Since some people seem to be actually reading this and some progress has been made, I thought I'd give a report of what's been happening with lxml.
Since last week, I've added a lot more of the ElementTree API, such as the .find() function and friends, by directly using the code from ElementTree.
I actually am running the ElementTree and cElementTree test suites now. I still need to disable some tests, but a significant fraction is indeed running.
I've improved the way libxml2's parser functionality gets used, in order to implement libxml2's top-level parse() function.
I've added XPath support to lxml.etree! An example of what you can do:
>>> from lxml import etree >>> tree = etree.parse('ot.xml') >>> tree.xpath('(//v)/text()') [u'And God called the light Day, and the darkness he called Night. And the evening and the morning were the first day.\n']
or, say, this, modifying the elements returned:
>>> result = tree.xpath('(//v)') >>> result.text = 'The day and night verse.' >>> tree.xpath('(//v)/text()') [u'The day and night verse.']
I've added the start of XSLT support to lxml.etree. An example:
test.xslt <xsl:stylesheet version="1.0" xmlns:xsl="http://www.w3.org/1999/XSL/Transform"> <xsl:template match="*" /> <xsl:template match="/"> <day><xsl:value-of select="(//v)" /></day> </xsl:template> </xsl:stylesheet> >>> from lxml import etree >>> style_xml= etree.parse('test.xslt') >>> style = etree.XSLT(style_xml) >>> ot = etree.parse('ot.xml') >>> result = style.apply(ot) >>> style.tostring(result) u'<?xml version="1.0"?>\n<day>And God called the light Day, and the darkness he called Night. And the evening and the morning were the first day.\n</day>\n' >>> result.getroot().tag u'day'
A note about performance. I've been in a mail discussion with Fredrik Lundh, the originator of ElementTree, over the past week, doing some performance comparisons.
libxml2 is fast, but a bit of my thunder was stolen away by Fredrik when he released cElementTree. cElementTree is certainly no slacker either, and in some cases even beats the snot out of lxml. Fredrik deserves plenty of kudos for that. A bit of a bummer for me though. :)
In my measurements (your mileage may vary), cElementTree's parsing is about as fast as lxml at parsing jobs. This on the same benchmark Fredrik's been using. cElementTree is more memory efficient though, though lxml.etree is still better than ElementTree and many other Python/XML tools.
Somewhat to my disappointment, cElementTree and even ElementTree are right now a lot faster at .find() and friends than lxml.etree. Since they all use the same Python implementation, this means that lxml.etree's implementation of the ElementTree API is in some ways quite a bit slower than Fredrik's Python implementation! Thinking about it more, this is not a big surprise, as lxml.etree does a lot of heavy lifting to make sure the underlying libxml2 tree is exposed with an ElementTree API, and in addition has to worry about doing memory management with these structures.
All is not lost however; lxml has xpath! libxml2's xpath is pretty fast; while more slow than (c)ElementTree's .findall() in some cases, it's a lot more powerful as well, being a full xpath implementation.
Finally, XSLT seems pretty fast. In a simple test program, I can do a 1000 XSLT transformations in a few seconds, including a reparse of the XSLT stylesheet and document to transform, although granted this was done with a small document.
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