common/universalelectricity/core/grid/ElectricityNetwork.java - minecraft/mekanism - Rivoreo Source Code Repositories

 package universalelectricity.core.grid;

 import java.util.ArrayList;
 import java.util.Arrays;
 import java.util.HashMap;
 import java.util.HashSet;
 import java.util.Iterator;
 import java.util.List;
 import java.util.Map;
 import java.util.Set;

 import net.minecraft.tileentity.TileEntity;
 import net.minecraftforge.common.ForgeDirection;
 import net.minecraftforge.common.MinecraftForge;
 import universalelectricity.core.block.IConductor;
 import universalelectricity.core.block.IConnector;
 import universalelectricity.core.block.IElectrical;
 import universalelectricity.core.block.INetworkConnection;
 import universalelectricity.core.block.INetworkProvider;
 import universalelectricity.core.electricity.ElectricalEvent.ElectricityProductionEvent;
 import universalelectricity.core.electricity.ElectricalEvent.ElectricityRequestEvent;
 import universalelectricity.core.electricity.ElectricityPack;
 import universalelectricity.core.path.Pathfinder;
 import universalelectricity.core.path.PathfinderChecker;
 import universalelectricity.core.vector.Vector3;
 import universalelectricity.core.vector.VectorHelper;
 import cpw.mods.fml.common.FMLLog;

 /**
  * An Electrical Network specifies a wire connection. Each wire connection line will have its own
  * electrical network.
  *
  * !! Do not include this class if you do not intend to have custom wires in your mod. This will
  * increase future compatibility. !!
  *
  * @author Calclavia
  *
  */
 public class ElectricityNetwork implements IElectricityNetwork
 {
 	public Map<TileEntity, ArrayList<ForgeDirection>> electricalTiles = new HashMap<TileEntity, ArrayList<ForgeDirection>>();

 	private final Set<IConductor> conductors = new HashSet<IConductor>();

 	public float acceptorResistance = 500;

 	@Override
 	public float produce(ElectricityPack electricity, TileEntity... ignoreTiles)
 	{
 		ElectricityProductionEvent evt = new ElectricityProductionEvent(this, electricity, ignoreTiles);
 		MinecraftForge.EVENT_BUS.post(evt);

 		float totalEnergy = electricity.getWatts();
 		float networkResistance = getTotalResistance();
 		float proportionWasted = getTotalResistance() / (getTotalResistance() + acceptorResistance);
 		float energyWasted = totalEnergy * proportionWasted;
 		float totalUsableEnergy = totalEnergy - energyWasted;
 		float remainingUsableEnergy = totalUsableEnergy;
 		float voltage = electricity.voltage;

 		if (!evt.isCanceled())
 		{
 			Set<TileEntity> avaliableEnergyTiles = this.getAcceptors();

 			if (!avaliableEnergyTiles.isEmpty())
 			{
 				final float totalEnergyRequest = this.getRequest(ignoreTiles).getWatts();

 				if (totalEnergyRequest > 0)
 				{
 					for (TileEntity tileEntity : avaliableEnergyTiles)
 					{
 						if (!Arrays.asList(ignoreTiles).contains(tileEntity))
 						{
 							if (tileEntity instanceof IElectrical)
 							{
 								IElectrical electricalTile = (IElectrical) tileEntity;

 								for (ForgeDirection direction : ForgeDirection.VALID_DIRECTIONS)
 								{
 									if (electricalTile.canConnect(direction) && this.getConductors().contains(VectorHelper.getConnectorFromSide(tileEntity.worldObj, new Vector3(tileEntity), direction)))
 									{
 										float energyToSend = totalUsableEnergy * (electricalTile.getRequest(direction) / totalEnergyRequest);

 										if (energyToSend > 0)
 										{
 											ElectricityPack electricityToSend = ElectricityPack.getFromWatts(energyToSend, voltage);

 											remainingUsableEnergy -= ((IElectrical) tileEntity).receiveElectricity(direction, electricityToSend, true);
 										}
 									}
 								}
 							}
 						}
 					}
 				}
 			}
 		}

 		return remainingUsableEnergy;
 	}

 	/**
 	 * @return How much electricity this network needs.
 	 */
 	@Override
 	public ElectricityPack getRequest(TileEntity... ignoreTiles)
 	{
 		List<ElectricityPack> requests = new ArrayList<ElectricityPack>();

