--[[ TechAge ======= Copyright (C) 2019-2020 Joachim Stolberg AGPL v3 See LICENSE.txt for more information Consumer node basis functionality. It handles: - up to 3 stages of nodes (TA2/TA3/TA4) - power consumption - node state handling - registration of passive and active nodes - Tube connections are on left and right side (from left to right) - Power connection are on front and back side (front or back) ]]-- -- for lazy programmers local S = function(pos) if pos then return minetest.pos_to_string(pos) end end local P = minetest.string_to_pos local M = minetest.get_meta -- Consumer Related Data local CRD = function(pos) return (minetest.registered_nodes[techage.get_node_lvm(pos).name] or {}).consumer end local CRDN = function(node) return (minetest.registered_nodes[node.name] or {}).consumer end local Tube = techage.Tube local power = networks.power local liquid = networks.liquid local CYCLE_TIME = 2 local function get_keys(tbl) local keys = {} for k,v in pairs(tbl) do keys[#keys + 1] = k end return keys end local function has_power(pos, nvm, state) local crd = CRD(pos) return power.power_available(pos, crd.power_netw) end local function start_node(pos, nvm, state) end local function stop_node(pos, nvm, state) end local function node_timer_pas(pos, elapsed) local crd = CRD(pos) local nvm = techage.get_nvm(pos) -- handle power consumption if crd.power_netw and techage.needs_power(nvm) then local consumed = power.consume_power(pos, crd.power_netw, nil, crd.power_consumption) if consumed == crd.power_consumption then crd.State:start(pos, nvm) end end -- call the node timer routine if techage.is_operational(nvm) then nvm.node_timer_call_cyle = (nvm.node_timer_call_cyle or 0) + 1 if nvm.node_timer_call_cyle >= crd.call_cycle then crd.node_timer(pos, crd.cycle_time) nvm.node_timer_call_cyle = 0 end end return crd.State:is_active(nvm) end local function node_timer_act(pos, elapsed) local crd = CRD(pos) local nvm = techage.get_nvm(pos) -- handle power consumption if crd.power_netw and techage.needs_power(nvm) then local consumed = power.consume_power(pos, crd.power_netw, nil, crd.power_consumption) if consumed < crd.power_consumption then crd.State:nopower(pos, nvm) end end -- call the node timer routine if techage.is_operational(nvm) then nvm.node_timer_call_cyle = (nvm.node_timer_call_cyle or 0) + 1 if nvm.node_timer_call_cyle >= crd.call_cycle then crd.node_timer(pos, crd.cycle_time) nvm.node_timer_call_cyle = 0 end end return crd.State:is_active(nvm) end local function prepare_tiles(tiles, stage, power_png) local tbl = {} for _,item in ipairs(tiles) do if type(item) == "string" then tbl[#tbl+1] = item:gsub("#", stage):gsub("{power}", power_png):gsub("@@", '#') else local temp = table.copy(item) temp.image = temp.image:gsub("#", stage):gsub("{power}", power_png):gsub("@@", '#') tbl[#tbl+1] = temp end end return tbl end -- 'validStates' is optional and can be used to e.g. enable -- only one TA2 node {false, true, false, false} function techage.register_consumer(base_name, inv_name, tiles, tNode, validStates, node_name_prefix) local names = {} validStates = validStates or {true, true, true, true} if not node_name_prefix then node_name_prefix = "techage:ta" end for stage = 2,4 do local name_pas = node_name_prefix..stage.."_"..base_name.."_pas" local name_act = node_name_prefix..stage.."_"..base_name.."_act" local name_inv = "TA"..stage.." "..inv_name names[#names+1] = name_pas if validStates[stage] then local power_network local power_png = 'techage_axle_clutch.png' local power_used = tNode.power_consumption ~= nil local sides -- power needed? if power_used then if stage > 2 then power_network = techage.ElectricCable power_png = 'techage_appl_hole_electric.png' sides = get_keys(tNode.power_sides or {F=1, B=1, U=1, D=1}) else power_network = techage.Axle power_png = 'techage_axle_clutch.png' sides = get_keys(tNode.power_sides or {F=1, B=1, U=1, D=1}) end end local tState = techage.NodeStates:new({ node_name_passive = name_pas, node_name_active = name_act, infotext_name = name_inv, cycle_time = CYCLE_TIME, standby_ticks = tNode.standby_ticks, formspec_func = tNode.formspec, on_state_change = tNode.on_state_change, can_start = tNode.can_start, has_power = tNode.has_power or power_used and has_power or nil, start_node = power_used and