package ic2.api.reactor; import net.minecraft.item.ItemStack; import net.minecraft.util.ChunkCoordinates; import net.minecraft.world.World; /** * Interface implemented by the tile entity of nuclear reactors. */ public interface IReactor { /** * Get the reactor's position in the world. * * @return Position of the reactor */ public ChunkCoordinates getPosition(); /** * Get the reactor's corresponding world. * * @return The reactor's world */ public World getWorld(); /** * Get the reactor's heat. * * @return The reactor's heat */ public int getHeat(); /** * Set the reactor's heat. * * @param heat reactor heat */ public void setHeat(int heat); /** * Increase the reactor's heat. * * Use negative values to decrease. * * @param amount amount of heat to add * @return The reactor's heat after adding the specified amount */ public int addHeat(int amount); /** * Get the reactor's maximum heat before exploding. * * @return Maximum heat value */ public int getMaxHeat(); /** * Set the reactor's stored maxHeat variable. * Used by plating to increase the reactors MaxHeat capacity. * Needs to be called during each cycle process. */ public void setMaxHeat(int newMaxHeat); /** * add Heat to a EmitHeat Buffer * for use in Reactor operation.. need to be use * for all Componetents with self-cooling * no more magic heat disappear */ public void addEmitHeat(int heat); /** * Get's the reactor's HEM (Heat Effect Modifier) * Basic value is 1.0F. * Reducing the value causes a weakening/reduction of the heat-based sideeffects of reactors * (F.e. water evaporation, melting, damaging entitys, etc) * * @return HEM */ public float getHeatEffectModifier(); /** * Set's the reactor's HEM * Needs to be called during each cycle process. */ public void setHeatEffectModifier(float newHEM); /** * Get the reactor's energy output. * * @return Energy output, not multiplied by the base EU/t value */ public float getReactorEnergyOutput(); /** * Add's the given amount of energy to the Reactor's output. * * @return Energy output after adding the value, not multiplied by the base EU/t value */ public float addOutput(float energy); /** * Get the item at the specified grid coordinates. * * @param x X position of the item * @param y Y position of the item * @return The item or null if there is no item */ public ItemStack getItemAt(int x, int y); /** * Set the item at the specified grid coordinates. * * @param x X position of the item * @param y Y position of the item * @param item The item to set. */ public void setItemAt(int x, int y, ItemStack item); /** * Explode the reactor. */ public void explode(); /** * Get the reactor's tick rate (game ticks per reactor tick). * * @return Tick rate */ public int getTickRate(); /** * Get whether the reactor is active and supposed to produce energy * @return Whether the reactor is active */ public boolean produceEnergy(); }