I'm looking for the coolest thing you can do in a few lines of simple code. I'm sure you can write a Mandelbrot set in Haskell in 15 lines but it's difficult to follow.

My goal is to inspire students that programming is cool.

We know that programming is cool because you can create anything you imagine - it's the ultimate creative outlet. I want to inspire these beginners and get them over as many early-learning humps as I can.

Now, my reasons are selfish. I'm teaching an Intro to Computing course to a group of 60 half-engineering, half business majors; all freshmen. They are the students who came from underprivileged High schools. From my past experience, the group is generally split as follows: a few rock-stars, some who try very hard and kind of get it, the few who try very hard and barely get it, and the few who don't care. I want to reach as many of these groups as effectively as I can. Here's an example of how I'd use a computer program to teach:

Here's an example of what I'm looking for: a 1-line VBS script to get your computer to talk to you:

CreateObject("sapi.spvoice").Speak InputBox("Enter your text","Talk it")

I could use this to demonstrate order of operations. I'd show the code, let them play with it, then explain that There's a lot going on in that line, but the computer can make sense of it, because it knows the rules. Then I'd show them something like this:

4(5*5) / 10 + 9(.25 + .75)

And you can see that first I need to do is (5*5). Then I can multiply for 4. And now I've created the Object. Dividing by 10 is the same as calling Speak - I can't Speak before I have an object, and I can't divide before I have 100. Then on the other side I first create an InputBox with some instructions for how to display it. When I hit enter on the input box it evaluates or "returns" whatever I entered. (Hint: 'oooooo' makes a funny sound) So when I say Speak, the right side is what to Speak. And I get that from the InputBox.

So when you do several things on a line, like:

x = 14 + y;

You need to be aware of the order of things. First we add 14 and y. Then we put the result (what it evaluates to, or returns) into x.

That's my goal, to have a bunch of these cool examples to demonstrate and teach the class while they have fun. I tried this example on my roommate and while I may not use this as the first lesson, she liked it and learned something.

Some cool mathematica programs that make beautiful graphs or shapes that are easy to understand would be good ideas and I'm going to look into those. Here are some complicated actionscript examples but that's a bit too advanced and I can't teach flash. What other ideas do you have?

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    I think questions about how to teach programming are excellent and non-trivial. Good luck with what you are trying to do. – Mike Dunlavey May 1 '09 at 12:18
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    "my goal is to inspire students that programming is cool." I don't think you can tell people programming is cool. Either they like it, or they don't. – Rik May 1 '09 at 12:18
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    Your one line VBS script doesn't work on my Mac! :-P Good question though. – John Topley May 1 '09 at 12:23
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    I allways like this kind of stuff, but who you are trying to impress, me the Sierpinski gasket one would do I nice job. For an IT guys may something that creates files, for some people making the computer talk would be impressive, and so on. So what matter is the target audience, then you define whats cool. – Oakcool May 1 '09 at 17:05
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    83 people upvote the comment about how this question is "excellent and non-trivial"... closed as "not constructive" by 5 people who apparently disagree. Ain't power grand? – rg88 Dec 31 '11 at 1:31

87 Answers 87


As a supplement to whatever ideas you come up with, I say you should just show them how to do some basic math. Present it as

"now you might think this is easy or complicated... but have you ever been stuck on your math homework?"

Then just pull out an example from someone's book. Most math problems can be solved in 10 lines as it will likely be a simple problem. Then show them how spending 10 minutes to figure it out might be worth the A they might get. It's a long stretch, but you might catch a few who want to spend little to no time doing homework.

This mostly stems from me having wished I had thought of writing a software program back in chemistry... all those quizzes and homeworks would have been 100s...

