def test_f():
"""
Uses the function f defined above to test the scalar maximization
routine.
"""
true_fval = 1.0
true_xf = -2.0
xf, fval, info = brent_max(f, -2, 2)
assert_almost_equal(true_fval, fval, decimal=4)
assert_almost_equal(true_xf, xf, decimal=4)
def test_f():
"""
Uses the function f defined above to test the scalar maximization
routine.
"""
true_fval = 1.0
true_xf = -2.0
xf, fval, info = brent_max(f, -2, 2)
assert_almost_equal(true_fval, fval, decimal=4)
assert_almost_equal(true_xf, xf, decimal=4)
def test_g():
"""
Uses the function g defined above to test the scalar maximization
routine.
"""
y = 5
true_fval = 5.0
true_xf = -0.0
xf, fval, info = brent_max(g, -10, 10, args=(y,))
assert_almost_equal(true_fval, fval, decimal=4)
assert_almost_equal(true_xf, xf, decimal=4)
def test_g():
"""
Uses the function g defined above to test the scalar maximization
routine.
"""
y = 5
true_fval = 5.0
true_xf = -0.0
xf, fval, info = brent_max(g, -10, 10, args=(y, ))
assert_almost_equal(true_fval, fval, decimal=4)
assert_almost_equal(true_xf, xf, decimal=4)
def test_invalid_a_b_brent_max():
brent_max(f, 1, 0)
def test_invalid_b_brent_max():
brent_max(f, -2, np.inf)
def test_invalid_a_brent_max():
brent_max(f, -np.inf, 2)
def test_invalid_a_b_brent_max():
brent_max(f, 1, 0)
def test_invalid_b_brent_max():
brent_max(f, -2, np.inf)
def test_invalid_a_brent_max():
brent_max(f, -np.inf, 2)