# C question: off_t (and other signed integer types) minimum and maximum values

I occasionally will come across an integer type (e.g. POSIX signed integer type `off_t`) where it would be helpful to have a macro for its minimum and maximum values, but I don't know how to make one that is truly portable.

For unsigned integer types I had always thought this was simple. `0` for the minimum and `~0` for the maximum. I have since read of several different SO threads which suggest using `-1` instead of `~0` for portability. An interesting thread with some contention is here:
c++ - Is it safe to use -1 to set all bits to true? - Stack Overflow

However even after reading about this issue I'm still confused. Also, I'm looking for something both C89 and C99 compliant so I don't know if the same methods apply. Say I had a type of `uint_whatever_t`. Couldn't I just cast to 0 first and then bitwise complement? Would this be ok?:

``````#define UINT_WHATEVER_T_MAX ( ~ (uint_whatever_t) 0 )
``````

Signed integer types look like they'll be a tougher nut to crack. I've seen several different possible solutions but only one appears to be portable. Either that or it's incorrect. I found it while googling for an OFF_T_MAX and OFF_T_MIN. Credit to Christian Biere:

``````#define MAX_INT_VAL_STEP(t) \
((t) 1 << (CHAR_BIT * sizeof(t) - 1 - ((t) -1 < 1)))

#define MAX_INT_VAL(t) \
((MAX_INT_VAL_STEP(t) - 1) + MAX_INT_VAL_STEP(t))

#define MIN_INT_VAL(t) \
((t) -MAX_INT_VAL(t) - 1)

[...]
#define OFF_T_MAX MAX_INT_VAL(off_t)
``````

I couldn't find anything regarding the different allowable types of signed integer representations in C89, but C99 has notes for integer portability issues in §J.3.5:

Whether signed integer types are represented using sign and magnitude, two’s complement, or ones’ complement, and whether the extraordinary value is a trap representation or an ordinary value (6.2.6.2).

That would seem to imply that only those three listed signed number representations can be used. Is the implication correct, and are the macros above compatible with all three representations?

Other thoughts:
It seems that the function-like macro `MAX_INT_VAL_STEP()` would give an incorrect result if there were padding bits. I wonder if there is any way around this.

Reading through signed number representations on Wikipedia it occurs to me that for all three signed integer representations any signed integer type's MAX would be:
sign bit off, all value bits on (all three)
And its MIN would be either:
sign bit on, all value bits on (sign and magnitude)
sign bit on, all value bits off (ones/twos complement)

I think I could test for sign and magnitude by doing this:

``````#define OFF_T_MIN ( ( ( (off_t)1 | ( ~ (off_t) -1 ) ) != (off_t)1 ) ? /* sign and magnitude minimum value here */ : /* ones and twos complement minimum value here */ )
``````

Then as sign and magnitude is sign bit on and all value bits on wouldn't the minimum for off_t in that case be `~ (off_t) 0` ? And for ones/twos complement minimum I would need some way to turn all the value bits off but leave the sign bit on. No idea how to do this without knowing the number of value bits. Also is the sign bit guaranteed to always be one more significant than the most significant value bit?

Thanks and please let me know if this is too long a post

EDIT 12/29/2010 5PM EST:
As answered below by ephemient to get the unsigned type max value, `(unsigned type)-1` is more correct than `~0` or even `~(unsigned type)0`. From what I can gather when you use -1 it is just the same as 0-1 which will always lead to the maximum value in an unsigned type.

Also, because the maximum value of an unsigned type can be determined it is possible to determine how many value bits are in an unsigned type. Credit to Hallvard B. Furuseth for his IMAX_BITS() function-like macro that he posted in reply to a question on comp.lang.c

``````/* Number of bits in inttype_MAX, or in any (1<<b)-1 where 0 <= b < 3E+10 */
#define IMAX_BITS(m) ((m) /((m)%0x3fffffffL+1) /0x3fffffffL %0x3fffffffL *30 \
+ (m)%0x3fffffffL /((m)%31+1)/31%31*5 + 4-12/((m)%31+3))
``````

IMAX_BITS(INT_MAX) computes the number of bits in an int, and IMAX_BITS((unsigned_type)-1) computes the number of bits in an unsigned_type. Until someone implements 4-gigabyte integers, anyway:-)

The heart of my question however remains unanswered: how to determine the minimum and maximum values of a signed type via macro. I'm still looking into this. Maybe the answer is there is no answer.

