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I know this is a simple question but I'm confused. I have a fairly typical gcc warning that's usually easy to fix:
warning: comparison between signed and unsigned integer expressions

Whenever I have a hexadecimal constant with the most significant bit, like 0x80000000L, the compiler interprets it as unsigned. For example compiling this code with -Wextra will cause the warning (gcc 4.4x, 4.5x):

int main()
long test = 1;
long *p = &test;
if(*p != 0x80000000L) printf("test");

I've specifically suffixed the constant as long, so why is this happening?

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possible duplicate of Unsigned hexadecimal constant in C? – Nemo Jul 18 '11 at 5:37
FWIW, gcc 4.6.1 on Linux, with -Wall -ansi -pedantic emitted just one warning, about control reaching end of non-void function. Possibly another feature that did not make it to the top of compiler writers' priority until very recently? – vpit3833 Jul 18 '11 at 6:56
up vote 8 down vote accepted

The answer to this question is relevant:

Unsigned hexadecimal constant in C?

A hex constant with L suffix will have the first of the following types that can hold its value:

unsigned long
long long
unsigned long long

See the C99 draft, section [ ], for details.

On your platform, long is probably 32 bits, so it is not large enough to hold the (positive) constant 0x80000000. So your constant has type unsigned long, which is the next type on the list and is sufficient to hold the value.

On a platform where long was 64 bits, your constant would have type long.

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According to the c standard hex constants are unsigned.

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Not true in general... Hex constants will be signed if the signed variant is sufficient to hold the value. See stackoverflow.com/questions/4737798/…. (In particular, if "long" were 64 bits, this constant would be signed, not unsigned.) – Nemo Jul 18 '11 at 5:32

Hex constants in C/C++ are always unsigned. But you may use explicit typecast to suppress warning.

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Hex constants in C/C++ are not always unsigned. They are always positive, which is not the same thing at all. – Nemo Jul 18 '11 at 5:40
@Nemo You're right about hex constants. I found another strange behavior. I modified example changing comparsion to below: if((long long)*p != LLONG_MAX) printf("test"); and compiler gives me warning: comparison is always true due to limited range of data type – qoyllur Jul 18 '11 at 6:19
@Nemo Hi nemo, if you like submit a detailed answer explaining the difference with some examples and I will mark it as correct. Otherwise I will submit what you wrote and expand on the substance and mark it correct, as it appears to be the correct answer from what I can tell. Contrary to what I thought, it appears hexadecimal constants do not take a suffix! ms docs link – test Jul 19 '11 at 3:59
@test: Huh? Even according to the page you link, "integer-constant" has a production rule "hexadecimal-constant integer-suffix". Hex constants absolutely do take a suffix; they just work a little differently than decimal constants. I will write up my answer. – Nemo Jul 19 '11 at 4:48
@Nemo yes, you are correct, it appears I misread that document. – test Jul 20 '11 at 0:50

Because your compiler uses 32-bit longs (and presumably 32-bit ints as well) and 0x80000000 wont fit in a 32-bit signed integer, so the compiler interprets it as unsigned. How to work around this depends on what you're trying to do.

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It's an unsigned long then. I'm guessing the compiler decides that a hex literal like that is most likely desired to be unsigned. Try casting it (unsigned long)0x80000000L

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