550 lines
19 KiB
Python
550 lines
19 KiB
Python
import io
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import json
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import warnings
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from .core import url_to_fs
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from .utils import merge_offset_ranges
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# Parquet-Specific Utilities for fsspec
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#
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# Most of the functions defined in this module are NOT
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# intended for public consumption. The only exception
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# to this is `open_parquet_file`, which should be used
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# place of `fs.open()` to open parquet-formatted files
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# on remote file systems.
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def open_parquet_file(
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path,
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mode="rb",
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fs=None,
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metadata=None,
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columns=None,
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row_groups=None,
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storage_options=None,
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strict=False,
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engine="auto",
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max_gap=64_000,
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max_block=256_000_000,
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footer_sample_size=1_000_000,
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**kwargs,
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):
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"""
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Return a file-like object for a single Parquet file.
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The specified parquet `engine` will be used to parse the
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footer metadata, and determine the required byte ranges
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from the file. The target path will then be opened with
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the "parts" (`KnownPartsOfAFile`) caching strategy.
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Note that this method is intended for usage with remote
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file systems, and is unlikely to improve parquet-read
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performance on local file systems.
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Parameters
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----------
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path: str
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Target file path.
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mode: str, optional
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Mode option to be passed through to `fs.open`. Default is "rb".
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metadata: Any, optional
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Parquet metadata object. Object type must be supported
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by the backend parquet engine. For now, only the "fastparquet"
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engine supports an explicit `ParquetFile` metadata object.
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If a metadata object is supplied, the remote footer metadata
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will not need to be transferred into local memory.
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fs: AbstractFileSystem, optional
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Filesystem object to use for opening the file. If nothing is
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specified, an `AbstractFileSystem` object will be inferred.
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engine : str, default "auto"
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Parquet engine to use for metadata parsing. Allowed options
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include "fastparquet", "pyarrow", and "auto". The specified
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engine must be installed in the current environment. If
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"auto" is specified, and both engines are installed,
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"fastparquet" will take precedence over "pyarrow".
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columns: list, optional
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List of all column names that may be read from the file.
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row_groups : list, optional
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List of all row-groups that may be read from the file. This
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may be a list of row-group indices (integers), or it may be
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a list of `RowGroup` metadata objects (if the "fastparquet"
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engine is used).
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storage_options : dict, optional
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Used to generate an `AbstractFileSystem` object if `fs` was
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not specified.
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strict : bool, optional
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Whether the resulting `KnownPartsOfAFile` cache should
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fetch reads that go beyond a known byte-range boundary.
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If `False` (the default), any read that ends outside a
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known part will be zero padded. Note that using
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`strict=True` may be useful for debugging.
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max_gap : int, optional
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Neighboring byte ranges will only be merged when their
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inter-range gap is <= `max_gap`. Default is 64KB.
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max_block : int, optional
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Neighboring byte ranges will only be merged when the size of
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the aggregated range is <= `max_block`. Default is 256MB.
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footer_sample_size : int, optional
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Number of bytes to read from the end of the path to look
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for the footer metadata. If the sampled bytes do not contain
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the footer, a second read request will be required, and
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performance will suffer. Default is 1MB.
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**kwargs :
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Optional key-word arguments to pass to `fs.open`
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"""
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# Make sure we have an `AbstractFileSystem` object
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# to work with
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if fs is None:
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fs = url_to_fs(path, **(storage_options or {}))[0]
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# For now, `columns == []` not supported. Just use
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# default `open` command with `path` input
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if columns is not None and len(columns) == 0:
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return fs.open(path, mode=mode)
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# Set the engine
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engine = _set_engine(engine)
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# Fetch the known byte ranges needed to read
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# `columns` and/or `row_groups`
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data = _get_parquet_byte_ranges(
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[path],
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fs,
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metadata=metadata,
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columns=columns,
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row_groups=row_groups,
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engine=engine,
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max_gap=max_gap,
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max_block=max_block,
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footer_sample_size=footer_sample_size,
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)
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# Extract file name from `data`
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fn = next(iter(data)) if data else path
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# Call self.open with "parts" caching
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options = kwargs.pop("cache_options", {}).copy()
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return fs.open(
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fn,
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mode=mode,
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cache_type="parts",
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cache_options={
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**options,
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"data": data.get(fn, {}),
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"strict": strict,
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},
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**kwargs,
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)
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def _get_parquet_byte_ranges(
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paths,
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fs,
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metadata=None,
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columns=None,
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row_groups=None,
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max_gap=64_000,
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max_block=256_000_000,
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footer_sample_size=1_000_000,
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engine="auto",
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):
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"""Get a dictionary of the known byte ranges needed
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to read a specific column/row-group selection from a
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Parquet dataset. Each value in the output dictionary
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is intended for use as the `data` argument for the
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`KnownPartsOfAFile` caching strategy of a single path.
