ReferenceControlSequence Basics

Control Sequence Basics

The Synnax Python Client’s control module makes it easy to write automated sequences to control your hardware. The Synnax team focuses on making this module as simple as possible - this page will guide you through the process of writing your first control sequence.

Prerequisites

Before you can start writing control sequences, you’ll need to have:

Opening a Controller

The Controller class is the main entry point for writing control sequences. At the start of your script, you’ll need to open a controller using the control.acquire method on the Synnax client. This is best done using a context manager, as shown below:

import synnax as sy

# Open the client 
client = sy.Synnax()

# Open the controller
with client.control.acquire(
    read=["temperature", "daq_do_1_state"],
    write=["daq_do_1_cmd"]
    write_authorities=[sy.Authority.ABSOLUTE]
) as controller:
    # Your control sequence here

The acquire method takes a few arguments:

ArgumentDescription
readA list of channels that your control sequence will need to read from. Any channels not present in this list will not be available to your control sequence.
writeA list of channels that your sequence needs control over. Any channels not in this list cannot be commanded
write_authoritiesAn optional authority or list of authorities for the channels you’re writing to. These are numbers between 0 and 255 that define the precedence of your sequence over other sequences that may be running. If you don’t provide this argument, the default authority takes absolute control (255). More on authorities later.

Commanding a Channel

The simplest way to command a channel is to access it as a dictionary key on the controller and assign a value to it.

with client.control.acquire(
    read=["pressure_1", "daq_do_1_state"],
    write=["daq_do_1_cmd"]
    write_authorities=[sy.Authority.ABSOLUTE]
) as controller:
    # Set a 1 on the digital output channel
    controller["daq_do_1_cmd"] = 1

Synnax will also automatically handle the conversion of values to the correct type for the channel, so a True value will be converted to 1 for a digital output channel:

controller["daq_do_1_cmd"] = True

When commanding multiple channels, you can use multiple assignments:

controller["daq_do_1_cmd"] = 1
controller["daq_do_2_cmd"] = 0

The controller will send each of these commands to the hardware in sequence. If you’d like to send multiple commands at once, you can use the set method:

controller.set({
    "daq_do_1_cmd": True,
    "daq_do_2_cmd": False,
})

Waiting for a Condition

The wait_until method allows you to wait for a condition to be met before continuing. This method accepts a function that takes in the current sensor values and returns a boolean.

Lambda Expressions

We recommend relying on lambda expressions to keep your code simple. A lambda expression is a simple way to define a function in one line. Here’s an example of a function that returns True if the pressure sensor value is above 25:

# This function returns True if the pressure sensor value is above 25
def temperature_above_25(sensor_values):
    return sensor_values["pressure_1"] > 25

# This is the same function as a lambda expression
temperature_above_25 = lambda sensor_values: sensor_values["pressure_1"] > 25

In future examples, we’ll use sv as a shorthand for sensor_values to keep the code concise. Here’s how you can use a similar lambda expression with the wait_until method:

with client.control.acquire(
    read=["pressure_1", "daq_do_1_state"],
    write=["daq_do_1_cmd"]
    write_authorities=[sy.Authority.ABSOLUTE]
) as controller:
    # Wait until the pressure sensor value is above 25
    controller.wait_until(lambda sv: sv["pressure_1"] > 25)

Adding a Timeout

The wait_until method will continuously check the condition on every new value until it returns True. If you’d like to add a timeout to the wait, you can pass in a timeout argument:

controller.wait_until(lambda sv: sv["pressure_1"] > 25, timeout=10)

You can check whether a condition timed out by checking the return value of the wait_until method:

timed_out = controller.wait_until(lambda sv: sv["pressure_1"] > 25, timeout=10)
if timed_out:
    print("The condition timed out")

Blocking While a Condition is True

The wait_while method allows you to block the control sequence until a condition is no longer true. This method is useful for waiting for a sensor value to reach a certain point before continuing. Here’s an example of how you can use the wait_while method:

with client.control.acquire(
    read=["pressure_1", "daq_do_1_state"],
    write=["daq_do_1_cmd"]
    write_authorities=[sy.Authority.ABSOLUTE]
) as controller:
    # Wait until the pressure sensor value is above 25
    controller.wait_while(lambda sv: sv["pressure_1"] < 25)

In many ways, you can think of the wait_while method as the opposite of the wait_until method.

Asserting a Condition Remains True

The remains_true_for method allows you to assert that a condition remains true for a certain duration. This method is useful for ensuring that a sensor value remains within a certain range for a period of time. Here’s an example of how you can use the remains_true_for method:

with client.control.acquire(
    read=["pressure_1", "daq_do_1_state"],
    write=["daq_do_1_cmd"]
    write_authorities=[sy.Authority.ABSOLUTE]
) as controller:
    # Assert that the pressure sensor value remains above 25 for 10 seconds
    controller.remains_true_for(lambda sv: sv["pressure_1"] > 25, duration=10)

The duration argument should be treated as a minimum duration, as the block is not guaranteed to sleep for exactly the provided duration. The actual duration may be longer due to the operating system’s scheduler. This block will not sleep for less than the provided duration unless the condition is no longer true.

Remains True for a Certain Percentage of Samples

The remains_true_for method also accepts a percentage argument, which is a decimal value that allows you to specify the percentage of samples that must meet the condition. This is useful for ensuring that a sensor value remains within a certain range for at least a certain percentage of the duration. Here’s an example of how you can use the percentage argument:

with client.control.acquire(
    read=["pressure_1", "daq_do_1_state"],
    write=["daq_do_1_cmd"]
    write_authorities=[sy.Authority.ABSOLUTE]
) as controller:
    # Assert that the pressure sensor value remains above 25 for 10 seconds
    # for at least 90% of the samples
    controller.remains_true_for(
        lambda sv: sv["pressure_1"] > 25, 
        duration=10, 
        percentage=0.9
    )