SparkSession.
createDataFrame
Creates a DataFrame from an RDD, a list or a pandas.DataFrame.
DataFrame
RDD
pandas.DataFrame
When schema is a list of column names, the type of each column will be inferred from data.
schema
data
When schema is None, it will try to infer the schema (column names and types) from data, which should be an RDD of either Row, namedtuple, or dict.
None
Row
namedtuple
dict
When schema is pyspark.sql.types.DataType or a datatype string, it must match the real data, or an exception will be thrown at runtime. If the given schema is not pyspark.sql.types.StructType, it will be wrapped into a pyspark.sql.types.StructType as its only field, and the field name will be “value”. Each record will also be wrapped into a tuple, which can be converted to row later.
pyspark.sql.types.DataType
pyspark.sql.types.StructType
If schema inference is needed, samplingRatio is used to determined the ratio of rows used for schema inference. The first row will be used if samplingRatio is None.
samplingRatio
New in version 2.0.0.
Changed in version 2.1.0: Added verifySchema.
an RDD of any kind of SQL data representation (Row, tuple, int, boolean, etc.), or list, or pandas.DataFrame.
tuple
int
boolean
list
a pyspark.sql.types.DataType or a datatype string or a list of column names, default is None. The data type string format equals to pyspark.sql.types.DataType.simpleString, except that top level struct type can omit the struct<> and atomic types use typeName() as their format, e.g. use byte instead of tinyint for pyspark.sql.types.ByteType. We can also use int as a short name for pyspark.sql.types.IntegerType.
pyspark.sql.types.DataType.simpleString
struct<>
typeName()
byte
tinyint
pyspark.sql.types.ByteType
pyspark.sql.types.IntegerType
the sample ratio of rows used for inferring
verify data types of every row against schema. Enabled by default.
Notes
Usage with spark.sql.execution.arrow.pyspark.enabled=True is experimental.
Examples
>>> l = [('Alice', 1)] >>> spark.createDataFrame(l).collect() [Row(_1='Alice', _2=1)] >>> spark.createDataFrame(l, ['name', 'age']).collect() [Row(name='Alice', age=1)]
>>> d = [{'name': 'Alice', 'age': 1}] >>> spark.createDataFrame(d).collect() [Row(age=1, name='Alice')]
>>> rdd = sc.parallelize(l) >>> spark.createDataFrame(rdd).collect() [Row(_1='Alice', _2=1)] >>> df = spark.createDataFrame(rdd, ['name', 'age']) >>> df.collect() [Row(name='Alice', age=1)]
>>> from pyspark.sql import Row >>> Person = Row('name', 'age') >>> person = rdd.map(lambda r: Person(*r)) >>> df2 = spark.createDataFrame(person) >>> df2.collect() [Row(name='Alice', age=1)]
>>> from pyspark.sql.types import * >>> schema = StructType([ ... StructField("name", StringType(), True), ... StructField("age", IntegerType(), True)]) >>> df3 = spark.createDataFrame(rdd, schema) >>> df3.collect() [Row(name='Alice', age=1)]
>>> spark.createDataFrame(df.toPandas()).collect() [Row(name='Alice', age=1)] >>> spark.createDataFrame(pandas.DataFrame([[1, 2]])).collect() [Row(0=1, 1=2)]
>>> spark.createDataFrame(rdd, "a: string, b: int").collect() [Row(a='Alice', b=1)] >>> rdd = rdd.map(lambda row: row[1]) >>> spark.createDataFrame(rdd, "int").collect() [Row(value=1)] >>> spark.createDataFrame(rdd, "boolean").collect() Traceback (most recent call last): ... Py4JJavaError: ...