Edit: To respond to Peter's comment:

Say something like what is the derivative of 3a2. So you could just show a simple function that they can call from the command line:

public int SimpleDerivative(int r, int exponent){
    r = r * exponent
    exponent =- 1
    return (String "{0}a^{1}" where {0} = r, {1} = exponent)
  • Maybe this could benefit from a quick example? Definitely good to have a "here's how programming can be useful to use" perspective. – Peter Boughton May 1 '09 at 13:07
  • Gah, can't edit/delete above comment - should be "...useful to you" – Peter Boughton May 1 '09 at 13:09
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    Very true. I added a simple example in the edit. Granted it's very low level, but it really depends on what level the students are and what classes they are taking. To do something in 10 lines of code, it might need to be something that's actually rather lengthy underneath the hood. For example, having a button turn a light bulb on or off. It'd have that "oh wow" factor -- but in reality there's quite a bit of groundwork behind it -- but it might be that spark to get certain students very interested especially knowing that they too can accomplish these technological 'feats' if you will. – MunkiPhD May 1 '09 at 14:59
  • I'm sure a lot of you were like me. I used to do a lot of my math homework by creating a simple form in VB6 (that performed a mathematical function) and then inputting the differing values from the worksheet. – Travis May 1 '09 at 19:39
  • @T Pops: ditto, but with QBasic! Creating physics simulators for projectile motion, collision dynamics, etc really helped me understand the problems much better! – nickf May 11 '09 at 13:16

Many people find gambling exciting and motivating. You could build a blackjack dealer class yourself, exposing an interface. Then, have the kids build a blackjack player class.

You can build a graph for each student's solution showing money versus time to motivate the task.

The beauty of this system is that you can produce incremental solutions over weeks:

The naive solution is to always hit below a certain level. That's maybe 5 lines of code.

A better solution is to look at what the dealer has exposed and adjust your hitting for that.

An even better solution takes into account the actual cards you have-- not just the sum of their values.

The ultimate solution is probably keeping track of the dealt cards over many hands. (The dealer object could make a DealerIsShuffling(int numberofdecks) call on the player object telling the player how many decks there are.)

Another direction this could go is to make the game competitive-- instead of winning money against a dealer, you play against other people's solutions. Of course, you have to rotate who starts hitting first to make things fair.


This bash code lock down your computer. It's called Fork bomb.

:(){ :|:& };:

WARNING: don't run it!

more info: http://en.wikipedia.org/wiki/Fork_bomb


I taught a class for students with learning disabilities, ages 11-12. We were using Hypercard and they discovered they could record the position of an object (image, box, etc.) as they moved it and play it back (animation). Although this is not coding, they wanted to do more like: delete one of the moves without recording it all over again. I told them they would have to go to the code and change it.

You could see who had a knack for computers/programming when they prefered to do it with code because they had more control.

Doing a complex macro in Excel and then learning what the code is doing could be a gateway to VBA.

Depending on the age group or level of interest, it could be tough to jump straight into code, but it is the end that counts.

  • Thats really cool man. And the fact that they were taking their own initiative makes it even more rewarding. – Egg May 1 '09 at 14:27
  • I remember discovering how to record macros in PowerPoint. I learned how to code them and from then on through the year, every PowerPoint I made had at least 1 particle effect in it :D Sadly, I think Microsoft removed this feature in the newest version of PowerPoint. – Ponkadoodle Feb 27 '10 at 21:31

I don't have code for this, however it could be abstracted in 10 lines or less. Make the mouse draw a box .. however you move it. when you click (left) the box vanishes, when you click (right) the box changes color.

Students want something practical, something they can hack and customize, something that says this "is not your typical boring class".

Xen's mini-os kernel does this now, but it would require additional abstraction to fit your needs.

You could also try plotting a manderbolt (julia) set while getting the paramaters of the quadratic plane from ambient noise (if the machines have a microphone and sound card) .. their voice generates a fractal. Again, its going to be tricky to do this in 10 lines (in the actual function they edit), but not impossible.

In the real world, you are going to use existing libraries. So I think, 10 lines in main() (or whatever language you use) is more practical. We make what exists work for us, while writing what does not exist or does not work for us. You may as well introduce that concept at the beginning.

Also, lines? int main(void) { unsigned int i; for (i=0; i < 10; i++); return 0; } Perhaps, 10 function calls would be a more realistic goal? This is not an obfuscated code contest.