If you are not viewing this question on StackOverflow in most cases you cannot see the proposed answers until they are accepted. It is suggested to view this question on StackOverflow.

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Indeed, `MAX_INT_VAL_STEP` breaks if there are any padding bits. I have a related question I never got a satisfactory answer to: stackoverflow.com/questions/3957252/… –  R.. Dec 22 '10 at 23:32

Surprisingly, C promotes types up to `int` before arithmetic operations, with results being at least `int` sized. (Similarly oddities include `'a'` character literal having type `int`, not `char`.)

``````int a = (uint8_t)1 + (uint8_t)-1;
/* = (uint8_t)1 + (uint8_t)255 = (int)256 */
int b = (uint8_t)1 + ~(uint8_t)0;
/* = (uint8_t)1 + (int)-1 = (int)0 */
``````

So `#define UINT_WHATEVER_T_MAX ( ~ (uint_whatever_t) 0 )` isn't necessarily okay.

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I believe I have finally solved this problem, but the solution is only available at `configure`-time, not compile-time or runtime, so it's still not idea. Here it is:

``````HEADERS="#include <sys/types.h>"
TYPE="off_t"
i=8
while : ; do
printf "%s\nstruct { %s x : %d; };\n" "\$HEADERS" "\$TYPE" \$i > test.c
\$CC \$CFLAGS -o /dev/null -c test.c || break
i=\$((\$i+1))
done
rm test.c
echo \$((\$i-1))
``````

The idea comes from 6.7.2.1 paragraph 3:

The expression that specifies the width of a bit-field shall be an integer constant expression with a nonnegative value that does not exceed the width of an object of the type that would be specified were the colon and expression omitted. If the value is zero, the declaration shall have no declarator.

I would be quite pleased if this leads to any ideas for solving the problem at compile-time.

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R.. thanks for your post, that's a neat idea. If I ever figure compile-time out I'll post it as an answer and if you figure it out please do likewise. -AQG –  Anonymous Question Guy Aug 15 '11 at 5:03
Glad you came across this late answer. If I find a better solution I'll surely follow up. –  R.. Aug 15 '11 at 5:16
@AnonymousQuestionGuy: I came up with another idea that may be relevant to your question here: stackoverflow.com/a/5761398/379897 –  R.. Jul 20 '13 at 2:03

You probably want to look at limits.h (added in C99) this header provides macros that should be set to match the compiler's ranges. (either it is provided along with the Standard library that came with the compiler, or a third party standard library replacement is responsible for getting it right)

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`#define UINT_WHATEVER_T_MAX ( ~ (uint_whatever_t) 0 )` looks OK to me, the preference for -1 is that `uint_whatever_t = -1;` is more concise than `uint_whatever_t = ~(uint_whatever_t)0;`

`(CHAR_BIT * sizeof(t))` looks not strictly conforming to me. You're right about padding bits, so this value might be considerably more than the width of the type unless Posix says otherwise about `off_t`.

In contrast, the fixed-width integer types in C99 must not have padding bits, so for `intN_t` you're on firmer ground using the size to deduce the width. They're also guaranteed two's complement.

That would seem to imply that only those three listed signed number representations can be used. Is the implication correct

Yes. 6.2.6.2/2 lists the three permissible meanings of the sign bit, and hence the three permissible signed number representations.

is the sign bit guaranteed to always be one more significant than the most significant value bit

It's indirectly required to be more significant than the value bits, by the fact (6.2.6.2/2 again) that "Each bit that is a value bit shall have the same value as the same bit in the object representation of the corresponding unsigned type". So the value bits must be a contiguous range starting at the least significant.

However, you can't portably set just the sign bit. Read 6.2.6.2/3 and /4, about negative zeros, and note that even if the implementation uses a representation that has them in principle, it doesn't have to support them, and there's no guaranteed way of generating one. On a sign+magnitude implementation, the thing you want is a negative zero.

[Edit: oh, I misread, you only need to generate that value after you've ruled out sign+magnitude, so you could still be OK.

To be honest, it sounds a bit numpty to me if Posix has defined an integer type and not provided limits for it. Boo to them. I'd probably go with the old, "porting header" approach, where you put the thing that probably works everywhere in a header, and document that someone should probably check it before compiling the code on any freakish implementations. Compared with what they normally have to do to get anybody's code to work, they'll happily live with that.]

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For sign-magnitude representations, it's fairly easy (for types at least as wide as `int`, anyway):
``````#define SM_TYPE_MAX(type) (~(type)-1 + 1)