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package ihl.flexible_cable;
import ihl.IHLMod;
import ihl.interfaces.IEnergyNetNode;
import ihl.utils.IHLUtils;
import java.util.ArrayList;
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.nbt.NBTTagCompound;
import net.minecraft.server.MinecraftServer;
public class IHLGrid
{
private static final double powerLossLimitPerMeter=1.6D;
public final Set<IEnergyNetNode> telist = new HashSet();
public double energy=0D;
private IEnergyNetNode sink;
private IEnergyNetNode source;
private double voltage;
private short frequency=0;
private double lastVoltage;
public boolean isGridValid=true;
private double total20TicksEU;
private int lastTickCounter=0;
private int tickCounterFireStart=0;
public final List<IEnergyNetNode> calculatedSinks = new ArrayList();
public final List<IEnergyNetNode> calculatedSources = new ArrayList();
public final Set<NBTTagCompound> cablesOnFire = new HashSet();
private final Map<IEnergyNetNode, Double> energyLossSinkMap = new HashMap();
private final Map<IEnergyNetNode, Double> voltageSinkMap = new HashMap();
private double averageEUTransfered;
private double lastAverageEUTransfered=0D;
public void drawEnergy(double amount, IEnergyNetNode sink1)
{
this.energy-=amount;
if(energyLossSinkMap.get(sink1)!=null)
{
this.energy-=energyLossSinkMap.get(sink1)*amount*amount;
}
else
{
this.telist.add(sink1);
}
this.sink=sink1;
}
public void injectEnergy(double amount, double voltage1, IEnergyNetNode source1)
{
this.energy+=amount;
this.voltage=voltage1;
this.source=source1;
this.total20TicksEU+=amount;
int tickCounter = MinecraftServer.getServer().getTickCounter();
if(tickCounter-lastTickCounter<0)
{
lastTickCounter=tickCounter;
this.total20TicksEU=0D;
}
Iterator<IEnergyNetNode> i = telist.iterator();
while(this.energy>1d && i.hasNext())
{
IEnergyNetNode eNode = i.next();
if(eNode.getEnergyAmountThisNodeWant()>0d)
{
double powerToInject = Math.min(energy,eNode.getEnergyAmountThisNodeWant());
eNode.injectEnergyInThisNode(powerToInject, this.getSinkVoltage(eNode));
this.energy-=powerToInject;
if(energyLossSinkMap.get(eNode)!=null)
{
this.energy-=energyLossSinkMap.get(eNode)*powerToInject*powerToInject;
}
else
{
this.sink=eNode;
}
}
}
int d=tickCounter-lastTickCounter;
if(d>=200)
{
this.averageEUTransfered=this.total20TicksEU/d;
lastTickCounter=tickCounter;
this.total20TicksEU=0D;
if(IHLMod.config.enableFlexibleCablesGridPowerLossCalculations && isGridValid && this.averageEUTransfered>1D)
{
this.telist.add(source1);
this.updateGrid();
}
}
d=tickCounter-tickCounterFireStart;
if(d>=200 && !this.cablesOnFire.isEmpty())
{
for(NBTTagCompound cable:this.cablesOnFire)
{
this.removeCableAndSplitGrids(cable);
}
this.cablesOnFire.clear();
}
}
public void removeCableAndSplitGrids(NBTTagCompound cable)
{
IHLUtils.removeChain(cable,null);
Iterator<IEnergyNetNode> atei = this.telist.iterator();
while(atei.hasNext())
{
IEnergyNetNode cte = atei.next();
cte.setGrid(-1);
}
IHLMod.enet.removeCableEntities(cable);
Iterator<IEnergyNetNode> atei2 = telist.iterator();
while(atei2.hasNext())
{
IEnergyNetNode cte = atei2.next();
if(cte.getGridID()==-1)//Warning! Potential future bugs are hidden here!
