Show EU power values more readable (#424)
Add the EU_string helper function In comparison to pretty_num it uses SI prefixes, adds "EU" (e.g. kEU) and rounds the number for readability Add a constant_digit_count boolean setting
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@ -11,9 +11,12 @@ switching station handles the network activity.
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Helper functions
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Helper functions
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----------------
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----------------
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* `technic.EU_string(num)`
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* Converts num to a human-readable string (see pretty_num)
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and adds the `EU` unit
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* Use this function when showing players energy values
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* `technic.pretty_num(num)`
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* `technic.pretty_num(num)`
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* Converts the number `num` to a human-readable string.
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* Converts the number `num` to a human-readable string with SI prefixes
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* Use this function when showing players power values.
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* `technic.swap_node(pos, nodename)`
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* `technic.swap_node(pos, nodename)`
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* Same as `mintest.swap_node` but it only changes the nodename.
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* Same as `mintest.swap_node` but it only changes the nodename.
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* It uses `minetest.get_node` before swapping to ensure the new nodename
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* It uses `minetest.get_node` before swapping to ensure the new nodename
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@ -1,23 +1,56 @@
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local digit_sep_esc
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local constant_digit_count = technic.config:get("constant_digit_count")
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do
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local sep = technic.config:get("digit_separator")
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-- converts a number to a readable string with SI prefix, e.g. 10000 → "10 k",
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sep = tonumber(sep) and string.char(sep) or sep or " "
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-- 15 → "15 ", 0.1501 → "150.1 m"
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-- Escape for gsub
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-- a non-breaking space (U+a0) instead of a usual one is put after number
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for magic in ("().%+-*?[^$"):gmatch(".") do
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-- The precision is 4 digits
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if sep == magic then
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local prefixes = {[-8] = "y", [-7] = "z", [-6] = "a", [-5] = "f", [-4] = "p",
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sep = "%"..sep
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[-3] = "n", [-2] = "µ", [-1] = "m", [0] = "", [1] = "k", [2] = "M",
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end
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[3] = "G", [4] = "T", [5] = "P", [6] = "E", [7] = "Z", [8] = "Y"}
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function technic.pretty_num(num)
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-- the small number added is due to floating point inaccuracy
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local b = math.floor(math.log10(math.abs(num)) +0.000001)
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local pref_i
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if b ~= 0 then
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-- b is decremented by 1 to avoid a single digit with many decimals,
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-- e.g. instead of 1.021 MEU, 1021 kEU is shown
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pref_i = math.floor((b - 1) / 3)
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else
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-- as special case, avoid showing e.g. 1100 mEU instead of 1.1 EU
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pref_i = 0
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end
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end
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digit_sep_esc = sep
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if not prefixes[pref_i] then
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-- This happens for 0, nan, inf, very big values, etc.
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if num == 0 then
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-- handle 0 explicilty to avoid showing "-0"
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if not constant_digit_count then
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return "0 "
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end
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-- gives 0.000
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return string.format("%.3f ", 0)
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end
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return string.format("%.4g ", num)
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end
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num = num * 10 ^ (-3 * pref_i)
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if constant_digit_count then
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local comma_digits_cnt = 3 - (b - 3 * pref_i)
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return string.format("%." .. comma_digits_cnt .. "f %s",
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num, prefixes[pref_i])
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end
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return string.format("%.4g %s", num, prefixes[pref_i])
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end
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end
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-- some unittests
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assert(technic.pretty_num(-0) == "0 ")
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assert(technic.pretty_num(0) == "0 ")
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assert(technic.pretty_num(1234) == "1234 ")
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assert(technic.pretty_num(123456789) == "123.5 M")
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function technic.pretty_num(num)
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local str, k = tostring(num), nil
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-- used to display power values
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repeat
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function technic.EU_string(num)
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str, k = str:gsub("^(-?%d+)(%d%d%d)", "%1"..digit_sep_esc.."%2")
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return technic.pretty_num(num) .. "EU"
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until k == 0
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return str
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end
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end
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@ -35,7 +35,8 @@ local run = function(pos, node)
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local charge_to_give = math.floor((light + pos1.y) * 3)
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local charge_to_give = math.floor((light + pos1.y) * 3)
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charge_to_give = math.max(charge_to_give, 0)
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charge_to_give = math.max(charge_to_give, 0)
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charge_to_give = math.min(charge_to_give, 200)
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charge_to_give = math.min(charge_to_give, 200)
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meta:set_string("infotext", S("@1 Active (@2 EU)", machine_name, technic.pretty_num(charge_to_give)))
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meta:set_string("infotext", S("@1 Active (@2)", machine_name,
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technic.EU_string(charge_to_give)))
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meta:set_int("LV_EU_supply", charge_to_give)
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meta:set_int("LV_EU_supply", charge_to_give)
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else
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else
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meta:set_string("infotext", S("%s Idle"):format(machine_name))
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meta:set_string("infotext", S("%s Idle"):format(machine_name))
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@ -54,7 +55,7 @@ minetest.register_node("technic:solar_panel", {
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active = false,
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active = false,
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drawtype = "nodebox",
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drawtype = "nodebox",
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paramtype = "light",
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paramtype = "light",
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is_ground_content = true,
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is_ground_content = true,
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node_box = {
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node_box = {
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type = "fixed",
