src/main/scala/li/cil/oc/common/block/Cable.scala - minecraft/opencomputers - Rivoreo Source Code Repositories

 package li.cil.oc.common.block

 import codechicken.lib.vec.Cuboid6
 import codechicken.multipart.JNormalOcclusion
 import codechicken.multipart.NormalOcclusionTest
 import codechicken.multipart.TFacePart
 import codechicken.multipart.TileMultipart
 import cpw.mods.fml.relauncher.Side
 import cpw.mods.fml.relauncher.SideOnly
 import li.cil.oc.Settings
 import li.cil.oc.api.network.Environment
 import li.cil.oc.api.network.SidedComponent
 import li.cil.oc.api.network.SidedEnvironment
 import li.cil.oc.client.Textures
 import li.cil.oc.common.tileentity
 import li.cil.oc.integration.Mods
 import li.cil.oc.integration.fmp.CablePart
 import li.cil.oc.util.Color
 import net.minecraft.block.Block
 import net.minecraft.client.renderer.texture.IIconRegister
 import net.minecraft.tileentity.TileEntity
 import net.minecraft.util.AxisAlignedBB
 import net.minecraft.world.IBlockAccess
 import net.minecraft.world.World
 import net.minecraftforge.common.util.ForgeDirection

 class Cable extends SimpleBlock with traits.SpecialBlock {
   setLightOpacity(0)

   // For Immibis Microblock support.
   val ImmibisMicroblocks_TransformableBlockMarker = null

   // For FMP part coloring.
   var colorMultiplierOverride: Option[Int] = None

   override protected def customTextures = Array(
     Some("CablePart"),
     Some("CablePart"),
     Some("CablePart"),
     Some("CablePart"),
     Some("CablePart"),
     Some("CablePart")
   )

   @SideOnly(Side.CLIENT)
   override def registerBlockIcons(iconRegister: IIconRegister) {
     super.registerBlockIcons(iconRegister)
     Textures.Cable.iconCap = iconRegister.registerIcon(Settings.resourceDomain + ":CableCap")
   }

   override def colorMultiplier(world: IBlockAccess, x: Int, y: Int, z: Int) =
     colorMultiplierOverride.getOrElse(super.colorMultiplier(world, x, y, z))

   override def shouldSideBeRendered(world: IBlockAccess, x: Int, y: Int, z: Int, side: ForgeDirection) = true

   override def isSideSolid(world: IBlockAccess, x: Int, y: Int, z: Int, side: ForgeDirection) = false

   // ----------------------------------------------------------------------- //

   override def hasTileEntity(metadata: Int) = true

   override def createTileEntity(world: World, metadata: Int) = new tileentity.Cable()

   // ----------------------------------------------------------------------- //

   override def onNeighborBlockChange(world: World, x: Int, y: Int, z: Int, block: Block) {
     world.markBlockForUpdate(x, y, z)
     super.onNeighborBlockChange(world, x, y, z, block)
   }

   override protected def doSetBlockBoundsBasedOnState(world: IBlockAccess, x: Int, y: Int, z: Int): Unit = {
     setBlockBounds(Cable.bounds(world, x, y, z))
   }
 }

 object Cable {
   val cachedBounds = {
     // 6 directions = 6 bits = 11111111b >> 2 = 0xFF >> 2
     (0 to 0xFF >> 2).map(mask => {
       val bounds = AxisAlignedBB.getBoundingBox(-0.125, -0.125, -0.125, 0.125, 0.125, 0.125)
       for (side <- ForgeDirection.VALID_DIRECTIONS) {
         if ((side.flag & mask) != 0) {
           if (side.offsetX < 0) bounds.minX += side.offsetX * 0.375
           else bounds.maxX += side.offsetX * 0.375
           if (side.offsetY < 0) bounds.minY += side.offsetY * 0.375
           else bounds.maxY += side.offsetY * 0.375
           if (side.offsetZ < 0) bounds.minZ += side.offsetZ * 0.375
           else bounds.maxZ += side.offsetZ * 0.375
         }
       }
       bounds.setBounds(
         bounds.minX + 0.5, bounds.minY + 0.5, bounds.minZ + 0.5,
         bounds.maxX + 0.5, bounds.maxY + 0.5, bounds.maxZ + 0.5)
     }).toArray
   }

