src/main/scala/li/cil/oc/common/tileentity/Charger.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.Localization
 import li.cil.oc.Settings
 import li.cil.oc.api
 import li.cil.oc.api.Driver
 import li.cil.oc.api.nanomachines.Controller
 import li.cil.oc.api.network._
 import li.cil.oc.common.Slot
 import li.cil.oc.common.entity.Drone
 import li.cil.oc.integration.util.ItemCharge
 import li.cil.oc.server.{PacketSender => ServerPacketSender}
 import li.cil.oc.util.BlockPosition
 import li.cil.oc.util.ExtendedWorld._
 import net.minecraft.entity.player.EntityPlayer
 import net.minecraft.item.ItemStack
 import net.minecraft.nbt.NBTTagCompound
 import net.minecraft.util.Vec3
 import net.minecraftforge.common.util.ForgeDirection

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

 class Charger extends traits.Environment with traits.PowerAcceptor with traits.RedstoneAware with traits.Rotatable with traits.ComponentInventory with Analyzable with traits.StateAware {
   val node = api.Network.newNode(this, Visibility.None).
     withConnector(Settings.get.bufferConverter).
     create()

   val connectors = mutable.Set.empty[Chargeable]

   var chargeSpeed = 0.0

   var hasPower = false

   var invertSignal = false

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

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

   override protected def connector(side: ForgeDirection) = Option(if (side != facing) node else null)

   override def energyThroughput = Settings.get.chargerRate

   override def getCurrentState = {
     // TODO Refine to only report working if present robots/drones actually *need* power.
     if (connectors.nonEmpty) {
       if (hasPower) util.EnumSet.of(api.util.StateAware.State.IsWorking)
       else util.EnumSet.of(api.util.StateAware.State.CanWork)
     }
     else util.EnumSet.noneOf(classOf[api.util.StateAware.State])
   }

   override def onAnalyze(player: EntityPlayer, side: Int, hitX: Float, hitY: Float, hitZ: Float) = {
     player.addChatMessage(Localization.Analyzer.ChargerSpeed(chargeSpeed))
     null
   }

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

   override def canUpdate = true

   override def updateEntity() {
     super.updateEntity()

     // Offset by hashcode to avoid all chargers ticking at the same time.
     if ((world.getWorldInfo.getWorldTotalTime + math.abs(hashCode())) % 20 == 0) {
       updateConnectors()
     }

     if (isServer && world.getWorldInfo.getWorldTotalTime % Settings.get.tickFrequency == 0) {
       var canCharge = Settings.get.ignorePower

       // Charging of external devices.
       {
         val charge = Settings.get.chargeRateExternal * chargeSpeed * Settings.get.tickFrequency
         canCharge ||= charge > 0 && node.globalBuffer >= charge * 0.5
         if (canCharge) {
           connectors.foreach(connector => node.changeBuffer(connector.changeBuffer(charge + node.changeBuffer(-charge))))
         }
       }

       // Charging of internal devices.
       {
         val charge = Settings.get.chargeRateTablet * chargeSpeed * Settings.get.tickFrequency
         canCharge ||= charge > 0 && node.globalBuffer >= charge * 0.5
         if (canCharge) {
           (0 until getSizeInventory).map(getStackInSlot).foreach(stack => if (stack != null) {
             val offered = charge + node.changeBuffer(-charge)
             val surplus = ItemCharge.charge(stack, offered)
             node.changeBuffer(surplus)
           })
         }
       }

       if (hasPower && !canCharge) {
         hasPower = false
         ServerPacketSender.sendChargerState(this)
       }
       if (!hasPower && canCharge) {
         hasPower = true
         ServerPacketSender.sendChargerState(this)
       }
     }

     if (isClient && chargeSpeed > 0 && hasPower && world.getWorldInfo.getWorldTotalTime % 10 == 0) {
       connectors.foreach(connector => {
         val position = connector.pos
         val theta = world.rand.nextDouble * Math.PI
         val phi = world.rand.nextDouble * Math.PI * 2
         val dx = 0.45 * Math.sin(theta) * Math.cos(phi)
         val dy = 0.45 * Math.sin(theta) * Math.sin(phi)
         val dz = 0.45 * Math.cos(theta)
         world.spawnParticle("happyVillager", position.xCoord + dx, position.yCoord + dz, position.zCoord + dy, 0, 0, 0)
       })
     }
   }

   override def onConnect(node: Node) {
     super.onConnect(node)
     if (node == this.node) {
       onNeighborChanged()
     }
   }

