game/technic.git

			@@ -1,232 +1,214 @@
			-- The supply converter is a generic device which can convert from
			-- LV to MV and back, and HV to MV and back.
			-- The machine will not convert from HV directly to LV.
			-- The machine is configured by the wiring below and above it.
			-- It is prepared for an upgrade slot if this is to be implemented later.
			--
			-- The conversion factor is a constant and the conversion is a lossy operation.
			--
			-- It works like this:
			-- The top side is setup as the "RE" side, the bottom as the "PR" side.
			-- Once the RE side is powered it will deliver power to the other side.
			-- The top side is setup as the receiver side, the bottom as the producer side.
			-- Once the receiver side is powered it will deliver power to the other side.
			-- Unused power is wasted just like any other producer!
			--
			minetest.register_node(
			"technic:supply_converter", {
			description = "Supply Converter",
			tiles = {"technic_supply_converter_top.png", "technic_supply_converter_bottom.png", "technic_supply_converter_side.png",
			"technic_supply_converter_side.png", "technic_supply_converter_side.png", "technic_supply_converter_side.png"},
			groups = {snappy=2,choppy=2,oddly_breakable_by_hand=2},
			sounds = default.node_sound_wood_defaults(),
			drawtype = "nodebox",
			paramtype = "light",
			is_ground_content = true,
			node_box = {
			type = "fixed",
			fixed = {-0.5, -0.5, -0.5, 0.5, 0.5, 0.5},
			},
			selection_box = {
			type = "fixed",
			fixed = {-0.5, -0.5, -0.5, 0.5, 0.5, 0.5},
			},
			on_construct = function(pos)
			local meta = minetest.env:get_meta(pos)
			meta:set_float("technic_hv_power_machine", 1)
			meta:set_float("technic_mv_power_machine", 1)
			meta:set_float("technic_power_machine", 1)
			meta:set_string("infotext", "Supply Converter")
			meta:set_float("active", false)
			end,
			})

			local digilines_path = minetest.get_modpath("digilines")

			local S = technic.getter

			local cable_entry = "^technic_cable_connection_overlay.png"

			local function set_supply_converter_formspec(meta)
			local formspec = "size[5,2.25]"..
			"field[0.3,0.5;2,1;power;"..S("Input Power")..";"..meta:get_int("power").."]"
			if digilines_path then
			formspec = formspec..
			"field[2.3,0.5;3,1;channel;Digiline Channel;"..meta:get_string("channel").."]"
			end
			-- The names for these toggle buttons are explicit about which
			-- state they'll switch to, so that multiple presses (arising
			-- from the ambiguity between lag and a missed press) only make
			-- the single change that the user expects.
			if meta:get_int("mesecon_mode") == 0 then
			formspec = formspec.."button[0,1;5,1;mesecon_mode_1;"..S("Ignoring Mesecon Signal").."]"
			else
			formspec = formspec.."button[0,1;5,1;mesecon_mode_0;"..S("Controlled by Mesecon Signal").."]"
			end
			if meta:get_int("enabled") == 0 then
			formspec = formspec.."button[0,1.75;5,1;enable;"..S("%s Disabled"):format(S("Supply Converter")).."]"
			else
			formspec = formspec.."button[0,1.75;5,1;disable;"..S("%s Enabled"):format(S("Supply Converter")).."]"
			end
			meta:set_string("formspec", formspec)
			end

			local supply_converter_receive_fields = function(pos, formname, fields, sender)
			local meta = minetest.get_meta(pos)
			local power = nil
			if fields.power then
			power = tonumber(fields.power) or 0
			power = math.max(power, 0)
			power = math.min(power, 10000)
			power = 100 * math.floor(power / 100)
			if power == meta:get_int("power") then power = nil end
			end
			if power then meta:set_int("power", power) end
			if fields.channel then meta:set_string("channel", fields.channel) end
			if fields.enable then meta:set_int("enabled", 1) end
			if fields.disable then meta:set_int("enabled", 0) end
			if fields.mesecon_mode_0 then meta:set_int("mesecon_mode", 0) end
			if fields.mesecon_mode_1 then meta:set_int("mesecon_mode", 1) end
			set_supply_converter_formspec(meta)
			end

			local mesecons = {
			effector = {
			action_on = function(pos, node)
			minetest.get_meta(pos):set_int("mesecon_effect", 1)
			end,
			action_off = function(pos, node)
			minetest.get_meta(pos):set_int("mesecon_effect", 0)
			end
			}
			}


