d87a0bb2ca
### What changes were proposed in this pull request? This is to support left semi join in stream-stream join. The implementation of left semi join is (mostly in `StreamingSymmetricHashJoinExec` and `SymmetricHashJoinStateManager`): * For left side input row, check if there's a match on right side state store. * if there's a match, output the left side row, but do not put the row in left side state store (no need to put in state store). * if there's no match, output nothing, but put the row in left side state store (with "matched" field to set to false in state store). * For right side input row, check if there's a match on left side state store. * For all matched left rows in state store, output the rows with "matched" field as false. Set all left rows with "matched" field to be true. Only output the left side rows matched for the first time to guarantee left semi join semantics. * State store eviction: evict rows from left/right side state store below watermark, same as inner join. Note a followup optimization can be to evict matched left side rows from state store earlier, even when the rows are still above watermark. However this needs more change in `SymmetricHashJoinStateManager`, so will leave this as a followup. ### Why are the changes needed? Current stream-stream join supports inner, left outer and right outer join (https://github.com/apache/spark/blob/master/sql/core/src/main/scala/org/apache/spark/sql/execution/streaming/StreamingSymmetricHashJoinExec.scala#L166 ). We do see internally a lot of users are using left semi stream-stream join (not spark structured streaming), e.g. I want to get the ad impression (join left side) which has click (joint right side), but I don't care how many clicks per ad (left semi semantics). ### Does this PR introduce _any_ user-facing change? No. ### How was this patch tested? Added unit tests in `UnsupportedOperationChecker.scala` and `StreamingJoinSuite.scala`. Closes #30076 from c21/stream-join. Authored-by: Cheng Su <chengsu@fb.com> Signed-off-by: Jungtaek Lim (HeartSaVioR) <kabhwan.opensource@gmail.com> |
||
|---|---|---|
| .github | ||
| assembly | ||
| bin | ||
| binder | ||
| build | ||
| common | ||
| conf | ||
| core | ||
| data | ||
| dev | ||
| docs | ||
| examples | ||
| external | ||
| graphx | ||
| hadoop-cloud | ||
| launcher | ||
| licenses | ||
| licenses-binary | ||
| mllib | ||
| mllib-local | ||
| project | ||
| python | ||
| R | ||
| repl | ||
| resource-managers | ||
| sbin | ||
| sql | ||
| streaming | ||
| tools | ||
| .asf.yaml | ||
| .gitattributes | ||
| .gitignore | ||
| .sbtopts | ||
| appveyor.yml | ||
| CONTRIBUTING.md | ||
| LICENSE | ||
| LICENSE-binary | ||
| NOTICE | ||
| NOTICE-binary | ||
| pom.xml | ||
| README.md | ||
| scalastyle-config.xml | ||
Apache Spark
Spark is a unified analytics engine for large-scale data processing. It provides high-level APIs in Scala, Java, Python, and R, and an optimized engine that supports general computation graphs for data analysis. It also supports a rich set of higher-level tools including Spark SQL for SQL and DataFrames, MLlib for machine learning, GraphX for graph processing, and Structured Streaming for stream processing.
Online Documentation
You can find the latest Spark documentation, including a programming guide, on the project web page. This README file only contains basic setup instructions.
Building Spark
Spark is built using Apache Maven. To build Spark and its example programs, run:
./build/mvn -DskipTests clean package
(You do not need to do this if you downloaded a pre-built package.)
More detailed documentation is available from the project site, at "Building Spark".
For general development tips, including info on developing Spark using an IDE, see "Useful Developer Tools".
Interactive Scala Shell
The easiest way to start using Spark is through the Scala shell:
./bin/spark-shell
Try the following command, which should return 1,000,000,000:
scala> spark.range(1000 * 1000 * 1000).count()
Interactive Python Shell
Alternatively, if you prefer Python, you can use the Python shell:
./bin/pyspark
And run the following command, which should also return 1,000,000,000:
>>> spark.range(1000 * 1000 * 1000).count()
Example Programs
Spark also comes with several sample programs in the examples directory.
To run one of them, use ./bin/run-example <class> [params]. For example:
./bin/run-example SparkPi
will run the Pi example locally.
You can set the MASTER environment variable when running examples to submit
examples to a cluster. This can be a mesos:// or spark:// URL,
"yarn" to run on YARN, and "local" to run
locally with one thread, or "local[N]" to run locally with N threads. You
can also use an abbreviated class name if the class is in the examples
package. For instance:
MASTER=spark://host:7077 ./bin/run-example SparkPi
Many of the example programs print usage help if no params are given.
Running Tests
Testing first requires building Spark. Once Spark is built, tests can be run using:
./dev/run-tests
Please see the guidance on how to run tests for a module, or individual tests.
There is also a Kubernetes integration test, see resource-managers/kubernetes/integration-tests/README.md
A Note About Hadoop Versions
Spark uses the Hadoop core library to talk to HDFS and other Hadoop-supported storage systems. Because the protocols have changed in different versions of Hadoop, you must build Spark against the same version that your cluster runs.
Please refer to the build documentation at "Specifying the Hadoop Version and Enabling YARN" for detailed guidance on building for a particular distribution of Hadoop, including building for particular Hive and Hive Thriftserver distributions.
Configuration
Please refer to the Configuration Guide in the online documentation for an overview on how to configure Spark.
Contributing
Please review the Contribution to Spark guide for information on how to get started contributing to the project.