Good luck!

import sys
for y in range(80):
    for x in range(80):
        c = complex(x-40.0,y-40.0) / 20.0
        z = 0.0
        for i in range(100):
            z = z*z+c
        sys.stdout.write('#' if abs(z) < 2.0 else ' ')

C program to compute the value of pi:

#include <stdlib.h>  
#include <stdio.h>  

long a=10000,b,c=2800,d,e,f[2801],g;  

int main()  


  • Forgive me if I'm wrong, but wouldn't the loop conditions always return true? – Javier Jul 19 '09 at 21:36
  • It is not infinite loop. I've run it and got the above result. – jfs Mar 26 '10 at 0:23
Private Declare Function Beep Lib "kernel32" (ByVal dwFreq As Long, ByVal dwDuration As Long) As Long
Private Declare Sub Sleep Lib "kernel32" (ByVal dwMilliseconds As Long)
Public Sub JohnDenverAnniesSong(): Const E4# = 329.6276: Dim Note&, Frequencies$, Durations$: Frequencies = "iiihfihfffhidadddfhihfffhihiiihfihffihfdadddfhihffhiki": Durations = "aabbbfjaabbbbnaabbbfjaabcapaabbbfjaabbbbnaabbbfjaabcap": For Note = 1 To Len(Frequencies): Beep CLng(E4 * 2 ^ ((AscW(Mid$(Frequencies, Note, 1)) - 96) / 12)), CLng((Asc(Mid$(Durations, Note, 1)) - 96) * 200 - 10): Sleep 10: DoEvents: Next: End Sub

Dump in Excel to run:D


Maybe this is dumb, but I think kids would intuitively grasp it -- the cartoon that started off the whole "What’s your favorite “programmer” cartoon?" at What's your favorite "programmer" cartoon?.

E.g. Jason Fox of Foxtrot writes code on the board that does a loop.

Possible point of interest: programming might help you out of trouble some time...


Take a look at these projects:

  • Hackety Hack: specifically aimed at making coding accessible and attractive for non-programmers.
  • Shoes: fun and minimalistic approach to desktop applications
  • Processing: environment and (java-like) language for programming images, animation and more.

Processing is always fun to play with and it creates things that are impressive to all types of people. For instance, a Brownian tree:

int xf = (int) random(width);
int yf = (int) random(height);
int x = (int) random(width);
int y = (int) random(height);

while(x != xf || y != yf) {
  x = max(0, min(x + -1 + (int) random(3), width - 1) );
  y = max(0, min(y + -1 + (int) random(3), height - 1) );

It has been fun reading the answers to this question. Once you've achieved the 'wow' factor from the students, illustrate the daisy-chaining affect of the results of one becoming the input of another. Learning how input and output works will illustrate the idea of building blocks and how software grows from lots of little things solving specific problems to larger applications solving bigger problems. If a few 10 line programs can be cool, how cool would it be to then put a bunch of them together? That is non-linear cool.

20 GOTO 10

But I was just a kid then. That's also why it was the coolest thing. I don't think you can ever get that same rush from the very first time you programmed a computer. Even if it's as simple as printing "HELLO" to the console infinitely.


You could have your students go to the codeplex IronPython silverlight sample site which includes a < 10 line demonstration of altering a canvas and interacting with the mouse. You can find the silverlight example here

Just seeing code written in a web browser and then executing an altering a small WPF might be intoxicating for some.


I was blown away by some of the stuff that was shown in the talk Easy AI with Python (video and PDF). For example, teaching a computer how to play Mastermind, solve eight queens, alphametics (those puzzles which are like "9567 + 1085 == 10652" and infer relationships in data. All in the order of 10 lines (possibly with 20 or 30 lines of "behind the scenes" code).


Fibonacci numbers is a cool example to learn recursivity. It shows that recursivity can be simple to write and can be costly to execute. The negative entries case can be introduced later.

int fiboNumber(int index)
  if (index <= 1)
    return index;
  return fiboNumber(index - 1) + fiboNumber(index - 2);
  • Choose any language (or framework) where drawing a dot, line, box or circle to the screen is trivial. Designing games is where a lot of programmers first find their passion, and graphical output is fundamental to this.
  • Choose a language which lets them easily show off their work to friends. If they need to get their friends to install runtime frameworks and follow complicated instructions to show off, then they won't be getting the necessary kudos and comments they need. Don't underestimate the value of a peer saying "Hey, that's cool!"

