-- internationalization boilerplate local MP = minetest.get_modpath(minetest.get_current_modname()) local S, NS = dofile(MP.."/intllib.lua") local controller_nodebox ={ {-0.3125, -0.3125, -0.3125, 0.3125, 0.3125, 0.3125}, -- Core {-0.1875, 0.3125, -0.1875, 0.1875, 0.5, 0.1875}, -- +y_connector {-0.1875, -0.5, -0.1875, 0.1875, -0.3125, 0.1875}, -- -y_Connector {0.3125, -0.1875, -0.1875, 0.5, 0.1875, 0.1875}, -- +x_connector {-0.5, -0.1875, -0.1875, -0.3125, 0.1875, 0.1875}, -- -x_connector {-0.1875, -0.1875, 0.3125, 0.1875, 0.1875, 0.5}, -- +z_connector {-0.5, 0.125, -0.5, -0.125, 0.5, -0.3125}, -- back_connector_3 {0.125, 0.125, -0.5, 0.5, 0.5, -0.3125}, -- back_connector_1 {0.125, -0.5, -0.5, 0.5, -0.125, -0.3125}, -- back_connector_2 {-0.5, -0.5, -0.5, -0.125, -0.125, -0.3125}, -- back_connector_4 } local node_inventory_table = {type="node"} -- a reusable parameter for get_inventory calls, set the pos parameter before using. -- Master controller. Most complicated part of the whole system. Determines which direction a digtron moves and triggers all of its component parts. minetest.register_node("digtron:controller", { description = S("Digtron Control Module"), _doc_items_longdesc = digtron.doc.controller_longdesc, _doc_items_usagehelp = digtron.doc.controller_usagehelp, groups = {cracky = 3, oddly_breakable_by_hand = 3, digtron = 1}, drop = "digtron:controller", sounds = digtron.metal_sounds, paramtype = "light", paramtype2= "facedir", is_ground_content = false, -- Aims in the +Z direction by default tiles = { "digtron_plate.png^[transformR90", "digtron_plate.png^[transformR270", "digtron_plate.png", "digtron_plate.png^[transformR180", "digtron_plate.png", "digtron_plate.png^digtron_control.png", }, drawtype = "nodebox", node_box = { type = "fixed", fixed = controller_nodebox, }, on_construct = function(pos) local meta = minetest.get_meta(pos) meta:set_float("fuel_burning", 0.0) meta:set_string("infotext", S("Heat remaining in controller furnace: @1", 0)) end, on_rightclick = function(pos, node, clicker, itemstack, pointed_thing) local meta = minetest.get_meta(pos) if meta:get_string("waiting") == "true" then -- Been too soon since last time the digtron did a cycle. return end local newpos, status, return_code = digtron.execute_dig_cycle(pos, clicker) meta = minetest.get_meta(newpos) if status ~= nil then meta:set_string("infotext", status) end -- Start the delay before digtron can run again. minetest.get_meta(newpos):set_string("waiting", "true") minetest.get_node_timer(newpos):start(digtron.config.cycle_time) end, on_timer = function(pos, elapsed) minetest.get_meta(pos):set_string("waiting", nil) end, }) -- Auto-controller --------------------------------------------------------------------------------------------------------------- local auto_formspec = "size[8,6.2]" .. default.gui_bg .. default.gui_bg_img .. default.gui_slots .. "container[2.0,0]" .. "field[0.0,0.8;1,0.1;cycles;" .. S("Cycles").. ";${cycles}]" .. "tooltip[cycles;" .. S("When triggered, this controller will try to run for the given number of cycles.\nThe cycle count will decrement as it runs, so if it gets halted by a problem\nyou can fix the problem and restart.").. "]" .. "button_exit[0.7,0.5;1,0.1;set;" .. S("Set").. "]" .. "tooltip[set;" .. S("Saves the cycle setting without starting the controller running").. "]" .. "button_exit[1.7,0.5;1,0.1;execute;" .. S("Set &\nExecute").. "]" .. "tooltip[execute;" .. S("Begins executing the given number of cycles").. "]" .. "field[0.0,2.0;1,0.1;slope;" .. S("Slope").. ";${slope}]" .. "tooltip[slope;" .. S("For diagonal digging. After moving forward this number of nodes the auto controller\nwill add an additional cycle moving the digtron laterally in the\ndirection of the arrows on the side of this controller.\nSet to 0 for no lateral digging.").. "]" .. "field[1.0,2.0;1,0.1;offset;" .. S("Offset").. ";${offset}]" .. "tooltip[offset;" .. S("Sets the offset of the lateral motion defined in the Slope field.\nNote: this offset is relative to the controller's location.