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advanced_npc/spawner.lua

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-- Advanced NPC spawner by Zorman2000
-- The advanced spawner will contain functionality to spawn NPC correctly on
-- custom places, as well as in mg_villages building.
-- This works by using a special node to spawn NPCs on either a custom building or
-- on mg_villages building.
-- mg_villages functionality:
-- The spawn node for mg_villages will be the mg_villages:plotmarker.
-- Based on this node, the following things will be performed
-- - Scan the current building, check if it is of type:
-- - House
-- - Farm
-- - Hut
-- - NOTE: All other types are unsupported as-of now
-- - If it's from any of the above types, the spawner will proceed to scan the
-- the building and find out:
-- - Number and positions of beds
-- - Number and positions of benches
-- - Number and positions of chests
-- - Position of furnaces
-- - Position of doors
-- - NOTE: Scanning will be implemented for first floors only in the first
-- version. It's expected to also include upper floors later.
-- - After that, it will store these information in the node's metadata.
-- - The spawner will analyze the information and will spawn (# of beds/2) or 1
-- NPC in that house. The NPCs will be spawned in intervals, for which the node
-- will create node timers for each NPC.
-- - When a NPC is spawned:
-- - The NPC will be given a schedule
-- - If in a farm, the NPC will have a "farmer schedule" with a 40% chance
-- - If in a house or hut, the NPC will have either a miner, woodcutter, cooker
-- or simple schedule with an equal chance each
-- - The NPC will be assigned a unique bed
-- - The NPC will know the location of one chest, one bench and one furnace
-- - A life timer for the NPC will be created (albeit a long one). Once the NPC's
-- timer is invoked, the NPC will be de-spawned (dies). The spawner should keep
-- track of these.
-- - If a NPC has died, the spawner will choose with 50% chance to spawn a new NPC.
--
-- This is the basic functionality expected for the spawner in version 1. Other things
-- such as scanning upper floors, spawning families of NPCs and creating relationships
-- among them, etc. will be for other versions.
-- Public API
npc.spawner = {}
-- Private API
local spawner = {}
-- This is the official list of support building types
-- from the mg_villages mod
npc.spawner.mg_villages_supported_building_types = {
"house",
"farm_full",
"farm_tiny",
"hut",
"lumberjack"
}
npc.spawner.replace_activated = true
npc.spawner.replacement_interval = 60
npc.spawner.spawn_delay = 10
npc.spawner.spawn_data = {
status = {
dead = 0,
alive = 1
},
age = {
adult = "adult",
child = "child"
}
}
-- Array of nodes that serve as plotmarker of a plot, and therefore
-- as auto-spawners
spawner.plotmarker_nodes = {}
-- Array of items that are used to spawn NPCs
spawner.spawn_eggs = {}
---------------------------------------------------------------------------------------
-- Scanning functions
---------------------------------------------------------------------------------------
-- This function scans a 3D area that encloses a building and tries to identify:
-- - Entrance door
-- - Beds
-- - Storage nodes (chests, etc.)
-- - Furnace nodes
-- - Sittable nodes
-- It will return a table with all information gathered
-- Playername should be provided if manual spawning
function npc.spawner.scan_area_for_spawn(start_pos, end_pos, player_name)
local result = {
building_type = "",
plot_info = {},
entrance = {},
node_data = {},
npcs = {},
npc_stats = {}
}
-- Set building_type
result.building_type = "custom"
-- Get min pos and max pos
local minp, maxp = vector.sort(start_pos, end_pos)
-- Set plot info
result.plot_info = {
-- TODO: Check this and see if it is accurate!
xsize = maxp.x - minp.x,
ysize = maxp.y - minp.y,
zsize = maxp.z - minp.z,
start_pos = start_pos,
end_pos = end_pos
}
-- Scan building nodes
-- Scan building for nodes
local usable_nodes = npc.places.scan_area_for_usable_nodes(start_pos, end_pos)
-- Get all doors
local doors = usable_nodes.openable_type
-- Find entrance node - this is very tricky when no outside position
-- is given. So to this end, three things will happen:
-- - First, we will check for plotmarker nodes. A plotmarker node should
-- be set at the left of the front door of the building. If this node is
-- found, it will assume it is at that location and use it.
-- - Second, we are going to search for an entrance marker. The entrance marker
-- will be directly in the posiition of the entrance node, so no search
-- is needed.
-- - Third, will assume that the start_pos is always at the left side of
-- the front of the building, where the entrance is
local outside_pos = start_pos
-- Check if there is a plotmarker or spawner node
local candidate_nodes = minetest.find_nodes_in_area_under_air(start_pos, end_pos,
{"mg_villages:plotmarker", "advanced_npc:auto_spawner"})
if table.getn(candidate_nodes) > 0 then
-- Found plotmarker, use it as outside_pos. Ideally should be only one
outside_pos = candidate_nodes[1]
elseif npc.spawner_marker and player_name then
-- Get entrance from spawner marker1
if npc.spawner_marker.entrance_markers[player_name] then
outside_pos = npc.spawner_marker.entrance_markers[player_name]
end
end
-- Try to find entrance
local entrance = npc.places.find_entrance_from_openable_nodes(doors, outside_pos)
if entrance then
npc.log("INFO", "Found building entrance at: "..minetest.pos_to_string(entrance.node_pos))
-- Set building entrance
result.entrance = entrance
else
npc.log("ERROR", "Unable to find building entrance!")
