void* is a useful feature of C and derivative languages. For example, it's possible to use void* to store objective-C object pointers in a C++ class.

I was working on a type conversion framework recently and due to time constraints was a little lazy - so I used void*... That's how this question came up:

Why can I typecast int to void*, but not float to void* ?


BOOL is not a C++ type. It's probably typedef or defined somewhere, and in these cases, it would be the same as int. Windows, for example, has this in Windef.h:

    typedef int                 BOOL;

so your question reduces to, why can you typecast int to void*, but not float to void*?

int to void* is ok but generally not recommended (and some compilers will warn about it) because they are inherently the same in representation. A pointer is basically an integer that points to an address in memory.

float to void* is not ok because the interpretation of the float value and the actual bits representing it are different. For example, if you do:

   float x = 1.0;

what it does is it sets the 32 bit memory to 00 00 80 3f (the actual representation of the float value 1.0 in IEEE single precision). When you cast a float to a void*, the interpretation is ambiguous. Do you mean the pointer that points to location 1 in memory? or do you mean the pointer that points to location 3f800000 (assuming little endian) in memory?

Of course, if you are sure which of the two cases you want, there is always a way to get around the problem. For example:

  void* u = (void*)((int)x);        // first case
  void* u = (void*)(((unsigned short*)(&x))[0] | (((unsigned int)((unsigned short*)(&x))[1]) << 16)); // second case
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    BOOL is a typedef'd signed char in ObjC. – Josh Caswell Jan 11 '13 at 7:28
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    +1 for "[...] When you cast a float to a void*, the interpretation is ambiguous. Do you mean the pointer that points to location 1 in memory? or do you mean the pointer that points to location 3f800000 (assuming little endian) in memory?" – Nawaz Jan 11 '13 at 8:05
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    Nitpick: 0000803f is little-endian byte order; 3f800000 is what it looks like as an int regardless of endianness. And int to void* is not strictly OK; see my answer. – Potatoswatter Jan 11 '13 at 8:14
  • Wait, what does unsigned short have to do with anything? Your second case doesn't appear to work. See my answer for the "correct" implementation. – Potatoswatter Jan 11 '13 at 8:18
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    @thang The new expression is also wrong; | means OR not catenation. Anyway 16-bit numbers have no relation to anything here. Indeed you are correct about my code potentially crashing, but it's the most common way to do a wrong thing and it will work on any platform with Objective-C. Hmm, I can fix it to support 64-bit better. Anyway, the best way is to call memcpy, not improvise an expression. And once you get that far, might as well declare a char[4] or char[8] not a void*. – Potatoswatter Jan 11 '13 at 8:51

Pointers are usually represented internally by the machine as integers. C allows you to cast back and forth between pointer type and integer type. (A pointer value may be converted to an integer large enough to hold it, and back.)

Using void* to hold integer values in unconventional. It's not guaranteed by the language to work, but if you want to be sloppy and constrain yourself to Intel and other commonplace platforms, it will basically scrape by.

Effectively what you're doing is using void* as a generic container of however many bytes are used by the machine for pointers. This differs between 32-bit and 64-bit machines. So converting long long to void* would lose bits on a 32-bit platform.

As for floating-point numbers, the intention of (void*) 10.5f is ambiguous. Do you want to round 10.5 to an integer, then convert that to a nonsense pointer? No, you want the bit-pattern used by the FPU to be placed into a nonsense pointer. This can be accomplished by assigning float f = 10.5f; void *vp = * (uint32_t*) &f;, but be warned that this is just nonsense: pointers aren't generic storage for bits.

The best generic storage for bits is char arrays, by the way. The language standards guarantee that memory can be manipulated through char*. But you have to mind data alignment requirements.

  • Re: 2nd paragraph: You can do this more portably with uintptr_t. – asveikau Jan 11 '13 at 7:20
  • @asveikau uintptr_t is big enough to hold a pointer value. He's trying to use void* to hold an integer value, which is the other way around. According to the language specs, that's allowed to crash. C++11 even adds provisions for the machine checking that pointer values were computed properly, as a means of increased reliability. – Potatoswatter Jan 11 '13 at 7:24
  • Ah, OK. You're right. Should have paid more attention before commenting. – asveikau Jan 11 '13 at 7:25
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    personally I find void* has no place in a proper C++ program but that is just me. – Anders Jan 11 '13 at 8:09
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    @ssg :D thank you my minion :D – Anders Jan 11 '13 at 14:12

Standard says that 752 An integer may be converted to any pointer type. Doesn't say anything about pointer-float conversion.

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