public static ItemStack insertStackIntoInventory( IInventory inventory, ItemStack stack, int side) { if (stack == null || inventory == null) return null; int stackSize = stack.stackSize; if (inventory instanceof ISidedInventory) { ISidedInventory sidedInv = (ISidedInventory) inventory; int slots[] = sidedInv.getAccessibleSlotsFromSide(side); if (slots == null) return stack; for (int i = 0; i < slots.length && stack != null; i++) { if (sidedInv.canInsertItem(slots[i], stack, side)) { ItemStack existingStack = inventory.getStackInSlot(slots[i]); if (OreDictionary.itemMatches(existingStack, stack, true) && ItemStack.areItemStackTagsEqual(stack, existingStack)) stack = addToOccupiedSlot(sidedInv, slots[i], stack, existingStack); } } for (int i = 0; i < slots.length && stack != null; i++) if (inventory.getStackInSlot(slots[i]) == null && sidedInv.canInsertItem(slots[i], stack, side)) stack = addToEmptyInventorySlot(sidedInv, slots[i], stack); } else { int invSize = inventory.getSizeInventory(); for (int i = 0; i < invSize && stack != null; i++) { ItemStack existingStack = inventory.getStackInSlot(i); if (OreDictionary.itemMatches(existingStack, stack, true) && ItemStack.areItemStackTagsEqual(stack, existingStack)) stack = addToOccupiedSlot(inventory, i, stack, existingStack); } for (int i = 0; i < invSize && stack != null; i++) if (inventory.getStackInSlot(i) == null) stack = addToEmptyInventorySlot(inventory, i, stack); } if (stack == null || stack.stackSize != stackSize) inventory.markDirty(); return stack; }
public static boolean canInsertStackIntoInventory( IInventory inventory, ItemStack stack, int side) { if (stack == null || inventory == null) return false; if (inventory instanceof ISidedInventory) { ISidedInventory sidedInv = (ISidedInventory) inventory; int slots[] = sidedInv.getAccessibleSlotsFromSide(side); if (slots == null) return false; for (int i = 0; i < slots.length && stack != null; i++) { if (sidedInv.canInsertItem(slots[i], stack, side) && sidedInv.isItemValidForSlot(slots[i], stack)) { ItemStack existingStack = inventory.getStackInSlot(slots[i]); if (existingStack == null) return true; else if (OreDictionary.itemMatches(existingStack, stack, true) && ItemStack.areItemStackTagsEqual(stack, existingStack)) if (existingStack.stackSize + stack.stackSize < inventory.getInventoryStackLimit() && existingStack.stackSize + stack.stackSize < existingStack.getMaxStackSize()) return true; } } } else { int invSize = inventory.getSizeInventory(); for (int i = 0; i < invSize && stack != null; i++) if (inventory.isItemValidForSlot(i, stack)) { ItemStack existingStack = inventory.getStackInSlot(i); if (existingStack == null) return true; else if (OreDictionary.itemMatches(existingStack, stack, true) && ItemStack.areItemStackTagsEqual(stack, existingStack)) if (existingStack.stackSize + stack.stackSize < inventory.getInventoryStackLimit() && existingStack.stackSize + stack.stackSize < existingStack.getMaxStackSize()) return true; } } return false; }
public static InvStack takeTopStack(IInventory inventory, int side) { if (!(inventory instanceof ISidedInventory)) { inventory = checkChestInv(inventory); for (int i = inventory.getSizeInventory() - 1; i >= 0; i--) { if (inventory.getStackInSlot(i) != null) { ItemStack toSend = inventory.getStackInSlot(i).copy(); return new InvStack(inventory, i, toSend); } } } else { ISidedInventory sidedInventory = (ISidedInventory) inventory; int[] slots = sidedInventory.getAccessibleSlotsFromSide( ForgeDirection.getOrientation(side).getOpposite().ordinal()); if (slots != null && slots.length != 0) { for (int get = slots.length - 1; get >= 0; get--) { int slotID = slots[get]; if (sidedInventory.getStackInSlot(slotID) != null) { ItemStack toSend = sidedInventory.getStackInSlot(slotID); if (sidedInventory.canExtractItem( slotID, toSend, ForgeDirection.getOrientation(side).getOpposite().ordinal())) { return new InvStack(inventory, slotID, toSend); } } } } } return null; }
