cc-mek-scada/pocket/iocontrol.lua

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--
-- I/O Control for Pocket Integration with Supervisor & Coordinator
--
local const = require("scada-common.constants")
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-- local log = require("scada-common.log")
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local psil = require("scada-common.psil")
local types = require("scada-common.types")
local util = require("scada-common.util")
local ALARM = types.ALARM
local ALARM_STATE = types.ALARM_STATE
local TEMP_SCALE = types.TEMP_SCALE
local TEMP_UNITS = types.TEMP_SCALE_UNITS
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---@todo nominal trip time is ping (0ms to 10ms usually)
local WARN_TT = 40
local HIGH_TT = 80
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local iocontrol = {}
---@enum POCKET_LINK_STATE
local LINK_STATE = {
UNLINKED = 0,
SV_LINK_ONLY = 1,
API_LINK_ONLY = 2,
LINKED = 3
}
iocontrol.LINK_STATE = LINK_STATE
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---@class pocket_ioctl
local io = {
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version = "unknown",
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ps = psil.create()
}
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-- initialize facility-independent components of pocket iocontrol
---@param comms pocket_comms
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---@param nav pocket_nav
function iocontrol.init_core(comms, nav)
io.nav = nav
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---@class pocket_ioctl_diag
io.diag = {}
-- alarm testing
io.diag.tone_test = {
test_1 = function (state) comms.diag__set_alarm_tone(1, state) end,
test_2 = function (state) comms.diag__set_alarm_tone(2, state) end,
test_3 = function (state) comms.diag__set_alarm_tone(3, state) end,
test_4 = function (state) comms.diag__set_alarm_tone(4, state) end,
test_5 = function (state) comms.diag__set_alarm_tone(5, state) end,
test_6 = function (state) comms.diag__set_alarm_tone(6, state) end,
test_7 = function (state) comms.diag__set_alarm_tone(7, state) end,
test_8 = function (state) comms.diag__set_alarm_tone(8, state) end,
stop_tones = function () comms.diag__set_alarm_tone(0, false) end,
test_breach = function (state) comms.diag__set_alarm(ALARM.ContainmentBreach, state) end,
test_rad = function (state) comms.diag__set_alarm(ALARM.ContainmentRadiation, state) end,
test_lost = function (state) comms.diag__set_alarm(ALARM.ReactorLost, state) end,
test_crit = function (state) comms.diag__set_alarm(ALARM.CriticalDamage, state) end,
test_dmg = function (state) comms.diag__set_alarm(ALARM.ReactorDamage, state) end,
test_overtemp = function (state) comms.diag__set_alarm(ALARM.ReactorOverTemp, state) end,
test_hightemp = function (state) comms.diag__set_alarm(ALARM.ReactorHighTemp, state) end,
test_wasteleak = function (state) comms.diag__set_alarm(ALARM.ReactorWasteLeak, state) end,
test_highwaste = function (state) comms.diag__set_alarm(ALARM.ReactorHighWaste, state) end,
test_rps = function (state) comms.diag__set_alarm(ALARM.RPSTransient, state) end,
test_rcs = function (state) comms.diag__set_alarm(ALARM.RCSTransient, state) end,
test_turbinet = function (state) comms.diag__set_alarm(ALARM.TurbineTrip, state) end,
stop_alarms = function () comms.diag__set_alarm(0, false) end,
get_tone_states = function () comms.diag__get_alarm_tones() end,
ready_warn = nil, ---@type graphics_element
tone_buttons = {},
alarm_buttons = {},
tone_indicators = {} -- indicators to update from supervisor tone states
}
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-- API access
---@class pocket_ioctl_api
io.api = {
get_unit = function (unit) comms.api__get_unit(unit) end
}
end
-- initialize facility-dependent components of pocket iocontrol
---@param conf facility_conf configuration
---@param temp_scale TEMP_SCALE temperature unit
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function iocontrol.init_fac(conf, temp_scale)
io.temp_label = TEMP_UNITS[temp_scale]
-- temperature unit label and conversion function (from Kelvin)
