## What changes were proposed in this pull request?
It is a common pattern to apply multiple transforms to a `Dataset` (using `Dataset.withColumn` for example. This is currently quite expensive because we run `CheckAnalysis` on the full plan and create an encoder for each intermediate `Dataset`.
This PR extends the usage of the `AnalysisBarrier` to include `CheckAnalysis`. By doing this we hide the already analyzed plan from `CheckAnalysis` because barrier is a `LeafNode`. The `AnalysisBarrier` is in the `FinishAnalysis` phase of the optimizer.
We also make binding the `Dataset` encoder lazy. The bound encoder is only needed when we materialize the dataset.
## How was this patch tested?
Existing test should cover this.
Author: Herman van Hovell <hvanhovell@databricks.com>
Closes#20402 from hvanhovell/SPARK-23223.
## What changes were proposed in this pull request?
Currently, all Aggregate operations will go into RemoveRepetitionFromGroupExpressions, but there is no group expression or there is no duplicate group expression in group expression, we not need copy for logic plan.
## How was this patch tested?
the existed test case.
Author: caoxuewen <cao.xuewen@zte.com.cn>
Closes#20375 from heary-cao/RepetitionGroupExpressions.
## What changes were proposed in this pull request?
Currently we have `ReadTask` in data source v2 reader, while in writer we have `DataWriterFactory`.
To make the naming consistent and better, renaming `ReadTask` to `DataReaderFactory`.
## How was this patch tested?
Unit test
Author: Wang Gengliang <ltnwgl@gmail.com>
Closes#20397 from gengliangwang/rename.
## What changes were proposed in this pull request?
This PR proposes to expose few internal configurations found in the documentation.
Also it fixes the description for `spark.sql.execution.arrow.enabled`.
It's quite self-explanatory.
## How was this patch tested?
N/A
Author: hyukjinkwon <gurwls223@gmail.com>
Closes#20403 from HyukjinKwon/minor-doc-arrow.
## What changes were proposed in this pull request?
Replace streaming V2 sinks with a unified StreamWriteSupport interface, with a shim to use it with microbatch execution.
Add a new SQL config to use for disabling V2 sinks, falling back to the V1 sink implementation.
## How was this patch tested?
Existing tests, which in the case of Kafka (the only existing continuous V2 sink) now use V2 for microbatch.
Author: Jose Torres <jose@databricks.com>
Closes#20369 from jose-torres/streaming-sink.
## What changes were proposed in this pull request?
Currently shuffle repartition uses RoundRobinPartitioning, the generated result is nondeterministic since the sequence of input rows are not determined.
The bug can be triggered when there is a repartition call following a shuffle (which would lead to non-deterministic row ordering), as the pattern shows below:
upstream stage -> repartition stage -> result stage
(-> indicate a shuffle)
When one of the executors process goes down, some tasks on the repartition stage will be retried and generate inconsistent ordering, and some tasks of the result stage will be retried generating different data.
The following code returns 931532, instead of 1000000:
```
import scala.sys.process._
import org.apache.spark.TaskContext
val res = spark.range(0, 1000 * 1000, 1).repartition(200).map { x =>
x
}.repartition(200).map { x =>
if (TaskContext.get.attemptNumber == 0 && TaskContext.get.partitionId < 2) {
throw new Exception("pkill -f java".!!)
}
x
}
res.distinct().count()
```
In this PR, we propose a most straight-forward way to fix this problem by performing a local sort before partitioning, after we make the input row ordering deterministic, the function from rows to partitions is fully deterministic too.
The downside of the approach is that with extra local sort inserted, the performance of repartition() will go down, so we add a new config named `spark.sql.execution.sortBeforeRepartition` to control whether this patch is applied. The patch is default enabled to be safe-by-default, but user may choose to manually turn it off to avoid performance regression.
This patch also changes the output rows ordering of repartition(), that leads to a bunch of test cases failure because they are comparing the results directly.
## How was this patch tested?
Add unit test in ExchangeSuite.
With this patch(and `spark.sql.execution.sortBeforeRepartition` set to true), the following query returns 1000000:
```
import scala.sys.process._
import org.apache.spark.TaskContext
spark.conf.set("spark.sql.execution.sortBeforeRepartition", "true")
val res = spark.range(0, 1000 * 1000, 1).repartition(200).map { x =>
x
}.repartition(200).map { x =>
if (TaskContext.get.attemptNumber == 0 && TaskContext.get.partitionId < 2) {
throw new Exception("pkill -f java".!!)
}
x
}
res.distinct().count()
res7: Long = 1000000
```
Author: Xingbo Jiang <xingbo.jiang@databricks.com>
Closes#20393 from jiangxb1987/shuffle-repartition.
## What changes were proposed in this pull request?
**Proposal**
Add a per-query ID to the codegen stages as represented by `WholeStageCodegenExec` operators. This ID will be used in
- the explain output of the physical plan, and in
- the generated class name.
Specifically, this ID will be stable within a query, counting up from 1 in depth-first post-order for all the `WholeStageCodegenExec` inserted into a plan.
The ID value 0 is reserved for "free-floating" `WholeStageCodegenExec` objects, which may have been created for one-off purposes, e.g. for fallback handling of codegen stages that failed to codegen the whole stage and wishes to codegen a subset of the children operators (as seen in `org.apache.spark.sql.execution.FileSourceScanExec#doExecute`).
Example: for the following query:
```scala
scala> spark.conf.set("spark.sql.autoBroadcastJoinThreshold", 1)
scala> val df1 = spark.range(10).select('id as 'x, 'id + 1 as 'y).orderBy('x).select('x + 1 as 'z, 'y)
df1: org.apache.spark.sql.DataFrame = [z: bigint, y: bigint]
scala> val df2 = spark.range(5)
df2: org.apache.spark.sql.Dataset[Long] = [id: bigint]
scala> val query = df1.join(df2, 'z === 'id)
query: org.apache.spark.sql.DataFrame = [z: bigint, y: bigint ... 1 more field]
```
The explain output before the change is:
```scala
scala> query.explain
== Physical Plan ==
*SortMergeJoin [z#9L], [id#13L], Inner
:- *Sort [z#9L ASC NULLS FIRST], false, 0
: +- Exchange hashpartitioning(z#9L, 200)
: +- *Project [(x#3L + 1) AS z#9L, y#4L]
: +- *Sort [x#3L ASC NULLS FIRST], true, 0
: +- Exchange rangepartitioning(x#3L ASC NULLS FIRST, 200)
: +- *Project [id#0L AS x#3L, (id#0L + 1) AS y#4L]
: +- *Range (0, 10, step=1, splits=8)
+- *Sort [id#13L ASC NULLS FIRST], false, 0
+- Exchange hashpartitioning(id#13L, 200)
+- *Range (0, 5, step=1, splits=8)
```
Note how codegen'd operators are annotated with a prefix `"*"`. See how the `SortMergeJoin` operator and its direct children `Sort` operators are adjacent and all annotated with the `"*"`, so it's hard to tell they're actually in separate codegen stages.
