Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

403WebShell
403Webshell
Server IP : 66.29.132.124  /  Your IP : 18.189.182.15
Web Server : LiteSpeed
System : Linux business141.web-hosting.com 4.18.0-553.lve.el8.x86_64 #1 SMP Mon May 27 15:27:34 UTC 2024 x86_64
User : wavevlvu ( 1524)
PHP Version : 7.4.33
Disable Function : NONE
MySQL : OFF  |  cURL : ON  |  WGET : ON  |  Perl : ON  |  Python : ON  |  Sudo : OFF  |  Pkexec : OFF
Directory :  /opt/alt/python311/lib/python3.11/site-packages/pip/_vendor/distlib/

Upload File :
current_dir [ Writeable ] document_root [ Writeable ]

 

Command :


[ Back ]     

Current File : /opt/alt/python311/lib/python3.11/site-packages/pip/_vendor/distlib/version.py
# -*- coding: utf-8 -*-
#
# Copyright (C) 2012-2017 The Python Software Foundation.
# See LICENSE.txt and CONTRIBUTORS.txt.
#
"""
Implementation of a flexible versioning scheme providing support for PEP-440,
setuptools-compatible and semantic versioning.
"""

import logging
import re

from .compat import string_types
from .util import parse_requirement

__all__ = ['NormalizedVersion', 'NormalizedMatcher',
           'LegacyVersion', 'LegacyMatcher',
           'SemanticVersion', 'SemanticMatcher',
           'UnsupportedVersionError', 'get_scheme']

logger = logging.getLogger(__name__)


class UnsupportedVersionError(ValueError):
    """This is an unsupported version."""
    pass


class Version(object):
    def __init__(self, s):
        self._string = s = s.strip()
        self._parts = parts = self.parse(s)
        assert isinstance(parts, tuple)
        assert len(parts) > 0

    def parse(self, s):
        raise NotImplementedError('please implement in a subclass')

    def _check_compatible(self, other):
        if type(self) != type(other):
            raise TypeError('cannot compare %r and %r' % (self, other))

    def __eq__(self, other):
        self._check_compatible(other)
        return self._parts == other._parts

    def __ne__(self, other):
        return not self.__eq__(other)

    def __lt__(self, other):
        self._check_compatible(other)
        return self._parts < other._parts

    def __gt__(self, other):
        return not (self.__lt__(other) or self.__eq__(other))

    def __le__(self, other):
        return self.__lt__(other) or self.__eq__(other)

    def __ge__(self, other):
        return self.__gt__(other) or self.__eq__(other)

    # See http://docs.python.org/reference/datamodel#object.__hash__
    def __hash__(self):
        return hash(self._parts)

    def __repr__(self):
        return "%s('%s')" % (self.__class__.__name__, self._string)

    def __str__(self):
        return self._string

    @property
    def is_prerelease(self):
        raise NotImplementedError('Please implement in subclasses.')


class Matcher(object):
    version_class = None

    # value is either a callable or the name of a method
    _operators = {
        '<': lambda v, c, p: v < c,
        '>': lambda v, c, p: v > c,
        '<=': lambda v, c, p: v == c or v < c,
        '>=': lambda v, c, p: v == c or v > c,
        '==': lambda v, c, p: v == c,
        '===': lambda v, c, p: v == c,
        # by default, compatible => >=.
        '~=': lambda v, c, p: v == c or v > c,
        '!=': lambda v, c, p: v != c,
    }

    # this is a method only to support alternative implementations
    # via overriding
    def parse_requirement(self, s):
        return parse_requirement(s)

    def __init__(self, s):
        if self.version_class is None:
            raise ValueError('Please specify a version class')
        self._string = s = s.strip()
        r = self.parse_requirement(s)
        if not r:
            raise ValueError('Not valid: %r' % s)
        self.name = r.name
        self.key = self.name.lower()    # for case-insensitive comparisons
        clist = []
        if r.constraints:
            # import pdb; pdb.set_trace()
            for op, s in r.constraints:
                if s.endswith('.*'):
                    if op not in ('==', '!='):
                        raise ValueError('\'.*\' not allowed for '
                                         '%r constraints' % op)
                    # Could be a partial version (e.g. for '2.*') which
                    # won't parse as a version, so keep it as a string
                    vn, prefix = s[:-2], True
                    # Just to check that vn is a valid version
                    self.version_class(vn)
                else:
                    # Should parse as a version, so we can create an
                    # instance for the comparison
                    vn, prefix = self.version_class(s), False
                clist.append((op, vn, prefix))
        self._parts = tuple(clist)

    def match(self, version):
        """
        Check if the provided version matches the constraints.

