167 lines
4.3 KiB
Java
167 lines
4.3 KiB
Java
package appeng.tile.powersink;
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import java.util.EnumSet;
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import net.minecraft.nbt.NBTTagCompound;
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import net.minecraftforge.common.util.ForgeDirection;
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import appeng.api.config.AccessRestriction;
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import appeng.api.config.Actionable;
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import appeng.api.config.PowerMultiplier;
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import appeng.api.config.PowerUnits;
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import appeng.api.networking.energy.IAEPowerStorage;
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import appeng.api.networking.events.MENetworkPowerStorage.PowerEventType;
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import appeng.tile.AEBaseInvTile;
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import appeng.tile.TileEvent;
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import appeng.tile.events.TileEventType;
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public abstract class AERootPoweredTile extends AEBaseInvTile implements IAEPowerStorage
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{
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// values that determine general function, are set by inheriting classes if
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// needed. These should generally remain static.
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protected double internalMaxPower = 10000;
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protected boolean internalCanAcceptPower = true;
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protected boolean internalPublicPowerStorage = false;
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private EnumSet<ForgeDirection> internalPowerSides = EnumSet.allOf( ForgeDirection.class );
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protected AccessRestriction internalPowerFlow = AccessRestriction.READ_WRITE;
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// the current power buffer.
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protected double internalCurrentPower = 0;
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protected void setPowerSides(EnumSet<ForgeDirection> sides)
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{
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internalPowerSides = sides;
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// trigger re-calc!
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}
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protected EnumSet<ForgeDirection> getPowerSides()
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{
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return internalPowerSides.clone();
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}
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@TileEvent(TileEventType.WORLD_NBT_WRITE)
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public void writeToNBT_AERootPoweredTile(NBTTagCompound data)
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{
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data.setDouble( "internalCurrentPower", internalCurrentPower );
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}
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@TileEvent(TileEventType.WORLD_NBT_READ)
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public void readFromNBT_AERootPoweredTile(NBTTagCompound data)
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{
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internalCurrentPower = data.getDouble( "internalCurrentPower" );
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}
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final protected double getExternalPowerDemand(PowerUnits externalUnit, double maxPowerRequired)
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{
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return PowerUnits.AE.convertTo( externalUnit, Math.max( 0.0, getFunnelPowerDemand( externalUnit.convertTo( PowerUnits.AE, maxPowerRequired ) ) ) );
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}
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protected double getFunnelPowerDemand(double maxRequired)
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{
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return internalMaxPower - internalCurrentPower;
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}
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final public double injectExternalPower(PowerUnits input, double amt)
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{
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return PowerUnits.AE.convertTo( input, funnelPowerIntoStorage( input.convertTo( PowerUnits.AE, amt ), Actionable.MODULATE ) );
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}
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protected double funnelPowerIntoStorage(double AEUnits, Actionable mode)
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{
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return injectAEPower( AEUnits, mode );
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}
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@Override
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final public double injectAEPower(double amt, Actionable mode)
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{
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if ( amt < 0.000001 )
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return 0;
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if ( mode == Actionable.SIMULATE )
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{
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double fakeBattery = internalCurrentPower + amt;
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if ( fakeBattery > internalMaxPower )
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return fakeBattery - internalMaxPower;
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return 0;
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}
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else
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{
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if ( internalCurrentPower < 0.01 && amt > 0.01 )
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PowerEvent( PowerEventType.PROVIDE_POWER );
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internalCurrentPower += amt;
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if ( internalCurrentPower > internalMaxPower )
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{
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amt = internalCurrentPower - internalMaxPower;
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internalCurrentPower = internalMaxPower;
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return amt;
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}
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return 0;
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}
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}
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protected void PowerEvent(PowerEventType x)
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{
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// nothing.
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}
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protected double extractAEPower(double amt, Actionable mode)
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{
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if ( mode == Actionable.SIMULATE )
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{
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if ( internalCurrentPower > amt )
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return amt;
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return internalCurrentPower;
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}
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boolean wasFull = internalCurrentPower >= internalMaxPower - 0.001;
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if ( wasFull && amt > 0.001 )
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{
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PowerEvent( PowerEventType.REQUEST_POWER );
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}
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if ( internalCurrentPower > amt )
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{
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internalCurrentPower -= amt;
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return amt;
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}
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amt = internalCurrentPower;
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internalCurrentPower = 0;
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return amt;
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}
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@Override
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final public double extractAEPower(double amt, Actionable mode, PowerMultiplier multiplier)
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{
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return multiplier.divide( extractAEPower( multiplier.multiply( amt ), mode ) );
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}
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@Override
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final public double getAEMaxPower()
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{
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return internalMaxPower;
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}
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@Override
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final public double getAECurrentPower()
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{
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return internalCurrentPower;
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}
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@Override
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final public boolean isAEPublicPowerStorage()
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{
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return internalPublicPowerStorage;
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}
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@Override
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final public AccessRestriction getPowerFlow()
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{
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return internalPowerFlow;
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}
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}
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