Removed Item Lev by calc's request, and fixed some issue with past few scala conversion commits

2014-09-27 10:44:53 -04:00 · 2014-09-27 10:44:53 -04:00 · 424b79f49d
commit 424b79f49d
parent 466efa3e36
14 changed files with 68 additions and 1237 deletions
--- a/src/main/scala/resonantinduction/electrical/ClientProxy.scala
+++ b/src/main/scala/resonantinduction/electrical/ClientProxy.scala
@ -17,7 +17,6 @@ import resonantinduction.electrical.laser.focus.crystal.{RenderFocusCrystal, Til
 import resonantinduction.electrical.laser.focus.mirror.{RenderMirror, TileMirror}
 import resonantinduction.electrical.laser.fx.{EntityBlockParticleFX, EntityLaserFX, EntityScorchFX}
 import resonantinduction.electrical.laser.receiver.{RenderLaserReceiver, TileLaserReceiver}
 import resonantinduction.electrical.levitator.RenderLevitator
 import resonantinduction.electrical.multimeter.{RenderMultimeter, GuiMultimeter, PartMultimeter}
 import resonantinduction.electrical.render.FXElectricBolt
 import resonantinduction.electrical.tesla.{RenderTesla, TileTesla}
@ -36,7 +35,6 @@ class ClientProxy extends CommonProxy
  override def init
  {
    ItemRenderHandler.register(ElectricalContent.itemTransformer, RenderTransformer.INSTANCE)
    ItemRenderHandler.register(ElectricalContent.itemLevitator, RenderLevitator.INSTANCE)
    ItemRenderHandler.register(ElectricalContent.itemMultimeter, RenderMultimeter.INSTANCE)
    ItemRenderHandler.register(ElectricalContent.itemQuantumGlyph, RenderQuantumGlyph)
--- a/src/main/scala/resonantinduction/electrical/Electrical.scala
+++ b/src/main/scala/resonantinduction/electrical/Electrical.scala
@ -22,7 +22,6 @@ import resonantinduction.electrical.laser.focus.ItemFocusingMatrix
 import resonantinduction.electrical.laser.focus.crystal.{BlockFocusCrystal, TileFocusCrystal}
 import resonantinduction.electrical.laser.focus.mirror.{BlockMirror, TileMirror}
 import resonantinduction.electrical.laser.receiver.{BlockLaserReceiver, TileLaserReceiver}
 import resonantinduction.electrical.levitator.{ItemLevitator, PartLevitator}
 import resonantinduction.electrical.multimeter.{ItemMultimeter, PartMultimeter}
 import resonantinduction.electrical.tesla.TileTesla
 import resonantinduction.electrical.transformer.{ItemElectricTransformer, PartElectricTransformer}
@ -86,7 +85,6 @@ object Electrical
    ElectricalContent.itemTransformer = Electrical.contentRegistry.newItem(classOf[ItemElectricTransformer])
    ElectricalContent.blockTesla = Electrical.contentRegistry.newBlock(classOf[TileTesla])
    ElectricalContent.blockBattery = Electrical.contentRegistry.newBlock(classOf[TileBattery])
    ElectricalContent.itemLevitator = Electrical.contentRegistry.newItem(classOf[ItemLevitator])
    ElectricalContent.itemInsulation = Electrical.contentRegistry.newItem("insulation", classOf[Item])
    ElectricalContent.blockSolarPanel = Electrical.contentRegistry.newBlock(classOf[TileSolarPanel])
    ElectricalContent.blockMotor = Electrical.contentRegistry.newBlock(classOf[TileMotor])
@ -106,7 +104,6 @@ object Electrical
    ResonantPartFactory.register(classOf[PartFlatWire])
    ResonantPartFactory.register(classOf[PartMultimeter])
    ResonantPartFactory.register(classOf[PartElectricTransformer])
    ResonantPartFactory.register(classOf[PartLevitator])
    ResonantPartFactory.register(classOf[PartQuantumGlyph])
    Electrical.proxy.preInit
--- a/src/main/scala/resonantinduction/electrical/battery/GridBattery.scala
+++ b/src/main/scala/resonantinduction/electrical/battery/GridBattery.scala
@ -12,8 +12,8 @@ import scala.collection.JavaConversions._
  */
 class GridBattery extends Grid[TileBattery](classOf[NodeEnergy])
 {
-    var totalEnergy: Long = 0
+    var totalEnergy: Double = 0
-    var totalCapacity: Long = 0
+    var totalCapacity: Double = 0
    /**
     * Causes the energy shared by all batteries to be distributed out to all linked batteries
@ -31,10 +31,10 @@ class GridBattery extends Grid[TileBattery](classOf[NodeEnergy])
            totalCapacity += connector.energy.getEnergyCapacity
            lowestY = Math.min(connector.yCoord, lowestY)
            highestY = Math.max(connector.yCoord, highestY)
-            connector.renderEnergyAmount_$eq(0)
+            connector.renderEnergyAmount = 0
        }
-        var remainingRenderEnergy: Long = totalEnergy
+        var remainingRenderEnergy: Double = totalEnergy
        var y: Int = 0
        while (y >= 0 && y <= highestY && remainingRenderEnergy > 0)
        {
@ -48,7 +48,7 @@ class GridBattery extends Grid[TileBattery](classOf[NodeEnergy])
                }
            }
            val levelSize: Int = connectorsInlevel.size
-            var used: Long = 0
+            var used: Double = 0
            import scala.collection.JavaConversions._
            for (connector <- connectorsInlevel)
            {
@ -61,20 +61,20 @@ class GridBattery extends Grid[TileBattery](classOf[NodeEnergy])
        }
        val percentageLoss: Double = 0
-        val energyLoss: Long = (percentageLoss * 100).asInstanceOf[Long]
+        val energyLoss: Double = percentageLoss * 100
        totalEnergy -= energyLoss
        val amountOfNodes: Int = this.getNodes.size - exclusion.length
        if (totalEnergy > 0 && amountOfNodes > 0)
        {
-            var remainingEnergy: Long = totalEnergy
+            var remainingEnergy: Double = totalEnergy
            val firstNode: TileBattery = this.getFirstNode
            for (node <- this.getNodes)
            {
                if (node != firstNode && !Arrays.asList(exclusion).contains(node))
                {
-                    val percentage: Double = (node.energy.getEnergyCapacity.asInstanceOf[Double] / totalCapacity.asInstanceOf[Double])
+                    val percentage: Double = (node.energy.getEnergyCapacity / totalCapacity)
-                    val energyForBattery: Long = Math.max(Math.round(totalEnergy * percentage), 0)
