/* * This file is part of Applied Energistics 2. * Copyright (c) 2013 - 2014, 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.me.cache; import java.util.HashMap; import java.util.HashSet; import java.util.LinkedList; import java.util.List; import com.google.common.collect.HashMultimap; import com.google.common.collect.SetMultimap; import appeng.api.AEApi; import appeng.api.networking.IGrid; import appeng.api.networking.IGridHost; import appeng.api.networking.IGridNode; import appeng.api.networking.IGridStorage; import appeng.api.networking.events.MENetworkCellArrayUpdate; import appeng.api.networking.events.MENetworkEventSubscribe; import appeng.api.networking.security.BaseActionSource; import appeng.api.networking.security.IActionHost; import appeng.api.networking.security.ISecurityGrid; import appeng.api.networking.security.MachineSource; import appeng.api.networking.storage.IStackWatcher; import appeng.api.networking.storage.IStackWatcherHost; import appeng.api.networking.storage.IStorageGrid; import appeng.api.storage.ICellContainer; import appeng.api.storage.ICellProvider; import appeng.api.storage.IMEInventoryHandler; import appeng.api.storage.IMEMonitor; import appeng.api.storage.StorageChannel; import appeng.api.storage.data.IAEFluidStack; import appeng.api.storage.data.IAEItemStack; import appeng.api.storage.data.IAEStack; import appeng.api.storage.data.IItemList; import appeng.me.helpers.GenericInterestManager; import appeng.me.storage.ItemWatcher; import appeng.me.storage.NetworkInventoryHandler; public class GridStorageCache implements IStorageGrid { private final IGrid myGrid; private final HashSet activeCellProviders = new HashSet(); private final HashSet inactiveCellProviders = new HashSet(); private final SetMultimap interests = HashMultimap.create(); private final GenericInterestManager interestManager = new GenericInterestManager( this.interests ); private final NetworkMonitor itemMonitor = new NetworkMonitor( this, StorageChannel.ITEMS ); private final NetworkMonitor fluidMonitor = new NetworkMonitor( this, StorageChannel.FLUIDS ); private final HashMap watchers = new HashMap(); private NetworkInventoryHandler myItemNetwork; private NetworkInventoryHandler myFluidNetwork; public GridStorageCache( final IGrid g ) { this.myGrid = g; } @Override public void onUpdateTick() { this.itemMonitor.onTick(); this.fluidMonitor.onTick(); } @Override public void removeNode( final IGridNode node, final IGridHost machine ) { if( machine instanceof ICellContainer ) { final ICellContainer cc = (ICellContainer) machine; this.getGrid().postEvent( new MENetworkCellArrayUpdate() ); this.removeCellProvider( cc, new CellChangeTracker() ).applyChanges(); this.inactiveCellProviders.remove( cc ); } if( machine instanceof IStackWatcherHost ) { final IStackWatcher myWatcher = this.watchers.get( machine ); if( myWatcher != null ) { myWatcher.clear(); this.watchers.remove( machine ); } } } @Override public void addNode( final IGridNode node, final IGridHost machine ) { if( machine instanceof ICellContainer ) { final ICellContainer cc = (ICellContainer) machine; this.inactiveCellProviders.add( cc ); this.getGrid().postEvent( new MENetworkCellArrayUpdate() ); if( node.isActive() ) { this.addCellProvider( cc, new CellChangeTracker() ).applyChanges(); } } if( machine instanceof IStackWatcherHost ) { final IStackWatcherHost swh = (IStackWatcherHost) machine; final ItemWatcher iw = new ItemWatcher( this, swh ); this.watchers.put( node, iw ); swh.updateWatcher( iw ); } } @Override public void onSplit( final IGridStorage storageB ) { } @Override public void onJoin( final IGridStorage storageB ) { } @Override public void populateGridStorage( final IGridStorage storage ) { } private CellChangeTracker addCellProvider( final ICellProvider cc, final CellChangeTracker tracker ) { if( this.inactiveCellProviders.contains( cc ) ) { this.inactiveCellProviders.remove( cc ); this.activeCellProviders.add( cc ); BaseActionSource actionSrc = new BaseActionSource(); if( cc instanceof IActionHost ) { actionSrc = new MachineSource( (IActionHost) cc ); } for( final IMEInventoryHandler h : cc.getCellArray( StorageChannel.ITEMS ) ) { tracker.postChanges( StorageChannel.ITEMS, 1, h, actionSrc ); } for( final IMEInventoryHandler h : cc.getCellArray( StorageChannel.FLUIDS ) ) { tracker.postChanges( StorageChannel.FLUIDS, 1, h, actionSrc ); } } return tracker; } private CellChangeTracker removeCellProvider( final ICellProvider cc, final CellChangeTracker tracker ) { if( this.activeCellProviders.contains( cc ) ) { this.inactiveCellProviders.add( cc ); this.activeCellProviders.remove( cc ); BaseActionSource actionSrc = new BaseActionSource(); if( cc instanceof IActionHost ) { actionSrc = new MachineSource( (IActionHost) cc ); } for( final IMEInventoryHandler h : cc.getCellArray( StorageChannel.ITEMS ) ) { tracker.postChanges( StorageChannel.ITEMS, -1, h, actionSrc ); } for( final IMEInventoryHandler h : cc.getCellArray( StorageChannel.FLUIDS ) ) { tracker.postChanges( StorageChannel.FLUIDS, -1, h, actionSrc ); } } return tracker; } @MENetworkEventSubscribe public void cellUpdate( final MENetworkCellArrayUpdate ev ) { this.myItemNetwork = null; this.myFluidNetwork = null; final LinkedList ll = new LinkedList(); ll.addAll( this.inactiveCellProviders ); ll.addAll( this.activeCellProviders ); final CellChangeTracker tracker = new CellChangeTracker(); for( final ICellProvider cc : ll ) { boolean Active = true; if( cc instanceof IActionHost ) { final IGridNode node = ( (IActionHost) cc ).getActionableNode(); if( node != null && node.isActive() ) { Active = true; } else { Active = false; } } if( Active ) { this.addCellProvider( cc, tracker ); } else { this.removeCellProvider( cc, tracker ); } } this.itemMonitor.forceUpdate(); this.fluidMonitor.forceUpdate(); tracker.applyChanges(); } private void postChangesToNetwork( final StorageChannel chan, final int upOrDown, final IItemList availableItems, final BaseActionSource src ) { switch( chan ) { case FLUIDS: this.fluidMonitor.postChange( upOrDown > 0, availableItems, src ); break; case ITEMS: this.itemMonitor.postChange( upOrDown > 0, availableItems, src ); break; default: } } IMEInventoryHandler getItemInventoryHandler() { if( this.myItemNetwork == null ) { this.buildNetworkStorage( StorageChannel.ITEMS ); } return this.myItemNetwork; } private void buildNetworkStorage( final StorageChannel chan ) { final SecurityCache security = this.getGrid().getCache( ISecurityGrid.class ); switch( chan ) { case FLUIDS: this.myFluidNetwork = new NetworkInventoryHandler( StorageChannel.FLUIDS, security ); for( final ICellProvider cc : this.activeCellProviders ) { for( final IMEInventoryHandler h : cc.getCellArray( chan ) ) { this.myFluidNetwork.addNewStorage( h ); } } break; case ITEMS: this.myItemNetwork = new NetworkInventoryHandler( StorageChannel.ITEMS, security ); for( final ICellProvider cc : this.activeCellProviders ) { for( final IMEInventoryHandler h : cc.getCellArray( chan ) ) { this.myItemNetwork.addNewStorage( h ); } } break; default: } } IMEInventoryHandler getFluidInventoryHandler() { if( this.myFluidNetwork == null ) { this.buildNetworkStorage( StorageChannel.FLUIDS ); } return this.myFluidNetwork; } @Override public void postAlterationOfStoredItems( final StorageChannel chan, final Iterable input, final BaseActionSource src ) { if( chan == StorageChannel.ITEMS ) { this.itemMonitor.postChange( true, (Iterable) input, src ); } else if( chan == StorageChannel.FLUIDS ) { this.fluidMonitor.postChange( true, (Iterable) input, src ); } } @Override public void registerCellProvider( final ICellProvider provider ) { this.inactiveCellProviders.add( provider ); this.addCellProvider( provider, new CellChangeTracker() ).applyChanges(); } @Override public void unregisterCellProvider( final ICellProvider provider ) { this.removeCellProvider( provider, new CellChangeTracker() ).applyChanges(); this.inactiveCellProviders.remove( provider ); } @Override public IMEMonitor getItemInventory() { return this.itemMonitor; } @Override public IMEMonitor getFluidInventory() { return this.fluidMonitor; } public GenericInterestManager getInterestManager() { return this.interestManager; } IGrid getGrid() { return this.myGrid; } private class CellChangeTrackerRecord { final StorageChannel channel; final int up_or_down; final IItemList list; final BaseActionSource src; public CellChangeTrackerRecord( final StorageChannel channel, final int i, final IMEInventoryHandler h, final BaseActionSource actionSrc ) { this.channel = channel; this.up_or_down = i; this.src = actionSrc; if( channel == StorageChannel.ITEMS ) { this.list = ( (IMEInventoryHandler) h ).getAvailableItems( AEApi.instance().storage().createItemList() ); } else if( channel == StorageChannel.FLUIDS ) { this.list = ( (IMEInventoryHandler) h ).getAvailableItems( AEApi.instance().storage().createFluidList() ); } else { this.list = null; } } public void applyChanges() { GridStorageCache.this.postChangesToNetwork( this.channel, this.up_or_down, this.list, this.src ); } } private class CellChangeTracker { final List data = new LinkedList(); public void postChanges( final StorageChannel channel, final int i, final IMEInventoryHandler h, final BaseActionSource actionSrc ) { this.data.add( new CellChangeTrackerRecord( channel, i, h, actionSrc ) ); } public void applyChanges() { for( final CellChangeTrackerRecord rec : this.data ) { rec.applyChanges(); } } } }