VoxeLibre/mods/ENTITIES/mobs_mc/villager.lua

2363 lines
72 KiB
Lua

--MCmobs v0.4
--maikerumine
--made for MC like Survival game
--License for code WTFPL and otherwise stated in readmes
--###################
--################### VILLAGER
--###################
-- Summary: Villagers are complex NPCs, their main feature allows players to trade with them.
-- TODO: Particles
-- TODO: 4s Regeneration I after trade unlock
-- TODO: Behaviour:
-- TODO: Run into house on rain or danger, open doors
-- TODO: Internal inventory, trade with other villagers
-- TODO: Schedule stuff (work,sleep,father)
local weather_mod = minetest.get_modpath("mcl_weather")
local S = minetest.get_translator("mobs_mc")
local N = function(s) return s end
local F = minetest.formspec_escape
-- playername-indexed table containing the previously used tradenum
local player_tradenum = {}
-- playername-indexed table containing the objectref of trader, if trading formspec is open
local player_trading_with = {}
local DEFAULT_WALK_CHANCE = 33 -- chance to walk in percent, if no player nearby
local PLAYER_SCAN_INTERVAL = 5 -- every X seconds, villager looks for players nearby
local PLAYER_SCAN_RADIUS = 4 -- scan radius for looking for nearby players
local RESETTLE_DISTANCE = 100 -- If a mob is transported this far from home, it gives up bed and job and resettles
local PATHFINDING = "gowp"
--[=======[ TRADING ]=======]
-- LIST OF VILLAGER PROFESSIONS AND TRADES
-- TECHNICAL RESTRICTIONS (FIXME):
-- * You can't use a clock as requested item
-- * You can't use a compass as requested item if its stack size > 1
-- * You can't use a compass in the second requested slot
-- This is a problem in the mcl_compass and mcl_clock mods,
-- these items should be implemented as single items, then everything
-- will be much easier.
local LOGGING_ON = minetest.settings:get_bool("mcl_logging_mobs_villager",false)
local function mcl_log (message)
if LOGGING_ON then
mcl_util.mcl_log (message, "[Mobs - Villager]", true)
end
end
local COMPASS = "mcl_compass:compass"
if minetest.registered_aliases[COMPASS] then
COMPASS = minetest.registered_aliases[COMPASS]
end
local E1 = { "mcl_core:emerald", 1, 1 } -- one emerald
-- Special trades for v6 only
-- NOTE: These symbols MUST only be added at the end of a tier
local TRADE_V6_RED_SANDSTONE, TRADE_V6_DARK_OAK_SAPLING, TRADE_V6_ACACIA_SAPLING, TRADE_V6_BIRCH_SAPLING
if minetest.get_mapgen_setting("mg_name") == "v6" then
TRADE_V6_RED_SANDSTONE = { E1, { "mcl_core:redsandstone", 12, 16 } }
TRADE_V6_DARK_OAK_SAPLING = { { "mcl_core:emerald", 6, 9 }, { "mcl_core:darksapling", 1, 1 } }
TRADE_V6_ACACIA_SAPLING = { { "mcl_core:emerald", 14, 17 }, { "mcl_core:acaciasapling", 1, 1 } }
TRADE_V6_BIRCH_SAPLING = { { "mcl_core:emerald", 8, 11 }, { "mcl_core:birchsapling", 1, 1 } }
end
local tiernames = {
"Novice",
"Apprentice",
"Journeyman",
"Expert",
"Master",
}
local badges = {
"mobs_mc_stone.png",
"mobs_mc_iron.png",
"mobs_mc_gold.png",
"mobs_mc_emerald.png",
"mobs_mc_diamond.png",
}
local professions = {
unemployed = {
name = N("Unemployed"),
textures = {
"mobs_mc_villager.png",
"mobs_mc_villager.png",
},
trades = nil,
},
farmer = {
name = N("Farmer"),
texture = "mobs_mc_villager_farmer.png",
jobsite = "mcl_composters:composter",
trades = {
{
{ { "mcl_farming:wheat_item", 20, 20, }, E1 },
{ { "mcl_farming:potato_item", 26, 26, }, E1 },
{ { "mcl_farming:carrot_item", 22, 22, }, E1 },
{ { "mcl_farming:beetroot_item", 15, 15 }, E1 },
{ E1, { "mcl_farming:bread", 6, 6 } },
},
{
{ { "mcl_farming:pumpkin", 6, 6 }, E1 },
{ E1, { "mcl_farming:pumpkin_pie", 4, 4 } },
{ E1, { "mcl_core:apple", 4, 4 } },
},
{
{ { "mcl_farming:melon", 4, 4 }, E1 },
{ { "mcl_core:emerald", 3, 3 }, {"mcl_farming:cookie", 18, 18 }, },
},
{
{ E1, { "mcl_cake:cake", 1, 1 } },
{ E1, { "mcl_mushrooms:mushroom_stew", 6, 10 } }, --FIXME: expert level farmer is supposed to sell sus stews.
},
{
{ { "mcl_core:emerald", 3, 3 }, { "mcl_farming:carrot_item_gold", 3, 3 } },
{ { "mcl_core:emerald", 4, 4 }, { "mcl_potions:speckled_melon", 3, 3 } },
TRADE_V6_BIRCH_SAPLING,
TRADE_V6_DARK_OAK_SAPLING,
TRADE_V6_ACACIA_SAPLING,
},
}
},
fisherman = {
name = N("Fisherman"),
texture = "mobs_mc_villager_fisherman.png",
jobsite = "mcl_barrels:barrel_closed",
trades = {
{
{ { "mcl_mobitems:string", 20, 20 }, E1 },
{ { "mcl_core:coal_lump", 10, 10 }, E1 },
{ { "mcl_core:emerald", 1, 1, "mcl_fishing:fish_raw", 6, 6 }, { "mcl_fishing:fish_cooked", 6, 6 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_buckets:bucket_cod", 1, 1 } },
},
{
{ { "mcl_fishing:fish_raw", 15, 15 }, E1 },
{ { "mcl_core:emerald", 1, 1, "mcl_fishing:salmon_raw", 6, 6 }, { "mcl_fishing:salmon_cooked", 6, 6 } },
{ { "mcl_core:emerald", 2, 2 }, {"mcl_campfires:campfire_lit", 1, 1 } },
},
{
{ { "mcl_fishing:salmon_raw", 13, 13 }, E1 },
{ { "mcl_core:emerald", 8, 22 }, { "mcl_fishing:fishing_rod_enchanted", 1, 1 } },
},
{
{ { "mcl_fishing:clownfish_raw", 6, 6 }, E1 },
},
{
{ { "mcl_fishing:pufferfish_raw", 4, 4 }, E1 },
--Boat cherry?
{ { "mcl_boats:boat", 1, 1 }, E1 },
{ { "mcl_boats:boat_acacia", 1, 1 }, E1 },
{ { "mcl_boats:boat_spruce", 1, 1 }, E1 },
{ { "mcl_boats:boat_dark_oak", 1, 1 }, E1 },
{ { "mcl_boats:boat_birch", 1, 1 }, E1 },
},
},
},
fletcher = {
name = N("Fletcher"),
texture = "mobs_mc_villager_fletcher.png",
jobsite = "mcl_fletching_table:fletching_table",
trades = {
{
{ { "mcl_core:stick", 32, 32 }, E1 },
{ E1, { "mcl_bows:arrow", 16, 16 } },
{ { "mcl_core:emerald", 1, 1, "mcl_core:gravel", 10, 10 }, { "mcl_core:flint", 10, 10 } },
},
{
{ { "mcl_core:flint", 26, 26 }, E1 },
{ { "mcl_core:emerald", 2, 2 }, { "mcl_bows:bow", 1, 1 } },
},
{
{ { "mcl_mobitems:string", 14, 14 }, E1 },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_bows:crossbow", 1, 1 } },
},
{
{ { "mcl_mobitems:feather", 24, 24 }, E1 },
{ { "mcl_core:emerald", 7, 21 } , { "mcl_bows:bow_enchanted", 1, 1 } },
},
{
--FIXME: supposed to be tripwire hook{ { "tripwirehook", 8, 8 }, E1 },
{ { "mcl_core:emerald", 8, 22 } , { "mcl_bows:crossbow_enchanted", 1, 1 } },
{ { "mcl_core:emerald", 2, 2, "mcl_bows:arrow", 5, 5 }, { "mcl_potions:healing_arrow", 5, 5 } },
{ { "mcl_core:emerald", 2, 2, "mcl_bows:arrow", 5, 5 }, { "mcl_potions:harming_arrow", 5, 5 } },
{ { "mcl_core:emerald", 2, 2, "mcl_bows:arrow", 5, 5 }, { "mcl_potions:night_vision_arrow", 5, 5 } },
{ { "mcl_core:emerald", 2, 2, "mcl_bows:arrow", 5, 5 }, { "mcl_potions:swiftness_arrow", 5, 5 } },
{ { "mcl_core:emerald", 2, 2, "mcl_bows:arrow", 5, 5 }, { "mcl_potions:slowness_arrow", 5, 5 } },
{ { "mcl_core:emerald", 2, 2, "mcl_bows:arrow", 5, 5 }, { "mcl_potions:leaping_arrow", 5, 5 } },
{ { "mcl_core:emerald", 2, 2, "mcl_bows:arrow", 5, 5 }, { "mcl_potions:poison_arrow", 5, 5 } },
{ { "mcl_core:emerald", 2, 2, "mcl_bows:arrow", 5, 5 }, { "mcl_potions:regeneration_arrow", 5, 5 } },
{ { "mcl_core:emerald", 2, 2, "mcl_bows:arrow", 5, 5 }, { "mcl_potions:invisibility_arrow", 5, 5 } },
{ { "mcl_core:emerald", 2, 2, "mcl_bows:arrow", 5, 5 }, { "mcl_potions:water_breathing_arrow", 5, 5 } },
{ { "mcl_core:emerald", 2, 2, "mcl_bows:arrow", 5, 5 }, { "mcl_potions:fire_resistance_arrow", 5, 5 } },
},
}
},
shepherd ={
name = N("Shepherd"),
texture = "mobs_mc_villager_sheperd.png",
jobsite = "mcl_loom:loom",
trades = {
{
{ { "mcl_wool:white", 18, 18 }, E1 },
{ { "mcl_wool:brown", 18, 18 }, E1 },
{ { "mcl_wool:black", 18, 18 }, E1 },
{ { "mcl_wool:grey", 18, 18 }, E1 },
{ { "mcl_core:emerald", 2, 2 }, { "mcl_tools:shears", 1, 1 } },
},
{
{ { "mcl_dye:black", 12, 12 }, E1 },
{ { "mcl_dye:dark_grey", 12, 12 }, E1 },
{ { "mcl_dye:green", 12, 12 }, E1 },
{ { "mcl_dye:lightblue", 12, 12 }, E1 },
{ { "mcl_dye:white", 12, 12 }, E1 },
{ E1, { "mcl_wool:white", 1, 1 } },
{ E1, { "mcl_wool:grey", 1, 1 } },
{ E1, { "mcl_wool:silver", 1, 1 } },
{ E1, { "mcl_wool:black", 1, 1 } },
{ E1, { "mcl_wool:yellow", 1, 1 } },
{ E1, { "mcl_wool:orange", 1, 1 } },
{ E1, { "mcl_wool:red", 1, 1 } },
{ E1, { "mcl_wool:magenta", 1, 1 } },
{ E1, { "mcl_wool:purple", 1, 1 } },
{ E1, { "mcl_wool:blue", 1, 1 } },
{ E1, { "mcl_wool:cyan", 1, 1 } },
{ E1, { "mcl_wool:lime", 1, 1 } },
{ E1, { "mcl_wool:green", 1, 1 } },
{ E1, { "mcl_wool:pink", 1, 1 } },
{ E1, { "mcl_wool:light_blue", 1, 1 } },
{ E1, { "mcl_wool:brown", 1, 1 } },
