src/main/java/mekanism/common/multipart/PartUniversalCable.java - minecraft/mekanism - Rivoreo Source Code Repositories

 package mekanism.common.multipart;

 import java.util.List;
 import java.util.Set;

 import mekanism.api.MekanismConfig.client;
 import mekanism.api.MekanismConfig.general;
 import mekanism.api.energy.ICableOutputter;
 import mekanism.api.energy.IStrictEnergyAcceptor;
 import mekanism.api.energy.IStrictEnergyStorage;
 import mekanism.api.transmitters.IGridTransmitter;
 import mekanism.api.transmitters.TransmissionType;
 import mekanism.client.render.RenderPartTransmitter;
 import mekanism.common.EnergyNetwork;
 import mekanism.common.Tier;
 import mekanism.common.util.CableUtils;
 import mekanism.common.util.MekanismUtils;

 import net.minecraft.client.renderer.texture.IIconRegister;
 import net.minecraft.nbt.NBTTagCompound;
 import net.minecraft.tileentity.TileEntity;
 import net.minecraft.util.IIcon;
 import net.minecraftforge.common.util.ForgeDirection;
 import cpw.mods.fml.common.Optional.Interface;
 import cpw.mods.fml.common.Optional.InterfaceList;
 import cpw.mods.fml.common.Optional.Method;
 import cpw.mods.fml.relauncher.Side;
 import cpw.mods.fml.relauncher.SideOnly;

 import codechicken.lib.vec.Vector3;
 import cofh.api.energy.IEnergyHandler;
 import cofh.api.energy.IEnergyProvider;
 import ic2.api.energy.tile.IEnergySource;

 @InterfaceList({
 		@Interface(iface = "cofh.api.energy.IEnergyHandler", modid = "CoFHAPI|energy"),
 })
 public class PartUniversalCable extends PartTransmitter<EnergyNetwork> implements IStrictEnergyAcceptor, IEnergyHandler
 {
 	public Tier.CableTier tier;

 	public static TransmitterIcons cableIcons = new TransmitterIcons(4, 2);

 	public double currentPower = 0;

 	public double cacheEnergy = 0;
 	public double lastWrite = 0;

 	public double drawAmount = 100;

 	public PartUniversalCable(Tier.CableTier cableTier)
 	{
 		tier = cableTier;
 	}

 	@Override
 	public void update()
 	{
 		if(world().isRemote)
 		{
 			double targetPower = getTransmitterNetwork().clientEnergyScale;

 			if(Math.abs(currentPower - targetPower) > 0.01)
 			{
 				currentPower = (9*currentPower + targetPower)/10;
 			}
 		}
 		else {
 			if(getTransmitterNetwork(false) != null && getTransmitterNetwork(false).getSize() > 0)
 			{
 				double last = lastWrite;

 				if(last != getSaveShare())
 				{
 					MekanismUtils.saveChunk(tile());
 				}
 			}

 			if(cacheEnergy > 0)
 			{
 				getTransmitterNetwork().electricityStored += cacheEnergy;
 				cacheEnergy = 0;
 			}

 				List<ForgeDirection> sides = getConnections(ConnectionType.PULL);

 				if(!sides.isEmpty())
 				{
 					TileEntity[] connectedOutputters = CableUtils.getConnectedOutputters(tile());

 					for(ForgeDirection side : sides)
 					{
 						if(connectedOutputters[side.ordinal()] != null)
 						{
 							TileEntity outputter = connectedOutputters[side.ordinal()];

 							if(outputter instanceof ICableOutputter && outputter instanceof IStrictEnergyStorage)
 							{
 								if(((ICableOutputter)outputter).canOutputTo(side.getOpposite()))
 								{
 									double received = Math.min(((IStrictEnergyStorage)outputter).getEnergy(), drawAmount);
 									double toDraw = received;

 									if(received > 0)
 									{
 										toDraw -= getTransmitterNetwork().emit(received, true);
 									}
 									((IStrictEnergyStorage)outputter).setEnergy(((IStrictEnergyStorage)outputter).getEnergy() - toDraw);
 								}
 							}
 							else if(MekanismUtils.useRF() && outputter instanceof IEnergyProvider)
 							{
 								double received = ((IEnergyProvider)outputter).extractEnergy(side.getOpposite(), (int)drawAmount, true) * general.FROM_TE;
 								double toDraw = received;

 								if(received > 0)
 								{
 									toDraw -= getTransmitterNetwork().emit(received, true);
 								}

