Almost working OrbitControls for FX

2019-12-28 22:11:43 +03:00 · 2019-12-28 22:11:43 +03:00 · 459d256ebd
commit 459d256ebd
parent 26948a88d7
31 changed files with 451 additions and 319 deletions
--- a/build.gradle.kts
+++ b/build.gradle.kts
@ -1,6 +1,6 @@
 import scientifik.useSerialization
-val dataforgeVersion by extra("0.1.5-dev-5")
+val dataforgeVersion by extra("0.1.5-dev-6")
 plugins {
    val kotlinVersion = "1.3.61"
--- a/dataforge-vis-common/build.gradle.kts
+++ b/dataforge-vis-common/build.gradle.kts
@ -35,6 +35,7 @@ kotlin {
                api("hep.dataforge:dataforge-output-html:$dataforgeVersion")
                api(npm("bootstrap","4.4.1"))
                implementation(npm("jsoneditor"))
                implementation(npm("file-saver"))
            }
        }
    }
--- a/dataforge-vis-common/src/jsMain/kotlin/hep/dataforge/vis/js/editor/jsTree.kt
+++ b/dataforge-vis-common/src/jsMain/kotlin/hep/dataforge/vis/js/editor/jsTree.kt
@ -1,10 +1,9 @@
-package hep.dataforge.js
+package hep.dataforge.vis.js.editor
 import hep.dataforge.names.NameToken
 import hep.dataforge.vis.common.VisualGroup
 import hep.dataforge.vis.common.VisualObject
 import hep.dataforge.vis.common.isEmpty
 import hep.dataforge.vis.js.editor.card
 import kotlinx.html.TagConsumer
 import kotlinx.html.dom.append
 import kotlinx.html.js.*
--- a/dataforge-vis-spatial-gdml/src/commonMain/kotlin/hep/dataforge/vis/spatial/gdml/GDMLTransformer.kt
+++ b/dataforge-vis-spatial-gdml/src/commonMain/kotlin/hep/dataforge/vis/spatial/gdml/GDMLTransformer.kt
@ -5,13 +5,9 @@ import hep.dataforge.meta.MetaBuilder
 import hep.dataforge.meta.buildMeta
 import hep.dataforge.names.Name
 import hep.dataforge.names.toName
 import hep.dataforge.vis.common.VisualObject
 import hep.dataforge.vis.common.useStyle
 import hep.dataforge.vis.spatial.*
 import hep.dataforge.vis.spatial.Material3D.Companion.MATERIAL_COLOR_KEY
 import hep.dataforge.vis.spatial.RotationOrder
 import hep.dataforge.vis.spatial.VisualGroup3D
 import hep.dataforge.vis.spatial.VisualObject3D
 import hep.dataforge.vis.spatial.rotationOrder
 import scientifik.gdml.*
 import kotlin.random.Random
@ -37,7 +33,14 @@ class GDMLTransformer(val root: GDML) {
    var volumeAction: (GDMLGroup) -> Action = { Action.CACHE }
-    var solidConfiguration: VisualObject3D.(parent: GDMLVolume, solid: GDMLSolid) -> Unit = { _, _ -> }
+    var solidConfiguration: VisualObject3D.(parent: GDMLVolume, solid: GDMLSolid) -> Unit = { parent, solid ->
        lUnit = LUnit.CM
        if (parent.physVolumes.isNotEmpty()) {
            useStyle("opaque") {
                Material3D.MATERIAL_OPACITY_KEY put 0.3
            }
        }
    }
    fun VisualObject3D.useStyle(name: String, builder: MetaBuilder.() -> Unit) {
        styleCache.getOrPut(name.toName()) {
--- a/dataforge-vis-spatial-gdml/src/commonMain/kotlin/hep/dataforge/vis/spatial/gdml/visualGDML.kt
+++ b/dataforge-vis-spatial-gdml/src/commonMain/kotlin/hep/dataforge/vis/spatial/gdml/visualGDML.kt
@ -6,8 +6,8 @@ import hep.dataforge.names.asName
 import hep.dataforge.names.plus
 import hep.dataforge.vis.common.get
 import hep.dataforge.vis.spatial.*
-import hep.dataforge.vis.spatial.GeometryConstants.one
+import hep.dataforge.vis.spatial.World.ONE
-import hep.dataforge.vis.spatial.GeometryConstants.zero
+import hep.dataforge.vis.spatial.World.ZERO
 import scientifik.gdml.*
 import kotlin.math.cos
 import kotlin.math.sin
@ -21,20 +21,20 @@ private fun VisualObject3D.withPosition(
 ): VisualObject3D = apply {
    newPos?.let {
        val point = Point3D(it.x(lUnit), it.y(lUnit), it.z(lUnit))
-        if (position != null || point != zero) {
+        if (position != null || point != ZERO) {
            position = point
        }
    }
    newRotation?.let {
        val point = Point3D(it.x(), it.y(), it.z())
-        if (rotation != null || point != zero) {
+        if (rotation != null || point != ZERO) {
            rotation = point
        }
        //this@withPosition.rotationOrder = RotationOrder.ZXY
    }
    newScale?.let {
        val point = Point3D(it.x, it.y, it.z)
-        if (scale != null || point != one) {
+        if (scale != null || point != ONE) {
            scale = point
        }
    }
--- a/dataforge-vis-spatial/src/commonMain/kotlin/hep/dataforge/vis/spatial/Visual3DPlugin.kt
+++ b/dataforge-vis-spatial/src/commonMain/kotlin/hep/dataforge/vis/spatial/Visual3DPlugin.kt
@ -38,7 +38,7 @@ class Visual3DPlugin(meta: Meta) : AbstractPlugin(meta) {
            contextual(Point2DSerializer)
            contextual(NameSerializer)
            contextual(NameTokenSerializer)
-            contextual(Meta::class, MetaSerializer)
+            contextual(MetaSerializer)
            contextual(ConfigSerializer)
            polymorphic(VisualObject::class, VisualObject3D::class) {
@ -48,7 +48,8 @@ class Visual3DPlugin(meta: Meta) : AbstractPlugin(meta) {
                Tube::class with Tube.serializer()
                Box::class with Box.serializer()
                Convex::class with Convex.serializer()
-                addSubclass(Extruded.serializer())
+                Extruded::class with Extruded.serializer()
                addSubclass(Label3D.serializer())
            }
        }
--- a/dataforge-vis-spatial/src/commonMain/kotlin/hep/dataforge/vis/spatial/World.kt
+++ b/dataforge-vis-spatial/src/commonMain/kotlin/hep/dataforge/vis/spatial/World.kt
@ -3,12 +3,8 @@ package hep.dataforge.vis.spatial
 import kotlin.math.PI
 object World {
-    const val CAMERA_INITIAL_DISTANCE = -500.0
+    val ZERO = Point3D(0.0, 0.0, 0.0)
-    const val CAMERA_INITIAL_X_ANGLE = -50.0
+    val ONE = Point3D(1.0, 1.0, 1.0)
    const val CAMERA_INITIAL_Y_ANGLE = 0.0
    const val CAMERA_INITIAL_Z_ANGLE = -210.0
    const val CAMERA_NEAR_CLIP = 0.1
    const val CAMERA_FAR_CLIP = 10000.0
 }
 const val PI2: Float = 2 * PI.toFloat()
--- a/dataforge-vis-spatial/src/commonMain/kotlin/hep/dataforge/vis/spatial/geometry.kt
+++ b/dataforge-vis-spatial/src/commonMain/kotlin/hep/dataforge/vis/spatial/geometry.kt
@ -38,9 +38,4 @@ fun Point3D.toMeta() = buildMeta {
    VisualObject3D.x put x
    VisualObject3D.y put y
    VisualObject3D.z put z
 }
 object GeometryConstants {
    val zero = Point3D(0.0, 0.0, 0.0)
    val one = Point3D(1.0, 1.0, 1.0)
 }
--- a/dataforge-vis-spatial/src/commonMain/kotlin/hep/dataforge/vis/spatial/specifications/AxesSpec.kt
+++ b/dataforge-vis-spatial/src/commonMain/kotlin/hep/dataforge/vis/spatial/specifications/AxesSpec.kt
@ -0,0 +1,17 @@
 package hep.dataforge.vis.spatial.specifications
 import hep.dataforge.meta.*
