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I've been reading Design Patterns, by Gamma et al. and I'm a little confused. I got to the bit concerning the Template Method. That is, you template classes with policies for various things, rather than coding the policy into the class. It all sounds very reasonable to me. But here I hit a bit of a conceptual brick wall. If you instantiate a class with a policy object, the policy object needs to have an abstract interface in order that the programmer can write different policies that all compile into the class without error. If you're going to define an abstract IPolicy for these policy objects, why not just use dependency injection and pass in the IPolicy on construction?

Can anyone shed any light on why you would prefer the template method to dependency injection?


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Also, "where" you would prefer it. –  Robinson Nov 15 '11 at 9:57
Passing the policy in the constructor is dependency injection. I do not understand your question. –  Björn Pollex Nov 15 '11 at 10:01
Yes, that's what I said in the question. But the "template method" is different to DI, but as far as I see it needs DI (compile time) in order to work. So the question was simply why prefer TM to DI? –  Robinson Nov 15 '11 at 10:12
There is no preference here. You simply use DI to implement the template method pattern. You don't prefer one, you use both. –  Björn Pollex Nov 15 '11 at 10:15
Answerers please note: the "Template Method Pattern" has absolutely nothing to do with C++ templates. It's just a coincidence of names. –  Steve Jessop Nov 15 '11 at 10:32

3 Answers 3

up vote 7 down vote accepted

Regarding the "template method" (rather than the design pattern), the following example might help with the pros and cons as to deciding what to do. The example is to create a verbose mode of a library intended to help debugging/developing.

With templates

struct console_print
  static void print(const string& msg) {std::cout<<msg;}

struct dont_print
  static void print(const string& msg) {}

void some_function()
  printer::print("some_function called\n");

The library user can then write:

some_function<console_print>(); //print the verbose message;
some_function<dont_print>();    //don't print any messages.

The benefit of this code is if the user doesn't want the code to be printed, then the calls to dont_print::print(msg) vanish completely from the code (empty static classes get optimised away easily). Such debug messages can then be entered into even performance critical regions.

The disadvantage with templates is that you need to decide your policy before compiling. You also need to change the function/class signature of whatever your templating.

without templates

The above could of course be done with something like:

struct printer 
  virtual void print(const std::string& msg) = 0;

struct console_print : public printer
  void print(const std::string& msg) {std::cout<<msg;}
struct debug_print : public printer
  void print(const std::string& msg) {}

The advantage to this that you can pass around printer types to your classes and functions, and change them at run time (might be very useful for some applications). However, the cost is that a call is always made to the virtual function, and so the empty dont_print does have a small cost. This may or may not be acceptable for performance critical regions.

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Ah, ok, I see the benefits now. This is useful indeed. –  Robinson Nov 15 '11 at 10:28

First, as phresnel mentioned, the Template Method pattern is not a template in the modern sense. Read it again, it uses runtime polymorphism to achieve the same goal for which the STL algorithms use compile-time polymorphism (function templates).

Second, all kinds of polymorphism are, in a sense, dependency injection. That is, the caller introduces the algorithm to the concrete type on which it acts. So the question generally isn't whether you could or should use dependency injection instead of some other pattern: rather the pattern shows a useful way of structuring your code to use dependency injection.

If your "injected dependency" is a template type parameter, the algorithm uses duck typing and you don't have to implement an abstract interface: just write methods with the expected signature.

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Fair enough. But there's no way of formalising the intended signature as such. You essentially just have to read the documentation. –  Robinson Nov 15 '11 at 10:16
@Robinson: the absence of an explicit formal interface definition is considered a strength by those who choose to use duck typing (and generic programming in C++), and a weakness by those who don't. There was an effort to get explicitly-declared interfaces for templates into C++11 (it was called "Concepts"), but it was dropped because it wasn't sufficiently ready. –  Steve Jessop Nov 15 '11 at 10:30
Interesting Steve. I wonder why it would be considered a weakness? Given the obscurity of error messages you get in C++ compilers these days, particularly when it comes to templates, I would have thought it a strength for those like me who struggle to "parse" the compiler's output! –  Robinson Nov 15 '11 at 10:37
@Robinson It cuts both ways. The problem of obscure error messages was indeed one of the most important reasons for the introduction of concepts. It is generally considered good practice to have a formal interface definition. An explicit interface definition can sometimes add significant (and unnecessary) boilerplate, since it can be easily deduced. On the whole a explicit interface on the side of the template definiton side has generally been favored and is what concepts would have given us. ... –  Fabio Fracassi Nov 15 '11 at 11:00
... the second orthogonal question, over which there has been the controversy that @Steve mentioned is duct typing, which means that the user of the template doesn't have to explicitly declare that his Parameter Type fulfills the required interface. –  Fabio Fracassi Nov 15 '11 at 11:03

The "template method" in your case (don't confuse with the Template Method Pattern), or let us call it "static dependency injection", would avoid the need for virtual functions. You gain performance primarily by giving the compiler more and definite knowledge, and therefore give him a better opportunity for optimizations. The classes become more static and type safety is increased.

Class size can potentially shrink (no or reduced need to store pointers).

The old saying:

Don't pay for what you don't use.

applies here. If you don't need virtual interfaces, templates help you to avoid them without sacrificing all flexibility.

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Ok, you don't need a virtual interface, but how do you enforce the interface of the policy classes without one? That is to say, how do you tell the programmer what methods and properties the policy class must have in order to function correctly when injected? –  Robinson Nov 15 '11 at 10:14
@Robinson Documentation. Otherwise, he'll get compilation errors. –  BЈовић Nov 15 '11 at 10:24
I really want to tick all of the above as "the answer", but I'm sorry I have to go with Tom's example, which made it "click" for me :p. –  Robinson Nov 15 '11 at 10:29
@Robinson: That's perfectly okay, you are supposed to accept the answer that made the heaviest click w.r.t. question :) –  phresnel Nov 15 '11 at 11:53
@Robinson You can enforce the interface with 'static_assert()' (in C++11 or from boost) –  Fabio Fracassi Nov 15 '11 at 12:32

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