Refactor trajectory

2023-02-03 19:33:22 +03:00 · 2023-02-03 19:33:22 +03:00 · 0366a69123
commit 0366a69123
parent db30913542
9 changed files with 217 additions and 118 deletions
--- a/kmath-geometry/src/commonMain/kotlin/space/kscience/kmath/geometry/Circle2D.kt
+++ b/kmath-geometry/src/commonMain/kotlin/space/kscience/kmath/geometry/Circle2D.kt
@ -5,13 +5,15 @@

 package space.kscience.kmath.geometry

+import kotlinx.serialization.Serializable
 import kotlin.math.PI

 /**
 * A circle in 2D space
 */
+@Serializable
 public data class Circle2D(
-    public val center: DoubleVector2D,
+    @Serializable(Euclidean2DSpace.VectorSerializer::class) public val center: DoubleVector2D,
    public val radius: Double
 )

--- a/kmath-geometry/src/commonMain/kotlin/space/kscience/kmath/geometry/Euclidean2DSpace.kt
+++ b/kmath-geometry/src/commonMain/kotlin/space/kscience/kmath/geometry/Euclidean2DSpace.kt
@ -5,6 +5,12 @@

 package space.kscience.kmath.geometry

+import kotlinx.serialization.KSerializer
+import kotlinx.serialization.SerialName
+import kotlinx.serialization.Serializable
+import kotlinx.serialization.descriptors.SerialDescriptor
+import kotlinx.serialization.encoding.Decoder
+import kotlinx.serialization.encoding.Encoder
 import space.kscience.kmath.linear.Point
 import space.kscience.kmath.operations.Norm
 import space.kscience.kmath.operations.ScaleOperations
@ -33,6 +39,7 @@ public operator fun <T> Vector2D<T>.component1(): T = x
 public operator fun <T> Vector2D<T>.component2(): T = y

 public typealias DoubleVector2D = Vector2D<Double>
+public typealias Float64Vector2D = Vector2D<Double>

 public val Vector2D<Double>.r: Double get() = Euclidean2DSpace.norm(this)

@ -44,11 +51,25 @@ public object Euclidean2DSpace : GeometrySpace<DoubleVector2D>,
    ScaleOperations<DoubleVector2D>,
    Norm<DoubleVector2D, Double> {

+    @Serializable
+    @SerialName("Float64Vector2D")
    private data class Vector2DImpl(
        override val x: Double,
        override val y: Double,
    ) : DoubleVector2D

+    public object VectorSerializer : KSerializer<DoubleVector2D> {
+        private val proxySerializer = Vector2DImpl.serializer()
+        override val descriptor: SerialDescriptor get() = proxySerializer.descriptor
+
+        override fun deserialize(decoder: Decoder): DoubleVector2D = decoder.decodeSerializableValue(proxySerializer)
+
+        override fun serialize(encoder: Encoder, value: DoubleVector2D) {
+            val vector = value as? Vector2DImpl ?: Vector2DImpl(value.x, value.y)
+            encoder.encodeSerializableValue(proxySerializer, vector)
+        }
+    }
+
    public fun vector(x: Number, y: Number): DoubleVector2D = Vector2DImpl(x.toDouble(), y.toDouble())

    override val zero: DoubleVector2D by lazy { vector(0.0, 0.0) }
--- a/kmath-geometry/src/commonMain/kotlin/space/kscience/kmath/geometry/Euclidean3DSpace.kt
+++ b/kmath-geometry/src/commonMain/kotlin/space/kscience/kmath/geometry/Euclidean3DSpace.kt
@ -5,6 +5,12 @@

 package space.kscience.kmath.geometry

+import kotlinx.serialization.KSerializer
+import kotlinx.serialization.SerialName
+import kotlinx.serialization.Serializable
+import kotlinx.serialization.descriptors.SerialDescriptor
+import kotlinx.serialization.encoding.Decoder
+import kotlinx.serialization.encoding.Encoder
 import space.kscience.kmath.linear.Point
 import space.kscience.kmath.operations.Norm
 import space.kscience.kmath.operations.ScaleOperations
@ -45,17 +51,33 @@ public fun <T> Buffer<T>.asVector3D(): Vector3D<T> = object : Vector3D<T> {
 }

