path: root/src/main/java/common/tileentities/GTMTE_TFFTMultiHatch.java

package common.tileentities;

import gregtech.api.GregTech_API;
import gregtech.api.interfaces.ITexture;
import gregtech.api.interfaces.metatileentity.IMetaTileEntity;
import gregtech.api.interfaces.tileentity.IGregTechTileEntity;
import gregtech.api.metatileentity.implementations.GT_MetaTileEntity_Hatch;
import gregtech.api.util.GT_ModHandler;
import gregtech.api.util.GT_Utility;
import kekztech.MultiFluidHandler;
import net.minecraft.entity.player.EntityPlayer;
import net.minecraft.item.ItemStack;
import net.minecraft.nbt.NBTTagCompound;
import net.minecraftforge.common.util.ForgeDirection;
import net.minecraftforge.fluids.FluidStack;

import java.util.HashMap;

public class GTMTE_TFFTMultiHatch extends GT_MetaTileEntity_Hatch {

    private static final HashMap<Integer, Integer> vals = new HashMap<>();
    static {
        vals.put(3, 2000);
        vals.put(5, 20000);
        vals.put(7, 200000);
    }
    private static final int INV_SLOT_COUNT = 2;

    private MultiFluidHandler mfh;
    private boolean outputting = false;

    public GTMTE_TFFTMultiHatch(int aID, String aName, String aNameRegional, int aTier) {
        super(aID, aName, aNameRegional, aTier, INV_SLOT_COUNT, new String[] {
                "All-in-one access for the T.F.F.T",
                "Right-click with a screwdriver to toggle auto-output",
                "Throughput: " + vals.get(aTier) + "L/s per fluid"}
        );
    }

    public GTMTE_TFFTMultiHatch(String aName, int aTier, String aDescription, ITexture[][][] aTextures) {
        super(aName, aTier, INV_SLOT_COUNT, aDescription, aTextures);
    }

    public GTMTE_TFFTMultiHatch(String aName, int aTier, String[] aDescription, ITexture[][][] aTextures) {
        super(aName, aTier, INV_SLOT_COUNT, aDescription, aTextures);
    }

    public void setMultiFluidHandler(MultiFluidHandler mfh) {
        this.mfh = mfh;
    }

    @Override
    public void saveNBTData(NBTTagCompound aNBT) {
        super.saveNBTData(aNBT);
        aNBT.setBoolean("outputting", outputting);
    }

    @Override
    public void loadNBTData(NBTTagCompound aNBT) {
        super.loadNBTData(aNBT);
        outputting = aNBT.getBoolean("outputting");
    }

    @Override
    public ITexture[] getTexturesActive(ITexture iTexture) {
        return new ITexture[0];
    }

    @Override
    public ITexture[] getTexturesInactive(ITexture iTexture) {
        return new ITexture[0];
    }

    @Override
    public IMetaTileEntity newMetaEntity(IGregTechTileEntity iGregTechTileEntity) {
        return new GTMTE_TFFTMultiHatch(super.mName, super.mTier, super.mDescriptionArray, super.mTextures);
    }

    @Override
    public boolean isMachineBlockUpdateRecursive() {
        return false;
    }

    @Override
    public boolean onRightclick(IGregTechTileEntity aBaseMetaTileEntity, EntityPlayer aPlayer) {
        if (GT_Utility.isStackInList(aPlayer.getHeldItem(), GregTech_API.sScrewdriverList)) {
            if (GT_ModHandler.damageOrDechargeItem(aPlayer.getHeldItem(), 1, 200, aPlayer)) {
                outputting = !outputting;
                GT_Utility.sendSoundToPlayers(aBaseMetaTileEntity.getWorld(), GregTech_API.sSoundList.get(100),
                        1.0F, -1.0F,
                        aBaseMetaTileEntity.getXCoord(),
                        aBaseMetaTileEntity.getYCoord(),
                        aBaseMetaTileEntity.getZCoord()
                );
                // Give chat feedback
                GT_Utility.sendChatToPlayer(aPlayer, outputting ? "Auto-output enabled" : "Auto-output disabled");
            }
            return true;
        }
        return false;
    }

