This small python library provides a few tools to handle SemVer in Python. It follows strictly the 2.0.0 version of the SemVer scheme.
- Package on PyPI: http://pypi.python.org/pypi/semantic_version/
- Doc on ReadTheDocs: https://python-semanticversion.readthedocs.io/
- Source on GitHub: http://github.com/rbarrois/python-semanticversion/
- Build on Travis CI: http://travis-ci.org/rbarrois/python-semanticversion/
- Semantic Version specification: SemVer
Install the package from PyPI, using pip:
pip install semantic_versionOr from GitHub:
$ git clone git://github.com/rbarrois/python-semanticversion.gitImport it in your code:
import semantic_version.. currentmodule:: semantic_version
This module provides two classes to handle semantic versions:
- :class:`Version` represents a version number (
0.1.1-alpha+build.2012-05-15) - :class:`Spec` represents a requirement specification (
>=0.1.1,<0.3.0)
Defining a :class:`Version` is quite simple:
>>> import semantic_version
>>> v = semantic_version.Version('0.1.1')
>>> v.major
0
>>> v.minor
1
>>> v.patch
1
>>> v.prerelease
[]
>>> v.build
[]
>>> list(v)
[0, 1, 1, [], []]If the provided version string is invalid, a :exc:`ValueError` will be raised:
>>> semantic_version.Version('0.1')
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
File "/Users/rbarrois/dev/semantic_version/src/semantic_version/base.py", line 64, in __init__
major, minor, patch, prerelease, build = self.parse(version_string, partial)
File "/Users/rbarrois/dev/semantic_version/src/semantic_version/base.py", line 86, in parse
raise ValueError('Invalid version string: %r' % version_string)
ValueError: Invalid version string: '0.1'In order to define "relaxed" version strings, you must pass in partial=True:
>>> v = semantic_version.Version('0.1', partial=True)
>>> list(v)
[0, 1, None, None, None]Obviously, :class:`Versions <Version>` can be compared:
>>> semantic_version.Version('0.1.1') < semantic_version.Version('0.1.2')
True
>>> semantic_version.Version('0.1.1') > semantic_version.Version('0.1.1-alpha')
True
>>> semantic_version.Version('0.1.1') <= semantic_version.Version('0.1.1-alpha')
FalseYou can also get a new version that represents a bump in one of the version levels:
>>> v = semantic_version.Version('0.1.1+build')
>>> new_v = v.next_major()
>>> str(new_v)
'1.0.0'
>>> v = semantic_version.Version('1.1.1+build')
>>> new_v = v.next_minor()
>>> str(new_v)
'1.2.0'
>>> v = semantic_version.Version('1.1.1+build')
>>> new_v = v.next_patch()
>>> str(new_v)
'1.1.2'It is also possible to check whether a given string is a proper semantic version string:
>>> semantic_version.validate('0.1.3')
True
>>> semantic_version.validate('0a2')
FalseThe :class:`Spec` object describes a range of accepted versions:
>>> s = Spec('>=0.1.1') # At least 0.1.1
>>> s.match(Version('0.1.1'))
True
>>> s.match(Version('0.1.1-alpha1')) # pre-release satisfy version spec
True
>>> s.match(Version('0.1.0'))
FalseSimpler test syntax is also available using the in keyword:
>>> s = Spec('==0.1.1')
>>> Version('0.1.1-alpha1') in s
True
>>> Version('0.1.2') in s
FalseCombining specifications can be expressed in two ways:
Components separated by commas in a single string:
>>> Spec('>=0.1.1,<0.3.0')Components given as different arguments:
>>> Spec('>=0.1.1', '<0.3.0')
A mix of both versions:
>>> Spec('>=0.1.1', '!=0.2.4-alpha,<0.3.0')
The :func:`Spec.filter` method filters an iterable of :class:`Version`:
>>> s = Spec('>=0.1.0,<0.4.0')
>>> versions = (Version('0.%d.0' % i) for i in range(6))
>>> for v in s.filter(versions):
... print v
0.1.0
0.2.0
0.3.0It is also possible to select the 'best' version from such iterables:
>>> s = Spec('>=0.1.0,<0.4.0')
>>> versions = (Version('0.%d.0' % i) for i in range(6))
>>> s.select(versions)
Version('0.3.0')Some user-supplied input might not match the semantic version scheme. For such cases, the :meth:`Version.coerce` method will try to convert any version-like string into a valid semver version:
>>> Version.coerce('0')
Version('0.0.0')
>>> Version.coerce('0.1.2.3.4')
Version('0.1.2+3.4')
>>> Version.coerce('0.1.2a3')
Version('0.1.2-a3')When testing a :class:`Version` against a :class:`Spec`, comparisons are only
performed for components defined in the :class:`Spec`; thus, a pre-release
version (1.0.0-alpha), while not strictly equal to the non pre-release
version (1.0.0), satisfies the ==1.0.0 :class:`Spec`.
Pre-release identifiers will only be compared if included in the :class:`Spec`
definition or (for the empty pre-release number) if a single dash is appended
(1.0.0-):
>>> Version('0.1.0-alpha') in Spec('>=0.1.0') # No pre-release identifier
True
>>> Version('0.1.0-alpha') in Spec('>=0.1.0-') # Include pre-release in checks
FalseBuild metadata has no ordering; thus, the only meaningful comparison including build metadata is equality.
>>> Version('1.0.0+build2') in Spec('<=1.0.0') # Build metadata ignored
True
>>> Version('1.0.0+build2') in Spec('==1.0.0+build2') # Include build in checks
FalseThe :mod:`semantic_version.django_fields` module provides django fields to store :class:`Version` or :class:`Spec` objects.
More documentation is available in the :doc:`django` section.
In order to contribute to the source code:
- Open an issue on GitHub: https://github.com/rbarrois/python-semanticversion/issues
- Fork the repository and submit a pull request on GitHub
- Or send me a patch (mailto:[email protected])
When submitting patches or pull requests, you should respect the following rules:
- Coding conventions are based on PEP 8
- The whole test suite must pass after adding the changes
- The test coverage for a new feature must be 100%
- New features and methods should be documented in the :doc:`reference` section and included in the :doc:`changelog`
- Include your name in the :ref:`contributors` section
Note
All files should contain the following header:
# -*- encoding: utf-8 -*- # Copyright (c) The python-semanticversion project
.. toctree:: :maxdepth: 2 reference django changelog credits