I have a variable of type Blah.

I want to cast it to char[sizeof(blah)], without copying.
I need the type cast to be strong enough to instantiate a template that expects char[N].

I've tried many things, but i can't quite get it.
I want something like this to work correctly:

class Blah {
 int a;   

template <typename T>
void foo (T& a) 
    //Not an array

template <int N>
void foo (char(&a)[N]) 
    //an array!

Blah b;
foo(b); //not an array
foo((char[sizeofBlah])b); //hopefully treated as an array

You can do this with reinterpret_cast<char (&)[sizeof b]>(b), but I do not recommend it.

| improve this answer | |
  • sizeof Blah ... the type ... thanks, that what i was looking for. – Yochai Timmer Mar 19 '13 at 16:45
  • 7
    @Yochai You seem to have no idea how C++ works. Lots of illegal code compiles. “works as intended” – maybe on your specific compiler / computer combination. That’s not enough for robust software. – Konrad Rudolph Mar 19 '13 at 16:49
  • 3
    @Eric: In terms of pointers to the base type of that reference. That means char (*)[N]. And that pointer type is not allowed to alias anything at all. What you're probably thinking is char*, which can alias anything. As far as I can see, you're invoking undefined behaviour. – Xeo Mar 19 '13 at 16:54
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    @YochaiTimmer: That text appears to be from here. That web site does not define C++. The ISO/IEC 14882 C++ standard defines C++. – Eric Postpischil Mar 19 '13 at 17:54
  • 1
    An lvalue expression of type T1 can be cast to the type “reference to T2” if an expression of type “pointer to T1” can be explicitly converted to the type “pointer to T2” using a reinterpret_cast. That is, a reference cast reinterpret_cast<T&>(x) has the same effect as the conversion *reinterpret_cast<T*>(&x) with the built-in & and * operators. The result is an lvalue that refers to the same object as the source lvalue, but with a different type. No temporary is created, no copy is made, and constructors (12.1) or conversion functions (12.3) are not called. – Yochai Timmer Mar 20 '13 at 5:08

You can’t perform such a cast, that doesn’t make sense. What you can do is get the address of the object and reinterpret the address as a byte address:

char* const buf = reinterpret_cast<char*>(&obj);

That should fulfil your requirements, but beware of using the terminology “cast to char[]” because it obfuscates the actual operation that is taking place.

You can also interpret the address as the starting address of a fixed-sized buffer, of course:

using buffer_t = char[sizeof(Blah)];
buffer_t* pbuf = reinterpret_cast<buffer_t*>(&obj);

But notice that you are still using a pointer to the buffer here.

| improve this answer | |
  • 1
    It would make sense if you want to treat the struct as an array, and cast it as such (for serialization in example). – Yochai Timmer Mar 19 '13 at 16:29
  • 2
    @YochaiTimmer Again, I disagree. You are not (only) performing a cast. However, see my updated answer. – Konrad Rudolph Mar 19 '13 at 16:31
  • @YochaiTimmer, it works until your struct contains only integral types. For pointers/complex objects, it wouldn't work. Therefore, use of reinterpret_cast for serialization is a way to disaster. – hate-engine Mar 19 '13 at 16:35
  • @hate-engine I know that, this is intended for simple structs. – Yochai Timmer Mar 19 '13 at 16:44

The cleanest way would be to add it as an operation into the class:

class Blah {
    int a;
    void serialize(char *output) { output[0] = a; /* add others as needed */ }

Blah blah;
char buffer[sizeof(Blah)];

This will allow you to explicitly see what's going on and centralize the code in case you need to change it later.

Edit: The serialize interface is not very elegant (or very safe) in my example, but my point is that you should add it as a method.

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  • The Blah class should be any class, not something i wrote. i can't add methods to it. But in general i'd agree with this approach. – Yochai Timmer Mar 19 '13 at 16:43
  • If it's not performance-critical code, the cleanest way would be to add iostream operator<< and operator>> implementations for your class. This would have the advantage of giving you a whole range of functionality for free (boost::lexical_cast would work for you, as would i/o using std::istream_iterator and std::ostream_iterator). – utnapistim Mar 19 '13 at 19:45

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