Getting Stanford's "Karel the Robot" to Run in Debian's Eclipse

Getting Stanford's "Karel the Robot" to Run in Debian's Eclipse


I'm taking Stanford's Open Courseware "Programming Methodology" this semester, but I got stumped early on by the problem of setting up the special Stanford class libraries in my Debian-standard Eclipse installation. The instructions and files available from the website are only available for Windows and Macintosh platforms. The process is not that hard, but if you're new to Java and Eclipse (and especially if you are new to programming, as the class assumes), you'll likely be thrown by this. I couldn't find any documentation on how to do this after extensive searching, so here it is.

About Stanford's CS106A "Programming Methodology" class

After years of learning programming by doing it, with hardly any formal training, I decided it might be good to go back to the basics and take some of the theory classes I missed. Stanford and MIT both have excellent computer science classes available completely free through the Open Courseware initiative, so this is a great (and very economical) way to catch up on what you might have missed. After studying both curricula, I decided that I would start with Stanford's "more pragmatic" sequence, simultaneously taking CS106A "Programming Methodology" (taught in Java) and CS106B "Programming Abstractions" (taught in C++).

With hardly any formal training, I decided it might be good to go back to the basics and take some of the theory classes I missed

I can get away with this because I really already know how to do programming, so CS106A is strictly review for me in terms of theory. However, Java is pretty much completely new territory for me, as is the Eclipse Integrated Development Environment (IDE) used in the classroom demonstrations.

For a long time, I avoided Java, both because I didn't really want to develop for a proprietary platform and because, with the reference implementation being proprietary and none of the free alternatives fully compatible, it was absurdly complex getting it to work as expected on my Debian GNU/Linux system.

With Sun's recent release of Java under the GPL as "Open JDK", however, Debian now has a fully functional, fully compatible Java environment (I know there's been a lot of work on alternatives over the years, but they still aren't 100% compatible and a lot of things don't run on them. The problem is Java's huge collection of class libraries, of course). Eclipse, of course, is also available.

With Sun's recent release of Java under the GPL as "Open JDK", Debian now has a fully functional, fully compatible Java environment

Eclipse is very popular in the commercial development world, and I wanted to find out why. I also wanted to see if it could help me make more productive use of my programming time (and as I've written previously, it certainly does look like it will).

I'm not sure how much use I will actually get from programming in Java. Most of what Java can do, can be done with Python -- possibly with less work and greater efficiency. On the other hand, there are huge numbers of libraries for Java (although a much lower fraction of them are free software).

Karel the Robot

Stanford's Programming Methodology course starts out with a micro-language called "Karel the Robot", adapted for Java. The original Karel was a minimalist teaching language based on Pascal, but with extremely reduced syntax. Karel also operated in a highly concrete graphical microworld. As such, it was a great way to show abstract programming concepts without the language getting in the way.

The original Karel was a minimalist teaching language based on Pascal, but with extremely reduced syntax

Today, there are a number of different "Karel the Robot" implementations, including the Java-modified "Karel" used in the Stanford class and the Python-modified "Guido van Robot" which is available as a free-standing Debian package (gvrng in Lenny).

The concept is surprisingly deep. I also encountered a very similar abstraction in Russell and Norvig's "Artificial Intelligence: A Modern Approach" in which a microworld called the "Vacuum World" is used to explain AI searching and behavior problems. Minus the labels, though, the Vacuum World is exactly a Karel the Robot! I'm fairly sure the vacuum world problems in the AI book can be implemented as "Karel the Robot" (KtR) or "Guido van Robot" (GvR) problems, which would save some coding!

By the way, if all you want is a Karel-the-Robot-like environment in Debian, I do recommend using "Guido van Robot". It has major advantages over Stanford's Karel:

  • It runs stand-alone
  • No boilerplate code is needed
  • Editing of code and world is available in the GvR window (the graphical world-editing interface is considerably better than the one in Stanford's Karel)
  • The "pythonic" syntax of GvR is more minimal, and thus closer to the original spirit of the Karel concept

If it were just me taking this class, and if the Karel library were the only thing missing, I would probably have just substituted GvR problems for the KtR problems, which would've been simpler than following the directions included here.

The instructor, Mehran Sahami, is so engaging that my 11-year-old son expressed an interest in taking the class with me

My main motivation, though, is that the class is at such a basic level and the instructor, Mehran Sahami, is so engaging that my 11-year-old son expressed an interest in taking it with me (feasible, I think, since the Open Courseware structure means he can follow at his own pace). But for him, I really wanted the examples to work and look exactly as they did in the class. Mentally juggling Python and Java syntax would just be too much for him.

Finally, it isn't just Karel. In addition to the Karel the Robot introductory assignments, the Stanford course also makes extensive use of a class library from the Association of Computing Machinery, called simply acm.

These are even more essential to the class than Karel, and are included in the karel.jar file in the archives.

