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

 package li.cil.oc.common.tileentity

 import java.util

 import cpw.mods.fml.relauncher.Side
 import cpw.mods.fml.relauncher.SideOnly
 import li.cil.oc.Settings
 import li.cil.oc.api
 import li.cil.oc.api.machine.Arguments
 import li.cil.oc.api.machine.Callback
 import li.cil.oc.api.machine.Context
 import li.cil.oc.api.network._
 import li.cil.oc.common.item.data.PrintData
 import li.cil.oc.server.{PacketSender => ServerPacketSender}
 import li.cil.oc.util.ExtendedNBT._
 import net.minecraft.inventory.ISidedInventory
 import net.minecraft.item.ItemStack
 import net.minecraft.nbt.NBTTagCompound
 import net.minecraft.util.AxisAlignedBB
 import net.minecraftforge.common.util.ForgeDirection

 class Printer extends traits.Environment with traits.Inventory with traits.Rotatable with SidedEnvironment with traits.StateAware with ISidedInventory {
   val node = api.Network.newNode(this, Visibility.Network).
     withComponent("printer3d").
     withConnector(Settings.get.bufferConverter).
     create()

   val maxAmountMaterial = 256000
   var amountMaterial = 0
   val maxAmountInk = 100000
   var amountInk = 0

   var data = new PrintData()
   var isActive = false
   var limit = 0
   var output: Option[ItemStack] = None
   var totalRequiredEnergy = 0.0
   var requiredEnergy = 0.0

   val slotMaterial = 0
   val slotInk = 1
   val slotOutput = 2

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

   @SideOnly(Side.CLIENT)
   override def canConnect(side: ForgeDirection) = side != ForgeDirection.UP

   override def sidedNode(side: ForgeDirection) = if (side != ForgeDirection.UP) node else null

   override def getCurrentState = {
     if (isPrinting) util.EnumSet.of(api.util.StateAware.State.IsWorking)
     else if (canPrint) util.EnumSet.of(api.util.StateAware.State.CanWork)
     else util.EnumSet.noneOf(classOf[api.util.StateAware.State])
   }

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

   def canPrint = data.stateOff.nonEmpty && data.stateOff.size <= Settings.get.maxPrintComplexity && data.stateOn.size <= Settings.get.maxPrintComplexity

   def isPrinting = output.isDefined

   def progress = (1 - requiredEnergy / totalRequiredEnergy) * 100

   def timeRemaining = (requiredEnergy / Settings.get.assemblerTickAmount / 20).toInt

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

   @Callback(doc = """function() -- Resets the configuration of the printer and stop printing (current job will finish).""")
   def reset(context: Context, args: Arguments): Array[Object] = {
     data = new PrintData()
     isActive = false // Needs committing.
     null
   }

   @Callback(doc = """function(value:string) -- Set a label for the block being printed.""")
   def setLabel(context: Context, args: Arguments): Array[Object] = {
     data.label = Option(args.optString(0, null)).map(_.take(24))
     if (data.label.fold(false)(_.isEmpty)) data.label = None
     isActive = false // Needs committing.
     null
   }

   @Callback(doc = """function():string -- Get the current label for the block being printed.""")
   def getLabel(context: Context, args: Arguments): Array[Object] = {
     result(data.label.orNull)
   }

   @Callback(doc = """function(value:string) -- Set a tooltip for the block being printed.""")
   def setTooltip(context: Context, args: Arguments): Array[Object] = {
     data.tooltip = Option(args.optString(0, null)).map(_.take(128))
     if (data.tooltip.fold(false)(_.isEmpty)) data.tooltip = None
     isActive = false // Needs committing.
     null
   }

   @Callback(doc = """function():string -- Get the current tooltip for the block being printed.""")
   def getTooltip(context: Context, args: Arguments): Array[Object] = {
     result(data.tooltip.orNull)
   }

   @Callback(doc = """function(value:number) -- Set what light level the printed block should have.""")
   def setLightLevel(context: Context, args: Arguments): Array[Object] = {
     data.lightLevel = args.checkInteger(0) max 0 min Settings.get.maxPrintLightLevel
     isActive = false // Needs committing.
     null
   }

