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Can someone please explain to me what is the difference between the template method pattern and the strategy pattern is?

As far as I can tell they are 99% the same - the only difference being that the template method pattern has an abstract class as the base class whereas the strategy class uses an interface that is implemented by each concrete strategy class.

However, as far as the client is concerned they are consumed in exactly the same way - is this correct?

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This post in SO has a better answer for the same question:… – Gob00st Apr 9 '12 at 15:51
The question gob00st linked to is the difference between strategy and bridge. It's not the answer to this question at all. – dsjbirch Jan 30 '15 at 9:46

11 Answers 11

up vote 61 down vote accepted

The main difference between the two is when the concrete algorithm is chosen.

With the Template method pattern this happens at compile-time by subclassing the template. Each subclass provides a different concrete algorithm by implementing the template's abstract methods. When a client invokes methods of the template's external interface the template calls its abstract methods (its internal interface) as required to invoke the algorithm.

class ConcreteAlgorithm : AbstractTemplate
    void DoAlgorithm(int datum) {...}

class AbstractTemplate
    void run(int datum) { DoAlgorithm(datum); }

    virtual void DoAlgorithm() = 0; // abstract

In contrast, the Strategy pattern allows an algorithm to be chosen at runtime by containment. The concrete algorithms are implemented by separate classes or functions which are passed to the strategy as a parameter to its constructor or to a setter method. Which algorithm is chosen for this parameter can vary dynamically based on the program's state or inputs.

class ConcreteAlgorithm : IAlgorithm
    void DoAlgorithm(int datum) {...}

class Strategy
    Strategy(IAlgorithm algo) {...}

    void run(int datum) { this->algo.DoAlgorithm(datum); }

In summary:

  • Template method pattern: compile-time algorithm selection by subclassing
  • Strategy pattern: run-time algorithm selection by containment
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Both patterns support runtime selection of the algorithm used (for Template Method, you would do something like if (config.useAlgoA) impl = new AlgoA() else impl = new AlgoB()) so this answer is incorrect. – Borek Jun 14 '10 at 8:15
Sure you could do that but then you're not using the Template Pattern. In fact, that's almost exactly what the code creating the Strategy instance will look like! – thehouse Jun 14 '10 at 13:23
Could I ask you, where did you get this information from? I'd say it's bogus. – Mykolas Simutis Oct 26 '11 at 12:24
-1, I think this answer (though not completely wrong), misses the point where the real differences are. @tvanfosson's answer is much better. – Doc Brown Aug 29 '13 at 12:27

The template pattern is used when a particular operation has some invariant behavior(s) that can be defined in terms of other varying primitive behaviors. The abstract class defines the invariant behavior(s), while the implementing classes defined the dependent methods. In a strategy, the behavior implementations are independent -- each implementing class defines the behavior and there is no code shared between them. Both are behavioral patterns and, as such, are consumed in much the same way by clients. Typically strategies have a single public method -- the execute() method, whereas templates may define a set of public methods as well as a set of supporting private primitives that subclasses must implement.

The two patterns could easily be used together. You might have a strategy pattern where several implementations belong to a family of strategies implemented using a template pattern.

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This sounds right to me, however why does WikiPedia mentions that "strategy pattern is for an algorithm's behavior to be selected at runtime"? It could also be used for selecting algorithm's behavior at compile time, just like the template method? Am I missing something? – BornToCode Jul 31 '15 at 16:01
@BornToCode I would assume what they are talking about is choosing a particular strategy at run time. For example, there are are several ways of numerically finding the roots of an equation. Depending on the problem domain or the data you might choose Newton-Raphson, Euler, or some other strategy for solving the equation. Each one of those is a strategy. The larger algorithm, of which solving the equation is one part, chooses the strategy to employ based on some quality of the problem. – tvanfosson Jul 31 '15 at 16:07
Yes, but it's not like strategy pattern should be used ONLY for those cases? I mean if I only need to select algorithm's behavior at compile time should I still use strategy pattern, or it wasn't meant to be used that way? – BornToCode Jul 31 '15 at 16:18
@BornToCode I would say that a strategy is most useful when the choice is dynamic. Template is basically a way of building up different, related behaviors for known. You'd use some strategy (though not the strategy pattern necessarily) for choosing which templated behavior to employ. For example, product inheritance - you'd create a base product, add features for different products. Choosing which product type (class) to instantiate might depend on which tables/views it's loaded from. Strategy pattern doesn't really come into play there. – tvanfosson Jul 31 '15 at 16:22
@BornToCode it's not an either/or thing, it's yes-and. Apply the pattern where it's appropriate, combine patterns where it's useful. – tvanfosson Jul 31 '15 at 16:34

You probably mean template method pattern. You are right, they serve very similar needs. I would say it is better to use template method in cases when you have a "template" algorithm having defined steps where subclasses override these steps to change some details. In case of strategy, you need to create an interface, and instead of inheritance you are using delegation. I would say it is a bit more powerful pattern and maybe better in accordance to DIP - dependency inversion principles. It is more powerful because you clearly define a new abstraction of strategy - a way of doing something, which does not apply to template method. So, if this abstraction makes sense - use it. However, using template method may give you simpler designs in simple cases, which is also important. Consider which words fit better: do you have a template algorithm? Or is the key thing here that you have an abstraction of strategy - new way of doing something

Example of a template method:


Here you inherit from application and substitute what exactly will be done on init, run and done.

