constantly-15.1.0/0000755000076500000240000000000012562375377013712 5ustar redstaff00000000000000constantly-15.1.0/constantly/0000755000076500000240000000000012562375377016110 5ustar redstaff00000000000000constantly-15.1.0/constantly/__init__.py0000644000076500000240000000100512562263077020206 0ustar redstaff00000000000000# Copyright (c) Twisted Matrix Laboratories. # See LICENSE for details. from constantly._constants import ( NamedConstant, Names, ValueConstant, Values, FlagConstant, Flags ) from ._version import get_versions __version__ = get_versions()['version'] del get_versions __author__ = "Twisted Matrix Laboratories" __license__ = "MIT" __copyright__ = "Copyright 2011-2015 {0}".format(__author__) __all__ = [ 'NamedConstant', 'ValueConstant', 'FlagConstant', 'Names', 'Values', 'Flags', ] constantly-15.1.0/constantly/_constants.py0000644000076500000240000003733212562263077020636 0ustar redstaff00000000000000# -*- test-case-name: constantly.test.test_constants -*- # Copyright (c) Twisted Matrix Laboratories. # See LICENSE for details. """ Symbolic constant support, including collections and constants with text, numeric, and bit flag values. """ from __future__ import division, absolute_import __all__ = [ 'NamedConstant', 'ValueConstant', 'FlagConstant', 'Names', 'Values', 'Flags'] from functools import partial from itertools import count from operator import and_, or_, xor _unspecified = object() _constantOrder = partial(next, count()) class _Constant(object): """ @ivar _index: A C{int} allocated from a shared counter in order to keep track of the order in which L{_Constant}s are instantiated. @ivar name: A C{str} giving the name of this constant; only set once the constant is initialized by L{_ConstantsContainer}. @ivar _container: The L{_ConstantsContainer} subclass this constant belongs to; C{None} until the constant is initialized by that subclass. """ def __init__(self): self._container = None self._index = _constantOrder() def __repr__(self): """ Return text identifying both which constant this is and which collection it belongs to. """ return "<%s=%s>" % (self._container.__name__, self.name) def __lt__(self, other): """ Implements C{<}. Order is defined by instantiation order. @param other: An object. @return: C{NotImplemented} if C{other} is not a constant belonging to the same container as this constant, C{True} if this constant is defined before C{other}, otherwise C{False}. """ if ( not isinstance(other, self.__class__) or not self._container == other._container ): return NotImplemented return self._index < other._index def __le__(self, other): """ Implements C{<=}. Order is defined by instantiation order. @param other: An object. @return: C{NotImplemented} if C{other} is not a constant belonging to the same container as this constant, C{True} if this constant is defined before or equal to C{other}, otherwise C{False}. """ if ( not isinstance(other, self.__class__) or not self._container == other._container ): return NotImplemented return self is other or self._index < other._index def __gt__(self, other): """ Implements C{>}. Order is defined by instantiation order. @param other: An object. @return: C{NotImplemented} if C{other} is not a constant belonging to the same container as this constant, C{True} if this constant is defined after C{other}, otherwise C{False}. """ if ( not isinstance(other, self.__class__) or not self._container == other._container ): return NotImplemented return self._index > other._index def __ge__(self, other): """ Implements C{>=}. Order is defined by instantiation order. @param other: An object. @return: C{NotImplemented} if C{other} is not a constant belonging to the same container as this constant, C{True} if this constant is defined after or equal to C{other}, otherwise C{False}. """ if ( not isinstance(other, self.__class__) or not self._container == other._container ): return NotImplemented return self is other or self._index > other._index def _realize(self, container, name, value): """ Complete the initialization of this L{_Constant}. @param container: The L{_ConstantsContainer} subclass this constant is part of. @param name: The name of this constant in its container. @param value: The value of this constant; not used, as named constants have no value apart from their identity. """ self._container = container self.name = name class _ConstantsContainerType(type): """ L{_ConstantsContainerType} is a metaclass for creating constants container classes. """ def __new__(self, name, bases, attributes): """ Create a new constants container class. If C{attributes} includes a value of C{None} for the C{"_constantType"} key, the new class will not be initialized as a constants container and it will behave as a normal class. @param name: The name of the container class. @type name: L{str} @param bases: A tuple of the base classes for the new container class. @type bases: L{tuple} of L{_ConstantsContainerType} instances @param attributes: The attributes of the new container class, including any constants it is to contain. @type attributes: L{dict} """ cls = super(_ConstantsContainerType, self).__new__( self, name, bases, attributes) # Only realize constants in concrete _ConstantsContainer subclasses. # Ignore intermediate base classes. constantType = getattr(cls, '_constantType', None) if constantType is None: return cls constants = [] for (name, descriptor) in attributes.items(): if isinstance(descriptor, cls._constantType): if descriptor._container is not None: raise ValueError( "Cannot use %s as the value of an attribute on %s" % ( descriptor, cls.__name__)) constants.append((descriptor._index, name, descriptor)) enumerants = {} for (index, enumerant, descriptor) in sorted(constants): value = cls._constantFactory(enumerant, descriptor) descriptor._realize(cls, enumerant, value) enumerants[enumerant] = descriptor # Save the dictionary which contains *only* constants (distinct from # any other attributes the application may have given the container) # where the class can use it later (eg for lookupByName). cls._enumerants = enumerants return cls # In Python3 metaclasses are defined using a C{metaclass} keyword argument in # the class definition. This would cause a syntax error in Python2. # So we use L{type} to introduce an intermediate base class with the desired # metaclass. # See: # * http://docs.python.org/2/library/functions.html#type # * http://docs.python.org/3/reference/datamodel.html#customizing-class-creation class _ConstantsContainer(_ConstantsContainerType('', (object,), {})): """ L{_ConstantsContainer} is a class with attributes used as symbolic constants. It is up to subclasses to specify what kind of constants are allowed. @cvar _constantType: Specified by a L{_ConstantsContainer} subclass to specify the type of constants allowed by that subclass. @cvar _enumerants: A C{dict} mapping the names of constants (eg L{NamedConstant} instances) found in the class definition to those instances. """ _constantType = None def __new__(cls): """ Classes representing constants containers are not intended to be instantiated. The class object itself is used directly. """ raise TypeError("%s may not be instantiated." % (cls.__name__,)) @classmethod def _constantFactory(cls, name, descriptor): """ Construct the value for a new constant to add to this container. @param name: The name of the constant to create. @param descriptor: An instance of a L{_Constant} subclass (eg L{NamedConstant}) which is assigned to C{name}. @return: L{NamedConstant} instances have no value apart from identity, so return a meaningless dummy value. """ return _unspecified @classmethod def lookupByName(cls, name): """ Retrieve a constant by its name or raise a C{ValueError} if there is no constant associated with that name. @param name: A C{str} giving the name of one of the constants defined by C{cls}. @raise ValueError: If C{name} is not the name of one of the constants defined by C{cls}. @return: The L{NamedConstant} associated with C{name}. """ if name in cls._enumerants: return getattr(cls, name) raise ValueError(name) @classmethod def iterconstants(cls): """ Iteration over a L{Names} subclass results in all of the constants it contains. @return: an iterator the elements of which are the L{NamedConstant} instances defined in the body of this L{Names} subclass. """ constants = cls._enumerants.values() return iter( sorted(constants, key=lambda descriptor: descriptor._index)) class NamedConstant(_Constant): """ L{NamedConstant} defines an attribute to be a named constant within a collection defined by a L{Names} subclass. L{NamedConstant} is only for use in the definition of L{Names} subclasses. Do not instantiate L{NamedConstant} elsewhere and do not subclass it. """ class Names(_ConstantsContainer): """ A L{Names} subclass contains constants which differ only in their names and identities. """ _constantType = NamedConstant class ValueConstant(_Constant): """ L{ValueConstant} defines an attribute to be a named constant within a collection defined by a L{Values} subclass. L{ValueConstant} is only for use in the definition of L{Values} subclasses. Do not instantiate L{ValueConstant} elsewhere and do not subclass it. """ def __init__(self, value): _Constant.