metainfo.py 81.5 KB
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# Copyright 2018 Markus Scheidgen
#
# Licensed 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
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an"AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
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from typing import Type, TypeVar, Union, Tuple, Iterable, List, Any, Dict, Set, \
    Callable as TypingCallable, cast
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from collections.abc import Iterable as IterableABC
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import sys
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import inspect
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import re
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import json
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import itertools
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import numpy as np
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import pint
import pint.unit
import pint.quantity
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import aniso8601
from datetime import datetime
import pytz
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import docstring_parser
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import flask_restplus.inputs
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m_package: 'Package' = None

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is_bootstrapping = True
MSectionBound = TypeVar('MSectionBound', bound='MSection')
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T = TypeVar('T')
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# Metainfo errors

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class MetainfoError(Exception):
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    ''' Metainfo related errors. '''
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    pass


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class DeriveError(MetainfoError):
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    ''' An error occurred while computing a derived value. '''
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    pass


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class MetainfoReferenceError(MetainfoError):
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    ''' An error indicating that a reference could not be resolved. '''
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    pass
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# Metainfo quantity data types
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class MEnum():
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    '''Allows to define str types with values limited to a pre-set list of possible values.'''
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    def __init__(self, *args, **kwargs):
        # Supports one big list in place of args
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        if len(args) == 1 and isinstance(args[0], list):
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            args = args[0]
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        # If non-named arguments are given, the default is to have them placed
        # into a dictionary with their string value as both the enum name and
        # the value.
        for arg in args:
            if arg in kwargs:
                raise ValueError("Duplicate value '{}' provided for enum".format(arg))
            kwargs[arg] = arg

        self._values = set(kwargs.values())  # For allowing constant time member check
        self._map = kwargs

    def __getattr__(self, attr):
        return self._map[attr]
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class MProxy():
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    ''' A placeholder object that acts as reference to a value that is not yet resolved.
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    Attributes:
        url: The reference represented as an URL string.
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    '''
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    def __init__(self, url: str):
        self.url = url


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class DataType:
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    '''
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    Allows to define custom data types that can be used in the meta-info.

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    The metainfo supports the most types out of the box. These includes the python build-in
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    primitive types (int, bool, str, float, ...), references to sections, and enums.
    However, in some occasions you need to add custom data types.
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    This base class lets you customize various aspects of value treatment. This includes
    type checks and various value transformations. This allows to store values in the
    section differently from how the usermight set/get them, and it allows to have non
    serializeable values that are transformed on de-/serialization.
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    '''
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    def set_normalize(self, section: 'MSection', quantity_def: 'Quantity', value: Any) -> Any:
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        ''' Transforms the given value before it is set and checks its type. '''
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        return value

    def get_normalize(self, section: 'MSection', quantity_def: 'Quantity', value: Any) -> Any:
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        ''' Transforms the given value when it is get. '''
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        return value

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    def serialize(self, section: 'MSection', quantity_def: 'Quantity', value: Any) -> Any:
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        ''' Transforms the given value when making the section serializeable. '''
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        return value

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    def deserialize(self, section: 'MSection', quantity_def: 'Quantity', value: Any) -> Any:
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        ''' Transforms the given value from its serializeable form. '''
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        return value


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range_re = re.compile(r'(\d)\.\.(\d|\*)')


class _Dimension(DataType):

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    def set_normalize(self, section, quantity_def: 'Quantity', value):
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        if isinstance(value, int):
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            return value
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        if isinstance(value, str):
            if value.isidentifier():
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                return value
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            if re.match(range_re, value):
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                return value
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        if isinstance(value, Section):
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            return value
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        if isinstance(value, type) and hasattr(value, 'm_def'):
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            return value
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        raise TypeError('%s is not a valid dimension' % str(value))

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    @staticmethod
    def check_dimension(section, dimension, length):
        if isinstance(dimension, int):
            return dimension == length
        if isinstance(dimension, str):
            if dimension.isidentifier():
                return dimension == getattr(section, dimension)
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            m = re.match(range_re, dimension)
            start = int(m.group(1))
            end = -1 if m.group(2) == '*' else int(m.group(2))
            return start <= length and (end == -1 or length <= end)


class _Unit(DataType):
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    def set_normalize(self, section, quantity_def: 'Quantity', value):
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        if isinstance(value, str):
            value = units.parse_units(value)

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        elif not isinstance(value, pint.unit._Unit):
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            raise TypeError('Units must be given as str or pint Unit instances.')

