I've seen a fair share of ungainly XML->JSON code on the web, and having interacted with Stack's users for a bit, I'm convinced that this crowd can help more than the first few pages of Google results can.

So, we're parsing a weather feed, and we need to populate weather widgets on a multitude of web sites. We're looking now into Python-based solutions.

This public weather.com RSS feed is a good example of what we'd be parsing (our actual weather.com feed contains additional information because of a partnership w/them).

In a nutshell, how should we convert XML to JSON using Python?

20 Answers 20


There is no "one-to-one" mapping between XML and JSON, so converting one to the other necessarily requires some understanding of what you want to do with the results.

That being said, Python's standard library has several modules for parsing XML (including DOM, SAX, and ElementTree). As of Python 2.6, support for converting Python data structures to and from JSON is included in the json module.

So the infrastructure is there.

  • 1
    xmljson IMHO is the quickest to use with support for various conventions out of the box. pypi.org/project/xmljson – nitinr708 Dec 5 '18 at 11:05
  • It's already been mentioned in newer answers. It still only covers a small subset of valid XML constructs, but probably the majority of what people use in practice. – Dan Lenski Dec 5 '18 at 11:48

xmltodict (full disclosure: I wrote it) can help you convert your XML to a dict+list+string structure, following this "standard". It is Expat-based, so it's very fast and doesn't need to load the whole XML tree in memory.

Once you have that data structure, you can serialize it to JSON:

import xmltodict, json

o = xmltodict.parse('<e> <a>text</a> <a>text</a> </e>')
json.dumps(o) # '{"e": {"a": ["text", "text"]}}'
  • @Martin Blech If I create a json file from my django models file. How can I map my xml file to convert the xml to json for the required fields? – sayth May 14 '14 at 8:02
  • 1
    @sayth I think you should post this as a separate SO question. – Martin Blech May 14 '14 at 17:12
  • @Martin Blech. I added a question, but it's rather hard to fit in SO, I am a beginner so have provided as much info as I can, but I expect you may require more clarity stackoverflow.com/q/23676973/461887 – sayth May 15 '14 at 22:28
  • After so long time, I am a bit surprised xmltodict is not a "standard" library in some linux distributions. Altough it seems doing the job straight from what we can read, I will unfortunately use another solution like xslt conversion – sancelot Jan 31 at 9:05

You can use the xmljson library to convert using different XML JSON conventions.

For example, this XML:

<p id="1">text</p>

translates via the BadgerFish convention into this:

  'p': {
    '@id': 1,
    '$': 'text'

and via the GData convention into this (attributes are not supported):

  'p': {
    '$t': 'text'

... and via the Parker convention into this (attributes are not supported):

  'p': 'text'

It's possible to convert from XML to JSON and from JSON to XML using the same conventions:

>>> import json, xmljson
>>> from lxml.etree import fromstring, tostring
>>> xml = fromstring('<p id="1">text</p>')
>>> json.dumps(xmljson.badgerfish.data(xml))
'{"p": {"@id": 1, "$": "text"}}'
>>> xmljson.parker.etree({'ul': {'li': [1, 2]}})
# Creates [<ul><li>1</li><li>2</li></ul>]

Disclosure: I wrote this library. Hope it helps future searchers.

  • 4
    That's a pretty cool library, but please do read How to offer personal open-source libraries? before you post more answers showing it off. – Martijn Pieters Sep 20 '15 at 8:18
  • 1
    Thanks @MartijnPieters -- I've just gone through this and will make sure I stick to this. – S Anand Sep 20 '15 at 16:03
  • 1
    Thanks Anand for the solution – it seems to work well, doesn't have external dependencies, and provides a lot of flexibility in how the attributes are handled using the different conventions. Exactly what I needed and was the most flexible and simplest solution I found. – mbbeme Oct 3 '16 at 18:25
  • Thanks Anand - unfortunately, the I can't get it to parse XML with utf8 encoding. Going thru sources, it seems the encoding set thru XMLParser(..) is ignored – Patrik Beck Apr 6 '17 at 13:36
  • @PatrikBeck could you please share an small example of XML with utf8 encoding that breaks? – S Anand May 9 '17 at 17:07

Here's the code I built for that. There's no parsing of the contents, just plain conversion.

