The usual (portable) solution is to put the memory declaration in a union with whatever built-in type in `T`

requires the most alignment.
The simplest way would be to use a union with all of the likely
candidates:

```
union MaxAlign
{
int i ;
long l ;
long long ll ;
long double ld ;
double d ;
void* p ;
void (* pf)() ;
MaxAlign* ps ;
} ;
union
{
MaxAlign dummyForAlignment;
unsigned char memory[sizeof(T)];
} rawT;
```

I've yet to hear about, much less encounter, a machine where the above
didn't suffice. Generally, just `double`

suffices. (It is definitely
sufficient on Intel and on Sparc.)

In some extreme cases, this can result in allocating more memory than
necessary, e.g. if `T`

only contains one or two `char`

. Most of the
time, this really doesn't matter, and isn't worth worrying about, but if
it is, the following can be used:

```
namespace MyPrivate {
template< typename T, bool isSmaller >
struct AlignTypeDetail ;
template< typename T >
struct AlignTypeDetail< T, false >
{
typedef T type ;
} ;
template< typename T >
struct AlignTypeDetail< T, true >
{
typedef char type ;
} ;
template< typename T, typename U >
struct AlignType
{
typedef typename AlignTypeDetail< U, (sizeof( T ) < sizeof( U )) >::type
type ;
} ;
}
template< typename T >
union MaxAlignFor
{
typename MyPrivate::AlignType< T, char >::type c ;
typename MyPrivate::AlignType< T, short >::type s ;
typename MyPrivate::AlignType< T, int >::type i ;
typename MyPrivate::AlignType< T, long >::type l ;
typename MyPrivate::AlignType< T, long long >::type ll ;
typename MyPrivate::AlignType< T, float >::type f ;
typename MyPrivate::AlignType< T, double >::type d ;
typename MyPrivate::AlignType< T, long double >::type ld ;
typename MyPrivate::AlignType< T, void* >::type pc ;
typename MyPrivate::AlignType< T, MaxAlign* >::type ps ;
typename MyPrivate::AlignType< T, void (*)() >::type pf ;
} ;
```

In this case, `MaxAlignFor<T>`

will never be bigger than `T`

(and to have sufficient alignment, since the required alignment will
never be larger than the size of `T`

).

Note that none of this is formally guaranteed by the standard. But it
will work in practice.