# Java shift operator

Consider the following Java code:

``````byte a = -64;
System.out.println(a << 1);
``````

The output of this code is `-128`

I tried as follows to figure out why this is the output:

64 = 0 1000000 (the MSB is the sign bit)

-64= 1 1000000 (Tow's complement format)

Expected output after shifting: 1 0000000 (This is equal to 0, because the MSB is just a sign bit)

Please anyone explain what I am missing.

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## 7 Answers

The two's complement representation of -128 is 10000000, thus your results are correct.

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``````10000000 is -128
10000001 is -127
10000010 is -126
...
``````

So `10000000` is not `0`. It is `-128` which was your output.

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Is there any direct arithmetic way to convert two's complement to decimal? –  DUKE Feb 9 '12 at 8:15
Do you mean `int i = Integer.parseInt("10000000", 2);`? –  juergen d Feb 9 '12 at 8:30
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This program

``````System.out.println(Integer.toBinaryString(-64));
System.out.println(Integer.toBinaryString(-64 << 1));
System.out.println("-64 << 1 = " + (-64 << 1));
``````

prints

``````11111111111111111111111111000000
11111111111111111111111110000000
-64 << 1 = -128
``````

You can see that -64 << 1 is the same as -64 except all the bits have been shift left by 1 (the lowest bit becomes a 0)

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If you want to express `-128` why would you want to write it in this strange way? –  Imray May 28 '13 at 19:03
@Imray You might need to write `x << 1` and you might need to know that x=-64 will result in -128. I can't think of a good reason to write `-64 << 1` except if you want to know what you would get. –  Peter Lawrey May 29 '13 at 10:22
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In two's complement, the MSB is not just a sign bit, you're thinking ones'-complement maybe? In 8 bit two complement,

10000000 = 0x80 = -128

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Please explain more about the conversion 10000000 = 0x80 = -128 (I don't understand that 0x80) :) –  DUKE Feb 9 '12 at 8:13
@MISS_DUKE Read about two's complement. –  Jesper Feb 9 '12 at 8:25
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In shift operators sign bit is ignored. So 1 1000000 << 1 is 10000000 which is -128.what's the problem?
Our machines are using two's complement to represent numbers (signed and unsigned). For representing a negative number machine negates it's positive and adds 1.
-128 is !10000000 + 1 = 01111111 + 1 = 10000000
EDIT:
I was wrong, only right shift operator's ignoring the sign bit. 10100000 << 1 == 01000000
For unsigned right shifting there's an operator >>> which shifts sign bit too.
11000000>>1 == 10100000 and 11000000>>>1 == 01100000

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If sign bit is ignored how the result be a signed (negative) number?! –  DUKE Feb 9 '12 at 7:39
I don't think "ignored" is quite the right word, but the point is that `10000000 == -128`, not `0` as you thought. –  Brian Roach Feb 9 '12 at 7:46
I've edited my answer, take a look. –  shift66 Feb 9 '12 at 7:46
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`<<` means multiply by 2

`>>` means divide by 2

And, during shift operations don't consider signed bit.

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But the machine seems considering the sign bit, because it is presenting a signed number as output?! –  DUKE Feb 9 '12 at 8:11
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I’m wondering. `<< 1` (ignoring all details) is “multiply with 2.” -64 * 2 = -128. So why are you wondering that it indeed is -128?

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