kp-computercraft-scripts/elevator/elevator-controller.lua

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--[[
Elevator Controller
A script for an all-in-one elevator with floor selection, sounds, doors, and
more.
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Requires `pcm-reader.lua` installed as to be required with `require("pcm")`
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]]
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local pcm = require("pcm")
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-- Load floors from elevator settings.
local FLOORS = {}
local floorsFile = io.open("floors.tbl", "r") or error("Missing floors.tbl")
FLOORS = textutils.unserialize(floorsFile:read("a"))
floorsFile:close()
table.sort(FLOORS, function(fA, fB) return fA.height < fB.height end)
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local FLOORS_BY_LABEL = {}
for _, floor in pairs(FLOORS) do
FLOORS_BY_LABEL[floor.label] = floor
end
local FLOOR_LABELS_ORDERED = {}
for _, floor in pairs(FLOORS) do
table.insert(FLOOR_LABELS_ORDERED, floor.label)
end
table.sort(FLOOR_LABELS_ORDERED, function(lblA, lblB) return FLOORS_BY_LABEL[lblA].height < FLOORS_BY_LABEL[lblB].height end)
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local settingsFile = io.open("settings.tbl", "r") or error("Missing settings.tbl")
local settings = textutils.unserialize(settingsFile:read("a"))
local SYSTEM_NAME = settings.systemName
local CONTROL_BASE_RPM = settings.control.baseRpm
local CONTROL_MAX_RPM = settings.control.maxRpm
local CONTROL_ANALOG_LEVEL_PER_RPM = settings.control.analogLevelPerRpm
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local CONTROL_DIRECTION_UP = settings.control.directionUp
local CONTROL_DIRECTION_DOWN = settings.control.directionDown
local CONTROL_REDSTONE = settings.control.redstone
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local CURRENT_STATE = {
rpm = nil,
direction = nil
}
local function openDoor(floor)
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peripheral.call(floor.redstone, "setOutput", "left", true)
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end
local function closeDoor(floor)
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peripheral.call(floor.redstone, "setOutput", "left", false)
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end
local function playChime(floor)
local speaker = peripheral.wrap(floor.speaker)
speaker.playNote("chime", 1, 18)
os.sleep(0.1)
speaker.playNote("chime", 1, 12)
end
-- Converts an RPM speed to a blocks-per-second speed.
local function rpmToBps(rpm)
return (10 / 256) * rpm
end
-- Sets the RPM of the elevator winch, and returns the true rpm that the system operates at.
local function setRpm(rpm)
if rpm == 0 then
peripheral.call(CONTROL_REDSTONE, "setOutput", "left", true)
return 0
else
local analogPower = 0
local trueRpm = 16
while trueRpm < rpm do
analogPower = analogPower + CONTROL_ANALOG_LEVEL_PER_RPM
trueRpm = trueRpm * 2
end
peripheral.call(CONTROL_REDSTONE, "setAnalogOutput", "right", analogPower)
peripheral.call(CONTROL_REDSTONE, "setOutput", "left", false)
return trueRpm
end
end
-- Sets the speed of the elevator motion.
-- Positive numbers move the elevator up.
-- Zero sets the elevator as motionless.
-- Negative numbers move the elevator down.
-- The nearest possible RPM is used, via SPEEDS.
local function setSpeed(rpm)
if rpm == 0 then
if CURRENT_STATE.rpm ~= 0 then
CURRENT_STATE.rpm = setRpm(0)
-- print("Set RPM to " .. tostring(CURRENT_STATE.rpm))
end
return
end
if rpm > 0 then
peripheral.call(CONTROL_REDSTONE, "setOutput", "top", CONTROL_DIRECTION_UP)
CURRENT_STATE.direction = CONTROL_DIRECTION_UP
-- print("Set winch to UP")
elseif rpm < 0 then
peripheral.call(CONTROL_REDSTONE, "setOutput", "top", CONTROL_DIRECTION_DOWN)
CURRENT_STATE.direction = CONTROL_DIRECTION_DOWN
-- print("Set winch to DOWN")
end
if math.abs(rpm) == CURRENT_STATE.rpm then return end
CURRENT_STATE.rpm = setRpm(math.abs(rpm))
-- print("Set RPM to " .. tostring(CURRENT_STATE.rpm))
end
local function isFloorContactActive(floor)
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return peripheral.call(floor.redstone, "getInput", "back")
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end
-- Determines the label of the floor we're currently on.
-- We first check all known floors to see if the elevator is at one.
