Fix a rejects-valid in C++11: array new of a negative size, or overflowing array
new, is well-formed with defined semantics of throwing (a type which can be
caught by a handler for) std::bad_array_new_length, unlike in C++98 where it is
somewhere nebulous between undefined behavior and ill-formed.
If the array size is an integral constant expression and satisfies one of these
criteria, we would previous the array new expression, but now in C++11 mode, we
merely issue a warning (the code is still rejected in C++98 mode, naturally).
We don't yet implement new C++11 semantics correctly (see PR11644), but we do
implement the overflow checking, and (for the default operator new) convert such
expressions to an exception, so accepting such code now does not seem especially
unsafe.
llvm-svn: 149767
2012-02-04 13:35:53 +08:00
// RUN: %clang_cc1 -fsyntax-only -verify %s -triple=i686-pc-linux-gnu
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# include <stddef.h>
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struct S // expected-note {{candidate}}
{
S ( int , int , double ) ; // expected-note {{candidate}}
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S ( double , int ) ; // expected-note 2 {{candidate}}
S ( float , int ) ; // expected-note 2 {{candidate}}
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} ;
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struct T ; // expected-note{{forward declaration of 'T'}}
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struct U
{
// A special new, to verify that the global version isn't used.
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void * operator new ( size_t , S * ) ; // expected-note {{candidate}}
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} ;
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struct V : U
{
} ;
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// PR5823
void * operator new ( const size_t ) ; // expected-note 2 {{candidate}}
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void * operator new ( size_t , int * ) ; // expected-note 3 {{candidate}}
void * operator new ( size_t , float * ) ; // expected-note 3 {{candidate}}
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void * operator new ( size_t , S ) ; // expected-note 2 {{candidate}}
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struct foo { } ;
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void good_news ( )
{
int * pi = new int ;
float * pf = new ( pi ) float ( ) ;
pi = new int ( 1 ) ;
pi = new int ( ' c ' ) ;
const int * pci = new const int ( ) ;
S * ps = new S ( 1 , 2 , 3.4 ) ;
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ps = new ( pf ) ( S ) ( 1 , 2 , 3.4 ) ;
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S * ( * paps ) [ 2 ] = new S * [ * pi ] [ 2 ] ;
typedef int ia4 [ 4 ] ;
ia4 * pai = new ( int [ 3 ] [ 4 ] ) ;
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pi = : : new int ;
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U * pu = new ( ps ) U ;
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V * pv = new ( ps ) V ;
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pi = new ( S ( 1.0f , 2 ) ) int ;
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( void ) new int [ true ] ;
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// PR7147
typedef int a [ 2 ] ;
foo * f1 = new foo ;
foo * f2 = new foo [ 2 ] ;
typedef foo x [ 2 ] ;
typedef foo y [ 2 ] [ 2 ] ;
x * f3 = new y ;
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}
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struct abstract {
virtual ~ abstract ( ) = 0 ;
} ;
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void bad_news ( int * ip )
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{
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int i = 1 ; // expected-note 2{{here}}
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( void ) new ; // expected-error {{expected a type}}
( void ) new 4 ; // expected-error {{expected a type}}
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( void ) new ( ) int ; // expected-error {{expected expression}}
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( void ) new int [ 1.1 ] ; // expected-error {{array size expression must have integral or enumeration type, not 'double'}}
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( void ) new int [ 1 ] [ i ] ; // expected-error {{only the first dimension}} expected-note {{read of non-const variable 'i' is not allowed in a constant expression}}
( void ) new ( int [ 1 ] [ i ] ) ; // expected-error {{only the first dimension}} expected-note {{read of non-const variable 'i' is not allowed in a constant expression}}
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( void ) new ( int [ i ] ) ; // expected-warning {{when type is in parentheses}}
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( void ) new int ( * ( S * ) 0 ) ; // expected-error {{no viable conversion from 'S' to 'int'}}
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( void ) new int ( 1 , 2 ) ; // expected-error {{excess elements in scalar initializer}}
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( void ) new S ( 1 ) ; // expected-error {{no matching constructor}}
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( void ) new S ( 1 , 1 ) ; // expected-error {{call to constructor of 'S' is ambiguous}}
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( void ) new const int ; // expected-error {{default initialization of an object of const type 'const int'}}
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( void ) new float * ( ip ) ; // expected-error {{cannot initialize a new value of type 'float *' with an lvalue of type 'int *'}}
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// Undefined, but clang should reject it directly.
