Mekanism-tilera-Edition/common/mekanism/api/GasNetwork.java
2013-08-04 01:58:56 +01:00

322 lines
7.8 KiB
Java

package mekanism.api;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
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.minecraft.world.World;
import net.minecraftforge.common.ForgeDirection;
import net.minecraftforge.common.MinecraftForge;
import net.minecraftforge.event.Event;
import net.minecraftforge.event.ForgeSubscribe;
import net.minecraftforge.event.world.ChunkEvent;
import cpw.mods.fml.common.FMLCommonHandler;
public class GasNetwork implements ITransmitterNetwork
{
public Set<IPressurizedTube> tubes = new HashSet<IPressurizedTube>();
public Set<IGasAcceptor> possibleAcceptors = new HashSet<IGasAcceptor>();
public Map<IGasAcceptor, ForgeDirection> acceptorDirections = new HashMap<IGasAcceptor, ForgeDirection>();
public GasNetwork(IPressurizedTube... varPipes)
{
tubes.addAll(Arrays.asList(varPipes));
}
public int emit(int gasToSend, EnumGas transferType, TileEntity emitter)
{
List availableAcceptors = Arrays.asList(getGasAcceptors(transferType).toArray());
Collections.shuffle(availableAcceptors);
int prevSending = gasToSend;
if(!availableAcceptors.isEmpty())
{
int divider = availableAcceptors.size();
int remaining = gasToSend % divider;
int sending = (gasToSend-remaining)/divider;
for(Object obj : availableAcceptors)
{
if(obj instanceof IGasAcceptor && obj != emitter)
{
IGasAcceptor acceptor = (IGasAcceptor)obj;
int currentSending = sending;
if(remaining > 0)
{
currentSending++;
remaining--;
}
gasToSend -= (currentSending - acceptor.transferGasToAcceptor(currentSending, transferType));
}
}
}
if(prevSending > gasToSend && FMLCommonHandler.instance().getEffectiveSide().isServer())
{
MinecraftForge.EVENT_BUS.post(new GasTransferEvent(this, transferType));
}
return gasToSend;
}
public Set<IGasAcceptor> getGasAcceptors(EnumGas transferType)
{
Set<IGasAcceptor> toReturn = new HashSet<IGasAcceptor>();
for(IGasAcceptor acceptor : possibleAcceptors)
{
if(acceptor.canReceiveGas(acceptorDirections.get(acceptor).getOpposite(), transferType))
{
if(!(acceptor instanceof IGasStorage) || (acceptor instanceof IGasStorage && (((IGasStorage)acceptor).getMaxGas(transferType) - ((IGasStorage)acceptor).getGas(transferType)) > 0))
{
toReturn.add(acceptor);
}
}
}
return toReturn;
}
public void refresh()
{
Iterator it = tubes.iterator();
possibleAcceptors.clear();
acceptorDirections.clear();
while(it.hasNext())
{
IPressurizedTube conductor = (IPressurizedTube)it.next();
if(conductor == null)
{
it.remove();
}
else if(((TileEntity)conductor).isInvalid())
{
it.remove();
}
else {
conductor.setNetwork(this);
}
}
for(IPressurizedTube pipe : tubes)
{
IGasAcceptor[] acceptors = GasTransmission.getConnectedAcceptors((TileEntity)pipe);
for(IGasAcceptor acceptor : acceptors)
{
if(acceptor != null && !(acceptor instanceof IPressurizedTube))
{
possibleAcceptors.add(acceptor);
acceptorDirections.put(acceptor, ForgeDirection.getOrientation(Arrays.asList(acceptors).indexOf(acceptor)));
}
}
}
}
public void merge(GasNetwork network)
{
if(network != null && network != this)
{
GasNetwork newNetwork = new GasNetwork();
newNetwork.tubes.addAll(tubes);
newNetwork.tubes.addAll(network.tubes);
newNetwork.refresh();
}
}
public void split(IPressurizedTube splitPoint)
{
if(splitPoint instanceof TileEntity)
{
tubes.remove(splitPoint);
TileEntity[] connectedBlocks = new TileEntity[6];