Example of a strategy:

array.sort (IComparer<T> comparer)

Here, when writing a comparer, you do not inherit from an array. Array delegates the comparison algorithm to a comparer.

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I think this is a great answer – Calanus May 11 '11 at 15:34

I think the Class-Diagrams of both pattern are showing the differences.

Encapsulates an algorithm inside a class
Link to image enter image description here

Template Method
Defer the exact steps of an algorithm to a subclass
Link to Image enter image description here

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Inheritance versus aggregation (is-a versus has-a). It's two ways to achieve the same goal.

This question shows some of trade-offs between choices:

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Both are very similar, and both are consumed by the client code in similar ways. Unlike what the most popular answer above says, both allow algorithm selection at run-time.

The difference between the two is that while the strategy pattern allows different implementations to use completely different ways of the achieving the desired outcome, the template method pattern specifies an overarching algorithm (the "template" method) which is be used to achieve the result -- the only choice left to the specific implementations (sub-classes) are certain details of the said template method. This is done by having the the template method make call(s) to one or more abstract methods which are overridden (i.e. implemented) by the sub-classes, unlike the template method which itself is not abstract and not overridden by the sub-classes.

The client code makes a call to the template method using a reference/pointer of the abstract class type pointing to an instance of one of the concrete sub classes which can be determined at run time just like while using the Strategy Pattern.

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No, they are not necessarily consumed in the same way. The "template method" pattern is a way of providing "guidance" to future implementers. You are telling them, "All Person objects must have a Social Security Number" (that's a trivial example but it gets the idea across correctly).

The strategy pattern allows multiple possible implementations to be switched in and out. It is not (usually) implemented through inheritance, but instead by letting the caller pass in the desired implementation. An example might be allowing a ShippingCalculator to be provided with one of several different ways of calculating taxes (a NoSalesTax implementation, and a PercentageBasedSalesTax implementation perhaps).

So, sometimes, the client will actually tell the object which strategy to use. As in


But the client would never do that for an object that was based on Template Method. In fact, the client might not even know an object is based on Template Method. Those abstract methods in the Template Method pattern might even be protected, in which case the client wouldn't even know they exist.

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The Template pattern is similar to the Strategy pattern. These two patterns differ in scope and in methodology.

Strategy is used to allow callers to vary an entire algorithm, like how to calculate different types of tax, while Template Method is used to vary steps in an algorithm. Because of this, Strategy is more coarsely grained. The Template allows finer-grained controls in the sequent of operations, and yet allows the implementations of these details to vary.

The other main difference is that Strategy uses delegation while Template Method uses inheritance. In Strategy, the algorithm is delegated to the another xxxStrategy class that the subject will have a reference to, but with Template you subclass the base and override methods to make changes.


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In strategy pattern subclasses are running the show and they control the algorithm. Here code is duplicated across the subclasses. The knowledge of the algorithm and how to implement it is distributed over many classes.

In template pattern, base class has algorithm. It maximizes the reuse among the subclasses. Since algorithm lies in one place, base class protects it.

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I would suggest you to read this article. It explains the differences on a real case example.

Quote from the article

"As one can see implementing classes also depend upon the template method class. This dependency causes to change the template method if one wants to change some of the steps of the algorithm. On the other side strategy completely encapsulates the algorithm. it gives the implementing classes to completely define an algorithm. Therefore if any change arrives one does need to change the code for previously written classes. This was the primary reason I choose strategy for designing up the classes.

One feature of template method is that template method controls the algorithm. Which can be a good thing in other situation but in my problem this was restricting me to design the classes. On the other side strategy does not control the steps of an algorithm which enables me to add completely different conversion methods. Hence in my case strategy helps me for implementation.

One drawback of strategy is that there is too much code redundancy and less code sharing. As it is obvious in the presented example of this article I have to repeat the same code in four classes again and again. Therefore it is hard to maintain because if the implementation of our system such as step 4 which is common to all is changed then I will have to update this in all 5 classes. On the other side, in template method, I can only change the superclass and the changes are reflected into the sub classes. Therefore template method gives a very low amount of redundancy and high amount of code sharing among the classes.

Strategy also allows changing the algorithm at run-time. In template method one will have to re-initialize the object. This feature of strategy provide large amount of flexibility. From design point of view one has to prefer composition over inheritance. Therefore using strategy pattern also became the primary choice for development."

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Template Method:

  1. It's a creational pattern
  2. It's based on inheritance
  3. Class mapping has been done at compile time


  1. It's a behavioural pattern
  2. It's based on delegation
  3. It changes guts of the object by modifying method behaviour
  4. It's used to switch between family of algorithms
  5. It changes the behaviour of the object at run time

Java version of Strategy pattern is available in this SE question :

Real World Example of the Strategy Pattern

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