if temp_scale == TEMP_SCALE.CELSIUS then
io.temp_convert = function (t) return t - 273.15 end
elseif temp_scale == TEMP_SCALE.FAHRENHEIT then
io.temp_convert = function (t) return (1.8 * (t - 273.15)) + 32 end
elseif temp_scale == TEMP_SCALE.RANKINE then
io.temp_convert = function (t) return 1.8 * t end
else
io.temp_label = "K"
io.temp_convert = function (t) return t end
end
-- facility data structure
---@class pioctl_facility
io.facility = {
num_units = conf.num_units,
tank_mode = conf.cooling.fac_tank_mode,
tank_defs = conf.cooling.fac_tank_defs,
all_sys_ok = false,
rtu_count = 0,
auto_ready = false,
auto_active = false,
auto_ramping = false,
auto_saturated = false,
auto_scram = false,
---@type ascram_status
ascram_status = {
matrix_dc = false,
matrix_fill = false,
crit_alarm = false,
radiation = false,
gen_fault = false
},
---@type WASTE_PRODUCT
auto_current_waste_product = types.WASTE_PRODUCT.PLUTONIUM,
auto_pu_fallback_active = false,
radiation = types.new_zero_radiation_reading(),
ps = psil.create(),
induction_ps_tbl = {},
induction_data_tbl = {},
sps_ps_tbl = {},
sps_data_tbl = {},
tank_ps_tbl = {},
tank_data_tbl = {},
env_d_ps = psil.create(),
env_d_data = {}
}
-- create induction and SPS tables (currently only 1 of each is supported)
table.insert(io.facility.induction_ps_tbl, psil.create())
table.insert(io.facility.induction_data_tbl, {})
table.insert(io.facility.sps_ps_tbl, psil.create())
table.insert(io.facility.sps_data_tbl, {})
-- determine tank information
if io.facility.tank_mode == 0 then
io.facility.tank_defs = {}
-- on facility tank mode 0, setup tank defs to match unit tank option
for i = 1, conf.num_units do
io.facility.tank_defs[i] = util.trinary(conf.cooling.r_cool[i].TankConnection, 1, 0)
end
io.facility.tank_list = { table.unpack(io.facility.tank_defs) }
else
-- decode the layout of tanks from the connections definitions
local tank_mode = io.facility.tank_mode
local tank_defs = io.facility.tank_defs
local tank_list = { table.unpack(tank_defs) }
local function calc_fdef(start_idx, end_idx)
local first = 4
for i = start_idx, end_idx do
if io.facility.tank_defs[i] == 2 then
if i < first then first = i end
end
end
return first
end
if tank_mode == 1 then
-- (1) 1 total facility tank (A A A A)
local first_fdef = calc_fdef(1, #tank_defs)
for i = 1, #tank_defs do
if i > first_fdef and tank_defs[i] == 2 then
tank_list[i] = 0
end
end
elseif tank_mode == 2 then
-- (2) 2 total facility tanks (A A A B)
local first_fdef = calc_fdef(1, math.min(3, #tank_defs))
for i = 1, #tank_defs do
if (i ~= 4) and (i > first_fdef) and (tank_defs[i] == 2) then
tank_list[i] = 0
end
end
elseif tank_mode == 3 then
-- (3) 2 total facility tanks (A A B B)
for _, a in pairs({ 1, 3 }) do
local b = a + 1
if (tank_defs[a] == 2) and (tank_defs[b] == 2) then
tank_list[b] = 0
end
end
elseif tank_mode == 4 then
-- (4) 2 total facility tanks (A B B B)
local first_fdef = calc_fdef(2, #tank_defs)
for i = 1, #tank_defs do
if (i ~= 1) and (i > first_fdef) and (tank_defs[i] == 2) then
tank_list[i] = 0
end
end
elseif tank_mode == 5 then
-- (5) 3 total facility tanks (A A B C)
local first_fdef = calc_fdef(1, math.min(2, #tank_defs))
for i = 1, #tank_defs do
if (not (i == 3 or i == 4)) and (i > first_fdef) and (tank_defs[i] == 2) then
tank_list[i] = 0
end
end
elseif tank_mode == 6 then
-- (6) 3 total facility tanks (A B B C)
local first_fdef = calc_fdef(2, math.min(3, #tank_defs))
for i = 1, #tank_defs do
if (not (i == 1 or i == 4)) and (i > first_fdef) and (tank_defs[i] == 2) then
tank_list[i] = 0
end
end
elseif tank_mode == 7 then
-- (7) 3 total facility tanks (A B C C)
local first_fdef = calc_fdef(3, #tank_defs)
for i = 1, #tank_defs do
if (not (i == 1 or i == 2)) and (i > first_fdef) and (tank_defs[i] == 2) then
tank_list[i] = 0
end
end
end
io.facility.tank_list = tank_list
end
-- create facility tank tables
for i = 1, #io.facility.tank_list do
if io.facility.tank_list[i] == 2 then
table.insert(io.facility.tank_ps_tbl, psil.create())
table.insert(io.facility.tank_data_tbl, {})
end
end
-- create unit data structures
io.units = {}
for i = 1, conf.num_units do
---@class pioctl_unit
