src/main/scala/li/cil/oc/client/renderer/PetRenderer.scala - minecraft/opencomputers - Rivoreo Source Code Repositories

 package li.cil.oc.client.renderer

 import java.util
 import java.util.concurrent.{Callable, TimeUnit}

 import com.google.common.cache.CacheBuilder
 import cpw.mods.fml.common.{ITickHandler, TickType}
 import li.cil.oc.api.event.RobotRenderEvent
 import li.cil.oc.client.renderer.tileentity.RobotRenderer
 import net.minecraft.client.Minecraft
 import net.minecraft.client.gui.inventory.GuiContainer
 import net.minecraft.entity.Entity
 import net.minecraftforge.client.event.RenderPlayerEvent
 import net.minecraftforge.event.{EventPriority, ForgeSubscribe}
 import org.lwjgl.opengl.{GL11, GL12}

 import scala.collection.convert.WrapAsScala._
 import scala.collection.mutable

 object PetRenderer extends ITickHandler {
   val hidden = mutable.Set.empty[String]

   private val entitledPlayers = Map(
     "Kethtar" -> (0.3, 0.9, 0.6),
     "Jodarion" -> (1.0, 0.0, 0.0),
     "DaKaTotal" -> (0.5, 0.7, 1.0)
   )

   private val petLocations = com.google.common.cache.CacheBuilder.newBuilder().
     expireAfterAccess(5, TimeUnit.SECONDS).
     asInstanceOf[CacheBuilder[Entity, PetLocation]].
     build[Entity, PetLocation]()

   private var rendering: Option[(Double, Double, Double)] = None

   @ForgeSubscribe
   def onPlayerRender(e: RenderPlayerEvent.Pre) {
     val name = e.entityPlayer.getCommandSenderName
     if (hidden.contains(name) || !entitledPlayers.contains(name)) return
     rendering = Some(entitledPlayers(name))

     val worldTime = e.entityPlayer.getEntityWorld.getTotalWorldTime
     val timeJitter = e.entityPlayer.hashCode ^ 0xFF
     val offset = timeJitter + worldTime / 20.0
     val hover = (math.sin(timeJitter + (worldTime + e.partialRenderTick) / 20.0) * 0.03).toFloat

     val location = petLocations.get(e.entityPlayer, new Callable[PetLocation] {
       override def call() = new PetLocation(e.entityPlayer)
     })

     GL11.glPushMatrix()
     GL11.glPushAttrib(GL11.GL_ALL_ATTRIB_BITS)
     if (e.entityPlayer != Minecraft.getMinecraft.thePlayer) {
       val localPos = Minecraft.getMinecraft.thePlayer.getPosition(e.partialRenderTick)
       val playerPos = e.entityPlayer.getPosition(e.partialRenderTick)
       val correction = 1.62 - (if (e.entityPlayer.isSneaking) 0.125 else 0)
       GL11.glTranslated(
         playerPos.xCoord - localPos.xCoord,
         playerPos.yCoord - localPos.yCoord + correction,
         playerPos.zCoord - localPos.zCoord)
     }

     GL11.glEnable(GL11.GL_LIGHTING)
     GL11.glDisable(GL11.GL_BLEND)
     GL11.glEnable(GL12.GL_RESCALE_NORMAL)
     GL11.glColor4f(1, 1, 1, 1)

     location.applyInterpolatedTransformations(e.partialRenderTick)

     GL11.glScalef(0.3f, 0.3f, 0.3f)
     GL11.glTranslatef(0, hover, 0)

     RobotRenderer.renderChassis(null, offset, isRunningOverride = true)