 		Iterator<TileEntity> it = this.getAcceptors().iterator();

 		while (it.hasNext())
 		{
 			TileEntity tileEntity = it.next();

 			if (Arrays.asList(ignoreTiles).contains(tileEntity))
 			{
 				continue;
 			}

 			if (tileEntity instanceof IElectrical)
 			{
 				if (!tileEntity.isInvalid())
 				{
 					if (tileEntity.worldObj.getBlockTileEntity(tileEntity.xCoord, tileEntity.yCoord, tileEntity.zCoord) == tileEntity)
 					{
 						for (ForgeDirection direction : ForgeDirection.VALID_DIRECTIONS)
 						{
 							if (((IElectrical) tileEntity).canConnect(direction) && this.getConductors().contains(VectorHelper.getConnectorFromSide(tileEntity.worldObj, new Vector3(tileEntity), direction)))
 							{
 								requests.add(ElectricityPack.getFromWatts(((IElectrical) tileEntity).getRequest(direction), ((IElectrical) tileEntity).getVoltage()));
 								continue;
 							}
 						}
 					}
 				}
 			}
 		}

 		ElectricityPack mergedPack = ElectricityPack.merge(requests);
 		ElectricityRequestEvent evt = new ElectricityRequestEvent(this, mergedPack, ignoreTiles);
 		MinecraftForge.EVENT_BUS.post(evt);
 		return mergedPack;
 	}

 	/**
 	 * @return Returns all producers in this electricity network.
 	 */
 	@Override
 	public Set<TileEntity> getAcceptors()
 	{
 		return this.electricalTiles.keySet();
 	}

 	/**
 	 * @param tile The tile to get connections for
 	 * @return The list of directions that can be connected to for the provided tile
 	 */
 	@Override
 	public ArrayList<ForgeDirection> getPossibleDirections(TileEntity tile)
 	{
 		return this.electricalTiles.containsKey(tile) ? this.electricalTiles.get(tile) : null;
 	}

 	/**
 	 * This function is called to refresh all conductors in this network
 	 */
 	@Override
 	public void refresh()
 	{
 		this.electricalTiles.clear();

 		try
 		{
 			Iterator<IConductor> it = this.conductors.iterator();

 			while (it.hasNext())
 			{
 				IConductor conductor = it.next();

 				if (conductor == null)
 				{
 					it.remove();
 				}
 				else if (((TileEntity) conductor).isInvalid())
 				{
 					it.remove();
 				}
 				else
 				{
 					conductor.setNetwork(this);
 				}

 				for (int i = 0; i < conductor.getAdjacentConnections().length; i++)
 				{
 					TileEntity acceptor = conductor.getAdjacentConnections()[i];

 					if (!(acceptor instanceof IConductor) && acceptor instanceof IConnector)
 					{
 						ArrayList<ForgeDirection> possibleDirections = null;

 						if (this.electricalTiles.containsKey(acceptor))
 						{
 							possibleDirections = this.electricalTiles.get(acceptor);
 						}
 						else
 						{
 							possibleDirections = new ArrayList<ForgeDirection>();
 						}

 						possibleDirections.add(ForgeDirection.getOrientation(i));

 						this.electricalTiles.put(acceptor, possibleDirections);
 					}
 				}
 			}
 		}
 		catch (Exception e)
 		{
 			FMLLog.severe("Universal Electricity: Failed to refresh conductor.");
 			e.printStackTrace();
 		}
 	}

 	@Override
 	public float getTotalResistance()
 	{
 		float resistance = 0;

 		for (IConductor conductor : this.conductors)
 		{
 			resistance += conductor.getResistance();
 		}

 		return resistance;
 	}

 	@Override
 	public float getLowestCurrentCapacity()
 	{
 		float lowestAmperage = 0;

 		for (IConductor conductor : this.conductors)
 		{
 			if (lowestAmperage == 0 || conductor.getCurrentCapacity() < lowestAmperage)
 			{
 				lowestAmperage = conductor.getCurrentCapacity();
 			}
 		}

 		return lowestAmperage;
 	}

 	@Override
 	public Set<IConductor> getConductors()
 	{
 		return this.conductors;
 	}

 	@Override
 	public void merge(IElectricityNetwork network)
 	{
 		if (network != null && network != this)
 		{
 			ElectricityNetwork newNetwork = new ElectricityNetwork();
 			newNetwork.getConductors().addAll(this.getConductors());
 			newNetwork.getConductors().addAll(network.getConductors());
 			newNetwork.refresh();
 		}
 	}

