# Closest integer value to 20

If I have a number greater than 20 but that can be divided evenly by 2 without any remainder, I want to determine what number gets me closest to 20. For example:

For 2048, dividing by 2 enough times would get me to 16 which is the closest I can get to 20. If the number is 800, the closest is 25.

I can write a loop and just keep dividing and comparing the range and pick the value that is closest. Is there maybe a simpler way, possibly through shifting bits?

EDIT: When I say it evenly divides by 2, I mean it divides all the way down to 2 as well. A number of 70 would only divide down to 35 evenly. A number like 2048 or 1024 will divide evenly all the way to 2.

Sample numbers: 2048, 1920, 1600, 1536, 1080..640, 352, 320, 176. These are typical image sizes from cameras.

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You need to check if your value is even on each step, so in any case you need a loop. –  mishadoff Jan 22 '13 at 10:21
What would you do with those number that cannot be divided by 2 without remainder (e.g. odd numbers, like 35?) –  GaborSch Jan 22 '13 at 10:24
He wants to do it for even numbers only. –  Swapnil Jan 22 '13 at 10:25
For no reason other than to satisfy my curiosity... what is the use case for this? –  Duncan Jan 22 '13 at 10:26
OMG The answer is 42! Divide it by 2 and you get 21 which is the closest integer to 20 without being 20. –  Peter Lawrey Jan 22 '13 at 10:34

If your input number is `x`, I think you want `x/2^[(log x/14)/log 2]`, assuming you want your target number to be in the interval `[14,27]`.

In java code, `Math`'s `log` function will come in handy (although base-2 logarithm would be even better), and you also need an integer cast (or somehow find the largest integer smaller than the expression in `[]`).

What this does: Let `x` be your input and `y` be the number you want to find. Then, `x=y*2^n` for yet unknown `n`, while `y` is around 20 (see above). Obviously, `n` is the base-2 logarithm of `x/y`. Now, if you pick the smallest possible `y`, call it `y'`, the integer part of the base-2 logarithm of `x/y'` is still the `n` we are looking for, unless `x/y'` differs from `x/y` by a factor of more than 2, which by assumption of repeated division by 2 it cannot. Thus, we have `n` and hence `y=x/2^n`.

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Yes, please do. I wonder if the up-voters understood the formula, or just thought "Hmmm, that looks clever!". –  Duncan Jan 22 '13 at 10:28
closest to 20 not the same as around 20. For example, for input `70` algorithm must produce `35` –  mishadoff Jan 22 '13 at 10:33
Erm..."that looks clever"?! Maybe rather "that looks like an application of high-school math"? ;-) Anyway, typing the explanation took much longer than the interval between posting the answer and your comments. –  arne.b Jan 22 '13 at 10:34
I don't see how that works. I punched in some numbers and didn't get any integer values. Not even close. –  AndroidDev Jan 22 '13 at 10:35

You effectively want to trim all the trailing zero bits until you have a number which is greater than 13.

Another way to do this is to trim all the zeros, and add them back if the result is too small.

``````public static long func(long num) {
if (num <= 26) return num;
long trimZeros = num >>> Long.numberOfTrailingZeros(num);
while(trimZeros <= 13) trimZeros <<= 1;
return trimZeros;
}
``````

26 is closer to 20 than 13, but 14 is closer to 20 than 28.

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func(2048) would return 32 and not 16 as expected. –  stacker Jan 22 '13 at 10:43
@stacker I miss read, greater than 20. –  Peter Lawrey Jan 22 '13 at 10:51

If you want to use shifting you could start with something like this:

``````public static int func2(int val) {
int min = Integer.MAX_VALUE;
int close = 0;
while (val > 1) {
val = val >>> 1;
if (Math.abs(val - 20) < min) {
min = Math.abs(val - 20);
close = val;
}
}
return close;
}

public static void main() {
for ( int i : new int []{2048, 1920, 1600, 1536, 1080, 640, 352, 320, 176}) {
System.out.println( i + " -> " + func2( i ));
}
}
``````

Prints

``````2048 -> 16
1920 -> 15
1600 -> 25
1536 -> 24
1080 -> 16
640 -> 20
352 -> 22
320 -> 20
176 -> 22
``````
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Is there any advantage over dividing by 2? I think, a clever compiler might replace dividings by 2 with a shift anyway. –  Chris Jan 22 '13 at 10:33
@Chris He asked for the posibility to do that with shifting, I don't see an advantage. –  stacker Jan 22 '13 at 10:35
Yes, your answer is ok. I just wondered if it makes any difference. –  Chris Jan 22 '13 at 10:53
Actually I was just trying to avoid loops. arne's solution does this. –  AndroidDev Jan 22 '13 at 10:58