src/main/scala/li/cil/oc/server/component/Agent.scala - minecraft/opencomputers - Rivoreo Source Code Repositories

 package li.cil.oc.server.component

 import li.cil.oc.Settings
 import li.cil.oc.api.event.RobotPlaceInAirEvent
 import li.cil.oc.api.internal
 import li.cil.oc.api.machine.Arguments
 import li.cil.oc.api.machine.Callback
 import li.cil.oc.api.machine.Context
 import li.cil.oc.server.agent.ActivationType
 import li.cil.oc.server.agent.Player
 import li.cil.oc.util.BlockPosition
 import li.cil.oc.util.ExtendedArguments._
 import li.cil.oc.util.ExtendedWorld._
 import net.minecraft.entity.Entity
 import net.minecraft.entity.EntityLivingBase
 import net.minecraft.entity.item.EntityMinecart
 import net.minecraft.util.MovingObjectPosition
 import net.minecraft.util.MovingObjectPosition.MovingObjectType
 import net.minecraft.util.Vec3
 import net.minecraftforge.common.MinecraftForge
 import net.minecraftforge.common.util.ForgeDirection

 import scala.collection.convert.WrapAsScala._

 trait Agent extends traits.WorldControl with traits.InventoryControl with traits.InventoryWorldControl with traits.TankAware with traits.TankControl with traits.TankWorldControl {
   def agent: internal.Agent

   override def position = BlockPosition(agent)

   override def fakePlayer = agent.player

   protected def rotatedPlayer(facing: ForgeDirection = agent.facing, side: ForgeDirection = agent.facing) = {
     val player = agent.player.asInstanceOf[Player]
     Player.updatePositionAndRotation(player, facing, side)
     player
   }

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

   override def inventory = agent.mainInventory

   override def selectedSlot = agent.selectedSlot

   override def selectedSlot_=(value: Int): Unit = agent.setSelectedSlot(value)

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

   override def tank = agent.tank

   def selectedTank = agent.selectedTank

   override def selectedTank_=(value: Int) = agent.setSelectedTank(value)

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

   def canPlaceInAir = {
     val event = new RobotPlaceInAirEvent(agent)
     MinecraftForge.EVENT_BUS.post(event)
     event.isAllowed
   }

   def onWorldInteraction(context: Context, duration: Double): Unit = {
     context.pause(duration)
   }

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

   @Callback
   def swing(context: Context, args: Arguments): Array[AnyRef] = {
     // Swing the equipped tool (left click).
     val facing = checkSideForAction(args, 0)
     val sides =
       if (args.isInteger(1)) {
         Iterable(checkSideForFace(args, 1, facing))
       }
       else {
         // Always try the direction we're looking first.
         Iterable(facing) ++ ForgeDirection.VALID_DIRECTIONS.filter(side => side != facing && side != facing.getOpposite).toIterable
       }
     val sneaky = args.isBoolean(2) && args.checkBoolean(2)

     def triggerDelay(delay: Double = Settings.get.swingDelay) = {
       onWorldInteraction(context, delay)
     }
     def attack(player: Player, entity: Entity) = {
       beginConsumeDrops(entity)
       player.attackTargetEntityWithCurrentItem(entity)
       // Mine carts have to be hit quickly in succession to break, so we click
       // until it breaks. But avoid an infinite loop... you never know.
       entity match {
         case _: EntityMinecart => for (_ <- 0 until 10 if !entity.isDead) {
           player.attackTargetEntityWithCurrentItem(entity)
         }
         case _ =>
       }
       endConsumeDrops(player, entity)
       triggerDelay()
       (true, "entity")
     }
     def click(player: Player, x: Int, y: Int, z: Int, side: Int) = {
       val breakTime = player.clickBlock(x, y, z, side)
       val broke = breakTime > 0
       if (broke) {
         // Subtract one tick because we take one to trigger the action - a bit
         // more than one tick avoid floating point inaccuracy incurring another
         // tick of delay.
         triggerDelay(breakTime - 0.055)
       }
       (broke, "block")
     }

