# # Rabal Tree,rb # A basic Tree structure # class Tree include Enumerable # The name of this Tree attr_accessor :name # The parent of this node. If this is nil then this Tree is a # root. attr_accessor :parent # The children of this node. If this Hash is empty, then this # Tree is a leaf. attr_accessor :children # An abstract data point that can be utilized by child classes # for whatever they like. If this is non-nil and responds to # method calls it will be searched as part of the # 'method_missing' protocol. attr_accessor :parameters # # Create a new Tree with the given object.to_s as its +name+. # def initialize(name) @name = name.to_s @parent = nil @children = {} @parameters = nil end # # Return true if this Tree has no children. # def is_leaf? @children.empty? end # # Return true if this Tree has no parent. # def is_root? @parent.nil? end # # Return the root node of the tree # def root return self if is_root? return @parent.root end # # Return the distance from the root # def depth return 0 if is_root? return (1 + @parent.depth) end # # Attach the given tree at the indicated path. The path given # is always assumed to be from the root of the Tree being # attached to. # # The path is given as a string separated by '/'. Each portion # of the string is matched against the name of the particular # tree. # # Given : # # a --- b --- c # \ # d - e --- f # \ # g - h # # * the path +a/b/c+ will match the path to Tree +c+ # * the path +d/e/g+ will _not_ match anything as the path must start at +a+ here # * the path +a/d/e+ will _not_ match anytthin as +e+ is not a child of +d+ # * the path +a/d/e/g+ will match node +g+ # # Leading and trailing '/' on the path are not necessary and removed. # def add_at_path(path,subtree) parent_tree = tree_at_path(path) parent_tree << subtree return self end # # Return the Tree that resides at the given path # def tree_at_path(path_str) path_str = path_str.chomp("/").reverse.chomp("/").reverse path = path_str.split("/") # strip of the redundant first match if it is the same as # the current node find_subtree(path) end # # Add the given object to the Tree as a child of this node. If # the given object is not a Tree then wrap it with a Tree. # def <<(subtree) # this should not generally be the case, but wrap things # up to be nice. if not subtree.kind_of?(Tree) then subtree = Tree.new(subtree) end subtree.parent = self # FIXME: techinically this should no longer be called 'post_add' # but maybe 'add_hook' subtree.post_add # Don't overwrite any existing children with the same name, # just put the new subtree's children into the children of # the already existing subtree. if children.has_key?(subtree.name) then subtree.children.each_pair do |subtree_child_name,subtree_child_tree| children[subtree.name] << subtree_child_tree end else children[subtree.name] = subtree end return self end alias :add :<< # # Allow for Enumerable to be included. This just wraps walk. # def each self.walk(self,lambda { |tree| yield tree }) end # # Count how many items are in the tree # def size inject(0) { |count,n| count + 1 } end # # Walk the tree in a depth first manner, visiting the Tree # first, then its children # def walk(tree,method) method.call(tree) tree.children.each_pair do |name,child| walk(child,method) end #for depth first #method.call(tree) end # # Allow for a method call to cascade up the tree looking for a # Tree that responds to the call. # def method_missing(method_id,*params,&block) if not parameters.nil? and parameters.respond_to?(method_id) then return parameters.send(method_id, *params, &block) elsif not is_root? then @parent.send method_id, *params, &block else raise NoMethodError, "undefined method `#{method_id}' for #{name}:Tree" end end # # allow for a hook so newly added Tree objects may do custom # processing after being added to the tree, but before the tree # is walked or processed # def post_add end # # find the current path of the tree from root to here, return it # as a '/' separates string. # def current_path # # WMAP: removed the asterixs and modified the first return # to just return a '/' # return "/" if is_root? return ([name,parent.current_path]).flatten.reverse.join("/") end # # Given the initial path to match as an Array find the Tree that # matches that path. # def find_subtree(path) if path.empty? then return self else possible_child = path.shift if children.has_key?(possible_child) then children[possible_child].find_subtree(path) else raise PathNotFoundError, "`#{possible_child}' does not match anything at the current path in the Tree (#{current_path})" end end end # # Return true of false if the given subtree exists or not # def has_subtree?(path) begin find_subtree(path) return true rescue PathNotFoundError return false end end # # Allow for numerable to be included. This just wraps walk # def each self.walk(self,lambda { |tree| yield tree }) end def each_datum self.walk(self,lambda { |tree| yield tree.data}) end end