14

I'm trying to get it so that 1.7.0 comes after 1.7.0.rc0 but before 1.8.0, as it should if you were sorting versions. I thought the whole point of LooseVersion was that it handled the sorting and comparison of this kind of thing correctly.

>>> from distutils.version import LooseVersion
>>> versions = ["1.7.0", "1.7.0.rc0", "1.8.0"]
>>> lv = [LooseVersion(v) for v in versions]
>>> sorted(lv, reverse=True)
[LooseVersion ('1.8.0'), LooseVersion ('1.7.0.rc0'), LooseVersion ('1.7.0')]
  • I would simply use different numbers for release candidates. E.g. '1.7.0rc0', 1.7.1' – Daniel Kinsman Sep 4 '12 at 1:04
  • 3
    Yeah... I was hoping for a better solution. – Tyler Brock Sep 4 '12 at 1:10
12

MAJOR EDIT: old answer was too unpythonic. Here are two prettier solutions.

So, I currently see about three ways of achieving the wished ordering, releases candidates "rc" before actual releases.

  1. my old, imperative-style ordering
  2. use "b" instead of "rc" in order to use StrictVersion, from the same package
  3. extend the Version class to add support for arbitrary tags and tag ordering

1. Old, imperative-style ordering

from distutils.version import LooseVersion
versions = ["1.7.0", "1.7.0.rc0", "1.8.0"]
lv = [LooseVersion(v) for v in versions]
lv.sort()

sorted_rc = [v.vstring for v in lv]

import re
p = re.compile('rc\\d+$')

i = 0

# skip the first RCs
while i + 1 < len(sorted_rc):
    m = p.search(sorted_rc[i])
    if m:
        i += 1
    else:
        break

while i + 1 < len(sorted_rc):
    tmp = sorted_rc[i]
    m = p.search(sorted_rc[i+1])
    if m and sorted_rc[i+1].startswith(tmp):
        sorted_rc[i] = sorted_rc[i+1]
        sorted_rc[i+1] = tmp
    i += 1

with this I get:

['1.7.0rc0', '1.7.0', '1.11.0']

2. Use "b" instead of "rc"

The package distutils.version also has another class, StrictVersion which does the job, if your 1.7.0.rc0 is allowed to be written as 1.7.0a0 or 1.7.0b0 noting alpha or beta releases.

That is:

from distutils.version import StrictVersion
versions = ["1.7.0", "1.7.0b0", "1.11.0"]
sorted(versions, key=StrictVersion)

This gives:

['1.7.0b0', '1.7.0', '1.11.0']

Translation from one form to another can be done using the re module.

3. Extend the Version class

The obvious problem of the previous solution is the lack of flexibility of StrictVersion. Altering the version_re class attribute to use rc instead of a or b, even if it accepts 1.7.1rc0, still prints it as 1.7.1r0 (as of python 2.7.3).

We can get it right by implementing our own custom version class. This can be done like this, with some unit tests to ensure correctness at least in some cases:

#!/usr/bin/python
# file: version2.py

from distutils import version
import re
import functools

@functools.total_ordering
class NumberedVersion(version.Version):
    """
    A more flexible implementation of distutils.version.StrictVersion

    This implementation allows to specify:
    - an arbitrary number of version numbers:
        not only '1.2.3' , but also '1.2.3.4.5'
    - the separator between version numbers:
        '1-2-3' is allowed when '-' is specified as separator
    - an arbitrary ordering of pre-release tags:
        1.1alpha3 < 1.1beta2 < 1.1rc1 < 1.1
        when ["alpha", "beta", "rc"] is specified as pre-release tag list
    """

    def __init__(self, vstring=None, sep='.', prerel_tags=('a', 'b')):
        version.Version.__init__(self) 
            # super() is better here, but Version is an old-style class

        self.sep = sep
        self.prerel_tags = dict(zip(prerel_tags, xrange(len(prerel_tags))))
        self.version_re = self._compile_pattern(sep, self.prerel_tags.keys())
        self.sep_re = re.compile(re.escape(sep))

        if vstring:
            self.parse(vstring)


