package mekanism.common.tile;
import io.netty.buffer.ByteBuf;
import java.util.ArrayList;
import mekanism.api.Coord4D;
import mekanism.api.EnumColor;
import mekanism.api.MekanismConfig.usage;
import mekanism.api.Range4D;
import mekanism.api.gas.Gas;
import mekanism.api.gas.GasRegistry;
import mekanism.api.gas.GasStack;
import mekanism.api.gas.GasTank;
import mekanism.api.gas.GasTransmission;
import mekanism.api.gas.IGasHandler;
import mekanism.api.gas.IGasItem;
import mekanism.api.gas.ITubeConnection;
import mekanism.api.transmitters.TransmissionType;
import mekanism.common.Mekanism;
import mekanism.common.SideData;
import mekanism.common.Upgrade;
import mekanism.common.base.IEjector;
import mekanism.common.base.IRedstoneControl;
import mekanism.common.base.ISideConfiguration;
import mekanism.common.base.ISustainedData;
import mekanism.common.base.ITankManager;
import mekanism.common.base.IUpgradeTile;
import mekanism.common.block.BlockMachine.MachineType;
import mekanism.common.network.PacketTileEntity.TileEntityMessage;
import mekanism.common.recipe.RecipeHandler;
import mekanism.common.recipe.inputs.GasInput;
import mekanism.common.recipe.machines.CrystallizerRecipe;
import mekanism.common.tile.component.TileComponentConfig;
import mekanism.common.tile.component.TileComponentEjector;
import mekanism.common.tile.component.TileComponentUpgrade;
import mekanism.common.util.ChargeUtils;
import mekanism.common.util.InventoryUtils;
import mekanism.common.util.MekanismUtils;
import net.minecraft.entity.player.EntityPlayer;
import net.minecraft.entity.player.EntityPlayerMP;
import net.minecraft.item.ItemStack;
import net.minecraft.nbt.NBTTagCompound;
import net.minecraftforge.common.util.ForgeDirection;
import net.minecraftforge.fluids.FluidContainerRegistry;
import net.minecraftforge.fluids.FluidRegistry;
public class TileEntityChemicalCrystallizer extends TileEntityNoisyElectricBlock implements IGasHandler, ITubeConnection, IRedstoneControl, ISideConfiguration, IUpgradeTile, ISustainedData, ITankManager
{
public static final int MAX_GAS = 10000;
public GasTank inputTank = new GasTank(MAX_GAS);
public int updateDelay;
public int operatingTicks;
public int BASE_TICKS_REQUIRED = 200;
public int ticksRequired = 200;
public boolean isActive;
public boolean clientActive;
public double prevEnergy;
public float spinSpeed;
public float spin;
public final double BASE_ENERGY_USAGE = usage.chemicalCrystallizerUsage;
public double energyUsage = usage.chemicalCrystallizerUsage;
public CrystallizerRecipe cachedRecipe;
/** This machine's current RedstoneControl type. */
public RedstoneControl controlType = RedstoneControl.DISABLED;
public TileComponentUpgrade upgradeComponent;
public TileComponentEjector ejectorComponent;
public TileComponentConfig configComponent;
public TileEntityChemicalCrystallizer()
{
super("machine.crystallizer", "ChemicalCrystallizer", MachineType.CHEMICAL_CRYSTALLIZER.baseEnergy);
configComponent = new TileComponentConfig(this, TransmissionType.ITEM, TransmissionType.ENERGY, TransmissionType.GAS);
configComponent.addOutput(TransmissionType.ITEM, new SideData("None", EnumColor.GREY, InventoryUtils.EMPTY));
configComponent.addOutput(TransmissionType.ITEM, new SideData("Gas", EnumColor.PURPLE, new int[] {0}));
configComponent.addOutput(TransmissionType.ITEM, new SideData("Output", EnumColor.DARK_BLUE, new int[] {1}));
configComponent.addOutput(TransmissionType.ITEM, new SideData("Energy", EnumColor.DARK_GREEN, new int[] {2}));
configComponent.setConfig(TransmissionType.ITEM, new byte[] {0, 3, 0, 0, 1, 2});
configComponent.addOutput(TransmissionType.GAS, new SideData("None", EnumColor.GREY, InventoryUtils.EMPTY));
configComponent.addOutput(TransmissionType.GAS, new SideData("Gas", EnumColor.YELLOW, new int[] {0}));
configComponent.setConfig(TransmissionType.GAS, new byte[] {0, 0, 0, 0, 1, 0});
