dfcaverns/chasms/init.lua

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local data = {}
chasms = {}
local ignore = {}
-- Use this to set node types to be left alone by chasm-carving
chasms.register_ignore = function(node_name)
ignore[minetest.get_content_id(node_name)] = true
end
local maxy = tonumber(minetest.settings:get("chasms_maxy")) or -50
local miny = tonumber(minetest.settings:get("chasms_miny")) or -2500
local falloff = tonumber(minetest.settings:get("chasms_falloff")) or 100
local web_probability = 0.15 -- the chance that a given mapblock will have webbing criss-crossing the chasm
local chasms_threshold = tonumber(minetest.settings:get("chasms_threshold")) or 0.9
local np_chasms_default = {
offset = 0,
scale = 1,
spread = {x = 50, y = 1000, z = 3000},
seed = 94586,
octaves = 2,
persist = 0.63,
lacunarity = 2.0,
}
local np_chasms = minetest.settings:get_np_group("chasms_params") or np_chasms_default
-- For some reason, these numbers are returned as strings by get_np_group.
local tonumberize_params = function(params)
params.scale = tonumber(params.scale)
params.lacunarity = tonumber(params.lacunarity)
params.spread.x = tonumber(params.spread.x)
params.spread.y = tonumber(params.spread.y)
params.spread.z = tonumber(params.spread.z)
params.offset = tonumber(params.offset)
params.persistence = tonumber(params.persistence)
end
tonumberize_params(np_chasms)
local nobj_chasm
local chasm_data = {}
local waver_strength = 8
local waver_vector = {x=waver_strength, y=0, z=0}
local np_waver = {
offset = 0,
scale = waver_strength,
spread = {x = 50, y = 50, z = 50},
seed = 49585,
octaves = 2,
persist = 0.63,
lacunarity = 2.0,
}
local nobj_waver
local waver_data = {}
local minfalloff = miny + falloff
local maxfalloff = maxy - falloff
local get_intensity = function(y)
if y < miny or y > maxy then
return 0
end
if y <= maxfalloff and y >= minfalloff then
return 1
end
if y < minfalloff then
return (y-miny)/falloff
end
-- if y > maxfalloff then
return (maxy-y)/falloff
-- end
end
local c_air = minetest.get_content_id("air")
local c_web
local big_webs_path = minetest.get_modpath("big_webs")
if big_webs_path then
c_web = minetest.get_content_id("big_webs:webbing")
end
local z_displace = 10000
local calculate_web_array = function(minp, maxp)
local seed = math.random()*10000000
math.randomseed(minp.y + z_displace*minp.z) -- use consistent seeds across the x axis
local webs = {}
for count = 1, math.random(5,20) do
local width = math.random(5, 25)
local direction_vertical = math.random() > 0.5
local web_y = math.random(minp.y+8, maxp.y-8)
local web_z = math.random(minp.z+8, maxp.z-8)
for i = -math.floor(width/2), math.ceil(width/2) do
if direction_vertical then
webs[(web_y+i) + web_z*z_displace] = true
else
webs[web_y + (web_z+i)*z_displace] = true
end
end
end
math.randomseed(seed)
return webs
end
minetest.register_on_generated(function(minp, maxp, seed)
if minp.y >= maxy or maxp.y <= miny then
return
end
-- check if webs are present
local webs
local webs_present = false
if big_webs_path then
local seed = math.random()*10000000
math.randomseed(minp.y + z_displace*minp.z) -- use consistent seeds across the x axis
if math.random() < web_probability then
webs_present = true
end
math.randomseed(seed)
end
local vm, emin, emax = minetest.get_mapgen_object("voxelmanip")
vm:get_data(data)
nobj_chasm = nobj_chasm or minetest.get_perlin_map(np_chasms, {x = emax.x - emin.x + 1 + waver_strength*2, y = emax.y - emin.y + 1, z = emax.z - emin.z + 1})
nobj_chasm:get_3d_map_flat(vector.subtract(emin, waver_vector), chasm_data)
nobj_waver = nobj_waver or minetest.get_perlin_map(np_waver, {x = emax.x - emin.x + 1, y = emax.y - emin.y + 1, z = emax.z - emin.z + 1})
nobj_waver:get_3d_map_flat(emin, waver_data)
local chasm_area = VoxelArea:new{MinEdge = vector.subtract(emin, waver_vector), MaxEdge = vector.add(emax, waver_vector)}
local data_area = VoxelArea:new{MinEdge = emin, MaxEdge = emax}
for i, x, y, z in data_area:iterp_xyz(emin, emax) do
local waver = math.min(math.max(math.floor(waver_data[i]+0.5), -waver_strength), waver_strength)
local intensity = get_intensity(y)
if chasm_data[chasm_area:index(x+waver, y, z)]*intensity > chasms_threshold then
if not ignore[data[i]] then
if webs_present then
webs = webs or calculate_web_array(minp, maxp) -- only calculate webs when we know we're in a chasm
if webs[y + z*z_displace] and math.random() < 0.85 then -- random holes in the web
data[i] = c_web
minetest.get_node_timer({x=x,y=y,z=z}):start(1) -- this timer will check for unsupported webs
else
data[i] = c_air
end
else
data[i] = c_air
end
end
end
end
vm:set_data(data)
vm:calc_lighting()
vm:write_to_map()
end)
local nobj_local_chasm = minetest.get_perlin(np_chasms)
local nobj_local_waver = minetest.get_perlin(np_waver)
chasms.is_in_chasm = function(pos)
nobj_local_chasm = nobj_local_chasm or minetest.get_perlin(np_chasms)
nobj_local_waver = nobj_local_waver or minetest.get_perlin(np_waver)
local waver = math.min(math.max(math.floor(nobj_local_waver:get_3d(pos)+0.5), -waver_strength), waver_strength)
local chasm_value = nobj_local_chasm:get_3d({x=pos.x+waver, y=pos.y, z=pos.z})
return chasm_value*get_intensity(pos.y) > chasms_threshold
end
-- A little cheaper to run, for mapgens that know they don't have to worry about the tops and bottoms of chasms
chasms.is_in_chasm_without_taper = function(pos)
nobj_local_chasm = nobj_local_chasm or minetest.get_perlin(np_chasms)
nobj_local_waver = nobj_local_waver or minetest.get_perlin(np_waver)
local waver = math.min(math.max(math.floor(nobj_local_waver:get_3d(pos)+0.5), -waver_strength), waver_strength)
local chasm_value = nobj_local_chasm:get_3d({x=pos.x+waver, y=pos.y, z=pos.z})
return chasm_value > chasms_threshold
end