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The Visitor pattern allows operations on objects to be written without extending the object class. Sure. But why not just write a global function, or a static class, that manipulates my object collection from the outside? Basically, in a language like java, an accept() method is needed for technical reasons; but in a language where I can implement the same design without an accept() method, does the Visitor pattern become trivial?

Explanation: In the Visitor pattern, visitable classes (entities) have a method .accept() whose job is to call the visitor's .visit() method on themselves. I can see the logic of the java examples: The visitor defines a different .visit(n) method for each visitable type n it supports, and the .accept() trick must be used to choose among them at runtime. But languages like python or php have dynamic typing and no method overloading. If I am a visitor I can call an entity method (e.g., .serialize()) without knowing the entity's type or even the full signature of the method. (That's the "double dispatch" issue, right?)

I know an accept method could pass protected data to the visitor, but what's the point? If the data is exposed to the visitor classes, it is effectively part of the class interface since its details matter outside the class. Exposing private data never struck me as the point of the visitor pattern, anyway.

So it seems that in python, ruby or php I can implement a visitor-like class without an accept method in the visited object (and without reflection), right? If I can work with a family of heterogeneous objects and call their public methods without any cooperation from the "visited" class, does this still deserve to be called the "Visitor pattern"? Is there something to the essence of the pattern that I am missing, or does it just boil down to "write a new class that manipulates your objects from the outside to carry out an operation"?

PS. I've looked at plenty of discussion on SO and elsewhere, but could not find anything that addresses this question. Pointers welcome.

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1  
Reading your question carefully, I see that my answer is a long-winded way of agreeing with you. –  Marcin Apr 17 at 15:41
1  
Ha, thanks :-) It's good that this question is open again... More than two years after asking it, I'm still not sure what the remaining essence of the Visitor pattern is, after it "all but disappears" (as wikipedia put it) in python and similar languages... –  alexis Apr 19 at 17:09
    
I think the remaining essence is basically an iterated strategy pattern. But then, Visitor was always that, with double-dispatch tricks to handle different types. –  Marcin Apr 22 at 15:21

4 Answers 4

up vote 0 down vote accepted

This answer is made with an ignorance of PHP etc but the Visitor needs typically to call more than just a single method (you mentioned "serialize") on the entities. When the Visit() method is called on the concrete Visitor, the Visitor is capable of running distictly different code for each entity subtype. I don't see how that is different from a dynamically-types language (though I'd love some feedback).

Another nice benefit of Visitor is it provides a clean seperation of the code that is getting run on each entity from the code that enumerates the entities. This has saved me some serious code duplication in at least one large project.

As an aside, I've used Visitor in languages that did not have method overloading. You just replace Visit(TypeN n) with VisitN(TypeN n).


Follow up from comments.

This is a visitor psuedo code, and I don't know how I would so it without the cooperation of the visited object (at least without a switch block):

abstract class ScriptCommand
{
   void Accept(Visitor v);
}

abstract class MoveFileCommand
{
   string TargetFile;
   string DestinationLocation;

   void Accept(Visitor v)
   {
      v.VisitMoveFileCmd(this);  // this line is important because it eliminates the switch on object type
   }
}

abstract class DeleteFileCommand
{
   string TargetFile;

   void Accept(Visitor v)
   {
      v.VisitDeleteFileCmd(this); // this line is important because it eliminates the switch on object type

   }
}

// etc, many more commands

abstract class CommandVisitor
{
   void VisitMoveFileCmd(MoveFileCommand cmd);
   void VisitDeleteFileCmd(DeleteFileCommand cmd);
   // etc
}

// concrete implementation

class PersistCommandVisitor() inherits CommandVisitor
{
   void VisitMoveFileCmd(MoveFileCommand cmd)
   {
      // save the MoveFileCommand instance to a file stream or xml doc
      // this code is type-specific because each cmd subtype has vastly
      // different properties
   }

   void VisitDeleteFileCmd(DeleteFileCommand cmd)
   { 
      // save the DeleteFileCommand instance to a file stream or xml doc
      // this code is type-specific because each cmd subtype has vastly
      // different properties
   }

}

The visitor infrastructure allows the handling of a wide array of command subtypes with no select case, swithc, if else.

In regards to the visitor handling the enumerating, I think you are limiting yourself like that. That's not to say a cooperating class (an abstract VisitorEnumerator) can't be involved.

