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// RUN: %clang_cc1 -fcxx-exceptions -fsyntax-only -verify -W -Wall -Wrange-loop-analysis -triple arm64-linux-gnu -target-feature +sve -std=c++98 %s
// RUN: %clang_cc1 -fcxx-exceptions -fsyntax-only -verify -W -Wall -Wrange-loop-analysis -triple arm64-linux-gnu -target-feature +sve -std=c++11 %s
// RUN: %clang_cc1 -fcxx-exceptions -fsyntax-only -verify -W -Wall -Wrange-loop-analysis -triple arm64-linux-gnu -target-feature +sve -std=c++17 %s
// RUN: %clang_cc1 -fcxx-exceptions -fsyntax-only -verify -W -Wall -Wrange-loop-analysis -triple arm64-linux-gnu -target-feature +sve -std=gnu++17 %s
namespace std {
struct type_info ;
}
typedef __SVInt8_t svint8_t ;
typedef __SVInt16_t svint16_t ;
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svint8_t global_int8 ; // expected-error {{non-local variable with sizeless type 'svint8_t'}}
extern svint8_t extern_int8 ; // expected-error {{non-local variable with sizeless type 'svint8_t'}}
static svint8_t static_int8 ; // expected-error {{non-local variable with sizeless type 'svint8_t'}}
__thread svint8_t thread_int8 ; // expected-error {{non-local variable with sizeless type 'svint8_t'}}
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svint8_t * global_int8_ptr ;
extern svint8_t * extern_int8_ptr ;
static svint8_t * static_int8_ptr ;
typedef svint8_t int8_typedef ;
typedef svint8_t * int8_ptr_typedef ;
[Sema][SVE] Reject sizeof and alignof for sizeless types
clang current accepts:
void foo1(__SVInt8_t *x, __SVInt8_t *y) { *x = *y; }
void foo2(__SVInt8_t *x, __SVInt8_t *y) {
memcpy(y, x, sizeof(__SVInt8_t));
}
The first function is valid ACLE code and generates correct LLVM IR.
However, the second function is invalid ACLE code and generates a
zero-length memcpy. The point of this patch is to reject the use
of sizeof in the second case instead.
There's no similar wrong-code bug for alignof. However, the SVE ACLE
conservatively treats alignof in the same way as sizeof, just as the
C++ standard does for incomplete types. The idea is that layout of
sizeless types is an implementation property and isn't defined at
the language level.
Implementation-wise, the patch adds a new CompleteTypeKind enum
that controls whether RequireCompleteType & friends accept sizeless
built-in types. For now the default is to maintain the status quo
and accept sizeless types. However, the end of the series will flip
the default and remove the Default enum value.
The patch also adds new ...CompleteSized... wrappers that callers can
use if they explicitly want to reject sizeless types. The callers then
use diagnostics that have an extra 0/1 parameter to indicats whether
the type is sizeless or not.
The idea is to have three cases:
1. calls that explicitly reject sizeless types, with a tweaked diagnostic
for the sizeless case
2. calls that explicitly allow sizeless types
3. normal/old-style calls that don't make an explicit choice either way
Once the default is flipped, the 3. calls will conservatively reject
sizeless types, using the same diagnostic as for other incomplete types.
