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using namespace std;

class B{
    int b;
    B(int x):b(x){
        cout << "B() Constructor " << endl;}
    B(const B& m):b(m.b){
        cout << "B(const B&) copy constructor "<< endl;}

class D:public B{
    D(int x):B(x){
        cout << "D() Constructor " << endl;}
    D(const D& n):B(n){ // at this point n should be casted to B object !!?
        cout << "D(const D&) copy constructor " << endl;}
    operator B(){
        cout << "operator B" << endl;
        return B(this->b);}


int main(){

D ob(1);
cout << "---" << endl;
D oc=ob;


B() Constructor
D() Constructor
B(const B&) copy constructor
D(const D&) copy constructor


1) if I didn't supply my D copy constructor, the default copy constructor of D must initialize the Base object by calling B copy constructor. My question is what is the argument that copy constructor of B will take ? is it a D object and then it will be casted to a B object ?

2) in the copy constructor of D, I initialized B with a D object n, and there was no calling to the operator B() which proof that the object n of type D didn't get casted to B, so it can be passed as an argument to the B copy constructor. is there any explanation for this behavior ?

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1 Answer 1

up vote 4 down vote accepted

First, a cast is something you write in your code to tell the compiler to do a conversion. There are two categories of conversions: implicit and explicit. Implicit conversions will be done when needed, without a cast. Explicit conversions require a cast. What you're talking about here is an implicit conversion, not a cast.

And the answer is that there is an implicit conversion from a reference to a derived type into a reference to a base type. It's that simple: n is a D&, and it can be passed to a function that takes a B& simply by implicitly converting its type.

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