 public typealias DoubleVector3D = Vector3D<Double>
+public typealias Float64Vector3D = Vector3D<Double>

 public val DoubleVector3D.r: Double get() = Euclidean3DSpace.norm(this)

 public object Euclidean3DSpace : GeometrySpace<DoubleVector3D>, ScaleOperations<DoubleVector3D>,
    Norm<DoubleVector3D, Double> {
+
+    @Serializable
+    @SerialName("Float64Vector3D")
    private data class Vector3DImpl(
        override val x: Double,
        override val y: Double,
        override val z: Double,
    ) : DoubleVector3D

+    public object VectorSerializer : KSerializer<DoubleVector3D> {
+        private val proxySerializer = Vector3DImpl.serializer()
+        override val descriptor: SerialDescriptor get() = proxySerializer.descriptor
+
+        override fun deserialize(decoder: Decoder): DoubleVector3D = decoder.decodeSerializableValue(proxySerializer)
+
+        override fun serialize(encoder: Encoder, value: DoubleVector3D) {
+            val vector = value as? Vector3DImpl ?: Vector3DImpl(value.x, value.y, value.z)
+            encoder.encodeSerializableValue(proxySerializer, vector)
+        }
+    }
+
    public fun vector(x: Number, y: Number, z: Number): DoubleVector3D =
        Vector3DImpl(x.toDouble(), y.toDouble(), z.toDouble())

--- a/kmath-geometry/src/commonMain/kotlin/space/kscience/kmath/geometry/Line.kt
+++ b/kmath-geometry/src/commonMain/kotlin/space/kscience/kmath/geometry/Line.kt
@ -5,10 +5,13 @@

 package space.kscience.kmath.geometry

+import kotlinx.serialization.Serializable
+
 /**
 * A line formed by [base] vector of start and a [direction] vector. Direction vector is not necessarily normalized,
 * but its length does not affect line properties
 */
+@Serializable
 public data class Line<out V : Vector>(val base: V, val direction: V)

 public typealias Line2D = Line<DoubleVector2D>
@ -17,4 +20,12 @@ public typealias Line3D = Line<DoubleVector3D>
 /**
 * A directed line segment between [begin] and [end]
 */
+@Serializable
 public data class LineSegment<out V : Vector>(val begin: V, val end: V)
+
+public fun <V : Vector> LineSegment<V>.line(algebra: GeometrySpace<V>): Line<V> = with(algebra) {
+    Line(begin, end - begin)
+}
+
+public typealias LineSegment2D = LineSegment<DoubleVector2D>
+public typealias LineSegment3D = LineSegment<DoubleVector3D>
--- a/kmath-trajectory/src/commonMain/kotlin/space/kscience/kmath/trajectory/DubinsPath.kt
+++ b/kmath-trajectory/src/commonMain/kotlin/space/kscience/kmath/trajectory/DubinsPath.kt
@ -57,7 +57,11 @@ internal fun leftInnerTangent(base: Circle2D, direction: Circle2D): StraightTraj
 internal fun rightInnerTangent(base: Circle2D, direction: Circle2D): StraightTrajectory2D? =
    innerTangent(base, direction, CircleTrajectory2D.Direction.RIGHT)

-private fun innerTangent(base: Circle2D, direction: Circle2D, side: CircleTrajectory2D.Direction): StraightTrajectory2D? =
+private fun innerTangent(
+    base: Circle2D,
+    direction: Circle2D,
+    side: CircleTrajectory2D.Direction,
+): StraightTrajectory2D? =
    with(Euclidean2DSpace) {
        val centers = StraightTrajectory2D(base.center, direction.center)
        if (centers.length < base.radius * 2) return null
@ -76,43 +80,49 @@ private fun innerTangent(base: Circle2D, direction: Circle2D, side: CircleTrajec

 internal fun theta(theta: Double): Double = (theta + (2 * PI)) % (2 * PI)

+
@Suppress("DuplicatedCode")
-public class DubinsPath(
-    public val a: CircleTrajectory2D,
-    public val b: Trajectory2D,
-    public val c: CircleTrajectory2D,
-) : CompositeTrajectory2D(listOf(a, b, c)) {
+public object DubinsPath {

