20

I have a DataFrame with the schema

root
 |-- label: string (nullable = true)
 |-- features: struct (nullable = true)
 |    |-- feat1: string (nullable = true)
 |    |-- feat2: string (nullable = true)
 |    |-- feat3: string (nullable = true)

While, I am able to filter the data frame using

  val data = rawData
     .filter( !(rawData("features.feat1") <=> "100") )

I am unable to drop the columns using

  val data = rawData
       .drop("features.feat1")

Is it something that I am doing wrong here? I also tried (unsuccessfully) doing drop(rawData("features.feat1")), though it does not make much sense to do so.

Thanks in advance,

Nikhil

  • What if you mapped it to a new dataframe instead? I don't think the DataFrame API allows you to drop a struct field within a struct column type. – Jeff L Sep 22 '15 at 21:43
  • Ohh. I will try that, but seems pretty inconvenient if I have to map just to resolve a nested column name this way :(. – Nikhil J Joshi Sep 23 '15 at 4:16
  • You can always get all columns with the DataFrame's .columns() method, remove unwanted column from the sequence and do select(myColumns:_*). Should be a bit shorter. – Niemand Sep 23 '15 at 6:49
24

It is just a programming exercise but you can try something like this:

import org.apache.spark.sql.{DataFrame, Column}
import org.apache.spark.sql.types.{StructType, StructField}
import org.apache.spark.sql.{functions => f}
import scala.util.Try

case class DFWithDropFrom(df: DataFrame) {
  def getSourceField(source: String): Try[StructField] = {
    Try(df.schema.fields.filter(_.name == source).head)
  }

  def getType(sourceField: StructField): Try[StructType] = {
    Try(sourceField.dataType.asInstanceOf[StructType])
  }

  def genOutputCol(names: Array[String], source: String): Column = {
    f.struct(names.map(x => f.col(source).getItem(x).alias(x)): _*)
  }

  def dropFrom(source: String, toDrop: Array[String]): DataFrame = {
    getSourceField(source)
      .flatMap(getType)
      .map(_.fieldNames.diff(toDrop))
      .map(genOutputCol(_, source))
      .map(df.withColumn(source, _))
      .getOrElse(df)
  }
}

Example usage:

scala> case class features(feat1: String, feat2: String, feat3: String)
defined class features

scala> case class record(label: String, features: features)
defined class record

scala> val df = sc.parallelize(Seq(record("a_label",  features("f1", "f2", "f3")))).toDF
df: org.apache.spark.sql.DataFrame = [label: string, features: struct<feat1:string,feat2:string,feat3:string>]

scala> DFWithDropFrom(df).dropFrom("features", Array("feat1")).show
+-------+--------+
|  label|features|
+-------+--------+
|a_label| [f2,f3]|
+-------+--------+


scala> DFWithDropFrom(df).dropFrom("foobar", Array("feat1")).show
+-------+----------+
|  label|  features|
+-------+----------+
|a_label|[f1,f2,f3]|
+-------+----------+


scala> DFWithDropFrom(df).dropFrom("features", Array("foobar")).show
+-------+----------+
|  label|  features|
+-------+----------+
|a_label|[f1,f2,f3]|
+-------+----------+

Add an implicit conversion and you're good to go.

15

This version allows you to remove nested columns at any level:

import org.apache.spark.sql._
import org.apache.spark.sql.functions._
import org.apache.spark.sql.types.{StructType, DataType}

/**
  * Various Spark utilities and extensions of DataFrame
  */
object DataFrameUtils {

  private def dropSubColumn(col: Column, colType: DataType, fullColName: String, dropColName: String): Option[Column] = {
    if (fullColName.equals(dropColName)) {
      None
    } else {
      colType match {
        case colType: StructType =>
          if (dropColName.startsWith(s"${fullColName}.")) {
            Some(struct(
              colType.fields
                .flatMap(f =>
                  dropSubColumn(col.getField(f.name), f.dataType, s"${fullColName}.${f.name}", dropColName) match {
                    case Some(x) => Some(x.alias(f.name))
                    case None => None
                  })
                : _*))
          } else {
            Some(col)
          }
        case other => Some(col)
      }
    }
  }

  protected def dropColumn(df: DataFrame, colName: String): DataFrame = {
    df.schema.fields
      .flatMap(f => {
        if (colName.startsWith(s"${f.name}.")) {
          dropSubColumn(col(f.name), f.dataType, f.name, colName) match {
            case Some(x) => Some((f.name, x))
            case None => None
          }
        } else {
          None
        }
      })
      .foldLeft(df.drop(colName)) {
        case (df, (colName, column)) => df.withColumn(colName, column)
      }
  }

