def test_convert_xy(x, y): """Test for conversion of cartesian to polar.""" assume(x != 0 and y != 0) assume(abs(x) > 0.01 and abs(y) > 0.01) # Test radians r, theta = to_polar(x, y) x_new, y_new = to_cartesian(r, theta) assert np.allclose(x, x_new) assert np.allclose(y, y_new) # Test degrees r, theta = to_polar(x, y, theta_units="degrees") x_new, y_new = to_cartesian(r, theta, theta_units="degrees") assert np.allclose(x, x_new) assert np.allclose(y, y_new)
def test_convert_xy(x, y): assume(x != 0 and y != 0) assume(np.isfinite(x) and np.isfinite(y)) assume(abs(x) < 1E6 and abs(y) < 1E6) assume(abs(x) > 0.01 and abs(y) > 0.01) # Test radians r, theta = to_polar(x, y) x_new, y_new = to_cartesian(r, theta) assert np.allclose(x, x_new) assert np.allclose(y, y_new) # Test degrees r, theta = to_polar(x, y, theta_units="degrees") x_new, y_new = to_cartesian(r, theta, theta_units="degrees") assert np.allclose(x, x_new) assert np.allclose(y, y_new)
def test_convert_rt(r, theta): assume(r > 0.01 and r < 1E6) assume(np.isfinite(r) and np.isfinite(theta)) assume(theta <= np.pi and theta >= -np.pi) x, y = to_cartesian(r, theta) r_new, theta_new = to_polar(x, y) assert np.allclose(r, r_new) assert np.allclose(abs(theta_new), abs(theta))
def test_convert_rt(r, theta): """Test for conversion of polar to cartesian coordinates.""" assume(r > 0.01 and r < 1e6) assume(np.isfinite(r) and np.isfinite(theta)) x, y = to_cartesian(r, theta) r_new, theta_new = to_polar(x, y) assert np.allclose(r, r_new) assert np.allclose(abs(theta_new), abs(theta))