# postgresql/on_conflict.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 . import ext from ... import util from ...sql import coercions from ...sql import roles from ...sql import schema from ...sql.base import _exclusive_against from ...sql.base import _generative from ...sql.base import ColumnCollection from ...sql.dml import Insert as StandardInsert from ...sql.elements import ClauseElement from ...sql.expression import alias from ...util.langhelpers import public_factory __all__ = ("Insert", "insert") class Insert(StandardInsert): """PostgreSQL-specific implementation of INSERT. Adds methods for PG-specific syntaxes such as ON CONFLICT. The :class:`_postgresql.Insert` object is created using the :func:`sqlalchemy.dialects.postgresql.insert` function. .. versionadded:: 1.1 """ stringify_dialect = "postgresql" @util.memoized_property def excluded(self): """Provide the ``excluded`` namespace for an ON CONFLICT statement PG's ON CONFLICT clause allows reference to the row that would be inserted, known as ``excluded``. This attribute provides all columns in this row to be referenceable. .. tip:: The :attr:`_postgresql.Insert.excluded` attribute is an instance of :class:`_expression.ColumnCollection`, which provides an interface the same as that of the :attr:`_schema.Table.c` collection described at :ref:`metadata_tables_and_columns`. With this collection, ordinary names are accessible like attributes (e.g. ``stmt.excluded.some_column``), but special names and dictionary method names should be accessed using indexed access, such as ``stmt.excluded["column name"]`` or ``stmt.excluded["values"]``. See the docstring for :class:`_expression.ColumnCollection` for further examples. .. seealso:: :ref:`postgresql_insert_on_conflict` - example of how to use :attr:`_expression.Insert.excluded` """ return alias(self.table, name="excluded").columns _on_conflict_exclusive = _exclusive_against( "_post_values_clause", msgs={ "_post_values_clause": "This Insert construct already has " "an ON CONFLICT clause established" }, ) @_generative @_on_conflict_exclusive def on_conflict_do_update( self, constraint=None, index_elements=None, index_where=None, set_=None, where=None, ): r""" Specifies a DO UPDATE SET action for ON CONFLICT clause. Either the ``constraint`` or ``index_elements`` argument is required, but only one of these can be specified. :param constraint: The name of a unique or exclusion constraint on the table, or the constraint object itself if it has a .name attribute. :param index_elements: A sequence consisting of string column names, :class:`_schema.Column` objects, or other column expression objects that will be used to infer a target index. :param index_where: Additional WHERE criterion that can be used to infer a conditional target index. :param set\_: A dictionary or other mapping object where the keys are either names of columns in the target table, or :class:`_schema.Column` objects or other ORM-mapped columns matching that of the target table, and expressions or literals as values, specifying the ``SET`` actions to take. .. versionadded:: 1.4 The :paramref:`_postgresql.Insert.on_conflict_do_update.set_` parameter supports :class:`_schema.Column` objects from the target :class:`_schema.Table` as keys. .. warning:: This dictionary does **not** take into account Python-specified default UPDATE values or generation functions, e.g. those specified using :paramref:`_schema.Column.onupdate`. These values will not be exercised for an ON CONFLICT style of UPDATE, unless they are manually specified in the :paramref:`.Insert.on_conflict_do_update.set_` dictionary. :param where: Optional argument. If present, can be a literal SQL string or an acceptable expression for a ``WHERE`` clause that restricts the rows affected by ``DO UPDATE SET``. Rows not meeting the ``WHERE`` condition will not be updated (effectively a ``DO NOTHING`` for those rows). .. versionadded:: 1.1 .. seealso:: :ref:`postgresql_insert_on_conflict` """ self._post_values_clause = OnConflictDoUpdate( constraint, index_elements, index_where, set_, where ) @_generative @_on_conflict_exclusive def on_conflict_do_nothing( self, constraint=None, index_elements=None, index_where=None ): """ Specifies a DO NOTHING action for ON CONFLICT clause. The ``constraint`` and ``index_elements`` arguments are optional, but only one of these can be specified. :param constraint: The name of a unique or exclusion constraint on the table, or the constraint object itself if it has a .name attribute. :param index_elements: A sequence consisting of string column names, :class:`_schema.Column` objects, or other column expression objects that will be used to infer a target index. :param index_where: Additional WHERE criterion that can be used to infer a conditional target index. .. versionadded:: 1.1 .. seealso:: :ref:`postgresql_insert_on_conflict` """ self._post_values_clause = OnConflictDoNothing( constraint, index_elements, index_where ) insert = public_factory( Insert, ".dialects.postgresql.insert", ".dialects.postgresql.Insert" ) class OnConflictClause(ClauseElement): stringify_dialect = "postgresql" def __init__(self, constraint=None, index_elements=None, index_where=None): if constraint is not None: if not isinstance(constraint, util.string_types) and isinstance( constraint, (schema.Index, schema.Constraint, ext.ExcludeConstraint), ): constraint = getattr(constraint, "name") or constraint if constraint is not None: if index_elements is not None: raise ValueError( "'constraint' and 'index_elements' are mutually exclusive" ) if isinstance(constraint, util.string_types): self.constraint_target = constraint self.inferred_target_elements = None self.inferred_target_whereclause = None elif isinstance(constraint, schema.Index): index_elements = constraint.expressions index_where = constraint.dialect_options["postgresql"].get( "where" ) elif isinstance(constraint, ext.ExcludeConstraint): index_elements = constraint.columns index_where = constraint.where else: index_elements = constraint.columns index_where = constraint.dialect_options["postgresql"].get( "where" ) if index_elements is not None: self.constraint_target = None self.inferred_target_elements = index_elements self.inferred_target_whereclause = index_where elif constraint is None: self.constraint_target = ( self.inferred_target_elements ) = self.inferred_target_whereclause = None class OnConflictDoNothing(OnConflictClause): __visit_name__ = "on_conflict_do_nothing" class OnConflictDoUpdate(OnConflictClause): __visit_name__ = "on_conflict_do_update" def __init__( self, constraint=None, index_elements=None, index_where=None, set_=None, where=None, ): super(OnConflictDoUpdate, self).__init__( constraint=constraint, index_elements=index_elements, index_where=index_where, ) if ( self.inferred_target_elements is None and self.constraint_target is None ): raise ValueError( "Either constraint or index_elements, " "but not both, must be specified unless DO NOTHING" ) if isinstance(set_, dict): if not set_: raise ValueError("set parameter dictionary must not be empty") elif isinstance(set_, ColumnCollection): set_ = dict(set_) else: raise ValueError( "set parameter must be a non-empty dictionary " "or a ColumnCollection such as the `.c.` collection " "of a Table object" ) self.update_values_to_set = [ (coercions.expect(roles.DMLColumnRole, key), value) for key, value in set_.items() ] self.update_whereclause = where