\nThe controller will move laterally when it reaches the indicated point.").. "]" .. "field[2.0,2.0;1,0.1;period;" .. S("Delay").. ";${period}]" .. "tooltip[period;" .. S("Number of seconds to wait between each cycle").. "]" .. "list[current_name;stop;3.0,0.7;1,1;]" .. "label[3.0,1.5;" .. S("Stop block").. "]" .. "container_end[]" .. "list[current_player;main;0,2.3;8,1;]" .. default.get_hotbar_bg(0,2.3) .. "list[current_player;main;0,3.5;8,3;8]" .. "listring[current_player;main]" .. "listring[current_name;stop]" if minetest.get_modpath("doc") then auto_formspec = auto_formspec .. "button_exit[7.0,0.5;1,0.1;help;" .. S("Help") .. "]" .. "tooltip[help;" .. S("Show documentation about this block").. "]" end local function auto_cycle(pos) local node = minetest.get_node(pos) local controlling_coordinate = digtron.get_controlling_coordinate(pos, node.param2) local meta = minetest.get_meta(pos) local player = minetest.get_player_by_name(meta:get_string("triggering_player")) if player == nil or meta:get_string("waiting") == "true" then return end local cycle = meta:get_int("cycles") local slope = meta:get_int("slope") if meta:get_string("lateral_done") ~= "true" and slope ~= 0 and (pos[controlling_coordinate] + meta:get_int("offset")) % slope == 0 then --Do a downward dig cycle. Don't update the "cycles" count, these don't count towards that. local newpos, status, return_code = digtron.execute_downward_dig_cycle(pos, player) if vector.equals(pos, newpos) then status = status .. "\n" .. S("Cycles remaining: @1", cycle) .. "\n" .. S("Halted!") meta:set_string("infotext", status) if return_code == 1 then --return code 1 happens when there's unloaded nodes adjacent, just keep trying. if digtron.config.emerge_unloaded_mapblocks then minetest.emerge_area(vector.add(pos, -80), vector.add(pos, 80)) end minetest.after(meta:get_int("period"), auto_cycle, newpos) else meta:set_string("formspec", auto_formspec) end else meta = minetest.get_meta(newpos) minetest.after(meta:get_int("period"), auto_cycle, newpos) meta:set_string("infotext", status) meta:set_string("lateral_done", "true") end return end local newpos, status, return_code = digtron.execute_dig_cycle(pos, player) if vector.equals(pos, newpos) then status = status .. "\n" .. S("Cycles remaining: @1", cycle) .. "\n" .. S("Halted!") meta:set_string("infotext", status) if return_code == 1 then --return code 1 happens when there's unloaded nodes adjacent, call emerge and keep trying. if digtron.config.emerge_unloaded_mapblocks then minetest.emerge_area(vector.add(pos, -80), vector.add(pos, 80)) end minetest.after(meta:get_int("period"), auto_cycle, newpos) else meta:set_string("formspec", auto_formspec) end return end meta = minetest.get_meta(newpos) cycle = meta:get_int("cycles") - 1 meta:set_int("cycles", cycle) status = status .. "\n" .. S("Cycles remaining: @1", cycle) meta:set_string("infotext", status) meta:set_string("lateral_done", nil) if cycle > 0 then minetest.after(meta:get_int("period"), auto_cycle, newpos) else meta:set_string("formspec", auto_formspec) end end minetest.register_node("digtron:auto_controller", { description = S("Digtron Automatic Control Module"), _doc_items_longdesc = digtron.doc.auto_controller_longdesc, _doc_items_usagehelp = digtron.doc.auto_controller_usagehelp, --Don't set a _digtron_formspec for this node_def. --Auto-controller has special formspec handling, while active it has no formspec and right-clicking interrupts it. groups = {cracky = 3, oddly_breakable_by_hand = 3, digtron = 1}, drop = "digtron:auto_controller", sounds = digtron.metal_sounds, paramtype = "light", paramtype2= "facedir", is_ground_content = false, -- Aims in the +Z direction by default tiles = { "digtron_plate.png^[transformR90^[colorize:" .. digtron.auto_controller_colorize, "digtron_plate.png^[transformR270^[colorize:" .. digtron.auto_controller_colorize, "digtron_plate.png^digtron_axel_side.png^[transformR270^[colorize:" .. digtron.auto_controller_colorize, "digtron_plate.png^digtron_axel_side.png^[transformR270^[colorize:" .. digtron.auto_controller_colorize, "digtron_plate.png^[colorize:" .. digtron.auto_controller_colorize, "digtron_plate.png^digtron_control.png^[colorize:" .. digtron.auto_controller_colorize, }, drawtype = "nodebox", node_box = { type = "fixed", fixed = controller_nodebox, }, on_construct = function(pos) local meta = minetest.get_meta(pos) meta:set_float("fuel_burning", 0.0) meta:set_string("infotext", S("Heat remaining in controller furnace: @1", 0)) meta:set_string("formspec", auto_formspec) -- Reusing offset and period to keep the digtron node-moving code simple, and the names still fit well meta:set_int("period", digtron.config.cycle_time) meta:set_int("offset", 0) meta:set_int("cycles", 0) meta:set_int("slope", 0) local inv = meta:get_inventory() inv:set_size("stop", 1) end, allow_metadata_inventory_put = function(pos, listname, index, stack, player) if