mirror of https://github.com/morpheus65535/bazarr
1527 lines
51 KiB
Python
1527 lines
51 KiB
Python
# ext/hybrid.py
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# Copyright (C) 2005-2023 the SQLAlchemy authors and contributors
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# <see AUTHORS file>
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#
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# This module is part of SQLAlchemy and is released under
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# the MIT License: https://www.opensource.org/licenses/mit-license.php
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r"""Define attributes on ORM-mapped classes that have "hybrid" behavior.
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"hybrid" means the attribute has distinct behaviors defined at the
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class level and at the instance level.
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The :mod:`~sqlalchemy.ext.hybrid` extension provides a special form of
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method decorator and has minimal dependencies on the rest of SQLAlchemy.
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Its basic theory of operation can work with any descriptor-based expression
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system.
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Consider a mapping ``Interval``, representing integer ``start`` and ``end``
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values. We can define higher level functions on mapped classes that produce SQL
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expressions at the class level, and Python expression evaluation at the
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instance level. Below, each function decorated with :class:`.hybrid_method` or
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:class:`.hybrid_property` may receive ``self`` as an instance of the class, or
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may receive the class directly, depending on context::
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from __future__ import annotations
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from sqlalchemy.ext.hybrid import hybrid_method
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from sqlalchemy.ext.hybrid import hybrid_property
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from sqlalchemy.orm import DeclarativeBase
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from sqlalchemy.orm import Mapped
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from sqlalchemy.orm import mapped_column
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class Base(DeclarativeBase):
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pass
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class Interval(Base):
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__tablename__ = 'interval'
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id: Mapped[int] = mapped_column(primary_key=True)
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start: Mapped[int]
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end: Mapped[int]
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def __init__(self, start: int, end: int):
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self.start = start
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self.end = end
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@hybrid_property
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def length(self) -> int:
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return self.end - self.start
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@hybrid_method
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def contains(self, point: int) -> bool:
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return (self.start <= point) & (point <= self.end)
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@hybrid_method
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def intersects(self, other: Interval) -> bool:
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return self.contains(other.start) | self.contains(other.end)
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Above, the ``length`` property returns the difference between the
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``end`` and ``start`` attributes. With an instance of ``Interval``,
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this subtraction occurs in Python, using normal Python descriptor
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mechanics::
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>>> i1 = Interval(5, 10)
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>>> i1.length
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5
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When dealing with the ``Interval`` class itself, the :class:`.hybrid_property`
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descriptor evaluates the function body given the ``Interval`` class as
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the argument, which when evaluated with SQLAlchemy expression mechanics
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returns a new SQL expression:
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.. sourcecode:: pycon+sql
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>>> from sqlalchemy import select
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>>> print(select(Interval.length))
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{printsql}SELECT interval."end" - interval.start AS length
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FROM interval{stop}
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>>> print(select(Interval).filter(Interval.length > 10))
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{printsql}SELECT interval.id, interval.start, interval."end"
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FROM interval
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WHERE interval."end" - interval.start > :param_1
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Filtering methods such as :meth:`.Select.filter_by` are supported
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with hybrid attributes as well:
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.. sourcecode:: pycon+sql
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>>> print(select(Interval).filter_by(length=5))
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{printsql}SELECT interval.id, interval.start, interval."end"
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FROM interval
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WHERE interval."end" - interval.start = :param_1
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The ``Interval`` class example also illustrates two methods,
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``contains()`` and ``intersects()``, decorated with
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:class:`.hybrid_method`. This decorator applies the same idea to
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methods that :class:`.hybrid_property` applies to attributes. The
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methods return boolean values, and take advantage of the Python ``|``
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and ``&`` bitwise operators to produce equivalent instance-level and
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SQL expression-level boolean behavior:
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.. sourcecode:: pycon+sql
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>>> i1.contains(6)
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True
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>>> i1.contains(15)
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False
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>>> i1.intersects(Interval(7, 18))
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True
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>>> i1.intersects(Interval(25, 29))
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False
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>>> print(select(Interval).filter(Interval.contains(15)))
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{printsql}SELECT interval.id, interval.start, interval."end"
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FROM interval
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WHERE interval.start <= :start_1 AND interval."end" > :end_1{stop}
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>>> ia = aliased(Interval)
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>>> print(select(Interval, ia).filter(Interval.intersects(ia)))
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{printsql}SELECT interval.id, interval.start,
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interval."end", interval_1.id AS interval_1_id,
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interval_1.start AS interval_1_start, interval_1."end" AS interval_1_end
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FROM interval, interval AS interval_1
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WHERE interval.start <= interval_1.start
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AND interval."end" > interval_1.start
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OR interval.start <= interval_1."end"
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AND interval."end" > interval_1."end"{stop}
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.. _hybrid_distinct_expression:
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Defining Expression Behavior Distinct from Attribute Behavior
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--------------------------------------------------------------
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In the previous section, our usage of the ``&`` and ``|`` bitwise operators
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within the ``Interval.contains`` and ``Interval.intersects`` methods was
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fortunate, considering our functions operated on two boolean values to return a
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new one. In many cases, the construction of an in-Python function and a
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SQLAlchemy SQL expression have enough differences that two separate Python
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expressions should be defined. The :mod:`~sqlalchemy.ext.hybrid` decorator
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defines a **modifier** :meth:`.hybrid_property.expression` for this purpose. As an
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example we'll define the radius of the interval, which requires the usage of
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the absolute value function::
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from sqlalchemy import ColumnElement
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from sqlalchemy import Float
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from sqlalchemy import func
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from sqlalchemy import type_coerce
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class Interval(Base):
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# ...
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@hybrid_property
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def radius(self) -> float:
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return abs(self.length) / 2
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@radius.inplace.expression
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@classmethod
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def _radius_expression(cls) -> ColumnElement[float]:
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return type_coerce(func.abs(cls.length) / 2, Float)
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In the above example, the :class:`.hybrid_property` first assigned to the
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name ``Interval.radius`` is amended by a subsequent method called
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``Interval._radius_expression``, using the decorator
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``@radius.inplace.expression``, which chains together two modifiers
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:attr:`.hybrid_property.inplace` and :attr:`.hybrid_property.expression`.
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The use of :attr:`.hybrid_property.inplace` indicates that the
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:meth:`.hybrid_property.expression` modifier should mutate the
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existing hybrid object at ``Interval.radius`` in place, without creating a
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new object. Notes on this modifier and its
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rationale are discussed in the next section :ref:`hybrid_pep484_naming`.
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The use of ``@classmethod`` is optional, and is strictly to give typing
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tools a hint that ``cls`` in this case is expected to be the ``Interval``
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class, and not an instance of ``Interval``.
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.. note:: :attr:`.hybrid_property.inplace` as well as the use of ``@classmethod``
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for proper typing support are available as of SQLAlchemy 2.0.4, and will
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not work in earlier versions.
