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# Saturday, January 3, 2009

The last year we were working on a project, which in essence dealt with transformation of graphs. Our experience with xslt 1.0, and other available information was promising - xslt 2.0 is a perfect match.

We were right, xslt 2.0 fitted very well to the problem.

It's easy to learn xslt 2.0/xquery: be acquainted with xml schema; read through a syntax, which is rather concise; look at examples, and start coding. API you will learn incrementally.

The same as other languages, xslt 2.0 is only a media to express algorithms. As such it fills its role rather good, as good as SQL:2003 and its variations do, and sometimes even better than other programming languages like C++ do.

Compare expressions "get data satisfying to a specific criteria" and "for each data part check a specific condition, and if it true, add it to the result". These often represent the same idea from two perspectives: human (or math) thinkning; and thinking in terms of execution procedure.

Both kinds of expressions have their use, however it has happened so that we're the human beings and perceive more easily natural language notions like: subjects, objects, predicates, deduction, induction and so on. I think the reason is that a human's (not positronic) brain grasps ideas, conceptions, images as something static, while execution procedure demands a notion of time (or at least notions of a sequence and an order) for the comprehension. ("Are you serious?", "Joke!" :-))

There is the other side to this story.

We have made the project design in relatively short terms. A good scalable design. We needed people who know xslt 2.0 to implement it. It has turned out, this was a strong objection against xslt!

Our fellow, xslt guru, Oleg Tkachenko has left our company to make his career at Microsoft, and to our disbelief it was impossible to find a person who was interested in a project involvong 85% of xslt and 15% of other technologies including java. Even in java world people prefer routine projects, like standard swing or web application, to a project demanding creativeness.

Possibly, it was our mistake, to allow to our company to look for developers the standard way: some secretary was looking through her sources, and inevitably was finding so-so java + poor xml + almost zero xslt knowledge graduates. We had to make appeals on xslt forums especially since the project could be easily developed with a distributed group.

Finally, we have designed and implemented the project by ourselves but to the present day our managers are calling and suggesting java developers for our project. What a bad joke!

Saturday, January 3, 2009 9:51:05 AM UTC  #    Comments [0] -
xslt
# Wednesday, December 17, 2008

Just for fun I've created exslt2.xslt and exslt2-test.xslt to model concepts discussed at EXSLT 2.0 forum. I did nothing special but used tuple as reference, and also I've defined f:call() to make function call indirectly.

<?xml version="1.0" encoding="utf-8"?>
<!--
  exslt 2 sketches.
-->
<xsl:stylesheet version="2.0"
  xmlns:xsl="http://www.w3.org/1999/XSL/Transform"
  xmlns:xs="http://www.w3.org/2001/XMLSchema"
  xmlns:f="http://exslt.org/v2"
  xmlns:t="this"
  xmlns:p="private"
  exclude-result-prefixes="xs t f">

  <xsl:include href="exslt2.xslt"/>

  <xsl:template match="/" name="main">
    <root>
      <xsl:variable name="refs" as="item()*" select="
        for $i in 1 to 20 return
          f:ref(1 to $i)"/>

      <total-items>
        <xsl:sequence select="
          sum
          (
            for $ref in $refs return
              count(f:deref($ref))
          )"/>
      </total-items>

      <sums-per-ref>
        <xsl:for-each select="$refs">
          <xsl:variable name="index" as="xs:integer" select="position()"/>

          <sum
            index="{$index}"
            value="{sum(f:deref(.))}"/>
        </xsl:for-each>
      </sums-per-ref>

      <add>
        <xsl:text>1 + 2 = </xsl:text>
        <xsl:sequence select="f:call(xs:QName('t:add'), (1, 2))"/>
      </add>
      </root>
  </xsl:template>

  <xsl:function name="t:add" as="xs:integer">
    <xsl:param name="arguments" as="xs:integer+"/>

    <xsl:variable name="first" as="xs:integer" select="$arguments[1]"/>
    <xsl:variable name="second" as="xs:integer" select="$arguments[2]"/>

    <xsl:sequence select="$first + $second"/>
  </xsl:function>

</xsl:stylesheet>

Code can be found at saxon.extensions.9.1.zip.

Wednesday, December 17, 2008 1:53:03 PM UTC  #    Comments [0] -
xslt
# Wednesday, December 10, 2008

We have created Java Xml Object Model purely for purposes of our project. In fact jxom at present has siblings: xml models for sql dialects. There are also different APIs like name normalizations, refactorings, compile time evaluation.

