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Im trying to understand a bit more about the workings of bitfields.

Given the following code: And assuming int is 32 bits

#include <stdio.h>

int main()
    struct byte
        int one:1;
    struct byte var = {3};
    printf("%d\n", var.one);
    printf("%#x\n", var);
    return 0;

The output I get is:


However I was expecting to see:



struct byte var = {3};

is assigning the value 3 to the 4 bytes of int, isn't it?

From the output I actually get it appears as if the above code line tries to store the value 3 into the 1 bit field hence printing 0x1 as the second output line.

So my question would be:

How does these initializations and assignments on whole structures work?

Also, why are the {} necessary?

share|improve this question
Why would you expect that? You have a 1-bit-wide field that you assign to. The compiler is under no obligation to keep the extra bits. –  Jonathan Grynspan Oct 4 '12 at 17:53
@JonathanGrynspan thank you for pointing that out. However, if the compiler is going to ignore the rest of the bits, why is it necessary to specify a type for each bitfield? –  pablorg Oct 4 '12 at 18:09
Try printing the sizes of struct byte { TYPE var :1; }; with different types (unsigned) int/char. Quite possibly you will find a difference. –  Daniel Fischer Oct 4 '12 at 18:44
@pablorg: Primarily for ease of parsing/lexing during compilation. The compiler would need to know ahead of time if a structure's field were a bitfield before scanning the first word (which could be its name or its type.) Also because you can have signed or unsigned bitfields. –  Jonathan Grynspan Oct 4 '12 at 19:11
@JonathanGrynspan this makes sense, thank you for your comment! –  pablorg Oct 8 '12 at 22:10

1 Answer 1

up vote 4 down vote accepted
int one:1;

With this, you declare an int with only one bit which is used for the sign bit. So you see -1.

If you want to store 3 (011), then you need to have 2 (data) +1(sign) bits in total. So, it should be:

struct byte
int one:3;

Or use an unsigned int.

struct byte
unsigned int one:2;
share|improve this answer
thank you for your reply. Maybe you can calrify something for me. What is the point of specifing a type for each bit-field if the compiler is going to ignore the unused bits anyway? –  pablorg Oct 4 '12 at 18:13
You requested one bit which is allocated. If you pass more than that, it ignores the extra bits of information. –  Blue Moon Oct 4 '12 at 18:20
so it makes no difference which type I use for the bit-field? –  pablorg Oct 4 '12 at 18:23
Yes, typically bitfileds are used to store one bit of flag for some purpose with something like struct flags {unsigned int a:1; unsigned int b:1; unsigned int c:1};. –  Blue Moon Oct 4 '12 at 18:36

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