-- autorouting for pneumatic tubes function tube_scanforobjects(pos) if pos == nil then return end tube_autoroute({ x=pos.x-1, y=pos.y , z=pos.z }) tube_autoroute({ x=pos.x+1, y=pos.y , z=pos.z }) tube_autoroute({ x=pos.x , y=pos.y-1, z=pos.z }) tube_autoroute({ x=pos.x , y=pos.y+1, z=pos.z }) tube_autoroute({ x=pos.x , y=pos.y , z=pos.z-1 }) tube_autoroute({ x=pos.x , y=pos.y , z=pos.z+1 }) tube_autoroute(pos) end function in_table(table,element) for _,el in ipairs(table) do if el==element then return true end end return false end function is_tube(nodename) return in_table(tubenodes,nodename) end if pipeworks == nil then pipeworks = {} end -- this was tested experimentally, because I can't the whole bit arithematic -- with these facingRight means "We're facing the right side of whatever it is" pipeworks.connects = { -- a filter's output is on the right, input on the left facingLeft = function (i,param2) -- measured with a mese filter if i == 1 then return param2 == 2 or param2 == 6 or param2 == 10 or param2 == 20 elseif i == 2 then return param2 == 0 or param2 == 4 or param2 == 8 or param2 == 22 elseif i == 3 then return param2 == 7 or param2 == 9 or param2 == 12 or param2 == 18 elseif i == 4 then return param2 == 5 or param2 == 11 or param2 == 14 or param2 == 16 elseif i == 5 then return param2 == 1 or param2 == 13 or param2 == 17 or param2 == 21 elseif i == 6 then return param2 == 3 or param2 == 15 or param2 == 19 end end, facingRight = function (i,param2) -- measured with a mese filter if i == 1 then return param2 == 0 or param2 == 4 or param2 == 8 or param2 == 22 elseif i == 2 then return param2 == 2 or param2 == 6 or param2 == 10 or param2 == 20 elseif i == 3 then return param2 == 5 or param2 == 11 or param2 == 14 or param2 == 16 elseif i == 4 then return param2 == 7 or param2 == 9 or param2 == 12 or param2 == 18 elseif i == 5 then return param2 == 3 or param2 == 15 or param2 == 19 elseif i == 6 then return param2 == 1 or param2 == 13 or param2 == 17 or param2 == 21 end end, facingFront = function (i,param2) -- measured with a chest and a technic:nodebreaker if i == 1 then return param2 == 3 or param2 == 7 or param2 == 11 or param2 == 21 elseif i == 2 then return param2 == 1 or param2 == 5 or param2 == 9 elseif i == 3 then return param2 == 4 or param2 == 10 or param2 == 14 or param2 == 19 elseif i == 4 then return param2 == 6 or param2 == 8 or param2 == 15 or param2 == 17 elseif i == 5 then return param2 == 14 or param2 == 18 or param2 == 22 or param2 == 2 elseif i == 6 then return param2 == 12 or param2 == 16 or param2 == 20 or param2 == 0 end end, facingSide = function (i,param2) -- aka not top or bottom -- measured with a chair if i == 1 or i == 2 then return not (param2 >= 12 and param2 <= 19) elseif i == 3 or i == 4 then return not ((param2 >= 0 and param2 < 4) or (param2 >= 20 and param2 <= 22)) elseif i == 5 or i == 6 then return not (param2 >= 4 and param2 <= 11) end end, facingTop = function(i,param2) -- measured with a chair if i == 1 then return param2 >= 16 and param2 <= 20 elseif i == 2 then return param2 >= 12 and param2 < 16 elseif i == 3 then return param2 >= 0 and param2 < 4 elseif i == 4 then return param2 >= 21 and param2 < 23 elseif i == 5 then return param2 >= 4 and param2 < 8 elseif i == 6 then return param2 >= 8 and param2 < 12 -- else error bad value for i end end } --a function for determining which side of the node we are on local function nodeside(node, tubedir) --get a vector pointing back local backdir = facedir_to_dir(node.param2) --check whether the vector is equivalent to the tube direction; if it is, the tube's on the backside if backdir.x == tubedir.x and backdir.y == tubedir.y and backdir.z == tubedir.z then return "back" end --check whether the vector is antiparallel with the tube direction; that indicates the front