        :param version: The version to match against this instance.
        :type version: String or :class:`Version` instance.
        """
        if isinstance(version, string_types):
            version = self.version_class(version)
        for operator, constraint, prefix in self._parts:
            f = self._operators.get(operator)
            if isinstance(f, string_types):
                f = getattr(self, f)
            if not f:
                msg = ('%r not implemented '
                       'for %s' % (operator, self.__class__.__name__))
                raise NotImplementedError(msg)
            if not f(version, constraint, prefix):
                return False
        return True

    @property
    def exact_version(self):
        result = None
        if len(self._parts) == 1 and self._parts[0][0] in ('==', '==='):
            result = self._parts[0][1]
        return result

    def _check_compatible(self, other):
        if type(self) != type(other) or self.name != other.name:
            raise TypeError('cannot compare %s and %s' % (self, other))

    def __eq__(self, other):
        self._check_compatible(other)
        return self.key == other.key and self._parts == other._parts

    def __ne__(self, other):
        return not self.__eq__(other)

    # See http://docs.python.org/reference/datamodel#object.__hash__
    def __hash__(self):
        return hash(self.key) + hash(self._parts)

    def __repr__(self):
        return "%s(%r)" % (self.__class__.__name__, self._string)

    def __str__(self):
        return self._string


PEP440_VERSION_RE = re.compile(r'^v?(\d+!)?(\d+(\.\d+)*)((a|b|c|rc)(\d+))?'
                               r'(\.(post)(\d+))?(\.(dev)(\d+))?'
                               r'(\+([a-zA-Z\d]+(\.[a-zA-Z\d]+)?))?$')


def _pep_440_key(s):
    s = s.strip()
    m = PEP440_VERSION_RE.match(s)
    if not m:
        raise UnsupportedVersionError('Not a valid version: %s' % s)
    groups = m.groups()
    nums = tuple(int(v) for v in groups[1].split('.'))
    while len(nums) > 1 and nums[-1] == 0:
        nums = nums[:-1]

    if not groups[0]:
        epoch = 0
    else:
        epoch = int(groups[0][:-1])
    pre = groups[4:6]
    post = groups[7:9]
    dev = groups[10:12]
    local = groups[13]
    if pre == (None, None):
        pre = ()
    else:
        pre = pre[0], int(pre[1])
    if post == (None, None):
        post = ()
    else:
        post = post[0], int(post[1])
    if dev == (None, None):
        dev = ()
    else:
        dev = dev[0], int(dev[1])
    if local is None:
        local = ()
    else:
        parts = []
        for part in local.split('.'):
            # to ensure that numeric compares as > lexicographic, avoid
            # comparing them directly, but encode a tuple which ensures
            # correct sorting
            if part.isdigit():
                part = (1, int(part))
            else:
                part = (0, part)
            parts.append(part)
        local = tuple(parts)
    if not pre:
        # either before pre-release, or final release and after
        if not post and dev:
            # before pre-release
            pre = ('a', -1)     # to sort before a0
        else:
            pre = ('z',)        # to sort after all pre-releases
    # now look at the state of post and dev.
    if not post:
        post = ('_',)   # sort before 'a'
    if not dev:
        dev = ('final',)

    #print('%s -> %s' % (s, m.groups()))
    return epoch, nums, pre, post, dev, local


_normalized_key = _pep_440_key


class NormalizedVersion(Version):
    """A rational version.

