What I'm trying to do is to define a constant equal to 2^30 (I may change it to something like 2^34, so I prefer to have a room larger than 32 bits for it).

Why the following minimal(?) example doesn't compile?

#include <stdint.h>
// test.cpp:4:33: error: expected primary-expression before numeric constant
// test.cpp:4:33: error: expected ')' before numeric constant
const uint64_t test = (uint64_t 1) << 30;
//const uint64_t test1 = (uint64_t(1)) << 30;// this one magically compiles! why?

int main() { return 0; }

3 Answers 3


You can use the macro:


to define a 64bit unsigned integer literal, the cstdint header provides macros for defining integer literals of specific sizes, we see that in section 18.4.1 Header synopsis:

The header also defines numerous macros of the form:

and includes:

plus function macros of the form:

[U]INT{8 16 32 64 MAX}_C

We have to go back to the C99 draft standard to find how they work, section Macros for minimum-width integer constants which says:

[...]if uint_least64_t is a name for the type unsigned long long int, then UINT64_C(0x123) might expand to the integer constant 0x123ULL.

as the proper way of defining a 64bit integer constant expression. This is unfortunately not document on cpprefernce but cplusplus.com does document this feature for of the cstdint header as well as the posix reference for stdint.h.

  • 1
    while not as directly applicable to the OP as the accepted answer, this answer is more generally useful, and should be the accepted answer for that reason.
    – Todd Freed
    Dec 30, 2015 at 21:49
  • 2
    I would also include this link for reference : pubs.opengroup.org/onlinepubs/009695399/basedefs/stdint.h.html
    – Todd Freed
    Dec 30, 2015 at 21:50
  • 1
    @ToddFreed ok, I will take a look at look at that reference. I have received a few upvotes for this recently and I am wondering if this has been linked from some outside site. Dec 31, 2015 at 1:09

The syntax you are looking for is:

const uint64_t test = 1ULL << 30;

The post-fix ULL is used for unsigned integer literals that are at least 64-bits wide.

  • 3
    @fiktor This isn't a "short notation", this is the notation for writing numeric literals of a specified size. Using the casting method will end up being optimized to this on the first compiler pass (for any remotely decent compiler). Mar 12, 2014 at 22:30
  • 17
    This is not correct. If you are using uint64_t to define your integer type, you should use the corresponding literal notation, UINT64_C(arg). The "ULL" suffix corresponds exactly to "unsigned long long", while uint64_t might not, depending on the platform. This kind of platform independence is the only reason you would use uint64_t in the first place.
    – Todd Freed
    Dec 30, 2015 at 21:46
  • 1
    @ToddFreed You realize that UINT64_C is a macro that expands to value##ULL, right? In other words, it does exactly the same thing I posted here. Claiming it is "incorrect" is factually wrong. Jan 5, 2016 at 18:05
  • 11
    On a platform where uint64_t == unsigned long long, UINT64_C will expand to ULL. On a platform where uint64_t == unsigned long, UINT64_C will expand to UL. Please read stdint.h.
    – Todd Freed
    Jan 5, 2016 at 18:10
  • 4
    If you only care about platforms where uint64_t == unsigned long long, then your solution works fine. But then, why not use unsigned long long as your data type in the first place? Your initial statement which I was contesting is still wrong, "ULL is for unsigned 64-bit integers". A true statement would be, ULL is for unsigned long long integers.
    – Todd Freed
    Jan 5, 2016 at 18:53

(uint64_t 1) is not valid syntax. When casting, you can either use uint64_t(1) or (uint64_t) 1. The commented out example works because it follows the proper syntax for casting, as would:

const uint64_t test = ((uint64_t)1) << 30;

Edit: While this directly answers the question, see the answer by Shafik Yaghmour on how to properly define an integral constant with specific size.

  • Yes, you are right. For some reason I forgot the brackets around the type, and they are indeed required for c-like cast notation.
    – fiktor
    Mar 12, 2014 at 20:43
  • I usually just use sized literal suffixes auto value = 1ui64 << 30; (though sadly it appears that only MSVC supports typed suffixes whereas clang, gcc, and Intel compilers only support ULL after trying on Godbolt - oh well) Jan 11, 2019 at 3:54

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