require "thread" require "active_support/core_ext/string/filters" module ActiveRecord # = Active Record Reflection module Reflection # :nodoc: extend ActiveSupport::Concern included do class_attribute :_reflections, instance_writer: false class_attribute :aggregate_reflections, instance_writer: false self._reflections = {} self.aggregate_reflections = {} end def self.create(macro, name, scope, options, ar) klass = \ case macro when :composed_of AggregateReflection when :has_many HasManyReflection when :has_one HasOneReflection when :belongs_to BelongsToReflection else raise "Unsupported Macro: #{macro}" end reflection = klass.new(name, scope, options, ar) options[:through] ? ThroughReflection.new(reflection) : reflection end def self.add_reflection(ar, name, reflection) ar.clear_reflections_cache ar._reflections = ar._reflections.merge(name.to_s => reflection) end def self.add_aggregate_reflection(ar, name, reflection) ar.aggregate_reflections = ar.aggregate_reflections.merge(name.to_s => reflection) end # \Reflection enables the ability to examine the associations and aggregations of # Active Record classes and objects. This information, for example, # can be used in a form builder that takes an Active Record object # and creates input fields for all of the attributes depending on their type # and displays the associations to other objects. # # MacroReflection class has info for AggregateReflection and AssociationReflection # classes. module ClassMethods # Returns an array of AggregateReflection objects for all the aggregations in the class. def reflect_on_all_aggregations aggregate_reflections.values end # Returns the AggregateReflection object for the named +aggregation+ (use the symbol). # # Account.reflect_on_aggregation(:balance) # => the balance AggregateReflection # def reflect_on_aggregation(aggregation) aggregate_reflections[aggregation.to_s] end # Returns a Hash of name of the reflection as the key and an AssociationReflection as the value. # # Account.reflections # => {"balance" => AggregateReflection} # def reflections @__reflections ||= begin ref = {} _reflections.each do |name, reflection| parent_reflection = reflection.parent_reflection if parent_reflection parent_name = parent_reflection.name ref[parent_name.to_s] = parent_reflection else ref[name] = reflection end end ref end end # Returns an array of AssociationReflection objects for all the # associations in the class. If you only want to reflect on a certain # association type, pass in the symbol (:has_many, :has_one, # :belongs_to) as the first parameter. # # Example: # # Account.reflect_on_all_associations # returns an array of all associations # Account.reflect_on_all_associations(:has_many) # returns an array of all has_many associations # def reflect_on_all_associations(macro = nil) association_reflections = reflections.values association_reflections.select! { |reflection| reflection.macro == macro } if macro association_reflections end # Returns the AssociationReflection object for the +association+ (use the symbol). # # Account.reflect_on_association(:owner) # returns the owner AssociationReflection # Invoice.reflect_on_association(:line_items).macro # returns :has_many # def reflect_on_association(association) reflections[association.to_s] end def _reflect_on_association(association) #:nodoc: _reflections[association.to_s] end # Returns an array of AssociationReflection objects for all associations which have :autosave enabled. def reflect_on_all_autosave_associations reflections.values.select { |reflection| reflection.options[:autosave] } end def clear_reflections_cache # :nodoc: @__reflections = nil end end # Holds all the methods that are shared between MacroReflection and ThroughReflection. # # AbstractReflection # MacroReflection # AggregateReflection # AssociationReflection # HasManyReflection # HasOneReflection # BelongsToReflection # HasAndBelongsToManyReflection # ThroughReflection # PolymorphicReflection # RuntimeReflection class AbstractReflection # :nodoc: def through_reflection? false end def table_name klass.table_name end # Returns a new, unsaved instance of the associated class. +attributes+ will # be passed to the class's constructor. def build_association(attributes, &block) klass.new(attributes, &block) end def quoted_table_name klass.quoted_table_name end def primary_key_type klass.type_for_attribute(klass.primary_key) end # Returns the class name for