    Good:
        1.2         # equivalent to "1.2.0"
        1.2.0
        1.2a1
        1.2.3a2
        1.2.3b1
        1.2.3c1
        1.2.3.4
        TODO: fill this out

    Bad:
        1           # minimum two numbers
        1.2a        # release level must have a release serial
        1.2.3b
    """
    def parse(self, s):
        result = _normalized_key(s)
        # _normalized_key loses trailing zeroes in the release
        # clause, since that's needed to ensure that X.Y == X.Y.0 == X.Y.0.0
        # However, PEP 440 prefix matching needs it: for example,
        # (~= 1.4.5.0) matches differently to (~= 1.4.5.0.0).
        m = PEP440_VERSION_RE.match(s)      # must succeed
        groups = m.groups()
        self._release_clause = tuple(int(v) for v in groups[1].split('.'))
        return result

    PREREL_TAGS = set(['a', 'b', 'c', 'rc', 'dev'])

    @property
    def is_prerelease(self):
        return any(t[0] in self.PREREL_TAGS for t in self._parts if t)


def _match_prefix(x, y):
    x = str(x)
    y = str(y)
    if x == y:
        return True
    if not x.startswith(y):
        return False
    n = len(y)
    return x[n] == '.'


class NormalizedMatcher(Matcher):
    version_class = NormalizedVersion

    # value is either a callable or the name of a method
    _operators = {
        '~=': '_match_compatible',
        '<': '_match_lt',
        '>': '_match_gt',
        '<=': '_match_le',
        '>=': '_match_ge',
        '==': '_match_eq',
        '===': '_match_arbitrary',
        '!=': '_match_ne',
    }

    def _adjust_local(self, version, constraint, prefix):
        if prefix:
            strip_local = '+' not in constraint and version._parts[-1]
        else:
            # both constraint and version are
            # NormalizedVersion instances.
            # If constraint does not have a local component,
            # ensure the version doesn't, either.
            strip_local = not constraint._parts[-1] and version._parts[-1]
        if strip_local:
            s = version._string.split('+', 1)[0]
            version = self.version_class(s)
        return version, constraint

    def _match_lt(self, version, constraint, prefix):
        version, constraint = self._adjust_local(version, constraint, prefix)
        if version >= constraint:
            return False
        release_clause = constraint._release_clause
        pfx = '.'.join([str(i) for i in release_clause])
        return not _match_prefix(version, pfx)

    def _match_gt(self, version, constraint, prefix):
        version, constraint = self._adjust_local(version, constraint, prefix)
        if version <= constraint:
            return False
        release_clause = constraint._release_clause
        pfx = '.'.join([str(i) for i in release_clause])
        return not _match_prefix(version, pfx)

    def _match_le(self, version, constraint, prefix):
        version, constraint = self._adjust_local(version, constraint, prefix)
        return version <= constraint

    def _match_ge(self, version, constraint, prefix):
        version, constraint = self._adjust_local(version, constraint, prefix)
        return version >= constraint

    def _match_eq(self, version, constraint, prefix):
        version, constraint = self._adjust_local(version, constraint, prefix)
        if not prefix:
            result = (version == constraint)
        else:
            result = _match_prefix(version, constraint)
        return result

    def _match_arbitrary(self, version, constraint, prefix):
        return str(version) == str(constraint)

    def _match_ne(self, version, constraint, prefix):
        version, constraint = self._adjust_local(version, constraint, prefix)
        if not prefix:
            result = (version != constraint)
        else:
            result = not _match_prefix(version, constraint)
        return result

    def _match_compatible(self, version, constraint, prefix):
        version, constraint = self._adjust_local(version, constraint, prefix)
        if version == constraint:
            return True
        if version < constraint:
            return False
#        if not prefix:
#            return True
        release_clause = constraint._release_clause
        if len(release_clause) > 1:
            release_clause = release_clause[:-1]
        pfx = '.'.join([str(i) for i in release_clause])
        return _match_prefix(version, pfx)

