695 lines
24 KiB
Lua
695 lines
24 KiB
Lua
biome_lib.block_log = {}
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biome_lib.block_recheck_list = {}
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biome_lib.run_block_recheck_list = false
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biome_lib.actionslist_aircheck = {}
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biome_lib.actionslist_no_aircheck = {}
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biome_lib.surfaceslist_aircheck = {}
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biome_lib.surfaceslist_no_aircheck = {}
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biome_lib.registered_decorations = {}
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biome_lib.fertile_perlin_octaves = 3
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biome_lib.fertile_perlin_persistence = 0.6
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biome_lib.fertile_perlin_scale = 100
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local time_speed = tonumber(minetest.settings:get("time_speed"))
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biome_lib.time_scale = 1
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if time_speed and time_speed > 0 then
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biome_lib.time_scale = 72 / time_speed
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end
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biome_lib.air = {name = "air"}
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-- the mapgen rarely creates useful surfaces outside this range, but mods can
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-- still specify a wider range if needed.
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biome_lib.mapgen_elevation_limit = { ["min"] = -16, ["max"] = 48 }
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-- Local functions
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function biome_lib.dbg(msg, level)
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local l = tonumber(level) or 0
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if biome_lib.debug_log_level >= l then
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print(os.date("%Y-%m-%d %H:%M:%S").." [Biome Lib]: "..msg)
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minetest.log("verbose", "[Biome Lib]: "..msg)
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end
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end
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local function get_biome_data(pos, perlin_fertile)
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local fertility = perlin_fertile:get_2d({x=pos.x, y=pos.z})
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local data = minetest.get_biome_data(pos)
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-- Original values this method returned were +1 (lowest) to -1 (highest)
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-- so we need to convert the 0-100 range from get_biome_data() to that.
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return fertility, 1 - (data.heat / 100 * 2), 1 - (data.humidity / 100 * 2)
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end
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function biome_lib.is_node_loaded(node_pos)
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local n = minetest.get_node_or_nil(node_pos)
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if (not n) or (n.name == "ignore") then
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return false
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end
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return true
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end
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function biome_lib.set_defaults(biome)
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biome.seed_diff = biome.seed_diff or 0
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biome.min_elevation = biome.min_elevation or biome_lib.mapgen_elevation_limit.min
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biome.max_elevation = biome.max_elevation or biome_lib.mapgen_elevation_limit.max
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biome.temp_min = biome.temp_min or 1
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biome.temp_max = biome.temp_max or -1
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biome.humidity_min = biome.humidity_min or 1
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biome.humidity_max = biome.humidity_max or -1
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biome.plantlife_limit = biome.plantlife_limit or 0.1
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biome.near_nodes_vertical = biome.near_nodes_vertical or 1
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-- specific to on-generate
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biome.neighbors = biome.neighbors or biome.surface
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biome.near_nodes_size = biome.near_nodes_size or 0
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biome.near_nodes_count = biome.near_nodes_count or 1
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biome.rarity = biome.rarity or 50
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biome.rarity_fertility = biome.rarity_fertility or 0
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biome.max_count = biome.max_count or 125
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biome.tries = biome.tries or 2
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if biome.check_air ~= false then biome.check_air = true end
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-- specific to abm spawner
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biome.seed_diff = biome.seed_diff or 0
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biome.light_min = biome.light_min or 0
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biome.light_max = biome.light_max or 15
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biome.depth_max = biome.depth_max or 1
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biome.facedir = biome.facedir or 0
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return biome
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end
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local function search_table(t, s)
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for i = 1, #t do
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if t[i] == s then return true end
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end
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return false
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end
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-- register the list of surfaces to spawn stuff on, filtering out all duplicates.
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-- separate the items by air-checking or non-air-checking map eval methods
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function biome_lib.register_on_generate(biomedef, nodes_or_function_or_model)
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-- if calling code passes an undefined node for a surface or
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-- as a node to be spawned, don't register an action for it.
