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Hey there, I have read the few posts here on when/how to use the visitor pattern, and some articles/chapters on it, and it makes sense if you are traversing an AST and it is highly structured, and you want to encapsulate the logic into a separate "visitor" object, etc. But with Ruby, it seems like overkill because you could just use blocks to do nearly the same thing.

I would like to pretty_print xml using Nokogiri. The author recommended that I use the visitor pattern, which would require I create a FormatVisitor or something similar, so I could just say "node.accept(".

The issue is, what if I want to start customizing all the stuff in the FormatVisitor (say it allows you to specify how nodes are tabbed, how attributes are sorted, how attributes are spaced, etc.).

  • One time I want the nodes to have 1 tab for each nest level, and the attributes to be in any order
  • The next time, I want the nodes to have 2 spaces, and the attributes in alphabetical order
  • The next time, I want them with 3 spaces and with two attributes per line.

I have a few options:

  • Create an options hash in the constructor ({:tabs => 2})
  • Set values after I have constructed the Visitor
  • Subclass the FormatVisitor for each new implementation
  • Or just use blocks, not the visitor

Instead of having to construct a FormatVisitor, set values, and pass it to the node.accept method, why not just do this:

node.pretty_print do |format|
  format.tabs = 2
  format.sort_attributes_by {...}

That's in contrast to what I feel like the visitor pattern would look like:

visitor = do
  attr_accessor :format
  def pretty_print(node)
    # do something with the text
    @format.tabs = 2 # two tabs per nest level
    @format.sort_attributes_by {...}
doc.children.each do |child|

Maybe I've got the visitor pattern all wrong, but from what I've read about it in ruby, it seems like overkill. What do you think? Either way is fine with me, just wondering what how you guys feel about it.

Thanks a lot, Lance

share|improve this question
up vote 7 down vote accepted

I would go with what is simple and works. I don't know the details, but what you wrote compared with the Visitor pattern, looks simpler. If it also works for you, I would use that. Personally, I am tired with all these techniques that ask you to create a huge "network" of interelated classes, just to solve one small problem.

Some would say, yeah, but if you do it using patterns then you can cover many future needs and blah blah. I say, do now what works and if the need arises, you can refactor in the future. In my projects, that need almost never arises, but that's a different story.

share|improve this answer
agreed. If you need stronger maintainability, make a method that can generate your blocks, but I feel that the visitor pattern can be reconstructed using native Ruby code, just like the Factory pattern is pretty much constructible using native initializers. – Jim Deville Oct 5 '09 at 6:36
Actually the real benefit of patterns is that they aid maintenance by making it easy for others to understand what you are trying to achieve with the pattern. Too often the intention is lost in the implementation - if you recognise the pattern, you have q better chance of recognising the intent. – Chris McCauley Oct 5 '09 at 7:18
Thanks a lot, these are all great points. – Lance Pollard Oct 5 '09 at 7:37

In essence, a Ruby block is the Visitor pattern without the extra boilerplate. For trivial cases, a block is sufficient.

For example, if you want to perform a simple operation on an Array object, you would just call the #each method with a block instead of implementing a separate Visitor class.

However, there are advantages in implementing a concrete Visitor pattern under certain cases:

  • For multiple, similar but complex operations, Visitor pattern provides inheritance and blocks don't.
  • Cleaner to write a separate test suite for Visitor class.
  • It's always easier to merge smaller, dumb classes into a larger smart class than separating a complex smart class into smaller dumb classes.

Your implementation seems mildly complex, and Nokogiri expects a Visitor instance that impelment #visit method, so Visitor pattern would actually be a good fit in your particular use case. Here is a class based implementation of the visitor pattern:

FormatVisitor implements the #visit method and uses Formatter subclasses to format each node depending on node types and other conditions.

# FormatVisitor implments the #visit method and uses formatter to format
# each node recursively.
class FormatVistor

  attr_reader :io

  # Set some initial conditions here.
  # Notice that you can specify a class to format attributes here.
  def initialize(io, tab: "  ", depth: 0, attributes_formatter_class: AttributesFormatter)
    @io = io
    @tab = tab
    @depth = depth
    @attributes_formatter_class = attributes_formatter_class

  # Visitor interface. This is called by Nokogiri node when Node#accept
  # is invoked.
  def visit(node)
    NodeFormatter.format(node, @attributes_formatter_class, self)

  # helper method to return a string with tabs calculated according to depth
  def tabs
    @tab * @depth

  # creates and returns another visitor when going deeper in the AST
  def descend, {
      tab: @tab,
      depth: @depth + 1,
      attributes_formatter_class: @attributes_formatter_class

Here the implementation of AttributesFormatter used above.

