# Below we define functions (in different classes) that are not part of the run-time # They are used for the boot process, ie when this codes executes in the vm that builds salama # To stay sane, we use the same classes that we use later, but "adapt" them to work in ruby # This affects mainly memory layout module FakeMem def initialize @memory = [0,nil] if Parfait::Space.object_space and Parfait::Space.object_space.objects Parfait::Space.object_space.add_object self else #TODO, must go through spce instance variables "by hand" puts "fixme, no layout for #{self.class.name}" end init_layout if Virtual::Machine.instance.class_mappings end def init_layout vm_name = self.class.name.split("::").last clazz = Virtual::Machine.instance.class_mappings[vm_name] raise "Class not found #{vm_name}" unless clazz self.set_layout clazz.object_layout end end module Parfait # Objects memory functions. Object memory is 1 based # but we implement it with ruby array (0 based) and use 0 as type-word # These are the same functions that Builtin implements at run-time class Object include FakeMem # these internal functions are _really_ internal # they respresent the smallest code needed to build larger functionality # but should _never_ be used outside parfait. in fact that should be impossible def internal_object_get_typeword raise "failed init for #{self.class}" unless @memory @memory[0] end def internal_object_set_typeword w raise "failed init for #{self.class}" unless @memory @memory[0] = w end def internal_object_length raise "failed init for #{self.class}" unless @memory @memory.length - 1 # take of type-word end # 1 -based index def internal_object_get(index) @memory[index] end # 1 -based index def internal_object_set(index , value) raise "failed init for #{self.class}" unless @memory @memory[index] = value end def internal_object_grow(length) old_length = internal_object_length() while( old_length < length ) internal_object_set( old_length + 1, nil) old_length = old_length + 1 end end def to_s Sof::Writer.write(self) end end class List def to_sof_node(writer , level , ref ) Sof.array_to_sof_node(self , writer , level , ref ) end def to_a array = [] index = 1 while( index <= self.get_length) array[index - 1] = get(index) index = index + 1 end array end end class Dictionary def to_sof_node(writer , level , ref) Sof.hash_to_sof_node( self , writer , level , ref) end end class Method attr_accessor :info end class Word def == other return false unless other.is_a?(String) or other.is_a?(Word) as_string = self.to_s unless other.is_a? String other = other.to_s end as_string == other end def to_s string = "" index = 1 while( index <= self.length) string[index - 1] = get_char(index).chr index = index + 1 end string end end end module Virtual # Functions to generate parfait objects def self.new_word( string ) string = string.to_s if string.is_a? Symbol word = Parfait::Word.new( string.length ) string.codepoints.each_with_index do |code , index | word.set_char(index + 1 , code) end word end def self.new_list array list = Parfait::List.new_object list.set_length array.length index = 1 while index <= array.length do list.set(index , array[index - 1]) index = index + 1 end list end end