-- If that fails, the elevator is at an unknown position, so we move it as soon as possible to top.
local function determineCurrentFloorLabel()
for _, floor in pairs(FLOORS) do
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local status = isFloorContactActive(floor)
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if status then return floor.label end
end
-- No floor found. Move the elevator to the top.
print("Elevator at unknown position, moving to top.")
local lastFloor = FLOORS[#FLOORS]
setSpeed(256)
local elapsedTime = 0
while not isFloorContactActive(lastFloor) and elapsedTime < 10 do
os.sleep(1)
elapsedTime = elapsedTime + 1
end
setSpeed(0)
if not isFloorContactActive(lastFloor) then
print("Timed out. Moving down until we hit the top floor.")
setSpeed(-1)
while not isFloorContactActive(lastFloor) do
-- Busy-wait until we hit the contact.
end
setSpeed(0)
end
return lastFloor.label
end
-- Computes a series of keyframes describing the linear motion of the elevator.
local function computeLinearMotion(distance)
local preFrames = {}
local postFrames = {}
local intervalDuration = 0.25
local distanceToCover = distance
local rpmFactor = 1
while rpmFactor * CONTROL_BASE_RPM < CONTROL_MAX_RPM do
--print("Need to cover " .. distanceToCover .. " more meters.")
local rpm = CONTROL_BASE_RPM * rpmFactor
local potentialDistanceCovered = 2 * intervalDuration * rpmToBps(rpm)
local nextRpmFactorDuration = (distanceToCover - potentialDistanceCovered) / rpmToBps(CONTROL_BASE_RPM * (rpmFactor + 1))
--print("We'd cover " .. potentialDistanceCovered .. " by moving at " .. rpm .. " rpm for " .. intervalDuration .. " seconds twice.")
if potentialDistanceCovered <= distanceToCover and nextRpmFactorDuration >= 2 then
local frame = {
rpm = rpm,
duration = intervalDuration
}
table.insert(preFrames, frame)
table.insert(postFrames, 1, frame)
distanceToCover = distanceToCover - potentialDistanceCovered
rpmFactor = rpmFactor * 2
elseif nextRpmFactorDuration < 2 then
break
end
end
-- Cover the remaining distance with the next rpmFactor.
local finalRpm = CONTROL_BASE_RPM * rpmFactor
local finalDuration = distanceToCover / rpmToBps(finalRpm)
local finalFrame = {
rpm = finalRpm,
duration = finalDuration
}
local frames = {}
for _, frame in pairs(preFrames) do table.insert(frames, frame) end
table.insert(frames, finalFrame)
for _, frame in pairs(postFrames) do table.insert(frames, frame) end
return frames
end
-- Moves the elevator from its current floor to the floor with the given label.
-- During this action, all user input is ignored.
local function goToFloor(floorLabel)
print("Going to floor " .. floorLabel)
local currentFloorLabel = determineCurrentFloorLabel()
if currentFloorLabel == floorLabel then return end
local currentFloor = FLOORS_BY_LABEL[currentFloorLabel]
local targetFloor = FLOORS_BY_LABEL[floorLabel]
local rpmDir = 1
if targetFloor.height < currentFloor.height then
rpmDir = -1
end
local distance = math.abs(targetFloor.height - currentFloor.height) - 1
local motionKeyframes = computeLinearMotion(distance)
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--playChime(currentFloor)
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closeDoor(currentFloor)
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local audioFile = "audio/going-up.pcm"
if rpmDir == -1 then audioFile = "audio/going-down.pcm" end
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local speaker = peripheral.wrap(currentFloor.speaker)
pcm.playFile(speaker, audioFile)
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for _, frame in pairs(motionKeyframes) do
local sleepTime = math.floor((frame.duration - 0.05) * 20) / 20 -- Make sure we round down to safely arrive before the detector.
if frame.rpm == CONTROL_MAX_RPM then
sleepTime = sleepTime - 0.05 -- For some reason at max RPM this is needed.
end
print("Running frame: rpm = " .. tostring(frame.rpm) .. ", dur = " .. tostring(sleepTime))
setSpeed(rpmDir * frame.rpm)
os.sleep(sleepTime)
end
-- On approach, slow down, wait for contact, then slowly align and stop.
setSpeed(rpmDir * 1)
print("Waiting for floor contact capture...")
local waited = false
while not isFloorContactActive(targetFloor) do
waited = true
end
print("Contact made.")
if waited then
print("Aligning...")
local alignmentDuration = 0.4 / rpmToBps(CONTROL_BASE_RPM)
os.sleep(alignmentDuration)
end
setSpeed(0)
print("Locked")
playChime(targetFloor)
openDoor(targetFloor)
end
local function initControls()
print("Initializing control system.")