Perhaps given these two criteria, Javascript with Processing.js or Flash might be a good start point, though Flash obviously has the downside of requiring.. er... Flash.

Tangential thought: Flash is actually a really great way to teach OOP, since it's much easier to grasp the concepts of objects and classes when you can actually see them!


I remember finding simple loops amazing. Each time I learn a new language I usually throw something like this together:

$numberOfBottles = 99;
print("<h1>$numberOfBottles Bottles of Beer on the Wall</h1>");
print("$numberOfBottles bottles of beer on the wall,<br />");
print("$numberOfBottles bottles of beer!<br />");
print("Take one down, pass it around,<br />");
for($numberOfBottles--; $numberOfBottles>1; $numberOfBottles--)
    print("$numberOfBottles bottles of beer on the wall!<br />");
    print("<br />");
    print("$numberOfBottles  bottles of beer on the wall,<br />");
    print("$numberOfBottles  bottles of beer!<br />");
    print("Take one down, pass it around,<br />");
print("One last bottle of beer on the wall!");

Maybe some variations with while or foreach loops would be easy too.


If you're teaching engineers, this bit of Prolog might get their attention:

d(-U, X, -DU) :- d(U, X, DU).
d( U + V, x, RU + RV ):-d(U,x,RU), d(V,x,RV).
d( U - V, x, RU - RV ):-d(U,x,RU), d(V,x,RV).
d(U * V,x, U * DV + V * DU):- d(U,x,DU), d(V,x,DV).
d(U^N, x, N*U^(N-1)*DU) :- integer(N), d(U, x, DU).

Just write down the rules, and you have a program that can do all of first semester calculus, in 8 lines of code.


I think any sort of shell script which can do something useful is a great way to show someone the power of programming. Being able to spend 10-20 minutes on a small script that will automate another task and save you countless hours is very impressive, imo.

For example, I once wrote a simple Perl script to convert mp3 files in one directory to another format and them burn them to a cd. You invoke the script with the path to a directory of MP3's and it burns the cd. At least I was impressed at the time.


Logo is always a terrific starting point.

Brian Harvey's UCBLogo page has this short example:

Here is a short but complete program in Berkeley Logo:

to choices :menu [:sofar []]
if emptyp :menu [print :sofar stop]
foreach first :menu [(choices butfirst :menu sentence :sofar ?)]

And here's how you use it. You type

choices [[small medium large]
         [vanilla [ultra chocolate] lychee [rum raisin] ginger]
         [cone cup]]

and Logo replies

small vanilla cone
small vanilla cup
small ultra chocolate cone
small ultra chocolate cup
small lychee cone
small lychee cup
small rum raisin cone
small rum raisin cup
small ginger cone
small ginger cup
medium vanilla cone
medium vanilla cup
medium ultra chocolate cone
medium ultra chocolate cup
medium lychee cone
medium lychee cup
medium rum raisin cone
medium rum raisin cup
medium ginger cone
medium ginger cup
large vanilla cone
large vanilla cup
large ultra chocolate cone
large ultra chocolate cup
large lychee cone
large lychee cup
large rum raisin cone
large rum raisin cup
large ginger cone
large ginger cup

The program doesn't have anything about the size of the menu built in. You can use any number of categories, and any number of possibilities in each category. Let's see you do that in four lines of Java!

  • +1 for LOGO. That was my first programming language, but at the time I didn't think of it as programming. – CoffeeRain Mar 5 '12 at 16:09

I think this question is really good idea. I had a lot of sucky teachers, and the best one where obviously the guys with the will to show off a little bit.

