0.2.0 #71
@ -16,7 +16,7 @@ allprojects {
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}
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group = "space.kscience"
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version = "0.2.0-dev-23"
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version = "0.2.0-dev-24"
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}
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subprojects {
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@ -15,7 +15,6 @@ public fun MetaProvider.doubleArray(
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it?.doubleArray ?: doubleArrayOf(*default)
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}
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public class DObjectCache(private val cache: List<Meta>, public val refStack: List<Int> = emptyList()) {
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public operator fun get(index: Int): Meta = cache[index]
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@ -25,28 +24,6 @@ public class DObjectCache(private val cache: List<Meta>, public val refStack: Li
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public val empty: DObjectCache = DObjectCache(emptyList(), emptyList())
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}
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}
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//
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//public interface ObjectRef<T : DObject> {
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// public fun resolve(): T?
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//}
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//public class ChildObjectRef<T : DObject>(
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// public val builder: (Meta, DObjectCache) -> T,
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// public val refCache: DObjectCache,
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// public val metaProvider: () -> Meta?
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//) : ObjectRef<T> {
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// override fun resolve(): T? {
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// val meta = metaProvider() ?: return null
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// meta["\$ref"]?.int?.let { refId ->
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// if (refCache.refStack.contains(refId)) {
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// println("Circular reference $refId in stack ${refCache.refStack}")
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// return null
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// }
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// return builder(refCache[refId], refCache.stack(refId))
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// }
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// return builder(meta, refCache)
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// }
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//}
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public open class DObject(public val meta: Meta, private val refCache: DObjectCache) {
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@ -4,6 +4,7 @@ import space.kscience.dataforge.meta.*
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import space.kscience.dataforge.names.Name
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import space.kscience.dataforge.names.plus
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import space.kscience.dataforge.values.doubleArray
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import space.kscience.visionforge.isEmpty
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import space.kscience.visionforge.solid.*
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import space.kscience.visionforge.solid.SolidMaterial.Companion.MATERIAL_COLOR_KEY
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import kotlin.math.*
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@ -16,7 +17,16 @@ 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 RootToSolidContext(val prototypeHolder: PrototypeHolder)
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private class RootToSolidContext(val prototypeHolder: PrototypeHolder, val maxLayer: Int = 3) {
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val layers: MutableList<Int> = mutableListOf(0)
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val layerLimits = listOf(10_000, 25_000, 50_000, 100_000, 200_000, 400_000, 600_000)
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val bottomLayer: Int get() = layers.size - 1
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fun addLayer() {
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layers.add(0)
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}
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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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@ -67,157 +77,164 @@ private fun Solid.useMatrix(matrix: DGeoMatrix?) {
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private fun SolidGroup.addShape(
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shape: DGeoShape,
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context: RootToSolidContext,
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name: String? = shape.fName.ifEmpty { null }
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): Solid? = when (shape.typename) {
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"TGeoCompositeShape" -> {
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val fNode: DGeoBoolNode? by shape.dObject(::DGeoBoolNode)
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val node = fNode ?: error("Composite shape node not resolved")
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val compositeType = when (node.typename) {
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"TGeoIntersection" -> CompositeType.INTERSECT
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"TGeoSubtraction" -> CompositeType.SUBTRACT
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"TGeoUnion" -> CompositeType.GROUP
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else -> error("Unknown bool node type ${node.typename}")
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}
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smartComposite(compositeType, name = name) {
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addShape(node.fLeft!!, context, null).also {
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if (it == null) TODO()
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it.useMatrix(node.fLeftMat)
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name: String? = shape.fName.ifEmpty { null },
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block: Solid.() -> Unit = {}
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) {
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when (shape.typename) {
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"TGeoCompositeShape" -> {
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val fNode: DGeoBoolNode? by shape.dObject(::DGeoBoolNode)
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val node = fNode ?: error("Composite shape node not resolved")
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val compositeType = when (node.typename) {
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"TGeoIntersection" -> CompositeType.INTERSECT
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"TGeoSubtraction" -> CompositeType.SUBTRACT
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"TGeoUnion" -> CompositeType.GROUP
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else -> error("Unknown bool node type ${node.typename}")
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}
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addShape(node.fRight!!, context, null).also {
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if (it == null) TODO()
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it.useMatrix(node.fRightMat)
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}
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}
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}
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"TGeoXtru" -> {
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val fNvert by shape.meta.int(0)
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val fX by shape.meta.doubleArray()
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val fY by shape.meta.doubleArray()
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val fNz by shape.meta.int(0)
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val fZ by shape.meta.doubleArray()
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val fX0 by shape.meta.doubleArray()
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val fY0 by shape.meta.doubleArray()
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val fScale by shape.meta.doubleArray()
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extruded(name = name) {
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(0 until fNvert).forEach { index ->
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shape {
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point(fX[index], fY[index])
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smartComposite(compositeType, name = name) {
