22

I want to join data twice as below:

rdd1 = spark.createDataFrame([(1, 'a'), (2, 'b'), (3, 'c')], ['idx', 'val'])
rdd2 = spark.createDataFrame([(1, 2, 1), (1, 3, 0), (2, 3, 1)], ['key1', 'key2', 'val'])

res1 = rdd1.join(rdd2, on=[rdd1['idx'] == rdd2['key1']])
res2 = res1.join(rdd1, on=[res1['key2'] == rdd1['idx']])
res2.show()

Then I get some error :

pyspark.sql.utils.AnalysisException: u'Cartesian joins could be prohibitively expensive and are disabled by default. To explicitly enable them, please set spark.sql.crossJoin.enabled = true;'

But I think this is not a cross join

UPDATE:

res2.explain()

== Physical Plan ==
CartesianProduct
:- *SortMergeJoin [idx#0L, idx#0L], [key1#5L, key2#6L], Inner
:  :- *Sort [idx#0L ASC, idx#0L ASC], false, 0
:  :  +- Exchange hashpartitioning(idx#0L, idx#0L, 200)
:  :     +- *Filter isnotnull(idx#0L)
:  :        +- Scan ExistingRDD[idx#0L,val#1]
:  +- *Sort [key1#5L ASC, key2#6L ASC], false, 0
:     +- Exchange hashpartitioning(key1#5L, key2#6L, 200)
:        +- *Filter ((isnotnull(key2#6L) && (key2#6L = key1#5L)) && isnotnull(key1#5L))
:           +- Scan ExistingRDD[key1#5L,key2#6L,val#7L]
+- Scan ExistingRDD[idx#40L,val#41]

3 Answers 3

21

This happens because you join structures sharing the same lineage and this leads to a trivially equal condition:

res2.explain()

== Physical Plan ==
org.apache.spark.sql.AnalysisException: Detected cartesian product for INNER join between logical plans
Join Inner, ((idx#204L = key1#209L) && (key2#210L = idx#204L))
:- Filter isnotnull(idx#204L)
:  +- LogicalRDD [idx#204L, val#205]
+- Filter ((isnotnull(key2#210L) && (key2#210L = key1#209L)) && isnotnull(key1#209L))
   +- LogicalRDD [key1#209L, key2#210L, val#211L]
and
LogicalRDD [idx#235L, val#236]
Join condition is missing or trivial.
Use the CROSS JOIN syntax to allow cartesian products between these relations.;

In case like this you should use aliases:

from pyspark.sql.functions import col

rdd1 = spark.createDataFrame(...).alias('rdd1')
rdd2 = spark.createDataFrame(...).alias('rdd2')

res1 = rdd1.join(rdd2, col('rdd1.idx') == col('rdd2.key1')).alias('res1')
res1.join(rdd1, on=col('res1.key2') == col('rdd1.idx')).explain()
== Physical Plan ==
*SortMergeJoin [key2#297L], [idx#360L], Inner
:- *Sort [key2#297L ASC NULLS FIRST], false, 0
:  +- Exchange hashpartitioning(key2#297L, 200)
:     +- *SortMergeJoin [idx#290L], [key1#296L], Inner
:        :- *Sort [idx#290L ASC NULLS FIRST], false, 0
:        :  +- Exchange hashpartitioning(idx#290L, 200)
:        :     +- *Filter isnotnull(idx#290L)
:        :        +- Scan ExistingRDD[idx#290L,val#291]
:        +- *Sort [key1#296L ASC NULLS FIRST], false, 0
:           +- Exchange hashpartitioning(key1#296L, 200)
:              +- *Filter (isnotnull(key2#297L) && isnotnull(key1#296L))
:                 +- Scan ExistingRDD[key1#296L,key2#297L,val#298L]
+- *Sort [idx#360L ASC NULLS FIRST], false, 0
   +- Exchange hashpartitioning(idx#360L, 200)
      +- *Filter isnotnull(idx#360L)
         +- Scan ExistingRDD[idx#360L,val#361]

For details see SPARK-6459.

3
  • 2
    @user6910411 when you mean " same lineage" i think it's an issue with spark dataframe's lazy evaluation and query planner . OPs query is not a cartesian product from sql standpoint, right?
    – nir
    Jul 19, 2018 at 23:30
  • 4
    @nir You can say that. In short if you have df1 and df2 both derived from df, and all three sharing col then df1.col op df2.col might resolved as trivially true or false, even though it technically (according to actual resolution rules) isn't.
    – zero323
    Jul 20, 2018 at 23:55
  • 1
    make sense. I found that this issue can be avoided altogether by using actual sql and executing via sparkSession.sql("your sql") instead of dataframe based dsl.
    – nir
    Jul 24, 2018 at 21:48
6

I was also successful when persisted the dataframe before the second join.

Something like:

res1 = rdd1.join(rdd2, col('rdd1.idx') == col('rdd2.key1')).persist()

res1.join(rdd1, on=col('res1.key2') == col('rdd1.idx'))
1
  • 2
    @GergeSzekely, this worked for me too but I have no idea why. What is the difference? May 14, 2018 at 19:07
4

Persisting did not work for me.

I overcame it with aliases on DataFrames

from pyspark.sql.functions import col

df1.alias("buildings").join(df2.alias("managers"), col("managers.distinguishedName") == col("buildings.manager"))

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