end
-- Set node_data
result.node_data = usable_nodes
-- Initialize NPC stats
-- Initialize NPC stats
local npc_stats = {
male = {
total = 0,
adult = 0,
child = 0
},
female = {
total = 0,
adult = 0,
child = 0
},
adult_total = 0,
child_total = 0
}
result.npc_stats = npc_stats
return result
end
---------------------------------------------------------------------------------------
-- Spawning functions
---------------------------------------------------------------------------------------
-- This function attempts to determine an occupation for an NPC given:
-- - The local building type (building NPC is spawning)
-- - The surrounding workplaces' building types
-- - The NPCs in the local building
-- Lo and behold! In this function lies a code monster, smelly, incomprehensible..
function npc.spawner.determine_npc_occupation(building_type, workplace_nodes, npcs)
local surrounding_buildings_map = {}
local current_building_map = {}
local current_building_npc_occupations = {}
local result = {}
-- Get all occupation names in the current building
for i = 1, #npcs do
if not npc.utils.array_contains(current_building_npc_occupations, npcs[i].occupation) then
table.insert(current_building_npc_occupations, npcs[i].occupations)
end
end
-- Classify workplaces into local and surrounding
for i = 1, #workplace_nodes do
local workplace = workplace_nodes[i]
if workplace.surrounding_workplace == true then
table.insert(surrounding_buildings_map,
{type=workplace.building_type, origin_building_type=building_type})
else
current_building_map[workplace.building_type] = workplace
end
end
-- Get occupation names for the buildings
local occupation_names = npc.occupations.get_for_building(
building_type,
surrounding_buildings_map
)
--npc.log("DEBUG", "Found occupations: "..dump(occupation_names).."\nfor local building type: "
--..dump(building_type).."\nAnd surrounding building types: "..dump(surrounding_buildings_map))
-- Insert default occupation into result
table.insert(result, {name=npc.occupations.basic_name, node={node_pos={}}})
---------------------------------------------------------------------------------------
-- Determine occupation
---------------------------------------------------------------------------------------
-- First of all, iterate through all names, discard the default basic occupation.
-- Next, check if no-one in this builiding has this occupation name.
-- Next, check if the workplace node has no data assigned to it.
-- Finally, if not, return an table with the occupation name, and the selected
-- workplace node.
-- Note: Much more can be done here. This is a simplistic implementation,
-- given this is already complicated enough. For example, existing NPCs' occupation
-- can play a much more important role, not only taken in consideration for discarding.
-- Beware: Incomprehensible code lies ahead
for i = 1, #occupation_names do
-- Check if this occupation name is the default occupation, and if it is, continue
if occupation_names[i] ~= npc.occupations.basic_name then
-- Check if someone already works on this
if npc.utils.array_contains(current_building_npc_occupations, occupation_names[i]) == false then
-- Check if someone else already has this occupation at the same workplace
for j = 1, #workplace_nodes do
-- Get building types from occupation
local local_building_types =
npc.occupations.registered_occupations[occupation_names[i]].building_types or {}
local surrounding_building_types =
npc.occupations.registered_occupations[occupation_names[i]].surrounding_building_types or {}
-- Attempt to match the occupation definition's local and surrounding types
-- to the workplace node's building type.
local local_building_match = false
local surrounding_building_match = false
-- Check if there is building_type match between the def's local
-- building_types and the current workplace node's building_type
if #local_building_types > 0 then
local_building_match =
npc.utils.array_contains(local_building_types, workplace_nodes[j].building_type)
end
-- Check if there is building_type match between the def's surrounding
-- building_types and the current workplace node's building_type
if #surrounding_building_types > 0 then
for k = 1, #surrounding_building_types do
if surrounding_building_types[k].type == workplace_nodes[j].building_type then
surrounding_building_match = true
break
end
end
end
-- Check if there was a match
if local_building_match == true or surrounding_building_match == true then
-- Match found, attempt to map this workplace node to the
-- current occupation. How? Well, if the workplace isn't being
-- used by another NPC, then, use it
local meta = minetest.get_meta(workplace_nodes[j].node_pos)
local worker_data = minetest.deserialize(meta:get_string("work_data") or "")
--npc.log("DEBUG", "Found worker data: "..dump(worker_data))
-- If no worker data is found, then create it
if not worker_data then
--npc.log("INFO", "Found suitable occupation and workplace: "..dump(result))
table.insert(result, {name=occupation_names[i], node=workplace_nodes[j]})
end
end
end
end
end
end
-- Determine result. Choose profession, how to do it?
-- First, check previous NPCs' occupation.
-- - If there is a NPC working at something, check the NPC count.
-- - If count is less than three (only two NPCs), default_basic occupation.