from xml.dom import minidom
import simplejson as json
def parse_element(element):
    dict_data = dict()
    if element.nodeType == element.TEXT_NODE:
        dict_data['data'] = element.data
    if element.nodeType not in [element.TEXT_NODE, element.DOCUMENT_NODE, 
        for item in element.attributes.items():
            dict_data[item[0]] = item[1]
    if element.nodeType not in [element.TEXT_NODE, element.DOCUMENT_TYPE_NODE]:
        for child in element.childNodes:
            child_name, child_dict = parse_element(child)
            if child_name in dict_data:
                except AttributeError:
                    dict_data[child_name] = [dict_data[child_name], child_dict]
                dict_data[child_name] = child_dict 
    return element.nodeName, dict_data

if __name__ == '__main__':
    dom = minidom.parse('data.xml')
    f = open('data.json', 'w')
    f.write(json.dumps(parse_element(dom), sort_keys=True, indent=4))

If some time you get only response code instead of all data then error like json parse will be there so u need to convert it as text

import xmltodict

data = requests.get(url)
xpars = xmltodict.parse(data.text)
json = json.dumps(xpars)
print json 

There is a method to transport XML-based markup as JSON which allows it to be losslessly converted back to its original form. See http://jsonml.org/.

It's a kind of XSLT of JSON. I hope you find it helpful


You may want to have a look at http://designtheory.org/library/extrep/designdb-1.0.pdf. This project starts off with an XML to JSON conversion of a large library of XML files. There was much research done in the conversion, and the most simple intuitive XML -> JSON mapping was produced (it is described early in the document). In summary, convert everything to a JSON object, and put repeating blocks as a list of objects.

objects meaning key/value pairs (dictionary in Python, hashmap in Java, object in JavaScript)

There is no mapping back to XML to get an identical document, the reason is, it is unknown whether a key/value pair was an attribute or an <key>value</key>, therefore that information is lost.

If you ask me, attributes are a hack to start; then again they worked well for HTML.


Well, probably the simplest way is just parse the XML into dictionaries and then serialize that with simplejson.


I'd suggest not going for a direct conversion. Convert XML to an object, then from the object to JSON.

In my opinion, this gives a cleaner definition of how the XML and JSON correspond.

It takes time to get right and you may even write tools to help you with generating some of it, but it would look roughly like this:

class Channel:
  def __init__(self)
    self.items = []
    self.title = ""

  def from_xml( self, xml_node ):
    self.title = xml_node.xpath("title/text()")[0]
    for x in xml_node.xpath("item"):
      item = Item()
      item.from_xml( x )
      self.items.append( item )

  def to_json( self ):
    retval = {}
    retval['title'] = title
    retval['items'] = []
    for x in items:
      retval.append( x.to_json() )
    return retval

class Item:
  def __init__(self):

  def from_xml( self, xml_node ):

  def to_json( self ):

I found for simple XML snips, use regular expression would save troubles. For example:

# <user><name>Happy Man</name>...</user>
import re
names = re.findall(r'<name>(\w+)<\/name>', xml_string)
# do some thing to names

To do it by XML parsing, as @Dan said, there is not one-for-all solution because the data is different. My suggestion is to use lxml. Although not finished to json, lxml.objectify give quiet good results:

>>> from lxml import objectify
>>> root = objectify.fromstring("""
... <root xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">
...   <a attr1="foo" attr2="bar">1</a>
...   <a>1.2</a>
...   <b>1</b>
...   <b>true</b>
...   <c>what?</c>
...   <d xsi:nil="true"/>
... </root>
... """)

>>> print(str(root))
root = None [ObjectifiedElement]
    a = 1 [IntElement]
      * attr1 = 'foo'
      * attr2 = 'bar'
    a = 1.2 [FloatElement]
    b = 1 [IntElement]
    b = True [BoolElement]
    c = 'what?' [StringElement]
    d = None [NoneElement]
      * xsi:nil = 'true'
  • 1
    but it removes duplicate nodes – Pooya Jul 4 '12 at 9:02

While the built-in libs for XML parsing are quite good I am partial to lxml.

But for parsing RSS feeds, I'd recommend Universal Feed Parser, which can also parse Atom. Its main advantage is that it can digest even most malformed feeds.

Python 2.6 already includes a JSON parser, but a newer version with improved speed is available as simplejson.

With these tools building your app shouldn't be that difficult.


