require "async" require "async/barrier" class Item < ApplicationRecord include PrettyParam include Item::Dyeworks # We use the `type` column to mean something other than what Rails means! self.inheritance_column = nil SwfAssetType = 'object' has_many :closet_hangers has_one :contribution, :as => :contributed, :inverse_of => :contributed has_one :nc_mall_record has_many :parent_swf_asset_relationships, :as => :parent has_many :swf_assets, :through => :parent_swf_asset_relationships belongs_to :dyeworks_base_item, class_name: "Item", default: -> { inferred_dyeworks_base_item }, optional: true has_many :dyeworks_variants, class_name: "Item", inverse_of: :dyeworks_base_item attr_writer :current_body_id, :owned, :wanted NCRarities = [0, 500] PAINTBRUSH_SET_DESCRIPTION = 'This item is part of a deluxe paint brush set!' scope :newest, -> { order(arel_table[:created_at].desc) if arel_table[:created_at] } scope :sitemap, -> { order([:id]).limit(49999) } scope :name_includes, ->(value) { Item.where("name LIKE ?", "%" + sanitize_sql_like(value) + "%") } scope :name_excludes, ->(value) { Item.where("name NOT LIKE ?", "%" + sanitize_sql_like(value) + "%") } scope :is_nc, -> { i = Item.arel_table where(i[:rarity_index].in(Item::NCRarities).or(i[:is_manually_nc].eq(true))) } scope :is_not_nc, -> { i = Item.arel_table where(i[:rarity_index].in(Item::NCRarities).or(i[:is_manually_nc].eq(true)).not) } scope :is_np, -> { self.is_not_nc.is_not_pb } scope :is_not_np, -> { self.merge Item.is_nc.or(Item.is_pb) } scope :is_pb, -> { where('description LIKE ?', '%' + sanitize_sql_like(PAINTBRUSH_SET_DESCRIPTION) + '%') } scope :is_not_pb, -> { where('description NOT LIKE ?', '%' + sanitize_sql_like(PAINTBRUSH_SET_DESCRIPTION) + '%') } scope :occupies, ->(zone_label) { zone_ids = Zone.matching_label(zone_label).map(&:id) # NOTE: In searches, this query performs much better using a subquery # instead of joins! This is because, in the joins case, filtering by an # `swf_assets` field but sorting by an `items` field causes the query # planner to only be able to use an index for *one* of them. In this case, # MySQL can use the `swf_assets`.`zone_id` index to get the item IDs for # the subquery, then use the `items`.`name` index to sort them. i = arel_table psa = ParentSwfAssetRelationship.arel_table sa = SwfAsset.arel_table where( ParentSwfAssetRelationship.joins(:swf_asset). where(sa[:zone_id].in(zone_ids)). where(psa[:parent_type].eq("Item")). where(psa[:parent_id].eq(i[:id])). arel.exists ) } scope :not_occupies, ->(zone_label) { zone_ids = Zone.matching_label(zone_label).map(&:id) i = Item.arel_table sa = SwfAsset.arel_table # Querying for "has NO swf_assets matching these zone IDs" is trickier than # the positive case! To do it, we GROUP_CONCAT the zone_ids together for # each item, then use FIND_IN_SET to search the result for each zone ID, # and assert that it must not find a match. (This is uhh, not exactly fast, # so it helps to have other tighter conditions applied first!) # TODO: I feel like this could also be solved with a LEFT JOIN, idk if that # performs any better? In Rails 5+ `left_outer_joins` is built in so! condition = zone_ids.map { 'FIND_IN_SET(?, GROUP_CONCAT(zone_id)) = 0' }.join(' AND ') joins(:swf_assets).group(i[:id]).having(condition, *zone_ids).distinct } scope :restricts, ->(zone_label) { zone_ids = Zone.matching_label(zone_label).map(&:id) condition = zone_ids.map { '(SUBSTR(items.zones_restrict, ?, 1) = "1")' }.join(' OR ') where(condition, *zone_ids) } scope :not_restricts, ->(zone_label) { zone_ids = Zone.matching_label(zone_label).map(&:id) condition = zone_ids.map { '(SUBSTR(items.zones_restrict, ?, 1) = "1")' }.join(' OR ') where("NOT (#{condition})", *zone_ids) } scope :fits, ->(body_id) { joins(:swf_assets).where(swf_assets: {body_id: [body_id, 0]}).distinct } scope :not_fits, ->(body_id) { i = Item.arel_table sa = SwfAsset.arel_table # Querying for "has NO swf_assets matching these body IDs" is trickier than # the positive case! To do it, we GROUP_CONCAT the body_ids together for # each item, then use FIND_IN_SET to search the result for the body ID, # and assert that it must not find a match. (This is uhh, not exactly fast, # so it helps to have other tighter conditions applied first!) # # TODO: I feel like this could also be solved with a LEFT JOIN, idk if that # performs any better? In Rails 5+ `left_outer_joins` is built in so! # # NOTE: The `fits` and `not_fits` counts don't perfectly add up to the # total number of items, 5 items aren't accounted for? I'm not going to # bother looking into this, but one thing I notice is items with no assets # somehow would not match either scope in this impl (but LEFT JOIN would!) joins(:swf_assets).group(i[:id]). having( "FIND_IN_SET(?, GROUP_CONCAT(body_id)) = 0 AND " + "FIND_IN_SET(0, GROUP_CONCAT(body_id)) = 0", body_id ). distinct } def nc_trade_value return nil unless nc? # Load the trade value, if we haven't already. Note that, because the trade # value may be nil, we also save an explicit boolean for whether we've # already looked it up, rather than checking if the saved value is empty. return @nc_trade_value if @nc_trade_value_loaded @nc_trade_value = begin Rails.logger.debug "Item #{id} (#{name}) " OwlsValueGuide.find_by_name(name) rescue OwlsValueGuide::NotFound => error Rails.logger.debug("No NC trade value listed for #{name} (#{id})") nil rescue OwlsValueGuide::NetworkError => error Rails.logger.error("Couldn't load nc_trade_value: #{error.full_message}") nil end @nc_trade_value_loaded = true @nc_trade_value end # Return an OrderedHash mapping users to the number of times they # contributed to this item's assets, from most contributions to least. def contributors_with_counts # Get contributing users' IDs swf_asset_ids = swf_assets.select(SwfAsset.arel_table[:id]).map(&:id) swf_asset_contributions = Contribution.select('user_id'). where(:contributed_type => 'SwfAsset', :contributed_id => swf_asset_ids) contributor_ids = swf_asset_contributions.map(&:user_id) # Get the users, mapped by ID contributors_by_id = {} User.find(contributor_ids).each { |u| contributors_by_id[u.id] = u } # Count each user's contributions contributor_counts_by_id = Hash.new(0) contributor_ids.each { |id| contributor_counts_by_id[id] += 1 } # Build an OrderedHash mapping users to counts in descending order contributors_with_counts = ActiveSupport::OrderedHash.new contributor_counts_by_id.sort_by { |k, v| v }.reverse.each do |id, count| contributor = contributors_by_id[id] contributors_with_counts[contributor] = count end contributors_with_counts end def nc? is_manually_nc? || NCRarities.include?(rarity_index) end def pb? I18n.with_locale(:en) { self.description == PAINTBRUSH_SET_DESCRIPTION } end def np? !nc? && !pb? end def currently_in_mall? nc_mall_record.present? end def source if dyeworks_buyable? :dyeworks elsif currently_in_mall? :nc_mall elsif nc? :other_nc elsif np? :np elsif pb? :pb else raise "Item has no matching source (should not happen?)" end end def owned? @owned || false end def wanted? @wanted || false end def current_nc_price nc_mall_record&.current_price end # If this is a PB item, return the corresponding Color, inferred from the # item name. If it's not a PB item, or we fail to infer a specific color, # return nil. (This is expected to be nil for some PB items, like the "Aisha # Collar", which belong to many colors. It can also be nil for PB items for # new colors we haven't manually added