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if type(nodes_or_function_or_model) == "string"
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and string.find(nodes_or_function_or_model, ":")
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and not minetest.registered_nodes[nodes_or_function_or_model] then
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biome_lib.dbg("Warning: Ignored registration for undefined spawn node: "..
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dump(nodes_or_function_or_model), 2)
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return
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end
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if type(nodes_or_function_or_model) == "string"
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and not string.find(nodes_or_function_or_model, ":") then
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biome_lib.dbg("Warning: Registered function call using deprecated string method: "..
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dump(nodes_or_function_or_model), 2)
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end
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biome_lib.mapgen_elevation_limit.min = math.min(biomedef.min_elevation or 0, biome_lib.mapgen_elevation_limit.min)
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biome_lib.mapgen_elevation_limit.max = math.max(biomedef.max_elevation or 0, biome_lib.mapgen_elevation_limit.max)
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local decor_def = biome_lib.can_use_decorations(biomedef, nodes_or_function_or_model)
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if decor_def then
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biome_lib.dbg("Using engine decorations instead of biome_lib functions for node(s): "..
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dump(nodes_or_function_or_model), 3)
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biome_lib.registered_decorations[#biome_lib.registered_decorations + 1] = nodes_or_function_or_model
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minetest.register_decoration(decor_def)
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return
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elseif biomedef.check_air == false then
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biome_lib.dbg("Register no-air-check mapgen hook: "..dump(nodes_or_function_or_model), 3)
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biome_lib.actionslist_no_aircheck[#biome_lib.actionslist_no_aircheck + 1] = {biomedef, nodes_or_function_or_model}
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local s = biomedef.surface
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if type(s) == "string" then
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if s and (string.find(s, "^group:") or minetest.registered_nodes[s]) then
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if not search_table(biome_lib.surfaceslist_no_aircheck, s) then
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biome_lib.surfaceslist_no_aircheck[#biome_lib.surfaceslist_no_aircheck + 1] = s
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end
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else
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biome_lib.dbg("Warning: Ignored no-air-check registration for undefined surface node: "..dump(s), 2)
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end
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else
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for i = 1, #biomedef.surface do
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s = biomedef.surface[i]
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if s and (string.find(s, "^group:") or minetest.registered_nodes[s]) then
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if not search_table(biome_lib.surfaceslist_no_aircheck, s) then
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biome_lib.surfaceslist_no_aircheck[#biome_lib.surfaceslist_no_aircheck + 1] = s
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end
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else
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biome_lib.dbg("Warning: Ignored no-air-check registration for undefined surface node: "..dump(s), 2)
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end
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end
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end
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else
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biome_lib.dbg("Register with-air-checking mapgen hook: "..dump(nodes_or_function_or_model), 3)
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biome_lib.actionslist_aircheck[#biome_lib.actionslist_aircheck + 1] = { biomedef, nodes_or_function_or_model }
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local s = biomedef.surface
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if type(s) == "string" then
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if s and (string.find(s, "^group:") or minetest.registered_nodes[s]) then
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if not search_table(biome_lib.surfaceslist_aircheck, s) then
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biome_lib.surfaceslist_aircheck[#biome_lib.surfaceslist_aircheck + 1] = s
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end
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else
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biome_lib.dbg("Warning: Ignored with-air-checking registration for undefined surface node: "..dump(s), 2)
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end
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else
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for i = 1, #biomedef.surface do
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s = biomedef.surface[i]
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if s and (string.find(s, "^group:") or minetest.registered_nodes[s]) then
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if not search_table(biome_lib.surfaceslist_aircheck, s) then
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biome_lib.surfaceslist_aircheck[#biome_lib.surfaceslist_aircheck + 1] = s
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end
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else
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biome_lib.dbg("Warning: Ignored with-air-checking registration for undefined surface node: "..dump(s), 2)
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end
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end
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end
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end
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end
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-- Function to check whether a position matches the given biome definition
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-- Returns true when the surface can be populated
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local function populate_single_surface(biome, pos, perlin_fertile_area, checkair)
