AlkantarClanX12
Current Path : /opt/alt/ruby26/lib64/ruby/gems/2.6.0/gems/rake-12.3.3/lib/rake/ |
Current File : //opt/alt/ruby26/lib64/ruby/gems/2.6.0/gems/rake-12.3.3/lib/rake/linked_list.rb |
# frozen_string_literal: true module Rake # Polylithic linked list structure used to implement several data # structures in Rake. class LinkedList include Enumerable attr_reader :head, :tail # Polymorphically add a new element to the head of a list. The # type of head node will be the same list type as the tail. def conj(item) self.class.cons(item, self) end # Is the list empty? # .make guards against a list being empty making any instantiated LinkedList # object not empty by default # You should consider overriding this method if you implement your own .make method def empty? false end # Lists are structurally equivalent. def ==(other) current = self while !current.empty? && !other.empty? return false if current.head != other.head current = current.tail other = other.tail end current.empty? && other.empty? end # Convert to string: LL(item, item...) def to_s items = map(&:to_s).join(", ") "LL(#{items})" end # Same as +to_s+, but with inspected items. def inspect items = map(&:inspect).join(", ") "LL(#{items})" end # For each item in the list. def each current = self while !current.empty? yield(current.head) current = current.tail end self end # Make a list out of the given arguments. This method is # polymorphic def self.make(*args) # return an EmptyLinkedList if there are no arguments return empty if !args || args.empty? # build a LinkedList by starting at the tail and iterating # through each argument # inject takes an EmptyLinkedList to start args.reverse.inject(empty) do |list, item| list = cons(item, list) list # return the newly created list for each item in the block end end # Cons a new head onto the tail list. def self.cons(head, tail) new(head, tail) end # The standard empty list class for the given LinkedList class. def self.empty self::EMPTY end protected def initialize(head, tail=EMPTY) @head = head @tail = tail end # Represent an empty list, using the Null Object Pattern. # # When inheriting from the LinkedList class, you should implement # a type specific Empty class as well. Make sure you set the class # instance variable @parent to the associated list class (this # allows conj, cons and make to work polymorphically). class EmptyLinkedList < LinkedList @parent = LinkedList def initialize end def empty? true end def self.cons(head, tail) @parent.cons(head, tail) end end EMPTY = EmptyLinkedList.new end end