 								((IEnergyProvider)outputter).extractEnergy(side.getOpposite(), (int)toDraw, false);
 							}
 							else if(MekanismUtils.useIC2() && outputter instanceof IEnergySource)
 							{
 								double received = Math.min(((IEnergySource)outputter).getOfferedEnergy() * general.FROM_IC2, drawAmount);
 								double toDraw = received;

 								if(received > 0)
 								{
 									toDraw -= getTransmitterNetwork().emit(received, true);
 								}
 								((IEnergySource)outputter).drawEnergy(toDraw * general.TO_IC2);
 							}
 						}
 					}
 				}
 		}

 		super.update();
 	}

 	private double getSaveShare()
 	{
 		return EnergyNetwork.round(getTransmitterNetwork().electricityStored*(1F/getTransmitterNetwork().transmitters.size()));
 	}

 	@Override
 	public TransmitterType getTransmitter()
 	{
 		return tier.type;
 	}

 	@Override
 	public void load(NBTTagCompound nbtTags)
 	{
 		super.load(nbtTags);

 		cacheEnergy = nbtTags.getDouble("cacheEnergy");
 		tier = Tier.CableTier.values()[nbtTags.getInteger("tier")];
 	}

 	@Override
 	public void save(NBTTagCompound nbtTags)
 	{
 		super.save(nbtTags);

 		double toSave = getSaveShare();

 		lastWrite = toSave;
 		nbtTags.setDouble("cacheEnergy", toSave);
 		nbtTags.setInteger("tier", tier.ordinal());
 	}

 	@Override
 	public String getType()
 	{
 		return "mekanism:universal_cable_" + tier.name().toLowerCase();
 	}

 	public static void registerIcons(IIconRegister register)
 	{
 		cableIcons.registerCenterIcons(register, new String[] {"UniversalCableBasic", "UniversalCableAdvanced",
 				"UniversalCableElite", "UniversalCableUltimate"});
 		cableIcons.registerSideIcons(register, new String[] {"SmallTransmitterVertical", "SmallTransmitterHorizontal"});
 	}

 	@Override
 	public void preSingleMerge(EnergyNetwork network)
 	{
 		network.electricityStored += cacheEnergy;
 		cacheEnergy = 0;
 	}

 	@Override
 	public IIcon getCenterIcon()
 	{
 		return cableIcons.getCenterIcon(tier.ordinal());
 	}

 	@Override
 	public IIcon getSideIcon()
 	{
 		return cableIcons.getSideIcon(0);
 	}

 	@Override
 	public IIcon getSideIconRotated()
 	{
 		return cableIcons.getSideIcon(1);
 	}

 	@Override
 	public TransmissionType getTransmissionType()
 	{
 		return TransmissionType.ENERGY;
 	}

 	@Override
 	public EnergyNetwork createNetworkFromSingleTransmitter(IGridTransmitter<EnergyNetwork> transmitter)
 	{
 		return new EnergyNetwork(transmitter);
 	}

 	@Override
 	public EnergyNetwork createNetworkByMergingSet(Set<EnergyNetwork> networks)
 	{
 		return new EnergyNetwork(networks);
 	}

 	@Override
 	public boolean isValidAcceptor(TileEntity acceptor, ForgeDirection side)
 	{
 		return CableUtils.isValidAcceptorOnSide(tile(), acceptor, side);
 	}

 	@Override
 	@SideOnly(Side.CLIENT)
 	public void renderDynamic(Vector3 pos, float frame, int pass)
 	{
 		if(pass == 0 && client.fancyUniversalCableRender)
 		{
 			RenderPartTransmitter.getInstance().renderContents(this, pos);
 		}
 	}

 	@Override
 	public void onChunkUnload()
 	{
 		if(!world().isRemote)
 		{
 			getTransmitterNetwork().electricityStored -= lastWrite;
 		}

 		super.onChunkUnload();
 	}

 	@Override
 	public int getTransmitterNetworkSize()
 	{
 		return getTransmitterNetwork().getSize();
 	}

 	@Override
 	public int getTransmitterNetworkAcceptorSize()
 	{
 		return getTransmitterNetwork().getAcceptorSize();
 	}

