# How to calculate an angle of a right triangle knowing two sides? [closed]

I need to calculate an angle between two points in 2D space. Is it a good idea to calculate it using right triangle? Please give me the formula, written in Java code. Thank you!

Here's my code:

``````public boolean onAreaTouched(TouchEvent pSceneTouchEvent,
float pTouchAreaLocalX, float pTouchAreaLocalY) {
double angle = Math.atan2(
pTouchAreaLocalX - boundSpriteCenterX,
boundSpriteCenterY - pTouchAreaLocalY);
angle = Math.toDegrees(angle);
Log.i("egor", "angle " + angle);
return true;
};
``````

And here's what I'm getting when I rotate my finger around the sprite:

``````    07-21 16:07:00.736: INFO/egor(12600): angle -11.401802094139539
07-21 16:07:00.786: INFO/egor(12600): angle -11.349729213136412
07-21 16:07:00.826: INFO/egor(12600): angle -11.422536712363058
07-21 16:07:00.956: INFO/egor(12600): angle -11.234933754467884
07-21 16:07:00.986: INFO/egor(12600): angle -10.762776313908919
07-21 16:07:01.026: INFO/egor(12600): angle -10.18502866163197
07-21 16:07:01.086: INFO/egor(12600): angle -8.791364033967513
07-21 16:07:01.126: INFO/egor(12600): angle -7.51789397098733
07-21 16:07:01.266: INFO/egor(12600): angle -5.964822509364536
07-21 16:07:01.266: INFO/egor(12600): angle -3.8833834235199327
07-21 16:07:01.316: INFO/egor(12600): angle -3.518004982991794
07-21 16:07:01.316: INFO/egor(12600): angle -3.2335041547308747
07-21 16:07:01.356: INFO/egor(12600): angle -2.8893793853454013
07-21 16:07:01.366: INFO/egor(12600): angle -2.591166578194567
07-21 16:07:01.396: INFO/egor(12600): angle -2.4890755982704613
07-21 16:07:01.426: INFO/egor(12600): angle -2.4041628132172432
07-21 16:07:01.466: INFO/egor(12600): angle -2.606754218788734
07-21 16:07:01.486: INFO/egor(12600): angle -2.9585030905373477
07-21 16:07:01.516: INFO/egor(12600): angle -3.203094764102693
07-21 16:07:01.546: INFO/egor(12600): angle -4.143849229994
07-21 16:07:01.576: INFO/egor(12600): angle -4.833402961115934
07-21 16:07:01.596: INFO/egor(12600): angle -5.201363076921709
07-21 16:07:01.626: INFO/egor(12600): angle -7.182189581196999
07-21 16:07:01.666: INFO/egor(12600): angle -8.30009901770206
07-21 16:07:01.706: INFO/egor(12600): angle -10.305907456087617
07-21 16:07:01.746: INFO/egor(12600): angle -11.845396664651743
07-21 16:07:01.776: INFO/egor(12600): angle -13.486956315730428
07-21 16:07:01.796: INFO/egor(12600): angle -14.928485252180119
07-21 16:07:01.826: INFO/egor(12600): angle -15.930527466185383
07-21 16:07:01.856: INFO/egor(12600): angle -17.523214080867536
07-21 16:07:01.876: INFO/egor(12600): angle -18.670097079838413
07-21 16:07:01.906: INFO/egor(12600): angle -19.784066963586145
07-21 16:07:01.946: INFO/egor(12600): angle -20.967697211428263
07-21 16:07:01.966: INFO/egor(12600): angle -22.839177072269344
07-21 16:07:01.986: INFO/egor(12600): angle -23.995902815112903
07-21 16:07:02.026: INFO/egor(12600): angle -24.94729858380699
07-21 16:07:02.046: INFO/egor(12600): angle -25.824795978977953
07-21 16:07:02.066: INFO/egor(12600): angle -26.163619752371858
07-21 16:07:02.106: INFO/egor(12600): angle -27.036651116353283
07-21 16:07:02.126: INFO/egor(12600): angle -27.392238974828167
07-21 16:07:02.266: INFO/egor(12600): angle -28.076676644069305
07-21 16:07:02.276: INFO/egor(12600): angle -28.49774854622218
07-21 16:07:02.316: INFO/egor(12600): angle -28.408406568602896
07-21 16:07:02.316: INFO/egor(12600): angle -28.323322872571392
07-21 16:07:02.356: INFO/egor(12600): angle -28.24684157963425
07-21 16:07:02.366: INFO/egor(12600): angle -28.115274003009183
07-21 16:07:02.406: INFO/egor(12600): angle -27.97540955255425
07-21 16:07:02.426: INFO/egor(12600): angle -27.947947494965728
07-21 16:07:02.446: INFO/egor(12600): angle -27.908408445343735
07-21 16:07:02.486: INFO/egor(12600): angle -27.621472392453533
07-21 16:07:02.506: INFO/egor(12600): angle -27.31775291690124
07-21 16:07:02.526: INFO/egor(12600): angle -26.84707894871403
07-21 16:07:02.556: INFO/egor(12600): angle -26.573497423338885
07-21 16:07:02.586: INFO/egor(12600): angle -25.553344674326492
07-21 16:07:02.606: INFO/egor(12600): angle -24.681035396816615
07-21 16:07:02.646: INFO/egor(12600): angle -23.164315738891876
07-21 16:07:02.686: INFO/egor(12600): angle -22.001937944957152
07-21 16:07:02.696: INFO/egor(12600): angle -21.108728821882377
07-21 16:07:02.726: INFO/egor(12600): angle -20.777362892583056
07-21 16:07:02.756: INFO/egor(12600): angle -20.331914563591184
07-21 16:07:02.776: INFO/egor(12600): angle -19.842422968714942
07-21 16:07:02.796: INFO/egor(12600): angle -18.943202330016586
07-21 16:07:02.836: INFO/egor(12600): angle -17.900217339627066
07-21 16:07:02.886: INFO/egor(12600): angle -16.38438849186955
07-21 16:07:02.896: INFO/egor(12600): angle -15.49309440885704
07-21 16:07:02.916: INFO/egor(12600): angle -14.663361857753415
07-21 16:07:02.956: INFO/egor(12600): angle -14.06291160310325
07-21 16:07:02.976: INFO/egor(12600): angle -13.743513115207124
07-21 16:07:02.996: INFO/egor(12600): angle -13.436847871994882
07-21 16:07:03.076: INFO/egor(12600): angle -13.436847871994882
``````
-