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With ``Interval.radius`` now including an expression element, the SQL
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function ``ABS()`` is returned when accessing ``Interval.radius``
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at the class level:
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.. sourcecode:: pycon+sql
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>>> from sqlalchemy import select
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>>> print(select(Interval).filter(Interval.radius > 5))
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{printsql}SELECT interval.id, interval.start, interval."end"
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FROM interval
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WHERE abs(interval."end" - interval.start) / :abs_1 > :param_1
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.. _hybrid_pep484_naming:
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Using ``inplace`` to create pep-484 compliant hybrid properties
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---------------------------------------------------------------
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In the previous section, a :class:`.hybrid_property` decorator is illustrated
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which includes two separate method-level functions being decorated, both
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to produce a single object attribute referred towards as ``Interval.radius``.
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There are actually several different modifiers we can use for
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:class:`.hybrid_property` including :meth:`.hybrid_property.expression`,
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:meth:`.hybrid_property.setter` and :meth:`.hybrid_property.update_expression`.
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SQLAlchemy's :class:`.hybrid_property` decorator intends that adding on these
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methods may be done in the identical manner as Python's built-in
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``@property`` decorator, where idiomatic use is to continue to redefine the
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attribute repeatedly, using the **same attribute name** each time, as in the
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example below that illustrates the use of :meth:`.hybrid_property.setter` and
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:meth:`.hybrid_property.expression` for the ``Interval.radius`` descriptor::
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# correct use, however is not accepted by pep-484 tooling
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class Interval(Base):
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# ...
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@hybrid_property
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def radius(self):
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return abs(self.length) / 2
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@radius.setter
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def radius(self, value):
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self.length = value * 2
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@radius.expression
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def radius(cls):
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return type_coerce(func.abs(cls.length) / 2, Float)
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Above, there are three ``Interval.radius`` methods, but as each are decorated,
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first by the :class:`.hybrid_property` decorator and then by the
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``@radius`` name itself, the end effect is that ``Interval.radius`` is
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a single attribute with three different functions contained within it.
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This style of use is taken from `Python's documented use of @property
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<https://docs.python.org/3/library/functions.html#property>`_.
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It is important to note that the way both ``@property`` as well as
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:class:`.hybrid_property` work, a **copy of the descriptor is made each time**.
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That is, each call to ``@radius.expression``, ``@radius.setter`` etc.
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make a new object entirely. This allows the attribute to be re-defined in
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subclasses without issue (see :ref:`hybrid_reuse_subclass` later in this
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section for how this is used).
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However, the above approach is not compatible with typing tools such as
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mypy and pyright. Python's own ``@property`` decorator does not have this
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limitation only because
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`these tools hardcode the behavior of @property
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<https://github.com/python/typing/discussions/1102>`_, meaning this syntax
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is not available to SQLAlchemy under :pep:`484` compliance.
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In order to produce a reasonable syntax while remaining typing compliant,
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the :attr:`.hybrid_property.inplace` decorator allows the same
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decorator to be re-used with different method names, while still producing
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a single decorator under one name::
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# correct use which is also accepted by pep-484 tooling
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class Interval(Base):
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# ...
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@hybrid_property
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def radius(self) -> float:
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return abs(self.length) / 2
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@radius.inplace.setter
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def _radius_setter(self, value: float) -> None:
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# for example only
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self.length = value * 2
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@radius.inplace.expression
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@classmethod
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def _radius_expression(cls) -> ColumnElement[float]:
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return type_coerce(func.abs(cls.length) / 2, Float)
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Using :attr:`.hybrid_property.inplace` further qualifies the use of the
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decorator that a new copy should not be made, thereby maintaining the
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``Interval.radius`` name while allowing additional methods
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``Interval._radius_setter`` and ``Interval._radius_expression`` to be
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differently named.
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.. versionadded:: 2.0.4 Added :attr:`.hybrid_property.inplace` to allow
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less verbose construction of composite :class:`.hybrid_property` objects
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while not having to use repeated method names. Additionally allowed the
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use of ``@classmethod`` within :attr:`.hybrid_property.expression`,
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:attr:`.hybrid_property.update_expression`, and
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:attr:`.hybrid_property.comparator` to allow typing tools to identify
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``cls`` as a class and not an instance in the method signature.
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Defining Setters
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----------------
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The :meth:`.hybrid_property.setter` modifier allows the construction of a
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custom setter method, that can modify values on the object::
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class Interval(Base):
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# ...
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@hybrid_property
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def length(self) -> int:
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return self.end - self.start
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@length.inplace.setter
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def _length_setter(self, value: int) -> None:
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self.end = self.start + value
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The ``length(self, value)`` method is now called upon set::
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>>> i1 = Interval(5, 10)
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>>> i1.length
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5
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>>> i1.length = 12
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>>> i1.end
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17
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.. _hybrid_bulk_update:
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Allowing Bulk ORM Update
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------------------------
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A hybrid can define a custom "UPDATE" handler for when using
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ORM-enabled updates, allowing the hybrid to be used in the
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SET clause of the update.
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Normally, when using a hybrid with :func:`_sql.update`, the SQL
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expression is used as the column that's the target of the SET. If our
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``Interval`` class had a hybrid ``start_point`` that linked to
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``Interval.start``, this could be substituted directly::
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from sqlalchemy import update
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stmt = update(Interval).values({Interval.start_point: 10})
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However, when using a composite hybrid like ``Interval.length``, this
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hybrid represents more than one column. We can set up a handler that will
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accommodate a value passed in the VALUES expression which can affect
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this, using the :meth:`.hybrid_property.update_expression` decorator.
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A handler that works similarly to our setter would be::
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from typing import List, Tuple, Any
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class Interval(Base):
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# ...
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@hybrid_property
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def length(self) -> int:
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return self.end - self.start
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@length.inplace.setter
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def _length_setter(self, value: int) -> None:
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self.end = self.start + value
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@length.inplace.update_expression
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def _length_update_expression(cls, value: Any) -> List[Tuple[Any, Any]]:
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return [
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(cls.end, cls.start + value)
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]
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Above, if we use ``Interval.length`` in an UPDATE expression, we get
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a hybrid SET expression:
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.. sourcecode:: pycon+sql
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>>> from sqlalchemy import update
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>>> print(update(Interval).values({Interval.length: 25}))
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{printsql}UPDATE interval SET "end"=(interval.start + :start_1)
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This SET expression is accommodated by the ORM automatically.
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.. seealso::
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:ref:`orm_expression_update_delete` - includes background on ORM-enabled
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UPDATE statements
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Working with Relationships
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--------------------------
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There's no essential difference when creating hybrids that work with
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related objects as opposed to column-based data. The need for distinct
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expressions tends to be greater. The two variants we'll illustrate
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are the "join-dependent" hybrid, and the "correlated subquery" hybrid.
