package mekanism.common.tile;
import ic2.api.energy.EnergyNet;
import ic2.api.energy.event.EnergyTileLoadEvent;
import ic2.api.energy.event.EnergyTileUnloadEvent;
import ic2.api.energy.tile.IEnergyAcceptor;
import ic2.api.energy.tile.IEnergyConductor;
import ic2.api.energy.tile.IEnergyEmitter;
import ic2.api.energy.tile.IEnergyTile;
import io.netty.buffer.ByteBuf;
import java.util.ArrayList;
import java.util.EnumSet;
import mekanism.api.Coord4D;
import mekanism.api.EnumColor;
import mekanism.api.IConfigurable;
import mekanism.api.MekanismConfig.general;
import mekanism.api.Range4D;
import mekanism.api.util.CapabilityUtils;
import mekanism.common.Mekanism;
import mekanism.common.base.IActiveState;
import mekanism.common.base.IEnergyWrapper;
import mekanism.common.capabilities.Capabilities;
import mekanism.common.capabilities.CapabilityWrapperManager;
import mekanism.common.integration.TeslaIntegration;
import mekanism.common.network.PacketTileEntity.TileEntityMessage;
import mekanism.common.util.CableUtils;
import mekanism.common.util.LangUtils;
import mekanism.common.util.MekanismUtils;
import net.minecraft.entity.player.EntityPlayer;
import net.minecraft.nbt.NBTTagCompound;
import net.minecraft.tileentity.TileEntity;
import net.minecraft.util.EnumActionResult;
import net.minecraft.util.EnumFacing;
import net.minecraft.util.text.TextComponentString;
import net.minecraftforge.common.MinecraftForge;
import net.minecraftforge.common.capabilities.Capability;
import net.minecraftforge.fml.common.FMLCommonHandler;
import net.minecraftforge.fml.common.Optional.Interface;
import net.minecraftforge.fml.common.Optional.InterfaceList;
import net.minecraftforge.fml.common.Optional.Method;
@InterfaceList({
@Interface(iface = "ic2.api.energy.tile.IEnergySink", modid = "IC2"),
@Interface(iface = "ic2.api.energy.tile.IEnergySource", modid = "IC2"),
@Interface(iface = "ic2.api.tile.IEnergyStorage", modid = "IC2")
})
public class TileEntityInductionPort extends TileEntityInductionCasing implements IEnergyWrapper, IConfigurable, IActiveState
{
public boolean ic2Registered = false;
/** false = input, true = output */
public boolean mode;
public TileEntityInductionPort()
{
super("InductionPort");
}
@Override
public void onUpdate()
{
super.onUpdate();
if(!ic2Registered && MekanismUtils.useIC2())
{
register();
}
if(!worldObj.isRemote)
{
if(structure != null && mode)
{
double prev = getEnergy();
CableUtils.emit(this);
structure.remainingOutput -= (prev-getEnergy());
}
}
}
@Override
public EnumSet<EnumFacing> getOutputtingSides()
{
if(structure != null && mode)
{
EnumSet<EnumFacing> set = EnumSet.allOf(EnumFacing.class);
for(EnumFacing side : EnumFacing.VALUES)
{
if(structure.locations.contains(Coord4D.get(this).offset(side)))
{
set.remove(side);
}
}
return set;
}
return EnumSet.noneOf(EnumFacing.class);
}
@Override
public EnumSet<EnumFacing> getConsumingSides()
{
if(structure != null && !mode)
{
return EnumSet.allOf(EnumFacing.class);
}
return EnumSet.noneOf(EnumFacing.class);
}
@Method(modid = "IC2")
public void register()
{
if(!worldObj.isRemote)
{
IEnergyTile registered = EnergyNet.instance.getTile(worldObj, getPos());
if(registered != this)
{
if(registered instanceof IEnergyTile)
{
MinecraftForge.EVENT_BUS.post(new EnergyTileUnloadEvent(registered));
}
else if(registered == null)
{
MinecraftForge.EVENT_BUS.post(new EnergyTileLoadEvent(this));
ic2Registered = true;
}
}
}
}
@Method(modid = "IC2")
public void deregister()
{
if(!worldObj.isRemote)
{
IEnergyTile registered = EnergyNet.instance.getTile(worldObj, getPos());
if(registered instanceof IEnergyTile)
{
MinecraftForge.EVENT_BUS.post(new EnergyTileUnloadEvent(registered));
}
}
}
@Override
public double getMaxOutput()
{
return structure != null ? structure.remainingOutput : 0;
}
private double getMaxInput()
{
return structure != null ? structure.remainingInput : 0;
