src/main/scala/li/cil/oc/common/tileentity/ServerRack.scala - minecraft/opencomputers - Rivoreo Source Code Repositories

 package li.cil.oc.common.tileentity

 import java.util

 import com.google.common.base.Strings
 import cpw.mods.fml.common.Optional.Method
 import cpw.mods.fml.common.eventhandler.SubscribeEvent
 import cpw.mods.fml.relauncher.Side
 import cpw.mods.fml.relauncher.SideOnly
 import li.cil.oc._
 import li.cil.oc.api.Network
 import li.cil.oc.api.internal
 import li.cil.oc.api.network.Analyzable
 import li.cil.oc.api.network._
 import li.cil.oc.client.Sound
 import li.cil.oc.common.Tier
 import li.cil.oc.integration.Mods
 import li.cil.oc.integration.opencomputers.DriverRedstoneCard
 import li.cil.oc.integration.stargatetech2.DriverAbstractBusCard
 import li.cil.oc.integration.util.Waila
 import li.cil.oc.server.component
 import li.cil.oc.server.{PacketSender => ServerPacketSender}
 import li.cil.oc.util.ExtendedNBT._
 import net.minecraft.entity.player.EntityPlayer
 import net.minecraft.item.ItemStack
 import net.minecraft.nbt.NBTTagCompound
 import net.minecraft.nbt.NBTTagString
 import net.minecraftforge.common.util.Constants.NBT
 import net.minecraftforge.common.util.ForgeDirection
 import net.minecraftforge.event.world.WorldEvent

 import scala.collection.mutable

 class ServerRack extends traits.PowerAcceptor with traits.Hub with traits.PowerBalancer with traits.Inventory with traits.Rotatable with traits.BundledRedstoneAware with traits.AbstractBusAware with Analyzable with internal.ServerRack with traits.StateAware {
   val servers = Array.fill(getSizeInventory)(None: Option[component.Server])

   val sides = Seq(Option(ForgeDirection.UP), Option(ForgeDirection.EAST), Option(ForgeDirection.WEST), Option(ForgeDirection.DOWN)).
     padTo(servers.length, None).toArray

   val terminals = (0 until servers.length).map(new common.component.Terminal(this, _)).toArray

   var range = 16

   // For client side, where we don't create the component.
   private val _isRunning = new Array[Boolean](getSizeInventory)

   private var markChunkDirty = false

   var internalSwitch = false

   // For client side rendering.
   var isPresent = Array.fill[Option[String]](getSizeInventory)(None)

   // Used on client side to check whether to render disk activity indicators.
   var lastAccess = Array.fill(4)(0L)

   override def server(slot: Int) = servers(slot).orNull

   @SideOnly(Side.CLIENT)
   override protected def hasConnector(side: ForgeDirection) = side != facing

   override protected def connector(side: ForgeDirection) = Option(if (side != facing) sidedNode(side).asInstanceOf[Connector] else null)

   override protected def energyThroughput = Settings.get.serverRackRate

   override def getWorld = world

   // ----------------------------------------------------------------------- //

   override def canConnect(side: ForgeDirection) = side != facing

   @Method(modid = Mods.IDs.StargateTech2)
   override def getInterfaces(side: Int) = if (side != facing.ordinal) {
     super.getInterfaces(side)
   }
   else null

   // ----------------------------------------------------------------------- //

   def isRunning(number: Int) =
     if (isServer) servers(number).fold(false)(_.machine.isRunning)
     else _isRunning(number)

   @SideOnly(Side.CLIENT)
   def setRunning(number: Int, value: Boolean) = {
     _isRunning(number) = value
     world.markBlockForUpdate(x, y, z)
     if (anyRunning) Sound.startLoop(this, "computer_running", 1.5f, 50 + world.rand.nextInt(50))
     else Sound.stopLoop(this)
     this
   }

   def anyRunning = (0 until servers.length).exists(isRunning)

   override def currentState = {
     if (anyRunning) util.EnumSet.of(traits.State.IsWorking)
     else util.EnumSet.noneOf(classOf[traits.State])
   }

   // ----------------------------------------------------------------------- //

   def markForSaving() = markChunkDirty = true

   override def installedComponents = servers.flatMap {
     case Some(server) => server.inventory.components collect {
       case Some(component) => component
     }
     case _ => Iterable.empty
   }

   def hasAbstractBusCard = servers exists {
     case Some(server) => server.machine.isRunning && server.inventory.items.exists {
       case Some(stack) => DriverAbstractBusCard.worksWith(stack, server.getClass)
       case _ => false
     }
     case _ => false
   }

   def hasRedstoneCard = servers exists {
     case Some(server) => server.machine.isRunning && server.inventory.items.exists {
       case Some(stack) => DriverRedstoneCard.worksWith(stack, server.getClass)
       case _ => false
     }
     case _ => false
   }

   def reconnectServer(number: Int, server: component.Server) {
     sides(number) match {
       case Some(serverSide) =>
         val serverNode = server.machine.node
         for (side <- ForgeDirection.VALID_DIRECTIONS) {
           if (toLocal(side) == serverSide) sidedNode(side).connect(serverNode)
           else sidedNode(side).disconnect(serverNode)
         }
       case _ =>
     }
   }

