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The C++ standards mentions that reinterpret_cast is implementation defined, and doesn't give any guarantees except that casting back (using reinterpret_cast) to original type will result in original value passed to first.

C-style casting of at least some types behaves much the same way - casting back and forth results with the same value - Currently I am working with enumerations and ints, but there are some other examples as well.

While C++ standard gives those definitions for both cast-styles, does it also give the same guarantee for mixed casts? If library X returns from function int Y() some enum value, can use any of above casts, without worrying what cast was used to convert initial enum to int in Y's body? I don't have X's source code, so I cannot check (and it can change with next version anyway), and things like that are hardly mentioned in documentation.

I know that under most implementations in such cases both casts behave the same; my question is: what does C++ standard say about such cases - if anything at all.

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C casting back and forth doesn't always result in the same value... (float)((int)3.141) will not give me 3.141 back. –  Xymostech Nov 14 '12 at 16:58
You can use static_cast to convert between ints and enums. –  Kerrek SB Nov 14 '12 at 17:01
@Xymostech I mean only types that behave properly under C-style casts. I know that C-style casting modifies values in some cases, but for those cases entire question is pointless. –  j_kubik Nov 14 '12 at 17:04
@KerrekSB Actually as I just learned, reinterpret_cast between int and enum causes "invalid cast" error - so it has to be static_cast. Thanks for info. –  j_kubik Nov 14 '12 at 17:26

3 Answers 3

up vote 4 down vote accepted

C++ defines the semantic of the C cast syntax in terms of static_cast, const_cast and reinterpret_cast. So you get the same guaranteed for the same operation whatever syntax you use to achieve it.

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reinterpret_cast can only be used for specific conversions:

  • Pointer to (sufficiently large) integer, and the reverse
  • Function pointer to function pointer
  • Object pointer to object pointer
  • Pointer-to-member to pointer-to-member
  • lvalue expression to reference

plus (conditionally) function pointer to object pointer and the reverse. In most cases, the converted value is unspecified, but there is a guarantee that a conversion followed by its reverse will yield the original value.

In particular, you can't use reinterpret_cast to convert between integer an enumeration types; the conversion must be done using static_cast (or implicitly, when converting an unscoped enumeration to an integer type), which is well defined for sufficiently large integer types. The only possible problem is if the library did something completely insane such as return reinterpret_cast<int&>(some_enum);

A C-style cast will perform either a static_cast or a reinterpret_cast, followed by a const_cast, as necessary; so any conversion that's well-defined by static_cast is also well-defined by a C-style cast.

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No, reinterpret_cast is not equivalent to a C style cast. C style casts allow casting away const-volatile (so it includes the functionality of const_cast) not allowed in reinterpret_cast. If static_cast is allowed between the source and destination types, it will perform a static_cast which has different semantics than reinterpret_cast. It the conversion is not allowed, it will fallback to reinterpret_cast. Finally there is a corner case where the C cast cannot be represented in terms of any of the other casts: it ignores access specifiers.

Some examples that illustrate differences:

class b0 { int a; };
class b1 { int b; };
class b2 { int c; };
class d : public b0, public b1, b2 {};
int main() {
   d x;
   assert( static_cast<b1*>(&x) == (b1*)&x );
   assert( reinterpret_cast<b1*>(&x) != (b1*)&x ); // Different value
   assert( reinterpret_cast<b2*>(&x) != (b2*)&x ); // Different value, 
                                                   // cannot be done with static_cast
   const d *p = &x;
   // reinterpret_cast<b0*>(p);                    // Error cannot cast const away
   (b0*)p;                                         // C style can
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There is also const_cast, so error you commented out can be "fixed" using it. Anyway, I think you misunderstood me. My question was not if those can be exchanged in a given line of code, but if value casted to another type by one of them (say C-style) is guaranteed to give the same value when casted-back to original type using the other (any of _cast C++ operator). –  j_kubik Dec 1 '12 at 17:05
@j_kubik: I understood the question, maybe I was not clear in the answer. reinterpret_cast is not equivalent to C cast, neither is static_cast, or const_cast. In the cases where they are equivalent, the inverse cast can be applied, in some other cases the inverse cast is even implicit, but you cannot blindly do reinterpret_cast back for precisely the examples I provided (in particular the second and third asserts. To the question: Can I cast back ignoring what the original cast is? the answer is No, you cannot –  David Rodríguez - dribeas Dec 1 '12 at 17:16
If I know both original and casted type that some opaque libX casted between, then I know what kind of cast they used: C-style works in predictable ways, and what you mentioned above limits their freedom to use _cast casts, usually leaving only one option(at leas only sane one, reinterpret_cast between pointers is possible but usually used only if static_cast is not possible). Having that cleared, I want to know if I can cast back without knowledge which of above two was used. I am not interested in generic case if cast-incompatibility, because I operate on already known types. –  j_kubik Dec 1 '12 at 18:06
@j_kubik: I am not sure you realize what you are asking, the answer is still the same: there are cases where if you do the incorrect cast it will not do the right thing. That is the answer to "I want to know if I can cast back without knowledge of. Without knowledge, you don't know what the library did, you don't know what you need to undo. From a practical point of view you can assume and it will probably work, but there is no guarantee at all. –  David Rodríguez - dribeas Dec 2 '12 at 22:29

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