  /**
    * Extended version of DataFrame that allows to operate on nested fields
    */
  implicit class ExtendedDataFrame(df: DataFrame) extends Serializable {
    /**
      * Drops nested field from DataFrame
      *
      * @param colName Dot-separated nested field name
      */
    def dropNestedColumn(colName: String): DataFrame = {
      DataFrameUtils.dropColumn(df, colName)
    }
  }
}

Usage:

import DataFrameUtils._
df.dropNestedColumn("a.b.c.d")
  • 1
    Thanks much! Any chance you've updated this to drop a field from a struct in an array under an array? Been hacking for over a day now, close but can't get it. i.e. parent:array<element:struct<child:array<element:struct<keep:int, drop:int>>>> – alexP_Keaton Oct 23 '16 at 0:52
  • 1
    @alexP_Keaton Hey, did you get a solution for dropping a column inside an array? – V. Samma Feb 10 '17 at 12:25
  • I would like to add that this method does not preserve 'nullable' property of the modified parent struct. In this example, features will become struct (nullable = false) – Michel Lemay Jul 25 '17 at 15:45
  • One way I found to fix this issue is to pass f.nullable to dropSubColumn and use this construct when(col.isNotNull, newCol) on the result of struct(... :_*) – Michel Lemay Jul 26 '17 at 19:40
  • You actually don't need the df.drop(colName) bit here. It doesn't work anyway (or else we could simply drop nested columns using the API directly). Also, the withColumn will replace an existing column name with a new definition if given. – Jeff Evans Oct 29 at 20:56
4

Expanding on spektom answer. With support for array types:

object DataFrameUtils {

  private def dropSubColumn(col: Column, colType: DataType, fullColName: String, dropColName: String): Option[Column] = {
    if (fullColName.equals(dropColName)) {
      None
    } else if (dropColName.startsWith(s"$fullColName.")) {
      colType match {
        case colType: StructType =>
          Some(struct(
            colType.fields
              .flatMap(f =>
                dropSubColumn(col.getField(f.name), f.dataType, s"$fullColName.${f.name}", dropColName) match {
                  case Some(x) => Some(x.alias(f.name))
                  case None => None
                })
              : _*))
        case colType: ArrayType =>
          colType.elementType match {
            case innerType: StructType =>
              Some(struct(innerType.fields
                .flatMap(f =>
                  dropSubColumn(col.getField(f.name), f.dataType, s"$fullColName.${f.name}", dropColName) match {
                    case Some(x) => Some(x.alias(f.name))
                    case None => None
                  })
                : _*))
          }

        case other => Some(col)
      }
    } else {
      Some(col)
    }
  }

  protected def dropColumn(df: DataFrame, colName: String): DataFrame = {
    df.schema.fields
      .flatMap(f => {
        if (colName.startsWith(s"${f.name}.")) {
          dropSubColumn(col(f.name), f.dataType, f.name, colName) match {
            case Some(x) => Some((f.name, x))
            case None => None
          }
        } else {
          None
        }
      })
      .foldLeft(df.drop(colName)) {
        case (df, (colName, column)) => df.withColumn(colName, column)
      }
  }

  /**
    * Extended version of DataFrame that allows to operate on nested fields
    */
  implicit class ExtendedDataFrame(df: DataFrame) extends Serializable {
    /**
      * Drops nested field from DataFrame
      *
      * @param colName Dot-separated nested field name
      */
    def dropNestedColumn(colName: String): DataFrame = {
      DataFrameUtils.dropColumn(df, colName)
    }
  }

}
  • The call to struct within case colType: ArrayType needs to be wrapped in array, or else you "lose" the array wrapping a parent of the column removed. In addition, the remaining items in the lowest struct (i.e. the one with a member that gets removed) get converted to array for some reason, which I'm still debugging. – Jeff Evans Oct 29 at 20:55
  • @JeffEvans did you find the reason why that happens (field getting converted to array) ? I debugged all day long and I can't understand what Spark's doing there. Might be a bug? – Doru Chiulan Nov 26 at 16:27
  • Not sure. It's possible the code we're working off of isn't correct, but I can't understand the innards of the Spark library code well enough yet to say for certain. – Jeff Evans Nov 28 at 22:42
2

Following spektom's code snippet for scala, I've created a similar code in Java. Since java 8 doesn't have foldLeft, I used forEachOrdered. This code is suitable for spark 2.x (I'm using 2.1) Also I noted that dropping a column and adding it using withColumn with the same name doesn't work, so I'm just replacing the column, and it seem to work.

