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Given a large array of numbers where:

[1, 2, 3, 4 ...] => <tag attrib="1" />
                    <tag attrib="2" />
                    <tag attrib="3" />
                    <tag attrib="4" />

Which is more efficient/fast:

a) building them from scratch using Element("name", attributes) and appending them to some root


b) fromstring(str) where str is the string representation of those tags in the example

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I would guess (a), as (b) parses the text back into an Element and then applies (a) to it to return your final result. –  Blender Jul 11 '12 at 22:33
sorry if it wasn't very clear. All i have is that array of numbers and I want the Elements at the end. What b) was suggest of doing is iterating over the array, build the string '<tag attrib="'+1+'" />' ... for all the numbers and then pass that final string to be parsed –  zaftcoAgeiha Jul 11 '12 at 22:46
Yep. b) will end up building a string that will be parsed into into Elements, but a) will build the Elements directly. a) is one step shorter. –  Blender Jul 11 '12 at 22:47

1 Answer 1

up vote 0 down vote accepted

updated test:

from xml.etree.ElementTree import Element, XML, tostring
from timeit import timeit

elist = [e for e in xrange(1000)]

def test_normal():
    eroot = Element('root')
    for e in elist:
        eroot.append(Element("tag", {"attrib" :"%s" %e}))

def test_list():
    eroot = Element('root')
    [eroot.append(Element("tag", {"attrib" :"%s" %e})) for e in elist]

print "etree: %.6f" %timeit(test_normal, number=1000)
print "l-cmp: %.6f" %timeit(test_list, number=1000)

from xml.etree.cElementTree import Element, XML, tostring, fromstring
#from lxml.etree import Element, XML, tostring

print "ctree: %.6f" %timeit(test_normal, number=1000)
print "c-cmp: %.6f" %timeit(test_list, number=1000)

def test_string():
    eroot = "<root>"
    tags = ['<tag attrib="%s" />' %e for e in elist]
    eroot += ' '.join(tags) + '</root>'
    tree = fromstring(eroot)

print "strng: %.6f" %timeit(test_string, number=1000)    

etree: 13.302093
l-cmp: 12.276725
ctree: 5.482961
c-cmp: 5.692758
strng: 6.578780

The cElementTree is the fastest version. So i would say: don't use the string abomination! ;-)

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Did you try Subelement? It was minimal slower then append in my setup, i just didn't include it here. list-comp just so nobody claims i did ignore it's performance gains. where did i forget fromstring? in test_list() ? –  Don Question Jul 12 '12 at 0:25
you forgot to call fromstring in the 3rd example. Don't use listcomp for side-effects. –  J.F. Sebastian Jul 12 '12 at 0:25
I've removed mentioning of SubElement (it is not documented in the stdlib's docs). I don't know whether there is a performance difference. –  J.F. Sebastian Jul 12 '12 at 0:34
10 is not a large number (see the first sentence in the question). Try your benchmark with larger numbers. You could run time it as python -mtimeit -s 'from m import test_list as f' 'f()' –  J.F. Sebastian Jul 12 '12 at 0:39
ihh, didnt look into the docs. im still using python 2.x mostly so i cant say if SubElement is gone in 3. but in 2.6 2.7 it's still there, but a little bit slower (but maybe it's just a fluke) –  Don Question Jul 12 '12 at 0:41

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