+                    val energyForBattery: Double = Math.max(totalEnergy * percentage, 0)
                    node.energy.setEnergy(energyForBattery)
                    remainingEnergy -= energyForBattery
                }
--- a/src/main/scala/resonantinduction/electrical/battery/ItemBlockBattery.scala
+++ b/src/main/scala/resonantinduction/electrical/battery/ItemBlockBattery.scala
@ -142,20 +142,14 @@ class ItemBlockBattery(block: Block) extends ItemBlock(block) with IEnergyItem
        return this.getEnergyCapacity(itemStack) / 100
    }
-    @SuppressWarnings(Array("unchecked")) override def getSubItems(par1: Item, par2CreativeTabs: CreativeTabs, par3List: List[_])
+    @SuppressWarnings(Array("unchecked"))
    override def getSubItems(par1: Item, par2CreativeTabs: CreativeTabs, par3List: List[_])
    {
        for (tier <- 0 to TileBattery.MAX_TIER)
        {
-            var tier: Byte = 0
+            par3List.add(Compatibility.getItemWithCharge(ItemBlockBattery.setTier(new ItemStack(this), tier.asInstanceOf[Byte]), 0))
-            while (tier <= TileBattery.MAX_TIER)
+            par3List.add(Compatibility.getItemWithCharge(ItemBlockBattery.setTier(new ItemStack(this), tier.asInstanceOf[Byte]), TileBattery.getEnergyForTier(tier)))
-            {
+
                {
                    par3List.add(Compatibility.getItemWithCharge(ItemBlockBattery.setTier(new ItemStack(this), tier), 0))
                    par3List.add(Compatibility.getItemWithCharge(ItemBlockBattery.setTier(new ItemStack(this), tier), TileBattery.getEnergyForTier(tier)))
                }
                ({
                    tier += 1; tier - 1
                })
            }
        }
    }
 }
--- a/src/main/scala/resonantinduction/electrical/battery/TileBattery.scala
+++ b/src/main/scala/resonantinduction/electrical/battery/TileBattery.scala
@ -63,7 +63,7 @@ class TileBattery extends TileElectric(Material.iron) with IPacketReceiver {
  override def getDescPacket: AbstractPacket =
  {
-    return new PacketTile(this, renderEnergyAmount, ioMap)
+    return new PacketTile(this, Array[Any](renderEnergyAmount, ioMap))
  }
  def read(data: ByteBuf, player: EntityPlayer, `type`: PacketType) {
--- a/src/main/scala/resonantinduction/electrical/generator/RenderMotor.java
+++ b/src/main/scala/resonantinduction/electrical/generator/RenderMotor.java
@ -1,49 +0,0 @@
 package resonantinduction.electrical.generator;
 import net.minecraft.client.renderer.tileentity.TileEntitySpecialRenderer;
 import net.minecraft.item.ItemStack;
 import net.minecraft.tileentity.TileEntity;
 import net.minecraft.util.ResourceLocation;
 import net.minecraftforge.client.IItemRenderer;
 import net.minecraftforge.client.model.AdvancedModelLoader;
 import net.minecraftforge.client.model.IModelCustom;
 import net.minecraftforge.common.util.ForgeDirection;
 import org.lwjgl.opengl.GL11;
 import resonant.content.prefab.scala.render.ISimpleItemRenderer;
 import resonant.lib.render.RenderUtility;
 import resonantinduction.core.Reference;
 /**
 * @author Calclavia
 *
 */
 public class RenderMotor extends TileEntitySpecialRenderer implements ISimpleItemRenderer
 {
 	public static final IModelCustom MODEL = AdvancedModelLoader.loadModel(new ResourceLocation(Reference.domain(), Reference.modelPath() + "generator.tcn"));
 	public static final ResourceLocation TEXTURE = new ResourceLocation(Reference.domain(), Reference.modelPath() + "generator.png");
 	@Override
 	public void renderTileEntityAt(TileEntity t, double x, double y, double z, float f)
 	{
 		doRender(t.getBlockMetadata(), x, y, z, f);
 	}
 	private void doRender(int facingDirection, double x, double y, double z, float f)
 	{
 		GL11.glPushMatrix();
 		GL11.glTranslatef((float) x + 0.5f, (float) y + 0.5f, (float) z + 0.5f);
 		GL11.glRotatef(90, 0, 1, 0);
 		RenderUtility.rotateBlockBasedOnDirection(ForgeDirection.getOrientation(facingDirection));
 		bindTexture(TEXTURE);
 		MODEL.renderAll();
 		GL11.glPopMatrix();
 	}
 	@Override
 	public void renderInventoryItem(IItemRenderer.ItemRenderType type, ItemStack itemStack, Object... data)
 	{
 		doRender(2, 0, 0, 0, 0);
 	}
 }
--- a/src/main/scala/resonantinduction/electrical/generator/RenderMotor.scala
+++ b/src/main/scala/resonantinduction/electrical/generator/RenderMotor.scala
@ -0,0 +1,48 @@
 package resonantinduction.electrical.generator
 import net.minecraft.client.renderer.tileentity.TileEntitySpecialRenderer
 import net.minecraft.item.ItemStack
 import net.minecraft.tileentity.TileEntity
 import net.minecraft.util.ResourceLocation
 import net.minecraftforge.client.IItemRenderer
 import net.minecraftforge.client.model.AdvancedModelLoader
 import net.minecraftforge.client.model.IModelCustom
 import net.minecraftforge.common.util.ForgeDirection
 import org.lwjgl.opengl.GL11
 import resonant.content.prefab.scala.render.ISimpleItemRenderer
 import resonant.lib.render.RenderUtility
 import resonantinduction.core.Reference
 /**
 * @author Calclavia
 *
 */
 object RenderMotor
 {
    final val MODEL: IModelCustom = AdvancedModelLoader.loadModel(new ResourceLocation(Reference.domain, Reference.modelPath + "generator.tcn"))
    final val TEXTURE: ResourceLocation = new ResourceLocation(Reference.domain, Reference.modelPath + "generator.png")
 }
 class RenderMotor extends TileEntitySpecialRenderer with ISimpleItemRenderer
 {
    def renderTileEntityAt(t: TileEntity, x: Double, y: Double, z: Double, f: Float)
    {
        doRender(t.getBlockMetadata, x, y, z, f)
    }
    private def doRender(facingDirection: Int, x: Double, y: Double, z: Double, f: Float)
    {
        GL11.glPushMatrix
        GL11.glTranslatef(x.asInstanceOf[Float] + 0.5f, y.asInstanceOf[Float] + 0.5f, z.asInstanceOf[Float] + 0.5f)
        GL11.glRotatef(90, 0, 1, 0)
        RenderUtility.rotateBlockBasedOnDirection(ForgeDirection.getOrientation(facingDirection))
        bindTexture(RenderMotor.TEXTURE)
        RenderMotor.MODEL.renderAll
        GL11.glPopMatrix
