Changing Attribute Behavior

Simple Validators

A quick way to add a “validation” routine to an attribute is to use the validates() decorator. An attribute validator can raise an exception, halting the process of mutating the attribute’s value, or can change the given value into something different. Validators, like all attribute extensions, are only called by normal userland code; they are not issued when the ORM is populating the object:

from sqlalchemy.orm import validates

class EmailAddress(Base):
    __tablename__ = 'address'

    id = Column(Integer, primary_key=True)
    email = Column(String)

    @validates('email')
    def validate_email(self, key, address):
        assert '@' in address
        return address

Changed in version 1.0.0: - validators are no longer triggered within the flush process when the newly fetched values for primary key columns as well as some python- or server-side defaults are fetched. Prior to 1.0, validators may be triggered in those cases as well.

Validators also receive collection append events, when items are added to a collection:

from sqlalchemy.orm import validates

class User(Base):
    # ...

    addresses = relationship("Address")

    @validates('addresses')
    def validate_address(self, key, address):
        assert '@' in address.email
        return address

The validation function by default does not get emitted for collection remove events, as the typical expectation is that a value being discarded doesn’t require validation. However, validates() supports reception of these events by specifying include_removes=True to the decorator. When this flag is set, the validation function must receive an additional boolean argument which if True indicates that the operation is a removal:

from sqlalchemy.orm import validates

class User(Base):
    # ...

    addresses = relationship("Address")

    @validates('addresses', include_removes=True)
    def validate_address(self, key, address, is_remove):
        if is_remove:
            raise ValueError(
                    "not allowed to remove items from the collection")
        else:
            assert '@' in address.email
            return address

The case where mutually dependent validators are linked via a backref can also be tailored, using the include_backrefs=False option; this option, when set to False, prevents a validation function from emitting if the event occurs as a result of a backref:

from sqlalchemy.orm import validates

class User(Base):
    # ...

    addresses = relationship("Address", backref='user')

    @validates('addresses', include_backrefs=False)
    def validate_address(self, key, address):
        assert '@' in address.email
        return address

Above, if we were to assign to Address.user as in some_address.user = some_user, the validate_address() function would not be emitted, even though an append occurs to some_user.addresses - the event is caused by a backref.

Note that the validates() decorator is a convenience function built on top of attribute events. An application that requires more control over configuration of attribute change behavior can make use of this system, described at AttributeEvents.

Object Name Description

validates(*names, **kw)

Decorate a method as a ‘validator’ for one or more named properties.

function sqlalchemy.orm.validates(*names, **kw)

Decorate a method as a ‘validator’ for one or more named properties.

Designates a method as a validator, a method which receives the name of the attribute as well as a value to be assigned, or in the case of a collection, the value to be added to the collection. The function can then raise validation exceptions to halt the process from continuing (where Python’s built-in ValueError and AssertionError exceptions are reasonable choices), or can modify or replace the value before proceeding. The function should otherwise return the given value.

Note that a validator for a collection cannot issue a load of that collection within the validation routine - this usage raises an assertion to avoid recursion overflows. This is a reentrant condition which is not supported.

Parameters:
  • *names – list of attribute names to be validated.

  • include_removes – if True, “remove” events will be sent as well - the validation function must accept an additional argument “is_remove” which will be a boolean.

  • include_backrefs

    defaults to True; if False, the validation function will not emit if the originator is an attribute event related via a backref. This can be used for bi-directional validates() usage where only one validator should emit per attribute operation.

    New in version 0.9.0.

See also

Simple Validators - usage examples for validates()

Using Descriptors and Hybrids

A more comprehensive way to produce modified behavior for an attribute is to use descriptors. These are commonly used in Python using the property() function. The standard SQLAlchemy technique for descriptors is to create a plain descriptor, and to have it read/write from a mapped attribute with a different name. Below we illustrate this using Python 2.6-style properties:

class EmailAddress(Base):
    __tablename__ = 'email_address'

    id = Column(Integer, primary_key=True)

    # name the attribute with an underscore,
    # different from the column name
    _email = Column("email", String)

    # then create an ".email" attribute
    # to get/set "._email"
    @property
    def email(self):
        return self._email

    @email.setter
    def email(self, email):
        self._email = email

The approach above will work, but there’s more we can add. While our EmailAddress object will shuttle the value through the email descriptor and into the _email mapped attribute, the class level EmailAddress.email attribute does not have the usual expression semantics usable with Query. To provide these, we instead use the hybrid extension as follows:

from sqlalchemy.ext.hybrid import hybrid_property

class EmailAddress(Base):
    __tablename__ = 'email_address'

    id = Column(Integer, primary_key=True)

    _email = Column("email", String)

    @hybrid_property
    def email(self):
        return self._email

    @email.setter
    def email(self, email):
        self._email = email

The .email attribute, in addition to providing getter/setter behavior when we have an instance of EmailAddress, also provides a SQL expression when used at the class level, that is, from the EmailAddress class directly:

from sqlalchemy.orm import Session
session = Session()

sqladdress = session.query(EmailAddress).\
                 filter(EmailAddress.email == 'address@example.com').\
                 one()

address.email = 'otheraddress@example.com'
sqlsession.commit()