if backdir.x == -tubedir.x and backdir.y == -tubedir.y and backdir.z == -tubedir.z then return "front" end --facedir is defined in terms of the top-bottom axis of the node; we'll take advantage of that local topdir = ({[0]={x=0, y=1, z=0}, {x=0, y=0, z=1}, {x=0, y=0, z=-1}, {x=1, y=0, z=0}, {x=-1, y=0, z=0}, {x=0, y=-1, z=0}})[math.floor(node.param2/4)] --is this the top? if topdir.x == tubedir.x and topdir.y == tubedir.y and topdir.z == tubedir.z then return "top" end --or the bottom? if topdir.x == -tubedir.x and topdir.y == -tubedir.y and topdir.z == -tubedir.z then return "bottom" end --we shall apply some maths to obtain the right-facing vector local rightdir = {x=topdir.y*backdir.z - backdir.y*topdir.z, y=topdir.z*backdir.x - backdir.z*topdir.x, z=topdir.x*backdir.y - backdir.x*topdir.y} --is this the right side? if rightdir.x == tubedir.x and rightdir.y == tubedir.y and rightdir.z == tubedir.z then return "right" end --or the left? if rightdir.x == -tubedir.x and rightdir.y == -tubedir.y and rightdir.z == -tubedir.z then return "left" end --we should be done by now; initiate panic mode minetest.log("error", "nodeside has been confused by its parameters; see pipeworks autoplace.lua, line 382") end function tube_autoroute(pos) local active = {0, 0, 0, 0, 0, 0} local nctr = minetest.get_node(pos) if not is_tube(nctr.name) then return end local adjustments = { { x=-1, y=0, z=0 }, { x=1, y=0, z=0 }, { x=0, y=-1, z=0 }, { x=0, y=1, z=0 }, { x=0, y=0, z=-1 }, { x=0, y=0, z=1 } } -- xm = 1, xp = 2, ym = 3, yp = 4, zm = 5, zp = 6 local positions = {} local nodes = {} for i,adj in ipairs(adjustments) do positions[i] = {x=pos.x+adj.x, y=pos.y+adj.y, z=pos.z+adj.z} nodes[i] = minetest.get_node(positions[i]) end for i,node in ipairs(nodes) do local idef = minetest.registered_nodes[node.name] -- handle the tubes themselves if is_tube(node.name) then active[i] = 1 -- handle new style connectors elseif idef.tube and idef.tube.connects then -- connects returns true if self can connect w/ neighboring position -- it uses facesFront, facesTop etc to determine this -- pipeworks.connects.facingFront... if idef.tube.connects(i,param2) then active[i] = 1 end -- oops, handle the *other* newstyle connectors elseif idef.tube and idef.tube.connect_side then local dir = adjustments[i] if idef.connect_sides[nodeside(node, {x=-dir.x, y=-dir.y, z=-dir.z})] then active[i] = 1 end -- legacy stuff follows elseif string.find(node.name, "pipeworks:filter") ~= nil or string.find(node.name, "pipeworks:mese_filter") ~= nil then -- filters only connect to pipes on their output (despite appearances) -- input has to be a chest or furnace or something if pipeworks.connects.facingRight(i,node.param2) then active[i] = 1 end elseif -- not the front string.find(node.name, "pipeworks:deployer_") ~= nil or string.find(node.name, "pipeworks:nodebreaker_") ~= nil or string.find(node.name, "technic:nodebreaker_") ~= nil then if not pipeworks.connects.facingFront(i,node.param2) then active[i] = 1 end elseif string.find(node.name, "default:furnace") ~= nil or string.find(node.name, "default:chest") or string.find(node.name, "default:chest_locked") then if not pipeworks.connects.facingFront(i,node.param2) or pipeworks.connects.facingTop(i,node.param2) then active[i] = 1 end elseif string.find(node.name, "pipeworks:autocrafter") ~= nil then active[i] = 1 end end -- all sides checked, now figure which tube to use. nsurround = "" for i,n in ipairs(active) do nsurround = nsurround .. n end local newname=string.sub(nctr.name,1,-7)..nsurround if newname == nctr.name then return end local meta=minetest.get_meta(pos) local meta0=meta:to_table() -- XXX: hacky_swap_node nctr.name = newname minetest.add_node(pos, nctr) local meta=minetest.get_meta(pos) meta:from_table(meta0) local nctr = minetest.get_node(pos) end