    }
    def renderInventoryItem(`type`: IItemRenderer.ItemRenderType, itemStack: ItemStack, data: AnyRef*)
    {
        doRender(2, 0, 0, 0, 0)
    }
 }
--- a/src/main/scala/resonantinduction/electrical/generator/TileSolarPanel.scala
+++ b/src/main/scala/resonantinduction/electrical/generator/TileSolarPanel.scala
@ -1,18 +1,15 @@
 package resonantinduction.electrical.generator
-import net.minecraft.block.material.Material
+import cpw.mods.fml.relauncher.{Side, SideOnly}
 import net.minecraft.client.renderer.texture.IIconRegister
 import net.minecraft.util.IIcon
 import net.minecraftforge.common.util.ForgeDirection
 import resonant.content.spatial.block.SpatialBlock
-import resonantinduction.core.Reference
+import resonantinduction.core.{Reference, Settings}
-import resonantinduction.core.Settings
+import resonantinduction.electrical.battery.TileBattery
 import resonantinduction.electrical.battery.TileEnergyDistribution
 import cpw.mods.fml.relauncher.Side
 import cpw.mods.fml.relauncher.SideOnly
 import universalelectricity.core.transform.region.Cuboid
-class TileSolarPanel extends TileEnergyDistribution(Material.iron) {
+class TileSolarPanel extends TileBattery {
    energy.setCapacity(Settings.SOLAR_ENERGY * 20)
    ioMap_$eq(728.asInstanceOf[Short])
--- a/src/main/scala/resonantinduction/electrical/levitator/ItemLevitator.scala
+++ b/src/main/scala/resonantinduction/electrical/levitator/ItemLevitator.scala
@ -1,29 +0,0 @@
 package resonantinduction.electrical.levitator
 import codechicken.lib.vec.{BlockCoord, Vector3}
 import codechicken.microblock.FacePlacementGrid
 import codechicken.multipart.{TItemMultiPart, TMultiPart}
 import net.minecraft.entity.player.EntityPlayer
 import net.minecraft.item.{Item, ItemStack}
 import net.minecraft.util.MathHelper
 import net.minecraft.world.World
 import resonantinduction.core.ResonantPartFactory
 import resonantinduction.core.prefab.part.IHighlight
 class ItemLevitator extends Item with TItemMultiPart with IHighlight
 {
  def newPart(itemStack: ItemStack, player: EntityPlayer, world: World, pos: BlockCoord, bside: Int, hit: Vector3): TMultiPart =
  {
    val side = FacePlacementGrid.getHitSlot(hit, bside)
    val part: PartLevitator = ResonantPartFactory.create(classOf[PartLevitator])
    if (part != null)
    {
      val l: Int = MathHelper.floor_double(player.rotationYaw * 4.0F / 360.0F + 0.5D) & 3
      val facing: Int = if (l == 0) 2 else (if (l == 1) 5 else (if (l == 2) 3 else (if (l == 3) 4 else 0)))
      part.preparePlacement(side, facing)
    }
    return part
  }
  def getHighlightType: Int = 0
 }
--- a/src/main/scala/resonantinduction/electrical/levitator/ModelEMContractor.java
+++ b/src/main/scala/resonantinduction/electrical/levitator/ModelEMContractor.java
@ -1,246 +0,0 @@
 package resonantinduction.electrical.levitator;
 import net.minecraft.client.model.ModelBase;
 import net.minecraft.client.model.ModelRenderer;
 public class ModelEMContractor extends ModelBase
 {
 	public boolean doSpin;
 	// fields
 	ModelRenderer frame1;
 	ModelRenderer frame2;
 	ModelRenderer frame3;
 	ModelRenderer frame4;
 	ModelRenderer frame5;
 	ModelRenderer frame6;
 	ModelRenderer frame7;
 	ModelRenderer frame8;
 	ModelRenderer left_frame_connector;
 	ModelRenderer right_frame_connector;
 	ModelRenderer teslapole;
 	ModelRenderer Coil1;
 	ModelRenderer coil2;
 	ModelRenderer coil3;
 	ModelRenderer coil4;
 	ModelRenderer pole1;
 	ModelRenderer pole2;
 	ModelRenderer pole3;
 	ModelRenderer pole4;
 	ModelRenderer poletop1;
 	ModelRenderer poletop2;
 	ModelRenderer poletop3;
 	ModelRenderer poletop4;
 	ModelRenderer base1;
 	ModelRenderer base2;
 	ModelRenderer base3;
 	public ModelEMContractor(boolean spin)
 	{
 		doSpin = spin;
 		textureWidth = 128;
 		textureHeight = 128;
 		frame1 = new ModelRenderer(this, 0, 24);
 		frame1.addBox(0F, 0F, 0F, 1, 8, 1);
 		frame1.setRotationPoint(-3F, 15F, -2F);
 		frame1.setTextureSize(128, 128);
 		frame1.mirror = true;
 		setRotation(frame1, 0F, 0F, 0F);
 		frame2 = new ModelRenderer(this, 0, 24);
 		frame2.addBox(0F, 0F, 0F, 1, 8, 1);
 		frame2.setRotationPoint(1F, 15F, 2F);
 		frame2.setTextureSize(128, 128);
 		frame2.mirror = true;
 		setRotation(frame2, 0F, 0F, 0F);
 		frame3 = new ModelRenderer(this, 0, 24);
 		frame3.addBox(0F, 0F, 0F, 1, 8, 1);
 		frame3.setRotationPoint(2F, 15F, -2F);
 		frame3.setTextureSize(128, 128);
 		frame3.mirror = true;
 		setRotation(frame3, 0F, 0F, 0F);
 		frame4 = new ModelRenderer(this, 0, 24);
 		frame4.addBox(0F, 0F, 0F, 1, 8, 1);
 		frame4.setRotationPoint(-3F, 15F, 1F);
 		frame4.setTextureSize(128, 128);
 		frame4.mirror = true;
 		setRotation(frame4, 0F, 0F, 0F);
 		frame5 = new ModelRenderer(this, 0, 24);
 		frame5.addBox(0F, 0F, 0F, 1, 8, 1);
 		frame5.setRotationPoint(2F, 15F, 1F);
 		frame5.setTextureSize(128, 128);
 		frame5.mirror = true;
 		setRotation(frame5, 0F, 0F, 0F);
 		frame6 = new ModelRenderer(this, 0, 24);
 		frame6.addBox(0F, 0F, 0F, 1, 8, 1);
 		frame6.setRotationPoint(1F, 15F, -3F);
 		frame6.setTextureSize(128, 128);
 		frame6.mirror = true;
 		setRotation(frame6, 0F, 0F, 0F);
 		frame7 = new ModelRenderer(this, 0, 24);
 		frame7.addBox(0F, 0F, 0F, 1, 8, 1);
 		frame7.setRotationPoint(-2F, 15F, 2F);
 		frame7.setTextureSize(128, 128);
 		frame7.mirror = true;
 		setRotation(frame7, 0F, 0F, 0F);
 		frame8 = new ModelRenderer(this, 0, 24);
 		frame8.addBox(0F, 0F, 0F, 1, 8, 1);
 		frame8.setRotationPoint(-2F, 15F, -3F);
 		frame8.setTextureSize(128, 128);
 		frame8.mirror = true;
 		setRotation(frame8, 0F, 0F, 0F);
 		left_frame_connector = new ModelRenderer(this, 0, 20);
 		left_frame_connector.addBox(0F, 0F, 0F, 1, 1, 2);
 		left_frame_connector.setRotationPoint(-3F, 15F, -1F);
 		left_frame_connector.setTextureSize(128, 128);
 		left_frame_connector.mirror = true;
 		setRotation(left_frame_connector, 0F, 0F, 0F);
 		right_frame_connector = new ModelRenderer(this, 0, 20);
 		right_frame_connector.addBox(0F, 0F, 0F, 1, 1, 2);
