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mirror of https://github.com/kepler155c/opus synced 2024-11-05 00:16:16 +00:00
opus/sys/extensions/tl3.lua

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Lua
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if not turtle or turtle.getPoint then
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return
end
requireInjector(getfenv(1))
local Point = require('point')
local synchronized = require('sync')
local Util = require('util')
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local Pathing = require('turtle.pathfind')
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local function noop() end
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turtle.pathfind = Pathing.pathfind
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turtle.point = { x = 0, y = 0, z = 0, heading = 0 }
turtle.status = 'idle'
turtle.abort = false
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local state = { }
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function turtle.getPoint() return turtle.point end
function turtle.getState() return state end
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local function _defaultMove(action)
while not action.move() do
if not state.digPolicy(action) and not state.attackPolicy(action) then
return false
end
end
return true
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end
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function turtle.setPoint(pt, isGPS)
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turtle.point.x = pt.x
turtle.point.y = pt.y
turtle.point.z = pt.z
if pt.heading then
turtle.point.heading = pt.heading
end
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turtle.point.gps = isGPS
return true
end
function turtle.resetState()
--turtle.abort = false -- should be part of state
--turtle.status = 'idle' -- should be part of state
state.attackPolicy = noop
state.digPolicy = noop
state.movePolicy = _defaultMove
state.moveCallback = noop
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Pathing.reset()
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return true
end
function turtle.reset()
turtle.point.x = 0
turtle.point.y = 0
turtle.point.z = 0
turtle.point.heading = 0
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turtle.point.gps = false
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turtle.abort = false -- should be part of state
--turtle.status = 'idle' -- should be part of state
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turtle.resetState()
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return true
end
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turtle.reset()
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local actions = {
up = {
detect = turtle.native.detectUp,
dig = turtle.native.digUp,
move = turtle.native.up,
attack = turtle.native.attackUp,
place = turtle.native.placeUp,
drop = turtle.native.dropUp,
suck = turtle.native.suckUp,
compare = turtle.native.compareUp,
inspect = turtle.native.inspectUp,
side = 'top'
},
down = {
detect = turtle.native.detectDown,
dig = turtle.native.digDown,
move = turtle.native.down,
attack = turtle.native.attackDown,
place = turtle.native.placeDown,
drop = turtle.native.dropDown,
suck = turtle.native.suckDown,
compare = turtle.native.compareDown,
inspect = turtle.native.inspectDown,
side = 'bottom'
},
forward = {
detect = turtle.native.detect,
dig = turtle.native.dig,
move = turtle.native.forward,
attack = turtle.native.attack,
place = turtle.native.place,
drop = turtle.native.drop,
suck = turtle.native.suck,
compare = turtle.native.compare,
inspect = turtle.native.inspect,
side = 'front'
},
back = {
detect = noop,
dig = noop,
move = turtle.native.back,
attack = noop,
place = noop,
suck = noop,
compare = noop,
side = 'back'
},
}
function turtle.getAction(direction)
return actions[direction]
end
-- [[ Heading data ]] --
local headings = {
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[ 0 ] = { xd = 1, zd = 0, yd = 0, heading = 0, direction = 'east' },
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[ 1 ] = { xd = 0, zd = 1, yd = 0, heading = 1, direction = 'south' },
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[ 2 ] = { xd = -1, zd = 0, yd = 0, heading = 2, direction = 'west' },
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[ 3 ] = { xd = 0, zd = -1, yd = 0, heading = 3, direction = 'north' },
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[ 4 ] = { xd = 0, zd = 0, yd = 1, heading = 4, direction = 'up' },
[ 5 ] = { xd = 0, zd = 0, yd = -1, heading = 5, direction = 'down' }
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}
local namedHeadings = {
east = headings[0],
south = headings[1],
west = headings[2],
north = headings[3],
up = headings[4],
down = headings[5]
}
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function turtle.getHeadings() return headings end
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function turtle.getHeadingInfo(heading)
