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glide.async_commands.standalone_commands

StandaloneCommands

Bases: CoreCommands

Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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class StandaloneCommands(CoreCommands):
    async def custom_command(self, command_args: List[TEncodable]) -> TResult:
        """
        Executes a single command, without checking inputs.
        See the [Valkey GLIDE Documentation](https://glide.valkey.io/concepts/client-features/custom-commands/)
        for details on the restrictions and limitations of the custom command API.

        This function should only be used for single-response commands. Commands that don't return complete response and awaits
        (such as SUBSCRIBE), or that return potentially more than a single response (such as XREAD), or that change the
        client's behavior (such as entering pub/sub mode on RESP2 connections) shouldn't be called using this function.

        Args:
            command_args (List[TEncodable]): List of the command's arguments, where each argument is either a string or bytes.
            Every part of the command, including the command name and subcommands, should be added as a separate value in args.

        Returns:
            TResult: The returning value depends on the executed command.

        Example:
            >>> await client.customCommand(["CLIENT", "LIST", "TYPE", "PUBSUB"])
            # Expected Output: A list of all pub/sub clients

        """
        return await self._execute_command(RequestType.CustomCommand, command_args)

    async def info(
        self,
        sections: Optional[List[InfoSection]] = None,
    ) -> bytes:
        """
        Get information and statistics about the server.

        Starting from server version 7, command supports multiple section arguments.

        See [valkey.io](https://valkey.io/commands/info/) for details.

        Args:
            sections (Optional[List[InfoSection]]): A list of InfoSection values specifying which sections of
                information to retrieve. When no parameter is provided, the default option is assumed.

        Returns:
            bytes: Returns bytes containing the information for the sections requested.
        """
        args: List[TEncodable] = (
            [section.value for section in sections] if sections else []
        )
        return cast(bytes, await self._execute_command(RequestType.Info, args))

    async def exec(
        self,
        batch: Batch,
        raise_on_error: bool,
        options: Optional[BatchOptions] = None,
    ) -> Optional[List[TResult]]:
        """
        Executes a batch by processing the queued commands.

        See [Valkey Transactions (Atomic Batches)](https://valkey.io/docs/topics/transactions/) and
        [Valkey Pipelines (Non-Atomic Batches)](https://valkey.io/docs/topics/pipelining/) for details.

        Notes:
            - Atomic Batches - Transactions: If the transaction fails due to a ``WATCH`` command,
              ``exec`` will return ``None``.

        Args:
            batch (Batch): A ``Batch`` containing the commands to execute.
            raise_on_error (bool): Determines how errors are handled within the batch response.
                When set to ``True``, the first encountered error in the batch will be raised as a
                ``RequestError`` exception after all retries and reconnections have been executed.
                When set to ``False``, errors will be included as part of the batch response array, allowing
                the caller to process both successful and failed commands together. In this case, error details
                will be provided as instances of ``RequestError``.
            options (Optional[BatchOptions]): A ``BatchOptions`` object containing execution options.

        Returns:
            Optional[List[TResult]]: An array of results, where each entry corresponds to a command's execution result.
                If the batch fails due to a ``WATCH`` command, ``exec`` will return ``None``.

        Example (Atomic Batch - Transaction):
            >>> transaction = Batch(is_atomic=True)  # Atomic (Transaction)
            >>> transaction.set("key", "1")
            >>> transaction.incr("key")
            >>> transaction.get("key")
            >>> result = await client.exec(transaction, raise_on_error=True)
            >>> print(f"Transaction Batch Result: {result}")
            # Expected Output: Transaction Batch Result: [OK, 2, b'2']

        Example (Non-Atomic Batch - Pipeline):
            >>> pipeline = Batch(is_atomic=False)  # Non-Atomic (Pipeline)
            >>> pipeline.set("key1", "value1")
            >>> pipeline.set("key2", "value2")
            >>> pipeline.get("key1")
            >>> pipeline.get("key2")
            >>> result = await client.exec(pipeline, raise_on_error=True)
            >>> print(f"Pipeline Batch Result: {result}")
            # Expected Output: Pipeline Batch Result: [OK, OK, b'value1', b'value2']

        Example (Atomic Batch - Transaction with options):
            >>> from glide import BatchOptions
            >>> transaction = Batch(is_atomic=True)
            >>> transaction.set("key", "1")
            >>> transaction.incr("key")
            >>> transaction.custom_command(["get", "key"])
            >>> options = BatchOptions(timeout=1000)  # Set a timeout of 1000 milliseconds
            >>> result = await client.exec(
            ...     transaction,
            ...     raise_on_error=False,  # Do not raise an error on failure
            ...     options=options
            ... )
            >>> print(f"Transaction Result: {result}")
            # Expected Output: Transaction Result: [OK, 2, b'2']

        Example (Non-Atomic Batch - Pipeline with options):
            >>> from glide import BatchOptions
            >>> pipeline = Batch(is_atomic=False)
            >>> pipeline.custom_command(["set", "key1", "value1"])
            >>> pipeline.custom_command(["set", "key2", "value2"])
            >>> pipeline.custom_command(["get", "key1"])
            >>> pipeline.custom_command(["get", "key2"])
            >>> options = BatchOptions(timeout=1000)  # Set a timeout of 1000 milliseconds
            >>> result = await client.exec(
            ...     pipeline,
            ...     raise_on_error=False,  # Do not raise an error on failure
            ...     options=options
            ... )
            >>> print(f"Pipeline Result: {result}")
            # Expected Output: Pipeline Result: [OK, OK, b'value1', b'value2']
        """
        commands = batch.commands[:]
        timeout = options.timeout if options else None
        return await self._execute_batch(
            commands,
            is_atomic=batch.is_atomic,
            raise_on_error=raise_on_error,
            timeout=timeout,
        )

    async def config_resetstat(self) -> TOK:
        """
        Resets the statistics reported by the server using the INFO and LATENCY HISTOGRAM commands.

        See [valkey.io](https://valkey.io/commands/config-resetstat/) for details.

        Returns:
            OK: Returns "OK" to confirm that the statistics were successfully reset.
        """
        return cast(TOK, await self._execute_command(RequestType.ConfigResetStat, []))

    async def config_rewrite(self) -> TOK:
        """
        Rewrite the configuration file with the current configuration.

        See [valkey.io](https://valkey.io/commands/config-rewrite/) for details.

        Returns:
            OK: OK is returned when the configuration was rewritten properly.

            Otherwise, an error is raised.
        """
        return cast(TOK, await self._execute_command(RequestType.ConfigRewrite, []))

    async def client_id(
        self,
    ) -> int:
        """
        Returns the current connection id.

        See [valkey.io](https://valkey.io/commands/client-id/) for more information.

        Returns:
            int: the id of the client.
        """
        return cast(int, await self._execute_command(RequestType.ClientId, []))

    async def ping(self, message: Optional[TEncodable] = None) -> bytes:
        """
        Ping the server.

        See [valkey.io](https://valkey.io/commands/ping/) for more details.

        Args:
            message (Optional[TEncodable]): An optional message to include in the PING command. If not provided,
                the server will respond with b"PONG". If provided, the server will respond with a copy of the message.

        Returns:
            bytes: b"PONG" if `message` is not provided.

            Otherwise return a copy of `message`.

        Examples:
            >>> await client.ping()
                b"PONG"
            >>> await client.ping("Hello")
                b"Hello"
        """
        argument = [] if message is None else [message]
        return cast(bytes, await self._execute_command(RequestType.Ping, argument))

    async def config_get(self, parameters: List[TEncodable]) -> Dict[bytes, bytes]:
        """
        Get the values of configuration parameters.
        Starting from server version 7, command supports multiple parameters

        See [valkey.io](https://valkey.io/commands/config-get/) for details.

        Args:
            parameters (List[TEncodable]): A list of configuration parameter names to retrieve values for.

        Returns:
            Dict[bytes, bytes]: A dictionary of values corresponding to the configuration parameters.

        Examples:
            >>> await client.config_get(["timeout"] , RandomNode())
                {b'timeout': b'1000'}
            >>> await client.config_get([b"timeout" , "maxmemory"])
                {b'timeout': b'1000', b'maxmemory': b'1GB'}
        """
        return cast(
            Dict[bytes, bytes],
            await self._execute_command(RequestType.ConfigGet, parameters),
        )

    async def config_set(self, parameters_map: Mapping[TEncodable, TEncodable]) -> TOK:
        """
        Set configuration parameters to the specified values.
        Starting from server version 7, command supports multiple parameters.

        See [valkey.io](https://valkey.io/commands/config-set/) for details.

        Args:
            parameters_map (Mapping[TEncodable, TEncodable]): A map consisting of configuration
                parameters and their respective values to set.

        Returns:
            OK: Returns OK if all configurations have been successfully set.

            Otherwise, raises an error.

        Examples:
            >>> config_set({"timeout": "1000", "maxmemory": "1GB"})
                OK
        """
        parameters: List[TEncodable] = []
        for pair in parameters_map.items():
            parameters.extend(pair)
        return cast(TOK, await self._execute_command(RequestType.ConfigSet, parameters))

    async def client_getname(self) -> Optional[bytes]:
        """
        Get the name of the primary's connection.

        See [valkey.io](https://valkey.io/commands/client-getname/) for more details.

        Returns:
            Optional[bytes]: Returns the name of the client connection as a byte string if a name is set.

            `None` if no name is assigned.

        Examples:
            >>> await client.client_getname()
                b'Connection Name'
        """
        return cast(
            Optional[bytes], await self._execute_command(RequestType.ClientGetName, [])
        )

    async def client_tracking_info(self) -> ClientTrackingInfo:
        """
        Returns information about the current client connection's use
        of the server assisted client side caching feature.

        See [valkey.io](https://valkey.io/commands/client-trackinginfo/) for more details.

        Returns:
            ClientTrackingInfo: The tracking info for the client.

        Examples:
            >>> info = await client.client_tracking_info()
            >>> print(info.flags)
                {'off'}
            >>> print(info.redirect)
                -1
        """
        return _parse_client_tracking_info(
            cast(
                Mapping,
                await self._execute_command(RequestType.ClientTrackingInfo, []),
            ),
        )

    async def dbsize(self) -> int:
        """
        Returns the number of keys in the currently selected database.

        See [valkey.io](https://valkey.io/commands/dbsize) for more details.

        Returns:
            int: The number of keys in the currently selected database.

        Examples:
            >>> await client.dbsize()
                10  # Indicates there are 10 keys in the current database.
        """
        return cast(int, await self._execute_command(RequestType.DBSize, []))

    async def echo(self, message: TEncodable) -> bytes:
        """
        Echoes the provided `message` back.

        See [valkey.io](https://valkey.io/commands/echo) for more details.

        Args:
            message (TEncodable): The message to be echoed back.

        Returns:
            bytes: The provided `message`.

        Examples:
            >>> await client.echo("Valkey GLIDE")
                b'Valkey GLIDE'
        """
        return cast(bytes, await self._execute_command(RequestType.Echo, [message]))

    async def function_load(
        self, library_code: TEncodable, replace: bool = False
    ) -> bytes:
        """
        Loads a library to Valkey.

        See [valkey.io](https://valkey.io/commands/function-load/) for more details.

        Args:
            library_code (TEncodable): The source code that implements the library.
            replace (bool): Whether the given library should overwrite a library with the same name if
                it already exists.

        Returns:
            bytes: The library name that was loaded.

        Examples:
            >>> code = "#!lua name=mylib \\n redis.register_function('myfunc', function(keys, args) return args[1] end)"
            >>> await client.function_load(code, True)
                b"mylib"

        Since: Valkey 7.0.0.
        """
        return cast(
            bytes,
            await self._execute_command(
                RequestType.FunctionLoad,
                ["REPLACE", library_code] if replace else [library_code],
            ),
        )

    async def function_list(
        self, library_name_pattern: Optional[TEncodable] = None, with_code: bool = False
    ) -> TFunctionListResponse:
        """
        Returns information about the functions and libraries.

        See [valkey.io](https://valkey.io/commands/function-list/) for more details.

        Args:
            library_name_pattern (Optional[TEncodable]):  A wildcard pattern for matching library names.
            with_code (bool): Specifies whether to request the library code from the server or not.

        Returns:
            TFunctionListResponse: Info about all or
            selected libraries and their functions.

        Examples:
            >>> response = await client.function_list("myLib?_backup", True)
                [{
                    b"library_name": b"myLib5_backup",
                    b"engine": b"LUA",
                    b"functions": [{
                        b"name": b"myfunc",
                        b"description": None,
                        b"flags": {b"no-writes"},
                    }],
                    b"library_code": b"#!lua name=mylib \\n sever.register_function('myfunc', function(keys, args) " \
                                     b"return args[1] end)"
                }]

        Since: Valkey 7.0.0.
        """
        args = []
        if library_name_pattern is not None:
            args.extend(["LIBRARYNAME", library_name_pattern])
        if with_code:
            args.append("WITHCODE")
        return cast(
            TFunctionListResponse,
            await self._execute_command(
                RequestType.FunctionList,
                args,
            ),
        )

    async def function_flush(self, mode: Optional[FlushMode] = None) -> TOK:
        """
        Deletes all function libraries.

        See [valkey.io](https://valkey.io/commands/function-flush/) for more details.

        Args:
            mode (Optional[FlushMode]): The flushing mode, could be either `SYNC` or `ASYNC`.

        Returns:
            TOK: A simple `OK`.

        Examples:
            >>> await client.function_flush(FlushMode.SYNC)
                "OK"

        Since: Valkey 7.0.0.
        """
        return cast(
            TOK,
            await self._execute_command(
                RequestType.FunctionFlush,
                [mode.value] if mode else [],
            ),
        )

    async def function_delete(self, library_name: TEncodable) -> TOK:
        """
        Deletes a library and all its functions.

        See [valkey.io](https://valkey.io/commands/function-delete/) for more details.

        Args:
            library_code (TEncodable): The library name to delete

        Returns:
            TOK: A simple `OK`.

