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from __future__ import annotations | |
import contextlib | |
import logging | |
import math | |
import os | |
import pathlib | |
import re | |
import sys | |
import tempfile | |
from functools import partial | |
from hashlib import md5 | |
from importlib.metadata import version | |
from typing import ( | |
IO, | |
TYPE_CHECKING, | |
Any, | |
Callable, | |
Iterable, | |
Iterator, | |
Sequence, | |
TypeVar, | |
) | |
from urllib.parse import urlsplit | |
if TYPE_CHECKING: | |
from typing_extensions import TypeGuard | |
from fsspec.spec import AbstractFileSystem | |
DEFAULT_BLOCK_SIZE = 5 * 2**20 | |
T = TypeVar("T") | |
def infer_storage_options( | |
urlpath: str, inherit_storage_options: dict[str, Any] | None = None | |
) -> dict[str, Any]: | |
"""Infer storage options from URL path and merge it with existing storage | |
options. | |
Parameters | |
---------- | |
urlpath: str or unicode | |
Either local absolute file path or URL (hdfs://namenode:8020/file.csv) | |
inherit_storage_options: dict (optional) | |
Its contents will get merged with the inferred information from the | |
given path | |
Returns | |
------- | |
Storage options dict. | |
Examples | |
-------- | |
>>> infer_storage_options('/mnt/datasets/test.csv') # doctest: +SKIP | |
{"protocol": "file", "path", "/mnt/datasets/test.csv"} | |
>>> infer_storage_options( | |
... 'hdfs://username:pwd@node:123/mnt/datasets/test.csv?q=1', | |
... inherit_storage_options={'extra': 'value'}, | |
... ) # doctest: +SKIP | |
{"protocol": "hdfs", "username": "username", "password": "pwd", | |
"host": "node", "port": 123, "path": "/mnt/datasets/test.csv", | |
"url_query": "q=1", "extra": "value"} | |
""" | |
# Handle Windows paths including disk name in this special case | |
if ( | |
re.match(r"^[a-zA-Z]:[\\/]", urlpath) | |
or re.match(r"^[a-zA-Z0-9]+://", urlpath) is None | |
): | |
return {"protocol": "file", "path": urlpath} | |
parsed_path = urlsplit(urlpath) | |
protocol = parsed_path.scheme or "file" | |
if parsed_path.fragment: | |
path = "#".join([parsed_path.path, parsed_path.fragment]) | |
else: | |
path = parsed_path.path | |
if protocol == "file": | |
# Special case parsing file protocol URL on Windows according to: | |
# https://msdn.microsoft.com/en-us/library/jj710207.aspx | |
windows_path = re.match(r"^/([a-zA-Z])[:|]([\\/].*)$", path) | |
if windows_path: | |
path = "%s:%s" % windows_path.groups() | |
if protocol in ["http", "https"]: | |
# for HTTP, we don't want to parse, as requests will anyway | |
return {"protocol": protocol, "path": urlpath} | |
options: dict[str, Any] = {"protocol": protocol, "path": path} | |
if parsed_path.netloc: | |
# Parse `hostname` from netloc manually because `parsed_path.hostname` | |
# lowercases the hostname which is not always desirable (e.g. in S3): | |
# https://github.com/dask/dask/issues/1417 | |
options["host"] = parsed_path.netloc.rsplit("@", 1)[-1].rsplit(":", 1)[0] | |
if protocol in ("s3", "s3a", "gcs", "gs"): | |
options["path"] = options["host"] + options["path"] | |
else: | |
options["host"] = options["host"] | |
if parsed_path.port: | |
options["port"] = parsed_path.port | |
if parsed_path.username: | |
options["username"] = parsed_path.username | |
if parsed_path.password: | |
options["password"] = parsed_path.password | |
if parsed_path.query: | |
options["url_query"] = parsed_path.query | |
if parsed_path.fragment: | |
options["url_fragment"] = parsed_path.fragment | |
