This commit is contained in:
Calclavia 2014-01-12 15:24:47 +08:00
commit 2f8eff86dd
5 changed files with 563 additions and 558 deletions

View file

@ -2,8 +2,13 @@ package resonantinduction.mechanical;
import net.minecraftforge.client.MinecraftForgeClient;
import resonantinduction.mechanical.fluid.pipe.ItemPipeRenderer;
import resonantinduction.mechanical.fluid.pipe.RenderPipe;
import resonantinduction.mechanical.fluid.pipe.TilePipe;
import resonantinduction.mechanical.fluid.tank.ItemTankRenderer;
import resonantinduction.mechanical.fluid.tank.RenderTank;
import resonantinduction.mechanical.fluid.tank.TileTank;
import resonantinduction.mechanical.render.MechanicalBlockRenderingHandler;
import cpw.mods.fml.client.registry.ClientRegistry;
import cpw.mods.fml.client.registry.RenderingRegistry;
public class ClientProxy extends CommonProxy
@ -19,5 +24,7 @@ public class ClientProxy extends CommonProxy
{
MinecraftForgeClient.registerItemRenderer(Mechanical.blockTank.blockID, new ItemTankRenderer());
MinecraftForgeClient.registerItemRenderer(Mechanical.blockPipe.blockID, new ItemPipeRenderer());
ClientRegistry.bindTileEntitySpecialRenderer(TilePipe.class, new RenderPipe());
ClientRegistry.bindTileEntitySpecialRenderer(TileTank.class, new RenderTank());
}
}

View file

@ -95,7 +95,6 @@ public class ItemBlockFluidContainer extends ItemBlock
{
return 1;
}
return this.maxStackSize;
}
@ -108,7 +107,7 @@ public class ItemBlockFluidContainer extends ItemBlock
@Override
public boolean placeBlockAt(ItemStack stack, EntityPlayer player, World world, int x, int y, int z, int side, float hitX, float hitY, float hitZ, int metadata)
{
if (super.placeBlockAt(stack, player, world, x, y, z, side, hitX, hitY, hitZ, (stack.getItemDamage() / FluidContainerMaterial.spacing)))
if (super.placeBlockAt(stack, player, world, x, y, z, side, hitX, hitY, hitZ, (metadata / FluidContainerMaterial.spacing)))
{
TileEntity tile = world.getBlockTileEntity(x, y, z);
if (tile instanceof TileFluidNetwork)

View file

@ -45,26 +45,26 @@ public class ItemPipeRenderer implements IItemRenderer
if (type == ItemRenderType.ENTITY)
{
GL11.glTranslatef(-.5F, -1F, -.5F);
RenderPipe.render(meta, (byte) 0b000011);
RenderPipe.render(meta, (byte) 0b001100);
}
else if (type == ItemRenderType.INVENTORY)
{
GL11.glTranslatef(0F, -1F, 0F);
RenderPipe.render(meta, (byte) 0b000011);
RenderPipe.render(meta, (byte) 0b001100);
}
else if (type == ItemRenderType.EQUIPPED)
{
GL11.glTranslatef(-1F, -1.2F, 0.5F);
RenderPipe.render(meta, (byte) 0b001100);
RenderPipe.render(meta, (byte) 0b000011);
}
else if (type == ItemRenderType.EQUIPPED_FIRST_PERSON)
{
GL11.glTranslatef(-2F, -1.5F, 0.2F);
RenderPipe.render(meta, (byte) 0b001100);
RenderPipe.render(meta, (byte) 0b000011);
}
else
{
RenderPipe.render(item.getItemDamage(), (byte) 0b001100);
RenderPipe.render(item.getItemDamage(), (byte) 0b000011);
}
if (Mechanical.blockReleaseValve != null && item.itemID == Mechanical.blockReleaseValve.blockID)
{

View file

@ -26,175 +26,175 @@ import cpw.mods.fml.relauncher.SideOnly;
@SideOnly(Side.CLIENT)
public class RenderPipe extends TileEntitySpecialRenderer
{
public static ModelPipe MODEL_PIPE = new ModelPipe();
public static ModelOpenTrough MODEL_TROUGH_PIPE = new ModelOpenTrough();
private static HashMap<Pair<FluidContainerMaterial, Integer>, ResourceLocation> TEXTURES = new HashMap<Pair<FluidContainerMaterial, Integer>, ResourceLocation>();
public static ResourceLocation TEXTURE = new ResourceLocation(Reference.DOMAIN, Reference.MODEL_DIRECTORY + "pipe.png");
public static ModelPipe MODEL_PIPE = new ModelPipe();
public static ModelOpenTrough MODEL_TROUGH_PIPE = new ModelOpenTrough();
private static HashMap<Pair<FluidContainerMaterial, Integer>, ResourceLocation> TEXTURES = new HashMap<Pair<FluidContainerMaterial, Integer>, ResourceLocation>();
public static ResourceLocation TEXTURE = new ResourceLocation(Reference.DOMAIN, Reference.MODEL_DIRECTORY + "pipe.png");
@Override
public void renderTileEntityAt(TileEntity te, double d, double d1, double d2, float f)
{
FluidContainerMaterial mat = FluidContainerMaterial.IRON;
if (te.getBlockMetadata() < FluidContainerMaterial.values().length)
{
mat = FluidContainerMaterial.values()[te.getBlockMetadata()];
}
@Override
public void renderTileEntityAt(TileEntity te, double d, double d1, double d2, float f)
{
FluidContainerMaterial mat = FluidContainerMaterial.IRON;
if (te.getBlockMetadata() < FluidContainerMaterial.values().length)
{
mat = FluidContainerMaterial.values()[te.getBlockMetadata()];
}
if (te instanceof TilePipe)
{
TilePipe tile = (TilePipe) te;
