package mods.eln.transparentnode.waterturbine;
import mods.eln.Eln;
import mods.eln.i18n.I18N;
import mods.eln.misc.Coordonate;
import mods.eln.misc.Direction;
import mods.eln.misc.LRDU;
import mods.eln.misc.Utils;
import mods.eln.node.NodeBase;
import mods.eln.node.NodePeriodicPublishProcess;
import mods.eln.node.transparent.TransparentNode;
import mods.eln.node.transparent.TransparentNodeDescriptor;
import mods.eln.node.transparent.TransparentNodeElement;
import mods.eln.node.transparent.TransparentNodeElementInventory;
import mods.eln.sim.ElectricalLoad;
import mods.eln.sim.ThermalLoad;
import mods.eln.sim.mna.component.PowerSource;
import mods.eln.sim.nbt.NbtElectricalLoad;
import net.minecraft.entity.player.EntityPlayer;
import net.minecraft.inventory.Container;
import net.minecraft.inventory.IInventory;
import java.io.DataOutputStream;
import java.io.IOException;
import java.util.HashMap;
import java.util.Map;
public class WaterTurbineElement extends TransparentNodeElement {
NbtElectricalLoad positiveLoad = new NbtElectricalLoad("positiveLoad");
PowerSource powerSource = new PowerSource("powerSource", positiveLoad);
WaterTurbineSlowProcess slowProcess = new WaterTurbineSlowProcess(this);
WaterTurbineDescriptor descriptor;
public WaterTurbineElement(TransparentNode transparentNode,
TransparentNodeDescriptor descriptor) {
super(transparentNode, descriptor);
this.descriptor = (WaterTurbineDescriptor) descriptor;
electricalLoadList.add(positiveLoad);
electricalComponentList.add(powerSource);
slowProcessList.add(new NodePeriodicPublishProcess(transparentNode, 2, 2));
slowProcessList.add(slowProcess);
}
@Override
public ElectricalLoad getElectricalLoad(Direction side, LRDU lrdu) {
if (lrdu != LRDU.Down) return null;
if (side == front) return positiveLoad;
return null;
}
@Override
public ThermalLoad getThermalLoad(Direction side, LRDU lrdu) {
return null;
}
@Override
public int getConnectionMask(Direction side, LRDU lrdu) {
if (lrdu != LRDU.Down) return 0;
if (side == front) return NodeBase.maskElectricalPower;
return 0;
}
@Override
public String multiMeterString(Direction side) {
return null;
}
@Override
public String thermoMeterString(Direction side) {
return null;
}
Coordonate waterCoord;
@Override
public void initialize() {
setPhysicalValue();
waterCoord = descriptor.getWaterCoordonate(node.coordonate.world());
waterCoord.applyTransformation(front, node.coordonate);
powerSource.setUmax(descriptor.maxVoltage);
powerSource.setImax(descriptor.nominalPower * 5 / descriptor.maxVoltage);
connect();
}
private void setPhysicalValue() {
descriptor.cable.applyTo(positiveLoad);
}
TransparentNodeElementInventory inventory = new TransparentNodeElementInventory(0, 64, this);
@Override
public IInventory getInventory() {
return inventory;
}
@Override
public boolean hasGui() {
return false;
}
@Override
public Container newContainer(Direction side, EntityPlayer player) {
return new WaterTurbineContainer(this.node, player, inventory);
}
@Override
public void networkSerialize(DataOutputStream stream) {
super.networkSerialize(stream);
try {
stream.writeFloat((float) (powerSource.getP() / descriptor.nominalPower));
} catch (IOException e) {
e.printStackTrace();
}
}
@Override
public boolean onBlockActivated(EntityPlayer entityPlayer, Direction side, float vx, float vy, float vz) {
return false;
}
@Override
public Map<String, String> getWaila() {
Map<String, String> wailaList = new HashMap<String, String>();
wailaList.put(I18N.tr("Generating"), slowProcess.getWaterFactor() > 0 ? I18N.tr("Yes") : I18N.tr("No"));
wailaList.put(I18N.tr("Produced power"), Utils.plotPower("", powerSource.getEffectiveP()));
if (Eln.wailaEasyMode) {
wailaList.put("Voltage", Utils.plotVolt("", powerSource.getU()));
}
return wailaList;
}
}