 class AxesSpec(override val config: Config) : Specific {
    var visible by boolean(!config.isEmpty())
    var size by double(AXIS_SIZE)
    var width by double(AXIS_WIDTH)
    companion object : Specification<AxesSpec> {
        override fun wrap(config: Config): AxesSpec = AxesSpec(config)
        const val AXIS_SIZE = 1000.0
        const val AXIS_WIDTH = 3.0
    }
 }
--- a/dataforge-vis-spatial/src/commonMain/kotlin/hep/dataforge/vis/spatial/specifications/CameraSpec.kt
+++ b/dataforge-vis-spatial/src/commonMain/kotlin/hep/dataforge/vis/spatial/specifications/CameraSpec.kt
@ -0,0 +1,26 @@
 package hep.dataforge.vis.spatial.specifications
 import hep.dataforge.meta.*
 import kotlin.math.PI
 class CameraSpec(override val config: Config) : Specific {
    var fov by int(FIELD_OF_VIEW)
    //var aspect by double(1.0)
    var nearClip by double(NEAR_CLIP)
    var farClip by double(FAR_CLIP)
    var distance by double(INITIAL_DISTANCE)
    var azimuth by double(INITIAL_AZIMUTH)
    var latitude by double(INITIAL_LATITUDE)
    val zenith: Double get() = PI / 2 - latitude
    companion object : Specification<CameraSpec> {
        override fun wrap(config: Config): CameraSpec = CameraSpec(config)
        const val INITIAL_DISTANCE = 300.0
        const val INITIAL_AZIMUTH = 0.0
        const val INITIAL_LATITUDE = PI/6
        const val NEAR_CLIP = 0.1
        const val FAR_CLIP = 10000.0
        const val FIELD_OF_VIEW = 75
    }
 }
--- a/dataforge-vis-spatial/src/commonMain/kotlin/hep/dataforge/vis/spatial/specifications/CanvasSpec.kt
+++ b/dataforge-vis-spatial/src/commonMain/kotlin/hep/dataforge/vis/spatial/specifications/CanvasSpec.kt
@ -0,0 +1,15 @@
 package hep.dataforge.vis.spatial.specifications
 import hep.dataforge.meta.*
 class CanvasSpec(override val config: Config) : Specific {
    var axes by spec(AxesSpec)
    var camera by spec(CameraSpec)
    var controls by spec(ControlsSpec)
    var minSize by int(300)
    companion object: Specification<CanvasSpec>{
        override fun wrap(config: Config): CanvasSpec = CanvasSpec(config)
    }
 }
--- a/dataforge-vis-spatial/src/commonMain/kotlin/hep/dataforge/vis/spatial/specifications/ControlsSpec.kt
+++ b/dataforge-vis-spatial/src/commonMain/kotlin/hep/dataforge/vis/spatial/specifications/ControlsSpec.kt
@ -0,0 +1,11 @@
 package hep.dataforge.vis.spatial.specifications
 import hep.dataforge.meta.Config
 import hep.dataforge.meta.Specific
 import hep.dataforge.meta.Specification
 class ControlsSpec(override val config: Config) : Specific {
    companion object : Specification<ControlsSpec> {
        override fun wrap(config: Config): ControlsSpec = ControlsSpec(config)
    }
 }
--- a/dataforge-vis-spatial/src/commonMain/kotlin/hep/dataforge/vis/spatial/transform/RemoveSingleChild.kt
+++ b/dataforge-vis-spatial/src/commonMain/kotlin/hep/dataforge/vis/spatial/transform/RemoveSingleChild.kt
@ -15,8 +15,8 @@ internal fun mergeChild(parent: VisualGroup, child: VisualObject): VisualObject
        //parent.properties?.let { config.update(it) }
        if (this is VisualObject3D && parent is VisualObject3D) {
-            position = (position ?: GeometryConstants.zero) + (parent.position ?: GeometryConstants.zero)
+            position = (position ?: World.ZERO) + (parent.position ?: World.ZERO)
-            rotation = (parent.rotation ?: GeometryConstants.zero) + (parent.rotation ?: GeometryConstants.zero)
+            rotation = (parent.rotation ?: World.ZERO) + (parent.rotation ?: World.ZERO)
            scale = when {
                scale == null && parent.scale == null -> null
                scale == null -> parent.scale
--- a/dataforge-vis-spatial/src/jsMain/kotlin/hep/dataforge/vis/spatial/three/ThreeCanvas.kt
+++ b/dataforge-vis-spatial/src/jsMain/kotlin/hep/dataforge/vis/spatial/three/ThreeCanvas.kt
@ -1,59 +1,61 @@
 package hep.dataforge.vis.spatial.three
 import hep.dataforge.context.Context
-import hep.dataforge.meta.*
+import hep.dataforge.meta.Meta
 import hep.dataforge.meta.get
 import hep.dataforge.meta.string
 import hep.dataforge.output.Renderer
 import hep.dataforge.vis.common.Colors
 import hep.dataforge.vis.spatial.Point3D
 import hep.dataforge.vis.spatial.VisualObject3D
-import hep.dataforge.vis.spatial.World
+import hep.dataforge.vis.spatial.specifications.AxesSpec
 import hep.dataforge.vis.spatial.specifications.CameraSpec
 import hep.dataforge.vis.spatial.specifications.CanvasSpec
 import hep.dataforge.vis.spatial.specifications.ControlsSpec
 import info.laht.threekt.WebGLRenderer
 import info.laht.threekt.cameras.PerspectiveCamera
 import info.laht.threekt.external.controls.OrbitControls
 import info.laht.threekt.external.controls.TrackballControls
 import info.laht.threekt.helpers.AxesHelper
 import info.laht.threekt.lights.AmbientLight
 import info.laht.threekt.scenes.Scene
 import org.w3c.dom.HTMLElement
 import org.w3c.dom.Node
 import kotlin.browser.window
 import kotlin.dom.clear
 import kotlin.math.cos
 import kotlin.math.max
 import kotlin.math.sin
-class ThreeCanvas(val three: ThreePlugin, val meta: Meta = EmptyMeta) : Renderer<VisualObject3D> {
+class ThreeCanvas(val three: ThreePlugin, val spec: CanvasSpec) : Renderer<VisualObject3D> {
    override val context: Context get() = three.context
-    var data: VisualObject3D? = null
+    var content: VisualObject3D? = null
        private set
-    val axes = AxesHelper(meta["axes.size"].int ?: 50).apply { visible = false }
+    val axes = AxesHelper(spec.axes.size.toInt()).apply {
        visible = spec.axes.visible
    }
    val scene: Scene = Scene().apply {
        add(AmbientLight())
        if (meta["axes.visible"].boolean == true) {
            axes.visible = true
        }
        add(axes)
    }
-    private fun buildCamera(meta: Meta) = PerspectiveCamera(
+    val camera = buildCamera(spec.camera)
-        meta["fov"].int ?: 75,
+
-        meta["aspect"].double ?: 1.0,
+    private fun buildCamera(spec: CameraSpec) = PerspectiveCamera(
-        meta["nearClip"].double ?: World.CAMERA_NEAR_CLIP,
+        spec.fov,
-        meta["farClip"].double ?: World.CAMERA_FAR_CLIP
+        1.0,
        spec.nearClip,
        spec.farClip
    ).apply {
-        position.setZ(World.CAMERA_INITIAL_DISTANCE)
+        translateX(spec.distance* sin(spec.zenith) * sin(spec.azimuth))
-        rotation.set(
+        translateY(spec.distance* cos(spec.zenith))
-            World.CAMERA_INITIAL_X_ANGLE,
+        translateZ(spec.distance * sin(spec.zenith) * cos(spec.azimuth))
            World.CAMERA_INITIAL_Y_ANGLE,
            World.CAMERA_INITIAL_Z_ANGLE
        )
    }