    _re_prerel_tag = 'rel_tag'
    _re_prerel_num = 'tag_num'

    def _compile_pattern(self, sep, prerel_tags):
        sep = re.escape(sep)
        tags = '|'.join(re.escape(tag) for tag in prerel_tags)

        if tags:
            release_re = '(?:(?P<{tn}>{tags})(?P<{nn}>\d+))?'\
                .format(tags=tags, tn=self._re_prerel_tag, nn=self._re_prerel_num)
        else:
            release_re = ''

        return re.compile(r'^(\d+)(?:{sep}(\d+))*{rel}$'\
            .format(sep=sep, rel=release_re))

    def parse(self, vstring):
        m = self.version_re.match(vstring)
        if not m:
            raise ValueError("invalid version number '{}'".format(vstring))

        tag = m.group(self._re_prerel_tag)
        tag_num = m.group(self._re_prerel_num)

        if tag is not None and tag_num is not None:
            self.prerelease = (tag, int(tag_num))
            vnum_string = vstring[:-(len(tag) + len(tag_num))]
        else:
            self.prerelease = None
            vnum_string = vstring

        self.version = tuple(map(int, self.sep_re.split(vnum_string)))


    def __repr__(self):
        return "{cls} ('{vstring}', '{sep}', {prerel_tags})"\
            .format(cls=self.__class__.__name__, vstring=str(self),
                sep=self.sep, prerel_tags = list(self.prerel_tags.keys()))

    def __str__(self):
        s = self.sep.join(map(str,self.version))
        if self.prerelease:
            return s + "{}{}".format(*self.prerelease)
        else:
            return s

    def __lt__(self, other):
        """
        Fails when  the separator is not the same or when the pre-release tags
        are not the same or do not respect the same order.
        """
        # TODO deal with trailing zeroes: e.g. "1.2.0" == "1.2"
        if self.prerel_tags != other.prerel_tags or self.sep != other.sep:
            raise ValueError("Unable to compare: instances have different"
                " structures")

        if self.version == other.version and self.prerelease is not None and\
                other.prerelease is not None:

            tag_index = self.prerel_tags[self.prerelease[0]]
            other_index = self.prerel_tags[other.prerelease[0]]
            if tag_index == other_index:
                return self.prerelease[1] < other.prerelease[1]

            return tag_index < other_index

        elif self.version == other.version:
            return self.prerelease is not None and other.prerelease is None

        return self.version < other.version

    def __eq__(self, other):
        tag_index = self.prerel_tags[self.prerelease[0]]
        other_index = other.prerel_tags[other.prerelease[0]]
        return self.prerel_tags == other.prerel_tags and self.sep == other.sep\
            and self.version == other.version and tag_index == other_index and\
                self.prerelease[1] == other.prerelease[1]




import unittest

class TestNumberedVersion(unittest.TestCase):

    def setUp(self):
        self.v = NumberedVersion()

    def test_compile_pattern(self):
        p = self.v._compile_pattern('.', ['a', 'b'])
        tests = {'1.2.3': True, '1a0': True, '1': True, '1.2.3.4a5': True,
            'b': False, '1c0': False, ' 1': False, '': False}
        for test, result in tests.iteritems():
            self.assertEqual(result, p.match(test) is not None, \
                "test: {} result: {}".format(test, result))


    def test_parse(self):
        tests = {"1.2.3.4a5": ((1, 2, 3, 4), ('a', 5))}
        for test, result in tests.iteritems():
            self.v.parse(test)
            self.assertEqual(result, (self.v.version, self.v.prerelease))

    def test_str(self):
        tests = (('1.2.3',), ('10-2-42rc12', '-', ['rc']))
        for t in tests:
            self.assertEqual(t[0], str(NumberedVersion(*t)))

    def test_repr(self):
        v = NumberedVersion('1,2,3rc4', ',', ['lol', 'rc'])
        expected = "NumberedVersion ('1,2,3rc4', ',', ['lol', 'rc'])"
        self.assertEqual(expected, repr(v))


    def test_order(self):
        test = ["1.7.0", "1.7.0rc0", "1.11.0"]
        expected = ['1.7.0rc0', '1.7.0', '1.11.0']
        versions = [NumberedVersion(v, '.', ['rc']) for v in test]
        self.assertEqual(expected, list(map(str,sorted(versions))))


if __name__ == '__main__':
    unittest.main()

So, it can be used like this:

import version2
versions = ["1.7.0", "1.7.0rc2", "1.7.0rc1", "1.7.1", "1.11.0"]
sorted(versions, key=lambda v: version2.NumberedVersion(v, '.', ['rc']))

output:

['1.7.0rc1', '1.7.0rc2', '1.7.0', '1.7.1', '1.11.0']

So, in conclusion, use python's included batteries or roll out your own.

