GT5-Unofficial/main/java/gregtech/api/metatileentity/implementations/GT_MetaPipeEntity_Cable.java

package gregtech.api.metatileentity.implementations;

import static gregtech.api.enums.GT_Values.VN;
import gregtech.api.enums.Dyes;
import gregtech.api.enums.Materials;
import gregtech.api.enums.TextureSet;
import gregtech.api.enums.Textures;
import gregtech.api.interfaces.ITexture;
import gregtech.api.interfaces.metatileentity.IMetaTileEntity;
import gregtech.api.interfaces.metatileentity.IMetaTileEntityCable;
import gregtech.api.interfaces.tileentity.IColoredTileEntity;
import gregtech.api.interfaces.tileentity.IEnergyConnected;
import gregtech.api.interfaces.tileentity.IGregTechTileEntity;
import gregtech.api.metatileentity.BaseMetaPipeEntity;
import gregtech.api.metatileentity.MetaPipeEntity;
import gregtech.api.objects.GT_RenderedTexture;
import gregtech.api.util.GT_Utility;
import ic2.api.energy.tile.IEnergySink;

import java.util.ArrayList;
import java.util.Arrays;

import net.minecraft.entity.Entity;
import net.minecraft.entity.EntityLivingBase;
import net.minecraft.item.ItemStack;
import net.minecraft.nbt.NBTTagCompound;
import net.minecraft.tileentity.TileEntity;
import net.minecraft.util.AxisAlignedBB;
import net.minecraft.util.EnumChatFormatting;
import net.minecraft.world.World;
import net.minecraftforge.common.util.ForgeDirection;

public class GT_MetaPipeEntity_Cable extends MetaPipeEntity implements IMetaTileEntityCable {
	public long mTransferredAmperage = 0, mTransferredAmperageLast20 = 0, mTransferredVoltageLast20 = 0;
	
	public final float mThickNess;
	public final Materials mMaterial;
	public final long mCableLossPerMeter, mAmperage, mVoltage;
	public final boolean mInsulated, mCanShock;
	
	public GT_MetaPipeEntity_Cable(int aID, String aName, String aNameRegional, float aThickNess, Materials aMaterial, long aCableLossPerMeter, long aAmperage, long aVoltage, boolean aInsulated, boolean aCanShock) {
		super(aID, aName, aNameRegional, 0);
		mThickNess = aThickNess;
		mMaterial = aMaterial;
		mAmperage = aAmperage;
		mVoltage = aVoltage;
		mInsulated = aInsulated;
		mCanShock = aCanShock;
		mCableLossPerMeter = aCableLossPerMeter;
	}
	
	public GT_MetaPipeEntity_Cable(String aName, float aThickNess, Materials aMaterial, long aCableLossPerMeter, long aAmperage, long aVoltage, boolean aInsulated, boolean aCanShock) {
		super(aName, 0);
		mThickNess = aThickNess;
		mMaterial = aMaterial;
		mAmperage = aAmperage;
		mVoltage = aVoltage;
		mInsulated = aInsulated;
		mCanShock = aCanShock;
		mCableLossPerMeter = aCableLossPerMeter;
	}
	
	@Override
	public byte getTileEntityBaseType() {
		return (byte)(mInsulated?9:8);
	}
	
	@Override
	public IMetaTileEntity newMetaEntity(IGregTechTileEntity aTileEntity) {
		return new GT_MetaPipeEntity_Cable(mName, mThickNess, mMaterial, mCableLossPerMeter, mAmperage, mVoltage, mInsulated, mCanShock);
	}
	
