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|
:mod:`xml.etree.ElementTree` --- The ElementTree XML API
========================================================
.. module:: xml.etree.ElementTree
:synopsis: Implementation of the ElementTree API.
.. moduleauthor:: Fredrik Lundh <fredrik@pythonware.com>
.. versionadded:: 2.5
**Source code:** :source:`Lib/xml/etree/ElementTree.py`
--------------
The :class:`Element` type is a flexible container object, designed to store
hierarchical data structures in memory. The type can be described as a cross
between a list and a dictionary.
.. warning::
The :mod:`xml.etree.ElementTree` module is not secure against
maliciously constructed data. If you need to parse untrusted or
unauthenticated data see :ref:`xml-vulnerabilities`.
Each element has a number of properties associated with it:
* a tag which is a string identifying what kind of data this element represents
(the element type, in other words).
* a number of attributes, stored in a Python dictionary.
* a text string.
* an optional tail string.
* a number of child elements, stored in a Python sequence
To create an element instance, use the :class:`Element` constructor or the
:func:`SubElement` factory function.
The :class:`ElementTree` class can be used to wrap an element structure, and
convert it from and to XML.
A C implementation of this API is available as :mod:`xml.etree.cElementTree`.
See http://effbot.org/zone/element-index.htm for tutorials and links to other
docs. Fredrik Lundh's page is also the location of the development version of
the xml.etree.ElementTree.
.. versionchanged:: 2.7
The ElementTree API is updated to 1.3. For more information, see
`Introducing ElementTree 1.3
<http://effbot.org/zone/elementtree-13-intro.htm>`_.
Tutorial
--------
This is a short tutorial for using :mod:`xml.etree.ElementTree` (``ET`` in
short). The goal is to demonstrate some of the building blocks and basic
concepts of the module.
XML tree and elements
^^^^^^^^^^^^^^^^^^^^^
XML is an inherently hierarchical data format, and the most natural way to
represent it is with a tree. ``ET`` has two classes for this purpose -
:class:`ElementTree` represents the whole XML document as a tree, and
:class:`Element` represents a single node in this tree. Interactions with
the whole document (reading and writing to/from files) are usually done
on the :class:`ElementTree` level. Interactions with a single XML element
and its sub-elements are done on the :class:`Element` level.
.. _elementtree-parsing-xml:
Parsing XML
^^^^^^^^^^^
We'll be using the following XML document as the sample data for this section:
.. code-block:: xml
<?xml version="1.0"?>
<data>
<country name="Liechtenstein">
<rank>1</rank>
<year>2008</year>
<gdppc>141100</gdppc>
<neighbor name="Austria" direction="E"/>
<neighbor name="Switzerland" direction="W"/>
</country>
<country name="Singapore">
<rank>4</rank>
<year>2011</year>
<gdppc>59900</gdppc>
<neighbor name="Malaysia" direction="N"/>
</country>
<country name="Panama">
<rank>68</rank>
<year>2011</year>
<gdppc>13600</gdppc>
<neighbor name="Costa Rica" direction="W"/>
<neighbor name="Colombia" direction="E"/>
</country>
</data>
We have a number of ways to import the data. Reading the file from disk::
import xml.etree.ElementTree as ET
tree = ET.parse('country_data.xml')
root = tree.getroot()
Reading the data from a string::
root = ET.fromstring(country_data_as_string)
:func:`fromstring` parses XML from a string directly into an :class:`Element`,
which is the root element of the parsed tree. Other parsing functions may
create an :class:`ElementTree`. Check the documentation to be sure.
As an :class:`Element`, ``root`` has a tag and a dictionary of attributes::
>>> root.tag
'data'
>>> root.attrib
{}
It also has children nodes over which we can iterate::
>>> for child in root:
... print child.tag, child.attrib
...
country {'name': 'Liechtenstein'}
country {'name': 'Singapore'}
country {'name': 'Panama'}
Children are nested, and we can access specific child nodes by index::
>>> root[0][1].text
'2008'
Finding interesting elements
^^^^^^^^^^^^^^^^^^^^^^^^^^^^
:class:`Element` has some useful methods that help iterate recursively over all
the sub-tree below it (its children, their children, and so on). For example,
:meth:`Element.iter`::
>>> for neighbor in root.iter('neighbor'):
... print neighbor.attrib
...