local entry = {
unit_id = i,
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connected = false,
rtu_hw = {},
num_boilers = 0,
num_turbines = 0,
num_snas = 0,
has_tank = conf.cooling.r_cool[i].TankConnection,
control_state = false,
burn_rate_cmd = 0.0,
radiation = types.new_zero_radiation_reading(),
sna_peak_rate = 0.0,
sna_max_rate = 0.0,
sna_out_rate = 0.0,
waste_mode = types.WASTE_MODE.MANUAL_PLUTONIUM,
waste_product = types.WASTE_PRODUCT.PLUTONIUM,
last_rate_change_ms = 0,
turbine_flow_stable = false,
-- auto control group
a_group = 0,
---@type alarms
alarms = { ALARM_STATE.INACTIVE, ALARM_STATE.INACTIVE, ALARM_STATE.INACTIVE, ALARM_STATE.INACTIVE, ALARM_STATE.INACTIVE, ALARM_STATE.INACTIVE, ALARM_STATE.INACTIVE, ALARM_STATE.INACTIVE, ALARM_STATE.INACTIVE, ALARM_STATE.INACTIVE, ALARM_STATE.INACTIVE, ALARM_STATE.INACTIVE },
annunciator = {}, ---@type annunciator
unit_ps = psil.create(),
reactor_data = {}, ---@type reactor_db
boiler_ps_tbl = {},
boiler_data_tbl = {},
turbine_ps_tbl = {},
turbine_data_tbl = {},
tank_ps_tbl = {},
tank_data_tbl = {}
}
-- on other facility modes, overwrite unit TANK option with facility tank defs
if io.facility.tank_mode ~= 0 then
entry.has_tank = conf.cooling.fac_tank_defs[i] > 0
end
-- create boiler tables
for _ = 1, conf.cooling.r_cool[i].BoilerCount do
table.insert(entry.boiler_ps_tbl, psil.create())
table.insert(entry.boiler_data_tbl, {})
end
-- create turbine tables
for _ = 1, conf.cooling.r_cool[i].TurbineCount do
table.insert(entry.turbine_ps_tbl, psil.create())
table.insert(entry.turbine_data_tbl, {})
end
-- create tank tables
if io.facility.tank_defs[i] == 1 then
table.insert(entry.tank_ps_tbl, psil.create())
table.insert(entry.tank_data_tbl, {})
end
entry.num_boilers = #entry.boiler_data_tbl
entry.num_turbines = #entry.turbine_data_tbl
table.insert(io.units, entry)
end
end
-- set network link state
---@param state POCKET_LINK_STATE
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---@param sv_addr integer? supervisor address if linked
---@param api_addr integer? coordinator address if linked
function iocontrol.report_link_state(state, sv_addr, api_addr)
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io.ps.publish("link_state", state)
if state == LINK_STATE.API_LINK_ONLY or state == LINK_STATE.UNLINKED then
io.ps.publish("svr_conn_quality", 0)
end
if state == LINK_STATE.SV_LINK_ONLY or state == LINK_STATE.UNLINKED then
io.ps.publish("crd_conn_quality", 0)
end
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if state == LINK_STATE.LINKED then
io.ps.publish("sv_addr", sv_addr)
io.ps.publish("api_addr", api_addr)
end
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end
-- determine supervisor connection quality (trip time)
---@param trip_time integer
function iocontrol.report_svr_tt(trip_time)
local state = 3
if trip_time > HIGH_TT then
state = 1
elseif trip_time > WARN_TT then
state = 2
end
io.ps.publish("svr_conn_quality", state)
end
-- determine coordinator connection quality (trip time)
---@param trip_time integer
function iocontrol.report_crd_tt(trip_time)
local state = 3
if trip_time > HIGH_TT then
state = 1
elseif trip_time > WARN_TT then
state = 2
end
io.ps.publish("crd_conn_quality", state)
end
-- populate facility data from API_GET_FAC
---@param data table
---@return boolean valid
function iocontrol.record_facility_data(data)
local valid = true
local fac = io.facility
fac.all_sys_ok = data[1]
fac.rtu_count = data[2]
fac.radiation = data[3]
-- auto control
if type(data[4]) == "table" and #data[4] == 4 then
fac.auto_ready = data[4][1]
fac.auto_active = data[4][2]
fac.auto_ramping = data[4][3]
fac.auto_saturated = data[4][4]
end
-- waste
if type(data[5]) == "table" and #data[5] == 2 then
fac.auto_current_waste_product = data[5][1]
fac.auto_pu_fallback_active = data[5][2]
end
fac.num_tanks = data[6]
fac.has_imatrix = data[7]
fac.has_sps = data[8]
return valid
end
local function tripped(state) return state == ALARM_STATE.TRIPPED or state == ALARM_STATE.ACKED end
local function _record_multiblock_status(faulted, data, ps)
ps.publish("formed", data.formed)
ps.publish("faulted", faulted)
