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No. From [dcl.constexpr]/3 (7.1.5, "The constexpr specifier"): The definition of a constexpr function shall satisfy the following requirements: — it shall not be virtual


D inherits from B1 andB2. Since B1 is inherited from first the B1 part of the object is going to be constructed first and then the B2 part of the object will be created then D. So what you are seeing is the difference of where those parts are in memory when you cast a pointer of the derived type to the base type. b1d and ddd have the same address as they ...


Rect::draw() is not final and rect is a pointer, so it uses dynamic binding. But the compiler may use de-virtualization as optimization if all variables are in local scope and all types are known.


Your perception of this is partially true. This pointer refers to the address of the object which of course is part of a class. To be more formal this is a pointer to the vtable of that class. But in the case you inherit from multiple classes. So what should this point to? Say you have this: class concrete : public InterfaceA, public InterfaceB A ...


Base::increase(); calls the base method on this (no temporary object involved). You may even write it like that if it is clearer for you this->Base::increase();


In Sutter and Alexandrescu's C++ Coding Standards, you can find the following item: Consider making virtual functions nonpublic, and public functions nonvirtual. 68 I believe that, even though your question did not specifically pertain to the public/private aspects, the rationale there carries here. A non-virtual method should say "externally" ...


At some point, you need to be able to tell the compiler which implementation you want to use. One way to do so this way : A / \ B C \ / D struct A { virtual void f(); }; struct B : public A { void f() override; }; struct C : public A { void f() override; }; struct D : public B,C { }; int test(int num) { D d; d.f(); // undefined ...


vtable is not necessarily slower. For example on x86 in a unix shared object, position independent code has been produced (gcc3, gcc4) using a hack to load ebx with the current eip. This value was used to find a jump table for any static functions. Calling a dynamic function could be performed by querying the this pointer directly, and was faster (if no ...


class A defines print as not virtual and it's allowed. No warnings here, it's valid code. You're saying that print of A is not virtual, the function that has to be executed is A::print


In fact, we have wrong redefinition of method, which depends on used pointer It's only "wrong" according to your intentions, which the compiler cannot know. The code as written is perfectly valid. Virtual dispatch is opt-in, and you've not opted-in.


You're overall understanding of the vtable is correct. I think what the book is trying to say is that the compiler might, and generally will, optimise the rect->draw to be called without going to the vtable. In this case, the compiler can see that the rect is pointing to a Rectangle object. In most production code, this will rarely be the case.

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