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I am trying to parse a huge XML file ranging from (20MB-3GB). Files are samples coming from different Instrumentation. So, what I am doing is finding necessary element information from file and inserting them to database (Django).

Small part of my file sample. Namespace exist in all files. Interesting feature of files are they have more node attributes then text

<?xml VERSION="1.0" encoding="ISO-8859-1"?>
<mzML xmlns="" xmlns:xs="" xs:schemaLocation="" accession="plgs_example" version="1.1.0" id="">

    <instrumentConfiguration id="QTOF">
                    <cvParam cvRef="MS" accession="MS:1000189" name="Q-Tof ultima"/>
                    <componentList count="4">
                            <source order="1">
                                    <cvParam cvRef="MS" accession="MS:1000398" name="nanoelectrospray"/>
                            <analyzer order="2">
                                    <cvParam cvRef="MS" accession="MS:1000081" name="quadrupole"/>
                            <analyzer order="3">
                                    <cvParam cvRef="MS" accession="MS:1000084" name="time-of-flight"/>
                            <detector order="4">
                                    <cvParam cvRef="MS" accession="MS:1000114" name="microchannel plate detector"/>

Small but complete file is here

So what I have done till now is using findall for every element of interest.

import xml.etree.ElementTree as ET
for ins in range(len(s)):
    # It will print out all the id attribute of instrument
    print insattrib["id"] 

How can I access all children/grandchildren of instrumentConfiguration (s) element?


Example of what I want

Parameter1: T-Tof ultima
analyzer: quadrupole
analyzer: time-of-flight
detector: microchannel plate decector

Is there efficient way of parsing element/subelement/subelement when namespace exist? Or do I have to use find/findall every time to access particular element in the tree with namespace? This is just a small example I have to parse more complex element hierarchy.

Any suggestions!


Didn't got the correct answer so have to edit once more!

share|improve this question
Your XML does not have any instrumentConfiguration in it so you should be finding nothing. – Mark Sep 25 '11 at 10:26
It's fine now. I copied different sample example. – thchand Sep 25 '11 at 10:33
up vote 4 down vote accepted

Here's a script that parses one million <instrumentConfiguration/> elements (967MB file) in 40 seconds (on my machine) without consuming large amount of memory.

The throughput is 24MB/s. The cElementTree page (2005) reports 47MB/s.

#!/usr/bin/env python
from itertools import imap, islice, izip
from operator  import itemgetter
from xml.etree import cElementTree as etree

def parsexml(filename):
    it = imap(itemgetter(1),
              iter(etree.iterparse(filename, events=('start',))))
    root = next(it) # get root element
    for elem in it:
        if elem.tag == '{}instrumentConfiguration':
            values = [('Id', elem.get('id')),
                      ('Parameter1', next(it).get('name'))] # cvParam
            componentList_count = int(next(it).get('count'))
            for parent, child in islice(izip(it, it), componentList_count):
                key = parent.tag.partition('}')[2]
                value = child.get('name')
                assert child.tag.endswith('cvParam')
                values.append((key, value))
            yield values
            root.clear() # preserve memory

def print_values(it):
    for line in (': '.join(val) for conf in it for val in conf):



$ /usr/bin/time python
Parameter1: Q-Tof ultima
source: nanoelectrospray
analyzer: quadrupole
analyzer: time-of-flight
detector: microchannel plate detector
38.51user 1.16system 0:40.09elapsed 98%CPU (0avgtext+0avgdata 23360maxresident)k
1984784inputs+0outputs (2major+1634minor)pagefaults 0swaps

Note: The code is fragile it assumes that the first two children of <instrumentConfiguration/> are <cvParam/> and <componentList/> and all values are available as tag names or attributes.

On performance

ElementTree 1.3 is ~6 times slower than cElementTree 1.0.6 in this case.

If you replace root.clear() by elem.clear() then the code is ~10% faster but ~10 times more memory. lxml.etree works with elem.clear() variant, the performance is the same as for cElementTree but it consumes 20 (root.clear()) / 2 (elem.clear()) times as much memory (500MB).

share|improve this answer
The assumption regarding instrumentConfiguration having same number of subelement is wrong for my purpose. cvParam occurance in number does differ! – thchand Oct 30 '11 at 12:00
@thchand: This limitation can be easily lifted. I've updated the answer. – J.F. Sebastian Oct 30 '11 at 12:27
I will cross check before accepting answer, but already upvoted – thchand Oct 30 '11 at 15:30
@thchand: To run it on real data more checks should be added to make sure that you get expected tag names, attribute values. If not then either recover e.g., skip until a known tag is found and/or log some diagnostic information about where the error occurred. – J.F. Sebastian Oct 30 '11 at 15:52

In this case I would get findall to find all the instrumentList elements. Then on those results just access the data as if instrumentList and instrument were arrays, you get all the elements and don't have to search for them all.

share|improve this answer
Can you be more specific wth examples? – thchand Oct 29 '11 at 9:46

If your files are huge, have a look at the iterparse() function. Be sure to read this article by elementtree's author, especially the part about "incremental parsing".

share|improve this answer
Doesn't help, I have already read it – thchand Oct 29 '11 at 9:46

If this is still a current issue, you might try pymzML, a python Interface to mzML Files. Website:

share|improve this answer

I know that this is old, but I run into this issue while doing XML parsing, where my XML files where really large.

J.F. Sebastian's answer is indeed correct, but the following issue came up.

What I noticed, is that sometimes the values in elem.text ( if you have values inside XML and not as attributes) are not read correctly (sometimes None is returned) if you iterate through the start attributes. I had to iterate through the 'end' like this

it = imap(itemgetter(1),
          iter(etree.iterparse(filename, events=('end',))))
root = next(it) # get root element

If someone wants to get the text inside an xml tag (and not an attribute) maybe he should iterate through the 'end' events and not 'start'.

However, if all the values are in attributes, then the code in J.F. Sebastian's answer is more correct.

XML example for my case:


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