forked from 170010011/fr
665 lines
27 KiB
Python
665 lines
27 KiB
Python
"""
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Reducer using memory mapping for numpy arrays
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"""
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# Author: Thomas Moreau <thomas.moreau.2010@gmail.com>
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# Copyright: 2017, Thomas Moreau
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# License: BSD 3 clause
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from mmap import mmap
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import errno
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import os
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import stat
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import threading
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import atexit
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import tempfile
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import time
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import warnings
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import weakref
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from uuid import uuid4
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from multiprocessing import util
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from pickle import whichmodule, loads, dumps, HIGHEST_PROTOCOL, PicklingError
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try:
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WindowsError
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except NameError:
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WindowsError = type(None)
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try:
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import numpy as np
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from numpy.lib.stride_tricks import as_strided
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except ImportError:
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np = None
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from .numpy_pickle import dump, load, load_temporary_memmap
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from .backports import make_memmap
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from .disk import delete_folder
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from .externals.loky.backend import resource_tracker
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# Some system have a ramdisk mounted by default, we can use it instead of /tmp
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# as the default folder to dump big arrays to share with subprocesses.
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SYSTEM_SHARED_MEM_FS = '/dev/shm'
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# Minimal number of bytes available on SYSTEM_SHARED_MEM_FS to consider using
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# it as the default folder to dump big arrays to share with subprocesses.
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SYSTEM_SHARED_MEM_FS_MIN_SIZE = int(2e9)
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# Folder and file permissions to chmod temporary files generated by the
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# memmapping pool. Only the owner of the Python process can access the
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# temporary files and folder.
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FOLDER_PERMISSIONS = stat.S_IRUSR | stat.S_IWUSR | stat.S_IXUSR
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FILE_PERMISSIONS = stat.S_IRUSR | stat.S_IWUSR
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# Set used in joblib workers, referencing the filenames of temporary memmaps
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# created by joblib to speed up data communication. In child processes, we add
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# a finalizer to these memmaps that sends a maybe_unlink call to the
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# resource_tracker, in order to free main memory as fast as possible.
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JOBLIB_MMAPS = set()
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def _log_and_unlink(filename):
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from .externals.loky.backend.resource_tracker import _resource_tracker
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util.debug(
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"[FINALIZER CALL] object mapping to {} about to be deleted,"
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" decrementing the refcount of the file (pid: {})".format(
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os.path.basename(filename), os.getpid()))
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_resource_tracker.maybe_unlink(filename, "file")
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def add_maybe_unlink_finalizer(memmap):
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util.debug(
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"[FINALIZER ADD] adding finalizer to {} (id {}, filename {}, pid {})"
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"".format(type(memmap), id(memmap), os.path.basename(memmap.filename),
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os.getpid()))
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weakref.finalize(memmap, _log_and_unlink, memmap.filename)
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def unlink_file(filename):
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"""Wrapper around os.unlink with a retry mechanism.
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The retry mechanism has been implemented primarily to overcome a race
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condition happening during the finalizer of a np.memmap: when a process
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holding the last reference to a mmap-backed np.memmap/np.array is about to
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delete this array (and close the reference), it sends a maybe_unlink
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request to the resource_tracker. This request can be processed faster than
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it takes for the last reference of the memmap to be closed, yielding (on
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Windows) a PermissionError in the resource_tracker loop.
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"""
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NUM_RETRIES = 10
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for retry_no in range(1, NUM_RETRIES + 1):
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try:
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os.unlink(filename)
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break
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except PermissionError:
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util.debug(
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'[ResourceTracker] tried to unlink {}, got '
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'PermissionError'.format(filename)
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)
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if retry_no == NUM_RETRIES:
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raise
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else:
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time.sleep(.2)
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resource_tracker._CLEANUP_FUNCS['file'] = unlink_file
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class _WeakArrayKeyMap:
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"""A variant of weakref.WeakKeyDictionary for unhashable numpy arrays.
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This datastructure will be used with numpy arrays as obj keys, therefore we
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do not use the __get__ / __set__ methods to avoid any conflict with the
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numpy fancy indexing syntax.