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local p_top = { x = pos.x, y = pos.y + 1, z = pos.z }
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if biome.rarity - biome.rarity_fertility == 100 then
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return
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end
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local fertility, temperature, humidity = get_biome_data(pos, perlin_fertile_area)
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if math.random() * 100 <= (biome.rarity - ((fertility + 1) / 2 * biome.rarity_fertility)) then
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return
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end
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local pos_biome_ok = pos.y >= biome.min_elevation and pos.y <= biome.max_elevation
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and fertility >= biome.plantlife_limit
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and temperature <= biome.temp_min and temperature >= biome.temp_max
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and humidity <= biome.humidity_min and humidity >= biome.humidity_max
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if not pos_biome_ok then
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return -- Y position mismatch, outside of biome
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end
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local biome_surfaces_string = dump(biome.surface)
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local surface_ok = false
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if not biome.depth then
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local dest_node = minetest.get_node(pos)
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if string.find(biome_surfaces_string, dest_node.name) then
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surface_ok = true
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else
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if string.find(biome_surfaces_string, "group:") then
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for j = 1, #biome.surface do
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if string.find(biome.surface[j], "^group:")
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and minetest.get_item_group(dest_node.name, biome.surface[j]) then
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surface_ok = true
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break
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end
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end
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end
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end
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elseif not string.find(biome_surfaces_string,
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minetest.get_node({ x = pos.x, y = pos.y-biome.depth-1, z = pos.z }).name) then
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surface_ok = true
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end
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if not surface_ok then
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return -- Surface does not match the given node group/name
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end
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if checkair and minetest.get_node(p_top).name ~= "air" then
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return
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end
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if biome.below_nodes and
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not string.find(dump(biome.below_nodes),
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minetest.get_node({x=pos.x, y=pos.y-1, z=pos.z}).name
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) then
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return -- Node below does not match
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end
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if biome.ncount and
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#minetest.find_nodes_in_area(
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{x=pos.x-1, y=pos.y, z=pos.z-1},
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{x=pos.x+1, y=pos.y, z=pos.z+1},
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biome.neighbors
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) <= biome.ncount then
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return -- Not enough similar biome nodes around
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end
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if biome.near_nodes and
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#minetest.find_nodes_in_area(
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{x=pos.x-biome.near_nodes_size, y=pos.y-biome.near_nodes_vertical, z=pos.z-biome.near_nodes_size},
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{x=pos.x+biome.near_nodes_size, y=pos.y+biome.near_nodes_vertical, z=pos.z+biome.near_nodes_size},
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biome.near_nodes
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) < biome.near_nodes_count then
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return -- Long distance neighbours do not match
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end
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-- Position fits into given biome
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return true
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end
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function biome_lib.populate_surfaces(b, nodes_or_function_or_model, snodes, checkair)
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local items_added = 0
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local biome = biome_lib.set_defaults(b)
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-- filter stage 1 - find nodes from the supplied surfaces that are within the current biome.
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local in_biome_nodes = {}
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local perlin_fertile_area = minetest.get_perlin(biome.seed_diff, biome_lib.fertile_perlin_octaves,
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biome_lib.fertile_perlin_persistence, biome_lib.fertile_perlin_scale)
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for i = 1, #snodes do
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local pos = vector.new(snodes[i])
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if populate_single_surface(biome, pos, perlin_fertile_area, checkair) then
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in_biome_nodes[#in_biome_nodes + 1] = pos
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end
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end
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-- filter stage 2 - find places within that biome area to place the plants.