-    public val type: TYPE = TYPE.valueOf(
-        arrayOf(
-            a.direction.name[0],
-            if (b is CircleTrajectory2D) b.direction.name[0] else 'S',
-            c.direction.name[0]
-        ).toCharArray().concatToString()
-    )
-
-    public enum class TYPE {
+    public enum class Type {
        RLR, LRL, RSR, LSL, RSL, LSR
    }

-    public companion object {
-        public fun all(
-            start: DubinsPose2D,
-            end: DubinsPose2D,
-            turningRadius: Double,
-        ): List<DubinsPath> = listOfNotNull(
-            rlr(start, end, turningRadius),
-            lrl(start, end, turningRadius),
-            rsr(start, end, turningRadius),
-            lsl(start, end, turningRadius),
-            rsl(start, end, turningRadius),
-            lsr(start, end, turningRadius)
+    /**
+     * Return Dubins trajectory type or null if trajectory is not a Dubins path
+     */
+    public fun trajectoryTypeOf(trajectory2D: CompositeTrajectory2D): Type?{
+        if(trajectory2D.segments.size != 3) return null
+        val a = trajectory2D.segments.first() as? CircleTrajectory2D ?: return null
+        val b = trajectory2D.segments[1]
+        val c = trajectory2D.segments.last() as? CircleTrajectory2D ?: return null
+        return Type.valueOf(
+            arrayOf(
+                a.direction.name[0],
+                if (b is CircleTrajectory2D) b.direction.name[0] else 'S',
+                c.direction.name[0]
+            ).toCharArray().concatToString()
        )
+    }

-        public fun shortest(start: DubinsPose2D, end: DubinsPose2D, turningRadius: Double): DubinsPath =
-            all(start, end, turningRadius).minBy { it.length }
+    public fun all(
+        start: DubinsPose2D,
+        end: DubinsPose2D,
+        turningRadius: Double,
+    ): List<CompositeTrajectory2D> = listOfNotNull(
+        rlr(start, end, turningRadius),
+        lrl(start, end, turningRadius),
+        rsr(start, end, turningRadius),
+        lsl(start, end, turningRadius),
+        rsl(start, end, turningRadius),
+        lsr(start, end, turningRadius)
+    )

-        public fun rlr(start: DubinsPose2D, end: DubinsPose2D, turningRadius: Double): DubinsPath? = with(Euclidean2DSpace) {
+    public fun shortest(start: DubinsPose2D, end: DubinsPose2D, turningRadius: Double): CompositeTrajectory2D =
+        all(start, end, turningRadius).minBy { it.length }
+
+    public fun rlr(start: DubinsPose2D, end: DubinsPose2D, turningRadius: Double): CompositeTrajectory2D? =
+        with(Euclidean2DSpace) {
            val c1 = start.getRightCircle(turningRadius)
            val c2 = end.getRightCircle(turningRadius)
            val centers = StraightTrajectory2D(c1.center, c2.center)
@ -132,7 +142,7 @@ public class DubinsPath(
                val a1 = CircleTrajectory2D.of(c1.center, start, p1, CircleTrajectory2D.Direction.RIGHT)
                val a2 = CircleTrajectory2D.of(e.center, p1, p2, CircleTrajectory2D.Direction.LEFT)
                val a3 = CircleTrajectory2D.of(c2.center, p2, end, CircleTrajectory2D.Direction.RIGHT)
-                DubinsPath(a1, a2, a3)
+                CompositeTrajectory2D(a1, a2, a3)
            }

            val secondVariant = run {
@ -149,13 +159,14 @@ public class DubinsPath(
                val a1 = CircleTrajectory2D.of(c1.center, start, p1, CircleTrajectory2D.Direction.RIGHT)
                val a2 = CircleTrajectory2D.of(e.center, p1, p2, CircleTrajectory2D.Direction.LEFT)
                val a3 = CircleTrajectory2D.of(c2.center, p2, end, CircleTrajectory2D.Direction.RIGHT)
-                DubinsPath(a1, a2, a3)
+                CompositeTrajectory2D(a1, a2, a3)
            }

            return if (firstVariant.length < secondVariant.length) firstVariant else secondVariant
        }

