Association Proxy

associationproxy is used to create a read/write view of a target attribute across a relationship. It essentially conceals the usage of a “middle” attribute between two endpoints, and can be used to cherry-pick fields from both a collection of related objects or scalar relationship. or to reduce the verbosity of using the association object pattern. Applied creatively, the association proxy allows the construction of sophisticated collections and dictionary views of virtually any geometry, persisted to the database using standard, transparently configured relational patterns.

Simplifying Scalar Collections

Consider a many-to-many mapping between two classes, User and Keyword. Each User can have any number of Keyword objects, and vice-versa (the many-to-many pattern is described at Many To Many). The example below illustrates this pattern in the same way, with the exception of an extra attribute added to the User class called User.keywords:

from __future__ import annotations

from typing import Final
from typing import List

from sqlalchemy import Column
from sqlalchemy import ForeignKey
from sqlalchemy import Integer
from sqlalchemy import String
from sqlalchemy import Table
from sqlalchemy.orm import DeclarativeBase
from sqlalchemy.orm import Mapped
from sqlalchemy.orm import mapped_column
from sqlalchemy.orm import relationship
from sqlalchemy.ext.associationproxy import association_proxy
from sqlalchemy.ext.associationproxy import AssociationProxy


class Base(DeclarativeBase):
    pass


class User(Base):
    __tablename__ = "user"
    id: Mapped[int] = mapped_column(primary_key=True)
    name: Mapped[str] = mapped_column(String(64))
    kw: Mapped[List[Keyword]] = relationship(secondary=lambda: user_keyword_table)

    def __init__(self, name: str):
        self.name = name

    # proxy the 'keyword' attribute from the 'kw' relationship
    keywords: AssociationProxy[List[str]] = association_proxy("kw", "keyword")


class Keyword(Base):
    __tablename__ = "keyword"
    id: Mapped[int] = mapped_column(primary_key=True)
    keyword: Mapped[str] = mapped_column(String(64))

    def __init__(self, keyword: str):
        self.keyword = keyword


user_keyword_table: Final[Table] = Table(
    "user_keyword",
    Base.metadata,
    Column("user_id", Integer, ForeignKey("user.id"), primary_key=True),
    Column("keyword_id", Integer, ForeignKey("keyword.id"), primary_key=True),
)

In the above example, association_proxy() is applied to the User class to produce a “view” of the kw relationship, which exposes the string value of .keyword associated with each Keyword object. It also creates new Keyword objects transparently when strings are added to the collection:

>>> user = User("jek")
>>> user.keywords.append("cheese-inspector")
>>> user.keywords.append("snack-ninja")
>>> print(user.keywords)
['cheese-inspector', 'snack-ninja']

To understand the mechanics of this, first review the behavior of User and Keyword without using the .keywords association proxy. Normally, reading and manipulating the collection of “keyword” strings associated with User requires traversal from each collection element to the .keyword attribute, which can be awkward. The example below illustrates the identical series of operations applied without using the association proxy:

>>> # identical operations without using the association proxy
>>> user = User("jek")
>>> user.kw.append(Keyword("cheese-inspector"))
>>> user.kw.append(Keyword("snack-ninja"))
>>> print([keyword.keyword for keyword in user.kw])
['cheese-inspector', 'snack-ninja']

The AssociationProxy object produced by the association_proxy() function is an instance of a Python descriptor, and is not considered to be “mapped” by the Mapper in any way. Therefore, it’s always indicated inline within the class definition of the mapped class, regardless of whether Declarative or Imperative mappings are used.

The proxy functions by operating upon the underlying mapped attribute or collection in response to operations, and changes made via the proxy are immediately apparent in the mapped attribute, as well as vice versa. The underlying attribute remains fully accessible.

When first accessed, the association proxy performs introspection operations on the target collection so that its behavior corresponds correctly. Details such as if the locally proxied attribute is a collection (as is typical) or a scalar reference, as well as if the collection acts like a set, list, or dictionary is taken into account, so that the proxy should act just like the underlying collection or attribute does.

Creation of New Values

When a list append() event (or set add(), dictionary __setitem__(), or scalar assignment event) is intercepted by the association proxy, it instantiates a new instance of the “intermediary” object using its constructor, passing as a single argument the given value. In our example above, an operation like:

user.keywords.append("cheese-inspector")

Is translated by the association proxy into the operation:

user.kw.append(Keyword("cheese-inspector"))

The example works here because we have designed the constructor for Keyword to accept a single positional argument, keyword. For those cases where a single-argument constructor isn’t feasible, the association proxy’s creational behavior can be customized using the association_proxy.creator argument, which references a callable (i.e. Python function) that will produce a new object instance given the singular argument. Below we illustrate this using a lambda as is typical:

class User(Base):
    ...

    # use Keyword(keyword=kw) on append() events
    keywords: AssociationProxy[List[str]] = association_proxy(
        "kw", "keyword", creator=lambda kw: Keyword(keyword=kw)
    )

The creator function accepts a single argument in the case of a list- or set- based collection, or a scalar attribute. In the case of a dictionary-based collection, it accepts two arguments, “key” and “value”. An example of this is below in Proxying to Dictionary Based Collections.

Simplifying Association Objects

The “association object” pattern is an extended form of a many-to-many relationship, and is described at Association Object. Association proxies are useful for keeping “association objects” out of the way during regular use.

Suppose our user_keyword table above had additional columns which we’d like to map explicitly, but in most cases we don’t require direct access to these attributes. Below, we illustrate a new mapping which introduces the UserKeywordAssociation class, which is mapped to the user_keyword table illustrated earlier. This class adds an additional column special_key, a value which we occasionally want to access, but not in the usual case. We create an association proxy on the User class called keywords, which will bridge the gap from the user_keyword_associations collection of User to the .keyword attribute present on each UserKeywordAssociation:

from __future__ import annotations

from typing import List
from typing import Optional

from sqlalchemy import ForeignKey
from sqlalchemy import String
from sqlalchemy.ext.associationproxy import association_proxy
from sqlalchemy.ext.associationproxy import AssociationProxy
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 User(Base):
    __tablename__ = "user"

    id: Mapped[int] = mapped_column(primary_key=True)
    name: Mapped[str] = mapped_column(String(64))

    user_keyword_associations: Mapped[List[UserKeywordAssociation]] = relationship(
        back_populates="user",
        cascade="all, delete-orphan",
    )

    # association proxy of "user_keyword_associations" collection
    # to "keyword" attribute
    keywords: AssociationProxy[List[Keyword]] = association_proxy(
        "user_keyword_associations",
        "keyword",
        creator=lambda keyword_obj: UserKeywordAssociation(keyword=keyword_obj),
    )

    def __init__(self, name: str):
        self.name = name


class UserKeywordAssociation(Base):
    __tablename__ = "user_keyword"
    user_id: Mapped[int] = mapped_column(ForeignKey("user.id"), primary_key=True)
    keyword_id: Mapped[int] = mapped_column(ForeignKey("keyword.id"), primary_key=True)
    special_key: Mapped[Optional[str]] = mapped_column(String(50))

    user: Mapped[User] = relationship(back_populates="user_keyword_associations")

    keyword: Mapped[Keyword] = relationship()


class Keyword(Base):
    __tablename__ = "keyword"
    id: Mapped[int] = mapped_column(primary_key=True)
    keyword: Mapped[str] = mapped_column("keyword", String(64))

    def __init__(self, keyword: str):
        self.keyword = keyword

    def __repr__(self) -> str:
        return f"Keyword({self.keyword!r})"

With the above configuration, we can operate upon the .keywords collection of each User object, each of which exposes a collection of Keyword objects that are obtained from the underlying UserKeywordAssociation elements:

>>> user = User("log")
>>> for kw in (Keyword("new_from_blammo"), Keyword("its_big")):
...     user.keywords.append(kw)
>>> print(user.keywords)
[Keyword('new_from_blammo'), Keyword('its_big')]

This example is in contrast to the example illustrated previously at Simplifying Scalar Collections, where the association proxy exposed a collection of strings, rather than a collection of composed objects. In this case, each .keywords.append() operation is equivalent to:

>>> user.user_keyword_associations.append(
...     UserKeywordAssociation(keyword=Keyword("its_heavy"))
... )

The UserKeywordAssociation object has two attributes that are both populated within the scope of the append() operation of the association proxy; .keyword, which refers to the Keyword object, and .user, which refers to the User object. The .keyword attribute is populated first, as the association proxy generates a new UserKeywordAssociation object in response to the .append() operation, assigning the given Keyword instance to the .keyword attribute. Then, as the UserKeywordAssociation object is appended to the User.user_keyword_associations collection, the UserKeywordAssociation.user attribute, configured as back_populates for User.user_keyword_associations, is initialized upon the given UserKeywordAssociation instance to refer to the parent User receiving the append operation. The special_key argument above is left at its default value of None.

For those cases where we do want special_key to have a value, we create the UserKeywordAssociation object explicitly. Below we assign all three attributes, wherein the assignment of .user during construction, has the effect of appending the new UserKeywordAssociation to the User.user_keyword_associations collection (via the relationship):

>>> UserKeywordAssociation(
...     keyword=Keyword("its_wood"), user=user, special_key="my special key"
... )

The association proxy returns to us a collection of Keyword objects represented by all these operations:

>>> print(user.keywords)
[Keyword('new_from_blammo'), Keyword('its_big'), Keyword('its_heavy'), Keyword('its_wood')]

Proxying to Dictionary Based Collections

The association proxy can proxy to dictionary based collections as well. SQLAlchemy mappings usually use the attribute_keyed_dict() collection type to create dictionary collections, as well as the extended techniques described in Custom Dictionary-Based Collections.

The association proxy adjusts its behavior when it detects the usage of a dictionary-based collection. When new values are added to the dictionary, the association proxy instantiates the intermediary object by passing two arguments to the creation function instead of one, the key and the value. As always, this creation function defaults to the constructor of the intermediary class, and can be customized using the creator argument.

Below, we modify our UserKeywordAssociation example such that the User.user_keyword_associations collection will now be mapped using a dictionary, where the UserKeywordAssociation.special_key argument will be used as the key for the dictionary. We also apply a creator argument to the User.keywords proxy so that these values are assigned appropriately when new elements are added to the dictionary:

from __future__ import annotations
from typing import Dict

from sqlalchemy import ForeignKey
from sqlalchemy import String
from sqlalchemy.ext.associationproxy import association_proxy
from sqlalchemy.ext.associationproxy import AssociationProxy
from sqlalchemy.orm import DeclarativeBase
from sqlalchemy.orm import Mapped
from sqlalchemy.orm import mapped_column
from sqlalchemy.orm import relationship
from sqlalchemy.orm.collections import attribute_keyed_dict


class Base(DeclarativeBase):
    pass


class User(Base):
    __tablename__ = "user"
    id: Mapped[int] = mapped_column(primary_key=True)
    name: Mapped[str] = mapped_column(String(64))

    # user/user_keyword_associations relationship, mapping
    # user_keyword_associations with a dictionary against "special_key" as key.
    user_keyword_associations: Mapped[Dict[str, UserKeywordAssociation]] = relationship(
        back_populates="user",
        collection_class=attribute_keyed_dict("special_key"),
        cascade="all, delete-orphan",
    )
    # proxy to 'user_keyword_associations', instantiating
    # UserKeywordAssociation assigning the new key to 'special_key',
    # values to 'keyword'.
    keywords: AssociationProxy[Dict[str, Keyword]] = association_proxy(
        "user_keyword_associations",
        "keyword",
        creator=lambda k, v: UserKeywordAssociation(special_key=k, keyword=v),
    )

    def __init__(self, name: str):
        self.name = name


class UserKeywordAssociation(Base):
    __tablename__ = "user_keyword"
    user_id: Mapped[int] = mapped_column(ForeignKey("user.id"), primary_key=True)
    keyword_id: Mapped[int] = mapped_column(ForeignKey("keyword.id"), primary_key=True)
    special_key: Mapped[str]

    user: Mapped[User] = relationship(
        back_populates="user_keyword_associations",
    )
    keyword: Mapped[Keyword] = relationship()


class Keyword(Base):
    __tablename__ = "keyword"
    id: Mapped[int] = mapped_column(primary_key=True)
    keyword: Mapped[str] = mapped_column(String(64))

    def __init__(self, keyword: str):
        self.keyword = keyword

    def __repr__(self) -> str:
        return f"Keyword({self.keyword!r})"

We illustrate the .keywords collection as a dictionary, mapping the UserKeywordAssociation.special_key value to Keyword objects:

>>> user = User("log")

>>> user.keywords["sk1"] = Keyword("kw1")
>>> user.keywords["sk2"] = Keyword("kw2")

>>> print(user.keywords)
{'sk1': Keyword('kw1'), 'sk2': Keyword('kw2')}

Composite Association Proxies

Given our previous examples of proxying from relationship to scalar attribute, proxying across an association object, and proxying dictionaries, we can combine all three techniques together to give User a keywords dictionary that deals strictly with the string value of special_key mapped to the string keyword. Both the UserKeywordAssociation and Keyword classes are entirely concealed. This is achieved by building an association proxy on User that refers to an association proxy present on UserKeywordAssociation:

from __future__ import annotations

from sqlalchemy import ForeignKey
from sqlalchemy import String
from sqlalchemy.ext.associationproxy import association_proxy
from sqlalchemy.ext.associationproxy import AssociationProxy
from sqlalchemy.orm import DeclarativeBase
from sqlalchemy.orm import Mapped
from sqlalchemy.orm import mapped_column
from sqlalchemy.orm import relationship
from sqlalchemy.orm.collections import attribute_keyed_dict


class Base(DeclarativeBase):
    pass


class User(Base):
    __tablename__ = "user"
    id: Mapped[int] = mapped_column(primary_key=True)
    name: Mapped[str] = mapped_column(String(64))

    user_keyword_associations: Mapped[Dict[str, UserKeywordAssociation]] = relationship(
        back_populates="user",
        collection_class=attribute_keyed_dict("special_key"),
        cascade="all, delete-orphan",
    )
    # the same 'user_keyword_associations'->'keyword' proxy as in
    # the basic dictionary example.
    keywords: AssociationProxy[Dict[str, str]] = association_proxy(
        "user_keyword_associations",
        "keyword",
        creator=lambda k, v: UserKeywordAssociation(special_key=k, keyword=v),
    )

    def __init__(self, name: str):
        self.name = name


class UserKeywordAssociation(Base):
    __tablename__ = "user_keyword"
    user_id: Mapped[int] = mapped_column(ForeignKey("user.id"), primary_key=True)
    keyword_id: Mapped[int] = mapped_column(ForeignKey("keyword.id"), primary_key=True)
    special_key: Mapped[str] = mapped_column(String(64))
    user: Mapped[User] = relationship(
        back_populates="user_keyword_associations",
    )

    # the relationship to Keyword is now called
    # 'kw'
    kw: Mapped[Keyword] = relationship()

    # 'keyword' is changed to be a proxy to the
    # 'keyword' attribute of 'Keyword'
    keyword: AssociationProxy[Dict[str, str]] = association_proxy("kw", "keyword")


class Keyword(Base):
    __tablename__ = "keyword"
    id: Mapped[int] = mapped_column(primary_key=True)
    keyword: Mapped[str] = mapped_column(String(64))

    def __init__(self, keyword: str):
        self.keyword = keyword

User.keywords is now a dictionary of string to string, where UserKeywordAssociation and Keyword objects are created and removed for us transparently using the association proxy. In the example below, we illustrate usage of the assignment operator, also appropriately handled by the association proxy, to apply a dictionary value to the collection at once:

>>> user = User("log")
>>> user.keywords = {"sk1": "kw1", "sk2": "kw2"}
>>> print(user.keywords)
{'sk1': 'kw1', 'sk2': 'kw2'}

>>> user.keywords["sk3"] = "kw3"
>>> del user.keywords["sk2"]
>>> print(user.keywords)
{'sk1': 'kw1', 'sk3': 'kw3'}

>>> # illustrate un-proxied usage
... print(user.user_keyword_associations["sk3"].kw)
<__main__.Keyword object at 0x12ceb90>

One caveat with our example above is that because Keyword objects are created for each dictionary set operation, the example fails to maintain uniqueness for the Keyword objects on their string name, which is a typical requirement for a tagging scenario such as this one. For this use case the recipe UniqueObject, or a comparable creational strategy, is recommended, which will apply a “lookup first, then create” strategy to the constructor of the Keyword class, so that an already existing Keyword is returned if the given name is already present.

Querying with Association Proxies

The AssociationProxy features simple SQL construction capabilities which work at the class level in a similar way as other ORM-mapped attributes, and provide rudimentary filtering support primarily based on the SQL EXISTS keyword.

Note

The primary purpose of the association proxy extension is to allow for improved persistence and object-access patterns with mapped object instances that are already loaded. The class-bound querying feature is of limited use and will not replace the need to refer to the underlying attributes when constructing SQL queries with JOINs, eager loading options, etc.

