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I have a dataset of locations in Lat/Lon format of users in a time period. I would like to calculate the distance these users traveled. Sample dataset:

| Timestamp| User| Latitude|Longitude| |1462838468|49B4361512443A4DA...|39.777982|-7.054599| |1462838512|49B4361512443A4DA...|39.777982|-7.054599| |1462838389|49B4361512443A4DA...|39.777982|-7.054599| |1462838497|49B4361512443A4DA...|39.777982|-7.054599| |1465975885|6E9E0581E2A032FD8...|37.118362|-8.205041| |1457723815|405C238E25FE0B9E7...|37.177322|-7.426781| |1457897289|405C238E25FE0B9E7...|37.177922|-7.447443| |1457899229|405C238E25FE0B9E7...|37.177922|-7.447443| |1457972626|405C238E25FE0B9E7...| 37.18059| -7.46128| |1458062553|405C238E25FE0B9E7...|37.177322|-7.426781| |1458241825|405C238E25FE0B9E7...|37.178172|-7.444512| |1458244457|405C238E25FE0B9E7...|37.178172|-7.444512| |1458412513|405C238E25FE0B9E7...|37.177322|-7.426781| |1458412292|405C238E25FE0B9E7...|37.177322|-7.426781| |1465197963|6E9E0581E2A032FD8...|37.118362|-8.205041| |1465202192|6E9E0581E2A032FD8...|37.118362|-8.205041| |1465923817|6E9E0581E2A032FD8...|37.118362|-8.205041| |1465923766|6E9E0581E2A032FD8...|37.118362|-8.205041| |1465923748|6E9E0581E2A032FD8...|37.118362|-8.205041| |1465923922|6E9E0581E2A032FD8...|37.118362|-8.205041|

I have thought of using a custom aggregator function but it seems there is no Python support for this. Moreover the operations need to be done on adjacent points in a specific order, so I don't know if a custom aggregator would work.

I have also looked at reduceByKey but the operator requirements don't seem to be met by the distance function.

Is there a way to perform this operation in an efficient manner in Spark?

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It looks like a job for window functions. Assuming we define distance as:

from pyspark.sql.functions import acos, cos, sin, lit, toRadians

def dist(long_x, lat_x, long_y, lat_y):
    return acos(
        sin(toRadians(lat_x)) * sin(toRadians(lat_y)) + 
        cos(toRadians(lat_x)) * cos(toRadians(lat_y)) * 
            cos(toRadians(long_x) - toRadians(long_y))
    ) * lit(6371.0)

you can define window as:

from pyspark.sql.window import Window

w = Window().partitionBy("User").orderBy("Timestamp")

and compute distances between consecutive observations using lag:

from pyspark.sql.functions import lag

df.withColumn("dist", dist(
    "longitude", "latitude",
    lag("longitude", 1).over(w), lag("latitude", 1).over(w)
).alias("dist"))

After that you can perform standard aggregation.

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  • FTR, the distance formula is the equirectangular distance approximation? I had looked at the Haversine Formula but this seems different. Btw, you have duplicated the parameter "long_y" in the method declaration. Aug 17 '16 at 17:06
  • Indeed, thanks. It should be the great-circle distance.
    – zero323
    Aug 17 '16 at 17:27
  • No, thank you, it seems to be working. Another question, what are the units of the result of this distance function? Kms, right? At least the R seems to be in Kms. Aug 18 '16 at 6:02
  • I've noticed that the distance function is not very numerically stable when calculating the distance between equal coordinates. For example: Latitude=41.239548, Longitude=-8.685635 gives nan. Is it possible to add a conditional branch to the distance function to return 0 when the coordinates are the same or would it be better to filter at the dataframe level these rows that have the same coordinates as the next row? Aug 18 '16 at 11:46
  • 1
    Thanks. I ended up with F.when((F.col(lat_x) == lat_y) & (F.col(long_x) == long_y), F.lit(0.0)).otherwise.... Aug 18 '16 at 16:23

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