This library is not actively maintained. Alternatives are xmltodict and untangle. Use only if you need to parse using specific XML to JSON conventions.
xmljson converts XML into Python dictionary structures (trees, like in JSON) and vice-versa.
XML can be converted to a data structure (such as JSON) and back. For example:
<employees> <person> <name value="Alice"/> </person> <person> <name value="Bob"/> </person> </employees>
can be converted into this data structure (which also a valid JSON object):
{ "employees": [{ "person": { "name": { "@value": "Alice" } } }, { "person": { "name": { "@value": "Bob" } } }] }
This uses the BadgerFish convention that prefixes attributes with @
.
The conventions supported by this library are:
- Abdera: Use
"attributes"
for attributes,"children"
for nodes - BadgerFish: Use
"$"
for text content,@
to prefix attributes - Cobra: Use
"attributes"
for sorted attributes (even when empty),"children"
for nodes, values are strings - GData: Use
"$t"
for text content, attributes added as-is - Parker: Use tail nodes for text content, ignore attributes
- Yahoo Use
"content"
for text content, attributes added as-is
To convert from a data structure to XML using the BadgerFish convention:
>>> from xmljson import badgerfish as bf >>> bf.etree({'p': {'@id': 'main', '$': 'Hello', 'b': 'bold'}})
This returns an array of etree.Element structures. In this case, the result is identical to:
>>> from xml.etree.ElementTree import fromstring >>> [fromstring('<p id="main">Hello<b>bold</b></p>')]
The result can be inserted into any existing root etree.Element:
>>> from xml.etree.ElementTree import Element, tostring >>> result = bf.etree({'p': {'@id': 'main'}}, root=Element('root')) >>> tostring(result) '<root><p id="main"/></root>'
This includes lxml.html as well:
>>> from lxml.html import Element, tostring >>> result = bf.etree({'p': {'@id': 'main'}}, root=Element('html')) >>> tostring(result, doctype='<!DOCTYPE html>') '<!DOCTYPE html>\n<html><p id="main"></p></html>'
For ease of use, strings are treated as node text. For example, both the following are the same:
>>> bf.etree({'p': {'$': 'paragraph text'}}) >>> bf.etree({'p': 'paragraph text'})
By default, non-string values are converted to strings using Python's str
,
except for booleans -- which are converted into true
and false
(lower
case). Override this behaviour using xml_fromstring
:
>>> tostring(bf.etree({'x': 1.23, 'y': True}, root=Element('root'))) '<root><y>true</y><x>1.23</x></root>' >>> from xmljson import BadgerFish # import the class >>> bf_str = BadgerFish(xml_tostring=str) # convert using str() >>> tostring(bf_str.etree({'x': 1.23, 'y': True}, root=Element('root'))) '<root><y>True</y><x>1.23</x></root>'
If the data contains invalid XML keys, these can be dropped via
invalid_tags='drop'
in the constructor:
>>> bf_drop = BadgerFish(invalid_tags='drop') >>> data = bf_drop.etree({'$': '1', 'x': '1'}, root=Element('root')) # Drops invalid <$> tag >>> tostring(data) '<root>1<x>1</x></root>'
To convert from XML to a data structure using the BadgerFish convention:
>>> bf.data(fromstring('<p id="main">Hello<b>bold</b></p>')) {"p": {"$": "Hello", "@id": "main", "b": {"$": "bold"}}}
To convert this to JSON, use:
>>> from json import dumps >>> dumps(bf.data(fromstring('<p id="main">Hello<b>bold</b></p>'))) '{"p": {"b": {"$": "bold"}, "@id": "main", "$": "Hello"}}'
To preserve the order of attributes and children, specify the dict_type
as
OrderedDict
(or any other dictionary-like type) in the constructor:
>>> from collections import OrderedDict >>> from xmljson import BadgerFish # import the class >>> bf = BadgerFish(dict_type=OrderedDict) # pick dict class
By default, values are parsed into boolean, int or float where possible (except
in the Yahoo method). Override this behaviour using xml_fromstring
:
>>> dumps(bf.data(fromstring('<x>1</x>'))) '{"x": {"$": 1}}' >>> bf_str = BadgerFish(xml_fromstring=False) # Keep XML values as strings >>> dumps(bf_str.data(fromstring('<x>1</x>'))) '{"x": {"$": "1"}}' >>> bf_str = BadgerFish(xml_fromstring=repr) # Custom string parser '{"x": {"$": "\'1\'"}}'
xml_fromstring
can be any custom function that takes a string and returns a
value. In the example below, only the integer 1
is converted to an integer.
Everything else is retained as a float:
>>> def convert_only_int(val): ... return int(val) if val.isdigit() else val >>> bf_int = BadgerFish(xml_fromstring=convert_only_int) >>> dumps(bf_int.data(fromstring('<p><x>1</x><y>2.5</y><z>NaN</z></p>'))) '{"p": {"x": {"$": 1}, "y": {"$": "2.5"}, "z": {"$": "NaN"}}}'
To use a different conversion method, replace BadgerFish
with one of the
other classes. Currently, these are supported:
>>> from xmljson import abdera # == xmljson.Abdera() >>> from xmljson import badgerfish # == xmljson.BadgerFish() >>> from xmljson import cobra # == xmljson.Cobra() >>> from xmljson import gdata # == xmljson.GData() >>> from xmljson import parker # == xmljson.Parker() >>> from xmljson import yahoo # == xmljson.Yahoo()
Conventions may support additional options.
The Parker convention absorbs the root element by default.
parker.data(preserve_root=True)
preserves the root instance:
>>> from xmljson import parker, Parker >>> from xml.etree.ElementTree import fromstring >>> from json import dumps >>> dumps(parker.data(fromstring('<x><a>1</a><b>2</b></x>'))) '{"a": 1, "b": 2}' >>> dumps(parker.data(fromstring('<x><a>1</a><b>2</b></x>'), preserve_root=True)) '{"x": {"a": 1, "b": 2}}'
This is a pure-Python package built for Python 2.7 and Python 3.0 . To set up:
pip install xmljson
After installation, you can benefit from using this package as simple CLI utility. By now only XML to JSON conversion supported. Example:
$ python -m xmljson -h usage: xmljson [-h] [-o OUT_FILE] [-d {abdera,badgerfish,cobra,gdata,parker,xmldata,yahoo}] [in_file] positional arguments: in_file defaults to stdin optional arguments: -h, --help show this help message and exit -o OUT_FILE, --out_file OUT_FILE defaults to stdout -d {abdera,badgerfish,...}, --dialect {...} defaults to parker $ python -m xmljson -d parker tests/mydata.xml { "foo": "spam", "bar": 42 }
This is a typical UNIX filter program: it reads file (or stdin
), processes it in some way (convert XML to JSON in this case), then prints it to stdout
(or file). Example with pipe:
$ some-xml-producer | python -m xmljson | some-json-processor
There is also pip
's console_script
entry-point, you can call this utility as xml2json
:
$ xml2json -d abdera mydata.xml
- Test cases for Unicode
- Support for namespaces and namespace prefixes
- Support XML comments