__init__(self) self.value = value class Values(_ConstantsContainer): """ A L{Values} subclass contains constants which are associated with arbitrary values. """ _constantType = ValueConstant @classmethod def lookupByValue(cls, value): """ Retrieve a constant by its value or raise a C{ValueError} if there is no constant associated with that value. @param value: The value of one of the constants defined by C{cls}. @raise ValueError: If C{value} is not the value of one of the constants defined by C{cls}. @return: The L{ValueConstant} associated with C{value}. """ for constant in cls.iterconstants(): if constant.value == value: return constant raise ValueError(value) def _flagOp(op, left, right): """ Implement a binary operator for a L{FlagConstant} instance. @param op: A two-argument callable implementing the binary operation. For example, C{operator.or_}. @param left: The left-hand L{FlagConstant} instance. @param right: The right-hand L{FlagConstant} instance. @return: A new L{FlagConstant} instance representing the result of the operation. """ value = op(left.value, right.value) names = op(left.names, right.names) result = FlagConstant() result._realize(left._container, names, value) return result class FlagConstant(_Constant): """ L{FlagConstant} defines an attribute to be a flag constant within a collection defined by a L{Flags} subclass. L{FlagConstant} is only for use in the definition of L{Flags} subclasses. Do not instantiate L{FlagConstant} elsewhere and do not subclass it. """ def __init__(self, value=_unspecified): _Constant.__init__(self) self.value = value def _realize(self, container, names, value): """ Complete the initialization of this L{FlagConstant}. This implementation differs from other C{_realize} implementations in that a L{FlagConstant} may have several names which apply to it, due to flags being combined with various operators. @param container: The L{Flags} subclass this constant is part of. @param names: When a single-flag value is being initialized, a C{str} giving the name of that flag. This is the case which happens when a L{Flags} subclass is being initialized and L{FlagConstant} instances from its body are being realized. Otherwise, a C{set} of C{str} giving names of all the flags set on this L{FlagConstant} instance. This is the case when two flags are combined using C{|}, for example. """ if isinstance(names, str): name = names names = set([names]) elif len(names) == 1: (name,) = names else: name = "{" + ",".join(sorted(names)) + "}" _Constant._realize(self, container, name, value) self.value = value self.names = names def __or__(self, other): """ Define C{|} on two L{FlagConstant} instances to create a new L{FlagConstant} instance with all flags set in either instance set. """ return _flagOp(or_, self, other) def __and__(self, other): """ Define C{&} on two L{FlagConstant} instances to create a new L{FlagConstant} instance with only flags set in both instances set. """ return _flagOp(and_, self, other) def __xor__(self, other): """ Define C{^} on two L{FlagConstant} instances to create a new L{FlagConstant} instance with only flags set on exactly one instance set. """ return _flagOp(xor, self, other) def __invert__(self): """ Define C{~} on a L{FlagConstant} instance to create a new L{FlagConstant} instance with all flags not set on this instance set. """ result = FlagConstant() result._realize(self._container, set(), 0) for flag in self._container.iterconstants(): if flag.value & self.value == 0: result |= flag return result def __iter__(self): """ @return: An iterator of flags set on this instance set. """ return (self._container.lookupByName(name) for name in self.names) def __contains__(self, flag): """ @param flag: The flag to test for membership in this instance set. @return: C{True} if C{flag} is in this instance set, else C{False}. """ # Optimization for testing membership without iteration. return bool(flag & self) def __nonzero__(self): """ @return: C{False} if this flag's value is 0, else C{True}. """ return bool(self.value) __bool__ = __nonzero__ class Flags(Values): """ A L{Flags} subclass contains constants which can be combined using the common bitwise operators (C{|}, C{&}, etc) similar to a I{bitvector} from a language like C. """ _constantType = FlagConstant _value = 1 @classmethod def _constantFactory(cls, name, descriptor): """ For L{FlagConstant} instances with no explicitly defined value, assign the next power of two as its value. @param name: The name of the constant to create. @param descriptor: An instance of a L{FlagConstant} which is assigned to C{name}. @return: Either the value passed to the C{descriptor} constructor, or the next power of 2 value which will be assigned to C{descriptor}, relative to the value of the last defined L{FlagConstant}. """ if descriptor.value is _unspecified: value = cls._value cls._value <<= 1 else: value = descriptor.value cls._value = value << 1 return value constantly-15.1.0/constantly/_version.py0000644000076500000240000000073012562375377020306 0ustar redstaff00000000000000 # This file was generated by 'versioneer.py' (0.15) from # revision-control system data, or from the parent directory name of an # unpacked source archive. Distribution tarballs contain a pre-generated copy # of this file. import json import sys version_json = ''' { "dirty": false, "error": null, "full-revisionid": "c8375a7e3431792ea1b1b44678f3f6878d5e8c9a", "version": "15.1.0" } ''' # END VERSION_JSON def get_versions(): return json.loads(version_json) constantly-15.1.0/constantly.egg-info/0000755000076500000240000000000012562375377017602 5ustar redstaff00000000000000constantly-15.1.0/constantly.egg-info/dependency_links.txt0000644000076500000240000000000112562375377023650 0ustar redstaff00000000000000 constantly-15.1.0/constantly.egg-info/pbr.json0000644000076500000240000000005712562375377021262 0ustar redstaff00000000000000{"is_release": false, "git_version": "c8375a7"}constantly-15.1.0/constantly.egg-info/PKG-INFO0000644000076500000240000000251112562375377020676 0ustar redstaff00000000000000Metadata-Version: 1.1 Name: constantly Version: 15.1.0 Summary: Symbolic constants in Python Home-page: https://github.com/twisted/constantly Author: Twisted Matrix Labs Developers Author-email: UNKNOWN License: MIT Description: Constantly ========== A library that provides symbolic constant support. It includes collections and constants with text, numeric, and bit flag values. Originally ``twisted.python.constants`` from the `Twisted `_ project. Tests ----- To run tests:: $ tox This will run tests on Python 2.7, 3.3, 3.4, and PyPy, as well as doing coverage and pyflakes checks. Keywords: constants,enum,twisted Platform: UNKNOWN Classifier: Intended Audience :: Developers Classifier: License :: OSI Approved :: MIT License Classifier: Operating System :: OS Independent Classifier: Programming Language :: Python Classifier: Programming Language :: Python :: 2.7 Classifier: Programming Language :: Python :: 3.3 Classifier: Programming Language :: Python :: 3.4 Classifier: Programming Language :: Python :: Implementation :: CPython Classifier: Programming Language :: Python :: Implementation :: PyPy Classifier: Topic :: Software Development :: Libraries :: Python Modules constantly-15.1.0/constantly.egg-info/SOURCES.txt0000644000076500000240000000046312562375377021471 0ustar redstaff00000000000000CREDITS LICENSE MANIFEST.in README.rst setup.cfg setup.py versioneer.py constantly/__init__.py constantly/_constants.py constantly/_version.py constantly.egg-info/PKG-INFO constantly.egg-info/SOURCES.txt constantly.egg-info/dependency_links.txt constantly.egg-info/pbr.json constantly.egg-info/top_level.txtconstantly-15.1.0/constantly.egg-info/top_level.txt0000644000076500000240000000001312562375377022326 0ustar redstaff00000000000000constantly constantly-15.1.0/CREDITS0000644000076500000240000000012712562263077014723 0ustar redstaff00000000000000Amber Hawkie Brown Glyph Lefkowitz Jean-Paul Calderone Richard Wall Wilfredo Sánchez constantly-15.1.0/LICENSE0000644000076500000240000000213412562263077014710 0ustar redstaff00000000000000Copyright (c) 2011-2015 Twisted Matrix Laboratories & Individual Contributors (see CREDITS) Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. constantly-15.1.0/MANIFEST.in0000644000076500000240000000015012562263077015435 0ustar redstaff00000000000000include versioneer.py include constantly/_version.py include README.rst include LICENSE include CREDITS constantly-15.1.0/PKG-INFO0000644000076500000240000000251112562375377015006 0ustar redstaff00000000000000Metadata-Version: 1.1 Name: constantly Version: 15.1.0 Summary: Symbolic constants in Python Home-page: https://github.com/twisted/constantly Author: Twisted Matrix Labs Developers Author-email: UNKNOWN License: MIT Description: Constantly ========== A library that provides symbolic constant support. It includes collections and constants with text, numeric, and bit flag values. Originally ``twisted.python.constants`` from the `Twisted `_ project. Tests ----- To run tests:: $ tox This will run tests on Python 2.7, 3.3, 3.4, and PyPy, as well as doing coverage and pyflakes checks. Keywords: constants,enum,twisted Platform: UNKNOWN Classifier: Intended Audience :: Developers Classifier: License :: OSI Approved :: MIT License Classifier: Operating System :: OS Independent Classifier: Programming Language :: Python Classifier: Programming Language :: Python :: 2.7 Classifier: Programming Language :: Python :: 3.3 Classifier: Programming Language :: Python :: 3.4 Classifier: Programming Language :: Python :: Implementation :: CPython Classifier: Programming Language :: Python :: Implementation :: PyPy Classifier: Topic :: Software Development :: Libraries :: Python Modules constantly-15.1.0/README.rst0000644000076500000240000000061312562364411015364 0ustar redstaff00000000000000Constantly ========== A library that provides symbolic constant support. It includes collections and constants with text, numeric, and bit flag values. Originally ``twisted.python.constants`` from the `Twisted `_ project. Tests ----- To run tests:: $ tox This will run tests on Python 2.7, 3.3, 3.4, and PyPy, as well as doing coverage and pyflakes checks. constantly-15.1.0/setup.cfg0000644000076500000240000000040312562375377015530 0ustar redstaff00000000000000[bdist_wheel] universal = 1 [versioneer] vcs = git style = pep440 versionfile_source = constantly/_version.py versionfile_build = constantly/_version.py tag_prefix = parentdir_prefix = constantly- [egg_info] tag_build = tag_date = 0 tag_svn_revision = 0 constantly-15.1.0/setup.py0000644000076500000240000000275612562364344015426 0ustar redstaff00000000000000# Copyright (c) Twisted Matrix Laboratories. # See LICENSE for details. import codecs import os import versioneer from setuptools import setup def read(*parts): """ Build an absolute path from C{parts} and and return the contents of the resulting file. Assume UTF-8 encoding. """ here = os.path.abspath(os.path.dirname(__file__)) with codecs.open(os.path.join(here, *parts), 'r', 'utf-8') as f: return f.read() if __name__ == "__main__": setup( classifiers=[ 'Intended Audience :: Developers', 'License :: OSI Approved :: MIT License', 'Operating System :: OS Independent', 'Programming Language :: Python', 'Programming Language :: Python :: 2.7', 'Programming Language :: Python :: 3.3', 'Programming Language :: Python :: 3.4', 'Programming Language :: Python :: Implementation :: CPython', 'Programming Language :: Python :: Implementation :: PyPy', 'Topic :: Software Development :: Libraries :: Python Modules' ], description="Symbolic constants in Python", long_description=read('README.rst'), keywords="constants,enum,twisted", license="MIT", name="constantly", packages=["constantly"], url="https://github.com/twisted/constantly", maintainer='Twisted Matrix Labs Developers', version=versioneer.get_version(), cmdclass=versioneer.get_cmdclass(), ) constantly-15.1.0/versioneer.py0000644000076500000240000017201212562331215016427 0ustar redstaff00000000000000 # Version: 0.15 """ The Versioneer ============== * like a rocketeer, but for versions! * https://github.com/warner/python-versioneer * Brian Warner * License: Public Domain * Compatible With: python2.6, 2.7, 3.2, 3.3, 3.4, and pypy * [![Latest Version] (https://pypip.in/version/versioneer/badge.svg?style=flat) ](https://pypi.python.org/pypi/versioneer/) * [![Build Status] (https://travis-ci.org/warner/python-versioneer.png?branch=master) ](https://travis-ci.org/warner/python-versioneer) This is a tool for managing a recorded version number in distutils-based python projects. The goal is to remove the tedious and error-prone "update the embedded version string" step from your release process. Making a new release should be as easy as recording a new tag in your version-control system, and maybe making new tarballs. ## Quick Install * `pip install versioneer` to somewhere to your $PATH * add a `[versioneer]` section to your setup.cfg (see below) * run `versioneer install` in your source tree, commit the results ## Version Identifiers Source trees come from a variety of places: * a version-control system checkout (mostly used by developers) * a nightly tarball, produced by build automation * a snapshot tarball, produced by a web-based VCS browser, like github's "tarball from tag" feature * a release tarball, produced by "setup.py sdist", distributed through PyPI Within each source tree, the version identifier (either a string or a number, this tool is format-agnostic) can come from a variety of places: * ask the VCS tool itself, e.g. "git describe" (for checkouts), which knows about recent "tags" and an absolute revision-id * the name of the directory into which the tarball was unpacked * an expanded VCS keyword ($Id$, etc) * a `_version.py` created by some earlier build step For released software, the version identifier is closely related to a VCS tag. Some projects use tag names that include more than just the version string (e.g. "myproject-1.2" instead of just "1.2"), in which case the tool needs to strip the tag prefix to extract the version identifier. For unreleased software (between tags), the version identifier should provide enough information to help developers recreate the same tree, while also giving them an idea of roughly how old the tree is (after version 1.2, before version 1.3). Many VCS systems can report a description that captures this, for example `git describe --tags --dirty --always` reports things like "0.7-1-g574ab98-dirty" to indicate that the checkout is one revision past the 0.7 tag, has a unique revision id of "574ab98", and is "dirty" (it has uncommitted changes. The version identifier is used for multiple purposes: * to allow the module to self-identify its version: `myproject.__version__` * to choose a name and prefix for a 'setup.py sdist' tarball ## Theory of Operation Versioneer works by adding a special `_version.py` file into your source tree, where your `__init__.py` can import it. This `_version.py` knows how to dynamically ask the VCS tool for version information at import time. `_version.py` also contains `$Revision$` markers, and the installation process marks `_version.py` to have this marker rewritten with a tag name during the `git archive` command. As a result, generated tarballs will contain enough information to get the proper version. To allow `setup.py` to compute a version too, a `versioneer.py` is added to the top level of your source tree, next to `setup.py` and the `setup.cfg` that configures it. This overrides several distutils/setuptools commands to compute the version when invoked, and changes `setup.py build` and `setup.py sdist` to replace `_version.py` with a small static file that contains just the generated version data. ## Installation First, decide on values for the following configuration variables: * `VCS`: the version control system you use. Currently accepts "git". * `style`: the style of version string to be produced. See "Styles" below for details. Defaults to "pep440", which looks like `TAG[+DISTANCE.gSHORTHASH[.dirty]]`. * `versionfile_source`: A project-relative pathname into which the generated version strings should be written. This is usually a `_version.py` next to your project's main `__init__.py` file, so it can be imported at runtime. If your project uses `src/myproject/__init__.py`, this should be `src/myproject/_version.py`. This file should be checked in to your VCS as usual: the copy created below by `setup.py setup_versioneer` will include code that parses expanded VCS keywords in generated tarballs. The 'build' and 'sdist' commands will replace it with a copy that has just the calculated version string. This must be set even if your project does not have any modules (and will therefore never import `_version.py`), since "setup.py sdist" -based trees still need somewhere to record the pre-calculated version strings. Anywhere in the source tree should do. If there is a `__init__.py` next to your `_version.py`, the `setup.py setup_versioneer` command (described below) will append some `__version__`-setting assignments, if they aren't already present. * `versionfile_build`: Like `versionfile_source`, but relative to the build directory instead of the source directory. These will differ when your setup.py uses 'package_dir='. If you have `package_dir={'myproject': 'src/myproject'}`, then you will probably have `versionfile_build='myproject/_version.py'` and `versionfile_source='src/myproject/_version.py'`. If this is set to None, then `setup.py build` will not attempt to rewrite any `_version.py` in the built tree. If your project does not have any libraries (e.g. if it only builds a script), then you should use `versionfile_build = None` and override `distutils.command.build_scripts` to explicitly insert a copy of `versioneer.get_version()` into your generated script. * `tag_prefix`: a string, like 'PROJECTNAME-', which appears at the start of all VCS tags. If your tags look like 'myproject-1.2.0', then you should use tag_prefix='myproject-'. If you use unprefixed tags like '1.2.0', this should be an empty string. * `parentdir_prefix`: a optional string, frequently the same as tag_prefix, which appears at the start of all unpacked tarball filenames. If your tarball unpacks into 'myproject-1.2.0', this should be 'myproject-'. To disable this feature, just omit the field from your `setup.cfg`. This tool provides one script, named `versioneer`. That script has one mode, "install", which writes a copy of `versioneer.py` into the current directory and runs `versioneer.py setup` to finish the installation. To versioneer-enable your project: * 1: Modify your `setup.cfg`, adding a section named `[versioneer]` and populating it with the configuration values you decided earlier (note that the option names are not case-sensitive): ```` [versioneer] VCS = git style = pep440 versionfile_source = src/myproject/_version.py versionfile_build = myproject/_version.py tag_prefix = "" parentdir_prefix = myproject- ```` * 2: Run `versioneer install`. This will do the following: * copy `versioneer.py` into the top of your source tree * create `_version.py` in the right place (`versionfile_source`) * modify your `__init__.py` (if one exists next to `_version.py`) to define `__version__` (by calling a function from `_version.py`) * modify your `MANIFEST.in` to include both `versioneer.py` and the generated `_version.py` in sdist tarballs `versioneer install` will complain about any problems it finds with your `setup.py` or `setup.cfg`. Run it multiple times until you have fixed all the problems. * 3: add a `import versioneer` to your setup.py, and add the following arguments to the setup() call: version=versioneer.get_version(), cmdclass=versioneer.get_cmdclass(), * 4: commit these changes to your VCS. To make sure you won't forget, `versioneer install` will mark everything it touched for addition using `git add`. Don't forget to add `setup.py` and `setup.cfg` too. ## Post-Installation Usage Once established, all uses of your tree from a VCS checkout should get the current version string. All generated tarballs should include an embedded version string (so users who unpack them will not need a VCS tool installed). If you distribute your project through PyPI, then the release process should boil down to two steps: * 1: git tag 1.0 * 2: python setup.py register sdist upload If you distribute it through github (i.e. users use github to generate tarballs with `git archive`), the process is: * 1: git tag 1.0 * 2: git push; git push --tags Versioneer will report "0+untagged.NUMCOMMITS.gHASH" until your tree has at least one tag in its history. ## Version-String Flavors Code which uses Versioneer can learn about its version string at runtime by importing `_version` from your main `__init__.py` file and running the `get_versions()` function. From the "outside" (e.g. in `setup.py`), you can import the top-level `versioneer.py` and run `get_versions()`. Both functions return a dictionary with different flavors of version information: * `['version']`: A condensed version string, rendered using the selected style. This is the most commonly used value for the project's version string. The default "pep440" style yields strings like `0.11`, `0.11+2.g1076c97`, or `0.11+2.g1076c97.dirty`. See the "Styles" section below for alternative styles. * `['full-revisionid']`: detailed revision identifier. For Git, this is the full SHA1 commit id, e.g. "1076c978a8d3cfc70f408fe5974aa6c092c949ac". * `['dirty']`: a boolean, True if the tree has uncommitted changes. Note that this is only accurate if run in a VCS checkout, otherwise it is likely to be False or None * `['error']`: if the version string could not be computed, this will be set to a string describing the problem, otherwise it will be None. It may be useful to throw an exception in setup.py if this is set, to avoid e.g. creating tarballs with a version string of "unknown". Some variants are more useful than others. Including `full-revisionid` in a bug report should allow developers to reconstruct the exact code being tested (or indicate the presence of local changes that should be shared with the developers). `version` is suitable for display in an "about" box or a CLI `--version` output: it can be easily compared against release notes and lists of bugs fixed in various releases. The installer adds the following text to your `__init__.py` to place a basic version in `YOURPROJECT.__version__`: from ._version import get_versions __version__ = get_versions()['version'] del get_versions ## Styles The setup.cfg `style=` configuration controls how the VCS information is rendered into a version string. The default style, "pep440", produces a PEP440-compliant string, equal to the un-prefixed tag name for actual releases, and containing an additional "local version" section with more detail for in-between builds. For Git, this is TAG[+DISTANCE.gHEX[.dirty]] , using information from `git describe --tags --dirty --always`. For example "0.11+2.g1076c97.dirty" indicates that the tree is like the "1076c97" commit but has uncommitted changes (".dirty"), and that this commit is two revisions ("+2") beyond the "0.11" tag. For released software (exactly equal to a known tag), the identifier will only contain the stripped tag, e.g. "0.11". Other styles are available. See details.md in the Versioneer source tree for descriptions. ## Debugging Versioneer tries to avoid fatal errors: if something goes wrong, it will tend to return a version of "0+unknown". To investigate the problem, run `setup.py version`, which will run the version-lookup code in a verbose mode, and will display the full contents of `get_versions()` (including the `error` string, which may help identify what went wrong). ## Updating Versioneer To upgrade your project to a new release of Versioneer, do the following: * install the new Versioneer (`pip install -U versioneer` or equivalent) * edit `setup.cfg`, if necessary, to include any new configuration settings indicated by the release notes * re-run `versioneer install` in your source tree, to replace `SRC/_version.py` * commit any changed files ### Upgrading to 0.15 Starting with this version, Versioneer is configured with a `[versioneer]` section in your `setup.cfg` file. Earlier versions required the `setup.py` to set attributes on the `versioneer` module immediately after import. The new version will refuse to run (raising an exception during import) until you have provided the necessary `setup.cfg` section. In addition, the Versioneer package provides an executable named `versioneer`, and the installation process is driven by running `versioneer install`. In 0.14 and earlier, the executable was named `versioneer-installer` and was run without an argument. ### Upgrading to 0.14 0.14 changes the format of the version string. 0.13 and earlier used hyphen-separated strings like "0.11-2-g1076c97-dirty". 0.14 and beyond use a plus-separated "local version" section strings, with dot-separated components, like "0.11+2.g1076c97". PEP440-strict tools did not like the old format, but should be ok with the new one. ### Upgrading from 0.11 to 0.12 Nothing special. ### Upgrading from 0.10 to 0.11 You must add a `versioneer.VCS = "git"` to your `setup.py` before re-running `setup.py setup_versioneer`. This will enable the use of additional version-control systems (SVN, etc) in the future. ## Future Directions This tool is designed to make it easily extended to other version-control systems: all VCS-specific components are in separate directories like src/git/ . The top-level `versioneer.py` script is assembled from these components by running make-versioneer.py . In the future, make-versioneer.py will take a VCS name as an argument, and will construct a version of `versioneer.py` that is specific to the given VCS. It might also take the configuration arguments that are currently provided manually during installation by editing setup.py . Alternatively, it might go the other direction and include code from all supported VCS systems, reducing the number of intermediate scripts. ## License To make Versioneer easier to embed, all its code is hereby released into the public domain. The `_version.py` that it creates is also in the public domain. """ from __future__ import print_function try: import configparser except ImportError: import ConfigParser as configparser import errno import json import os import re import subprocess import sys class VersioneerConfig: pass def get_root(): # we require that all commands are run from the project root, i.e. the # directory that contains setup.py, setup.cfg, and versioneer.py . root = os.path.realpath(os.path.abspath(os.getcwd())) setup_py = os.path.join(root, "setup.py") versioneer_py = os.path.join(root, "versioneer.py") if not (os.path.exists(setup_py) or os.path.exists(versioneer_py)): # allow 'python path/to/setup.py COMMAND' root = os.path.dirname(os.path.realpath(os.path.abspath(sys.argv[0]))) setup_py = os.path.join(root, "setup.py") versioneer_py = os.path.join(root, "versioneer.py") if not (os.path.exists(setup_py) or os.path.exists(versioneer_py)): err = ("Versioneer was unable to run the project root directory. " "Versioneer requires setup.py to be executed from " "its immediate directory (like 'python setup.py COMMAND'), " "or in a way that lets it use sys.argv[0] to find the root " "(like 'python path/to/setup.py COMMAND').") raise VersioneerBadRootError(err) try: # Certain runtime workflows (setup.py install/develop in a setuptools # tree) execute all dependencies in a single python process, so # "versioneer" may be imported multiple times, and python's shared # module-import table will cache the first one. So we can't use # os.path.dirname(__file__), as that