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local num_in_biome_nodes = #in_biome_nodes
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if num_in_biome_nodes == 0 then
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return 0
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end
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for i = 1, math.min(math.ceil(biome.max_count/25), num_in_biome_nodes) do
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local tries = 0
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local spawned = false
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while tries < biome.tries and not spawned do
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local pos = in_biome_nodes[math.random(1, num_in_biome_nodes)]
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local will_place = true
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local fdir = nil
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if biome.random_facedir then
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fdir = math.random(biome.random_facedir[1], biome.random_facedir[2])
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end
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if biome.spawn_on_side then
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local onside = biome_lib.find_open_side(pos)
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if onside then
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pos = onside.newpos
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fdir = onside.facedir
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else
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will_place = false
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end
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elseif biome.spawn_on_bottom then
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if minetest.get_node({x=pos.x, y=pos.y-1, z=pos.z}).name == "air" then
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pos.y = pos.y - 1
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else
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will_place = false
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end
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elseif biome.spawn_replace_node then
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pos.y = pos.y-1
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end
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local p_top = { x = pos.x, y = pos.y + 1, z = pos.z }
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if will_place and not (biome.avoid_nodes and biome.avoid_radius
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and minetest.find_node_near(p_top, biome.avoid_radius
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+ math.random(-1.5,2), biome.avoid_nodes)) then
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if biome.delete_above then
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minetest.swap_node(p_top, biome_lib.air)
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minetest.swap_node({x=p_top.x, y=p_top.y+1, z=p_top.z}, biome_lib.air)
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end
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if biome.delete_above_surround then
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minetest.swap_node({x=p_top.x-1, y=p_top.y, z=p_top.z}, biome_lib.air)
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minetest.swap_node({x=p_top.x+1, y=p_top.y, z=p_top.z}, biome_lib.air)
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minetest.swap_node({x=p_top.x, y=p_top.y, z=p_top.z-1}, biome_lib.air)
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minetest.swap_node({x=p_top.x, y=p_top.y, z=p_top.z+1}, biome_lib.air)
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minetest.swap_node({x=p_top.x-1, y=p_top.y+1, z=p_top.z}, biome_lib.air)
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minetest.swap_node({x=p_top.x+1, y=p_top.y+1, z=p_top.z}, biome_lib.air)
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minetest.swap_node({x=p_top.x, y=p_top.y+1, z=p_top.z-1}, biome_lib.air)
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minetest.swap_node({x=p_top.x, y=p_top.y+1, z=p_top.z+1}, biome_lib.air)
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end
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if biome.spawn_replace_node then
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minetest.swap_node(pos, biome_lib.air)
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end
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local objtype = type(nodes_or_function_or_model)
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if objtype == "table" then
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if nodes_or_function_or_model.axiom then
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biome_lib.generate_ltree(p_top, nodes_or_function_or_model)
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biome_lib.dbg("An L-tree was spawned at "..minetest.pos_to_string(p_top), 4)
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spawned = true
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else
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local n=nodes_or_function_or_model[math.random(#nodes_or_function_or_model)]
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minetest.swap_node(p_top, { name = n, param2 = fdir })
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biome_lib.dbg("Node \""..n.."\" was randomly picked from a list and placed at "..
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minetest.pos_to_string(p_top), 4)
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spawned = true
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end
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elseif objtype == "string" and
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minetest.registered_nodes[nodes_or_function_or_model] then
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minetest.swap_node(p_top, { name = nodes_or_function_or_model, param2 = fdir })
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biome_lib.dbg("Node \""..nodes_or_function_or_model.."\" was placed at "..
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minetest.pos_to_string(p_top), 4)
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spawned = true
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elseif objtype == "function" then
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nodes_or_function_or_model(pos, fdir)
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biome_lib.dbg("A function was run on surface node at "..minetest.pos_to_string(pos), 4)
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spawned = true
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elseif objtype == "string" and pcall(loadstring(("return %s(...)"):
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format(nodes_or_function_or_model)),pos) then
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spawned = true
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biome_lib.dbg("An obsolete string-specified function was run on surface node at "..
