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| Current File : //lib/python3/dist-packages/__pycache__/../incremental/__init__.py |
# Copyright (c) Twisted Matrix Laboratories.
# See LICENSE for details.
"""
Versions for Python packages.
See L{Version}.
"""
from __future__ import division, absolute_import
import os
import sys
import warnings
#
# Compat functions
#
if sys.version_info < (3, 0):
_PY3 = False
else:
_PY3 = True
unicode = str
def _nativeString(s):
"""
Convert C{bytes} or C{unicode} to the native C{str} type, using ASCII
encoding if conversion is necessary.
@raise UnicodeError: The input string is not ASCII encodable/decodable.
@raise TypeError: The input is neither C{bytes} nor C{unicode}.
"""
if not isinstance(s, (bytes, unicode)):
raise TypeError("%r is neither bytes nor unicode" % s)
if _PY3:
if isinstance(s, bytes):
return s.decode("ascii")
else:
# Ensure we're limited to ASCII subset:
s.encode("ascii")
else:
if isinstance(s, unicode):
return s.encode("ascii")
else:
# Ensure we're limited to ASCII subset:
s.decode("ascii")
return s
try:
_cmp = cmp
except NameError:
def _cmp(a, b):
"""
Compare two objects.
Returns a negative number if C{a < b}, zero if they are equal, and a
positive number if C{a > b}.
"""
if a < b:
return -1
elif a == b:
return 0
else:
return 1
def _comparable(klass):
"""
Class decorator that ensures support for the special C{__cmp__} method.
On Python 2 this does nothing.
On Python 3, C{__eq__}, C{__lt__}, etc. methods are added to the class,
relying on C{__cmp__} to implement their comparisons.
"""
# On Python 2, __cmp__ will just work, so no need to add extra methods:
if not _PY3:
return klass
def __eq__(self, other):
c = self.__cmp__(other)
if c is NotImplemented:
return c
return c == 0
def __ne__(self, other):
c = self.__cmp__(other)
if c is NotImplemented:
return c
return c != 0
def __lt__(self, other):
c = self.__cmp__(other)
if c is NotImplemented:
return c
return c < 0
def __le__(self, other):
c = self.__cmp__(other)
if c is NotImplemented:
return c
return c <= 0
def __gt__(self, other):
c = self.__cmp__(other)
if c is NotImplemented:
return c
return c > 0
def __ge__(self, other):
c = self.__cmp__(other)
if c is NotImplemented:
return c
return c >= 0
klass.__lt__ = __lt__
klass.__gt__ = __gt__
klass.__le__ = __le__
klass.__ge__ = __ge__
klass.__eq__ = __eq__
klass.__ne__ = __ne__
return klass
#
# Versioning
#
@_comparable
class _inf(object):
"""
An object that is bigger than all other objects.
"""
def __cmp__(self, other):
"""
@param other: Another object.
@type other: any
@return: 0 if other is inf, 1 otherwise.
@rtype: C{int}
"""
if other is _inf:
return 0
return 1
_inf = _inf()
class IncomparableVersions(TypeError):
"""
Two versions could not be compared.
"""
@_comparable
class Version(object):
"""
An encapsulation of a version for a project, with support for outputting
PEP-440 compatible version strings.
This class supports the standard major.minor.micro[rcN] scheme of
versioning, with support for "local versions" which may include a SVN
revision or Git SHA1 hash.
"""
def __init__(self, package, major, minor, micro, release_candidate=None,
prerelease=None, dev=None):
"""
@param package: Name of the package that this is a version of.
@type package: C{str}
@param major: The major version number.
@type major: C{int} or C{str} (for the "NEXT" symbol)
@param minor: The minor version number.
@type minor: C{int}
@param micro: The micro version number.
@type micro: C{int}
@param release_candidate: The release candidate number.
@type release_candidate: C{int}
@param prerelease: The prerelease number. (Deprecated)
@type prerelease: C{int}
@param dev: The development release number.