( void ) new int [ - 1 ] ; // expected-error {{array size is negative}}
Fix a rejects-valid in C++11: array new of a negative size, or overflowing array
new, is well-formed with defined semantics of throwing (a type which can be
caught by a handler for) std::bad_array_new_length, unlike in C++98 where it is
somewhere nebulous between undefined behavior and ill-formed.
If the array size is an integral constant expression and satisfies one of these
criteria, we would previous the array new expression, but now in C++11 mode, we
merely issue a warning (the code is still rejected in C++98 mode, naturally).
We don't yet implement new C++11 semantics correctly (see PR11644), but we do
implement the overflow checking, and (for the default operator new) convert such
expressions to an exception, so accepting such code now does not seem especially
unsafe.
llvm-svn: 149767
2012-02-04 13:35:53 +08:00
( void ) new int [ 2000000000 ] ; // expected-error {{array is too large}}
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( void ) new int [ * ( S * ) 0 ] ; // expected-error {{array size expression must have integral or enumeration type, not 'S'}}
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( void ) : : S : : new int ; // expected-error {{expected unqualified-id}}
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( void ) new ( 0 , 0 ) int ; // expected-error {{no matching function for call to 'operator new'}}
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( void ) new ( 0L ) int ; // expected-error {{call to 'operator new' is ambiguous}}
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// This must fail, because the member version shouldn't be found.
( void ) : : new ( ( S * ) 0 ) U ; // expected-error {{no matching function for call to 'operator new'}}
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// This must fail, because any member version hides all global versions.
( void ) new U ; // expected-error {{no matching function for call to 'operator new'}}
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( void ) new ( int [ ] ) ; // expected-error {{array size must be specified in new expressions}}
( void ) new int & ; // expected-error {{cannot allocate reference type 'int &' with new}}
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// Some lacking cases due to lack of sema support.
}
void good_deletes ( )
{
delete ( int * ) 0 ;
delete [ ] ( int * ) 0 ;
delete ( S * ) 0 ;
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: : delete ( int * ) 0 ;
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}
void bad_deletes ( )
{
delete 0 ; // expected-error {{cannot delete expression of type 'int'}}
delete [ 0 ] ( int * ) 0 ; / / expected - error { { expected ' ] ' } } \
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// expected-note {{to match this '['}}
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delete ( void * ) 0 ; // expected-warning {{cannot delete expression with pointer-to-'void' type 'void *'}}
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delete ( T * ) 0 ; // expected-warning {{deleting pointer to incomplete type}}
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: : S : : delete ( int * ) 0 ; // expected-error {{expected unqualified-id}}
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}
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struct X0 { } ;
struct X1 {
operator int * ( ) ;
operator float ( ) ;
} ;
struct X2 {
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operator int * ( ) ; // expected-note {{candidate function}}
operator float * ( ) ; // expected-note {{candidate function}}
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} ;
void test_delete_conv ( X0 x0 , X1 x1 , X2 x2 ) {
delete x0 ; // expected-error{{cannot delete}}
delete x1 ;
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delete x2 ; // expected-error{{ambiguous conversion of delete expression of type 'X2' to a pointer}}
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}
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// PR4782
class X3 {
public :
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static void operator delete ( void * mem , size_t size ) ;
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} ;
class X4 {
public :
static void release ( X3 * x ) ;
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static void operator delete ( void * mem , size_t size ) ;
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} ;
void X4 : : release ( X3 * x ) {
delete x ;
}
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class X5 {
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public :
void Destroy ( ) const { delete this ; }
} ;
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class Base {
public :
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static void * operator new ( signed char ) throw ( ) ; // expected-error {{'operator new' takes type size_t}}
static int operator new [ ] ( size_t ) throw ( ) ; // expected-error {{operator new[]' must return type 'void *'}}
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} ;
class Tier { } ;
class Comp : public Tier { } ;
class Thai : public Base {
public :
Thai ( const Tier * adoptDictionary ) ;
} ;
void loadEngineFor ( ) {
const Comp * dict ;
new Thai ( dict ) ;
}
template < class T > struct TBase {
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void * operator new ( T size , int ) ; // expected-error {{'operator new' cannot take a dependent type as first parameter; use size_t}}
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} ;
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TBase < int > t1 ;
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class X6 {
public :
static void operator delete ( void * , int ) ; // expected-note {{member found by ambiguous name lookup}}
} ;
class X7 {
public :
static void operator delete ( void * , int ) ; // expected-note {{member found by ambiguous name lookup}}
