module ActiveRemote module Association extend ActiveSupport::Concern module ClassMethods # Create a `belongs_to` association for a given remote resource. # Specify one or more associations to define. The constantized # class must be loaded into memory already. A method will be defined # with the same name as the association. When invoked, the associated # remote model will issue a `search` for the :guid with the associated # guid's attribute (e.g. read_attribute(:client_guid)) and return the first # remote object from the result, or nil. # # A `belongs_to` association should be used when the associating remote # contains the guid to the associated model. For example, if a User model # `belongs_to` Client, the User model would have a client_guid field that is # used to search the Client service. The Client model would have no # reference to the user. # # ====Examples # # class User # belongs_to :client # end # # An equivalent code snippet without a `belongs_to` declaration would be: # # ====Examples # # class User # def client # Client.search(:guid => self.client_guid).first # end # end # def belongs_to(belongs_to_klass, options={}) perform_association(belongs_to_klass, options) do |klass, object| foreign_key = options.fetch(:foreign_key) { :"#{klass.name.demodulize.underscore}_guid" } search_hash = {} search_hash[:guid] = object.read_attribute(foreign_key) search_hash[options[:scope]] = object.read_attribute(options[:scope]) if options.has_key?(:scope) search_hash.values.any?(&:nil?) ? nil : klass.search(search_hash).first end end # Create a `has_many` association for a given remote resource. # Specify one or more associations to define. The constantized # class must be loaded into memory already. A method will be defined # with the same plural name as the association. When invoked, the associated # remote model will issue a `search` for the :guid with the associated # guid's attribute (e.g. read_attribute(:client_guid)). # # A `has_many` association should be used when the associated model has # a field to identify the associating model, and there can be multiple # remotes associated. For example, if a Client has many Users, the User remote # would have a client_guid field that is searchable. That search would likely # return multiple user records. The client would not # have a field indicating which users are associated. # # ====Examples # # class Client # has_many :users # end # # An equivalent code snippet without a `has_many` declaration would be: # # ====Examples # # class Client # def users # User.search(:client_guid => self.guid) # end # end # def has_many(has_many_class, options={}) perform_association(has_many_class, options) do |klass, object| foreign_key = options.fetch(:foreign_key) { :"#{object.class.name.demodulize.underscore}_guid" } search_hash = {} search_hash[foreign_key] = object.guid search_hash[options[:scope]] = object.read_attribute(options[:scope]) if options.has_key?(:scope) search_hash.values.any?(&:nil?) ? [] : klass.search(search_hash) end end # Create a `has_one` association for a given remote resource. # Specify one or more associations to define. The constantized # class must be loaded into memory already. A method will be defined # with the same name as the association. When invoked, the associated # remote model will issue a `search` for the :guid with the associated # guid's attribute (e.g. read_attribute(:client_guid)) and return the first # remote object in the result, or nil. # # A `has_one` association should be used when the associated remote # contains the guid from the associating model. For example, if a User model # `has_one` Client, the Client remote would have a user_guid field that is # searchable. The User model would have no reference to the client. # # ====Examples # # class User # has_one :client # An equivalent code snippet without a `has_one` declaration would be: # # ====Examples # # class User # def client # Client.search(:user_guid => self.guid).first # end # end # def has_one(has_one_klass, options={}) perform_association(has_one_klass, options) do |klass, object| foreign_key = options.fetch(:foreign_key) { :"#{object.class.name.demodulize.underscore}_guid" } search_hash = {} search_hash[foreign_key] = object.guid search_hash[options[:scope]] = object.read_attribute(options[:scope]) if options.has_key?(:scope) search_hash.values.any?(&:nil?) ? nil : klass.search(search_hash).first end end # when requiring an attribute on your search, we verify the attribute # exists on both models def validate_scoped_attributes(associated_class, object_class, options) raise "Could not find attribute: '#{options[:scope]}' on #{object_class}" unless object_class.public_instance_methods.include?(options[:scope]) raise "Could not find attribute: '#{options[:scope]}' on #{associated_class}" unless associated_class.public_instance_methods.include?(options[:scope]) end private def create_setter_method(associated_klass, options={}) writer_method = "#{associated_klass}=".to_sym define_method(writer_method) do |new_value| klass_name = options.fetch(:class_name){ associated_klass } klass = klass_name.to_s.classify.constantize instance_variable_set(:"@#{new_value.class.name.demodulize.underscore}", new_value) new_value end end def perform_association(associated_klass, options={}) define_method(associated_klass) do klass_name = options.fetch(:class_name){ associated_klass } klass = klass_name.to_s.classify.constantize self.class.validate_scoped_attributes(klass, self.class, options) if options.has_key?(:scope) value = instance_variable_get(:"@#{associated_klass}") unless value value = yield( klass, self ) instance_variable_set(:"@#{associated_klass}", value) end return value end create_setter_method(associated_klass, options) end end end end