if inherit_storage_options: | |
update_storage_options(options, inherit_storage_options) | |
return options | |
def update_storage_options( | |
options: dict[str, Any], inherited: dict[str, Any] | None = None | |
) -> None: | |
if not inherited: | |
inherited = {} | |
collisions = set(options) & set(inherited) | |
if collisions: | |
for collision in collisions: | |
if options.get(collision) != inherited.get(collision): | |
raise KeyError( | |
f"Collision between inferred and specified storage " | |
f"option:\n{collision}" | |
) | |
options.update(inherited) | |
# Compression extensions registered via fsspec.compression.register_compression | |
compressions: dict[str, str] = {} | |
def infer_compression(filename: str) -> str | None: | |
"""Infer compression, if available, from filename. | |
Infer a named compression type, if registered and available, from filename | |
extension. This includes builtin (gz, bz2, zip) compressions, as well as | |
optional compressions. See fsspec.compression.register_compression. | |
""" | |
extension = os.path.splitext(filename)[-1].strip(".").lower() | |
if extension in compressions: | |
return compressions[extension] | |
return None | |
def build_name_function(max_int: float) -> Callable[[int], str]: | |
"""Returns a function that receives a single integer | |
and returns it as a string padded by enough zero characters | |
to align with maximum possible integer | |
>>> name_f = build_name_function(57) | |
>>> name_f(7) | |
'07' | |
>>> name_f(31) | |
'31' | |
>>> build_name_function(1000)(42) | |
'0042' | |
>>> build_name_function(999)(42) | |
'042' | |
>>> build_name_function(0)(0) | |
'0' | |
""" | |
# handle corner cases max_int is 0 or exact power of 10 | |
max_int += 1e-8 | |
pad_length = int(math.ceil(math.log10(max_int))) | |
def name_function(i: int) -> str: | |
return str(i).zfill(pad_length) | |
return name_function | |
def seek_delimiter(file: IO[bytes], delimiter: bytes, blocksize: int) -> bool: | |
r"""Seek current file to file start, file end, or byte after delimiter seq. | |
Seeks file to next chunk delimiter, where chunks are defined on file start, | |
a delimiting sequence, and file end. Use file.tell() to see location afterwards. | |
Note that file start is a valid split, so must be at offset > 0 to seek for | |
delimiter. | |
Parameters | |
---------- | |
file: a file | |
delimiter: bytes | |
a delimiter like ``b'\n'`` or message sentinel, matching file .read() type | |
blocksize: int | |
Number of bytes to read from the file at once. | |
Returns | |
------- | |
Returns True if a delimiter was found, False if at file start or end. | |
""" | |
if file.tell() == 0: | |
# beginning-of-file, return without seek | |
return False | |
# Interface is for binary IO, with delimiter as bytes, but initialize last | |
# with result of file.read to preserve compatibility with text IO. | |
last: bytes | None = None | |
while True: | |
current = file.read(blocksize) | |
if not current: | |
# end-of-file without delimiter | |
return False | |
full = last + current if last else current | |
try: | |
if delimiter in full: | |
i = full.index(delimiter) | |
file.seek(file.tell() - (len(full) - i) + len(delimiter)) | |
return True | |
elif len(current) < blocksize: | |
# end-of-file without delimiter | |
return False | |
except (OSError, ValueError): | |
pass | |
last = full[-len(delimiter) :] | |
def read_block( | |
f: IO[bytes], | |
offset: int, | |
length: int | None, | |
delimiter: bytes | None = None, | |
