techage_modpack/networks/power.lua

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--[[
Networks
========
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Copyright (C) 2021-2023 Joachim Stolberg
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AGPL v3
See LICENSE.txt for more information
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Power API for power consuming and generating nodes
]]--
-- for lazy programmers
local S2P = minetest.string_to_pos
local P2S = function(pos) if pos then return minetest.pos_to_string(pos) end end
local M = minetest.get_meta
local N = tubelib2.get_node_lvm
local OBS = networks.node_observer
local Flip = tubelib2.Turn180Deg
networks.power = {}
networks.registered_networks.power = {}
local DEFAULT_DATA = {
curr_load = 0, -- network storage value
max_capa = 0, -- network storage capacity
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consumed = 0, -- consumed power by consumers
provided = 0, -- provided power by generators
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available = 0, -- max. available generator power
netw_num = 0, -- network number
}
-- Storage parameters:
-- capa = maximum value in power units
-- load = current value in power units
-- level = ratio value (load/capa) (0..1)
local Power = {} -- {netID = {curr_load, max_capa, consumed, provided, available}}
-- Determine load, capa and other power network data
local function get_power_data(pos, tlib2, outdir, netID)
assert(outdir)
local netw = networks.get_network_table(pos, tlib2, outdir) or {}
local max_capa = 1 -- to prevent nan
local max_perf = 0
local curr_load = 0
-- Generators
for _,item in ipairs(netw.gen or {}) do
local ndef = minetest.registered_nodes[N(item.pos).name]
local data = ndef.get_generator_data and ndef.get_generator_data(item.pos, Flip[item.indir], tlib2)
if data then
OBS("get_power_data", item.pos, data)
max_capa = max_capa + (data.capa or 0)
max_perf = max_perf + (data.perf or 0)
curr_load = curr_load + ((data.level or 0) * (data.capa or 0))
end
end
-- Storage systems
for _,item in ipairs(netw.sto or {}) do
local ndef = minetest.registered_nodes[N(item.pos).name]
local data = ndef.get_storage_data and ndef.get_storage_data(item.pos, Flip[item.indir], tlib2)
if data then
OBS("get_power_data", item.pos, data)
max_capa = max_capa + (data.capa or 0)
curr_load = curr_load + ((data.level or 0) * (data.capa or 0))
end
end
Power[netID] = {
curr_load = curr_load, -- network storage value
max_capa = max_capa, -- network storage capacity
max_perf = max_perf, -- max. available power
consumed = 0, -- consumed power
provided = 0, -- provided power
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available = 0, -- available power
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num_nodes = netw.num_nodes,
}
return Power[netID]
end
-------------------------------------------------------------------------------
-- For all types of nodes
-------------------------------------------------------------------------------
-- names: list of node names
-- tlib2: tubelib2 instance
-- node_type: one of "gen", "con", "sto", "junc"
-- valid_sides: something like {"L", "R"} or nil
function networks.power.register_nodes(names, tlib2, node_type, valid_sides)
if node_type == "gen" then
assert(#valid_sides <= 2)
elseif node_type == "sto" then
assert(#valid_sides == 1)
elseif node_type == "con" or node_type == "junc" then
assert(not valid_sides or type(valid_sides) == "table")
valid_sides = valid_sides or {"B", "R", "F", "L", "D", "U"}
elseif node_type and type(node_type) == "string" then
valid_sides = valid_sides or {"B", "R", "F", "L", "D", "U"}
else
error("parameter error")
end
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tlib2:add_secondary_node_names(names)
