class fruit{
public:
fruit(const fruit &f){
cout << "copy constructor invoked ";
}
~fruit(){
cout << "destructor invoked ";
}
fruit(){
cout << "constructor invoked ";
}
}
int main(){
fruit f1; // o/p constructor invoked
fruit f = fruit(); // o/p constructor invoked
fruit(); // o/p constructor invoked and destructor invoked
fruit f2 = fruit(fruit(fruit(f1))); // can anyone explain this statement?
// o/p copy constructor invoked
return 0; // o/p destructor invoked destuctor invoked
}
I have learnt that fruit f = fruit ()
the fruit()
creates temporary object and assigns it to f
using copy constructor. My questions are
- If
fruit()
creates temporary object then destructor must be invoked twice but destructor is invoked only once i.e forf
- If it assigns temporary object to
f
using copy constructor, here it does not invoke copy constructor at all.? (does compiler generate another copy constructor internally for copying temporary objects ?)
If the concept is about creating temporary objects then statement fruit f2 = fruit(fruit(fruit(f1)))
does not invoke any constructors and destructors, it invokes only copy constructor.
How does statement really work when X x = X();
I understand how it works if it is X x(x)
.
fruit(2)
in your code (and even if there was, it wouldn't compile)!!!T var = k
is equivalent toT var(k)
.struct S { S(int) { } S(const S &) = delete; }; int main() { S s(3); }
works.S s = 3;
does not.