The hybrid_property also allows us to change the behavior of the attribute, including defining separate behaviors when the attribute is accessed at the instance level versus at the class/expression level, using the hybrid_property.expression() modifier. Such as, if we wanted to add a host name automatically, we might define two sets of string manipulation logic:

class EmailAddress(Base):
    __tablename__ = 'email_address'

    id = Column(Integer, primary_key=True)

    _email = Column("email", String)

    @hybrid_property
    def email(self):
        """Return the value of _email up until the last twelve
        characters."""

        return self._email[:-12]

    @email.setter
    def email(self, email):
        """Set the value of _email, tacking on the twelve character
        value @example.com."""

        self._email = email + "@example.com"

    @email.expression
    def email(cls):
        """Produce a SQL expression that represents the value
        of the _email column, minus the last twelve characters."""

        return func.substr(cls._email, 0, func.length(cls._email) - 12)

Above, accessing the email property of an instance of EmailAddress will return the value of the _email attribute, removing or adding the hostname @example.com from the value. When we query against the email attribute, a SQL function is rendered which produces the same effect:

sqladdress = session.query(EmailAddress).filter(EmailAddress.email == 'address').one()

Read more about Hybrids at Hybrid Attributes.

Synonyms

Synonyms are a mapper-level construct that allow any attribute on a class to “mirror” another attribute that is mapped.

In the most basic sense, the synonym is an easy way to make a certain attribute available by an additional name:

class MyClass(Base):
    __tablename__ = 'my_table'

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

    status = synonym("job_status")

The above class MyClass has two attributes, .job_status and .status that will behave as one attribute, both at the expression level:

>>> print(MyClass.job_status == 'some_status')
my_table.job_status = :job_status_1

>>> print(MyClass.status == 'some_status')
my_table.job_status = :job_status_1

and at the instance level:

>>> m1 = MyClass(status='x')
>>> m1.status, m1.job_status
('x', 'x')

>>> m1.job_status = 'y'
>>> m1.status, m1.job_status
('y', 'y')

The synonym() can be used for any kind of mapped attribute that subclasses MapperProperty, including mapped columns and relationships, as well as synonyms themselves.

Beyond a simple mirror, synonym() can also be made to reference a user-defined descriptor. We can supply our status synonym with a @property:

class MyClass(Base):
    __tablename__ = 'my_table'

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

    @property
    def job_status(self):
        return "Status: " + self.status

    job_status = synonym("status", descriptor=job_status)

When using Declarative, the above pattern can be expressed more succinctly using the synonym_for() decorator:

from sqlalchemy.ext.declarative import synonym_for

class MyClass(Base):
    __tablename__ = 'my_table'

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

    @synonym_for("status")
    @property
    def job_status(self):
        return "Status: " + self.status

While the synonym() is useful for simple mirroring, the use case of augmenting attribute behavior with descriptors is better handled in modern usage using the hybrid attribute feature, which is more oriented towards Python descriptors. Technically, a synonym() can do everything that a hybrid_property can do, as it also supports injection of custom SQL capabilities, but the hybrid is more straightforward to use in more complex situations.

Object Name Description

synonym(name[, map_column, descriptor, comparator_factory, ...])

Denote an attribute name as a synonym to a mapped property, in that the attribute will mirror the value and expression behavior of another attribute.

function sqlalchemy.orm.synonym(name, map_column=None, descriptor=None, comparator_factory=None, doc=None, info=None)

Denote an attribute name as a synonym to a mapped property, in that the attribute will mirror the value and expression behavior of another attribute.

e.g.:

class MyClass(Base):
    __tablename__ = 'my_table'

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

    status = synonym("job_status")
Parameters:
  • name – the name of the existing mapped property. This can refer to the string name ORM-mapped attribute configured on the class, including column-bound attributes and relationships.

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

  • map_column

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

    my_table = Table(
        "my_table", metadata,
        Column('id', Integer, primary_key=True),
        Column('job_status', String(50))
    )
    
    class MyClass(object):
        @property
        def _job_status_descriptor(self):
            return "Status: %s" % self._job_status
    
    
    mapper(
        MyClass, my_table, properties={
            "job_status": synonym(
                "_job_status", map_column=True,
                descriptor=MyClass._job_status_descriptor)
        }
    )

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

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

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

  • info

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

    New in version 1.0.0.

  • comparator_factory

    A subclass of PropComparator that will provide custom comparison behavior at the SQL expression level.

    Note

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

See also

Synonyms - Overview of synonyms

synonym_for() - a helper oriented towards Declarative

Using Descriptors and Hybrids - The Hybrid Attribute extension provides an updated approach to augmenting attribute behavior more flexibly than can be achieved with synonyms.

Operator Customization

The “operators” used by the SQLAlchemy ORM and Core expression language are fully customizable. For example, the comparison expression User.name == 'ed' makes usage of an operator built into Python itself called operator.eq - the actual SQL construct which SQLAlchemy associates with such an operator can be modified. New operations can be associated with column expressions as well. The operators which take place for column expressions are most directly redefined at the type level - see the section Redefining and Creating New Operators for a description.

ORM level functions like column_property(), relationship(), and composite() also provide for operator redefinition at the ORM level, by passing a PropComparator subclass to the comparator_factory argument of each function. Customization of operators at this level is a rare use case. See the documentation at PropComparator for an overview.