It turns out that jxom is also good enough for other developers.

The drawback of jxom, however, is rather complex xml schema. It takes time to understand it. To simplify things we have created (and planning to create more) a couple of examples allowing to feel how jxom xml looks like.

The latest version can be loaded from jxom.zip

We would be pleased to see more comments on the subject.

Wednesday, December 10, 2008 9:35:26 AM UTC  #    Comments [0] -
Announce | xslt
# Thursday, December 4, 2008

Although in last our projects we're using more Java and XSLT, we always compare Java and .NET features. It's not a secret that in most applications we may find cache solutions used to improve performance. Unlike .NET providing a robust cache solution Java doesn't provide anything standard. Of course Java's adept may find a lot of caching frameworks or just to say: "use HashMap (ArrayList etc.) instead", but this is not the same.

Think about options for Java:
1. Caching frameworks (caching systems). Yes, they do their work. Do it perfectly. Some of them are brought to the state of the art, but there are drawbacks. The crucial one is that for simple data caching one should use a whole framework. This option requires too many efforts to solve a simple problem.

2. Collection classes (HashMap, ArrayList etc.) for caching data. This is very straightforward solution, and very productive. Everyone knows these classes, nothing to configure. One should declare an instance of such class, take care of data access synchronization and everything starts working immediately. An admirable caching solution but for "toy applications", since it solves one problem and introduces another one. If an application works for hours and there are a lot of data to cache, the amount of data grows only and never reduces, so this is the reason why such caching is very quickly surrounded with all sort of rules that somehow reduce its size at run-time. The solution very quickly lost its shine and become not portable, but it's still applicable for some applications.

3. Using Java reference objects for caching data. The most appropriate for cache solution is a java.util.WeekHashMap class. WeakHashMap works exactly like a hash table but uses weak references internally. In practice, entries in the WeakHashMap are reclaimed at any time if they are not refered outside of map. This caching strategy depends on GC's whims and is not entirely reliable, may increase a number of cache misses.

We've decided to create our simple cache with sliding expiration of data.

One may create many cache instances but there is only one global service that tracks expired objects among these instances:

private Cache<String, Object> cache = new Cache<String, Object>();

There is a constructor that specifies an expiration interval in milliseconds for all cached objects:

private Cache<String, Object> cache = new Cache<String, Object>(15 * 60 * 1000)

Access is similar to HashMap:

instance = cache.get("key"); and cache.put("key", instance);

That's all one should know to start use it. Click here to download the Java source of this class. Feel free to use it in your applications.

Thursday, December 4, 2008 12:12:38 PM UTC  #    Comments [2] -
Announce | Tips and tricks
# Saturday, November 22, 2008

Recently, working on completely different thing, I've realized that one may create a "generator", function returning different values per each call. I was somewhat puzzled with this conclusion, as I thought xslt functions have no side effects, and for the same arguments xslt function returns the same result.

I've confirmed the conclusion at the forum. See Scope of uniqueness of generate-id().

In short:

  • each node has an unique identity;
  • function in the course of work creates a temporary node and produces a result depending on identity of that node.

Example:

<xsl:stylesheet version="2.0"
  xmlns:f="data:,f"
  xmlns:xs="http://www.w3.org/2001/XMLSchema"
  xmlns:xsl="http://www.w3.org/1999/XSL/Transform">

<xsl:template match="/">
  <xsl:message select="
    for $i in 1 to 8 return
      f:fun()"/>
</xsl:template>

<xsl:function name="f:fun" as="xs:string">
  <xsl:variable name="x">!</xsl:variable>

  <xsl:sequence select="generate-id($x)"/>
</xsl:function>

</xsl:stylesheet>

The next thought was that if you may create a generator then it's easy to create a good random number generator (that's a trivial math task).

Hey gurus, take a chance!

Saturday, November 22, 2008 8:27:48 AM UTC  #    Comments [2] -
xslt
# Thursday, November 20, 2008

Yesterday I've read of a new Garbage Collection implementation G1. To be honest I was not impressed.

I think Garbage Collection is an evil, or at least its present implementations. I do not believe in algorithms that in their very core assume a centralized execution. On the other hand it's clear it's not in my power to change the status quo. My lot is to give advices mostly incompetent and ignorable.

I'm waiting for the time when someone will reach the idea to bring some parts of GC logic out of runtime scope. This will require more VM  intelligence, however will bear its fruits.

