ActuallyAdditions/src/main/java/ellpeck/actuallyadditions/misc/LaserRelayConnectionHandler.java
2015-10-21 00:22:50 +02:00

239 lines
9.2 KiB
Java

/*
* This file ("LaserRelayConnectionHandler.java") is part of the Actually Additions Mod for Minecraft.
* It is created and owned by Ellpeck and distributed
* under the Actually Additions License to be found at
* http://github.com/Ellpeck/ActuallyAdditions/blob/master/README.md
* View the source code at https://github.com/Ellpeck/ActuallyAdditions
*
* © 2015 Ellpeck
*/
package ellpeck.actuallyadditions.misc;
import cofh.api.energy.IEnergyReceiver;
import ellpeck.actuallyadditions.tile.TileEntityLaserRelay;
import ellpeck.actuallyadditions.util.WorldPos;
import ellpeck.actuallyadditions.util.WorldUtil;
import net.minecraft.nbt.NBTTagCompound;
import net.minecraft.tileentity.TileEntity;
import net.minecraft.world.World;
import net.minecraftforge.common.DimensionManager;
import net.minecraftforge.common.util.ForgeDirection;
import java.util.ArrayList;
import java.util.Iterator;
public class LaserRelayConnectionHandler{
private static LaserRelayConnectionHandler instance;
/**
* An ArrayList of all of the networks a world has
* (Every place contains an ArrayList of ConnectionPairs, that is a single network!)
*/
public ArrayList<ArrayList<ConnectionPair>> networks = new ArrayList<ArrayList<ConnectionPair>>();
public static LaserRelayConnectionHandler getInstance(){
return instance;
}
public static void setInstance(LaserRelayConnectionHandler i){
instance = i;
}
public void writeNetworkToNBT(ArrayList<ConnectionPair> network, NBTTagCompound tag, String name){
NBTTagCompound compound = new NBTTagCompound();
compound.setInteger("NetworkSize", network.size());
for(int pair = 0; pair < network.size(); pair++){
network.get(pair).writeToNBT(compound, "Pair"+pair);
}
tag.setTag(name, compound);
}
public ArrayList<ConnectionPair> readNetworkFromNBT(NBTTagCompound tag, String name){
NBTTagCompound compound = tag.getCompoundTag(name);
int networkSize = compound.getInteger("NetworkSize");
ArrayList<ConnectionPair> network = new ArrayList<ConnectionPair>();
for(int pair = 0; pair < networkSize; pair++){
network.add(ConnectionPair.readFromNBT(compound, "Pair"+pair));
}
return network;
}
/**
* Gets a Network for a Relay
*/
public ArrayList<ConnectionPair> getNetworkFor(WorldPos relay){
for(ArrayList<ConnectionPair> aNetwork : this.networks){
for(ConnectionPair pair : aNetwork){
if(pair.contains(relay)){
return aNetwork;
}
}
}
return null;
}
/**
* Gets all Connections for a Relay
*/
public ArrayList<ConnectionPair> getConnectionsFor(WorldPos relay){
ArrayList<ConnectionPair> allPairs = new ArrayList<ConnectionPair>();
for(ArrayList<ConnectionPair> aNetwork : this.networks){
for(ConnectionPair pair : aNetwork){
if(pair.contains(relay)){
allPairs.add(pair);
}
}
}
return allPairs;
}
/**
* Adds a new connection between two relays
* (Puts it into the correct network!)