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Join-Dependent Relationship Hybrid
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Consider the following declarative
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mapping which relates a ``User`` to a ``SavingsAccount``::
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from __future__ import annotations
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from decimal import Decimal
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from typing import cast
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from typing import List
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from typing import Optional
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from sqlalchemy import ForeignKey
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from sqlalchemy import Numeric
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from sqlalchemy import String
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from sqlalchemy import SQLColumnExpression
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from sqlalchemy.ext.hybrid import hybrid_property
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from sqlalchemy.orm import DeclarativeBase
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from sqlalchemy.orm import Mapped
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from sqlalchemy.orm import mapped_column
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from sqlalchemy.orm import relationship
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class Base(DeclarativeBase):
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pass
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class SavingsAccount(Base):
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__tablename__ = 'account'
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id: Mapped[int] = mapped_column(primary_key=True)
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user_id: Mapped[int] = mapped_column(ForeignKey('user.id'))
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balance: Mapped[Decimal] = mapped_column(Numeric(15, 5))
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owner: Mapped[User] = relationship(back_populates="accounts")
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class User(Base):
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__tablename__ = 'user'
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id: Mapped[int] = mapped_column(primary_key=True)
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name: Mapped[str] = mapped_column(String(100))
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accounts: Mapped[List[SavingsAccount]] = relationship(
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back_populates="owner", lazy="selectin"
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)
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@hybrid_property
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def balance(self) -> Optional[Decimal]:
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if self.accounts:
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return self.accounts[0].balance
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else:
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return None
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@balance.inplace.setter
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def _balance_setter(self, value: Optional[Decimal]) -> None:
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assert value is not None
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if not self.accounts:
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account = SavingsAccount(owner=self)
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else:
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account = self.accounts[0]
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account.balance = value
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@balance.inplace.expression
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@classmethod
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def _balance_expression(cls) -> SQLColumnExpression[Optional[Decimal]]:
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return cast("SQLColumnExpression[Optional[Decimal]]", SavingsAccount.balance)
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The above hybrid property ``balance`` works with the first
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``SavingsAccount`` entry in the list of accounts for this user. The
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in-Python getter/setter methods can treat ``accounts`` as a Python
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list available on ``self``.
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.. tip:: The ``User.balance`` getter in the above example accesses the
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``self.acccounts`` collection, which will normally be loaded via the
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:func:`.selectinload` loader strategy configured on the ``User.balance``
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:func:`_orm.relationship`. The default loader strategy when not otherwise
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stated on :func:`_orm.relationship` is :func:`.lazyload`, which emits SQL on
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demand. When using asyncio, on-demand loaders such as :func:`.lazyload` are
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not supported, so care should be taken to ensure the ``self.accounts``
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collection is accessible to this hybrid accessor when using asyncio.
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At the expression level, it's expected that the ``User`` class will
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be used in an appropriate context such that an appropriate join to
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``SavingsAccount`` will be present:
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.. sourcecode:: pycon+sql
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>>> from sqlalchemy import select
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>>> print(select(User, User.balance).
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... join(User.accounts).filter(User.balance > 5000))
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{printsql}SELECT "user".id AS user_id, "user".name AS user_name,
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account.balance AS account_balance
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FROM "user" JOIN account ON "user".id = account.user_id
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WHERE account.balance > :balance_1
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Note however, that while the instance level accessors need to worry
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about whether ``self.accounts`` is even present, this issue expresses
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itself differently at the SQL expression level, where we basically
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would use an outer join:
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.. sourcecode:: pycon+sql
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>>> from sqlalchemy import select
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>>> from sqlalchemy import or_
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>>> print (select(User, User.balance).outerjoin(User.accounts).
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... filter(or_(User.balance < 5000, User.balance == None)))
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{printsql}SELECT "user".id AS user_id, "user".name AS user_name,
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account.balance AS account_balance
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FROM "user" LEFT OUTER JOIN account ON "user".id = account.user_id
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WHERE account.balance < :balance_1 OR account.balance IS NULL
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Correlated Subquery Relationship Hybrid
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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We can, of course, forego being dependent on the enclosing query's usage
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of joins in favor of the correlated subquery, which can portably be packed
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into a single column expression. A correlated subquery is more portable, but
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often performs more poorly at the SQL level. Using the same technique
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|
illustrated at :ref:`mapper_column_property_sql_expressions`,
|
|
we can adjust our ``SavingsAccount`` example to aggregate the balances for
|
|
*all* accounts, and use a correlated subquery for the column expression::
|
|
|
|
from __future__ import annotations
|
|
|
|
from decimal import Decimal
|
|
from typing import List
|
|
|
|
from sqlalchemy import ForeignKey
|
|
from sqlalchemy import func
|
|
from sqlalchemy import Numeric
|
|
from sqlalchemy import select
|
|
from sqlalchemy import SQLColumnExpression
|
|
from sqlalchemy import String
|
|
from sqlalchemy.ext.hybrid import hybrid_property
|
|
from sqlalchemy.orm import DeclarativeBase
|
|
from sqlalchemy.orm import Mapped
|
|
from sqlalchemy.orm import mapped_column
|
|
from sqlalchemy.orm import relationship
|
|
|
|
|
|
class Base(DeclarativeBase):
|
|
pass
|
|
|
|
|
|
class SavingsAccount(Base):
|
|
__tablename__ = 'account'
|
|
id: Mapped[int] = mapped_column(primary_key=True)
|
|
user_id: Mapped[int] = mapped_column(ForeignKey('user.id'))
|
|
balance: Mapped[Decimal] = mapped_column(Numeric(15, 5))
|
|
|
|
owner: Mapped[User] = relationship(back_populates="accounts")
|
|
|
|
class User(Base):
|
|
__tablename__ = 'user'
|
|
id: Mapped[int] = mapped_column(primary_key=True)
|
|
name: Mapped[str] = mapped_column(String(100))
|
|
|
|
accounts: Mapped[List[SavingsAccount]] = relationship(
|
|
back_populates="owner", lazy="selectin"
|
|
)
|
|
|
|
@hybrid_property
|
|
def balance(self) -> Decimal:
|
|
return sum((acc.balance for acc in self.accounts), start=Decimal("0"))
|
|
|
|
@balance.inplace.expression
|
|
@classmethod
|
|
def _balance_expression(cls) -> SQLColumnExpression[Decimal]:
|
|
return (
|
|
select(func.sum(SavingsAccount.balance))
|
|
.where(SavingsAccount.user_id == cls.id)
|
|
.label("total_balance")
|
|
)
|
|
|
|
|
|
The above recipe will give us the ``balance`` column which renders
|
|
a correlated SELECT:
|
|
|
|
.. sourcecode:: pycon+sql
|
|
|
|
>>> from sqlalchemy import select
|
|
>>> print(select(User).filter(User.balance > 400))
|
|
{printsql}SELECT "user".id, "user".name
|
|
FROM "user"
|
|
WHERE (
|
|
SELECT sum(account.balance) AS sum_1 FROM account
|
|
WHERE account.user_id = "user".id
|
|
) > :param_1
|
|
|
|
|
|
.. _hybrid_custom_comparators:
|
|
|
|
Building Custom Comparators
|
|
---------------------------
|
|
|
|
The hybrid property also includes a helper that allows construction of
|
|
custom comparators. A comparator object allows one to customize the
|
|
behavior of each SQLAlchemy expression operator individually. They
|
|
are useful when creating custom types that have some highly
|
|
idiosyncratic behavior on the SQL side.
|
|
|
|
.. note:: The :meth:`.hybrid_property.comparator` decorator introduced
|
|
in this section **replaces** the use of the
|
|
:meth:`.hybrid_property.expression` decorator.
|
|
They cannot be used together.