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

   override def readFromNBTForServer(nbt: NBTTagCompound) {
     super.readFromNBTForServer(nbt)
     chargeSpeed = nbt.getDouble("chargeSpeed") max 0 min 1
     hasPower = nbt.getBoolean("hasPower")
     invertSignal = nbt.getBoolean("invertSignal")
   }

   override def writeToNBTForServer(nbt: NBTTagCompound) {
     super.writeToNBTForServer(nbt)
     nbt.setDouble("chargeSpeed", chargeSpeed)
     nbt.setBoolean("hasPower", hasPower)
     nbt.setBoolean("invertSignal", invertSignal)
   }

   @SideOnly(Side.CLIENT)
   override def readFromNBTForClient(nbt: NBTTagCompound) {
     super.readFromNBTForClient(nbt)
     chargeSpeed = nbt.getDouble("chargeSpeed")
     hasPower = nbt.getBoolean("hasPower")
   }

   override def writeToNBTForClient(nbt: NBTTagCompound) {
     super.writeToNBTForClient(nbt)
     nbt.setDouble("chargeSpeed", chargeSpeed)
     nbt.setBoolean("hasPower", hasPower)
   }

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

   override def isComponentSlot(slot: Int, stack: ItemStack): Boolean =
     super.isComponentSlot(slot, stack) && (Option(Driver.driverFor(stack, getClass)) match {
       case Some(driver) => driver.slot(stack) == Slot.Tablet
       case _ => false
     })

   override def getSizeInventory = 1

   override def isItemValidForSlot(slot: Int, stack: ItemStack) = (slot, Option(Driver.driverFor(stack, getClass))) match {
     case (0, Some(driver)) if driver.slot(stack) == Slot.Tablet => true
     case _ => ItemCharge.canCharge(stack)
   }

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

   override def updateRedstoneInput(side: ForgeDirection) {
     super.updateRedstoneInput(side)
     val signal = math.max(0, math.min(15, ForgeDirection.VALID_DIRECTIONS.map(input).max))

     if (invertSignal) chargeSpeed = (15 - signal) / 15.0
     else chargeSpeed = signal / 15.0
     if (isServer) {
       ServerPacketSender.sendChargerState(this)
     }
   }

   def onNeighborChanged() {
     checkRedstoneInputChanged()
     updateConnectors()
   }

   def updateConnectors() {
     val robots = ForgeDirection.VALID_DIRECTIONS.map(side => {
       val blockPos = BlockPosition(this).offset(side)
       if (world.blockExists(blockPos)) Option(world.getTileEntity(blockPos))
       else None
     }).collect {
       case Some(t: RobotProxy) => new RobotChargeable(t.robot)
     }

     val bounds = BlockPosition(this).bounds.expand(1, 1, 1)
     val drones = world.getEntitiesWithinAABB(classOf[Drone], bounds).collect {
       case drone: Drone => new DroneChargeable(drone)
     }

     val players = world.getEntitiesWithinAABB(classOf[EntityPlayer], bounds).collect {
       case player: EntityPlayer if api.Nanomachines.hasController(player) => new PlayerChargeable(player)
     }

     // Only update list when we have to, keeps pointless block updates to a minimum.