   // ----------------------------------------------------------------------- //

   override protected def distribute() = {
     def node(side: Int) = sides(side) match {
       case None | Some(ForgeDirection.UNKNOWN) => servers(side).fold(null: Connector)(_.machine.node.asInstanceOf[Connector])
       case _ => null
     }
     val nodes = (0 to 3).map(node)
     def network(connector: Connector) = if (connector != null && connector.network != null) connector.network else this
     val (sumBuffer, sumSize) = super.distribute()
     var sumBufferServers, sumSizeServers = 0.0
     network(nodes(0)).synchronized {
       network(nodes(1)).synchronized {
         network(nodes(2)).synchronized {
           network(nodes(3)).synchronized {
             for (node <- nodes if node != null) {
               sumBufferServers += node.globalBuffer
               sumSizeServers += node.globalBufferSize
             }
             if (sumSize + sumSizeServers > 0) {
               val ratio = (sumBuffer + sumBufferServers) / (sumSize + sumSizeServers)
               for (node <- nodes if node != null) {
                 node.changeBuffer(node.globalBufferSize * ratio - node.globalBuffer)
               }
             }
           }
         }
       }
     }
     (sumBuffer + sumBufferServers, sumSize + sumSizeServers)
   }

   // ----------------------------------------------------------------------- //

   override protected def relayPacket(sourceSide: Option[ForgeDirection], packet: Packet) {
     if (internalSwitch) {
       for (slot <- 0 until servers.length) {
         val side = sides(slot).map(toGlobal)
         if (side != sourceSide) {
           servers(slot) match {
             case Some(server) => server.machine.node.sendToNeighbors("network.message", packet)
             case _ =>
           }
         }
       }
     }
     else super.relayPacket(sourceSide, packet)
   }

   override protected def onPlugMessage(plug: Plug, message: Message) {
     // This check is a little hacky. Basically what we test here is whether
     // the message was relayed internally, because only internally relayed
     // network messages originate from the actual server nodes themselves.
     // The otherwise come from the network card.
     if (message.name != "network.message" || !(servers collect {
       case Some(server) => server.machine.node
     }).contains(message.source)) super.onPlugMessage(plug, message)
   }

   // ----------------------------------------------------------------------- //

   override def getSizeInventory = 4

   override def getInventoryStackLimit = 1

   override def isItemValidForSlot(i: Int, stack: ItemStack) = {
     val descriptor = api.Items.get(stack)
     descriptor == api.Items.get("server1") ||
       descriptor == api.Items.get("server2") ||
       descriptor == api.Items.get("server3") ||
       descriptor == api.Items.get("serverCreative")
   }

   // ----------------------------------------------------------------------- //

   override def onAnalyze(player: EntityPlayer, side: Int, hitX: Float, hitY: Float, hitZ: Float) = {
     slotAt(ForgeDirection.getOrientation(side), hitX, hitY, hitZ) match {
       case Some(slot) => servers(slot) match {
         case Some(server) =>
           val computer = server.machine
           computer.lastError match {
             case value if value != null =>
               player.addChatMessage(Localization.Analyzer.LastError(value))
             case _ =>
           }
           player.addChatMessage(Localization.Analyzer.Components(computer.componentCount, computer.maxComponents))
           val list = computer.users
           if (list.size > 0) {
             player.addChatMessage(Localization.Analyzer.Users(list))
           }
           Array(computer.node)
         case _ => null
       }
       case _ => Array(sidedNode(ForgeDirection.getOrientation(side)))
     }
   }

   def slotAt(side: ForgeDirection, hitX: Float, hitY: Float, hitZ: Float) = {
     if (side == facing) {
       val l = 2 / 16.0
       val h = 14 / 16.0
       val slot = (((1 - hitY) - l) / (h - l) * 4).toInt
       Some(math.max(0, math.min(servers.length - 1, slot)))
     }
     else None
   }

