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Basically what I want to do is, depending on the some variable, to cast a void pointer into a different datatype. For example (the 'cast' variable is just something in order to get my point across):

void* ptr = some data;
int temp = some data;
int i = 0;

...

if(temp == 32)      cast = (uint32*)
else if(temp == 16) cast = (uint16*)
else                cast = (uint8*)

i = someArray[*((cast)ptr)];

Is there anything in C++ that can do something like this (since you can't actually assign a variable to be just (uint32*) or something similar)? I apologize if this isn't clear, any help would be greatly appreciated.

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Why not just do the cast while doing the test? if (temp==32) index = (uint32*)ptr; //etc –  Tal Pressman May 27 '09 at 1:06
    
Yeah, that's the obvious way, but if I did it that way I would need hundreds of if...elses. if(temp==32)i = someArray[*index32];else if(temp==16)i = someArray[*index16]; etc. I was hoping there was some easy way to do it, as above. –  Joel May 27 '09 at 1:13
    
You still need hundreds of if/elses? –  1800 INFORMATION May 27 '09 at 1:17
    
I apologize, in the program I would be doing, it would take hundreds. That's why I'm trying to find a solution. –  Joel May 27 '09 at 1:20

7 Answers 7

up vote 5 down vote accepted

The "correct" way:

union MyUnion
{
     uint32 asUint32;
     uint16 asUint16;
     uint8 asUint8;
}

uint32 to_index(int size, MyUnion* ptr) 
{  
    if (size== 32) return ptr->asUint32;  
    if (size== 16) return ptr->asUint16;
    if (size== 8) return ptr->asUint8;  
}

i = someArray[to_index(temp,ptr)]

[update: fixed dumb typo]

share|improve this answer
    
Do you mean 'size' rather than 'temp' in the three conditionals? –  Steve Fallows May 27 '09 at 1:46
    
Whoops...yeah... fixed. –  James Curran May 27 '09 at 2:31

Perhaps boost::any would be of interest.

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or boost.variant. There are almost always better alternatives to using void pointers in C++. –  jalf May 27 '09 at 1:14

Clearly, boost::variant is the way to go. It already stores a type-tag that makes it impossible for you to cast to the wrong type, ensuring this using the help of the compiler. Here is how it works

typedef boost::variant<uint32_t*, uint16_t*, uint8_t*> v_type;

// this will get a 32bit value, regardless of what is contained. Never overflows
struct PromotingVisitor : boost::static_visitor<uint32_t> {
    template<typename T> uint32_t operator()(T* t) const { return *t; }
};

v_type v(some_ptr); // may be either of the three pointers

// automatically figures out what pointer is stored, calls operator() with
// the correct type, and returns the result as an uint32_t.
int i = someArray[boost::apply_visitor(PromotingVisitor(), v)];
share|improve this answer

A cleaner solution:

uint32 to_index(int temp, void* ptr) {
  if (temp == 32) return *((uint32*)ptr);
  if (temp == 16) return *((uint16*)ptr);
  if (temp == 8) return *((uint8*)ptr);
  assert(0);
}

i = someArray[to_index(temp,ptr)]
share|improve this answer

It sounds like maybe you're after a union, or if you're using Visual Studio a _variant_t. Or maybe typeinfo() would be helpful? (To be honest, I'm not quite sure exactly what you're trying to do).

As far as the casts, you can cast just about anything to anything -- that's what makes C++ dangerous (and powerful if you're really careful).

Also, note that pointer values are 32-bit or 64-bit in most platforms, so you couldn't store a uint64 in a void* on a 32-bit platform.

Finally, maybe this is what you want:

void* p = whatever;

uint32 x = (uint32)p;

or maybe

uint32 source = 6;

void* p = &source;

uint32 dest = *((uint32*)p);

void* p =
share|improve this answer

If you were locked into using a void ptr, and absolutely needed to call [] with different types:

template <typename cast_to>
inline
int get_int_helper(someArray_t someArray, void* ptr) {
   return someArray[*static_cast<cast_to*>(ptr)];
}

int get_int(someArray_t someArray, void* ptr, int temp) {
   switch ( temp ) {
      case 32: return get_int_helper<uint32>(someArray,ptr);
      case 16: return get_int_helper<uint16>(someArray,ptr);
      default: return get_int_helper<uint8>(someArray,ptr);
   }
}

However, as others have pointed out; there are probably better/other ways to do it. Most likely, whatever array you have doesn't have multiple operator[], so it doesn't need the different types. In addition, you could be using boost::variant to hold a discriminated union of the types so you wouldn't have to pass around temp

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It seems you want to store the "cast" function that takes a void* and produces an unsigned integer. So, make it a function:

std::map<int, boost::function<unsigned(*)(void*)> casts;
template <typename T> unsigned cast(void* v) { return *(T*)v; }
casts[32] = cast<uint32>;
casts[16] = cast<uint16>;
casts[8] = cast<uint8>;
casts[128] = MySpecialCastFromDouble;

void* foo = getFoo();
unsigned bar = casts[16](foo);
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