to the database yet, or if a PB item # is named strangely in the future.) def pb_color return nil unless pb? # NOTE: To handle colors like "Royalboy", where the items aren't consistent # with the color name regarding whether or not there's spaces, we remove # all spaces from the item name and color name when matching. We also # hackily handle the fact that "Elderlyboy" color has items named "Elderly # Male" (and same for Girl/Female) by replacing those words, too. These # hacks could cause false matches in theory, but I'm not aware of any rn! normalized_name = name.downcase.gsub("female", "girl").gsub("male", "boy"). gsub(/\s/, "") Color.order(:name). find { |c| normalized_name.include?(c.name.downcase.gsub(/\s/, "")) } end # If this is a PB item, return the corresponding Species, inferred from the # item name. If it's not a PB item, or we fail to infer a specific species, # return nil. (This is not expected to be nil in general, but could be for PB # items for new species we haven't manually added to the database yet, or if # a PB item is named strangely in the future.) def pb_species return nil unless pb? normalized_name = name.downcase Species.order(:name).find { |s| normalized_name.include?(s.name.downcase) } end def pb_item_name pb_color&.pb_item_name end def restricted_zones(options={}) options[:scope] ||= Zone.all options[:scope].find(restricted_zone_ids) end def restricted_zone_ids unless @restricted_zone_ids @restricted_zone_ids = [] zones_restrict.split(//).each_with_index do |switch, id| @restricted_zone_ids << (id.to_i + 1) if switch == '1' end end @restricted_zone_ids end def occupied_zone_ids occupied_zones.map(&:id) end def occupied_zones(options={}) options[:scope] ||= Zone.all all_body_ids = [] zone_body_ids = {} selected_assets = swf_assets.select('body_id, zone_id').each do |swf_asset| zone_body_ids[swf_asset.zone_id] ||= [] body_ids = zone_body_ids[swf_asset.zone_id] body_ids << swf_asset.body_id unless body_ids.include?(swf_asset.body_id) all_body_ids << swf_asset.body_id unless all_body_ids.include?(swf_asset.body_id) end zones = options[:scope].find(zone_body_ids.keys) zones_by_id = zones.inject({}) { |h, z| h[z.id] = z; h } total_body_ids = all_body_ids.size zone_body_ids.each do |zone_id, body_ids| zones_by_id[zone_id].sometimes = true if body_ids.size < total_body_ids end zones end def affected_zones restricted_zones + occupied_zones end def species_support_ids @species_support_ids_array ||= read_attribute('species_support_ids').split(',').map(&:to_i) rescue nil end def species_support_ids=(replacement) @species_support_ids_array = nil replacement = replacement.join(',') if replacement.is_a?(Array) write_attribute('species_support_ids', replacement) end def support_species?(species) species_support_ids.blank? || species_support_ids.include?(species.id) end def modeled_body_ids @modeled_body_ids ||= swf_assets.select('DISTINCT body_id').map(&:body_id) end def modeled_color_ids # Might be empty if modeled_body_ids is 0. But it's currently not called # in that scenario, so, whatever. @modeled_color_ids ||= PetType.select('DISTINCT color_id'). where(body_id: modeled_body_ids). map(&:color_id) end def basic_body_ids @basic_body_ids ||= begin basic_color_ids ||= Color.select([:id]).basic.map(&:id) PetType.select('DISTINCT body_id'). where(color_id: basic_color_ids).map(&:body_id) end end def predicted_body_ids @predicted_body_ids ||= if modeled_body_ids.include?