# What would be the most performant (also safe) way to replace the last digit of a long?

What would be the most performant (also safe) way to replace the last digit(Least significant digit) of a `long`(that was actually generated as timestamp by System.currentTimeInMillis()) by some other digit?

Or is there a better way to attach any fixed attachment to the end of it, by making use of bitwise operations?

-
Are you talking about binary digits or decimal digits? –  Nikita Rybak Mar 6 '11 at 5:52
Either is good for me.. if replacing binary then I want to replace for 2 bits else in case of decimal just one digit. –  user01 Mar 6 '11 at 5:58

In your comments you say that both binary digits or decimal digits would be fine. Since Andrew posted the decimal version, i post the binary version in which you want to replace the 2 ls-bits:

The following program goes through the 4 possibilities with which you can replace the 2 ls-bits and produces the output:

``````9999999999999999
9999999999999996
9999999999999997
9999999999999998
9999999999999999
``````

code:

``````public class A {
public static void main(String[] args) {

long aLong = 9999999999999999L;
System.out.println(aLong);

long aLong2 = aLong & ~3 + 0;
System.out.println(aLong2);
aLong2 = aLong & ~3 + 1;
System.out.println(aLong2);
aLong2 = aLong & ~3 + 2;
System.out.println(aLong2);
aLong2 = aLong & ~3 + 3;
System.out.println(aLong2);

}
}
``````
-

If this is not a hypothetical question, ie to find a fast algorithm for the heck of it, then please ignore this answer. The correct way (as has been mentioned) is to do (somelong/10)*10 + newvalue

A faster (hypothetical) way is probably to have some two dimension array of adjustment values.

where the first array index represents what the current value is anded with 0x0F (the last 4 bits) the second array index would be what you want the new number to be

the value is the adjustment to the variable

so the code would be

so no multiplication or division

as an example, let's say the input number is 22, and you want it to be 26

26 is 011010 so 26 & 0x0F is the bottom 4 bits 1010 which is 10

adjustment[10][6] = 4 (you have precalculated that it is 4)

so you'd have 22 + 4 = 26

obviously index 10 is the same as index 0, index 11, is the same as index 1, etc, etc.

-