-- - If count is greater than two, assign any eligible occupation with 50% chance
-- - If not NPC is working, choose an occupation that is not default_basic
if #current_building_npc_occupations > 0 then
for i = 1, #current_building_npc_occupations do
if current_building_npc_occupations[i] ~= npc.occupations.basic_name then
if #current_building_npc_occupations < 3 then
-- Choose basic default occupation
return result[1]
elseif #current_building_npc_occupations > 2 then
-- Choose any occupation
return result[math.random(1, #result)]
end
end
end
else
-- Check how many occupation names we have
if #result == 1 then
-- Choose basic default occupation
return result[1]
else
-- Choose an occupation with equal chance each
return result[math.random(2, #result)]
end
end
-- By default, if nothing else works, return basic default occupation
return result[1]
end
-- This function is called when the node timer for spawning NPC
-- is expired. Can be called manually by supplying either:
-- - Position of mg_villages plotmarker, or,
-- - position of custom building spawner
-- Prerequisite for calling this function is:
-- - In case of mg_villages, spawner.adapt_mg_villages_plotmarker(), or,
-- - in case of custom buildings, npc.spawner.scan_area_for_spawn()
function npc.spawner.spawn_npc_on_plotmarker(pos)
-- Get timer
local timer = minetest.get_node_timer(pos)
-- Get metadata
local meta = minetest.get_meta(pos)
-- Get current NPC info
local area_info = {}
area_info["npcs"] = minetest.deserialize(meta:get_string("npcs"))
-- Get NPC stats
area_info["npc_stats"] = minetest.deserialize(meta:get_string("npc_stats"))
-- Get node data
area_info["entrance"] = minetest.deserialize(meta:get_string("entrance"))
area_info["node_data"] = minetest.deserialize(meta:get_string("node_data"))
-- Check amount of NPCs that should be spawned
area_info["npc_count"] = meta:get_int("npc_count")
area_info["spawned_npc_count"] = meta:get_int("spawned_npc_count")
-- Determine occupation
area_info["building_type"] = meta:get_string("building_type")
local nearby_plotmarkers = minetest.deserialize(meta:get_string("nearby_plotmarkers"))
--minetest.log("BEFORE Workplace nodes: "..dump(area_info.node_data.workplace_type))
local occupation_data = npc.spawner.determine_npc_occupation(
area_info.building_type,
area_info.node_data.workplace_type,
area_info.npcs)
--minetest.log("AFTER Workplace nodes: "..dump(area_info.node_data.workplace_type))
-- Assign workplace node
if occupation_data then
for i = 1, #area_info.node_data.workplace_type do
if area_info.node_data.workplace_type[i].node_pos == occupation_data.node.node_pos then
-- Found node, mark it as being used by NPC
area_info.node_data.workplace_type[i]["occupation"] = occupation_data.name
end
end
end
-- Spawn NPC
local metadata = npc.spawner.spawn_npc(pos, area_info, occupation_data.name, occupation_data.node.node_pos)
-- Set all metadata back into the node
-- Increase NPC spawned count
area_info.spawned_npc_count = metadata.spawned_npc_count + 1
-- Store count into node
meta:set_int("spawned_npc_count", area_info.spawned_npc_count)
-- Store spawned NPC info
meta:set_string("npcs", minetest.serialize(metadata.npcs))
-- Store NPC stats
meta:set_string("npc_stats", minetest.serialize(metadata.npc_stats))
-- Check if there are more NPCs to spawn
if area_info.spawned_npc_count >= area_info.npc_count then
-- Stop timer
npc.log("INFO", "No more NPCs to spawn at this location")
timer:stop()
else
-- Start another timer to spawn more NPC
local new_delay = math.random(npc.spawner.spawn_delay)
--npc.log("INFO", "Spawning one more NPC in "..dump(npc.spawner.spawn_delay).."s")
timer:start(new_delay)
end
end
-- This function spawns a NPC into the given pos.
-- If area_info is given, updated area_info is returned at end
function npc.spawner.spawn_npc(pos, area_info, occupation_name, occupation_workplace_pos)
-- Get current NPC info
local npc_table = area_info.npcs
-- Get NPC stats
local npc_stats = area_info.npc_stats
-- Get building entrance
local entrance = area_info.entrance
-- Get node data
local node_data = area_info.node_data
-- Check amount of NPCs that should be spawned
local npc_count = area_info.npc_count
local spawned_npc_count = area_info.spawned_npc_count
-- Check if we actually have these variables - if we don't, it is because
-- this is a manually spawned NPC
local can_spawn = false
if npc_count and spawned_npc_count then
--npc.log("INFO", "Currently spawned "..dump(spawned_npc_count).." of "..dump(npc_count).." NPCs")
if spawned_npc_count < npc_count then
can_spawn = true
end
else
-- Manually spawned
can_spawn = true
end
if can_spawn then
npc.log("INFO", "Spawning NPC at "..minetest.pos_to_string(pos))
-- Spawn a NPC
local ent = minetest.add_entity({x=pos.x, y=pos.y+1, z=pos.z}, "advanced_npc:npc")
if ent and ent:get_luaentity() then
ent:get_luaentity().initialized = false
-- Determine NPC occupation - use given or default
local occupation = occupation_name or "default_basic"
-- Initialize NPC
-- Call with stats if there are NPCs
if npc_table and #npc_table > 0 then
npc.initialize(ent, pos, false, npc_stats, occupation)
else
npc.initialize(ent, pos, nil, nil, occupation)
end
-- If node_data is present, assign nodes
--minetest.log("Node data: "..dump(node_data))
if node_data then
npc.spawner.assign_places(ent:get_luaentity(), entrance, node_data, pos)
end
-- Store spawned NPC data and stats into node
local age = npc.age.adult
if ent:get_luaentity().child then
age = npc.age.child
end
local entry = {
status = npc.spawner.spawn_data.status.alive,
name = ent:get_luaentity().name,
id = ent:get_luaentity().npc_id,
sex = ent:get_luaentity().sex,
age = age,
occupation = occupation,
workplace = occupation_workplace_pos,
born_day = minetest.get_day_count()
}
--minetest.log("Area info: "..dump(area_info))
table.insert(area_info.npcs, entry)
-- Update and store stats
-- Increase total of NPCs for specific sex
npc_stats[ent:get_luaentity().sex].total =
npc_stats[ent:get_luaentity().sex].total + 1
-- Increase total number of NPCs by age
npc_stats[age.."_total"] = npc_stats[age.."_total"] + 1
-- Increase number of NPCs by age and sex
npc_stats[ent:get_luaentity().sex][age] =
npc_stats[ent:get_luaentity().sex][age] + 1
area_info.npc_stats = npc_stats
-- Return
npc.log("INFO", "Spawning successful!")
