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I keep seeing references to the visitor pattern in blogs but I've got to admit, I just don't get it. I read the wikipedia article for the pattern and I understand its mechanics but I'm still confused as to when I'd use it.

As someone who just recently really got the decorator pattern and is now seeing uses for it absolutely everywhere I'd like to be able to really understand intuitively this seemingly handy pattern as well.

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Finally got it after reading this article by Jermey Miller on my blackberry while stuck waiting in a lobby for two hours. It's long but gives a wonderful explanation of double-dispatch, visitor, and composite, and what you can do with these. –  George Mauer Jan 20 '09 at 15:03
    
here is a nice article: codeproject.com/Articles/186185/Visitor-Design-Pattern –  Seyed Morteza Mousavi Aug 8 '13 at 8:49
    
Visitor Pattern? Which one? The point is: there's a lot of misunderstanding and pure confusion around this design pattern. I've written and article which hopefully puts some order to this chaos: rgomes-info.blogspot.co.uk/2013/01/… –  Richard Gomes Aug 8 '13 at 9:38
    
@George Mauer: I'd like to ask you to reconsider my answer. I've also fixed the broken link. I've written a long article about it, using real life examples. –  Richard Gomes Sep 21 '13 at 12:08

10 Answers 10

I'm not very familiar with the Visitor pattern. Let's see if I got it right. Suppose you have a hierarchy of animals

class Animal {  };
class Dog: public Animal {  };
class Cat: public Animal {  };

(Suppose it is a complex hierarchy with a well-established interface.)

Now we want to add a new operation to the hierarchy, namely we want each animal to make its sound. As far as the hierarchy is this simple, you can do it with straight polymorphism:

class Animal
{ public: virtual void makeSound() = 0; };

class Dog : public Animal
{ public: void makeSound(); };

void Dog::makeSound()
{ std::cout << "woof!\n"; }

class Cat : public Animal
{ public: void makeSound(); };

void Cat::makeSound()
{ std::cout << "meow!\n"; }

But proceeding in this way, each time you want to add an operation you must modify the interface to every single class of the hierarchy. Now, suppose instead that you are satisfied with the original interface, and that you want to make the fewest possible modifications to it.

The Visitor pattern allows you to move each new operation in a suitable class, and you need to extend the hierarchy's interface only once. Let's do it. First, we define an abstract operation (the "Visitor" class in GoF) which has a method for every class in the hierarchy:

class Operation
{
public:
    virtual void hereIsADog(Dog *d) = 0;
    virtual void hereIsACat(Cat *c) = 0;
};

Then, we modify the hierarchy in order to accept new operations:

class Animal
{ public: virtual void letsDo(Operation *v) = 0; };

class Dog : public Animal
{ public: void letsDo(Operation *v); };

void Dog::letsDo(Operation *v)
{ v->hereIsADog(this); }

class Cat : public Animal
{ public: void letsDo(Operation *v); };

void Cat::letsDo(Operation *v)
{ v->hereIsACat(this); }

Finally, we implement the actual operation, without modifying neither Cat nor Dog:

class Sound : public Operation
{
public:
    void hereIsADog(Dog *d);
    void hereIsACat(Cat *c);
};

void Sound::hereIsADog(Dog *d)
{ std::cout << "woof!\n"; }

void Sound::hereIsACat(Cat *c)
{ std::cout << "meow!\n"; }

Now you have a way to add operations without modifying the hierarchy anymore. Here is how it works:

int main()
{
    Cat c;
    Sound theSound;
    c.letsDo(&theSound);
}
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31  
For myself, I prefer an example like that with a short sample of code like that. –  Luc M Nov 1 '08 at 17:53
8  
S.Lott, walking a tree is not actually the visitor pattern. (It's the "hierarchical visitor pattern", which is confusingly completely different.) There's no way to show the GoF Visitor pattern without using inheritance or interface implementation. –  munificent Jan 28 '10 at 20:52
12  
+1 Made sense to me. Can't go wrong with the old animal/dog/cat example! –  Repo Man Apr 16 '10 at 13:48
6  
@Knownasilya - Thats not true. The &-Operator gives the address of the Sound-Object, which is needed by the interface. letsDo(Operation *v) needs a pointer. –  AquilaRapax Feb 1 '13 at 12:58
3  
In your "main" example at the end : theSound.hereIsACat(c) would have done the job, how do you justify for all the overhead introduced by the pattern ? double dispatching is the justification. –  franssu Sep 18 at 10:46

