mirror of
https://github.com/MikaylaFischler/cc-mek-scada.git
synced 2024-08-30 18:22:34 +00:00
parent
dc0408881e
commit
838f80c30c
@ -17,7 +17,7 @@ local max_distance = nil
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local comms = {}
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-- protocol/data version (protocol/data independent changes tracked by util.lua version)
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comms.version = "2.4.1"
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comms.version = "2.4.2"
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---@enum PROTOCOL
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local PROTOCOL = {
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@ -63,7 +63,7 @@ function types.new_zero_coordinate() return { x = 0, y = 0, z = 0 } end
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---@class rtu_advertisement
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---@field type RTU_UNIT_TYPE
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---@field index integer
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---@field index integer|false
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---@field reactor integer
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---@field rsio table|nil
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@ -1093,7 +1093,7 @@ function facility.new(num_reactors, cooling_conf)
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build.induction = {}
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for i = 1, #self.induction do
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local matrix = self.induction[i] ---@type unit_session
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build.induction[matrix.get_device_idx()] = { matrix.get_db().formed, matrix.get_db().build }
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build.induction[i] = { matrix.get_db().formed, matrix.get_db().build }
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end
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end
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@ -1101,7 +1101,7 @@ function facility.new(num_reactors, cooling_conf)
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build.sps = {}
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for i = 1, #self.sps do
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local sps = self.sps[i] ---@type unit_session
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build.sps[sps.get_device_idx()] = { sps.get_db().formed, sps.get_db().build }
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build.sps[i] = { sps.get_db().formed, sps.get_db().build }
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end
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end
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@ -1160,7 +1160,7 @@ function facility.new(num_reactors, cooling_conf)
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for i = 1, #self.induction do
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local matrix = self.induction[i] ---@type unit_session
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local db = matrix.get_db() ---@type imatrix_session_db
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status.induction[matrix.get_device_idx()] = { matrix.is_faulted(), db.formed, db.state, db.tanks }
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status.induction[i] = { matrix.is_faulted(), db.formed, db.state, db.tanks }
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end
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-- status of sps
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@ -1168,7 +1168,7 @@ function facility.new(num_reactors, cooling_conf)
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for i = 1, #self.sps do
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local sps = self.sps[i] ---@type unit_session
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local db = sps.get_db() ---@type sps_session_db
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status.sps[sps.get_device_idx()] = { sps.is_faulted(), db.formed, db.state, db.tanks }
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status.sps[i] = { sps.is_faulted(), db.formed, db.state, db.tanks }
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end
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-- status of dynamic tanks
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@ -1183,7 +1183,7 @@ function facility.new(num_reactors, cooling_conf)
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status.rad_mon = {}
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for i = 1, #self.envd do
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local envd = self.envd[i] ---@type unit_session
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status.rad_mon[envd.get_device_idx()] = { envd.is_faulted(), envd.get_db().radiation }
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status.rad_mon[i] = { envd.is_faulted(), envd.get_db().radiation }
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end
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return status
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@ -100,7 +100,7 @@ function rtu.new_session(id, s_addr, in_queue, out_queue, timeout, advertisement
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-- validate unit advertisement
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local advert_validator = util.new_validator()
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advert_validator.assert_type_int(unit_advert.index)
