VoxeLibre/mods/ENTITIES/mcl_mobs/spawning.lua

1114 lines
39 KiB
Lua

--lua locals
local S = minetest.get_translator("mcl_mobs")
local math, vector, minetest, mcl_mobs = math, vector, minetest, mcl_mobs
local mob_class = mcl_mobs.mob_class
local gamerule_doMobSpawning = true
vl_tuning.setting("gamerule:doMobSpawning", "bool", {
description = S("Whether mobs should spawn naturally, or via global spawning logic, such as for cats, phantoms, patrols, wandering traders, or zombie sieges. Does not affect special spawning attempts, like monster spawners, raids, or iron golems."), default = true,
set = function(val) gamerule_doMobSpawning = val end,
get = function() return gamerule_doMobSpawning end,
})
local modern_lighting = minetest.settings:get_bool("mcl_mobs_modern_lighting", true)
local nether_threshold = tonumber(minetest.settings:get("mcl_mobs_nether_threshold")) or 11
local end_threshold = tonumber(minetest.settings:get("mcl_mobs_end_threshold")) or 0
local overworld_threshold = tonumber(minetest.settings:get("mcl_mobs_overworld_threshold")) or 0
local overworld_sky_threshold = tonumber(minetest.settings:get("mcl_mobs_overworld_sky_threshold")) or 7
local overworld_passive_threshold = tonumber(minetest.settings:get("mcl_mobs_overworld_passive_threshold")) or 7
local get_node = minetest.get_node
local get_node_light = minetest.get_node_light
local find_nodes_in_area_under_air = minetest.find_nodes_in_area_under_air
local mt_get_biome_name = minetest.get_biome_name
local get_objects_inside_radius = minetest.get_objects_inside_radius
local get_connected_players = minetest.get_connected_players
local registered_nodes = minetest.registered_nodes
local math_min = math.min
local math_max = math.max
local math_random = math.random
local math_floor = math.floor
local math_ceil = math.ceil
local math_cos = math.cos
local math_sin = math.sin
local math_sqrt = math.sqrt
local math_abs = math.abs
local vector_distance = vector.distance
local vector_new = vector.new
local vector_floor = vector.floor
local table_copy = table.copy
local table_remove = table.remove
local pairs = pairs
local logging = minetest.settings:get_bool("mcl_logging_mobs_spawn", false)
local function mcl_log(message, property)
if property then message = message .. ": " .. dump(property) end
mcl_util.mcl_log(message, "[Mobs spawn]", true)
end
if not logging then mcl_log = function() end end
local dbg_spawn_attempts = 0
local dbg_spawn_succ = 0
local remove_far = true
local WAIT_FOR_SPAWN_ATTEMPT = 10
local FIND_SPAWN_POS_RETRIES = 16
local FIND_SPAWN_POS_RETRIES_SUCCESS_RESPIN = 8
local MOB_SPAWN_ZONE_INNER = 24
local MOB_SPAWN_ZONE_INNER_SQ = MOB_SPAWN_ZONE_INNER^2 -- squared
local MOB_SPAWN_ZONE_MIDDLE = 32
local MOB_SPAWN_ZONE_OUTER = 128
local MOB_SPAWN_ZONE_OUTER_SQ = MOB_SPAWN_ZONE_OUTER^2 -- squared
-- range for mob count
local MOB_CAP_INNER_RADIUS = 32
local aoc_range = 136
local MISSING_CAP_DEFAULT = 15
local MOBS_CAP_CLOSE = 10
local SPAWN_MAPGEN_LIMIT = mcl_vars.mapgen_limit - 150
local mob_cap = {
hostile = tonumber(minetest.settings:get("mcl_mob_cap_monster")) or 70,
passive = tonumber(minetest.settings:get("mcl_mob_cap_animal")) or 10,
ambient = tonumber(minetest.settings:get("mcl_mob_cap_ambient")) or 15,
water = tonumber(minetest.settings:get("mcl_mob_cap_water")) or 8,
water_ambient = tonumber(minetest.settings:get("mcl_mob_cap_water_ambient")) or 20,
water_underground = tonumber(minetest.settings:get("mcl_mob_cap_water_underground")) or 5,
axolotl = tonumber(minetest.settings:get("mcl_mob_cap_axolotl")) or 2, -- TODO should be 5 when lush caves added
player = tonumber(minetest.settings:get("mcl_mob_cap_player")) or 75,
global_hostile = tonumber(minetest.settings:get("mcl_mob_cap_hostile")) or 300,
global_non_hostile = tonumber(minetest.settings:get("mcl_mob_cap_non_hostile")) or 300,
total = tonumber(minetest.settings:get("mcl_mob_cap_total")) or 500,
}
local peaceful_percentage_spawned = tonumber(minetest.settings:get("mcl_mob_peaceful_percentage_spawned")) or 30
local peaceful_group_percentage_spawned = tonumber(minetest.settings:get("mcl_mob_peaceful_group_percentage_spawned")) or 15
local hostile_group_percentage_spawned = tonumber(minetest.settings:get("mcl_mob_hostile_group_percentage_spawned")) or 20
mcl_log("Mob cap hostile: " .. mob_cap.hostile)
mcl_log("Mob cap water: " .. mob_cap.water)
mcl_log("Mob cap passive: " .. mob_cap.passive)
mcl_log("Percentage of peacefuls spawned: " .. peaceful_percentage_spawned)
mcl_log("Percentage of peaceful spawns are group: " .. peaceful_group_percentage_spawned)
mcl_log("Percentage of hostile spawns are group: " .. hostile_group_percentage_spawned)
--do mobs spawn?
