pyspark-cassandra
is a Python port of the awesome DataStax Cassandra
Connector.
This module provides Python support for Apache Spark's Resilient Distributed Datasets from Apache Cassandra CQL rows using Cassandra Spark Connector within PySpark, both in the interactive shell and in Python programs submitted with spark-submit.
This project was initially forked from @TargetHolding since they no longer maintain it.
Contents:
- Compatibility
- Using with PySpark
- Using with PySpark shell
- Building
- API
- Examples
- Problems / ideas?
- Contributing
Feedback on (in-)compatibility are much appreciated.
The current version of PySpark Cassandra (2.4.x) is successfully used with Spark version 2.4.x.
For Spark versions 2.3.x: use version 2.3.x
For Spark versions 2.0.x, 2.1.x, 2.2.x: use version 0.9.0
for Spark 1.5.x, 1.6.x use older versions
PySpark Cassandra is compatible with Cassandra:
- 2.2.x
- 3.0.x
- 3.11.x
PySpark Cassandra is used with python 2.7, python 3.4+
PySpark Cassandra is currently only packaged for Scala 2.11
Pyspark Cassandra is published at Spark Packages. This allows easy usage with Spark through:
spark-submit \
--packages anguenot/pyspark-cassandra:<version> \
--conf spark.cassandra.connection.host=your,cassandra,node,names
spark-submit \
--jars /path/to/pyspark-cassandra-assembly-<version>.jar \
--py-files /path/to/pyspark-cassandra-assembly-<version>.jar \
--conf spark.cassandra.connection.host=your,cassandra,node,names \
--master spark://spark-master:7077 \
yourscript.py
(also not that the assembly will include the python source files, quite similar to a python source distribution)
Replace spark-submit
with pyspark
to start the interactive shell and don't
provide a script as argument and then import PySpark Cassandra. Note that when
performing this import the sc
variable in pyspark is augmented with
the cassandraTable(...)
method.
import pyspark_cassandra
For Spark Packages Pyspark Cassandra can be published using:
sbt compile
The package can be published locally with:
sbt spPublishLocal
The package can be published to Spark Packages with (requires authentication and authorization):
make publish
A Java / JVM library as well as a python library is required to use PySpark Cassandra. They can be built with:
make dist
This creates a fat jar with the Spark Cassandra Connector and additional classes
for bridging Spark and PySpark for Cassandra data and the .py source files at:
target/scala-2.11/pyspark-cassandra-assembly-<version>.jar
The PySpark Cassandra API aims to stay close to the Cassandra Spark Connector API. Reading its documentation is a good place to start.
The primary representation of CQL rows in PySpark Cassandra is the ROW format.
However sc.cassandraTable(...)
supports the row_format
argument which can be
any of the constants from RowFormat
:
DICT
: The default layout, a CQL row is represented as a python dict with the CQL row columns as keys.TUPLE
: A CQL row is represented as a python tuple with the values in CQL table column order / the order of the selected columns.ROW
: A pyspark_cassandra.Row object representing a CQL row.
Column values are related between CQL and python as follows:
CQL | python |
---|---|
ascii | unicode string |
bigint | long |
blob | bytearray |
boolean | boolean |
counter | int, long |
decimal | decimal |
double | float |
float | float |
inet | str |
int | int |
map | dict |
set | set |
list | list |
text | unicode string |
date | datetime.date |
timestamp | datetime.datetime |
timeuuid | uuid.UUID |
varchar | unicode string |
varint | long |
uuid | uuid.UUID |
UDT | pyspark_cassandra.UDT |
This is the default type to which CQL rows are mapped. It is directly compatible
with pyspark.sql.Row
but is (correctly) mutable and provides some other
improvements.
This type is structurally identical to pyspark_cassandra.Row but serves user defined types. Mapping to custom python types (e.g. via CQLEngine) is not yet supported.
A CassandraSparkContext
is very similar to a regular SparkContext
. It is
created in the same way, can be used to read files, parallelize local data,
broadcast a variable, etc. See the Spark Programming Guide
for more details. But it exposes one additional method:
-
cassandraTable(keyspace, table, ...)
: Returns a CassandraRDD for the given keyspace and table. Additional arguments which can be provided:row_format
can be set to any of thepyspark_cassandra.RowFormat
values (defaults toROW
)split_size
sets the size in the number of CQL rows in each partition (defaults to100000
)fetch_size
sets the number of rows to fetch per request from Cassandra (defaults to1000
)consistency_level
sets with which consistency level to read the data (defaults toLOCAL_ONE
)
PySpark Cassandra supports saving arbitrary RDD's to Cassandra using:
-
rdd.saveToCassandra(keyspace, table, ...)
: Saves an RDD to Cassandra. The RDD is expected to contain dicts with keys mapping to CQL columns. Additional arguments which can be supplied are:columns(iterable)
: The columns to save, i.e. which keys to take from the dicts in the RDD.array
: list of columns to be saved with default behaviour (overwrite)dictionary
: list of columns (keys) and cassandra collections modify operation to perform (values)
-""
: emulate 'array' default behaviour. to be used for non-collection fields
-"append" | "add"
: append to a collection (lists, sets, maps)
-"prepend"
: prepend to a collection (lists)
-"remove"
: remove from a collection (lists, sets)
-"overwrite"
: overwrite a collection (lists, sets, maps)
batch_size(int)
: The size in bytes to batch up in an unlogged batch of CQL inserts.batch_buffer_size(int)
: The maximum number of batches which are 'pending'.batch_grouping_key(string)
: The way batches are formed (defaults to "partition"):all
: any row can be added to any batchreplicaset
: rows are batched for replica setspartition
: rows are batched by their partition key
consistency_level(cassandra.ConsistencyLevel)
: The consistency level used in writing to Cassandra.parallelism_level(int)
: The maximum number of batches written in parallel.throughput_mibps
: Maximum write throughput allowed per single core in MB/s.ttl(int or timedelta)
: The time to live as milliseconds or timedelta to use for the values.timestamp(int, date or datetime)
: The timestamp in milliseconds, date or datetime to use for the values.metrics_enabled(bool)
: Whether to enable task metrics updates.