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advert_validator.assert(util.is_int(unit_advert.index) or (unit_advert.index == false))
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advert_validator.assert_type_int(unit_advert.reactor)
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if u_type == RTU_UNIT_TYPE.REDSTONE then
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@ -108,7 +108,7 @@ function rtu.new_session(id, s_addr, in_queue, out_queue, timeout, advertisement
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end
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if advert_validator.valid() then
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advert_validator.assert_min(unit_advert.index, 1)
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if util.is_int(unit_advert.index) then advert_validator.assert_min(unit_advert.index, 1) end
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advert_validator.assert_min(unit_advert.reactor, 0)
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advert_validator.assert_max(unit_advert.reactor, #self.fac_units)
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if not advert_validator.valid() then u_type = false end
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@ -43,7 +43,7 @@ function boilerv.new(session_id, unit_id, advert, out_queue)
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return nil
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end
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local log_tag = "session.rtu(" .. session_id .. ").boilerv(" .. advert.index .. "): "
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local log_tag = util.c("session.rtu(", session_id, ").boilerv(", advert.index, ")[@", unit_id, "]: ")
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local self = {
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session = unit_session.new(session_id, unit_id, advert, out_queue, log_tag, TXN_TAGS),
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@ -55,7 +55,7 @@ function dynamicv.new(session_id, unit_id, advert, out_queue)
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return nil
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end
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local log_tag = "session.rtu(" .. session_id .. ").dynamicv(" .. advert.index .. "): "
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local log_tag = util.c("session.rtu(", session_id, ").dynamicv(", advert.index, ")[@", unit_id, "]: ")
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local self = {
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session = unit_session.new(session_id, unit_id, advert, out_queue, log_tag, TXN_TAGS),
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@ -34,7 +34,7 @@ function envd.new(session_id, unit_id, advert, out_queue)
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return nil
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end
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local log_tag = "session.rtu(" .. session_id .. ").envd(" .. advert.index .. "): "
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local log_tag = util.c("session.rtu(", session_id, ").envd[@", unit_id, "]: ")
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local self = {
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session = unit_session.new(session_id, unit_id, advert, out_queue, log_tag, TXN_TAGS),
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@ -43,7 +43,7 @@ function imatrix.new(session_id, unit_id, advert, out_queue)
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return nil
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end
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local log_tag = "session.rtu(" .. session_id .. ").imatrix(" .. advert.index .. "): "
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local log_tag = util.c("session.rtu(", session_id, ").imatrix[@", unit_id, "]: ")
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local self = {
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session = unit_session.new(session_id, unit_id, advert, out_queue, log_tag, TXN_TAGS),
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@ -56,8 +56,7 @@ function redstone.new(session_id, unit_id, advert, out_queue)
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return nil
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end
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-- for redstone, use unit ID not device index
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local log_tag = "session.rtu(" .. session_id .. ").redstone(" .. unit_id .. "): "
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local log_tag = util.c("session.rtu(", session_id, ").redstone[@", unit_id, "]: ")
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local self = {
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session = unit_session.new(session_id, unit_id, advert, out_queue, log_tag, TXN_TAGS),
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@ -40,7 +40,7 @@ function sna.new(session_id, unit_id, advert, out_queue)
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return nil
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end
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local log_tag = "session.rtu(" .. session_id .. ").sna(" .. advert.index .. "): "
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local log_tag = util.c("session.rtu(", session_id, ").sna[@", unit_id, "]: ")