So I really wanted this to work. Unfortunately, the Stanford website only provides pre-built customized Eclipse IDEs for Windows and Macintosh computers! No GNU/Linux build is available. And, since the class is intended for extreme beginners, they apparently didn't think it was worth explaining how to set up the problems in a standard Eclipse installation! I searched extensively, and I couldn't find any instructions on how to do this.

Hence the documentation that follows!

These instructions should work to install Java, Eclipse, and the Stanford assignment packages, including the Karel the Robot and ACM class libraries.

Unfortunately, the Stanford website only provides pre-built customized Eclipse IDEs for Windows and Macintosh computers... Hence the documentation that follows!

Adapting it to other GNU/Linux platforms should be fairly trivial. The only hiccup I anticipate for other platforms is that Eclipse's menus may be arranged a little differently in later versions. If you are using a different Eclipse (than 3.2.2) then some of the menu options I refer to may be in different menus or might be named differently (I have run across instructions for later versions of Eclipse that don't quite agree with how mine is set up). If so, don't panic. The options will be there, you may just have to look around a bit to find them.

Getting to Square One

Install Open JDK and Eclipse for Debian/Ubuntu systems

Nothing could be simpler! Just use the apt-get system to install the packages:

# apt-get install openjdk-6-jre eclipse eclipse-jdt

This will install version 6 of Sun's recently GPL-licensed Java and class libraries (which will be by far the most compatible with Stanford's examples, although you could certainly try any one of the several free software Java implementations that have been created). Debian currently has Eclipse 3.2.2, which is what the following instructions are written for. This is a bit behind the upstream Eclipse development, so if you want a more current Eclipse, you may need to install the package from source. If so, be aware that some of the following instructions will probably require subtle changes (some of the menu options have been moved around in later versions of Eclipse, but they are of course, still there).

Download the assignment skeleton from Stanford

The CS106A website has zip archives for each assignment. These are skeleton file trees containing everything you need, except for the code you are expected to write. The source files have a comment simply saying "// You fill in this part", which is where you write your code.

All of the examples shown here are from the Assignment1 skeleton, but presumably the others are much the same.

Expand the archive into your choice of an appropriate working directory on your computer.

Start the project in Eclipse

There are several possible false starts at this point! I discovered a number of different ways that you can start a project in Eclipse, but they don't all do what you want for CS106A.

Here's what worked for me:

Start with "File"→"New Project". Select "Java Project", then click the "Next" button.

Fill in a project name. I used "CS106A" for this, although I'm not 100% sure of whether I'm going to need a separate project for each assignment or one for the whole class. The name isn't really that important, though.

Select the radio button for "Create project from existing source". Then browse to the directory you expanded the Assignment archive into. Select the "Assignment" directory itself (e.g. Assignment1). Click the "Finish" button to create the project.

At this point, you can look in the new project folder, and you should see something like figure 1.

Figure 1: Assignment 1 imported into Debian's eclipse. Note that the assignment is under Figure 1: Assignment 1 imported into Debian's eclipse. Note that the assignment is under "(default package)" and the karel.jar file can be expanded to show the acm and stanford.karel packages. This is evidence that you've got it loaded correctly. I've opened the CollectNewspaperKarel.java skeleton which you would use to complete the first assignment

Create a run option for it

Next we need to tell Eclipse how to run the file. As far as I can tell from watching the videos, this is what Stanford hacked the most in their "special version" of Eclipse, because this is not quite as simple as clicking "Run Karel". However, it's not that hard either.

Click on the pull-down arrow beside the "Run" icon (this is a green button with a white arrow on it in Figure 1. Eclipse is skinnable, though, so this may look different if you are using a different version). Note that just clicking on the "Run" icon itself will run the top menu entry from the pull-down, which may not be what you want. From the pull-down menu, select "Run..." to get the "Run" dialog window.

You'll see that the project is already set to "CS106A". Now add a name for the run profile. I used "Run CollectNewspaperKarel" (there may be a way to run the currently-opened file, but if so, I haven't found it -- so I'm just planning to create a separate profile for each program).

Click the check boxes for "Include libraries when searching for a main class" and "Include inherited mains when searching for a main class". The latter is probably the one that matters, because the Karel class appears to contain the dummy "main()" method. On the other hand, if you follow the class assignment, you'll create your own "main()", so you could skip this (but the testing steps below won't run properly).

Now click "Search...". Eclipse should find the main class and fill in "stanford.karel.Karel". This shows that Eclipse is able to import the Jar file and read the library, so if you see this, you can be pretty confident that you're on the right track.

Now click "Apply", and then "Run" (or you can close the window and select "Run CollectNewspaperKarel" from the "Run" pull-down, as you will do later on).

There will be a delay while Java compiles the bytecode and runs the program, and then the Karel window will pop up (see figure 2), just as it does in the class videos!