{'name': 'Austria', 'direction': 'E'}
{'name': 'Switzerland', 'direction': 'W'}
{'name': 'Malaysia', 'direction': 'N'}
{'name': 'Costa Rica', 'direction': 'W'}
{'name': 'Colombia', 'direction': 'E'}
:meth:`Element.findall` finds only elements with a tag which are direct
children of the current element. :meth:`Element.find` finds the *first* child
with a particular tag, and :attr:`Element.text` accesses the element's text
content. :meth:`Element.get` accesses the element's attributes::
>>> for country in root.findall('country'):
... rank = country.find('rank').text
... name = country.get('name')
... print name, rank
...
Liechtenstein 1
Singapore 4
Panama 68
More sophisticated specification of which elements to look for is possible by
using :ref:`XPath <elementtree-xpath>`.
Modifying an XML File
^^^^^^^^^^^^^^^^^^^^^
:class:`ElementTree` provides a simple way to build XML documents and write them to files.
The :meth:`ElementTree.write` method serves this purpose.
Once created, an :class:`Element` object may be manipulated by directly changing
its fields (such as :attr:`Element.text`), adding and modifying attributes
(:meth:`Element.set` method), as well as adding new children (for example
with :meth:`Element.append`).
Let's say we want to add one to each country's rank, and add an ``updated``
attribute to the rank element::
>>> for rank in root.iter('rank'):
... new_rank = int(rank.text) + 1
... rank.text = str(new_rank)
... rank.set('updated', 'yes')
...
>>> tree.write('output.xml')
Our XML now looks like this:
.. code-block:: xml
<?xml version="1.0"?>
<data>
<country name="Liechtenstein">
<rank updated="yes">2</rank>
<year>2008</year>
<gdppc>141100</gdppc>
<neighbor name="Austria" direction="E"/>
<neighbor name="Switzerland" direction="W"/>
</country>
<country name="Singapore">
<rank updated="yes">5</rank>
<year>2011</year>
<gdppc>59900</gdppc>
<neighbor name="Malaysia" direction="N"/>
</country>
<country name="Panama">
<rank updated="yes">69</rank>
<year>2011</year>
<gdppc>13600</gdppc>
<neighbor name="Costa Rica" direction="W"/>
<neighbor name="Colombia" direction="E"/>
</country>
</data>
We can remove elements using :meth:`Element.remove`. Let's say we want to
remove all countries with a rank higher than 50::
>>> for country in root.findall('country'):
... rank = int(country.find('rank').text)
... if rank > 50:
... root.remove(country)
...
>>> tree.write('output.xml')
Our XML now looks like this:
.. code-block:: xml
<?xml version="1.0"?>
<data>
<country name="Liechtenstein">
<rank updated="yes">2</rank>
<year>2008</year>
<gdppc>141100</gdppc>
<neighbor name="Austria" direction="E"/>
<neighbor name="Switzerland" direction="W"/>
</country>
<country name="Singapore">
<rank updated="yes">5</rank>
<year>2011</year>
<gdppc>59900</gdppc>
<neighbor name="Malaysia" direction="N"/>
</country>
</data>
Building XML documents
^^^^^^^^^^^^^^^^^^^^^^
The :func:`SubElement` function also provides a convenient way to create new
sub-elements for a given element::
>>> a = ET.Element('a')
>>> b = ET.SubElement(a, 'b')
>>> c = ET.SubElement(a, 'c')
>>> d = ET.SubElement(c, 'd')
>>> ET.dump(a)
<a><b /><c><d /></c></a>
Parsing XML with Namespaces
^^^^^^^^^^^^^^^^^^^^^^^^^^^
If the XML input has `namespaces
<https://en.wikipedia.org/wiki/XML_namespace>`__, tags and attributes
with prefixes in the form ``prefix:sometag`` get expanded to
``{uri}sometag`` where the *prefix* is replaced by the full *URI*.
Also, if there is a `default namespace
<https://www.w3.org/TR/2006/REC-xml-names-20060816/#defaulting>`__,
that full URI gets prepended to all of the non-prefixed tags.