} ;
class X8 : public X6 , public X7 {
} ;
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void f ( X8 * x8 ) {
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delete x8 ; // expected-error {{member 'operator delete' found in multiple base classes of different types}}
}
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class X9 {
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public :
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static void operator delete ( void * , int ) ; // expected-note {{'operator delete' declared here}}
static void operator delete ( void * , float ) ; // expected-note {{'operator delete' declared here}}
} ;
void f ( X9 * x9 ) {
delete x9 ; // expected-error {{no suitable member 'operator delete' in 'X9'}}
}
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struct X10 {
virtual ~ X10 ( ) ;
} ;
struct X11 : X10 { // expected-error {{no suitable member 'operator delete' in 'X11'}}
void operator delete ( void * , int ) ; // expected-note {{'operator delete' declared here}}
} ;
void f ( ) {
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X11 x11 ; // expected-note {{implicit default destructor for 'X11' first required here}}
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}
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struct X12 {
void * operator new ( size_t , void * ) ;
} ;
struct X13 : X12 {
using X12 : : operator new ;
} ;
static void * f ( void * g )
{
return new ( g ) X13 ( ) ;
}
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class X14 {
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public :
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static void operator delete ( void * , const size_t ) ;
} ;
void f ( X14 * x14a , X14 * x14b ) {
delete x14a ;
}
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class X15 {
private :
X15 ( ) ; // expected-note {{declared private here}}
~ X15 ( ) ; // expected-note {{declared private here}}
} ;
void f ( X15 * x ) {
new X15 ( ) ; // expected-error {{calling a private constructor}}
delete x ; // expected-error {{calling a private destructor}}
}
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namespace PR5918 { // Look for template operator new overloads.
struct S { template < typename T > static void * operator new ( size_t , T ) ; } ;
void test ( ) {
( void ) new ( 0 ) S ;
}
}
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namespace Test1 {
void f ( ) {
( void ) new int [ 10 ] ( 1 , 2 ) ; // expected-error {{array 'new' cannot have initialization arguments}}
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typedef int T [ 10 ] ;
( void ) new T ( 1 , 2 ) ; // expected-error {{array 'new' cannot have initialization arguments}}
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}
template < typename T >
void g ( unsigned i ) {
( void ) new T [ 1 ] ( i ) ; // expected-error {{array 'new' cannot have initialization arguments}}
}
template < typename T >
void h ( unsigned i ) {
( void ) new T ( i ) ; // expected-error {{array 'new' cannot have initialization arguments}}
}
template void h < unsigned > ( unsigned ) ;
template void h < unsigned [ 10 ] > ( unsigned ) ; // expected-note {{in instantiation of function template specialization 'Test1::h<unsigned int [10]>' requested here}}
}
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// Don't diagnose access for overload candidates that aren't selected.
namespace PR7436 {
struct S1 {
void * operator new ( size_t ) ;
void operator delete ( void * p ) ;
private :
void * operator new ( size_t , void * ) ; // expected-note {{declared private here}}
void operator delete ( void * , void * ) ;
} ;
class S2 {
void * operator new ( size_t ) ; // expected-note {{declared private here}}
void operator delete ( void * p ) ; // expected-note {{declared private here}}
} ;
void test ( S1 * s1 , S2 * s2 ) {
delete s1 ;
delete s2 ; // expected-error {{is a private member}}
( void ) new S1 ( ) ;
( void ) new ( 0L ) S1 ( ) ; // expected-error {{is a private member}}
( void ) new S2 ( ) ; // expected-error {{is a private member}}
}
}
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namespace rdar8018245 {
struct X0 {
static const int value = 17 ;
} ;
const int X0 : : value ;
struct X1 {
static int value ;
} ;
int X1 : : value ;
template < typename T >
int * f ( ) {
return new ( int [ T : : value ] ) ; // expected-warning{{when type is in parentheses, array cannot have dynamic size}}
}
template int * f < X0 > ( ) ;
template int * f < X1 > ( ) ; // expected-note{{in instantiation of}}
}
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// <rdar://problem/8248780>
namespace Instantiate {
template < typename T > struct X {
operator T * ( ) ;
} ;
void f ( X < int > & xi ) {
delete xi ;
}
}
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namespace PR7810 {
struct X {
// cv is ignored in arguments
static void operator delete ( void * const ) ;
} ;
struct Y {
// cv is ignored in arguments
static void operator delete ( void * volatile ) ;
} ;
}
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// Don't crash on template delete operators
namespace TemplateDestructors {
struct S {
virtual ~ S ( ) { }
void * operator new ( const size_t size ) ;
template < class T > void * operator new ( const size_t , const int , T * ) ;
void operator delete ( void * , const size_t ) ;
template < class T > void operator delete ( void * , const size_t , const int , T * ) ;
} ;
}
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namespace DeleteParam {
struct X {
void operator delete ( X * ) ; // expected-error{{first parameter of 'operator delete' must have type 'void *'}}
} ;
struct Y {
void operator delete ( void * const ) ;
} ;
}
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// <rdar://problem/8427878>
// Test that the correct 'operator delete' is selected to pair with
// the unexpected placement 'operator new'.
