cc-mek-scada/scada-common/rsio.lua

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--
-- Redstone I/O
--
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local util = require("scada-common.util")
---@class rsio
local rsio = {}
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--#region RS I/O Constants
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---@enum IO_LVL I/O logic level
local IO_LVL = {
DISCONNECT = -1, -- use for RTU session to indicate this RTU is not connected to this port
LOW = 0,
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HIGH = 1,
FLOATING = 2 -- use for RTU session to indicate this RTU is connected but not yet read
}
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---@enum IO_DIR I/O direction
local IO_DIR = {
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IN = 0,
OUT = 1
}
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---@enum IO_MODE I/O mode (digital/analog input/output)
local IO_MODE = {
DIGITAL_IN = 0,
DIGITAL_OUT = 1,
ANALOG_IN = 2,
ANALOG_OUT = 3
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}
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---@enum IO_PORT redstone I/O logic port
local IO_PORT = {
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-- digital inputs --
-- facility
F_SCRAM = 1, -- active low, facility-wide scram
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F_ACK = 2, -- active high, facility alarm acknowledge
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-- reactor
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R_SCRAM = 3, -- active low, reactor scram
R_RESET = 4, -- active high, reactor RPS reset
R_ENABLE = 5, -- active high, reactor enable
-- unit
U_ACK = 6, -- active high, unit alarm acknowledge
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-- digital outputs --
-- facility
F_ALARM = 7, -- active high, facility-wide alarm (any high priority unit alarm)
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F_ALARM_ANY = 8, -- active high, any alarm regardless of priority
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-- waste
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WASTE_PU = 9, -- active low, waste -> plutonium -> pellets route
WASTE_PO = 10, -- active low, waste -> polonium route
WASTE_POPL = 11, -- active low, polonium -> pellets route
WASTE_AM = 12, -- active low, polonium -> anti-matter route
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-- reactor
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R_ACTIVE = 13, -- active high, reactor is active
R_AUTO_CTRL = 14, -- active high, reactor burn rate is automatic
R_SCRAMMED = 15, -- active high, reactor is scrammed
R_AUTO_SCRAM = 16, -- active high, reactor was automatically scrammed
R_HIGH_DMG = 17, -- active high, reactor damage is high
R_HIGH_TEMP = 18, -- active high, reactor is at a high temperature
R_LOW_COOLANT = 19, -- active high, reactor has very low coolant
R_EXCESS_HC = 20, -- active high, reactor has excess heated coolant
R_EXCESS_WS = 21, -- active high, reactor has excess waste
R_INSUFF_FUEL = 22, -- active high, reactor has insufficent fuel
R_PLC_FAULT = 23, -- active high, reactor PLC reports a device access fault
R_PLC_TIMEOUT = 24, -- active high, reactor PLC has not been heard from
-- unit outputs
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U_ALARM = 25, -- active high, unit alarm
U_EMER_COOL = 26 -- active low, emergency coolant control
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}
rsio.IO_LVL = IO_LVL
rsio.IO_DIR = IO_DIR
rsio.IO_MODE = IO_MODE
rsio.IO = IO_PORT
rsio.NUM_PORTS = IO_PORT.U_EMER_COOL
-- self checks
local dup_chk = {}
for _, v in pairs(IO_PORT) do
assert(dup_chk[v] ~= true, "duplicate in port list")
dup_chk[v] = true
end
assert(#dup_chk == rsio.NUM_PORTS, "port list malformed")
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--#endregion
--#region Utility Functions
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local PORT_NAMES = {
"F_SCRAM",
"F_ACK",
"R_SCRAM",
"R_RESET",
"R_ENABLE",
"U_ACK",
"F_ALARM",
"F_ALARM_ANY",
"WASTE_PU",
"WASTE_PO",
"WASTE_POPL",
"WASTE_AM",
"R_ACTIVE",
"R_AUTO_CTRL",
"R_SCRAMMED",
"R_AUTO_SCRAM",
"R_HIGH_DMG",
"R_HIGH_TEMP",
"R_LOW_COOLANT",
"R_EXCESS_HC",
"R_EXCESS_WS",
"R_INSUFF_FUEL",
"R_PLC_FAULT",
"R_PLC_TIMEOUT",
"U_ALARM",
"U_EMER_COOL"
}
local MODES = {
IO_MODE.DIGITAL_IN, -- F_SCRAM
IO_MODE.DIGITAL_IN, -- F_ACK
IO_MODE.DIGITAL_IN, -- R_SCRAM
IO_MODE.DIGITAL_IN, -- R_RESET
IO_MODE.DIGITAL_IN, -- R_ENABLE
IO_MODE.DIGITAL_IN, -- U_ACK
IO_MODE.DIGITAL_OUT, -- F_ALARM
IO_MODE.DIGITAL_OUT, -- F_ALARM_ANY
IO_MODE.DIGITAL_OUT, -- WASTE_PU
IO_MODE.DIGITAL_OUT, -- WASTE_PO
IO_MODE.DIGITAL_OUT, -- WASTE_POPL
IO_MODE.DIGITAL_OUT, -- WASTE_AM
IO_MODE.DIGITAL_OUT, -- R_ACTIVE
IO_MODE.DIGITAL_OUT, -- R_AUTO_CTRL
IO_MODE.DIGITAL_OUT, -- R_SCRAMMED
