403Webshell
Server IP : 66.29.132.122  /  Your IP : 3.144.172.9
Web Server : LiteSpeed
System : Linux business142.web-hosting.com 4.18.0-553.lve.el8.x86_64 #1 SMP Mon May 27 15:27:34 UTC 2024 x86_64
User : admazpex ( 531)
PHP Version : 7.2.34
Disable Function : NONE
MySQL : OFF  |  cURL : ON  |  WGET : ON  |  Perl : ON  |  Python : ON  |  Sudo : OFF  |  Pkexec : OFF
Directory :  /proc/self/root/proc/self/root/proc/thread-self/root/proc/thread-self/root/opt/cloudlinux/venv/lib64/python3.11/site-packages/sqlalchemy/orm/

Upload File :
current_dir [ Writeable ] document_root [ Writeable ]

 

Command :


[ Back ]     

Current File : /proc/self/root/proc/self/root/proc/thread-self/root/proc/thread-self/root/opt/cloudlinux/venv/lib64/python3.11/site-packages/sqlalchemy/orm/descriptor_props.py
# orm/descriptor_props.py
# Copyright (C) 2005-2021 the SQLAlchemy authors and contributors
# <see AUTHORS file>
#
# This module is part of SQLAlchemy and is released under
# the MIT License: http://www.opensource.org/licenses/mit-license.php

"""Descriptor properties are more "auxiliary" properties
that exist as configurational elements, but don't participate
as actively in the load/persist ORM loop.

"""

from . import attributes
from . import properties
from . import query
from .interfaces import MapperProperty
from .interfaces import PropComparator
from .util import _none_set
from .. import event
from .. import exc as sa_exc
from .. import schema
from .. import sql
from .. import util
from ..sql import expression


class DescriptorProperty(MapperProperty):
    """:class:`.MapperProperty` which proxies access to a
    user-defined descriptor."""

    doc = None

    uses_objects = False

    def instrument_class(self, mapper):
        prop = self

        class _ProxyImpl(object):
            accepts_scalar_loader = False
            expire_missing = True
            collection = False

            @property
            def uses_objects(self):
                return prop.uses_objects

            def __init__(self, key):
                self.key = key

            if hasattr(prop, "get_history"):

                def get_history(
                    self, state, dict_, passive=attributes.PASSIVE_OFF
                ):
                    return prop.get_history(state, dict_, passive)

        if self.descriptor is None:
            desc = getattr(mapper.class_, self.key, None)
            if mapper._is_userland_descriptor(desc):
                self.descriptor = desc

        if self.descriptor is None:

            def fset(obj, value):
                setattr(obj, self.name, value)

            def fdel(obj):
                delattr(obj, self.name)

            def fget(obj):
                return getattr(obj, self.name)

            self.descriptor = property(fget=fget, fset=fset, fdel=fdel)

        proxy_attr = attributes.create_proxied_attribute(self.descriptor)(
            self.parent.class_,
            self.key,
            self.descriptor,
            lambda: self._comparator_factory(mapper),
            doc=self.doc,
            original_property=self,
        )
        proxy_attr.impl = _ProxyImpl(self.key)
        mapper.class_manager.instrument_attribute(self.key, proxy_attr)


@util.langhelpers.dependency_for("sqlalchemy.orm.properties", add_to_all=True)
class CompositeProperty(DescriptorProperty):
    """Defines a "composite" mapped attribute, representing a collection
    of columns as one attribute.

    :class:`.CompositeProperty` is constructed using the :func:`.composite`
    function.

    .. seealso::

        :ref:`mapper_composite`

    """

    @util.deprecated_params(
        extension=(
            "0.7",
            ":class:`.AttributeExtension` is deprecated in favor of the "
            ":class:`.AttributeEvents` listener interface.  The "
            ":paramref:`.composite.extension` parameter will be "
            "removed in a future release.",
        )
    )
    def __init__(self, class_, *attrs, **kwargs):
        r"""Return a composite column-based property for use with a Mapper.

        See the mapping documentation section :ref:`mapper_composite` for a
        full usage example.

        The :class:`.MapperProperty` returned by :func:`.composite`
        is the :class:`.CompositeProperty`.