JIT or compiler during a static analysis may prove that some objects being collected may make some of their referring objects unreachable, provided it can prove that referring objects are not reachable through the other means (e.g. private field which is not stored in other places). This is close to the ideas expressed in Muse on value types in java. It's possible to prepare a garbage graph in advance before runtime.

In many cases it's also possible to prove that when method's variable goes out of scope it's not reachable through the other means and may be collected. This allows to implement a stage of automatic garbage collection when objects that are proven to be a garbage be immedeately added to a free memory set.

As an example I'm thinking of java's ArrayList object which stores private array. When ArrayList is reclaimed or resized a reference to the private array is getting lost and memory can be added to the free set immediately.

This mechanics being integrated as the first stage of GC will make it less centralized, as I believe many objects will be collected this way.

Thursday, November 20, 2008 7:54:47 AM UTC  #    Comments [0] -
Tips and tricks
# Tuesday, November 18, 2008

Suppose you have constructed a sequence of attributes.

How do you access a value of attribute "a"?

Simple, isn't it? It has taken a couple of minutes to find a solution!

<xsl:variable name="attributes" as="attribute()*">
  <xsl:apply-templates mode="t:generate-attributes" select="."/>
</xsl:variable>

<xsl:variable name="value" as="xs:string?"
  select="$attributes[self::attribute(a)]"/>

Tuesday, November 18, 2008 11:41:41 AM UTC  #    Comments [2] -
Tips and tricks | xslt
# Thursday, November 13, 2008

Saying

Our project, containing many different xslt files, generates many different outputs (e.g: code that uses DB2 SQL, or Oracle SQL, or DAO, or some other flavor of code). This results in usage of indirect calls to handle different generation options, however to allow xslt to work we had to create a big main xslt including stylesheets for each kind of generation. This impacts on a compilation time.

Alternatives

  1. A big main xslt including everything.
  2. A big main xslt including everything and using "use-when" attribute.
  3. Compose main xslt on the fly.

We were eagerly inclined to the second alternative. Unfortunately a limited set of information is available when "use-when" is evaluated. In particular there are neither parameters nor documents available. Using Saxon's extensions one may reach only static variables, or access System.getProperty(). This isn't flexible.

We've decided to try the third alternative.

Solution

We think we have found a nice solution: to create XsltSource, which receives a list of includes upon construction, and creates an xslt when getReader() is called.

import java.io.Reader;
import java.io.StringReader;

import javax.xml.transform.stream.StreamSource;

/**
 * A source to read generated stylesheet, which includes other stylesheets.
 */
public class XsltSource extends StreamSource
{
  /**
   * Creates an {@link XsltSource} instance.
   */
  public XsltSource()
  {
  }

  /**
   * Creates an {@link XsltSource} instance.
   * @param systemId a system identifier for root xslt.
   */
  public XsltSource(String systemId)
  {
    super(systemId);
  }

  /**
   * Creates an {@link XsltSource} instance.
   * @param systemId a system identifier for root xslt.
   * @param includes a list of includes.
   */
  public XsltSource(String systemId, String[] includes)
  {
    super(systemId);

    this.includes = includes;
  }

  /**
   * Gets stylesheet version.
   * @return a stylesheet version.
   */
  public String getVersion()
  {
    return version;
  }

  /**
   * Sets a stylesheet version.
   * @param value a stylesheet version.
   */
  public void setVersion(String value)
  {
    version = value;
  }

  /**
   * Gets a list of includes.
   * @return a list of includes.
   */
  public String[] getIncludes()
  {
    return includes;
  }

  /**
   * Sets a list of includes.
   * @param value a list of includes.
   */
  public void setIncludes(String[] value)
  {
    includes = value;
  }

  /**
   * Generates an xslt on the fly.
   */
  public Reader getReader()
  {
    String[] includes = getIncludes();

    if (includes == null)
    {
      return super.getReader();
    }

    String version = getVersion();

    if (version == null)
    {
      version = "2.0";
    }

    StringBuilder builder = new StringBuilder(1024);

    builder.append("<stylesheet version=\"");
    builder.append(version);
    builder.append("\" xmlns=\"http://www.w3.org/1999/XSL/Transform\">");

    for(String include: includes)
    {
      builder.append("<include href=\"");
      builder.append(include);
      builder.append("\"/>");
    }

    builder.append("</stylesheet>");

    return new StringReader(builder.toString());
  }

  /**
   * An xslt version. By default 2.0 is used.
   */
  private String version;

  /**
   * A list of includes.
   */
  private String[] includes;
}

To use it one just needs to write:

Source source = new XsltSource(base, stylesheets);
Templates templates = transformerFactory.newTemplates(source);
...

where:

  • base is a base uri for the generated stylesheet; it's used to resolve relative includes;
  • stylesheets is an array of hrefs.

