django/core/serializers/base.py

"""
Module for abstract serializer/unserializer base classes.
"""
from io import StringIO

from django.db import models


class SerializerDoesNotExist(KeyError):
    """The requested serializer was not found."""
    pass


class SerializationError(Exception):
    """Something bad happened during serialization."""
    pass


class DeserializationError(Exception):
    """Something bad happened during deserialization."""

    @classmethod
    def WithData(cls, original_exc, model, fk, field_value):
        """
        Factory method for creating a deserialization error which has a more
        explanatory message.
        """
        return cls("%s: (%s:pk=%s) field_value was '%s'" % (original_exc, model, fk, field_value))


class M2MDeserializationError(Exception):
    """Something bad happened during deserialization of a ManyToManyField."""
    def __init__(self, original_exc, pk):
        self.original_exc = original_exc
        self.pk = pk


class ProgressBar:
    progress_width = 75

    def __init__(self, output, total_count):
        self.output = output
        self.total_count = total_count
        self.prev_done = 0

    def update(self, count):
        if not self.output:
            return
        perc = count * 100 // self.total_count
        done = perc * self.progress_width // 100
        if self.prev_done >= done:
            return
        self.prev_done = done
        cr = '' if self.total_count == 1 else '\r'
        self.output.write(cr + '[' + '.' * done + ' ' * (self.progress_width - done) + ']')
        if done == self.progress_width:
            self.output.write('\n')
        self.output.flush()


class Serializer:
    """
    Abstract serializer base class.
    """

    # Indicates if the implemented serializer is only available for
    # internal Django use.
    internal_use_only = False
    progress_class = ProgressBar
    stream_class = StringIO

    def serialize(self, queryset, *, stream=None, fields=None, use_natural_foreign_keys=False,
                  use_natural_primary_keys=False, progress_output=None, object_count=0, **options):
        """
        Serialize a queryset.
        """
        self.options = options

        self.stream = stream if stream is not None else self.stream_class()
        self.selected_fields = fields
        self.use_natural_foreign_keys = use_natural_foreign_keys
        self.use_natural_primary_keys = use_natural_primary_keys
        progress_bar = self.progress_class(progress_output, object_count)

        self.start_serialization()
        self.first = True
        for count, obj in enumerate(queryset, start=1):
            self.start_object(obj)
            # Use the concrete parent class' _meta instead of the object's _meta
            # This is to avoid local_fields problems for proxy models. Refs #17717.
            concrete_model = obj._meta.concrete_model
            # When using natural primary keys, retrieve the pk field of the
            # parent for multi-table inheritance child models. That field must
            # be serialized, otherwise deserialization isn't possible.
            if self.use_natural_primary_keys:
                pk = concrete_model._meta.pk
                pk_parent = pk if pk.remote_field and pk.remote_field.parent_link else None
            else:
                pk_parent = None
            for field in concrete_model._meta.local_fields:
                if field.serialize or field is pk_parent:
                    if field.remote_field is None:
                        if self.selected_fields is None or field.attname in self.selected_fields:
                            self.handle_field(obj, field)
                    else:
                        if self.selected_fields is None or field.attname[:-3] in self.selected_fields:
                            self.handle_fk_field(obj, field)
            for field in concrete_model._meta.many_to_many:
                if field.serialize:
                    if self.selected_fields is None or field.attname in self.selected_fields:
                        self.handle_m2m_field(obj, field)
            self.end_object(obj)
            progress_bar.update(count)
            self.first = self.first and False
        self.end_serialization()
        return self.getvalue()

    def start_serialization(self):
        """
        Called when serializing of the queryset starts.
        """
        raise NotImplementedError('subclasses of Serializer must provide a start_serialization() method')

    def end_serialization(self):
        """
        Called when serializing of the queryset ends.
        """
        pass

    def start_object(self, obj):
        """
        Called when serializing of an object starts.
        """
        raise NotImplementedError('subclasses of Serializer must provide a start_object() method')

    def end_object(self, obj):
        """
        Called when serializing of an object ends.
        """
        pass

    def handle_field(self, obj, field):
        """
        Called to handle each individual (non-relational) field on an object.
        """
        raise NotImplementedError('subclasses of Serializer must provide an handle_field() method')