if (te instanceof TilePipe)
{
TilePipe tile = (TilePipe) te;
if (mat == FluidContainerMaterial.WOOD || mat == FluidContainerMaterial.STONE)
{
FluidStack liquid = tile.getTank().getFluid();
int cap = tile.getTankInfo()[0].capacity;
if (mat == FluidContainerMaterial.WOOD || mat == FluidContainerMaterial.STONE)
{
FluidStack liquid = tile.getTank().getFluid();
int cap = tile.getTankInfo()[0].capacity;
// FluidStack liquid = new FluidStack(FluidRegistry.WATER, cap);
if (liquid != null && liquid.amount > 100)
{
float per = Math.max(1, (float) liquid.amount / (float) (cap));
int[] displayList = RenderFluidHelper.getFluidDisplayLists(liquid, te.worldObj, false);
bindTexture(RenderFluidHelper.getFluidSheet(liquid));
// FluidStack liquid = new FluidStack(FluidRegistry.WATER, cap);
if (liquid != null && liquid.amount > 100)
{
float per = Math.max(1, (float) liquid.amount / (float) (cap));
int[] displayList = RenderFluidHelper.getFluidDisplayLists(liquid, te.worldObj, false);
bindTexture(RenderFluidHelper.getFluidSheet(liquid));
GL11.glPushMatrix();
GL11.glPushAttrib(GL11.GL_ENABLE_BIT);
GL11.glEnable(GL11.GL_CULL_FACE);
GL11.glDisable(GL11.GL_LIGHTING);
GL11.glEnable(GL11.GL_BLEND);
GL11.glBlendFunc(GL11.GL_SRC_ALPHA, GL11.GL_ONE_MINUS_SRC_ALPHA);
GL11.glPushMatrix();
GL11.glPushAttrib(GL11.GL_ENABLE_BIT);
GL11.glEnable(GL11.GL_CULL_FACE);
GL11.glDisable(GL11.GL_LIGHTING);
GL11.glEnable(GL11.GL_BLEND);
GL11.glBlendFunc(GL11.GL_SRC_ALPHA, GL11.GL_ONE_MINUS_SRC_ALPHA);
GL11.glTranslatef((float) d + 0.3F, (float) d1 + 0.1F, (float) d2 + 0.3F);
GL11.glScalef(0.4F, 0.4F, 0.4F);
GL11.glTranslatef((float) d + 0.3F, (float) d1 + 0.1F, (float) d2 + 0.3F);
GL11.glScalef(0.4F, 0.4F, 0.4F);
GL11.glCallList(displayList[(int) (per * (RenderFluidHelper.DISPLAY_STAGES - 1))]);
GL11.glCallList(displayList[(int) (per * (RenderFluidHelper.DISPLAY_STAGES - 1))]);
GL11.glPopAttrib();
GL11.glPopMatrix();
GL11.glPopAttrib();
GL11.glPopMatrix();
for (ForgeDirection direction : ForgeDirection.VALID_DIRECTIONS)
{
if (tile.canRenderSide(direction))
{
GL11.glPushMatrix();
GL11.glPushAttrib(GL11.GL_ENABLE_BIT);
GL11.glEnable(GL11.GL_CULL_FACE);
GL11.glDisable(GL11.GL_LIGHTING);
GL11.glEnable(GL11.GL_BLEND);
GL11.glBlendFunc(GL11.GL_SRC_ALPHA, GL11.GL_ONE_MINUS_SRC_ALPHA);
for (ForgeDirection direction : ForgeDirection.VALID_DIRECTIONS)
{
if (tile.canRenderSide(direction))
{
GL11.glPushMatrix();
GL11.glPushAttrib(GL11.GL_ENABLE_BIT);
GL11.glEnable(GL11.GL_CULL_FACE);
GL11.glDisable(GL11.GL_LIGHTING);
GL11.glEnable(GL11.GL_BLEND);
GL11.glBlendFunc(GL11.GL_SRC_ALPHA, GL11.GL_ONE_MINUS_SRC_ALPHA);
switch (direction.ordinal())
{
case 4:
GL11.glTranslatef((float) d + 0F, (float) d1 + 0.1F, (float) d2 + 0.3F);
break;
case 5:
GL11.glTranslatef((float) d + 0.7F, (float) d1 + 0.1F, (float) d2 + 0.3F);
break;
case 2:
GL11.glTranslatef((float) d + 0.3F, (float) d1 + 0.1F, (float) d2 + 0F);
break;
case 3:
GL11.glTranslatef((float) d + 0.3F, (float) d1 + 0.1F, (float) d2 + 0.7F);
break;
}
GL11.glScalef(0.3F, 0.4F, 0.4F);
switch (direction.ordinal())
{
case 4:
GL11.glTranslatef((float) d + 0F, (float) d1 + 0.1F, (float) d2 + 0.3F);
break;
case 5:
GL11.glTranslatef((float) d + 0.7F, (float) d1 + 0.1F, (float) d2 + 0.3F);
break;
case 2:
GL11.glTranslatef((float) d + 0.3F, (float) d1 + 0.1F, (float) d2 + 0F);
break;
case 3:
GL11.glTranslatef((float) d + 0.3F, (float) d1 + 0.1F, (float) d2 + 0.7F);
break;
}
GL11.glScalef(0.3F, 0.4F, 0.4F);
GL11.glCallList(displayList[(int) (per * (RenderFluidHelper.DISPLAY_STAGES - 1))]);
GL11.glCallList(displayList[(int) (per * (RenderFluidHelper.DISPLAY_STAGES - 1))]);
GL11.glPopAttrib();
GL11.glPopMatrix();
}
}
}
}
GL11.glPopAttrib();
GL11.glPopMatrix();
}
}
}
}
GL11.glPushMatrix();
GL11.glTranslatef((float) d + 0.5F, (float) d1 + 1.5F, (float) d2 + 0.5F);
GL11.glScalef(1.0F, -1F, -1F);
bindTexture(RenderPipe.getTexture(mat, 0));
render(mat, tile.getSubID(), tile.renderSides);
GL11.glPopMatrix();
}
else
{
GL11.glPushMatrix();
GL11.glTranslatef((float) d + 0.5F, (float) d1 + 1.5F, (float) d2 + 0.5F);
GL11.glScalef(1.0F, -1F, -1F);
render(mat, 0, (byte) 0b0);
GL11.glPopMatrix();
}
GL11.glPushMatrix();
GL11.glTranslatef((float) d + 0.5F, (float) d1 + 1.5F, (float) d2 + 0.5F);
GL11.glScalef(1.0F, -1F, -1F);
bindTexture(RenderPipe.getTexture(mat, 0));
render(mat, tile.getSubID(), tile.renderSides);
GL11.glPopMatrix();
}
else
{
GL11.glPushMatrix();
GL11.glTranslatef((float) d + 0.5F, (float) d1 + 1.5F, (float) d2 + 0.5F);
GL11.glScalef(1.0F, -1F, -1F);
render(mat, 0, (byte) 0b0);
GL11.glPopMatrix();
}
}
}
