Aggregate Tables


In this tutorial, we will see how data in a Table can be aggregated continuously using GROUP BY and how the aggregated results are emitted downstream.

More details about Aggregations and related functions can be found in the corresponding pages in the user documentation.

Setting up our example 

Let’s assume that we have a topic (game-sessions) containing data regarding remote gaming sessions by users.

Each gaming session will contain:

  • the points the user achieved throughout the session
  • Metadata information regarding the session:
    • The country where the game took place
    • The language the user played the game in

The above structure represents the value of each record in our game-sessions topic.

Additionally, each record will be keyed by user information, including the following:

  • A pid, or player id, representing this user uniquely
  • Some additional denormalised user details:
    • a name
    • a surname
    • an age

In light of the above, a record might look like the following (in JSON for simplicity):

{
  "key":{
    "pid": 1,
    "name": "Billy",
    "surname": "Lagrange",
    "age": 30
  },
  "value":{
    "points": 5,
    "sessionMetadata": {
      "country": "Italy",
      "language": "IT"
    }
  }
}

We can replicate such structure using SQL Studio and the following query:

CREATE TABLE game-sessions(
    _key.pid int
    , _key.name string
    , _key.surname string
    , _key.age int
    , points double
    , sessionMetadata.country string
    , sessionMetadata.language string)
FORMAT (avro, avro);

We can then use SQL Studio again to insert the data we will use in the rest of the tutorial:

INSERT into game-sessions(
    _key.pid
    , _key.name
    , _key.surname
    , _key.age
    , points
    , sessionMetadata.country
    , sessionMetadata.language
) VALUES
(1, 'Billy', 'Lagrange', 35, 5, 'Italy', 'IT'),
(1, 'Billy', 'Lagrange', 35, 30, 'Italy', 'IT'),
(1, 'Billy', 'Lagrange', 35, 0, 'Italy', 'IT'),
(2, 'Maria', 'Rossi', 27, 50, 'Italy', 'IT'),
(2, 'Maria', 'Rossi', 27, 10, 'Italy', 'IT'),
(3, 'Jorge', 'Escudero', 27, 10, 'Spain', 'ES'),
(4, 'Juan', 'Suarez', 22, 80, 'Mexico', 'ES'),
(5, 'John', 'Bolden', 40, 10, 'USA', 'EN'),
(6, 'Dave', 'Holden', 31, 30, 'UK', 'EN'),
(7, 'Nigel', 'Calling', 50, 5, 'UK', 'EN'),
(2, 'Maria', 'Rossi', 27, 10, 'UK', 'EN'),
(1, 'Billy', 'Lagrange', 35, 50, 'Italy', 'IT'),
(3, 'Jorge', 'Escudero', 27, 16, 'Spain', 'ES'),
(4, 'Juan', 'Suarez', 22, 70, 'Mexico', 'ES'),
(5, 'John', 'Bolden', 40, 10, 'USA', 'EN'),
(6, 'Dave', 'Holden', 31, 50, 'Italy', 'IT'),
(6, 'Dave', 'Holden', 31, 70, 'Spain', 'ES'),
(2, 'Maria', 'Rossi', 27, 70, 'Italy', 'IT'),
(1, 'Billy', 'Lagrange', 35, 50, 'Italy', 'IT')
;

Example 1 - Count the users that are in a given country 

Now we can start processing the data we have inserted above.

Let’s imagine that we are told that we want to keep a running count of how many users are in a given country. To do this, we can assume that a user is currently in the same country where his last game took place.

We can achieve the above with the following query:

SET defaults.topic.autocreate=true;
SET commit.interval.ms='1000';  -- this is to speed up the output generation in this tutorial

INSERT INTO groupby-table-country
SELECT TABLE
  COUNT(*) AS gamesPlayed
FROM game-sessions
GROUP BY sessionMetadata.country;

The content of the output topic, groupby-table-country, can now be inspected in the Lenses Explore screen and it will look similar to this:

Content of groupby-table-country topic

The key results to notice here are the ones for Spain and the UK:

  • Spain is 2 because Jorge and Dave had their last game played there.
  • UK is 1 because, while Nigel had his only game played there, Dave initially played from the UK, but then from Italy and finally from Spain. Dave contribution was, therefore, subtracted from the UK count value.

The last point from above is the main difference (and power) of Tables vs. Streams: they represent the latest state of the world for each of their keys, so any aggregation will apply only on that latest data. If this is not clear enough, please refer to our documentation for a more in-depth coverage of these topics.

Example 2 - Calculate the total and average points of games played in a given language 

We can expand on the example from the previous section, imagining that our requirement was extended.

Just as before, we want to calculate statistics based on the current country of a user, as defined in Example 1, but now we want to know all the following:

  • count how many users are in a given country
  • what is the total amount of points these users achieved
  • what is the average amount of points these users achieved

All of the above can be achieved with the following query:

SET defaults.topic.autocreate=true;
SET commit.interval.ms='1000';

INSERT INTO groupby-table-country-multi
SELECT TABLE
    COUNT(*) AS gamesPlayed
    , SUM(points) as totalpoints
    , AVG(points) as avgpoints
FROM game-sessions
GROUP BY sessionMetadata.country;

The content of the output topic, groupby-table-country-multi, can now be inspected in the Lenses Explore screen and it will look similar to this:

Content of groupby-table-country-multi topic

One thing to highlight here is that the functions we are using in this query (COUNT, SUM, and AVG) all support aggregating over Tables. However, that is not true of all functions. To find out which functions support Tables and which ones only support Streams, please refer to the dedicated section of the documentation.

Example 3 - Filtering aggregation data 

We will cover one final scenario where we want to filter some data within our aggregation.

There are two possible types of filtering we might want to do when it comes to aggregations:

  • Pre-aggregation: we want some rows to be ignored by the grouping, so they will not be part of the calculation done by aggregation functions. In these scenarios, we will use the WHERE clause.
  • Post-aggregation: we want to filter the aggregation results themselves so that those aggregated records that meet some specified condition are not emitted at all. In these scenarios, we will use the HAVING clause.

Let’s see an example.

We want to calculate the statistics from Example 2, but grouping by the session language. Here we will make again the assumption that a user’s language is represented only by his latest recorded game session.

Additionally, we are only interested in languages used by players who don’t achieve a high total of points (we might want to focus our marketing team’s effort there, to keep them entertained). Finally, we are aware that some users have been using VPNs to access our platform, so we want to exclude some records from our calculations if a given user appeared to have played from a given country.

For the sake of this example, we will:

  • Show statistics for languages with total points lower than 100
  • Ignore sessions that Dave made from Spain (because we know he was not there)

The query for all of the above is:

SET defaults.topic.autocreate=true;
SET commit.interval.ms='1000';

INSERT INTO groupby-table-language-filtered
SELECT TABLE
    COUNT(*) AS gamesPlayed
    , SUM(points) as totalpoints
    , AVG(points) as avgpoints
FROM game-sessions
WHERE _key.name != 'Dave' 
    OR sessionMetadata.country != 'Spain'
GROUP BY sessionMetadata.language
HAVING totalpoints < 100;

The content of the output topic, groupby-table-language-filtered, can now be inspected in the Lenses Explore screen and it will look similar to this:

Content of groupby-table-language-filtered topic

Conclusion 

In this tutorial, you learned how to use aggregation over Tables to:

  • group by arbitrary fields, based on the latest state of the world
  • calculate multiple results in a single processor
  • filtering both the data that is to be aggregated and the one that will be emitted as a result of the aggregation itself

Good luck and happy streaming!

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Last modified: November 18, 2024