-- Recreate mod table if we are in a separate environment if not minetest.global_exists("mapgen_rivers") then mapgen_rivers = {use_mapgen_thread=true, thread='mapgen'} end if not mapgen_rivers.grid then dofile(minetest.get_modpath(minetest.get_current_modname()) .. '/load_grid.lua') end local settings = Settings(minetest.get_worldpath() .. '/mapgen_rivers.conf') local sea_level = tonumber(settings:get('sea_level')) local elevation_chill = tonumber(settings:get('elevation_chill')) local use_distort = settings:get_bool('distort') local use_biomes = settings:get_bool('biomes') local use_biomegen_mod = use_biomes and minetest.global_exists('biomegen') use_biomes = use_biomes and minetest.global_exists('default') and not use_biomegen_mod local noiseparams = { distort_x = settings:get_np_group('np_distort_x'), distort_z = settings:get_np_group('np_distort_z'), distort_amplitude = settings:get_np_group('np_distort_amplitude'), } if use_biomes then noiseparams.heat = minetest.get_mapgen_setting_noiseparams("np_heat") noiseparams.heat_blend = minetest.get_mapgen_setting_noiseparams("np_heat_blend") end if use_biomegen_mod then biomegen.set_elevation_chill(elevation_chill) end local heightmaps = dofile(minetest.get_modpath(minetest.get_current_modname()) .. '/heightmap.lua') -- Linear interpolation local function interp(v00, v01, v11, v10, xf, zf) local v0 = v01*xf + v00*(1-xf) local v1 = v11*xf + v10*(1-xf) return v1*zf + v0*(1-zf) end -- Localize for performance local floor, min = math.floor, math.min local data = {} local noise_x_obj, noise_z_obj, noise_distort_obj, noise_heat_obj, noise_heat_blend_obj local noise_x_map = {} local noise_z_map = {} local noise_distort_map = {} local noise_heat_map = {} local noise_heat_blend_map = {} local mapsize local init = false local sumtime = 0 local sumtime2 = 0 local ngen = 0 local function init_mapgen(chulens) mapsize = { x = chulens.x, y = chulens.y+1, z = chulens.z, } if use_distort then noise_x_obj = minetest.get_perlin_map(noiseparams.distort_x, mapsize) noise_z_obj = minetest.get_perlin_map(noiseparams.distort_z, mapsize) noise_distort_obj = minetest.get_perlin_map(noiseparams.distort_amplitude, chulens) end if use_biomes then noise_heat_obj = minetest.get_perlin_map(noiseparams.heat, chulens) noise_heat_blend_obj = minetest.get_perlin_map(noiseparams.heat_blend, chulens) end end local function generate(minp, maxp, seed) minetest.log("info", ("[mapgen_rivers] Generating from %s to %s"):format(minetest.pos_to_string(minp), minetest.pos_to_string(maxp))) local chulens = { x = maxp.x-minp.x+1, y = maxp.y-minp.y+1, z = maxp.z-minp.z+1, } if not init then init_mapgen(chulens) init = true end local t0 = os.clock() local minp2d = {x=minp.x, y=minp.z} if use_distort then noise_x_obj:get_3d_map_flat(minp, noise_x_map) noise_z_obj:get_3d_map_flat(minp, noise_z_map) noise_distort_obj:get_2d_map_flat(minp2d, noise_distort_map) end if use_biomes then noise_heat_obj:get_2d_map_flat(minp2d, noise_heat_map) noise_heat_blend_obj:get_2d_map_flat(minp2d, noise_heat_blend_map) end local terrain_map, lake_map, incr, i_origin if use_distort then local xmin, xmax, zmin, zmax = minp.x, maxp.x, minp.z, maxp.z local i = 0 local i2d = 0 for z=minp.z, maxp.z do for y=minp.y, maxp.y+1 do for x=minp.x, maxp.x do i = i+1 i2d = i2d+1 local distort = noise_distort_map[i2d] local xv = noise_x_map[i]*distort + x if xv < xmin then xmin = xv end if xv > xmax then xmax = xv end noise_x_map[i] = xv local zv = noise_z_map[i]*distort + z if zv < zmin then zmin = zv end if zv > zmax then zmax = zv end noise_z_map[i] = zv end i2d = i2d-chulens.x end end local pminp = {x=floor(xmin), z=floor(zmin)} local pmaxp = {x=floor(xmax)+1, z=floor(zmax)+1} incr = pmaxp.x-pminp.x+1 i_origin = 1 - pminp.z*incr - pminp.x terrain_map, lake_map = heightmaps(pminp, pmaxp) else terrain_map, lake_map = heightmaps(minp, maxp) end -- Check that there is at least one