package appeng.tile.crafting; import net.minecraft.inventory.IInventory; import net.minecraft.inventory.ISidedInventory; import net.minecraft.inventory.InventoryCrafting; import net.minecraft.item.ItemStack; import net.minecraft.nbt.NBTTagCompound; import net.minecraft.tileentity.TileEntity; import net.minecraft.world.World; import net.minecraftforge.common.util.ForgeDirection; import appeng.api.AEApi; import appeng.api.config.Actionable; import appeng.api.config.PowerMultiplier; import appeng.api.config.RedstoneMode; import appeng.api.config.Settings; import appeng.api.config.Upgrades; import appeng.api.crafting.ICraftingMedium; import appeng.api.crafting.ICraftingPatternDetails; import appeng.api.implementations.IUpgradeableHost; import appeng.api.networking.IGridNode; import appeng.api.networking.ticking.IGridTickable; import appeng.api.networking.ticking.TickRateModulation; import appeng.api.networking.ticking.TickingRequest; import appeng.api.util.AECableType; import appeng.api.util.DimensionalCoord; import appeng.api.util.IConfigManager; import appeng.container.ContainerNull; import appeng.items.misc.ItemEncodedPattern; import appeng.me.GridAccessException; import appeng.parts.automation.UpgradeInventory; import appeng.tile.events.AETileEventHandler; import appeng.tile.events.TileEventType; import appeng.tile.grid.AENetworkInvTile; import appeng.tile.inventory.AppEngInternalInventory; import appeng.tile.inventory.IAEAppEngInventory; import appeng.tile.inventory.InvOperation; import appeng.util.ConfigManager; import appeng.util.IConfigManagerHost; import appeng.util.InventoryAdaptor; import appeng.util.Platform; public class TileMolecularAssembler extends AENetworkInvTile implements IAEAppEngInventory, ISidedInventory, IUpgradeableHost, IConfigManagerHost, IGridTickable, ICraftingMedium { static final int[] sides = new int[] { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9 }; static final ItemStack is = AEApi.instance().blocks().blockMolecularAssembler.stack( 1 ); private InventoryCrafting craftingInv = new InventoryCrafting( new ContainerNull(), 3, 3 ); private AppEngInternalInventory inv = new AppEngInternalInventory( this, 9 + 2 ); private IConfigManager settings = new ConfigManager( this ); private UpgradeInventory upgrades = new UpgradeInventory( is, this, getUpgradeSlots() ); private ForgeDirection pushDirection = ForgeDirection.UNKNOWN; private ItemStack myPattern = null; private ICraftingPatternDetails myPlan = null; private double progress = 0; private boolean isAwake = false; @Override public boolean pushPattern(ICraftingPatternDetails patternDetails, InventoryCrafting table, ForgeDirection where) { return false; } private void recalculatePlan() { ItemStack is = inv.getStackInSlot( 10 ); boolean wasEnabled = isAwake; if ( is != null && is.getItem() instanceof ItemEncodedPattern ) { if ( !Platform.isSameItem( is, myPattern ) ) { World w = getWorldObj(); ItemEncodedPattern iep = (ItemEncodedPattern) is.getItem(); ICraftingPatternDetails ph = iep.getPatternForItem( is, w ); progress = 0; myPattern = is; myPlan = ph; } } else { progress = 0; myPlan = null; myPattern = null; } isAwake = myPlan != null && hasMats() || canPush(); if ( wasEnabled != isAwake ) { try { if ( isAwake ) gridProxy.getTick().wakeDevice( gridProxy.getNode() ); else gridProxy.getTick().sleepDevice( gridProxy.getNode() ); } catch (GridAccessException e) { // :P } } } private boolean canPush() { return inv.getStackInSlot( 9 ) != null; } @Override public int getInstalledUpgrades(Upgrades u) { return upgrades.getInstalledUpgrades( u ); } protected int getUpgradeSlots() { return 5; } private class TileMolecularAssemblerHandler extends AETileEventHandler { public TileMolecularAssemblerHandler() { super( TileEventType.WORLD_NBT ); } @Override public void writeToNBT(NBTTagCompound data) { upgrades.writeToNBT( data, "upgrades" ); inv.writeToNBT( data, "inv" ); settings.writeToNBT( data ); } @Override public void readFromNBT(NBTTagCompound data) { upgrades.readFromNBT( data, "upgrades" ); inv.readFromNBT( data, "inv" ); settings.readFromNBT( data ); recalculatePlan(); } }; public