--luacheck: ignore local Team = require 'modules.towny.team' local Table = require 'modules.towny.table' local Public = {} local math_random = math.random local table_insert = table.insert local math_floor = math.floor local min_distance_to_spawn = 128 local square_min_distance_to_spawn = min_distance_to_spawn ^ 2 local town_radius = 27 local radius_between_towns = 160 local ore_amount = 750 local colors = {} local c1 = 250 local c2 = 210 local c3 = -40 for v = c1, c2, c3 do table.insert(colors, {0, 0, v}) end for v = c1, c2, c3 do table.insert(colors, {0, v, 0}) end for v = c1, c2, c3 do table.insert(colors, {v, 0, 0}) end for v = c1, c2, c3 do table.insert(colors, {0, v, v}) end for v = c1, c2, c3 do table.insert(colors, {v, v, 0}) end for v = c1, c2, c3 do table.insert(colors, {v, 0, v}) end local town_wall_vectors = {} for x = 2, town_radius, 1 do table_insert(town_wall_vectors, {x, town_radius}) table_insert(town_wall_vectors, {x * -1, town_radius}) table_insert(town_wall_vectors, {x, town_radius * -1}) table_insert(town_wall_vectors, {x * -1, town_radius * -1}) end for y = 2, town_radius - 1, 1 do table_insert(town_wall_vectors, {town_radius, y}) table_insert(town_wall_vectors, {town_radius, y * -1}) table_insert(town_wall_vectors, {town_radius * -1, y}) table_insert(town_wall_vectors, {town_radius * -1, y * -1}) end local gate_vectors_horizontal = {} for x = -1, 1, 1 do table_insert(gate_vectors_horizontal, {x, town_radius}) table_insert(gate_vectors_horizontal, {x, town_radius * -1}) end local gate_vectors_vertical = {} for y = -1, 1, 1 do table_insert(gate_vectors_vertical, {town_radius, y}) table_insert(gate_vectors_vertical, {town_radius * -1, y}) end local resource_vectors = {} resource_vectors[1] = {} for x = 7, 24, 1 do for y = 7, 24, 1 do table_insert(resource_vectors[1], {x, y}) end end resource_vectors[2] = {} for _, vector in pairs(resource_vectors[1]) do table_insert(resource_vectors[2], {vector[1] * -1, vector[2]}) end resource_vectors[3] = {} for _, vector in pairs(resource_vectors[1]) do table_insert(resource_vectors[3], {vector[1] * -1, vector[2] * -1}) end resource_vectors[4] = {} for _, vector in pairs(resource_vectors[1]) do table_insert(resource_vectors[4], {vector[1], vector[2] * -1}) end local additional_resource_vectors = {} additional_resource_vectors[1] = {} for x = 10, 22, 1 do for y = -4, 4, 1 do table_insert(additional_resource_vectors[1], {x, y}) end end additional_resource_vectors[2] = {} for _, vector in pairs(additional_resource_vectors[1]) do table_insert(additional_resource_vectors[2], {vector[1] * -1, vector[2]}) end additional_resource_vectors[3] = {} for y = 10, 22, 1 do for x = -4, 4, 1 do table_insert(additional_resource_vectors[3], {x, y}) end end additional_resource_vectors[4] = {} for _, vector in pairs(additional_resource_vectors[3]) do table_insert(additional_resource_vectors[4], {vector[1], vector[2] * -1}) end local market_collide_vectors = {{-1, 1}, {0, 1}, {1, 1}, {1, 0}, {1, -1}} local clear_blacklist_types = { ['simple-entity'] = true, ['resource'] = true, ['cliff'] = true } local starter_supplies = { {name = 'raw-fish', count = 3}, {name = 'grenade', count = 3}, {name = 'stone', count = 32}, {name = 'land-mine', count = 4}, {name = 'iron-gear-wheel', count = 16}, {name = 'iron-plate', count = 32}, {name = 'copper-plate', count = 16}, {name = 'shotgun', count = 1}, {name = 'shotgun-shell', count = 8}, {name = 'firearm-magazine', count = 16}, {name = 'firearm-magazine', count = 16}, {name = 'gun-turret', count = 2} } local function count_nearby_ore(surface, position, ore_name) local count = 0 local r = town_radius + 8 for _, e in pairs(surface.find_entities_filtered({area = {{position.x - r, position.y - r}, {position.x + r, position.y + r}}, force = 'neutral', name = ore_name})) do count = count + e.amount end return count end local function draw_town_spawn(player_name) local townytable = Table.get_table() local market = townytable.town_centers[player_name].market local position = market.position local surface = market.surface local area = {{position.x - (town_radius + 1), position.y - (town_radius + 1)}, {position.x + (town_radius + 1), position.y + (town_radius + 1)}} for _, e in pairs(surface.find_entities_filtered({area = area, force = 'neutral'})) do if not clear_blacklist_types[e.type] then e.destroy() end end for _, vector in pairs(gate_vectors_horizontal) do local p = {position.x + vector[1], position.y + vector[2]} p = surface.find_non_colliding_position('gate', p, 64, 1) if p then surface.create_entity({name = 'gate', position = p, force = player_name, direction = 2}) end end for _, vector in pairs(gate_vectors_vertical) do local p = {position.x + vector[1], position.y + vector[2]} p = surface.find_non_colliding_position('gate', p, 64, 1) if p then surface.create_entity({name = 'gate', position = p, force = player_name, direction = 0}) end end for _, vector in pairs(town_wall_vectors) do local p = {position.x + vector[1], position.y + vector[2]} p = surface.find_non_colliding_position('stone-wall', p, 64, 1) if p then surface.create_entity({name = 'stone-wall', position = p, force = player_name}) end end local ores = {'iron-ore', 'copper-ore', 'stone', 'coal'} table.shuffle_table(ores) for i = 1, 4, 1 do if count_nearby_ore(surface, position, ores[i]) < 200000 then for _, vector in pairs(resource_vectors[i]) do local p = {position.x + vector[1], position.y + vector[2]} p = surface.find_non_colliding_position(ores[i], p, 64, 1) if p then surface.create_entity({name = ores[i], position = p, amount = ore_amount}) end end end end for _, item_stack in pairs(starter_supplies) do local m1 = -8 + math_random(0, 16) local m2 = -8 + math_random(0, 16) local p = {position.x + m1, position.y + m2} p = surface.find_non_colliding_position('wooden-chest', p, 64, 1) if p then local e = surface.create_entity({name = 'wooden-chest', position = p, force = player_name}) local inventory = e.get_inventory(defines.inventory.chest) inventory.insert(item_stack) end end local vector_indexes = {1, 2, 3, 4} table.shuffle_table(vector_indexes) local tree = 'tree-0' .. math_random(1, 9) for _, vector in pairs(additional_resource_vectors[vector_indexes[1]]) do if math_random(1, 6) == 1 then local p = {position.x + vector[1], position.y + vector[2]} p = surface.find_non_colliding_position(tree, p, 64, 1) if p then surface.create_entity({name = tree, position = p}) end end end local area = {{position.x - town_radius * 1.5, position.y - town_radius * 1.5}, {position.x + town_radius * 1.5, position.y + town_radius * 1.5}} if surface.count_tiles_filtered({name = {'water', 'deepwater'}, area = area}) < 8 then for _, vector in pairs(additional_resource_vectors[vector_indexes[2]]) do local p = {position.x + vector[1], position.y + vector[2]} if surface.get_tile(p).name ~= 'out-of-map' then surface.set_tiles({{name = 'water', position = p}}) end end end if count_nearby_ore(surface, position, 'uranium-ore') < 100000 then for _, vector in pairs(additional_resource_vectors[vector_indexes[3]]) do local p = {position.x + vector[1], position.y + vector[2]} p = surface.find_non_colliding_position('uranium-ore', p, 64, 1) if p then surface.create_entity({name = 'uranium-ore', position = p, amount = ore_amount * 2}) end end end local vectors = additional_resource_vectors[vector_indexes[4]] for _ = 1, 3, 1 do local vector = vectors[math_random(1, #vectors)] local p = {position.x + vector[1], position.y + vector[2]} p = surface.find_non_colliding_position('crude-oil', p, 64, 1) if p then surface.create_entity({name = 'crude-oil', position = p, amount = 500000}) end end end local function flying_text(surface, position, text, color) surface.create_entity( { name = 'flying-text', position = {position.x, position.y - 0.5}, text = text, color = color } ) end local function is_valid_location(surface, entity) local townytable = Table.get_table() for _, vector in pairs(market_collide_vectors) do local p = {entity.position.x + vector[1], entity.position.y + vector[2]} if not surface.can_place_entity({name = 'iron-chest', position = p}) then flying_text(surface, entity.position, {'modules_towny.message_error_obstructed'}, {r = 0.77, g = 0.0, b = 0.0}) return end end if townytable.size_of_town_centers > 48 then flying_text(surface, entity.position, {'modules_towny.message_error_toomany'}, {r = 0.77, g = 0.0, b = 0.0}) return end if entity.position.x ^ 2 + entity.position.y ^ 2 < square_min_distance_to_spawn then flying_text(surface, entity.position, {'modules_towny.message_error_close_spawn_town'}, {r = 0.77, g = 0.0, b = 0.0}) return end local area = { {entity.position.x - radius_between_towns, entity.position.y - radius_between_towns}, {entity.position.x + radius_between_towns, entity.position.y + radius_between_towns} } if surface.count_entities_filtered({area = area, name = 'market'}) > 0 then flying_text(surface, entity.position, {'modules_towny.message_error_close_other_town'}, {r = 0.77, g = 0.0, b = 0.0}) return end local area = {{entity.position.x - town_radius, entity.position.y - town_radius}, {entity.position.x + town_radius, entity.position.y + town_radius}} local count = 0 for _, e in pairs(surface.find_entities_filtered({area = area})) do if e.force.index ~= 3 then count = count + 1 end end if count > 2 then flying_text(surface, entity.position, {'modules_towny.message_error_neutral_entities'}, {r = 0.77, g = 0.0, b = 0.0}) return end return true end function Public.set_market_health(entity, final_damage_amount) local townytable = Table.get_table() local town_center = townytable.town_centers[entity.force.name] town_center.health = math_floor(town_center.health - final_damage_amount) if town_center.health > town_center.max_health then town_center.health = town_center.max_health end local m = town_center.health / town_center.max_health entity.health = 150 * m rendering.set_text(town_center.health_text, 'HP: ' .. town_center.health .. ' / ' .. town_center.max_health) end local function is_color_used(color, town_centers) for k, center in pairs(town_centers) do if center.color then if center.color.r == color.r and center.color.g == color.g and center.color.b == color.b then return true end end end end local function get_color() local townytable = Table.get_table() local town_centers = townytable.town_centers local c local shuffle_index = {} for i = 1, #colors, 1 do shuffle_index[i] = i end table.shuffle_table(shuffle_index) for i = 1, #colors, 1 do c = {r = colors[shuffle_index[i]][1], g = colors[shuffle_index[i]][2], b = colors[shuffle_index[i]][3]} if not is_color_used(c, town_centers) then return c end end return c end function Public.found(event) local townytable = Table.get_table() local entity = event.created_entity if entity.force.index ~= 1 then return end if entity.name ~= 'stone-furnace' then return end local player = game.players[event.player_index] local player_name = tostring(player.name) if game.forces[player_name] then return end if not townytable.town_buttons[player.index] then return end local surface = entity.surface if townytable.cooldowns[player.index] then if game.tick < townytable.cooldowns[player.index] then flying_text( surface, entity.position, {'modules_towny.message_error_cooldown', math.ceil((townytable.cooldowns[player.index] - game.tick) / 3600)}, {r = 0.77, g = 0.0, b = 0.0} ) player.insert({name = 'stone-furnace', count = 1}) entity.destroy() return true end end if not is_valid_location(surface, entity) then player.insert({name = 'stone-furnace', count = 1}) entity.destroy() return true end Team.add_new_force(player_name) townytable.town_centers[player_name] = {} local town_center = townytable.town_centers[player_name] town_center.market = surface.create_entity({name = 'market', position = entity.position, force = player_name}) town_center.chunk_position = {math.floor(town_center.market.position.x / 32), math.floor(town_center.market.position.y / 32)} town_center.max_health = 1000 town_center.health = town_center.max_health town_center.color = get_color() town_center.research_counter = 1 town_center.upgrades = {} town_center.upgrades.mining_prod = 0 town_center.health_text = rendering.draw_text { text = 'HP: ' .. town_center.health .. ' / ' .. town_center.max_health, surface = surface, target = town_center.market, target_offset = {0, -2.5}, color = {200, 200, 200}, scale = 1.00, font = 'default-game', alignment = 'center', scale_with_zoom = false } town_center.town_caption = rendering.draw_text { text = player.name .. "'s Town", surface = surface, target = town_center.market, target_offset = {0, -3.25}, color = town_center.color, scale = 1.30, font = 'default-game', alignment = 'center', scale_with_zoom = false } townytable.size_of_town_centers = townytable.size_of_town_centers + 1 entity.destroy() draw_town_spawn(player_name) Team.add_player_to_town(player, town_center) Team.add_chart_tag(game.forces.player, town_center.market) local force = player.force force.set_spawn_position({x = town_center.market.position.x, y = town_center.market.position.y + 4}, surface) townytable.cooldowns[player.index] = game.tick + 3600 * 15 townytable.town_buttons[player.index] = false game.print({'modules_towny.message_town_found', player.name}, {255, 255, 0}) return true end return Public