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I have defined two functions:

1).

template<class T> inline
void swap(T &first, T &second)
{   
    if (&first != &second)
    {
        T tmp = first;
        first = second;
        second = tmp;
    }
}

2).

template<typename T>
inline void SwapMe(T *first, T *second)
{
    if(*first != *second)
    {
        T tmp = *first;
        *first = *second;
        *second = tmp;
    }
}

Which implementation is better (first one equals to the std::swap() ) ?

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closed as not constructive by Lightness Races in Orbit, BЈовић, Sankar Ganesh, Bohemian, Soner Gönül Jan 23 '13 at 9:49

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Those have somewhat different semantics. – chris Jan 23 '13 at 4:34
1  
And different requirements. The second one requires operator!=(T,T), or something compatible. – Benjamin Lindley Jan 23 '13 at 4:38
    
Since this is C++, you should just be using std::swap<t>, especially because in C++11 it will use move semantics. – Mahmoud Al-Qudsi Jan 23 '13 at 4:49
1  
You might have meant if (first != second) in SwapMe. Or if not then you might have meant if (first != second) in swap. Currently swap compares addresses whereas SwapMe compares the values of the objects pointed to. This difference is unrelated to whether the function takes reference or pointer parameters. – Steve Jessop Jan 23 '13 at 7:26

The first version is better with variables passed by reference or passed by value.

The second is better for pointers to values.

They are different because references are a different animal than pointers.

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as for memory management... As I remember, for the pointer memory allocates buffer of 4 bytes ( where the pointer exactly locates ), as for references there is no additional memory allocation. Also the 2nd one is more for pure C, except templates. – Oleg Orlov Jan 23 '13 at 4:43
    
@OlegOrlov: As for memory management, you are still only allocating a type T on the stack; so memory management is not an issue here, for both examples. – Thomas Matthews Jan 23 '13 at 16:31
    
T - is only a hint for compiler to paste needed type. It's not a generic type like in C#. So it's not just T, but T* and any pointer equals to void* ( 4 bytes ) and if you explicitly use it memory will allocate some size for the pointer. – Oleg Orlov Jan 24 '13 at 5:53

Neither is better, except the first one, because I prefer it. Other people will prefer the second one, because they think it should be made explicit at the caller's end that a function might modify its arguments. I'm of the mind that you shouldn't be calling functions if you don't know what they do, and what they do should be obvious by their name, as is the case with swap. I am also of the mind that the only purpose of raw pointers in C++ is as non-owning, re-seatable and-or nullifiable references. Except in cases where you are, of necessity, implementing your own memory managing classes, like those in the standard library.

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Nobody says that case 2 is danger. Do you receive a program crash if your code will contains NULL pointer: SwapMe (NULL, NULL)

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you will catch only: error C2974: 'SwapMe' : invalid template argument for 'T', type expected. if you use SwapMe<NULL>(NULL, NULL); or error C2784: 'void SwapMe(T *,T *)' : could not deduce template argument for 'T *' from 'int' if you use SwapMe(NULL, NULL) if to use MSC++ – Oleg Orlov Jan 23 '13 at 5:41
    
I mean that this code is problemmed if real pointer is null – Evgeniy Jan 23 '13 at 6:03
    
it won't even compile with your suggestion – Oleg Orlov Jan 23 '13 at 12:08

There is a standard function template that does approximately the same as your swap (namely std::swap), and there is a standard function template that does approximately the same as your SwapMe (namely std::iter_swap).

Neither is really "better", they each have their uses. Either of them could be implemented using the other, but as it happens in the standard iter_swap is defined in terms of swap, so swap is thought of as the more fundamental operation. It is swap that you would ADL-overload for your own types.

In your code, the *first != *second test in your SwapMe is highly suspect. It requires T to have operator!=, and it's not much of an optimization given that != might be quite slow for some types, so it adds a significant cost to the common case (when the objects aren't equal). Furthermore, depending on the definition of the type T it may be that swapping equal objects ought to have an effect (in the case of vector, for example, the capacity doesn't participate in equality comparisons but it is exchanged when you swap using std::swap or vector::swap). So at the moment SwapMe is worse, but I suspect that's not intended :-)

In fact, any such test in a swap function is suspect, since it will tend to slow down the common case even if only minutely. But if you make the tests the same then whether they should be there at all is a separate argument from what the parameter types should be.

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