Tracking events
Snowplow has been built to enable you to track a wide range of events that occur when users interact with your apps.
We provide several built-in event classes to help you track different kinds of events. When instantiated, their objects can be passed to the Snowplow.track()
method to send events to the Snowplow collector. The event classes range from single purpose ones, such as ScreenView
, to the more complex but flexible SelfDescribing
, which can be used to track any kind of user behavior. We strongly recommend using SelfDescribing
for your tracking, as it allows you to design custom event types to match your business requirements. This post on our blog, "Re-thinking the structure of event data" might be informative here.
Auto-tracked view events
There is an option to automatically track view events when currently active pages change through the Navigator API.
To activate this feature, one has to register a SnowplowObserver
retrieved from the tracker instance using SnowplowTracker.getObserver()
. The retrieved observer can be added to navigatorObservers
in MaterialApp
:
MaterialApp(
navigatorObservers: [
tracker.getObserver()
],
...
);
If using the Router
API with the MaterialApp.router
constructor, add the observer to the observers
of your Navigator
instance, e.g.:
Navigator(
observers: [tracker.getObserver()],
...
);
The SnowplowObserver
automatically tracks PageViewEvent
and ScreenView
events when the currently active ModalRoute
of the navigator changes.
By default, ScreenView
events are tracked on all platforms. In case TrackerConfiguration.webActivityTracking
is configured when creating the tracker, PageViewEvent
events will be tracked on Web instead of ScreenView
events (ScreenView
events will still be tracked on other platforms).
The SnowplowTracker.getObserver()
function takes an optional nameExtractor
function as argument which is used to extract a name from new routes that is used in tracked ScreenView
or PageViewEvent
events.
The following operations will result in tracking a view event:
Navigator.pushNamed(context, '/contact/123');
Navigator.push<void>(context, MaterialPageRoute(
settings: RouteSettings(name: '/contact/123'),
builder: (_) => ContactDetail(123)));
Navigator.pushReplacement<void>(context, MaterialPageRoute(
settings: RouteSettings(name: '/contact/123'),
builder: (_) => ContactDetail(123)));
Navigator.pop(context);
Manually-tracked events
Event classes supported by the Flutter Tracker:
Method | Event type tracked |
---|---|
SelfDescribing | Custom event based on "self-describing" JSON schema |
Structured | Semi-custom structured event |
ScreenView | View of a screen in the app |
Timing | User timing events such as how long resources take to load. |
ConsentGranted | User opting into data collection. |
ConsentWithdrawn | User withdrawing consent for data collection. |
All the methods share common features and parameters. Every type of event can have an optional context added. See the next page to learn about adding extra data to events. It's important to understand how event context works, as it is one of the most powerful Snowplow features. Adding event context is a way to add depth, richness and value to all of your events.
Snowplow events are all processed into the same format, regardless of the event type (and regardless of the tracker language used). Read about the different properties and fields of events in the Snowplow Tracker Protocol.
We will first discuss the custom event types, followed by the out-of-the-box event types. Note that you can also design and create your own page view, or screen view, using selfDescribing
, to fit your business needs better. The out-of-the-box event types are provided so you can get started with generating event data quickly.
Track self-describing events with SelfDescribing
Use the SelfDescribing
type to track a custom event. This is the most advanced and powerful tracking method, which requires a certain amount of planning and infrastructure.
Self-describing events are based around "self-describing" (self-referential) JSONs, which are a specific kind of JSON schema. A unique schema can be designed for each type of event that you want to track. This allows you to track the specific things that are important to you, in a way that is defined by you.
This is particularly useful when:
- You want to track event types which are proprietary/specific to your business
- You want to track events which have unpredictable or frequently changing properties
A self-describing JSON has two keys, schema
and data
. The schema
value should point to a valid self-describing JSON schema. They are called self-describing because the schema will specify the fields allowed in the data value. Read more about how schemas are used with Snowplow here.
After events have been collected by the event collector, they are validated to ensure that the properties match the self-describing JSONs. Mistakes (e.g. extra fields, or incorrect types) will result in events being processed as Bad Events. This means that only high-quality, valid events arrive in your data storage or real-time stream.
Your schemas must be accessible to your pipeline to allow this validation. See Managing data structures for information on how to create and update schemas.
Creating an instance of SelfDescribing
takes a schema name and a dictionary of event data.