For this section, assume a class with both an association proxy that refers to a column, as well as an association proxy that refers to a related object, as in the example mapping below:

from __future__ import annotations
from sqlalchemy import Column, ForeignKey, Integer, String
from sqlalchemy.ext.associationproxy import association_proxy, AssociationProxy
from sqlalchemy.orm import DeclarativeBase, relationship
from sqlalchemy.orm.collections import attribute_keyed_dict
from sqlalchemy.orm.collections import Mapped


class Base(DeclarativeBase):
    pass


class User(Base):
    __tablename__ = "user"
    id: Mapped[int] = mapped_column(primary_key=True)
    name: Mapped[str] = mapped_column(String(64))

    user_keyword_associations: Mapped[UserKeywordAssociation] = relationship(
        cascade="all, delete-orphan",
    )

    # object-targeted association proxy
    keywords: AssociationProxy[List[Keyword]] = association_proxy(
        "user_keyword_associations",
        "keyword",
    )

    # column-targeted association proxy
    special_keys: AssociationProxy[List[str]] = association_proxy(
        "user_keyword_associations", "special_key"
    )


class UserKeywordAssociation(Base):
    __tablename__ = "user_keyword"
    user_id: Mapped[int] = mapped_column(ForeignKey("user.id"), primary_key=True)
    keyword_id: Mapped[int] = mapped_column(ForeignKey("keyword.id"), primary_key=True)
    special_key: Mapped[str] = mapped_column(String(64))
    keyword: Mapped[Keyword] = relationship()


class Keyword(Base):
    __tablename__ = "keyword"
    id: Mapped[int] = mapped_column(primary_key=True)
    keyword: Mapped[str] = mapped_column(String(64))

The SQL generated takes the form of a correlated subquery against the EXISTS SQL operator so that it can be used in a WHERE clause without the need for additional modifications to the enclosing query. If the immediate target of an association proxy is a mapped column expression, standard column operators can be used which will be embedded in the subquery. For example a straight equality operator:

>>> print(session.scalars(select(User).where(User.special_keys == "jek")))
SELECT "user".id AS user_id, "user".name AS user_name FROM "user" WHERE EXISTS (SELECT 1 FROM user_keyword WHERE "user".id = user_keyword.user_id AND user_keyword.special_key = :special_key_1)

a LIKE operator:

>>> print(session.scalars(select(User).where(User.special_keys.like("%jek"))))
SELECT "user".id AS user_id, "user".name AS user_name FROM "user" WHERE EXISTS (SELECT 1 FROM user_keyword WHERE "user".id = user_keyword.user_id AND user_keyword.special_key LIKE :special_key_1)

For association proxies where the immediate target is a related object or collection, or another association proxy or attribute on the related object, relationship-oriented operators can be used instead, such as PropComparator.has() and PropComparator.any(). The User.keywords attribute is in fact two association proxies linked together, so when using this proxy for generating SQL phrases, we get two levels of EXISTS subqueries:

>>> print(session.scalars(select(User).where(User.keywords.any(Keyword.keyword == "jek"))))
SELECT "user".id AS user_id, "user".name AS user_name FROM "user" WHERE EXISTS (SELECT 1 FROM user_keyword WHERE "user".id = user_keyword.user_id AND (EXISTS (SELECT 1 FROM keyword WHERE keyword.id = user_keyword.keyword_id AND keyword.keyword = :keyword_1)))

This is not the most efficient form of SQL, so while association proxies can be convenient for generating WHERE criteria quickly, SQL results should be inspected and “unrolled” into explicit JOIN criteria for best use, especially when chaining association proxies together.

Changed in version 1.3: Association proxy features distinct querying modes based on the type of target. See AssociationProxy now provides standard column operators for a column-oriented target.

Cascading Scalar Deletes

New in version 1.3.

Given a mapping as:

from __future__ import annotations
from sqlalchemy import Column, ForeignKey, Integer, String
from sqlalchemy.ext.associationproxy import association_proxy, AssociationProxy
from sqlalchemy.orm import DeclarativeBase, relationship
from sqlalchemy.orm.collections import attribute_keyed_dict
from sqlalchemy.orm.collections import Mapped


class Base(DeclarativeBase):
    pass


class A(Base):
    __tablename__ = "test_a"
    id: Mapped[int] = mapped_column(primary_key=True)
    ab: Mapped[AB] = relationship(uselist=False)
    b: AssociationProxy[B] = association_proxy(
        "ab", "b", creator=lambda b: AB(b=b), cascade_scalar_deletes=True
    )


class B(Base):
    __tablename__ = "test_b"
    id: Mapped[int] = mapped_column(primary_key=True)


class AB(Base):
    __tablename__ = "test_ab"
    a_id: Mapped[int] = mapped_column(ForeignKey(A.id), primary_key=True)
    b_id: Mapped[int] = mapped_column(ForeignKey(B.id), primary_key=True)

    b: Mapped[B] = relationship()

An assignment to A.b will generate an AB object:

a.b = B()

The A.b association is scalar, and includes use of the parameter AssociationProxy.cascade_scalar_deletes. When this parameter is enabled, setting A.b to None will remove A.ab as well:

a.b = None
assert a.ab is None

When AssociationProxy.cascade_scalar_deletes is not set, the association object a.ab above would remain in place.

Note that this is not the behavior for collection-based association proxies; in that case, the intermediary association object is always removed when members of the proxied collection are removed. Whether or not the row is deleted depends on the relationship cascade setting.

See also

Cascades

Scalar Relationships

The example below illustrates the use of the association proxy on the many side of of a one-to-many relationship, accessing attributes of a scalar object:

from __future__ import annotations

from typing import List

from sqlalchemy import ForeignKey
from sqlalchemy import String
from sqlalchemy.ext.associationproxy import association_proxy
from sqlalchemy.ext.associationproxy import AssociationProxy
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 Recipe(Base):
    __tablename__ = "recipe"
    id: Mapped[int] = mapped_column(primary_key=True)
    name: Mapped[str] = mapped_column(String(64))

    steps: Mapped[List[Step]] = relationship(back_populates="recipe")
    step_descriptions: AssociationProxy[List[str]] = association_proxy(
        "steps", "description"
    )


class Step(Base):
    __tablename__ = "step"
    id: Mapped[int] = mapped_column(primary_key=True)
    description: Mapped[str]
    recipe_id: Mapped[int] = mapped_column(ForeignKey("recipe.id"))
    recipe: Mapped[Recipe] = relationship(back_populates="steps")

    recipe_name: AssociationProxy[str] = association_proxy("recipe", "name")

    def __init__(self, description: str) -> None:
        self.description = description


my_snack = Recipe(
    name="afternoon snack",
    step_descriptions=[
        "slice bread",
        "spread peanut butted",
        "eat sandwich",
    ],
)

A summary of the steps of my_snack can be printed using:

>>> for i, step in enumerate(my_snack.steps, 1):
...     print(f"Step {i} of {step.recipe_name!r}: {step.description}")
Step 1 of 'afternoon snack': slice bread
Step 2 of 'afternoon snack': spread peanut butted
Step 3 of 'afternoon snack': eat sandwich

API Documentation

Object Name Description

association_proxy(target_collection, attr, *, [creator, getset_factory, proxy_factory, proxy_bulk_set, info, cascade_scalar_deletes, create_on_none_assignment, init, repr, default, default_factory, compare, kw_only])

Return a Python property implementing a view of a target attribute which references an attribute on members of the target.

AssociationProxy

A descriptor that presents a read/write view of an object attribute.

AssociationProxyExtensionType

AssociationProxyInstance

A per-class object that serves class- and object-specific results.

ColumnAssociationProxyInstance

an AssociationProxyInstance that has a database column as a target.

ObjectAssociationProxyInstance

an AssociationProxyInstance that has an object as a target.

function sqlalchemy.ext.associationproxy.association_proxy(target_collection: str, attr: str, *, creator: _CreatorProtocol | None = None, getset_factory: _GetSetFactoryProtocol | None = None, proxy_factory: _ProxyFactoryProtocol | None = None, proxy_bulk_set: _ProxyBulkSetProtocol | None = None, info: _InfoType | None = None, cascade_scalar_deletes: bool = False, create_on_none_assignment: bool = False, init: _NoArg | bool = _NoArg.NO_ARG, repr: _NoArg | bool = _NoArg.NO_ARG, default: Any | None = _NoArg.NO_ARG, default_factory: _NoArg | Callable[[], _T] = _NoArg.NO_ARG, compare: _NoArg | bool = _NoArg.NO_ARG, kw_only: _NoArg | bool = _NoArg.NO_ARG) AssociationProxy[Any]

Return a Python property implementing a view of a target attribute which references an attribute on members of the target.

The returned value is an instance of AssociationProxy.

Implements a Python property representing a relationship as a collection of simpler values, or a scalar value. The proxied property will mimic the collection type of the target (list, dict or set), or, in the case of a one to one relationship, a simple scalar value.

Parameters:
  • target_collection – Name of the attribute that is the immediate target. This attribute is typically mapped by relationship() to link to a target collection, but can also be a many-to-one or non-scalar relationship.

  • attr – Attribute on the associated instance or instances that are available on instances of the target object.

  • creator

    optional.

    Defines custom behavior when new items are added to the proxied collection.

    By default, adding new items to the collection will trigger a construction of an instance of the target object, passing the given item as a positional argument to the target constructor. For cases where this isn’t sufficient, association_proxy.creator can supply a callable that will construct the object in the appropriate way, given the item that was passed.

    For list- and set- oriented collections, a single argument is passed to the callable. For dictionary oriented collections, two arguments are passed, corresponding to the key and value.

    The association_proxy.creator callable is also invoked for scalar (i.e. many-to-one, one-to-one) relationships. If the current value of the target relationship attribute is None, the callable is used to construct a new object. If an object value already exists, the given attribute value is populated onto that object.

  • cascade_scalar_deletes

    when True, indicates that setting the proxied value to None, or deleting it via del, should also remove the source object. Only applies to scalar attributes. Normally, removing the proxied target will not remove the proxy source, as this object may have other state that is still to be kept.

    New in version 1.3.

    See also

    Cascading Scalar Deletes - complete usage example

  • create_on_none_assignment

    when True, indicates that setting the proxied value to None should create the source object if it does not exist, using the creator. Only applies to scalar attributes. This is mutually exclusive vs. the assocation_proxy.cascade_scalar_deletes.

    New in version 2.0.18.

  • init

    Specific to Declarative Dataclass Mapping, specifies if the mapped attribute should be part of the __init__() method as generated by the dataclass process.

    New in version 2.0.0b4.

  • repr

    Specific to Declarative Dataclass Mapping, specifies if the attribute established by this AssociationProxy should be part of the __repr__() method as generated by the dataclass process.

    New in version 2.0.0b4.

  • default_factory

    Specific to Declarative Dataclass Mapping, specifies a default-value generation function that will take place as part of the __init__() method as generated by the dataclass process.

    New in version 2.0.0b4.

  • compare

    Specific to Declarative Dataclass Mapping, indicates if this field should be included in comparison operations when generating the __eq__() and __ne__() methods for the mapped class.

    New in version 2.0.0b4.

  • kw_only

    Specific to Declarative Dataclass Mapping, indicates if this field should be marked as keyword-only when generating the __init__() method as generated by the dataclass process.

    New in version 2.0.0b4.

  • info – optional, will be assigned to AssociationProxy.info if present.

The following additional parameters involve injection of custom behaviors within the AssociationProxy object and are for advanced use only:

Parameters:
  • getset_factory

    Optional. Proxied attribute access is automatically handled by routines that get and set values based on the attr argument for this proxy.

    If you would like to customize this behavior, you may supply a getset_factory callable that produces a tuple of getter and setter functions. The factory is called with two arguments, the abstract type of the underlying collection and this proxy instance.

  • proxy_factory – Optional. The type of collection to emulate is determined by sniffing the target collection. If your collection type can’t be determined by duck typing or you’d like to use a different collection implementation, you may supply a factory function to produce those collections. Only applicable to non-scalar relationships.

  • proxy_bulk_set – Optional, use with proxy_factory.

class sqlalchemy.ext.associationproxy.AssociationProxy

A descriptor that presents a read/write view of an object attribute.

Class signature

class sqlalchemy.ext.associationproxy.AssociationProxy (sqlalchemy.orm.base.InspectionAttrInfo, sqlalchemy.orm.base.ORMDescriptor, sqlalchemy.orm._DCAttributeOptions, sqlalchemy.ext.associationproxy._AssociationProxyProtocol)

method sqlalchemy.ext.associationproxy.AssociationProxy.__init__(target_collection: str, attr: str, *, creator: _CreatorProtocol | None = None, getset_factory: _GetSetFactoryProtocol | None = None, proxy_factory: _ProxyFactoryProtocol | None = None, proxy_bulk_set: _ProxyBulkSetProtocol | None = None, info: _InfoType | None = None, cascade_scalar_deletes: bool = False, create_on_none_assignment: bool = False, attribute_options: _AttributeOptions | None = None)

Construct a new AssociationProxy.

The AssociationProxy object is typically constructed using the association_proxy() constructor function. See the description of association_proxy() for a description of all parameters.

attribute sqlalchemy.ext.associationproxy.AssociationProxy.cascade_scalar_deletes: bool
attribute sqlalchemy.ext.associationproxy.AssociationProxy.create_on_none_assignment: bool
attribute sqlalchemy.ext.associationproxy.AssociationProxy.creator: _CreatorProtocol | None
attribute sqlalchemy.ext.associationproxy.AssociationProxy.extension_type: InspectionAttrExtensionType = 'ASSOCIATION_PROXY'

The extension type, if any. Defaults to NotExtension.NOT_EXTENSION

method sqlalchemy.ext.associationproxy.AssociationProxy.for_class(class_: Type[Any], obj: object | None = None) AssociationProxyInstance[_T]

Return the internal state local to a specific mapped class.

E.g., given a class User:

class User(Base):
    # ...

    keywords = association_proxy('kws', 'keyword')

If we access this AssociationProxy from Mapper.all_orm_descriptors, and we want to view the target class for this proxy as mapped by User:

inspect(User).all_orm_descriptors["keywords"].for_class(User).target_class

This returns an instance of AssociationProxyInstance that is specific to the User class. The AssociationProxy object remains agnostic of its parent class.

Parameters:
  • class_ – the class that we are returning state for.

  • obj – optional, an instance of the class that is required if the attribute refers to a polymorphic target, e.g. where we have to look at the type of the actual destination object to get the complete path.

New in version 1.3: - AssociationProxy no longer stores any state specific to a particular parent class; the state is now stored in per-class AssociationProxyInstance objects.

attribute sqlalchemy.ext.associationproxy.AssociationProxy.getset_factory: _GetSetFactoryProtocol | None
attribute sqlalchemy.ext.associationproxy.AssociationProxy.info

inherited from the InspectionAttrInfo.info attribute of InspectionAttrInfo

Info dictionary associated with the object, allowing user-defined data to be associated with this InspectionAttr.

The dictionary is generated when first accessed. Alternatively, it can be specified as a constructor argument to the column_property(), relationship(), or composite() functions.

attribute sqlalchemy.ext.associationproxy.AssociationProxy.is_aliased_class = False

inherited from the InspectionAttr.is_aliased_class attribute of InspectionAttr

True if this object is an instance of AliasedClass.

attribute sqlalchemy.ext.associationproxy.AssociationProxy.is_attribute = True

True if this object is a Python descriptor.

This can refer to one of many types. Usually a QueryableAttribute which handles attributes events on behalf of a MapperProperty. But can also be an extension type such as AssociationProxy or hybrid_property. The InspectionAttr.extension_type will refer to a constant identifying the specific subtype.

attribute sqlalchemy.ext.associationproxy.AssociationProxy.is_bundle = False

inherited from the InspectionAttr.is_bundle attribute of InspectionAttr

True if this object is an instance of Bundle.

attribute sqlalchemy.ext.associationproxy.AssociationProxy.is_clause_element = False

inherited from the InspectionAttr.is_clause_element attribute of InspectionAttr

True if this object is an instance of ClauseElement.

attribute sqlalchemy.ext.associationproxy.AssociationProxy.is_instance = False

inherited from the InspectionAttr.is_instance attribute of InspectionAttr

True if this object is an instance of InstanceState.

attribute sqlalchemy.ext.associationproxy.AssociationProxy.is_mapper = False

inherited from the InspectionAttr.is_mapper attribute of InspectionAttr

True if this object is an instance of Mapper.

attribute sqlalchemy.ext.associationproxy.AssociationProxy.is_property = False

inherited from the InspectionAttr.is_property attribute of InspectionAttr

True if this object is an instance of MapperProperty.

attribute sqlalchemy.ext.associationproxy.AssociationProxy.is_selectable = False

inherited from the InspectionAttr.is_selectable attribute of InspectionAttr

Return True if this object is an instance of Selectable.

attribute sqlalchemy.ext.associationproxy.AssociationProxy.key: str
attribute sqlalchemy.ext.associationproxy.AssociationProxy.proxy_bulk_set: _ProxyBulkSetProtocol | None
attribute sqlalchemy.ext.associationproxy.AssociationProxy.proxy_factory: _ProxyFactoryProtocol | None
attribute sqlalchemy.ext.associationproxy.AssociationProxy.target_collection: str
attribute sqlalchemy.ext.associationproxy.AssociationProxy.value_attr: str
class sqlalchemy.ext.associationproxy.AssociationProxyInstance

A per-class object that serves class- and object-specific results.