will find whichever # versioneer.py was first imported, even in later projects. me = os.path.realpath(os.path.abspath(__file__)) if os.path.splitext(me)[0] != os.path.splitext(versioneer_py)[0]: print("Warning: build in %s is using versioneer.py from %s" % (os.path.dirname(me), versioneer_py)) except NameError: pass return root def get_config_from_root(root): # This might raise EnvironmentError (if setup.cfg is missing), or # configparser.NoSectionError (if it lacks a [versioneer] section), or # configparser.NoOptionError (if it lacks "VCS="). See the docstring at # the top of versioneer.py for instructions on writing your setup.cfg . setup_cfg = os.path.join(root, "setup.cfg") parser = configparser.SafeConfigParser() with open(setup_cfg, "r") as f: parser.readfp(f) VCS = parser.get("versioneer", "VCS") # mandatory def get(parser, name): if parser.has_option("versioneer", name): return parser.get("versioneer", name) return None cfg = VersioneerConfig() cfg.VCS = VCS cfg.style = get(parser, "style") or "" cfg.versionfile_source = get(parser, "versionfile_source") cfg.versionfile_build = get(parser, "versionfile_build") cfg.tag_prefix = get(parser, "tag_prefix") cfg.parentdir_prefix = get(parser, "parentdir_prefix") cfg.verbose = get(parser, "verbose") return cfg class NotThisMethod(Exception): pass # these dictionaries contain VCS-specific tools LONG_VERSION_PY = {} HANDLERS = {} def register_vcs_handler(vcs, method): # decorator def decorate(f): if vcs not in HANDLERS: HANDLERS[vcs] = {} HANDLERS[vcs][method] = f return f return decorate def run_command(commands, args, cwd=None, verbose=False, hide_stderr=False): assert isinstance(commands, list) p = None for c in commands: try: dispcmd = str([c] + args) # remember shell=False, so use git.cmd on windows, not just git p = subprocess.Popen([c] + args, cwd=cwd, stdout=subprocess.PIPE, stderr=(subprocess.PIPE if hide_stderr else None)) break except EnvironmentError: e = sys.exc_info()[1] if e.errno == errno.ENOENT: continue if verbose: print("unable to run %s" % dispcmd) print(e) return None else: if verbose: print("unable to find command, tried %s" % (commands,)) return None stdout = p.communicate()[0].strip() if sys.version_info[0] >= 3: stdout = stdout.decode() if p.returncode != 0: if verbose: print("unable to run %s (error)" % dispcmd) return None return stdout LONG_VERSION_PY['git'] = ''' # This file helps to compute a version number in source trees obtained from # git-archive tarball (such as those provided by githubs download-from-tag # feature). Distribution tarballs (built by setup.py sdist) and build # directories (produced by setup.py build) will contain a much shorter file # that just contains the computed version number. # This file is released into the public domain. Generated by # versioneer-0.15 (https://github.com/warner/python-versioneer) import errno import os import re import subprocess import sys def get_keywords(): # these strings will be replaced by git during git-archive. # setup.py/versioneer.py will grep for the variable names, so they must # each be defined on a line of their own. _version.py will just call # get_keywords(). git_refnames = "%(DOLLAR)sFormat:%%d%(DOLLAR)s" git_full = "%(DOLLAR)sFormat:%%H%(DOLLAR)s" keywords = {"refnames": git_refnames, "full": git_full} return keywords class VersioneerConfig: pass def get_config(): # these strings are filled in when 'setup.py versioneer' creates # _version.py cfg = VersioneerConfig() cfg.VCS = "git" cfg.style = "%(STYLE)s" cfg.tag_prefix = "%(TAG_PREFIX)s" cfg.parentdir_prefix = "%(PARENTDIR_PREFIX)s" cfg.versionfile_source = "%(VERSIONFILE_SOURCE)s" cfg.verbose = False return cfg class NotThisMethod(Exception): pass LONG_VERSION_PY = {} HANDLERS = {} def register_vcs_handler(vcs, method): # decorator def decorate(f): if vcs not in HANDLERS: HANDLERS[vcs] = {} HANDLERS[vcs][method] = f return f return decorate def run_command(commands, args, cwd=None, verbose=False, hide_stderr=False): assert isinstance(commands, list) p = None for c in commands: try: dispcmd = str([c] + args) # remember shell=False, so use git.cmd on windows, not just git p = subprocess.Popen([c] + args, cwd=cwd, stdout=subprocess.PIPE, stderr=(subprocess.PIPE if hide_stderr else None)) break except EnvironmentError: e = sys.exc_info()[1] if e.errno == errno.ENOENT: continue if verbose: print("unable to run %%s" %% dispcmd) print(e) return None else: if verbose: print("unable to find command, tried %%s" %% (commands,)) return None stdout = p.communicate()[0].strip() if sys.version_info[0] >= 3: stdout = stdout.decode() if p.returncode != 0: if verbose: print("unable to run %%s (error)" %% dispcmd) return None return stdout def versions_from_parentdir(parentdir_prefix, root, verbose): # Source tarballs conventionally unpack into a directory that includes # both the project name and a version string. dirname = os.path.basename(root) if not dirname.startswith(parentdir_prefix): if verbose: print("guessing rootdir is '%%s', but '%%s' doesn't start with " "prefix '%%s'" %% (root, dirname, parentdir_prefix)) raise NotThisMethod("rootdir doesn't start with parentdir_prefix") return {"version": dirname[len(parentdir_prefix):], "full-revisionid": None, "dirty": False, "error": None} @register_vcs_handler("git", "get_keywords") def git_get_keywords(versionfile_abs): # the code embedded in _version.py can just fetch the value of these # keywords. When used from setup.py, we don't want to import _version.py, # so we do it with a regexp instead. This function is not used from # _version.py. keywords = {} try: f = open(versionfile_abs, "r") for line in f.readlines(): if line.strip().startswith("git_refnames ="): mo = re.search(r'=\s*"(.*)"', line) if mo: keywords["refnames"] = mo.group(1) if line.strip().startswith("git_full ="): mo = re.search(r'=\s*"(.*)"', line) if mo: keywords["full"] = mo.group(1) f.close() except EnvironmentError: pass return keywords @register_vcs_handler("git", "keywords") def git_versions_from_keywords(keywords, tag_prefix, verbose): if not keywords: raise NotThisMethod("no keywords at all, weird") refnames = keywords["refnames"].strip() if refnames.startswith("$Format"): if verbose: print("keywords are unexpanded, not using") raise NotThisMethod("unexpanded keywords, not a git-archive tarball") refs = set([r.strip() for r in refnames.strip("()").split(",")]) # starting in git-1.8.3, tags are listed as "tag: foo-1.0" instead of # just "foo-1.0". If we see a "tag: " prefix, prefer those. TAG = "tag: " tags = set([r[len(TAG):] for r in refs if r.startswith(TAG)]) if not tags: # Either we're using git < 1.8.3, or there really are no tags. We use # a heuristic: assume all version tags have a digit. The old git %%d # expansion behaves like git log --decorate=short and strips out the # refs/heads/ and refs/tags/ prefixes that would let us distinguish # between branches and tags. By ignoring refnames without digits, we # filter out many common branch names like "release" and # "stabilization", as well as "HEAD" and "master". tags = set([r for r in refs if re.search(r'\d', r)]) if verbose: print("discarding '%%s', no digits" %% ",".join(refs-tags)) if verbose: print("likely tags: %%s" %% ",".join(sorted(tags))) for ref in sorted(tags): # sorting will prefer e.g. "2.0" over "2.0rc1" if ref.startswith(tag_prefix): r = ref[len(tag_prefix):] if verbose: print("picking %%s" %% r) return {"version": r, "full-revisionid": keywords["full"].strip(), "dirty": False, "error": None } # no suitable tags, so version is "0+unknown", but full hex is still there if verbose: print("no suitable tags, using unknown + full revision id") return {"version": "0+unknown", "full-revisionid": keywords["full"].strip(), "dirty": False, "error": "no suitable tags"} @register_vcs_handler("git", "pieces_from_vcs") def git_pieces_from_vcs(tag_prefix, root, verbose, run_command=run_command): # this runs 'git' from the root of the source tree. This only gets called # if the git-archive 'subst' keywords were *not* expanded, and # _version.py hasn't already been rewritten with a short version string, # meaning we're inside a checked out source tree. if not os.path.exists(os.path.join(root, ".git")): if verbose: print("no .git in %%s" %% root) raise NotThisMethod("no .git directory") GITS = ["git"] if sys.platform == "win32": GITS = ["git.cmd", "git.exe"] # if there is a tag, this yields TAG-NUM-gHEX[-dirty] # if there are no tags, this yields HEX[-dirty] (no NUM) describe_out = run_command(GITS, ["describe", "--tags", "--dirty", "--always", "--long"], cwd=root) # --long was added in git-1.5.5 if describe_out is None: raise NotThisMethod("'git describe' failed") describe_out = describe_out.strip() full_out = run_command(GITS, ["rev-parse", "HEAD"], cwd=root) if full_out is None: raise NotThisMethod("'git rev-parse' failed") full_out = full_out.strip() pieces = {} pieces["long"] = full_out pieces["short"] = full_out[:7] # maybe improved later pieces["error"] = None # parse describe_out. It will be like TAG-NUM-gHEX[-dirty] or HEX[-dirty] # TAG might have hyphens. git_describe = describe_out # look for -dirty suffix dirty = git_describe.endswith("-dirty") pieces["dirty"] = dirty if dirty: git_describe = git_describe[:git_describe.rindex("-dirty")] # now we have TAG-NUM-gHEX or HEX if "-" in git_describe: # TAG-NUM-gHEX mo = re.search(r'^(.