the macro. # # composed_of :balance, class_name: 'Money' returns 'Money' # has_many :clients returns 'Client' def class_name @class_name ||= (options[:class_name] || derive_class_name).to_s end JoinKeys = Struct.new(:key, :foreign_key) # :nodoc: def join_keys(association_klass) JoinKeys.new(foreign_key, active_record_primary_key) end def constraints scope_chain.flatten end def counter_cache_column if belongs_to? if options[:counter_cache] == true "#{active_record.name.demodulize.underscore.pluralize}_count" elsif options[:counter_cache] options[:counter_cache].to_s end else options[:counter_cache] ? options[:counter_cache].to_s : "#{name}_count" end end def inverse_of return unless inverse_name @inverse_of ||= klass._reflect_on_association inverse_name end def check_validity_of_inverse! unless polymorphic? if has_inverse? && inverse_of.nil? raise InverseOfAssociationNotFoundError.new(self) end end end # This shit is nasty. We need to avoid the following situation: # # * An associated record is deleted via record.destroy # * Hence the callbacks run, and they find a belongs_to on the record with a # :counter_cache options which points back at our owner. So they update the # counter cache. # * In which case, we must make sure to *not* update the counter cache, or else # it will be decremented twice. # # Hence this method. def inverse_which_updates_counter_cache return @inverse_which_updates_counter_cache if defined?(@inverse_which_updates_counter_cache) @inverse_which_updates_counter_cache = klass.reflect_on_all_associations(:belongs_to).find do |inverse| inverse.counter_cache_column == counter_cache_column end end alias inverse_updates_counter_cache? inverse_which_updates_counter_cache def inverse_updates_counter_in_memory? inverse_of && inverse_which_updates_counter_cache == inverse_of end # Returns whether a counter cache should be used for this association. # # The counter_cache option must be given on either the owner or inverse # association, and the column must be present on the owner. def has_cached_counter? options[:counter_cache] || inverse_which_updates_counter_cache && inverse_which_updates_counter_cache.options[:counter_cache] && !!active_record.columns_hash[counter_cache_column] end def counter_must_be_updated_by_has_many? !inverse_updates_counter_in_memory? && has_cached_counter? end def alias_candidate(name) "#{plural_name}_#{name}" end def chain collect_join_chain end end # Base class for AggregateReflection and AssociationReflection. Objects of # AggregateReflection and AssociationReflection are returned by the Reflection::ClassMethods. class MacroReflection < AbstractReflection # Returns the name of the macro. # # composed_of :balance, class_name: 'Money' returns :balance # has_many :clients returns :clients attr_reader :name attr_reader :scope # Returns the hash of options used for the macro. # # composed_of :balance, class_name: 'Money' returns { class_name: "Money" } # has_many :clients returns {} attr_reader :options attr_reader :active_record attr_reader :plural_name # :nodoc: def initialize(name, scope, options, active_record) @name = name @scope = scope @options = options @active_record = active_record @klass = options[:anonymous_class] @plural_name = active_record.pluralize_table_names ? name.to_s.pluralize : name.to_s end def autosave=(autosave) @options[:autosave] = autosave parent_reflection = self.parent_reflection if parent_reflection parent_reflection.autosave = autosave end end # Returns the class for the macro. # # composed_of :balance, class_name: 'Money' returns the Money class # has_many :clients returns the Client class def klass @klass ||= compute_class(class_name) end def compute_class(name) name.constantize end # Returns +true+ if +self+ and +other_aggregation+ have the same +name+ attribute, +active_record+ attribute, # and +other_aggregation+ has an options hash assigned to it. def ==(other_aggregation) super || other_aggregation.kind_of?(self.class) && name == other_aggregation.name && !other_aggregation.options.nil? && active_record == other_aggregation.active_record end def scope_for(klass) scope ? klass.unscoped.instance_exec(nil, &scope) : klass.unscoped end private def derive_class_name name.to_s.camelize end end # Holds all the meta-data about an aggregation as it was specified in the # Active Record class. class AggregateReflection < MacroReflection #:nodoc: def mapping mapping = options[:mapping] || [name, name] mapping.first.is_a?