@type dev: C{int}
"""
if release_candidate and prerelease:
raise ValueError("Please only return one of these.")
elif prerelease and not release_candidate:
release_candidate = prerelease
warnings.warn(("Passing prerelease to incremental.Version was "
"deprecated in Incremental 16.9.0. Please pass "
"release_candidate instead."),
DeprecationWarning, stacklevel=2)
if major == "NEXT":
if minor or micro or release_candidate or dev:
raise ValueError(("When using NEXT, all other values except "
"Package must be 0."))
self.package = package
self.major = major
self.minor = minor
self.micro = micro
self.release_candidate = release_candidate
self.dev = dev
@property
def prerelease(self):
warnings.warn(("Accessing incremental.Version.prerelease was "
"deprecated in Incremental 16.9.0. Use "
"Version.release_candidate instead."),
DeprecationWarning, stacklevel=2),
return self.release_candidate
def short(self):
"""
Return a string in canonical short version format,
<major>.<minor>.<micro>[+rSVNVer/+gitsha1].
"""
s = self.base()
gitver = self._getGitVersion()
if not gitver:
svnver = self._getSVNVersion()
if svnver:
s += '+r' + _nativeString(svnver)
else:
s += '+' + gitver
return s
def local(self):
"""
Return a PEP440-compatible "local" representation of this L{Version}.
This includes a SVN revision or Git commit SHA1 hash, if available.
Examples:
- 14.4.0+r1223
- 1.2.3rc1+rb2e812003b5d5fcf08efd1dffed6afa98d44ac8c
- 12.10.1
- 3.4.8rc2
- 11.93.0rc1dev3
"""
return self.short()
def public(self):
"""
Return a PEP440-compatible "public" representation of this L{Version}.
Examples:
- 14.4.0
- 1.2.3rc1
- 14.2.1rc1dev9
- 16.04.0dev0
"""
return self.base()
def base(self):
"""
Like L{short}, but without the +rSVNVer or @gitsha1.
"""
if self.major == "NEXT":
return self.major
if self.release_candidate is None:
rc = ""
else:
rc = "rc%s" % (self.release_candidate,)
if self.dev is None:
dev = ""
else:
dev = "dev%s" % (self.dev,)
return '%r.%d.%d%s%s' % (self.major,
self.minor,
self.micro,
rc, dev)
def __repr__(self):
# Git repr
gitver = self._formatGitVersion()
if gitver:
gitver = ' #' + gitver
# SVN repr
svnver = self._formatSVNVersion()
if svnver:
svnver = ' #' + svnver
if self.release_candidate is None:
release_candidate = ""
else:
release_candidate = ", release_candidate=%r" % (
self.release_candidate,)
if self.dev is None:
dev = ""
else:
dev = ", dev=%r" % (self.dev,)
return '%s(%r, %r, %d, %d%s%s)%s' % (
self.__class__.__name__,
self.package,
self.major,
self.minor,
self.micro,
release_candidate,
dev,
gitver or svnver)
def __str__(self):
return '[%s, version %s]' % (
self.package,
self.short())
def __cmp__(self, other):
"""
Compare two versions, considering major versions, minor versions, micro
versions, then release candidates. Package names are case insensitive.
A version with a release candidate is always less than a version
without a release candidate. If both versions have release candidates,
they will be included in the comparison.
@param other: Another version.
@type other: L{Version}
@return: NotImplemented when the other object is not a Version, or one
of -1, 0, or 1.
@raise IncomparableVersions: when the package names of the versions
differ.
"""
if not isinstance(other, self.__class__):
return NotImplemented
if self.package.lower() != other.package.lower():
raise IncomparableVersions("%r != %r"
% (self.package, other.package))
if self.major == "NEXT":
major = _inf
else:
major = self.major
if self.release_candidate is None:
release_candidate = _inf
else:
release_candidate = self.release_candidate
if self.dev is None:
dev = _inf
else:
dev = self.dev
if other.major == "NEXT":
othermajor = _inf
else:
othermajor = other.major
if other.release_candidate is None:
otherrc = _inf
else:
otherrc = other.release_candidate
if other.dev is None:
otherdev = _inf
else:
otherdev = other.dev
x = _cmp((major,
self.minor,
self.micro,
release_candidate,
dev),
(othermajor,
other.minor,
other.micro,
otherrc,
otherdev))
return x
def _parseGitDir(self, directory):
headFile = os.path.abspath(os.path.join(directory, 'HEAD'))
with open(headFile, "r") as f:
headContent = f.read().strip()
if headContent.startswith("ref: "):
with open(os.path.abspath(
os.path.join(directory,
headContent.split(" ")[1]))) as f:
commit = f.read()
return commit.strip()
return headContent
def _getGitVersion(self):
"""
Given a package directory, walk up and find the git commit sha.