Here is an XML example that incorporates two namespaces, one with the
prefix "fictional" and the other serving as the default namespace:
.. code-block:: xml
<?xml version="1.0"?>
<actors xmlns:fictional="http://characters.example.com"
xmlns="http://people.example.com">
<actor>
<name>John Cleese</name>
<fictional:character>Lancelot</fictional:character>
<fictional:character>Archie Leach</fictional:character>
</actor>
<actor>
<name>Eric Idle</name>
<fictional:character>Sir Robin</fictional:character>
<fictional:character>Gunther</fictional:character>
<fictional:character>Commander Clement</fictional:character>
</actor>
</actors>
One way to search and explore this XML example is to manually add the
URI to every tag or attribute in the xpath of a
:meth:`~Element.find` or :meth:`~Element.findall`::
root = fromstring(xml_text)
for actor in root.findall('{http://people.example.com}actor'):
name = actor.find('{http://people.example.com}name')
print name.text
for char in actor.findall('{http://characters.example.com}character'):
print ' |-->', char.text
A better way to search the namespaced XML example is to create a
dictionary with your own prefixes and use those in the search functions::
ns = {'real_person': 'http://people.example.com',
'role': 'http://characters.example.com'}
for actor in root.findall('real_person:actor', ns):
name = actor.find('real_person:name', ns)
print name.text
for char in actor.findall('role:character', ns):
print ' |-->', char.text
These two approaches both output::
John Cleese
|--> Lancelot
|--> Archie Leach
Eric Idle
|--> Sir Robin
|--> Gunther
|--> Commander Clement
Additional resources
^^^^^^^^^^^^^^^^^^^^
See http://effbot.org/zone/element-index.htm for tutorials and links to other
docs.
.. _elementtree-xpath:
XPath support
-------------
This module provides limited support for
`XPath expressions <https://www.w3.org/TR/xpath>`_ for locating elements in a
tree. The goal is to support a small subset of the abbreviated syntax; a full
XPath engine is outside the scope of the module.
Example
^^^^^^^
Here's an example that demonstrates some of the XPath capabilities of the
module. We'll be using the ``countrydata`` XML document from the
:ref:`Parsing XML <elementtree-parsing-xml>` section::
import xml.etree.ElementTree as ET
root = ET.fromstring(countrydata)
# Top-level elements
root.findall(".")
# All 'neighbor' grand-children of 'country' children of the top-level
# elements
root.findall("./country/neighbor")
# Nodes with name='Singapore' that have a 'year' child
root.findall(".//year/..[@name='Singapore']")
# 'year' nodes that are children of nodes with name='Singapore'
root.findall(".//*[@name='Singapore']/year")
# All 'neighbor' nodes that are the second child of their parent
root.findall(".//neighbor[2]")
Supported XPath syntax
^^^^^^^^^^^^^^^^^^^^^^
.. tabularcolumns:: |l|L|
+-----------------------+------------------------------------------------------+
| Syntax | Meaning |
+=======================+======================================================+
| ``tag`` | Selects all child elements with the given tag. |
| | For example, ``spam`` selects all child elements |
| | named ``spam``, and ``spam/egg`` selects all |
| | grandchildren named ``egg`` in all children named |
| | ``spam``. |
+-----------------------+------------------------------------------------------+
| ``*`` | Selects all child elements. For example, ``*/egg`` |
| | selects all grandchildren named ``egg``. |
+-----------------------+------------------------------------------------------+
| ``.`` | Selects the current node. This is mostly useful |
| | at the beginning of the path, to indicate that it's |
| | a relative path. |
+-----------------------+------------------------------------------------------+
| ``//`` | Selects all subelements, on all levels beneath the |
| | current element. For example, ``.//egg`` selects |
| | all ``egg`` elements in the entire tree. |
+-----------------------+------------------------------------------------------+
| ``..`` | Selects the parent element. |
+-----------------------+------------------------------------------------------+
| ``[@attrib]`` | Selects all elements that have the given attribute. |
+-----------------------+------------------------------------------------------+
| ``[@attrib='value']`` | Selects all elements for which the given attribute |
| | has the given value. The value cannot contain |
| | quotes. |
+-----------------------+------------------------------------------------------+
| ``[tag]`` | Selects all elements that have a child named |
| | ``tag``. Only immediate children are supported. |
+-----------------------+------------------------------------------------------+
| ``[tag='text']`` | Selects all elements that have a child named |
| | ``tag`` whose complete text content, including |
| | descendants, equals the given ``text``. |
+-----------------------+------------------------------------------------------+
| ``[position]`` | Selects all elements that are located at the given |
| | position. The position can be either an integer |
| | (1 is the first position), the expression ``last()`` |
| | (for the last position), or a position relative to |
| | the last position (e.g. ``last()-1``). |
+-----------------------+------------------------------------------------------+
Predicates (expressions within square brackets) must be preceded by a tag
name, an asterisk, or another predicate. ``position`` predicates must be
preceded by a tag name.
