Python PoleError Examples

Example #1

 def _eval_as_leading_term(self, x, logx=None, cdir=0):
     arg = self.args[0].cancel().as_leading_term(x, logx=logx)
     arg0 = arg.subs(x, 0)
     if arg0 is S.NaN:
         arg0 = arg.limit(x, 0)
     if arg0.is_infinite is False:
         return exp(arg0)
     raise PoleError("Cannot expand %s around 0" % (self))

Example #2

File: factorials.py Project: quangpq/sympy

 def _eval_as_leading_term(self, x, logx=None, cdir=0):
     arg = self.args[0].as_leading_term(x)
     arg0 = arg.subs(x, 0)
     if arg0.is_zero:
         return S.One
     elif not arg0.is_infinite:
         return self.func(arg)
     raise PoleError("Cannot expand %s around 0" % (self))

Example #3

    def _eval_as_leading_term(self, x, logx=None, cdir=0):
        arg = self.args[0]
        x0 = arg.subs(x, 0)

        if x0.is_integer and x0.is_nonpositive:
            n = -x0
            res = S.NegativeOne**n / self.func(n + 1)
            return res / (arg + n).as_leading_term(x)
        elif not x0.is_infinite:
            return self.func(x0)
        raise PoleError()

Example #4

 def _eval_as_leading_term(self, x, logx=None, cdir=0):
     from sympy import I, im
     arg0 = self.args[0].together()
     arg = arg0.as_leading_term(x, cdir=cdir)
     x0 = arg0.subs(x, 0)
     if (x0 is S.NaN and logx is None):
         x0 = arg.limit(x, 0, dir='-' if cdir < 0 else '+')
     if x0 in (S.NegativeInfinity, S.Infinity):
         raise PoleError("Cannot expand %s around 0" % (self))
     if x0 == 1:
         return (arg0 - S.One).as_leading_term(x)
     if cdir != 0:
         cdir = arg0.dir(x, cdir)
     if x0.is_real and x0.is_negative and im(cdir) < 0:
         return self.func(x0) - 2 * I * S.Pi
     return self.func(arg)

Example #5

 def _eval_as_leading_term(self, x, logx=None, cdir=0):
     from sympy.calculus.util import AccumBounds
     arg = self.args[0].cancel().as_leading_term(x, logx=logx)
     arg0 = arg.subs(x, 0)
     if arg is S.NaN:
         return S.NaN
     if isinstance(arg0, AccumBounds):
         # This check addresses a corner case involving AccumBounds.
         # if isinstance(arg, AccumBounds) is True, then arg0 can either be 0,
         # AccumBounds(-oo, 0) or AccumBounds(-oo, oo).
         # Check out function: test_issue_18473() in test_exponential.py and
         # test_limits.py for more information.
         return exp(arg0)
     if arg0 is S.NaN:
         arg0 = arg.limit(x, 0)
     if arg0.is_infinite is False:
         return exp(arg0)
     raise PoleError("Cannot expand %s around 0" % (self))

Example #6

    def _eval_as_leading_term(self, x, logx=None, cdir=0):
        from sympy.calculus.util import AccumBounds
        arg0 = self.args[0].together()

        arg = arg0.as_leading_term(x, cdir=cdir)
        x0 = arg0.subs(x, 0)
        if (x0 is S.NaN and logx is None):
            x0 = arg.limit(x, 0, dir='-' if re(cdir).is_negative else '+')
        if x0 in (S.NegativeInfinity, S.Infinity):
            raise PoleError("Cannot expand %s around 0" % (self))
        if x0 == 1:
            return (arg0 - S.One).as_leading_term(x)
        if cdir != 0:
            cdir = arg0.dir(x, cdir)
        if x0.is_real and x0.is_negative and im(cdir).is_negative:
            return self.func(x0) - 2 * I * S.Pi
        if isinstance(arg, AccumBounds):
            return log(arg)
        return self.func(arg)