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"""
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def __init__(self):
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self._data = {}
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def get(self, obj):
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ref, val = self._data[id(obj)]
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if ref() is not obj:
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# In case of race condition with on_destroy: could never be
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# triggered by the joblib tests with CPython.
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raise KeyError(obj)
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return val
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def set(self, obj, value):
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key = id(obj)
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try:
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ref, _ = self._data[key]
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if ref() is not obj:
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# In case of race condition with on_destroy: could never be
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# triggered by the joblib tests with CPython.
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raise KeyError(obj)
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except KeyError:
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# Insert the new entry in the mapping along with a weakref
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# callback to automatically delete the entry from the mapping
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# as soon as the object used as key is garbage collected.
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def on_destroy(_):
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del self._data[key]
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ref = weakref.ref(obj, on_destroy)
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self._data[key] = ref, value
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def __getstate__(self):
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raise PicklingError("_WeakArrayKeyMap is not pickleable")
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###############################################################################
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# Support for efficient transient pickling of numpy data structures
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def _get_backing_memmap(a):
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"""Recursively look up the original np.memmap instance base if any."""
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b = getattr(a, 'base', None)
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if b is None:
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# TODO: check scipy sparse datastructure if scipy is installed
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# a nor its descendants do not have a memmap base
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return None
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elif isinstance(b, mmap):
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# a is already a real memmap instance.
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return a
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else:
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# Recursive exploration of the base ancestry
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return _get_backing_memmap(b)
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def _get_temp_dir(pool_folder_name, temp_folder=None):
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"""Get the full path to a subfolder inside the temporary folder.
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Parameters
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----------
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pool_folder_name : str
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Sub-folder name used for the serialization of a pool instance.
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temp_folder: str, optional
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Folder to be used by the pool for memmapping large arrays
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for sharing memory with worker processes. If None, this will try in
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order:
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- a folder pointed by the JOBLIB_TEMP_FOLDER environment
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variable,
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- /dev/shm if the folder exists and is writable: this is a
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RAMdisk filesystem available by default on modern Linux
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distributions,
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- the default system temporary folder that can be
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overridden with TMP, TMPDIR or TEMP environment
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variables, typically /tmp under Unix operating systems.
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Returns
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-------
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pool_folder : str
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full path to the temporary folder
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use_shared_mem : bool
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whether the temporary folder is written to the system shared memory
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folder or some other temporary folder.
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"""
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use_shared_mem = False
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if temp_folder is None:
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temp_folder = os.environ.get('JOBLIB_TEMP_FOLDER', None)
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if temp_folder is None:
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if os.path.exists(SYSTEM_SHARED_MEM_FS):
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try:
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shm_stats = os.statvfs(SYSTEM_SHARED_MEM_FS)
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available_nbytes = shm_stats.f_bsize * shm_stats.f_bavail
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if available_nbytes > SYSTEM_SHARED_MEM_FS_MIN_SIZE:
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# Try to see if we have write access to the shared mem
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# folder only if it is reasonably large (that is 2GB or
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# more).
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temp_folder = SYSTEM_SHARED_MEM_FS
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pool_folder = os.path.join(temp_folder, pool_folder_name)
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if not os.path.exists(pool_folder):
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os.makedirs(pool_folder)
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use_shared_mem = True
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except (IOError, OSError):
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# Missing rights in the /dev/shm partition, fallback to regular
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# temp folder.
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temp_folder = None
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if temp_folder is None:
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# Fallback to the default tmp folder, typically /tmp
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temp_folder = tempfile.gettempdir()
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temp_folder = os.path.abspath(os.path.expanduser(temp_folder))
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pool_folder = os.path.join(temp_folder, pool_folder_name)
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return pool_folder, use_shared_mem
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def has_shareable_memory(a):
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"""Return True if a is backed by some mmap buffer directly or not."""
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return _get_backing_memmap(a) is not None
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def _strided_from_memmap(filename, dtype, mode, offset, order, shape, strides,
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total_buffer_len, unlink_on_gc_collect):
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"""Reconstruct an array view on a memory mapped file."""