and after this change it'll be:
```scala
scala> query.explain
== Physical Plan ==
*(6) SortMergeJoin [z#9L], [id#13L], Inner
:- *(3) Sort [z#9L ASC NULLS FIRST], false, 0
: +- Exchange hashpartitioning(z#9L, 200)
: +- *(2) Project [(x#3L + 1) AS z#9L, y#4L]
: +- *(2) Sort [x#3L ASC NULLS FIRST], true, 0
: +- Exchange rangepartitioning(x#3L ASC NULLS FIRST, 200)
: +- *(1) Project [id#0L AS x#3L, (id#0L + 1) AS y#4L]
: +- *(1) Range (0, 10, step=1, splits=8)
+- *(5) Sort [id#13L ASC NULLS FIRST], false, 0
+- Exchange hashpartitioning(id#13L, 200)
+- *(4) Range (0, 5, step=1, splits=8)
```
Note that the annotated prefix becomes `"*(id) "`. See how the `SortMergeJoin` operator and its direct children `Sort` operators have different codegen stage IDs.
It'll also show up in the name of the generated class, as a suffix in the format of `GeneratedClass$GeneratedIterator$id`.
For example, note how `GeneratedClass$GeneratedIteratorForCodegenStage3` and `GeneratedClass$GeneratedIteratorForCodegenStage6` in the following stack trace corresponds to the IDs shown in the explain output above:
```
"Executor task launch worker for task 42412957" daemon prio=5 tid=0x58 nid=NA runnable
java.lang.Thread.State: RUNNABLE
at org.apache.spark.sql.execution.UnsafeExternalRowSorter.insertRow(UnsafeExternalRowSorter.java:109)
at org.apache.spark.sql.catalyst.expressions.GeneratedClass$GeneratedIteratorForCodegenStage3.sort_addToSorter$(generated.java:32)
at org.apache.spark.sql.catalyst.expressions.GeneratedClass$GeneratedIteratorForCodegenStage3.processNext(generated.java:41)
at org.apache.spark.sql.execution.BufferedRowIterator.hasNext(BufferedRowIterator.java:43)
at org.apache.spark.sql.execution.WholeStageCodegenExec$$anonfun$9$$anon$1.hasNext(WholeStageCodegenExec.scala:494)
at org.apache.spark.sql.catalyst.expressions.GeneratedClass$GeneratedIteratorForCodegenStage6.findNextInnerJoinRows$(generated.java:42)
at org.apache.spark.sql.catalyst.expressions.GeneratedClass$GeneratedIteratorForCodegenStage6.processNext(generated.java:101)
at org.apache.spark.sql.execution.BufferedRowIterator.hasNext(BufferedRowIterator.java:43)
at org.apache.spark.sql.execution.WholeStageCodegenExec$$anonfun$11$$anon$2.hasNext(WholeStageCodegenExec.scala:513)
at org.apache.spark.sql.execution.SparkPlan$$anonfun$2.apply(SparkPlan.scala:253)
at org.apache.spark.sql.execution.SparkPlan$$anonfun$2.apply(SparkPlan.scala:247)
at org.apache.spark.rdd.RDD$$anonfun$mapPartitionsInternal$1$$anonfun$apply$25.apply(RDD.scala:828)
at org.apache.spark.rdd.RDD$$anonfun$mapPartitionsInternal$1$$anonfun$apply$25.apply(RDD.scala:828)
at org.apache.spark.rdd.MapPartitionsRDD.compute(MapPartitionsRDD.scala:38)
at org.apache.spark.rdd.RDD.computeOrReadCheckpoint(RDD.scala:324)
at org.apache.spark.rdd.RDD.iterator(RDD.scala:288)
at org.apache.spark.scheduler.ResultTask.runTask(ResultTask.scala:87)
at org.apache.spark.scheduler.Task.run(Task.scala:109)
at org.apache.spark.executor.Executor$TaskRunner.run(Executor.scala:345)
at java.util.concurrent.ThreadPoolExecutor.runWorker(ThreadPoolExecutor.java:1142)
at java.util.concurrent.ThreadPoolExecutor$Worker.run(ThreadPoolExecutor.java:617)
at java.lang.Thread.run(Thread.java:748)
```
**Rationale**
Right now, the codegen from Spark SQL lacks the means to differentiate between a couple of things:
1. It's hard to tell which physical operators are in the same WholeStageCodegen stage. Note that this "stage" is a separate notion from Spark's RDD execution stages; this one is only to delineate codegen units.
There can be adjacent physical operators that are both codegen'd but are in separate codegen stages. Some of this is due to hacky implementation details, such as the case with `SortMergeJoin` and its `Sort` inputs -- they're hard coded to be split into separate stages although both are codegen'd.
When printing out the explain output of the physical plan, you'd only see the codegen'd physical operators annotated with a preceding star (`'*'`) but would have no way to figure out if they're in the same stage.
2. Performance/error diagnosis
The generated code has class/method names that are hard to differentiate between queries or even between codegen stages within the same query. If we use a Java-level profiler to collect profiles, or if we encounter a Java-level exception with a stack trace in it, it's really hard to tell which part of a query it's at.
By introducing a per-query codegen stage ID, we'd at least be able to know which codegen stage (and in turn, which group of physical operators) was a profile tick or an exception happened.
The reason why this proposal uses a per-query ID is because it's stable within a query, so that multiple runs of the same query will see the same resulting IDs. This both benefits understandability for users, and also it plays well with the codegen cache in Spark SQL which uses the generated source code as the key.
The downside to using per-query IDs as opposed to a per-session or globally incrementing ID is of course we can't tell apart different query runs with this ID alone. But for now I believe this is a good enough tradeoff.
## How was this patch tested?
Existing tests. This PR does not involve any runtime behavior changes other than some name changes.
The SQL query test suites that compares explain outputs have been updates to ignore the newly added `codegenStageId`.
Author: Kris Mok <kris.mok@databricks.com>
Closes#20224 from rednaxelafx/wsc-codegenstageid.
## What changes were proposed in this pull request?
It has been observed in SPARK-21603 that whole-stage codegen suffers performance degradation, if the generated functions are too long to be optimized by JIT.
We basically produce a single function to incorporate generated codes from all physical operators in whole-stage. Thus, it is possibly to grow the size of generated function over a threshold that we can't have JIT optimization for it anymore.