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"""
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# Set engine if necessary
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if isinstance(engine, str):
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engine = _set_engine(engine)
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# Pass to specialized function if metadata is defined
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if metadata is not None:
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# Use the provided parquet metadata object
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# to avoid transferring/parsing footer metadata
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return _get_parquet_byte_ranges_from_metadata(
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metadata,
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fs,
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engine,
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columns=columns,
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row_groups=row_groups,
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max_gap=max_gap,
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max_block=max_block,
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)
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# Get file sizes asynchronously
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file_sizes = fs.sizes(paths)
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# Populate global paths, starts, & ends
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result = {}
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data_paths = []
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data_starts = []
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data_ends = []
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add_header_magic = True
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if columns is None and row_groups is None:
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# We are NOT selecting specific columns or row-groups.
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#
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# We can avoid sampling the footers, and just transfer
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# all file data with cat_ranges
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for i, path in enumerate(paths):
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result[path] = {}
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for b in range(0, file_sizes[i], max_block):
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data_paths.append(path)
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data_starts.append(b)
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data_ends.append(min(b + max_block, file_sizes[i]))
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add_header_magic = False # "Magic" should already be included
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else:
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# We ARE selecting specific columns or row-groups.
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#
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# Gather file footers.
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# We just take the last `footer_sample_size` bytes of each
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# file (or the entire file if it is smaller than that)
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footer_starts = []
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footer_ends = []
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for i, path in enumerate(paths):
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footer_ends.append(file_sizes[i])
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sample_size = max(0, file_sizes[i] - footer_sample_size)
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footer_starts.append(sample_size)
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footer_samples = fs.cat_ranges(paths, footer_starts, footer_ends)
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# Check our footer samples and re-sample if necessary.
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missing_footer_starts = footer_starts.copy()
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large_footer = 0
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for i, path in enumerate(paths):
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footer_size = int.from_bytes(footer_samples[i][-8:-4], "little")
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real_footer_start = file_sizes[i] - (footer_size + 8)
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if real_footer_start < footer_starts[i]:
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missing_footer_starts[i] = real_footer_start
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large_footer = max(large_footer, (footer_size + 8))
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if large_footer:
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warnings.warn(
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f"Not enough data was used to sample the parquet footer. "
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f"Try setting footer_sample_size >= {large_footer}."
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)
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for i, block in enumerate(
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fs.cat_ranges(
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paths,
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missing_footer_starts,
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footer_starts,
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)
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):
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footer_samples[i] = block + footer_samples[i]
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footer_starts[i] = missing_footer_starts[i]
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# Calculate required byte ranges for each path
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for i, path in enumerate(paths):
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# Deal with small-file case.
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# Just include all remaining bytes of the file
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# in a single range.
