This topic describes how the Optimizely Feature Experimentation Python SDK uses the event processor to batch impressions and conversion events into a single payload before sending it to Optimizely.
The Optimizely Feature Experimentation Python SDK lets you batch events and includes options to set a maximum batch size and flush interval timeout. The benefit of event batching means less network traffic for the same number of decision and conversion events tracked.
By default, event batching is disabled in Python SDK 3.3.0. Follow along to learn how to take advantage of event batching in the Python SDK.
Event batching works with both out-of-the-box and custom event dispatchers.
Make sure that you are not sending personally identifiable information (PII) to Optimizely Feature Experimentation. The event batching process does not remove PII from events.
Configure event batching
Event batching can be enabled through the usage of
BatchEventProcessor. We provide two main options to configure event batching:
flush_interval. You can pass in both these options when creating instance of
BatchEventProcessor and pass the created instance during Optimizely client creation. When using
BatchEventProcessor, events are held in a queue until either:
- The number of events reaches the defined
- The oldest event has been in the queue for longer than the defined
flush_interval, which is specified in seconds. The queue is then flushed and all queued events are sent to Optimizely Feature Experimentation in a single network request.
- A new datafile revision is received. This occurs only when live datafile updates are enabled.
from optimizely import optimizely from optimizely import event_dispatcher as optimizely_event_dispatcher from optimizely.event import event_processor # Set event dispatcher that the # You can reference your own implementation of event dispatcher here event_dispatcher = optimizely_event_dispatcher.EventDispatcher # Create instance of BatchEventProcessor. # # In this example here we set batch size to 15 events # and flush interval to 50 seconds. # Setting start_on_init starts the consumer # thread to start receiving events. # # See table below for explanation of these # and other configuration options. batch_processor = event_processor.BatchEventProcessor( event_dispatcher, batch_size=15, flush_interval=50 start_on_init=True, ) # Create Optimizely client and pass in instance # of BatchEventProcessor to enable batching. optimizely_client = optimizely.Optimizely( sdk_key='<Your SDK Key here>', datafile='<Your datafile here>', event_processor=batch_processor )
The table below defines these and other options that you can use to configure the BatchEventProcessor.
|event_dispatcher||No default value. Required parameter.||An event handler to manage network calls.|
|NoOpLogger||A logger implementation to log issues.|
|30||The maximum duration in seconds that an event can exist in the queue before being flushed.|
|10||The maximum number of events to hold in the queue. Once this number is reached, all queued events are flushed and sent to Optimizely Feature Experimentation.|
|False||Boolean, which, if set to true starts the thread consuming and queuing events on initializing the |
By default, the value is False, so the consumer thread is not ready to receive any events. One can always start the consumer thread by calling
|5||The number representing time interval in seconds before joining the consumer thread.|
|six.moves.queue.Queue||Component that allows you to accumulate events until they are dispatched.|
|NotificationCenter||Instance of |
By default an instance of
For more information, see Initialize SDK.
The maximum payload size is 3.5 MB. If the resulting batch payload exceeds this limit, requests will be rejected with a 400 response code,
Bad Request Error.
The table lists other Optimizely Feature Experimentation functionality that may be triggered by using this class.
|LogEvent||Whenever the event processor produces a batch of events, a LogEvent object will be created using the EventFactory.|
It contains batch of conversion and decision events.
This object will be dispatched using the provided event dispatcher and also it will be sent to the notification subscribers.
|Notification Listeners||Flush invokes the LOG_EVENT notification listener if this listener is subscribed to.|
Registering LogEvent listener
To register a LogEvent notification listener
def on_log_event(): pass optimizely_client.notification_center.add_notification_listener(enums.NotificationTypes.LOG_EVENT, on_log_event)
LogEvent object gets created using EventFactory. It represents the batch of decision and conversion events we send to the Optimizely Feature Experimentation backend.
Required (non null)
|String||The HTTP verb to use when dispatching the log event. It can be Get or Post.|
Required (non null)
|String||URL to dispatch log event to.|
Required (non null)
|Dict||Event Batch. It contains all the information regarding every event which is batched. including list of visitors which contains UserEvent.|
Stop BatchEventProcessor on application exit
If you enable event batching, you must call the 'stop' method,
batch_processor.stop(), before exiting. This ensures that queued events are flushed as soon as possible to avoid data loss.
Because the BatchEventProcessor maintains a buffer of queued events, you must call
stop()on the BatchEventProcessor instance before shutting down your application.
|stop()||Stops and flushes the event queue.|
Note: We recommend that you connect this method to a kill signal for the running process.
Updated about 1 month ago