This patch is trying to decouple the logic of consuming rows in physical operators to avoid a giant function processing rows.
## How was this patch tested?
Added tests.
Author: Liang-Chi Hsieh <viirya@gmail.com>
Closes#18931 from viirya/SPARK-21717.
## What changes were proposed in this pull request?
The `GenArrayData.genCodeToCreateArrayData` produces illegal java code when code splitting is enabled. This is used in `CreateArray` and `CreateMap` expressions for complex object arrays.
This issue is caused by a typo.
## How was this patch tested?
Added a regression test in `complexTypesSuite`.
Author: Herman van Hovell <hvanhovell@databricks.com>
Closes#20391 from hvanhovell/SPARK-23208.
## What changes were proposed in this pull request?
This PR is repaired as follows
1、update y -> x in "left outer join" test case ,maybe is mistake.
2、add a new test case:"left outer join and left sides are limited"
3、add a new test case:"left outer join and right sides are limited"
4、add a new test case: "right outer join and right sides are limited"
5、add a new test case: "right outer join and left sides are limited"
6、Remove annotations without code implementation
## How was this patch tested?
add new unit test case.
Author: caoxuewen <cao.xuewen@zte.com.cn>
Closes#20381 from heary-cao/LimitPushdownSuite.
## What changes were proposed in this pull request?
We need to override the prettyName for bit_length and octet_length for getting the expected auto-generated alias name.
## How was this patch tested?
The existing tests
Author: gatorsmile <gatorsmile@gmail.com>
Closes#20358 from gatorsmile/test2.3More.
## What changes were proposed in this pull request?
Add support for using pandas UDFs with groupby().agg().
This PR introduces a new type of pandas UDF - group aggregate pandas UDF. This type of UDF defines a transformation of multiple pandas Series -> a scalar value. Group aggregate pandas UDFs can be used with groupby().agg(). Note group aggregate pandas UDF doesn't support partial aggregation, i.e., a full shuffle is required.
This PR doesn't support group aggregate pandas UDFs that return ArrayType, StructType or MapType. Support for these types is left for future PR.
## How was this patch tested?
GroupbyAggPandasUDFTests
Author: Li Jin <ice.xelloss@gmail.com>
Closes#19872 from icexelloss/SPARK-22274-groupby-agg.
## What changes were proposed in this pull request?
a new interface which allows data source to report partitioning and avoid shuffle at Spark side.
The design is pretty like the internal distribution/partitioing framework. Spark defines a `Distribution` interfaces and several concrete implementations, and ask the data source to report a `Partitioning`, the `Partitioning` should tell Spark if it can satisfy a `Distribution` or not.
## How was this patch tested?
new test
Author: Wenchen Fan <wenchen@databricks.com>
Closes#20201 from cloud-fan/partition-reporting.
## What changes were proposed in this pull request?
Typo fixes
## How was this patch tested?
Local build / Doc-only changes
Author: Jacek Laskowski <jacek@japila.pl>
Closes#20344 from jaceklaskowski/typo-fixes.
## What changes were proposed in this pull request?
Several improvements:
* provide a default implementation for the batch get methods
* rename `getChildColumn` to `getChild`, which is more concise
* remove `getStruct(int, int)`, it's only used to simplify the codegen, which is an internal thing, we should not add a public API for this purpose.
## How was this patch tested?
existing tests
Author: Wenchen Fan <wenchen@databricks.com>
Closes#20277 from cloud-fan/column-vector.
## What changes were proposed in this pull request?
CheckCartesianProduct raises an AnalysisException also when the join condition is always false/null. In this case, we shouldn't raise it, since the result will not be a cartesian product.
## How was this patch tested?
added UT
Author: Marco Gaido <marcogaido91@gmail.com>
Closes#20333 from mgaido91/SPARK-23087.
## What changes were proposed in this pull request?
This is a follow-up of #20246.
If a UDT in Python doesn't have its corresponding Scala UDT, cast to string will be the raw string of the internal value, e.g. `"org.apache.spark.sql.catalyst.expressions.UnsafeArrayDataxxxxxxxx"` if the internal type is `ArrayType`.
This pr fixes it by using its `sqlType` casting.
## How was this patch tested?
Added a test and existing tests.
Author: Takuya UESHIN <ueshin@databricks.com>
Closes#20306 from ueshin/issues/SPARK-23054/fup1.
## What changes were proposed in this pull request?
There were two related fixes regarding `from_json`, `get_json_object` and `json_tuple` ([Fix#1](c8803c0685),
[Fix#2](86174ea89b)), but they weren't comprehensive it seems. I wanted to extend those fixes to all the parsers, and add tests for each case.
## How was this patch tested?
Regression tests
Author: Burak Yavuz <brkyvz@gmail.com>
Closes#20302 from brkyvz/json-invfix.
## What changes were proposed in this pull request?
When there is an operation between Decimals and the result is a number which is not representable exactly with the result's precision and scale, Spark is returning `NULL`. This was done to reflect Hive's behavior, but it is against SQL ANSI 2011, which states that "If the result cannot be represented exactly in the result type, then whether it is rounded or truncated is implementation-defined". Moreover, Hive now changed its behavior in order to respect the standard, thanks to HIVE-15331.
Therefore, the PR propose to:
- update the rules to determine the result precision and scale according to the new Hive's ones introduces in HIVE-15331;
- round the result of the operations, when it is not representable exactly with the result's precision and scale, instead of returning `NULL`
- introduce a new config `spark.sql.decimalOperations.allowPrecisionLoss` which default to `true` (ie. the new behavior) in order to allow users to switch back to the previous one.
Hive behavior reflects SQLServer's one. The only difference is that the precision and scale are adjusted for all the arithmetic operations in Hive, while SQL Server is said to do so only for multiplications and divisions in the documentation. This PR follows Hive's behavior.
A more detailed explanation is available here: https://mail-archives.apache.org/mod_mbox/spark-dev/201712.mbox/%3CCAEorWNAJ4TxJR9NBcgSFMD_VxTg8qVxusjP%2BAJP-x%2BJV9zH-yA%40mail.gmail.com%3E.
## How was this patch tested?
modified and added UTs. Comparisons with results of Hive and SQLServer.
Author: Marco Gaido <marcogaido91@gmail.com>
Closes#20023 from mgaido91/SPARK-22036.
## What changes were proposed in this pull request?
Previously, PR #19201 fix the problem of non-converging constraints.
After that PR #19149 improve the loop and constraints is inferred only once.
So the problem of non-converging constraints is gone.
However, the case below will fail.