 	@Override
 	public void split(IConductor splitPoint)
 	{
 		if (splitPoint instanceof TileEntity)
 		{
 			this.getConductors().remove(splitPoint);

 			/**
 			 * Loop through the connected blocks and attempt to see if there are connections between
 			 * the two points elsewhere.
 			 */
 			TileEntity[] connectedBlocks = splitPoint.getAdjacentConnections();

 			for (int i = 0; i < connectedBlocks.length; i++)
 			{
 				TileEntity connectedBlockA = connectedBlocks[i];

 				if (connectedBlockA instanceof INetworkConnection)
 				{
 					for (int ii = 0; ii < connectedBlocks.length; ii++)
 					{
 						final TileEntity connectedBlockB = connectedBlocks[ii];

 						if (connectedBlockA != connectedBlockB && connectedBlockB instanceof INetworkConnection)
 						{
 							Pathfinder finder = new PathfinderChecker(((TileEntity) splitPoint).worldObj, (INetworkConnection) connectedBlockB, splitPoint);
 							finder.init(new Vector3(connectedBlockA));

 							if (finder.results.size() > 0)
 							{
 								/**
 								 * The connections A and B are still intact elsewhere. Set all
 								 * references of wire connection into one network.
 								 */

 								for (Vector3 node : finder.closedSet)
 								{
 									TileEntity nodeTile = node.getTileEntity(((TileEntity) splitPoint).worldObj);

 									if (nodeTile instanceof INetworkProvider)
 									{
 										if (nodeTile != splitPoint)
 										{
 											((INetworkProvider) nodeTile).setNetwork(this);
 										}
 									}
 								}
 							}
 							else
 							{
 								/**
 								 * The connections A and B are not connected anymore. Give both of
 								 * them a new network.
 								 */
 								IElectricityNetwork newNetwork = new ElectricityNetwork();

 								for (Vector3 node : finder.closedSet)
 								{
 									TileEntity nodeTile = node.getTileEntity(((TileEntity) splitPoint).worldObj);

 									if (nodeTile instanceof INetworkProvider)
 									{
 										if (nodeTile != splitPoint)
 										{
 											newNetwork.getConductors().add((IConductor) nodeTile);
 										}
 									}
 								}

 								newNetwork.refresh();
 							}
 						}
 					}
 				}
 			}
 		}
 	}

 	@Override
 	public String toString()
 	{
 		return "ElectricityNetwork[" + this.hashCode() + "|Wires:" + this.conductors.size() + "|Acceptors:" + this.electricalTiles.size() + "]";
 	}
 }
	package universalelectricity.core.grid;

	import java.util.ArrayList;
	import java.util.Arrays;
	import java.util.HashMap;
	import java.util.HashSet;
	import java.util.Iterator;
	import java.util.List;
	import java.util.Map;
	import java.util.Set;

	import net.minecraft.tileentity.TileEntity;
	import net.minecraftforge.common.ForgeDirection;
	import net.minecraftforge.common.MinecraftForge;
	import universalelectricity.core.block.IConductor;
	import universalelectricity.core.block.IConnector;
	import universalelectricity.core.block.IElectrical;
	import universalelectricity.core.block.INetworkConnection;
	import universalelectricity.core.block.INetworkProvider;
	import universalelectricity.core.electricity.ElectricalEvent.ElectricityProductionEvent;
	import universalelectricity.core.electricity.ElectricalEvent.ElectricityRequestEvent;
	import universalelectricity.core.electricity.ElectricityPack;
	import universalelectricity.core.path.Pathfinder;
	import universalelectricity.core.path.PathfinderChecker;
	import universalelectricity.core.vector.Vector3;
	import universalelectricity.core.vector.VectorHelper;
	import cpw.mods.fml.common.FMLLog;

	/**
	* An Electrical Network specifies a wire connection. Each wire connection line will have its own
	* electrical network.
	*
	* !! Do not include this class if you do not intend to have custom wires in your mod. This will
	* increase future compatibility. !!
	*
	* @author Calclavia
	*
	*/
	public class ElectricityNetwork implements IElectricityNetwork
	{
	public Map<TileEntity, ArrayList<ForgeDirection>> electricalTiles = new HashMap<TileEntity, ArrayList<ForgeDirection>>();

	private final Set<IConductor> conductors = new HashSet<IConductor>();

	public float acceptorResistance = 500;