	@Override
	public ITexture[] getTexture(IGregTechTileEntity aBaseMetaTileEntity, byte aSide, byte aConnections, byte aColorIndex, boolean aConnected, boolean aRedstone) {
		if (!mInsulated) return new ITexture[]					{new GT_RenderedTexture(mMaterial.mIconSet.mTextures[TextureSet.INDEX_wire], mMaterial.mRGBa)};
		if (aConnected) {
			float tThickNess = getThickNess();
			if (tThickNess < 0.37F) return new ITexture[]		{new GT_RenderedTexture(mMaterial.mIconSet.mTextures[TextureSet.INDEX_wire], mMaterial.mRGBa), new GT_RenderedTexture(Textures.BlockIcons.INSULATION_TINY	, Dyes.getModulation(aColorIndex, Dyes.CABLE_INSULATION.mRGBa))};
			if (tThickNess < 0.49F) return new ITexture[]		{new GT_RenderedTexture(mMaterial.mIconSet.mTextures[TextureSet.INDEX_wire], mMaterial.mRGBa), new GT_RenderedTexture(Textures.BlockIcons.INSULATION_SMALL	, Dyes.getModulation(aColorIndex, Dyes.CABLE_INSULATION.mRGBa))};
			if (tThickNess < 0.74F) return new ITexture[]		{new GT_RenderedTexture(mMaterial.mIconSet.mTextures[TextureSet.INDEX_wire], mMaterial.mRGBa), new GT_RenderedTexture(Textures.BlockIcons.INSULATION_MEDIUM	, Dyes.getModulation(aColorIndex, Dyes.CABLE_INSULATION.mRGBa))};
			if (tThickNess < 0.99F) return new ITexture[]		{new GT_RenderedTexture(mMaterial.mIconSet.mTextures[TextureSet.INDEX_wire], mMaterial.mRGBa), new GT_RenderedTexture(Textures.BlockIcons.INSULATION_LARGE	, Dyes.getModulation(aColorIndex, Dyes.CABLE_INSULATION.mRGBa))};
			return new ITexture[]								{new GT_RenderedTexture(mMaterial.mIconSet.mTextures[TextureSet.INDEX_wire], mMaterial.mRGBa), new GT_RenderedTexture(Textures.BlockIcons.INSULATION_HUGE	, Dyes.getModulation(aColorIndex, Dyes.CABLE_INSULATION.mRGBa))};
		}
		return new ITexture[]									{new GT_RenderedTexture(Textures.BlockIcons.INSULATION_FULL, Dyes.getModulation(aColorIndex, Dyes.CABLE_INSULATION.mRGBa))};
	}
	
	@Override
	public void onEntityCollidedWithBlock(World aWorld, int aX, int aY, int aZ, Entity aEntity) {
		if (mCanShock && (((BaseMetaPipeEntity)getBaseMetaTileEntity()).mConnections & -128) == 0 && aEntity instanceof EntityLivingBase) GT_Utility.applyElectricityDamage((EntityLivingBase)aEntity, mTransferredVoltageLast20, mTransferredAmperageLast20);
	}
	
	@Override
	public AxisAlignedBB getCollisionBoundingBoxFromPool(World aWorld, int aX, int aY, int aZ) {
		if (!mCanShock) return super.getCollisionBoundingBoxFromPool(aWorld, aX, aY, aZ);
		return AxisAlignedBB.getBoundingBox(aX+0.125D, aY+0.125D, aZ+0.125D, aX+0.875D, aY+0.875D, aZ+0.875D);
	}
	
	@Override public boolean isSimpleMachine()						{return true;}
	@Override public boolean isFacingValid(byte aFacing)			{return false;}
	@Override public boolean isValidSlot(int aIndex)				{return true;}
    @Override public final boolean renderInside(byte aSide)			{return false;}
    @Override public int getProgresstime()							{return (int)mTransferredAmperage*64;}
    @Override public int maxProgresstime()							{return (int)mAmperage*64;}
    
    @Override
	public long injectEnergyUnits(byte aSide, long aVoltage, long aAmperage) {
    	if (!getBaseMetaTileEntity().getCoverBehaviorAtSide(aSide).letsEnergyIn(aSide, getBaseMetaTileEntity().getCoverIDAtSide(aSide), getBaseMetaTileEntity().getCoverDataAtSide(aSide), getBaseMetaTileEntity())) return 0;
		return transferElectricity(aSide, aVoltage, aAmperage, new ArrayList<TileEntity>(Arrays.asList((TileEntity)getBaseMetaTileEntity())));
	}
    