if heading and type(heading) == 'string' then
return namedHeadings[heading]
end
heading = heading or turtle.point.heading
return headings[heading]
end
-- [[ Basic turtle actions ]] --
local function inventoryAction(fn, name, qty)
local slots = turtle.getFilledSlots()
local s
for _,slot in pairs(slots) do
if slot.key == name or slot.name == name then
turtle.native.select(slot.index)
if not qty then
s = fn()
else
s = fn(math.min(qty, slot.count))
qty = qty - slot.count
if qty < 0 then
break
end
end
end
end
if not s then
return false, 'No items found'
end
return s
end
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local function _attack(action)
if action.attack() then
repeat until not action.attack()
return true
end
return false
end
function turtle.attack() return _attack(actions.forward) end
function turtle.attackUp() return _attack(actions.up) end
function turtle.attackDown() return _attack(actions.down) end
local function _place(action, indexOrId)
local slot
if indexOrId then
slot = turtle.getSlot(indexOrId)
if not slot then
return false, 'No items to place'
end
end
if slot and slot.qty == 0 then
return false, 'No items to place'
end
return Util.tryTimes(3, function()
if slot then
turtle.select(slot.index)
end
local result = { action.place() }
if result[1] then
return true
end
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if not state.digPolicy(action) then
state.attackPolicy(action)
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end
return unpack(result)
end)
end
function turtle.place(slot) return _place(actions.forward, slot) end
function turtle.placeUp(slot) return _place(actions.up, slot) end
function turtle.placeDown(slot) return _place(actions.down, slot) end
local function _drop(action, qtyOrName, qty)
if not qtyOrName or type(qtyOrName) == 'number' then
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return action.drop(qtyOrName or 64)
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end
return inventoryAction(action.drop, qtyOrName, qty)
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end
function turtle.drop(count, slot) return _drop(actions.forward, count, slot) end
function turtle.dropUp(count, slot) return _drop(actions.up, count, slot) end
function turtle.dropDown(count, slot) return _drop(actions.down, count, slot) end
function turtle.refuel(qtyOrName, qty)
if not qtyOrName or type(qtyOrName) == 'number' then
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return turtle.native.refuel(qtyOrName or 64)
end
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return inventoryAction(turtle.native.refuel, qtyOrName, qty or 64)
end
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--[[
function turtle.dig() return state.dig(actions.forward) end
function turtle.digUp() return state.dig(actions.up) end
function turtle.digDown() return state.dig(actions.down) end
--]]
function turtle.isTurtleAtSide(side)
local sideType = peripheral.getType(side)
return sideType and sideType == 'turtle'
end
turtle.attackPolicies = {
none = noop,
attack = function(action)
return _attack(action)
end,
}
turtle.digPolicies = {
none = noop,
dig = function(action)
return action.dig()
end,
turtleSafe = function(action)
if action.side == 'back' then
return false
end
if not turtle.isTurtleAtSide(action.side) then
return action.dig()
end
return Util.tryTimes(6, function()
-- if not turtle.isTurtleAtSide(action.side) then
-- return true --action.dig()
-- end
os.sleep(.25)
if not action.detect() then
return true
end
end)
end,
digAndDrop = function(action)
if action.detect() then
local slots = turtle.getInventory()
if action.dig() then
turtle.reconcileInventory(slots)
return true
end
end
return false
end
}
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turtle.movePolicies = {
none = noop,
default = _defaultMove,
assured = function(action)
if not _defaultMove(action) then
if action.side == 'back' then
return false
end
local oldStatus = turtle.status
print('assured move: stuck')
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turtle.status = 'stuck'
repeat
os.sleep(1)
until _defaultMove(action)
turtle.status = oldStatus
end
return true
end,
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}
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turtle.policies = {
none = { dig = turtle.digPolicies.none, attack = turtle.attackPolicies.none },
digOnly = { dig = turtle.digPolicies.dig, attack = turtle.attackPolicies.none },
attackOnly = { dig = turtle.digPolicies.none, attack = turtle.attackPolicies.attack },
digAttack = { dig = turtle.digPolicies.dig, attack = turtle.attackPolicies.attack },
turtleSafe = { dig = turtle.digPolicies.turtleSafe, attack = turtle.attackPolicies.attack },
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attack = { attack = turtle.attackPolicies.attack },
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defaultMove = { move = turtle.movePolicies.default },
assuredMove = { move = turtle.movePolicies.assured },
}
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function turtle.setPolicy(...)
local args = { ... }
for _, policy in pairs(args) do
if type(policy) == 'string' then
policy = turtle.policies[policy]
end
if not policy then
error('Invalid policy')
-- return false, 'Invalid policy'
end
if policy.dig then
state.digPolicy = policy.dig
end
if policy.attack then
state.attackPolicy = policy.attack
end
if policy.move then
state.movePolicy = policy.move
end
end
return true
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end
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function turtle.setDigPolicy(policy) state.digPolicy = policy end
function turtle.setAttackPolicy(policy) state.attackPolicy = policy end
function turtle.setMoveCallback(cb) state.moveCallback = cb end
function turtle.clearMoveCallback() state.moveCallback = noop end
function turtle.getMoveCallback() return state.moveCallback end
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-- [[ Heading ]] --
function turtle.getHeading()
return turtle.point.heading
end
function turtle.turnRight()
turtle.setHeading(turtle.point.heading + 1)
return turtle.point
end
function turtle.turnLeft()
turtle.setHeading(turtle.point.heading - 1)
return turtle.point
end
function turtle.turnAround()
turtle.setHeading(turtle.point.heading + 2)
return turtle.point
end
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-- combine with setHeading
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function turtle.setNamedHeading(headingName)
local headingInfo = namedHeadings[headingName]
if headingInfo then
return turtle.setHeading(headingInfo.heading)
end
return false, 'Invalid heading'
end
function turtle.setHeading(heading)
if not heading then
return
end
heading = heading % 4
if heading ~= turtle.point.heading then
while heading < turtle.point.heading do
heading = heading + 4
end
if heading - turtle.point.heading == 3 then
turtle.native.turnLeft()
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turtle.point.heading = (turtle.point.heading - 1) % 4
state.moveCallback('turn', turtle.point)
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else
local turns = heading - turtle.point.heading
while turns > 0 do
turns = turns - 1
turtle.native.turnRight()
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turtle.point.heading = (turtle.point.heading + 1) % 4
state.moveCallback('turn', turtle.point)
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end
end
end
return turtle.point
end
function turtle.headTowardsX(dx)
if turtle.point.x ~= dx then
if turtle.point.x > dx then
turtle.setHeading(2)
else
turtle.setHeading(0)
end
end
end
function turtle.headTowardsZ(dz)
if turtle.point.z ~= dz then
if turtle.point.z > dz then
turtle.setHeading(3)
else
turtle.setHeading(1)
end
end
end
function turtle.headTowards(pt)
local xd = math.abs(turtle.point.x - pt.x)
local zd = math.abs(turtle.point.z - pt.z)
if xd > zd then
turtle.headTowardsX(pt.x)
else
turtle.headTowardsZ(pt.z)
end
end
-- [[ move ]] --
function turtle.up()
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if state.movePolicy(actions.up) then
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turtle.point.y = turtle.point.y + 1
state.moveCallback('up', turtle.point)
return true, turtle.point
end
end
function turtle.down()
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if state.movePolicy(actions.down) then
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turtle.point.y = turtle.point.y - 1
state.moveCallback('down', turtle.point)
return true, turtle.point
end
end
function turtle.forward()
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if state.movePolicy(actions.forward) then
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turtle.point.x = turtle.point.x + headings[turtle.point.heading].xd
turtle.point.z = turtle.point.z + headings[turtle.point.heading].zd
state.moveCallback('forward', turtle.point)
return true, turtle.point
end
end
function turtle.back()
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if state.movePolicy(actions.back) then
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turtle.point.x = turtle.point.x - headings[turtle.point.heading].xd
turtle.point.z = turtle.point.z - headings[turtle.point.heading].zd
state.moveCallback('back', turtle.point)
return true, turtle.point
end
end
function turtle.moveTowardsX(dx)
local direction = dx - turtle.point.x
local move
if direction == 0 then
return true
end
if direction > 0 and turtle.point.heading == 0 or
direction < 0 and turtle.point.heading == 2 then
move = turtle.forward
else
move = turtle.back
end
repeat
if not move() then
return false
end
until turtle.point.x == dx
return true
end
function turtle.moveTowardsZ(dz)
local direction = dz - turtle.point.z
local move
if direction == 0 then
return true
end
if direction > 0 and turtle.point.heading == 1 or
direction < 0 and turtle.point.heading == 3 then
move = turtle.forward
else
move = turtle.back
end
repeat
if not move() then
return false
end
until turtle.point.z == dz
return true
end
-- [[ go ]] --
-- 1 turn goto (going backwards if possible)
function turtle.gotoSingleTurn(dx, dz, dy, dh)
dy = dy or turtle.point.y
local function gx()
if turtle.point.x ~= dx then
turtle.moveTowardsX(dx)
end
if turtle.point.z ~= dz then
if dh and dh % 2 == 1 then
turtle.setHeading(dh)
else
turtle.headTowardsZ(dz)
end
end
end
local function gz()
if turtle.point.z ~= dz then
turtle.moveTowardsZ(dz)
end
if turtle.point.x ~= dx then
if dh and dh % 2 == 0 then
turtle.setHeading(dh)
else
turtle.headTowardsX(dx)
end
end
end
repeat
local x, z
local y = turtle.point.y
repeat
x, z = turtle.point.x, turtle.point.z
if turtle.point.heading % 2 == 0 then
gx()
gz()
else
gz()
gx()
end
until x == turtle.point.x and z == turtle.point.z
if turtle.point.y ~= dy then
turtle.gotoY(dy)
end
if turtle.point.x == dx and turtle.point.z == dz and turtle.point.y == dy then
return true
end
until x == turtle.point.x and z == turtle.point.z and y == turtle.point.y
return false
end
local function gotoEx(dx, dz, dy)
-- determine the heading to ensure the least amount of turns
-- first check is 1 turn needed - remaining require 2 turns
if turtle.point.heading == 0 and turtle.point.x <= dx or
turtle.point.heading == 2 and turtle.point.x >= dx or
turtle.point.heading == 1 and turtle.point.z <= dz or
turtle.point.heading == 3 and turtle.point.z >= dz then
-- maintain current heading
-- nop
elseif dz > turtle.point.z and turtle.point.heading == 0 or
dz < turtle.point.z and turtle.point.heading == 2 or
dx < turtle.point.x and turtle.point.heading == 1 or
dx > turtle.point.x and turtle.point.heading == 3 then
turtle.turnRight()
else
turtle.turnLeft()
end
if (turtle.point.heading % 2) == 1 then
if not turtle.gotoZ(dz) then return false end
if not turtle.gotoX(dx) then return false end
else
if not turtle.gotoX(dx) then return false end
if not turtle.gotoZ(dz) then return false end
end
if dy then
if not turtle.gotoY(dy) then return false end
end
return true
end
-- fallback goto - will turn around if was previously moving backwards
local function gotoMultiTurn(dx, dz, dy)
if gotoEx(dx, dz, dy) then
return true
end
local moved
repeat
local x, y, z = turtle.point.x, turtle.point.y, turtle.point.z
-- try going the other way
if (turtle.point.heading % 2) == 1 then
turtle.headTowardsX(dx)
else
turtle.headTowardsZ(dz)
end
if gotoEx(dx, dz, dy) then
return true
end
if dy then
turtle.gotoY(dy)
end
moved = x ~= turtle.point.x or y ~= turtle.point.y or z ~= turtle.point.z
until not moved
return false
end
function turtle.gotoPoint(pt)
return turtle.goto(pt.x, pt.z, pt.y, pt.heading)
end
-- go backwards - turning around if necessary to fight mobs / break blocks
function turtle.goback()
local hi = headings[turtle.point.heading]
return turtle.goto(turtle.point.x - hi.xd, turtle.point.z - hi.zd, turtle.point.y, turtle.point.heading)
end
function turtle.gotoYfirst(pt)
if turtle.gotoY(pt.y) then
if turtle.goto(pt.x, pt.z, nil, pt.heading) then
turtle.setHeading(pt.heading)
return true
end
end
end
function turtle.gotoYlast(pt)
if turtle.goto(pt.x, pt.z, nil, pt.heading) then
if turtle.gotoY(pt.y) then
turtle.setHeading(pt.heading)
return true
end
end
end
function turtle.goto(dx, dz, dy, dh)
if not turtle.gotoSingleTurn(dx, dz, dy, dh) then
if not gotoMultiTurn(dx, dz, dy) then
return false
end
end
turtle.setHeading(dh)
return true
end
function turtle.gotoX(dx)
turtle.headTowardsX(dx)
while turtle.point.x ~= dx do
if not turtle.forward() then
return false
end
end
return true
end
function turtle.gotoZ(dz)
turtle.headTowardsZ(dz)
while turtle.point.z ~= dz do
if not turtle.forward() then
return false
end
end
return true
end
function turtle.gotoY(dy)
while turtle.point.y > dy do
if not turtle.down() then
return false
end
end
while turtle.point.y < dy do
if not turtle.up() then
return false
end
end
return true
end
-- [[ Slot management ]] --
function turtle.getSlot(indexOrId, slots)
if type(indexOrId) == 'string' then
slots = slots or turtle.getInventory()
local _,c = string.gsub(indexOrId, ':', '')
if c == 2 then -- combined id and dmg .. ie. minecraft:coal:0
return Util.find(slots, 'iddmg', indexOrId)
end
return Util.find(slots, 'id', indexOrId)
end
local detail = turtle.getItemDetail(indexOrId)
if detail then
return {
name = detail.name,
damage = detail.damage,
count = detail.count,
key = detail.name .. ':' .. detail.damage,
index = indexOrId,
-- deprecate
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qty = detail.count,
dmg = detail.damage,
id = detail.name,
iddmg = detail.name .. ':' .. detail.damage,
}
end
return {
qty = 0, -- deprecate
count = 0,
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index = indexOrId,
}
end
function turtle.select(indexOrId)
if type(indexOrId) == 'number' then
return turtle.native.select(indexOrId)
end
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local s = turtle.getSlot(indexOrId)
if s then
turtle.native.select(s.index)
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return s
end
return false, 'Inventory does not contain item'
end
function turtle.getInventory(slots)
slots = slots or { }
for i = 1, 16 do
slots[i] = turtle.getSlot(i)
end
return slots
end
function turtle.getSummedInventory()
local slots = turtle.getFilledSlots()
local t = { }
for _,slot in pairs(slots) do
local entry = t[slot.iddmg]
if not entry then
entry = {
count = 0,
damage = slot.damage,
name = slot.name,
key = slot.key,
-- deprecate
qty = 0,
dmg = slot.dmg,
id = slot.id,
iddmg = slot.iddmg,
}
t[slot.iddmg] = entry
end
entry.qty = entry.qty + slot.qty
entry.count = entry.qty
end
return t
end
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function turtle.getFilledSlots(startSlot)
startSlot = startSlot or 1
local slots = { }
for i = startSlot, 16 do
local count = turtle.getItemCount(i)
if count > 0 then
slots[i] = turtle.getSlot(i)
end
end
return slots
end
function turtle.eachFilledSlot(fn)
local slots = turtle.getFilledSlots()
for _,slot in pairs(slots) do
fn(slot)
end
end
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function turtle.emptyInventory(dropAction)
dropAction = dropAction or turtle.native.drop
turtle.eachFilledSlot(function(slot)
turtle.select(slot.index)
dropAction()
end)
turtle.select(1)
end
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function turtle.reconcileInventory(slots, dropAction)
dropAction = dropAction or turtle.native.drop
for _,s in pairs(slots) do
local qty = turtle.getItemCount(s.index)
if qty > s.qty then
turtle.select(s.index)
dropAction(qty-s.qty, s)
end
end
end
function turtle.selectSlotWithItems(startSlot)
startSlot = startSlot or 1
for i = startSlot, 16 do
if turtle.getItemCount(i) > 0 then
turtle.select(i)
return i
end
end
end
function turtle.selectSlotWithQuantity(qty, startSlot)
startSlot = startSlot or 1
for i = startSlot, 16 do
if turtle.getItemCount(i) == qty then
turtle.select(i)
return i
end
end
end
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function turtle.selectOpenSlot(startSlot)
return turtle.selectSlotWithQuantity(0, startSlot)
end
function turtle.condense()
local slots = turtle.getInventory()
for i = 16, 1, -1 do
if slots[i].count > 0 then
for j = 1, i - 1 do
if slots[j].count == 0 or slots[i].key == slots[j].key then
turtle.select(i)
turtle.transferTo(j, 64)
local transferred = slots[i].qty - turtle.getItemCount(i)
slots[j].count = slots[j].count + transferred
slots[i].count = slots[i].count - transferred
slots[j].key = slots[i].key
if slots[i].count == 0 then
break
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end
end
end
end
end
return true
end
function turtle.getItemCount(idOrName)
if type(idOrName) == 'number' then
return turtle.native.getItemCount(idOrName)
end
local slots = turtle.getFilledSlots()
local count = 0
for _,slot in pairs(slots) do
if slot.iddmg == idOrName or slot.name == idOrName then
count = count + slot.qty
end
end
return count
end
function turtle.equip(side, item)
if item then
if not turtle.select(item) then
return false, 'Unable to equip ' .. item
end
end
if side == 'left' then
return turtle.equipLeft()
end
return turtle.equipRight()
end
function turtle.run(fn, ...)
local args = { ... }
local s, m
if type(fn) == 'string' then
fn = turtle[fn]
end
synchronized(turtle, function()
turtle.abort = false
turtle.status = 'busy'
turtle.resetState()
s, m = pcall(function() fn(unpack(args)) end)
turtle.abort = false
turtle.status = 'idle'
if not s and m then
printError(m)
end
end)
return s, m
end
function turtle.abortAction()
if turtle.status ~= 'idle' then
turtle.abort = true
os.queueEvent('turtle_abort')
end
end
-- [[ Pathing ]] --
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function turtle.faceAgainst(pt, options) -- 4 sided
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options = options or { }
options.dest = { }
for i = 0, 3 do
local hi = turtle.getHeadingInfo(i)
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table.insert(options.dest, {
x = pt.x + hi.xd,
z = pt.z + hi.zd,
y = pt.y + hi.yd,
heading = (hi.heading + 2) % 4,
})
end
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return turtle.pathfind(Point.closest(turtle.point, options.dest), options)
end
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function turtle.moveAgainst(pt, options) -- 6 sided
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options = options or { }
options.dest = { }
for i = 0, 5 do
local hi = turtle.getHeadingInfo(i)
local heading, direction
if i < 4 then
heading = (hi.heading + 2) % 4
direction = 'forward'
elseif i == 4 then
direction = 'down'
elseif i == 5 then
direction = 'up'
end
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table.insert(options.dest, {
x = pt.x + hi.xd,
z = pt.z + hi.zd,
y = pt.y + hi.yd,
direction = direction,
heading = heading,
})
end
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return turtle.pathfind(Point.closest(turtle.point, options.dest), options)
end
local actionsAt = {
detect = {
up = turtle.detectUp,
down = turtle.detectDown,
forward = turtle.detect,
},
dig = {
up = turtle.digUp,
down = turtle.digDown,
forward = turtle.dig,
},
move = {
up = turtle.moveUp,
down = turtle.moveDown,
forward = turtle.move,
},
attack = {
up = turtle.attackUp,
down = turtle.attackDown,
forward = turtle.attack,
},
place = {
up = turtle.placeUp,
down = turtle.placeDown,
forward = turtle.place,
},
drop = {
up = turtle.dropUp,
down = turtle.dropDown,
forward = turtle.drop,
},
suck = {
up = turtle.suckUp,
down = turtle.suckDown,
forward = turtle.suck,
},
compare = {
up = turtle.compareUp,
down = turtle.compareDown,
forward = turtle.compare,
},
inspect = {
up = turtle.inspectUp,
down = turtle.inspectDown,
forward = turtle.inspect,
},
}
local function _actionAt(action, pt, ...)
local pt = turtle.moveAgainst(pt)
if pt then
return action[pt.direction](...)
end
end
function _actionDownAt(action, pt, ...)
if turtle.pathfind(Point.above(pt)) then
return action.down(...)
end
end
function _actionForwardAt(action, pt, ...)
if turtle.faceAgainst(pt) then
return action.forward(...)
end
end
function _actionUpAt(action, pt, ...)
if turtle.pathfind(Point.below(pt)) then
return action.up(...)
end
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end
function turtle.detectAt(pt) return _actionAt(actionsAt.detect, pt) end
function turtle.detectDownAt(pt) return _actionDownAt(actionsAt.detect, pt) end
function turtle.detectForwardAt(pt) return _actionForwardAt(actionsAt.detect, pt) end
function turtle.detectUpAt(pt) return _actionUpAt(actionsAt.detect, pt) end
function turtle.digAt(pt) return _actionAt(actionsAt.dig, pt) end
function turtle.digDownAt(pt) return _actionDownAt(actionsAt.dig, pt) end
function turtle.digForwardAt(pt) return _actionForwardAt(actionsAt.dig, pt) end
function turtle.digUpAt(pt) return _actionUpAt(actionsAt.dig, pt) end
function turtle.attackAt(pt) return _actionAt(actionsAt.attack, pt) end
function turtle.attackDownAt(pt) return _actionDownAt(actionsAt.attack, pt) end
function turtle.attackForwardAt(pt) return _actionForwardAt(actionsAt.attack, pt) end
function turtle.attackUpAt(pt) return _actionUpAt(actionsAt.attack, pt) end
function turtle.placeAt(pt, arg) return _actionAt(actionsAt.place, pt, arg) end
function turtle.placeDownAt(pt, arg) return _actionDownAt(actionsAt.place, pt, arg) end
function turtle.placeForwardAt(pt, arg) return _actionForwardAt(actionsAt.place, pt, arg) end
function turtle.placeUpAt(pt, arg) return _actionUpAt(actionsAt.place, pt, arg) end
function turtle.dropAt(pt, ...) return _actionAt(actionsAt.drop, pt, ...) end
function turtle.dropDownAt(pt, ...) return _actionDownAt(actionsAt.drop, pt, ...) end
function turtle.dropForwardAt(pt, ...) return _actionForwardAt(actionsAt.drop, pt, ...) end
function turtle.dropUpAt(pt, ...) return _actionUpAt(actionsAt.drop, pt, ...) end
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function turtle.suckAt(pt, qty) return _actionAt(actionsAt.suck, pt, qty or 64) end
function turtle.suckDownAt(pt, qty) return _actionDownAt(actionsAt.suck, pt, qty or 64) end
function turtle.suckForwardAt(pt, qty) return _actionForwardAt(actionsAt.suck, pt, qty or 64) end
function turtle.suckUpAt(pt, qty) return _actionUpAt(actionsAt.suck, pt, qty or 64) end
function turtle.compareAt(pt) return _actionAt(actionsAt.compare, pt) end
function turtle.compareDownAt(pt) return _actionDownAt(actionsAt.compare, pt) end
function turtle.compareForwardAt(pt) return _actionForwardAt(actionsAt.compare, pt) end
function turtle.compareUpAt(pt) return _actionUpAt(actionsAt.compare, pt) end
function turtle.inspectAt(pt) return _actionAt(actionsAt.inspect, pt) end
function turtle.inspectDownAt(pt) return _actionDownAt(actionsAt.inspect, pt) end
function turtle.inspectForwardAt(pt) return _actionForwardAt(actionsAt.inspect, pt) end
function turtle.inspectUpAt(pt) return _actionUpAt(actionsAt.inspect, pt) end