}
@Override
public void handlePacketData(ByteBuf dataStream)
{
super.handlePacketData(dataStream);
if(FMLCommonHandler.instance().getEffectiveSide().isClient())
{
boolean prevMode = mode;
mode = dataStream.readBoolean();
if(prevMode != mode)
{
MekanismUtils.updateBlock(worldObj, getPos());
}
}
}
@Override
public ArrayList<Object> getNetworkedData(ArrayList<Object> data)
{
super.getNetworkedData(data);
data.add(mode);
return data;
}
@Override
public void onAdded()
{
super.onAdded();
if(MekanismUtils.useIC2())
{
register();
}
}
@Override
public void onChunkUnload()
{
if(MekanismUtils.useIC2())
{
deregister();
}
super.onChunkUnload();
}
@Override
public void invalidate()
{
super.invalidate();
if(MekanismUtils.useIC2())
{
deregister();
}
}
@Override
public void readFromNBT(NBTTagCompound nbtTags)
{
super.readFromNBT(nbtTags);
mode = nbtTags.getBoolean("mode");
}
@Override
public NBTTagCompound writeToNBT(NBTTagCompound nbtTags)
{
super.writeToNBT(nbtTags);
nbtTags.setBoolean("mode", mode);
return nbtTags;
}
@Override
public int receiveEnergy(EnumFacing from, int maxReceive, boolean simulate)
{
if(getConsumingSides().contains(from))
{
double toAdd = (int)Math.min(Math.min(getMaxInput(), getMaxEnergy()-getEnergy()), maxReceive* general.FROM_RF);
if(!simulate)
{
setEnergy(getEnergy() + toAdd);
structure.remainingInput -= toAdd;
}
return (int)Math.round(toAdd*general.TO_RF);
}
return 0;
}
@Override
public int extractEnergy(EnumFacing from, int maxExtract, boolean simulate)
{
if(getOutputtingSides().contains(from))
{
double toSend = Math.min(getEnergy(), Math.min(getMaxOutput(), maxExtract*general.FROM_RF));
if(!simulate)
{
setEnergy(getEnergy() - toSend);
structure.remainingOutput -= toSend;
}
return (int)Math.round(toSend*general.TO_RF);
}
return 0;
}
@Override
public boolean canConnectEnergy(EnumFacing from)
{
return structure != null;
}
@Override
public int getEnergyStored(EnumFacing from)
{
return (int)Math.round(getEnergy()*general.TO_RF);
}
@Override
public int getMaxEnergyStored(EnumFacing from)
{
return (int)Math.round(getMaxEnergy()*general.TO_RF);
}
@Override
@Method(modid = "IC2")
public int getSinkTier()
{
return 4;
}
@Override
@Method(modid = "IC2")
public int getSourceTier()
{
return 4;
}
@Override
@Method(modid = "IC2")
public void setStored(int energy)
{
setEnergy(energy*general.FROM_IC2);
}
@Override
@Method(modid = "IC2")
public int addEnergy(int amount)
{
double toUse = Math.min(Math.min(getMaxInput(), getMaxEnergy()-getEnergy()), amount*general.FROM_IC2);
setEnergy(getEnergy() + toUse);
structure.remainingInput -= toUse;
return (int)Math.round(getEnergy()*general.TO_IC2);
}
@Override
@Method(modid = "IC2")
public boolean isTeleporterCompatible(EnumFacing side)
{
return canOutputTo(side);
}
@Override
public boolean canOutputTo(EnumFacing side)
{
return getOutputtingSides().contains(side);
}
@Override
@Method(modid = "IC2")
public boolean acceptsEnergyFrom(IEnergyEmitter emitter, EnumFacing direction)
{
return getConsumingSides().contains(direction);
}
@Override
@Method(modid = "IC2")
public boolean emitsEnergyTo(IEnergyAcceptor receiver, EnumFacing direction)
{
return getOutputtingSides().contains(direction) && receiver instanceof IEnergyConductor;
}
@Override
@Method(modid = "IC2")
public int getStored()
{
return (int)Math.round(getEnergy()*general.TO_IC2);
}
@Override
@Method(modid = "IC2")
public int getCapacity()
{
return (int)Math.round(getMaxEnergy()*general.TO_IC2);
}
@Override
@Method(modid = "IC2")
public int getOutput()
{
return (int)Math.round(getMaxOutput()*general.TO_IC2);
}
@Override
@Method(modid = "IC2")
public double getDemandedEnergy()
{
return (getMaxEnergy() - getEnergy())*general.TO_IC2;
}
@Override
@Method(modid = "IC2")
public double getOfferedEnergy()
{
return Math.min(getEnergy(), getMaxOutput())*general.TO_IC2;
}
@Override