split_before: bool = False, | |
) -> bytes: | |
"""Read a block of bytes from a file | |
Parameters | |
---------- | |
f: File | |
Open file | |
offset: int | |
Byte offset to start read | |
length: int | |
Number of bytes to read, read through end of file if None | |
delimiter: bytes (optional) | |
Ensure reading starts and stops at delimiter bytestring | |
split_before: bool (optional) | |
Start/stop read *before* delimiter bytestring. | |
If using the ``delimiter=`` keyword argument we ensure that the read | |
starts and stops at delimiter boundaries that follow the locations | |
``offset`` and ``offset + length``. If ``offset`` is zero then we | |
start at zero, regardless of delimiter. The bytestring returned WILL | |
include the terminating delimiter string. | |
Examples | |
-------- | |
>>> from io import BytesIO # doctest: +SKIP | |
>>> f = BytesIO(b'Alice, 100\\nBob, 200\\nCharlie, 300') # doctest: +SKIP | |
>>> read_block(f, 0, 13) # doctest: +SKIP | |
b'Alice, 100\\nBo' | |
>>> read_block(f, 0, 13, delimiter=b'\\n') # doctest: +SKIP | |
b'Alice, 100\\nBob, 200\\n' | |
>>> read_block(f, 10, 10, delimiter=b'\\n') # doctest: +SKIP | |
b'Bob, 200\\nCharlie, 300' | |
""" | |
if delimiter: | |
f.seek(offset) | |
found_start_delim = seek_delimiter(f, delimiter, 2**16) | |
if length is None: | |
return f.read() | |
start = f.tell() | |
length -= start - offset | |
f.seek(start + length) | |
found_end_delim = seek_delimiter(f, delimiter, 2**16) | |
end = f.tell() | |
# Adjust split location to before delimiter if seek found the | |
# delimiter sequence, not start or end of file. | |
if found_start_delim and split_before: | |
start -= len(delimiter) | |
if found_end_delim and split_before: | |
end -= len(delimiter) | |
offset = start | |
length = end - start | |
f.seek(offset) | |
# TODO: allow length to be None and read to the end of the file? | |
assert length is not None | |
b = f.read(length) | |
return b | |
def tokenize(*args: Any, **kwargs: Any) -> str: | |
"""Deterministic token | |
(modified from dask.base) | |
>>> tokenize([1, 2, '3']) | |
'9d71491b50023b06fc76928e6eddb952' | |
>>> tokenize('Hello') == tokenize('Hello') | |
True | |
""" | |
if kwargs: | |
args += (kwargs,) | |
try: | |
h = md5(str(args).encode()) | |
except ValueError: | |
# FIPS systems: https://github.com/fsspec/filesystem_spec/issues/380 | |
h = md5(str(args).encode(), usedforsecurity=False) | |
return h.hexdigest() | |
def stringify_path(filepath: str | os.PathLike[str] | pathlib.Path) -> str: | |
"""Attempt to convert a path-like object to a string. | |
Parameters | |
---------- | |
filepath: object to be converted | |
Returns | |
------- | |
filepath_str: maybe a string version of the object | |
Notes | |
----- | |
Objects supporting the fspath protocol are coerced according to its | |
__fspath__ method. | |
For backwards compatibility with older Python version, pathlib.Path | |
objects are specially coerced. | |
Any other object is passed through unchanged, which includes bytes, | |
strings, buffers, or anything else that's not even path-like. | |
""" | |
if isinstance(filepath, str): | |
return filepath | |
elif hasattr(filepath, "__fspath__"): | |
return filepath.__fspath__() | |
elif hasattr(filepath, "path"): | |
return filepath.path | |
else: | |
return filepath # type: ignore[return-value] | |
def make_instance( | |
cls: Callable[..., T], args: Sequence[Any], kwargs: dict[str, Any] | |
) -> T: | |
inst = cls(*args, **kwargs) | |