-    val camera = buildCamera(meta["camera"].node ?: EmptyMeta)
+    private fun addControls(element: Node, controlsSpec: ControlsSpec) {
-
+        when (controlsSpec["type"].string) {
    private fun addControls(element: Node, meta: Meta) {
        when (meta["type"].string) {
            "trackball" -> TrackballControls(camera, element)
            else -> OrbitControls(camera, element)
        }
@ -69,7 +71,7 @@ class ThreeCanvas(val three: ThreePlugin, val meta: Meta = EmptyMeta) : Renderer
        }
-        addControls(renderer.domElement, meta["controls"].node ?: EmptyMeta)
+        addControls(renderer.domElement, spec.controls ?: ControlsSpec.empty())
        fun animate() {
            window.requestAnimationFrame {
@ -80,9 +82,7 @@ class ThreeCanvas(val three: ThreePlugin, val meta: Meta = EmptyMeta) : Renderer
        element.appendChild(renderer.domElement)
-        val minSize by meta.number(0).int
+        renderer.setSize(max(spec.minSize, element.offsetWidth), max(spec.minSize, element.offsetWidth))
        renderer.setSize(max(minSize, element.offsetWidth), max(minSize, element.offsetWidth))
        element.onresize = {
            renderer.setSize(element.offsetWidth, element.offsetWidth)
@ -93,13 +93,13 @@ class ThreeCanvas(val three: ThreePlugin, val meta: Meta = EmptyMeta) : Renderer
    }
    override fun render(obj: VisualObject3D, meta: Meta) {
-        data = obj
+        content = obj
        scene.add(three.buildObject3D(obj))
    }
 }
-fun ThreePlugin.output(element: HTMLElement? = null, meta: Meta = EmptyMeta, override: MetaBuilder.() -> Unit = {}) =
+fun ThreePlugin.output(element: HTMLElement? = null, spec: CanvasSpec = CanvasSpec.empty()): ThreeCanvas =
-    ThreeCanvas(this, buildMeta(meta, override)).apply {
+    ThreeCanvas(this, spec).apply {
        if (element != null) {
            attach(element)
        }
--- a/dataforge-vis-spatial/src/jsMain/kotlin/hep/dataforge/vis/spatial/three/ThreeLabelFactory.kt
+++ b/dataforge-vis-spatial/src/jsMain/kotlin/hep/dataforge/vis/spatial/three/ThreeLabelFactory.kt
@ -1,29 +1,35 @@
 package hep.dataforge.vis.spatial.three
 import hep.dataforge.vis.spatial.Label3D
 import hep.dataforge.vis.spatial.color
 import info.laht.threekt.DoubleSide
 import info.laht.threekt.core.Object3D
-import info.laht.threekt.geometries.PlaneGeometry
+import info.laht.threekt.geometries.PlaneBufferGeometry
 import info.laht.threekt.materials.MeshBasicMaterial
 import info.laht.threekt.objects.Mesh
 import info.laht.threekt.textures.Texture
-import org.w3c.dom.CanvasRenderingContext2D
+import org.w3c.dom.*
 import org.w3c.dom.HTMLCanvasElement
 import kotlin.browser.document
 import kotlin.math.PI
 import kotlin.reflect.KClass
 /**
 * Using example from http://stemkoski.github.io/Three.js/Texture-From-Canvas.html
 */
-object ThreeTextFactory : ThreeFactory<Label3D> {
+object ThreeLabelFactory : ThreeFactory<Label3D> {
    override val type: KClass<in Label3D> get() = Label3D::class
    override fun invoke(obj: Label3D): Object3D {
        val canvas = document.createElement("canvas") as HTMLCanvasElement
        val context = canvas.getContext("2d") as CanvasRenderingContext2D
-        context.font = "${obj.fontSize}pt ${obj.fontFamily}"
+        context.font = "Bold ${obj.fontSize}pt ${obj.fontFamily}"
-        context.fillStyle = "rgba(255,0,0,0.95)"//obj.material?.color ?: "black"
+        context.fillStyle = obj.color ?: "black"
-        context.fillText(obj.text, 0.0, 0.0)
+        context.textAlign = CanvasTextAlign.CENTER
        //context.textBaseline = CanvasTextBaseline.MIDDLE
        val metrics = context.measureText(obj.text)
        context.fillText(obj.text, 0.5*metrics.width, 0.5*metrics.width)
        // canvas contents will be used for a texture
        val texture = Texture(canvas)
@ -32,14 +38,16 @@ object ThreeTextFactory : ThreeFactory<Label3D> {
        val material = MeshBasicMaterial().apply {
            map = texture
            side = DoubleSide
            transparent = true
        }
        material.transparent = true;
        val mesh = Mesh(
-            PlaneGeometry(canvas.clientWidth, canvas.clientHeight),
+            PlaneBufferGeometry(canvas.width, canvas.height),
            material
        )
        //mesh.rotateX(PI)
        mesh.updatePosition(obj)
        return mesh
--- a/dataforge-vis-spatial/src/jsMain/kotlin/hep/dataforge/vis/spatial/three/ThreePlugin.kt
+++ b/dataforge-vis-spatial/src/jsMain/kotlin/hep/dataforge/vis/spatial/three/ThreePlugin.kt
@ -27,7 +27,7 @@ class ThreePlugin : AbstractPlugin() {
        objectFactories[Sphere::class] = ThreeSphereFactory
        objectFactories[ConeSegment::class] = ThreeCylinderFactory
        objectFactories[PolyLine::class] = ThreeLineFactory
-        objectFactories[Label3D::class] = ThreeTextFactory
+        objectFactories[Label3D::class] = ThreeLabelFactory
    }
    @Suppress("UNCHECKED_CAST")
--- a/dataforge-vis-spatial/src/jsMain/kotlin/hep/dataforge/vis/spatial/three/outputConfig.kt
+++ b/dataforge-vis-spatial/src/jsMain/kotlin/hep/dataforge/vis/spatial/three/outputConfig.kt
@ -1,51 +1,67 @@
 package hep.dataforge.vis.spatial.three
 import hep.dataforge.js.requireJS
 import hep.dataforge.vis.js.editor.card
 import hep.dataforge.vis.spatial.Visual3DPlugin
 import hep.dataforge.vis.spatial.VisualGroup3D
 import kotlinx.html.InputType
 import kotlinx.html.TagConsumer
 import kotlinx.html.button
 import kotlinx.html.dom.append
 import kotlinx.html.js.*
 import org.w3c.dom.Element
 import org.w3c.dom.HTMLElement
 import org.w3c.dom.events.Event
 import org.w3c.files.Blob
 import org.w3c.files.BlobPropertyBag
 import kotlin.dom.clear
-//private fun download(filename: String, text: String) {
+private fun saveData(event: Event, fileName: String, mimeType: String = "text/plain", dataBuilder: () -> String) {
-//    var element = document.createElement("a");
+    event.stopPropagation();
-//    element.setAttribute("href", "data:text/json;charset=utf-8," + encodeURIComponent(text));
+    event.preventDefault();
 //    element.setAttribute("download", filename);
 //
 //    element.style.display = 'none';
 //    document.body.appendChild(element);
 //
 //    element.click();
 //
 //    document.body.removeChild(element);
 //}
-fun Element.threeOutputConfig(canvas: ThreeCanvas) {
+    val fileSaver = requireJS("file-saver")
    val blob = Blob(arrayOf(dataBuilder()), BlobPropertyBag("$mimeType;charset=utf-8"))
    fileSaver.saveAs(blob, fileName)
 }
 fun Element.threeSettings(canvas: ThreeCanvas, block: TagConsumer<HTMLElement>.() -> Unit = {}) {
    clear()
    append {