   // ----------------------------------------------------------------------- //

   override def canUpdate = isServer

   override def updateEntity() {
     super.updateEntity()
     if (isServer && isConnected) {
       val shouldUpdatePower = world.getTotalWorldTime % Settings.get.tickFrequency == 0
       if (shouldUpdatePower && range > 0 && !Settings.get.ignorePower) {
         val countRunning = servers.count {
           case Some(server) => server.machine.isRunning
           case _ => false
         }
         if (countRunning > 0) {
           var cost = -(countRunning * range * Settings.get.wirelessCostPerRange * Settings.get.tickFrequency)
           for (side <- ForgeDirection.VALID_DIRECTIONS if cost < 0) {
             sidedNode(side) match {
               case connector: Connector => cost = connector.changeBuffer(cost)
               case _ =>
             }
           }
         }
       }

       servers collect {
         case Some(server) =>
           if (shouldUpdatePower && server.tier == Tier.Four) {
             server.machine.node.asInstanceOf[Connector].changeBuffer(Double.PositiveInfinity)
           }
           server.machine.update()
       }

       if (markChunkDirty) {
         markChunkDirty = false
         world.markTileEntityChunkModified(x, y, z, this)
       }

       for (i <- 0 until servers.length) {
         val isRunning = servers(i).fold(false)(_.machine.isRunning)
         if (_isRunning(i) != isRunning) {
           _isRunning(i) = isRunning
           ServerPacketSender.sendServerState(this, i)
           world.notifyBlocksOfNeighborChange(x, y, z, block)
         }
       }
       isOutputEnabled = hasRedstoneCard
       isAbstractBusAvailable = hasAbstractBusCard

       servers collect {
         case Some(server) =>
           server.inventory.updateComponents()
           terminals(server.slot).buffer.update()
       }
     }
   }

   // ----------------------------------------------------------------------- //

   override protected def initialize() {
     super.initialize()
     if (isClient) {
       ServerRack.list += this -> Unit
     }
   }

   override def dispose() {
     super.dispose()
     if (isClient) {
       ServerRack.list -= this
     }
   }

   override def readFromNBT(nbt: NBTTagCompound) {
     super.readFromNBT(nbt)
     for (slot <- 0 until getSizeInventory) {
       if (getStackInSlot(slot) != null) {
         val server = new component.Server(this, slot)
         servers(slot) = Option(server)
       }
     }
     nbt.getTagList(Settings.namespace + "servers", NBT.TAG_COMPOUND).toArray[NBTTagCompound].
       zipWithIndex.foreach {
       case (tag, index) if index < servers.length =>
         servers(index) match {
           case Some(server) =>
             try server.load(tag) catch {
               case t: Throwable => OpenComputers.log.warn("Failed restoring server state. Please report this!", t)
             }
           case _ =>
         }
       case _ =>
     }
     val sidesNbt = nbt.getByteArray(Settings.namespace + "sides").map {
       case side if side >= 0 => Option(ForgeDirection.getOrientation(side))
       case _ => None
     }
     Array.copy(sidesNbt, 0, sides, 0, math.min(sidesNbt.length, sides.length))
     nbt.getTagList(Settings.namespace + "terminals", NBT.TAG_COMPOUND).toArray[NBTTagCompound].
       zipWithIndex.foreach {
       case (tag, index) if index < terminals.length =>
         try terminals(index).load(tag) catch {
           case t: Throwable => OpenComputers.log.warn("Failed restoring terminal state. Please report this!", t)
         }
       case _ =>
     }
     range = nbt.getInteger(Settings.namespace + "range")
     internalSwitch = nbt.getBoolean(Settings.namespace + "internalSwitch")

     // Kickstart initialization to avoid values getting overwritten by
     // readFromNBTForClient if that packet is handled after a manual
     // initialization / state change packet.
     for (i <- 0 until servers.length) {
       val isRunning = servers(i).fold(false)(_.machine.isRunning)
       _isRunning(i) = isRunning
     }
     _isOutputEnabled = hasRedstoneCard
     _isAbstractBusAvailable = hasAbstractBusCard
   }

   // Side check for Waila (and other mods that may call this client side).
   override def writeToNBT(nbt: NBTTagCompound) = if (isServer) {
     if (!Waila.isSavingForTooltip) {
       nbt.setNewTagList(Settings.namespace + "servers", servers map {
         case Some(server) =>
           val serverNbt = new NBTTagCompound()
           try server.save(serverNbt) catch {
             case t: Throwable => OpenComputers.log.warn("Failed saving server state. Please report this!", t)
           }
           serverNbt
         case _ => new NBTTagCompound()
       })
     }
     super.writeToNBT(nbt)
     nbt.setByteArray(Settings.namespace + "sides", sides.map {
       case Some(side) => side.ordinal.toByte
       case _ => -1: Byte
     })
     nbt.setNewTagList(Settings.namespace + "terminals", terminals.map(t => {
       val terminalNbt = new NBTTagCompound()
       try t.save(terminalNbt) catch {
         case t: Throwable => OpenComputers.log.warn("Failed saving terminal state. Please report this!", t)
       }
       terminalNbt
     }))
     nbt.setInteger(Settings.namespace + "range", range)
     nbt.setBoolean(Settings.namespace + "internalSwitch", internalSwitch)
   }