-        public fun lrl(start: DubinsPose2D, end: DubinsPose2D, turningRadius: Double): DubinsPath? = with(Euclidean2DSpace) {
+    public fun lrl(start: DubinsPose2D, end: DubinsPose2D, turningRadius: Double): CompositeTrajectory2D? =
+        with(Euclidean2DSpace) {
            val c1 = start.getLeftCircle(turningRadius)
            val c2 = end.getLeftCircle(turningRadius)
            val centers = StraightTrajectory2D(c1.center, c2.center)
@ -175,10 +186,10 @@ public class DubinsPath(
                val a1 = CircleTrajectory2D.of(c1.center, start, p1, CircleTrajectory2D.Direction.LEFT)
                val a2 = CircleTrajectory2D.of(e.center, p1, p2, CircleTrajectory2D.Direction.RIGHT)
                val a3 = CircleTrajectory2D.of(c2.center, p2, end, CircleTrajectory2D.Direction.LEFT)
-                DubinsPath(a1, a2, a3)
+                CompositeTrajectory2D(a1, a2, a3)
            }

-            val secondVariant = run{
+            val secondVariant = run {
                var theta = theta(centers.bearing - acos(centers.length / (turningRadius * 4)))
                var dX = turningRadius * sin(theta)
                var dY = turningRadius * cos(theta)
@ -192,50 +203,60 @@ public class DubinsPath(
                val a1 = CircleTrajectory2D.of(c1.center, start, p1, CircleTrajectory2D.Direction.LEFT)
                val a2 = CircleTrajectory2D.of(e.center, p1, p2, CircleTrajectory2D.Direction.RIGHT)
                val a3 = CircleTrajectory2D.of(c2.center, p2, end, CircleTrajectory2D.Direction.LEFT)
-                DubinsPath(a1, a2, a3)
+                CompositeTrajectory2D(a1, a2, a3)
            }

            return if (firstVariant.length < secondVariant.length) firstVariant else secondVariant
        }