        Examples:
            >>> await client.function_delete("my_lib")
                "OK"

        Since: Valkey 7.0.0.
        """
        return cast(
            TOK,
            await self._execute_command(
                RequestType.FunctionDelete,
                [library_name],
            ),
        )

    async def function_kill(self) -> TOK:
        """
        Kills a function that is currently executing.
        This command only terminates read-only functions.

        FUNCTION KILL runs on all nodes of the server, including primary and replicas.

        See [valkey.io](https://valkey.io/commands/function-kill/) for more details.

        Returns:
            TOK: A simple `OK`.

        Examples:
            >>> await client.function_kill()
                "OK"

        Since: Valkey 7.0.0.
        """
        return cast(
            TOK,
            await self._execute_command(RequestType.FunctionKill, []),
        )

    async def function_stats(self) -> TFunctionStatsFullResponse:
        """
        Returns information about the function that's currently running and information about the
        available execution engines.

        FUNCTION STATS runs on all nodes of the server, including primary and replicas.
        The response includes a mapping from node address to the command response for that node.

        See [valkey.io](https://valkey.io/commands/function-stats/) for more details

        Returns:
            TFunctionStatsFullResponse: A Map where the key is the node address and the value is a Map of two keys:

                - `running_script` with information about the running script.
                - `engines` with information about available engines and their stats.

            See example for more details.

        Examples:
            >>> await client.function_stats()
                {b"addr": {                         # Response from the master node
                    b'running_script': {
                        b'name': b'foo',
                        b'command': [b'FCALL', b'foo', b'0', b'hello'],
                        b'duration_ms': 7758
                    },
                    b'engines': {
                        b'LUA': {
                            b'libraries_count': 1,
                            b'functions_count': 1,
                        }
                    }
                },
                b"addr2": {                         # Response from a replica
                    b'running_script': None,
                    b"engines": {
                        b'LUA': {
                            b'libraries_count': 1,
                            b'functions_count': 1,
                        }
                    }
                }}

        Since: Valkey version 7.0.0.
        """
        return cast(
            TFunctionStatsFullResponse,
            await self._execute_command(RequestType.FunctionStats, []),
        )

    async def function_dump(self) -> bytes:
        """
        Returns the serialized payload of all loaded libraries.

        See [valkey.io](https://valkey.io/commands/function-dump/) for more details.

        Returns:
            bytes: The serialized payload of all loaded libraries.

        Examples:
            >>> payload = await client.function_dump()
                # The serialized payload of all loaded libraries. This response can
                # be used to restore loaded functions on any Valkey instance.
            >>> await client.function_restore(payload)
                "OK" # The serialized dump response was used to restore the libraries.

        Since: Valkey 7.0.0.
        """
        return cast(bytes, await self._execute_command(RequestType.FunctionDump, []))

    async def function_restore(
        self, payload: TEncodable, policy: Optional[FunctionRestorePolicy] = None
    ) -> TOK:
        """
        Restores libraries from the serialized payload returned by the `function_dump` command.

        See [valkey.io](https://valkey.io/commands/function-restore/) for more details.

        Args:
            payload (TEncodable): The serialized data from the `function_dump` command.
            policy (Optional[FunctionRestorePolicy]): A policy for handling existing libraries.

        Returns:
            TOK: OK.

        Examples:
            >>> payload = await client.function_dump()
                # The serialized payload of all loaded libraries. This response can
                # be used to restore loaded functions on any Valkey instance.
            >>> await client.function_restore(payload)
                "OK" # The serialized dump response was used to restore the libraries.
            >>> await client.function_restore(payload, FunctionRestorePolicy.FLUSH)
                "OK" # The serialized dump response was used to restore the libraries with the specified policy.

        Since: Valkey 7.0.0.
        """
        args: List[TEncodable] = [payload]
        if policy is not None:
            args.append(policy.value)

        return cast(TOK, await self._execute_command(RequestType.FunctionRestore, args))

    async def time(self) -> List[bytes]:
        """
        Returns the server time.

        See [valkey.io](https://valkey.io/commands/time/) for more details.

        Returns:
            List[bytes]:  The current server time as a two items `array`:
            A Unix timestamp and the amount of microseconds already elapsed in the current second.
            The returned `array` is in a [Unix timestamp, Microseconds already elapsed] format.

        Examples:
            >>> await client.time()
                [b'1710925775', b'913580']
        """
        return cast(
            List[bytes],
            await self._execute_command(RequestType.Time, []),
        )

    async def lastsave(self) -> int:
        """
        Returns the Unix time of the last DB save timestamp or startup timestamp if no save was made since then.

        See [valkey.io](https://valkey.io/commands/lastsave) for more details.

        Returns:
            int: The Unix time of the last successful DB save.

        Examples:
            >>> await client.lastsave()
                1710925775  # Unix time of the last DB save
        """
        return cast(
            int,
            await self._execute_command(RequestType.LastSave, []),
        )

    async def save(self) -> TOK:
        """
        Synchronously saves the dataset to disk.

        See [valkey.io](https://valkey.io/commands/save) for more details.

        Returns:
            TOK: A simple OK response.

        Examples:
            >>> await client.save()
                OK
        """
        return cast(
            TOK,
            await self._execute_command(RequestType.Save, []),
        )

    async def bgsave(self) -> str:
        """
        Asynchronously saves the dataset to disk in the background.

        See [valkey.io](https://valkey.io/commands/bgsave) for more details.

        Returns:
            str: A non-empty status string.

        Examples:
            >>> await client.bgsave()
                "Background saving started"
        """
        return cast(
            str,
            await self._execute_command(RequestType.BgSave, []),
        )

    async def bgsave_schedule(self) -> str:
        """
        Schedules a background save of the database.

        See [valkey.io](https://valkey.io/commands/bgsave) for more details.

        Returns:
            str: A non-empty status string.

        Examples:
            >>> await client.bgsave_schedule()
                "Background saving scheduled"
        """
        return cast(
            str,
            await self._execute_command(RequestType.BgSave, ["SCHEDULE"]),
        )

    async def bgsave_cancel(self) -> str:
        """
        Aborts all in-progress and scheduled background saves.

        See [valkey.io](https://valkey.io/commands/bgsave) for more details.

        Note:
            Since: Valkey 8.1.

        Returns:
            str: A non-empty status string.

        Examples:
            >>> await client.bgsave_cancel()
                "Background saving cancelled"
        """
        return cast(
            str,
            await self._execute_command(RequestType.BgSave, ["CANCEL"]),
        )

    async def bgrewriteaof(self) -> str:
        """
        Initiates a background rewrite of the append-only file (AOF).

        See [valkey.io](https://valkey.io/commands/bgrewriteaof) for more details.

        Returns:
            str: A non-empty status string.

        Examples:
            >>> await client.bgrewriteaof()
                "Background append only file rewriting started"
        """
        return cast(
            str,
            await self._execute_command(RequestType.BgRewriteAof, []),
        )

    async def publish(self, message: TEncodable, channel: TEncodable) -> int:
        """
        Publish a message on pubsub channel.

        See [valkey.io](https://valkey.io/commands/publish) for more details.

        Args:
            message (TEncodable): Message to publish
            channel (TEncodable): Channel to publish the message on.

        Returns:
            int: Number of subscriptions in primary node that received the message.

            **Note:** this value does not include subscriptions that configured on replicas.

        Examples:
            >>> await client.publish("Hi all!", "global-channel")
                1 # This message was posted to 1 subscription which is configured on primary node
        """
        return cast(
            int, await self._execute_command(RequestType.Publish, [channel, message])
        )

    async def flushall(self, flush_mode: Optional[FlushMode] = None) -> TOK:
        """
        Deletes all the keys of all the existing databases. This command never fails.

        See [valkey.io](https://valkey.io/commands/flushall) for more details.

        Args:
            flush_mode (Optional[FlushMode]): The flushing mode, could be either `SYNC` or `ASYNC`.

        Returns:
            TOK: A simple OK response.

        Examples:
            >>> await client.flushall(FlushMode.ASYNC)
                OK  # This command never fails.
        """
        args: List[TEncodable] = []
        if flush_mode is not None:
            args.append(flush_mode.value)

        return cast(
            TOK,
            await self._execute_command(RequestType.FlushAll, args),
        )

    async def flushdb(self, flush_mode: Optional[FlushMode] = None) -> TOK:
        """
        Deletes all the keys of the currently selected database. This command never fails.

        See [valkey.io](https://valkey.io/commands/flushdb) for more details.

        Args:
            flush_mode (Optional[FlushMode]): The flushing mode, could be either `SYNC` or `ASYNC`.

        Returns:
            TOK: A simple OK response.

        Examples:
            >>> await client.flushdb()
                OK  # The keys of the currently selected database were deleted.
            >>> await client.flushdb(FlushMode.ASYNC)
                OK  # The keys of the currently selected database were deleted asynchronously.
        """
        args: List[TEncodable] = []
        if flush_mode is not None:
            args.append(flush_mode.value)

        return cast(
            TOK,
            await self._execute_command(RequestType.FlushDB, args),
        )

    async def copy(
        self,
        source: TEncodable,
        destination: TEncodable,
        destinationDB: Optional[int] = None,
        replace: Optional[bool] = None,
    ) -> bool:
        """
        Copies the value stored at the `source` to the `destination` key. If `destinationDB`
        is specified, the value will be copied to the database specified by `destinationDB`,
        otherwise the current database will be used. When `replace` is True, removes the
        `destination` key first if it already exists, otherwise performs no action.

        See [valkey.io](https://valkey.io/commands/copy) for more details.

        Args:
            source (TEncodable): The key to the source value.
            destination (TEncodable): The key where the value should be copied to.
            destinationDB (Optional[int]): The alternative logical database index for the destination key.
            replace (Optional[bool]): If the destination key should be removed before copying the value to it.

        Returns:
            bool: True if the source was copied.

            Otherwise, return False.

        Examples:
            >>> await client.set("source", "sheep")
            >>> await client.copy(b"source", b"destination", 1, False)
                True # Source was copied
            >>> await client.select(1)
            >>> await client.get("destination")
                b"sheep"

        Since: Valkey version 6.2.0.
        """
        args: List[TEncodable] = [source, destination]
        if destinationDB is not None:
            args.extend(["DB", str(destinationDB)])
        if replace is True:
            args.append("REPLACE")
        return cast(
            bool,
            await self._execute_command(RequestType.Copy, args),
        )

    async def lolwut(
        self,
        version: Optional[int] = None,
        parameters: Optional[List[int]] = None,
    ) -> bytes:
        """
        Displays a piece of generative computer art and the Valkey version.

        See [valkey.io](https://valkey.io/commands/lolwut) for more details.

        Args:
            version (Optional[int]): Version of computer art to generate.
            parameters (Optional[List[int]]): Additional set of arguments in order to change the output:

                - For version `5`, those are length of the line, number of squares per row, and number of squares per column.
                - For version `6`, those are number of columns and number of lines.

        Returns:
            bytes: A piece of generative computer art along with the current Valkey version.

        Examples:
            >>> await client.lolwut(6, [40, 20]);
                b"Redis ver. 7.2.3" # Indicates the current Valkey version
            >>> await client.lolwut(5, [30, 5, 5]);
                b"Redis ver. 7.2.3" # Indicates the current Valkey version
        """
        args: List[TEncodable] = []
        if version is not None:
            args.extend(["VERSION", str(version)])
        if parameters:
            for var in parameters:
                args.append(str(var))
        return cast(
            bytes,
            await self._execute_command(RequestType.Lolwut, args),
        )

    async def random_key(self) -> Optional[bytes]:
        """
        Returns a random existing key name from the currently selected database.

        See [valkey.io](https://valkey.io/commands/randomkey) for more details.

        Returns:
            Optional[bytes]: A random existing key name from the currently selected database.

        Examples:
            >>> await client.random_key()
                b"random_key_name"  # "random_key_name" is a random existing key name from the currently selected database.
        """
        return cast(
            Optional[bytes],
            await self._execute_command(RequestType.RandomKey, []),
        )

    async def wait(
        self,
        numreplicas: int,
        timeout: int,
    ) -> int:
        """
        Blocks the current client until all the previous write commands are successfully transferred
        and acknowledged by at least `numreplicas` of replicas. If `timeout` is
        reached, the command returns even if the specified number of replicas were not yet reached.

        See [valkey.io](https://valkey.io/commands/wait) for more details.

        Args:
            numreplicas (int): The number of replicas to reach.
            timeout (int): The timeout value specified in milliseconds. A value of 0 will block indefinitely.

        Returns:
            int: The number of replicas reached by all the writes performed in the context of the current connection.

        Examples:
            >>> await client.set("key", "value");
            >>> await client.wait(1, 1000);
            # return 1 when a replica is reached or 0 if 1000ms is reached.
        """
        args: List[TEncodable] = [str(numreplicas), str(timeout)]
        return cast(
            int,
            await self._execute_command(RequestType.Wait, args),
        )

    async def unwatch(self) -> TOK:
        """
        Flushes all the previously watched keys for an atomic batch (Transaction). Executing a transaction will
        automatically flush all previously watched keys.

        See [valkey.io](https://valkey.io/commands/unwatch) for more details.

        Returns:
            TOK: A simple "OK" response.

        Examples:
            >>> await client.unwatch()
                'OK'
        """
        return cast(
            TOK,
            await self._execute_command(RequestType.UnWatch, []),
        )

    async def scan(
        self,
        cursor: TEncodable,
        match: Optional[TEncodable] = None,
        count: Optional[int] = None,
        type: Optional[ObjectType] = None,
    ) -> List[Union[bytes, List[bytes]]]:
        """
        Incrementally iterate over a collection of keys.
        SCAN is a cursor based iterator. This means that at every call of the command,
        the server returns an updated cursor that the user needs to use as the cursor argument in the next call.
        An iteration starts when the cursor is set to "0", and terminates when the cursor returned by the server is "0".

        A full iteration always retrieves all the elements that were present
        in the collection from the start to the end of a full iteration.
        Elements that were not constantly present in the collection during a full iteration, may be returned or not.

        See [valkey.io](https://valkey.io/commands/scan) for more details.

