# The size of void

If I would want to operate on pointers which point to one byte should I use void* or char*, because I heard that

``````sizeof(char)
``````

isn't always 1 byte, and what about void*? If I do

``````void *p
++p
``````

will it point everywhere one byte further?

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Where did you hear that a char isn't one byte in size? Tell them they were wrong. –  Mr Lister Mar 24 '12 at 8:29
@MrLister: many confuse C bytes with 8-bit bytes. They don't have to be the same thing. –  Alexey Frunze Mar 24 '12 at 8:31
Just so we're in the clear, neither the OP nor me mentioned 8 bits! A char is a byte. If you increment a char pointer, it points to the next byte. If you increment a void pointer, you get nasal demons. –  Mr Lister Mar 24 '12 at 8:41

In C pointer arithmetic is not defined for void pointers. Pointer arithmetic is intrinsically tied to the size of the pointed type. And for `void *` the size of the pointed type is unknown.

To see how pointer arithmetic works for different objects, try this:

``````int obj[5];
int *ip = obj;
char *cp = (char *)obj;

ip++;
cp++;

printf("%p\n%p\n", ip, cp);
``````

However, if the compiler does support it, pointer arithmetic on void pointers works the same as on char pointers.

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That is the interesting thing, in GCC it is defined but I read that is only some GCC extension, and what about sizeof(char), is it always 1 byte? I just need to have pointer that after incrementing will be 1 byte further, and possibly this behaviour should be platform independent. –  Andna Mar 24 '12 at 8:29
@Andna Yes, `sizeof(char)` is by definition 1. –  cnicutar Mar 24 '12 at 8:29
@Andna: The size of none of the types is defined as such(exception is `char` which is defined as `1`, C99-6.5.3.4).Generally you should not assume size of types to be something specific & that is the purpose that `sizeof` exists & you should use it. It is well defined that If you have an array of particular type and a pointer pointing to it then incrementing the pointer will make it point to the next element in the array.ofcourse, it does not apply to `void` pointers. –  Alok Save Mar 24 '12 at 8:32
Thanks for there reference. –  Andna Mar 24 '12 at 9:14

For this, I think you should use `<stdint.h>`. It defines the following types (among others):

``````uint8_t   Always 1 byte (assuming 8-bit bytes, as is nearly ubiquitous)
uint16_t  Always 2 bytes
uint32_t  Always 4 bytes
uint64_t  Always 8 bytes
``````

If you know what you're doing, and want to pointer-arithmetic your way around memory, then do it with a `uint8_t*` pointer. (Yes I just used that as a verb, BTW.)

Example:

``````uint8_t* p = <Some Base Addr>;
while (*p)   // p points to non-null byte
{
*p ^= 0xA5;   // XOR the byte with A5
p++;          // Increment to the next byte.

*(uint32_t*)p = 0xDEADBEEF;  // Write a 32-bit (DWORD)
((uint32_t*)p)++;            // Increment p by 4 bytes
}
``````
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These are 8-bit bytes, not C bytes. –  Alexey Frunze Mar 24 '12 at 8:33
Comment added.. –  Jonathon Reinhart Mar 24 '12 at 8:35
your example has issues: it violates strict aliasing and will actually raise an exception on architectures which don't access mis-aligned memory –  Christoph Mar 24 '12 at 9:38

By definition, a `char` takes a single byte of storage, so if you want to do address calculations based on byte sizes, use `char *`. While the C standard requires `void *` to have the same representation as `char *`, `void *` carries no size information and thus can't be used for pointer arithmetics.

If you actually want to get at the bits of an object's representation, use `unsigned char` as `char` might be signed and is not specified to be padding-free.

Now, a comment on Jonathon's answer:

While the fixed-width integer types from `stdint.h` are also padding-free and you can use them as decribed on specific architectures (there's nothing wrong with platform-specific code if you don't need to be protable), in general you only know their bit-widths, not their byte sizes as `CHAR_BIT` can be different from 8 (16 and 32 are 'common' for some parts of the embedded world). However, byte == octet is required for POSIX systems.

Fixed-width integer types of specific sizes don't need to exist: In particular, if `CHAR_BIT` isn't a power of 2 (yes, such architectures exist), none of the types `uint8_t`, `uint16_t`, `uint32_t`, `uint64_t` can exist

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