-        public fun rsr(start: DubinsPose2D, end: DubinsPose2D, turningRadius: Double): DubinsPath {
-            val c1 = start.getRightCircle(turningRadius)
-            val c2 = end.getRightCircle(turningRadius)
-            val s = leftOuterTangent(c1, c2)
-            val a1 = CircleTrajectory2D.of(c1.center, start, s.start, CircleTrajectory2D.Direction.RIGHT)
-            val a3 = CircleTrajectory2D.of(c2.center, s.end, end, CircleTrajectory2D.Direction.RIGHT)
-            return DubinsPath(a1, s, a3)
-        }
-
-        public fun lsl(start: DubinsPose2D, end: DubinsPose2D, turningRadius: Double): DubinsPath {
-            val c1 = start.getLeftCircle(turningRadius)
-            val c2 = end.getLeftCircle(turningRadius)
-            val s = rightOuterTangent(c1, c2)
-            val a1 = CircleTrajectory2D.of(c1.center, start, s.start, CircleTrajectory2D.Direction.LEFT)
-            val a3 = CircleTrajectory2D.of(c2.center, s.end, end, CircleTrajectory2D.Direction.LEFT)
-            return DubinsPath(a1, s, a3)
-        }
-
-        public fun rsl(start: DubinsPose2D, end: DubinsPose2D, turningRadius: Double): DubinsPath? {
-            val c1 = start.getRightCircle(turningRadius)
-            val c2 = end.getLeftCircle(turningRadius)
-            val s = rightInnerTangent(c1, c2)
-            if (s == null || c1.center.distanceTo(c2.center) < turningRadius * 2) return null
-
-            val a1 = CircleTrajectory2D.of(c1.center, start, s.start, CircleTrajectory2D.Direction.RIGHT)
-            val a3 = CircleTrajectory2D.of(c2.center, s.end, end, CircleTrajectory2D.Direction.LEFT)
-            return DubinsPath(a1, s, a3)
-        }
-
-        public fun lsr(start: DubinsPose2D, end: DubinsPose2D, turningRadius: Double): DubinsPath? {
-            val c1 = start.getLeftCircle(turningRadius)
-            val c2 = end.getRightCircle(turningRadius)
-            val s = leftInnerTangent(c1, c2)
-            if (s == null || c1.center.distanceTo(c2.center) < turningRadius * 2) return null
-
-            val a1 = CircleTrajectory2D.of(c1.center, start, s.start, CircleTrajectory2D.Direction.LEFT)
-            val a3 = CircleTrajectory2D.of(c2.center, s.end, end, CircleTrajectory2D.Direction.RIGHT)
-            return DubinsPath(a1, s, a3)
-        }
+    public fun rsr(start: DubinsPose2D, end: DubinsPose2D, turningRadius: Double): CompositeTrajectory2D {
+        val c1 = start.getRightCircle(turningRadius)
+        val c2 = end.getRightCircle(turningRadius)
+        val s = leftOuterTangent(c1, c2)
+        val a1 = CircleTrajectory2D.of(c1.center, start, s.start, CircleTrajectory2D.Direction.RIGHT)
+        val a3 = CircleTrajectory2D.of(c2.center, s.end, end, CircleTrajectory2D.Direction.RIGHT)
+        return CompositeTrajectory2D(a1, s, a3)
    }
-}
+
+    public fun lsl(start: DubinsPose2D, end: DubinsPose2D, turningRadius: Double): CompositeTrajectory2D {
+        val c1 = start.getLeftCircle(turningRadius)
+        val c2 = end.getLeftCircle(turningRadius)
+        val s = rightOuterTangent(c1, c2)
+        val a1 = CircleTrajectory2D.of(c1.center, start, s.start, CircleTrajectory2D.Direction.LEFT)
+        val a3 = CircleTrajectory2D.of(c2.center, s.end, end, CircleTrajectory2D.Direction.LEFT)
+        return CompositeTrajectory2D(a1, s, a3)
+    }
+
+    public fun rsl(start: DubinsPose2D, end: DubinsPose2D, turningRadius: Double): CompositeTrajectory2D? {
+        val c1 = start.getRightCircle(turningRadius)
+        val c2 = end.getLeftCircle(turningRadius)
+        val s = rightInnerTangent(c1, c2)
+        if (s == null || c1.center.distanceTo(c2.center) < turningRadius * 2) return null
+
+        val a1 = CircleTrajectory2D.of(c1.center, start, s.start, CircleTrajectory2D.Direction.RIGHT)
+        val a3 = CircleTrajectory2D.of(c2.center, s.end, end, CircleTrajectory2D.Direction.LEFT)
+        return CompositeTrajectory2D(a1, s, a3)
+    }
+
+    public fun lsr(start: DubinsPose2D, end: DubinsPose2D, turningRadius: Double): CompositeTrajectory2D? {
+        val c1 = start.getLeftCircle(turningRadius)
+        val c2 = end.getRightCircle(turningRadius)
+        val s = leftInnerTangent(c1, c2)
+        if (s == null || c1.center.distanceTo(c2.center) < turningRadius * 2) return null
+
+        val a1 = CircleTrajectory2D.of(c1.center, start, s.start, CircleTrajectory2D.Direction.LEFT)
+        val a3 = CircleTrajectory2D.of(c2.center, s.end, end, CircleTrajectory2D.Direction.RIGHT)
+        return CompositeTrajectory2D(a1, s, a3)
+    }
+}
+
+public fun interface MaxCurvature {
+    public fun compute(startPoint: PhaseVector2D): Double
+}
+
+public fun DubinsPath.shortest(
+    start: PhaseVector2D,
+    end: PhaseVector2D,
+    maxCurvature: MaxCurvature,
+): CompositeTrajectory2D = shortest(start, end, maxCurvature.compute(start))
+
--- a/kmath-trajectory/src/commonMain/kotlin/space/kscience/kmath/trajectory/DubinsPose2D.kt
+++ b/kmath-trajectory/src/commonMain/kotlin/space/kscience/kmath/trajectory/DubinsPose2D.kt
@ -2,35 +2,62 @@
 * Copyright 2018-2022 KMath contributors.
 * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
 */
-
+@file:UseSerializers(Euclidean2DSpace.VectorSerializer::class)
 package space.kscience.kmath.trajectory

