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# Originally contributed by Sjoerd Mullender. # Significantly modified by Jeffrey Yasskin <jyasskin at gmail.com>. """Fraction, infinite-precision, real numbers.""" from decimal import Decimal import math import numbers import operator import re import sys __all__ = ['Fraction', 'gcd'] def gcd(a, b): """Calculate the Greatest Common Divisor of a and b. Unless b==0, the result will have the same sign as b (so that when b is divided by it, the result comes out positive). """ import warnings warnings.warn('fractions.gcd() is deprecated. Use math.gcd() instead.', DeprecationWarning, 2) if type(a) is int is type(b): if (b or a) < 0: return -math.gcd(a, b) return math.gcd(a, b) return _gcd(a, b) def _gcd(a, b): # Supports non-integers for backward compatibility. while b: a, b = b, a%b return a # Constants related to the hash implementation; hash(x) is based # on the reduction of x modulo the prime _PyHASH_MODULUS. _PyHASH_MODULUS = sys.hash_info.modulus # Value to be used for rationals that reduce to infinity modulo # _PyHASH_MODULUS. _PyHASH_INF = sys.hash_info.inf _RATIONAL_FORMAT = re.compile(r""" \A\s* # optional whitespace at the start, then (?P<sign>[-+]?) # an optional sign, then (?=\d|\.\d) # lookahead for digit or .digit (?P<num>\d*) # numerator (possibly empty) (?: # followed by (?:/(?P<denom>\d+))? # an optional denominator | # or (?:\.(?P<decimal>\d*))? # an optional fractional part (?:E(?P<exp>[-+]?\d+))? # and optional exponent ) \s*\Z # and optional whitespace to finish """, re.VERBOSE | re.IGNORECASE) class Fraction(numbers.Rational): """This class implements rational numbers. In the two-argument form of the constructor, Fraction(8, 6) will produce a rational number equivalent to 4/3. Both arguments must be Rational. The numerator defaults to 0 and the denominator defaults to 1 so that Fraction(3) == 3 and Fraction() == 0. Fractions can also be constructed from: - numeric strings similar to those accepted by the float constructor (for example, '-2.3' or '1e10') - strings of the form '123/456' - float and Decimal instances - other Rational instances (including integers) """ __slots__ = ('_numerator', '_denominator') # We're immutable, so use __new__ not __init__ def __new__(cls, numerator=0, denominator=None, *, _normalize=True): """Constructs a Rational. Takes a string like '3/2' or '1.5', another Rational instance, a numerator/denominator pair, or a float. Examples -------- >>> Fraction(10, -8) Fraction(-5, 4) >>> Fraction(Fraction(1, 7), 5) Fraction(1, 35) >>> Fraction(Fraction(1, 7), Fraction(2, 3)) Fraction(3, 14) >>> Fraction('314') Fraction(314, 1) >>> Fraction('-35/4') Fraction(-35, 4) >>> Fraction('3.1415') # conversion from numeric string Fraction(6283, 2000) >>> Fraction('-47e-2') # string may include a decimal exponent Fraction(-47, 100) >>> Fraction(1.47) # direct construction from float (exact conversion) Fraction(6620291452234629, 4503599627370496) >>> Fraction(2.25) Fraction(9, 4) >>> Fraction(Decimal('1.47')) Fraction(147, 100) """ self = super(Fraction, cls).__new__(cls) if denominator is None: if type(numerator) is int: self._numerator = numerator self._denominator = 1 return self elif isinstance(numerator, numbers.Rational): self._numerator = numerator.numerator self._denominator = numerator.denominator return self elif isinstance(numerator, (float, Decimal)): # Exact conversion self._numerator, self._denominator = numerator.as_integer_ratio() return self elif isinstance(numerator, str): # Handle construction from strings. m = _RATIONAL_FORMAT.match(numerator) if m is None: raise ValueError('Invalid literal for Fraction: %r' % numerator) numerator = int(m.group('num') or '0') denom = m.group('denom') if denom: denominator = int(denom) else: denominator = 1 decimal = m.group('decimal') if decimal: scale = 10**len(decimal) numerator = numerator * scale + int(decimal) denominator *= scale exp = m.group('exp') if exp: exp = int(exp) if exp >= 0: numerator *= 