# postgresql/json.py # Copyright (C) 2005-2021 the SQLAlchemy authors and contributors # # # This module is part of SQLAlchemy and is released under # the MIT License: https://www.opensource.org/licenses/mit-license.php from __future__ import absolute_import from ... import types as sqltypes from ... import util from ...sql import operators __all__ = ("JSON", "JSONB") idx_precedence = operators._PRECEDENCE[operators.json_getitem_op] ASTEXT = operators.custom_op( "->>", precedence=idx_precedence, natural_self_precedent=True, eager_grouping=True, ) JSONPATH_ASTEXT = operators.custom_op( "#>>", precedence=idx_precedence, natural_self_precedent=True, eager_grouping=True, ) HAS_KEY = operators.custom_op( "?", precedence=idx_precedence, natural_self_precedent=True, eager_grouping=True, ) HAS_ALL = operators.custom_op( "?&", precedence=idx_precedence, natural_self_precedent=True, eager_grouping=True, ) HAS_ANY = operators.custom_op( "?|", precedence=idx_precedence, natural_self_precedent=True, eager_grouping=True, ) CONTAINS = operators.custom_op( "@>", precedence=idx_precedence, natural_self_precedent=True, eager_grouping=True, ) CONTAINED_BY = operators.custom_op( "<@", precedence=idx_precedence, natural_self_precedent=True, eager_grouping=True, ) class JSONPathType(sqltypes.JSON.JSONPathType): def bind_processor(self, dialect): super_proc = self.string_bind_processor(dialect) def process(value): assert isinstance(value, util.collections_abc.Sequence) tokens = [util.text_type(elem) for elem in value] value = "{%s}" % (", ".join(tokens)) if super_proc: value = super_proc(value) return value return process def literal_processor(self, dialect): super_proc = self.string_literal_processor(dialect) def process(value): assert isinstance(value, util.collections_abc.Sequence) tokens = [util.text_type(elem) for elem in value] value = "{%s}" % (", ".join(tokens)) if super_proc: value = super_proc(value) return value return process class JSON(sqltypes.JSON): """Represent the PostgreSQL JSON type. :class:`_postgresql.JSON` is used automatically whenever the base :class:`_types.JSON` datatype is used against a PostgreSQL backend, however base :class:`_types.JSON` datatype does not provide Python accessors for PostgreSQL-specific comparison methods such as :meth:`_postgresql.JSON.Comparator.astext`; additionally, to use PostgreSQL ``JSONB``, the :class:`_postgresql.JSONB` datatype should be used explicitly. .. seealso:: :class:`_types.JSON` - main documentation for the generic cross-platform JSON datatype. The operators provided by the PostgreSQL version of :class:`_types.JSON` include: * Index operations (the ``->`` operator):: data_table.c.data['some key'] data_table.c.data[5] * Index operations returning text (the ``->>`` operator):: data_table.c.data['some key'].astext == 'some value' Note that equivalent functionality is available via the :attr:`.JSON.Comparator.as_string` accessor. * Index operations with CAST (equivalent to ``CAST(col ->> ['some key'] AS )``):: data_table.c.data['some key'].astext.cast(Integer) == 5 Note that equivalent functionality is available via the :attr:`.JSON.Comparator.as_integer` and similar accessors. * Path index operations (the ``#>`` operator):: data_table.c.data[('key_1', 'key_2', 5, ..., 'key_n')] * Path index operations returning text (the ``#>>`` operator):: data_table.c.data[('key_1', 'key_2', 5, ..., 'key_n')].astext == 'some value' .. versionchanged:: 1.1 The :meth:`_expression.ColumnElement.cast` operator on JSON objects now requires that the :attr:`.JSON.Comparator.astext` modifier be called explicitly, if the cast works only from a textual string. Index operations return an expression object whose type defaults to :class:`_types.JSON` by default, so that further JSON-oriented instructions may be called upon the result type. Custom serializers and deserializers are specified at the dialect level, that is using :func:`_sa.create_engine`. The reason for this is that when using psycopg2, the DBAPI only allows serializers at the per-cursor or per-connection level. E.g.:: engine = create_engine("postgresql://scott:tiger@localhost/test", json_serializer=my_serialize_fn, json_deserializer=my_deserialize_fn ) When using the psycopg2 dialect, the json_deserializer is registered against the database using ``psycopg2.extras.register_default_json``. .. seealso:: :class:`_types.JSON` - Core level JSON type :class:`_postgresql.JSONB` .. versionchanged:: 1.1 :class:`_postgresql.JSON` is now a PostgreSQL- specific specialization of the new :class:`_types.JSON` type. """ # noqa astext_type = sqltypes.Text() def __init__(self, none_as_null=False, astext_type=None): """Construct a :class:`_types.JSON` type. :param none_as_null: if True, persist the value ``None`` as a SQL NULL value, not the JSON encoding of ``null``. Note that when this flag is False, the :func:`.null` construct can still be used to persist a NULL value:: from sqlalchemy import null conn.execute(table.insert(), data=null()) .. versionchanged:: 0.9.8 - Added ``none_as_null``, and :func:`.null` is now supported in order to persist a NULL value. .. seealso:: :attr:`_types.JSON.NULL` :param astext_type: the type to use for the :attr:`.JSON.Comparator.astext` accessor on indexed attributes. Defaults to :class:`_types.Text`. .. versionadded:: 1.1 """ super(JSON, self).__init__(none_as_null=none_as_null) if astext_type is not None: self.astext_type = astext_type class Comparator(sqltypes.JSON.Comparator): """Define comparison operations for :class:`_types.JSON`.""" @property def astext(self): """On an indexed expression, use the "astext" (e.g. "->>") conversion when rendered in SQL. E.g.:: select(data_table.c.data['some key'].astext) .. seealso:: :meth:`_expression.ColumnElement.cast` """ if isinstance(self.expr.right.type, sqltypes.JSON.JSONPathType): return self.expr.left.operate( JSONPATH_ASTEXT, self.expr.right, result_type=self.type.astext_type, ) else: return self.expr.left.operate( ASTEXT, self.expr.right, result_type=self.type.astext_type ) comparator_factory = Comparator class JSONB(JSON): """Represent the PostgreSQL JSONB type. The :class:`_postgresql.JSONB` type stores arbitrary JSONB format data, e.g.:: data_table = Table('data_table', metadata, Column('id', Integer, primary_key=True), Column('data', JSONB) ) with engine.connect() as conn: conn.execute( data_table.insert(), data = {"key1": "value1", "key2": "value2"} ) The :class:`_postgresql.JSONB` type includes all operations provided by :class:`_types.JSON`, including the same behaviors for indexing operations. It also adds additional operators specific to JSONB, including :meth:`.JSONB.Comparator.has_key`, :meth:`.JSONB.Comparator.has_all`, :meth:`.JSONB.Comparator.has_any`, :meth:`.JSONB.Comparator.contains`, and :meth:`.JSONB.Comparator.contained_by`. Like the :class:`_types.JSON` type, the :class:`_postgresql.JSONB` type does not detect in-place changes when used with the ORM, unless the :mod:`sqlalchemy.ext.mutable` extension is used. Custom serializers and deserializers are shared with the :class:`_types.JSON` class, using the ``json_serializer`` and ``json_deserializer`` keyword arguments. These must be specified at the dialect level using :func:`_sa.create_engine`. When using psycopg2, the serializers are associated with the jsonb type using ``psycopg2.extras.register_default_jsonb`` on a per-connection basis, in the same way that ``psycopg2.extras.register_default_json`` is used to register these handlers with the json type. .. versionadded:: 0.9.7 .. seealso:: :class:`_types.JSON` """ __visit_name__ = "JSONB" class Comparator(JSON.Comparator): """Define comparison operations for :class:`_types.JSON`.""" def has_key(self, other): """Boolean expression. Test for presence of a key. Note that the key may be a SQLA expression. """ return self.operate(HAS_KEY, other, result_type=sqltypes.Boolean) def has_all(self, other): """Boolean expression. Test for presence of all keys in jsonb""" return self.operate(HAS_ALL, other, result_type=sqltypes.Boolean) def has_any(self, other): """Boolean expression. Test for presence of any key in jsonb""" return self.operate(HAS_ANY, other, result_type=sqltypes.Boolean) def contains(self, other, **kwargs): """Boolean expression. Test if keys (or array) are a superset of/contained the keys of the argument jsonb expression. """ return self.operate(CONTAINS, other, result_type=sqltypes.Boolean) def contained_by(self, other): """Boolean expression. Test if keys are a proper subset of the keys of the argument jsonb expression. """ return self.operate( CONTAINED_BY, other, result_type=sqltypes.Boolean ) comparator_factory = Comparator