readme added
Joachim Stolberg
parent
85661da287
commit
f74a3eb041
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@ -0,0 +1,17 @@
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# Techage V0.01
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Techage, go through 4 tech ages in search of wealth and power.
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### License
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Copyright (C) 2019 Joachim Stolberg
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Code: Licensed under the GNU LGPL version 2.1 or later. See LICENSE.txt
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Textures: CC BY-SA 3.0
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### Dependencies
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default,tubelib2,basic_materials,bucket,stairs
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unified_inventory,wielded_light
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### History
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- 2019-06-16 V0.01 * First upload
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2
mod.conf
2
mod.conf
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@ -1,4 +1,4 @@
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name = techage
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name = techage
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depends = default,tubelib2,basic_materials,bucket,stairs
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depends = default,tubelib2,basic_materials,bucket,stairs
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optional_depends = unified_inventory,wielded_light
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optional_depends = unified_inventory,wielded_light
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description = Hello World!
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description = Techage, go through 4 tech ages in search of wealth and power!
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18
power/api.md
18
power/api.md
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@ -3,7 +3,7 @@
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The module power supports 3 kinds of devices:
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The module power supports 3 kinds of devices:
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- Generators: Provide power, can be turned on/off
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- Generators: Provide power, can be turned on/off
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- Consumers: Need power, like machines or lamps, can be turned on/off
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- Consumers: Need power, like machines or lamps, can be turned on/off
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- Batteries: Can provide stored power, combination of generator and consumer
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- Akkus: Can provide stored power, combination of generator and consumer
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### Possible connection sides
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### Possible connection sides
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```
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```
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@ -30,26 +30,12 @@ All 3 kinds of nodes use the same registration function to enrich the nodes func
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-- definition is a table according to:
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-- definition is a table according to:
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{
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{
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on_power_pass1 = func(pos, mem), -- for power balance calculation
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on_power_pass2 = func(pos, mem, sum), -- for power balance adjustment
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on_power_pass3 = func(pos, mem, sum), -- for power balance result
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conn_sides = <list>, -- allowed connection sides for power cables
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conn_sides = <list>, -- allowed connection sides for power cables
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-- one or several of {"L", "R", "U", "D", "F", "B"}
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-- one or several of {"L", "R", "U", "D", "F", "B"}
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power_network = <tubelib2-instance>,
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power_network = <tubelib2-instance>,
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}
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}
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**Pass1: Power balance calculation** `on_power_pass1`
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tbd..........
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Return the currently needed amount of power.
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For batteries, switch to uncharging and return the uncharging value (negative value).
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**Pass2: Power balance adjustment** `on_power_pass2`
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Provides the current power balance. A positive sum means, more power available then needed.
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A battery can turn off or even switch to charging if the balance is positive.
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In this case, return the correction value (a positive value) instead of 0.
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In case of a consumer: turn off if power balance is negative and return the correction value (a negative value).
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**Pass3: Power balance result** `on_power_pass3`
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Function provides the final power balance for output purposes.
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techage.power.power_distribution(pos)
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techage.power.power_distribution(pos)
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331
power/power2.lua
331
power/power2.lua
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@ -1,331 +0,0 @@
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--[[
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TechAge
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=======
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Copyright (C) 2019 Joachim Stolberg
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LGPLv2.1+
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See LICENSE.txt for more information
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Power distribution and consumption calculation
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for any kind of power distribution network
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]]--
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-- for lazy programmers
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local S = function(pos) if pos then return minetest.pos_to_string(pos) end end
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local P = minetest.string_to_pos
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local M = minetest.get_meta
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-- Techage Related Data
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local PWR = function(pos) return (minetest.registered_nodes[minetest.get_node(pos).name] or {}).power end
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local PWRN = function(node) return (minetest.registered_nodes[node.name] or {}).power end
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-- Used to determine the already passed nodes while power distribution
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local Route = {}
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local function pos_already_reached(pos)
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local key = minetest.hash_node_position(pos)
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if not Route[key] then
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Route[key] = true
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return false
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end
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return true
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end
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local SideToDir = {B=1, R=2, F=3, L=4, D=5, U=6}
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local function side_to_dir(param2, side)
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local dir = SideToDir[side]
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if dir < 5 then
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dir = (((dir - 1) + (param2 % 4)) % 4) + 1
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end
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return dir
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end
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--function techage.get_pos(pos, side)
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-- local node = minetest.get_node(pos)
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-- local dir = nil
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-- if node.name ~= "air" and node.name ~= "ignore" then
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-- dir = side_to_dir(node.param2, side)
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-- end
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-- return tubelib2.get_pos(pos, dir)
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--end
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local function set_conn_dirs(pos, sides)
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local tbl = {}
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local node = minetest.get_node(pos)
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if type(sides) == "function" then
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tbl = sides(pos, node)
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else
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for _,side in ipairs(sides) do
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tbl[#tbl+1] = tubelib2.Turn180Deg[side_to_dir(node.param2, side)]
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end
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end
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M(pos):set_string("power_dirs", minetest.serialize(tbl))
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end
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local function valid_indir(pos, in_dir)
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local s = M(pos):get_string("power_dirs")
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if s == "" then
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local pwr = PWR(pos)
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if pwr then
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set_conn_dirs(pos, pwr.conn_sides)
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end
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end
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if s ~= "" then
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for _,dir in ipairs(minetest.deserialize(s)) do
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if dir == in_dir then
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return true
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end
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end
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end
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return false
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end
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local function valid_outdir(pos, out_dir)
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return valid_indir(pos, tubelib2.Turn180Deg[out_dir])
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end
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-- Both nodes are from the same power network type?
