33

I have trouble understanding these two design patterns.

Can you please give me contextual information or an example so I can get a clear idea and be able to map the difference between the two of them.

Thanks.

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84

Here is how I look at it. The strategy pattern is like a 1:many relationship. When there is one type of object and I want to apply multiple operations to it, I use the strategy pattern. For example, if I have a Video class that encapsulates a video clip, I might want to compress it in different ways. So I create a bunch of strategy classes:

MpegCompression
AviCompression
QuickTimeCompression

and so on.

I think of the visitor pattern as a many:many relationship. Let's say my application grows to to include not just video, but audio clips as well. If I stick with the strategy pattern, I have to duplicate my compression classes-- one for video and one for audio:

MpegVideoCompression
MpegAudioCompression

and so on...

If I switch to the visitor pattern, I do not have to duplicate the strategy classes. I achieve my goal by adding methods:

MpegCompression::compressVideo(Video object)    
MpegCompression::compressAudio(Audio object)
  • 3
    You can also use bridge to avoid MpegVideo /MpegAudio – Marcin Szymczak Oct 2 '13 at 7:47
  • @ahoffer So, compressVideo and compressAudio are my two visit function. and Video class will visit compressVideo and Audio class will visit compressAudio . Am I understanding it right? – EmptyData Nov 19 '16 at 15:04
  • @EmptyData Yes. The compress methods would be your visitor methods. I would describe the MpegCompression class as the visitor. The Video objects are visited. – ahoffer Nov 22 '16 at 17:09
12

A Strategy pattern is used to expose various algorithms to a standardized interface. A typical example could be a sort utility that would let the user (programmer) choose between various sort algorithms each called via the same interface.

A Visitor pattern lives at a different level. It details a mechanism with which objects can accept a reference to another object (the visitor) which exposes a predetermined interface that the target object can call upon itself. Of course, different visitors would present the same interface but have different implementations.

Coming back to our example, a collection of sort algorithms could be implemented either via the Strategy pattern or via the Visitor pattern.

With the Strategy method, each algorithm presents the same interface and takes arrays of target objects as parameters for example. With the Visitor pattern, it would be the target array that takes the "visiting" algorithm as a parameter. In this case, the target would "accept()" the selected visitor and call its "visit()" method upon invocation of the target's sort method in our example.

Two sides of the same coin...

Does this make sense?

  • I just added two image. That i implemented for understanding. Can you give idea in that context. – dotnetstep Dec 29 '11 at 8:47
9

The visitor is like a one-night stand - you create it when you call the accept function and then they get separated and the visitor can be cleaned from the memory, it doesn't take any room for the class that use it.

The strategy is like a marriage - you create the object, it lives in the class that uses it, takes memory, has a room and makes itself a coffee in the morning :) . Of course they can get a divorce and switch to another class but that class would also live in its owner's context.

Hope it helps you remember :)

  • I see it the same way. A strategy is something an Object requires to fulfill his duties right from the start. And a Visitor is something optional which can pass by but doesn't have to – velop Aug 13 '19 at 9:21
2

The defining difference is that the Visitor offers a different behavior for subclasses of the element, using operator overloading. It knows the sort of thing it is working upon, or visiting.

A Strategy, meanwhile, will hold a consistent interface across all its implementations.

A visitor is used to allow subparts of an object to use a consistent means of doing something. A strategy is used to allow dependency injection of how to do something.

So this would be a visitor:

class LightToucher : IToucher{
    string Touch(Head head){return "touched my head";}
    string Touch(Stomach stomach){return "hehehe!";}
}

with another one of this type

class HeavyToucher : IToucher{
   string Touch(Head head){return "I'm knocked out!";}
   string Touch(Stomach stomach){return "oooof you bastard!";}
}

We have a class that can then use this visitor to do its work, and change based upon it:

class Person{
    IToucher visitor;
    Head head;
    Stomach stomach;
    public Person(IToucher toucher)
    {
          visitor = toucher;

          //assume we have head and stomach
    }

    public string Touch(bool aboveWaist)
    {
         if(aboveWaist)
         {
             visitor.Touch(head);
         }
         else
         {
             visitor.Touch(stomach);
         }
    }
}

So if we do this var person1 = new Person(new LightToucher()); var person2 = new Person(new HeavyToucher());

        person1.Touch(true); //touched my head
        person2.Touch(true);  //knocked me out!
2

I see strategy pattern as a way to inject a method/strategy into an object, but typically the signature of that method takes some value params and returns a result so it's not coupled with the user of the strategy: From Wikipedia :

class Minus : ICalculateStrategy {
    public int Calculate(int value1, int value2) {
        return value1 - value2;
    }
}

Visitor instead is coupled with the user through double dispatch and typically keeps state. Good example here, I'll just copy from there:

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; }
}

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
}

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

    #region IAcceptor Members

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

    #endregion
}

As you can see the visitor has state(public int Count) and it operates on a list of know types BlisterPack, Bottle, Jar. So if you want to support a new type you need to change all visitors by adding that type.

Also it's coupled with the types it operates on because of "visitor.Visit(this);". What would happen if I remove or change the "Items" property form bottle? ... all visitors would fail.

0

Seems like the second graph is Visitor Pattern to me...Since for strategy pattern, the class contains data structure tends to be only one, no subclass(Or the subclass stays same behavior of this part). The strategy is for different operations on the same structure.

0

If you have just one single context or element and need to perform different operations on that context, then you can choose Strategy Pattern. This is the 1:M relationship mentioned in above answer. java.util.Comparator is a good example of Strategy design pattern in action. There we can have different sorting strategies for the same collection (context or element).

On the other hand, say you have multiple elenents all complies to a common contract and need to perform different operations on each of them. For an example consider a car wash usecase where you have body, engine and wheel etc and each of which can be washed using either steam or water. That is a good use of Visitor Pattern. But make sure that your context elements stay intact and never changes. If the elements are going to change say adding a Door element to the Car, then you need to change all the Visitors adding one new method in each of them and violating OCP nature of the pattern. So, this is the M:N relationship stated in the above answer.

If you are further interested in reading more about the subtle differences between the two Design Patterns, I suggest you reading this article.

0

I'll try to make the shortest answer.

The two patterns complement one another: for instance, you could use a visitor to change the strategies on all the nodes of a graph.

-6

Their differences are :

  1. Motivation
  2. Intent
  3. Implementation

Not sure what is gained from comparing two different things but compare Strategy to Visitor.

What is same about the two to make one look for their differences?

  • 1
    This is more of a long comment than an answer to the question. – Oded Dec 29 '11 at 8:27
  • @Oded : Edited the response, but how sensible is it to ask for differences between a watermelon and an airplane? :) – Arjang Dec 29 '11 at 8:30
  • 2
    The OP does not understand what they are. I would expect an answer to explain each pattern and give context and possibly examples. See the answer from @Francois. – Oded Dec 29 '11 at 8:35
  • @Oded : Aha, now I understand why. tx – Arjang Dec 29 '11 at 8:39
  • 1
    They are similar in that they're both patterns dealing with the abstraction of execution. So it's grapefruit and oranges, not apples and oranges. – Mathieson Nov 13 '13 at 21:34

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