How does the standard C preprocessor interpret "0xFFFFFFFF": 4G-1 or -1?

Same question for "~0"...

If the answer is -1, then how do I make it interpret it as 4G-1 (i.e., is there any other way besides explicitly using 4294967295)?

P.S.: I tried it on MS Visual Studio (using a comparison rather than calling 'printf' of course, as the latter would simply print according to the specified '%'), and the answer was 4G-1. But I'm not sure that MS Visual Studio uses a standard C preprocessor.

Thank you

  • 1
    I don't know what 4G-1 is supposed to be?
    – kay
    Oct 23, 2013 at 2:32
  • you are assuming there is a difference in the bit patterns and the compiler has not properly placed the bit pattern in the variable?
    – old_timer
    Oct 23, 2013 at 2:33
  • 1
    the answer is there is no difference, it has nothing to do with the compiler and everything to do with the programmer. if you tell the compiler, through your code, to interpret the bit pattern as a signed value then you get -1, if you tell the comiler, through your code, to interpret that same variable/bit pattern as unsigned then you get the unsigned value 2^32 - 1.
    – old_timer
    Oct 23, 2013 at 2:36

4 Answers 4


As far as the preprocessor is concerned, 0xFFFFFFFF is just a hexadecimal constant. Numbers in preprocessor expressions (which are relevant only in #if and #elif directives) are taken to be of the widest available integer type; the preprocessor will treat 0xFFFFFFFF as a signed integer constant with the value 232-1, or 4294967295 (since, as of C99, there is always an integer type of at least 64 bits).

If it appears anywhere other than a #if or #elif directive, then the preprocessor is irrelevant. A hexadecimal constant's type is the first of:

  • int
  • unsigned int
  • long int
  • unsigned long int
  • long long int
  • unsigned long long int

For this particular constant, there are several possibilities:

  • If int is narrower than 32 bits and long is wider than 32 bits, then the type is long;
  • If int is narrower than 32 bits and long is exactly 32 bits, then the type is unsigned long;
  • If int is 32 bits, then the type is unsigned int;
  • If int is wider than 32 bits, then the type is int.

On modern systems, unsigned int and unsigned long are the most likely possibilities.

In all cases, the value of 0xFFFFFFFF is exactly 232-1, or 4294967295; it never has a negative value.

However, you can easily get a negative value (say, -1) by converting (either explicitly or implicitly) the value of 0xFFFFFFFF to a signed type:

int n = 0xFFFFFFFF;

But this is not portable. If int is wider than 32 bits, the stored value will be 232-1. And even if int is exactly 32 bits, the result of converting an unsigned value to a signed type is implementation-defined; -1 is a common result, but it's not guaranteed.

As for ~0, that's an int expression whose value has all its bits set to 1 -- which is usually -1, but that's not guaranteed.

What exactly are you trying to do?

  • I am not using it within an "#if" or an "#elif" directive, but in a "#define" directive. Does this mean it's not a preprocessor issue but a compiler issue? Doesn't the preprocessor replace all macro definitions within the code, and then computes their final value whenever possible (i.e., whenever it's a constant value)? I would like to make sure that my preprocessor definition (a computation on 0xFFFFFFFF) is not converted by the preprocessor or compiled by the compiler as a signed value, because I am comparing it with a large unsigned integer. Thank you. Oct 23, 2013 at 17:04
  • @barakmanos: Please update your question to show us the actual code in which your using 0xFFFFFFFF. Oct 23, 2013 at 17:28
  • @barakmanos: Please include both the #define and the code that uses it. If you can show us a small self-contained program (see sscce.org), that would be ideal. Oct 23, 2013 at 18:01

Per C 2011 (N1570) 6.10.1 4, integer expressions evaluated in the preprocessor use the widest types in the implementation (intmax_t and uintmax_t). 0xFFFFFFFF will have the value 232-1 since each C implementation must support that value as an unsigned long. ~0 will not have that value in any normal C implementation.

Expressions are evaluated in The preprocessor only for #if and #elif statements. Text in your question suggests you are trying to print some expression resulting from preprocessor evaluation. That will not happen. Constant expressions in the source text outside of #if and #elif statements are evaluated by the regular C rules, not by the preprocessor.

  • 2
    The '4G-1' is meant to be '4 * (1024) ^ 3 - 1' or '4 gigabytes minus 1', equivalent to 2 ^ 32 - 1, or the UINT32_MAX. It is not a standard notation, but it is reasonably unambiguous in context. Oct 23, 2013 at 3:35
  • I'm not trying to print it (that would simply yield a positive number when using "%u" and a negative number when using "%d"). My goal is to have a constant value within my code (I don't care if it's computed by the preprocessor or by the compiler), and compare it with an unsigned integer variable during runtime. So I would like to ensure that I am not comparing the unsigned integer variable with a negative value. Oct 23, 2013 at 17:10
  • @barakmanos: Unfortunately, your question is written incorrectly. I suggest you vote to close or delete it and start again. The question you want to ask is something like “How can I portably tested whether an unsigned int has the value 4,294,967,295?” I expect you can simply use x == 0xFFFFFFFF. The constant 0xFFFFFFFF will either be used as its natural type in your C implementation (if the unsigned int x is the same width or shorter) or will be converted to a wider type (if unsigned int is wider). In neither case will its value be changed, so the comparison will work. Oct 23, 2013 at 17:25

ANSI C makes very few guarantees about the size of various core data types, so relying on cpp to interpret the value above one way or another portably is a mistake. If pressed, consider wrapping it in checks:

#if 0xFFFFFFFF == -1
  • That test will not indicate that 0xFFFFFFFF has been interpreted as -1. In a C implementation, it will be true only if the maximum integer width is 32 bits. In that case, 0xFFFFFFFF has the value 4294967295, as desired, but -1 is converted to unsigned, producing a true result. That is undesired, since 0xFFFFFFFF has the desired value. Oct 23, 2013 at 2:52
  • Thanks for the correction. Yet another testament to the tricky nature of these conversions. Oct 23, 2013 at 3:00

The preprocessor does not interpret numbers until it is forced to. Writing

 #define N  0xffffffff

is simple text substitution wherever N is used, except for preprocessor #if evaluation. What C does with the value is far more likely to be what you want to ask. For example,

 long number = N;  // declare and initialize to symbolic value N

This may or may not cause a compilation warning, or maybe an error depending on the size of a long and how flexibly the compiler converts initialization constants.

  • So????? That's why the question referred to the preprocessor, and not to the compiler. For example, what will the preprocessor do in the case of #if 0xFFFFFFFF > 0? Dec 31, 2013 at 13:14

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