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if mode == 'w+':
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# Do not zero the original data when unpickling
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mode = 'r+'
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if strides is None:
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# Simple, contiguous memmap
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return make_memmap(
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filename, dtype=dtype, shape=shape, mode=mode, offset=offset,
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order=order, unlink_on_gc_collect=unlink_on_gc_collect
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)
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else:
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# For non-contiguous data, memmap the total enclosing buffer and then
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# extract the non-contiguous view with the stride-tricks API
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base = make_memmap(
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filename, dtype=dtype, shape=total_buffer_len, offset=offset,
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mode=mode, order=order, unlink_on_gc_collect=unlink_on_gc_collect
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)
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return as_strided(base, shape=shape, strides=strides)
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def _reduce_memmap_backed(a, m):
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"""Pickling reduction for memmap backed arrays.
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a is expected to be an instance of np.ndarray (or np.memmap)
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m is expected to be an instance of np.memmap on the top of the ``base``
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attribute ancestry of a. ``m.base`` should be the real python mmap object.
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"""
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# offset that comes from the striding differences between a and m
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util.debug('[MEMMAP REDUCE] reducing a memmap-backed array '
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'(shape, {}, pid: {})'.format(a.shape, os.getpid()))
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a_start, a_end = np.byte_bounds(a)
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m_start = np.byte_bounds(m)[0]
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offset = a_start - m_start
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# offset from the backing memmap
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offset += m.offset
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if m.flags['F_CONTIGUOUS']:
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order = 'F'
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else:
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# The backing memmap buffer is necessarily contiguous hence C if not
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# Fortran
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order = 'C'
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if a.flags['F_CONTIGUOUS'] or a.flags['C_CONTIGUOUS']:
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# If the array is a contiguous view, no need to pass the strides
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strides = None
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total_buffer_len = None
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else:
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# Compute the total number of items to map from which the strided
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# view will be extracted.
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strides = a.strides
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total_buffer_len = (a_end - a_start) // a.itemsize
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return (_strided_from_memmap,
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(m.filename, a.dtype, m.mode, offset, order, a.shape, strides,
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total_buffer_len, False))
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def reduce_array_memmap_backward(a):
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"""reduce a np.array or a np.memmap from a child process"""
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m = _get_backing_memmap(a)
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if isinstance(m, np.memmap) and m.filename not in JOBLIB_MMAPS:
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# if a is backed by a memmaped file, reconstruct a using the
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# memmaped file.
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return _reduce_memmap_backed(a, m)
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else:
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# a is either a regular (not memmap-backed) numpy array, or an array
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# backed by a shared temporary file created by joblib. In the latter
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# case, in order to limit the lifespan of these temporary files, we
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# serialize the memmap as a regular numpy array, and decref the
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# file backing the memmap (done implicitly in a previously registered
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# finalizer, see ``unlink_on_gc_collect`` for more details)
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return (
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loads, (dumps(np.asarray(a), protocol=HIGHEST_PROTOCOL), )
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)
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class ArrayMemmapForwardReducer(object):
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"""Reducer callable to dump large arrays to memmap files.
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Parameters
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----------
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max_nbytes: int
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Threshold to trigger memmapping of large arrays to files created
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a folder.
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temp_folder_resolver: callable
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An callable in charge of resolving a temporary folder name where files
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for backing memmapped arrays are created.
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mmap_mode: 'r', 'r+' or 'c'
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Mode for the created memmap datastructure. See the documentation of
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numpy.memmap for more details. Note: 'w+' is coerced to 'r+'
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automatically to avoid zeroing the data on unpickling.
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verbose: int, optional, 0 by default
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If verbose > 0, memmap creations are logged.
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If verbose > 1, both memmap creations, reuse and array pickling are
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logged.
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prewarm: bool, optional, False by default.
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Force a read on newly memmapped array to make sure that OS pre-cache it
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memory. This can be useful to avoid concurrent disk access when the
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same data array is passed to different worker processes.