-        card("Settings"){
+        card("Settings") {
-            div("row"){
+            div("row") {
-                div("col-1") {
+                div("col-2") {
-                    label { +"Axes" }
+                    label("checkbox-inline") {
-                    input(type = InputType.checkBox).apply {
+                        input(type = InputType.checkBox).apply {
-                        checked = canvas.axes.visible
+                            checked = canvas.axes.visible
-                        onChangeFunction = {
+                            onChangeFunction = {
-                            canvas.axes.visible = checked
+                                canvas.axes.visible = checked
                            }
                        }
                        +"Axes"
                    }
                }
                div("col-1") {
                    button {
                        +"Export"
                        onClickFunction = {
-
+                            val json = (canvas.content as? VisualGroup3D)?.let { group ->
                                Visual3DPlugin.json.stringify(
                                    VisualGroup3D.serializer(),
                                    group
                                )
                            }
                            if (json != null) {
                                saveData(it, "object.json", "text/json"){
                                    json
                                }
                            }
                        }
                    }
                }
            }
        }
-        card("Layers"){
+        card("Layers") {
            div("row") {
                (0..11).forEach { layer ->
                    div("col-1") {
@ -66,5 +82,6 @@ fun Element.threeOutputConfig(canvas: ThreeCanvas) {
                }
            }
        }
        block()
    }
 }
--- a/dataforge-vis-spatial/src/jsMain/kotlin/hep/dataforge/vis/spatial/three/three.kt
+++ b/dataforge-vis-spatial/src/jsMain/kotlin/hep/dataforge/vis/spatial/three/three.kt
@ -5,7 +5,6 @@ import hep.dataforge.meta.float
 import hep.dataforge.meta.get
 import hep.dataforge.meta.node
 import hep.dataforge.vis.spatial.*
 import hep.dataforge.vis.spatial.GeometryConstants.zero
 import info.laht.threekt.core.*
 import info.laht.threekt.external.controls.OrbitControls
 import info.laht.threekt.materials.Material
@ -13,6 +12,7 @@ import info.laht.threekt.math.Euler
 import info.laht.threekt.math.Vector3
 import info.laht.threekt.objects.Mesh
 import info.laht.threekt.textures.Texture
 import kotlin.math.PI
 /**
 * Utility methods for three.kt.
@ -30,6 +30,8 @@ val MetaItem<*>.vector get() = Vector3(node["x"].float ?: 0f, node["y"].float ?:
 fun Geometry.toBufferGeometry(): BufferGeometry = BufferGeometry().apply { fromGeometry(this@toBufferGeometry) }
 internal fun Double.toRadians() = this * PI / 180
 fun CSG.toGeometry(): Geometry {
    val geom = Geometry()
@ -45,7 +47,7 @@ fun CSG.toGeometry(): Geometry {
        }
        for (j in 3..polygon.vertices.size) {
-            val fc = Face3(v0, v0 + j - 2, v0 + j - 1, zero)
+            val fc = Face3(v0, v0 + j - 2, v0 + j - 1, World.ZERO)
            fc.vertexNormals = arrayOf(
                Vector3().copy(pvs[0].normal),
                Vector3().copy(pvs[j - 2].normal),
--- a/dataforge-vis-spatial/src/jvmMain/kotlin/hep/dataforge/vis/spatial/fx/FXCanvas3D.kt
+++ b/dataforge-vis-spatial/src/jvmMain/kotlin/hep/dataforge/vis/spatial/fx/FXCanvas3D.kt
@ -2,29 +2,20 @@ package hep.dataforge.vis.spatial.fx
 import hep.dataforge.context.Context
 import hep.dataforge.context.ContextAware
-import hep.dataforge.meta.*
+import hep.dataforge.meta.Meta
 import hep.dataforge.output.Renderer
 import hep.dataforge.vis.spatial.VisualObject3D
-import hep.dataforge.vis.spatial.World.CAMERA_FAR_CLIP
+import hep.dataforge.vis.spatial.specifications.CanvasSpec
 import hep.dataforge.vis.spatial.World.CAMERA_INITIAL_DISTANCE
 import hep.dataforge.vis.spatial.World.CAMERA_INITIAL_X_ANGLE
 import hep.dataforge.vis.spatial.World.CAMERA_INITIAL_Y_ANGLE
 import hep.dataforge.vis.spatial.World.CAMERA_NEAR_CLIP
 import javafx.application.Platform
 import javafx.beans.property.ObjectProperty
 import javafx.beans.property.SimpleObjectProperty
 import javafx.event.EventHandler
 import javafx.scene.*
-import javafx.scene.input.KeyCode
+import javafx.scene.layout.BorderPane
 import javafx.scene.input.KeyEvent
 import javafx.scene.input.MouseEvent
 import javafx.scene.input.ScrollEvent
 import javafx.scene.paint.Color
 import org.fxyz3d.scene.Axes
 import org.fxyz3d.utils.CameraTransformer
 import tornadofx.*
-class FXCanvas3D(val plugin: FX3DPlugin, meta: Meta = EmptyMeta) :
+class FXCanvas3D(val plugin: FX3DPlugin, val spec: CanvasSpec) :
    Fragment(), Renderer<VisualObject3D>, ContextAware {
    override val context: Context get() = plugin.context
@ -32,41 +23,23 @@ class FXCanvas3D(val plugin: FX3DPlugin, meta: Meta = EmptyMeta) :
    val world = Group()
    val axes = Axes().also {
-        it.setHeight(meta["axis.size"].double ?: AXIS_LENGTH)
+        it.setHeight(spec.axes.size)
-        it.setRadius(meta["axis.width"].double ?: LINE_WIDTH)
+        it.setRadius(spec.axes.width)
-        it.isVisible = meta["axis.visible"].boolean ?: (meta["axis"] != null)
+        it.isVisible = spec.axes.visible
        world.add(it)
    }
    val light = AmbientLight()
    private val camera = PerspectiveCamera().apply {
-        nearClip = CAMERA_NEAR_CLIP
+        nearClip = spec.camera.nearClip
-        farClip = CAMERA_FAR_CLIP
+        farClip = spec.camera.farClip
-        translateZ = CAMERA_INITIAL_DISTANCE
+        fieldOfView = spec.camera.fov.toDouble()
        this.add(light)
    }
    val cameraTransform = CameraTransformer().also {
        it.add(camera)
    }
    val translationXProperty get() = cameraTransform.t.xProperty()
    var translateX by translationXProperty
    val translationYProperty get() = cameraTransform.t.yProperty()
    var translateY by translationYProperty
    val translationZProperty get() = cameraTransform.t.zProperty()
    var translateZ by translationZProperty
    val rotationXProperty get() = cameraTransform.rx.angleProperty()
    var angleX by rotationXProperty
    val rotationYProperty get() = cameraTransform.ry.angleProperty()
    var angleY by rotationYProperty
    val rotationZProperty get() = cameraTransform.rz.angleProperty()
    var angleZ by rotationZProperty
    private val canvas = SubScene(
-        Group(world, cameraTransform).apply { DepthTest.ENABLE },