## closed as not a real question by Johan Kotlinski, jonsca, Andrew Thompson, woodchips, Ian RingroseJul 21 '11 at 14:07

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

possible duplicate of Calculating the angle between the line defined by two points – Johan Kotlinski Jul 21 '11 at 11:21
two points aren't enough to determine an angle, you need a third one (or a line). The origin, one of the axis? – Eineki Jul 21 '11 at 11:22
The question makes no sense. You can only calculate an angle between 3 points, or 2 lines. Are you after a bearing? Please explain better and give an example of what you're trying to actually find. – Mark Fisher Jul 21 '11 at 11:22
@Egor Do you mean, given points A and B, the angle between the lines OA and OB coming from the origin of the coordinate system ("point zero") O? – quant_dev Jul 21 '11 at 11:27
@Mark Fisher, sorry, understood my mistake. I've got a picture that I need to rotate while rotating finger around it. Figure's top must always look at the finger, though there are two lines: one from the center of figure up, and second from the center of figure to the finger. – Egor Jul 21 '11 at 11:28

In screen coordinates (where the origin is at the top left and Y increases downwards) if the centre of the image is (x0,y0) and the "finger" is at (xa,ya) then the angle you require is

``````Math.atan2(xa-x0,y0-ya)
``````

This will give you the angle in radians by which you have to rotate the image clockwise from its starting position.

-
It doesn't work – Egor Jul 21 '11 at 11:51
Can you be more specific? I am using a coordinate system where X points to the right and Y points upwards. If you are using screen pixel coordinates you may need to change the sign of Y. The result is in radians. I can't think what else can "not work". – Ben Jul 21 '11 at 11:58
I'm working in a standard coordinate system where (0,0) is in the upper left corner of the screen. I have a figure, that initially is looking up. When I tap my finger on the screen, I want the figure to turn to my finger's tap. Means I want to rotate it on the angle between the positive Y axis and my finger's touch. – Egor Jul 21 '11 at 12:13
OK, I've changed the sign of y for you. – Ben Jul 21 '11 at 12:26

I agree with Ben's solution above, here's some code giving examples in all 4 quadrants and at edges

``````public class CalculateAngle {
public static void main(String[] args) {
System.out.println(angleInDegrees(100, 100, 100, 0)); // directly above centre = 0.0
System.out.println(angleInDegrees(100, 100, 200, 100)); // directly to the right = 90.0
System.out.println(angleInDegrees(100, 100, 0, 100)); // directly to the left = -90.0
System.out.println(angleInDegrees(100, 100, 100, 200)); // directly below centre = 180.0
System.out.println(angleInDegrees(100, 100, 200, 0)); // 45 degrees to right and above = 45.0
System.out.println(angleInDegrees(100, 100, 0, 0)); // 45 degrees to left and above = -45.0
System.out.println(angleInDegrees(100, 100, 0, 200)); // 45 degrees to left and below = -135.0
System.out.println(angleInDegrees(100, 100, 200, 200)); // 45 degrees to the right and below = 135.0
}

public static double angleInDegrees(double centreX, double centreY, double pointX, double pointY) {
return Math.atan2(pointX - centreX, centreY - pointY) * 180.0F / Math.PI;
}
}
``````

Just remove the `* 180.0F / Math.PI` to return the angle in radians for use in rotations.

-
Thanks for the testing! You could also use Math.toDegrees() and Math.toRadians() to do the conversions. – Ben Jul 21 '11 at 13:04
It doesn't seem to work right, probably I'm missing something. Please check my post, I've edited it with my code and values I'm getting. Thank you. – Egor Jul 21 '11 at 13:09