+)-(\d+)-g([0-9a-f]+)$', git_describe) if not mo: # unparseable. Maybe git-describe is misbehaving? pieces["error"] = ("unable to parse git-describe output: '%%s'" %% describe_out) return pieces # tag full_tag = mo.group(1) if not full_tag.startswith(tag_prefix): if verbose: fmt = "tag '%%s' doesn't start with prefix '%%s'" print(fmt %% (full_tag, tag_prefix)) pieces["error"] = ("tag '%%s' doesn't start with prefix '%%s'" %% (full_tag, tag_prefix)) return pieces pieces["closest-tag"] = full_tag[len(tag_prefix):] # distance: number of commits since tag pieces["distance"] = int(mo.group(2)) # commit: short hex revision ID pieces["short"] = mo.group(3) else: # HEX: no tags pieces["closest-tag"] = None count_out = run_command(GITS, ["rev-list", "HEAD", "--count"], cwd=root) pieces["distance"] = int(count_out) # total number of commits return pieces def plus_or_dot(pieces): if "+" in pieces.get("closest-tag", ""): return "." return "+" def render_pep440(pieces): # now build up version string, with post-release "local version # identifier". Our goal: TAG[+DISTANCE.gHEX[.dirty]] . Note that if you # get a tagged build and then dirty it, you'll get TAG+0.gHEX.dirty # exceptions: # 1: no tags. git_describe was just HEX. 0+untagged.DISTANCE.gHEX[.dirty] if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += plus_or_dot(pieces) rendered += "%%d.g%%s" %% (pieces["distance"], pieces["short"]) if pieces["dirty"]: rendered += ".dirty" else: # exception #1 rendered = "0+untagged.%%d.g%%s" %% (pieces["distance"], pieces["short"]) if pieces["dirty"]: rendered += ".dirty" return rendered def render_pep440_pre(pieces): # TAG[.post.devDISTANCE] . No -dirty # exceptions: # 1: no tags. 0.post.devDISTANCE if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"]: rendered += ".post.dev%%d" %% pieces["distance"] else: # exception #1 rendered = "0.post.dev%%d" %% pieces["distance"] return rendered def render_pep440_post(pieces): # TAG[.postDISTANCE[.dev0]+gHEX] . The ".dev0" means dirty. Note that # .dev0 sorts backwards (a dirty tree will appear "older" than the # corresponding clean one), but you shouldn't be releasing software with # -dirty anyways. # exceptions: # 1: no tags. 0.postDISTANCE[.dev0] if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += ".post%%d" %% pieces["distance"] if pieces["dirty"]: rendered += ".dev0" rendered += plus_or_dot(pieces) rendered += "g%%s" %% pieces["short"] else: # exception #1 rendered = "0.post%%d" %% pieces["distance"] if pieces["dirty"]: rendered += ".dev0" rendered += "+g%%s" %% pieces["short"] return rendered def render_pep440_old(pieces): # TAG[.postDISTANCE[.dev0]] . The ".dev0" means dirty. # exceptions: # 1: no tags. 0.postDISTANCE[.dev0] if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += ".post%%d" %% pieces["distance"] if pieces["dirty"]: rendered += ".dev0" else: # exception #1 rendered = "0.post%%d" %% pieces["distance"] if pieces["dirty"]: rendered += ".dev0" return rendered def render_git_describe(pieces): # TAG[-DISTANCE-gHEX][-dirty], like 'git describe --tags --dirty # --always' # exceptions: # 1: no tags. HEX[-dirty] (note: no 'g' prefix) if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"]: rendered += "-%%d-g%%s" %% (pieces["distance"], pieces["short"]) else: # exception #1 rendered = pieces["short"] if pieces["dirty"]: rendered += "-dirty" return rendered def render_git_describe_long(pieces): # TAG-DISTANCE-gHEX[-dirty], like 'git describe --tags --dirty # --always -long'. The distance/hash is unconditional. # exceptions: # 1: no tags. HEX[-dirty] (note: no 'g' prefix) if pieces["closest-tag"]: rendered = pieces["closest-tag"] rendered += "-%%d-g%%s" %% (pieces["distance"], pieces["short"]) else: # exception #1 rendered = pieces["short"] if pieces["dirty"]: rendered += "-dirty" return rendered def render(pieces, style): if pieces["error"]: return {"version": "unknown", "full-revisionid": pieces.get("long"), "dirty": None, "error": pieces["error"]} if not style or style == "default": style = "pep440" # the default if style == "pep440": rendered = render_pep440(pieces) elif style == "pep440-pre": rendered = render_pep440_pre(pieces) elif style == "pep440-post": rendered = render_pep440_post(pieces) elif style == "pep440-old": rendered = render_pep440_old(pieces) elif style == "git-describe": rendered = render_git_describe(pieces) elif style == "git-describe-long": rendered = render_git_describe_long(pieces) else: raise ValueError("unknown style '%%s'" %% style) return {"version": rendered, "full-revisionid": pieces["long"], "dirty": pieces["dirty"], "error": None} def get_versions(): # I am in _version.py, which lives at ROOT/VERSIONFILE_SOURCE. If we have # __file__, we can work backwards from there to the root. Some # py2exe/bbfreeze/non-CPython implementations don't do __file__, in which # case we can only use expanded keywords. cfg = get_config() verbose = cfg.verbose try: return git_versions_from_keywords(get_keywords(), cfg.tag_prefix, verbose) except NotThisMethod: pass try: root = os.path.realpath(__file__) # versionfile_source is the relative path from the top of the source # tree (where the .git directory might live) to this file. Invert # this to find the root from __file__. for i in cfg.versionfile_source.split('/'): root = os.path.dirname(root) except NameError: return {"version": "0+unknown", "full-revisionid": None, "dirty": None, "error": "unable to find root of source tree"} try: pieces = git_pieces_from_vcs(cfg.tag_prefix, root, verbose) return render(pieces, cfg.style) except NotThisMethod: pass try: if cfg.parentdir_prefix: return versions_from_parentdir(cfg.parentdir_prefix, root, verbose) except NotThisMethod: pass return {"version": "0+unknown", "full-revisionid": None, "dirty": None, "error": "unable to compute version"} ''' @register_vcs_handler("git", "get_keywords") def git_get_keywords(versionfile_abs): # the code embedded in _version.py can just fetch the value of these # keywords. When used from setup.py, we don't want to import _version.py, # so we do it with a regexp instead. This function is not used from # _version.py. keywords = {} try: f = open(versionfile_abs, "r") for line in f.readlines(): if line.strip().startswith("git_refnames ="): mo = re.search(r'=\s*"(.*)"', line) if mo: keywords["refnames"] = mo.group(1) if line.strip().startswith("git_full ="): mo = re.search(r'=\s*"(.*)"', line) if mo: keywords["full"] = mo.group(1) f.close() except EnvironmentError: pass return keywords @register_vcs_handler("git", "keywords") def git_versions_from_keywords(keywords, tag_prefix, verbose): if not keywords: raise NotThisMethod("no keywords at all, weird") refnames = keywords["refnames"].strip() if refnames.startswith("$Format"): if verbose: print("keywords are unexpanded, not using") raise NotThisMethod("unexpanded keywords, not a git-archive tarball") refs = set([r.strip() for r in refnames.strip("()").split(",")]) # starting in git-1.8.3, tags are listed as "tag: foo-1.0" instead of # just "foo-1.0". If we see a "tag: " prefix, prefer those. TAG = "tag: " tags = set([r[len(TAG):] for r in refs if r.startswith(TAG)]) if not tags: # Either we're using git < 1.8.3, or there really are no tags. We use # a heuristic: assume all version tags have a digit. The old git %d # expansion behaves like git log --decorate=short and strips out the # refs/heads/ and refs/tags/ prefixes that would let us distinguish # between branches and tags. By ignoring refnames without digits, we # filter out many common branch names like "release" and # "stabilization", as well as "HEAD" and "master". tags = set([r for r in refs if re.search(r'\d', r)]) if verbose: print("discarding '%s', no digits" % ",".join(refs-tags)) if verbose: print("likely tags: %s" % ",".join(sorted(tags))) for ref in sorted(tags): # sorting will prefer e.g. "2.0" over "2.0rc1" if ref.startswith(tag_prefix): r = ref[len(tag_prefix):] if verbose: print("picking %s" % r) return {"version": r, "full-revisionid": keywords["full"].strip(), "dirty": False, "error": None } # no suitable tags, so version is "0+unknown", but full hex is still there if verbose: print("no suitable tags, using unknown + full revision id") return {"version": "0+unknown", "full-revisionid": keywords["full"].strip(), "dirty": False, "error": "no suitable tags"} @register_vcs_handler("git", "pieces_from_vcs") def git_pieces_from_vcs(tag_prefix, root, verbose, run_command=run_command): # this runs 'git' from the root of the source tree. This only gets called # if the git-archive 'subst' keywords were *not* expanded, and # _version.py hasn't already been rewritten with a short version string, # meaning we're inside a checked out source tree. if not os.path.exists(os.path.join(root, ".git")): if verbose: print("no .git in %s" % root) raise NotThisMethod("no .git directory") GITS = ["git"] if sys.platform == "win32": GITS = ["git.cmd", "git.exe"] # if there is a tag, this yields TAG-NUM-gHEX[-dirty] # if there are no tags, this yields HEX[-dirty] (no NUM) describe_out = run_command(GITS, ["describe", "--tags", "--dirty", "--always", "--long"], cwd=root) # --long was added in git-1.5.5 if describe_out is None: raise NotThisMethod("'git describe' failed") describe_out = describe_out.strip() full_out = run_command(GITS, ["rev-parse", "HEAD"], cwd=root) if full_out is None: raise NotThisMethod("'git rev-parse' failed") full_out = full_out.strip() pieces = {} pieces["long"] = full_out pieces["short"] = full_out[:7] # maybe improved later pieces["error"] = None # parse describe_out. It will be like TAG-NUM-gHEX[-dirty] or HEX[-dirty] # TAG might have hyphens. git_describe = describe_out # look for -dirty suffix dirty = git_describe.endswith("-dirty") pieces["dirty"] = dirty if dirty: git_describe = git_describe[:git_describe.rindex("-dirty")] # now we have TAG-NUM-gHEX or HEX if "-" in git_describe: # TAG-NUM-gHEX mo = re.search(r'^(.