game/technic.git

			@@ -1,43 +1,15 @@
			-- SWITCHING STATION
			-- The switching station is the center of all power distribution on an electric network.
			--
			-- The station collects power from sources (PR), distributes it to sinks (RE),
			-- and uses the excess/shortfall to charge and discharge batteries (BA).
			--
			-- For now, all supply and demand values are expressed in kW.
			--
			-- It works like this:
			-- All PR,BA,RE nodes are indexed and tagged with the switching station.
			-- The tagging is to allow more stations to be built without allowing a cheat
			-- with duplicating power.
			-- All the RE nodes are queried for their current EU demand. Those which are off
			-- would require no or a small standby EU demand, while those which are on would
			-- require more.
			-- If the total demand is less than the available power they are all updated with the
			-- demand number.
			-- If any surplus exists from the PR nodes the batteries will be charged evenly with this.
			-- If the total demand requires draw on the batteries they will be discharged evenly.
			--
			-- If the total demand is more than the available power all RE nodes will be shut down.
			-- We have a brown-out situation.
			--
			-- Hence all the power distribution logic resides in this single node.
			--
			-- Nodes connected to the network will have one or more of these parameters as meta data:
			-- <LV\|MV\|HV>_EU_supply : Exists for PR and BA node types. This is the EU value supplied by the node. Output
			-- <LV\|MV\|HV>_EU_demand : Exists for RE and BA node types. This is the EU value the node requires to run. Output
			-- <LV\|MV\|HV>_EU_input : Exists for RE and BA node types. This is the actual EU value the network can give the node. Input
			--
			-- The reason the LV\|MV\|HV type is prepended toe meta data is because some machine could require several supplies to work.
			-- This way the supplies are separated per network.
			-- See also technic/doc/api.md

			technic.networks = {}
			technic.cables = {}
			technic.redundant_warn = {}

			local mesecons_path = minetest.get_modpath("mesecons")
			local digilines_path = minetest.get_modpath("digilines")

			local S = technic.getter

			local cable_entry = "^technic_cable_connection_overlay.png"

			minetest.register_craft({
			output = "technic:switching_station",
			@@ -48,11 +20,22 @@
			}
			})

			local mesecon_def
			if mesecons_path then
			mesecon_def = {effector = {
			rules = mesecon.rules.default,
			}}
			end

			minetest.register_node("technic:switching_station",{
			description = S("Switching Station"),
			tiles = {"technic_water_mill_top_active.png", "technic_water_mill_top_active.png",
			"technic_water_mill_top_active.png", "technic_water_mill_top_active.png",
			"technic_water_mill_top_active.png", "technic_water_mill_top_active.png"},
			tiles = {
			"technic_water_mill_top_active.png",
			"technic_water_mill_top_active.png"..cable_entry,
			"technic_water_mill_top_active.png",
			"technic_water_mill_top_active.png",
			"technic_water_mill_top_active.png",
			"technic_water_mill_top_active.png"},
			groups = {snappy=2, choppy=2, oddly_breakable_by_hand=2, technic_all_tiers=1},
			connect_sides = {"bottom"},
			sounds = default.node_sound_wood_defaults(),
			@@ -62,11 +45,15 @@
			meta:set_string("active", 1)
			meta:set_string("channel", "switching_station"..minetest.pos_to_string(pos))
			meta:set_string("formspec", "field[channel;Channel;${channel}]")
			local poshash = minetest.hash_node_position(pos)
			technic.redundant_warn.poshash = nil
			end,
			after_dig_node = function(pos)
			minetest.forceload_free_block(pos)
			pos.y = pos.y - 1
			minetest.forceload_free_block(pos)
			local poshash = minetest.hash_node_position(pos)
			technic.redundant_warn.poshash = nil
			end,
			on_receive_fields = function(pos, formname, fields, sender)
			if not fields.channel then
			@@ -80,9 +67,7 @@
			local meta = minetest.get_meta(pos)
			meta:set_string("channel", fields.channel)
			end,
			mesecons = {effector = {
			rules = mesecon.rules.default,
			}},
			mesecons = mesecon_def,
			digiline = {
			receptor = {action = function() end},
			effector = {
			@@ -106,48 +91,57 @@
			--------------------------------------------------
			-- Functions to traverse the electrical network
			--------------------------------------------------
			local function flatten(map)
			local list = {}
			for key, value in pairs(map) do
			list[#list + 1] = value
			end
			return list
			end

			-- Add a wire node to the LV/MV/HV network
			local add_new_cable_node = function(nodes, pos, network_id)
			technic.cables[minetest.hash_node_position(pos)] = network_id
			-- Ignore if the node has already been added
			for i = 1, #nodes do
			if pos.x == nodes[i].x and
			pos.y == nodes[i].y and
			pos.z == nodes[i].z then
			return false
			end
			local function add_network_node(nodes, pos, network_id)
			local node_id = minetest.hash_node_position(pos)
			technic.cables[node_id] = network_id
			if nodes[node_id] then
			return false
			end
			table.insert(nodes, {x=pos.x, y=pos.y, z=pos.z, visited=1})
			nodes[node_id] = pos
			return true
			end

			local function add_cable_node(nodes, pos, network_id, queue)
			if add_network_node(nodes, pos, network_id) then
			queue[#queue + 1] = pos
			end
			end

