I cannot figure out why this works. I am attempting to mask the least significant 32 bits of java on a long but it does not properly AND the 33rd and 34th bit and further. Here is my example

class Main {
  public static void main(String[] args) {
    long someVal = 17592096894893l; //hex  0xFFFFAAFAFAD
    long mask = 0xFF; //binary
    long result = mask & someVal;                  

    System.out.println("Example 1 this works on one byte");
    System.out.printf("\n%x %s", someVal, Long.toBinaryString(someVal) );
    System.out.printf("\n%x %s", result, Long.toBinaryString(result) );

    long someVal2 = 17592096894893l; //hex  0xFFFFAAFAFAD
    mask = 0xFFFFFFFF; //binary
    result = mask & someVal2; 
    System.out.println("\nExample 2 - this does not work");
    System.out.printf("\n%x %s", someVal2, Long.toBinaryString(someVal2) );
    System.out.printf("\n%x %s", result, Long.toBinaryString(result) );

I was expecting the results to drop the most significant byte to be a zero since the AND operation did it on 32 bits. Here is the output I get.

Example 1 - this works
ffffaafafad 11111111111111111010101011111010111110101101
ad 10101101
Example 2 - this does not work

ffffaafafad 11111111111111111010101011111010111110101101
ffffaafafad 11111111111111111010101011111010111110101101

I would like to be able to mask the first least significant 4 bytes of the long value.

  • Just change the type of result to int and do it with a cast. – user207421 Apr 28 at 3:42

I believe what you’re seeing here is the fact that Java converts integers to longs using sign extension.

For starters, what should this code do?

int myInt = -1;
long myLong = myInt;

This should intuitively print out -1, and that’s indeed what happens. I mean, it would be kinda weird if in converting an int to a long, we didn’t get the same number we started with.

Now, let’s take this code:

int myInt = 0xFFFFFFFF;
long myLong = myInt;

What does this print? Well, 0xFFFFFFFF is the hexadecimal version of the signed 32-bit number -1. That means that this code is completely equivalent to the above code, so it should (and does) print the same value, -1.

But the value -1, encoded as a long, doesn’t have representation 0x00000000FFFFFFFF. That would be 232 - 1, not -1. Rather, since it’s 64 bits long, -1 is represented as 0xFFFFFFFFFFFFFFFFF. Oops - all the upper bits just got activated! That makes it not very effective as a bitmask.

The rule in Java is that if you convert an int to a long, if the very first bit of the int is 1, then all 32 upper bits of the long will get set to 1 as well. That’s in place so that converting an integer to a long preserves the numeric value.

If you want to make a bitmask that’s actually 64 bits long, initialize it with a long literal rather than an int literal:

mask = 0xFFFFFFFFL; // note the L

Why does this make a difference? Without the L, Java treats the code as

  1. Create the integer value 0xFFFFFFFF = -1, giving 32 one bits.
  2. Convert that integer value into a long. To do so, use sign extension to convert it to the long value -1, giving 64 one bits in a row.

However, if you include the L, Java interprets things like this:

  1. Create the long value 0xFFFFFFFF = 232 - 1, which is 32 zero bits followed by 32 one bits.
  2. Assign that value to mask.

Hope this helps!

  • Thank you so much. This makes perfect sense. I didn't realize that hex was initializing as 32 bit hex. – FernandoZ Apr 28 at 0:44

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.