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if file_sizes[i] < max_block:
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if footer_starts[i] > 0:
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# Only need to transfer the data if the
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# footer sample isn't already the whole file
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data_paths.append(path)
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data_starts.append(0)
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data_ends.append(footer_starts[i])
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continue
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# Use "engine" to collect data byte ranges
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path_data_starts, path_data_ends = engine._parquet_byte_ranges(
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columns,
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row_groups=row_groups,
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footer=footer_samples[i],
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footer_start=footer_starts[i],
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)
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data_paths += [path] * len(path_data_starts)
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data_starts += path_data_starts
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data_ends += path_data_ends
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# Merge adjacent offset ranges
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data_paths, data_starts, data_ends = merge_offset_ranges(
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data_paths,
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data_starts,
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data_ends,
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max_gap=max_gap,
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max_block=max_block,
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sort=False, # Should already be sorted
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)
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# Start by populating `result` with footer samples
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for i, path in enumerate(paths):
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result[path] = {(footer_starts[i], footer_ends[i]): footer_samples[i]}
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# Transfer the data byte-ranges into local memory
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_transfer_ranges(fs, result, data_paths, data_starts, data_ends)
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# Add b"PAR1" to header if necessary
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if add_header_magic:
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_add_header_magic(result)
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return result
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def _get_parquet_byte_ranges_from_metadata(
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metadata,
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fs,
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engine,
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columns=None,
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row_groups=None,
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max_gap=64_000,
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max_block=256_000_000,
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):
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"""Simplified version of `_get_parquet_byte_ranges` for
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the case that an engine-specific `metadata` object is
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provided, and the remote footer metadata does not need to
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be transferred before calculating the required byte ranges.
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"""
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# Use "engine" to collect data byte ranges
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data_paths, data_starts, data_ends = engine._parquet_byte_ranges(
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columns,
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row_groups=row_groups,
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metadata=metadata,
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)
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# Merge adjacent offset ranges
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data_paths, data_starts, data_ends = merge_offset_ranges(
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data_paths,
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data_starts,
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data_ends,
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max_gap=max_gap,
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max_block=max_block,
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sort=False, # Should be sorted
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)
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# Transfer the data byte-ranges into local memory
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result = {fn: {} for fn in list(set(data_paths))}
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_transfer_ranges(fs, result, data_paths, data_starts, data_ends)
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# Add b"PAR1" to header
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_add_header_magic(result)
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return result
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def _transfer_ranges(fs, blocks, paths, starts, ends):
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# Use cat_ranges to gather the data byte_ranges
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ranges = (paths, starts, ends)
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for path, start, stop, data in zip(*ranges, fs.cat_ranges(*ranges)):
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blocks[path][(start, stop)] = data
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def _add_header_magic(data):
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# Add b"PAR1" to file headers
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for path in list(data.keys()):
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add_magic = True
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for k in data[path].keys():
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if k[0] == 0 and k[1] >= 4:
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add_magic = False
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break
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if add_magic:
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data[path][(0, 4)] = b"PAR1"
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def _set_engine(engine_str):
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# Define a list of parquet engines to try
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if engine_str == "auto":
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try_engines = ("fastparquet", "pyarrow")
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elif not isinstance(engine_str, str):
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raise ValueError(
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"Failed to set parquet engine! "
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"Please pass 'fastparquet', 'pyarrow', or 'auto'"
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)
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elif engine_str not in ("fastparquet", "pyarrow"):
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raise ValueError(f"{engine_str} engine not supported by `fsspec.parquet`")
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else:
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try_engines = [engine_str]
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# Try importing the engines in `try_engines`,
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# and choose the first one that succeeds
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for engine in try_engines:
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try:
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if engine == "fastparquet":
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return FastparquetEngine()
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elif engine == "pyarrow":
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return PyarrowEngine()
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except ImportError:
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pass
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# Raise an error if a supported parquet engine
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# was not found
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raise ImportError(
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f"The following parquet engines are not installed "
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f"in your python environment: {try_engines}."
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f"Please install 'fastparquert' or 'pyarrow' to "
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f"utilize the `fsspec.parquet` module."
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)
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class FastparquetEngine:
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# The purpose of the FastparquetEngine class is
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# to check if fastparquet can be imported (on initialization)
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# and to define a `_parquet_byte_ranges` method. In the
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# future, this class may also be used to define other
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# methods/logic that are specific to fastparquet.
