remoteturtle/turtle.lua

-- Advanced Autonomous Mining Turtle (FIXED v3)
-- Features: GPS tracking, auto-mining, fuel management, smart navigation

local CHANNEL_RECEIVE = 100
local CHANNEL_SEND = 101
local STATUS_CHANNEL = 102

-- State management
local state = {
    mode = "idle", -- idle, manual, exploring, mining, returning
    position = nil,
    homePosition = nil,
    fuel = 0,
    inventory = {},
    target = nil,
    path = {},
    lastStatusUpdate = 0,
    stuckCounter = 0
}

-- Configuration
local config = {
    minFuelToReturn = 500,
    minFuelToExplore = 1000,
    statusUpdateInterval = 5, -- seconds
    maxStuckAttempts = 3,
    valuableBlocks = {
        ["minecraft:coal_ore"] = 1,
        ["minecraft:iron_ore"] = 2,
        ["minecraft:gold_ore"] = 3,
        ["minecraft:diamond_ore"] = 5,
        ["minecraft:emerald_ore"] = 5,
        ["minecraft:redstone_ore"] = 2,
        ["minecraft:lapis_ore"] = 2,
        ["minecraft:deepslate_coal_ore"] = 1,
        ["minecraft:deepslate_iron_ore"] = 2,
        ["minecraft:deepslate_gold_ore"] = 3,
        ["minecraft:deepslate_diamond_ore"] = 5,
        ["minecraft:deepslate_emerald_ore"] = 5,
        ["minecraft:deepslate_redstone_ore"] = 2,
        ["minecraft:deepslate_lapis_ore"] = 2,
    }
}

-- Check for modem
local modem = peripheral.find("modem")
if not modem then
    error("No wireless modem found!")
end
modem.open(CHANNEL_RECEIVE)

print("Advanced Mining Turtle System")
print("ID: " .. os.getComputerID())

-- GPS Functions
local function updatePosition()
    local x, y, z = gps.locate(2)
    if x then
        state.position = {x = math.floor(x), y = math.floor(y), z = math.floor(z)}
        return true
    end
    return false
end

local function setHome()
    if updatePosition() then
        state.homePosition = {
            x = state.position.x,
            y = state.position.y,
            z = state.position.z
        }
        print("Home set at: " .. state.homePosition.x .. ", " .. state.homePosition.y .. ", " .. state.homePosition.z)
        return true
    end
    print("Failed to get GPS position for home")
    return false
end

-- Movement tracking
local facing = 0 -- 0=North(Z-), 1=East(X+), 2=South(Z+), 3=West(X-)

local function updateFacingAfterTurn(right)
    if right then
        facing = (facing + 1) % 4
    else
        facing = (facing - 1) % 4
    end
end

local function smartForward()
    local success = turtle.forward()
    if success and state.position then
        if facing == 0 then state.position.z = state.position.z - 1
        elseif facing == 1 then state.position.x = state.position.x + 1
        elseif facing == 2 then state.position.z = state.position.z + 1
        elseif facing == 3 then state.position.x = state.position.x - 1
        end
    end
    return success
end

local function smartBack()
    local success = turtle.back()
    if success and state.position then
        if facing == 0 then state.position.z = state.position.z + 1
        elseif facing == 1 then state.position.x = state.position.x - 1
        elseif facing == 2 then state.position.z = state.position.z - 1
        elseif facing == 3 then state.position.x = state.position.x + 1
        end
    end
    return success
end

local function smartUp()
    local success = turtle.up()
    if success and state.position then
        state.position.y = state.position.y + 1
    end
    return success
end

local function smartDown()
    local success = turtle.down()
    if success and state.position then
        state.position.y = state.position.y - 1
    end
    return success
end

local function smartTurnRight()
    local success = turtle.turnRight()
    if success then
        updateFacingAfterTurn(true)
    end
    return success
end

local function smartTurnLeft()
    local success = turtle.turnLeft()
    if success then
        updateFacingAfterTurn(false)
    end
    return success
end

-- Fuel management
local function updateFuel()
    state.fuel = turtle.getFuelLevel()
    return state.fuel
end

local function needsRefuel()
    return state.fuel ~= "unlimited" and state.fuel < config.minFuelToReturn
end

local function tryRefuel()
    for slot = 1, 16 do
        turtle.select(slot)
        if turtle.refuel(0) then -- Check if it's fuel
            local count = turtle.getItemCount()
            if count > 0 then
                turtle.refuel(1)
                return true
            end
        end
    end
    return false
end

-- Inventory management
local function updateInventory()
    state.inventory = {}
    for slot = 1, 16 do
        local item = turtle.getItemDetail(slot)
        if item then
            table.insert(state.inventory, {
                slot = slot,
                name = item.name,
                count = item.count
            })
        end
    end
end

local function inventoryFull()
    for slot = 1, 16 do
        if turtle.getItemCount(slot) == 0 then
            return false
        end
    end
    return true
end

local function isValuableBlock(blockName)
    return config.valuableBlocks[blockName] ~= nil
end

