Current File : //lib/python3/dist-packages/sympy/functions/elementary/tests/test_interface.py
# This test file tests the SymPy function interface, that people use to create
# their own new functions. It should be as easy as possible.
from sympy import Function, sympify, sin, cos, limit, tanh
from sympy.abc import x
def test_function_series1():
"""Create our new "sin" function."""
class my_function(Function):
def fdiff(self, argindex=1):
return cos(self.args[0])
@classmethod
def eval(cls, arg):
arg = sympify(arg)
if arg == 0:
return sympify(0)
#Test that the taylor series is correct
assert my_function(x).series(x, 0, 10) == sin(x).series(x, 0, 10)
assert limit(my_function(x)/x, x, 0) == 1
def test_function_series2():
"""Create our new "cos" function."""
class my_function2(Function):
def fdiff(self, argindex=1):
return -sin(self.args[0])
@classmethod
def eval(cls, arg):
arg = sympify(arg)
if arg == 0:
return sympify(1)
#Test that the taylor series is correct
assert my_function2(x).series(x, 0, 10) == cos(x).series(x, 0, 10)
def test_function_series3():
"""
Test our easy "tanh" function.
This test tests two things:
* that the Function interface works as expected and it's easy to use
* that the general algorithm for the series expansion works even when the
derivative is defined recursively in terms of the original function,
since tanh(x).diff(x) == 1-tanh(x)**2
"""
class mytanh(Function):
def fdiff(self, argindex=1):
return 1 - mytanh(self.args[0])**2
@classmethod
def eval(cls, arg):
arg = sympify(arg)
if arg == 0:
return sympify(0)
e = tanh(x)
f = mytanh(x)
assert e.series(x, 0, 6) == f.series(x, 0, 6)
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