mirror of
https://github.com/MikaylaFischler/cc-mek-scada.git
synced 2024-08-30 18:22:34 +00:00
697 lines
23 KiB
Lua
697 lines
23 KiB
Lua
local log = require("scada-common.log")
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local types = require("scada-common.types")
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local util = require("scada-common.util")
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local unit = require("supervisor.unit")
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local fac_update = require("supervisor.facility_update")
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local rsctl = require("supervisor.session.rsctl")
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local svsessions = require("supervisor.session.svsessions")
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local PROCESS = types.PROCESS
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local RTU_ID_FAIL = types.RTU_ID_FAIL
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local RTU_UNIT_TYPE = types.RTU_UNIT_TYPE
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local WASTE = types.WASTE_PRODUCT
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---@enum AUTO_SCRAM
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local AUTO_SCRAM = {
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NONE = 0,
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MATRIX_DC = 1,
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MATRIX_FILL = 2,
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CRIT_ALARM = 3,
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RADIATION = 4,
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GEN_FAULT = 5
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}
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---@enum START_STATUS
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local START_STATUS = {
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OK = 0,
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NO_UNITS = 1,
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BLADE_MISMATCH = 2
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}
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---@class facility_management
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local facility = {}
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-- create a new facility management object
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---@nodiscard
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---@param config svr_config supervisor configuration
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function facility.new(config)
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---@class _facility_self
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local self = {
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units = {},
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types = { AUTO_SCRAM = AUTO_SCRAM, START_STATUS = START_STATUS },
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status_text = { "START UP", "initializing..." },
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all_sys_ok = false,
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allow_testing = false,
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-- facility tanks
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---@class sv_cooling_conf
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cooling_conf = {
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r_cool = config.CoolingConfig,
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fac_tank_mode = config.FacilityTankMode,
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fac_tank_defs = config.FacilityTankDefs,
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fac_tank_list = {}
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},
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-- rtus
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rtu_conn_count = 0,
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rtu_list = {},
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redstone = {},
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induction = {},
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sps = {},
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tanks = {},
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envd = {},
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-- redstone I/O control
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io_ctl = nil, ---@type rs_controller
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-- process control
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units_ready = false,
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mode = PROCESS.INACTIVE,
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last_mode = PROCESS.INACTIVE,
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return_mode = PROCESS.INACTIVE,
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mode_set = PROCESS.MAX_BURN,
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start_fail = START_STATUS.OK,
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max_burn_combined = 0.0, -- maximum burn rate to clamp at
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burn_target = 0.1, -- burn rate target for aggregate burn mode
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charge_setpoint = 0, -- FE charge target setpoint
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gen_rate_setpoint = 0, -- FE/t charge rate target setpoint
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group_map = {}, -- units -> group IDs
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prio_defs = { {}, {}, {}, {} }, -- priority definitions (each level is a table of units)
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at_max_burn = false,
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ascram = false,
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ascram_reason = AUTO_SCRAM.NONE,
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---@class ascram_status
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ascram_status = {
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matrix_dc = false,
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matrix_fill = false,
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crit_alarm = false,
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radiation = false,
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gen_fault = false
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},
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-- closed loop control
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charge_conversion = 1.0,
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time_start = 0.0,
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initial_ramp = true,
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waiting_on_ramp = false,