Such implementation resembles a dynamic linking when separate parts are bound at runtime. We would like to see dynamic modules in the next version of xslt.

Thursday, November 13, 2008 11:26:50 AM UTC  #    Comments [0] -
Tips and tricks | xslt
# Tuesday, November 4, 2008

Why we've turned our attention to the Saxon implementation?

A considerable part (~75%) of project we're working on at present is creating xslt(s). That's not stylesheets to create page presentations, but rather project's business logic. To fulfill the project we were in need of xslt 2.0 processor. In the current state of affairs I doubt someone can point to a good alternative to the Saxon implementation.

The open source nature of the SaxonB project and intrinsic curiosity act like a hook for such species like ourselves.

We want to say that we're rather sceptical observers of a code: the code should prove it have merits. Saxon looks consistent. It takes not too much time to grasp implementation concepts taking into account that the code routinely follows xpath/xslt/xquery specifications. These code observation and practice with live xslt tasks helped us to form an opinion on the Saxon itself. That's why we dare to critique it.

1. Compilation is fused with execution.

An xslt before being executed passes several stages including xpath data model, and a graph of expressions - objects implementing parts of runtime logic.

Expression graph is optimized to achieve better runtime performace. The optimization logic is distributed throughout the code, and in particular lives in expression objects. This means that expression completes two roles: runtime execution and optimization.

I would prefer to see a smaller and cleaner run time objects (expressions), and optimization logic separately. On the other hand I can guess why Michael Kay fused these roles: to ease lazy optimizations (at runtime).

2. Optimizations are xslt 1.0 by origin

This is like a heritage. There are two main techniques: cached sequences, and global indices of rooted nodes.

This might be enough in xslt 1.0, but in 2.0 where there are diverse set of types, where sequences extend node sets to other types, where sequences may logically be grouped by pairs, tripples, and so on, this is not enough.

XPath data model operates with sequences only (in math sense). On the other hand it defines many set based functions (operators) like: $a intersect $b, $a except $b, $a = $b, $a != $b. In these examples XPath sequences are better to consider as sets, or maps of items.

Other example: for $i in index-of($names, $name) return $values[$i], where $names as xs:string*, $values as element()* shows that a closure of ($names, $values) is in fact a map, and $names might be implemented as a composition of a sequence and a map of strings to indices.

There are other use case examples, which lead me to think that Saxon lacks set based operators. Global indices are poor substitution, which work for rooted trees only.

Again, I guess why Michael Kay is not implementing these operators: not everyone loads xslt with stressful tasks requiring these features. I think xslt is mostly used to render pages, and one rarely deviates from rooted trees.

In spite of the objections we think that Saxon is a good xslt 2.0 implementation, which unfortunately lacks competitors.

Tuesday, November 4, 2008 11:30:36 AM UTC  #    Comments [0] -
xslt
# Friday, October 17, 2008

We strongly object against persistence frameworks in their contemporary meaning. This includes a long row of names like Hibernate, Java Persistence API, LINQ, and others.

Consider how one of them describes itself:

...high performance object/relational persistence and query service... lets you develop persistent classes following object-oriented idiom - including association, inheritance, polymorphism, composition, and collections... allows you to express queries in its own portable SQL extension...

Sounds good, right?

We think not! Words "own" and "portable" regarding SQL are heard almost like antonyms. When one creates a unified language (a noble rush, opposed to a proprietary one (?)) she will inevitably adds a peer, increasing plurality in the family of languages.

Attempts to create similar layers between data and business logic are not new. This happens throughout the computer history. IDMS, NATURAL, COOL:GEN these are 20-30 years old examples.

Our reasoning (nothing new).

One need to approach to a design (development and maintainance) from different perspectives, thus she will understand the question under the design better, and will estimate skills to accomplish the problem. This will lead to a modularization e.g: business layer, data layer, appearance; and to development (maintainance) roles: program developer, database specialist, appearance speciaist. On a small scale several roles are often fulfilled with one person; this should not mean, however, that these roles are redundant, one just need to try on different roles.