```
spark.range(5).write.saveAsTable("t")
val t = spark.read.table("t")
val left = t.withColumn("xid", $"id" + lit(1)).as("x")
val right = t.withColumnRenamed("id", "xid").as("y")
val df = left.join(right, "xid").filter("id = 3").toDF()
checkAnswer(df, Row(4, 3))
```
Because `aliasMap` replace all the aliased child. See the test case in PR for details.
This PR is to fix this bug by removing useless code for preventing non-converging constraints.
It can be also fixed with #20270, but this is much simpler and clean up the code.
## How was this patch tested?
Unit test
Author: Wang Gengliang <ltnwgl@gmail.com>
Closes#20278 from gengliangwang/FixConstraintSimple.
## What changes were proposed in this pull request?
ORC filter push-down is disabled by default from the beginning, [SPARK-2883](aa31e431fc (diff-41ef65b9ef5b518f77e2a03559893f4dR149)
).
Now, Apache Spark starts to depend on Apache ORC 1.4.1. For Apache Spark 2.3, this PR turns on ORC filter push-down by default like Parquet ([SPARK-9207](https://issues.apache.org/jira/browse/SPARK-21783)) as a part of [SPARK-20901](https://issues.apache.org/jira/browse/SPARK-20901), "Feature parity for ORC with Parquet".
## How was this patch tested?
Pass the existing tests.
Author: Dongjoon Hyun <dongjoon@apache.org>
Closes#20265 from dongjoon-hyun/SPARK-21783.
## What changes were proposed in this pull request?
There are already quite a few integration tests using window frames, but the unit tests coverage is not ideal.
In this PR the already existing tests are reorganized, extended and where gaps found additional cases added.
## How was this patch tested?
Automated: Pass the Jenkins.
Author: Gabor Somogyi <gabor.g.somogyi@gmail.com>
Closes#20019 from gaborgsomogyi/SPARK-22361.
## What changes were proposed in this pull request?
The following SQL involving scalar correlated query returns a map exception.
``` SQL
SELECT t1a
FROM t1
WHERE t1a = (SELECT count(*)
FROM t2
WHERE t2c = t1c
HAVING count(*) >= 1)
```
``` SQL
key not found: ExprId(278,786682bb-41f9-4bd5-a397-928272cc8e4e)
java.util.NoSuchElementException: key not found: ExprId(278,786682bb-41f9-4bd5-a397-928272cc8e4e)
at scala.collection.MapLike$class.default(MapLike.scala:228)
at scala.collection.AbstractMap.default(Map.scala:59)
at scala.collection.MapLike$class.apply(MapLike.scala:141)
at scala.collection.AbstractMap.apply(Map.scala:59)
at org.apache.spark.sql.catalyst.optimizer.RewriteCorrelatedScalarSubquery$.org$apache$spark$sql$catalyst$optimizer$RewriteCorrelatedScalarSubquery$$evalSubqueryOnZeroTups(subquery.scala:378)
at org.apache.spark.sql.catalyst.optimizer.RewriteCorrelatedScalarSubquery$$anonfun$org$apache$spark$sql$catalyst$optimizer$RewriteCorrelatedScalarSubquery$$constructLeftJoins$1.apply(subquery.scala:430)
at org.apache.spark.sql.catalyst.optimizer.RewriteCorrelatedScalarSubquery$$anonfun$org$apache$spark$sql$catalyst$optimizer$RewriteCorrelatedScalarSubquery$$constructLeftJoins$1.apply(subquery.scala:426)
```
In this case, after evaluating the HAVING clause "count(*) > 1" statically
against the binding of aggregtation result on empty input, we determine
that this query will not have a the count bug. We should simply return
the evalSubqueryOnZeroTups with empty value.
(Please fill in changes proposed in this fix)
## How was this patch tested?
A new test was added in the Subquery bucket.
Author: Dilip Biswal <dbiswal@us.ibm.com>
Closes#20283 from dilipbiswal/scalar-count-defect.
## What changes were proposed in this pull request?
When a user puts the wrong number of parameters in a function, an AnalysisException is thrown. If the function is a UDF, he user is told how many parameters the function expected and how many he/she put. If the function, instead, is a built-in one, no information about the number of parameters expected and the actual one is provided. This can help in some cases, to debug the errors (eg. bad quotes escaping may lead to a different number of parameters than expected, etc. etc.)
The PR adds the information about the number of parameters passed and the expected one, analogously to what happens for UDF.
## How was this patch tested?
modified existing UT + manual test
Author: Marco Gaido <marcogaido91@gmail.com>
Closes#20271 from mgaido91/SPARK-23080.
## What changes were proposed in this pull request?
Problem: it throw TempTableAlreadyExistsException and output "Temporary table '$table' already exists" when we create temp view by using org.apache.spark.sql.catalyst.catalog.GlobalTempViewManager#create, it's improper.
So fix improper information about TempTableAlreadyExistsException when create temp view:
change "Temporary table" to "Temporary view"
## How was this patch tested?
test("rename temporary view - destination table already exists, with: CREATE TEMPORARY view")
test("rename temporary view - destination table with database name,with:CREATE TEMPORARY view")
Author: xubo245 <601450868@qq.com>
Closes#20227 from xubo245/fixDeprecated.
## What changes were proposed in this pull request?
This pr fixed the issue when casting `UserDefinedType`s into strings;
```
>>> from pyspark.ml.classification import MultilayerPerceptronClassifier
>>> from pyspark.ml.linalg import Vectors
>>> df = spark.createDataFrame([(0.0, Vectors.dense([0.0, 0.0])), (1.0, Vectors.dense([0.0, 1.0]))], ["label", "features"])
>>> df.selectExpr("CAST(features AS STRING)").show(truncate = False)
+-------------------------------------------+
|features |
+-------------------------------------------+
|[6,1,0,0,2800000020,2,0,0,0] |
|[6,1,0,0,2800000020,2,0,0,3ff0000000000000]|
+-------------------------------------------+
```
The root cause is that `Cast` handles input data as `UserDefinedType.sqlType`(this is underlying storage type), so we should pass data into `UserDefinedType.deserialize` then `toString`.
This pr modified the result into;
```
+---------+
|features |
+---------+
|[0.0,0.0]|
|[0.0,1.0]|
+---------+
```
## How was this patch tested?
Added tests in `UserDefinedTypeSuite `.
Author: Takeshi Yamamuro <yamamuro@apache.org>
Closes#20246 from maropu/SPARK-23054.
## What changes were proposed in this pull request?
SHOW DATABASES (LIKE pattern = STRING)? Can be like the back increase?
When using this command, LIKE keyword can be removed.
You can refer to the SHOW TABLES command, SHOW TABLES 'test *' and SHOW TABELS like 'test *' can be used.
Similarly SHOW DATABASES 'test *' and SHOW DATABASES like 'test *' can be used.
