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I wrote a smarter pointer class. And to make the following code correct

ZhjSmartPointer<int> a(new int);  
assert(a != NULL); 

I overload the != operator like this:

bool operator !=(T *ptr) const; 

however, this leads to a compile error like this:

ZhjSmartPointer.h:132: note: candidate 1: bool ZhjSmartPointer::operator!=(T*) const [with T = Test] test.cpp:41: note: candidate 2: operator!=(int, int)

I'm confuse with how a ZhjSmartPointer can be transfered into an int

The Code of SmartPointer class is like this:

template <typename T>
class ZhjSmartPointer {
    explicit ZhjSmartPointer(T *ptr);

    ZhjSmartPointer(const ZhjSmartPointer &smartPtr);
    ZhjSmartPointer &operator =(const ZhjSmartPointer &smartPtr);

    operator bool() const;
    T &operator *() const;
    T *operator ->() const;
    bool operator ==(const ZhjSmartPointer &smartPtr) const;
    bool operator !=(const ZhjSmartPointer &smartPtr) const;

    bool operator ==(T *ptr) const;
    bool operator !=(T *ptr) const;

    void copyPtr(const ZhjSmartPointer &smartPtr);
    void deletePtr();
    T *ptr_;
    size_t *refCnt_;

I guess because I overload the 'bool' operator, 'ZhjSmartPointer -> bool -> int' leads to this problem.Is this right?

Sorry,It is just a compile warning, not a error. Someone suggest me not overloading != with parameter(T *), after all, we already have overloaded 'bool'.It will be fine to write codes like these:
ZhjSmartPointer a(new int);
if (a) { ..........

share|improve this question
a constructor taking in a int as parameter without explicit could cause that conversion. – phoeagon Feb 21 '13 at 5:15
The constructor wouldn't take an int (well T), but a int* (T*), so the "implicit constructor conversion" exists doesn't make much sense. What does make sense is the assumption that you allow an implicit conversion from ZhjSmartPointer<int> to int which would then lead to this error. Really not much you can do, apart from using intptr or removing the implicit conversion. – Voo Feb 21 '13 at 5:29
As I said in my answer below, it works for me on g++ 4.6.3 with a warning issued. So I guess it is compiler-dependent. What's your compiler? – phoeagon Feb 21 '13 at 5:44
up vote 0 down vote accepted

I guess because I overload the 'bool' operator, 'ZhjSmartPointer -> bool -> int' leads to this problem.Is this right?

I think so.

But have you defined any conversion operator for ZhjSmartPointer?

#include <cassert>
#include <cstddef>

template <class T>
class ZhjSmartPointer{
    ZhjSmartPointer (T* _ptr)
    :ptr_saved(_ptr){    }
    bool operator !=(T *ptr) const{
        return ptr!=ptr_saved;
    T* ptr_saved;
int main(){
    ZhjSmartPointer<int> a(new int);  
    assert(a != NULL);     

This compiles for me though (g++ 4.6.3). adding:

    operator bool() const{
        return ptr_saved!=0;

g++ 4.6.3 issues a warning, but still it compiles.

1.cpp:9:14: Candidate 1: bool ZhjSmartPointer<T>::operator!=(T*) const [with T = int]
1.cpp:20:9: Candidate 2: operator!=(int, int) <builtin>


Surprisingly NULL is an int, not a void*.

Declaring your constructor like:

ZhjSmartPointer<int> a(new int);  

enables the conversion from int to ZhjSmartPointer. Instead, add an explicit:

explicit ZhjSmartPointer<int> a(new int); 

to suppress this conversion.

share|improve this answer
How is the former (or the latter) a constructor declaration ? All I see is a variable declaration. In fact, explicit can only appear on non-static member functions; the snippet above won't even compile. – WhozCraig Feb 21 '13 at 5:27

In C++ NULL is defined as 0, not (void*)0, in fact most textbooks will tell you to use 0 instead of NULL.

If you're using C++11 you should be using nullptr by the way

Your problem is indeed the bool implicit conversion. To fix your problem overload operator not (!) instead.

share|improve this answer
In C++11 there's nullptr which is a different type to 0; NULL and 0 are semantically different and it's bad practice to depend on the fact that they equate, so "most textbooks" contain bad advice. – congusbongus Feb 21 '13 at 5:20
@CongXu Nope, NULL and 0 are exactly the same thing semantically in C++. Relying on this fact is perfectly fine (you may say "But what if the hardware represents null pointers differently?" In which case I'd say: "The standard says the compiler has to take care to convert this correctly"). Not that I like this fact - nullptr is nice. – Voo Feb 21 '13 at 5:22
@Voo By "semantically" I meant with respect to the programmer, i.e. you should be using NULL for pointers and 0 for numbers, even though they are guaranteed to be equal. With respect to the language it's the other way around; sorry for the confusion. – congusbongus Feb 21 '13 at 5:28
@CongXu Ah yes there we agree. Some people seem to prefer 0 to NULL though - Bjarne Stroustroup being the most famous example I can think of (his explanation is "I prefer to avoid macros") - to each their own, I prefer NULL (although having an explicit 0 makes problems with overload resolution clearer), respectively nullptr in c++11 – Voo Feb 21 '13 at 5:31
@CongXu You are incorrect, in the beginnings of C++ NULL was actually not 0 but still (void*)0, which is not allowed to be implicitly cast to a pointer of any type T other than void which means that ptr == NULL is fine as ptr will be converted implicitly to void*, but T* ptr = NULL is not fine. In C++ it was expressly the intention to use 0 and not NULL. However since unbending programmers still wanted to use NULL, NULL was changed in C++ to be 0 instead. In C++11 we now have nullptr to solve the issue. – wich Feb 21 '13 at 5:33

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