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addShape(node.fLeft!!, context, null) {
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this.useMatrix(node.fLeftMat)
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}
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}
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(0 until fNz).forEach { index ->
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layer(
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fZ[index],
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fX0[index],
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fY0[index],
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fScale[index]
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)
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}
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addShape(node.fRight!!, context, null) {
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this.useMatrix(node.fRightMat)
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}
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}.apply(block)
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}
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}
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"TGeoTube" -> {
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val fRmax by shape.meta.double(0.0)
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val fDz by shape.meta.double(0.0)
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val fRmin by shape.meta.double(0.0)
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"TGeoXtru" -> {
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val fNvert by shape.meta.int(0)
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val fX by shape.meta.doubleArray()
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val fY by shape.meta.doubleArray()
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val fNz by shape.meta.int(0)
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val fZ by shape.meta.doubleArray()
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val fX0 by shape.meta.doubleArray()
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val fY0 by shape.meta.doubleArray()
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val fScale by shape.meta.doubleArray()
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tube(
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radius = fRmax,
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height = fDz * 2,
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innerRadius = fRmin,
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name = name
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)
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}
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"TGeoTubeSeg" -> {
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val fRmax by shape.meta.double(0.0)
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val fDz by shape.meta.double(0.0)
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val fRmin by shape.meta.double(0.0)
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val fPhi1 by shape.meta.double(0.0)
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val fPhi2 by shape.meta.double(0.0)
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extruded(name = name) {
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(0 until fNvert).forEach { index ->
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shape {
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point(fX[index], fY[index])
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}
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}
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tube(
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radius = fRmax,
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height = fDz * 2,
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innerRadius = fRmin,
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startAngle = degToRad(fPhi1),
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angle = degToRad(fPhi2 - fPhi1),
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name = name
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)
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}
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"TGeoPcon" -> {
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val fDphi by shape.meta.double(0.0)
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val fNz by shape.meta.int(2)
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val fPhi1 by shape.meta.double(360.0)
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val fRmax by shape.meta.doubleArray()
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val fRmin by shape.meta.doubleArray()
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val fZ by shape.meta.doubleArray()
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if (fNz == 2) {
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coneSurface(
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bottomOuterRadius = fRmax[0],
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bottomInnerRadius = fRmin[0],
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height = fZ[1] - fZ[0],
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topOuterRadius = fRmax[1],
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topInnerRadius = fRmin[1],
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(0 until fNz).forEach { index ->
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layer(
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fZ[index],
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fX0[index],
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fY0[index],
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fScale[index]
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)
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}
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}.apply(block)
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}
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"TGeoTube" -> {
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val fRmax by shape.meta.double(0.0)
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val fDz by shape.meta.double(0.0)
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val fRmin by shape.meta.double(0.0)
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tube(
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radius = fRmax,
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height = fDz * 2,
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innerRadius = fRmin,
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name = name,
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block = block
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)
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}
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"TGeoTubeSeg" -> {
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val fRmax by shape.meta.double(0.0)
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val fDz by shape.meta.double(0.0)
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val fRmin by shape.meta.double(0.0)
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val fPhi1 by shape.meta.double(0.0)
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val fPhi2 by shape.meta.double(0.0)
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tube(
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radius = fRmax,
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height = fDz * 2,
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innerRadius = fRmin,
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startAngle = degToRad(fPhi1),
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angle = degToRad(fDphi),
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name = name
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) {
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z = (fZ[1] + fZ[0]) / 2
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}
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} else {
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TODO()
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angle = degToRad(fPhi2 - fPhi1),
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name = name,
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block = block
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)
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}
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}
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"TGeoPgon" -> {
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val fDphi by shape.meta.double(0.0)
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val fNz by shape.meta.int(2)
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val fPhi1 by shape.meta.double(360.0)
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val fRmax by shape.meta.doubleArray()
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val fRmin by shape.meta.doubleArray()
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val fZ by shape.meta.doubleArray()
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"TGeoPcon" -> {
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val fDphi by shape.meta.double(0.0)
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val fNz by shape.meta.int(2)
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val fPhi1 by shape.meta.double(360.0)
