local Random = require 'map_gen.shared.random' local Token = require 'utils.global_token' local Global = require 'utils.global' local Event = require 'utils.event' local Task = require 'utils.Task' local Market = require 'map_gen.presets.crash_site.market' local PlayerStats = require 'player_stats' local b = require 'map_gen.shared.builders' local direction_bit_mask = 0xc0000000 local section_bit_mask = 0x30000000 local level_bit_mask = 0x0fffffff local not_level_bit_mask = 0xf0000000 local direction_bit_shift = 30 local section_bit_shift = 28 local section_straight = 0 local section_outer_corner = 1 local section_inner_corner = 2 local wall_north_straight = 0x00000001 local wall_east_straight = 0x40000001 local wall_south_straight = 0x80000001 local wall_west_straight = 0xc0000001 local wall_north_outer = 0x10000001 local wall_east_outer = 0x50000001 local wall_south_outer = 0x90000001 local wall_west_outer = 0xd0000001 local wall_north_inner = 0x20000001 local wall_east_inner = 0x60000001 local wall_south_inner = 0xa0000001 local wall_west_inner = 0xe0000001 local part_size = 6 local inv_part_size = 1 / part_size local refill_turrets = {index = 1} local power_sources = {} local magic_crafters = {index = 1} Global.register( { refil_turrets = refill_turrets, power_sources = power_sources, magic_crafters = magic_crafters }, function(tbl) refill_turrets = tbl.refil_turrets power_sources = tbl.power_sources magic_crafters = tbl.magic_crafters end ) local function get_direction(part) local dir = bit32.band(part, direction_bit_mask) return bit32.rshift(dir, direction_bit_shift - 1) end local function get_4_way_direction(part) local dir = bit32.band(part, direction_bit_mask) return bit32.rshift(dir, direction_bit_shift) end local function get_section(part) local sec = bit32.band(part, section_bit_mask) return bit32.rshift(sec, section_bit_shift) end local function get_level(part) return bit32.band(part, level_bit_mask) end local function set_level(part, level) local not_level = bit32.band(part) return not_level + level end local function set_block(tbl, x, y, value) tbl[(y - 1) * tbl.size + x] = value end local function get_block(tbl, x, y) local size = tbl.size if x < 1 or x > size or y < 1 or y > size then return 0 end return tbl[(y - 1) * size + x] or 0 end local function fast_remove(tbl, index) local count = #tbl if index > count then return elseif index < count then tbl[index] = tbl[count] end tbl[count] = nil end local Public = {} Public.__index = Public Public.empty_template = {} function Public.new(random) local obj = {random = random} return setmetatable(obj, Public) end local function do_walls(self, blocks, outpost_variance, outpost_min_step) local size = blocks.size local random = self.random local max_variance = size - outpost_variance + 1 local variance_step = outpost_variance + outpost_min_step local x = random:next_int(1, outpost_variance) local y = random:next_int(1, outpost_variance) local start_x, start_y = x, y local i = (y - 1) * size + x local pv = -1 -- top while x < size do local tx = x + random:next_int(outpost_min_step, variance_step) tx = math.min(tx, size) if pv == 0 then blocks[i] = wall_north_straight elseif pv == -1 then blocks[i] = wall_north_outer else blocks[i] = wall_east_inner end x = x + 1 i = i + 1 while x < tx do blocks[i] = wall_north_straight x = x + 1 i = i + 1 end if x < size - outpost_min_step then local ty = random:next_int(1, outpost_variance) if y == ty then pv = 0 elseif y < ty then pv = 1 blocks[i] = wall_east_outer y = y + 1 i = i + size while y < ty do blocks[i] = wall_east_straight y = y + 1 i = i + size end else pv = -1 blocks[i] = wall_north_inner y = y - 1 i = i - size while y > ty do blocks[i] = wall_west_straight y = y - 1 i = i - size end end else pv = 0 end end pv = 1 -- right while y < size do local ty = y + random:next_int(outpost_min_step, variance_step) ty = math.min(ty, size) if pv == 0 then blocks[i] = wall_east_straight elseif pv == -1 then blocks[i] = wall_south_inner else blocks[i] = wall_east_outer end y = y + 1 i = i + size while y < ty do blocks[i] = wall_east_straight y = y + 1 i = i + size end if y < size - outpost_min_step then local tx = random:next_int(max_variance, size) if x == tx then pv = 0 elseif x < tx then pv = 1 blocks[i] = wall_east_inner x = x + 1 i = i + 1 while x < tx do blocks[i] = wall_north_straight x = x + 1 i = i + 1 end else pv = -1 blocks[i] = wall_south_outer x = x - 1 i = i - 1 while x > tx do blocks[i] = wall_south_straight x = x - 1 i = i - 1 end end else pv = 0 end end pv = 1 -- bottom while x > 1 do local tx = x - random:next_int(outpost_min_step, variance_step) tx = math.max(tx, 1) if pv == 0 then blocks[i] = wall_south_straight elseif pv == -1 then blocks[i] = wall_west_inner else blocks[i] = wall_south_outer end x = x - 1 i = i - 1 while x > tx do blocks[i] = wall_south_straight x = x - 1 i = i - 1 end if x > outpost_min_step + 1 then local ty = random:next_int(max_variance, size) if y == ty then pv = 0 elseif y < ty then pv = 1 blocks[i] = wall_south_inner y = y + 1 i = i + size while y < ty do blocks[i] = wall_east_straight y = y + 1 i = i + size end else pv = -1 blocks[i] = wall_west_outer y = y - 1 i = i - size while y > ty do blocks[i] = wall_west_straight y = y - 1 i = i - size end end else pv = 0 end end pv = -1 -- left local bottom_left_y = y while y > start_y + variance_step do local ty = y - random:next_int(outpost_min_step, variance_step) ty = math.max(ty, start_y) if pv == 0 then blocks[i] = wall_west_straight elseif pv == -1 then blocks[i] = wall_west_outer else blocks[i] = wall_north_inner end y = y - 1 i = i - size while y > ty do blocks[i] = wall_west_straight y = y - 1 i = i - size end if y > start_y + variance_step + outpost_min_step then local tx = random:next_int(1, outpost_variance) if x == tx then pv = 0 elseif x < tx then pv = 1 --blocks[i] = wall_west_outer blocks[i] = wall_north_outer x = x + 1 i = i + 1 while x < tx do blocks[i] = wall_north_straight x = x + 1 i = i + 1 end else pv = -1 blocks[i] = wall_west_inner x = x - 1 i = i - 1 while x > tx do blocks[i] = wall_south_straight x = x - 1 i = i - 1 end end else pv = 0 end end -- final connection if y == bottom_left_y then blocks[i] = wall_west_outer y = y - 1 i = i - size while y > bottom_left_y - outpost_min_step do blocks[i] = wall_west_straight y = y - 1 i = i - size end end if x == start_x then pv = 0 elseif x < start_x then pv = 1 blocks[i] = wall_north_outer x = x + 1 i = i + 1 while x < start_x do blocks[i] = wall_north_straight x = x + 1 i = i + 1 end else pv = -1 blocks[i] = wall_west_inner x = x - 1 i = i - 1 while x > start_x do blocks[i] = wall_south_straight x = x - 1 i = i - 1 end end if pv == 0 then blocks[i] = wall_west_straight elseif pv == -1 then blocks[i] = wall_west_outer else blocks[i] = wall_north_inner end y = y - 1 i = i - size while y > start_y do blocks[i] = wall_west_straight y = y - 1 i = i - size end end local function fill(blocks) local size = blocks.size local anti_set = {size = size} local anti_stack = {} local y_offset = (size - 1) * size for x = 1, size do if blocks[x] == nil then table.insert(anti_stack, {x = x, y = 1}) end if blocks[x + y_offset] == nil then table.insert(anti_stack, {x = x, y = size}) end end for y = 2, size do y_offset = (y - 1) * size if blocks[y_offset + 1] == nil then table.insert(anti_stack, {x = 1, y = y}) end if blocks[y_offset + size] == nil then table.insert(anti_stack, {x = size, y = y}) end end while #anti_stack > 0 do local point = table.remove(anti_stack) local x, y = point.x, point.y local offset = (y - 1) * size + x anti_set[offset] = true if x > 1 then local x2 = x - 1 local offset2 = offset - 1 if not anti_set[offset2] and not blocks[offset2] then table.insert(anti_stack, {x = x2, y = y}) end end if x < size then local x2 = x + 1 local offset2 = offset + 1 if not anti_set[offset2] and not blocks[offset2] then table.insert(anti_stack, {x = x2, y = y}) end end if y > 1 then local y2 = y - 1 local offset2 = offset - size if not anti_set[offset2] and not blocks[offset2] then table.insert(anti_stack, {x = x, y = y2}) end end if y < size then local y2 = y + 1 local offset2 = offset + size if not anti_set[offset2] and not blocks[offset2] then table.insert(anti_stack, {x = x, y = y2}) end end end for y = 1, size do local offset = (y - 1) * size for x = 1, size do local i = offset + x if not anti_set[i] and not blocks[i] then blocks[i] = 2 end end end end local function do_levels(blocks, max_level) local size = blocks.size local level = 2 while level < max_level do local next_level = level + 1 for y = 1, size do local offset = (y - 1) * size for x = 1, size do local i = offset + x if get_level(blocks[i] or 0) >= level then local count = 0 if x > 1 and get_level(blocks[i - 1] or 0) >= level