return area_info
else
npc.log("ERROR", "Spawning failed!")
ent:remove()
return false
end
end
end
-- This function will assign places to every NPC that belongs to a specific
-- house/building. It will use the resources of the building and give them
-- until there's no more. Call this function after NPCs are initialized
-- The basic assumption:
-- - Tell the NPC where the furnaces are
-- - Assign a unique bed to the NPC
-- - If there are as many chests as beds, assign one to a NPC
-- - Else, just let the NPC know one of the chests, but not to be owned
-- - If there are as many benches as beds, assign one to a NPC
-- - Else, just let the NPC know one of the benches, but not own them
-- - Let the NPC know all doors to the house. Identify the front one as the entrance
-- Self is the NPC lua entity object, pos is the position of the NPC spawner.
-- Prerequisite for using this function is to have called either
-- - In case of mg_villages, spawner.adapt_mg_villages_plotmarker(), or,
-- - in case of custom buildings, npc.spawner.scan_area_for_spawn()
-- Both function set the required metadata for this function
-- For mg_villages, this will be the position of the plotmarker node.
function npc.spawner.assign_places(self, entrance, node_data, pos)
-- Assign plotmarker if position given
if pos then
npc.places.add_shared(self, npc.places.PLACE_TYPE.OTHER.HOME_PLOTMARKER,
npc.places.PLACE_TYPE.OTHER.HOME_PLOTMARKER, pos)
end
-- Assign entrance door and related locations
if entrance ~= nil and entrance.node_pos ~= nil then
npc.places.add_shared(self, npc.places.PLACE_TYPE.OPENABLE.HOME_ENTRANCE_DOOR, npc.places.PLACE_TYPE.OPENABLE.HOME_ENTRANCE_DOOR, entrance.node_pos)
-- Find the position inside and outside the door
local entrance_inside, entrance_outside = npc.places.find_node_in_front_and_behind_door(entrance.node_pos)
--local entrance_inside = npc.places.find_node_behind_door(entrance.node_pos)
--local entrance_outside = npc.places.find_node_in_front_of_door(entrance.node_pos)
-- Assign these places to NPC
npc.places.add_shared(self, npc.places.PLACE_TYPE.OTHER.HOME_INSIDE, npc.places.PLACE_TYPE.OTHER.HOME_INSIDE, entrance_inside)
npc.places.add_shared(self, npc.places.PLACE_TYPE.OTHER.HOME_OUTSIDE, npc.places.PLACE_TYPE.OTHER.HOME_OUTSIDE, entrance_outside)
end
-- Assign beds
if #node_data.bed_type > 0 then
-- Assign a specific bed node to a NPC.
npc.places.add_owned_accessible_place(self, node_data.bed_type,
npc.places.PLACE_TYPE.BED.PRIMARY)
-- Store changes to node_data
--meta:set_string("node_data", minetest.serialize(node_data))
end
-- Assign sits
if #node_data.sittable_type > 0 then
-- Check if there are same or more amount of sits as beds
if #node_data.sittable_type >= #node_data.bed_type then
-- Assign a specific sittable node to a NPC.
npc.places.add_owned_accessible_place(self, node_data.sittable_type,
npc.places.PLACE_TYPE.SITTABLE.PRIMARY)
-- Store changes to node_data
--meta:set_string("node_data", minetest.serialize(node_data))
end
-- Add all sits to places as shared since NPC should be able to sit
-- at any accessible sit
npc.places.add_shared_accessible_place(self, node_data.sittable_type,
npc.places.PLACE_TYPE.SITTABLE.SHARED)
end
-- Assign furnaces
if #node_data.furnace_type > 0 then
-- Check if there are same or more amount of furnace as beds
if #node_data.furnace_type >= #node_data.bed_type then
-- Assign a specific furnace node to a NPC.
npc.places.add_owned_accessible_place(self, node_data.furnace_type,
npc.places.PLACE_TYPE.FURNACE.PRIMARY)
-- Store changes to node_data
--meta:set_string("node_data", minetest.serialize(node_data))
end
-- Add all furnaces to places as shared since NPC should be able to use
-- any accessible furnace
npc.places.add_shared_accessible_place(self, node_data.furnace_type,
npc.places.PLACE_TYPE.FURNACE.SHARED)
end
-- Assign storage nodes
if #node_data.storage_type > 0 then
-- Check if there are same or more amount of storage as beds
if #node_data.storage_type >= #node_data.bed_type then
-- Assign a specific storage node to a NPC.
npc.places.add_owned_accessible_place(self, node_data.storage_type,
npc.places.PLACE_TYPE.STORAGE.PRIMARY)
-- Store changes to node_data
--meta:set_string("node_data", minetest.serialize(node_data))
end
-- Add all storage-types to places as shared since NPC should be able
-- to use other storaage nodes as well.
npc.places.add_shared_accessible_place(self, node_data.storage_type,
npc.places.PLACE_TYPE.STORAGE.SHARED)
end
-- Assign workplace nodes
-- Beware: More incomprehensibe code lies ahead!
