blob: 6c6837607eb68d5619f175721fdb11e7dbdf4a56 [file] [log] [blame] [raw]
package li.cil.oc.server.driver
import java.util
import java.util.logging.Level
import li.cil.oc.api.driver.Converter
import li.cil.oc.{OpenComputers, api}
import net.minecraft.item.ItemStack
import net.minecraft.world.World
import scala.collection.mutable.ArrayBuffer
/**
* This class keeps track of registered drivers and provides installation logic
* for each registered driver.
*
* Each component type must register its driver with this class to be used with
* computers, since this class is used to determine whether an object is a
* valid component or not.
*
* All drivers must be installed once the game starts - in the init phase - and
* are then injected into all computers started up past that point. A driver is
* a set of functions made available to the computer. These functions will
* usually require a component of the type the driver wraps to be installed in
* the computer, but may also provide context-free functions.
*/
private[oc] object Registry extends api.detail.DriverAPI {
val blocks = ArrayBuffer.empty[api.driver.Block]
val items = ArrayBuffer.empty[api.driver.Item]
val converters = ArrayBuffer.empty[api.driver.Converter]
/** Used to keep track of whether we're past the init phase. */
var locked = false
override def add(driver: api.driver.Block) {
if (locked) throw new IllegalStateException("Please register all drivers in the init phase.")
if (!blocks.contains(driver)) blocks += driver
}
override def add(driver: api.driver.Item) {
if (locked) throw new IllegalStateException("Please register all drivers in the init phase.")
if (!blocks.contains(driver)) items += driver
}
override def add(converter: Converter) {
if (locked) throw new IllegalStateException("Please register all converters in the init phase.")
if (!converters.contains(converter)) converters += converter
}
def blockDriverFor(world: World, x: Int, y: Int, z: Int) =
blocks.filter(_.worksWith(world, x, y, z)) match {
case drivers if !drivers.isEmpty => Some(new CompoundBlockDriver(drivers: _*))
case _ => None
}
def itemDriverFor(stack: ItemStack) =
if (stack != null) items.find(_.worksWith(stack)) match {
case None => None
case Some(driver) => Some(driver)
}
else None
def convert(value: Array[AnyRef]) = if (value != null) value.map(convertRecursively) else null
def convertRecursively(value: AnyRef): AnyRef = value match {
case null | Unit | None => null
case arg: java.lang.Boolean => arg
case arg: java.lang.Byte => arg
case arg: java.lang.Character => arg
case arg: java.lang.Short => arg
case arg: java.lang.Integer => arg
case arg: java.lang.Long => arg
case arg: java.lang.Float => arg
case arg: java.lang.Double => arg
case arg: java.lang.String => arg
case arg: Array[Boolean] => arg
case arg: Array[Byte] => arg
case arg: Array[Character] => arg
case arg: Array[Short] => arg
case arg: Array[Integer] => arg
case arg: Array[Long] => arg
case arg: Array[Float] => arg
case arg: Array[Double] => arg
case arg: Array[String] => arg
case arg: Array[_] => arg.map {
case (value: AnyRef) => convertRecursively(value)
}
case arg: Map[_, _] => arg.map {
case (key: AnyRef, value: AnyRef) => convertRecursively(key) -> convertRecursively(value)
}
case arg =>
val result = new util.HashMap[AnyRef, AnyRef]()
converters.foreach(converter => try converter.convert(arg, result) catch {
case t: Throwable => OpenComputers.log.log(Level.WARNING, "Type converter threw an exception.", t)
})
if (result.isEmpty) null
else result
}
}