-- Harvest Program for robots. Uses a hoe and geolyzer for optimal harvesting. --[[ Author: Andrew Lalis File: harvest.lua Version: 1.0 Last Modified: 27-09-2018 Description: This script enables a robot to harvest fields of crops quickly and efficiently. The robot will traverse the field and only harvest crops considered 'done' by their crop definition. --]] local robot = require("robot") local component = require("component") local fs = component.filesystem local serial = require("serialization") local geolyzer = component.geolyzer local ic = component.inventory_controller local sides = require("sides") local CONFIG_FILE = "harvest.conf" local LEFT = 1 local RIGHT = 0 -- List of crops which will be harvested. local crop_definitions = { ["harvestcraft:pamsoybeancrop"] = { growth_limit = 0.42, item_name = "harvestcraft:soybeanitem" }, ["harvestcraft:pamspiceleafcrop"] = { growth_limit = 0.42, item_name = "harvestcraft:spiceleafitem" } } -- Repeats the given function until it returns true. local function doUntilSuccess(func) local success = func() while (not success) do success = func() end end -- Pre-defined path from turtle docking bay to start of harvest area (first crop). local function goToStart(rows, columns) doUntilSuccess(robot.forward) end -- Pre-defined path back to the turtle docking bay. local function goBack(rows, columns) for i=1,(columns-1) do doUntilSuccess(robot.back) end robot.turnRight() for i=1,(rows-1) do doUntilSuccess(robot.back) end robot.turnLeft() doUntilSuccess(robot.back) end --[[ Select an item, given its name and damage value. item_name - string: The id string for an item. item_data - number: The damage value, or variation of an item. Defaults to zero. return - boolean: True if at least one slot contains the item. That slot is now selected. --]] local function selectItemByName(item_name, item_data) for i=1,16 do local stack = ic.getStackInInternalSlot(i) if (stack ~= nil and stack.name == item_name and stack.damage == item_data) then robot.select(i) return true end end return false end --[[ Checks if the hoe is equipped. Meant to be done before starting a harvest. return - boolean: True if a hoe is equipped, or false if not. --]] local function isHoeEquipped() for i=1,16 do local item_stack = ic.getStackInInternalSlot(i) if (item_stack == nil) then robot.select(i) ic.equip() new_item_stack = ic.getStackInInternalSlot(i) if (new_item_stack ~= nil and string.match(new_item_stack.name, "_hoe")) then return true end return false end end return false end --[[ Tries to harvest a plant, if it is one of the crops defined in the crop definitions table above. return - boolean: True if a plant was harvested, false otherwise. --]] local function harvestPlant() local plant_data = geolyzer.analyze(sides.bottom) local crop_definition = crop_definitions[plant_data.name] if (crop_definition == nil) then return false end if (plant_data.growth >= crop_definition.growth_limit) then robot.swingDown() selectItemByName(crop_definition.item_name, 0) robot.placeDown() return true else return false end end --[[ Harvests one row of crops. length - int: The number of plants in this row. return - int: The number of crops that were harvested. --]] local function harvestRow(length) local harvests = 0 for i=1,length do if (i > 1) then doUntilSuccess(robot.forward) end if (harvestPlant()) then harvests = harvests + 1 end end return harvests end --[[ At the end of the row, the robot must rotate into the next row, and this is dependent on where the start location is. current_row_index - int: The row the robot is on prior to turning. start_location - int: Whether the robot starts at the left or right. --]] local function turnToNextRow(current_row_index, start_location) if (current_row_index % 2 == start_location) then robot.turnRight() else robot.turnLeft() end doUntilSuccess(robot.forward) if (current_row_index % 2 == start_location) then robot.turnRight() else robot.turnLeft() end end --[[ Harvests a two dimensional area defined by rows and columns. The robot starts by moving forward down the first row. rows - int: The number of rows to harvest. columns - int: The number of columns to harvest. start_location - int: 1 for LEFT, 0 for RIGHT. return - int: The total number of crops harvested. --]] local function harvestField(rows, columns, start_location) goToStart(rows, columns) -- Begin harvesting. local harvests = 0 for i=1,rows do harvests = harvests + harvestRow(columns) -- Do not turn to the next row on the last row. if (i < rows) then turnToNextRow(i, start_location) end end goBack(rows, columns) return harvests end --[[ Drops all carried items into an inventory below the robot. return - int: The number of items dropped. --]] local function dropItems() local item_count = 0 for i=1,16 do robot.select(i) local stack = ic.getStackInInternalSlot(i) if (stack ~= nil) then doUntilSuccess(robot.dropDown) item_count = item_count + stack.size end end return item_count end --[[ Reads config from a file. filename - string: The string path/filename. return - table|nil: The table defined in config, or nil if the file does not exist or another error occurs. --]] local function loadConfig(filename) if (fs.exists(filename) and not fs.isDirectory(filename)) then -- Config file exists. file = io.open(filename, "r") local t = serial.unserialize(file:read()) file:close() return t else print("No config file " .. filename .. "exists. Please create it before continuing.") return nil end end --[[ Guides the user in creating a new config. --]] local function createConfig(filename) local config = {} print("Does your robot start on the left or right of the field?") local input = io.read() if (input == "left") then config.START_LOCATION_RELATIVE = LEFT elseif (input == "right") then config.START_LOCATION_RELATIVE = RIGHT else print("Invalid choice. Should be either left or right.") return nil end print("Enter number of rows.") config.ROWS = tonumber(io.read()) print("Enter number of columns.") config.COLS = tonumber(io.read()) print("How many crops are being harvested?") for i=1,tonumber(io.read()) do print("Crop "..i..": What is the block name? (Use geolyzer to analyze it)") local name = io.read() config.crop_definitions[name] = {} print(" What is the growth threshold for harvesting?") config.crop_definitions[name].growth_limit = tonumber(io.read()) print(" What is the item name of this crop?") config.crop_definitions[name].item_name = io.read() end file = io.open(filename, "w") file:write(serial.serialize(config)) file:close() end local function main() local config = loadConfig(CONFIG_FILE) if (config == nil) then config = createConfig(CONFIG_FILE) end crop_definitions = config.crop_definitions local harvest_count = harvestField(config.ROWS, config.COLS, config.START_LOCATION_RELATIVE) local drop_count = dropItems() print(harvest_count..", "..drop_count) end