TileMolecularAssembler() { settings.registerSetting( Settings.REDSTONE_CONTROLLED, RedstoneMode.IGNORE ); inv.setMaxStackSize( 1 ); addNewHandler( new TileMolecularAssemblerHandler() ); } @Override public boolean isItemValidForSlot(int i, ItemStack itemstack) { if ( i >= 9 ) return false; if ( hasPattern() ) return myPlan.isValidItemForSlot( i, itemstack, getWorldObj() ); return false; } private boolean hasPattern() { return myPlan != null && inv.getStackInSlot( 10 ) != null; } @Override public boolean canExtractItem(int i, ItemStack itemstack, int j) { return i == 9; } @Override public IInventory getInternalInventory() { return inv; } @Override public void onChangeInventory(IInventory inv, int slot, InvOperation mc, ItemStack removed, ItemStack added) { if ( inv == this.inv ) recalculatePlan(); } @Override public int[] getAccessibleSlotsBySide(ForgeDirection whichSide) { return sides; } @Override public AECableType getCableConnectionType(ForgeDirection dir) { return AECableType.COVERED; } @Override public DimensionalCoord getLocation() { return new DimensionalCoord( this ); } @Override public IConfigManager getConfigManager() { return settings; } @Override public IInventory getInventoryByName(String name) { if ( name.equals( "upgrades" ) ) return upgrades; if ( name.equals( "mac" ) ) return inv; return null; } @Override public void updateSetting(IConfigManager manager, Enum settingName, Enum newValue) { } @Override public int getInventoryStackLimit() { return 1; } public int getCraftingProgress() { return (int) progress; } @Override public TickingRequest getTickingRequest(IGridNode node) { return new TickingRequest( 1, 5, isAwake = hasPattern() && hasMats() || canPush(), false ); } private boolean hasMats() { if ( myPlan == null ) return false; for (int x = 0; x < craftingInv.getSizeInventory(); x++) craftingInv.setInventorySlotContents( x, inv.getStackInSlot( x ) ); return myPlan.getOutput( craftingInv, getWorldObj() ) != null; } @Override public TickRateModulation tickingRequest(IGridNode node, int TicksSinceLastCall) { if ( inv.getStackInSlot( 9 ) != null ) { pushOut( inv.getStackInSlot( 9 ) ); return inv.getStackInSlot( 9 ) == null ? TickRateModulation.SLEEP : TickRateModulation.IDLE; } if ( myPlan == null ) { isAwake = false; return TickRateModulation.SLEEP; } switch (upgrades.getInstalledUpgrades( Upgrades.SPEED )) { case 0: progress += userPower( TicksSinceLastCall ); break; case 1: progress += userPower( TicksSinceLastCall * 2 ); break; case 2: progress += userPower( TicksSinceLastCall * 6 ); break; case 3: progress += userPower( TicksSinceLastCall * 12 ); break; case 4: progress += userPower( TicksSinceLastCall * 30 ); break; case 5: progress += userPower( TicksSinceLastCall * 120 ); break; } if ( progress >= 100 ) { for (int x = 0; x < craftingInv.getSizeInventory(); x++) craftingInv.setInventorySlotContents( x, inv.getStackInSlot( x ) ); progress = 0; ItemStack output = myPlan.getOutput( craftingInv, getWorldObj() ); if ( output != null ) { for (int x = 0; x < craftingInv.getSizeInventory(); x++) inv.setInventorySlotContents( x, null ); pushOut( output.copy() ); isAwake = false; return inv.getStackInSlot( 9 ) == null ? TickRateModulation.SLEEP : TickRateModulation.IDLE; } } return TickRateModulation.FASTER; } private int userPower(int i) { try { return (int) gridProxy.getEnergy().extractAEPower( i, Actionable.MODULATE, PowerMultiplier.CONFIG ); } catch (GridAccessException e) { return 0; } } private void pushOut(ItemStack output) { if ( pushDirection == ForgeDirection.UNKNOWN ) { for (ForgeDirection d : ForgeDirection.VALID_DIRECTIONS) output = pushTo( output, d ); } else output = pushTo( output, pushDirection ); inv.setInventorySlotContents( 9, output ); } private ItemStack pushTo(ItemStack output, ForgeDirection d) { if ( output == null ) return output; TileEntity te = getWorldObj().getTileEntity( xCoord + d.offsetX, yCoord + d.offsetY, zCoord + d.offsetZ ); if ( te == null ) return output; InventoryAdaptor adaptor = InventoryAdaptor.getAdaptor( te, d.getOpposite() ); if ( adaptor == null ) return output; return adaptor.addItems( output ); } }