local perlin = require 'map_gen.shared.perlin_noise' -- list of {x, y, ore_type, size, richness, rng_seed} local ctrs = { {1, -15, 'iron-ore', 0.3, 400, 113}, {15, 15, 'copper-ore', 0.3, 400, 80}, {4, 21, 'coal', 0.25, 640, 31}, {10, 0, 'stone', 0.5, 100, 17}, {-17, 7, 'uranium-ore', 0.6, 100, 203} } local function harmonic(x, y) local max_idx = 0 local max = -1 local richness = 0 for i, e in ipairs(ctrs) do local noise = perlin.noise(x / 32, y / 32, ctrs[i][6]) local h_coeff = 1 / (1 + .05 * math.sqrt( (x / 32 - ctrs[i][1]) * (x / 32 - ctrs[i][1]) + (y / 32 - ctrs[i][2]) * (y / 32 - ctrs[i][2]) )) if noise > max and noise > h_coeff * ctrs[i][4] + (1 - h_coeff) then max = noise max_idx = i richness = (40 * (1 - h_coeff) + 0.5 * h_coeff) * ctrs[i][5] end end return max, max_idx, richness end return function(x, y, world) if math.abs(world.x / 32) < 3 and math.abs(world.y / 32) < 3 then return end local entities = world.surface.find_entities_filtered {position = {world.x + 0.5, world.y + 0.5}, type = 'resource'} for _, e in ipairs(entities) do if e.name ~= 'crude-oil' then e.destroy() end end local max, max_idx, richness = harmonic(world.x, world.y) if -1 ~= max then return {name = ctrs[max_idx][3], amount = richness} end end