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local self = {
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session = unit_session.new(session_id, unit_id, advert, out_queue, log_tag, TXN_TAGS),
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@ -43,7 +43,7 @@ function sps.new(session_id, unit_id, advert, out_queue)
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return nil
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end
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local log_tag = "session.rtu(" .. session_id .. ").sps(" .. advert.index .. "): "
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local log_tag = util.c("session.rtu(", session_id, ").sps[@", unit_id, "]: ")
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local self = {
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session = unit_session.new(session_id, unit_id, advert, out_queue, log_tag, TXN_TAGS),
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@ -55,7 +55,7 @@ function turbinev.new(session_id, unit_id, advert, out_queue)
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return nil
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end
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local log_tag = "session.rtu(" .. session_id .. ").turbinev(" .. advert.index .. "): "
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local log_tag = util.c("session.rtu(", session_id, ").turbinev(", advert.index, ")[@", unit_id, "]: ")
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local self = {
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session = unit_session.new(session_id, unit_id, advert, out_queue, log_tag, TXN_TAGS),
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@ -152,7 +152,7 @@ function unit_session.new(session_id, unit_id, advert, out_queue, log_tag, txn_t
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function public.get_unit_id() return unit_id end
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-- get the device index
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---@nodiscard
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function public.get_device_idx() return self.device_index end
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function public.get_device_idx() return self.device_index or 0 end
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-- get the reactor ID
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---@nodiscard
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function public.get_reactor() return self.reactor end
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@ -21,7 +21,7 @@ local supervisor = require("supervisor.supervisor")
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local svsessions = require("supervisor.session.svsessions")
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local SUPERVISOR_VERSION = "v1.0.9"
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local SUPERVISOR_VERSION = "v1.1.0"
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local println = util.println
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local println_ts = util.println_ts
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@ -867,7 +867,7 @@ function unit.new(reactor_id, num_boilers, num_turbines)
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status.rad_mon = {}
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for i = 1, #self.envd do
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local envd = self.envd[i] ---@type unit_session
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status.rad_mon[envd.get_device_idx()] = { envd.is_faulted(), envd.get_db().radiation }
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status.rad_mon[i] = { envd.is_faulted(), envd.get_db().radiation }
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end
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return status
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@ -47,8 +47,9 @@ function logic.update_annunciator(self)
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local num_boilers = self.num_boilers
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local num_turbines = self.num_turbines
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local annunc = self.db.annunciator
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self.db.annunciator.RCSFault = false
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annunc.RCSFault = false
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-- variables for boiler, or reactor if no boilers used
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local total_boil_rate = 0.0
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@ -57,14 +58,14 @@ function logic.update_annunciator(self)
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-- REACTOR --
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-------------
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self.db.annunciator.AutoControl = self.auto_engaged
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annunc.AutoControl = self.auto_engaged
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-- check PLC status
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self.db.annunciator.PLCOnline = self.plc_i ~= nil
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annunc.PLCOnline = self.plc_i ~= nil
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local plc_ready = self.db.annunciator.PLCOnline
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local plc_ready = annunc.PLCOnline
