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package li.cil.oc.common.block
import cpw.mods.fml.common.registry.GameRegistry
import java.util
import li.cil.oc.api.network.Environment
import li.cil.oc.common.tileentity.Rotatable
import li.cil.oc.{Items, Config, CreativeTab}
import net.minecraft.block.Block
import net.minecraft.block.material.Material
import net.minecraft.client.renderer.texture.IconRegister
import net.minecraft.creativetab.CreativeTabs
import net.minecraft.entity.Entity
import net.minecraft.entity.EntityLivingBase
import net.minecraft.entity.player.EntityPlayer
import net.minecraft.item.ItemStack
import net.minecraft.tileentity.TileEntity
import net.minecraft.world.IBlockAccess
import net.minecraft.world.World
import net.minecraftforge.common.ForgeDirection
import scala.collection.mutable
/**
* Block proxy for all real block implementations.
*
* All of our blocks are implemented as "sub-blocks" of this block, i.e. they
* are instances of this block with differing metadata. This way we only need a
* single block ID to represent 15 blocks.
*
* This means this block contains barely any logic, it only forwards calls to
* the underlying sub block, based on the metadata. The only actual logic done
* in here is:
* - block rotation, if the block has a rotatable tile entity. In that case all
* sides are also translated into local coordinate space for the sub block
* (i.e. "up" will always be up relative to the block itself. So if it's
* rotated up may actually be west).
* - Component network logic for adding / removing blocks from the component
* network when they are placed / removed.
*/
class Delegator[Child <: Delegate](id: Int) extends Block(id, Material.iron) {
setHardness(2f)
setCreativeTab(CreativeTab)
GameRegistry.registerBlock(this, classOf[Item], "oc.block." + id)
// ----------------------------------------------------------------------- //
// SubBlock
// ----------------------------------------------------------------------- //
val subBlocks = mutable.ArrayBuffer.empty[Child]
subBlocks.sizeHint(16)
def add(subBlock: Child) = {
val blockId = subBlocks.length
subBlocks += subBlock
blockId
}
def subBlock(world: IBlockAccess, x: Int, y: Int, z: Int): Option[Child] =
subBlock(world.getBlockMetadata(x, y, z))
def subBlock(metadata: Int) =
metadata match {
case blockId if blockId >= 0 && blockId < subBlocks.length => Some(subBlocks(blockId))
case _ => None
}
// ----------------------------------------------------------------------- //
// Rotation
// ----------------------------------------------------------------------- //
def getFacing(world: IBlockAccess, x: Int, y: Int, z: Int) =
world.getBlockTileEntity(x, y, z) match {
case tileEntity: Rotatable => tileEntity.facing
case _ => ForgeDirection.UNKNOWN
}
def setFacing(world: World, x: Int, y: Int, z: Int, value: ForgeDirection) =
world.getBlockTileEntity(x, y, z) match {
case rotatable: Rotatable =>
rotatable.setFromFacing(value); true
case _ => false
}
def setRotationFromEntityPitchAndYaw(world: World, x: Int, y: Int, z: Int, value: Entity) =
world.getBlockTileEntity(x, y, z) match {
case rotatable: Rotatable =>
rotatable.setFromEntityPitchAndYaw(value); true
case _ => false
}
private def toLocal(world: IBlockAccess, x: Int, y: Int, z: Int, value: ForgeDirection) =
world.getBlockTileEntity(x, y, z) match {
case rotatable: Rotatable => rotatable.toLocal(value)
case _ => value
}
// ----------------------------------------------------------------------- //
// Block
// ----------------------------------------------------------------------- //
override def breakBlock(world: World, x: Int, y: Int, z: Int, blockId: Int, metadata: Int) = {
subBlock(metadata) match {
case Some(subBlock) => {
world.getBlockTileEntity(x, y, z) match {
case environment: Environment if environment.node != null =>
environment.node.remove()
case _ => // Nothing special to do.
}
subBlock.breakBlock(world, x, y, z, blockId)
}
case _ => // Invalid but avoid match error.
