TechReborn/src/main/java/techreborn/powerSystem/TilePowerAcceptor.java

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package techreborn.powerSystem;
import cofh.api.energy.IEnergyProvider;
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import cofh.api.energy.IEnergyReceiver;
import cpw.mods.fml.common.FMLCommonHandler;
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import cpw.mods.fml.common.Optional;
import ic2.api.energy.event.EnergyTileLoadEvent;
import ic2.api.energy.event.EnergyTileUnloadEvent;
import ic2.api.energy.tile.IEnergySink;
import ic2.api.energy.tile.IEnergySource;
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import ic2.api.energy.tile.IEnergyTile;
import ic2.api.info.Info;
import net.minecraft.nbt.NBTTagCompound;
import net.minecraft.tileentity.TileEntity;
import net.minecraftforge.common.MinecraftForge;
import net.minecraftforge.common.util.ForgeDirection;
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import techreborn.api.power.IEnergyInterfaceTile;
import techreborn.asm.Strippable;
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import techreborn.config.ConfigTechReborn;
import java.util.List;
@Optional.InterfaceList(value = {
@Optional.Interface(iface = "ic2.api.energy.tile.IEnergyTile", modid = "IC2"),
@Optional.Interface(iface = "ic2.api.energy.tile.IEnergySink", modid = "IC2"),
@Optional.Interface(iface = "ic2.api.energy.tile.IEnergySource", modid = "IC2")
})
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public abstract class TilePowerAcceptor extends RFProviderTile implements
IEnergyReceiver, IEnergyProvider, //Cofh
IEnergyInterfaceTile,//TechReborn
IEnergyTile, IEnergySink, IEnergySource //Ic2
{
public int tier;
private double energy;
public TilePowerAcceptor(int tier) {
this.tier = tier;
}
//IC2
@Strippable("mod:IC2")
protected boolean addedToEnet;
@Strippable("mod:IC2")
@Override
public void updateEntity() {
super.updateEntity();
onLoaded();
}
@Strippable("mod:IC2")
public void onLoaded() {
if (PowerSystem.EUPOWENET && !addedToEnet &&
!FMLCommonHandler.instance().getEffectiveSide().isClient() &&
Info.isIc2Available()) {
MinecraftForge.EVENT_BUS.post(new EnergyTileLoadEvent(this));
addedToEnet = true;
}
}
@Strippable("mod:IC2")
@Override
public void invalidate() {
super.invalidate();
onChunkUnload();
}
@Strippable("mod:IC2")
@Override
public void onChunkUnload() {
super.onChunkUnload();
if (PowerSystem.EUPOWENET) {
if (addedToEnet &&
Info.isIc2Available()) {
MinecraftForge.EVENT_BUS.post(new EnergyTileUnloadEvent(this));
addedToEnet = false;
}
}
}
@Strippable("mod:IC2")
@Override
public double getDemandedEnergy() {
if (!PowerSystem.EUPOWENET)
return 0;
return getMaxPower() - getEnergy();
}
@Strippable("mod:IC2")
@Override
public int getSinkTier() {
return tier;
}
@Strippable("mod:IC2")
@Override
public double injectEnergy(ForgeDirection directionFrom, double amount, double voltage) {
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setEnergy(getEnergy() + amount);
return 0;
}
@Strippable("mod:IC2")
@Override
public boolean acceptsEnergyFrom(TileEntity emitter, ForgeDirection direction) {
if (!PowerSystem.EUPOWENET)
return false;
return canAcceptEnergy(direction);
}
@Strippable("mod:IC2")
@Override
public boolean emitsEnergyTo(TileEntity receiver, ForgeDirection direction) {
if (!PowerSystem.EUPOWENET)
return false;
return canProvideEnergy(direction);
}
@Strippable("mod:IC2")
@Override
public double getOfferedEnergy() {
if (!PowerSystem.EUPOWENET)
return 0;
return getEnergy();
}
@Strippable("mod:IC2")
@Override
public void drawEnergy(double amount) {
useEnergy((int) amount);
}
@Strippable("mod:IC2")
@Override
public int getSourceTier() {
return tier;
}
//END IC2
//COFH
@Override
public boolean canConnectEnergy(ForgeDirection from) {
if (!PowerSystem.RFPOWENET)
return false;
return canAcceptEnergy(from) || canProvideEnergy(from);
}
@Override
public int receiveEnergy(ForgeDirection from, int maxReceive, boolean simulate) {
if (!PowerSystem.RFPOWENET)
return 0;
if (!canAcceptEnergy(from)) {
return 0;
}
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maxReceive *= ConfigTechReborn.euPerRF;
int energyReceived = Math.min(getMaxEnergyStored(ForgeDirection.UNKNOWN) - getEnergyStored(ForgeDirection.UNKNOWN), Math.min((int) this.getMaxInput() * ConfigTechReborn.euPerRF, maxReceive));