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if self.db.annunciator.PLCOnline then
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if plc_ready then
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local plc_db = self.plc_i.get_db()
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-- update ready state
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@ -110,29 +111,29 @@ function logic.update_annunciator(self)
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-- heartbeat blink about every second
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if self.last_heartbeat + 1000 < plc_db.last_status_update then
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self.db.annunciator.PLCHeartbeat = not self.db.annunciator.PLCHeartbeat
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annunc.PLCHeartbeat = not annunc.PLCHeartbeat
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self.last_heartbeat = plc_db.last_status_update
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end
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local flow_low = util.trinary(plc_db.mek_status.ccool_type == types.FLUID.SODIUM, ANNUNC_LIMS.RCSFlowLow_NA, ANNUNC_LIMS.RCSFlowLow_H2O)
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-- update other annunciator fields
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self.db.annunciator.ReactorSCRAM = plc_db.rps_tripped
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self.db.annunciator.ManualReactorSCRAM = plc_db.rps_trip_cause == types.RPS_TRIP_CAUSE.MANUAL
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self.db.annunciator.AutoReactorSCRAM = plc_db.rps_trip_cause == types.RPS_TRIP_CAUSE.AUTOMATIC
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self.db.annunciator.RCPTrip = plc_db.rps_tripped and (plc_db.rps_status.ex_hcool or plc_db.rps_status.low_cool)
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self.db.annunciator.RCSFlowLow = _get_dt(DT_KEYS.ReactorCCool) < flow_low
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self.db.annunciator.CoolantLevelLow = plc_db.mek_status.ccool_fill < ANNUNC_LIMS.CoolantLevelLow
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self.db.annunciator.ReactorTempHigh = plc_db.mek_status.temp > ANNUNC_LIMS.ReactorTempHigh
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self.db.annunciator.ReactorHighDeltaT = _get_dt(DT_KEYS.ReactorTemp) > ANNUNC_LIMS.ReactorHighDeltaT
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self.db.annunciator.FuelInputRateLow = _get_dt(DT_KEYS.ReactorFuel) < -1.0 or plc_db.mek_status.fuel_fill <= ANNUNC_LIMS.FuelLevelLow
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self.db.annunciator.WasteLineOcclusion = _get_dt(DT_KEYS.ReactorWaste) > 1.0 or plc_db.mek_status.waste_fill >= ANNUNC_LIMS.WasteLevelHigh
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annunc.ReactorSCRAM = plc_db.rps_tripped
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annunc.ManualReactorSCRAM = plc_db.rps_trip_cause == types.RPS_TRIP_CAUSE.MANUAL
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annunc.AutoReactorSCRAM = plc_db.rps_trip_cause == types.RPS_TRIP_CAUSE.AUTOMATIC
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annunc.RCPTrip = plc_db.rps_tripped and (plc_db.rps_status.ex_hcool or plc_db.rps_status.low_cool)
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annunc.RCSFlowLow = _get_dt(DT_KEYS.ReactorCCool) < flow_low
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annunc.CoolantLevelLow = plc_db.mek_status.ccool_fill < ANNUNC_LIMS.CoolantLevelLow
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annunc.ReactorTempHigh = plc_db.mek_status.temp > ANNUNC_LIMS.ReactorTempHigh
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annunc.ReactorHighDeltaT = _get_dt(DT_KEYS.ReactorTemp) > ANNUNC_LIMS.ReactorHighDeltaT
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annunc.FuelInputRateLow = _get_dt(DT_KEYS.ReactorFuel) < -1.0 or plc_db.mek_status.fuel_fill <= ANNUNC_LIMS.FuelLevelLow
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annunc.WasteLineOcclusion = _get_dt(DT_KEYS.ReactorWaste) > 1.0 or plc_db.mek_status.waste_fill >= ANNUNC_LIMS.WasteLevelHigh
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local heating_rate_conv = util.trinary(plc_db.mek_status.ccool_type == types.FLUID.SODIUM, 200000, 20000)
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local high_rate = plc_db.mek_status.burn_rate >= (plc_db.mek_status.ccool_amnt * 0.27 / heating_rate_conv)
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-- this advisory applies when no coolant is buffered (which we can't easily determine)<br>
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-- it's a rough estimation, see GitHub cc-mek-scada/wiki/High-Rate-Calculation
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self.db.annunciator.HighStartupRate = not plc_db.mek_status.status and high_rate
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annunc.HighStartupRate = not plc_db.mek_status.status and high_rate
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-- if no boilers, use reactor heating rate to check for boil rate mismatch
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if num_boilers == 0 then
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@ -146,21 +147,25 @@ function logic.update_annunciator(self)
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-- MISC RTUs --
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---------------
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self.db.annunciator.RadiationMonitor = 1