}
super.breakBlock(world, x, y, z, blockId, metadata)
}
override def getRenderColor(metadata: Int) =
subBlock(metadata) match {
case Some(subBlock) => subBlock.getRenderColor
case _ => super.getRenderColor(metadata)
}
override def colorMultiplier(world: IBlockAccess, x: Int, y: Int, z: Int) =
subBlock(world, x, y, z) match {
case Some(subBlock) => subBlock.colorMultiplier(world, x, y, z)
case _ => super.colorMultiplier(world, x, y, z)
}
override def getDamageValue(world: World, x: Int, y: Int, z: Int) = world.getBlockMetadata(x, y, z)
override def canConnectRedstone(world: IBlockAccess, x: Int, y: Int, z: Int, side: Int) =
subBlock(world, x, y, z) match {
case Some(subBlock) => subBlock.canConnectRedstone(
world, x, y, z, toLocal(world, x, y, z, side match {
case -1 => ForgeDirection.UP
case 0 => ForgeDirection.NORTH
case 1 => ForgeDirection.EAST
case 2 => ForgeDirection.SOUTH
case 3 => ForgeDirection.WEST
}))
case _ => false
}
override def canProvidePower = true
override def createTileEntity(world: World, metadata: Int): TileEntity =
subBlock(metadata) match {
case Some(subBlock) => subBlock.createTileEntity(world).orNull
case _ => null
}
override def getCollisionBoundingBoxFromPool(world: World, x: Int, y: Int, z: Int) =
subBlock(world, x, y, z) match {
// TODO Rotate to world space if we have a Rotatable?
case Some(subBlock) => subBlock.getCollisionBoundingBoxFromPool(world, x, y, z)
case _ => super.getCollisionBoundingBoxFromPool(world, x, y, z)
}
override def getBlockTexture(world: IBlockAccess, x: Int, y: Int, z: Int, side: Int) =
subBlock(world, x, y, z) match {
case Some(subBlock) =>
val orientation = ForgeDirection.getOrientation(side)
subBlock.getBlockTextureFromSide(world, x, y, z, orientation, toLocal(world, x, y, z, orientation)) match {
case Some(icon) => icon
case _ => super.getBlockTexture(world, x, y, z, side)
}
case _ => super.getBlockTexture(world, x, y, z, side)
}
override def getLightValue(world: IBlockAccess, x: Int, y: Int, z: Int) =
subBlock(world, x, y, z) match {
case Some(subBlock) => subBlock.getLightValue(world, x, y, z)
case _ => 0
}
override def getIcon(side: Int, metadata: Int) =
subBlock(metadata) match {
case Some(subBlock) => subBlock.icon(ForgeDirection.getOrientation(side)) match {
case Some(icon) => icon
case _ => super.getIcon(side, metadata)
}
case _ => super.getIcon(side, metadata)
}
override def getLightOpacity(world: World, x: Int, y: Int, z: Int) =
subBlock(world, x, y, z) match {
case Some(subBlock) => subBlock.getLightOpacity(world, x, y, z)
case _ => 255
}
override def getSubBlocks(itemId: Int, creativeTab: CreativeTabs, list: util.List[_]) = {
// Workaround for MC's untyped lists...
def add[T](list: util.List[T], value: Any) = list.add(value.asInstanceOf[T])
(0 until subBlocks.length).
foreach(id => add(list, new ItemStack(this, 1, id)))
}
override def getRenderType = Config.blockRenderId
def getUnlocalizedName(metadata: Int) =
subBlock(metadata) match {
case Some(subBlock) => subBlock.unlocalizedName
case _ => "oc.block"
}
override def getValidRotations(world: World, x: Int, y: Int, z: Int) =
subBlock(world, x, y, z) match {
case Some(subBlock) => subBlock.getValidRotations(world, x, y, z)
case _ => super.getValidRotations(world, x, y, z)
}
override def hasTileEntity(metadata: Int) = subBlock(metadata) match {
case Some(subBlock) => subBlock.hasTileEntity
case _ => false
}
override def isBlockNormalCube(world: World, x: Int, y: Int, z: Int) =
subBlock(world.getBlockMetadata(x, y, z)) match {
case Some(subBlock) => subBlock.isBlockNormalCube(world, x, y, z)
case _ => false
}
override def isProvidingStrongPower(world: IBlockAccess, x: Int, y: Int, z: Int, side: Int) =
subBlock(world, x, y, z) match {
case Some(subBlock) => subBlock.isProvidingStrongPower(
world, x, y, z, toLocal(world, x, y, z, ForgeDirection.getOrientation(side).getOpposite))
case _ => 0
}
override def isProvidingWeakPower(world: IBlockAccess, x: Int, y: Int, z: Int, side: Int) =
subBlock(world, x, y, z) match {
case Some(subBlock) => subBlock.isProvidingWeakPower(
world, x, y, z, toLocal(world, x, y, z, ForgeDirection.getOrientation(side).getOpposite))
case _ => 0
}
override def onBlockActivated(world: World, x: Int, y: Int, z: Int, player: EntityPlayer, side: Int, hitX: Float, hitY: Float, hitZ: Float): Boolean = {
// Do nothing if we have an analyzer in hand.
if (Items.analyzer.equals(player.getCurrentEquippedItem))
return false
// Helper method to detect items that can be used to rotate blocks, such as
// wrenches. This structural type is compatible with the BuildCraft wrench
// interface.
