I'm doing what looks like a fairly simple project to upgrade an XSLT 1.0 stylesheet. It's XSLT 1.0 because it has to run in the browser, but fortunately it doesn't really need any 2.0 features. The old version of the stylesheet worked with XML files in format A, described by a DTD. The new version of the stylesheet has to produce the same HTML output, but this time from XML files in format B, described by an XSD schema. The stylesheet is about 650 lines long. A quick visual inspection of the XML files reveals that the two formats are very similar: clearly format B is a revised design of format A, but it's not immediately clear what the differences are.
How do we go about this project? I'll report progress here as I go along, no doubt there will be mistakes along the way but I hope they will be instructive.
First, format B uses a namespace while format A didn't. So the first thing to do is add a prefix to every element name in a pattern or path expression. Tediously, by hand, because I can't think of any way of automating it that will take less than the 20 minutes it takes to do it manually. It would be nice to use XSLT 2.0's default-xpath-namespace attribute, but our hands are tied.
Of course, there's a big risk I miss some names, and the likely consequence will be missing output in the HTML, which is going to be hard to track down. So I decide to (temporarily) make the stylesheet schema-aware, in the hope that some of the bad path expressions will be detected at compile time. I change all the match patterns from, for example match="abc" to match="schema-element(p:abc)".
First run through Saxon. A couple of silly syntax errors, of course; then some errors from the schema analysis.
There are five errors of the form:
XPST0008: XSLT Pattern syntax error at char 31 on line 260 in {...lement(p:abc)/p:h...}:
There is no declaration for element <p:abc> in an imported schema
In all cases these turn out to be because the element declaration in the schema is local. But fortunately in each case the type of the element is global, so schema-element(p:abc) can be replaced by element(p:abc,p:abcType).
The stylesheet now compiles with no errors, but with half a dozen warnings of the form "The complex type of element ABC does not allow a child element named PQR".
Now things start to get interesting. Let's take the first of these. It's true enough: the schema doesn't allow such an element. It's mentioned only once in the stylesheet, in a match pattern. Perhaps this is dead code, and the rule was never fired? Or perhaps the child element has been renamed? So we go to the DTD: we're in luck, it tells us that element PQR has been deprecated. So it seems they dropped support for it when they wrote the XSD, which means we can remove this rule from the stylesheet. We know the element won't appear in an instance because we know the instances are valid against the schema (well, we hope they are...).
The next warning turns out to be an error introduced when I added prefixes. Instead of changing a/fred to p:a/p:fred, I had changed it to p:a/p:red. Thanks, schema aware processor, you spotted my error.
The next one is similar, but this time I had forgotten to add the prefix to one of the element names in a long path.
And the fourth warning is the same kind of mistake as the second.
The stylesheet now compiles without any errors or warnings (that was easier than I expected!). But it gives a runtime error: "When 'standalone' or 'doctype-system' is specified, the document must be well-formed; but this document contains a top-level text node". It took me about 20 seconds to work out what that really means: Silly me, I forgot to validate the source document, so it didn't match the root template which I had changed from match="/" to match="document-node(schema-element(p:abc))". Ran again with -val:strict on the command line. This time we get no errors or warnings, and it produces HTML output. However, a quick visual check reveals there are quite a few chunks of text missing from the output.
A quick thought: I had left the stylesheet version as "1.0". Type checking is stricter in 2.0 mode, so I try switching it to 2.0 and running again. No difference. But it was worth a try.
Let's see if I can identify the cause of one of the bits of missing HTML by hand, and then see if there's a general approach to solving the others. The first thing that's missing is a line that says "Processed by Jane Doe, 2007". Does Jane Doe appear in the (new format) source XML? No, she doesn't. Does she appear in the old format XML? Yes, she does.
So, if there's information that's in the old XML but not in the new, then I'm not going to be able to produce the identical HTML, which puts a slight spanner in the works as regards how I was proposing to test it. Time to report back to the client.
To be continued.
