# How to limit a number to a range

I have this function to limit a rotation to the range from 0.0 to 360.0:

``````private float ClampRotation( float rotation ) {

while( rotation < 0.0f ) rotation += 360.0f;
while( rotation >= 360.0f ) rotation -= 360.0f;

return rotation;

}
``````

This functions works great and it probably can't be more efficient, but I'm just wondering if there are a native Java function that can do the same?

The closest I get is Math.min/max, but it doesn't work as this. A rotation of -10.0 should output 350.0 and not 0.0 as min/max would do.

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It's certainly not the most efficient solution - the larger the number, the longer you loop. –  tdammers Nov 20 '10 at 20:30
"Can't be more efficient" it can be enormously more efficient for large values of rotation, as @Paul answer proves. –  JamesKPolk Nov 20 '10 at 20:31

% (modulus) works on floating point values so use `rotation % 360.0f` (you will need to add 360.0 afterwards to negative numbers)

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The modulus operator just checks whether two numbers are evenly divisible... I'm not sure how it's going to help with the OP's question. –  William Linton Nov 20 '10 at 20:31
@willell: in fact, it returns the remainder when one number is divided by the other - when this is zero, they're exactly divisible. –  SimonJ Nov 20 '10 at 20:38

Use the modulus operator then account for values less than 0;

``````private float ClampRotation( float rotation ) {

rotation = rotation % 360f;

if (rotation < 0f) rotation += 360f;

return rotation;

}
``````
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it's just math.. you can do it like this:

``````private float ClampRotation( float rotation ) {

return rotation+360.0f*Math.ceil(-rotation/360.0f);

}
``````

i'm pretty sure it's ok

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I think you just invented the `%` operator ;) –  SimonJ Nov 20 '10 at 20:41
it's actually the opposite (finding how many times 'rotation' is in 360. modulo finds the remainder) (btw - you still right when you're saying that it can be done with % instead. for some reason i prefer this..) –  RoeeK Nov 20 '10 at 20:54
No, this is a variant of "floored division" modulo (see en.wikipedia.org/wiki/Modulo_operation). Nothing wrong with it - it worked for Knuth! –  SimonJ Nov 20 '10 at 21:04

You have the traditional implementation of wrapping angles which are less than an order of magnitude away the desired range.

Modulus is a bit weird for floating point - it returns negative for negative, so you still have to have a branch, and it involves a division, which is slower on some machines ( as in I've not found a machine where % is significantly less expensive than going round a loop with a couple of subtractions two or three times ).

If your values are within say -1000 to +1000, then your version is both clearer and faster. If your values are wider than that, go for a modulus based version. If it's very important, test both on your hardware with the value ranges you are going to use.

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