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self.db.annunciator.RadiationWarning = false
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local max_rad, any_faulted = 0, false
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for i = 1, #self.envd do
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local envd = self.envd[i] ---@type unit_session
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self.db.annunciator.RadiationMonitor = util.trinary(envd.is_faulted(), 2, 3)
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self.db.annunciator.RadiationWarning = envd.get_db().radiation_raw >= ANNUNC_LIMS.RadiationWarning
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break
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local db = envd.get_db() ---@type envd_session_db
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any_faulted = any_faulted or envd.is_faulted()
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if db.radiation_raw > max_rad then max_rad = db.radiation_raw end
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end
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self.db.annunciator.EmergencyCoolant = 1
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annunc.RadiationMonitor = util.trinary(#self.envd == 0, 1, util.trinary(any_faulted, 2, 3))
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annunc.RadiationWarning = max_rad >= ANNUNC_LIMS.RadiationWarning
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annunc.EmergencyCoolant = 1
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for i = 1, #self.redstone do
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local db = self.redstone[i].get_db() ---@type redstone_session_db
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local io = db.io[IO.U_EMER_COOL] ---@type rs_db_dig_io|nil
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if io ~= nil then
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self.db.annunciator.EmergencyCoolant = util.trinary(io.read(), 3, 2)
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annunc.EmergencyCoolant = util.trinary(io.read(), 3, 2)
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break
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end
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end
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@ -172,7 +177,7 @@ function logic.update_annunciator(self)
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local boilers_ready = num_boilers == #self.boilers
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-- clear boiler online flags
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for i = 1, num_boilers do self.db.annunciator.BoilerOnline[i] = false end
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for i = 1, num_boilers do annunc.BoilerOnline[i] = false end
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-- aggregated statistics
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local boiler_steam_dt_sum = 0.0
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@ -185,7 +190,7 @@ function logic.update_annunciator(self)
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local boiler = session.get_db() ---@type boilerv_session_db
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local idx = session.get_device_idx()
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self.db.annunciator.RCSFault = self.db.annunciator.RCSFault or (not boiler.formed) or session.is_faulted()
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annunc.RCSFault = annunc.RCSFault or (not boiler.formed) or session.is_faulted()
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-- update ready state
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-- - must be formed
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@ -199,8 +204,8 @@ function logic.update_annunciator(self)
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boiler_steam_dt_sum = _get_dt(DT_KEYS.BoilerSteam .. idx)
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boiler_water_dt_sum = _get_dt(DT_KEYS.BoilerWater .. idx)
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self.db.annunciator.BoilerOnline[idx] = true
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self.db.annunciator.WaterLevelLow[idx] = boiler.tanks.water_fill < ANNUNC_LIMS.WaterLevelLow
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annunc.BoilerOnline[idx] = true
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annunc.WaterLevelLow[idx] = boiler.tanks.water_fill < ANNUNC_LIMS.WaterLevelLow
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end
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-- check heating rate low
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@ -214,9 +219,9 @@ function logic.update_annunciator(self)
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local db = boiler.get_db() ---@type boilerv_session_db
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if r_db.mek_status.status then
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self.db.annunciator.HeatingRateLow[idx] = db.state.boil_rate == 0
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annunc.HeatingRateLow[idx] = db.state.boil_rate == 0
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else
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self.db.annunciator.HeatingRateLow[idx] = false
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annunc.HeatingRateLow[idx] = false
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end
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end