This is used by AssociationProxy when it is invoked in terms of a specific class or instance of a class, i.e. when it is used as a regular Python descriptor.

When referring to the AssociationProxy as a normal Python descriptor, the AssociationProxyInstance is the object that actually serves the information. Under normal circumstances, its presence is transparent:

>>> User.keywords.scalar
False

In the special case that the AssociationProxy object is being accessed directly, in order to get an explicit handle to the AssociationProxyInstance, use the AssociationProxy.for_class() method:

proxy_state = inspect(User).all_orm_descriptors["keywords"].for_class(User)

# view if proxy object is scalar or not
>>> proxy_state.scalar
False

New in version 1.3.

Class signature

class sqlalchemy.ext.associationproxy.AssociationProxyInstance (sqlalchemy.orm.base.SQLORMOperations)

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.__eq__(other: Any) ColumnOperators

inherited from the sqlalchemy.sql.expression.ColumnOperators.__eq__ method of ColumnOperators

Implement the == operator.

In a column context, produces the clause a = b. If the target is None, produces a IS NULL.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.__le__(other: Any) ColumnOperators

inherited from the sqlalchemy.sql.expression.ColumnOperators.__le__ method of ColumnOperators

Implement the <= operator.

In a column context, produces the clause a <= b.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.__lt__(other: Any) ColumnOperators

inherited from the sqlalchemy.sql.expression.ColumnOperators.__lt__ method of ColumnOperators

Implement the < operator.

In a column context, produces the clause a < b.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.__ne__(other: Any) ColumnOperators

inherited from the sqlalchemy.sql.expression.ColumnOperators.__ne__ method of ColumnOperators

Implement the != operator.

In a column context, produces the clause a != b. If the target is None, produces a IS NOT NULL.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.all_() ColumnOperators

inherited from the ColumnOperators.all_() method of ColumnOperators

Produce an all_() clause against the parent object.

See the documentation for all_() for examples.

Note

be sure to not confuse the newer ColumnOperators.all_() method with its older ARRAY-specific counterpart, the Comparator.all() method, which a different calling syntax and usage pattern.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.any(criterion: _ColumnExpressionArgument[bool] | None = None, **kwargs: Any) ColumnElement[bool]

Produce a proxied ‘any’ expression using EXISTS.

This expression will be a composed product using the Comparator.any() and/or Comparator.has() operators of the underlying proxied attributes.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.any_() ColumnOperators

inherited from the ColumnOperators.any_() method of ColumnOperators

Produce an any_() clause against the parent object.

See the documentation for any_() for examples.

Note

be sure to not confuse the newer ColumnOperators.any_() method with its older ARRAY-specific counterpart, the Comparator.any() method, which a different calling syntax and usage pattern.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.asc() ColumnOperators

inherited from the ColumnOperators.asc() method of ColumnOperators

Produce a asc() clause against the parent object.

attribute sqlalchemy.ext.associationproxy.AssociationProxyInstance.attr

Return a tuple of (local_attr, remote_attr).

This attribute was originally intended to facilitate using the Query.join() method to join across the two relationships at once, however this makes use of a deprecated calling style.

To use select.join() or Query.join() with an association proxy, the current method is to make use of the AssociationProxyInstance.local_attr and AssociationProxyInstance.remote_attr attributes separately:

stmt = (
    select(Parent).
    join(Parent.proxied.local_attr).
    join(Parent.proxied.remote_attr)
)

A future release may seek to provide a more succinct join pattern for association proxy attributes.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.between(cleft: Any, cright: Any, symmetric: bool = False) ColumnOperators

inherited from the ColumnOperators.between() method of ColumnOperators

Produce a between() clause against the parent object, given the lower and upper range.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.bitwise_and(other: Any) ColumnOperators

inherited from the ColumnOperators.bitwise_and() method of ColumnOperators

Produce a bitwise AND operation, typically via the & operator.

New in version 2.0.2.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.bitwise_lshift(other: Any) ColumnOperators

inherited from the ColumnOperators.bitwise_lshift() method of ColumnOperators

Produce a bitwise LSHIFT operation, typically via the << operator.

New in version 2.0.2.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.bitwise_not() ColumnOperators

inherited from the ColumnOperators.bitwise_not() method of ColumnOperators

Produce a bitwise NOT operation, typically via the ~ operator.

New in version 2.0.2.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.bitwise_or(other: Any) ColumnOperators

inherited from the ColumnOperators.bitwise_or() method of ColumnOperators

Produce a bitwise OR operation, typically via the | operator.

New in version 2.0.2.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.bitwise_rshift(other: Any) ColumnOperators

inherited from the ColumnOperators.bitwise_rshift() method of ColumnOperators

Produce a bitwise RSHIFT operation, typically via the >> operator.

New in version 2.0.2.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.bitwise_xor(other: Any) ColumnOperators

inherited from the ColumnOperators.bitwise_xor() method of ColumnOperators

Produce a bitwise XOR operation, typically via the ^ operator, or # for PostgreSQL.

New in version 2.0.2.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.bool_op(opstring: str, precedence: int = 0, python_impl: Callable[[...], Any] | None = None) Callable[[Any], Operators]

inherited from the Operators.bool_op() method of Operators

Return a custom boolean operator.

This method is shorthand for calling Operators.op() and passing the Operators.op.is_comparison flag with True. A key advantage to using Operators.bool_op() is that when using column constructs, the “boolean” nature of the returned expression will be present for PEP 484 purposes.

See also

Operators.op()

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.collate(collation: str) ColumnOperators

inherited from the ColumnOperators.collate() method of ColumnOperators

Produce a collate() clause against the parent object, given the collation string.

See also

collate()

attribute sqlalchemy.ext.associationproxy.AssociationProxyInstance.collection_class: Type[Any] | None
method sqlalchemy.ext.associationproxy.AssociationProxyInstance.concat(other: Any) ColumnOperators

inherited from the ColumnOperators.concat() method of ColumnOperators

Implement the ‘concat’ operator.

In a column context, produces the clause a || b, or uses the concat() operator on MySQL.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.contains(other: Any, **kw: Any) ColumnOperators

inherited from the ColumnOperators.contains() method of ColumnOperators

Implement the ‘contains’ operator.

Produces a LIKE expression that tests against a match for the middle of a string value:

column LIKE '%' || <other> || '%'

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.contains("foobar"))

Since the operator uses LIKE, wildcard characters "%" and "_" that are present inside the <other> expression will behave like wildcards as well. For literal string values, the ColumnOperators.contains.autoescape flag may be set to True to apply escaping to occurrences of these characters within the string value so that they match as themselves and not as wildcard characters. Alternatively, the ColumnOperators.contains.escape parameter will establish a given character as an escape character which can be of use when the target expression is not a literal string.

Parameters:
  • other – expression to be compared. This is usually a plain string value, but can also be an arbitrary SQL expression. LIKE wildcard characters % and _ are not escaped by default unless the ColumnOperators.contains.autoescape flag is set to True.

  • autoescape

    boolean; when True, establishes an escape character within the LIKE expression, then applies it to all occurrences of "%", "_" and the escape character itself within the comparison value, which is assumed to be a literal string and not a SQL expression.

    An expression such as:

    somecolumn.contains("foo%bar", autoescape=True)

    Will render as:

    somecolumn LIKE '%' || :param || '%' ESCAPE '/'

    With the value of :param as "foo/%bar".

  • escape

    a character which when given will render with the ESCAPE keyword to establish that character as the escape character. This character can then be placed preceding occurrences of % and _ to allow them to act as themselves and not wildcard characters.

    An expression such as:

    somecolumn.contains("foo/%bar", escape="^")

    Will render as:

    somecolumn LIKE '%' || :param || '%' ESCAPE '^'

    The parameter may also be combined with ColumnOperators.contains.autoescape:

    somecolumn.contains("foo%bar^bat", escape="^", autoescape=True)

    Where above, the given literal parameter will be converted to "foo^%bar^^bat" before being passed to the database.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.delete(obj: Any) None
method sqlalchemy.ext.associationproxy.AssociationProxyInstance.desc() ColumnOperators

inherited from the ColumnOperators.desc() method of ColumnOperators

Produce a desc() clause against the parent object.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.distinct() ColumnOperators

inherited from the ColumnOperators.distinct() method of ColumnOperators

Produce a distinct() clause against the parent object.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.endswith(other: Any, escape: str | None = None, autoescape: bool = False) ColumnOperators

inherited from the ColumnOperators.endswith() method of ColumnOperators

Implement the ‘endswith’ operator.

Produces a LIKE expression that tests against a match for the end of a string value:

column LIKE '%' || <other>

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.endswith("foobar"))

Since the operator uses LIKE, wildcard characters "%" and "_" that are present inside the <other> expression will behave like wildcards as well. For literal string values, the ColumnOperators.endswith.autoescape flag may be set to True to apply escaping to occurrences of these characters within the string value so that they match as themselves and not as wildcard characters. Alternatively, the ColumnOperators.endswith.escape parameter will establish a given character as an escape character which can be of use when the target expression is not a literal string.

Parameters:
  • other – expression to be compared. This is usually a plain string value, but can also be an arbitrary SQL expression. LIKE wildcard characters % and _ are not escaped by default unless the ColumnOperators.endswith.autoescape flag is set to True.

  • autoescape

    boolean; when True, establishes an escape character within the LIKE expression, then applies it to all occurrences of "%", "_" and the escape character itself within the comparison value, which is assumed to be a literal string and not a SQL expression.

    An expression such as:

    somecolumn.endswith("foo%bar", autoescape=True)

    Will render as:

    somecolumn LIKE '%' || :param ESCAPE '/'

    With the value of :param as "foo/%bar".

  • escape

    a character which when given will render with the ESCAPE keyword to establish that character as the escape character. This character can then be placed preceding occurrences of % and _ to allow them to act as themselves and not wildcard characters.

    An expression such as:

    somecolumn.endswith("foo/%bar", escape="^")

    Will render as:

    somecolumn LIKE '%' || :param ESCAPE '^'

    The parameter may also be combined with ColumnOperators.endswith.autoescape:

    somecolumn.endswith("foo%bar^bat", escape="^", autoescape=True)

    Where above, the given literal parameter will be converted to "foo^%bar^^bat" before being passed to the database.

classmethod sqlalchemy.ext.associationproxy.AssociationProxyInstance.for_proxy(parent: AssociationProxy[_T], owning_class: Type[Any], parent_instance: Any) AssociationProxyInstance[_T]
method sqlalchemy.ext.associationproxy.AssociationProxyInstance.get(obj: Any) _T | None | AssociationProxyInstance[_T]
method sqlalchemy.ext.associationproxy.AssociationProxyInstance.has(criterion: _ColumnExpressionArgument[bool] | None = None, **kwargs: Any) ColumnElement[bool]

Produce a proxied ‘has’ expression using EXISTS.

This expression will be a composed product using the Comparator.any() and/or Comparator.has() operators of the underlying proxied attributes.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.icontains(other: Any, **kw: Any) ColumnOperators

inherited from the ColumnOperators.icontains() method of ColumnOperators

Implement the icontains operator, e.g. case insensitive version of ColumnOperators.contains().

Produces a LIKE expression that tests against an insensitive match for the middle of a string value:

lower(column) LIKE '%' || lower(<other>) || '%'

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.icontains("foobar"))

Since the operator uses LIKE, wildcard characters "%" and "_" that are present inside the <other> expression will behave like wildcards as well. For literal string values, the ColumnOperators.icontains.autoescape flag may be set to True to apply escaping to occurrences of these characters within the string value so that they match as themselves and not as wildcard characters. Alternatively, the ColumnOperators.icontains.escape parameter will establish a given character as an escape character which can be of use when the target expression is not a literal string.

Parameters:
  • other – expression to be compared. This is usually a plain string value, but can also be an arbitrary SQL expression. LIKE wildcard characters % and _ are not escaped by default unless the ColumnOperators.icontains.autoescape flag is set to True.

  • autoescape

    boolean; when True, establishes an escape character within the LIKE expression, then applies it to all occurrences of "%", "_" and the escape character itself within the comparison value, which is assumed to be a literal string and not a SQL expression.

    An expression such as:

    somecolumn.icontains("foo%bar", autoescape=True)

    Will render as:

    lower(somecolumn) LIKE '%' || lower(:param) || '%' ESCAPE '/'

    With the value of :param as "foo/%bar".

  • escape

    a character which when given will render with the ESCAPE keyword to establish that character as the escape character. This character can then be placed preceding occurrences of % and _ to allow them to act as themselves and not wildcard characters.

    An expression such as:

    somecolumn.icontains("foo/%bar", escape="^")

    Will render as:

    lower(somecolumn) LIKE '%' || lower(:param) || '%' ESCAPE '^'

    The parameter may also be combined with ColumnOperators.contains.autoescape:

    somecolumn.icontains("foo%bar^bat", escape="^", autoescape=True)

    Where above, the given literal parameter will be converted to "foo^%bar^^bat" before being passed to the database.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.iendswith(other: Any, escape: str | None = None, autoescape: bool = False) ColumnOperators

inherited from the ColumnOperators.iendswith() method of ColumnOperators

Implement the iendswith operator, e.g. case insensitive version of ColumnOperators.endswith().

Produces a LIKE expression that tests against an insensitive match for the end of a string value:

lower(column) LIKE '%' || lower(<other>)

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.iendswith("foobar"))

Since the operator uses LIKE, wildcard characters "%" and "_" that are present inside the <other> expression will behave like wildcards as well. For literal string values, the ColumnOperators.iendswith.autoescape flag may be set to True to apply escaping to occurrences of these characters within the string value so that they match as themselves and not as wildcard characters. Alternatively, the ColumnOperators.iendswith.escape parameter will establish a given character as an escape character which can be of use when the target expression is not a literal string.

Parameters:
  • other – expression to be compared. This is usually a plain string value, but can also be an arbitrary SQL expression. LIKE wildcard characters % and _ are not escaped by default unless the ColumnOperators.iendswith.autoescape flag is set to True.

  • autoescape

    boolean; when True, establishes an escape character within the LIKE expression, then applies it to all occurrences of "%", "_" and the escape character itself within the comparison value, which is assumed to be a literal string and not a SQL expression.

    An expression such as:

    somecolumn.iendswith("foo%bar", autoescape=True)

    Will render as:

    lower(somecolumn) LIKE '%' || lower(:param) ESCAPE '/'

    With the value of :param as "foo/%bar".

  • escape

    a character which when given will render with the ESCAPE keyword to establish that character as the escape character. This character can then be placed preceding occurrences of % and _ to allow them to act as themselves and not wildcard characters.

    An expression such as:

    somecolumn.iendswith("foo/%bar", escape="^")

    Will render as:

    lower(somecolumn) LIKE '%' || lower(:param) ESCAPE '^'

    The parameter may also be combined with ColumnOperators.iendswith.autoescape:

    somecolumn.endswith("foo%bar^bat", escape="^", autoescape=True)

    Where above, the given literal parameter will be converted to "foo^%bar^^bat" before being passed to the database.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.ilike(other: Any, escape: str | None = None) ColumnOperators

inherited from the ColumnOperators.ilike() method of ColumnOperators

Implement the ilike operator, e.g. case insensitive LIKE.

In a column context, produces an expression either of the form:

lower(a) LIKE lower(other)

Or on backends that support the ILIKE operator:

a ILIKE other

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.ilike("%foobar%"))
Parameters:
  • other – expression to be compared

  • escape

    optional escape character, renders the ESCAPE keyword, e.g.:

    somecolumn.ilike("foo/%bar", escape="/")

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.in_(other: Any) ColumnOperators

inherited from the ColumnOperators.in_() method of ColumnOperators

Implement the in operator.

In a column context, produces the clause column IN <other>.

The given parameter other may be:

  • A list of literal values, e.g.:

    stmt.where(column.in_([1, 2, 3]))

    In this calling form, the list of items is converted to a set of bound parameters the same length as the list given:

    WHERE COL IN (?, ?, ?)
  • A list of tuples may be provided if the comparison is against a tuple_() containing multiple expressions:

    from sqlalchemy import tuple_
    stmt.where(tuple_(col1, col2).in_([(1, 10), (2, 20), (3, 30)]))
  • An empty list, e.g.:

    stmt.where(column.in_([]))

    In this calling form, the expression renders an “empty set” expression. These expressions are tailored to individual backends and are generally trying to get an empty SELECT statement as a subquery. Such as on SQLite, the expression is:

    WHERE col IN (SELECT 1 FROM (SELECT 1) WHERE 1!=1)

    Changed in version 1.4: empty IN expressions now use an execution-time generated SELECT subquery in all cases.

  • A bound parameter, e.g. bindparam(), may be used if it includes the bindparam.expanding flag:

    stmt.where(column.in_(bindparam('value', expanding=True)))

    In this calling form, the expression renders a special non-SQL placeholder expression that looks like:

    WHERE COL IN ([EXPANDING_value])

    This placeholder expression is intercepted at statement execution time to be converted into the variable number of bound parameter form illustrated earlier. If the statement were executed as:

    connection.execute(stmt, {"value": [1, 2, 3]})

    The database would be passed a bound parameter for each value:

    WHERE COL IN (?, ?, ?)

