Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

403WebShell
403Webshell
Server IP : 66.29.132.124  /  Your IP : 3.146.206.87
Web Server : LiteSpeed
System : Linux business141.web-hosting.com 4.18.0-553.lve.el8.x86_64 #1 SMP Mon May 27 15:27:34 UTC 2024 x86_64
User : wavevlvu ( 1524)
PHP Version : 7.4.33
Disable Function : NONE
MySQL : OFF  |  cURL : ON  |  WGET : ON  |  Perl : ON  |  Python : ON  |  Sudo : OFF  |  Pkexec : OFF
Directory :  /opt/hc_python/lib64/python3.8/site-packages/sqlalchemy/ext/

Upload File :
current_dir [ Writeable ] document_root [ Writeable ]

 

Command :


[ Back ]     

Current File : /opt/hc_python/lib64/python3.8/site-packages/sqlalchemy/ext//indexable.py
# ext/indexable.py
# Copyright (C) 2005-2024 the SQLAlchemy authors and contributors
# <see AUTHORS file>
#
# This module is part of SQLAlchemy and is released under
# the MIT License: https://www.opensource.org/licenses/mit-license.php
# mypy: ignore-errors

"""Define attributes on ORM-mapped classes that have "index" attributes for
columns with :class:`_types.Indexable` types.

"index" means the attribute is associated with an element of an
:class:`_types.Indexable` column with the predefined index to access it.
The :class:`_types.Indexable` types include types such as
:class:`_types.ARRAY`, :class:`_types.JSON` and
:class:`_postgresql.HSTORE`.



The :mod:`~sqlalchemy.ext.indexable` extension provides
:class:`_schema.Column`-like interface for any element of an
:class:`_types.Indexable` typed column. In simple cases, it can be
treated as a :class:`_schema.Column` - mapped attribute.

Synopsis
========

Given ``Person`` as a model with a primary key and JSON data field.
While this field may have any number of elements encoded within it,
we would like to refer to the element called ``name`` individually
as a dedicated attribute which behaves like a standalone column::

    from sqlalchemy import Column, JSON, Integer
    from sqlalchemy.ext.declarative import declarative_base
    from sqlalchemy.ext.indexable import index_property

    Base = declarative_base()

    class Person(Base):
        __tablename__ = 'person'

        id = Column(Integer, primary_key=True)
        data = Column(JSON)

        name = index_property('data', 'name')


Above, the ``name`` attribute now behaves like a mapped column.   We
can compose a new ``Person`` and set the value of ``name``::

    >>> person = Person(name='Alchemist')

The value is now accessible::

    >>> person.name
    'Alchemist'

Behind the scenes, the JSON field was initialized to a new blank dictionary
and the field was set::

    >>> person.data
    {"name": "Alchemist'}

The field is mutable in place::

    >>> person.name = 'Renamed'
    >>> person.name
    'Renamed'
    >>> person.data
    {'name': 'Renamed'}

When using :class:`.index_property`, the change that we make to the indexable
structure is also automatically tracked as history; we no longer need
to use :class:`~.mutable.MutableDict` in order to track this change
for the unit of work.

Deletions work normally as well::

    >>> del person.name
    >>> person.data
    {}

Above, deletion of ``person.name`` deletes the value from the dictionary,
but not the dictionary itself.

A missing key will produce ``AttributeError``::

    >>> person = Person()
    >>> person.name
    ...
    AttributeError: 'name'

Unless you set a default value::

    >>> class Person(Base):
    >>>     __tablename__ = 'person'
    >>>
    >>>     id = Column(Integer, primary_key=True)
    >>>     data = Column(JSON)
    >>>
    >>>     name = index_property('data', 'name', default=None)  # See default

    >>> person = Person()
    >>> print(person.name)
    None


The attributes are also accessible at the class level.
Below, we illustrate ``Person.name`` used to generate
an indexed SQL criteria::

    >>> from sqlalchemy.orm import Session
    >>> session = Session()
    >>> query = session.query(Person).filter(Person.name == 'Alchemist')

The above query is equivalent to::

    >>> query = session.query(Person).filter(Person.data['name'] == 'Alchemist')

Multiple :class:`.index_property` objects can be chained to produce
multiple levels of indexing::

    from sqlalchemy import Column, JSON, Integer
    from sqlalchemy.ext.declarative import declarative_base
    from sqlalchemy.ext.indexable import index_property

    Base = declarative_base()

    class Person(Base):
        __tablename__ = 'person'

        id = Column(Integer, primary_key=True)
        data = Column(JSON)

        birthday = index_property('data', 'birthday')
        year = index_property('birthday', 'year')
        month = index_property('birthday', 'month')
        day = index_property('birthday', 'day')

Above, a query such as::

    q = session.query(Person).filter(Person.year == '1980')

On a PostgreSQL backend, the above query will render as::

    SELECT person.id, person.data
    FROM person
    WHERE person.data -> %(data_1)s -> %(param_1)s = %(param_2)s

Default Values
==============

:class:`.index_property` includes special behaviors for when the indexed
data structure does not exist, and a set operation is called:

* For an :class:`.index_property` that is given an integer index value,
  the default data structure will be a Python list of ``None`` values,
  at least as long as the index value; the value is then set at its
  place in the list.  This means for an index value of zero, the list
  will be initialized to ``[None]`` before setting the given value,
  and for an index value of five, the list will be initialized to
  ``[None, None, None, None, None]`` before setting the fifth element
  to the given value.   Note that an existing list is **not** extended
  in place to receive a value.

