I am having a JDBC connection with Apache Spark and PostgreSQL and I want to insert some data into my database. When I use append mode I need to specify id for each DataFrame.Row. Is there any way for Spark to create primary keys?


Solution 1:

Scala:

If all you need is unique numbers you can use zipWithUniqueId and recreate DataFrame. First some imports and dummy data:

import sqlContext.implicits._
import org.apache.spark.sql.Row
import org.apache.spark.sql.types.{StructType, StructField, LongType}

val df = sc.parallelize(Seq(
    ("a", -1.0), ("b", -2.0), ("c", -3.0))).toDF("foo", "bar")

Extract schema for further usage:

val schema = df.schema

Add id field:

val rows = df.rdd.zipWithUniqueId.map{
   case (r: Row, id: Long) => Row.fromSeq(id +: r.toSeq)}

Create DataFrame:

val dfWithPK = sqlContext.createDataFrame(
  rows, StructType(StructField("id", LongType, false) +: schema.fields))

The same thing in Python:

from pyspark.sql import Row
from pyspark.sql.types import StructField, StructType, LongType

row = Row("foo", "bar")
row_with_index = Row(*["id"] + df.columns)

df = sc.parallelize([row("a", -1.0), row("b", -2.0), row("c", -3.0)]).toDF()

def make_row(columns):
    def _make_row(row, uid):
        row_dict = row.asDict()
        return row_with_index(*[uid] + [row_dict.get(c) for c in columns])
    return _make_row

f = make_row(df.columns)

df_with_pk = (df.rdd
    .zipWithUniqueId()
    .map(lambda x: f(*x))
    .toDF(StructType([StructField("id", LongType(), False)] + df.schema.fields)))

If you prefer consecutive number your can replace zipWithUniqueId with zipWithIndex but it is a little bit more expensive.

Directly with DataFrame API:

(universal Scala, Python, Java, R with pretty much the same syntax)

Previously I've missed monotonicallyIncreasingId function which should work just fine as long as you don't require consecutive numbers:

import org.apache.spark.sql.functions.monotonicallyIncreasingId

df.withColumn("id", monotonicallyIncreasingId).show()
// +---+----+-----------+
// |foo| bar|         id|
// +---+----+-----------+
// |  a|-1.0|17179869184|
// |  b|-2.0|42949672960|
// |  c|-3.0|60129542144|
// +---+----+-----------+

While useful monotonicallyIncreasingId is non-deterministic. Not only ids may be different from execution to execution but without additional tricks cannot be used to identify rows when subsequent operations contain filters.

Note:

It is also possible to use rowNumber window function:

from pyspark.sql.window import Window
from pyspark.sql.functions import rowNumber

w = Window().orderBy()
df.withColumn("id", rowNumber().over(w)).show()

Unfortunately:

WARN Window: No Partition Defined for Window operation! Moving all data to a single partition, this can cause serious performance degradation.

So unless you have a natural way to partition your data and ensure uniqueness is not particularly useful at this moment.

Solution 2:

from pyspark.sql.functions import monotonically_increasing_id

df.withColumn("id", monotonically_increasing_id()).show()

Note that the 2nd argument of df.withColumn is monotonically_increasing_id() not monotonically_increasing_id .

Solution 3:

I found the following solution to be relatively straightforward for the case where zipWithIndex() is the desired behavior, i.e. for those desirng consecutive integers.

In this case, we're using pyspark and relying on dictionary comprehension to map the original row object to a new dictionary which fits a new schema including the unique index.

# read the initial dataframe without index
dfNoIndex = sqlContext.read.parquet(dataframePath)
# Need to zip together with a unique integer

# First create a new schema with uuid field appended
newSchema = StructType([StructField("uuid", IntegerType(), False)]
                       + dfNoIndex.schema.fields)
# zip with the index, map it to a dictionary which includes new field
df = dfNoIndex.rdd.zipWithIndex()\
                      .map(lambda (row, id): {k:v
                                              for k, v
                                              in row.asDict().items() + [("uuid", id)]})\
                      .toDF(newSchema)