0.2.0 #71
@ -25,10 +25,10 @@ private fun <T> jsonRootDeserializer(tSerializer: KSerializer<T>, builder: (Json
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/**
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* Load Json encoded TObject
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*/
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public fun TObject.Companion.decodeFromJson(serializer: KSerializer<out TObject>, jsonElement: JsonElement): TObject =
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public fun <T: TObject> TObject.Companion.decodeFromJson(serializer: KSerializer<T>, jsonElement: JsonElement): T =
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RootDecoder.decode(serializer, jsonElement)
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public fun TObject.Companion.decodeFromString(serializer: KSerializer<out TObject>, string: String): TObject {
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public fun <T: TObject> TObject.Companion.decodeFromString(serializer: KSerializer<T>, string: String): T {
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val json = RootDecoder.json.parseToJsonElement(string)
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return RootDecoder.decode(serializer, json)
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}
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@ -49,12 +49,14 @@ private object RootDecoder {
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//Forward ref for shapes
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when (tSerializer.descriptor.serialName) {
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"TGeoShape" -> return TGeoShapeRef {
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//Should be not null at the moment of actualization
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refCache[refId].value as TGeoShape
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refCache[refId].getOrPutValue {
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input.json.decodeFromJsonElement(tSerializer, it) as TGeoShape
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}
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} as T
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"TGeoVolumeAssembly" -> return TGeoVolumeAssemblyRef {
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//Should be not null at the moment of actualization
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refCache[refId].value as TGeoVolumeAssembly
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refCache[refId].getOrPutValue {
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input.json.decodeFromJsonElement(tSerializer, it) as TGeoVolumeAssembly
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}
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} as T
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//Do unref
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else -> refCache[refId]
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@ -138,7 +140,7 @@ private object RootDecoder {
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}
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fun decode(sourceDeserializer: KSerializer<out TObject>, source: JsonElement): TObject {
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fun <T: TObject> decode(sourceDeserializer: KSerializer<T>, source: JsonElement): T {
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val refCache = ArrayList<RefEntry>()
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fun fillCache(element: JsonElement) {
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@ -2,7 +2,7 @@ package ru.mipt.npm.root
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import space.kscience.dataforge.names.Name
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import space.kscience.dataforge.names.asName
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import space.kscience.visionforge.setPropertyNode
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import space.kscience.dataforge.names.plus
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import space.kscience.visionforge.solid.*
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import kotlin.math.PI
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import kotlin.math.atan2
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@ -19,158 +19,162 @@ private operator fun Number.times(f: Float) = toFloat() * f
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private fun degToRad(d: Double) = d * PI / 180.0
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private class GdmlLoader {
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// converting to XYZ to Tait–Bryan angles according to https://en.wikipedia.org/wiki/Euler_angles#Rotation_matrix
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private fun Solid.rotate(rot: DoubleArray) {
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val xAngle = atan2(-rot[5], rot[8])
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val yAngle = atan2(rot[2], sqrt(1.0 - rot[2].pow(2)))
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val zAngle = atan2(-rot[1], rot[0])
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rotation = Point3D(xAngle, yAngle, zAngle)
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}
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private fun Solid.translate(trans: DoubleArray) {
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val (x, y, z) = trans
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position = Point3D(x, y, z)
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}
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private fun Solid.useMatrix(matrix: TGeoMatrix?) {
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when (matrix) {
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null, is TGeoIdentity -> {
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//do nothing
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}
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is TGeoTranslation -> {
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translate(matrix.fTranslation)
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}
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is TGeoRotation -> {
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rotate(matrix.fRotationMatrix)
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}
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is TGeoCombiTrans -> {
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translate(matrix.fTranslation)
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matrix.fRotation?.let { rotate(it.fRotationMatrix) }
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}
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is TGeoHMatrix -> {
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translate(matrix.fTranslation)
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rotate(matrix.fRotationMatrix)
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val (xScale, yScale, zScale) = matrix.fScale
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scale = Point3D(xScale, yScale, zScale)
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}
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}
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}
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fun SolidGroup.addShape(shape: TGeoShape) {
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when (shape) {
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is TGeoShapeRef -> addShape(shape.value)
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is TGeoCompositeShape -> {
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val bool: TGeoBoolNode = shape.fNode
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val compositeType = when (bool) {
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is TGeoIntersection -> CompositeType.INTERSECT
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is TGeoSubtraction -> CompositeType.SUBTRACT
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is TGeoUnion -> CompositeType.UNION
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}
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composite(compositeType, name = shape.fName) {
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addShape(bool.fLeft).apply {
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useMatrix(bool.fLeftMat)
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}
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addShape(bool.fRight).apply {
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useMatrix(bool.fRightMat)
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}
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}
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}
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is TGeoXtru -> extruded(name = shape.fName) {
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(0 until shape.fNvert).forEach { index ->
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shape {
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point(shape.fX[index], shape.fY[index])
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}
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}
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(0 until shape.fNz).forEach { index ->
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layer(
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shape.fZ[index],
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shape.fX0[index],
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shape.fY0[index],
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shape.fScale[index]
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)
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}
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}
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is TGeoTube -> tube(
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radius = shape.fRmax,
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height = shape.fDz * 2,
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innerRadius = shape.fRmin,
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name = shape.fName
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)
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is TGeoTubeSeg -> tube(
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radius = shape.fRmax,
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height = shape.fDz * 2,
