I am a bit new to PySpark and I am looking how to parallelize a simple program with PySpark. I did not find a Spark transformation that can do this treatment properly.

The treatment I want to do consists somehow in filtering some numeric values of a very large ordered vector / list. In the resulting vector the difference between all 2 consecutive values should be >= X (X is given). The first value of the initial vector should be kept as well.

Eg. v = (1, 3, 4, 7, 8, 11), X = 3 then the result is v'=(1, 4, 7, 11).

The program is very simple to implement in 'classical' Python, but the need is to get the result very quickly using Spark parallelisation.

##### myDF = data from database
last_retained_value = 0 ### all values in myDF are positive
for value in myDF.collect():
    current_value = value
    if (current_value - last_retained_value >= X): ### X is fixed
        last_retained_value = current_value
        result.append(str(current_value)) ### result is a list which contains final result**

Thank you very much in advance.

  • 1
    Can you post the Python code ? – Jaco Jan 20 '18 at 10:36
  • Done!! Thanks again. – mechov Jan 20 '18 at 11:04
  • Do you require exactly the same result as sequential program? – hi-zir Jan 20 '18 at 11:29
  • Yes indeed. Ideally yes. – mechov Jan 20 '18 at 11:50

Sequential solution you have does not look parallelizable, because fate of every element depends on a complete history (removing a single item can affect all items located after it).

It is easy to get an approximation of your sequential code by pruning partitions first:

d = 3

rdd = sc.parallelize([1, 3, 4, 7, 8, 11], 4)

def prune(xs, d=3):
    prev = None
    for x in xs: 
        if prev is None or abs(x - prev) >= d:
            prev = x
            yield x

pruned = rdd.mapPartitions(prune)

and then sweep once again

borders = pruned.mapPartitions(lambda xs: [max(xs)]).collect()

pruned.filter(lambda x: any(b < x < b + 3 for b in borders)).collect()
# [3, 8]

but as you can see this approach is less conservative and doesn't return the same results as sequential solution.

With larger partitions, and random distributed differences between max(p) and min(p + 1) where p is partition, this should converge to similar output on average, but without any guarantees.

If you want to apply it this by group you can just repartitionAndSortWithinPartitions and apply local logic for each partition.

  • I see, and this was my fear. Is it at least possible to do some parallelisation if in myDF I have another column which defines groups of values. Eg. ((1,1), (1, 3), (1,4), (1,7), (1,8), (1,11), (2,7), (2,20), ...). Each group can be treated separatly. Thanks. – mechov Jan 20 '18 at 12:04
  • user8371915 please what about distribution of different groups on different nodes and doing parallel treatment of groups (with sequential treatment inside each node)? – mechov Jan 20 '18 at 13:36

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