Differential Revision: https://reviews.llvm.org/D75572
2020-02-21 23:30:52 +08:00
int sizeof_int8 = sizeof ( svint8_t ) ; // expected-error {{invalid application of 'sizeof' to sizeless type 'svint8_t'}}
int sizeof_int8_var = sizeof ( * extern_int8_ptr ) ; // expected-error {{invalid application of 'sizeof' to sizeless type 'svint8_t'}}
int sizeof_int8_var_ptr = sizeof ( extern_int8_ptr ) ;
# if __cplusplus >= 201103L
int alignof_int8 = alignof ( svint8_t ) ; // expected-error {{invalid application of 'alignof' to sizeless type 'svint8_t'}}
int alignof_int8_var = alignof ( * extern_int8_ptr ) ; // expected-error {{invalid application of 'alignof' to sizeless type 'svint8_t'}} expected-warning {{GNU extension}}
int alignof_int8_var_ptr = alignof ( extern_int8_ptr ) ; // expected-warning {{GNU extension}}
# else
int alignof_int8 = _Alignof ( svint8_t ) ; // expected-error {{invalid application of 'alignof' to sizeless type 'svint8_t'}}
int alignof_int8_var = _Alignof ( * extern_int8_ptr ) ; // expected-error {{invalid application of 'alignof' to sizeless type 'svint8_t'}} expected-warning {{GNU extension}}
int alignof_int8_var_ptr = _Alignof ( extern_int8_ptr ) ; // expected-warning {{GNU extension}}
# endif
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void pass_int8 ( svint8_t ) ; // expected-note {{no known conversion}}
svint8_t return_int8 ( ) ;
typedef svint8_t vec_int8_a __attribute__ ( ( vector_size ( 64 ) ) ) ; // expected-error {{invalid vector element type}}
typedef svint8_t vec_int8_b __attribute__ ( ( ext_vector_type ( 4 ) ) ) ; // expected-error {{invalid vector element type}}
void dump ( const volatile void * ) ;
void overf ( svint8_t ) ;
void overf ( svint16_t ) ;
void overf8 ( svint8_t ) ; // expected-note + {{not viable}}
void overf8 ( int ) ; // expected-note + {{not viable}}
void overf16 ( svint16_t ) ; // expected-note + {{not viable}}
void overf16 ( int ) ; // expected-note + {{not viable}}
void varargs ( int , . . . ) ;
void unused ( ) {
svint8_t unused_int8 ; // expected-warning {{unused}}
}
struct incomplete_struct * incomplete_ptr ;
void func ( int sel ) {
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static svint8_t static_int8 ; // expected-error {{non-local variable with sizeless type 'svint8_t'}}
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svint8_t local_int8 ;
svint16_t local_int16 ;
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svint8_t __attribute__ ( ( aligned ) ) aligned_int8_1 ; // expected-error {{'aligned' attribute cannot be applied to sizeless type 'svint8_t'}}
svint8_t __attribute__ ( ( aligned ( 4 ) ) ) aligned_int8_2 ; // expected-error {{'aligned' attribute cannot be applied to sizeless type 'svint8_t'}}
svint8_t _Alignas ( int ) aligned_int8_3 ; // expected-error {{'_Alignas' attribute cannot be applied to sizeless type 'svint8_t'}}
[Sema][SVE] Reject sizeof and alignof for sizeless types
clang current accepts:
void foo1(__SVInt8_t *x, __SVInt8_t *y) { *x = *y; }
void foo2(__SVInt8_t *x, __SVInt8_t *y) {
memcpy(y, x, sizeof(__SVInt8_t));
}
The first function is valid ACLE code and generates correct LLVM IR.
However, the second function is invalid ACLE code and generates a
zero-length memcpy. The point of this patch is to reject the use
of sizeof in the second case instead.
There's no similar wrong-code bug for alignof. However, the SVE ACLE
conservatively treats alignof in the same way as sizeof, just as the
C++ standard does for incomplete types. The idea is that layout of
sizeless types is an implementation property and isn't defined at
the language level.
Implementation-wise, the patch adds a new CompleteTypeKind enum
that controls whether RequireCompleteType & friends accept sizeless
built-in types. For now the default is to maintain the status quo
and accept sizeless types. However, the end of the series will flip
the default and remove the Default enum value.
The patch also adds new ...CompleteSized... wrappers that callers can
use if they explicitly want to reject sizeless types. The callers then
use diagnostics that have an extra 0/1 parameter to indicats whether
the type is sizeless or not.
The idea is to have three cases:
1. calls that explicitly reject sizeless types, with a tweaked diagnostic
for the sizeless case
2. calls that explicitly allow sizeless types
3. normal/old-style calls that don't make an explicit choice either way
Once the default is flipped, the 3. calls will conservatively reject
sizeless types, using the same diagnostic as for other incomplete types.
Differential Revision: https://reviews.llvm.org/D75572
2020-02-21 23:30:52 +08:00
int _Alignas ( svint8_t ) aligned_int ; // expected-error {{invalid application of 'alignof' to sizeless type 'svint8_t'}}
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// Using pointers to sizeless data isn't wrong here, but because the
// type is incomplete, it doesn't provide any alignment guarantees.