public static ResourceLocation getTexture(FluidContainerMaterial mat, int pipeID)
{
if (mat != null)
{
Pair<FluidContainerMaterial, Integer> index = new Pair<FluidContainerMaterial, Integer>(mat, pipeID);
public static ResourceLocation getTexture(FluidContainerMaterial mat, int pipeID)
{
if (mat != null)
{
Pair<FluidContainerMaterial, Integer> index = new Pair<FluidContainerMaterial, Integer>(mat, pipeID);
if (!TEXTURES.containsKey(index))
{
String pipeName = "";
if (EnumPipeType.get(pipeID) != null)
{
pipeName = EnumPipeType.get(pipeID).getName(pipeID);
}
TEXTURES.put(index, new ResourceLocation(Reference.DOMAIN, Reference.MODEL_PATH + "pipe/" + mat.matName + ".png"));
}
return TEXTURES.get(index);
}
return TEXTURE;
}
if (!TEXTURES.containsKey(index))
{
String pipeName = "";
if (EnumPipeType.get(pipeID) != null)
{
pipeName = EnumPipeType.get(pipeID).getName(pipeID);
}
TEXTURES.put(index, new ResourceLocation(Reference.DOMAIN, Reference.MODEL_PATH + "pipe/" + mat.matName + ".png"));
}
return TEXTURES.get(index);
}
return TEXTURE;
}
public static ResourceLocation getTexture(int meta)
{
return getTexture(FluidContainerMaterial.getFromItemMeta(meta), FluidContainerMaterial.getType(meta));
}
public static ResourceLocation getTexture(int meta)
{
return getTexture(FluidContainerMaterial.getFromItemMeta(meta), FluidContainerMaterial.getType(meta));
}
public static void render(FluidContainerMaterial mat, int pipeID, byte side)
{
if (mat == FluidContainerMaterial.WOOD)
{
// MODEL_TROUGH_PIPE.render(side, false);
}
else if (mat == FluidContainerMaterial.STONE)
{
// MODEL_TROUGH_PIPE.render(side, true);
}
else
{
if (TileFluidNetwork.canRenderSide(side, ForgeDirection.DOWN))
{
MODEL_PIPE.renderBottom();
}
if (TileFluidNetwork.canRenderSide(side, ForgeDirection.UP))
{
MODEL_PIPE.renderTop();
}
if (TileFluidNetwork.canRenderSide(side, ForgeDirection.NORTH))
{
MODEL_PIPE.renderBack();
}
if (TileFluidNetwork.canRenderSide(side, ForgeDirection.SOUTH))
{
MODEL_PIPE.renderFront();
}
if (TileFluidNetwork.canRenderSide(side, ForgeDirection.WEST))
{
MODEL_PIPE.renderLeft();
}
if (TileFluidNetwork.canRenderSide(side, ForgeDirection.EAST))
{
MODEL_PIPE.renderRight();
}
public static void render(FluidContainerMaterial mat, int pipeID, byte side)
{
if (mat == FluidContainerMaterial.WOOD)
{
MODEL_TROUGH_PIPE.render(side, false);
}
else if (mat == FluidContainerMaterial.STONE)
{
MODEL_TROUGH_PIPE.render(side, true);
}
else
{
if (TileFluidNetwork.canRenderSide(side, ForgeDirection.DOWN))
{
MODEL_PIPE.renderBottom();
}
if (TileFluidNetwork.canRenderSide(side, ForgeDirection.UP))
{
MODEL_PIPE.renderTop();
}
if (TileFluidNetwork.canRenderSide(side, ForgeDirection.NORTH))
{
MODEL_PIPE.renderBack();
}
if (TileFluidNetwork.canRenderSide(side, ForgeDirection.SOUTH))
{
MODEL_PIPE.renderFront();
}
if (TileFluidNetwork.canRenderSide(side, ForgeDirection.WEST))
{
MODEL_PIPE.renderLeft();
}
if (TileFluidNetwork.canRenderSide(side, ForgeDirection.EAST))
{
MODEL_PIPE.renderRight();
}
MODEL_PIPE.renderMiddle();
}
}
MODEL_PIPE.renderMiddle();
}
}
public static void render(int meta, byte sides)
{
render(FluidContainerMaterial.getFromItemMeta(meta), FluidContainerMaterial.getType(meta), sides);
}
public static void render(int meta, byte sides)
{
render(FluidContainerMaterial.getFromItemMeta(meta), FluidContainerMaterial.getType(meta), sides);
}
}

View file

@ -6,420 +6,419 @@
package resonantinduction.old.client.model;
import resonantinduction.mechanical.fluid.prefab.TileFluidNetwork;
import net.minecraft.client.model.ModelBase;
import net.minecraft.client.model.ModelRenderer;
import net.minecraftforge.common.ForgeDirection;
public class ModelOpenTrough extends ModelBase
{
// fields
ModelRenderer base;
ModelRenderer leftBase;
ModelRenderer leftBaseB;
ModelRenderer rightBaseB;
ModelRenderer rightBase;
ModelRenderer frontBase;
ModelRenderer frontBaseB;
ModelRenderer backBase;
ModelRenderer backBaseB;
ModelRenderer frontA;
ModelRenderer frontB;
ModelRenderer backA;
ModelRenderer backB;
ModelRenderer rightA;
ModelRenderer rightB;
ModelRenderer leftB;
ModelRenderer leftA;
ModelRenderer centerA;
ModelRenderer centerB;
ModelRenderer centerC;
ModelRenderer centerD;
ModelRenderer frontDoorA;
ModelRenderer frontDoorB;
ModelRenderer frontDoorC;
ModelRenderer backDoorA;
ModelRenderer backDoorB;
ModelRenderer backDoorC;
ModelRenderer leftDoorA;
ModelRenderer leftDoorB;
ModelRenderer leftDoorC;
ModelRenderer rightDoorA;
ModelRenderer rightDoorB;
ModelRenderer rightDoorC;
ModelRenderer cornerBackLeft;
ModelRenderer cornerBackRight;
ModelRenderer cornerFrontLeft;
