# Explain the behaviour of 1-bit bit-fields

``````#include<stdio.h>

int main()
{
struct value{
int bit1 : 1;
int bit3 : 4;
int bit4 : 4;
}bit={1,2,2};
printf("%d %d %d\n",bit.bit1,bit.bit3,bit.bit4);
return 0;
}
``````

Output :

-1 2 2

Please explain the oupput of the program ?

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Seems like homework. –  spidey Apr 10 '12 at 19:03
It is implementation defined whether `int` bit-fields are `signed int` or `unsigned int`. On some compilers you could get `1 2 2` as output. For portability, you should use either `unsigned int` or `signed int` for bit-fields. Or not use bit-fields. –  ouah Apr 10 '12 at 19:09

Presumably the only curious output is the first one.

Well, consider the range of values that a 1-bit two's-complement integer can represent.

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Can you please explain the output in a bit detail ? How is it actually storing the values in its fields ? Say if I change bit1 : 1 bit2 : 8 bit3 : 8 its showing -1 -8 -8 as output,why is so ? –  code_hacker Apr 10 '12 at 19:20
@code_hacker: You need to read about how two's-complement works (see the link in my answer). It should make sense then. –  Oli Charlesworth Apr 10 '12 at 20:07

`bit1` is a signed 1-bit integer, that can hold the values `-1` and `0` only.

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An the initialization makes a conversion from an (signed) integer `1` into that range, so this is even undefined behavior, no? –  Jens Gustedt Apr 10 '12 at 20:11

Note the below statement inside the struct:

int bit1:1; --> 'int' indicates that it is a SIGNED integer. For signed integers the leftmost bit will be taken for +/- sign. If you store 1 in 1-bit field: The left most bit is 1, so the system will treat the value as negative number.

The 2's complement method is used by the system to handle the negative values.

Therefore, the data stored is 1. The 2's complement of 1 is also 1 (negative).

Therefore -1 is printed.

If you store 2 in 4-bits field: Binary 2: 0010 (left most bit is 0, so system will treat it as positive value) 0010 is 2 Therefore 2 is printed.

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For bit-fields, `int` does not necessary mean SIGNED. The gcc manual states: "The ISO C standard leaves it up to the implementation whether a bit-field declared plain int is signed or not. This in effect creates two alternative dialects of C." However, both gcc and MSVC take it as signed: see msdn.microsoft.com/en-US/library/yszfawxh%28v=vs.80%29.aspx and gcc.gnu.org/onlinedocs/gcc-4.1.2/gcc/Non_002dbugs.html. –  Joseph Quinsey Oct 3 '12 at 19:42