Figure 2: There's Karel!Figure 2: There's Karel!

Now this is not the correct scenario for the assignment, so you'll need to click "Load World" and browse to the correct world file (in this case, it's CollectNewspaperKarel.w). Click "Ok" to load it. See Figure 3 for the menu, and Figure 4 for the resulting world.

Figure 3: Loading a world for KarelFigure 3: Loading a world for Karel

Finally, you actually get Karel to go by pushing the "Start" button. At this point, if you haven't added anything to the program file, absolutely nothing will happen! (That's how you know it's working, right?) Seriously, though, that's what should happen, because you haven't given Karel any instructions, and the dummy main() method doesn't do anything.

Figure 4: The CollectNewspaperKarel world. This is what you will see after loading the correct world (and also after running the program if you haven't added any code to it)Figure 4: The CollectNewspaperKarel world. This is what you will see after loading the correct world (and also after running the program if you haven't added any code to it)

After you've added some code to Karel (see the class for what you should add), then you'll see some action when you push the "Start" button. Of course, after each run, you'll need to re-load the world scenario to reset the program for each run (this is covered in the lecture).

Karel learns Debian

That's it. Everything else should work as it does in the class demonstrations, so I will leave you to follow those for what to do with Karel. I haven't actually tried it, but it appears that the ACM examples will also work in this way, since the ACM libraries are clearly there, along with the Karel library.

Licensing Notice

This work may be distributed under the terms of the Creative Commons Attribution-ShareAlike License, version 3.0, with attribution to "Terry Hancock, first published in Free Software Magazine". Illustrations and modifications to illustrations are under the same license and attribution, except as noted in their captions (all images in this article are CC By-SA 3.0 compatible).

Category: 

Comments

Terry Hancock's picture

I have since learned how to do this:

In the "Run..." dialog, instead of selecting the current module as "argument", use:

${resource_loc}

This will be replaced by the path to the currently opened/selected file, so it should have the desired effect.

crisponions's picture

Thanks for the article, helped me get my environment set up for taking this class. I wanted to ask, did you bother getting the text book for this course? I do have some programming experience and I am wondering if I should be able to follow the concepts without purchasing the text.

tjingymebob's picture

This doesn't work for me, I get this error
Exception in thread "main" java.lang.NullPointerException
at stanford.karel.Karel.main(Karel.java:208)

tjingymebob's picture

I did post how I got it to work, but being a long post needs moderating which doesn't seem to be happening so my howto video is here http://www.youtube.com/watch?v=jWMW2ZfYPo4

jbaldus's picture
Submitted by jbaldus on

I've been trying to get this to work for a while, and it finally occurred to me to just use Stanford's Eclipse plugin. Just:
1. Install Eclipse and Open JDK
2. Download the windows version of Eclipse from the Stanford's CS106 website here: http://www.stanford.edu/class/cs106a/
3. Extract it.
4. Find the plugins directory in the newly extracted directory.
5. Copy the file edu.stanford.cs106_1.0.0.jar to the plugins folder of you Eclipse installation (mine was in /usr/lib/eclipse/plugins)

Then everything seems to be the same as the IDE they use in the course. Here's a quick command line, copy-and-paste to do this.

wget http://www.stanford.edu/class/cs106a/software/eclipse-helios-pc.zip
unzip eclipse-helios-pc.zip
sudo cp eclipse-helios-pc/plugins/edu.stanford.cs106_1.0.0.jar /usr/lib/eclipse/plugins

jbaldus's picture
Submitted by jbaldus on

Your YouTube howto was very helpful, but it was tricky for me to get working perfectly. This was due probably to me using a different version of Eclipse, and me having very little idea of how to translate from your version to my version. I got it to work for one problem, but I couldn't extend the solution.

So instead I yanked the stanford plugin and jammed it in my Eclipse install. Probably not even in the right place or the best way, but it let me do all of the Karel problems, and so far hasn't seemed to break anything else. But I'm sure it will someday, and when that day comes, at least it seems like an easy way to revert would just be to delete the stanford plugin.

Anyway, thanks for the YouTube HOWTO--it helped me get started, and if I had known what I was doing more, it probably would have been enough to get me through.

Osanda's picture
Submitted by Osanda on

After hours of struggling (even after watching youtube video and reading this tutorial I was back to square one. Then I tried jbaldus's simple step copying Stanford eclipse plugins on windows to eclipse plugins on Linux boy oh boy it worked like a charm, so I just wanted to thank you, I know it didn't work for me following this tutorial but I want to thank the author of the article as well, if it wasn't for you I wouldn't have even tried this. Have a merry Christmas

Author information

Terry Hancock's picture

Biography

Terry Hancock is co-owner and technical officer of Anansi Spaceworks. Currently he is working on a free-culture animated series project about space development, called Lunatics as well helping out with the Morevna Project.