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I just learned about C, and I know this is a basic question, but I just can not figure out how I can solve this. For instance, I have a line of

printf("value :%d\n",var.value);

the format does not suit, as it shows error below

*format ‘%d’ expects type ‘int’, but argument 3 has type ‘uint32_t *'

I have already checked at this reference of cplusplus : cplusplus print ref

but it does not explicitly state how to print the value with the type is uint32_t * (likewise uint16_t).

Any explanation will very appreciated.

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What happens if you use "u" instead of "d"? –  rzetterberg Jun 23 '11 at 13:35
The real question is: why are you using uint32_t in the first place? Do you need an explicit range of 0 to 2147483647 and a range of 0 to [SOMETHING_LARGEISH] does not suit your requirements? –  pmg Jun 23 '11 at 13:48
@pmg: what would you suggest as "SOMETHING_LARGISH"? unsigned long? That might well be 64 bits on common platforms, so I'd pause before putting it in a structure I'll have a lot of (by "a lot", I mean millions). –  Steve Jessop Jun 23 '11 at 13:56
My suggestion is more along the lines of not abusing the C99 fixed width types: for some problems they are handy (a godsend, I'd say), for other problems they aren't needed (fixed-width types were never used between 1989 and 1999 in fact). SOMETHING_LARGISH could be UCHAR_MAX (255 or more) for OP needs –  pmg Jun 23 '11 at 14:05
@pmg: I'm not asking what you suggest not doing, I'm asking what one should do :-) In a hypothetical situation where I believe that 65535 is not large enough for my purposes, but 4G is, what type should I use? For max pedantry, uint_least32_t, but only because uint32_t is (just barely) optional. The only reason this "wasn't needed" prior to 1999 was that everyone who worried about this stuff could name their own type, and have a "porting header" to map it to something suitable. Now, for many purposes <stdint.h> replaces that porting header. This is a tool to use, not an "abuse". –  Steve Jessop Jun 23 '11 at 16:13

2 Answers 2

up vote 14 down vote accepted

You were trying to print a pointer to an uint32_t as an int. You have to do two things:

  1. dereference the pointer so you can print the uint32_t and not the pointer.
  2. use the correct printtf format specifier

The correct way to format an uint32_t is to use the macro PRIu32 , which expands to the format character as a string.

That is, you do

printf("%"PRIu32"\n", *var.value);

You're probably on a common platform where an unsigned int is the same as uint32_t, in which case you could just do:

printf("%u\n", *var.value);

(note, %u instead of your code that used %d , %u is for an unsigned int, while %d is for a signed int)

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I did not know that - does %u present any problems here? –  Steve Townsend Jun 23 '11 at 13:41
@Steve Townsend: "%u" always fetches an unsigned int from the stack, "%"PRIu32 always a uint32_t. The width of an unsigned int may vary from platform to platform, and might or might not be equal to the width of an uint32_t. So, "%u" doesn't present any problems if the width of the two types is identical... do you feel lucky today? –  DevSolar Jun 23 '11 at 13:47
@nos: Or bigger. Either way, you just trashed the stack. –  DevSolar Jun 23 '11 at 13:47
@DevSolar no, smaller integers passed in to variable argument function are promoted to (unsigned) int. So if an int was bigger, it'd mean an uint32_t is smaller, and it would then be promoted and there would be no problem. It is only a problem where uint32_t is bigger than an int. –  nos Jun 23 '11 at 13:57
Note that you need to #include <inttypes.h> to use PRIu32 and similar macros. Take a look at that header sometime, if you're already using uint32_t for portable code, you should be using the printf format specifiers from inttypes.h as well. –  tomlogic Jun 23 '11 at 16:31

If you want the pointer use %p,

printf("value :%p\n",var.value); 

If you want the dereferenced unsigned int value use

printf("value :%u\n",*(var.value)); 

This assumes that the value field in var is actually a pointer to uint32_t - that's what your warning text implies.

It's nice that you get a warning here - printf is not type-safe, so frequently misuse of the API just results in a sudden runtime malfunction (eg. crash or worse, undetected memory corruption).

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