10**exp else: denominator *= 10**-exp if m.group('sign') == '-': numerator = -numerator else: raise TypeError("argument should be a string " "or a Rational instance") elif type(numerator) is int is type(denominator): pass # *very* normal case elif (isinstance(numerator, numbers.Rational) and isinstance(denominator, numbers.Rational)): numerator, denominator = ( numerator.numerator * denominator.denominator, denominator.numerator * numerator.denominator ) else: raise TypeError("both arguments should be " "Rational instances") if denominator == 0: raise ZeroDivisionError('Fraction(%s, 0)' % numerator) if _normalize: if type(numerator) is int is type(denominator): # *very* normal case g = math.gcd(numerator, denominator) if denominator < 0: g = -g else: g = _gcd(numerator, denominator) numerator //= g denominator //= g self._numerator = numerator self._denominator = denominator return self @classmethod def from_float(cls, f): """Converts a finite float to a rational number, exactly. Beware that Fraction.from_float(0.3) != Fraction(3, 10). """ if isinstance(f, numbers.Integral): return cls(f) elif not isinstance(f, float): raise TypeError("%s.from_float() only takes floats, not %r (%s)" % (cls.__name__, f, type(f).__name__)) return cls(*f.as_integer_ratio()) @classmethod def from_decimal(cls, dec): """Converts a finite Decimal instance to a rational number, exactly.""" from decimal import Decimal if isinstance(dec, numbers.Integral): dec = Decimal(int(dec)) elif not isinstance(dec, Decimal): raise TypeError( "%s.from_decimal() only takes Decimals, not %r (%s)" % (cls.__name__, dec, type(dec).__name__)) return cls(*dec.as_integer_ratio()) def as_integer_ratio(self): """Return the integer ratio as a tuple. Return a tuple of two integers, whose ratio is equal to the Fraction and with a positive denominator. """ return (self._numerator, self._denominator) def limit_denominator(self, max_denominator=1000000): """Closest Fraction to self with denominator at most max_denominator. >>> Fraction('3.141592653589793').limit_denominator(10) Fraction(22, 7) >>> Fraction('3.141592653589793').limit_denominator(100) Fraction(311, 99) >>> Fraction(4321, 8765).limit_denominator(10000) Fraction(4321, 8765) """ # Algorithm notes: For any real number x, define a *best upper # approximation* to x to be a rational number p/q such that: # # (1) p/q >= x, and # (2) if p/q > r/s >= x then s > q, for any rational r/s. # # Define *best lower approximation* similarly. Then it can be # proved that a rational number is a best upper or lower # approximation to x if, and only if, it is a convergent or # semiconvergent of the (unique shortest) continued fraction # associated to x. # # To find a best rational approximation with denominator <= M, # we find the best upper and lower approximations with # denominator <= M and take whichever of these is closer to x. # In the event of a tie, the bound with smaller denominator is # chosen. If both denominators are equal (which can happen # only when max_denominator == 1 and self is midway between # two integers) the lower bound---i.e., the floor of self, is # taken. if max_denominator < 1: raise ValueError("max_denominator should be at least 1") if self._denominator <= max_denominator: return Fraction(self) p0, q0, p1, q1 = 0, 1, 1, 0 n, d = self._numerator, self._denominator while True: a = n//d q2 = q0+a*q1 if q2 > max_denominator: break p0, q0, p1, q1 = p1, q1, p0+a*p1, q2 n, d = d, n-a*d k = (max_denominator-q0)//q1 bound1 = Fraction(p0+k*p1, q0+k*q1) bound2 = Fraction(p1, q1) if abs(bound2 - self) <= abs(bound1-self): return bound2 else: return bound1 @property def numerator(a): return a._numerator @property def denominator(a): return a._denominator def __repr__(self): """repr(self)""" return '%s(%s, %s)' % (self.__class__.