position that reaches min y if minp.y > sea_level then local y0 = minp.y local is_empty = true for i=1, #terrain_map do if terrain_map[i] >= y0 or lake_map[i] >= y0 then is_empty = false break end end -- If not, skip chunk if is_empty then local t = os.clock() - t0 ngen = ngen + 1 sumtime = sumtime + t sumtime2 = sumtime2 + t*t minetest.log("verbose", "[mapgen_rivers] Skipping empty chunk (fully above ground level)") minetest.log("verbose", ("[mapgen_rivers] Done in %5.3f s"):format(t)) return end end local c_stone = minetest.get_content_id("mapgen_stone") local c_water = minetest.get_content_id("mapgen_water_source") local c_rwater = minetest.get_content_id("mapgen_river_water_source") local c_dirt, c_lawn, c_dirtsnow, c_snow, c_sand, c_ice if use_biomes then c_dirt = minetest.get_content_id("default:dirt") c_lawn = minetest.get_content_id("default:dirt_with_grass") c_dirtsnow = minetest.get_content_id("default:dirt_with_snow") c_snow = minetest.get_content_id("default:snowblock") c_sand = minetest.get_content_id("default:sand") c_ice = minetest.get_content_id("default:ice") end local vm, emin, emax = minetest.get_mapgen_object("voxelmanip") vm:get_data(data) local a = VoxelArea:new({MinEdge = emin, MaxEdge = emax}) local ystride = a.ystride -- Tip : the ystride of a VoxelArea is the number to add to the array index to get the index of the position above. It's faster because it avoids to completely recalculate the index. local nid = mapsize.x*(mapsize.y-1) + 1 local incrY = -mapsize.x local incrX = 1 - mapsize.y*incrY local incrZ = mapsize.x*mapsize.y - mapsize.x*incrX - mapsize.x*mapsize.y*incrY local i2d = 1 for z = minp.z, maxp.z do for x = minp.x, maxp.x do local ivm = a:index(x, maxp.y+1, z) local ground_above = false local temperature if use_biomes then temperature = noise_heat_map[i2d]+noise_heat_blend_map[i2d] end local terrain, lake if not use_distort then terrain = terrain_map[i2d] lake = lake_map[i2d] end for y = maxp.y+1, minp.y, -1 do if use_distort then local xn = noise_x_map[nid] local zn = noise_z_map[nid] local x0 = floor(xn) local z0 = floor(zn) local i0 = i_origin + z0*incr + x0 local i1 = i0+1 local i2 = i1+incr local i3 = i2-1 terrain = interp(terrain_map[i0], terrain_map[i1], terrain_map[i2], terrain_map[i3], xn-x0, zn-z0) lake = min(lake_map[i0], lake_map[i1], lake_map[i2], lake_map[i3]) end if y <= maxp.y then local is_lake = lake > terrain if y <= terrain then if not use_biomes or y <= terrain-1 or ground_above then data[ivm] = c_stone elseif is_lake or y < sea_level then data[ivm] = c_sand else local temperature_y = temperature - y*elevation_chill if temperature_y >= 15 then data[ivm] = c_lawn elseif temperature_y >= 0 then data[ivm] = c_dirtsnow else data[ivm] = c_snow end end elseif y <= lake and lake > sea_level then if not use_biomes or temperature - y*elevation_chill >= 0 then data[ivm] = c_rwater else data[ivm] = c_ice end elseif y <= sea_level then data[ivm] = c_water end end ground_above = y <= terrain ivm = ivm - ystride if use_distort then nid = nid + incrY end end if use_distort then nid = nid + incrX end i2d = i2d + 1 end if use_distort then nid = nid + incrZ end end if use_biomegen_mod then biomegen.generate_all(data, a, vm, minp, maxp, seed) else vm:set_data(data) minetest.generate_ores(vm, minp, maxp) end vm:set_lighting({day = 0, night = 0}) vm:calc_lighting() vm:update_liquids() vm:write_to_map() local t = os.clock()-t0 ngen = ngen + 1 sumtime = sumtime + t sumtime2 = sumtime2 + t*t minetest.log("verbose", ("[mapgen_rivers] Done in %5.3f s"):format(t)) end minetest.register_on_generated(generate) minetest.register_on_shutdown(function() if ngen == 0 then return end local avg = sumtime / ngen local std = math.sqrt(sumtime2/ngen - avg*avg) minetest.log("action", ("[mapgen_rivers] Mapgen statistics:\n- Mapgen calls: %4d\n- Mean time: %5.3f s\n- Standard deviation: %5.3f s"):format(ngen, avg, std)) end)