   @Callback(doc = """function():number -- Get which light level the printed block should have.""")
   def getLightLevel(context: Context, args: Arguments): Array[Object] = {
     result(data.lightLevel)
   }

   @Callback(doc = """function(value:boolean or number) -- Set whether the printed block should emit redstone when in its active state.""")
   def setRedstoneEmitter(context: Context, args: Arguments): Array[Object] = {
     if (args.isBoolean(0)) data.redstoneLevel = if (args.checkBoolean(0)) 15 else 0
     else data.redstoneLevel = args.checkInteger(0) max 0 min 15
     isActive = false // Needs committing.
     null
   }

   @Callback(doc = """function():boolean, number -- Get whether the printed block should emit redstone when in its active state.""")
   def isRedstoneEmitter(context: Context, args: Arguments): Array[Object] = {
     result(data.emitRedstone, data.redstoneLevel)
   }

   @Callback(doc = """function(value:boolean) -- Set whether the printed block should automatically return to its off state.""")
   def setButtonMode(context: Context, args: Arguments): Array[Object] = {
     data.isButtonMode = args.checkBoolean(0)
     isActive = false // Needs committing.
     null
   }

   @Callback(doc = """function():boolean -- Get whether the printed block should automatically return to its off state.""")
   def isButtonMode(context: Context, args: Arguments): Array[Object] = {
     result(data.isButtonMode)
   }

   @Callback(doc = """function(collideOff:boolean, collideOn:boolean) -- Set whether the printed block should be collidable or not.""")
   def setCollidable(context: Context, args: Arguments): Array[Object] = {
     val (collideOff, collideOn) = (args.checkBoolean(0), args.checkBoolean(1))
     data.noclipOff = !collideOff
     data.noclipOn = !collideOn
     null
   }

   @Callback(doc = """function():boolean, boolean -- Get whether the printed block should be collidable or not.""")
   def isCollidable(context: Context, args: Arguments): Array[Object] = {
     result(!data.noclipOff, !data.noclipOn)
   }

   @Callback(doc = """function(minX:number, minY:number, minZ:number, maxX:number, maxY:number, maxZ:number, texture:string[, state:boolean=false][,tint:number]) -- Adds a shape to the printers configuration, optionally specifying whether it is for the off or on state.""")
   def addShape(context: Context, args: Arguments): Array[Object] = {
     if (data.stateOff.size > Settings.get.maxPrintComplexity || data.stateOn.size > Settings.get.maxPrintComplexity) {
       return result(Unit, "model too complex")
     }
     val minX = (args.checkInteger(0) max 0 min 16) / 16f
     val minY = (args.checkInteger(1) max 0 min 16) / 16f
     val minZ = (16 - (args.checkInteger(2) max 0 min 16)) / 16f
     val maxX = (args.checkInteger(3) max 0 min 16) / 16f
     val maxY = (args.checkInteger(4) max 0 min 16) / 16f
     val maxZ = (16 - (args.checkInteger(5) max 0 min 16)) / 16f
     val texture = args.checkString(6).take(64)
     val state = if (args.isBoolean(7)) args.checkBoolean(7) else false
     val tint = if (args.isInteger(7)) Option(args.checkInteger(7)) else if (args.isInteger(8)) Option(args.checkInteger(8)) else None

     if (minX == maxX) throw new IllegalArgumentException("empty block")
     if (minY == maxY) throw new IllegalArgumentException("empty block")
     if (minZ == maxZ) throw new IllegalArgumentException("empty block")

     val list = if (state) data.stateOn else data.stateOff
     list += new PrintData.Shape(AxisAlignedBB.getBoundingBox(
       math.min(minX, maxX),
       math.min(minY, maxY),
       math.min(minZ, maxZ),
       math.max(maxX, minX),
       math.max(maxY, minY),
       math.max(maxZ, minZ)),
       texture, tint)
     isActive = false // Needs committing.

     world.markBlockForUpdate(x, y, z)

     result(true)
   }

   @Callback(doc = """function():number -- Get the number of shapes in the current configuration.""")
   def getShapeCount(context: Context, args: Arguments): Array[Object] = result(data.stateOff.size, data.stateOn.size)