        return value

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    def serialize(self, section, quantity_def: 'Quantity', value):
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        return value.__str__()

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    def deserialize(self, section, quantity_def: 'Quantity', value):
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        return units.parse_units(value)

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units = pint.UnitRegistry()
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''' The default pint unit registry that should be used to give units to quantity definitions. '''
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class _Callable(DataType):
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    def serialize(self, section, quantity_def: 'Quantity', value):
        raise MetainfoError('Callables cannot be serialized')

    def deserialize(self, section, quantity_def: 'Quantity', value):
        raise MetainfoError('Callables cannot be serialized')


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class _QuantityType(DataType):
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    ''' Data type for defining the type of a metainfo quantity.
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    A metainfo quantity type can be one of

    - python build-in primitives: int, float, bool, str
    - numpy dtypes, e.g. f, int32
    - a section definition to define references
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    - an MEnum instance to use it's values as possible str values
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    - a custom datatype, i.e. instance of :class:`DataType`
    - Any
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    '''
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    def set_normalize(self, section, quantity_def, value):
        if value in [str, int, float, bool]:
            return value

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        if isinstance(value, MEnum):
            for enum_value in value._values:
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                if not isinstance(enum_value, str):
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                    raise TypeError('MEnum value %s is not a string.' % enum_value)
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            return value

        if type(value) == np.dtype:
            return value

        if isinstance(value, Section):
            return value

        if isinstance(value, DataType):
            return value

        if value == Any:
            return value

        if isinstance(value, type):
            section = getattr(value, 'm_def', None)
            if section is not None:
                return Reference(section)

        raise MetainfoError(
            'Type %s of %s is not a valid metainfo quantity type' %
            (value, quantity_def))

    def serialize(self, section, quantity_def, value):
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        if value is str or value is int or value is float or value is bool:
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            return dict(type_kind='python', type_data=value.__name__)

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        if isinstance(value, MEnum):
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            return dict(type_kind='Enum', type_data=list(value))

        if type(value) == np.dtype:
            return dict(type_kind='numpy', type_data=str(value))

        if isinstance(value, Reference):
            return dict(type_kind='reference', type_data=value.target_section_def.m_path())

        if isinstance(value, DataType):
            module = value.__class__.__module__
            if module is None or module == str.__class__.__module__:
                type_data = value.__class__.__name__
            else:
                type_data = '%s.%s' % (module, value.__class__.__name__)

            return dict(type_kind='custom', type_data=type_data)

        if value == Any:
            return dict(type_kind='Any')

        raise MetainfoError(
            'Type %s of %s is not a valid metainfo quantity type' %
            (value, quantity_def))


class Reference(DataType):
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    ''' Datatype used for reference quantities. '''
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    def __init__(self, section_def: 'Section'):
        if not isinstance(section_def, Section):
            raise MetainfoError('%s is not a section definition.' % section_def)
        self.target_section_def = section_def

    def set_normalize(self, section: 'MSection', quantity_def: 'Quantity', value: Any) -> Any:
        if self.target_section_def.m_follows(Definition.m_def):
            # special case used in metainfo definitions, where we reference metainfo definitions
            # using their Python class. E.g. referencing a section definition using its
            # class instead of the object: Run vs. Run.m_def
            if isinstance(value, type):
                definition = getattr(value, 'm_def', None)
                if definition is not None and definition.m_follows(self.target_section_def):
                    return definition

        if isinstance(value, MProxy):
            return value

        if not isinstance(value, MSection):
            raise TypeError(
                'The value %s is not a section and can not be used as a reference.' % value)

        if not value.m_follows(self.target_section_def):
            raise TypeError(
                '%s is not a %s and therefore an invalid value of %s.' %
                (value, self.target_section_def, quantity_def))

        return value

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    def resolve(self, section: 'MSection', quantity_def: 'Quantity', value: Any) -> 'MSection':
        return section.m_resolve(value.url)

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    def get_normalize(self, section: 'MSection', quantity_def: 'Quantity', value: Any) -> Any:
        if isinstance(value, MProxy):
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            resolved: 'MSection' = self.resolve(section, quantity_def, value)
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            if resolved is None:
                raise ReferenceError('Could not resolve %s from %s.' % (value, section))
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            return resolved

        return value

    def serialize(self, section: 'MSection', quantity_def: 'Quantity', value: Any) -> Any:
        return value.m_path()

    def deserialize(self, section: 'MSection', quantity_def: 'Quantity', value: Any) -> Any:
        return MProxy(value)