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end
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@ -256,7 +261,7 @@ function logic.update_annunciator(self)
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cfmismatch = cfmismatch or _get_dt(DT_KEYS.ReactorCCool) < -10.0 or (gaining_hc and r_db.mek_status.ccool_fill == 0)
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end
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self.db.annunciator.CoolantFeedMismatch = cfmismatch
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annunc.CoolantFeedMismatch = cfmismatch
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--------------
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-- TURBINES --
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@ -265,7 +270,7 @@ function logic.update_annunciator(self)
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local turbines_ready = num_turbines == #self.turbines
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-- clear turbine online flags
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for i = 1, num_turbines do self.db.annunciator.TurbineOnline[i] = false end
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for i = 1, num_turbines do annunc.TurbineOnline[i] = false end
|
||||
|
||||
-- aggregated statistics
|
||||
local total_flow_rate = 0
|
||||
@ -280,7 +285,7 @@ function logic.update_annunciator(self)
|
||||
local session = self.turbines[i] ---@type unit_session
|
||||
local turbine = session.get_db() ---@type turbinev_session_db
|
||||
|
||||
self.db.annunciator.RCSFault = self.db.annunciator.RCSFault or (not turbine.formed) or session.is_faulted()
|
||||
annunc.RCSFault = annunc.RCSFault or (not turbine.formed) or session.is_faulted()
|
||||
|
||||
-- update ready state
|
||||
-- - must be formed
|
||||
@ -295,19 +300,19 @@ function logic.update_annunciator(self)
|
||||
max_water_return_rate = max_water_return_rate + turbine.build.max_water_output
|
||||
self.db.control.blade_count = self.db.control.blade_count + turbine.build.blades
|
||||
|
||||
self.db.annunciator.TurbineOnline[session.get_device_idx()] = true
|
||||
annunc.TurbineOnline[session.get_device_idx()] = true
|
||||
end
|
||||
|
||||
-- check for boil rate mismatch (> 4% error) either between reactor and turbine or boiler and turbine
|
||||
self.db.annunciator.BoilRateMismatch = math.abs(total_boil_rate - total_input_rate) > (0.04 * total_boil_rate)
|
||||
annunc.BoilRateMismatch = math.abs(total_boil_rate - total_input_rate) > (0.04 * total_boil_rate)
|
||||
|
||||
-- check for steam feed mismatch and max return rate
|
||||
local steam_dt_max = util.trinary(num_boilers == 0, ANNUNC_LIMS.SFM_MaxSteamDT_H20, ANNUNC_LIMS.SFM_MaxSteamDT_NA)
|
||||
local water_dt_min = util.trinary(num_boilers == 0, ANNUNC_LIMS.SFM_MinWaterDT_H20, ANNUNC_LIMS.SFM_MinWaterDT_NA)
|
||||
local sfmismatch = math.abs(total_flow_rate - total_input_rate) > ANNUNC_LIMS.SteamFeedMismatch
|
||||
sfmismatch = sfmismatch or boiler_steam_dt_sum > steam_dt_max or boiler_water_dt_sum < water_dt_min
|
||||
self.db.annunciator.SteamFeedMismatch = sfmismatch
|
||||
self.db.annunciator.MaxWaterReturnFeed = max_water_return_rate == total_flow_rate and total_flow_rate ~= 0
|
||||
annunc.SteamFeedMismatch = sfmismatch
|
||||
annunc.MaxWaterReturnFeed = max_water_return_rate == total_flow_rate and total_flow_rate ~= 0
|
||||
|
||||
-- turbine safety checks
|
||||
for i = 1, #self.turbines do
|
||||
@ -317,37 +322,22 @@ function logic.update_annunciator(self)
|
||||
|
||||
-- check if steam dumps are open
|
||||
if db.state.dumping_mode == DUMPING_MODE.IDLE then
|
||||
self.db.annunciator.SteamDumpOpen[idx] = TRI_FAIL.OK
|
||||
annunc.SteamDumpOpen[idx] = TRI_FAIL.OK
|
||||
elseif db.state.dumping_mode == DUMPING_MODE.DUMPING_EXCESS then
|
||||
self.db.annunciator.SteamDumpOpen[idx] = TRI_FAIL.PARTIAL
|
||||
annunc.SteamDumpOpen[idx] = TRI_FAIL.PARTIAL
|
||||
else
|
||||
self.db.annunciator.SteamDumpOpen[idx] = TRI_FAIL.FULL
|
||||
annunc.SteamDumpOpen[idx] = TRI_FAIL.FULL
|
||||
end
|
||||
|
||||
-- check if turbines are at max speed but not keeping up
|
||||
self.db.annunciator.TurbineOverSpeed[idx] = (db.state.flow_rate == db.build.max_flow_rate) and (_get_dt(DT_KEYS.TurbineSteam .. idx) > 0.0)
|
||||
annunc.TurbineOverSpeed[idx] = (db.state.flow_rate == db.build.max_flow_rate) and (_get_dt(DT_KEYS.TurbineSteam .. idx) > 0.0)
|
||||
|
||||
--[[
|
||||
Generator Trip
|
||||
a generator trip is when a generator suddenly and unexpectedly loses it's external load, which occurs when a power plant
|
||||
is disconnected from the grid. in our case, this is when the turbine is disconnected, or what it's connected to becomes
|
||||
fully charged. this is identified by detecting if:
|
||||
- the internal power storage of the turbine is increasing AND
|
||||
- there is at least 5% energy fill (preventing false trips with periodic power extraction from other mods)
|
||||
this would then mean there is no external load and there will be a turbine trip soon if this is not resolved
|
||||
]]--
|
||||
self.db.annunciator.GeneratorTrip[idx] = (_get_dt(DT_KEYS.TurbinePower .. idx) > 0.0) and (db.tanks.energy_fill > 0.05)
|
||||
-- see notes at cc-mek-scada/wiki/Annunciator-Panels#Generator-Trip
|
||||
annunc.GeneratorTrip[idx] = (_get_dt(DT_KEYS.TurbinePower .. idx) > 0.0) and (db.tanks.energy_fill > 0.05)
|
||||
|
||||
--[[
|
||||
Turbine Trip
|
||||
a turbine trip is when the turbine stops, which means we are no longer receiving water and lose the ability to cool.