__name__, self._numerator, self._denominator) def __str__(self): """str(self)""" if self._denominator == 1: return str(self._numerator) else: return '%s/%s' % (self._numerator, self._denominator) def _operator_fallbacks(monomorphic_operator, fallback_operator): """Generates forward and reverse operators given a purely-rational operator and a function from the operator module. Use this like: __op__, __rop__ = _operator_fallbacks(just_rational_op, operator.op) In general, we want to implement the arithmetic operations so that mixed-mode operations either call an implementation whose author knew about the types of both arguments, or convert both to the nearest built in type and do the operation there. In Fraction, that means that we define __add__ and __radd__ as: def __add__(self, other): # Both types have numerators/denominator attributes, # so do the operation directly if isinstance(other, (int, Fraction)): return Fraction(self.numerator * other.denominator + other.numerator * self.denominator, self.denominator * other.denominator) # float and complex don't have those operations, but we # know about those types, so special case them. elif isinstance(other, float): return float(self) + other elif isinstance(other, complex): return complex(self) + other # Let the other type take over. return NotImplemented def __radd__(self, other): # radd handles more types than add because there's # nothing left to fall back to. if isinstance(other, numbers.Rational): return Fraction(self.numerator * other.denominator + other.numerator * self.denominator, self.denominator * other.denominator) elif isinstance(other, Real): return float(other) + float(self) elif isinstance(other, Complex): return complex(other) + complex(self) return NotImplemented There are 5 different cases for a mixed-type addition on Fraction. I'll refer to all of the above code that doesn't refer to Fraction, float, or complex as "boilerplate". 'r' will be an instance of Fraction, which is a subtype of Rational (r : Fraction <: Rational), and b : B <: Complex. The first three involve 'r + b': 1. If B <: Fraction, int, float, or complex, we handle that specially, and all is well. 2. If Fraction falls back to the boilerplate code, and it were to return a value from __add__, we'd miss the possibility that B defines a more intelligent __radd__, so the boilerplate should return NotImplemented from __add__. In particular, we don't handle Rational here, even though we could get an exact answer, in case the other type wants to do something special. 3. If B <: Fraction, Python tries B.__radd__ before Fraction.__add__. This is ok, because it was implemented with knowledge of Fraction, so it can handle those instances before delegating to Real or Complex. The next two situations describe 'b + r'. We assume that b didn't know about Fraction in its implementation, and that it uses similar boilerplate code: 4. If B <: Rational, then __radd_ converts both to the builtin rational type (hey look, that's us) and proceeds. 5. Otherwise, __radd__ tries to find the nearest common base ABC, and fall back to its builtin type. Since this class doesn't subclass a concrete type, there's no implementation to fall back to, so we need to try as hard as possible to return an actual value, or the user will get a TypeError. """ def forward(a, b): if isinstance(b, (int, Fraction)): return monomorphic_operator(a, b) elif isinstance(b, float): return fallback_operator(float(a), b) elif isinstance(b, complex): return fallback_operator(complex(a), b) else: return NotImplemented forward.__name__ = '__' + fallback_operator.__name__ + '__' forward.__doc__ = monomorphic_operator.__doc__ def reverse(b, a): if isinstance(a, numbers.Rational): # Includes ints. return monomorphic_operator(a, b) elif isinstance(a, numbers.Real): return fallback_operator(float(a), float(b)) elif isinstance(a, numbers.Complex): return fallback_operator(complex(a), complex(b)) else: return NotImplemented reverse.__name__ = '__r' + fallback_operator.__name__ + '__' reverse.__doc__ = monomorphic_operator.