_Static_assert ( __atomic_is_lock_free ( 1 , & local_int8 ) = = __atomic_is_lock_free ( 1 , incomplete_ptr ) , " " ) ;
_Static_assert ( __atomic_is_lock_free ( 2 , & local_int8 ) = = __atomic_is_lock_free ( 2 , incomplete_ptr ) , " " ) ; // expected-error {{static_assert expression is not an integral constant expression}}
_Static_assert ( __atomic_always_lock_free ( 1 , & local_int8 ) = = __atomic_always_lock_free ( 1 , incomplete_ptr ) , " " ) ;
local_int8 ; // expected-warning {{expression result unused}}
( void ) local_int8 ;
local_int8 , 0 ; // expected-warning + {{expression result unused}}
0 , local_int8 ; // expected-warning + {{expression result unused}}
svint8_t init_int8 = local_int8 ;
svint8_t bad_init_int8 = for ; // expected-error {{expected expression}}
# if __cplusplus >= 201103L
int empty_brace_init_int = { } ;
# else
int empty_brace_init_int = { } ; // expected-error {{scalar initializer cannot be empty}}
# endif
const svint8_t const_int8 = local_int8 ; // expected-note {{declared const here}}
const svint8_t uninit_const_int8 ; // expected-error {{default initialization of an object of const type 'const svint8_t'}}
volatile svint8_t volatile_int8 ;
const volatile svint8_t const_volatile_int8 = local_int8 ; // expected-note {{declared const here}}
const volatile svint8_t uninit_const_volatile_int8 ; // expected-error {{default initialization of an object of const type 'const volatile svint8_t'}}
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_Atomic svint8_t atomic_int8 ; // expected-error {{_Atomic cannot be applied to sizeless type 'svint8_t'}}
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__restrict svint8_t restrict_int8 ; // expected-error {{requires a pointer or reference}}
bool test_int8 = init_int8 ; // expected-error {{cannot initialize a variable of type 'bool' with an lvalue of type 'svint8_t'}}
int int_int8 = init_int8 ; // expected-error {{cannot initialize a variable of type 'int' with an lvalue of type 'svint8_t'}}
init_int8 = local_int8 ;
init_int8 = local_int16 ; // expected-error {{assigning to 'svint8_t' (aka '__SVInt8_t') from incompatible type 'svint16_t'}}
init_int8 = sel ; // expected-error {{assigning to 'svint8_t' (aka '__SVInt8_t') from incompatible type 'int'}}
sel = local_int8 ; // expected-error {{assigning to 'int' from incompatible type 'svint8_t'}}
local_int8 = ( svint8_t ) local_int8 ;
local_int8 = ( const svint8_t ) local_int8 ;
local_int8 = ( svint8_t ) local_int16 ; // expected-error {{C-style cast from 'svint16_t' (aka '__SVInt16_t') to 'svint8_t' (aka '__SVInt8_t') is not allowed}}
local_int8 = ( svint8_t ) 0 ; // expected-error {{C-style cast from 'int' to 'svint8_t' (aka '__SVInt8_t') is not allowed}}
sel = ( int ) local_int8 ; // expected-error {{C-style cast from 'svint8_t' (aka '__SVInt8_t') to 'int' is not allowed}}
init_int8 = local_int8 ;
init_int8 = const_int8 ;
init_int8 = volatile_int8 ;
init_int8 = const_volatile_int8 ;
const_int8 = local_int8 ; // expected-error {{cannot assign to variable 'const_int8' with const-qualified type 'const svint8_t'}}
volatile_int8 = local_int8 ;
volatile_int8 = const_int8 ;
volatile_int8 = volatile_int8 ;
volatile_int8 = const_volatile_int8 ;
const_volatile_int8 = local_int8 ; // expected-error {{cannot assign to variable 'const_volatile_int8' with const-qualified type 'const volatile svint8_t'}}
init_int8 = sel ? init_int8 : local_int8 ;
init_int8 = sel ? init_int8 : const_int8 ;
init_int8 = sel ? volatile_int8 : const_int8 ;
init_int8 = sel ? volatile_int8 : const_volatile_int8 ;
pass_int8 ( local_int8 ) ;
pass_int8 ( local_int16 ) ; // expected-error {{no matching function}}
local_int8 = return_int8 ( ) ;
local_int16 = return_int8 ( ) ; // expected-error {{assigning to 'svint16_t' (aka '__SVInt16_t') from incompatible type 'svint8_t'}}
dump ( & local_int8 ) ;
dump ( & const_int8 ) ;
dump ( & volatile_int8 ) ;
dump ( & const_volatile_int8 ) ;
* & local_int8 = local_int8 ;
* & const_int8 = local_int8 ; // expected-error {{read-only variable is not assignable}}