*/
public boolean addConnection(WorldPos firstRelay, WorldPos secondRelay){
ArrayList<ConnectionPair> firstNetwork = this.getNetworkFor(firstRelay);
ArrayList<ConnectionPair> secondNetwork = this.getNetworkFor(secondRelay);
//No Network exists
if(firstNetwork == null && secondNetwork == null){
firstNetwork = new ArrayList<ConnectionPair>();
this.networks.add(firstNetwork);
firstNetwork.add(new ConnectionPair(firstRelay, secondRelay));
}
//The same Network
else if(firstNetwork == secondNetwork){
return false;
}
//Both relays have networks
else if(firstNetwork != null && secondNetwork != null){
this.mergeNetworks(firstNetwork, secondNetwork);
firstNetwork.add(new ConnectionPair(firstRelay, secondRelay));
}
//Only first network exists
else if(firstNetwork != null){
firstNetwork.add(new ConnectionPair(firstRelay, secondRelay));
}
//Only second network exists
else if(secondNetwork != null){
secondNetwork.add(new ConnectionPair(firstRelay, secondRelay));
}
WorldData.makeDirty();
//System.out.println("Connected "+firstRelay.toString()+" to "+secondRelay.toString());
//System.out.println(firstNetwork == null ? secondNetwork.toString() : firstNetwork.toString());
return true;
}
/**
* Removes a Relay from its Network
*/
public void removeRelayFromNetwork(WorldPos relay){
ArrayList<ConnectionPair> network = this.getNetworkFor(relay);
if(network != null){
//Remove the relay from the network
Iterator<ConnectionPair> iterator = network.iterator();
while(iterator.hasNext()){
ConnectionPair next = iterator.next();
if(next.contains(relay)){
iterator.remove();
//System.out.println("Removed "+relay.toString()+" from Network "+network.toString());
}
}
//Setup new network (so that splitting a network will cause it to break into two)
this.networks.remove(network);
for(ConnectionPair pair : network){
this.addConnection(pair.firstRelay, pair.secondRelay);
}
}
WorldData.makeDirty();
}
/**
* Merges two networks together
* (Actually puts everything from the second network into the first one and removes the second one)
*/
public void mergeNetworks(ArrayList<ConnectionPair> firstNetwork, ArrayList<ConnectionPair> secondNetwork){
for(ConnectionPair secondPair : secondNetwork){
firstNetwork.add(secondPair);
}
this.networks.remove(secondNetwork);
WorldData.makeDirty();
//System.out.println("Merged Two Networks!");
}
public int transferEnergyToReceiverInNeed(ArrayList<ConnectionPair> network, int maxTransfer, boolean simulate){
//Go through all of the connections in the network
for(ConnectionPair pair : network){
WorldPos[] relays = new WorldPos[]{pair.firstRelay, pair.secondRelay};
//Go through both relays in the connection
for(WorldPos relay : relays){
if(relay != null){
//Get every side of the relay
for(int i = 0; i <= 5; i++){
ForgeDirection side = ForgeDirection.getOrientation(i);
//Get the TileEntity at the side
TileEntity tile = WorldUtil.getTileEntityFromSide(side, relay.getWorld(), relay.getX(), relay.getY(), relay.getZ());
if(tile instanceof IEnergyReceiver && !(tile instanceof TileEntityLaserRelay)){
IEnergyReceiver receiver = (IEnergyReceiver)tile;
if(receiver.canConnectEnergy(side.getOpposite())){
//Transfer the energy
return ((IEnergyReceiver)tile).receiveEnergy(side.getOpposite(), maxTransfer, simulate);
}
}
}
}
}
}
return 0;
}
public static class ConnectionPair{
public WorldPos firstRelay;
public WorldPos secondRelay;
public ConnectionPair(WorldPos firstRelay, WorldPos secondRelay){
this.firstRelay = firstRelay;
this.secondRelay = secondRelay;
}
public boolean contains(WorldPos relay){
return (this.firstRelay != null && this.firstRelay.isEqual(relay)) || (this.secondRelay != null && this.secondRelay.isEqual(relay));
}
@Override
public String toString(){
return (this.firstRelay == null ? "-" : this.firstRelay.toString())+" | "+(this.secondRelay == null ? "-" : this.secondRelay.toString());
}
public void writeToNBT(NBTTagCompound compound, String name){
for(int i = 0; i < 2; i++){
WorldPos relay = i == 0 ? this.firstRelay : this.secondRelay;
compound.setInteger("world"+name+i, relay.getWorld().provider.dimensionId);
compound.setInteger("x"+name+i, relay.getX());
compound.setInteger("y"+name+i, relay.getY());
compound.setInteger("z"+name+i, relay.getZ());
}
}
public static ConnectionPair readFromNBT(NBTTagCompound compound, String name){
WorldPos[] pos = new WorldPos[2];
for(int i = 0; i < pos.length; i++){
World aWorld = DimensionManager.getWorld(compound.getInteger("world"+name+i));
int anX = compound.getInteger("x"+name+i);
int aY = compound.getInteger("y"+name+i);
int aZ = compound.getInteger("z"+name+i);
pos[i] = new WorldPos(aWorld, anX, aY, aZ);
}
return new ConnectionPair(pos[0], pos[1]);
}
}
}