/** Inserts a stack into an inventory. Args: Inventory, stack, side. Returns leftover items. */ public static ItemStack insertStack( IInventory par0IInventory, ItemStack par1ItemStack, int par2) { if (par0IInventory instanceof ISidedInventory && par2 > -1) { ISidedInventory isidedinventory = (ISidedInventory) par0IInventory; int[] aint = isidedinventory.getAccessibleSlotsFromSide(par2); for (int j = 0; j < aint.length && par1ItemStack != null && par1ItemStack.stackSize > 0; ++j) { par1ItemStack = func_102014_c(par0IInventory, par1ItemStack, aint[j], par2); } } else { int k = par0IInventory.getSizeInventory(); for (int l = 0; l < k && par1ItemStack != null && par1ItemStack.stackSize > 0; ++l) { par1ItemStack = func_102014_c(par0IInventory, par1ItemStack, l, par2); } } if (par1ItemStack != null && par1ItemStack.stackSize == 0) { par1ItemStack = null; } return par1ItemStack; }
@Override public ItemStack pullItem(ForgeDirection side, boolean doPull) { int xo = xCoord + side.offsetX; int yo = yCoord + side.offsetY; int zo = zCoord + side.offsetZ; TileEntity t = worldObj.getBlockTileEntity(xo, yo, zo); if (t instanceof IInventory) { if (t instanceof ISpecialInventory) { ISpecialInventory isi = (ISpecialInventory) t; ItemStack[] items = isi.extractItem(doPull, side.getOpposite(), 1); if (items != null && items.length > 0) return items[0]; } else if (t instanceof ISidedInventory) { ISidedInventory isi = (ISidedInventory) t; int[] slots = isi.getAccessibleSlotsFromSide(side.getOpposite().ordinal()); for (int i = 0; i < slots.length; i++) { ItemStack pulled = isi.getStackInSlot(slots[i]); if (pulled != null && isi.canExtractItem(slots[i], pulled, side.getOpposite().ordinal())) { ItemStack result = null; // pulled.copy().splitStack(1); // pulled.stackSize--; // isi.setInventorySlotContents(slots[i], pulled); // if(pulled.stackSize <= 0) isi.setInventorySlotContents(slots[i], null); if (doPull) { result = isi.decrStackSize(slots[i], 1); isi.onInventoryChanged(); } else { result = pulled.copy().splitStack(1); } return result; } } } else { IInventory ii = (IInventory) t; for (int i = 0; i < ii.getSizeInventory(); i++) { ItemStack pulled = ii.getStackInSlot(i); if (pulled != null) { ItemStack result = null; // pulled.stackSize--; // ii.setInventorySlotContents(i, pulled); // if(pulled.stackSize <= 0)ii.setInventorySlotContents(i, null); if (doPull) { result = ii.decrStackSize(i, 1); ii.onInventoryChanged(); } else { result = pulled.copy().splitStack(1); } return result; } } } } return null; }
public ItemStack checkExtract(IInventory inventory, boolean doRemove, ForgeDirection from) { IInventory inv = Utils.getInventory(inventory); int first = 0; int last = inv.getSizeInventory() - 1; if (inventory instanceof ISidedInventory) { ISidedInventory sidedInv = (ISidedInventory) inventory; int[] accessibleSlots = sidedInv.getAccessibleSlotsFromSide(from.ordinal()); ItemStack result = checkExtractGeneric(inv, doRemove, from, accessibleSlots); return result; } ItemStack result = checkExtractGeneric(inv, doRemove, from, first, last); return result; }
/** Sucks one item into the given hopper from an inventory or EntityItem above it. */ public static boolean suckItemsIntoHopper(Hopper par0Hopper) { IInventory iinventory = getInventoryAboveHopper(par0Hopper); if (iinventory != null) { byte b0 = 0; if (iinventory instanceof ISidedInventory && b0 > -1) { ISidedInventory isidedinventory = (ISidedInventory) iinventory; int[] aint = isidedinventory.getAccessibleSlotsFromSide(b0); for (int i = 0; i < aint.length; ++i) { if (insertStackFromInventory(par0Hopper, iinventory, aint[i], b0)) { return true; } } } else { int j = iinventory.getSizeInventory(); for (int k = 0; k < j; ++k) { if (insertStackFromInventory(par0Hopper, iinventory, k, b0)) { return true; } } } } else { EntityItem entityitem = getEntityAbove( par0Hopper.getWorldObj(), par0Hopper.getXPos(), par0Hopper.getYPos() + 1.0D, par0Hopper.getZPos()); if (entityitem != null) { return insertStackFromEntity(par0Hopper, entityitem); } } return false; }