setSpeed(0)
local currentFloorLabel = determineCurrentFloorLabel()
local currentFloor = FLOORS_BY_LABEL[currentFloorLabel]
for _, floor in pairs(FLOORS) do
openDoor(floor)
os.sleep(0.05)
closeDoor(floor)
end
openDoor(currentFloor)
print("Control system initialized.")
end
--[[
User Interface Section
]]
local function drawText(monitor, x, y, text, fg, bg)
if fg ~= nil then
monitor.setTextColor(fg)
end
if bg ~= nil then
monitor.setBackgroundColor(bg)
end
monitor.setCursorPos(x, y)
monitor.write(text)
end
local function drawTextCentered(monitor, x, y, text, fg, bg)
local w, h = monitor.getSize()
drawText(monitor, x - (string.len(text) / 2), y, text, fg, bg)
end
local function clearLine(monitor, line, color)
monitor.setBackgroundColor(color)
monitor.setCursorPos(1, line)
monitor.clearLine()
end
local function drawGui(floor, currentFloorLabel, destinationFloorLabel)
local monitor = peripheral.wrap(floor.monitor)
monitor.setTextScale(1)
monitor.setBackgroundColor(colors.black)
monitor.clear()
local w, h = monitor.getSize()
clearLine(monitor, 1, colors.blue)
drawText(monitor, 1, 1, SYSTEM_NAME, colors.white, colors.blue)
for i=1, #FLOOR_LABELS_ORDERED do
local label = FLOOR_LABELS_ORDERED[#FLOOR_LABELS_ORDERED - i + 1]
local floor = FLOORS_BY_LABEL[label]
local bg = colors.lightGray
if i % 2 == 0 then bg = colors.gray end
local line = i + 1
clearLine(monitor, line, bg)
local labelBg = bg
if label == currentFloorLabel and destinationFloorLabel == nil then
labelBg = colors.green
end
if label == destinationFloorLabel then
labelBg = colors.yellow
end
-- Format label with padding.
label = " " .. label
while string.len(label) < 3 do label = label .. " " end
drawText(monitor, 1, line, label, colors.white, labelBg)
drawText(monitor, 4, line, floor.name, colors.white, bg)
end
end
local function drawCallMonitorGui(floor, currentFloorLabel, destinationFloorLabel)
local monitor = peripheral.wrap(floor.callMonitor)
monitor.setTextScale(0.5)
monitor.setBackgroundColor(colors.white)
monitor.clear()
local w, h = monitor.getSize()
if destinationFloorLabel == floor.label then
drawTextCentered(monitor, w/2, h/2, "Arriving", colors.green, colors.white)
elseif destinationFloorLabel ~= nil then
drawTextCentered(monitor, w/2, h/2, "In transit", colors.yellow, colors.white)
elseif floor.label == currentFloorLabel then
drawTextCentered(monitor, w/2, h/2, "Available", colors.green, colors.white)
else
drawTextCentered(monitor, w/2, h/2, "Call", colors.blue, colors.white)
end
end
local function renderMonitors(currentFloorLabel, destinationFloorLabel)
for _, floor in pairs(FLOORS) do
drawGui(floor, currentFloorLabel, destinationFloorLabel)
drawCallMonitorGui(floor, currentFloorLabel, destinationFloorLabel)
end
end
local function initUserInterface()
local currentFloorLabel = determineCurrentFloorLabel()
renderMonitors(currentFloorLabel, nil)
end
local function listenForInput()
local event, peripheralId, x, y = os.pullEvent("monitor_touch")
for _, floor in pairs(FLOORS) do
if floor.monitor == peripheralId then
if y > 1 and y <= #FLOORS + 1 then
local floorIndex = #FLOOR_LABELS_ORDERED - (y - 1) + 1
local label = FLOOR_LABELS_ORDERED[floorIndex]
print("y = " .. tostring(y) .. ", floorIndex = " .. floorIndex .. ", label = " .. label)
local currentFloorLabel = determineCurrentFloorLabel()
if label ~= currentFloorLabel then
renderMonitors(currentFloorLabel, label)
goToFloor(label)
renderMonitors(label, nil)
end
end
return
elseif floor.callMonitor == peripheralId then
local currentFloorLabel = determineCurrentFloorLabel()
if floor.label ~= currentFloorLabel then
renderMonitors(currentFloorLabel, floor.label)
goToFloor(floor.label)
renderMonitors(floor.label, nil)
end
return
end
end
end
--[[
Main Script Area.
]]
initControls()
initUserInterface()
while true do
listenForInput()
end