About this implementation: it could be improved by dealing with the trailing zeroes in the releases, and memoize the compilation of the regular expressions.

| improve this answer | |
  • 1
    It's still wrong, 1.7.0.rc0 did not come in between version 1.7.0 and 1.11.0 -- 1.7.0.rc0 is the release candidate for 1.7.0 therefore it should come before 1.7.0 – Tyler Brock Sep 4 '12 at 1:02
  • Ok, so you don't want lexical order – bernard paulus Sep 4 '12 at 1:04
  • Right and that is exactly what pep 386 says it should handle: python.org/dev/peps/pep-0386 – Tyler Brock Sep 4 '12 at 1:06
  • 1
    @TylerBrock: your original question says that 1.7.0 should come first. – Wooble Sep 4 '12 at 1:08
  • I like your answer, but was hoping for something cleaner. Thanks Bernard. – Tyler Brock Sep 4 '12 at 1:30
22
>>> from distutils.version import LooseVersion
>>> versions = ["1.7.0", "1.7.0rc0", "1.11.0"]
>>> sorted(versions, key=LooseVersion)
['1.7.0', '1.7.0rc0', '1.11.0']

from the docs

Version numbering for anarchists and software realists. Implements the standard interface for version number classes as described above. A version number consists of a series of numbers, separated by either periods or strings of letters. When comparing version numbers, the numeric components will be compared numerically, and the alphabetic components lexically.
...
In fact, there is no such thing as an invalid version number under this scheme; the rules for comparison are simple and predictable, but may not always give the results you want (for some definition of "want").

so you see there is no smarts about treating "rc" specially

You can see how the version number is broken down like this

>>> LooseVersion('1.7.0rc0').version
[1, 7, 0, 'rc', 0]
| improve this answer | |
  • 1.11 > 1.7, you've got them around the wrong way. But yes, the other information is useful. – Daniel Kinsman Sep 4 '12 at 1:06
  • I had read that, and while I understand numeric components are compared numerically and alphabetic are compare lexically, doesn't the fact that there is an alphabetical component contribute to it being sorted as coming before the one without alphabetical component. If not, it should, because alpha, beta, rc, etc... all come before versions without those additional alphabetic components. – Tyler Brock Sep 4 '12 at 1:08
  • Yep, i understood all this. Thanks for your answer though. – Tyler Brock Sep 4 '12 at 1:11
  • I just wanted to point out your code does exactly the same thing as mine, I just map LooseVersion beforehand. – Tyler Brock Sep 4 '12 at 1:42
8

I use the pkg_resources module like so:

from pkg_resources import parse_version

def test_version_sorting():
    expected = ['1.0.0dev0',
                '1.0.0dev1',
                '1.0.0dev2',
                '1.0.0dev10',
                '1.0.0rc0',
                '1.0.0rc2',
                '1.0.0rc5',
                '1.0.0rc21',
                '1.0.0',
                '1.1.0',
                '1.1.1',
                '1.1.11',
                '1.2.0',
                '1.3.0',
                '1.23.0',
                '2.0.0', ]
    alphabetical = sorted(expected)
    shuffled = sorted(expected, key=lambda x: random())
    assert expected == sorted(alphabetical, key=parse_version)
    assert expected == sorted(shuffled, key=parse_version)

Note that creating a random ordering from the expected version list makes this a potentially unstable unit test as two runs will not have the same data. Still, in this instance, it should not matter… Hopefully.

| improve this answer | |
  • So easy and beautiful, I'll go with it – Andrey Semakin Nov 21 '19 at 8:11
  • >>> from pkg_resources import parse_version >>> list = ['0.00.1', '0.00.2', '0.00.3', '0.00.10'] >>> sorted(list) ['0.00.1', '0.00.10', '0.00.2', '0.00.3'] Doesn't sort this case as expected however – Brendan Apr 27 at 23:53
  • @Brendan I am no longer contributing to SE as long as they continue to abuse their users. – Sardathrion - against SE abuse Apr 28 at 13:17
3

I found this to be helpful and a bit simpler:

from packaging import version

vers = ["1.7.0", "1.7.0rc2", "1.7.0rc1", "1.7.1", "1.11.0"]

sorted(vers, key=lambda x: version.Version(x))

Which results in:

['1.7.0rc1', '1.7.0rc2', '1.7.0', '1.7.1', '1.11.0']

Adding reverse=True puts them in "descending" order which I find helpful.

