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I have a variable of type size_t, and I want to print it using printf(). What format specifier do I use to print it portably?

In 32-bit machine, %u seems right. I compiled with g++ -g -W -Wall -Werror -ansi -pedantic, and there was no warning. But when I compile that code in 64-bit machine, it produces warning.

size_t x = <something>;
printf( "size = %u\n", x );

warning: format '%u' expects type 'unsigned int', 
    but argument 2 has type 'long unsigned int'

The warning goes away, as expected, if I change that to %lu.

The question is, how can I write the code, so that it compiles warning free on both 32- and 64- bit machines?

Edit: I guess one answer might be to "cast" the variable into an unsigned long, and print using %lu. That would work in both cases. I am looking if there is any other idea.

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casting to unsigned long is the best option if your libc implementation doesn't support the z modifier; the C99 standard recommends size_t not to have an integer conversion rank greater than long, so you're reasonably safe –  Christoph Mar 26 '10 at 16:10
possible duplicate of Platform independent size_t Format specifiers in c? –  maxschlepzig Mar 1 '14 at 13:29

11 Answers 11

up vote 137 down vote accepted

Use the z modifier:

size_t x = ...;
ssize_t y = ...;
printf("%zu\n", x);  // prints as unsigned decimal
printf("%zx\n", x);  // prints as hex
printf("%zd\n", y);  // prints as signed decimal
share|improve this answer
+1. Is this a C99 addition or does this apply to C++ as well (I don't have C90 handy)? –  avakar Mar 26 '10 at 16:20
it's a C99 addition and not featured in the list of printf() length modifiers of the C++0x draft from 2009-11-09 (table 84 on page 672) –  Christoph Mar 26 '10 at 16:28
@Christoph: Nor is it in the latest draft, n3035. –  GManNickG Mar 26 '10 at 16:48
@avakar @Adam Rosenfield @Christoph @GMan: However, in n3035 §1.2 Normative references, only the C99 standard is referenced, and § of the same states "The facilities of the C standard library are provided." I would interpret this to mean that, unless otherwise specified, everything in the C99 standard library is part of the C++0x standard library, including the additional format specifiers in C99. –  James McNellis Mar 28 '10 at 2:49
@ArunSaha: It's a feature of only C99, not C++. If you want it to compile with -pedantic, you'll need to either get a compiler supporting the C++1x draft (highly unlikely), or you'll need to move your code into a file that's compiled as C99. Otherwise, your only option is to cast your variables to unsigned long long and use %llu to be maximally portable. –  Adam Rosenfield Apr 13 '10 at 1:52
#ifndef _LP64
    printf( "size = %u\n", x );
    printf( "size = %lu\n", x );

Nasty but it works :)

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casting to unsigned long is more portable and less ugly –  Christoph Mar 26 '10 at 16:18
printf("size = %zu\n", sizeof(thing) );
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z is just a size specifier. You still need to add a conversion type like 'u' or 'd'. –  swestrup Mar 26 '10 at 16:19
You are correct. Thanks for catching that. –  nategoose Mar 26 '10 at 17:56
nategoose, you should delete or fix your answer (click edit), unless you want to get a random downvote from time to time. –  avakar Mar 26 '10 at 18:41
z is a modifier, u and d are specifiers –  M.M Aug 9 at 21:42

Will it warn you if you pass a 32-bit unsigned integer to a %lu format? It should be fine since the conversion is well-defined and doesn't lose any information.

I've heard that some platforms define macros in <inttypes.h> that you can insert into the format string literal but I don't see that header on my Windows C++ compiler, which implies it may not be cross-platform.

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Most compilers will not warn you if you pass something of the wrong size into printf. GCC is an exception. inttypes.h was defined in C99 so any C compiler that is C99 compliant will have it, which should be all of them by now. Still, you may have to turn C99 on with a compiler flag. In any case, intttypes.h doesn't define a specific format for size_t or ptrdiff_t, since they were decided to be important enough to get their own size specifiers of 'z' and 't' respectively. –  swestrup Mar 26 '10 at 16:22
If you use %lu, you should cast the size_t value to unsigned long. There is no implicit conversion (other than promotions) for arguments to printf. –  Keith Thompson May 1 '13 at 0:15
std::size_t s = 1024;
std::cout << s; // or any other kind of stream like stringstream!
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Yeah, but the questioner asks specifically for a printf specifier. I'd guess that they have some other unstated constraints that make using std::cout a problem. –  Donal Fellows Mar 26 '10 at 16:14
@Donal I wonder what kind of problem could C++ streams create in a C++ project! –  AraK Mar 26 '10 at 16:38
@AraK. They are very slow? They add a LOT of bytes for not much reason. ArunSaha just wants to know for his/her own personal knowledge? Personal preference (I prefer stdio to fstream myself). There are many reasons. –  KitsuneYMG Mar 26 '10 at 16:58
@T.K.Crowder: Well, the original request did say that a C solution was wanted (through tagging) and there are good reasons to not use streams in C++, e.g., if the output format descriptor is being pulled from a message catalog. (You could write a parser for messages and use streams if you wanted, but that's a lot of work when you can just leverage existing code.) –  Donal Fellows Mar 26 '10 at 22:41
@Donal: The tags were C and C++. I'm not in any way advocating C++'s I/O stream stuff (I'm not a fan of it), just pointing out that the question didn't originally *"...ask specification for a printf specifier." –  T.J. Crowder Mar 27 '10 at 6:33

Looks like it varies depending on what compiler you're using (blech):

...and of course, if you're using C++, you can use cout instead as suggested by AraK.

