I have many rows in a database that contains xml and I'm trying to write a Python script that will go through those rows and count how many instances of a particular node attribute show up. For instance, my tree looks like:

      <type foobar="1"/>
      <type foobar="2"/>

How can I access the attributes 1 and 2 in the XML using Python?

14 Answers 14


I suggest ElementTree. There are other compatible implementations of the same API, such as lxml, and cElementTree in the Python standard library itself; but, in this context, what they chiefly add is even more speed -- the ease of programming part depends on the API, which ElementTree defines.

First build an Element instance root from the XML, e.g. with the XML function, or by parsing a file with something like:

import xml.etree.ElementTree as ET
root = ET.parse('thefile.xml').getroot()

Or any of the many other ways shown at ElementTree. Then do something like:

for type_tag in root.findall('bar/type'):
    value = type_tag.get('foobar')

And similar, usually pretty simple, code patterns.

  • 33
    You seem to ignore xml.etree.cElementTree which comes with Python and in some aspects is faster tham lxml ("lxml's iterparse() is slightly slower than the one in cET" -- e-mail from lxml author). – John Machin Dec 16 '09 at 11:37
  • 7
    ElementTree works and is included with Python. There is limited XPath support though and you can't traverse up to the parent of an element, which can slow development down (especially if you don't know this). See python xml query get parent for details. – Samuel Nov 26 '14 at 23:01
  • 10
    lxml adds more than speed. It provides easy access to information such as parent node, line number in the XML source, etc. that can be very useful in several scenarios. – Saheel Godhane Jan 21 '15 at 22:23
  • 11
    Seems that ElementTree has some vulnerability issues, this is a quote from the docs: Warning The xml.etree.ElementTree module is not secure against maliciously constructed data. If you need to parse untrusted or unauthenticated data see XML vulnerabilities. – Cristik Apr 23 '15 at 14:42
  • 5
    @Cristik This seems to be the case with most xml parsers, see the XML vulnerabilities page. – gitaarik Jun 4 '15 at 14:39

minidom is the quickest and pretty straight forward:


        <item name="item1"></item>
        <item name="item2"></item>
        <item name="item3"></item>
        <item name="item4"></item>


from xml.dom import minidom
xmldoc = minidom.parse('items.xml')
itemlist = xmldoc.getElementsByTagName('item')
for s in itemlist:


  • 9
    How do you get the value of "item1"? For example: <item name="item1">Value1</item> – swmcdonnell Feb 13 '13 at 14:03
  • 81
    I figured it out, in case anyone has the same question. It's s.childNodes[0].nodeValue – swmcdonnell Feb 13 '13 at 18:04
  • 1
    I like your example, i want to implement it but where can i find the minidom functions available. The python minidom website sucks in my opinion. – Drewdin Aug 18 '13 at 1:32
  • 1
    I am also confused why it finds item straight from the top level of the document? wouldn't it be cleaner if you supplied it the path (data->items)? because, what if you also had data->secondSetOfItems that also had nodes named item and you wanted to list only one of the two sets of item? – amphibient Jan 14 '14 at 20:49
  • 1
    please see stackoverflow.com/questions/21124018/… – amphibient Jan 14 '14 at 21:05

You can use BeautifulSoup

from bs4 import BeautifulSoup

      <type foobar="1"/>
      <type foobar="2"/>

>>> y.foo.bar.type["foobar"]

>>> y.foo.bar.findAll("type")
[<type foobar="1"></type>, <type foobar="2"></type>]

>>> y.foo.bar.findAll("type")[0]["foobar"]
>>> y.foo.bar.findAll("type")[1]["foobar"]
  • 7
    Actually, There is BeautifulStoneSoup in BeautifulSoup for XML – YOU Dec 16 '09 at 5:28
  • 42
    three years later with bs4 this is a great solution, very flexible, especially if the source is not well formed – cedbeu Mar 19 '13 at 9:40
  • 6
    @YOU BeautifulStoneSoup is DEPRECIATED. Just use BeautifulSoup(source_xml, features="xml") – andilabs Jul 24 '16 at 11:21
  • 4
    Another 3 years later, I just tried to load XML using ElementTree, unfortunately it is unable to parse unless I adjust the source at places but BeautifulSoup worked just right away without any changes! – ViKiG Dec 22 '16 at 7:16
  • 1
    @andi You mean "deprecated." "Depreciated" means it decreased in value, usually due to age or wear and tear from normal use. – jpmc26 Sep 28 '17 at 19:17

There are many options out there. cElementTree looks excellent if speed and memory usage are an issue. It has very little overhead compared to simply reading in the file using readlines.

