GT5-Unofficial/main/java/gregtech/api/items/GT_RadioactiveCellIC_Item.java
2015-04-23 18:14:22 +02:00

172 lines
5.9 KiB
Java

package gregtech.api.items;
import gregtech.api.enums.ItemList;
import ic2.api.reactor.IReactor;
import ic2.api.reactor.IReactorComponent;
import ic2.core.IC2Potion;
import ic2.core.Ic2Items;
import ic2.core.init.InternalName;
import ic2.core.item.ItemGradualInt;
import ic2.core.item.armor.ItemArmorHazmat;
import java.util.ArrayList;
import net.minecraft.entity.Entity;
import net.minecraft.entity.EntityLivingBase;
import net.minecraft.item.ItemStack;
import net.minecraft.world.World;
public class GT_RadioactiveCellIC_Item extends GT_RadioactiveCell_Item implements IReactorComponent
{
public final int numberOfCells;
public final double sEnergy;
public final int sRadiation;
public GT_RadioactiveCellIC_Item( String aUnlocalized, String aEnglish, int aCellcount, int maxDamage, double aEnergy, int aRadiation)
{
super(aUnlocalized, aEnglish, aCellcount);
setMaxStackSize(64);
this.maxDmg=maxDamage;
this.numberOfCells = aCellcount;
this.sEnergy = aEnergy;
this.sRadiation = aRadiation;
}
private class ItemStackCoord
{
public ItemStack stack;
public int x;
public int y;
public ItemStackCoord(ItemStack stack1, int x1, int y1)
{
this.stack = stack1;
this.x = x1;
this.y = y1;
}
}
public void processChamber(IReactor reactor, ItemStack yourStack, int x, int y, boolean heatrun)
{
if (!reactor.produceEnergy()) {
return;
}
for (int iteration = 0; iteration < this.numberOfCells; iteration++)
{
int pulses = 1 + this.numberOfCells / 2;
if (!heatrun)
{
for (int i = 0; i < pulses; i++) {
acceptUraniumPulse(reactor, yourStack, yourStack, x, y, x, y, heatrun);
}
pulses += checkPulseable(reactor, x - 1, y, yourStack, x, y, heatrun) + checkPulseable(reactor, x + 1, y, yourStack, x, y, heatrun) + checkPulseable(reactor, x, y - 1, yourStack, x, y, heatrun) + checkPulseable(reactor, x, y + 1, yourStack, x, y, heatrun);
}
else
{
pulses += checkPulseable(reactor, x - 1, y, yourStack, x, y, heatrun) + checkPulseable(reactor, x + 1, y, yourStack, x, y, heatrun) + checkPulseable(reactor, x, y - 1, yourStack, x, y, heatrun) + checkPulseable(reactor, x, y + 1, yourStack, x, y, heatrun);
int heat = sumUp(pulses) * 4;
ArrayList<ItemStackCoord> heatAcceptors = new ArrayList();
checkHeatAcceptor(reactor, x - 1, y, heatAcceptors);
checkHeatAcceptor(reactor, x + 1, y, heatAcceptors);
checkHeatAcceptor(reactor, x, y - 1, heatAcceptors);
checkHeatAcceptor(reactor, x, y + 1, heatAcceptors);
while ((heatAcceptors.size() > 0) && (heat > 0))
{
int dheat = heat / heatAcceptors.size();
heat -= dheat;
dheat = ((IReactorComponent)((ItemStackCoord)heatAcceptors.get(0)).stack.getItem()).alterHeat(reactor, ((ItemStackCoord)heatAcceptors.get(0)).stack, ((ItemStackCoord)heatAcceptors.get(0)).x, ((ItemStackCoord)heatAcceptors.get(0)).y, dheat);
heat += dheat;
heatAcceptors.remove(0);
}
if (heat > 0) {
reactor.addHeat(heat);
}
}
}
if (getDamageOfStack(yourStack) >= getMaxDamageEx() - 1) {
switch (this.numberOfCells)
{
case 1:
reactor.setItemAt(x, y, ItemList.Depleted_Thorium_1.get(1, new Object[0]));
break;
case 2:
reactor.setItemAt(x, y, ItemList.Depleted_Thorium_2.get(1, new Object[0]));
break;
case 4:
reactor.setItemAt(x, y, ItemList.Depleted_Thorium_4.get(1, new Object[0]));
}
} else if (heatrun) {
damageItemStack(yourStack, 1);
}
}
private static int checkPulseable(IReactor reactor, int x, int y, ItemStack me, int mex, int mey, boolean heatrun)
{
ItemStack other = reactor.getItemAt(x, y);
if ((other != null) && ((other.getItem() instanceof IReactorComponent)) &&
(((IReactorComponent)other.getItem()).acceptUraniumPulse(reactor, other, me, x, y, mex, mey, heatrun))) {
return 1;
}
return 0;
}
private void checkHeatAcceptor(IReactor reactor, int x, int y, ArrayList<ItemStackCoord> heatAcceptors)
{
ItemStack thing = reactor.getItemAt(x, y);
if ((thing != null) && ((thing.getItem() instanceof IReactorComponent)) &&
(((IReactorComponent)thing.getItem()).canStoreHeat(reactor, thing, x, y))) {
heatAcceptors.add(new ItemStackCoord(thing, x, y));
}
}
public boolean acceptUraniumPulse(IReactor reactor, ItemStack yourStack, ItemStack pulsingStack, int youX, int youY, int pulseX, int pulseY, boolean heatrun)
{
if (!heatrun) {
reactor.addOutput((float) (1.0F*this.sEnergy));
}
return true;
}
public boolean canStoreHeat(IReactor reactor, ItemStack yourStack, int x, int y)
{
return false;
}
public int getMaxHeat(IReactor reactor, ItemStack yourStack, int x, int y)
{
return 0;
}
public int getCurrentHeat(IReactor reactor, ItemStack yourStack, int x, int y)
{
return 0;
}
public int alterHeat(IReactor reactor, ItemStack yourStack, int x, int y, int heat)
{
return heat;
}
public float influenceExplosion(IReactor reactor, ItemStack yourStack)
{
return 2 * this.numberOfCells;
}
public void onUpdate(ItemStack stack, World world, Entity entity, int slotIndex, boolean isCurrentItem)
{
if (this.sRadiation>0&&(entity instanceof EntityLivingBase))
{
EntityLivingBase entityLiving = (EntityLivingBase)entity;
if (!ItemArmorHazmat.hasCompleteHazmat(entityLiving)) {
IC2Potion.radiation.applyTo(entityLiving, sRadiation*20, sRadiation*10);
}
}
}
}