local mobs_spawn = minetest.settings:get_bool("mobs_spawn", true) ~= false
local spawn_protected = minetest.settings:get_bool("mobs_spawn_protected") ~= false
-- count how many mobs are in an area
local function count_mobs(pos,r,mob_type)
local num = 0
for _,l in pairs(minetest.luaentities) do
if l and l.is_mob and (mob_type == nil or l.type == mob_type) then
local p = l.object:get_pos()
if p and vector_distance(p,pos) < r then
num = num + 1
end
end
end
return num
end
local function count_mobs_total(mob_type)
local num = 0
for _,l in pairs(minetest.luaentities) do
if l.is_mob then
if mob_type == nil or l.type == mob_type then
num = num + 1
end
end
end
return num
end
local function count_mobs_add_entry (mobs_list, mob_cat)
mobs_list[mob_cat] = (mobs_list[mob_cat] or 0) + 1
end
--categorise_by can be name or type or spawn_class
local function count_mobs_all(categorise_by, pos)
local mobs_found_wide = {}
local mobs_found_close = {}
local num = 0
for _,entity in pairs(minetest.luaentities) do
if entity and entity.is_mob then
local add_entry = false
--local mob_type = entity.type -- animal / monster / npc
local mob_cat = entity[categorise_by]
if pos then
local mob_pos = entity.object:get_pos()
if mob_pos then
local distance = vector.distance(pos, mob_pos)
--mcl_log("distance: ".. distance)
if distance <= MOB_SPAWN_ZONE_MIDDLE then
--mcl_log("distance is close")
count_mobs_add_entry (mobs_found_close, mob_cat)
count_mobs_add_entry (mobs_found_wide, mob_cat)
add_entry = true
elseif distance <= MOB_SPAWN_ZONE_OUTER then
--mcl_log("distance is wide")
count_mobs_add_entry (mobs_found_wide, mob_cat)
add_entry = true
else
--mcl_log("mob_pos: " .. minetest.pos_to_string(mob_pos))
end
end
else
count_mobs_add_entry (mobs_found_wide, mob_cat)
add_entry = true
end
if add_entry then
num = num + 1
end
end
end
--mcl_log("num: ".. num)
return mobs_found_close, mobs_found_wide, num
end
local function count_mobs_total_cap(mob_type)
local total = 0
local num = 0
local hostile = 0
local non_hostile = 0
for _,l in pairs(minetest.luaentities) do
if l.is_mob then
total = total + 1
local nametagged = l.nametag and l.nametag ~= ""
if ( mob_type == nil or l.type == mob_type ) and not nametagged then
if l.spawn_class == "hostile" then
hostile = hostile + 1
else
non_hostile = non_hostile + 1
end
num = num + 1
else
mcl_log("l.name", l.name)
mcl_log("l.nametag", l.nametag)
end
end
end
mcl_log("Total mobs", total)
mcl_log("hostile", hostile)
mcl_log("non_hostile", non_hostile)
return num, non_hostile, hostile
end
local function output_mob_stats(mob_counts, total_mobs, chat_display)
if (total_mobs) then
local total_output = "Total mobs found: " .. total_mobs
if chat_display then
minetest.log(total_output)
else
minetest.log("action", total_output)
end
end
local detailed = ""
if mob_counts then
for k, v1 in pairs(mob_counts) do
detailed = detailed .. tostring(k) .. ": " .. tostring(v1) .. "; "
end
end
if detailed and detailed ~= "" then
if chat_display then
minetest.log(detailed)
else
minetest.log("action", detailed)
end
end
end
-- global functions
function mcl_mobs:spawn_abm_check(pos, node, name)
-- global function to add additional spawn checks
-- return true to stop spawning mob
end
--[[
Custom elements changed:
name:
the mobs name
dimension:
"overworld"
"nether"
"end"
types of spawning:
"water"
"ground"
"lava"
biomes: tells the spawner to allow certain mobs to spawn in certain biomes
{"this", "that", "grasslands", "whatever"}
what is aoc??? objects in area
WARNING: BIOME INTEGRATION NEEDED -> How to get biome through lua??
]]--
--this is where all of the spawning information is kept
local spawn_dictionary = {}
--this is where all of the spawning information is kept for mobs that don't naturally spawn
local non_spawn_dictionary = {}
function mcl_mobs:spawn_setup(def)
if not mobs_spawn then return end
if not def then
minetest.log("warning", "Empty mob spawn setup definition")
return
end
local name = def.name
if not name then
minetest.log("warning", "Missing mob name")
return
end
local dimension = def.dimension or "overworld"
local type_of_spawning = def.type_of_spawning or "ground"
local biomes = def.biomes or nil
local min_light = def.min_light or 0
local max_light = def.max_light or (minetest.LIGHT_MAX + 1)
local chance = def.chance or 1000
local aoc = def.aoc or aoc_range
local min_height = def.min_height or mcl_mapgen.overworld.min
local max_height = def.max_height or mcl_mapgen.overworld.max
local day_toggle = def.day_toggle
local on_spawn = def.on_spawn
local check_position = def.check_position
-- chance/spawn number override in minetest.conf for registered mob
local numbers = minetest.settings:get(name)
if numbers then
numbers = numbers:split(",")
chance = tonumber(numbers[1]) or chance
aoc = tonumber(numbers[2]) or aoc
if chance == 0 then
minetest.log("warning", string.format("[mcl_mobs] %s has spawning disabled", name))
return
end
minetest.log("action", string.format("[mcl_mobs] Chance setting for %s changed to %s (total: %s)", name, chance, aoc))
end
if chance < 1 then
chance = 1
minetest.log("warning", "Chance shouldn't be less than 1 (mob name: " .. name ..")")