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z is also supported by newlib (ie cygwin) –  Christoph Mar 26 '10 at 16:36
%zd is incorrect for size_t; it's correct for the signed type corresponding to size_t, but size_t itself is an unsigned type. –  Keith Thompson May 1 '13 at 0:14
@KeithThompson: I did mention %zu as well (and %zx in case they want hex). True enough that %zu should probably have been first in the list. Fixed. –  T.J. Crowder May 1 '13 at 11:32
@T.J.Crowder: I don't think %zd should be in the list at all. I can't think of any reason to use %zd rather than %zu to print a size_t value. It's not even valid (has undefined behavior) if the value exceeds SIZE_MAX / 2. (For completeness, you might mention %zo for octal.) –  Keith Thompson May 1 '13 at 14:49

C99 defines "%zd" etc. for that. (thanks to the commenters) There is no portable format specifier for that in C++ - you could use %p, which woulkd word in these two scenarios, but isn't a portable choice either, and gives the value in hex.

Alternatively, use some streaming (e.g. stringstream) or a safe printf replacement such as Boost Format. I understand that this advice is only of limited use (and does require C++). (We've used a similar approach fitted for our needs when implementing unicode support.)

The fundamental problem for C is that printf using an ellipsis is unsafe by design - it needs to determine the additional argument's size from the known arguments, so it can't be fixed to support "whatever you got". So unless your compiler implement some proprietary extensions, you are out of luck.

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the z size modidfier is standard C, but some libc implementations are stuck in 1990 for various reasons (eg Microsoft basically abandoned C in favour of C++ and - more recently - C#) –  Christoph Mar 26 '10 at 16:16
C99 defined the size specifier 'z' to be the size of a size_t value, and 't' to be the size of a ptrdiff_t value. –  swestrup Mar 26 '10 at 16:24
thanks for the comments, I've incorporated it in the reply –  peterchen Mar 27 '10 at 5:48
%zd is wrong, it is unsigned so it should be %zu. –  David Conrad Oct 21 '14 at 19:50

For C89, use %lu and cast the value to unsigned long:

size_t foo;
printf("foo = %lu\n", (unsigned long) foo);

For C99 and later, use %zu:

size_t foo;
printf("foo = %zu\n", foo);
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Considering 2013, suggest "For C99 and onward" & "For pre C99:". Best answer. –  chux Aug 10 '13 at 5:52

For those talking about doing this in C++ which doesn't necessarily support the C99 extensions, then I heartily recommend boost::format. This makes the size_t type size question moot:

std::cout << boost::format("Sizeof(Var) is %d\n") % sizeof(Var);

Since you don't need size specifiers in boost::format, you can just worry about how you want to display the value.

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Probably want %u then. –  GManNickG Mar 26 '10 at 16:47

On some platforms and for some types there are specific printf conversion specifiers available, but sometimes one has to resort to casting to larger types.

I've documented this tricky issue here, with example code: and update it periodically with info on new platforms and types.

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Note that link-only answers are discouraged, SO answers should be the end-point of a search for a solution (vs. yet another stopover of references, which tend to get stale over time). Please consider adding a stand-alone synopsis here, keeping the link as a reference. –  kleopatra Jul 23 '13 at 9:34

Extending on Adam Rosenfield's answer for Windows.

I tested this code with on both VS2013 Update 4 and VS2015 preview:

// test.c

#include <stdio.h>
#include <BaseTsd.h> // see the note below

int main()
    size_t x = 1;
    SSIZE_T y = 2;
    printf("%zu\n", x);  // prints as unsigned decimal
    printf("%zx\n", x);  // prints as hex
    printf("%zd\n", y);  // prints as signed decimal
    return 0;

VS2015 generated binary outputs:


while the one generated by VS2013 says:


Note: ssize_t is a POSIX extension and SSIZE_T is similar thing in Windows Data Types, hence I added <BaseTsd.h> reference.

Additionally, except for the follow C99/C11 headers, all C99 headers are available in VS2015 preview:

C11 - <stdalign.h>
C11 - <stdatomic.h>
C11 - <stdnoreturn.h>
C99 - <tgmath.h>
C11 - <threads.h>

Also, C11's <uchar.h> is now included in latest preview.

For more details, see this old and the new list for standard conformance.

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protected by Lundin Aug 25 at 10:56

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