|
|
|
|
The example class below allows case-insensitive comparisons on the attribute
|
|
named ``word_insensitive``::
|
|
|
|
from __future__ import annotations
|
|
|
|
from typing import Any
|
|
|
|
from sqlalchemy import ColumnElement
|
|
from sqlalchemy import func
|
|
from sqlalchemy.ext.hybrid import Comparator
|
|
from sqlalchemy.ext.hybrid import hybrid_property
|
|
from sqlalchemy.orm import DeclarativeBase
|
|
from sqlalchemy.orm import Mapped
|
|
from sqlalchemy.orm import mapped_column
|
|
|
|
class Base(DeclarativeBase):
|
|
pass
|
|
|
|
|
|
class CaseInsensitiveComparator(Comparator[str]):
|
|
def __eq__(self, other: Any) -> ColumnElement[bool]: # type: ignore[override] # noqa: E501
|
|
return func.lower(self.__clause_element__()) == func.lower(other)
|
|
|
|
class SearchWord(Base):
|
|
__tablename__ = 'searchword'
|
|
|
|
id: Mapped[int] = mapped_column(primary_key=True)
|
|
word: Mapped[str]
|
|
|
|
@hybrid_property
|
|
def word_insensitive(self) -> str:
|
|
return self.word.lower()
|
|
|
|
@word_insensitive.inplace.comparator
|
|
@classmethod
|
|
def _word_insensitive_comparator(cls) -> CaseInsensitiveComparator:
|
|
return CaseInsensitiveComparator(cls.word)
|
|
|
|
Above, SQL expressions against ``word_insensitive`` will apply the ``LOWER()``
|
|
SQL function to both sides:
|
|
|
|
.. sourcecode:: pycon+sql
|
|
|
|
>>> from sqlalchemy import select
|
|
>>> print(select(SearchWord).filter_by(word_insensitive="Trucks"))
|
|
{printsql}SELECT searchword.id, searchword.word
|
|
FROM searchword
|
|
WHERE lower(searchword.word) = lower(:lower_1)
|
|
|
|
|
|
The ``CaseInsensitiveComparator`` above implements part of the
|
|
:class:`.ColumnOperators` interface. A "coercion" operation like
|
|
lowercasing can be applied to all comparison operations (i.e. ``eq``,
|
|
``lt``, ``gt``, etc.) using :meth:`.Operators.operate`::
|
|
|
|
class CaseInsensitiveComparator(Comparator):
|
|
def operate(self, op, other, **kwargs):
|
|
return op(
|
|
func.lower(self.__clause_element__()),
|
|
func.lower(other),
|
|
**kwargs,
|
|
)
|
|
|
|
.. _hybrid_reuse_subclass:
|
|
|
|
Reusing Hybrid Properties across Subclasses
|
|
-------------------------------------------
|
|
|
|
A hybrid can be referred to from a superclass, to allow modifying
|
|
methods like :meth:`.hybrid_property.getter`, :meth:`.hybrid_property.setter`
|
|
to be used to redefine those methods on a subclass. This is similar to
|
|
how the standard Python ``@property`` object works::
|
|
|
|
class FirstNameOnly(Base):
|
|
# ...
|
|
|
|
first_name: Mapped[str]
|
|
|
|
@hybrid_property
|
|
def name(self) -> str:
|
|
return self.first_name
|
|
|
|
@name.inplace.setter
|
|
def _name_setter(self, value: str) -> None:
|
|
self.first_name = value
|
|
|
|
class FirstNameLastName(FirstNameOnly):
|
|
# ...
|
|
|
|
last_name: Mapped[str]
|
|
|
|
# 'inplace' is not used here; calling getter creates a copy
|
|
# of FirstNameOnly.name that is local to FirstNameLastName
|
|
@FirstNameOnly.name.getter
|
|
def name(self) -> str:
|
|
return self.first_name + ' ' + self.last_name
|
|
|
|
@name.inplace.setter
|
|
def _name_setter(self, value: str) -> None:
|
|
self.first_name, self.last_name = value.split(' ', 1)
|
|
|
|
Above, the ``FirstNameLastName`` class refers to the hybrid from
|
|
``FirstNameOnly.name`` to repurpose its getter and setter for the subclass.
|
|
|
|
When overriding :meth:`.hybrid_property.expression` and
|
|
:meth:`.hybrid_property.comparator` alone as the first reference to the
|
|
superclass, these names conflict with the same-named accessors on the class-
|
|
level :class:`.QueryableAttribute` object returned at the class level. To
|
|
override these methods when referring directly to the parent class descriptor,
|
|
add the special qualifier :attr:`.hybrid_property.overrides`, which will de-
|
|
reference the instrumented attribute back to the hybrid object::
|
|
|
|
class FirstNameLastName(FirstNameOnly):
|
|
# ...
|
|
|
|
last_name: Mapped[str]
|
|
|
|
@FirstNameOnly.name.overrides.expression
|
|
@classmethod
|
|
def name(cls):
|
|
return func.concat(cls.first_name, ' ', cls.last_name)
|
|
|
|
|
|
Hybrid Value Objects
|
|
--------------------
|
|
|
|
Note in our previous example, if we were to compare the ``word_insensitive``
|
|
attribute of a ``SearchWord`` instance to a plain Python string, the plain
|
|
Python string would not be coerced to lower case - the
|
|
``CaseInsensitiveComparator`` we built, being returned by
|
|
``@word_insensitive.comparator``, only applies to the SQL side.
|
|
|
|
A more comprehensive form of the custom comparator is to construct a *Hybrid
|
|
Value Object*. This technique applies the target value or expression to a value
|
|
object which is then returned by the accessor in all cases. The value object
|
|
allows control of all operations upon the value as well as how compared values
|
|
are treated, both on the SQL expression side as well as the Python value side.
|
|
Replacing the previous ``CaseInsensitiveComparator`` class with a new
|
|
``CaseInsensitiveWord`` class::
|
|
|
|
class CaseInsensitiveWord(Comparator):
|
|
"Hybrid value representing a lower case representation of a word."