Reference
---------
.. _elementtree-functions:
Functions
^^^^^^^^^
.. function:: Comment(text=None)
Comment element factory. This factory function creates a special element
that will be serialized as an XML comment by the standard serializer. The
comment string can be either a bytestring or a Unicode string. *text* is a
string containing the comment string. Returns an element instance
representing a comment.
.. function:: dump(elem)
Writes an element tree or element structure to sys.stdout. This function
should be used for debugging only.
The exact output format is implementation dependent. In this version, it's
written as an ordinary XML file.
*elem* is an element tree or an individual element.
.. function:: fromstring(text)
Parses an XML section from a string constant. Same as :func:`XML`. *text*
is a string containing XML data. Returns an :class:`Element` instance.
.. function:: fromstringlist(sequence, parser=None)
Parses an XML document from a sequence of string fragments. *sequence* is a
list or other sequence containing XML data fragments. *parser* is an
optional parser instance. If not given, the standard :class:`XMLParser`
parser is used. Returns an :class:`Element` instance.
.. versionadded:: 2.7
.. function:: iselement(element)
Checks if an object appears to be a valid element object. *element* is an
element instance. Returns a true value if this is an element object.
.. function:: iterparse(source, events=None, parser=None)
Parses an XML section into an element tree incrementally, and reports what's
going on to the user. *source* is a filename or file object containing XML
data. *events* is a list of events to report back. If omitted, only "end"
events are reported. *parser* is an optional parser instance. If not
given, the standard :class:`XMLParser` parser is used. *parser* is not
supported by ``cElementTree``. Returns an :term:`iterator` providing
``(event, elem)`` pairs.
.. note::
:func:`iterparse` only guarantees that it has seen the ">"
character of a starting tag when it emits a "start" event, so the
attributes are defined, but the contents of the text and tail attributes
are undefined at that point. The same applies to the element children;
they may or may not be present.
If you need a fully populated element, look for "end" events instead.
.. function:: parse(source, parser=None)
Parses an XML section into an element tree. *source* is a filename or file
object containing XML data. *parser* is an optional parser instance. If
not given, the standard :class:`XMLParser` parser is used. Returns an
:class:`ElementTree` instance.
.. function:: ProcessingInstruction(target, text=None)
PI element factory. This factory function creates a special element that
will be serialized as an XML processing instruction. *target* is a string
containing the PI target. *text* is a string containing the PI contents, if
given. Returns an element instance, representing a processing instruction.
.. function:: register_namespace(prefix, uri)
Registers a namespace prefix. The registry is global, and any existing
mapping for either the given prefix or the namespace URI will be removed.
*prefix* is a namespace prefix. *uri* is a namespace uri. Tags and
attributes in this namespace will be serialized with the given prefix, if at
all possible.
.. versionadded:: 2.7
.. function:: SubElement(parent, tag, attrib={}, **extra)
Subelement factory. This function creates an element instance, and appends
it to an existing element.
The element name, attribute names, and attribute values can be either
bytestrings or Unicode strings. *parent* is the parent element. *tag* is
the subelement name. *attrib* is an optional dictionary, containing element
attributes. *extra* contains additional attributes, given as keyword
arguments. Returns an element instance.
.. function:: tostring(element, encoding="us-ascii", method="xml")
Generates a string representation of an XML element, including all
subelements. *element* is an :class:`Element` instance. *encoding* [1]_ is
the output encoding (default is US-ASCII). *method* is either ``"xml"``,
``"html"`` or ``"text"`` (default is ``"xml"``). Returns an encoded string
containing the XML data.
.. function:: tostringlist(element, encoding="us-ascii", method="xml")
Generates a string representation of an XML element, including all
subelements. *element* is an :class:`Element` instance. *encoding* [1]_ is
the output encoding (default is US-ASCII). *method* is either ``"xml"``,
``"html"`` or ``"text"`` (default is ``"xml"``). Returns a list of encoded
strings containing the XML data. It does not guarantee any specific
sequence, except that ``"".join(tostringlist(element)) ==
tostring(element)``.
