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640 lines
19 KiB
640 lines
19 KiB
from __future__ import annotations
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import mmap
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from typing import (
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TYPE_CHECKING,
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Any,
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cast,
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)
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import numpy as np
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from pandas.compat._optional import import_optional_dependency
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from pandas.util._decorators import doc
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from pandas.core.shared_docs import _shared_docs
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from pandas.io.excel._base import (
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BaseExcelReader,
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ExcelWriter,
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)
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from pandas.io.excel._util import (
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combine_kwargs,
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validate_freeze_panes,
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)
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if TYPE_CHECKING:
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from openpyxl import Workbook
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from openpyxl.descriptors.serialisable import Serialisable
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from pandas._typing import (
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ExcelWriterIfSheetExists,
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FilePath,
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ReadBuffer,
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Scalar,
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StorageOptions,
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WriteExcelBuffer,
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)
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class OpenpyxlWriter(ExcelWriter):
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_engine = "openpyxl"
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_supported_extensions = (".xlsx", ".xlsm")
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def __init__(
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self,
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path: FilePath | WriteExcelBuffer | ExcelWriter,
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engine: str | None = None,
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date_format: str | None = None,
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datetime_format: str | None = None,
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mode: str = "w",
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storage_options: StorageOptions | None = None,
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if_sheet_exists: ExcelWriterIfSheetExists | None = None,
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engine_kwargs: dict[str, Any] | None = None,
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**kwargs,
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) -> None:
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# Use the openpyxl module as the Excel writer.
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from openpyxl.workbook import Workbook
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engine_kwargs = combine_kwargs(engine_kwargs, kwargs)
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super().__init__(
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path,
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mode=mode,
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storage_options=storage_options,
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if_sheet_exists=if_sheet_exists,
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engine_kwargs=engine_kwargs,
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)
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# ExcelWriter replaced "a" by "r+" to allow us to first read the excel file from
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# the file and later write to it
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if "r+" in self._mode: # Load from existing workbook
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from openpyxl import load_workbook
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try:
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self._book = load_workbook(self._handles.handle, **engine_kwargs)
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except TypeError:
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self._handles.handle.close()
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raise
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self._handles.handle.seek(0)
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else:
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# Create workbook object with default optimized_write=True.
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try:
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self._book = Workbook(**engine_kwargs)
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except TypeError:
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self._handles.handle.close()
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raise
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if self.book.worksheets:
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self.book.remove(self.book.worksheets[0])
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@property
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def book(self) -> Workbook:
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"""
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Book instance of class openpyxl.workbook.Workbook.
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This attribute can be used to access engine-specific features.
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"""
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return self._book
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@property
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def sheets(self) -> dict[str, Any]:
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"""Mapping of sheet names to sheet objects."""
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result = {name: self.book[name] for name in self.book.sheetnames}
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return result
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def _save(self) -> None:
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"""
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Save workbook to disk.
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"""
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self.book.save(self._handles.handle)
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if "r+" in self._mode and not isinstance(self._handles.handle, mmap.mmap):
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# truncate file to the written content
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self._handles.handle.truncate()
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@classmethod
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def _convert_to_style_kwargs(cls, style_dict: dict) -> dict[str, Serialisable]:
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"""
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Convert a style_dict to a set of kwargs suitable for initializing
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or updating-on-copy an openpyxl v2 style object.
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Parameters
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----------
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style_dict : dict
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A dict with zero or more of the following keys (or their synonyms).
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'font'
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'fill'
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'border' ('borders')
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'alignment'
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'number_format'
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'protection'
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Returns
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-------
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style_kwargs : dict
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A dict with the same, normalized keys as ``style_dict`` but each
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value has been replaced with a native openpyxl style object of the
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appropriate class.
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"""
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_style_key_map = {"borders": "border"}
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style_kwargs: dict[str, Serialisable] = {}
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for k, v in style_dict.items():
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k = _style_key_map.get(k, k)
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_conv_to_x = getattr(cls, f"_convert_to_{k}", lambda x: None)
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new_v = _conv_to_x(v)
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if new_v:
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style_kwargs[k] = new_v
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return style_kwargs
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@classmethod
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def _convert_to_color(cls, color_spec):
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"""
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Convert ``color_spec`` to an openpyxl v2 Color object.
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Parameters
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----------
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color_spec : str, dict
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A 32-bit ARGB hex string, or a dict with zero or more of the
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following keys.