|
|
|
|
def __init__(self, word):
|
|
if isinstance(word, basestring):
|
|
self.word = word.lower()
|
|
elif isinstance(word, CaseInsensitiveWord):
|
|
self.word = word.word
|
|
else:
|
|
self.word = func.lower(word)
|
|
|
|
def operate(self, op, other, **kwargs):
|
|
if not isinstance(other, CaseInsensitiveWord):
|
|
other = CaseInsensitiveWord(other)
|
|
return op(self.word, other.word, **kwargs)
|
|
|
|
def __clause_element__(self):
|
|
return self.word
|
|
|
|
def __str__(self):
|
|
return self.word
|
|
|
|
key = 'word'
|
|
"Label to apply to Query tuple results"
|
|
|
|
Above, the ``CaseInsensitiveWord`` object represents ``self.word``, which may
|
|
be a SQL function, or may be a Python native. By overriding ``operate()`` and
|
|
``__clause_element__()`` to work in terms of ``self.word``, all comparison
|
|
operations will work against the "converted" form of ``word``, whether it be
|
|
SQL side or Python side. Our ``SearchWord`` class can now deliver the
|
|
``CaseInsensitiveWord`` object unconditionally from a single hybrid call::
|
|
|
|
class SearchWord(Base):
|
|
__tablename__ = 'searchword'
|
|
id: Mapped[int] = mapped_column(primary_key=True)
|
|
word: Mapped[str]
|
|
|
|
@hybrid_property
|
|
def word_insensitive(self) -> CaseInsensitiveWord:
|
|
return CaseInsensitiveWord(self.word)
|
|
|
|
The ``word_insensitive`` attribute now has case-insensitive comparison behavior
|
|
universally, including SQL expression vs. Python expression (note the Python
|
|
value is converted to lower case on the Python side here):
|
|
|
|
.. sourcecode:: pycon+sql
|
|
|
|
>>> print(select(SearchWord).filter_by(word_insensitive="Trucks"))
|
|
{printsql}SELECT searchword.id AS searchword_id, searchword.word AS searchword_word
|
|
FROM searchword
|
|
WHERE lower(searchword.word) = :lower_1
|
|
|
|
SQL expression versus SQL expression:
|
|
|
|
.. sourcecode:: pycon+sql
|
|
|
|
>>> from sqlalchemy.orm import aliased
|
|
>>> sw1 = aliased(SearchWord)
|
|
>>> sw2 = aliased(SearchWord)
|
|
>>> print(
|
|
... select(sw1.word_insensitive, sw2.word_insensitive).filter(
|
|
... sw1.word_insensitive > sw2.word_insensitive
|
|
... )
|
|
... )
|
|
{printsql}SELECT lower(searchword_1.word) AS lower_1,
|
|
lower(searchword_2.word) AS lower_2
|
|
FROM searchword AS searchword_1, searchword AS searchword_2
|
|
WHERE lower(searchword_1.word) > lower(searchword_2.word)
|
|
|
|
Python only expression::
|
|
|
|
>>> ws1 = SearchWord(word="SomeWord")
|
|
>>> ws1.word_insensitive == "sOmEwOrD"
|
|
True
|
|
>>> ws1.word_insensitive == "XOmEwOrX"
|
|
False
|
|
>>> print(ws1.word_insensitive)
|
|
someword
|
|
|
|
The Hybrid Value pattern is very useful for any kind of value that may have
|
|
multiple representations, such as timestamps, time deltas, units of
|
|
measurement, currencies and encrypted passwords.
|
|
|
|
.. seealso::
|
|
|
|
`Hybrids and Value Agnostic Types
|
|
<https://techspot.zzzeek.org/2011/10/21/hybrids-and-value-agnostic-types/>`_
|
|
- on the techspot.zzzeek.org blog
|
|
|
|
`Value Agnostic Types, Part II
|
|
<https://techspot.zzzeek.org/2011/10/29/value-agnostic-types-part-ii/>`_ -
|
|
on the techspot.zzzeek.org blog
|
|
|
|
|
|
""" # noqa
|
|
|
|
from __future__ import annotations
|
|
|
|
from typing import Any
|
|
from typing import Callable
|
|
from typing import cast
|
|
from typing import Generic
|
|
from typing import List
|
|
from typing import Optional
|
|
from typing import overload
|
|
from typing import Sequence
|
|
from typing import Tuple
|
|
from typing import Type
|
|
from typing import TYPE_CHECKING
|
|
from typing import TypeVar
|
|
from typing import Union
|
|
|
|
from .. import util
|
|
from ..orm import attributes
|
|
from ..orm import InspectionAttrExtensionType
|
|
from ..orm import interfaces
|
|
from ..orm import ORMDescriptor
|
|
from ..orm.attributes import QueryableAttribute
|
|
from ..sql import roles
|
|
from ..sql._typing import is_has_clause_element
|
|
from ..sql.elements import ColumnElement
|
|
from ..sql.elements import SQLCoreOperations
|
|
from ..util.typing import Concatenate
|
|
from ..util.typing import Literal
|
|
from ..util.typing import ParamSpec
|
|
from ..util.typing import Protocol
|
|
from ..util.typing import Self
|
|
|
|
if TYPE_CHECKING:
|
|
from ..orm.interfaces import MapperProperty
|
|
from ..orm.util import AliasedInsp
|
|
from ..sql import SQLColumnExpression
|
|
from ..sql._typing import _ColumnExpressionArgument
|
|
from ..sql._typing import _DMLColumnArgument
|
|
from ..sql._typing import _HasClauseElement
|
|
from ..sql._typing import _InfoType
|
|
from ..sql.operators import OperatorType
|
|
|
|
_P = ParamSpec("_P")
|
|
_R = TypeVar("_R")
|
|
_T = TypeVar("_T", bound=Any)
|
|
_TE = TypeVar("_TE", bound=Any)
|
|
_T_co = TypeVar("_T_co", bound=Any, covariant=True)
|
|
_T_con = TypeVar("_T_con", bound=Any, contravariant=True)
|
|
|
|
|
|
class HybridExtensionType(InspectionAttrExtensionType):
|
|
|
|
HYBRID_METHOD = "HYBRID_METHOD"
|
|
"""Symbol indicating an :class:`InspectionAttr` that's
|
|
of type :class:`.hybrid_method`.
|
|
|
|
Is assigned to the :attr:`.InspectionAttr.extension_type`
|
|
attribute.
|
|
|
|
.. seealso::
|
|
|
|
:attr:`_orm.Mapper.all_orm_attributes`
|
|
|
|
"""
|
|
|
|
HYBRID_PROPERTY = "HYBRID_PROPERTY"
|
|
"""Symbol indicating an :class:`InspectionAttr` that's
|
|
of type :class:`.hybrid_method`.
|
|
|
|
Is assigned to the :attr:`.InspectionAttr.extension_type`
|
|
attribute.
|
|
|
|
.. seealso::
|
|
|
|
:attr:`_orm.Mapper.all_orm_attributes`
|
|
|
|
"""
|
|
|
|
|
|
class _HybridGetterType(Protocol[_T_co]):
|
|
def __call__(s, self: Any) -> _T_co:
|
|
...
|
|
|
|
|
|
class _HybridSetterType(Protocol[_T_con]):
|
|
def __call__(s, self: Any, value: _T_con) -> None:
|
|
...
|
|
|
|
|
|
class _HybridUpdaterType(Protocol[_T_con]):
|
|
def __call__(
|
|
s,
|
|
cls: Any,
|
|
value: Union[_T_con, _ColumnExpressionArgument[_T_con]],
|
|
) -> List[Tuple[_DMLColumnArgument, Any]]:
|
|
...
|
|
|
|
|
|
class _HybridDeleterType(Protocol[_T_co]):
|
|
def __call__(self, instance: Any) -> None:
|
|
...
|
|
|
|
|
|
class _HybridExprCallableType(Protocol[_T]):
|
|
def __call__(
|
|
self, cls: Any
|
|
) -> Union[_HasClauseElement, SQLColumnExpression[_T]]:
|
|
...
|
|
|
|
|
|
class _HybridComparatorCallableType(Protocol[_T]):
|
|
def __call__(self, cls: Any) -> Comparator[_T]:
|
|
...
|
|
|
|
|
|
class _HybridClassLevelAccessor(QueryableAttribute[_T]):
|
|
"""Describe the object returned by a hybrid_property() when
|
|
called as a class-level descriptor.
