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In a lot of standard open source code, I see in various places different pointer types being used like :

uint32 fooHash (uint8 *str, uint32 len)

What I don't get is the following: - Why would you want to declare int as uint32, uint8? All of this would run in the userspace itself, so why not just leave as uint itself? Wouldn't portability be an issue later on?

  • Also, if you want to run the opensource code on 32bit system, why have a pointer as uint8 *ptr?
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Because of ptr + 1 (or ptr[1]). Internally, the compiler must know how many bytes to advance from ptr (1 byte for uint8*, 4 bytes for uint32*, 42 bytes for struct fortytwo*, ...) – pmg Jan 9 '13 at 21:15
up vote 3 down vote accepted

Also, if you want to run the opensource code on 32bit system, why have a pointer as uint8 *ptr?

uint8_t is the size of the thing the pointer points to, not the size of the pointer itself; the type of the expression *ptr is uint8_t. The type of the object ptr is uint8_t *, which is as big as the system needs it to be (32 bits, 64 bits, whatever).

The base type matters when computing pointer arithmetic. Given a pointer declaration

T *p;

the expression p + i evaluates to the address of the i'th element of type T after p. If T is int, then p + i gives us the address of the i'th integer following p. If T is struct humongous, then p + i gives us the address of the i'th humongous structure following p. For example:

#include <stdio.h>
#include <stdint.h>

int main(void)
  uint8_t  *p0 = (uint8_t *)  0x00004000;
  uint32_t *p1 = (uint32_t *) 0x00004000;

  printf("p0 = %p, (p0 + 1) = %p\n", (void *) p0, (void *)(p0 + 1));
  printf("p1 = %p, (p1 + 1) = %p\n", (void *) p1, (void *)(p1 + 1));

  return 0;

yields the output

p0 = 0x4000, (p0 + 1) = 0x4001
p1 = 0x4000, (p1 + 1) = 0x4004

Pointers need not all be the same size, or have the same representation. For example, in a Harvard architecture, instructions and data are stored in separate areas of memory and may have different sized busses, so object pointers (int *, char *, float *) may be one size (say 8 bits) and function pointers (int (*foo)(void)) may be a different size (say 16 bits). Similarly, on a word-addressed architecture, a char * may be a couple of bits wider than other pointer types to specify an offset into the word.

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thanks but I have another basic question...can't believe I am asking something so basic but I am really confused. so with uint8_t *p0 case, we have p0 = 0x4000 and (p0 +1 ) = 0x4001 on a 32bit architecture. Now, p0 and (p0+1) are supposed to differ by 1byte or 8 bits. but 0x4000 would be 0100 0000 0000 0000 and 0x4001 would be 0100 0000 0000 0001 I am failing to understand how they differ by 8 bits or 1 byte : ( : ( What am I missing here? – user999755 Jan 9 '13 at 23:31
@user999755: Remember that 0x4000 and 0x4001 are addresses, and that x86 is a byte-addressed architecture. 0x4000 is the address of one byte, and 0x4001 is the address of the next byte. – John Bode Jan 10 '13 at 11:51

The type of the pointer refers to the datatype it contains, not the size of the pointer itself. All pointers are in fact the same size. ([*] But see the comments below)

If you have a uint8*, then the pointer refers to an array of uint8 values. This is not the same as uint32*, which refers to an array of uint32 values.

To answer the other side of your question... The reason that these types are made explicit is because not all compilers agree on the size of an int. It's a portability thing.

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"All pointers are in fact the same size." - in practice, mostly (but not always). But the Standard doesn't specify that. – user529758 Jan 9 '13 at 21:12
Pointers to data rarely differ in size (but as H2CO3 said, this isn't specified by standard). Pointers to data and pointers to function (or member function) however... – milleniumbug Jan 9 '13 at 21:27
Thanks for clarifying. I am used to thinking of all pointers being the same size as void*... Maybe that's misguided. =) – paddy Jan 9 '13 at 21:30

Not all data is meant to be stored as signed int. A uint8* is useful for many purposes: strings, binary data (eg a network packet or a piece of a file).

Sometimes you just need uint8 because the range of values you are going to store there resides in [0,256[.

Don't forget that we are not talking about the type of the pointer but about the type of the pointed data. A pointer is a pointer (which will be of correct size according to the architecture) whatever type it points to.

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Is there value in using a uint8 as opposed to a char? – Haz Jan 9 '13 at 21:57
If you are storing unsigned values there there is for sure. – Jack Jan 9 '13 at 22:05

It all depends on the hardware and compiler that you are using.

if you just use an int you can get different sizes. You can also get different sizes on unix vs windows.

All that is required of the compiler is from C99 standard

sizeof(short) <= sizeof(int) <= sizeof(long) < sizeof(long long)

Here is the int type sizes (bits) for Windows platforms:

Type           C99 Minimum     Windows 32bit
char           8               8
short          16              16
int            16              32
long           32              32
long long      64              64

you should take a look at

the following are guaranteed to be the size they they are named for

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