A friend of mine asked me to help her with creating a portfolio website for a friend of hers, who is an artist. The site will be somewhat similar to QuickHoney's web site: It will be Javascript based, relatively simple in terms of layout, and self maintainable, i.e. the artist will be able to add and update the website without the need for HTML programming.

The site will be hosted on a cheap, no-frills shared web host. On the server, it will consist of static files. The portfolio data set - Projects, descriptions, dates - will be stored in JSON formatted files. Manipulation of the data set will be done with a special Javascript application for content management.

The site will contain various media data: Photos, MP3 audio tracks, videos hosted by a video hoster.

Some parts of the content management tasks cannot be performed by Javascript in the browser:

Image manipulation, in particular rescaling.

Provide information about MP3 audio tracks

Fetching video information from the video hoster

Uploading data to the web hoster

These tasks require some program that runs outside of the browser; obviously, they are performed by a http server running on the artist's box.

My first impulse was to implement these functions in Common Lisp. Image manipulation is easy, using Edi Weitz' excellent CL-GD library. MP3 information should be easy enough to read using Peter Seibel's code from Practical Common Lisp. Parsing information from the video hoster would be easy, as that information is available both in XML and JSON formats, and Gilbert Baumann's and David Lichteblau's Closure XML Parser which I enjoy to use a lot. Lastly, uploading data to the web host should be possible using CL-FTP which I had not used before.

Exit Common Lisp

I spent a few evenings hacking CL-FTP so that it fits my library set and trying to find a sufficiently complete MP3 parsing library, played with dumping images so that startup times would be short. In between, I played with jQuery, HTML and CSS to get the user visible parts of the site into shape. Sadly, I made much better progress and had a lot more fun hacking Javascript than fooling around with Common Lisp and incomplete libraries. At one point, I decided that I need to make more progress and that I should reconsider my strategy for the CMS server.

I decided that my second choice for the CMS server language would be Javascript. I'd rather write both client and server in Common Lisp, but that is not how the world looks like.

Enter Javascript

I spent a few hours shopping for server-side Javascript solutions. The open source Javascript based web servers are either based on the SpiderMonkey or the Rhino Javascript implementations, both by the Mozilla foundation. SpiderMonkey is written in C, thus extending it requires libraries using the C calling convention. Rhino is written in Java, and it gives Javascript applications direct access to libraries written in Java. As I am developing on Windows, but the artist is using a Mac, Rhino looked a lot more attractive.

After looking at some project web pages picked from the Wikipedia entry on Server-side Javascript, I decided to give Axiom Stack a spin. I chose it because it is a real Javascript framework (using Prototypes, not mimicking classes), has easy-to-follow getting started documentation, provides for persistent objects similar to the BKNR datastore and has active support.

My application is not quite typical for applications implemented with Axiom Stack. Usually, the server would be used by the site's users, too. My server manipulates the static files that make up the web site, and is basically a slave to the CMS application that runs in the browser. Thus, I am not using Axiom Stack's persistent object store in this application.

Enslave Java

I have never developed a very friendly relationship to Java, despite the fact that when I chose to use it for one reason or another, I had no trouble with it. Java is great, as long as someone else writes code in it. Being able to call Java from Javascript is really nice, though, as there are so many libraries out there. In Rhino, Java libraries can be just used. Thus, as Axiom Stack has no "native" MP3 reading facilities, I grabbed a Java MP3 library off the net and used that:

importPackage(Packages.de.vdheide.mp3); function sound_list () { var dir = '../../../files/sound/'; return MochiKit.Base.map( function (filename) { var pathname = dir + filename; var mp3 = new MP3File(pathname); return { filename: filename, title: id3.getTitle(), length: mp3.getLength() } }, (new axiom.SystemFile(dir)).list(/\.mp3$/i) || []); }

Hacking away

The functioncan be used to import a Java package into the current name space. Java objects can be instantiated like Javascript object using theoperator. Strings and numbers returned by Java can be handled like any other Javascript object. I particularily like the fact that what you see above really is all code that is required to use a Java library. No interface generator or mapping layer is needed. At the same time, I can continue to use MochiKit , which is a Javascript library that I like for its nice functional programming abstractions.

Since I have solved my server problem, I have made great progress with the application. Switching between client-side and server side programming is really easy now. No more procastinating because the other side's mindset does not happen to be there. No more accidential typing of "the other" syntax.

Though I must say, I'm glad to have a Lisp job, too! :)