        Args:
            cursor (TResult): The cursor used for iteration. For the first iteration, the cursor should be set to "0".

                - Using a non-zero cursor in the first iteration, or an invalid cursor at any iteration, will lead to
                  undefined results.
                - Using the same cursor in multiple iterations will, in case nothing changed between the iterations,
                  return the same elements multiple times.
                - If the the db has changed, it may result an undefined behavior.

            match (Optional[TResult]): A pattern to match keys against.
            count (Optional[int]): The number of keys to return per iteration.

                - The number of keys returned per iteration is not guaranteed to be the same as the count argument.
                - The argument is used as a hint for the server to know how many "steps" it can use to retrieve the keys.
                - The default value is 10.

            type (ObjectType): The type of object to scan for.

        Returns:
            List[Union[bytes, List[bytes]]]: A List containing the next cursor value and a list of keys,
            formatted as [cursor, [key1, key2, ...]]

        Examples:
            >>> result = await client.scan(b'0')
                print(result) #[b'17', [b'key1', b'key2', b'key3', b'key4', b'key5', b'set1', b'set2', b'set3']]
                first_cursor_result = result[0]
                result = await client.scan(first_cursor_result)
                print(result) #[b'349', [b'key4', b'key5', b'set1', b'hash1', b'zset1', b'list1', b'list2',
                                        b'list3', b'zset2', b'zset3', b'zset4', b'zset5', b'zset6']]
                result = await client.scan(result[0])
                print(result) #[b'0', [b'key6', b'key7']]
            >>> result = await client.scan(first_cursor_result, match=b'key*', count=2)
                print(result) #[b'6', [b'key4', b'key5']]
            >>> result = await client.scan("0", type=ObjectType.Set)
                print(result) #[b'362', [b'set1', b'set2', b'set3']]
        """
        args = [cursor]
        if match:
            args.extend(["MATCH", match])
        if count:
            args.extend(["COUNT", str(count)])
        if type:
            args.extend(["TYPE", type.value])
        return cast(
            List[Union[bytes, List[bytes]]],
            await self._execute_command(RequestType.Scan, args),
        )

    async def script_exists(self, sha1s: List[TEncodable]) -> List[bool]:
        """
        Check existence of scripts in the script cache by their SHA1 digest.

        See [valkey.io](https://valkey.io/commands/script-exists) for more details.

        Args:
            sha1s (List[TEncodable]): List of SHA1 digests of the scripts to check.

        Returns:
            List[bool]: A list of boolean values indicating the existence of each script.

        Examples:
            >>> await client.script_exists(["sha1_digest1", "sha1_digest2"])
                [True, False]
        """
        return cast(
            List[bool], await self._execute_command(RequestType.ScriptExists, sha1s)
        )

    async def script_flush(self, mode: Optional[FlushMode] = None) -> TOK:
        """
        Flush the Lua scripts cache.

        See [valkey.io](https://valkey.io/commands/script-flush) for more details.

        Args:
            mode (Optional[FlushMode]): The flushing mode, could be either `SYNC` or `ASYNC`.

        Returns:
            TOK: A simple `OK` response.

        Examples:
            >>> await client.script_flush()
                "OK"

            >>> await client.script_flush(FlushMode.ASYNC)
                "OK"
        """

        return cast(
            TOK,
            await self._execute_command(
                RequestType.ScriptFlush, [mode.value] if mode else []
            ),
        )

    async def script_kill(self) -> TOK:
        """
        Kill the currently executing Lua script, assuming no write operation was yet performed by the script.

        See [valkey.io](https://valkey.io/commands/script-kill) for more details.

        Returns:
            TOK: A simple `OK` response.

        Examples:
            >>> await client.script_kill()
                "OK"
        """
        return cast(TOK, await self._execute_command(RequestType.ScriptKill, []))

    async def invoke_script(
        self,
        script: Script,
        keys: Optional[List[TEncodable]] = None,
        args: Optional[List[TEncodable]] = None,
    ) -> TResult:
        """
        Invokes a Lua script with its keys and arguments.
        This method simplifies the process of invoking scripts on a the server by using an object that represents a Lua script.
        The script loading, argument preparation, and execution will all be handled internally.
        If the script has not already been loaded, it will be loaded automatically using the `SCRIPT LOAD` command.
        After that, it will be invoked using the `EVALSHA` command.

        See [SCRIPT LOAD](https://valkey.io/commands/script-load/) and [EVALSHA](https://valkey.io/commands/evalsha/)
        for more details.

        Args:
            script (Script): The Lua script to execute.
            keys (Optional[List[TEncodable]]): The keys that are used in the script.
            args (Optional[List[TEncodable]]): The arguments for the script.

        Returns:
            TResult: a value that depends on the script that was executed.

        Examples:
            >>> lua_script = Script("return { KEYS[1], ARGV[1] }")
            >>> await client.invoke_script(lua_script, keys=["foo"], args=["bar"])
                [b"foo", b"bar"]
        """
        return await self._execute_script(script.get_hash(), keys, args)

    async def client_pause(
        self, timeout: int, mode: Optional[ClientPauseMode] = None
    ) -> TOK:
        """
        Suspends all clients for the specified timeout.

        See [valkey.io](https://valkey.io/commands/client-pause/) for more details.

        Args:
            timeout (int): The time in milliseconds to pause clients.
            mode (Optional[ClientPauseMode]): The pause mode to use.

        Returns:
            TOK: A simple OK response.

        Examples:
            >>> await client.client_pause(1000)
                OK
            >>> await client.client_pause(5000, ClientPauseMode.WRITE)
                OK
        """
        args: List[TEncodable] = [str(timeout)]
        if mode is not None:
            args.append(mode.value)
        return cast(TOK, await self._execute_command(RequestType.ClientPause, args))

    async def client_unpause(self) -> TOK:
        """
        Resumes processing commands on all clients.

        See [valkey.io](https://valkey.io/commands/client-unpause/) for more details.

        Returns:
            TOK: A simple OK response.

        Examples:
            >>> await client.client_unpause()
                OK
        """
        return cast(TOK, await self._execute_command(RequestType.ClientUnpause, []))

    async def latency_history(self, event: TEncodable) -> List[LatencyEntry]:
        """
        Returns the latency spike time series for the specified event.

        See [valkey.io](https://valkey.io/commands/latency-history/) for details.

        Args:
            event (TEncodable): The name of the latency event (e.g., ``"command"``).

        Returns:
            List[LatencyEntry]: A list of LatencyEntry for the event, or an empty list
                if the event doesn't exist.

        Examples:
            >>> history = await client.latency_history("command")
            >>> for entry in history:
            ...     print(f"Time: {entry.time}, Latency: {entry.latency}")
        """
        return _parse_latency_history(
            cast(
                List,
                await self._execute_command(RequestType.LatencyHistory, [event]),
            ),
        )

    async def latency_latest(self) -> List[LatencyEventInfo]:
        """
        Reports the latest latency events logged by the server.

        See [valkey.io](https://valkey.io/commands/latency-latest/) for details.

        Returns:
            List[LatencyEventInfo]: A list of LatencyEventInfo for the latest latency events.

        Examples:
            >>> latest = await client.latency_latest()
            >>> for info in latest:
            ...     print(f"Event: {info.event_name}, Latest: {info.latest_duration}")
        """
        return _parse_latency_latest(
            cast(
                List,
                await self._execute_command(RequestType.LatencyLatest, []),
            ),
        )

    async def latency_reset(self, *events: TEncodable) -> int:
        """
        Resets the latency spike time series for all or specified events.
        If no events are provided, resets the latency spike time series for all events.

        See [valkey.io](https://valkey.io/commands/latency-reset/) for details.

        Args:
            *events (TEncodable): The event names to reset. If none provided, resets
                all events.

        Returns:
            int: The number of event time series that were reset.

        Examples:
            >>> await client.latency_reset()
                2
            >>> await client.latency_reset("command")
                1
        """
        return cast(
            int,
            await self._execute_command(RequestType.LatencyReset, list(events)),
        )

    async def failover(
        self,
        host: Optional[TEncodable] = None,
        port: Optional[int] = None,
        force: bool = False,
        abort: bool = False,
        timeout_ms: Optional[int] = None,
    ) -> TOK:
        """
        Starts a coordinated failover from the connected primary to one of its replicas.
        This is the standalone equivalent of CLUSTER FAILOVER.

        See [valkey.io](https://valkey.io/commands/failover/) for more details.

        Args:
            host (Optional[TEncodable]): The host of the target replica (requires port).
            port (Optional[int]): The port of the target replica (requires host).
            force (bool): If True, forces failover after timeout (requires host, port, and timeout_ms).
            abort (bool): If True, aborts an ongoing failover.
            timeout_ms (Optional[int]): Timeout in milliseconds.

        Returns:
            TOK: A simple OK response.

        Examples:
            >>> await client.failover()
                OK
            >>> await client.failover(abort=True)
                OK
            >>> await client.failover(host="localhost", port=6380, timeout_ms=1000)
                OK
        """
        args: List[TEncodable] = []
        if (host is None) != (port is None):
            raise ValueError("Both host and port must be provided together")
        if force and (host is None or port is None):
            raise ValueError("force requires host and port to be specified")
        if abort:
            args.append("ABORT")
        else:
            if host is not None and port is not None:
                args.extend(["TO", host, str(port)])
                if force:
                    args.append("FORCE")
            if timeout_ms is not None:
                args.extend(["TIMEOUT", str(timeout_ms)])
        return cast(TOK, await self._execute_command(RequestType.FailOver, args))

    async def replicaof(self, host: TEncodable, port: int) -> TOK:
        """
        Makes the server a replica of the specified primary.

        See [valkey.io](https://valkey.io/commands/replicaof/) for more details.

        Args:
            host (TEncodable): The host of the primary to replicate.
            port (int): The port of the primary to replicate.

        Returns:
            TOK: A simple OK response.

        Examples:
            >>> await client.replicaof("localhost", 6379)
                OK
        """
        return cast(
            TOK, await self._execute_command(RequestType.ReplicaOf, [host, str(port)])
        )

    async def replicaof_no_one(self) -> TOK:
        """
        Promotes the current server to a primary by stopping replication.

        See [valkey.io](https://valkey.io/commands/replicaof/) for more details.

        Returns:
            TOK: A simple OK response.

        Examples:
            >>> await client.replicaof_no_one()
                OK
        """
        return cast(
            TOK, await self._execute_command(RequestType.ReplicaOf, ["NO", "ONE"])
        )

    async def migrate(
        self,
        host: str,
        port: int,
        keys: Union[TEncodable, List[TEncodable]],
        destination_db: int,
        timeout: int,
        options: Optional[MigrateOptions] = None,
    ) -> str:
        """
        Atomically transfers one or more keys from a source Valkey instance to a destination
        Valkey instance. On success, the key(s) are deleted from the source instance.
        Pass a list to migrate multiple keys in one command.

        See [valkey.io](https://valkey.io/commands/migrate/) for details.

        Args:
            host (str): The host of the destination Valkey instance.
            port (int): The port of the destination Valkey instance.
            keys (Union[TEncodable, List[TEncodable]]): The key or list of keys to migrate.
            destination_db (int): The database index on the destination instance.
            timeout (int): The maximum idle time in milliseconds for the bulk-transfer.
            options (Optional[MigrateOptions]): Additional migration options.

        Returns:
            str: "OK" on success, or "NOKEY" if no keys were found.

        Examples:
            >>> await client.migrate("127.0.0.1", 6380, "mykey", 0, 5000)
            >>> await client.migrate("127.0.0.1", 6380, ["key1", "key2"], 0, 5000)
        """
        if isinstance(keys, list):
            if len(keys) == 0:
                raise ValueError("migrate: 'keys' list must not be empty")
            args: List[TEncodable] = [
                host,
                str(port),
                "",
                str(destination_db),
                str(timeout),
            ]
            if options:
                args.extend(options.to_args())
            args += ["KEYS"] + list(keys)
        else:
            args = [host, str(port), keys, str(destination_db), str(timeout)]
            if options:
                args.extend(options.to_args())
        return cast(
            str,
            await self._execute_command(RequestType.Migrate, args),
        )

    # TODO #6166: move to shared base class

    async def memory_doctor(self) -> str:
        """
        Returns a report about memory problems detected by the server.

        See [valkey.io](https://valkey.io/commands/memory-doctor/) for details.

        Returns:
            str: The memory diagnostic report.

        Examples:
            >>> report = await client.memory_doctor()
            >>> print("Memory report:", report)
        """
        response = await self._execute_command(RequestType.MemoryDoctor, [])
        return cast(bytes, response).decode()

    async def memory_malloc_stats(self) -> str:
        """
        Returns the internal statistics of the memory allocator.

        See [valkey.io](https://valkey.io/commands/memory-malloc-stats/) for details.

        Returns:
            str: The memory allocator statistics.

        Examples:
            >>> report = await client.memory_malloc_stats()
            >>> print("Allocator stats:", report)
        """
        response = await self._execute_command(RequestType.MemoryMallocStats, [])
        return cast(bytes, response).decode()

    async def memory_purge(self) -> TOK:
        """
        Asks the server to reclaim memory from the allocator back to the operating system.

        See [valkey.io](https://valkey.io/commands/memory-purge/) for details.

        Returns:
            TOK: A simple "OK" response.

        Examples:
            >>> await client.memory_purge()
                "OK"
        """
        return cast(TOK, await self._execute_command(RequestType.MemoryPurge, []))

    async def memory_stats(self) -> MemoryStats:
        """
        Returns detailed memory consumption statistics of the server.

        See [valkey.io](https://valkey.io/commands/memory-stats/) for details.

        Returns:
            MemoryStats: A ``MemoryStats`` object containing detailed memory usage
                statistics.

        Examples:
            >>> stats = await client.memory_stats()
            >>> print(f"Peak allocated: {stats.peak_allocated}")
            >>> print(f"Total allocated: {stats.total_allocated}")
        """
        return _parse_memory_stats(
            cast(
                Mapping,
                await self._execute_command(RequestType.MemoryStats, []),
            ),
        )

custom_command(command_args) async

Executes a single command, without checking inputs. See the Valkey GLIDE Documentation for details on the restrictions and limitations of the custom command API.