end
spawn_dictionary[#spawn_dictionary + 1] = {
name = name,
dimension = dimension,
type_of_spawning = type_of_spawning,
biomes = biomes,
min_light = min_light,
max_light = max_light,
chance = chance,
aoc = aoc,
min_height = min_height,
max_height = max_height,
day_toggle = day_toggle,
check_position = check_position,
on_spawn = on_spawn,
}
end
function mcl_mobs:mob_light_lvl(mob_name, dimension)
local spawn_dictionary_consolidated = {}
if non_spawn_dictionary[mob_name] then
local mob_dimension = non_spawn_dictionary[mob_name][dimension]
if mob_dimension then
--minetest.log("Found in non spawn dictionary for dimension")
return mob_dimension.min_light, mob_dimension.max_light
else
--minetest.log("Found in non spawn dictionary but not for dimension")
local overworld_non_spawn_def = non_spawn_dictionary[mob_name]["overworld"]
if overworld_non_spawn_def then
return overworld_non_spawn_def.min_light, overworld_non_spawn_def.max_light
end
end
else
--minetest.log("must be in spawning dictionary")
for i,v in pairs(spawn_dictionary) do
local current_mob_name = spawn_dictionary[i].name
local current_mob_dim = spawn_dictionary[i].dimension
if mob_name == current_mob_name then
if not spawn_dictionary_consolidated[current_mob_name] then
spawn_dictionary_consolidated[current_mob_name] = {}
end
spawn_dictionary_consolidated[current_mob_name][current_mob_dim] = {
["min_light"] = spawn_dictionary[i].min_light,
["max_light"] = spawn_dictionary[i].max_light
}
end
end
if spawn_dictionary_consolidated[mob_name] then
--minetest.log("is in consolidated")
local mob_dimension = spawn_dictionary_consolidated[mob_name][dimension]
if mob_dimension then
--minetest.log("found for dimension")
return mob_dimension.min_light, mob_dimension.max_light
else
--minetest.log("not found for dimension, use overworld def")
local mob_dimension_default = spawn_dictionary_consolidated[mob_name]["overworld"]
if mob_dimension_default then
return mob_dimension_default.min_light, mob_dimension_default.max_light
end
end
else
--minetest.log("not in consolidated")
end
end
minetest.log("action", "There are no light levels for mob (" .. tostring(mob_name) .. ") in dimension (" .. tostring(dimension) .. "). Return defaults")
return 0, minetest.LIGHT_MAX+1
end
function mcl_mobs:non_spawn_specific(mob_name,dimension,min_light,max_light)
table.insert(non_spawn_dictionary, mob_name)
non_spawn_dictionary[mob_name] = {
[dimension] = {
min_light = min_light , max_light = max_light
}
}
end
function mcl_mobs:spawn_specific(name, dimension, type_of_spawning, biomes, min_light, max_light, interval, chance, aoc, min_height, max_height, day_toggle, on_spawn, check_position)
-- Do mobs spawn at all?
if not mobs_spawn then
return
end
assert(min_height)
assert(max_height)
-- chance/spawn number override in minetest.conf for registered mob
local numbers = minetest.settings:get(name)
if numbers then
numbers = numbers:split(",")
chance = tonumber(numbers[1]) or chance
aoc = tonumber(numbers[2]) or aoc
if chance == 0 then
minetest.log("warning", string.format("[mcl_mobs] %s has spawning disabled", name))
return
end
minetest.log("action", string.format("[mcl_mobs] Chance setting for %s changed to %s (total: %s)", name, chance, aoc))
end
--load information into the spawn dictionary
local key = #spawn_dictionary + 1
spawn_dictionary[key] = {}
spawn_dictionary[key]["name"] = name
spawn_dictionary[key]["dimension"] = dimension
spawn_dictionary[key]["type_of_spawning"] = type_of_spawning
spawn_dictionary[key]["biomes"] = biomes
spawn_dictionary[key]["min_light"] = min_light
spawn_dictionary[key]["max_light"] = max_light
spawn_dictionary[key]["chance"] = chance
spawn_dictionary[key]["aoc"] = aoc
spawn_dictionary[key]["min_height"] = min_height
spawn_dictionary[key]["max_height"] = max_height
spawn_dictionary[key]["day_toggle"] = day_toggle
spawn_dictionary[key]["check_position"] = check_position
end
local function get_next_mob_spawn_pos(pos)
-- Select a distance such that distances closer to the player are selected much more often than
-- those further away from the player. This does produce a concentration at INNER (24 blocks)
local distance = math_random()^2 * (MOB_SPAWN_ZONE_OUTER - MOB_SPAWN_ZONE_INNER) + MOB_SPAWN_ZONE_INNER
--print("Using spawn distance of "..tostring(distance).." fx="..tostring(fx)..",x="..tostring(x))