Example (assumes that tracker
is a tracker instance created using Snowplow.createTracker
):
tracker.track(SelfDescribing(
schema: 'iglu:com.example_company/save_game/jsonschema/1-0-2',
data: {
'saveId': '4321',
'level': 23,
'difficultyLevel': 'HARD',
'dlContent': true
}
));
Track structured events with Structured
This method provides a halfway-house between tracking fully user-defined self-describing events and out-of-the box predefined events. This event type can be used to track many types of user activity, as it is somewhat customizable. "Struct" events closely mirror the structure of Google Analytics events, with "category", "action", "label", and "value" properties.
As these fields are fairly arbitrary, we recommend following the advice in this table how to define structured events. It's important to be consistent throughout the business about how each field is used.
Argument | Description | Required in event? |
---|---|---|
category | The grouping of structured events which this action belongs to | Yes |
action | Defines the type of user interaction which this event involves | Yes |
label | Often used to refer to the 'object' the action is performed on | No |
property | Describing the 'object', or the action performed on it | No |
value | Provides numerical data about the event | No |
Example:
tracker.track(Structured(
category: 'shop',
action: 'add-to-basket',
label: 'Add To Basket',
property: 'pcs',
value: 2.00,
));
Track page views with PageViewEvent
The PageViewEvent
may be used to track page views on the Web. The event is designed to track web page views and automatically captures page title, referrer and URL. Being Web-only, it is not implemented on Android and iOS where the app is not displayed as a Web page.
Page view events are the basic building blocks for the Snowplow web data model.
Track screen views with ScreenView
Use ScreenView
to track a user viewing a screen (or similar) within your app. This is the page view equivalent for apps that are not webpages. The arguments are name
, id
, type
, and transitionType
. The name
and id
properties are required. "Name" is the human-readable screen name, and "ID" should be the unique screen ID (UUID v4).
Screen view events are used in the Snowplow mobile data model. Nevertheless, the Flutter tracker also implements them on Web. You may adopt the mobile data model and choose to track screen views instead of page views on Web to provide consistent event tracking across all platforms.
This method creates an unstruct event, by creating and tracking a self-describing event. The schema ID for this is "iglu:com.snowplowanalytics.snowplow/screen_view/jsonschema/1-0-0", and the data field will contain the parameters which you provide. That schema is hosted on the schema repository Iglu Central, and so will always be available to your pipeline.
Argument | Description | Required in event? |
---|---|---|
name | The name of the screen viewed. | Yes |
id | The id (UUID v4) of screen that was viewed. | Yes |
type | The type of screen that was viewed. | No |
previousName | The name of the previous screen that was viewed. | No |
previousType | The type of screen that was viewed. | No |
previousId | The id (UUID v4) of the previous screen that was viewed. | No |
transitionType | The type of transition that led to the screen being viewed. | No |
Example:
tracker.track(ScreenView(
id: '2c295365-eae9-4243-a3ee-5c4b7baccc8f',
name: 'home',
type: 'full',
transitionType: 'none'));
Track timing events with Timing
Use the Timing
type to track user timing events such as how long resources take to load. These events take a timing category
, the variable
being measured, and the timing
time measurement. An optional label
can be added to further identify the timing event
Argument | Description | Required in event? |
---|---|---|
category | Defines the timing category. | Yes |
variable | Defines the timing variable measured. | Yes |
timing | Represents the time. | Yes |
label | An optional string to further identify the timing event. | No |
Example:
tracker.track(Timing(
category: 'category',
variable: 'variable',
timing: 1,
label: 'label',
));
Track user consent with ConsentGranted
and ConsentWithdrawn
Use the ConsentGranted
to track a user opting into data collection and ConsentWithdrawn
to track a user withdrawing their consent for data collection.
For both events, a consent document context will be attached to the event using the documentId
and version
arguments supplied. To specify that a user opts out of all data collection using the ConsentWithdrawn
event, the all
property should be set to true.
Properties of ConsentGranted
:
Argument | Description | Required in event? |
---|---|---|
expiry | The expiry date-time of the consent. | Yes |
documentId | The consent document ID. | Yes |
version | The consent document version. | Yes |
name | Optional consent document name. | No |
documentDescription | Optional consent document description. | No |
Example:
tracker.track(ConsentGranted(
expiry: DateTime.now(),
documentId: '1234',
version: '5',
name: 'name1',
documentDescription: 'description1',
));
Properties of ConsentWithdrawn
:
Argument | Description | Required in event? |
---|---|---|
all | Whether user opts out of all data collection. | Yes |
documentId | The consent document ID. | Yes |
version | The consent document version. | Yes |
name | Optional consent document name. | No |
documentDescription | Optional consent document description. | No |
Example:
tracker.track(ConsentWithdrawn(
all: false,
documentId: '1234',
version: '5',
name: 'name1',
documentDescription: 'description1',
));