There are plenty of code you can show them. The first that comes to my mind is Ed Felten's TinyP2P source code :

  import sys, os, SimpleXMLRPCServer, xmlrpclib, re, hmac # (C) 2004, E.W. Felten

  ar,pw,res = (sys.argv,lambda u:hmac.new(sys.argv[1],u).hexdigest(),re.search)

  pxy,xs = (xmlrpclib.ServerProxy,SimpleXMLRPCServer.SimpleXMLRPCServer)

  def ls(p=""):return filter(lambda n:(p=="")or res(p,n),os.listdir(os.getcwd()))

  if ar[2]!="client": # license: http://creativecommons.org/licenses/by-nc-sa/2.0

    myU,prs,srv = ("http://"+ar[3]+":"+ar[4], ar[5:],lambda x:x.serve_forever())

    def pr(x=[]): return ([(y in prs) or prs.append(y) for y in x] or 1) and prs

    def c(n): return ((lambda f: (f.read(), f.close()))(file(n)))[0]

    f=lambda p,n,a:(p==pw(myU))and(((n==0)and pr(a))or((n==1)and [ls(a)])or c(a))

    def aug(u): return ((u==myU) and pr()) or pr(pxy(u).f(pw(u),0,pr([myU])))

    pr() and [aug(s) for s in aug(pr()[0])]
    (lambda sv:sv.register_function(f,"f") or srv(sv))(xs((ar[3],int(ar[4]))))

  for url in pxy(ar[3]).f(pw(ar[3]),0,[]):
    for fn in filter(lambda n:not n in ls(), (pxy(url).f(pw(url),1,ar[4]))[0]):
      (lambda fi:fi.write(pxy(url).f(pw(url),2,fn)) or fi.close())(file(fn,"wc"))

Ok, it's 5 lines more than you "ten" limit, but still a fully functionnal Peer 2 Peer app, thansk to Python.

TinyP2P can be run as a server:

python tinyp2p.py password server hostname portnum [otherurl]

and a client:

python tinyp2p.py password client serverurl pattern

Then of course, story telling is very important. For such a purpose, 99 bottles of beer is a really good start.

You can then pick up several example of funcky code like :

  • the famous Python one-liner :

    print("".join(map(lambda x: x and "%s%d bottle%s of beer on the wall, %d bottle%s of beer...\nTake one down, pass it around.\n"%(x<99 and "%d bottles of beer on the wall.\n\n"%x or "\n", x, x>1 and "s" or " ", x, x>1 and "s" or " ";) or "No bottles of beer on the wall.\n\nNo more bottles of beer...\nGo to the store and buy some more...\n99 bottles of beer.", range(99,-1,-1))))

  • the cheaty Python version (cool for student cause it shows network features) :

    import re, urllib print re.sub('</p>', '', re.sub('<br>|<p>|<br/> |<br/>','\n', re.sub('No', '\nNo', urllib.URLopener().open('http://www.99-bottles-of-beer.net/lyrics.html').read()[3516:16297])))

Eventually I'll follow previous advices and show some Javascript because it's very visual. The jQuery UI Demo web site is plenty of nice widgets demo including snippets. A calendar in few lines :

<script type="text/javascript">
    $(function() {

<div class="demo">

<p>Date: <input id="datepicker" type="text"></p>


Bookmarklets have a lot of sex appeal too. Readibility is quite interesting :

function() {
  • Here's my Python 2.6 solution. 292 characters: print"".join(("%s%s on the wall, %s.\n"+(i>0 and"Take 1 down and pass it around, "or"Go to the store and buy some more, 99 bottles of beer on the wall."))%(i<99 and"%s on the wall.\n\n"or"","%s","%s")%((2+(i<99))*("%s bottle%s of beer"%(i or"No more",i!=1 and"s"or""),))for i in range(99,-1,-1)) Note that this follows the format given at 99-bottles-of-beer.net/lyrics.html – Ponkadoodle Feb 27 '10 at 23:17

Try having your students program a Magic 8ball. A basic 8ball answering "yes" or "no" could probably be programmed in less than 10 lines of code, and it can be expanded incrementally in any number of ways:

  1. First, make it simple: input something like "s" for shake into a CLI; 8ball answers "yes" or "no"
  2. Next, input a question, display the question along with the answer
  3. Then expand the possible answers.... Loads of options, the students who are quick to catch on can have some fun ("Look, the computer says dirty words!!"), while you help the others
  4. Implement a timer, so you can't ask the same question again right away, in case you don't like the answer
  5. Group possible answers into variants of "yes", "no" and "hazy" or something; first RNG decides type of answer, second RNG decides the specific answer
  6. Reconfigure the timer; you can ask again right away if the answer is hazy
  7. Make a frame of *'s around the text
  8. And so on....