   @Callback(doc = """function():number -- Get the maximum allowed number of shapes.""")
   def getMaxShapeCount(context: Context, args: Arguments): Array[Object] = result(Settings.get.maxPrintComplexity)

   @Callback(doc = """function([count:number]):boolean -- Commit and begin printing the current configuration.""")
   def commit(context: Context, args: Arguments): Array[Object] = {
     if (!canPrint) {
       return result(Unit, "model invalid")
     }
     limit = (args.optDouble(0, 1) max 0 min Integer.MAX_VALUE).toInt
     isActive = limit > 0
     result(true)
   }

   @Callback(doc = """function(): string, number or boolean -- The current state of the printer, `busy' or `idle', followed by the progress or model validity, respectively.""")
   def status(context: Context, args: Arguments): Array[Object] = {
     if (isPrinting) result("busy", progress)
     else if (canPrint) result("idle", true)
     else result("idle", false)
   }

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

   override def canUpdate = isServer

   override def updateEntity() {
     super.updateEntity()

     def canMergeOutput = {
       val presentStack = getStackInSlot(slotOutput)
       val outputStack = data.createItemStack()
       presentStack == null || (presentStack.isItemEqual(outputStack) && ItemStack.areItemStackTagsEqual(presentStack, outputStack))
     }

     if (isActive && output.isEmpty && canMergeOutput) {
       PrintData.computeCosts(data) match {
         case Some((materialRequired, inkRequired)) =>
           totalRequiredEnergy = Settings.get.printCost
           requiredEnergy = totalRequiredEnergy

           if (amountMaterial >= materialRequired && amountInk >= inkRequired) {
             amountMaterial -= materialRequired
             amountInk -= inkRequired
             limit -= 1
             output = Option(data.createItemStack())
             if (limit < 1) isActive = false
             ServerPacketSender.sendPrinting(this, printing = true)
           }
         case _ =>
           isActive = false
           data = new PrintData()
       }
     }

     if (output.isDefined) {
       val want = math.max(1, math.min(requiredEnergy, Settings.get.printerTickAmount))
       val have = want + (if (Settings.get.ignorePower) 0 else node.changeBuffer(-want))
       requiredEnergy -= have
       if (requiredEnergy <= 0) {
         val result = getStackInSlot(slotOutput)
         if (result == null) {
           setInventorySlotContents(slotOutput, output.get)
         }
         else if (result.stackSize < result.getMaxStackSize && canMergeOutput /* Should never fail, but just in case... */ ) {
           result.stackSize += 1
           markDirty()
         }
         else {
           return
         }
         requiredEnergy = 0
         output = None
       }
       ServerPacketSender.sendPrinting(this, have > 0.5 && output.isDefined)
     }

     val inputValue = PrintData.materialValue(getStackInSlot(slotMaterial))
     if (inputValue > 0 && maxAmountMaterial - amountMaterial >= inputValue) {
       val material = decrStackSize(slotMaterial, 1)
       if (material != null) {
         amountMaterial += inputValue
       }
     }

     val inkValue = PrintData.inkValue(getStackInSlot(slotInk))
     if (inkValue > 0 && maxAmountInk - amountInk >= inkValue) {
       val material = decrStackSize(slotInk, 1)
       if (material != null) {
         amountInk += inkValue
         if (material.getItem.hasContainerItem(material)) {
           setInventorySlotContents(slotInk, material.getItem.getContainerItem(material))
         }
       }
     }
   }

   override def readFromNBTForServer(nbt: NBTTagCompound) {
     super.readFromNBTForServer(nbt)
     amountMaterial = nbt.getInteger(Settings.namespace + "amountMaterial")
     amountInk = nbt.getInteger(Settings.namespace + "amountInk")
     data.load(nbt.getCompoundTag(Settings.namespace + "data"))
     isActive = nbt.getBoolean(Settings.namespace + "active")
     limit = nbt.getInteger(Settings.namespace + "limit")
     if (nbt.hasKey(Settings.namespace + "output")) {
       output = Option(ItemStack.loadItemStackFromNBT(nbt.getCompoundTag(Settings.namespace + "output")))
     }
     totalRequiredEnergy = nbt.getDouble(Settings.namespace + "total")
     requiredEnergy = nbt.getDouble(Settings.namespace + "remaining")
   }