     GL11.glPopAttrib()
     GL11.glPopMatrix()

     rendering = None
   }

   @ForgeSubscribe(priority = EventPriority.LOWEST)
   def onRobotRender(e: RobotRenderEvent) {
     rendering match {
       case Some((r, g, b)) => GL11.glColor3d(r, g, b)
       case _ =>
     }
   }

   private class PetLocation(val owner: Entity) {
     var x = 0.0
     var y = 0.0
     var z = 0.0
     var yaw = owner.rotationYaw

     var lastX = x
     var lastY = y
     var lastZ = z
     var lastYaw = yaw

     def update() {
       val dx = owner.lastTickPosX - owner.posX
       val dy = owner.lastTickPosY - owner.posY
       val dz = owner.lastTickPosZ - owner.posZ
       val dYaw = owner.rotationYaw - yaw
       lastX = x
       lastY = y
       lastZ = z
       lastYaw = yaw
       x += dx
       y += dy
       z += dz
       x *= 0.05
       y *= 0.05
       z *= 0.05
       yaw += dYaw * 0.2f
     }

     def applyInterpolatedTransformations(dt: Float) {
       val ix = lastX + (x - lastX) * dt
       val iy = lastY + (y - lastY) * dt
       val iz = lastZ + (z - lastZ) * dt
       val iYaw = lastYaw + (yaw - lastYaw) * dt

       GL11.glTranslated(ix, iy, iz)
       if (!isForInventory) {
         GL11.glRotatef(-iYaw, 0, 1, 0)
       }
       else {
         GL11.glRotatef(-owner.rotationYaw, 0, 1, 0)
       }
       GL11.glTranslated(0.3, -0.1, -0.2)
     }

     // Someone please tell me a cleaner solution than this...
     private def isForInventory = new Exception().getStackTrace.exists(_.getClassName == classOf[GuiContainer].getName)
   }

   override def getLabel = "OpenComputers.PetRenderer"

   override def ticks() = util.EnumSet.of(TickType.CLIENT)

   override def tickStart(tickType: util.EnumSet[TickType], tickData: AnyRef*) {
     petLocations.cleanUp()
     for (pet <- petLocations.asMap.values) {
       pet.update()
     }
   }

   override def tickEnd(tickType: util.EnumSet[TickType], tickData: AnyRef*) {}
 }
	package li.cil.oc.client.renderer

	import java.util
	import java.util.concurrent.{Callable, TimeUnit}

	import com.google.common.cache.CacheBuilder
	import cpw.mods.fml.common.{ITickHandler, TickType}
	import li.cil.oc.api.event.RobotRenderEvent
	import li.cil.oc.client.renderer.tileentity.RobotRenderer
	import net.minecraft.client.Minecraft
	import net.minecraft.client.gui.inventory.GuiContainer
	import net.minecraft.entity.Entity
	import net.minecraftforge.client.event.RenderPlayerEvent
	import net.minecraftforge.event.{EventPriority, ForgeSubscribe}
	import org.lwjgl.opengl.{GL11, GL12}

	import scala.collection.convert.WrapAsScala._
	import scala.collection.mutable

	object PetRenderer extends ITickHandler {
	val hidden = mutable.Set.empty[String]

	private val entitledPlayers = Map(
	"Kethtar" -> (0.3, 0.9, 0.6),
	"Jodarion" -> (1.0, 0.0, 0.0),
	"DaKaTotal" -> (0.5, 0.7, 1.0)
	)

	private val petLocations = com.google.common.cache.CacheBuilder.newBuilder().
	expireAfterAccess(5, TimeUnit.SECONDS).
	asInstanceOf[CacheBuilder[Entity, PetLocation]].
	build[Entity, PetLocation]()

	private var rendering: Option[(Double, Double, Double)] = None

	@ForgeSubscribe
	def onPlayerRender(e: RenderPlayerEvent.Pre) {
	val name = e.entityPlayer.getCommandSenderName
	if (hidden.contains(name) \|\| !entitledPlayers.contains(name)) return
	rendering = Some(entitledPlayers(name))

	val worldTime = e.entityPlayer.getEntityWorld.getTotalWorldTime
	val timeJitter = e.entityPlayer.hashCode ^ 0xFF
	val offset = timeJitter + worldTime / 20.0
	val hover = (math.sin(timeJitter + (worldTime + e.partialRenderTick) / 20.0) * 0.03).toFloat

	val location = petLocations.get(e.entityPlayer, new Callable[PetLocation] {
	override def call() = new PetLocation(e.entityPlayer)
	})