ModelRenderer cornerFrontRight;
// fields
ModelRenderer base;
ModelRenderer leftBase;
ModelRenderer leftBaseB;
ModelRenderer rightBaseB;
ModelRenderer rightBase;
ModelRenderer frontBase;
ModelRenderer frontBaseB;
ModelRenderer backBase;
ModelRenderer backBaseB;
ModelRenderer frontA;
ModelRenderer frontB;
ModelRenderer backA;
ModelRenderer backB;
ModelRenderer rightA;
ModelRenderer rightB;
ModelRenderer leftB;
ModelRenderer leftA;
ModelRenderer centerA;
ModelRenderer centerB;
ModelRenderer centerC;
ModelRenderer centerD;
ModelRenderer frontDoorA;
ModelRenderer frontDoorB;
ModelRenderer frontDoorC;
ModelRenderer backDoorA;
ModelRenderer backDoorB;
ModelRenderer backDoorC;
ModelRenderer leftDoorA;
ModelRenderer leftDoorB;
ModelRenderer leftDoorC;
ModelRenderer rightDoorA;
ModelRenderer rightDoorB;
ModelRenderer rightDoorC;
ModelRenderer cornerBackLeft;
ModelRenderer cornerBackRight;
ModelRenderer cornerFrontLeft;
ModelRenderer cornerFrontRight;
public ModelOpenTrough()
{
textureWidth = 128;
textureHeight = 128;
public ModelOpenTrough()
{
textureWidth = 128;
textureHeight = 128;
base = new ModelRenderer(this, 0, 0);
base.addBox(-4F, 0F, -4F, 8, 2, 8);
base.setRotationPoint(0F, 22F, 0F);
base.setTextureSize(64, 32);
base.mirror = true;
setRotation(base, 0F, 0F, 0F);
leftBase = new ModelRenderer(this, 32, 0);
leftBase.addBox(-4F, 0F, -4F, 4, 1, 8);
leftBase.setRotationPoint(8F, 22F, 0F);
leftBase.setTextureSize(64, 32);
leftBase.mirror = true;
setRotation(leftBase, 0F, 0F, 0F);
leftBaseB = new ModelRenderer(this, 36, 10);
leftBaseB.addBox(-4F, 0F, -3F, 4, 1, 6);
leftBaseB.setRotationPoint(8F, 23F, 0F);
leftBaseB.setTextureSize(64, 32);
leftBaseB.mirror = true;
setRotation(leftBaseB, 0F, 0F, 0F);
rightBaseB = new ModelRenderer(this, 36, 10);
rightBaseB.addBox(-4F, 0F, -3F, 4, 1, 6);
rightBaseB.setRotationPoint(-4F, 23F, 0F);
rightBaseB.setTextureSize(64, 32);
rightBaseB.mirror = true;
setRotation(rightBaseB, 0F, 0F, 0F);
rightBase = new ModelRenderer(this, 32, 0);
rightBase.addBox(-4F, 0F, -4F, 4, 1, 8);
rightBase.setRotationPoint(-4F, 22F, 0F);
rightBase.setTextureSize(64, 32);
rightBase.mirror = true;
setRotation(rightBase, 0F, 0F, 0F);
frontBase = new ModelRenderer(this, 60, 6);
frontBase.addBox(-3F, 0F, -4F, 6, 1, 4);
frontBase.setRotationPoint(0F, 23F, -4F);
frontBase.setTextureSize(64, 32);
frontBase.mirror = true;
setRotation(frontBase, 0F, 0F, 0F);
frontBaseB = new ModelRenderer(this, 58, 0);
frontBaseB.addBox(-4F, 0F, -4F, 8, 1, 4);
frontBaseB.setRotationPoint(0F, 22F, -4F);
frontBaseB.setTextureSize(64, 32);
frontBaseB.mirror = true;
setRotation(frontBaseB, 0F, 0F, 0F);
backBase = new ModelRenderer(this, 58, 0);
backBase.addBox(-4F, 0F, -4F, 8, 1, 4);
backBase.setRotationPoint(0F, 22F, 8F);
backBase.setTextureSize(64, 32);
backBase.mirror = true;
setRotation(backBase, 0F, 0F, 0F);
backBaseB = new ModelRenderer(this, 60, 6);
backBaseB.addBox(-3F, 0F, -4F, 6, 1, 4);
backBaseB.setRotationPoint(0F, 23F, 8F);
backBaseB.setTextureSize(64, 32);
backBaseB.mirror = true;
setRotation(backBaseB, 0F, 0F, 0F);
frontA = new ModelRenderer(this, 0, 12);
frontA.addBox(-4F, 0F, -4F, 2, 7, 4);
frontA.setRotationPoint(0F, 15F, -4F);
frontA.setTextureSize(64, 32);
frontA.mirror = true;
setRotation(frontA, 0F, 0F, 0F);
frontB = new ModelRenderer(this, 0, 12);
frontB.addBox(-4F, 0F, -4F, 2, 7, 4);
frontB.setRotationPoint(6F, 15F, -4F);
frontB.setTextureSize(64, 32);
frontB.mirror = true;
setRotation(frontB, 0F, 0F, 0F);
backA = new ModelRenderer(this, 0, 12);
backA.addBox(-4F, 0F, -4F, 2, 7, 4);
backA.setRotationPoint(0F, 15F, 8F);
backA.setTextureSize(64, 32);
backA.mirror = true;
setRotation(backA, 0F, 0F, 0F);
backB = new ModelRenderer(this, 0, 12);
backB.addBox(-4F, 0F, -4F, 2, 7, 4);
backB.setRotationPoint(6F, 15F, 8F);
backB.setTextureSize(64, 32);
backB.mirror = true;
setRotation(backB, 0F, 0F, 0F);
rightA = new ModelRenderer(this, 13, 12);
rightA.addBox(-8F, 0F, 0F, 4, 7, 2);
rightA.setRotationPoint(0F, 15F, -4F);
rightA.setTextureSize(64, 32);
rightA.mirror = true;
setRotation(rightA, 0F, 0F, 0F);
rightB = new ModelRenderer(this, 13, 12);
rightB.addBox(-8F, 0F, 6F, 4, 7, 2);
rightB.setRotationPoint(0F, 15F, -4F);
rightB.setTextureSize(64, 32);
rightB.mirror = true;
setRotation(rightB, 0F, 0F, 0F);
leftB = new ModelRenderer(this, 13, 12);
leftB.addBox(4F, 0F, 6F, 4, 7, 2);
leftB.setRotationPoint(0F, 15F, -4F);
leftB.setTextureSize(64, 32);
leftB.mirror = true;
setRotation(leftB, 0F, 0F, 0F);
leftA = new ModelRenderer(this, 13, 12);
leftA.addBox(4F, 0F, 0F, 4, 7, 2);
leftA.setRotationPoint(0F, 15F, -4F);