__doc__ return forward, reverse def _add(a, b): """a + b""" da, db = a.denominator, b.denominator return Fraction(a.numerator * db + b.numerator * da, da * db) __add__, __radd__ = _operator_fallbacks(_add, operator.add) def _sub(a, b): """a - b""" da, db = a.denominator, b.denominator return Fraction(a.numerator * db - b.numerator * da, da * db) __sub__, __rsub__ = _operator_fallbacks(_sub, operator.sub) def _mul(a, b): """a * b""" return Fraction(a.numerator * b.numerator, a.denominator * b.denominator) __mul__, __rmul__ = _operator_fallbacks(_mul, operator.mul) def _div(a, b): """a / b""" return Fraction(a.numerator * b.denominator, a.denominator * b.numerator) __truediv__, __rtruediv__ = _operator_fallbacks(_div, operator.truediv) def _floordiv(a, b): """a // b""" return (a.numerator * b.denominator) // (a.denominator * b.numerator) __floordiv__, __rfloordiv__ = _operator_fallbacks(_floordiv, operator.floordiv) def _divmod(a, b): """(a // b, a % b)""" da, db = a.denominator, b.denominator div, n_mod = divmod(a.numerator * db, da * b.numerator) return div, Fraction(n_mod, da * db) __divmod__, __rdivmod__ = _operator_fallbacks(_divmod, divmod) def _mod(a, b): """a % b""" da, db = a.denominator, b.denominator return Fraction((a.numerator * db) % (b.numerator * da), da * db) __mod__, __rmod__ = _operator_fallbacks(_mod, operator.mod) def __pow__(a, b): """a ** b If b is not an integer, the result will be a float or complex since roots are generally irrational. If b is an integer, the result will be rational. """ if isinstance(b, numbers.Rational): if b.denominator == 1: power = b.numerator if power >= 0: return Fraction(a._numerator ** power, a._denominator ** power, _normalize=False) elif a._numerator >= 0: return Fraction(a._denominator ** -power, a._numerator ** -power, _normalize=False) else: return Fraction((-a._denominator) ** -power, (-a._numerator) ** -power, _normalize=False) else: # A fractional power will generally produce an # irrational number. return float(a) ** float(b) else: return float(a) ** b def __rpow__(b, a): """a ** b""" if b._denominator == 1 and b._numerator >= 0: # If a is an int, keep it that way if possible. return a ** b._numerator if isinstance(a, numbers.Rational): return Fraction(a.numerator, a.denominator) ** b if b._denominator == 1: return a ** b._numerator return a ** float(b) def __pos__(a): """+a: Coerces a subclass instance to Fraction""" return Fraction(a._numerator, a._denominator, _normalize=False) def __neg__(a): """-a""" return Fraction(-a._numerator, a._denominator, _normalize=False) def __abs__(a): """abs(a)""" return Fraction(abs(a._numerator), a._denominator, _normalize=False) def __trunc__(a): """trunc(a)""" if a._numerator < 0: return -(-a._numerator // a._denominator) else: return a._numerator // a._denominator def __floor__(a): """math.floor(a)""" return a.numerator // a.denominator def __ceil__(a): """math.ceil(a)""" # The negations cleverly convince floordiv to return the ceiling. return -(-a.numerator // a.denominator) def __round__(self, ndigits=None): """round(self, ndigits) Rounds half toward even. """ if ndigits is None: floor, remainder = divmod(self.numerator, self.denominator) if remainder * 2 < self.denominator: return floor elif remainder * 2 > self.denominator: return floor + 1 # Deal with the half case: elif floor % 2 == 0: return floor else: return floor + 1 shift = 10**abs(ndigits) # See _operator_fallbacks.forward to check that the results of # these operations will always be Fraction and therefore have # round(). if ndigits > 0: return Fraction(round(self * shift), shift) else: return Fraction(round(self / shift) * shift) def __hash__(self): """hash(self)""" # XXX since this method is expensive, consider caching the result # In order to make sure that the hash of a Fraction agrees # with the hash of a numerically equal integer, float or # Decimal instance, we follow the rules for numeric hashes # outlined in the documentation. (See library docs, 'Built-in # Types'). # dinv is the inverse of self._denominator modulo the prime # _PyHASH_MODULUS, or 0 if self._denominator is divisible by # _PyHASH_MODULUS. dinv = pow(self._denominator, _PyHASH_MODULUS - 2, _PyHASH_MODULUS) if not dinv: hash_ = _PyHASH_INF else: hash_ = abs(self._numerator) * dinv % _PyHASH_MODULUS result = hash_ if self >= 0 else -hash_ return -2 if result == -1 else result def __eq__(a, b): """a == b""" if type(b) is int: return a._numerator == b and a._denominator == 1 if isinstance(b, numbers.Rational): return (a._numerator == b.numerator and a._denominator == b.denominator) if isinstance(b, numbers.Complex) and b.imag == 0: b = b.real if isinstance(b, float): if math.isnan(b) or math.isinf(b): # comparisons with an infinity or nan should behave in # the same way for any finite a, so treat a as zero. return 0.0 == b else: return a == a.from_float(b) else: # Since a doesn't know how to compare with b, let's give b # a chance to compare itself with a. return NotImplemented def _richcmp(self, other, op): """Helper for comparison operators, for internal use only. Implement comparison between a Rational instance `self`, and either another Rational instance or a float `other`. If `other` is not a Rational instance or a float, return NotImplemented. `op` should be one of the six standard comparison operators. """ # convert other to a Rational instance where reasonable. if isinstance(other, numbers.Rational): return op(self._numerator * other.denominator, self._denominator * other.numerator) if isinstance(other, float): if math.isnan(other) or math.isinf(other): return op(0.0, other) else: return op(self, self.from_float(other)) else: return NotImplemented def __lt__(a, b): """a < b""" return a._richcmp(b, operator.lt) def __gt__(a, b): """a > b""" return a._richcmp(b, operator.gt) def __le__(a, b): """a <= b""" return a._richcmp(b, operator.le) def __ge__(a, b): """a >= b""" return a._richcmp(b, operator.ge) def __bool__(a): """a != 0""" # bpo-39274: Use bool() because (a._numerator != 0) can return an # object which is not a bool. return bool(a._numerator) # support for pickling, copy, and deepcopy def __reduce__(self): return (self.__class__, (str(self),)) def __copy__(self): if type(self) == Fraction: return self # I'm immutable; therefore I am my own clone return self.__class__(self._numerator, self._denominator) def __deepcopy__(self, memo): if type(self) == Fraction: return self # My components are also immutable return self.__class__(self._numerator, self._denominator)

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collections	--	October 25 2024 08:42:23	root / linksafe	0755
concurrent	--	October 25 2024 08:42:23	root / linksafe	0755
config-3.8-x86_64-linux-gnu	--	October 25 2024 08:45:12	root / linksafe	0755
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LICENSE.txt	13.61 KB	September 06 2024 20:41:55	root / linksafe	0644
__future__.py	5.026 KB	September 06 2024 20:41:55	root / linksafe	0644
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cProfile.py	6.858 KB	September 06 2024 20:41:55	root / linksafe	0755
calendar.py	24.25 KB	September 06 2024 20:41:55	root / linksafe	0644
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cmd.py	14.512 KB	September 06 2024 20:41:55	root / linksafe	0644
code.py	10.373 KB	September 06 2024 20:41:55	root / linksafe	0644
codecs.py	35.808 KB	September 06 2024 20:41:55	root / linksafe	0644
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colorsys.py	3.969 KB	September 06 2024 20:41:55	root / linksafe	0644
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configparser.py	53.1 KB	September 06 2024 20:41:55	root / linksafe	0644
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datetime.py	86.218 KB	September 06 2024 20:41:55	root / linksafe	0644
decimal.py	0.313 KB	September 06 2024 20:41:55	root / linksafe	0644
difflib.py	82.088 KB	September 06 2024 20:41:55	root / linksafe	0644
dis.py	20.088 KB	September 06 2024 20:41:55	root / linksafe	0644
doctest.py	102.093 KB	September 06 2024 20:41:55	root / linksafe	0644
dummy_threading.py	2.749 KB	September 06 2024 20:41:55	root / linksafe	0644
