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  struct value
      int bit1 : 1;
      int bit2 : 4;
      int bit3 : 4;
   }bit={1, 2, 2};

  printf("%d %d %d\n",bit.bit1,bit.bit2,bit.bit3);

Output of this code is "-1 2 2" Please clarify the logic behind this output. Value of bit.bit2 and bit.bit3 is always same as the value assigned to it but bit.bit1 is changing with different integer values. why?

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the most significant bit because used as the sign bit. –  BLUEPIXY Jul 7 '13 at 9:11

4 Answers 4

You should use unsigned int. The highest bit, defines whether a number is negative or positive if signed values are used. If you have only one bit, and this is 1, then it it is interpreted as a negative number as the highest bit is set.

If you set the other values to 15 you will also get a negative output.

You could modify the output by using %u in the printf command, but you would still have possibly unwanted effects when assigning and comparing it with other values.

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Sorry I am new to C can you please explain what is the meaning of "int bit1: 1" ? What this is exactly doing? –  user2492165 Jul 7 '13 at 9:18
If you want to work with individual bits, you can decalre bitfields. So your structure is treated as if it holds only a single bit, instead of an int having 16-32bits (depending on the hardware). This is more convenient then having to mask the bits yourself when you want to set/unset them. It's also conventient if you work with hardware so you can overlay it with a structure. –  Devolus Jul 7 '13 at 9:19

int x : b ; means you are allocating only b bits of memory to x instead of the default sizeof(int) bytes. This kind of declaration is only possible inside a structure.
Range of signed integer in C is -2^(b-1) to 2^(b-1)-1. Where b is number of bits used to store the integer. In all the above cases overflow occurs. A good compiler should give you a warning about overflow.

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A signed bit-field of size 1 accepts values in the range [-1 … 0]. This is a consequence of the general formula [-2^(N-1) … 2^(N-1)-1] for determining the range of values that can be stored in N bits with 2's complement representation for N=1.

If you expected bit1 to hold the values 0 or 1, you can declare it as unsigned int bit1 : 1;.

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The standard does not specify whether int in bit-fields is signed or unsigned. Instead, it forces you to explicitly specify signedness.

A bit-field shall have a type that is a qualified or unqualified version of _Bool, signed int, unsigned int, or some other implementation-defined type.

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