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local function matching_nodes(pos, peer_pos)
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local tube_type1 = pos and PWR(pos) and PWR(pos).power_network.tube_type
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local tube_type2 = peer_pos and PWR(peer_pos) and PWR(peer_pos).power_network.tube_type
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return not tube_type1 or not tube_type2 or tube_type1 == tube_type2
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end
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local function connection_walk(pos, clbk)
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local mem = tubelib2.get_mem(pos)
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mem.interrupted_dirs = mem.interrupted_dirs or {}
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if clbk then
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clbk(pos, mem)
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end
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for out_dir,item in pairs(mem.connections or {}) do
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if item.pos and not pos_already_reached(item.pos) and
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not mem.interrupted_dirs[out_dir] then
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connection_walk(item.pos, clbk)
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end
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end
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end
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-- determine one "generating" node as master (largest hash number)
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local function determine_master(pos)
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Route = {}
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pos_already_reached(pos)
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local hash = 0
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local master = nil
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connection_walk(pos, function(pos, mem)
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if mem.generating then
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local new = minetest.hash_node_position(pos)
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if hash <= new then
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hash = new
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master = pos
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end
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end
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end)
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return master
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end
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-- store master position on all network nodes
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local function store_master(pos, master_pos)
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Route = {}
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pos_already_reached(pos)
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connection_walk(pos, function(pos, mem)
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mem.master_pos = master_pos
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mem.is_master = false
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end)
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end
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-- called from master every 2 seconds
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local function accounting(mem)
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mem.debit2 = mem.debit1 or 0
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mem.credit2 = mem.credit1 or 0
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mem.secondary = mem.secondary or 0
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mem.gap = mem.debit2 - mem.credit2
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mem.credit2 = mem.credit2 + mem.secondary
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--print("needed = "..(mem.debit2 or 0)..", available = "..(mem.credit2 or 0)..", gap = "..mem.gap..", secondary = "..mem.secondary)
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mem.debit1 = 0
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mem.credit1 = 0
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mem.secondary = 0
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end
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-- called from any generator
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local function on_power_switch(pos)
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print("on_power_change"..S(pos))
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local mem = tubelib2.get_mem(pos)
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mem.master_pos = nil
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mem.is_master = nil
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local mpos = determine_master(pos)
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store_master(pos, mpos)
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if mpos then
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print("master = "..S(mpos))
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local mem = tubelib2.get_mem(mpos)
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mem.is_master = true
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return mem
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end
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end
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-- called from tubelib2.after_tube_update
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local function on_network_change(pos)
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local mem = on_power_switch(pos)
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if mem then
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accounting(mem)
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end
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end
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--
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-- Generic API functions
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--
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techage.power2 = {}
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techage.power2.power_switched = on_power_switch
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techage.power2.on_network_change = on_network_change
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function techage.power2.register_node(names, pwr_def)
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for _,name in ipairs(names) do
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local ndef = minetest.registered_nodes[name]
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if ndef then
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minetest.override_item(name, {
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power = {
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conn_sides = pwr_def.conn_sides or {"L", "R", "U", "D", "F", "B"},
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power_network = pwr_def.power_network,
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after_place_node = ndef.after_place_node,
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after_dig_node = ndef.after_dig_node,
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after_tube_update = ndef.after_tube_update,
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},
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-- after_place_node decorator
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after_place_node = function(pos, placer, itemstack, pointed_thing)
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local pwr = PWR(pos)
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set_conn_dirs(pos, pwr.conn_sides)
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pwr.power_network:after_place_node(pos)
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if pwr.after_place_node then
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return pwr.after_place_node(pos, placer, itemstack, pointed_thing)
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end
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end,
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-- after_dig_node decorator
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after_dig_node = function(pos, oldnode, oldmetadata, digger)
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local pwr = PWRN(oldnode)
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pwr.power_network:after_dig_node(pos)
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minetest.after(0.1, tubelib2.del_mem, pos) -- At latest...