if #node_data.workplace_type > 0 then
-- First, find the workplace_node that was marked
for i = 1, #node_data.workplace_type do
--minetest.log("In assign places: workplace nodes: "..dump(node_data.workplace_type))
--minetest.log("Condition? "..dump(node_data.workplace_type[i].occupation
-- and node_data.workplace_type[i].occupation == self.occupation_name))
if node_data.workplace_type[i].occupation
and node_data.workplace_type[i].occupation == self.occupation_name then
-- Walkable nodes from occupation
local walkables = npc.occupations.registered_occupations[self.occupation_name].walkable_nodes
-- Found the node. Assign only this node to the NPC.
npc.places.add_shared_accessible_place(self, {node_data.workplace_type[i]},
npc.places.PLACE_TYPE.WORKPLACE.PRIMARY, false, walkables)
-- Edit metadata of this workplace node to not allow it for other NPCs
local meta = minetest.get_meta(node_data.workplace_type[i].node_pos)
local work_data = {
npc_name = self.npc_name,
occupation = self.occupation_name,
multiple_npcs =
npc.occupations.registered_occupations[self.occupation_name].allow_multiple_npcs_at_workplace
}
meta:set_string("work_data", minetest.serialize(work_data))
end
end
end
--npc.log("DEBUG", "Places for NPC "..self.npc_name..": "..dump(self.places_map))
-- Make NPC go into their house
-- If entrance is available let NPC
if entrance then
npc.add_task(self,
npc.actions.cmd.WALK_TO_POS,
{end_pos=npc.places.PLACE_TYPE.OTHER.HOME_INSIDE,
walkable={}})
npc.add_action(self, npc.actions.cmd.FREEZE, {freeze = false})
end
return node_data
end
-- This function takes care of calculating how many NPCs will be spawn
-- Prerequisite for calling this function is:
-- - In case of mg_villages, spawner.adapt_mg_villages_plotmarker(), or,
-- - in case of custom buildings, npc.spawner.scan_area_for_spawn()
function npc.spawner.calculate_npc_spawning_on_plotmarker(pos)
-- Check node metadata
local meta = minetest.get_meta(pos)
if meta:get_string("replaced") ~= "true" then
return
end
-- Get nodes for this building
local node_data = minetest.deserialize(meta:get_string("node_data"))
if node_data == nil then
npc.log("ERROR", "Mis-configured spawner at position: "..minetest.pos_to_string(pos))
return
end
-- Check number of beds
local beds_count = #node_data.bed_type--#spawner.filter_first_floor_nodes(node_data.bed_type, pos)
--npc.log("DEBUG", "Found "..dump(beds_count).." beds in the building at "..minetest.pos_to_string(pos))
local npc_count = 0
-- If number of beds is zero or beds/2 is less than one, spawn
-- a single NPC.
if beds_count == 0 or (beds_count > 0 and beds_count / 2 < 1) then
-- Spawn a single NPC
npc_count = 1
else
-- Spawn (beds_count/2) NPCs
npc_count = ((beds_count / 2) - ((beds_count / 2) % 1))
end
--npc.log("INFO", "Will spawn "..dump(npc_count).." NPCs at "..minetest.pos_to_string(pos))
-- Store amount of NPCs to spawn
meta:set_int("npc_count", npc_count)
-- Store amount of NPCs spawned
meta:set_int("spawned_npc_count", 0)
-- Start timer
local timer = minetest.get_node_timer(pos)
local delay = math.random(npc.spawner.spawn_delay)
timer:start(delay)
end
---------------------------------------------------------------------------------------
-- Spawner nodes and items
---------------------------------------------------------------------------------------
-- The following are included:
-- - Auto-spawner: Basically a custom mg_villages:plotmarker that can be used
-- for custom buildings
-- - Manual spawner: This custom spawn item (egg) will show a formspec when used.
-- The formspec will allow the player to set the name of the NPC, the occupation
-- and the plot, entrance and workplace of the NPC. All of these are optional
-- and default values will be chosen whenever no input is provided.
-- This map holds the spawning position chosen by a player at a given time.
spawner.spawn_pos = {}
-- Spawn egg (WIP)
-- Use for manually spawning NPCs. Up to now, supports local occupations only.
minetest.register_craftitem("advanced_npc:spawn_egg", {
description = "NPC Spawner",
inventory_image = "mobs_chicken_egg.png^(default_brick.png^[mask:mobs_chicken_egg_overlay.png)",
on_place = function(itemstack, user, pointed_thing)
-- Store spawn pos
spawner.spawn_pos[user:get_player_name()] = pointed_thing.above
local occupation_names = npc.utils.get_map_keys(npc.occupations.registered_occupations)
local building_dropdown_string = "dropdown[0.5,0.75;6;building_type;"
for i = 1, #npc.spawner.mg_villages_supported_building_types do
building_dropdown_string = building_dropdown_string
..npc.spawner.mg_villages_supported_building_types[i]..","
end
building_dropdown_string = building_dropdown_string..";1]"
-- Generate occupation dropdown
local occupation_dropdown_string = "dropdown[0.5,1.95;6;occupation_name;"
for i = 1, #occupation_names do
occupation_dropdown_string = occupation_dropdown_string..occupation_names[i]..","
end
occupation_dropdown_string = occupation_dropdown_string..";1]"
local formspec = "size[7,7]"..
"label[0.1,0.25;Building type]"..
building_dropdown_string..