## How was this patch tested?
unit tests manual tests
Please review http://spark.apache.org/contributing.html before opening a pull request.
Author: guoxiaolong <guo.xiaolong1@zte.com.cn>
Closes#20194 from guoxiaolongzte/SPARK-22999.
## What changes were proposed in this pull request?
`AnalysisBarrier` in the current master cuts off explain results for parsed logical plans;
```
scala> Seq((1, 1)).toDF("a", "b").groupBy("a").count().sample(0.1).explain(true)
== Parsed Logical Plan ==
Sample 0.0, 0.1, false, -7661439431999668039
+- AnalysisBarrier Aggregate [a#5], [a#5, count(1) AS count#14L]
```
To fix this, `AnalysisBarrier` needs to override `innerChildren` and this pr changed the output to;
```
== Parsed Logical Plan ==
Sample 0.0, 0.1, false, -5086223488015741426
+- AnalysisBarrier
+- Aggregate [a#5], [a#5, count(1) AS count#14L]
+- Project [_1#2 AS a#5, _2#3 AS b#6]
+- LocalRelation [_1#2, _2#3]
```
## How was this patch tested?
Added tests in `DataFrameSuite`.
Author: Takeshi Yamamuro <yamamuro@apache.org>
Closes#20247 from maropu/SPARK-23021-2.
## What changes were proposed in this pull request?
as per discussion in https://github.com/apache/spark/pull/19864#discussion_r156847927
the current HadoopFsRelation is purely based on the underlying file size which is not accurate and makes the execution vulnerable to errors like OOM
Users can enable CBO with the functionalities in https://github.com/apache/spark/pull/19864 to avoid this issue
This JIRA proposes to add a configurable factor to sizeInBytes method in HadoopFsRelation class so that users can mitigate this problem without CBO
## How was this patch tested?
Existing tests
Author: CodingCat <zhunansjtu@gmail.com>
Author: Nan Zhu <nanzhu@uber.com>
Closes#20072 from CodingCat/SPARK-22790.
## What changes were proposed in this pull request?
Add support for `Null` type in the `schemaFor` method for Scala reflection.
## How was this patch tested?
Added UT
Author: Marco Gaido <marcogaido91@gmail.com>
Closes#20219 from mgaido91/SPARK-23025.
## What changes were proposed in this pull request?
(courtesy of liancheng)
Spark SQL supports both global aggregation and grouping aggregation. Global aggregation always return a single row with the initial aggregation state as the output, even there are zero input rows. Spark implements this by simply checking the number of grouping keys and treats an aggregation as a global aggregation if it has zero grouping keys.
However, this simple principle drops the ball in the following case:
```scala
spark.emptyDataFrame.dropDuplicates().agg(count($"*") as "c").show()
// +---+
// | c |
// +---+
// | 1 |
// +---+
```
The reason is that:
1. `df.dropDuplicates()` is roughly translated into something equivalent to:
```scala
val allColumns = df.columns.map { col }
df.groupBy(allColumns: _*).agg(allColumns.head, allColumns.tail: _*)
```
This translation is implemented in the rule `ReplaceDeduplicateWithAggregate`.
2. `spark.emptyDataFrame` contains zero columns and zero rows.
Therefore, rule `ReplaceDeduplicateWithAggregate` makes a confusing transformation roughly equivalent to the following one:
```scala
spark.emptyDataFrame.dropDuplicates()
=> spark.emptyDataFrame.groupBy().agg(Map.empty[String, String])
```
The above transformation is confusing because the resulting aggregate operator contains no grouping keys (because `emptyDataFrame` contains no columns), and gets recognized as a global aggregation. As a result, Spark SQL allocates a single row filled by the initial aggregation state and uses it as the output, and returns a wrong result.
To fix this issue, this PR tweaks `ReplaceDeduplicateWithAggregate` by appending a literal `1` to the grouping key list of the resulting `Aggregate` operator when the input plan contains zero output columns. In this way, `spark.emptyDataFrame.dropDuplicates()` is now translated into a grouping aggregation, roughly depicted as:
```scala
spark.emptyDataFrame.dropDuplicates()
=> spark.emptyDataFrame.groupBy(lit(1)).agg(Map.empty[String, String])
```
Which is now properly treated as a grouping aggregation and returns the correct answer.
## How was this patch tested?
New unit tests added
Author: Feng Liu <fengliu@databricks.com>
Closes#20174 from liufengdb/fix-duplicate.
## What changes were proposed in this pull request?
This is mostly from https://github.com/apache/spark/pull/13775
The wrapper solution is pretty good for string/binary type, as the ORC column vector doesn't keep bytes in a continuous memory region, and has a significant overhead when copying the data to Spark columnar batch. For other cases, the wrapper solution is almost same with the current solution.
I think we can treat the wrapper solution as a baseline and keep improving the writing to Spark solution.
## How was this patch tested?
existing tests.
Author: Wenchen Fan <wenchen@databricks.com>
Closes#20205 from cloud-fan/orc.
## What changes were proposed in this pull request?
This pr fixed the issue when casting structs into strings;
```
scala> val df = Seq(((1, "a"), 0), ((2, "b"), 0)).toDF("a", "b")
scala> df.write.saveAsTable("t")
scala> sql("SELECT CAST(a AS STRING) FROM t").show
+-------------------+
| a|
+-------------------+
|[0,1,1800000001,61]|
|[0,2,1800000001,62]|
+-------------------+
```
This pr modified the result into;
```
+------+
| a|
+------+
|[1, a]|
|[2, b]|
+------+
```
## How was this patch tested?
Added tests in `CastSuite`.
Author: Takeshi Yamamuro <yamamuro@apache.org>
Closes#20176 from maropu/SPARK-22981.
## What changes were proposed in this pull request?
This PR adds an ORC columnar-batch reader to native `OrcFileFormat`. Since both Spark `ColumnarBatch` and ORC `RowBatch` are used together, it is faster than the current Spark implementation. This replaces the prior PR, #17924.
Also, this PR adds `OrcReadBenchmark` to show the performance improvement.
## How was this patch tested?
Pass the existing test cases.
Author: Dongjoon Hyun <dongjoon@apache.org>
Closes#19943 from dongjoon-hyun/SPARK-16060.
## What changes were proposed in this pull request?
This PR fixes a longstanding correctness bug in `GenerateUnsafeRowJoiner`. This class was introduced in https://github.com/apache/spark/pull/7821 (July 2015 / Spark 1.5.0+) and is used to combine pairs of UnsafeRows in TungstenAggregationIterator, CartesianProductExec, and AppendColumns.
