164 lines
4.8 KiB
Python
164 lines
4.8 KiB
Python
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"""Implementation of :class:`RationalField` class. """
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from sympy.external.gmpy import MPQ
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from sympy.polys.domains.groundtypes import SymPyRational
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from sympy.polys.domains.characteristiczero import CharacteristicZero
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from sympy.polys.domains.field import Field
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from sympy.polys.domains.simpledomain import SimpleDomain
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from sympy.polys.polyerrors import CoercionFailed
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from sympy.utilities import public
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@public
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class RationalField(Field, CharacteristicZero, SimpleDomain):
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r"""Abstract base class for the domain :ref:`QQ`.
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The :py:class:`RationalField` class represents the field of rational
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numbers $\mathbb{Q}$ as a :py:class:`~.Domain` in the domain system.
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:py:class:`RationalField` is a superclass of
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:py:class:`PythonRationalField` and :py:class:`GMPYRationalField` one of
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which will be the implementation for :ref:`QQ` depending on whether either
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of ``gmpy`` or ``gmpy2`` is installed or not.
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See also
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========
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Domain
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"""
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rep = 'QQ'
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alias = 'QQ'
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is_RationalField = is_QQ = True
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is_Numerical = True
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has_assoc_Ring = True
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has_assoc_Field = True
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dtype = MPQ
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zero = dtype(0)
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one = dtype(1)
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tp = type(one)
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def __init__(self):
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pass
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def get_ring(self):
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"""Returns ring associated with ``self``. """
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from sympy.polys.domains import ZZ
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return ZZ
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def to_sympy(self, a):
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"""Convert ``a`` to a SymPy object. """
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return SymPyRational(int(a.numerator), int(a.denominator))
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def from_sympy(self, a):
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"""Convert SymPy's Integer to ``dtype``. """
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if a.is_Rational:
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return MPQ(a.p, a.q)
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elif a.is_Float:
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from sympy.polys.domains import RR
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return MPQ(*map(int, RR.to_rational(a)))
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else:
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raise CoercionFailed("expected `Rational` object, got %s" % a)
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def algebraic_field(self, *extension, alias=None):
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r"""Returns an algebraic field, i.e. `\mathbb{Q}(\alpha, \ldots)`.
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Parameters
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==========
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*extension : One or more :py:class:`~.Expr`
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Generators of the extension. These should be expressions that are
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algebraic over `\mathbb{Q}`.
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alias : str, :py:class:`~.Symbol`, None, optional (default=None)
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If provided, this will be used as the alias symbol for the
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primitive element of the returned :py:class:`~.AlgebraicField`.
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Returns
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=======
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:py:class:`~.AlgebraicField`
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A :py:class:`~.Domain` representing the algebraic field extension.
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Examples
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========
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>>> from sympy import QQ, sqrt
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>>> QQ.algebraic_field(sqrt(2))
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QQ<sqrt(2)>
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"""
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from sympy.polys.domains import AlgebraicField
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return AlgebraicField(self, *extension, alias=alias)
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def from_AlgebraicField(K1, a, K0):
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"""Convert a :py:class:`~.ANP` object to :ref:`QQ`.
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See :py:meth:`~.Domain.convert`
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"""
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if a.is_ground:
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return K1.convert(a.LC(), K0.dom)
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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 MPQ(a)
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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 MPQ(a)
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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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return MPQ(a.numerator, a.denominator)
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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 MPQ(a.numerator, a.denominator)
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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 MPQ(a)
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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 a
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def from_GaussianRationalField(K1, a, K0):
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"""Convert a ``GaussianElement`` object to ``dtype``. """
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if a.y == 0:
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return MPQ(a.x)
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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 MPQ(*map(int, K0.to_rational(a)))
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def exquo(self, a, b):
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"""Exact quotient of ``a`` and ``b``, implies ``__truediv__``. """
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return MPQ(a) / MPQ(b)
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def quo(self, a, b):
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"""Quotient of ``a`` and ``b``, implies ``__truediv__``. """
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return MPQ(a) / MPQ(b)
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def rem(self, a, b):
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"""Remainder of ``a`` and ``b``, implies nothing. """
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return self.zero
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def div(self, a, b):
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"""Division of ``a`` and ``b``, implies ``__truediv__``. """
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return MPQ(a) / MPQ(b), self.zero
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def numer(self, a):
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"""Returns numerator of ``a``. """
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return a.numerator
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def denom(self, a):
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"""Returns denominator of ``a``. """
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return a.denominator
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QQ = RationalField()
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