+        Group(world, camera).apply { DepthTest.ENABLE },
        400.0,
        400.0,
        true,
@ -74,15 +47,16 @@ class FXCanvas3D(val plugin: FX3DPlugin, meta: Meta = EmptyMeta) :
    ).also { scene ->
        scene.fill = Color.GREY
        scene.camera = camera
        //id = "canvas"
        handleKeyboard(scene)
        handleMouse(scene)
    }
    override val root = borderpane {
        center = canvas
    }
    val controls = camera.orbitControls(canvas, spec.camera).also {
        world.add(it.centerMarker)
    }
    val rootObjectProperty: ObjectProperty<VisualObject3D> = SimpleObjectProperty()
    var rootObject: VisualObject3D? by rootObjectProperty
@ -105,99 +79,7 @@ class FXCanvas3D(val plugin: FX3DPlugin, meta: Meta = EmptyMeta) :
        }
    }
    private fun handleKeyboard(scene: SubScene) {
        scene.onKeyPressed = EventHandler<KeyEvent> { event ->
            if (event.isControlDown) {
                when (event.code) {
                    KeyCode.Z -> {
                        translateX = 0.0
                        translateY = 0.0
                        camera.translateZ = CAMERA_INITIAL_DISTANCE
                        angleY = CAMERA_INITIAL_Y_ANGLE
                        angleX = CAMERA_INITIAL_X_ANGLE
                    }
                    KeyCode.X -> axes.isVisible = !axes.isVisible
 //                    KeyCode.S -> snapshot()
 //                    KeyCode.DIGIT1 -> pixelMap.filterKeys { it.getLayerNumber() == 1 }.values.forEach {
 //                        toggleTransparency(
 //                            it
 //                        )
 //                    }
 //                    KeyCode.DIGIT2 -> pixelMap.filterKeys { it.getLayerNumber() == 2 }.values.forEach {
 //                        toggleTransparency(
 //                            it
 //                        )
 //                    }
 //                    KeyCode.DIGIT3 -> pixelMap.filterKeys { it.getLayerNumber() == 3 }.values.forEach {
 //                        toggleTransparency(
 //                            it
 //                        )
 //                    }
                    else -> {
                    }//do nothing
                }
            }
        }
    }
    private fun handleMouse(scene: SubScene) {
        var mousePosX: Double = 0.0
        var mousePosY: Double = 0.0
        var mouseOldX: Double = 0.0
        var mouseOldY: Double = 0.0
        var mouseDeltaX: Double = 0.0
        var mouseDeltaY: Double = 0.0
        scene.onMousePressed = EventHandler<MouseEvent> { me ->
            mousePosX = me.sceneX
            mousePosY = me.sceneY
            mouseOldX = me.sceneX
            mouseOldY = me.sceneY
        }
        scene.onMouseDragged = EventHandler<MouseEvent> { me ->
            mouseOldX = mousePosX
            mouseOldY = mousePosY
            mousePosX = me.sceneX
            mousePosY = me.sceneY
            mouseDeltaX = mousePosX - mouseOldX
            mouseDeltaY = mousePosY - mouseOldY
            val modifier = when {
                me.isControlDown -> CONTROL_MULTIPLIER
                me.isShiftDown -> SHIFT_MULTIPLIER
                else -> 1.0
            }
            if (me.isPrimaryButtonDown) {
                angleY += mouseDeltaX * MOUSE_SPEED * modifier * ROTATION_SPEED
                angleX += mouseDeltaY * MOUSE_SPEED * modifier * ROTATION_SPEED
            } else if (me.isSecondaryButtonDown) {
                translateX -= mouseDeltaX * MOUSE_SPEED * modifier * TRACK_SPEED
                translateY -= mouseDeltaY * MOUSE_SPEED * modifier * TRACK_SPEED
            }
        }
        scene.onScroll = EventHandler<ScrollEvent> { event ->
            val z = camera.translateZ
            val newZ = z + MOUSE_SPEED * event.deltaY * RESIZE_SPEED
            camera.translateZ = newZ
        }
    }
    override fun render(obj: VisualObject3D, meta: Meta) {
        rootObject = obj
    }
    companion object {
        private const val AXIS_LENGTH = 400.0
        private const val CONTROL_MULTIPLIER = 0.1
        private const val SHIFT_MULTIPLIER = 10.0
        private const val MOUSE_SPEED = 0.1
        private const val ROTATION_SPEED = 2.0
        private const val TRACK_SPEED = 6.0
        private const val RESIZE_SPEED = 50.0
        private const val LINE_WIDTH = 1.0
    }
 }
--- a/dataforge-vis-spatial/src/jvmMain/kotlin/hep/dataforge/vis/spatial/fx/OrbitControls.kt
+++ b/dataforge-vis-spatial/src/jvmMain/kotlin/hep/dataforge/vis/spatial/fx/OrbitControls.kt
@ -0,0 +1,174 @@
 package hep.dataforge.vis.spatial.fx
 import hep.dataforge.vis.spatial.specifications.CameraSpec
 import javafx.beans.InvalidationListener
 import javafx.beans.property.SimpleDoubleProperty
 import javafx.event.EventHandler
 import javafx.geometry.Point3D
 import javafx.scene.Camera
 import javafx.scene.Node
 import javafx.scene.SubScene
 import javafx.scene.input.MouseEvent
 import javafx.scene.input.ScrollEvent
 import javafx.scene.shape.Sphere
 import javafx.scene.transform.Rotate
 import javafx.scene.transform.Translate
 import tornadofx.*
 import kotlin.math.*
 class OrbitControls internal constructor(camera: Camera, canvas: SubScene, spec: CameraSpec) {
    val distanceProperty = SimpleDoubleProperty(spec.distance)
    var distance by distanceProperty
    val azimuthProperty = SimpleDoubleProperty(spec.azimuth)
    var azimuth by azimuthProperty
    val zenithProperty = SimpleDoubleProperty(PI/2 - spec.latitude)
    var zenith by zenithProperty
    val latitudeProperty = zenithProperty.unaryMinus().plus(PI/2)
    val latitude by latitudeProperty
    val baseXProperty = SimpleDoubleProperty(0.0)
    var x by baseXProperty
    val baseYProperty = SimpleDoubleProperty(0.0)
    var y by baseYProperty
    val baseZProperty = SimpleDoubleProperty(0.0)
    var z by baseZProperty
 //    val basePositionProperty: ObjectBinding<Point3D> =
 //        nonNullObjectBinding(baseXProperty, baseYProperty, baseZProperty) {
 //            Point3D(x, y, z)
 //        }
 //
 //    val basePosition by basePositionProperty
    val centerMarker by lazy {
        Sphere(10.0).also {
            it.translateXProperty().bind(baseXProperty)
            it.translateYProperty().bind(baseYProperty)
            it.translateZProperty().bind(baseZProperty)
        }
    }
    private val rx = Rotate(0.0, Rotate.X_AXIS)
    private val ry = Rotate(0.0, Rotate.Y_AXIS)
    private val translate = Translate()
    private val rz = Rotate(180.0, Rotate.Z_AXIS)
    init {
        camera.transforms.setAll(ry, rx, translate,rz)
        update()
        val listener = InvalidationListener {