+)-(\d+)-g([0-9a-f]+)$', git_describe) if not mo: # unparseable. Maybe git-describe is misbehaving? pieces["error"] = ("unable to parse git-describe output: '%s'" % describe_out) return pieces # tag full_tag = mo.group(1) if not full_tag.startswith(tag_prefix): if verbose: fmt = "tag '%s' doesn't start with prefix '%s'" print(fmt % (full_tag, tag_prefix)) pieces["error"] = ("tag '%s' doesn't start with prefix '%s'" % (full_tag, tag_prefix)) return pieces pieces["closest-tag"] = full_tag[len(tag_prefix):] # distance: number of commits since tag pieces["distance"] = int(mo.group(2)) # commit: short hex revision ID pieces["short"] = mo.group(3) else: # HEX: no tags pieces["closest-tag"] = None count_out = run_command(GITS, ["rev-list", "HEAD", "--count"], cwd=root) pieces["distance"] = int(count_out) # total number of commits return pieces def do_vcs_install(manifest_in, versionfile_source, ipy): GITS = ["git"] if sys.platform == "win32": GITS = ["git.cmd", "git.exe"] files = [manifest_in, versionfile_source] if ipy: files.append(ipy) try: me = __file__ if me.endswith(".pyc") or me.endswith(".pyo"): me = os.path.splitext(me)[0] + ".py" versioneer_file = os.path.relpath(me) except NameError: versioneer_file = "versioneer.py" files.append(versioneer_file) present = False try: f = open(".gitattributes", "r") for line in f.readlines(): if line.strip().startswith(versionfile_source): if "export-subst" in line.strip().split()[1:]: present = True f.close() except EnvironmentError: pass if not present: f = open(".gitattributes", "a+") f.write("%s export-subst\n" % versionfile_source) f.close() files.append(".gitattributes") run_command(GITS, ["add", "--"] + files) def versions_from_parentdir(parentdir_prefix, root, verbose): # Source tarballs conventionally unpack into a directory that includes # both the project name and a version string. dirname = os.path.basename(root) if not dirname.startswith(parentdir_prefix): if verbose: print("guessing rootdir is '%s', but '%s' doesn't start with " "prefix '%s'" % (root, dirname, parentdir_prefix)) raise NotThisMethod("rootdir doesn't start with parentdir_prefix") return {"version": dirname[len(parentdir_prefix):], "full-revisionid": None, "dirty": False, "error": None} SHORT_VERSION_PY = """ # This file was generated by 'versioneer.py' (0.15) from # revision-control system data, or from the parent directory name of an # unpacked source archive. Distribution tarballs contain a pre-generated copy # of this file. import json import sys version_json = ''' %s ''' # END VERSION_JSON def get_versions(): return json.loads(version_json) """ def versions_from_file(filename): try: with open(filename) as f: contents = f.read() except EnvironmentError: raise NotThisMethod("unable to read _version.py") mo = re.search(r"version_json = '''\n(.*)''' # END VERSION_JSON", contents, re.M | re.S) if not mo: raise NotThisMethod("no version_json in _version.py") return json.loads(mo.group(1)) def write_to_version_file(filename, versions): os.unlink(filename) contents = json.dumps(versions, sort_keys=True, indent=1, separators=(",", ": ")) with open(filename, "w") as f: f.write(SHORT_VERSION_PY % contents) print("set %s to '%s'" % (filename, versions["version"])) def plus_or_dot(pieces): if "+" in pieces.get("closest-tag", ""): return "." return "+" def render_pep440(pieces): # now build up version string, with post-release "local version # identifier". Our goal: TAG[+DISTANCE.gHEX[.dirty]] . Note that if you # get a tagged build and then dirty it, you'll get TAG+0.gHEX.dirty # exceptions: # 1: no tags. git_describe was just HEX. 0+untagged.DISTANCE.gHEX[.dirty] if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += plus_or_dot(pieces) rendered += "%d.g%s" % (pieces["distance"], pieces["short"]) if pieces["dirty"]: rendered += ".dirty" else: # exception #1 rendered = "0+untagged.%d.g%s" % (pieces["distance"], pieces["short"]) if pieces["dirty"]: rendered += ".dirty" return rendered def render_pep440_pre(pieces): # TAG[.post.devDISTANCE] . No -dirty # exceptions: # 1: no tags. 0.post.devDISTANCE if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"]: rendered += ".post.dev%d" % pieces["distance"] else: # exception #1 rendered = "0.post.dev%d" % pieces["distance"] return rendered def render_pep440_post(pieces): # TAG[.postDISTANCE[.dev0]+gHEX] . The ".dev0" means dirty. Note that # .dev0 sorts backwards (a dirty tree will appear "older" than the # corresponding clean one), but you shouldn't be releasing software with # -dirty anyways. # exceptions: # 1: no tags. 0.postDISTANCE[.dev0] if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += ".post%d" % pieces["distance"] if pieces["dirty"]: rendered += ".dev0" rendered += plus_or_dot(pieces) rendered += "g%s" % pieces["short"] else: # exception #1 rendered = "0.post%d" % pieces["distance"] if pieces["dirty"]: rendered += ".dev0" rendered += "+g%s" % pieces["short"] return rendered def render_pep440_old(pieces): # TAG[.postDISTANCE[.dev0]] . The ".dev0" means dirty. # exceptions: # 1: no tags. 0.postDISTANCE[.dev0] if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += ".post%d" % pieces["distance"] if pieces["dirty"]: rendered += ".dev0" else: # exception #1 rendered = "0.post%d" % pieces["distance"] if pieces["dirty"]: rendered += ".dev0" return rendered def render_git_describe(pieces): # TAG[-DISTANCE-gHEX][-dirty], like 'git describe --tags --dirty # --always' # exceptions: # 1: no tags. HEX[-dirty] (note: no 'g' prefix) if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"]: rendered += "-%d-g%s" % (pieces["distance"], pieces["short"]) else: # exception #1 rendered = pieces["short"] if pieces["dirty"]: rendered += "-dirty" return rendered def render_git_describe_long(pieces): # TAG-DISTANCE-gHEX[-dirty], like 'git describe --tags --dirty # --always -long'. The distance/hash is unconditional. # exceptions: # 1: no tags. HEX[-dirty] (note: no 'g' prefix) if pieces["closest-tag"]: rendered = pieces["closest-tag"] rendered += "-%d-g%s" % (pieces["distance"], pieces["short"]) else: # exception #1 rendered = pieces["short"] if pieces["dirty"]: rendered += "-dirty" return rendered def render(pieces, style): if pieces["error"]: return {"version": "unknown", "full-revisionid": pieces.get("long"), "dirty": None, "error": pieces["error"]} if not style or style == "default": style = "pep440" # the default if style == "pep440": rendered = render_pep440(pieces) elif style == "pep440-pre": rendered = render_pep440_pre(pieces) elif style == "pep440-post": rendered = render_pep440_post(pieces) elif style == "pep440-old": rendered = render_pep440_old(pieces) elif style == "git-describe": rendered = render_git_describe(pieces) elif style == "git-describe-long": rendered = render_git_describe_long(pieces) else: raise ValueError("unknown style '%s'" % style) return {"version": rendered, "full-revisionid": pieces["long"], "dirty": pieces["dirty"], "error": None} class VersioneerBadRootError(Exception): pass def get_versions(verbose=False): # returns dict with two keys: 'version' and 'full' if "versioneer" in sys.modules: # see the discussion in cmdclass.py:get_cmdclass() del sys.modules["versioneer"] root = get_root() cfg = get_config_from_root(root) assert cfg.VCS is not None, "please set [versioneer]VCS= in setup.cfg" handlers = HANDLERS.get(cfg.VCS) assert handlers, "unrecognized VCS '%s'" % cfg.VCS verbose = verbose or cfg.verbose assert cfg.versionfile_source is not None, \ "please set versioneer.versionfile_source" assert cfg.tag_prefix is not None, "please set versioneer.tag_prefix" versionfile_abs = os.path.join(root, cfg.versionfile_source) # extract version from first of: _version.py, VCS command (e.g. 