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'rgb'
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'indexed'
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'auto'
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'theme'
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'tint'
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'index'
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'type'
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Returns
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-------
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color : openpyxl.styles.Color
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"""
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from openpyxl.styles import Color
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if isinstance(color_spec, str):
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return Color(color_spec)
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else:
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return Color(**color_spec)
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@classmethod
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def _convert_to_font(cls, font_dict):
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"""
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Convert ``font_dict`` to an openpyxl v2 Font object.
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Parameters
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----------
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font_dict : dict
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A dict with zero or more of the following keys (or their synonyms).
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'name'
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'size' ('sz')
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'bold' ('b')
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'italic' ('i')
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'underline' ('u')
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'strikethrough' ('strike')
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'color'
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'vertAlign' ('vertalign')
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'charset'
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'scheme'
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'family'
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'outline'
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'shadow'
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'condense'
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Returns
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-------
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font : openpyxl.styles.Font
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"""
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from openpyxl.styles import Font
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_font_key_map = {
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"sz": "size",
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"b": "bold",
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"i": "italic",
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"u": "underline",
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"strike": "strikethrough",
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"vertalign": "vertAlign",
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}
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font_kwargs = {}
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for k, v in font_dict.items():
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k = _font_key_map.get(k, k)
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if k == "color":
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v = cls._convert_to_color(v)
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font_kwargs[k] = v
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return Font(**font_kwargs)
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@classmethod
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def _convert_to_stop(cls, stop_seq):
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"""
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Convert ``stop_seq`` to a list of openpyxl v2 Color objects,
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suitable for initializing the ``GradientFill`` ``stop`` parameter.
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Parameters
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----------
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stop_seq : iterable
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An iterable that yields objects suitable for consumption by
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``_convert_to_color``.
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Returns
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-------
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stop : list of openpyxl.styles.Color
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"""
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return map(cls._convert_to_color, stop_seq)
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@classmethod
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def _convert_to_fill(cls, fill_dict: dict[str, Any]):
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"""
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Convert ``fill_dict`` to an openpyxl v2 Fill object.
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Parameters
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----------
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fill_dict : dict
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A dict with one or more of the following keys (or their synonyms),
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'fill_type' ('patternType', 'patterntype')
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'start_color' ('fgColor', 'fgcolor')
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'end_color' ('bgColor', 'bgcolor')
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or one or more of the following keys (or their synonyms).
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'type' ('fill_type')
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'degree'
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'left'
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'right'
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'top'
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'bottom'
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'stop'
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Returns
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-------
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fill : openpyxl.styles.Fill
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"""
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from openpyxl.styles import (
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GradientFill,
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PatternFill,
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)
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_pattern_fill_key_map = {
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"patternType": "fill_type",
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"patterntype": "fill_type",
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"fgColor": "start_color",
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"fgcolor": "start_color",
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"bgColor": "end_color",
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"bgcolor": "end_color",
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}
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_gradient_fill_key_map = {"fill_type": "type"}
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pfill_kwargs = {}
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gfill_kwargs = {}
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for k, v in fill_dict.items():
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pk = _pattern_fill_key_map.get(k)
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gk = _gradient_fill_key_map.get(k)
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if pk in ["start_color", "end_color"]:
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v = cls._convert_to_color(v)
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if gk == "stop":
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v = cls._convert_to_stop(v)
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if pk:
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pfill_kwargs[pk] = v
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elif gk:
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gfill_kwargs[gk] = v
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else:
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pfill_kwargs[k] = v
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gfill_kwargs[k] = v
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try:
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return PatternFill(**pfill_kwargs)
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except TypeError:
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return GradientFill(**gfill_kwargs)
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@classmethod
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def _convert_to_side(cls, side_spec):
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"""
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Convert ``side_spec`` to an openpyxl v2 Side object.
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Parameters
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----------
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side_spec : str, dict
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A string specifying the border style, or a dict with zero or more
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of the following keys (or their synonyms).
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'style' ('border_style')
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'color'
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Returns
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-------
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side : openpyxl.styles.Side
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"""
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from openpyxl.styles import Side
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_side_key_map = {"border_style": "style"}
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if isinstance(side_spec, str):
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return Side(style=side_spec)
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side_kwargs = {}
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for k, v in side_spec.items():
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k = _side_key_map.get(k, k)
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if k == "color":
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v = cls._convert_to_color(v)
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side_kwargs[k] = v
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return Side(**side_kwargs)
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@classmethod
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def _convert_to_border(cls, border_dict):
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"""
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Convert ``border_dict`` to an openpyxl v2 Border object.
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Parameters
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----------
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border_dict : dict
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A dict with zero or more of the following keys (or their synonyms).
