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185 lines
5.8 KiB
185 lines
5.8 KiB
"""Implementation of :class:`FractionField` class. """
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from sympy.polys.domains.compositedomain import CompositeDomain
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from sympy.polys.domains.field import Field
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from sympy.polys.polyerrors import CoercionFailed, GeneratorsError
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from sympy.utilities import public
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@public
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class FractionField(Field, CompositeDomain):
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"""A class for representing multivariate rational function fields. """
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is_FractionField = is_Frac = True
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has_assoc_Ring = True
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has_assoc_Field = True
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def __init__(self, domain_or_field, symbols=None, order=None):
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from sympy.polys.fields import FracField
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if isinstance(domain_or_field, FracField) and symbols is None and order is None:
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field = domain_or_field
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else:
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field = FracField(symbols, domain_or_field, order)
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self.field = field
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self.dtype = field.dtype
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self.gens = field.gens
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self.ngens = field.ngens
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self.symbols = field.symbols
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self.domain = field.domain
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# TODO: remove this
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self.dom = self.domain
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def new(self, element):
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return self.field.field_new(element)
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@property
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def zero(self):
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return self.field.zero
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@property
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def one(self):
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return self.field.one
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@property
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def order(self):
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return self.field.order
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@property
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def is_Exact(self):
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return self.domain.is_Exact
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def get_exact(self):
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return FractionField(self.domain.get_exact(), self.symbols)
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def __str__(self):
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return str(self.domain) + '(' + ','.join(map(str, self.symbols)) + ')'
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def __hash__(self):
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return hash((self.__class__.__name__, self.dtype.field, self.domain, self.symbols))
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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, FractionField) and \
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(self.dtype.field, self.domain, self.symbols) ==\
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(other.dtype.field, other.domain, other.symbols)
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def to_sympy(self, a):
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"""Convert ``a`` to a SymPy object. """
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return a.as_expr()
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def from_sympy(self, a):
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"""Convert SymPy's expression to ``dtype``. """
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return self.field.from_expr(a)
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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.domain.convert(a, K0))
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def from_ZZ_python(K1, a, K0):
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"""Convert a Python ``int`` object to ``dtype``. """
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return K1(K1.domain.convert(a, K0))
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def from_QQ(K1, a, K0):
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"""Convert a Python ``Fraction`` object to ``dtype``. """
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dom = K1.domain
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conv = dom.convert_from
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if dom.is_ZZ:
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return K1(conv(K0.numer(a), K0)) / K1(conv(K0.denom(a), K0))
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else:
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return K1(conv(a, K0))
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def from_QQ_python(K1, a, K0):
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"""Convert a Python ``Fraction`` object to ``dtype``. """
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return K1(K1.domain.convert(a, K0))
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def from_ZZ_gmpy(K1, a, K0):
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"""Convert a GMPY ``mpz`` object to ``dtype``. """
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return K1(K1.domain.convert(a, K0))
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def from_QQ_gmpy(K1, a, K0):
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"""Convert a GMPY ``mpq`` object to ``dtype``. """
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return K1(K1.domain.convert(a, K0))
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def from_GaussianRationalField(K1, a, K0):
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"""Convert a ``GaussianRational`` object to ``dtype``. """
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return K1(K1.domain.convert(a, K0))
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def from_GaussianIntegerRing(K1, a, K0):
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"""Convert a ``GaussianInteger`` object to ``dtype``. """
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return K1(K1.domain.convert(a, K0))
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def from_RealField(K1, a, K0):
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"""Convert a mpmath ``mpf`` object to ``dtype``. """
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return K1(K1.domain.convert(a, K0))
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def from_ComplexField(K1, a, K0):
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"""Convert a mpmath ``mpf`` object to ``dtype``. """
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return K1(K1.domain.convert(a, K0))
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def from_AlgebraicField(K1, a, K0):
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"""Convert an algebraic number to ``dtype``. """
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if K1.domain != K0:
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a = K1.domain.convert_from(a, K0)
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if a is not None:
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return K1.new(a)
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def from_PolynomialRing(K1, a, K0):
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"""Convert a polynomial to ``dtype``. """
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if a.is_ground:
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return K1.convert_from(a.coeff(1), K0.domain)
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try:
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return K1.new(a.set_ring(K1.field.ring))
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except (CoercionFailed, GeneratorsError):
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# XXX: We get here if K1=ZZ(x,y) and K0=QQ[x,y]
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# and the poly a in K0 has non-integer coefficients.
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# It seems that K1.new can handle this but K1.new doesn't work
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# when K0.domain is an algebraic field...
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try:
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return K1.new(a)
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except (CoercionFailed, GeneratorsError):
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return None
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def from_FractionField(K1, a, K0):
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"""Convert a rational function to ``dtype``. """
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try:
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return a.set_field(K1.field)
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except (CoercionFailed, GeneratorsError):
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return None
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def get_ring(self):
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"""Returns a field associated with ``self``. """
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return self.field.to_ring().to_domain()
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def is_positive(self, a):
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"""Returns True if ``LC(a)`` is positive. """
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return self.domain.is_positive(a.numer.LC)
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def is_negative(self, a):
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"""Returns True if ``LC(a)`` is negative. """
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return self.domain.is_negative(a.numer.LC)
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def is_nonpositive(self, a):
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"""Returns True if ``LC(a)`` is non-positive. """
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return self.domain.is_nonpositive(a.numer.LC)
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def is_nonnegative(self, a):
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"""Returns True if ``LC(a)`` is non-negative. """
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return self.domain.is_nonnegative(a.numer.LC)
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def numer(self, a):
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"""Returns numerator of ``a``. """
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return a.numer
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def denom(self, a):
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"""Returns denominator of ``a``. """
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return a.denom
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def factorial(self, a):
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"""Returns factorial of ``a``. """
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return self.dtype(self.domain.factorial(a))
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