I'm doing research in Smalltalk reflection, and I was wondering if it was possible to extend an individual object like that would be possible for instance in Ruby. With this I mean a selector that only particular objects respond to.

Here is some Ruby code that states what I mean. For clarification: in Ruby this open a virtual class for this object, and extends it with a new definition. The vital part here is that nothing changes to the class definition!

o = Object.new
o.instance_eval {def foo;puts "foo";end}
o.foo #=> "foo"

#however this will fail:
m = Object.new
m.foo #=> NoMethod error

More specifically my question is whether this is possible in standard Squeak/Pharo or other smalltalk implementations, without adding substantial structures or code to allow this. So with other words with regular reflective features that exist in Smalltalk.

As an example, it is possible to add methods, remove methods, compile new code into a class, change instance variables and just about anything, but I haven't found a way to extend a single object.

Test addInstVarNamed: #var.
Test compile: 'var ^var'.
t:= Test new.
Test instVarNames.
t instVarNamed: #var put: 666. 
t var. #=> 666

If the answer is no, then explain why. I'm not looking for solving this problem but rather understanding why it isn't in smalltalk.

up vote 6 down vote accepted

In Smalltalk there is no built in way of doing instance-specific behavior in that way. Smalltalk adheres to the principle that each object belongs to a class and its behavior and state shape depends on the class. That is why you can easily change the class (add inst vars, compile new methods, etc), but that means changing the behavior to all of its instances. There are, however, different approaches (according to the Smalltalk flavor) for achieving instance-specific behavior, such as Lightweight Classes, where the idea is to create a special (lightweight) class for a particular instance and replace the original class with the custom one. As a result you have a special class for each "special" instance. AFAIK in Digitalk St the dispatching mechanism is a bit more flexible and allows to easily implement instance-based behavior (see 4th link). I'll leave here some links that you may find useful:


Edit: the link posted by Hernan ("Debugging Objects" by Hinkle, Jones & Johnson) is the one to which I was referring and that couldn't find.

  • I already read the first link, but it can be hard still to figure out the real idea behind it like you just explained. I will certainly check out the other links.Excellent answer – froginvasion Jan 7 '13 at 13:19
  • Maybe the screencast (3d link) will give you a better understanding. I'm trying to find the paper that explains in detail how lightweight classes works, but I can't seem to find it. Just give me a couple of minutes :) – Andrés Fortier Jan 7 '13 at 13:22
  • Sorry, I still can't find it. I added though a 5th link with an excellent explanation on how the method lookup works in Smalltalk and different techniques used to manipulate message delivery. It also references the lightweight class approach. – Andrés Fortier Jan 7 '13 at 13:38

Having instance specific behavior in Smalltalk basically involves changing a pointer class and a primitive call. The "Debugging Objects" article by Bob Hinkle, Vicki Jones, and Ralph E. Johnson, published in The Smalltalk Report, Volume 2#9, July-August 1993, contains all the explanations.

I have ported the original Lightweight classes code from the version released in 1995 by Bob Hinkle for VisualWorks 2.0. The VisualWorks source includes code divided in three packages named "ParameterizedCompiler", "Breakpoint" and "Lightweight". The reason of this division was generated by the desire of having separate and re-usable functionality. All of them have separate articles in OOP journals.

My Squeak/Pharo port contains an "Instances Browser", based on the OmniBrowser (and more documentation here) framework, which lets you browse and modify the instances adding the Lightweight behavior through the classic Smalltalk Browser UI. It would work in latest Squeak 4.x versions with little or no effort. Unfortunately the infrastructure of Pharo changed substantially from versions <= 1.2, therefore it may need some work to work it latest versions.

Instances Browser with an instance modified

In VisualWorks, due to the deep changes in the VisualWorks GUI from 2.0 to 7.3, most of the tools to manage the lightweight classes were not included. If someone is interested, I can upload the parcel for VW 7.3

Instances Browser in VisualWorks

A basic script to test the lightweight classes features is:

| aDate |
aDate := Date today.
aDate becomeLightweight.
aDate dispatchingClass 
        compile: 'day ^42' 
      notifying: nil 
         ifFail: [self error].
aDate day inspect
  • ...and that was the paper I was looking for but couldn't find. +1! – Andrés Fortier Jan 9 '13 at 22:09

Squeak Etoys heavily makes use of object-specific behavior and state. This is implemented as "uniclasses". When you create a script for an Etoys object (instance of Player class), then the object's class will be changed to a "uniclass", that is, a unique subclass of Player, which can have its own methods (corresponding to Etoys scripts) and instance variables (corresponding to Etoys user variables).

Other Squeak-based projects use "anonymous" uniclasses, which are not listed as subclass in its superclass. That means they are pretty much invisible as they do not show up in a System Browser, for example (whereas Etoys-style uniclasses do show up in the browser).

A colleage has been working a new reflective API for Pharo Smalltalk that is called Bifrost. you can check the page of the Bifrost project.

His approach pushes instance-specific adapations at its core. Everything happens by binding metaobjects to regular objects in order to adapt them. Lower-level metaobjects can be composed into higher-level, coarse-grained, metaobject that define sensible adaptations, e.g. a profiling metaobject that will measure the time each invocation on the target object takes.

As @ewernli points out Bifrost basically makes Smalltalk an object-centric reflection system. All reflective changes are targeted first at objects instead of having an hybrid mechanism with classes. You can still do all the traditional class reflection but on top of object-centric reflection. What I think that is relevant of this new approach is a number of applications that we found that improves how we developed and perceived a live system:

Object-centric debugging completely changes the way we debug by concentrating on objects and allowing the developer to remain interacting with live objects rather than having to insert conditional breakpoints at source code level.

Talents are composable dynamic units of reuse, like traits but for objects. There are many more applications.

In Ruby, as far as I know, a method dictionary attaches to an object.

In Smalltalk, the method dictionary is bound to a Class object so, in a vanilla Smalltalk image, you can't write eigenclass-like things.

Having said that, there are a few prototype libraries: this question's answers mention quite a few.

  • I think you have both in Ruby actually. They are also bound to Class object, but the eigenclass that is created when extending an object is a new seperate class that extends from the class's eigenclass. But anyhow, I'll check out the link thanks! – froginvasion Jan 7 '13 at 13:58

Your Answer


By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.