			-- Generic function to add found connected nodes to the right classification array
			local check_node_subp = function(PR_nodes, RE_nodes, BA_nodes, SP_nodes, all_nodes, pos, machines, tier, sw_pos, from_below, network_id)
			local check_node_subp = function(PR_nodes, RE_nodes, BA_nodes, SP_nodes, all_nodes, pos, machines, tier, sw_pos, from_below, network_id, queue)
			technic.get_or_load_node(pos)
			local meta = minetest.get_meta(pos)
			local name = minetest.get_node(pos).name

			if technic.is_tier_cable(name, tier) then
			add_new_cable_node(all_nodes, pos,network_id)
			add_cable_node(all_nodes, pos,network_id, queue)
			elseif machines[name] then
			--dprint(name.." is a "..machines[name])
			local meta = minetest.get_meta(pos)
			meta:set_string(tier.."_network",minetest.pos_to_string(sw_pos))
			if machines[name] == technic.producer then
			add_new_cable_node(PR_nodes, pos, network_id)
			add_network_node(PR_nodes, pos, network_id)
			elseif machines[name] == technic.receiver then
			add_new_cable_node(RE_nodes, pos, network_id)
			add_network_node(RE_nodes, pos, network_id)
			elseif machines[name] == technic.producer_receiver then
			add_new_cable_node(PR_nodes, pos, network_id)
			add_new_cable_node(RE_nodes, pos, network_id)
			add_network_node(PR_nodes, pos, network_id)
			add_network_node(RE_nodes, pos, network_id)
			elseif machines[name] == "SPECIAL" and
			(pos.x ~= sw_pos.x or pos.y ~= sw_pos.y or pos.z ~= sw_pos.z) and
			from_below then
			-- Another switching station -> disable it
			add_new_cable_node(SP_nodes, pos, network_id)
			add_network_node(SP_nodes, pos, network_id)
			meta:set_int("active", 0)
			elseif machines[name] == technic.battery then
			add_new_cable_node(BA_nodes, pos, network_id)
			add_network_node(BA_nodes, pos, network_id)
			end

			meta:set_int(tier.."_EU_timeout", 2) -- Touch node
			@@ -155,8 +149,7 @@
			end

			-- Traverse a network given a list of machines and a cable type name
			local traverse_network = function(PR_nodes, RE_nodes, BA_nodes, SP_nodes, all_nodes, i, machines, tier, sw_pos, network_id)
			local pos = all_nodes[i]
			local traverse_network = function(PR_nodes, RE_nodes, BA_nodes, SP_nodes, all_nodes, pos, machines, tier, sw_pos, network_id, queue)
			local positions = {
			{x=pos.x+1, y=pos.y, z=pos.z},
			{x=pos.x-1, y=pos.y, z=pos.z},
			@@ -164,9 +157,8 @@
			{x=pos.x, y=pos.y-1, z=pos.z},
			{x=pos.x, y=pos.y, z=pos.z+1},
			{x=pos.x, y=pos.y, z=pos.z-1}}
			--print("ON")
			for i, cur_pos in pairs(positions) do
			check_node_subp(PR_nodes, RE_nodes, BA_nodes, SP_nodes, all_nodes, cur_pos, machines, tier, sw_pos, i == 3, network_id)
			check_node_subp(PR_nodes, RE_nodes, BA_nodes, SP_nodes, all_nodes, cur_pos, machines, tier, sw_pos, i == 3, network_id, queue)
			end
			end

			@@ -178,7 +170,8 @@
			end

			local get_network = function(sw_pos, pos1, tier)
			local cached = technic.networks[minetest.hash_node_position(pos1)]
			local network_id = minetest.hash_node_position(pos1)
			local cached = technic.networks[network_id]
			if cached and cached.tier == tier then
			touch_nodes(cached.PR_nodes, tier)
			touch_nodes(cached.BA_nodes, tier)
			@@ -190,38 +183,74 @@
			end
			return cached.PR_nodes, cached.BA_nodes, cached.RE_nodes
			end
			local i = 1
			local PR_nodes = {}
			local BA_nodes = {}
			local RE_nodes = {}
			local SP_nodes = {}
			local all_nodes = {pos1}
			repeat
			traverse_network(PR_nodes, RE_nodes, BA_nodes, SP_nodes, all_nodes,
			i, technic.machines[tier], tier, sw_pos, minetest.hash_node_position(pos1))
			i = i + 1
			until all_nodes[i] == nil
			technic.networks[minetest.hash_node_position(pos1)] = {tier = tier, PR_nodes = PR_nodes,
			RE_nodes = RE_nodes, BA_nodes = BA_nodes, SP_nodes = SP_nodes, all_nodes = all_nodes}
			local all_nodes = {}
			local queue = {}
			add_cable_node(all_nodes, pos1, network_id, queue)
			while next(queue) do
			local to_visit = {}
			for _, pos in ipairs(queue) do
			traverse_network(PR_nodes, RE_nodes, BA_nodes, SP_nodes, all_nodes,
			pos, technic.machines[tier], tier, sw_pos, network_id, to_visit)
			end
			queue = to_visit
			end
			PR_nodes = flatten(PR_nodes)
			BA_nodes = flatten(BA_nodes)
			RE_nodes = flatten(RE_nodes)
			SP_nodes = flatten(SP_nodes)
			all_nodes = flatten(all_nodes)
			technic.networks[network_id] = {tier = tier, all_nodes = all_nodes, SP_nodes = SP_nodes,
			PR_nodes = PR_nodes, RE_nodes = RE_nodes, BA_nodes = BA_nodes}
			return PR_nodes, BA_nodes, RE_nodes
			end