    def handle_fk_field(self, obj, field):
        """
        Called to handle a ForeignKey field.
        """
        raise NotImplementedError('subclasses of Serializer must provide an handle_fk_field() method')

    def handle_m2m_field(self, obj, field):
        """
        Called to handle a ManyToManyField.
        """
        raise NotImplementedError('subclasses of Serializer must provide an handle_m2m_field() method')

    def getvalue(self):
        """
        Return the fully serialized queryset (or None if the output stream is
        not seekable).
        """
        if callable(getattr(self.stream, 'getvalue', None)):
            return self.stream.getvalue()


class Deserializer:
    """
    Abstract base deserializer class.
    """

    def __init__(self, stream_or_string, **options):
        """
        Init this serializer given a stream or a string
        """
        self.options = options
        if isinstance(stream_or_string, str):
            self.stream = StringIO(stream_or_string)
        else:
            self.stream = stream_or_string

    def __iter__(self):
        return self

    def __next__(self):
        """Iteration interface -- return the next item in the stream"""
        raise NotImplementedError('subclasses of Deserializer must provide a __next__() method')


class DeserializedObject:
    """
    A deserialized model.

    Basically a container for holding the pre-saved deserialized data along
    with the many-to-many data saved with the object.

    Call ``save()`` to save the object (with the many-to-many data) to the
    database; call ``save(save_m2m=False)`` to save just the object fields
    (and not touch the many-to-many stuff.)
    """

    def __init__(self, obj, m2m_data=None):
        self.object = obj
        self.m2m_data = m2m_data

    def __repr__(self):
        return "<%s: %s(pk=%s)>" % (
            self.__class__.__name__,
            self.object._meta.label,
            self.object.pk,
        )

    def save(self, save_m2m=True, using=None, **kwargs):
        # Call save on the Model baseclass directly. This bypasses any
        # model-defined save. The save is also forced to be raw.
        # raw=True is passed to any pre/post_save signals.
        models.Model.save_base(self.object, using=using, raw=True, **kwargs)
        if self.m2m_data and save_m2m:
            for accessor_name, object_list in self.m2m_data.items():
                getattr(self.object, accessor_name).set(object_list)

        # prevent a second (possibly accidental) call to save() from saving
        # the m2m data twice.
        self.m2m_data = None


def build_instance(Model, data, db):
    """
    Build a model instance.

    If the model instance doesn't have a primary key and the model supports
    natural keys, try to retrieve it from the database.
    """
    obj = Model(**data)
    if (obj.pk is None and hasattr(Model, 'natural_key') and
            hasattr(Model._default_manager, 'get_by_natural_key')):
        natural_key = obj.natural_key()
        try:
            obj.pk = Model._default_manager.db_manager(db).get_by_natural_key(*natural_key).pk
        except Model.DoesNotExist:
            pass
    return obj


def deserialize_m2m_values(field, field_value, using):
    model = field.remote_field.model
    if hasattr(model._default_manager, 'get_by_natural_key'):
        def m2m_convert(value):
            if hasattr(value, '__iter__') and not isinstance(value, str):
                return model._default_manager.db_manager(using).get_by_natural_key(*value).pk
            else:
                return model._meta.pk.to_python(value)
    else:
        def m2m_convert(v):
            return model._meta.pk.to_python(v)

    try:
        values = []
        for pk in field_value:
            values.append(m2m_convert(pk))
        return values
    except Exception as e:
        raise M2MDeserializationError(e, pk)


def deserialize_fk_value(field, field_value, using):
    if field_value is None:
        return None
    model = field.remote_field.model
    default_manager = model._default_manager
    field_name = field.remote_field.field_name
    if (hasattr(default_manager, 'get_by_natural_key') and
            hasattr(field_value, '__iter__') and not isinstance(field_value, str)):
        obj = default_manager.db_manager(using).get_by_natural_key(*field_value)
        value = getattr(obj, field_name)
        # If this is a natural foreign key to an object that has a FK/O2O as
        # the foreign key, use the FK value.
        if model._meta.pk.remote_field:
            value = value.pk
        return value
    return model._meta.get_field(field_name).to_python(field_value)
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