When I do anything with XML in python I almost always use the lxml package. I suspect that most people use lxml. You could use xmltodict but you will have to pay the penalty of parsing the XML again.

To convert XML to json with lxml you:

  1. Parse XML document with lxml
  2. Convert lxml to a dict
  3. Convert list to json

I use the following class in my projects. Use the toJson method.

from lxml import etree 
import json

class Element:
    Wrapper on the etree.Element class.  Extends functionality to output element
    as a dictionary.

    def __init__(self, element):
        :param: element a normal etree.Element instance
        self.element = element

    def toDict(self):
        Returns the element as a dictionary.  This includes all child elements.
        rval = {
            self.element.tag: {
                'attributes': dict(self.element.items()),
        for child in self.element:
        return rval

class XmlDocument:
    Wraps lxml to provide:
        - cleaner access to some common lxml.etree functions
        - converter from XML to dict
        - converter from XML to json
    def __init__(self, xml = '<empty/>', filename=None):
        There are two ways to initialize the XmlDocument contents:
            - String
            - File

        You don't have to initialize the XmlDocument during instantiation
        though.  You can do it later with the 'set' method.  If you choose to
        initialize later XmlDocument will be initialized with "<empty/>".

        :param: xml Set this argument if you want to parse from a string.
        :param: filename Set this argument if you want to parse from a file.
        self.set(xml, filename) 

    def set(self, xml=None, filename=None):
        Use this to set or reset the contents of the XmlDocument.

        :param: xml Set this argument if you want to parse from a string.
        :param: filename Set this argument if you want to parse from a file.
        if filename is not None:
            self.tree = etree.parse(filename)
            self.root = self.tree.getroot()
            self.root = etree.fromstring(xml)
            self.tree = etree.ElementTree(self.root)

    def dump(self):

    def getXml(self):
        return document as a string
        return etree.tostring(self.root)

    def xpath(self, xpath):
        Return elements that match the given xpath.

        :param: xpath
        return self.tree.xpath(xpath);

    def nodes(self):
        Return all elements
        return self.root.iter('*')

    def toDict(self):
        Convert to a python dictionary
        return Element(self.root).toDict()

    def toJson(self, indent=None):
        Convert to JSON
        return json.dumps(self.toDict(), indent=indent)

if __name__ == "__main__":
            <frequency value='2.215' units='MHz'>
                <blah value='1'/>
    doc = XmlDocument(xml)
    print doc.toJson(indent=4)

The output from the built in main is:

    "system": {
        "attributes": {}, 
        "product": {
            "attributes": {}, 
            "demod": {
                "attributes": {}, 
                "frequency": {
                    "attributes": {
                        "units": "MHz", 
                        "value": "2.215"
                    "blah": {
                        "attributes": {
                            "value": "1"

Which is a transformation of this xml:

            <frequency value='2.215' units='MHz'>
                <blah value='1'/>

To anyone that may still need this. Here's a newer, simple code to do this conversion.

from xml.etree import ElementTree as ET

xml    = ET.parse('FILE_NAME.xml')
parsed = parseXmlToJson(xml)

def parseXmlToJson(xml):
  response = {}

  for child in list(xml):
    if len(list(child)) > 0:
      response[child.tag] = parseXmlToJson(child)
      response[child.tag] = child.text or ''

    # one-liner equivalent
    # response[child.tag] = parseXmlToJson(child) if len(list(child)) > 0 else child.text or ''

  return response
  • this code will not run. please edit and correct it – sancelot Jan 31 at 8:56

jsonpickle or if you're using feedparser, you can try feed_parser_to_json.py


My answer addresses the specific (and somewhat common) case where you don't really need to convert the entire xml to json, but what you need is to traverse/access specific parts of the xml, and you need it to be fast, and simple (using json/dict-like operations).


For this, it is important to note that parsing an xml to etree using lxml is super fast. The slow part in most of the other answers is the second pass: traversing the etree structure (usually in python-land), converting it to json.

Which leads me to the approach I found best for this case: parsing the xml using lxml, and then wrapping the etree nodes (lazily), providing them with a dict-like interface.


