# Points on a rotated rectangle

I'm attempting to calculate the bottom-left point in a rectangle as it is rotated around. I've attempted to Google it, but apparently I'm missing something. I'm attempting to use a transformation matrix to calculate the point.

For my setup, I have a rectangle clip called "test" and a clip called "pnt" that I'm trying to keep on the lower left point. Here is the code for my demo. I've just thrown this onto the first frame of the timeline to test:

//declare initial position of points
pnt.x = (test.x - test.width/2);
pnt.y = (test.y + test.height/2);

//distance between corner and center
var dx:Number = pnt.x - test.x;
var dy:Number = pnt.y - test.y;

//x' = xc + dx cos(theta) - dy sin(theta)
//y' = yc + dx sin(theta) + dy cos(theta)
function rotate(e:Event):void{
test.rotation++;

// use the transformation matrix to calculate the new x and y of the corner
pnt.x = test.x + dx*Math.cos(test.rotation*(Math.PI/180)) - dy*Math.sin(test.rotation*(Math.PI/180));
pnt.y = test.y + dx*Math.sin(test.rotation*(Math.PI/180)) + dy*Math.cos(test.rotation*(Math.PI/180));

trace("X: " + Math.cos(rotation));
trace("Y: " + pnt.y);
// calculate the new distance to the center
dx = pnt.x - test.x;
dy = pnt.y - test.y;
}
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Have you tried just adding "pnt" as a child of "test" and rotating them as one object? – Corey Jul 29 '11 at 2:26
This is a demo to attempt to solve the problem. The actual problem exists within a physics engine where I can't rely on embedded movie clips. – Snukus Jul 29 '11 at 2:27

We can model the trajectory of a single point by

(x',y') = (xc + r cos(theta + theta0), yc + r sin(theta + theta0))

where

(x', y') = new position
(xc, yc) = center point things rotate around
(x, y) = initial point
r = distance between (x,y) and (xc, yc)
theta = counterclockwise rotation, in radians
theta0 = initial rotation of (x,y), in radians

Our initial point tells us that

r sin(theta0) = (y - yc)
r cos(theta0) = (x - xc)

By the power of trigonomerty:

r cos(theta + theta0) =
r cos(theta)cos(theta0) - r sin(theta)sin(theta0) =
cos(theta)(x - xc) - sin(theta)(y - yc)

and

r sin(theta + theta0) =
r sin(theta)cos(theta0) + r cos(theta)sint(theta0)
sin(theta)(x - xc) + cos(theta)(y - yc)

Therefore, given

1. The center point (xc, yc) that stuff is rotating around
2. The point to track (x, y) - (your rectangle corner)
3. A rotation theta, in radians

The new position of the point will be:

x' = xc + dx cos(theta) - dy sin(theta)
y' = yc + dx sin(theta) + dy cos(theta)

with dx and dy given by

dx = x - xc
dy = y - yc
-
I've edited my code to attempt to do this, but it still isn't working. The point doesn't move at all now. Did I implement it wrong in some way? I changed the code in my original post to the code I have now. – Snukus Jul 29 '11 at 3:04
You aren't supposed to reset the dx - it depends only on the initial position. – hugomg Jul 29 '11 at 3:14
Yep, that was it. Thanks a lot. – Snukus Jul 29 '11 at 3:23
FYI: "theta" used above is not in degrees, but in radians. To calculate radians from degrees: radians = (degrees * Pi / 180). Other than that, this answer works perfectly (and I had to look at a lot of answers to find this working one)! Also... I would like to flip this around a bit and solve for x and y rather than x' and y' (I know my destinations, but I need to know where to start from). Can anyone offer a little help? Thanks! – Campbeln May 8 '12 at 23:24
Re: Solving for x/y rather than x'/y'... theta = (theta * -1) Durrr.... =) – Campbeln May 9 '12 at 0:03

For those of you who found this as I did via the Google...

Here is the above answer in JavaScript/jQuery form, where \$element is the \$('#element') jQuery object, iDegrees is the angle you wish to rotate, iX/iY are the coordinates to the point you wish to know the destination of, and iCenterXPercent/iCenterYPercent represent the percentage into the element (as per CSS's transform-origin) where the rotation will occur:

function XYRotatesTo(\$element, iDegrees, iX, iY, iCenterXPercent, iCenterYPercent) {
var oPos = \$element.position(),
iCenterX = (\$element.outerWidth() * iCenterXPercent / 100),
iCenterY = (\$element.outerHeight() * iCenterYPercent / 100),
iRadians = (iDegrees * Math.PI / 180),
iDX = (oPos.left - iCenterX),
iDY = (oPos.top - iCenterY)
;

return {