-- Choose a random direction. Rejection sampling is simple and fast (1-2 tries usually)
local xoff, yoff, zoff, dd
repeat
xoff, yoff, zoff = math_random() * 2 - 1, math_random() * 2 - 1, math_random() * 2 - 1
dd = xoff*xoff + yoff*yoff + zoff*zoff
until (dd <= 1 and dd >= 1e-6) -- outside of uniform ball, retry
dd = distance / math_sqrt(dd) -- distance scaling factor
xoff, yoff, zoff = xoff * dd, yoff * dd, zoff * dd
local goal_pos = vector.offset(pos, xoff, yoff, zoff)
if not (math_abs(goal_pos.x) <= SPAWN_MAPGEN_LIMIT and math_abs(goal_pos.y) <= SPAWN_MAPGEN_LIMIT and math_abs(goal_pos.z) <= SPAWN_MAPGEN_LIMIT) then
mcl_log("Pos outside mapgen limits: " .. minetest.pos_to_string(goal_pos))
return nil
end
-- Calculate upper/lower y limits
local d2 = xoff*xoff + zoff*zoff -- squared distance in x,z plane only
local y1 = math_sqrt(MOB_SPAWN_ZONE_OUTER_SQ - d2) -- absolue value of distance to outer sphere
local y_min, y_max
if d2 >= MOB_SPAWN_ZONE_INNER_SQ then
-- Outer region, y range has both ends on the outer sphere
y_min = pos.y - y1
y_max = pos.y + y1
else
-- Inner region, y range spans between inner and outer spheres
local y2 = math_sqrt(MOB_SPAWN_ZONE_INNER_SQ - d2)
if goal_pos.y > pos.y then
-- Upper hemisphere
y_min = pos.y + y2
y_max = pos.y + y1
else
-- Lower hemisphere
y_min = pos.y - y1
y_max = pos.y - y2
end
end
-- Limit total range of check to 32 nodes (maximum of 3 map blocks)
y_min = math_max(math_floor(y_min), goal_pos.y - 16)
y_max = math_min(math_ceil(y_max), goal_pos.y + 16)
-- Ask engine for valid spawn locations
local spawning_position_list = find_nodes_in_area_under_air(
{x = goal_pos.x, y = y_min, z = goal_pos.z},
{x = goal_pos.x, y = y_max, z = goal_pos.z},
{"group:solid", "group:water", "group:lava"}
) or {}
-- Select only the locations at a valid distance
local valid_positions = {}
for _,check_pos in ipairs(spawning_position_list) do
local dist = vector.distance(pos, check_pos)
if dist >= MOB_SPAWN_ZONE_INNER and dist <= MOB_SPAWN_ZONE_OUTER then
valid_positions[#valid_positions + 1] = check_pos
end
end
spawning_position_list = valid_positions
-- No valid locations, failed to find a position
if #spawning_position_list == 0 then
mcl_log("Spawning position isn't good. Do not spawn: " .. minetest.pos_to_string(goal_pos))
return nil
end
-- Pick a random valid location
mcl_log("Spawning positions available: " .. minetest.pos_to_string(goal_pos))
return spawning_position_list[math_random(1, #spawning_position_list)]
end
--a simple helper function for mob_spawn
local function biome_check(biome_list, biome_goal)
if not biome_goal then return false end
for _, data in pairs(biome_list) do
if data == biome_goal then
return true
end
end
return false
end
local function is_farm_animal(n)
return n == "mobs_mc:pig" or n == "mobs_mc:cow" or n == "mobs_mc:sheep" or n == "mobs_mc:chicken" or n == "mobs_mc:horse" or n == "mobs_mc:donkey"
end
local function get_water_spawn(p)
local nn = minetest.find_nodes_in_area(vector.offset(p,-2,-1,-2),vector.offset(p,2,-15,2),{"group:water"})
if nn and #nn > 0 then
return nn[math.random(#nn)]
end
end
local function has_room(self, pos)
local cb = self.spawnbox or self.collisionbox
local nodes = {}
if self.fly_in then
local t = type(self.fly_in)
if t == "table" then
nodes = table.copy(self.fly_in)
elseif t == "string" then
table.insert(nodes,self.fly_in)
end
end
table.insert(nodes,"air")
-- Calculate area to check for room
local cb_height = cb[5] - cb[2]
local p1 = vector.new(
math.round(pos.x + cb[1]),
math.floor(pos.y),
math.round(pos.z + cb[3]))
local p2 = vector.new(
math.round(pos.x + cb[4]),
math.ceil(p1.y + cb_height) - 1,
math.round(pos.z + cb[6]))
-- Check if the entire spawn volume is free
local dx = p2.x - p1.x + 1
local dy = p2.y - p1.y + 1
local dz = p2.z - p1.z + 1
local found_nodes = minetest.find_nodes_in_area(p1,p2,nodes) or 0
local n = #found_nodes
if n == dx * dy * dz then
return true
end
-- If we don't have an implementation of get_node_boxes, we can't check for sub-node space
if not minetest.get_node_boxes then return false end
-- Check if it's possible for a sub-node space check to succeed
local needed_in_bottom_section = dx * ( dy - 1) * dz
if n < needed_in_bottom_section then return false end