   @SideOnly(Side.CLIENT)
   override def readFromNBTForClient(nbt: NBTTagCompound) {
     super.readFromNBTForClient(nbt)
     val isRunningNbt = nbt.getBooleanArray("isServerRunning")
     Array.copy(isRunningNbt, 0, _isRunning, 0, math.min(isRunningNbt.length, _isRunning.length))
     val isPresentNbt = nbt.getTagList("isPresent", NBT.TAG_STRING).map((tag: NBTTagString) => {
       val value = tag.func_150285_a_()
       if (Strings.isNullOrEmpty(value)) None else Some(value)
     }).toArray
     Array.copy(isPresentNbt, 0, isPresent, 0, math.min(isPresentNbt.length, isPresent.length))
     val sidesNbt = nbt.getByteArray("sides").map {
       case side if side >= 0 => Option(ForgeDirection.getOrientation(side))
       case _ => None
     }
     Array.copy(sidesNbt, 0, sides, 0, math.min(sidesNbt.length, sides.length))
     nbt.getTagList("terminals", NBT.TAG_COMPOUND).toArray[NBTTagCompound].
       zipWithIndex.foreach {
       case (tag, index) if index < terminals.length => terminals(index).readFromNBTForClient(tag)
       case _ =>
     }
     range = nbt.getInteger("range")
     if (anyRunning) Sound.startLoop(this, "computer_running", 1.5f, 1000 + world.rand.nextInt(2000))
   }

   override def writeToNBTForClient(nbt: NBTTagCompound) {
     super.writeToNBTForClient(nbt)
     nbt.setBooleanArray("isServerRunning", _isRunning)
     nbt.setNewTagList("isPresent", servers.map(value => new NBTTagString(value.fold("")(_.machine.node.address))))
     nbt.setByteArray("sides", sides.map {
       case Some(side) => side.ordinal.toByte
       case _ => -1: Byte
     })
     nbt.setNewTagList("terminals", terminals.map(t => {
       val terminalNbt = new NBTTagCompound()
       t.writeToNBTForClient(terminalNbt)
       terminalNbt
     }))
     nbt.setInteger("range", range)
   }

   // ----------------------------------------------------------------------- //

   override protected def onPlugConnect(plug: Plug, node: Node) {
     if (node == plug.node) {
       for (number <- 0 until servers.length) {
         val serverSide = sides(number).map(toGlobal)
         servers(number) match {
           case Some(server) =>
             if (serverSide == Option(plug.side)) plug.node.connect(server.machine.node)
             else api.Network.joinNewNetwork(server.machine.node)
             terminals(number).connect(server.machine.node)
           case _ =>
         }
       }
     }
   }

   override protected def createNode(plug: Plug) = api.Network.newNode(plug, Visibility.Network).
     withConnector(Settings.get.bufferDistributor).
     create()

   override protected def onItemAdded(slot: Int, stack: ItemStack) {
     super.onItemAdded(slot, stack)
     if (isServer) {
       val server = new component.Server(this, slot)
       servers(slot) = Some(server)
       reconnectServer(slot, server)
       Network.joinNewNetwork(server.machine.node)
       terminals(slot).connect(server.machine.node)
     }
   }

   override protected def onItemRemoved(slot: Int, stack: ItemStack) {
     super.onItemRemoved(slot, stack)
     if (isServer) {
       servers(slot) match {
         case Some(server) =>
           server.machine.node.remove()
           server.inventory.containerOverride = stack
           server.inventory.save(new NBTTagCompound()) // Only flush components.
           server.inventory.markDirty()
         case _ =>
       }
       servers(slot) = None
       terminals(slot).keys.clear()
     }
   }

   override def markDirty() {
     super.markDirty()
     if (isServer) {
       isOutputEnabled = hasRedstoneCard
       isAbstractBusAvailable = hasAbstractBusCard
       ServerPacketSender.sendServerPresence(this)
     }
     else {
       world.markBlockForUpdate(x, y, z)
     }
   }

   override protected def onRotationChanged() {
     super.onRotationChanged()
     checkRedstoneInputChanged()
   }

   override protected def onRedstoneInputChanged(side: ForgeDirection, oldMaxValue: Int, newMaxValue: Int) {
     super.onRedstoneInputChanged(side, oldMaxValue, newMaxValue)
     servers collect {
       case Some(server) => server.machine.node.sendToNeighbors("redstone.changed", toLocal(side), int2Integer(oldMaxValue), int2Integer(newMaxValue))
     }
   }

   override def rotate(axis: ForgeDirection) = false
 }

 object ServerRack {
   val list = mutable.WeakHashMap.empty[ServerRack, Unit]

