def test_verify_element_vector(self): cls = convertertestmodule.ConverterTest() x = numpy.linspace(-5 * numpy.pi, 5 * numpy.pi, int(1e5)) expected = [int(ii) for ii in numpy.sin(x) * 121] data = [convertertestmodule.Element(ii) for ii in expected] cls = convertertestmodule.ConverterTest() self.assertEqual(cls.test_vector_element(data), expected)
def test_verify_int_list(self): cls = convertertestmodule.ConverterTest() x = numpy.linspace(-5 * numpy.pi, 5 * numpy.pi, int(1e5)) data = numpy.array(numpy.sin(x) * 10, dtype=numpy.int16) cls = convertertestmodule.ConverterTest() self.assertEqual(cls.test_list_sink(data), list(data)) self.assertEqual(cls.test_list_sink(list(data)), list(data)) self.assertEqual(cls.test_list_sink(tuple(data)), list(data))
def test_verify_int_array(self): cls = convertertestmodule.ConverterTest() x = numpy.linspace(-5 * numpy.pi, 5 * numpy.pi, 32) data = numpy.array(numpy.sin(x) * 10, dtype=numpy.int64) cls = convertertestmodule.ConverterTest() self.assertEqual(cls.test_array_sink(data), list(data)) self.assertEqual(cls.test_array_sink(list(data)), list(data)) self.assertEqual(cls.test_array_sink(tuple(data)), list(data)) with self.assertRaises(TypeError) as ctx: cls.test_array_sink([0] * 31) with self.assertRaises(TypeError) as ctx: cls.test_array_sink([0] * 33)
def test_verify_double_conversion(self): x = numpy.linspace(-5 * numpy.pi, 5 * numpy.pi, int(1e5)) data = numpy.array(numpy.sin(x) * 10, dtype=numpy.double) cls = convertertestmodule.ConverterTest() self.assertEqual(cls.test_double_sink(data), list(data)) self.assertEqual(cls.test_double_sink(list(data)), list(data)) self.assertEqual(cls.test_double_sink(tuple(data)), list(data))
def callit(self, data): cls = convertertestmodule.ConverterTest() dtype, size = cls.sink(data) return self.get_dtype(dtype), size