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I found myself in a situation where i know what type something is. The Type is one of three (or more) levels of inheritance. I call factory which returns B* however T is either the highestlevel of a type (if my code knows what it is) or the 2nd level.

Anyways i did a static_cast in the template which is the wrong thing to do. My question is WHEN can i static cast safely? Is there ever such a time? I did it in this case because i rather get compile errors when i accidentally have T as something wacky which (has happened and) dynamic cast ignores (and returns null). However when i know the correct type the pointer is not adjusted causing me to have a bad pointer. I'm not sure why static cast is allowed in this case at all

When can i use static_cast for down casting safely? Is there ever a situation? Now it seems like it always is wrong to use a static_cast (when the purpose is to down cast)

Ok i figured out how to reproduce it.

#include <iostream>
struct B { virtual void f1(){} };
struct D1 : B {int a;};
struct D2 : B {int a, b; };
struct DD : D1, D2 {};

int main(){
void* cptr = new DD(); //i pass it through a C interface :(
B*  a = (B*)cptr;
D2* b = static_cast<D2*>(a); //incorrect ptr
D2* c = dynamic_cast<D2*>(a); //correct ptr
std::cout << a << " " <<b << " " <<c;
share|improve this question
Please be more specific. Can you provide a code example? I think I know roughly what you are saying, but I'm not sure. In general it is "safe" to do a static_cast for upcasting if you are casting to the proper type. –  Vaughn Cato Oct 17 '11 at 4:26
@Vaughn: I cant really show the code (its a problem i ran into at work) but one of the problems is multiple inheritances and using classes as an interface –  acidzombie24 Oct 17 '11 at 4:35
Required reading for everyone using the word "upcast": An upcast is a cast from a derived type to one of its base classes –  Ben Voigt Oct 17 '11 at 4:41
Can you give a code example that demonstrates the issue though? Something new that you come up with just for demonstration. –  Vaughn Cato Oct 17 '11 at 4:44
@VaughnCato: Done. –  acidzombie24 Oct 17 '11 at 5:02

4 Answers 4

up vote 5 down vote accepted

A cross-cast:

struct Base1 { virtual void f1(); };
struct Base2 { virtual void f2(); };
struct Derived : Base1, Base2 {};

Base1* b1 = new Derived();
Base2* b2 = dynamic_cast<Base2*>(b1);

requires use of dynamic_cast, it cannot be done with static_cast (static_cast should have caused a compile-time error). dynamic_cast will also fail if either base class is not polymorphic (the presence of virtual functions is NOT optional).

See this explanation on MSDN

share|improve this answer
ah ha +1. I'd like to mention in my situation it didnt cause a compile error sadly. –  acidzombie24 Oct 17 '11 at 4:48
I'll just add as long as base hasnt been converted to a void pointer nor reinterpret_cast has been use which causes pointer adjustment confusion especially when there are ambiguity. Then static_cast is safe to use. Assuming there is compile error and the type being cast to is indeed the correct type –  acidzombie24 Oct 17 '11 at 7:48
@acidzombie24: No, static_cast is not safe to use when casting with multiple inheritance, even if from void*. –  Ben Voigt Oct 17 '11 at 14:00

If Derived has Base as a public (or otherwise accessible) base class, and d is of type Derived*, then static_cast<Base*>(d) is an upcast.

This is always technically safe.

And generally unnecessary, except for cases where you have hiding (shadowing) of method.