"label[0.1,1.45;Occupation]"..
occupation_dropdown_string..
"field[0.5,3;3,2;radius;Search radius;20]"..
"field[3.5,3;3,2;height;Search height;2]"..
"button_exit[2.25,6.25;2.5,0.75;exit;Spawn]"
minetest.show_formspec(user:get_player_name(), "advanced_npc:spawn_egg_main", formspec)
end
})
-- This map holds the name of the player and the position of the workplace that
-- he/she placed
spawner.workplace_pos = {}
-- Manual workplace marker (WIP)
-- Put this where a workplace for a NPC is. For example: in a cotton field,
-- inside a church, etc.
minetest.register_node("advanced_npc:workplace_marker", {
description = "NPC Workplace Marker",
tiles = {"default_stone.png"},
paramtype = "light",
paramtype2 = "facedir",
drawtype = "nodebox",
node_box = {
type = "fixed",
fixed = {
{-0.5+2/16, -0.5, -0.5+2/16, 0.5-2/16, -0.5+3/16, 0.5-2/16},
},
},
groups = {cracky=1},
after_place_node = function(pos, placer, itemstack, pointed_thing)
local meta = minetest.get_meta(pos)
meta:set_string("infotext", "Unconfigured workplace marker")
end,
on_rightclick = function(pos, node, clicker, itemstack, pointed_thing)
-- Read current value
local meta = minetest.get_meta(pos)
local building_type = meta:get_string("building_type") or ""
local surrounding_workplace = meta:get_string("surrounding_workplace")
-- Consider changing the field for a dropdown
local formspec = "size[7,4]"..
"label[0.1,0.25;Building type]"..
"field[0.5,1;6.5,2;text;(farm_tiny, farm_full, house, church, etc.);"..building_type.."]"..
"checkbox[0.5,2.25;is_surrounding;Is surrounding building;"
..surrounding_workplace.."]"..
"button_exit[0.95,3.25;2.5,0.75;exit_btn;Proceed]"..
"button_exit[3.5,3.25;2.5,0.75;reset_btn;Reset]"
spawner.workplace_pos[clicker:get_player_name()] = pos
minetest.show_formspec(clicker:get_player_name(), "advanced_npc:workplace_marker_formspec", formspec)
end,
})
-- Handle formspecs
minetest.register_on_player_receive_fields(function(player, formname, fields)
if formname then
-- Handle spawn egg formspec
if formname == "advanced_npc:spawn_egg_main" then
if fields then
-- Handle exit (spawn) button
if fields.exit then
local pos = spawner.spawn_pos[player:get_player_name()]
local radius = 20
local y_adj = 2
-- Set radius if present
if fields.radius then
radius = tonumber(fields.radius)
end
-- Set y adjustment if present
if fields.height then
y_adj = tonumber(fields.height)
end
-- Calculate positions
local start_pos = {x=pos.x-radius, y=pos.y-y_adj, z=pos.z-radius }
local end_pos = {x=pos.x+radius, y=pos.y+y_adj, z=pos.z+radius }
-- Scan for usable nodes
local area_info = npc.spawner.scan_area_for_spawn(start_pos, end_pos, player:get_player_name())
-- Assign occupation
local occupation_data = npc.spawner.determine_npc_occupation(
fields.building_type or area_info.building_type,
area_info.node_data.workplace_type,
area_info.npcs)
-- Assign workplace node
if occupation_data then
for i = 1, #area_info.node_data.workplace_type do
if area_info.node_data.workplace_type[i].node_pos == occupation_data.node.node_pos then
-- Found node, mark it as being used by NPC
area_info.node_data.workplace_type[i]["occupation"] = occupation_data.name
end
end
end
-- Spawn NPC
local metadata = npc.spawner.spawn_npc(pos, area_info, fields.occupation_name)
end
end
end
-- Handle workplace marker formspec
if formname == "advanced_npc:workplace_marker_formspec" then
if fields then
local pos = spawner.workplace_pos[player:get_player_name()]
local meta = minetest.get_meta(pos)
-- Checkbox setting
if fields.is_surrounding then
--minetest.log("Saving.. "..fields.is_surrounding)
meta:set_string("surrounding_workplace", ""..fields.is_surrounding.."")
end
-- Handle reset button
if fields.reset_btn then
meta:set_string("building_type", "")
meta:set_string("surrounding_workplace", false)
meta:set_string("infotext", "Unconfigured workplace marker")
meta:set_string("work_data", nil)
return
end
-- Handle set button
if (pos and fields.text and fields.exit_btn)
or (fields.key_enter_field and fields.key_enter_field == "building_type") then
local meta = minetest.get_meta(pos)
meta:set_string("building_type", fields.text)
meta:set_string("infotext", fields.text.." (workplace)")
end
end
end
end
end)
---------------------------------------------------------------------------------------
-- Support code for mg_villages mods
---------------------------------------------------------------------------------------
if minetest.get_modpath("mg_villages") ~= nil then
-- This function creates a table of the scannable nodes inside
-- a mg_villages building. It needs the plotmarker position for a start
-- point and the building_data to get the x, y and z-coordinate size
-- of the building schematic
function spawner.scan_mg_villages_building(pos, building_data)
-- Get area of the building
local x_size = building_data.bsizex
local y_size = building_data.ysize
local z_size = building_data.bsizez
local brotate = building_data.brotate
local start_pos = {x=pos.x, y=pos.y, z=pos.z}
local x_sign, z_sign = 1, 1
-- Check plot direction
-- NOTE: Below values may be wrong, very wrong!
