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-- 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",
recipe = {
{"", "technic:lv_transformer", ""},
{"default:copper_ingot", "technic:machine_casing", "default:copper_ingot"},
{"technic:lv_cable", "technic:lv_cable", "technic:lv_cable"}
}
})
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"..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(),
on_construct = function(pos)
local meta = minetest.get_meta(pos)
meta:set_string("infotext", S("Switching Station"))
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
return
end
local plname = sender:get_player_name()
if minetest.is_protected(pos, plname) then
minetest.record_protection_violation(pos, plname)
return
end
local meta = minetest.get_meta(pos)
meta:set_string("channel", fields.channel)
end,
mesecons = mesecon_def,
digiline = {
receptor = {action = function() end},
effector = {
action = function(pos, node, channel, msg)
if msg ~= "GET" and msg ~= "get" then
return
end
local meta = minetest.get_meta(pos)
if channel ~= meta:get_string("channel") then
return
end
digilines.receptor_send(pos, digilines.rules.default, channel, {
supply = meta:get_int("supply"),
demand = meta:get_int("demand")
})
end
},
},
})
--------------------------------------------------
-- 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 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
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, 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_cable_node(all_nodes, pos,network_id, queue)
elseif machines[name] then
--dprint(name.." is a "..machines[name])
meta:set_string(tier.."_network",minetest.pos_to_string(sw_pos))
if machines[name] == technic.producer then
add_network_node(PR_nodes, pos, network_id)
elseif machines[name] == technic.receiver then
add_network_node(RE_nodes, pos, network_id)
elseif machines[name] == technic.producer_receiver then
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_network_node(SP_nodes, pos, network_id)
meta:set_int("active", 0)
elseif machines[name] == technic.battery then
add_network_node(BA_nodes, pos, network_id)
end
meta:set_int(tier.."_EU_timeout", 2) -- Touch node
end
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, 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},
{x=pos.x, y=pos.y+1, z=pos.z},
{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}}
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, queue)
end
end
local touch_nodes = function(list, tier)
for _, pos in ipairs(list) do
local meta = minetest.get_meta(pos)
meta:set_int(tier.."_EU_timeout", 2) -- Touch node
end
end
local get_network = function(sw_pos, pos1, tier)
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)
touch_nodes(cached.RE_nodes, tier)
for _, pos in ipairs(cached.SP_nodes) do
local meta = minetest.get_meta(pos)
meta:set_int("active", 0)
meta:set_string("active_pos", minetest.serialize(sw_pos))
end
return cached.PR_nodes, cached.BA_nodes, cached.RE_nodes
end
local PR_nodes = {}
local BA_nodes = {}
local RE_nodes = {}
local SP_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
})
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 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
local BA_nodes
local RE_nodes
local machine_name = S("Switching Station")
-- Which kind of network are we on:
pos1 = {x=pos.x, y=pos.y-1, z=pos.z}
--Disable if necessary
if meta:get_int("active") ~= 1 then
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
local name = minetest.get_node(pos1).name
local tier = technic.get_cable_tier(name)
if tier then
-- Forceload switching station
minetest.forceload_block(pos)
minetest.forceload_block(pos1)
PR_nodes, BA_nodes, RE_nodes = get_network(pos, pos1, tier)
else
--dprint("Not connected to a network")
meta:set_string("infotext", S("%s Has No Network"):format(machine_name))
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)
run_nodes(RE_nodes, technic.receiver)
run_nodes(BA_nodes, technic.battery)
-- Strings for the meta data
local eu_demand_str = tier.."_EU_demand"
local eu_input_str = tier.."_EU_input"
local eu_supply_str = tier.."_EU_supply"
-- Distribute charge equally across multiple batteries.
local charge_total = 0
local battery_count = 0
for n, pos1 in pairs(BA_nodes) do
meta1 = minetest.get_meta(pos1)
local charge = meta1:get_int("internal_EU_charge")
if (meta1:get_int(eu_demand_str) ~= 0) then
charge_total = charge_total + charge
battery_count = battery_count + 1
end
end
local charge_distributed = math.floor(charge_total / battery_count)
for n, pos1 in pairs(BA_nodes) do
meta1 = minetest.get_meta(pos1)
if (meta1:get_int(eu_demand_str) ~= 0) then
meta1:set_int("internal_EU_charge", charge_distributed)
end
end
-- Get all the power from the PR nodes
local PR_eu_supply = 0 -- Total power
for _, pos1 in pairs(PR_nodes) do
meta1 = minetest.get_meta(pos1)
PR_eu_supply = PR_eu_supply + meta1:get_int(eu_supply_str)
end
--dprint("Total PR supply:"..PR_eu_supply)
-- Get all the demand from the RE nodes
local RE_eu_demand = 0
for _, pos1 in pairs(RE_nodes) do
meta1 = minetest.get_meta(pos1)
RE_eu_demand = RE_eu_demand + meta1:get_int(eu_demand_str)
end
--dprint("Total RE demand:"..RE_eu_demand)
-- Get all the power from the BA nodes
local BA_eu_supply = 0
for _, pos1 in pairs(BA_nodes) do
meta1 = minetest.get_meta(pos1)
BA_eu_supply = BA_eu_supply + meta1:get_int(eu_supply_str)
end
--dprint("Total BA supply:"..BA_eu_supply)
-- Get all the demand from the BA nodes
local BA_eu_demand = 0
for _, pos1 in pairs(BA_nodes) do
meta1 = minetest.get_meta(pos1)
BA_eu_demand = BA_eu_demand + meta1:get_int(eu_demand_str)
end
--dprint("Total BA demand:"..BA_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.