# This is a very simple attribute formatter that writes all attributes
# in one line in alphabetical order. It's easy to create another formatter
# with the same #initialize and #format interface, and you can then
# change the logic however you want.
class AttributesFormatter
  attr_reader :attributes, :io

  def initialize(attributes, io)
    @attributes, @io = attributes, io

  def format
    return if attributes.empty?

    sorted_attribute_keys.each do |key|
      io << ' ' << key << '="' << attributes[key] << '"'


  def sorted_attribute_keys

NodeFormatters uses Factory pattern to instantiate the right formatter for a particular node. In this case I differentiated text node, leaf element node, element node with text, and regular element nodes. Each type has a different formatting requirement. Also note, that this is not complete, e.g. comment nodes are not taken into account.

class NodeFormatter
  # convience method to create a formatter using #formatter_for
  # factory method, and calls #format to do the formatting.
  def self.format(node, attributes_formatter_class, visitor)
    formatter_for(node, attributes_formatter_class, visitor).format

  # This is the factory that creates different formatters
  # and use it to format the node
  def self.formatter_for(node, attributes_formatter_class, visitor)
    formatter_class_for(node).new(node, attributes_formatter_class, visitor)

  def self.formatter_class_for(node)
    when text?(node)
    when leaf_element?(node)
    when element_with_text?(node)

  # Is the node a text node? In Nokogiri a text node contains plain text
  def self.text?(node)
    node.class == Nokogiri::XML::Text

  # Is this node an Element node? In Nokogiri an element node is a node
  # with a tag, e.g. <img src="foo.png" /> It can also contain a number
  # of child nodes
  def self.element?(node)
    node.class == Nokogiri::XML::Element

  # Is this node a leaf element node? e.g. <img src="foo.png" />
  # Leaf element nodes should be formatted in one line.
  def self.leaf_element?(node)
    element?(node) && node.children.size == 0

  # Is this node an element node with a single child as a text node.
  # e.g. <p>foobar</p>. We will format this in one line.
  def self.element_with_text?(node)
    element?(node) && node.children.size == 1 && text?(node.children.first)

  attr_reader :node, :attributes_formatter_class, :visitor

  def initialize(node, attributes_formatter_class, visitor)
    @node = node
    @visitor = visitor
    @attributes_formatter_class = attributes_formatter_class


  def attribute_formatter
    @attribute_formatter ||=, io)

  def tabs

  def io

  def leaf?

  def write_tabs
    io << tabs

  def write_children
    v = visitor.descend
    node.children.each { |child| child.accept(v) }

  def write_attributes

  def write_open_tag
    io << '<' <<
    if leaf?
      io << '/>'
      io << '>'

  def write_close_tag
    return if leaf?
    io << '</' << << '>'

  def write_eol
    io << "\n"

  class Element < self
    def format

  class LeafElement < self
    def format

  class ElementWithText < self
    def format
      io << text


    def text

  class Text < self
    def format
      io << node.text

To use this class:

xml = "<root><aliens><alien><name foo=\"bar\">Alf<asdf/></name></alien></aliens></root>"
doc = Nokogiri::XML(xml)

# the FormatVisitor accepts an IO object and writes to it 
# as it visits each node, in this case, I pick STDOUT.
# You can also use File IO, Network IO, StringIO, etc.
# As long as it support the #puts method, it will work.
# I'm using the defaults here. ( two spaces, with starting depth at 0 )
visitor =

# this will allow doc ( the root node ) to call visitor.visit with
# itself. This triggers the visiting of each children recursively
# and contents written to the IO object. ( In this case, it will
# print to STDOUT.

# Prints:
# <root>
#   <aliens>
#     <alien>
#       <name foo="bar">
#         Alf
#         <asdf/>
#       </name>
#     </alien>
#   </aliens>
# </root>

With the above code, you can change node formatting behaviors by constructing extra subclasses of NodeFromatters and plug them into the factory method. You can control the formatting of attributes with various implementation of the AttributesFromatter. As long as you adhere to its interface, you can plug it into the attributes_formatter_class argument without modifying anything else.

List of design patterns used:

  • Visitor Pattern: handle node traversal logic. ( Also interface requirement by Nokogiri. )
  • Factory Pattern, used to determine formatter based on node types and other formatting conditions. Note, if you don't like the class methods on NodeFormatter, you can extract them into NodeFormatterFactory to be more proper.
  • Dependency Injection (DI / IoC), used to control the formatting of attributes.

This demonstrates how you can combine a few patterns together to achieve the flexibility you desire. Although, if you need those flexibility is something you have to decide.

share|improve this answer
Can you add one good example to describe the visitor pattern. – Arup Rakshit Dec 7 '14 at 20:52
Added some concrete examples, enjoy! – Aaron Qian May 17 '15 at 7:39
Thanks for this. I have lots of questions and conceptions with design patterns.. If you have time, could you help me to teach those one per week...? Again thanks for the further explanation to this answer.. – Arup Rakshit May 17 '15 at 11:35

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