One way forward might be to run the old stylesheet against the old XML in Stylus Studio, and use back-mapping to identify which part of the stylesheet generated the HTML that's missing from the new output. I'll keep that plan in reserve. First I'm going to see what I can do with Saxon directly (because it's always best when possible to use the tools that sit most comfortably in your hands.) I'm going to try running both the (oldXML+oldXSLT) and the (newXML+newXSLT) in Saxon with trace output (-T), and see how the traces compare.
(Shame that Saxon doesn't provide any way on the command line of sending -T output to a file.)
Interesting: the old trace is 116,000 lines long, the new trace only 350!
In both cases the output of literal result elements isn't being traced. I'm seeing the attributes, but not the elements. That would appear to be a bug in Saxon 9.2. I'll stack that for processing later.
First discrepancy in the trace is where the stylesheet selects the path ead/frontmatter/titlepage/titleproper: this is selecting something in the old document, but the converted path selects nothing in the new. Looking at the new XML, the relevant text is now at ead/eadheader/filedesc/titlestmt/titleproper. So rather than just fixing the path, I need to ask why was this path accepted by the static analysis against the schema, which was supposed to spot such things? Looking at the schema, it seems that the frontmatter element is permitted by the schema, even though it's not used in our XML instances. It looks as if it's been left in there for backwards compability.
This makes me feel that perhaps I should generate a new schema from the instances. I've asked the client for a larger collection of instances than I'm working with at the moment, so I'll defer that task until they arrive. Meanwhile, I'll just comment out the reference to frontmatter in the schema, and see what happens.
I expected lots of warnings from stylesheet compilation but there were none. Ah! I'm loading the schema from the web, not from the local copy I edited. Now I get 7 warnings of the form
Warning: on line 12 of abcdef.xsl:
The complex type of element ead does not allow a child element named frontmatter
Good: I can now look at these six path expressions and work out where the data has moved to in the new document. (After doing this, I realise I could simply have looked for all occurrences of "frontmatter" in the stylesheet. Perhaps I was being too clever. But it took no longer, and was more rigorous.)
Umm. The titleproper element is mixed content. In the old document we find
<titleproper encodinganalog="title">Guide to Bananas, <date>1942-2002</date></titleproper>
<num>MS2144</num>
whereas the new document has
<titleproper>Guide to Bananas,
<date calendar="gregorian" era="ce">1942-2002</date>
<num>MS2144</num>
</titleproper>
That seems an odd change, the way <num> appears in the mixed content text without any punctuation. I don't really understand why it's been coded this way, but I'll just be pragmatic: change the value-of to an apply-templates, and have a template rule for titleproper/num that skips this content.
One of the paths that has to be changed is tricky ("sponsor") because it doesn't match anything in the old instance document. But the DTD allows it, and there's a similar element in the new schema, so I'll take a risk here by changing the code even though I don't have any data to test it against.
There's some trickiness because an element(did/head) appears in the old XML with a standard value ("Description"), but doesn't appear in the new XML. This would be easy enough to deal with, except that the element is being used (a) to generate an ID for use in the table of contents, and (b) its presence is triggering some conditional logic. So I'm forced to try and understand what is going on here... Ah: a wonderful bit of obfuscated logic: there's an apply-templates select="did/head", which itself does an apply-templates select="../*[@label]", so the whole section isn't processed if there's no head child. Moreover, the schema-aware stylesheet analysis has let me down here: it isn't clever enough to spot that "../*[@label]" will select nothing in the new schema, because the @label attribute has disappeared, being replaced by a more descriptive element name.
(I'm running out of screen space. I've got two high-res screens in front of me, one with this blog plus old and new HTML, one with the text editor showing old and new XML and XSL. I need more.)
I don't have an (old) instance document in which the element is absent, so I don't
really understand what's supposed to happen in this case.
I've now recast a section of the stylesheet by hand to cope with the structural changes in the source XML, and I've realised that I got very little help from the schema. The reason is that the schema is too permissive - it allows many parts of the "old" XML format that aren't actually being used any more. So, into Stylus Studio, to generate a new schema from the instance document. This one will only describe what's actually there. Then recompile the stylesheet with this new more restrictive schema.
Bingo. We now have a screenful of errors and warnings. Unfortunately the errors are bogus: they relate to the patterns such as element(e:abc, e:abcType) that we introduced earlier. The schema generated by Stylus Studio, of course, has not used the same type names. In fact, it's made all the element declarations global, so we can go back to using schema-element(e:abc).