-- Make sure the entire volume except for the top level is free before checking the top layer
if dy > 1 then
-- Remove nodes in the top layer from the count
for i = 1,#found_nodes do
if found_nodes[i].y == p2.y then
n = n - 1
end
end
-- If the entire volume except the top layer isn't air (or nodes) then we can't spawn this mob here
if n < needed_in_bottom_section then return false end
end
-- Check the top layer to see if we have enough space to spawn in
local top_layer_height = 1
local processed = {}
for x = p1.x,p2.x do
for z = p1.z,p2.z do
local test_pos = vector.new(x,p2.y,z)
local node = minetest.get_node(test_pos) or { name = "ignore" }
local cache_name = string.format("%s-%d", node.name, node.param2)
if not processed[cache_name] then
-- Calculate node bounding box and select the lowest y value
local boxes = minetest.get_node_boxes("collision_box", test_pos, node)
for i = 1,#boxes do
local box = boxes[i]
local y_test = box[2] + 0.5
if y_test < top_layer_height then top_layer_height = y_test end
local y_test = box[5] + 0.5
if y_test < top_layer_height then top_layer_height = y_test end
end
end
end
end
if top_layer_height + dy - 1 >= cb_height then return true end
-- We don't have room
return false
end
mcl_mobs.custom_biomecheck = nil
function mcl_mobs.register_custom_biomecheck(custom_biomecheck)
mcl_mobs.custom_biomecheck = custom_biomecheck
end
local function get_biome_name(pos)
if mcl_mobs.custom_biomecheck then return mcl_mobs.custom_biomecheck(pos) end
local gotten_biome = minetest.get_biome_data(pos)
return gotten_biome and mt_get_biome_name(gotten_biome.biome)
end
local function spawn_check(pos, spawn_def)
if not spawn_def or not pos then return end
dbg_spawn_attempts = dbg_spawn_attempts + 1
local dimension = mcl_worlds.pos_to_dimension(pos)
if spawn_def.dimension ~= dimension then return end -- wrong dimension
-- find ground node below spawn position
local node_name = get_node(pos).name
local node_def = registered_nodes[node_name]
if node_def and not node_def.groups.solid then -- try node one below instead
pos.y = pos.y - 1
node_name = get_node(pos).name
node_def = registered_nodes[node_name]
end
if not node_def or not node_def.groups then return end
-- do not spawn on bedrock
if node_name == "mcl_core:bedrock" then return end
pos.y = pos.y + 1
-- check spawn height
if pos.y < spawn_def.min_height or pos.y > spawn_def.max_height then return end
mcl_log("spawn_check#1 position checks passed")
-- do not spawn ground mobs on leaves
if spawn_def.type_of_spawning == "ground" and (not node_def.groups.solid or node_def.groups.leaves) then return end
-- water mobs only on water
if spawn_def.type_of_spawning == "water" and not node_def.groups.water then return end
-- lava mobs only on lava
if spawn_def.type_of_spawning == "lava" and not node_def.groups.lava then return end
-- farm animals on grass only
if is_farm_animal(spawn_def.name) and not node_def.groups.grass_block then return end
---- More expensive calls:
-- check the biome
if spawn_def.biomes and not biome_check(spawn_def.biomes, get_biome_name(pos)) then return end
-- check if there is enough room
local mob_def = minetest.registered_entities[spawn_def.name]
if not has_room(mob_def,pos) then return end
-- additional checks (slime etc.)
if spawn_def.check_position and not spawn_def.check_position(pos) then return end
if spawn_protected and minetest.is_protected(pos, "") then return end
mcl_log("spawn_check#2 advanced checks passed")
-- check light thresholds
local gotten_light = get_node_light(pos)
-- old lighting
if not modern_lighting then return gotten_light >= spawn_def.min_light and gotten_light <= spawn_def.max_light end
local sky_light = minetest.get_natural_light(pos)
local art_light = minetest.get_artificial_light(get_node(pos).param1)
if mob_def.spawn_check then
return mob_def.spawn_check(pos, gotten_light, art_light, sky_light)
end
if mob_def.type == "monster" then
if dimension == "nether" then
if art_light <= nether_threshold then
return true
end
elseif dimension == "end" then
if art_light <= end_threshold then
return true
end
elseif dimension == "overworld" then
if art_light <= overworld_threshold and sky_light <= overworld_sky_threshold then
return true
end
end
return false
end
-- passive threshold is apparently the same in all dimensions ...
