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On a cross platform c/c++ project (Win32, Linux, OSX), I need to use the *printf functions to print some variables of type size_t. In some environments size_t's are 8 bytes and on others they are 4. On glibc I have %zd, and on Win32 I can use %Id. Is there an elegant way to handle this?

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8 Answers 8

The PRIuPTR macro (from <inttypes.h>) defines a decimal format for uintptr_t, which should always be large enough that you can cast a size_t to it without truncating, e.g.

fprintf(stream, "Your size_t var has value %" PRIuPTR ".", (uintptr_t) your_var);
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finnw, you better change your PRIuPTR into PRIuPTR and prefix your "fprintf" line with 4 spaces, so that they become formatted as code and there won't be a confusion between PRIuPTR and PRluPTR (as seen here). –  tzot Oct 6 '08 at 15:37
    
@ΤΖΩΤΖΙΟY, I added the prefix, but what do the backticks around PRIuPTR do? I can't see any difference. –  finnw Oct 6 '08 at 16:49
    
Backticks let you put code (or other stuff you don't want formatted by markdown) inline with text. The markdown formatter often gets confused by things like underscores in identifiers. Backticking inline code helps with this. –  Michael Burr Oct 6 '08 at 17:15
    
Backticks don't seem to work in comments. Don't know why. Also no preview in comments. –  Rhythmic Fistman Oct 10 '08 at 21:01
3  
If it is C++ then do not forget define __STDC_FORMAT_MACROS before including <inttypes.h>. –  Sergey Shandar May 10 '11 at 6:31

There are really two questions here. The first question is what the correct printf specifier string for the three platforms is. Note that size_t is an unsigned type.

On Windows, use "%Iu".

On Linux and OSX, use "%zu".

The second question is how to support multiple platforms, given that things like format strings might be different on each platform. As other people have pointed out, using #ifdef gets ugly quickly.

Instead, write a separate makefile or project file for each target platform. Then refer to the specifier by some macro name in your source files, defining the macro appropriately in each makefile. In particular, both GCC and Visual Studio accept a 'D' switch to define macros on the command line.

If your build system is very complicated (multiple build options, generated sources, etc.), maintaining 3 separate makefiles might get unwieldly, and you are going to have to use some kind of advanced build system like CMake or the GNU autotools. But the basic principle is the same-- use the build system to define platform-specific macros instead of putting platform-detection logic in your source files.

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1  
Good for pointing out %Iu (win) and %zu (mac/linux) which are more officially correct than what the question suggested. Windows officially defines the _WIN32 macro, and I personally have found development easier to rely on small, concentrated #ifdef claused based on this macro rather than per-platform makefiles. Although I use Visual Studio & Xcode, which effectively have their own version of makefiles as well. The difference is in minimizing number of macro definitions and #ifdef cases. –  Tyler Jul 18 '14 at 16:26
    
According to 'cppcheck', on Windows we could use both formats. –  alcor Feb 6 at 15:43

The only thing I can think of, is the typical:

#ifdef __WIN32__ // or whatever
#define SSIZET_FMT "%ld"
#else
#define SSIZET_FMT "%zd"
#endif

and then taking advantage of constant folding:

fprintf(stream, "Your size_t var has value " SSIZET_FMT ".", your_var);
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Heh -- I was hoping it wouldn't come to this. –  twk Oct 6 '08 at 15:09
    
Hopefully somebody else will provide something better… –  tzot Oct 6 '08 at 15:14

Dan Saks wrote an article in Embedded Systems Design which covered this matter. According to Dan, %zu is the standard way, but few compilers supported this. As an alternative, he recommended using %lu together with an explicit cast of the argument to unsigned long:

size_t n;
...
printf("%lu", (unsigned long)n);
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That's not so great on systems that use the LLP64 programming model, such as 64-bit Windows. –  bk1e Oct 7 '08 at 5:08
    
%zu is a C99 invention. Those compilers are indeed rare. C++ doesn't have the problem to start with. –  MSalters Oct 7 '08 at 12:02
    
%zu has nothing to do with the compiler and everything to do with the standard libraries... –  plinth Nov 3 '08 at 13:28
    
%lu and unsigned long are only a problem on 64-bit systems when you want to be able to display values exceeding 2^32-1. Otherwise, always cast to unsigned long long (works just as fine for 32-bit), and use %llu. –  paniq Mar 16 '11 at 19:09

Use boost::format. It's typesafe, so it'll print size_t correctly with %d, also you don't need to remember to put c_str() on std::strings when using it, and even if you pass a number to %s or vice versa, it'll work.

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boost::format is damn slow –  pachanga May 26 '10 at 10:31

I don't know of any satisfying solution, but you might consider a specialized function to format size_t items to a string, and print the string.

(Alternatively, if you can get away with it, boost::format handles this kind of thing with ease.)

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You just have to find an integer type with the largest storage class, cast the value to it, and then use the appropriate format string for the larger type. Note this solution will work for any type (ptrdiff_t, etc.), not just size_t.

What you want to use is uintmax_t and the format macro PRIuMAX. For Visual C++, you are going to need to download c99-compatible stdint.h and inttypes.h headers, because Microsoft doesn't provide them.

Also see

http://www.embedded.com/columns/technicalinsights/204700432

This article corrects the mistakes in the article quoted by Frederico.

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My choice for that problem is to simply cast the size_t argument to unsigned long and use %lu everywhere - this of course only where values are not expected to exceed 2^32-1. If this is too short for you, you could always cast to unsigned long long and format it as %llu.

Either way, your strings will never be awkward.

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