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def __init__(self):
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import fastparquet as fp
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self.fp = fp
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def _row_group_filename(self, row_group, pf):
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return pf.row_group_filename(row_group)
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def _parquet_byte_ranges(
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self,
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columns,
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row_groups=None,
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metadata=None,
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footer=None,
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footer_start=None,
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):
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# Initialize offset ranges and define ParqetFile metadata
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pf = metadata
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data_paths, data_starts, data_ends = [], [], []
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if pf is None:
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pf = self.fp.ParquetFile(io.BytesIO(footer))
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# Convert columns to a set and add any index columns
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# specified in the pandas metadata (just in case)
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column_set = None if columns is None else set(columns)
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if column_set is not None and hasattr(pf, "pandas_metadata"):
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md_index = [
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ind
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for ind in pf.pandas_metadata.get("index_columns", [])
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# Ignore RangeIndex information
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if not isinstance(ind, dict)
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]
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column_set |= set(md_index)
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# Check if row_groups is a list of integers
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# or a list of row-group metadata
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if row_groups and not isinstance(row_groups[0], int):
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# Input row_groups contains row-group metadata
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row_group_indices = None
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else:
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# Input row_groups contains row-group indices
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row_group_indices = row_groups
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row_groups = pf.row_groups
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# Loop through column chunks to add required byte ranges
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for r, row_group in enumerate(row_groups):
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# Skip this row-group if we are targeting
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# specific row-groups
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if row_group_indices is None or r in row_group_indices:
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# Find the target parquet-file path for `row_group`
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fn = self._row_group_filename(row_group, pf)
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for column in row_group.columns:
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name = column.meta_data.path_in_schema[0]
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# Skip this column if we are targeting a
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# specific columns
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if column_set is None or name in column_set:
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file_offset0 = column.meta_data.dictionary_page_offset
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if file_offset0 is None:
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file_offset0 = column.meta_data.data_page_offset
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num_bytes = column.meta_data.total_compressed_size
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if footer_start is None or file_offset0 < footer_start:
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data_paths.append(fn)
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data_starts.append(file_offset0)
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data_ends.append(
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min(
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file_offset0 + num_bytes,
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footer_start or (file_offset0 + num_bytes),
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)
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)
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if metadata:
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# The metadata in this call may map to multiple
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# file paths. Need to include `data_paths`
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return data_paths, data_starts, data_ends
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return data_starts, data_ends
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|
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class PyarrowEngine:
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|
|
# The purpose of the PyarrowEngine class is
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# to check if pyarrow can be imported (on initialization)
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|
# and to define a `_parquet_byte_ranges` method. In the
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# future, this class may also be used to define other
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# methods/logic that are specific to pyarrow.
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def __init__(self):
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import pyarrow.parquet as pq
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self.pq = pq
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def _row_group_filename(self, row_group, metadata):
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raise NotImplementedError
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def _parquet_byte_ranges(
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self,
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columns,
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row_groups=None,
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metadata=None,
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footer=None,
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footer_start=None,
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):
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if metadata is not None:
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raise ValueError("metadata input not supported for PyarrowEngine")
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data_starts, data_ends = [], []
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md = self.pq.ParquetFile(io.BytesIO(footer)).metadata
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# Convert columns to a set and add any index columns
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# specified in the pandas metadata (just in case)
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column_set = None if columns is None else set(columns)
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if column_set is not None:
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schema = md.schema.to_arrow_schema()
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has_pandas_metadata = (
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schema.metadata is not None and b"pandas" in schema.metadata
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)
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if has_pandas_metadata:
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md_index = [
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ind
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for ind in json.loads(
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schema.metadata[b"pandas"].decode("utf8")
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).get("index_columns", [])
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# Ignore RangeIndex information
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if not isinstance(ind, dict)
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]
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column_set |= set(md_index)
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# Loop through column chunks to add required byte ranges
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for r in range(md.num_row_groups):
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# Skip this row-group if we are targeting
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# specific row-groups
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if row_groups is None or r in row_groups:
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row_group = md.row_group(r)
|
|
for c in range(row_group.num_columns):
|
|
column = row_group.column(c)
|
|
name = column.path_in_schema
|
|
# Skip this column if we are targeting a
|
|
# specific columns
|
|
split_name = name.split(".")[0]
|
|
if (
|
|
column_set is None
|
|
or name in column_set
|
|
or split_name in column_set
|
|
):
|
|
file_offset0 = column.dictionary_page_offset
|
|
if file_offset0 is None:
|
|
file_offset0 = column.data_page_offset
|
|
num_bytes = column.total_compressed_size
|
|
if file_offset0 < footer_start:
|
|
data_starts.append(file_offset0)
|
|
data_ends.append(
|
|
min(file_offset0 + num_bytes, footer_start)
|
|
)
|
|
return data_starts, data_ends
|