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if pwr.after_dig_node then
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return pwr.after_dig_node(pos, oldnode, oldmetadata, digger)
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end
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end,
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-- tubelib2 callback, called after any connection change
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after_tube_update = function(node, pos, out_dir, peer_pos, peer_in_dir)
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local pwr = PWR(pos)
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local mem = tubelib2.get_mem(pos)
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mem.connections = mem.connections or {}
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if not peer_pos or not valid_indir(peer_pos, peer_in_dir)
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or not valid_outdir(pos, out_dir)
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or not matching_nodes(pos, peer_pos) then
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mem.connections[out_dir] = nil -- del connection
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else
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mem.connections[out_dir] = {pos = peer_pos, in_dir = peer_in_dir}
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end
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-- To be called delayed, so that all network connections have been established
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minetest.after(0.2, on_network_change, pos)
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if pwr.after_tube_update then
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return pwr.after_tube_update(node, pos, out_dir, peer_pos, peer_in_dir)
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end
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end,
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})
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pwr_def.power_network:add_secondary_node_names({name})
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end
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end
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end
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function techage.power2.consume_power(pos, needed)
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local master_pos = tubelib2.get_mem(pos).master_pos
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if master_pos then
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local mem = tubelib2.get_mem(master_pos)
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mem.debit1 = mem.debit1 or 0
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mem.credit2 = mem.credit2 or 0
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mem.debit1 = mem.debit1 + needed
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if mem.credit2 >= needed then
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mem.credit2 = mem.credit2 - needed
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return needed
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end
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end
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return 0
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end
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function techage.power2.provide_power(pos, available)
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local mem = tubelib2.get_mem(pos)
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if mem.is_master then
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accounting(mem)
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elseif mem.master_pos then
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mem = tubelib2.get_mem(mem.master_pos)
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else
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return 0
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end
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mem.credit1 = mem.credit1 or 0
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mem.debit2 = mem.debit2 or 0
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mem.credit1 = mem.credit1 + available
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if mem.debit2 > available then
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mem.debit2 = mem.debit2 - available
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return available
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else
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local rest = mem.debit2
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mem.debit2 = 0
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return rest
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end
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end
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function techage.power2.secondary_power(pos, provide, consume)
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local mem = tubelib2.get_mem(pos)
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if mem.is_master then
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accounting(mem)
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elseif mem.master_pos then
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mem = tubelib2.get_mem(mem.master_pos)
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else
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return 0
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end
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mem.gap = mem.gap or 0
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mem.secondary = (mem.secondary or 0) + provide
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if mem.gap > 0 then
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local val = math.min(mem.gap, provide)
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mem.gap = mem.gap - val
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return val
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elseif mem.gap < 0 then
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return math.max(mem.gap, -consume)
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end
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return 0
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-- mem.debit2 = mem.debit2 or 0
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-- mem.credit1 = mem.credit1 + available
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-- if mem.debit2 > available then
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-- mem.debit2 = mem.debit2 - available
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-- return available
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-- else
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-- local rest = mem.debit2
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-- mem.debit2 = 0
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-- return rest
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-- end
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end
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function techage.power2.formspec_load_bar(charging, max_val)
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||||||
local percent
|
|
||||||
charging = charging or 0
|
|
||||||
max_val = max_val or 1
|
|
||||||
if charging ~= 0 then
|
|
||||||
percent = 50 + math.ceil((charging * 50.0) / max_val)
|
|
||||||
end
|
|
||||||
|
|
||||||
if charging > 0 then
|
|
||||||
return "techage_form_level_off.png^[lowpart:"..percent..":techage_form_level_charge.png"
|
|
||||||
elseif charging < 0 then
|
|
||||||
return "techage_form_level_unload.png^[lowpart:"..percent..":techage_form_level_off.png"
|
|
||||||
else
|
|
||||||
return "techage_form_level_off.png"
|
|
||||||
end
|
|
||||||
end
|
|
||||||
BIN
screenshot.png
BIN
screenshot.png
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Reference in New Issue