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Archive for May, 2007

10 May 2007

by Noel

XML Transformation in Scheme

Selenium is a tool for testing web applications, the core of which is a Javascript library that controls a web browser. With the Selenium IDE you can convert your actions in a web browser into tests, and with the Selenium Remote Control you can control a web browser from code. I’ve recently been working on adding Selenium Remote Control bindings to PLT Scheme, which has resulted in a nice and hopefully instructional demonstration of XML transformation in PLT Scheme

The Selenium Remote Control is controlled by sending simple messages over HTTP. The format of the messages isn’t important. What is, is that there are a lot of them, and the API is specified in a file called iedoc.xml that comes with Selenium. The Java/Python/Ruby bindings are generated using XSL. If I was to use XSL I’d have a processing pipeline that uses three languages (XSL, Java, Scheme) which is two more than I’d like. Hence I turned toWebIt!, an XML transformation DSL written in Scheme, to create an all Scheme pipeline. The rest of this post wshows the steps I used to transform the Selenium API into Scheme code using WebIt! I think this is interesting in its own right, but also serves as a nice demonstration of the power of macros, which WebIt! makes extensive use of.

My first step is to get an idea of the structure of the XML. The bits I’m interested in look like this:

<function name="click">
<param name="locator">an element locator</param>
<comment>Clicks on a link, button, checkbox or radio button.
If the click action causes a new page to load (like a link usually
does), call waitForPageToLoad.</comment>
</function>

Let’s read in the XML file and extract all the function elements. For this I’ll use SSAX and SXPath:

(require
(planet "ssax.ss" ("lizorkin" "ssax.plt" 1))
(only (planet "sxml.ss" ("lizorkin" "sxml.plt" 1)) sxpath))

(define api
(with-input-from-file "iedoc.xml"
(lambda () (ssax:xml->sxml (current-input-port) '()))))

(define functions
((sxpath '(// function)) api))

Ok, so we have all the functions. Now let’s parse them into a more useful datastructure. Here’s my first attempt:

(require (planet "xml.ss" ("jim" "webit.plt" 1 5)))

;; struct function : string (listof string)
(define-struct function (name params))

;; parse-function : sxml -> function
(define (parse-function fn)
(xml-match fn
[(function name: ,name
(param name: ,param-name ,desc) ...
(comment ,_ ...))
(make-function name (list param-name ...))]))

(map parse-function functions)

The xml-match macro is a pattern matcher for SXML. You specify the “shape” of the SXML, and if the input matches the pattern the following expressions are evaluated:

(xml-match value
[(pattern expression ...)]...)

The simplified form of a pattern is:

  • (element ...) matches an element with the given name.
  • name: value matches an attribute with the given name and value.
  • ,binding binds the value of binding to the given name in the scope of the following expressions.
  • ... matches zero or more of the preceeding patterns.

In our example the pattern is:

     (function name: ,name
(param name: ,param-name ,desc) ...
(comment ,_ ...))

So we’re looking for an element called function with an attribute called name the value of which is bound to name. Then follows zero or more param elements, with attribute name, the value of which is bound to param-name. Finally we expect a comment element which can contain any amount of data. The use of _ as the binding name is a common convention to indicate data we don’t care about but must still match to make our pattern complete.

I run the code in DrScheme and see the result:

xml-match: no matching clause found

Oops. So our pattern isn’t complete. We’ve also seen one flaw of WebIt!: it doesn’t give very good error messages. However we can easily fix this by adding a catch all pattern that raises an error telling us what we failed to match. The code follows. Notice that I’ve also added pretty printing to make the unmatched SXML easier to read.

(require (lib "pretty.ss"))

;; parse-function : sxml -> function
(define (parse-function fn)
(xml-match fn
[(function name: ,name
(param name: ,param-name ,desc) ...
(comment ,_ ...))
(make-function name (list param-name ...))]
[,err (let ([op (open-output-string)])
(pretty-print err op)
(error (format "Didn't match ~n~a~n" (get-output-string op))))]))

Run this code and you’ll see the error occurs as we don’t allow the description to contain more than one element. This is easily fixed by extending the pattern to ,desc .... The next error is more interesting. The function element contains a return element. The WebIt! pattern language doesn’t allows us to express optional patterns, so we have to duplicate our pattern and include the case ofreturn. This also requires we extend the defintion of the functionstructure.

;; struct function : string string (listof string)
(define-struct function (name return params))

;; parse-function : sxml -> function
(define (parse-function fn)
(xml-match fn
[(function name: ,name
(param name: ,param-name ,desc ...) ...
(comment ,_ ...))
(make-function name "void" (list param-name ...))]
[(function name: ,name
(return type: ,type ,return-desc ...)
(param name: ,param-name ,desc ...) ...
(comment ,_ ...))
(make-function name type (list param-name ...))]
[,err (let ([op (open-output-string)])
(pretty-print err op)
(error (format "Didn't match ~n~a~n" (get-output-string op))))]))

This works! This is as far as I want to go in this article. We’ve seen how we can use SSAX. SXPath, and WebIt! to create XML transforms in pure Scheme. There is a lot more to all of these packages but what we’ve used is sufficient for many uses. The rest of the code to create Scheme from the API is quite straightforward and specific to Selenium. If you’re curious read the source of the Selenium PLaneT package, which will be released soon.

This post also appears on the PLT Scheme Blog

Posted in Code | Comments Off on XML Transformation in Scheme

3 May 2007

by Noel

Get It Right (or Left)!

Next time you’re walking down the street and have to step aside to avoid a fellow pedestrian, note which way you move. The chances are you’ll step over to the side people drive on in your country. Normally this is unconscious and the two of you will smoothly avoid one another as if the process had been choreographed. Go to a country where people drive on the other side of the road and it will become immediately noticeable as you play the hilarious game of stepping-in-front-of-one-another. Why do I bring this up? The local branch of Aldihas undergone redevelopment, including a new front door. You enter on the right and leave on the left. I ambled up not really paying attention and of course went to the wrong side. So did the next three people after me. The difference between a great design and a bad design is made in the little details like this.

Posted in Design | Comments Off on Get It Right (or Left)!