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202 lines
5.7 KiB
202 lines
5.7 KiB
5 months ago
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"""Implementation of :class:`QuotientRing` class."""
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from sympy.polys.agca.modules import FreeModuleQuotientRing
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from sympy.polys.domains.ring import Ring
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from sympy.polys.polyerrors import NotReversible, CoercionFailed
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from sympy.utilities import public
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# TODO
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# - successive quotients (when quotient ideals are implemented)
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# - poly rings over quotients?
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# - division by non-units in integral domains?
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@public
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class QuotientRingElement:
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"""
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Class representing elements of (commutative) quotient rings.
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Attributes:
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- ring - containing ring
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- data - element of ring.ring (i.e. base ring) representing self
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"""
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def __init__(self, ring, data):
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self.ring = ring
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self.data = data
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def __str__(self):
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from sympy.printing.str import sstr
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return sstr(self.data) + " + " + str(self.ring.base_ideal)
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__repr__ = __str__
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def __bool__(self):
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return not self.ring.is_zero(self)
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def __add__(self, om):
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if not isinstance(om, self.__class__) or om.ring != self.ring:
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try:
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om = self.ring.convert(om)
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except (NotImplementedError, CoercionFailed):
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return NotImplemented
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return self.ring(self.data + om.data)
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__radd__ = __add__
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def __neg__(self):
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return self.ring(self.data*self.ring.ring.convert(-1))
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def __sub__(self, om):
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return self.__add__(-om)
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def __rsub__(self, om):
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return (-self).__add__(om)
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def __mul__(self, o):
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if not isinstance(o, self.__class__):
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try:
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o = self.ring.convert(o)
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except (NotImplementedError, CoercionFailed):
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return NotImplemented
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return self.ring(self.data*o.data)
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__rmul__ = __mul__
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def __rtruediv__(self, o):
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return self.ring.revert(self)*o
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def __truediv__(self, o):
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if not isinstance(o, self.__class__):
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try:
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o = self.ring.convert(o)
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except (NotImplementedError, CoercionFailed):
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return NotImplemented
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return self.ring.revert(o)*self
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def __pow__(self, oth):
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if oth < 0:
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return self.ring.revert(self) ** -oth
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return self.ring(self.data ** oth)
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def __eq__(self, om):
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if not isinstance(om, self.__class__) or om.ring != self.ring:
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return False
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return self.ring.is_zero(self - om)
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def __ne__(self, om):
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return not self == om
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class QuotientRing(Ring):
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"""
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Class representing (commutative) quotient rings.
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You should not usually instantiate this by hand, instead use the constructor
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from the base ring in the construction.
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>>> from sympy.abc import x
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>>> from sympy import QQ
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>>> I = QQ.old_poly_ring(x).ideal(x**3 + 1)
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>>> QQ.old_poly_ring(x).quotient_ring(I)
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QQ[x]/<x**3 + 1>
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Shorter versions are possible:
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>>> QQ.old_poly_ring(x)/I
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QQ[x]/<x**3 + 1>
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>>> QQ.old_poly_ring(x)/[x**3 + 1]
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QQ[x]/<x**3 + 1>
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Attributes:
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- ring - the base ring
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- base_ideal - the ideal used to form the quotient
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"""
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has_assoc_Ring = True
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has_assoc_Field = False
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dtype = QuotientRingElement
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def __init__(self, ring, ideal):
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if not ideal.ring == ring:
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raise ValueError('Ideal must belong to %s, got %s' % (ring, ideal))
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self.ring = ring
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self.base_ideal = ideal
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self.zero = self(self.ring.zero)
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self.one = self(self.ring.one)
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def __str__(self):
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return str(self.ring) + "/" + str(self.base_ideal)
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def __hash__(self):
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return hash((self.__class__.__name__, self.dtype, self.ring, self.base_ideal))
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def new(self, a):
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"""Construct an element of ``self`` domain from ``a``. """
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if not isinstance(a, self.ring.dtype):
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a = self.ring(a)
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# TODO optionally disable reduction?
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return self.dtype(self, self.base_ideal.reduce_element(a))
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def __eq__(self, other):
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"""Returns ``True`` if two domains are equivalent. """
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return isinstance(other, QuotientRing) and \
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self.ring == other.ring and self.base_ideal == other.base_ideal
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def from_ZZ(K1, a, K0):
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"""Convert a Python ``int`` object to ``dtype``. """
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return K1(K1.ring.convert(a, K0))
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from_ZZ_python = from_ZZ
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from_QQ_python = from_ZZ_python
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from_ZZ_gmpy = from_ZZ_python
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from_QQ_gmpy = from_ZZ_python
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from_RealField = from_ZZ_python
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from_GlobalPolynomialRing = from_ZZ_python
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from_FractionField = from_ZZ_python
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def from_sympy(self, a):
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return self(self.ring.from_sympy(a))
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def to_sympy(self, a):
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return self.ring.to_sympy(a.data)
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def from_QuotientRing(self, a, K0):
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if K0 == self:
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return a
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def poly_ring(self, *gens):
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"""Returns a polynomial ring, i.e. ``K[X]``. """
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raise NotImplementedError('nested domains not allowed')
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def frac_field(self, *gens):
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"""Returns a fraction field, i.e. ``K(X)``. """
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raise NotImplementedError('nested domains not allowed')
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def revert(self, a):
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"""
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Compute a**(-1), if possible.
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"""
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I = self.ring.ideal(a.data) + self.base_ideal
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try:
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return self(I.in_terms_of_generators(1)[0])
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except ValueError: # 1 not in I
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raise NotReversible('%s not a unit in %r' % (a, self))
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def is_zero(self, a):
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return self.base_ideal.contains(a.data)
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def free_module(self, rank):
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"""
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Generate a free module of rank ``rank`` over ``self``.
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>>> from sympy.abc import x
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>>> from sympy import QQ
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>>> (QQ.old_poly_ring(x)/[x**2 + 1]).free_module(2)
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(QQ[x]/<x**2 + 1>)**2
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"""
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return FreeModuleQuotientRing(self, rank)
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