			local digiline_def = {
			receptor = {action = function() end},
			effector = {
			action = function(pos, node, channel, msg)
			if type(msg) ~= "string" then
			return
			end
			local meta = minetest.get_meta(pos)
			if channel ~= meta:get_string("channel") then
			return
			end
			msg = msg:lower()
			if msg == "get" then
			digilines.receptor_send(pos, digilines.rules.default, channel, {
			enabled = meta:get_int("enabled"),
			power = meta:get_int("power"),
			mesecon_mode = meta:get_int("mesecon_mode")
			})
			return
			elseif msg == "off" then
			meta:set_int("enabled", 0)
			elseif msg == "on" then
			meta:set_int("enabled", 1)
			elseif msg == "toggle" then
			local onn = meta:get_int("enabled")
			onn = 1-onn -- Mirror onn with pivot 0.5, so switch between 1 and 0.
			meta:set_int("enabled", onn)
			elseif msg:sub(1, 5) == "power" then
			local power = tonumber(msg:sub(7))
			if not power then
			return
			end
			power = math.max(power, 0)
			power = math.min(power, 10000)
			power = 100 * math.floor(power / 100)
			meta:set_int("power", power)
			elseif msg:sub(1, 12) == "mesecon_mode" then
			meta:set_int("mesecon_mode", tonumber(msg:sub(14)))
			else
			return
			end
			set_supply_converter_formspec(meta)
			end
			},
			}

			local run = function(pos, node, run_stage)
			-- run only in producer stage.
			if run_stage == technic.receiver then
			return
			end

			local remain = 0.9
			-- Machine information
			local machine_name = S("Supply Converter")
			local meta = minetest.get_meta(pos)
			local enabled = meta:get_string("enabled")
			if enabled == "" then
			-- Backwards compatibility
			minetest.registered_nodes["technic:supply_converter"].on_construct(pos)
			enabled = true
			else
			enabled = enabled == "1"
			end
			enabled = enabled and (meta:get_int("mesecon_mode") == 0 or meta:get_int("mesecon_effect") ~= 0)
			local demand = enabled and meta:get_int("power") or 0

			local pos_up = {x=pos.x, y=pos.y+1, z=pos.z}
			local pos_down = {x=pos.x, y=pos.y-1, z=pos.z}
			local name_up = minetest.get_node(pos_up).name
			local name_down = minetest.get_node(pos_down).name

			local from = technic.get_cable_tier(name_up)
			local to = technic.get_cable_tier(name_down)

			if from and to then
			local input = meta:get_int(from.."_EU_input")
			meta:set_int(from.."_EU_demand", demand)
			meta:set_int(from.."_EU_supply", 0)
			meta:set_int(to.."_EU_demand", 0)
			meta:set_int(to.."_EU_supply", input * remain)
			meta:set_string("infotext", S("@1 (@2 @3 -> @4 @5)", machine_name,
			technic.EU_string(input), from,
			technic.EU_string(input * remain), to))
			else
			meta:set_string("infotext", S("%s Has Bad Cabling"):format(machine_name))
			if to then
			meta:set_int(to.."_EU_supply", 0)
			end
			if from then
			meta:set_int(from.."_EU_demand", 0)
			end
			return
			end

			end

			minetest.register_node("technic:supply_converter", {
			description = S("Supply Converter"),
			tiles = {
			"technic_supply_converter_tb.png"..cable_entry,
			"technic_supply_converter_tb.png"..cable_entry,
			"technic_supply_converter_side.png",
			"technic_supply_converter_side.png",
			"technic_supply_converter_side.png",
			"technic_supply_converter_side.png"
			},
			groups = {snappy=2, choppy=2, oddly_breakable_by_hand=2,
			technic_machine=1, technic_all_tiers=1},
			connect_sides = {"top", "bottom"},
			sounds = default.node_sound_wood_defaults(),
			on_receive_fields = supply_converter_receive_fields,
			on_construct = function(pos)
			local meta = minetest.get_meta(pos)
			meta:set_string("infotext", S("Supply Converter"))
			if digilines_path then
			meta:set_string("channel", "supply_converter"..minetest.pos_to_string(pos))
			end
			meta:set_int("power", 10000)
			meta:set_int("enabled", 1)
			meta:set_int("mesecon_mode", 0)
			meta:set_int("mesecon_effect", 0)
			set_supply_converter_formspec(meta)
			end,
			mesecons = mesecons,
			digiline = digiline_def,
			technic_run = run,
			technic_on_disable = run,
			})