 		right_frame_connector.setRotationPoint(2F, 15F, -1F);
 		right_frame_connector.setTextureSize(128, 128);
 		right_frame_connector.mirror = true;
 		setRotation(right_frame_connector, 0F, 0F, 0F);
 		teslapole = new ModelRenderer(this, 0, 0);
 		teslapole.addBox(-1F, -1F, -1F, 2, 15, 2);
 		teslapole.setRotationPoint(0F, 9F, 0F);
 		teslapole.setTextureSize(128, 128);
 		teslapole.mirror = true;
 		setRotation(teslapole, 0F, 0F, 0F);
 		Coil1 = new ModelRenderer(this, 17, 0);
 		Coil1.addBox(-1.5F, -0.5F, -1.5F, 3, 1, 3);
 		Coil1.setRotationPoint(0F, 12.5F, 0F);
 		Coil1.setTextureSize(128, 128);
 		Coil1.mirror = true;
 		setRotation(Coil1, 0F, 0F, 0F);
 		coil2 = new ModelRenderer(this, 17, 0);
 		coil2.addBox(-1.5F, -0.5F, -1.5F, 3, 1, 3);
 		coil2.setRotationPoint(0F, 14F, 0F);
 		coil2.setTextureSize(128, 128);
 		coil2.mirror = true;
 		setRotation(coil2, 0F, 0F, 0F);
 		coil3 = new ModelRenderer(this, 17, 0);
 		coil3.addBox(-1.5F, -0.5F, -1.5F, 3, 1, 3);
 		coil3.setRotationPoint(0F, 9.5F, 0F);
 		coil3.setTextureSize(128, 128);
 		coil3.mirror = true;
 		setRotation(coil3, 0F, 0F, 0F);
 		coil4 = new ModelRenderer(this, 17, 0);
 		coil4.addBox(-1.5F, -0.5F, -1.5F, 3, 1, 3);
 		coil4.setRotationPoint(0F, 11F, 0F);
 		coil4.setTextureSize(128, 128);
 		coil4.mirror = true;
 		setRotation(coil4, 0F, 0F, 0F);
 		pole1 = new ModelRenderer(this, 5, 26);
 		pole1.addBox(-0.5F, -1F, -0.5F, 1, 6, 1);
 		pole1.setRotationPoint(0F, 18F, 6.5F);
 		pole1.setTextureSize(128, 128);
 		pole1.mirror = true;
 		setRotation(pole1, 0F, 0F, 0F);
 		pole2 = new ModelRenderer(this, 5, 26);
 		pole2.addBox(-0.5F, -1F, -0.5F, 1, 6, 1);
 		pole2.setRotationPoint(0F, 18F, -6.5F);
 		pole2.setTextureSize(128, 128);
 		pole2.mirror = true;
 		setRotation(pole2, 0F, 0F, 0F);
 		pole3 = new ModelRenderer(this, 5, 26);
 		pole3.addBox(-0.5F, -1F, -0.5F, 1, 6, 1);
 		pole3.setRotationPoint(-6.5F, 18F, 0F);
 		pole3.setTextureSize(128, 128);
 		pole3.mirror = true;
 		setRotation(pole3, 0F, 0F, 0F);
 		pole4 = new ModelRenderer(this, 5, 26);
 		pole4.addBox(-0.5F, -1F, -0.5F, 1, 6, 1);
 		pole4.setRotationPoint(6.5F, 18F, 0F);
 		pole4.setTextureSize(128, 128);
 		pole4.mirror = true;
 		setRotation(pole4, 0F, 0F, 0F);
 		poletop1 = new ModelRenderer(this, 31, 0);
 		poletop1.addBox(-1F, -1F, -1F, 2, 2, 2);
 		poletop1.setRotationPoint(0F, 16.5F, -6.5F);
 		poletop1.setTextureSize(128, 128);
 		poletop1.mirror = true;
 		setRotation(poletop1, 0F, 0F, 0F);
 		poletop2 = new ModelRenderer(this, 31, 0);
 		poletop2.addBox(-1F, -1F, -1F, 2, 2, 2);
 		poletop2.setRotationPoint(0F, 16.5F, 6.5F);
 		poletop2.setTextureSize(128, 128);
 		poletop2.mirror = true;
 		setRotation(poletop2, 0F, 0F, 0F);
 		poletop3 = new ModelRenderer(this, 31, 0);
 		poletop3.addBox(-1F, -1F, -1F, 2, 2, 2);
 		poletop3.setRotationPoint(6.5F, 16.5F, 0F);
 		poletop3.setTextureSize(128, 128);
 		poletop3.mirror = true;
 		setRotation(poletop3, 0F, 0F, 0F);
 		poletop4 = new ModelRenderer(this, 31, 0);
 		poletop4.addBox(-1F, -1F, -1F, 2, 2, 2);
 		poletop4.setRotationPoint(-6.5F, 16.5F, 0F);
 		poletop4.setTextureSize(128, 128);
 		poletop4.mirror = true;
 		setRotation(poletop4, 0F, 0F, 0F);
 		base1 = new ModelRenderer(this, 0, 55);
 		base1.addBox(0F, 0F, 0F, 16, 1, 8);
 		base1.setRotationPoint(-8F, 23F, -4F);
 		base1.setTextureSize(128, 128);
 		base1.mirror = true;
 		setRotation(base1, 0F, 0F, 0F);
 		base2 = new ModelRenderer(this, 0, 68);
 		base2.addBox(0F, 0F, 0F, 8, 1, 5);
 		base2.setRotationPoint(-4F, 23F, 3F);
 		base2.setTextureSize(128, 128);
 		base2.mirror = true;
 		setRotation(base2, 0F, 0F, 0F);
 		base3 = new ModelRenderer(this, 0, 79);
 		base3.addBox(0F, 0F, 0F, 8, 1, 5);
 		base3.setRotationPoint(-4F, 23F, -8F);
 		base3.setTextureSize(128, 128);
 		base3.mirror = true;
 		setRotation(base3, 0F, 0F, 0F);
 	}
 	public void render(float f5)
 	{
 		if (doSpin)
 		{
 			Coil1.rotateAngleY = (float) Math.toRadians(Math.toDegrees(Coil1.rotateAngleY) + 3 < 360 ? Math.toDegrees(Coil1.rotateAngleY) + 3 : 0);
 			coil2.rotateAngleY = (float) Math.toRadians(Math.toDegrees(coil2.rotateAngleY) + 3 < 360 ? Math.toDegrees(coil2.rotateAngleY) + 3 : 0);
 			coil3.rotateAngleY = (float) Math.toRadians(Math.toDegrees(coil3.rotateAngleY) + 3 < 360 ? Math.toDegrees(coil3.rotateAngleY) + 3 : 0);
 			coil4.rotateAngleY = (float) Math.toRadians(Math.toDegrees(coil4.rotateAngleY) + 3 < 360 ? Math.toDegrees(coil4.rotateAngleY) + 3 : 0);
 		}
 		frame1.render(f5);
 		frame2.render(f5);
 		frame3.render(f5);
 		frame4.render(f5);
 		frame5.render(f5);
 		frame6.render(f5);
 		frame7.render(f5);
 		frame8.render(f5);
 		left_frame_connector.render(f5);
 		right_frame_connector.render(f5);
 		teslapole.render(f5);
 		Coil1.render(f5);
 		coil2.render(f5);
 		coil3.render(f5);
 		coil4.render(f5);
 		pole1.render(f5);
 		pole2.render(f5);
 		pole3.render(f5);
 		pole4.render(f5);
 		poletop1.render(f5);
 		poletop2.render(f5);
 		poletop3.render(f5);
 		poletop4.render(f5);
 		base1.render(f5);
 		base2.render(f5);
 		base3.render(f5);
 	}
 	private void setRotation(ModelRenderer model, float x, float y, float z)
 	{
 		model.rotateAngleX = x;
 		model.rotateAngleY = y;
 		model.rotateAngleZ = z;
 	}
 }
--- a/src/main/scala/resonantinduction/electrical/levitator/PartLevitator.java
+++ b/src/main/scala/resonantinduction/electrical/levitator/PartLevitator.java
@ -1,690 +0,0 @@
 package resonantinduction.electrical.levitator;
 import java.lang.ref.WeakReference;
 import java.util.List;
 import net.minecraft.block.Block;
 import net.minecraft.block.BlockLadder;
 import net.minecraft.block.BlockSnow;
 import net.minecraft.block.BlockVine;
 import net.minecraft.entity.Entity;
 import net.minecraft.entity.item.EntityItem;
 import net.minecraft.entity.player.EntityPlayer;
 import net.minecraft.init.Blocks;
 import net.minecraft.init.Items;
 import net.minecraft.inventory.IInventory;
