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package de.romjaki.pluggabledino.game
import org.jbox2d.callbacks.ContactImpulse
import org.jbox2d.callbacks.ContactListener
import org.jbox2d.collision.Manifold
import org.jbox2d.collision.shapes.PolygonShape
import org.jbox2d.common.Vec2
import org.jbox2d.dynamics.*
import org.jbox2d.dynamics.contacts.Contact
import org.newdawn.slick.Input
import java.util.*
class GameWorld : ContactListener {
override fun endContact(contact: Contact?) {
}
override fun beginContact(contact: Contact?) {
contact!!
val bodies = listOf(contact.fixtureA.body, contact.fixtureB.body)
if (bodies.contains(dino) && cacti.any { bodies.contains(it) }) {
hurt = true
} else if (bodies.contains(dino) && birdd.any { bodies.contains(it) }) {
hurt = true
}
}
override fun preSolve(contact: Contact?, oldManifold: Manifold?) {
}
override fun postSolve(contact: Contact?, impulse: ContactImpulse?) {
}
var hurt = false
val world: World
val cacti = mutableListOf<Body>()
val cactiBodyDef: BodyDef
val birdd = mutableListOf<Body>()
val birddBodyDef: BodyDef
var speed = 1000
val groundBody: Body
val random = Random()
var delay = 0f
var bg = 0f
val dino: Body
val groundBodyDef: BodyDef
val groundBox: PolygonShape
val dinoDef: BodyDef
val dinoBox: PolygonShape
val dinoFixtureDef: FixtureDef
init {
val gravity = Vec2(0f, 40f)
world = World(gravity)
//#region GROUND
groundBodyDef = BodyDef()
groundBodyDef.position.set(0f, 50f)
groundBody = world.createBody(groundBodyDef)
groundBox = PolygonShape()
groundBox.setAsBox(50f, 10f)
groundBody.createFixture(groundBox, 0f)
//#endregion
//#region DINO
dinoDef = BodyDef()
dinoDef.type = BodyType.DYNAMIC
dinoDef.position.set(4f, 39f)
dino = world.createBody(dinoDef)
dinoBox = PolygonShape()
dinoBox.setAsBox(1f, 1f)
dinoFixtureDef = FixtureDef()
dinoFixtureDef.shape = dinoBox
dinoFixtureDef.density = 0.9f
dinoFixtureDef.friction = 0.3f
dino.createFixture(dinoFixtureDef)
//#endregion
cactiBodyDef = BodyDef()
cactiBodyDef.type = BodyType.KINEMATIC
birddBodyDef = BodyDef()
birddBodyDef.type = BodyType.KINEMATIC
createCactus1()
createBird1()
}
fun rand(from: Int, to: Int): Int {
return random.nextInt(to - from) + from
}
fun createBird1() {
val body = world.createBody(birddBodyDef)
body.position.set(50f, 33f)
val shape = PolygonShape()
shape.setAsBox(1f, 1f)
val birddFixtureDef = FixtureDef()
birddFixtureDef.shape = dinoBox
birddFixtureDef.isSensor = true
birddFixtureDef.density = 0.1f
birddFixtureDef.friction = 0f
body.createFixture(birddFixtureDef)
birdd.add(body)
speed += 0
}
fun createCactus1() {
val body = world.createBody(cactiBodyDef)
body.position.set(100f, 39f)
val shape = PolygonShape()
shape.setAsBox(1f, 1f)
val cactiFixtureDef = FixtureDef()
cactiFixtureDef.shape = dinoBox
cactiFixtureDef.isSensor = true
cactiFixtureDef.density = 0.1f
cactiFixtureDef.friction = 0f
body.createFixture(cactiFixtureDef)
cacti.add(body)
speed += 20
}
fun update(delta: Float, tryJump: Boolean) {
if (tryJump) {
tryJump()
}
delay -= delta
bg -= delta
if (delay < 0) {
createCactus1()
delay = random.nextFloat() + rand(2, 3)
}
if (bg < -5) {
createBird1()
bg = random.nextFloat() + rand(1, 2)
}
cacti.forEach {
it.linearVelocity.set(-delta * speed, 0f)
}
cacti.removeIf {
it.position.x < 0
}
birdd.forEach {
it.linearVelocity.set(-delta * speed, 0f)
}
cacti.removeIf {
it.position.x < 0
}
world.step(delta, 4, 3)
world.setContactListener(this)
}
fun tryJump() {
if (isDinoOnGround()) {
dino.applyForceToCenter(Vec2(0f, -4250f))
}
}
private fun isDinoOnGround(): Boolean =
dino.linearVelocity.y == 0.0f
}
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