.. versionadded:: 2.7
.. function:: XML(text, parser=None)
Parses an XML section from a string constant. This function can be used to
embed "XML literals" in Python code. *text* is a string containing XML
data. *parser* is an optional parser instance. If not given, the standard
:class:`XMLParser` parser is used. Returns an :class:`Element` instance.
.. function:: XMLID(text, parser=None)
Parses an XML section from a string constant, and also returns a dictionary
which maps from element id:s to elements. *text* is a string containing XML
data. *parser* is an optional parser instance. If not given, the standard
:class:`XMLParser` parser is used. Returns a tuple containing an
:class:`Element` instance and a dictionary.
.. _elementtree-element-objects:
Element Objects
^^^^^^^^^^^^^^^
.. class:: Element(tag, attrib={}, **extra)
Element class. This class defines the Element interface, and provides a
reference implementation of this interface.
The element name, attribute names, and attribute values can be either
bytestrings or Unicode strings. *tag* is the element name. *attrib* is
an optional dictionary, containing element attributes. *extra* contains
additional attributes, given as keyword arguments.
.. attribute:: tag
A string identifying what kind of data this element represents (the
element type, in other words).
.. attribute:: text
tail
These attributes can be used to hold additional data associated with
the element. Their values are usually strings but may be any
application-specific object. If the element is created from
an XML file, the *text* attribute holds either the text between
the element's start tag and its first child or end tag, or ``None``, and
the *tail* attribute holds either the text between the element's
end tag and the next tag, or ``None``. For the XML data
.. code-block:: xml
<a><b>1<c>2<d/>3</c></b>4</a>
the *a* element has ``None`` for both *text* and *tail* attributes,
the *b* element has *text* ``"1"`` and *tail* ``"4"``,
the *c* element has *text* ``"2"`` and *tail* ``None``,
and the *d* element has *text* ``None`` and *tail* ``"3"``.
To collect the inner text of an element, see :meth:`itertext`, for
example ``"".join(element.itertext())``.
Applications may store arbitrary objects in these attributes.
.. attribute:: attrib
A dictionary containing the element's attributes. Note that while the
*attrib* value is always a real mutable Python dictionary, an ElementTree
implementation may choose to use another internal representation, and
create the dictionary only if someone asks for it. To take advantage of
such implementations, use the dictionary methods below whenever possible.
The following dictionary-like methods work on the element attributes.
.. method:: clear()
Resets an element. This function removes all subelements, clears all
attributes, and sets the text and tail attributes to None.
.. method:: get(key, default=None)
Gets the element attribute named *key*.
Returns the attribute value, or *default* if the attribute was not found.
.. method:: items()
Returns the element attributes as a sequence of (name, value) pairs. The
attributes are returned in an arbitrary order.
.. method:: keys()
Returns the elements attribute names as a list. The names are returned
in an arbitrary order.
.. method:: set(key, value)
Set the attribute *key* on the element to *value*.
The following methods work on the element's children (subelements).
.. method:: append(subelement)
Adds the element *subelement* to the end of this elements internal list
of subelements.
.. method:: extend(subelements)
Appends *subelements* from a sequence object with zero or more elements.
Raises :exc:`AssertionError` if a subelement is not a valid object.
.. versionadded:: 2.7
.. method:: find(match)
Finds the first subelement matching *match*. *match* may be a tag name
or path. Returns an element instance or ``None``.
.. method:: findall(match)
Finds all matching subelements, by tag name or path. Returns a list
containing all matching elements in document order.
.. method:: findtext(match, default=None)
Finds text for the first subelement matching *match*. *match* may be
a tag name or path. Returns the text content of the first matching
element, or *default* if no element was found. Note that if the matching
element has no text content an empty string is returned.
.. method:: getchildren()
.. deprecated:: 2.7
Use ``list(elem)`` or iteration.
.. method:: getiterator(tag=None)
.. deprecated:: 2.7
Use method :meth:`Element.iter` instead.
.. method:: insert(index, element)
Inserts a subelement at the given position in this element.
.. method:: iter(tag=None)
Creates a tree :term:`iterator` with the current element as the root.