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waiting_on_stable = false,
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accumulator = 0.0,
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saturated = false,
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last_update = 0,
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last_error = 0.0,
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last_time = 0.0,
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-- waste processing
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waste_product = WASTE.PLUTONIUM,
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current_waste_product = WASTE.PLUTONIUM,
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pu_fallback = false,
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sps_low_power = false,
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disabled_sps = false,
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-- alarm tones
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tone_states = {},
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test_tone_set = false,
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test_tone_reset = false,
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test_tone_states = {},
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test_alarm_states = {},
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-- statistics
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im_stat_init = false,
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avg_charge = util.mov_avg(3), -- 3 seconds
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avg_inflow = util.mov_avg(6), -- 3 seconds
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avg_outflow = util.mov_avg(6), -- 3 seconds
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-- induction matrix charge delta stats
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avg_net = util.mov_avg(60), -- 60 seconds
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imtx_last_capacity = 0,
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imtx_last_charge = 0,
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imtx_last_charge_t = 0,
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-- track faulted induction matrix update times to reject
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imtx_faulted_times = { 0, 0, 0 }
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}
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-- provide self to facility update functions
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local f_update = fac_update(self)
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-- create units
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for i = 1, config.UnitCount do
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table.insert(self.units,
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unit.new(i, self.cooling_conf.r_cool[i].BoilerCount, self.cooling_conf.r_cool[i].TurbineCount, config.ExtChargeIdling))
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table.insert(self.group_map, 0)
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end
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-- list for RTU session management
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self.rtu_list = { self.redstone, self.induction, self.sps, self.tanks, self.envd }
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-- init redstone RTU I/O controller
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self.io_ctl = rsctl.new(self.redstone)
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-- fill blank alarm/tone states
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for _ = 1, 12 do table.insert(self.test_alarm_states, false) end
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for _ = 1, 8 do
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table.insert(self.tone_states, false)
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table.insert(self.test_tone_states, false)
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end
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--#region decode tank configuration
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local cool_conf = self.cooling_conf
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-- determine tank information
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if cool_conf.fac_tank_mode == 0 then
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cool_conf.fac_tank_defs = {}
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-- on facility tank mode 0, setup tank defs to match unit tank option
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for i = 1, config.UnitCount do
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cool_conf.fac_tank_defs[i] = util.trinary(cool_conf.r_cool[i].TankConnection, 1, 0)
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end
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cool_conf.fac_tank_list = { table.unpack(cool_conf.fac_tank_defs) }
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else
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-- decode the layout of tanks from the connections definitions
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local tank_mode = cool_conf.fac_tank_mode
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local tank_defs = cool_conf.fac_tank_defs
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local tank_list = { table.unpack(tank_defs) }
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local function calc_fdef(start_idx, end_idx)
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local first = 4
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for i = start_idx, end_idx do
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if tank_defs[i] == 2 then
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if i < first then first = i end
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end
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end
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return first
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end
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if tank_mode == 1 then
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-- (1) 1 total facility tank (A A A A)
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local first_fdef = calc_fdef(1, #tank_defs)
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for i = 1, #tank_defs do
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if i > first_fdef and tank_defs[i] == 2 then
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tank_list[i] = 0
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end
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end
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elseif tank_mode == 2 then
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-- (2) 2 total facility tanks (A A A B)