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type = "fixed",
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fixed = {-0.5, -0.5, -0.5, 0.5, 0, 0.5},
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fixed = {-0.5, -0.5, -0.5, 0.5, 0, 0.5},
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@ -60,7 +60,8 @@ local run = function(pos, node)
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elseif check == true then
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elseif check == true then
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local power = math.min(pos.y * 100, 5000)
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local power = math.min(pos.y * 100, 5000)
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meta:set_int("MV_EU_supply", power)
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meta:set_int("MV_EU_supply", power)
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meta:set_string("infotext", S("@1 (@2 EU)", machine_name, technic.pretty_num(power)))
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meta:set_string("infotext", S("@1 (@2)", machine_name,
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technic.EU_string(power)))
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end
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end
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-- check == nil: assume nothing has changed
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-- check == nil: assume nothing has changed
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end
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end
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@ -55,7 +55,7 @@ minetest.register_abm({
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local demand = sw_meta:get_int("demand")
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local demand = sw_meta:get_int("demand")
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meta:set_string("infotext",
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meta:set_string("infotext",
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S("Power Monitor. Supply: @1 Demand: @2",
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S("Power Monitor. Supply: @1 Demand: @2",
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technic.pretty_num(supply), technic.pretty_num(demand)))
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technic.EU_string(supply), technic.EU_string(demand)))
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else
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else
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meta:set_string("infotext",S("Power Monitor Has No Network"))
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meta:set_string("infotext",S("Power Monitor Has No Network"))
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end
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end
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@ -255,8 +255,9 @@ function technic.register_battery_box(data)
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local charge_percent = math.floor(current_charge / max_charge * 100)
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local charge_percent = math.floor(current_charge / max_charge * 100)
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meta:set_string("formspec", formspec..add_on_off_buttons(meta, ltier, charge_percent))
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meta:set_string("formspec", formspec..add_on_off_buttons(meta, ltier, charge_percent))
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local infotext = S("@1 Battery Box: @2/@3", tier,
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local infotext = S("@1 Battery Box: @2 / @3", tier,
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technic.pretty_num(current_charge), technic.pretty_num(max_charge))
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technic.EU_string(current_charge),
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technic.EU_string(max_charge))
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if eu_input == 0 then
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if eu_input == 0 then
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infotext = S("%s Idle"):format(infotext)
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infotext = S("%s Idle"):format(infotext)
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end
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end
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@ -30,14 +30,15 @@ function technic.register_solar_array(data)
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local charge_to_give = math.floor((light + pos.y) * data.power)
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local charge_to_give = math.floor((light + pos.y) * data.power)
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charge_to_give = math.max(charge_to_give, 0)
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charge_to_give = math.max(charge_to_give, 0)
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charge_to_give = math.min(charge_to_give, data.power * 50)
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charge_to_give = math.min(charge_to_give, data.power * 50)
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meta:set_string("infotext", S("@1 Active (@2 EU)", machine_name, technic.pretty_num(charge_to_give)))
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meta:set_string("infotext", S("@1 Active (@2)", machine_name,
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technic.EU_string(charge_to_give)))
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meta:set_int(tier.."_EU_supply", charge_to_give)
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meta:set_int(tier.."_EU_supply", charge_to_give)
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else
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else
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meta:set_string("infotext", S("%s Idle"):format(machine_name))
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meta:set_string("infotext", S("%s Idle"):format(machine_name))
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meta:set_int(tier.."_EU_supply", 0)
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meta:set_int(tier.."_EU_supply", 0)
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end
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end
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end
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end
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minetest.register_node("technic:solar_array_"..ltier, {
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minetest.register_node("technic:solar_array_"..ltier, {
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tiles = {"technic_"..ltier.."_solar_array_top.png", "technic_"..ltier.."_solar_array_bottom.png",
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tiles = {"technic_"..ltier.."_solar_array_top.png", "technic_"..ltier.."_solar_array_bottom.png",
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"technic_"..ltier.."_solar_array_side.png", "technic_"..ltier.."_solar_array_side.png",
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"technic_"..ltier.."_solar_array_side.png", "technic_"..ltier.."_solar_array_side.png",
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@ -149,7 +149,9 @@ local run = function(pos, node, run_stage)
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meta:set_int(from.."_EU_supply", 0)
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meta:set_int(from.."_EU_supply", 0)
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meta:set_int(to.."_EU_demand", 0)
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meta:set_int(to.."_EU_demand", 0)
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meta:set_int(to.."_EU_supply", input * remain)
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meta:set_int(to.."_EU_supply", input * remain)
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meta:set_string("infotext", S("@1 (@2 @3 -> @4 @5)", machine_name, technic.pretty_num(input), from, technic.pretty_num(input * remain), to))
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meta:set_string("infotext", S("@1 (@2 @3 -> @4 @5)", machine_name,
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technic.EU_string(input), from,
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technic.EU_string(input * remain), to))
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else
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else
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meta:set_string("infotext", S("%s Has Bad Cabling"):format(machine_name))
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meta:set_string("infotext", S("%s Has Bad Cabling"):format(machine_name))
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if to then
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if to then
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@ -361,9 +361,9 @@ minetest.register_abm({
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end
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end
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--dprint("Total BA demand:"..BA_eu_demand)
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--dprint("Total BA demand:"..BA_eu_demand)
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meta:set_string("infotext",
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meta:set_string("infotext", S("@1. Supply: @2 Demand: @3",
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S("@1. Supply: @2 Demand: @3",
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machine_name, technic.EU_string(PR_eu_supply),
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machine_name, technic.pretty_num(PR_eu_supply), technic.pretty_num(RE_eu_demand)))
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technic.EU_string(RE_eu_demand)))
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-- If mesecon signal and power supply or demand changed then
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-- If mesecon signal and power supply or demand changed then
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-- send them via digilines.
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-- send them via digilines.
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