	@Override
	public float produce(ElectricityPack electricity, TileEntity... ignoreTiles)
	{
	ElectricityProductionEvent evt = new ElectricityProductionEvent(this, electricity, ignoreTiles);
	MinecraftForge.EVENT_BUS.post(evt);

	float totalEnergy = electricity.getWatts();
	float networkResistance = getTotalResistance();
	float proportionWasted = getTotalResistance() / (getTotalResistance() + acceptorResistance);
	float energyWasted = totalEnergy * proportionWasted;
	float totalUsableEnergy = totalEnergy - energyWasted;
	float remainingUsableEnergy = totalUsableEnergy;
	float voltage = electricity.voltage;

	if (!evt.isCanceled())
	{
	Set<TileEntity> avaliableEnergyTiles = this.getAcceptors();

	if (!avaliableEnergyTiles.isEmpty())
	{
	final float totalEnergyRequest = this.getRequest(ignoreTiles).getWatts();

	if (totalEnergyRequest > 0)
	{
	for (TileEntity tileEntity : avaliableEnergyTiles)
	{
	if (!Arrays.asList(ignoreTiles).contains(tileEntity))
	{
	if (tileEntity instanceof IElectrical)
	{
	IElectrical electricalTile = (IElectrical) tileEntity;

	for (ForgeDirection direction : ForgeDirection.VALID_DIRECTIONS)
	{
	if (electricalTile.canConnect(direction) && this.getConductors().contains(VectorHelper.getConnectorFromSide(tileEntity.worldObj, new Vector3(tileEntity), direction)))
	{
	float energyToSend = totalUsableEnergy * (electricalTile.getRequest(direction) / totalEnergyRequest);

	if (energyToSend > 0)
	{
	ElectricityPack electricityToSend = ElectricityPack.getFromWatts(energyToSend, voltage);

	remainingUsableEnergy -= ((IElectrical) tileEntity).receiveElectricity(direction, electricityToSend, true);
	}
	}
	}
	}
	}
	}
	}
	}
	}

	return remainingUsableEnergy;
	}

	/**
	* @return How much electricity this network needs.
	*/
	@Override
	public ElectricityPack getRequest(TileEntity... ignoreTiles)
	{
	List<ElectricityPack> requests = new ArrayList<ElectricityPack>();

	Iterator<TileEntity> it = this.getAcceptors().iterator();

	while (it.hasNext())
	{
	TileEntity tileEntity = it.next();

	if (Arrays.asList(ignoreTiles).contains(tileEntity))
	{
	continue;
	}

	if (tileEntity instanceof IElectrical)
	{
	if (!tileEntity.isInvalid())
	{
	if (tileEntity.worldObj.getBlockTileEntity(tileEntity.xCoord, tileEntity.yCoord, tileEntity.zCoord) == tileEntity)
	{
	for (ForgeDirection direction : ForgeDirection.VALID_DIRECTIONS)
	{
	if (((IElectrical) tileEntity).canConnect(direction) && this.getConductors().contains(VectorHelper.getConnectorFromSide(tileEntity.worldObj, new Vector3(tileEntity), direction)))
	{
	requests.add(ElectricityPack.getFromWatts(((IElectrical) tileEntity).getRequest(direction), ((IElectrical) tileEntity).getVoltage()));
	continue;
	}
	}
	}
	}
	}
	}

	ElectricityPack mergedPack = ElectricityPack.merge(requests);
	ElectricityRequestEvent evt = new ElectricityRequestEvent(this, mergedPack, ignoreTiles);
	MinecraftForge.EVENT_BUS.post(evt);
	return mergedPack;
	}

	/**
	* @return Returns all producers in this electricity network.
	*/
	@Override
	public Set<TileEntity> getAcceptors()
	{
	return this.electricalTiles.keySet();
	}

	/**
	* @param tile The tile to get connections for
	* @return The list of directions that can be connected to for the provided tile
	*/
	@Override
	public ArrayList<ForgeDirection> getPossibleDirections(TileEntity tile)
	{
	return this.electricalTiles.containsKey(tile) ? this.electricalTiles.get(tile) : null;
	}