Why does one separate business layer and data layer?

Pragmatic perspective. There are databases, which may accomplish most of data storage tasks in a more efficient way than one may achieve without database. There are two worlds of database specialists and program developers. These two layers and roles are facts of reality.

A desiner's goal is to keep these roles separate:

  • do not force a database specialist to know the business logic details;
  • do not force a program developer to know details on how to organize a storage in more efficient way, or on how to optimize a particular query;

Modularity helps here. Databases are well equipped to solve these tasks: the data layer should expose a database API through stored procedures, functions, and views, while the business layer should use this API to access the database.

With persistence frameworks there are two alterantives:

  1. still use data layer API;
  2. rely on a persistence framework.

When the first case is selected then a framework provides almost no aditional value comparing to traditional database access (jdbc, ado.net, an so on).

When one relies on a framework then a data layer interface virtually disappears (in fact a framework substitutes this interface). Database specialist has very little control over tuning the data structure, and optimizing queries, unless she starts digging in the business code but even then she always cannot control queries to the database. Moreover database specialist must learn a proprietary query language.

Result is that a persistence framework erodes a division of responsibilities, complicating development and maintainance.

We often hear a following explanation on why one should use Persistence Frameworks: "It eases database vendor switch". This is the most stupid reason to use Persistence Frameworks! It looks as if they plan to switch vendors once a day.

A design needs to focus on a modularity. This will make code more robust, faster and maintainable. This also eases potential migration process, as the data layer should be migrated only, with minimal (mostly configurational) changes in the business layer.

Friday, October 17, 2008 7:57:28 PM UTC  #    Comments [2] -
Tips and tricks
# Saturday, September 27, 2008

We are certain xslt/xquery are the best for web application frameworks from the design perspective; or, in other words, pipeline frameworks allowing use of xslt/xquery are preferable way to create web applications.

Advantages are obvious:

  • clear separation of business logic, data, and presentation;

  • richness of languages, allowing to implement simple presentation, complex components, and sophisticated data binding;

  • built-in extensibility, allowing comunication with business logic, written in other languages and/or located at different site.

It seems the agitation for a such technologies is like to force an open door. There are such frameworks out there: Orbeon Forms, Cocoon, and others. We're not qualified to judge of their virtues, however...

Look at the current state of affairs. The main players in this area (well, I have a rather limited vision) push other technologies: JSP/JSF/Faceletes and alike in the Java world, and ASP.NET in the .NET world. The closest thing they are providing is xslt servlet/component allowing to generate an output.

Their variants of syntaxis, their data binding techniques allude to similar paradigms in xslt/xquery:

<select>
  <c:forEach var="option" items="#{bean.options}">
    <option value="#{option.key}">#{parameter.value}</option>
  </c:forEach>
</select>

On the surface, however, we see much more limited (in design and in the application) frameworks.

And here is a contradiction: how can it be that at present such a good design is not as popular, as its competitors, at least?

Someone can say, there is no such a problem. You can use whatever you want. You have a choice! Well, he's lucky. From our perspective it's not that simple.

We're creating rather complex web applications. Their nature isn't important in this context, but what is important is that there are customers. They are not thoroughly enlightened in the question, and exactly because of this they prefer technologies proposed by leaders. It seems, everything convince them: main stream, good support, many developers who know technology.

There is no single chance to promote anything else.

We believe that the future may change this state, but we're creating at present, and cannot wait...

Saturday, September 27, 2008 10:36:06 AM UTC  #    Comments [3] -
Tips and tricks | xslt
# Tuesday, September 16, 2008

I've uploaded jxom.zip

Now, it contains a state machine generator. See "What you can do with jxom".

The code is in the java-state-machine-generator.xslt. The test is in the java-state-machine-test.xslt.

Tuesday, September 16, 2008 11:02:09 AM UTC  #    Comments [0] -
xslt
# Monday, September 8, 2008

Java has no value types: objects allocated inplace, in contrast to objects referred by a pointer in the heap. This, in my opinion, has a negative impact on a program design and on a performance.

Incidentally, I've thought of a use case, which can be understood as a value type by the jvm implementations. Consider an example:

class A
{
  private final B b = new B();
}

Implementation may layout class A, in a way that field b will be a content of an instance of class B itself rather than a pointer to an instance of a class B. This way we save a pointer and a heap allocation of instance B. Another example:

class C
{
  C(int size)
  {
    values = new D[size];

    for(int i = 0; i < values.length; i++)
    {
      values[i] = new D();
    }
  }

  private final D[] values;
}

Here field values is never a null and each item of array contains a non null value. Assuming these conditions are kept for a whole life cycle, and values are not passed by reference, we can consider values as an array of value types.

