def test_concat_cell_style_array(self): """Test streamlit.data_frame_proto._concat_cell_style_array.""" cell_style1 = CellStyle() cell_style1.css.extend([_css_style("color", "black")]) cell_style2 = CellStyle() cell_style2.css.extend([_css_style("vertical-align", "middle")]) style0 = CellStyleArray() style1 = CellStyleArray() style1.styles.extend([cell_style1]) style2 = CellStyleArray() style2.styles.extend([cell_style2]) # Combine 1 and 2 style3 = CellStyleArray() style3.styles.extend([cell_style1, cell_style2]) # not empty data_frame_proto._concat_cell_style_array(style1, style2) self.assertEqual(str(style1), str(style3)) # style0 is empty data_frame_proto._concat_cell_style_array(style0, style1) self.assertEqual(str(style0), str(style1))
def test_add_rows(self): """Test streamlit.data_frame_proto._add_rows.""" # Generic Data aa = AnyArray() aa.int64s.data.extend([1, 2]) cell_style = CellStyle() cell_style.css.extend([_css_style("color", "black")]) style = CellStyleArray() style.styles.extend([cell_style]) # Delta DataFrame dt1 = Delta() dt1.new_element.data_frame.data.cols.extend([aa]) dt1.new_element.data_frame.index.plain_index.data.int64s.data.extend([3, 4]) dt1.new_element.data_frame.columns.plain_index.data.int64s.data.extend([5, 6]) dt1.new_element.data_frame.style.cols.extend([style]) dt2 = Delta() dt2.new_element.data_frame.data.cols.extend([aa]) dt2.new_element.data_frame.index.plain_index.data.int64s.data.extend([3, 4]) dt2.new_element.data_frame.columns.plain_index.data.int64s.data.extend([5, 6]) dt2.new_element.data_frame.style.cols.extend([style]) combined = Delta() aa_combined = AnyArray() aa_combined.int64s.data.extend([1, 2, 1, 2]) style_combined = CellStyleArray() style_combined.styles.extend([cell_style, cell_style]) combined.new_element.data_frame.data.cols.extend([aa_combined]) row_index = combined.new_element.data_frame.index.plain_index row_index.data.int64s.data.extend([3, 4, 3, 4]) col_index = combined.new_element.data_frame.columns.plain_index col_index.data.int64s.data.extend([5, 6]) combined.new_element.data_frame.style.cols.extend([style_combined]) # Test both not empty data_frame_proto.add_rows(dt1, dt2) self.assertEqual(dt1, combined) # Test one empty dt0 = Delta() dt0.new_element.data_frame.data.cols.extend([]) data_frame_proto.add_rows(dt0, dt1) self.assertEqual(str(dt0), str(dt1)) # Test both empty empty0 = Delta() empty0.new_element.data_frame.data.cols.extend([]) empty1 = Delta() empty1.new_element.data_frame.data.cols.extend([]) data_frame_proto.add_rows(empty0, empty1) self.assertEqual(str(empty0), str(empty1)) # Test different data shapes diff0 = Delta() diff0.new_element.data_frame.data.cols.extend([aa, aa]) diff1 = Delta() diff1.new_element.data_frame.data.cols.extend([aa]) with pytest.raises(ValueError) as e: data_frame_proto.add_rows(diff0, diff1) err_msg = "Dataframes have incompatible shapes" self.assertEqual(err_msg, str(e.value))