   @SubscribeEvent
   def onWorldUnload(e: WorldEvent.Unload) {
     if (e.world.isRemote) {
       list.clear()
     }
   }
 }
	package li.cil.oc.common.tileentity

	import java.util

	import com.google.common.base.Strings
	import cpw.mods.fml.common.Optional.Method
	import cpw.mods.fml.common.eventhandler.SubscribeEvent
	import cpw.mods.fml.relauncher.Side
	import cpw.mods.fml.relauncher.SideOnly
	import li.cil.oc._
	import li.cil.oc.api.Network
	import li.cil.oc.api.internal
	import li.cil.oc.api.network.Analyzable
	import li.cil.oc.api.network._
	import li.cil.oc.client.Sound
	import li.cil.oc.common.Tier
	import li.cil.oc.integration.Mods
	import li.cil.oc.integration.opencomputers.DriverRedstoneCard
	import li.cil.oc.integration.stargatetech2.DriverAbstractBusCard
	import li.cil.oc.integration.util.Waila
	import li.cil.oc.server.component
	import li.cil.oc.server.{PacketSender => ServerPacketSender}
	import li.cil.oc.util.ExtendedNBT._
	import net.minecraft.entity.player.EntityPlayer
	import net.minecraft.item.ItemStack
	import net.minecraft.nbt.NBTTagCompound
	import net.minecraft.nbt.NBTTagString
	import net.minecraftforge.common.util.Constants.NBT
	import net.minecraftforge.common.util.ForgeDirection
	import net.minecraftforge.event.world.WorldEvent

	import scala.collection.mutable

	class ServerRack extends traits.PowerAcceptor with traits.Hub with traits.PowerBalancer with traits.Inventory with traits.Rotatable with traits.BundledRedstoneAware with traits.AbstractBusAware with Analyzable with internal.ServerRack with traits.StateAware {
	val servers = Array.fill(getSizeInventory)(None: Option[component.Server])

	val sides = Seq(Option(ForgeDirection.UP), Option(ForgeDirection.EAST), Option(ForgeDirection.WEST), Option(ForgeDirection.DOWN)).
	padTo(servers.length, None).toArray

	val terminals = (0 until servers.length).map(new common.component.Terminal(this, _)).toArray

	var range = 16

	// For client side, where we don't create the component.
	private val _isRunning = new Array[Boolean](getSizeInventory)

	private var markChunkDirty = false

	var internalSwitch = false

	// For client side rendering.
	var isPresent = Array.fill[Option[String]](getSizeInventory)(None)

	// Used on client side to check whether to render disk activity indicators.
	var lastAccess = Array.fill(4)(0L)

	override def server(slot: Int) = servers(slot).orNull

	@SideOnly(Side.CLIENT)
	override protected def hasConnector(side: ForgeDirection) = side != facing

	override protected def connector(side: ForgeDirection) = Option(if (side != facing) sidedNode(side).asInstanceOf[Connector] else null)

	override protected def energyThroughput = Settings.get.serverRackRate

	override def getWorld = world

	// ----------------------------------------------------------------------- //

	override def canConnect(side: ForgeDirection) = side != facing

	@Method(modid = Mods.IDs.StargateTech2)
	override def getInterfaces(side: Int) = if (side != facing.ordinal) {
	super.getInterfaces(side)
	}
	else null

	// ----------------------------------------------------------------------- //

	def isRunning(number: Int) =
	if (isServer) servers(number).fold(false)(_.machine.isRunning)
	else _isRunning(number)

	@SideOnly(Side.CLIENT)
	def setRunning(number: Int, value: Boolean) = {
	_isRunning(number) = value
	world.markBlockForUpdate(x, y, z)
	if (anyRunning) Sound.startLoop(this, "computer_running", 1.5f, 50 + world.rand.nextInt(50))
	else Sound.stopLoop(this)
	this
	}

	def anyRunning = (0 until servers.length).exists(isRunning)

	override def currentState = {
	if (anyRunning) util.EnumSet.of(traits.State.IsWorking)
	else util.EnumSet.noneOf(classOf[traits.State])
	}

	// ----------------------------------------------------------------------- //

	def markForSaving() = markChunkDirty = true

	override def installedComponents = servers.flatMap {
	case Some(server) => server.inventory.components collect {
	case Some(component) => component
	}
	case _ => Iterable.empty
	}

	def hasAbstractBusCard = servers exists {
	case Some(server) => server.machine.isRunning && server.inventory.items.exists {
	case Some(stack) => DriverAbstractBusCard.worksWith(stack, server.getClass)
	case _ => false
	}
	case _ => false
	}

	def hasRedstoneCard = servers exists {
	case Some(server) => server.machine.isRunning && server.inventory.items.exists {
	case Some(stack) => DriverRedstoneCard.worksWith(stack, server.getClass)
	case _ => false
	}
	case _ => false
	}

	def reconnectServer(number: Int, server: component.Server) {
	sides(number) match {
	case Some(serverSide) =>
	val serverNode = server.machine.node
	for (side <- ForgeDirection.VALID_DIRECTIONS) {
	if (toLocal(side) == serverSide) sidedNode(side).connect(serverNode)
	else sidedNode(side).disconnect(serverNode)
	}
	case _ =>
	}
	}