        :param class\_:
          The "composite type" class, or any classmethod or callable which
          will produce a new instance of the composite object given the
          column values in order.

        :param \*cols:
          List of Column objects to be mapped.

        :param active_history=False:
          When ``True``, indicates that the "previous" value for a
          scalar attribute should be loaded when replaced, if not
          already loaded.  See the same flag on :func:`.column_property`.

        :param group:
          A group name for this property when marked as deferred.

        :param deferred:
          When True, the column property is "deferred", meaning that it does
          not load immediately, and is instead loaded when the attribute is
          first accessed on an instance.  See also
          :func:`~sqlalchemy.orm.deferred`.

        :param comparator_factory:  a class which extends
          :class:`.CompositeProperty.Comparator` which provides custom SQL
          clause generation for comparison operations.

        :param doc:
          optional string that will be applied as the doc on the
          class-bound descriptor.

        :param info: Optional data dictionary which will be populated into the
            :attr:`.MapperProperty.info` attribute of this object.

        :param extension:
          an :class:`.AttributeExtension` instance,
          or list of extensions, which will be prepended to the list of
          attribute listeners for the resulting descriptor placed on the
          class.

        """
        super(CompositeProperty, self).__init__()

        self.attrs = attrs
        self.composite_class = class_
        self.active_history = kwargs.get("active_history", False)
        self.deferred = kwargs.get("deferred", False)
        self.group = kwargs.get("group", None)
        self.comparator_factory = kwargs.pop(
            "comparator_factory", self.__class__.Comparator
        )
        if "info" in kwargs:
            self.info = kwargs.pop("info")

        util.set_creation_order(self)
        self._create_descriptor()

    def instrument_class(self, mapper):
        super(CompositeProperty, self).instrument_class(mapper)
        self._setup_event_handlers()

    def do_init(self):
        """Initialization which occurs after the :class:`.CompositeProperty`
        has been associated with its parent mapper.

        """
        self._setup_arguments_on_columns()

    _COMPOSITE_FGET = object()

    def _create_descriptor(self):
        """Create the Python descriptor that will serve as
        the access point on instances of the mapped class.

        """

        def fget(instance):
            dict_ = attributes.instance_dict(instance)
            state = attributes.instance_state(instance)

            if self.key not in dict_:
                # key not present.  Iterate through related
                # attributes, retrieve their values.  This
                # ensures they all load.
                values = [
                    getattr(instance, key) for key in self._attribute_keys
                ]

                # current expected behavior here is that the composite is
                # created on access if the object is persistent or if
                # col attributes have non-None.  This would be better
                # if the composite were created unconditionally,
                # but that would be a behavioral change.
                if self.key not in dict_ and (
                    state.key is not None or not _none_set.issuperset(values)
                ):
                    dict_[self.key] = self.composite_class(*values)
                    state.manager.dispatch.refresh(
                        state, self._COMPOSITE_FGET, [self.key]
                    )

            return dict_.get(self.key, None)

        def fset(instance, value):
            dict_ = attributes.instance_dict(instance)
            state = attributes.instance_state(instance)
            attr = state.manager[self.key]
            previous = dict_.get(self.key, attributes.NO_VALUE)
            for fn in attr.dispatch.set:
                value = fn(state, value, previous, attr.impl)
            dict_[self.key] = value
            if value is None:
                for key in self._attribute_keys:
                    setattr(instance, key, None)
            else:
                for key, value in zip(
                    self._attribute_keys, value.__composite_values__()
                ):
                    setattr(instance, key, value)

        def fdel(instance):
            state = attributes.instance_state(instance)
            dict_ = attributes.instance_dict(instance)
            previous = dict_.pop(self.key, attributes.NO_VALUE)
            attr = state.manager[self.key]
            attr.dispatch.remove(state, previous, attr.impl)
            for key in self._attribute_keys:
                setattr(instance, key, None)

        self.descriptor = property(fget, fset, fdel)

    @util.memoized_property
    def _comparable_elements(self):
        return [getattr(self.parent.class_, prop.key) for prop in self.props]