networks.registered_networks.power[tlib2.tube_type] = tlib2
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for _, name in ipairs(names) do
local ndef = minetest.registered_nodes[name]
local tbl = ndef.networks or {}
assert(tbl[tlib2.tube_type] == nil, "more than one call of 'networks.power.register_nodes' for " .. names[1])
tbl[tlib2.tube_type] = {ntype = node_type}
minetest.override_item(name, {networks = tbl})
tlib2:set_valid_sides(name, valid_sides)
end
end
-- To be called for each power network change via
-- tubelib2_on_update2 or register_on_tube_update2
function networks.power.update_network(pos, outdir, tlib2, node)
local ndef = networks.net_def(pos, tlib2.tube_type)
assert(ndef, "node " .. N(pos).name .. " has no 'networks." .. tlib2.tube_type .. "' table")
if ndef.ntype == "junc" then
outdir = 0
end
local netID = networks.get_netID(pos, outdir)
if netID then
Power[netID] = nil
end
networks.update_network(pos, outdir, tlib2, node)
end
-------------------------------------------------------------------------------
-- Consumer
-------------------------------------------------------------------------------
-- Function checks for a power grid, not for enough power
-- Param outdir is optional
function networks.power.power_available(pos, tlib2, outdir)
for _,outdir in ipairs(networks.get_outdirs(pos, tlib2, outdir)) do
local netID = networks.determine_netID(pos, tlib2, outdir)
if netID then
local pwr = Power[netID] or get_power_data(pos, tlib2, outdir, netID)
OBS("power_available", pos, pwr)
return pwr.curr_load > 0
end
end
end
-- Param outdir is optional
function networks.power.consume_power(pos, tlib2, outdir, amount)
assert(amount)
for _,outdir in ipairs(networks.get_outdirs(pos, tlib2, outdir)) do
local netID = networks.determine_netID(pos, tlib2, outdir)
if netID then
local pwr = Power[netID] or get_power_data(pos, tlib2, outdir, netID)
OBS("consume_power", pos, {outdir = outdir, amount = amount}, pwr)
if pwr.curr_load >= amount then
pwr.curr_load = pwr.curr_load - amount
pwr.consumed = pwr.consumed + amount
return amount
else
local consumed = pwr.curr_load
pwr.curr_load = 0
pwr.consumed = pwr.consumed + consumed
return consumed
end
end
end
return 0
end
-------------------------------------------------------------------------------
-- Generator
-------------------------------------------------------------------------------
-- amount is the maximum power, the generator can provide.
-- cp1 and cp2 are control points for the charge regulator.
-- From cp1 the charging power is reduced more and more and reaches zero at cp2.
--
-- A
-- |
-- 100 % |-------------------__
-- | --__
-- | --__
-- | --__
-- --+------------------+---------------+---->
-- | cp1 cp2
--
function networks.power.provide_power(pos, tlib2, outdir, amount, cp1, cp2)
assert(outdir)
assert(amount and amount > 0)
local netID = networks.determine_netID(pos, tlib2, outdir)
if netID then
local pwr = Power[netID] or get_power_data(pos, tlib2, outdir, netID)
local x = pwr.curr_load / pwr.max_capa
OBS("provide_power", pos, {outdir = outdir, amount = amount}, pwr)
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pwr.available = pwr.available + amount
amount = math.min(amount, pwr.max_capa - pwr.curr_load)
cp1 = cp1 or 0.8
cp2 = cp2 or 1.0
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if x < cp1 then -- charge with full power
pwr.curr_load = pwr.curr_load + amount
pwr.provided = pwr.provided + amount
return amount
elseif x < cp2 then -- charge with reduced power
local factor = 1 - ((x - cp1) / (cp2 - cp1))
local provided = amount * factor
pwr.curr_load = pwr.curr_load + provided
pwr.provided = pwr.provided + provided
return provided
else -- turn off
return 0