            update()
        }
        distanceProperty.addListener(listener)
        azimuthProperty.addListener(listener)
        zenithProperty.addListener(listener)
        baseXProperty.addListener(listener)
        baseYProperty.addListener(listener)
        baseZProperty.addListener(listener)
        canvas.apply {
            camera.translateXProperty().bind(widthProperty().divide(2))
            camera.translateZProperty().bind(heightProperty().divide(2))
            handleMouse()
        }
 //        coordinateContainer?.vbox {
 //            label(distanceProperty.asString())
 //            label(azimuthProperty.asString())
 //            label(zenithProperty.asString())
 //        }
    }
    private fun update() {
        val spherePosition = Point3D(
            sin(zenith) * sin(azimuth),
            cos(zenith),
            sin(zenith) * cos(azimuth)
        ).times(distance)
        val basePosition = Point3D(x, y, z)
        //Create direction vector
        val cameraPosition = basePosition + spherePosition
        val camDirection: Point3D = (-spherePosition).normalize()
        val xRotation = Math.toDegrees(asin(-camDirection.y))
        val yRotation = Math.toDegrees(atan2(camDirection.x, camDirection.z))
        rx.pivotX = cameraPosition.x
        rx.pivotY = cameraPosition.y
        rx.pivotZ = cameraPosition.z
        rx.angle = xRotation
        ry.pivotX = cameraPosition.x
        ry.pivotY = cameraPosition.y
        ry.pivotZ = cameraPosition.z
        ry.angle = yRotation
        translate.x = cameraPosition.x
        translate.y = cameraPosition.y
        translate.z = cameraPosition.z
    }
    private fun Node.handleMouse() {
        var mousePosX = 0.0
        var mousePosY = 0.0
        var mouseOldX: Double
        var mouseOldY: Double
        var mouseDeltaX: Double
        var mouseDeltaY: Double
        onMousePressed = EventHandler<MouseEvent> { me ->
            mousePosX = me.sceneX
            mousePosY = me.sceneY
            mouseOldX = me.sceneX
            mouseOldY = me.sceneY
        }
        onMouseDragged = EventHandler<MouseEvent> { me ->
            mouseOldX = mousePosX
            mouseOldY = mousePosY
            mousePosX = me.sceneX
            mousePosY = me.sceneY
            mouseDeltaX = mousePosX - mouseOldX
            mouseDeltaY = mousePosY - mouseOldY
            val modifier = when {
                me.isControlDown -> CONTROL_MULTIPLIER
                me.isShiftDown -> SHIFT_MULTIPLIER
                else -> 1.0
            }
            if (me.isPrimaryButtonDown) {
                azimuth -= mouseDeltaX * MOUSE_SPEED * modifier * ROTATION_SPEED
                zenith -= mouseDeltaY * MOUSE_SPEED * modifier * ROTATION_SPEED
            } else if (me.isSecondaryButtonDown) {
                x += mouseDeltaX * MOUSE_SPEED * modifier * TRACK_SPEED
                z -= mouseDeltaY * MOUSE_SPEED * modifier * TRACK_SPEED
            }
        }
        onScroll = EventHandler<ScrollEvent> { event ->
            distance = max(1.0, distance - MOUSE_SPEED * event.deltaY * RESIZE_SPEED)
        }
    }
    companion object {
        private const val CONTROL_MULTIPLIER = 0.1
        private const val SHIFT_MULTIPLIER = 10.0
        private const val MOUSE_SPEED = 0.1
        private const val ROTATION_SPEED = 0.02
        private const val TRACK_SPEED = 6.0
        private const val RESIZE_SPEED = 10.0
    }
 }
 fun Camera.orbitControls(canvas: SubScene, spec: CameraSpec) =
    OrbitControls(this, canvas, spec)
--- a/demo/gdml/src/jsMain/kotlin/hep/dataforge/vis/spatial/gdml/demo/GDMLDemoApp.kt
+++ b/demo/gdml/src/jsMain/kotlin/hep/dataforge/vis/spatial/gdml/demo/GDMLDemoApp.kt
@ -2,7 +2,7 @@ package hep.dataforge.vis.spatial.gdml.demo
 import hep.dataforge.context.Global
 import hep.dataforge.js.Application
-import hep.dataforge.js.objectTree
+import hep.dataforge.vis.js.editor.objectTree
 import hep.dataforge.js.startApplication
 import hep.dataforge.meta.buildMeta
 import hep.dataforge.meta.withBottom
@ -20,7 +20,7 @@ import hep.dataforge.vis.spatial.gdml.LUnit
 import hep.dataforge.vis.spatial.gdml.toVisual
 import hep.dataforge.vis.spatial.three.ThreePlugin
 import hep.dataforge.vis.spatial.three.output
-import hep.dataforge.vis.spatial.three.threeOutputConfig
+import hep.dataforge.vis.spatial.three.threeSettings
 import hep.dataforge.vis.spatial.visible
 import kotlinx.html.dom.append
 import kotlinx.html.js.p
@ -157,7 +157,7 @@ private class GDMLDemoApp : Application {
            val output = three.output(canvasElement as HTMLElement)
            output.camera.layers.set(0)
-            configElement.threeOutputConfig(output)
+            configElement.threeSettings(output)
            //tree.visualObjectTree(visual, editor::propertyEditor)
            treeElement.objectTree(NameToken("World"), visual) {
                editorElement.propertyEditor(it) { item ->
--- a/demo/gdml/src/jsMain/web/index.html
+++ b/demo/gdml/src/jsMain/web/index.html
@ -6,9 +6,9 @@
    <title>Three js demo for particle physics</title>
    <link rel="stylesheet" href="https://stackpath.bootstrapcdn.com/bootstrap/4.3.1/css/bootstrap.min.css"
          integrity="sha384-ggOyR0iXCbMQv3Xipma34MD+dH/1fQ784/j6cY/iJTQUOhcWr7x9JvoRxT2MZw1T" crossorigin="anonymous">
-    <link rel="stylesheet" href="css/ru.mipt.npm.muon.monitor.main.css">
+    <link rel="stylesheet" href="css/main.css">
    <link rel="stylesheet" href="css/jsoneditor.min.css">
-    <script type="text/javascript" src="ru.mipt.npm.muon.monitor.main.bundle.js"></script>
+    <script type="text/javascript" src="main.bundle.js"></script>
 </head>
 <body class="testApp">
 <div class="container" id="drop_zone" data-toggle="tooltip" data-placement="right"
--- a/demo/muon-monitor/build.gradle.kts
+++ b/demo/muon-monitor/build.gradle.kts
@ -20,7 +20,7 @@ kotlin {
    js {
        browser {
            webpackTask {
-                sourceMaps = false
+                sourceMaps = true
            }
        }
    }
--- a/demo/muon-monitor/src/jsMain/kotlin/ru/mipt/npm/muon/monitor/MMDemoApp.kt
+++ b/demo/muon-monitor/src/jsMain/kotlin/ru/mipt/npm/muon/monitor/MMDemoApp.kt
@ -2,11 +2,11 @@ package ru.mipt.npm.muon.monitor
 import hep.dataforge.context.Global
 import hep.dataforge.js.Application
 import hep.dataforge.js.objectTree
 import hep.dataforge.js.startApplication
 import hep.dataforge.meta.buildMeta
 import hep.dataforge.meta.withBottom
 import hep.dataforge.names.NameToken
 import hep.dataforge.vis.js.editor.objectTree
 import hep.dataforge.vis.js.editor.propertyEditor
