public ArrayList getEdgeParticles()
{
if (_edgePositions.Count == 0)
{
getEdgePositions();
}
if (_edgeParticles.Count == 0)
{
CircleParticle cp1 = new CircleParticle(0, 0, 1, false, 1, 0.3, 0, Color.Black, "edgeparticle");
cp1.setCollidable(false);
cp1.setVisible(false);
APEngine.addParticle(cp1);
CircleParticle cp2 = new CircleParticle(0, 0, 1, false, 1, 0.3, 0, Color.Black, "edgeparticle");
cp2.setCollidable(false);
cp2.setVisible(false);
APEngine.addParticle(cp2);
CircleParticle cp3 = new CircleParticle(0, 0, 1, false, 1, 0.3, 0, Color.Black, "edgeparticle");
cp3.setCollidable(false);
cp3.setVisible(false);
APEngine.addParticle(cp3);
CircleParticle cp4 = new CircleParticle(0, 0, 1, false, 1, 0.3, 0, Color.Black, "edgeparticle");
cp4.setCollidable(false);
cp4.setVisible(false);
APEngine.addParticle(cp4);
_edgeParticles.Add(cp1);
_edgeParticles.Add(cp2);
_edgeParticles.Add(cp3);
_edgeParticles.Add(cp4);
updateEdgeParticles();
}
return(_edgeParticles);
}
private static void integrate()
{
int i = 0;
for (i = 0; i <= particles.Count - 1; i++)
{
if (particles[i] is RectangleParticle)
{
//DirectCast(particles.Item(i), RectangleParticle).update(timeStep)
RectangleParticle objRect = (RectangleParticle)particles[i];
objRect.update(timeStep);
}
else if (particles[i] is CircleParticle)
{
//DirectCast(particles.Item(i), CircleParticle).update(timeStep)
CircleParticle objCir = (CircleParticle)particles[i];
objCir.update(timeStep);
//particles[i].update(timeStep);
}
}
}
public static void test(AbstractParticle objA, AbstractParticle objB)
{
if (objA.getFixed() && objB.getFixed())
{
return;
return;
}
//// rectangle to rectangle
if (objA is RectangleParticle & objB is RectangleParticle)
{
RectangleParticle objArect = (RectangleParticle)objA;
RectangleParticle objBrect = (RectangleParticle)objB;
testOBBvsOBB(objArect, objBrect);
//// circle to circle
}
else if (objA is CircleParticle & objB is CircleParticle)
{
CircleParticle objAcir = (CircleParticle)objA;
CircleParticle objBcir = (CircleParticle)objB;
testCirclevsCircle(objAcir, objBcir);
//// rectangle to circle - two ways
}
else if (objA is RectangleParticle & objB is CircleParticle)
{
RectangleParticle objArect = (RectangleParticle)objA;
CircleParticle objBcir = (CircleParticle)objB;
testOBBvsCircle(objArect, objBcir);
}
else if (objA is CircleParticle & objB is RectangleParticle)
{
CircleParticle objAcir = (CircleParticle)objA;
RectangleParticle objBrect = (RectangleParticle)objB;
testOBBvsCircle(objBrect, objAcir);
}
//testOBBvsOBB(DirectCast(objA, RectangleParticle), DirectCast(objB, RectangleParticle))
}
public static void testCirclevsCircle(CircleParticle ca, CircleParticle cb)
{
double depthX = testIntervals(ca.getIntervalX(), cb.getIntervalX());
if (depthX == 0)
{
return;
return;
}
double depthY = testIntervals(ca.getIntervalY(), cb.getIntervalY());
if (depthY == 0)
{
return;
return;
}
Vector collisionNormal = ca.curr.minus(cb.curr);
double mag = collisionNormal.magnitude();
double collisionDepth = (ca.getRadius() + cb.getRadius()) - mag;
if (collisionDepth > 0)
{
collisionNormal.divEquals(mag);
CollisionResolver.resolveParticleParticle(ca, cb, collisionNormal, collisionDepth);
//*************collision
ModEnumConst.nofcollosions = ModEnumConst.nofcollosions + 1;
//*************
//If cb.myColor = ca.myColor Then
// 'My.Computer.Audio.Play(System.AppDomain.CurrentDomain.BaseDirectory & "\score.wav")
// Totalscore = Totalscore + 1
//End If
}
}
private static void testOBBvsCircle(RectangleParticle ra, CircleParticle ca)
{
Vector collisionNormal = new Vector(0, 0);
double collisionDepth = ModEnumConst.POSITIVE_INFINITY;
ArrayList depths = new ArrayList(2);
int i = 0;
//While i < 2
for (i = 0; i <= 1; i++)
{
Vector boxAxis = (Vector)ra.getAxes()[i];
double depth = testIntervals(ra.getProjection(boxAxis), ca.getProjection(boxAxis));
if (depth == 0)
{
return;
return;
}
if (Math.Abs(depth) < Math.Abs(collisionDepth))
{
collisionNormal = boxAxis;
collisionDepth = depth;
}
depths.Insert(i, depth);
// System.Math.Max(System.Threading.Interlocked.Increment(i), i - 1)
}
//End While
double r = ca.getRadius();
//SByte objSByte0 = (SByte)depths[0];
int objSByte0 = Convert.ToInt32(depths[0]);
//SByte objSByte1 = (SByte)depths[1];
int objSByte1 = Convert.ToInt32(depths[1]);
if (Math.Abs(objSByte0) < r && Math.Abs(objSByte1) < r)
{
Vector vertex = closestVertexOnOBB(ca.curr, ra);
collisionNormal = vertex.minus(ca.curr);
double mag = collisionNormal.magnitude();
collisionDepth = r - mag;
if (collisionDepth > 0)
{
collisionNormal.divEquals(mag);
//*************collision
ModEnumConst.nofcollosions = ModEnumConst.nofcollosions + 1;
//*************
//If ra.myColor = ca.myColor Then
// Totalscore = Totalscore + 1
// 'APEngine1.removeParticle(ca)
// 'APEngine1.removeParticle(ra)
//End If
}
else
{
return;
return;
}
}
CollisionResolver.resolveParticleParticle(ra, ca, collisionNormal, collisionDepth);
}
