package appeng.me.cluster.implementations; import java.util.Iterator; import net.minecraft.tileentity.TileEntity; import net.minecraft.world.World; import net.minecraft.world.chunk.Chunk; import net.minecraftforge.common.DimensionManager; import net.minecraftforge.common.MinecraftForge; import net.minecraftforge.common.util.ForgeDirection; import net.minecraftforge.event.world.WorldEvent; import appeng.api.AEApi; import appeng.api.events.LocatableEventAnnounce; import appeng.api.events.LocatableEventAnnounce.LocatableEvent; import appeng.api.exceptions.FailedConnection; import appeng.api.features.ILocatable; import appeng.api.networking.IGridHost; import appeng.api.networking.IGridNode; import appeng.api.util.WorldCoord; import appeng.me.cache.helpers.ConnectionWrapper; import appeng.me.cluster.IAECluster; import appeng.tile.qnb.TileQuantumBridge; import appeng.util.iterators.ChainedIterator; import cpw.mods.fml.common.eventhandler.SubscribeEvent; public class QuantumCluster implements ILocatable, IAECluster { public WorldCoord min; public WorldCoord max; public boolean isDestroyed = false; boolean registered = false; private long thisSide; private long otherSide; ConnectionWrapper connection; public TileQuantumBridge Ring[]; private TileQuantumBridge center; @Override public Iterator getTiles() { return new ChainedIterator( Ring[0], Ring[1], Ring[2], Ring[3], Ring[4], Ring[5], Ring[6], Ring[7], center ); } public void setCenter(TileQuantumBridge c) { registered = true; MinecraftForge.EVENT_BUS.register( this ); center = c; } public QuantumCluster(WorldCoord _min, WorldCoord _max) { min = _min; max = _max; Ring = new TileQuantumBridge[8]; } public boolean canUseNode(long qe) { QuantumCluster qc = (QuantumCluster) AEApi.instance().registries().locateable().findLocateableBySerial( qe ); if ( qc != null && qc.center instanceof TileQuantumBridge ) { World theWorld = qc.getCenter().getWorldObj(); if ( !qc.isDestroyed ) { Chunk c = theWorld.getChunkFromBlockCoords( qc.center.xCoord, qc.center.zCoord ); if ( c.isChunkLoaded ) { int id = theWorld.provider.dimensionId; World cur = DimensionManager.getWorld( id ); TileEntity te = theWorld.getTileEntity( qc.center.xCoord, qc.center.yCoord, qc.center.zCoord ); return te != qc.center || theWorld != cur; } } } return true; } @SubscribeEvent public void onUnload(WorldEvent.Unload e) { if ( center.getWorldObj() == e.world ) { destroy(); } } @Override public void updateStatus(boolean updateGrid) { long qe; qe = center.getQEDest(); if ( thisSide != qe && thisSide != -qe ) { if ( qe != 0 ) { if ( thisSide != 0 ) MinecraftForge.EVENT_BUS.post( new LocatableEventAnnounce( this, LocatableEvent.Unregister ) ); if ( canUseNode( -qe ) ) { otherSide = qe; thisSide = -qe; } else if ( canUseNode( qe ) ) { thisSide = qe; otherSide = -qe; } MinecraftForge.EVENT_BUS.post( new LocatableEventAnnounce( this, LocatableEvent.Register ) ); } else { MinecraftForge.EVENT_BUS.post( new LocatableEventAnnounce( this, LocatableEvent.Unregister ) ); otherSide = 0; thisSide = 0; } } Object myOtherSide = otherSide == 0 ? null : AEApi.instance().registries().locateable().findLocateableBySerial( otherSide ); boolean shutdown = false; if ( myOtherSide instanceof QuantumCluster ) { QuantumCluster sideA = (QuantumCluster) this; QuantumCluster sideB = (QuantumCluster) myOtherSide; if ( sideA.isActive() && sideB.isActive() ) { if ( connection != null && connection.connection != null ) { IGridNode a = connection.connection.a(); IGridNode b = connection.connection.b(); IGridNode sa = sideA.getNode(); IGridNode sb = sideB.getNode(); if ( (a == sa || b == sa) && (a == sb || b == sb) ) return; } try { if ( sideA.connection != null ) { if ( sideA.connection.connection != null ) { sideA.connection.connection.destroy(); sideA.connection = new ConnectionWrapper( null ); } } if ( sideB.connection != null ) { if ( sideB.connection.connection != null ) { sideB.connection.connection.destroy(); sideB.connection = new ConnectionWrapper( null ); } } sideA.connection = sideB.connection = new ConnectionWrapper( AEApi.instance().createGridConnection( sideA.getNode(), sideB.getNode() ) ); } catch (FailedConnection e) { // :( } } else shutdown = true; } else shutdown = true; if ( shutdown && connection != null ) { if ( connection.connection != null ) { connection.connection.destroy(); connection.connection = null; connection = new ConnectionWrapper( null ); } } } @Override public void destroy() { if ( isDestroyed ) return; isDestroyed = true; if ( registered ) { MinecraftForge.EVENT_BUS.unregister( this ); registered = false; } if ( getLocatableSerial() != 0 ) { updateStatus( true ); MinecraftForge.EVENT_BUS.post( new LocatableEventAnnounce( this, LocatableEvent.Unregister ) ); } center.updateStatus( null, (byte) -1 ); for (TileQuantumBridge r : Ring) { r.updateStatus( null, (byte) -1 ); } center = null; Ring = new TileQuantumBridge[8]; } public boolean isCorner(TileQuantumBridge tileQuantumBridge) { return Ring[0] == tileQuantumBridge || Ring[2] == tileQuantumBridge || Ring[4] == tileQuantumBridge || Ring[6] == tileQuantumBridge; } @Override public long getLocatableSerial() { return thisSide; } public TileQuantumBridge getCenter() { return center; } public boolean hasQES() { return getLocatableSerial() != 0; } private IGridNode getNode() { return center.getGridNode( ForgeDirection.UNKNOWN ); } private boolean isActive() { if ( isDestroyed || !registered ) return false; return center.isPowered() && hasQES(); } }