|
|
|
|
"""
|
|
|
|
if TYPE_CHECKING:
|
|
|
|
def getter(self, fget: _HybridGetterType[_T]) -> hybrid_property[_T]:
|
|
...
|
|
|
|
def setter(self, fset: _HybridSetterType[_T]) -> hybrid_property[_T]:
|
|
...
|
|
|
|
def deleter(self, fdel: _HybridDeleterType[_T]) -> hybrid_property[_T]:
|
|
...
|
|
|
|
@property
|
|
def overrides(self) -> hybrid_property[_T]:
|
|
...
|
|
|
|
def update_expression(
|
|
self, meth: _HybridUpdaterType[_T]
|
|
) -> hybrid_property[_T]:
|
|
...
|
|
|
|
|
|
class hybrid_method(interfaces.InspectionAttrInfo, Generic[_P, _R]):
|
|
"""A decorator which allows definition of a Python object method with both
|
|
instance-level and class-level behavior.
|
|
|
|
"""
|
|
|
|
is_attribute = True
|
|
extension_type = HybridExtensionType.HYBRID_METHOD
|
|
|
|
def __init__(
|
|
self,
|
|
func: Callable[Concatenate[Any, _P], _R],
|
|
expr: Optional[
|
|
Callable[Concatenate[Any, _P], SQLCoreOperations[_R]]
|
|
] = None,
|
|
):
|
|
"""Create a new :class:`.hybrid_method`.
|
|
|
|
Usage is typically via decorator::
|
|
|
|
from sqlalchemy.ext.hybrid import hybrid_method
|
|
|
|
class SomeClass:
|
|
@hybrid_method
|
|
def value(self, x, y):
|
|
return self._value + x + y
|
|
|
|
@value.expression
|
|
@classmethod
|
|
def value(cls, x, y):
|
|
return func.some_function(cls._value, x, y)
|
|
|
|
"""
|
|
self.func = func
|
|
if expr is not None:
|
|
self.expression(expr)
|
|
else:
|
|
self.expression(func) # type: ignore
|
|
|
|
@property
|
|
def inplace(self) -> Self:
|
|
"""Return the inplace mutator for this :class:`.hybrid_method`.
|
|
|
|
The :class:`.hybrid_method` class already performs "in place" mutation
|
|
when the :meth:`.hybrid_method.expression` decorator is called,
|
|
so this attribute returns Self.
|
|
|
|
.. versionadded:: 2.0.4
|
|
|
|
.. seealso::
|
|
|
|
:ref:`hybrid_pep484_naming`
|
|
|
|
"""
|
|
return self
|
|
|
|
@overload
|
|
def __get__(
|
|
self, instance: Literal[None], owner: Type[object]
|
|
) -> Callable[_P, SQLCoreOperations[_R]]:
|
|
...
|
|
|
|
@overload
|
|
def __get__(
|
|
self, instance: object, owner: Type[object]
|
|
) -> Callable[_P, _R]:
|
|
...
|
|
|
|
def __get__(
|
|
self, instance: Optional[object], owner: Type[object]
|
|
) -> Union[Callable[_P, _R], Callable[_P, SQLCoreOperations[_R]]]:
|
|
if instance is None:
|
|
return self.expr.__get__(owner, owner) # type: ignore
|
|
else:
|
|
return self.func.__get__(instance, owner) # type: ignore
|
|
|
|
def expression(
|
|
self, expr: Callable[Concatenate[Any, _P], SQLCoreOperations[_R]]
|
|
) -> hybrid_method[_P, _R]:
|
|
"""Provide a modifying decorator that defines a
|
|
SQL-expression producing method."""
|
|
|
|
self.expr = expr
|
|
if not self.expr.__doc__:
|
|
self.expr.__doc__ = self.func.__doc__
|
|
return self
|
|
|
|
|
|
def _unwrap_classmethod(meth: _T) -> _T:
|
|
if isinstance(meth, classmethod):
|
|
return meth.__func__ # type: ignore
|
|
else:
|
|
return meth
|
|
|
|
|
|
class hybrid_property(interfaces.InspectionAttrInfo, ORMDescriptor[_T]):
|
|
"""A decorator which allows definition of a Python descriptor with both
|
|
instance-level and class-level behavior.
|
|
|
|
"""
|
|
|
|
is_attribute = True
|
|
extension_type = HybridExtensionType.HYBRID_PROPERTY
|
|
|
|
__name__: str
|
|
|
|
def __init__(
|
|
self,
|
|
fget: _HybridGetterType[_T],
|
|
fset: Optional[_HybridSetterType[_T]] = None,
|
|
fdel: Optional[_HybridDeleterType[_T]] = None,
|
|
expr: Optional[_HybridExprCallableType[_T]] = None,
|
|
custom_comparator: Optional[Comparator[_T]] = None,
|
|
update_expr: Optional[_HybridUpdaterType[_T]] = None,
|
|
):
|
|
"""Create a new :class:`.hybrid_property`.
|
|
|
|
Usage is typically via decorator::
|
|
|
|
from sqlalchemy.ext.hybrid import hybrid_property
|
|
|
|
class SomeClass:
|
|
@hybrid_property
|
|
def value(self):
|
|
return self._value
|
|
|
|
@value.setter
|
|
def value(self, value):
|
|
self._value = value
|
|
|
|
"""
|
|
self.fget = fget
|
|
self.fset = fset
|
|
self.fdel = fdel
|
|
self.expr = _unwrap_classmethod(expr)
|
|
self.custom_comparator = _unwrap_classmethod(custom_comparator)
|
|
self.update_expr = _unwrap_classmethod(update_expr)
|
|
util.update_wrapper(self, fget)
|
|
|
|
@overload
|
|
def __get__(self, instance: Any, owner: Literal[None]) -> Self:
|
|
...
|
|
|
|
@overload
|
|
def __get__(
|
|
self, instance: Literal[None], owner: Type[object]
|
|
) -> _HybridClassLevelAccessor[_T]:
|
|
...
|
|
|
|
@overload
|
|
def __get__(self, instance: object, owner: Type[object]) -> _T:
|
|
...
|
|
|
|
def __get__(
|
|
self, instance: Optional[object], owner: Optional[Type[object]]
|
|
) -> Union[hybrid_property[_T], _HybridClassLevelAccessor[_T], _T]:
|
|
if owner is None:
|
|
return self
|
|
elif instance is None:
|
|
return self._expr_comparator(owner)
|
|
else:
|
|
return self.fget(instance)
|
|
|
|
def __set__(self, instance: object, value: Any) -> None:
|
|
if self.fset is None:
|
|
raise AttributeError("can't set attribute")
|
|
self.fset(instance, value)
|
|
|
|
def __delete__(self, instance: object) -> None:
|
|
if self.fdel is None:
|
|
raise AttributeError("can't delete attribute")
|
|
self.fdel(instance)
|
|
|
|
def _copy(self, **kw: Any) -> hybrid_property[_T]:
|
|
defaults = {
|
|
key: value
|
|
for key, value in self.__dict__.items()
|
|
if not key.startswith("_")
|
|
}
|
|
defaults.update(**kw)
|
|
return type(self)(**defaults)
|
|
|
|
@property
|
|
def overrides(self) -> Self:
|
|
"""Prefix for a method that is overriding an existing attribute.