    New in version 1.2: added “expanding” bound parameters

    If an empty list is passed, a special “empty list” expression, which is specific to the database in use, is rendered. On SQLite this would be:

    WHERE COL IN (SELECT 1 FROM (SELECT 1) WHERE 1!=1)

    New in version 1.3: “expanding” bound parameters now support empty lists

  • a select() construct, which is usually a correlated scalar select:

    stmt.where(
        column.in_(
            select(othertable.c.y).
            where(table.c.x == othertable.c.x)
        )
    )

    In this calling form, ColumnOperators.in_() renders as given:

    WHERE COL IN (SELECT othertable.y
    FROM othertable WHERE othertable.x = table.x)
Parameters:

other – a list of literals, a select() construct, or a bindparam() construct that includes the bindparam.expanding flag set to True.

attribute sqlalchemy.ext.associationproxy.AssociationProxyInstance.info
method sqlalchemy.ext.associationproxy.AssociationProxyInstance.is_(other: Any) ColumnOperators

inherited from the ColumnOperators.is_() method of ColumnOperators

Implement the IS operator.

Normally, IS is generated automatically when comparing to a value of None, which resolves to NULL. However, explicit usage of IS may be desirable if comparing to boolean values on certain platforms.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.is_distinct_from(other: Any) ColumnOperators

Implement the IS DISTINCT FROM operator.

Renders “a IS DISTINCT FROM b” on most platforms; on some such as SQLite may render “a IS NOT b”.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.is_not(other: Any) ColumnOperators

inherited from the ColumnOperators.is_not() method of ColumnOperators

Implement the IS NOT operator.

Normally, IS NOT is generated automatically when comparing to a value of None, which resolves to NULL. However, explicit usage of IS NOT may be desirable if comparing to boolean values on certain platforms.

Changed in version 1.4: The is_not() operator is renamed from isnot() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.is_not_distinct_from(other: Any) ColumnOperators

Implement the IS NOT DISTINCT FROM operator.

Renders “a IS NOT DISTINCT FROM b” on most platforms; on some such as SQLite may render “a IS b”.

Changed in version 1.4: The is_not_distinct_from() operator is renamed from isnot_distinct_from() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.isnot(other: Any) ColumnOperators

inherited from the ColumnOperators.isnot() method of ColumnOperators

Implement the IS NOT operator.

Normally, IS NOT is generated automatically when comparing to a value of None, which resolves to NULL. However, explicit usage of IS NOT may be desirable if comparing to boolean values on certain platforms.

Changed in version 1.4: The is_not() operator is renamed from isnot() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.isnot_distinct_from(other: Any) ColumnOperators

Implement the IS NOT DISTINCT FROM operator.

Renders “a IS NOT DISTINCT FROM b” on most platforms; on some such as SQLite may render “a IS b”.

Changed in version 1.4: The is_not_distinct_from() operator is renamed from isnot_distinct_from() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.istartswith(other: Any, escape: str | None = None, autoescape: bool = False) ColumnOperators

inherited from the ColumnOperators.istartswith() method of ColumnOperators

Implement the istartswith operator, e.g. case insensitive version of ColumnOperators.startswith().

Produces a LIKE expression that tests against an insensitive match for the start of a string value:

lower(column) LIKE lower(<other>) || '%'

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.istartswith("foobar"))

Since the operator uses LIKE, wildcard characters "%" and "_" that are present inside the <other> expression will behave like wildcards as well. For literal string values, the ColumnOperators.istartswith.autoescape flag may be set to True to apply escaping to occurrences of these characters within the string value so that they match as themselves and not as wildcard characters. Alternatively, the ColumnOperators.istartswith.escape parameter will establish a given character as an escape character which can be of use when the target expression is not a literal string.

Parameters:
  • other – expression to be compared. This is usually a plain string value, but can also be an arbitrary SQL expression. LIKE wildcard characters % and _ are not escaped by default unless the ColumnOperators.istartswith.autoescape flag is set to True.

  • autoescape

    boolean; when True, establishes an escape character within the LIKE expression, then applies it to all occurrences of "%", "_" and the escape character itself within the comparison value, which is assumed to be a literal string and not a SQL expression.

    An expression such as:

    somecolumn.istartswith("foo%bar", autoescape=True)

    Will render as:

    lower(somecolumn) LIKE lower(:param) || '%' ESCAPE '/'

    With the value of :param as "foo/%bar".

  • escape

    a character which when given will render with the ESCAPE keyword to establish that character as the escape character. This character can then be placed preceding occurrences of % and _ to allow them to act as themselves and not wildcard characters.

    An expression such as:

    somecolumn.istartswith("foo/%bar", escape="^")

    Will render as:

    lower(somecolumn) LIKE lower(:param) || '%' ESCAPE '^'

    The parameter may also be combined with ColumnOperators.istartswith.autoescape:

    somecolumn.istartswith("foo%bar^bat", escape="^", autoescape=True)

    Where above, the given literal parameter will be converted to "foo^%bar^^bat" before being passed to the database.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.like(other: Any, escape: str | None = None) ColumnOperators

inherited from the ColumnOperators.like() method of ColumnOperators

Implement the like operator.

In a column context, produces the expression:

a LIKE other

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.like("%foobar%"))
Parameters:
  • other – expression to be compared

  • escape

    optional escape character, renders the ESCAPE keyword, e.g.:

    somecolumn.like("foo/%bar", escape="/")

attribute sqlalchemy.ext.associationproxy.AssociationProxyInstance.local_attr

The ‘local’ class attribute referenced by this AssociationProxyInstance.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.match(other: Any, **kwargs: Any) ColumnOperators

inherited from the ColumnOperators.match() method of ColumnOperators

Implements a database-specific ‘match’ operator.

ColumnOperators.match() attempts to resolve to a MATCH-like function or operator provided by the backend. Examples include:

  • PostgreSQL - renders x @@ plainto_tsquery(y)

    Changed in version 2.0: plainto_tsquery() is used instead of to_tsquery() for PostgreSQL now; for compatibility with other forms, see Full Text Search.

  • MySQL - renders MATCH (x) AGAINST (y IN BOOLEAN MODE)

    See also

    match - MySQL specific construct with additional features.

  • Oracle - renders CONTAINS(x, y)

  • other backends may provide special implementations.

  • Backends without any special implementation will emit the operator as “MATCH”. This is compatible with SQLite, for example.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.not_ilike(other: Any, escape: str | None = None) ColumnOperators

inherited from the ColumnOperators.not_ilike() method of ColumnOperators

implement the NOT ILIKE operator.

This is equivalent to using negation with ColumnOperators.ilike(), i.e. ~x.ilike(y).

Changed in version 1.4: The not_ilike() operator is renamed from notilike() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.not_in(other: Any) ColumnOperators

inherited from the ColumnOperators.not_in() method of ColumnOperators

implement the NOT IN operator.

This is equivalent to using negation with ColumnOperators.in_(), i.e. ~x.in_(y).

In the case that other is an empty sequence, the compiler produces an “empty not in” expression. This defaults to the expression “1 = 1” to produce true in all cases. The create_engine.empty_in_strategy may be used to alter this behavior.

Changed in version 1.4: The not_in() operator is renamed from notin_() in previous releases. The previous name remains available for backwards compatibility.

Changed in version 1.2: The ColumnOperators.in_() and ColumnOperators.not_in() operators now produce a “static” expression for an empty IN sequence by default.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.not_like(other: Any, escape: str | None = None) ColumnOperators

inherited from the ColumnOperators.not_like() method of ColumnOperators

implement the NOT LIKE operator.

This is equivalent to using negation with ColumnOperators.like(), i.e. ~x.like(y).

Changed in version 1.4: The not_like() operator is renamed from notlike() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.notilike(other: Any, escape: str | None = None) ColumnOperators

inherited from the ColumnOperators.notilike() method of ColumnOperators

implement the NOT ILIKE operator.

This is equivalent to using negation with ColumnOperators.ilike(), i.e. ~x.ilike(y).

Changed in version 1.4: The not_ilike() operator is renamed from notilike() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.notin_(other: Any) ColumnOperators

inherited from the ColumnOperators.notin_() method of ColumnOperators

implement the NOT IN operator.

This is equivalent to using negation with ColumnOperators.in_(), i.e. ~x.in_(y).

In the case that other is an empty sequence, the compiler produces an “empty not in” expression. This defaults to the expression “1 = 1” to produce true in all cases. The create_engine.empty_in_strategy may be used to alter this behavior.

Changed in version 1.4: The not_in() operator is renamed from notin_() in previous releases. The previous name remains available for backwards compatibility.

Changed in version 1.2: The ColumnOperators.in_() and ColumnOperators.not_in() operators now produce a “static” expression for an empty IN sequence by default.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.notlike(other: Any, escape: str | None = None) ColumnOperators

inherited from the ColumnOperators.notlike() method of ColumnOperators

implement the NOT LIKE operator.

This is equivalent to using negation with ColumnOperators.like(), i.e. ~x.like(y).

Changed in version 1.4: The not_like() operator is renamed from notlike() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.nulls_first() ColumnOperators

inherited from the ColumnOperators.nulls_first() method of ColumnOperators

Produce a nulls_first() clause against the parent object.

Changed in version 1.4: The nulls_first() operator is renamed from nullsfirst() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.nulls_last() ColumnOperators

inherited from the ColumnOperators.nulls_last() method of ColumnOperators

Produce a nulls_last() clause against the parent object.

Changed in version 1.4: The nulls_last() operator is renamed from nullslast() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.nullsfirst() ColumnOperators

inherited from the ColumnOperators.nullsfirst() method of ColumnOperators

Produce a nulls_first() clause against the parent object.

Changed in version 1.4: The nulls_first() operator is renamed from nullsfirst() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.nullslast() ColumnOperators

inherited from the ColumnOperators.nullslast() method of ColumnOperators

Produce a nulls_last() clause against the parent object.

Changed in version 1.4: The nulls_last() operator is renamed from nullslast() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.op(opstring: str, precedence: int = 0, is_comparison: bool = False, return_type: Type[TypeEngine[Any]] | TypeEngine[Any] | None = None, python_impl: Callable[..., Any] | None = None) Callable[[Any], Operators]

inherited from the Operators.op() method of Operators

Produce a generic operator function.

e.g.:

somecolumn.op("*")(5)

produces:

somecolumn * 5

This function can also be used to make bitwise operators explicit. For example:

somecolumn.op('&')(0xff)

is a bitwise AND of the value in somecolumn.

Parameters:
  • opstring – a string which will be output as the infix operator between this element and the expression passed to the generated function.

  • precedence

    precedence which the database is expected to apply to the operator in SQL expressions. This integer value acts as a hint for the SQL compiler to know when explicit parenthesis should be rendered around a particular operation. A lower number will cause the expression to be parenthesized when applied against another operator with higher precedence. The default value of 0 is lower than all operators except for the comma (,) and AS operators. A value of 100 will be higher or equal to all operators, and -100 will be lower than or equal to all operators.

    See also

    I’m using op() to generate a custom operator and my parenthesis are not coming out correctly - detailed description of how the SQLAlchemy SQL compiler renders parenthesis

  • is_comparison

    legacy; if True, the operator will be considered as a “comparison” operator, that is which evaluates to a boolean true/false value, like ==, >, etc. This flag is provided so that ORM relationships can establish that the operator is a comparison operator when used in a custom join condition.

    Using the is_comparison parameter is superseded by using the Operators.bool_op() method instead; this more succinct operator sets this parameter automatically, but also provides correct PEP 484 typing support as the returned object will express a “boolean” datatype, i.e. BinaryExpression[bool].

  • return_type – a TypeEngine class or object that will force the return type of an expression produced by this operator to be of that type. By default, operators that specify Operators.op.is_comparison will resolve to Boolean, and those that do not will be of the same type as the left-hand operand.

  • python_impl

    an optional Python function that can evaluate two Python values in the same way as this operator works when run on the database server. Useful for in-Python SQL expression evaluation functions, such as for ORM hybrid attributes, and the ORM “evaluator” used to match objects in a session after a multi-row update or delete.

    e.g.:

    >>> expr = column('x').op('+', python_impl=lambda a, b: a + b)('y')

    The operator for the above expression will also work for non-SQL left and right objects:

    >>> expr.operator(5, 10)
    15

    New in version 2.0.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.operate(op: OperatorType, *other: Any, **kwargs: Any) Operators

inherited from the Operators.operate() method of Operators

Operate on an argument.

This is the lowest level of operation, raises NotImplementedError by default.

Overriding this on a subclass can allow common behavior to be applied to all operations. For example, overriding ColumnOperators to apply func.lower() to the left and right side:

class MyComparator(ColumnOperators):
    def operate(self, op, other, **kwargs):
        return op(func.lower(self), func.lower(other), **kwargs)
Parameters:
  • op – Operator callable.

  • *other – the ‘other’ side of the operation. Will be a single scalar for most operations.

  • **kwargs – modifiers. These may be passed by special operators such as ColumnOperators.contains().

attribute sqlalchemy.ext.associationproxy.AssociationProxyInstance.parent: _AssociationProxyProtocol[_T]
method sqlalchemy.ext.associationproxy.AssociationProxyInstance.regexp_match(pattern: Any, flags: str | None = None) ColumnOperators

inherited from the ColumnOperators.regexp_match() method of ColumnOperators

Implements a database-specific ‘regexp match’ operator.

E.g.:

stmt = select(table.c.some_column).where(
    table.c.some_column.regexp_match('^(b|c)')
)

ColumnOperators.regexp_match() attempts to resolve to a REGEXP-like function or operator provided by the backend, however the specific regular expression syntax and flags available are not backend agnostic.

Examples include:

  • PostgreSQL - renders x ~ y or x !~ y when negated.

  • Oracle - renders REGEXP_LIKE(x, y)

  • SQLite - uses SQLite’s REGEXP placeholder operator and calls into the Python re.match() builtin.

  • other backends may provide special implementations.

  • Backends without any special implementation will emit the operator as “REGEXP” or “NOT REGEXP”. This is compatible with SQLite and MySQL, for example.

Regular expression support is currently implemented for Oracle, PostgreSQL, MySQL and MariaDB. Partial support is available for SQLite. Support among third-party dialects may vary.

Parameters:
  • pattern – The regular expression pattern string or column clause.

  • flags – Any regular expression string flags to apply, passed as plain Python string only. These flags are backend specific. Some backends, like PostgreSQL and MariaDB, may alternatively specify the flags as part of the pattern. When using the ignore case flag ‘i’ in PostgreSQL, the ignore case regexp match operator ~* or !~* will be used.

New in version 1.4.

Changed in version 1.4.48,: 2.0.18 Note that due to an implementation error, the “flags” parameter previously accepted SQL expression objects such as column expressions in addition to plain Python strings. This implementation did not work correctly with caching and was removed; strings only should be passed for the “flags” parameter, as these flags are rendered as literal inline values within SQL expressions.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.regexp_replace(pattern: Any, replacement: Any, flags: str | None = None) ColumnOperators

inherited from the ColumnOperators.regexp_replace() method of ColumnOperators

Implements a database-specific ‘regexp replace’ operator.

E.g.:

stmt = select(
    table.c.some_column.regexp_replace(
        'b(..)',
        'XY',
        flags='g'
    )
)

ColumnOperators.regexp_replace() attempts to resolve to a REGEXP_REPLACE-like function provided by the backend, that usually emit the function REGEXP_REPLACE(). However, the specific regular expression syntax and flags available are not backend agnostic.

Regular expression replacement support is currently implemented for Oracle, PostgreSQL, MySQL 8 or greater and MariaDB. Support among third-party dialects may vary.

Parameters:
  • pattern – The regular expression pattern string or column clause.

  • pattern – The replacement string or column clause.

  • flags – Any regular expression string flags to apply, passed as plain Python string only. These flags are backend specific. Some backends, like PostgreSQL and MariaDB, may alternatively specify the flags as part of the pattern.

New in version 1.4.

Changed in version 1.4.48,: 2.0.18 Note that due to an implementation error, the “flags” parameter previously accepted SQL expression objects such as column expressions in addition to plain Python strings. This implementation did not work correctly with caching and was removed; strings only should be passed for the “flags” parameter, as these flags are rendered as literal inline values within SQL expressions.

attribute sqlalchemy.ext.associationproxy.AssociationProxyInstance.remote_attr

The ‘remote’ class attribute referenced by this AssociationProxyInstance.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.reverse_operate(op: OperatorType, other: Any, **kwargs: Any) Operators

inherited from the Operators.reverse_operate() method of Operators

Reverse operate on an argument.

Usage is the same as operate().

attribute sqlalchemy.ext.associationproxy.AssociationProxyInstance.scalar

Return True if this AssociationProxyInstance proxies a scalar relationship on the local side.

method sqlalchemy.ext.associationproxy.AssociationProxyInstance.set(obj: Any, values: _T) None
method sqlalchemy.ext.associationproxy.AssociationProxyInstance.startswith(other: Any, escape: str | None = None, autoescape: bool = False) ColumnOperators

inherited from the ColumnOperators.startswith() method of ColumnOperators

Implement the startswith operator.

