from __future__ import division, absolute_import, print_function import numpy.polynomial as poly from numpy.testing import run_module_suite, assert_equal class TestStr(object): def test_polynomial_str(self): res = str(poly.Polynomial([0, 1])) tgt = 'poly([0. 1.])' assert_equal(res, tgt) def test_chebyshev_str(self): res = str(poly.Chebyshev([0, 1])) tgt = 'cheb([0. 1.])' assert_equal(res, tgt) def test_legendre_str(self): res = str(poly.Legendre([0, 1])) tgt = 'leg([0. 1.])' assert_equal(res, tgt) def test_hermite_str(self): res = str(poly.Hermite([0, 1])) tgt = 'herm([0. 1.])' assert_equal(res, tgt) def test_hermiteE_str(self): res = str(poly.HermiteE([0, 1])) tgt = 'herme([0. 1.])' assert_equal(res, tgt) def test_laguerre_str(self): res = str(poly.Laguerre([0, 1])) tgt = 'lag([0. 1.])' assert_equal(res, tgt) class TestRepr(object): def test_polynomial_str(self): res = repr(poly.Polynomial([0, 1])) tgt = 'Polynomial([0., 1.], domain=[-1, 1], window=[-1, 1])' assert_equal(res, tgt) def test_chebyshev_str(self): res = repr(poly.Chebyshev([0, 1])) tgt = 'Chebyshev([0., 1.], domain=[-1, 1], window=[-1, 1])' assert_equal(res, tgt) def test_legendre_repr(self): res = repr(poly.Legendre([0, 1])) tgt = 'Legendre([0., 1.], domain=[-1, 1], window=[-1, 1])' assert_equal(res, tgt) def test_hermite_repr(self): res = repr(poly.Hermite([0, 1])) tgt = 'Hermite([0., 1.], domain=[-1, 1], window=[-1, 1])' assert_equal(res, tgt) def test_hermiteE_repr(self): res = repr(poly.HermiteE([0, 1])) tgt = 'HermiteE([0., 1.], domain=[-1, 1], window=[-1, 1])' assert_equal(res, tgt) def test_laguerre_repr(self): res = repr(poly.Laguerre([0, 1])) tgt = 'Laguerre([0., 1.], domain=[0, 1], window=[0, 1])' assert_equal(res, tgt) # if __name__ == "__main__": run_module_suite()