   def neighbors(world: IBlockAccess, x: Int, y: Int, z: Int) = {
     var result = 0
     val tileEntity = world.getTileEntity(x, y, z)
     for (side <- ForgeDirection.VALID_DIRECTIONS) {
       val (tx, ty, tz) = (x + side.offsetX, y + side.offsetY, z + side.offsetZ)
       if (world match {
         case world: World => world.blockExists(tx, ty, tz)
         case _ => !world.isAirBlock(tx, ty, tz)
       }) {
         val neighborTileEntity = world.getTileEntity(tx, ty, tz)
         val neighborHasNode = hasNetworkNode(neighborTileEntity, side.getOpposite)
         val canConnectColor = canConnectBasedOnColor(tileEntity, neighborTileEntity)
         val canConnectFMP = !Mods.ForgeMultipart.isAvailable ||
           (canConnectFromSideFMP(tileEntity, side) && canConnectFromSideFMP(neighborTileEntity, side.getOpposite))
         val canConnectIM = canConnectFromSideIM(tileEntity, side) && canConnectFromSideIM(neighborTileEntity, side.getOpposite)
         if (neighborHasNode && canConnectColor && canConnectFMP && canConnectIM) {
           result |= side.flag
         }
       }
     }
     result
   }

   def bounds(world: IBlockAccess, x: Int, y: Int, z: Int) = Cable.cachedBounds(Cable.neighbors(world, x, y, z)).copy()

   private def hasNetworkNode(tileEntity: TileEntity, side: ForgeDirection) =
     tileEntity match {
       case robot: tileentity.RobotProxy => false
       case host: SidedEnvironment =>
         if (host.getWorldObj.isRemote) host.canConnect(side)
         else host.sidedNode(side) != null
       case host: Environment with SidedComponent =>
         host.canConnectNode(side)
       case host: Environment => true
       case host if Mods.ForgeMultipart.isAvailable => hasMultiPartNode(tileEntity)
       case _ => false
     }

   private def hasMultiPartNode(tileEntity: TileEntity) =
     tileEntity match {
       case host: TileMultipart => host.partList.exists(_.isInstanceOf[CablePart])
       case _ => false
     }

   private def cableColor(tileEntity: TileEntity) =
     tileEntity match {
       case cable: tileentity.Cable => cable.color
       case _ =>
         if (Mods.ForgeMultipart.isAvailable) cableColorFMP(tileEntity)
         else Color.LightGray
     }

   private def cableColorFMP(tileEntity: TileEntity) =
     tileEntity match {
       case host: TileMultipart => (host.partList collect {
         case cable: CablePart => cable.color
       }).headOption.getOrElse(Color.LightGray)
       case _ => Color.LightGray
     }

   private def canConnectBasedOnColor(te1: TileEntity, te2: TileEntity) = {
     val (c1, c2) = (cableColor(te1), cableColor(te2))
     c1 == c2 || c1 == Color.LightGray || c2 == Color.LightGray
   }

   private def canConnectFromSideFMP(tileEntity: TileEntity, side: ForgeDirection) =
     tileEntity match {
       case host: TileMultipart =>
         host.partList.forall {
           case part: JNormalOcclusion if !part.isInstanceOf[CablePart] =>
             import scala.collection.convert.WrapAsScala._
             val ownBounds = Iterable(new Cuboid6(cachedBounds(side.flag)))
             val otherBounds = part.getOcclusionBoxes
             NormalOcclusionTest(ownBounds, otherBounds)
           case part: TFacePart => !part.solid(side.ordinal) || (part.getSlotMask & codechicken.multipart.PartMap.face(side.ordinal).mask) == 0
           case _ => true
         }
       case _ => true
     }

   private def canConnectFromSideIM(tileEntity: TileEntity, side: ForgeDirection) =
     tileEntity match {
       case im: tileentity.traits.ImmibisMicroblock => im.ImmibisMicroblocks_isSideOpen(side.ordinal)
       case _ => true
     }
 }
	package li.cil.oc.common.block