for key, val in pairs(data.state) do ps.publish(key, val) end
for key, val in pairs(data.tanks) do ps.publish(key, val) end
end
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-- update unit status data from API_GET_UNIT
---@param data table
function iocontrol.record_unit_data(data)
local unit = io.units[data[1]] ---@type pioctl_unit
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unit.connected = data[2]
unit.rtu_hw = data[3]
unit.alarms = data[4]
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--#region Annunciator
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unit.annunciator = data[5]
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local rcs_disconn, rcs_warn, rcs_hazard = false, false, false
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for key, val in pairs(unit.annunciator) do
if key == "BoilerOnline" or key == "TurbineOnline" then
local every = true
-- split up online arrays
for id = 1, #val do
every = every and val[id]
if key == "BoilerOnline" then
unit.boiler_ps_tbl[id].publish(key, val[id])
else
unit.turbine_ps_tbl[id].publish(key, val[id])
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end
end
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if not every then rcs_disconn = true end
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unit.unit_ps.publish("U_" .. key, every)
elseif key == "HeatingRateLow" or key == "WaterLevelLow" then
-- split up array for all boilers
local any = false
for id = 1, #val do
any = any or val[id]
unit.boiler_ps_tbl[id].publish(key, val[id])
end
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if key == "HeatingRateLow" and any then
rcs_warn = true
elseif key == "WaterLevelLow" and any then
rcs_hazard = true
end
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unit.unit_ps.publish("U_" .. key, any)
elseif key == "SteamDumpOpen" or key == "TurbineOverSpeed" or key == "GeneratorTrip" or key == "TurbineTrip" then
-- split up array for all turbines
local any = false
for id = 1, #val do
any = any or val[id]
unit.turbine_ps_tbl[id].publish(key, val[id])
end
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if key == "GeneratorTrip" and any then
rcs_warn = true
elseif (key == "TurbineOverSpeed" or key == "TurbineTrip") and any then
rcs_hazard = true
end
unit.unit_ps.publish("U_" .. key, any)
else
-- non-table fields
unit.unit_ps.publish(key, val)
end
end
local anc = unit.annunciator
rcs_hazard = rcs_hazard or anc.RCPTrip
rcs_warn = rcs_warn or anc.RCSFlowLow or anc.CoolantLevelLow or anc.RCSFault or anc.MaxWaterReturnFeed or
anc.CoolantFeedMismatch or anc.BoilRateMismatch or anc.SteamFeedMismatch or anc.MaxWaterReturnFeed
local rcs_status = 4
if rcs_hazard then
rcs_status = 2
elseif rcs_warn then
rcs_status = 3
elseif rcs_disconn then
rcs_status = 1
end
unit.unit_ps.publish("U_RCS", rcs_status)
--#endregion
--#region Reactor Data
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unit.reactor_data = data[6]
local control_status = 1
local reactor_status = 1
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local reactor_state = 1
local rps_status = 1
if unit.connected then
-- update RPS status
if unit.reactor_data.rps_tripped then
control_status = 2
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if unit.reactor_data.rps_trip_cause == "manual" then
reactor_state = 4 -- disabled
rps_status = 3
else
reactor_state = 6 -- SCRAM
rps_status = 2
end
else rps_status = 4 end
-- update reactor/control status
if unit.reactor_data.mek_status.status then
reactor_status = 4
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reactor_state = 5 -- running
control_status = util.trinary(unit.annunciator.AutoControl, 4, 3)
else
if unit.reactor_data.no_reactor then
reactor_status = 2
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reactor_state = 3 -- faulted
elseif not unit.reactor_data.formed then
reactor_status = 3
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reactor_state = 2 -- not formed
elseif unit.reactor_data.rps_status.force_dis then
reactor_status = 3
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reactor_state = 7 -- force disabled