This function should only be used for single-response commands. Commands that don't return complete response and awaits (such as SUBSCRIBE), or that return potentially more than a single response (such as XREAD), or that change the client's behavior (such as entering pub/sub mode on RESP2 connections) shouldn't be called using this function.

Parameters:

Name Type Description Default
command_args List[TEncodable]

List of the command's arguments, where each argument is either a string or bytes.

required

Returns:

Name Type Description
TResult TResult

The returning value depends on the executed command.

Example

await client.customCommand(["CLIENT", "LIST", "TYPE", "PUBSUB"])

Expected Output: A list of all pub/sub clients

Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def custom_command(self, command_args: List[TEncodable]) -> TResult:
    """
    Executes a single command, without checking inputs.
    See the [Valkey GLIDE Documentation](https://glide.valkey.io/concepts/client-features/custom-commands/)
    for details on the restrictions and limitations of the custom command API.

    This function should only be used for single-response commands. Commands that don't return complete response and awaits
    (such as SUBSCRIBE), or that return potentially more than a single response (such as XREAD), or that change the
    client's behavior (such as entering pub/sub mode on RESP2 connections) shouldn't be called using this function.

    Args:
        command_args (List[TEncodable]): List of the command's arguments, where each argument is either a string or bytes.
        Every part of the command, including the command name and subcommands, should be added as a separate value in args.

    Returns:
        TResult: The returning value depends on the executed command.

    Example:
        >>> await client.customCommand(["CLIENT", "LIST", "TYPE", "PUBSUB"])
        # Expected Output: A list of all pub/sub clients

    """
    return await self._execute_command(RequestType.CustomCommand, command_args)

info(sections=None) async

Get information and statistics about the server.

Starting from server version 7, command supports multiple section arguments.

See valkey.io for details.

Parameters:

Name Type Description Default
sections Optional[List[InfoSection]]

A list of InfoSection values specifying which sections of information to retrieve. When no parameter is provided, the default option is assumed.

None

Returns:

Name Type Description
bytes bytes

Returns bytes containing the information for the sections requested.

Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def info(
    self,
    sections: Optional[List[InfoSection]] = None,
) -> bytes:
    """
    Get information and statistics about the server.

    Starting from server version 7, command supports multiple section arguments.

    See [valkey.io](https://valkey.io/commands/info/) for details.

    Args:
        sections (Optional[List[InfoSection]]): A list of InfoSection values specifying which sections of
            information to retrieve. When no parameter is provided, the default option is assumed.

    Returns:
        bytes: Returns bytes containing the information for the sections requested.
    """
    args: List[TEncodable] = (
        [section.value for section in sections] if sections else []
    )
    return cast(bytes, await self._execute_command(RequestType.Info, args))

exec(batch, raise_on_error, options=None) async

Executes a batch by processing the queued commands.

See Valkey Transactions (Atomic Batches) and Valkey Pipelines (Non-Atomic Batches) for details.

Notes
  • Atomic Batches - Transactions: If the transaction fails due to a WATCH command, exec will return None.

Parameters:

Name Type Description Default
batch Batch

A Batch containing the commands to execute.

required
raise_on_error bool

Determines how errors are handled within the batch response. When set to True, the first encountered error in the batch will be raised as a RequestError exception after all retries and reconnections have been executed. When set to False, errors will be included as part of the batch response array, allowing the caller to process both successful and failed commands together. In this case, error details will be provided as instances of RequestError.

required
options Optional[BatchOptions]

A BatchOptions object containing execution options.

None

Returns:

Type Description
Optional[List[TResult]]

Optional[List[TResult]]: An array of results, where each entry corresponds to a command's execution result. If the batch fails due to a WATCH command, exec will return None.

Example (Atomic Batch - Transaction): >>> transaction = Batch(is_atomic=True) # Atomic (Transaction) >>> transaction.set("key", "1") >>> transaction.incr("key") >>> transaction.get("key") >>> result = await client.exec(transaction, raise_on_error=True) >>> print(f"Transaction Batch Result: {result}") # Expected Output: Transaction Batch Result: [OK, 2, b'2']

Example (Non-Atomic Batch - Pipeline): >>> pipeline = Batch(is_atomic=False) # Non-Atomic (Pipeline) >>> pipeline.set("key1", "value1") >>> pipeline.set("key2", "value2") >>> pipeline.get("key1") >>> pipeline.get("key2") >>> result = await client.exec(pipeline, raise_on_error=True) >>> print(f"Pipeline Batch Result: {result}") # Expected Output: Pipeline Batch Result: [OK, OK, b'value1', b'value2']

Example (Atomic Batch - Transaction with options): >>> from glide import BatchOptions >>> transaction = Batch(is_atomic=True) >>> transaction.set("key", "1") >>> transaction.incr("key") >>> transaction.custom_command(["get", "key"]) >>> options = BatchOptions(timeout=1000) # Set a timeout of 1000 milliseconds >>> result = await client.exec( ... transaction, ... raise_on_error=False, # Do not raise an error on failure ... options=options ... ) >>> print(f"Transaction Result: {result}") # Expected Output: Transaction Result: [OK, 2, b'2']

Example (Non-Atomic Batch - Pipeline with options): >>> from glide import BatchOptions >>> pipeline = Batch(is_atomic=False) >>> pipeline.custom_command(["set", "key1", "value1"]) >>> pipeline.custom_command(["set", "key2", "value2"]) >>> pipeline.custom_command(["get", "key1"]) >>> pipeline.custom_command(["get", "key2"]) >>> options = BatchOptions(timeout=1000) # Set a timeout of 1000 milliseconds >>> result = await client.exec( ... pipeline, ... raise_on_error=False, # Do not raise an error on failure ... options=options ... ) >>> print(f"Pipeline Result: {result}") # Expected Output: Pipeline Result: [OK, OK, b'value1', b'value2']

Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def exec(
    self,
    batch: Batch,
    raise_on_error: bool,
    options: Optional[BatchOptions] = None,
) -> Optional[List[TResult]]:
    """
    Executes a batch by processing the queued commands.

    See [Valkey Transactions (Atomic Batches)](https://valkey.io/docs/topics/transactions/) and
    [Valkey Pipelines (Non-Atomic Batches)](https://valkey.io/docs/topics/pipelining/) for details.

    Notes:
        - Atomic Batches - Transactions: If the transaction fails due to a ``WATCH`` command,
          ``exec`` will return ``None``.

    Args:
        batch (Batch): A ``Batch`` containing the commands to execute.
        raise_on_error (bool): Determines how errors are handled within the batch response.
            When set to ``True``, the first encountered error in the batch will be raised as a
            ``RequestError`` exception after all retries and reconnections have been executed.
            When set to ``False``, errors will be included as part of the batch response array, allowing
            the caller to process both successful and failed commands together. In this case, error details
            will be provided as instances of ``RequestError``.
        options (Optional[BatchOptions]): A ``BatchOptions`` object containing execution options.

    Returns:
        Optional[List[TResult]]: An array of results, where each entry corresponds to a command's execution result.
            If the batch fails due to a ``WATCH`` command, ``exec`` will return ``None``.

    Example (Atomic Batch - Transaction):
        >>> transaction = Batch(is_atomic=True)  # Atomic (Transaction)
        >>> transaction.set("key", "1")
        >>> transaction.incr("key")
        >>> transaction.get("key")
        >>> result = await client.exec(transaction, raise_on_error=True)
        >>> print(f"Transaction Batch Result: {result}")
        # Expected Output: Transaction Batch Result: [OK, 2, b'2']

    Example (Non-Atomic Batch - Pipeline):
        >>> pipeline = Batch(is_atomic=False)  # Non-Atomic (Pipeline)
        >>> pipeline.set("key1", "value1")
        >>> pipeline.set("key2", "value2")
        >>> pipeline.get("key1")
        >>> pipeline.get("key2")
        >>> result = await client.exec(pipeline, raise_on_error=True)
        >>> print(f"Pipeline Batch Result: {result}")
        # Expected Output: Pipeline Batch Result: [OK, OK, b'value1', b'value2']

    Example (Atomic Batch - Transaction with options):
        >>> from glide import BatchOptions
        >>> transaction = Batch(is_atomic=True)
        >>> transaction.set("key", "1")
        >>> transaction.incr("key")
        >>> transaction.custom_command(["get", "key"])
        >>> options = BatchOptions(timeout=1000)  # Set a timeout of 1000 milliseconds
        >>> result = await client.exec(
        ...     transaction,
        ...     raise_on_error=False,  # Do not raise an error on failure
        ...     options=options
        ... )
        >>> print(f"Transaction Result: {result}")
        # Expected Output: Transaction Result: [OK, 2, b'2']

    Example (Non-Atomic Batch - Pipeline with options):
        >>> from glide import BatchOptions
        >>> pipeline = Batch(is_atomic=False)
        >>> pipeline.custom_command(["set", "key1", "value1"])
        >>> pipeline.custom_command(["set", "key2", "value2"])
        >>> pipeline.custom_command(["get", "key1"])
        >>> pipeline.custom_command(["get", "key2"])
        >>> options = BatchOptions(timeout=1000)  # Set a timeout of 1000 milliseconds
        >>> result = await client.exec(
        ...     pipeline,
        ...     raise_on_error=False,  # Do not raise an error on failure
        ...     options=options
        ... )
        >>> print(f"Pipeline Result: {result}")
        # Expected Output: Pipeline Result: [OK, OK, b'value1', b'value2']
    """
    commands = batch.commands[:]
    timeout = options.timeout if options else None
    return await self._execute_batch(
        commands,
        is_atomic=batch.is_atomic,
        raise_on_error=raise_on_error,
        timeout=timeout,
    )

config_resetstat() async

Resets the statistics reported by the server using the INFO and LATENCY HISTOGRAM commands.

See valkey.io for details.

Returns:

Name Type Description
OK TOK

Returns "OK" to confirm that the statistics were successfully reset.

Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def config_resetstat(self) -> TOK:
    """
    Resets the statistics reported by the server using the INFO and LATENCY HISTOGRAM commands.

    See [valkey.io](https://valkey.io/commands/config-resetstat/) for details.

    Returns:
        OK: Returns "OK" to confirm that the statistics were successfully reset.
    """
    return cast(TOK, await self._execute_command(RequestType.ConfigResetStat, []))

config_rewrite() async

Rewrite the configuration file with the current configuration.

See valkey.io for details.

Returns:

Name Type Description
OK TOK

OK is returned when the configuration was rewritten properly.

TOK

Otherwise, an error is raised.

Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def config_rewrite(self) -> TOK:
    """
    Rewrite the configuration file with the current configuration.

    See [valkey.io](https://valkey.io/commands/config-rewrite/) for details.

    Returns:
        OK: OK is returned when the configuration was rewritten properly.

        Otherwise, an error is raised.
    """
    return cast(TOK, await self._execute_command(RequestType.ConfigRewrite, []))

client_id() async

Returns the current connection id.

See valkey.io for more information.

Returns:

Name Type Description
int int

the id of the client.

Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def client_id(
    self,
) -> int:
    """
    Returns the current connection id.

    See [valkey.io](https://valkey.io/commands/client-id/) for more information.

    Returns:
        int: the id of the client.
    """
    return cast(int, await self._execute_command(RequestType.ClientId, []))

ping(message=None) async

Ping the server.

See valkey.io for more details.

Parameters:

Name Type Description Default
message Optional[TEncodable]

An optional message to include in the PING command. If not provided, the server will respond with b"PONG". If provided, the server will respond with a copy of the message.

None

Returns:

Name Type Description
bytes bytes

b"PONG" if message is not provided.

bytes

Otherwise return a copy of message.

Examples:

>>> await client.ping()
    b"PONG"
>>> await client.ping("Hello")
    b"Hello"
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def ping(self, message: Optional[TEncodable] = None) -> bytes:
    """
    Ping the server.

    See [valkey.io](https://valkey.io/commands/ping/) for more details.

    Args:
        message (Optional[TEncodable]): An optional message to include in the PING command. If not provided,
            the server will respond with b"PONG". If provided, the server will respond with a copy of the message.

    Returns:
        bytes: b"PONG" if `message` is not provided.

        Otherwise return a copy of `message`.

    Examples:
        >>> await client.ping()
            b"PONG"
        >>> await client.ping("Hello")
            b"Hello"
    """
    argument = [] if message is None else [message]
    return cast(bytes, await self._execute_command(RequestType.Ping, argument))

config_get(parameters) async

Get the values of configuration parameters. Starting from server version 7, command supports multiple parameters

See valkey.io for details.

Parameters:

Name Type Description Default
parameters List[TEncodable]

A list of configuration parameter names to retrieve values for.

required

Returns:

Type Description
Dict[bytes, bytes]

Dict[bytes, bytes]: A dictionary of values corresponding to the configuration parameters.

Examples:

>>> await client.config_get(["timeout"] , RandomNode())
    {b'timeout': b'1000'}
>>> await client.config_get([b"timeout" , "maxmemory"])
    {b'timeout': b'1000', b'maxmemory': b'1GB'}
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def config_get(self, parameters: List[TEncodable]) -> Dict[bytes, bytes]:
    """
    Get the values of configuration parameters.
    Starting from server version 7, command supports multiple parameters

    See [valkey.io](https://valkey.io/commands/config-get/) for details.

    Args:
        parameters (List[TEncodable]): A list of configuration parameter names to retrieve values for.

    Returns:
        Dict[bytes, bytes]: A dictionary of values corresponding to the configuration parameters.

    Examples:
        >>> await client.config_get(["timeout"] , RandomNode())
            {b'timeout': b'1000'}
        >>> await client.config_get([b"timeout" , "maxmemory"])
            {b'timeout': b'1000', b'maxmemory': b'1GB'}
    """
    return cast(
        Dict[bytes, bytes],
        await self._execute_command(RequestType.ConfigGet, parameters),
    )

config_set(parameters_map) async

Set configuration parameters to the specified values. Starting from server version 7, command supports multiple parameters.

See valkey.io for details.

