Look at the following C++ code

class Base1 {  
    virtual ~Base1();  
    virtual void speakClearly();  
    virtual Base1 *clone() const;  
    float data_Base1;  

class Base2 {  
    virtual ~Base2();  
    virtual void mumble();  
    virtual Base2 *clone() const;  
    float data_Base2;  

class Derived : public Base1, public Base2 {  
    virtual ~Derived();  
    virtual Derived *clone() const;  
    float data_Derived;  

The 《Inside of C++ Object Model 》4.2 says that the virtual table layout of class Base1,Base2 and Derived is like this: enter image description here

enter image description here

My question is :

The virtual table of the Base1 subObject of class Derived contains Base2::mumble.Why?I know Derived class shared this virtual table with Base1,so I think the function of Base2 should not appear here.Could someone tell me why? Thx.

  • It doesn't hurt to add additional entries to the Derived vtable after those of Base1. It could be done for efficiency. Given a Derived* pointer, it is cheaper to call virtual ffunctions via the Base1/Derived vtable than via the Base2 vtable. – n. 'pronouns' m. Apr 10 '13 at 9:12
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    Note: the way things are presented seems screwed up, in the Itanium ABI the _vptr member is actually first; and likewise Base1 is the first member of Derived. – Matthieu M. Apr 10 '13 at 9:12
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    @MatthieuM. In all of the compilers I've seen, the _vptr (pseudo-)member has been the first thing in the class, but the standard obviously allows it anywhere. – James Kanze Apr 10 '13 at 9:19
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    @JamesKanze: Yes, which is why I precised the ABI I was talking about (which is also the only ABI I am slightly acquainted with); but it seems to me that for the optimization to be relevant, you want to make finding the address of Base1 (and thus the _vptr) as easily as possible; ideally with no arithmetic involved. – Matthieu M. Apr 10 '13 at 9:28
  • @MatthieuM. You'd like to make finding the address of all of the _vptr as easy as possible:-). Seriously, for Intel, there is an argument for putting the _vptr at the end of the first base class, and maintaining a pointer to it as the pointer to object. (There's no rule, or at least there didn't used to be, that a Derived* must point to the first byte of the object.) Intel has an addressing mode where the offset to the base pointer may be a single byte, in the range of -128...127. Putting the pointer to the object into the middle of the object means that you can use this more. – James Kanze Apr 10 '13 at 9:37

Well, first of all, I'll remind everyone that the design of the solution to implement polymorphism is an ABI decision outside of the Standard. For example, MSVC and the Itanium ABI (followed by gcc, clang, icc, ...) have different ways to implement this.

With that out of the way, I think that this is an optimization for lookup.

Whenever you have a Derived object (or one of its descendant) and lookup the mumble member, you do not need to actually find out the Base2 subobject but can directly act from the Base1 subobject (whose address coincides with Derived subobject, so no arithmetic involved).

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    More fundamentally, the compiler has added the functions of Derived behind the functions of Base1, so that the same vtable can be used for both. And mumble is also a function of Derived (by inheritance), not just of Base2. It's an "optimization", but it's an optimization based on the fundamentals of the language. I can't imagine any compiler not doing it. – James Kanze Apr 10 '13 at 9:16
  • Is it really a useful optimization? To call mumble, you still need to find the Base2 subobject for its this pointer, so you didn't save any work. The only possible improvement is if you frequently check the address of mumble without calling it, or if it improves the cache hit rate on the first subobject vtable. – Useless Apr 10 '13 at 9:18
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    @Useless: I must admit I am not sure it's that efficient; however it does remove a data-dependency. You can now compute the address of mumble and the address of the Base2 subobject in parallel. Therefore, the CPU can compute mumble, start loading code from memory, and in parallel compute Base2 subobject. – Matthieu M. Apr 10 '13 at 9:26
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    I suppose it is simply a typo I guess that vtable for Derived is actually contigious with 2 segments representing Base1 and Base2 vtables, so to call any virtual function from the Derived viewpoint (if we know that the object is indeed Derived) one need the same pointer arithmetics (an offset from the beginning of the whole Derived vtable) I also find another typo: Derived::~clone() instead of Derived::clone() (just before the questioned line) – user396672 Apr 10 '13 at 9:34
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    @user396672: that is not a mistake. Derived and Base1 have different v-tables, however the v-ptr in Base1 can point to the table of Derived because the table Base1 is a prefix of that of Derived (and Base1 will only ever use the prefix it knows about). – Matthieu M. Apr 10 '13 at 14:51

At runtime when you get:

    Base2 b2;
    Base1* b1_ptr = (Base1*)&b2;
    b1_ptr->mumble();    // will call Base2::mumble(), this is the reason.

Then the Base2::mumble() needs to be invoked! Take care that mumble() is the ONLY virtual method that was overriden in hierarchy. (Even, You may think that clone() is overriden too but that returns different type among classes then it is another signature).

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    I'm confused, wouldnt this be a compiler error, since Base1 has no function named mumble? – Verdagon Sep 4 '16 at 0:42

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