then count = count + 1 end if x < size and get_level(blocks[i + 1] or 0) >= level then count = count + 1 end if y > 1 and get_level(blocks[i - size] or 0) >= level then count = count + 1 end if y < size and get_level(blocks[i + size] or 0) >= level then count = count + 1 end if count == 4 then blocks[i] = next_level end end end end level = level + 1 end local levels = {} blocks.levels = levels for i = 1, max_level do levels[i] = {} end for y = 1, size do local offset = (y - 1) * size for x = 1, size do local i = offset + x local block = blocks[i] if block then local l = get_level(block) table.insert(levels[l], i) end end end end local function get_template(random, templates, templates_count, counts) local template if templates_count == 0 then return nil elseif templates_count == 1 then template = templates[1] else local ti = random:next_int(1, templates_count) template = templates[ti] end if template == Public.empty_template then return nil end local count = counts[template] or 0 local max_count = template.max_count while count == max_count do template = template.fallback if template == nil then return nil end count = counts[template] or 0 max_count = template.max_count end counts[template] = count + 1 return template end local function make_blocks(self, blocks, template) local random = self.random local levels = blocks.levels local wall_level = levels[1] local walls = template.walls local wall_template_count = #walls for _, i in ipairs(wall_level) do local ti = random:next_int(1, wall_template_count) local block = walls[ti] if block == Public.empty_template then blocks[i] = nil else local block_data = blocks[i] local section = get_section(block_data) local dir = get_4_way_direction(block_data) local new_block = block[section + 1][dir + 1] blocks[i] = new_block end end local counts = {} local bases = template.bases for l = 2, #levels do local level = levels[l] local base_templates = bases[l - 1] if base_templates then local base_template_count = #base_templates while #level > 0 do local index = random:next_int(1, #level) local i = level[index] fast_remove(level, index) blocks[i] = get_template(random, base_templates, base_template_count, counts) end else for _, i in ipairs(level) do blocks[i] = nil end end end end local remove_entity_types = {'tree', 'simple-entity'} local function to_shape(blocks) local size = blocks.size local t_size = size * part_size local half_t_size = t_size * 0.5 return function(x, y, world) x, y = math.floor(x + half_t_size), math.floor(y + half_t_size) if x < 0 or y < 0 or x >= t_size or y >= t_size then return false end local x2, y2 = math.floor(x * inv_part_size), math.floor(y * inv_part_size) local template = blocks[y2 * size + x2 + 1] if not template then return false end local wx, wy = world.x, world.y for _, e in ipairs( world.surface.find_entities_filtered( { area = {{wx, wy}, {wx + 1, wy + 1}}, type = remove_entity_types } ) ) do e.destroy() end local x3, y3 = x - x2 * part_size, y - y2 * part_size local i = y3 * part_size + x3 + 1 local entry = template[i] if not entry then return false end local entity = entry.entity local tile = entry.tile or true if entity then local data local callback = entity.callback if callback then local cd = template[callback] callback = cd.callback data = cd.data end return { tile = tile, entities = { { name = entity.name, direction = entity.direction, force = template.force, callback = callback, data = data, always_place = true } } } end return tile end end function Public:do_outpost(template) local settings = template.settings local blocks = {size = settings.blocks} do_walls(self, blocks, settings.variance, settings.min_step) fill(blocks) do_levels(blocks, settings.max_level) make_blocks(self, blocks, template) return to_shape(blocks) end function Public.to_shape(blocks) return to_shape(blocks) end local function change_direction(entity, new_dir) local copy = {} for k, v in pairs(entity) do copy[k] = v end copy.direction = new_dir return copy end function Public.make_1_way(data) data.