Parameters:

Name Type Description Default
parameters_map Mapping[TEncodable, TEncodable]

A map consisting of configuration parameters and their respective values to set.

required

Returns:

Name Type Description
OK TOK

Returns OK if all configurations have been successfully set.

TOK

Otherwise, raises an error.

Examples:

>>> config_set({"timeout": "1000", "maxmemory": "1GB"})
    OK
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def config_set(self, parameters_map: Mapping[TEncodable, TEncodable]) -> TOK:
    """
    Set configuration parameters to the specified values.
    Starting from server version 7, command supports multiple parameters.

    See [valkey.io](https://valkey.io/commands/config-set/) for details.

    Args:
        parameters_map (Mapping[TEncodable, TEncodable]): A map consisting of configuration
            parameters and their respective values to set.

    Returns:
        OK: Returns OK if all configurations have been successfully set.

        Otherwise, raises an error.

    Examples:
        >>> config_set({"timeout": "1000", "maxmemory": "1GB"})
            OK
    """
    parameters: List[TEncodable] = []
    for pair in parameters_map.items():
        parameters.extend(pair)
    return cast(TOK, await self._execute_command(RequestType.ConfigSet, parameters))

client_getname() async

Get the name of the primary's connection.

See valkey.io for more details.

Returns:

Type Description
Optional[bytes]

Optional[bytes]: Returns the name of the client connection as a byte string if a name is set.

Optional[bytes]

None if no name is assigned.

Examples:

>>> await client.client_getname()
    b'Connection Name'
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def client_getname(self) -> Optional[bytes]:
    """
    Get the name of the primary's connection.

    See [valkey.io](https://valkey.io/commands/client-getname/) for more details.

    Returns:
        Optional[bytes]: Returns the name of the client connection as a byte string if a name is set.

        `None` if no name is assigned.

    Examples:
        >>> await client.client_getname()
            b'Connection Name'
    """
    return cast(
        Optional[bytes], await self._execute_command(RequestType.ClientGetName, [])
    )

client_tracking_info() async

Returns information about the current client connection's use of the server assisted client side caching feature.

See valkey.io for more details.

Returns:

Name Type Description
ClientTrackingInfo ClientTrackingInfo

The tracking info for the client.

Examples:

>>> info = await client.client_tracking_info()
>>> print(info.flags)
    {'off'}
>>> print(info.redirect)
    -1
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def client_tracking_info(self) -> ClientTrackingInfo:
    """
    Returns information about the current client connection's use
    of the server assisted client side caching feature.

    See [valkey.io](https://valkey.io/commands/client-trackinginfo/) for more details.

    Returns:
        ClientTrackingInfo: The tracking info for the client.

    Examples:
        >>> info = await client.client_tracking_info()
        >>> print(info.flags)
            {'off'}
        >>> print(info.redirect)
            -1
    """
    return _parse_client_tracking_info(
        cast(
            Mapping,
            await self._execute_command(RequestType.ClientTrackingInfo, []),
        ),
    )

dbsize() async

Returns the number of keys in the currently selected database.

See valkey.io for more details.

Returns:

Name Type Description
int int

The number of keys in the currently selected database.

Examples:

>>> await client.dbsize()
    10  # Indicates there are 10 keys in the current database.
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def dbsize(self) -> int:
    """
    Returns the number of keys in the currently selected database.

    See [valkey.io](https://valkey.io/commands/dbsize) for more details.

    Returns:
        int: The number of keys in the currently selected database.

    Examples:
        >>> await client.dbsize()
            10  # Indicates there are 10 keys in the current database.
    """
    return cast(int, await self._execute_command(RequestType.DBSize, []))

echo(message) async

Echoes the provided message back.

See valkey.io for more details.

Parameters:

Name Type Description Default
message TEncodable

The message to be echoed back.

required

Returns:

Name Type Description
bytes bytes

The provided message.

Examples:

>>> await client.echo("Valkey GLIDE")
    b'Valkey GLIDE'
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def echo(self, message: TEncodable) -> bytes:
    """
    Echoes the provided `message` back.

    See [valkey.io](https://valkey.io/commands/echo) for more details.

    Args:
        message (TEncodable): The message to be echoed back.

    Returns:
        bytes: The provided `message`.

    Examples:
        >>> await client.echo("Valkey GLIDE")
            b'Valkey GLIDE'
    """
    return cast(bytes, await self._execute_command(RequestType.Echo, [message]))

function_load(library_code, replace=False) async

Loads a library to Valkey.

See valkey.io for more details.

Parameters:

Name Type Description Default
library_code TEncodable

The source code that implements the library.

required
replace bool

Whether the given library should overwrite a library with the same name if it already exists.

False

Returns:

Name Type Description
bytes bytes

The library name that was loaded.

Examples:

>>> code = "#!lua name=mylib \n redis.register_function('myfunc', function(keys, args) return args[1] end)"
>>> await client.function_load(code, True)
    b"mylib"

Since: Valkey 7.0.0.

Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def function_load(
    self, library_code: TEncodable, replace: bool = False
) -> bytes:
    """
    Loads a library to Valkey.

    See [valkey.io](https://valkey.io/commands/function-load/) for more details.

    Args:
        library_code (TEncodable): The source code that implements the library.
        replace (bool): Whether the given library should overwrite a library with the same name if
            it already exists.

    Returns:
        bytes: The library name that was loaded.

    Examples:
        >>> code = "#!lua name=mylib \\n redis.register_function('myfunc', function(keys, args) return args[1] end)"
        >>> await client.function_load(code, True)
            b"mylib"

    Since: Valkey 7.0.0.
    """
    return cast(
        bytes,
        await self._execute_command(
            RequestType.FunctionLoad,
            ["REPLACE", library_code] if replace else [library_code],
        ),
    )

function_list(library_name_pattern=None, with_code=False) async

Returns information about the functions and libraries.

See valkey.io for more details.

Parameters:

Name Type Description Default
library_name_pattern Optional[TEncodable]

A wildcard pattern for matching library names.

None
with_code bool

Specifies whether to request the library code from the server or not.

False

Returns:

Name Type Description
TFunctionListResponse TFunctionListResponse

Info about all or

TFunctionListResponse

selected libraries and their functions.

Examples:

>>> response = await client.function_list("myLib?_backup", True)
    [{
        b"library_name": b"myLib5_backup",
        b"engine": b"LUA",
        b"functions": [{
            b"name": b"myfunc",
            b"description": None,
            b"flags": {b"no-writes"},
        }],
        b"library_code": b"#!lua name=mylib \n sever.register_function('myfunc', function(keys, args) "                                      b"return args[1] end)"
    }]

Since: Valkey 7.0.0.

Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def function_list(
    self, library_name_pattern: Optional[TEncodable] = None, with_code: bool = False
) -> TFunctionListResponse:
    """
    Returns information about the functions and libraries.

    See [valkey.io](https://valkey.io/commands/function-list/) for more details.

    Args:
        library_name_pattern (Optional[TEncodable]):  A wildcard pattern for matching library names.
        with_code (bool): Specifies whether to request the library code from the server or not.

    Returns:
        TFunctionListResponse: Info about all or
        selected libraries and their functions.

    Examples:
        >>> response = await client.function_list("myLib?_backup", True)
            [{
                b"library_name": b"myLib5_backup",
                b"engine": b"LUA",
                b"functions": [{
                    b"name": b"myfunc",
                    b"description": None,
                    b"flags": {b"no-writes"},
                }],
                b"library_code": b"#!lua name=mylib \\n sever.register_function('myfunc', function(keys, args) " \
                                 b"return args[1] end)"
            }]

    Since: Valkey 7.0.0.
    """
    args = []
    if library_name_pattern is not None:
        args.extend(["LIBRARYNAME", library_name_pattern])
    if with_code:
        args.append("WITHCODE")
    return cast(
        TFunctionListResponse,
        await self._execute_command(
            RequestType.FunctionList,
            args,
        ),
    )

function_flush(mode=None) async

Deletes all function libraries.

See valkey.io for more details.

Parameters:

Name Type Description Default
mode Optional[FlushMode]

The flushing mode, could be either SYNC or ASYNC.

None

Returns:

Name Type Description
TOK TOK

A simple OK.

Examples:

>>> await client.function_flush(FlushMode.SYNC)
    "OK"

Since: Valkey 7.0.0.

Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def function_flush(self, mode: Optional[FlushMode] = None) -> TOK:
    """
    Deletes all function libraries.

    See [valkey.io](https://valkey.io/commands/function-flush/) for more details.

    Args:
        mode (Optional[FlushMode]): The flushing mode, could be either `SYNC` or `ASYNC`.

    Returns:
        TOK: A simple `OK`.

    Examples:
        >>> await client.function_flush(FlushMode.SYNC)
            "OK"

    Since: Valkey 7.0.0.
    """
    return cast(
        TOK,
        await self._execute_command(
            RequestType.FunctionFlush,
            [mode.value] if mode else [],
        ),
    )

function_delete(library_name) async

Deletes a library and all its functions.

See valkey.io for more details.

Parameters:

Name Type Description Default
library_code TEncodable

The library name to delete

required

Returns:

Name Type Description
TOK TOK

A simple OK.

Examples:

>>> await client.function_delete("my_lib")
    "OK"

Since: Valkey 7.0.0.

Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def function_delete(self, library_name: TEncodable) -> TOK:
    """
    Deletes a library and all its functions.

    See [valkey.io](https://valkey.io/commands/function-delete/) for more details.

    Args:
        library_code (TEncodable): The library name to delete

    Returns:
        TOK: A simple `OK`.

    Examples:
        >>> await client.function_delete("my_lib")
            "OK"

    Since: Valkey 7.0.0.
    """
    return cast(
        TOK,
        await self._execute_command(
            RequestType.FunctionDelete,
            [library_name],
        ),
    )

function_kill() async

Kills a function that is currently executing. This command only terminates read-only functions.

FUNCTION KILL runs on all nodes of the server, including primary and replicas.

See valkey.io for more details.

Returns:

Name Type Description
TOK TOK

A simple OK.

Examples:

>>> await client.function_kill()
    "OK"

Since: Valkey 7.0.0.

Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def function_kill(self) -> TOK:
    """
    Kills a function that is currently executing.
    This command only terminates read-only functions.

    FUNCTION KILL runs on all nodes of the server, including primary and replicas.

    See [valkey.io](https://valkey.io/commands/function-kill/) for more details.

    Returns:
        TOK: A simple `OK`.

    Examples:
        >>> await client.function_kill()
            "OK"

    Since: Valkey 7.0.0.
    """
    return cast(
        TOK,
        await self._execute_command(RequestType.FunctionKill, []),
    )

function_stats() async

Returns information about the function that's currently running and information about the available execution engines.

FUNCTION STATS runs on all nodes of the server, including primary and replicas. The response includes a mapping from node address to the command response for that node.

See valkey.io for more details

Returns:

Name Type Description
TFunctionStatsFullResponse TFunctionStatsFullResponse

A Map where the key is the node address and the value is a Map of two keys:

  • running_script with information about the running script.
  • engines with information about available engines and their stats.
TFunctionStatsFullResponse

See example for more details.

Examples:

>>> await client.function_stats()
    {b"addr": {                         # Response from the master node
        b'running_script': {
            b'name': b'foo',
            b'command': [b'FCALL', b'foo', b'0', b'hello'],
            b'duration_ms': 7758
        },
        b'engines': {
            b'LUA': {
                b'libraries_count': 1,
                b'functions_count': 1,
            }
        }
    },
    b"addr2": {                         # Response from a replica
        b'running_script': None,
        b"engines": {
            b'LUA': {
                b'libraries_count': 1,
                b'functions_count': 1,
            }
        }
    }}

Since: Valkey version 7.0.0.

Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def function_stats(self) -> TFunctionStatsFullResponse:
    """
    Returns information about the function that's currently running and information about the
    available execution engines.

    FUNCTION STATS runs on all nodes of the server, including primary and replicas.
    The response includes a mapping from node address to the command response for that node.

    See [valkey.io](https://valkey.io/commands/function-stats/) for more details

    Returns:
        TFunctionStatsFullResponse: A Map where the key is the node address and the value is a Map of two keys:

            - `running_script` with information about the running script.
            - `engines` with information about available engines and their stats.

        See example for more details.

    Examples:
        >>> await client.function_stats()
            {b"addr": {                         # Response from the master node
                b'running_script': {
                    b'name': b'foo',
                    b'command': [b'FCALL', b'foo', b'0', b'hello'],
                    b'duration_ms': 7758
                },
                b'engines': {
                    b'LUA': {
                        b'libraries_count': 1,
                        b'functions_count': 1,
                    }
                }
            },
            b"addr2": {                         # Response from a replica
                b'running_script': None,
                b"engines": {
                    b'LUA': {
                        b'libraries_count': 1,
                        b'functions_count': 1,
                    }
                }
            }}

    Since: Valkey version 7.0.0.
    """
    return cast(
        TFunctionStatsFullResponse,
        await self._execute_command(RequestType.FunctionStats, []),
    )

function_dump() async

Returns the serialized payload of all loaded libraries.

See valkey.io for more details.

Returns:

Name Type Description
bytes bytes

The serialized payload of all loaded libraries.

Examples:

>>> payload = await client.function_dump()
    # The serialized payload of all loaded libraries. This response can
    # be used to restore loaded functions on any Valkey instance.
>>> await client.function_restore(payload)
    "OK" # The serialized dump response was used to restore the libraries.

Since: Valkey 7.0.0.

Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def function_dump(self) -> bytes:
    """
    Returns the serialized payload of all loaded libraries.

    See [valkey.io](https://valkey.io/commands/function-dump/) for more details.

    Returns:
        bytes: The serialized payload of all loaded libraries.

    Examples:
        >>> payload = await client.function_dump()
            # The serialized payload of all loaded libraries. This response can
            # be used to restore loaded functions on any Valkey instance.
        >>> await client.function_restore(payload)
            "OK" # The serialized dump response was used to restore the libraries.