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class _Datetime(DataType):
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    def _parse(self, datetime_str: str) -> datetime:
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        try:
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            return aniso8601.parse_datetime(datetime_str)
        except ValueError:
            pass
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        try:
            return aniso8601.parse_date(datetime_str)
        except ValueError:
            pass

        try:
            # TODO necessary?
            return flask_restplus.inputs.datetime_from_rfc822(datetime_str)
        except ValueError:
            pass

        raise TypeError('Invalid date literal "{0}"'.format(datetime_str))

    def _convert(self, value):
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        if value is None:
            return None

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        if isinstance(value, str):
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            value = self._parse(value)

        elif isinstance(value, (int, float)):
            value = datetime.fromtimestamp(value)
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        if not isinstance(value, datetime):
            raise TypeError('%s is not a datetime.' % value)

        return value

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    def set_normalize(self, section: 'MSection', quantity_def: 'Quantity', value: Any) -> Any:
        return self._convert(value)

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    def serialize(self, section: 'MSection', quantity_def: 'Quantity', value: Any) -> Any:
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        if value is None:
            return None

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        value.replace(tzinfo=pytz.utc)
        return value.isoformat()

    def deserialize(self, section: 'MSection', quantity_def: 'Quantity', value: Any) -> Any:
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        return self._convert(value)
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Dimension = _Dimension()
Unit = _Unit()
QuantityType = _QuantityType()
Callable = _Callable()
Datetime = _Datetime()
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# Metainfo data storage and reflection interface

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class MObjectMeta(type):
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    def __new__(self, cls_name, bases, dct):
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        do_init = dct.get('do_init', None)
        if do_init is not None:
            del(dct['do_init'])
        else:
            do_init = True

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        cls = super().__new__(self, cls_name, bases, dct)
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        init = getattr(cls, '__init_cls__')
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        if init is not None and do_init and not is_bootstrapping:
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            init()
        return cls
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SectionDef = Union[str, 'Section', 'SubSection', Type[MSectionBound]]
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''' Type for section definition references.
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This can either be :

- the name of the section
- the section definition itself
- the definition of a sub section
- or the section definition Python class
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'''
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class MData:
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    ''' An interface for low-level metainfo data objects.
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    Metainfo data objects store the data of a single section instance. This interface
    constitutes the minimal functionality for accessing and modifying section data.
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    Different implementations of this interface, can realize different storage backends.
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    All section instances will implement this interface, usually be delegating calls to
    a standalone implementation of this interface. This allows to configure various
    data backends on section instance creation.
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    '''
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    def __getitem__(self, key):
        raise NotImplementedError()

    def __setitem__(self, key, value):
        raise NotImplementedError()

    def m_set(self, section: 'MSection', quantity_def: 'Quantity', value: Any) -> None:
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        ''' Set the given value for the given quantity. '''
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        raise NotImplementedError()

    def m_get(self, section: 'MSection', quantity_def: 'Quantity') -> Any:
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        ''' Retrieve the given value for the given quantity. '''
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        raise NotImplementedError()

    def m_is_set(self, section: 'MSection', quantity_def: 'Quantity') -> bool:
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        ''' True iff this quantity was explicitely set. '''
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        raise NotImplementedError()

    def m_add_values(
            self, section: 'MSection', quantity_def: 'Quantity', values: Any,
            offset: int) -> None:
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        ''' Add (partial) values for the given quantity of higher dimensionality. '''
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        raise NotImplementedError()

    def m_add_sub_section(
            self, section: 'MSection', sub_section_def: 'SubSection',
            sub_section: 'MSection') -> None:
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        ''' Adds the given section instance as a sub section of the given sub section definition. '''
        raise NotImplementedError()

    def m_remove_sub_section(
            self, section: 'MSection', sub_section_def: 'SubSection', index: int) -> None:
        ''' Removes the given section instance as a sub section of the given sub section definition. '''
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        raise NotImplementedError()

    def m_get_sub_section(
            self, section: 'MSection', sub_section_def: 'SubSection',
            index: int) -> 'MSection':
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        ''' Retrieves a single sub section of the given sub section definition. '''
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        raise NotImplementedError()

    def m_get_sub_sections(
            self, section: 'MSection', sub_section_def: 'SubSection') -> Iterable['MSection']:
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        ''' Retrieves  all sub sections of the given sub section definition. '''
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        raise NotImplementedError()

    def m_sub_section_count(self, section: 'MSection', sub_section_def: 'SubSection') -> int:
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        ''' Returns the number of sub sections for the given sub section definition. '''
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        raise NotImplementedError()