	/**
	* This function is called to refresh all conductors in this network
	*/
	@Override
	public void refresh()
	{
	this.electricalTiles.clear();

	try
	{
	Iterator<IConductor> it = this.conductors.iterator();

	while (it.hasNext())
	{
	IConductor conductor = it.next();

	if (conductor == null)
	{
	it.remove();
	}
	else if (((TileEntity) conductor).isInvalid())
	{
	it.remove();
	}
	else
	{
	conductor.setNetwork(this);
	}

	for (int i = 0; i < conductor.getAdjacentConnections().length; i++)
	{
	TileEntity acceptor = conductor.getAdjacentConnections()[i];

	if (!(acceptor instanceof IConductor) && acceptor instanceof IConnector)
	{
	ArrayList<ForgeDirection> possibleDirections = null;

	if (this.electricalTiles.containsKey(acceptor))
	{
	possibleDirections = this.electricalTiles.get(acceptor);
	}
	else
	{
	possibleDirections = new ArrayList<ForgeDirection>();
	}

	possibleDirections.add(ForgeDirection.getOrientation(i));

	this.electricalTiles.put(acceptor, possibleDirections);
	}
	}
	}
	}
	catch (Exception e)
	{
	FMLLog.severe("Universal Electricity: Failed to refresh conductor.");
	e.printStackTrace();
	}
	}

	@Override
	public float getTotalResistance()
	{
	float resistance = 0;

	for (IConductor conductor : this.conductors)
	{
	resistance += conductor.getResistance();
	}

	return resistance;
	}

	@Override
	public float getLowestCurrentCapacity()
	{
	float lowestAmperage = 0;

	for (IConductor conductor : this.conductors)
	{
	if (lowestAmperage == 0 \|\| conductor.getCurrentCapacity() < lowestAmperage)
	{
	lowestAmperage = conductor.getCurrentCapacity();
	}
	}

	return lowestAmperage;
	}

	@Override
	public Set<IConductor> getConductors()
	{
	return this.conductors;
	}

	@Override
	public void merge(IElectricityNetwork network)
	{
	if (network != null && network != this)
	{
	ElectricityNetwork newNetwork = new ElectricityNetwork();
	newNetwork.getConductors().addAll(this.getConductors());
	newNetwork.getConductors().addAll(network.getConductors());
	newNetwork.refresh();
	}
	}

	@Override
	public void split(IConductor splitPoint)
	{
	if (splitPoint instanceof TileEntity)
	{
	this.getConductors().remove(splitPoint);

	/**
	* Loop through the connected blocks and attempt to see if there are connections between
	* the two points elsewhere.
	*/
	TileEntity[] connectedBlocks = splitPoint.getAdjacentConnections();

	for (int i = 0; i < connectedBlocks.length; i++)
	{
	TileEntity connectedBlockA = connectedBlocks[i];

	if (connectedBlockA instanceof INetworkConnection)
	{
	for (int ii = 0; ii < connectedBlocks.length; ii++)
	{
	final TileEntity connectedBlockB = connectedBlocks[ii];

	if (connectedBlockA != connectedBlockB && connectedBlockB instanceof INetworkConnection)
	{
	Pathfinder finder = new PathfinderChecker(((TileEntity) splitPoint).worldObj, (INetworkConnection) connectedBlockB, splitPoint);
	finder.init(new Vector3(connectedBlockA));

	if (finder.results.size() > 0)
	{
	/**
	* The connections A and B are still intact elsewhere. Set all
	* references of wire connection into one network.
	*/

	for (Vector3 node : finder.closedSet)
	{
	TileEntity nodeTile = node.getTileEntity(((TileEntity) splitPoint).worldObj);

	if (nodeTile instanceof INetworkProvider)
	{
	if (nodeTile != splitPoint)
	{
	((INetworkProvider) nodeTile).setNetwork(this);
	}
	}
	}
	}
	else
	{
	/**
	* The connections A and B are not connected anymore. Give both of
	* them a new network.
	*/
	IElectricityNetwork newNetwork = new ElectricityNetwork();

	for (Vector3 node : finder.closedSet)
	{
	TileEntity nodeTile = node.getTileEntity(((TileEntity) splitPoint).worldObj);

	if (nodeTile instanceof INetworkProvider)
	{
	if (nodeTile != splitPoint)
	{
	newNetwork.getConductors().add((IConductor) nodeTile);
	}
	}
	}

	newNetwork.refresh();
	}
	}
	}
	}
	}
	}
	}

	@Override
	public String toString()
	{
	return "ElectricityNetwork[" + this.hashCode() + "\|Wires:" + this.conductors.size() + "\|Acceptors:" + this.electricalTiles.size() + "]";
	}
	}