     var reason: Option[String] = None
     for (side <- sides) {
       val player = rotatedPlayer(facing, side)
       player.setSneaking(sneaky)

       val (success, what) = {
         val hit = pick(player, Settings.get.swingRange)
         (Option(hit) match {
           case Some(info) => info.typeOfHit
           case _ => MovingObjectType.MISS
         }) match {
           case MovingObjectType.ENTITY =>
             attack(player, hit.entityHit)
           case MovingObjectType.BLOCK =>
             click(player, hit.blockX, hit.blockY, hit.blockZ, hit.sideHit)
           case _ =>
             // Retry with full block bounds, disregarding swing range.
             player.closestEntity[EntityLivingBase]() match {
               case Some(entity) =>
                 attack(player, entity)
               case _ =>
                 if (world.extinguishFire(player, position, facing)) {
                   triggerDelay()
                   (true, "fire")
                 }
                 else (false, "air")
             }
         }
       }

       player.setSneaking(false)
       if (success) {
         return result(true, what)
       }
       reason = reason.orElse(Option(what))
     }

     result(false, reason.orNull)
   }

   @Callback
   def use(context: Context, args: Arguments): Array[AnyRef] = {
     val facing = checkSideForAction(args, 0)
     val sides =
       if (args.isInteger(1)) {
         Iterable(checkSideForFace(args, 1, facing))
       }
       else {
         // Always try the direction we're looking first.
         Iterable(facing) ++ ForgeDirection.VALID_DIRECTIONS.filter(side => side != facing && side != facing.getOpposite).toIterable
       }
     val sneaky = args.isBoolean(2) && args.checkBoolean(2)
     val duration =
       if (args.isDouble(3)) args.checkDouble(3)
       else 0.0

     def triggerDelay() {
       onWorldInteraction(context, Settings.get.useDelay)
     }
     def activationResult(activationType: ActivationType.Value) =
       activationType match {
         case ActivationType.BlockActivated =>
           triggerDelay()
           (true, "block_activated")
         case ActivationType.ItemPlaced =>
           triggerDelay()
           (true, "item_placed")
         case ActivationType.ItemUsed =>
           triggerDelay()
           (true, "item_used")
         case _ => (false, "")
       }
     def interact(player: Player, entity: Entity) = {
       beginConsumeDrops(entity)
       val result = player.interactWith(entity)
       endConsumeDrops(player, entity)
       result
     }

     for (side <- sides) {
       val player = rotatedPlayer(facing, side)
       player.setSneaking(sneaky)

       val (success, what) = Option(pick(player, Settings.get.useAndPlaceRange)) match {
         case Some(hit) if hit.typeOfHit == MovingObjectType.ENTITY && interact(player, hit.entityHit) =>
           triggerDelay()
           (true, "item_interacted")
         case Some(hit) if hit.typeOfHit == MovingObjectType.BLOCK =>
           val (bx, by, bz, hx, hy, hz) = clickParamsFromHit(hit)
           activationResult(player.activateBlockOrUseItem(bx, by, bz, hit.sideHit, hx, hy, hz, duration))
         case _ =>
           (if (canPlaceInAir) {
             val (bx, by, bz, hx, hy, hz) = clickParamsForPlace(facing)
             if (player.placeBlock(0, bx, by, bz, facing.ordinal, hx, hy, hz))
               ActivationType.ItemPlaced
             else {
               val (bx, by, bz, hx, hy, hz) = clickParamsForItemUse(facing, side)
               player.activateBlockOrUseItem(bx, by, bz, side.getOpposite.ordinal, hx, hy, hz, duration)
             }
           } else ActivationType.None) match {
             case ActivationType.None =>
               if (player.useEquippedItem(duration)) {
                 triggerDelay()
                 (true, "item_used")
               }
               else (false, "air")
             case activationType => activationResult(activationType)
           }
       }

       player.setSneaking(false)
       if (success) {
         return result(true, what)
       }
     }

