from __future__ import annotations from collections import defaultdict import datetime from typing import ( TYPE_CHECKING, Any, DefaultDict, cast, overload, ) from pandas._libs import json from pandas.io.excel._base import ExcelWriter from pandas.io.excel._util import ( combine_kwargs, validate_freeze_panes, ) if TYPE_CHECKING: from pandas._typing import ( ExcelWriterIfSheetExists, FilePath, StorageOptions, WriteExcelBuffer, ) from pandas.io.formats.excel import ExcelCell class ODSWriter(ExcelWriter): _engine = "odf" _supported_extensions = (".ods",) def __init__( self, path: FilePath | WriteExcelBuffer | ExcelWriter, engine: str | None = None, date_format: str | None = None, datetime_format=None, mode: str = "w", storage_options: StorageOptions | None = None, if_sheet_exists: ExcelWriterIfSheetExists | None = None, engine_kwargs: dict[str, Any] | None = None, **kwargs, ) -> None: from odf.opendocument import OpenDocumentSpreadsheet if mode == "a": raise ValueError("Append mode is not supported with odf!") engine_kwargs = combine_kwargs(engine_kwargs, kwargs) self._book = OpenDocumentSpreadsheet(**engine_kwargs) super().__init__( path, mode=mode, storage_options=storage_options, if_sheet_exists=if_sheet_exists, engine_kwargs=engine_kwargs, ) self._style_dict: dict[str, str] = {} @property def book(self): """ Book instance of class odf.opendocument.OpenDocumentSpreadsheet. This attribute can be used to access engine-specific features. """ return self._book @property def sheets(self) -> dict[str, Any]: """Mapping of sheet names to sheet objects.""" from odf.table import Table result = { sheet.getAttribute("name"): sheet for sheet in self.book.getElementsByType(Table) } return result def _save(self) -> None: """ Save workbook to disk. """ for sheet in self.sheets.values(): self.book.spreadsheet.addElement(sheet) self.book.save(self._handles.handle) def _write_cells( self, cells: list[ExcelCell], sheet_name: str | None = None, startrow: int = 0, startcol: int = 0, freeze_panes: tuple[int, int] | None = None, ) -> None: """ Write the frame cells using odf """ from odf.table import ( Table, TableCell, TableRow, ) from odf.text import P sheet_name = self._get_sheet_name(sheet_name) assert sheet_name is not None if sheet_name in self.sheets: wks = self.sheets[sheet_name] else: wks = Table(name=sheet_name) self.book.spreadsheet.addElement(wks) if validate_freeze_panes(freeze_panes): freeze_panes = cast(tuple[int, int], freeze_panes) self._create_freeze_panes(sheet_name, freeze_panes) for _ in range(startrow): wks.addElement(TableRow()) rows: DefaultDict = defaultdict(TableRow) col_count: DefaultDict = defaultdict(int) for cell in sorted(cells, key=lambda cell: (cell.row, cell.col)): # only add empty cells if the row is still empty if not col_count[cell.row]: for _ in range(startcol): rows[cell.row].addElement(TableCell()) # fill with empty cells if needed for _ in range(cell.col - col_count[cell.row]): rows[cell.row].addElement(TableCell()) col_count[cell.row] += 1 pvalue, tc = self._make_table_cell(cell) rows[cell.row].addElement(tc) col_count[cell.row] += 1 p = P(text=pvalue) tc.addElement(p) # add all rows to the sheet if len(rows) > 0: for row_nr in range(max(rows.keys()) + 1): wks.addElement(rows[row_nr]) def _make_table_cell_attributes(self, cell) -> dict[str, int | str]: """Convert cell attributes to OpenDocument attributes Parameters ---------- cell : ExcelCell Spreadsheet cell data Returns ------- attributes : Dict[str, Union[int, str]] Dictionary with attributes and attribute values """ attributes: dict[str, int | str] = {} style_name = self._process_style(cell.style) if style_name is not None: attributes["stylename"] = style_name if cell.mergestart is not None and cell.mergeend is not None: attributes["numberrowsspanned"] = max(1, cell.mergestart) attributes["numbercolumnsspanned"] = cell.mergeend return attributes def _make_table_cell(self, cell) -> tuple[object, Any]: """Convert cell data to an OpenDocument spreadsheet cell Parameters ---------- cell : ExcelCell