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"""
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def __init__(self, max_nbytes, temp_folder_resolver, mmap_mode,
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unlink_on_gc_collect, verbose=0, prewarm=True):
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self._max_nbytes = max_nbytes
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self._temp_folder_resolver = temp_folder_resolver
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self._mmap_mode = mmap_mode
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self.verbose = int(verbose)
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if prewarm == "auto":
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self._prewarm = not self._temp_folder.startswith(
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SYSTEM_SHARED_MEM_FS
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)
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else:
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self._prewarm = prewarm
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self._prewarm = prewarm
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self._memmaped_arrays = _WeakArrayKeyMap()
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self._temporary_memmaped_filenames = set()
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self._unlink_on_gc_collect = unlink_on_gc_collect
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@property
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def _temp_folder(self):
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return self._temp_folder_resolver()
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def __reduce__(self):
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# The ArrayMemmapForwardReducer is passed to the children processes: it
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# needs to be pickled but the _WeakArrayKeyMap need to be skipped as
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# it's only guaranteed to be consistent with the parent process memory
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# garbage collection.
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# Although this reducer is pickled, it is not needed in its destination
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# process (child processes), as we only use this reducer to send
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# memmaps from the parent process to the children processes. For this
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# reason, we can afford skipping the resolver, (which would otherwise
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# be unpicklable), and pass it as None instead.
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args = (self._max_nbytes, None, self._mmap_mode,
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self._unlink_on_gc_collect)
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kwargs = {
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'verbose': self.verbose,
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'prewarm': self._prewarm,
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}
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return ArrayMemmapForwardReducer, args, kwargs
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def __call__(self, a):
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m = _get_backing_memmap(a)
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if m is not None and isinstance(m, np.memmap):
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# a is already backed by a memmap file, let's reuse it directly
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return _reduce_memmap_backed(a, m)
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if (not a.dtype.hasobject and self._max_nbytes is not None and
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a.nbytes > self._max_nbytes):
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# check that the folder exists (lazily create the pool temp folder
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# if required)
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try:
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os.makedirs(self._temp_folder)
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os.chmod(self._temp_folder, FOLDER_PERMISSIONS)
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except OSError as e:
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if e.errno != errno.EEXIST:
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raise e
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try:
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basename = self._memmaped_arrays.get(a)
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except KeyError:
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# Generate a new unique random filename. The process and thread
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# ids are only useful for debugging purpose and to make it
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# easier to cleanup orphaned files in case of hard process
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# kill (e.g. by "kill -9" or segfault).
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basename = "{}-{}-{}.pkl".format(
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os.getpid(), id(threading.current_thread()), uuid4().hex)
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self._memmaped_arrays.set(a, basename)
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filename = os.path.join(self._temp_folder, basename)
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# In case the same array with the same content is passed several
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# times to the pool subprocess children, serialize it only once
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is_new_memmap = filename not in self._temporary_memmaped_filenames
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# add the memmap to the list of temporary memmaps created by joblib
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self._temporary_memmaped_filenames.add(filename)
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if self._unlink_on_gc_collect:
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# Bump reference count of the memmap by 1 to account for
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# shared usage of the memmap by a child process. The
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# corresponding decref call will be executed upon calling
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# resource_tracker.maybe_unlink, registered as a finalizer in
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# the child.
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# the incref/decref calls here are only possible when the child
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# and the parent share the same resource_tracker. It is not the
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# case for the multiprocessing backend, but it does not matter
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# because unlinking a memmap from a child process is only
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# useful to control the memory usage of long-lasting child
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# processes, while the multiprocessing-based pools terminate
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# their workers at the end of a map() call.
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resource_tracker.register(filename, "file")
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if is_new_memmap:
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# Incref each temporary memmap created by joblib one extra
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# time. This means that these memmaps will only be deleted
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# once an extra maybe_unlink() is called, which is done once
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# all the jobs have completed (or been canceled) in the
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# Parallel._terminate_backend() method.
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resource_tracker.register(filename, "file")
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if not os.path.exists(filename):
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util.debug(
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"[ARRAY DUMP] Pickling new array (shape={}, dtype={}) "
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"creating a new memmap at {}".format(
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a.shape, a.dtype, filename))
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for dumped_filename in dump(a, filename):
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os.chmod(dumped_filename, FILE_PERMISSIONS)
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if self._prewarm:
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# Warm up the data by accessing it. This operation ensures
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# that the disk access required to create the memmapping
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# file are performed in the reducing process and avoids
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# concurrent memmap creation in multiple children
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# processes.