end
end
return 0
end
-- Function for generators with storage capacity
function networks.power.get_storage_load(pos, tlib2, outdir, amount)
local netID = networks.determine_netID(pos, tlib2, outdir)
if netID then
local pwr = Power[netID] or get_power_data(pos, tlib2, outdir, netID)
OBS("get_storage_load", pos, pwr)
if pwr.max_capa and pwr.max_capa > 0 then
return pwr.curr_load / pwr.max_capa * amount
else
error("invalid pwr.max_capa", pwr.max_capa)
end
end
return 0
end
-------------------------------------------------------------------------------
-- Storage
-------------------------------------------------------------------------------
-- Function returns a table with storage level as ratio (0..1) and the
-- charging state (1 = charging, -1 = uncharging, or 0)
-- Function provides nil if no network is available
function networks.power.get_storage_data(pos, tlib2, outdir)
assert(outdir)
local netID = networks.determine_netID(pos, tlib2, outdir)
if netID then
local pwr = Power[netID] or get_power_data(pos, tlib2, outdir, netID)
OBS("get_storage_data", pos, pwr)
local charging = (pwr.provided > pwr.consumed and 1) or (pwr.provided < pwr.consumed and -1) or 0
return {level = pwr.curr_load / pwr.max_capa, charging = charging}
end
end
-- To be called for each network storage change (turn on/off of storage/generator nodes)
function networks.power.start_storage_calc(pos, tlib2, outdir)
assert(outdir)
local netID = networks.determine_netID(pos, tlib2, outdir)
OBS("start_storage_calc", pos)
if netID then
Power[netID] = nil
end
end
-------------------------------------------------------------------------------
-- Transformer
-------------------------------------------------------------------------------
-- Charge transfer in both directions between network 1 and network 2
-- 'netw1' and 'netw2' are tubelib2 network instances.
-- Function returns a table with result values for:
-- {curr_load1, curr_load2, max_capa1, max_capa2, moved}
function networks.power.transfer_duplex(pos, netw1, outdir1, netw2, outdir2, amount)
local netID1 = networks.determine_netID(pos, netw1, outdir1)
local netID2 = networks.determine_netID(pos, netw2, outdir2)
if netID1 and netID2 then
local pwr1 = Power[netID1] or get_power_data(pos, netw1, outdir1, netID1)
local pwr2 = Power[netID2] or get_power_data(pos, netw2, outdir2, netID2)
local lvl = pwr1.curr_load / pwr1.max_capa - pwr2.curr_load / pwr2.max_capa
local moved
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pwr2.available = pwr2.available + amount
pwr1.available = pwr1.available + amount
if lvl > 0 then
-- transfer from netw1 to netw2
moved = math.min(amount, lvl * math.min(pwr1.max_capa, pwr2.max_capa))
moved = math.max(moved, 0)
pwr1.curr_load = pwr1.curr_load - moved
pwr2.curr_load = pwr2.curr_load + moved
pwr1.consumed = (pwr1.consumed or 0) + moved
pwr2.provided = (pwr2.provided or 0) + moved
elseif lvl < 0 then
-- transfer from netw2 to netw1
moved = math.min(amount, lvl * math.min(pwr1.max_capa, pwr2.max_capa))
moved = math.max(moved, 0)
pwr2.curr_load = pwr2.curr_load - moved
pwr1.curr_load = pwr1.curr_load + moved
pwr2.consumed = (pwr2.consumed or 0) + moved
pwr1.provided = (pwr1.provided or 0) + moved
else
moved = 0
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end
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OBS("transfer_duplex", pos, pwr1, pwr2)
return {
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curr_load1 = pwr1.curr_load,
curr_load2 = pwr2.curr_load,
max_capa1 = pwr1.max_capa,
max_capa2 = pwr2.max_capa,
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moved = moved}
end
end
-- Charge transfer in one direction from network 1 to network 2
-- 'netw1' and 'netw2' are tubelib2 network instances.
