0.2.0 #71
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# Tutorial
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#### The main goal of this tutorial is to show main capabilities of the visualization instrument.
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#### The main goal of this tutorial is to show the main capabilities of the visualization instrument.
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The simple visualization can be made with function `main`. (this part will be supplemented)
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```kotlin
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@ -42,7 +42,9 @@ fun main(){
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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, which set rotations along axes. Initially, the value is `Point3D(0, 0, 0)`. Changing `x` coordinate of the point, you make pivot around `x axis`. The same for other coordinates: changing `y` — pivot around `y axis`, changing `z` — pivot around `z axis`.
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3. `rotation` — it's the point, which sets rotations along axes. Initially, the value is `Point3D(0, 0, 0)`. Changing `x` coordinate of the point, you make pivot around `x axis`. The same for other coordinates: changing `y` — pivot around `y axis`, changing `z` — pivot around `z axis`.
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4. position, which is given by values `x`, `y`, `z`. Initial values are `x = 0`, `y = 0`, `z = 0`. The coordinate system is Cartesian. It's elemental position is this — vertical `y` axis and horizontal `Oxz` plane.
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Let's see how properties are set in solids.
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@ -114,7 +116,7 @@ fun main(){
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![](../docs/images/two-boxes-1.png)
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![](../docs/images/two-boxes-2.png)
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***There is plenty of other properties, especially of those, which you can create by yourself. Here we mention just small part.***
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***There is plenty of other properties, especially those, which you can create by yourself. Here we mention just a small part.***
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## Basic Solids
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Now, let's see which solids can be visualized:
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@ -125,7 +127,7 @@ It's scarcely a solid, but it can be visualized, so we mention it.
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`polyline` requires two values — `points`, and `name`:
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* `points` is a `vararg` with `Point3D` type. It takes pairs of points, which you want to connect.
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* `name` is an identifier of *any solid*, but in this case it is an identifier of `polyline`.
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* `name` is an identifier of *any solid*; but in this case, it is an identifier of `polyline`.
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It's type is `String`. **This value can be required by any solid;
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you can set it, you can not to set it, but without you won't be able to control solid, since it won't be inherited.**
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@ -173,11 +175,11 @@ Now, let's make `box` with bigger `y` value.
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color("black")
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}
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```
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As you can see, only rib of `y-axis` differs from other ribs.
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As you can see, only the rib of `y-axis` differs from other ribs.
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![](../docs/images/high-box.png)
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For final trial, let's create `box` with bigger `x` value.
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For a final trial, let's create a `box` with a bigger `x` value.
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```kotlin
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box(65, 40, 40, name = "wide box") {
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@ -187,7 +189,7 @@ For final trial, let's create `box` with bigger `x` value.
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color("black")
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}
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```
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Predictably, only `x-axis` rib bigger than other ribs.
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Predictably, only the `x-axis` rib is bigger than other ribs.
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![](../docs/images/wide-box.png)
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@ -196,7 +198,7 @@ Predictably, only `x-axis` rib bigger than other ribs.
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It takes in two values: `radius`, and `name`.
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We bring you to mind that `name` is a general value for all solids, so do not wonder, since all solids need their own identifier.
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As for `radius`, it has `Float` type, and, as you can guess, it sets radius of the sphere, which will be created.
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As for `radius`, it has `Float` type, and, as you can guess, it sets the radius of the sphere which will be created.
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```kotlin
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sphere(50, name = "sphere") {
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x = 0
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@ -222,7 +224,7 @@ It is solid which has six edges. It is set by eight values: `node1`,..., `node8`
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![](../docs/images/scheme.png)
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As hexagon takes in specific points, we understand that this solid cannot be moved, it fixed in space, and it can't make pivots.
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As the hexagon takes in specific points, we understand that this solid cannot be moved, it is fixed in space, and it can't make pivots.
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Let's make classic parallelepiped.
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```kotlin
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@ -253,7 +255,8 @@ Now, let's make a custom hexagon.
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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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name = "custom_hexagon"
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) {
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color("brown")
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}
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```
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@ -261,7 +264,7 @@ Now, let's make a custom hexagon.
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### 3) Cone
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It takes in six values: `bottomRadius`, `height`, `upperRadius`, `startAngle`, `angle`, and `name`.
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Obviously, `bottomRadius` is responsible for radius of a bottom base, and `height` sets height of a cone along the `z-axis`.
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Obviously, `bottomRadius` is responsible for the radius of a bottom base, and `height` sets the height of a cone along the `z-axis`.
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As it takes such values as `upperRadius`, `startAngle`, `angle`, `cone` can build not only usual cones, but also cone segments. Initially, `upperRadius` will have `0.0` value, `startAngle` — `0f`, `angle` — `PI2`, so if you don't set them, you'll get just a simple cone.
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@ -369,5 +372,4 @@ tube(50, 40, 20, 0f, PI, name = "fragmented tube"){
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`extruded` is set by two values: `shape`, and `layer`.
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* `shape` is a value of `List<Point2D>` type. It's just a list of all points of the solid. *`shape` has to consist of not less than two points!*
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* `layer` is `MutableList` types variable. (here is a sentence with description of the work of this function). *The amount of `layer`-s has to be more than one*
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* `layer` is `MutableList` types variable. (here is a sentence with a description of the work of this function). *The amount of `layer`-s has to be more than one*
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