leftA.setTextureSize(64, 32);
leftA.mirror = true;
setRotation(leftA, 0F, 0F, 0F);
centerA = new ModelRenderer(this, 27, 12);
centerA.addBox(-4F, 0F, -4F, 2, 7, 2);
centerA.setRotationPoint(6F, 15F, 6F);
centerA.setTextureSize(64, 32);
centerA.mirror = true;
setRotation(centerA, 0F, 0F, 0F);
centerB = new ModelRenderer(this, 27, 12);
centerB.addBox(-4F, 0F, -4F, 2, 7, 2);
centerB.setRotationPoint(6F, 15F, 0F);
centerB.setTextureSize(64, 32);
centerB.mirror = true;
setRotation(centerB, 0F, 0F, 0F);
centerC = new ModelRenderer(this, 27, 12);
centerC.addBox(-4F, 0F, -4F, 2, 7, 2);
centerC.setRotationPoint(0F, 15F, 0F);
centerC.setTextureSize(64, 32);
centerC.mirror = true;
setRotation(centerC, 0F, 0F, 0F);
centerD = new ModelRenderer(this, 27, 12);
centerD.addBox(-4F, 0F, -4F, 2, 7, 2);
centerD.setRotationPoint(0F, 15F, 6F);
centerD.setTextureSize(64, 32);
centerD.mirror = true;
setRotation(centerD, 0F, 0F, 0F);
frontDoorA = new ModelRenderer(this, 0, 25);
frontDoorA.addBox(-4F, 0F, -4F, 4, 7, 2);
frontDoorA.setRotationPoint(2F, 15F, -4F);
frontDoorA.setTextureSize(64, 32);
frontDoorA.mirror = true;
setRotation(frontDoorA, 0F, 0F, 0F);
frontDoorB = new ModelRenderer(this, 0, 25);
frontDoorB.addBox(-4F, 0F, -4F, 4, 7, 2);
frontDoorB.setRotationPoint(2F, 15F, -2F);
frontDoorB.setTextureSize(64, 32);
frontDoorB.mirror = true;
setRotation(frontDoorB, 0F, 0F, 0F);
frontDoorC = new ModelRenderer(this, 0, 25);
frontDoorC.addBox(-4F, 0F, -4F, 4, 7, 2);
frontDoorC.setRotationPoint(2F, 15F, 0F);
frontDoorC.setTextureSize(64, 32);
frontDoorC.mirror = true;
setRotation(frontDoorC, 0F, 0F, 0F);
backDoorA = new ModelRenderer(this, 0, 25);
backDoorA.addBox(-4F, 0F, -4F, 4, 7, 2);
backDoorA.setRotationPoint(2F, 15F, 10F);
backDoorA.setTextureSize(64, 32);
backDoorA.mirror = true;
setRotation(backDoorA, 0F, 0F, 0F);
backDoorB = new ModelRenderer(this, 0, 25);
backDoorB.addBox(-4F, 0F, -4F, 4, 7, 2);
backDoorB.setRotationPoint(2F, 15F, 8F);
backDoorB.setTextureSize(64, 32);
backDoorB.mirror = true;
setRotation(backDoorB, 0F, 0F, 0F);
backDoorC = new ModelRenderer(this, 0, 25);
backDoorC.addBox(-4F, 0F, -4F, 4, 7, 2);
backDoorC.setRotationPoint(2F, 15F, 6F);
backDoorC.setTextureSize(64, 32);
backDoorC.mirror = true;
setRotation(backDoorC, 0F, 0F, 0F);
leftDoorA = new ModelRenderer(this, 16, 24);
leftDoorA.addBox(4F, 0F, 6F, 2, 7, 4);
leftDoorA.setRotationPoint(2F, 15F, -8F);
leftDoorA.setTextureSize(64, 32);
leftDoorA.mirror = true;
setRotation(leftDoorA, 0F, 0F, 0F);
leftDoorB = new ModelRenderer(this, 16, 24);
leftDoorB.addBox(4F, 0F, 6F, 2, 7, 4);
leftDoorB.setRotationPoint(0F, 15F, -8F);
leftDoorB.setTextureSize(64, 32);
leftDoorB.mirror = true;
setRotation(leftDoorB, 0F, 0F, 0F);
leftDoorC = new ModelRenderer(this, 16, 24);
leftDoorC.addBox(4F, 0F, 6F, 2, 7, 4);
leftDoorC.setRotationPoint(-2F, 15F, -8F);
leftDoorC.setTextureSize(64, 32);
leftDoorC.mirror = true;
setRotation(leftDoorC, 0F, 0F, 0F);
rightDoorA = new ModelRenderer(this, 16, 24);
rightDoorA.addBox(4F, 0F, 6F, 2, 7, 4);
rightDoorA.setRotationPoint(-12F, 15F, -8F);
rightDoorA.setTextureSize(64, 32);
rightDoorA.mirror = true;
setRotation(rightDoorA, 0F, 0F, 0F);
rightDoorB = new ModelRenderer(this, 16, 24);
rightDoorB.addBox(4F, 0F, 6F, 2, 7, 4);
rightDoorB.setRotationPoint(-10F, 15F, -8F);
rightDoorB.setTextureSize(64, 32);
rightDoorB.mirror = true;
setRotation(rightDoorB, 0F, 0F, 0F);
rightDoorC = new ModelRenderer(this, 16, 24);
rightDoorC.addBox(4F, 0F, 6F, 2, 7, 4);
rightDoorC.setRotationPoint(-8F, 15F, -8F);
rightDoorC.setTextureSize(64, 32);
rightDoorC.mirror = true;
setRotation(rightDoorC, 0F, 0F, 0F);
cornerBackLeft = new ModelRenderer(this, 0, 37);
cornerBackLeft.addBox(-4F, 0F, -4F, 4, 10, 4);
cornerBackLeft.setRotationPoint(8F, 14F, 8F);
cornerBackLeft.setTextureSize(64, 32);
cornerBackLeft.mirror = true;
setRotation(cornerBackLeft, 0F, 0F, 0F);
cornerBackRight = new ModelRenderer(this, 0, 37);
cornerBackRight.addBox(-4F, 0F, -4F, 4, 10, 4);
cornerBackRight.setRotationPoint(-4F, 14F, 8F);
cornerBackRight.setTextureSize(64, 32);
cornerBackRight.mirror = true;
setRotation(cornerBackRight, 0F, 0F, 0F);
cornerFrontLeft = new ModelRenderer(this, 0, 37);
cornerFrontLeft.addBox(-4F, 0F, -4F, 4, 10, 4);
cornerFrontLeft.setRotationPoint(8F, 14F, -4F);
cornerFrontLeft.setTextureSize(64, 32);
cornerFrontLeft.mirror = true;
setRotation(cornerFrontLeft, 0F, 0F, 0F);
cornerFrontRight = new ModelRenderer(this, 0, 37);
cornerFrontRight.addBox(-4F, 0F, -4F, 4, 10, 4);
cornerFrontRight.setRotationPoint(-4F, 14F, -4F);
cornerFrontRight.setTextureSize(64, 32);
cornerFrontRight.mirror = true;