def canWrench = {
if (player.getCurrentEquippedItem != null)
try {
player.getCurrentEquippedItem.getItem.asInstanceOf[ {
def canWrench(player: EntityPlayer, x: Int, y: Int, z: Int): Boolean
}].canWrench(player, x, y, z)
}
catch {
case _: Throwable => false
}
else
false
}
// Get valid rotations to skip rotating if there's only one.
val valid = getValidRotations(world, x, y, z)
if (valid.length > 1 && canWrench)
world.getBlockTileEntity(x, y, z) match {
case rotatable: Rotatable => {
if (player.isSneaking) {
// Rotate pitch. Get the valid pitch rotations.
val validPitch = valid.collect {
case direction if direction == ForgeDirection.DOWN || direction == ForgeDirection.UP => direction
case direction if direction != ForgeDirection.UNKNOWN => ForgeDirection.NORTH
}
// Check if there's more than one, and if so set to the next one.
if (validPitch.length > 1) {
// Can rotate, indicate that to the player. Note that the actual
// rotation logic is performed in rotateBlock.
return true
}
}
else {
// Rotate yaw. Get the valid yaw rotations.
val validYaw = valid.collect {
case direction if direction != ForgeDirection.DOWN && direction != ForgeDirection.UP && direction != ForgeDirection.UNKNOWN => direction
}
// Check if there's more than one, and if so set to the next one.
if (validYaw.length > 1) {
// Can rotate, indicate that to the player. Note that the actual
// rotation logic is performed in rotateBlock.
return true
}
}
}
case _ => // Cannot rotate this block.
}
// No rotating tool in hand or can't rotate: activate the block.
subBlock(world, x, y, z) match {
case Some(subBlock) => subBlock.onBlockActivated(
world, x, y, z, player, ForgeDirection.getOrientation(side), hitX, hitY, hitZ)
case _ => false
}
}
override def onBlockAdded(world: World, x: Int, y: Int, z: Int) =
subBlock(world, x, y, z) match {
case Some(subBlock) => subBlock.onBlockAdded(world, x, y, z)
case _ => // Invalid but avoid match error.
}
override def onBlockPlacedBy(world: World, x: Int, y: Int, z: Int, player: EntityLivingBase, item: ItemStack) =
subBlock(world, x, y, z) match {
case Some(subBlock) => subBlock.onBlockPlacedBy(world, x, y, z, player, item)
case _ => // Invalid but avoid match error.
}
override def onBlockPreDestroy(world: World, x: Int, y: Int, z: Int, metadata: Int) =
subBlock(world, x, y, z) match {
case Some(subBlock) => subBlock.onBlockPreDestroy(world, x, y, z)
case _ => // Invalid but avoid match error.
}
override def onNeighborBlockChange(world: World, x: Int, y: Int, z: Int, blockId: Int) =
subBlock(world, x, y, z) match {
case Some(subBlock) => subBlock.onNeighborBlockChange(world, x, y, z, blockId)
case _ => // Invalid but avoid match error.
}
override def registerIcons(iconRegister: IconRegister) = {
super.registerIcons(iconRegister)
subBlocks.foreach(_.registerIcons(iconRegister))
}
override def removeBlockByPlayer(world: World, player: EntityPlayer, x: Int, y: Int, z: Int) =
(subBlock(world, x, y, z) match {
case Some(subBlock) => subBlock.onBlockRemovedBy(world, x, y, z, player)
case _ => true
}) && super.removeBlockByPlayer(world, player, x, y, z)
override def rotateBlock(world: World, x: Int, y: Int, z: Int, axis: ForgeDirection) = {
val newFacing = getFacing(world, x, y, z).getRotation(axis)
if (getValidRotations(world, x, y, z).contains(newFacing))
setFacing(world, x, y, z, newFacing)
else false
}
}
class SimpleDelegator(id: Int) extends Delegator[SimpleDelegate](id)
class SpecialDelegator(id: Int) extends Delegator[SpecialDelegate](id) {
override def isBlockSolid(world: IBlockAccess, x: Int, y: Int, z: Int, side: Int) =
subBlock(world.getBlockMetadata(x, y, z)) match {
case Some(subBlock) => subBlock.isBlockSolid(world, x, y, z, ForgeDirection.getOrientation(side))
case _ => true
}
override def isOpaqueCube = false
override def renderAsNormalBlock = false
override def shouldSideBeRendered(world: IBlockAccess, x: Int, y: Int, z: Int, side: Int) =
subBlock(world.getBlockMetadata(x, y, z)) match {
case Some(subBlock) => subBlock.shouldSideBeRendered(world, x, y, z, ForgeDirection.getOrientation(side))
case _ => super.shouldSideBeRendered(world, x, y, z, side)
}
}