ai-content-maker/.venv/Lib/site-packages/sympy/polys/tests/test_rationaltools.py

64 lines
2.3 KiB
Python

"""Tests for tools for manipulation of rational expressions. """
from sympy.polys.rationaltools import together
from sympy.core.mul import Mul
from sympy.core.numbers import Rational
from sympy.core.relational import Eq
from sympy.core.singleton import S
from sympy.core.symbol import symbols
from sympy.functions.elementary.exponential import exp
from sympy.functions.elementary.trigonometric import sin
from sympy.integrals.integrals import Integral
from sympy.abc import x, y, z
A, B = symbols('A,B', commutative=False)
def test_together():
assert together(0) == 0
assert together(1) == 1
assert together(x*y*z) == x*y*z
assert together(x + y) == x + y
assert together(1/x) == 1/x
assert together(1/x + 1) == (x + 1)/x
assert together(1/x + 3) == (3*x + 1)/x
assert together(1/x + x) == (x**2 + 1)/x
assert together(1/x + S.Half) == (x + 2)/(2*x)
assert together(S.Half + x/2) == Mul(S.Half, x + 1, evaluate=False)
assert together(1/x + 2/y) == (2*x + y)/(y*x)
assert together(1/(1 + 1/x)) == x/(1 + x)
assert together(x/(1 + 1/x)) == x**2/(1 + x)
assert together(1/x + 1/y + 1/z) == (x*y + x*z + y*z)/(x*y*z)
assert together(1/(1 + x + 1/y + 1/z)) == y*z/(y + z + y*z + x*y*z)
assert together(1/(x*y) + 1/(x*y)**2) == y**(-2)*x**(-2)*(1 + x*y)
assert together(1/(x*y) + 1/(x*y)**4) == y**(-4)*x**(-4)*(1 + x**3*y**3)
assert together(1/(x**7*y) + 1/(x*y)**4) == y**(-4)*x**(-7)*(x**3 + y**3)
assert together(5/(2 + 6/(3 + 7/(4 + 8/(5 + 9/x))))) == \
Rational(5, 2)*((171 + 119*x)/(279 + 203*x))
assert together(1 + 1/(x + 1)**2) == (1 + (x + 1)**2)/(x + 1)**2
assert together(1 + 1/(x*(1 + x))) == (1 + x*(1 + x))/(x*(1 + x))
assert together(
1/(x*(x + 1)) + 1/(x*(x + 2))) == (3 + 2*x)/(x*(1 + x)*(2 + x))
assert together(1 + 1/(2*x + 2)**2) == (4*(x + 1)**2 + 1)/(4*(x + 1)**2)
assert together(sin(1/x + 1/y)) == sin(1/x + 1/y)
assert together(sin(1/x + 1/y), deep=True) == sin((x + y)/(x*y))
assert together(1/exp(x) + 1/(x*exp(x))) == (1 + x)/(x*exp(x))
assert together(1/exp(2*x) + 1/(x*exp(3*x))) == (1 + exp(x)*x)/(x*exp(3*x))
assert together(Integral(1/x + 1/y, x)) == Integral((x + y)/(x*y), x)
assert together(Eq(1/x + 1/y, 1 + 1/z)) == Eq((x + y)/(x*y), (z + 1)/z)
assert together((A*B)**-1 + (B*A)**-1) == (A*B)**-1 + (B*A)**-1