['1.11.0', '1.7.1', '1.7.0', '1.7.0rc2', '1.7.0rc1']

It can sort a pretty wide variety of version-style numbers (my testbed was Linux versions v4.11.16, etc)

| improve this answer | |
  • This worked perfectly for me. My issue was I had versions with only one decimal, and so the latest version was resulting in "2.9.1" when 2.10 had been in the list. Ref: Infoblox api schema version sorting – tc0nn Feb 14 at 18:09
1

I use this:

#!/usr/bin/python
import re

def sort_software_versions(versions = [], reverse = False):
  def split_version(version):
    def toint(x):
      try:
        return int(x)
      except:
        return x
    return map(toint, re.sub(r'([a-z])([0-9])', r'\1.\2', re.sub(r'([0-9])([a-z])', r'\1.\2', version.lower().replace('-', '.'))).split('.'))
  def compare_version_list(l1, l2):
    def compare_version(v1, v2):
      if isinstance(v1, int):
        if isinstance(v2, int):
          return v1 - v2
        else:
          return 1
      else:
        if isinstance(v2, int):
          return -1
        else:
          return cmp(v1, v2)
    ret = 0
    n1 = len(l1)
    n2 = len(l2)
    if n1 < n2:
      l1.extend([0]*(n2 - n1))
    if n2 < n1:
      l2.extend([0]*(n1 - n2))
    n = max(n1, n2)
    i = 0
    while not ret and i < n:
      ret = compare_version(l1[i], l2[i])
      i += 1
    return ret
  return sorted(versions, cmp = compare_version_list, key = split_version, reverse = reverse)

print(sort_software_versions(['1.7.0', '1.7.0.rc0', '1.8.0']))
['1.7.0.rc0', '1.7.0', '1.8.0']

This way it handles alpha, beta, rc correctly. It can deal with versions containing hyphens, or when people glued the 'rc' to the version. The re.sub can use compiled regexp, but this works ok enough.

| improve this answer | |
  • Buddy, what is the licence of this snippet of code ? ;-) – binarym Jun 17 '19 at 9:03
  • MIT or BSD or WTF licence. – Cyrille Pontvieux Jun 18 '19 at 7:21
0

In my case I wanted to use ".devX" as the "prerelease" identifier, so here's another implementation, largely based on distutils.version.StrictVersion

class ArtefactVersion(Version):
    """
    Based on distutils/version.py:StrictVersion
    """
    version_re = re.compile(r'^(\d+) \. (\d+) \. (\d+) (\.dev\d+)?$', re.VERBOSE | re.ASCII)

    def parse(self, vstring):
        match = self.version_re.match(vstring)
        if not match:
            raise ValueError("invalid version number '%s'" % vstring)

        (major, minor, patch, prerelease) = match.group(1, 2, 3, 4)

        self.version = tuple(map(int, [major, minor, patch]))
        if prerelease:
            self.prerelease = prerelease[4:]
        else:
            self.prerelease = None

    def __str__(self):
        vstring = '.'.join(map(str, self.version))

        if self.prerelease:
            vstring = vstring + f".dev{str(self.prerelease)}"

        return vstring

    def _cmp(self, other):
        if isinstance(other, str):
            other = ArtefactVersion(other)

        if self.version != other.version:
            # numeric versions don't match
            # prerelease stuff doesn't matter
            if self.version < other.version:
                return -1
            else:
                return 1

        # have to compare prerelease
        # case 1: neither has prerelease; they're equal
        # case 2: self has prerelease, other doesn't; other is greater
        # case 3: self doesn't have prerelease, other does: self is greater
        # case 4: both have prerelease: must compare them!

        if (not self.prerelease and not other.prerelease):
            return 0
        elif (self.prerelease and not other.prerelease):
            return -1
        elif (not self.prerelease and other.prerelease):
            return 1
        elif (self.prerelease and other.prerelease):
            if self.prerelease == other.prerelease:
                return 0
            elif self.prerelease < other.prerelease:
                return -1
            else:
                return 1
        else:
            assert False, "never get here"
| improve this answer | |

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