_REPLACEMENTS = (
    (re.compile('[.+-]$'), ''),                     # remove trailing puncts
    (re.compile(r'^[.](\d)'), r'0.\1'),             # .N -> 0.N at start
    (re.compile('^[.-]'), ''),                      # remove leading puncts
    (re.compile(r'^\((.*)\)$'), r'\1'),             # remove parentheses
    (re.compile(r'^v(ersion)?\s*(\d+)'), r'\2'),    # remove leading v(ersion)
    (re.compile(r'^r(ev)?\s*(\d+)'), r'\2'),        # remove leading v(ersion)
    (re.compile('[.]{2,}'), '.'),                   # multiple runs of '.'
    (re.compile(r'\b(alfa|apha)\b'), 'alpha'),      # misspelt alpha
    (re.compile(r'\b(pre-alpha|prealpha)\b'),
                'pre.alpha'),                       # standardise
    (re.compile(r'\(beta\)$'), 'beta'),             # remove parentheses
)

_SUFFIX_REPLACEMENTS = (
    (re.compile('^[:~._+-]+'), ''),                   # remove leading puncts
    (re.compile('[,*")([\\]]'), ''),                  # remove unwanted chars
    (re.compile('[~:+_ -]'), '.'),                    # replace illegal chars
    (re.compile('[.]{2,}'), '.'),                   # multiple runs of '.'
    (re.compile(r'\.$'), ''),                       # trailing '.'
)

_NUMERIC_PREFIX = re.compile(r'(\d+(\.\d+)*)')


def _suggest_semantic_version(s):
    """
    Try to suggest a semantic form for a version for which
    _suggest_normalized_version couldn't come up with anything.
    """
    result = s.strip().lower()
    for pat, repl in _REPLACEMENTS:
        result = pat.sub(repl, result)
    if not result:
        result = '0.0.0'

    # Now look for numeric prefix, and separate it out from
    # the rest.
    #import pdb; pdb.set_trace()
    m = _NUMERIC_PREFIX.match(result)
    if not m:
        prefix = '0.0.0'
        suffix = result
    else:
        prefix = m.groups()[0].split('.')
        prefix = [int(i) for i in prefix]
        while len(prefix) < 3:
            prefix.append(0)
        if len(prefix) == 3:
            suffix = result[m.end():]
        else:
            suffix = '.'.join([str(i) for i in prefix[3:]]) + result[m.end():]
            prefix = prefix[:3]
        prefix = '.'.join([str(i) for i in prefix])
        suffix = suffix.strip()
    if suffix:
        #import pdb; pdb.set_trace()
        # massage the suffix.
        for pat, repl in _SUFFIX_REPLACEMENTS:
            suffix = pat.sub(repl, suffix)

    if not suffix:
        result = prefix
    else:
        sep = '-' if 'dev' in suffix else '+'
        result = prefix + sep + suffix
    if not is_semver(result):
        result = None
    return result


def _suggest_normalized_version(s):
    """Suggest a normalized version close to the given version string.

    If you have a version string that isn't rational (i.e. NormalizedVersion
    doesn't like it) then you might be able to get an equivalent (or close)
    rational version from this function.

    This does a number of simple normalizations to the given string, based
    on observation of versions currently in use on PyPI. Given a dump of
    those version during PyCon 2009, 4287 of them:
    - 2312 (53.93%) match NormalizedVersion without change
      with the automatic suggestion
    - 3474 (81.04%) match when using this suggestion method

    @param s {str} An irrational version string.
    @returns A rational version string, or None, if couldn't determine one.
    """
    try:
        _normalized_key(s)
        return s   # already rational
    except UnsupportedVersionError:
        pass

    rs = s.lower()

    # part of this could use maketrans
    for orig, repl in (('-alpha', 'a'), ('-beta', 'b'), ('alpha', 'a'),
                       ('beta', 'b'), ('rc', 'c'), ('-final', ''),
                       ('-pre', 'c'),
                       ('-release', ''), ('.release', ''), ('-stable', ''),
                       ('+', '.'), ('_', '.'), (' ', ''), ('.final', ''),
                       ('final', '')):
        rs = rs.replace(orig, repl)

    # if something ends with dev or pre, we add a 0
    rs = re.sub(r"pre$", r"pre0", rs)
    rs = re.sub(r"dev$", r"dev0", rs)

