class TestNoMetadata(tests.IrisTest): # Test the situation where we have a cube with no metadata at all. def setUp(self): self.shape = (2, 3, 4) self.cube = Cube(np.arange(24).reshape(self.shape)) self.representer = CubeRepresentation(self.cube) self.representer.repr_html() def test_cube_name(self): expected = 'Unknown' # This cube has no metadata. result = self.representer.name self.assertEqual(expected, result) def test_cube_units(self): expected = 'unknown' # This cube has no metadata. result = self.representer.units self.assertEqual(expected, result) def test_dim_names(self): expected = ['--'] * len(self.shape) result = self.representer.names self.assertEqual(expected, result) def test_shape(self): result = self.representer.shapes self.assertEqual(result, self.shape)
class TestNoMetadata(tests.IrisTest): # Test the situation where we have a cube with no metadata at all. def setUp(self): self.shape = (2, 3, 4) self.cube = Cube(np.arange(24).reshape(self.shape)) self.representer = CubeRepresentation(self.cube) self.representer.repr_html() def test_cube_name(self): expected = 'Unknown' # This cube has no metadata. result = self.representer.name self.assertEqual(expected, result) def test_cube_units(self): expected = 'unknown' # This cube has no metadata. result = self.representer.units self.assertEqual(expected, result) def test_dim_names(self): expected = ['--'] * len(self.shape) result = self.representer.names self.assertEqual(expected, result) def test_shape(self): result = self.representer.shapes self.assertEqual(result, self.shape)
def test_no_attrs(self): self.cube.attributes = {} representer = CubeRepresentation(self.cube) result = representer.repr_html().lower() self.assertIn('dimension coordinates', result) self.assertIn('auxiliary coordinates', result) self.assertIn('scalar coordinates', result) self.assertNotIn('attributes', result)
class TestScalarCube(tests.IrisTest): def setUp(self): self.cube = stock.realistic_3d()[0, 0, 0] self.representer = CubeRepresentation(self.cube) self.representer.repr_html() def test_identfication(self): # Is this scalar cube accurately identified? self.assertTrue(self.representer.scalar_cube) def test_header__name(self): header = self.representer._make_header() expected_name = escape(self.cube.name().title().replace('_', ' ')) self.assertIn(expected_name, header) def test_header__units(self): header = self.representer._make_header() expected_units = escape(self.cube.units.symbol) self.assertIn(expected_units, header) def test_header__scalar_str(self): # Check that 'scalar cube' is placed in the header. header = self.representer._make_header() expected_str = '(scalar cube)' self.assertIn(expected_str, header) def test_content__scalars(self): # Check an element "Scalar coordinates" is present in the main content. content = self.representer._make_content() expected_str = 'Scalar coordinates' self.assertIn(expected_str, content) def test_content__specific_scalar_coord(self): # Check a specific scalar coord is present in the main content. content = self.representer._make_content() expected_coord = self.cube.coords()[0] expected_coord_name = escape(expected_coord.name()) self.assertIn(expected_coord_name, content) expected_coord_val = escape(str(expected_coord.points[0])) self.assertIn(expected_coord_val, content) def test_content__attributes(self): # Check an element "attributes" is present in the main content. content = self.representer._make_content() expected_str = 'Attributes' self.assertIn(expected_str, content)
class TestScalarCube(tests.IrisTest): def setUp(self): self.cube = stock.realistic_3d()[0, 0, 0] self.representer = CubeRepresentation(self.cube) self.representer.repr_html() def test_identfication(self): # Is this scalar cube accurately identified? self.assertTrue(self.representer.scalar_cube) def test_header__name(self): header = self.representer._make_header() expected_name = self.cube.name().title().replace('_', ' ') self.assertIn(expected_name, header) def test_header__units(self): header = self.representer._make_header() expected_units = self.cube.units.symbol self.assertIn(expected_units, header) def test_header__scalar_str(self): # Check that 'scalar cube' is