for(ForgeDirection direction : ForgeDirection.VALID_DIRECTIONS)
{
TileEntity sideTile = Object3D.get((TileEntity)splitPoint).getFromSide(direction).getTileEntity(((TileEntity)splitPoint).worldObj);
if(sideTile != null)
{
connectedBlocks[Arrays.asList(ForgeDirection.values()).indexOf(direction)] = sideTile;
}
}
for(int countOne = 0; countOne < connectedBlocks.length; countOne++)
{
TileEntity connectedBlockA = connectedBlocks[countOne];
if(connectedBlockA instanceof IPressurizedTube)
{
for(int countTwo = 0; countTwo < connectedBlocks.length; countTwo++)
{
TileEntity connectedBlockB = connectedBlocks[countTwo];
if(connectedBlockA != connectedBlockB && connectedBlockB instanceof IPressurizedTube)
{
NetworkFinder finder = new NetworkFinder(((TileEntity)splitPoint).worldObj, Object3D.get(connectedBlockB), Object3D.get((TileEntity)splitPoint));
if(finder.foundTarget(Object3D.get(connectedBlockA)))
{
for(Object3D node : finder.iterated)
{
TileEntity nodeTile = node.getTileEntity(((TileEntity)splitPoint).worldObj);
if(nodeTile instanceof IPressurizedTube)
{
if(nodeTile != splitPoint)
{
((IPressurizedTube)nodeTile).setNetwork(this);
}
}
}
}
else {
GasNetwork newNetwork = new GasNetwork();
for(Object3D node : finder.iterated)
{
TileEntity nodeTile = node.getTileEntity(((TileEntity)splitPoint).worldObj);
if(nodeTile instanceof IPressurizedTube)
{
if(nodeTile != splitPoint)
{
newNetwork.tubes.add((IPressurizedTube)nodeTile);
}
}
}
newNetwork.refresh();
}
}
}
}
}
}
}
public static class NetworkFinder
{
public World worldObj;
public Object3D toFind;
public List<Object3D> iterated = new ArrayList<Object3D>();
public List<Object3D> toIgnore = new ArrayList<Object3D>();
public NetworkFinder(World world, Object3D target, Object3D... ignore)
{
worldObj = world;
toFind = target;
if(ignore != null)
{
toIgnore = Arrays.asList(ignore);
}
}
public void loopThrough(Object3D location)
{
iterated.add(location);
if(iterated.contains(toFind))
{
return;
}
for(ForgeDirection direction : ForgeDirection.VALID_DIRECTIONS)
{
Object3D obj = location.getFromSide(direction);
if(!iterated.contains(obj) && !toIgnore.contains(obj))
{
TileEntity tileEntity = location.getTileEntity(worldObj);
TileEntity sideTile = obj.getTileEntity(worldObj);
if(sideTile instanceof IPressurizedTube && ((IPressurizedTube)sideTile).canTransferGas())
{
if(((IPressurizedTube)sideTile).canTransferGasToTube(tileEntity) && ((IPressurizedTube)tileEntity).canTransferGasToTube(sideTile))
{
loopThrough(obj);
}
}
}
}
}
public boolean foundTarget(Object3D start)
{
loopThrough(start);
return iterated.contains(toFind);
}
}
public static class GasTransferEvent extends Event
{
public final GasNetwork gasNetwork;
public final EnumGas transferType;
public GasTransferEvent(GasNetwork network, EnumGas type)
{
gasNetwork = network;
transferType = type;
}
}
public static class NetworkLoader
{
@ForgeSubscribe
public void onChunkLoad(ChunkEvent.Load event)
{
if(event.getChunk() != null)
{
for(Object obj : event.getChunk().chunkTileEntityMap.values())
{
if(obj instanceof TileEntity)
{
TileEntity tileEntity = (TileEntity)obj;
if(tileEntity instanceof IPressurizedTube)
{
((IPressurizedTube)tileEntity).refreshNetwork();
}
}
}
}
}
}
@Override
public String toString()
{
return "[GasNetwork] " + tubes.size() + " pipes, " + possibleAcceptors.size() + " acceptors.";
}
public void tick()
{
}
@Override
public int getSize()
{
return tubes.size();
}
}