	import codechicken.lib.vec.Cuboid6
	import codechicken.multipart.JNormalOcclusion
	import codechicken.multipart.NormalOcclusionTest
	import codechicken.multipart.TFacePart
	import codechicken.multipart.TileMultipart
	import cpw.mods.fml.relauncher.Side
	import cpw.mods.fml.relauncher.SideOnly
	import li.cil.oc.Settings
	import li.cil.oc.api.network.Environment
	import li.cil.oc.api.network.SidedComponent
	import li.cil.oc.api.network.SidedEnvironment
	import li.cil.oc.client.Textures
	import li.cil.oc.common.tileentity
	import li.cil.oc.integration.Mods
	import li.cil.oc.integration.fmp.CablePart
	import li.cil.oc.util.Color
	import net.minecraft.block.Block
	import net.minecraft.client.renderer.texture.IIconRegister
	import net.minecraft.tileentity.TileEntity
	import net.minecraft.util.AxisAlignedBB
	import net.minecraft.world.IBlockAccess
	import net.minecraft.world.World
	import net.minecraftforge.common.util.ForgeDirection

	class Cable extends SimpleBlock with traits.SpecialBlock {
	setLightOpacity(0)

	// For Immibis Microblock support.
	val ImmibisMicroblocks_TransformableBlockMarker = null

	// For FMP part coloring.
	var colorMultiplierOverride: Option[Int] = None

	override protected def customTextures = Array(
	Some("CablePart"),
	Some("CablePart"),
	Some("CablePart"),
	Some("CablePart"),
	Some("CablePart"),
	Some("CablePart")
	)

	@SideOnly(Side.CLIENT)
	override def registerBlockIcons(iconRegister: IIconRegister) {
	super.registerBlockIcons(iconRegister)
	Textures.Cable.iconCap = iconRegister.registerIcon(Settings.resourceDomain + ":CableCap")
	}

	override def colorMultiplier(world: IBlockAccess, x: Int, y: Int, z: Int) =
	colorMultiplierOverride.getOrElse(super.colorMultiplier(world, x, y, z))

	override def shouldSideBeRendered(world: IBlockAccess, x: Int, y: Int, z: Int, side: ForgeDirection) = true

	override def isSideSolid(world: IBlockAccess, x: Int, y: Int, z: Int, side: ForgeDirection) = false

	// ----------------------------------------------------------------------- //

	override def hasTileEntity(metadata: Int) = true

	override def createTileEntity(world: World, metadata: Int) = new tileentity.Cable()

	// ----------------------------------------------------------------------- //

	override def onNeighborBlockChange(world: World, x: Int, y: Int, z: Int, block: Block) {
	world.markBlockForUpdate(x, y, z)
	super.onNeighborBlockChange(world, x, y, z, block)
	}

	override protected def doSetBlockBoundsBasedOnState(world: IBlockAccess, x: Int, y: Int, z: Int): Unit = {
	setBlockBounds(Cable.bounds(world, x, y, z))
	}
	}

	object Cable {
	val cachedBounds = {
	// 6 directions = 6 bits = 11111111b >> 2 = 0xFF >> 2
	(0 to 0xFF >> 2).map(mask => {
	val bounds = AxisAlignedBB.getBoundingBox(-0.125, -0.125, -0.125, 0.125, 0.125, 0.125)
	for (side <- ForgeDirection.VALID_DIRECTIONS) {
	if ((side.flag & mask) != 0) {
	if (side.offsetX < 0) bounds.minX += side.offsetX * 0.375
	else bounds.maxX += side.offsetX * 0.375
	if (side.offsetY < 0) bounds.minY += side.offsetY * 0.375
	else bounds.maxY += side.offsetY * 0.375
	if (side.offsetZ < 0) bounds.minZ += side.offsetZ * 0.375
	else bounds.maxZ += side.offsetZ * 0.375
	}
	}
	bounds.setBounds(
	bounds.minX + 0.5, bounds.minY + 0.5, bounds.minZ + 0.5,
	bounds.maxX + 0.5, bounds.maxY + 0.5, bounds.maxZ + 0.5)
	}).toArray
	}