     val newConnectors = robots ++ drones ++ players
     if (connectors.size != newConnectors.length || (connectors.nonEmpty && (connectors -- newConnectors).nonEmpty)) {
       connectors.clear()
       connectors ++= newConnectors
       world.notifyBlocksOfNeighborChange(x, y, z, block)
     }
   }

   trait Chargeable {
     def pos: Vec3

     def changeBuffer(delta: Double): Double
   }

   abstract class ConnectorChargeable(val connector: Connector) extends Chargeable {
     override def changeBuffer(delta: Double): Double = connector.changeBuffer(delta)

     override def equals(obj: scala.Any): Boolean = obj match {
       case chargeable: ConnectorChargeable => chargeable.connector == connector
       case _ => false
     }
   }

   class RobotChargeable(val robot: Robot) extends ConnectorChargeable(robot.node.asInstanceOf[Connector]) {
     override def pos: Vec3 = BlockPosition(robot).toVec3

     override def equals(obj: scala.Any): Boolean = obj match {
       case chargeable: RobotChargeable => chargeable.robot == robot
       case _ => false
     }

     override def hashCode(): Int = robot.hashCode()
   }

   class DroneChargeable(val drone: Drone) extends ConnectorChargeable(drone.components.node.asInstanceOf[Connector]) {
     override def pos: Vec3 = Vec3.createVectorHelper(drone.posX, drone.posY, drone.posZ)

     override def equals(obj: scala.Any): Boolean = obj match {
       case chargeable: DroneChargeable => chargeable.drone == drone
       case _ => false
     }

     override def hashCode(): Int = drone.hashCode()
   }

   class PlayerChargeable(val player: EntityPlayer) extends Chargeable {
     override def pos: Vec3 = Vec3.createVectorHelper(player.posX, player.posY, player.posZ)

     override def changeBuffer(delta: Double): Double = {
       api.Nanomachines.getController(player) match {
         case controller: Controller => controller.changeBuffer(delta)
         case _ => delta // Cannot charge.
       }
     }

     override def equals(obj: scala.Any): Boolean = obj match {
       case chargeable: PlayerChargeable => chargeable.player == player
       case _ => false
     }

     override def hashCode(): Int = player.hashCode()
   }

 }
	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.Localization
	import li.cil.oc.Settings
	import li.cil.oc.api
	import li.cil.oc.api.Driver
	import li.cil.oc.api.nanomachines.Controller
	import li.cil.oc.api.network._
	import li.cil.oc.common.Slot
	import li.cil.oc.common.entity.Drone
	import li.cil.oc.integration.util.ItemCharge
	import li.cil.oc.server.{PacketSender => ServerPacketSender}
	import li.cil.oc.util.BlockPosition
	import li.cil.oc.util.ExtendedWorld._
	import net.minecraft.entity.player.EntityPlayer
	import net.minecraft.item.ItemStack
	import net.minecraft.nbt.NBTTagCompound
	import net.minecraft.util.Vec3
	import net.minecraftforge.common.util.ForgeDirection

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

	class Charger extends traits.Environment with traits.PowerAcceptor with traits.RedstoneAware with traits.Rotatable with traits.ComponentInventory with Analyzable with traits.StateAware {
	val node = api.Network.newNode(this, Visibility.None).
	withConnector(Settings.get.bufferConverter).
	create()

	val connectors = mutable.Set.empty[Chargeable]

	var chargeSpeed = 0.0

	var hasPower = false

	var invertSignal = false

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

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

	override protected def connector(side: ForgeDirection) = Option(if (side != facing) node else null)

	override def energyThroughput = Settings.get.chargerRate

	override def getCurrentState = {
	// TODO Refine to only report working if present robots/drones actually need power.
	if (connectors.nonEmpty) {
	if (hasPower) util.EnumSet.of(api.util.StateAware.State.IsWorking)
	else util.EnumSet.of(api.util.StateAware.State.CanWork)
	}
	else util.EnumSet.noneOf(classOf[api.util.StateAware.State])
	}

	override def onAnalyze(player: EntityPlayer, side: Int, hitX: Float, hitY: Float, hitZ: Float) = {
	player.addChatMessage(Localization.Analyzer.ChargerSpeed(chargeSpeed))
	null
	}

