package techreborn.tiles; import ic2.api.item.ElectricItem; import ic2.api.item.IElectricItem; import ic2.api.tile.IWrenchable; import net.minecraft.entity.player.EntityPlayer; import net.minecraft.inventory.Container; import net.minecraft.inventory.IInventory; import net.minecraft.inventory.InventoryCrafting; import net.minecraft.item.ItemStack; import net.minecraft.nbt.NBTTagCompound; import net.minecraftforge.common.util.ForgeDirection; import reborncore.common.util.Inventory; import reborncore.common.util.ItemUtils; import techreborn.api.RollingMachineRecipe; import techreborn.init.ModBlocks; import techreborn.powerSystem.TilePowerAcceptor; //TODO add tick and power bars. public class TileRollingMachine extends TilePowerAcceptor implements IWrenchable, IInventory { public Inventory inventory = new Inventory(3, "TileRollingMachine", 64); public final InventoryCrafting craftMatrix = new InventoryCrafting( new RollingTileContainer(), 3, 3); public boolean isRunning; public int tickTime; public int runTime = 250; public ItemStack currentRecipe; public int euTick = 5; @Override public double getMaxPower() { return 100000; } public void charge(int slot) { if(getStackInSlot(slot) != null) { if(getStackInSlot(slot).getItem() instanceof IElectricItem) { if(getEnergy() != getMaxPower()) { ItemStack stack = inventory.getStackInSlot(slot); double MaxCharge = ((IElectricItem) stack.getItem()).getMaxCharge(stack); double CurrentCharge = ElectricItem.manager.getCharge(stack); if (CurrentCharge != 0) { ElectricItem.manager.discharge(stack, 5, 4, false, false, false); addEnergy(5); } } } } } @Override public boolean canAcceptEnergy(ForgeDirection direction) { return true; } @Override public boolean canProvideEnergy(ForgeDirection direction) { return false; } @Override public double getMaxOutput() { return 0; } @Override public double getMaxInput() { return 64; } private static class RollingTileContainer extends Container { @Override public boolean canInteractWith(EntityPlayer entityplayer) { return true; } } public TileRollingMachine() { super(1); } @Override public void updateEntity() { super.updateEntity(); charge(2); if (!worldObj.isRemote) { currentRecipe = RollingMachineRecipe.instance.findMatchingRecipe( craftMatrix, worldObj); if (currentRecipe != null && canMake()) { if (tickTime >= runTime) { currentRecipe = RollingMachineRecipe.instance .findMatchingRecipe(craftMatrix, worldObj); if (currentRecipe != null) { boolean hasCrafted = false; if (inventory.getStackInSlot(0) == null) { inventory .setInventorySlotContents(0, currentRecipe); tickTime = 0; hasCrafted = true; } else { if (inventory.getStackInSlot(0).stackSize + currentRecipe.stackSize <= currentRecipe .getMaxStackSize()) { ItemStack stack = inventory.getStackInSlot(0); stack.stackSize = stack.stackSize + currentRecipe.stackSize; inventory.setInventorySlotContents(0, stack); tickTime = 0; hasCrafted = true; } } if (hasCrafted) { for (int i = 0; i < craftMatrix.getSizeInventory(); i++) { craftMatrix.decrStackSize(i, 1); } currentRecipe = null; } } } } if (currentRecipe != null) { if (canUseEnergy(euTick) && tickTime < runTime) { useEnergy(euTick); tickTime++; } } if (currentRecipe == null) { tickTime = 0; } } else { currentRecipe = RollingMachineRecipe.instance.findMatchingRecipe( craftMatrix, worldObj); if (currentRecipe != null) { inventory.setInventorySlotContents(1, currentRecipe); } else { inventory.setInventorySlotContents(1, null); } } } public boolean canMake() { if (RollingMachineRecipe.instance.findMatchingRecipe(craftMatrix, worldObj) == null) { return false; } return true; } @Override public boolean wrenchCanSetFacing(EntityPlayer entityPlayer, int side) { return false; } @Override public short getFacing() { return 0; } @Override public void setFacing(short facing) { } @Override public boolean wrenchCanRemove(EntityPlayer entityPlayer) { if (entityPlayer.isSneaking()) { return true; } return false; } @Override public float getWrenchDropRate() { return 1.0F; } @Override public ItemStack getWrenchDrop(EntityPlayer entityPlayer) { return new ItemStack(ModBlocks.RollingMachine, 1); } @Override public void readFromNBT(NBTTagCompound tagCompound) { super.readFromNBT(tagCompound); inventory.readFromNBT(tagCompound); ItemUtils.readInvFromNBT(craftMatrix, "Crafting", tagCompound); isRunning = tagCompound.getBoolean("isRunning"); tickTime = tagCompound.getInteger("tickTime"); } @Override public void writeToNBT(NBTTagCompound tagCompound) { super.writeToNBT(tagCompound); inventory.writeToNBT(tagCompound); ItemUtils.writeInvToNBT(craftMatrix, "Crafting", tagCompound); writeUpdateToNBT(tagCompound); } public void writeUpdateToNBT(NBTTagCompound tagCompound) { tagCompound.setBoolean("isRunning", isRunning); tagCompound.setInteger("tickTime", tickTime); } @Override public void invalidate() { super.invalidate(); } @Override public void onChunkUnload() { super.onChunkUnload(); } @Override public int getSizeInventory() { return inventory.getSizeInventory(); } @Override public ItemStack getStackInSlot(int slot) { return inventory.getStackInSlot(slot); } @Override public ItemStack decrStackSize(int slot, int amount) { return inventory.decrStackSize(slot, amount); } @Override public ItemStack getStackInSlotOnClosing(int slot) { return inventory.getStackInSlotOnClosing(slot); } @Override public void setInventorySlotContents(int slot, ItemStack stack) { inventory.setInventorySlotContents(slot, stack); } @Override public String getInventoryName() { return inventory.getInventoryName(); } @Override public boolean hasCustomInventoryName() { return inventory.hasCustomInventoryName(); } @Override public int getInventoryStackLimit() { return inventory.getInventoryStackLimit(); } @Override public boolean isUseableByPlayer(EntityPlayer player) { return inventory.isUseableByPlayer(player); } @Override public void openInventory() { inventory.openInventory(); } @Override public void closeInventory() { inventory.closeInventory(); } @Override public boolean isItemValidForSlot(int slot, ItemStack stack) { return inventory.isItemValidForSlot(slot, stack); } }