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local first_fdef = calc_fdef(1, math.min(3, #tank_defs))
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for i = 1, #tank_defs do
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if (i ~= 4) and (i > first_fdef) and (tank_defs[i] == 2) then
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tank_list[i] = 0
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end
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end
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elseif tank_mode == 3 then
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-- (3) 2 total facility tanks (A A B B)
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for _, a in pairs({ 1, 3 }) do
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local b = a + 1
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if (tank_defs[a] == 2) and (tank_defs[b] == 2) then
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tank_list[b] = 0
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end
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end
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elseif tank_mode == 4 then
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-- (4) 2 total facility tanks (A B B B)
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local first_fdef = calc_fdef(2, #tank_defs)
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for i = 1, #tank_defs do
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if (i ~= 1) and (i > first_fdef) and (tank_defs[i] == 2) then
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tank_list[i] = 0
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end
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end
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elseif tank_mode == 5 then
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-- (5) 3 total facility tanks (A A B C)
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local first_fdef = calc_fdef(1, math.min(2, #tank_defs))
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for i = 1, #tank_defs do
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if (not (i == 3 or i == 4)) and (i > first_fdef) and (tank_defs[i] == 2) then
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tank_list[i] = 0
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end
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end
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elseif tank_mode == 6 then
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-- (6) 3 total facility tanks (A B B C)
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local first_fdef = calc_fdef(2, math.min(3, #tank_defs))
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for i = 1, #tank_defs do
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if (not (i == 1 or i == 4)) and (i > first_fdef) and (tank_defs[i] == 2) then
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tank_list[i] = 0
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end
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end
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elseif tank_mode == 7 then
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-- (7) 3 total facility tanks (A B C C)
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local first_fdef = calc_fdef(3, #tank_defs)
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for i = 1, #tank_defs do
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if (not (i == 1 or i == 2)) and (i > first_fdef) and (tank_defs[i] == 2) then
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tank_list[i] = 0
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end
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end
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end
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cool_conf.fac_tank_list = tank_list
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end
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--#endregion
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-- PUBLIC FUNCTIONS --
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---@class facility
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local public = {}
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--#region Add/Link Devices
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-- link a redstone RTU session
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---@param rs_unit unit_session
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function public.add_redstone(rs_unit) table.insert(self.redstone, rs_unit) end
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-- link an induction matrix RTU session
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---@param imatrix unit_session
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---@return boolean linked induction matrix accepted (max 1)
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function public.add_imatrix(imatrix)
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local fail_code, fail_str = svsessions.check_rtu_id(imatrix, self.induction, 1)
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local ok = fail_code == RTU_ID_FAIL.OK
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if ok then
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table.insert(self.induction, imatrix)
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log.debug(util.c("FAC: linked induction matrix [", imatrix.get_unit_id(), "@", imatrix.get_session_id(), "]"))
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else
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log.warning(util.c("FAC: rejected induction matrix linking due to failure code ", fail_code, " (", fail_str, ")"))
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end
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return ok
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end
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-- link an SPS RTU session
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---@param sps unit_session
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---@return boolean linked SPS accepted (max 1)
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function public.add_sps(sps)
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local fail_code, fail_str = svsessions.check_rtu_id(sps, self.sps, 1)
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local ok = fail_code == RTU_ID_FAIL.OK
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if ok then
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table.insert(self.sps, sps)
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log.debug(util.c("FAC: linked SPS [", sps.get_unit_id(), "@", sps.get_session_id(), "]"))
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else