 import net.minecraft.item.ItemStack;
 import net.minecraft.nbt.NBTTagCompound;
 import net.minecraft.tileentity.TileEntity;
 import net.minecraft.util.AxisAlignedBB;
 import net.minecraft.util.ChatComponentText;
 import net.minecraft.util.MovingObjectPosition;
 import net.minecraft.world.World;
 import net.minecraftforge.common.util.ForgeDirection;
 import net.minecraftforge.fluids.IFluidBlock;
 import resonant.lib.render.EnumColor;
 import resonant.lib.utility.LinkUtility;
 import resonant.lib.utility.WrenchUtility;
 import resonant.lib.utility.inventory.InventoryUtility;
 import resonantinduction.core.Settings;
 import resonantinduction.core.prefab.part.PartFace;
 import resonantinduction.core.util.MultipartUtil;
 import resonantinduction.electrical.Electrical;
 import resonantinduction.electrical.ElectricalContent;
 import resonantinduction.electrical.tesla.TileTesla;
 import universalelectricity.core.transform.vector.Vector3;
 import codechicken.lib.data.MCDataInput;
 import codechicken.lib.data.MCDataOutput;
 import codechicken.multipart.TMultiPart;
 import cpw.mods.fml.relauncher.Side;
 import cpw.mods.fml.relauncher.SideOnly;
 import universalelectricity.core.transform.vector.VectorWorld;
 public class PartLevitator extends PartFace
 {
 	/**
 	 * true = suck, false = push
 	 */
 	public boolean input = true;
 	/**
 	 * Client Side Only
 	 */
 	public float renderRotation = 0;
 	private int pushDelay;
 	private AxisAlignedBB operationBounds;
 	private AxisAlignedBB suckBounds;
 	/**
 	 * Pathfinding
 	 */
 	private ThreadLevitatorPathfinding thread;
 	private PathfinderLevitator pathfinder;
 	private WeakReference<PartLevitator> linked;
 	private int lastCalcTime = 0;
 	/**
 	 * Color of beam
 	 */
 	private int dyeID = TileTesla.DEFAULT_COLOR;
 	/**
 	 * Linking
 	 */
 	private byte saveLinkSide;
 	private VectorWorld saveLinkVector;
 	public static boolean canBePath(World world, Vector3 position)
 	{
 		Block block = position.getBlock(world);
 		return block == null || (block instanceof BlockSnow || block instanceof BlockVine || block instanceof BlockLadder || (block instanceof IFluidBlock && block != Blocks.flowing_lava && block != Blocks.lava));
 	}
 	@Override
 	public boolean activate(EntityPlayer player, MovingObjectPosition part, ItemStack itemStack)
 	{
 		if (WrenchUtility.isWrench(itemStack))
 		{
 			if (tryLink(LinkUtility.getLink(itemStack), LinkUtility.getSide(itemStack)))
 			{
 				if (world().isRemote)
 				{
 					player.addChatMessage(new ChatComponentText("Successfully linked devices."));
 				}
 				LinkUtility.clearLink(itemStack);
 			}
 			else
 			{
 				if (world().isRemote)
 				{
 					player.addChatMessage(new ChatComponentText("Marked link for device."));
 				}
 				LinkUtility.setLink(itemStack, new VectorWorld(world(), x(), y(), z()));
 				LinkUtility.setSide(itemStack, (byte) placementSide.ordinal());
 			}
 			return true;
 		}
 		if (player.getCurrentEquippedItem() != null)
 		{
 			if (player.getCurrentEquippedItem().getItem() == Items.dye)
 			{
 				setDye(player.getCurrentEquippedItem().getItemDamage());
 				if (!player.capabilities.isCreativeMode)
 				{
 					player.inventory.decrStackSize(player.inventory.currentItem, 1);
 				}
 				return true;
 			}
 		}
 		if (player.isSneaking())
 		{
 			input = !input;
 		}
 		updateBounds();
 		updatePath();
 		return true;
 	}
 	/**
 	 * Link methods
 	 */
 	public boolean tryLink(VectorWorld linkVector, byte side)
 	{
 		if (linkVector != null)
 		{
 			TMultiPart part = MultipartUtil.getMultipart(world(), linkVector, side);
 			if (part instanceof PartLevitator)
 			{
 				setLink((PartLevitator) part, true);
 			}
 			return true;
 		}
 		return false;
 	}
 	public PartLevitator getLink()
 	{
 		return linked != null && linked.get() != null && linked.get().world() != null ? linked.get() : null;
 	}
 	@Override
 	public void onEntityCollision(Entity entity)
 	{
 		/**
 		 * Attempt to pull items in.
 		 */
 		if (!world().isRemote && input && canFunction() && entity instanceof EntityItem)
 		{
 			EntityItem entityItem = (EntityItem) entity;
 			IInventory inventory = (IInventory) getLatched();
 			ItemStack remains = InventoryUtility.putStackInInventory(inventory, entityItem.getEntityItem(), placementSide.getOpposite().getOpposite().ordinal(), false);
 			if (remains == null)
 			{
 				entityItem.setDead();
 			}
 			else
 			{
 				entityItem.getEntityItem().stackSize = remains.stackSize;
 			}
 			// TODO: Add redstone pulse and reaction?
 		}
 	}
 	@Override
 	public void update()
 	{
 		if (ticks % 60 == 0)
 		{
 			updateBounds();
 		}
 		super.update();
 		pushDelay = Math.max(0, pushDelay - 1);
 		/**
 		 * Try to use temp link vectors from save/loads to link.
 		 */
 		if (saveLinkVector != null)
 		{
 			tryLink(saveLinkVector, saveLinkSide);
 			saveLinkVector = null;
 		}
 		if (canFunction())
 		{
 			IInventory inventory = (IInventory) getLatched();
 			/**
 			 * Place items or take items from the inventory into the world.
 			 */
 			if (!input)
 			{
 				renderRotation = Math.min(20, renderRotation + 0.8f);
 				/**
 				 * Attempt to push items out.
 				 */
 				if (pushDelay == 0)
 				{
 					ItemStack retrieved = InventoryUtility.takeTopItemFromInventory(inventory, placementSide.getOpposite().getOpposite().ordinal());
 					if (retrieved != null)
 					{
 						EntityItem entityItem = getItemWithPosition(retrieved);
 						if (!world().isRemote)
 						{
 							world().spawnEntityInWorld(entityItem);
 						}
 						pushDelay = Settings.LEVITATOR_PUSH_DELAY();
 					}
 				}
 			}
 			else if (input)
 			{
 				renderRotation = Math.max(0, renderRotation - 0.8f);
 			}
 			final int renderPeriod = 1;
 			final boolean renderBeam = ticks % renderPeriod == 0 && hasLink() && getLink().input != input;
 			if (!input)
 			{
 				if (hasLink())
 				{
 					if (getLink().input)
 					{
 						/**
 						 * Linked usage.