public boolean canReceiveEnergy(EnumFacing side)
{
return getConsumingSides().contains(side);
}
@Override
@Method(modid = "IC2")
public double getOutputEnergyUnitsPerTick()
{
return getMaxOutput()*general.TO_IC2;
}
@Override
@Method(modid = "IC2")
public double injectEnergy(EnumFacing direction, double amount, double voltage)
{
TileEntity tile = getWorld().getTileEntity(getPos().offset(direction));
if(tile == null || CapabilityUtils.hasCapability(tile, Capabilities.GRID_TRANSMITTER_CAPABILITY, direction.getOpposite()))
{
return amount;
}
return amount-transferEnergyToAcceptor(direction, amount*general.FROM_IC2)*general.TO_IC2;
}
@Override
@Method(modid = "IC2")
public void drawEnergy(double amount)
{
if(structure != null)
{
double toDraw = Math.min(amount*general.FROM_IC2, getMaxOutput());
setEnergy(Math.max(getEnergy() - toDraw, 0));
structure.remainingOutput -= toDraw;
}
}
@Override
public double transferEnergyToAcceptor(EnumFacing side, double amount)
{
if(!getConsumingSides().contains(side))
{
return 0;
}
double toUse = Math.min(Math.min(getMaxInput(), getMaxEnergy()-getEnergy()), amount);
setEnergy(getEnergy() + toUse);
structure.remainingInput -= toUse;
return toUse;
}
@Override
public double removeEnergyFromProvider(EnumFacing side, double amount)
{
if(!getOutputtingSides().contains(side))
{
return 0;
}
double toGive = Math.min(getEnergy(), amount);
setEnergy(getEnergy() - toGive);
return toGive;
}
@Override
public EnumActionResult onSneakRightClick(EntityPlayer player, EnumFacing side)
{
if(!worldObj.isRemote)
{
mode = !mode;
String modeText = " " + (mode ? EnumColor.DARK_RED : EnumColor.DARK_GREEN) + LangUtils.transOutputInput(mode) + ".";
player.addChatMessage(new TextComponentString(EnumColor.DARK_BLUE + "[Mekanism] " + EnumColor.GREY + LangUtils.localize("tooltip.configurator.inductionPortMode") + modeText));
Mekanism.packetHandler.sendToReceivers(new TileEntityMessage(Coord4D.get(this), getNetworkedData(new ArrayList<Object>())), new Range4D(Coord4D.get(this)));
markDirty();
}
return EnumActionResult.SUCCESS;
}
@Override
public EnumActionResult onRightClick(EntityPlayer player, EnumFacing side)
{
return EnumActionResult.PASS;
}
@Override
public boolean getActive()
{
return mode;
}
@Override
public void setActive(boolean active)
{
mode = active;
}
@Override
public boolean renderUpdate()
{
return true;
}
@Override
public boolean lightUpdate()
{
return false;
}
@Override
public boolean hasCapability(Capability<?> capability, EnumFacing facing)
{
return capability == Capabilities.ENERGY_STORAGE_CAPABILITY
|| capability == Capabilities.ENERGY_ACCEPTOR_CAPABILITY
|| capability == Capabilities.CABLE_OUTPUTTER_CAPABILITY
|| capability == Capabilities.TESLA_HOLDER_CAPABILITY
|| capability == Capabilities.CONFIGURABLE_CAPABILITY
|| (capability == Capabilities.TESLA_CONSUMER_CAPABILITY && getConsumingSides().contains(facing))
|| (capability == Capabilities.TESLA_PRODUCER_CAPABILITY && getOutputtingSides().contains(facing))
|| super.hasCapability(capability, facing);
}
private CapabilityWrapperManager teslaManager = new CapabilityWrapperManager(TileEntityElectricBlock.class, TeslaIntegration.class);
@Override
public <T> T getCapability(Capability<T> capability, EnumFacing facing)
{
if(capability == Capabilities.ENERGY_STORAGE_CAPABILITY || capability == Capabilities.ENERGY_ACCEPTOR_CAPABILITY ||
capability == Capabilities.CABLE_OUTPUTTER_CAPABILITY || capability == Capabilities.CONFIGURABLE_CAPABILITY)
{
return (T)this;
}
if(capability == Capabilities.TESLA_HOLDER_CAPABILITY
|| (capability == Capabilities.TESLA_CONSUMER_CAPABILITY && getConsumingSides().contains(facing))
|| (capability == Capabilities.TESLA_PRODUCER_CAPABILITY && getOutputtingSides().contains(facing)))
{
return (T)teslaManager.getWrapper(this, facing);
}
return super.getCapability(capability, facing);
}
}