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I've a problem with Operator overloading in C++.

I've defined the following class:

template <class T>
class Array
//! Default constructor
Array(int ArraySize = 10);

////! Defualt destructor

//! Redefinition of the subscript operator
T& Array<T>::operator[] (int index);

//! Redefinition of the assignment operator
const Array<T>& Array<T>::operator=(const Array<T>&);

//! Redefinition of the unary operator -
Array<T>& operator-(Array<T>& a);

//! Array length
int size;

//! Array pointer
T *ptr;

The unary operator - is defined as follow:

//! Redefinition of the unary operator -
template<class T> 
 Array<T>& operator-(Array<T>& a){
    static Array<T> myNewArray(a.size);

    for( int i = 0; i < a.size; i++){
    return myNewArray;

How can I avoid the persistence in memory of "myNewArray"? Whitout "static" declaration myNewArray disappears when the function ends and fails any assignment like VectorA=-VectorB.

The second problem is about the overload of casting operator; I've overloaded the casting operator this way:

template <class B>
operator Array<B>(){
    static Array<B> myNewArray(size);

.... a function makes the conversion and returns myNewArray populated...

return myNewArray;

But it doesn't work! The object myNewArray seems to disappear after the function execution with the static declaration too. Any assignment like VectorA=(Array<'anytype'>)VectorB fails.

Where is the error? May everybody suggest a solution, please? Thank you in advance!

share|improve this question
For the cast operator, again, no need for the static. Without actual code that compiles and runs and shows the problem, though, it's impossible to say what's going wrong. – Pete Becker Sep 2 '12 at 22:19
Avoid cast operators as much as possible. It's hard to predict when implicit casts are triggered and this leads to hard to find bugs. You should consider making a templated assignment operator instead: template <class B> Array& operator=(const Array<B>& rhs). This would allow you to explicitly convert an Array<B> into an Array<T>. – Emile Cormier Sep 2 '12 at 22:23
You could also write a templated explicit constructor that allows to explicitly contruct an Array<T> out of an Array<B>. – Emile Cormier Sep 3 '12 at 0:37
Your operator- is not unary. It operates on both *this and a. How can VectorA = -VectorB even compile? I suggest you try to make a small code example that actually compiles that you can show us -- it always helps a lot. – Luc Danton Sep 3 '12 at 0:39
Thank you all! I've found the problem: it was the copy constructor. The by-value-return of functions and the command A=f(b) didn't work because the copy constructor was wrong. After rewriting it all works fine without static and by-reference-return. – Dersu Sep 3 '12 at 9:51

For your operators don't return a reference. Return a copy of myNewArray. Most compilers can elide the copy and use return value optimization to make performance acceptable.

You should also mark those methods as const as they do not change state.

template<class T> 
 Array<T> operator-(const Array<T>& a) {
    Array<T> myNewArray(a.size);

    for( int i = 0; i < a.size; i++){
    return myNewArray;
share|improve this answer
@Jupiter Oops, one character off. – Lalaland Sep 2 '12 at 22:30

Without "static" declaration myNewArray disappears when the function ends and fails any assignment like VectorA=-VectorB.

No, it doesn't. The compiler makes sure it hangs around long enough to get copied.

Also, the code will be a bit cleaner if you initialize myNewArray as a copy of the original:

Array<T> myNewArray(a);
for (int i = 0; i < myNewArray.size(); ++i)
    myNewArray[i] *= -1;
share|improve this answer
Whoops, as @EthanSteinberg pointed out, since the function returns a reference, the static is needed. Better, though, to return by value. – Pete Becker Sep 2 '12 at 22:22

Hmm, since both problems involve mysterious failures to properly assign new values, is there something wrong in the assignment operator?

share|improve this answer
This should be a comment to the question, not an answer. – Emile Cormier Sep 2 '12 at 22:25

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