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I read ESR's essay named "How to become a hacker?" several years ago (link can be found in my profile) and Eric suggested learning LISP. Well I'm learning LISP for quite a while and I like it so much that I decided to write a web application using it.

Since I'm using Spring for a while I think that it's a good idea to write decoupled components and glue them together using an IoC container and depencency injection. I did a power search on google and it turned out that there is no such idea implemented in LISP. Do I miss something? Is there a good implementation of this concept in LISP or there is no point using it for some reason which is not yet clear to me?

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Common Lisp is dynamically typed, has full featured anonymous functions and the OO is based around generic functions. I don't have enough experience with IoC/DI patterns to be sure enough to make this a full answer, but aren't they subsumed by the language itself? –  Ramarren Dec 6 '11 at 13:07
Well this is the question I wish to get an answer for. :) –  Adam Arold Dec 6 '11 at 13:28
@Ramarren, dependency injection simply means that software building blocks do not seek their dependencies themselves, but receive them “from the outside”. In my opinion such a design pattern cannot be subsumed by language features, certainly not by dynamic typing or anonymous functions. What could be subsumed would be the IoC containers, since it’s entirely possible to assemble the object graph together by hand. Maybe it’s so easy in Lisp that people simply don’t need any extra libraries to do it for them. (I’m happy doing DI in Objective-C by hand.) –  zoul Dec 6 '11 at 17:40
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3 Answers 3

up vote 12 down vote accepted

'Inversion of control' is widely used in Lisp. It's totally simple, since functions and closures are first class objects.

Dependency injection is trivial. Classes and functions can be configured via symbols and first class classes.

You usually don't need a 'framework' for IoC or DI in Common Lisp, since a lot of functionality to configure and parameterize applications and libraries is built in.

'first class' means that something can be stored in variables, passed as arguments or returned as results.

In a language like Common Lisp, functions and classes are first class objects. Plus for decoupling via late-binding, you can use symbols as their names instead. The Common Lisp Object System knows meta classes and symbols as names for classes. Even generic functions and methods are objects and have meta-classes.

If concurrent-secure-server is a class and default-response is a function, you can do for example:

(make-instance 'web-services
               :server-class 'concurrent-secure-server
               :default-response-function 'default-reponse)

Above uses the symbol as the name for the class and the function. If the function gets a new version, the web service might call the new one later.


(make-instance 'web-services
               :server-class (find-class 'concurrent-secure-server)
               :default-response-function #'default-reponse)

In above case we pass the class object and the function object.

In Common Lisp software modules can have global variables, which you can set with the right information:

 (defvar *default-server-class* 'concurrent-secure-server)

Alternatively you can set those in slots of like below.

(defclass server-object ()
      :initarg :default-response-function
      :initform *server-default-response-function*)))

(defvar *my-server*
   (make-instance 'server-object
                  :default-response-function 'my-default-response-function))

You can even create objects and later change their class in a configuration phase. The Common Lisp Object System allows you to change classes and have existing objects to be updated.

If you create an instance, you can be as flexible as you want:

  • you can pass in the class
  • you can pass in the arguments

Like this:

(let ((my-class 'foo-class)
      (my-args  `(:response-function ',*some-reponse-function)))
  (apply #'make-instance my-class my-args))

Sometimes you see Lisp libraries which are computing such arguments lists at runtime.

Another thing where you can configure Lisp applications at runtime is via generic functions. Generic functions allow :before, :after and :around methods - they even allow your own custom call schemes. So by using your own classes inheriting from other classes and mixin classes, the generic function gets reconfigured. This is like you have basic mechanisms of Aspect-oriented programming built-in.

For people interested in these more advanced object-oriented concepts, there is some literature by Xerox PARC, where these issues had been researched when CLOS was created. It was called 'Open implementation' then:


In the Open Implementation approach, modules allow their clients individual control over the module's own implementation strategy. This allows the client to tailor the module's implementation strategy to better suit their needs, effectively making the module more reusable, and the client code more simple. This control is provided to clients through a well-designed auxiliary interface.

One thing you don't need: XML. Common Lisp is its own configuration language. Writing extensions for easier configuration can for example be done via macros. Loading of these configurations can be easily done via LOAD.

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That's exactly what I wanted, thank you! –  Adam Arold Dec 6 '11 at 21:40
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While Lisp is a fantastic language for learning core programming concepts, it is not nearly as widely used as Java and C# for web applications. I think that this explains the absence of more advanced frameworks for web development for Lisp.

The concepts of Inversion of Control and Dependency Injection are relevant, regardless of the programming language used. If you would benefit from them if you were writing the web application in Java, you will probably benefit from it if you are writing the same web application in Lisp.

The need for you to roll your own IoC and DI solution instead of just using something standard will of course take more time. Is this extra time worth the effort compared to what you gain?

Finally I'd recommend that if you write an IoC and DI solution in Lisp, you should do it the Lisp way - not just translating an existing Java solution to Lisp. Lisp and Java are quite different languages, with different strengths. If you are implementing in Lisp, think Lisp and utilize those areas where Lisp is powerful.

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Well I write this web application with my friend in our free time so we aren't in a hurry. I read a writing recently about LISP being able to implement domain specific languages which are able to speed up the deveopment process so I think that this is a good trade off. We plan to release our project as open source when it becomes usable. –  Adam Arold Dec 6 '11 at 12:35
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Actually IoC is the building principle of most web-frameworks, not only in Java or Lisp. Considering DI, as noted by Rammaren, it's an implicit pattern in a dynamic language such as Lisp. You can see that for yourself, if you compare Hello World applications in Spring and Restas (one of the well-supported CL web-frameworks). You'll see, that there's the same pattern, except for the absence of a need for fancy type/class/interface declaration stuff in Lisp.

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