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I need to write a parser in Python that can process some extremely large files ( > 2 GB ) on a computer without much memory (only 2 GB). I wanted to use iterparse in lxml to do it.

My file is of the format:

<item>
  <title>Item 1</title>
  <desc>Description 1</desc>
</item>
<item>
  <title>Item 2</title>
  <desc>Description 2</desc>
</item>

and so far my solution is:

from lxml import etree

context = etree.iterparse( MYFILE, tag='item' )

for event, elem in context :
      print elem.xpath( 'description/text( )' )

del context

Unfortunately though, this solution is still eating up a lot of memory. I think the problem is that after dealing with each "ITEM" I need to do something to cleanup empty children. Can anyone offer some suggestions on what I might do after processing my data to properly cleanup?

Thanks in advance...

share|improve this question
    
Just as an addendum, my printout of the description is just a simple example, I have to actually do a lot more work with the contents of each item processed, but I wanted to simplify it. –  Dave Johnshon Aug 24 '11 at 6:09
1  
after having handled the element for a single iteration have you tried calling elem.clear() to reclaim memory for the iterated element? –  Uku Loskit Aug 24 '11 at 6:13

3 Answers 3

up vote 25 down vote accepted

Try Liza Daly's fast_iter. After processing an element, elem, it calls elem.clear() to remove descendants and also removes preceding siblings.

def fast_iter(context, func, *args, **kwargs):
    """
    http://lxml.de/parsing.html#modifying-the-tree
    Based on Liza Daly's fast_iter
    http://www.ibm.com/developerworks/xml/library/x-hiperfparse/
    See also http://effbot.org/zone/element-iterparse.htm
    """
    for event, elem in context:
        func(elem, *args, **kwargs)
        # It's safe to call clear() here because no descendants will be
        # accessed
        elem.clear()
        # Also eliminate now-empty references from the root node to elem
        for ancestor in elem.xpath('ancestor-or-self::*'):
            while ancestor.getprevious() is not None:
                del ancestor.getparent()[0]
    del context


def process_element(elem):
    print elem.xpath( 'description/text( )' )

context = etree.iterparse( MYFILE, tag='item' )
fast_iter(context,process_element)

Daly's article is an excellent read, especially if you are processing large XML files.


Edit: The fast_iter posted above is a modified version of Daly's fast_iter. After processing an element, it is more aggressive at removing other elements that are no longer needed.

The script below shows the difference in behavior. Note in particular that orig_fast_iter does not delete the A1 element, while the mod_fast_iter does delete it, thus saving more memory.

import lxml.etree as ET
import textwrap
import io

def setup_ABC():
    content = textwrap.dedent('''\
      <root>
        <A1>
          <B1></B1>
          <C>1<D1></D1></C>
          <E1></E1>
        </A1>
        <A2>
          <B2></B2>
          <C>2<D></D></C>
          <E2></E2>
        </A2>
      </root>
        ''')
    return content


def study_fast_iter():
    def orig_fast_iter(context, func, *args, **kwargs):
        for event, elem in context:
            print('Processing {e}'.format(e=ET.tostring(elem)))
            func(elem, *args, **kwargs)
            print('Clearing {e}'.format(e=ET.tostring(elem)))
            elem.clear()
            while elem.getprevious() is not None:
                print('Deleting {p}'.format(
                    p=(elem.getparent()[0]).tag))
                del elem.getparent()[0]
        del context

    def mod_fast_iter(context, func, *args, **kwargs):
        """
        http://www.ibm.com/developerworks/xml/library/x-hiperfparse/
        Author: Liza Daly
        See also http://effbot.org/zone/element-iterparse.htm
        """
        for event, elem in context:
            print('Processing {e}'.format(e=ET.tostring(elem)))
            func(elem, *args, **kwargs)
            # It's safe to call clear() here because no descendants will be
            # accessed
            print('Clearing {e}'.format(e=ET.tostring(elem)))
            elem.clear()
            # Also eliminate now-empty references from the root node to elem
            for ancestor in elem.xpath('ancestor-or-self::*'):
                print('Checking ancestor: {a}'.format(a=ancestor.tag))
                while ancestor.getprevious() is not None:
                    print(
                        'Deleting {p}'.format(p=(ancestor.getparent()[0]).tag))
                    del ancestor.getparent()[0]
        del context

    content = setup_ABC()
    context = ET.iterparse(io.BytesIO(content), events=('end', ), tag='C')
    orig_fast_iter(context, lambda elem: None)
    # Processing <C>1<D1/></C>
    # Clearing <C>1<D1/></C>
    # Deleting B1
    # Processing <C>2<D/></C>
    # Clearing <C>2<D/></C>
    # Deleting B2

    print('-' * 80)
    """
    The improved fast_iter deletes A1. The original fast_iter does not.
    """
    content = setup_ABC()
    context = ET.iterparse(io.BytesIO(content), events=('end', ), tag='C')
    mod_fast_iter(context, lambda elem: None)
    # Processing <C>1<D1/></C>
    # Clearing <C>1<D1/></C>
    # Checking ancestor: root
    # Checking ancestor: A1
    # Checking ancestor: C
    # Deleting B1
    # Processing <C>2<D/></C>
    # Clearing <C>2<D/></C>
    # Checking ancestor: root
    # Checking ancestor: A2
    # Deleting A1
    # Checking ancestor: C
    # Deleting B2

study_fast_iter()
share|improve this answer
    
This worked like a charm. Thanks! Exactly what I needed. –  Dave Johnshon Aug 24 '11 at 15:14
    
Neat. Yet, incase the element that we specify tag='item' does not exist and the XML is quite large there is a substantial memory build up that is not getting freed. I assume that the tree builds up and as no end event is trigged we get the whole XMl in memory. Is there any fix to that? –  bioslime Oct 8 at 16:06
    
@bioslime: Not that I know of. Usually parsing XML requires that you know the format of the XML a priori. –  unutbu Oct 8 at 18:01
    
@bioslime: If you know some tag exists and wish to clear those to save memory, you could use iterparse to iterate over those tags, and then call iterwalk inside the callback function to search for item tags. That way, you could search for the unknown tag while still saving some memory. But you would still have to know that some tag exists. Here is an example which uses this approach. –  unutbu Oct 8 at 18:09
    
@unutbu: Okay, i'll have a look. I actually do know the format but in some XMLs all occourences of an element are <item xsi:nil="true"/> and not <item></item>. For now i do a simple precheck: Open the file, iterate trough each line and check if <item> is in it. If so break out of the loop. If not i'll later on skip the for event, elem in context. –  bioslime Oct 9 at 14:24

iterparse() lets you do stuff while building the tree, that means that unless you remove what you don't need anymore, you'll still end up with the whole tree in the end.

For more information: read this by the author of the original ElementTree implementation (but it's also applicable to lxml)

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Why won't you use the "callback" approach of sax?

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