-- 0 - facing West, -X
-- 1 - facing North, +Z
-- 2 - facing East, +X
-- 3 - facing South -Z
if brotate == 0 then
x_sign, z_sign = 1, -1
elseif brotate == 1 then
x_sign, z_sign = -1, -1
local temp = z_size
z_size = x_size
x_size = temp
elseif brotate == 2 then
x_sign, z_sign = -1, 1
elseif brotate == 3 then
x_sign, z_sign = 1, 1
end
------------------------
-- For debug:
------------------------
-- Red is x marker
--minetest.set_node({x=pos.x + (x_sign * x_size),y=pos.y,z=pos.z}, {name = "wool:red"})
--minetest.get_meta({x=pos.x + (x_sign * x_size),y=pos.y,z=pos.z}):set_string("infotext", minetest.get_meta(pos):get_string("infotext")..", Axis: x, Sign: "..dump(x_sign))
-- Blue is z marker
--minetest.set_node({x=pos.x,y=pos.y,z=pos.z + (z_sign * z_size)}, {name = "wool:blue"})
--minetest.get_meta({x=pos.x,y=pos.y,z=pos.z + (z_sign * z_size)}):set_string("infotext", minetest.get_meta(pos):get_string("infotext")..", Axis: z, Sign: "..dump(z_sign))
--npc.log("DEBUG", "Start pos: "..minetest.pos_to_string(start_pos))
--npc.log("DEBUG", "Plot: "..dump(minetest.get_meta(start_pos):get_string("infotext")))
--npc.log("DEBUG", "Brotate: "..dump(brotate))
--npc.log("DEBUG", "X_sign: "..dump(x_sign))
--npc.log("DEBUG", "X_adj: "..dump(x_sign*x_size))
--npc.log("DEBUG", "Z_sign: "..dump(z_sign))
--npc.log("DEBUG", "Z_adj: "..dump(z_sign*z_size))
local end_pos = {x=pos.x + (x_sign * x_size), y=pos.y + y_size, z=pos.z + (z_sign * z_size)}
-- For debug:
--minetest.set_node(start_pos, {name="default:mese_block"})
--minetest.set_node(end_pos, {name="default:mese_block"})
--minetest.get_meta(end_pos):set_string("infotext", minetest.get_meta(start_pos):get_string("infotext"))
npc.log("DEBUG", "Calculated end pos: "..minetest.pos_to_string(end_pos))
return npc.places.scan_area_for_usable_nodes(start_pos, end_pos)
end
-- This function "adapts" an existent mg_villages:plotmarker for NPC spawning.
-- The existing metadata will be kept, to allow compatibility. A new formspec
-- will appear on right-click, however it will as well allow to buy or manage
-- the plot. Also, the building is scanned for NPC-usable nodes and the amount
-- of NPCs to spawn and the interval is calculated.
function spawner.adapt_mg_villages_plotmarker(pos)
-- Get the meta at the current position
local meta = minetest.get_meta(pos)
local village_id = meta:get_string("village_id")
local plot_nr = meta:get_int("plot_nr")
local infotext = meta:get_string("infotext")
-- Check for nil values above
if (not village_id or (village_id and village_id == ""))
or (not plot_nr or (plot_nr and plot_nr == 0)) then
return
end
local all_data = npc.places.get_mg_villages_building_data(pos)
local building_data = all_data.building_data
local building_type = all_data.building_type
local building_pos_data = all_data.building_pos_dataS
--minetest.log("Found building data: "..dump(building_data))
-- Check if the building is of the support types
for _,value in pairs(npc.spawner.mg_villages_supported_building_types) do
if building_type == value then
npc.log("INFO", "Replacing mg_villages:plotmarker at "..minetest.pos_to_string(pos))
-- Store plotmarker metadata again
meta:set_string("village_id", village_id)
meta:set_int("plot_nr", plot_nr)
meta:set_string("infotext", infotext)
-- Store building type in metadata
meta:set_string("building_type", building_type)
-- Store plot information
local plot_info = mg_villages.all_villages[village_id].to_add_data.bpos[plot_nr]
plot_info["ysize"] = building_data.ysize
-- minetest.log("Plot info at replacement time: "..dump(plot_info))
meta:set_string("plot_info", minetest.serialize(plot_info))
-- Scan building for nodes
local nodedata = spawner.scan_mg_villages_building(pos, plot_info)
-- Find building entrance
local doors = nodedata.openable_type
--minetest.log("Found "..dump(#doors).." openable nodes")
local entrance = npc.places.find_entrance_from_openable_nodes(doors, pos)
if entrance then
npc.log("INFO", "Found building entrance at: "..minetest.pos_to_string(entrance.node_pos))
else
npc.log("ERROR", "Unable to find building entrance!")
