def test_2d_coords_as_integers(self): cube = simple_2d_w_multidim_coords() defn = iplt._get_plot_defn_custom_coords_picked( cube, (0, 1), BOUND_MODE ) self.assertEqual([coord for coord in defn.coords], [1, 0]) self.assertTrue(defn.transpose)
def test_2d_coords(self): cube = simple_2d_w_multidim_coords() defn = iplt._get_plot_defn_custom_coords_picked(cube, ('foo', 'bar'), BOUND_MODE) self.assertEqual([coord.name() for coord in defn.coords], ['bar', 'foo']) self.assertFalse(defn.transpose)
def test_2d_coords(self): cube = simple_2d_w_multidim_coords() defn = iplt._get_plot_defn_custom_coords_picked(cube, ('foo', 'bar'), BOUND_MODE) self.assertEqual([coord.name() for coord in defn.coords], ['bar', 'foo']) self.assertFalse(defn.transpose)
def test_2d_coord(self): cube = simple_2d_w_multidim_coords()[:3, :3] coord_1, coord_2 = cube.coords() with self.assertRaisesRegex( ValueError, "Expected coordinate ndim == 1" ): _ = Mesh.from_coords(coord_1, coord_2)
def test_2d_coords(self): cube = simple_2d_w_multidim_coords() defn = iplt._get_plot_defn(cube, iris.coords.BOUND_MODE) self.assertEqual([coord.name() for coord in defn.coords], ['bar', 'foo'])
def test_trying_to_promote_a_multidim_coord(self): cube_a = stock.simple_2d_w_multidim_coords() with self.assertRaises(ValueError): promote_aux_coord_to_dim_coord(cube_a, "bar")
def test_2d_coords_as_integers(self): cube = simple_2d_w_multidim_coords() defn = iplt._get_plot_defn_custom_coords_picked(cube, (0, 1), BOUND_MODE) self.assertEqual([coord for coord in defn.coords], [1, 0]) self.assertTrue(defn.transpose)
def test_trying_to_promote_a_multidim_coord(self): cube_a = stock.simple_2d_w_multidim_coords() with self.assertRaises(ValueError): promote_aux_coord_to_dim_coord(cube_a, "bar")