This is probably easiest to explain through example. Suppose I have a DataFrame of user logins to a website, for instance:

|       user_name|login_date|
|  OprahWinfreyJr|2012-01-10|
only showing top 5 rows

I would like to add to this a column indicating when they became an active user on the site. But there is one caveat: there is a time period during which a user is considered active, and after this period, if they log in again, their became_active date resets. Suppose this period is 5 days. Then the desired table derived from the above table would be something like this:

|       user_name|login_date|became_active|
|SirChillingtonIV|2012-01-04|   2012-01-04|
|Booooooo99900098|2012-01-04|   2012-01-04|
|Booooooo99900098|2012-01-06|   2012-01-04|
|  OprahWinfreyJr|2012-01-10|   2012-01-10|
|SirChillingtonIV|2012-01-11|   2012-01-11|

So, in particular, SirChillingtonIV's became_active date was reset because their second login came after the active period expired, but Booooooo99900098's became_active date was not reset the second time he/she logged in, because it fell within the active period.

My initial thought was to use window functions with lag, and then using the lagged values to fill the became_active column; for instance, something starting roughly like:

import org.apache.spark.sql.expressions.Window
import org.apache.spark.sql.functions._

val window = Window.partitionBy("user_name").orderBy("login_date")
val df2 = df.withColumn("tmp", lag("login_date", 1).over(window))

Then, the rule to fill in the became_active date would be, if tmp is null (i.e., if it's the first ever login) or if login_date - tmp >= 5 then became_active = login_date; otherwise, go to the next most recent value in tmp and apply the same rule. This suggests a recursive approach, which I'm having trouble imagining a way to implement.

My questions: Is this a viable approach, and if so, how can I "go back" and look at earlier values of tmp until I find one where I stop? I can't, to my knowledge, iterate through values of a Spark SQL Column. Is there another way to achieve this result?

up vote 25 down vote accepted

Here is the trick. Import a bunch of functions:

import org.apache.spark.sql.expressions.Window
import org.apache.spark.sql.functions.{coalesce, datediff, lag, lit, min, sum}

Define windows:

val userWindow = Window.partitionBy("user_name").orderBy("login_date")
val userSessionWindow = Window.partitionBy("user_name", "session")

Find the points where new sessions starts:

val newSession =  (coalesce(
  datediff($"login_date", lag($"login_date", 1).over(userWindow)),
) > 5).cast("bigint")

val sessionized = df.withColumn("session", sum(newSession).over(userWindow))

Find the earliest date per session:

val result = sessionized
  .withColumn("became_active", min($"login_date").over(userSessionWindow))

With dataset defined as:

val df = Seq(
  ("SirChillingtonIV", "2012-01-04"), ("Booooooo99900098", "2012-01-04"),
  ("Booooooo99900098", "2012-01-06"), ("OprahWinfreyJr", "2012-01-10"), 
  ("SirChillingtonIV", "2012-01-11"), ("SirChillingtonIV", "2012-01-14"),
  ("SirChillingtonIV", "2012-08-11")
).toDF("user_name", "login_date")

The result is:

|       user_name|login_date|became_active|
|  OprahWinfreyJr|2012-01-10|   2012-01-10|
|SirChillingtonIV|2012-01-04|   2012-01-04| <- The first session for user
|SirChillingtonIV|2012-01-11|   2012-01-11| <- The second session for user
|SirChillingtonIV|2012-01-14|   2012-01-11| 
|SirChillingtonIV|2012-08-11|   2012-08-11| <- The third session for user
|Booooooo99900098|2012-01-04|   2012-01-04|
|Booooooo99900098|2012-01-06|   2012-01-04|
  • I know it has been a long time, but can you help me understand the coalesce part of the solution?? – Sanchit Grover Apr 15 at 8:33
  • 1
    @SanchitGrover If datediff($"login_date", lag($"login_date", 1).over(userWindow)) evaluates to null (first row in the frame) get 0. – user6910411 Apr 15 at 10:19
  • Then how this val sessionized = df.withColumn("session", sum(newSession).over(userWindow)) is increasing the count? – Sanchit Grover Apr 15 at 12:02
  • It is a cumulative sum of values in set {0, 1}. – user6910411 Apr 15 at 12:04
  • I would double vote this answer if I could, thx! – Madhava Carrillo Nov 22 at 10:25

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