return gotten_light > overworld_passive_threshold
end
function mcl_mobs.spawn(pos,id)
if not pos or not id then return false end
local def = minetest.registered_entities[id] or minetest.registered_entities["mobs_mc:"..id] or minetest.registered_entities["extra_mobs:"..id]
if not def or not def.is_mob or (def.can_spawn and not def.can_spawn(pos)) then return false end
if not has_room(def, pos) then return false end
return minetest.add_entity(pos, def.name)
end
local function spawn_group(p,mob,spawn_on,amount_to_spawn)
local nn= minetest.find_nodes_in_area_under_air(vector.offset(p,-5,-3,-5),vector.offset(p,5,3,5),spawn_on)
local o
table.shuffle(nn)
if not nn or #nn < 1 then
nn = {}
table.insert(nn,p)
end
for i = 1, amount_to_spawn do
local sp = vector.offset(nn[math.random(#nn)],0,1,0)
if spawn_check(nn[math.random(#nn)],mob) then
if mob.type_of_spawning == "water" then
sp = get_water_spawn(sp)
end
o = mcl_mobs.spawn(sp,mob.name)
if o then dbg_spawn_succ = dbg_spawn_succ + 1 end
end
end
return o
end
mcl_mobs.spawn_group = spawn_group
minetest.register_chatcommand("spawn_mob",{
privs = { debug = true },
description=S("spawn_mob is a chatcommand that allows you to type in the name of a mob without 'typing mobs_mc:' all the time like so; 'spawn_mob spider'. however, there is more you can do with this special command, currently you can edit any number, boolean, and string variable you choose with this format: spawn_mob 'any_mob:var<mobs_variable=variable_value>:'. any_mob being your mob of choice, mobs_variable being the variable, and variable value being the value of the chosen variable. and example of this format: \n spawn_mob skeleton:var<passive=true>:\n this would spawn a skeleton that wouldn't attack you. REMEMBER-THIS> when changing a number value always prefix it with 'NUM', example: \n spawn_mob skeleton:var<jump_height=NUM10>:\n this setting the skelly's jump height to 10. if you want to make multiple changes to a mob, you can, example: \n spawn_mob skeleton:var<passive=true>::var<jump_height=NUM10>::var<fly_in=air>::var<fly=true>:\n etc."),
func = function(n,param)
local pos = minetest.get_player_by_name(n):get_pos()
local modifiers = {}
for capture in string.gmatch(param, "%:(.-)%:") do
table.insert(modifiers, ":"..capture)
end
local mod1 = string.find(param, ":")
local mobname = param
if mod1 then
mobname = string.sub(param, 1, mod1-1)
end
local mob = mcl_mobs.spawn(pos,mobname)
if mob then
for c=1, #modifiers do
modifs = modifiers[c]
local mod1 = string.find(modifs, ":")
local mod_start = string.find(modifs, "<")
local mod_vals = string.find(modifs, "=")
local mod_end = string.find(modifs, ">")
local mob_entity = mob:get_luaentity()
if string.sub(modifs, mod1+1, mod1+3) == "var" then
if mod1 and mod_start and mod_vals and mod_end then
local variable = string.sub(modifs, mod_start+1, mod_vals-1)
local value = string.sub(modifs, mod_vals+1, mod_end-1)
number_tag = string.find(value, "NUM")
if number_tag then
value = tonumber(string.sub(value, 4, -1))
end
if value == "true" then
value = true
elseif value == "false" then
value = false
end
if not mob_entity[variable] then
minetest.log("warning", n.." mob variable "..variable.." previously unset")
end
mob_entity[variable] = value
else
minetest.log("warning", n.." couldn't modify "..mobname.." at "..minetest.pos_to_string(pos).. ", missing paramaters")
end
else
minetest.log("warning", n.." couldn't modify "..mobname.." at "..minetest.pos_to_string(pos).. ", missing modification type")
end
end
minetest.log("action", n.." spawned "..mobname.." at "..minetest.pos_to_string(pos))
return true, mobname.." spawned at "..minetest.pos_to_string(pos)
else
return false, "Couldn't spawn "..mobname
end
end
})
if mobs_spawn then
-- Get pos to spawn, x and z are randomised, y is range
local function mob_cap_space (pos, mob_type, mob_counts_close, mob_counts_wide, cap_space_hostile, cap_space_non_hostile)
-- Some mob examples
--type = "monster", spawn_class = "hostile",
--type = "animal", spawn_class = "passive",
--local cod = { type = "animal", spawn_class = "water",
local type_cap = mob_cap[mob_type] or MISSING_CAP_DEFAULT
local close_zone_cap = MOBS_CAP_CLOSE
local mob_total_wide = mob_counts_wide[mob_type]
if not mob_total_wide then
--mcl_log("none of type found. set as 0")
mob_total_wide = 0
end
local cap_space_wide = math_max(type_cap - mob_total_wide, 0)
mcl_log("mob_type", mob_type)
mcl_log("cap_space_wide", cap_space_wide)
local cap_space_available = 0
if mob_type == "hostile" then
mcl_log("cap_space_global", cap_space_hostile)
cap_space_available = math_min(cap_space_hostile, cap_space_wide)
else
mcl_log("cap_space_global", cap_space_non_hostile)
cap_space_available = math_min(cap_space_non_hostile, cap_space_wide)
end
local mob_total_close = mob_counts_close[mob_type]
if not mob_total_close then
--mcl_log("none of type found. set as 0")
mob_total_close = 0
end
local cap_space_close = math_max(close_zone_cap - mob_total_close, 0)
