68 lines
3 KiB
Java
68 lines
3 KiB
Java
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package gregtech.api.interfaces.tileentity;
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import gregtech.api.util.GT_Utility;
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import ic2.api.energy.tile.IEnergySink;
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import net.minecraft.tileentity.TileEntity;
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import net.minecraftforge.common.util.ForgeDirection;
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/**
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* Interface for getting Connected to the GregTech Energy Network.
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*
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* This is all you need to connect to the GT Network.
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* IColoredTileEntity is needed for not connecting differently coloured Blocks to each other.
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* IHasWorldObjectAndCoords is needed for the InWorld related Stuff. @BaseTileEntity does implement most of that Interface.
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*/
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public interface IEnergyConnected extends IColoredTileEntity, IHasWorldObjectAndCoords {
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/**
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* Inject Energy Call for Electricity. Gets called by EnergyEmitters to inject Energy into your Block
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*
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* Note: you have to check for @inputEnergyFrom because the Network won't check for that by itself.
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*
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* @param aSide 0 - 5 = Vanilla Directions of YOUR Block the Energy gets inserted to. 6 = No specific Side (don't do Side checks for this Side)
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* @return amount of used Amperes. 0 if not accepted anything.
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*/
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public long injectEnergyUnits(byte aSide, long aVoltage, long aAmperage);
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/**
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* Sided Energy Input
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*/
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public boolean inputEnergyFrom(byte aSide);
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/**
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* Sided Energy Output
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*/
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public boolean outputsEnergyTo(byte aSide);
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/**
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* Utility for the Network
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*/
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public static class Util {
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/**
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* Emits Energy to the E-net. Also compatible with adjacent IC2 TileEntities.
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* @return the used Amperage.
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*/
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public static final long emitEnergyToNetwork(long aVoltage, long aAmperage, IEnergyConnected aEmitter) {
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long rUsedAmperes = 0;
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for (byte i = 0, j = 0; i < 6 && aAmperage > rUsedAmperes; i++) if (aEmitter.outputsEnergyTo(i)) {
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j = GT_Utility.getOppositeSide(i);
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TileEntity tTileEntity = aEmitter.getTileEntityAtSide(i);
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if (tTileEntity instanceof IEnergyConnected) {
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if (aEmitter.getColorization() >= 0) {
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byte tColor = ((IEnergyConnected)tTileEntity).getColorization();
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if (tColor >= 0 && tColor != aEmitter.getColorization()) continue;
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}
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rUsedAmperes+=((IEnergyConnected)tTileEntity).injectEnergyUnits(j, aVoltage, aAmperage-rUsedAmperes);
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// } else if (tTileEntity instanceof IEnergySink) {
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// if (((IEnergySink)tTileEntity).acceptsEnergyFrom((TileEntity)aEmitter, ForgeDirection.getOrientation(j))) {
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// while (aAmperage > rUsedAmperes && ((IEnergySink)tTileEntity).demandedEnergyUnits() > 0 && ((IEnergySink)tTileEntity).injectEnergyUnits(ForgeDirection.getOrientation(j), aVoltage) < aVoltage) rUsedAmperes++;
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// }
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} else if (tTileEntity instanceof IEnergySink) {
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if (((IEnergySink)tTileEntity).acceptsEnergyFrom((TileEntity)aEmitter, ForgeDirection.getOrientation(j))) {
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while (aAmperage > rUsedAmperes && ((IEnergySink)tTileEntity).getDemandedEnergy() > 0 && ((IEnergySink)tTileEntity).injectEnergy(ForgeDirection.getOrientation(j), aVoltage, aVoltage) < aVoltage) rUsedAmperes++;
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}
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}
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}
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return rUsedAmperes;
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}
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}
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}
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