# Class is mainly a list of methods with a name. # The methods are untyped, sis VoolMethod. # The memory layout of an object is determined by the Type (see there). # The class carries the "current" type, ie the type an object would be if you # created an instance of the class. # Note that this changes over time and so many types share the same class. # For dynamic OO it is essential that the class (the object defining the class) # can carry methods. It does so in an instance variable methods. # An Object carries the data for the instance variables it has. # The Type lists the names of the instance variables # The Class keeps a list of instance methods, these have a name and (vool) code # Each type in turn has a list of TypedMethods that hold binary code module Parfait class Class < Object include Behaviour attr_reader :instance_type , :name , :instance_methods , :super_class_name def initialize( name , superclass , instance_type) super() @name = name @super_class_name = superclass @instance_methods = List.new set_instance_type( instance_type ) end def rxf_reference_name name end def inspect "Class(#{name})" end def add_method_for(name , type , frame , body ) method = Parfait::VoolMethod.new(name , type , frame , body ) add_method( method ) method end def add_method(method) raise "Must be untyped method #{method}" unless method.is_a? Parfait::VoolMethod @instance_methods.push(method) end def get_method(name) @instance_methods.find{|m| m.name == name } end # adding an instance changes the instance_type to include that variable def add_instance_variable( name , type) @instance_type = @instance_type.add_instance_variable( name , type ) end # setting the type generates all methods for this type # (or will do, once we store the methods code to do that) def set_instance_type( type ) raise "type must be type #{type}" unless type.is_a?(Type) @instance_type = type end # return the super class, but raise exception if either the super class name # or the super classs is nil. # Use only for non Object base class def super_class! raise "No super_class for class #{@name}" unless @super_class_name s = super_class raise "superclass not found for class #{@name} (#{@super_class_name})" unless s s end # return the super class # we only store the name, and so have to resolve. # Nil name means no superclass, and so nil is a valid return value def super_class return nil unless @super_class_name Parfait.object_space.get_class_by_name(@super_class_name) end # ruby 2.1 list (just for reference, keep at bottom) #:allocate, :new, :superclass # + modules # :<, :<=, :>, :>=, :included_modules, :include?, :name, :ancestors, :instance_methods, :public_instance_methods, # :protected_instance_methods, :private_instance_methods, :constants, :const_get, :const_set, :const_defined?, # :const_missing, :class_variables, :remove_class_variable, :class_variable_get, :class_variable_set, # :class_variable_defined?, :public_constant, :private_constant, :singleton_class?, :include, :prepend, # :module_exec, :class_exec, :module_eval, :class_eval, :method_defined?, :public_method_defined?, # :private_method_defined?, :protected_method_defined?, :public_class_method, :private_class_method, :autoload, # :autoload?, :instance_method, :public_instance_method end end