|
|
|
|
The :attr:`.hybrid_property.overrides` accessor just returns
|
|
this hybrid object, which when called at the class level from
|
|
a parent class, will de-reference the "instrumented attribute"
|
|
normally returned at this level, and allow modifying decorators
|
|
like :meth:`.hybrid_property.expression` and
|
|
:meth:`.hybrid_property.comparator`
|
|
to be used without conflicting with the same-named attributes
|
|
normally present on the :class:`.QueryableAttribute`::
|
|
|
|
class SuperClass:
|
|
# ...
|
|
|
|
@hybrid_property
|
|
def foobar(self):
|
|
return self._foobar
|
|
|
|
class SubClass(SuperClass):
|
|
# ...
|
|
|
|
@SuperClass.foobar.overrides.expression
|
|
def foobar(cls):
|
|
return func.subfoobar(self._foobar)
|
|
|
|
.. versionadded:: 1.2
|
|
|
|
.. seealso::
|
|
|
|
:ref:`hybrid_reuse_subclass`
|
|
|
|
"""
|
|
return self
|
|
|
|
class _InPlace(Generic[_TE]):
|
|
"""A builder helper for .hybrid_property.
|
|
|
|
.. versionadded:: 2.0.4
|
|
|
|
"""
|
|
|
|
__slots__ = ("attr",)
|
|
|
|
def __init__(self, attr: hybrid_property[_TE]):
|
|
self.attr = attr
|
|
|
|
def _set(self, **kw: Any) -> hybrid_property[_TE]:
|
|
for k, v in kw.items():
|
|
setattr(self.attr, k, _unwrap_classmethod(v))
|
|
return self.attr
|
|
|
|
def getter(self, fget: _HybridGetterType[_TE]) -> hybrid_property[_TE]:
|
|
return self._set(fget=fget)
|
|
|
|
def setter(self, fset: _HybridSetterType[_TE]) -> hybrid_property[_TE]:
|
|
return self._set(fset=fset)
|
|
|
|
def deleter(
|
|
self, fdel: _HybridDeleterType[_TE]
|
|
) -> hybrid_property[_TE]:
|
|
return self._set(fdel=fdel)
|
|
|
|
def expression(
|
|
self, expr: _HybridExprCallableType[_TE]
|
|
) -> hybrid_property[_TE]:
|
|
return self._set(expr=expr)
|
|
|
|
def comparator(
|
|
self, comparator: _HybridComparatorCallableType[_TE]
|
|
) -> hybrid_property[_TE]:
|
|
return self._set(custom_comparator=comparator)
|
|
|
|
def update_expression(
|
|
self, meth: _HybridUpdaterType[_TE]
|
|
) -> hybrid_property[_TE]:
|
|
return self._set(update_expr=meth)
|
|
|
|
@property
|
|
def inplace(self) -> _InPlace[_T]:
|
|
"""Return the inplace mutator for this :class:`.hybrid_property`.
|
|
|
|
This is to allow in-place mutation of the hybrid, allowing the first
|
|
hybrid method of a certain name to be re-used in order to add
|
|
more methods without having to name those methods the same, e.g.::
|
|
|
|
class Interval(Base):
|
|
# ...
|
|
|
|
@hybrid_property
|
|
def radius(self) -> float:
|
|
return abs(self.length) / 2
|
|
|
|
@radius.inplace.setter
|
|
def _radius_setter(self, value: float) -> None:
|
|
self.length = value * 2
|
|
|
|
@radius.inplace.expression
|
|
def _radius_expression(cls) -> ColumnElement[float]:
|
|
return type_coerce(func.abs(cls.length) / 2, Float)
|
|
|
|
.. versionadded:: 2.0.4
|
|
|
|
.. seealso::
|
|
|
|
:ref:`hybrid_pep484_naming`
|
|
|
|
"""
|
|
return hybrid_property._InPlace(self)
|
|
|
|
def getter(self, fget: _HybridGetterType[_T]) -> hybrid_property[_T]:
|
|
"""Provide a modifying decorator that defines a getter method.
|
|
|
|
.. versionadded:: 1.2
|
|
|
|
"""
|
|
|
|
return self._copy(fget=fget)
|
|
|
|
def setter(self, fset: _HybridSetterType[_T]) -> hybrid_property[_T]:
|
|
"""Provide a modifying decorator that defines a setter method."""
|
|
|
|
return self._copy(fset=fset)
|
|
|
|
def deleter(self, fdel: _HybridDeleterType[_T]) -> hybrid_property[_T]:
|
|
"""Provide a modifying decorator that defines a deletion method."""
|
|
|
|
return self._copy(fdel=fdel)
|
|
|
|
def expression(
|
|
self, expr: _HybridExprCallableType[_T]
|
|
) -> hybrid_property[_T]:
|
|
"""Provide a modifying decorator that defines a SQL-expression
|
|
producing method.
|
|
|
|
When a hybrid is invoked at the class level, the SQL expression given
|
|
here is wrapped inside of a specialized :class:`.QueryableAttribute`,
|
|
which is the same kind of object used by the ORM to represent other
|
|
mapped attributes. The reason for this is so that other class-level
|
|
attributes such as docstrings and a reference to the hybrid itself may
|
|
be maintained within the structure that's returned, without any
|
|
modifications to the original SQL expression passed in.
|
|
|
|
.. note::
|
|
|
|
When referring to a hybrid property from an owning class (e.g.
|
|
``SomeClass.some_hybrid``), an instance of
|
|
:class:`.QueryableAttribute` is returned, representing the
|
|
expression or comparator object as well as this hybrid object.
|
|
However, that object itself has accessors called ``expression`` and
|
|
``comparator``; so when attempting to override these decorators on a
|
|
subclass, it may be necessary to qualify it using the
|
|
:attr:`.hybrid_property.overrides` modifier first. See that
|
|
modifier for details.
|
|
|
|
.. seealso::
|
|
|
|
:ref:`hybrid_distinct_expression`
|
|
|
|
"""
|
|
|
|
return self._copy(expr=expr)
|
|
|
|
def comparator(
|
|
self, comparator: _HybridComparatorCallableType[_T]
|
|
) -> hybrid_property[_T]:
|
|
"""Provide a modifying decorator that defines a custom
|
|
comparator producing method.
|
|
|
|
The return value of the decorated method should be an instance of
|
|
:class:`~.hybrid.Comparator`.
|
|
|
|
.. note:: The :meth:`.hybrid_property.comparator` decorator
|
|
**replaces** the use of the :meth:`.hybrid_property.expression`
|
|
decorator. They cannot be used together.
|
|
|
|
When a hybrid is invoked at the class level, the
|
|
:class:`~.hybrid.Comparator` object given here is wrapped inside of a
|
|
specialized :class:`.QueryableAttribute`, which is the same kind of
|
|
object used by the ORM to represent other mapped attributes. The
|
|
reason for this is so that other class-level attributes such as
|
|
docstrings and a reference to the hybrid itself may be maintained
|
|
within the structure that's returned, without any modifications to the
|
|
original comparator object passed in.
