# A List, or rather an ordered list, is just that, a list of items. # # For the implementation we use Objects memory which is index addressable # But, objects are also lists where indexes start with 0, except 0 is taken for the Type # so all incoming/outgoing indexes have to be shifted two up/down (one more for length) module Parfait class List < Data16 attr :type, :indexed_length , :next_list def self.type_length 3 # 0 type , 1 length , 2 - next_list end def self.data_length self.memory_size - self.type_length - 1 end def initialize super self.indexed_length = 0 end def data_length self.class.data_length end def get_length r = indexed_length r.nil? ? 0 : r end def ensure_next self.next_list = List.new unless next_list self.next_list end # set the value at index. # Lists start from index 0 def set( index , value) raise "Only positive indexes #{index}" if index < 0 if index >= get_length grow_to(index + 1) end if index >= data_length ensure_next next_list.set( index - data_length , value) else set_internal_word( index + self.class.type_length, value) end end # set the value at index. # Lists start from index 0 def get( index ) raise "Only positive indexes, #{index}" if index < 0 if index >= data_length return nil unless next_list return next_list.get( index - data_length) else ret = nil if(index < get_length) ret = get_internal_word(index + self.class.type_length ) end return ret end end alias :[] :get def grow_to( len ) raise "Only positive lenths, #{len}" if len < 0 old_length = get_length return if old_length >= len internal_set_length( len) end def shrink_to( len ) raise "Only positive lenths, #{len}" if len < 0 old_length = get_length return if old_length <= len internal_set_length( len) end # def indexed_length # get_length() # end # include? means non nil index def include?( item ) return index_of(item) != nil end # index of item # return nil if no such item def index_of( item ) max = self.get_length #puts "length #{max} #{max.class}" counter = 0 while( counter < max ) if( get(counter) == item) return counter end counter = counter + 1 end return nil end # return the next of given. Nil if item not in list or there is not next def next_value(val) index = index_of(val) return nil unless index return nil if index == (get_length - 1) return get(index + 1) end # push means add to the end # this automatically grows the List def push( value ) to = self.get_length set( to , value) to end def delete( value ) index = index_of value return false unless index delete_at index end def delete_at( index ) # TODO bounds check while(index < self.get_length) set( index , get(index + 1)) index = index + 1 end set_length( self.get_length - 1) true end def first return nil if empty? get(0) end def last return nil if empty? get(get_length() - 1) end def empty? self.get_length == 0 end def equal? other # this should call parfait get_class, alas that is not implemented yet return false if other.class != self.class return false if other.get_length != self.get_length index = self.get_length while(index >= 0) return false if other.get(index) != self.get(index) index = index - 1 end return true end # above, correct, implementation causes problems in the machine object space # because when a second empty (newly created) list is added, it is not actually # added as it exists already. TODO, but hack with below identity function def ==( other ) self.object_id == other.object_id end # word length (padded) is the amount of space taken by the object # For your basic object this means the number of instance variables as determined by type # This is off course 0 for a list, unless someone squeezed an instance variable in # but additionally, the amount of data comes on top. # unfortuntely we can't just use super because of the Padding def padded_length Padding.padded_words( get_type().instance_length + get_length() ) end def each index = 0 while index < self.get_length item = get(index) yield item index = index + 1 end self end def each_with_index index = 0 while index < self.get_length item = get(index) yield item , index index = index + 1 end self end def each_pair index = 0 while index < self.get_length key = get( index ) value = get(index + 1) yield key , value index = index + 2 end self end def find index = 0 while index < self.get_length item = get(index) return item if yield item index = index + 1 end return nil end def set_length( len ) was = self.get_length return if was == len if(was < len) grow_to( len ) else shrink_to( len ) end end def inspect index = 0 ret = "" while index < self.get_length item = get(index) ret += item.inspect ret += "," unless index == (self.get_length - 1) index = index + 1 end ret end def to_rxf_node(writer , level , ref ) Sof.array_to_rxf_node(self , writer , level , ref ) end def dup list = List.new each do |item| list.push(item) end list end def to_a array = [] index = 0 while( index < self.get_length) array[index] = get(index) index = index + 1 end array end private def internal_set_length( i ) self.indexed_length = i end end end