For example, note this visitor is unaware of the order of enumeration:

class FindTextCommandVisitor() inherits CommandVisitor
{
   string TextToFind;
   boolean TextFound = false;

   void VisitMoveFileCmd(MoveFileCommand cmd)
   {
      if (cmd.TargetFile.Contains(TextToFind) Or cmd.DestinationLocation.Contains(TextToFind))
         TextFound = true;
   }


   void VisitDeleteFileCmd(DeleteFileCommand cmd)
   { 
      // search DeleteFileCommand's properties
   }

}

And this allows it to be reused like this:

ScriptCommand FindTextFromTop(string txt)
{
   FindTextCommandVisitor v = new FindTextCommandVisitor();
   v.TextToFind = txt;
   for (int cmdNdx = 0; cmdNdx < CommandList.Length; cmdNdx++)
   {
      CommandList[cmdNdx].Accept(v);
      if (v.TextFound)
         return CommandList[cmdNdx];  // return the first item matching
   }
}

and the enumerate the opposite way with the same visitor:

ScriptCommand FindTextFromBottom(string txt)
{
   FindTextCommandVisitor v = new FindTextCommandVisitor();
   v.TextToFind = txt;
   for (int cmdNdx = CommandList.Length-1; cmdNdx >= 0; cmdNdx--)
   {
      CommandList[cmdNdx].Accept(v);
      if (v.TextFound)
         return CommandList[cmdNdx];  // return the first item matching
   }
}

In real code I would create a base class for the enumerator and then subclass it to handle the different enumeration scenarios, while passing in the concrete Visitor subclass to completely decouple them. Hopefully you can see the power of keeping the enumeration seperate.

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The point of my question is that you can write visitN() for each type, and you can call various object methods directly, but none of this requires the cooperation of the visited object. How is the visitor pattern different from any global function that performs an operation on objects? As for enumeration: Many consider it best practice for the visitor to handle the enumeration. –  alexis Jun 22 '12 at 14:02
    
@alexis will edit post to answer –  tcarvin Jun 22 '12 at 14:18
    
I see. So the visitor must provide a menu of methods, and the visited object chooses from them (explicitly, in this case), instead of the visitor providing a type-to-method map. And all visitors must name their methods the same, right? –  alexis Jun 22 '12 at 17:43
    
Incidentally I found your choice of example unfortunate: The visitor normally represents an operation on a class of objects, but your objects are themselves operations. I'm imagining they represent GUI elements rather than actions, but I found this use case needlessly confusing. Just saying. –  alexis Jun 22 '12 at 17:47
    
You would typically have a Visitor base class or interface and inherit the methods, which enforces they are named the same in the concrete Visitor subclasses. –  tcarvin Jun 22 '12 at 17:57

The place where Visitor is particularly useful is where the Visitor needs to switch on the type of Visitees, and for whatever reason, you don't want to encode that knowledge into the Visitees (think plugin architectures). Consider the following Python code:

Visitor style

class Banana(object):
      def visit(self, visitor):
          visitor.process_banana(self) 

class Apple(object):
      def visit(self, visitor):
          visitor.process_apple(self) 

class VisitorExample(object):
      def process_banana(self, banana):
          print "Mashing banana: ", banana

      def process_banana(self, apple):
          print "Crunching apple: ", apple

(Note that we could compress the visitee logic with a base class/mixin).

Compare with:

Non-visitor style

class NonVisitorVisitor(object):
      def process(self, fruit):
          verb = {Banana: "Mashing banana: ", 
                  Apple: "Crunching apple: "}[type(fruit)]
          print verb, fruit

In the second example, the fruits don't need any special support for the "visitor", and the "visitor" handles the absence of logic for the given type.

By contrast, in Java or C++ the second example is not really possible, and the visit method (in the visitees) can use one name to refer to all versions of the process method; the compiler will pick the version which applies to the type being passed; and the visitor can easily provide a default implementation for the root class for the type of visitees. It's also necessary to have a visit method in the visitees because the method variant (e.g. process(Banana b) vs process(Apple a)) is selected at compile time in the code generated for the visitee's visit method.

Accordingly, in languages like Python or Ruby where there is no dispatch on parameter types (or rather, the programmer has to implement it themselves), there is no need for the visitor pattern. Alternatively, one might say the visitor pattern is better implemented without the dispatching through visitee methods.

