Traktor/myenv/Lib/site-packages/sympy/series/series_class.py

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2024-05-23 01:57:24 +02:00
"""
Contains the base class for series
Made using sequences in mind
"""
from sympy.core.expr import Expr
from sympy.core.singleton import S
from sympy.core.cache import cacheit
class SeriesBase(Expr):
"""Base Class for series"""
@property
def interval(self):
"""The interval on which the series is defined"""
raise NotImplementedError("(%s).interval" % self)
@property
def start(self):
"""The starting point of the series. This point is included"""
raise NotImplementedError("(%s).start" % self)
@property
def stop(self):
"""The ending point of the series. This point is included"""
raise NotImplementedError("(%s).stop" % self)
@property
def length(self):
"""Length of the series expansion"""
raise NotImplementedError("(%s).length" % self)
@property
def variables(self):
"""Returns a tuple of variables that are bounded"""
return ()
@property
def free_symbols(self):
"""
This method returns the symbols in the object, excluding those
that take on a specific value (i.e. the dummy symbols).
"""
return ({j for i in self.args for j in i.free_symbols}
.difference(self.variables))
@cacheit
def term(self, pt):
"""Term at point pt of a series"""
if pt < self.start or pt > self.stop:
raise IndexError("Index %s out of bounds %s" % (pt, self.interval))
return self._eval_term(pt)
def _eval_term(self, pt):
raise NotImplementedError("The _eval_term method should be added to"
"%s to return series term so it is available"
"when 'term' calls it."
% self.func)
def _ith_point(self, i):
"""
Returns the i'th point of a series
If start point is negative infinity, point is returned from the end.
Assumes the first point to be indexed zero.
Examples
========
TODO
"""
if self.start is S.NegativeInfinity:
initial = self.stop
step = -1
else:
initial = self.start
step = 1
return initial + i*step
def __iter__(self):
i = 0
while i < self.length:
pt = self._ith_point(i)
yield self.term(pt)
i += 1
def __getitem__(self, index):
if isinstance(index, int):
index = self._ith_point(index)
return self.term(index)
elif isinstance(index, slice):
start, stop = index.start, index.stop
if start is None:
start = 0
if stop is None:
stop = self.length
return [self.term(self._ith_point(i)) for i in
range(start, stop, index.step or 1)]