cap_space_available = math_min(cap_space_available, cap_space_close)
mcl_log("cap_space_close", cap_space_close)
mcl_log("cap_space_available", cap_space_available)
if false and mob_type == "water" then
mcl_log("mob_type: " .. mob_type .. " and pos: " .. minetest.pos_to_string(pos))
mcl_log("wide: " .. mob_total_wide .. "/" .. type_cap)
mcl_log("cap_space_wide: " .. cap_space_wide)
mcl_log("close: " .. mob_total_close .. "/" .. close_zone_cap)
mcl_log("cap_space_close: " .. cap_space_close)
end
return cap_space_available
end
local function find_spawning_position(pos, max_times)
local spawning_position
local max_loops = max_times or 1
--mcl_log("mapgen_limit: " .. SPAWN_MAPGEN_LIMIT)
while max_loops > 0 do
local spawning_position = get_next_mob_spawn_pos(pos)
if spawning_position then return spawning_position end
max_loops = max_loops - 1
end
return nil
end
local cumulative_chance = nil
local mob_library_worker_table = nil
local function initialize_spawn_data()
if not mob_library_worker_table then
mob_library_worker_table = table_copy(spawn_dictionary)
end
if not cumulative_chance then
cumulative_chance = 0
for k, v in pairs(mob_library_worker_table) do
cumulative_chance = cumulative_chance + v.chance
end
end
end
local function spawn_a_mob(pos, cap_space_hostile, cap_space_non_hostile)
local spawning_position = find_spawning_position(pos, FIND_SPAWN_POS_RETRIES)
if not spawning_position then
minetest.log("action", "[Mobs spawn] Cannot find a valid spawn position after retries: " .. FIND_SPAWN_POS_RETRIES)
return
end
local mob_counts_close, mob_counts_wide, total_mobs = count_mobs_all("spawn_class", spawning_position)
--output_mob_stats(mob_counts_close, total_mobs)
--output_mob_stats(mob_counts_wide)
--grab mob that fits into the spawning location
--use random weighted choice with replacement to grab a mob, don't exclude any possibilities
--shuffle table once every loop to provide equal inclusion probability to all mobs
--repeat grabbing a mob to maintain existing spawn rates
local spawn_loop_counter = #mob_library_worker_table
while spawn_loop_counter > 0 do
table.shuffle(mob_library_worker_table)
local mob_chance_offset = math_random(1, cumulative_chance)
local mob_index = 1
local mob_chance = mob_library_worker_table[mob_index].chance
local step_chance = mob_chance
while step_chance < mob_chance_offset do
mob_index = mob_index + 1
if mob_index <= #mob_library_worker_table then
mob_chance = mob_library_worker_table[mob_index].chance
step_chance = step_chance + mob_chance
else
break
end
end
--minetest.log(mob_def.name.." "..step_chance.. " "..mob_chance)
local mob_def = mob_library_worker_table[mob_index]
if mob_def and mob_def.name and minetest.registered_entities[mob_def.name] then
local mob_def_ent = minetest.registered_entities[mob_def.name]
local mob_spawn_class = mob_def_ent.spawn_class
local cap_space_available = mob_cap_space (spawning_position, mob_spawn_class, mob_counts_close, mob_counts_wide, cap_space_hostile, cap_space_non_hostile)
if cap_space_available > 0 then
--mcl_log("Cap space available")
-- Spawn caps for animals and water creatures fill up rapidly. Need to throttle this somewhat
-- for performance and for early game challenge. We don't want to reduce hostiles though.
local spawn_hostile = (mob_spawn_class == "hostile")
local spawn_passive = (mob_spawn_class ~= "hostile") and math.random(100) < peaceful_percentage_spawned
--mcl_log("Spawn_passive: " .. tostring(spawn_passive))
--mcl_log("Spawn_hostile: " .. tostring(spawn_hostile))
if (spawn_hostile or spawn_passive) and spawn_check(spawning_position,mob_def) then
if mob_def.type_of_spawning == "water" then
spawning_position = get_water_spawn(spawning_position)
if not spawning_position then
minetest.log("warning","[mcl_mobs] no water spawn for mob "..mob_def.name.." found at "..minetest.pos_to_string(vector.round(pos)))
return
end
end
if mob_def_ent.can_spawn and not mob_def_ent.can_spawn(spawning_position) then
minetest.log("warning","[mcl_mobs] mob "..mob_def.name.." refused to spawn at "..minetest.pos_to_string(vector.round(spawning_position)))
return
end
--everything is correct, spawn mob
local spawn_in_group = mob_def_ent.spawn_in_group or 4
local spawn_group_hostile = (mob_spawn_class == "hostile") and (math.random(100) < hostile_group_percentage_spawned)
local spawn_group_passive = (mob_spawn_class ~= "hostile") and (math.random(100) < peaceful_group_percentage_spawned)
mcl_log("spawn_group_hostile: " .. tostring(spawn_group_hostile))
mcl_log("spawn_group_passive: " .. tostring(spawn_group_passive))
local spawned
if spawn_in_group and (spawn_group_hostile or spawn_group_passive) then
local group_min = mob_def_ent.spawn_in_group_min or 1
if not group_min then group_min = 1 end
local amount_to_spawn = math.random(group_min, spawn_in_group)
mcl_log("Spawning quantity: " .. amount_to_spawn)
amount_to_spawn = math_min(amount_to_spawn, cap_space_available)
mcl_log("throttled spawning quantity: " .. amount_to_spawn)