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val fRmax by shape.meta.doubleArray()
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val fRmin by shape.meta.doubleArray()
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val fZ by shape.meta.doubleArray()
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if (fNz == 2) {
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coneSurface(
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bottomOuterRadius = fRmax[0],
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bottomInnerRadius = fRmin[0],
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height = fZ[1] - fZ[0],
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topOuterRadius = fRmax[1],
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topInnerRadius = fRmin[1],
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startAngle = degToRad(fPhi1),
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angle = degToRad(fDphi),
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name = name,
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) {
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z = (fZ[1] + fZ[0]) / 2
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val fNedges by shape.meta.int(1)
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}.apply(block)
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} else {
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TODO()
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}
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}
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"TGeoPgon" -> {
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val fDphi by shape.meta.double(0.0)
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val fNz by shape.meta.int(2)
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val fPhi1 by shape.meta.double(360.0)
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val fRmax by shape.meta.doubleArray()
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val fRmin by shape.meta.doubleArray()
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val fZ by shape.meta.doubleArray()
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val startphi = degToRad(fPhi1)
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val deltaphi = degToRad(fDphi)
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val fNedges by shape.meta.int(1)
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extruded(name) {
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//getting the radius of first
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require(fNz > 1) { "The polyhedron geometry requires at least two planes" }
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val baseRadius = fRmax[0]
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shape {
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(0..fNedges).forEach {
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val phi = deltaphi * fNedges * it + startphi
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(baseRadius * cos(phi) to baseRadius * sin(phi))
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val startphi = degToRad(fPhi1)
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val deltaphi = degToRad(fDphi)
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extruded(name) {
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//getting the radius of first
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require(fNz > 1) { "The polyhedron geometry requires at least two planes" }
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val baseRadius = fRmax[0]
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shape {
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(0..fNedges).forEach {
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val phi = deltaphi * fNedges * it + startphi
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(baseRadius * cos(phi) to baseRadius * sin(phi))
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}
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}
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}
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(0 until fNz).forEach { index ->
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//scaling all radii relative to first layer radius
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layer(fZ[index], scale = fRmax[index] / baseRadius)
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(0 until fNz).forEach { index ->
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//scaling all radii relative to first layer radius
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layer(fZ[index], scale = fRmax[index] / baseRadius)
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}
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}.apply(block)
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}
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"TGeoShapeAssembly" -> {
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val fVolume by shape.dObject(::DGeoVolume)
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fVolume?.let { volume ->
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addRootVolume(volume, context, block = block)
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}
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}
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}
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"TGeoShapeAssembly" -> {
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val fVolume by shape.dObject(::DGeoVolume)
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fVolume?.let { volume ->
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addRootVolume(volume, context)
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"TGeoBBox" -> {
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box(shape.fDX * 2, shape.fDY * 2, shape.fDZ * 2, name = name, block = block)
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}
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else -> {
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TODO("A shape with type ${shape.typename} not implemented")
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}
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}
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"TGeoBBox" -> {
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box(shape.fDX * 2, shape.fDY * 2, shape.fDZ * 2, name = name)
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}
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else -> {
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TODO("A shape with type ${shape.typename} not implemented")
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}
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}
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private fun SolidGroup.addRootNode(obj: DGeoNode, context: RootToSolidContext) {
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val volume = obj.fVolume ?: return
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addRootVolume(volume, context, obj.fName).apply {
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addRootVolume(volume, context, obj.fName) {
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if (context.bottomLayer > 0) {
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this.layer = context.bottomLayer
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}
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when (obj.typename) {
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"TGeoNodeMatrix" -> {
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val fMatrix by obj.dObject(::DGeoMatrix)
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useMatrix(fMatrix)
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this.useMatrix(fMatrix)
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}
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"TGeoNodeOffset" -> {
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val fOffset by obj.meta.double(0.0)
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@ -227,19 +244,29 @@ private fun SolidGroup.addRootNode(obj: DGeoNode, context: RootToSolidContext) {
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}
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}
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private fun buildVolume(volume: DGeoVolume, context: RootToSolidContext): Solid {
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private fun buildVolume(volume: DGeoVolume, context: RootToSolidContext): Solid? {
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val group = SolidGroup {
|
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if(volume.fNodes.isEmpty()) {
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val nodesNum = volume.fNodes.size
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if (nodesNum == 0) {
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//TODO add smart filter
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volume.fShape?.let { shape ->
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addShape(shape, context)
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}
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}
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val expectedLayerSize = context.layers.last() + nodesNum
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//If expected number exceeds layer limit, move everything else to the bottom layer.
