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class C
  C(C& c)
    i = c.i;
    j = 100;
  C() : i(0), j(0)

  int i, j;

C func(C c)
  return c;

int main()
  C c;
  c = func(c)
  // What is the value of j?

Above is a class with an unusual copy constructor. Instead of copying i and j, it copies i and assigns something else to j. What happens when I pass an object of the class to the function?

Edit: It just seems like such a tricky thing to do in a program...

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Have you tried it and observed the result? –  Kerrek SB Jan 30 '12 at 22:47
"try it" is really really bad advice. The behavior depends on the optimizer. –  Ben Voigt Jan 30 '12 at 22:52
@BenVoigt: I'm inclined to disagree. I better question would be, "I wrote this code, but strangely this-and-this unexpected result happens. Why is that?" As it stands, there appears to be zero effort on part of the OP to even make a start. –  Kerrek SB Jan 30 '12 at 22:55
@KerrekSB: but what if you try running the code, and get the boring, ecpected, result? Then you don't really have anything to ask about, and you might draw the wrong conclusion (that this behavior is requried, rather than something that might occur) -- and I haven't seen anything in the rule book specifying the amount of effort someone is required to put in before being allowed to ask a question here. –  jalf Jan 30 '12 at 23:18
@jalf: still, any one of two questions that come to mind would be preferable: 1) "The value of the object is changed by my weird copy constructor; why isn't a 'real' copy enforced?", or 2) "The original value is copied; why isn't my weird copy constructor used?" I agree that certain abstract questions can be interesting in their own right, but for this case here I think it's poor form not to include any sort of "what have I tried" data. –  Kerrek SB Jan 30 '12 at 23:23

4 Answers 4

up vote 8 down vote accepted

The copy constructor may be called, in which case your weird behavior happens.

Or, the compiler may elide the copy (this is specifically allowed by the standard), breaking your expectations. In this particular case that isn't allowed, but in many contexts it is.

So don't write copy-constructors that do weird things. (Or else we will call you auto_ptr)

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It is your responsibility to equip your class with a copy constructor such that the expression Foo x(y); results in an object x that is semantically equal to y. Nobody forces you to do that in any particular way, and the program will behave as you tell it to.

Consider this simplified example:

struct Foo
    int value;
    explicit Foo(int n) : value(n) { }
    Foo(Foo const & rhs) : value(rhs.n / 5 - 32) { } // tee-hee

Foo make_it_so() { return Foo(40); }

int main() { Foo k = make_it_so(); }

Now depending on whether the copy constructor is elided or not, k.value ends up either with 40 or with -24. However, because you wrote the copy constructor, you have essentially declared that you consider the two semantically equal.

C++ lets you set the rules of the game, but it doesn't protect you from going straight to jail.

(I know that my example is slightly different from what you asked in your question ("argument passing"), but it is intended to illustrate your responsibilities as an author.)

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When you write a copy constructor with the same signature as the default copy constructor, you are suppressing the default one from being created.

So when the code calls for the default copy constructor it will run the one you have made and do whatever you put in there, be it printing, memory allocation, or even just do nothing if that is how you coded it.

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"When you write a copy constructor with the same signature as the default copy constructor, you are overloading the default one that exists." No, you're suppressing the default one from being generated in the first place. –  ildjarn Jan 30 '12 at 22:58
@ildjarn thanks for the correction –  Kerr Jan 30 '12 at 23:00

The obvious happens. The object is copied. The values are set to whatever you do in the copy constructor. You can confirm this by simply printing the values.

Copy-elision is not allowed here as the argument passed into the function is not an rvalue. If it were an rvalue (e.g. func(C())) the code would not compile as the temporary cannot be bound to the copy constructor as it is taking a reference as argument and not a reference to const. If this is fixed, copy-elision can be observed for the argument and the return value. So the state of c after being assigned to could be the one of a default constructed C.

As far as I understand the code as shown will always show the same behavior and does not depend on optimizations.

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You should read up on Copy Elision. –  Mark Ransom Jan 30 '12 at 22:53
@MarkRansom The behavior of the program still has to be the same even if the copy is elided and thus the values set in the copy constructor have to be in the object the function uses as well. –  pmr Jan 30 '12 at 23:03
I would have thought so too but evidently there are exceptions built into the standard. From the Wikipedia link: "The standard also describes a few situations where copying can be eliminated even if this would alter the program's behavior, the most common being the return value optimization." –  Mark Ransom Jan 30 '12 at 23:06
@MarkRansom Exactly. But there is no return value here. The difference between those optimizations is not so subtle. RVO becomes an obvious optimization as soon as a function is inlined, while passing an argument by value does not as this would require full analysis of the side-effects of the functions called on that value because otherwise you would change the original value that was passed in. –  pmr Jan 30 '12 at 23:10
@pmr : Copy-elision is a different optimization than RVO, and does apply to arguments passed by value (and consequently is pertinent to this question). –  ildjarn Jan 30 '12 at 23:13

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