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"""Implementation of :class:`Field` class. """
from sympy.polys.domains.ring import Ring
from sympy.polys.polyerrors import NotReversible, DomainError
from sympy.utilities import public
@public
class Field(Ring):
"""Represents a field domain. """
is_Field = True
is_PID = True
def get_ring(self):
"""Returns a ring associated with ``self``. """
raise DomainError('there is no ring associated with %s' % self)
def get_field(self):
"""Returns a field associated with ``self``. """
return self
def exquo(self, a, b):
"""Exact quotient of ``a`` and ``b``, implies ``__truediv__``. """
return a / b
def quo(self, a, b):
"""Quotient of ``a`` and ``b``, implies ``__truediv__``. """
return a / b
def rem(self, a, b):
"""Remainder of ``a`` and ``b``, implies nothing. """
return self.zero
def div(self, a, b):
"""Division of ``a`` and ``b``, implies ``__truediv__``. """
return a / b, self.zero
def gcd(self, a, b):
"""
Returns GCD of ``a`` and ``b``.
This definition of GCD over fields allows to clear denominators
in `primitive()`.
Examples
========
>>> from sympy.polys.domains import QQ
>>> from sympy import S, gcd, primitive
>>> from sympy.abc import x
>>> QQ.gcd(QQ(2, 3), QQ(4, 9))
2/9
>>> gcd(S(2)/3, S(4)/9)
2/9
>>> primitive(2*x/3 + S(4)/9)
(2/9, 3*x + 2)
"""
try:
ring = self.get_ring()
except DomainError:
return self.one
p = ring.gcd(self.numer(a), self.numer(b))
q = ring.lcm(self.denom(a), self.denom(b))
return self.convert(p, ring)/q
def lcm(self, a, b):
"""
Returns LCM of ``a`` and ``b``.
>>> from sympy.polys.domains import QQ
>>> from sympy import S, lcm
>>> QQ.lcm(QQ(2, 3), QQ(4, 9))
4/3
>>> lcm(S(2)/3, S(4)/9)
4/3
"""
try:
ring = self.get_ring()
except DomainError:
return a*b
p = ring.lcm(self.numer(a), self.numer(b))
q = ring.gcd(self.denom(a), self.denom(b))
return self.convert(p, ring)/q
def revert(self, a):
"""Returns ``a**(-1)`` if possible. """
if a:
return 1/a
else:
raise NotReversible('zero is not reversible')
def is_unit(self, a):
"""Return true if ``a`` is a invertible"""
return bool(a)