Just a quick update to my previous post. I can imagine that my discussion of the advantages of Smalltalk might be a bit abstract for people who never used it.
So here’s a short demo video of a Solitaire game running in a Smalltalk environment (via David Buck). It clearly illustrates features such as full introspection (e.g. by using the object browser) and live “fix-and-continue” debugging:
I found another video showing live code updates in Smalltalk while invoking native libraries in the background (more specifically, OpenGL):
I spent some time last weekend looking into Smalltalk again. The first time I did this was somewhere around 2004, when I played around with Ruby and discovered that it was strongly influenced by Smalltalk. Back then I watched an old video by Dan Ingalls on object-oriented programming which finally made me fully understand the essence of OOP: it’s all about messaging
In my personal opinion, this video (or at least the message that Dan tries to communicate) should be better integrated in OOP courses at universities. Another invaluable resource for grasping these ideas is Design Principles Behind Smalltalk, again by Dan Ingalls. Of course, it’s difficult to understand what OOP is about if you have to learn it through a weak implementation. We learned the basics of OOP in C++ for example, which would be blasphemy to Alan Kay He once saidActually I made up the term object-oriented, and I can tell you I did not have C++ in mind. Here’s his definition of OOP:
OOP to me means only messaging, local retention and protection and hiding of state-process, and extreme late-binding of all things. It can be done in Smalltalk and in LISP. There are possibly other systems in which this is possible, but I’m not aware of them.
Before I looked into Smalltalk, to my understanding objects just contained a bunch of methods or functions that had access to the object’s context. I did not really grasp the idea that objects just respond to messages (or method calls in my definition). The real difference about this is that in Smalltalk messages are dynamically dispatched at runtime. A method is the function or subroutine that is invoked in response to the sending of a message, which will be matched to the message name (or selector) at runtime. In contrast, method calls in C++, Java and C# are statically bound at compile-time. There is thus a distinction between the semantics (or message) and implementation strategy (or method) in Smalltalk. Decoupling these allows for more flexibility, such as objects that cache all incoming messages until their database connection is fully set up, after which they replay these messages, or objects that forward messages to other objects (which might have even been passed in at runtime). This is of one of the aspects of extreme late binding in Alan Kay’s definition of OOP.
It’s exactly this run-time lookup of methods that enables effortless polymorphism. As explained in the video, at some point the intermediate factorial result will become an instance of LargeInteger, while in previous iterations it was an instance of SmallInteger. The multiplication message (*) is sent to this object, after which the correct method in the class LargeInteger is looked up for handling the message, allowing the existing code to continue to work. Java, C# and C++ have all inherited this feature (although C++ requires explicitly declaring methods as virtual for this to work, due to efficiency reasons). Smalltalk can even realize polymorphism without inheritance (also known as duck typing), although this is not shown in this video. Smalltalk has implicit interfaces: an object’s interface is the messages it responds to. If two objects both respond to a certain message, they are interchangeable (even at runtime). Traditional languages such as Java or C++ only support inheritance-based polymorphism (although something similar to duck typing can be achieved with C++ templates). Here’s the explanation by Dan Ingalls:
Polymorphism: A program should specify only the behavior of objects, not their representation.
A conventional statement of this principle is that a program should never declare that a given object is a SmallInteger or a LargeInteger, but only that it responds to integer protocol. Such generic description is crucial to models of the real world. Consider an automobile traffic simulation. Many procedures in such a system will refer to the various vehicles involved. Suppose one wished to add, say, a street sweeper. Substantial amounts of computation (in the form of recompiling) and possible errors would be involved in making this simple extension if the code depended on the objects it manipulates. The message interface establishes an ideal framework for such an extension. Provided that street sweepers support the same protocol as all other vehicles, no changes are needed to include them in the simulation:
But let’s get to the point of why I started looking into Smalltalk again. At the moment, I mostly program in C# (and sometimes in Java), but I often feel frustrated with both languages. After being exposed to Ruby and Python, I feel like static typing requires me to write too much code and helps the compiler more than it helps me. Furthermore, Java seems to be overly engineered with all the factories, manager, readers and writers, while C# is often inconsistent or lacking in its implementation (e.g. anonymous methods are not really closures). Both languages are becoming increasingly complex with the addition of more and more features. Generics for example is just not necessary in a dynamically typed language. The problem with scripting languages such as Ruby and Python however, is that they are often interpreted and slow. I experimented a bit with JRuby (a Ruby implementation in Java with full access to Java’s class library) but that didn’t satisfy my needs either. After trying to code a simple Hello World Swing application in JRuby, I was stunned that it still required me to wrap code inside an ActionListener like Java does, while I really just wanted to pass in a Ruby block.