inst._determine_worker() # type: ignore[attr-defined] | |
return inst | |
def common_prefix(paths: Iterable[str]) -> str: | |
"""For a list of paths, find the shortest prefix common to all""" | |
parts = [p.split("/") for p in paths] | |
lmax = min(len(p) for p in parts) | |
end = 0 | |
for i in range(lmax): | |
end = all(p[i] == parts[0][i] for p in parts) | |
if not end: | |
break | |
i += end | |
return "/".join(parts[0][:i]) | |
def other_paths( | |
paths: list[str], | |
path2: str | list[str], | |
exists: bool = False, | |
flatten: bool = False, | |
) -> list[str]: | |
"""In bulk file operations, construct a new file tree from a list of files | |
Parameters | |
---------- | |
paths: list of str | |
The input file tree | |
path2: str or list of str | |
Root to construct the new list in. If this is already a list of str, we just | |
assert it has the right number of elements. | |
exists: bool (optional) | |
For a str destination, it is already exists (and is a dir), files should | |
end up inside. | |
flatten: bool (optional) | |
Whether to flatten the input directory tree structure so that the output files | |
are in the same directory. | |
Returns | |
------- | |
list of str | |
""" | |
if isinstance(path2, str): | |
path2 = path2.rstrip("/") | |
if flatten: | |
path2 = ["/".join((path2, p.split("/")[-1])) for p in paths] | |
else: | |
cp = common_prefix(paths) | |
if exists: | |
cp = cp.rsplit("/", 1)[0] | |
if not cp and all(not s.startswith("/") for s in paths): | |
path2 = ["/".join([path2, p]) for p in paths] | |
else: | |
path2 = [p.replace(cp, path2, 1) for p in paths] | |
else: | |
assert len(paths) == len(path2) | |
return path2 | |
def is_exception(obj: Any) -> bool: | |
return isinstance(obj, BaseException) | |
def isfilelike(f: Any) -> TypeGuard[IO[bytes]]: | |
for attr in ["read", "close", "tell"]: | |
if not hasattr(f, attr): | |
return False | |
return True | |
def get_protocol(url: str) -> str: | |
url = stringify_path(url) | |
parts = re.split(r"(\:\:|\://)", url, maxsplit=1) | |
if len(parts) > 1: | |
return parts[0] | |
return "file" | |
def can_be_local(path: str) -> bool: | |
"""Can the given URL be used with open_local?""" | |
from fsspec import get_filesystem_class | |
try: | |
return getattr(get_filesystem_class(get_protocol(path)), "local_file", False) | |
except (ValueError, ImportError): | |
# not in registry or import failed | |
return False | |
def get_package_version_without_import(name: str) -> str | None: | |
"""For given package name, try to find the version without importing it | |
Import and package.__version__ is still the backup here, so an import | |
*might* happen. | |
Returns either the version string, or None if the package | |
or the version was not readily found. | |
""" | |
if name in sys.modules: | |
mod = sys.modules[name] | |
if hasattr(mod, "__version__"): | |
return mod.__version__ | |
try: | |
return version(name) | |
except: # noqa: E722 | |
pass | |
try: | |
import importlib | |
mod = importlib.import_module(name) | |
return mod.__version__ | |
except (ImportError, AttributeError): | |
return None | |
def setup_logging( | |
logger: logging.Logger | None = None, | |
logger_name: str | None = None, | |
level: str = "DEBUG", | |
clear: bool = True, | |
) -> logging.Logger: | |
if logger is None and logger_name is None: | |
raise ValueError("Provide either logger object or logger name") | |
logger = logger or logging.getLogger(logger_name) | |
handle = logging.StreamHandler() | |
