blob: 10ce5f8d629d40d088f6f532604edda79a594fed [file] [log] [blame] [raw]
package li.cil.oc.common
import cpw.mods.fml.common.eventhandler.SubscribeEvent
import java.io
import java.util.logging.Level
import li.cil.oc.{OpenComputers, Settings}
import net.minecraft.world.ChunkCoordIntPair
import net.minecraftforge.common.DimensionManager
import net.minecraftforge.event.world.{ChunkDataEvent, WorldEvent}
import scala.collection.mutable
// Used by the native lua state to store kernel and stack data in auxiliary
// files instead of directly in the tile entity data, avoiding potential
// problems with the tile entity data becoming too large.
object SaveHandler {
val saveData = mutable.Map.empty[Int, mutable.Map[ChunkCoordIntPair, mutable.Map[String, Array[Byte]]]]
def savePath = new io.File(DimensionManager.getCurrentSaveRootDirectory, Settings.savePath + "state")
def scheduleSave(dimension: Int, chunk: ChunkCoordIntPair, name: String, data: Array[Byte]) = saveData.synchronized {
if (chunk == null) throw new IllegalArgumentException("chunk is null")
else {
// Make sure we get rid of old versions (e.g. left over by other mods
// triggering a save - this is mostly used for RiM compatibility). We
// need to do this for *each* dimension, in case computers are teleported
// across dimensions.
for (chunks <- saveData.values) chunks.values.foreach(_ -= name)
val chunks = saveData.getOrElseUpdate(dimension, mutable.Map.empty)
chunks.getOrElseUpdate(chunk, mutable.Map.empty) += name -> data
}
}
def load(dimension: Int, chunk: ChunkCoordIntPair, name: String): Array[Byte] = {
if (chunk == null) throw new IllegalArgumentException("chunk is null")
// Use data from 'cache' if possible. This avoids weird things happening
// when writeToNBT+readFromNBT is called by other mods (i.e. this is not
// used to actually save the data to disk).
saveData.get(dimension) match {
case Some(chunks) => chunks.get(chunk) match {
case Some(map) => map.get(name) match {
case Some(data) => return data
case _ =>
}
case _ =>
}
case _ =>
}
val path = savePath
val dimPath = new io.File(path, dimension.toString)
val chunkPath = new io.File(dimPath, s"${chunk.chunkXPos}.${chunk.chunkZPos}")
val file = new io.File(chunkPath, name)
try {
// val bis = new io.BufferedInputStream(new GZIPInputStream(new io.FileInputStream(file)))
val bis = new io.BufferedInputStream(new io.FileInputStream(file))
val bos = new io.ByteArrayOutputStream
val buffer = new Array[Byte](8 * 1024)
var read = 0
do {
read = bis.read(buffer)
if (read > 0) {
bos.write(buffer, 0, read)
}
} while (read >= 0)
bis.close()
bos.toByteArray
}
catch {
case e: io.IOException =>
OpenComputers.log.log(Level.WARNING, "Error loading auxiliary tile entity data.", e)
Array.empty[Byte]
}
}
@SubscribeEvent
def onChunkSave(e: ChunkDataEvent.Save) = saveData.synchronized {
val path = savePath
val dimension = e.world.provider.dimensionId
val chunk = e.getChunk.getChunkCoordIntPair
val dimPath = new io.File(path, dimension.toString)
val chunkPath = new io.File(dimPath, s"${chunk.chunkXPos}.${chunk.chunkZPos}")
if (chunkPath.exists && chunkPath.isDirectory) {
for (file <- chunkPath.listFiles()) file.delete()
}
saveData.get(dimension) match {
case Some(chunks) => chunks.get(chunk) match {
case Some(entries) =>
chunkPath.mkdirs()
for ((name, data) <- entries) {
val file = new io.File(chunkPath, name)
try {
// val fos = new GZIPOutputStream(new io.FileOutputStream(file))
val fos = new io.BufferedOutputStream(new io.FileOutputStream(file))
fos.write(data)
fos.close()
}
catch {
case e: io.IOException => OpenComputers.log.log(Level.WARNING, s"Error saving auxiliary tile entity data to '${file.getAbsolutePath}.", e)
}
}
case _ => chunkPath.delete()
}
case _ =>
}
}
@SubscribeEvent
def onWorldSave(e: WorldEvent.Save) = saveData.synchronized {
saveData.get(e.world.provider.dimensionId) match {
case Some(chunks) => chunks.clear()
case _ =>
}
}
}