package de.ellpeck.actuallyadditions.mod.tile; import de.ellpeck.actuallyadditions.api.ActuallyAdditionsAPI; import de.ellpeck.actuallyadditions.api.recipe.OilGenRecipe; import de.ellpeck.actuallyadditions.mod.config.values.ConfigIntListValues; import de.ellpeck.actuallyadditions.mod.util.Util; import net.minecraft.nbt.NBTTagCompound; import net.minecraft.tileentity.TileEntity; import net.minecraft.util.EnumFacing; import net.minecraftforge.energy.IEnergyStorage; import net.minecraftforge.fluids.Fluid; import net.minecraftforge.fluids.FluidStack; import net.minecraftforge.fluids.FluidTank; import net.minecraftforge.fluids.capability.IFluidHandler; import net.minecraftforge.fml.relauncher.Side; import net.minecraftforge.fml.relauncher.SideOnly; public class TileEntityOilGenerator extends TileEntityBase implements ISharingEnergyProvider, ISharingFluidHandler { int[] i = ConfigIntListValues.OIL_POWER.getValue(); public final CustomEnergyStorage storage = new CustomEnergyStorage(50000, 0, Math.max(Math.max(this.i[0], this.i[1]), Math.max(this.i[2], this.i[3])) + 20); public final FluidTank tank = new FluidTank(2 * Util.BUCKET) { @Override public boolean canDrain() { return false; } @Override public boolean canFillFluidType(FluidStack stack) { Fluid fluid = stack == null ? null : stack.getFluid(); return fluid != null && getRecipeForFluid(fluid.getName()) != null; } }; public int currentEnergyProduce; public int currentBurnTime; public int maxBurnTime; private int lastEnergy; private int lastTank; private int lastBurnTime; private int lastMaxBurnTime; private int lastEnergyProduce; private int lastCompare; public TileEntityOilGenerator() { super("oilGenerator"); } private static OilGenRecipe getRecipeForFluid(String fluidName) { if (fluidName != null) { for (OilGenRecipe recipe : ActuallyAdditionsAPI.OIL_GENERATOR_RECIPES) { if (recipe != null && fluidName.equals(recipe.fluidName)) { return recipe; } } } return null; } @SideOnly(Side.CLIENT) public int getBurningScaled(int i) { return this.currentBurnTime * i / this.maxBurnTime; } private OilGenRecipe getRecipeForCurrentFluid() { FluidStack stack = this.tank.getFluid(); if (stack != null) { Fluid fluid = stack.getFluid(); if (fluid != null) { return getRecipeForFluid(fluid.getName()); } } return null; } @Override public void writeSyncableNBT(NBTTagCompound compound, NBTType type) { if (type != NBTType.SAVE_BLOCK) { compound.setInteger("BurnTime", this.currentBurnTime); compound.setInteger("CurrentEnergy", this.currentEnergyProduce); compound.setInteger("MaxBurnTime", this.maxBurnTime); } this.storage.writeToNBT(compound); this.tank.writeToNBT(compound); super.writeSyncableNBT(compound, type); } @Override public void readSyncableNBT(NBTTagCompound compound, NBTType type) { if (type != NBTType.SAVE_BLOCK) { this.currentBurnTime = compound.getInteger("BurnTime"); this.currentEnergyProduce = compound.getInteger("CurrentEnergy"); this.maxBurnTime = compound.getInteger("MaxBurnTime"); } this.storage.readFromNBT(compound); this.tank.readFromNBT(compound); super.readSyncableNBT(compound, type); } @Override public void updateEntity() { super.updateEntity(); if (!this.world.isRemote) { boolean flag = this.currentBurnTime > 0; if (this.currentBurnTime > 0 && this.currentEnergyProduce > 0) { this.currentBurnTime--; this.storage.receiveEnergyInternal(this.currentEnergyProduce, false); } else if (!this.isRedstonePowered) { int fuelUsed = 50; OilGenRecipe recipe = this.getRecipeForCurrentFluid(); if (recipe != null && this.storage.getEnergyStored() < this.storage.getMaxEnergyStored() && this.tank.getFluidAmount() >= fuelUsed) { this.currentEnergyProduce = recipe.genAmount; this.maxBurnTime = recipe.genTime; this.currentBurnTime = this.maxBurnTime; this.tank.drainInternal(fuelUsed, true); } else { this.currentEnergyProduce = 0; this.currentBurnTime = 0; this.maxBurnTime = 0; } } if (flag != this.currentBurnTime > 0 || this.lastCompare != this.getComparatorStrength()) { this.lastCompare = this.getComparatorStrength(); this.markDirty(); } if ((this.storage.getEnergyStored() != this.lastEnergy || this.tank.getFluidAmount() != this.lastTank || this.lastBurnTime != this.currentBurnTime || this.lastEnergyProduce != this.currentEnergyProduce || this.lastMaxBurnTime != this.maxBurnTime) && this.sendUpdateWithInterval()) { this.lastEnergy = this.storage.getEnergyStored(); this.lastTank = this.tank.getFluidAmount(); this.lastBurnTime = this.currentBurnTime; this.lastEnergyProduce = this.currentEnergyProduce; this.lastMaxBurnTime = this.maxBurnTime; } } } @Override public int getComparatorStrength() { float calc = (float) this.storage.getEnergyStored() / (float) this.storage.getMaxEnergyStored() * 15F; return (int) calc; } @Override public IFluidHandler getFluidHandler(EnumFacing facing) { return this.tank; } @Override public int getMaxFluidAmountToSplitShare() { return 0; } @Override public boolean doesShareFluid() { return false; } @Override public EnumFacing[] getFluidShareSides() { return null; } @Override public int getEnergyToSplitShare() { return this.storage.getEnergyStored(); } @Override public boolean doesShareEnergy() { return true; } @Override public EnumFacing[] getEnergyShareSides() { return EnumFacing.values(); } @Override public boolean canShareTo(TileEntity tile) { return true; } @Override public IEnergyStorage getEnergyStorage(EnumFacing facing) { return this.storage; } }