class MDataDict(MData):
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    ''' A simple dict backed implementaton of :class:`MData`. It is used by default. '''
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    def __init__(self, dct: Dict[str, Any] = None):
        if dct is None:
            dct = {}

        self.dct = dct

    def __getitem__(self, key):
        return self.dct[key]

    def __setitem__(self, key, value):
        self.dct[key] = value

    def m_set(self, section: 'MSection', quantity_def: 'Quantity', value: Any) -> None:
        self.dct[quantity_def.name] = value

    def m_get(self, section: 'MSection', quantity_def: 'Quantity') -> Any:
        quantity_name = quantity_def.name
        if quantity_name not in self.dct:
            return quantity_def.default
        else:
            return self.dct[quantity_name]

    def m_is_set(self, section: 'MSection', quantity_def: 'Quantity') -> bool:
        return quantity_def.name in self.dct

    def m_add_values(
            self, section: 'MSection', quantity_def: 'Quantity', values: Any,
            offset: int) -> None:

        # TODO
        raise NotImplementedError()

    def m_add_sub_section(
            self, section: 'MSection', sub_section_def: 'SubSection',
            sub_section: 'MSection') -> None:

        sub_section_name = sub_section_def.name
        if sub_section_def.repeats:
            sub_section_lst = self.dct.get(sub_section_name, None)
            if sub_section_lst is None:
                sub_section_lst = self.dct.setdefault(sub_section_name, [])

            sub_section_lst.append(sub_section)

        else:
            self.dct[sub_section_name] = sub_section

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    def m_remove_sub_section(
            self, section: 'MSection', sub_section_def: 'SubSection', index: int) -> None:

        if sub_section_def.repeats:
            del(self.dct[sub_section_def.name][index])

        elif sub_section_def.name in self.dct:
            del(self.dct[sub_section_def.name])

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    def m_get_sub_section(
            self, section: 'MSection', sub_section_def: 'SubSection',
            index: int) -> 'MSection':

        if sub_section_def.repeats:
            return self.dct[sub_section_def.name][index]

        else:
            return self.dct.get(sub_section_def.name, None)

    def m_get_sub_sections(
            self, section: 'MSection', sub_section_def: 'SubSection') -> Iterable['MSection']:
        return self.dct.get(sub_section_def.name, [])

    def m_sub_section_count(self, section: 'MSection', sub_section_def: 'SubSection') -> int:
        sub_section_name = sub_section_def.name
        if sub_section_name not in self.dct:
            return 0

        if not sub_section_def.repeats:
            return 1

        return len(self.dct[sub_section_name])


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class MResource():
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    '''Represents a collection of related metainfo data, i.e. a set of :class:`MSection` instances.
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    MResource allows to keep related objects together and resolve sections of certain
    section definitions.
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    '''
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    def __init__(self):
        self.__data: Dict['Section', List['MSection']] = dict()
        self.contents: List['MSection'] = []

    def create(self, section_cls: Type[MSectionBound], *args, **kwargs) -> MSectionBound:
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        ''' Create an instance of the given section class and adds it to this resource. '''
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        result = section_cls(*args, **kwargs)
        self.add(result)
        return cast(MSectionBound, result)

    def add(self, section):
        section.m_resource = self
        self.__data.setdefault(section.m_def, []).append(section)
        if section.m_parent is None:
            self.contents.append(section)

    def remove(self, section):
        assert section.m_resource == self, 'Can only remove section from the resource that contains it.'
        section.m_resource = None
        self.__data.get(section.m_def).remove(section)
        if section.m_parent is not None:
            self.contents.remove(section)

    def all(self, section_cls: Type[MSectionBound]) -> List[MSectionBound]:
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        ''' Returns all instances of the given section class in this resource. '''
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        return cast(List[MSectionBound], self.__data.get(section_cls.m_def, []))

    def unload(self):
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        ''' Breaks all references among the contain metainfo sections to allow GC. '''
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        for collections in self.__data.values():
            for section in collections:
                section.m_parent = None
            collections.clear()

        # TODO break actual references via quantities


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class MSection(metaclass=MObjectMeta):  # TODO find a way to make this a subclass of collections.abs.Mapping
    '''Base class for all section instances on all meta-info levels.
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    All `section instances` indirectly instantiate the :class:`MSection` and therefore all
    members of :class:`MSection` are available on all `section instances`. :class:`MSection`
    provides many special attributes and functions (they all start with ``m_``) that allow
    to reflect on a `section's definition` and allow to manipulate the `section instance`
    without a priori knowledge of the `section defintion`.
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    It also carries all the data for each section. All sub-classes only define specific
    sections in terms of possible sub-sections and quantities. The data is managed here.