 						 */
 						if (thread != null)
 						{
 							PathfinderLevitator newPath = thread.getPath();
 							if (newPath != null)
 							{
 								pathfinder = newPath;
 								pathfinder.results.add(getPosition());
 								thread = null;
 							}
 						}
 						// Push entity along path.
 						if (pathfinder != null)
 						{
 							List<Vector3> results = pathfinder.results;
 							/**
 							 * Draw default beams.
 							 */
 							if (renderBeam)
 							{
 								Electrical.proxy().renderElectricShock(world(), getBeamSpawnPosition(), getPosition().add(0.5), EnumColor.DYES[dyeID].toColor(), world().rand.nextFloat() > 0.9);
 								Electrical.proxy().renderElectricShock(world(), getLink().getPosition().add(0.5), getLink().getBeamSpawnPosition(), EnumColor.DYES[dyeID].toColor(), world().rand.nextFloat() > 0.9);
 							}
 							for (int i = 0; i < results.size(); i++)
 							{
 								Vector3 result = results.get(i).clone();
 								if (canBeMovePath(world(), result))
 								{
 									if (i - 1 >= 0)
 									{
 										Vector3 prevResult = results.get(i - 1).clone();
 										Vector3 difference = prevResult.clone().subtract(result);
 										final ForgeDirection direction = difference.toForgeDirection();
 										if (renderBeam)
 										{
 											Electrical.proxy().renderElectricShock(world(), prevResult.clone().add(0.5), result.clone().add(0.5), EnumColor.DYES[dyeID].toColor(), world().rand.nextFloat() > 0.9);
 										}
 										AxisAlignedBB bounds = AxisAlignedBB.getBoundingBox(result.x(), result.y(), result.z(), result.x() + 1, result.y() + 1, result.z() + 1);
 										List<EntityItem> entities = world().getEntitiesWithinAABB(EntityItem.class, bounds);
 										for (EntityItem entityItem : entities)
 										{
 											moveEntity(entityItem, direction, result);
 										}
 									}
 								}
 								else
 								{
 									updatePath();
 									break;
 								}
 							}
 						}
 						else
 						{
 							updatePath();
 						}
 					}
 				}
 				else if (operationBounds != null)
 				{
 					/**
 					 * Non-linked usage.
 					 */
 					for (EntityItem entityItem : (List<EntityItem>) world().getEntitiesWithinAABB(EntityItem.class, operationBounds))
 					{
 						moveEntity(entityItem, placementSide.getOpposite(), getPosition());
 					}
 					if (ticks % renderPeriod == 0)
 					{
 						Electrical.proxy().renderElectricShock(world(), getBeamSpawnPosition(), new Vector3(operationBounds.maxX - 0.5 - placementSide.offsetX / 3f, operationBounds.maxY - 0.5 - placementSide.offsetY / 3f, operationBounds.maxZ - 0.5 - placementSide.offsetZ / 3f), EnumColor.DYES[dyeID].toColor(), world().rand.nextFloat() > 0.9);
 					}
 				}
 			}
 			lastCalcTime--;
 		}
 	}
 	public boolean canBeMovePath(World world, Vector3 position)
 	{
 		TMultiPart partSelf = MultipartUtil.getMultipart(new VectorWorld(world, position), placementSide.ordinal());
 		if (partSelf == this)
 		{
 			return true;
 		}
 		TMultiPart partLink = MultipartUtil.getMultipart(new VectorWorld(world, position), getLink().placementSide.ordinal());
 		if (partLink == getLink())
 		{
 			return true;
 		}
 		return canBePath(world, position);
 	}
 	private boolean hasLink()
 	{
 		return getLink() != null && getLink().getLink() == this;
 	}
 	private void moveEntity(EntityItem entityItem, ForgeDirection direction, Vector3 lockVector)
 	{
 		switch (direction)
 		{
 			case DOWN:
 				entityItem.setPosition(lockVector.x() + 0.5, entityItem.posY, lockVector.z() + 0.5);
 				entityItem.motionX = 0;
 				entityItem.motionZ = 0;
 				if (!input)
 				{
 					entityItem.motionY = Math.max(-Settings.LEVITATOR_MAX_SPEED(), entityItem.motionY - Settings.LEVITATOR_ACCELERATION());
 				}
 				else
 				{
 					entityItem.motionY = Math.min(Settings.LEVITATOR_MAX_SPEED(), entityItem.motionY + .04 + Settings.LEVITATOR_ACCELERATION());
 				}
 				break;
 			case UP:
 				entityItem.setPosition(lockVector.x() + 0.5, entityItem.posY, lockVector.z() + 0.5);
 				entityItem.motionX = 0;
 				entityItem.motionZ = 0;
 				if (!input)
 				{
 					entityItem.motionY = Math.min(Settings.LEVITATOR_MAX_SPEED(), entityItem.motionY + .04 + Settings.LEVITATOR_ACCELERATION());
 				}
 				else
 				{
 					entityItem.motionY = Math.max(-Settings.LEVITATOR_MAX_SPEED(), entityItem.motionY - Settings.LEVITATOR_ACCELERATION());
 				}
 				break;
 			case NORTH:
 				entityItem.setPosition(lockVector.x() + 0.5, lockVector.y() + 0.5, entityItem.posZ);
 				entityItem.motionX = 0;
 				entityItem.motionY = 0;
 				if (!input)
 				{
 					entityItem.motionZ = Math.max(-Settings.LEVITATOR_MAX_SPEED(), entityItem.motionZ - Settings.LEVITATOR_ACCELERATION());
 				}
 				else
 				{
 					entityItem.motionZ = Math.min(Settings.LEVITATOR_MAX_SPEED(), entityItem.motionZ + Settings.LEVITATOR_ACCELERATION());
 				}
 				break;
 			case SOUTH:
 				entityItem.setPosition(lockVector.x() + 0.5, lockVector.y() + 0.5, entityItem.posZ);
 				entityItem.motionX = 0;
 				entityItem.motionY = 0;
 				if (!input)
 				{
 					entityItem.motionZ = Math.min(Settings.LEVITATOR_MAX_SPEED(), entityItem.motionZ + Settings.LEVITATOR_ACCELERATION());
 				}
 				else
 				{
 					entityItem.motionZ = Math.max(-Settings.LEVITATOR_MAX_SPEED(), entityItem.motionZ - Settings.LEVITATOR_ACCELERATION());
 				}
 				break;
 			case WEST:
 				entityItem.setPosition(entityItem.posX, lockVector.y() + 0.5, lockVector.z() + 0.5);
 				entityItem.motionY = 0;
 				entityItem.motionZ = 0;
 				if (!input)
 				{
 					entityItem.motionX = Math.max(-Settings.LEVITATOR_MAX_SPEED(), entityItem.motionX - Settings.LEVITATOR_ACCELERATION());
 				}
 				else
 				{
 					entityItem.motionX = Math.min(Settings.LEVITATOR_MAX_SPEED(), entityItem.motionX + Settings.LEVITATOR_ACCELERATION());
 				}
 				break;
 			case EAST:
 				entityItem.setPosition(entityItem.posX, lockVector.y() + 0.5, lockVector.z() + 0.5);
 				entityItem.motionY = 0;
 				entityItem.motionZ = 0;
 				if (!input)
 				{
 					entityItem.motionX = Math.min(Settings.LEVITATOR_MAX_SPEED(), entityItem.motionX + Settings.LEVITATOR_ACCELERATION());
 				}
 				else
 				{
 					entityItem.motionX = Math.max(-Settings.LEVITATOR_MAX_SPEED(), entityItem.motionX - Settings.LEVITATOR_ACCELERATION());