-- Function returns a table with result values for:
-- {curr_load1, curr_load2, max_capa1, max_capa2, moved}
function networks.power.transfer_simplex(pos, netw1, outdir1, netw2, outdir2, amount)
local netID1 = networks.determine_netID(pos, netw1, outdir1)
local netID2 = networks.determine_netID(pos, netw2, outdir2)
if netID1 and netID2 then
local pwr1 = Power[netID1] or get_power_data(pos, netw1, outdir1, netID1)
local pwr2 = Power[netID2] or get_power_data(pos, netw2, outdir2, netID2)
local lvl = pwr1.curr_load / pwr1.max_capa - pwr2.curr_load / pwr2.max_capa
local moved
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pwr2.available = pwr2.available + amount
if lvl > 0 then
-- transfer from netw1 to netw2
moved = math.min(amount, lvl * math.min(pwr1.max_capa, pwr2.max_capa))
moved = math.max(moved, 0)
pwr1.curr_load = pwr1.curr_load - moved
pwr2.curr_load = pwr2.curr_load + moved
pwr1.consumed = (pwr1.consumed or 0) + moved
pwr2.provided = (pwr2.provided or 0) + moved
else
moved = 0
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end
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OBS("transfer_simplex", pos, pwr1, pwr2)
return {
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curr_load1 = pwr1.curr_load,
curr_load2 = pwr2.curr_load,
max_capa1 = pwr1.max_capa,
max_capa2 = pwr2.max_capa,
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moved = moved}
end
end
-------------------------------------------------------------------------------
-- Switch
-------------------------------------------------------------------------------
function networks.power.turn_switch_on(pos, tlib2, name_off, name_on)
local node = N(pos)
local meta = M(pos)
local changed = false
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if node.name == name_off then
node.name = name_on
changed = true
elseif meta:get_string("netw_name") == name_off then
meta:set_string("netw_name", name_on)
else
return false
end
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if meta:contains("netw_param2") then
meta:set_int("netw_param2", meta:get_int("netw_param2_copy"))
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else
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node.param2 = meta:get_int("netw_param2_copy")
end
meta:set_int("netw_param2_copy", 0)
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if changed then
minetest.swap_node(pos, node)
end
tlib2:after_place_tube(pos)
return true
end
function networks.power.turn_switch_off(pos, tlib2, name_off, name_on)
local node = N(pos)
local meta = M(pos)
local changed = false
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if node.name == name_on then
node.name = name_off
changed = true
elseif meta:get_string("netw_name") == name_on then
meta:set_string("netw_name", name_off)
else
return false
end
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if meta:contains("netw_param2") then
meta:set_int("netw_param2_copy", meta:get_int("netw_param2"))
--meta:set_int("netw_param2", 0)
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else
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meta:set_int("netw_param2_copy", node.param2)
end
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if changed then
minetest.swap_node(pos, node)
end
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if meta:contains("netw_param2") then
node.param2 = meta:get_int("netw_param2")
end
tlib2:after_dig_tube(pos, node)
return true
end
-------------------------------------------------------------------------------
-- Statistics
-------------------------------------------------------------------------------
function networks.power.get_network_data(pos, tlib2, outdir)
for _,outdir in ipairs(networks.get_outdirs(pos, tlib2, outdir)) do
local netID = networks.determine_netID(pos, tlib2, outdir)
if netID then
local pwr = Power[netID] or get_power_data(pos, tlib2, outdir, netID)
local consumed, provided, available
if pwr.available > 0 and pwr.max_perf > 0 then
local fac = pwr.max_perf / pwr.available
available = pwr.max_perf
provided = pwr.provided * fac
consumed = pwr.consumed * fac
else
available = pwr.max_perf
provided = 0
consumed = pwr.consumed
end
local res = {
curr_load = pwr.curr_load, -- network storage value
max_capa = pwr.max_capa, -- network storage capacity
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consumed = consumed, -- consumed power by consumers
provided = provided, -- provided power by generators
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available = available, -- max. available generator power
netw_num = networks.netw_num(netID), -- network number
}
pwr.consumed = 0
pwr.provided = 0
pwr.available = 0
return res
end
end
return DEFAULT_DATA
end
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function networks.power.get_storage_percent(pos, tlib2, outdir)
assert(outdir)
local netID = networks.determine_netID(pos, tlib2, outdir)
if netID then
local pwr = Power[netID] or get_power_data(pos, tlib2, outdir, netID)
return (pwr.curr_load or 0) * 100 / (pwr.max_capa or 1)
end
return 0
end