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I teach a C++ programming class and I've seen enough classes of errors that I have a good feeling for how to diagnose common C++ bugs. However, there's one major type of error for which my intuition isn't particularly good: what programming errors cause calls to pure virtual functions? The most common error I've seen that causes this is calling a virtual function from a base class constructor or destructor. Are there any others I should be aware of when helping debug student code?


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others maybe calling it from some member functions of the base class, what else could be there? but then that is not an error! :| –  Nawaz Jan 6 '11 at 7:26
That's really what my question is. :-) There may not be another way to trigger a pure virtual call, and my main question is whether or not there is one. –  templatetypedef Jan 6 '11 at 7:27

4 Answers 4

up vote 15 down vote accepted

"The most common error I've seen that causes this is calling a virtual function from a base class constructor or destructor."

When an object is constructed, the pointer to the virtual dispatch table is initially aimed at the highest superclass, and it's only updated as the intermediate classes complete construction. So, you can accidentally call the pure virtual implementation up until the point that a subclass - with its own overriding function implementation - completes construction. That might be the most-derived subclass, or anywhere in between.

It might happen if you follow a pointer to a partially constructed object (e.g. in a race condition due to async or threaded operations).

If a compiler has reason to think it knows the real type to which a pointer-to-base-class points, it may reasonably bypass the virtual dispatch. You might confuse it by doing something with undefined behaviour like a reinterpret cast.

During destruction, the virtual dispatch table should be reverted as derived classes are destroyed, so the pure virtual implementation may again be invoked.

After destruction, continued use of the object via "dangling" pointers or references may invoke the pure virtual function, but there's no defined behaviour in such situations.

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Here are a few cases in which a pure virtual call can happen.

  1. Using a dangling pointer - the pointer isn't of a valid object so the virtual table it points to is just random memory which may contain NULL
  2. Bad cast using a static_cast to the wrong type (or C-style cast) can also cause the object you point to to not have the correct methods in its virtual table (in this case at least it really is a virtual table unlike the previous option).
  3. DLL has been unloaded - If the object you're holding on to was created in a shared object file (DLL, so, sl) which has been unloaded again the memory can be zeroed out now
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Isn't three just a way of getting one? –  GManNickG Jan 6 '11 at 7:35
The purecall handler is often a special function, not NULL. –  ephemient Jan 6 '11 at 7:36
@GMan, pretty much yes, perhaps it doesn't deserve a separate bullet point but it's easier to diagnose than the general case –  Motti Jan 6 '11 at 7:40
@ephemient, I don't know about that, AFIK using VC generates a pure virtual call for this scenario. –  Motti Jan 6 '11 at 7:41
@Motti: Funny you mention that. VC defines a function _purecall (which just aborts with diagnostic) and places it into the vtable slots for pure virtual methods. It's not the quite same as following a function pointer to NULL. –  ephemient Jan 6 '11 at 15:41

Calling pure virtual functions from the constructor(s) and destructor of classes derived from abstract classes, would still be a source of error.

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How can you create an abstract class? –  Motti Jan 6 '11 at 7:32
@Motti : classes which define virtual functions? –  Nawaz Jan 6 '11 at 7:34
@Motti: You create an abstract class by defining at least one pure virtual function in it. The class is abstract because it cannot be instantiated--only a derived class that implements the pure virtual functions can be instantiated. –  Jonathan Wood Jan 6 '11 at 7:37
@Johanathan : only "pure" abstract classes cannot be instantiated; abstract classes do have defintions of virtual functions; that is the reason they are not called "pure" abstract classes. –  Nawaz Jan 6 '11 at 7:40
@Nawaz: remove the first sentence and you have a decent answer. And "calling pure virtual functions from the constructor and destructor of classes derived from abstract classes" might be more clear (and correct) for me. There is no such thing as "pure" abstract classes, abstract classes in C++ contain pure virtual functions and can't be instantiated. –  stefaanv Jan 6 '11 at 8:19

This can happen for example when the reference or pointer to an object is pointing to a NULL location, and you use the object reference or pointer to call a virtual function in the class. For example:

std::vector <DerivedClass> objContainer;  
if (!objContainer.empty()) 
   const BaseClass& objRef = objContainer.front();  
// Do some processing using objRef and then you erase the first
// element of objContainer
const std::string& name = objRef.name();  
// -> (name() is a pure virtual function in base class, 
// which has been implemented in DerivedClass).

At this point object stored in objContainer[0] does not exist. When the virtual table is indexed, no valid memory location is found. Hence, a run time error is issued saying "pure virtual function called".

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