	// ----------------------------------------------------------------------- //

	override protected def distribute() = {
	def node(side: Int) = sides(side) match {
	case None \| Some(ForgeDirection.UNKNOWN) => servers(side).fold(null: Connector)(_.machine.node.asInstanceOf[Connector])
	case _ => null
	}
	val nodes = (0 to 3).map(node)
	def network(connector: Connector) = if (connector != null && connector.network != null) connector.network else this
	val (sumBuffer, sumSize) = super.distribute()
	var sumBufferServers, sumSizeServers = 0.0
	network(nodes(0)).synchronized {
	network(nodes(1)).synchronized {
	network(nodes(2)).synchronized {
	network(nodes(3)).synchronized {
	for (node <- nodes if node != null) {
	sumBufferServers += node.globalBuffer
	sumSizeServers += node.globalBufferSize
	}
	if (sumSize + sumSizeServers > 0) {
	val ratio = (sumBuffer + sumBufferServers) / (sumSize + sumSizeServers)
	for (node <- nodes if node != null) {
	node.changeBuffer(node.globalBufferSize * ratio - node.globalBuffer)
	}
	}
	}
	}
	}
	}
	(sumBuffer + sumBufferServers, sumSize + sumSizeServers)
	}

	// ----------------------------------------------------------------------- //

	override protected def relayPacket(sourceSide: Option[ForgeDirection], packet: Packet) {
	if (internalSwitch) {
	for (slot <- 0 until servers.length) {
	val side = sides(slot).map(toGlobal)
	if (side != sourceSide) {
	servers(slot) match {
	case Some(server) => server.machine.node.sendToNeighbors("network.message", packet)
	case _ =>
	}
	}
	}
	}
	else super.relayPacket(sourceSide, packet)
	}

	override protected def onPlugMessage(plug: Plug, message: Message) {
	// This check is a little hacky. Basically what we test here is whether
	// the message was relayed internally, because only internally relayed
	// network messages originate from the actual server nodes themselves.
	// The otherwise come from the network card.
	if (message.name != "network.message" \|\| !(servers collect {
	case Some(server) => server.machine.node
	}).contains(message.source)) super.onPlugMessage(plug, message)
	}

	// ----------------------------------------------------------------------- //

	override def getSizeInventory = 4

	override def getInventoryStackLimit = 1

	override def isItemValidForSlot(i: Int, stack: ItemStack) = {
	val descriptor = api.Items.get(stack)
	descriptor == api.Items.get("server1") \|\|
	descriptor == api.Items.get("server2") \|\|
	descriptor == api.Items.get("server3") \|\|
	descriptor == api.Items.get("serverCreative")
	}

	// ----------------------------------------------------------------------- //

	override def onAnalyze(player: EntityPlayer, side: Int, hitX: Float, hitY: Float, hitZ: Float) = {
	slotAt(ForgeDirection.getOrientation(side), hitX, hitY, hitZ) match {
	case Some(slot) => servers(slot) match {
	case Some(server) =>
	val computer = server.machine
	computer.lastError match {
	case value if value != null =>
	player.addChatMessage(Localization.Analyzer.LastError(value))
	case _ =>
	}
	player.addChatMessage(Localization.Analyzer.Components(computer.componentCount, computer.maxComponents))
	val list = computer.users
	if (list.size > 0) {
	player.addChatMessage(Localization.Analyzer.Users(list))
	}
	Array(computer.node)
	case _ => null
	}
	case _ => Array(sidedNode(ForgeDirection.getOrientation(side)))
	}
	}

	def slotAt(side: ForgeDirection, hitX: Float, hitY: Float, hitZ: Float) = {
	if (side == facing) {
	val l = 2 / 16.0
	val h = 14 / 16.0
	val slot = (((1 - hitY) - l) / (h - l) * 4).toInt
	Some(math.max(0, math.min(servers.length - 1, slot)))
	}
	else None
	}