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    Attributes:
        m_def: The `section definition` that this `section instance` follows as a
            :class:`Section` object.
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        m_parent:
            If this section is a sub-section, this references the parent section instance.
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        m_parent_sub_section:
            If this section is a sub-section, this is the :class:`SubSection` that defines
            this relationship.
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        m_parent_index:
            For repeatable sections, parent keep a list of sub-sections. This is the index
            of this section in the respective parent sub-section list.

        m_data: The :class:`MData` implementations that stores the section data. It keeps
            the quantity values and sub-section. It should only be read directly
            (and never manipulated).
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        m_resource: The :class:`MResource` that contains and manages this section.

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    '''
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    m_def: 'Section' = None
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    def __init__(
            self, m_def: 'Section' = None, m_data: MData = None,
            m_resource: MResource = None, **kwargs):
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        self.m_def: 'Section' = m_def
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        self.m_parent: 'MSection' = None
        self.m_parent_sub_section: 'SubSection' = None
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        self.m_parent_index = -1
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        self.m_resource = m_resource
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        # get missing m_def from class
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        cls = self.__class__
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        if self.m_def is None:
            self.m_def = cls.m_def
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        # check m_def
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        if cls.m_def is not None:
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            if self.m_def != cls.m_def:
                MetainfoError('Section class and section definition must match.')

            if self.m_def.extends_base_section:
                MetainfoError('Section extends another section and cannot be instantiated.')

        else:
            if not is_bootstrapping:
                MetainfoError('Section has not m_def.')
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        # get annotations from kwargs
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        self.m_annotations: Dict[str, Any] = {}
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        rest = {}
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        for key, value in kwargs.items():
            if key.startswith('a_'):
                self.m_annotations[key[2:]] = value
            else:
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                rest[key] = value

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        # initialize data
        self.m_data = m_data
        if self.m_data is None:
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            self.m_data = MDataDict()
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        # set remaining kwargs
        if is_bootstrapping:
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            self.m_data.dct.update(**rest)  # type: ignore
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        else:
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            self.m_update(**rest)
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    @classmethod
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    def __init_cls__(cls):
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        # ensure that the m_def is defined
        m_def = cls.m_def
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        if m_def is None:
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            m_def = Section()
            setattr(cls, 'm_def', m_def)
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        # transfer name m_def
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        m_def.name = cls.__name__
        m_def.section_cls = cls
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        # add base sections
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        extended_base_section = None
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        if m_def.extends_base_section:
            base_sections_count = len(cls.__bases__)
            if base_sections_count == 0:
                raise MetainfoError(
                    'Section %s extend the base section, but has no base section.' % m_def)

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            if base_sections_count > 1:
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                raise MetainfoError(
                    'Section %s extend the base section, but has more than one base section' % m_def)

            base_section_cls = cls.__bases__[0]
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            extended_base_section = base_section = getattr(base_section_cls, 'm_def', None)
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            if base_section is None:
                raise MetainfoError(
                    'The base section of %s is not a section class.' % m_def)

            for name, attr in cls.__dict__.items():
                if isinstance(attr, Property):
                    setattr(base_section_cls, name, attr)

            section_to_add_properties_to = base_section
        else:
            for base_cls in cls.__bases__:
                if base_cls != MSection:
                    base_section = getattr(base_cls, 'm_def')
                    if base_section is None:
                        raise TypeError(
                            'Section defining classes must have MSection or a decendant as '
                            'base classes.')

                    base_sections = list(m_def.m_get(Section.base_sections))
                    base_sections.append(base_section)
                    m_def.m_set(Section.base_sections, base_sections)

            section_to_add_properties_to = m_def

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        constraints: Set[str] = set()
        event_handlers: Set[Callable] = set(m_def.event_handlers)
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        for name, attr in cls.__dict__.items():
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            # transfer names and descriptions for properties, init properties
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            if isinstance(attr, Property):
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                attr.name = name
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                if attr.description is not None:
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                    attr.description = inspect.cleandoc(attr.description).strip()
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                    attr.__doc__ = attr.description
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                if isinstance(attr, Quantity):
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                    section_to_add_properties_to.m_add_sub_section(Section.quantities, attr)
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                elif isinstance(attr, SubSection):
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                    section_to_add_properties_to.m_add_sub_section(Section.sub_sections, attr)
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                else:
                    raise NotImplementedError('Unknown property kind.')
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                attr.__init_property__()

