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#include <stdio.h>

union u
    struct st
        int i : 4;
        int j : 4;
        int k : 4;
        int l;
    } st;
    int i;
 } u;

int main()
    u.i = 100;
      printf("%d, %d, %d", u.i, u.st.i, u.st.l);

I'm trying to figure out the output of program. The first outputs u.i = 100 but I can't understand the output for u.st.i and u.st.l. Please also explain bit fields.

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What's the output of u.st.i and u.st.l? –  Kiril Kirov Oct 21 '12 at 16:21
The output from u.st.l is zero because of the default initialization of global variables (although there might be some discussion about that amongst language lawyers; since you assigned to u.i, the values in u.st officially become undefined; in practice, it will be zero, though). The values in u.st.i, u.st.j and u.st.k were overwritten by the assignment to u.i; you'd have to read your compilers documentation on how it lays out bit fields to know whether there should be zeroes or some other value in them. You might gain more insight by assigning 0x12345678 to u.i. –  Jonathan Leffler Oct 21 '12 at 18:23

1 Answer 1

Regarding bitfields I really suggest you google around a bit, there's plenty information out there and you compiler's documentation also contains info about them, as does every C textbook. Suffice to say the allow you to declare integral data fields with a width of a defined number of bits.

Now, your test program. 100 decimal in binary, padded to 16 bits width is

0000 0000 0110 0100

As you have defined a bitfield where the three first fields are 4 bits wide, the rightmost part of the value will be put in st.i, the next group of 4 in st.j, and so on.

Bit fields are really handy if you have to deal with patterns of bits that are not aligned on natural borders of your processor (byte or word) as is often the case in networking protocols. However, the trick shown in your program with a full-width integral value and a bitfield on top of it can cause portability problems due to byte order and word size differences.

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