public static ItemStack takeTopItemFromInventory(IInventory inventory, int side) { if (!(inventory instanceof ISidedInventory)) { for (int i = inventory.getSizeInventory() - 1; i >= 0; i--) { if (inventory.getStackInSlot(i) != null) { ItemStack toSend = inventory.getStackInSlot(i).copy(); toSend.stackSize = 1; inventory.decrStackSize(i, 1); return toSend; } } } else { ISidedInventory sidedInventory = (ISidedInventory) inventory; int[] slots = sidedInventory.getAccessibleSlotsFromSide(side); if (slots != null) { for (int get = slots.length - 1; get >= 0; get--) { int slotID = slots[get]; if (sidedInventory.getStackInSlot(slotID) != null) { ItemStack toSend = sidedInventory.getStackInSlot(slotID); toSend.stackSize = 1; if (sidedInventory.canExtractItem(slotID, toSend, side)) { sidedInventory.decrStackSize(slotID, 1); return toSend; } } } } } return null; }
private void pushToInventories() { int iSide = 0; for (int i = 0; i < 5; i++) { int x = this.xCoord; int y = this.yCoord; int z = this.zCoord; switch (i) { case 0: x++; iSide = 5; break; case 2: z++; iSide = 3; break; case 3: x--; iSide = 4; break; case 4: y--; iSide = 0; break; case 1: z--; iSide = 2; break; } TileEntity tile = this.worldObj.getTileEntity(x, y, z); if (tile == null) { continue; } if (tile != null && tile instanceof ISidedInventory) { ISidedInventory inv = (ISidedInventory) tile; if (inv != null) { int[] slots = inv.getAccessibleSlotsFromSide(Facing.oppositeSide[iSide]); if (slots.length > 0) { for (int j = outputStorage[0]; j < outputStorage[1]; j++) { ItemStack stack = inventory[j]; if (stack == null) { continue; } for (int k : slots) { if (inv.canInsertItem(k, stack, Facing.oppositeSide[iSide])) { ItemStack otherStack = inv.getStackInSlot(k); if (otherStack == null) { inv.setInventorySlotContents(k, stack); inventory[j] = null; } else if (Utils.areItemStacksEqual(stack, otherStack)) { int remain = otherStack.getMaxStackSize() - otherStack.stackSize; if (stack.stackSize <= remain) { otherStack.stackSize += stack.stackSize; inventory[j] = null; } else { otherStack.stackSize += remain; inventory[j].stackSize -= remain; } } } } } } } } else if (tile instanceof IInventory) { for (int j = outputStorage[0]; j <= outputStorage[1]; j++) { ItemStack stack = inventory[j]; if (stack != null) { ItemStack result = Utils.pushStackInInv((IInventory) tile, stack); if (result == null) { inventory[j] = null; } else { inventory[j].stackSize = result.stackSize; } } } } } }
private void pullFromInventories() { TileEntity tile = this.worldObj.getTileEntity(this.xCoord, this.yCoord + 1, this.zCoord); if (tile instanceof ISidedInventory) { final int side = 0; ISidedInventory inv = (ISidedInventory) tile; int[] slots = inv.getAccessibleSlotsFromSide(side); if (slots.length > 0) { for (int i : slots) { ItemStack stack = inv.getStackInSlot(i); if (stack == null) { continue; } if (inv.canExtractItem(i, stack, side)) { if (TileEntityFurnace.isItemFuel(stack) || stack.getItem() == ObjHandler.kleinStars) { if (inventory[0] == null) { inventory[0] = stack; inv.setInventorySlotContents(i, null); } else if (Utils.areItemStacksEqual(stack, inventory[0])) { int remain = inventory[0].getMaxStackSize() - inventory[0].stackSize; if (stack.stackSize <= remain) { inventory[0].stackSize += stack.stackSize; inv.setInventorySlotContents(i, null); } else { inventory[0].stackSize += remain; stack.stackSize -= remain; } } continue; } for (int j = inputStorage[0]; j < inputStorage[1]; j++) { ItemStack