Merge pull request #49 from kiruma524/dev
Tutorial and images
@ -19,7 +19,7 @@
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* [visionforge-gdml](#visionforge-gdml)
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* [visionforge-gdml](#visionforge-gdml)
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* [Visualization for External Systems](#visualization-for-external-systems)
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* [Visualization for External Systems](#visualization-for-external-systems)
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* [Demonstrations](#demonstrations)
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* [Demonstrations](#demonstrations)
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* [Simple Example - Spatial Showcase](#simple-example---spatial-showcase)
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* [Simple Example - Solid Showcase](#simple-example---solid-showcase)
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* [Full-Stack Application Example - Muon Monitor](#full-stack-application-example---muon-monitor-visualization)
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* [Full-Stack Application Example - Muon Monitor](#full-stack-application-example---muon-monitor-visualization)
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* [GDML Example](#gdml-example)
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* [GDML Example](#gdml-example)
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@ -118,16 +118,16 @@ The `demo` module contains several example projects (demonstrations) of using th
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They are briefly described in this section, for more details please consult the corresponding per-project
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They are briefly described in this section, for more details please consult the corresponding per-project
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README file.
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README file.
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### Simple Example - Spatial Showcase
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### Simple Example - Solid Showcase
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Contains a simple demonstration with a grid including a few shapes that you can rotate, move camera, and so on.
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Contains a simple demonstration with a grid including a few shapes that you can rotate, move camera, and so on.
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Some shapes will also periodically change their color and visibility.
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Some shapes will also periodically change their color and visibility.
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[More details](demo/spatial-showcase/README.md)
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[More details](demo/solid-showcase/README.md)
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**Example view:**
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**Example view:**
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![](docs/images/spatial-showcase.png)
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![](docs/images/solid-showcase.png)
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### Full-Stack Application Example - Muon Monitor Visualization
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### Full-Stack Application Example - Muon Monitor Visualization
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@ -1,12 +1,10 @@
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### GDML Example
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### GDML Example
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Visualization example for geometry defined as GDML file.
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Visualization example for geometry defined as GDML file.
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##### Building project
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##### Building project
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To build the app, run `demo/gdml/Tasks/distribution/jsBrowserDistribution` Gradle task, then open
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To build the app, run `demo/gdml/Tasks/kotlin browser/jsBrowserDistribution` Gradle task, then
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`demo/gdml/build/distribuions/gdml-js-0.1.3-dev/index.html` file in your browser, and
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drag-and-drop GDML file to the window to see visualization. For an example file, you can use
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drag-and-drop GDML file to the window to see visualization. For an example file, you can use
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`demo/gdml/src/jsMain/resources/cubes.gdml`.
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`demo/gdml/src/jsMain/resources/cubes.gdml`.
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@ -26,9 +26,8 @@ with it.
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##### Building project
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##### Building project
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To run full-stack Muon Monitor Visualization application (both JVM server and Web browser front-end),
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To run full-stack Muon Monitor Visualization application (both JVM server and Web browser front-end),
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run `demo/muon-monitor/application/run` task.
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run `demo/muon-monitor/Tasks/application/run` task.
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##### Example view:
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##### Example view:
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![](../../docs/images/muon-monitor.png)
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![](../../docs/images/muon-monitor.png)
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@ -5,8 +5,8 @@ Some shapes will also periodically change their color and visibility.
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##### Building project
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##### Building project
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To see the JS demo: run `demo/spatial-showcase/Tasks/distribution/jsBrowserDistribution` Gradle task, then open
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To see the JS demo: run `demo/solid-showcase/Tasks/kotlin browser/jsBrowserRun` Gradle task, then open
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`build/distribuions/spatial-showcase-js-0.1.3-dev/index.html` file in your browser.
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`build/distribuions/solid-showcase-js-0.1.3-dev/index.html` file in your browser.
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To see Java FX demo, run `demo/spatial-showcase/Tasks/application/run` Gradle task, or `main()` from `FXDemoApp.kt`.
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To see Java FX demo, run `demo/spatial-showcase/Tasks/application/run` Gradle task, or `main()` from `FXDemoApp.kt`.
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BIN
docs/images/all-solids.png
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docs/images/big-rotated-box.png
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docs/images/box.png
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docs/images/classic-hexagon.png
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docs/images/cone-1.png
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docs/images/cone-2.png
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docs/images/cone-segment-1.png
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docs/images/cone-segment-2.png
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docs/images/cone-surface-1.png
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docs/images/cone-surface-2.png
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docs/images/cone-surface-fragment-2.png
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docs/images/cone-surface-fragment.png
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docs/images/custom-hexagon.png
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docs/images/cylinder-1.png
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docs/images/cylinder-2.png
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docs/images/cylinder.png
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docs/images/frustum-cone-segment.png
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docs/images/frustum-cone.png
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docs/images/high-box.png
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docs/images/scheme.png
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docs/images/small-box.png
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docs/images/sphere.png
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docs/images/tube-fragment.png
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docs/images/tube.png
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docs/images/two-boxes-1.png
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docs/images/two-boxes-2.png
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docs/images/wide-box.png
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docs/tutorial.md
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@ -0,0 +1,209 @@
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#Tutorial
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###The main goal of this tutorial is to show all capabilities of ... (this part will be supplemented)
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The simple visualization can be made with function `main`. (this part will be supplemented as well)
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```kotlin
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import kotlinx.html.div
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import space.kscience.dataforge.context.Context
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import space.kscience.visionforge.html.ResourceLocation
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import space.kscience.visionforge.solid.*
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import java.nio.file.Paths
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fun main(){
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val context = Context{
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plugin(Solids)
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}
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context.makeVisionFile (
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Paths.get("customFile.html"),
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resourceLocation = ResourceLocation.EMBED
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){
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div {
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vision {
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solid {
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}
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}
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}
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}
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}
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```
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##Solids properties
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**We will analyze which basic properties solids have using `box` solid.**
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Basic properties:
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1. `opacity` - It is set in `float`. It takes on values from 0 to 1, which represent percents of solid opacity. It's initial value is 1.