IO_MODE.DIGITAL_OUT, -- R_AUTO_SCRAM
IO_MODE.DIGITAL_OUT, -- R_HIGH_DMG
IO_MODE.DIGITAL_OUT, -- R_HIGH_TEMP
IO_MODE.DIGITAL_OUT, -- R_LOW_COOLANT
IO_MODE.DIGITAL_OUT, -- R_EXCESS_HC
IO_MODE.DIGITAL_OUT, -- R_EXCESS_WS
IO_MODE.DIGITAL_OUT, -- R_INSUFF_FUEL
IO_MODE.DIGITAL_OUT, -- R_PLC_FAULT
IO_MODE.DIGITAL_OUT, -- R_PLC_TIMEOUT
IO_MODE.DIGITAL_OUT, -- U_ALARM
IO_MODE.DIGITAL_OUT -- U_EMER_COOL
}
assert(rsio.NUM_PORTS == #PORT_NAMES, "port names length incorrect")
assert(rsio.NUM_PORTS == #MODES, "modes length incorrect")
-- port to string
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---@nodiscard
---@param port IO_PORT
function rsio.to_string(port)
if util.is_int(port) and port > 0 and port <= #PORT_NAMES then
return PORT_NAMES[port]
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else
return "UNKNOWN"
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end
end
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local _B_AND = bit.band
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local function _I_ACTIVE_HIGH(level) return level == IO_LVL.HIGH end
local function _I_ACTIVE_LOW(level) return level == IO_LVL.LOW end
local function _O_ACTIVE_HIGH(active) if active then return IO_LVL.HIGH else return IO_LVL.LOW end end
local function _O_ACTIVE_LOW(active) if active then return IO_LVL.LOW else return IO_LVL.HIGH end end
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-- I/O mappings to I/O function and I/O mode
local RS_DIO_MAP = {
-- F_SCRAM
{ _in = _I_ACTIVE_LOW, _out = _O_ACTIVE_LOW, mode = IO_DIR.IN },
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-- F_ACK
{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.IN },
-- R_SCRAM
{ _in = _I_ACTIVE_LOW, _out = _O_ACTIVE_LOW, mode = IO_DIR.IN },
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-- R_RESET
{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.IN },
-- R_ENABLE
{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.IN },
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-- U_ACK
{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.IN },
-- F_ALARM
{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
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-- F_ALARM_ANY
{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
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-- WASTE_PU
{ _in = _I_ACTIVE_LOW, _out = _O_ACTIVE_LOW, mode = IO_DIR.OUT },
-- WASTE_PO
{ _in = _I_ACTIVE_LOW, _out = _O_ACTIVE_LOW, mode = IO_DIR.OUT },
-- WASTE_POPL
{ _in = _I_ACTIVE_LOW, _out = _O_ACTIVE_LOW, mode = IO_DIR.OUT },
-- WASTE_AM
{ _in = _I_ACTIVE_LOW, _out = _O_ACTIVE_LOW, mode = IO_DIR.OUT },
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-- R_ACTIVE
{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
-- R_AUTO_CTRL
{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
-- R_SCRAMMED
{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
-- R_AUTO_SCRAM
{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
-- R_HIGH_DMG
{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
-- R_HIGH_TEMP
{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
-- R_LOW_COOLANT
{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
-- R_EXCESS_HC
{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
-- R_EXCESS_WS
{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
-- R_INSUFF_FUEL
{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
-- R_PLC_FAULT
{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
-- R_PLC_TIMEOUT
{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
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-- U_ALARM
{ _in = _I_ACTIVE_HIGH, _out = _O_ACTIVE_HIGH, mode = IO_DIR.OUT },
-- U_EMER_COOL
{ _in = _I_ACTIVE_LOW, _out = _O_ACTIVE_LOW, mode = IO_DIR.OUT }
}
assert(rsio.NUM_PORTS == #RS_DIO_MAP, "RS_DIO_MAP length incorrect")
-- get the I/O direction of a port
---@nodiscard
---@param port IO_PORT
---@return IO_DIR
function rsio.get_io_dir(port)
if rsio.is_valid_port(port) then return RS_DIO_MAP[port].mode
else return IO_DIR.IN end
end
-- get the mode of a port
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---@nodiscard
---@param port IO_PORT
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---@return IO_MODE
function rsio.get_io_mode(port)
if rsio.is_valid_port(port) then return MODES[port]
else return IO_MODE.ANALOG_IN end
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end
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--#endregion
--#region Generic Checks
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local RS_SIDES = rs.getSides()
-- check if a port is valid
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---@nodiscard
---@param port IO_PORT
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---@return boolean valid
function rsio.is_valid_port(port)
return util.is_int(port) and port > 0 and port <= rsio.NUM_PORTS