placed in the header. header = self.representer._make_header() expected_str = '(scalar cube)' self.assertIn(expected_str, header) def test_content__scalars(self): # Check an element "Scalar coordinates" is present in the main content. content = self.representer._make_content() expected_str = 'Scalar coordinates' self.assertIn(expected_str, content) def test_content__specific_scalar_coord(self): # Check a specific scalar coord is present in the main content. content = self.representer._make_content() expected_coord = self.cube.coords()[0] expected_coord_name = expected_coord.name() self.assertIn(expected_coord_name, content) expected_coord_val = str(expected_coord.points[0]) self.assertIn(expected_coord_val, content) def test_content__attributes(self): # Check an element "attributes" is present in the main content. content = self.representer._make_content() expected_str = 'Attributes' self.assertIn(expected_str, content)
def test_no_attrs(self): self.cube.attributes = {} representer = CubeRepresentation(self.cube) result = representer.repr_html().lower() self.assertIn('dimension coordinates', result) self.assertIn('auxiliary coordinates', result) self.assertIn('scalar coordinates', result) self.assertNotIn('attributes', result)
def test_no_scalar_coords(self): aux_coords = ['air_pressure'] for coord in aux_coords: self.cube.remove_coord(coord) representer = CubeRepresentation(self.cube) result = representer.repr_html().lower() self.assertIn('dimension coordinates', result) self.assertIn('auxiliary coordinates', result) self.assertNotIn('scalar coordinates', result) self.assertIn('attributes', result)
def test_no_dim_coords(self): dim_coords = [c.name() for c in self.cube.coords(dim_coords=True)] for coord in dim_coords: self.cube.remove_coord(coord) representer = CubeRepresentation(self.cube) result = representer.repr_html().lower() self.assertNotIn('dimension coordinates', result) self.assertIn('auxiliary coordinates', result) self.assertIn('scalar coordinates', result) self.assertIn('attributes', result)
def test_no_aux_coords(self): aux_coords = ["forecast_period"] for coord in aux_coords: self.cube.remove_coord(coord) representer = CubeRepresentation(self.cube) result = representer.repr_html().lower() self.assertIn("dimension coordinates", result) self.assertNotIn("auxiliary coordinates", result) self.assertIn("scalar coordinates", result) self.assertIn("attributes", result)
def test_no_coords(self): all_coords = [coord.name() for coord in self.cube.coords()] for coord in all_coords: self.cube.remove_coord(coord) representer = CubeRepresentation(self.cube) result = representer.repr_html().lower() self.assertNotIn("dimension coordinates", result) self.assertNotIn("auxiliary coordinates", result) self.assertNotIn("scalar coordinates", result) self.assertIn("attributes", result)
def test_no_scalar_coords(self): aux_coords = ['air_pressure'] for coord in aux_coords: self.cube.remove_coord(coord) representer = CubeRepresentation(self.cube) result = representer.repr_html().lower() self.assertIn('dimension coordinates', result) self.assertIn('auxiliary coordinates', result) self.assertNotIn('scalar coordinates', result) self.assertIn('attributes', result)
def test_no_dim_coords(self): dim_coords = [c.name() for c in self.cube.coords(dim_coords=True)] for coord in dim_coords: self.cube.remove_coord(coord) representer = CubeRepresentation(self.cube) result = representer.repr_html().lower() self.assertNotIn('dimension coordinates', result) self.assertIn('auxiliary coordinates', result) self.assertIn('scalar coordinates', result) self.assertIn('attributes', result)
def setUp(self): self.cube = stock.simple_3d() representer = CubeRepresentation(self.cube) self.result = representer.repr_html()
def test_no_cell_methods(self): representer = CubeRepresentation(self.cube) result = representer.repr_html().lower() self.assertNotIn('cell methods', result)
def setUp(self): self.cube = stock.simple_3d() representer = CubeRepresentation(self.cube) self.result = representer.repr_html()
def test_no_cell_methods(self): representer = CubeRepresentation(self.cube) result = representer.repr_html().lower() self.assertNotIn('cell methods', result)