I'm trying to parse the following feed into ElementTree in python: "http://smarkets.s3.amazonaws.com/oddsfeed.xml" (warning large file)

Here is what I have tried so far:

feed = urllib.urlopen("http://smarkets.s3.amazonaws.com/oddsfeed.xml")

# feed is compressed
compressed_data = feed.read()
import StringIO
compressedstream = StringIO.StringIO(compressed_data)
import gzip
gzipper = gzip.GzipFile(fileobj=compressedstream)
data = gzipper.read()

# Parse XML
tree = ET.parse(data)

but it seems to just hang on compressed_data = feed.read(), infinitely maybe?? (I know it's a big file, but seems too long compared to other non-compressed feeds I parsed, and this large is killing any bandwidth gains from the gzip compression in the first place).

Next I tried requests, with

url = "http://smarkets.s3.amazonaws.com/oddsfeed.xml"
headers = {'accept-encoding': 'gzip, deflate'}
r = requests.get(url, headers=headers, stream=True)

but now




but these raise exceptions.

What's the proper way to do this?

  • 1
    "these raise exceptions" isn't helpful. What exceptions? Copy and paste the traceback into your question.
    – abarnert
    Oct 18, 2014 at 0:26
  • Also, why are you trying to pass an HTTP header as POST data? They're not the same thing.
    – abarnert
    Oct 18, 2014 at 0:26

2 Answers 2


You can pass the value returned by urlopen() directly to GzipFile() and in turn you can pass it to ElementTree methods such as iterparse():

#!/usr/bin/env python3
import xml.etree.ElementTree as etree
from gzip import GzipFile
from urllib.request import urlopen, Request

with urlopen(Request("http://smarkets.s3.amazonaws.com/oddsfeed.xml",
                     headers={"Accept-Encoding": "gzip"})) as response, \
     GzipFile(fileobj=response) as xml_file:
    for elem in getelements(xml_file, 'interesting_tag'):

where getelements() allows to parse files that do not fit in memory.

def getelements(filename_or_file, tag):
    """Yield *tag* elements from *filename_or_file* xml incrementaly."""
    context = iter(etree.iterparse(filename_or_file, events=('start', 'end')))
    _, root = next(context) # get root element
    for event, elem in context:
        if event == 'end' and elem.tag == tag:
            yield elem
            root.clear() # free memory

To preserve memory, the constructed xml tree is cleared on each tag element.

  • Could you elaborate a bit on root.clear() ? How does this free the memory for each elem ? Sep 26, 2018 at 19:27
  • @Mr_and_Mrs_D the last sentence says what root.clear() does and why it is used.
    – jfs
    Sep 26, 2018 at 19:29
  • Thanks - what confuses me is that root seems defined once - I would expect something like elem.clear() Sep 26, 2018 at 19:42
  • @Mr_and_Mrs_D: here's on the difference between elem.clear() and root.clear() (in short: unless the xml file is huge, we can ignore it). Here's on the performance difference
    – jfs
    Sep 26, 2018 at 19:50

The ET.parse function takes "a filename or file object containing XML data". You're giving it a string full of XML. It's going to try to open a file whose name is that big chunk of XML. There is probably no such file.

You want the fromstring function, or the XML constructor.

Or, if you prefer, you've already got a file object, gzipper; you could just pass that to parse instead of reading it into a string.

This is all covered by the short Tutorial in the docs:

We can import this data by reading from a file:

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

Or directly from a string:

root = ET.fromstring(country_data_as_string)

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