Creating an Adapter

This tutorial shows how to create a simple Adapter for use in the ticket framework. This adapter will act as a simple TCP interface to the Shutter device which can vary the transmission of flux by changing position. The Adapter we create will be composable, meaning it will comprise of a pre-made Server and Interpreter.

See also

See the Creating a Device tutorial for a walk-through of creating the Shutter device.

Adapter Module File

We shall begin by creating a new python module named my_shutter_adapter.py, and open it with our preferred editor. This file will be used to store the our ShutterAdapter class which will determine the operation of our adapter.

Adapter Class

We shall begin by defining the ShutterAdapter class which inherits ConfigurableAdapter - by doing so a configuration dataclass will automatically be created for the adapter, allowing easy YAML configuration.

from tickit.adapters.composed import ComposedAdapter
from tickit.core.adapter import ConfigurableAdapter

class ShutterAdapter(ComposedAdapter, ConfigurableAdapter):

Adapter Constructor and Configuration

Next, we shall create the __init__ method, allowing for the adapter to be instantiated. The first two arguments of an adapter __init__ must be device of type Device and raise_interrupt of type Callable[[], Awaitable[None]], to which the device the adapter acts upon and a method used to request an immediate update of the device are passed respectively. Additionally, we will include the arguments host and port which will be used to configure our TcpServer. With these we will instantiate a composed adapter with a TcpServer which formats sent messages by appending a line break and a CommandInterpreter.

from typing import Awaitable, Callable

from tickit.adapters.composed import ComposedAdapter
from tickit.adapters.interpreters.command.command_interpreter import CommandInterpreter
from tickit.adapters.servers.tcp import TcpServer
from tickit.core.adapter import ConfigurableAdapter

class ShutterAdapter(ComposedAdapter, ConfigurableAdapter):
    def __init__(
        self,
        device: Shutter,
        raise_interrupt: Callable[[], Awaitable[None]],
        host: str = "localhost",
        port: int = 25565,
    ) -> None:
        super().__init__(
            device,
            raise_interrupt,
            TcpServer(host, port, ByteFormat(b"%b\r\n")),
            CommandInterpreter(),
        )

Note

Arguments to the __init__ method may be specified in the simulation config file if the device inherits ConfigurableAdapter (excluding device and raise_interrupt which are injected at run-time).

Adapter Commands

When using the CommandInterpreter, commands may be registered by decorating an adapter method with a command register. We shall begin by creating a method which returns the current position of the Shutter and register it as a RegexCommand which is called by sending P?. Since reading will not alter the device state we shall set interrupt to False. We shall also specify that the byte encoded message should be decoded to a string prior to matching using the utf-8 standard.

from tickit.adapters.composed import ComposedAdapter
from tickit.adapters.interpreters.command.regex_command import RegexCommand
from tickit.core.adapter import ConfigurableAdapter

class ShutterAdapter(ComposedAdapter, ConfigurableAdapter):

    ...

    @RegexCommand(r"P\?", False, "utf-8")
    async def get_position(self) -> bytes:
        return str(self._device.position).encode("utf-8")

We shall add a similar command to read back the current target position of the Shutter when T? is recieved.

from tickit.adapters.composed import ComposedAdapter
from tickit.adapters.interpreters.command.regex_command import RegexCommand
from tickit.core.adapter import ConfigurableAdapter

class ShutterAdapter(ComposedAdapter, ConfigurableAdapter):

    ...

    @RegexCommand(r"T\?", False, "utf-8")
    async def get_target(self) -> bytes:
        return str(self._device.target_position).encode("utf-8")

Next, we shall add a method which sets a new target position for the Shutter when T=(\d+\.?\d*) is recieved, where \d+\.?\d* denotes a decimal number and the parentheses form the capture group from which the argument is extracted.

from tickit.adapters.composed import ComposedAdapter
from tickit.adapters.interpreters.command.regex_command import RegexCommand
from tickit.core.adapter import ConfigurableAdapter

class ShutterAdapter(ComposedAdapter, ConfigurableAdapter):

    ...

    @RegexCommand(r"T=(\d+\.?\d*)", True, "utf-8")
    async def set_target(self, target: str) -> None:
        self._device.target_position = float(target)
        self._device.last_time = None

Using the Adapter

In order to use the device we must first create a simulation configuration file, we shall create one named my_shutter_simulation.yaml, and open it with our preferred editor. This file will be used to set up a simulation consisting of a Source named source which will produce a constant flux, the shutter which will act on the flux as per our implementation, and a Sink named sink which will recieve the resulting flux. The shutter will be given a ShutterAdapter which uses the default configuration for host and port.

