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With the 64 bit version of iOS we can't use %d and %u anymore to format NSInteger and NSUInteger. Because for 64 bit those are typedef'd to long and unsigned long instead of int and unsigned int.

So Xcode will throw warnings if you try to format NSInteger with %d. Xcode is nice to us and offers an replacement for those two cases, which consists of a l-prefixed format specifier and a typecast to long. Then our code basically looks like this:

NSLog(@"%ld", (long)i);
NSLog(@"%lu", (unsigned long)u);

Which, if you ask me, is a pain in the eye.

A couple of days ago someone at Twitter mentioned the format specifiers %zd to format signed variables and %tu to format unsigned variables on 32 and 64 bit plattforms.

NSLog(@"%zd", i);
NSLog(@"%tu", u);

Which seems to work. And which I like more than typecasting.

But I honestly have no idea why those work. Right now both are basically magic values for me.

I did a bit of research and figured out that the z prefix means that the following format specifier has the same size as size_t. But I have absolutely no idea what the prefix t means. So I have two questions:

What exactly do %zd and %tu mean?

And is it safe to use %zd and %tu instead of Apples suggestion to typecast to long?

I am aware of similar questions and Apples 64-Bit Transition guides, which all recommend the %lu (unsigned long) approach. I am asking for an alternative to type casting.

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What about @"%i". I think it will work ,) –  Augustine P A Sep 19 '13 at 12:37
@AugustinePA: %i is exactly equivalent to %d and does not help here. Unfortunately, there is no format specifier for NS(U)Integer. –  Martin R Sep 19 '13 at 12:39
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2 Answers

up vote 18 down vote accepted

From http://pubs.opengroup.org/onlinepubs/009695399/functions/printf.html:

  • z
    Specifies that a following [...] conversion specifier applies to a size_t or the corresponding signed integer type argument;
  • t
    Specifies that a following [...] conversion specifier applies to a ptrdiff_t or the corresponding unsigned type argument;

And from http://en.wikipedia.org/wiki/Size_t#Size_and_pointer_difference_types:

  • size_t is used to represent the size of any object (including arrays) in the particular implementation. It is used as the return type of the sizeof operator.
  • ptrdiff_t is used to represent the difference between pointers.

Now size_t and ptrdiff_t accidentally have the same size as NS(U)Integer on Apple's current 32-bit and 64-bit architectures. Therefore both %zd and %td would print an NSInteger correctly, and both %zu and %tu would print a NSUInteger correctly.

But this relation is not fixed in any standard (as far as I know), therefore I would not consider it safe (in the same sense as assuming that long has the same size as a pointer is not considered safe). It might break in the future.

The only alternative to type casting that I know of is from the answer to "Foundation types when compiling for arm64 and 32-bit architecture", using preprocessor macros:

// In your prefix header or something
#if __LP64__
#define NSI "ld"
#define NSU "lu"
#define NSI "d"
#define NSU "u"

NSLog(@"i=%"NSI, i);
NSLog(@"u=%"NSU, u);
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Thank you. The "accidentally the same size" part is basically what I thought when I first heard about zd and tu. I guess I stick with type casting then, the #define stuff looks even worse. –  Matthias Bauch Sep 27 '13 at 14:19
Additional documentation from Apple: developer.apple.com/library/ios/documentation/cocoa/conceptual/… –  Rivera Mar 12 at 1:48
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I prefer to just use an NSNumber instead:

NSInteger myInteger = 3;
NSLog(@"%@", @(myInteger));

This does not work in all situations, but I've replaced most of my NS(U)Integer formatting with the above.

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I like this and in some cases wouldn't hesitate to use it. Just keep in mind that there is some overhead to creating & destroying the temporary object and its description. Oh, and you lose field width & precision specifiers (for a CGFloat for example). –  geowar Apr 28 at 19:15
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