# postgresql/ext.py
# Copyright (C) 2005-2021 the SQLAlchemy authors and contributors
# <see AUTHORS file>
#
# This module is part of SQLAlchemy and is released under
# the MIT License: http://www.opensource.org/licenses/mit-license.php

from .array import ARRAY
from ...sql import elements
from ...sql import expression
from ...sql import functions
from ...sql import schema
from ...sql.schema import ColumnCollectionConstraint


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

    .. versionchanged:: 1.2.13 - the ORDER BY argument may be multiple terms

    .. seealso::

        :class:`_functions.array_agg`

    """

    __visit_name__ = "aggregate_order_by"

    def __init__(self, target, *order_by):
        self.target = elements._literal_as_binds(target)
        self.type = self.target.type

        _lob = len(order_by)
        if _lob == 0:
            raise TypeError("at least one ORDER BY element is required")
        elif _lob == 1:
            self.order_by = elements._literal_as_binds(order_by[0])
        else:
            self.order_by = elements.ClauseList(
                *order_by, _literal_as_text=elements._literal_as_binds
            )

    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

    """  # noqa

    __visit_name__ = "exclude_constraint"

    where = None

    @elements._document_text_coercion(
        "where",
        ":class:`.ExcludeConstraint`",
        ":paramref:`.ExcludeConstraint.where`",
    )
    def __init__(self, *elements, **kw):
        r"""
        Create an :class:`.ExcludeConstraint` object.

        E.g.::

            const = ExcludeConstraint(
                (Column('period'), '&&'),
                (Column('group'), '='),
                where=(Column('group') != 'some group'),
                ops={'group': 'my_operator_class'}
            )

        The constraint is normally embedded into the :class:`_schema.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',
                    ops={'group': 'my_operator_class'}
                )
            )

        :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:`_schema.Column` object,
          and "operator" is a string
          containing the operator to use.   In order to specify a column name
          when a  :class:`_schema.Column` object is not available,
          while ensuring
          that any necessary quoting rules take effect, an ad-hoc
          :class:`_schema.Column` or :func:`_expression.column`
          object should 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 <value> when issuing DDL
          for this constraint.

        :param using:
          Optional string.  If set, emit USING <index_method> when issuing DDL
          for this constraint. Defaults to 'gist'.

        :param where:
          Optional SQL expression construct or literal SQL string.
          If set, emit WHERE <predicate> when issuing DDL
          for this constraint.

        :param ops:
          Optional dictionary.  Used to define operator classes for the
          elements; works the same way as that of the
          :ref:`postgresql_ops <postgresql_operator_classes>`
          parameter specified to the :class:`_schema.Index` construct.

          .. versionadded:: 1.3.21

          .. seealso::

            :ref:`postgresql_operator_classes` - general description of how
            PostgreSQL operator classes are specified.

        """
        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_column(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, allow_coercion_to_text=True
            )

        self.ops = kw.get("ops", {})

    def copy(self, target_table=None, **kw):
        elements = [
            (
                schema._copy_expression(expr, self.parent, target_table),
                self.operators[expr.name],
            )
            for expr in self.columns
        ]
        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:`_functions.array_agg`, ensures
    return type is :class:`_postgresql.ARRAY` and not
    the plain :class:`_types.ARRAY`, unless an explicit ``type_``
    is passed.

    .. versionadded:: 1.1

    """
    kw["_default_array_type"] = ARRAY
    return functions.func.array_agg(*arg, **kw)