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So I have to write a "duplicate checker" to compare two XMLs and see if they are the same (contain the same data). Now because they come from the same class and are generated form an XSD the structure the order of the elements inside will most likely be the same.

The best way I can think of doing the duplicate check is to set up two dictionaries (dictLeft, dictRight) and saving the xpath#value as the key and the number of times it occurs. Something like this:


{ 'my/path/to/name#greg': 1, 'my/path/to/name#john': 2, 'my/path/to/car#toyota': 1}


{ 'my/path/to/name#greg': 1, 'my/path/to/name#bill': 1, 'my/path/to/car#toyota': 1}

Comparing these two dictionaries will give me a fairly accurate indication of whether or not these two XMLs are the same or not (there is the odd chance that I may get false results, but it is very remote).

Does anyone else have a better idea? Maybe a function in ElementTree that I do not know about?

EDIT: To better explain:




would be considered the same. I am ignoring attributes. The idea is to keep the code as simple as possible while not hampering performance too much.

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Can you better define the problem? What is your definition of "the same"? Can child elements be in arbitrary orders? Can different nestings of child elements be considered the same? Are the attributes important, etc. Also, what is your goal here? Performance? Correctness? Simplicity of code? –  marr75 Mar 14 '11 at 15:44
"the same" meaning the data contained is the same, not necessarily the order. I am ignoring attributes. –  Andre Mar 15 '11 at 11:23

4 Answers 4

up vote 1 down vote accepted

OK, so I had to make a decision and went with this:

foreach path in xpathlist
  find entries for path for both xml1 and xml2
  foreach entry in xmlentries1
  foreach entry in xmlentries2

  if dict1 and dict2 are not equal
    return false
return true

I hope this makes sense. This allows me to test for specific/all xpaths. If someone has a better algorithm, I'm all ears :)

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From your example, it seems like you should be able to use iterparse and use collections.Counter to count the appearance of each tag and its attributes as keys for the counter. Example:

from xml.etree import cElementTree as ElementTree
from collections import Counter

your_xml = get_xml()
count = Counter()
parser = ElementTree.iterparse(your_xml)
for event, element in parser:
    #joining string as key for ease of debugging, strictly speaking,
    #one could use a tuple and save the str() on the attrib dict
    key = "".join((element.tag, str(element.attrib), element.text))
    count[element.tag] += 1

alternatively, make count a normal dict and just compare equality of the two dicts (seems conceptually simpler to me).

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By the way, using cElementTree and iterparse is, from my experiences with parsing API responses and collecting BigData, the best performing while easiest to maintain python solution. I usually create a dictionary mapping tags to callables to parse each tag, not really necessary here (every tag can be handled the same) but a pretty powerful approach if you're going to do more with xml. –  marr75 Mar 14 '11 at 16:03
Can one, with iterparse, parse through only certain Xpaths? –  Andre Mar 15 '11 at 11:33
Kind of. You'll have Xpath support on the subelements of the tags you're interested in, and you can just break when you have everything you need. I don't understand why you would use Xpath, an XML query language, to compare 2 complete xml documents, that's analogous to comparing two entire sql tables by querying and comparing for subsets of rows or even subsets of a single row at a time. –  marr75 Mar 16 '11 at 21:14

If two XMLs are generated from the same code and contains the same values (in the same order) then you could simply do a string comparison of the XML data.

If that works then it's probably the simples solution possible, but there might be reasons why that won't work for you.

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Yeah, I thought about this but the problem is that some of these XMLs are can be more than 20,000 lines long. Also, the order of the nested items are not always in the same order. –  Andre Mar 15 '11 at 11:31

This problem starts with defining what you mean by "the same".

For instance, a simple definition of equality, for XML elements, is that two XML elements are equal if:

  • they're in the same namespace,
  • they have the same tag name,
  • they have the same set of attributes, with the same values,
  • their respective lists of child nodes, excluding comments and processing instructions, and whitespace-only text nodes, contain the same values in the same order.

There are all kinds of reasons why this trivial definition might not suffice:

  • you may want to ignore elements that aren't in namespaces you know about - i.e. you don't want your application's equality test to fail just because other applications are storing data in the XML
  • child element ordering may not be significant or (worse) may be significant for some elements and not others
  • comment, processing-instruction, and whitespace-only text nodes may be significant
  • you may need to normalize whitespace (see the normalize-space() function in XSLT) in text nodes before comparing them

Once you've defined equality, implementing a method to test it is relatively straightforward. But you need to define equality first.

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