	// ----------------------------------------------------------------------- //

	override def canUpdate = isServer

	override def updateEntity() {
	super.updateEntity()
	if (isServer && isConnected) {
	val shouldUpdatePower = world.getTotalWorldTime % Settings.get.tickFrequency == 0
	if (shouldUpdatePower && range > 0 && !Settings.get.ignorePower) {
	val countRunning = servers.count {
	case Some(server) => server.machine.isRunning
	case _ => false
	}
	if (countRunning > 0) {
	var cost = -(countRunning * range * Settings.get.wirelessCostPerRange * Settings.get.tickFrequency)
	for (side <- ForgeDirection.VALID_DIRECTIONS if cost < 0) {
	sidedNode(side) match {
	case connector: Connector => cost = connector.changeBuffer(cost)
	case _ =>
	}
	}
	}
	}

	servers collect {
	case Some(server) =>
	if (shouldUpdatePower && server.tier == Tier.Four) {
	server.machine.node.asInstanceOf[Connector].changeBuffer(Double.PositiveInfinity)
	}
	server.machine.update()
	}

	if (markChunkDirty) {
	markChunkDirty = false
	world.markTileEntityChunkModified(x, y, z, this)
	}

	for (i <- 0 until servers.length) {
	val isRunning = servers(i).fold(false)(_.machine.isRunning)
	if (_isRunning(i) != isRunning) {
	_isRunning(i) = isRunning
	ServerPacketSender.sendServerState(this, i)
	world.notifyBlocksOfNeighborChange(x, y, z, block)
	}
	}
	isOutputEnabled = hasRedstoneCard
	isAbstractBusAvailable = hasAbstractBusCard

	servers collect {
	case Some(server) =>
	server.inventory.updateComponents()
	terminals(server.slot).buffer.update()
	}
	}
	}

	// ----------------------------------------------------------------------- //

	override protected def initialize() {
	super.initialize()
	if (isClient) {
	ServerRack.list += this -> Unit
	}
	}

	override def dispose() {
	super.dispose()
	if (isClient) {
	ServerRack.list -= this
	}
	}

	override def readFromNBT(nbt: NBTTagCompound) {
	super.readFromNBT(nbt)
	for (slot <- 0 until getSizeInventory) {
	if (getStackInSlot(slot) != null) {
	val server = new component.Server(this, slot)
	servers(slot) = Option(server)
	}
	}
	nbt.getTagList(Settings.namespace + "servers", NBT.TAG_COMPOUND).toArray[NBTTagCompound].
	zipWithIndex.foreach {
	case (tag, index) if index < servers.length =>
	servers(index) match {
	case Some(server) =>
	try server.load(tag) catch {
	case t: Throwable => OpenComputers.log.warn("Failed restoring server state. Please report this!", t)
	}
	case _ =>
	}
	case _ =>
	}
	val sidesNbt = nbt.getByteArray(Settings.namespace + "sides").map {
	case side if side >= 0 => Option(ForgeDirection.getOrientation(side))
	case _ => None
	}
	Array.copy(sidesNbt, 0, sides, 0, math.min(sidesNbt.length, sides.length))
	nbt.getTagList(Settings.namespace + "terminals", NBT.TAG_COMPOUND).toArray[NBTTagCompound].
	zipWithIndex.foreach {
	case (tag, index) if index < terminals.length =>
	try terminals(index).load(tag) catch {
	case t: Throwable => OpenComputers.log.warn("Failed restoring terminal state. Please report this!", t)
	}
	case _ =>
	}
	range = nbt.getInteger(Settings.namespace + "range")
	internalSwitch = nbt.getBoolean(Settings.namespace + "internalSwitch")

	// Kickstart initialization to avoid values getting overwritten by
	// readFromNBTForClient if that packet is handled after a manual
	// initialization / state change packet.
	for (i <- 0 until servers.length) {
	val isRunning = servers(i).fold(false)(_.machine.isRunning)
	_isRunning(i) = isRunning
	}
	_isOutputEnabled = hasRedstoneCard
	_isAbstractBusAvailable = hasAbstractBusCard
	}

	// Side check for Waila (and other mods that may call this client side).
	override def writeToNBT(nbt: NBTTagCompound) = if (isServer) {
	if (!Waila.isSavingForTooltip) {
	nbt.setNewTagList(Settings.namespace + "servers", servers map {
	case Some(server) =>
	val serverNbt = new NBTTagCompound()
	try server.save(serverNbt) catch {
	case t: Throwable => OpenComputers.log.warn("Failed saving server state. Please report this!", t)
	}
	serverNbt
	case _ => new NBTTagCompound()
	})
	}
	super.writeToNBT(nbt)
	nbt.setByteArray(Settings.namespace + "sides", sides.map {
	case Some(side) => side.ordinal.toByte
	case _ => -1: Byte
	})
	nbt.setNewTagList(Settings.namespace + "terminals", terminals.map(t => {
	val terminalNbt = new NBTTagCompound()
	try t.save(terminalNbt) catch {
	case t: Throwable => OpenComputers.log.warn("Failed saving terminal state. Please report this!", t)
	}
	terminalNbt
	}))
	nbt.setInteger(Settings.namespace + "range", range)
	nbt.setBoolean(Settings.namespace + "internalSwitch", internalSwitch)
	}

