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I don't understand the output from the following code:

public static void main(String[] args) {
    int i1, i2, i3, i4;
    byte b;
    i1 = 128;
    b = (byte) i1;
    i2 = (int) b;
    i3 = 0 | b;
    i4 = 1 << 7;
    System.out.format("i1: %d   b: %d   i2: %d   i3: %d   i4: %d\n", i1, b, i2, i3, i4);
}

Output:

i1: 128   b: -128   i2: -128   i3: -128   i4: 128

Because byte is an 8-bit two's-complement signed integer, the binary representations with a 1 in the most significant bit are interpreted as negative values, which is why b becomes -128, which I'm totally fine with. I also understand that it's probably a good idea to keep the interpretation consistent when casting, as with i2. But shouldn't i3 and i4 have identical bit patterns and therefore map to identical int values?

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i would just like to express my indignation about Java's bytes. As I learned it, byte is by definition a number between 0 and 255 and therefore the complete mess they have done to byte in Java can not be excused. The -128..127 calls for a new primitive data type. –  Peter Perháč Apr 21 '09 at 8:56
1  
I would like to see that definition. The definitions I googled say that a byte is 8 bits, enough to represent a character. –  Peter Lawrey Apr 21 '09 at 20:54
    
I guess I just got so used to the idea that the color components R G B are BYTES in range 0..255. Also the ASCII table maps characters to numbers in this range. I have never tried typing Alt+(-)+(number), it's always been a positive number 0..255. I was appalled by the conception of byte data type in Java. –  Peter Perháč Apr 26 '09 at 15:43

7 Answers 7

up vote 4 down vote accepted

Sign extension is what is making i2 and i3 negative.

In the expression (0 | b), b is promoted to an int, and sign extension occurs as part of this promotion.

That's not happening in the expression assigned to i4. The constants 1 and 7 are already ints so there's no sign extension involved.

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I would have said that 1 and 7 are int type and so is the result so that why is no sign extension involved. –  Peter Lawrey Apr 21 '09 at 20:50
    
Yeah - that's both more correct and easier to understand than what I wrote - edited the answer to reflect this. –  Michael Burr Apr 21 '09 at 21:45

In this line:

i3 = 0 | b;

The "b" variable is automatically promoted to int type with sign extension because of the | operator, so becomes (int)-128, i.e. 0xffffff80.

When "or"ed with zero, its still the same value, namely -128

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No, i4 is not a byte value, it's an int. That means that its sign bit is bit 31, not bit 7.

UPDATE: i3 is an int too, but it is initialized by extending a byte, so it keeps the sign from the byte value.

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But i3 is also an int... why is it negative then? –  Yuval Apr 21 '09 at 8:50
    
The i3 assignment is similar to the i2 assignment... The expression returns a byte that is cast to an int. –  Arjan Einbu Apr 21 '09 at 8:54

i2 = (int) b;

i3 = 0 | b;

the i3 statement is equivalent to:

i3 = 0 | ((int) b) = 0 | i2 so naturally it is going to have the same value as i2

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That's simple. i3 = 0 | b; gets evaluated like byte, then it is converted to int. Whereas i4 = 1 << 7; will evaluate value as int and assign it to int. So in the first case we get 10000000b cast to int from byte, which will give us -128. And in the second we just assign this value to int without cast, which gives us 128.

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If you want to get the unsigned value of the bit pattern in a byte:

b & 0xff

See also this old answer.

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Do you happen to know the exact reason why & works and | doesn't? –  Hanno Fietz Apr 21 '09 at 9:22

In

i3 = 0 | b;

I'm guessing the 0 | b part is evaluated as a byte, and the results are then cast to an int, while in

i4 = 1 << 7;

the 1 << 7 part is already an int.

The above guess has been pointed out in the comments to be wrong!

The correct version is: In the top expression, the b is already cast to an int with sign extension before the OR operation.

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1  
“0 | b” is not evaluated as a byte. “b” is widened to int before the OR operation. –  Bombe Apr 21 '09 at 9:19
    
@Arjan - you guess wrong... –  Alnitak Apr 21 '09 at 9:23
    
@Bombe: It's very clear now that you point that out! Thanks! –  Arjan Einbu Apr 21 '09 at 9:46

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