    @util.memoized_property
    def props(self):
        props = []
        for attr in self.attrs:
            if isinstance(attr, str):
                prop = self.parent.get_property(attr, _configure_mappers=False)
            elif isinstance(attr, schema.Column):
                prop = self.parent._columntoproperty[attr]
            elif isinstance(attr, attributes.InstrumentedAttribute):
                prop = attr.property
            else:
                raise sa_exc.ArgumentError(
                    "Composite expects Column objects or mapped "
                    "attributes/attribute names as arguments, got: %r"
                    % (attr,)
                )
            props.append(prop)
        return props

    @property
    def columns(self):
        return [a for a in self.attrs if isinstance(a, schema.Column)]

    def _setup_arguments_on_columns(self):
        """Propagate configuration arguments made on this composite
        to the target columns, for those that apply.

        """
        for prop in self.props:
            prop.active_history = self.active_history
            if self.deferred:
                prop.deferred = self.deferred
                prop.strategy_key = (("deferred", True), ("instrument", True))
            prop.group = self.group

    def _setup_event_handlers(self):
        """Establish events that populate/expire the composite attribute."""

        def load_handler(state, context):
            _load_refresh_handler(state, context, None, is_refresh=False)

        def refresh_handler(state, context, to_load):
            # note this corresponds to sqlalchemy.ext.mutable load_attrs()

            if not to_load or (
                {self.key}.union(self._attribute_keys)
            ).intersection(to_load):
                _load_refresh_handler(state, context, to_load, is_refresh=True)

        def _load_refresh_handler(state, context, to_load, is_refresh):
            dict_ = state.dict

            # if context indicates we are coming from the
            # fget() handler, this already set the value; skip the
            # handler here. (other handlers like mutablecomposite will still
            # want to catch it)
            # there's an insufficiency here in that the fget() handler
            # really should not be using the refresh event and there should
            # be some other event that mutablecomposite can subscribe
            # towards for this.

            if (
                not is_refresh or context is self._COMPOSITE_FGET
            ) and self.key in dict_:
                return

            # if column elements aren't loaded, skip.
            # __get__() will initiate a load for those
            # columns
            for k in self._attribute_keys:
                if k not in dict_:
                    return

            dict_[self.key] = self.composite_class(
                *[state.dict[key] for key in self._attribute_keys]
            )

        def expire_handler(state, keys):
            if keys is None or set(self._attribute_keys).intersection(keys):
                state.dict.pop(self.key, None)

        def insert_update_handler(mapper, connection, state):
            """After an insert or update, some columns may be expired due
            to server side defaults, or re-populated due to client side
            defaults.  Pop out the composite value here so that it
            recreates.

            """

            state.dict.pop(self.key, None)

        event.listen(
            self.parent, "after_insert", insert_update_handler, raw=True
        )
        event.listen(
            self.parent, "after_update", insert_update_handler, raw=True
        )
        event.listen(
            self.parent, "load", load_handler, raw=True, propagate=True
        )
        event.listen(
            self.parent, "refresh", refresh_handler, raw=True, propagate=True
        )
        event.listen(
            self.parent, "expire", expire_handler, raw=True, propagate=True
        )

        # TODO: need a deserialize hook here

    @util.memoized_property
    def _attribute_keys(self):
        return [prop.key for prop in self.props]

    def get_history(self, state, dict_, passive=attributes.PASSIVE_OFF):
        """Provided for userland code that uses attributes.get_history()."""

        added = []
        deleted = []

        has_history = False
        for prop in self.props:
            key = prop.key
            hist = state.manager[key].impl.get_history(state, dict_)
            if hist.has_changes():
                has_history = True

            non_deleted = hist.non_deleted()
            if non_deleted:
                added.extend(non_deleted)
            else:
                added.append(None)
            if hist.deleted:
                deleted.extend(hist.deleted)
            else:
                deleted.append(None)

        if has_history:
            return attributes.History(
                [self.composite_class(*added)],
                (),
                [self.composite_class(*deleted)],
            )
        else:
            return attributes.History((), [self.composite_class(*added)], ())

    def _comparator_factory(self, mapper):
        return self.comparator_factory(self, mapper)

    class CompositeBundle(query.Bundle):
        def __init__(self, property_, expr):
            self.property = property_
            super(CompositeProperty.CompositeBundle, self).__init__(
                property_.key, *expr
            )

        def create_row_processor(self, query, procs, labels):
            def proc(row):
                return self.property.composite_class(
                    *[proc(row) for proc in procs]
                )

            return proc

    class Comparator(PropComparator):
        """Produce boolean, comparison, and other operators for
        :class:`.CompositeProperty` attributes.