 				}
 				break;
 			default:
 				break;
 		}
 		entityItem.ticksExisted = 1;
 		entityItem.isAirBorne = true;
 		entityItem.delayBeforeCanPickup = 1;
 		entityItem.age = Math.max(entityItem.age - 1, 0);
 	}
 	private EntityItem getItemWithPosition(ItemStack toSend)
 	{
 		EntityItem item = new EntityItem(world(), x() + 0.5, y() + 0.5, z() + 0.5, toSend);
 		item.motionX = 0;
 		item.motionY = 0;
 		item.motionZ = 0;
 		return item;
 	}
 	public void updateBounds()
 	{
 		suckBounds = operationBounds = null;
 		ForgeDirection dir = placementSide.getOpposite();
 		MovingObjectPosition mop = world().rayTraceBlocks(getPosition().add(dir).toVec3(), getPosition().add(dir.offsetX * Settings.LEVITATOR_MAX_REACH(), dir.offsetY * Settings.LEVITATOR_MAX_REACH(), dir.offsetZ * Settings.LEVITATOR_MAX_REACH()).toVec3());
 		int reach = Settings.LEVITATOR_MAX_REACH();
 		if (mop != null)
 		{
 			if (MultipartUtil.getMultipart(world(), mop.blockX, mop.blockY, mop.blockZ, placementSide.getOpposite().ordinal()) instanceof PartLevitator)
 			{
 				reach = (int) Math.min(getPosition().distance(new Vector3(mop.hitVec)), reach);
 				if (dir.offsetX + dir.offsetY + dir.offsetZ < 0)
 				{
 					operationBounds = AxisAlignedBB.getBoundingBox(x() + dir.offsetX * reach, y() + dir.offsetY * reach, z() + dir.offsetZ * reach, x() + 1, y() + 1, z() + 1);
 					suckBounds = AxisAlignedBB.getBoundingBox(x() + dir.offsetX, y() + dir.offsetY, z() + dir.offsetZ, x() + 1, y() + 1, z() + 1);
 				}
 				else
 				{
 					operationBounds = AxisAlignedBB.getBoundingBox(x(), y(), z(), x() + 1 + dir.offsetX * reach, y() + 1 + dir.offsetY * reach, z() + 1 + dir.offsetZ * reach);
 					suckBounds = AxisAlignedBB.getBoundingBox(x(), y(), z(), x() + 1 + dir.offsetX, y() + 1 + dir.offsetY, z() + 1 + dir.offsetZ);
 				}
 			}
 		}
 	}
 	@Override
 	public void onNeighborChanged()
 	{
 		super.onNeighborChanged();
 		updateBounds();
 	}
 	public boolean canFunction()
 	{
 	    //TODO remove (false) when working on
 		return false && isLatched() && !world().isBlockIndirectlyGettingPowered(x(), y(), z());
 	}
 	public boolean isLatched()
 	{
 		return getLatched() != null;
 	}
 	public TileEntity getLatched()
 	{
 		ForgeDirection side = placementSide;
 		TileEntity tile = world().getTileEntity(x() + side.offsetX, y() + side.offsetY, z() + side.offsetZ);
 		if (tile instanceof IInventory)
 		{
 			return tile;
 		}
 		return null;
 	}
 	@Override
 	public void readDesc(MCDataInput packet)
 	{
 		super.readDesc(packet);
 		input = packet.readBoolean();
 		dyeID = packet.readByte();
 		if (packet.readBoolean())
 		{
 			saveLinkVector = new VectorWorld(packet.readNBTTagCompound());
 			saveLinkSide = packet.readByte();
 		}
 	}
 	@Override
 	public void writeDesc(MCDataOutput packet)
 	{
 		super.writeDesc(packet);
 		packet.writeBoolean(input);
 		packet.writeByte(dyeID);
 		if (getLink() != null)
 		{
 			packet.writeBoolean(true);
 			NBTTagCompound nbt = new NBTTagCompound();
 			new VectorWorld(getLink().world(), getLink().x(), getLink().y(), getLink().z()).writeNBT(nbt);
 			packet.writeNBTTagCompound(nbt);
 			packet.writeByte(getLink().placementSide.ordinal());
 		}
 		else
 		{
 			packet.writeBoolean(false);
 		}
 	}
 	@Override
 	public void load(NBTTagCompound nbt)
 	{
 		super.load(nbt);
 		this.input = nbt.getBoolean("suck");
 		this.dyeID = nbt.getInteger("dyeID");
 		if (nbt.hasKey("link"))
 		{
 			saveLinkVector = new VectorWorld(nbt.getCompoundTag("link"));
 			saveLinkSide = nbt.getByte("linkSide");
 		}
 	}
 	@Override
 	public void save(NBTTagCompound nbt)
 	{
 		super.save(nbt);
 		nbt.setBoolean("suck", input);
 		nbt.setInteger("dyeID", dyeID);
 		if (getLink() != null && getLink().world() != null)
 		{
 			nbt.setTag("link", new VectorWorld(getLink().world(), getLink().x(), getLink().y(), getLink().z()).writeNBT(new NBTTagCompound()));
 			nbt.setByte("linkSide", (byte) getLink().placementSide.ordinal());
 		}
 	}
 	/**
 	 * Link between two TileEntities, do pathfinding operation.
 	 */
 	public void setLink(PartLevitator levitator, boolean setOpponent)
 	{
 		if (getLink() != null && setOpponent)
 		{
 			getLink().setLink(null, false);
 		}
 		linked = new WeakReference(levitator);
 		if (setOpponent)
 		{
 			getLink().setLink(this, false);
 		}
 		updatePath();
 	}
 	public void updatePath()
 	{
 		if (thread == null && getLink() != null && lastCalcTime <= 0)
 		{
 			pathfinder = null;
 			Vector3 start = getPosition();
 			Vector3 target = new Vector3(getLink().x(), getLink().y(), getLink().z());
 			if (start.distance(target) < Settings.MAX_LEVITATOR_DISTANCE())
 			{
 				if (canBeMovePath(world(), start) && canBeMovePath(world(), target))
 				{
 					thread = new ThreadLevitatorPathfinding(new PathfinderLevitator(world(), target), start);
 					thread.start();
 					lastCalcTime = 40;
 				}
 			}
 		}
 	}
 	public void setDye(int dye)
 	{
 		dyeID = dye;
 		world().markBlockForUpdate(x(), y(), z());
 	}
 	public Vector3 getPosition()
 	{
 		return new Vector3(x(), y(), z());
 	}
 	public Vector3 getBeamSpawnPosition()
 	{
 		return new Vector3(x() + 0.5 + placementSide.offsetX / 3f, y() + 0.5 + placementSide.offsetY / 3f, z() + 0.5 + placementSide.offsetZ / 3f);
 	}
 	@Override
 	protected ItemStack getItem()
 	{
 		return new ItemStack(ElectricalContent.itemLevitator());
 	}
 	@Override
 	public String getType()
 	{
 		return "resonant_induction_levitator";
 	}
 	@Override
 	@SideOnly(Side.CLIENT)
 	public void renderDynamic(codechicken.lib.vec.Vector3 pos, float frame, int pass)
 	{
 		if (pass == 0)
 		{
 			RenderLevitator.INSTANCE.render(this, pos.x, pos.y, pos.z);
 		}
 	}
 }
--- a/src/main/scala/resonantinduction/electrical/levitator/PathfinderLevitator.java
+++ b/src/main/scala/resonantinduction/electrical/levitator/PathfinderLevitator.java
@ -1,79 +0,0 @@
 package resonantinduction.electrical.levitator;
 import java.util.HashSet;
 import java.util.Set;
 import net.minecraft.world.World;
 import net.minecraftforge.common.util.ForgeDirection;
 import resonant.lib.path.IPathCallBack;
 import resonant.lib.path.Pathfinder;
 import resonant.lib.path.PathfinderAStar;
 import universalelectricity.core.transform.vector.Vector3;
 /**
 * Uses the well known A* Pathfinding algorithm.