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'left'
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'right'
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'top'
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'bottom'
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'diagonal'
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'diagonal_direction'
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'vertical'
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'horizontal'
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'diagonalUp' ('diagonalup')
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'diagonalDown' ('diagonaldown')
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'outline'
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Returns
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-------
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border : openpyxl.styles.Border
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"""
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from openpyxl.styles import Border
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_border_key_map = {"diagonalup": "diagonalUp", "diagonaldown": "diagonalDown"}
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border_kwargs = {}
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for k, v in border_dict.items():
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k = _border_key_map.get(k, k)
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if k == "color":
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v = cls._convert_to_color(v)
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if k in ["left", "right", "top", "bottom", "diagonal"]:
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v = cls._convert_to_side(v)
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border_kwargs[k] = v
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return Border(**border_kwargs)
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@classmethod
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def _convert_to_alignment(cls, alignment_dict):
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"""
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Convert ``alignment_dict`` to an openpyxl v2 Alignment object.
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Parameters
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----------
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alignment_dict : dict
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A dict with zero or more of the following keys (or their synonyms).
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'horizontal'
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'vertical'
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'text_rotation'
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'wrap_text'
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'shrink_to_fit'
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'indent'
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Returns
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-------
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alignment : openpyxl.styles.Alignment
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"""
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from openpyxl.styles import Alignment
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return Alignment(**alignment_dict)
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@classmethod
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def _convert_to_number_format(cls, number_format_dict):
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"""
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Convert ``number_format_dict`` to an openpyxl v2.1.0 number format
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initializer.
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Parameters
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----------
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number_format_dict : dict
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A dict with zero or more of the following keys.
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'format_code' : str
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Returns
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-------
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number_format : str
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"""
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return number_format_dict["format_code"]
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@classmethod
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def _convert_to_protection(cls, protection_dict):
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"""
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Convert ``protection_dict`` to an openpyxl v2 Protection object.
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Parameters
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----------
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protection_dict : dict
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A dict with zero or more of the following keys.
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'locked'
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'hidden'
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Returns
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-------
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"""
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from openpyxl.styles import Protection
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return Protection(**protection_dict)
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def _write_cells(
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self,
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cells,
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sheet_name: str | None = None,
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startrow: int = 0,
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startcol: int = 0,
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freeze_panes: tuple[int, int] | None = None,
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) -> None:
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# Write the frame cells using openpyxl.
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sheet_name = self._get_sheet_name(sheet_name)
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_style_cache: dict[str, dict[str, Serialisable]] = {}
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if sheet_name in self.sheets and self._if_sheet_exists != "new":
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if "r+" in self._mode:
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if self._if_sheet_exists == "replace":
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old_wks = self.sheets[sheet_name]
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target_index = self.book.index(old_wks)
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del self.book[sheet_name]
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wks = self.book.create_sheet(sheet_name, target_index)
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elif self._if_sheet_exists == "error":
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raise ValueError(
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f"Sheet '{sheet_name}' already exists and "
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f"if_sheet_exists is set to 'error'."
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)
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elif self._if_sheet_exists == "overlay":
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wks = self.sheets[sheet_name]
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else:
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raise ValueError(
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f"'{self._if_sheet_exists}' is not valid for if_sheet_exists. "
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"Valid options are 'error', 'new', 'replace' and 'overlay'."
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)
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else:
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wks = self.sheets[sheet_name]
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else:
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wks = self.book.create_sheet()
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wks.title = sheet_name
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if validate_freeze_panes(freeze_panes):
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freeze_panes = cast(tuple[int, int], freeze_panes)
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wks.freeze_panes = wks.cell(
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row=freeze_panes[0] + 1, column=freeze_panes[1] + 1
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)
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for cell in cells:
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xcell = wks.cell(
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row=startrow + cell.row + 1, column=startcol + cell.col + 1
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)
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xcell.value, fmt = self._value_with_fmt(cell.val)
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if fmt:
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xcell.number_format = fmt
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style_kwargs: dict[str, Serialisable] | None = {}
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if cell.style:
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key = str(cell.style)
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style_kwargs = _style_cache.get(key)
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if style_kwargs is None:
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style_kwargs = self._convert_to_style_kwargs(cell.style)
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_style_cache[key] = style_kwargs
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if style_kwargs:
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for k, v in style_kwargs.items():
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setattr(xcell, k, v)
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if cell.mergestart is not None and cell.mergeend is not None:
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wks.merge_cells(
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start_row=startrow + cell.row + 1,
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start_column=startcol + cell.col + 1,
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end_column=startcol + cell.mergeend + 1,
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end_row=startrow + cell.mergestart + 1,
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)
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# When cells are merged only the top-left cell is preserved
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# The behaviour of the other cells in a merged range is
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# undefined
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if style_kwargs:
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first_row = startrow + cell.row + 1
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last_row = startrow + cell.mergestart + 1
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first_col = startcol + cell.col + 1
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last_col = startcol + cell.mergeend + 1
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for row in range(first_row, last_row + 1):
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for col in range(first_col, last_col + 1):
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if row == first_row and col == first_col:
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# Ignore first cell. It is already handled.