   override def writeToNBTForServer(nbt: NBTTagCompound) {
     super.writeToNBTForServer(nbt)
     nbt.setInteger(Settings.namespace + "amountMaterial", amountMaterial)
     nbt.setInteger(Settings.namespace + "amountInk", amountInk)
     nbt.setNewCompoundTag(Settings.namespace + "data", data.save)
     nbt.setBoolean(Settings.namespace + "active", isActive)
     nbt.setInteger(Settings.namespace + "limit", limit)
     output.foreach(stack => nbt.setNewCompoundTag(Settings.namespace + "output", stack.writeToNBT))
     nbt.setDouble(Settings.namespace + "total", totalRequiredEnergy)
     nbt.setDouble(Settings.namespace + "remaining", requiredEnergy)
   }

   @SideOnly(Side.CLIENT) override
   def readFromNBTForClient(nbt: NBTTagCompound) {
     super.readFromNBTForClient(nbt)
     data.load(nbt.getCompoundTag(Settings.namespace + "data"))
     requiredEnergy = nbt.getDouble("remaining")
   }

   override def writeToNBTForClient(nbt: NBTTagCompound) {
     super.writeToNBTForClient(nbt)
     nbt.setNewCompoundTag(Settings.namespace + "data", data.save)
     nbt.setDouble("remaining", requiredEnergy)
   }

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

   override def getSizeInventory = 3

   override def isItemValidForSlot(slot: Int, stack: ItemStack) =
     if (slot == slotMaterial)
       PrintData.materialValue(stack) > 0
     else if (slot == slotInk)
       PrintData.inkValue(stack) > 0
     else false

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

   override def getAccessibleSlotsFromSide(side: Int): Array[Int] = Array(slotMaterial, slotInk, slotOutput)

   override def canExtractItem(slot: Int, stack: ItemStack, side: Int): Boolean = !isItemValidForSlot(slot, stack)

   override def canInsertItem(slot: Int, stack: ItemStack, side: Int): Boolean = slot != slotOutput
 }
	package li.cil.oc.common.tileentity

	import java.util

	import cpw.mods.fml.relauncher.Side
	import cpw.mods.fml.relauncher.SideOnly
	import li.cil.oc.Settings
	import li.cil.oc.api
	import li.cil.oc.api.machine.Arguments
	import li.cil.oc.api.machine.Callback
	import li.cil.oc.api.machine.Context
	import li.cil.oc.api.network._
	import li.cil.oc.common.item.data.PrintData
	import li.cil.oc.server.{PacketSender => ServerPacketSender}
	import li.cil.oc.util.ExtendedNBT._
	import net.minecraft.inventory.ISidedInventory
	import net.minecraft.item.ItemStack
	import net.minecraft.nbt.NBTTagCompound
	import net.minecraft.util.AxisAlignedBB
	import net.minecraftforge.common.util.ForgeDirection

	class Printer extends traits.Environment with traits.Inventory with traits.Rotatable with SidedEnvironment with traits.StateAware with ISidedInventory {
	val node = api.Network.newNode(this, Visibility.Network).
	withComponent("printer3d").
	withConnector(Settings.get.bufferConverter).
	create()

	val maxAmountMaterial = 256000
	var amountMaterial = 0
	val maxAmountInk = 100000
	var amountInk = 0

	var data = new PrintData()
	var isActive = false
	var limit = 0
	var output: Option[ItemStack] = None
	var totalRequiredEnergy = 0.0
	var requiredEnergy = 0.0

	val slotMaterial = 0
	val slotInk = 1
	val slotOutput = 2

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

	@SideOnly(Side.CLIENT)
	override def canConnect(side: ForgeDirection) = side != ForgeDirection.UP

	override def sidedNode(side: ForgeDirection) = if (side != ForgeDirection.UP) node else null

	override def getCurrentState = {
	if (isPrinting) util.EnumSet.of(api.util.StateAware.State.IsWorking)
	else if (canPrint) util.EnumSet.of(api.util.StateAware.State.CanWork)
	else util.EnumSet.noneOf(classOf[api.util.StateAware.State])
	}