formatter = logging.Formatter( | |
"%(asctime)s - %(name)s - %(levelname)s - %(funcName)s -- %(message)s" | |
) | |
handle.setFormatter(formatter) | |
if clear: | |
logger.handlers.clear() | |
logger.addHandler(handle) | |
logger.setLevel(level) | |
return logger | |
def _unstrip_protocol(name: str, fs: AbstractFileSystem) -> str: | |
return fs.unstrip_protocol(name) | |
def mirror_from( | |
origin_name: str, methods: Iterable[str] | |
) -> Callable[[type[T]], type[T]]: | |
"""Mirror attributes and methods from the given | |
origin_name attribute of the instance to the | |
decorated class""" | |
def origin_getter(method: str, self: Any) -> Any: | |
origin = getattr(self, origin_name) | |
return getattr(origin, method) | |
def wrapper(cls: type[T]) -> type[T]: | |
for method in methods: | |
wrapped_method = partial(origin_getter, method) | |
setattr(cls, method, property(wrapped_method)) | |
return cls | |
return wrapper | |
def nullcontext(obj: T) -> Iterator[T]: | |
yield obj | |
def merge_offset_ranges( | |
paths: list[str], | |
starts: list[int] | int, | |
ends: list[int] | int, | |
max_gap: int = 0, | |
max_block: int | None = None, | |
sort: bool = True, | |
) -> tuple[list[str], list[int], list[int]]: | |
"""Merge adjacent byte-offset ranges when the inter-range | |
gap is <= `max_gap`, and when the merged byte range does not | |
exceed `max_block` (if specified). By default, this function | |
will re-order the input paths and byte ranges to ensure sorted | |
order. If the user can guarantee that the inputs are already | |
sorted, passing `sort=False` will skip the re-ordering. | |
""" | |
# Check input | |
if not isinstance(paths, list): | |
raise TypeError | |
if not isinstance(starts, list): | |
starts = [starts] * len(paths) | |
if not isinstance(ends, list): | |
ends = [ends] * len(paths) | |
if len(starts) != len(paths) or len(ends) != len(paths): | |
raise ValueError | |
# Early Return | |
if len(starts) <= 1: | |
return paths, starts, ends | |
starts = [s or 0 for s in starts] | |
# Sort by paths and then ranges if `sort=True` | |
if sort: | |
paths, starts, ends = ( | |
list(v) | |
for v in zip( | |
*sorted( | |
zip(paths, starts, ends), | |
) | |
) | |
) | |
if paths: | |
# Loop through the coupled `paths`, `starts`, and | |
# `ends`, and merge adjacent blocks when appropriate | |
new_paths = paths[:1] | |
new_starts = starts[:1] | |
new_ends = ends[:1] | |
for i in range(1, len(paths)): | |
if paths[i] == paths[i - 1] and new_ends[-1] is None: | |
continue | |
elif ( | |
paths[i] != paths[i - 1] | |
or ((starts[i] - new_ends[-1]) > max_gap) | |
or (max_block is not None and (ends[i] - new_starts[-1]) > max_block) | |
): | |
# Cannot merge with previous block. | |
# Add new `paths`, `starts`, and `ends` elements | |
new_paths.append(paths[i]) | |
new_starts.append(starts[i]) | |
new_ends.append(ends[i]) | |
else: | |
# Merge with previous block by updating the | |
# last element of `ends` | |
new_ends[-1] = ends[i] | |
return new_paths, new_starts, new_ends | |
# `paths` is empty. Just return input lists | |
return paths, starts, ends | |
def file_size(filelike: IO[bytes]) -> int: | |
"""Find length of any open read-mode file-like""" | |
pos = filelike.tell() | |
try: | |
return filelike.seek(0, 2) | |
finally: | |
filelike.seek(pos) | |
def atomic_write(path: str, mode: str = "wb"): | |
""" | |
A context manager that opens a temporary file next to `path` and, on exit, | |
replaces `path` with the temporary file, thereby updating `path` | |
