# Java: Point rotation results are not accurate

I have the following code...

``````public class Point {
private double x;
private double y;
static private final double RADTODEG = 180.0d / Math.PI ;
static private final double DEGTORAD = Math.PI / 180.0d;

/**
* Rotates the point by a specific number of radians about a specific origin point.
* @param origin The origin point about which to rotate the point
* @param degrees The number of radians to rotate the point
*/

double ox = x - origin.x;
double oy = y - origin.y;

x = origin.x + ox * cosVal - oy * sinVal;
y = origin.y + ox * sinVal + oy * cosVal;
}

/**
* Rotates the point by a specific number of degrees about a specific origin point.
* @param origin The origin point about which to rotate the point
* @param degrees The number of degrees to rotate the point
*/
public void rotateByDegrees(Point origin, double degrees) {
}

/**
* Rotates the point by the specified number of radians about the axis' origin (0,0). To rotate about a specific origin point, see rotateByRadians(Point, double)
*/
if(isEmpty()) // Since we're rotating about 0,0, if the point is 0,0, don't do anything
return;

double newx = x * cosVal - y * sinVal;
double newy = x * sinVal + y * cosVal;

x = newx;
y = newy;
}

/**
* Rotates the point by the specified number of degrees about to the axis' origin (0,0). To rotate about a specific origin point, see rotateByDegrees(Point, double)
* @param degrees Measure of degrees to rotate the point
*/
public void rotateByDegrees(double degrees) {
}
``````

The problem arises when given a point, say 0,200. Calling the rotation (about axis origin 0,0) for 180 degrees it should be (0, -200). The `x` coordinate shouldn't have changed. However, it ends up being (-2.4492935982947064E-14, -200). I tried using `strictfp` but it doesn't make a difference. This only affects the result if the coordinate being rotated is zero. Nonzero values work fine. Any ideas why this is not accurate?

The code is below:

``````   Point p = new Point(0.0d, 200.0d);
p.rotateByDegrees(180.0d);
System.out.println(p);
``````

Gives output:

``````shapelib.Point Object {x: -2.4492935982947064E-14 y: -200.0}
``````
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Float arithmetic is not fully accurate. Error of 10^-14 power is enough in most cases. If you calculate `Math.sin(Math.PI)` you'll get `1.2246467991473532E-16`. Why do you need to get precisely 0 in your case?

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It seems to work accurately for all values except zero, in which case it can be more than 2.0 off. –  William the Coderer Nov 11 '11 at 23:11
Ah, it's not -2, it's -2.4E-14 (-2 x 10^-14) off –  kyle_wm Nov 11 '11 at 23:13
@WilliamtheCoderer, I hope you don't compare points using p1.x == p2.x and p1.y == p2.y? In other cases, why should it matter? 0.00000000000002 is really small number for most cases. –  Nikita Beloglazov Nov 11 '11 at 23:15
yes... that's a lot for something that should've calculated to zero, since x * 0 = 0... –  William the Coderer Nov 11 '11 at 23:16
otherwise i see what you're saying... i wasn't even noticing the scientific notation there –  William the Coderer Nov 11 '11 at 23:17
show 1 more comment

For better or for worse, that's just the way it is with floating point math. From http://mindprod.com/jgloss/floatingpoint.html:

"Think of float and double as representing physical measurements. No one would complain if their cabinet maker made a desk 6.000000000001 feet long. Analogously, don’t complain about the inevitable tiny errors in floating point arithmetic results e.g. Math. cos( Math.toRadians( 90 ) ) not coming out bang on zero. ( If you want perfection, use int, long, BigInteger or BigDecimal. )"

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