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minetest.pos_to_string(p_top), 4)
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else
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biome_lib.dbg("Warning: Ignored invalid definition for object "..
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dump(nodes_or_function_or_model).." that was pointed at {"..dump(pos).."}", 2)
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end
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else
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tries = tries + 1
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end
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end
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if spawned then items_added = items_added + 1 end
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end
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return items_added
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end
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-- Primary log read-out/mapgen spawner
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local function confirm_block_surroundings(p)
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local n=minetest.get_node_or_nil(p)
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if not n or n.name == "ignore" then return false end
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for x = -32,32,64 do -- step of 64 causes it to only check the 8 corner blocks
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for y = -32,32,64 do
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for z = -32,32,64 do
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n = minetest.get_node_or_nil({x=p.x + x, y=p.y + y, z=p.z + z})
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if not n or n.name == "ignore" then return false end
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end
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end
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end
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return true
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end
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function biome_lib.generate_block(shutting_down)
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if shutting_down then
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if #biome_lib.block_recheck_list > 0 then
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for i = 1, #biome_lib.block_recheck_list do
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biome_lib.block_log[#biome_lib.block_log + 1] = biome_lib.block_recheck_list[i]
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end
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biome_lib.block_recheck_list = {}
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end
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biome_lib.run_block_recheck_list = false
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else
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if biome_lib.run_block_recheck_list
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and not biome_lib.block_recheck_list[1] then
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biome_lib.run_block_recheck_list = false
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end
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end
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local blocklog = biome_lib.run_block_recheck_list
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and biome_lib.block_recheck_list
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or biome_lib.block_log
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if not blocklog[1] then return end
|
|
|
|
local minp = blocklog[1][1]
|
|
local maxp = blocklog[1][2]
|
|
local airflag = blocklog[1][3]
|
|
|
|
if not biome_lib.pos_hash then -- we need to read the maplock and get the surfaces list
|
|
local now = minetest.get_us_time()
|
|
biome_lib.pos_hash = {}
|
|
minetest.load_area(minp)
|
|
if not confirm_block_surroundings(minp)
|
|
and not shutting_down
|
|
-- if any neighbors appear not to be loaded and the block hasn't expired yet, defer it
|
|
and (blocklog[1][4] + biome_lib.block_timeout) > now then
|
|
|
|
if biome_lib.run_block_recheck_list then
|
|
biome_lib.block_log[#biome_lib.block_log + 1] = table.copy(biome_lib.block_recheck_list[1])
|
|
table.remove(biome_lib.block_recheck_list, 1)
|
|
else
|
|
biome_lib.block_recheck_list[#biome_lib.block_recheck_list + 1] = table.copy(biome_lib.block_log[1])
|
|
table.remove(biome_lib.block_log, 1)
|
|
end
|
|
biome_lib.pos_hash = nil
|
|
biome_lib.dbg("Mapblock at "..minetest.pos_to_string(minp)..
|
|
" had a neighbor not fully emerged, skipped it for now.", 4)
|
|
return
|
|
else
|
|
biome_lib.pos_hash.surface_node_list = airflag
|
|
and minetest.find_nodes_in_area_under_air(minp, maxp, biome_lib.surfaceslist_aircheck)
|
|
or minetest.find_nodes_in_area(minp, maxp, biome_lib.surfaceslist_no_aircheck)
|
|
if #biome_lib.pos_hash.surface_node_list == 0 then
|
|
biome_lib.dbg("Mapblock at "..minetest.pos_to_string(minp).." dequeued: no detected surfaces.", 4)
|
|
table.remove(blocklog, 1)
|
|
biome_lib.pos_hash = nil
|
|
return
|
|
else
|
|
biome_lib.pos_hash.action_index = 1
|
|
biome_lib.dbg("Mapblock at "..minetest.pos_to_string(minp)..