|
|
|
|
.. note::
|
|
|
|
When referring to a hybrid property from an owning class (e.g.
|
|
``SomeClass.some_hybrid``), an instance of
|
|
:class:`.QueryableAttribute` is returned, representing the
|
|
expression or comparator object as this hybrid object. However,
|
|
that object itself has accessors called ``expression`` and
|
|
``comparator``; so when attempting to override these decorators on a
|
|
subclass, it may be necessary to qualify it using the
|
|
:attr:`.hybrid_property.overrides` modifier first. See that
|
|
modifier for details.
|
|
|
|
"""
|
|
return self._copy(custom_comparator=comparator)
|
|
|
|
def update_expression(
|
|
self, meth: _HybridUpdaterType[_T]
|
|
) -> hybrid_property[_T]:
|
|
"""Provide a modifying decorator that defines an UPDATE tuple
|
|
producing method.
|
|
|
|
The method accepts a single value, which is the value to be
|
|
rendered into the SET clause of an UPDATE statement. The method
|
|
should then process this value into individual column expressions
|
|
that fit into the ultimate SET clause, and return them as a
|
|
sequence of 2-tuples. Each tuple
|
|
contains a column expression as the key and a value to be rendered.
|
|
|
|
E.g.::
|
|
|
|
class Person(Base):
|
|
# ...
|
|
|
|
first_name = Column(String)
|
|
last_name = Column(String)
|
|
|
|
@hybrid_property
|
|
def fullname(self):
|
|
return first_name + " " + last_name
|
|
|
|
@fullname.update_expression
|
|
def fullname(cls, value):
|
|
fname, lname = value.split(" ", 1)
|
|
return [
|
|
(cls.first_name, fname),
|
|
(cls.last_name, lname)
|
|
]
|
|
|
|
.. versionadded:: 1.2
|
|
|
|
"""
|
|
return self._copy(update_expr=meth)
|
|
|
|
@util.memoized_property
|
|
def _expr_comparator(
|
|
self,
|
|
) -> Callable[[Any], _HybridClassLevelAccessor[_T]]:
|
|
if self.custom_comparator is not None:
|
|
return self._get_comparator(self.custom_comparator)
|
|
elif self.expr is not None:
|
|
return self._get_expr(self.expr)
|
|
else:
|
|
return self._get_expr(cast(_HybridExprCallableType[_T], self.fget))
|
|
|
|
def _get_expr(
|
|
self, expr: _HybridExprCallableType[_T]
|
|
) -> Callable[[Any], _HybridClassLevelAccessor[_T]]:
|
|
def _expr(cls: Any) -> ExprComparator[_T]:
|
|
return ExprComparator(cls, expr(cls), self)
|
|
|
|
util.update_wrapper(_expr, expr)
|
|
|
|
return self._get_comparator(_expr)
|
|
|
|
def _get_comparator(
|
|
self, comparator: Any
|
|
) -> Callable[[Any], _HybridClassLevelAccessor[_T]]:
|
|
|
|
proxy_attr = attributes.create_proxied_attribute(self)
|
|
|
|
def expr_comparator(
|
|
owner: Type[object],
|
|
) -> _HybridClassLevelAccessor[_T]:
|
|
# because this is the descriptor protocol, we don't really know
|
|
# what our attribute name is. so search for it through the
|
|
# MRO.
|
|
for lookup in owner.__mro__:
|
|
if self.__name__ in lookup.__dict__:
|
|
if lookup.__dict__[self.__name__] is self:
|
|
name = self.__name__
|
|
break
|
|
else:
|
|
name = attributes._UNKNOWN_ATTR_KEY # type: ignore[assignment]
|
|
|
|
return cast(
|
|
"_HybridClassLevelAccessor[_T]",
|
|
proxy_attr(
|
|
owner,
|
|
name,
|
|
self,
|
|
comparator(owner),
|
|
doc=comparator.__doc__ or self.__doc__,
|
|
),
|
|
)
|
|
|
|
return expr_comparator
|
|
|
|
|
|
class Comparator(interfaces.PropComparator[_T]):
|
|
"""A helper class that allows easy construction of custom
|
|
:class:`~.orm.interfaces.PropComparator`
|
|
classes for usage with hybrids."""
|
|
|
|
def __init__(
|
|
self, expression: Union[_HasClauseElement, SQLColumnExpression[_T]]
|
|
):
|
|
self.expression = expression
|
|
|
|
def __clause_element__(self) -> roles.ColumnsClauseRole:
|
|
expr = self.expression
|
|
if is_has_clause_element(expr):
|
|
ret_expr = expr.__clause_element__()
|
|
else:
|
|
if TYPE_CHECKING:
|
|
assert isinstance(expr, ColumnElement)
|
|
ret_expr = expr
|
|
|
|
if TYPE_CHECKING:
|
|
# see test_hybrid->test_expression_isnt_clause_element
|
|
# that exercises the usual place this is caught if not
|
|
# true
|
|
assert isinstance(ret_expr, ColumnElement)
|
|
return ret_expr
|
|
|
|
@util.non_memoized_property
|
|
def property(self) -> interfaces.MapperProperty[_T]:
|
|
raise NotImplementedError()
|
|
|
|
def adapt_to_entity(
|
|
self, adapt_to_entity: AliasedInsp[Any]
|
|
) -> Comparator[_T]:
|
|
# interesting....
|
|
return self
|
|
|
|
|
|
class ExprComparator(Comparator[_T]):
|
|
def __init__(
|
|
self,
|
|
cls: Type[Any],
|
|
expression: Union[_HasClauseElement, SQLColumnExpression[_T]],
|
|
hybrid: hybrid_property[_T],
|
|
):
|
|
self.cls = cls
|
|
self.expression = expression
|
|
self.hybrid = hybrid
|
|
|
|
def __getattr__(self, key: str) -> Any:
|
|
return getattr(self.expression, key)
|
|
|
|
@util.ro_non_memoized_property
|
|
def info(self) -> _InfoType:
|
|
return self.hybrid.info
|
|
|
|
def _bulk_update_tuples(
|
|
self, value: Any
|
|
) -> Sequence[Tuple[_DMLColumnArgument, Any]]:
|
|
if isinstance(self.expression, attributes.QueryableAttribute):
|
|
return self.expression._bulk_update_tuples(value)
|
|
elif self.hybrid.update_expr is not None:
|
|
return self.hybrid.update_expr(self.cls, value)
|
|
else:
|
|
return [(self.expression, value)]
|
|
|
|
@util.non_memoized_property
|
|
def property(self) -> MapperProperty[_T]:
|
|
# this accessor is not normally used, however is accessed by things
|
|
# like ORM synonyms if the hybrid is used in this context; the
|
|
# .property attribute is not necessarily accessible
|
|
return self.expression.property # type: ignore
|
|
|
|
def operate(
|
|
self, op: OperatorType, *other: Any, **kwargs: Any
|
|
) -> ColumnElement[Any]:
|
|
return op(self.expression, *other, **kwargs) # type: ignore
|
|
|
|
def reverse_operate(
|
|
self, op: OperatorType, other: Any, **kwargs: Any
|
|
) -> ColumnElement[Any]:
|
|
return op(other, self.expression, **kwargs) # type: ignore
|