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continue
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xcell = wks.cell(column=col, row=row)
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for k, v in style_kwargs.items():
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setattr(xcell, k, v)
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|
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class OpenpyxlReader(BaseExcelReader["Workbook"]):
|
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@doc(storage_options=_shared_docs["storage_options"])
|
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def __init__(
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self,
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filepath_or_buffer: FilePath | ReadBuffer[bytes],
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storage_options: StorageOptions | None = None,
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engine_kwargs: dict | None = None,
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) -> None:
|
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"""
|
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Reader using openpyxl engine.
|
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|
|
Parameters
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|
----------
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filepath_or_buffer : str, path object or Workbook
|
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Object to be parsed.
|
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{storage_options}
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engine_kwargs : dict, optional
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Arbitrary keyword arguments passed to excel engine.
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"""
|
|
import_optional_dependency("openpyxl")
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super().__init__(
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filepath_or_buffer,
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storage_options=storage_options,
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engine_kwargs=engine_kwargs,
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)
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|
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@property
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|
def _workbook_class(self) -> type[Workbook]:
|
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from openpyxl import Workbook
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return Workbook
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|
|
def load_workbook(
|
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self, filepath_or_buffer: FilePath | ReadBuffer[bytes], engine_kwargs
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) -> Workbook:
|
|
from openpyxl import load_workbook
|
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|
|
return load_workbook(
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filepath_or_buffer,
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|
read_only=True,
|
|
data_only=True,
|
|
keep_links=False,
|
|
**engine_kwargs,
|
|
)
|
|
|
|
@property
|
|
def sheet_names(self) -> list[str]:
|
|
return [sheet.title for sheet in self.book.worksheets]
|
|
|
|
def get_sheet_by_name(self, name: str):
|
|
self.raise_if_bad_sheet_by_name(name)
|
|
return self.book[name]
|
|
|
|
def get_sheet_by_index(self, index: int):
|
|
self.raise_if_bad_sheet_by_index(index)
|
|
return self.book.worksheets[index]
|
|
|
|
def _convert_cell(self, cell) -> Scalar:
|
|
from openpyxl.cell.cell import (
|
|
TYPE_ERROR,
|
|
TYPE_NUMERIC,
|
|
)
|
|
|
|
if cell.value is None:
|
|
return "" # compat with xlrd
|
|
elif cell.data_type == TYPE_ERROR:
|
|
return np.nan
|
|
elif cell.data_type == TYPE_NUMERIC:
|
|
val = int(cell.value)
|
|
if val == cell.value:
|
|
return val
|
|
return float(cell.value)
|
|
|
|
return cell.value
|
|
|
|
def get_sheet_data(
|
|
self, sheet, file_rows_needed: int | None = None
|
|
) -> list[list[Scalar]]:
|
|
if self.book.read_only:
|
|
sheet.reset_dimensions()
|
|
|
|
data: list[list[Scalar]] = []
|
|
last_row_with_data = -1
|
|
for row_number, row in enumerate(sheet.rows):
|
|
converted_row = [self._convert_cell(cell) for cell in row]
|
|
while converted_row and converted_row[-1] == "":
|
|
# trim trailing empty elements
|
|
converted_row.pop()
|
|
if converted_row:
|
|
last_row_with_data = row_number
|
|
data.append(converted_row)
|
|
if file_rows_needed is not None and len(data) >= file_rows_needed:
|
|
break
|
|
|
|
# Trim trailing empty rows
|
|
data = data[: last_row_with_data + 1]
|
|
|
|
if len(data) > 0:
|
|
# extend rows to max width
|
|
max_width = max(len(data_row) for data_row in data)
|
|
if min(len(data_row) for data_row in data) < max_width:
|
|
empty_cell: list[Scalar] = [""]
|
|
data = [
|
|
data_row + (max_width - len(data_row)) * empty_cell
|
|
for data_row in data
|
|
]
|
|
|
|
return data
|
|
|