The relevant metrics can be found in the table below, copied from the cElementTree website:

library                         time    space
xml.dom.minidom (Python 2.1)    6.3 s   80000K
gnosis.objectify                2.0 s   22000k
xml.dom.minidom (Python 2.4)    1.4 s   53000k
ElementTree 1.2                 1.6 s   14500k  
ElementTree 1.2.4/1.3           1.1 s   14500k  
cDomlette (C extension)         0.540 s 20500k
PyRXPU (C extension)            0.175 s 10850k
libxml2 (C extension)           0.098 s 16000k
readlines (read as utf-8)       0.093 s 8850k
cElementTree (C extension)  --> 0.047 s 4900K <--
readlines (read as ascii)       0.032 s 5050k   

As pointed out by @jfs, cElementTree comes bundled with Python:

  • Python 2: from xml.etree import cElementTree as ElementTree.
  • Python 3: from xml.etree import ElementTree (the accelerated C version is used automatically).
  • 9
    Are there any downsides to using cElementTree? It seems to be a no-brainer. – mayhewsw Nov 11 '14 at 21:08
  • 6
    Apparently they don't want to use the library on OS X as I have spend over 15 minutes trying to figure out where to download it from and no link works. Lack of documentation prevents good projects from thriving, wish more people would realize that. – Stunner Dec 23 '14 at 6:55
  • 8
    @Stunner: it is in stdlib i.e., you don't need to download anything. On Python 2: from xml.etree import cElementTree as ElementTree. On Python 3: from xml.etree import ElementTree (the accelerated C version is used automatically) – jfs Oct 26 '15 at 14:16
  • 1
    @mayhewsw It's more effort to figure out how to efficiently use ElementTree for a particular task. For documents that fit in memory, it's a lot easier to use minidom, and it works fine for smaller XML documents. – A-B-B Oct 8 '16 at 8:51

I suggest xmltodict for simplicity.

It parses your xml to an OrderedDict;

>>> e = '<foo>
                 <type foobar="1"/>
                 <type foobar="2"/>
        </foo> '

>>> import xmltodict
>>> result = xmltodict.parse(e)
>>> result

OrderedDict([(u'foo', OrderedDict([(u'bar', OrderedDict([(u'type', [OrderedDict([(u'@foobar', u'1')]), OrderedDict([(u'@foobar', u'2')])])]))]))])

>>> result['foo']

OrderedDict([(u'bar', OrderedDict([(u'type', [OrderedDict([(u'@foobar', u'1')]), OrderedDict([(u'@foobar', u'2')])])]))])

>>> result['foo']['bar']

OrderedDict([(u'type', [OrderedDict([(u'@foobar', u'1')]), OrderedDict([(u'@foobar', u'2')])])])
  • 2
    Agreed. If you don't need XPath or anything complicated, this is much simpler to use (especially in the interpreter); handy for REST APIs that publish XML instead of JSON – Dan Passaro Jul 25 '14 at 18:25
  • 3
    Remember that OrderedDict does not support duplicate keys. Most XML is chock-full of multiple siblings of the same types (say, all the paragraphs in a section, or all the types in your bar). So this will only work for very limited special cases. – TextGeek Jul 17 '18 at 15:47
  • 1
    @TextGeek In this case, result["foo"]["bar"]["type"] is a list of all <type> elements, so it is still working (even though the structure is maybe a bit unexpected). – luator Aug 30 '18 at 8:16

lxml.objectify is really simple.

Taking your sample text:

from lxml import objectify
from collections import defaultdict

count = defaultdict(int)

root = objectify.fromstring(text)

for item in root.bar.type:
    count[item.attrib.get("foobar")] += 1

print dict(count)


{'1': 1, '2': 1}
  • Whats count in doing in the code? – A.J. Mar 7 '14 at 7:11
  • count stores the counts of each item in a dictionary with default keys, so you don't have to check for membership. You can also try looking at collections.Counter. – Ryan Ginstrom Jul 20 '14 at 21:22

Python has an interface to the expat xml parser.