    @Override
    public boolean doesFillContainers() {
        return true;
    }

    @Override
    public boolean doesEmptyContainers() {
        return true;
    }

    @Override
    public int getCapacity() {
        return (mfh != null) ? mfh.getCapacity() : 0;
    }

    public void onPreTick(IGregTechTileEntity aBaseMetaTileEntity, long aTick) {
        if (aBaseMetaTileEntity.isServerSide() && mfh != null) {
            // Handle emptying containers
            final FluidStack fluidFromCell = GT_Utility.getFluidForFilledItem(super.mInventory[super.getInputSlot()], true);
            // Check if fluid is not null, could be inserted, and if there is space for the empty container
            if (fluidFromCell != null && mfh.couldPush(fluidFromCell)
                    && aBaseMetaTileEntity.addStackToSlot(super.getOutputSlot(), GT_Utility.getContainerItem(super.mInventory[super.getInputSlot()], true), 1)) {
                // Consume one filled container if it was emptied successfully
                if(mfh.pushFluid(fluidFromCell, true) == fluidFromCell.amount) {
                    aBaseMetaTileEntity.decrStackSize(this.getInputSlot(), 1);
                }
            }
            // Handle filling containers. This will use the selected T.F.F.T fluid
            final ItemStack cellFromFluid = GT_Utility.fillFluidContainer(
                    mfh.getFluid(mfh.getSelectedFluid()), super.mInventory[super.getInputSlot()], false, true);
            // Check if cell is not null and if there is space for the filled container
            if (cellFromFluid != null && aBaseMetaTileEntity.addStackToSlot(super.getOutputSlot(), cellFromFluid, 1)) {
                // Convert back to FluidStack to learn the container capacity...
                final FluidStack fluidCapacityStack = GT_Utility.getFluidForFilledItem(cellFromFluid, true);
                // Consume one empty container if it was filled successfully
                if(mfh.pullFluid(fluidCapacityStack, true) == fluidCapacityStack.amount) {
                    aBaseMetaTileEntity.decrStackSize(this.getInputSlot(), 1);
                }
            }
        }
    }

    @Override
    public int fill(ForgeDirection from, FluidStack resource, boolean doFill) {
        return (mfh != null) ? mfh.pushFluid(resource, doFill) : 0;
    }

    @Override
    public FluidStack drain(ForgeDirection from, FluidStack resource, boolean doDrain) {
        return (mfh != null) ? new FluidStack(resource.getFluid(), mfh.pullFluid(resource, doDrain)) : null;
    }

    /**
     * Drains fluid out of 0th internal tank.
     * If the TFFT Controller contains an Integrated Circuit, drain fluid
     * from the slot equal to the circuit configuration.
     *
     * @param from
     *            Orientation the fluid is drained to.
     * @param maxDrain
     *            Maximum amount of fluid to drain.
     * @param doDrain
     *            If false, drain will only be simulated.
     * @return FluidStack representing the Fluid and amount that was (or would have been, if
     *         simulated) drained.
     */
    @Override
    public FluidStack drain(ForgeDirection from, int maxDrain, boolean doDrain) {
        if(mfh != null) {
            final FluidStack drain = mfh.getFluid(0);
            if(drain != null) {
                // If there's no integrated circuit in the T.F.F.T. controller, output slot 0
                final byte selectedSlot = (mfh.getSelectedFluid() == -1) ? 0 : mfh.getSelectedFluid();

                return new FluidStack(
                        drain.getFluid(),
                        mfh.pullFluid(new FluidStack(drain.getFluid(), maxDrain), selectedSlot, doDrain)
                );
            }
        }
        return null;
    }

    @Override
    public boolean allowPullStack(IGregTechTileEntity aBaseMetaTileEntity, int aIndex, byte aSide, ItemStack aStack) {
        return aSide == aBaseMetaTileEntity.getFrontFacing() && aIndex == super.getOutputSlot();
    }

    @Override
    public boolean allowPutStack(IGregTechTileEntity aBaseMetaTileEntity, int aIndex, byte aSide, ItemStack aStack) {
        return aSide == aBaseMetaTileEntity.getFrontFacing() && aIndex == super.getInputSlot();
    }

}