"""
mod = sys.modules.get(self.package)
if mod:
basepath = os.path.dirname(mod.__file__)
upOne = os.path.abspath(os.path.join(basepath, '..'))
if ".git" in os.listdir(upOne):
return self._parseGitDir(os.path.join(upOne, '.git'))
while True:
upOneMore = os.path.abspath(os.path.join(upOne, '..'))
if upOneMore == upOne:
return None
if ".git" in os.listdir(upOneMore):
return self._parseGitDir(os.path.join(upOneMore, '.git'))
upOne = upOneMore
def _parseSVNEntries_4(self, entriesFile):
"""
Given a readable file object which represents a .svn/entries file in
format version 4, return the revision as a string. We do this by
reading first XML element in the document that has a 'revision'
attribute.
"""
from xml.dom.minidom import parse
doc = parse(entriesFile).documentElement
for node in doc.childNodes:
if hasattr(node, 'getAttribute'):
rev = node.getAttribute('revision')
if rev is not None:
return rev.encode('ascii')
def _parseSVNEntries_8(self, entriesFile):
"""
Given a readable file object which represents a .svn/entries file in
format version 8, return the revision as a string.
"""
entriesFile.readline()
entriesFile.readline()
entriesFile.readline()
return entriesFile.readline().strip()
# Add handlers for version 9 and 10 formats, which are the same as
# version 8 as far as revision information is concerned.
_parseSVNEntries_9 = _parseSVNEntries_8
_parseSVNEntriesTenPlus = _parseSVNEntries_8
def _getSVNVersion(self):
"""
Figure out the SVN revision number based on the existence of
<package>/.svn/entries, and its contents. This requires discovering the
format version from the 'format' file and parsing the entries file
accordingly.
@return: None or string containing SVN Revision number.
"""
mod = sys.modules.get(self.package)
if mod:
svn = os.path.join(os.path.dirname(mod.__file__), '.svn')
if not os.path.exists(svn):
# It's not an svn working copy
return None
formatFile = os.path.join(svn, 'format')
if os.path.exists(formatFile):
# It looks like a less-than-version-10 working copy.
with open(formatFile, 'rb') as fObj:
format = fObj.read().strip()
parser = getattr(self,
'_parseSVNEntries_' + format.decode('ascii'),
None)
else:
# It looks like a version-10-or-greater working copy, which
# has version information in the entries file.
parser = self._parseSVNEntriesTenPlus
if parser is None:
return b'Unknown'
entriesFile = os.path.join(svn, 'entries')
entries = open(entriesFile, 'rb')
try:
try:
return parser(entries)
finally:
entries.close()
except:
return b'Unknown'
def _formatSVNVersion(self):
ver = self._getSVNVersion()
if ver is None:
return ''
return ' (SVN r%s)' % (ver,)
def _formatGitVersion(self):
ver = self._getGitVersion()
if ver is None:
return ''
return ' (Git %s)' % (ver,)
def getVersionString(version):
"""
Get a friendly string for the given version object.
@param version: A L{Version} object.
@return: A string containing the package and short version number.
"""
result = '%s %s' % (version.package, version.short())
return result
def _get_version(dist, keyword, value):
"""
Get the version from the package listed in the Distribution.
"""
if not value:
return
from distutils.command import build_py
sp_command = build_py.build_py(dist)
sp_command.finalize_options()
for item in sp_command.find_all_modules():
if item[1] == "_version":
version_file = {}
with open(item[2]) as f:
exec(f.read(), version_file)
dist.metadata.version = version_file["__version__"].public()
return None
raise Exception("No _version.py found.")
from ._version import __version__ # noqa
__all__ = ["__version__", "Version", "getVersionString"]
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