{
Iterator<IEnergyNetNode> atei3 = telist.iterator();
while(atei3.hasNext())
{
IEnergyNetNode cte2 = atei3.next();
if(cte2!=cte && IHLMod.enet.hasSame(cte.getCableList(),cte2.getCableList()))
{
int result=IHLMod.enet.mergeGrids(cte.getGridID(), cte2.getGridID());
cte.setGrid(result);
cte2.setGrid(result);
break;
}
}
}
}
}
private void updateGrid()
{
if(this.source!=null &&
this.sink!=null &&
this.source!=this.sink &&
!this.sink.getCableList().isEmpty() &&
!this.source.getCableList().isEmpty() &&
(!this.calculatedSources.contains(this.source) ||
!this.calculatedSinks.contains(this.sink) ||
this.averageEUTransfered>this.lastAverageEUTransfered ||
this.voltage!=this.lastVoltage))
{
Map<IEnergyNetNode, NBTTagCompound> map = new HashMap();
Set<IEnergyNetNode> templist = new HashSet();
Set<IEnergyNetNode> processlist = new HashSet();
Set<IEnergyNetNode> templist2 = new HashSet();
templist.addAll(telist);
processlist.add(sink);
int threads=0;
a: while(!templist.isEmpty())
{
if(threads++>1000)
{
this.isGridValid=false;
return;
}
templist.removeAll(processlist);
templist2.clear();
Iterator<IEnergyNetNode> it1 = processlist.iterator();
while(it1.hasNext())
{
if(threads++>1000)
{
this.isGridValid=false;
return;
}
IEnergyNetNode ate1 = it1.next();
Iterator<IEnergyNetNode> it2 = templist.iterator();
while(it2.hasNext())
{
if(threads++>1000)
{
this.isGridValid=false;
return;
}
IEnergyNetNode ate2 = it2.next();
if(ate1!=ate2)
{
NBTTagCompound cable = this.getSame(ate1.getCableList(), ate2.getCableList());
if(cable!=null)
{
map.put(ate2, cable);
templist2.add(ate2);
if(ate2==source)
{
break a;
}
}
}
}
templist.removeAll(templist2);
}
processlist.clear();
processlist.addAll(templist2);
}
IEnergyNetNode cursor=source;
{
double voltage1=this.voltage;
double euTransfered=this.averageEUTransfered;
double voltageLossPerMeter=0D;
double powerLossPerMeter=0D;
double powerLossPerSquaredEU=0D;
this.energyLossSinkMap.remove(sink);
this.voltageSinkMap.remove(sink);
while(cursor!=sink)
{
//System.out.println("cycle 4");
NBTTagCompound cable = map.get(cursor);
voltageLossPerMeter=IHLUtils.getResistance(cable)/1000D*euTransfered/voltage1;
powerLossPerMeter=voltageLossPerMeter*euTransfered/voltage1;
euTransfered-=powerLossPerMeter*cable.getInteger("length");
voltage1-=voltageLossPerMeter*cable.getInteger("length");
powerLossPerSquaredEU+=IHLUtils.getResistance(cable)/1000d*cable.getInteger("length")/voltage1/voltage1;
//System.out.println("voltageLossPerMeter=" + voltageLossPerMeter);
//System.out.println("powerLossPerMeter=" + powerLossPerMeter);
//System.out.println("euTransfered=" + euTransfered);
//System.out.println("voltage1=" + voltage1);
//System.out.println("powerLossPerSquaredEU=" + powerLossPerSquaredEU);
if(!this.cablesOnFire.contains(cable) && (powerLossPerMeter>IHLGrid.powerLossLimitPerMeter))
{
IHLMod.enet.setOnFire(cable);
tickCounterFireStart=lastTickCounter;
this.cablesOnFire.add(cable);
}
cursor=this.getHasCable(cable, cursor);
}
this.energyLossSinkMap.put(sink, powerLossPerSquaredEU);
this.voltageSinkMap.put(sink, voltage1);
}
this.calculatedSources.add(this.source);
this.calculatedSinks.add(this.sink);
this.lastAverageEUTransfered=this.averageEUTransfered;
this.lastVoltage=this.voltage;
}
}
private NBTTagCompound getSame(Set<NBTTagCompound> set, Set<NBTTagCompound> set2)
{
Iterator<NBTTagCompound> i1 = set.iterator();
while(i1.hasNext())
{
NBTTagCompound cable=i1.next();
if(set2.contains(cable))
{
return cable;
}
}
return null;
}
public double getSinkVoltage(IEnergyNetNode node)
{
if(this.voltageSinkMap.containsKey(node))
{
return this.voltageSinkMap.get(node);
}
else
{
return this.voltage;
}
}
private IEnergyNetNode getHasCable(NBTTagCompound cable, IEnergyNetNode exclude)
{
Iterator<IEnergyNetNode> it1 = this.telist.iterator();
while(it1.hasNext())
{
IEnergyNetNode ate1 = it1.next();
if(ate1!=exclude && ate1.getCableList().contains(cable))
{
return ate1;
}
}
return null;
}
public void add(IEnergyNetNode e)
{
this.telist.add(e);
this.isGridValid=true;
if(!e.getCableList().isEmpty())
{
for(NBTTagCompound cable:e.getCableList())
{
IHLMod.enet.cablesToGrids.put(cable.getInteger("chainUID"), this);
}
}
}
}
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