It's a non-validating parser, so bad xml will not be caught. But if you know your file is correct, then this is pretty good, and you'll probably get the exact info you want and you can discard the rest on the fly.

stringofxml = """<foo>
        <type arg="value" />
        <type arg="value" />
        <type arg="value" />
        <type arg="value" />
count = 0
def start(name, attr):
    global count
    if name == 'type':
        count += 1

p = expat.ParserCreate()
p.StartElementHandler = start

print count # prints 4
  • +1 because I'm looking for a non-validating parser which will work with wierd source characters. Hopefully this will give me the results I want. – Nathan C. Tresch Mar 9 '13 at 1:17
  • 1
    The example was made in '09 and this is how it was done. – Tor Valamo Mar 6 '17 at 10:35

Just to add another possibility, you can use untangle, as it is a simple xml-to-python-object library. Here you have an example:


pip install untangle


Your xml file (a little bit changed):

   <bar name="bar_name">
      <type foobar="1"/>

accessing the attributes with untangle:

import untangle

obj = untangle.parse('/path_to_xml_file/file.xml')

print obj.foo.bar['name']
print obj.foo.bar.type['foobar']

the output will be:


More information about untangle can be found here.
Also (if you are curious), you can find a list of tools for working with XML and Python here (you will also see that the most common ones were mentioned by previous answers).


I might suggest declxml.

Full disclosure: I wrote this library because I was looking for a way to convert between XML and Python data structures without needing to write dozens of lines of imperative parsing/serialization code with ElementTree.

With declxml, you use processors to declaratively define the structure of your XML document and how to map between XML and Python data structures. Processors are used to for both serialization and parsing as well as for a basic level of validation.

Parsing into Python data structures is straightforward:

import declxml as xml

xml_string = """
      <type foobar="1"/>
      <type foobar="2"/>

processor = xml.dictionary('foo', [
    xml.dictionary('bar', [
        xml.array(xml.integer('type', attribute='foobar'))

xml.parse_from_string(processor, xml_string)

Which produces the output:

{'bar': {'foobar': [1, 2]}}

You can also use the same processor to serialize data to XML

data = {'bar': {
    'foobar': [7, 3, 21, 16, 11]

xml.serialize_to_string(processor, data, indent='    ')

Which produces the following output

<?xml version="1.0" ?>
        <type foobar="7"/>
        <type foobar="3"/>
        <type foobar="21"/>
        <type foobar="16"/>
        <type foobar="11"/>

If you want to work with objects instead of dictionaries, you can define processors to transform data to and from objects as well.

import declxml as xml

class Bar:

    def __init__(self):
        self.foobars = []

    def __repr__(self):
        return 'Bar(foobars={})'.format(self.foobars)

xml_string = """
      <type foobar="1"/>
      <type foobar="2"/>

processor = xml.dictionary('foo', [
    xml.user_object('bar', Bar, [
        xml.array(xml.integer('type', attribute='foobar'), alias='foobars')

xml.parse_from_string(processor, xml_string)

Which produces the following output

{'bar': Bar(foobars=[1, 2])}

Here a very simple but effective code using cElementTree.

    import cElementTree as ET
except ImportError:
    # Python 2.5 need to import a different module
    import xml.etree.cElementTree as ET
  except ImportError:
    exit_err("Failed to import cElementTree from any known place")      

def find_in_tree(tree, node):
    found = tree.find(node)
    if found == None:
        print "No %s in file" % node
        found = []
    return found  

# Parse a xml file (specify the path)
def_file = "xml_file_name.xml"
    dom = ET.parse(open(def_file, "r"))
    root = dom.getroot()
    exit_err("Unable to open and parse input definition file: " + def_file)

# Parse to find the child nodes list of node 'myNode'
fwdefs = find_in_tree(root,"myNode")




I find the Python xml.dom and xml.dom.minidom quite easy. Keep in mind that DOM isn't good for large amounts of XML, but if your input is fairly small then this will work fine.

import xml.etree.ElementTree as ET
data = '''<foo>
               <type foobar="1"/>
               <type foobar="2"/>
tree = ET.fromstring(data)
lst = tree.findall('bar/type')
for item in lst:
    print item.get('foobar')

This will print the value of foobar attribute.



      <type foobar="1"/>
      <type foobar="2"/>


import xml.etree.cElementTree as ET

tree = ET.parse("foo.xml")
root = tree.getroot() 
root_tag = root.tag

for form in root.findall("./bar/type"):
    for i in z:



xml.etree.ElementTree vs. lxml

These are some pros of the two most used libraries I would have benefit to know before choosing between them.


  1. From the standard library: no needs of installing any module


  1. Easily write XML declaration: do you need to add e.g. standalone="no"?
  2. Pretty printing: you can have a nice indented XML without extra code.
  3. Objectify functionality: It allows you to use XML as if you were dealing with a normal Python object hierarchy.a

protected by cs95 Sep 12 '17 at 12:03

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