local settings = {} local layers = {} settings.number_of_layers = 32 settings.day_light = 15 settings.night_light = 0 settings.bedrock = "default:bedrock" settings.skyrock = "default:skyrock" settings.water_height = 0 settings.seed = 835726 math.randomseed(settings.seed) for i = settings.number_of_layers / -2, settings.number_of_layers / 2 do layers[i] = { height_map_seed = math.random(-1000000000000, 1000000000000), height_map_params = { offset = 0, scale = 50, spread = {x=2048, y=2048, z=2048}, seed = settings.height_map_seed, octaves = 7, persist = 0.7 }, height_map = nil, height_map_2dmap = {}, terrain_type_seed = math.random(-1000000000000, 1000000000000), terrain_type_params = { offset = 2.5, scale = 2.5, spread = {x=1024, y=1024, z=1024}, seed = settings.terrain_type_seed, octaves = 6, persist = 0.6 }, terrain_type_map = nil, terrain_type_2dmap = {}, mountain_map_seed = math.random(-1000000000000, 1000000000000), mountain_peak_params = { offset = -75, scale = 125, spread = {x=256, y=256, z=256}, seed = settings.mountain_peak_seed, octaves = 7, persist = 0.6 }, mountain_peak_map = nil, mountain_peak_2dmap = {}, } end settings.cave_seed = 6568239 local layer_height = 65535 / settings.number_of_layers local half_layer_height = layer_height / 2 -- Base terrain is the lower frequency, lower amplitude noise -- Terrain type is a multiplier that can dampen terrain to make -- flat plains, hills or mountains -- Mountain peak generates peaks when greater than zero, making -- jagged and rugged peaks on the surface or mountain tops --local height_map --local terrain_type_map --local mountain_peak_map local lake_map --local height_map_2dmap = {} --local terrain_type_2dmap = {} --local mountain_peak_2dmap = {} local lake_3dmap = {} local cave_map local perlin_worm_start_map local perlin_worm_yaw_map local perlin_worm_pitch_map local cave_3dmap = {} local perlin_worm_start_3dmap = {} local perlin_worm_yaw_3dmap = {} local perlin_worm_pitch_3dmap = {} local perlin_worms = {} --local height_map_params = { -- offset = 0, -- scale = 50, -- spread = {x=2048, y=2048, z=2048}, -- seed = settings.height_map_seed, -- octaves = 7, -- persist = 0.7 --} --local terrain_type_params = { -- offset = 2.5, -- scale = 2.5, -- spread = {x=1024, y=1024, z=1024}, -- seed = settings.terrain_type_seed, -- octaves = 6, -- persist = 0.6 --} --local mountain_peak_params = { -- offset = -75, -- scale = 125, -- spread = {x=256, y=256, z=256}, -- seed = settings.mountain_peak_seed, -- octaves = 7, -- persist = 0.6 --} local lake_params = { offset = 0, scale = 125, spread = {x=256, y=256, z=256}, seed = settings.lake_seed, octaves = 6, persist = 0.6 } local cave_params = { offset = 0, scale = 10, spread = {x=128, y=128, z=128}, seed = settings.cave_seed, octaves = 5, persist = 0.8 } local perlin_worm_start_params = { offset = 0, scale = 1, spread = {x=256, y=256, z=256}, seed = settings.perlin_worm_start_seed, octaves = 7, persist = 0.7 } minetest.register_node("default:skyrock", { description = "Multi Map Impenetrable Skyblock", drawtype = "airlike", tiles ={"star_button.png"}, inventory_image = "star_button.png", is_ground_content = false, walkable = true, pointable = false, diggable = false, climbable = false, }) minetest.register_node("default:bedrock", { description = "Multi Map Impenetrable Bedrock", drawtype = "normal", tiles ={"multi_map_bedrock.png"}, is_ground_content = false, walkable = true, pointable = false, diggable = false, climbable = false, }) minetest.register_on_generated(function(minp, maxp) local c_stone = minetest.get_content_id("default:stone") local c_air = minetest.get_content_id("air") local c_water = minetest.get_content_id("default:water_source") local c_bedrock = minetest.get_content_id("default:bedrock") local c_skyrock = minetest.get_content_id("default:skyrock") local current_layer = nil for l = (settings.number_of_layers / -2), (settings.number_of_layers / 2) do if minp.y >= (l * layer_height) - half_layer_height and minp.y < (l * layer_height) + half_layer_height then current_layer = l break end end if not current_layer then minetest.log("error", "Could not determine current multi_map layer, exiting mapgen!") return end local sidelen = maxp.x - minp.x + 1 local blocklen = sidelen / 5 --3d local chulenxyz = {x = sidelen, y = sidelen, z = sidelen} --2d local chulenxz = {x = sidelen, y = sidelen, z = 1} local minposxyz = {x = minp.x, y = minp.y - 1, z = minp.z} local minposxz = {x = minp.x, y = minp.z} -- strides for voxelmanip local ystridevm = sidelen + 32 local zstridevm = ystridevm ^ 2 local vm, emin, emax = minetest.get_mapgen_object("voxelmanip") local area = VoxelArea:new({MinEdge = emin, MaxEdge = emax}) local vm_data = vm:get_data() layers[current_layer].height_map = layers[current_layer].height_map or minetest.get_perlin_map(layers[current_layer].height_map_params, chulenxz) layers[current_layer].terrain_type_map = layers[current_layer].terrain_type_map or minetest.get_perlin_map(layers[current_layer].terrain_type_params, chulenxz) layers[current_layer].mountain_peak_map = layers[current_layer].mountain_peak_map or minetest.get_perlin_map(layers[current_layer].mountain_peak_params, chulenxz) cave_map = cave_map or minetest.get_perlin_map(cave_params, chulenxyz) perlin_worm_start_map = perlin_worm_start_map or minetest.get_perlin_map(perlin_worm_start_params, chulenxyz) layers[current_layer].height_map:get2dMap_flat(minposxz, layers[current_layer].height_map_2dmap) layers[current_layer].terrain_type_map:get2dMap_flat(minposxz, layers[current_layer].terrain_type_2dmap) layers[current_layer].mountain_peak_map:get2dMap_flat(minposxz, layers[current_layer].mountain_peak_2dmap) cave_map:get3dMap_flat(minposxyz, cave_3dmap) perlin_worm_start_map:get3dMap_flat(minposxyz, perlin_worm_start_3dmap) -- 3D perlinmap indexes local nixyz = 1 -- 2D perlinmap indexes local nixz = 1 local worm_started = false for z = minp.z, maxp.z do local niz for y = minp.y, maxp.y do local vi = area:index(minp.x, y, z) for x = minp.x, maxp.x do local nix local terrain_type = layers[current_layer].terrain_type_2dmap[nixz] local height = terrain_type * layers[current_layer].height_map_2dmap[nixz] if layers[current_layer].mountain_peak_2dmap[nixz] > 0 then height = height + layers[current_layer].mountain_peak_2dmap[nixz] end if (layer_height * current_layer) - half_layer_height <= y and y <= (layer_height * current_layer) - half_layer_height + (sidelen / 2) then vm_data[vi] = c_bedrock elseif (layer_height * current_layer) + half_layer_height - (sidelen * 5) <= y and y <= (layer_height * current_layer) + half_layer_height then vm_data[vi] = c_skyrock elseif y <= height + (layer_height * current_layer) then -- if math.abs(cave_3dmap[nixyz]) < 10 then -- + (y / 400) then vm_data[vi] = c_stone -- else -- vm_data[vi] = c_air -- end elseif y <= (layer_height * current_layer) + settings.water_height then vm_data[vi] = c_water end -- Increment noise index. nixyz = nixyz + 1 nixz = nixz + 1 -- Increment voxelmanip index along x row. -- The voxelmanip index increases by 1 when -- moving by 1 node in the +x direction. vi = vi + 1 end nixz = nixz - sidelen end nixz = nixz + sidelen end vm:set_data(vm_data) vm:set_lighting({day=settings.day_light, night=settings.night_light}) vm:update_liquids() vm:calc_lighting(false) vm:write_to_map() end)