start_node or nil, stop_node = power_used and stop_node or nil, }) local tConsumer = { stage = stage, State = tState, -- number of items to be processed per cycle num_items = tNode.num_items and tNode.num_items[stage], power_consumption = power_used and tNode.power_consumption[stage] or 0, node_timer = tNode.node_timer, cycle_time = tNode.cycle_time, call_cycle = tNode.cycle_time / 2, power_netw = power_network, } local after_place_node = function(pos, placer, itemstack, pointed_thing) local crd = CRD(pos) local meta = M(pos) local nvm = techage.get_nvm(pos) local node = minetest.get_node(pos) meta:set_int("push_dir", techage.side_to_indir("L", node.param2)) meta:set_int("pull_dir", techage.side_to_indir("R", node.param2)) -- Delete existing node number. Needed for Digtron compatibility. if (meta:contains("node_number")) then meta:set_string("node_number", "") end local number = techage.add_node(pos, name_pas, stage == 2) if crd.power_netw then crd.power_netw:after_place_node(pos) end if tNode.after_place_node then tNode.after_place_node(pos, placer, itemstack, pointed_thing) end crd.State:node_init(pos, nvm, number) end local after_dig_node = function(pos, oldnode, oldmetadata, digger) if tNode.after_dig_node then tNode.after_dig_node(pos, oldnode, oldmetadata, digger) end local crd = CRDN(oldnode) if crd.power_netw then crd.power_netw:after_dig_node(pos) end techage.remove_node(pos, oldnode, oldmetadata) techage.del_mem(pos) end tNode.groups.not_in_creative_inventory = 0 local def_pas = { description = name_inv, tiles = prepare_tiles(tiles.pas, stage, power_png), consumer = tConsumer, drawtype = tNode.drawtype, node_box = tNode.node_box, selection_box = tNode.selection_box, can_dig = tNode.can_dig, on_rotate = tNode.on_rotate or screwdriver.disallow, on_timer = node_timer_pas, on_receive_fields = tNode.on_receive_fields, on_rightclick = tNode.on_rightclick, after_place_node = after_place_node, after_dig_node = after_dig_node, preserve_metadata = tNode.preserve_metadata, allow_metadata_inventory_put = tNode.allow_metadata_inventory_put, allow_metadata_inventory_move = tNode.allow_metadata_inventory_move, allow_metadata_inventory_take = tNode.allow_metadata_inventory_take, on_metadata_inventory_move = tNode.on_metadata_inventory_move, on_metadata_inventory_put = tNode.on_metadata_inventory_put, on_metadata_inventory_take = tNode.on_metadata_inventory_take, paramtype = tNode.paramtype, paramtype2 = "facedir", drop = tNode.drop, groups = table.copy(tNode.groups), is_ground_content = false, sounds = tNode.sounds, } -- Copy custom properties (starting with an underscore) for k,v in pairs(tNode) do if string.sub(k, 1, 1) == "_" then def_pas[k] = v end end minetest.register_node(name_pas, def_pas) tNode.groups.not_in_creative_inventory = 1 local def_act = { description = name_inv, tiles = prepare_tiles(tiles.act, stage, power_png), consumer = tConsumer, drawtype = tNode.drawtype, node_box = tNode.node_box, selection_box = tNode.selection_box, on_rotate = tNode.on_rotate or screwdriver.disallow, on_timer = node_timer_act, on_receive_fields = tNode.on_receive_fields, on_rightclick = tNode.on_rightclick, after_place_node = after_place_node, after_dig_node = after_dig_node, allow_metadata_inventory_put = tNode.allow_metadata_inventory_put, allow_metadata_inventory_move = tNode.allow_metadata_inventory_move, allow_metadata_inventory_take = tNode.allow_metadata_inventory_take, on_metadata_inventory_move = tNode.on_metadata_inventory_move, on_metadata_inventory_put = tNode.on_metadata_inventory_put, on_metadata_inventory_take = tNode.on_metadata_inventory_take, paramtype = tNode.paramtype, paramtype2 = "facedir", drop = "", diggable = false, groups = table.copy(tNode.groups), is_ground_content = false, sounds = tNode.sounds, } -- Copy custom properties (starting with an underscore) for k,v in pairs(tNode) do if string.sub(k, 1, 1) == "_" then def_act[k] = v end end minetest.register_node(name_act, def_act) if power_used then power.register_nodes({name_pas, name_act}, power_network, "con", sides) end techage.register_node({name_pas, name_act}, tNode.tubing) if tNode.tube_sides then Tube:set_valid_sides(name_pas, get_keys(tNode.tube_sides)) Tube:set_valid_sides(name_act, get_keys(tNode.tube_sides)) end end end return names[1], names[2], names[3] end