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

	def canPrint = data.stateOff.nonEmpty && data.stateOff.size <= Settings.get.maxPrintComplexity && data.stateOn.size <= Settings.get.maxPrintComplexity

	def isPrinting = output.isDefined

	def progress = (1 - requiredEnergy / totalRequiredEnergy) * 100

	def timeRemaining = (requiredEnergy / Settings.get.assemblerTickAmount / 20).toInt

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

	@Callback(doc = """function() -- Resets the configuration of the printer and stop printing (current job will finish).""")
	def reset(context: Context, args: Arguments): Array[Object] = {
	data = new PrintData()
	isActive = false // Needs committing.
	null
	}

	@Callback(doc = """function(value:string) -- Set a label for the block being printed.""")
	def setLabel(context: Context, args: Arguments): Array[Object] = {
	data.label = Option(args.optString(0, null)).map(_.take(24))
	if (data.label.fold(false)(_.isEmpty)) data.label = None
	isActive = false // Needs committing.
	null
	}

	@Callback(doc = """function():string -- Get the current label for the block being printed.""")
	def getLabel(context: Context, args: Arguments): Array[Object] = {
	result(data.label.orNull)
	}

	@Callback(doc = """function(value:string) -- Set a tooltip for the block being printed.""")
	def setTooltip(context: Context, args: Arguments): Array[Object] = {
	data.tooltip = Option(args.optString(0, null)).map(_.take(128))
	if (data.tooltip.fold(false)(_.isEmpty)) data.tooltip = None
	isActive = false // Needs committing.
	null
	}

	@Callback(doc = """function():string -- Get the current tooltip for the block being printed.""")
	def getTooltip(context: Context, args: Arguments): Array[Object] = {
	result(data.tooltip.orNull)
	}

	@Callback(doc = """function(value:number) -- Set what light level the printed block should have.""")
	def setLightLevel(context: Context, args: Arguments): Array[Object] = {
	data.lightLevel = args.checkInteger(0) max 0 min Settings.get.maxPrintLightLevel
	isActive = false // Needs committing.
	null
	}

	@Callback(doc = """function():number -- Get which light level the printed block should have.""")
	def getLightLevel(context: Context, args: Arguments): Array[Object] = {
	result(data.lightLevel)
	}

	@Callback(doc = """function(value:boolean or number) -- Set whether the printed block should emit redstone when in its active state.""")
	def setRedstoneEmitter(context: Context, args: Arguments): Array[Object] = {
	if (args.isBoolean(0)) data.redstoneLevel = if (args.checkBoolean(0)) 15 else 0
	else data.redstoneLevel = args.checkInteger(0) max 0 min 15
	isActive = false // Needs committing.
	null
	}

	@Callback(doc = """function():boolean, number -- Get whether the printed block should emit redstone when in its active state.""")
	def isRedstoneEmitter(context: Context, args: Arguments): Array[Object] = {
	result(data.emitRedstone, data.redstoneLevel)
	}

	@Callback(doc = """function(value:boolean) -- Set whether the printed block should automatically return to its off state.""")
	def setButtonMode(context: Context, args: Arguments): Array[Object] = {
	data.isButtonMode = args.checkBoolean(0)
	isActive = false // Needs committing.
	null
	}

	@Callback(doc = """function():boolean -- Get whether the printed block should automatically return to its off state.""")
	def isButtonMode(context: Context, args: Arguments): Array[Object] = {
	result(data.isButtonMode)
	}

	@Callback(doc = """function(collideOff:boolean, collideOn:boolean) -- Set whether the printed block should be collidable or not.""")
	def setCollidable(context: Context, args: Arguments): Array[Object] = {
	val (collideOff, collideOn) = (args.checkBoolean(0), args.checkBoolean(1))
	data.noclipOff = !collideOff
	data.noclipOn = !collideOn
	null
	}

	@Callback(doc = """function():boolean, boolean -- Get whether the printed block should be collidable or not.""")
	def isCollidable(context: Context, args: Arguments): Array[Object] = {
	result(!data.noclipOff, !data.noclipOn)
	}