end
-- Store building entrance
meta:set_string("entrance", minetest.serialize(entrance))
-- Store nodedata into the spawner's metadata
meta:set_string("node_data", minetest.serialize(nodedata))
-- Find nearby plotmarkers, excluding current plotmarker
local nearby_plotmarkers = npc.places.find_plotmarkers(pos, 35, true)
--minetest.log("Found nearby plotmarkers: "..dump(nearby_plotmarkers))
meta:set_string("nearby_plotmarkers", minetest.serialize(nearby_plotmarkers))
-- Check if building position data is also available (recent mg_villages)
if building_pos_data then
meta:set_string("building_pos_data", minetest.serialize(building_pos_data))
end
-- Initialize NPCs
local npcs = {}
meta:set_string("npcs", minetest.serialize(npcs))
-- Initialize NPC stats
local npc_stats = {
male = {
total = 0,
adult = 0,
child = 0
},
female = {
total = 0,
adult = 0,
child = 0
},
adult_total = 0,
child_total = 0
}
meta:set_string("npc_stats", minetest.serialize(npc_stats))
-- Set replaced
meta:set_string("replaced", "true")
-- Calculate how many NPCs will spawn
npc.spawner.calculate_npc_spawning_on_plotmarker(pos)
-- Stop searching for building type
break
end
end
end
-- Node registration
-- This node is currently a slightly modified mg_villages:plotmarker
minetest.override_item("mg_villages:plotmarker", {
walkable = false,
groups = {cracky=3,stone=2},
-- TODO: Change formspec to a more detailed one.
on_rightclick = function(pos, node, clicker, itemstack, pointed_thing)
return mg_villages.plotmarker_formspec( pos, nil, {}, clicker )
end,
on_timer = function(pos, elapsed)
-- Adds timer support
npc.spawner.spawn_npc_on_plotmarker(pos)
end,
})
-- ABM Registration
-- Consider changing this to be on nodetimer
minetest.register_abm({
label = "Replace mg_villages:plotmarker with Advanced NPC auto spawners",
nodenames = {"mg_villages:plotmarker"},
interval = 10,--npc.spawner.replacement_interval,
chance = 1,--5,
catch_up = true,
action = function(pos, node, active_object_count, active_object_count_wider)
-- Check if replacement is needed
local meta = minetest.get_meta(pos)
if minetest.get_meta(pos):get_string("replaced") == "true" then
return
end
-- Check if replacement is activated
if npc.spawner.replace_activated then
-- Replace mg_villages:plotmarker
spawner.adapt_mg_villages_plotmarker(pos)
end
end
})
end
-- Chat commands to manage spawners
minetest.register_chatcommand("restore_plotmarkers", {
description = "Replaces all advanced_npc:plotmarker_auto_spawner with mg_villages:plotmarker in the specified radius.",
privs = {server=true},
func = function(name, param)
-- Check if radius is null
if param == nil and type(param) ~= "number" then
minetest.chat_send_player(name, "Need to enter a radius as an integer number. Ex. /restore_plotmarkers 10 for a radius of 10")
return
end
-- Get player position
local pos = {}
for _,player in pairs(minetest.get_connected_players()) do
if player:get_player_name() == name then
pos = player:get_pos()
break
end
end
-- Search for nodes
local radius = tonumber(param)
local start_pos = {x=pos.x - radius, y=pos.y - 5, z=pos.z - radius}
local end_pos = {x=pos.x + radius, y=pos.y + 5, z=pos.z + radius}
local nodes = minetest.find_nodes_in_area_under_air(start_pos, end_pos,
{"mg_villages:plotmarker"})
-- Check if we have nodes to replace
minetest.chat_send_player(name, "Found "..dump(#nodes).." nodes to replace...")
if #nodes == 0 then
return
end
-- Replace all nodes
for i = 1, #nodes do
local meta = minetest.get_meta(nodes[i])
local village_id = meta:get_string("village_id")
local plot_nr = meta:get_int("plot_nr")
local infotext = meta:get_string("infotext")
local npcs = minetest.deserialize(meta:get_string("npcs"))
-- Restore workplaces to original status
if npcs then
for i = 1, #npcs do
if npcs[i].workplace then
-- Remove work data
local workplace_meta = minetest.get_meta(npcs[i].workplace)
workplace_meta:set_string("work_data", nil)
end
end
end
-- Set metadata
meta = minetest.get_meta(nodes[i])
meta:set_string("village_id", village_id)
meta:set_int("plot_nr", plot_nr)
meta:set_string("infotext", infotext)
-- Clear NPC stats, NPC data and node data
-- Clear node_data metadata
local node_data = minetest.deserialize(meta:get_string("node_data"))
npc.places.clear_metadata_usable_nodes_in_area(node_data)
meta:set_string("node_data", nil)
meta:set_string("npcs", nil)
meta:set_string("npc_stats", nil)
meta:set_string("replaced", "false")
end
minetest.chat_send_player(name, "Finished replacement of "..dump(#nodes).." auto-spawners successfully")
end
})
minetest.register_chatcommand("restore_area", {
description = "",
privs = {server = true},
func = function(name, param)
local args = npc.utils.split(param, " ")
--minetest.log("Params: "..dump(args))
if #args < 2 then
minetest.chat_send_player("Please specify horizontal and vertical radius.")
return
end
local radius = args[1]
local y_adj = args[2]
-- Get player position
local pos = {}
for _,player in pairs(minetest.get_connected_players()) do
if player:get_player_name() == name then
pos = player:get_pos()
break
end
end
-- Search for nodes
-- Calculate positions
local start_pos = {x=pos.x-radius, y=pos.y-y_adj, z=pos.z-radius }
local end_pos = {x=pos.x+radius, y=pos.y+y_adj, z=pos.z+radius }
-- Scan for usable nodes
local node_data = npc.places.scan_area_for_usable_nodes(start_pos, end_pos)
local removed_count = npc.places.clear_metadata_usable_nodes_in_area(node_data)
minetest.chat_send_player(name, "Restored "..dump(removed_count).." nodes in area from "
..minetest.pos_to_string(start_pos).." to "..minetest.pos_to_string(end_pos))
end
})
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