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end
-- check if a side is valid
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---@nodiscard
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---@param side string
---@return boolean valid
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function rsio.is_valid_side(side)
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if side ~= nil then
for i = 0, #RS_SIDES do
if RS_SIDES[i] == side then return true end
end
end
return false
end
-- check if a color is a valid single color
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---@nodiscard
---@param color any
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---@return boolean valid
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function rsio.is_color(color)
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return util.is_int(color) and (color > 0) and (_B_AND(color, (color - 1)) == 0)
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end
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-- color to string
---@nodiscard
---@param color color
---@return string
function rsio.color_name(color)
local color_name_map = { [colors.red] = "red", [colors.orange] = "orange", [colors.yellow] = "yellow", [colors.lime] = "lime", [colors.green] = "green", [colors.cyan] = "cyan", [colors.lightBlue] = "lightBlue", [colors.blue] = "blue", [colors.purple] = "purple", [colors.magenta] = "magenta", [colors.pink] = "pink", [colors.white] = "white", [colors.lightGray] = "lightGray", [colors.gray] = "gray", [colors.black] = "black", [colors.brown] = "brown" }
if rsio.is_color(color) then
return color_name_map[color]
else return "unknown" end
end
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--#endregion
--#region Digital I/O
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-- get digital I/O level reading from a redstone boolean input value
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---@nodiscard
---@param rs_value boolean raw value from redstone
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---@return IO_LVL
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function rsio.digital_read(rs_value)
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if rs_value then return IO_LVL.HIGH else return IO_LVL.LOW end
end
-- get redstone boolean output value corresponding to a digital I/O level
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---@nodiscard
---@param level IO_LVL logic level
---@return boolean
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function rsio.digital_write(level) return level == IO_LVL.HIGH end
-- returns the level corresponding to active
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---@nodiscard
---@param port IO_PORT port (to determine active high/low)
---@param active boolean state to convert to logic level
---@return IO_LVL|false
function rsio.digital_write_active(port, active)
if (not util.is_int(port)) or (port < IO_PORT.F_ALARM) or (port > IO_PORT.U_EMER_COOL) then
return false
else
return RS_DIO_MAP[port]._out(active)
end
end
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-- returns true if the level corresponds to active
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---@nodiscard
---@param port IO_PORT port (to determine active low/high)
---@param level IO_LVL logic level
---@return boolean|nil state true for active, false for inactive, or nil if invalid port or level provided
function rsio.digital_is_active(port, level)
if not util.is_int(port) then
return nil
elseif level == IO_LVL.FLOATING or level == IO_LVL.DISCONNECT then
return nil
else
return RS_DIO_MAP[port]._in(level)
end
end
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--#endregion
--#region Analog I/O
-- read an analog value scaled from min to max
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---@nodiscard
---@param rs_value number redstone reading (0 to 15)
---@param min number minimum of range
---@param max number maximum of range
---@return number value scaled reading (min to max)
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function rsio.analog_read(rs_value, min, max)
local value = rs_value / 15
return (value * (max - min)) + min
end
-- write an analog value from the provided scale range
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---@nodiscard
---@param value number value to write (from min to max range)
---@param min number minimum of range
---@param max number maximum of range
---@return number rs_value scaled redstone reading (0 to 15)
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function rsio.analog_write(value, min, max)
local scaled_value = (value - min) / (max - min)
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return math.floor(scaled_value * 15)
end
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--#endregion
return rsio