A CassandraRDD
is very similar to a regular RDD
in pyspark. It is extended
with the following methods:
select(*columns)
: Creates a CassandraRDD with the select clause applied.where(clause, *args)
: Creates a CassandraRDD with a CQL where clause applied. The clause can contain ? markers with the arguments supplied as *args.limit(num)
: Creates a CassandraRDD with the limit clause applied.take(num)
: Takes at mostnum
records from the Cassandra table. Note that iflimit()
was invoked beforetake()
a normal pysparktake()
is performed. Otherwise, first limit is set and then atake()
is performed.cassandraCount()
: Lets Cassandra perform a count, instead of loading the data to Spark first.saveToCassandra(...)
: As above, but the keyspace and/or table may be omitted to save to the same keyspace and/or table.spanBy(*columns)
: Groups rows by the given columns without shuffling.joinWithCassandraTable(keyspace, table)
: Join an RDD with a Cassandra table on the partition key. Use .on(...) to specify other columns to join on. .select(...), .where(...) and .limit(...) can be used as well.deleteFromCassandra(keyspace, table, ...)
: Delete rows and columns from cassandra by implicitdeleteFromCassandra
call
When importing pyspark_cassandra.streaming
the method
``saveToCassandra(...)``` is made available on DStreams. Also support for
joining with a Cassandra table is added:
joinWithCassandraTable(keyspace, table, selected_columns, join_columns)
: Join an RDD with a Cassandra table on the partition key. Use .on(...) to specify other columns to join on. .select(...), .where(...) and .limit(...) can be used as well.deleteFromCassandra(keyspace, table, ...)
: Delete rows and columns from cassandra by implicitdeleteFromCassandra
call
Creating a SparkContext with Cassandra support
import pyspark_cassandra
conf = SparkConf() \
.setAppName("PySpark Cassandra Test") \
.setMaster("spark://spark-master:7077") \
.set("spark.cassandra.connection.host", "cas-1")
sc = CassandraSparkContext(conf=conf)
Using select and where to narrow the data in an RDD and then filter, map, reduce and collect it::
sc \
.cassandraTable("keyspace", "table") \
.select("col-a", "col-b") \
.where("key=?", "x") \
.filter(lambda r: r["col-b"].contains("foo")) \
.map(lambda r: (r["col-a"], 1)
.reduceByKey(lambda a, b: a + b)
.collect()
Storing data in Cassandra::
rdd = sc.parallelize([{
"key": k,
"stamp": datetime.now(),
"val": random() * 10,
"tags": ["a", "b", "c"],
"options": {
"foo": "bar",
"baz": "qux",
}
} for k in ["x", "y", "z"]])
rdd.saveToCassandra(
"keyspace",
"table",
ttl=timedelta(hours=1),
)
Modify CQL collections::
# Cassandra test table schema
# create table test (user_id text, city text, test_set set<text>, test_list list<text>, test_map map<text,text>, PRIMARY KEY (user_id));
rdd = sc.parallelize([{"user_id":"123","city":"berlin","test_set":["a"],"test_list":["a"],"test_map":{"a":"1"}}])
rdd.saveToCassandra("ks","test")
rdd = sc.parallelize([{"user_id":"123","city":"berlin","test_set":["a"],"test_list":["b"],"test_map":{"b":"2"}}])
rdd.saveToCassandra("ks","test", {"user_id":"", "city":"", "test_set":"remove", "test_list":"prepend", "test_map":"append"})
Create a streaming context, convert every line to a generater of words which are saved to cassandra. Through this example all unique words are stored in Cassandra.
The words are wrapped as a tuple so that they are in a format which can be stored. A dict or a pyspark_cassandra.Row object would have worked as well.
from pyspark.streaming import StreamingContext
from pyspark_cassandra import streaming
ssc = StreamingContext(sc, 2)
ssc \
.socketTextStream("localhost", 9999) \
.flatMap(lambda l: ((w,) for w in (l,))) \
.saveToCassandra('keyspace', 'words')
ssc.start()
Joining with Cassandra:
joined = rdd \
.joinWithCassandraTable('keyspace', 'accounts') \
.on('id') \
.select('e-mail', 'followers')
for left, right in joined:
...
Or with a DStream:
joined = dstream.joinWithCassandraTable(self.keyspace, self.table, \
['e-mail', 'followers'], ['id'])
$ pip install bumpversion
$ bumpversion --dry-run --verbose $CURRENT_VERSION --new-version=$NEW_VERSION
$ bumpversion $CURRENT_VERSION --new-version=$NEW_VERSION
$ git push
$ git push --tags origin
Feel free to use the issue tracker propose new functionality and / or report bugs. In case of bugs please provides some code to reproduce the issue or at least some context information such as software used, CQL schema, etc.
- Fork it
- Create your feature branch (git checkout -b my-new-feature)
- Commit your changes (git commit -am 'Add some feature')
- Push to the branch (git push origin my-new-feature)
- Create new Pull Request