Other people have also been struggling with languages such as Java or C# (e.g. Jamie Zawinski, Mark Miller and Steve Yegge) or are looking for alternatives (e.g. Martin Fowler and Tim Bray). I think the popularity of Ruby might motivate more people to have a look at Smalltalk. Furthermore, if you know Ruby, it’s easier to get acquainted with Smalltalk. Besides lots of similarities in the class library (the Kernel class, the times message on numbers, etc.), Ruby already introduces the notion that everything is an object, objects in Ruby communicate through messages and Ruby has blocks. However, Ruby is not really equivalent to Smalltalk yet. Ruby introduced extra syntax to be more familiar to people that were used to C-style programming languages, thereby losing part of Smalltalk’s flexibility. In fact, the beauty of Smalltalk is that its entire syntax easily fits on a postcard. If you look closely at this example, even a conditional test in Smalltalk is implemented using messaging on objects. You just send the message ifFalse to an instance of the class Boolean, and pass in a code block you want to have executed when the value is false. It’s turtles all the way down.
Another problem I came across when developing in Java or C# (or in any other OOP language I used) was the difficulty of changing class hierarchies. Very often, due to time constraints, a design is just left in its original state, and the new requirements are supported by performing a quick hack. I suspect this problem is especially prevalent in so-called “research code” It gets even worse when programming in teams. Although this problem is generally known in software engineering and several strategies have been proposed to deal with it, I wondered why the promise of OOP failed here. Wasn’t OOP supposed to improve the situation and make spaghetti code obsolete?
The real power of Smalltalk is not its syntax, but the entire environment. I believe this is also key to understanding OOP. The current languages and tools (e.g. IDEs) we use for doing object-oriented programming are just weak implementations of the original Smalltalk environment. When working in Smalltalk, you are working in a world of running objects, there are no files or applications, everything is an object. For example, version control systems in Smalltalk are actually aware of the semantics of your code, they are not just text-based. When merging code they can show you what methods have been changed, added or removed, what classes were changed, allow you to decide which changes you want to keep, etc.. Although I think Bazaar is a great, it doesn’t come close to this way of working. Smalltalk allows live debugging and code changes, which is tremendeously useful. Ever wished that you could fix a problem while you’re debugging and immediately check if your solution works without having to recompile your application and start the entire process again? In Smalltalk (and Lisp) that’s possible. If you want to find out more about why Smalltalk is way ahead of current mainstream OOP languages, have a look at Ramon Leon’s Why Smalltalk.
Besides reading about Smalltalk, I have also been experimenting a bit with Squeak. Squeak is an open source implementation of the Smalltalk programming language and environment, created by its original designers. Squeak runs bit-identical on many platforms (including Windows CE/PocketPC). I will leave my Squeak experiments for another blog post though
To conclude, it seems that we are very good at ignoring the past. We just take our current systems for granted, and use them as a reference frame for future innovations. Marshall McLuhan once phrased it like this: We drive into the future using only our rearview mirror. I believe this is true in HCI research as well, as people like Dan Olsen have pointed out. He argued that our existing system models are barriers to the inclusion of many of the interactive techniques that have been developed. He gave the example of the recent surge in vision-based systems and multi-touch input devices, which get forced in a standard mouse point model because that is all that our systems support:
Multiple input points and multiple users are all discarded when compressing everything into the mouse/keyboard input model. Lots of good research into input techniques will never be deployed until better systems models are created to unify these techniques for application developers.
Research on toolkits is a lot less popular these days. We try to map everything into existing models, and always feel like we have to support legacy applications, which hampers significant progress. Bill Buxton has also studied innovation in HCI, and questioned the progress we made in the last 20 years.
I think the reason why so many great work was done by the early researchers in our field (e.g. Ivan Sutherland, Douglas Engelbart and Alan Kay) is — besides that they were very creative and intelligent people — that there was not that much previous work, they just had to start from scratch. Alan Kay once asked Ivan Sutherland how it was possible that he had invented computer graphics, done the first object oriented software system and the first real time constraint solver all by himself in one year, after which Sutherland responded I didn’t know it was hard.
I was always interested in learning new programming languages, and getting to know their unique features and viewpoints. After learning Python and Ruby, I became curious after the roots of these languages (being amongst others Lisp and Smalltalk). Since there were introductions and tutorials for these languages at the DLD, it was too good to miss.
The day started with a nice introduction to Scheme by Viviane Jonckers, explaining why they used it as a first programming language for their students.
In the afternoon Pascal Costanza delved into the internals of CLOS, the Common Lisp Object System.
Afterwards at the reception, I had a nice chat with the other attendants and organizers. I also met someone who I had seen before at the anti-software patents manifestations.
All in all, it was a interesting day, and I learned a lot about the presented languages. The list of Lisp links in my del.icio.us account also keeps growing. The organizers said they were planning to upload videos of the presentations at the website, so I’ll keep an eye on the website for updates.