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I can across reinterpret casts, and most of the time it was brought up, a warning was given, so I am wondering if there are other alternatives (or clean implementations of reinterpret cast of course)

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Unless you want to copy, reinterpret_cast sounds like the right solution here. –  R. Martinho Fernandes Aug 24 '12 at 14:55
To copy? As in the contents? That is exactly what I want to do, unless I am misunderstanding your question. –  Louis93 Aug 24 '12 at 15:03
Btw, the reason C++ doesn't allow the conversion without reinterpret_cast is that if char is signed and not 2's complement, then for negative numbers ((unsigned char)*reinterpret_cast<char*>(a)) != *a: that is, reading the data as char is different from reading it as unsigned char. But really this rule is inherited from C, since in C++ there are problems around non-2's complement that IIRC mean char would need to be unsigned. And anyway, there are no non-2's complement C++ implementations, or at least none you'll ever use, so having noted this you can forget about it... –  Steve Jessop Aug 24 '12 at 16:07

2 Answers 2

up vote 3 down vote accepted

You don't say what warning was given or what the problem was, but casting to char* with reinterpret_cast should work without warnings:

unsigned char *a;
const char *b = reinterpret_cast<char*>(a);
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It depends on what you're trying to do.

If you just want to access the contents as char, then a simple static_cast or using the value in a context where a char is expected will do the trick.

If you need to pass the buffer to a function expecting a char const*, a reinterpret_cast is about the only solution.

If you want a string, using the pointers into the buffer will be fine:

bufferToString( unsigned char const* buffer, size_t length )
    return std::string( buffer, buffer + length );

or you can copy into an existing string:

myString.assign( buffer, buffer + length );
myString.append( buffer, buffer + length );
//  etc.

Any string function (or algorithm, like std::copy) which takes two iterators can be used. All that is required is that dereferencing the iterator result in a type which converts implicitly to char, which is the case of unsigned char.

(You cannot use the string functions which take a buffer address and a length, as these are not templates, and require the buffer address to have type char const*. And while unsigned char converts implicitly to char, unsigned char* requires a reinterpret_cast to convert it to char*.)

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