Code is not fully tested, hope it works :-)

public class DataFrameUtils {

public static Dataset<Row> dropNestedColumn(Dataset<Row> dataFrame, String columnName) {
    final DataFrameFolder dataFrameFolder = new DataFrameFolder(dataFrame);
    Arrays.stream(dataFrame.schema().fields())
        .flatMap( f -> {
           if (columnName.startsWith(f.name() + ".")) {
               final Optional<Column> column = dropSubColumn(col(f.name()), f.dataType(), f.name(), columnName);
               if (column.isPresent()) {
                   return Stream.of(new Tuple2<>(f.name(), column));
               } else {
                   return Stream.empty();
               }
           } else {
               return Stream.empty();
           }
        }).forEachOrdered(colTuple -> dataFrameFolder.accept(colTuple));

    return dataFrameFolder.getDF();
}

private static Optional<Column> dropSubColumn(Column col, DataType colType, String fullColumnName, String dropColumnName) {
    Optional<Column> column = Optional.empty();
    if (!fullColumnName.equals(dropColumnName)) {
        if (colType instanceof StructType) {
            if (dropColumnName.startsWith(fullColumnName + ".")) {
                column = Optional.of(struct(getColumns(col, (StructType)colType, fullColumnName, dropColumnName)));
            }
        } else {
            column = Optional.of(col);
        }
    }

    return column;
}

private static Column[] getColumns(Column col, StructType colType, String fullColumnName, String dropColumnName) {
    return Arrays.stream(colType.fields())
        .flatMap(f -> {
                    final Optional<Column> column = dropSubColumn(col.getField(f.name()), f.dataType(),
                            fullColumnName + "." + f.name(), dropColumnName);
                    if (column.isPresent()) {
                        return Stream.of(column.get().alias(f.name()));
                    } else {
                        return Stream.empty();
                    }
                }
        ).toArray(Column[]::new);

}

private static class DataFrameFolder implements Consumer<Tuple2<String, Optional<Column>>> {
    private Dataset<Row> df;

    public DataFrameFolder(Dataset<Row> df) {
        this.df = df;
    }

    public Dataset<Row> getDF() {
        return df;
    }

    @Override
    public void accept(Tuple2<String, Optional<Column>> colTuple) {
        if (!colTuple._2().isPresent()) {
            df = df.drop(colTuple._1());
        } else {
            df = df.withColumn(colTuple._1(), colTuple._2().get());
        }
    }
}

Usage example:

private class Pojo {
    private String str;
    private Integer number;
    private List<String> strList;
    private Pojo2 pojo2;

    public String getStr() {
        return str;
    }

    public Integer getNumber() {
        return number;
    }

    public List<String> getStrList() {
        return strList;
    }

    public Pojo2 getPojo2() {
        return pojo2;
    }

}

private class Pojo2 {
    private String str;
    private Integer number;
    private List<String> strList;

    public String getStr() {
        return str;
    }

    public Integer getNumber() {
        return number;
    }

    public List<String> getStrList() {
        return strList;
    }

}

SQLContext context = new SQLContext(new SparkContext("local[1]", "test"));
Dataset<Row> df = context.createDataFrame(Collections.emptyList(), Pojo.class);
Dataset<Row> dfRes = DataFrameUtils.dropNestedColumn(df, "pojo2.str");

Original struct:

root
 |-- number: integer (nullable = true)
 |-- pojo2: struct (nullable = true)
 |    |-- number: integer (nullable = true)
 |    |-- str: string (nullable = true)
 |    |-- strList: array (nullable = true)
 |    |    |-- element: string (containsNull = true)
 |-- str: string (nullable = true)
 |-- strList: array (nullable = true)
 |    |-- element: string (containsNull = true)

After drop:

root
 |-- number: integer (nullable = true)
 |-- pojo2: struct (nullable = false)
 |    |-- number: integer (nullable = true)
 |    |-- strList: array (nullable = true)
 |    |    |-- element: string (containsNull = true)
 |-- str: string (nullable = true)
 |-- strList: array (nullable = true)
 |    |-- element: string (containsNull = true)
  • add a simple example of how to call it and i will upvote you – Panagiotis Drakatos Dec 4 '17 at 21:49
  • 1
    Added usage example per @xXxpRoGrAmmErxXx request – Lior Chaga Dec 5 '17 at 12:56

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