    Since: Valkey 7.0.0.
    """
    return cast(bytes, await self._execute_command(RequestType.FunctionDump, []))

function_restore(payload, policy=None) async

Restores libraries from the serialized payload returned by the function_dump command.

See valkey.io for more details.

Parameters:

Name Type Description Default
payload TEncodable

The serialized data from the function_dump command.

required
policy Optional[FunctionRestorePolicy]

A policy for handling existing libraries.

None

Returns:

Name Type Description
TOK TOK

OK.

Examples:

>>> payload = await client.function_dump()
    # The serialized payload of all loaded libraries. This response can
    # be used to restore loaded functions on any Valkey instance.
>>> await client.function_restore(payload)
    "OK" # The serialized dump response was used to restore the libraries.
>>> await client.function_restore(payload, FunctionRestorePolicy.FLUSH)
    "OK" # The serialized dump response was used to restore the libraries with the specified policy.

Since: Valkey 7.0.0.

Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def function_restore(
    self, payload: TEncodable, policy: Optional[FunctionRestorePolicy] = None
) -> TOK:
    """
    Restores libraries from the serialized payload returned by the `function_dump` command.

    See [valkey.io](https://valkey.io/commands/function-restore/) for more details.

    Args:
        payload (TEncodable): The serialized data from the `function_dump` command.
        policy (Optional[FunctionRestorePolicy]): A policy for handling existing libraries.

    Returns:
        TOK: OK.

    Examples:
        >>> payload = await client.function_dump()
            # The serialized payload of all loaded libraries. This response can
            # be used to restore loaded functions on any Valkey instance.
        >>> await client.function_restore(payload)
            "OK" # The serialized dump response was used to restore the libraries.
        >>> await client.function_restore(payload, FunctionRestorePolicy.FLUSH)
            "OK" # The serialized dump response was used to restore the libraries with the specified policy.

    Since: Valkey 7.0.0.
    """
    args: List[TEncodable] = [payload]
    if policy is not None:
        args.append(policy.value)

    return cast(TOK, await self._execute_command(RequestType.FunctionRestore, args))

time() async

Returns the server time.

See valkey.io for more details.

Returns:

Type Description
List[bytes]

List[bytes]: The current server time as a two items array:

List[bytes]

A Unix timestamp and the amount of microseconds already elapsed in the current second.

List[bytes]

The returned array is in a [Unix timestamp, Microseconds already elapsed] format.

Examples:

>>> await client.time()
    [b'1710925775', b'913580']
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def time(self) -> List[bytes]:
    """
    Returns the server time.

    See [valkey.io](https://valkey.io/commands/time/) for more details.

    Returns:
        List[bytes]:  The current server time as a two items `array`:
        A Unix timestamp and the amount of microseconds already elapsed in the current second.
        The returned `array` is in a [Unix timestamp, Microseconds already elapsed] format.

    Examples:
        >>> await client.time()
            [b'1710925775', b'913580']
    """
    return cast(
        List[bytes],
        await self._execute_command(RequestType.Time, []),
    )

lastsave() async

Returns the Unix time of the last DB save timestamp or startup timestamp if no save was made since then.

See valkey.io for more details.

Returns:

Name Type Description
int int

The Unix time of the last successful DB save.

Examples:

>>> await client.lastsave()
    1710925775  # Unix time of the last DB save
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def lastsave(self) -> int:
    """
    Returns the Unix time of the last DB save timestamp or startup timestamp if no save was made since then.

    See [valkey.io](https://valkey.io/commands/lastsave) for more details.

    Returns:
        int: The Unix time of the last successful DB save.

    Examples:
        >>> await client.lastsave()
            1710925775  # Unix time of the last DB save
    """
    return cast(
        int,
        await self._execute_command(RequestType.LastSave, []),
    )

save() async

Synchronously saves the dataset to disk.

See valkey.io for more details.

Returns:

Name Type Description
TOK TOK

A simple OK response.

Examples:

>>> await client.save()
    OK
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def save(self) -> TOK:
    """
    Synchronously saves the dataset to disk.

    See [valkey.io](https://valkey.io/commands/save) for more details.

    Returns:
        TOK: A simple OK response.

    Examples:
        >>> await client.save()
            OK
    """
    return cast(
        TOK,
        await self._execute_command(RequestType.Save, []),
    )

bgsave() async

Asynchronously saves the dataset to disk in the background.

See valkey.io for more details.

Returns:

Name Type Description
str str

A non-empty status string.

Examples:

>>> await client.bgsave()
    "Background saving started"
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def bgsave(self) -> str:
    """
    Asynchronously saves the dataset to disk in the background.

    See [valkey.io](https://valkey.io/commands/bgsave) for more details.

    Returns:
        str: A non-empty status string.

    Examples:
        >>> await client.bgsave()
            "Background saving started"
    """
    return cast(
        str,
        await self._execute_command(RequestType.BgSave, []),
    )

bgsave_schedule() async

Schedules a background save of the database.

See valkey.io for more details.

Returns:

Name Type Description
str str

A non-empty status string.

Examples:

>>> await client.bgsave_schedule()
    "Background saving scheduled"
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def bgsave_schedule(self) -> str:
    """
    Schedules a background save of the database.

    See [valkey.io](https://valkey.io/commands/bgsave) for more details.

    Returns:
        str: A non-empty status string.

    Examples:
        >>> await client.bgsave_schedule()
            "Background saving scheduled"
    """
    return cast(
        str,
        await self._execute_command(RequestType.BgSave, ["SCHEDULE"]),
    )

bgsave_cancel() async

Aborts all in-progress and scheduled background saves.

See valkey.io for more details.

Note

Since: Valkey 8.1.

Returns:

Name Type Description
str str

A non-empty status string.

Examples:

>>> await client.bgsave_cancel()
    "Background saving cancelled"
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def bgsave_cancel(self) -> str:
    """
    Aborts all in-progress and scheduled background saves.

    See [valkey.io](https://valkey.io/commands/bgsave) for more details.

    Note:
        Since: Valkey 8.1.

    Returns:
        str: A non-empty status string.

    Examples:
        >>> await client.bgsave_cancel()
            "Background saving cancelled"
    """
    return cast(
        str,
        await self._execute_command(RequestType.BgSave, ["CANCEL"]),
    )

bgrewriteaof() async

Initiates a background rewrite of the append-only file (AOF).

See valkey.io for more details.

Returns:

Name Type Description
str str

A non-empty status string.

Examples:

>>> await client.bgrewriteaof()
    "Background append only file rewriting started"
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def bgrewriteaof(self) -> str:
    """
    Initiates a background rewrite of the append-only file (AOF).

    See [valkey.io](https://valkey.io/commands/bgrewriteaof) for more details.

    Returns:
        str: A non-empty status string.

    Examples:
        >>> await client.bgrewriteaof()
            "Background append only file rewriting started"
    """
    return cast(
        str,
        await self._execute_command(RequestType.BgRewriteAof, []),
    )

publish(message, channel) async

Publish a message on pubsub channel.

See valkey.io for more details.

Parameters:

Name Type Description Default
message TEncodable

Message to publish

required
channel TEncodable

Channel to publish the message on.

required

Returns:

Name Type Description
int int

Number of subscriptions in primary node that received the message.

int

Note: this value does not include subscriptions that configured on replicas.

Examples:

>>> await client.publish("Hi all!", "global-channel")
    1 # This message was posted to 1 subscription which is configured on primary node
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def publish(self, message: TEncodable, channel: TEncodable) -> int:
    """
    Publish a message on pubsub channel.

    See [valkey.io](https://valkey.io/commands/publish) for more details.

    Args:
        message (TEncodable): Message to publish
        channel (TEncodable): Channel to publish the message on.

    Returns:
        int: Number of subscriptions in primary node that received the message.

        **Note:** this value does not include subscriptions that configured on replicas.

    Examples:
        >>> await client.publish("Hi all!", "global-channel")
            1 # This message was posted to 1 subscription which is configured on primary node
    """
    return cast(
        int, await self._execute_command(RequestType.Publish, [channel, message])
    )

flushall(flush_mode=None) async

Deletes all the keys of all the existing databases. This command never fails.

See valkey.io for more details.

Parameters:

Name Type Description Default
flush_mode Optional[FlushMode]

The flushing mode, could be either SYNC or ASYNC.

None

Returns:

Name Type Description
TOK TOK

A simple OK response.

Examples:

>>> await client.flushall(FlushMode.ASYNC)
    OK  # This command never fails.
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def flushall(self, flush_mode: Optional[FlushMode] = None) -> TOK:
    """
    Deletes all the keys of all the existing databases. This command never fails.

    See [valkey.io](https://valkey.io/commands/flushall) for more details.

    Args:
        flush_mode (Optional[FlushMode]): The flushing mode, could be either `SYNC` or `ASYNC`.

    Returns:
        TOK: A simple OK response.

    Examples:
        >>> await client.flushall(FlushMode.ASYNC)
            OK  # This command never fails.
    """
    args: List[TEncodable] = []
    if flush_mode is not None:
        args.append(flush_mode.value)

    return cast(
        TOK,
        await self._execute_command(RequestType.FlushAll, args),
    )

flushdb(flush_mode=None) async

Deletes all the keys of the currently selected database. This command never fails.

See valkey.io for more details.

Parameters:

Name Type Description Default
flush_mode Optional[FlushMode]

The flushing mode, could be either SYNC or ASYNC.

None

Returns:

Name Type Description
TOK TOK

A simple OK response.

Examples:

>>> await client.flushdb()
    OK  # The keys of the currently selected database were deleted.
>>> await client.flushdb(FlushMode.ASYNC)
    OK  # The keys of the currently selected database were deleted asynchronously.
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def flushdb(self, flush_mode: Optional[FlushMode] = None) -> TOK:
    """
    Deletes all the keys of the currently selected database. This command never fails.

    See [valkey.io](https://valkey.io/commands/flushdb) for more details.

    Args:
        flush_mode (Optional[FlushMode]): The flushing mode, could be either `SYNC` or `ASYNC`.

    Returns:
        TOK: A simple OK response.

    Examples:
        >>> await client.flushdb()
            OK  # The keys of the currently selected database were deleted.
        >>> await client.flushdb(FlushMode.ASYNC)
            OK  # The keys of the currently selected database were deleted asynchronously.
    """
    args: List[TEncodable] = []
    if flush_mode is not None:
        args.append(flush_mode.value)

    return cast(
        TOK,
        await self._execute_command(RequestType.FlushDB, args),
    )

copy(source, destination, destinationDB=None, replace=None) async

Copies the value stored at the source to the destination key. If destinationDB is specified, the value will be copied to the database specified by destinationDB, otherwise the current database will be used. When replace is True, removes the destination key first if it already exists, otherwise performs no action.

See valkey.io for more details.

Parameters:

Name Type Description Default
source TEncodable

The key to the source value.

required
destination TEncodable

The key where the value should be copied to.

required
destinationDB Optional[int]

The alternative logical database index for the destination key.

None
replace Optional[bool]

If the destination key should be removed before copying the value to it.

None

Returns:

Name Type Description
bool bool

True if the source was copied.

bool

Otherwise, return False.

Examples:

>>> await client.set("source", "sheep")
>>> await client.copy(b"source", b"destination", 1, False)
    True # Source was copied
>>> await client.select(1)
>>> await client.get("destination")
    b"sheep"

Since: Valkey version 6.2.0.

Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def copy(
    self,
    source: TEncodable,
    destination: TEncodable,
    destinationDB: Optional[int] = None,
    replace: Optional[bool] = None,
) -> bool:
    """
    Copies the value stored at the `source` to the `destination` key. If `destinationDB`
    is specified, the value will be copied to the database specified by `destinationDB`,
    otherwise the current database will be used. When `replace` is True, removes the
    `destination` key first if it already exists, otherwise performs no action.

    See [valkey.io](https://valkey.io/commands/copy) for more details.

    Args:
        source (TEncodable): The key to the source value.
        destination (TEncodable): The key where the value should be copied to.
        destinationDB (Optional[int]): The alternative logical database index for the destination key.
        replace (Optional[bool]): If the destination key should be removed before copying the value to it.

    Returns:
        bool: True if the source was copied.

        Otherwise, return False.

    Examples:
        >>> await client.set("source", "sheep")
        >>> await client.copy(b"source", b"destination", 1, False)
            True # Source was copied
        >>> await client.select(1)
        >>> await client.get("destination")
            b"sheep"

    Since: Valkey version 6.2.0.
    """
    args: List[TEncodable] = [source, destination]
    if destinationDB is not None:
        args.extend(["DB", str(destinationDB)])
    if replace is True:
        args.append("REPLACE")
    return cast(
        bool,
        await self._execute_command(RequestType.Copy, args),
    )

lolwut(version=None, parameters=None) async

Displays a piece of generative computer art and the Valkey version.

See valkey.io for more details.

Parameters:

Name Type Description Default
version Optional[int]

Version of computer art to generate.

None
parameters Optional[List[int]]

Additional set of arguments in order to change the output:

  • For version 5, those are length of the line, number of squares per row, and number of squares per column.
  • For version 6, those are number of columns and number of lines.
None

Returns:

Name Type Description
bytes bytes

A piece of generative computer art along with the current Valkey version.

Examples:

>>> await client.lolwut(6, [40, 20]);
    b"Redis ver. 7.2.3" # Indicates the current Valkey version
>>> await client.lolwut(5, [30, 5, 5]);
    b"Redis ver. 7.2.3" # Indicates the current Valkey version
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def lolwut(
    self,
    version: Optional[int] = None,
    parameters: Optional[List[int]] = None,
) -> bytes:
    """
    Displays a piece of generative computer art and the Valkey version.

    See [valkey.io](https://valkey.io/commands/lolwut) for more details.

    Args:
        version (Optional[int]): Version of computer art to generate.
        parameters (Optional[List[int]]): Additional set of arguments in order to change the output:

            - For version `5`, those are length of the line, number of squares per row, and number of squares per column.
            - For version `6`, those are number of columns and number of lines.

    Returns:
        bytes: A piece of generative computer art along with the current Valkey version.