|
|
" has "..#biome_lib.pos_hash.surface_node_list..
|
|
" surface nodes to work on (airflag="..dump(airflag)..")", 4)
|
|
end
|
|
end
|
|
elseif not (airflag and biome_lib.actionslist_aircheck[biome_lib.pos_hash.action_index])
|
|
and not (not airflag and biome_lib.actionslist_no_aircheck[biome_lib.pos_hash.action_index]) then
|
|
-- the block is finished, remove it
|
|
if #biome_lib.pos_hash.surface_node_list > 0 then
|
|
biome_lib.dbg("Deleted mapblock "..minetest.pos_to_string(minp).." from the block log", 4)
|
|
end
|
|
table.remove(blocklog, 1)
|
|
biome_lib.pos_hash = nil
|
|
else
|
|
-- below, [1] is biome, [2] is the thing to be added
|
|
local added = 0
|
|
if airflag then
|
|
if biome_lib.actionslist_aircheck[biome_lib.pos_hash.action_index] then
|
|
added = biome_lib.populate_surfaces(
|
|
biome_lib.actionslist_aircheck[biome_lib.pos_hash.action_index][1],
|
|
biome_lib.actionslist_aircheck[biome_lib.pos_hash.action_index][2],
|
|
biome_lib.pos_hash.surface_node_list, true)
|
|
biome_lib.pos_hash.action_index = biome_lib.pos_hash.action_index + 1
|
|
end
|
|
else
|
|
if biome_lib.actionslist_no_aircheck[biome_lib.pos_hash.action_index] then
|
|
added = biome_lib.populate_surfaces(
|
|
biome_lib.actionslist_no_aircheck[biome_lib.pos_hash.action_index][1],
|
|
biome_lib.actionslist_no_aircheck[biome_lib.pos_hash.action_index][2],
|
|
biome_lib.pos_hash.surface_node_list, false)
|
|
biome_lib.pos_hash.action_index = biome_lib.pos_hash.action_index + 1
|
|
end
|
|
end
|
|
if added > 0 then
|
|
biome_lib.dbg("biome_lib.populate_surfaces ran on mapblock at "..
|
|
minetest.pos_to_string(minp)..". Entry #"..
|
|
(biome_lib.pos_hash.action_index-1).." added "..added.." items.", 4)
|
|
end
|
|
end
|
|
end
|
|
|
|
-- The spawning ABM
|
|
|
|
function biome_lib.register_active_spawner(sd,sp,sr,sc,ss,sa)
|
|
|
|
local b = {}
|
|
|
|
if type(sd) ~= "table" then
|
|
b.spawn_delay = sd -- old api expects ABM interval param here.
|
|
b.spawn_plants = {sp}
|
|
b.avoid_radius = sr
|
|
b.spawn_chance = sc
|
|
b.spawn_surfaces = {ss}
|
|
b.avoid_nodes = sa
|
|
else
|
|
b = sd
|
|
end
|
|
|
|
if b.spawn_delay*biome_lib.time_scale >= 1 then
|
|
b.interval = b.spawn_delay*biome_lib.time_scale
|
|
else
|
|
b.interval = 1
|
|
end
|
|
|
|
local biome = biome_lib.set_defaults(b)
|
|
|
|
biome.spawn_plants_count = #(biome.spawn_plants)
|
|
|
|
local n
|
|
if type(biome.spawn_plants) == "table" then
|
|
n = "random: "..biome.spawn_plants[1]..", ..."