-- Check if block is unbreakable
local function isUnbreakable(blockName)
    if not blockName then return false end
    return string.find(blockName, "bedrock") or string.find(blockName, "barrier")
end

-- Mining functions
local function smartDig(direction)
    direction = direction or "forward"
    
    local digFunc, inspectFunc
    if direction == "forward" then
        digFunc = turtle.dig
        inspectFunc = turtle.inspect
    elseif direction == "up" then
        digFunc = turtle.digUp
        inspectFunc = turtle.inspectUp
    elseif direction == "down" then
        digFunc = turtle.digDown
        inspectFunc = turtle.inspectDown
    end
    
    local hasBlock, data = inspectFunc()
    if hasBlock then
        if isUnbreakable(data.name) then
            return false, false, data.name
        end
        local valuable = isValuableBlock(data.name)
        digFunc()
        return true, valuable, data.name
    end
    return false, false, nil
end

-- Pathfinding (improved with obstacle handling)
local function getDistance(pos1, pos2)
    return math.abs(pos1.x - pos2.x) + math.abs(pos1.y - pos2.y) + math.abs(pos1.z - pos2.z)
end

-- Try to dig and move forward
local function forceForward()
    for i = 1, 5 do
        if smartForward() then
            return true
        end
        smartDig("forward")
        sleep(0.3)
    end
    return false
end

-- Try to dig and move up
local function forceUp()
    for i = 1, 5 do
        if smartUp() then
            return true
        end
        smartDig("up")
        sleep(0.3)
    end
    return false
end

-- Try to dig and move down
local function forceDown()
    for i = 1, 5 do
        if smartDown() then
            return true
        end
        smartDig("down")
        sleep(0.3)
    end
    return false
end

-- Advanced navigation with unstuck logic
local function navigateTowards(target)
    if not state.position or not target then
        return false
    end
    
    local dx = target.x - state.position.x
    local dy = target.y - state.position.y
    local dz = target.z - state.position.z
    
    local lastPos = {x = state.position.x, y = state.position.y, z = state.position.z}
    
    -- Prioritize vertical movement if needed
    if math.abs(dy) > 3 then
        if dy > 0 then
            if forceUp() then
                state.stuckCounter = 0
                return false
            end
        else
            if forceDown() then
                state.stuckCounter = 0
                return false
            end
        end
    end
    
    -- Horizontal movement
    local targetFacing
    if math.abs(dx) > math.abs(dz) then
        targetFacing = dx > 0 and 1 or 3
    else
        targetFacing = dz > 0 and 2 or 0
    end
    
    -- Face the right direction
    while facing ~= targetFacing do
        smartTurnRight()
    end
    
    -- Try to move forward
    if forceForward() then
        state.stuckCounter = 0
    else
        -- Stuck! Try alternative routes
        state.stuckCounter = state.stuckCounter + 1
        print("Stuck counter: " .. state.stuckCounter)
        
        if state.stuckCounter > config.maxStuckAttempts then
            print("Trying alternative path...")
            state.stuckCounter = 0
            
            -- Try going up to go over obstacle
            if forceUp() then
                return false
            end
            
            -- Try going around
            smartTurnRight()
            if forceForward() then
                return false
            end
            
            smartTurnLeft()
            smartTurnLeft()
            if forceForward() then
                return false
            end
            
            -- Last resort: dig down and try lower path
            smartTurnRight()
            forceDown()
        end
    end
    
    -- Check if we're close enough
    return getDistance(state.position, target) < 2
end

-- Status broadcasting
function broadcastStatus()
    updateFuel()
    updateInventory()
    updatePosition()
    
    modem.transmit(STATUS_CHANNEL, CHANNEL_RECEIVE, {
        type = "status",
        turtleID = os.getComputerID(),
        mode = state.mode,
        position = state.position,
        homePosition = state.homePosition,
        fuel = state.fuel,
        inventoryCount = #state.inventory,
        inventory = state.inventory,
        facing = facing
    })
end

-- Return to home with better navigation
local function returnHome()
    print("Returning home...")
    state.mode = "returning"
    state.stuckCounter = 0
    broadcastStatus()
    
    local maxAttempts = 1000
    local attempts = 0
    
    while state.homePosition and state.position and 
          getDistance(state.position, state.homePosition) > 1 and
          attempts < maxAttempts do
        
