""" Module for formatting output data into CSV files. """ from __future__ import annotations import csv as csvlib import os from typing import ( TYPE_CHECKING, Any, Hashable, Iterator, Sequence, cast, ) import numpy as np from pandas._libs import writers as libwriters from pandas._typing import ( CompressionOptions, FilePath, FloatFormatType, IndexLabel, StorageOptions, WriteBuffer, ) from pandas.util._decorators import cache_readonly from pandas.core.dtypes.generic import ( ABCDatetimeIndex, ABCIndex, ABCMultiIndex, ABCPeriodIndex, ) from pandas.core.dtypes.missing import notna from pandas.core.indexes.api import Index from pandas.io.common import get_handle if TYPE_CHECKING: from pandas.io.formats.format import DataFrameFormatter class CSVFormatter: cols: np.ndarray def __init__( self, formatter: DataFrameFormatter, path_or_buf: FilePath | WriteBuffer[str] | WriteBuffer[bytes] = "", sep: str = ",", cols: Sequence[Hashable] | None = None, index_label: IndexLabel | None = None, mode: str = "w", encoding: str | None = None, errors: str = "strict", compression: CompressionOptions = "infer", quoting: int | None = None, lineterminator: str | None = "\n", chunksize: int | None = None, quotechar: str | None = '"', date_format: str | None = None, doublequote: bool = True, escapechar: str | None = None, storage_options: StorageOptions = None, ) -> None: self.fmt = formatter self.obj = self.fmt.frame self.filepath_or_buffer = path_or_buf self.encoding = encoding self.compression: CompressionOptions = compression self.mode = mode self.storage_options = storage_options self.sep = sep self.index_label = self._initialize_index_label(index_label) self.errors = errors self.quoting = quoting or csvlib.QUOTE_MINIMAL self.quotechar = self._initialize_quotechar(quotechar) self.doublequote = doublequote self.escapechar = escapechar self.lineterminator = lineterminator or os.linesep self.date_format = date_format self.cols = self._initialize_columns(cols) self.chunksize = self._initialize_chunksize(chunksize) @property def na_rep(self) -> str: return self.fmt.na_rep @property def float_format(self) -> FloatFormatType | None: return self.fmt.float_format @property def decimal(self) -> str: return self.fmt.decimal @property def header(self) -> bool | Sequence[str]: return self.fmt.header @property def index(self) -> bool: return self.fmt.index def _initialize_index_label(self, index_label: IndexLabel | None) -> IndexLabel: if index_label is not False: if index_label is None: return self._get_index_label_from_obj() elif not isinstance(index_label, (list, tuple, np.ndarray, ABCIndex)): # given a string for a DF with Index return [index_label] return index_label def _get_index_label_from_obj(self) -> Sequence[Hashable]: if isinstance(self.obj.index, ABCMultiIndex): return self._get_index_label_multiindex() else: return self._get_index_label_flat() def _get_index_label_multiindex(self) -> Sequence[Hashable]: return [name or "" for name in self.obj.index.names] def _get_index_label_flat(self) -> Sequence[Hashable]: index_label = self.obj.index.name return [""] if index_label is None else [index_label] def _initialize_quotechar(self, quotechar: str | None) -> str | None: if self.quoting != csvlib.QUOTE_NONE: # prevents crash in _csv return quotechar return None @property def has_mi_columns(self) -> bool: return bool(isinstance(self.obj.columns, ABCMultiIndex)) def _initialize_columns(self, cols: Sequence[Hashable] | None) -> np.ndarray: # validate mi options if self.has_mi_columns: if cols is not None: msg = "cannot specify cols with a MultiIndex on the columns" raise TypeError(msg) if cols is not None: if isinstance(cols, ABCIndex): cols = cols._format_native_types(**self._number_format) else: cols = list(cols) self.obj = self.obj.loc[:, cols] # update columns to include possible multiplicity of dupes # and make sure cols is just a list of labels new_cols = self.obj.columns return new_cols._format_native_types(**self._number_format) def _initialize_chunksize(self, chunksize: int | None) -> int: if chunksize is None: return (100000 // (len(self.cols) or 1)) or 1 return int(chunksize) @property def _number_format(self) -> dict[str, Any]: """Dictionary used for storing number formatting settings.""" return { "na_rep": self.na_rep, "float_format": self.float_format, "date_format": self.date_format, "quoting": self.quoting, "decimal": self.decimal, } @cache_readonly def data_index(self) -> Index: data_index = self.obj.index if ( isinstance(data_index, (ABCDatetimeIndex, ABCPeriodIndex)) and self.date_format is not None ): data_index = Index( [x.strftime(self.date_format) if notna(x) else "" for x in data_index] ) elif isinstance(data_index, ABCMultiIndex): data_index = data_index.remove_unused_levels() return data_index @property def nlevels(self) -> int: if self.index: return getattr(self.data_index, "nlevels", 1) else: return 0 @property def _has_aliases(self) -> bool: return isinstance(self.header, (tuple, list, np.ndarray, ABCIndex)) @property def _need_to_save_header(self) -> bool: return bool(self._has_aliases or self.header) @property def write_cols(self) -> Sequence[Hashable]: if self._has_aliases: assert not isinstance(self.header, bool) if len(self.header) != len(self.cols): raise ValueError( f"Writing {len(self.cols)} cols but got {len(self.header)} aliases" ) else: return self.header else: # self.cols is an ndarray derived from Index._format_native_types, # so its entries are strings, i.e. hashable return cast(Sequence[Hashable], self.cols) @property def encoded_labels(self) -> list[Hashable]: encoded_labels: list[Hashable] = [] if self.index and self.index_label: assert isinstance(self.index_label, Sequence) encoded_labels = list(self.index_label) if not self.has_mi_columns or self._has_aliases: encoded_labels += list(self.write_cols) return encoded_labels def save(self) -> None: """ Create the writer & save. """ # apply compression and byte/text conversion with get_handle( self.filepath_or_buffer, self.mode, encoding=self.encoding, errors=self.errors, compression=self.compression, storage_options=self.storage_options, ) as handles: # Note: self.encoding is irrelevant here self.writer = csvlib.writer( handles.handle, lineterminator=self.lineterminator, delimiter=self.sep, quoting=self.quoting, doublequote=self.doublequote, escapechar=self.escapechar, quotechar=self.quotechar, ) self._save() def _save(self) -> None: if self._need_to_save_header: self._save_header() self._save_body() def _save_header(self) -> None: if not self.has_mi_columns or self._has_aliases: self.writer.writerow(self.encoded_labels) else: for row in self._generate_multiindex_header_rows(): self.writer.writerow(row) def _generate_multiindex_header_rows(self) -> Iterator[list[Hashable]]: columns = self.obj.columns for i in range(columns.nlevels): # we need at least 1 index column to write our col names col_line = [] if self.index: # name is the first column col_line.append(columns.names[i]) if isinstance(self.index_label, list) and len(self.index_label) > 1: col_line.extend([""] * (len(self.index_label) - 1)) col_line.extend(columns._get_level_values(i)) yield col_line # Write out the index line if it's not empty. # Otherwise, we will print out an extraneous # blank line between the mi and the data rows. if self.encoded_labels and set(self.encoded_labels) != {""}: yield self.encoded_labels + [""] * len(columns) def _save_body(self) -> None: nrows = len(self.data_index) chunks = (nrows // self.chunksize) + 1 for i in range(chunks): start_i = i * self.chunksize end_i = min(start_i + self.chunksize, nrows) if start_i >= end_i: break self._save_chunk(start_i, end_i) def _save_chunk(self, start_i: int, end_i: int) -> None: # create the data for a chunk slicer = slice(start_i, end_i) df = self.obj.iloc[slicer] res = df._mgr.to_native_types(**self._number_format) data = [res.iget_values(i) for i in range(len(res.items))] ix = self.data_index[slicer]._format_native_types(**self._number_format) libwriters.write_csv_rows( data, ix, self.nlevels, self.cols, self.writer, )