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2. `color` - It can be specified as `Int`, `String`, or as three `Ubytes`, which represent color in `rgb`. Elementally, the solid will have `green` color.
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3. `rotation` - it's the point, around which the solid will be rotated. Initially, the value is `Point3D(0, 0, 0)`
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4. position, which is given by values `x`, `y`, `z`. Initial values are `x = 0`, `y = 0`, `z = 0`
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Let's see how properties are set in solids.
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The `small box` will have elemental values of properties. If you will not set properties, it will have the same `position`, `color`, `rotation`, and `opacity` values.
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***You can see that `box` take four values. Later, we will discuss what they are doing in more detail. Now, it does not really matter.***
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```kotlin
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box(10, 10, 10, name = "small box"){
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x = 0
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y = 0
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z = 0
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opacity = 1 //100% opacity
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color("red") //as string
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rotation = Point3D(0, 0, 0)
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}
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```
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![](../docs/images/small-box.png)
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The `big box` will have properties with custom values.
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```kotlin
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box(40, 40, 40, name = "big box"){
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x = 20
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y = 10
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z = 60
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opacity = 0.5 //50% opacity
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color(0u, 179u, 179u) //color in rgb
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rotation = Point3D(60, 80, 0)
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}
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```
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![](../docs/images/big-rotated-box.png)
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If we compare these boxes, we will see all differences.
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Here is the function `main` with both boxes.
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```kotlin
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fun main(){
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val context = Context{
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plugin(Solids)
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}
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context.makeVisionFile (
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Paths.get("customFile.html"),
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resourceLocation = ResourceLocation.EMBED
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){
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div {
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vision {
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solid {
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box(10, 10, 10, name = "small box"){
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x = 0
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y = 0
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z = 0
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opacity = 1 //100% opacity
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color("red") //as string
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rotation = Point3D(0, 0, 0)
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}
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box(40, 40, 40, name = "big box"){
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x = 20
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y = 10
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z = 60
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opacity = 0.5 //50% opacity
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color(0u, 179u, 179u) //rgb
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rotation = Point3D(60, 80, 0)
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}
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}
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}
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}
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}
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}
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```
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![](../docs/images/two-boxes-1.png)
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![](../docs/images/two-boxes-2.png)
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###Basic Solids
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Now, let's see which solids can be visualized:
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1) PolyLine
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2) Box
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```kotlin
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box(50, 50, 50, name = "box") {
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x = 0
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y = 0
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z = 0
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color("pink")
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}
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```
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![](../docs/images/box.png)
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```kotlin
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box(10, 25, 10, name = "high_box") {
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x = 0
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y = 0
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z = 0
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color("black")
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}
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```
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![](../docs/images/high-box.png)
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```kotlin
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box(65, 40, 40, name = "wide_box") {
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x = 0
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y = 0
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z = 0
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color("black")
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}
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```
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![](../docs/images/wide-box.png)
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3) Sphere
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```kotlin
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sphere(50, name = "sphere") {
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x = 0
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y = 0
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z = 0
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color("blue")
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}
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```
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![](../docs/images/sphere.png)
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4) Hexagon
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```kotlin
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hexagon(
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Point3D(25, 30, 25),
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Point3D(35, 30, 25),
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Point3D(35, 30, 15),
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Point3D(25, 30, 15),
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Point3D(30, 18, 20),
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Point3D(40, 18, 20),
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Point3D(40, 18, 10),
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Point3D(30, 18, 10),
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name = "classic_hexagon"){
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color("green")
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}
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```
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![](../docs/images/classic-hexagon.png)
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```kotlin
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hexagon(
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Point3D(5, 30, 5),
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Point3D(24, 30, 8),
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Point3D(20, 30, -10),
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Point3D(5, 30, -7),
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Point3D(8, 16, 0),
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Point3D(12, 16, 0),
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Point3D(10, 16, -5),
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Point3D(6.5, 12, -3),
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name = "custom_hexagon"){
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color("brown")
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}
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```
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![](../docs/images/custom-hexagon.png)
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5) Cone
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```kotlin
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cone(60, 80, name = "cone") {
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x = 0
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y = 0
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z = 0
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color("beige")
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}
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```
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![](../docs/images/cone-1.png)
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![](../docs/images/cone-2.png)
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6) Cone Surface
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```kotlin
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coneSurface(60, 50, 30, 10, 100, name = "cone_surface") {
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x = 0
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y = 0
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z = 0
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color("red")
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rotation = Point3D(2, 50, -9)
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}
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```
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![](../docs/images/cone-surface-1.png)
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![](../docs/images/cone-surface-2.png)
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7) Extruded
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