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if (expectedLayerSize >= context.layerLimits[context.bottomLayer]) {
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context.addLayer()
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println("Adding new layer. Sizes after add: ${context.layers}")
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}
|
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context.layers[context.bottomLayer] += nodesNum
|
||||
volume.fNodes.forEach { node ->
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addRootNode(node, context)
|
||||
}
|
||||
}
|
||||
return if (group.children.size == 1 && group.meta.isEmpty()) {
|
||||
return if (group.isEmpty()) {
|
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null
|
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} else if (group.children.size == 1 && group.meta.isEmpty()) {
|
||||
(group.children.values.first() as Solid).apply { parent = null }
|
||||
} else {
|
||||
group
|
||||
@ -252,8 +279,15 @@ private fun SolidGroup.addRootVolume(
|
||||
volume: DGeoVolume,
|
||||
context: RootToSolidContext,
|
||||
name: String? = null,
|
||||
cache: Boolean = true
|
||||
): Solid {
|
||||
cache: Boolean = true,
|
||||
block: Solid.() -> Unit = {}
|
||||
) {
|
||||
//skip if maximum layer number is reached
|
||||
if (context.bottomLayer > context.maxLayer){
|
||||
println("Maximum layer depth reached. Skipping ${volume.fName}")
|
||||
return
|
||||
}
|
||||
|
||||
val combinedName = if (volume.fName.isEmpty()) {
|
||||
name
|
||||
} else if (name == null) {
|
||||
@ -262,23 +296,29 @@ private fun SolidGroup.addRootVolume(
|
||||
"${name}_${volume.fName}"
|
||||
}
|
||||
|
||||
return if (!cache) {
|
||||
val group = buildVolume(volume, context)
|
||||
if (!cache) {
|
||||
val group = buildVolume(volume, context)?.apply {
|
||||
volume.fFillColor?.let {
|
||||
meta[MATERIAL_COLOR_KEY] = RootColors[it]
|
||||
}
|
||||
block()
|
||||
}
|
||||
set(combinedName?.let { Name.parse(it) }, group)
|
||||
group
|
||||
} else {
|
||||
val templateName = volumesName + volume.name
|
||||
val existing = getPrototype(templateName)
|
||||
if (existing == null) {
|
||||
context.prototypeHolder.prototypes {
|
||||
set(templateName, buildVolume(volume, context))
|
||||
val group = buildVolume(volume, context)
|
||||
set(templateName, group)
|
||||
}
|
||||
}
|
||||
|
||||
ref(templateName, name)
|
||||
}.apply {
|
||||
volume.fFillColor?.let {
|
||||
meta[MATERIAL_COLOR_KEY] = RootColors[it]
|
||||
ref(templateName, name).apply {
|
||||
volume.fFillColor?.let {
|
||||
meta[MATERIAL_COLOR_KEY] = RootColors[it]
|
||||
}
|
||||
block()
|
||||
}
|
||||
}
|
||||
}
|
||||
|
@ -65,12 +65,6 @@ application {
|
||||
mainClass.set("ru.mipt.npm.muon.monitor.server.MMServerKt")
|
||||
}
|
||||
|
||||
tasks.withType<org.jetbrains.kotlin.gradle.dsl.KotlinJsCompile>() {
|
||||
kotlinOptions {
|
||||
freeCompilerArgs = freeCompilerArgs + "-Xir-property-lazy-initialization"
|
||||
}
|
||||
}
|
||||
|
||||
//distributions {
|
||||
// main {
|
||||
// contents {
|
||||
|
@ -9,6 +9,8 @@ import space.kscience.dataforge.meta.get
|
||||
import space.kscience.dataforge.meta.isLeaf
|
||||
import space.kscience.dataforge.values.string
|
||||
import space.kscience.visionforge.solid.Solids
|
||||
import java.nio.file.Paths
