package com.hbm.tileentity.machine; import java.util.ArrayList; import java.util.List; import com.hbm.blocks.BlockDummyable; import com.hbm.interfaces.IFluidAcceptor; import com.hbm.interfaces.IFluidContainer; import com.hbm.interfaces.IFluidSource; import com.hbm.inventory.fluid.FluidType; import com.hbm.inventory.fluid.Fluids; import com.hbm.inventory.fluid.tank.FluidTank; import com.hbm.inventory.recipes.MachineRecipes; import com.hbm.lib.Library; import com.hbm.tileentity.TileEntityMachineBase; import api.hbm.energy.IEnergyGenerator; import cpw.mods.fml.relauncher.Side; import cpw.mods.fml.relauncher.SideOnly; import net.minecraft.nbt.NBTTagCompound; import net.minecraft.tileentity.TileEntity; import net.minecraft.util.AxisAlignedBB; import net.minecraftforge.common.util.ForgeDirection; public class TileEntityMachineLargeTurbine extends TileEntityMachineBase implements IFluidContainer, IFluidAcceptor, IFluidSource, IEnergyGenerator { public long power; public static final long maxPower = 100000000; public int age = 0; public List list2 = new ArrayList(); public FluidTank[] tanks; private boolean shouldTurn; public float rotor; public float lastRotor; public float fanAcceleration = 0F; public TileEntityMachineLargeTurbine() { super(7); tanks = new FluidTank[2]; tanks[0] = new FluidTank(Fluids.STEAM, 512000, 0); tanks[1] = new FluidTank(Fluids.SPENTSTEAM, 10240000, 1); } @Override public String getName() { return "container.machineLargeTurbine"; } @Override public void updateEntity() { if(!worldObj.isRemote) { age++; if(age >= 2) { age = 0; } fillFluidInit(tanks[1].getTankType()); ForgeDirection dir = ForgeDirection.getOrientation(this.getBlockMetadata() - BlockDummyable.offset); this.sendPower(worldObj, xCoord + dir.offsetX * -4, yCoord, zCoord + dir.offsetZ * -4, dir.getOpposite()); tanks[0].setType(0, 1, slots); tanks[0].loadTank(2, 3, slots); power = Library.chargeItemsFromTE(slots, 4, power, maxPower); boolean operational = false; Object[] outs = MachineRecipes.getTurbineOutput(tanks[0].getTankType()); if(outs == null) { tanks[1].setTankType(Fluids.NONE); } else { tanks[1].setTankType((FluidType) outs[0]); int processMax = (int) Math.ceil(Math.ceil(tanks[0].getFill() / 5F) / (Integer)outs[2]); //the maximum amount of cycles based on the 20% cap int processSteam = tanks[0].getFill() / (Integer)outs[2]; //the maximum amount of cycles depending on steam int processWater = (tanks[1].getMaxFill() - tanks[1].getFill()) / (Integer)outs[1]; //the maximum amount of cycles depending on water int cycles = Math.min(processMax, Math.min(processSteam, processWater)); tanks[0].setFill(tanks[0].getFill() - (Integer)outs[2] * cycles); tanks[1].setFill(tanks[1].getFill() + (Integer)outs[1] * cycles); power += ((Integer)outs[3] * cycles) * 1.25; //yields a 25% power conversion bonus if(power > maxPower) power = maxPower; if(cycles > 0) operational = true; } tanks[1].unloadTank(5, 6, slots); for(int i = 0; i < 2; i++) tanks[i].updateTank(xCoord, yCoord, zCoord, worldObj.provider.dimensionId); NBTTagCompound data = new NBTTagCompound(); data.setLong("power", power); data.setBoolean("operational", operational); this.networkPack(data, 50); } else { this.lastRotor = this.rotor; this.rotor += this.fanAcceleration; if(this.rotor >= 360) { this.rotor -= 360; this.lastRotor -= 360; } if(shouldTurn) { this.fanAcceleration = Math.max(0F, Math.min(15F, this.fanAcceleration += 0.1F)); } if(!shouldTurn) { this.fanAcceleration = Math.max(0F, Math.min(15F, this.fanAcceleration -= 0.1F)); } } } public void networkUnpack(NBTTagCompound data) { this.power = data.getLong("power"); this.shouldTurn = data.getBoolean("operational"); } public long getPowerScaled(int i) { return (power * i) / maxPower; } @Override public void readFromNBT(NBTTagCompound nbt) { super.readFromNBT(nbt); tanks[0].readFromNBT(nbt, "water"); tanks[1].readFromNBT(nbt, "steam"); power = nbt.getLong("power"); } @Override public void writeToNBT(NBTTagCompound nbt) { super.writeToNBT(nbt); tanks[0].writeToNBT(nbt, "water"); tanks[1].writeToNBT(nbt, "steam"); nbt.setLong("power", power); } @Override public void fillFluidInit(FluidType type) { ForgeDirection dir = ForgeDirection.getOrientation(this.getBlockMetadata() - BlockDummyable.offset); dir = dir.getRotation(ForgeDirection.UP); fillFluid(xCoord + dir.offsetX * 2, yCoord, zCoord + dir.offsetZ * 2, getTact(), type); fillFluid(xCoord + dir.offsetX * -2, yCoord, zCoord + dir.offsetZ * -2, getTact(), type); } @Override public void fillFluid(int x, int y, int z, boolean newTact, FluidType type) { Library.transmitFluid(x, y, z, newTact, this, worldObj, type); } @Override public boolean getTact() { if(age == 0) { return true; } return false; } @Override public void setFluidFill(int i, FluidType type) { if(type.name().equals(tanks[0].getTankType().name())) tanks[0].setFill(i); else if(type.name().equals(tanks[1].getTankType().name())) tanks[1].setFill(i); } @Override public int getFluidFill(FluidType type) { if(type.name().equals(tanks[0].getTankType().name())) return tanks[0].getFill(); else if(type.name().equals(tanks[1].getTankType().name())) return tanks[1].getFill(); return 0; } @Override public int getMaxFluidFill(FluidType type) { if(type.name().equals(tanks[0].getTankType().name())) return tanks[0].getMaxFill(); return 0; } @Override public void setFillForSync(int fill, int index) { if(index < 2 && tanks[index] != null) tanks[index].setFill(fill); } @Override public void setTypeForSync(FluidType type, int index) { if(index < 2 && tanks[index] != null) tanks[index].setTankType(type); } @Override public List getFluidList(FluidType type) { return list2; } @Override public void clearFluidList(FluidType type) { list2.clear(); } @Override public long getPower() { return power; } @Override public void setPower(long i) { this.power = i; } @Override public long getMaxPower() { return this.maxPower; } @Override public AxisAlignedBB getRenderBoundingBox() { return TileEntity.INFINITE_EXTENT_AABB; } @Override @SideOnly(Side.CLIENT) public double getMaxRenderDistanceSquared() { return 65536.0D; } }