If these are RDDs you can use SparkContext.union
method:
rdd1 = sc.parallelize([1, 2, 3])
rdd2 = sc.parallelize([4, 5, 6])
rdd3 = sc.parallelize([7, 8, 9])
rdd = sc.union([rdd1, rdd2, rdd3])
rdd.collect()
## [1, 2, 3, 4, 5, 6, 7, 8, 9]
There is no DataFrame
equivalent but it is just a matter of a simple one-liner:
from functools import reduce # For Python 3.x
from pyspark.sql import DataFrame
def unionAll(*dfs):
return reduce(DataFrame.unionAll, dfs)
df1 = sqlContext.createDataFrame([(1, "foo1"), (2, "bar1")], ("k", "v"))
df2 = sqlContext.createDataFrame([(3, "foo2"), (4, "bar2")], ("k", "v"))
df3 = sqlContext.createDataFrame([(5, "foo3"), (6, "bar3")], ("k", "v"))
unionAll(df1, df2, df3).show()
## +---+----+
## | k| v|
## +---+----+
## | 1|foo1|
## | 2|bar1|
## | 3|foo2|
## | 4|bar2|
## | 5|foo3|
## | 6|bar3|
## +---+----+
If number of DataFrames
is large using SparkContext.union
on RDDs and recreating DataFrame
may be a better choice to avoid issues related to the cost of preparing an execution plan:
def unionAll(*dfs):
first, *_ = dfs # Python 3.x, for 2.x you'll have to unpack manually
return first.sql_ctx.createDataFrame(
first.sql_ctx._sc.union([df.rdd for df in dfs]),
first.schema
)