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Is there a side effect in doing this:

C code:

struct foo {
      int k;

int ret_foo(const struct foo* f){ 
    return f.k; 

C++ code:

class bar : public foo {

   int my_bar() { 
       return ret_foo( (foo)this ); 


There's an extern "C" around the C++ code and each code is inside its own compilation unit.

Is this portable across compilers?

share|improve this question
I'm guessing you mean (foo*)this, or even better: static_cast<foo*>(this) – Richard Corden Sep 24 '08 at 14:18
I'm curious about the effect of an extern "C" around a class with a method... Still, the reason you want to do this would help us offering info or alternative solutions. – paercebal Sep 24 '08 at 17:25
When you say "portable across compilers", do you mean compiling the C code with one compiler, and the C++ with another, and linking the two together? – Roddy Sep 24 '08 at 22:19

10 Answers 10

up vote 23 down vote accepted

This is entirely legal. In C++, classes and structs are identical concepts, with the exception that all struct members are public by default. That's the only difference. So asking whether you can extend a struct is no different than asking if you can extend a class.

There is one caveat here. There is no guarantee of layout consistency from compiler to compiler. So if you compile your C code with a different compiler than your C++ code, you may run into problems related to member layout (padding especially). This can even occur when using C and C++ compilers from the same vendor.

I have had this happen with gcc and g++. I worked on a project which used several large structs. Unfortunately, g++ packed the structs significantly looser than gcc, which caused significant problems sharing objects between C and C++ code. We eventually had to manually set packing and insert padding to make the C and C++ code treat the structs the same. Note however, that this problem can occur regardless of subclassing. In fact we weren't subclassing the C struct in this case.

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I certainly not recommend using such weird subclassing. It would be better to change your design to use composition instead of inheritance. Just make one member

foo* m_pfoo;

in the bar class and it will do the same job.

Other thing you can do is to make one more class FooWrapper, containing the structure in itself with the corresponding getter method. Then you can subclass the wrapper. This way the problem with the virtual destructor is gone.

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this is the best answer. Unlike the accepted answer there a few options pointed out help you avoid problems with vtables and the structure layout. – Alex Jan 22 '14 at 10:30

“Never derive from concrete classes.” — Sutter

“Make non-leaf classes abstract.” — Meyers

It’s simply wrong to subclass non-interface classes. You should refactor your libraries.

Technically, you can do what you want, so long as you don’t invoke undefined behavior by, e. g., deleting a pointer to the derived class by a pointer to its base class subobject. You don’t even need extern "C" for the C++ code. Yes, it’s portable. But it’s poor design.

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I don't agree at all with such definitive statements by Meyer and Sutter. There is a lot you can do by inheriting from concrete classes, especially if you only add methods in the derived classes, not data members. This way you don't have the problem of slicing. – QBziZ Sep 24 '08 at 18:36
I think you're missing the point. My guess is the OP has existing C modules and wishes to 'wrap' some of the structs into classes, while still offering a C interface for legacy systems. If he's stuck with C for the structs, Sutter and Meyer are no help at all. – Roddy Sep 24 '08 at 22:16

This is perfectly legal, though it might be confusing for other programmers.

You can use inheritance to extend C-structs with methods and constructors.

Sample :

struct POINT { int x, y; }
class CPoint : POINT
    CPoint( int x_, int y_ ) { x = x_; y = y_; }

    const CPoint& operator+=( const POINT& op2 )
    { x += op2.x; y += op2.y; return *this; }

    // etc.

Extending structs might be "more" evil, but is not something you are forbidden to do.

share|improve this answer
I'm not so sure about that. I believe (at least in the current version of the standard) that the layout of a class as a base class subobject may be different than if you have an instance of that class. (See note under ISO C++ 10/5) – Richard Corden Sep 24 '08 at 14:39
If the derived class adds no data, and adds no virtual methods, then nothing bad should happen. Now, this is perhaps evil in design, but if the need is to add a default constructor and some helper functions, then... Well... This is not design. It is just correcting a missing feature, nothing more. – paercebal Sep 24 '08 at 17:27

Wow, that's evil.

Is this portable across compilers?

Most definitely not. Consider the following:

foo* x = new bar();
delete x;

In order for this to work, foo's destructor must be virtual which it clearly isn't. As long as you don't use new and as long as the derived objectd don't have custom destructors, though, you could be lucky.