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log.warning(util.c("FAC: rejected SPS linking due to failure code ", fail_code, " (", fail_str, ")"))
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end
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return ok
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end
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-- link a dynamic tank RTU session
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---@param dynamic_tank unit_session
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function public.add_tank(dynamic_tank)
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local fail_code, fail_str = svsessions.check_rtu_id(dynamic_tank, self.tanks, #self.cooling_conf.fac_tank_list)
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local ok = fail_code == RTU_ID_FAIL.OK
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if ok then
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table.insert(self.tanks, dynamic_tank)
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log.debug(util.c("FAC: linked dynamic tank #", dynamic_tank.get_device_idx(), " [", dynamic_tank.get_unit_id(), "@", dynamic_tank.get_session_id(), "]"))
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else
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log.warning(util.c("FAC: rejected dynamic tank linking due to failure code ", fail_code, " (", fail_str, ")"))
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end
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return ok
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end
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-- link an environment detector RTU session
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---@param envd unit_session
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---@return boolean linked environment detector accepted
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function public.add_envd(envd)
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local fail_code, fail_str = svsessions.check_rtu_id(envd, self.envd, 99)
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local ok = fail_code == RTU_ID_FAIL.OK
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if ok then
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table.insert(self.envd, envd)
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log.debug(util.c("FAC: linked environment detector #", envd.get_device_idx(), " [", envd.get_unit_id(), "@", envd.get_session_id(), "]"))
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else
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log.warning(util.c("FAC: rejected environment detector linking due to failure code ", fail_code, " (", fail_str, ")"))
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end
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return ok
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end
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-- purge devices associated with the given RTU session ID
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---@param session integer RTU session ID
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function public.purge_rtu_devices(session)
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for _, v in pairs(self.rtu_list) do util.filter_table(v, function (s) return s.get_session_id() ~= session end) end
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end
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--#endregion
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--#region Update
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-- update (iterate) the facility management
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function public.update()
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-- run process control and evaluate automatic SCRAM
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f_update.pre_auto()
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f_update.auto_control(config.ExtChargeIdling)
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f_update.auto_safety()
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f_update.post_auto()
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-- handle redstone I/O
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f_update.redstone(public.ack_all)
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-- unit tasks
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f_update.unit_mgmt()
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-- update alarm tones
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f_update.alarm_audio()
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end
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-- call the update function of all units in the facility<br>
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-- additionally sets the requested auto waste mode if applicable
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function public.update_units()
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for i = 1, #self.units do
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local u = self.units[i] ---@type reactor_unit
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u.auto_set_waste(self.current_waste_product)
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u.update()
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end
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end
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--#endregion
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--#region Commands
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-- SCRAM all reactor units
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function public.scram_all()
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for i = 1, #self.units do
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local u = self.units[i] ---@type reactor_unit
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u.scram()
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end
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end
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-- ack all alarms on all reactor units
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function public.ack_all()
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for i = 1, #self.units do
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local u = self.units[i] ---@type reactor_unit
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u.ack_all()
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end
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end
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-- stop auto control
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function public.auto_stop() self.mode = PROCESS.INACTIVE end
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-- set automatic control configuration and start the process