 	@Override
 	public String getTransmitterNetworkNeeded()
 	{
 		return getTransmitterNetwork().getNeededInfo();
 	}

 	@Override
 	public String getTransmitterNetworkFlow()
 	{
 		return getTransmitterNetwork().getFlowInfo();
 	}

 	@Override
 	@Method(modid = "CoFHAPI|energy")
 	public int receiveEnergy(ForgeDirection from, int maxReceive, boolean simulate)
 	{
 		if(canReceiveEnergy(from))
 		{
 			return maxReceive - (int)Math.round(getTransmitterNetwork().emit(maxReceive * general.FROM_TE, !simulate) * general.TO_TE);
 		}

 		return 0;
 	}

 	@Override
 	@Method(modid = "CoFHAPI|energy")
 	public int extractEnergy(ForgeDirection from, int maxExtract, boolean simulate)
 	{
 		return 0;
 	}

 	@Override
 	@Method(modid = "CoFHAPI|energy")
 	public boolean canConnectEnergy(ForgeDirection from)
 	{
 		return canConnect(from);
 	}

 	@Override
 	@Method(modid = "CoFHAPI|energy")
 	public int getEnergyStored(ForgeDirection from)
 	{
 		return 0;
 	}

 	@Override
 	@Method(modid = "CoFHAPI|energy")
 	public int getMaxEnergyStored(ForgeDirection from)
 	{
 		return (int)Math.round(getTransmitterNetwork().getEnergyNeeded()*general.TO_TE);
 	}

 	@Override
 	public int getCapacity()
 	{
 		return tier.cableCapacity;
 	}

 	@Override
 	public double transferEnergyToAcceptor(ForgeDirection side, double amount)
 	{
 		if(!canReceiveEnergy(side))
 		{
 			return 0;
 		}

 		double toUse = Math.min(getMaxEnergy()-getEnergy(), amount);
 		setEnergy(getEnergy() + toUse);

 		return toUse;
 	}

 	@Override
 	public boolean canReceiveEnergy(ForgeDirection side)
 	{
 		return getConnectionType(side) == ConnectionType.NORMAL;
 	}

 	@Override
 	public double getMaxEnergy()
 	{
 		return getTransmitterNetwork().getCapacity();
 	}

 	@Override
 	public double getEnergy()
 	{
 		return getTransmitterNetwork().electricityStored;
 	}

 	@Override
 	public void setEnergy(double energy)
 	{
 		getTransmitterNetwork().electricityStored = energy;
 	}
 }
	package mekanism.common.multipart;

	import java.util.List;
	import java.util.Set;

	import mekanism.api.MekanismConfig.client;
	import mekanism.api.MekanismConfig.general;
	import mekanism.api.energy.ICableOutputter;
	import mekanism.api.energy.IStrictEnergyAcceptor;
	import mekanism.api.energy.IStrictEnergyStorage;
	import mekanism.api.transmitters.IGridTransmitter;
	import mekanism.api.transmitters.TransmissionType;
	import mekanism.client.render.RenderPartTransmitter;
	import mekanism.common.EnergyNetwork;
	import mekanism.common.Tier;
	import mekanism.common.util.CableUtils;
	import mekanism.common.util.MekanismUtils;

	import net.minecraft.client.renderer.texture.IIconRegister;
	import net.minecraft.nbt.NBTTagCompound;
	import net.minecraft.tileentity.TileEntity;
	import net.minecraft.util.IIcon;
	import net.minecraftforge.common.util.ForgeDirection;
	import cpw.mods.fml.common.Optional.Interface;
	import cpw.mods.fml.common.Optional.InterfaceList;
	import cpw.mods.fml.common.Optional.Method;
	import cpw.mods.fml.relauncher.Side;
	import cpw.mods.fml.relauncher.SideOnly;

	import codechicken.lib.vec.Vector3;
	import cofh.api.energy.IEnergyHandler;
	import cofh.api.energy.IEnergyProvider;
	import ic2.api.energy.tile.IEnergySource;