(0) # Oh, look, it's already known to fit everybody! Sweet. We're done. (This # isn't folded into the case below, in case this item somehow got a # body-specific and non-body-specific asset. In all the cases I've seen # it, that indicates a glitched item, but this method chooses to reflect # behavior elsewhere in the app by saying that we can put this item on # anybody. (Heh. Any body.)) modeled_body_ids elsif modeled_body_ids.size == 1 # This might just be a species-specific item. Let's be conservative in # our prediction, though we'll revise it if we see another body ID. modeled_body_ids else # If an item is worn by more than one body, then it must be wearable by # all bodies of the same color. (To my knowledge, anyway. I'm not aware # of any exceptions.) So, let's find those bodies by first finding those # colors. basic_modeled_body_ids, nonbasic_modeled_body_ids = modeled_body_ids. partition { |bi| basic_body_ids.include?(bi) } output = [] if basic_modeled_body_ids.present? output += basic_body_ids end if nonbasic_modeled_body_ids.present? nonbasic_modeled_color_ids = PetType.select('DISTINCT color_id'). where(body_id: nonbasic_modeled_body_ids). map(&:color_id) output += PetType.select('DISTINCT body_id'). where(color_id: nonbasic_modeled_color_ids). map(&:body_id) end output end end def predicted_missing_body_ids @predicted_missing_body_ids ||= predicted_body_ids - modeled_body_ids end def predicted_missing_standard_body_ids_by_species_id @predicted_missing_standard_body_ids_by_species_id ||= PetType.select('DISTINCT body_id, species_id'). joins(:color). where(body_id: predicted_missing_body_ids, colors: {standard: true}). inject({}) { |h, pt| h[pt.species_id] = pt.body_id; h } end def predicted_missing_standard_body_ids_by_species species = Species.where(id: predicted_missing_standard_body_ids_by_species_id.keys) species_by_id = species.inject({}) { |h, s| h[s.id] = s; h } predicted_missing_standard_body_ids_by_species_id.inject({}) { |h, (sid, bid)| h[species_by_id[sid]] = bid; h } end def predicted_missing_nonstandard_body_pet_types PetType.joins(:color). where(body_id: predicted_missing_body_ids - basic_body_ids, colors: {standard: false}) end def predicted_missing_nonstandard_body_ids_by_species_by_color pet_types = predicted_missing_nonstandard_body_pet_types species_by_id = {} Species.find(pet_types.map(&:species_id)).each do |species| species_by_id[species.id] = species end colors_by_id = {} Color.find(pet_types.map(&:color_id)).each do |color| colors_by_id[color.id] = color end body_ids_by_species_by_color = {} pet_types.each do |pt| color = colors_by_id[pt.color_id] body_ids_by_species_by_color[color] ||= {} body_ids_by_species_by_color[color][species_by_id[pt.species_id]] = pt.body_id end body_ids_by_species_by_color end def predicted_fully_modeled? predicted_missing_body_ids.empty? end def predicted_modeled_ratio modeled_body_ids.size.to_f / predicted_body_ids.size end def as_json(options={}) super({ only: [:id, :name, :description, :thumbnail_url, :rarity_index], methods: [:zones_restrict], }.merge(options)) end def handle_assets! if @parent_swf_asset_relationships_to_update && @current_body_id new_swf_asset_ids = @parent_swf_asset_relationships_to_update.map(&:swf_asset_id) rels = ParentSwfAssetRelationship.arel_table swf_assets = SwfAsset.arel_table # If a relationship used to bind an item and asset for this body type, # but doesn't in this sample, the two have been unbound. Delete the # relationship. ids_to_delete = self.parent_swf_asset_relationships. select(rels[:id]). joins(:swf_asset). where(rels[:swf_asset_id].not_in(new_swf_asset_ids)). where(swf_assets[:body_id].in([@current_body_id, 0])). map(&:id) unless ids_to_delete.empty? ParentSwfAssetRelationship.where(:id => ids_to_delete).delete_all end @parent_swf_asset_relationships_to_update.each do |rel| rel.save! rel.swf_asset.save! end end end def body_specific? # If there are species support IDs (it's not empty), the item is # body-specific. If it's empty, it fits everyone the