	@SideOnly(Side.CLIENT)
	override def readFromNBTForClient(nbt: NBTTagCompound) {
	super.readFromNBTForClient(nbt)
	val isRunningNbt = nbt.getBooleanArray("isServerRunning")
	Array.copy(isRunningNbt, 0, _isRunning, 0, math.min(isRunningNbt.length, _isRunning.length))
	val isPresentNbt = nbt.getTagList("isPresent", NBT.TAG_STRING).map((tag: NBTTagString) => {
	val value = tag.func_150285_a_()
	if (Strings.isNullOrEmpty(value)) None else Some(value)
	}).toArray
	Array.copy(isPresentNbt, 0, isPresent, 0, math.min(isPresentNbt.length, isPresent.length))
	val sidesNbt = nbt.getByteArray("sides").map {
	case side if side >= 0 => Option(ForgeDirection.getOrientation(side))
	case _ => None
	}
	Array.copy(sidesNbt, 0, sides, 0, math.min(sidesNbt.length, sides.length))
	nbt.getTagList("terminals", NBT.TAG_COMPOUND).toArray[NBTTagCompound].
	zipWithIndex.foreach {
	case (tag, index) if index < terminals.length => terminals(index).readFromNBTForClient(tag)
	case _ =>
	}
	range = nbt.getInteger("range")
	if (anyRunning) Sound.startLoop(this, "computer_running", 1.5f, 1000 + world.rand.nextInt(2000))
	}

	override def writeToNBTForClient(nbt: NBTTagCompound) {
	super.writeToNBTForClient(nbt)
	nbt.setBooleanArray("isServerRunning", _isRunning)
	nbt.setNewTagList("isPresent", servers.map(value => new NBTTagString(value.fold("")(_.machine.node.address))))
	nbt.setByteArray("sides", sides.map {
	case Some(side) => side.ordinal.toByte
	case _ => -1: Byte
	})
	nbt.setNewTagList("terminals", terminals.map(t => {
	val terminalNbt = new NBTTagCompound()
	t.writeToNBTForClient(terminalNbt)
	terminalNbt
	}))
	nbt.setInteger("range", range)
	}

	// ----------------------------------------------------------------------- //

	override protected def onPlugConnect(plug: Plug, node: Node) {
	if (node == plug.node) {
	for (number <- 0 until servers.length) {
	val serverSide = sides(number).map(toGlobal)
	servers(number) match {
	case Some(server) =>
	if (serverSide == Option(plug.side)) plug.node.connect(server.machine.node)
	else api.Network.joinNewNetwork(server.machine.node)
	terminals(number).connect(server.machine.node)
	case _ =>
	}
	}
	}
	}

	override protected def createNode(plug: Plug) = api.Network.newNode(plug, Visibility.Network).
	withConnector(Settings.get.bufferDistributor).
	create()

	override protected def onItemAdded(slot: Int, stack: ItemStack) {
	super.onItemAdded(slot, stack)
	if (isServer) {
	val server = new component.Server(this, slot)
	servers(slot) = Some(server)
	reconnectServer(slot, server)
	Network.joinNewNetwork(server.machine.node)
	terminals(slot).connect(server.machine.node)
	}
	}

	override protected def onItemRemoved(slot: Int, stack: ItemStack) {
	super.onItemRemoved(slot, stack)
	if (isServer) {
	servers(slot) match {
	case Some(server) =>
	server.machine.node.remove()
	server.inventory.containerOverride = stack
	server.inventory.save(new NBTTagCompound()) // Only flush components.
	server.inventory.markDirty()
	case _ =>
	}
	servers(slot) = None
	terminals(slot).keys.clear()
	}
	}

	override def markDirty() {
	super.markDirty()
	if (isServer) {
	isOutputEnabled = hasRedstoneCard
	isAbstractBusAvailable = hasAbstractBusCard
	ServerPacketSender.sendServerPresence(this)
	}
	else {
	world.markBlockForUpdate(x, y, z)
	}
	}

	override protected def onRotationChanged() {
	super.onRotationChanged()
	checkRedstoneInputChanged()
	}

	override protected def onRedstoneInputChanged(side: ForgeDirection, oldMaxValue: Int, newMaxValue: Int) {
	super.onRedstoneInputChanged(side, oldMaxValue, newMaxValue)
	servers collect {
	case Some(server) => server.machine.node.sendToNeighbors("redstone.changed", toLocal(side), int2Integer(oldMaxValue), int2Integer(newMaxValue))
	}
	}

	override def rotate(axis: ForgeDirection) = false
	}

	object ServerRack {
	val list = mutable.WeakHashMap.empty[ServerRack, Unit]

	@SubscribeEvent
	def onWorldUnload(e: WorldEvent.Unload) {
	if (e.world.isRemote) {
	list.clear()
	}
	}
	}