|
|
else
|
|
n = biome.spawn_plants
|
|
end
|
|
biome.label = biome.label or "biome_lib spawn_on_surfaces(): "..n
|
|
|
|
minetest.register_abm({
|
|
nodenames = biome.spawn_surfaces,
|
|
interval = biome.interval,
|
|
chance = biome.spawn_chance,
|
|
neighbors = biome.neighbors,
|
|
label = biome.label,
|
|
action = function(pos, node, active_object_count, active_object_count_wider)
|
|
local p_top = { x = pos.x, y = pos.y + 1, z = pos.z }
|
|
local n_top = minetest.get_node(p_top)
|
|
local perlin_fertile_area = minetest.get_perlin(biome.seed_diff, biome_lib.fertile_perlin_octaves,
|
|
biome_lib.fertile_perlin_persistence, biome_lib.fertile_perlin_scale)
|
|
|
|
local fertility, temperature, humidity = get_biome_data(pos, perlin_fertile_area)
|
|
|
|
local pos_biome_ok = pos.y >= biome.min_elevation and pos.y <= biome.max_elevation
|
|
and fertility > biome.plantlife_limit
|
|
and temperature <= biome.temp_min and temperature >= biome.temp_max
|
|
and humidity <= biome.humidity_min and humidity >= biome.humidity_max
|
|
and biome_lib.is_node_loaded(p_top)
|
|
|
|
if not pos_biome_ok then
|
|
return -- Outside of biome
|
|
end
|
|
|
|
local n_light = minetest.get_node_light(p_top, nil)
|
|
if n_light < biome.light_min or n_light > biome.light_max then
|
|
return -- Too dark or too bright
|
|
end
|
|
|
|
if biome.avoid_nodes and biome.avoid_radius and minetest.find_node_near(
|
|
p_top, biome.avoid_radius + math.random(-1.5,2), biome.avoid_nodes) then
|
|
return -- Nodes to avoid are nearby
|
|
end
|
|
|
|
if biome.neighbors and biome.ncount and
|
|
#minetest.find_nodes_in_area(
|
|
{x=pos.x-1, y=pos.y, z=pos.z-1},
|
|
{x=pos.x+1, y=pos.y, z=pos.z+1},
|
|
biome.neighbors
|
|
) <= biome.ncount then
|
|
return -- Near neighbour nodes are not present
|
|
end
|
|
|
|
local NEAR_DST = biome.near_nodes_size
|
|
if biome.near_nodes and biome.near_nodes_count and biome.near_nodes_size and
|
|
#minetest.find_nodes_in_area(
|
|
{x=pos.x-NEAR_DST, y=pos.y-biome.near_nodes_vertical, z=pos.z-NEAR_DST},
|
|
{x=pos.x+NEAR_DST, y=pos.y+biome.near_nodes_vertical, z=pos.z+NEAR_DST},
|
|
biome.near_nodes
|
|
) < biome.near_nodes_count then
|
|
return -- Far neighbour nodes are not present
|
|
end
|
|
|
|
if (biome.air_count and biome.air_size) and
|
|
#minetest.find_nodes_in_area(
|
|
{x=p_top.x-biome.air_size, y=p_top.y, z=p_top.z-biome.air_size},
|
|
{x=p_top.x+biome.air_size, y=p_top.y, z=p_top.z+biome.air_size},
|
|
"air"
|
|
) < biome.air_count then
|
|
return -- Not enough air
|
|
end
|
|
|
|
local walldir = biome_lib.find_adjacent_wall(p_top, biome.verticals_list, biome.choose_random_wall)
|
|
if biome.alt_wallnode and walldir then
|
|
if n_top.name == "air" then
|
|
minetest.swap_node(p_top, { name = biome.alt_wallnode, param2 = walldir })
|
|
end
|
|
return
|
|
end
|
|
|
|
local currentsurface = minetest.get_node(pos).name
|
|
|
|
if biome_lib.default_water_nodes[currentsurface] and
|
|
#minetest.find_nodes_in_area(
|
|
{x=pos.x, y=pos.y-biome.depth_max-1, z=pos.z},
|
|
vector.new(pos),
|
|
biome_lib.default_wet_surfaces
|
|
) == 0 then
|
|
return -- On water but no ground nearby
