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I won't write all the code, but I am looking at a smart pointer example implementation and it has:

template<typename T>
class smart_ptr
{

public:
    operator void*() const {return mPtr;}

    const T& operator*() const;
    T& operator*();

    const T* operator->() const;
    T* operator->();

private:
    T* mPtr;
};
  1. What is the purpose of the first public function in the API?
  2. Why do we need to const-overload the other two API methods?
  3. Not only const-overload, but why have return-const-object variants?
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1  
The operator* and operator-> functions don't appear to be overloaded, so it's not clear what you mean about const-overloading them. They're const because they don't modify the smart pointer object. –  Wyzard Mar 23 at 1:37
    
1. That's an implicit conversion operator. It enables you to use a smart_ptr whenever you would usually use a void *. Handle with care. –  Zeta Mar 23 at 1:38
    
May be this article provides some enlightment for you: Smart Pointers in C++. –  πάντα ῥεῖ Mar 23 at 1:51
    
@Wyzard do you mean they aren't overloaded because the return type differs? If they had all returned a const object, then they would have been const-overloaded? –  user997112 Mar 23 at 2:19
    
It's not that the return type differs, it's that the name differs. Overloading is when you have multiple functions with the same name but different signature. The operator* and operator-> functions have different names, so they're not overloads of each other. –  Wyzard Mar 23 at 2:38

2 Answers 2

up vote 1 down vote accepted

The operator void* function is a type casting function, so you can write:

smart_ptr foo;
void* ptr = foo;  // The compiler will call `operator void*` here

or even

if( foo) {  // `operator void*` called to test boolean expression
  //...
}

The functions

const T& operator*() const;

const T* operator->() const;

are const, so you can call them on a const smart_ptr. Because they return pointer/reference to const object, this object can't be changed.

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Regarding Q2/3 why couldnt the non-const methods also return a const object? A method's const-ness is unrelated to whether the return object is const or not? –  user997112 Mar 23 at 1:52
    
yes these are two different things. Function const can be called on const object, this is why these are const functtions –  AB_ Mar 23 at 1:58
    
What is the purpose of returning the const objects? I see the reasoning for providing const methods (operating on const smart pointers). –  user997112 Mar 23 at 2:18

The conversion operator looks to be intended to do two things:

  1. Convert the smart pointer to void*. Generally pointers convert to void* but I'm not sure whether it is a good idea to do for smart pointers.
  2. It will be used when testing objects to see what value they have when evaluated in a boolean context. That can be used to determine if the pointer is a null pointer.

Personally, I would probably only support the second use-case and use an explicit conversion to bool instead:

explicit operator bool() const { return this->mPtr; }

The overloads for const are obviously intended to propagate constness of the smart pointer to the pointed to objects.

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