Source code for apache_beam.internal.pickler

#
# Licensed to the Apache Software Foundation (ASF) under one or more
# contributor license agreements.  See the NOTICE file distributed with
# this work for additional information regarding copyright ownership.
# The ASF licenses this file to You under the Apache License, Version 2.0
# (the "License"); you may not use this file except in compliance with
# the License.  You may obtain a copy of the License at
#
#    http://www.apache.org/licenses/LICENSE-2.0
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# distributed under the License is distributed on an "AS IS" BASIS,
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"""Pickler for values, functions, and classes.

For internal use only. No backwards compatibility guarantees.

Pickles created by the pickling library contain non-ASCII characters, so
we base64-encode the results so that we can put them in a JSON objects.
The pickler is used to embed FlatMap callable objects into the workflow JSON
description.

The pickler module should be used to pickle functions and modules; for values,
the coders.*PickleCoder classes should be used instead.
"""

from __future__ import absolute_import

import base64
import logging
import sys
import traceback
import types
import zlib

import dill


def _is_nested_class(cls):
  """Returns true if argument is a class object that appears to be nested."""
  return (isinstance(cls, type)
          and cls.__module__ != '__builtin__'
          and cls.__name__ not in sys.modules[cls.__module__].__dict__)


def _find_containing_class(nested_class):
  """Finds containing class of a nested class passed as argument."""

  seen = set()

  def _find_containing_class_inner(outer):
    if outer in seen:
      return None
    seen.add(outer)
    for k, v in outer.__dict__.items():
      if v is nested_class:
        return outer, k
      elif isinstance(v, type) and hasattr(v, '__dict__'):
        res = _find_containing_class_inner(v)
        if res: return res

  return _find_containing_class_inner(sys.modules[nested_class.__module__])


def _nested_type_wrapper(fun):
  """A wrapper for the standard pickler handler for class objects.

  Args:
    fun: Original pickler handler for type objects.

  Returns:
    A wrapper for type objects that handles nested classes.

  The wrapper detects if an object being pickled is a nested class object.
  For nested class object only it will save the containing class object so
  the nested structure is recreated during unpickle.
  """

  def wrapper(pickler, obj):
    # When the nested class is defined in the __main__ module we do not have to
    # do anything special because the pickler itself will save the constituent
    # parts of the type (i.e., name, base classes, dictionary) and then
    # recreate it during unpickling.
    if _is_nested_class(obj) and obj.__module__ != '__main__':
      containing_class_and_name = _find_containing_class(obj)
      if containing_class_and_name is not None:
        return pickler.save_reduce(
            getattr, containing_class_and_name, obj=obj)
    try:
      return fun(pickler, obj)
    except dill.dill.PicklingError:
      # pylint: disable=protected-access
      return pickler.save_reduce(
          dill.dill._create_type,
          (type(obj), obj.__name__, obj.__bases__,
           dill.dill._dict_from_dictproxy(obj.__dict__)),
          obj=obj)
      # pylint: enable=protected-access

  return wrapper


# Monkey patch the standard pickler dispatch table entry for type objects.
# Dill, for certain types, defers to the standard pickler (including type
# objects). We wrap the standard handler using type_wrapper() because
# for nested class we want to pickle the actual enclosing class object so we
# can recreate it during unpickling.
# TODO(silviuc): Make sure we submit the fix upstream to GitHub dill project.
dill.dill.Pickler.dispatch[type] = _nested_type_wrapper(
    dill.dill.Pickler.dispatch[type])


# Dill pickles generators objects without complaint, but unpickling produces
# TypeError: object.__new__(generator) is not safe, use generator.__new__()
# on some versions of Python.
def _reject_generators(unused_pickler, unused_obj):
  raise TypeError("can't (safely) pickle generator objects")


dill.dill.Pickler.dispatch[types.GeneratorType] = _reject_generators


# This if guards against dill not being full initialized when generating docs.
if 'save_module' in dir(dill.dill):

  # Always pickle non-main modules by name.
  old_save_module = dill.dill.save_module

[docs] @dill.dill.register(dill.dill.ModuleType) def save_module(pickler, obj): if dill.dill.is_dill(pickler) and obj is pickler._main: return old_save_module(pickler, obj) else: dill.dill.log.info('M2: %s' % obj) # pylint: disable=protected-access pickler.save_reduce(dill.dill._import_module, (obj.__name__,), obj=obj) # pylint: enable=protected-access dill.dill.log.info('# M2')
# Pickle module dictionaries (commonly found in lambda's globals) # by referencing their module. old_save_module_dict = dill.dill.save_module_dict known_module_dicts = {}
[docs] @dill.dill.register(dict) def new_save_module_dict(pickler, obj): obj_id = id(obj) if not known_module_dicts or '__file__' in obj or '__package__' in obj: if obj_id not in known_module_dicts: for m in sys.modules.values(): try: if m and m.__name__ != '__main__': d = m.__dict__ known_module_dicts[id(d)] = m, d except AttributeError: # Skip modules that do not have the __name__ attribute. pass if obj_id in known_module_dicts and dill.dill.is_dill(pickler): m = known_module_dicts[obj_id][0] try: # pylint: disable=protected-access dill.dill._import_module(m.__name__) return pickler.save_reduce( getattr, (known_module_dicts[obj_id][0], '__dict__'), obj=obj) except (ImportError, AttributeError): return old_save_module_dict(pickler, obj) else: return old_save_module_dict(pickler, obj)
dill.dill.save_module_dict = new_save_module_dict def _nest_dill_logging(): """Prefix all dill logging with its depth in the callstack. Useful for debugging pickling of deeply nested structures. """ old_log_info = dill.dill.log.info def new_log_info(msg, *args, **kwargs): old_log_info( ('1 2 3 4 5 6 7 8 9 0 ' * 10)[:len(traceback.extract_stack())] + msg, *args, **kwargs) dill.dill.log.info = new_log_info # Turn off verbose logging from the dill pickler. logging.getLogger('dill').setLevel(logging.WARN) # TODO(ccy): Currently, there are still instances of pickler.dumps() and # pickler.loads() being used for data, which results in an unnecessary base64 # encoding. This should be cleaned up.
[docs]def dumps(o, enable_trace=True): """For internal use only; no backwards-compatibility guarantees.""" try: s = dill.dumps(o) except Exception: # pylint: disable=broad-except if enable_trace: dill.dill._trace(True) # pylint: disable=protected-access s = dill.dumps(o) else: raise finally: dill.dill._trace(False) # pylint: disable=protected-access # Compress as compactly as possible to decrease peak memory usage (of multiple # in-memory copies) and free up some possibly large and no-longer-needed # memory. c = zlib.compress(s, 9) del s return base64.b64encode(c)
[docs]def loads(encoded, enable_trace=True): """For internal use only; no backwards-compatibility guarantees.""" c = base64.b64decode(encoded) s = zlib.decompress(c) del c # Free up some possibly large and no-longer-needed memory. try: return dill.loads(s) except Exception: # pylint: disable=broad-except if enable_trace: dill.dill._trace(True) # pylint: disable=protected-access return dill.loads(s) else: raise finally: dill.dill._trace(False) # pylint: disable=protected-access
[docs]def dump_session(file_path): """For internal use only; no backwards-compatibility guarantees. Pickle the current python session to be used in the worker. Note: Due to the inconsistency in the first dump of dill dump_session we create and load the dump twice to have consistent results in the worker and the running session. Check: https://github.com/uqfoundation/dill/issues/195 """ dill.dump_session(file_path) dill.load_session(file_path) return dill.dump_session(file_path)
[docs]def load_session(file_path): return dill.load_session(file_path)