### Bugs fixed by this patch
1. **Incorrect combining of null-tracking bitmaps**: when concatenating two UnsafeRows, the implementation "Concatenate the two bitsets together into a single one, taking padding into account". If one row has no columns then it has a bitset size of 0, but the code was incorrectly assuming that if the left row had a non-zero number of fields then the right row would also have at least one field, so it was copying invalid bytes and and treating them as part of the bitset. I'm not sure whether this bug was also present in the original implementation or whether it was introduced in https://github.com/apache/spark/pull/7892 (which fixed another bug in this code).
2. **Incorrect updating of data offsets for null variable-length fields**: after updating the bitsets and copying fixed-length and variable-length data, we need to perform adjustments to the offsets pointing the start of variable length fields's data. The existing code was _conditionally_ adding a fixed offset to correct for the new length of the combined row, but it is unsafe to do this if the variable-length field has a null value: we always represent nulls by storing `0` in the fixed-length slot, but this code was incorrectly incrementing those values. This bug was present since the original version of `GenerateUnsafeRowJoiner`.
### Why this bug remained latent for so long
The PR which introduced `GenerateUnsafeRowJoiner` features several randomized tests, including tests of the cases where one side of the join has no fields and where string-valued fields are null. However, the existing assertions were too weak to uncover this bug:
- If a null field has a non-zero value in its fixed-length data slot then this will not cause problems for field accesses because the null-tracking bitmap should still be correct and we will not try to use the incorrect offset for anything.
- If the null tracking bitmap is corrupted by joining against a row with no fields then the corruption occurs in field numbers past the actual field numbers contained in the row. Thus valid `isNullAt()` calls will not read the incorrectly-set bits.
The existing `GenerateUnsafeRowJoinerSuite` tests only exercised `.get()` and `isNullAt()`, but didn't actually check the UnsafeRows for bit-for-bit equality, preventing these bugs from failing assertions. It turns out that there was even a [GenerateUnsafeRowJoinerBitsetSuite](03377d2522/sql/catalyst/src/test/scala/org/apache/spark/sql/catalyst/expressions/codegen/GenerateUnsafeRowJoinerBitsetSuite.scala) but it looks like it also didn't catch this problem because it only tested the bitsets in an end-to-end fashion by accessing them through the `UnsafeRow` interface instead of actually comparing the bitsets' bytes.
### Impact of these bugs
- This bug will cause `equals()` and `hashCode()` to be incorrect for these rows, which will be problematic in case`GenerateUnsafeRowJoiner`'s results are used as join or grouping keys.
- Chained / repeated invocations of `GenerateUnsafeRowJoiner` may result in reads from invalid null bitmap positions causing fields to incorrectly become NULL (see the end-to-end example below).
- It looks like this generally only happens in `CartesianProductExec`, which our query optimizer often avoids executing (usually we try to plan a `BroadcastNestedLoopJoin` instead).
### End-to-end test case demonstrating the problem
The following query demonstrates how this bug may result in incorrect query results:
```sql
set spark.sql.autoBroadcastJoinThreshold=-1; -- Needed to trigger CartesianProductExec
create table a as select * from values 1;
create table b as select * from values 2;
SELECT
t3.col1,
t1.col1
FROM a t1
CROSS JOIN b t2
CROSS JOIN b t3
```
This should return `(2, 1)` but instead was returning `(null, 1)`.
Column pruning ends up trimming off all columns from `t2`, so when `t2` joins with another table this triggers the bitmap-copying bug. This incorrect bitmap is subsequently copied again when performing the final join, causing the final output to have an incorrectly-set null bit for the first field.
## How was this patch tested?
Strengthened the assertions in existing tests in GenerateUnsafeRowJoinerSuite. Also verified that the end-to-end test case which uncovered this now passes.
Author: Josh Rosen <joshrosen@databricks.com>
Closes#20181 from JoshRosen/SPARK-22984-fix-generate-unsaferow-joiner-bitmap-bugs.
## What changes were proposed in this pull request?
**The current shuffle planning logic**
1. Each operator specifies the distribution requirements for its children, via the `Distribution` interface.
2. Each operator specifies its output partitioning, via the `Partitioning` interface.
3. `Partitioning.satisfy` determines whether a `Partitioning` can satisfy a `Distribution`.
4. For each operator, check each child of it, add a shuffle node above the child if the child partitioning can not satisfy the required distribution.
5. For each operator, check if its children's output partitionings are compatible with each other, via the `Partitioning.compatibleWith`.
6. If the check in 5 failed, add a shuffle above each child.
7. try to eliminate the shuffles added in 6, via `Partitioning.guarantees`.
This design has a major problem with the definition of "compatible".
`Partitioning.compatibleWith` is not well defined, ideally a `Partitioning` can't know if it's compatible with other `Partitioning`, without more information from the operator. For example, `t1 join t2 on t1.a = t2.b`, `HashPartitioning(a, 10)` should be compatible with `HashPartitioning(b, 10)` under this case, but the partitioning itself doesn't know it.
As a result, currently `Partitioning.compatibleWith` always return false except for literals, which make it almost useless. This also means, if an operator has distribution requirements for multiple children, Spark always add shuffle nodes to all the children(although some of them can be eliminated). However, there is no guarantee that the children's output partitionings are compatible with each other after adding these shuffles, we just assume that the operator will only specify `ClusteredDistribution` for multiple children.
I think it's very hard to guarantee children co-partition for all kinds of operators, and we can not even give a clear definition about co-partition between distributions like `ClusteredDistribution(a,b)` and `ClusteredDistribution(c)`.
I think we should drop the "compatible" concept in the distribution model, and let the operator achieve the co-partition requirement by special distribution requirements.
**Proposed shuffle planning logic after this PR**
(The first 4 are same as before)
1. Each operator specifies the distribution requirements for its children, via the `Distribution` interface.
2. Each operator specifies its output partitioning, via the `Partitioning` interface.
3. `Partitioning.satisfy` determines whether a `Partitioning` can satisfy a `Distribution`.
4. For each operator, check each child of it, add a shuffle node above the child if the child partitioning can not satisfy the required distribution.
5. For each operator, check if its children's output partitionings have the same number of partitions.
6. If the check in 5 failed, pick the max number of partitions from children's output partitionings, and add shuffle to child whose number of partitions doesn't equal to the max one.
The new distribution model is very simple, we only have one kind of relationship, which is `Partitioning.satisfy`. For multiple children, Spark only guarantees they have the same number of partitions, and it's the operator's responsibility to leverage this guarantee to achieve more complicated requirements. For example, non-broadcast joins can use the newly added `HashPartitionedDistribution` to achieve co-partition.
## How was this patch tested?
existing tests.
Author: Wenchen Fan <wenchen@databricks.com>
Closes#19080 from cloud-fan/exchange.