/EDIT: On the other hand, if the code is only used as in the question, inheritance has no advantage over composition. Just follow the advice given by m_pGladiator.

share|improve this answer
But that's not the code I intend to write. bar can only be casted to foo for function calls, and all C functions that operate on foo are const. (just as in the example.) – Edu Felipe Sep 24 '08 at 14:05
Yes, in that case the code is kinda OK. It just begs for misuse. ;-) – Konrad Rudolph Sep 24 '08 at 14:11
It seems the foo* interface is used by C only. The C code would not be able to delete it anyway: [1] it's not the owner and [2] it's not C++. – MSalters Sep 24 '08 at 14:52

This is perfectly legal, and you can see it in practice with the MFC CRect and CPoint classes. CPoint derives from POINT (defined in windef.h), and CRect derives from RECT. You are simply decorating an object with member functions. As long as you don't extend the object with more data, you're fine. In fact, if you have a complex C struct that is a pain to default-initialize, extending it with a class that contains a default constructor is an easy way to deal with that issue.

Even if you do this:

foo *pFoo = new bar;
delete pFoo;

then you're fine, since your constructor and destructor are trivial, and you haven't allocated any extra memory.

You also don't have to wrap your C++ object with 'extern "C"', since you're not actually passing a C++ type to the C functions.

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You are wrong. Deleting a pointer to a derived class by a pointer to a base class is undefined behavior. Period. – Roman Odaisky Sep 24 '08 at 16:42

I don't think it is necessarily a problem. The behaviour is well defined, and as long as you are careful with life-time issues (don't mix and match allocations between the C++ and C code) will do what you want. It should be perfectly portable across compilers.

The problem with destructors is real, but applies any time the base class destructor isn't virtual not just for C structs. It is something you need to be aware of but doesn't preclude using this pattern.

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The behaviour is not well defined - at least in my reading of the std. Do you have a reference to the text that says it's legal? – Richard Corden Sep 24 '08 at 14:12
No reference ... but I don't fully grok the quote you used below. Wouldn't that prevent any useful down-casting, I don't see how it is specific to the case of the base class being a C struct – Rob Walker Sep 24 '08 at 14:54
Unfortunately, I am unable to find a normative reference. But it was pointed out to me by an ISO C++ committee member that an object is a POD only if it is a concrete instance of a POD type. ie. there is no such thing as a POD base sub object. I'll add more detail to my answer below. – Richard Corden Sep 24 '08 at 16:08

It will work, and portably BUT you cannot use any virtual functions (which includes destructors).

I would recommend that instead of doing this you have Bar contain a Foo.

class Bar
   Foo  mFoo;
share|improve this answer

I don't get why you don't simply make ret_foo a member method. Your current way makes your code awfully hard to understand. What is so difficult about using a real class in the first place with a member variable and get/set methods?

I know it's possible to subclass structs in C++, but the danger is that others won't be able to understand what you coded because it's so seldom that somebody actually does it. I'd go for a robust and common solution instead.

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Simply because ret_foo is written in pure C, where I don't have member methods. Also, I don't have the code for ret_foo, it's an API provided for me. – Edu Felipe Sep 24 '08 at 14:15
Don't subclass stuff you don't have control over. Make it a member variable and handle it there. Wrap it in an object if useful. Composition is much better here than derivation. – Thorsten79 Sep 24 '08 at 14:24

It probably will work but I do not believe it is guaranteed to. The following is a quote from ISO C++ 10/5:

A base class subobject might have a layout (3.7) different from the layout of a most derived object of the same type.

It's hard to see how in the "real world" this could actually be the case.


The bottom line is that the standard has not limited the number of places where a base class subobject layout can be different from a concrete object with that same Base type. The result is that any assumptions you may have, such as POD-ness etc. are not necessarily true for the base class subobject.


An alternative approach, and one whose behaviour is well defined is to make 'foo' a member of 'bar' and to provide a conversion operator where it's necessary.

class bar {
   int my_bar() { 
       return ret_foo( foo_ ); 

   // This allows a 'bar' to be used where a 'foo' is expected
   inline operator foo& () {
     return foo_;

  foo foo_;
share|improve this answer
I suspect that this would be due to virtual inheritance. – bk1e Sep 24 '08 at 14:49
The problem is, I don't believe that the standard actually limits the place that it can happen. – Richard Corden Sep 24 '08 at 16:13
Richard, that quote applies regardless of whether you are using structs or classes, or some funky mix. All that says is that the compiler can change the underlying layout of the object how it sees fit. This doesn't break anything. – Derek Park Sep 24 '08 at 16:17
But a POD struct must have a very specific layout. If the compiler changes that layout then the C code may not work? Am I missing something? – Richard Corden Sep 25 '08 at 7:40

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