According to MSDN (Integer Types - VC2008):

The type for a decimal constant without a suffix is either int, long int, or unsigned long int. The first of these three types in which the constant's value can be represented is the type assigned to the constant.

Running the below code on Visual C++ 2008:

void verify_type(int a){printf("int [%i/%#x]\n", a, a);}
void verify_type(unsigned int a){printf("uint [%u/%#x]\n", a, a);}
void verify_type(long a){printf("long [%li/%#lx]\n", a, a);}
void verify_type(unsigned long a){printf("ulong [%lu/%#lx]\n", a, a);}
void verify_type(long long a){printf("long long [%lli/%#llx]\n", a, a);}
void verify_type(unsigned long long a){printf("unsigned long long [%llu/%#llx]\n", a, a);}

int _tmain(int argc, _TCHAR* argv[])
    printf("sizeof(int) %i\n", sizeof(int));
    printf("sizeof(long) %i\n", sizeof(long));
    printf("sizeof(long long) %i\n\n", sizeof(long long));


    return 0;

I get this:

sizeof(int) 4
sizeof(long) 4
sizeof(long long) 8

int [-2147483647/0x80000001]
ulong [2147483648/0x80000000]  <------ Why ulong?

I would expect const -2147483648 () to be int. Why do I get a ulong, not int?

I've been programming for quite a long time and until today I've not noticed that + or - is not part of integer constant. This one hint explained everything.

              decimal-constant integer-suffix<opt>
              octal-constant integer-suffix<opt>
              hexadecimal-constant integer-suffix<opt>

              decimal-constant digit

              octal-constant octal-digit

              0x  hexadecimal-digit
              0X  hexadecimal-digit
              hexadecimal-constant hexadecimal-digit

      nonzero-digit: one of
              1  2  3  4  5  6  7  8  9

      octal-digit: one of
              0  1  2  3  4  5  6  7

      hexadecimal-digit: one of
              0  1  2  3  4  5  6  7  8  9
              a  b  c  d  e  f
              A  B  C  D  E  F

              unsigned-suffix long-suffix<opt>
              long-suffix unsigned-suffix<opt>

      unsigned-suffix: one of
              u  U

      long-suffix: one of
              l  L
  • This one bug me. Also I have different results here : ideone.com/HyyI3r – Orace Mar 23 '15 at 13:48
  • note that many of your printf statements cause undefined behaviour. You cannot pass a negative value to %x or %lx. – M.M Mar 23 '15 at 13:51
  • 1
    There is no function overload in C, so the code can't compile in C. This is some C++ stuffs. – Orace Mar 23 '15 at 13:55
  • @Orace you are using C++11 for those results, however OP is using a 2008 compiler. C++ did not have long long prior to C++11, so a compiler extension must be in play. Compiler extensions are supposed to be documented ... – M.M Mar 23 '15 at 14:01
  • When represented as 32 bits, the values 2147483648 and -2147483648 have exactly the same value: 0b10000000000000000000000000000000. How is the compiler to know which to use? – Evil Dog Pie Mar 23 '15 at 14:08

-2147483648 is not an integer literal. It is the unary operator - applied to the integer literal 2147483648. That literal's value does not fit in a signed int or signed long, so it has type unsigned long. The - operator does not change that type.


First, -2147483648 is not an integer constant, because - is a unary operator, not part of a constant (at least in that context). 2147483648 is an integer constant, and -2147483648 is an expression involving that constant.

Because 2147483648 is not representable as an int or long int, but is representable as an unsigned long int, it gets the type unsigned long int. And the result of applying the unary - operator to an unsigned long int is itself an unsigned long int.


You are applying the unary - operator to the integer literal 2147483648. The integer literal, being 2^31 is too large to fit in a 32-bit int. In modern C++, it should have been treated as a long long, so your result is surprising.

I believe old C standards (prior to long long) allowed interpreting a literal too large for long to have type unsigned long, which is consistent with what you're seeing. I see the documentation from MSDN you quoted at the top of your post repeats this, so that's surely what's going on here.

  • 1
    C++ did not have long long prior to C++11. I'm sure VS2008 didn't have C++11. However, MS may have added their own int64 type as an extension and cooked up some way of handling constants. – M.M Mar 23 '15 at 13:50
  • 1
    The documentation linked by OP is titled "C constants" so perhaps it doesn't apply; however it is consistent with the output he is showing. Perhaps the compiler uses C++03 definition for constants up until 4294967295, and after that, switches to long long. Or something. – M.M Mar 23 '15 at 13:57
  • @MattMcNabb: IIRC, MSVC treated it the sane way. Any literal which was too big causes UB. One valid and reasonable form of UB is an integer literal having type __int64. – MSalters Mar 23 '15 at 15:01

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