In your C implementation, as in most modern implementations of any programming language, signed integers are represented with two’s complement.

In two’s complement, the high bit indicates a negative number, and the values are encoded as in these samples:

```
Bits Decimal
0…011 +3
0…010 +2
0…001 +1
0…000 0
1…111 -1
1…110 -2
1…101 -3
```

Thus, if the usual (unsigned) binary value for the bits is *n* and the high bit is zero, the represented value is +*n*. However, if the high bit is one, then the represented value is *n*-2^{w}, where *w* is the width (the number of bits in the format).

So, in an unsigned 32-bit format, 32 one bits would normally be 4,294,967,295. In a two’s complement 32-bit format, 32 one bits is 4,294,967,295 - 2^{32} = -1.

In your case, the bits you have are 1111 1111 1111 1111 1111 1111 1101 1111. In unsigned 32-bit format, that is 4,294,967,263. In two’s complement, it is 4,294,967,263 - 2^{32} = -33.

`%d`

casts it to a signed integer. – Rad Lexus Dec 18 '13 at 21:11wantit to print with`%d`

? -33 is the correct value. Also: you got ffdf and not ffffffdf... you have 16-bit`int`

s?! – Wumpus Q. Wumbley Dec 18 '13 at 21:29