enum.py	37.242 KB	September 06 2024 20:41:55	root / linksafe	0644
filecmp.py	9.6 KB	September 06 2024 20:41:55	root / linksafe	0644
fileinput.py	14.364 KB	September 06 2024 20:41:55	root / linksafe	0644
fnmatch.py	3.983 KB	September 06 2024 20:41:55	root / linksafe	0644
formatter.py	14.788 KB	September 06 2024 20:41:55	root / linksafe	0644
fractions.py	23.759 KB	September 06 2024 20:41:55	root / linksafe	0644
ftplib.py	34.306 KB	September 06 2024 20:41:55	root / linksafe	0644
functools.py	36.529 KB	September 06 2024 20:41:55	root / linksafe	0644
genericpath.py	4.858 KB	September 06 2024 20:41:55	root / linksafe	0644
getopt.py	7.313 KB	September 06 2024 20:41:55	root / linksafe	0644
getpass.py	5.854 KB	September 06 2024 20:41:55	root / linksafe	0644
gettext.py	26.502 KB	September 06 2024 20:41:55	root / linksafe	0644
glob.py	5.563 KB	September 06 2024 20:41:55	root / linksafe	0644
gzip.py	20.911 KB	September 06 2024 20:41:55	root / linksafe	0644
hashlib.py	9.502 KB	September 06 2024 20:41:55	root / linksafe	0644
heapq.py	22.341 KB	September 06 2024 20:41:55	root / linksafe	0644
hmac.py	6.474 KB	September 06 2024 20:41:55	root / linksafe	0644
imaplib.py	52.35 KB	September 06 2024 20:41:55	root / linksafe	0644
imghdr.py	3.719 KB	September 06 2024 20:41:55	root / linksafe	0644
imp.py	10.289 KB	September 06 2024 20:41:55	root / linksafe	0644
inspect.py	115.771 KB	September 06 2024 20:41:55	root / linksafe	0644
io.py	3.458 KB	September 06 2024 20:41:55	root / linksafe	0644
ipaddress.py	73.144 KB	September 06 2024 20:41:55	root / linksafe	0644
keyword.py	0.923 KB	September 06 2024 20:41:55	root / linksafe	0644
linecache.py	5.205 KB	September 06 2024 20:41:55	root / linksafe	0644
locale.py	76.358 KB	September 06 2024 20:41:55	root / linksafe	0644
lzma.py	12.679 KB	September 06 2024 20:41:55	root / linksafe	0644
mailbox.py	76.817 KB	September 06 2024 20:41:55	root / linksafe	0644
mailcap.py	8.854 KB	September 06 2024 20:41:55	root / linksafe	0644
mimetypes.py	21.156 KB	September 06 2024 20:41:55	root / linksafe	0644
modulefinder.py	23.857 KB	September 06 2024 20:41:55	root / linksafe	0644
netrc.py	5.436 KB	September 06 2024 20:41:55	root / linksafe	0644
nntplib.py	42.247 KB	September 06 2024 20:41:55	root / linksafe	0644
ntpath.py	27.084 KB	September 06 2024 20:41:55	root / linksafe	0644
nturl2path.py	2.819 KB	September 06 2024 20:41:55	root / linksafe	0644
numbers.py	10.004 KB	September 06 2024 20:41:55	root / linksafe	0644
opcode.py	5.672 KB	September 06 2024 20:41:55	root / linksafe	0644
operator.py	10.46 KB	September 06 2024 20:41:55	root / linksafe	0644
optparse.py	58.954 KB	September 06 2024 20:41:55	root / linksafe	0644
os.py	38.081 KB	September 06 2024 20:41:55	root / linksafe	0644
pathlib.py	51.377 KB	September 06 2024 20:41:55	root / linksafe	0644
pdb.py	61.28 KB	September 06 2024 20:41:55	root / linksafe	0755
pickle.py	62.956 KB	September 06 2024 20:41:55	root / linksafe	0644
pickletools.py	91.295 KB	September 06 2024 20:41:55	root / linksafe	0644
pipes.py	8.707 KB	September 06 2024 20:41:55	root / linksafe	0644
pkgutil.py	20.996 KB	September 06 2024 20:41:55	root / linksafe	0644
platform.py	39.49 KB	September 06 2024 20:41:55	root / linksafe	0755
plistlib.py	31.465 KB	September 06 2024 20:41:55	root / linksafe	0644
poplib.py	14.724 KB	September 06 2024 20:41:55	root / linksafe	0644
posixpath.py	15.261 KB	September 06 2024 20:41:55	root / linksafe	0644
pprint.py	20.98 KB	September 06 2024 20:41:55	root / linksafe	0644
profile.py	23.007 KB	September 06 2024 20:41:55	root / linksafe	0755
pstats.py	26.704 KB	September 06 2024 20:41:55	root / linksafe	0644
pty.py	4.694 KB	September 06 2024 20:41:55	root / linksafe	0644
py_compile.py	8.011 KB	September 23 2024 11:15:42	root / linksafe	0644
pyclbr.py	14.897 KB	September 06 2024 20:41:55	root / linksafe	0644
pydoc.py	104.199 KB	September 23 2024 11:26:08	root / linksafe	0644
queue.py	11.09 KB	September 06 2024 20:41:55	root / linksafe	0644
quopri.py	7.095 KB	September 06 2024 20:41:55	root / linksafe	0755
