The printf function takes an argument type, such as %d or %i for a signed int. However, I don't see anything for a long value.


Put an l (lowercased letter L) directly before the specifier.

unsigned long n;
long m;

printf("%lu %ld", n, m);
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    printf("%ld", ULONG_MAX) outputs the value as -1. Should be printf("%lu", ULONG_MAX) for unsigned long as described by @Blorgbeard below. – jammus Nov 12 '11 at 16:03
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    Changed my answer to be correct, seeing as it is the accepted answer. I don't want to lead folks astray. – postfuturist Nov 13 '11 at 5:01
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    Actually, you should change it to be %ld, to be more harmonic with OP question. – Dr Beco Jun 21 '15 at 5:28
  • Yep Dr Beco; further, just %l triggers warning: unknown conversion type character 0x20 in format [-Wformat] – Patrizio Bertoni Jul 29 '15 at 10:53

I think you mean:

unsigned long n;
printf("%lu", n);   // unsigned long


long n;
printf("%ld", n);   // signed long

On most platforms, long and int are the same size (32 bits). Still, it does have its own format specifier:

long n;
unsigned long un;
printf("%ld", n); // signed
printf("%lu", un); // unsigned

For 64 bits, you'd want a long long:

long long n;
unsigned long long un;
printf("%lld", n); // signed
printf("%llu", un); // unsigned

Oh, and of course, it's different in Windows:

printf("%l64d", n); // signed
printf("%l64u", un); // unsigned

Frequently, when I'm printing 64-bit values, I find it helpful to print them in hex (usually with numbers that big, they are pointers or bit fields).

unsigned long long n;
printf("0x%016llX", n); // "0x" followed by "0-padded", "16 char wide", "long long", "HEX with 0-9A-F"

will print:


Btw, "long" doesn't mean that much anymore (on mainstream x64). "int" is the platform default int size, typically 32 bits. "long" is usually the same size. However, they have different portability semantics on older platforms (and modern embedded platforms!). "long long" is a 64-bit number and usually what people meant to use unless they really really knew what they were doing editing a piece of x-platform portable code. Even then, they probably would have used a macro instead to capture the semantic meaning of the type (eg uint64_t).

char c;       // 8 bits
short s;      // 16 bits
int i;        // 32 bits (on modern platforms)
long l;       // 32 bits
long long ll; // 64 bits 

Back in the day, "int" was 16 bits. You'd think it would now be 64 bits, but no, that would have caused insane portability issues. Of course, even this is a simplification of the arcane and history-rich truth. See wiki:Integer

  • @M.M I clarified my answer to avoid confusion. – Dave Dopson Nov 18 '15 at 23:23
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    Just to clarify: there are more architectures than x86 and x64, and on those architectures, char, short, int, long and long long have different meanings. For example, a 32 bit mcu with 16 bit memory alignment could use: char=short=int=16 bit; long=32 bits; long long = 64 bits – AndresR Sep 6 '16 at 19:19
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    @AndresR - absolutely, and it matters very deeply to people who do embedded programming (I built a kernel module for a smoke alarm once). Pity those poor souls when they try to use code that wasn't written for portability. – Dave Dopson Sep 7 '16 at 19:44

It depends, if you are referring to unsigned long the formatting character is "%lu". If you're referring to signed long the formatting character is "%ld".


%ld see printf reference on cplusplus.com


In case you're looking to print unsigned long long as I was, use:

unsigned long long n;
printf("%llu", n);

For all other combinations, I believe you use the table from the printf manual, taking the row, then column label for whatever type you're trying to print (as I do with printf("%llu", n) above).


I think to answer this question definitively would require knowing the compiler name and version that you are using and the platform (CPU type, OS etc.) that it is compiling for.

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