* & volatile_int8 = local_int8 ;
* & const_volatile_int8 = local_int8 ; // expected-error {{read-only variable is not assignable}}
overf ( local_int8 ) ;
overf ( local_int16 ) ;
overf8 ( local_int8 ) ;
overf8 ( local_int16 ) ; // expected-error {{no matching function}}
overf16 ( local_int8 ) ; // expected-error {{no matching function}}
overf16 ( local_int16 ) ;
varargs ( 1 , local_int8 , local_int16 ) ;
+ init_int8 ; // expected-error {{invalid argument type 'svint8_t'}}
+ + init_int8 ; // expected-error {{cannot increment value of type 'svint8_t'}}
init_int8 + + ; // expected-error {{cannot increment value of type 'svint8_t'}}
- init_int8 ; // expected-error {{invalid argument type 'svint8_t'}}
- - init_int8 ; // expected-error {{cannot decrement value of type 'svint8_t'}}
init_int8 - - ; // expected-error {{cannot decrement value of type 'svint8_t'}}
~ init_int8 ; // expected-error {{invalid argument type 'svint8_t'}}
! init_int8 ; // expected-error {{invalid argument type 'svint8_t'}}
* init_int8 ; // expected-error {{indirection requires pointer operand}}
__real init_int8 ; // expected-error {{invalid type 'svint8_t'}}
__imag init_int8 ; // expected-error {{invalid type 'svint8_t'}}
local_int8 + init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 - init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 * init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 / init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 % init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 & init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 | init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 ^ init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 < < init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 > > init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 < init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 < = init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 = = init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 ! = init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 > = init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 > init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 & & init_int8 ; // expected-error {{invalid operands to binary expression}} expected-error {{not contextually convertible}}
local_int8 | | init_int8 ; // expected-error {{invalid operands to binary expression}} expected-error {{not contextually convertible}}
local_int8 + = init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 - = init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 * = init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 / = init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 % = init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 & = init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 | = init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 ^ = init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 < < = init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 > > = init_int8 ; // expected-error {{invalid operands to binary expression}}
local_int8 + 0 ; // expected-error {{invalid operands to binary expression}}
local_int8 - 0 ; // expected-error {{invalid operands to binary expression}}
local_int8 * 0 ; // expected-error {{invalid operands to binary expression}}
local_int8 / 0 ; // expected-error {{invalid operands to binary expression}}
local_int8 % 0 ; // expected-error {{invalid operands to binary expression}}
local_int8 & 0 ; // expected-error {{invalid operands to binary expression}}
local_int8 | 0 ; // expected-error {{invalid operands to binary expression}}
local_int8 ^ 0 ; // expected-error {{invalid operands to binary expression}}
local_int8 < < 0 ; // expected-error {{invalid operands to binary expression}}
local_int8 > > 0 ; // expected-error {{invalid operands to binary expression}}
local_int8 < 0 ; // expected-error {{invalid operands to binary expression}}
