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# dialects/mysql/asyncmy.py
# Copyright (C) 2005-2024 the SQLAlchemy authors and contributors <see AUTHORS
# file>
#
# This module is part of SQLAlchemy and is released under
# the MIT License: https://www.opensource.org/licenses/mit-license.php
# mypy: ignore-errors

r"""
.. dialect:: mysql+asyncmy
    :name: asyncmy
    :dbapi: asyncmy
    :connectstring: mysql+asyncmy://user:password@host:port/dbname[?key=value&key=value...]
    :url: https://github.com/long2ice/asyncmy

Using a special asyncio mediation layer, the asyncmy dialect is usable
as the backend for the :ref:`SQLAlchemy asyncio <asyncio_toplevel>`
extension package.

This dialect should normally be used only with the
:func:`_asyncio.create_async_engine` engine creation function::

    from sqlalchemy.ext.asyncio import create_async_engine
    engine = create_async_engine("mysql+asyncmy://user:pass@hostname/dbname?charset=utf8mb4")


"""  # noqa
from collections import deque
from contextlib import asynccontextmanager

from .pymysql import MySQLDialect_pymysql
from ... import pool
from ... import util
from ...engine import AdaptedConnection
from ...util.concurrency import asyncio
from ...util.concurrency import await_fallback
from ...util.concurrency import await_only


class AsyncAdapt_asyncmy_cursor:
    # TODO: base on connectors/asyncio.py
    # see #10415
    server_side = False
    __slots__ = (
        "_adapt_connection",
        "_connection",
        "await_",
        "_cursor",
        "_rows",
    )

    def __init__(self, adapt_connection):
        self._adapt_connection = adapt_connection
        self._connection = adapt_connection._connection
        self.await_ = adapt_connection.await_

        cursor = self._connection.cursor()

        self._cursor = self.await_(cursor.__aenter__())
        self._rows = deque()

    @property
    def description(self):
        return self._cursor.description

    @property
    def rowcount(self):
        return self._cursor.rowcount

    @property
    def arraysize(self):
        return self._cursor.arraysize

    @arraysize.setter
    def arraysize(self, value):
        self._cursor.arraysize = value

    @property
    def lastrowid(self):
        return self._cursor.lastrowid

    def close(self):
        # note we aren't actually closing the cursor here,
        # we are just letting GC do it.   to allow this to be async
        # we would need the Result to change how it does "Safe close cursor".
        # MySQL "cursors" don't actually have state to be "closed" besides
        # exhausting rows, which we already have done for sync cursor.
        # another option would be to emulate aiosqlite dialect and assign
        # cursor only if we are doing server side cursor operation.
        self._rows.clear()

    def execute(self, operation, parameters=None):
        return self.await_(self._execute_async(operation, parameters))

    def executemany(self, operation, seq_of_parameters):
        return self.await_(
            self._executemany_async(operation, seq_of_parameters)
        )

    async def _execute_async(self, operation, parameters):
        async with self._adapt_connection._mutex_and_adapt_errors():
            if parameters is None:
                result = await self._cursor.execute(operation)
            else:
                result = await self._cursor.execute(operation, parameters)

            if not self.server_side:
                # asyncmy has a "fake" async result, so we have to pull it out
                # of that here since our default result is not async.
                # we could just as easily grab "_rows" here and be done with it
                # but this is safer.
                self._rows = deque(await self._cursor.fetchall())
            return result

    async def _executemany_async(self, operation, seq_of_parameters):
        async with self._adapt_connection._mutex_and_adapt_errors():
            return await self._cursor.executemany(operation, seq_of_parameters)

    def setinputsizes(self, *inputsizes):
        pass

    def __iter__(self):
        while self._rows:
            yield self._rows.popleft()

    def fetchone(self):
        if self._rows:
            return self._rows.popleft()
        else:
            return None

    def fetchmany(self, size=None):
        if size is None:
            size = self.arraysize

        rr = self._rows
        return [rr.popleft() for _ in range(min(size, len(rr)))]

    def fetchall(self):
        retval = list(self._rows)
        self._rows.clear()
        return retval


class AsyncAdapt_asyncmy_ss_cursor(AsyncAdapt_asyncmy_cursor):
    # TODO: base on connectors/asyncio.py
    # see #10415
    __slots__ = ()
    server_side = True

    def __init__(self, adapt_connection):
        self._adapt_connection = adapt_connection
        self._connection = adapt_connection._connection
        self.await_ = adapt_connection.await_

        cursor = self._connection.cursor(
            adapt_connection.dbapi.asyncmy.cursors.SSCursor
        )

        self._cursor = self.await_(cursor.__aenter__())

    def close(self):
        if self._cursor is not None:
            self.await_(self._cursor.close())
            self._cursor = None

    def fetchone(self):
        return self.await_(self._cursor.fetchone())

    def fetchmany(self, size=None):
        return self.await_(self._cursor.fetchmany(size=size))

    def fetchall(self):
        return self.await_(self._cursor.fetchall())


class AsyncAdapt_asyncmy_connection(AdaptedConnection):
    # TODO: base on connectors/asyncio.py
    # see #10415
    await_ = staticmethod(await_only)
    __slots__ = ("dbapi", "_execute_mutex")

    def __init__(self, dbapi, connection):
        self.dbapi = dbapi
        self._connection = connection
        self._execute_mutex = asyncio.Lock()