atomically. | |
""" | |
fd, fn = tempfile.mkstemp( | |
dir=os.path.dirname(path), prefix=os.path.basename(path) + "-" | |
) | |
try: | |
with open(fd, mode) as fp: | |
yield fp | |
except BaseException: | |
with contextlib.suppress(FileNotFoundError): | |
os.unlink(fn) | |
raise | |
else: | |
os.replace(fn, path) | |
def _translate(pat, STAR, QUESTION_MARK): | |
# Copied from: https://github.com/python/cpython/pull/106703. | |
res: list[str] = [] | |
add = res.append | |
i, n = 0, len(pat) | |
while i < n: | |
c = pat[i] | |
i = i + 1 | |
if c == "*": | |
# compress consecutive `*` into one | |
if (not res) or res[-1] is not STAR: | |
add(STAR) | |
elif c == "?": | |
add(QUESTION_MARK) | |
elif c == "[": | |
j = i | |
if j < n and pat[j] == "!": | |
j = j + 1 | |
if j < n and pat[j] == "]": | |
j = j + 1 | |
while j < n and pat[j] != "]": | |
j = j + 1 | |
if j >= n: | |
add("\\[") | |
else: | |
stuff = pat[i:j] | |
if "-" not in stuff: | |
stuff = stuff.replace("\\", r"\\") | |
else: | |
chunks = [] | |
k = i + 2 if pat[i] == "!" else i + 1 | |
while True: | |
k = pat.find("-", k, j) | |
if k < 0: | |
break | |
chunks.append(pat[i:k]) | |
i = k + 1 | |
k = k + 3 | |
chunk = pat[i:j] | |
if chunk: | |
chunks.append(chunk) | |
else: | |
chunks[-1] += "-" | |
# Remove empty ranges -- invalid in RE. | |
for k in range(len(chunks) - 1, 0, -1): | |
if chunks[k - 1][-1] > chunks[k][0]: | |
chunks[k - 1] = chunks[k - 1][:-1] + chunks[k][1:] | |
del chunks[k] | |
# Escape backslashes and hyphens for set difference (--). | |
# Hyphens that create ranges shouldn't be escaped. | |
stuff = "-".join( | |
s.replace("\\", r"\\").replace("-", r"\-") for s in chunks | |
) | |
# Escape set operations (&&, ~~ and ||). | |
stuff = re.sub(r"([&~|])", r"\\\1", stuff) | |
i = j + 1 | |
if not stuff: | |
# Empty range: never match. | |
add("(?!)") | |
elif stuff == "!": | |
# Negated empty range: match any character. | |
add(".") | |
else: | |
if stuff[0] == "!": | |
stuff = "^" + stuff[1:] | |
elif stuff[0] in ("^", "["): | |
stuff = "\\" + stuff | |
add(f"[{stuff}]") | |
else: | |
add(re.escape(c)) | |
assert i == n | |
return res | |
def glob_translate(pat): | |
# Copied from: https://github.com/python/cpython/pull/106703. | |
# The keyword parameters' values are fixed to: | |
# recursive=True, include_hidden=True, seps=None | |
"""Translate a pathname with shell wildcards to a regular expression.""" | |
if os.path.altsep: | |
seps = os.path.sep + os.path.altsep | |
else: | |
seps = os.path.sep | |
escaped_seps = "".join(map(re.escape, seps)) | |
any_sep = f"[{escaped_seps}]" if len(seps) > 1 else escaped_seps | |
not_sep = f"[^{escaped_seps}]" | |
one_last_segment = f"{not_sep}+" | |
one_segment = f"{one_last_segment}{any_sep}" | |
any_segments = f"(?:.+{any_sep})?" | |
any_last_segments = ".*" | |
results = [] | |
parts = re.split(any_sep, pat) | |
last_part_idx = len(parts) - 1 | |
for idx, part in enumerate(parts): | |
if part == "*": | |
results.append(one_segment if idx < last_part_idx else one_last_segment) | |
continue | |
if part == "**": | |
results.append(any_segments if idx < last_part_idx else any_last_segments) | |
continue | |
elif "**" in part: | |
raise ValueError( | |
"Invalid pattern: '**' can only be an entire path component" | |
) | |
if part: | |
results.extend(_translate(part, f"{not_sep}*", not_sep)) | |
if idx < last_part_idx: | |
results.append(any_sep) | |
res = "".join(results) | |
return rf"(?s:{res})\Z" | |