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Sizeof() doesn't work when applied to bitfields:

# cat p.c
  int main( int argc, char **argv )
    struct { unsigned int bitfield : 3; } s;
    fprintf( stdout, "size=%d\n", sizeof(s.bitfield) );
# gcc p.c -o p
  p.c: In function ‘main’:
  p.c:5: error: ‘sizeof’ applied to a bit-field

...obviously, since it can't return a floating point partial size or something. However, it brought up an interesting question. Is there an equivalent, in C, that will tell you the number of bits in a variable/type? Ideally, it would also work for regular types as well, like char and int, in addition to bitfields.


If there's no language equivalent of sizeof() for bitfields, what is the most efficient way of calculating it - at runtime! Imagine you have loops that depend on this, and you don't want them to break if you change the size of the bitfield - and no fair cheating and making the bitfield size and the loop length a macro. ;-)

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up vote 11 down vote accepted

You cannot determine the size of bit-fields in C. You can, however, find out the size in bits of other types by using the value of CHAR_BIT, found in limits.h. The size in bits is simply CHAR_BIT * sizeof (type).

Do not assume that a C byte is an octet, it is at least 8 bit. There are actual machines with 16 or even 32 bit bytes.

Concerning your edit: I would say a bit-field int a: n; has a size of n bits by definition. The extra padding bits when put in a struct belong to the struct and not to the bit-field.

My advice: Don't use bit-fields but use (arrays of) unsigned char and work with bitmasks. That way a lot of behaviour (overflow, no padding) is well defined.

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+1 cool, didn't know about CHAR_BIT. what if you needed to calculate the bitfield size at runtime? – eruciform Jul 23 '10 at 16:05
That is just not possible (one of the reasons why people avoid bit-fields). A compiler could implement this as an extension for this, but I have never heard of one. – schot Jul 23 '10 at 16:17
@schot: byte != char. In C, char is always 8 bit, thus CHAR_BIT is always 8. Regardless of CPU/etc. Long time ago it might have been different (constant exists for the historical reasons) but not anymore. Check C99, limits.h. – Dummy00001 Jul 23 '10 at 16:22
@Dummy00001: Sorry, but you are wrong. The C99 standard gives a lower limit for CHAR_BIT as 8. And in Appendix J 3.4 It explicitly states as implementation defined behaviour "The number of bits in a byte." – schot Jul 23 '10 at 16:29
When will this stupid CHAR_BIT argument finally die? On anything except DSPs and 30+ year old legacy mainframes, CHAR_BIT is 8. POSIX requires CHAR_BIT==8, Windows is tied to x86 where CHAR_BIT==8, and the whole Internet and interoperability between networked machines is built on octets. Unless you have a very unusual target (in which case your code will likely not be portable anyway), there is absolutely no point in even thinking about the possibility of CHAR_BIT!=8. – R.. Jul 24 '10 at 7:40

It is impossible to find a size of bit-field using sizeof(). Refer to C99:

  • The sizeof operator, bit-field is clearly not supported by sizeof()
  • Structure and union specifiers here it is clarified that bit-field isn't self standing member.

Otherwise, you can try to assign to the bit-field member -1u (value with all bits set) and then find the index of the most significant bit. E.g. (untested):

s.bitfield = -1u;
num_bits = ffs(s.bitfield+1)-1;

man ffs for more.

share|improve this answer
+1 this is looking closer to an optimal length finder. what's ffs()? – eruciform Jul 23 '10 at 16:29
@eruciform: ffs = find first set. a function (often mapped directly to a CPU instruction) to find first bit set in the int. bits are numbered from 1. if input int is 0, then return is too 0. – Dummy00001 Jul 23 '10 at 17:10
nice! that is definitely a function i've never seen. and here i thought i had largely visited the cobweb-encrusted corners of C over the years! – eruciform Jul 23 '10 at 20:41
There's no (portable) way to have ffs computed at compile-time, so this is generally inefficient. However, your loops probably don't depend on the count of bits but just looping over bits, in which case you can initialize a bitfield with -1 and do something like for (;;>>=1). (Tip: this will only work if your bitfield is unsigned.) – R.. Jul 24 '10 at 7:43
Note that ffs is a POSIX function and not available on all platforms, or for datatypes larger than an int. Of course you can roll your own implementation but that would be a bit slow. – D Coetzee Jan 4 '12 at 8:51

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