configComponent.setCanEject(TransmissionType.GAS, false);
configComponent.setInputEnergyConfig();
inventory = new ItemStack[4];
upgradeComponent = new TileComponentUpgrade(this, 3);
ejectorComponent = new TileComponentEjector(this);
ejectorComponent.setOutputData(TransmissionType.ITEM, configComponent.getOutputs(TransmissionType.ITEM).get(2));
}
@Override
public void onUpdate()
{
super.onUpdate();
if(worldObj.isRemote && updateDelay > 0)
{
updateDelay--;
if(updateDelay == 0 && clientActive != isActive)
{
isActive = clientActive;
MekanismUtils.updateBlock(worldObj, xCoord, yCoord, zCoord);
}
}
if(!worldObj.isRemote)
{
if(updateDelay > 0)
{
updateDelay--;
if(updateDelay == 0 && clientActive != isActive)
{
Mekanism.packetHandler.sendToReceivers(new TileEntityMessage(Coord4D.get(this), getNetworkedData(new ArrayList())), new Range4D(Coord4D.get(this)));
}
}
ChargeUtils.discharge(2, this);
if(inventory[0] != null && (inputTank.getGas() == null || inputTank.getStored() < inputTank.getMaxGas()))
{
inputTank.receive(GasTransmission.removeGas(inventory[0], inputTank.getGasType(), inputTank.getNeeded()), true);
}
CrystallizerRecipe recipe = getRecipe();
if(canOperate(recipe) && MekanismUtils.canFunction(this) && getEnergy() >= energyUsage)
{
setActive(true);
setEnergy(getEnergy() - energyUsage);
if((operatingTicks+1) < ticksRequired)
{
operatingTicks++;
}
else {
operate(recipe);
operatingTicks = 0;
}
}
else {
if(prevEnergy >= getEnergy())
{
setActive(false);
}
}
if(!canOperate(recipe))
{
operatingTicks = 0;
}
prevEnergy = getEnergy();
}
}
public GasInput getInput()
{
return new GasInput(inputTank.getGas());
}
public CrystallizerRecipe getRecipe()
{
GasInput input = getInput();
if(cachedRecipe == null || !input.testEquality(cachedRecipe.getInput()))
{
cachedRecipe = RecipeHandler.getChemicalCrystallizerRecipe(getInput());
}
return cachedRecipe;
}
public boolean canOperate(CrystallizerRecipe recipe)
{
return recipe != null && recipe.canOperate(inputTank, inventory);
}
public void operate(CrystallizerRecipe recipe)
{
recipe.operate(inputTank, inventory);
markDirty();
ejectorComponent.outputItems();
}
@Override
public void handlePacketData(ByteBuf dataStream)
{
if(!worldObj.isRemote)
{
int type = dataStream.readInt();
if(type == 0)
{
inputTank.setGas(null);
}
for(EntityPlayer player : playersUsing)
{
Mekanism.packetHandler.sendTo(new TileEntityMessage(Coord4D.get(this), getNetworkedData(new ArrayList())), (EntityPlayerMP)player);
}
return;
}
super.handlePacketData(dataStream);
isActive = dataStream.readBoolean();
operatingTicks = dataStream.readInt();
controlType = RedstoneControl.values()[dataStream.readInt()];
if(dataStream.readBoolean())
{
inputTank.setGas(new GasStack(GasRegistry.getGas(dataStream.readInt()), dataStream.readInt()));
}
else {
inputTank.setGas(null);
}
MekanismUtils.updateBlock(worldObj, xCoord, yCoord, zCoord);
}
@Override
public ArrayList getNetworkedData(ArrayList data)
{
super.getNetworkedData(data);
data.add(isActive);
data.add(operatingTicks);
data.add(controlType.ordinal());
if(inputTank.getGas() != null)
{
data.add(true);
data.add(inputTank.getGas().getGas().getID());
data.add(inputTank.getStored());
}
else {
data.add(false);
}
return data;
}
@Override
public void readFromNBT(NBTTagCompound nbtTags)
{
super.readFromNBT(nbtTags);
isActive = nbtTags.getBoolean("isActive");
operatingTicks = nbtTags.getInteger("operatingTicks");
controlType = RedstoneControl.values()[nbtTags.getInteger("controlType")];
inputTank.read(nbtTags.getCompoundTag("rightTank"));
}
@Override
public void writeToNBT(NBTTagCompound nbtTags)
{
super.writeToNBT(nbtTags);
nbtTags.setBoolean("isActive", isActive);
nbtTags.setInteger("operatingTicks", operatingTicks);
nbtTags.setInteger("controlType", controlType.ordinal());
nbtTags.setTag("rightTank", inputTank.write(new NBTTagCompound()));
nbtTags.setBoolean("sideDataStored", true);
}
@Override
