public void drawOrbits(ArrayList alObjectsArchive) { // println("SIZE:" + alObjectsArchive.size()); // ArrayList alObjectsArchive = timeline.getObjectStateArchive(); ArrayList alPrevPos = new ArrayList(); ArrayList alColors = new ArrayList(); alColors.add(color(255, 0, 0)); alColors.add(color(255, 255, 0)); alColors.add(color(255, 0, 255)); // for (int i = timeline.getTimeIdx(); i >= 0 && i > (timeline.getTimeIdx() - 1 - 100); i--) for (int i = 0; i < alObjectsArchive.size(); i++) { ArrayList objects = (ArrayList) alObjectsArchive.get(i); for (int j = 0; j < objects.size(); j++) { CelestialObject obj = (CelestialObject) objects.get(j); // CelestialObject obj = (CelestialObject)objects.get(1); PVector pos = obj.getPosition(); // stroke(0, 0, 255); stroke((Integer) alColors.get(j)); if (alPrevPos.size() == objects.size()) { PVector prevPos = (PVector) alPrevPos.get(j); line(prevPos.x, prevPos.y, pos.x, pos.y); alPrevPos.set(j, pos); } else alPrevPos.add(pos); } } }
public void mouseClicked() { ArrayList objects = timeline.getStatefulObjects(); for (int i = 0; i < objects.size(); i++) { CelestialObject obj = (CelestialObject) objects.get(i); if (obj.isMouseOver()) { println(obj.getName() + " clicked!"); break; } } }
public CelestialObject clone() { try { CelestialObject obj = (CelestialObject) super.clone(); obj.position = new PVector(obj.position.x, obj.position.y); obj.velocity = new PVector(obj.velocity.x, obj.velocity.y); obj.acceleration = new PVector(obj.acceleration.x, obj.acceleration.y); obj.alForces = cloneArrayList(obj.alForces); return obj; } catch (final CloneNotSupportedException ex) { throw new AssertionError(); } }
public void draw() { background(0); fill(255); if (!paused) timeline.moveForward(); if (dragging) drawOrbits(timeline.getFutureObjectStates()); else drawOrbits(timeline.getPastObjectStates()); ArrayList objects = timeline.getStatefulObjects(); for (int i = 0; i < objects.size(); i++) { CelestialObject obj = (CelestialObject) objects.get(i); obj.display(); } }
public void mouseDragged() { if (paused) { ArrayList objects = timeline.getStatefulObjects(); for (int i = 0; i < objects.size(); i++) { CelestialObject obj = (CelestialObject) objects.get(i); if (obj.isMouseOver()) { dragging = true; PVector pos = obj.getPosition(); pos.x = mouseX; pos.y = mouseY; timeline.reset(); timeline.setCurrentState(objects); sliderTimeline.setValue(0); break; } } } }
public void calculateForces(ArrayList objects) { for (int i = 0; i < objects.size(); i++) { CelestialObject obj = (CelestialObject) objects.get(i); ArrayList forces = obj.getForces(); float totalForceX = 0; float totalForceY = 0; for (int j = 0; j < forces.size(); j++) { totalForceX += ((PVector) forces.get(j)).x; totalForceY += ((PVector) forces.get(j)).y; } PVector newAccel = new PVector(totalForceX / obj.getMass(), totalForceY / obj.getMass()); obj.setAcceleration(newAccel); } for (int i = 0; i < objects.size(); i++) { CelestialObject obj1 = (CelestialObject) objects.get(i); float forceX = 0; float forceY = 0; obj1.clearForces(); if (obj1.getClass() == Star.class) { println(obj1.getVelocity()); continue; } for (int j = 0; j < objects.size(); j++) { CelestialObject obj2 = (CelestialObject) objects.get(j); if (i == j) continue; PVector pvDistance = PVector.sub(obj2.getPosition(), obj1.getPosition()); // println("distance: x:" + pvDistance.x + " y:" + pvDistance.y); float distance = sqrt(sq(pvDistance.y) + sq(pvDistance.x)); float angle = degrees(atan2(pvDistance.y, pvDistance.x)); float force = (G * obj1.getMass() * obj2.getMass()) / sq(distance); forceX = force * cos(radians(angle)); forceY = force * sin(radians(angle)); // println("FORCES on " + obj1.getName() + ":" + forceX + "," + forceY); obj1.addForce(new PVector(forceX, forceY)); println(); } } }