The reason for your confusion is probably that the Visitor is a fatal misnomer. Many (prominent1!) programmers have stumbled over this problem. What it actually does is implement double dispatching in languages that don't support it natively (most of them don't).


1) My favourite example is Scott Meyers, acclaimed author of “Effective C++”, who called this one of his most important C++ aha! moments ever.

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2  
+1 for both links and giving me the name double dispatch to google! –  Joe Oct 21 '13 at 13:05
2  
+1 "there is no pattern" - the perfect answer. the most upvoted answer proves many c++ programmers are yet to realise the limitations of virtual functions over "adhoc" polymorphism using a type enum and switch case (the c way). It may be neater and invisible to use virtual, but it is still limited to single dispatch. In my personal opinion, this is c++'s biggest flaw. –  user3125280 Jan 20 at 5:51
    
@user3125280 I've read 4/5 articles and the Design Patterns chapter on the Visitor pattern now, and none of them explain the advantage of using this obscure pattern over a case stmt, or when you might use one over the other. Thx for at least bringing it up! –  S.Pinkus Feb 16 at 13:36
1  
@sam I’m pretty sure they do explain it – it’s the same advantage that you always get from subclassing / runtime polymorphism over switch: switch hard-codes the decision making at the client side (code duplication) and doesn’t offer static type checking (check for completeness and distinctness of cases etc.). A visitor pattern is verified by the type checker, and usually makes the client code simpler. –  Konrad Rudolph Feb 16 at 15:52
    
@KonradRudolph thanks for that. Noting though, its not addressed explicitly in Patterns or the wikipedia article for instance. I don't disagree with you, but you could argue there are benefits to using a case stmt too so its strange its not generally contrasted: 1. you don't need an accept() method on objects of your collection. 2. The ~visitor can handle objects of unknown type. Thus the case stmt seems a better fit for operating on object structures with a changeable collection of types involved. Patterns does concede that the Visitor pattern is not well suited to such a scenario (p333). –  S.Pinkus Feb 17 at 3:05

Everyone here is correct, but I think it fails to address the "when". First, from Design Patterns:

Visitor lets you define a new operation without changing the classes of the elements on which it operates.

Now, let's think of a simple class hierarchy. I have classes 1, 2, 3 and 4 and methods A, B, C and D. Lay them out like in a spreadsheet: the classes are lines and the methods are columns.

Now, Object Oriented design presumes you are more likely to grow new classes than new methods, so adding more lines, so to speak, is easier. You just add a new class, specify what's different in that class, and inherits the rest.

Sometimes, though, the classes are relatively static, but you need to add more methods frequently -- adding columns. The standard way in an OO design would be to add such methods to all classes, which can be costly. The Visitor pattern makes this easy.

By the way, this is the problem that Scala's pattern matches intends to solve.

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One way to look at it is that the visitor pattern is a way of letting your clients add additional methods to all of your classes in a particular class hierarchy.

It is useful when you have a fairly stable class hierarchy, but you have changing requirements of what needs to be done with that hierarchy.

The classic example is for compilers and the like. An Abstract Syntax Tree (AST) can accurately define the structure of the programming language, but the operations you might want to do on the AST will change as your project advances: code-generators, pretty-printers, debuggers, complexity metrics analysis.

Without the Visitor Pattern, every time a developer wanted to add a new feature, they would need to add that method to every feature in the base class. This is particularly hard when the base classes appear in a separate library, or are produced by a separate team.