if mesecons_path and digilines_path and mesecon.is_powered(pos) then
if PR_eu_supply ~= meta:get_int("supply") or
RE_eu_demand ~= meta:get_int("demand") then
local channel = meta:get_string("channel")
digilines.receptor_send(pos, digilines.rules.default, channel, {
supply = PR_eu_supply,
demand = RE_eu_demand
})
end
end
-- Data that will be used by the power monitor
meta:set_int("supply",PR_eu_supply)
meta:set_int("demand",RE_eu_demand)
-- If the PR supply is enough for the RE demand supply them all
if PR_eu_supply >= RE_eu_demand then
--dprint("PR_eu_supply"..PR_eu_supply.." >= RE_eu_demand"..RE_eu_demand)
for _, pos1 in pairs(RE_nodes) do
meta1 = minetest.get_meta(pos1)
local eu_demand = meta1:get_int(eu_demand_str)
meta1:set_int(eu_input_str, eu_demand)
end
-- We have a surplus, so distribute the rest equally to the BA nodes
-- Let's calculate the factor of the demand
PR_eu_supply = PR_eu_supply - RE_eu_demand
local charge_factor = 0 -- Assume all batteries fully charged
if BA_eu_demand > 0 then
charge_factor = PR_eu_supply / BA_eu_demand
end
for n, pos1 in pairs(BA_nodes) do
meta1 = minetest.get_meta(pos1)
local eu_demand = meta1:get_int(eu_demand_str)
meta1:set_int(eu_input_str, math.floor(eu_demand * charge_factor))
--dprint("Charging battery:"..math.floor(eu_demand*charge_factor))
end
return
end
-- If the PR supply is not enough for the RE demand we will discharge the batteries too
if PR_eu_supply + BA_eu_supply >= RE_eu_demand then
--dprint("PR_eu_supply "..PR_eu_supply.."+BA_eu_supply "..BA_eu_supply.." >= RE_eu_demand"..RE_eu_demand)
for _, pos1 in pairs(RE_nodes) do
meta1 = minetest.get_meta(pos1)
local eu_demand = meta1:get_int(eu_demand_str)
meta1:set_int(eu_input_str, eu_demand)
end
-- We have a deficit, so distribute to the BA nodes
-- Let's calculate the factor of the supply
local charge_factor = 0 -- Assume all batteries depleted
if BA_eu_supply > 0 then
charge_factor = (PR_eu_supply - RE_eu_demand) / BA_eu_supply
end
for n,pos1 in pairs(BA_nodes) do
meta1 = minetest.get_meta(pos1)
local eu_supply = meta1:get_int(eu_supply_str)
meta1:set_int(eu_input_str, math.floor(eu_supply * charge_factor))
--dprint("Discharging battery:"..math.floor(eu_supply*charge_factor))
end
return
end
-- If the PR+BA supply is not enough for the RE demand: Power only the batteries
local charge_factor = 0 -- Assume all batteries fully charged
if BA_eu_demand > 0 then
charge_factor = PR_eu_supply / BA_eu_demand
end
for n, pos1 in pairs(BA_nodes) do
meta1 = minetest.get_meta(pos1)
local eu_demand = meta1:get_int(eu_demand_str)
meta1:set_int(eu_input_str, math.floor(eu_demand * charge_factor))
end
for n, pos1 in pairs(RE_nodes) do
meta1 = minetest.get_meta(pos1)
meta1:set_int(eu_input_str, 0)
end
end,
})
-- Timeout ABM
-- Timeout for a node in case it was disconnected from the network
-- A node must be touched by the station continuously in order to function
local function switching_station_timeout_count(pos, tier)
local meta = minetest.get_meta(pos)
local timeout = meta:get_int(tier.."_EU_timeout")
if timeout <= 0 then
meta:set_int(tier.."_EU_input", 0) -- Not needed anymore <-- actually, it is for supply converter
return true
else
meta:set_int(tier.."_EU_timeout", timeout - 1)
return false
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]
if nodedef and nodedef.technic_disabled_machine_name then
node.name = nodedef.technic_disabled_machine_name
minetest.swap_node(pos, node)
elseif nodedef and nodedef.technic_on_disable then
nodedef.technic_on_disable(pos, node)
end
if nodedef then
local meta = minetest.get_meta(pos)
meta:set_string("infotext", S("%s Has No Network"):format(nodedef.description))
end
end
end
end,
})
--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
if switching_station_timeout_count(pos, tier) then
local meta = minetest.get_meta(pos)
meta:set_int("active",1)
end
end,
})
for tier, machines in pairs(technic.machines) do
-- SPECIAL will not be traversed
technic.register_machine(tier, "technic:switching_station", "SPECIAL")
end
|