        See the example in :ref:`composite_operations` for an overview
        of usage , as well as the documentation for :class:`.PropComparator`.

        .. seealso::

            :class:`.PropComparator`

            :class:`.ColumnOperators`

            :ref:`types_operators`

            :attr:`.TypeEngine.comparator_factory`

        """

        __hash__ = None

        @property
        def clauses(self):
            return self.__clause_element__()

        def __clause_element__(self):
            return expression.ClauseList(
                group=False, *self._comparable_elements
            )

        def _query_clause_element(self):
            return CompositeProperty.CompositeBundle(
                self.prop, self.__clause_element__()
            )

        def _bulk_update_tuples(self, value):
            if value is None:
                values = [None for key in self.prop._attribute_keys]
            elif isinstance(value, self.prop.composite_class):
                values = value.__composite_values__()
            else:
                raise sa_exc.ArgumentError(
                    "Can't UPDATE composite attribute %s to %r"
                    % (self.prop, value)
                )

            return zip(self._comparable_elements, values)

        @util.memoized_property
        def _comparable_elements(self):
            if self._adapt_to_entity:
                return [
                    getattr(self._adapt_to_entity.entity, prop.key)
                    for prop in self.prop._comparable_elements
                ]
            else:
                return self.prop._comparable_elements

        def __eq__(self, other):
            if other is None:
                values = [None] * len(self.prop._comparable_elements)
            else:
                values = other.__composite_values__()
            comparisons = [
                a == b for a, b in zip(self.prop._comparable_elements, values)
            ]
            if self._adapt_to_entity:
                comparisons = [self.adapter(x) for x in comparisons]
            return sql.and_(*comparisons)

        def __ne__(self, other):
            return sql.not_(self.__eq__(other))

    def __str__(self):
        return str(self.parent.class_.__name__) + "." + self.key


@util.langhelpers.dependency_for("sqlalchemy.orm.properties", add_to_all=True)
class ConcreteInheritedProperty(DescriptorProperty):
    """A 'do nothing' :class:`.MapperProperty` that disables
    an attribute on a concrete subclass that is only present
    on the inherited mapper, not the concrete classes' mapper.

    Cases where this occurs include:

    * When the superclass mapper is mapped against a
      "polymorphic union", which includes all attributes from
      all subclasses.
    * When a relationship() is configured on an inherited mapper,
      but not on the subclass mapper.  Concrete mappers require
      that relationship() is configured explicitly on each
      subclass.

    """

    def _comparator_factory(self, mapper):
        comparator_callable = None

        for m in self.parent.iterate_to_root():
            p = m._props[self.key]
            if not isinstance(p, ConcreteInheritedProperty):
                comparator_callable = p.comparator_factory
                break
        return comparator_callable

    def __init__(self):
        super(ConcreteInheritedProperty, self).__init__()

        def warn():
            raise AttributeError(
                "Concrete %s does not implement "
                "attribute %r at the instance level.  Add "
                "this property explicitly to %s."
                % (self.parent, self.key, self.parent)
            )

        class NoninheritedConcreteProp(object):
            def __set__(s, obj, value):
                warn()

            def __delete__(s, obj):
                warn()

            def __get__(s, obj, owner):
                if obj is None:
                    return self.descriptor
                warn()

        self.descriptor = NoninheritedConcreteProp()


@util.langhelpers.dependency_for("sqlalchemy.orm.properties", add_to_all=True)
class SynonymProperty(DescriptorProperty):
    def __init__(
        self,
        name,
        map_column=None,
        descriptor=None,
        comparator_factory=None,
        doc=None,
        info=None,
    ):
        """Denote an attribute name as a synonym to a mapped property,
        in that the attribute will mirror the value and expression behavior
        of another attribute.

        e.g.::

            class MyClass(Base):
                __tablename__ = 'my_table'

                id = Column(Integer, primary_key=True)
                job_status = Column(String(50))

                status = synonym("job_status")


        :param name: the name of the existing mapped property.  This
          can refer to the string name ORM-mapped attribute
          configured on the class, including column-bound attributes
          and relationships.

