283 lines
7.5 KiB
Python
283 lines
7.5 KiB
Python
from sympy.core import Basic, Integer
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import operator
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class OmegaPower(Basic):
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"""
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Represents ordinal exponential and multiplication terms one of the
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building blocks of the :class:`Ordinal` class.
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In ``OmegaPower(a, b)``, ``a`` represents exponent and ``b`` represents multiplicity.
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"""
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def __new__(cls, a, b):
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if isinstance(b, int):
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b = Integer(b)
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if not isinstance(b, Integer) or b <= 0:
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raise TypeError("multiplicity must be a positive integer")
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if not isinstance(a, Ordinal):
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a = Ordinal.convert(a)
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return Basic.__new__(cls, a, b)
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@property
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def exp(self):
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return self.args[0]
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@property
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def mult(self):
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return self.args[1]
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def _compare_term(self, other, op):
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if self.exp == other.exp:
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return op(self.mult, other.mult)
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else:
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return op(self.exp, other.exp)
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def __eq__(self, other):
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if not isinstance(other, OmegaPower):
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try:
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other = OmegaPower(0, other)
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except TypeError:
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return NotImplemented
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return self.args == other.args
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def __hash__(self):
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return Basic.__hash__(self)
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def __lt__(self, other):
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if not isinstance(other, OmegaPower):
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try:
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other = OmegaPower(0, other)
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except TypeError:
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return NotImplemented
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return self._compare_term(other, operator.lt)
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class Ordinal(Basic):
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"""
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Represents ordinals in Cantor normal form.
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Internally, this class is just a list of instances of OmegaPower.
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Examples
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========
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>>> from sympy import Ordinal, OmegaPower
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>>> from sympy.sets.ordinals import omega
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>>> w = omega
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>>> w.is_limit_ordinal
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True
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>>> Ordinal(OmegaPower(w + 1, 1), OmegaPower(3, 2))
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w**(w + 1) + w**3*2
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>>> 3 + w
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w
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>>> (w + 1) * w
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w**2
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References
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==========
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.. [1] https://en.wikipedia.org/wiki/Ordinal_arithmetic
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"""
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def __new__(cls, *terms):
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obj = super().__new__(cls, *terms)
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powers = [i.exp for i in obj.args]
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if not all(powers[i] >= powers[i+1] for i in range(len(powers) - 1)):
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raise ValueError("powers must be in decreasing order")
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return obj
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@property
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def terms(self):
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return self.args
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@property
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def leading_term(self):
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if self == ord0:
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raise ValueError("ordinal zero has no leading term")
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return self.terms[0]
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@property
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def trailing_term(self):
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if self == ord0:
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raise ValueError("ordinal zero has no trailing term")
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return self.terms[-1]
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@property
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def is_successor_ordinal(self):
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try:
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return self.trailing_term.exp == ord0
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except ValueError:
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return False
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@property
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def is_limit_ordinal(self):
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try:
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return not self.trailing_term.exp == ord0
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except ValueError:
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return False
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@property
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def degree(self):
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return self.leading_term.exp
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@classmethod
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def convert(cls, integer_value):
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if integer_value == 0:
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return ord0
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return Ordinal(OmegaPower(0, integer_value))
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def __eq__(self, other):
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if not isinstance(other, Ordinal):
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try:
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other = Ordinal.convert(other)
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except TypeError:
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return NotImplemented
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return self.terms == other.terms
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def __hash__(self):
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return hash(self.args)
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def __lt__(self, other):
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if not isinstance(other, Ordinal):
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try:
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other = Ordinal.convert(other)
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except TypeError:
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return NotImplemented
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for term_self, term_other in zip(self.terms, other.terms):
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if term_self != term_other:
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return term_self < term_other
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return len(self.terms) < len(other.terms)
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def __le__(self, other):
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return (self == other or self < other)
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def __gt__(self, other):
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return not self <= other
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def __ge__(self, other):
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return not self < other
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def __str__(self):
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net_str = ""
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plus_count = 0
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if self == ord0:
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return 'ord0'
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for i in self.terms:
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if plus_count:
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net_str += " + "
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if i.exp == ord0:
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net_str += str(i.mult)
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elif i.exp == 1:
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net_str += 'w'
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elif len(i.exp.terms) > 1 or i.exp.is_limit_ordinal:
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net_str += 'w**(%s)'%i.exp
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else:
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net_str += 'w**%s'%i.exp
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if not i.mult == 1 and not i.exp == ord0:
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net_str += '*%s'%i.mult
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plus_count += 1
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return(net_str)
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__repr__ = __str__
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def __add__(self, other):
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if not isinstance(other, Ordinal):
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try:
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other = Ordinal.convert(other)
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except TypeError:
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return NotImplemented
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if other == ord0:
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return self
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a_terms = list(self.terms)
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b_terms = list(other.terms)
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r = len(a_terms) - 1
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b_exp = other.degree
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while r >= 0 and a_terms[r].exp < b_exp:
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r -= 1
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if r < 0:
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terms = b_terms
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elif a_terms[r].exp == b_exp:
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sum_term = OmegaPower(b_exp, a_terms[r].mult + other.leading_term.mult)
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terms = a_terms[:r] + [sum_term] + b_terms[1:]
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else:
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terms = a_terms[:r+1] + b_terms
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return Ordinal(*terms)
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def __radd__(self, other):
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if not isinstance(other, Ordinal):
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try:
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other = Ordinal.convert(other)
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except TypeError:
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return NotImplemented
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return other + self
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def __mul__(self, other):
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if not isinstance(other, Ordinal):
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try:
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other = Ordinal.convert(other)
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except TypeError:
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return NotImplemented
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if ord0 in (self, other):
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return ord0
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a_exp = self.degree
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a_mult = self.leading_term.mult
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summation = []
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if other.is_limit_ordinal:
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for arg in other.terms:
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summation.append(OmegaPower(a_exp + arg.exp, arg.mult))
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else:
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for arg in other.terms[:-1]:
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summation.append(OmegaPower(a_exp + arg.exp, arg.mult))
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b_mult = other.trailing_term.mult
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summation.append(OmegaPower(a_exp, a_mult*b_mult))
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summation += list(self.terms[1:])
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return Ordinal(*summation)
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def __rmul__(self, other):
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if not isinstance(other, Ordinal):
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try:
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other = Ordinal.convert(other)
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except TypeError:
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return NotImplemented
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return other * self
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def __pow__(self, other):
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if not self == omega:
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return NotImplemented
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return Ordinal(OmegaPower(other, 1))
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class OrdinalZero(Ordinal):
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"""The ordinal zero.
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OrdinalZero can be imported as ``ord0``.
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"""
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pass
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class OrdinalOmega(Ordinal):
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"""The ordinal omega which forms the base of all ordinals in cantor normal form.
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OrdinalOmega can be imported as ``omega``.
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Examples
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========
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>>> from sympy.sets.ordinals import omega
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>>> omega + omega
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w*2
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"""
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def __new__(cls):
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return Ordinal.__new__(cls)
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@property
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def terms(self):
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return (OmegaPower(1, 1),)
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ord0 = OrdinalZero()
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omega = OrdinalOmega()
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