__index = data return data end local function set_tile(tbl, index, tile) local entry = tbl[index] if entry then entry.tile = tile else tbl[index] = {tile = tile} end end local function set_entity(tbl, index, entity) local entry = tbl[index] if entry then entry.entity = entity else tbl[index] = {entity = entity} end end function Public.make_4_way(data) local props = {} local north = {} local east = {} local south = {} local west = {} local res = {north, east, south, west} for i, entry in pairs(data) do if type(i) == 'string' then props[i] = entry else local y = math.ceil(i * inv_part_size) local x = i - (y - 1) * part_size local x2 = part_size - y + 1 local y2 = x local x3 = part_size - x + 1 local y3 = part_size - y + 1 local x4 = y local y4 = part_size - x + 1 local i2 = (y2 - 1) * part_size + x2 local i3 = (y3 - 1) * part_size + x3 local i4 = (y4 - 1) * part_size + x4 local tile = entry.tile if tile then set_tile(north, i, tile) set_tile(east, i2, tile) set_tile(south, i3, tile) set_tile(west, i4, tile) end local entity = entry.entity if entity then local offset = entity.offset if offset == 3 then i = i + 7 i2 = i2 + 6 i4 = i4 + 1 elseif offset == 1 then i = i + 1 i2 = i2 + 6 elseif offset == 2 then i = i + 6 i4 = i4 + 1 end local dir = entity.direction or 0 set_entity(north, i, entity) set_entity(east, i2, change_direction(entity, (dir + 2) % 8)) set_entity(south, i3, change_direction(entity, (dir + 4) % 8)) set_entity(west, i4, change_direction(entity, (dir + 6) % 8)) end end end north.__index = north east.__index = east south.__index = south west.__index = west for k, v in pairs(props) do north[k] = v east[k] = v south[k] = v west[k] = v end return res end local function shallow_copy(tbl) local copy = {} for k, v in pairs(tbl) do copy[k] = v end return copy end function Public.extend_1_way(data, tbl) return setmetatable(shallow_copy(tbl), data) end function Public.extend_4_way(data, tbl) return { setmetatable(shallow_copy(tbl), data[1]), setmetatable(shallow_copy(tbl), data[2]), setmetatable(shallow_copy(tbl), data[3]), setmetatable(shallow_copy(tbl), data[4]) } end function Public.extend_walls(data, tbl) return { Public.extend_4_way(data[1], tbl), Public.extend_4_way(data[2], tbl), Public.extend_4_way(data[3], tbl) } end local function do_refill_turrets() local index = refill_turrets.index if index > #refill_turrets then refill_turrets.index = 1 return end local data = refill_turrets[index] local turret = data.turret if not turret.valid then fast_remove(refill_turrets, index) return end refill_turrets.index = index + 1 local ammo = data.ammo if data.liquid then turret.fluidbox[1] = ammo elseif ammo then turret.insert(ammo) end end local function do_magic_crafters() local index = magic_crafters.index if index > #magic_crafters then magic_crafters.index = 1 return end local data = magic_crafters[index] local entity = data.entity if not entity.valid then fast_remove(magic_crafters, index) return end magic_crafters.index = index + 1 local tick = game.tick local last_tick = data.last_tick local rate = data.rate local count = (tick - last_tick) * rate local fcount = math.floor(count) if fcount > 0 then local fluidbox_index = data.fluidbox_index if fluidbox_index then local fb = entity.fluidbox local fb_data = fb[fluidbox_index] or {name = data.item, amount = 0} fb_data.amount = fb_data.amount + fcount fb[fluidbox_index] = fb_data else entity.get_output_inventory().insert {name = data.item, count = fcount} end data.last_tick = tick - (count - fcount) / rate end end local function tick() do_refill_turrets() do_magic_crafters() end Public.refill_turret_callback = Token.register( function(turret, ammo) table.insert(refill_turrets, {turret = turret, ammo = ammo}) end ) Public.refill_liquid_turret_callback = Token.register( function(turret, ammo) table.insert(refill_turrets, {turret = turret, ammo = ammo, liquid = true}) end ) Public.power_source_callback = Token.register( function(entity, data) local power_source = entity.surface.create_entity {name = 'hidden-electric-energy-interface', position = entity.position} power_source.electric_buffer_size = data.buffer_size power_source.power_production = data.power_production power_sources[entity.unit_number] = power_source end ) Public.power_source_player_callback = Token.register( function(entity, data) local power_source = entity.surface.create_entity {name = 'hidden-electric-energy-interface', position = entity.position} power_source.electric_buffer_size = data.buffer_size power_source.power_production = data.power_production power_sources[entity.unit_number] = power_source entity.minable = false entity.operable = false entity.destructible = false end ) local function add_magic_crafter_output(entity, output, distance) local rate = output.min_rate + output.distance_factor * distance table.insert( magic_crafters, { entity = entity, last_tick = game.tick, rate = rate, item = output.item, fluidbox_index = output.fluidbox_index } ) end local set_inactive_token = Token.register( function(entity) if entity.valid then entity.active = false end end ) Public.magic_item_crafting_callback = Token.register( function(entity, data) entity.minable = false entity.destructible = false entity.operable = false local recipe = data.recipe if recipe then entity.set_recipe(recipe) else local furance_item = data.furance_item if furance_item then local inv = entity.get_inventory(2) -- defines.inventory.furnace_source inv.insert(furance_item) end end local p = entity.position local x, y = p.x, p.y local distance = math.sqrt(x * x + y * y) local output = data.output if #output == 0 then add_magic_crafter_output(entity, output, distance) else for _, o in ipairs(data.output) do add_magic_crafter_output(entity, o, distance) end end if not data.keep_active then Task.set_timeout_in_ticks(2, set_inactive_token, entity) -- causes problems with refineries. end end ) Public.deactivate_callback = Token.register( function(entity) entity.active = false entity.operable = false entity.destructible = false end ) local function remove_power_source(event) local entity = event.entity if not entity or not entity.valid then return end local number = entity.unit_number if not number then return end local ps = power_sources[number] power_sources[number] = nil if ps and ps.valid then ps.destroy() end end Public.market_set_items_callback = Token.register( function(entity, data) if not entity.valid then return end entity.destructible = false local p = entity.position local x, y = p.x, p.y local d = math.sqrt(x * x + y * y) local market_data = {} for i, item in ipairs(data) do local price = item.price local df = item.distance_factor if df then local min_price = item.min_price or 1 price = item.price - d * df price = math.max(price, min_price) end market_data[i] = {name = item.name, price = price} end Market.add_market(entity.position, market_data) end ) Public.firearm_magazine_ammo = {name = 'firearm-magazine', count = 200} Public.piercing_rounds_magazine_ammo = {name = 'piercing-rounds-magazine', count = 200} Public.uranium_rounds_magazine_ammo = {name = 'uranium-rounds-magazine', count = 200} Public.artillery_shell_ammo = {name = 'artillery-shell', count = 15} Public.light_oil_ammo = {name = 'light-oil', amount = 100} Public.laser_turrent_power_source = {buffer_size = 2400000, power_production = 40000} function Public.prepare_weighted_loot(loot) local total = 0 local weights = {} for _, v in ipairs(loot) do total = total + v.weight table.insert(weights, total) end weights.total = total return weights end function Public.do_random_loot(entity, weights, loot) if not entity.valid then return end entity.operable = false entity.destructible = false local i = math.random() * weights.total local index = table.binary_search(weights, i) if (index < 0) then index = bit32.bnot(index) end local stack = loot[index].stack if not stack then return end local df = stack.distance_factor local count if df then local p = entity.position local x, y = p.x, p.y local d = math.sqrt(x * x + y * y) count = stack.count + d * df else count = stack.count end entity.insert {name = stack.name, count = count} end function Public.do_random_fluid_loot(entity, weights, loot) if not entity.valid then return end entity.operable = false entity.destructible = false local i = math.random() * weights.total local index = table.binary_search(weights, i) if (index < 0) then index = bit32.bnot(index) end local stack = loot[index].stack if not stack then return end local df = stack.distance_factor local count if df then local p = entity.position local x, y = p.x, p.y local d = math.sqrt(x * x + y * y) count = stack.count + d * df else count = stack.count end entity.fluidbox[1] = {name = stack.name, amount = count} end local function coin_mined(event) local stack = event.item_stack if stack.name == 'coin' then PlayerStats.change_coin_earned(event.player_index, stack.count) end end Event.add(defines.events.on_tick, tick) Event.add(defines.events.on_entity_died, remove_power_source) Event.on_init( function() game.forces.neutral.recipes['steel-plate'].enabled = true end ) Event.add(defines.events.on_player_mined_item, coin_mined) return Public