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            if inspect.isfunction(attr):
                method_name = attr.__name__

                # transfer constraints
                if method_name.startswith('c_'):
                    constraint = method_name[2:]
                    constraints.add(constraint)

                # register event_handlers from event_handler methods
                if method_name.startswith('on_set') or method_name.startswith('on_add_sub_section'):
                    if attr not in event_handlers:
                        event_handlers.add(attr)

        # add handler and constraints from base sections
        for base_section in m_def.all_base_sections:
            for constraint in base_section.constraints:
                constraints.add(constraint)
            for event_handler in base_section.event_handlers:
                event_handlers.add(event_handler)
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        m_def.constraints = list(constraints)
        m_def.event_handlers = list(event_handlers)
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        # add section cls' section to the module's package
        module_name = cls.__module__
        pkg = Package.from_module(module_name)
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        pkg.m_add_sub_section(Package.section_definitions, cls.m_def)
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        # apply_google_docstrings
        # Parses the google doc string of the given class and properly updates the
        # definition descriptions.

        # This allows to document quantities and sub-sections with 'Args:' in the section
        # class. It will remove the 'Args' section from the section definition and will
        # set the respective pieces to the quantity and sub-section descriptions.
        docstring = cls.__doc__
        if docstring is not None:
            parsed_docstring = docstring_parser.parse(docstring)
            short = parsed_docstring.short_description
            dsc = parsed_docstring.long_description

            if short and dsc:
                description = '%s %s' % (short.strip(), dsc.strip())
            elif short:
                description = short.strip()
            elif dsc:
                description = dsc.strip()
            else:
                description = None

            if m_def.description is None:
                m_def.description = description

            for param in parsed_docstring.params:
                prop = m_def.all_properties.get(param.arg_name)
                if prop is not None:
                    if prop.description is None:
                        prop.description = param.description

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        # validate
        def validate(definition):
            errors = definition.m_all_validate()
            if len(errors) > 0:
                raise MetainfoError(
                    '%s. The section definition %s violates %d more constraints' %
                    (str(errors[0]).strip('.'), definition, len(errors) - 1))

        if extended_base_section is not None:
            validate(extended_base_section)
        validate(m_def)

    def __check_np(self, quantity_def: 'Quantity', value: np.ndarray) -> np.ndarray:
        # TODO this feels expensive, first check, then possible convert very often?
        # if quantity_ref.type != value.dtype:
        #     raise MetainfoError(
        #         'Quantity dtype %s and value dtype %s do not match.' %
        #         (quantity_ref.type, value.dtype))

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        return value

    def __set_normalize(self, quantity_def: 'Quantity', value: Any) -> Any:

        if isinstance(quantity_def.type, DataType):
            return quantity_def.type.set_normalize(self, quantity_def, value)

        elif isinstance(quantity_def.type, Section):
            if isinstance(value, MProxy):
                return value

            if not isinstance(value, MSection):
                raise TypeError(
                    'The value %s for reference quantity %s is not a section instance.' %
                    (value, quantity_def))

            if not value.m_follows(quantity_def.type):
                raise TypeError(
                    'The value %s for quantity %s does not follow %s' %
                    (value, quantity_def, quantity_def.type))

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        elif isinstance(quantity_def.type, MEnum):
            if value not in quantity_def.type._values:
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                raise TypeError(
                    'The value %s is not an enum value for quantity %s.' %
                    (value, quantity_def))

        elif quantity_def.type == Any:
            pass

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        elif quantity_def.type == str and type(value) == np.str_:
            return str(value)

        elif quantity_def.type == bool and type(value) == np.bool_:
            return bool(value)

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        else:
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            if value is not None and type(value) != quantity_def.type:
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                raise TypeError(
                    'The value %s with type %s for quantity %s is not of type %s' %
                    (value, type(value), quantity_def, quantity_def.type))

        return value

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    def __resolve_synonym(self, quantity_def: 'Quantity') -> 'Quantity':
        if quantity_def.synonym_for is not None:
            return self.m_def.all_quantities[quantity_def.synonym_for]
        return quantity_def
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    def __to_np(self, quantity_def: 'Quantity', value):
        if isinstance(value, pint.quantity._Quantity):
            if quantity_def.unit is None:
                raise MetainfoError(
                    'The quantity %s has not a unit, but value %s has.' %
                    (quantity_def, value))
            value = value.to(quantity_def.unit).magnitude