In general in dynamic languages like Python, Ruby, or Smalltalk, it is better to have the "visitee" classes carry all the information needed (here, the verb applicable), and if necessary, provide hooks to support the "visitor", such as command or strategy patterns, or use the Non-visitor pattern shown here.

Conclusion

The non-Visitor is a clean way to implement the type-switching logic, notwithstanding that explicit type switching is usually a code smell. Remember that the Java and C++ way of doing it is also explicit switching in the Visitor; the elegance of the pattern in those languages is that it avoids having explicit switching logic in the visitees, which is not possible in dynamic languages with untyped variables. Accordingly, the Visitor pattern at the top is bad for dynamic languages because it reproduces the sin which the Visitor pattern in static languages seeks to avoid.

The thing with using patterns is that rather than slavishly reproducing UML diagrams, you must understand what they are trying to accomplish, and how they accomplish those goals with the language machinery concretely under consideration. In this case, the pattern to achieve the same merits looks different, and has a different pattern of calls. Doing so will allow you to adapt them to different languages, but also to different concrete situations within the same language.

Update: here's a ruby article on implementing this pattern: http://blog.rubybestpractices.com/posts/aaronp/001_double_dispatch_dance.html

The double dispatch seems rather forced to me; you could just do away with it, as far as I can tell.

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I see... so the Example class implements a bunch of basic behaviors (perhaps standard display components like tables or lists), then tells the visitees "display yourself" and they use the visitor's methods to do so? And another visitor could provide different implementations, e.g. PDF vs. HTML... am I on the right track? It's years since I asked the question, but I'm still not clear on the proper usage... –  alexis Apr 18 at 17:40
    
I meant that one visitee might choose to display itself as a list, another as a table, etc.; the visitor knows how to draw a table, but not when it is appropriate. But I'm not sure anymore if this matches what you had in mind. –  alexis Apr 18 at 17:50
    
@alexis I see what you mean. What you're describing is - I think - not really the visitor pattern but a form of the strategy pattern. Actually, I think this is the problem with patterns talk as it exists now- it really focuses on what amount to UML diagram patterns in quite a concrete way, without focusing on the best practices they embody, or identifying how the patterns may or may not compensate for, or relate to, specific language deficiencies/features. A visitor-strategy pattern makes sense; but again that's another weakness of patterns talk: it doesn't discuss how patterns relate. –  Marcin Apr 18 at 20:55
    
Thanks! I'll refresh my memory of the strategy pattern then. Coming back to this question has been helpful: the scenario I described matches an application I'm working on (though with just one output format). –  alexis Apr 19 at 15:55
    
Now it seemed to me that in the real visitor pattern, the visitor knows what method it wants to call, but the visitees know what data they want to provide.. but that's not what your example shows. In your example, the visitor provides the methods and the visit amounts to telling the visitees "call my methods". If the visitees "know" which method of the visitor they should call, how is this different from the strategy pattern? –  alexis Apr 19 at 16:44

I think you are using Visitor Pattern and Double Dispatch interchangeably. When you say,

If I can work with a family of heterogeneous objects and call their public methods without any cooperation from the "visited" class, does this still deserve to be called the "Visitor pattern"?

and

write a new class that manipulates your objects from the outside to carry out an operation"?

you are defining what Double dispatch is. Sure, Visitor pattern is implemented by double dispatch. But there is something more to the pattern itself.

  • Each Visitor is an algorithm over a group of elements (entities) and new visitors can be plugged in without changing the existing code. Open/Closed principle.
  • When new elements are added frequently, Visitor pattern is best avoided
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Maybe, it depends on the language.

The visitor pattern solves double and multiple-hierarchy problems in languages that don't feature multiple-dispatch. Take Ruby, Lisp and Python. They are all dynamically-typed languages, but only CLOS-Lisp implements multiple-dispatch in the standard. This is also called multimethods and Python and Ruby can apparently implement it by using extensions.

I like this curious comment on wikipedia stating that:

Lisp's object system [CLOS] with its multiple dispatch does not replace the Visitor pattern, but merely provides a more concise implementation of it in which the pattern all but disappears.

In other languages, even statically typed ones, you have to work around the absence of multimethods. The Visitor pattern is one such way.

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I actually don't think that visitor meaningfully solves the double dispatch problem in languages which can't do any kind of dispatch on parameter types; this is why it works in C++, Java, and C# but not in Python or Ruby. –  Marcin Apr 18 at 17:24

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