        :param descriptor: a Python :term:`descriptor` that will be used
          as a getter (and potentially a setter) when this attribute is
          accessed at the instance level.

        :param map_column: **For classical mappings and mappings against
          an existing Table object only**.  if ``True``, the :func:`.synonym`
          construct will locate the :class:`_schema.Column`
          object upon the mapped
          table that would normally be associated with the attribute name of
          this synonym, and produce a new :class:`.ColumnProperty` that instead
          maps this :class:`_schema.Column`
          to the alternate name given as the "name"
          argument of the synonym; in this way, the usual step of redefining
          the mapping of the :class:`_schema.Column`
          to be under a different name is
          unnecessary. This is usually intended to be used when a
          :class:`_schema.Column`
          is to be replaced with an attribute that also uses a
          descriptor, that is, in conjunction with the
          :paramref:`.synonym.descriptor` parameter::

            my_table = Table(
                "my_table", metadata,
                Column('id', Integer, primary_key=True),
                Column('job_status', String(50))
            )

            class MyClass(object):
                @property
                def _job_status_descriptor(self):
                    return "Status: %s" % self._job_status


            mapper(
                MyClass, my_table, properties={
                    "job_status": synonym(
                        "_job_status", map_column=True,
                        descriptor=MyClass._job_status_descriptor)
                }
            )

          Above, the attribute named ``_job_status`` is automatically
          mapped to the ``job_status`` column::

            >>> j1 = MyClass()
            >>> j1._job_status = "employed"
            >>> j1.job_status
            Status: employed

          When using Declarative, in order to provide a descriptor in
          conjunction with a synonym, use the
          :func:`sqlalchemy.ext.declarative.synonym_for` helper.  However,
          note that the :ref:`hybrid properties <mapper_hybrids>` feature
          should usually be preferred, particularly when redefining attribute
          behavior.

        :param info: Optional data dictionary which will be populated into the
            :attr:`.InspectionAttr.info` attribute of this object.

            .. versionadded:: 1.0.0

        :param comparator_factory: A subclass of :class:`.PropComparator`
          that will provide custom comparison behavior at the SQL expression
          level.

          .. note::

            For the use case of providing an attribute which redefines both
            Python-level and SQL-expression level behavior of an attribute,
            please refer to the Hybrid attribute introduced at
            :ref:`mapper_hybrids` for a more effective technique.

        .. seealso::

            :ref:`synonyms` - Overview of synonyms

            :func:`.synonym_for` - a helper oriented towards Declarative

            :ref:`mapper_hybrids` - The Hybrid Attribute extension provides an
            updated approach to augmenting attribute behavior more flexibly
            than can be achieved with synonyms.

        """
        super(SynonymProperty, self).__init__()

        self.name = name
        self.map_column = map_column
        self.descriptor = descriptor
        self.comparator_factory = comparator_factory
        self.doc = doc or (descriptor and descriptor.__doc__) or None
        if info:
            self.info = info

        util.set_creation_order(self)

    @property
    def uses_objects(self):
        return getattr(self.parent.class_, self.name).impl.uses_objects

    # TODO: when initialized, check _proxied_property,
    # emit a warning if its not a column-based property

    @util.memoized_property
    def _proxied_property(self):
        attr = getattr(self.parent.class_, self.name)
        if not hasattr(attr, "property") or not isinstance(
            attr.property, MapperProperty
        ):
            raise sa_exc.InvalidRequestError(
                """synonym() attribute "%s.%s" only supports """
                """ORM mapped attributes, got %r"""
                % (self.parent.class_.__name__, self.name, attr)
            )
        return attr.property

    def _comparator_factory(self, mapper):
        prop = self._proxied_property

        if self.comparator_factory:
            comp = self.comparator_factory(prop, mapper)
        else:
            comp = prop.comparator_factory(prop, mapper)
        return comp