## What changes were proposed in this pull request?
The following SQL query should return zero rows, but in Spark it actually returns one row:
```
SELECT 1 from (
SELECT 1 AS z,
MIN(a.x)
FROM (select 1 as x) a
WHERE false
) b
where b.z != b.z
```
The problem stems from the `PushDownPredicate` rule: when this rule encounters a filter on top of an Aggregate operator, e.g. `Filter(Agg(...))`, it removes the original filter and adds a new filter onto Aggregate's child, e.g. `Agg(Filter(...))`. This is sometimes okay, but the case above is a counterexample: because there is no explicit `GROUP BY`, we are implicitly computing a global aggregate over the entire table so the original filter was not acting like a `HAVING` clause filtering the number of groups: if we push this filter then it fails to actually reduce the cardinality of the Aggregate output, leading to the wrong answer.
In 2016 I fixed a similar problem involving invalid pushdowns of data-independent filters (filters which reference no columns of the filtered relation). There was additional discussion after my fix was merged which pointed out that my patch was an incomplete fix (see #15289), but it looks I must have either misunderstood the comment or forgot to follow up on the additional points raised there.
This patch fixes the problem by choosing to never push down filters in cases where there are no grouping expressions. Since there are no grouping keys, the only columns are aggregate columns and we can't push filters defined over aggregate results, so this change won't cause us to miss out on any legitimate pushdown opportunities.
## How was this patch tested?
New regression tests in `SQLQueryTestSuite` and `FilterPushdownSuite`.
Author: Josh Rosen <joshrosen@databricks.com>
Closes#20180 from JoshRosen/SPARK-22983-dont-push-filters-beneath-aggs-with-empty-grouping-expressions.
## What changes were proposed in this pull request?
This patch adds additional escaping in `from_utc_timestamp` / `to_utc_timestamp` expression codegen in order to a bug where invalid timezones which contain special characters could cause generated code to fail to compile.
## How was this patch tested?
New regression tests in `DateExpressionsSuite`.
Author: Josh Rosen <joshrosen@databricks.com>
Closes#20182 from JoshRosen/SPARK-22985-fix-utc-timezone-function-escaping-bugs.
## What changes were proposed in this pull request?
This pr fixed the issue when casting maps into strings;
```
scala> Seq(Map(1 -> "a", 2 -> "b")).toDF("a").write.saveAsTable("t")
scala> sql("SELECT cast(a as String) FROM t").show(false)
+----------------------------------------------------------------+
|a |
+----------------------------------------------------------------+
|org.apache.spark.sql.catalyst.expressions.UnsafeMapData38bdd75d|
+----------------------------------------------------------------+
```
This pr modified the result into;
```
+----------------+
|a |
+----------------+
|[1 -> a, 2 -> b]|
+----------------+
```
## How was this patch tested?
Added tests in `CastSuite`.
Author: Takeshi Yamamuro <yamamuro@apache.org>
Closes#20166 from maropu/SPARK-22973.
## What changes were proposed in this pull request?
This PR is to fix the style checking failure.
## How was this patch tested?
N/A
Author: gatorsmile <gatorsmile@gmail.com>
Closes#20175 from gatorsmile/stylefix.
[SPARK-21786][SQL] When acquiring 'compressionCodecClassName' in 'ParquetOptions', `parquet.compression` needs to be considered.
## What changes were proposed in this pull request?
Since Hive 1.1, Hive allows users to set parquet compression codec via table-level properties parquet.compression. See the JIRA: https://issues.apache.org/jira/browse/HIVE-7858 . We do support orc.compression for ORC. Thus, for external users, it is more straightforward to support both. See the stackflow question: https://stackoverflow.com/questions/36941122/spark-sql-ignores-parquet-compression-propertie-specified-in-tblproperties
In Spark side, our table-level compression conf compression was added by #11464 since Spark 2.0.
We need to support both table-level conf. Users might also use session-level conf spark.sql.parquet.compression.codec. The priority rule will be like
If other compression codec configuration was found through hive or parquet, the precedence would be compression, parquet.compression, spark.sql.parquet.compression.codec. Acceptable values include: none, uncompressed, snappy, gzip, lzo.
The rule for Parquet is consistent with the ORC after the change.
Changes:
1.Increased acquiring 'compressionCodecClassName' from `parquet.compression`,and the precedence order is `compression`,`parquet.compression`,`spark.sql.parquet.compression.codec`, just like what we do in `OrcOptions`.
2.Change `spark.sql.parquet.compression.codec` to support "none".Actually in `ParquetOptions`,we do support "none" as equivalent to "uncompressed", but it does not allowed to configured to "none".
3.Change `compressionCode` to `compressionCodecClassName`.
## How was this patch tested?
Add test.
Author: fjh100456 <fu.jinhua6@zte.com.cn>
Closes#20076 from fjh100456/ParquetOptionIssue.
## What changes were proposed in this pull request?
This pr modified `elt` to output binary for binary inputs.
`elt` in the current master always output data as a string. But, in some databases (e.g., MySQL), if all inputs are binary, `elt` also outputs binary (Also, this might be a small surprise).
This pr is related to #19977.
## How was this patch tested?
Added tests in `SQLQueryTestSuite` and `TypeCoercionSuite`.
Author: Takeshi Yamamuro <yamamuro@apache.org>
Closes#20135 from maropu/SPARK-22937.
## What changes were proposed in this pull request?
#19201 introduced the following regression: given something like `df.withColumn("c", lit(2))`, we're no longer picking up `c === 2` as a constraint and infer filters from it when joins are involved, which may lead to noticeable performance degradation.
This patch re-enables this optimization by picking up Aliases of Literals in Projection lists as constraints and making sure they're not treated as aliased columns.
## How was this patch tested?
Unit test was added.
Author: Adrian Ionescu <adrian@databricks.com>
Closes#20155 from adrian-ionescu/constant_constraints.
## What changes were proposed in this pull request?
This pr fixed the issue when casting arrays into strings;
```
scala> val df = spark.range(10).select('id.cast("integer")).agg(collect_list('id).as('ids))
scala> df.write.saveAsTable("t")
scala> sql("SELECT cast(ids as String) FROM t").show(false)
+------------------------------------------------------------------+
|ids |
+------------------------------------------------------------------+
|org.apache.spark.sql.catalyst.expressions.UnsafeArrayData8bc285df|
+------------------------------------------------------------------+
```
This pr modified the result into;
```
+------------------------------+
|ids |
+------------------------------+
|[0, 1, 2, 3, 4, 5, 6, 7, 8, 9]|
+------------------------------+
```
## How was this patch tested?
Added tests in `CastSuite` and `SQLQuerySuite`.
Author: Takeshi Yamamuro <yamamuro@apache.org>
Closes#20024 from maropu/SPARK-22825.