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

	override def canUpdate = true

	override def updateEntity() {
	super.updateEntity()

	// Offset by hashcode to avoid all chargers ticking at the same time.
	if ((world.getWorldInfo.getWorldTotalTime + math.abs(hashCode())) % 20 == 0) {
	updateConnectors()
	}

	if (isServer && world.getWorldInfo.getWorldTotalTime % Settings.get.tickFrequency == 0) {
	var canCharge = Settings.get.ignorePower

	// Charging of external devices.
	{
	val charge = Settings.get.chargeRateExternal * chargeSpeed * Settings.get.tickFrequency
	canCharge \|\|= charge > 0 && node.globalBuffer >= charge * 0.5
	if (canCharge) {
	connectors.foreach(connector => node.changeBuffer(connector.changeBuffer(charge + node.changeBuffer(-charge))))
	}
	}

	// Charging of internal devices.
	{
	val charge = Settings.get.chargeRateTablet * chargeSpeed * Settings.get.tickFrequency
	canCharge \|\|= charge > 0 && node.globalBuffer >= charge * 0.5
	if (canCharge) {
	(0 until getSizeInventory).map(getStackInSlot).foreach(stack => if (stack != null) {
	val offered = charge + node.changeBuffer(-charge)
	val surplus = ItemCharge.charge(stack, offered)
	node.changeBuffer(surplus)
	})
	}
	}

	if (hasPower && !canCharge) {
	hasPower = false
	ServerPacketSender.sendChargerState(this)
	}
	if (!hasPower && canCharge) {
	hasPower = true
	ServerPacketSender.sendChargerState(this)
	}
	}

	if (isClient && chargeSpeed > 0 && hasPower && world.getWorldInfo.getWorldTotalTime % 10 == 0) {
	connectors.foreach(connector => {
	val position = connector.pos
	val theta = world.rand.nextDouble * Math.PI
	val phi = world.rand.nextDouble * Math.PI * 2
	val dx = 0.45 * Math.sin(theta) * Math.cos(phi)
	val dy = 0.45 * Math.sin(theta) * Math.sin(phi)
	val dz = 0.45 * Math.cos(theta)
	world.spawnParticle("happyVillager", position.xCoord + dx, position.yCoord + dz, position.zCoord + dy, 0, 0, 0)
	})
	}
	}

	override def onConnect(node: Node) {
	super.onConnect(node)
	if (node == this.node) {
	onNeighborChanged()
	}
	}

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

	override def readFromNBTForServer(nbt: NBTTagCompound) {
	super.readFromNBTForServer(nbt)
	chargeSpeed = nbt.getDouble("chargeSpeed") max 0 min 1
	hasPower = nbt.getBoolean("hasPower")
	invertSignal = nbt.getBoolean("invertSignal")
	}

	override def writeToNBTForServer(nbt: NBTTagCompound) {
	super.writeToNBTForServer(nbt)
	nbt.setDouble("chargeSpeed", chargeSpeed)
	nbt.setBoolean("hasPower", hasPower)
	nbt.setBoolean("invertSignal", invertSignal)
	}

	@SideOnly(Side.CLIENT)
	override def readFromNBTForClient(nbt: NBTTagCompound) {
	super.readFromNBTForClient(nbt)
	chargeSpeed = nbt.getDouble("chargeSpeed")
	hasPower = nbt.getBoolean("hasPower")
	}

	override def writeToNBTForClient(nbt: NBTTagCompound) {
	super.writeToNBTForClient(nbt)
	nbt.setDouble("chargeSpeed", chargeSpeed)
	nbt.setBoolean("hasPower", hasPower)
	}