    def get_history(self, *arg, **kw):
        attr = getattr(self.parent.class_, self.name)
        return attr.impl.get_history(*arg, **kw)

    def set_parent(self, parent, init):
        if self.map_column:
            # implement the 'map_column' option.
            if self.key not in parent.persist_selectable.c:
                raise sa_exc.ArgumentError(
                    "Can't compile synonym '%s': no column on table "
                    "'%s' named '%s'"
                    % (
                        self.name,
                        parent.persist_selectable.description,
                        self.key,
                    )
                )
            elif (
                parent.persist_selectable.c[self.key]
                in parent._columntoproperty
                and parent._columntoproperty[
                    parent.persist_selectable.c[self.key]
                ].key
                == self.name
            ):
                raise sa_exc.ArgumentError(
                    "Can't call map_column=True for synonym %r=%r, "
                    "a ColumnProperty already exists keyed to the name "
                    "%r for column %r"
                    % (self.key, self.name, self.name, self.key)
                )
            p = properties.ColumnProperty(
                parent.persist_selectable.c[self.key]
            )
            parent._configure_property(self.name, p, init=init, setparent=True)
            p._mapped_by_synonym = self.key

        self.parent = parent


@util.langhelpers.dependency_for("sqlalchemy.orm.properties", add_to_all=True)
@util.deprecated_cls(
    "0.7",
    ":func:`.comparable_property` is deprecated and will be removed in a "
    "future release.  Please refer to the :mod:`~sqlalchemy.ext.hybrid` "
    "extension.",
)
class ComparableProperty(DescriptorProperty):
    """Instruments a Python property for use in query expressions."""

    def __init__(
        self, comparator_factory, descriptor=None, doc=None, info=None
    ):
        """Provides a method of applying a :class:`.PropComparator`
        to any Python descriptor attribute.


        Allows any Python descriptor to behave like a SQL-enabled
        attribute when used at the class level in queries, allowing
        redefinition of expression operator behavior.

        In the example below we redefine :meth:`.PropComparator.operate`
        to wrap both sides of an expression in ``func.lower()`` to produce
        case-insensitive comparison::

            from sqlalchemy.orm import comparable_property
            from sqlalchemy.orm.interfaces import PropComparator
            from sqlalchemy.sql import func
            from sqlalchemy import Integer, String, Column
            from sqlalchemy.ext.declarative import declarative_base

            class CaseInsensitiveComparator(PropComparator):
                def __clause_element__(self):
                    return self.prop

                def operate(self, op, other):
                    return op(
                        func.lower(self.__clause_element__()),
                        func.lower(other)
                    )

            Base = declarative_base()

            class SearchWord(Base):
                __tablename__ = 'search_word'
                id = Column(Integer, primary_key=True)
                word = Column(String)
                word_insensitive = comparable_property(lambda prop, mapper:
                                CaseInsensitiveComparator(
                                    mapper.c.word, mapper)
                            )


        A mapping like the above allows the ``word_insensitive`` attribute
        to render an expression like::

            >>> print(SearchWord.word_insensitive == "Trucks")
            lower(search_word.word) = lower(:lower_1)

        :param comparator_factory:
          A PropComparator subclass or factory that defines operator behavior
          for this property.

        :param descriptor:
          Optional when used in a ``properties={}`` declaration.  The Python
          descriptor or property to layer comparison behavior on top of.

          The like-named descriptor will be automatically retrieved from the
          mapped class if left blank in a ``properties`` declaration.

        :param info: Optional data dictionary which will be populated into the
            :attr:`.InspectionAttr.info` attribute of this object.

            .. versionadded:: 1.0.0

        """
        super(ComparableProperty, self).__init__()
        self.descriptor = descriptor
        self.comparator_factory = comparator_factory
        self.doc = doc or (descriptor and descriptor.__doc__) or None
        if info:
            self.info = info
        util.set_creation_order(self)

    def _comparator_factory(self, mapper):
        return self.comparator_factory(self, mapper)

Youez - 2016 - github.com/yon3zu
LinuXploit