# A module describes the capabilities of a group of objects, ie what data it has # and functions it responds to. # The group may be a Class, but a module may be included into classes and objects too. # # The class also keeps a list of class methods (with names+code) # Class methods are instance methods on the class object # So it is essential that the class (the object defining the class) # can carry methods. It does so as instance variables. # In fact this property is implemented in the Object, as methods # may be added to any object at run-time module Parfait class Module < Object def initialize name , superclass super() @name = name @instance_methods = List.new_object @super_class = superclass @meta_class = nil#MetaClass.new(self) end def name @name end def instance_methods @instance_methods end def method_names names = List.new @instance_methods.each do |method| names.push method.name end names end def add_instance_method method raise "not a method #{method.class} #{method.inspect}" unless method.is_a? Method raise "syserr #{method.name.class}" unless method.name.is_a? Symbol found = get_instance_method( method.name ) if found @instance_methods.delete(found) #raise "existed in #{self.name} #{Sof.write found.source.blocks}" end @instance_methods.push method #puts "#{self.name} add #{method.name}" method end def remove_instance_method method @instance_methods.delete method end def create_instance_method name , arg_names raise "uups #{name}.#{name.class}" unless name.is_a?(Symbol) clazz = Space.object_space.get_class_by_name(self.name) raise "??? #{self.name}" unless clazz Method.new_object( clazz , name , arg_names ) end # this needs to be done during booting as we can't have all the classes and superclassses # instantiated. By that logic it should maybe be part of vm rather. # On the other hand vague plans to load the hierachy from sof exist, so for now... def set_super_class sup @super_class = sup end def get_instance_method fname raise "uups #{fname}.#{fname.class}" unless fname.is_a?(Symbol) #if we had a hash this would be easier. Detect or find would help too @instance_methods.each do |m| return m if(m.name == fname ) end nil end # get the method and if not found, try superclasses. raise error if not found def resolve_method m_name raise "uups #{m_name}.#{m_name.class}" unless m_name.is_a?(Symbol) method = get_instance_method(m_name) return method if method if( @super_class ) method = @super_class.resolve_method(m_name) raise "Method not found #{m_name}, for \n#{self}" unless method end method end # :<, :<=, :>, :>=, :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