     result(false)
   }

   @Callback
   def place(context: Context, args: Arguments): Array[AnyRef] = {
     val facing = checkSideForAction(args, 0)
     val sides =
       if (args.isInteger(1)) {
         Iterable(checkSideForFace(args, 1, facing))
       }
       else {
         // Always try the direction we're looking first.
         Iterable(facing) ++ ForgeDirection.VALID_DIRECTIONS.filter(side => side != facing && side != facing.getOpposite).toIterable
       }
     val sneaky = args.isBoolean(2) && args.checkBoolean(2)
     val stack = agent.mainInventory.getStackInSlot(agent.selectedSlot)
     if (stack == null || stack.stackSize == 0) {
       return result(Unit, "nothing selected")
     }

     for (side <- sides) {
       val player = rotatedPlayer(facing, side)
       player.setSneaking(sneaky)
       val success = Option(pick(player, Settings.get.useAndPlaceRange)) match {
         case Some(hit) if hit.typeOfHit == MovingObjectType.BLOCK =>
           val (bx, by, bz, hx, hy, hz) = clickParamsFromHit(hit)
           player.placeBlock(agent.selectedSlot, bx, by, bz, hit.sideHit, hx, hy, hz)
         case None if canPlaceInAir && player.closestEntity[Entity]().isEmpty =>
           val (bx, by, bz, hx, hy, hz) = clickParamsForPlace(facing)
           player.placeBlock(agent.selectedSlot, bx, by, bz, facing.ordinal, hx, hy, hz)
         case _ => false
       }
       player.setSneaking(false)
       if (success) {
         onWorldInteraction(context, Settings.get.placeDelay)
         return result(true)
       }
     }

     result(false)
   }

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

   protected def beginConsumeDrops(entity: Entity) {
     entity.captureDrops = true
   }

   protected def endConsumeDrops(player: Player, entity: Entity) {
     entity.captureDrops = false
     for (drop <- entity.capturedDrops) {
       val stack = drop.getEntityItem
       player.inventory.addItemStackToInventory(stack)
       if (stack.stackSize > 0) {
         player.dropPlayerItemWithRandomChoice(stack, inPlace = false)
       }
     }
     entity.capturedDrops.clear()
   }

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

   protected def checkSideForFace(args: Arguments, n: Int, facing: ForgeDirection) = agent.toGlobal(args.checkSideForFace(n, agent.toLocal(facing)))

   protected def pick(player: Player, range: Double) = {
     val origin = Vec3.createVectorHelper(
       player.posX + player.facing.offsetX * 0.5,
       player.posY + player.facing.offsetY * 0.5,
       player.posZ + player.facing.offsetZ * 0.5)
     val blockCenter = origin.addVector(
       player.facing.offsetX * 0.51,
       player.facing.offsetY * 0.51,
       player.facing.offsetZ * 0.51)
     val target = blockCenter.addVector(
       player.side.offsetX * range,
       player.side.offsetY * range,
       player.side.offsetZ * range)
     val hit = world.rayTraceBlocks(origin, target)
     player.closestEntity[Entity]() match {
       case Some(entity@(_: EntityLivingBase | _: EntityMinecart)) if hit == null || Vec3.createVectorHelper(player.posX, player.posY, player.posZ).distanceTo(hit.hitVec) > player.getDistanceToEntity(entity) => new MovingObjectPosition(entity)
       case _ => hit
     }
   }

   protected def clickParamsFromHit(hit: MovingObjectPosition) = {
     (hit.blockX, hit.blockY, hit.blockZ,
       (hit.hitVec.xCoord - hit.blockX).toFloat,
       (hit.hitVec.yCoord - hit.blockY).toFloat,
       (hit.hitVec.zCoord - hit.blockZ).toFloat)
   }

   protected def clickParamsForItemUse(facing: ForgeDirection, side: ForgeDirection) = {
     val blockPos = position.offset(facing).offset(side)
     (blockPos.x, blockPos.y, blockPos.z,
       0.5f - side.offsetX * 0.5f,
       0.5f - side.offsetY * 0.5f,
       0.5f - side.offsetZ * 0.5f)
   }

   protected def clickParamsForPlace(facing: ForgeDirection) = {
     (position.x, position.y, position.z,
       0.5f + facing.offsetX * 0.5f,
       0.5f + facing.offsetY * 0.5f,
       0.5f + facing.offsetZ * 0.5f)
   }
 }
	package li.cil.oc.server.component

