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HPIT (Hyper-Personalized Intelligent Tutor) Python Client Libraries

What is HPIT?

HPIT is a collection of machine learning and data management plugins for Intelligent Tutoring Systems. It is being developed through a partnership with Carnegie Learning and TutorGen, Inc and is based on the most recent research available.The goal of HPIT is to provide a scalable platform for the future development of intelligent tutoring systems, and an architecture that can accommodate both cognitive and non-cognitive factors in student modeling. HPIT by default consists of several different plugins which users can store, track, and query for information. As of today we support Bayesian Knowledge Tracing, Model Tracing, Adaptive Hint Generation, and data storage and retrieval. HPIT is in active development and should be considered unstable for everyday use.

Installing the client libraries

  1. To install the client libraries make sure you are using the most recent version of Python 3.4.

    • On Ubuntu: sudo apt-get install python3 python-virtualenv
    • On Mac w/ Homebrew: brew install python3 pyenv-virtualenv
  2. Setup a virtual environment: virtualenv -p python3 env

  3. Active the virtual environment: source env/bin/activate

  4. Install the HPIT client libraries:

    1. First, clone the repository at https://github.com/tutorgen/HPIT-python-client.git.
    2. Run 'python setup.py install'

Running the test suite.

  1. Activate the virtual environment: source env/bin/activate
  2. Install the testing requirements: pip3 install -r test_requirements.txt
  3. Run the nose tests runner: nosetests

Registering with HPIT

Go to https://www.hpit-project.org/user/register and create a new account.

Settings

There are various settings which change the behavior of the client side libraries.

name default description
HPIT_URL_ROOT 'https://www.hpit-project.org' The URL of the HPIT server.
REQUESTS_LOG_LEVEL 'debug' The logging level of the requests library.

To override the clientside settings in your app do the following. You will need to override the HPIT URL if you are doing any local testing.

    from hpitclient.settings import HpitClientSettings
    settings = HpitClientSettings.settings()
    settings.HPIT_URL_ROOT = 'http://127.0.0.1:8000'

Plugins

Tutorial: Creating a Plugin

To create a new plugin, first go https://www.hpit-project.org and log in. Then click on "My Plugins" and add a new plugin. Give it a brief name and a description. Click Submit. The next page will generate two items you will need to connect to the centralized HPIT router. Copy and securly store the Entity ID and API Key An Entity ID and an API Key. We do not store API Keys on the server so if you lose it you will need to generate a new one.

To create a new plugin you'll need to derive from the Plugin class.

from hpitclient import Plugin

class MyPlugin(Plugin):

    def __init__(self):
        entity_id = 'YOUR_PLUGIN_ENTITY_ID' #eg. b417e82d-4153-4f87-8a11-8bb5c6bfaa00
        api_key = 'YOUR_PLUGIN_API_KEY' #eg. ae29bd1b81a6064061eca875a8ff0a8d

        #Call the parent class's init function
        super().__init__(entity_id, api_key)

Calling the start method on the plugin will connect it to the server.

my_plugin = MyPlugin()
my_plugin.start()

Plugins are event driven. The start method connects to the server then starts an endless loop. There are several hooks that can be called in this process. One of these hooks is the post_connect hook and id called after successfully connecting to the server. This is where you can register the messages you want your plugin to listen for, and the callback functions it should employ when your plugin receives a message of that type.

Let's define one now:

from hpitclient import Plugin

class MyPlugin(Plugin):

    def __init__(self):
        ...

    def post_connect(self):
        super().post_connect()

        #Subscribe to a message called 'echo'
        self.subscribe(echo=self.my_echo_callback)

    def my_echo_callback(self, message):
        print(message['echo_text'])

The self.subscribe method takes a message name and a callback. In this case echo is the message name and self.my_echo_callback is the callback that will be used when a message named 'echo' is sent to the plugin. It then contacts the HPIT central router and tells it to start storing messages with that name of echo so this plugin can listen to and respond to those messages.

A message in HPIT consists of a message name, in this case echo, and a payload. The payload can have any arbitrary data in it that a tutor wishes to send. The payload is determined by the Tutor, and the HPIT router doesn't care what data is in the payload. It is up to the plugin to parse and validate the payload. Plugin developers should document what messages their plugins receive and what data types and values the payload should contain.