setRotation(cornerFrontRight, 0F, 0F, 0F);
}
base = new ModelRenderer(this, 0, 0);
base.addBox(-4F, 0F, -4F, 8, 2, 8);
base.setRotationPoint(0F, 22F, 0F);
base.setTextureSize(64, 32);
base.mirror = true;
setRotation(base, 0F, 0F, 0F);
leftBase = new ModelRenderer(this, 32, 0);
leftBase.addBox(-4F, 0F, -4F, 4, 1, 8);
leftBase.setRotationPoint(8F, 22F, 0F);
leftBase.setTextureSize(64, 32);
leftBase.mirror = true;
setRotation(leftBase, 0F, 0F, 0F);
leftBaseB = new ModelRenderer(this, 36, 10);
leftBaseB.addBox(-4F, 0F, -3F, 4, 1, 6);
leftBaseB.setRotationPoint(8F, 23F, 0F);
leftBaseB.setTextureSize(64, 32);
leftBaseB.mirror = true;
setRotation(leftBaseB, 0F, 0F, 0F);
rightBaseB = new ModelRenderer(this, 36, 10);
rightBaseB.addBox(-4F, 0F, -3F, 4, 1, 6);
rightBaseB.setRotationPoint(-4F, 23F, 0F);
rightBaseB.setTextureSize(64, 32);
rightBaseB.mirror = true;
setRotation(rightBaseB, 0F, 0F, 0F);
rightBase = new ModelRenderer(this, 32, 0);
rightBase.addBox(-4F, 0F, -4F, 4, 1, 8);
rightBase.setRotationPoint(-4F, 22F, 0F);
rightBase.setTextureSize(64, 32);
rightBase.mirror = true;
setRotation(rightBase, 0F, 0F, 0F);
frontBase = new ModelRenderer(this, 60, 6);
frontBase.addBox(-3F, 0F, -4F, 6, 1, 4);
frontBase.setRotationPoint(0F, 23F, -4F);
frontBase.setTextureSize(64, 32);
frontBase.mirror = true;
setRotation(frontBase, 0F, 0F, 0F);
frontBaseB = new ModelRenderer(this, 58, 0);
frontBaseB.addBox(-4F, 0F, -4F, 8, 1, 4);
frontBaseB.setRotationPoint(0F, 22F, -4F);
frontBaseB.setTextureSize(64, 32);
frontBaseB.mirror = true;
setRotation(frontBaseB, 0F, 0F, 0F);
backBase = new ModelRenderer(this, 58, 0);
backBase.addBox(-4F, 0F, -4F, 8, 1, 4);
backBase.setRotationPoint(0F, 22F, 8F);
backBase.setTextureSize(64, 32);
backBase.mirror = true;
setRotation(backBase, 0F, 0F, 0F);
backBaseB = new ModelRenderer(this, 60, 6);
backBaseB.addBox(-3F, 0F, -4F, 6, 1, 4);
backBaseB.setRotationPoint(0F, 23F, 8F);
backBaseB.setTextureSize(64, 32);
backBaseB.mirror = true;
setRotation(backBaseB, 0F, 0F, 0F);
frontA = new ModelRenderer(this, 0, 12);
frontA.addBox(-4F, 0F, -4F, 2, 7, 4);
frontA.setRotationPoint(0F, 15F, -4F);
frontA.setTextureSize(64, 32);
frontA.mirror = true;
setRotation(frontA, 0F, 0F, 0F);
frontB = new ModelRenderer(this, 0, 12);
frontB.addBox(-4F, 0F, -4F, 2, 7, 4);
frontB.setRotationPoint(6F, 15F, -4F);
frontB.setTextureSize(64, 32);
frontB.mirror = true;
setRotation(frontB, 0F, 0F, 0F);
backA = new ModelRenderer(this, 0, 12);
backA.addBox(-4F, 0F, -4F, 2, 7, 4);
backA.setRotationPoint(0F, 15F, 8F);
backA.setTextureSize(64, 32);
backA.mirror = true;
setRotation(backA, 0F, 0F, 0F);
backB = new ModelRenderer(this, 0, 12);
backB.addBox(-4F, 0F, -4F, 2, 7, 4);
backB.setRotationPoint(6F, 15F, 8F);
backB.setTextureSize(64, 32);
backB.mirror = true;
setRotation(backB, 0F, 0F, 0F);
rightA = new ModelRenderer(this, 13, 12);
rightA.addBox(-8F, 0F, 0F, 4, 7, 2);
rightA.setRotationPoint(0F, 15F, -4F);
rightA.setTextureSize(64, 32);
rightA.mirror = true;
setRotation(rightA, 0F, 0F, 0F);
rightB = new ModelRenderer(this, 13, 12);
rightB.addBox(-8F, 0F, 6F, 4, 7, 2);
rightB.setRotationPoint(0F, 15F, -4F);
rightB.setTextureSize(64, 32);
rightB.mirror = true;
setRotation(rightB, 0F, 0F, 0F);
leftB = new ModelRenderer(this, 13, 12);
leftB.addBox(4F, 0F, 6F, 4, 7, 2);
leftB.setRotationPoint(0F, 15F, -4F);
leftB.setTextureSize(64, 32);
leftB.mirror = true;
setRotation(leftB, 0F, 0F, 0F);
leftA = new ModelRenderer(this, 13, 12);
leftA.addBox(4F, 0F, 0F, 4, 7, 2);
leftA.setRotationPoint(0F, 15F, -4F);
leftA.setTextureSize(64, 32);
leftA.mirror = true;
setRotation(leftA, 0F, 0F, 0F);
centerA = new ModelRenderer(this, 27, 12);
centerA.addBox(-4F, 0F, -4F, 2, 7, 2);
centerA.setRotationPoint(6F, 15F, 6F);
centerA.setTextureSize(64, 32);
centerA.mirror = true;
setRotation(centerA, 0F, 0F, 0F);
centerB = new ModelRenderer(this, 27, 12);
centerB.addBox(-4F, 0F, -4F, 2, 7, 2);
centerB.setRotationPoint(6F, 15F, 0F);
centerB.setTextureSize(64, 32);
centerB.mirror = true;
setRotation(centerB, 0F, 0F, 0F);
centerC = new ModelRenderer(this, 27, 12);
centerC.addBox(-4F, 0F, -4F, 2, 7, 2);
centerC.setRotationPoint(0F, 15F, 0F);
centerC.setTextureSize(64, 32);
centerC.mirror = true;
setRotation(centerC, 0F, 0F, 0F);
centerD = new ModelRenderer(this, 27, 12);
centerD.addBox(-4F, 0F, -4F, 2, 7, 2);
centerD.setRotationPoint(0F, 15F, 6F);
centerD.setTextureSize(64, 32);
centerD.mirror = true;
setRotation(centerD, 0F, 0F, 0F);
frontDoorA = new ModelRenderer(this, 0, 25);
frontDoorA.addBox(-4F, 0F, -4F, 4, 7, 2);
frontDoorA.setRotationPoint(2F, 15F, -4F);
