impress/app/models/item.rb
Emi Matchu 0261d02137 Downgrade most item validations to be *not nil*, rather than present
Been running into the item "Hanging Plushie Grundo Background Item" not
being modelable, because TNT seem to have left its description blank!

Let's be less picky about what data we take in, but keep the intention
of these validations: to ensure that *we* don't make a mistake and
forget a field when importing items!
2024-11-19 17:00:47 -08:00

768 lines
26 KiB
Ruby

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'
serialize :cached_compatible_body_ids, coder: Serializers::IntegerSet
serialize :cached_occupied_zone_ids, coder: Serializers::IntegerSet
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
# We require a name field. A number of other fields must be *specified*: they
# can't be nil, to help ensure we aren't forgetting any fields when importing
# items. But sometimes they happen to be blank (e.g. when TNT leaves an item
# description empty, oops), in which case we want to accept that reality!
validates_presence_of :name
validates :description, :thumbnail_url, :rarity, :price, :zones_restrict,
exclusion: {in: [nil], message: "must be specified"}
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 :is_modeled, -> {
where(cached_predicted_fully_modeled: true)
}
scope :is_not_modeled, -> {
where(cached_predicted_fully_modeled: false)
}
scope :occupies, ->(zone_label) {
Zone.matching_label(zone_label).
map { |z| occupies_zone_id(z.id) }.reduce(none, &:or)
}
scope :not_occupies, ->(zone_label) {
Zone.matching_label(zone_label).
map { |z| not_occupies_zone_id(z.id) }.reduce(all, &:and)
}
scope :occupies_zone_id, ->(zone_id) {
where("FIND_IN_SET(?, cached_occupied_zone_ids) > 0", zone_id)
}
scope :not_occupies_zone_id, ->(zone_id) {
where.not("FIND_IN_SET(?, cached_occupied_zone_ids) > 0", zone_id)
}
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) {
where("FIND_IN_SET(?, cached_compatible_body_ids) > 0", body_id).
or(where("FIND_IN_SET('0', cached_compatible_body_ids) > 0"))
}
scope :not_fits, ->(body_id) {
where.not("FIND_IN_SET(?, cached_compatible_body_ids) > 0", body_id).
and(where.not("FIND_IN_SET('0', cached_compatible_body_ids) > 0"))
}
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}) <lookup>"
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/, "")
# For each color, normalize its name, look for it in the item name, and
# return the matching color that appears earliest. (This is important for
# items that contain multiple color names, like the "Royal Girl Elephante
# Gold Bracelets".)
Color.all.to_h { |c| [c, c.name.downcase.gsub(/\s/, "")] }.
transform_values { |n| normalized_name.index(n) }.
filter { |c, n| n.present? }.
min_by { |c, i| i }&.first
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
zone_ids = swf_assets.map(&:zone_id).uniq
Zone.find(zone_ids)
end
def affected_zones
restricted_zones + occupied_zones
end
def update_cached_fields
# First, clear out some cached instance variables we use for performance,
# to ensure we recompute the latest values.
@predicted_body_ids = nil
@predicted_missing_body_ids = nil
# We also need to reload our associations, so they include any new records.
swf_assets.reload
# Finally, compute and save our cached fields.
self.cached_occupied_zone_ids = occupied_zone_ids
self.cached_compatible_body_ids = compatible_body_ids(use_cached: false)
self.cached_predicted_fully_modeled =
predicted_fully_modeled?(use_cached: false)
self.save!
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 predicted_body_ids
@predicted_body_ids ||= if compatible_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.))
compatible_body_ids
elsif compatible_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.
compatible_body_ids
elsif compatible_body_ids.size == 0
# If somehow we have this item, but not any modeling data for it (weird!),
# consider it to fit all standard pet types until shown otherwise.
PetType.basic.released_before(released_at_estimate).
distinct.pluck(:body_id).sort
else
# First, find our compatible pet types, then pair each body ID with its
# color. (As an optimization, we omit standard colors, other than the
# basic colors. We also flatten the basic colors into the single color
# ID "basic", so we can treat them specially.)
compatible_pairs = compatible_pet_types.joins(:color).
merge(Color.nonstandard.or(Color.basic)).
distinct.pluck(
Arel.sql("IF(colors.basic, 'basic', colors.id)"), :body_id)