The iterator iterates over this element and all elements below it, in
document (depth first) order. If *tag* is not ``None`` or ``'*'``, only
elements whose tag equals *tag* are returned from the iterator. If the
tree structure is modified during iteration, the result is undefined.
.. versionadded:: 2.7
.. method:: iterfind(match)
Finds all matching subelements, by tag name or path. Returns an iterable
yielding all matching elements in document order.
.. versionadded:: 2.7
.. method:: itertext()
Creates a text iterator. The iterator loops over this element and all
subelements, in document order, and returns all inner text.
.. versionadded:: 2.7
.. method:: makeelement(tag, attrib)
Creates a new element object of the same type as this element. Do not
call this method, use the :func:`SubElement` factory function instead.
.. method:: remove(subelement)
Removes *subelement* from the element. Unlike the find\* methods this
method compares elements based on the instance identity, not on tag value
or contents.
:class:`Element` objects also support the following sequence type methods
for working with subelements: :meth:`~object.__delitem__`,
:meth:`~object.__getitem__`, :meth:`~object.__setitem__`,
:meth:`~object.__len__`.
Caution: Elements with no subelements will test as ``False``. This behavior
will change in future versions. Use specific ``len(elem)`` or ``elem is
None`` test instead. ::
element = root.find('foo')
if not element: # careful!
print "element not found, or element has no subelements"
if element is None:
print "element not found"
.. _elementtree-elementtree-objects:
ElementTree Objects
^^^^^^^^^^^^^^^^^^^
.. class:: ElementTree(element=None, file=None)
ElementTree wrapper class. This class represents an entire element
hierarchy, and adds some extra support for serialization to and from
standard XML.
*element* is the root element. The tree is initialized with the contents
of the XML *file* if given.
.. method:: _setroot(element)
Replaces the root element for this tree. This discards the current
contents of the tree, and replaces it with the given element. Use with
care. *element* is an element instance.
.. method:: find(match)
Same as :meth:`Element.find`, starting at the root of the tree.
.. method:: findall(match)
Same as :meth:`Element.findall`, starting at the root of the tree.
.. method:: findtext(match, default=None)
Same as :meth:`Element.findtext`, starting at the root of the tree.
.. method:: getiterator(tag=None)
.. deprecated:: 2.7
Use method :meth:`ElementTree.iter` instead.
.. method:: getroot()
Returns the root element for this tree.
.. method:: iter(tag=None)
Creates and returns a tree iterator for the root element. The iterator
loops over all elements in this tree, in section order. *tag* is the tag
to look for (default is to return all elements).
.. method:: iterfind(match)
Finds all matching subelements, by tag name or path. Same as
getroot().iterfind(match). Returns an iterable yielding all matching
elements in document order.
.. versionadded:: 2.7
.. method:: parse(source, parser=None)
Loads an external XML section into this element tree. *source* is a file
name or file object. *parser* is an optional parser instance. If not
given, the standard XMLParser parser is used. Returns the section
root element.
.. method:: write(file, encoding="us-ascii", xml_declaration=None, \
default_namespace=None, method="xml")
Writes the element tree to a file, as XML. *file* is a file name, or a
file object opened for writing. *encoding* [1]_ is the output encoding
(default is US-ASCII). *xml_declaration* controls if an XML declaration
should be added to the file. Use False for never, True for always, None
for only if not US-ASCII or UTF-8 (default is None). *default_namespace*
sets the default XML namespace (for "xmlns"). *method* is either
``"xml"``, ``"html"`` or ``"text"`` (default is ``"xml"``). Returns an
encoded string.
This is the XML file that is going to be manipulated::
<html>
<head>
<title>Example page</title>
</head>
<body>
<p>Moved to <a href="http://example.org/">example.org</a>
or <a href="http://example.com/">example.com</a>.</p>
</body>
</html>
Example of changing the attribute "target" of every link in first paragraph::
>>> from xml.etree.ElementTree import ElementTree
>>> tree = ElementTree()
>>> tree.parse("index.xhtml")
<Element 'html' at 0xb77e6fac>
>>> p = tree.find("body/p") # Finds first occurrence of tag p in body
>>> p
<Element 'p' at 0xb77ec26c>
>>> links = list(p.iter("a")) # Returns list of all links
>>> links
[<Element 'a' at 0xb77ec2ac>, <Element 'a' at 0xb77ec1cc>]
>>> for i in links: # Iterates through all found links
... i.attrib["target"] = "blank"
>>> tree.write("output.xhtml")
.. _elementtree-qname-objects:
QName Objects
^^^^^^^^^^^^^
.. class:: QName(text_or_uri, tag=None)
QName wrapper. This can be used to wrap a QName attribute value, in order
to get proper namespace handling on output. *text_or_uri* is a string
containing the QName value, in the form {uri}local, or, if the tag argument
is given, the URI part of a QName. If *tag* is given, the first argument is
interpreted as a URI, and this argument is interpreted as a local name.