    @Override
	public long transferElectricity(byte aSide, long aVoltage, long aAmperage, ArrayList<TileEntity> aAlreadyPassedTileEntityList) {
		long rUsedAmperes = 0;
		aVoltage -= mCableLossPerMeter;
		if (aVoltage > 0) for (byte i = 0; i < 6 && aAmperage > rUsedAmperes; i++) if (i != aSide && (mConnections & (1<<i)) != 0 && getBaseMetaTileEntity().getCoverBehaviorAtSide(i).letsEnergyOut(i, getBaseMetaTileEntity().getCoverIDAtSide(i), getBaseMetaTileEntity().getCoverDataAtSide(i), getBaseMetaTileEntity())) {
    		TileEntity tTileEntity = getBaseMetaTileEntity().getTileEntityAtSide(i);
    		if (!aAlreadyPassedTileEntityList.contains(tTileEntity)) {
    			aAlreadyPassedTileEntityList.add(tTileEntity);
    			if (tTileEntity instanceof IEnergyConnected) {
        			if (getBaseMetaTileEntity().getColorization() >= 0) {
						byte tColor = ((IEnergyConnected)tTileEntity).getColorization();
						if (tColor >= 0 && tColor != getBaseMetaTileEntity().getColorization()) continue;
					}
        			if (tTileEntity instanceof IGregTechTileEntity && ((IGregTechTileEntity)tTileEntity).getMetaTileEntity() instanceof IMetaTileEntityCable && ((IGregTechTileEntity)tTileEntity).getCoverBehaviorAtSide(GT_Utility.getOppositeSide(i)).letsEnergyIn(GT_Utility.getOppositeSide(i), ((IGregTechTileEntity)tTileEntity).getCoverIDAtSide(GT_Utility.getOppositeSide(i)), ((IGregTechTileEntity)tTileEntity).getCoverDataAtSide(GT_Utility.getOppositeSide(i)), ((IGregTechTileEntity)tTileEntity))) {
        				if (((IGregTechTileEntity)tTileEntity).getTimer() > 50) rUsedAmperes += ((IMetaTileEntityCable)((IGregTechTileEntity)tTileEntity).getMetaTileEntity()).transferElectricity(GT_Utility.getOppositeSide(i), aVoltage, aAmperage-rUsedAmperes, aAlreadyPassedTileEntityList);
        			} else {
            			rUsedAmperes += ((IEnergyConnected)tTileEntity).injectEnergyUnits(GT_Utility.getOppositeSide(i), aVoltage, aAmperage-rUsedAmperes);
        			}
//        		} else if (tTileEntity instanceof IEnergySink) {
//            		ForgeDirection tDirection = ForgeDirection.getOrientation(i).getOpposite();
//            		if (((IEnergySink)tTileEntity).acceptsEnergyFrom((TileEntity)getBaseMetaTileEntity(), tDirection)) {
//            			if (((IEnergySink)tTileEntity).demandedEnergyUnits() > 0 && ((IEnergySink)tTileEntity).injectEnergyUnits(tDirection, aVoltage) < aVoltage) rUsedAmperes++;
//            		}
        		} else if (tTileEntity instanceof IEnergySink) {
            		ForgeDirection tDirection = ForgeDirection.getOrientation(i).getOpposite();
            		if (((IEnergySink)tTileEntity).acceptsEnergyFrom((TileEntity)getBaseMetaTileEntity(), tDirection)) {
            			if (((IEnergySink)tTileEntity).getDemandedEnergy() > 0 && ((IEnergySink)tTileEntity).injectEnergy(tDirection, aVoltage, aVoltage) < aVoltage) rUsedAmperes++;
            		}
        		}
    		}
    	}
		mTransferredAmperage += rUsedAmperes;
		mTransferredVoltageLast20 = Math.max(mTransferredVoltageLast20, aVoltage);
		mTransferredAmperageLast20 = Math.max(mTransferredAmperageLast20, mTransferredAmperage);
    	if (aVoltage > mVoltage || mTransferredAmperage > mAmperage) {
    		getBaseMetaTileEntity().setToFire();
    		return aAmperage;
    	}
		return rUsedAmperes;
	}
	
    @Override
    public void onPostTick(IGregTechTileEntity aBaseMetaTileEntity, long aTick) {
	    if (aBaseMetaTileEntity.isServerSide()) {
			mTransferredAmperage = 0;
			
