elepower/elepower_machines/machines/electrolyzer.lua

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elepm.electrolyzer_recipes = {
{
recipe = "default:water_source 1000",
output = {
"elepower_dynamics:hydrogen 600",
"elepower_dynamics:oxygen 400",
},
time = 20
},
{
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recipe = "elepower_nuclear:heavy_water_source 1000",
output = {
"elepower_nuclear:deuterium 600",
"elepower_dynamics:oxygen 400",
},
time = 20,
},
{
recipe = "elepower_farming:biomass_source 1000",
output = {
"elepower_dynamics:nitrogen 400",
"elepower_dynamics:oxygen 600",
},
time = 16,
},
}
local function get_formspec(time, power, input, out1, out2, state)
local bar = "image[3.5,1;1,1;gui_furnace_arrow_bg.png^[transformR270]"
if time ~= nil then
bar = "image[3.5,1;1,1;gui_furnace_arrow_bg.png^[lowpart:"..
(time)..":gui_furnace_arrow_fg.png^[transformR270]"
end
return "size[8,8.5]"..
default.gui_bg..
default.gui_bg_img..
default.gui_slots..
ele.formspec.power_meter(power)..
ele.formspec.fluid_bar(1, 0, input)..
"image[1.2,2.45;0.5,0.5;elepower_gui_icon_fluid_electrolyzer_in.png]"..
"tooltip[1.0,2.0;1,1;"..minetest.colorize("#0399c6"," Water\nHeavy Water\n BioFuel").."]"..
ele.formspec.state_switcher(3.5, 0, state)..
bar..
ele.formspec.fluid_bar(6, 0, out1)..
"image[6.2,2.45;0.5,0.5;elepower_gui_icon_fluid_electrolyzer_out1.png]"..
"tooltip[6.0,2.0;1,1;"..minetest.colorize("#0399c6"," Hydrogen\nDeuterium\n Nitrogen").."]"..
ele.formspec.fluid_bar(7, 0, out2)..
"image[7.2,2.45;0.5,0.5;elepower_gui_icon_fluid_electrolyzer_out2.png]"..
"tooltip[7.0,2.0;1,1;"..minetest.colorize("#0399c6"," Oxygen").."]"..
"list[current_player;main;0,4.25;8,1;]"..
"list[current_player;main;0,5.5;8,3;8]"..
"listring[current_player;main]"..
default.get_hotbar_bg(0, 4.25)
end
local function get_electrolysis_result(buffer)
local result = {time = 0}
if buffer.fluid == "" then return result end
for _,recipe in pairs(elepm.electrolyzer_recipes) do
local recipe_input = ItemStack(recipe.recipe)
if buffer.fluid == recipe_input:get_name() and
buffer.amount >= recipe_input:get_count() then
result.recipe = recipe.recipe
result.output = recipe.output
result.time = recipe.time
break
end
end
return result
end
local function electrolyzer_timer(pos)
local refresh = false
local meta = minetest.get_meta(pos)
local input = fluid_lib.get_buffer_data(pos, "input")
local out1 = fluid_lib.get_buffer_data(pos, "out1")
local out2 = fluid_lib.get_buffer_data(pos, "out2")
local capacity = ele.helpers.get_node_property(meta, pos, "capacity")
local usage = ele.helpers.get_node_property(meta, pos, "usage")
local storage = ele.helpers.get_node_property(meta, pos, "storage")
local pow_buffer = {capacity = capacity, storage = storage, usage = 0}
local time = meta:get_int("src_time")
local state = meta:get_int("state")
local status = "Idle"
local speed = 1
local is_enabled = ele.helpers.state_enabled(meta, pos, state)
local res_time = meta:get_int("src_time_max")
while true do
if not is_enabled then
status = "Off"
time = 0
break
end
local result = get_electrolysis_result(input)
if result.time == 0 then
break
end
if pow_buffer.storage < usage then
status = "Out of Power!"
break
end
local out1s = ItemStack(result.output[1])
local out2s = ItemStack(result.output[2])
if fluid_lib.can_insert_into_buffer(pos, "out1", out1s:get_name(), out1s:get_count()) ~= out1s:get_count() or
fluid_lib.can_insert_into_buffer(pos, "out2", out2s:get_name(), out2s:get_count()) ~= out2s:get_count() then
status = "Output Full!"
break
end
status = "Active"
res_time = result.time
pow_buffer.usage = usage
pow_buffer.storage = pow_buffer.storage - usage
time = time + ele.helpers.round(speed * 10)
refresh = true
if time <= ele.helpers.round(res_time * 10) then
break
end
local istack = ItemStack(result.recipe)
input.amount = input.amount - istack:get_count()
if input.amount == 0 then
input.fluid = ""
end
fluid_lib.insert_into_buffer(pos, "out1", out1s:get_name(), out1s:get_count())
fluid_lib.insert_into_buffer(pos, "out2", out2s:get_name(), out2s:get_count())
time = 0
break
end
meta:set_int("input_fluid_storage", input.amount)
meta:set_string("input_fluid", input.fluid)
meta:set_int("src_time", time)
meta:set_int("src_time_max", res_time)
meta:set_int("storage", pow_buffer.storage)
local time_percent = 0
if res_time > 0 then
time_percent = math.floor(100 * time / ele.helpers.round(res_time * 10))
end
meta:set_string("infotext", ("Electrolyzer %s\n%s"):format(status, ele.capacity_text(pow_buffer.capacity, pow_buffer.storage)))
meta:set_string("formspec", get_formspec(time_percent, pow_buffer, input, out1, out2, state))
minetest.debug(dump(pow_buffer))
return refresh
end
ele.register_machine("elepower_machines:electrolyzer", {
description = "Electrolyzer",
tiles = {
"elepower_machine_top.png", "elepower_machine_base.png", "elepower_machine_side.png",
"elepower_machine_side.png", "elepower_machine_side.png", "elepower_machine_side.png^elepower_electrolyzer.png",
},
groups = {fluid_container = 1, cracky = 1, ele_user = 1},
on_timer = electrolyzer_timer,
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ele_usage = 128,
ele_inrush = 128,
fluid_buffers = {
input = {
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accepts = {"default:water_source", "elepower_nuclear:heavy_water_source",
"group:biomass", "group:electrolysis_recipe"},
drainable = false,
capacity = 8000,
},
out1 = {
accepts = {"group:gas", "group:electrolysis_result"},
drainable = true,
capacity = 8000,
},
out2 = {
accepts = {"group:gas", "group:electrolysis_result"},
drainable = true,
capacity = 8000,
},
},
on_construct = function (pos)
local meta = minetest.get_meta(pos)
meta:set_string("formspec", get_formspec())
end
})