    # if we have something like "b-2" or "a.2" at the end of the
    # version, that is probably beta, alpha, etc
    # let's remove the dash or dot
    rs = re.sub(r"([abc]|rc)[\-\.](\d+)$", r"\1\2", rs)

    # 1.0-dev-r371 -> 1.0.dev371
    # 0.1-dev-r79 -> 0.1.dev79
    rs = re.sub(r"[\-\.](dev)[\-\.]?r?(\d+)$", r".\1\2", rs)

    # Clean: 2.0.a.3, 2.0.b1, 0.9.0~c1
    rs = re.sub(r"[.~]?([abc])\.?", r"\1", rs)

    # Clean: v0.3, v1.0
    if rs.startswith('v'):
        rs = rs[1:]

    # Clean leading '0's on numbers.
    #TODO: unintended side-effect on, e.g., "2003.05.09"
    # PyPI stats: 77 (~2%) better
    rs = re.sub(r"\b0+(\d+)(?!\d)", r"\1", rs)

    # Clean a/b/c with no version. E.g. "1.0a" -> "1.0a0". Setuptools infers
    # zero.
    # PyPI stats: 245 (7.56%) better
    rs = re.sub(r"(\d+[abc])$", r"\g<1>0", rs)

    # the 'dev-rNNN' tag is a dev tag
    rs = re.sub(r"\.?(dev-r|dev\.r)\.?(\d+)$", r".dev\2", rs)

    # clean the - when used as a pre delimiter
    rs = re.sub(r"-(a|b|c)(\d+)$", r"\1\2", rs)

    # a terminal "dev" or "devel" can be changed into ".dev0"
    rs = re.sub(r"[\.\-](dev|devel)$", r".dev0", rs)

    # a terminal "dev" can be changed into ".dev0"
    rs = re.sub(r"(?![\.\-])dev$", r".dev0", rs)

    # a terminal "final" or "stable" can be removed
    rs = re.sub(r"(final|stable)$", "", rs)

    # The 'r' and the '-' tags are post release tags
    #   0.4a1.r10       ->  0.4a1.post10
    #   0.9.33-17222    ->  0.9.33.post17222
    #   0.9.33-r17222   ->  0.9.33.post17222
    rs = re.sub(r"\.?(r|-|-r)\.?(\d+)$", r".post\2", rs)

    # Clean 'r' instead of 'dev' usage:
    #   0.9.33+r17222   ->  0.9.33.dev17222
    #   1.0dev123       ->  1.0.dev123
    #   1.0.git123      ->  1.0.dev123
    #   1.0.bzr123      ->  1.0.dev123
    #   0.1a0dev.123    ->  0.1a0.dev123
    # PyPI stats:  ~150 (~4%) better
    rs = re.sub(r"\.?(dev|git|bzr)\.?(\d+)$", r".dev\2", rs)

    # Clean '.pre' (normalized from '-pre' above) instead of 'c' usage:
    #   0.2.pre1        ->  0.2c1
    #   0.2-c1         ->  0.2c1
    #   1.0preview123   ->  1.0c123
    # PyPI stats: ~21 (0.62%) better
    rs = re.sub(r"\.?(pre|preview|-c)(\d+)$", r"c\g<2>", rs)

    # Tcl/Tk uses "px" for their post release markers
    rs = re.sub(r"p(\d+)$", r".post\1", rs)

    try:
        _normalized_key(rs)
    except UnsupportedVersionError:
        rs = None
    return rs

#
#   Legacy version processing (distribute-compatible)
#

_VERSION_PART = re.compile(r'([a-z]+|\d+|[\.-])', re.I)
_VERSION_REPLACE = {
    'pre': 'c',
    'preview': 'c',
    '-': 'final-',
    'rc': 'c',
    'dev': '@',
    '': None,
    '.': None,
}


def _legacy_key(s):
    def get_parts(s):
        result = []
        for p in _VERSION_PART.split(s.lower()):
            p = _VERSION_REPLACE.get(p, p)
            if p:
                if '0' <= p[:1] <= '9':
                    p = p.zfill(8)
                else:
                    p = '*' + p
                result.append(p)
        result.append('*final')
        return result

    result = []
    for p in get_parts(s):
        if p.startswith('*'):
            if p < '*final':
                while result and result[-1] == '*final-':
                    result.pop()
            while result and result[-1] == '00000000':
                result.pop()
        result.append(p)
    return tuple(result)


class LegacyVersion(Version):
    def parse(self, s):
        return _legacy_key(s)