# Group colors by body, to help us find bodies unique to certain colors.
compatible_color_ids_by_body_id = {}.tap do |h|
compatible_pairs.each do |(color_id, body_id)|
h[body_id] ||= []
h[body_id] << color_id
end
end
# Find non-basic colors with at least one unique compatible body. (This
# means we'll ignore e.g. the Maraquan Mynci, which has the same body as
# the Blue Mynci, as not indicating Maraquan compatibility in general.)
modelable_color_ids =
compatible_color_ids_by_body_id.
filter { |k, v| v.size == 1 && v.first != "basic" }.
values.map(&:first).uniq
# We can model on basic pets (perhaps in addition to the above) if we
# find at least one compatible basic body that doesn't *also* fit any of
# the modelable colors we identified above.
basic_is_modelable =
compatible_color_ids_by_body_id.values.
any? { |v| v.include?("basic") && (v & modelable_color_ids).empty? }
# Filter to pet types that match the colors that seem compatible.
predicted_pet_types =
(basic_is_modelable ? PetType.basic : PetType.none).
or(PetType.where(color_id: modelable_color_ids))
# Only include species that were released when this item was. If we don't
# know our creation date (we don't have it for some old records), assume
# it's pretty old.
predicted_pet_types.merge! PetType.released_before(released_at_estimate)
# Get all body IDs for the pet types we decided are modelable.
predicted_pet_types.distinct.pluck(:body_id).sort
end
end
def predicted_missing_body_ids
@predicted_missing_body_ids ||= predicted_body_ids - compatible_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
body_ids = predicted_missing_body_ids - PetType.basic_body_ids
PetType.joins(:color).where(body_id: 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?(use_cached: true)
return cached_predicted_fully_modeled? if use_cached
predicted_missing_body_ids.empty?
end
def predicted_modeled_ratio
compatible_body_ids.size.to_f / predicted_body_ids.size
end
# We estimate the item's release time as either when we first saw it, or 2010
# if it's so old that we don't have a record.
def released_at_estimate
created_at || Time.new(2010)
end
def as_json(options={})
super({
only: [:id, :name, :description, :thumbnail_url, :rarity_index],
methods: [:zones_restrict],
}.merge(options))
end
def compatible_body_ids(use_cached: true)
return cached_compatible_body_ids if use_cached
swf_assets.map(&:body_id).uniq
end
def compatible_pet_types
return PetType.all if compatible_body_ids.include?(0)
PetType.where(body_id: compatible_body_ids)
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(:item, :body, :swf_assets) do
include ActiveModel::Serializers::JSON
delegate :present?, :empty?, to: :swf_assets
delegate :species, :fits?, :fits_all?, to: :body
def attributes
{item:, body:, swf_assets:}
end
def html5?
swf_assets.all?(&:html5?)
end
def occupied_zone_ids
swf_assets.map(&:zone_id).uniq.sort
end
def restricted_zone_ids
return [] if empty?
([item] + swf_assets).map(&:restricted_zone_ids).flatten.uniq.sort
end
end
Appearance::Body = Struct.new(:id, :species) do
include ActiveModel::Serializers::JSON
def attributes
{id:, species:}
end
def fits_all?
id == 0
end
def fits?(target)
fits_all? || target.body_id == id
end
end
def appearances
@appearances ||= build_appearances
end
def build_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(self, 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?
species_by_body_id = Species.with_body_ids(swf_assets_by_body_id.keys)
swf_assets_by_body_id.map do |body_id, body_specific_assets|
swf_assets_for_body = body_specific_assets + swf_assets_for_all_bodies
body = Appearance::Body.new(body_id, species_by_body_id[body_id])
Appearance.new(self, body, swf_assets_for_body)
end
end
def appearance_for(target, ...)
Item.appearances_for([self], target, ...)[id]
end
def appearances_by_occupied_zone_id
{}.tap do |h|
appearances.each do |appearance|
appearance.occupied_zone_ids.each do |zone_id|
h[zone_id] ||= []
h[zone_id] << appearance
end
end
end
end
def appearances_by_occupied_zone
zones_by_id = occupied_zones.to_h { |z| [z.id, z] }
appearances_by_occupied_zone_id.transform_keys { |zid| zones_by_id[zid] }
end
# Given a list of items, return how they look on the given target (either a
# pet type or an alt style).
def self.appearances_for(items, 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: items.map(&:id)).
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!
items.to_h do |item|
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(item, 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