 'user_enum \' {aka 'enum __internal_enum \'} from incompatible pointer type 'struct s \'} } /
	const_ue_ptr1 = &s; /* { dg-error {assignment to 'const user_enum \' {aka 'const enum __internal_enum \'} from incompatible pointer type 'struct s \'} } /
	const_ue_ptr2 = &s; /* { dg-error {assignment to 'const user_enum_copy \' {aka 'const enum __internal_enum \'} from incompatible pointer type 'struct s \'} } /
	volatile_ue_ptr1 = &s; /* { dg-error {assignment to 'volatile user_enum \' {aka 'volatile enum __internal_enum \'} from incompatible pointer type 'struct s \'} } /
	volatile_ue_ptr2 = &s; /* { dg-error {assignment to 'volatile user_enum_copy \' {aka 'volatile enum __internal_enum \'} from incompatible pointer type 'struct s \'} } /
	atomic_ue_ptr1 = &s; /* { dg-error {assignment to '_Atomic user_enum \' {aka '_Atomic enum __internal_enum \'} from incompatible pointer type 'struct s \'} } /
	atomic_ue_ptr2 = &s; /* { dg-error {assignment to '_Atomic user_enum_copy \' {aka '_Atomic enum __internal_enum \'} from incompatible pointer type 'struct s \'} } /
	ue_array_ptr1 = &s; /* { dg-error {assignment to 'user_enum \(\\)\[10\]' {aka 'enum __internal_enum \(\\)\[10\]'} from incompatible pointer type 'struct s \'} } /
	ue_array_ptr2 = &s; /* { dg-error {assignment to 'user_enum_copy \(\\)\[10\]' {aka 'enum __internal_enum \(\\)\[10\]'} from incompatible pointer type 'struct s \'} } /
	ue_fn_ptr1 = &s; /* { dg-error {assignment to 'user_enum \(\\)\(void\)' {aka 'enum __internal_enum \(\\)\(void\)'} from incompatible pointer type 'struct s \'} } /
	ue_fn_ptr2 = &s; /* { dg-error {assignment to 'void \(\\)\(user_enum\)' {aka 'void \(\\)\(enum __internal_enum\)'} from incompatible pointer type 'struct s \'} } /
	ue_fn_ptr3 = &s; /* { dg-error {assignment to 'void \(\\)\(user_enum, \.\.\.\)' {aka 'void \(\\)\(enum __internal_enum, \.\.\.\)'} from incompatible pointer type 'struct s \'} } /
	ue_fn_ptr4 = &s; /* { dg-error {assignment to 'user_enum_copy \(\\)\(void\)' {aka 'enum __internal_enum \(\\)\(void\)'} from incompatible pointer type 'struct s \'} } /
	ue_fn_ptr5 = &s; /* { dg-error {assignment to 'void \(\\)\(user_enum_copy\)' {aka 'void \(\\)\(enum __internal_enum\)'} from incompatible pointer type 'struct s \'} } /
	ue_fn_ptr6 = &s; /* { dg-error {assignment to 'void \(\\)\(user_enum_copy, \.\.\.\)' {aka 'void \(\\)\(enum __internal_enum, \.\.\.\)'} from incompatible pointer type 'struct s \'} } /
	unsafe_ue_fn_ptr1 = &s; /* { dg-error {assignment to 'user_enum \(__attribute__\(\(transaction_unsafe\)\) \\)\(void\)' {aka 'enum __internal_enum \(__attribute__\(\(transaction_unsafe\)\) \\)\(void\)'} from incompatible pointer type 'struct s \'} } /
	unsafe_ue_fn_ptr2 = &s; /* { dg-error {assignment to 'user_enum_copy \(__attribute__\(\(transaction_unsafe\)\) \\)\(void\)' {aka 'enum __internal_enum \(__attribute__\(\(transaction_unsafe\)\) \\)\(void\)'} from incompatible pointer type 'struct s \'} } /

	us1 = s; /* { dg-error {assigning to type 'user_struct' {aka 'struct __internal_struct'} from type 'struct s'} } */
	us2 = s; /* { dg-error {assigning to type 'user_struct_copy' {aka 'struct __internal_struct'} from type 'struct s'} } */
	us_ptr1 = &s; /* { dg-error {assignment to 'user_struct_ptr' {aka 'struct __internal_struct \'} from incompatible pointer type 'struct s \'} } */
	us_ptr2 = &s; /* { dg-error {assignment to 'user_struct \' {aka 'struct __internal_struct \'} from incompatible pointer type 'struct s \'} } /
	const_us_ptr1 = &s; /* { dg-error {assignment to 'const user_struct \' {aka 'const struct __internal_struct \'} from incompatible pointer type 'struct s \'} } /
	const_us_ptr2 = &s; /* { dg-error {assignment to 'const user_struct_copy \' {aka 'const struct __internal_struct \'} from incompatible pointer type 'struct s \'} } /

	uu1 = s; /* { dg-error {assigning to type 'user_union' {aka 'union __internal_union'} from type 'struct s'} } */
	uu2 = s; /* { dg-error {assigning to type 'user_union_copy' {aka 'union __internal_union'} from type 'struct s'} } */
	uu_ptr1 = &s; /* { dg-error {assignment to 'user_union_ptr' {aka 'union __internal_union \'} from incompatible pointer type 'struct s \'} } */
	uu_ptr2 = &s; /* { dg-error {assignment to 'user_union \' {aka 'union __internal_union \'} from incompatible pointer type 'struct s \'} } /
	const_uu_ptr1 = &s; /* { dg-error {assignment to 'const user_union \' {aka 'const union __internal_union \'} from incompatible pointer type 'struct s \'} } /
	const_uu_ptr2 = &s; /* { dg-error {assignment to 'const user_union_copy \' {aka 'const union __internal_union \'} from incompatible pointer type 'struct s \'} } /