	import li.cil.oc.Settings
	import li.cil.oc.api.event.RobotPlaceInAirEvent
	import li.cil.oc.api.internal
	import li.cil.oc.api.machine.Arguments
	import li.cil.oc.api.machine.Callback
	import li.cil.oc.api.machine.Context
	import li.cil.oc.server.agent.ActivationType
	import li.cil.oc.server.agent.Player
	import li.cil.oc.util.BlockPosition
	import li.cil.oc.util.ExtendedArguments._
	import li.cil.oc.util.ExtendedWorld._
	import net.minecraft.entity.Entity
	import net.minecraft.entity.EntityLivingBase
	import net.minecraft.entity.item.EntityMinecart
	import net.minecraft.util.MovingObjectPosition
	import net.minecraft.util.MovingObjectPosition.MovingObjectType
	import net.minecraft.util.Vec3
	import net.minecraftforge.common.MinecraftForge
	import net.minecraftforge.common.util.ForgeDirection

	import scala.collection.convert.WrapAsScala._

	trait Agent extends traits.WorldControl with traits.InventoryControl with traits.InventoryWorldControl with traits.TankAware with traits.TankControl with traits.TankWorldControl {
	def agent: internal.Agent

	override def position = BlockPosition(agent)

	override def fakePlayer = agent.player

	protected def rotatedPlayer(facing: ForgeDirection = agent.facing, side: ForgeDirection = agent.facing) = {
	val player = agent.player.asInstanceOf[Player]
	Player.updatePositionAndRotation(player, facing, side)
	player
	}

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

	override def inventory = agent.mainInventory

	override def selectedSlot = agent.selectedSlot

	override def selectedSlot_=(value: Int): Unit = agent.setSelectedSlot(value)

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

	override def tank = agent.tank

	def selectedTank = agent.selectedTank

	override def selectedTank_=(value: Int) = agent.setSelectedTank(value)

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

	def canPlaceInAir = {
	val event = new RobotPlaceInAirEvent(agent)
	MinecraftForge.EVENT_BUS.post(event)
	event.isAllowed
	}

	def onWorldInteraction(context: Context, duration: Double): Unit = {
	context.pause(duration)
	}

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

	@Callback
	def swing(context: Context, args: Arguments): Array[AnyRef] = {
	// Swing the equipped tool (left click).
	val facing = checkSideForAction(args, 0)
	val sides =
	if (args.isInteger(1)) {
	Iterable(checkSideForFace(args, 1, facing))
	}
	else {
	// Always try the direction we're looking first.
	Iterable(facing) ++ ForgeDirection.VALID_DIRECTIONS.filter(side => side != facing && side != facing.getOpposite).toIterable
	}
	val sneaky = args.isBoolean(2) && args.checkBoolean(2)

	def triggerDelay(delay: Double = Settings.get.swingDelay) = {
	onWorldInteraction(context, delay)
	}
	def attack(player: Player, entity: Entity) = {
	beginConsumeDrops(entity)
	player.attackTargetEntityWithCurrentItem(entity)
	// Mine carts have to be hit quickly in succession to break, so we click
	// until it breaks. But avoid an infinite loop... you never know.
	entity match {
	case _: EntityMinecart => for (_ <- 0 until 10 if !entity.isDead) {
	player.attackTargetEntityWithCurrentItem(entity)
	}
	case _ =>
	}
	endConsumeDrops(player, entity)
	triggerDelay()
	(true, "entity")
	}
	def click(player: Player, x: Int, y: Int, z: Int, side: Int) = {
	val breakTime = player.clickBlock(x, y, z, side)
	val broke = breakTime > 0
	if (broke) {
	// Subtract one tick because we take one to trigger the action - a bit
	// more than one tick avoid floating point inaccuracy incurring another
	// tick of delay.
	triggerDelay(breakTime - 0.055)
	}
	(broke, "block")
	}

	var reason: Option[String] = None
	for (side <- sides) {
	val player = rotatedPlayer(facing, side)
	player.setSneaking(sneaky)