If a tutor sends a message like "echo" -> {'echo_text' : "Hello World!"} through HPIT, this plugin will receive that message and print it to the screen. If 'echo_text' isn't in the payload the callback would throw a KeyError exception, which in practice, should be handled.

from hpitclient import Plugin

class MyPlugin(Plugin):

    def __init__(self):
        ...

    def post_connect(self):
        ...

    def my_echo_callback(self, message):
        if 'echo_text' in message:
            print(message['echo_text'])

In the inner loop of the start method a few things happen. The plugin asks the HPIT router server if any messages that it wants to listen to are queued to be sent to the plugin. Then if it receives new messages it dispatches them to the assigned callbacks that were specified in your calls to self.subscribe

Plugins can also send responses back to the original sender of messages. To do so the plugin needs to call the self.send_response function. All payloads come with the message_id specified so we can route responses appropriately. To send a response we'll need to slightly modify our code a bit.

from hpitclient import Plugin

class MyPlugin(Plugin):

    def __init__(self):
        ...

    def post_connect(self):
        ...

    def my_echo_callback(self, message):
        if 'echo_text' in message:
            #Print the echo message
            print(message['echo_text'])

            #Send a response to the message sender 
            my_response = {
                'echo_response': message['echo_text']
            }
            self.send_response(message['message_id'], my_response)

The original tutor or plugin who sent this message to MyPlugin will get a response back with the echo_response parameter sent back.

Just like tutors, plugins can also send messages to other plugins through HPIT. It is possible to "daisy chain" plugins together this way where you have a tutor send a message, which gets sent to a plugin (A), which queries another plugin for information (B), which does the same for another plugin (C), which sends back a response to plugin B, which responds to plugin A, which responds to the original Tutor.

The goal with this is that each plugin can handle a very small task, like storing information, do some logging, update a decision tree, update a knowledge graph, or etc, etc. The possibilities are endless.

Our plugin all put together now looks like:

from hpitclient import Plugin

class MyPlugin(Plugin):

    def __init__(self):
        entity_id = 'YOUR_PLUGIN_ENTITY_ID' #eg. b417e82d-4153-4f87-8a11-8bb5c6bfaa00
        api_key = 'YOUR_PLUGIN_API_KEY' #eg. ae29bd1b81a6064061eca875a8ff0a8d

        #Call the parent class's init function
        super().__init__(entity_id, api_key)

    def post_connect(self):
        super().post_connect()

        #Subscribe to a message called 'echo'
        self.subscribe(echo=self.my_echo_callback)

    def my_echo_callback(self, message):
        if 'echo_text' in message:
            #Print the echo message
            print(message['echo_text'])

            #Send a response to the message sender 
            my_response = {
                'echo_response': message['echo_text']
            }
            self.send_response(message['message_id'], my_response)


if __name__ == '__main__':
    my_plugin = MyPlugin()
    my_plugin.start()

Plugin Hooks

There are several hooks throughout the main event loop, where you can handle some special cases. The only hook that MUST be defined in a plugin is the post_connect hook. It is where you should define the messages and handlers that the plugin to listen and possibly respond to.

To stop the plugin from running you can either send a SIGTERM or SIGKILL signal to it eg. (sudo kill -9 plugin_process_id), OR you can press CTRL+C, OR you can return False from a hook. A signal, control+c, and returning False from a hook are considered graceful by the library and not only will the plugin terminate, it will send a disconnect message to the server, which will destroy the authentication session with the server, and the HPIT server will continue storing messages for you to retrieve later.

Disconnecting from the HPIT server will not cause HPIT to forget about you; it will continue storing messages for you which you can receive the next time you run your plugin.

If you want HPIT to stop storing and routing messages to you, you can call the 'self.unsubscribe' method after connecting to HPIT. A good place to do this is in the pre_disconnect hook.

from hpitclient import Plugin

class MyPlugin(Plugin):

    def __init__(self):
        pass

    def post_connect(self):
        super().post_connect()

        #Subscribe to a message called 'echo'
        self.subscribe(echo=self.my_echo_callback)

    def pre_disconnect(self):
        #Unsubscribe to the 'echo' message
        self.unsubscribe('echo')

Here are some other places you can hook into the event loop. Returning False from any of them, will cause the event loop to terminate.

Hook Name Called When:
pre_connect Before the plugin connects and authenticates with the server.
post_connect After the plugin connects and authenticates with the server.
pre_disconnect Before the plugin disconnects from the server.
post_disconnect After the plugin disconnects from the server. (Right before exit)
pre_poll_messages Before the plugin polls the server for new messages.
post_poll_messages After the plugin polls the server for new messages but before dispatch.
pre_dispatch_messages Before the messages are dispatched to their callbacks.
post_dispatch_messages After the messages are dispatched to their callbacks.
pre_handle_transactions Before the plugin polls the server for new PSLC Datashop transactions.
post_handle_transcations After the plugin polls the server for new PSLC Datashop transactions.
pre_poll_responses Before the plugin polls the server for new responses to it's messages.
post_poll_responses After the plugin polls the server for new responses but before dispatch.
pre_dispatch_responses Before the plugin dispatches it's responses to response callbacks.
post_dispatch_responses After the plugin dispatches it's responses to response callbacks.

