# Bitwise right and left shift for large power

``````byte b = 5;
int n = 33;
b<<n
b>>n
``````

I know how to calculate it: If this is a left shift, then we need to multiply the number by 2 to power n and for right shift we have to divide the number by 2 to power n.

If n is small number I can calculate. Can someone explain me how to calculate it manually if n is large (like here it's 33) or is there any other method?

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If your right operand is larger than 31 then you can use a `long` instead of an `int`. Its values are between -2^63 and 2^63 - 1.

And beware of `>>`, it does not do what you intuitively think it does. It carries the sign bit!

For instance, on a short which reads:

``````1000 0101
``````

right shifting by 3 will give the completely counterintuitive result:

``````1111 0001
``````

``````0001 0001
``````

If you want "real" right shifting, use `>>>` instead.

If it is even bigger than that, you have to use a `BigInteger`:

``````final BigInteger b1 = new BigInteger("5");
``````

`BigInteger` has `.shiftLeft()` and `.shiftRight()` methods (the equivalents of Java's `<<` and `>>>` -- note the triple `>` -- on integer primitive types). Note that these operations will return a new `BigInteger`! So, don't do:

``````b1.shiftLeft(33);
``````

this will NOT affect the value of `b1`. Do:

``````final BigInteger b2 = b1.shiftLeft(33);
``````
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Actually i want to calculate it manually .. –  ankita gahoi Jun 22 '13 at 10:27
Uh, that is not what your question says at all :/ –  fge Jun 22 '13 at 10:27
And what do you call "calculate manually" anyway? –  fge Jun 22 '13 at 10:28
Not using any IDE like eclipse. –  ankita gahoi Jun 22 '13 at 10:29
Eh? That has nothing to do!! –  fge Jun 22 '13 at 10:30

Use `long` instead of `byte`.

``````long b = 5;
int n = 33;
System.out.println(b<<n);//n should be between 0 to 63
System.out.println(b>>n);//since you are using long,the operation returns long
``````

if left operand is long,the right operand should be between 0 to 63

but if left operand is not long,the right operand should be between 0 to 31

If your right operand can be bigger than 63, use BigInteger

NOTE

Only integral types(int,long,byte,short) are allowed as operands for shift operators

-

Well, basically, you must know what shifting means.

If you have a number `5` which is represented in memory like `0000101` (bits; byte has 8 bits), to shift left (multiply) looks like this:

``````00000101 << 1 = 00001010 = 10 (decimal) //shifting bits to the left
00000101 << 3 = 00101000 = 40 (decimal)
``````

to shift right (divide):

``````00000101 >> 1 = 00000010 = 2 (decimal) //shifting bits to the right
00000101 >> 3 = 00000000 = 0 (decimal)
``````

So you could do it using the loop and a mathematical multiply / divide:

To shift left - multiply:

``````byte b= 5;
long number= (byte)b;
int n= 33;
for (int i=0; i<n; i++) {
number= number * 2;
}

b = (byte)number;
``````

Same goes for right, just divide instead of multiply in the for loop.

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Manually, you still have to multiply it by 2^n for a left shift. And guess what, to do it manually for a right shift, you still have to divide by 2^n and round down the result. So here is to do it manually in detail:

1. Take pen and paper.
2. Write down the number you want to shift.
3. Convert it to binary base representation.
4. Add `n` zeroes behind it.
5. Convert the number back.

Or if you don't want to use the binary representation:

1. Take pen and paper.
2. Write down the number you want to shift.
3. Calculate 2^n manually. It goes like: 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, 1024, 2048, 4192, ...
4. Multiply the number by the one you just calculated using this technique. It is called Long Multiplication.
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