Produces a LIKE expression that tests against a match for the start of a string value:

column LIKE <other> || '%'

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.startswith("foobar"))

Since the operator uses LIKE, wildcard characters "%" and "_" that are present inside the <other> expression will behave like wildcards as well. For literal string values, the ColumnOperators.startswith.autoescape flag may be set to True to apply escaping to occurrences of these characters within the string value so that they match as themselves and not as wildcard characters. Alternatively, the ColumnOperators.startswith.escape parameter will establish a given character as an escape character which can be of use when the target expression is not a literal string.

Parameters:
  • other – expression to be compared. This is usually a plain string value, but can also be an arbitrary SQL expression. LIKE wildcard characters % and _ are not escaped by default unless the ColumnOperators.startswith.autoescape flag is set to True.

  • autoescape

    boolean; when True, establishes an escape character within the LIKE expression, then applies it to all occurrences of "%", "_" and the escape character itself within the comparison value, which is assumed to be a literal string and not a SQL expression.

    An expression such as:

    somecolumn.startswith("foo%bar", autoescape=True)

    Will render as:

    somecolumn LIKE :param || '%' ESCAPE '/'

    With the value of :param as "foo/%bar".

  • escape

    a character which when given will render with the ESCAPE keyword to establish that character as the escape character. This character can then be placed preceding occurrences of % and _ to allow them to act as themselves and not wildcard characters.

    An expression such as:

    somecolumn.startswith("foo/%bar", escape="^")

    Will render as:

    somecolumn LIKE :param || '%' ESCAPE '^'

    The parameter may also be combined with ColumnOperators.startswith.autoescape:

    somecolumn.startswith("foo%bar^bat", escape="^", autoescape=True)

    Where above, the given literal parameter will be converted to "foo^%bar^^bat" before being passed to the database.

attribute sqlalchemy.ext.associationproxy.AssociationProxyInstance.target_class: Type[Any]

The intermediary class handled by this AssociationProxyInstance.

Intercepted append/set/assignment events will result in the generation of new instances of this class.

attribute sqlalchemy.ext.associationproxy.AssociationProxyInstance.timetuple: Literal[None] = None

inherited from the ColumnOperators.timetuple attribute of ColumnOperators

Hack, allows datetime objects to be compared on the LHS.

class sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance

an AssociationProxyInstance that has an object as a target.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.__le__(other: Any) ColumnOperators

inherited from the sqlalchemy.sql.expression.ColumnOperators.__le__ method of ColumnOperators

Implement the <= operator.

In a column context, produces the clause a <= b.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.__lt__(other: Any) ColumnOperators

inherited from the sqlalchemy.sql.expression.ColumnOperators.__lt__ method of ColumnOperators

Implement the < operator.

In a column context, produces the clause a < b.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.all_() ColumnOperators

inherited from the ColumnOperators.all_() method of ColumnOperators

Produce an all_() clause against the parent object.

See the documentation for all_() for examples.

Note

be sure to not confuse the newer ColumnOperators.all_() method with its older ARRAY-specific counterpart, the Comparator.all() method, which a different calling syntax and usage pattern.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.any(criterion: _ColumnExpressionArgument[bool] | None = None, **kwargs: Any) ColumnElement[bool]

Produce a proxied ‘any’ expression using EXISTS.

This expression will be a composed product using the Comparator.any() and/or Comparator.has() operators of the underlying proxied attributes.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.any_() ColumnOperators

inherited from the ColumnOperators.any_() method of ColumnOperators

Produce an any_() clause against the parent object.

See the documentation for any_() for examples.

Note

be sure to not confuse the newer ColumnOperators.any_() method with its older ARRAY-specific counterpart, the Comparator.any() method, which a different calling syntax and usage pattern.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.asc() ColumnOperators

inherited from the ColumnOperators.asc() method of ColumnOperators

Produce a asc() clause against the parent object.

attribute sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.attr

Return a tuple of (local_attr, remote_attr).

This attribute was originally intended to facilitate using the Query.join() method to join across the two relationships at once, however this makes use of a deprecated calling style.

To use select.join() or Query.join() with an association proxy, the current method is to make use of the AssociationProxyInstance.local_attr and AssociationProxyInstance.remote_attr attributes separately:

stmt = (
    select(Parent).
    join(Parent.proxied.local_attr).
    join(Parent.proxied.remote_attr)
)

A future release may seek to provide a more succinct join pattern for association proxy attributes.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.between(cleft: Any, cright: Any, symmetric: bool = False) ColumnOperators

inherited from the ColumnOperators.between() method of ColumnOperators

Produce a between() clause against the parent object, given the lower and upper range.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.bitwise_and(other: Any) ColumnOperators

inherited from the ColumnOperators.bitwise_and() method of ColumnOperators

Produce a bitwise AND operation, typically via the & operator.

New in version 2.0.2.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.bitwise_lshift(other: Any) ColumnOperators

inherited from the ColumnOperators.bitwise_lshift() method of ColumnOperators

Produce a bitwise LSHIFT operation, typically via the << operator.

New in version 2.0.2.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.bitwise_not() ColumnOperators

inherited from the ColumnOperators.bitwise_not() method of ColumnOperators

Produce a bitwise NOT operation, typically via the ~ operator.

New in version 2.0.2.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.bitwise_or(other: Any) ColumnOperators

inherited from the ColumnOperators.bitwise_or() method of ColumnOperators

Produce a bitwise OR operation, typically via the | operator.

New in version 2.0.2.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.bitwise_rshift(other: Any) ColumnOperators

inherited from the ColumnOperators.bitwise_rshift() method of ColumnOperators

Produce a bitwise RSHIFT operation, typically via the >> operator.

New in version 2.0.2.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.bitwise_xor(other: Any) ColumnOperators

inherited from the ColumnOperators.bitwise_xor() method of ColumnOperators

Produce a bitwise XOR operation, typically via the ^ operator, or # for PostgreSQL.

New in version 2.0.2.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.bool_op(opstring: str, precedence: int = 0, python_impl: Callable[[...], Any] | None = None) Callable[[Any], Operators]

inherited from the Operators.bool_op() method of Operators

Return a custom boolean operator.

This method is shorthand for calling Operators.op() and passing the Operators.op.is_comparison flag with True. A key advantage to using Operators.bool_op() is that when using column constructs, the “boolean” nature of the returned expression will be present for PEP 484 purposes.

See also

Operators.op()

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.collate(collation: str) ColumnOperators

inherited from the ColumnOperators.collate() method of ColumnOperators

Produce a collate() clause against the parent object, given the collation string.

See also

collate()

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.concat(other: Any) ColumnOperators

inherited from the ColumnOperators.concat() method of ColumnOperators

Implement the ‘concat’ operator.

In a column context, produces the clause a || b, or uses the concat() operator on MySQL.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.contains(other: Any, **kw: Any) ColumnElement[bool]

Produce a proxied ‘contains’ expression using EXISTS.

This expression will be a composed product using the Comparator.any(), Comparator.has(), and/or Comparator.contains() operators of the underlying proxied attributes.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.desc() ColumnOperators

inherited from the ColumnOperators.desc() method of ColumnOperators

Produce a desc() clause against the parent object.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.distinct() ColumnOperators

inherited from the ColumnOperators.distinct() method of ColumnOperators

Produce a distinct() clause against the parent object.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.endswith(other: Any, escape: str | None = None, autoescape: bool = False) ColumnOperators

inherited from the ColumnOperators.endswith() method of ColumnOperators

Implement the ‘endswith’ operator.

Produces a LIKE expression that tests against a match for the end of a string value:

column LIKE '%' || <other>

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.endswith("foobar"))

Since the operator uses LIKE, wildcard characters "%" and "_" that are present inside the <other> expression will behave like wildcards as well. For literal string values, the ColumnOperators.endswith.autoescape flag may be set to True to apply escaping to occurrences of these characters within the string value so that they match as themselves and not as wildcard characters. Alternatively, the ColumnOperators.endswith.escape parameter will establish a given character as an escape character which can be of use when the target expression is not a literal string.

Parameters:
  • other – expression to be compared. This is usually a plain string value, but can also be an arbitrary SQL expression. LIKE wildcard characters % and _ are not escaped by default unless the ColumnOperators.endswith.autoescape flag is set to True.

  • autoescape

    boolean; when True, establishes an escape character within the LIKE expression, then applies it to all occurrences of "%", "_" and the escape character itself within the comparison value, which is assumed to be a literal string and not a SQL expression.

    An expression such as:

    somecolumn.endswith("foo%bar", autoescape=True)

    Will render as:

    somecolumn LIKE '%' || :param ESCAPE '/'

    With the value of :param as "foo/%bar".

  • escape

    a character which when given will render with the ESCAPE keyword to establish that character as the escape character. This character can then be placed preceding occurrences of % and _ to allow them to act as themselves and not wildcard characters.

    An expression such as:

    somecolumn.endswith("foo/%bar", escape="^")

    Will render as:

    somecolumn LIKE '%' || :param ESCAPE '^'

    The parameter may also be combined with ColumnOperators.endswith.autoescape:

    somecolumn.endswith("foo%bar^bat", escape="^", autoescape=True)

    Where above, the given literal parameter will be converted to "foo^%bar^^bat" before being passed to the database.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.has(criterion: _ColumnExpressionArgument[bool] | None = None, **kwargs: Any) ColumnElement[bool]

Produce a proxied ‘has’ expression using EXISTS.

This expression will be a composed product using the Comparator.any() and/or Comparator.has() operators of the underlying proxied attributes.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.icontains(other: Any, **kw: Any) ColumnOperators

inherited from the ColumnOperators.icontains() method of ColumnOperators

Implement the icontains operator, e.g. case insensitive version of ColumnOperators.contains().

Produces a LIKE expression that tests against an insensitive match for the middle of a string value:

lower(column) LIKE '%' || lower(<other>) || '%'

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.icontains("foobar"))

Since the operator uses LIKE, wildcard characters "%" and "_" that are present inside the <other> expression will behave like wildcards as well. For literal string values, the ColumnOperators.icontains.autoescape flag may be set to True to apply escaping to occurrences of these characters within the string value so that they match as themselves and not as wildcard characters. Alternatively, the ColumnOperators.icontains.escape parameter will establish a given character as an escape character which can be of use when the target expression is not a literal string.

Parameters:
  • other – expression to be compared. This is usually a plain string value, but can also be an arbitrary SQL expression. LIKE wildcard characters % and _ are not escaped by default unless the ColumnOperators.icontains.autoescape flag is set to True.

  • autoescape

    boolean; when True, establishes an escape character within the LIKE expression, then applies it to all occurrences of "%", "_" and the escape character itself within the comparison value, which is assumed to be a literal string and not a SQL expression.

    An expression such as:

    somecolumn.icontains("foo%bar", autoescape=True)

    Will render as:

    lower(somecolumn) LIKE '%' || lower(:param) || '%' ESCAPE '/'

    With the value of :param as "foo/%bar".

  • escape

    a character which when given will render with the ESCAPE keyword to establish that character as the escape character. This character can then be placed preceding occurrences of % and _ to allow them to act as themselves and not wildcard characters.

    An expression such as:

    somecolumn.icontains("foo/%bar", escape="^")

    Will render as:

    lower(somecolumn) LIKE '%' || lower(:param) || '%' ESCAPE '^'

    The parameter may also be combined with ColumnOperators.contains.autoescape:

    somecolumn.icontains("foo%bar^bat", escape="^", autoescape=True)

    Where above, the given literal parameter will be converted to "foo^%bar^^bat" before being passed to the database.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.iendswith(other: Any, escape: str | None = None, autoescape: bool = False) ColumnOperators

inherited from the ColumnOperators.iendswith() method of ColumnOperators

Implement the iendswith operator, e.g. case insensitive version of ColumnOperators.endswith().

Produces a LIKE expression that tests against an insensitive match for the end of a string value:

lower(column) LIKE '%' || lower(<other>)

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.iendswith("foobar"))

Since the operator uses LIKE, wildcard characters "%" and "_" that are present inside the <other> expression will behave like wildcards as well. For literal string values, the ColumnOperators.iendswith.autoescape flag may be set to True to apply escaping to occurrences of these characters within the string value so that they match as themselves and not as wildcard characters. Alternatively, the ColumnOperators.iendswith.escape parameter will establish a given character as an escape character which can be of use when the target expression is not a literal string.

Parameters:
  • other – expression to be compared. This is usually a plain string value, but can also be an arbitrary SQL expression. LIKE wildcard characters % and _ are not escaped by default unless the ColumnOperators.iendswith.autoescape flag is set to True.

  • autoescape

    boolean; when True, establishes an escape character within the LIKE expression, then applies it to all occurrences of "%", "_" and the escape character itself within the comparison value, which is assumed to be a literal string and not a SQL expression.

    An expression such as:

    somecolumn.iendswith("foo%bar", autoescape=True)

    Will render as:

    lower(somecolumn) LIKE '%' || lower(:param) ESCAPE '/'

    With the value of :param as "foo/%bar".

  • escape

    a character which when given will render with the ESCAPE keyword to establish that character as the escape character. This character can then be placed preceding occurrences of % and _ to allow them to act as themselves and not wildcard characters.

    An expression such as:

    somecolumn.iendswith("foo/%bar", escape="^")

    Will render as:

    lower(somecolumn) LIKE '%' || lower(:param) ESCAPE '^'

    The parameter may also be combined with ColumnOperators.iendswith.autoescape:

    somecolumn.endswith("foo%bar^bat", escape="^", autoescape=True)

    Where above, the given literal parameter will be converted to "foo^%bar^^bat" before being passed to the database.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.ilike(other: Any, escape: str | None = None) ColumnOperators

inherited from the ColumnOperators.ilike() method of ColumnOperators

Implement the ilike operator, e.g. case insensitive LIKE.

In a column context, produces an expression either of the form:

lower(a) LIKE lower(other)

Or on backends that support the ILIKE operator:

a ILIKE other

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.ilike("%foobar%"))
Parameters:
  • other – expression to be compared

  • escape

    optional escape character, renders the ESCAPE keyword, e.g.:

    somecolumn.ilike("foo/%bar", escape="/")

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.in_(other: Any) ColumnOperators

inherited from the ColumnOperators.in_() method of ColumnOperators

Implement the in operator.

In a column context, produces the clause column IN <other>.

The given parameter other may be:

  • A list of literal values, e.g.:

    stmt.where(column.in_([1, 2, 3]))

    In this calling form, the list of items is converted to a set of bound parameters the same length as the list given:

    WHERE COL IN (?, ?, ?)
  • A list of tuples may be provided if the comparison is against a tuple_() containing multiple expressions:

    from sqlalchemy import tuple_
    stmt.where(tuple_(col1, col2).in_([(1, 10), (2, 20), (3, 30)]))
  • An empty list, e.g.:

    stmt.where(column.in_([]))

    In this calling form, the expression renders an “empty set” expression. These expressions are tailored to individual backends and are generally trying to get an empty SELECT statement as a subquery. Such as on SQLite, the expression is:

    WHERE col IN (SELECT 1 FROM (SELECT 1) WHERE 1!=1)

    Changed in version 1.4: empty IN expressions now use an execution-time generated SELECT subquery in all cases.

  • A bound parameter, e.g. bindparam(), may be used if it includes the bindparam.expanding flag:

    stmt.where(column.in_(bindparam('value', expanding=True)))

    In this calling form, the expression renders a special non-SQL placeholder expression that looks like:

    WHERE COL IN ([EXPANDING_value])

    This placeholder expression is intercepted at statement execution time to be converted into the variable number of bound parameter form illustrated earlier. If the statement were executed as:

    connection.execute(stmt, {"value": [1, 2, 3]})

    The database would be passed a bound parameter for each value:

    WHERE COL IN (?, ?, ?)

    New in version 1.2: added “expanding” bound parameters

    If an empty list is passed, a special “empty list” expression, which is specific to the database in use, is rendered. On SQLite this would be:

    WHERE COL IN (SELECT 1 FROM (SELECT 1) WHERE 1!=1)

    New in version 1.3: “expanding” bound parameters now support empty lists

  • a select() construct, which is usually a correlated scalar select:

    stmt.where(
        column.in_(
            select(othertable.c.y).
            where(table.c.x == othertable.c.x)
        )
    )

    In this calling form, ColumnOperators.in_() renders as given:

    WHERE COL IN (SELECT othertable.y
    FROM othertable WHERE othertable.x = table.x)
Parameters:

other – a list of literals, a select() construct, or a bindparam() construct that includes the bindparam.expanding flag set to True.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.is_(other: Any) ColumnOperators

inherited from the ColumnOperators.is_() method of ColumnOperators

Implement the IS operator.

Normally, IS is generated automatically when comparing to a value of None, which resolves to NULL. However, explicit usage of IS may be desirable if comparing to boolean values on certain platforms.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.is_distinct_from(other: Any) ColumnOperators

Implement the IS DISTINCT FROM operator.

Renders “a IS DISTINCT FROM b” on most platforms; on some such as SQLite may render “a IS NOT b”.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.is_not(other: Any) ColumnOperators

inherited from the ColumnOperators.is_not() method of ColumnOperators

Implement the IS NOT operator.