random.py	28.127 KB	September 06 2024 20:41:55	root / linksafe	0644
re.py	15.489 KB	September 06 2024 20:41:55	root / linksafe	0644
reprlib.py	5.144 KB	September 06 2024 20:41:55	root / linksafe	0644
rlcompleter.py	6.931 KB	September 06 2024 20:41:55	root / linksafe	0644
runpy.py	11.77 KB	September 06 2024 20:41:55	root / linksafe	0644
sched.py	6.291 KB	September 06 2024 20:41:55	root / linksafe	0644
secrets.py	1.99 KB	September 06 2024 20:41:55	root / linksafe	0644
selectors.py	18.126 KB	September 06 2024 20:41:55	root / linksafe	0644
shelve.py	8.327 KB	September 06 2024 20:41:55	root / linksafe	0644
shlex.py	13.013 KB	September 06 2024 20:41:55	root / linksafe	0644
shutil.py	50.548 KB	September 06 2024 20:41:55	root / linksafe	0644
signal.py	2.22 KB	September 06 2024 20:41:55	root / linksafe	0644
site.py	21.364 KB	September 23 2024 11:15:42	root / linksafe	0644
smtpd.py	33.908 KB	September 06 2024 20:41:55	root / linksafe	0755
smtplib.py	43.959 KB	September 06 2024 20:41:55	root / linksafe	0755
sndhdr.py	6.933 KB	September 06 2024 20:41:55	root / linksafe	0644
socket.py	34.633 KB	September 06 2024 20:41:55	root / linksafe	0644
socketserver.py	26.656 KB	September 06 2024 20:41:55	root / linksafe	0644
sre_compile.py	26.069 KB	September 06 2024 20:41:55	root / linksafe	0644
sre_constants.py	6.986 KB	September 06 2024 20:41:55	root / linksafe	0644
sre_parse.py	39.287 KB	September 06 2024 20:41:55	root / linksafe	0644
ssl.py	51.302 KB	September 06 2024 20:41:55	root / linksafe	0644
stat.py	5.356 KB	September 06 2024 20:41:55	root / linksafe	0644
statistics.py	38.76 KB	September 06 2024 20:41:55	root / linksafe	0644
string.py	10.288 KB	September 06 2024 20:41:55	root / linksafe	0644
stringprep.py	12.614 KB	September 06 2024 20:41:55	root / linksafe	0644
struct.py	0.251 KB	September 06 2024 20:41:55	root / linksafe	0644
subprocess.py	76.416 KB	September 06 2024 20:41:55	root / linksafe	0644
sunau.py	17.944 KB	September 06 2024 20:41:55	root / linksafe	0644
symbol.py	2.06 KB	September 23 2024 11:18:30	root / linksafe	0644
symtable.py	7.833 KB	September 06 2024 20:41:55	root / linksafe	0644
sysconfig.py	24.31 KB	September 23 2024 11:15:42	root / linksafe	0644
tabnanny.py	11.151 KB	September 06 2024 20:41:55	root / linksafe	0755
tarfile.py	103.546 KB	September 06 2024 20:41:55	root / linksafe	0755
telnetlib.py	22.709 KB	September 06 2024 20:41:55	root / linksafe	0644
tempfile.py	27.17 KB	September 06 2024 20:41:55	root / linksafe	0644
textwrap.py	18.952 KB	September 06 2024 20:41:55	root / linksafe	0644
this.py	0.979 KB	September 06 2024 20:41:55	root / linksafe	0644
threading.py	49.629 KB	September 06 2024 20:41:55	root / linksafe	0644
timeit.py	13.177 KB	September 06 2024 20:41:55	root / linksafe	0755
token.py	2.313 KB	September 06 2024 20:41:55	root / linksafe	0644
tokenize.py	25.235 KB	September 06 2024 20:41:55	root / linksafe	0644
trace.py	29.183 KB	September 06 2024 20:41:55	root / linksafe	0755
traceback.py	23.058 KB	September 06 2024 20:41:55	root / linksafe	0644
tracemalloc.py	16.676 KB	September 06 2024 20:41:55	root / linksafe	0644
tty.py	0.858 KB	September 06 2024 20:41:55	root / linksafe	0644
types.py	9.485 KB	September 06 2024 20:41:55	root / linksafe	0644
typing.py	67.346 KB	September 06 2024 20:41:55	root / linksafe	0644
uu.py	7.106 KB	September 23 2024 11:26:07	root / linksafe	0644
uuid.py	29.752 KB	September 06 2024 20:41:55	root / linksafe	0644
warnings.py	19.227 KB	September 06 2024 20:41:55	root / linksafe	0644
wave.py	17.803 KB	September 06 2024 20:41:55	root / linksafe	0644
weakref.py	20.886 KB	September 06 2024 20:41:55	root / linksafe	0644
webbrowser.py	23.531 KB	September 06 2024 20:41:55	root / linksafe	0755
xdrlib.py	5.774 KB	September 06 2024 20:41:55	root / linksafe	0644
zipapp.py	7.358 KB	September 06 2024 20:41:55	root / linksafe	0644
zipfile.py	86.402 KB	September 06 2024 20:41:55	root / linksafe	0644
zipimport.py	30.044 KB	September 06 2024 20:41:55	root / linksafe	0644

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