# Shifting by Negative Numbers

I am pretty confused with this expression here. I am a Java programmer but I am not very well versed with bit manipulation.

I think I understand the below correctly:

``````Input : 1 << 10
Output: 0000000000000000000010000000000
``````

For positive numbers, I think it is you move 1 by 10 bits.

The confusion is when I have the below:

``````int val = -10 (binary representation : 1111111111111111111111111110110 )
Input : 1 << val
Output: 0000000010000000000000000000000
``````

That would be really great if someone can explain me the meaning of left shifting or right shifting by negative number.

-

`<<` (and other shift operators) only takes 5 least significant bits of its right operand for `int`, and 6 for `long`, because it makes no sense to shift `int` by more than 31.

In your case it's `0b10110` = `22`.

Therefore `1 << (-10)` is equivalent to `1 << 22`.

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Thank you very much... I think I am getting it. –  dharam Sep 12 '13 at 18:37
The reason for only considering the lower bits is that the hardware does it that way. It would be inefficient to do it differently (say shift left for positive and right for negative numbers, or return 0 if you shift an `int` left by more than 31). –  starblue Sep 13 '13 at 8:07

From the JLS, section 15.19:

If the promoted type of the left-hand operand is int, only the five lowest-order bits of the right-hand operand are used as the shift distance. It is as if the right-hand operand were subjected to a bitwise logical AND operator & (§15.22.1) with the mask value 0x1f (0b11111). The shift distance actually used is therefore always in the range 0 to 31, inclusive.

In other words,

``````1 << -10
``````

is equivalent to:

``````1 << (-10 & 0x1f)
``````

... which is

``````1 << 22
``````
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thank you very much :) –  dharam Sep 12 '13 at 18:39