/* * This file is part of Applied Energistics 2. * Copyright (c) 2013 - 2015, AlgorithmX2, All rights reserved. * * Applied Energistics 2 is free software: you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * Applied Energistics 2 is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with Applied Energistics 2. If not, see . */ package appeng.spatial; import java.util.List; import net.minecraft.block.Block; import net.minecraft.block.state.IBlockState; import net.minecraft.entity.Entity; import net.minecraft.entity.EntityHanging; import net.minecraft.entity.EntityList; import net.minecraft.entity.player.EntityPlayerMP; import net.minecraft.util.AxisAlignedBB; import net.minecraft.util.BlockPos; import net.minecraft.util.MathHelper; import net.minecraft.world.Teleporter; import net.minecraft.world.World; import net.minecraft.world.WorldServer; import appeng.api.AEApi; import appeng.api.util.WorldCoord; import appeng.core.stats.Achievements; import appeng.util.Platform; public class StorageHelper { private static StorageHelper instance; public static StorageHelper getInstance() { if( instance == null ) { instance = new StorageHelper(); } return instance; } /** * Mostly from dimensional doors.. which mostly got it form X-Comp. * * @param entity to be teleported entity * @param link destination * * @return teleported entity */ private Entity teleportEntity( Entity entity, final TelDestination link ) { final WorldServer oldWorld; final WorldServer newWorld; final EntityPlayerMP player; try { oldWorld = (WorldServer) entity.worldObj; newWorld = (WorldServer) link.dim; player = ( entity instanceof EntityPlayerMP ) ? (EntityPlayerMP) entity : null; } catch( final Throwable e ) { return entity; } if( oldWorld == null ) { return entity; } if( newWorld == null ) { return entity; } // Is something riding? Handle it first. if( entity.riddenByEntity != null ) { return this.teleportEntity( entity.riddenByEntity, link ); } // Are we riding something? Dismount and tell the mount to go first. Entity cart = entity.ridingEntity; if( cart != null ) { entity.mountEntity( null ); cart = this.teleportEntity( cart, link ); // We keep track of both so we can remount them on the other side. } // load the chunk! WorldServer.class.cast( newWorld ).getChunkProvider().provideChunk( MathHelper.floor_double( link.x ) >> 4, MathHelper.floor_double( link.z ) >> 4 ); final boolean diffDestination = newWorld != oldWorld; if( diffDestination ) { if( player != null ) { if( link.dim.provider instanceof StorageWorldProvider ) { Achievements.SpatialIOExplorer.addToPlayer( player ); } player.mcServer.getConfigurationManager().transferPlayerToDimension( player, link.dim.provider.getDimensionId(), new METeleporter( newWorld, link ) ); } else { final int entX = entity.chunkCoordX; final int entZ = entity.chunkCoordZ; if( ( entity.addedToChunk ) && ( oldWorld.getChunkProvider().chunkExists( entX, entZ ) ) ) { oldWorld.getChunkFromChunkCoords( entX, entZ ).removeEntity( entity ); oldWorld.getChunkFromChunkCoords( entX, entZ ).setModified( true ); } final Entity newEntity = EntityList.createEntityByName( EntityList.getEntityString( entity ), newWorld ); if( newEntity != null ) { entity.lastTickPosX = entity.prevPosX = entity.posX = link.x; entity.lastTickPosY = entity.prevPosY = entity.posY = link.y; entity.lastTickPosZ = entity.prevPosZ = entity.posZ = link.z; if( entity instanceof EntityHanging ) { final EntityHanging h = (EntityHanging) entity; h.setPosition( link.x, link.y, link.z ); // TODO: VERIFIY THIS WORKS } newEntity.copyDataFromOld( entity ); newEntity.dimension = newWorld.provider.getDimensionId(); newEntity.forceSpawn = true; entity.isDead = true; entity = newEntity; } else { return null; } // myChunk.addEntity( entity ); // newWorld.loadedEntityList.add( entity ); // newWorld.onEntityAdded( entity ); newWorld.spawnEntityInWorld( entity ); } } entity.worldObj.updateEntityWithOptionalForce( entity, false ); if( cart != null ) { if( player != null ) { entity.worldObj.updateEntityWithOptionalForce( entity, true ); } entity.mountEntity( cart ); } return entity; } private void transverseEdges( final int minX, final int minY, final int minZ, final int maxX, final int maxY, final int maxZ, final ISpatialVisitor visitor ) { for( int y = minY; y < maxY; y++ ) { for( int z = minZ; z < maxZ; z++ ) { visitor.visit( new BlockPos( minX, y, z ) ); visitor.visit( new BlockPos( maxX, y, z ) ); } } for( int x = minX; x < maxX; x++ ) { for( int z = minZ; z < maxZ; z++ ) { visitor.visit( new BlockPos( x, minY, z ) ); visitor.visit( new BlockPos( x, maxY, z ) ); } } for( int x = minX; x < maxX; x++ ) { for( int y = minY; y < maxY; y++ ) { visitor.visit( new BlockPos( x, y, minZ ) ); visitor.visit( new BlockPos( x, y, maxZ ) ); } } } public void swapRegions( final World src /** over world **/ , final World dst /** storage cell **/ , final int x, final int y, final int z, final int i, final int j, final int k, final int scaleX, final int scaleY, final int scaleZ ) { for( final Block matrixFrameBlock : AEApi.instance().definitions().blocks().matrixFrame().maybeBlock().asSet() ) { this.transverseEdges( i - 1, j - 1, k - 1, i + scaleX + 1, j + scaleY + 1, k + scaleZ + 1, new WrapInMatrixFrame( matrixFrameBlock.getDefaultState(), dst ) ); } final AxisAlignedBB srcBox = AxisAlignedBB.fromBounds( x, y, z, x + scaleX + 1, y + scaleY + 1, z + scaleZ + 1 ); final AxisAlignedBB dstBox = AxisAlignedBB.fromBounds( i, j, k, i + scaleX + 1, j + scaleY + 1, k + scaleZ + 1 ); final CachedPlane cDst = new CachedPlane( dst, i, j, k, i + scaleX, j + scaleY, k + scaleZ ); final CachedPlane cSrc = new CachedPlane( src, x, y, z, x + scaleX, y + scaleY, z + scaleZ ); // do nearly all the work... swaps blocks, tiles, and block ticks cSrc.swap( cDst ); final List srcE = src.getEntitiesWithinAABB( Entity.class, srcBox ); final List dstE = dst.getEntitiesWithinAABB( Entity.class, dstBox ); for( final Entity e : dstE ) { this.teleportEntity( e, new TelDestination( src, srcBox, e.posX, e.posY, e.posZ, -i + x, -j + y, -k + z ) ); } for( final Entity e : srcE ) { this.teleportEntity( e, new TelDestination( dst, dstBox, e.posX, e.posY, e.posZ, -x + i, -y + j, -z + k ) ); } for( final WorldCoord wc : cDst.getUpdates() ) { cSrc.getWorld().notifyBlockOfStateChange( wc.getPos(), Platform.AIR_BLOCK ); } for( final WorldCoord wc : cSrc.getUpdates() ) { cSrc.getWorld().notifyBlockOfStateChange( wc.getPos(), Platform.AIR_BLOCK ); } this.transverseEdges( x - 1, y - 1, z - 1, x + scaleX + 1, y + scaleY + 1, z + scaleZ + 1, new TriggerUpdates( src ) ); this.transverseEdges( i - 1, j - 1, k - 1, i + scaleX + 1, j + scaleY + 1, k + scaleZ + 1, new TriggerUpdates( dst ) ); this.transverseEdges( x, y, z, x + scaleX, y + scaleY, z + scaleZ, new TriggerUpdates( src ) ); this.transverseEdges( i, j, k, i + scaleX, j + scaleY, k + scaleZ, new TriggerUpdates( dst ) ); /* * IChunkProvider cp = destination.getChunkProvider(); if ( cp instanceof ChunkProviderServer ) { * ChunkProviderServer * srv = (ChunkProviderServer) cp; srv.unloadAllChunks(); } * cp.unloadQueuedChunks(); */ } private static class TriggerUpdates implements ISpatialVisitor { private final World dst; public TriggerUpdates( final World dst2 ) { this.dst = dst2; } @Override public void visit( final BlockPos pos ) { final Block blk = this.dst.getBlockState( pos ).getBlock(); blk.onNeighborBlockChange( this.dst, pos, Platform.AIR_BLOCK.getDefaultState(), Platform.AIR_BLOCK ); } } private static class WrapInMatrixFrame implements ISpatialVisitor { private final World dst; private final IBlockState state; public WrapInMatrixFrame( final IBlockState state, final World dst2 ) { this.dst = dst2; this.state = state; } @Override public void visit( final BlockPos pos ) { this.dst.setBlockState( pos, this.state ); } } private static class TelDestination { private final World dim; private final double x; private final double y; private final double z; private final int xOff; private final int yOff; private final int zOff; TelDestination( final World dimension, final AxisAlignedBB srcBox, final double x, final double y, final double z, final int tileX, final int tileY, final int tileZ ) { this.dim = dimension; this.x = Math.min( srcBox.maxX - 0.5, Math.max( srcBox.minX + 0.5, x + tileX ) ); this.y = Math.min( srcBox.maxY - 0.5, Math.max( srcBox.minY + 0.5, y + tileY ) ); this.z = Math.min( srcBox.maxZ - 0.5, Math.max( srcBox.minZ + 0.5, z + tileZ ) ); this.xOff = tileX; this.yOff = tileY; this.zOff = tileZ; } } private static class METeleporter extends Teleporter { private final TelDestination destination; public METeleporter( final WorldServer par1WorldServer, final TelDestination d ) { super( par1WorldServer ); this.destination = d; } @Override public void placeInPortal( final Entity par1Entity, final float rotationYaw ) { par1Entity.setLocationAndAngles( this.destination.x, this.destination.y, this.destination.z, par1Entity.rotationYaw, 0.0F ); par1Entity.motionX = par1Entity.motionY = par1Entity.motionZ = 0.0D; } @Override public boolean placeInExistingPortal( final Entity entityIn, final float p_180620_2_ ) { return false; } @Override public boolean makePortal( final Entity par1Entity ) { return false; } @Override public void removeStalePortalLocations( final long par1 ) { } } }