	val (success, what) = {
	val hit = pick(player, Settings.get.swingRange)
	(Option(hit) match {
	case Some(info) => info.typeOfHit
	case _ => MovingObjectType.MISS
	}) match {
	case MovingObjectType.ENTITY =>
	attack(player, hit.entityHit)
	case MovingObjectType.BLOCK =>
	click(player, hit.blockX, hit.blockY, hit.blockZ, hit.sideHit)
	case _ =>
	// Retry with full block bounds, disregarding swing range.
	player.closestEntity[EntityLivingBase]() match {
	case Some(entity) =>
	attack(player, entity)
	case _ =>
	if (world.extinguishFire(player, position, facing)) {
	triggerDelay()
	(true, "fire")
	}
	else (false, "air")
	}
	}
	}

	player.setSneaking(false)
	if (success) {
	return result(true, what)
	}
	reason = reason.orElse(Option(what))
	}

	result(false, reason.orNull)
	}

	@Callback
	def use(context: Context, args: Arguments): Array[AnyRef] = {
	val facing = checkSideForAction(args, 0)
	val sides =
	if (args.isInteger(1)) {
	Iterable(checkSideForFace(args, 1, facing))
	}
	else {
	// Always try the direction we're looking first.
	Iterable(facing) ++ ForgeDirection.VALID_DIRECTIONS.filter(side => side != facing && side != facing.getOpposite).toIterable
	}
	val sneaky = args.isBoolean(2) && args.checkBoolean(2)
	val duration =
	if (args.isDouble(3)) args.checkDouble(3)
	else 0.0

	def triggerDelay() {
	onWorldInteraction(context, Settings.get.useDelay)
	}
	def activationResult(activationType: ActivationType.Value) =
	activationType match {
	case ActivationType.BlockActivated =>
	triggerDelay()
	(true, "block_activated")
	case ActivationType.ItemPlaced =>
	triggerDelay()
	(true, "item_placed")
	case ActivationType.ItemUsed =>
	triggerDelay()
	(true, "item_used")
	case _ => (false, "")
	}
	def interact(player: Player, entity: Entity) = {
	beginConsumeDrops(entity)
	val result = player.interactWith(entity)
	endConsumeDrops(player, entity)
	result
	}

	for (side <- sides) {
	val player = rotatedPlayer(facing, side)
	player.setSneaking(sneaky)

	val (success, what) = Option(pick(player, Settings.get.useAndPlaceRange)) match {
	case Some(hit) if hit.typeOfHit == MovingObjectType.ENTITY && interact(player, hit.entityHit) =>
	triggerDelay()
	(true, "item_interacted")
	case Some(hit) if hit.typeOfHit == MovingObjectType.BLOCK =>
	val (bx, by, bz, hx, hy, hz) = clickParamsFromHit(hit)
	activationResult(player.activateBlockOrUseItem(bx, by, bz, hit.sideHit, hx, hy, hz, duration))
	case _ =>
	(if (canPlaceInAir) {
	val (bx, by, bz, hx, hy, hz) = clickParamsForPlace(facing)
	if (player.placeBlock(0, bx, by, bz, facing.ordinal, hx, hy, hz))
	ActivationType.ItemPlaced
	else {
	val (bx, by, bz, hx, hy, hz) = clickParamsForItemUse(facing, side)
	player.activateBlockOrUseItem(bx, by, bz, side.getOpposite.ordinal, hx, hy, hz, duration)
	}
	} else ActivationType.None) match {
	case ActivationType.None =>
	if (player.useEquippedItem(duration)) {
	triggerDelay()
	(true, "item_used")
	}
	else (false, "air")
	case activationType => activationResult(activationType)
	}
	}

