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import warnings
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from collections import OrderedDict
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from datetime import datetime, date, time, timedelta
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from decimal import Decimal
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from fractions import Fraction
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from json_tricks import NoEnumException, NoPandasException, NoNumpyException
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from .utils import ClassInstanceHookBase, nested_index, str_type, gzip_decompress, filtered_wrapper
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class DuplicateJsonKeyException(Exception):
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""" Trying to load a json map which contains duplicate keys, but allow_duplicates is False """
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class TricksPairHook(object):
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"""
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Hook that converts json maps to the appropriate python type (dict or OrderedDict)
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and then runs any number of hooks on the individual maps.
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"""
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def __init__(self, ordered=True, obj_pairs_hooks=None, allow_duplicates=True, properties=None):
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"""
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:param ordered: True if maps should retain their ordering.
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:param obj_pairs_hooks: An iterable of hooks to apply to elements.
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"""
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self.properties = properties or {}
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self.map_type = OrderedDict
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if not ordered:
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self.map_type = dict
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self.obj_pairs_hooks = []
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if obj_pairs_hooks:
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self.obj_pairs_hooks = list(filtered_wrapper(hook) for hook in obj_pairs_hooks)
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self.allow_duplicates = allow_duplicates
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def __call__(self, pairs):
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if not self.allow_duplicates:
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known = set()
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for key, value in pairs:
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if key in known:
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raise DuplicateJsonKeyException(('Trying to load a json map which contains a ' +
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'duplicate key "{0:}" (but allow_duplicates is False)').format(key))
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known.add(key)
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map = self.map_type(pairs)
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for hook in self.obj_pairs_hooks:
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map = hook(map, properties=self.properties)
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return map
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def json_date_time_hook(dct):
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"""
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Return an encoded date, time, datetime or timedelta to it's python representation, including optional timezone.
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:param dct: (dict) json encoded date, time, datetime or timedelta
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:return: (date/time/datetime/timedelta obj) python representation of the above
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"""
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def get_tz(dct):
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if not 'tzinfo' in dct:
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return None
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try:
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import pytz
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except ImportError as err:
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raise ImportError(('Tried to load a json object which has a timezone-aware (date)time. '
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'However, `pytz` could not be imported, so the object could not be loaded. '
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'Error: {0:}').format(str(err)))
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return pytz.timezone(dct['tzinfo'])
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if not isinstance(dct, dict):
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return dct
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if '__date__' in dct:
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return date(year=dct.get('year', 0), month=dct.get('month', 0), day=dct.get('day', 0))
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elif '__time__' in dct:
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tzinfo = get_tz(dct)
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return time(hour=dct.get('hour', 0), minute=dct.get('minute', 0), second=dct.get('second', 0),
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microsecond=dct.get('microsecond', 0), tzinfo=tzinfo)
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elif '__datetime__' in dct:
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tzinfo = get_tz(dct)
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dt = datetime(year=dct.get('year', 0), month=dct.get('month', 0), day=dct.get('day', 0),
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hour=dct.get('hour', 0), minute=dct.get('minute', 0), second=dct.get('second', 0),
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microsecond=dct.get('microsecond', 0))
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if tzinfo is None:
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return dt
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return tzinfo.localize(dt)
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elif '__timedelta__' in dct:
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return timedelta(days=dct.get('days', 0), seconds=dct.get('seconds', 0),
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microseconds=dct.get('microseconds', 0))
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return dct
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def json_complex_hook(dct):
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"""
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Return an encoded complex number to it's python representation.
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:param dct: (dict) json encoded complex number (__complex__)
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:return: python complex number
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"""
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if not isinstance(dct, dict):
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return dct
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if not '__complex__' in dct:
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return dct
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parts = dct['__complex__']
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assert len(parts) == 2
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return parts[0] + parts[1] * 1j
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def numeric_types_hook(dct):
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if not isinstance(dct, dict):
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return dct
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if '__decimal__' in dct:
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return Decimal(dct['__decimal__'])
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if '__fraction__' in dct:
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return Fraction(numerator=dct['numerator'], denominator=dct['denominator'])
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return dct
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def noenum_hook(dct):
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if isinstance(dct, dict) and '__enum__' in dct:
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raise NoEnumException(('Trying to decode a map which appears to represent a enum '
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'data structure, but enum support is not enabled, perhaps it is not installed.'))
