Traktor/myenv/Lib/site-packages/sympy/simplify/tests/test_function.py
2024-05-26 05:12:46 +02:00

55 lines
2.1 KiB
Python

""" Unit tests for Hyper_Function"""
from sympy.core import symbols, Dummy, Tuple, S, Rational
from sympy.functions import hyper
from sympy.simplify.hyperexpand import Hyper_Function
def test_attrs():
a, b = symbols('a, b', cls=Dummy)
f = Hyper_Function([2, a], [b])
assert f.ap == Tuple(2, a)
assert f.bq == Tuple(b)
assert f.args == (Tuple(2, a), Tuple(b))
assert f.sizes == (2, 1)
def test_call():
a, b, x = symbols('a, b, x', cls=Dummy)
f = Hyper_Function([2, a], [b])
assert f(x) == hyper([2, a], [b], x)
def test_has():
a, b, c = symbols('a, b, c', cls=Dummy)
f = Hyper_Function([2, -a], [b])
assert f.has(a)
assert f.has(Tuple(b))
assert not f.has(c)
def test_eq():
assert Hyper_Function([1], []) == Hyper_Function([1], [])
assert (Hyper_Function([1], []) != Hyper_Function([1], [])) is False
assert Hyper_Function([1], []) != Hyper_Function([2], [])
assert Hyper_Function([1], []) != Hyper_Function([1, 2], [])
assert Hyper_Function([1], []) != Hyper_Function([1], [2])
def test_gamma():
assert Hyper_Function([2, 3], [-1]).gamma == 0
assert Hyper_Function([-2, -3], [-1]).gamma == 2
n = Dummy(integer=True)
assert Hyper_Function([-1, n, 1], []).gamma == 1
assert Hyper_Function([-1, -n, 1], []).gamma == 1
p = Dummy(integer=True, positive=True)
assert Hyper_Function([-1, p, 1], []).gamma == 1
assert Hyper_Function([-1, -p, 1], []).gamma == 2
def test_suitable_origin():
assert Hyper_Function((S.Half,), (Rational(3, 2),))._is_suitable_origin() is True
assert Hyper_Function((S.Half,), (S.Half,))._is_suitable_origin() is False
assert Hyper_Function((S.Half,), (Rational(-1, 2),))._is_suitable_origin() is False
assert Hyper_Function((S.Half,), (0,))._is_suitable_origin() is False
assert Hyper_Function((S.Half,), (-1, 1,))._is_suitable_origin() is False
assert Hyper_Function((S.Half, 0), (1,))._is_suitable_origin() is False
assert Hyper_Function((S.Half, 1),
(2, Rational(-2, 3)))._is_suitable_origin() is True
assert Hyper_Function((S.Half, 1),
(2, Rational(-2, 3), Rational(3, 2)))._is_suitable_origin() is True