Applied-Energistics-2-tiler.../tile/misc/TileVibrationChamber.java

246 lines
5.7 KiB
Java

package appeng.tile.misc;
import io.netty.buffer.ByteBuf;
import java.io.IOException;
import net.minecraft.inventory.IInventory;
import net.minecraft.item.ItemStack;
import net.minecraft.nbt.NBTTagCompound;
import net.minecraft.tileentity.TileEntityFurnace;
import net.minecraftforge.common.util.ForgeDirection;
import appeng.api.config.Actionable;
import appeng.api.networking.GridFlags;
import appeng.api.networking.IGridNode;
import appeng.api.networking.energy.IEnergyGrid;
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.me.GridAccessException;
import appeng.tile.events.AETileEventHandler;
import appeng.tile.events.TileEventType;
import appeng.tile.grid.AENetworkInvTile;
import appeng.tile.inventory.AppEngInternalInventory;
import appeng.tile.inventory.InvOperation;
public class TileVibrationChamber extends AENetworkInvTile implements IGridTickable
{
final double powerPerTick = 5;
final int sides[] = new int[] { 0 };
AppEngInternalInventory inv = new AppEngInternalInventory( this, 1 );
public int burnSpeed = 100;
public double burnTime = 0;
public double maxBurnTime = 0;
// client side..
public boolean isOn;
@Override
public AECableType getCableConnectionType(ForgeDirection dir)
{
return AECableType.COVERED;
}
private class TileVibrationChamberHandler extends AETileEventHandler
{
public TileVibrationChamberHandler() {
super( TileEventType.NETWORK, TileEventType.WORLD_NBT );
}
@Override
public boolean readFromStream(ByteBuf data) throws IOException
{
boolean wasOn = isOn;
isOn = data.readBoolean();
return wasOn != isOn; // TESR dosn't need updates!
}
@Override
public void writeToStream(ByteBuf data) throws IOException
{
data.writeBoolean( burnTime > 0 );
}
@Override
public void writeToNBT(NBTTagCompound data)
{
data.setDouble( "burnTime", burnTime );
data.setDouble( "maxBurnTime", maxBurnTime );
data.setInteger( "burnSpeed", burnSpeed );
}
@Override
public void readFromNBT(NBTTagCompound data)
{
burnTime = data.getDouble( "burnTime" );
maxBurnTime = data.getDouble( "maxBurnTime" );
burnSpeed = data.getInteger( "burnSpeed" );
}
};
public TileVibrationChamber() {
gridProxy.setIdlePowerUsage( 0 );
gridProxy.setFlags( GridFlags.CANNOT_CARRY );
addNewHandler( new TileVibrationChamberHandler() );
}
@Override
public IInventory getInternalInventory()
{
return inv;
}
@Override
public void onChangeInventory(IInventory inv, int slot, InvOperation mc, ItemStack removed, ItemStack added)
{
if ( burnTime <= 0 )
{
eatFuel();
if ( burnTime > 0 )
{
try
{
gridProxy.getTick().wakeDevice( gridProxy.getNode() );
}
catch (GridAccessException e)
{
// wake up!
}
}
}
}
@Override
public int[] getAccessibleSlotsBySide(ForgeDirection side)
{
return sides;
}
@Override
public int getInventoryStackLimit()
{
return 64;
}
@Override
public boolean isItemValidForSlot(int i, ItemStack itemstack)
{
return TileEntityFurnace.getItemBurnTime( itemstack ) > 0;
}
@Override
public boolean canExtractItem(int i, ItemStack itemstack, int j)
{
return false;
}
@Override
public DimensionalCoord getLocation()
{
return new DimensionalCoord( this );
}
@Override
public TickingRequest getTickingRequest(IGridNode node)
{
if ( burnTime <= 0 )
eatFuel();
return new TickingRequest( 10, 40, burnTime <= 0, false );
}
@Override
public TickRateModulation tickingRequest(IGridNode node, int TicksSinceLastCall)
{
if ( burnTime <= 0 )
{
eatFuel();
if ( burnTime > 0 )
return TickRateModulation.URGENT;
burnSpeed = 100;
return TickRateModulation.SLEEP;
}
burnSpeed = Math.max( 20, Math.min( burnSpeed, 200 ) );
double dialiation = burnSpeed / 100.0;
double timePassed = (double) TicksSinceLastCall * dialiation;
burnTime -= timePassed;
if ( burnTime < 0 )
{
timePassed += burnTime;
burnTime = 0;
}
try
{
IEnergyGrid grid = gridProxy.getEnergy();
double newPower = timePassed * powerPerTick;
double overFlow = grid.injectPower( newPower, Actionable.SIMULATE );
// burn the over flow.
grid.injectPower( Math.max( 0.0, newPower - overFlow ), Actionable.MODULATE );
if ( overFlow > 0 )
burnSpeed -= TicksSinceLastCall;
else
burnSpeed += TicksSinceLastCall;
burnSpeed = Math.max( 20, Math.min( burnSpeed, 200 ) );
return overFlow > 0 ? TickRateModulation.SLOWER : TickRateModulation.FASTER;
}
catch (GridAccessException e)
{
burnSpeed -= TicksSinceLastCall;
burnSpeed = Math.max( 20, Math.min( burnSpeed, 200 ) );
return TickRateModulation.SLOWER;
}
}
private void eatFuel()
{
ItemStack is = getStackInSlot( 0 );
if ( is != null )
{
int newBurnTime = TileEntityFurnace.getItemBurnTime( is );
if ( newBurnTime > 0 && is.stackSize > 0 )
{
burnTime += newBurnTime;
maxBurnTime = burnTime;
is.stackSize--;
if ( is.stackSize <= 0 )
setInventorySlotContents( 0, null );
else
setInventorySlotContents( 0, is );
}
}
if ( burnTime > 0 )
{
try
{
gridProxy.getTick().wakeDevice( gridProxy.getNode() );
}
catch (GridAccessException e)
{
// gah!
}
}
if ( (!isOn && burnTime > 0) || (isOn && burnTime <= 0) )
{
isOn = burnTime > 0;
markForUpdate();
}
}
}