Here's the code:

from collections import Mapping
import lxml.etree

class ETreeDictWrapper(Mapping):

    def __init__(self, elem, attr_prefix = '@', list_tags = ()):
        self.elem = elem
        self.attr_prefix = attr_prefix
        self.list_tags = list_tags

    def _wrap(self, e):
        if isinstance(e, basestring):
            return e
        if len(e) == 0 and len(e.attrib) == 0:
            return e.text
        return type(self)(
            attr_prefix = self.attr_prefix,
            list_tags = self.list_tags,

    def __getitem__(self, key):
        if key.startswith(self.attr_prefix):
            return self.elem.attrib[key[len(self.attr_prefix):]]
            subelems = [ e for e in self.elem.iterchildren() if e.tag == key ]
            if len(subelems) > 1 or key in self.list_tags:
                return [ self._wrap(x) for x in subelems ]
            elif len(subelems) == 1:
                return self._wrap(subelems[0])
                raise KeyError(key)

    def __iter__(self):
        return iter(set( k.tag for k in self.elem) |
                    set( self.attr_prefix + k for k in self.elem.attrib ))

    def __len__(self):
        return len(self.elem) + len(self.elem.attrib)

    # defining __contains__ is not necessary, but improves speed
    def __contains__(self, key):
        if key.startswith(self.attr_prefix):
            return key[len(self.attr_prefix):] in self.elem.attrib
            return any( e.tag == key for e in self.elem.iterchildren() )

def xml_to_dictlike(xmlstr, attr_prefix = '@', list_tags = ()):
    t = lxml.etree.fromstring(xmlstr)
    return ETreeDictWrapper(
        attr_prefix = '@',
        list_tags = set(list_tags),

This implementation is not complete, e.g., it doesn't cleanly support cases where an element has both text and attributes, or both text and children (only because I didn't need it when I wrote it...) It should be easy to improve it, though.


In my specific use case, where I needed to only process specific elements of the xml, this approach gave a suprising and striking speedup by a factor of 70 (!) compared to using @Martin Blech's xmltodict and then traversing the dict directly.


As a bonus, since our structure is already dict-like, we get another alternative implementation of xml2json for free. We just need to pass our dict-like structure to json.dumps. Something like:

def xml_to_json(xmlstr, **kwargs):
    x = xml_to_dictlike(xmlstr, **kwargs)
    return json.dumps(x)

If your xml includes attributes, you'd need to use some alphanumeric attr_prefix (e.g. "ATTR_"), to ensure the keys are valid json keys.

I haven't benchmarked this part.

  • If I try doing json.dumps(tree) it says Object of type 'ETreeDictWrapper' is not JSON serializable – Vlad T. Jul 11 at 8:37

This stuff here is actively maintained and so far is my favorite: xml2json in python


check out lxml2json (disclosure: I wrote it)


it's very fast, lightweight (only requires lxml), and one advantage is that you have control over whether certain elements are converted to lists or dicts


You can use declxml. It has advanced features like multi attributes and complex nested support. You just need to write a simple processor for it. Also with the same code, you can convert back to JSON as well. It is fairly straightforward and the documentation is awesome.

Link: https://declxml.readthedocs.io/en/latest/index.html


Prepare data in Python: To create JSON first you need to prepare data in python. We can use List and Dictionary in Python to prepare the data.

Python List <==> JSON Array

Python Dictionary <==> JSON Object (Key Value Format) Check this for more details


  • Welcome to Stack Overflow! While links are great way of sharing knowledge, they won't really answer the question if they get broken in the future. Add to your answer the essential content of the link which answers the question. In case the content is too complex or too big to fit here, describe the general idea of the proposed solution. Remember to always keep a link reference to the original solution's website. See: How do I write a good answer? – sɐunıɔןɐqɐp Sep 27 '18 at 6:31

To represent data in JSON format

address=Sector 12 Greater Kailash, New Delhi
Jobs=Noida,Developer | Gurugram,Tester |Faridabad,Designer

In json we repesent a data in key and value format

    "address":["New kP college","Greater Kailash","New Delhi"],
               {"Place":"Noida","Title":"Developer "},
               {"Place":"Gurugram","Title":"Tester "},

To represent data in XML format

<!-- In xml we write a code under a key you can take any key -->
<info> <!-- key open -->

<name> john </name> 
<age> 20 </age>
<gender> male </gender>

<item> New kP college </item>
<item> Greater Kailash </item>
<item> New Delhi </item>

  <title>Developer </title>

  <title>Developer </title>

</info> <!-- key close-->

protected by eyllanesc Nov 30 '18 at 4:57

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