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return dct
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def pathlib_hook(dct):
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if not isinstance(dct, dict):
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return dct
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if not '__pathlib__' in dct:
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return dct
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from pathlib import Path
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return Path(dct['__pathlib__'])
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def nopathlib_hook(dct):
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if isinstance(dct, dict) and '__pathlib__' in dct:
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raise NoPathlib(('Trying to decode a map which appears to represent a '
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'pathlib.Path data structure, but pathlib support '
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'is not enabled.'))
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return dct
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class EnumInstanceHook(ClassInstanceHookBase):
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"""
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This hook tries to convert json encoded by enum_instance_encode back to it's original instance.
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It only works if the environment is the same, e.g. the enum is similarly importable and hasn't changed.
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"""
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def __call__(self, dct, properties=None):
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if not isinstance(dct, dict):
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return dct
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if '__enum__' not in dct:
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return dct
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cls_lookup_map = properties.get('cls_lookup_map', {})
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mod, name = dct['__enum__']['__enum_instance_type__']
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Cls = self.get_cls_from_instance_type(mod, name, cls_lookup_map=cls_lookup_map)
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return Cls[dct['__enum__']['name']]
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class ClassInstanceHook(ClassInstanceHookBase):
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"""
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This hook tries to convert json encoded by class_instance_encoder back to it's original instance.
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It only works if the environment is the same, e.g. the class is similarly importable and hasn't changed.
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"""
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def __call__(self, dct, properties=None):
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if not isinstance(dct, dict):
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return dct
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if '__instance_type__' not in dct:
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return dct
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cls_lookup_map = properties.get('cls_lookup_map', {}) or {}
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mod, name = dct['__instance_type__']
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Cls = self.get_cls_from_instance_type(mod, name, cls_lookup_map=cls_lookup_map)
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try:
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obj = Cls.__new__(Cls)
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except TypeError:
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raise TypeError(('problem while decoding instance of "{0:s}"; this instance has a special '
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'__new__ method and can\'t be restored').format(name))
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if hasattr(obj, '__json_decode__'):
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properties = {}
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if 'slots' in dct:
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properties.update(dct['slots'])
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if 'attributes' in dct:
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properties.update(dct['attributes'])
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obj.__json_decode__(**properties)
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else:
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if 'slots' in dct:
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for slot,value in dct['slots'].items():
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setattr(obj, slot, value)
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if 'attributes' in dct:
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obj.__dict__ = dict(dct['attributes'])
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return obj
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def json_set_hook(dct):
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"""
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Return an encoded set to it's python representation.
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"""
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if not isinstance(dct, dict):
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return dct
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if '__set__' not in dct:
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return dct
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return set((tuple(item) if isinstance(item, list) else item) for item in dct['__set__'])
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def pandas_hook(dct):
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if not isinstance(dct, dict):
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return dct
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if '__pandas_dataframe__' not in dct and '__pandas_series__' not in dct:
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return dct
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if '__pandas_dataframe__' in dct:
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try:
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from pandas import DataFrame
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except ImportError:
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raise NoPandasException('Trying to decode a map which appears to repr esent a pandas data structure, but pandas appears not to be installed.')