 import hep.dataforge.vis.spatial.Material3D.Companion.MATERIAL_COLOR_KEY
 import hep.dataforge.vis.spatial.Material3D.Companion.MATERIAL_OPACITY_KEY
@ -15,11 +15,12 @@ import hep.dataforge.vis.spatial.VisualObject3D
 import hep.dataforge.vis.spatial.VisualObject3D.Companion.VISIBLE_KEY
 import hep.dataforge.vis.spatial.three.ThreePlugin
 import hep.dataforge.vis.spatial.three.output
-import hep.dataforge.vis.spatial.three.threeOutputConfig
+import hep.dataforge.vis.spatial.three.threeSettings
 import hep.dataforge.vis.spatial.visible
 import org.w3c.dom.HTMLElement
 import kotlin.browser.document
 import kotlin.dom.clear
 import kotlin.math.PI
 private class GDMLDemoApp : Application {
 //    /**
@ -59,7 +60,8 @@ private class GDMLDemoApp : Application {
        //val url = URL("https://drive.google.com/open?id=1w5e7fILMN83JGgB8WANJUYm8OW2s0WVO")
        val canvasElement = document.getElementById("canvas") ?: error("Element with id 'canvas' not found on page")
-        val configElement = document.getElementById("layers") ?: error("Element with id 'layers' not found on page")
+        val settingsElement =
            document.getElementById("settings") ?: error("Element with id 'settings' not found on page")
        val treeElement = document.getElementById("tree") ?: error("Element with id 'tree' not found on page")
        val editorElement = document.getElementById("editor") ?: error("Element with id 'editor' not found on page")
        canvasElement.clear()
@ -71,7 +73,9 @@ private class GDMLDemoApp : Application {
        val output = three.output(canvasElement as HTMLElement)
        output.camera.layers.set(0)
-        configElement.threeOutputConfig(output)
+        output.camera.position.z = -2000.0
        output.camera.position.y = 500.0
        settingsElement.threeSettings(output)
        //tree.visualObjectTree(visual, editor::propertyEditor)
        treeElement.objectTree(NameToken("World"), visual) {
            editorElement.propertyEditor(it) { item ->
--- a/demo/muon-monitor/src/jsMain/web/index.html
+++ b/demo/muon-monitor/src/jsMain/web/index.html
@ -27,8 +27,8 @@
    <div class="row">
        <div class="col-lg-3" id="tree"></div>
        <div class="col-lg-6">
-            <div class="row" id="layers"></div>
+            <div class="row" id="settings"></div>
-            <div class="row container" id="canvas"></div>
+            <div class="row" id="canvas"></div>
        </div>
        <div class="col-lg-3" id="editor"></div>
    </div>
--- a/demo/spatial-showcase/src/commonMain/kotlin/hep/dataforge/vis/spatial/demo/demo.kt
+++ b/demo/spatial-showcase/src/commonMain/kotlin/hep/dataforge/vis/spatial/demo/demo.kt
@ -1,11 +1,13 @@
 package hep.dataforge.vis.spatial.demo
 import hep.dataforge.meta.buildMeta
 import hep.dataforge.meta.invoke
 import hep.dataforge.names.toName
 import hep.dataforge.output.OutputManager
 import hep.dataforge.vis.common.Colors
 import hep.dataforge.vis.common.VisualObject
 import hep.dataforge.vis.spatial.*
 import hep.dataforge.vis.spatial.specifications.CanvasSpec
 import kotlinx.coroutines.*
 import kotlin.math.PI
 import kotlin.math.cos
@ -21,10 +23,22 @@ fun OutputManager.demo(name: String, title: String = name, block: VisualGroup3D.
    output.render(action = block)
 }
 val canvasOptions = CanvasSpec {
    minSize = 500
    axes {
        size = 500.0
        visible = true
    }
    camera {
        distance = 600.0
        latitude = PI/6
    }
 }
 fun OutputManager.showcase() {
    demo("shapes", "Basic shapes") {
        box(100.0, 100.0, 100.0) {
-            z = 110.0
+            z = -110.0
        }
        sphere(50.0) {
            x = 110
@ -88,6 +102,7 @@ fun OutputManager.showcase() {
                layer(i * 5, 20 * sin(2 * PI / 100 * i), 20 * cos(2 * PI / 100 * i))
            }
            color(Colors.teal)
            rotationX = -PI / 2
        }
    }
@ -111,13 +126,13 @@ fun OutputManager.showcase() {
        box(100, 100, 50) {
            opacity = 0.3
        }
-        label("Hello, world!",fontSize = 15) {
+        label("Hello, world!", fontSize = 12) {
-            z = -26
+            z = 26
        }
    }
 }
-fun OutputManager.showcaseCSG(){
+fun OutputManager.showcaseCSG() {
    demo("CSG.simple", "CSG operations") {
        composite(CompositeType.UNION) {
            box(100, 100, 100) {
--- a/demo/spatial-showcase/src/jsMain/kotlin/hep/dataforge/vis/spatial/demo/ThreeDemoApp.kt
+++ b/demo/spatial-showcase/src/jsMain/kotlin/hep/dataforge/vis/spatial/demo/ThreeDemoApp.kt
@ -22,27 +22,27 @@ private class ThreeDemoApp : Application {
        ThreeDemoGrid(element).run {
            showcase()
            showcaseCSG()
-            demo("dynamicBox", "Dancing boxes") {
+//            demo("dynamicBox", "Dancing boxes") {
-                val boxes = (-10..10).flatMap { i ->
+//                val boxes = (-10..10).flatMap { i ->
-                    (-10..10).map { j ->
+//                    (-10..10).map { j ->
-                        varBox(10, 10, 0, name = "cell_${i}_${j}") {
+//                        varBox(10, 10, 0, name = "cell_${i}_${j}") {
-                            x = i * 10
+//                            x = i * 10
-                            y = j * 10
+//                            y = j * 10
-                            value = 128
+//                            value = 128
-                            setProperty(EDGES_ENABLED_KEY, false)
+//                            setProperty(EDGES_ENABLED_KEY, false)
-                            setProperty(WIREFRAME_ENABLED_KEY, false)
+//                            setProperty(WIREFRAME_ENABLED_KEY, false)
-                        }
+//                        }
-                    }
+//                    }
-                }
+//                }
-                GlobalScope.launch {
+//                GlobalScope.launch {
-                    while (isActive) {
+//                    while (isActive) {
-                        delay(500)
+//                        delay(500)
-                        boxes.forEach { box ->
+//                        boxes.forEach { box ->
-                            box.value = (box.value + Random.nextInt(-15, 15)).coerceIn(0..255)
+//                            box.value = (box.value + Random.nextInt(-15, 15)).coerceIn(0..255)
-                        }
+//                        }
-                    }
+//                    }
-                }
+//                }
-            }
+//            }
        }
--- a/demo/spatial-showcase/src/jsMain/kotlin/hep/dataforge/vis/spatial/demo/ThreeDemoGrid.kt
