forked from: Double Pendulum in QuickBox2D
/**
* Copyright cookmeplox ( http://wonderfl.net/user/cookmeplox )
* MIT License ( http://www.opensource.org/licenses/mit-license.php )
* Downloaded from: http://wonderfl.net/c/cksQ
*/
// forked from makc3d's Double Pendulum in QuickBox2D
// forked from makc3d's forked from: Double Pendulum Symplectic Euler
// forked from aont's Double Pendulum
package {
import com.actionsnippet.qbox.*;
import flash.display.Bitmap;
import flash.display.BitmapData;
import flash.display.MovieClip;
import flash.display.Sprite;
import flash.events.Event;
import flash.events.MouseEvent;
import flash.events.TimerEvent;
import flash.geom.ColorTransform;
import flash.geom.Matrix;
import flash.geom.Point;
import flash.utils.Timer;
[SWF(backgroundColor=0x3f7f00)]
public class DoublePendulum extends MovieClip
{
private var circle:Sprite;
private var circleObject:QuickObject;
private var circleCoords:Array = [];
private var line_ratio:Number;
private var length_1:Number = 0.05;
private var length_2:Number = 0.01;
private var radius:Number = 2;
private var mass_1:Number = 0.5;
private var mass_2:Number = 0.01;
private var color_3:Number = 0xff7f00;
private var center:Number;
private var bd:BitmapData;
private var ct:ColorTransform;
public function DoublePendulum()
{
this.center = 230;
this.line_ratio = center / (this.length_1+this.length_2);
bd = new BitmapData (465, 465, true, 0); addChild (new Bitmap (bd));
ct = new ColorTransform; ct.color = color_3;
ct.alphaMultiplier = 1 - 1e-3;
circle = new Sprite; circle.graphics.beginFill (0xffffff);
circle.graphics.drawCircle (0, 0, radius);
var sim:QuickBox2D = new QuickBox2D(this, { debug:false } );
var circleA:QuickObject = sim.addCircle({x:465/2/30, y:465/2/30,
radius:6/30, density:0});
var circleB:QuickObject = sim.addCircle({x:465/2/30, y:(465/2 + this.length_1*line_ratio)/30,
radius:6/30, density:mass_1});
circleObject = sim.addCircle({x:465/2/30, y:(465/2 + (this.length_1 + this.length_2)*line_ratio)/30,
radius:6/30, density:mass_2});
sim.addJoint({type:"distance", a:circleA.body, b:circleB.body});
sim.addJoint({type:"distance", a:circleB.body, b:circleObject.body});
sim.start();
sim.mouseDrag();
addEventListener (Event.ENTER_FRAME, ReDraw);
}
private function ReDraw(e:Event=null):void
{
if (circleCoords.length == 4) circleCoords.shift ();
while (circleCoords.length != 4) circleCoords.push (new Point (circleObject.x*30, circleObject.y*30));
var m:Matrix = new Matrix, n:Number = 40 / radius;
for (var i:int = 1; i < n + 1; i++) {
var p:Point = spline (circleCoords [0], circleCoords [1], circleCoords [2], circleCoords [3], i / n);
m.tx = p.x; m.ty = p.y;
bd.draw (circle, m);
}
bd.colorTransform (bd.rect, ct);
}
/*
* Calculates 2D cubic Catmull-Rom spline.
* @see http://www.mvps.org/directx/articles/catmull/
*/
private function spline (p0:Point, p1:Point, p2:Point, p3:Point, t:Number):Point {
return new Point (
0.5 * (( 2*p1.x) +
t * (( -p0.x +p2.x) +
t * ((2*p0.x -5*p1.x +4*p2.x -p3.x) +
t * ( -p0.x +3*p1.x -3*p2.x +p3.x)))),
0.5 * (( 2*p1.y) +
t * (( -p0.y +p2.y) +
t * ((2*p0.y -5*p1.y +4*p2.y -p3.y) +
t * ( -p0.y +3*p1.y -3*p2.y +p3.y))))
);
}
}
}