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 void* GetData()
 {
    return reinterpret_cast<unsigned char*>(this);
 }

Is there a case of automatic type coercion happening in this case ??? How could I convert the object of my class to an unsigned char* ??

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This expression compiles on g++ and somehow it returns a value !! This code actually works in my codebase :) –  de costo May 13 '10 at 17:46
3  
Can anybody enlighten me as to what's the advantage of the cast over a simple return this? Any pointer is implicitly convertible into a void* (in fact the function uses this to convert the unsigned char*), so this is convertible, too. What's the point of first casting to unsigned char*? –  sbi May 13 '10 at 17:57
    
@sbi I think the OP intended to inspect the member's class object's byte layout, so the return type should really be unsigned char*. Otherwise it makes little sense to return an unsigned char* while interfacing as a void*. –  wilhelmtell May 13 '10 at 18:06
    
@WilhelmTell: But that alignment is lost the moment the pointer is casted to void*. Also, any inspection needs the void* to be casted again anyway. I might still be missing something, but your answer doesn't seem to explain the cast. –  sbi May 13 '10 at 18:13
    
@sbi: void * is guaranteed to have the same alignment as unsigned char *; other than that, I agree: the cast to void * doesn't make sense. –  Derrick Turk May 13 '10 at 18:19

4 Answers 4

up vote 1 down vote accepted

I agree with the other posts: this is almost certainly not what you intend to do.

However, IIRC, you are guaranteed by the C++ standard to be able to convert a pointer of any type (not including function or member pointers) to an unsigned char * or a void * and back without entering the realm of undefined behavior. Additionally, you may access any object through an lvalue of type char * or unsigned char * (see ISO 14882:2003 section 3.10.15). I have made use of this before in order to inspect the internal representation of arbitrary object types. This results, if my reading of the standard is correct, in "implementation-defined behavior" (obviously, the internal representation of types depends upon the implementation).

For example,

template<class T> std::vector<unsigned char> to_bytes (const T& t)
{
    const unsigned char *p = reinterpret_cast<const unsigned char *>(&t);
    return std::vector<unsigned char>(p, p + sizeof(T));
}

is a template function that will yield a std::vector<unsigned_char> which is a copy of the object's internal representation.

However, the fact that you cast to void * when you return makes me suspect you are doing something perhaps more unsavory and more undefined.

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You can make this function more efficient if you take iterators or a vector by reference, rather than return a vector. Still, I can't help but wonder if there's a safe, proper way to get this done at compiletime, with no dynamic-allocation. –  wilhelmtell May 13 '10 at 20:03

I assume you refer to return reinterpret_cast<unsigned char*>(this);

This is a nasty chunk that is probably taking the wrong approach in solving the wrong problem. Technically, it asks the compiler to re-interpret the type of the this pointer as an unsigned char* pointer. No work is done here: the statement only instructs the compiler to think of the pointer as of a different type. This is disastrous if it's wrong to interpret the type as such.

If you wish to inspect your object bitwise then you might try something like this:

union inspect_klass {
    klass obj;
    char bits[sizeof(klass)];
};

EDIT: My confidence about the above union is shaken now. Don't use it just yet, I'm looking for confirmation that this trick is indeed broken. :s

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3  
Inspecting a class through union is undefined behavior, though: stackoverflow.com/questions/2310483/… –  Cubbi May 13 '10 at 18:09
    
Oh my. From the standard's draft, section 9.5 paragraph 1: ... "The size of a union is sufficient to contain the largest of its data members." Can anyone please confirm I'm getting this right: This means that in the union code above the union's size may be larger than the size of either of its (size-equivalent) members. Not only that, but the two members may then be aligned differently from each other. –  wilhelmtell May 13 '10 at 18:41
1  
@Wilhelm Alignment aside, the standard says that once you have accessed a union by one of its members, accessing it via the other is undefined behaviour. Of course, the trick is very widely used, but that's what the standard says. –  anon May 13 '10 at 19:12
    
@Neil can you refer me to where exactly the standard says that? –  wilhelmtell May 13 '10 at 19:47
1  
Curious...what's allowed in a union type has changed dramatically w/ C++0x. For instance, all reference to POD types have been removed - you can now store non POD types in a union. 9.5.1 has this to say: "In a union, at most one of the non-static data members can be active at any time, that is, the value of at most one of the non-static data members can be stored in a union at any time." Curious that the entire union spec doesn't mention access or another type, only storage. –  Nathan Ernst May 13 '10 at 20:28

Strictly speaking, unsigned char* is a byte array. It seems like a perfectly logical thing to do if the caller is going to serialize the data.

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1  
There are ways to serialize objects. This is not a good way to do that. It's dangerous: the client better know exactly how many bytes to read when it reconstructs the object. C++ gives you higher-level ways to do that, so you are less prone to error. Then of course there are libraries such the boost serialization library. –  wilhelmtell May 13 '10 at 18:50
    
There's no mention at all about the scope of the function. If it's anything other than private I agree with you. Doesn't mean whomever wrote it didn't intend to serialize it. –  David Good May 13 '10 at 18:52

First off, your GetData() return type does not match the return type of the expression.

reinterpret_cast is similar to old an old style C cast - you are simply returning a pointer to a unsigned char*. It is completely unsafe. In effect, you are creating a view into the data of a class, which can be accessed byte-wise.

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