 *
 * @author Calclavia
 *
 */
 public class PathfinderLevitator extends PathfinderAStar
 {
 	private World world;
 	private double maxSearchDistance;
 	public PathfinderLevitator(final World world, final Vector3 goal)
 	{
 		super(new IPathCallBack()
 		{
 			@Override
 			public Set<Vector3> getConnectedNodes(Pathfinder finder, Vector3 currentNode)
 			{
 				Set<Vector3> neighbors = new HashSet<Vector3>();
 				for (int i = 0; i < 6; i++)
 				{
 					Vector3 neighbor = currentNode.clone().add(ForgeDirection.getOrientation(i));
 					if (PartLevitator.canBePath(world, neighbor) || neighbor.equals(goal))
 					{
 						neighbors.add(neighbor);
 					}
 				}
 				return neighbors;
 			}
 			@Override
 			public boolean onSearch(Pathfinder finder, Vector3 start, Vector3 node)
 			{
 				return !(start.distance(node) < (start.distance(goal) * 2));
 			}
 		}, goal);
 		this.world = world;
 	}
 	@Override
 	public boolean findNodes(Vector3 start)
 	{
 		int blockCount = 0;
 		for (int i = 0; i < 6; i++)
 		{
 			ForgeDirection direction = ForgeDirection.getOrientation(i);
 			Vector3 neighbor = this.goal.clone().add(new Vector3(direction.offsetX, direction.offsetY, direction.offsetZ));
 			if (!PartLevitator.canBePath(this.world, neighbor))
 			{
 				blockCount++;
 			}
 		}
 		if (blockCount >= 6)
 		{
 			return false;
 		}
 		return super.findNodes(start);
 	}
 }
--- a/src/main/scala/resonantinduction/electrical/levitator/RenderLevitator.java
+++ b/src/main/scala/resonantinduction/electrical/levitator/RenderLevitator.java
@ -1,69 +0,0 @@
 package resonantinduction.electrical.levitator;
 import net.minecraft.item.ItemStack;
 import net.minecraft.util.ResourceLocation;
 import net.minecraftforge.client.IItemRenderer;
 import net.minecraftforge.client.model.AdvancedModelLoader;
 import net.minecraftforge.client.model.IModelCustom;
 import org.lwjgl.opengl.GL11;
 import resonant.content.prefab.scala.render.ISimpleItemRenderer;
 import resonant.lib.render.RenderUtility;
 import resonantinduction.core.Reference;
 import cpw.mods.fml.client.FMLClientHandler;
 public class RenderLevitator implements ISimpleItemRenderer
 {
 	public static final RenderLevitator INSTANCE = new RenderLevitator();
 	public static final IModelCustom MODEL = AdvancedModelLoader.loadModel(new ResourceLocation(Reference.domain(), Reference.modelPath() + "levitator.tcn"));
 	public static final ResourceLocation TEXTURE_ON = new ResourceLocation(Reference.domain(), Reference.modelPath() + "levitator_on.png");
 	public static final ResourceLocation TEXTURE_OFF = new ResourceLocation(Reference.domain(), Reference.modelPath() + "levitator_off.png");
 	public void render(PartLevitator part, double x, double y, double z)
 	{
 		GL11.glPushMatrix();
 		GL11.glTranslated(x + 0.5, y + 0.5, z + 0.5);
 		RenderUtility.rotateFaceToSideNoTranslate(part.placementSide);
 		if (part.canFunction())
 			RenderUtility.bind(TEXTURE_ON);
 		else
 			RenderUtility.bind(TEXTURE_OFF);
 		GL11.glPushMatrix();
 		GL11.glRotatef(part.renderRotation, 1, 0, 0);
 		MODEL.renderOnly("ring1");
 		GL11.glPopMatrix();
 		GL11.glPushMatrix();
 		GL11.glRotatef(-part.renderRotation, 1, 0, 0);
 		MODEL.renderOnly("ring2");
 		GL11.glPopMatrix();
 		GL11.glPushMatrix();
 		GL11.glRotatef(part.renderRotation, 0, 0, 1);
 		MODEL.renderOnly("ring3");
 		GL11.glPopMatrix();
 		GL11.glPushMatrix();
 		GL11.glRotatef(-part.renderRotation, 0, 0, 1);
 		MODEL.renderOnly("ring4");
 		GL11.glPopMatrix();
 		MODEL.renderAllExcept("ring1", "ring2", "ring3", "ring4");
 		GL11.glPopMatrix();
 	}
 	@Override
 	public void renderInventoryItem(IItemRenderer.ItemRenderType type, ItemStack itemStack, Object... data)
 	{
 		GL11.glPushMatrix();
 		GL11.glTranslatef(0f, 0.5f, 0f);
 		FMLClientHandler.instance().getClient().renderEngine.bindTexture(TEXTURE_OFF);
 		MODEL.renderAll();
 		GL11.glPopMatrix();
 	}
 }
--- a/src/main/scala/resonantinduction/electrical/levitator/ThreadLevitatorPathfinding.java
+++ b/src/main/scala/resonantinduction/electrical/levitator/ThreadLevitatorPathfinding.java
@ -1,41 +0,0 @@
 /**
 *
 */
 package resonantinduction.electrical.levitator;
 import universalelectricity.core.transform.vector.Vector3;
 /**
 * @author Calclavia
 *
 */
 public class ThreadLevitatorPathfinding extends Thread
 {
 	private boolean isCompleted = false;
 	private PathfinderLevitator pathfinder;
 	private Vector3 start;
 	public ThreadLevitatorPathfinding(PathfinderLevitator pathfinder, Vector3 start)
 	{
 		this.pathfinder = pathfinder;
 		this.start = start;
 		this.setPriority(Thread.MIN_PRIORITY);
 	}
 	@Override
 	public void run()
 	{
 		this.pathfinder.findNodes(this.start);
 		this.isCompleted = true;
 	}
 	public PathfinderLevitator getPath()
 	{
 		if (this.isCompleted)
 		{
 			return this.pathfinder;
 		}
 		return null;
 	}
 }