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Maven Central

KTX: Graphics utilities

General utilities for handling libGDX graphics-related API.

Why?

While libGDX API is not particularly bad in this case and the KTX module provides only minor improvements, Kotlin build-in features can greatly simplify some common operations related to graphics and prevent some common bugs such as forgetting to start or end batch rendering.

Guide

Miscellaneous utilities

  • use inlined extension methods added to Batch, ShaderProgram and GLFrameBuffer. They allow safe omission of the begin() and end() calls when using batches, shader programs and buffers. Note that a camera or a matrix can also be passed to selected extension methods to have it automatically applied as the projection matrix.
  • begin extension methods that automatically set projection matrix from a Camera or Matrix4 were added to Batch.
  • takeScreenshot allows to easily take a screenshot of current application screen.
  • BitmapFont.center extension method allows calculating center position of text in order to draw it in the middle of a chosen object.

Color utilities

  • color factory methods allows using named parameters to construct libGDX Color instances.
  • copy extension method added to Color. It allows to create a new Color with copied color values. Supports overriding individual color values with optional named parameters.
  • Color instances can be destructed into individual color values.

ShapeRenderer

ShapeRenderer API, which normally consumes float primitives, was extended to support Vector2 and Vector3 instances instead of x, y and z position parameters. The extension methods have the same names as the original ShapeRenderer methods and perform the same actions. The methods include:

  • arc
  • box
  • circle
  • cone
  • ellipse
  • rect
  • rectLine
  • rotate
  • scale
  • translate
  • triange

A use inlined extension method is also available for ShapeRenderer, ensuring you won't have unbalanced begin() and end() calls.

Cameras and viewports

  • Camera.center extension method allows to center the camera's position to screen center or the center of the chosen rectangle.
  • Camera.moveTo extension method allows to move the camera immediately at the chosen target position with optional offset.
  • Camera.lerpTo extension method allows to move the camera smoothly to the chosen target position with optional offset.
  • Camera.update inlined extension method changes camera state with automatic Camera.update call.
  • LetterboxingViewport combines ScreenViewport and FitViewport behavior: it targets a specific aspect ratio and applies letterboxing like FitViewport, but it does not scale rendered objects when resized, keeping them in fixed size similarly to ScreenViewport. Thanks to customizable target PPI value, it is ideal for GUIs and can easily support different screen sizes.

Usage examples

Using a Batch:

import ktx.graphics.*
import com.badlogic.gdx.graphics.g2d.BitmapFont
import com.badlogic.gdx.graphics.g2d.SpriteBatch

val batch = SpriteBatch()
val font = BitmapFont()
// Drawing the font with batch:
batch.use {
  font.draw(it, "KTX!", 100f, 100f)
}

/* The snippet above is an equivalent to:

  batch.begin()
  font.draw(batch, "KTX!", 100f, 100f)
  batch.end()
*/

Using a Batch with a Camera:

import ktx.graphics.*
import com.badlogic.gdx.graphics.OrthographicCamera

val camera = OrthographicCamera()

// Projection matrix will be copied from the camera:
batch.use(camera) {
  font.draw(it, "KTX!", 100f, 100f)
}

/* Equivalent to:

  batch.projectionMatrix = camera.combined
  batch.begin()
  font.draw(batch, "KTX!", 100f, 100f)
  batch.end()
*/

Using a ShaderProgram:

import ktx.graphics.*

shaderProgram.use {
  // Operate on shaderProgram instance.
}

/* The snippet above is an equivalent to:

  shaderProgram.begin()
  // Operate on shaderProgram instance.
  shaderProgram.end()
*/

Creating Color instances:

import ktx.graphics.*

val myColor = color(red = 1f, green = 0.5f, blue = 0.75f, alpha = 0.25f)
// Fourth parameter - alpha - is optional and defaults to 1f:
val nonTransparentGray = color(0.8f, 0.8f, 0.8f)

Copying Color instances:

import ktx.graphics.*
import com.badlogic.gdx.graphics.Color

val blue = Color.BLUE.copy()
// `blue` has same values as `Color.BLUE`, but it's not the same instance.