Normally, IS NOT is generated automatically when comparing to a value of None, which resolves to NULL. However, explicit usage of IS NOT may be desirable if comparing to boolean values on certain platforms.

Changed in version 1.4: The is_not() operator is renamed from isnot() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.is_not_distinct_from(other: Any) ColumnOperators

Implement the IS NOT DISTINCT FROM operator.

Renders “a IS NOT DISTINCT FROM b” on most platforms; on some such as SQLite may render “a IS b”.

Changed in version 1.4: The is_not_distinct_from() operator is renamed from isnot_distinct_from() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.isnot(other: Any) ColumnOperators

inherited from the ColumnOperators.isnot() method of ColumnOperators

Implement the IS NOT operator.

Normally, IS NOT is generated automatically when comparing to a value of None, which resolves to NULL. However, explicit usage of IS NOT may be desirable if comparing to boolean values on certain platforms.

Changed in version 1.4: The is_not() operator is renamed from isnot() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.isnot_distinct_from(other: Any) ColumnOperators

Implement the IS NOT DISTINCT FROM operator.

Renders “a IS NOT DISTINCT FROM b” on most platforms; on some such as SQLite may render “a IS b”.

Changed in version 1.4: The is_not_distinct_from() operator is renamed from isnot_distinct_from() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.istartswith(other: Any, escape: str | None = None, autoescape: bool = False) ColumnOperators

inherited from the ColumnOperators.istartswith() method of ColumnOperators

Implement the istartswith operator, e.g. case insensitive version of ColumnOperators.startswith().

Produces a LIKE expression that tests against an insensitive match for the start of a string value:

lower(column) LIKE lower(<other>) || '%'

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.istartswith("foobar"))

Since the operator uses LIKE, wildcard characters "%" and "_" that are present inside the <other> expression will behave like wildcards as well. For literal string values, the ColumnOperators.istartswith.autoescape flag may be set to True to apply escaping to occurrences of these characters within the string value so that they match as themselves and not as wildcard characters. Alternatively, the ColumnOperators.istartswith.escape parameter will establish a given character as an escape character which can be of use when the target expression is not a literal string.

Parameters:
  • other – expression to be compared. This is usually a plain string value, but can also be an arbitrary SQL expression. LIKE wildcard characters % and _ are not escaped by default unless the ColumnOperators.istartswith.autoescape flag is set to True.

  • autoescape

    boolean; when True, establishes an escape character within the LIKE expression, then applies it to all occurrences of "%", "_" and the escape character itself within the comparison value, which is assumed to be a literal string and not a SQL expression.

    An expression such as:

    somecolumn.istartswith("foo%bar", autoescape=True)

    Will render as:

    lower(somecolumn) LIKE lower(:param) || '%' ESCAPE '/'

    With the value of :param as "foo/%bar".

  • escape

    a character which when given will render with the ESCAPE keyword to establish that character as the escape character. This character can then be placed preceding occurrences of % and _ to allow them to act as themselves and not wildcard characters.

    An expression such as:

    somecolumn.istartswith("foo/%bar", escape="^")

    Will render as:

    lower(somecolumn) LIKE lower(:param) || '%' ESCAPE '^'

    The parameter may also be combined with ColumnOperators.istartswith.autoescape:

    somecolumn.istartswith("foo%bar^bat", escape="^", autoescape=True)

    Where above, the given literal parameter will be converted to "foo^%bar^^bat" before being passed to the database.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.like(other: Any, escape: str | None = None) ColumnOperators

inherited from the ColumnOperators.like() method of ColumnOperators

Implement the like operator.

In a column context, produces the expression:

a LIKE other

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.like("%foobar%"))
Parameters:
  • other – expression to be compared

  • escape

    optional escape character, renders the ESCAPE keyword, e.g.:

    somecolumn.like("foo/%bar", escape="/")

attribute sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.local_attr

The ‘local’ class attribute referenced by this AssociationProxyInstance.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.match(other: Any, **kwargs: Any) ColumnOperators

inherited from the ColumnOperators.match() method of ColumnOperators

Implements a database-specific ‘match’ operator.

ColumnOperators.match() attempts to resolve to a MATCH-like function or operator provided by the backend. Examples include:

  • PostgreSQL - renders x @@ plainto_tsquery(y)

    Changed in version 2.0: plainto_tsquery() is used instead of to_tsquery() for PostgreSQL now; for compatibility with other forms, see Full Text Search.

  • MySQL - renders MATCH (x) AGAINST (y IN BOOLEAN MODE)

    See also

    match - MySQL specific construct with additional features.

  • Oracle - renders CONTAINS(x, y)

  • other backends may provide special implementations.

  • Backends without any special implementation will emit the operator as “MATCH”. This is compatible with SQLite, for example.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.not_ilike(other: Any, escape: str | None = None) ColumnOperators

inherited from the ColumnOperators.not_ilike() method of ColumnOperators

implement the NOT ILIKE operator.

This is equivalent to using negation with ColumnOperators.ilike(), i.e. ~x.ilike(y).

Changed in version 1.4: The not_ilike() operator is renamed from notilike() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.not_in(other: Any) ColumnOperators

inherited from the ColumnOperators.not_in() method of ColumnOperators

implement the NOT IN operator.

This is equivalent to using negation with ColumnOperators.in_(), i.e. ~x.in_(y).

In the case that other is an empty sequence, the compiler produces an “empty not in” expression. This defaults to the expression “1 = 1” to produce true in all cases. The create_engine.empty_in_strategy may be used to alter this behavior.

Changed in version 1.4: The not_in() operator is renamed from notin_() in previous releases. The previous name remains available for backwards compatibility.

Changed in version 1.2: The ColumnOperators.in_() and ColumnOperators.not_in() operators now produce a “static” expression for an empty IN sequence by default.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.not_like(other: Any, escape: str | None = None) ColumnOperators

inherited from the ColumnOperators.not_like() method of ColumnOperators

implement the NOT LIKE operator.

This is equivalent to using negation with ColumnOperators.like(), i.e. ~x.like(y).

Changed in version 1.4: The not_like() operator is renamed from notlike() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.notilike(other: Any, escape: str | None = None) ColumnOperators

inherited from the ColumnOperators.notilike() method of ColumnOperators

implement the NOT ILIKE operator.

This is equivalent to using negation with ColumnOperators.ilike(), i.e. ~x.ilike(y).

Changed in version 1.4: The not_ilike() operator is renamed from notilike() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.notin_(other: Any) ColumnOperators

inherited from the ColumnOperators.notin_() method of ColumnOperators

implement the NOT IN operator.

This is equivalent to using negation with ColumnOperators.in_(), i.e. ~x.in_(y).

In the case that other is an empty sequence, the compiler produces an “empty not in” expression. This defaults to the expression “1 = 1” to produce true in all cases. The create_engine.empty_in_strategy may be used to alter this behavior.

Changed in version 1.4: The not_in() operator is renamed from notin_() in previous releases. The previous name remains available for backwards compatibility.

Changed in version 1.2: The ColumnOperators.in_() and ColumnOperators.not_in() operators now produce a “static” expression for an empty IN sequence by default.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.notlike(other: Any, escape: str | None = None) ColumnOperators

inherited from the ColumnOperators.notlike() method of ColumnOperators

implement the NOT LIKE operator.

This is equivalent to using negation with ColumnOperators.like(), i.e. ~x.like(y).

Changed in version 1.4: The not_like() operator is renamed from notlike() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.nulls_first() ColumnOperators

inherited from the ColumnOperators.nulls_first() method of ColumnOperators

Produce a nulls_first() clause against the parent object.

Changed in version 1.4: The nulls_first() operator is renamed from nullsfirst() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.nulls_last() ColumnOperators

inherited from the ColumnOperators.nulls_last() method of ColumnOperators

Produce a nulls_last() clause against the parent object.

Changed in version 1.4: The nulls_last() operator is renamed from nullslast() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.nullsfirst() ColumnOperators

inherited from the ColumnOperators.nullsfirst() method of ColumnOperators

Produce a nulls_first() clause against the parent object.

Changed in version 1.4: The nulls_first() operator is renamed from nullsfirst() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.nullslast() ColumnOperators

inherited from the ColumnOperators.nullslast() method of ColumnOperators

Produce a nulls_last() clause against the parent object.

Changed in version 1.4: The nulls_last() operator is renamed from nullslast() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.op(opstring: str, precedence: int = 0, is_comparison: bool = False, return_type: Type[TypeEngine[Any]] | TypeEngine[Any] | None = None, python_impl: Callable[..., Any] | None = None) Callable[[Any], Operators]

inherited from the Operators.op() method of Operators

Produce a generic operator function.

e.g.:

somecolumn.op("*")(5)

produces:

somecolumn * 5

This function can also be used to make bitwise operators explicit. For example:

somecolumn.op('&')(0xff)

is a bitwise AND of the value in somecolumn.

Parameters:
  • opstring – a string which will be output as the infix operator between this element and the expression passed to the generated function.

  • precedence

    precedence which the database is expected to apply to the operator in SQL expressions. This integer value acts as a hint for the SQL compiler to know when explicit parenthesis should be rendered around a particular operation. A lower number will cause the expression to be parenthesized when applied against another operator with higher precedence. The default value of 0 is lower than all operators except for the comma (,) and AS operators. A value of 100 will be higher or equal to all operators, and -100 will be lower than or equal to all operators.

    See also

    I’m using op() to generate a custom operator and my parenthesis are not coming out correctly - detailed description of how the SQLAlchemy SQL compiler renders parenthesis

  • is_comparison

    legacy; if True, the operator will be considered as a “comparison” operator, that is which evaluates to a boolean true/false value, like ==, >, etc. This flag is provided so that ORM relationships can establish that the operator is a comparison operator when used in a custom join condition.

    Using the is_comparison parameter is superseded by using the Operators.bool_op() method instead; this more succinct operator sets this parameter automatically, but also provides correct PEP 484 typing support as the returned object will express a “boolean” datatype, i.e. BinaryExpression[bool].

  • return_type – a TypeEngine class or object that will force the return type of an expression produced by this operator to be of that type. By default, operators that specify Operators.op.is_comparison will resolve to Boolean, and those that do not will be of the same type as the left-hand operand.

  • python_impl

    an optional Python function that can evaluate two Python values in the same way as this operator works when run on the database server. Useful for in-Python SQL expression evaluation functions, such as for ORM hybrid attributes, and the ORM “evaluator” used to match objects in a session after a multi-row update or delete.

    e.g.:

    >>> expr = column('x').op('+', python_impl=lambda a, b: a + b)('y')

    The operator for the above expression will also work for non-SQL left and right objects:

    >>> expr.operator(5, 10)
    15

    New in version 2.0.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.operate(op: OperatorType, *other: Any, **kwargs: Any) Operators

inherited from the Operators.operate() method of Operators

Operate on an argument.

This is the lowest level of operation, raises NotImplementedError by default.

Overriding this on a subclass can allow common behavior to be applied to all operations. For example, overriding ColumnOperators to apply func.lower() to the left and right side:

class MyComparator(ColumnOperators):
    def operate(self, op, other, **kwargs):
        return op(func.lower(self), func.lower(other), **kwargs)
Parameters:
  • op – Operator callable.

  • *other – the ‘other’ side of the operation. Will be a single scalar for most operations.

  • **kwargs – modifiers. These may be passed by special operators such as ColumnOperators.contains().

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.regexp_match(pattern: Any, flags: str | None = None) ColumnOperators

inherited from the ColumnOperators.regexp_match() method of ColumnOperators

Implements a database-specific ‘regexp match’ operator.

E.g.:

stmt = select(table.c.some_column).where(
    table.c.some_column.regexp_match('^(b|c)')
)

ColumnOperators.regexp_match() attempts to resolve to a REGEXP-like function or operator provided by the backend, however the specific regular expression syntax and flags available are not backend agnostic.

Examples include:

  • PostgreSQL - renders x ~ y or x !~ y when negated.

  • Oracle - renders REGEXP_LIKE(x, y)

  • SQLite - uses SQLite’s REGEXP placeholder operator and calls into the Python re.match() builtin.

  • other backends may provide special implementations.

  • Backends without any special implementation will emit the operator as “REGEXP” or “NOT REGEXP”. This is compatible with SQLite and MySQL, for example.

Regular expression support is currently implemented for Oracle, PostgreSQL, MySQL and MariaDB. Partial support is available for SQLite. Support among third-party dialects may vary.

Parameters:
  • pattern – The regular expression pattern string or column clause.

  • flags – Any regular expression string flags to apply, passed as plain Python string only. These flags are backend specific. Some backends, like PostgreSQL and MariaDB, may alternatively specify the flags as part of the pattern. When using the ignore case flag ‘i’ in PostgreSQL, the ignore case regexp match operator ~* or !~* will be used.

New in version 1.4.

Changed in version 1.4.48,: 2.0.18 Note that due to an implementation error, the “flags” parameter previously accepted SQL expression objects such as column expressions in addition to plain Python strings. This implementation did not work correctly with caching and was removed; strings only should be passed for the “flags” parameter, as these flags are rendered as literal inline values within SQL expressions.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.regexp_replace(pattern: Any, replacement: Any, flags: str | None = None) ColumnOperators

inherited from the ColumnOperators.regexp_replace() method of ColumnOperators

Implements a database-specific ‘regexp replace’ operator.

E.g.:

stmt = select(
    table.c.some_column.regexp_replace(
        'b(..)',
        'XY',
        flags='g'
    )
)

ColumnOperators.regexp_replace() attempts to resolve to a REGEXP_REPLACE-like function provided by the backend, that usually emit the function REGEXP_REPLACE(). However, the specific regular expression syntax and flags available are not backend agnostic.

Regular expression replacement support is currently implemented for Oracle, PostgreSQL, MySQL 8 or greater and MariaDB. Support among third-party dialects may vary.

Parameters:
  • pattern – The regular expression pattern string or column clause.

  • pattern – The replacement string or column clause.

  • flags – Any regular expression string flags to apply, passed as plain Python string only. These flags are backend specific. Some backends, like PostgreSQL and MariaDB, may alternatively specify the flags as part of the pattern.

New in version 1.4.

Changed in version 1.4.48,: 2.0.18 Note that due to an implementation error, the “flags” parameter previously accepted SQL expression objects such as column expressions in addition to plain Python strings. This implementation did not work correctly with caching and was removed; strings only should be passed for the “flags” parameter, as these flags are rendered as literal inline values within SQL expressions.

attribute sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.remote_attr

The ‘remote’ class attribute referenced by this AssociationProxyInstance.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.reverse_operate(op: OperatorType, other: Any, **kwargs: Any) Operators

inherited from the Operators.reverse_operate() method of Operators

Reverse operate on an argument.

Usage is the same as operate().

attribute sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.scalar

Return True if this AssociationProxyInstance proxies a scalar relationship on the local side.

method sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.startswith(other: Any, escape: str | None = None, autoescape: bool = False) ColumnOperators

inherited from the ColumnOperators.startswith() method of ColumnOperators

Implement the startswith operator.

Produces a LIKE expression that tests against a match for the start of a string value:

column LIKE <other> || '%'

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.startswith("foobar"))

Since the operator uses LIKE, wildcard characters "%" and "_" that are present inside the <other> expression will behave like wildcards as well. For literal string values, the ColumnOperators.startswith.autoescape flag may be set to True to apply escaping to occurrences of these characters within the string value so that they match as themselves and not as wildcard characters. Alternatively, the ColumnOperators.startswith.escape parameter will establish a given character as an escape character which can be of use when the target expression is not a literal string.

Parameters:
  • other – expression to be compared. This is usually a plain string value, but can also be an arbitrary SQL expression. LIKE wildcard characters % and _ are not escaped by default unless the ColumnOperators.startswith.autoescape flag is set to True.

  • autoescape

    boolean; when True, establishes an escape character within the LIKE expression, then applies it to all occurrences of "%", "_" and the escape character itself within the comparison value, which is assumed to be a literal string and not a SQL expression.

    An expression such as:

    somecolumn.startswith("foo%bar", autoescape=True)

    Will render as:

    somecolumn LIKE :param || '%' ESCAPE '/'

    With the value of :param as "foo/%bar".

  • escape

    a character which when given will render with the ESCAPE keyword to establish that character as the escape character. This character can then be placed preceding occurrences of % and _ to allow them to act as themselves and not wildcard characters.

    An expression such as:

    somecolumn.startswith("foo/%bar", escape="^")

    Will render as:

    somecolumn LIKE :param || '%' ESCAPE '^'

    The parameter may also be combined with ColumnOperators.startswith.autoescape:

    somecolumn.startswith("foo%bar^bat", escape="^", autoescape=True)

    Where above, the given literal parameter will be converted to "foo^%bar^^bat" before being passed to the database.

attribute sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.target_class: Type[Any]

The intermediary class handled by this AssociationProxyInstance.

Intercepted append/set/assignment events will result in the generation of new instances of this class.

attribute sqlalchemy.ext.associationproxy.ObjectAssociationProxyInstance.timetuple: Literal[None] = None

inherited from the ColumnOperators.timetuple attribute of ColumnOperators

Hack, allows datetime objects to be compared on the LHS.

class sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance

an AssociationProxyInstance that has a database column as a target.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.__le__(other: Any) ColumnOperators

inherited from the sqlalchemy.sql.expression.ColumnOperators.__le__ method of ColumnOperators

Implement the <= operator.