    @asynccontextmanager
    async def _mutex_and_adapt_errors(self):
        async with self._execute_mutex:
            try:
                yield
            except AttributeError:
                raise self.dbapi.InternalError(
                    "network operation failed due to asyncmy attribute error"
                )

    def ping(self, reconnect):
        assert not reconnect
        return self.await_(self._do_ping())

    async def _do_ping(self):
        async with self._mutex_and_adapt_errors():
            return await self._connection.ping(False)

    def character_set_name(self):
        return self._connection.character_set_name()

    def autocommit(self, value):
        self.await_(self._connection.autocommit(value))

    def cursor(self, server_side=False):
        if server_side:
            return AsyncAdapt_asyncmy_ss_cursor(self)
        else:
            return AsyncAdapt_asyncmy_cursor(self)

    def rollback(self):
        self.await_(self._connection.rollback())

    def commit(self):
        self.await_(self._connection.commit())

    def terminate(self):
        # it's not awaitable.
        self._connection.close()

    def close(self) -> None:
        self.await_(self._connection.ensure_closed())


class AsyncAdaptFallback_asyncmy_connection(AsyncAdapt_asyncmy_connection):
    __slots__ = ()

    await_ = staticmethod(await_fallback)


def _Binary(x):
    """Return x as a binary type."""
    return bytes(x)


class AsyncAdapt_asyncmy_dbapi:
    def __init__(self, asyncmy):
        self.asyncmy = asyncmy
        self.paramstyle = "format"
        self._init_dbapi_attributes()

    def _init_dbapi_attributes(self):
        for name in (
            "Warning",
            "Error",
            "InterfaceError",
            "DataError",
            "DatabaseError",
            "OperationalError",
            "InterfaceError",
            "IntegrityError",
            "ProgrammingError",
            "InternalError",
            "NotSupportedError",
        ):
            setattr(self, name, getattr(self.asyncmy.errors, name))

    STRING = util.symbol("STRING")
    NUMBER = util.symbol("NUMBER")
    BINARY = util.symbol("BINARY")
    DATETIME = util.symbol("DATETIME")
    TIMESTAMP = util.symbol("TIMESTAMP")
    Binary = staticmethod(_Binary)

    def connect(self, *arg, **kw):
        async_fallback = kw.pop("async_fallback", False)
        creator_fn = kw.pop("async_creator_fn", self.asyncmy.connect)

        if util.asbool(async_fallback):
            return AsyncAdaptFallback_asyncmy_connection(
                self,
                await_fallback(creator_fn(*arg, **kw)),
            )
        else:
            return AsyncAdapt_asyncmy_connection(
                self,
                await_only(creator_fn(*arg, **kw)),
            )


class MySQLDialect_asyncmy(MySQLDialect_pymysql):
    driver = "asyncmy"
    supports_statement_cache = True

    supports_server_side_cursors = True
    _sscursor = AsyncAdapt_asyncmy_ss_cursor

    is_async = True
    has_terminate = True

    @classmethod
    def import_dbapi(cls):
        return AsyncAdapt_asyncmy_dbapi(__import__("asyncmy"))

    @classmethod
    def get_pool_class(cls, url):
        async_fallback = url.query.get("async_fallback", False)

        if util.asbool(async_fallback):
            return pool.FallbackAsyncAdaptedQueuePool
        else:
            return pool.AsyncAdaptedQueuePool

    def do_terminate(self, dbapi_connection) -> None:
        dbapi_connection.terminate()

    def create_connect_args(self, url):
        return super().create_connect_args(
            url, _translate_args=dict(username="user", database="db")
        )

    def is_disconnect(self, e, connection, cursor):
        if super().is_disconnect(e, connection, cursor):
            return True
        else:
            str_e = str(e).lower()
            return (
                "not connected" in str_e or "network operation failed" in str_e
            )

    def _found_rows_client_flag(self):
        from asyncmy.constants import CLIENT

        return CLIENT.FOUND_ROWS

    def get_driver_connection(self, connection):
        return connection._connection


dialect = MySQLDialect_asyncmy

?>