    Examples:
        >>> await client.lolwut(6, [40, 20]);
            b"Redis ver. 7.2.3" # Indicates the current Valkey version
        >>> await client.lolwut(5, [30, 5, 5]);
            b"Redis ver. 7.2.3" # Indicates the current Valkey version
    """
    args: List[TEncodable] = []
    if version is not None:
        args.extend(["VERSION", str(version)])
    if parameters:
        for var in parameters:
            args.append(str(var))
    return cast(
        bytes,
        await self._execute_command(RequestType.Lolwut, args),
    )

random_key() async

Returns a random existing key name from the currently selected database.

See valkey.io for more details.

Returns:

Type Description
Optional[bytes]

Optional[bytes]: A random existing key name from the currently selected database.

Examples:

>>> await client.random_key()
    b"random_key_name"  # "random_key_name" is a random existing key name from the currently selected database.
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def random_key(self) -> Optional[bytes]:
    """
    Returns a random existing key name from the currently selected database.

    See [valkey.io](https://valkey.io/commands/randomkey) for more details.

    Returns:
        Optional[bytes]: A random existing key name from the currently selected database.

    Examples:
        >>> await client.random_key()
            b"random_key_name"  # "random_key_name" is a random existing key name from the currently selected database.
    """
    return cast(
        Optional[bytes],
        await self._execute_command(RequestType.RandomKey, []),
    )

wait(numreplicas, timeout) async

Blocks the current client until all the previous write commands are successfully transferred and acknowledged by at least numreplicas of replicas. If timeout is reached, the command returns even if the specified number of replicas were not yet reached.

See valkey.io for more details.

Parameters:

Name Type Description Default
numreplicas int

The number of replicas to reach.

required
timeout int

The timeout value specified in milliseconds. A value of 0 will block indefinitely.

required

Returns:

Name Type Description
int int

The number of replicas reached by all the writes performed in the context of the current connection.

Examples:

>>> await client.set("key", "value");
>>> await client.wait(1, 1000);
# return 1 when a replica is reached or 0 if 1000ms is reached.
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def wait(
    self,
    numreplicas: int,
    timeout: int,
) -> int:
    """
    Blocks the current client until all the previous write commands are successfully transferred
    and acknowledged by at least `numreplicas` of replicas. If `timeout` is
    reached, the command returns even if the specified number of replicas were not yet reached.

    See [valkey.io](https://valkey.io/commands/wait) for more details.

    Args:
        numreplicas (int): The number of replicas to reach.
        timeout (int): The timeout value specified in milliseconds. A value of 0 will block indefinitely.

    Returns:
        int: The number of replicas reached by all the writes performed in the context of the current connection.

    Examples:
        >>> await client.set("key", "value");
        >>> await client.wait(1, 1000);
        # return 1 when a replica is reached or 0 if 1000ms is reached.
    """
    args: List[TEncodable] = [str(numreplicas), str(timeout)]
    return cast(
        int,
        await self._execute_command(RequestType.Wait, args),
    )

unwatch() async

Flushes all the previously watched keys for an atomic batch (Transaction). Executing a transaction will automatically flush all previously watched keys.

See valkey.io for more details.

Returns:

Name Type Description
TOK TOK

A simple "OK" response.

Examples:

>>> await client.unwatch()
    'OK'
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def unwatch(self) -> TOK:
    """
    Flushes all the previously watched keys for an atomic batch (Transaction). Executing a transaction will
    automatically flush all previously watched keys.

    See [valkey.io](https://valkey.io/commands/unwatch) for more details.

    Returns:
        TOK: A simple "OK" response.

    Examples:
        >>> await client.unwatch()
            'OK'
    """
    return cast(
        TOK,
        await self._execute_command(RequestType.UnWatch, []),
    )

scan(cursor, match=None, count=None, type=None) async

Incrementally iterate over a collection of keys. SCAN is a cursor based iterator. This means that at every call of the command, the server returns an updated cursor that the user needs to use as the cursor argument in the next call. An iteration starts when the cursor is set to "0", and terminates when the cursor returned by the server is "0".

A full iteration always retrieves all the elements that were present in the collection from the start to the end of a full iteration. Elements that were not constantly present in the collection during a full iteration, may be returned or not.

See valkey.io for more details.

Parameters:

Name Type Description Default
cursor TResult

The cursor used for iteration. For the first iteration, the cursor should be set to "0".

  • Using a non-zero cursor in the first iteration, or an invalid cursor at any iteration, will lead to undefined results.
  • Using the same cursor in multiple iterations will, in case nothing changed between the iterations, return the same elements multiple times.
  • If the the db has changed, it may result an undefined behavior.
required
match Optional[TResult]

A pattern to match keys against.

None
count Optional[int]

The number of keys to return per iteration.

  • The number of keys returned per iteration is not guaranteed to be the same as the count argument.
  • The argument is used as a hint for the server to know how many "steps" it can use to retrieve the keys.
  • The default value is 10.
None
type ObjectType

The type of object to scan for.

None

Returns:

Type Description
List[Union[bytes, List[bytes]]]

List[Union[bytes, List[bytes]]]: A List containing the next cursor value and a list of keys,

List[Union[bytes, List[bytes]]]

formatted as [cursor, [key1, key2, ...]]

Examples:

>>> result = await client.scan(b'0')
    print(result) #[b'17', [b'key1', b'key2', b'key3', b'key4', b'key5', b'set1', b'set2', b'set3']]
    first_cursor_result = result[0]
    result = await client.scan(first_cursor_result)
    print(result) #[b'349', [b'key4', b'key5', b'set1', b'hash1', b'zset1', b'list1', b'list2',
                            b'list3', b'zset2', b'zset3', b'zset4', b'zset5', b'zset6']]
    result = await client.scan(result[0])
    print(result) #[b'0', [b'key6', b'key7']]
>>> result = await client.scan(first_cursor_result, match=b'key*', count=2)
    print(result) #[b'6', [b'key4', b'key5']]
>>> result = await client.scan("0", type=ObjectType.Set)
    print(result) #[b'362', [b'set1', b'set2', b'set3']]
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def scan(
    self,
    cursor: TEncodable,
    match: Optional[TEncodable] = None,
    count: Optional[int] = None,
    type: Optional[ObjectType] = None,
) -> List[Union[bytes, List[bytes]]]:
    """
    Incrementally iterate over a collection of keys.
    SCAN is a cursor based iterator. This means that at every call of the command,
    the server returns an updated cursor that the user needs to use as the cursor argument in the next call.
    An iteration starts when the cursor is set to "0", and terminates when the cursor returned by the server is "0".

    A full iteration always retrieves all the elements that were present
    in the collection from the start to the end of a full iteration.
    Elements that were not constantly present in the collection during a full iteration, may be returned or not.

    See [valkey.io](https://valkey.io/commands/scan) for more details.

    Args:
        cursor (TResult): The cursor used for iteration. For the first iteration, the cursor should be set to "0".

            - Using a non-zero cursor in the first iteration, or an invalid cursor at any iteration, will lead to
              undefined results.
            - Using the same cursor in multiple iterations will, in case nothing changed between the iterations,
              return the same elements multiple times.
            - If the the db has changed, it may result an undefined behavior.

        match (Optional[TResult]): A pattern to match keys against.
        count (Optional[int]): The number of keys to return per iteration.

            - The number of keys returned per iteration is not guaranteed to be the same as the count argument.
            - The argument is used as a hint for the server to know how many "steps" it can use to retrieve the keys.
            - The default value is 10.

        type (ObjectType): The type of object to scan for.

    Returns:
        List[Union[bytes, List[bytes]]]: A List containing the next cursor value and a list of keys,
        formatted as [cursor, [key1, key2, ...]]

    Examples:
        >>> result = await client.scan(b'0')
            print(result) #[b'17', [b'key1', b'key2', b'key3', b'key4', b'key5', b'set1', b'set2', b'set3']]
            first_cursor_result = result[0]
            result = await client.scan(first_cursor_result)
            print(result) #[b'349', [b'key4', b'key5', b'set1', b'hash1', b'zset1', b'list1', b'list2',
                                    b'list3', b'zset2', b'zset3', b'zset4', b'zset5', b'zset6']]
            result = await client.scan(result[0])
            print(result) #[b'0', [b'key6', b'key7']]
        >>> result = await client.scan(first_cursor_result, match=b'key*', count=2)
            print(result) #[b'6', [b'key4', b'key5']]
        >>> result = await client.scan("0", type=ObjectType.Set)
            print(result) #[b'362', [b'set1', b'set2', b'set3']]
    """
    args = [cursor]
    if match:
        args.extend(["MATCH", match])
    if count:
        args.extend(["COUNT", str(count)])
    if type:
        args.extend(["TYPE", type.value])
    return cast(
        List[Union[bytes, List[bytes]]],
        await self._execute_command(RequestType.Scan, args),
    )

script_exists(sha1s) async

Check existence of scripts in the script cache by their SHA1 digest.

See valkey.io for more details.

Parameters:

Name Type Description Default
sha1s List[TEncodable]

List of SHA1 digests of the scripts to check.

required

Returns:

Type Description
List[bool]

List[bool]: A list of boolean values indicating the existence of each script.

Examples:

>>> await client.script_exists(["sha1_digest1", "sha1_digest2"])
    [True, False]
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def script_exists(self, sha1s: List[TEncodable]) -> List[bool]:
    """
    Check existence of scripts in the script cache by their SHA1 digest.

    See [valkey.io](https://valkey.io/commands/script-exists) for more details.

    Args:
        sha1s (List[TEncodable]): List of SHA1 digests of the scripts to check.

    Returns:
        List[bool]: A list of boolean values indicating the existence of each script.

    Examples:
        >>> await client.script_exists(["sha1_digest1", "sha1_digest2"])
            [True, False]
    """
    return cast(
        List[bool], await self._execute_command(RequestType.ScriptExists, sha1s)
    )

script_flush(mode=None) async

Flush the Lua scripts cache.

See valkey.io for more details.

Parameters:

Name Type Description Default
mode Optional[FlushMode]

The flushing mode, could be either SYNC or ASYNC.

None

Returns:

Name Type Description
TOK TOK

A simple OK response.

Examples:

>>> await client.script_flush()
    "OK"
>>> await client.script_flush(FlushMode.ASYNC)
    "OK"
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def script_flush(self, mode: Optional[FlushMode] = None) -> TOK:
    """
    Flush the Lua scripts cache.

    See [valkey.io](https://valkey.io/commands/script-flush) for more details.

    Args:
        mode (Optional[FlushMode]): The flushing mode, could be either `SYNC` or `ASYNC`.

    Returns:
        TOK: A simple `OK` response.

    Examples:
        >>> await client.script_flush()
            "OK"

        >>> await client.script_flush(FlushMode.ASYNC)
            "OK"
    """

    return cast(
        TOK,
        await self._execute_command(
            RequestType.ScriptFlush, [mode.value] if mode else []
        ),
    )

script_kill() async

Kill the currently executing Lua script, assuming no write operation was yet performed by the script.

See valkey.io for more details.

Returns:

Name Type Description
TOK TOK

A simple OK response.

Examples:

>>> await client.script_kill()
    "OK"
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def script_kill(self) -> TOK:
    """
    Kill the currently executing Lua script, assuming no write operation was yet performed by the script.

    See [valkey.io](https://valkey.io/commands/script-kill) for more details.

    Returns:
        TOK: A simple `OK` response.

    Examples:
        >>> await client.script_kill()
            "OK"
    """
    return cast(TOK, await self._execute_command(RequestType.ScriptKill, []))

invoke_script(script, keys=None, args=None) async

Invokes a Lua script with its keys and arguments. This method simplifies the process of invoking scripts on a the server by using an object that represents a Lua script. The script loading, argument preparation, and execution will all be handled internally. If the script has not already been loaded, it will be loaded automatically using the SCRIPT LOAD command. After that, it will be invoked using the EVALSHA command.

See SCRIPT LOAD and EVALSHA for more details.

Parameters:

Name Type Description Default
script Script

The Lua script to execute.

required
keys Optional[List[TEncodable]]

The keys that are used in the script.

None
args Optional[List[TEncodable]]

The arguments for the script.

None

Returns:

Name Type Description
TResult TResult

a value that depends on the script that was executed.

Examples:

>>> lua_script = Script("return { KEYS[1], ARGV[1] }")
>>> await client.invoke_script(lua_script, keys=["foo"], args=["bar"])
    [b"foo", b"bar"]
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def invoke_script(
    self,
    script: Script,
    keys: Optional[List[TEncodable]] = None,
    args: Optional[List[TEncodable]] = None,
) -> TResult:
    """
    Invokes a Lua script with its keys and arguments.
    This method simplifies the process of invoking scripts on a the server by using an object that represents a Lua script.
    The script loading, argument preparation, and execution will all be handled internally.
    If the script has not already been loaded, it will be loaded automatically using the `SCRIPT LOAD` command.
    After that, it will be invoked using the `EVALSHA` command.

    See [SCRIPT LOAD](https://valkey.io/commands/script-load/) and [EVALSHA](https://valkey.io/commands/evalsha/)
    for more details.

    Args:
        script (Script): The Lua script to execute.
        keys (Optional[List[TEncodable]]): The keys that are used in the script.
        args (Optional[List[TEncodable]]): The arguments for the script.

    Returns:
        TResult: a value that depends on the script that was executed.

    Examples:
        >>> lua_script = Script("return { KEYS[1], ARGV[1] }")
        >>> await client.invoke_script(lua_script, keys=["foo"], args=["bar"])
            [b"foo", b"bar"]
    """
    return await self._execute_script(script.get_hash(), keys, args)

client_pause(timeout, mode=None) async

Suspends all clients for the specified timeout.

See valkey.io for more details.

Parameters:

Name Type Description Default
timeout int

The time in milliseconds to pause clients.

required
mode Optional[ClientPauseMode]

The pause mode to use.

None

Returns:

Name Type Description
TOK TOK

A simple OK response.

Examples:

>>> await client.client_pause(1000)
    OK
>>> await client.client_pause(5000, ClientPauseMode.WRITE)
    OK
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def client_pause(
    self, timeout: int, mode: Optional[ClientPauseMode] = None
) -> TOK:
    """
    Suspends all clients for the specified timeout.