Spreadsheet cell data Returns ------- pvalue, cell : Tuple[str, TableCell] Display value, Cell value """ from odf.table import TableCell attributes = self._make_table_cell_attributes(cell) val, fmt = self._value_with_fmt(cell.val) pvalue = value = val if isinstance(val, bool): value = str(val).lower() pvalue = str(val).upper() if isinstance(val, datetime.datetime): # Fast formatting value = val.isoformat() # Slow but locale-dependent pvalue = val.strftime("%c") return ( pvalue, TableCell(valuetype="date", datevalue=value, attributes=attributes), ) elif isinstance(val, datetime.date): # Fast formatting value = f"{val.year}-{val.month:02d}-{val.day:02d}" # Slow but locale-dependent pvalue = val.strftime("%x") return ( pvalue, TableCell(valuetype="date", datevalue=value, attributes=attributes), ) else: class_to_cell_type = { str: "string", int: "float", float: "float", bool: "boolean", } return ( pvalue, TableCell( valuetype=class_to_cell_type[type(val)], value=value, attributes=attributes, ), ) @overload def _process_style(self, style: dict[str, Any]) -> str: ... @overload def _process_style(self, style: None) -> None: ... def _process_style(self, style: dict[str, Any] | None) -> str | None: """Convert a style dictionary to a OpenDocument style sheet Parameters ---------- style : Dict Style dictionary Returns ------- style_key : str Unique style key for later reference in sheet """ from odf.style import ( ParagraphProperties, Style, TableCellProperties, TextProperties, ) if style is None: return None style_key = json.ujson_dumps(style) if style_key in self._style_dict: return self._style_dict[style_key] name = f"pd{len(self._style_dict)+1}" self._style_dict[style_key] = name odf_style = Style(name=name, family="table-cell") if "font" in style: font = style["font"] if font.get("bold", False): odf_style.addElement(TextProperties(fontweight="bold")) if "borders" in style: borders = style["borders"] for side, thickness in borders.items(): thickness_translation = {"thin": "0.75pt solid #000000"} odf_style.addElement( TableCellProperties( attributes={f"border{side}": thickness_translation[thickness]} ) ) if "alignment" in style: alignment = style["alignment"] horizontal = alignment.get("horizontal") if horizontal: odf_style.addElement(ParagraphProperties(textalign=horizontal)) vertical = alignment.get("vertical") if vertical: odf_style.addElement(TableCellProperties(verticalalign=vertical)) self.book.styles.addElement(odf_style) return name def _create_freeze_panes( self, sheet_name: str, freeze_panes: tuple[int, int] ) -> None: """ Create freeze panes in the sheet. Parameters ---------- sheet_name : str Name of the spreadsheet freeze_panes : tuple of (int, int) Freeze pane location x and y """ from odf.config import ( ConfigItem, ConfigItemMapEntry, ConfigItemMapIndexed, ConfigItemMapNamed, ConfigItemSet, ) config_item_set = ConfigItemSet(name="ooo:view-settings") self.book.settings.addElement(config_item_set) config_item_map_indexed = ConfigItemMapIndexed(name="Views") config_item_set.addElement(config_item_map_indexed) config_item_map_entry = ConfigItemMapEntry() config_item_map_indexed.addElement(config_item_map_entry) config_item_map_named = ConfigItemMapNamed(name="Tables") config_item_map_entry.addElement(config_item_map_named) config_item_map_entry = ConfigItemMapEntry(name=sheet_name) config_item_map_named.addElement(config_item_map_entry) config_item_map_entry.addElement( ConfigItem(name="HorizontalSplitMode", type="short", text="2") ) config_item_map_entry.addElement( ConfigItem(name="VerticalSplitMode", type="short", text="2") ) config_item_map_entry.addElement( ConfigItem( name="HorizontalSplitPosition", type="int", text=str(freeze_panes[0]) ) ) config_item_map_entry.addElement( ConfigItem( name="VerticalSplitPosition", type="int", text=str(freeze_panes[1]) ) ) config_item_map_entry.addElement( ConfigItem(name="PositionRight", type="int", text=str(freeze_panes[0])) ) config_item_map_entry.addElement( ConfigItem(name="PositionBottom", type="int", text=str(freeze_panes[1])) )