|
|
end
|
|
|
|
local rnd = math.random(1, biome.spawn_plants_count)
|
|
local plant_to_spawn = biome.spawn_plants[rnd]
|
|
local fdir = biome.facedir
|
|
if biome.random_facedir then
|
|
fdir = math.random(biome.random_facedir[1],biome.random_facedir[2])
|
|
end
|
|
if type(biome.spawn_plants) == "string" then
|
|
assert(loadstring(biome.spawn_plants.."(...)"))(pos)
|
|
elseif not biome.spawn_on_side and not biome.spawn_on_bottom and not biome.spawn_replace_node then
|
|
if n_top.name == "air" then
|
|
minetest.swap_node(p_top, { name = plant_to_spawn, param2 = fdir })
|
|
end
|
|
elseif biome.spawn_replace_node then
|
|
minetest.swap_node(pos, { name = plant_to_spawn, param2 = fdir })
|
|
|
|
elseif biome.spawn_on_side then
|
|
local onside = biome_lib.find_open_side(pos)
|
|
if onside then
|
|
minetest.swap_node(onside.newpos, { name = plant_to_spawn, param2 = onside.facedir })
|
|
end
|
|
elseif biome.spawn_on_bottom then
|
|
if minetest.get_node({x=pos.x, y=pos.y-1, z=pos.z}).name == "air" then
|
|
minetest.swap_node({x=pos.x, y=pos.y-1, z=pos.z}, { name = plant_to_spawn, param2 = fdir} )
|
|
end
|
|
end
|
|
end
|
|
})
|
|
end
|
|
|
|
-- Function to decide how to replace a plant - either grow it, replace it with
|
|
-- a tree, run a function, or die with an error.
|
|
|
|
function biome_lib.replace_plant(pos, replacement, grow_function, walldir, seeddiff)
|
|
local growtype = type(grow_function)
|
|
if growtype == "table" then
|
|
minetest.swap_node(pos, biome_lib.air)
|
|
biome_lib.grow_ltree(pos, grow_function)
|
|
return
|
|
elseif growtype == "function" then
|
|
local perlin_fertile_area = minetest.get_perlin(seeddiff, biome_lib.fertile_perlin_octaves,
|
|
biome_lib.fertile_perlin_persistence, biome_lib.fertile_perlin_scale)
|
|
local fertility, temperature, _ = get_biome_data(pos, perlin_fertile_area)
|
|
grow_function(pos, fertility, temperature, walldir)
|
|
return
|
|
elseif growtype == "string" then
|
|
local perlin_fertile_area = minetest.get_perlin(seeddiff, biome_lib.fertile_perlin_octaves,
|
|
biome_lib.fertile_perlin_persistence, biome_lib.fertile_perlin_scale)
|
|
local fertility, temperature, _ = get_biome_data(pos, perlin_fertile_area)
|
|
assert(loadstring(grow_function.."(...)"))(pos, fertility, temperature, walldir)
|
|
return
|
|
elseif growtype == "nil" then
|
|
minetest.swap_node(pos, { name = replacement, param2 = walldir})
|
|
return
|
|
elseif growtype ~= "nil" and growtype ~= "string" and growtype ~= "table" then
|
|
error("Invalid grow function "..dump(grow_function).." used on object at ("..dump(pos)..")")
|
|
end
|
|
end
|
|
|
|
-- Check for infinite stacks
|
|
|
|
if minetest.get_modpath("unified_inventory") or not minetest.settings:get_bool("creative_mode") then
|
|
biome_lib.expect_infinite_stacks = false
|
|
else
|
|
biome_lib.expect_infinite_stacks = true
|
|
end
|
|
|
|
-- read a field from a node's definition
|
|
|
|
function biome_lib.get_nodedef_field(nodename, fieldname)
|
|
if not minetest.registered_nodes[nodename] then
|
|
return nil
|
|
end
|
|
return minetest.registered_nodes[nodename][fieldname]
|
|
end
|