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

	override def isComponentSlot(slot: Int, stack: ItemStack): Boolean =
	super.isComponentSlot(slot, stack) && (Option(Driver.driverFor(stack, getClass)) match {
	case Some(driver) => driver.slot(stack) == Slot.Tablet
	case _ => false
	})

	override def getSizeInventory = 1

	override def isItemValidForSlot(slot: Int, stack: ItemStack) = (slot, Option(Driver.driverFor(stack, getClass))) match {
	case (0, Some(driver)) if driver.slot(stack) == Slot.Tablet => true
	case _ => ItemCharge.canCharge(stack)
	}

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

	override def updateRedstoneInput(side: ForgeDirection) {
	super.updateRedstoneInput(side)
	val signal = math.max(0, math.min(15, ForgeDirection.VALID_DIRECTIONS.map(input).max))

	if (invertSignal) chargeSpeed = (15 - signal) / 15.0
	else chargeSpeed = signal / 15.0
	if (isServer) {
	ServerPacketSender.sendChargerState(this)
	}
	}

	def onNeighborChanged() {
	checkRedstoneInputChanged()
	updateConnectors()
	}

	def updateConnectors() {
	val robots = ForgeDirection.VALID_DIRECTIONS.map(side => {
	val blockPos = BlockPosition(this).offset(side)
	if (world.blockExists(blockPos)) Option(world.getTileEntity(blockPos))
	else None
	}).collect {
	case Some(t: RobotProxy) => new RobotChargeable(t.robot)
	}

	val bounds = BlockPosition(this).bounds.expand(1, 1, 1)
	val drones = world.getEntitiesWithinAABB(classOf[Drone], bounds).collect {
	case drone: Drone => new DroneChargeable(drone)
	}

	val players = world.getEntitiesWithinAABB(classOf[EntityPlayer], bounds).collect {
	case player: EntityPlayer if api.Nanomachines.hasController(player) => new PlayerChargeable(player)
	}

	// Only update list when we have to, keeps pointless block updates to a minimum.

	val newConnectors = robots ++ drones ++ players
	if (connectors.size != newConnectors.length \|\| (connectors.nonEmpty && (connectors -- newConnectors).nonEmpty)) {
	connectors.clear()
	connectors ++= newConnectors
	world.notifyBlocksOfNeighborChange(x, y, z, block)
	}
	}

	trait Chargeable {
	def pos: Vec3

	def changeBuffer(delta: Double): Double
	}

	abstract class ConnectorChargeable(val connector: Connector) extends Chargeable {
	override def changeBuffer(delta: Double): Double = connector.changeBuffer(delta)

	override def equals(obj: scala.Any): Boolean = obj match {
	case chargeable: ConnectorChargeable => chargeable.connector == connector
	case _ => false
	}
	}

	class RobotChargeable(val robot: Robot) extends ConnectorChargeable(robot.node.asInstanceOf[Connector]) {
	override def pos: Vec3 = BlockPosition(robot).toVec3

	override def equals(obj: scala.Any): Boolean = obj match {
	case chargeable: RobotChargeable => chargeable.robot == robot
	case _ => false
	}

	override def hashCode(): Int = robot.hashCode()
	}

	class DroneChargeable(val drone: Drone) extends ConnectorChargeable(drone.components.node.asInstanceOf[Connector]) {
	override def pos: Vec3 = Vec3.createVectorHelper(drone.posX, drone.posY, drone.posZ)

	override def equals(obj: scala.Any): Boolean = obj match {
	case chargeable: DroneChargeable => chargeable.drone == drone
	case _ => false
	}

	override def hashCode(): Int = drone.hashCode()
	}

	class PlayerChargeable(val player: EntityPlayer) extends Chargeable {
	override def pos: Vec3 = Vec3.createVectorHelper(player.posX, player.posY, player.posZ)

	override def changeBuffer(delta: Double): Double = {
	api.Nanomachines.getController(player) match {
	case controller: Controller => controller.changeBuffer(delta)
	case _ => delta // Cannot charge.
	}
	}

	override def equals(obj: scala.Any): Boolean = obj match {
	case chargeable: PlayerChargeable => chargeable.player == player
	case _ => false
	}

	override def hashCode(): Int = player.hashCode()
	}

	}