	player.setSneaking(false)
	if (success) {
	return result(true, what)
	}
	}

	result(false)
	}

	@Callback
	def place(context: Context, args: Arguments): Array[AnyRef] = {
	val facing = checkSideForAction(args, 0)
	val sides =
	if (args.isInteger(1)) {
	Iterable(checkSideForFace(args, 1, facing))
	}
	else {
	// Always try the direction we're looking first.
	Iterable(facing) ++ ForgeDirection.VALID_DIRECTIONS.filter(side => side != facing && side != facing.getOpposite).toIterable
	}
	val sneaky = args.isBoolean(2) && args.checkBoolean(2)
	val stack = agent.mainInventory.getStackInSlot(agent.selectedSlot)
	if (stack == null \|\| stack.stackSize == 0) {
	return result(Unit, "nothing selected")
	}

	for (side <- sides) {
	val player = rotatedPlayer(facing, side)
	player.setSneaking(sneaky)
	val success = Option(pick(player, Settings.get.useAndPlaceRange)) match {
	case Some(hit) if hit.typeOfHit == MovingObjectType.BLOCK =>
	val (bx, by, bz, hx, hy, hz) = clickParamsFromHit(hit)
	player.placeBlock(agent.selectedSlot, bx, by, bz, hit.sideHit, hx, hy, hz)
	case None if canPlaceInAir && player.closestEntity[Entity]().isEmpty =>
	val (bx, by, bz, hx, hy, hz) = clickParamsForPlace(facing)
	player.placeBlock(agent.selectedSlot, bx, by, bz, facing.ordinal, hx, hy, hz)
	case _ => false
	}
	player.setSneaking(false)
	if (success) {
	onWorldInteraction(context, Settings.get.placeDelay)
	return result(true)
	}
	}

	result(false)
	}

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

	protected def beginConsumeDrops(entity: Entity) {
	entity.captureDrops = true
	}

	protected def endConsumeDrops(player: Player, entity: Entity) {
	entity.captureDrops = false
	for (drop <- entity.capturedDrops) {
	val stack = drop.getEntityItem
	player.inventory.addItemStackToInventory(stack)
	if (stack.stackSize > 0) {
	player.dropPlayerItemWithRandomChoice(stack, inPlace = false)
	}
	}
	entity.capturedDrops.clear()
	}

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

	protected def checkSideForFace(args: Arguments, n: Int, facing: ForgeDirection) = agent.toGlobal(args.checkSideForFace(n, agent.toLocal(facing)))

	protected def pick(player: Player, range: Double) = {
	val origin = Vec3.createVectorHelper(
	player.posX + player.facing.offsetX * 0.5,
	player.posY + player.facing.offsetY * 0.5,
	player.posZ + player.facing.offsetZ * 0.5)
	val blockCenter = origin.addVector(
	player.facing.offsetX * 0.51,
	player.facing.offsetY * 0.51,
	player.facing.offsetZ * 0.51)
	val target = blockCenter.addVector(
	player.side.offsetX * range,
	player.side.offsetY * range,
	player.side.offsetZ * range)
	val hit = world.rayTraceBlocks(origin, target)
	player.closestEntity[Entity]() match {
	case Some(entity@(_: EntityLivingBase \| _: EntityMinecart)) if hit == null \|\| Vec3.createVectorHelper(player.posX, player.posY, player.posZ).distanceTo(hit.hitVec) > player.getDistanceToEntity(entity) => new MovingObjectPosition(entity)
	case _ => hit
	}
	}

	protected def clickParamsFromHit(hit: MovingObjectPosition) = {
	(hit.blockX, hit.blockY, hit.blockZ,
	(hit.hitVec.xCoord - hit.blockX).toFloat,
	(hit.hitVec.yCoord - hit.blockY).toFloat,
	(hit.hitVec.zCoord - hit.blockZ).toFloat)
	}

	protected def clickParamsForItemUse(facing: ForgeDirection, side: ForgeDirection) = {
	val blockPos = position.offset(facing).offset(side)
	(blockPos.x, blockPos.y, blockPos.z,
	0.5f - side.offsetX * 0.5f,
	0.5f - side.offsetY * 0.5f,
	0.5f - side.offsetZ * 0.5f)
	}

	protected def clickParamsForPlace(facing: ForgeDirection) = {
	(position.x, position.y, position.z,
	0.5f + facing.offsetX * 0.5f,
	0.5f + facing.offsetY * 0.5f,
	0.5f + facing.offsetZ * 0.5f)
	}
	}