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I've been reading some OSS code lately and stumbled upon this peculiar piece:

class Foo { ..... };
void bar() {
    Foo x;
   Foo *y=new Foo();
   x=(const Foo &) *y;

For the life of me I can't find documentation about the behavior of casting an object to a const reference.

share|improve this question
I'm trying to understand the piece of code I found. – Afiefh May 7 '11 at 20:10
Are you sure you aren't missing (overlooking) the dereference on y? – Xeo May 7 '11 at 20:12
Any time you see a C-style cast in C++ code, it is almost certainly wrong. – nbt May 7 '11 at 20:17
Does Foo have non-default operator=? – n0rd May 7 '11 at 20:23
Woo, I was right. \o/ – Xeo May 7 '11 at 20:31
up vote 7 down vote accepted

x=(const Foo &) *y; is assignment. The only reason I see to explicitly cast to const reference is to have Foo::operator=(const Foo &) called for assignment if Foo::operator=(Foo &) also exists.

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x=(const Foo &) y; line invokes undefined behavior.
Prefer to avoid C-style casts; they are easy to get wrong. You silence the compiler, so they are too dangerous.

Edit: this answer was relevant at the time, when in the question y was not dereferenced prior to the cast to const Foo &. For the answer to the question after *y edit, please see the answer given by n0rd

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@jalf: Compiles for me with g++ 4.4.5. Why do you think it shouldn't? – usta May 7 '11 at 20:33
Why do you think it should? I accept that it compiles under 3 major compilers (which surprised me), but I still don't see why it should. What in the standard allows a cast from pointer to reference type? – jalf May 7 '11 at 21:10
Don't see why this is undefined behavior. Its not nice because of the C style cast. But re-writing to use const_cast<> (its still not nice) but it still works. – Loki Astari May 7 '11 at 21:22
Ok, after a few questions on the SO C++ chat, and 10 minutes spent reading the standard, and another 5 working through a toy example by hand, I get it. Yes, it compiles, and yes, it's undefined behavior. It turns into a reinterpret_cast, and reinterpret_cast to a reference type is equivalent to casting the address of the argument to a pointer to the target type, and then dereferencing it. So it is effectively casting from Foo** to Foo* which is well-formed because reinterpret_cast can cast between pointer types freely, and then dereferencing the result, yielding UB – jalf May 7 '11 at 21:42
@jalf, @Martin, @Vitus: Thanks for great discussion while I was offline. The reason I was certain it compiled and was UB without looking up the standard was because I knew how boost::addressof was implemented. Essentially it casts its argument to char &, takes the address of the result and casts it to pointer to argument type. Now checking that with the standard, I see the relevant section is 5.2.10/10. – usta May 8 '11 at 6:53

Interestingly, the misread code could still be possible, if Foo has a non-explicit constructor that takes a Foo* pointer.

#include <iostream>

class Foo{
  Foo() {}
  Foo(Foo*) { std::cout << "Aha!\n"; }

int main(){
  Foo* pf = new Foo;
  Foo f = (const Foo&)pf;


See the output at Ideone.
Interestingly, if you make the constructor explicit, it shows the undefined behaviour explained by @usta.

share|improve this answer

You'll have to declare x after y:

Foo* y = new Foo();
Foo& x = *y;


Foo x;
Foo* y = new Foo();
x = (Foo&)*y;
share|improve this answer
Note that I didn't write this, I'm trying to understand it and it is working the way it is written right now. – Afiefh May 7 '11 at 20:10
This isn't his code, he's trying to find an explanation on what it does. – Xeo May 7 '11 at 20:10

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