165 lines
5.8 KiB
Python
165 lines
5.8 KiB
Python
from __future__ import annotations
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from pandas._typing import ReadBuffer
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from pandas.compat._optional import import_optional_dependency
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from pandas.core.dtypes.inference import is_integer
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import pandas as pd
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from pandas import DataFrame
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from pandas.io._util import _arrow_dtype_mapping
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from pandas.io.parsers.base_parser import ParserBase
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class ArrowParserWrapper(ParserBase):
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"""
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Wrapper for the pyarrow engine for read_csv()
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"""
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def __init__(self, src: ReadBuffer[bytes], **kwds) -> None:
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super().__init__(kwds)
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self.kwds = kwds
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self.src = src
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self._parse_kwds()
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def _parse_kwds(self):
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"""
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Validates keywords before passing to pyarrow.
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"""
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encoding: str | None = self.kwds.get("encoding")
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self.encoding = "utf-8" if encoding is None else encoding
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self.usecols, self.usecols_dtype = self._validate_usecols_arg(
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self.kwds["usecols"]
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)
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na_values = self.kwds["na_values"]
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if isinstance(na_values, dict):
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raise ValueError(
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"The pyarrow engine doesn't support passing a dict for na_values"
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)
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self.na_values = list(self.kwds["na_values"])
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def _get_pyarrow_options(self) -> None:
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"""
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Rename some arguments to pass to pyarrow
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"""
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mapping = {
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"usecols": "include_columns",
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"na_values": "null_values",
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"escapechar": "escape_char",
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"skip_blank_lines": "ignore_empty_lines",
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"decimal": "decimal_point",
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}
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for pandas_name, pyarrow_name in mapping.items():
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if pandas_name in self.kwds and self.kwds.get(pandas_name) is not None:
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self.kwds[pyarrow_name] = self.kwds.pop(pandas_name)
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self.parse_options = {
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option_name: option_value
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for option_name, option_value in self.kwds.items()
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if option_value is not None
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and option_name
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in ("delimiter", "quote_char", "escape_char", "ignore_empty_lines")
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}
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self.convert_options = {
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option_name: option_value
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for option_name, option_value in self.kwds.items()
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if option_value is not None
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and option_name
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in (
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"include_columns",
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"null_values",
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"true_values",
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"false_values",
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"decimal_point",
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)
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}
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self.read_options = {
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"autogenerate_column_names": self.header is None,
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"skip_rows": self.header
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if self.header is not None
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else self.kwds["skiprows"],
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"encoding": self.encoding,
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}
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def _finalize_pandas_output(self, frame: DataFrame) -> DataFrame:
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"""
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Processes data read in based on kwargs.
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Parameters
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----------
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frame: DataFrame
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The DataFrame to process.
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Returns
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-------
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DataFrame
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The processed DataFrame.
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"""
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num_cols = len(frame.columns)
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multi_index_named = True
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if self.header is None:
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if self.names is None:
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if self.header is None:
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self.names = range(num_cols)
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if len(self.names) != num_cols:
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# usecols is passed through to pyarrow, we only handle index col here
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# The only way self.names is not the same length as number of cols is
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# if we have int index_col. We should just pad the names(they will get
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# removed anyways) to expected length then.
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self.names = list(range(num_cols - len(self.names))) + self.names
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multi_index_named = False
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frame.columns = self.names
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# we only need the frame not the names
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frame.columns, frame = self._do_date_conversions(frame.columns, frame)
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if self.index_col is not None:
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for i, item in enumerate(self.index_col):
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if is_integer(item):
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self.index_col[i] = frame.columns[item]
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else:
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# String case
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if item not in frame.columns:
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raise ValueError(f"Index {item} invalid")
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frame.set_index(self.index_col, drop=True, inplace=True)
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# Clear names if headerless and no name given
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if self.header is None and not multi_index_named:
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frame.index.names = [None] * len(frame.index.names)
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if self.kwds.get("dtype") is not None:
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try:
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frame = frame.astype(self.kwds.get("dtype"))
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except TypeError as e:
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# GH#44901 reraise to keep api consistent
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raise ValueError(e)
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return frame
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def read(self) -> DataFrame:
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"""
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Reads the contents of a CSV file into a DataFrame and
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processes it according to the kwargs passed in the
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constructor.
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Returns
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-------
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DataFrame
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The DataFrame created from the CSV file.
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"""
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pyarrow_csv = import_optional_dependency("pyarrow.csv")
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self._get_pyarrow_options()
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table = pyarrow_csv.read_csv(
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self.src,
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read_options=pyarrow_csv.ReadOptions(**self.read_options),
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parse_options=pyarrow_csv.ParseOptions(**self.parse_options),
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convert_options=pyarrow_csv.ConvertOptions(**self.convert_options),
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)
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if self.kwds["dtype_backend"] == "pyarrow":
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frame = table.to_pandas(types_mapper=pd.ArrowDtype)
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elif self.kwds["dtype_backend"] == "numpy_nullable":
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frame = table.to_pandas(types_mapper=_arrow_dtype_mapping().get)
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else:
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frame = table.to_pandas()
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return self._finalize_pandas_output(frame)
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