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        if len(quantity_def.shape) > 0 and type(value) != np.ndarray:
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            try:
                value = np.asarray(value)
            except TypeError:
                raise TypeError(
                    'Could not convert value %s of %s to a numpy array' %
                    (value, quantity_def))
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        elif type(value) != quantity_def.type.type:
            try:
                value = quantity_def.type.type(value)
            except TypeError:
                raise TypeError(
                    'Could not convert value %s of %s to a numpy scalar' %
                    (value, quantity_def))
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        return self.__check_np(quantity_def, value)

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    def m_set(self, quantity_def: 'Quantity', value: Any) -> None:
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        ''' Set the given value for the given quantity. '''
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        quantity_def = self.__resolve_synonym(quantity_def)
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        if quantity_def.derived is not None:
            raise MetainfoError('The quantity %s is derived and cannot be set.' % quantity_def)
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        if type(quantity_def.type) == np.dtype:
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            value = self.__to_np(quantity_def, value)
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        else:
            dimensions = len(quantity_def.shape)
            if dimensions == 0:
                value = self.__set_normalize(quantity_def, value)

            elif dimensions == 1:
                if type(value) == str or not isinstance(value, IterableABC):
                    raise TypeError(
                        'The shape of %s requires an iterable value, but %s is not iterable.' %
                        (quantity_def, value))

                value = list(self.__set_normalize(quantity_def, item) for item in value)

            else:
                raise MetainfoError(
                    'Only numpy arrays and dtypes can be used for higher dimensional '
                    'quantities.')

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        self.m_data.m_set(self, quantity_def, value)
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        for handler in self.m_def.event_handlers:
            if handler.__name__.startswith('on_set'):
                handler(self, quantity_def, value)

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    def m_get(self, quantity_def: 'Quantity') -> Any:
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        ''' Retrieve the given value for the given quantity. '''
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        quantity_def = self.__resolve_synonym(quantity_def)
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        if quantity_def.derived is not None:
            try:
                return quantity_def.derived(self)
            except Exception as e:
                raise DeriveError('Could not derive value for %s: %s' % (quantity_def, str(e)))

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        value = self.m_data.m_get(self, quantity_def)

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        if value is None:
            return value

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        if isinstance(quantity_def.type, DataType) and quantity_def.type.get_normalize != DataType.get_normalize:
            dimensions = len(quantity_def.shape)
            if dimensions == 0:
                value = quantity_def.type.get_normalize(self, quantity_def, value)

            elif dimensions == 1:
                value = list(
                    quantity_def.type.get_normalize(self, quantity_def, item)
                    for item in value)

            else:
                raise MetainfoError(
                    'Only numpy arrays and dtypes can be used for higher dimensional '
                    'quantities.')
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            if isinstance(quantity_def.type, Reference):
                # save the resolved values for the next access to avoid re-resolve
                self.m_data.m_set(self, quantity_def, value)

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        elif type(quantity_def.type) == np.dtype:
            if quantity_def.unit is not None:
                value = value * quantity_def.unit

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        return value
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    def m_is_set(self, quantity_def: 'Quantity') -> bool:
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        ''' True if the given quantity is set. '''
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        quantity_def = self.__resolve_synonym(quantity_def)
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        if quantity_def.derived is not None:
            return True

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        return self.m_data.m_is_set(self, quantity_def)
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    def m_add_values(self, quantity_def: 'Quantity', values: Any, offset: int) -> None:
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        ''' Add (partial) values for the given quantity of higher dimensionality. '''
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        self.m_data.m_add_values(self, quantity_def, values, offset)
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    def m_add_sub_section(self, sub_section_def: 'SubSection', sub_section: 'MSection') -> None:
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        ''' Adds the given section instance as a sub section of the given sub section definition. '''
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        parent_index = -1
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        if sub_section_def.repeats:
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            parent_index = self.m_sub_section_count(sub_section_def)
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        else:
            old_sub_section = self.m_data.m_get_sub_section(self, sub_section_def, -1)
            if old_sub_section is not None:
                old_sub_section.m_parent = None
                old_sub_section.m_parent_sub_section = None
                old_sub_section.m_parent_index = -1
                if self.m_resource is not None:
                    self.m_resource.remove(sub_section)

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        sub_section.m_parent = self
        sub_section.m_parent_sub_section = sub_section_def
        sub_section.m_parent_index = parent_index
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        if sub_section.m_resource is not None:
            sub_section.m_resource.remove(sub_section)
        if self.m_resource is not None:
            self.m_resource.add(sub_section)
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        self.m_data.m_add_sub_section(self, sub_section_def, sub_section)
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        for handler in self.m_def.event_handlers:
            if handler.__name__.startswith('on_add_sub_section'):
                handler(self, sub_section_def, sub_section)