{ E1, { "mcl_wool:white_carpet", 4, 4 } },
{ E1, { "mcl_wool:grey_carpet", 4, 4 } },
{ E1, { "mcl_wool:silver_carpet", 4, 4 } },
{ E1, { "mcl_wool:black_carpet", 4, 4 } },
{ E1, { "mcl_wool:yellow_carpet", 4, 4 } },
{ E1, { "mcl_wool:orange_carpet", 4, 4 } },
{ E1, { "mcl_wool:red_carpet", 4, 4 } },
{ E1, { "mcl_wool:magenta_carpet", 4, 4 } },
{ E1, { "mcl_wool:purple_carpet", 4, 4 } },
{ E1, { "mcl_wool:blue_carpet", 4, 4 } },
{ E1, { "mcl_wool:cyan_carpet", 4, 4 } },
{ E1, { "mcl_wool:lime_carpet", 4, 4 } },
{ E1, { "mcl_wool:green_carpet", 4, 4 } },
{ E1, { "mcl_wool:pink_carpet", 4, 4 } },
{ E1, { "mcl_wool:light_blue_carpet", 4, 4 } },
{ E1, { "mcl_wool:brown_carpet", 4, 4 } },
},
{
{ { "mcl_dye:red", 12, 12 }, E1 },
{ { "mcl_dye:grey", 12, 12 }, E1 },
{ { "mcl_dye:pink", 12, 12 }, E1 },
{ { "mcl_dye:yellow", 12, 12 }, E1 },
{ { "mcl_dye:orange", 12, 12 }, E1 },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_beds:bed_red_bottom", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_beds:bed_blue_bottom", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_beds:bed_cyan_bottom", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_beds:bed_grey_bottom", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_beds:bed_silver_bottom", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_beds:bed_black_bottom", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_beds:bed_yellow_bottom", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_beds:bed_green_bottom", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_beds:bed_magenta_bottom", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_beds:bed_orange_bottom", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_beds:bed_purple_bottom", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_beds:bed_brown_bottom", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_beds:bed_pink_bottom", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_beds:bed_lime_bottom", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_beds:bed_light_blue_bottom", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_beds:bed_white_bottom", 1, 1 } },
},
{
{ { "mcl_dye:dark_green", 12, 12 }, E1 },
{ { "mcl_dye:brown", 12, 12 }, E1 },
{ { "mcl_dye:blue", 12, 12 }, E1 },
{ { "mcl_dye:violet", 12, 12 }, E1 },
{ { "mcl_dye:cyan", 12, 12 }, E1 },
{ { "mcl_dye:magenta", 12, 12 }, E1 },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_white", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_grey", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_silver", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_black", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_red", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_yellow", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_green", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_cyan", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_blue", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_magenta", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_orange", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_purple", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_brown", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_pink", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_lime", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_light_blue", 1, 1 } },
},
{
{ { "mcl_core:emerald", 2, 2 }, { "mcl_paintings:painting", 3, 3 } },
},
},
},
librarian = {
name = N("Librarian"),
texture = "mobs_mc_villager_librarian.png",
jobsite = "mcl_lectern:lectern",
trades = {
{
{ { "mcl_core:paper", 24, 24 }, E1 },
{ { "mcl_core:emerald", 5, 64, "mcl_books:book", 1, 1 }, { "mcl_enchanting:book_enchanted", 1 ,1 } },
{ { "mcl_core:emerald", 9, 9 }, { "mcl_books:bookshelf", 1 ,1 } },
},
{
{ { "mcl_books:book", 4, 4 }, E1 },
{ { "mcl_core:emerald", 5, 64, "mcl_books:book", 1, 1 }, { "mcl_enchanting:book_enchanted", 1 ,1 } },
{ E1, { "mcl_lanterns:lantern_floor", 1, 1 } },
},
{
{ { "mcl_mobitems:ink_sac", 5, 5 }, E1 },
{ { "mcl_core:emerald", 5, 64, "mcl_books:book", 1, 1 }, { "mcl_enchanting:book_enchanted", 1 ,1 } },
{ E1, { "mcl_core:glass", 4, 4 } },
},
{
{ { "mcl_books:writable_book", 1, 1 }, E1 },
{ { "mcl_core:emerald", 5, 64, "mcl_books:book", 1, 1 }, { "mcl_enchanting:book_enchanted", 1 ,1 } },
{ { "mcl_core:emerald", 5, 5 }, { "mcl_clock:clock", 1, 1 } },
{ { "mcl_core:emerald", 4, 4 }, { "mcl_compass:compass", 1 ,1 } },
},
{
{ { "mcl_core:emerald", 20, 20 }, { "mcl_mobs:nametag", 1, 1 } },
}
},
},
cartographer = {
name = N("Cartographer"),
texture = "mobs_mc_villager_cartographer.png",
jobsite = "mcl_cartography_table:cartography_table",
trades = {
{
{ { "mcl_core:paper", 24, 24 }, E1 },
{ { "mcl_core:emerald", 7, 7 }, { "mcl_maps:empty_map", 1, 1 } },
},
{
-- compass subject to special checks
{ { "xpanes:pane_natural_flat", 11, 11 }, E1 },
--{ { "mcl_core:emerald", 13, 13, "mcl_compass:compass", 1, 1 }, { "FIXME:ocean explorer map" 1, 1 } },
},
{
{ { "mcl_compass:compass", 1, 1 }, E1 },
--{ { "mcl_core:emerald", 14, 14, "mcl_compass:compass", 1, 1 }, { "FIXME:woodland explorer map" 1, 1 } },
},
{
{ { "mcl_core:emerald", 7, 7 }, { "mcl_itemframes:item_frame", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_white", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_grey", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_silver", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_black", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_red", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_yellow", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_green", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_cyan", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_blue", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_magenta", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_orange", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_purple", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_brown", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_pink", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_lime", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_banners:banner_item_light_blue", 1, 1 } },
},
{
--{ { "mcl_core:emerald", 8, 8 }, { "FIXME: globe banner pattern", 1, 1 } },
},
-- TODO: special maps
},
},
armorer = {
name = N("Armorer"),
texture = "mobs_mc_villager_armorer.png",
jobsite = "mcl_blast_furnace:blast_furnace",
trades = {
{
{ { "mcl_core:coal_lump", 15, 15 }, E1 },
{ { "mcl_core:emerald", 5, 5 }, { "mcl_armor:helmet_iron", 1, 1 } },
{ { "mcl_core:emerald", 9, 9 }, { "mcl_armor:chestplate_iron", 1, 1 } },
{ { "mcl_core:emerald", 7, 7 }, { "mcl_armor:leggings_iron", 1, 1 } },
{ { "mcl_core:emerald", 4, 4 }, { "mcl_armor:boots_iron", 1, 1 } },
},
{
{ { "mcl_core:iron_ingot", 4, 4 }, E1 },
{ { "mcl_core:emerald", 36, 36 }, { "mcl_bells:bell", 1, 1 } },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_armor:leggings_chain", 1, 1 } },
{ { "mcl_core:emerald", 1, 1 }, { "mcl_armor:boots_chain", 1, 1 } },
},
{
{ { "mcl_buckets:bucket_lava", 1, 1 }, E1 },
{ { "mcl_core:diamond", 1, 1 }, E1 },
{ { "mcl_core:emerald", 1, 1 }, { "mcl_armor:helmet_chain", 1, 1 } },
{ { "mcl_core:emerald", 4, 4 }, { "mcl_armor:chestplate_chain", 1, 1 } },
{ { "mcl_core:emerald", 5, 5 }, { "mcl_shields:shield", 1, 1 } },
},
{
{ { "mcl_core:emerald", 19, 33 }, { "mcl_armor:leggings_diamond_enchanted", 1, 1 } },
{ { "mcl_core:emerald", 13, 27 }, { "mcl_armor:boots_diamond_enchanted", 1, 1 } },
},
{
{ { "mcl_core:emerald", 13, 27 }, { "mcl_armor:helmet_diamond_enchanted", 1, 1 } },
{ { "mcl_core:emerald", 21, 35 }, { "mcl_armor:chestplate_diamond_enchanted", 1, 1 } },
},
},
},
leatherworker = {
name = N("Leatherworker"),
texture = "mobs_mc_villager_leatherworker.png",
jobsite = "group:cauldron",
trades = {
{
{ { "mcl_mobitems:leather", 6, 6 }, E1 },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_armor:leggings_leather", 1, 1 } },
{ { "mcl_core:emerald", 7, 7 }, { "mcl_armor:chestplate_leather", 1, 1 } },
},
{
{ { "mcl_core:flint", 26, 26 }, E1 },
{ { "mcl_core:emerald", 5, 5 }, { "mcl_armor:helmet_leather", 1, 1 } },
{ { "mcl_core:emerald", 4, 4 }, { "mcl_armor:boots_leather", 1, 1 } },
},
{
{ { "mcl_mobitems:rabbit_hide", 9, 9 }, E1 },
{ { "mcl_core:emerald", 7, 7 }, { "mcl_armor:chestplate_leather", 1, 1 } },
},
{
--{ { "FIXME: scute", 4, 4 }, E1 },
{ { "mcl_core:emerald", 8, 10 }, { "mcl_mobitems:saddle", 1, 1 } },
--FIXME: { { "mcl_core:emerald", 6, 6 }, { "mcl_mobitems:leather_horse_armor", 1, 1 } },
},
{
{ { "mcl_core:emerald", 6, 6 }, { "mcl_mobitems:saddle", 1, 1 } },
{ { "mcl_core:emerald", 5, 5 }, { "mcl_armor:helmet_leather", 1, 1 } },
},
},
},
butcher = {
name = N("Butcher"),
texture = "mobs_mc_villager_butcher.png",
jobsite = "mcl_smoker:smoker",
trades = {
{
{ { "mcl_mobitems:chicken", 14, 14 }, E1 },
{ { "mcl_mobitems:porkchop", 7, 7 }, E1 },
{ { "mcl_mobitems:rabbit", 4, 4 }, E1 },
{ E1, { "mcl_mobitems:rabbit_stew", 1, 1 } },
},
{
{ { "mcl_core:coal_lump", 15, 15 }, E1 },
{ E1, { "mcl_mobitems:cooked_porkchop", 5, 5 } },
{ E1, { "mcl_mobitems:cooked_chicken", 8, 8 } },
},
{
{ { "mcl_mobitems:mutton", 7, 7 }, E1 },
{ { "mcl_mobitems:beef", 10, 10 }, E1 },
},
{
{ { "mcl_ocean:dried_kelp_block", 10, 10 }, E1 },
{ { "mcl_farming:sweet_berry", 10, 10 }, E1 },
},
},
},
weapon_smith = {
name = N("Weapon Smith"),
texture = "mobs_mc_villager_weaponsmith.png",
jobsite = "mcl_grindstone:grindstone",
trades = {
{
{ { "mcl_core:coal_lump", 15, 15 }, E1 },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_tools:axe_iron", 1, 1 } },
{ { "mcl_core:emerald", 7, 21 }, { "mcl_tools:sword_iron_enchanted", 1, 1 } },
},
{
{ { "mcl_core:iron_ingot", 4, 4 }, E1 },
{ { "mcl_core:emerald", 36, 36 }, { "mcl_bells:bell", 1, 1 } },
},
{
{ { "mcl_core:flint", 24, 24 }, E1 },
},
{
{ { "mcl_core:diamond", 1, 1 }, E1 },
{ { "mcl_core:emerald", 17, 31 }, { "mcl_tools:axe_diamond_enchanted", 1, 1 } },
},
{
{ { "mcl_core:emerald", 13, 27 }, { "mcl_tools:sword_diamond_enchanted", 1, 1 } },
},
},
},
tool_smith = {
name = N("Tool Smith"),
texture = "mobs_mc_villager_toolsmith.png",
jobsite = "mcl_smithing_table:table",
trades = {
{
{ { "mcl_core:coal_lump", 15, 15 }, E1 },
{ E1, { "mcl_tools:axe_stone", 1, 1 } },
{ E1, { "mcl_tools:shovel_stone", 1, 1 } },
{ E1, { "mcl_tools:pick_stone", 1, 1 } },
{ E1, { "mcl_farming:hoe_stone", 1, 1 } },
},
{
{ { "mcl_core:iron_ingot", 4, 4 }, E1 },
{ { "mcl_core:emerald", 36, 36 }, { "mcl_bells:bell", 1, 1 } },
},
{
{ { "mcl_core:flint", 30, 30 }, E1 },
{ { "mcl_core:emerald", 6, 20 }, { "mcl_tools:axe_iron_enchanted", 1, 1 } },
{ { "mcl_core:emerald", 7, 21 }, { "mcl_tools:shovel_iron_enchanted", 1, 1 } },
{ { "mcl_core:emerald", 8, 22 }, { "mcl_tools:pick_iron_enchanted", 1, 1 } },
{ { "mcl_core:emerald", 4, 4 }, { "mcl_farming:hoe_diamond", 1, 1 } },
},
{
{ { "mcl_core:diamond", 1, 1 }, E1 },
{ { "mcl_core:emerald", 17, 31 }, { "mcl_tools:axe_diamond_enchanted", 1, 1 } },
{ { "mcl_core:emerald", 10, 24 }, { "mcl_tools:shovel_diamond_enchanted", 1, 1 } },
},
{
{ { "mcl_core:emerald", 18, 32 }, { "mcl_tools:pick_diamond_enchanted", 1, 1 } },
},
},
},
cleric = {
name = N("Cleric"),
texture = "mobs_mc_villager_priest.png",
jobsite = "mcl_brewing:stand_000",
trades = {
{
{ { "mcl_mobitems:rotten_flesh", 32, 32 }, E1 },
{ E1, { "mesecons:redstone", 2, 2 } },
},
{
{ { "mcl_core:gold_ingot", 3, 3 }, E1 },
{ E1, { "mcl_core:lapis", 1, 1 } },
},
{
{ { "mcl_mobitems:rabbit_foot", 2, 2 }, E1 },
{ { "mcl_core:emerald", 4, 4 }, { "mcl_nether:glowstone", 1, 1 } },
},
{
--{ { "FIXME: scute", 4, 4 }, E1 },
{ { "mcl_potions:glass_bottle", 9, 9 }, E1 },
{ { "mcl_core:emerald", 5, 5 }, { "mcl_throwing:ender_pearl", 1, 1 } },
TRADE_V6_RED_SANDSTONE,
},
{
{ { "mcl_nether:nether_wart_item", 22, 22 }, E1 },
{ { "mcl_core:emerald", 3, 3 }, { "mcl_experience:bottle", 1, 1 } },
{ { "mcl_core:emerald", 15, 15 }, { "mcl_mobitems:aery_charge", 1, 1 } }, -- TODO reconsider
{ { "mcl_core:emerald", 15, 15 }, { "mcl_mobitems:earthen_ash", 1, 1 } }, -- TODO reconsider
},
},
},
mason = {
name = N("Mason"),
texture = "mobs_mc_villager_mason.png",
jobsite = "mcl_stonecutter:stonecutter",
trades = {
{
{ { "mcl_core:clay_lump", 10, 10 }, E1 },
{ E1, { "mcl_core:brick", 10, 10 } },
},
{
{ { "mcl_core:stone", 20, 20 }, E1 },
{ E1, { "mcl_core:stonebrickcarved", 4, 4 } },
},
{
{ { "mcl_core:granite", 16, 16 }, E1 },
{ { "mcl_core:andesite", 16, 16 }, E1 },
{ { "mcl_core:diorite", 16, 16 }, E1 },
{ E1, { "mcl_core:andesite_smooth", 4, 4 } },
{ E1, { "mcl_core:granite_smooth", 4, 4 } },
{ E1, { "mcl_core:diorite_smooth", 4, 4 } },
--FIXME: { E1, { "Dripstone Block", 4, 4 } },
},
{
{ { "mcl_nether:quartz", 12, 12 }, E1 },
{ E1, { "mcl_colorblocks:hardened_clay_white", 1, 1 } },
{ E1, { "mcl_colorblocks:hardened_clay_grey", 1, 1 } },
{ E1, { "mcl_colorblocks:hardened_clay_silver", 1, 1 } },
{ E1, { "mcl_colorblocks:hardened_clay_black", 1, 1 } },
{ E1, { "mcl_colorblocks:hardened_clay_red", 1, 1 } },
{ E1, { "mcl_colorblocks:hardened_clay_yellow", 1, 1 } },
{ E1, { "mcl_colorblocks:hardened_clay_green", 1, 1 } },
{ E1, { "mcl_colorblocks:hardened_clay_cyan", 1, 1 } },
{ E1, { "mcl_colorblocks:hardened_clay_blue", 1, 1 } },
{ E1, { "mcl_colorblocks:hardened_clay_magenta", 1, 1 } },
{ E1, { "mcl_colorblocks:hardened_clay_orange", 1, 1 } },
{ E1, { "mcl_colorblocks:hardened_clay_brown", 1, 1 } },
{ E1, { "mcl_colorblocks:hardened_clay_pink", 1, 1 } },
{ E1, { "mcl_colorblocks:hardened_clay_light_blue", 1, 1 } },
{ E1, { "mcl_colorblocks:hardened_clay_lime", 1, 1 } },
{ E1, { "mcl_colorblocks:hardened_clay_purple", 1, 1 } },
{ E1, { "mcl_colorblocks:glazed_terracotta_white", 1, 1 } },
{ E1, { "mcl_colorblocks:glazed_terracotta_grey", 1, 1 } },
{ E1, { "mcl_colorblocks:glazed_terracotta_silver", 1, 1 } },
{ E1, { "mcl_colorblocks:glazed_terracotta_black", 1, 1 } },
{ E1, { "mcl_colorblocks:glazed_terracotta_red", 1, 1 } },
{ E1, { "mcl_colorblocks:glazed_terracotta_yellow", 1, 1 } },
{ E1, { "mcl_colorblocks:glazed_terracotta_green", 1, 1 } },
{ E1, { "mcl_colorblocks:glazed_terracotta_cyan", 1, 1 } },
{ E1, { "mcl_colorblocks:glazed_terracotta_blue", 1, 1 } },
{ E1, { "mcl_colorblocks:glazed_terracotta_magenta", 1, 1 } },
{ E1, { "mcl_colorblocks:glazed_terracotta_orange", 1, 1 } },
{ E1, { "mcl_colorblocks:glazed_terracotta_brown", 1, 1 } },
{ E1, { "mcl_colorblocks:glazed_terracotta_pink", 1, 1 } },
{ E1, { "mcl_colorblocks:glazed_terracotta_light_blue", 1, 1 } },
{ E1, { "mcl_colorblocks:glazed_terracotta_lime", 1, 1 } },
{ E1, { "mcl_colorblocks:glazed_terracotta_purple", 1, 1 } },
},
{
{ E1, { "mcl_nether:quartz_pillar", 1, 1 } },
{ E1, { "mcl_nether:quartz_block", 1, 1 } },
},
},
},
nitwit = {
name = N("Nitwit"),
texture = "mobs_mc_villager_nitwit.png",
-- No trades for nitwit
trades = nil,
}
}
local WORK = "work"
local SLEEP = "sleep"
local GATHERING = "gathering"
local profession_names = {}
for id, _ in pairs(professions) do
table.insert(profession_names, id)
end
local function populate_jobsites (profession)
if profession then
mcl_log("populate_jobsites: ".. tostring(profession))
end
local jobsites_requested={}
for _,n in pairs(profession_names) do
if n and professions[n].jobsite then
if not profession or (profession and profession == n) then
--minetest.log("populate_jobsites. Adding: ".. tostring(n))
table.insert(jobsites_requested,professions[n].jobsite)
end
end
end
return jobsites_requested
end
jobsites = populate_jobsites()
local function stand_still(self)
self.walk_chance = 0
self.jump = false
end
local function init_trader_vars(self)
if not self._max_trade_tier then
self._max_trade_tier = 1
end
if not self._locked_trades then
self._locked_trades = 0
end
if not self._trading_players then
self._trading_players = {}
end
end
local function get_badge_textures(self)
local t = professions[self._profession].texture
if self._profession == "unemployed" then
t = professions[self._profession].textures -- ideally both scenarios should be textures with a list containing 1 or multiple
--mcl_log("t: " .. tostring(t))
end
if self._profession == "unemployed" or self._profession == "nitwit" then return t end
local tier = self._max_trade_tier or 1
return {
t .. "^" .. badges[tier]
}
end
local function set_textures(self)
local badge_textures = get_badge_textures(self)
--mcl_log("Setting textures: " .. tostring(badge_textures))
self.object:set_properties({textures=badge_textures})
end
-- TODO Pass in self and if nitwit, go to bed later.
local function is_night()
local tod = minetest.get_timeofday()
tod = ( tod * 24000 ) % 24000
return tod > 17500 or tod < 6500
end
function get_activity(tod)
-- night hours = tod > 18541 or tod < 5458
if not tod then
tod = minetest.get_timeofday()
end
tod = ( tod * 24000 ) % 24000
local lunch_start = 11000
local lunch_end = 13500
local work_start = 7500
local work_end = 16000
local activity = nil
if weather_mod and mcl_weather.get_weather() == "thunder" then
mcl_log("Better get to bed. Weather is: " .. mcl_weather.get_weather())
activity = SLEEP
elseif (tod > work_start and tod < lunch_start) or (tod > lunch_end and tod < work_end) then
activity = WORK
elseif is_night() then
activity = SLEEP
elseif tod > lunch_start and tod < lunch_end then
activity = GATHERING
else
activity = "chill"
end
--mcl_log("Time is " .. tod ..". Activity is: ".. activity)
return activity
end
local function find_closest_bed (self)
local p = self.object:get_pos()
--local spawnable_bed={}
--table.insert(spawnable_bed, "mcl_beds:bed_red_bottom")
--local nn = minetest.find_nodes_in_area(vector.offset(p,-48,-48,-48),vector.offset(p,48,48,48), spawnable_bed)
--if nn then
-- mcl_log("Red beds: " .. #nn)
--end
local unclaimed_beds = {}
local nn2 = minetest.find_nodes_in_area(vector.offset(p,-48,-48,-48),vector.offset(p,48,48,48), {"group:bed"})
if nn2 then
--mcl_log("All bed parts: " .. #nn2)
for a,b in pairs(nn2) do
mcl_log("b: " .. minetest.pos_to_string(b))
local bed_node = minetest.get_node(b)
local bed_name = bed_node.name
local is_bed_bottom = string.find(bed_name,"_bottom")
local bed_meta = minetest.get_meta(b)
local owned_by = bed_meta:get_string("villager")
--mcl_log("Owned by villager: ".. tostring(owned_by))
if (owned_by and owned_by == self._id) then
mcl_log("Clear as already owned by me.")
bed_meta:set_string("villager", nil)
owned_by = nil
end
if is_bed_bottom then
local bed_top = mcl_beds.get_bed_top (b)
mcl_log("bed_top: " .. tostring(bed_top))
local bed_top_node = minetest.get_node(bed_top)
if bed_top_node then
mcl_log("There is a block here for bed top: ".. bed_top_node.name)
else
mcl_log("There is no block here for bed top")
end
local bed_top_meta = minetest.get_meta(bed_top)
local owned_by_player = bed_top_meta:get_string("player")
if bed_top_meta then
mcl_log("Player: " .. tostring(owned_by_player))
else
mcl_log("No bed top meta")
end
if owned_by == "" and (not owned_by_player or owned_by_player == "") then
table.insert(unclaimed_beds, b)
mcl_log("is an unowned bed bottom")
else
end
else
--mcl_log("bed_node name: " .. bed_name)
end
end
end
local distance_to_closest_block = nil
local closest_block = nil
if unclaimed_beds then
mcl_log("All unclaimed bed bottoms: " .. #unclaimed_beds)
for i,b in pairs(unclaimed_beds) do
mcl_log("b: " .. minetest.pos_to_string(b))
local distance_to_block = vector.distance(p, b)
mcl_log("Distance to block ".. i .. ": ".. distance_to_block)
if not distance_to_closest_block or distance_to_closest_block > distance_to_block then
mcl_log("This block is closer than the last.")
closest_block = b
distance_to_closest_block = distance_to_block
end
local bed_node = minetest.get_node(b)
local bed_name = bed_node.name
mcl_log("bed_node name: " .. bed_name)
end
end
return closest_block
end
local function find_closest_unclaimed_block (p, requested_block_types)
local nn = minetest.find_nodes_in_area(vector.offset(p,-48,-48,-48),vector.offset(p,48,48,48), requested_block_types)
local distance_to_closest_block = nil
local closest_block = nil
for i,n in pairs(nn) do
local m = minetest.get_meta(n)
if m:get_string("villager") == "" then
mcl_log("Block: " .. minetest.pos_to_string(n).. ", owner: ".. m:get_string("villager"))
local distance_to_block = vector.distance(p, n)
mcl_log("Distance to block ".. i .. ": ".. distance_to_block)
if not distance_to_closest_block or distance_to_closest_block > distance_to_block then
mcl_log("This block is closer than the last.")
closest_block = n
distance_to_closest_block = distance_to_block
end
end
end
return closest_block
end
local function check_bed (entity)
local b = entity._bed
if not b then
--minetest.log("No bed set on villager")
return false
end
local n = minetest.get_node(b)
local is_bed_bottom = string.find(n.name,"_bottom")
--mcl_log("is bed bottom: " .. tostring(is_bed_bottom))
if n and not is_bed_bottom then
mcl_log("Where did my bed go?!")
entity._bed = nil --the stormtroopers have killed uncle owen
return false
else
return true
end
end
local function go_home(entity, sleep)
if not check_bed (entity) then
mcl_log("Cannot find bed, so cannot go home")
end
local b = entity._bed
if not b then
return
end
local bed_node = minetest.get_node(b)
if not bed_node then
entity._bed = nil
mcl_log("Cannot find bed. Unset it")
return
end
if vector.distance(entity.object:get_pos(),b) < 2 then
if sleep then
entity.order = SLEEP
mcl_log("Sleep time!")
end
else
if sleep and entity.order == SLEEP then
entity.order = nil
return
end
entity:gopath(b,function(entity,b)
local b = entity._bed
if not b then
--minetest.log("NO BED, problem")
return false
end
if not minetest.get_node(b) then
--minetest.log("NO BED NODE, problem")
return false
end
if vector.distance(entity.object:get_pos(),b) < 2 then
--minetest.log("Managed to walk home callback!")
return true
else
--minetest.log("Need to walk to home")
end
end, true)
end
end
local function take_bed (entity)
if not entity then return end
if not entity:ready_to_path() then return end
local p = entity.object:get_pos()
local closest_block = find_closest_bed (entity)
if closest_block then
mcl_log("Can we path to bed: "..minetest.pos_to_string(closest_block) )
local distance_to_block = vector.distance(p, closest_block)
mcl_log("Distance: " .. distance_to_block)
if distance_to_block < 2 then
local m = minetest.get_meta(closest_block)
local owner = m:get_string("villager")
mcl_log("owner: ".. owner)
if owner and owner ~= "" and owner ~= entity._id then
mcl_log("Already taken")
if entity.order == "stand" then entity.order = nil end
return
end
if entity.order ~= SLEEP then
mcl_log("Sleepy time" )
entity.order = SLEEP
m:set_string("villager", entity._id)
entity._bed = closest_block
else
--entity.order = nil
mcl_log("Set as sleep already..." )
end
else
local gp = entity:gopath(closest_block,function(self) end)
if gp then
mcl_log("Nice bed. I'll defintely take it as I can path")
else
mcl_log("Awww. I can't find my bed.")
end
end
else
mcl_log("Cannot find a bed to claim.")
if entity.order == "stand" then entity.order = nil end
end
end
local function has_golem(pos)
local r = false
for _,o in pairs(minetest.get_objects_inside_radius(pos,16)) do
local l = o:get_luaentity()
if l and l.name == "mobs_mc:iron_golem" then return true end
end
end
local function monsters_near(self)
for _,o in pairs(minetest.get_objects_inside_radius(self.object:get_pos(),10)) do
local l = o:get_luaentity()
if l and l.type =="monster" then return true end
end
end
local function has_summon_participants(self)
local r = 0
for _,o in pairs(minetest.get_objects_inside_radius(self.object:get_pos(),10)) do
local l = o:get_luaentity()
--TODO check for gossiping
if l and l.name == "mobs_mc:villager" then r = r + 1 end
end
return r > 2
end
local function summon_golem(self)
vector.offset(self.object:get_pos(),-10,-10,-10)
local nn = minetest.find_nodes_in_area_under_air(vector.offset(self.object:get_pos(),-10,-10,-10),vector.offset(self.object:get_pos(),10,10,10),{"group:solid","group:water"})
table.shuffle(nn)
for _,n in pairs(nn) do
local up = minetest.find_nodes_in_area(vector.offset(n,0,1,0),vector.offset(n,0,3,0),{"air"})
if up and #up >= 3 then
minetest.sound_play("mcl_portals_open_end_portal", {pos=n, gain=0.5, max_hear_distance = 16}, true)
return minetest.add_entity(vector.offset(n,0,1,0),"mobs_mc:iron_golem")
end
end
end
local function check_summon(self,dtime)
-- TODO has selpt in last 20?
if self._summon_timer and self._summon_timer > 30 then
local pos = self.object:get_pos()
self._summon_timer = 0
if has_golem(pos) then return end
if not monsters_near(self) then return end
if not has_summon_participants(self) then return end
summon_golem(self)
elseif self._summon_timer == nil then
self._summon_timer = 0
end
self._summon_timer = self._summon_timer + dtime
end
local function debug_trades(self)
mcl_log("Start debug trades")
if not self or not self._trades then return end
local trades = minetest.deserialize(self._trades)
if trades and type(trades) == "table" then
for trader, trade in pairs(trades) do
--mcl_log("Current record: ".. tostring(trader))
for tr3, tr4 in pairs (trade) do
mcl_log("Key: ".. tostring(tr3))
mcl_log("Value: ".. tostring(tr4))
end
end
end
mcl_log("End debug trades")
end
local function has_traded (self)
if not self._trades then
mcl_log("No trades set. has_traded is false")
return false
end
local cur_trades_tab = minetest.deserialize(self._trades)
if cur_trades_tab and type(cur_trades_tab) == "table" then
for trader, trades in pairs(cur_trades_tab) do
if trades.traded_once then
mcl_log("Villager has traded before. Returning true")
return true
end
end
end
mcl_log("Villager has not traded before")
return false
end
local function unlock_trades (self)
if not self._trades then
mcl_log("No trades set. has_traded is false")
return false
end
mcl_log("Unlocking trades")
local has_unlocked = false
local trades = minetest.deserialize(self._trades)
if trades and type(trades) == "table" then
for trader, trade in pairs(trades) do
local trade_tier_too_high = trade.tier > self._max_trade_tier
--mcl_log("Max trade tier of villager: ".. tostring(self._max_trade_tier))
--mcl_log("current trade.tier: ".. tostring(trade.tier))
--mcl_log("trade tier too high: ".. tostring(trade_tier_too_high))
--mcl_log("locked: ".. tostring(trade["locked"]))
if not trade_tier_too_high then
if trade["locked"] == true then
trade.locked = false
trade.trade_counter = 0
has_unlocked = true
mcl_log("Villager has a locked trade. Unlocking")
end
end
end
if has_unlocked then
self._trades = minetest.serialize(trades)
end
end
end
----- JOBSITE LOGIC
local function get_profession_by_jobsite(js)
for k,v in pairs(professions) do
if v.jobsite == js then
return k
-- Catch Nitwit doesn't have a jobsite
elseif v.jobsite and v.jobsite:find("^group:") then
local group = v.jobsite:gsub("^group:", "")
if minetest.get_item_group(js, group) > 0 then
return k
end
end
end
end
local function employ(self,jobsite_pos)
local n = minetest.get_node(jobsite_pos)
local m = minetest.get_meta(jobsite_pos)
local p = get_profession_by_jobsite(n.name)
if p and m:get_string("villager") == "" then
mcl_log("Taking this jobsite")
m:set_string("villager",self._id)
self._jobsite = jobsite_pos
if not has_traded(self) then
self._profession=p
set_textures(self)
end
return true
else
mcl_log("I can not steal someone's job!")
end
end
local function look_for_job(self, requested_jobsites)
mcl_log("Looking for jobs")
local p = self.object:get_pos()
local closest_block = find_closest_unclaimed_block(p, requested_jobsites)
if closest_block then
mcl_log("It's a free job for me (" .. minetest.pos_to_string(p) .. ")! I might be interested: ".. minetest.pos_to_string(closest_block) )
local gp = self:gopath(closest_block,function(self)
mcl_log("Arrived at block callback")
if self and self.state == "stand" then
self.order = WORK
else
mcl_log("no self. passing param to callback failed")
end
end)
if gp then
if closest_block then
mcl_log("We can path to this block.. " .. tostring(closest_block))
end
return closest_block
else
mcl_log("We could not path to block or it's not ready to path yet.")
end
else
mcl_log("We don't have a job block to path to")
end
return nil
end
local function get_a_job(self)
if self.order == WORK then self.order = nil end
if not self:ready_to_path() then return end
mcl_log("I'm unemployed or lost my job block and have traded. Can I get a job?")
local requested_jobsites = jobsites
if has_traded (self) then
mcl_log("Has traded so look for job of my type")
requested_jobsites = populate_jobsites(self._profession)
-- Only pass in my jobsite to two functions here
end
local p = self.object:get_pos()
local n = minetest.find_node_near(p,1,requested_jobsites)
if n and employ(self,n) then return true end
if self.state ~= PATHFINDING then
mcl_log("Nothing near. Need to look for a job")
look_for_job(self, requested_jobsites)
end
end
local function retrieve_my_jobsite (self)
if not self or not self._jobsite then
mcl_log("find_jobsite. Invalid params. Should not happen")
return
end
local n = mcl_vars.get_node(self._jobsite)
local m = minetest.get_meta(self._jobsite)
if m:get_string("villager") == self._id then
--mcl_log("find_jobsite. is my job.")
return n
else
mcl_log("This isn't my jobsite")
end
return
end
local function remove_job (self)
self._jobsite = nil
if not has_traded(self) then
mcl_log("Cannot retrieve my jobsite. I am now unemployed.")
self._profession = "unemployed"
self._trades = nil
set_textures(self)
else
mcl_log("Cannot retrieve my jobsite but I've traded so only remove jobsite.")
end
end
local function validate_jobsite(self)
if self._profession == "unemployed" then return false end
local job_block = retrieve_my_jobsite (self)
if not job_block then
if self.order == WORK then
self.order = nil
end
remove_job (self)
return false
else
local resettle = vector.distance(self.object:get_pos(),self._jobsite) > RESETTLE_DISTANCE
mcl_log("Jobsite far, so resettle: " .. tostring(resettle))
if resettle then
local m = minetest.get_meta(self._jobsite)
m:set_string("villager", nil)
remove_job (self)
return false
end
return true
end
end
local function do_work (self)
if not self or self.child then
mcl_log("No self, or a child so don't work")
return
end
--mcl_log("Time for work")
local jobsite_node = retrieve_my_jobsite (self)
if jobsite_node then
local jobsite = self._jobsite
local distance_to_jobsite = vector.distance(self.object:get_pos(), jobsite)
--mcl_log("Villager: ".. minetest.pos_to_string(self.object:get_pos()) .. ", jobsite: " .. minetest.pos_to_string(self._jobsite) .. ", distance to jobsite: ".. distance_to_jobsite)
if distance_to_jobsite < 2 then
if self.state ~= PATHFINDING and self.order ~= WORK then
mcl_log("Setting order to work.")
self.order = WORK
unlock_trades(self)
else
--mcl_log("Still pathfinding.")
end
else
mcl_log("Not at job block. Need to commute.")
if self.order == WORK then
self.order = nil
return
end
self:gopath(jobsite, function(self, jobsite)
if not self then
--mcl_log("missing self. not good")
return false
end
if not self._jobsite then
--mcl_log("Jobsite not valid")
return false
end
if vector.distance(self.object:get_pos(),self._jobsite) < 2 then
--mcl_log("Made it to work ok callback!")
return true
else
--mcl_log("Need to walk to work. Not sure we can get here.")
end
end)
end
end
end
local below_vec = vector.new(0, -1, 0)
local function get_ground_below_floating_object (float_pos)
local pos = float_pos
repeat
mcl_log("Current pos: " .. minetest.pos_to_string(pos))
pos = vector.add(pos, below_vec)
local node = minetest.get_node(pos)
mcl_log("First non air materials: ".. tostring(node.name))
until node.name ~= "air"
-- If pos is 1 below float_pos, then just return float_pos as there is no air below it
if pos.y == float_pos.y - 1 then
--mcl_log("pos is only 1 lower than float pos so no air below")
return float_pos
else
--mcl_log("pos is more than 1 lower than float pos so air is below")
return pos
end
return pos
end
local function go_to_town_bell(self)
if self.order == GATHERING then return
else mcl_log("Current order" .. self.order) end
if not self:ready_to_path() then return end
mcl_log("Go to town bell")
local looking_for_type={}
table.insert(looking_for_type, "mcl_bells:bell")
local p = self.object:get_pos()
local nn = minetest.find_nodes_in_area(vector.offset(p,-48,-48,-48),vector.offset(p,48,48,48), looking_for_type)
--Ideally should check for closest available. It'll make pathing easier.
for _,n in pairs(nn) do
mcl_log("Found bell")
local target_point = get_ground_below_floating_object(n)
local gp = self:gopath(target_point,function(self)
if self then
self.order = GATHERING
mcl_log("Callback has a self")
end
mcl_log("Arrived at block callback")
end)
if gp then
if n then
mcl_log("We can path to this block.. " .. tostring(n))
end
return n
else
mcl_log("We could not path to block or it's not ready to path yet.")
end
end
return nil
end
local function validate_bed(self)
if not self or not self._bed then
return false
end
local n = mcl_vars.get_node(self._bed)
if not n then
self._bed = nil
return false
end
local bed_valid = true
local m = minetest.get_meta(self._bed)
local resettle = vector.distance(self.object:get_pos(),self._bed) > RESETTLE_DISTANCE
mcl_log("Bed far, so resettle: " .. tostring(resettle))
if resettle then
mcl_log("Resettled. Ditch bed.")
m:set_string("villager", nil)
self._bed = nil
bed_valid = false
return false
end
local owned_by_player = m:get_string("player")
mcl_log("Player owner: " .. owned_by_player)
if owned_by_player ~= "" then
mcl_log("Player owns this. Villager won't take this.")
m:set_string("villager", nil)
self._bed = nil
bed_valid = false
return false
end
if m:get_string("villager") ~= self._id then
mcl_log("This bed is owned by another player. I'll unclaim.")
self._bed = nil
return false
else
mcl_log("Bed is valid")
return true
end
end
local function do_activity (self)
if self.following then
mcl_log("Following, so do not do activity.")
return
end
if self.state == PATHFINDING then
mcl_log("Pathfinding, so do not do activity.")
return
end
local jobsite_valid = false
if not is_night() then
if self.order == SLEEP then self.order = nil end
if not validate_jobsite(self) then
--debug_trades(self)
if self._profession == "unemployed" or has_traded(self) then
get_a_job(self)
return
end
else
jobsite_valid = true
--mcl_log("My jobsite is valid. Do i need to travel?")
end
else
if self.order == WORK then self.order = nil end
if not validate_bed(self) then
if self.order == SLEEP then self.order = nil end
mcl_log("Villager at this location has no bed: " .. minetest.pos_to_string(self.object:get_pos()))
take_bed (self)
end
end
-- Only check in day or during thunderstorm but wandered_too_far code won't work
local wandered_too_far = false
if check_bed (self) then
wandered_too_far = vector.distance(self.object:get_pos(),self._bed) > 50
end
if wandered_too_far then
--mcl_log("Wandered too far! Return home ")
go_home(self, false)
elseif get_activity() == SLEEP then
go_home(self, true)
elseif get_activity() == WORK and jobsite_valid then
do_work(self)
elseif get_activity() == GATHERING then
go_to_town_bell(self)
else
mcl_log("No order, so remove it.")
self.order = nil
end
end
local function update_max_tradenum(self)
if not self._trades then
return
end
local trades = minetest.deserialize(self._trades)
for t=1, #trades do
local trade = trades[t]
if trade.tier > self._max_trade_tier then
self._max_tradenum = t - 1
return
end
end
self._max_tradenum = #trades
end
local function init_trades(self, inv)
local profession = professions[self._profession]
local trade_tiers = profession.trades
if trade_tiers == nil then
-- Empty trades
self._trades = false
return
end
local max_tier = #trade_tiers
local trades = {}
for tiernum=1, max_tier do
local tier = trade_tiers[tiernum]
for tradenum=1, #tier do
local trade = tier[tradenum]
local wanted1_item = trade[1][1]
local wanted1_count = math.random(trade[1][2], trade[1][3])
local offered_item = trade[2][1]
local offered_count = math.random(trade[2][2], trade[2][3])
local offered_stack = ItemStack({name = offered_item, count = offered_count})
if mcl_enchanting.is_enchanted(offered_item) then
if mcl_enchanting.is_book(offered_item) then
offered_stack = mcl_enchanting.enchant_uniform_randomly(offered_stack, {"soul_speed"})
else
mcl_enchanting.enchant_randomly(offered_stack, math.random(5, 19), false, false, true)
mcl_enchanting.unload_enchantments(offered_stack)
end
end
local wanted = { wanted1_item .. " " ..wanted1_count }
if trade[1][4] then
local wanted2_item = trade[1][4]
local wanted2_count = math.random(trade[1][5], trade[1][6])
table.insert(wanted, wanted2_item .. " " ..wanted2_count)
end
table.insert(trades, {
wanted = wanted,
offered = offered_stack:to_table(),
tier = tiernum, -- tier of this trade
traded_once = false, -- true if trade was traded at least once
trade_counter = 0, -- how often the this trade was mate after the last time it got unlocked
locked = false, -- if this trade is locked. Locked trades can't be used
})
end
end
self._trades = minetest.serialize(trades)
minetest.deserialize(self._trades)
end
local function set_trade(trader, player, inv, concrete_tradenum)
local trades = minetest.deserialize(trader._trades)
if not trades then
init_trades(trader)
trades = minetest.deserialize(trader._trades)
if not trades then
--minetest.log("error", "Failed to select villager trade!")
return
end
end
local name = player:get_player_name()
-- Stop tradenum from advancing into locked tiers or out-of-range areas
if concrete_tradenum > trader._max_tradenum then
concrete_tradenum = trader._max_tradenum
elseif concrete_tradenum < 1 then
concrete_tradenum = 1
end
player_tradenum[name] = concrete_tradenum
local trade = trades[concrete_tradenum]
inv:set_stack("wanted", 1, ItemStack(trade.wanted[1]))
local offered = ItemStack(trade.offered)
-- Only load enchantments for enchanted items; fixes unnecessary metadata being applied to regular items from villagers.
if mcl_enchanting.is_enchanted(offered:get_name()) then
mcl_enchanting.load_enchantments(offered)
end
inv:set_stack("offered", 1, offered)
if trade.wanted[2] then
local wanted2 = ItemStack(trade.wanted[2])
inv:set_stack("wanted", 2, wanted2)
else
inv:set_stack("wanted", 2, "")
end
end
local function show_trade_formspec(playername, trader, tradenum)
if not trader._trades then
return
end
if not tradenum then
tradenum = 1
end
local trades = minetest.deserialize(trader._trades)
local trade = trades[tradenum]
local profession = professions[trader._profession].name
local disabled_img = ""
if trade.locked then
disabled_img = "image[4.3,2.52;1,1;mobs_mc_trading_formspec_disabled.png]"..
"image[4.3,1.1;1,1;mobs_mc_trading_formspec_disabled.png]"
end
local tradeinv_name = "mobs_mc:trade_"..playername
local tradeinv = F("detached:"..tradeinv_name)
local b_prev, b_next = "", ""
if #trades > 1 then
if tradenum > 1 then
b_prev = "button[1,1;0.5,1;prev_trade;<]"
end
if tradenum < trader._max_tradenum then
b_next = "button[7.26,1;0.5,1;next_trade;>]"
end
end
local inv = minetest.get_inventory({type="detached", name="mobs_mc:trade_"..playername})
if not inv then
return
end
local wanted1 = inv:get_stack("wanted", 1)
local wanted2 = inv:get_stack("wanted", 2)
local offered = inv:get_stack("offered", 1)
local w2_formspec = ""
if not wanted2:is_empty() then
w2_formspec = "item_image[3,1;1,1;"..wanted2:to_string().."]"
.."tooltip[3,1;0.8,0.8;"..F(wanted2:get_description()).."]"
end
local tiername = tiernames[trader._max_trade_tier]
if tiername then
tiername = S(tiername)
else
tiername = S("Master")
end
local formspec =
"size[9,8.75]"
.."background[-0.19,-0.25;9.41,9.49;mobs_mc_trading_formspec_bg.png]"
..disabled_img
.."label[3,0;"..F(minetest.colorize("#313131", S(profession).." - "..tiername)) .."]"
.."list[current_player;main;0,4.5;9,3;9]"
.."list[current_player;main;0,7.74;9,1;]"
..b_prev..b_next
.."["..tradeinv..";wanted;2,1;2,1;]"
.."item_image[2,1;1,1;"..wanted1:to_string().."]"
.."tooltip[2,1;0.8,0.8;"..F(wanted1:get_description()).."]"
..w2_formspec
.."item_image[5.76,1;1,1;"..offered:get_name().." "..offered:get_count().."]"
.."tooltip[5.76,1;0.8,0.8;"..F(offered:get_description()).."]"
.."list["..tradeinv..";input;2,2.5;2,1;]"
.."list["..tradeinv..";output;5.76,2.55;1,1;]"
.."listring["..tradeinv..";output]"
.."listring[current_player;main]"
.."listring["..tradeinv..";input]"
.."listring[current_player;main]"
minetest.sound_play("mobs_mc_villager_trade", {to_player = playername,object=trader.object}, true)
minetest.show_formspec(playername, tradeinv_name, formspec)
end
local function update_offer(inv, player, sound)
local name = player:get_player_name()
local trader = player_trading_with[name]
local tradenum = player_tradenum[name]
if not trader or not tradenum then
return false
end
local trades = minetest.deserialize(trader._trades)
if not trades then
return false
end
local trade = trades[tradenum]
if not trade then
return false
end
local wanted1, wanted2 = inv:get_stack("wanted", 1), inv:get_stack("wanted", 2)
local input1, input2 = inv:get_stack("input", 1), inv:get_stack("input", 2)
-- BEGIN OF SPECIAL HANDLING OF COMPASS
-- These 2 functions are a complicated check to check if the input contains a
-- special item which we cannot check directly against their name, like
-- compass.
-- TODO: Remove these check functions when compass and clock are implemented
-- as single items.
local function check_special(special_item, group, wanted1, wanted2, input1, input2)
if minetest.registered_aliases[special_item] then
special_item = minetest.registered_aliases[special_item]
end
if wanted1:get_name() == special_item then
local function check_input(input, wanted, group)
return minetest.get_item_group(input:get_name(), group) ~= 0 and input:get_count() >= wanted:get_count()
end
if check_input(input1, wanted1, group) then
return true
elseif check_input(input2, wanted1, group) then
return true
else
return false
end
end
return false
end
-- Apply above function to all items which we consider special.
-- This function succeeds if ANY item check succeeds.
local function check_specials(wanted1, wanted2, input1, input2)
return check_special(COMPASS, "compass", wanted1, wanted2, input1, input2)
end
-- END OF SPECIAL HANDLING OF COMPASS
if (
((inv:contains_item("input", wanted1) and
(wanted2:is_empty() or inv:contains_item("input", wanted2))) or
-- BEGIN OF SPECIAL HANDLING OF COMPASS
check_specials(wanted1, wanted2, input1, input2)) and
-- END OF SPECIAL HANDLING OF COMPASS
(trade.locked == false)) then
inv:set_stack("output", 1, inv:get_stack("offered", 1))
if sound then
minetest.sound_play("mobs_mc_villager_accept", {to_player = name,object=trader.object}, true)
end
return true
else
inv:set_stack("output", 1, ItemStack(""))
if sound then
minetest.sound_play("mobs_mc_villager_deny", {to_player = name,object=trader.object}, true)
end
return false
end
end
-- Returns a single itemstack in the given inventory to the player's main inventory, or drop it when there's no space left
local function return_item(itemstack, dropper, pos, inv_p)
if dropper:is_player() then
-- Return to main inventory
if inv_p:room_for_item("main", itemstack) then
inv_p:add_item("main", itemstack)
else
-- Drop item on the ground
local v = dropper:get_look_dir()
local p = {x=pos.x, y=pos.y+1.2, z=pos.z}
p.x = p.x+(math.random(1,3)*0.2)
p.z = p.z+(math.random(1,3)*0.2)
local obj = minetest.add_item(p, itemstack)
if obj then
v.x = v.x*4
v.y = v.y*4 + 2
v.z = v.z*4
obj:set_velocity(v)
obj:get_luaentity()._insta_collect = false
end
end
else
-- Fallback for unexpected cases
minetest.add_item(pos, itemstack)
end
return itemstack
end
local function return_fields(player)
local name = player:get_player_name()
local inv_t = minetest.get_inventory({type="detached", name = "mobs_mc:trade_"..name})
local inv_p = player:get_inventory()
if not inv_t or not inv_p then
return
end
for i=1, inv_t:get_size("input") do
local stack = inv_t:get_stack("input", i)
return_item(stack, player, player:get_pos(), inv_p)
stack:clear()
inv_t:set_stack("input", i, stack)
end
inv_t:set_stack("output", 1, "")
end
minetest.register_on_player_receive_fields(function(player, formname, fields)
if string.sub(formname, 1, 14) == "mobs_mc:trade_" then
local name = player:get_player_name()
if fields.quit then
-- Get input items back
return_fields(player)
-- Reset internal "trading with" state
local trader = player_trading_with[name]
if trader then
trader._trading_players[name] = nil
end
player_trading_with[name] = nil
elseif fields.next_trade or fields.prev_trade then
local trader = player_trading_with[name]
if not trader or not trader.object:get_luaentity() then
return
end
local trades = trader._trades
if not trades then
return
end
local dir = 1
if fields.prev_trade then
dir = -1
end
local tradenum = player_tradenum[name] + dir
local inv = minetest.get_inventory({type="detached", name="mobs_mc:trade_"..name})
if not inv then
return
end
set_trade(trader, player, inv, tradenum)
update_offer(inv, player, false)
show_trade_formspec(name, trader, player_tradenum[name])
end
end
end)
minetest.register_on_leaveplayer(function(player)
local name = player:get_player_name()
return_fields(player)
player_tradenum[name] = nil
local trader = player_trading_with[name]
if trader then
trader._trading_players[name] = nil
end
player_trading_with[name] = nil
end)
-- Return true if player is trading with villager, and the villager entity exists
local function trader_exists(playername)
local trader = player_trading_with[playername]
return trader ~= nil and trader.object:get_luaentity() ~= nil
end
local trade_inventory = {
allow_take = function(inv, listname, index, stack, player)
if listname == "input" then
return stack:get_count()
elseif listname == "output" then
if not trader_exists(player:get_player_name()) then
return 0
-- Begin Award Code
-- May need to be moved if award gets unlocked in the wrong cases.
elseif trader_exists(player:get_player_name()) then
awards.unlock(player:get_player_name(), "mcl:whatAdeal")
-- End Award Code
end
-- Only allow taking full stack
local count = stack:get_count()
if count == inv:get_stack(listname, index):get_count() then
-- Also update output stack again.
-- If input has double the wanted items, the
-- output will stay because there will be still
-- enough items in input after the trade
local wanted1 = inv:get_stack("wanted", 1)
local wanted2 = inv:get_stack("wanted", 2)
local input1 = inv:get_stack("input", 1)
local input2 = inv:get_stack("input", 2)
wanted1:set_count(wanted1:get_count()*2)
wanted2:set_count(wanted2:get_count()*2)
-- BEGIN OF SPECIAL HANDLING FOR COMPASS
local function special_checks(wanted1, input1, input2)
if wanted1:get_name() == COMPASS then
local compasses = 0
if (minetest.get_item_group(input1:get_name(), "compass") ~= 0) then
compasses = compasses + input1:get_count()
end
if (minetest.get_item_group(input2:get_name(), "compass") ~= 0) then
compasses = compasses + input2:get_count()
end
return compasses >= wanted1:get_count()
end
return false
end
-- END OF SPECIAL HANDLING FOR COMPASS
if (inv:contains_item("input", wanted1) and
(wanted2:is_empty() or inv:contains_item("input", wanted2)))
-- BEGIN OF SPECIAL HANDLING FOR COMPASS
or special_checks(wanted1, input1, input2) then
-- END OF SPECIAL HANDLING FOR COMPASS
return -1
else
-- If less than double the wanted items,
-- remove items from output (final trade,
-- input runs empty)
return count
end
else
return 0
end
else
return 0
end
end,
allow_move = function(inv, from_list, from_index, to_list, to_index, count, player)
if from_list == "input" and to_list == "input" then
return count
elseif from_list == "output" and to_list == "input" then
if not trader_exists(player:get_player_name()) then
return 0
end
local move_stack = inv:get_stack(from_list, from_index)
if inv:get_stack(to_list, to_index):item_fits(move_stack) then
return count
end
end
return 0
end,
allow_put = function(inv, listname, index, stack, player)
if listname == "input" then
if not trader_exists(player:get_player_name()) then
return 0
else
return stack:get_count()
end
else
return 0
end
end,
on_put = function(inv, listname, index, stack, player)
update_offer(inv, player, true)
end,
on_move = function(inv, from_list, from_index, to_list, to_index, count, player)
if from_list == "output" and to_list == "input" then
inv:remove_item("input", inv:get_stack("wanted", 1))
local wanted2 = inv:get_stack("wanted", 2)
if not wanted2:is_empty() then
inv:remove_item("input", inv:get_stack("wanted", 2))
end
local name = player:get_player_name()
local trader = player_trading_with[name]
minetest.sound_play("mobs_mc_villager_accept", {to_player = player:get_player_name(),object=trader.object}, true)
end
update_offer(inv, player, true)
end,
on_take = function(inv, listname, index, stack, player)
local accept
local name = player:get_player_name()
if listname == "output" then
local wanted1 = inv:get_stack("wanted", 1)
inv:remove_item("input", wanted1)
local wanted2 = inv:get_stack("wanted", 2)
if not wanted2:is_empty() then
inv:remove_item("input", inv:get_stack("wanted", 2))
end
-- BEGIN OF SPECIAL HANDLING FOR COMPASS
if wanted1:get_name() == COMPASS then
for n=1, 2 do
local input = inv:get_stack("input", n)
if minetest.get_item_group(input:get_name(), "compass") ~= 0 then
input:set_count(input:get_count() - wanted1:get_count())
inv:set_stack("input", n, input)
break
end
end
end
-- END OF SPECIAL HANDLING FOR COMPASS
local trader = player_trading_with[name]
local tradenum = player_tradenum[name]
local trades
trader._traded = true
if trader and trader._trades then
trades = minetest.deserialize(trader._trades)
end
if trades then
local trade = trades[tradenum]
local unlock_stuff = false
if not trade.traded_once then
-- Unlock all the things if something was traded
-- for the first time ever
unlock_stuff = true
trade.traded_once = true
elseif trade.trade_counter == 0 and math.random(1,5) == 1 then
-- Otherwise, 20% chance to unlock if used freshly reset trade
unlock_stuff = true
end
-- calculate xp based on the price
local emeralds = 0
if wanted1:get_name() == "mcl_core:emerald" then
emeralds = wanted1:get_count()
elseif wanted2:get_name() == "mcl_core:emerald" then
emeralds = wanted2:get_count()
else
local offered = inv:get_stack("offered", 1)
emeralds = offered:get_name() == "mcl_core:emerald" and offered:get_count() or 0
end
local xp = 2 + math.ceil(emeralds / (64/4)) -- 1..64 emeralds = 3..6 xp
local update_formspec = false
if unlock_stuff then
-- First-time trade unlock all trades and unlock next trade tier
if trade.tier + 1 > trader._max_trade_tier then
trader._max_trade_tier = trader._max_trade_tier + 1
if trader._max_trade_tier > 5 then
trader._max_trade_tier = 5
end
set_textures(trader)
update_max_tradenum(trader)
update_formspec = true
xp = xp + 5
end
for t=1, #trades do
trades[t].locked = false
trades[t].trade_counter = 0
end
trader._locked_trades = 0
-- Also heal trader for unlocking stuff
-- TODO: Replace by Regeneration I
trader.health = math.min(trader.hp_max, trader.health + 4)
end
mcl_experience.add_xp(player, xp)
trade.trade_counter = trade.trade_counter + 1
mcl_log("Trade counter is: ".. trade.trade_counter)
-- Semi-randomly lock trade for repeated trade (not if there's only 1 trade)
if trader._max_tradenum > 1 then
if trade.trade_counter >= 12 then
trade.locked = true
elseif trade.trade_counter >= 2 then
local r = math.random(1, math.random(4, 10))
if r == 1 then
trade.locked = true
end
end
end
if trade.locked then
inv:set_stack("output", 1, "")
update_formspec = true
trader._locked_trades = trader._locked_trades + 1
-- Check if we managed to lock ALL available trades. Rare but possible.
if trader._locked_trades >= trader._max_tradenum then
-- Emergency unlock! Unlock all other trades except the current one
for t=1, #trades do
if t ~= tradenum then
trades[t].locked = false
trades[t].trade_counter = 0
end
end
trader._locked_trades = 1
-- Also heal trader for unlocking stuff
-- TODO: Replace by Regeneration I
trader.health = math.min(trader.hp_max, trader.health + 4)
end
end
trader._trades = minetest.serialize(trades)
if update_formspec then
show_trade_formspec(name, trader, tradenum)
end
else
minetest.log("error", "[mobs_mc] Player took item from trader output but player_trading_with or player_tradenum is nil!")
end
accept = true
elseif listname == "input" then
update_offer(inv, player, false)
end
local trader = player_trading_with[name]
if accept then
minetest.sound_play("mobs_mc_villager_accept", {to_player = name,object=trader.object}, true)
else
minetest.sound_play("mobs_mc_villager_deny", {to_player = name,object=trader.object}, true)
end
end,
}
minetest.register_on_joinplayer(function(player)
local name = player:get_player_name()
player_tradenum[name] = 1
player_trading_with[name] = nil
-- Create or get player-specific trading inventory
local inv = minetest.get_inventory({type="detached", name="mobs_mc:trade_"..name})
if not inv then
inv = minetest.create_detached_inventory("mobs_mc:trade_"..name, trade_inventory, name)
end
inv:set_size("input", 2)
inv:set_size("output", 1)
inv:set_size("wanted", 2)
inv:set_size("offered", 1)
end)
--[=======[ MOB REGISTRATION AND SPAWNING ]=======]
mcl_mobs.register_mob("mobs_mc:villager", {
description = S("Villager"),
type = "npc",
spawn_class = "passive",
passive = true,
hp_min = 20,
hp_max = 20,
head_swivel = "head.control",
bone_eye_height = 6.3,
head_eye_height = 2.2,
curiosity = 10,
runaway = true,
collisionbox = {-0.3, -0.01, -0.3, 0.3, 1.94, 0.3},
visual = "mesh",
mesh = "mobs_mc_villager.b3d",
textures = {
"mobs_mc_villager.png",
"mobs_mc_villager.png", --hat
},
makes_footstep_sound = true,
walk_velocity = 1.2,
run_velocity = 2.4,
drops = {},
can_despawn = false,
-- TODO: sounds
sounds = {
random = "mobs_mc_villager",
damage = "mobs_mc_villager_hurt",
distance = 10,
},
animation = {
stand_start = 0, stand_end = 0,
walk_start = 0, walk_end = 40, walk_speed = 25,
run_start = 0, run_end = 40, run_speed = 25,
head_shake_start = 60, head_shake_end = 70, head_shake_loop = false,
head_nod_start = 50, head_nod_end = 60, head_nod_loop = false,
},
child_animations = {
stand_start = 71, stand_end = 71,
walk_start = 71, walk_end = 111, walk_speed = 37,
run_start = 71, run_end = 111, run_speed = 37,
head_shake_start = 131, head_shake_end = 141, head_shake_loop = false,
head_nod_start = 121, head_nod_end = 131, head_nod_loop = false,
},
follow = { "mcl_farming:bread", "mcl_farming:carrot_item", "mcl_farming:beetroot_item" , "mcl_farming:potato_item" },
nofollow = true,
view_range = 16,
fear_height = 4,
jump = true,
walk_chance = DEFAULT_WALK_CHANCE,
_bed = nil,
_id = nil,
_profession = "unemployed",
look_at_player = true,
pick_up = { "mcl_farming:bread", "mcl_farming:carrot_item", "mcl_farming:beetroot_item" , "mcl_farming:potato_item" },
can_open_doors = true,
on_pick_up = function(self,itementity)
local clicker
local it = ItemStack(itementity.itemstring)
for _,p in pairs(minetest.get_connected_players()) do
if vector.distance(p:get_pos(),self.object:get_pos()) < 10 then
clicker = p
end
end
if clicker and not self.horny then
self:feed_tame(clicker, 1, true, false, true)
it:take_item(1)
end
return it
end,
on_rightclick = function(self, clicker)
--minetest.log("In villager right click")
if self.child or self._profession == "unemployed" or self._profession == "nitwit" then
self.order = nil
return
end
if self.state == PATHFINDING then
self.state = "stand"
end
-- Can we remove now we possibly have fixed root cause
if self.state == "attack" then
mcl_log("Somehow villager got into an invalid attack state. Removed attack state.")
-- Need to stop villager getting in attack state. This is a workaround to allow players to fix broken villager.
self.state = "stand"
self.attack = nil
end
-- Don't do at night. Go to bed? Maybe do_activity needs it's own method
if validate_jobsite(self) and not self.order == WORK then
--self:gopath(self._jobsite,function()
-- minetest.log("sent to jobsite")
--end)
else
self.state = "stand" -- cancel gowp in case it has messed up
--self.order = nil -- cancel work if working
end
-- Initiate trading
init_trader_vars(self)
local name = clicker:get_player_name()
self._trading_players[name] = true
if self._trades == nil or self._trades == false then
--minetest.log("Trades is nil so init")
init_trades(self)
end
update_max_tradenum(self)
if self._trades == false then
--minetest.log("Trades is false. no right click op")
-- Villager has no trades, rightclick is a no-op
return
end
player_trading_with[name] = self
local inv = minetest.get_inventory({type="detached", name="mobs_mc:trade_"..name})
if not inv then
return
end
set_trade(self, clicker, inv, 1)
show_trade_formspec(name, self)
-- Behaviour stuff:
-- Make villager look at player and stand still
local selfpos = self.object:get_pos()
local clickerpos = clicker:get_pos()
local dir = vector.direction(selfpos, clickerpos)
self.object:set_yaw(minetest.dir_to_yaw(dir))
stand_still(self)
end,
_player_scan_timer = 0,
_trading_players = {}, -- list of playernames currently trading with villager (open formspec)
do_custom = function(self, dtime)
check_summon(self,dtime)
-- Stand still if player is nearby.
if not self._player_scan_timer then
self._player_scan_timer = 0
end
self._player_scan_timer = self._player_scan_timer + dtime
-- Check infrequently to keep CPU load low
if self._player_scan_timer > PLAYER_SCAN_INTERVAL then
self._player_scan_timer = 0
local selfpos = self.object:get_pos()
local objects = minetest.get_objects_inside_radius(selfpos, PLAYER_SCAN_RADIUS)
local has_player = false
for o, obj in pairs(objects) do
if obj:is_player() then
has_player = true
break
end
end
if has_player then
--minetest.log("verbose", "[mobs_mc] Player near villager found!")
stand_still(self)
else
--minetest.log("verbose", "[mobs_mc] No player near villager found!")
self.walk_chance = DEFAULT_WALK_CHANCE
self.jump = true
end
do_activity (self)
end
end,
on_spawn = function(self)
if not self._profession then
self._profession = "unemployed"
if math.random(100) == 1 then
self._profession = "nitwit"
end
end
if self._id then
set_textures(self)
return
end
self._id=minetest.sha1(minetest.get_gametime()..minetest.pos_to_string(self.object:get_pos())..tostring(math.random()))
set_textures(self)
end,
on_die = function(self, pos, cmi_cause)
-- Close open trade formspecs and give input back to players
local trading_players = self._trading_players
if trading_players then
for name, _ in pairs(trading_players) do
minetest.close_formspec(name, "mobs_mc:trade_"..name)
local player = minetest.get_player_by_name(name)
if player then
return_fields(player)
end
end
end
local bed = self._bed
if bed then
local bed_meta = minetest.get_meta(bed)
bed_meta:set_string("villager", nil)
mcl_log("Died, so bye bye bed")
end
local jobsite = self._jobsite
if jobsite then
local jobsite_meta = minetest.get_meta(jobsite)
jobsite_meta:set_string("villager", nil)
mcl_log("Died, so bye bye jobsite")
end
if cmi_cause and cmi_cause.puncher then
local l = cmi_cause.puncher:get_luaentity()
if l and math.random(2) == 1 and( l.name == "mobs_mc:zombie" or l.name == "mobs_mc:baby_zombie" or l.name == "mobs_mc:villager_zombie" or l.name == "mobs_mc:husk") then
mcl_util.replace_mob(self.object,"mobs_mc:villager_zombie")
return true
end
end
end,
on_lightning_strike = function(self, pos, pos2, objects)
mcl_util.replace_mob(self.object, "mobs_mc:witch")
return true
end,
})
--[[
Villager spawning in mcl_villages
mcl_mobs:spawn_specific(
"mobs_mc:villager",
"overworld",
"ground",
{
"FlowerForest",
"Swampland",
"Taiga",
"ExtremeHills",
"BirchForest",
"MegaSpruceTaiga",
"MegaTaiga",
"ExtremeHills+",
"Forest",
"Plains",
"ColdTaiga",
"SunflowerPlains",
"RoofedForest",
"MesaPlateauFM_grasstop",
"ExtremeHillsM",
"BirchForestM",
},
0,
minetest.LIGHT_MAX+1,
30,
2,
4,
mobs_mc.water_level+1,
mcl_vars.mg_overworld_max)
--]]
-- spawn eggs
mcl_mobs:non_spawn_specific("mobs_mc:villager","overworld", 0, minetest.LIGHT_MAX+1)
mcl_mobs.register_egg("mobs_mc:villager", S("Villager"), "#563d33", "#bc8b72", 0)