			-----------------------------------------------
			-- The action code for the switching station --
			-----------------------------------------------

			technic.powerctrl_state = true

			minetest.register_chatcommand("powerctrl", {
			params = "state",
			description = "Enables or disables technic's switching station ABM",
			privs = { basic_privs = true },
			func = function(name, state)
			if state == "on" then
			technic.powerctrl_state = true
			else
			technic.powerctrl_state = false
			end
			end
			})

			-- Run all the nodes
			local function run_nodes(list, run_stage)
			for _, pos in ipairs(list) do
			technic.get_or_load_node(pos)
			local node = minetest.get_node_or_nil(pos)
			if node and node.name then
			local nodedef = minetest.registered_nodes[node.name]
			if nodedef and nodedef.technic_run then
			nodedef.technic_run(pos, node, run_stage)
			end
			end
			end
			end

			minetest.register_abm({
			nodenames = {"technic:switching_station"},
			label = "Switching Station", -- allows the mtt profiler to profile this abm individually
			interval = 1,
			chance = 1,
			action = function(pos, node, active_object_count, active_object_count_wider)
			if not technic.powerctrl_state then return end
			local meta = minetest.get_meta(pos)
			local meta1 = nil
			local meta1
			local pos1 = {}
			local PR_EU = 0 -- EUs from PR nodes
			local BA_PR_EU = 0 -- EUs from BA nodes (discharching)
			local BA_RE_EU = 0 -- EUs to BA nodes (charging)
			local RE_EU = 0 -- EUs to RE nodes

			local tier = ""
			local PR_nodes
			@@ -237,6 +266,13 @@
			minetest.forceload_free_block(pos)
			minetest.forceload_free_block(pos1)
			meta:set_string("infotext",S("%s Already Present"):format(machine_name))

			local poshash = minetest.hash_node_position(pos)

			if not technic.redundant_warn[poshash] then
			technic.redundant_warn[poshash] = true
			print("[TECHNIC] Warning: redundant switching station found near "..minetest.pos_to_string(pos))
			end
			return
			end

			@@ -253,21 +289,6 @@
			minetest.forceload_free_block(pos)
			minetest.forceload_free_block(pos1)
			return
			end

			-- Run all the nodes
			local function run_nodes(list, run_stage)
			for _, pos2 in ipairs(list) do
			technic.get_or_load_node(pos2)
			local node2 = minetest.get_node(pos2)
			local nodedef
			if node2 and node2.name then
			nodedef = minetest.registered_nodes[node2.name]
			end
			if nodedef and nodedef.technic_run then
			nodedef.technic_run(pos2, node2, run_stage)
			end
			end
			end

			run_nodes(PR_nodes, technic.producer)
			@@ -335,9 +356,9 @@
			end
			--dprint("Total BA demand:"..BA_eu_demand)

			meta:set_string("infotext",
			S("@1. Supply: @2 Demand: @3",
			machine_name, technic.pretty_num(PR_eu_supply), technic.pretty_num(RE_eu_demand)))
			meta:set_string("infotext", S("@1. Supply: @2 Demand: @3",
			machine_name, technic.EU_string(PR_eu_supply),
			technic.EU_string(RE_eu_demand)))

			-- If mesecon signal and power supply or demand changed then
			-- send them via digilines.
			@@ -436,11 +457,11 @@
			end
			end
			minetest.register_abm({
			label = "Machines: timeout check",
			nodenames = {"group:technic_machine"},
			interval = 1,
			chance = 1,
			action = function(pos, node, active_object_count, active_object_count_wider)
			local meta = minetest.get_meta(pos)
			for tier, machines in pairs(technic.machines) do
			if machines[node.name] and switching_station_timeout_count(pos, tier) then
			local nodedef = minetest.registered_nodes[node.name]
			@@ -461,11 +482,11 @@

			--Re-enable disabled switching station if necessary, similar to the timeout above
			minetest.register_abm({
			label = "Machines: re-enable check",
			nodenames = {"technic:switching_station"},
			interval = 1,
			chance = 1,
			action = function(pos, node, active_object_count, active_object_count_wider)
			local meta = minetest.get_meta(pos)
			local pos1 = {x=pos.x,y=pos.y-1,z=pos.z}
			local tier = technic.get_cable_tier(minetest.get_node(pos1).name)
			if not tier then return end