* for an :class:`.index_property` that is given any other kind of index
  value (e.g. strings usually), a Python dictionary is used as the
  default data structure.

* The default data structure can be set to any Python callable using the
  :paramref:`.index_property.datatype` parameter, overriding the previous
  rules.


Subclassing
===========

:class:`.index_property` can be subclassed, in particular for the common
use case of providing coercion of values or SQL expressions as they are
accessed.  Below is a common recipe for use with a PostgreSQL JSON type,
where we want to also include automatic casting plus ``astext()``::

    class pg_json_property(index_property):
        def __init__(self, attr_name, index, cast_type):
            super(pg_json_property, self).__init__(attr_name, index)
            self.cast_type = cast_type

        def expr(self, model):
            expr = super(pg_json_property, self).expr(model)
            return expr.astext.cast(self.cast_type)

The above subclass can be used with the PostgreSQL-specific
version of :class:`_postgresql.JSON`::

    from sqlalchemy import Column, Integer
    from sqlalchemy.ext.declarative import declarative_base
    from sqlalchemy.dialects.postgresql import JSON

    Base = declarative_base()

    class Person(Base):
        __tablename__ = 'person'

        id = Column(Integer, primary_key=True)
        data = Column(JSON)

        age = pg_json_property('data', 'age', Integer)

The ``age`` attribute at the instance level works as before; however
when rendering SQL, PostgreSQL's ``->>`` operator will be used
for indexed access, instead of the usual index operator of ``->``::

    >>> query = session.query(Person).filter(Person.age < 20)

The above query will render::

    SELECT person.id, person.data
    FROM person
    WHERE CAST(person.data ->> %(data_1)s AS INTEGER) < %(param_1)s

"""  # noqa
from .. import inspect
from ..ext.hybrid import hybrid_property
from ..orm.attributes import flag_modified


__all__ = ["index_property"]


class index_property(hybrid_property):  # noqa
    """A property generator. The generated property describes an object
    attribute that corresponds to an :class:`_types.Indexable`
    column.

    .. seealso::

        :mod:`sqlalchemy.ext.indexable`

    """

    _NO_DEFAULT_ARGUMENT = object()

    def __init__(
        self,
        attr_name,
        index,
        default=_NO_DEFAULT_ARGUMENT,
        datatype=None,
        mutable=True,
        onebased=True,
    ):
        """Create a new :class:`.index_property`.

        :param attr_name:
            An attribute name of an `Indexable` typed column, or other
            attribute that returns an indexable structure.
        :param index:
            The index to be used for getting and setting this value.  This
            should be the Python-side index value for integers.
        :param default:
            A value which will be returned instead of `AttributeError`
            when there is not a value at given index.
        :param datatype: default datatype to use when the field is empty.
            By default, this is derived from the type of index used; a
            Python list for an integer index, or a Python dictionary for
            any other style of index.   For a list, the list will be
            initialized to a list of None values that is at least
            ``index`` elements long.
        :param mutable: if False, writes and deletes to the attribute will
            be disallowed.
        :param onebased: assume the SQL representation of this value is
            one-based; that is, the first index in SQL is 1, not zero.
        """

        if mutable:
            super().__init__(self.fget, self.fset, self.fdel, self.expr)
        else:
            super().__init__(self.fget, None, None, self.expr)
        self.attr_name = attr_name
        self.index = index
        self.default = default
        is_numeric = isinstance(index, int)
        onebased = is_numeric and onebased

        if datatype is not None:
            self.datatype = datatype
        else:
            if is_numeric:
                self.datatype = lambda: [None for x in range(index + 1)]
            else:
                self.datatype = dict
        self.onebased = onebased

    def _fget_default(self, err=None):
        if self.default == self._NO_DEFAULT_ARGUMENT:
            raise AttributeError(self.attr_name) from err
        else:
            return self.default

    def fget(self, instance):
        attr_name = self.attr_name
        column_value = getattr(instance, attr_name)
        if column_value is None:
            return self._fget_default()
        try:
            value = column_value[self.index]
        except (KeyError, IndexError) as err:
            return self._fget_default(err)
        else:
            return value

    def fset(self, instance, value):
        attr_name = self.attr_name
        column_value = getattr(instance, attr_name, None)
        if column_value is None:
            column_value = self.datatype()
            setattr(instance, attr_name, column_value)
        column_value[self.index] = value
        setattr(instance, attr_name, column_value)
        if attr_name in inspect(instance).mapper.attrs:
            flag_modified(instance, attr_name)

    def fdel(self, instance):
        attr_name = self.attr_name
        column_value = getattr(instance, attr_name)
        if column_value is None:
            raise AttributeError(self.attr_name)
        try:
            del column_value[self.index]
        except KeyError as err:
            raise AttributeError(self.attr_name) from err
        else:
            setattr(instance, attr_name, column_value)
            flag_modified(instance, attr_name)

    def expr(self, model):
        column = getattr(model, self.attr_name)
        index = self.index
        if self.onebased:
            index += 1
        return column[index]

Youez - 2016 - github.com/yon3zu
LinuXploit