14

Consider:

class base
{
    base();
    virtual void func();
}

class derived : public base
{
    derived();
    void func();
    void func_d();
    int a;
}


main
{
    base *b = new base();
    sizeof(*b); // Gives 4.
    derived * d = static_cast<derived*>(b);
    sizeof(*d); // Gives 8- means whole derived obj size..why?
    d->func_d();
}

In the above code I did downcasting of a base pointer which points to base object to derived class pointer. I am wondering how the derived pointer has the whole derived class object. I can call the derived class function (declared in derived class only). I did not get the concept here.

  • 8
    Please make an effort to post compilable code. – Neil Butterworth Jun 12 '11 at 16:12
20

Using static_cast to cast an object to a type it doesn't actually have yields undefined behavior. The symptoms of UB vary widely. There's nothing that says UB can't allow the derived member function to be called successfully (but there's nothing that guarantees that it will, so don't count on it).

Here is the rule for downcasting using static_cast, found in section 5.2.9 ([expr.static.cast]) of the C++ standard (C++0x wording):

A prvalue of type "pointer to cv1 B", where B is a class type, can be converted to a prvalue of type "pointer to cv2 D", where D is a class derived from B, if a valid standard conversion from "pointer to D" to "pointer to B" exists, cv2 is the same cv-qualification as, or greater cv-qualification than, cv1, and B is neither a virtual base class of D nor a base class of a virtual base class of D. The null pointer value is converted to the null pointer value of the destination type. If the prvalue of type "pointer to cv1 B" points to a B that is actually a subobject of an object of type D, the resulting pointer points to the enclosing object of type D. Otherwise, the result of the cast is undefined.

  • Got it. Thanks Ben – G Mann Jun 12 '11 at 17:04
  • 1
    I don't understand, irrespective of the type of cast, shouldn't this be not working at all? I mean, derived class may have methods and data members of which its parent class has no idea, so why isn't the downcasting throwing an error? – SexyBeast Jan 12 '15 at 7:52
  • 1
    @Cupidvogel: Because undefined behavior does not mean "guaranteed to throw an exception, or produce an error in any way". UB means there are no guarantees at all. – Ben Voigt Jan 12 '15 at 15:18
  • Oh okay, so yo are saying that even if we call a method declared in the derived class from the pointer to the base class (reinterpreted to derived class), there is no way compiler will detect this, and any exception will be caught at run-time? – SexyBeast Jan 12 '15 at 16:41
  • 1
    @Cupidvogel You probably know by now, but for a checked cast, you can use dynamic_cast<> which allows to detect the mismatch (either by throwing an exception for reference types or by returning a null pointer for pointer types). – Tilman Vogel Apr 2 '15 at 12:42
9

The only cast that does runtime checking is dynamic_cast<>(). If there is any possibility that a cast will not work at runtime then this cast should be used.

Thus casting from leaf->root (up casting) static_cast<>() works fine.
But casting from root->leaf (down casting) is dangerous and (in my opinion) should always be done with dynamic_cast<>() as there will be dependencies on run-time information. The cost is slight, but always worth paying for safety.

  • 3
    It should be noted that dynamic_cast is safer than static_cast only if the base class defines virtual functions. – Ben Voigt Jun 12 '11 at 17:13
  • 1
    @Ben: If you are down-casting it is a compile time error if the type are not polymorphic (ie have virtual function). If you are up-casting then it is safe as it is the equivalent of a static_cast anyway. – Martin York Jun 12 '11 at 17:45
  • 1
    Which means that dynamic_cast can't globally replace static_cast, as your answer seems to suggest. (nor even all downcasts, consider the CRTP) – Ben Voigt Jun 12 '11 at 18:01
  • 2
    @Ben: Which means where it can't you get a compile time error. Which also suggests (but does not confirm) that your class should be polymorphic in the first place. I see no harm in a compile time error. Its a infinitely preferable to run-time UB. If you are down-casting there is probably something wrong with your design (or it is something that needs to be pointed out (and dynamic_cast makes it stick out)). Either way dynamic_cast will make the design safer; either a compile time error or a runtime-check that is easy to spot. – Martin York Jun 12 '11 at 18:19
  • 1
    So yes it can be done. Yes it is an optimization for the experienced to you. Beginners should be safe and drive with their seatbelt on until they get the code reviewed by an expert that says yes this is an OK place to drive without your seatbelt because I (the expert) have vetted the situation for anomalies that you don't understand. – Martin York Apr 18 '16 at 21:14
6

sizeof exists at compile-time. It neither knows nor cares that at run-time, your base object doesn't point to a derived. You are attempting to influence compile-time behaviour with a run-time variable, which is fundamentally impossible.

  • Won't sizeof try to find the actual size of the object, that is, going through all the bits of the object and determine the size, rather than assuming the size of from the class of the associated object (this object belongs to Class D, which contains 2 ints, one float and one double, its size must be...). If it is the first, it should see that even though it is of type D, it doesn't have any associated space for method func_d, and thus shouldn't count its storage, because it is not there. – SexyBeast Jan 12 '15 at 8:00
  • 1
    @AttitudeMonger What was your question? All instances of a class share the same size. sizeof evaluates to a compile-time constant, not a runtime 'measurement'. Member functions do not occupy space in class instances. Virtual pointers might, and that's where sizeof-based adjustment comes in - which, again, doesn't stop you invoking UB. – underscore_d Apr 18 '16 at 11:14

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