1


Is it possible in C++ to convert an array of chars to an object like so:

char* bytes = some bytes...
MyObject obj = (MyObject)(bytes);

?
How do I have to define the cast operator?
thanks :)

9

You probably want to define a constructor for MyObject:

class MyObject {
public:
  explicit MyObject(const char* bytes);
  ...
};

MyObject::MyObject(const char* bytes) {
  // do whatever you want to initialize "MyObject" from the byte string
}

and then you can use it:

char* bytes = some bytes...
MyObject obj = MyObject(bytes);  // this will work
MyObject obj(bytes);             // so will this
  • 1
    You can also do MyObject obj = bytes;. I'd suggest using the explicit keyword on the constructor to prevent that, it can avoid some surprising bugs. – Mark Ransom Mar 25 '11 at 17:50
  • If you go this way, don't forget the rule of three (en.wikipedia.org/wiki/Rule_of_three_%28C%2B%2B_programming%29). You should add a destructor and copy assignment operator in there as well. – Demian Brecht Mar 25 '11 at 17:55
  • Yeah, explicit is a very good idea for single-parameter constructors. I've updated my answer. – Tim Mar 25 '11 at 18:04
  • Note that the constructor of std::string is not explicit and does what we expect. – Eddy Pronk Mar 25 '11 at 22:32
4

I can see two possibilities here. If you have data that you know represents the target type, you can use a reinterpret_cast to get them treated as an object of that type:

MyObject *obj = reinterpret_cast<MyObject *>(bytes);

If you want to create an object of the specified type in the designated memory, you use the placement new operator to construct an object at the specified address:

char *bytes = whatever;

MyObject *obj = new(bytes) MyObject;

When you're finished using the object, you don't delete it, you directly invoke the dtor:

obj->~MyObject();

Note that for this to work, you need to ensure that (if nothing else) bytes points to data that's aligned correctly for the destination type.

  • Yes. This will construct a new object at that location. If you have an already constructed object there (perhaps the pointer was already casted from MyObject * and you are just casting it back now?) then larsmans' answer is the way to go. – T.E.D. Mar 25 '11 at 17:46
  • @T.E.D: No, not really. As noted in my edited answer, if you know what's there really represents an object of the specified type, you want to use a reinterpret_cast, not a static_cast. – Jerry Coffin Mar 25 '11 at 17:48
  • @Jerry: I just spotted the error in my answer myself and corrected it. – Fred Foo Mar 25 '11 at 17:49
  • Right. That could be the case either because you happen to know that some other code already constructed an object there, or because it is a POD object. – T.E.D. Mar 25 '11 at 17:53
  • @T.E.D.: "because it is a POD object" doesn't really mean/help much. It still falls pretty much under the first provision -- it'll only be a POD object because some other code already constructed it there. – Jerry Coffin Mar 25 '11 at 17:57
3

If the bytestring actually represents a valid object of type MyObject, you can get a MyObject* with

reinterpret_cast<MyObject *>(bytes)

(This is very unlikely to work though, unless the char* is the result of casting a pointer to a properly constructed MyObject.)

  • 1
    +1, but the part in parentheses is important enough that the parentheses should be removed. – T.E.D. Mar 25 '11 at 17:44
  • Isn't this UB? Doesn't it violate the strict aliasing rule? – ThomasMcLeod Oct 26 '14 at 22:37
  • @ThomasMcLeod char* is exempt from that rule, so only if another non-char*, non-MyObject* pointer/reference also references bytes. – Fred Foo Oct 27 '14 at 9:56
  • 1
    Casting to char * & dereferencing the result is exempt from aliasing. There's no allowance for the opposite. But as long as the pointers aren't dereferenced in the same scope - which surely there's no reason to do - then aliasing doesn't even enter into the equation. This is the same as/follows from the rule allowing 'round trip' casting of pointers & ensuring casting A * => B * => A * preserves the same A * on both sides. If one couldn't even cast the addresses of objects without aliasing, this wouldn't be possible. Aliasing only refers to dereferenced pointers ie lvalues. – underscore_d Aug 17 '16 at 22:56
  • "unless the char* is the result of casting a pointer to a properly constructed MyObject" => +1. The Standard is very clear that only the 'round trip' form of reinterpret_cast between incompatible pointer types has defined results. Anything else is UB and hoping desperately that your compiler does what you think it should. The proper way to convert arbitrary bytes to some object - assuming it's is trivially copyable, as it must be - is to allocate an instance and memcpy() from the char buffer into it. Heck, good optimisers can render to the same code as a cast, but without invoking UB – underscore_d Aug 17 '16 at 23:10
-1

I like Jerry Coffin and larsman's answers, depending on wheather the location in question already has a constructed object in it or not.

There is one further wrinkle though. If the type of MyObject happens to qualify as a POD class, then it might be OK to just use a reintreprent cast on the pointer like larsman suggested, as no constructor is really required for the object.

I say "might" because it is remotely possible that your platform uses different representations for char * and class pointers. Most I've used don't do that though.

  • Shouldn't this have been a comment on one of those answers? Anyway, address types don't matter: the cast will convert as needed. The issues is whether the Standard allows reinterpreting arbitrary bytes (address-converted) as some object type T, possibly with a stricter alignment than char that the compiler can't verify. I'm quite convinced it does not allow this - unless the char * in question originally came from a valid allocated T * - and that anything else is formally UB. See this comment: stackoverflow.com/questions/5436092/… – underscore_d Aug 17 '16 at 23:02
  • (copying comment for posterity) Even if trivially copyable types - the superset of PODs that qualify per the Standard to be copyable to array of char & back & keep the same value - don't in reality emit any constructor code, the Standard still demands that such objects have a well-defined lifetime. This presumably means the compiler must see code saying 'Create a struct T in this piece of memory', otherwise all bets are off & means it can emit unsafe code or optimise the attempt away. That most compilers allow arbitrary casting, as you very vaguely recommend here, doesn't make it not UB. – underscore_d Aug 17 '16 at 23:15
  • It would have had to be a comment on all three of them (which this software doesn't allow for really), plus I had some additional material addressing the question directly. I'll admit the current standard is much better about this than the pre-C++11 standard I was operating under when I composed this post. – T.E.D. Aug 18 '16 at 19:54

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.