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load(filename, mmap_mode=self._mmap_mode).max()
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else:
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util.debug(
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"[ARRAY DUMP] Pickling known array (shape={}, dtype={}) "
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"reusing memmap file: {}".format(
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a.shape, a.dtype, os.path.basename(filename)))
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# The worker process will use joblib.load to memmap the data
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return (
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(load_temporary_memmap, (filename, self._mmap_mode,
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self._unlink_on_gc_collect))
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)
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else:
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# do not convert a into memmap, let pickler do its usual copy with
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# the default system pickler
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util.debug(
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'[ARRAY DUMP] Pickling array (NO MEMMAPPING) (shape={}, '
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' dtype={}).'.format(a.shape, a.dtype))
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return (loads, (dumps(a, protocol=HIGHEST_PROTOCOL),))
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|
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def get_memmapping_reducers(
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forward_reducers=None, backward_reducers=None,
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temp_folder_resolver=None, max_nbytes=1e6, mmap_mode='r', verbose=0,
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prewarm=False, unlink_on_gc_collect=True, **kwargs):
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"""Construct a pair of memmapping reducer linked to a tmpdir.
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This function manage the creation and the clean up of the temporary folders
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underlying the memory maps and should be use to get the reducers necessary
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to construct joblib pool or executor.
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"""
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if forward_reducers is None:
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forward_reducers = dict()
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if backward_reducers is None:
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backward_reducers = dict()
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if np is not None:
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# Register smart numpy.ndarray reducers that detects memmap backed
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# arrays and that is also able to dump to memmap large in-memory
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# arrays over the max_nbytes threshold
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forward_reduce_ndarray = ArrayMemmapForwardReducer(
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max_nbytes, temp_folder_resolver, mmap_mode, unlink_on_gc_collect,
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verbose, prewarm=prewarm)
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forward_reducers[np.ndarray] = forward_reduce_ndarray
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forward_reducers[np.memmap] = forward_reduce_ndarray
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# Communication from child process to the parent process always
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# pickles in-memory numpy.ndarray without dumping them as memmap
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# to avoid confusing the caller and make it tricky to collect the
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# temporary folder
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backward_reducers[np.ndarray] = reduce_array_memmap_backward
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backward_reducers[np.memmap] = reduce_array_memmap_backward
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return forward_reducers, backward_reducers
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class TemporaryResourcesManager(object):
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"""Stateful object able to manage temporary folder and pickles
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It exposes:
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- a per-context folder name resolving API that memmap-based reducers will
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rely on to know where to pickle the temporary memmaps
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- a temporary file/folder management API that internally uses the
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resource_tracker.
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"""
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def __init__(self, temp_folder_root=None, context_id=None):
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self._current_temp_folder = None
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self._temp_folder_root = temp_folder_root
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self._use_shared_mem = None
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self._cached_temp_folders = dict()
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self._id = uuid4().hex
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self._finalizers = {}
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if context_id is None:
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# It would be safer to not assign a default context id (less silent
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# bugs), but doing this while maintaining backward compatibility
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# with the previous, context-unaware version get_memmaping_executor
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# exposes exposes too many low-level details.
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context_id = uuid4().hex
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self.set_current_context(context_id)
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def set_current_context(self, context_id):
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self._current_context_id = context_id
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self.register_new_context(context_id)
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def register_new_context(self, context_id):
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# Prepare a sub-folder name specific to a context (usually a unique id
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# generated by each instance of the Parallel class). Do not create in
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# advance to spare FS write access if no array is to be dumped).
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if context_id in self._cached_temp_folders:
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return
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else:
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# During its lifecycle, one Parallel object can have several
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# executors associated to it (for instance, if a loky worker raises
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# an exception, joblib shutdowns the executor and instantly
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# recreates a new one before raising the error - see
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# ``ensure_ready``. Because we don't want two executors tied to
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# the same Parallel object (and thus the same context id) to
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# register/use/delete the same folder, we also add an id specific
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# to the current Manager (and thus specific to its associated
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# executor) to the folder name.