frontDoorA.setTextureSize(64, 32);
frontDoorA.mirror = true;
setRotation(frontDoorA, 0F, 0F, 0F);
frontDoorB = new ModelRenderer(this, 0, 25);
frontDoorB.addBox(-4F, 0F, -4F, 4, 7, 2);
frontDoorB.setRotationPoint(2F, 15F, -2F);
frontDoorB.setTextureSize(64, 32);
frontDoorB.mirror = true;
setRotation(frontDoorB, 0F, 0F, 0F);
frontDoorC = new ModelRenderer(this, 0, 25);
frontDoorC.addBox(-4F, 0F, -4F, 4, 7, 2);
frontDoorC.setRotationPoint(2F, 15F, 0F);
frontDoorC.setTextureSize(64, 32);
frontDoorC.mirror = true;
setRotation(frontDoorC, 0F, 0F, 0F);
backDoorA = new ModelRenderer(this, 0, 25);
backDoorA.addBox(-4F, 0F, -4F, 4, 7, 2);
backDoorA.setRotationPoint(2F, 15F, 10F);
backDoorA.setTextureSize(64, 32);
backDoorA.mirror = true;
setRotation(backDoorA, 0F, 0F, 0F);
backDoorB = new ModelRenderer(this, 0, 25);
backDoorB.addBox(-4F, 0F, -4F, 4, 7, 2);
backDoorB.setRotationPoint(2F, 15F, 8F);
backDoorB.setTextureSize(64, 32);
backDoorB.mirror = true;
setRotation(backDoorB, 0F, 0F, 0F);
backDoorC = new ModelRenderer(this, 0, 25);
backDoorC.addBox(-4F, 0F, -4F, 4, 7, 2);
backDoorC.setRotationPoint(2F, 15F, 6F);
backDoorC.setTextureSize(64, 32);
backDoorC.mirror = true;
setRotation(backDoorC, 0F, 0F, 0F);
leftDoorA = new ModelRenderer(this, 16, 24);
leftDoorA.addBox(4F, 0F, 6F, 2, 7, 4);
leftDoorA.setRotationPoint(2F, 15F, -8F);
leftDoorA.setTextureSize(64, 32);
leftDoorA.mirror = true;
setRotation(leftDoorA, 0F, 0F, 0F);
leftDoorB = new ModelRenderer(this, 16, 24);
leftDoorB.addBox(4F, 0F, 6F, 2, 7, 4);
leftDoorB.setRotationPoint(0F, 15F, -8F);
leftDoorB.setTextureSize(64, 32);
leftDoorB.mirror = true;
setRotation(leftDoorB, 0F, 0F, 0F);
leftDoorC = new ModelRenderer(this, 16, 24);
leftDoorC.addBox(4F, 0F, 6F, 2, 7, 4);
leftDoorC.setRotationPoint(-2F, 15F, -8F);
leftDoorC.setTextureSize(64, 32);
leftDoorC.mirror = true;
setRotation(leftDoorC, 0F, 0F, 0F);
rightDoorA = new ModelRenderer(this, 16, 24);
rightDoorA.addBox(4F, 0F, 6F, 2, 7, 4);
rightDoorA.setRotationPoint(-12F, 15F, -8F);
rightDoorA.setTextureSize(64, 32);
rightDoorA.mirror = true;
setRotation(rightDoorA, 0F, 0F, 0F);
rightDoorB = new ModelRenderer(this, 16, 24);
rightDoorB.addBox(4F, 0F, 6F, 2, 7, 4);
rightDoorB.setRotationPoint(-10F, 15F, -8F);
rightDoorB.setTextureSize(64, 32);
rightDoorB.mirror = true;
setRotation(rightDoorB, 0F, 0F, 0F);
rightDoorC = new ModelRenderer(this, 16, 24);
rightDoorC.addBox(4F, 0F, 6F, 2, 7, 4);
rightDoorC.setRotationPoint(-8F, 15F, -8F);
rightDoorC.setTextureSize(64, 32);
rightDoorC.mirror = true;
setRotation(rightDoorC, 0F, 0F, 0F);
cornerBackLeft = new ModelRenderer(this, 0, 37);
cornerBackLeft.addBox(-4F, 0F, -4F, 4, 10, 4);
cornerBackLeft.setRotationPoint(8F, 14F, 8F);
cornerBackLeft.setTextureSize(64, 32);
cornerBackLeft.mirror = true;
setRotation(cornerBackLeft, 0F, 0F, 0F);
cornerBackRight = new ModelRenderer(this, 0, 37);
cornerBackRight.addBox(-4F, 0F, -4F, 4, 10, 4);
cornerBackRight.setRotationPoint(-4F, 14F, 8F);
cornerBackRight.setTextureSize(64, 32);
cornerBackRight.mirror = true;
setRotation(cornerBackRight, 0F, 0F, 0F);
cornerFrontLeft = new ModelRenderer(this, 0, 37);
cornerFrontLeft.addBox(-4F, 0F, -4F, 4, 10, 4);
cornerFrontLeft.setRotationPoint(8F, 14F, -4F);
cornerFrontLeft.setTextureSize(64, 32);
cornerFrontLeft.mirror = true;
setRotation(cornerFrontLeft, 0F, 0F, 0F);
cornerFrontRight = new ModelRenderer(this, 0, 37);
cornerFrontRight.addBox(-4F, 0F, -4F, 4, 10, 4);
cornerFrontRight.setRotationPoint(-4F, 14F, -4F);
cornerFrontRight.setTextureSize(64, 32);
cornerFrontRight.mirror = true;
setRotation(cornerFrontRight, 0F, 0F, 0F);
}
public void render(boolean[] side, boolean stone)
{
if (side != null)
{
renderMiddle(!side[0], stone);
renderBack(side[2] ? PipeType.NORMAL : stone ? PipeType.SOLID : PipeType.MID_CAP);
renderFront(side[3] ? PipeType.NORMAL : stone ? PipeType.SOLID : PipeType.MID_CAP);
renderRight(side[4] ? PipeType.NORMAL : stone ? PipeType.SOLID : PipeType.MID_CAP);
renderLeft(side[5] ? PipeType.NORMAL : stone ? PipeType.SOLID : PipeType.MID_CAP);
}
}
public void render(byte side, boolean stone)
{
renderMiddle(TileFluidNetwork.canRenderSide(side, ForgeDirection.DOWN), stone);
renderBack(TileFluidNetwork.canRenderSide(side, ForgeDirection.NORTH) ? PipeType.NORMAL : stone ? PipeType.SOLID : PipeType.MID_CAP);
renderFront(TileFluidNetwork.canRenderSide(side, ForgeDirection.SOUTH) ? PipeType.NORMAL : stone ? PipeType.SOLID : PipeType.MID_CAP);
renderRight(TileFluidNetwork.canRenderSide(side, ForgeDirection.WEST) ? PipeType.NORMAL : stone ? PipeType.SOLID : PipeType.MID_CAP);