    See [valkey.io](https://valkey.io/commands/client-pause/) for more details.

    Args:
        timeout (int): The time in milliseconds to pause clients.
        mode (Optional[ClientPauseMode]): The pause mode to use.

    Returns:
        TOK: A simple OK response.

    Examples:
        >>> await client.client_pause(1000)
            OK
        >>> await client.client_pause(5000, ClientPauseMode.WRITE)
            OK
    """
    args: List[TEncodable] = [str(timeout)]
    if mode is not None:
        args.append(mode.value)
    return cast(TOK, await self._execute_command(RequestType.ClientPause, args))

client_unpause() async

Resumes processing commands on all clients.

See valkey.io for more details.

Returns:

Name Type Description
TOK TOK

A simple OK response.

Examples:

>>> await client.client_unpause()
    OK
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def client_unpause(self) -> TOK:
    """
    Resumes processing commands on all clients.

    See [valkey.io](https://valkey.io/commands/client-unpause/) for more details.

    Returns:
        TOK: A simple OK response.

    Examples:
        >>> await client.client_unpause()
            OK
    """
    return cast(TOK, await self._execute_command(RequestType.ClientUnpause, []))

latency_history(event) async

Returns the latency spike time series for the specified event.

See valkey.io for details.

Parameters:

Name Type Description Default
event TEncodable

The name of the latency event (e.g., "command").

required

Returns:

Type Description
List[LatencyEntry]

List[LatencyEntry]: A list of LatencyEntry for the event, or an empty list if the event doesn't exist.

Examples:

>>> history = await client.latency_history("command")
>>> for entry in history:
...     print(f"Time: {entry.time}, Latency: {entry.latency}")
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def latency_history(self, event: TEncodable) -> List[LatencyEntry]:
    """
    Returns the latency spike time series for the specified event.

    See [valkey.io](https://valkey.io/commands/latency-history/) for details.

    Args:
        event (TEncodable): The name of the latency event (e.g., ``"command"``).

    Returns:
        List[LatencyEntry]: A list of LatencyEntry for the event, or an empty list
            if the event doesn't exist.

    Examples:
        >>> history = await client.latency_history("command")
        >>> for entry in history:
        ...     print(f"Time: {entry.time}, Latency: {entry.latency}")
    """
    return _parse_latency_history(
        cast(
            List,
            await self._execute_command(RequestType.LatencyHistory, [event]),
        ),
    )

latency_latest() async

Reports the latest latency events logged by the server.

See valkey.io for details.

Returns:

Type Description
List[LatencyEventInfo]

List[LatencyEventInfo]: A list of LatencyEventInfo for the latest latency events.

Examples:

>>> latest = await client.latency_latest()
>>> for info in latest:
...     print(f"Event: {info.event_name}, Latest: {info.latest_duration}")
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def latency_latest(self) -> List[LatencyEventInfo]:
    """
    Reports the latest latency events logged by the server.

    See [valkey.io](https://valkey.io/commands/latency-latest/) for details.

    Returns:
        List[LatencyEventInfo]: A list of LatencyEventInfo for the latest latency events.

    Examples:
        >>> latest = await client.latency_latest()
        >>> for info in latest:
        ...     print(f"Event: {info.event_name}, Latest: {info.latest_duration}")
    """
    return _parse_latency_latest(
        cast(
            List,
            await self._execute_command(RequestType.LatencyLatest, []),
        ),
    )

latency_reset(*events) async

Resets the latency spike time series for all or specified events. If no events are provided, resets the latency spike time series for all events.

See valkey.io for details.

Parameters:

Name Type Description Default
*events TEncodable

The event names to reset. If none provided, resets all events.

()

Returns:

Name Type Description
int int

The number of event time series that were reset.

Examples:

>>> await client.latency_reset()
    2
>>> await client.latency_reset("command")
    1
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def latency_reset(self, *events: TEncodable) -> int:
    """
    Resets the latency spike time series for all or specified events.
    If no events are provided, resets the latency spike time series for all events.

    See [valkey.io](https://valkey.io/commands/latency-reset/) for details.

    Args:
        *events (TEncodable): The event names to reset. If none provided, resets
            all events.

    Returns:
        int: The number of event time series that were reset.

    Examples:
        >>> await client.latency_reset()
            2
        >>> await client.latency_reset("command")
            1
    """
    return cast(
        int,
        await self._execute_command(RequestType.LatencyReset, list(events)),
    )

failover(host=None, port=None, force=False, abort=False, timeout_ms=None) async

Starts a coordinated failover from the connected primary to one of its replicas. This is the standalone equivalent of CLUSTER FAILOVER.

See valkey.io for more details.

Parameters:

Name Type Description Default
host Optional[TEncodable]

The host of the target replica (requires port).

None
port Optional[int]

The port of the target replica (requires host).

None
force bool

If True, forces failover after timeout (requires host, port, and timeout_ms).

False
abort bool

If True, aborts an ongoing failover.

False
timeout_ms Optional[int]

Timeout in milliseconds.

None

Returns:

Name Type Description
TOK TOK

A simple OK response.

Examples:

>>> await client.failover()
    OK
>>> await client.failover(abort=True)
    OK
>>> await client.failover(host="localhost", port=6380, timeout_ms=1000)
    OK
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def failover(
    self,
    host: Optional[TEncodable] = None,
    port: Optional[int] = None,
    force: bool = False,
    abort: bool = False,
    timeout_ms: Optional[int] = None,
) -> TOK:
    """
    Starts a coordinated failover from the connected primary to one of its replicas.
    This is the standalone equivalent of CLUSTER FAILOVER.

    See [valkey.io](https://valkey.io/commands/failover/) for more details.

    Args:
        host (Optional[TEncodable]): The host of the target replica (requires port).
        port (Optional[int]): The port of the target replica (requires host).
        force (bool): If True, forces failover after timeout (requires host, port, and timeout_ms).
        abort (bool): If True, aborts an ongoing failover.
        timeout_ms (Optional[int]): Timeout in milliseconds.

    Returns:
        TOK: A simple OK response.

    Examples:
        >>> await client.failover()
            OK
        >>> await client.failover(abort=True)
            OK
        >>> await client.failover(host="localhost", port=6380, timeout_ms=1000)
            OK
    """
    args: List[TEncodable] = []
    if (host is None) != (port is None):
        raise ValueError("Both host and port must be provided together")
    if force and (host is None or port is None):
        raise ValueError("force requires host and port to be specified")
    if abort:
        args.append("ABORT")
    else:
        if host is not None and port is not None:
            args.extend(["TO", host, str(port)])
            if force:
                args.append("FORCE")
        if timeout_ms is not None:
            args.extend(["TIMEOUT", str(timeout_ms)])
    return cast(TOK, await self._execute_command(RequestType.FailOver, args))

replicaof(host, port) async

Makes the server a replica of the specified primary.

See valkey.io for more details.

Parameters:

Name Type Description Default
host TEncodable

The host of the primary to replicate.

required
port int

The port of the primary to replicate.

required

Returns:

Name Type Description
TOK TOK

A simple OK response.

Examples:

>>> await client.replicaof("localhost", 6379)
    OK
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def replicaof(self, host: TEncodable, port: int) -> TOK:
    """
    Makes the server a replica of the specified primary.

    See [valkey.io](https://valkey.io/commands/replicaof/) for more details.

    Args:
        host (TEncodable): The host of the primary to replicate.
        port (int): The port of the primary to replicate.

    Returns:
        TOK: A simple OK response.

    Examples:
        >>> await client.replicaof("localhost", 6379)
            OK
    """
    return cast(
        TOK, await self._execute_command(RequestType.ReplicaOf, [host, str(port)])
    )

replicaof_no_one() async

Promotes the current server to a primary by stopping replication.

See valkey.io for more details.

Returns:

Name Type Description
TOK TOK

A simple OK response.

Examples:

>>> await client.replicaof_no_one()
    OK
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def replicaof_no_one(self) -> TOK:
    """
    Promotes the current server to a primary by stopping replication.

    See [valkey.io](https://valkey.io/commands/replicaof/) for more details.

    Returns:
        TOK: A simple OK response.

    Examples:
        >>> await client.replicaof_no_one()
            OK
    """
    return cast(
        TOK, await self._execute_command(RequestType.ReplicaOf, ["NO", "ONE"])
    )

migrate(host, port, keys, destination_db, timeout, options=None) async

Atomically transfers one or more keys from a source Valkey instance to a destination Valkey instance. On success, the key(s) are deleted from the source instance. Pass a list to migrate multiple keys in one command.

See valkey.io for details.

Parameters:

Name Type Description Default
host str

The host of the destination Valkey instance.

required
port int

The port of the destination Valkey instance.

required
keys Union[TEncodable, List[TEncodable]]

The key or list of keys to migrate.

required
destination_db int

The database index on the destination instance.

required
timeout int

The maximum idle time in milliseconds for the bulk-transfer.

required
options Optional[MigrateOptions]

Additional migration options.

None

Returns:

Name Type Description
str str

"OK" on success, or "NOKEY" if no keys were found.

Examples:

>>> await client.migrate("127.0.0.1", 6380, "mykey", 0, 5000)
>>> await client.migrate("127.0.0.1", 6380, ["key1", "key2"], 0, 5000)
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def migrate(
    self,
    host: str,
    port: int,
    keys: Union[TEncodable, List[TEncodable]],
    destination_db: int,
    timeout: int,
    options: Optional[MigrateOptions] = None,
) -> str:
    """
    Atomically transfers one or more keys from a source Valkey instance to a destination
    Valkey instance. On success, the key(s) are deleted from the source instance.
    Pass a list to migrate multiple keys in one command.

    See [valkey.io](https://valkey.io/commands/migrate/) for details.

    Args:
        host (str): The host of the destination Valkey instance.
        port (int): The port of the destination Valkey instance.
        keys (Union[TEncodable, List[TEncodable]]): The key or list of keys to migrate.
        destination_db (int): The database index on the destination instance.
        timeout (int): The maximum idle time in milliseconds for the bulk-transfer.
        options (Optional[MigrateOptions]): Additional migration options.

    Returns:
        str: "OK" on success, or "NOKEY" if no keys were found.

    Examples:
        >>> await client.migrate("127.0.0.1", 6380, "mykey", 0, 5000)
        >>> await client.migrate("127.0.0.1", 6380, ["key1", "key2"], 0, 5000)
    """
    if isinstance(keys, list):
        if len(keys) == 0:
            raise ValueError("migrate: 'keys' list must not be empty")
        args: List[TEncodable] = [
            host,
            str(port),
            "",
            str(destination_db),
            str(timeout),
        ]
        if options:
            args.extend(options.to_args())
        args += ["KEYS"] + list(keys)
    else:
        args = [host, str(port), keys, str(destination_db), str(timeout)]
        if options:
            args.extend(options.to_args())
    return cast(
        str,
        await self._execute_command(RequestType.Migrate, args),
    )

memory_doctor() async

Returns a report about memory problems detected by the server.

See valkey.io for details.

Returns:

Name Type Description
str str

The memory diagnostic report.

Examples:

>>> report = await client.memory_doctor()
>>> print("Memory report:", report)
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def memory_doctor(self) -> str:
    """
    Returns a report about memory problems detected by the server.

    See [valkey.io](https://valkey.io/commands/memory-doctor/) for details.

    Returns:
        str: The memory diagnostic report.

    Examples:
        >>> report = await client.memory_doctor()
        >>> print("Memory report:", report)
    """
    response = await self._execute_command(RequestType.MemoryDoctor, [])
    return cast(bytes, response).decode()

memory_malloc_stats() async

Returns the internal statistics of the memory allocator.

See valkey.io for details.

Returns:

Name Type Description
str str

The memory allocator statistics.

Examples:

>>> report = await client.memory_malloc_stats()
>>> print("Allocator stats:", report)
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def memory_malloc_stats(self) -> str:
    """
    Returns the internal statistics of the memory allocator.

    See [valkey.io](https://valkey.io/commands/memory-malloc-stats/) for details.

    Returns:
        str: The memory allocator statistics.

    Examples:
        >>> report = await client.memory_malloc_stats()
        >>> print("Allocator stats:", report)
    """
    response = await self._execute_command(RequestType.MemoryMallocStats, [])
    return cast(bytes, response).decode()

memory_purge() async

Asks the server to reclaim memory from the allocator back to the operating system.

See valkey.io for details.

Returns:

Name Type Description
TOK TOK

A simple "OK" response.

Examples:

>>> await client.memory_purge()
    "OK"
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def memory_purge(self) -> TOK:
    """
    Asks the server to reclaim memory from the allocator back to the operating system.

    See [valkey.io](https://valkey.io/commands/memory-purge/) for details.

    Returns:
        TOK: A simple "OK" response.

    Examples:
        >>> await client.memory_purge()
            "OK"
    """
    return cast(TOK, await self._execute_command(RequestType.MemoryPurge, []))

memory_stats() async

Returns detailed memory consumption statistics of the server.

See valkey.io for details.

Returns:

Name Type Description
MemoryStats MemoryStats

A MemoryStats object containing detailed memory usage statistics.

Examples:

>>> stats = await client.memory_stats()
>>> print(f"Peak allocated: {stats.peak_allocated}")
>>> print(f"Total allocated: {stats.total_allocated}")
Source code in doc-gen/valkey-glide/python/glide-async/python/glide/async_commands/standalone_commands.py
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async def memory_stats(self) -> MemoryStats:
    """
    Returns detailed memory consumption statistics of the server.

    See [valkey.io](https://valkey.io/commands/memory-stats/) for details.

    Returns:
        MemoryStats: A ``MemoryStats`` object containing detailed memory usage
            statistics.

    Examples:
        >>> stats = await client.memory_stats()
        >>> print(f"Peak allocated: {stats.peak_allocated}")
        >>> print(f"Total allocated: {stats.total_allocated}")
    """
    return _parse_memory_stats(
        cast(
            Mapping,
            await self._execute_command(RequestType.MemoryStats, []),
        ),
    )