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


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

void *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

3 Answers 3

up vote 7 down vote accepted

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;


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- 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.)


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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