renderLeft(TileFluidNetwork.canRenderSide(side, ForgeDirection.EAST) ? PipeType.NORMAL : stone ? PipeType.SOLID : PipeType.MID_CAP);
}
public void renderMiddle(boolean bottom, boolean corners)
{
if (bottom)
base.render(0.0625F);
centerA.render(0.0625F);
centerB.render(0.0625F);
centerC.render(0.0625F);
centerD.render(0.0625F);
if (corners)
{
cornerBackLeft.render(0.0625F);
cornerBackRight.render(0.0625F);
cornerFrontLeft.render(0.0625F);
cornerFrontRight.render(0.0625F);
}
}
public void renderMiddle(boolean bottom, boolean corners)
{
if (bottom)
base.render(0.0625F);
centerA.render(0.0625F);
centerB.render(0.0625F);
centerC.render(0.0625F);
centerD.render(0.0625F);
if (corners)
{
cornerBackLeft.render(0.0625F);
cornerBackRight.render(0.0625F);
cornerFrontLeft.render(0.0625F);
cornerFrontRight.render(0.0625F);
}
}
public void renderLeft(PipeType type)
{
if (type != PipeType.MID_CAP)
{
leftBase.render(0.0625F);
leftBaseB.render(0.0625F);
leftB.render(0.0625F);
leftA.render(0.0625F);
if (type == PipeType.CAP || type == PipeType.SOLID)
{
leftDoorA.render(0.0625F);
if (type == PipeType.SOLID)
{
leftDoorB.render(0.0625F);
leftDoorC.render(0.0625F);
}
}
}
else
{
leftDoorC.render(0.0625F);
}
}
public void renderLeft(PipeType type)
{
if (type != PipeType.MID_CAP)
{
leftBase.render(0.0625F);
leftBaseB.render(0.0625F);
leftB.render(0.0625F);
leftA.render(0.0625F);
if (type == PipeType.CAP || type == PipeType.SOLID)
{
leftDoorA.render(0.0625F);
if (type == PipeType.SOLID)
{
leftDoorB.render(0.0625F);
leftDoorC.render(0.0625F);
}
}
}
else
{
leftDoorC.render(0.0625F);
}
}
public void renderRight(PipeType type)
{
if (type != PipeType.MID_CAP)
{
rightBaseB.render(0.0625F);
rightBase.render(0.0625F);
rightA.render(0.0625F);
rightB.render(0.0625F);
if (type == PipeType.CAP || type == PipeType.SOLID)
{
rightDoorA.render(0.0625F);
if (type == PipeType.SOLID)
{
rightDoorB.render(0.0625F);
rightDoorC.render(0.0625F);
}
}
}
else
{
rightDoorC.render(0.0625F);
}
}
public void renderRight(PipeType type)
{
if (type != PipeType.MID_CAP)
{
rightBaseB.render(0.0625F);
rightBase.render(0.0625F);
rightA.render(0.0625F);
rightB.render(0.0625F);
if (type == PipeType.CAP || type == PipeType.SOLID)
{
rightDoorA.render(0.0625F);
if (type == PipeType.SOLID)
{
rightDoorB.render(0.0625F);
rightDoorC.render(0.0625F);
}
}
}
else
{
rightDoorC.render(0.0625F);
}
}
public void renderBack(PipeType type)
{
if (type != PipeType.MID_CAP)
{
backBase.render(0.0625F);
backBaseB.render(0.0625F);
backA.render(0.0625F);
backB.render(0.0625F);
if (type == PipeType.CAP || type == PipeType.SOLID)
{
backDoorA.render(0.0625F);
if (type == PipeType.SOLID)
{
backDoorB.render(0.0625F);
backDoorC.render(0.0625F);
}
}
}
else
{
backDoorC.render(0.0625F);
}
}
public void renderBack(PipeType type)
{
if (type != PipeType.MID_CAP)
{
backBase.render(0.0625F);
backBaseB.render(0.0625F);
backA.render(0.0625F);
backB.render(0.0625F);
if (type == PipeType.CAP || type == PipeType.SOLID)
{
backDoorA.render(0.0625F);
if (type == PipeType.SOLID)
{
backDoorB.render(0.0625F);
backDoorC.render(0.0625F);
}
}
}
else
{
backDoorC.render(0.0625F);
}
}
public void renderFront(PipeType type)
{
if (type != PipeType.MID_CAP)
{
frontBase.render(0.0625F);
frontBaseB.render(0.0625F);
frontA.render(0.0625F);
frontB.render(0.0625F);
if (type == PipeType.CAP || type == PipeType.SOLID)
{
frontDoorA.render(0.0625F);
if (type == PipeType.SOLID)
{
frontDoorB.render(0.0625F);
frontDoorC.render(0.0625F);
}
}
}
else
{
frontDoorC.render(0.0625F);
}
}
public void renderFront(PipeType type)
{
if (type != PipeType.MID_CAP)
{
frontBase.render(0.0625F);
frontBaseB.render(0.0625F);
frontA.render(0.0625F);
frontB.render(0.0625F);
if (type == PipeType.CAP || type == PipeType.SOLID)
{
frontDoorA.render(0.0625F);
if (type == PipeType.SOLID)
{
frontDoorB.render(0.0625F);
frontDoorC.render(0.0625F);
}
}
}
else
{
frontDoorC.render(0.0625F);
}
}
private void setRotation(ModelRenderer model, float x, float y, float z)
{
model.rotateAngleX = x;
model.rotateAngleY = y;
model.rotateAngleZ = z;
}
private void setRotation(ModelRenderer model, float x, float y, float z)
{
model.rotateAngleX = x;
model.rotateAngleY = y;
model.rotateAngleZ = z;
}
public static enum PipeType
{
/** When there is no connection */
MID_CAP,
/** Pipe to pipe connection */
NORMAL,
/** Pipe to wall */
CAP,
/** No pipe, used only by stone through */
SOLID;
}
public static enum PipeType
{
/** When there is no connection */
MID_CAP,
/** Pipe to pipe connection */
NORMAL,
/** Pipe to wall */
CAP,
/** No pipe, used only by stone through */
SOLID;
}
}