import contextlib from pathlib import Path import re import numpy as np import pytest import pandas as pd from pandas import DataFrame import pandas._testing as tm from pandas.io.excel import ( ExcelWriter, _OpenpyxlWriter, ) openpyxl = pytest.importorskip("openpyxl") pytestmark = pytest.mark.parametrize("ext", [".xlsx"]) def test_to_excel_styleconverter(ext): from openpyxl import styles hstyle = { "font": {"color": "00FF0000", "bold": True}, "borders": {"top": "thin", "right": "thin", "bottom": "thin", "left": "thin"}, "alignment": {"horizontal": "center", "vertical": "top"}, "fill": {"patternType": "solid", "fgColor": {"rgb": "006666FF", "tint": 0.3}}, "number_format": {"format_code": "0.00"}, "protection": {"locked": True, "hidden": False}, } font_color = styles.Color("00FF0000") font = styles.Font(bold=True, color=font_color) side = styles.Side(style=styles.borders.BORDER_THIN) border = styles.Border(top=side, right=side, bottom=side, left=side) alignment = styles.Alignment(horizontal="center", vertical="top") fill_color = styles.Color(rgb="006666FF", tint=0.3) fill = styles.PatternFill(patternType="solid", fgColor=fill_color) number_format = "0.00" protection = styles.Protection(locked=True, hidden=False) kw = _OpenpyxlWriter._convert_to_style_kwargs(hstyle) assert kw["font"] == font assert kw["border"] == border assert kw["alignment"] == alignment assert kw["fill"] == fill assert kw["number_format"] == number_format assert kw["protection"] == protection def test_write_cells_merge_styled(ext): from pandas.io.formats.excel import ExcelCell sheet_name = "merge_styled" sty_b1 = {"font": {"color": "00FF0000"}} sty_a2 = {"font": {"color": "0000FF00"}} initial_cells = [ ExcelCell(col=1, row=0, val=42, style=sty_b1), ExcelCell(col=0, row=1, val=99, style=sty_a2), ] sty_merged = {"font": {"color": "000000FF", "bold": True}} sty_kwargs = _OpenpyxlWriter._convert_to_style_kwargs(sty_merged) openpyxl_sty_merged = sty_kwargs["font"] merge_cells = [ ExcelCell( col=0, row=0, val="pandas", mergestart=1, mergeend=1, style=sty_merged ) ] with tm.ensure_clean(ext) as path: with _OpenpyxlWriter(path) as writer: writer._write_cells(initial_cells, sheet_name=sheet_name) writer._write_cells(merge_cells, sheet_name=sheet_name) wks = writer.sheets[sheet_name] xcell_b1 = wks["B1"] xcell_a2 = wks["A2"] assert xcell_b1.font == openpyxl_sty_merged assert xcell_a2.font == openpyxl_sty_merged @pytest.mark.parametrize("iso_dates", [True, False]) def test_engine_kwargs_write(ext, iso_dates): # GH 42286 GH 43445 engine_kwargs = {"iso_dates": iso_dates} with tm.ensure_clean(ext) as f: with ExcelWriter(f, engine="openpyxl", engine_kwargs=engine_kwargs) as writer: assert writer.book.iso_dates == iso_dates # ExcelWriter won't allow us to close without writing something DataFrame().to_excel(writer) def test_engine_kwargs_append_invalid(ext): # GH 43445 # test whether an invalid engine kwargs actually raises with tm.ensure_clean(ext) as f: DataFrame(["hello", "world"]).to_excel(f) with pytest.raises( TypeError, match=re.escape( "load_workbook() got an unexpected keyword argument 'apple_banana'" ), ): with ExcelWriter( f, engine="openpyxl", mode="a", engine_kwargs={"apple_banana": "fruit"} ) as writer: # ExcelWriter needs us to write something to close properly DataFrame(["good"]).to_excel(writer, sheet_name="Sheet2") @pytest.mark.parametrize("data_only, expected", [(True, 0), (False, "=1+1")]) def test_engine_kwargs_append_data_only(ext, data_only, expected): # GH 43445 # tests whether the data_only engine_kwarg actually works well for # openpyxl's load_workbook with tm.ensure_clean(ext) as f: DataFrame(["=1+1"]).to_excel(f) with ExcelWriter( f, engine="openpyxl", mode="a", engine_kwargs={"data_only": data_only} ) as writer: assert writer.sheets["Sheet1"]["B2"].value == expected # ExcelWriter needs us to writer something to close properly? DataFrame().to_excel(writer, sheet_name="Sheet2") @pytest.mark.parametrize( "mode,expected", [("w", ["baz"]), ("a", ["foo", "bar", "baz"])] ) def