Why X(X&) could be called for two times?

I wrote this code:

``````    struct X{
int val;

void out(const string& s, int nv)
{cerr<<this<<"->"<<s<<": "<<val<<"("<<nv<<")\n";}

X() {out("X(int)",0); val=0;}
X(int v){out("X(int)",v); val=v;}
X(const X& x){out("X(X&)",x.val); val=x.val;}
X& operator=(const X& a)
{out("X::operator=()",a.val); val=a.val; return *this;}
~X() {out("~X()",0);}
};

X copy(X a) {return a;}

int main{
X loc2;
X loc(5);
loc2 = copy(loc);
return 0;
}
``````

The output is this(in VS2010):

``````003BFAA0->X(int): -858993460(0)
003BFA94->X(int): -858993460(5)
003BF964->X(X&): 723486321(5)
003BF994->X(X&): -858993460(5)
003BF964->~X(): 5(0)
003BFAA0->X::operator=(): 0(5)
003BF994->~X(): 5(0)
``````

The first two lines are fine. But the third and fourth lines show that it calls X(X&) two times. The copy(X a) has only one "X a" in it. Why X(X&) could be called for two times?

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Why `X(X&)` could be called for two times?

With the function call:

``````loc2 = copy(loc);
``````

`copy(loc);` calls copy constructor two times:

1. To create copy of argument `loc` being passed to the function.
2. To create copy of return object `a`.

In C/C++ arguments to functions are passed by value by default. So not the actual argument but the copy of the passed object/variable is recieved in the function call.This copy is created by calling the copy constructor.
Your `copy()` function also returns by value again resulting in copy constructor being called.

Note that in certain instances the compiler might elide(remove) calls to copy constructor and construct the objects inline, the phenomenon is known as Copy Elision.In general you should'nt write any code which produces side effects based on number of times the copy constructor is being called.

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When "return a" gets executed, copy of object of type X gets created because return type is X (not X&). (Had it been X& - it would also have been an error - Formal argument of copy function "a" is a variable with local scope)

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