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package li.cil.oc.common.tileentity
import cpw.mods.fml.relauncher.{Side, SideOnly}
import li.cil.oc.api.Driver
import li.cil.oc.api.driver.{Slot, UpgradeContainer}
import li.cil.oc.api.network.{SidedEnvironment, Visibility}
import li.cil.oc.common.InventorySlots
import li.cil.oc.common.InventorySlots.Tier
import li.cil.oc.server.{PacketSender => ServerPacketSender}
import li.cil.oc.util.ExtendedNBT._
import li.cil.oc.util.ItemUtils
import li.cil.oc.{Settings, api}
import net.minecraft.item.ItemStack
import net.minecraft.nbt.NBTTagCompound
import net.minecraftforge.common.ForgeDirection
class RobotAssembler extends traits.Environment with traits.PowerAcceptor with traits.Inventory with traits.Rotatable with SidedEnvironment {
val node = api.Network.newNode(this, Visibility.None).
withConnector(Settings.get.bufferConverter).
create()
var robot: Option[ItemStack] = None
var totalRequiredEnergy = 0.0
var requiredEnergy = 0.0
// ----------------------------------------------------------------------- //
@SideOnly(Side.CLIENT)
override def canConnect(side: ForgeDirection) = side != ForgeDirection.UP
override def sidedNode(side: ForgeDirection) = if (side != ForgeDirection.UP) node else null
@SideOnly(Side.CLIENT)
override protected def hasConnector(side: ForgeDirection) = canConnect(side)
override protected def connector(side: ForgeDirection) = Option(if (side != ForgeDirection.UP) node else null)
// ----------------------------------------------------------------------- //
def isAssembling = requiredEnergy > 0
def progress = (1 - requiredEnergy / totalRequiredEnergy) * 100
// ----------------------------------------------------------------------- //
def complexity = items.drop(1).foldLeft(0)((acc, stack) => acc + (Option(api.Driver.driverFor(stack.orNull)) match {
case Some(driver: UpgradeContainer) => (1 + driver.tier(stack.get)) * 2
case Some(driver) => 1 + driver.tier(stack.get)
case _ => 0
}))
def maxComplexity = {
val caseTier = ItemUtils.caseTier(items(0).orNull)
if (caseTier >= 0) Settings.robotComplexityByTier(caseTier) else 0
}
def start() {
if (!isAssembling && robot.isEmpty && complexity <= maxComplexity) {
for (slot <- 0 until getSizeInventory) {
val stack = getStackInSlot(slot)
if (stack != null && !isItemValidForSlot(slot, stack)) return
}
val data = new ItemUtils.RobotData()
data.tier = ItemUtils.caseTier(items(0).get)
data.name = ItemUtils.RobotData.randomName
data.robotEnergy = 50000
data.totalEnergy = data.robotEnergy
data.containers = items.take(4).drop(1).collect {
case Some(item) => item
}
data.components = items.drop(4).collect {
case Some(item) => item
}
val stack = api.Items.get("robot").createItemStack(1)
data.save(stack)
robot = Some(stack)
if (data.tier == Tier.Four) {
// Creative tier, finish instantly.
totalRequiredEnergy = 0
}
else {
totalRequiredEnergy = math.max(1, Settings.get.robotBaseCost + complexity * Settings.get.robotComplexityCost)
}
requiredEnergy = totalRequiredEnergy
ServerPacketSender.sendRobotAssembling(this, assembling = true)
for (slot <- 0 until getSizeInventory) items(slot) = None
onInventoryChanged()
}
}
// ----------------------------------------------------------------------- //
override def canUpdate = isServer
override def updateEntity() {
super.updateEntity()
if (robot.isDefined && world.getWorldTime % Settings.get.tickFrequency == 0) {
val want = math.max(1, math.min(requiredEnergy, Settings.get.assemblerTickAmount * Settings.get.tickFrequency))
val success = node.tryChangeBuffer(-want)
if (success) {
requiredEnergy -= want
}
if (requiredEnergy <= 0) {
setInventorySlotContents(0, robot.get)
robot = None
requiredEnergy = 0
}
ServerPacketSender.sendRobotAssembling(this, success && robot.isDefined)
}
}
override def readFromNBT(nbt: NBTTagCompound) {
super.readFromNBT(nbt)
if (nbt.hasKey(Settings.namespace + "robot")) {
robot = Option(ItemStack.loadItemStackFromNBT(nbt.getCompoundTag(Settings.namespace + "robot")))
}
totalRequiredEnergy = nbt.getDouble(Settings.namespace + "total")
requiredEnergy = nbt.getDouble(Settings.namespace + "remaining")
}
override def writeToNBT(nbt: NBTTagCompound) {
super.writeToNBT(nbt)
robot.foreach(stack => nbt.setNewCompoundTag(Settings.namespace + "robot", 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)
requiredEnergy = nbt.getDouble("remaining")
}
override def writeToNBTForClient(nbt: NBTTagCompound) {
super.writeToNBTForClient(nbt)
nbt.setDouble("remaining", requiredEnergy)
}
// ----------------------------------------------------------------------- //
override def getSizeInventory = InventorySlots.assembler(0).length
override def getInventoryStackLimit = 1
override def isItemValidForSlot(slot: Int, stack: ItemStack) =
if (slot == 0) {
!isAssembling && ItemUtils.caseTier(stack) != Tier.None
}
else {
val caseTier = ItemUtils.caseTier(items(0).orNull)
caseTier != Tier.None && {
val info = InventorySlots.assembler(caseTier)(slot)
Option(Driver.driverFor(stack)) match {
case Some(driver) if info.slot != Slot.None && info.tier != Tier.None => driver.slot(stack) == info.slot && driver.tier(stack) <= info.tier
case _ => false
}
}
}
}