- tickit.core.components.device_simulation.DeviceSimulation:
    adapters: []
    device:
      tickit.devices.source.Source:
        value: 42.0
    inputs: {}
    name: source
- tickit.core.components.device_simulation.DeviceSimulation:
    adapters:
    - examples.devices.shutter.ShutterAdapter: {}
    device:
      examples.devices.shutter.Shutter:
        default_position: 0.2
        initial_position: 0.24
    inputs:
      flux: source:value
    name: shutter
- tickit.core.components.device_simulation.DeviceSimulation:
    adapters: []
    device:
      tickit.devices.sink.Sink: {}
    inputs:
      flux: shutter:flux
    name: sink

See also

See the Creating a Simulation tutorial for a walk-through of creating simulation configurations.

We may then run the simulation, this may be performed by running the following command:

python -m tickit all my_shutter_simulation.yaml

Additionally, we will start a telnet client which communicates with the TcpServer of the adapter, this may be performed by running the following command:

telnet localhost 25565

When run we expect a response akin to:

Trying ::1...
Connected to localhost.
Escape character is \'^]\'.

From this telnet client we can send various messages and recieve responses from our adapter. Examples of getting the position and target with P? and T? are shown below:

P?
0.2

T?
0.2

Finally, we may wish to set a new target with T=, an example of this with the value 0.16 is shown below, with accompanying tickit debug output:

T=0.16

DEBUG:tickit.adapters.servers.tcp:Recieved b'T=0.16\r\n' from ('::1', 33096, 0, 0)
DEBUG:tickit.core.management.schedulers.base:Scheduler got Interrupt(source='shutter')
DEBUG:tickit.core.management.schedulers.base:Scheduling Wakeup(component='shutter', when=209786950024)
DEBUG:tickit.core.management.ticker:Doing tick @ 209786950024
DEBUG:tickit.core.components.component:shutter got Input(target='shutter', time=209786950024, changes=immutables.Map({}))
DEBUG:tickit.core.management.schedulers.base:Scheduler got Output(source='shutter', time=209786950024, changes=immutables.Map({}), call_in=100000000)
DEBUG:tickit.core.management.schedulers.base:Scheduling Wakeup(component='shutter', when=209886950024)
DEBUG:tickit.core.components.component:sink got Input(target='sink', time=209786950024, changes=immutables.Map({}))
DEBUG:tickit.devices.sink:Sunk {'flux': 8.4}
DEBUG:tickit.core.management.schedulers.base:Scheduler got Output(source='sink', time=209786950024, changes=immutables.Map({}), call_in=None)
DEBUG:tickit.core.management.ticker:Doing tick @ 209886950024
DEBUG:tickit.core.components.component:shutter got Input(target='shutter', time=209886950024, changes=immutables.Map({}))
DEBUG:tickit.core.management.schedulers.base:Scheduler got Output(source='shutter', time=209886950024, changes=immutables.Map({'flux': 7.5600000000000005}), call_in=100000000)
DEBUG:tickit.core.management.schedulers.base:Scheduling Wakeup(component='shutter', when=209986950024)
DEBUG:tickit.core.components.component:sink got Input(target='sink', time=209886950024, changes=immutables.Map({'flux': 7.5600000000000005}))
DEBUG:tickit.devices.sink:Sunk {'flux': 7.5600000000000005}
DEBUG:tickit.core.management.schedulers.base:Scheduler got Output(source='sink', time=209886950024, changes=immutables.Map({}), call_in=None)
DEBUG:tickit.core.management.ticker:Doing tick @ 209986950024
DEBUG:tickit.core.components.component:shutter got Input(target='shutter', time=209986950024, changes=immutables.Map({}))
DEBUG:tickit.core.management.schedulers.base:Scheduler got Output(source='shutter', time=209986950024, changes=immutables.Map({'flux': 6.7200000000000015}), call_in=100000000)
DEBUG:tickit.core.management.schedulers.base:Scheduling Wakeup(component='shutter', when=210086950024)
DEBUG:tickit.core.components.component:sink got Input(target='sink', time=209986950024, changes=immutables.Map({'flux': 6.7200000000000015}))
DEBUG:tickit.devices.sink:Sunk {'flux': 6.7200000000000015}
DEBUG:tickit.core.management.schedulers.base:Scheduler got Output(source='sink', time=209986950024, changes=immutables.Map({}), call_in=None)
DEBUG:tickit.core.management.ticker:Doing tick @ 210086950024
DEBUG:tickit.core.components.component:shutter got Input(target='shutter', time=210086950024, changes=immutables.Map({}))
DEBUG:tickit.core.management.schedulers.base:Scheduler got Output(source='shutter', time=210086950024, changes=immutables.Map({'flux': 6.72}), call_in=None)
DEBUG:tickit.core.components.component:sink got Input(target='sink', time=210086950024, changes=immutables.Map({'flux': 6.72}))
DEBUG:tickit.devices.sink:Sunk {'flux': 6.72}
DEBUG:tickit.core.management.schedulers.base:Scheduler got Output(source='sink', time=210086950024, changes=immutables.Map({}), call_in=None)

See also

See the Running a Simulation tutorial for a walk-through of running a simulation in a single or across multiple processes.