I'm using SparkSQL on pyspark to store some PostgreSQL tables into DataFrames and then build a query that generates several time series based on a start and stop columns of type date.

Suppose that my_table contains:

 start      | stop       
 2000-01-01 | 2000-01-05 
 2012-03-20 | 2012-03-23 

In PostgreSQL it's very easy to do that:

SELECT generate_series(start, stop, '1 day'::interval)::date AS dt FROM my_table

and it will generate this table:


but how to do that using plain SparkSQL? Will it be necessary to use UDFs or some DataFrame methods?

5 Answers 5


This creates a dataframe with one row containing an array of consecutive dates:

from pyspark.sql.functions import sequence, to_date, explode, col

spark.sql("SELECT sequence(to_date('2018-01-01'), to_date('2018-03-01'), interval 1 month) as date")

|                  date                    |
| ["2018-01-01","2018-02-01","2018-03-01"] |

You can use the explode function to "pivot" this array into rows:

spark.sql("SELECT sequence(to_date('2018-01-01'), to_date('2018-03-01'), interval 1 month) as date").withColumn("date", explode(col("date"))

|    date    |
| 2018-01-01 |
| 2018-02-01 |
| 2018-03-01 |

(End of edit)

Spark v2.4 support sequence function:

sequence(start, stop, step) - Generates an array of elements from start to stop (inclusive), incrementing by step. The type of the returned elements is the same as the type of argument expressions.

Supported types are: byte, short, integer, long, date, timestamp.


SELECT sequence(1, 5);


SELECT sequence(5, 1);


SELECT sequence(to_date('2018-01-01'), to_date('2018-03-01'), interval 1 month);




The existing answers will work, but are very inefficient. Instead it is better to use range and then cast data. In Python

from pyspark.sql.functions import col
from pyspark.sql import SparkSession

def generate_series(start, stop, interval):
    :param start  - lower bound, inclusive
    :param stop   - upper bound, exclusive
    :interval int - increment interval in seconds
    spark = SparkSession.builder.getOrCreate()
    # Determine start and stops in epoch seconds
    start, stop = spark.createDataFrame(
        [(start, stop)], ("start", "stop")
        [col(c).cast("timestamp").cast("long") for c in ("start", "stop")
    # Create range with increments and cast to timestamp
    return spark.range(start, stop, interval).select(

Example usage:

generate_series("2000-01-01", "2000-01-05", 60 * 60).show(5)  # By hour
|              value|
|2000-01-01 00:00:00|
|2000-01-01 01:00:00|
|2000-01-01 02:00:00|
|2000-01-01 03:00:00|
|2000-01-01 04:00:00|
only showing top 5 rows
generate_series("2000-01-01", "2000-01-05", 60 * 60 * 24).show()  # By day
|              value|
|2000-01-01 00:00:00|
|2000-01-02 00:00:00|
|2000-01-03 00:00:00|
|2000-01-04 00:00:00|

@Rakesh answer is correct, but I would like to share a less verbose solution:

import datetime
import pyspark.sql.types
from pyspark.sql.functions import UserDefinedFunction

def generate_date_series(start, stop):
    return [start + datetime.timedelta(days=x) for x in range(0, (stop-start).days + 1)]    

# Register UDF for later usage
spark.udf.register("generate_date_series", generate_date_series, ArrayType(DateType()) )

# mydf is a DataFrame with columns `start` and `stop` of type DateType()

spark.sql("SELECT explode(generate_date_series(start, stop)) FROM mydf").show()

Suppose you have dataframe df from spark sql, Try this

from pyspark.sql.functions as F
from pyspark.sql.types as T

def timeseriesDF(start, total):
    series = [start]
    for i xrange( total-1 ):
            F.date_add(series[-1], 1)
    return series

df.withColumn("t_series", F.udf(
            ) ( df.start, F.datediff( df.start, df.stop ) ) 
  • Thank you, Rakesh. I came up with a less verbose solution, aligned with your idea. I wanted it to be in SparkSQL syntax with as less Python code as possible. I'll accept your answer, but give a look at my solution.
    – pietrop
    Commented Apr 8, 2017 at 8:59

Building off of user10938362 answer, just showing a way to use range without a UDF, provided that you are trying to build a data frame of dates based off of some ingested dataset, rather than with a hardcoded start/stop.

# start date is min date
date_min=int(df.agg({'date': 'min'}).first()[0]) 
# end date is current date or alternatively could use max as above
    spark.sql('select unix_timestamp(current_timestamp()) as date_max')
# range is int, unix time is s so 60*60*24=day
df=spark.range(date_min, date_max, 60*60*24).select('id')

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