local_int8 < = 0 ; // expected-error {{invalid operands to binary expression}}
local_int8 = = 0 ; // expected-error {{invalid operands to binary expression}}
local_int8 ! = 0 ; // expected-error {{invalid operands to binary expression}}
local_int8 > = 0 ; // expected-error {{invalid operands to binary expression}}
local_int8 > 0 ; // expected-error {{invalid operands to binary expression}}
local_int8 & & 0 ; // expected-error {{invalid operands to binary expression}} expected-error {{not contextually convertible}}
local_int8 | | 0 ; // expected-error {{invalid operands to binary expression}} expected-error {{not contextually convertible}}
if ( local_int8 ) { // expected-error {{not contextually convertible to 'bool'}}
}
while ( local_int8 ) { // expected-error {{not contextually convertible to 'bool'}}
}
do {
} while ( local_int8 ) ; // expected-error {{not contextually convertible to 'bool'}}
switch ( local_int8 ) { // expected-error {{statement requires expression of integer type}}
default : ;
}
}
int vararg_receiver ( int count , svint8_t first , . . . ) {
__builtin_va_list va ;
__builtin_va_start ( va , first ) ;
__builtin_va_end ( va ) ;
return count ;
}
void pass_int8_ref ( svint8_t & ) ; // expected-note {{not viable}}
svint8_t & return_int8_ref ( ) ;
# if __cplusplus >= 201103L
svint8_t & & return_int8_rvalue_ref ( ) ;
# endif
template < typename T >
struct s_ptr_template {
s_ptr_template ( ) ;
s_ptr_template ( T , svint8_t = svint8_t ( ) ) ;
s_ptr_template ( const s_ptr_template & , svint8_t = svint8_t ( ) ) ;
T * y ;
} ;
struct widget {
widget ( s_ptr_template < int > ) ;
svint8_t operator [ ] ( int ) ;
} ;
template < typename T >
struct wrapper_iterator {
T operator + + ( ) ;
T operator * ( ) const ;
bool operator ! = ( const wrapper_iterator & ) const ;
} ;
template < typename T >
struct wrapper {
wrapper ( ) ;
operator T ( ) const ;
wrapper_iterator < T > begin ( ) const ;
wrapper_iterator < T > end ( ) const ;
} ;
# if __cplusplus >= 201103L
struct explicit_conv {
explicit operator svint8_t ( ) const ; // expected-note {{explicit conversion function is not a candidate}}
} ;
# endif
struct constructible_from_sizeless {
constructible_from_sizeless ( svint8_t ) ;
} ;
void with_default ( svint8_t = svint8_t ( ) ) ;
# if __cplusplus >= 201103L
constexpr int ce_taking_int8 ( svint8_t ) { return 1 ; } // expected-error {{constexpr function's 1st parameter type 'svint8_t' (aka '__SVInt8_t') is not a literal type}}
# endif
template < typename T >
void template_fn_direct ( T ) { }
template < typename T >
void template_fn_ref ( T & ) { }
template < typename T >
void template_fn_const_ref ( const T & ) { }
# if __cplusplus >= 201103L
template < typename T >
void template_fn_rvalue_ref ( T & & ) { }
# endif
void cxx_only ( int sel ) {
svint8_t local_int8 ;
svint16_t local_int16 ;
pass_int8_ref ( local_int8 ) ;
pass_int8_ref ( local_int16 ) ; // expected-error {{no matching function}}
local_int8 = return_int8_ref ( ) ;
local_int16 = return_int8_ref ( ) ; // expected-error {{assigning to 'svint16_t' (aka '__SVInt16_t') from incompatible type 'svint8_t'}}
return_int8_ref ( ) = local_int8 ;
return_int8_ref ( ) = local_int16 ; // expected-error {{assigning to 'svint8_t' (aka '__SVInt8_t') from incompatible type 'svint16_t'}}
# if __cplusplus >= 201103L
local_int8 = return_int8_rvalue_ref ( ) ;
local_int16 = return_int8_rvalue_ref ( ) ; // expected-error {{assigning to 'svint16_t' (aka '__SVInt16_t') from incompatible type 'svint8_t'}}
return_int8_rvalue_ref ( ) = local_int8 ; // expected-error {{expression is not assignable}}
return_int8_rvalue_ref ( ) = local_int16 ; // expected-error {{expression is not assignable}}
# endif
local_int8 = static_cast < svint8_t > ( local_int8 ) ;
local_int8 = static_cast < svint8_t > ( local_int16 ) ; // expected-error {{static_cast from 'svint16_t' (aka '__SVInt16_t') to 'svint8_t' (aka '__SVInt8_t') is not allowed}}
local_int8 = static_cast < svint8_t > ( 0 ) ; // expected-error {{static_cast from 'int' to 'svint8_t' (aka '__SVInt8_t') is not allowed}}