Tutors

Tutorial: Creating a Tutor

To create a new tutor, first go https://www.hpit-project.org and log in. Then click on "My Tutors" and add a new tutor. Give it a brief name and a description. Click Submit. The next page will generate for you two items you'll need to us to connect to the centralized HPIT router. Copy the Entity ID and API Key in a local, secure place. We do not store API Keys on the server, so if you lose it, you'll need to generate a new one.

To create a new tutor you'll need to derive from the Tutor class.

from hpitclient import Tutor

class MyTutor(Tutor):

    def __init__(self):
        entity_id = 'YOUR_PLUGIN_ENTITY_ID' #eg. b417e82d-4153-4f87-8a11-8bb5c6bfaa00
        api_key = 'YOUR_PLUGIN_API_KEY' #eg. ae29bd1b81a6064061eca875a8ff0a8d

        super().__init__(entity_id, api_key, self.main_callback)

    def main_callback(self):
        print("Main Callback Loop")
        response = self.send('echo', {'test': 1234})

Tutors differ from plugins in one major way, in their main event loop they call a callback function which will be called during each iteration of the main event loop. This callback is specified in a parameter in the init function. After calling the main callback function, the main event loop then polls HPIT for responses from plugins which you have sent messages to earlier.

To send a message to HPIT and have that message routed to a specific plugin you can call the self.send method as we do above. Messages sent this way consist of an event name (in this case 'echo') and a dictionary of data. Optionally you can specify a response callback as we do below. All messages sent through HPIT are multicast and every plugin which 'subscribes' to those messages will receive them, including the echo plugin you created and registered with HPIT in the last tutorial.

class MyTutor(Tutor):
    ...

    def main_callback(self):
        response = self.send('echo', {'test': 1234}, self.response_callback)

    def response_callback(self, response):
        print(str(response))

When you send a message to HPIT you can specify a response callback to the send method. After the message is received and processed by a plugin, it may optionally send a response back. If it does the response will travel back through HPIT, where when polled by this library, will route that response to the callback you specified. You can then process the response however you would like in your Tutor. Here, we are just echoing the response back to the console. Responses you recive will be a dictionary consisting of the following key-value pairs.

Key (. denotes sub-dictionary) Value
message_id The ID generated to track the message.
message.sender_entity_id Your Entity ID.
message.receiver_entity_id The Plugin's Entity ID that is responding to your message.
message.time_created The time HPIT first received your message.
message.time_received The time HPIT queued the message for the plugin to consume.
message.time_responded The time HPIT received a response from the plugin.
message.time_response_received The time HPIT sent the response back to your tutor.
message.payload What you originally sent to HPIT.
message.message_name What you named the message.
response A dictionary of values the Plugin responded to the message with.

Since multiple plugins may respond to the same message that you sent out, you may wish to check the contents of the response payload, as well as the message.receiver_entity_id to help filter the responses you actually want to handle. You can specify different callbacks for the same message, as well as a "global" callback for one message. For example both:

class mytutor(tutor):
    ...

    def main_callback(self):
        response = self.send('echo', {'test': 1234}, self.response_callback)
        response = self.send('echo_two', {'test': 1234}, self.response_callback)

    def response_callback(self, response):
        print(str(response))

AND

class mytutor(tutor):
    ...

    def main_callback(self):
        response = self.send('echo', {'test': 1234}, self.response_callback)
        response = self.send('echo', {'test': 1234}, self.response_callback_two)

    def response_callback(self, response):
        print(str(response))

    def response_callback_two(self, response):
        logger.log(str(response))

are valid ways to handle responses from plugins.

A Note about Transactions

In HPIT, a transaction is supposed to be the smallest unit of interaction a student has with a tutor. The PSLC datashop uses transactions in its analysis of learning; it is the most fine grained representation of a student's skill set. Transactions can be generated by the student, like a key being pressed or an answer selected, or by the tutor, as in the tutor tells HPIT that the student was correct in answering a question.

For a Tutor, to utilize transactions, developers should make use of the send_transaction() method, which functions similarly to the send() method, except it issues a special "transaction" message to HPIT.

For a Plugin, they must specifically set a transaction callback using register_transaction_callback(), which also subscribes a tutor to transaction messages.

Active Plugins in Production

Currently, there are several active plugins on HPIT's production servers which you can query for information. These include: knowledge tracing plugin; hint factory plugin; boredom detector plugin; student manager plugin. The knowledge tracing plugin is responsible for handling Bayesian knowledge tracing, the hint factory handles domain model generation and hint generation, the boredom detector plugin provides either a boredom indicator (true/false) or boredom percentage indicator, and the student manager plugin allows for setting and retrieving any standard or custom student attributes.

Documentation on these plugins are available from https://www.hpit-project.org/docs

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