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new_folder_name = (
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"joblib_memmapping_folder_{}_{}_{}".format(
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os.getpid(), self._id, context_id)
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)
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new_folder_path, _ = _get_temp_dir(
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new_folder_name, self._temp_folder_root
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)
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self.register_folder_finalizer(new_folder_path, context_id)
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self._cached_temp_folders[context_id] = new_folder_path
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def resolve_temp_folder_name(self):
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"""Return a folder name specific to the currently activated context"""
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return self._cached_temp_folders[self._current_context_id]
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def _unregister_context(self, context_id=None):
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if context_id is None:
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for context_id in list(self._cached_temp_folders):
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self._unregister_context(context_id)
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else:
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temp_folder = self._cached_temp_folders[context_id]
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finalizer = self._finalizers[context_id]
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resource_tracker.unregister(temp_folder, "folder")
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atexit.unregister(finalizer)
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self._cached_temp_folders.pop(context_id)
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self._finalizers.pop(context_id)
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# resource management API
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def register_folder_finalizer(self, pool_subfolder, context_id):
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# Register the garbage collector at program exit in case caller forgets
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# to call terminate explicitly: note we do not pass any reference to
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# ensure that this callback won't prevent garbage collection of
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# parallel instance and related file handler resources such as POSIX
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# semaphores and pipes
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pool_module_name = whichmodule(delete_folder, 'delete_folder')
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resource_tracker.register(pool_subfolder, "folder")
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def _cleanup():
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# In some cases the Python runtime seems to set delete_folder to
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# None just before exiting when accessing the delete_folder
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# function from the closure namespace. So instead we reimport
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# the delete_folder function explicitly.
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# https://github.com/joblib/joblib/issues/328
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# We cannot just use from 'joblib.pool import delete_folder'
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# because joblib should only use relative imports to allow
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# easy vendoring.
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delete_folder = __import__(
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pool_module_name, fromlist=['delete_folder']).delete_folder
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try:
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delete_folder(pool_subfolder, allow_non_empty=True)
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resource_tracker.unregister(pool_subfolder, "folder")
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except OSError:
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warnings.warn("Failed to delete temporary folder: {}"
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.format(pool_subfolder))
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self._finalizers[context_id] = atexit.register(_cleanup)
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def _unlink_temporary_resources(self, context_id=None):
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"""Unlink temporary resources created by a process-based pool"""
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if context_id is None:
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# iterate over a copy of the cache keys because
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# unlink_temporary_resources further deletes an entry in this
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# cache
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for context_id in self._cached_temp_folders.copy():
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self._unlink_temporary_resources(context_id)
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else:
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temp_folder = self._cached_temp_folders[context_id]
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if os.path.exists(temp_folder):
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for filename in os.listdir(temp_folder):
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resource_tracker.maybe_unlink(
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os.path.join(temp_folder, filename), "file"
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)
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self._try_delete_folder(
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allow_non_empty=False, context_id=context_id
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)
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def _unregister_temporary_resources(self, context_id=None):
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"""Unregister temporary resources created by a process-based pool"""
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if context_id is None:
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for context_id in self._cached_temp_folders:
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self._unregister_temporary_resources(context_id)
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else:
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temp_folder = self._cached_temp_folders[context_id]
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if os.path.exists(temp_folder):
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for filename in os.listdir(temp_folder):
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resource_tracker.unregister(
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os.path.join(temp_folder, filename), "file"
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)
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def _try_delete_folder(self, allow_non_empty, context_id=None):
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if context_id is None:
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# ditto
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for context_id in self._cached_temp_folders.copy():
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self._try_delete_folder(
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allow_non_empty=allow_non_empty, context_id=context_id
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)
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else:
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temp_folder = self._cached_temp_folders[context_id]
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try:
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delete_folder(
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temp_folder, allow_non_empty=allow_non_empty
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)
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# Now that this folder is deleted, we can forget about it
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self._unregister_context(context_id)
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except OSError:
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# Temporary folder cannot be deleted right now. No need to
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# handle it though, as this folder will be cleaned up by an
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# atexit finalizer registered by the memmapping_reducer.
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pass
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