same. explicitly_body_specific? || !species_support_ids.empty? end def add_origin_registry_info(info, locale) # bear in mind that numbers from registries are floats species_support_strs = info['species_support'] || [] self.species_support_ids = species_support_strs.map(&:to_i) # NOTE: If some of these fields are missing, it could cause saving the item # to fail, because many of these columns are non-nullable. self.name = info['name'] self.description = info['description'] self.thumbnail_url = info['thumbnail_url'] self.category = info['category'] self.type = info['type'] self.rarity = info['rarity'] self.rarity_index = info['rarity_index'].to_i self.price = info['price'].to_i self.weight_lbs = info['weight_lbs'].to_i self.zones_restrict = info['zones_restrict'] end def pending_swf_assets @parent_swf_asset_relationships_to_update.inject([]) do |all_swf_assets, relationship| all_swf_assets << relationship.swf_asset end end def parent_swf_asset_relationships_to_update=(rels) @parent_swf_asset_relationships_to_update = rels end # NOTE: Adding the JSON serializer makes `as_json` treat this like a model # instead of like a hash, so you can target its children with things like # the `include` option. This feels clunky though, I wish I had something a # bit more suited to it! Appearance = Struct.new(:body, :swf_assets) do include ActiveModel::Serializers::JSON def attributes {body: body, swf_assets: swf_assets} end end Appearance::Body = Struct.new(:id, :species) do include ActiveModel::Serializers::JSON def attributes {id: id, species: species} end end def appearances all_swf_assets = swf_assets.to_a # If there are no assets yet, there are no appearances. return [] if all_swf_assets.empty? # Get all SWF assets, and separate the ones that fit everyone (body_id=0). swf_assets_by_body_id = all_swf_assets.group_by(&:body_id) swf_assets_for_all_bodies = swf_assets_by_body_id.delete(0) || [] # If there are no body-specific assets, return one appearance for them all. if swf_assets_by_body_id.empty? body = Appearance::Body.new(0, nil) return [Appearance.new(body, swf_assets_for_all_bodies)] end # Otherwise, create an appearance for each real (nonzero) body ID. We don't # generally expect body_id = 0 and body_id != 0 to mix, but if they do, # uhh, let's merge the body_id = 0 ones in? swf_assets_by_body_id.map do |body_id, body_specific_assets| swf_assets_for_body = body_specific_assets + swf_assets_for_all_bodies species = Species.with_body_id(body_id).first! body = Appearance::Body.new(body_id, species) Appearance.new(body, swf_assets_for_body) end end # Given a list of item IDs, return how they look on the given target (either # a pet type or an alt style). def self.appearances_for(item_ids, target, swf_asset_includes: []) # First, load all the relationships for these items that also fit this # body. relationships = ParentSwfAssetRelationship. includes(swf_asset: swf_asset_includes). where(parent_type: "Item", parent_id: item_ids). where(swf_asset: {body_id: [target.body_id, 0]}) pet_type_body = Appearance::Body.new(target.body_id, target.species) all_pets_body = Appearance::Body.new(0, nil) # Then, convert this into a hash from item ID to SWF assets. assets_by_item_id = relationships.group_by(&:parent_id). transform_values { |rels| rels.map(&:swf_asset) } # Finally, for each item, return an appearance—even if it's empty! item_ids.to_h do |item_id| assets = assets_by_item_id.fetch(item_id, []) fits_all_pets = assets.present? && assets.all? { |a| a.body_id == 0 } body = fits_all_pets ? all_pets_body : pet_type_body [item_id, Appearance.new(body, assets)] end end def self.all_by_ids_or_children(ids, swf_assets) swf_asset_ids = [] swf_assets_by_id = {} swf_assets_by_parent_id = {} swf_assets.each