|
||||
import kotlin.io.path.writeText
|
||||
|
||||
|
||||
private fun Meta.countTypes(): Sequence<String> = sequence {
|
||||
@ -37,12 +39,18 @@ fun main() {
|
||||
|
||||
val solid = geo.toSolid()
|
||||
|
||||
//Paths.get("BM@N.vf.json").writeText(Solids.encodeToString(solid))
|
||||
Paths.get("BM@N.vf.json").writeText(Solids.encodeToString(solid))
|
||||
//println(Solids.encodeToString(solid))
|
||||
|
||||
context.makeVisionFile {
|
||||
vision("canvas") {
|
||||
solid
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
|
||||
|
||||
/* SolidGroup {
|
||||
set(
|
||||
"Coil",
|
||||
@ -99,6 +107,3 @@ fun main() {
|
||||
}
|
||||
}*//*
|
||||
}*/
|
||||
}
|
||||
}
|
||||
}
|
@ -2,7 +2,7 @@ kotlin.code.style=official
|
||||
kotlin.mpp.stability.nowarn=true
|
||||
|
||||
#kotlin.jupyter.add.scanner=false
|
||||
kotlin.incremental.js.klib=false
|
||||
#kotlin.incremental.js.klib=false
|
||||
|
||||
org.gradle.jvmargs=-XX:MaxMetaspaceSize=1G
|
||||
org.gradle.parallel=true
|
@ -83,7 +83,7 @@ private fun RBuilder.visionTree(props: ObjectTreeProps): Unit {
|
||||
}
|
||||
obj.children.entries
|
||||
.filter { !it.key.toString().startsWith("@") } // ignore statics and other hidden children
|
||||
.sortedBy { (it.value as? VisionGroup)?.isEmpty ?: true } // ignore empty groups
|
||||
.sortedBy { (it.value as? VisionGroup)?.isEmpty() ?: true } // ignore empty groups
|
||||
.forEach { (childToken, child) ->
|
||||
styledDiv {
|
||||
css {
|
||||
|
@ -63,7 +63,7 @@ public interface VisionGroup : Provider, Vision, VisionContainer<Vision> {
|
||||
*/
|
||||
public operator fun VisionGroup.iterator(): Iterator<Vision> = children.values.iterator()
|
||||
|
||||
public val VisionGroup.isEmpty: Boolean get() = this.children.isEmpty()
|
||||
public fun VisionGroup.isEmpty(): Boolean = this.children.isEmpty()
|
||||
|
||||
public interface VisionContainerBuilder<in V : Vision> {
|
||||
//TODO add documentation
|
||||
|
@ -67,8 +67,8 @@ internal fun checkOrStoreFile(htmlPath: Path, filePath: Path, resource: String):
|
||||
if (!skip) {
|
||||
logger.debug("File $fullPath does not exist or wrong checksum. Writing file")
|
||||
Files.createDirectories(fullPath.parent)
|
||||
Files.write(fullPath, bytes, StandardOpenOption.CREATE, StandardOpenOption.WRITE)
|
||||
Files.write(md5File, checksum.encodeToByteArray(), StandardOpenOption.CREATE, StandardOpenOption.WRITE)
|
||||
Files.write(fullPath, bytes, StandardOpenOption.CREATE,StandardOpenOption.TRUNCATE_EXISTING, StandardOpenOption.WRITE)
|
||||
Files.write(md5File, checksum.encodeToByteArray(), StandardOpenOption.CREATE, StandardOpenOption.TRUNCATE_EXISTING, StandardOpenOption.WRITE)
|
||||
}
|
||||
|
||||
return if (htmlPath.isAbsolute && fullPath.startsWith(htmlPath.parent)) {
|
||||
|
@ -57,8 +57,8 @@ public inline fun VisionContainerBuilder<Solid>.box(
|
||||
ySize: Number,
|
||||
zSize: Number,
|
||||
name: String? = null,
|
||||
action: Box.() -> Unit = {},
|
||||
): Box = Box(xSize.toFloat(), ySize.toFloat(), zSize.toFloat()).apply(action).also { set(name, it) }
|
||||
block: Box.() -> Unit = {},
|
||||
): Box = Box(xSize.toFloat(), ySize.toFloat(), zSize.toFloat()).apply(block).also { set(name, it) }
|
||||
|
||||
@Serializable
|
||||
@SerialName("solid.hexagon")
|
||||
|
Loading…
Reference in New Issue
Block a user