module Fin # Represents business domain model for a single item (Quote, Deal, Instrument, etc...) # Currently it is only used to extract common functionality from record wrappers, # down the road the goal is to add ActiveModel compatibility class Model include Enumerable def self.attribute_types @attribute_types ||= superclass.attribute_types.dup rescue {} end def self.model_class_id value = nil if value @model_class_id ||= value model_classes[@model_class_id] = self else @model_class_id end end def self.model_classes @model_classes ||= superclass.model_classes rescue {} #shared list for all subclasses end def self.property prop_hash prop_hash.each do |arg, type| aliases = [arg].flatten name = aliases.shift instance_eval do attribute_types[name.to_s] = type.to_s define_method(name) do @attributes[name] end define_method("#{name}=") do |value| @attributes[name] = value end aliases.each do |ali| alias_method "#{ali}", name alias_method "#{ali}=", "#{name}=" end end end # Using static calls, create class method extracting attributes from raw records attribute_extractor = attribute_types.map do |name, type| case type when /^[ct]/ # TODO: In future, read t AsLong and convert into DateTime "rec.GetValAsString('#{name}')" when /^i[14]/ "rec.GetValAsLong('#{name}')" when /^i8/ "rec.GetValAsString('#{name}').to_i" when /^[df]/ "rec.GetValAsString('#{name}').to_f" else raise "Unrecognized attribute type: #{name} => #{type}" end end.join(",\n") extractor_body = "def self.extract_attributes rec [#{attribute_extractor}] end" # puts "In #{self}:, #{extractor_body" instance_eval extractor_body end def self.from_record rec new *extract_attributes(rec) end # Unpacks attributes into appropriate Model subclass def self.from_msg msg class_id = msg.first model_classes[class_id].new *msg[1..-1] end # Extracts attributes from record into a serializable format (Array) # Returns an Array where 1st element is a model_class_id of our Model subclass, # and second element is a list of arguments to its initialize. Class method! def self.to_msg rec extract_attributes(rec).unshift(model_class_id) end # Converts OBJECT attributes into a serializable format (Array) # Returns an Array where 1st element is a model_class_id of our Model subclass, # and second element is a list of arguments to its initialize. Instance method! def to_msg inject([self.class.model_class_id]) { |array, (name, _)| array << send(name) } end # TODO: Builder pattern, to avoid args Array creation on each initialize? def initialize *args @attributes = {} opts = args.last.is_a?(Hash) ? args.pop : {} each_with_index { |(name, _), i| send "#{name}=", args[i] } unless args.empty? opts.each { |name, value| send "#{name}=", value } end def each if block_given? self.class.attribute_types.each { |name, _| yield name, send(name) } else self.class.attribute_types.map { |name, _| [name, send(name)].to_enum } end end alias each_property each def inspect divider=',' map { |property, value| "#{property}=#{value}" }.join(divider) end # TODO: DRY principle: there should be one authoritative source for everything... # TODO: Should such source be schema file, or Model code? # TODO: Maybe, Model should just read from schema file at init time? # All P2 records carry these properties property [:replID, :repl_id] => :i8, [:replRev, :repl_rev, :rev] => :i8, [:replAct, :repl_act] => :i8 def index object_id # TODO: @repl_id? end # Fin::Model itself has model_class_id 0 model_class_id 0 end end