if logging then
minetest.log("action", "[mcl_mobs] A group of " ..amount_to_spawn .. " " .. mob_def.name .. " mob spawns on " ..minetest.get_node(vector.offset(spawning_position,0,-1,0)).name .." at " .. minetest.pos_to_string(spawning_position, 1))
end
spawned = spawn_group(spawning_position,mob_def,{minetest.get_node(vector.offset(spawning_position,0,-1,0)).name}, amount_to_spawn)
else
if logging then
minetest.log("action", "[mcl_mobs] Mob " .. mob_def.name .. " spawns on " ..minetest.get_node(vector.offset(spawning_position,0,-1,0)).name .." at ".. minetest.pos_to_string(spawning_position, 1))
end
spawned = mcl_mobs.spawn(spawning_position, mob_def.name)
end
if spawned then
--mcl_log("We have spawned")
mob_counts_close, mob_counts_wide, total_mobs = count_mobs_all("spawn_class", pos)
local new_spawning_position = find_spawning_position(pos, FIND_SPAWN_POS_RETRIES_SUCCESS_RESPIN)
if new_spawning_position then
mcl_log("Setting new spawning position")
spawning_position = new_spawning_position
else
mcl_log("Cannot set new spawning position")
end
end
else
--mcl_log("Spawn check failed")
end
else
--mcl_log("Cap space full")
end
end
spawn_loop_counter = spawn_loop_counter - 1
end
end
--MAIN LOOP
local timer = 0
minetest.register_globalstep(function(dtime)
if not gamerule_doMobSpawning then return end
timer = timer + dtime
if timer < WAIT_FOR_SPAWN_ATTEMPT then return end
initialize_spawn_data()
timer = 0
local players = get_connected_players()
local total_mobs, total_non_hostile, total_hostile = count_mobs_total_cap()
local cap_space_hostile = math_max(mob_cap.global_hostile - total_hostile, 0)
local cap_space_non_hostile = math_max(mob_cap.global_non_hostile - total_non_hostile, 0)
mcl_log("global cap_space_hostile", cap_space_hostile)
mcl_log("global cap_space_non_hostile", cap_space_non_hostile)
if total_mobs > mob_cap.total or total_mobs > #players * mob_cap.player then
minetest.log("action","[mcl_mobs] global mob cap reached. no cycle spawning.")
return
end --mob cap per player
for _, player in pairs(players) do
local pos = player:get_pos()
local dimension = mcl_worlds.pos_to_dimension(pos)
-- ignore void and unloaded area
if dimension ~= "void" and dimension ~= "default" then
spawn_a_mob(pos, cap_space_hostile, cap_space_non_hostile)
end
end
end)
end
local function despawn_allowed(self)
local nametag = self.nametag and self.nametag ~= ""
local not_busy = self.state ~= "attack" and self.following == nil
if self.can_despawn == true then
if not nametag and not_busy and not self.tamed == true and not self.persistent == true then
return true
end
end
return false
end
function mob_class:despawn_allowed()
despawn_allowed(self)
end
assert(despawn_allowed({can_despawn=false}) == false, "despawn_allowed - can_despawn false failed")
assert(despawn_allowed({can_despawn=true}) == true, "despawn_allowed - can_despawn true failed")
assert(despawn_allowed({can_despawn=true, nametag=""}) == true, "despawn_allowed - blank nametag failed")
assert(despawn_allowed({can_despawn=true, nametag=nil}) == true, "despawn_allowed - nil nametag failed")
assert(despawn_allowed({can_despawn=true, nametag="bob"}) == false, "despawn_allowed - nametag failed")
assert(despawn_allowed({can_despawn=true, state="attack"}) == false, "despawn_allowed - attack state failed")
assert(despawn_allowed({can_despawn=true, following="blah"}) == false, "despawn_allowed - following state failed")
assert(despawn_allowed({can_despawn=true, tamed=false}) == true, "despawn_allowed - not tamed")
assert(despawn_allowed({can_despawn=true, tamed=true}) == false, "despawn_allowed - tamed")
assert(despawn_allowed({can_despawn=true, persistent=true}) == false, "despawn_allowed - persistent")
assert(despawn_allowed({can_despawn=true, persistent=false}) == true, "despawn_allowed - not persistent")
function mob_class:check_despawn(pos, dtime)
self.lifetimer = self.lifetimer - dtime
-- Despawning: when lifetimer expires, remove mob
if remove_far and despawn_allowed(self) then
if self.despawn_immediately or self.lifetimer <= 0 then
if logging then
minetest.log("action", "[mcl_mobs] Mob "..self.name.." despawns at "..minetest.pos_to_string(pos, 1) .. " lifetimer ran out")
end
mcl_burning.extinguish(self.object)
self.object:remove()
return true
elseif self.lifetimer <= 10 then
if math.random(10) < 4 then
self.despawn_immediately = true
else
self.lifetimer = 20
end
end
end
end
minetest.register_chatcommand("mobstats",{
privs = { debug = true },
func = function(n,param)
local pos = minetest.get_player_by_name(n):get_pos()
minetest.chat_send_player(n,"mobs: within 32 radius of player/total loaded :"..count_mobs(pos,MOB_CAP_INNER_RADIUS) .. "/" .. count_mobs_total())
minetest.chat_send_player(n,"spawning attempts since server start:" .. dbg_spawn_succ .. "/" .. dbg_spawn_attempts)
local mob_counts_close, mob_counts_wide, total_mobs = count_mobs_all("name") -- Can use "type"
output_mob_stats(mob_counts_wide, total_mobs, true)
end
})