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---@param auto_cfg coord_auto_config configuration
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---@return table response ready state (successfully started) and current configuration (after updating)
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function public.auto_start(auto_cfg)
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local charge_scaler = 1000000 -- convert MFE to FE
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local gen_scaler = 1000 -- convert kFE to FE
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local ready = false
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-- load up current limits
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local limits = {}
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for i = 1, config.UnitCount do
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local u = self.units[i] ---@type reactor_unit
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limits[i] = u.get_control_inf().lim_br100 * 100
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end
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-- only allow changes if not running
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if self.mode == PROCESS.INACTIVE then
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if (type(auto_cfg.mode) == "number") and (auto_cfg.mode > PROCESS.INACTIVE) and (auto_cfg.mode <= PROCESS.GEN_RATE) then
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self.mode_set = auto_cfg.mode
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end
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if (type(auto_cfg.burn_target) == "number") and auto_cfg.burn_target >= 0.1 then
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self.burn_target = auto_cfg.burn_target
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end
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if (type(auto_cfg.charge_target) == "number") and auto_cfg.charge_target >= 0 then
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self.charge_setpoint = auto_cfg.charge_target * charge_scaler
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end
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if (type(auto_cfg.gen_target) == "number") and auto_cfg.gen_target >= 0 then
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self.gen_rate_setpoint = auto_cfg.gen_target * gen_scaler
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end
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if (type(auto_cfg.limits) == "table") and (#auto_cfg.limits == config.UnitCount) then
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for i = 1, config.UnitCount do
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local limit = auto_cfg.limits[i]
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if (type(limit) == "number") and (limit >= 0.1) then
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limits[i] = limit
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self.units[i].set_burn_limit(limit)
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end
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end
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end
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ready = self.mode_set > 0
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if (self.mode_set == PROCESS.CHARGE) and (self.charge_setpoint <= 0) or
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(self.mode_set == PROCESS.GEN_RATE) and (self.gen_rate_setpoint <= 0) or
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(self.mode_set == PROCESS.BURN_RATE) and (self.burn_target < 0.1) then
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ready = false
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end
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ready = ready and self.units_ready
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if ready then self.mode = self.mode_set end
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end
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return {
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ready,
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self.mode_set,
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self.burn_target,
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self.charge_setpoint / charge_scaler,
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self.gen_rate_setpoint / gen_scaler,
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limits
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}
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end
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--#endregion
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--#region Settings
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-- set the automatic control group of a unit
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---@param unit_id integer unit ID
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---@param group integer group ID or 0 for independent
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function public.set_group(unit_id, group)
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if (group >= 0 and group <= 4) and (unit_id > 0 and unit_id <= config.UnitCount) and self.mode == PROCESS.INACTIVE then
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-- remove from old group if previously assigned
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local old_group = self.group_map[unit_id]
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if old_group ~= 0 then
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util.filter_table(self.prio_defs[old_group], function (u) return u.get_id() ~= unit_id end)
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end
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self.group_map[unit_id] = group
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-- add to group if not independent
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if group > 0 then
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table.insert(self.prio_defs[group], self.units[unit_id])
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end
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end
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end
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-- set waste production
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---@param product WASTE_PRODUCT target product
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---@return WASTE_PRODUCT product newly set value, if valid
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function public.set_waste_product(product)
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if product == WASTE.PLUTONIUM or product == WASTE.POLONIUM or product == WASTE.ANTI_MATTER then
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self.waste_product = product
