18

I have a dataframe with the following structure:

 |-- data: struct (nullable = true)
 |    |-- id: long (nullable = true)
 |    |-- keyNote: struct (nullable = true)
 |    |    |-- key: string (nullable = true)
 |    |    |-- note: string (nullable = true)
 |    |-- details: map (nullable = true)
 |    |    |-- key: string
 |    |    |-- value: string (valueContainsNull = true)

How it is possible to flatten the structure and create a new dataframe:

     |-- id: long (nullable = true)
     |-- keyNote: struct (nullable = true)
     |    |-- key: string (nullable = true)
     |    |-- note: string (nullable = true)
     |-- details: map (nullable = true)
     |    |-- key: string
     |    |-- value: string (valueContainsNull = true)

Is there something like explode, but for structs?

40

This should work in Spark 1.6 or later:

df.select(df.col("data.*"))

or

df.select(df.col("data.id"), df.col("data.keyNote"), df.col("data.details"))
  • 8
    Exception in thread "main" org.apache.spark.sql.AnalysisException: No such struct field * – djWann Aug 3 '16 at 21:54
  • but using select on all the columns like df.select(df.col1, df.col2, df.col3) works, so I will accept this answer – djWann Aug 3 '16 at 22:00
  • I was just editing but it is strange. I can use *. Maybe some version issue? – user6022341 Aug 3 '16 at 22:01
  • Yeah maybe. I'm using spark 1.6.1 and scala 2.10 – djWann Aug 3 '16 at 22:07
  • 2
    First suggested method doesn't work for me – Alessandro S. Dec 12 '18 at 14:28
4

Here is function that is doing what you want and that can deal with multiple nested columns containing columns with same name:

def flatten_df(nested_df):
    flat_cols = [c[0] for c in nested_df.dtypes if c[1][:6] != 'struct']
    nested_cols = [c[0] for c in nested_df.dtypes if c[1][:6] == 'struct']

    flat_df = nested_df.select(flat_cols +
                               [F.col(nc+'.'+c).alias(nc+'_'+c)
                                for nc in nested_cols
                                for c in nested_df.select(nc+'.*').columns])
    return flat_df

Before:

root
 |-- x: string (nullable = true)
 |-- y: string (nullable = true)
 |-- foo: struct (nullable = true)
 |    |-- a: float (nullable = true)
 |    |-- b: float (nullable = true)
 |    |-- c: integer (nullable = true)
 |-- bar: struct (nullable = true)
 |    |-- a: float (nullable = true)
 |    |-- b: float (nullable = true)
 |    |-- c: integer (nullable = true)

After:

root
 |-- x: string (nullable = true)
 |-- y: string (nullable = true)
 |-- foo_a: float (nullable = true)
 |-- foo_b: float (nullable = true)
 |-- foo_c: integer (nullable = true)
 |-- bar_a: float (nullable = true)
 |-- bar_b: float (nullable = true)
 |-- bar_c: integer (nullable = true)
2

I generalized the solution from stecos a bit more so the flattening can be done on more than two struct layers deep:

def flatten_df(nested_df, layers):
    flat_cols = []
    nested_cols = []
    flat_df = []

    flat_cols.append([c[0] for c in nested_df.dtypes if c[1][:6] != 'struct'])
    nested_cols.append([c[0] for c in nested_df.dtypes if c[1][:6] == 'struct'])

    flat_df.append(nested_df.select(flat_cols[0] +
                               [col(nc+'.'+c).alias(nc+'_'+c)
                                for nc in nested_cols[0]
                                for c in nested_df.select(nc+'.*').columns])
                  )
    for i in range(1, layers):
        print (flat_cols[i-1])
        flat_cols.append([c[0] for c in flat_df[i-1].dtypes if c[1][:6] != 'struct'])
        nested_cols.append([c[0] for c in flat_df[i-1].dtypes if c[1][:6] == 'struct'])

        flat_df.append(flat_df[i-1].select(flat_cols[i] +
                                [col(nc+'.'+c).alias(nc+'_'+c)
                                    for nc in nested_cols[i]
                                    for c in flat_df[i-1].select(nc+'.*').columns])
        )

    return flat_df[-1]

just call with:

my_flattened_df = flatten_df(my_df_having_nested_structs, 3)

(second parameter is the level of layers to be flattened, in my case it's 3)

2

An easy way is to use SQL, you could build a SQL query string to alias nested column as flat ones.

  • Retrieve data-frame schema (df.schema())
  • Transform schema to SQL (for (field : schema().fields()) ...
  • Query:

    val newDF = sqlContext.sql("SELECT " + sqlGenerated + " FROM source")
    

Here is an example in Java.

(I prefer SQL way, so you can easily test it on Spark-shell and it's cross-language).

2

This flatten_df version flattens the dataframe at every layer level, using a stack to avoid recursive calls:

from pyspark.sql.functions import col


def flatten_df(nested_df):
    stack = [((), nested_df)]
    columns = []

    while len(stack) > 0:
        parents, df = stack.pop()

        flat_cols = [
            col(".".join(parents + (c[0],))).alias("_".join(parents + (c[0],)))
            for c in df.dtypes
            if c[1][:6] != "struct"
        ]

        nested_cols = [
            c[0]
            for c in df.dtypes
            if c[1][:6] == "struct"
        ]

        columns.extend(flat_cols)

        for nested_col in nested_cols:
            projected_df = df.select(nested_col + ".*")
            stack.append((parents + (nested_col,), projected_df))

    return nested_df.select(columns)

Example:

from pyspark.sql.types import StringType, StructField, StructType


schema = StructType([
    StructField("some", StringType()),

    StructField("nested", StructType([
        StructField("nestedchild1", StringType()),
        StructField("nestedchild2", StringType())
    ])),

    StructField("renested", StructType([
        StructField("nested", StructType([
            StructField("nestedchild1", StringType()),
            StructField("nestedchild2", StringType())
        ]))
    ]))
])

data = [
    {
        "some": "value1",
        "nested": {
            "nestedchild1": "value2",
            "nestedchild2": "value3",
        },
        "renested": {
            "nested": {
                "nestedchild1": "value4",
                "nestedchild2": "value5",
            }
        }
    }
]

df = spark.createDataFrame(data, schema)
flat_df = flatten_df(df)
print(flat_df.collect())

Prints:

[Row(some=u'value1', renested_nested_nestedchild1=u'value4', renested_nested_nestedchild2=u'value5', nested_nestedchild1=u'value2', nested_nestedchild2=u'value3')]

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