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During the development of a Qt application for Embedded Linux (where improvements in performance are really welcomed), I came across the necessity to cast from a array of chars to a given struct. Till now, that was being done with the code:

MyStruct* const my_struct = reinterpret_cast< MyStruct* >(qbytearray.data());

while data() being a member of the Qt class QByteArray that transforms the byte array to a char*. In doing this, tough, it makes a deep copy of the data, which is not good given the extra processing. Since I want to only read the data (the struct casted will never be used to edit), the alternative method QByteArray::constData() is preferable, since it doesn't make a deep copy, but in contrast returns a const char* instead of char*.

The question is: how I should do the casting now? I tried to use const_cast without success.

MyStruct* const my_struct = const_cast< MyStruct* >(qbytearray.constData()); // compile error

const MyStruct* const my_struct = const_cast< MyStruct* >(qbytearray.constData()); // compile error

and reinterpret_cast also didn't work because "it casts away the qualifiers", which is expected. The closest way I was capable of doing this was by first casting to char* and later to the struct:

MyStruct* const my_struct = (MyStruct*)const_cast< char* >(qbytearray.constData()); 

but I get the feeling that not only this is "circle around" the problem, but also that the casting from char* to MyStruct* will ultimately sacrifice the processing improvement I was desiring.

So how do this casting correctly?

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Const cast followed by reinterpret cast (or vice versa) –  Brian May 8 '14 at 20:37
reinterpret_cast<const MyStruct *>(...)? –  twalberg May 8 '14 at 20:43
T * const tvar makes a pointer to memory that can be edited, but the pointer can't ever be reassigned to point to anything else-- basically a reference. const T * tvar or T const * tvar makes a pointer that can be reassigned to point to other things, but you can't edit what it points to. const T * const tvar makes a pointer that can't be used to edit what it points to and can't be reassigned to point to anything else-- effectively a const reference. –  Rob K May 8 '14 at 21:15
@Brian that would be at least quite non-stylish, although probably working. Thanks! –  Momergil May 9 '14 at 12:38
@RobK Yes, I'm aware of the differences between const positions, but thanks for the comment anyway! –  Momergil May 9 '14 at 12:39

1 Answer 1

up vote 3 down vote accepted

This has nothing to do with const_cast. You are not trying to cast away const-ness.

const MyStruct* my_struct = reinterpret_cast<const MyStruct* >(qbytearray.constData()); 
share|improve this answer
Good point :D - I just wonder; what If I did want to get a non-constant my_struct after the cast? In this particular situation there is no reason for not having a const MyStruct* my_struct, but one may want to have a non-constant casted struct even if not pretending to edit it in some situations. –  Momergil May 9 '14 at 12:37
@Momergil Well, in that case, you could just const_cast<>() the const pointer you got from the reinterpret_cast<>(). However, beware that there's const, and there's const... If the memory pointed to by that address is const only because some level of API deemed it should be, you'll probably be ok. However, if it's const because it lives in a read-only memory segment or some similar reason, casting away const can be ... problematic. And there's generally not an easy 100% correct way to tell the difference... –  twalberg May 9 '14 at 15:44
@twalberg thanks for you comments! –  Momergil May 14 '14 at 20:01

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