otherStack = inventory[j]; if (otherStack == null) { inventory[j] = stack; inv.setInventorySlotContents(i, null); break; } else if (Utils.areItemStacksEqual(stack, otherStack)) { int remain = otherStack.getMaxStackSize() - otherStack.stackSize; if (stack.stackSize <= remain) { inventory[j].stackSize += stack.stackSize; inv.setInventorySlotContents(i, null); break; } else { inventory[j].stackSize += remain; stack.stackSize -= remain; } } } } } } } else if (tile instanceof IInventory) { IInventory inv = (IInventory) tile; for (int i = 0; i < inv.getSizeInventory(); i++) { ItemStack stack = inv.getStackInSlot(i); if (stack == null) { continue; } if (TileEntityFurnace.isItemFuel(stack) || stack.getItem() == ObjHandler.kleinStars) { ItemStack fuel = inventory[0]; if (fuel == null) { inventory[0] = stack; inv.setInventorySlotContents(i, null); } else { int remain = fuel.getMaxStackSize() - fuel.stackSize; if (stack.stackSize <= remain) { inventory[0].stackSize += stack.stackSize; inv.setInventorySlotContents(i, null); } else { inventory[0].stackSize += remain; stack.stackSize -= remain; } } continue; } else if (FurnaceRecipes.smelting().getSmeltingResult(stack) == null) { continue; } for (int j = inputStorage[0]; j < inputStorage[1]; j++) { ItemStack otherStack = inventory[j]; if (otherStack == null) { inventory[j] = stack; inv.setInventorySlotContents(i, null); break; } else if (Utils.areItemStacksEqual(stack, otherStack)) { int remain = otherStack.getMaxStackSize() - otherStack.stackSize; if (stack.stackSize <= remain) { inventory[j].stackSize += stack.stackSize; inv.setInventorySlotContents(i, null); break; } else { inventory[j].stackSize += remain; stack.stackSize -= remain; } } } } } }
public boolean tryInsertItem(ItemStack stack, ForgeDirection side) { int xo = xCoord + side.offsetX; int yo = yCoord + side.offsetY; int zo = zCoord + side.offsetZ; TileEntity t = worldObj.getBlockTileEntity(xo, yo, zo); if (stack == null) return false; if (t instanceof IInventory) { if (t instanceof ISpecialInventory) { ISpecialInventory isi = (ISpecialInventory) t; ItemStack ghost = stack.copy().splitStack(1); int used = isi.addItem(ghost, true, side.getOpposite()); if (used > 0) return true; } else if (t instanceof ISidedInventory) { ISidedInventory isi = (ISidedInventory) t; ItemStack ghost = stack.copy().splitStack(1); int[] slots = isi.getAccessibleSlotsFromSide(side.getOpposite().ordinal()); for (int i = 0; i < slots.length; i++) { if (isi.canInsertItem(slots[i], ghost, side.getOpposite().ordinal())) { ItemStack inSlot = isi.getStackInSlot(slots[i]); if (inSlot != null && inSlot.isItemEqual(ghost) && inSlot.stackSize < inSlot.getMaxStackSize() && inSlot.stackSize < isi.getInventoryStackLimit()) { inSlot.stackSize++; isi.onInventoryChanged(); return true; } } } for (int i = 0; i < slots.length; i++) { if (isi.canInsertItem(slots[i], ghost, side.getOpposite().ordinal())) { ItemStack inSlot = isi.getStackInSlot(slots[i]); if (inSlot == null) { isi.setInventorySlotContents(slots[i], ghost); isi.onInventoryChanged(); return true; } } } return false; } else { IInventory ii = (IInventory) t; ItemStack ghost = stack.copy().splitStack(1); for (int i = 0; i < ii.getSizeInventory(); i++) { if (ii.isItemValidForSlot(i, ghost)) { ItemStack inSlot = ii.getStackInSlot(i); if (inSlot != null && inSlot.isItemEqual(ghost) && inSlot.stackSize < inSlot.getMaxStackSize() && inSlot.stackSize < ii.getInventoryStackLimit()) { inSlot.stackSize++; ii.onInventoryChanged(); return true; } } } for (int i = 0; i < ii.getSizeInventory(); i++) { if (ii.isItemValidForSlot(i, ghost)) { ItemStack inSlot = ii.getStackInSlot(i); if (inSlot == null) { ii.setInventorySlotContents(i, ghost); ii.onInventoryChanged(); return true; } } } return false; } } if (Loader.isModLoaded("BuildCraft|Core") && t != null && stack != null) { if (t instanceof IPipeTile) { IPipeTile p = (IPipeTile) t; if (p.getPipeType() == PipeType.ITEM && p.isPipeConnected(side.getOpposite())) { int res = p.injectItem(stack, false, side.getOpposite()); if (res == stack.stackSize) { p.injectItem(stack, true, side.getOpposite()); stack.stackSize = 0; return true; } } } } return false; }