(Array) ? mapping : [mapping] end end # Holds all the meta-data about an association as it was specified in the # Active Record class. class AssociationReflection < MacroReflection #:nodoc: # Returns the target association's class. # # class Author < ActiveRecord::Base # has_many :books # end # # Author.reflect_on_association(:books).klass # # => Book # # Note: Do not call +klass.new+ or +klass.create+ to instantiate # a new association object. Use +build_association+ or +create_association+ # instead. This allows plugins to hook into association object creation. def klass @klass ||= compute_class(class_name) end def compute_class(name) active_record.send(:compute_type, name) end attr_reader :type, :foreign_type attr_accessor :parent_reflection # Reflection def initialize(name, scope, options, active_record) super @automatic_inverse_of = nil @type = options[:as] && (options[:foreign_type] || "#{options[:as]}_type") @foreign_type = options[:foreign_type] || "#{name}_type" @constructable = calculate_constructable(macro, options) @association_scope_cache = {} @scope_lock = Mutex.new end def association_scope_cache(conn, owner) key = conn.prepared_statements if polymorphic? key = [key, owner._read_attribute(@foreign_type)] end @association_scope_cache[key] ||= @scope_lock.synchronize { @association_scope_cache[key] ||= yield } end def constructable? # :nodoc: @constructable end def join_table @join_table ||= options[:join_table] || derive_join_table end def foreign_key @foreign_key ||= options[:foreign_key] || derive_foreign_key.freeze end def association_foreign_key @association_foreign_key ||= options[:association_foreign_key] || class_name.foreign_key end # klass option is necessary to support loading polymorphic associations def association_primary_key(klass = nil) options[:primary_key] || primary_key(klass || self.klass) end def association_primary_key_type klass.type_for_attribute(association_primary_key) end def active_record_primary_key @active_record_primary_key ||= options[:primary_key] || primary_key(active_record) end def check_validity! check_validity_of_inverse! end def check_preloadable! return unless scope if scope.arity > 0 raise ArgumentError, <<-MSG.squish The association scope '#{name}' is instance dependent (the scope block takes an argument). Preloading instance dependent scopes is not supported. MSG end end alias :check_eager_loadable! :check_preloadable! def join_id_for(owner) # :nodoc: owner[active_record_primary_key] end def through_reflection nil end def source_reflection self end # A chain of reflections from this one back to the owner. For more see the explanation in # ThroughReflection. def collect_join_chain [self] end # This is for clearing cache on the reflection. Useful for tests that need to compare # SQL queries on associations. def clear_association_scope_cache # :nodoc: @association_scope_cache.clear end def nested? false end # An array of arrays of scopes. Each item in the outside array corresponds to a reflection # in the #chain. def scope_chain scope ? [[scope]] : [[]] end def has_scope? scope end def has_inverse? inverse_name end def polymorphic_inverse_of(associated_class) if has_inverse? if inverse_relationship = associated_class._reflect_on_association(options[:inverse_of]) inverse_relationship else raise InverseOfAssociationNotFoundError.new(self, associated_class) end end end # Returns the macro type. # # has_many :clients returns :has_many def macro; raise NotImplementedError; end # Returns whether or not this association reflection is for a collection # association. Returns +true+ if the +macro+ is either +has_many+ or # +has_and_belongs_to_many+, +false+ otherwise. def collection? false end # Returns whether or not the association should be validated as part of # the parent's validation. # # Unless you explicitly disable validation with # validate: false, validation will take place when: # # * you explicitly enable validation; validate: true # * you use autosave; autosave: true # * the association is a +has_many+ association def validate? !options[:validate].nil? ? options[:validate] : (options[:autosave] == true || collection?) end # Returns +true+ if +self+ is a +belongs_to+ reflection. def belongs_to?; false; end # Returns +true+ if +self+ is a +has_one+ reflection. def has_one?; false; end def association_class; raise NotImplementedError; end def polymorphic? options[:polymorphic] end