'git # describe'), parentdir. This is meant to work for developers using a # source checkout, for users of a tarball created by 'setup.py sdist', # and for users of a tarball/zipball created by 'git archive' or github's # download-from-tag feature or the equivalent in other VCSes. get_keywords_f = handlers.get("get_keywords") from_keywords_f = handlers.get("keywords") if get_keywords_f and from_keywords_f: try: keywords = get_keywords_f(versionfile_abs) ver = from_keywords_f(keywords, cfg.tag_prefix, verbose) if verbose: print("got version from expanded keyword %s" % ver) return ver except NotThisMethod: pass try: ver = versions_from_file(versionfile_abs) if verbose: print("got version from file %s %s" % (versionfile_abs, ver)) return ver except NotThisMethod: pass from_vcs_f = handlers.get("pieces_from_vcs") if from_vcs_f: try: pieces = from_vcs_f(cfg.tag_prefix, root, verbose) ver = render(pieces, cfg.style) if verbose: print("got version from VCS %s" % ver) return ver except NotThisMethod: pass try: if cfg.parentdir_prefix: ver = versions_from_parentdir(cfg.parentdir_prefix, root, verbose) if verbose: print("got version from parentdir %s" % ver) return ver except NotThisMethod: pass if verbose: print("unable to compute version") return {"version": "0+unknown", "full-revisionid": None, "dirty": None, "error": "unable to compute version"} def get_version(): return get_versions()["version"] def get_cmdclass(): if "versioneer" in sys.modules: del sys.modules["versioneer"] # this fixes the "python setup.py develop" case (also 'install' and # 'easy_install .'), in which subdependencies of the main project are # built (using setup.py bdist_egg) in the same python process. Assume # a main project A and a dependency B, which use different versions # of Versioneer. A's setup.py imports A's Versioneer, leaving it in # sys.modules by the time B's setup.py is executed, causing B to run # with the wrong versioneer. Setuptools wraps the sub-dep builds in a # sandbox that restores sys.modules to it's pre-build state, so the # parent is protected against the child's "import versioneer". By # removing ourselves from sys.modules here, before the child build # happens, we protect the child from the parent's versioneer too. # Also see https://github.com/warner/python-versioneer/issues/52 cmds = {} # we add "version" to both distutils and setuptools from distutils.core import Command class cmd_version(Command): description = "report generated version string" user_options = [] boolean_options = [] def initialize_options(self): pass def finalize_options(self): pass def run(self): vers = get_versions(verbose=True) print("Version: %s" % vers["version"]) print(" full-revisionid: %s" % vers.get("full-revisionid")) print(" dirty: %s" % vers.get("dirty")) if vers["error"]: print(" error: %s" % vers["error"]) cmds["version"] = cmd_version # we override "build_py" in both distutils and setuptools # # most invocation pathways end up running build_py: # distutils/build -> build_py # distutils/install -> distutils/build ->.. # setuptools/bdist_wheel -> distutils/install ->.. # setuptools/bdist_egg -> distutils/install_lib -> build_py # setuptools/install -> bdist_egg ->.. # setuptools/develop -> ? from distutils.command.build_py import build_py as _build_py class cmd_build_py(_build_py): def run(self): root = get_root() cfg = get_config_from_root(root) versions = get_versions() _build_py.run(self) # now locate _version.py in the new build/ directory and replace # it with an updated value if cfg.versionfile_build: target_versionfile = os.path.join(self.build_lib, cfg.versionfile_build) print("UPDATING %s" % target_versionfile) write_to_version_file(target_versionfile, versions) cmds["build_py"] = cmd_build_py if "cx_Freeze" in sys.modules: # cx_freeze enabled? from cx_Freeze.dist import build_exe as _build_exe class cmd_build_exe(_build_exe): def run(self): root = get_root() cfg = get_config_from_root(root) versions = get_versions() target_versionfile = cfg.versionfile_source print("UPDATING %s" % target_versionfile) write_to_version_file(target_versionfile, versions) _build_exe.run(self) os.unlink(target_versionfile) with open(cfg.versionfile_source, "w") as f: LONG = LONG_VERSION_PY[cfg.VCS] f.write(LONG % {"DOLLAR": "$", "STYLE": cfg.style, "TAG_PREFIX": cfg.tag_prefix, "PARENTDIR_PREFIX": cfg.parentdir_prefix, "VERSIONFILE_SOURCE": cfg.versionfile_source, }) cmds["build_exe"] = cmd_build_exe del cmds["build_py"] # we override different "sdist" commands for both environments if "setuptools" in sys.modules: from setuptools.command.sdist import sdist as _sdist else: from distutils.command.sdist import sdist as _sdist class cmd_sdist(_sdist): def run(self): versions = get_versions() self._versioneer_generated_versions = versions # unless we update this, the command will keep using the old # version self.distribution.metadata.version = versions["version"] return _sdist.run(self) def make_release_tree(self, base_dir, files): root = get_root() cfg = get_config_from_root(root) _sdist.make_release_tree(self, base_dir, files) # now locate _version.py in the new base_dir directory # (remembering that it may be a hardlink) and replace it with an # updated value target_versionfile = os.path.join(base_dir, cfg.versionfile_source) print("UPDATING %s" % target_versionfile) write_to_version_file(target_versionfile, self._versioneer_generated_versions) cmds["sdist"] = cmd_sdist return cmds CONFIG_ERROR = """ setup.cfg is missing the necessary Versioneer configuration. You need a section like: [versioneer] VCS = git style = pep440 versionfile_source = src/myproject/_version.py versionfile_build = myproject/_version.py tag_prefix = "" parentdir_prefix = myproject- You will also need to edit your setup.py to use the results: import versioneer setup(version=versioneer.get_version(), cmdclass=versioneer.get_cmdclass(), ...) Please read the docstring in ./versioneer.py for configuration instructions, edit setup.cfg, and re-run the installer or 'python versioneer.py setup'. """ SAMPLE_CONFIG = """ # See the docstring in versioneer.py for instructions. Note that you must # re-run 'versioneer.py setup' after changing this section, and commit the # resulting files. [versioneer] #VCS = git #style = pep440 #versionfile_source = #versionfile_build = #tag_prefix = #parentdir_prefix = """ INIT_PY_SNIPPET = """ from ._version import get_versions __version__ = get_versions()['version'] del get_versions """ def do_setup(): root = get_root() try: cfg = get_config_from_root(root) except (EnvironmentError, configparser.NoSectionError, configparser.NoOptionError) as e: if isinstance(e, (EnvironmentError, configparser.NoSectionError)): print("Adding sample versioneer config to setup.cfg", file=sys.stderr) with open(os.path.join(root, "setup.cfg"), "a") as f: f.write(SAMPLE_CONFIG) print(CONFIG_ERROR, file=sys.stderr) return 1 print(" creating %s" % cfg.versionfile_source) with open(cfg.versionfile_source, "w") as f: LONG = LONG_VERSION_PY[cfg.VCS] f.write(LONG % {"DOLLAR": "$", "STYLE": cfg.style, "TAG_PREFIX": cfg.tag_prefix, "PARENTDIR_PREFIX": cfg.parentdir_prefix, "VERSIONFILE_SOURCE": cfg.versionfile_source, }) ipy = os.path.join(os.path.dirname(cfg.versionfile_source), "__init__.py") if os.path.exists(ipy): try: with open(ipy, "r") as f: old = f.read() except EnvironmentError: old = "" if INIT_PY_SNIPPET not in old: print(" appending to %s" % ipy) with open(ipy, "a") as f: f.write(INIT_PY_SNIPPET) else: print(" %s unmodified" % ipy) else: print(" %s doesn't exist, ok" % ipy) ipy = None # Make sure both the top-level "versioneer.py" and versionfile_source # (PKG/_version.py, used by runtime code) are in MANIFEST.in, so # they'll be copied into source distributions. Pip won't be able to # install the package without this. manifest_in = os.path.join(root, "MANIFEST.in") simple_includes = set() try: with open(manifest_in, "r") as f: for line in f: if line.startswith("include "): for include in line.split()[1:]: simple_includes.add(include) except EnvironmentError: pass # That doesn't cover everything MANIFEST.in can do # (http://docs.python.org/2/distutils/sourcedist.html#commands), so # it might give some false negatives. Appending redundant 'include' # lines is safe, though. if "versioneer.py" not in simple_includes: print(" appending 'versioneer.py' to MANIFEST.in") with open(manifest_in, "a") as f: f.write("include versioneer.py\n") else: print(" 'versioneer.py' already in MANIFEST.in") if cfg.versionfile_source not in simple_includes: print(" appending versionfile_source ('%s') to MANIFEST.in" % cfg.versionfile_source) with open(manifest_in, "a") as f: f.write("include %s\n" % cfg.versionfile_source) else: print(" versionfile_source already in MANIFEST.in") # Make VCS-specific changes. For git, this means creating/changing # .gitattributes to mark _version.py for export-time keyword # substitution. do_vcs_install(manifest_in, cfg.versionfile_source, ipy) return 0 def scan_setup_py(): found = set() setters = False errors = 0 with open("setup.py", "r") as f: for line in f.readlines(): if "import versioneer" in line: found.add("import") if "versioneer.get_cmdclass()" in line: found.add("cmdclass") if "versioneer.get_version()" in line: found.add("get_version") if "versioneer.VCS" in line: setters = True if "versioneer.versionfile_source" in line: setters = True if len(found) != 3: print("") print("Your setup.py appears to be missing some important items") print("(but I might be wrong). Please make sure it has something") print("roughly like the following:") print("") print(" import versioneer") print(" setup( version=versioneer.get_version(),") print(" cmdclass=versioneer.get_cmdclass(), ...)") print("") errors += 1 if setters: print("You should remove lines like 'versioneer.VCS = ' and") print("'versioneer.versionfile_source = ' . This configuration") print("now lives in setup.cfg, and should be removed from setup.py") print("") errors += 1 return errors if __name__ == "__main__": cmd = sys.argv[1] if cmd == "setup": errors = do_setup() errors += scan_setup_py() if errors: sys.exit(1)