    @property
    def is_prerelease(self):
        result = False
        for x in self._parts:
            if (isinstance(x, string_types) and x.startswith('*') and
                x < '*final'):
                result = True
                break
        return result


class LegacyMatcher(Matcher):
    version_class = LegacyVersion

    _operators = dict(Matcher._operators)
    _operators['~='] = '_match_compatible'

    numeric_re = re.compile(r'^(\d+(\.\d+)*)')

    def _match_compatible(self, version, constraint, prefix):
        if version < constraint:
            return False
        m = self.numeric_re.match(str(constraint))
        if not m:
            logger.warning('Cannot compute compatible match for version %s '
                           ' and constraint %s', version, constraint)
            return True
        s = m.groups()[0]
        if '.' in s:
            s = s.rsplit('.', 1)[0]
        return _match_prefix(version, s)

#
#   Semantic versioning
#

_SEMVER_RE = re.compile(r'^(\d+)\.(\d+)\.(\d+)'
                        r'(-[a-z0-9]+(\.[a-z0-9-]+)*)?'
                        r'(\+[a-z0-9]+(\.[a-z0-9-]+)*)?$', re.I)


def is_semver(s):
    return _SEMVER_RE.match(s)


def _semantic_key(s):
    def make_tuple(s, absent):
        if s is None:
            result = (absent,)
        else:
            parts = s[1:].split('.')
            # We can't compare ints and strings on Python 3, so fudge it
            # by zero-filling numeric values so simulate a numeric comparison
            result = tuple([p.zfill(8) if p.isdigit() else p for p in parts])
        return result

    m = is_semver(s)
    if not m:
        raise UnsupportedVersionError(s)
    groups = m.groups()
    major, minor, patch = [int(i) for i in groups[:3]]
    # choose the '|' and '*' so that versions sort correctly
    pre, build = make_tuple(groups[3], '|'), make_tuple(groups[5], '*')
    return (major, minor, patch), pre, build


class SemanticVersion(Version):
    def parse(self, s):
        return _semantic_key(s)

    @property
    def is_prerelease(self):
        return self._parts[1][0] != '|'


class SemanticMatcher(Matcher):
    version_class = SemanticVersion


class VersionScheme(object):
    def __init__(self, key, matcher, suggester=None):
        self.key = key
        self.matcher = matcher
        self.suggester = suggester

    def is_valid_version(self, s):
        try:
            self.matcher.version_class(s)
            result = True
        except UnsupportedVersionError:
            result = False
        return result

    def is_valid_matcher(self, s):
        try:
            self.matcher(s)
            result = True
        except UnsupportedVersionError:
            result = False
        return result

    def is_valid_constraint_list(self, s):
        """
        Used for processing some metadata fields
        """
        # See issue #140. Be tolerant of a single trailing comma.
        if s.endswith(','):
            s = s[:-1]
        return self.is_valid_matcher('dummy_name (%s)' % s)

    def suggest(self, s):
        if self.suggester is None:
            result = None
        else:
            result = self.suggester(s)
        return result

_SCHEMES = {
    'normalized': VersionScheme(_normalized_key, NormalizedMatcher,
                                _suggest_normalized_version),
    'legacy': VersionScheme(_legacy_key, LegacyMatcher, lambda self, s: s),
    'semantic': VersionScheme(_semantic_key, SemanticMatcher,
                              _suggest_semantic_version),
}

_SCHEMES['default'] = _SCHEMES['normalized']


def get_scheme(name):
    if name not in _SCHEMES:
        raise ValueError('unknown scheme name: %r' % name)
    return _SCHEMES[name]

Youez - 2016 - github.com/yon3zu
LinuXploit