	GL11.glPushMatrix()
	GL11.glPushAttrib(GL11.GL_ALL_ATTRIB_BITS)
	if (e.entityPlayer != Minecraft.getMinecraft.thePlayer) {
	val localPos = Minecraft.getMinecraft.thePlayer.getPosition(e.partialRenderTick)
	val playerPos = e.entityPlayer.getPosition(e.partialRenderTick)
	val correction = 1.62 - (if (e.entityPlayer.isSneaking) 0.125 else 0)
	GL11.glTranslated(
	playerPos.xCoord - localPos.xCoord,
	playerPos.yCoord - localPos.yCoord + correction,
	playerPos.zCoord - localPos.zCoord)
	}

	GL11.glEnable(GL11.GL_LIGHTING)
	GL11.glDisable(GL11.GL_BLEND)
	GL11.glEnable(GL12.GL_RESCALE_NORMAL)
	GL11.glColor4f(1, 1, 1, 1)

	location.applyInterpolatedTransformations(e.partialRenderTick)

	GL11.glScalef(0.3f, 0.3f, 0.3f)
	GL11.glTranslatef(0, hover, 0)

	RobotRenderer.renderChassis(null, offset, isRunningOverride = true)

	GL11.glPopAttrib()
	GL11.glPopMatrix()

	rendering = None
	}

	@ForgeSubscribe(priority = EventPriority.LOWEST)
	def onRobotRender(e: RobotRenderEvent) {
	rendering match {
	case Some((r, g, b)) => GL11.glColor3d(r, g, b)
	case _ =>
	}
	}

	private class PetLocation(val owner: Entity) {
	var x = 0.0
	var y = 0.0
	var z = 0.0
	var yaw = owner.rotationYaw

	var lastX = x
	var lastY = y
	var lastZ = z
	var lastYaw = yaw

	def update() {
	val dx = owner.lastTickPosX - owner.posX
	val dy = owner.lastTickPosY - owner.posY
	val dz = owner.lastTickPosZ - owner.posZ
	val dYaw = owner.rotationYaw - yaw
	lastX = x
	lastY = y
	lastZ = z
	lastYaw = yaw
	x += dx
	y += dy
	z += dz
	x *= 0.05
	y *= 0.05
	z *= 0.05
	yaw += dYaw * 0.2f
	}

	def applyInterpolatedTransformations(dt: Float) {
	val ix = lastX + (x - lastX) * dt
	val iy = lastY + (y - lastY) * dt
	val iz = lastZ + (z - lastZ) * dt
	val iYaw = lastYaw + (yaw - lastYaw) * dt

	GL11.glTranslated(ix, iy, iz)
	if (!isForInventory) {
	GL11.glRotatef(-iYaw, 0, 1, 0)
	}
	else {
	GL11.glRotatef(-owner.rotationYaw, 0, 1, 0)
	}
	GL11.glTranslated(0.3, -0.1, -0.2)
	}

	// Someone please tell me a cleaner solution than this...
	private def isForInventory = new Exception().getStackTrace.exists(_.getClassName == classOf[GuiContainer].getName)
	}

	override def getLabel = "OpenComputers.PetRenderer"

	override def ticks() = util.EnumSet.of(TickType.CLIENT)

	override def tickStart(tickType: util.EnumSet[TickType], tickData: AnyRef*) {
	petLocations.cleanUp()
	for (pet <- petLocations.asMap.values) {
	pet.update()
	}
	}

	override def tickEnd(tickType: util.EnumSet[TickType], tickData: AnyRef*) {}
	}