# constructor and copy constructor

#include <iostream>

using namespace std;

class t{
private:
int * arr;

public:
t() { arr=new int[1]; arr[0]=1;}
t(int x) {arr=new int[1]; arr[0]=x;}
t(const t &);
~t() {cout<<arr[0]<<"   de"<<endl; delete [] arr;}
t & operator=(const t & t1){arr[0]=t1.arr[0];return *this;}
void print(){cout<<arr[0]<<endl;}

};
t::t(const t & t1) {arr=new int[1];arr[0]=t1.arr[0];}

int main(){

t b=5;
cout<<"hello"<<endl;
b.print();
b=3;
b.print();
return 0;
}


Why the result is

hello
5
3   de
3
3   de ?


why "t b=5;" will not call the destructor? how "t b=5" works? does it create a temp object (of class t) using constructor "t(int x)" first, then use copy constructor "t(const t &)" to create b? if it is the case why it does not call the desctructor for the temp object?

-

why "t b=5;" will not call the destructor?

When you do this:

t b=5;


you get copy initialization. Semantically, the implicit converting constructor t(int) is called, and then the copy constructor t(const t&) is called to instantiate b. However, the compiler is allowed to elide the copy, which is what is happening in your case. The object is constructed in place, without need for a copy construction. This is why you do not see a destructor call. But your class still needs a copy constructor for that code to compile: copy elision is optional, and whether some code compiles should not depend on whether the compiler is performing an elision or not.

t b(5);


then there would be a direct initialization, with no copy elision, and with only one constructor call. Your class would not require a copy constructor in for this code to compile.

-

Since you don't have an assignment operator taking an int, b = 3; is interpreted as

b.operator=(t(3));


This creates a temporary t instance, and destroys it once the assignment returns. That's what prints the first de line. Finally, at the end of main, b goes out of scope, its destructor is called and prints the second line.

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@juanchopanza Why? Which object do you believe is destroyed before "hello"? Note that t b=5; is not an assignment, it's an initialization. It uses t(int) constructor, not operator=. –  Igor Tandetnik Oct 7 '13 at 4:41

int main(){
t b=5;  // as you expected, this call the constructor of your object.
cout<<"hello"<<endl;
b.print();  // as you could see, this call print() and print 5
b=3;   // this is where the confusion begins. You didn't provide a way
// from your object to make an assigment from an integer, but you
// provide a way to construct an object from integer. So, your
// compiler will construct a temporary object, with 3 as parameter
// and use this object to do this assignment. Once this is a
// temporary object, it will be destructed at the end of this
// operation. That is why you are getting the message: 3   de
b.print(); // print 3 as expected
return 0;  // call the destruct from the object that was assigned before
}

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OP is asking why t b=5; is not resulting in a destructor call, so the behaviour is not completely "as you expected". There are annoying subtleties in this very simple line :-) –  juanchopanza Oct 7 '13 at 4:56
I guess, OP is asking why t b=5 doesn't call a destructor while b=3 calls it. And the answer is because t b=5is a constructor, while b=3is an assignment. –  Tomás Badan Oct 7 '13 at 5:05
See my answer. t b=5; requires a copy constructor, but copy constructions can be elided (and are, more often than not). But on a non-eliding implementation, or if you switch off copy elision on your compiler, you would see the copy and the destructor call. –  juanchopanza Oct 7 '13 at 5:07