test_write_append_mode(ext, mode, expected): df = DataFrame([1], columns=["baz"]) with tm.ensure_clean(ext) as f: wb = openpyxl.Workbook() wb.worksheets[0].title = "foo" wb.worksheets[0]["A1"].value = "foo" wb.create_sheet("bar") wb.worksheets[1]["A1"].value = "bar" wb.save(f) with ExcelWriter(f, engine="openpyxl", mode=mode) as writer: df.to_excel(writer, sheet_name="baz", index=False) with contextlib.closing(openpyxl.load_workbook(f)) as wb2: result = [sheet.title for sheet in wb2.worksheets] assert result == expected for index, cell_value in enumerate(expected): assert wb2.worksheets[index]["A1"].value == cell_value @pytest.mark.parametrize( "if_sheet_exists,num_sheets,expected", [ ("new", 2, ["apple", "banana"]), ("replace", 1, ["pear"]), ("overlay", 1, ["pear", "banana"]), ], ) def test_if_sheet_exists_append_modes(ext, if_sheet_exists, num_sheets, expected): # GH 40230 df1 = DataFrame({"fruit": ["apple", "banana"]}) df2 = DataFrame({"fruit": ["pear"]}) with tm.ensure_clean(ext) as f: df1.to_excel(f, engine="openpyxl", sheet_name="foo", index=False) with ExcelWriter( f, engine="openpyxl", mode="a", if_sheet_exists=if_sheet_exists ) as writer: df2.to_excel(writer, sheet_name="foo", index=False) with contextlib.closing(openpyxl.load_workbook(f)) as wb: assert len(wb.sheetnames) == num_sheets assert wb.sheetnames[0] == "foo" result = pd.read_excel(wb, "foo", engine="openpyxl") assert list(result["fruit"]) == expected if len(wb.sheetnames) == 2: result = pd.read_excel(wb, wb.sheetnames[1], engine="openpyxl") tm.assert_frame_equal(result, df2) @pytest.mark.parametrize( "startrow, startcol, greeting, goodbye", [ (0, 0, ["poop", "world"], ["goodbye", "people"]), (0, 1, ["hello", "world"], ["poop", "people"]), (1, 0, ["hello", "poop"], ["goodbye", "people"]), (1, 1, ["hello", "world"], ["goodbye", "poop"]), ], ) def test_append_overlay_startrow_startcol(ext, startrow, startcol, greeting, goodbye): df1 = DataFrame({"greeting": ["hello", "world"], "goodbye": ["goodbye", "people"]}) df2 = DataFrame(["poop"]) with tm.ensure_clean(ext) as f: df1.to_excel(f, engine="openpyxl", sheet_name="poo", index=False) with ExcelWriter( f, engine="openpyxl", mode="a", if_sheet_exists="overlay" ) as writer: # use startrow+1 because we don't have a header df2.to_excel( writer, index=False, header=False, startrow=startrow + 1, startcol=startcol, sheet_name="poo", ) result = pd.read_excel(f, sheet_name="poo", engine="openpyxl") expected = DataFrame({"greeting": greeting, "goodbye": goodbye}) tm.assert_frame_equal(result, expected) @pytest.mark.parametrize( "if_sheet_exists,msg", [ ( "invalid", "'invalid' is not valid for if_sheet_exists. Valid options " "are 'error', 'new', 'replace' and 'overlay'.", ), ( "error", "Sheet 'foo' already exists and if_sheet_exists is set to 'error'.", ), ( None, "Sheet 'foo' already exists and if_sheet_exists is set to 'error'.", ), ], ) def test_if_sheet_exists_raises(ext, if_sheet_exists, msg): # GH 40230 df = DataFrame({"fruit": ["pear"]}) with tm.ensure_clean(ext) as f: with pytest.raises(ValueError, match=re.escape(msg)): df.to_excel(f, "foo", engine="openpyxl") with ExcelWriter( f, engine="openpyxl", mode="a", if_sheet_exists=if_sheet_exists ) as writer: df.to_excel(writer, sheet_name="foo") def test_to_excel_with_openpyxl_engine(ext): # GH 29854 with tm.ensure_clean(ext) as filename: df1 = DataFrame({"A": np.linspace(1, 10, 10)}) df2 = DataFrame({"B": np.linspace(1, 20, 10)}) df = pd.concat([df1, df2], axis=1) styled = df.style.applymap( lambda val: f"color: {'red' if val < 0 else 'black'}" ).highlight_max() styled.to_excel(filename, engine="openpyxl") @pytest.mark.parametrize("read_only", [True, False]) def test_read_workbook(datapath, ext, read_only): # GH 39528 filename = datapath("io", "data", "excel", "test1" + ext) with contextlib.closing( openpyxl.load_workbook(filename, read_only=read_only) ) as wb: result = pd.read_excel(wb, engine="openpyxl") expected = pd.read_excel(filename) tm.assert_frame_equal(result, expected) @pytest.mark.parametrize( "header, expected_data", [ ( 0, { "Title": [np.nan, "A", 1, 2, 3], "Unnamed: 1": [np.nan, "B", 4, 5, 6], "Unnamed: 2": [np.nan, "C", 7, 8, 9], }, ), (2, {"A": [1, 2, 3], "B": [4, 5, 6], "C": [7, 8, 9]}), ], ) @pytest.mark.parametrize( "filename", ["dimension_missing", "dimension_small", "dimension_large"] ) # When read_only is None, use read_excel instead of a workbook @pytest.mark.parametrize("read_only", [True, False, None]) def test_read_with_bad_dimension( datapath, ext, header, expected_data, filename, read_only ): # GH 38956, 39001 - no/incorrect dimension information path = datapath("io", "data", "excel", f"{filename}{ext}") if read_only is None: result = pd.read_excel(path, header=header) else: with contextlib.closing( openpyxl.load_workbook(path, read_only=read_only) ) as wb: result = pd.read_excel(wb, engine="openpyxl", header=header) expected = DataFrame(expected_data) tm.assert_frame_equal(result, expected) def test_append_mode_file(ext): # GH 39576 df = DataFrame() with tm.ensure_clean(ext) as f: df.to_excel(f, engine="openpyxl") with ExcelWriter( f, mode="a", engine="openpyxl", if_sheet_exists="new" ) as writer: df.to_excel(writer) # make sure that zip files are not concatenated by making sure that # "docProps/app.xml" only occurs twice in the file data = Path(f).read_bytes() first = data.find(b"docProps/app.xml") second = data.find(b"docProps/app.xml", first + 1) third = data.find(b"docProps/app.xml", second + 1) assert second != -1 and third == -1 # When read_only is None, use read_excel instead of a workbook @pytest.mark.parametrize("read_only", [True, False, None]) def test_read_with_empty_trailing_rows(datapath, ext, read_only): # GH 39181 path = datapath("io", "data", "excel", f"empty_trailing_rows{ext}") if read_only is None: result = pd.read_excel(path) else: with contextlib.closing( openpyxl.load_workbook(path, read_only=read_only) ) as wb: result = pd.read_excel(wb, engine="openpyxl") expected = DataFrame( { "Title": [np.nan, "A", 1, 2, 3], "Unnamed: 1": [np.nan, "B", 4, 5, 6], "Unnamed: 2": [np.nan, "C", 7, 8, 9], } ) tm.assert_frame_equal(result, expected) # When read_only is None, use read_excel instead of a workbook @pytest.mark.parametrize("read_only", [True, False, None]) def test_read_empty_with_blank_row(datapath, ext, read_only): # GH 39547 - empty excel file with a row that has no data path = datapath("io", "data", "excel", f"empty_with_blank_row{ext}") if read_only is None: result = pd.read_excel(path) else: with contextlib.closing( openpyxl.load_workbook(path, read_only=read_only) ) as wb: result = pd.read_excel(wb, engine="openpyxl") expected = DataFrame() tm.assert_frame_equal(result, expected) def test_book_and_sheets_consistent(ext): # GH#45687 - Ensure sheets is updated if user modifies book with tm.ensure_clean(ext) as f: with ExcelWriter(f, engine="openpyxl") as writer: assert writer.sheets == {} sheet = writer.book.create_sheet("test_name", 0) assert writer.sheets == {"test_name": sheet} def test_ints_spelled_with_decimals(datapath, ext): # GH 46988 - openpyxl returns this sheet with floats path = datapath("io", "data", "excel", f"ints_spelled_with_decimals{ext}") result = pd.read_excel(path) expected = DataFrame(range(2, 12), columns=[1]) tm.assert_frame_equal(result, expected) def test_read_multiindex_header_no_index_names(datapath, ext): # GH#47487 path = datapath("io", "data", "excel", f"multiindex_no_index_names{ext}") result = pd.read_excel(path, index_col=[0, 1, 2], header=[0, 1, 2]) expected = DataFrame( [[np.nan, "x", "x", "x"], ["x", np.nan, np.nan, np.nan]], columns=pd.MultiIndex.from_tuples( [("X", "Y", "A1"), ("X", "Y", "A2"), ("XX", "YY", "B1"), ("XX", "YY", "B2")] ), index=pd.MultiIndex.from_tuples([("A", "AA", "AAA"), ("A", "BB", "BBB")]), ) tm.assert_frame_equal(result, expected)