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Is the integer constant's default type signed or unsigned? such as 0x80000000, how can I to decide to use it as a signed integer constant or unsigned integer constant without any suffix?

If it is a signed integer constant, how to explain following case?

printf("0x80000000>>3 : %x\n", 0x80000000>>3);


0x80000000>>3 : 10000000

The below case can indicate my platform uses arithmetic bitwise shift, not logic bitwise shift:

int n = 0x80000000;

printf("n>>3: %x\n", n>>3);


n>>3: f0000000
share|improve this question
Usually, 0x80000000 is INT_MAX + 1, so it's unsigned. Hence logical shift in the first example. But when you assign it to an int, you invoke undefined behaviour, and typically the result is INT_MIN. Left shifting negative integers is implementation-defined, often arithmetic shift is used. The difference is that in the latter, you force it to a signed type. – Daniel Fischer Jul 3 '12 at 12:28
@DanielFischer INT_MAX + 1 is UB but int n = 0x80000000; is not UB but implementation-defined and the integer conversion in this case is ruled by (in C99) – ouah Jul 3 '12 at 18:54
@ouah The INT_MAX + 1 was meant as a mathematical expression, not C. It's correct, however, that converting that to int isn't undefined behaviour, but implementation-defined. My bad. – Daniel Fischer Jul 3 '12 at 18:57
up vote 19 down vote accepted

C has different rules for decimal, octal and hexadecimal constants.

For decimal, it is the first type the value can fit in: int, long, long long

For hexadecimal, it is the first type the value can fit in: int, unsigned int, long, unsigned long, long long, unsigned long long

For example on a system with 32-bit int and unsigned int: 0x80000000 is unsigned int.

Note that for decimal constants, C90 had different rules (but rules didn't change for hexadecimal constants).

share|improve this answer
The only correct answer so far. (Nits: you didn't specify the rules for octal [see hex], and from C90, hexadecimal literals changed by the addition of the long long types). – Daniel Fischer Jul 3 '12 at 12:14
but then can't we expect a warning in int n = 0x80000000; Because it is assigning a uint32_t to a int32_t and somehow overflows ? – mbonnin Jul 3 '12 at 12:29
Does this mean the statement "An integer constant like 1234 is an int." in [K&R2] is wrong? – Victor S Jul 3 '12 at 12:37
@VictorS: No, it's correct - 1234 is within the guaranteed minimum range of int so it will always have type int. – caf Jul 3 '12 at 13:12
@mbonnin some compilers can display a warning but the standard does not require a warning. There are implicit conversions between any arithmetic types to any arithmetic types. – ouah Jul 3 '12 at 13:20

It is signed if it fits in a signed integer. To make it unsigned, append a u suffix, e.g. 1234u.

You can convert a signed value to unsigned by assigning it to an unsigned variable.

unsigned int i = 1234u; // no conversion needed
unsigned int i = 1234;  // signed value 1234 now converted to unsigned

For 0x80000000, it will be unsigned if ints are 32 bits on your platform, since it doesn't fit into a signed int.

Another thing to watch out for, though, is that the behaviour of right-shift is platform-dependent. On some platforms it's sign-preserving (arithmetic) and on some platforms it's a simple bitwise shift (logical).

share|improve this answer
see my supplement – Victor S Jul 3 '12 at 12:10
Updated to answer your additional query. – Graham Borland Jul 3 '12 at 12:11
0x80000000 is not signed but unsigned on 32-bit and 64-bit systems. – ouah Jul 3 '12 at 12:11
Thanks for pointing that out. :) – Graham Borland Jul 3 '12 at 12:15
A decimal integer constant is always signed. For hexadecimal constants, it can fit in a long but if it fit in an unsigned int it will be unsigned int. A signed integer is not a synonym of a signed int. The type long is also a signed integer type. – ouah Jul 3 '12 at 12:20

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