+import kotlinx.serialization.KSerializer
+import kotlinx.serialization.SerialName
+import kotlinx.serialization.Serializable
+import kotlinx.serialization.UseSerializers
+import kotlinx.serialization.descriptors.SerialDescriptor
+import kotlinx.serialization.encoding.Decoder
+import kotlinx.serialization.encoding.Encoder
 import space.kscience.kmath.geometry.DoubleVector2D
+import space.kscience.kmath.geometry.Euclidean2DSpace
 import space.kscience.kmath.geometry.Vector
 import kotlin.math.atan2

 /**
 * Combination of [Vector] and its view angle (clockwise from positive y-axis direction)
 */
+@Serializable(DubinsPose2DSerializer::class)
 public interface DubinsPose2D : DoubleVector2D {
-    public val coordinate: DoubleVector2D
+    public val coordinates: DoubleVector2D
    public val bearing: Double
 }

+@Serializable
 public class PhaseVector2D(
-    override val coordinate: DoubleVector2D,
+    override val coordinates: DoubleVector2D,
    public val velocity: DoubleVector2D,
-) : DubinsPose2D, DoubleVector2D by coordinate {
+) : DubinsPose2D, DoubleVector2D by coordinates {
    override val bearing: Double get() = atan2(velocity.x, velocity.y)
 }

+@Serializable
+@SerialName("DubinsPose2D")
 private class DubinsPose2DImpl(
-    override val coordinate: DoubleVector2D,
+    override val coordinates: DoubleVector2D,
    override val bearing: Double,
-) : DubinsPose2D, DoubleVector2D by coordinate{
+) : DubinsPose2D, DoubleVector2D by coordinates{

-    override fun toString(): String = "Pose2D(x=$x, y=$y, bearing=$bearing)"
+    override fun toString(): String = "DubinsPose2D(x=$x, y=$y, bearing=$bearing)"
 }

+public object DubinsPose2DSerializer: KSerializer<DubinsPose2D>{
+    private val proxySerializer = DubinsPose2DImpl.serializer()
+
+    override val descriptor: SerialDescriptor
+        get() = proxySerializer.descriptor
+
+    override fun deserialize(decoder: Decoder): DubinsPose2D {
+        return decoder.decodeSerializableValue(proxySerializer)
+    }
+
+    override fun serialize(encoder: Encoder, value: DubinsPose2D) {
+        val pose = value as? DubinsPose2DImpl ?: DubinsPose2DImpl(value.coordinates, value.bearing)
+        encoder.encodeSerializableValue(proxySerializer, pose)
+    }
+}

 public fun DubinsPose2D(coordinate: DoubleVector2D, theta: Double): DubinsPose2D = DubinsPose2DImpl(coordinate, theta)
--- a/kmath-trajectory/src/commonMain/kotlin/space/kscience/kmath/trajectory/Trajectory2D.kt
+++ b/kmath-trajectory/src/commonMain/kotlin/space/kscience/kmath/trajectory/Trajectory2D.kt
@ -2,15 +2,19 @@
 * Copyright 2018-2022 KMath contributors.
 * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
 */
-
+@file:UseSerializers(Euclidean2DSpace.VectorSerializer::class)
 package space.kscience.kmath.trajectory

+import kotlinx.serialization.Serializable
+import kotlinx.serialization.UseSerializers
 import space.kscience.kmath.geometry.Circle2D
 import space.kscience.kmath.geometry.DoubleVector2D
+import space.kscience.kmath.geometry.Euclidean2DSpace
 import space.kscience.kmath.geometry.Euclidean2DSpace.distanceTo
 import kotlin.math.PI
 import kotlin.math.atan2

+@Serializable
 public sealed interface Trajectory2D {
    public val length: Double
 }
@ -18,6 +22,7 @@ public sealed interface Trajectory2D {
 /**
 * Straight path segment. The order of start and end defines the direction
 */
+@Serializable
 public data class StraightTrajectory2D(
    public val start: DoubleVector2D,
    public val end: DoubleVector2D,
@ -30,6 +35,7 @@ public data class StraightTrajectory2D(
 /**
 * An arc segment
 */
+@Serializable
 public data class CircleTrajectory2D(
    public val circle: Circle2D,
    public val start: DubinsPose2D,
@ -102,7 +108,10 @@ public data class CircleTrajectory2D(
    }
 }

-public open class CompositeTrajectory2D(public val segments: List<Trajectory2D>) : Trajectory2D {
+@Serializable
+public class CompositeTrajectory2D(public val segments: List<Trajectory2D>) : Trajectory2D {
    override val length: Double get() = segments.sumOf { it.length }
 }

+public fun CompositeTrajectory2D(vararg segments: Trajectory2D): CompositeTrajectory2D = CompositeTrajectory2D(segments.toList())
+
--- a/kmath-trajectory/src/commonMain/kotlin/space/kscience/kmath/trajectory/route.kt
+++ b/kmath-trajectory/src/commonMain/kotlin/space/kscience/kmath/trajectory/route.kt
@ -1,16 +0,0 @@
-/*
- * Copyright 2018-2022 KMath contributors.
- * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
- */
-
-package space.kscience.kmath.trajectory
-
-public fun interface MaxCurvature {
-    public fun compute(startPoint: PhaseVector2D): Double
-}
-
-public fun DubinsPath.Companion.shortest(
-    start: PhaseVector2D,
-    end: PhaseVector2D,
-    maxCurvature: MaxCurvature,
-): DubinsPath = shortest(start, end, maxCurvature.compute(start))
--- a/kmath-trajectory/src/commonTest/kotlin/space/kscience/kmath/trajectory/dubins/DubinsTests.kt
+++ b/kmath-trajectory/src/commonTest/kotlin/space/kscience/kmath/trajectory/dubins/DubinsTests.kt
@ -28,31 +28,33 @@ class DubinsTests {
        println("Absolute distance: $absoluteDistance")

        val expectedLengths = mapOf(
-            DubinsPath.TYPE.RLR to 13.067681939031397,
-            DubinsPath.TYPE.RSR to 12.28318530717957,
-            DubinsPath.TYPE.LSL to 32.84955592153878,
-            DubinsPath.TYPE.RSL to 23.37758938854081,
-            DubinsPath.TYPE.LSR to 23.37758938854081
+            DubinsPath.Type.RLR to 13.067681939031397,
+            DubinsPath.Type.RSR to 12.28318530717957,
+            DubinsPath.Type.LSL to 32.84955592153878,
+            DubinsPath.Type.RSL to 23.37758938854081,
+            DubinsPath.Type.LSR to 23.37758938854081
        )

        expectedLengths.forEach {
-            val path = dubins.find { p -> p.type === it.key }
+            val path = dubins.find { p -> DubinsPath.trajectoryTypeOf(p) === it.key }
            assertNotNull(path, "Path ${it.key} not found")
            println("${it.key}: ${path.length}")
            assertTrue(it.value.equalFloat(path.length))

-            assertTrue(start.equalsFloat(path.a.start))
-            assertTrue(end.equalsFloat(path.c.end))
+            val a = path.segments[0] as CircleTrajectory2D
+            val b = path.segments[1]
+            val c = path.segments[2] as CircleTrajectory2D
+
+            assertTrue(start.equalsFloat(a.start))
+            assertTrue(end.equalsFloat(c.end))

            // Not working, theta double precision inaccuracy
-            if (path.b is CircleTrajectory2D) {
-                val b = path.b as CircleTrajectory2D
-                assertTrue(path.a.end.equalsFloat(b.start))
-                assertTrue(path.c.start.equalsFloat(b.end))
-            } else if (path.b is StraightTrajectory2D) {
-                val b = path.b as StraightTrajectory2D
-                assertTrue(path.a.end.equalsFloat(DubinsPose2D(b.start, b.bearing)))
-                assertTrue(path.c.start.equalsFloat(DubinsPose2D(b.end, b.bearing)))
+            if (b is CircleTrajectory2D) {
+                assertTrue(a.end.equalsFloat(b.start))
+                assertTrue(c.start.equalsFloat(b.end))
+            } else if (b is StraightTrajectory2D) {
+                assertTrue(a.end.equalsFloat(DubinsPose2D(b.start, b.bearing)))
+                assertTrue(c.start.equalsFloat(DubinsPose2D(b.end, b.bearing)))
            }
        }
    }