	@InterfaceList({
	@Interface(iface = "cofh.api.energy.IEnergyHandler", modid = "CoFHAPI\|energy"),
	})
	public class PartUniversalCable extends PartTransmitter<EnergyNetwork> implements IStrictEnergyAcceptor, IEnergyHandler
	{
	public Tier.CableTier tier;

	public static TransmitterIcons cableIcons = new TransmitterIcons(4, 2);

	public double currentPower = 0;

	public double cacheEnergy = 0;
	public double lastWrite = 0;

	public double drawAmount = 100;

	public PartUniversalCable(Tier.CableTier cableTier)
	{
	tier = cableTier;
	}

	@Override
	public void update()
	{
	if(world().isRemote)
	{
	double targetPower = getTransmitterNetwork().clientEnergyScale;

	if(Math.abs(currentPower - targetPower) > 0.01)
	{
	currentPower = (9*currentPower + targetPower)/10;
	}
	}
	else {
	if(getTransmitterNetwork(false) != null && getTransmitterNetwork(false).getSize() > 0)
	{
	double last = lastWrite;

	if(last != getSaveShare())
	{
	MekanismUtils.saveChunk(tile());
	}
	}

	if(cacheEnergy > 0)
	{
	getTransmitterNetwork().electricityStored += cacheEnergy;
	cacheEnergy = 0;
	}

	List<ForgeDirection> sides = getConnections(ConnectionType.PULL);

	if(!sides.isEmpty())
	{
	TileEntity[] connectedOutputters = CableUtils.getConnectedOutputters(tile());

	for(ForgeDirection side : sides)
	{
	if(connectedOutputters[side.ordinal()] != null)
	{
	TileEntity outputter = connectedOutputters[side.ordinal()];

	if(outputter instanceof ICableOutputter && outputter instanceof IStrictEnergyStorage)
	{
	if(((ICableOutputter)outputter).canOutputTo(side.getOpposite()))
	{
	double received = Math.min(((IStrictEnergyStorage)outputter).getEnergy(), drawAmount);
	double toDraw = received;

	if(received > 0)
	{
	toDraw -= getTransmitterNetwork().emit(received, true);
	}
	((IStrictEnergyStorage)outputter).setEnergy(((IStrictEnergyStorage)outputter).getEnergy() - toDraw);
	}
	}
	else if(MekanismUtils.useRF() && outputter instanceof IEnergyProvider)
	{
	double received = ((IEnergyProvider)outputter).extractEnergy(side.getOpposite(), (int)drawAmount, true) * general.FROM_TE;
	double toDraw = received;

	if(received > 0)
	{
	toDraw -= getTransmitterNetwork().emit(received, true);
	}

	((IEnergyProvider)outputter).extractEnergy(side.getOpposite(), (int)toDraw, false);
	}
	else if(MekanismUtils.useIC2() && outputter instanceof IEnergySource)
	{
	double received = Math.min(((IEnergySource)outputter).getOfferedEnergy() * general.FROM_IC2, drawAmount);
	double toDraw = received;

	if(received > 0)
	{
	toDraw -= getTransmitterNetwork().emit(received, true);
	}
	((IEnergySource)outputter).drawEnergy(toDraw * general.TO_IC2);
	}
	}
	}
	}
	}

	super.update();
	}

	private double getSaveShare()
	{
	return EnergyNetwork.round(getTransmitterNetwork().electricityStored*(1F/getTransmitterNetwork().transmitters.size()));
	}

	@Override
	public TransmitterType getTransmitter()
	{
	return tier.type;
	}

	@Override
	public void load(NBTTagCompound nbtTags)
	{
	super.load(nbtTags);

	cacheEnergy = nbtTags.getDouble("cacheEnergy");
	tier = Tier.CableTier.values()[nbtTags.getInteger("tier")];
	}

	@Override
	public void save(NBTTagCompound nbtTags)
	{
	super.save(nbtTags);

	double toSave = getSaveShare();

	lastWrite = toSave;
	nbtTags.setDouble("cacheEnergy", toSave);
	nbtTags.setInteger("tier", tier.ordinal());
	}

	@Override
	public String getType()
	{
	return "mekanism:universal_cable_" + tier.name().toLowerCase();
	}

	public static void registerIcons(IIconRegister register)
	{
	cableIcons.registerCenterIcons(register, new String[] {"UniversalCableBasic", "UniversalCableAdvanced",
	"UniversalCableElite", "UniversalCableUltimate"});
	cableIcons.registerSideIcons(register, new String[] {"SmallTransmitterVertical", "SmallTransmitterHorizontal"});
	}