	@Callback(doc = """function(minX:number, minY:number, minZ:number, maxX:number, maxY:number, maxZ:number, texture:string[, state:boolean=false][,tint:number]) -- Adds a shape to the printers configuration, optionally specifying whether it is for the off or on state.""")
	def addShape(context: Context, args: Arguments): Array[Object] = {
	if (data.stateOff.size > Settings.get.maxPrintComplexity \|\| data.stateOn.size > Settings.get.maxPrintComplexity) {
	return result(Unit, "model too complex")
	}
	val minX = (args.checkInteger(0) max 0 min 16) / 16f
	val minY = (args.checkInteger(1) max 0 min 16) / 16f
	val minZ = (16 - (args.checkInteger(2) max 0 min 16)) / 16f
	val maxX = (args.checkInteger(3) max 0 min 16) / 16f
	val maxY = (args.checkInteger(4) max 0 min 16) / 16f
	val maxZ = (16 - (args.checkInteger(5) max 0 min 16)) / 16f
	val texture = args.checkString(6).take(64)
	val state = if (args.isBoolean(7)) args.checkBoolean(7) else false
	val tint = if (args.isInteger(7)) Option(args.checkInteger(7)) else if (args.isInteger(8)) Option(args.checkInteger(8)) else None

	if (minX == maxX) throw new IllegalArgumentException("empty block")
	if (minY == maxY) throw new IllegalArgumentException("empty block")
	if (minZ == maxZ) throw new IllegalArgumentException("empty block")

	val list = if (state) data.stateOn else data.stateOff
	list += new PrintData.Shape(AxisAlignedBB.getBoundingBox(
	math.min(minX, maxX),
	math.min(minY, maxY),
	math.min(minZ, maxZ),
	math.max(maxX, minX),
	math.max(maxY, minY),
	math.max(maxZ, minZ)),
	texture, tint)
	isActive = false // Needs committing.

	world.markBlockForUpdate(x, y, z)

	result(true)
	}

	@Callback(doc = """function():number -- Get the number of shapes in the current configuration.""")
	def getShapeCount(context: Context, args: Arguments): Array[Object] = result(data.stateOff.size, data.stateOn.size)

	@Callback(doc = """function():number -- Get the maximum allowed number of shapes.""")
	def getMaxShapeCount(context: Context, args: Arguments): Array[Object] = result(Settings.get.maxPrintComplexity)

	@Callback(doc = """function([count:number]):boolean -- Commit and begin printing the current configuration.""")
	def commit(context: Context, args: Arguments): Array[Object] = {
	if (!canPrint) {
	return result(Unit, "model invalid")
	}
	limit = (args.optDouble(0, 1) max 0 min Integer.MAX_VALUE).toInt
	isActive = limit > 0
	result(true)
	}

	@Callback(doc = """function(): string, number or boolean -- The current state of the printer, `busy' or `idle', followed by the progress or model validity, respectively.""")
	def status(context: Context, args: Arguments): Array[Object] = {
	if (isPrinting) result("busy", progress)
	else if (canPrint) result("idle", true)
	else result("idle", false)
	}

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

	override def canUpdate = isServer

	override def updateEntity() {
	super.updateEntity()

	def canMergeOutput = {
	val presentStack = getStackInSlot(slotOutput)
	val outputStack = data.createItemStack()
	presentStack == null \|\| (presentStack.isItemEqual(outputStack) && ItemStack.areItemStackTagsEqual(presentStack, outputStack))
	}

	if (isActive && output.isEmpty && canMergeOutput) {
	PrintData.computeCosts(data) match {
	case Some((materialRequired, inkRequired)) =>
	totalRequiredEnergy = Settings.get.printCost
	requiredEnergy = totalRequiredEnergy

	if (amountMaterial >= materialRequired && amountInk >= inkRequired) {
	amountMaterial -= materialRequired
	amountInk -= inkRequired
	limit -= 1
	output = Option(data.createItemStack())
	if (limit < 1) isActive = false
	ServerPacketSender.sendPrinting(this, printing = true)
	}
	case _ =>
	isActive = false
	data = new PrintData()
	}
	}

