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I have a structure to represent strings in memory looking like this:

typedef struct {
    size_t l;
    char   *s;
} str_t;

I believe using size_t makes sense for specifying the length of a char string. I'd also like to print this string using printf("%.*s\n", str.l, str.s). However, the * precision expects an int argument, not size_t. I haven't been able to find anything relevant about this. Is there someway to use this structure correctly, without a cast to int in the printf() call?

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are you not planning on null terminating the char*? If it's null terminated, I don't see what setting the precision to the length would get you in the first place. Beyond that, I think your choices are: cast or change your size_t to an int and just never allow it to be negative. –  Evan Teran Nov 10 '11 at 15:08
@EvanTeran The strings actually point to pieces within a larger buffer, so the null character is somewhere further. The size of an int is not a problem, as the strings are generally at most a few hundred bytes. What frustrates me is that even though size_t would fit this purpose nicely, C99 does not define a special precision modifier which accepts a size_t argument. –  Luci Stanescu Nov 10 '11 at 15:16

3 Answers 3

up vote 2 down vote accepted

You could do a macro

#define STR2(STR) (int const){ (STR).l }, (char const*const){ (STR).s }

and then use this as printf("%.*s\n", STR2(str)).

Beware that this evaluates STR twice, so be carefull with side effects, but you probably knew that already.


I am using compound initializers such that these are implicit conversions. If things go wrong there are more chances that the compiler will warn you than with an explicit cast.

E.g if STR has a field .l that is a pointer and you'd only put a cast to int, all compilers would happily convert that pointer to int. Similar for the .s field this really has to correspond to a char* or something compatible, otherwise you'd see a warning or error.

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Still a cast, but it does look better than casting at every step. Just wondering, how exactly is that compound initializer different than an explicit cast? GCC's docs mention that: "Compound literals for scalar types and union types are also allowed, but then the compound literal is equivalent to a cast." (gcc.gnu.org/onlinedocs/gcc/Compound-Literals.html) –  Luci Stanescu Nov 10 '11 at 22:46
@LuciStanescu, no not a cast, as I said, an implicit conversion. All casts are conversions but not all conversions are casts. The difference would be if you'd pass in a "STR" that has a field .l that would be a pointer and not an integer type. If it'd be a cast all compilers would happily convert. For a conversion most compilers would warn you. BTW same is true for the .s field, I'll edit my post. –  Jens Gustedt Nov 11 '11 at 7:58
Indeed, although GCC's manual mentions that for scalar types the compound initializer is equivalent to cast, it does complain if a non-interger type is passed. –  Luci Stanescu Nov 14 '11 at 14:18
You don't need to cast size_t to int. On 64 arch. both int and size_t are passed to printf as 8-byte arguments –  basin Nov 1 '12 at 6:23
@user447503, just wrong. The problem arises just for 64 bit architectures. Usually they have 32 bit int and 64 bit size_t. –  Jens Gustedt Nov 1 '12 at 7:42
printf("%.*s\n", (int)str.l, str.s)
//               ^^^^^ use a type cast


OK, I didn't read the question properly. You don't want to use a type cast, but I think, in this case: tough.

Either that or simply use fwrite

fwrite(str.s, str.l, 1, stdout);
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+1 for fwrite suggestion. Although I would probably go with fwrite(str.s, 1, str.l, stdout) and check the return value to see how many characters were actually written successfully. –  Nemo Nov 10 '11 at 15:50
The example printf() call I gave was really just an example and the question clearly specifies that the goal is to use size_t to specify a precision. If you're wondering why I don't like the fwrite suggestion: once you start having more complex constant strings, multiple str_t strings, numbers and use snprintf for building a message, it gets too annoying not to use the formatting functions. So I believe I'm stuck with the "tough" suggestion from your answer :-). But cheers! –  Luci Stanescu Nov 10 '11 at 15:55
@nemo: I thought of that but you then have to deal with a short return count > 0 whereas with my version, the return value is either 1 (success) or 0 (failure). According to the docs on fwrite() on my PC (Mac OS X), you only get a short count on a write error anyway, so you probably want to stop, no matter what at that point. –  JeremyP Nov 10 '11 at 16:35

There is no guarantee that the size_t is an int, or that it can be represented within an int. It's just part of C's legacy in not defining the exact size of an int, coupled with concerns that size_t's implementation might need to be leveraged to address large memory areas (ones that have more than MAX_INT values in them).

The most common error concerning size_t is to assume that it is equivalent to unsigned int. Such old bugs were common, and from personal experience it makes porting from a 32 bit to a 64 bit architecture a pain, as you need to undo this assumption.

At best, you can use a cast. If you really want to get rid of the cast, you could alternatively discard the use of size_t.

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Actually, there's a guarantee that size_t will never be equivalent to int; it might, though, be equivalent to unsigned int. (It must be unsigned; its size might or might not be the same as the size of int.) –  Jonathan Leffler Jan 8 '12 at 3:54

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