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else
reactor_status = 4
end
end
for key, val in pairs(unit.reactor_data) do
if key ~= "rps_status" and key ~= "mek_struct" and key ~= "mek_status" then
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unit.unit_ps.publish(key, val)
end
end
if type(unit.reactor_data.rps_status) == "table" then
for key, val in pairs(unit.reactor_data.rps_status) do
unit.unit_ps.publish(key, val)
end
end
if type(unit.reactor_data.mek_status) == "table" then
for key, val in pairs(unit.reactor_data.mek_status) do
unit.unit_ps.publish(key, val)
end
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end
end
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unit.unit_ps.publish("U_ControlStatus", control_status)
unit.unit_ps.publish("U_ReactorStatus", reactor_status)
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unit.unit_ps.publish("U_ReactorStateStatus", reactor_state)
unit.unit_ps.publish("U_RPS", rps_status)
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--#endregion
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--#region RTU Devices
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unit.boiler_data_tbl = data[7]
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for id = 1, #unit.boiler_data_tbl do
local boiler = unit.boiler_data_tbl[id] ---@type boilerv_session_db
local ps = unit.boiler_ps_tbl[id] ---@type psil
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local boiler_status = 1
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local computed_status = 1
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if unit.rtu_hw.boilers[id].connected then
if unit.rtu_hw.boilers[id].faulted then
boiler_status = 3
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computed_status = 3
elseif boiler.formed then
boiler_status = 4
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if boiler.state.boil_rate > 0 then
computed_status = 5
else
computed_status = 4
end
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else
boiler_status = 2
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computed_status = 2
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end
_record_multiblock_status(unit.rtu_hw.boilers[id].faulted, boiler, ps)
end
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ps.publish("BoilerStatus", boiler_status)
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ps.publish("BoilerStateStatus", computed_status)
end
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unit.turbine_data_tbl = data[8]
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for id = 1, #unit.turbine_data_tbl do
local turbine = unit.turbine_data_tbl[id] ---@type turbinev_session_db
local ps = unit.turbine_ps_tbl[id] ---@type psil
local turbine_status = 1
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local computed_status = 1
if unit.rtu_hw.turbines[id].connected then
if unit.rtu_hw.turbines[id].faulted then
turbine_status = 3
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computed_status = 3
elseif turbine.formed then
turbine_status = 4
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if turbine.tanks.energy_fill >= 0.99 then
computed_status = 6
elseif turbine.state.flow_rate < 100 then
computed_status = 4
else
computed_status = 5
end
else
turbine_status = 2
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computed_status = 2
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end
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_record_multiblock_status(unit.rtu_hw.turbines[id].faulted, turbine, ps)
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end
ps.publish("TurbineStatus", turbine_status)
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ps.publish("TurbineStateStatus", computed_status)
end
unit.tank_data_tbl = data[9]
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unit.last_rate_change_ms = data[10]
unit.turbine_flow_stable = data[11]
--#endregion
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--#region Status Information Display
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local ecam = {} -- aviation reference :) back to VATSIM I go...
