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I have seen people suggest using static_cast<SomeType*>(static_cast<void*>(p)) rather than reinterpret casting.

I don't understand why this is better, can someone explain?

For the sake of argument here is an example scenario where reinterpret_cast is needed:

DWORD lpNumberOfBytes;
ULONG_PTR lpCompletionKey;
LPOVERLAPPED lpOverlapped;
GetQueuedCompletionStatus(myHandle, &lpNumberOfBytes, &lpCompletionKey, &lpOverlapped, 0);
if(lpCompletionKey == myCustomHandlerKey){
    auto myObject = reinterpret_cast<MyObject*>(lpOverlapped);  //i know this is really a MyObject
}

This is what I have heard suggested:

auto myObject = static_cast<MyObject*>(static_cast<void*>(lpOverlapped));

Edit: I origionally started my question with In the comments section "asdf" suggests using static_cast instead of reinterpret_cast here http://blogs.msdn.com/b/vcblog/archive/2014/02/04/challenge-vulnerable-code.aspx but in retrospect the fact that my question came from there is irrelevant.

share|improve this question
    
reinterpret_cast is almost always implementation defined and what happens isn't always guaranteed to be portable. – PlasmaHH Feb 5 '14 at 9:52
1  
@PlasmaHH That’s a bit misleading. reinterpret_cast has very well defined semantics, they are just very limited. But in this case the semantics seem to be covered (I say this without having looked at the code, based on OP’s statement of lpOverlapped). But reading asdf’s comment is an entirely different case. – Konrad Rudolph Feb 5 '14 at 9:54
4  
When you are casting from a pointer type to another pointer type, reinterpret_cast is specified in terms of static_cast<cv ToType*>(static_cast<cv void*>(p)) in C++11. They are both the same. – Simple Feb 5 '14 at 10:08
1  
On another note, if you wanted to make sure the conversion is safe you can use something like this and then use pointer_cast<MyObject>(lpOverlapped). – Simple Feb 5 '14 at 10:22
up vote 7 down vote accepted

§5.2.10 describes the legal mappings that reinterpret_cast can perform, and specifies that “No other conversion can be performed”.

The conversion relevant for your example is /7:

A pointer to an object can be explicitly converted to a pointer to a different object type. When a prvalue v of type “pointer to T1” is converted to the type “pointer to cv T2”, the result is static_cast<cv T2*>(static_cast<cv void*>(v)) if both T1 and T2 are standard-layout types … and the alignment requirements of T2 are no stricter than those of T1. [emphasis mine]

The result of the conversions of any other pointer to object types is “unspecified”.1

This is one of two reasons why reinterpret_cast is dangerous: its conversion is only well-defined for a subset of pointer to object types, and compilers usually offer no diagnostics about accidental misuse.

The second reason is that the compiler doesn’t even check whether the mapping you are trying to perform is legal in the first place, and which of the many (semantically completely different) mappings is going to be performed.

Better to be explicit and tell the compiler (and the reader) which the intended conversion is that you want to perform. That said, asdf’s comment isn’t quite correct, because not all conversions that you might want to perform via reinterpret_cast are equivalent to using static_cast<void*> followed by a static_cast to the target type.


1 Aside: In a nutshell (and slightly simplified), a “standard layout type” is a type (or array of type) which doesn’t have virtual functions or mixed member visibility, and all its members and bases are also standard layout. The alignment of a type is a restriction on the addresses in memory at which it may be located. For example, many machines require that doubles are aligned at addresses divisible by 8.

share|improve this answer
    
+1 for quoting standard and explaining most important bits... I'd give +2 for listing and explaining all individual requirements if you did and I could. see, even I forgot alignment in my answer for example. – qarma Feb 5 '14 at 10:27
    
+1 and accepted, thank you very much! – PorkyBrain Feb 5 '14 at 10:49
    
When is the double static_cast defined outside of the case where reinterptret is defined and the identity double cast? – Yakk Feb 5 '14 at 12:26
    
@Yakk I’m not exactly sure what you mean but if I understand you correctly, the double static_cast via void*` is more restrictive rather than more general than a reinterpret_cast. That is the reason for preferring it: its semantics are thus clearer. – Konrad Rudolph Feb 5 '14 at 14:10
    
@KonradRudolph reinterpret_cast says "if condition, then it is equivalent to static_cast<T*>(static_cast<void*>(X))" Now, that double-static_cast, if written out explicitly, is valid if either condition, or if X is a T* (even if the condition does not hold!). Are there any other cases for which that double static cast results in defined behavior? – Yakk Feb 5 '14 at 15:00

asdf explained it quite well, even if concisely in the linked post.

because the compiler doesn't know CustomImage derives from Image at this point in the program.

Personally I can't be bothered to download rubbish from msdn just to dig in and answer the question. After all it is a coding challenge, you are supposed to figure it out.

My rules for casting in C++ are:

  1. use C++ style casts xx_cast<T*> and not C-style (T*), for explicit is better than implicit.
  2. only use reinterpret cast when you really really mean it.
  3. if you do use reinterpret_cast<T*> make sure that cast/uncast are exact mirror, e.g.:

.

T* obj = ...;
void* tmp = reinterpret_cast<void*> obj;
T* ref = reinterpret_cast<T*> tmp;  // T* obj --> T* ref

Here, you must make sure that obj and ref are same exact type, including const qualifiers, class derivation, alignment, type of memory (embedded), absolutely anything you can think of.

share|improve this answer
    
Can you elaborate on "application/reapplication must be exact mirror"? Do you mean the spec assures that we should have obj == ref? Or do you mean we ourselves should be careful to use reinterpret_cast only for types such that obj == ref and any other usages might lead to an undefined or implementation-defined behavior? – nodakai Feb 5 '14 at 10:46
    
does it make more sense, or should work on it a bit more? – qarma Feb 5 '14 at 11:56

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