namespace PairedDelete {
template < class T > struct A {
A ( ) ;
void * operator new ( size_t s , double d = 0 ) ;
void operator delete ( void * p , double d ) ;
void operator delete ( void * p ) {
T : : dealloc ( p ) ;
}
} ;
A < int > * test ( ) {
return new A < int > ( ) ;
}
}
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namespace PR7702 {
void test1 ( ) {
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new DoesNotExist ; // expected-error {{unknown type name 'DoesNotExist'}}
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}
}
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namespace ArrayNewNeedsDtor {
struct A { A ( ) ; private : ~ A ( ) ; } ; // expected-note {{declared private here}}
struct B { B ( ) ; A a ; } ; // expected-error {{field of type 'ArrayNewNeedsDtor::A' has private destructor}}
B * test9 ( ) {
return new B [ 5 ] ; // expected-note {{implicit default destructor for 'ArrayNewNeedsDtor::B' first required here}}
}
}
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namespace DeleteIncompleteClass {
struct A ; // expected-note {{forward declaration}}
extern A x ;
void f ( ) { delete x ; } // expected-error {{deleting incomplete class type}}
}
namespace DeleteIncompleteClassPointerError {
struct A ; // expected-note {{forward declaration}}
void f ( A * x ) { 1 + delete x ; } / / expected - warning { { deleting pointer to incomplete type } } \
// expected-error {{invalid operands to binary expression}}
}
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namespace PR10504 {
struct A {
virtual void foo ( ) = 0 ;
} ;
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void f ( A * x ) { delete x ; } // expected-warning {{delete called on 'PR10504::A' that is abstract but has non-virtual destructor}}
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}
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struct PlacementArg { } ;
inline void * operator new [ ] ( size_t , const PlacementArg & ) throw ( ) {
return 0 ;
}
inline void operator delete [ ] ( void * , const PlacementArg & ) throw ( ) {
}
namespace r150682 {
template < typename X >
struct S {
struct Inner { } ;
S ( ) { new Inner [ 1 ] ; }
} ;
struct T {
} ;
template < typename X >
void tfn ( ) {
new ( * ( PlacementArg * ) 0 ) T [ 1 ] ;
}
void fn ( ) {
tfn < int > ( ) ;
}
}
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namespace P12023 {
struct CopyCounter
{
CopyCounter ( ) ;
CopyCounter ( const CopyCounter & ) ;
} ;
int main ( )
{
CopyCounter * f = new CopyCounter [ 10 ] ( CopyCounter ( ) ) ; // expected-error {{cannot have initialization arguments}}
return 0 ;
}
}
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namespace PR12061 {
template < class C > struct scoped_array {
scoped_array ( C * p = __null ) ;
} ;
template < class Payload > struct Foo {
Foo ( ) : a_ ( new scoped_array < int > [ 5 ] ) { }
scoped_array < scoped_array < int > > a_ ;
} ;
class Bar { } ;
Foo < Bar > x ;
template < class C > struct scoped_array2 {
scoped_array2 ( C * p = __null , C * q = __null ) ;
} ;
template < class Payload > struct Foo2 {
Foo2 ( ) : a_ ( new scoped_array2 < int > [ 5 ] ) { }
scoped_array2 < scoped_array2 < int > > a_ ;
} ;
class Bar2 { } ;
Foo2 < Bar2 > x2 ;
class MessageLoop {
public :
explicit MessageLoop ( int type = 0 ) ;
} ;
template < class CookieStoreTestTraits >
class CookieStoreTest {
protected :
CookieStoreTest ( ) {
new MessageLoop ;
}
} ;
struct CookieMonsterTestTraits {
} ;
class DeferredCookieTaskTest : public CookieStoreTest < CookieMonsterTestTraits >
{
DeferredCookieTaskTest ( ) { }
} ;
}