--[[-- info Provides the ability to spawn random ores all over the place. ]] -- dependencies local Event = require 'utils.event' local Debug = require 'map_gen.Diggy.Debug' local Template = require 'map_gen.Diggy.Template' local Perlin = require 'map_gen.shared.perlin_noise' local Simplex = require 'map_gen.shared.simplex_noise' local random = math.random local sqrt = math.sqrt local ceil = math.ceil -- this local ScatteredResources = {} local function get_name_by_weight(collection, sum) local pre_calculated = random() local current = 0 local target = pre_calculated * sum for name, weight in pairs(collection) do current = current + weight if (current >= target) then return name end end Debug.print('Current \'' .. current .. '\' should be higher or equal to random \'' .. target .. '\'') end --[[-- Registers all event handlers. ]] function ScatteredResources.register(config) -- source of noise for resource generation -- index determines offset -- '-1' is reserved for cluster mode -- compound clusters use as many indexes as needed > 1 local base_seed local function seeded_noise(surface, x, y, index, sources) base_seed = base_seed or surface.map_gen_settings.seed + surface.index + 4000 local noise = 0 for _, settings in pairs(sources) do settings.type = settings.type or 'perlin' settings.offset = settings.offset or 0 if settings.type == 'zero' then noise = noise + 0 elseif settings.type == 'one' then noise = noise + settings.weight * 1 elseif settings.type == 'perlin' then noise = noise + settings.weight * Perlin.noise(x/settings.variance, y/settings.variance, base_seed + 2000*index + settings.offset) elseif settings.type == 'simplex' then noise = noise + settings.weight * Simplex.d2(x/settings.variance, y/settings.variance, base_seed + 2000*index + settings.offset) else Debug.print('noise type \'' .. settings.type .. '\' not recognized') end end return noise end -- global config values local resource_richness_weights = config.resource_richness_weights local resource_richness_weights_sum = 0 for _, weight in pairs(resource_richness_weights) do resource_richness_weights_sum = resource_richness_weights_sum + weight end local resource_richness_values = config.resource_richness_values local resource_type_scalar = config.resource_type_scalar -- scattered config values local s_mode = config.scattered_mode local s_dist_mod = config.scattered_distance_probability_modifier local s_min_prob = config.scattered_min_probability local s_max_prob = config.scattered_max_probability local s_dist_richness = config.scattered_distance_richness_modifier local s_cluster_prob = config.scattered_cluster_probability_multiplier local s_cluster_mult = config.scattered_cluster_yield_multiplier local s_resource_weights = config.scattered_resource_weights local s_resource_weights_sum = 0 for _, weight in pairs(s_resource_weights) do s_resource_weights_sum = s_resource_weights_sum + weight end local s_min_dist = config.scattered_minimum_resource_distance -- cluster config values local cluster_mode = config.cluster_mode -- compound cluster spawning local c_mode = config.cluster_mode local c_clusters = config.ore_pattern if 'table' ~= type(c_clusters) then error('ore_pattern invalid') end local c_count = 0 for _, cluster in pairs(c_clusters) do c_count = c_count + 1 cluster.weights_sum = 0 -- ensure the cluster colors are valid otherwise it fails silently -- and breaks things elsewhere if cluster.color then local c = cluster.color if (not c.r) or (not c.g) or (not c.b) then cluster.color = nil elseif c.r < 0 or c.r > 1 or c.g < 0 or c.g > 1 or c.b < 0 or c.b > 1 then cluster.color = nil end end for _, weight in pairs(cluster.weights) do cluster.weights_sum = cluster.weights_sum + weight end end local function spawn_cluster_resource(surface, x, y, cluster_index, cluster) local distance = sqrt(x * x + y * y) local resource_name = get_name_by_weight(cluster.weights, cluster.weights_sum) if resource_name == 'skip' then return false end if cluster.distances[resource_name] then if distance < cluster.distances[resource_name] then return false end end local range = resource_richness_values[get_name_by_weight(resource_richness_weights, resource_richness_weights_sum)] local amount = random(range[1], range[2]) amount = amount * (1 + ((distance / cluster.distance_richness) * 0.01)) amount = amount * cluster.yield if resource_type_scalar[resource_name] then amount = amount * resource_type_scalar[resource_name] end Template.resources(surface, {{name = resource_name, position = {x = x, y = y}, amount = ceil(amount)}}) return true end -- event registration Event.add(Template.events.on_void_removed, function (event) local position = event.position local x = position.x local y = position.y local surface = event.surface local distance = config.distance(x, y) if c_mode then for index,cluster in pairs(c_clusters) do if distance >= cluster.min_distance and cluster.noise_settings.type ~= 'skip' then if cluster.noise_settings.type == "connected_tendril" then local noise = seeded_noise(surface, x, y, index, cluster.noise_settings.sources) if -1 * cluster.noise_settings.threshold < noise and noise < cluster.noise_settings.threshold then if spawn_cluster_resource(surface, x, y, index, cluster) then return -- resource spawned end end elseif cluster.noise_settings.type == "fragmented_tendril" then local noise1 = seeded_noise(surface, x, y, index, cluster.noise_settings.sources) local noise2 = seeded_noise(surface, x, y, index, cluster.noise_settings.discriminator) if -1 * cluster.noise_settings.threshold < noise1 and noise1 < cluster.noise_settings.threshold and -1 * cluster.noise_settings.discriminator_threshold < noise2 and noise2 < cluster.noise_settings.discriminator_threshold then if spawn_cluster_resource(surface, x, y, index, cluster) then return -- resource spawned end end else local noise = seeded_noise(surface, x, y, index, cluster.noise_settings.sources) if noise >= cluster.noise_settings.threshold then if spawn_cluster_resource(surface, x, y, index, cluster) then return -- resource spawned end end end end end end if s_mode then local probability = math.min(s_max_prob, s_min_prob + 0.01 * (distance / s_dist_mod)) if (cluster_mode) then probability = probability * s_cluster_prob end if (probability > random()) then -- spawn single resource point for scatter mode local resource_name = get_name_by_weight(s_resource_weights, s_resource_weights_sum) if resource_name == 'skip' or s_min_dist[resource_name] > distance then return end local range = resource_richness_values[get_name_by_weight(resource_richness_weights, resource_richness_weights_sum)] local amount = random(range[1], range[2]) amount = amount * (1 + ((distance / s_dist_richness) * 0.01)) if resource_type_scalar[resource_name] then amount = amount * resource_type_scalar[resource_name] end if (cluster_mode) then amount = amount * s_cluster_mult end Template.resources(surface, {{name = resource_name, position={x=x,y=y}, amount = ceil(amount)}}) end end end) if (config.display_ore_clusters) then local color = {} Event.add(defines.events.on_chunk_generated, function (event) local surface = event.surface local area = event.area for x = area.left_top.x, area.left_top.x + 31 do for y = area.left_top.y, area.left_top.y + 31 do for index,cluster in pairs(c_clusters) do if cluster.noise_settings.type == "connected_tendril" then local noise = seeded_noise(surface, x, y, index, cluster.noise_settings.sources) if -1 * cluster.noise_settings.threshold < noise and noise < cluster.noise_settings.threshold then color[index] = color[index] or cluster.color or {r=random(), g=random(), b=random()} Debug.print_colored_grid_value('o' .. index, surface, {x = x, y = y}, nil, nil, true, 0, color[index]) end elseif cluster.noise_settings.type == "fragmented_tendril" then local noise1 = seeded_noise(surface, x, y, index, cluster.noise_settings.sources) local noise2 = seeded_noise(surface, x, y, index, cluster.noise_settings.discriminator) if -1 * cluster.noise_settings.threshold < noise1 and noise1 < cluster.noise_settings.threshold and -1 * cluster.noise_settings.discriminator_threshold < noise2 and noise2 < cluster.noise_settings.discriminator_threshold then color[index] = color[index] or cluster.color or {r=random(), g=random(), b=random()} Debug.print_colored_grid_value('o' .. index, surface, {x = x, y = y}, nil, nil, true, 0, color[index]) end elseif cluster.noise_settings.type ~= 'skip' then local noise = seeded_noise(surface, x, y, index, cluster.noise_settings.sources) if noise >= cluster.noise_settings.threshold then color[index] = color[index] or cluster.color or {r=random(), g=random(), b=random()} Debug.print_colored_grid_value('o' .. index, surface, {x = x, y = y}, nil, nil, true, 0, color[index]) end end end end end end) end end function ScatteredResources.get_extra_map_info(config) return [[Scattered Resources, resources are everywhere! Scans of the mine have shown greater amounts of resources to be deeper in the mine]] end return ScatteredResources