do |swf_asset| id = swf_asset.id swf_assets_by_id[id] = swf_asset swf_asset_ids << id end SwfAsset.object_assets.joins(:parent_swf_asset_relationships). where(SwfAsset.arel_table[:id].in(swf_asset_ids)).select([ SwfAsset.arel_table[:id], ParentSwfAssetRelationship.arel_table[:parent_id] ]).each do |row| item_id = row.parent_id.to_i swf_assets_by_parent_id[item_id] ||= [] swf_assets_by_parent_id[item_id] << swf_assets_by_id[row.id.to_i] ids << item_id end find(ids).tap do |items| items.each do |item| swf_assets = swf_assets_by_parent_id[item.id] if swf_assets swf_assets.each do |swf_asset| swf_asset.item = item end end end end end def self.preload_nc_trade_values(items) # Only allow 10 trade values to be loaded at a time. barrier = Async::Barrier.new semaphore = Async::Semaphore.new(10, parent: barrier) Sync do # Load all the trade values in concurrent async tasks. (The # `nc_trade_value` caches the value in the Item object.) items.each do |item| semaphore.async { item.nc_trade_value } end # Wait until all tasks are done. barrier.wait ensure barrier.stop # If something goes wrong, clean up all tasks. end items end def self.collection_from_pet_type_and_registries(pet_type, info_registry, asset_registry, scope=Item.all) # bear in mind that registries are arrays with many nil elements, # due to how the parser works # Collect existing items items = {} item_ids = [] info_registry.each do |item_id, info| if info && info[:is_compatible] item_ids << item_id.to_i end end # Collect existing relationships existing_relationships_by_item_id_and_swf_asset_id = {} existing_items = scope.where(id: item_ids). includes(:parent_swf_asset_relationships) existing_items.each do |item| items[item.id] = item relationships_by_swf_asset_id = {} item.parent_swf_asset_relationships.each do |relationship| relationships_by_swf_asset_id[relationship.swf_asset_id] = relationship end existing_relationships_by_item_id_and_swf_asset_id[item.id] = relationships_by_swf_asset_id end # Collect existing assets swf_asset_ids = [] asset_registry.each do |asset_id, asset_data| swf_asset_ids << asset_id.to_i if asset_data end existing_swf_assets = SwfAsset.object_assets.includes(:zone). where(remote_id: swf_asset_ids) existing_swf_assets_by_remote_id = {} existing_swf_assets.each do |swf_asset| existing_swf_assets_by_remote_id[swf_asset.remote_id] = swf_asset end # With each asset in the registry, relationships_by_item_id = {} asset_registry.each do |asset_id, asset_data| if asset_data # Build and update the item item_id = asset_data[:obj_info_id].to_i next unless item_ids.include?(item_id) # skip incompatible (Uni Bug) item = items[item_id] unless item item = Item.new item.id = item_id items[item_id] = item end item.add_origin_registry_info info_registry[item.id.to_s], I18n.default_locale item.current_body_id = pet_type.body_id # Build and update the SWF swf_asset_remote_id = asset_data[:asset_id].to_i swf_asset = existing_swf_assets_by_remote_id[swf_asset_remote_id] unless swf_asset swf_asset = SwfAsset.new swf_asset.remote_id = swf_asset_remote_id end swf_asset.origin_object_data = asset_data swf_asset.origin_pet_type = pet_type swf_asset.item = item # Build and update the relationship relationship = existing_relationships_by_item_id_and_swf_asset_id[item.id][swf_asset.id] rescue nil unless relationship relationship = ParentSwfAssetRelationship.new relationship.parent = item end relationship.swf_asset = swf_asset relationships_by_item_id[item_id] ||= [] relationships_by_item_id[item_id] << relationship end end # Set up the relationships to be updated on item save relationships_by_item_id.each do |item_id, relationships| items[item_id].parent_swf_asset_relationships_to_update = relationships end items.values end end