In a column context, produces the clause a <= b.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.__lt__(other: Any) ColumnOperators

inherited from the sqlalchemy.sql.expression.ColumnOperators.__lt__ method of ColumnOperators

Implement the < operator.

In a column context, produces the clause a < b.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.__ne__(other: Any) ColumnOperators

inherited from the sqlalchemy.sql.expression.ColumnOperators.__ne__ method of ColumnOperators

Implement the != operator.

In a column context, produces the clause a != b. If the target is None, produces a IS NOT NULL.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.all_() ColumnOperators

inherited from the ColumnOperators.all_() method of ColumnOperators

Produce an all_() clause against the parent object.

See the documentation for all_() for examples.

Note

be sure to not confuse the newer ColumnOperators.all_() method with its older ARRAY-specific counterpart, the Comparator.all() method, which a different calling syntax and usage pattern.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.any(criterion: _ColumnExpressionArgument[bool] | None = None, **kwargs: Any) ColumnElement[bool]

Produce a proxied ‘any’ expression using EXISTS.

This expression will be a composed product using the Comparator.any() and/or Comparator.has() operators of the underlying proxied attributes.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.any_() ColumnOperators

inherited from the ColumnOperators.any_() method of ColumnOperators

Produce an any_() clause against the parent object.

See the documentation for any_() for examples.

Note

be sure to not confuse the newer ColumnOperators.any_() method with its older ARRAY-specific counterpart, the Comparator.any() method, which a different calling syntax and usage pattern.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.asc() ColumnOperators

inherited from the ColumnOperators.asc() method of ColumnOperators

Produce a asc() clause against the parent object.

attribute sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.attr

Return a tuple of (local_attr, remote_attr).

This attribute was originally intended to facilitate using the Query.join() method to join across the two relationships at once, however this makes use of a deprecated calling style.

To use select.join() or Query.join() with an association proxy, the current method is to make use of the AssociationProxyInstance.local_attr and AssociationProxyInstance.remote_attr attributes separately:

stmt = (
    select(Parent).
    join(Parent.proxied.local_attr).
    join(Parent.proxied.remote_attr)
)

A future release may seek to provide a more succinct join pattern for association proxy attributes.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.between(cleft: Any, cright: Any, symmetric: bool = False) ColumnOperators

inherited from the ColumnOperators.between() method of ColumnOperators

Produce a between() clause against the parent object, given the lower and upper range.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.bitwise_and(other: Any) ColumnOperators

inherited from the ColumnOperators.bitwise_and() method of ColumnOperators

Produce a bitwise AND operation, typically via the & operator.

New in version 2.0.2.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.bitwise_lshift(other: Any) ColumnOperators

inherited from the ColumnOperators.bitwise_lshift() method of ColumnOperators

Produce a bitwise LSHIFT operation, typically via the << operator.

New in version 2.0.2.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.bitwise_not() ColumnOperators

inherited from the ColumnOperators.bitwise_not() method of ColumnOperators

Produce a bitwise NOT operation, typically via the ~ operator.

New in version 2.0.2.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.bitwise_or(other: Any) ColumnOperators

inherited from the ColumnOperators.bitwise_or() method of ColumnOperators

Produce a bitwise OR operation, typically via the | operator.

New in version 2.0.2.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.bitwise_rshift(other: Any) ColumnOperators

inherited from the ColumnOperators.bitwise_rshift() method of ColumnOperators

Produce a bitwise RSHIFT operation, typically via the >> operator.

New in version 2.0.2.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.bitwise_xor(other: Any) ColumnOperators

inherited from the ColumnOperators.bitwise_xor() method of ColumnOperators

Produce a bitwise XOR operation, typically via the ^ operator, or # for PostgreSQL.

New in version 2.0.2.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.bool_op(opstring: str, precedence: int = 0, python_impl: Callable[[...], Any] | None = None) Callable[[Any], Operators]

inherited from the Operators.bool_op() method of Operators

Return a custom boolean operator.

This method is shorthand for calling Operators.op() and passing the Operators.op.is_comparison flag with True. A key advantage to using Operators.bool_op() is that when using column constructs, the “boolean” nature of the returned expression will be present for PEP 484 purposes.

See also

Operators.op()

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.collate(collation: str) ColumnOperators

inherited from the ColumnOperators.collate() method of ColumnOperators

Produce a collate() clause against the parent object, given the collation string.

See also

collate()

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.concat(other: Any) ColumnOperators

inherited from the ColumnOperators.concat() method of ColumnOperators

Implement the ‘concat’ operator.

In a column context, produces the clause a || b, or uses the concat() operator on MySQL.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.contains(other: Any, **kw: Any) ColumnOperators

inherited from the ColumnOperators.contains() method of ColumnOperators

Implement the ‘contains’ operator.

Produces a LIKE expression that tests against a match for the middle of a string value:

column LIKE '%' || <other> || '%'

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.contains("foobar"))

Since the operator uses LIKE, wildcard characters "%" and "_" that are present inside the <other> expression will behave like wildcards as well. For literal string values, the ColumnOperators.contains.autoescape flag may be set to True to apply escaping to occurrences of these characters within the string value so that they match as themselves and not as wildcard characters. Alternatively, the ColumnOperators.contains.escape parameter will establish a given character as an escape character which can be of use when the target expression is not a literal string.

Parameters:
  • other – expression to be compared. This is usually a plain string value, but can also be an arbitrary SQL expression. LIKE wildcard characters % and _ are not escaped by default unless the ColumnOperators.contains.autoescape flag is set to True.

  • autoescape

    boolean; when True, establishes an escape character within the LIKE expression, then applies it to all occurrences of "%", "_" and the escape character itself within the comparison value, which is assumed to be a literal string and not a SQL expression.

    An expression such as:

    somecolumn.contains("foo%bar", autoescape=True)

    Will render as:

    somecolumn LIKE '%' || :param || '%' ESCAPE '/'

    With the value of :param as "foo/%bar".

  • escape

    a character which when given will render with the ESCAPE keyword to establish that character as the escape character. This character can then be placed preceding occurrences of % and _ to allow them to act as themselves and not wildcard characters.

    An expression such as:

    somecolumn.contains("foo/%bar", escape="^")

    Will render as:

    somecolumn LIKE '%' || :param || '%' ESCAPE '^'

    The parameter may also be combined with ColumnOperators.contains.autoescape:

    somecolumn.contains("foo%bar^bat", escape="^", autoescape=True)

    Where above, the given literal parameter will be converted to "foo^%bar^^bat" before being passed to the database.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.desc() ColumnOperators

inherited from the ColumnOperators.desc() method of ColumnOperators

Produce a desc() clause against the parent object.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.distinct() ColumnOperators

inherited from the ColumnOperators.distinct() method of ColumnOperators

Produce a distinct() clause against the parent object.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.endswith(other: Any, escape: str | None = None, autoescape: bool = False) ColumnOperators

inherited from the ColumnOperators.endswith() method of ColumnOperators

Implement the ‘endswith’ operator.

Produces a LIKE expression that tests against a match for the end of a string value:

column LIKE '%' || <other>

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.endswith("foobar"))

Since the operator uses LIKE, wildcard characters "%" and "_" that are present inside the <other> expression will behave like wildcards as well. For literal string values, the ColumnOperators.endswith.autoescape flag may be set to True to apply escaping to occurrences of these characters within the string value so that they match as themselves and not as wildcard characters. Alternatively, the ColumnOperators.endswith.escape parameter will establish a given character as an escape character which can be of use when the target expression is not a literal string.

Parameters:
  • other – expression to be compared. This is usually a plain string value, but can also be an arbitrary SQL expression. LIKE wildcard characters % and _ are not escaped by default unless the ColumnOperators.endswith.autoescape flag is set to True.

  • autoescape

    boolean; when True, establishes an escape character within the LIKE expression, then applies it to all occurrences of "%", "_" and the escape character itself within the comparison value, which is assumed to be a literal string and not a SQL expression.

    An expression such as:

    somecolumn.endswith("foo%bar", autoescape=True)

    Will render as:

    somecolumn LIKE '%' || :param ESCAPE '/'

    With the value of :param as "foo/%bar".

  • escape

    a character which when given will render with the ESCAPE keyword to establish that character as the escape character. This character can then be placed preceding occurrences of % and _ to allow them to act as themselves and not wildcard characters.

    An expression such as:

    somecolumn.endswith("foo/%bar", escape="^")

    Will render as:

    somecolumn LIKE '%' || :param ESCAPE '^'

    The parameter may also be combined with ColumnOperators.endswith.autoescape:

    somecolumn.endswith("foo%bar^bat", escape="^", autoescape=True)

    Where above, the given literal parameter will be converted to "foo^%bar^^bat" before being passed to the database.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.has(criterion: _ColumnExpressionArgument[bool] | None = None, **kwargs: Any) ColumnElement[bool]

Produce a proxied ‘has’ expression using EXISTS.

This expression will be a composed product using the Comparator.any() and/or Comparator.has() operators of the underlying proxied attributes.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.icontains(other: Any, **kw: Any) ColumnOperators

inherited from the ColumnOperators.icontains() method of ColumnOperators

Implement the icontains operator, e.g. case insensitive version of ColumnOperators.contains().

Produces a LIKE expression that tests against an insensitive match for the middle of a string value:

lower(column) LIKE '%' || lower(<other>) || '%'

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.icontains("foobar"))

Since the operator uses LIKE, wildcard characters "%" and "_" that are present inside the <other> expression will behave like wildcards as well. For literal string values, the ColumnOperators.icontains.autoescape flag may be set to True to apply escaping to occurrences of these characters within the string value so that they match as themselves and not as wildcard characters. Alternatively, the ColumnOperators.icontains.escape parameter will establish a given character as an escape character which can be of use when the target expression is not a literal string.

Parameters:
  • other – expression to be compared. This is usually a plain string value, but can also be an arbitrary SQL expression. LIKE wildcard characters % and _ are not escaped by default unless the ColumnOperators.icontains.autoescape flag is set to True.

  • autoescape

    boolean; when True, establishes an escape character within the LIKE expression, then applies it to all occurrences of "%", "_" and the escape character itself within the comparison value, which is assumed to be a literal string and not a SQL expression.

    An expression such as:

    somecolumn.icontains("foo%bar", autoescape=True)

    Will render as:

    lower(somecolumn) LIKE '%' || lower(:param) || '%' ESCAPE '/'

    With the value of :param as "foo/%bar".

  • escape

    a character which when given will render with the ESCAPE keyword to establish that character as the escape character. This character can then be placed preceding occurrences of % and _ to allow them to act as themselves and not wildcard characters.

    An expression such as:

    somecolumn.icontains("foo/%bar", escape="^")

    Will render as:

    lower(somecolumn) LIKE '%' || lower(:param) || '%' ESCAPE '^'

    The parameter may also be combined with ColumnOperators.contains.autoescape:

    somecolumn.icontains("foo%bar^bat", escape="^", autoescape=True)

    Where above, the given literal parameter will be converted to "foo^%bar^^bat" before being passed to the database.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.iendswith(other: Any, escape: str | None = None, autoescape: bool = False) ColumnOperators

inherited from the ColumnOperators.iendswith() method of ColumnOperators

Implement the iendswith operator, e.g. case insensitive version of ColumnOperators.endswith().

Produces a LIKE expression that tests against an insensitive match for the end of a string value:

lower(column) LIKE '%' || lower(<other>)

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.iendswith("foobar"))

Since the operator uses LIKE, wildcard characters "%" and "_" that are present inside the <other> expression will behave like wildcards as well. For literal string values, the ColumnOperators.iendswith.autoescape flag may be set to True to apply escaping to occurrences of these characters within the string value so that they match as themselves and not as wildcard characters. Alternatively, the ColumnOperators.iendswith.escape parameter will establish a given character as an escape character which can be of use when the target expression is not a literal string.

Parameters:
  • other – expression to be compared. This is usually a plain string value, but can also be an arbitrary SQL expression. LIKE wildcard characters % and _ are not escaped by default unless the ColumnOperators.iendswith.autoescape flag is set to True.

  • autoescape

    boolean; when True, establishes an escape character within the LIKE expression, then applies it to all occurrences of "%", "_" and the escape character itself within the comparison value, which is assumed to be a literal string and not a SQL expression.

    An expression such as:

    somecolumn.iendswith("foo%bar", autoescape=True)

    Will render as:

    lower(somecolumn) LIKE '%' || lower(:param) ESCAPE '/'

    With the value of :param as "foo/%bar".

  • escape

    a character which when given will render with the ESCAPE keyword to establish that character as the escape character. This character can then be placed preceding occurrences of % and _ to allow them to act as themselves and not wildcard characters.

    An expression such as:

    somecolumn.iendswith("foo/%bar", escape="^")

    Will render as:

    lower(somecolumn) LIKE '%' || lower(:param) ESCAPE '^'

    The parameter may also be combined with ColumnOperators.iendswith.autoescape:

    somecolumn.endswith("foo%bar^bat", escape="^", autoescape=True)

    Where above, the given literal parameter will be converted to "foo^%bar^^bat" before being passed to the database.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.ilike(other: Any, escape: str | None = None) ColumnOperators

inherited from the ColumnOperators.ilike() method of ColumnOperators

Implement the ilike operator, e.g. case insensitive LIKE.

In a column context, produces an expression either of the form:

lower(a) LIKE lower(other)

Or on backends that support the ILIKE operator:

a ILIKE other

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.ilike("%foobar%"))
Parameters:
  • other – expression to be compared

  • escape

    optional escape character, renders the ESCAPE keyword, e.g.:

    somecolumn.ilike("foo/%bar", escape="/")

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.in_(other: Any) ColumnOperators

inherited from the ColumnOperators.in_() method of ColumnOperators

Implement the in operator.

In a column context, produces the clause column IN <other>.

The given parameter other may be:

  • A list of literal values, e.g.:

    stmt.where(column.in_([1, 2, 3]))

    In this calling form, the list of items is converted to a set of bound parameters the same length as the list given:

    WHERE COL IN (?, ?, ?)
  • A list of tuples may be provided if the comparison is against a tuple_() containing multiple expressions:

    from sqlalchemy import tuple_
    stmt.where(tuple_(col1, col2).in_([(1, 10), (2, 20), (3, 30)]))
  • An empty list, e.g.:

    stmt.where(column.in_([]))

    In this calling form, the expression renders an “empty set” expression. These expressions are tailored to individual backends and are generally trying to get an empty SELECT statement as a subquery. Such as on SQLite, the expression is:

    WHERE col IN (SELECT 1 FROM (SELECT 1) WHERE 1!=1)

    Changed in version 1.4: empty IN expressions now use an execution-time generated SELECT subquery in all cases.

  • A bound parameter, e.g. bindparam(), may be used if it includes the bindparam.expanding flag:

    stmt.where(column.in_(bindparam('value', expanding=True)))

    In this calling form, the expression renders a special non-SQL placeholder expression that looks like:

    WHERE COL IN ([EXPANDING_value])

    This placeholder expression is intercepted at statement execution time to be converted into the variable number of bound parameter form illustrated earlier. If the statement were executed as:

    connection.execute(stmt, {"value": [1, 2, 3]})

    The database would be passed a bound parameter for each value:

    WHERE COL IN (?, ?, ?)

    New in version 1.2: added “expanding” bound parameters

    If an empty list is passed, a special “empty list” expression, which is specific to the database in use, is rendered. On SQLite this would be:

    WHERE COL IN (SELECT 1 FROM (SELECT 1) WHERE 1!=1)

    New in version 1.3: “expanding” bound parameters now support empty lists

  • a select() construct, which is usually a correlated scalar select:

    stmt.where(
        column.in_(
            select(othertable.c.y).
            where(table.c.x == othertable.c.x)
        )
    )

    In this calling form, ColumnOperators.in_() renders as given:

    WHERE COL IN (SELECT othertable.y
    FROM othertable WHERE othertable.x = table.x)
Parameters:

other – a list of literals, a select() construct, or a bindparam() construct that includes the bindparam.expanding flag set to True.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.is_(other: Any) ColumnOperators

inherited from the ColumnOperators.is_() method of ColumnOperators

Implement the IS operator.

Normally, IS is generated automatically when comparing to a value of None, which resolves to NULL. However, explicit usage of IS may be desirable if comparing to boolean values on certain platforms.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.is_distinct_from(other: Any) ColumnOperators

Implement the IS DISTINCT FROM operator.

Renders “a IS DISTINCT FROM b” on most platforms; on some such as SQLite may render “a IS NOT b”.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.is_not(other: Any) ColumnOperators

inherited from the ColumnOperators.is_not() method of ColumnOperators

Implement the IS NOT operator.

Normally, IS NOT is generated automatically when comparing to a value of None, which resolves to NULL. However, explicit usage of IS NOT may be desirable if comparing to boolean values on certain platforms.

Changed in version 1.4: The is_not() operator is renamed from isnot() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.is_not_distinct_from(other: Any) ColumnOperators

Implement the IS NOT DISTINCT FROM operator.

Renders “a IS NOT DISTINCT FROM b” on most platforms; on some such as SQLite may render “a IS b”.

