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While working on a legacy projectr I came across the following pattern: a POD struct is used to transfer data over the network.

struct PODType {
    // some data
    int data;
};

On the receiver side, the data is received into an object of the POD type. Later on, a class is derived from the PODType and the received object is casted with a C-style cast into the derived class to use some methods accessing the data.

class DerivedFromPOD: public PODType {
public:
    // some methods
    int f(int x) {return data+x;}
protected:
    // some methods
};

PODType pod;
receive(&pod);

DerivedFromPOD* d = (DerivedFromPOD*)&pod;
int i = d->f(10);

The derived class has public and protected methods, so it is not a POD anymore. I know that this is an abuse of inheritance, but it has been in the code base for a long time.

I am wondering if that is guaranteed to work from a standard point of view (C++03 or C++98). The derived class does not have any own data members or virtual functions, but I am not sure if it guaranteed that the memory layout is identical given that one is POD and the other is not. Is the compiler forced to arrange DerivedFromPOD such that d.data's address is identical to the address of an object d of DerivedFromPOD type, as it is for the POD base-class?

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"and it is not even standard-layout in C++11 terms" Huh? Why not? As far as I can see, both PODType and DerivedFromPOD are PODs in C++11. –  dyp May 13 at 12:21
    
How a data structure is laid out in memory depends on the behaviour of the compiler and the ABI, the standard doesn't guarantee that . I think that in this case a pointer to an incomplete type can be more advantageous . Also remember that a C-style cast in C++ is a really bad thing in general. –  user2485710 May 13 at 12:26
    
This causes undefined behaviour according to the strict aliasing rules. –  Matt McNabb May 13 at 12:59
    
@dyp Misread section 9.7 "has the same access control [...] for all non-static data members,". Will edit the post. –  Jens May 13 at 13:48
    
@dyp But as I now looked at the source code again, I realized I overlooked the definition of a member (the class is actually quite large) which is certainly a non-POD type and thus my PODType is also a non-POD. –  Jens May 13 at 14:02

2 Answers 2

up vote 2 down vote accepted

It's certainly not guaranteed to work in general (try adding a virtual function to the derived class), and is formally undefined behavior. (I also don't see how a struct can be used to help transfer data over the network. Different machines will represent it differently.)

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A DerivedFromPOD* pointer can be cast safely into a PODType* pointer. So we are assured that the layout of the inherited PODType in memory is the same.

However, when casting in the opposite direction, DerivedFromPOD can be composed in memory with some compiler data, then the PODType data, then some additional compiler data.

If you're using the C-style cast, or static_cast<> for this cast, the compiler will assume you know what you're doing and adjust the pointer address so that the PODType part of the DerivedFromPOD will correctly point to the good area.

However don't try to use methods that will access other data from DerivedFromPOD as they won't be correct in memory.

In particular, don't use any virtual methods as the VMT (Virtual Method Table) is not there.

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he is casting the other way, from PODType to Derived. Also, the class is not polymorphic so it has no vtable. –  Matt McNabb May 13 at 13:01
    
Read my answer thoroughly. I started with the way it is safe, also as an answer related to its question about the layout in memory. Then I answer about the PODType -> Derived cast. My line about virtual method doesn't apply here but I wanted it to be a complete answer. –  Wizou May 13 at 13:05
    
I don't see where you answer about the PODType->Derived cast. Paras 1-3 talk about Derived->Pod , and para 4 is unclear. –  Matt McNabb May 13 at 13:10
    
I edited to make it more clear. –  Wizou May 13 at 14:23

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