+++ b/demo/spatial-showcase/src/jsMain/kotlin/hep/dataforge/vis/spatial/demo/ThreeDemoGrid.kt
@ -3,11 +3,15 @@ package hep.dataforge.vis.spatial.demo
 import hep.dataforge.context.Global
 import hep.dataforge.meta.Meta
 import hep.dataforge.meta.get
 import hep.dataforge.meta.invoke
 import hep.dataforge.meta.string
 import hep.dataforge.names.Name
 import hep.dataforge.output.OutputManager
 import hep.dataforge.output.Renderer
 import hep.dataforge.vis.common.VisualObject
 import hep.dataforge.vis.spatial.specifications.AxesSpec
 import hep.dataforge.vis.spatial.specifications.CameraSpec
 import hep.dataforge.vis.spatial.specifications.CanvasSpec
 import hep.dataforge.vis.spatial.three.ThreeCanvas
 import hep.dataforge.vis.spatial.three.ThreePlugin
 import hep.dataforge.vis.spatial.three.output
@ -40,18 +44,14 @@ class ThreeDemoGrid(element: Element, meta: Meta = Meta.EMPTY) : OutputManager {
        return outputs.getOrPut(name) {
            if (type != VisualObject::class) error("Supports only DisplayObject")
-            val output = three.output(meta = meta) {
+            lateinit var output: ThreeCanvas
                "minSize" put 500
                "axis" put {
                    "size" put 500
                }
            }
            //TODO calculate cell width here using jquery
            gridRoot.append {
                span("border") {
                    div("col-6") {
                        div { id = "output-$name" }.also {
-                            output.attach(it)
+                            output = three.output(it, canvasOptions)
                            //output.attach(it)
                        }
                        hr()
                        h2 { +(meta["title"].string ?: name.toString()) }
--- a/demo/spatial-showcase/src/jsMain/web/index.html
+++ b/demo/spatial-showcase/src/jsMain/web/index.html
@ -4,32 +4,14 @@
    <meta charset="utf-8">
    <meta name="viewport" content="width=device-width, initial-scale=1, shrink-to-fit=no">
    <title>Three js demo for particle physics</title>
-    <link rel="stylesheet" href="https://stackpath.bootstrapcdn.com/bootstrap/4.3.1/css/bootstrap.min.css"
+    <link rel="stylesheet" href="https://stackpath.bootstrapcdn.com/bootstrap/4.4.1/css/bootstrap.min.css"
-          integrity="sha384-ggOyR0iXCbMQv3Xipma34MD+dH/1fQ784/j6cY/iJTQUOhcWr7x9JvoRxT2MZw1T" crossorigin="anonymous">
+          integrity="sha384-Vkoo8x4CGsO3+Hhxv8T/Q5PaXtkKtu6ug5TOeNV6gBiFeWPGFN9MuhOf23Q9Ifjh" crossorigin="anonymous">
-    <script type="text/javascript" src="ru.mipt.npm.muon.monitor.main.bundle.js"></script>
+    <script type="text/javascript" src="main.bundle.js"></script>
 </head>
 <body class="testApp">
 <!--
 <div class="container" id="drop_zone" data-toggle="tooltip" data-placement="right"
     title="Для загрузки данных в текстовом формате, надо перетащить файл сюда">
    Загрузить данные
    <br/>
    (перетащить файл сюда)
 </div>
 -->
 <div class="container">
    <h1>Demo grid</h1>
 </div>
 <div class="container" id="canvas"></div>
 <script src="https://code.jquery.com/jquery-3.3.1.slim.min.js"
        integrity="sha384-q8i/X+965DzO0rT7abK41JStQIAqVgRVzpbzo5smXKp4YfRvH+8abtTE1Pi6jizo"
        crossorigin="anonymous"></script>
 <script src="https://cdnjs.cloudflare.com/ajax/libs/popper.js/1.14.7/umd/popper.min.js"
        integrity="sha384-UO2eT0CpHqdSJQ6hJty5KVphtPhzWj9WO1clHTMGa3JDZwrnQq4sF86dIHNDz0W1"
        crossorigin="anonymous"></script>
 <script src="https://stackpath.bootstrapcdn.com/bootstrap/4.3.1/js/bootstrap.min.js"
        integrity="sha384-JjSmVgyd0p3pXB1rRibZUAYoIIy6OrQ6VrjIEaFf/nJGzIxFDsf4x0xIM+B07jRM"
        crossorigin="anonymous"></script>
 </body>
 </html>
--- a/demo/spatial-showcase/src/jvmMain/kotlin/hep/dataforge/vis/spatial/demo/FXDemoApp.kt
+++ b/demo/spatial-showcase/src/jvmMain/kotlin/hep/dataforge/vis/spatial/demo/FXDemoApp.kt
@ -1,7 +1,5 @@
 package hep.dataforge.vis.spatial.demo
 import hep.dataforge.vis.spatial.Material3D
 import hep.dataforge.vis.spatial.gdml.LUnit
 import hep.dataforge.vis.spatial.gdml.gdml
 import javafx.stage.Stage
 import tornadofx.*
@ -14,22 +12,12 @@ class FXDemoApp : App(FXDemoGrid::class) {
    override fun start(stage: Stage) {
        super.start(stage)
-        stage.width = 400.0
+        stage.width = 600.0
-        stage.height = 400.0
+        stage.height = 600.0
-        //view.showcase()
+        view.showcase()
-        view.demo("gdml", "gdml") {
+        view.demo("gdml", "gdml-cubes") {
-            gdml(Paths.get("D:\\Work\\Projects\\gdml.kt\\gdml-source\\cubes.gdml")) {
+            gdml(Paths.get("D:\\Work\\Projects\\gdml.kt\\gdml-source\\cubes.gdml"))
                lUnit = LUnit.CM
                solidConfiguration = { parent, solid ->
                    if (parent.physVolumes.isNotEmpty()) {
                        useStyle("opaque") {
                            Material3D.MATERIAL_OPACITY_KEY put 0.3
                        }
                    }
                }
            }
            //setProperty(Material3D.MATERIAL_WIREFRAME_KEY, true)
        }
    }
--- a/demo/spatial-showcase/src/jvmMain/kotlin/hep/dataforge/vis/spatial/demo/FXDemoGrid.kt
+++ b/demo/spatial-showcase/src/jvmMain/kotlin/hep/dataforge/vis/spatial/demo/FXDemoGrid.kt
@ -9,13 +9,15 @@ import hep.dataforge.output.Renderer
 import hep.dataforge.vis.common.VisualObject
 import hep.dataforge.vis.spatial.fx.FX3DPlugin
 import hep.dataforge.vis.spatial.fx.FXCanvas3D
 import hep.dataforge.vis.spatial.specifications.AxesSpec
 import hep.dataforge.vis.spatial.specifications.CanvasSpec
 import javafx.collections.FXCollections
 import javafx.scene.Parent
 import javafx.scene.control.Tab
 import tornadofx.*
 import kotlin.reflect.KClass
-class FXDemoGrid : View(), OutputManager {
+class FXDemoGrid : View(title = "DataForge-vis FX demo"), OutputManager {
    private val outputs = FXCollections.observableHashMap<Name, FXCanvas3D>()
    override val root: Parent = borderpane {
@ -32,13 +34,7 @@ class FXDemoGrid : View(), OutputManager {
    override fun <T : Any> get(type: KClass<out T>, name: Name, stage: Name, meta: Meta): Renderer<T> {
        return outputs.getOrPut(name) {
            if (type != VisualObject::class) kotlin.error("Supports only DisplayObject")
-            val customMeta = buildMeta(meta) {
+            val output = FXCanvas3D(fx3d, canvasOptions)
                "minSize" put 500
                "axis" put {
                    "size" put 500
                }
            }
            val output = FXCanvas3D(fx3d, customMeta)
            output
        } as Renderer<T>