# postgresql/ext.py # Copyright (C) 2005-2018 the SQLAlchemy authors and contributors # # # This module is part of SQLAlchemy and is released under # the MIT License: http://www.opensource.org/licenses/mit-license.php from ...sql import expression from ...sql import elements from ...sql import functions from ...sql.schema import ColumnCollectionConstraint from .array import ARRAY class aggregate_order_by(expression.ColumnElement): """Represent a PostgreSQL aggregate order by expression. E.g.:: from sqlalchemy.dialects.postgresql import aggregate_order_by expr = func.array_agg(aggregate_order_by(table.c.a, table.c.b.desc())) stmt = select([expr]) would represent the expression:: SELECT array_agg(a ORDER BY b DESC) FROM table; Similarly:: expr = func.string_agg( table.c.a, aggregate_order_by(literal_column("','"), table.c.a) ) stmt = select([expr]) Would represent:: SELECT string_agg(a, ',' ORDER BY a) FROM table; .. versionadded:: 1.1 .. seealso:: :class:`.array_agg` """ __visit_name__ = 'aggregate_order_by' def __init__(self, target, order_by): self.target = elements._literal_as_binds(target) self.order_by = elements._literal_as_binds(order_by) def self_group(self, against=None): return self def get_children(self, **kwargs): return self.target, self.order_by def _copy_internals(self, clone=elements._clone, **kw): self.target = clone(self.target, **kw) self.order_by = clone(self.order_by, **kw) @property def _from_objects(self): return self.target._from_objects + self.order_by._from_objects class ExcludeConstraint(ColumnCollectionConstraint): """A table-level EXCLUDE constraint. Defines an EXCLUDE constraint as described in the `postgres documentation`__. __ http://www.postgresql.org/docs/9.0/\ static/sql-createtable.html#SQL-CREATETABLE-EXCLUDE """ __visit_name__ = 'exclude_constraint' where = None def __init__(self, *elements, **kw): r""" Create an :class:`.ExcludeConstraint` object. E.g.:: const = ExcludeConstraint( (Column('period'), '&&'), (Column('group'), '='), where=(Column('group') != 'some group') ) The constraint is normally embedded into the :class:`.Table` construct directly, or added later using :meth:`.append_constraint`:: some_table = Table( 'some_table', metadata, Column('id', Integer, primary_key=True), Column('period', TSRANGE()), Column('group', String) ) some_table.append_constraint( ExcludeConstraint( (some_table.c.period, '&&'), (some_table.c.group, '='), where=some_table.c.group != 'some group', name='some_table_excl_const' ) ) :param \*elements: A sequence of two tuples of the form ``(column, operator)`` where "column" is a SQL expression element or a raw SQL string, most typically a :class:`.Column` object, and "operator" is a string containing the operator to use. .. note:: A plain string passed for the value of "column" is interpreted as an arbitrary SQL expression; when passing a plain string, any necessary quoting and escaping syntaxes must be applied manually. In order to specify a column name when a :class:`.Column` object is not available, while ensuring that any necessary quoting rules take effect, an ad-hoc :class:`.Column` or :func:`.sql.expression.column` object may be used. :param name: Optional, the in-database name of this constraint. :param deferrable: Optional bool. If set, emit DEFERRABLE or NOT DEFERRABLE when issuing DDL for this constraint. :param initially: Optional string. If set, emit INITIALLY when issuing DDL for this constraint. :param using: Optional string. If set, emit USING when issuing DDL for this constraint. Defaults to 'gist'. :param where: Optional SQL expression construct or literal SQL string. If set, emit WHERE when issuing DDL for this constraint. .. note:: A plain string passed here is interpreted as an arbitrary SQL expression; when passing a plain string, any necessary quoting and escaping syntaxes must be applied manually. """ columns = [] render_exprs = [] self.operators = {} expressions, operators = zip(*elements) for (expr, column, strname, add_element), operator in zip( self._extract_col_expression_collection(expressions), operators ): if add_element is not None: columns.append(add_element) name = column.name if column is not None else strname if name is not None: # backwards compat self.operators[name] = operator expr = expression._literal_as_text(expr) render_exprs.append( (expr, name, operator) ) self._render_exprs = render_exprs ColumnCollectionConstraint.__init__( self, *columns, name=kw.get('name'), deferrable=kw.get('deferrable'), initially=kw.get('initially') ) self.using = kw.get('using', 'gist') where = kw.get('where') if where is not None: self.where = expression._literal_as_text(where) def copy(self, **kw): elements = [(col, self.operators[col]) for col in self.columns.keys()] c = self.__class__(*elements, name=self.name, deferrable=self.deferrable, initially=self.initially, where=self.where, using=self.using) c.dispatch._update(self.dispatch) return c def array_agg(*arg, **kw): """PostgreSQL-specific form of :class:`.array_agg`, ensures return type is :class:`.postgresql.ARRAY` and not the plain :class:`.types.ARRAY`. .. versionadded:: 1.1 """ kw['type_'] = ARRAY(functions._type_from_args(arg)) return functions.func.array_agg(*arg, **kw)