package techreborn.tiles.multiblock; import net.minecraft.block.state.IBlockState; import net.minecraft.entity.player.EntityPlayer; import net.minecraft.init.Blocks; import net.minecraft.init.Items; import net.minecraft.inventory.ISidedInventory; import net.minecraft.item.ItemStack; import net.minecraft.nbt.NBTTagCompound; import net.minecraft.util.EnumFacing; import net.minecraft.util.math.BlockPos; import net.minecraftforge.common.capabilities.Capability; import net.minecraftforge.fluids.*; import net.minecraftforge.fluids.capability.CapabilityFluidHandler; import net.minecraftforge.oredict.OreDictionary; import reborncore.api.IListInfoProvider; import reborncore.api.power.EnumPowerTier; import reborncore.api.tile.IInventoryProvider; import reborncore.common.IWrenchable; import reborncore.common.powerSystem.TilePowerAcceptor; import reborncore.common.util.FluidUtils; import reborncore.common.util.Inventory; import reborncore.common.util.Tank; import techreborn.init.ModBlocks; import techreborn.init.ModFluids; import techreborn.items.ItemDusts; import java.util.Random; import static techreborn.tiles.multiblock.MultiblockChecker.CASING_NORMAL; import static techreborn.tiles.multiblock.MultiblockChecker.CASING_REINFORCED; import static techreborn.tiles.multiblock.MultiblockChecker.ZERO_OFFSET; public class TileIndustrialSawmill extends TilePowerAcceptor implements IWrenchable, IInventoryProvider, ISidedInventory, IListInfoProvider { public Inventory inventory = new Inventory(5, "Sawmill", 64, this); public Tank tank = new Tank("Sawmill", 16000, this); public int tickTime; public MultiblockChecker multiblockChecker; public TileIndustrialSawmill() { super(2); } @Override public void update() { super.update(); if (getMutliBlock()) { ItemStack wood = inventory.getStackInSlot(0); if (tickTime == 0) { if (wood != null) { for (int id : OreDictionary.getOreIDs(wood)) { String name = OreDictionary.getOreName(id); if (name.equals("logWood") && canAddOutput(2, 10) && canAddOutput(3, 5) && canAddOutput(4, 3) && canUseEnergy(128.0F) && !tank.isEmpty() && tank.getFluid().amount >= 1000) { wood.shrink(1); if (wood.getCount() == 0) setInventorySlotContents(0, ItemStack.EMPTY); tank.drain(1000, true); useEnergy(128.0F); tickTime = 1; } } } } else if (++tickTime > 100) { Random rnd = world.rand; addOutput(2, new ItemStack(Blocks.PLANKS, 6 + rnd.nextInt(4))); if (rnd.nextInt(4) != 0) { ItemStack pulp = ItemDusts.getDustByName("sawDust", 2 + rnd.nextInt(3)); addOutput(3, pulp); } if (rnd.nextInt(3) == 0) { ItemStack paper = new ItemStack(Items.PAPER, 1 + rnd.nextInt(2)); addOutput(4, paper); } tickTime = 0; } } FluidUtils.drainContainers(tank, inventory, 1, 4); } public void addOutput(int slot, ItemStack stack) { if (getStackInSlot(slot) == ItemStack.EMPTY) setInventorySlotContents(slot, stack); getStackInSlot(slot).grow(stack.getCount()); } public boolean canAddOutput(int slot, int amount) { ItemStack stack = getStackInSlot(slot); return stack == ItemStack.EMPTY || getInventoryStackLimit() - stack.getCount() >= amount; } @Override public void validate() { super.validate(); multiblockChecker = new MultiblockChecker(world, getPos().down(3)); } public boolean getMutliBlock() { boolean down = multiblockChecker.checkRectY(1, 1, CASING_NORMAL, ZERO_OFFSET); boolean up = multiblockChecker.checkRectY(1, 1, CASING_NORMAL, new BlockPos(0, 2, 0)); boolean blade = multiblockChecker.checkRingY(1, 1, CASING_REINFORCED, new BlockPos(0, 1, 0)); IBlockState centerBlock = multiblockChecker.getBlock(0, 1, 0); boolean center = centerBlock.getBlock() == Blocks.WATER; return down && center && blade && up; } @Override public boolean wrenchCanSetFacing(EntityPlayer entityPlayer, EnumFacing side) { return false; } @Override public EnumFacing getFacing() { return getFacingEnum(); } @Override public boolean wrenchCanRemove(EntityPlayer entityPlayer) { return entityPlayer.isSneaking(); } @Override public float getWrenchDropRate() { return 1.0F; } @Override public ItemStack getWrenchDrop(EntityPlayer entityPlayer) { return new ItemStack(ModBlocks.industrialSawmill, 1); } @Override public void readFromNBT(NBTTagCompound tagCompound) { super.readFromNBT(tagCompound); tank.readFromNBT(tagCompound); tickTime = tagCompound.getInteger("tickTime"); } @Override public NBTTagCompound writeToNBT(NBTTagCompound tagCompound) { super.writeToNBT(tagCompound); tank.writeToNBT(tagCompound); tagCompound.setInteger("tickTime", tickTime); return tagCompound; } @Override public boolean hasCapability(Capability capability, EnumFacing facing) { if(capability == CapabilityFluidHandler.FLUID_HANDLER_CAPABILITY){ return true; } return super.hasCapability(capability, facing); } @Override public T getCapability(Capability capability, EnumFacing facing) { if(capability == CapabilityFluidHandler.FLUID_HANDLER_CAPABILITY){ return (T) tank; } return super.getCapability(capability, facing); } @Override public int[] getSlotsForFace(EnumFacing side) { return new int[] { 0, 2, 3, 4, 5 }; } @Override public boolean canInsertItem(int index, ItemStack itemStackIn, EnumFacing direction) { return index == 0; } @Override public boolean canExtractItem(int index, ItemStack stack, EnumFacing direction) { return index >= 2; } public int getProgressScaled(int scale) { if (tickTime != 0) { return tickTime * scale / 100; } return 0; } @Override public double getMaxPower() { return 64000; } @Override public boolean canAcceptEnergy(EnumFacing direction) { return true; } @Override public boolean canProvideEnergy(EnumFacing direction) { return false; } @Override public double getMaxOutput() { return 0; } @Override public double getMaxInput() { return 64; } @Override public EnumPowerTier getTier() { return EnumPowerTier.MEDIUM; } @Override public Inventory getInventory() { return inventory; } }