package mods.eln.sixnode.electricalrelay;
import mods.eln.Eln;
import mods.eln.i18n.I18N;
import mods.eln.misc.Direction;
import mods.eln.misc.LRDU;
import mods.eln.misc.Utils;
import mods.eln.node.NodeBase;
import mods.eln.node.six.SixNode;
import mods.eln.node.six.SixNodeDescriptor;
import mods.eln.node.six.SixNodeElement;
import mods.eln.sim.ElectricalLoad;
import mods.eln.sim.ThermalLoad;
import mods.eln.sim.mna.component.Resistor;
import mods.eln.sim.nbt.NbtElectricalGateInput;
import mods.eln.sim.nbt.NbtElectricalLoad;
import mods.eln.sim.process.destruct.VoltageStateWatchDog;
import mods.eln.sim.process.destruct.WorldExplosion;
import mods.eln.sixnode.electricalcable.ElectricalCableDescriptor;
import mods.eln.sound.SoundCommand;
import net.minecraft.entity.player.EntityPlayer;
import net.minecraft.item.ItemStack;
import net.minecraft.nbt.NBTTagCompound;
import java.io.DataInputStream;
import java.io.DataOutputStream;
import java.io.IOException;
import java.util.HashMap;
import java.util.Map;
public class ElectricalRelayElement extends SixNodeElement {
public ElectricalRelayDescriptor descriptor;
public NbtElectricalLoad aLoad = new NbtElectricalLoad("aLoad");
public NbtElectricalLoad bLoad = new NbtElectricalLoad("bLoad");
public Resistor switchResistor = new Resistor(aLoad, bLoad);
public NbtElectricalGateInput gate = new NbtElectricalGateInput("gate");
public ElectricalRelayGateProcess gateProcess = new ElectricalRelayGateProcess(this, "GP", gate);
VoltageStateWatchDog voltageWatchDogA = new VoltageStateWatchDog();
VoltageStateWatchDog voltageWatchDogB = new VoltageStateWatchDog();
//ResistorCurrentWatchdog currentWatchDog = new ResistorCurrentWatchdog();
boolean switchState = false, defaultOutput = false;
public ElectricalCableDescriptor cableDescriptor = null;
public static final byte toogleOutputDefaultId = 3;
public ElectricalRelayElement(SixNode sixNode, Direction side, SixNodeDescriptor descriptor) {
super(sixNode, side, descriptor);
this.descriptor = (ElectricalRelayDescriptor) descriptor;
electricalLoadList.add(aLoad);
electricalLoadList.add(bLoad);
electricalComponentList.add(switchResistor);
electricalProcessList.add(gateProcess);
electricalLoadList.add(gate);
electricalComponentList.add(new Resistor(bLoad, null).pullDown());
electricalComponentList.add(new Resistor(aLoad, null).pullDown());
//slowProcessList.add(currentWatchDog);
slowProcessList.add(voltageWatchDogA);
slowProcessList.add(voltageWatchDogB);
WorldExplosion exp = new WorldExplosion(this).cableExplosion();
//currentWatchDog.set(switchResistor).setIAbsMax(this.descriptor.cable.electricalMaximalCurrent).set(exp);
voltageWatchDogA.set(aLoad).setUNominal(this.descriptor.cable.electricalNominalVoltage).set(exp);
voltageWatchDogB.set(bLoad).setUNominal(this.descriptor.cable.electricalNominalVoltage).set(exp);
}
public static boolean canBePlacedOnSide(Direction side, int type) {
return true;
}
@Override
public void readFromNBT(NBTTagCompound nbt) {
super.readFromNBT(nbt);
byte value = nbt.getByte("front");
front = LRDU.fromInt((value >> 0) & 0x3);
switchState = nbt.getBoolean("switchState");
defaultOutput = nbt.getBoolean("defaultOutput");
}
@Override
public void writeToNBT(NBTTagCompound nbt) {
super.writeToNBT(nbt);
nbt.setByte("front", (byte) (front.toInt() << 0));
nbt.setBoolean("switchState", switchState);
nbt.setBoolean("defaultOutput", defaultOutput);
}
@Override
public ElectricalLoad getElectricalLoad(LRDU lrdu) {
if (front.left() == lrdu) return aLoad;
if (front.right() == lrdu) return bLoad;
if (front == lrdu) return gate;
return null;
}
@Override
public ThermalLoad getThermalLoad(LRDU lrdu) {
return null;
}
@Override
public int getConnectionMask(LRDU lrdu) {
if (front.left() == lrdu) return descriptor.cable.getNodeMask();
if (front.right() == lrdu) return descriptor.cable.getNodeMask();
if (front == lrdu) return NodeBase.maskElectricalInputGate;
return 0;
}
@Override
public String multiMeterString() {
return Utils.plotVolt("Ua:", aLoad.getU()) + Utils.plotVolt("Ub:", bLoad.getU()) + Utils.plotAmpere("I:", aLoad.getCurrent());
}
@Override
public Map<String, String> getWaila() {
Map<String, String> info = new HashMap<String, String>();
info.put(I18N.tr("Position"), switchState ? I18N.tr("Closed") : I18N.tr("Open"));
info.put(I18N.tr("Current"), Utils.plotAmpere("", aLoad.getCurrent()));
if (Eln.wailaEasyMode) {
info.put(I18N.tr("Default position"), defaultOutput ? I18N.tr("Closed") : I18N.tr("Open"));
info.put(I18N.tr("Voltages"), Utils.plotVolt("", aLoad.getU()) + Utils.plotVolt(" ", bLoad.getU()));
}
return info;
}
@Override
public String thermoMeterString() {
return "";
}
@Override
public void networkSerialize(DataOutputStream stream) {
super.networkSerialize(stream);
try {
stream.writeBoolean(switchState);
stream.writeBoolean(defaultOutput);
} catch (IOException e) {
e.printStackTrace();
}
}
public void setSwitchState(boolean state) {
if (state == switchState) return;
switchState = state;
refreshSwitchResistor();
play(new SoundCommand("random.click").mulVolume(0.1F, 2.0F).smallRange());
needPublish();
}
public void refreshSwitchResistor() {
if (!switchState) {
switchResistor.ultraImpedance();
} else {
descriptor.applyTo(switchResistor);
}
}
public boolean getSwitchState() {
return switchState;
}
@Override
public void initialize() {
computeElectricalLoad();
setSwitchState(switchState);
refreshSwitchResistor();
}
@Override
protected void inventoryChanged() {
computeElectricalLoad();
}
public void computeElectricalLoad() {
descriptor.applyTo(aLoad);
descriptor.applyTo(bLoad);
refreshSwitchResistor();
}
@Override
public void networkUnserialize(DataInputStream stream) {
super.networkUnserialize(stream);
try {
switch (stream.readByte()) {
case toogleOutputDefaultId:
defaultOutput = !defaultOutput;
needPublish();
break;
}
} catch (IOException e) {
e.printStackTrace();
}
}
@Override
public boolean hasGui() {
return true;
}
}