minetest.get_item_group(stack:get_name(), "digtron") ~= 0 then return 0 -- pointless setting a Digtron node as a stop block end node_inventory_table.pos = pos local inv = minetest.get_inventory(node_inventory_table) inv:set_stack(listname, index, stack:take_item(1)) return 0 end, allow_metadata_inventory_take = function(pos, listname, index, stack, player) node_inventory_table.pos = pos local inv = minetest.get_inventory(node_inventory_table) inv:set_stack(listname, index, ItemStack("")) return 0 end, on_receive_fields = function(pos, formname, fields, sender) local meta = minetest.get_meta(pos) local offset = tonumber(fields.offset) local period = tonumber(fields.period) local slope = tonumber(fields.slope) local cycles = tonumber(fields.cycles) if period and period > 0 then meta:set_int("period", math.max(digtron.config.cycle_time, math.floor(period))) end if offset then meta:set_int("offset", offset) end if slope and slope >= 0 then meta:set_int("slope", slope) end if cycles and cycles >= 0 then meta:set_int("cycles", math.floor(cycles)) if sender:is_player() and cycles > 0 then meta:set_string("triggering_player", sender:get_player_name()) if fields.execute then meta:set_string("waiting", nil) meta:set_string("formspec", nil) auto_cycle(pos) end end end if fields.set and slope and slope > 0 then local node = minetest.get_node(pos) local controlling_coordinate = digtron.get_controlling_coordinate(pos, node.param2) offset = offset or 0 local newpos = pos local markerpos = {x=newpos.x, y=newpos.y, z=newpos.z} local x_pos = math.floor((newpos[controlling_coordinate]+offset)/slope)*slope - offset markerpos[controlling_coordinate] = x_pos minetest.add_entity(markerpos, "digtron:marker_vertical") if x_pos >= newpos[controlling_coordinate] then markerpos[controlling_coordinate] = x_pos - slope minetest.add_entity(markerpos, "digtron:marker_vertical") end if x_pos <= newpos[controlling_coordinate] then markerpos[controlling_coordinate] = x_pos + slope minetest.add_entity(markerpos, "digtron:marker_vertical") end end if fields.help and minetest.get_modpath("doc") then --check for mod in case someone disabled it after this digger was built minetest.after(0.5, doc.show_entry, sender:get_player_name(), "nodes", "digtron:auto_controller", true) end end, on_rightclick = function(pos, node, clicker, itemstack, pointed_thing) local meta = minetest.get_meta(pos) meta:set_string("infotext", meta:get_string("infotext") .. "\n" .. S("Interrupted!")) meta:set_string("waiting", "true") meta:set_string("formspec", auto_formspec) end, }) --------------------------------------------------------------------------------------------------------------- -- A much simplified control unit that only moves the digtron, and doesn't trigger the diggers or builders. -- Handy for shoving a digtron to the side if it's been built a bit off. minetest.register_node("digtron:pusher", { description = S("Digtron Pusher Module"), _doc_items_longdesc = digtron.doc.pusher_longdesc, _doc_items_usagehelp = digtron.doc.pusher_usagehelp, groups = {cracky = 3, oddly_breakable_by_hand=3, digtron = 1}, drop = "digtron:pusher", sounds = digtron.metal_sounds, paramtype = "light", paramtype2= "facedir", is_ground_content = false, -- Aims in the +Z direction by default tiles = { "digtron_plate.png^[transformR90^[colorize:" .. digtron.pusher_controller_colorize, "digtron_plate.png^[transformR270^[colorize:" .. digtron.pusher_controller_colorize, "digtron_plate.png^[colorize:" .. digtron.pusher_controller_colorize, "digtron_plate.png^[transformR180^[colorize:" .. digtron.pusher_controller_colorize, "digtron_plate.png^[colorize:" .. digtron.pusher_controller_colorize, "digtron_plate.png^digtron_control.png^[colorize:" .. digtron.pusher_controller_colorize, }, drawtype = "nodebox", node_box = { type = "fixed", fixed = controller_nodebox, }, on_rightclick = function(pos, node, clicker, itemstack, pointed_thing) local meta = minetest.get_meta(pos) if meta:get_string("waiting") == "true" then -- Been too soon since last time the digtron did a cycle. return end local newpos, status_text, return_code = digtron.execute_move_cycle(pos, clicker) meta = minetest.get_meta(newpos) meta:set_string("infotext", status_text) -- Start the delay before digtron can run again. minetest.get_meta(newpos):set_string("waiting", "true") minetest.get_node_timer(newpos):start(digtron.config.cycle_time) end, on_timer = function(pos, elapsed) minetest.get_meta(pos):set_string("waiting", nil) end, })