local_int16 = static_cast < svint16_t > ( local_int8 ) ; // expected-error {{static_cast from 'svint8_t' (aka '__SVInt8_t') to 'svint16_t' (aka '__SVInt16_t') is not allowed}}
sel = static_cast < int > ( local_int8 ) ; // expected-error {{static_cast from 'svint8_t' (aka '__SVInt8_t') to 'int' is not allowed}}
local_int8 . ~ __SVInt8_t ( ) ; // expected-error {{object expression of non-scalar type 'svint8_t' (aka '__SVInt8_t') cannot be used in a pseudo-destructor expression}}
( void ) svint8_t ( ) ;
local_int8 = svint8_t ( ) ;
local_int8 = svint16_t ( ) ; // expected-error {{assigning to 'svint8_t' (aka '__SVInt8_t') from incompatible type 'svint16_t'}}
s_ptr_template < int > st_ptr_int ;
s_ptr_template < svint8_t > st_ptr_svint8 ;
widget w ( 1 ) ;
local_int8 = w [ 1 ] ;
local_int8 = static_cast < svint8_t > ( wrapper < svint8_t > ( ) ) ;
local_int16 = static_cast < svint8_t > ( wrapper < svint8_t > ( ) ) ; // expected-error {{assigning to 'svint16_t' (aka '__SVInt16_t') from incompatible type 'svint8_t'}}
local_int8 = wrapper < svint8_t > ( ) ;
local_int16 = wrapper < svint8_t > ( ) ; // expected-error {{assigning to 'svint16_t' (aka '__SVInt16_t') from incompatible type 'wrapper<svint8_t>'}}
svint8_t & ref_int8 = local_int8 ;
ref_int8 = ref_int8 ; // expected-warning {{explicitly assigning value of variable of type 'svint8_t' (aka '__SVInt8_t') to itself}}
ref_int8 = local_int8 ;
local_int8 = ref_int8 ;
# if __cplusplus >= 201103L
svint8_t wrapper_init_int8 { wrapper < svint8_t > ( ) } ;
svint8_t & ref_init_int8 { local_int8 } ;
template_fn_direct < svint8_t > ( { wrapper < svint8_t > ( ) } ) ;
# endif
template_fn_direct ( local_int8 ) ;
template_fn_ref ( local_int8 ) ;
template_fn_const_ref ( local_int8 ) ;
# if __cplusplus >= 201103L
template_fn_rvalue_ref ( local_int8 ) ;
# endif
# if __cplusplus >= 201103L
constexpr svint8_t ce_int8_a = wrapper < svint8_t > ( ) ; // expected-error {{constexpr variable cannot have non-literal type 'const svint8_t'}}
# endif
( void ) typeid ( __SVInt8_t ) ;
( void ) typeid ( __SVInt8_t * ) ;
( void ) typeid ( local_int8 ) ;
( void ) typeid ( ref_int8 ) ;
( void ) typeid ( static_int8_ptr ) ;
_Static_assert ( __is_trivially_destructible ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_nothrow_assignable ( svint8_t , svint8_t ) , " " ) ;
_Static_assert ( __is_nothrow_assignable ( svint8_t & , svint8_t ) , " " ) ;
_Static_assert ( ! __is_nothrow_assignable ( svint8_t & , svint16_t ) , " " ) ;
_Static_assert ( __is_constructible ( svint8_t ) , " " ) ;
_Static_assert ( __is_constructible ( svint8_t , svint8_t ) , " " ) ;
_Static_assert ( ! __is_constructible ( svint8_t , svint8_t , svint8_t ) , " " ) ;
_Static_assert ( ! __is_constructible ( svint8_t , svint16_t ) , " " ) ;
_Static_assert ( __is_nothrow_constructible ( svint8_t ) , " " ) ;
_Static_assert ( __is_nothrow_constructible ( svint8_t , svint8_t ) , " " ) ;
_Static_assert ( ! __is_nothrow_constructible ( svint8_t , svint16_t ) , " " ) ;
_Static_assert ( ! __is_assignable ( svint8_t , svint8_t ) , " " ) ;
_Static_assert ( __is_assignable ( svint8_t & , svint8_t ) , " " ) ;
_Static_assert ( ! __is_assignable ( svint8_t & , svint16_t ) , " " ) ;
_Static_assert ( ! __has_virtual_destructor ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_abstract ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_aggregate ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_base_of ( svint8_t , svint8_t ) , " " ) ;
_Static_assert ( ! __is_class ( svint8_t ) , " " ) ;
_Static_assert ( __is_convertible_to ( svint8_t , svint8_t ) , " " ) ;
_Static_assert ( ! __is_convertible_to ( svint8_t , svint16_t ) , " " ) ;
_Static_assert ( ! __is_empty ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_enum ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_final ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_literal ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_polymorphic ( svint8_t ) , " " ) ;