A magic 8ball is something most people can relate to, and it's an introduction to basic strings, floats/ints, IO, CLI, boolean and RNG's, using only the simplest tools. And it's simple, (somewhat) fun, and can easily be expanded. Depending on you're approach, you could make the programming object-oriented at once, with class 8ball(), class YesAnswer() and whatnot.

Good luck ;-)


This PHP code only works on a Mac through the command-line, but it's very useful when everyone wants to play Twister

$lr = array('left', 'right');
$hf = array('hand', 'foot');
$colour = array('red', 'yellow', 'blue', 'green');
while(true) {
    $a = $lr[array_rand($lr)];
    $b = $hf[array_rand($hf)];
    $c = $colour[array_rand($colour)];
    system("say $a $b $c");

When Steve Wozniak built his first Apple II he liked to show it off with a Breakout game in Apple Basic, typed in on the spot. I think it actually was around 10 lines; I wish I had it to paste in here. You could probably also do it in a system like Processing.


Here is a program in the language of A-Prolog that computes the N coloring of a graph ("c" denotes colors, "v" denotes vertices, and "e" denotes edges).

1 {color(X,I) : c(I)} 1 :- v(X).             
:- color(X,I), color(Y,I), e(X,Y), c(I).

On a side note, the way I got my students excited last semester was to tell them a story. It went something along the lines of: "Picture a triangle. It's a purely mathematical object, no real triangles exists. We can reason about them, discover their properties, and then apply those properties towards real world solutions. An algorithm is also a purely mathematical object. Programming is a form of magic however. We can take a mathematical object, describe it a language, and lo and behold it can manipulate the physical world. Programming is a unique discipline that bridges these two worlds."


from Andrew Cooke's Malbolge: Hello World

let them try this in Malbolge:


that's "Hello World" in the most difficult programming language in the whole world that took two years to find :)

They can go to Lou Scheffer's Malbolge page after :)

of course you can go the No. 1 (!!!) 99 Bottles of Beer Program in the World by Hisashi Iizawa (it's a ONE LINER!) and here's a pdf by Masahiko Sakai on Malbolge


Most of these answers use an API of some kind, which sort of breaks the 10 lines of code requirement. Each API call can be hundred of lines of code. The original question says to use 'Simple Code'. This to me means no API calls. What kind of answers can we come up with that just uses this definition of 'simple code'?

  • 3
    -1 Yeah, I'm sure the real intent was actually to start the class coding in assembly. If API calls were out of the question, why wasn't a language specified? After all, many functionalities that are supported by various higher-level languages require importing standard libraries in some but are built-ins in another. We could make all the examples in php, just to disguise all our API calls as built-in functions. – David Berger May 1 '09 at 22:00
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    I was more getting at solving complex problems using the practice of computer science than just calling cool API's to draw stuff on the screen. What about using recursion or functional programming or other practices that might be taught in computer science. With ten lines of code, you could do alot of cool stuff. – igotmumps May 2 '09 at 0:58

When I was a kid this was the coolest thing ever:

20 GOTO 10

I guess it won't cut it much these days ;)


In WPF, you can write a fully functional Thumbnail View in a few XAML lines:

<ListBox ItemsSource={Binding MyItems}
            <Image Source={Binding FullPath} Width="50" />
        <ItemsPanelTemplate><WrapPanel /></ItemsPanelTemplate>

This is, assuming you have a MyItems collection of items that contain a FullPath property that points to image files.

The magic comes from the ItemTemplate that transforms each list box item into an image, and the ItemsPanelTemplate that changes the default vertical stack panel to a wrap panel.

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