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I'm trying to cast a pointer to another type using reinterpret_cast

class MyClassA
 int x;
 int y;

class MyClassB
 int x;
 int y;

For example, if I cast a pointer to MyClassA to MyClassB, using reinterpret_cast would this conversion work? what about code portability?

And also, as I noted:

(5.2.10/4) A pointer can be explicitly converted to any integral type large enough to hold it.

Does it mean any pointer e.g MyClassA* can only be converted to int* pointer? if i'm correct?

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For the second part, it means any pointer (IE MyClassA* or int *) can be converted to an integer type such as long, given that sizeof(long) >= sizeof(MyClassA *) on your machine. So on a machine using 8 byte pointers and 8 byte longs you could say: int * x; long y = (long)x;` – Paulpro Dec 10 '11 at 19:31
@PaulPRO: I see, any idea why would I want to cast a pointer to integer? and will it be non-portable as well? – user1086635 Dec 10 '11 at 19:50
@user1086635: The same reason you would want to convert a pointer to another pointer. When doing stuff inherently non portable. Using reinterpret_cast<> makes the code stick out, so that when somebody reads it the take notice and read it carefully. – Loki Astari Dec 10 '11 at 20:22

(5.2.10/4) A pointer can be explicitly converted to any integral type large enough to hold it.

This means int* to int. Pointers aren't integral types.

Casting pointers of unrelated types is bad news and shouldn't be done. It may work, but is not portable.

Inheritance will work though. Have the types inherit from a base class!

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As to whether this works or not I do not know, that would be implementation dependant.

However there are no guarantee by the standard that this would work (so don't do it), MyClassA and MyClassB are two separate types that are non compatible even if they are structurally the same.

Same applies to int*.

if you need conversion between then then you can make an A to B assignment operator

class MyClassA{

    operator=(const MyClassB& mcb)

And if you need access to an integer element inside of MyClassA.

//in MyClassA
int& getX(){ return x; }
const int& getX() const { return x; }

int& x=mca.getX();
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That doesn't mean you can cast unrelated types. It means you can cast a pointer to a 64bit integer (for example) if on your platform 64bit integer is sufficiently big enough to contain a pointer value.

PS: I would like to mention that what you have done is totally deviating from the standard but you might get away with it on many platforms / compilers :)

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My answer to the first is yes. A pointer is just a variable (integral) whose value is an address to another memory location. Which is why you are able to do the following.

(*(void(*)())0)(); /*Ref: Andrew Koenig C Traps and Pitfals*/


struct A * = new (CARD_INTERFACE_ADDRESS) struct A

MyClassA * ptr_a cannot (logically) be converted to int* ptr_i because what you are saying is that the the address held by the variable ptr_a is the address of MyClassA in the former while in the latter you are saying that saying that ptr_i is the address of an int.

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