# Dividing by power of 2 using bit shifting

I've got the following task:

Compute `x/(2^n)`, for `0 <= n <= 30` using bit shifting.

Requirement: Round toward zero.

Examples:

``````divpwr2(15,1) = 7
divpwr2(-33,4) = -2
``````

Legal operators: `! ~ & ^ | + << >>`

Maximum number of operators: 15

Here is what I've got so far:

``````public int DivideByPowerOf2(int x, int n)
{
//TODO: find out why DivideByPowerOf2(-33,4) = -3 instead of -2
return x >> n;
}
``````

`DivideByPowerOf2(15,1) = 7` is ok.

But `DivideByPowerOf2(-33,4) = -3` instead of -2. Why?

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Smells like homework ... –  Joey Feb 21 '11 at 0:12
You will be interested to note that 33 >> 4 = 2. So, the question is, what does the `>>` operator do with negative numbers? –  Noon Silk Feb 21 '11 at 0:14
@Joey perhaps it is. He's not asking us to do his homework for him - he's asking us why is his function not doing what he expects. –  corsiKa Feb 21 '11 at 0:14
Hint: Which bit is the sign bit, and what happens to it when you shift? –  David R Tribble Feb 21 '11 at 0:15
@glow: It still was very poorly asked. Changed by now, though. –  Joey Feb 21 '11 at 0:46

``````public int DivideByPowerOf2(int x, int n)
{

return (x + ((x >> 31) & ((1 << n) + ~0))) >> n;
}
``````
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Doesn't explain why the C# shift is giving the wrong answer? –  aserwin Oct 18 '12 at 19:26

Negative numbers work out to be one off in the binary representation due to their two's complement representation. Perhaps reading about two's complement will help.

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thanks, that did help –  Sotelo Feb 21 '11 at 1:10

Pay close attention to the rounding behavior.

• `/` (integer divide) always rounds toward zero.
• What does bit shifting do?
• How can you compensate for this difference?
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thanks for the help –  Sotelo Feb 21 '11 at 1:10