public static ItemStack putStackInInventory( IInventory inventory, ItemStack itemStack, int side, boolean force) { if (force && inventory instanceof TileEntityLogisticalSorter) { return ((TileEntityLogisticalSorter) inventory).sendHome(itemStack.copy()); } ItemStack toInsert = itemStack.copy(); if (!(inventory instanceof ISidedInventory)) { inventory = checkChestInv(inventory); for (int i = 0; i <= inventory.getSizeInventory() - 1; i++) { if (!force) { if (!inventory.isItemValidForSlot(i, toInsert)) { continue; } } ItemStack inSlot = inventory.getStackInSlot(i); if (inSlot == null) { inventory.setInventorySlotContents(i, toInsert); return null; } else if (inSlot.isItemEqual(toInsert) && inSlot.stackSize < inSlot.getMaxStackSize()) { if (inSlot.stackSize + toInsert.stackSize <= inSlot.getMaxStackSize()) { ItemStack toSet = toInsert.copy(); toSet.stackSize += inSlot.stackSize; inventory.setInventorySlotContents(i, toSet); return null; } else { int rejects = (inSlot.stackSize + toInsert.stackSize) - inSlot.getMaxStackSize(); ItemStack toSet = toInsert.copy(); toSet.stackSize = inSlot.getMaxStackSize(); ItemStack remains = toInsert.copy(); remains.stackSize = rejects; inventory.setInventorySlotContents(i, toSet); toInsert = remains; } } } } else { ISidedInventory sidedInventory = (ISidedInventory) inventory; int[] slots = sidedInventory.getAccessibleSlotsFromSide( ForgeDirection.getOrientation(side).getOpposite().ordinal()); if (slots != null && slots.length != 0) { if (force && sidedInventory instanceof TileEntityBin && ForgeDirection.getOrientation(side).getOpposite().ordinal() == 0) { slots = sidedInventory.getAccessibleSlotsFromSide(1); } for (int get = 0; get <= slots.length - 1; get++) { int slotID = slots[get]; if (!force) { if (!sidedInventory.isItemValidForSlot(slotID, toInsert) && !sidedInventory.canInsertItem( slotID, toInsert, ForgeDirection.getOrientation(side).getOpposite().ordinal())) { continue; } } ItemStack inSlot = inventory.getStackInSlot(slotID); if (inSlot == null) { inventory.setInventorySlotContents(slotID, toInsert); return null; } else if (inSlot.isItemEqual(toInsert) && inSlot.stackSize < inSlot.getMaxStackSize()) { if (inSlot.stackSize + toInsert.stackSize <= inSlot.getMaxStackSize()) { ItemStack toSet = toInsert.copy(); toSet.stackSize += inSlot.stackSize; inventory.setInventorySlotContents(slotID, toSet); return null; } else { int rejects = (inSlot.stackSize + toInsert.stackSize) - inSlot.getMaxStackSize(); ItemStack toSet = toInsert.copy(); toSet.stackSize = inSlot.getMaxStackSize(); ItemStack remains = toInsert.copy(); remains.stackSize = rejects; inventory.setInventorySlotContents(slotID, toSet); toInsert = remains; } } } } } return toInsert; }
public static boolean canInsert( TileEntity tileEntity, EnumColor color, ItemStack itemStack, int side, boolean force) { if (!(tileEntity instanceof IInventory)) { return false; } if (force && tileEntity instanceof TileEntityLogisticalSorter) { return ((TileEntityLogisticalSorter) tileEntity).canSendHome(itemStack); } if (!force && tileEntity instanceof IInvConfiguration) { IInvConfiguration config = (IInvConfiguration) tileEntity; int tileSide = config.getOrientation(); EnumColor configColor = config .getEjector() .getInputColor( ForgeDirection.getOrientation(MekanismUtils.getBaseOrientation(side, tileSide)) .getOpposite()); if (config.getEjector().hasStrictInput() && configColor != null && configColor != color) { return false; } } IInventory inventory = (IInventory) tileEntity; if (!