(I have heard it argued that the Visitor pattern is in conflict with good OO practices, because it moves the operations of the data away from the data. The Visitor pattern is useful in precisely the situation that the normal OO practices fail.)

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The Visitor design pattern works really well for "recursive" structures like directory trees, XML structures, or document outlines.

A Visitor object visits each node in the recursive structure: each directory, each XML tag, whatever. The Visitor object doesn't loop through the structure. Instead Visitor methods are applied to each node of the structure.

Here's a typical recursive node structure. Could be a directory or an XML tag. [If your a Java person, imagine of a lot of extra methods to build and maintain the children list.]

class TreeNode( object ):
    def __init__( self, name, *children ):
        self.name= name
        self.children= children
    def visit( self, someVisitor ):
        someVisitor.arrivedAt( self )
        someVisitor.down()
        for c in self.children:
            c.visit( someVisitor )
        someVisitor.up()

The visit method applies a Visitor object to each node in the structure. In this case, it's a top-down visitor. You can change the structure of the visit method to do bottom-up or some other ordering.

Here's a superclass for visitors. It's used by the visit method. It "arrives at" each node in the structure. Since the visit method calls up and down, the visitor can keep track of the depth.

class Visitor( object ):
    def __init__( self ):
        self.depth= 0
    def down( self ):
        self.depth += 1
    def up( self ):
        self.depth -= 1
    def arrivedAt( self, aTreeNode ):
        print self.depth, aTreeNode.name

A subclass could do things like count nodes at each level and accumulate a list of nodes, generating a nice path hierarchical section numbers.

Here's an application. It builds a tree structure, someTree. It creates a Visitor, dumpNodes.

Then it applies the dumpNodes to the tree. The dumpNode object will "visit" each node in the tree.

someTree= TreeNode( "Top", TreeNode("c1"), TreeNode("c2"), TreeNode("c3") )
dumpNodes= Visitor()
someTree.visit( dumpNodes )

The TreeNode visit algorithm will assure that every TreeNode is used as an argument to the Visitor's arrivedAt method.

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1  
As others have stated this is the "hierarchical visitor pattern". –  PPC-Coder Nov 29 '12 at 16:48

There are at least three very good reasons for using the Visitor Pattern:

  1. Reduce proliferation of code which is only slightly different when data structures change.

  2. Apply the same computation to several data structures, without changing the code which implements the computation.

  3. Add information to legacy libraries without changing the legacy code.

Please have a look at an article I've written about this.

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I commented on your article with the single biggest use that I've seen for visitor. Thoughts? –  George Mauer Sep 24 '13 at 22:40

In my opinion, the amount of work to add a new operation is more or less the same using Visitor Pattern or direct modification of each element structure. Also, if I were to add new element class, say Cow, the Operation interface will be affected and this propagates to all existing class of elements, therefore requiring recompilation of all element classes. So what is the point?

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1  
Almost every time I've used Visitor is when you're working with traversing an object hierarchy. Consider a nested tree menu. You want to collapse all nodes. If you don't implement visitor you have to write graph traversal code. Or with visitor: rootElement.visit (node) -> node.collapse(). With visitor, each node implements the graph traversal for all its children so you're done. –  George Mauer Mar 9 '13 at 20:44

I found it easier in following links:

In http://www.remondo.net/visitor-pattern-example-csharp/ I found an example that shows an mock example that shows what is benefit of visitor pattern. Here you have different container classes for Pill:

namespace DesignPatterns
{
    public class BlisterPack
    {
        // Pairs so x2
        public int TabletPairs { get; set; }
    }

    public class Bottle
    {
        // Unsigned
        public uint Items { get; set; }
    }

    public class Jar
    {
        // Signed
        public int Pieces { get; set; }
    }
}

As you see in above, You BilsterPack contain pairs of Pills' so you need to multiply number of pair's by 2. Also you may notice that Bottle use unit which is different datatype and need to be cast.