_Static_assert ( __is_object ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_arithmetic ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_floating_point ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_integral ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_void ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_array ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_function ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_reference ( svint8_t ) , " " ) ;
_Static_assert ( __is_reference ( svint8_t & ) , " " ) ;
_Static_assert ( __is_reference ( const svint8_t & ) , " " ) ;
_Static_assert ( ! __is_lvalue_reference ( svint8_t ) , " " ) ;
_Static_assert ( __is_lvalue_reference ( svint8_t & ) , " " ) ;
# if __cplusplus >= 201103L
_Static_assert ( ! __is_lvalue_reference ( svint8_t & & ) , " " ) ;
# endif
_Static_assert ( ! __is_rvalue_reference ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_rvalue_reference ( svint8_t & ) , " " ) ;
# if __cplusplus >= 201103L
_Static_assert ( __is_rvalue_reference ( svint8_t & & ) , " " ) ;
# endif
_Static_assert ( ! __is_fundamental ( svint8_t ) , " " ) ;
_Static_assert ( __is_object ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_scalar ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_compound ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_pointer ( svint8_t ) , " " ) ;
_Static_assert ( __is_pointer ( svint8_t * ) , " " ) ;
_Static_assert ( ! __is_member_object_pointer ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_member_function_pointer ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_member_pointer ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_const ( svint8_t ) , " " ) ;
_Static_assert ( __is_const ( const svint8_t ) , " " ) ;
_Static_assert ( __is_const ( const volatile svint8_t ) , " " ) ;
_Static_assert ( ! __is_volatile ( svint8_t ) , " " ) ;
_Static_assert ( __is_volatile ( volatile svint8_t ) , " " ) ;
_Static_assert ( __is_volatile ( const volatile svint8_t ) , " " ) ;
_Static_assert ( ! __is_standard_layout ( svint8_t ) , " " ) ;
// At present these types are opaque and don't have the properties
// implied by their name.
_Static_assert ( ! __is_signed ( svint8_t ) , " " ) ;
_Static_assert ( ! __is_unsigned ( svint8_t ) , " " ) ;
# if __cplusplus >= 201103L
auto auto_int8 = local_int8 ;
auto auto_int16 = local_int16 ;
# if __cplusplus >= 201703L
auto [ auto_int8_a ] = local_int8 ; // expected-error {{cannot decompose non-class, non-array type '__SVInt8_t'}}
# endif
# endif
s_ptr_template < int > y ;
s_ptr_template < int > & x = y ;
constructible_from_sizeless cfs1 ( local_int8 ) ;
constructible_from_sizeless cfs2 = local_int8 ;
# if __cplusplus >= 201103L
constructible_from_sizeless cfs3 { local_int8 } ;
# endif
# if __cplusplus >= 201103L
local_int8 = ( [ ] ( ) { return svint8_t ( ) ; } ) ( ) ;
local_int8 = ( [ ] ( ) - > svint8_t { return svint8_t ( ) ; } ) ( ) ;
auto fn1 = [ & local_int8 ] ( svint8_t x ) { local_int8 = x ; } ;
auto fn2 = [ & local_int8 ] ( svint8_t * ptr ) { * ptr = local_int8 ; } ;
for ( auto x : local_int8 ) { // expected-error {{no viable 'begin' function available}}
}
for ( auto x : wrapper < svint8_t > ( ) ) {
( void ) x ;
}
for ( const svint8_t & x : wrapper < svint8_t > ( ) ) { // expected-warning {{loop variable 'x' binds to a temporary value produced by a range of type 'wrapper<svint8_t>'}} expected-note {{use non-reference type}}
( void ) x ;
}
// This warning is bogus and will be removed by a later patch.
// The point is to show that it's being removed for the right reasons.
for ( const svint8_t x : wrapper < const svint8_t & > ( ) ) { // expected-warning {{loop variable 'x' creates a copy from type 'const svint8_t'}} expected-note {{use reference type}}
( void ) x ;
}
# endif
}
# if __cplusplus >= 201103L
svint8_t ret_bad_conv ( ) { return explicit_conv ( ) ; } // expected-error {{no viable conversion from returned value of type 'explicit_conv' to function return type 'svint8_t'}}
# endif