// You can optionally override chosen copied values:
val violet = blue.copy(red = 1f)

Destructing Color instances:

import ktx.graphics.*
import com.badlogic.gdx.graphics.Color

fun destruct(color: Color) {
  val (red, green, blue, alpha) = color
}

Using a ShapeRenderer:

import ktx.graphics.*
import com.badlogic.gdx.graphics.glutils.ShapeRenderer

val shapeRenderer = ShapeRenderer()

shapeRenderer.use(ShapeRenderer.ShapeType.Filled) {
  // Operate on shapeRenderer instance
}

/* The snippet above is an equivalent to:

  shapeRenderer.begin(ShapeRenderer.ShapeType.Filled)
  // Operate on shapeRenderer instance
  shapeRenderer.end()
*/

Using a ShapeRenderer with a Camera:

import ktx.graphics.*
import com.badlogic.gdx.graphics.OrthographicCamera
import com.badlogic.gdx.graphics.glutils.ShapeRenderer

val camera = OrthographicCamera()
val shapeRenderer = ShapeRenderer()

// Projection matrix will be copied from the camera:
shapeRenderer.use(ShapeRenderer.ShapeType.Filled, camera) {
  // Operate on shapeRenderer instance
}

/* Equivalent to:

  shapeRenderer.projectionMatrix = camera.combined
  shapeRenderer.begin(ShapeRenderer.ShapeType.Filled)
  // Operate on shapeRenderer instance
  shapeRenderer.end()
*/

Using ShapeRenderer with vectors:

import com.badlogic.gdx.graphics.glutils.ShapeRenderer
import com.badlogic.gdx.math.Vector2
import ktx.graphics.circle

fun drawCircle(renderer: ShapeRenderer) {
    val position = Vector2(1f, 0f)
    renderer.circle(position, radius=5f)
}

Taking a screenshot of the current game screen:

import com.badlogic.gdx.Gdx
import ktx.graphics.takeScreenshot

takeScreenshot(Gdx.files.external("mygame/screenshot.png"))

Finding out where to draw text in order to center it on a Sprite:

import com.badlogic.gdx.graphics.g2d.BitmapFont
import com.badlogic.gdx.graphics.g2d.Sprite
import com.badlogic.gdx.math.Vector2
import ktx.graphics.center

fun getCenterAtSprite(
  bitmapFont: BitmapFont, text: String, sprite: Sprite
): Vector2 =
  bitmapFont.center(
    text,
    // Note that x or y can be modified if you want a slight offset:
    x = sprite.x, y = sprite.y,
    width = sprite.width, height = sprite.height
  )

Creating and customizing a new LetterboxingViewport:

import com.badlogic.gdx.ApplicationAdapter
import com.badlogic.gdx.utils.viewport.Viewport
import ktx.graphics.LetterboxingViewport

class Application: ApplicationAdapter() {
  val viewport: Viewport = LetterboxingViewport(targetPpiX = 96f, targetPpiY = 96f, aspectRatio = 4f / 3f)

  override fun resize(width: Int, height: Int) {
    // Updating viewport to the new screen size:
    viewport.update(width, height, true)
  }
}

Centering camera position:

import com.badlogic.gdx.graphics.OrthographicCamera
import ktx.graphics.center

fun centerCamera(camera: OrthographicCamera) {
  // Sets position to the middle of the screen:
  camera.center()

  // Sets position to the middle of the chosen rectangle:
  camera.center(x = 100f, y = 100f, width = 800f, height = 800f)
}

Moving the camera to a target:

import com.badlogic.gdx.graphics.OrthographicCamera
import com.badlogic.gdx.math.Vector2
import ktx.graphics.lerpTo
import ktx.graphics.moveTo

fun moveCamera(camera: OrthographicCamera, target: Vector2) {
  // Moves the camera immediately at the target:
  camera.moveTo(target)

  // Moves the camera smoothly to the target:
  camera.lerpTo(target, lerp = 0.1f)
}

Changing the camera state with automatic update:

import com.badlogic.gdx.graphics.OrthographicCamera
import com.badlogic.gdx.math.Vector2
import ktx.graphics.lerpTo
import ktx.graphics.update

fun moveCamera(camera: OrthographicCamera, target: Vector2) {
  camera.update {
    lerpTo(target, lerp = 0.1f)
    // camera.update() will be called automatically after this block.
  }
}

Synergy

Use ktx-math for Vector2 and Vector3 extensions, including idiomatic Kotlin factory methods and operator overloads.

Alternatives

There are some general purpose libGDX utility libraries, but most lack first-class Kotlin support.

  • Kiwi is a general purpose Guava-inspired libGDX Java utilities library with some utilities similar to ktx-graphics.
  • Cyberpunk framework provides similar utilities for cameras, text and screenshots.

Additional documentation