forked from kscience/visionforge
Fix MM model
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5721bb9456
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e38bac8d23
@ -28,7 +28,6 @@ class Model(val manager: VisionManager) {
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private fun SolidGroup.detector(detector: SC16) {
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group(detector.name) {
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position = detector.center
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detector.pixels.forEach {
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pixel(it)
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}
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@ -65,6 +64,7 @@ class Model(val manager: VisionManager) {
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}
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private fun highlight(pixel: String) {
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println("highlight $pixel")
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map[pixel]?.color?.invoke("blue")
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}
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@ -76,6 +76,7 @@ class Model(val manager: VisionManager) {
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}
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fun displayEvent(event: Event) {
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println("Received event: $event")
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events.add(event)
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event.hits.forEach {
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highlight(it)
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@ -83,6 +84,7 @@ class Model(val manager: VisionManager) {
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event.track?.let {
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tracks.polyline(*it.toTypedArray(), name = "track[${event.id}]") {
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thickness = 4
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color("red")
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}
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}
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}
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@ -3,6 +3,7 @@ package ru.mipt.npm.muon.monitor
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import ru.mipt.npm.muon.monitor.Monitor.PIXEL_XY_SIZE
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import ru.mipt.npm.muon.monitor.Monitor.PIXEL_Z_SIZE
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import space.kscience.visionforge.solid.Point3D
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import space.kscience.visionforge.solid.plus
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/**
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* A single pixel
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@ -97,7 +98,7 @@ class SC16(
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}
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val offset = Point3D(-y, x, 0)//rotateDetector(Point3D(x, y, 0.0));
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val pixelName = "${name}_${index}"
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SC1(pixelName, offset)
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SC1(pixelName, offset + center)
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}
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}
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}
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@ -56,9 +56,11 @@ val MMApp = functionalComponent<MMAppProps>("Muon monitor") { props ->
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}
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}
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val root = props.model.root.apply {
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val root = useMemo(props.model) {
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props.model.root.apply {
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edges()
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}
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}
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gridRow {
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flexColumn {
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@ -16,10 +16,10 @@ import kotlin.random.Random
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*/
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internal class SC1Aux(val sc: SC1, var efficiency: Double = 1.0) {
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// val layer: Layer = findLayer(center.z);
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private val upLayer =
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findLayer(sc.center.z + sc.zSize / 2f)//Layer("${name}_up", center.z + zSize / 2.0);
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private val bottomLayer =
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findLayer(sc.center.z - sc.zSize / 2f)//Layer("${name}_bottom", center.z - zSize / 2.0);
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private val upLayer = findLayer(sc.center.z + sc.zSize / 2f)
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//Layer("${name}_up", center.z + zSize / 2.0);
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private val bottomLayer = findLayer(sc.center.z - sc.zSize / 2f)
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//Layer("${name}_bottom", center.z - zSize / 2.0);
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private val centralLayer = findLayer(sc.center.z)
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private val center = Vector3D(sc.center.x.toDouble(), sc.center.y.toDouble(), sc.center.z.toDouble())
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@ -115,8 +115,8 @@ internal class SC1Aux(val sc: SC1, var efficiency: Double = 1.0) {
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private val auxCache = HashMap<SC1, SC1Aux>()
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fun SC1.isHit(track: Line): Boolean{
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return auxCache.getOrPut(this){
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fun SC1.isHit(track: Line): Boolean {
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return auxCache.getOrPut(this) {
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SC1Aux(this)
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}.isHit(track)
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}
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@ -7,9 +7,11 @@ import info.laht.threekt.objects.LineSegments
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import space.kscience.visionforge.computePropertyNode
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import space.kscience.visionforge.onPropertyChange
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import space.kscience.visionforge.solid.PolyLine
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import space.kscience.visionforge.solid.SolidMaterial
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import space.kscience.visionforge.solid.color
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import space.kscience.visionforge.solid.string
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import space.kscience.visionforge.solid.three.ThreeMaterials.DEFAULT_LINE_COLOR
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import kotlin.math.ceil
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import kotlin.reflect.KClass
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public object ThreeLineFactory : ThreeFactory<PolyLine> {
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@ -17,12 +19,14 @@ public object ThreeLineFactory : ThreeFactory<PolyLine> {
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override fun invoke(three: ThreePlugin, obj: PolyLine): Object3D {
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val geometry = BufferGeometry().apply {
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setFromPoints(Array(obj.points.size) { obj.points[it].toVector() })
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setFromPoints(Array((obj.points.size - 1) * 2) {
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obj.points[ceil(it / 2.0).toInt()].toVector()
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})
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}
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val material = ThreeMaterials.getLineMaterial(
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obj.computePropertyNode(MeshThreeFactory.EDGES_MATERIAL_KEY),
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true
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obj.computePropertyNode(SolidMaterial.MATERIAL_KEY),
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false
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)
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material.linewidth = obj.thickness.toDouble()
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