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-- local function red(text) return { text = text, color = colors.red } end
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local function white(text) return { text = text, color = colors.white } end
local function blue(text) return { text = text, color = colors.blue } end
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-- unit.reactor_data.rps_status = {
-- high_dmg = false,
-- high_temp = false,
-- low_cool = false,
-- ex_waste = false,
-- ex_hcool = false,
-- no_fuel = false,
-- fault = false,
-- timeout = false,
-- manual = false,
-- automatic = false,
-- sys_fail = false,
-- force_dis = false
-- }
-- if unit.reactor_data.rps_status then
-- for k, v in pairs(unit.alarms) do
-- unit.alarms[k] = ALARM_STATE.TRIPPED
-- end
-- end
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if tripped(unit.alarms[ALARM.ContainmentBreach]) then
local items = { white("REACTOR MELTDOWN"), blue("DON HAZMAT SUIT") }
table.insert(ecam, { color = colors.red, text = "CONTAINMENT BREACH", help = "ContainmentBreach", items = items })
end
if tripped(unit.alarms[ALARM.ContainmentRadiation]) then
local items = {
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white("RADIATION DETECTED"),
blue("DON HAZMAT SUIT"),
blue("RESOLVE LEAK"),
blue("AWAIT SAFE LEVELS")
}
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table.insert(ecam, { color = colors.red, text = "RADIATION LEAK", help = "ContainmentRadiation", items = items })
end
if tripped(unit.alarms[ALARM.CriticalDamage]) then
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local items = { white("MELTDOWN IMMINENT"), blue("EVACUATE") }
table.insert(ecam, { color = colors.red, text = "RCT DAMAGE CRITICAL", help = "CriticalDamage", items = items })
end
if tripped(unit.alarms[ALARM.ReactorLost]) then
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local items = { white("REACTOR OFF-LINE"), blue("CHECK PLC") }
table.insert(ecam, { color = colors.red, text = "REACTOR CONN LOST", help = "ReactorLost", items = items })
end
if tripped(unit.alarms[ALARM.ReactorDamage]) then
local items = {
white("REACTOR DAMAGED"), blue("CHECK RCS"), blue("AWAIT DMG REDUCED")
}
table.insert(ecam, { color = colors.red, text = "REACTOR DAMAGE", help = "ReactorDamage", items = items })
end
if tripped(unit.alarms[ALARM.ReactorOverTemp]) then
local items = {
white("DAMAGING TEMP"), blue("CHECK RCS"), blue("AWAIT COOLDOWN")
}
table.insert(ecam, { color = colors.red, text = "REACTOR OVER TEMP", help = "ReactorOverTemp", items = items })
end
if tripped(unit.alarms[ALARM.ReactorHighTemp]) then
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local items = { white("OVER EXPECTED TEMP"), blue("CHECK RCS") }
table.insert(ecam, { color = colors.yellow, text = "REACTOR HIGH TEMP", help = "ReactorHighTemp", items = items})
end
if tripped(unit.alarms[ALARM.ReactorWasteLeak]) then
local items = { white("AT WASTE CAPACITY"), blue("CHECK WASTE OUTPUT"), blue("KEEP RCT DISABLED") }
table.insert(ecam, { color = colors.red, text = "REACTOR WASTE LEAK", help = "ReactorWasteLeak", items = items})
end
if tripped(unit.alarms[ALARM.ReactorHighWaste]) then
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local items = { blue("CHECK WASTE OUTPUT") }
table.insert(ecam, { color = colors.yellow, text = "REACTOR WASTE HIGH", help = "ReactorHighWaste", items = items})
end
if tripped(unit.alarms[ALARM.RPSTransient]) then
local items = {}
local stat = unit.reactor_data.rps_status
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-- for k, _ in pairs(stat) do
-- stat[k] = true
-- end
local function insert(cond, key, text, color) if cond[key] then table.insert(items, { text = text, help = key, color = color }) end end
table.insert(items, white("REACTOR SCRAMMED"))
insert(stat, "high_dmg", "HIGH DAMAGE", colors.red)
insert(stat, "high_temp", "HIGH TEMPERATURE", colors.red)
insert(stat, "low_cool", "CRIT LOW COOLANT")
insert(stat, "ex_waste", "EXCESS WASTE")
insert(stat, "ex_hcool", "EXCESS HEATED COOL")
insert(stat, "no_fuel", "NO FUEL")
insert(stat, "fault", "HARDWARE FAULT")
insert(stat, "timeout", "SUPERVISOR DISCONN")
insert(stat, "manual", "MANUAL SCRAM", colors.white)
insert(stat, "automatic", "AUTOMATIC SCRAM")
insert(stat, "sys_fail", "NOT FORMED", colors.red)
insert(stat, "force_dis", "FORCE DISABLED", colors.red)
table.insert(items, blue("RESOLVE PROBLEM"))
table.insert(items, blue("RESET RPS"))