Cheers & hth.,

share|improve this answer
Wrong. When using multiple inheritance D1 and D2 can inherit from base. Your condition would be true but a static cast to Dn can be incorrect and was the problem –  acidzombie24 Oct 17 '11 at 4:31
It's always unnecessary to use a cast to upcast, this conversion will take place implicitly where needed. –  Ben Voigt Oct 17 '11 at 4:34
@acidzombie24: Sorry, what you described isn't a cross-cast. A cross-cast is when you dynamic_cast from Base1 to Base2, given an object that actually inherits both Base1 and Base2, but Base1 and Base2 are themselves unrelated. But Alf is absolutely correct about upcasting. I don't think you meant to ask about upcasting, but rather downcasting. –  Ben Voigt Oct 17 '11 at 4:39
@acidzombie24: Further reading of your question suggests that you might be talking about cross-casting (effectively a down-cast followed by an upcast) and just didn't explain it well. You really need to provide at least a distilled example of what you mean, even if it isn't your actual code. –  Ben Voigt Oct 17 '11 at 4:46
When I answered this question the title was "When is static cast safe for upcasting?", and there was no code. I'm not interested in chasing SO history changes... –  Cheers and hth. - Alf Oct 17 '11 at 6:16

The problem lies with this line:

B*  a = (B*)cptr;

If you convert something to a void pointer, you must convert it back to the same type that it was converted from first before doing any other casts. If you have a situation where multiple different types of objects have to go through the same void pointer, then you need to first cast it down to a common type before converting to a void pointer.

int main(){
  B *bptr = new DD; // convert to common base first (won't compile in this case)
  void* cptr = bptr; // now pass it around as a void pointer
  B*  a = (B*)cptr; // now back to the type it was converted from
  D2* b = static_cast<D2*>(a); // this should be ok now
  D2* c = dynamic_cast<D2*>(a);  // as well as this
  std::cout << a << " " <<b << " " <<c;

EDIT: If you only know that cptr points to some object which is of a type derived from B at the time of the cast, then that isn't enough information to go on. The compiler lets you know that when you try to convert the DD pointer to a B pointer.

What you would have to do is something like this:

int main(){
  void* cptr = new DD; // convert to void *
  DD* a = (DD*)cptr; // now back to the type it was converted from
  D2* b = static_cast<D2*>(a); // this should be ok now, but the cast is unnecessary
  D2* c = dynamic_cast<D2*>(a);  // as well as this
  std::cout << a << " " <<b << " " <<c;

but I'm not sure if that is acceptable in your actual usage.

share|improve this answer
Did you run your code? new DD will actually cause a compile error stating its ambiguous. I am positive b will still be an incorrect pointer since it doesnt know it must adjust (it doesn't recognize the actual type thus known D1 comes before D2) –  acidzombie24 Oct 17 '11 at 5:20
@acidzombie24: No I didn't, and you're right. What you are trying to do isn't going to work, and the compiler is letting you know that. –  Vaughn Cato Oct 17 '11 at 5:22
I've added a little more to hopefully give something useful. –  Vaughn Cato Oct 17 '11 at 5:34
I dont know the actual type (thus casting to DD isnt an option) but the question is when is static_cast safe to use. It definitely isnt in my case. All i figured out is not when there is Multiple inheritance and only if i know what the actual derived type is. Which is almost never. –  acidzombie24 Oct 17 '11 at 5:40
It isn't so much that the static_cast isn't safe, it is the casting to a void pointer and then back to a different type that isn't safe. If the void pointer wasn't involved, it wouldn't be an issue. –  Vaughn Cato Oct 17 '11 at 5:45

You can safely upcast if you are sure that the object is actually an instance of that class.

class Base {};
class Derived1 : public Base {};
class Derived2 : public Base {};

int main()
    Base* b = new Derived1;

    Derived1* d1 = static_cast<Derived1*>(b); // OK
    Derived2* d2 = static_cast<Derived2*>(b); // Run-time error - d isn't an instance of Derived2
share|improve this answer
What i said to Alf. Even if your case is true (and is true for my scenario) it still leads to problems (consider when using multiple inheritances and classes being used as 'interface') –  acidzombie24 Oct 17 '11 at 4:33
The upcast is Base* d = new Derived1;, and it's impossible for a Derived1 to not be an instance of Base. –  Ben Voigt Oct 17 '11 at 4:36
Gah I always get up and downcast confused. I don't really consider an upcast very similar to the other casts anyway. –  Ayjay Oct 17 '11 at 5:00
@acidzombie24: What problems? –  Ayjay Oct 17 '11 at 5:00

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