1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
|
/*
* Simple Mechanics Simulator (SiMS)
* copyright (c) 2009 Jakob Odersky
* made available under the MIT License
*/
package sims.dynamics.joints
import sims.geometry._
/**Eine Hooksche Feder.
* @param node1 erster Koerper der Verbindung
* @param anchor1 Bindungspunkt auf Koerper eins
* @param node2 zweiter Koerper der Verbindung
* @param anchor2 Bindungspunkt auf Koerper zwei
* @param springConstant Federkonstante
* @param initialLength Initiallaenge
*/
case class SpringJoint(node1: Body, anchor1: Vector2D, node2: Body, anchor2: Vector2D, springConstant: Double, initialLength: Double) extends Joint with ForceJoint{
def this(node1: Body, anchor1: Vector2D, node2: Body, anchor2: Vector2D, springConstant: Double) = {
this(node1: Body, anchor1, node2: Body, anchor2, springConstant: Double, (anchor2 - anchor1).length)
}
def this(node1: Body, node2: Body, springConstant: Double, initialLength: Double) = {
this(node1: Body, node1.pos, node2: Body, node2.pos, springConstant: Double, initialLength: Double)
}
def this(node1: Body, node2: Body, springConstant: Double) = {
this(node1: Body, node1.pos, node2: Body, node2.pos, springConstant: Double, (node2.pos - node1.pos).length)
}
private val a1 = anchor1 - node1.pos
private val a2 = anchor2 - node2.pos
private val initRotation1 = node1.rotation
private val initRotation2 = node2.rotation
/**Ergibt den Bindungspunkt auf Koerper eins.*/
def connection1 = (a1 rotate (node1.rotation - initRotation1)) + node1.pos
/**Ergibt den Bindungspunkt auf Koerper zwei.*/
def connection2 = (a2 rotate (node2.rotation - initRotation2)) + node2.pos
/**Daempfung.*/
var damping = 0.0
/**Relative Position der Bindungspunkte.*/
def x = connection2 - connection1
/**Ergibt die Federkraft nach dem Hookschen Gesetz.*/
def force = (x.length - initialLength) * springConstant
/**Uebt die Federkraft auf die Bindungspunkte aus.*/
def applyForce() = {
node1.applyForce(x.unit * force - ((node1 velocityOfPoint connection1) * damping) project x, connection1)
node2.applyForce(-x.unit * force - ((node2 velocityOfPoint connection2) * damping) project x, connection2)
}
def correctPosition(h: Double) = ()
def correctVelocity(h: Double) = ()
}
|