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if (!simulate) {
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setEnergy(getEnergy() + energyReceived);
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}
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return energyReceived / ConfigTechReborn.euPerRF;
}
@Override
public int getEnergyStored(ForgeDirection from) {
if (!PowerSystem.RFPOWENET)
return 0;
return ((int) getEnergy() / ConfigTechReborn.euPerRF);
}
@Override
public int getMaxEnergyStored(ForgeDirection from) {
if (!PowerSystem.RFPOWENET)
return 0;
return ((int) getMaxPower() / ConfigTechReborn.euPerRF);
}
@Override
public int extractEnergy(ForgeDirection from, int maxExtract, boolean simulate) {
if (!PowerSystem.RFPOWENET)
return 0;
if (!canAcceptEnergy(from)) {
return 0;
}
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maxExtract *= ConfigTechReborn.euPerRF;
int energyExtracted = Math.min(getEnergyStored(ForgeDirection.UNKNOWN), Math.min(maxExtract, maxExtract));
if (!simulate) {
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setEnergy(energy - energyExtracted);
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}
return energyExtracted / ConfigTechReborn.euPerRF;
}
//END COFH
//TechReborn
@Override
public double getEnergy() {
return energy;
}
@Override
public void setEnergy(double energy) {
this.energy = energy;
if (this.getEnergy() > getMaxPower()) {
this.setEnergy(getMaxPower());
} else if (this.energy < 0) {
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this.setEnergy(0);
}
}
@Override
public double addEnergy(double energy) {
return addEnergy(energy, false);
}
@Override
public double addEnergy(double energy, boolean simulate) {
double energyReceived = Math.min(getMaxPower() - energy, Math.min(this.getMaxPower(), energy));
if (!simulate) {
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setEnergy(energy + energyReceived);
}
return energyReceived;
}
@Override
public boolean canUseEnergy(double input) {
return input <= energy;
}
@Override
public double useEnergy(double energy) {
return useEnergy(energy, false);
}
@Override
public double useEnergy(double extract, boolean simulate) {
double energyExtracted = Math.min(extract, Math.min(this.getMaxOutput(), extract));
if (!simulate) {
setEnergy(energy - energyExtracted);
}
return energyExtracted;
}
@Override
public boolean canAddEnergy(double energy) {
return this.energy + energy <= getMaxPower();
}
//TechReborn END
@Override
public void readFromNBT(NBTTagCompound tag) {
super.readFromNBT(tag);
NBTTagCompound data = tag.getCompoundTag("TilePowerAcceptor");
energy = data.getDouble("energy");
}
@Override
public void writeToNBT(NBTTagCompound tag) {
super.writeToNBT(tag);
NBTTagCompound data = new NBTTagCompound();
data.setDouble("energy", energy);
tag.setTag("TilePowerAcceptor", data);
}
public void readFromNBTWithoutCoords(NBTTagCompound tag) {
NBTTagCompound data = tag.getCompoundTag("TilePowerAcceptor");
energy = data.getDouble("energy");
}
public void writeToNBTWithoutCoords(NBTTagCompound tag) {
NBTTagCompound data = new NBTTagCompound();
data.setDouble("energy", energy);
tag.setTag("TilePowerAcceptor", data);
}
public int getEnergyScaled(int scale) {
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return (int) ((energy * scale / getMaxOutput() * ConfigTechReborn.euPerRF));
}
@Override
public void addWailaInfo(List<String> info) {
super.addWailaInfo(info);
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info.add("Energy buffer Size " + getEUString(getMaxPower()));
info.add("Max Input " + getEUString(getMaxInput()));
info.add("Max Output " + getEUString(getMaxOutput()));
}
private String getEUString(double euValue) {
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if (euValue >= 1000000) {
double tenX = Math.round(euValue / 100000);
return Double.toString(tenX / 10.0).concat(" m EU");
} else if (euValue >= 1000) {
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double tenX = Math.round(euValue / 100);
return Double.toString(tenX / 10.0).concat(" k EU");
} else {
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return Double.toString(Math.floor(euValue)).concat(" EU");
}
}
public double getFreeSpace(){
return getMaxPower() - energy;
}
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}