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from numpy import dtype, array
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meta = dct.pop('__pandas_dataframe__')
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indx = dct.pop('index') if 'index' in dct else None
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dtypes = dict((colname, dtype(tp)) for colname, tp in zip(meta['column_order'], meta['types']))
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data = OrderedDict()
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for name, col in dct.items():
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data[name] = array(col, dtype=dtypes[name])
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return DataFrame(
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data=data,
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index=indx,
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columns=meta['column_order'],
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# mixed `dtypes` argument not supported, so use duct of numpy arrays
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)
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elif '__pandas_series__' in dct:
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from pandas import Series
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from numpy import dtype, array
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meta = dct.pop('__pandas_series__')
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indx = dct.pop('index') if 'index' in dct else None
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return Series(
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data=dct['data'],
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index=indx,
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name=meta['name'],
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dtype=dtype(meta['type']),
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)
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return dct # impossible
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def nopandas_hook(dct):
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if isinstance(dct, dict) and ('__pandas_dataframe__' in dct or '__pandas_series__' in dct):
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raise NoPandasException(('Trying to decode a map which appears to represent a pandas '
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'data structure, but pandas support is not enabled, perhaps it is not installed.'))
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return dct
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def json_numpy_obj_hook(dct):
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"""
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Replace any numpy arrays previously encoded by NumpyEncoder to their proper
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shape, data type and data.
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:param dct: (dict) json encoded ndarray
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:return: (ndarray) if input was an encoded ndarray
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"""
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if not isinstance(dct, dict):
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return dct
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if not '__ndarray__' in dct:
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return dct
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try:
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import numpy
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except ImportError:
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raise NoNumpyException('Trying to decode a map which appears to represent a numpy '
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'array, but numpy appears not to be installed.')
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order = None
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if 'Corder' in dct:
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order = 'C' if dct['Corder'] else 'F'
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data_json = dct['__ndarray__']
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shape = tuple(dct['shape'])
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nptype = dct['dtype']
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if shape:
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if nptype == 'object':
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return _lists_of_obj_to_ndarray(data_json, order, shape, nptype)
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if isinstance(data_json, str_type):
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return _bin_str_to_ndarray(data_json, order, shape, nptype)
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else:
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return _lists_of_numbers_to_ndarray(data_json, order, shape, nptype)
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else:
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return _scalar_to_numpy(data_json, nptype)
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def _bin_str_to_ndarray(data, order, shape, dtype):
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"""
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From base64 encoded, gzipped binary data to ndarray.
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"""
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from base64 import standard_b64decode
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from numpy import frombuffer
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assert order in [None, 'C'], 'specifying different memory order is not (yet) supported ' \
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'for binary numpy format (got order = {})'.format(order)
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if data.startswith('b64.gz:'):
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data = standard_b64decode(data[7:])
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data = gzip_decompress(data)
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elif data.startswith('b64:'):
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data = standard_b64decode(data[4:])
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else:
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raise ValueError('found numpy array buffer, but did not understand header; supported: b64 or b64.gz')
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data = frombuffer(data, dtype=dtype)
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return data.reshape(shape)
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def _lists_of_numbers_to_ndarray(data, order, shape, dtype):
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"""
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From nested list of numbers to ndarray.
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"""
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from numpy import asarray
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arr = asarray(data, dtype=dtype, order=order)
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if 0 in shape:
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return arr.reshape(shape)
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if shape != arr.shape:
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warnings.warn('size mismatch decoding numpy array: expected {}, got {}'.format(shape, arr.shape))
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return arr
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def _lists_of_obj_to_ndarray(data, order, shape, dtype):
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|
|
"""
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|
|
From nested list of objects (that aren't native numpy numbers) to ndarray.
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"""
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from numpy import empty, ndindex
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arr = empty(shape, dtype=dtype, order=order)
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dec_data = data
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for indx in ndindex(arr.shape):
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arr[indx] = nested_index(dec_data, indx)
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return arr
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def _scalar_to_numpy(data, dtype):
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|
"""
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|
From scalar value to numpy type.
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|
"""
|
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|
import numpy as nptypes
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|
dtype = getattr(nptypes, dtype)
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return dtype(data)
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def json_nonumpy_obj_hook(dct):
|
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|
"""
|
|
|
|
This hook has no effect except to check if you're trying to decode numpy arrays without support, and give you a useful message.
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|
"""
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|
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if isinstance(dct, dict) and '__ndarray__' in dct:
|
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|
raise NoNumpyException(('Trying to decode a map which appears to represent a numpy array, '
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|
|
'but numpy support is not enabled, perhaps it is not installed.'))
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|
return dct
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