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# left shift Of -14 by 2bits is =-56? how?

The Following Programme Is giving The Output as -56.I have manually Traced it -14 binary equivalent is 00001110 and its 2's compliment is 11110001 on left shifting by 2 bits I get as 11000100 .How can I interpret this as -56. Thank You.

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

main()

{
int i=-14;
i<<=2;
printf("%d",i);
}
``````
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-14 cannot be 00001110 because it has not most significiant bit set, thus 00001110 is just 14 not -14. – Zaffy Oct 6 '13 at 6:15

Because it's undefined behavior to left-shift a negative number.

Apart from that: you know that your assumption is only correct if `int` is one byte/eight bits long? Quite unlikely (especially since the Standard requires it to be at least 16 bits wide).

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What's the reason for the downvote? – user529758 Oct 6 '13 at 6:20
Works for me with 32-bit ints. And two's complement is very well understood. Where is this "undefined"? – Michael Hampton Oct 6 '13 at 6:21
AFAIK, the C standard doesn't define the behavior (bitshifting a signed number). – tangrs Oct 6 '13 at 6:22
Couldn't you cast the number to an unsigned integer type, shift it, then cast back? At the very least, that'd make it implementation defined right? – tangrs Oct 6 '13 at 6:31
@tangrs Exactly. (The thing it makes it implementation-defined is the unsigned to signed conversion, FYI.) – user529758 Oct 6 '13 at 6:33

Minus 14 should be 11110010. Left shifted 2 places, that gives 11001000.

Assuming two's complement, to convert that to positive, we invert all the bits getting 00110111, then we add 1, getting 00111000. That's 8+16+32 = 56.

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Thank You.I got It. – user2787790 Oct 6 '13 at 6:26

-14 in two's complement is not 11110001, it is 11110010.

Thus, when we bit-shift it, we end up with 11001000, which is -56. At least on an Intel CPU with gcc on Linux. YMMV.

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I would very much like to know what is wrong with this answer. – Michael Hampton Oct 6 '13 at 6:24
The assumptions it makes about the representation of signed numbers and the way it tries to reason the non-reasonable. – user529758 Oct 6 '13 at 6:30

Fourteen is 00001110 (sticking with eight bits). The 1's complement is 11110001. You need to increment this for the 2's complement: 11110010. (Clue: negative 14 is an even number. Least significant bit should be zero.)

Now shift left two places. 11110010 becomes 11001000. Still a negative value (most sig. bit is set) so let's 2's complement this. First, flip all bits for the 1's complement: 00110111. Now increment: 00111000. This is 56. Note that it's just the starting number, the third "word" in this answer, shifted two places. It all works out nicely, doesn't it?

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Note that if you are dealing with 32 bit or 64 bit values (or 27 bit if you're using an old Minuteman guidance computer, whatever...) the higher bits are just the same value repeated as you see in the MSB in the examples shown. – DarenW Oct 6 '13 at 6:31