:class:`QName` instances are opaque.
.. _elementtree-treebuilder-objects:
TreeBuilder Objects
^^^^^^^^^^^^^^^^^^^
.. class:: TreeBuilder(element_factory=None)
Generic element structure builder. This builder converts a sequence of
start, data, and end method calls to a well-formed element structure. You
can use this class to build an element structure using a custom XML parser,
or a parser for some other XML-like format. The *element_factory* is called
to create new :class:`Element` instances when given.
.. method:: close()
Flushes the builder buffers, and returns the toplevel document
element. Returns an :class:`Element` instance.
.. method:: data(data)
Adds text to the current element. *data* is a string. This should be
either a bytestring, or a Unicode string.
.. method:: end(tag)
Closes the current element. *tag* is the element name. Returns the
closed element.
.. method:: start(tag, attrs)
Opens a new element. *tag* is the element name. *attrs* is a dictionary
containing element attributes. Returns the opened element.
In addition, a custom :class:`TreeBuilder` object can provide the
following method:
.. method:: doctype(name, pubid, system)
Handles a doctype declaration. *name* is the doctype name. *pubid* is
the public identifier. *system* is the system identifier. This method
does not exist on the default :class:`TreeBuilder` class.
.. versionadded:: 2.7
.. _elementtree-xmlparser-objects:
XMLParser Objects
^^^^^^^^^^^^^^^^^
.. class:: XMLParser(html=0, target=None, encoding=None)
:class:`Element` structure builder for XML source data, based on the expat
parser. *html* are predefined HTML entities. This flag is not supported by
the current implementation. *target* is the target object. If omitted, the
builder uses an instance of the standard TreeBuilder class. *encoding* [1]_
is optional. If given, the value overrides the encoding specified in the
XML file.
.. method:: close()
Finishes feeding data to the parser. Returns an element structure.
.. method:: doctype(name, pubid, system)
.. deprecated:: 2.7
Define the :meth:`TreeBuilder.doctype` method on a custom TreeBuilder
target.
.. method:: feed(data)
Feeds data to the parser. *data* is encoded data.
:meth:`XMLParser.feed` calls *target*\'s :meth:`start` method
for each opening tag, its :meth:`end` method for each closing tag,
and data is processed by method :meth:`data`. :meth:`XMLParser.close`
calls *target*\'s method :meth:`close`.
:class:`XMLParser` can be used not only for building a tree structure.
This is an example of counting the maximum depth of an XML file::
>>> from xml.etree.ElementTree import XMLParser
>>> class MaxDepth: # The target object of the parser
... maxDepth = 0
... depth = 0
... def start(self, tag, attrib): # Called for each opening tag.
... self.depth += 1
... if self.depth > self.maxDepth:
... self.maxDepth = self.depth
... def end(self, tag): # Called for each closing tag.
... self.depth -= 1
... def data(self, data):
... pass # We do not need to do anything with data.
... def close(self): # Called when all data has been parsed.
... return self.maxDepth
...
>>> target = MaxDepth()
>>> parser = XMLParser(target=target)
>>> exampleXml = """
... <a>
... <b>
... </b>
... <b>
... <c>
... <d>
... </d>
... </c>
... </b>
... </a>"""
>>> parser.feed(exampleXml)
>>> parser.close()
4
.. rubric:: Footnotes
.. [#] The encoding string included in XML output should conform to the
appropriate standards. For example, "UTF-8" is valid, but "UTF8" is
not. See https://www.w3.org/TR/2006/REC-xml11-20060816/#NT-EncodingDecl
and https://www.iana.org/assignments/character-sets/character-sets.xhtml.
|