			minetest.register_craft({
			output = 'technic:supply_converter 1',
			recipe = {
			{'technic:stainless_steel_ingot', 'technic:stainless_steel_ingot','technic:stainless_steel_ingot'},
			{'technic:mv_transformer', 'technic:mv_cable', 'technic:lv_transformer'},
			{'technic:mv_cable', 'technic:rubber', 'technic:lv_cable'},
			}
			{'basic_materials:gold_wire', 'technic:rubber', 'technic:doped_silicon_wafer'},
			{'technic:mv_transformer', 'technic:machine_casing', 'technic:lv_transformer'},
			{'technic:mv_cable', 'technic:rubber', 'technic:lv_cable'},
			},
			replacements = { {"basic_materials:gold_wire", "basic_materials:empty_spool"}, },
			})

			minetest.register_abm(
			{ nodenames = {"technic:supply_converter"},
			interval = 1,
			chance = 1,
			action = function(pos, node, active_object_count, active_object_count_wider)
			-- Conversion factors (a picture of V*A - loss) Asymmetric.
			local lv_mv_factor = 5 -- division (higher is less efficient)
			local mv_lv_factor = 4 -- multiplication (higher is more efficient)
			local mv_hv_factor = 5 -- division
			local hv_mv_factor = 4 -- multiplication
			local max_lv_demand = 2000 -- The increment size power supply tier. Determines how many are needed
			local max_mv_demand = 2000 -- -""-
			local max_hv_demand = 2000 -- -""-
			for tier, machines in pairs(technic.machines) do
			technic.register_machine(tier, "technic:supply_converter", technic.producer_receiver)
			end

			-- Machine information
			local machine_name = "Supply Converter"
			local meta = minetest.env:get_meta(pos)
			local upgrade = "" -- Replace with expansion slot later??

			-- High voltage on top, low at bottom regardless of converter direction
			local pos_up = {x=pos.x, y=pos.y+1, z=pos.z}
			local pos_down = {x=pos.x, y=pos.y-1, z=pos.z}
			local meta_up = minetest.env:get_meta(pos_up)
			local meta_down = minetest.env:get_meta(pos_down)
			local convert_MV_LV = 0
			local convert_LV_MV = 0
			local convert_MV_HV = 0
			local convert_HV_MV = 0
			-- check cabling
			if meta_up:get_float("mv_cablelike") == 1 and meta_down:get_float("cablelike") == 1 then
			convert_MV_LV = 1
			upgrade = "MV-LV step down"
			end
			if meta_up:get_float("cablelike") == 1 and meta_down:get_float("mv_cablelike") == 1 then
			convert_LV_MV = 1
			upgrade = "LV-MV step up"
			end
			if meta_up:get_float("mv_cablelike") == 1 and meta_down:get_float("hv_cablelike") == 1 then
			convert_MV_HV = 1
			upgrade = "MV-HV step up"
			end
			if meta_up:get_float("hv_cablelike") == 1 and meta_down:get_float("mv_cablelike") == 1 then
			convert_HV_MV = 1
			upgrade = "HV-MV step down"
			end
			--print("Cabling:"..convert_MV_LV.."\|"..convert_LV_MV.."\|"..convert_HV_MV.."\|"..convert_MV_HV)

			if convert_MV_LV == 0 and convert_LV_MV == 0 and convert_HV_MV == 0 and convert_MV_HV == 0 then
			meta:set_string("infotext", machine_name.." has bad cabling")
			meta:set_int("LV_EU_demand", 0)
			meta:set_int("LV_EU_supply", 0)
			meta:set_int("LV_EU_input", 0)
			meta:set_int("MV_EU_demand", 0)
			meta:set_int("MV_EU_supply", 0)
			meta:set_int("MV_EU_input", 0)
			meta:set_int("HV_EU_demand", 0)
			meta:set_int("HV_EU_supply", 0)
			meta:set_int("HV_EU_input", 0)
			return
			end

			-- The node is programmed with an upgrade slot
			-- containing a MV-LV step down, LV-MV step up, HV-MV step down or MV-HV step up unit

			if upgrade == "" then
			meta:set_string("infotext", machine_name.." has an empty converter slot");
			technic.unregister_LV_machine("technic:supply_converter")
			technic.unregister_MV_machine("technic:supply_converter")
			technic.unregister_HV_machine("technic:supply_converter")
			meta:set_int("LV_EU_demand", 0)
			meta:set_int("LV_EU_supply", 0)
			meta:set_int("LV_EU_input", 0)
			meta:set_int("MV_EU_demand", 0)
			meta:set_int("MV_EU_supply", 0)
			meta:set_int("MV_EU_input", 0)
			meta:set_int("HV_EU_demand", 0)
			meta:set_int("HV_EU_supply", 0)
			meta:set_int("HV_EU_input", 0)
			return
			end