        -- Check for stop command
        if state.mode ~= "returning" then
            print("Return cancelled")
            return
        end
        
        updateFuel()
        if needsRefuel() then
            print("Low fuel, trying to refuel...")
            if tryRefuel() then
                print("Refueled!")
            else
                print("WARNING: Out of fuel!")
                state.mode = "idle"
                broadcastStatus()
                return
            end
        end
        
        local arrived = navigateTowards(state.homePosition)
        if arrived then
            break
        end
        
        attempts = attempts + 1
        
        -- Update GPS position every few steps
        if attempts % 10 == 0 then
            updatePosition()
            print("Distance to home: " .. getDistance(state.position, state.homePosition))
        end
        
        sleep(0.1)
    end
    
    if attempts >= maxAttempts then
        print("Could not reach home - gave up after " .. maxAttempts .. " attempts")
    else
        print("Arrived at home!")
    end
    
    state.mode = "idle"
    state.stuckCounter = 0
    broadcastStatus()
end

-- Exploration algorithm
local function exploreStep()
    -- Check all directions for valuable ores
    for _, direction in ipairs({"forward", "up", "down"}) do
        local dug, valuable, blockName = smartDig(direction)
        if valuable then
            print("Found: " .. blockName)
            broadcastStatus()
        end
    end
    
    -- Random exploration with preference for going deeper
    local r = math.random(1, 10)
    if r <= 3 then
        -- Go down 30% of the time
        if not smartDown() then
            smartDig("down")
            smartDown()
        end
    elseif r <= 5 then
        -- Turn
        if math.random() > 0.5 then
            smartTurnRight()
        else
            smartTurnLeft()
        end
    else
        -- Move forward
        if not smartForward() then
            smartDig("forward")
            if not smartForward() then
                smartTurnRight()
            end
        end
    end
end

-- Command handling
local commands = {
    forward = function() return smartForward(), "Moved forward" end,
    back = function() return smartBack(), "Moved back" end,
    up = function() return smartUp(), "Moved up" end,
    down = function() return smartDown(), "Moved down" end,
    turnLeft = function() return smartTurnLeft(), "Turned left" end,
    turnRight = function() return smartTurnRight(), "Turned right" end,
    dig = function() 
        local dug, val, name = smartDig("forward")
        return dug, dug and "Dug: " .. (name or "block") or "Nothing to dig"
    end,
    digUp = function()
        local dug, val, name = smartDig("up")
        return dug, dug and "Dug up: " .. (name or "block") or "Nothing above"
    end,
    digDown = function()
        local dug, val, name = smartDig("down")
        return dug, dug and "Dug down: " .. (name or "block") or "Nothing below"
    end,
    place = function() return turtle.place(), "Placed" end,
    select = function(slot) return turtle.select(slot), "Selected slot " .. slot end,
    refuel = function() 
        local success = tryRefuel()
        updateFuel()
        broadcastStatus()
        return success, success and ("Refueled! Now: " .. state.fuel) or "No fuel"
    end,
    status = function() broadcastStatus() return true, "Status sent" end,
    
    -- Autonomous commands
    setHome = function() return setHome(), "Home set" end,
    
    explore = function()
        print("Explore command received")
        state.mode = "exploring"
        state.stuckCounter = 0
        broadcastStatus()
        return true, "Starting exploration"
    end,
    
    returnHome = function()
        print("Return home command received")
        state.mode = "returning"
        state.stuckCounter = 0
        broadcastStatus()
        return true, "Returning home"
    end,
    
    stop = function()
        print("STOP command received")
        state.mode = "idle"
        state.stuckCounter = 0
        broadcastStatus()
        return true, "Stopped"
    end,
    
    manual = function()
        state.mode = "manual"
        broadcastStatus()
        return true, "Manual control"
    end,
}

-- Process incoming messages
local function processMessage(message)
    if type(message) == "table" and message.command then
        print("Command: " .. message.command)
        
        local handler = commands[message.command]
        if handler then
            local success, result = handler(message.param)
            
            modem.transmit(CHANNEL_SEND, CHANNEL_RECEIVE, {
                status = success and "ok" or "error",
                message = result or "",
                turtleID = os.getComputerID()
            })
            
            broadcastStatus()
        end
    end
end

-- Main loop
print("Initializing...")
updatePosition()
updateFuel()

if not state.position then
    print("WARNING: No GPS signal!")
    print("Limited functionality available")
end

print("Ready! Waiting for commands...")
broadcastStatus()

-- Main execution loop
parallel.waitForAny(
    function()
        -- Status broadcast loop
        while true do
            sleep(config.statusUpdateInterval)
            broadcastStatus()
        end
    end,
    
    function()
        -- Command processing loop
        while true do
            local event, side, channel, replyChannel, message = os.pullEvent()
            
            if event == "modem_message" then
                processMessage(message)
            end
        end
    end,
    
    function()
        -- Autonomous execution loop
        while true do
            if state.mode == "exploring" then
                updateFuel()
                
                -- Check if we should stop
                if needsRefuel() or inventoryFull() then
                    print("Need to return home")
                    state.mode = "returning"
                    broadcastStatus()
                else
                    exploreStep()
                    sleep(0.2)
                end
                
            elseif state.mode == "returning" then
                returnHome()
                
            else
                -- Idle or manual mode
                sleep(0.5)
            end
        end
    end
)