(inventory instanceof ISidedInventory)) { inventory = InventoryUtils.checkChestInv(inventory); for (int i = 0; i <= inventory.getSizeInventory() - 1; i++) { if (!force) { if (!inventory.isItemValidForSlot(i, itemStack)) { continue; } } ItemStack inSlot = inventory.getStackInSlot(i); if (inSlot == null) { return true; } else if (inSlot.isItemEqual(itemStack) && inSlot.stackSize < inSlot.getMaxStackSize()) { if (inSlot.stackSize + itemStack.stackSize <= inSlot.getMaxStackSize()) { return true; } else { int rejects = (inSlot.stackSize + itemStack.stackSize) - inSlot.getMaxStackSize(); if (rejects < itemStack.stackSize) { return true; } } } } } else { ISidedInventory sidedInventory = (ISidedInventory) inventory; int[] slots = sidedInventory.getAccessibleSlotsFromSide( ForgeDirection.getOrientation(side).getOpposite().ordinal()); if (slots != null && slots.length != 0) { if (force && sidedInventory instanceof TileEntityBin && ForgeDirection.getOrientation(side).getOpposite().ordinal() == 0) { slots = sidedInventory.getAccessibleSlotsFromSide(1); } for (int get = 0; get <= slots.length - 1; get++) { int slotID = slots[get]; if (!force) { if (!sidedInventory.isItemValidForSlot(slotID, itemStack) || !sidedInventory.canInsertItem( slotID, itemStack, ForgeDirection.getOrientation(side).getOpposite().ordinal())) { continue; } } ItemStack inSlot = inventory.getStackInSlot(slotID); if (inSlot == null) { return true; } else if (inSlot.isItemEqual(itemStack) && inSlot.stackSize < inSlot.getMaxStackSize()) { if (inSlot.stackSize + itemStack.stackSize <= inSlot.getMaxStackSize()) { return true; } else { int rejects = (inSlot.stackSize + itemStack.stackSize) - inSlot.getMaxStackSize(); if (rejects < itemStack.stackSize) { return true; } } } } } } return false; }
public static InvStack takeDefinedItem( IInventory inventory, int side, ItemStack type, int min, int max) { InvStack ret = new InvStack(inventory); if (!(inventory instanceof ISidedInventory)) { inventory = checkChestInv(inventory); for (int i = inventory.getSizeInventory() - 1; i >= 0; i--) { if (inventory.getStackInSlot(i) != null && inventory.getStackInSlot(i).isItemEqual(type)) { ItemStack stack = inventory.getStackInSlot(i); int current = ret.getStack() != null ? ret.getStack().stackSize : 0; if (current + stack.stackSize <= max) { ret.appendStack(i, stack.copy()); } else { ItemStack copy = stack.copy(); copy.stackSize = max - current; ret.appendStack(i, copy); } if (ret.getStack() != null && ret.getStack().stackSize == max) { return ret; } } } } else { ISidedInventory sidedInventory = (ISidedInventory) inventory; int[] slots = sidedInventory.getAccessibleSlotsFromSide( ForgeDirection.getOrientation(side).getOpposite().ordinal()); if (slots != null && slots.length != 0) { for (int get = slots.length - 1; get >= 0; get--) { int slotID = slots[get]; if (sidedInventory.getStackInSlot(slotID) != null && inventory.getStackInSlot(slotID).isItemEqual(type)) { ItemStack stack = sidedInventory.getStackInSlot(slotID); int current = ret.getStack() != null ? ret.getStack().stackSize : 0; if (current + stack.stackSize <= max) { ItemStack copy = stack.copy(); if (sidedInventory.canExtractItem( slotID, copy, ForgeDirection.getOrientation(side).getOpposite().ordinal())) { ret.appendStack(slotID, copy); } } else { ItemStack copy = stack.copy(); if (sidedInventory.canExtractItem( slotID, copy, ForgeDirection.getOrientation(side).getOpposite().ordinal())) { copy.stackSize = max - current; ret.appendStack(slotID, copy); } } if (ret.getStack() != null && ret.getStack().stackSize == max) { return ret; } } } } } if (ret != null && ret.getStack() != null && ret.getStack().stackSize >= min) { return ret; } return null; }
@Override public int[] getSlots() { return sidedInventory.getAccessibleSlotsFromSide(this.side.ordinal()); }