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end
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return self.waste_product
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end
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-- enable/disable plutonium fallback
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---@param enabled boolean requested state
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---@return boolean enabled newly set value
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function public.set_pu_fallback(enabled)
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self.pu_fallback = enabled == true
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return self.pu_fallback
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end
|
|
|
|
-- enable/disable SPS at low power
|
|
---@param enabled boolean requested state
|
|
---@return boolean enabled newly set value
|
|
function public.set_sps_low_power(enabled)
|
|
self.sps_low_power = enabled == true
|
|
return self.sps_low_power
|
|
end
|
|
|
|
--#endregion
|
|
|
|
--#region Diagnostic Testing
|
|
|
|
-- attempt to set a test tone state
|
|
---@param id TONE|0 tone ID or 0 to disable all
|
|
---@param state boolean state
|
|
---@return boolean allow_testing, table test_tone_states
|
|
function public.diag_set_test_tone(id, state)
|
|
if self.allow_testing then
|
|
self.test_tone_set = true
|
|
self.test_tone_reset = false
|
|
|
|
if id == 0 then
|
|
for i = 1, #self.test_tone_states do self.test_tone_states[i] = false end
|
|
else
|
|
self.test_tone_states[id] = state
|
|
end
|
|
end
|
|
|
|
return self.allow_testing, self.test_tone_states
|
|
end
|
|
|
|
-- attempt to set a test alarm state
|
|
---@param id ALARM|0 alarm ID or 0 to disable all
|
|
---@param state boolean state
|
|
---@return boolean allow_testing, table test_alarm_states
|
|
function public.diag_set_test_alarm(id, state)
|
|
if self.allow_testing then
|
|
self.test_tone_set = true
|
|
self.test_tone_reset = false
|
|
|
|
if id == 0 then
|
|
for i = 1, #self.test_alarm_states do self.test_alarm_states[i] = false end
|
|
else
|
|
self.test_alarm_states[id] = state
|
|
end
|
|
end
|
|
|
|
return self.allow_testing, self.test_alarm_states
|
|
end
|
|
|
|
--#endregion
|
|
|
|
--#region Read States/Properties
|
|
|
|
-- get current alarm tone on/off states
|
|
---@nodiscard
|
|
function public.get_alarm_tones() return self.tone_states end
|
|
|
|
-- get build properties of all facility devices
|
|
---@nodiscard
|
|
---@param type RTU_UNIT_TYPE? type or nil to include only a particular unit type, or to include all if nil
|
|
function public.get_build(type)
|
|
local all = type == nil
|
|
local build = {}
|
|
|
|
if all or type == RTU_UNIT_TYPE.IMATRIX then
|
|
build.induction = {}
|
|
for i = 1, #self.induction do
|
|
local matrix = self.induction[i] ---@type unit_session
|
|
build.induction[i] = { matrix.get_db().formed, matrix.get_db().build }
|
|
end
|
|
end
|
|
|
|
if all or type == RTU_UNIT_TYPE.SPS then
|
|
build.sps = {}
|
|
for i = 1, #self.sps do
|
|
local sps = self.sps[i] ---@type unit_session
|
|
build.sps[i] = { sps.get_db().formed, sps.get_db().build }
|
|
end
|
|
end
|
|
|
|
if all or type == RTU_UNIT_TYPE.DYNAMIC_VALVE then
|
|
build.tanks = {}
|
|
for i = 1, #self.tanks do
|
|
local tank = self.tanks[i] ---@type unit_session
|
|
build.tanks[tank.get_device_idx()] = { tank.get_db().formed, tank.get_db().build }
|
|
end
|
|
end
|
|
|
|
return build
|
|
end
|
|
|
|
-- get automatic process control status
|
|
---@nodiscard
|
|
function public.get_control_status()
|
|
local astat = self.ascram_status
|
|
return {
|
|
self.all_sys_ok,
|
|
self.units_ready,
|
|
self.mode,
|
|
self.waiting_on_ramp or self.waiting_on_stable,
|
|
self.at_max_burn or self.saturated,
|
|
self.ascram,
|
|
astat.matrix_dc,
|
|
astat.matrix_fill,
|
|
astat.crit_alarm,
|
|
astat.radiation,
|
|
astat.gen_fault or self.mode == PROCESS.GEN_RATE_FAULT_IDLE,
|
|
self.status_text[1],
|
|
self.status_text[2],
|
|
self.group_map,
|
|
self.current_waste_product,
|
|
self.pu_fallback and (self.current_waste_product == WASTE.PLUTONIUM) and (self.waste_product ~= WASTE.PLUTONIUM),
|
|
self.disabled_sps
|
|
}
|
|
end
|
|
|
|
-- check which RTUs are connected
|
|
---@nodiscard
|
|
function public.check_rtu_conns()
|
|
local conns = {}
|
|
|
|
conns.induction = #self.induction > 0
|
|
conns.sps = #self.sps > 0
|
|
|
|
conns.tanks = {}
|
|
for i = 1, #self.tanks do
|
|
conns.tanks[self.tanks[i].get_device_idx()] = true
|
|
end
|
|
|
|
return conns
|
|
end
|
|
|
|
-- get RTU statuses
|
|
---@nodiscard
|
|
function public.get_rtu_statuses()
|
|
local status = {}
|
|
|
|
-- total count of all connected RTUs in the facility
|
|
status.count = self.rtu_conn_count
|
|
|
|
-- power averages from induction matricies
|
|
status.power = {
|
|
self.avg_charge.compute(),
|
|
self.avg_inflow.compute(),
|
|
self.avg_outflow.compute(),
|
|
0
|
|
}
|
|
|
|
-- status of induction matricies (including tanks)
|
|
status.induction = {}
|
|
for i = 1, #self.induction do
|
|
local matrix = self.induction[i] ---@type unit_session
|
|
local db = matrix.get_db() ---@type imatrix_session_db
|
|
|
|
status.induction[i] = { matrix.is_faulted(), db.formed, db.state, db.tanks }
|
|
|
|
local fe_per_ms = self.avg_net.compute()
|
|
local remaining = util.joules_to_fe_rf(util.trinary(fe_per_ms >= 0, db.tanks.energy_need, db.tanks.energy))
|
|
status.power[4] = remaining / fe_per_ms
|
|
end
|
|
|
|
-- status of sps
|
|
status.sps = {}
|
|
for i = 1, #self.sps do
|
|
local sps = self.sps[i] ---@type unit_session
|
|
local db = sps.get_db() ---@type sps_session_db
|
|
status.sps[i] = { sps.is_faulted(), db.formed, db.state, db.tanks }
|
|
end
|
|
|
|
-- status of dynamic tanks
|
|
status.tanks = {}
|
|
for i = 1, #self.tanks do
|
|
local tank = self.tanks[i] ---@type unit_session
|
|
local db = tank.get_db() ---@type dynamicv_session_db
|
|
status.tanks[tank.get_device_idx()] = { tank.is_faulted(), db.formed, db.state, db.tanks }
|
|
end
|
|
|
|
-- radiation monitors (environment detectors)
|
|
status.envds = {}
|
|
for i = 1, #self.envd do
|
|
local envd = self.envd[i] ---@type unit_session
|
|
local db = envd.get_db() ---@type envd_session_db
|
|
status.envds[envd.get_device_idx()] = { envd.is_faulted(), db.radiation, db.radiation_raw }
|
|
end
|
|
|
|
return status
|
|
end
|
|
|
|
--#endregion
|
|
|
|
-- supervisor sessions reporting the list of active RTU sessions
|
|
---@param rtu_sessions table session list of all connected RTUs
|
|
function public.report_rtus(rtu_sessions) self.rtu_conn_count = #rtu_sessions end
|
|
|
|
-- get the facility cooling configuration
|
|
function public.get_cooling_conf() return self.cooling_conf end
|
|
|
|
-- get the units in this facility
|
|
---@nodiscard
|
|
function public.get_units() return self.units end
|
|
|
|
return public
|
|
end
|
|
|
|
return facility
|