			-- State machine
			if upgrade == "MV-LV step down" and convert_MV_LV then
			-- Register machine type
			technic.register_LV_machine("technic:supply_converter","PR")
			technic.register_MV_machine("technic:supply_converter","RE")

			-- Power off automatically if no longer connected to a switching station
			technic.switching_station_timeout_count(pos, "MV")

			local eu_input = meta:get_int("MV_EU_input")
			if eu_input == 0 then
			-- Unpowered - go idle
			--hacky_swap_node(pos, machine_node)
			meta:set_string("infotext", machine_name.." Unpowered")
			meta:set_int("LV_EU_supply", 0)
			meta:set_int("MV_EU_supply", 0)

			meta:set_int("LV_EU_demand", 0)
			meta:set_int("MV_EU_demand", max_mv_demand)
			else
			-- MV side has got power to spare
			meta:set_string("infotext", machine_name.." is active (MV:"..max_mv_demand.."->LV:"..eu_input*mv_lv_factor..")");
			meta:set_int("LV_EU_supply", eu_input*mv_lv_factor)
			end
			---------------------------------------------------
			elseif upgrade == "LV-MV step up" and convert_LV_MV then
			-- Register machine type
			technic.register_LV_machine("technic:supply_converter","RE")
			technic.register_MV_machine("technic:supply_converter","PR")

			-- Power off automatically if no longer connected to a switching station
			technic.switching_station_timeout_count(pos, "LV")

			local eu_input = meta:get_int("LV_EU_input")
			if eu_input == 0 then
			-- Unpowered - go idle
			--hacky_swap_node(pos, machine_node)
			meta:set_string("infotext", machine_name.." Unpowered")
			meta:set_int("LV_EU_supply", 0)
			meta:set_int("MV_EU_supply", 0)

			meta:set_int("LV_EU_demand", max_lv_demand)
			meta:set_int("MV_EU_demand", 0)
			else
			-- LV side has got power to spare
			meta:set_string("infotext", machine_name.." is active (LV:"..max_lv_demand.."->MV:"..eu_input/lv_mv_factor..")");
			meta:set_int("MV_EU_supply", eu_input/lv_mv_factor)
			end
			---------------------------------------------------

			elseif upgrade == "HV-MV step down" and convert_HV_MV then
			-- Register machine type
			technic.register_MV_machine("technic:supply_converter","PR")
			technic.register_HV_machine("technic:supply_converter","RE")

			-- Power off automatically if no longer connected to a switching station
			technic.switching_station_timeout_count(pos, "HV")

			local eu_input = meta:get_int("HV_EU_input")
			if eu_input == 0 then
			-- Unpowered - go idle
			--hacky_swap_node(pos, machine_node)
			meta:set_string("infotext", machine_name.." Unpowered")
			meta:set_int("MV_EU_supply", 0)
			meta:set_int("HV_EU_supply", 0)

			meta:set_int("MV_EU_demand", 0)
			meta:set_int("HV_EU_demand", max_hv_demand)
			else
			-- HV side has got power to spare
			meta:set_string("infotext", machine_name.." is active (HV:"..max_hv_demand.."->MV:"..eu_input*hv_mv_factor..")");
			meta:set_int("MV_EU_supply", eu_input*hv_mv_factor)
			end
			---------------------------------------------------
			elseif upgrade == "MV-HV step up" and convert_MV_HV then
			-- Register machine type
			technic.register_MV_machine("technic:supply_converter","RE")
			technic.register_HV_machine("technic:supply_converter","PR")

			-- Power off automatically if no longer connected to a switching station
			technic.switching_station_timeout_count(pos, "MV")

			local eu_input = meta:get_int("MV_EU_input")
			if eu_input == 0 then
			-- Unpowered - go idle
			--hacky_swap_node(pos, machine_node)
			meta:set_string("infotext", machine_name.." Unpowered")
			meta:set_int("MV_EU_supply", 0)
			meta:set_int("HV_EU_supply", 0)

			meta:set_int("MV_EU_demand", max_mv_demand)
			meta:set_int("HV_EU_demand", 0)
			else
			-- MV side has got power to spare
			meta:set_string("infotext", machine_name.." is active (MV:"..max_mv_demand.."->HV:"..eu_input/mv_hv_factor..")");
			meta:set_int("HV_EU_supply", eu_input/mv_hv_factor)
			end
			---------------------------------------------------
			end
			end,
			})