Three errors remain, these relate to template rules that match elements which don't appear in the instance document. We'll comment these out for now.
This leaves 25 warnings of the form "The complex type of XXX does not allow a child element named YYY" - and then it says "No more warnings will be displayed", because Saxon stops after 25. (No option to change that, sadly). So at last, we've got some concrete indication, without having to inspect the output by eye, of where the paths are that need changing.
Some of them, oddly, are on "line 0". From experience, the only way to fix poor Saxon diagnostics is to do it immediately, while you've got the incorrect stylesheet to play with. So it's into the IntelliJ IDE to discover why it hasn't got a line number for these paths. It turns out this is a bug that has been there "for ever": the line number information isn't being set on the subsidiary patterns in a location path pattern, for example the pattern representing the a/b part of a/b/c. That's done, unwind the stack.
Quite a lot of the incorrect paths are going via an element descgrp which serves merely to group a rather arbitrary collection of properties.
(to be continued)
It's now largely a question of hard slog debugging. Despite best efforts, in the end you have to look at the HTML and try to understand why it's different.
I made use of the -T tracing option in Saxon to good effect to see which template rules were firing. There should probably be an option that ONLY shows you which template rules are firing. I had to fix the 9.2 bug whereby insufficient trace was being output, and in the course of this I found another usability problem: when running within IntelliJ, you can't use the usual 2> option to redirect standard error output, and there's no Saxon option to send the output to a file, so it wasn't possible to capture the output. Fixed that by overloading the -traceout option.
The output is now fairly close to what's required. I decide to change the default template rule to display unmatched elements in red, so I can make sure that all elements in the input XML are handled by explicit template rules. This reveals some elements that aren't being matched. I'm puzzled as to why, so I add a call on saxon:stack-trace() to show where the fallback template rule is being called from. Unfortunately it turns out saxon:stack-trace() isn't working properly in Saxon 9.2, so I fix it.
That resolves the problem in the stylesheet: a simple error in a match pattern.
I've split some very large templates in the stylesheet into smaller units (using call-template) to make the code more readable and maintainable. I noticed that in doing this, we lose some static type-checking. There's no way in XSLT 2.0 to declare the expected context item type of a named template: I've added an enhancement suggestion to do this in 2.1. However, it might be possible in Saxon to extend the type checking from a call-template to the template that is invoked.
From here on, it was largely a process of refinement. I had to abandon making the HTML 100% compatible with the previous version, for a number of reasons: one was that there was data that wasn't properly formatted in the old version, and reproducing the old bugs was going to be too difficult! I've handed over a stylesheet that does the job adequately on the test data currently available, but it's clear that as more documents are added to the test pool, further refinement will be needed. The stylesheet probably only handles about 50% of the elements that are permitted by the schema, and a big question is whether that will also be true of the final population of instance documents. If so, good software engineering would probably demand creation of a restricted schema that all the instance documents are expected to conform to, and testing that the stylesheet can handle all instances of that restricted schema.
Even though this was simple XSLT 1.0 programming, it was a useful exercise. It flushed out several weaknesses in Saxon's diagnostics, proving how important it is that those who develop software products should also occasionally use them in anger to solve real problems. (All too often, especially in big companies, this never happens: I've known cases where the product developers wouldn't have the faintest idea where to start.) It also generated a number of ideas for new features that could aid this kind of task.
Using the schema-awareness capabilities was useful, but not the whole answer. It's too much effort to take advantage of schema-awareness and achieve rigorous static type checking of path expressions, and even then, many paths such as ../@code aren't checked (only downwards paths are analyzed). Also, while the static checking gives assurance that the paths in the stylesheet are capable of selecting something, there's no analysis of how complete the coverage is. It would be nice to know at compile time, rather than at run-time, that an apply-templates can select elements for which there is no template rule.
That's all for now. Sorry it was rather disjointed, but I thought it might be interesting to report progress as it happened, rather than giving a sanitised version later!
One final point: I underestimated the size of the task quite considerably. I thought I could do it comfortably in about 15 hours but it's taken more like 30.