Changed in version 1.4: The is_not_distinct_from() operator is renamed from isnot_distinct_from() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.isnot(other: Any) ColumnOperators

inherited from the ColumnOperators.isnot() method of ColumnOperators

Implement the IS NOT operator.

Normally, IS NOT is generated automatically when comparing to a value of None, which resolves to NULL. However, explicit usage of IS NOT may be desirable if comparing to boolean values on certain platforms.

Changed in version 1.4: The is_not() operator is renamed from isnot() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.isnot_distinct_from(other: Any) ColumnOperators

Implement the IS NOT DISTINCT FROM operator.

Renders “a IS NOT DISTINCT FROM b” on most platforms; on some such as SQLite may render “a IS b”.

Changed in version 1.4: The is_not_distinct_from() operator is renamed from isnot_distinct_from() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.istartswith(other: Any, escape: str | None = None, autoescape: bool = False) ColumnOperators

inherited from the ColumnOperators.istartswith() method of ColumnOperators

Implement the istartswith operator, e.g. case insensitive version of ColumnOperators.startswith().

Produces a LIKE expression that tests against an insensitive match for the start of a string value:

lower(column) LIKE lower(<other>) || '%'

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.istartswith("foobar"))

Since the operator uses LIKE, wildcard characters "%" and "_" that are present inside the <other> expression will behave like wildcards as well. For literal string values, the ColumnOperators.istartswith.autoescape flag may be set to True to apply escaping to occurrences of these characters within the string value so that they match as themselves and not as wildcard characters. Alternatively, the ColumnOperators.istartswith.escape parameter will establish a given character as an escape character which can be of use when the target expression is not a literal string.

Parameters:
  • other – expression to be compared. This is usually a plain string value, but can also be an arbitrary SQL expression. LIKE wildcard characters % and _ are not escaped by default unless the ColumnOperators.istartswith.autoescape flag is set to True.

  • autoescape

    boolean; when True, establishes an escape character within the LIKE expression, then applies it to all occurrences of "%", "_" and the escape character itself within the comparison value, which is assumed to be a literal string and not a SQL expression.

    An expression such as:

    somecolumn.istartswith("foo%bar", autoescape=True)

    Will render as:

    lower(somecolumn) LIKE lower(:param) || '%' ESCAPE '/'

    With the value of :param as "foo/%bar".

  • escape

    a character which when given will render with the ESCAPE keyword to establish that character as the escape character. This character can then be placed preceding occurrences of % and _ to allow them to act as themselves and not wildcard characters.

    An expression such as:

    somecolumn.istartswith("foo/%bar", escape="^")

    Will render as:

    lower(somecolumn) LIKE lower(:param) || '%' ESCAPE '^'

    The parameter may also be combined with ColumnOperators.istartswith.autoescape:

    somecolumn.istartswith("foo%bar^bat", escape="^", autoescape=True)

    Where above, the given literal parameter will be converted to "foo^%bar^^bat" before being passed to the database.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.like(other: Any, escape: str | None = None) ColumnOperators

inherited from the ColumnOperators.like() method of ColumnOperators

Implement the like operator.

In a column context, produces the expression:

a LIKE other

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.like("%foobar%"))
Parameters:
  • other – expression to be compared

  • escape

    optional escape character, renders the ESCAPE keyword, e.g.:

    somecolumn.like("foo/%bar", escape="/")

attribute sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.local_attr

The ‘local’ class attribute referenced by this AssociationProxyInstance.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.match(other: Any, **kwargs: Any) ColumnOperators

inherited from the ColumnOperators.match() method of ColumnOperators

Implements a database-specific ‘match’ operator.

ColumnOperators.match() attempts to resolve to a MATCH-like function or operator provided by the backend. Examples include:

  • PostgreSQL - renders x @@ plainto_tsquery(y)

    Changed in version 2.0: plainto_tsquery() is used instead of to_tsquery() for PostgreSQL now; for compatibility with other forms, see Full Text Search.

  • MySQL - renders MATCH (x) AGAINST (y IN BOOLEAN MODE)

    See also

    match - MySQL specific construct with additional features.

  • Oracle - renders CONTAINS(x, y)

  • other backends may provide special implementations.

  • Backends without any special implementation will emit the operator as “MATCH”. This is compatible with SQLite, for example.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.not_ilike(other: Any, escape: str | None = None) ColumnOperators

inherited from the ColumnOperators.not_ilike() method of ColumnOperators

implement the NOT ILIKE operator.

This is equivalent to using negation with ColumnOperators.ilike(), i.e. ~x.ilike(y).

Changed in version 1.4: The not_ilike() operator is renamed from notilike() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.not_in(other: Any) ColumnOperators

inherited from the ColumnOperators.not_in() method of ColumnOperators

implement the NOT IN operator.

This is equivalent to using negation with ColumnOperators.in_(), i.e. ~x.in_(y).

In the case that other is an empty sequence, the compiler produces an “empty not in” expression. This defaults to the expression “1 = 1” to produce true in all cases. The create_engine.empty_in_strategy may be used to alter this behavior.

Changed in version 1.4: The not_in() operator is renamed from notin_() in previous releases. The previous name remains available for backwards compatibility.

Changed in version 1.2: The ColumnOperators.in_() and ColumnOperators.not_in() operators now produce a “static” expression for an empty IN sequence by default.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.not_like(other: Any, escape: str | None = None) ColumnOperators

inherited from the ColumnOperators.not_like() method of ColumnOperators

implement the NOT LIKE operator.

This is equivalent to using negation with ColumnOperators.like(), i.e. ~x.like(y).

Changed in version 1.4: The not_like() operator is renamed from notlike() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.notilike(other: Any, escape: str | None = None) ColumnOperators

inherited from the ColumnOperators.notilike() method of ColumnOperators

implement the NOT ILIKE operator.

This is equivalent to using negation with ColumnOperators.ilike(), i.e. ~x.ilike(y).

Changed in version 1.4: The not_ilike() operator is renamed from notilike() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.notin_(other: Any) ColumnOperators

inherited from the ColumnOperators.notin_() method of ColumnOperators

implement the NOT IN operator.

This is equivalent to using negation with ColumnOperators.in_(), i.e. ~x.in_(y).

In the case that other is an empty sequence, the compiler produces an “empty not in” expression. This defaults to the expression “1 = 1” to produce true in all cases. The create_engine.empty_in_strategy may be used to alter this behavior.

Changed in version 1.4: The not_in() operator is renamed from notin_() in previous releases. The previous name remains available for backwards compatibility.

Changed in version 1.2: The ColumnOperators.in_() and ColumnOperators.not_in() operators now produce a “static” expression for an empty IN sequence by default.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.notlike(other: Any, escape: str | None = None) ColumnOperators

inherited from the ColumnOperators.notlike() method of ColumnOperators

implement the NOT LIKE operator.

This is equivalent to using negation with ColumnOperators.like(), i.e. ~x.like(y).

Changed in version 1.4: The not_like() operator is renamed from notlike() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.nulls_first() ColumnOperators

inherited from the ColumnOperators.nulls_first() method of ColumnOperators

Produce a nulls_first() clause against the parent object.

Changed in version 1.4: The nulls_first() operator is renamed from nullsfirst() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.nulls_last() ColumnOperators

inherited from the ColumnOperators.nulls_last() method of ColumnOperators

Produce a nulls_last() clause against the parent object.

Changed in version 1.4: The nulls_last() operator is renamed from nullslast() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.nullsfirst() ColumnOperators

inherited from the ColumnOperators.nullsfirst() method of ColumnOperators

Produce a nulls_first() clause against the parent object.

Changed in version 1.4: The nulls_first() operator is renamed from nullsfirst() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.nullslast() ColumnOperators

inherited from the ColumnOperators.nullslast() method of ColumnOperators

Produce a nulls_last() clause against the parent object.

Changed in version 1.4: The nulls_last() operator is renamed from nullslast() in previous releases. The previous name remains available for backwards compatibility.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.op(opstring: str, precedence: int = 0, is_comparison: bool = False, return_type: Type[TypeEngine[Any]] | TypeEngine[Any] | None = None, python_impl: Callable[..., Any] | None = None) Callable[[Any], Operators]

inherited from the Operators.op() method of Operators

Produce a generic operator function.

e.g.:

somecolumn.op("*")(5)

produces:

somecolumn * 5

This function can also be used to make bitwise operators explicit. For example:

somecolumn.op('&')(0xff)

is a bitwise AND of the value in somecolumn.

Parameters:
  • opstring – a string which will be output as the infix operator between this element and the expression passed to the generated function.

  • precedence

    precedence which the database is expected to apply to the operator in SQL expressions. This integer value acts as a hint for the SQL compiler to know when explicit parenthesis should be rendered around a particular operation. A lower number will cause the expression to be parenthesized when applied against another operator with higher precedence. The default value of 0 is lower than all operators except for the comma (,) and AS operators. A value of 100 will be higher or equal to all operators, and -100 will be lower than or equal to all operators.

    See also

    I’m using op() to generate a custom operator and my parenthesis are not coming out correctly - detailed description of how the SQLAlchemy SQL compiler renders parenthesis

  • is_comparison

    legacy; if True, the operator will be considered as a “comparison” operator, that is which evaluates to a boolean true/false value, like ==, >, etc. This flag is provided so that ORM relationships can establish that the operator is a comparison operator when used in a custom join condition.

    Using the is_comparison parameter is superseded by using the Operators.bool_op() method instead; this more succinct operator sets this parameter automatically, but also provides correct PEP 484 typing support as the returned object will express a “boolean” datatype, i.e. BinaryExpression[bool].

  • return_type – a TypeEngine class or object that will force the return type of an expression produced by this operator to be of that type. By default, operators that specify Operators.op.is_comparison will resolve to Boolean, and those that do not will be of the same type as the left-hand operand.

  • python_impl

    an optional Python function that can evaluate two Python values in the same way as this operator works when run on the database server. Useful for in-Python SQL expression evaluation functions, such as for ORM hybrid attributes, and the ORM “evaluator” used to match objects in a session after a multi-row update or delete.

    e.g.:

    >>> expr = column('x').op('+', python_impl=lambda a, b: a + b)('y')

    The operator for the above expression will also work for non-SQL left and right objects:

    >>> expr.operator(5, 10)
    15

    New in version 2.0.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.operate(op: OperatorType, *other: Any, **kwargs: Any) ColumnElement[Any]

Operate on an argument.

This is the lowest level of operation, raises NotImplementedError by default.

Overriding this on a subclass can allow common behavior to be applied to all operations. For example, overriding ColumnOperators to apply func.lower() to the left and right side:

class MyComparator(ColumnOperators):
    def operate(self, op, other, **kwargs):
        return op(func.lower(self), func.lower(other), **kwargs)
Parameters:
  • op – Operator callable.

  • *other – the ‘other’ side of the operation. Will be a single scalar for most operations.

  • **kwargs – modifiers. These may be passed by special operators such as ColumnOperators.contains().

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.regexp_match(pattern: Any, flags: str | None = None) ColumnOperators

inherited from the ColumnOperators.regexp_match() method of ColumnOperators

Implements a database-specific ‘regexp match’ operator.

E.g.:

stmt = select(table.c.some_column).where(
    table.c.some_column.regexp_match('^(b|c)')
)

ColumnOperators.regexp_match() attempts to resolve to a REGEXP-like function or operator provided by the backend, however the specific regular expression syntax and flags available are not backend agnostic.

Examples include:

  • PostgreSQL - renders x ~ y or x !~ y when negated.

  • Oracle - renders REGEXP_LIKE(x, y)

  • SQLite - uses SQLite’s REGEXP placeholder operator and calls into the Python re.match() builtin.

  • other backends may provide special implementations.

  • Backends without any special implementation will emit the operator as “REGEXP” or “NOT REGEXP”. This is compatible with SQLite and MySQL, for example.

Regular expression support is currently implemented for Oracle, PostgreSQL, MySQL and MariaDB. Partial support is available for SQLite. Support among third-party dialects may vary.

Parameters:
  • pattern – The regular expression pattern string or column clause.

  • flags – Any regular expression string flags to apply, passed as plain Python string only. These flags are backend specific. Some backends, like PostgreSQL and MariaDB, may alternatively specify the flags as part of the pattern. When using the ignore case flag ‘i’ in PostgreSQL, the ignore case regexp match operator ~* or !~* will be used.

New in version 1.4.

Changed in version 1.4.48,: 2.0.18 Note that due to an implementation error, the “flags” parameter previously accepted SQL expression objects such as column expressions in addition to plain Python strings. This implementation did not work correctly with caching and was removed; strings only should be passed for the “flags” parameter, as these flags are rendered as literal inline values within SQL expressions.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.regexp_replace(pattern: Any, replacement: Any, flags: str | None = None) ColumnOperators

inherited from the ColumnOperators.regexp_replace() method of ColumnOperators

Implements a database-specific ‘regexp replace’ operator.

E.g.:

stmt = select(
    table.c.some_column.regexp_replace(
        'b(..)',
        'XY',
        flags='g'
    )
)

ColumnOperators.regexp_replace() attempts to resolve to a REGEXP_REPLACE-like function provided by the backend, that usually emit the function REGEXP_REPLACE(). However, the specific regular expression syntax and flags available are not backend agnostic.

Regular expression replacement support is currently implemented for Oracle, PostgreSQL, MySQL 8 or greater and MariaDB. Support among third-party dialects may vary.

Parameters:
  • pattern – The regular expression pattern string or column clause.

  • pattern – The replacement string or column clause.

  • flags – Any regular expression string flags to apply, passed as plain Python string only. These flags are backend specific. Some backends, like PostgreSQL and MariaDB, may alternatively specify the flags as part of the pattern.

New in version 1.4.

Changed in version 1.4.48,: 2.0.18 Note that due to an implementation error, the “flags” parameter previously accepted SQL expression objects such as column expressions in addition to plain Python strings. This implementation did not work correctly with caching and was removed; strings only should be passed for the “flags” parameter, as these flags are rendered as literal inline values within SQL expressions.

attribute sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.remote_attr

The ‘remote’ class attribute referenced by this AssociationProxyInstance.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.reverse_operate(op: OperatorType, other: Any, **kwargs: Any) Operators

inherited from the Operators.reverse_operate() method of Operators

Reverse operate on an argument.

Usage is the same as operate().

attribute sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.scalar

Return True if this AssociationProxyInstance proxies a scalar relationship on the local side.

method sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.startswith(other: Any, escape: str | None = None, autoescape: bool = False) ColumnOperators

inherited from the ColumnOperators.startswith() method of ColumnOperators

Implement the startswith operator.

Produces a LIKE expression that tests against a match for the start of a string value:

column LIKE <other> || '%'

E.g.:

stmt = select(sometable).\
    where(sometable.c.column.startswith("foobar"))

Since the operator uses LIKE, wildcard characters "%" and "_" that are present inside the <other> expression will behave like wildcards as well. For literal string values, the ColumnOperators.startswith.autoescape flag may be set to True to apply escaping to occurrences of these characters within the string value so that they match as themselves and not as wildcard characters. Alternatively, the ColumnOperators.startswith.escape parameter will establish a given character as an escape character which can be of use when the target expression is not a literal string.

Parameters:
  • other – expression to be compared. This is usually a plain string value, but can also be an arbitrary SQL expression. LIKE wildcard characters % and _ are not escaped by default unless the ColumnOperators.startswith.autoescape flag is set to True.

  • autoescape

    boolean; when True, establishes an escape character within the LIKE expression, then applies it to all occurrences of "%", "_" and the escape character itself within the comparison value, which is assumed to be a literal string and not a SQL expression.

    An expression such as:

    somecolumn.startswith("foo%bar", autoescape=True)

    Will render as:

    somecolumn LIKE :param || '%' ESCAPE '/'

    With the value of :param as "foo/%bar".

  • escape

    a character which when given will render with the ESCAPE keyword to establish that character as the escape character. This character can then be placed preceding occurrences of % and _ to allow them to act as themselves and not wildcard characters.

    An expression such as:

    somecolumn.startswith("foo/%bar", escape="^")

    Will render as:

    somecolumn LIKE :param || '%' ESCAPE '^'

    The parameter may also be combined with ColumnOperators.startswith.autoescape:

    somecolumn.startswith("foo%bar^bat", escape="^", autoescape=True)

    Where above, the given literal parameter will be converted to "foo^%bar^^bat" before being passed to the database.

attribute sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.target_class: Type[Any]

The intermediary class handled by this AssociationProxyInstance.

Intercepted append/set/assignment events will result in the generation of new instances of this class.

attribute sqlalchemy.ext.associationproxy.ColumnAssociationProxyInstance.timetuple: Literal[None] = None

inherited from the ColumnOperators.timetuple attribute of ColumnOperators

Hack, allows datetime objects to be compared on the LHS.

class sqlalchemy.ext.associationproxy.AssociationProxyExtensionType
attribute sqlalchemy.ext.associationproxy.AssociationProxyExtensionType.ASSOCIATION_PROXY = 'ASSOCIATION_PROXY'

Symbol indicating an InspectionAttr that’s of type AssociationProxy.

Is assigned to the InspectionAttr.extension_type attribute.