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innerRadius = shape.fRmin,
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startAngle = degToRad(shape.fPhi1),
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angle = degToRad(shape.fPhi2 - shape.fPhi1),
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name = shape.fName
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)
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is TGeoPcon -> TODO()
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is TGeoPgon -> TODO()
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is TGeoShapeAssembly -> volume(shape.fVolume)
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is TGeoBBox -> box(shape.fDX * 2, shape.fDY * 2, shape.fDZ * 2, name = shape.fName)
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}
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}
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fun SolidGroup.node(obj: TGeoNode) {
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if (obj.fVolume != null) {
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volume(obj.fVolume).apply {
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when (obj) {
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is TGeoNodeMatrix -> {
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useMatrix(obj.fMatrix)
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}
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is TGeoNodeOffset -> {
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x = obj.fOffset
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}
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}
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}
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}
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}
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fun buildGroup(volume: TGeoVolume): SolidGroup {
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return if (volume is TGeoVolumeAssemblyRef) {
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buildGroup(volume.value)
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} else {
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SolidGroup {
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volume.fShape?.let { addShape(it) }
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volume.fNodes?.let {
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it.arr.forEach { obj ->
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node(obj)
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}
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}
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}
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}
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}
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private val SolidGroup.rootPrototypes: SolidGroup get() = (parent as? SolidGroup)?.rootPrototypes ?: this
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fun SolidGroup.volume(volume: TGeoVolume): SolidGroup {
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val group = buildGroup(volume)
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val ref = rootPrototypes.prototypes {
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}
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set(volume.fName.ifEmpty { null }?.asName(), group)
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return group
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}
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fun load(geo: TGeoManager): SolidGroup {
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/**
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* A special group for local templates
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*/
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val proto = SolidGroup()
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val solids = proto.group(solidsName) {
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setPropertyNode("edges.enabled", false)
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}
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val volumes = proto.group(volumesName)
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val referenceStore = HashMap<Name, MutableList<SolidReferenceGroup>>()
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TODO()
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}
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// converting to XYZ to Tait–Bryan angles according to https://en.wikipedia.org/wiki/Euler_angles#Rotation_matrix
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private fun Solid.rotate(rot: DoubleArray) {
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val xAngle = atan2(-rot[5], rot[8])
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val yAngle = atan2(rot[2], sqrt(1.0 - rot[2].pow(2)))
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val zAngle = atan2(-rot[1], rot[0])
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rotation = Point3D(xAngle, yAngle, zAngle)
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}
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private fun Solid.translate(trans: DoubleArray) {
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val (x, y, z) = trans
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position = Point3D(x, y, z)
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}
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private fun Solid.useMatrix(matrix: TGeoMatrix?) {
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when (matrix) {
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null, is TGeoIdentity -> {
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//do nothing
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}
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is TGeoTranslation -> {
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translate(matrix.fTranslation)
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}
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is TGeoRotation -> {
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rotate(matrix.fRotationMatrix)
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}
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is TGeoCombiTrans -> {
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translate(matrix.fTranslation)
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matrix.fRotation?.let { rotate(it.fRotationMatrix) }
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}
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is TGeoHMatrix -> {
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translate(matrix.fTranslation)
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rotate(matrix.fRotationMatrix)
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val (xScale, yScale, zScale) = matrix.fScale
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scale = Point3D(xScale, yScale, zScale)
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}
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}
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}
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private fun SolidGroup.addShape(shape: TGeoShape) {
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when (shape) {
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is TGeoShapeRef -> addShape(shape.value)
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is TGeoCompositeShape -> {
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val bool: TGeoBoolNode = shape.fNode
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val compositeType = when (bool) {
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is TGeoIntersection -> CompositeType.INTERSECT
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is TGeoSubtraction -> CompositeType.SUBTRACT
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is TGeoUnion -> CompositeType.UNION
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}
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composite(compositeType, name = shape.fName) {
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addShape(bool.fLeft).apply {
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useMatrix(bool.fLeftMat)
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}
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addShape(bool.fRight).apply {
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useMatrix(bool.fRightMat)
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}
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}
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}
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is TGeoXtru -> extruded(name = shape.fName) {
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(0 until shape.fNvert).forEach { index ->
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shape {
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point(shape.fX[index], shape.fY[index])
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}
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}
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(0 until shape.fNz).forEach { index ->
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layer(
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shape.fZ[index],
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shape.fX0[index],
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shape.fY0[index],
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shape.fScale[index]
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)
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}
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}
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is TGeoTube -> tube(
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radius = shape.fRmax,
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height = shape.fDz * 2,
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innerRadius = shape.fRmin,
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name = shape.fName
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)
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is TGeoTubeSeg -> tube(
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radius = shape.fRmax,
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height = shape.fDz * 2,
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innerRadius = shape.fRmin,