VALID_AUTOMATIC_INVERSE_MACROS = [:has_many, :has_one, :belongs_to] INVALID_AUTOMATIC_INVERSE_OPTIONS = [:conditions, :through, :polymorphic, :foreign_key] def add_as_source(seed) seed end def add_as_polymorphic_through(reflection, seed) seed + [PolymorphicReflection.new(self, reflection)] end def add_as_through(seed) seed + [self] end protected def actual_source_reflection # FIXME: this is a horrible name self end private def calculate_constructable(macro, options) true end # Attempts to find the inverse association name automatically. # If it cannot find a suitable inverse association name, it returns # +nil+. def inverse_name options.fetch(:inverse_of) do @automatic_inverse_of ||= automatic_inverse_of end end # returns either false or the inverse association name that it finds. def automatic_inverse_of if can_find_inverse_of_automatically?(self) inverse_name = ActiveSupport::Inflector.underscore(options[:as] || active_record.name.demodulize).to_sym begin reflection = klass._reflect_on_association(inverse_name) rescue NameError # Give up: we couldn't compute the klass type so we won't be able # to find any associations either. reflection = false end if valid_inverse_reflection?(reflection) return inverse_name end end false end # Checks if the inverse reflection that is returned from the # +automatic_inverse_of+ method is a valid reflection. We must # make sure that the reflection's active_record name matches up # with the current reflection's klass name. # # Note: klass will always be valid because when there's a NameError # from calling +klass+, +reflection+ will already be set to false. def valid_inverse_reflection?(reflection) reflection && klass.name == reflection.active_record.name && can_find_inverse_of_automatically?(reflection) end # Checks to see if the reflection doesn't have any options that prevent # us from being able to guess the inverse automatically. First, the # inverse_of option cannot be set to false. Second, we must # have has_many, has_one, belongs_to associations. # Third, we must not have options such as :polymorphic or # :foreign_key which prevent us from correctly guessing the # inverse association. # # Anything with a scope can additionally ruin our attempt at finding an # inverse, so we exclude reflections with scopes. def can_find_inverse_of_automatically?(reflection) reflection.options[:inverse_of] != false && VALID_AUTOMATIC_INVERSE_MACROS.include?(reflection.macro) && !INVALID_AUTOMATIC_INVERSE_OPTIONS.any? { |opt| reflection.options[opt] } && !reflection.scope end def derive_class_name class_name = name.to_s class_name = class_name.singularize if collection? class_name.camelize end def derive_foreign_key if belongs_to? "#{name}_id" elsif options[:as] "#{options[:as]}_id" else active_record.name.foreign_key end end def derive_join_table ModelSchema.derive_join_table_name active_record.table_name, klass.table_name end def primary_key(klass) klass.primary_key || raise(UnknownPrimaryKey.new(klass)) end end class HasManyReflection < AssociationReflection # :nodoc: def macro; :has_many; end def collection?; true; end def association_class if options[:through] Associations::HasManyThroughAssociation else Associations::HasManyAssociation end end end class HasOneReflection < AssociationReflection # :nodoc: def macro; :has_one; end def has_one?; true; end def association_class if options[:through] Associations::HasOneThroughAssociation else Associations::HasOneAssociation end end private def calculate_constructable(macro, options) !options[:through] end end class BelongsToReflection < AssociationReflection # :nodoc: def macro; :belongs_to; end def belongs_to?; true; end def association_class if polymorphic? Associations::BelongsToPolymorphicAssociation else Associations::BelongsToAssociation end end def join_keys(association_klass) key = polymorphic? ? association_primary_key(association_klass) : association_primary_key JoinKeys.new(key, foreign_key) end def join_id_for(owner) # :nodoc: owner[foreign_key] end private def calculate_constructable(macro, options) !polymorphic? end end class HasAndBelongsToManyReflection < AssociationReflection # :nodoc: def initialize(name, scope, options, active_record) super end def macro; :has_and_belongs_to_many; end def collection? true end end # Holds all the meta-data about a :through association as it was specified # in the Active Record class. class ThroughReflection < AbstractReflection #:nodoc: attr_reader :delegate_reflection delegate :foreign_key, :foreign_type, :association_foreign_key, :active_record_primary_key, :type, to: :source_reflection def initialize(delegate_reflection) @delegate_reflection = delegate_reflection @klass = delegate_reflection.options[:anonymous_class] @source_reflection_name = delegate_reflection.options[:source] end def through_reflection? true end def klass @klass ||= delegate_reflection.compute_class(class_name) end # Returns the source of the through reflection. It checks both a singularized # and pluralized form for :belongs_to or :has_many. # # class Post < ActiveRecord::Base # has_many :taggings # has_many :tags, through: :taggings # end # # class Tagging < ActiveRecord::Base # belongs_to :post # belongs_to :tag # end # # tags_reflection = Post.reflect_on_association(:tags) # tags_reflection.source_reflection # # => # def source_reflection through_reflection.klass._reflect_on_association(source_reflection_name) end # Returns the AssociationReflection object specified in the :through option # of a HasManyThrough or HasOneThrough association. # # class Post < ActiveRecord::Base # has_many :taggings # has_many :tags, through: :taggings # end # # tags_reflection = Post.reflect_on_association(:tags) # tags_reflection.through_reflection # # => # def through_reflection active_record._reflect_on_association(options[:through]) end # Returns an array of reflections which are involved in this association. Each item in the # array corresponds to a table which will be part of the query for this association. # # The chain is built by recursively calling #chain on the source reflection and the through # reflection. The base case for the recursion is a normal association, which just returns # [self] as its #chain. # # class Post < ActiveRecord::Base # has_many :taggings # has_many :tags, through: :taggings # end # # tags_reflection = Post.reflect_on_association(:tags) # tags_reflection.chain # # => [, # ] # def collect_join_chain collect_join_reflections [self] end # This is for clearing cache on the reflection. Useful for tests that need to compare # SQL queries on associations. def clear_association_scope_cache # :nodoc: delegate_reflection.clear_association_scope_cache source_reflection.clear_association_scope_cache through_reflection.clear_association_scope_cache end # Consider the following example: # # class Person # has_many :articles # has_many :comment_tags, through: :articles # end # # class Article # has_many :comments # has_many :comment_tags, through: :comments, source: :tags # end # # class Comment # has_many :tags # end # # There may be scopes on Person.comment_tags, Article.comment_tags and/or Comment.tags, # but only Comment.tags will be represented in the #chain. So this method creates an array # of scopes corresponding to the chain. def scope_chain @scope_chain ||= begin scope_chain = source_reflection.scope_chain.map(&:dup) # Add to it the scope from this reflection (if any) scope_chain.first << scope if scope through_scope_chain = through_reflection.scope_chain.map(&:dup) if options[:source_type] type = foreign_type source_type = options[:source_type] through_scope_chain.first << lambda { |object| where(type => source_type) } end # Recursively fill out the rest of the array from the through reflection scope_chain + through_scope_chain end end def has_scope? scope || options[:source_type] || source_reflection.has_scope? || through_reflection.has_scope? end def join_keys(association_klass) source_reflection.join_keys(association_klass) end # A through association is nested if there would be more than one join table def nested? source_reflection.through_reflection? || through_reflection.through_reflection? end # We want to use the klass from this reflection, rather than just delegate straight to # the source_reflection, because the source_reflection may be polymorphic. We still # need to respect the source_reflection's :primary_key option, though. def association_primary_key(klass = nil) # Get the "actual" source reflection if the immediate source reflection has a # source reflection itself actual_source_reflection.options[:primary_key] || primary_key(klass || self.klass) end def association_primary_key_type klass.type_for_attribute(association_primary_key) end # Gets an array of possible :through source reflection names in both singular and plural form. # # class Post < ActiveRecord::Base # has_many :taggings # has_many :tags, through: :taggings # end # # tags_reflection = Post.reflect_on_association(:tags) # tags_reflection.source_reflection_names # # => [:tag, :tags] # def source_reflection_names options[:source] ? [options[:source]] : [name.to_s.singularize, name].uniq end def source_reflection_name # :nodoc: return @source_reflection_name if @source_reflection_name names = [name.to_s.singularize, name].collect(&:to_sym).uniq names = names.find_all { |n| through_reflection.klass._reflect_on_association(n) } if names.length > 1 raise AmbiguousSourceReflectionForThroughAssociation.new( active_record.name, macro, name, options, source_reflection_names ) end @source_reflection_name = names.first end def source_options source_reflection.options end def through_options through_reflection.options end def join_id_for(owner) # :nodoc: source_reflection.join_id_for(owner) end def check_validity! if through_reflection.nil? raise HasManyThroughAssociationNotFoundError.new(active_record.name, self) end if through_reflection.polymorphic? if has_one? raise HasOneAssociationPolymorphicThroughError.new(active_record.name, self) else raise HasManyThroughAssociationPolymorphicThroughError.new(active_record.name, self) end end if source_reflection.nil? raise HasManyThroughSourceAssociationNotFoundError.new(self) end if options[:source_type] && !source_reflection.polymorphic? raise HasManyThroughAssociationPointlessSourceTypeError.new(active_record.name, self, source_reflection) end if source_reflection.polymorphic? && options[:source_type].nil? raise HasManyThroughAssociationPolymorphicSourceError.new(active_record.name, self, source_reflection) end if has_one? && through_reflection.collection? raise HasOneThroughCantAssociateThroughCollection.new(active_record.name, self, through_reflection) end if parent_reflection.nil? reflections = active_record.reflections.keys.map(&:to_sym) if reflections.index(through_reflection.name) > reflections.index(name) raise HasManyThroughOrderError.new(active_record.name, self, through_reflection) end end check_validity_of_inverse! end def constraints scope_chain = source_reflection.constraints scope_chain << scope if scope scope_chain end def add_as_source(seed) collect_join_reflections seed end def add_as_polymorphic_through(reflection, seed) collect_join_reflections(seed + [PolymorphicReflection.new(self, reflection)]) end def add_as_through(seed) collect_join_reflections(seed + [self]) end def collect_join_reflections(seed) a = source_reflection.add_as_source seed if options[:source_type] through_reflection.add_as_polymorphic_through self, a else through_reflection.add_as_through a end end protected def actual_source_reflection # FIXME: this is a horrible name source_reflection.send(:actual_source_reflection) end def primary_key(klass) klass.primary_key || raise(UnknownPrimaryKey.new(klass)) end def inverse_name; delegate_reflection.send(:inverse_name); end private def derive_class_name # get the class_name of the belongs_to association of the through reflection options[:source_type] || source_reflection.class_name end delegate_methods = AssociationReflection.public_instance_methods - public_instance_methods delegate(*delegate_methods, to: :delegate_reflection) end class PolymorphicReflection < AbstractReflection # :nodoc: def initialize(reflection, previous_reflection) @reflection = reflection @previous_reflection = previous_reflection end def klass @reflection.klass end def scope @reflection.scope end def table_name @reflection.table_name end def plural_name @reflection.plural_name end def join_keys(association_klass) @reflection.join_keys(association_klass) end def type @reflection.type end def constraints @reflection.constraints + [source_type_info] end def source_type_info type = @previous_reflection.foreign_type source_type = @previous_reflection.options[:source_type] lambda { |object| where(type => source_type) } end end class RuntimeReflection < PolymorphicReflection # :nodoc: attr_accessor :next def initialize(reflection, association) @reflection = reflection @association = association end def klass @association.klass end def table_name klass.table_name end def constraints @reflection.constraints end def source_type_info @reflection.source_type_info end def alias_candidate(name) "#{plural_name}_#{name}_join" end def alias_name Arel::Table.new(table_name) end def all_includes; yield; end end end end