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int main()
    const int* x;
    int* pa = x;//removes const, so UB.

    const int*& pb = pa;//error
    int* pd = pb;//error
    return 0;

I know that it's not possible to define a pointer to non-const data with a pointer to const data, because it would automatically cancel the constness out allowing me to modify the value.
But what is wrong with the second initialization? I know that a reference is an alias of something and how it works, but still don't get what actually is happening there at all. I guess that explanation of the second error will, hopefully, enlighten me the third error.
Can anyone shed some light? Thanks!

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up vote 7 down vote accepted
const int x = 1;
int* p;
const int*& r = p;

Imagine we had gotten this far. This last line will give the error you're questioning, but let's assume it works. Now r and p refer to the same pointer object. But now we can do this:

r = &x;

This makes r point at the const object x, which you might think is fine, but it will also make p point at it. Since p is an int* (not const), we can now use p to modify x:

*p = 2;

Now we've changed the value of a const object. The error in question prevents us from doing this.

So basically, the reasoning for this error is that being able to bind a reference to pointer to const to a pointer to non-const would give you a way to get the non-const pointer to point at a const object. That's bad.

See the Why am I getting an error converting a Foo**Foo const** C++ FAQ to learn about the same issue but with pointers instead of references. The reasoning is the same.

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Thanks I got it. I'd summarize it like: A reference must be exactly the same type as the referenced object, otherwise there would be an object defined in an ambiguous way. – Daniel Katz May 3 '13 at 23:26
@DanielKatz It can add const to the "top level" type. So you can initialise a int* const& with an int*. – Joseph Mansfield May 3 '13 at 23:30
I always confuse myself when trying to explain this to others, but your explanation is very clear. – Benjamin Lindley May 4 '13 at 0:41
This is the square-rectangle OO problem. A classic bad OO design is that "Squares are a subclass of Rectangle". But this isn't true, because Rect.SetWidth(7); Rect.SetHeight(9); Assert(63 == Rect.GetArea()); is true for every Rectangle, but not true for a Square. ReadOnlySquares are a subclass of ReadOnlyRectangles. The same thing happens here -- read only access to a int const** is identical to read only access to a int**, but int const** is-not-a int** because writing to a restricted subtype is not the same as reading from one. C#'s in/out types would be useful here. – Yakk May 4 '13 at 0:52
I'm not sure I really agree with this explanation. int* and const int* are not reference-related so if you'd "gotten this far", r would be bound to the result of converting p to const int* - a different object. r = &x; wouldn't affect p (only the converted copy) so *p = 2; would still be dereferencing the uninitialized p. – Charles Bailey May 4 '13 at 0:54

This is just another instance of the rule that you cannot bind a temporary to a non-const refence.


X f();

X& r = f(); // illegal
X const& cr = f(); // OK

You can convert a pointer to int to a pointer to const int but the result of that conversion is a new pointer with a different type. You cannot bind an rvalue (such as the result of this conversion) to a non-const reference, only to a const reference, e.g.

const int* const& pb = pa; // pb is not bound directly to pa but to
                           // the result of converting pa to const int*
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