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startAngle = degToRad(shape.fPhi1),
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angle = degToRad(shape.fPhi2 - shape.fPhi1),
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name = shape.fName
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)
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is TGeoPcon -> TODO()
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is TGeoPgon -> TODO()
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is TGeoShapeAssembly -> volume(shape.fVolume)
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is TGeoBBox -> box(shape.fDX * 2, shape.fDY * 2, shape.fDZ * 2, name = shape.fName)
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}
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}
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private fun SolidGroup.node(obj: TGeoNode) {
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if (obj.fVolume != null) {
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volume(obj.fVolume).apply {
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when (obj) {
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is TGeoNodeMatrix -> {
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useMatrix(obj.fMatrix)
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}
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is TGeoNodeOffset -> {
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x = obj.fOffset
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}
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}
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}
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}
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}
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private fun buildGroup(volume: TGeoVolume): SolidGroup {
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return if (volume is TGeoVolumeAssemblyRef) {
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buildGroup(volume.value)
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} else {
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SolidGroup {
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volume.fShape?.let { addShape(it) }
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volume.fNodes?.let {
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it.arr.forEach { obj ->
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node(obj)
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}
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}
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}
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}
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}
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private val SolidGroup.rootPrototypes: SolidGroup get() = (parent as? SolidGroup)?.rootPrototypes ?: this
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private fun SolidGroup.volume(volume: TGeoVolume, cache: Boolean = true): Solid {
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val group = buildGroup(volume)
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return if (!cache) {
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group
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} else newRef(
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name = volume.fName.ifEmpty { null },
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obj = group,
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prototypeHolder = rootPrototypes,
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templateName = volumesName + Name.parse(volume.fName.ifEmpty { group.toString() })
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)
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}
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// private fun load(geo: TGeoManager): SolidGroup {
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//// /**
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//// * A special group for local templates
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//// */
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//// val proto = SolidGroup()
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////
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//// val solids = proto.group(solidsName) {
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//// setPropertyNode("edges.enabled", false)
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//// }
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////
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//// val volumes = proto.group(volumesName)
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////
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//// val referenceStore = HashMap<Name, MutableList<SolidReferenceGroup>>()
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// }
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public fun TGeoManager.toSolid(): SolidGroup = SolidGroup {
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fNodes.arr.forEach {
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node(it)
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}
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}
|
@ -31,7 +31,9 @@ fun main() {
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val time = measureTimeMillis {
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val geo = TObject.decodeFromString(TGeoManager.serializer(), string)
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println(geo)
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val solid = geo.toSolid()
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println(solid)
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}
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println(Duration.ofMillis(time))
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@ -158,21 +158,28 @@ public fun SolidGroup.ref(
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name: String? = null,
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): SolidReferenceGroup = SolidReferenceGroup(templateName).also { set(name, it) }
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/**
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* Add new [SolidReferenceGroup] wrapping given object and automatically adding it to the prototypes
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*/
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public fun SolidGroup.ref(
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name: String,
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templateName: String,
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name: String? = null,
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): SolidReferenceGroup = ref(Name.parse(templateName), name)
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/**
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* Add new [SolidReferenceGroup] wrapping given object and automatically adding it to the prototypes.
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* One must ensure that [prototypeHolder] is the owner of this group.
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*/
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public fun SolidGroup.newRef(
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name: String?,
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obj: Solid,
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templateName: Name = Name.parse(name),
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prototypeHolder: PrototypeHolder = this,
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templateName: Name = Name.parse(name ?: obj.toString()),
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): SolidReferenceGroup {
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val existing = getPrototype(templateName)
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if (existing == null) {
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prototypes {
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this[templateName] = obj
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prototypeHolder.prototypes {
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set(templateName, obj)
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}
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} else if (existing != obj) {
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error("Can't add different prototype on top of existing one")
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}
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return this@ref.ref(templateName, name)
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return ref(templateName, name)
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||||
}
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||||
|
@ -16,7 +16,7 @@ fun SolidGroup.refGroup(
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||||
block: MutableVisionGroup.() -> Unit
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||||
): SolidReferenceGroup {
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||||
val group = SolidGroup().apply(block)
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||||
return ref(name, group, templateName)
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||||
return newRef(name, group, templateName = templateName)
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||||
}
|
||||
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||||
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||||
@ -42,7 +42,7 @@ class SerializationTest {
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||||
z = -100
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||||
}
|
||||
val group = SolidGroup {
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||||
ref("cube", cube)
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newRef("cube", cube)
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||||
refGroup("pg", Name.parse("pg.content")) {
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||||
sphere(50) {
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||||
x = -100
|
||||
|
@ -14,7 +14,7 @@ class SolidReferenceTest {
|
||||
val theStyle by style {
|
||||
SolidMaterial.MATERIAL_COLOR_KEY put "red"
|
||||
}
|
||||
ref("test", Box(100f,100f,100f).apply {
|
||||
newRef("test", Box(100f,100f,100f).apply {
|
||||
color("blue")
|
||||
useStyle(theStyle)
|
||||
})
|
||||
|
Loading…
Reference in New Issue
Block a user