public boolean canSetFacing(int i)
{
return i != 0 && i != 1;
}
public double getScaledProgress()
{
return ((double)operatingTicks) / (double)ticksRequired;
}
@Override
public void setActive(boolean active)
{
isActive = active;
if(clientActive != active && updateDelay == 0)
{
Mekanism.packetHandler.sendToReceivers(new TileEntityMessage(Coord4D.get(this), getNetworkedData(new ArrayList())), new Range4D(Coord4D.get(this)));
updateDelay = 10;
clientActive = active;
}
}
@Override
public boolean getActive()
{
return isActive;
}
@Override
public boolean renderUpdate()
{
return false;
}
@Override
public boolean lightUpdate()
{
return true;
}
@Override
public boolean canTubeConnect(ForgeDirection side)
{
return configComponent.getOutput(TransmissionType.GAS, side.ordinal(), facing).hasSlot(0);
}
@Override
public boolean canReceiveGas(ForgeDirection side, Gas type)
{
return configComponent.getOutput(TransmissionType.GAS, side.ordinal(), facing).hasSlot(0) && inputTank.canReceive(type);
}
@Override
public RedstoneControl getControlType()
{
return controlType;
}
@Override
public void setControlType(RedstoneControl type)
{
controlType = type;
MekanismUtils.saveChunk(this);
}
@Override
public boolean canPulse()
{
return false;
}
@Override
public int receiveGas(ForgeDirection side, GasStack stack, boolean doTransfer)
{
if(canReceiveGas(side, stack.getGas()))
{
return inputTank.receive(stack, doTransfer);
}
return 0;
}
@Override
public int receiveGas(ForgeDirection side, GasStack stack)
{
return receiveGas(side, stack, true);
}
@Override
public GasStack drawGas(ForgeDirection side, int amount, boolean doTransfer)
{
return null;
}
@Override
public GasStack drawGas(ForgeDirection side, int amount)
{
return drawGas(side, amount, true);
}
@Override
public boolean canDrawGas(ForgeDirection side, Gas type)
{
return false;
}
@Override
public boolean isItemValidForSlot(int slotID, ItemStack itemstack)
{
if(slotID == 0)
{
return FluidContainerRegistry.getFluidForFilledItem(itemstack) != null && FluidContainerRegistry.getFluidForFilledItem(itemstack).getFluid() == FluidRegistry.WATER;
}
else if(slotID == 2)
{
return ChargeUtils.canBeDischarged(itemstack);
}
return false;
}
@Override
public boolean canExtractItem(int slotID, ItemStack itemstack, int side)
{
if(slotID == 0)
{
return itemstack != null && itemstack.getItem() instanceof IGasItem && ((IGasItem)itemstack.getItem()).canProvideGas(itemstack, null);
}
else if(slotID == 1)
{
return true;
}
else if(slotID == 2)
{
return ChargeUtils.canBeOutputted(itemstack, false);
}
return false;
}
@Override
public int[] getAccessibleSlotsFromSide(int side)
{
return configComponent.getOutput(TransmissionType.ITEM, side, facing).availableSlots;
}
@Override
public TileComponentConfig getConfig()
{
return configComponent;
}
@Override
public int getOrientation()
{
return facing;
}
@Override
public IEjector getEjector()
{
return ejectorComponent;
}
@Override
public TileComponentUpgrade getComponent()
{
return upgradeComponent;
}
@Override
public void writeSustainedData(ItemStack itemStack)
{
if(inputTank.getGas() != null)
{
itemStack.stackTagCompound.setTag("inputTank", inputTank.getGas().write(new NBTTagCompound()));
}
}
@Override
public void readSustainedData(ItemStack itemStack)
{
inputTank.setGas(GasStack.readFromNBT(itemStack.stackTagCompound.getCompoundTag("inputTank")));
}
@Override
public void recalculateUpgradables(Upgrade upgrade)
{
super.recalculateUpgradables(upgrade);
switch(upgrade)
{
case SPEED:
ticksRequired = MekanismUtils.getTicks(this, BASE_TICKS_REQUIRED);
energyUsage = MekanismUtils.getEnergyPerTick(this, BASE_ENERGY_USAGE);
break;
case ENERGY:
energyUsage = MekanismUtils.getEnergyPerTick(this, BASE_ENERGY_USAGE);
maxEnergy = MekanismUtils.getMaxEnergy(this, BASE_MAX_ENERGY);
break;
default:
break;
}
}
@Override
public Object[] getTanks()
{
return new Object[] {inputTank};
}
}