A use case conditions are following:

  • a field contains a non null value;
  • the field value is an instance of the field type and not descendant type;
  • if the field is an array, then all elements of the array are initialized with instances of element type, and not descendant type.
  • the field or an element of the array can be assigned through the operator new only (field = new T(), array[i] = new T());
  • the array field is not passed by reference (Arrays.sort(array) never happens).

JIT's allowed to interpret a field as a value type provided it proves these conditions.

Later...

There is another use case to detect value types:

  • a method variable contains no null value, and
  • that variable is never stored in any field, and
  • no synchronization is used on the instance of value in variable, and
  • a value to the variable is assigned through the operator new only.

A variable can be layed out directly onto the stack, provided a preceding conditions are satisfied.

P.S. In spite that .NET has built in value types, it may use the very same technique to optimize reference types.

Monday, September 8, 2008 8:01:51 AM UTC  #    Comments [0] -
Tips and tricks
# Friday, September 5, 2008

We're facing a task of conversion of a java method into a state machine. This is like to convert a SAX Parser, pushing data, into an Xml Reader, which pulls data.

The task is formalized as:

  • for a given method containing split markers create a class perimitting iteration;
  • each iteration performs part of a logic of a method.

We have defined rules converting all statements into a state machine except of the statement synchronized. In fact the logic is rather linear, however the most untrivial conversion is for try statement. Consider an example:

public class Test
{
  void method()
    throws Exception
  {
    try
    {
      A();
      B();
    }
    catch(Exception e)
    {
      C(e);
    }
    finally
    {
      D();
    }

    E();
  }

  private void A()
    throws Exception
  {
    // logic A
  }

  private void B()
    throws Exception
  {
    // logic B
  }

  private void C(Exception e)
    throws Exception
  {
    // logic C
  }

  private void D()
    throws Exception
  {
    // logic D
  }

  private void E()
    throws Exception
  {
    // logic E
  }
}

Suppose we want to see method() as a state machine in a way that split markers are after calls to methods A(), B(), C(), D(), E(). This is how it looks as a state machine:

Callable<Boolean> methodAsStateMachine()
  throws Exception
{
  return new Callable<Boolean>()
  {
    public Boolean call()
      throws Exception
    {
      do
      {
        try
        {
          switch(state)
          {
            case 0:
            {
              A();
              state = 1;

              return true;
            }
            case 1:
            {
              B();
              state = 3;

              return true;
            }
            case 2:
            {
              C(ex);
              state = 3;

              return true;
            }
            case 3:
            {
              D();

              if (currentException != null)
              {
                throw currentException;
              }

              state = 4;

              return true;
            }
            case 4:
            {
              E();
              state = -1;

              return false;
            }
          }

          if (currentException == null)
          {
            currentException = new IllegalStateException();
          }
        }
        catch(Throwable e)
        {
          currentException = null;

          switch(state)
          {
            case 0:
            case 1:
            {
              if (e instanceof Exception)
              {
                ex = (Exception)e;
                state = 2;
              }
              else
              {
                currentException = e;
                state = 3;
              }

              continue;
            }
            case 2:
            {
              currentException = e;
              state = 3;

              continue;
            }
          }

          currentException = e;
          state = -1;
        }
      }
      while(false);

      return this.<Exception>error();
    }

    @SuppressWarnings("unchecked")
    private <T extends Throwable> boolean error()
      throws T
    {
      throw (T)currentException;
    }

    private int state = 0;
    private Throwable currentException = null;
    private Exception ex = null;
  };
}

Believe it, or not but this transformation can be done purely in xslt 2.0 with the help of the jxom (Java xml object model). We shall update jxom.zip whenever this module will be implemented and tested.

Friday, September 5, 2008 3:39:50 PM UTC  #    Comments [0] -
xslt
# Wednesday, September 3, 2008

In the xslt one can express logically the same things in different words like:

  exists($x)
and
  every $y in $x satisfies exists($y)

newbie> Really the same?
expert> Ops... You're right, these are different things!

What's the difference?

Wednesday, September 3, 2008 12:34:06 PM UTC  #    Comments [0] -
xslt
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