In this document we'll describe lxml's SAX support. lxml has support for producing SAX events for an ElementTree or Element. lxml can also turn SAX events into an ElementTree. The SAX API used by lxml is compatible with that in the Python core (xml.sax), so is useful for interfacing lxml with code that uses the Python core SAX facilities.
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First of all, lxml has support for building a new tree given SAX events. To do this, we use the special SAX content handler defined by lxml named lxml.sax.ElementTreeContentHandler:
>>> import lxml.sax >>> handler = lxml.sax.ElementTreeContentHandler()
Now let's fire some SAX events at it:
>>> handler.startElementNS((None, 'a'), 'a', {}) >>> handler.startElementNS((None, 'b'), 'b', {(None, 'foo'): 'bar'}) >>> handler.characters('Hello world') >>> handler.endElementNS((None, 'b'), 'b') >>> handler.endElementNS((None, 'a'), 'a')
This constructs an equivalent tree. You can access it through the etree property of the handler:
>>> tree = handler.etree >>> lxml.etree.tostring(tree.getroot()) b'<a><b foo="bar">Hello world</b></a>'
By passing a makeelement function the constructor of ElementTreeContentHandler, e.g. the one of a parser you configured, you can determine which element class lookup scheme should be used.
Let's make a tree we can generate SAX events for:
>>> f = StringIO('<a><b>Text</b></a>') >>> tree = lxml.etree.parse(f)
To see whether the correct SAX events are produced, we'll write a custom content handler.:
>>> from xml.sax.handler import ContentHandler >>> class MyContentHandler(ContentHandler): ... def __init__(self): ... self.a_amount = 0 ... self.b_amount = 0 ... self.text = None ... ... def startElementNS(self, name, qname, attributes): ... uri, localname = name ... if localname == 'a': ... self.a_amount += 1 ... if localname == 'b': ... self.b_amount += 1 ... ... def characters(self, data): ... self.text = data
Note that it only defines the startElementNS() method and not startElement(). The SAX event generator in lxml.sax currently only supports namespace-aware processing.
To test the content handler, we can produce SAX events from the tree:
>>> handler = MyContentHandler() >>> lxml.sax.saxify(tree, handler)
This is what we expect:
>>> handler.a_amount 1 >>> handler.b_amount 1 >>> handler.text 'Text'
lxml.sax is a simple way to interface with the standard XML support in the Python library. Note, however, that this is a one-way solution, as Python's DOM implementation connot generate SAX events from a DOM tree.
You can use xml.dom.pulldom to build a minidom from lxml:
>>> from xml.dom.pulldom import SAX2DOM >>> handler = SAX2DOM() >>> lxml.sax.saxify(tree, handler)
PullDOM makes the result available through the document attribute:
>>> dom = handler.document >>> print(dom.firstChild.localName) a