package techreborn.tiles; import net.minecraft.entity.player.EntityPlayer; import net.minecraft.inventory.ISidedInventory; import net.minecraft.item.ItemStack; import net.minecraft.util.EnumFacing; import reborncore.api.power.EnumPowerTier; import reborncore.api.power.IEnergyInterfaceItem; import reborncore.api.tile.IInventoryProvider; import reborncore.common.IWrenchable; import reborncore.common.powerSystem.TilePowerAcceptor; import reborncore.common.util.Inventory; import techreborn.client.container.IContainerProvider; import techreborn.client.container.builder.BuiltContainer; import techreborn.client.container.builder.ContainerBuilder; import techreborn.init.ModBlocks; public class TileChargeBench extends TilePowerAcceptor implements IWrenchable, IInventoryProvider, ISidedInventory, IContainerProvider { public Inventory inventory = new Inventory(6, "TileChargeBench", 64, this); public int capacity = 100000; public TileChargeBench() { super(4); } @Override public void updateEntity() { super.updateEntity(); for (int i = 0; i < 6; i++) { if (this.inventory.getStackInSlot(i) != ItemStack.EMPTY) { if (this.getEnergy() > 0) { final ItemStack stack = this.inventory.getStackInSlot(i); if (stack.getItem() instanceof IEnergyInterfaceItem) { final IEnergyInterfaceItem interfaceItem = (IEnergyInterfaceItem) stack.getItem(); final double trans = Math.min(interfaceItem.getMaxPower(stack) - interfaceItem.getEnergy(stack), Math.min(interfaceItem.getMaxTransfer(stack), this.getEnergy())); interfaceItem.setEnergy(trans + interfaceItem.getEnergy(stack), stack); this.useEnergy(trans); } } } } } @Override public boolean wrenchCanSetFacing(final EntityPlayer entityPlayer, final EnumFacing side) { return false; } @Override public EnumFacing getFacing() { return this.getFacingEnum(); } @Override public boolean wrenchCanRemove(final EntityPlayer entityPlayer) { return entityPlayer.isSneaking(); } @Override public float getWrenchDropRate() { return 1.0F; } @Override public ItemStack getWrenchDrop(final EntityPlayer entityPlayer) { return new ItemStack(ModBlocks.CHARGE_O_MAT, 1); } public boolean isComplete() { return false; } // ISidedInventory @Override public int[] getSlotsForFace(final EnumFacing side) { return side == EnumFacing.DOWN ? new int[] { 0, 1, 2, 3, 4, 5 } : new int[] { 0, 1, 2, 3, 4, 5 }; } @Override public boolean canInsertItem(final int slotIndex, final ItemStack itemStack, final EnumFacing side) { return this.isItemValidForSlot(slotIndex, itemStack); } @Override public boolean canExtractItem(final int slotIndex, final ItemStack itemStack, final EnumFacing side) { // if (itemStack.getItem() instanceof IElectricItem) { // double CurrentCharge = ElectricItem.manager.getCharge(itemStack); // double MaxCharge = ((IElectricItem) // itemStack.getItem()).getMaxCharge(itemStack); // if (CurrentCharge == MaxCharge) // return true; // } return false; } @Override public double getMaxPower() { return this.capacity; } @Override public boolean canAcceptEnergy(final EnumFacing direction) { return true; } @Override public boolean canProvideEnergy(final EnumFacing direction) { return false; } @Override public double getMaxOutput() { return 0; } @Override public double getMaxInput() { return 512; } @Override public EnumPowerTier getTier() { return EnumPowerTier.MEDIUM; } @Override public Inventory getInventory() { return this.inventory; } @Override public BuiltContainer createContainer(final EntityPlayer player) { return new ContainerBuilder("chargebench").player(player.inventory).inventory().hotbar().addInventory() .tile(this).energySlot(0, 62, 25).energySlot(1, 98, 25).energySlot(2, 62, 45).energySlot(3, 98, 45) .energySlot(4, 62, 65).energySlot(5, 98, 65).syncEnergyValue().addInventory().create(); } }