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int i =132;
byte b =(byte)i;

The output is -124

Why is that? I know this is a very basic question, but I'm still not able to map it, or understand how this happens?

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up vote 120 down vote accepted

In Java, an int is 32 bits. A byte is 8.

Everything in Java is signed, and bytes, ints, longs are encoded in two's complement.

In this numberscheme the most significant bit specifies the sign of the number. If more bits are needed, the most significant bit ("MSB") is simply copied to the new MSB.

So if you have byte 255: 11111111 and you want to represent it as an int (32 bits) you simply copy the 1 to the left 24 times.

Now, one way to read a negative two's complement number is to start with the least significant bit, move left until you find the first 1, then invert every bit afterwards. The resulting number is the positive version of that number

For example: 11111111 goes to 00000001 = -1. This is what Java will display as the value.

What you probably want to do is know the unsigned value of the byte.

You can accomplish this with a bitmask that deletes everything but the least significant 8 bytes. (0xff)


byte signedByte = -1;
int unsignedByte = signedByte & (0xff);

System.out.println("Signed: " + signedByte + " Unsigned: " + unsignedByte);

Would print out: "Signed: -1 Unsigned: 255"

What's actually happening here?

We are using bitwise AND to mask all of the extraneous sign bits (the 1's to the left of the least significant 8 bits.)


Since the 32nd bit is now the sign bit instead of the 8th bit (and we set the sign bit to 0 which is positive), the original 8 bits from the byte are read by Java as a positive value.

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Actually characters are not signed. – Rollerball Mar 2 '13 at 13:47
well done, the best explanation on this subject, Wayne! I'm just looking for the math formalization why in a two's complement representation the sign bit can be copied on the right in order to add bits. It's easy to understand it thinking to the rule of how to obtain the negative of a number. that is: consider all the bits from right to left and write them unchanged till the first 1 comprised. Then invert the subsequent bits. If i consider the missing bit to be 0s, it's easy to understand that they all go to 1. But i was looking for a more 'math' explanation. – AgostinoX Aug 22 '14 at 19:44
Whats hapenning here signedByte & (0xff) is that 0xff is an interger literal, thus signedByte gets promoted to an integer before the bitwise operation is performed. – Kevin Wheeler Nov 8 '14 at 23:40

byte in Java is signed, so it has a range -2^7 to 2^7-1 - ie, -128 to 127. Since 132 is above 127, you end up wrapping around to 132-256=-124. That is, essentially 256 (2^8) is added or subtracted until it falls into range.

For more information, you may want to read up on two's complement.

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132 is outside the range of a byte which is -128 to 127 (Byte.MIN_VALUE to Byte.MAX_VALUE) Instead the top bit of the 8-bit value is treated as the signed which indicates it is negative in this case. So the number is 132 - 256 = -124.

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To understand how it works, we need to know that computers work in bits.

132 in base 10 (decimal) is 10000100 in base 2 (binary). Since Java stores int in 32 bits, what we have is


When an int is converted into a byte, Java chops-off the left-most 24 bits. What is left is 10000100.

In two's complement, the left-most bit is used as the sign. If the left-most bit is 0, nothing furthur will be done.

If the left-most bit is 1 (as we have here), it means that the number is negative and more work needs to be done. To get the magnitude, we minus one then apply one's complement (apply one's complement means we invert the bits):

  1. 10000100 - 1 = 10000011

  2. 10000011 inverted = 01111100

01111100 when interpreted as a decimal number, is 124.

So we have a negative number with a magnitude of 124, giving us -124.

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often in books you will find the explanation of casting from int to byte as being performed by modulus division. this is not strictly correct as shown below what actually happens is the 24 most significant bits from the binary value of the int number are discarded leaving confusion if the remaining leftmost bit is set which designates the number as negative

public class castingsample{

public static void main(String args[]){

    int i;
    byte y;
    i = 1024;
    for(i = 1024; i > 0; i-- ){

      y = (byte)i;
      System.out.print(i + " mod 128 = " + i%128 + " also ");
      System.out.println(i + " cast to byte " + " = " + y);



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here is a very mechanical method without the distracting theories:

  1. Convert the number into binary representation (use a calculator ok?)
  2. Only copy the rightmost 8 bits (LSB) and discard the rest.
  3. From the result of step#2, if the leftmost bit is 0, then use a calculator to convert the number to decimal. This is your answer.
  4. Else (if the leftmost bit is 1) your answer is negative. Leave all rightmost zeros and the first non-zero bit unchanged. And reversed the rest, that is, replace 1's by 0's and 0's by 1's. Then use a calculator to convert to decimal and append a negative sign to indicate the value is negative.

This more practical method is in accordance to the much theoretical answers above. So, those still reading those Java books saying to use modulo, this is definitely wrong since the 4 steps I outlined above is definitely not a modulo operation.

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