	def neighbors(world: IBlockAccess, x: Int, y: Int, z: Int) = {
	var result = 0
	val tileEntity = world.getTileEntity(x, y, z)
	for (side <- ForgeDirection.VALID_DIRECTIONS) {
	val (tx, ty, tz) = (x + side.offsetX, y + side.offsetY, z + side.offsetZ)
	if (world match {
	case world: World => world.blockExists(tx, ty, tz)
	case _ => !world.isAirBlock(tx, ty, tz)
	}) {
	val neighborTileEntity = world.getTileEntity(tx, ty, tz)
	val neighborHasNode = hasNetworkNode(neighborTileEntity, side.getOpposite)
	val canConnectColor = canConnectBasedOnColor(tileEntity, neighborTileEntity)
	val canConnectFMP = !Mods.ForgeMultipart.isAvailable \|\|
	(canConnectFromSideFMP(tileEntity, side) && canConnectFromSideFMP(neighborTileEntity, side.getOpposite))
	val canConnectIM = canConnectFromSideIM(tileEntity, side) && canConnectFromSideIM(neighborTileEntity, side.getOpposite)
	if (neighborHasNode && canConnectColor && canConnectFMP && canConnectIM) {
	result \|= side.flag
	}
	}
	}
	result
	}

	def bounds(world: IBlockAccess, x: Int, y: Int, z: Int) = Cable.cachedBounds(Cable.neighbors(world, x, y, z)).copy()

	private def hasNetworkNode(tileEntity: TileEntity, side: ForgeDirection) =
	tileEntity match {
	case robot: tileentity.RobotProxy => false
	case host: SidedEnvironment =>
	if (host.getWorldObj.isRemote) host.canConnect(side)
	else host.sidedNode(side) != null
	case host: Environment with SidedComponent =>
	host.canConnectNode(side)
	case host: Environment => true
	case host if Mods.ForgeMultipart.isAvailable => hasMultiPartNode(tileEntity)
	case _ => false
	}

	private def hasMultiPartNode(tileEntity: TileEntity) =
	tileEntity match {
	case host: TileMultipart => host.partList.exists(_.isInstanceOf[CablePart])
	case _ => false
	}

	private def cableColor(tileEntity: TileEntity) =
	tileEntity match {
	case cable: tileentity.Cable => cable.color
	case _ =>
	if (Mods.ForgeMultipart.isAvailable) cableColorFMP(tileEntity)
	else Color.LightGray
	}

	private def cableColorFMP(tileEntity: TileEntity) =
	tileEntity match {
	case host: TileMultipart => (host.partList collect {
	case cable: CablePart => cable.color
	}).headOption.getOrElse(Color.LightGray)
	case _ => Color.LightGray
	}

	private def canConnectBasedOnColor(te1: TileEntity, te2: TileEntity) = {
	val (c1, c2) = (cableColor(te1), cableColor(te2))
	c1 == c2 \|\| c1 == Color.LightGray \|\| c2 == Color.LightGray
	}

	private def canConnectFromSideFMP(tileEntity: TileEntity, side: ForgeDirection) =
	tileEntity match {
	case host: TileMultipart =>
	host.partList.forall {
	case part: JNormalOcclusion if !part.isInstanceOf[CablePart] =>
	import scala.collection.convert.WrapAsScala._
	val ownBounds = Iterable(new Cuboid6(cachedBounds(side.flag)))
	val otherBounds = part.getOcclusionBoxes
	NormalOcclusionTest(ownBounds, otherBounds)
	case part: TFacePart => !part.solid(side.ordinal) \|\| (part.getSlotMask & codechicken.multipart.PartMap.face(side.ordinal).mask) == 0
	case _ => true
	}
	case _ => true
	}

	private def canConnectFromSideIM(tileEntity: TileEntity, side: ForgeDirection) =
	tileEntity match {
	case im: tileentity.traits.ImmibisMicroblock => im.ImmibisMicroblocks_isSideOpen(side.ordinal)
	case _ => true
	}
	}