table.insert(ecam, { color = colors.yellow, text = "RPS TRANSIENT", help = "RPSTransient", items = items})
end
if tripped(unit.alarms[ALARM.RCSTransient]) then
local items = {}
local annunc = unit.annunciator
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-- for k, v in pairs(annunc) do
-- if type(v) == "boolean" then annunc[k] = true end
-- if type(v) == "table" then
-- for a, _ in pairs(v) do
-- v[a] = true
-- end
-- end
-- end
local function insert(cond, key, text, color)
if cond == true or (type(cond) == "table" and cond[key]) then table.insert(items, { text = text, help = key, color = color }) end
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end
table.insert(items, white("COOLANT PROBLEM"))
insert(annunc, "RCPTrip", "RCP TRIP", colors.red)
insert(annunc, "CoolantLevelLow", "LOW COOLANT")
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if unit.num_boilers == 0 then
if (util.time_ms() - unit.last_rate_change_ms) > const.FLOW_STABILITY_DELAY_MS then
insert(annunc, "BoilRateMismatch", "BOIL RATE MISMATCH")
end
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if unit.turbine_flow_stable then
insert(annunc, "RCSFlowLow", "RCS FLOW LOW")
insert(annunc, "CoolantFeedMismatch", "COOL FEED MISMATCH")
insert(annunc, "SteamFeedMismatch", "STM FEED MISMATCH")
end
else
if (util.time_ms() - unit.last_rate_change_ms) > const.FLOW_STABILITY_DELAY_MS then
insert(annunc, "RCSFlowLow", "RCS FLOW LOW")
insert(annunc, "BoilRateMismatch", "BOIL RATE MISMATCH")
insert(annunc, "CoolantFeedMismatch", "COOL FEED MISMATCH")
end
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if unit.turbine_flow_stable then
insert(annunc, "SteamFeedMismatch", "STM FEED MISMATCH")
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end
end
insert(annunc, "MaxWaterReturnFeed", "MAX WTR RTRN FEED")
for k, v in ipairs(annunc.WaterLevelLow) do insert(v, "WaterLevelLow", "BOILER " .. k .. " WTR LOW", colors.red) end
for k, v in ipairs(annunc.HeatingRateLow) do insert(v, "HeatingRateLow", "BOILER " .. k .. " HEAT RATE") end
for k, v in ipairs(annunc.TurbineOverSpeed) do insert(v, "TurbineOverSpeed", "TURBINE " .. k .. " OVERSPD", colors.red) end
for k, v in ipairs(annunc.GeneratorTrip) do insert(v, "GeneratorTrip", "TURBINE " .. k .. " GEN TRIP") end
table.insert(items, blue("CHECK COOLING SYS"))
table.insert(ecam, { color = colors.yellow, text = "RCS TRANSIENT", help = "RCSTransient", items = items})
end
if tripped(unit.alarms[ALARM.TurbineTrip]) then
local items = {}
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for k, v in ipairs(unit.annunciator.TurbineTrip) do
if v then table.insert(items, { text = "TURBINE " .. k .. " TRIP", help = "TurbineTrip" }) end
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end
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table.insert(items, blue("CHECK ENERGY OUT"))
table.insert(ecam, { color = colors.red, text = "TURBINE TRIP", help = "TurbineTripAlarm", items = items})
end
if not (tripped(unit.alarms[ALARM.ReactorLost]) or unit.connected) then
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local items = { blue("CHECK PLC") }
table.insert(ecam, { color = colors.yellow, text = "REACTOR OFF-LINE", items = items })
end
for k, v in ipairs(unit.annunciator.BoilerOnline) do
if not v then
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local items = { blue("CHECK RTU") }
table.insert(ecam, { color = colors.yellow, text = "BOILER " .. k .. " OFF-LINE", items = items})
end
end
for k, v in ipairs(unit.annunciator.TurbineOnline) do
if not v then
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local items = { blue("CHECK RTU") }
table.insert(ecam, { color = colors.yellow, text = "TURBINE " .. k .. " OFF-LINE", items = items})
end
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end
-- if no alarms, put some basic status messages in
if #ecam == 0 then
table.insert(ecam, { color = colors.green, text = "REACTOR " .. util.trinary(unit.reactor_data.mek_status.status, "NOMINAL", "IDLE"), items = {}})
local plural = util.trinary(unit.num_turbines > 1, "S", "")
table.insert(ecam, { color = colors.green, text = "TURBINE" .. plural .. util.trinary(unit.turbine_flow_stable, " STABLE", " STABILIZING"), items = {}})
end
unit.unit_ps.publish("U_ECAM", textutils.serialize(ecam))
--#endregion
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end
-- get the IO controller database
function iocontrol.get_db() return io end
return iocontrol