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    def m_remove_sub_section(self, sub_section_def: 'SubSection', index: int) -> None:
        ''' Removes the exiting section for a non repeatable sub section '''
        self.m_data.m_remove_sub_section(self, sub_section_def, index)

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    def m_get_sub_section(self, sub_section_def: 'SubSection', index: int) -> 'MSection':
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        ''' Retrieves a single sub section of the given sub section definition. '''
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        return self.m_data.m_get_sub_section(self, sub_section_def, index)
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    def m_get_sub_sections(self, sub_section_def: 'SubSection') -> Iterable['MSection']:
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        ''' Retrieves  all sub sections of the given sub section definition. '''
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        return self.m_data.m_get_sub_sections(self, sub_section_def)
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    def m_sub_section_count(self, sub_section_def: 'SubSection') -> int:
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        ''' Returns the number of sub sections for the given sub section definition. '''
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        return self.m_data.m_sub_section_count(self, sub_section_def)
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    def m_create(
            self, section_cls: Type[MSectionBound], sub_section_def: 'SubSection' = None,
            **kwargs) -> MSectionBound:
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        ''' Creates a section instance and adds it to this section provided there is a
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        corresponding sub section.
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        Args:
            section_cls: The section class for the sub-secton to create
            sub_section_def: If there are multiple sub-sections for the given class,
                this must be used to explicitely state the sub-section definition.
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        '''
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        section_def = section_cls.m_def
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        sub_section_defs = self.m_def.all_sub_sections_by_section.get(section_def, [])
        n_sub_section_defs = len(sub_section_defs)
        if n_sub_section_defs == 0:
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            raise TypeError('There is no sub section to hold a %s in %s.' % (section_def, self.m_def))
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        if n_sub_section_defs > 1 and sub_section_def is None:
            raise MetainfoError(
                'There are multiple sub section to hold a %s in %s, '
                'but no sub-section was explicitely given.' % (section_def, self.m_def))

        if sub_section_def is not None and sub_section_def not in sub_section_defs:
            raise MetainfoError(
                'The given sub-section class %s does not match the given sub-section '
                'definition %s.' % (section_cls, sub_section_def))

        if sub_section_def is None:
            sub_section_def = sub_section_defs[0]

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        sub_section = section_cls(**kwargs)
        self.m_add_sub_section(sub_section_def, sub_section)
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        return cast(MSectionBound, sub_section)
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    def m_update(self, safe: bool = True, **kwargs):
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        ''' Updates all quantities and sub-sections with the given arguments. '''
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        if safe:
            for name, value in kwargs.items():
                prop = self.m_def.all_properties.get(name, None)
                if prop is None:
                    raise KeyError('%s is not an attribute of this section %s' % (name, self))

                if isinstance(prop, SubSection):
                    if prop.repeats:
                        if isinstance(value, List):
                            for item in value:
                                self.m_add_sub_section(prop, item)
                        else:
                            raise TypeError('Sub section %s repeats, but no list was given' % prop.name)
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                    else:
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                        self.m_add_sub_section(prop, item)

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                else:
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                    self.m_set(prop, value)
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        else:
            self.m_data.m_data.dct.update(**kwargs)  # type: ignore
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    def m_as(self, section_cls: Type[MSectionBound]) -> MSectionBound:
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        ''' 'Casts' this section to the given extending sections. '''
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        return cast(MSectionBound, self)

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    def m_follows(self, definition: 'Section') -> bool:
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        ''' Determines if this section's definition is or is derived from the given definition. '''
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        return self.m_def == definition or definition in self.m_def.all_base_sections
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    def m_to_dict(self, with_meta: bool = False, include_defaults: bool = False) -> Dict[str, Any]:
        '''
        Returns the data of this section as a json serializeable dictionary.

        Arguments:
            with_meta: Include information about the section definition and the sections
                position in its parent.
            include_defaults: Include default values of unset quantities.
        '''
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        def items() -> Iterable[Tuple[str, Any]]:
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            # metadata
            if with_meta:
                yield 'm_def', self.m_def.name
                if self.m_parent_index != -1:
                    yield 'm_parent_index', self.m_parent_index
                if self.m_parent_sub_section is not None:
                    yield 'm_parent_sub_section', self.m_parent_sub_section.name

            # quantities
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            for name, quantity in self.m_def.all_quantities.items():
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                if quantity.virtual: