Merge to update docs and contributions #504
@ -32,51 +32,47 @@ public class DubinsPathFactory(
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val c1 = base.getRightCircle(turningRadius)
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val c2 = direction.getRightCircle(turningRadius)
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val centers = Line2D(c1.center, c2.center)
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return if (centers.length < turningRadius * 4) {
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var theta = (centers.theta - acos(centers.length / (turningRadius * 4))).theta
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var dX = turningRadius * sin(theta)
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var dY = turningRadius * cos(theta)
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val p = Vector2D(c1.center.x + dX * 2, c1.center.y + dY * 2)
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val e = Circle(p, turningRadius)
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val p1 = Vector2D(c1.center.x + dX, c1.center.y + dY)
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theta = (centers.theta + acos(centers.length / (turningRadius * 4))).theta
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dX = turningRadius * sin(theta)
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dY = turningRadius * cos(theta)
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val p2 = Vector2D(e.center.x + dX, e.center.y + dY)
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val a1 = Arc(c1.center, turningRadius, base, p1, Arc.Direction.RIGHT)
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val a2 = Arc(e.center, turningRadius, p1, p2, Arc.Direction.LEFT)
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val a3 = Arc(c2.center, turningRadius, p2, direction, Arc.Direction.RIGHT)
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DubinsPath(a1, a2, a3)
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} else {
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null
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}
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if (centers.length > turningRadius * 4) return null
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var theta = (centers.theta - acos(centers.length / (turningRadius * 4))).theta
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var dX = turningRadius * sin(theta)
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var dY = turningRadius * cos(theta)
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val p = Vector2D(c1.center.x + dX * 2, c1.center.y + dY * 2)
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val e = Circle(p, turningRadius)
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val p1 = Vector2D(c1.center.x + dX, c1.center.y + dY)
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theta = (centers.theta + acos(centers.length / (turningRadius * 4))).theta
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dX = turningRadius * sin(theta)
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dY = turningRadius * cos(theta)
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val p2 = Vector2D(e.center.x + dX, e.center.y + dY)
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val a1 = Arc(c1.center, turningRadius, base, p1, Arc.Direction.RIGHT)
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val a2 = Arc(e.center, turningRadius, p1, p2, Arc.Direction.LEFT)
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val a3 = Arc(c2.center, turningRadius, p2, direction, Arc.Direction.RIGHT)
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return DubinsPath(a1, a2, a3)
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}
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private val lrl: DubinsPath? get () {
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val c1 = base.getLeftCircle(turningRadius)
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val c2 = direction.getLeftCircle(turningRadius)
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val centers = Line2D(c1.center, c2.center)
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return if (centers.length < turningRadius * 4) {
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var theta = (centers.theta + acos(centers.length / (turningRadius * 4))).theta
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var dX = turningRadius * sin(theta)
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var dY = turningRadius * cos(theta)
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val p = Vector2D(c1.center.x + dX * 2, c1.center.y + dY * 2)
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val e = Circle(p, turningRadius)
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val p1 = Vector2D(c1.center.x + dX, c1.center.y + dY)
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theta = (centers.theta - acos(centers.length / (turningRadius * 4))).theta
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dX = turningRadius * sin(theta)
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dY = turningRadius * cos(theta)
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val p2 = Vector2D(e.center.x + dX, e.center.y + dY)
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val a1 = Arc(c1.center, turningRadius, base, p1, Arc.Direction.LEFT)
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val a2 = Arc(e.center, turningRadius, p1, p2, Arc.Direction.RIGHT)
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val a3 = Arc(c2.center, turningRadius, p2, direction, Arc.Direction.LEFT)
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DubinsPath(a1, a2, a3)
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} else {
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null
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}
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if (centers.length > turningRadius * 4) return null
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var theta = (centers.theta + acos(centers.length / (turningRadius * 4))).theta
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var dX = turningRadius * sin(theta)
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var dY = turningRadius * cos(theta)
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val p = Vector2D(c1.center.x + dX * 2, c1.center.y + dY * 2)
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val e = Circle(p, turningRadius)
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val p1 = Vector2D(c1.center.x + dX, c1.center.y + dY)
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theta = (centers.theta - acos(centers.length / (turningRadius * 4))).theta
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dX = turningRadius * sin(theta)
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dY = turningRadius * cos(theta)
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val p2 = Vector2D(e.center.x + dX, e.center.y + dY)
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val a1 = Arc(c1.center, turningRadius, base, p1, Arc.Direction.LEFT)
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val a2 = Arc(e.center, turningRadius, p1, p2, Arc.Direction.RIGHT)
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val a3 = Arc(c2.center, turningRadius, p2, direction, Arc.Direction.LEFT)
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return DubinsPath(a1, a2, a3)
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}
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public val rsr: DubinsPath? get () {
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public val rsr: DubinsPath get () {
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val c1 = base.getRightCircle(turningRadius)
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val c2 = direction.getRightCircle(turningRadius)
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val l = leftOuterTangent(c1, c2)
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@ -99,26 +95,22 @@ public class DubinsPathFactory(
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val c1 = base.getRightCircle(turningRadius)
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val c2 = direction.getLeftCircle(turningRadius)
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val l = rightInnerTangent(c1, c2)
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return if (c1.center.distanceTo(c2.center) > turningRadius * 2 && l != null) {
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val a1 = Arc(c1.center, turningRadius, base, l.base, Arc.Direction.RIGHT)
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val a3 = Arc(c2.center, turningRadius, l.direction, direction, Arc.Direction.LEFT)
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DubinsPath(a1, LineSegment(l), a3)
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} else {
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null
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}
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if (c1.center.distanceTo(c2.center) < turningRadius * 2 || l == null) return null
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val a1 = Arc(c1.center, turningRadius, base, l.base, Arc.Direction.RIGHT)
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val a3 = Arc(c2.center, turningRadius, l.direction, direction, Arc.Direction.LEFT)
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return DubinsPath(a1, LineSegment(l), a3)
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}
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public val lsr: DubinsPath? get () {
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val c1 = base.getLeftCircle(turningRadius)
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val c2 = direction.getRightCircle(turningRadius)
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val l = leftInnerTangent(c1, c2)
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return if (c1.center.distanceTo(c2.center) > turningRadius * 2 && l != null) {
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val a1 = Arc(c1.center, turningRadius, base, l.base, Arc.Direction.LEFT)
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val a3 = Arc(c2.center, turningRadius, l.direction, direction, Arc.Direction.RIGHT)
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DubinsPath(a1, LineSegment(l), a3)
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} else {
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null
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}
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if (c1.center.distanceTo(c2.center) < turningRadius * 2 || l == null) return null
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val a1 = Arc(c1.center, turningRadius, base, l.base, Arc.Direction.LEFT)
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val a3 = Arc(c2.center, turningRadius, l.direction, direction, Arc.Direction.RIGHT)
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return DubinsPath(a1, LineSegment(l), a3)
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}
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}
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Block a user