So in main method you may calculate pill count using following code:

foreach (var item in packageList)
{
    if (item.GetType() == typeof (BlisterPack))
    {
        pillCount += ((BlisterPack) item).TabletPairs * 2;
    }
    else if (item.GetType() == typeof (Bottle))
    {
        pillCount += (int) ((Bottle) item).Items;
    }
    else if (item.GetType() == typeof (Jar))
    {
        pillCount += ((Jar) item).Pieces;
    }
}

Notice that above code violate Single Responsibility Principle. That means you must change main method code if you add new type of container. Also making switch longer is bad practice.

So by introducing following code:

public class PillCountVisitor : IVisitor
{
    public int Count { get; private set; }

    #region IVisitor Members

    public void Visit(BlisterPack blisterPack)
    {
        Count += blisterPack.TabletPairs * 2;
    }

    public void Visit(Bottle bottle)
    {
        Count += (int)bottle.Items;
    }

    public void Visit(Jar jar)
    {
        Count += jar.Pieces;
    }

    #endregion
}

You moved responsibility of counting number of Pills to class called PillCountVisitor (And we removed switch case statement). That mean's whenever you need to add new type of pill container you should change only PillCountVisitor class. Also notice IVisitor interface is general for using in another scenarios.

By adding Accept method to pill container class:

public class BlisterPack : IAcceptor
{
    public int TabletPairs { get; set; }

    #region IAcceptor Members

    public void Accept(IVisitor visitor)
    {
        visitor.Visit(this);
    }

    #endregion
}

we allow visitor to visit pill container classes.

At the end we calculate pill count using following code:

var visitor = new PillCountVisitor();

foreach (IAcceptor item in packageList)
{
    item.Accept(visitor);
}

That mean's: Every pill container allow the PillCountVisitor visitor to see their pills count. He know how to count your pill's.

At the visitor.Count has the value of pills.

In http://butunclebob.com/ArticleS.UncleBob.IuseVisitor you see real scenario in which you can not use polymorphism (the answer) to follow Single Responsibility Principle. In fact in:

public class HourlyEmployee extends Employee {
  public String reportQtdHoursAndPay() {
    //generate the line for this hourly employee
  }
}

the reportQtdHoursAndPay method is for reporting and representation and this violate the Single Responsibility Principle. So it is better to use visitor pattern to overcome the problem.

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2  
Hi Sayed, can you please edit your answer to add parts that you found most enlightening. SO generally discourages link-only answers since the goal is to be a knowledge database and links go down. –  George Mauer Jul 6 at 13:32
    
Ok. I will add the details in an updates. –  Seyed Morteza Mousavi Jul 6 at 13:36

Visitor Pattern as the same underground implementation to Aspect Object programming..

For example if you define a new operation without changing the classes of the elements on which it operates

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While I have understood the how and when, I have never understood the why. In case it helps anyone with a background in a language like C++, you want to read this very carefully.

For the lazy, we use the visitor pattern because "while virtual functions are dispatched dynamically in C++, function overloading is done statically".

Or, put another way, to make sure that CollideWith(ApolloSpacecraft&) is called when you pass in a SpaceShip reference that is actually bound to an ApolloSpacecraft object.

class SpaceShip {};
class ApolloSpacecraft : public SpaceShip {};
class ExplodingAsteroid : public Asteroid {
public:
  virtual void CollideWith(SpaceShip&) {
    cout << "ExplodingAsteroid hit a SpaceShip" << endl;
  }
  virtual void CollideWith(ApolloSpacecraft&) {
    cout << "ExplodingAsteroid hit an ApolloSpacecraft" << endl;
  }
}
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The use of dynamic dispatch in the visitor pattern completely perplexes me. Suggested uses of the pattern describe branching that could be done at compile time. These cases would seemingly be better off with a function template. –  Praxeolitic yesterday

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