			if (aTick % 20 == 0) {
				mTransferredVoltageLast20 = 0;
				mTransferredAmperageLast20 = 0;
				mConnections = 0;
				for (byte i = 0, j = 0; i < 6; i++) {
					j = GT_Utility.getOppositeSide(i);
				    if (aBaseMetaTileEntity.getCoverBehaviorAtSide(i).alwaysLookConnected(i, aBaseMetaTileEntity.getCoverIDAtSide(i), aBaseMetaTileEntity.getCoverDataAtSide(i), aBaseMetaTileEntity) || aBaseMetaTileEntity.getCoverBehaviorAtSide(i).letsEnergyIn(i, aBaseMetaTileEntity.getCoverIDAtSide(i), aBaseMetaTileEntity.getCoverDataAtSide(i), aBaseMetaTileEntity) || aBaseMetaTileEntity.getCoverBehaviorAtSide(i).letsEnergyOut(i, aBaseMetaTileEntity.getCoverIDAtSide(i), aBaseMetaTileEntity.getCoverDataAtSide(i), aBaseMetaTileEntity)) {
				    	TileEntity tTileEntity = aBaseMetaTileEntity.getTileEntityAtSide(i);
						if (tTileEntity instanceof IColoredTileEntity) {
							if (aBaseMetaTileEntity.getColorization() >= 0) {
								byte tColor = ((IColoredTileEntity)tTileEntity).getColorization();
								if (tColor >= 0 && tColor != aBaseMetaTileEntity.getColorization()) continue;
							}
						}
				    	if (tTileEntity instanceof IEnergyConnected && (((IEnergyConnected)tTileEntity).inputEnergyFrom(j) || ((IEnergyConnected)tTileEntity).outputsEnergyTo(j))) {
				    		mConnections |= (1<<i);
				    		continue;
					    }
					    if (tTileEntity instanceof IGregTechTileEntity && ((IGregTechTileEntity)tTileEntity).getMetaTileEntity() instanceof IMetaTileEntityCable) {
						    if (((IGregTechTileEntity)tTileEntity).getCoverBehaviorAtSide(j).alwaysLookConnected(j, ((IGregTechTileEntity)tTileEntity).getCoverIDAtSide(j), ((IGregTechTileEntity)tTileEntity).getCoverDataAtSide(j), ((IGregTechTileEntity)tTileEntity)) || ((IGregTechTileEntity)tTileEntity).getCoverBehaviorAtSide(j).letsEnergyIn(j, ((IGregTechTileEntity)tTileEntity).getCoverIDAtSide(j), ((IGregTechTileEntity)tTileEntity).getCoverDataAtSide(j), ((IGregTechTileEntity)tTileEntity)) || ((IGregTechTileEntity)tTileEntity).getCoverBehaviorAtSide(j).letsEnergyOut(j, ((IGregTechTileEntity)tTileEntity).getCoverIDAtSide(j), ((IGregTechTileEntity)tTileEntity).getCoverDataAtSide(j), ((IGregTechTileEntity)tTileEntity))) {
						    	mConnections |= (1<<i);
					    		continue;
					    	}
					    }
					    if (tTileEntity instanceof IEnergySink && ((IEnergySink)tTileEntity).acceptsEnergyFrom((TileEntity)aBaseMetaTileEntity, ForgeDirection.getOrientation(j))) {
				    		mConnections |= (1<<i);
				    		continue;
					    }/*
					    if (tTileEntity instanceof IEnergyEmitter && ((IEnergyEmitter)tTileEntity).emitsEnergyTo((TileEntity)aBaseMetaTileEntity, ForgeDirection.getOrientation(j))) {
				    		mConnections |= (1<<i);
				    		continue;
					    }*/
					}
				}
			}
		}
    }
    
	@Override
	public boolean allowPullStack(IGregTechTileEntity aBaseMetaTileEntity, int aIndex, byte aSide, ItemStack aStack) {
		return false;
	}
	
	@Override
	public boolean allowPutStack(IGregTechTileEntity aBaseMetaTileEntity, int aIndex, byte aSide, ItemStack aStack) {
		return false;
	}
	
	@Override
	public String[] getDescription() {
		return new String[] {
			"Max Voltage: "			+ EnumChatFormatting.GREEN	+ mVoltage + " (" + VN[GT_Utility.getTier(mVoltage)]	+ ")" + EnumChatFormatting.GRAY,
			"Max Amperage: "		+ EnumChatFormatting.YELLOW	+ mAmperage + EnumChatFormatting.GRAY,
			"Loss/Meter/Ampere: "	+ EnumChatFormatting.RED	+ mCableLossPerMeter + EnumChatFormatting.GRAY + " EU-Volt"
		};
	}
	
	@Override
	public float getThickNess() {
		return mThickNess;
	}
	
	@Override
	public void saveNBTData(NBTTagCompound aNBT) {
		//
	}

	@Override
	public void loadNBTData(NBTTagCompound aNBT) {
		//
	}
}