	@Override
	public void preSingleMerge(EnergyNetwork network)
	{
	network.electricityStored += cacheEnergy;
	cacheEnergy = 0;
	}

	@Override
	public IIcon getCenterIcon()
	{
	return cableIcons.getCenterIcon(tier.ordinal());
	}

	@Override
	public IIcon getSideIcon()
	{
	return cableIcons.getSideIcon(0);
	}

	@Override
	public IIcon getSideIconRotated()
	{
	return cableIcons.getSideIcon(1);
	}

	@Override
	public TransmissionType getTransmissionType()
	{
	return TransmissionType.ENERGY;
	}

	@Override
	public EnergyNetwork createNetworkFromSingleTransmitter(IGridTransmitter<EnergyNetwork> transmitter)
	{
	return new EnergyNetwork(transmitter);
	}

	@Override
	public EnergyNetwork createNetworkByMergingSet(Set<EnergyNetwork> networks)
	{
	return new EnergyNetwork(networks);
	}

	@Override
	public boolean isValidAcceptor(TileEntity acceptor, ForgeDirection side)
	{
	return CableUtils.isValidAcceptorOnSide(tile(), acceptor, side);
	}

	@Override
	@SideOnly(Side.CLIENT)
	public void renderDynamic(Vector3 pos, float frame, int pass)
	{
	if(pass == 0 && client.fancyUniversalCableRender)
	{
	RenderPartTransmitter.getInstance().renderContents(this, pos);
	}
	}

	@Override
	public void onChunkUnload()
	{
	if(!world().isRemote)
	{
	getTransmitterNetwork().electricityStored -= lastWrite;
	}

	super.onChunkUnload();
	}

	@Override
	public int getTransmitterNetworkSize()
	{
	return getTransmitterNetwork().getSize();
	}

	@Override
	public int getTransmitterNetworkAcceptorSize()
	{
	return getTransmitterNetwork().getAcceptorSize();
	}

	@Override
	public String getTransmitterNetworkNeeded()
	{
	return getTransmitterNetwork().getNeededInfo();
	}

	@Override
	public String getTransmitterNetworkFlow()
	{
	return getTransmitterNetwork().getFlowInfo();
	}

	@Override
	@Method(modid = "CoFHAPI\|energy")
	public int receiveEnergy(ForgeDirection from, int maxReceive, boolean simulate)
	{
	if(canReceiveEnergy(from))
	{
	return maxReceive - (int)Math.round(getTransmitterNetwork().emit(maxReceive * general.FROM_TE, !simulate) * general.TO_TE);
	}

	return 0;
	}

	@Override
	@Method(modid = "CoFHAPI\|energy")
	public int extractEnergy(ForgeDirection from, int maxExtract, boolean simulate)
	{
	return 0;
	}

	@Override
	@Method(modid = "CoFHAPI\|energy")
	public boolean canConnectEnergy(ForgeDirection from)
	{
	return canConnect(from);
	}

	@Override
	@Method(modid = "CoFHAPI\|energy")
	public int getEnergyStored(ForgeDirection from)
	{
	return 0;
	}

	@Override
	@Method(modid = "CoFHAPI\|energy")
	public int getMaxEnergyStored(ForgeDirection from)
	{
	return (int)Math.round(getTransmitterNetwork().getEnergyNeeded()*general.TO_TE);
	}

	@Override
	public int getCapacity()
	{
	return tier.cableCapacity;
	}

	@Override
	public double transferEnergyToAcceptor(ForgeDirection side, double amount)
	{
	if(!canReceiveEnergy(side))
	{
	return 0;
	}

	double toUse = Math.min(getMaxEnergy()-getEnergy(), amount);
	setEnergy(getEnergy() + toUse);

	return toUse;
	}

	@Override
	public boolean canReceiveEnergy(ForgeDirection side)
	{
	return getConnectionType(side) == ConnectionType.NORMAL;
	}

	@Override
	public double getMaxEnergy()
	{
	return getTransmitterNetwork().getCapacity();
	}

	@Override
	public double getEnergy()
	{
	return getTransmitterNetwork().electricityStored;
	}

	@Override
	public void setEnergy(double energy)
	{
	getTransmitterNetwork().electricityStored = energy;
	}
	}