|
||||
this can be identified by these conditions:
|
||||
- the current flow rate is 0 mB/t and it should not be
|
||||
- can initially catch this by detecting a 0 flow rate with a non-zero input rate, but eventually the steam will fill up
|
||||
- can later identified by presence of steam in tank with a 0 flow rate
|
||||
]]--
|
||||
-- see notes at cc-mek-scada/wiki/Annunciator-Panels#Turbine-Trip
|
||||
local has_steam = db.state.steam_input_rate > 0 or db.tanks.steam_fill > 0.01
|
||||
self.db.annunciator.TurbineTrip[idx] = has_steam and db.state.flow_rate == 0
|
||||
annunc.TurbineTrip[idx] = has_steam and db.state.flow_rate == 0
|
||||
end
|
||||
|
||||
-- update auto control ready state for this unit
|
||||
@ -577,6 +567,7 @@ end
|
||||
---@param self _unit_self unit instance
|
||||
function logic.update_status_text(self)
|
||||
local AISTATE = self.types.AISTATE
|
||||
local annunc = self.db.annunciator
|
||||
|
||||
-- check if an alarm is active (tripped or ack'd)
|
||||
---@nodiscard
|
||||
@ -666,13 +657,13 @@ function logic.update_status_text(self)
|
||||
if plc_db.mek_status.status then
|
||||
self.status_text[1] = "ACTIVE"
|
||||
|
||||
if self.db.annunciator.ReactorHighDeltaT then
|
||||
if annunc.ReactorHighDeltaT then
|
||||
self.status_text[2] = "core temperature rising"
|
||||
elseif self.db.annunciator.ReactorTempHigh then
|
||||
elseif annunc.ReactorTempHigh then
|
||||
self.status_text[2] = "core temp high, system nominal"
|
||||
elseif self.db.annunciator.FuelInputRateLow then
|
||||
elseif annunc.FuelInputRateLow then
|
||||
self.status_text[2] = "insufficient fuel input rate"
|
||||
elseif self.db.annunciator.WasteLineOcclusion then
|
||||
elseif annunc.WasteLineOcclusion then
|
||||
self.status_text[2] = "insufficient waste output rate"
|
||||
elseif (util.time_ms() - self.last_rate_change_ms) <= FLOW_STABILITY_DELAY_MS then
|
||||
self.status_text[2] = "awaiting flow stability"
|
||||
@ -711,7 +702,7 @@ function logic.update_status_text(self)
|
||||
end
|
||||
|
||||
self.status_text = { "RPS SCRAM", cause }
|
||||
elseif self.db.annunciator.RadiationWarning then
|
||||
elseif annunc.RadiationWarning then
|
||||
-- elevated, non-hazardous level of radiation is low priority, so display it now if everything else was fine
|
||||
self.status_text = { "RADIATION DETECTED", "elevated level of radiation" }
|
||||
else
|
||||
@ -726,7 +717,7 @@ function logic.update_status_text(self)
|
||||
self.status_text[2] = "core hot"
|
||||
end
|
||||
end
|
||||
elseif self.db.annunciator.RadiationWarning then
|
||||
elseif annunc.RadiationWarning then
|
||||
-- in case PLC was disconnected but radiation is present
|
||||
self.status_text = { "RADIATION DETECTED", "elevated level of radiation" }
|
||||
else
|
||||
@ -738,6 +729,7 @@ end
|
||||
---@param self _unit_self unit instance
|
||||
function logic.handle_redstone(self)
|
||||
local AISTATE = self.types.AISTATE
|
||||
local annunc = self.db.annunciator
|
||||
|
||||
-- check if an alarm is active (tripped or ack'd)
|
||||
---@nodiscard
|
||||
@ -806,7 +798,7 @@ function logic.handle_redstone(self)
|
||||
-----------------------
|
||||
|
||||
local enable_emer_cool = self.plc_cache.rps_status.low_cool or
|
||||
(self.auto_engaged and self.db.annunciator.CoolantLevelLow and is_active(self.alarms.ReactorOverTemp))
|
||||
(self.auto_engaged and annunc.CoolantLevelLow and is_active(self.alarms.ReactorOverTemp))
|
||||
|
||||
-- don't turn off emergency coolant on sufficient coolant level since it might drop again
|
||||
-- turn off once system is OK again
|
||||
@ -822,7 +814,7 @@ function logic.handle_redstone(self)
|
||||
end
|
||||
end
|
||||
|
||||
if self.db.annunciator.EmergencyCoolant > 1 and self.emcool_opened then
|
||||
if annunc.EmergencyCoolant > 1 and self.emcool_opened then
|
||||
log.info(util.c("UNIT ", self.r_id, " emergency coolant valve closed"))
|
||||
log.info(util.c("UNIT ", self.r_id, " turbines set to not dump steam"))
|
||||
end
|
||||
@ -849,7 +841,7 @@ function logic.handle_redstone(self)
|
||||
end
|
||||
end
|
||||
|
||||
if self.db.annunciator.EmergencyCoolant > 1 and not self.emcool_opened then
|
||||
if annunc.EmergencyCoolant > 1 and not self.emcool_opened then
|
||||
log.info(util.c("UNIT ", self.r_id, " emergency coolant valve opened"))
|
||||
log.info(util.c("UNIT ", self.r_id, " turbines set to dump excess steam"))
|
||||
end
|
||||
|
Loading…
Reference in New Issue
Block a user