	uv1 = s; /* { dg-error {assigning to type 'user_vector' {aka '__vector\([48]\) unsigned int'} from type 'struct s'} } */
	uv2 = s; /* { dg-error {assigning to type 'user_vector_copy' {aka '__vector\([48]\) unsigned int'} from type 'struct s'} } */
	uv_ptr1 = &s; /* { dg-error {assignment to 'user_vector_ptr' {aka '__vector\([48]\) unsigned int \'} from incompatible pointer type 'struct s \'} } */
	uv_ptr2 = &s; /* { dg-error {assignment to 'user_vector \' {aka '__vector\([48]\) unsigned int \'} from incompatible pointer type 'struct s \'} } /
	const_uv_ptr1 = &s; /* { dg-error {assignment to 'const user_vector \' {aka 'const __vector\([48]\) unsigned int \'} from incompatible pointer type 'struct s \'} } /
	const_uv_ptr2 = &s; /* { dg-error {assignment to 'const user_vector_copy \' {aka 'const __vector\([48]\) unsigned int \'} from incompatible pointer type 'struct s \'} } /

	ui1 = s; /* { dg-error {assigning to type 'user_int' {aka 'int'} from type 'struct s'} } */
	ui2 = s; /* { dg-error {assigning to type 'user_int_copy' {aka 'int'} from type 'struct s'} } */
	ui_ptr1 = &s; /* { dg-error {assignment to 'user_int_ptr' {aka 'int \'} from incompatible pointer type 'struct s \'} } */
	ui_ptr2 = &s; /* { dg-error {assignment to 'user_int \' {aka 'int \'} from incompatible pointer type 'struct s \'} } /
	const_ui_ptr1 = &s; /* { dg-error {assignment to 'const user_int \' {aka 'const int \'} from incompatible pointer type 'struct s \'} } /
	const_ui_ptr2 = &s; /* { dg-error {assignment to 'const user_int_copy \' {aka 'const int \'} from incompatible pointer type 'struct s \'} } /
	volatile_ui_ptr1 = &s; /* { dg-error {assignment to 'volatile user_int \' {aka 'volatile int \'} from incompatible pointer type 'struct s \'} } /
	volatile_ui_ptr2 = &s; /* { dg-error {assignment to 'volatile user_int_copy \' {aka 'volatile int \'} from incompatible pointer type 'struct s \'} } /
	atomic_ui_ptr1 = &s; /* { dg-error {assignment to '_Atomic user_int \' {aka '_Atomic int \'} from incompatible pointer type 'struct s \'} } /
	atomic_ui_ptr2 = &s; /* { dg-error {assignment to '_Atomic user_int_copy \' {aka '_Atomic int \'} from incompatible pointer type 'struct s \'} } /
	ui_array_ptr1 = &s; /* { dg-error {assignment to 'user_int \(\\)\[10\]' {aka 'int \(\\)\[10\]'} from incompatible pointer type 'struct s \'} } /
	ui_array_ptr2 = &s; /* { dg-error {assignment to 'user_int_copy \(\\)\[10\]' {aka 'int \(\\)\[10\]'} from incompatible pointer type 'struct s \'} } /
	ui_fn_ptr1 = &s; /* { dg-error {assignment to 'user_int \(\\)\(void\)' {aka 'int \(\\)\(void\)'} from incompatible pointer type 'struct s \'} } /
	ui_fn_ptr2 = &s; /* { dg-error {assignment to 'void \(\\)\(user_int\)' {aka 'void \(\\)\(int\)'} from incompatible pointer type 'struct s \'} } /
	ui_fn_ptr3 = &s; /* { dg-error {assignment to 'void \(\\)\(user_int, \.\.\.\)' {aka 'void \(\\)\(int, \.\.\.\)'} from incompatible pointer type 'struct s \'} } /
	ui_fn_ptr4 = &s; /* { dg-error {assignment to 'user_int_copy \(\\)\(void\)' {aka 'int \(\\)\(void\)'} from incompatible pointer type 'struct s \'} } /
	ui_fn_ptr5 = &s; /* { dg-error {assignment to 'void \(\\)\(user_int_copy\)' {aka 'void \(\\)\(int\)'} from incompatible pointer type 'struct s \'} } /
	ui_fn_ptr6 = &s; /* { dg-error {assignment to 'void \(\\)\(user_int_copy, \.\.\.\)' {aka 'void \(\\)\(int, \.\.\.\)'} from incompatible pointer type 'struct s \'} } /
	unsafe_ui_fn_ptr1 = &s; /* { dg-error {assignment to 'user_int \(__attribute__\(\(transaction_unsafe\)\) \\)\(void\)' {aka 'int \(__attribute__\(\(transaction_unsafe\)\) \\)\(void\)'} from incompatible pointer type 'struct s \'} } /
	unsafe_ui_fn_ptr2 = &s; /* { dg-error {assignment to 'user_int_copy \(__attribute__\(\(transaction_unsafe\)\) \\)\(void\)' {aka 'int \(__attribute__\(\(transaction_unsafe\)\) \\)\(void\)'} from incompatible pointer type 'struct s \'} } /
	}