	if (output.isDefined) {
	val want = math.max(1, math.min(requiredEnergy, Settings.get.printerTickAmount))
	val have = want + (if (Settings.get.ignorePower) 0 else node.changeBuffer(-want))
	requiredEnergy -= have
	if (requiredEnergy <= 0) {
	val result = getStackInSlot(slotOutput)
	if (result == null) {
	setInventorySlotContents(slotOutput, output.get)
	}
	else if (result.stackSize < result.getMaxStackSize && canMergeOutput /* Should never fail, but just in case... */ ) {
	result.stackSize += 1
	markDirty()
	}
	else {
	return
	}
	requiredEnergy = 0
	output = None
	}
	ServerPacketSender.sendPrinting(this, have > 0.5 && output.isDefined)
	}

	val inputValue = PrintData.materialValue(getStackInSlot(slotMaterial))
	if (inputValue > 0 && maxAmountMaterial - amountMaterial >= inputValue) {
	val material = decrStackSize(slotMaterial, 1)
	if (material != null) {
	amountMaterial += inputValue
	}
	}

	val inkValue = PrintData.inkValue(getStackInSlot(slotInk))
	if (inkValue > 0 && maxAmountInk - amountInk >= inkValue) {
	val material = decrStackSize(slotInk, 1)
	if (material != null) {
	amountInk += inkValue
	if (material.getItem.hasContainerItem(material)) {
	setInventorySlotContents(slotInk, material.getItem.getContainerItem(material))
	}
	}
	}
	}

	override def readFromNBTForServer(nbt: NBTTagCompound) {
	super.readFromNBTForServer(nbt)
	amountMaterial = nbt.getInteger(Settings.namespace + "amountMaterial")
	amountInk = nbt.getInteger(Settings.namespace + "amountInk")
	data.load(nbt.getCompoundTag(Settings.namespace + "data"))
	isActive = nbt.getBoolean(Settings.namespace + "active")
	limit = nbt.getInteger(Settings.namespace + "limit")
	if (nbt.hasKey(Settings.namespace + "output")) {
	output = Option(ItemStack.loadItemStackFromNBT(nbt.getCompoundTag(Settings.namespace + "output")))
	}
	totalRequiredEnergy = nbt.getDouble(Settings.namespace + "total")
	requiredEnergy = nbt.getDouble(Settings.namespace + "remaining")
	}

	override def writeToNBTForServer(nbt: NBTTagCompound) {
	super.writeToNBTForServer(nbt)
	nbt.setInteger(Settings.namespace + "amountMaterial", amountMaterial)
	nbt.setInteger(Settings.namespace + "amountInk", amountInk)
	nbt.setNewCompoundTag(Settings.namespace + "data", data.save)
	nbt.setBoolean(Settings.namespace + "active", isActive)
	nbt.setInteger(Settings.namespace + "limit", limit)
	output.foreach(stack => nbt.setNewCompoundTag(Settings.namespace + "output", stack.writeToNBT))
	nbt.setDouble(Settings.namespace + "total", totalRequiredEnergy)
	nbt.setDouble(Settings.namespace + "remaining", requiredEnergy)
	}

	@SideOnly(Side.CLIENT) override
	def readFromNBTForClient(nbt: NBTTagCompound) {
	super.readFromNBTForClient(nbt)
	data.load(nbt.getCompoundTag(Settings.namespace + "data"))
	requiredEnergy = nbt.getDouble("remaining")
	}

	override def writeToNBTForClient(nbt: NBTTagCompound) {
	super.writeToNBTForClient(nbt)
	nbt.setNewCompoundTag(Settings.namespace + "data", data.save)
	nbt.setDouble("remaining", requiredEnergy)
	}

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

	override def getSizeInventory = 3

	override def isItemValidForSlot(slot: Int, stack: ItemStack) =
	if (slot == slotMaterial)
	PrintData.materialValue(stack) > 0
	else if (slot == slotInk)
	PrintData.inkValue(stack) > 0
	else false

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

	override def getAccessibleSlotsFromSide(side: Int): Array[Int] = Array(slotMaterial, slotInk, slotOutput)

	override def canExtractItem(slot: Int, stack: ItemStack, side: Int): Boolean = !isItemValidForSlot(slot, stack)

	override def canInsertItem(slot: Int, stack: ItemStack, side: Int): Boolean = slot != slotOutput
	}