I have something similar to this in my code:

#include <iostream>
#include <cstdlib>

struct Base
  virtual int Virtual() = 0;

struct Child
  struct : public Base
    virtual int Virtual() { return 1; }
  } First;

  struct : public Base
    virtual int Virtual() { return 2; }
  } Second;

int main()
  Child child;
  printf("ble: %i\n", ((Base*)&child.First)->Virtual());
  printf("ble: %i\n", ((Base*)&child.Second)->Virtual());

  return 0;

I'd expect this to give this output:

ble: 1
ble: 2

and it does so, when compiled under GCC (3.4.5 I believe).

Compiling and running this under Visual Studio 2008 however, gives this:

ble: 2
ble: 2

What is interesting, is that if I give the Base-derived structs names (struct s1 : public Base), it works correctly.

Which behavior, if any, is correct? Is VS just being prissy, or is it adhering to the standard? Am I missing something vital here?

  • 1
    Works as expect in gcc. Though to be blunt I was it expecting it not to compile. Commented Jan 17, 2010 at 20:01
  • 2
    VS adhering to the standard? Ha ha ha ha ha...
    – wallyk
    Commented Jan 17, 2010 at 20:04
  • 3
    Hey, VC++ has gotten much better at that.
    – GManNickG
    Commented Jan 17, 2010 at 20:05
  • VS is pretty good at sticking to the standard. Off-hand I can only think of a couple of features it doesn't support. Two-phase name lookup, exception specifications and the export keyword. And the two last ones are generally considered Bad Ideas anyway. (Last I checked, the plan for C++0x was to deprecate exception specifications, and most compilers pretend that export never existed) Commented Jan 17, 2010 at 20:13
  • In most cases where VC breaks from the standard today its for historic reasons and would break large existing code-bases if they changed the defaults... notably the extensions that were neccessary for COM. Commented Jan 17, 2010 at 20:14

3 Answers 3


It appears this is a bug in VS 2008, possibly because it overwrites or ignores the vtable for the first unnamed class in favor of the vtable for the second since the internal names are identical. (When you name one explicitly, the internal names for the vtables are no longer identical.)

As far as I can tell from the standard, this should work as you expect and gcc is right.

  • (+1) well written explanation. Commented Jan 18, 2010 at 0:37

It is visible how MSVC is getting it wrong from the debugging symbols. It generates temporary names for the anonymous structs, respectively Child::<unnamed-type-First> and Child::<unnamed-type-Second>. There is however only one vtable, it is named Child::<unnamed-tag>::'vftable' and both constructors use it. The different name for the vtable surely is part of the bug.

There are several bugs reported at connection.microsoft.com that are related to anonymous types, none of which ever made it to "must-fix" status. Not the one you found though, afaict. Maybe the workaround is just too simple.


I can confirm this is a known bug in the VC compiler (and it repos in VC10); the two anonymous classes are incorrectly sharing a vtable.

Anonymous structs are not part of the C++ standard.

Edit: Anonymous structs are kind of an ambiguous term. It can mean two things:

class outer
    struct {
        int a;
        int b;
    } m_a; // 1

    struct {
        int c;
    };     // 2

    union {
        int d;
        int e;
    };     // 3

1 is what is going on here, a better name than anonymous struct would be "unnamed struct". The struct type itself doesn't have a name, but the object does (m_a).

2 is also known as an anonymous struct, and isn't legal C++. There is no object name, and the idea is you could access the field 'c' directly on objects of type outer. This compiles only because of a compiler extension in Visual Studio (will fail under /Za)

3 Anonymous unions, by contrast, are legal C++.

I confused the two, because here we're calling #1 an "anonymous struct", and wires in my brain crossed with #2.

  • Unnamed classes are standard C++ and are sometimes called "anonymous" instead of "unnamed".
    – Roger Pate
    Commented Jan 18, 2010 at 0:46
  • @Roger, What I said is correct. I said anonymous structs ; not anonymous classes. Anonymous classes are part of the C++ standard. Anonymous structs are a C thing, and not part of C++ (although they are widely supported vendor extension, including VC). Commented Jan 18, 2010 at 0:51
  • "A structure is a class defined with the class-key struct ..." [9/4] Structs are classes.
    – Roger Pate
    Commented Jan 18, 2010 at 0:53
  • See open-std.org/jtc1/sc22/wg14/www/docs/n1289.htm. This is the C++ Standards Committee statement on the topic. Note the part which says "ANSI C++ anonymous structs: NO". Google the topic and you'll see a lot of discussion around it, and the consensus is they are not part of the standard. Commented Jan 18, 2010 at 0:58
  • And from MSDN: msdn.microsoft.com/en-us/library/z2cx9y4f.aspx, "A Microsoft C extension...C++ does not allow anonymous structures." Commented Jan 18, 2010 at 1:05

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