## What changes were proposed in this pull request?
32bit Int was used for row rank.
That overflowed in a dataframe with more than 2B rows.
## How was this patch tested?
Added test, but ignored, as it takes 4 minutes.
Author: Juliusz Sompolski <julek@databricks.com>
Closes#20152 from juliuszsompolski/SPARK-22957.
## What changes were proposed in this pull request?
This pr is a follow-up to fix a bug left in #19977.
## How was this patch tested?
Added tests in `StringExpressionsSuite`.
Author: Takeshi Yamamuro <yamamuro@apache.org>
Closes#20149 from maropu/SPARK-22771-FOLLOWUP.
## What changes were proposed in this pull request?
`FoldablePropagation` is a little tricky as it needs to handle attributes that are miss-derived from children, e.g. outer join outputs. This rule does a kind of stop-able tree transform, to skip to apply this rule when hit a node which may have miss-derived attributes.
Logically we should be able to apply this rule above the unsupported nodes, by just treating the unsupported nodes as leaf nodes. This PR improves this rule to not stop the tree transformation, but reduce the foldable expressions that we want to propagate.
## How was this patch tested?
existing tests
Author: Wenchen Fan <wenchen@databricks.com>
Closes#20139 from cloud-fan/foldable.
## What changes were proposed in this pull request?
When overwriting a partitioned table with dynamic partition columns, the behavior is different between data source and hive tables.
data source table: delete all partition directories that match the static partition values provided in the insert statement.
hive table: only delete partition directories which have data written into it
This PR adds a new config to make users be able to choose hive's behavior.
## How was this patch tested?
new tests
Author: Wenchen Fan <wenchen@databricks.com>
Closes#18714 from cloud-fan/overwrite-partition.
## What changes were proposed in this pull request?
Currently, our CREATE TABLE syntax require the EXACT order of clauses. It is pretty hard to remember the exact order. Thus, this PR is to make optional clauses order insensitive for `CREATE TABLE` SQL statement.
```
CREATE [TEMPORARY] TABLE [IF NOT EXISTS] [db_name.]table_name
[(col_name1 col_type1 [COMMENT col_comment1], ...)]
USING datasource
[OPTIONS (key1=val1, key2=val2, ...)]
[PARTITIONED BY (col_name1, col_name2, ...)]
[CLUSTERED BY (col_name3, col_name4, ...) INTO num_buckets BUCKETS]
[LOCATION path]
[COMMENT table_comment]
[TBLPROPERTIES (key1=val1, key2=val2, ...)]
[AS select_statement]
```
The proposal is to make the following clauses order insensitive.
```
[OPTIONS (key1=val1, key2=val2, ...)]
[PARTITIONED BY (col_name1, col_name2, ...)]
[CLUSTERED BY (col_name3, col_name4, ...) INTO num_buckets BUCKETS]
[LOCATION path]
[COMMENT table_comment]
[TBLPROPERTIES (key1=val1, key2=val2, ...)]
```
The same idea is also applicable to Create Hive Table.
```
CREATE [EXTERNAL] TABLE [IF NOT EXISTS] [db_name.]table_name
[(col_name1[:] col_type1 [COMMENT col_comment1], ...)]
[COMMENT table_comment]
[PARTITIONED BY (col_name2[:] col_type2 [COMMENT col_comment2], ...)]
[ROW FORMAT row_format]
[STORED AS file_format]
[LOCATION path]
[TBLPROPERTIES (key1=val1, key2=val2, ...)]
[AS select_statement]
```
The proposal is to make the following clauses order insensitive.
```
[COMMENT table_comment]
[PARTITIONED BY (col_name2[:] col_type2 [COMMENT col_comment2], ...)]
[ROW FORMAT row_format]
[STORED AS file_format]
[LOCATION path]
[TBLPROPERTIES (key1=val1, key2=val2, ...)]
```
## How was this patch tested?
Added test cases
Author: gatorsmile <gatorsmile@gmail.com>
Closes#20133 from gatorsmile/createDataSourceTableDDL.
## What changes were proposed in this pull request?
Assert if code tries to access SQLConf.get on executor.
This can lead to hard to detect bugs, where the executor will read fallbackConf, falling back to default config values, ignoring potentially changed non-default configs.
If a config is to be passed to executor code, it needs to be read on the driver, and passed explicitly.
## How was this patch tested?
Check in existing tests.
Author: Juliusz Sompolski <julek@databricks.com>
Closes#20136 from juliuszsompolski/SPARK-22938.
## What changes were proposed in this pull request?
Add a `reset` function to ensure the state in `AnalysisContext ` is per-query.
## How was this patch tested?
The existing test cases
Author: gatorsmile <gatorsmile@gmail.com>
Closes#20127 from gatorsmile/refactorAnalysisContext.
## What changes were proposed in this pull request?
Currently, we do not guarantee an order evaluation of conjuncts in either Filter or Join operator. This is also true to the mainstream RDBMS vendors like DB2 and MS SQL Server. Thus, we should also push down the deterministic predicates that are after the first non-deterministic, if possible.
## How was this patch tested?
Updated the existing test cases.
Author: gatorsmile <gatorsmile@gmail.com>
Closes#20069 from gatorsmile/morePushDown.
## What changes were proposed in this pull request?
The `analyze` method in `implicit class DslLogicalPlan` already includes `EliminateSubqueryAliases`. So there's no need to call `EliminateSubqueryAliases` again after calling `analyze` in some test code.
## How was this patch tested?
Existing tests.
Author: Zhenhua Wang <wzh_zju@163.com>
Closes#20122 from wzhfy/redundant_code.
## What changes were proposed in this pull request?
This pr modified `concat` to concat binary inputs into a single binary output.
`concat` in the current master always output data as a string. But, in some databases (e.g., PostgreSQL), if all inputs are binary, `concat` also outputs binary.
## How was this patch tested?
Added tests in `SQLQueryTestSuite` and `TypeCoercionSuite`.
Author: Takeshi Yamamuro <yamamuro@apache.org>
Closes#19977 from maropu/SPARK-22771.
## What changes were proposed in this pull request?
The issue has been raised in two Jira tickets: [SPARK-21657](https://issues.apache.org/jira/browse/SPARK-21657), [SPARK-16998](https://issues.apache.org/jira/browse/SPARK-16998). Basically, what happens is that in collection generators like explode/inline we create many rows from each row. Currently each exploded row contains also the column on which it was created. This causes, for example, if we have a 10k array in one row that this array will get copy 10k times - to each of the row. this results a qudratic memory consumption. However, it is a common case that the original column gets projected out after the explode, so we can avoid duplicating it.
In this solution we propose to identify this situation in the optimizer and turn on a flag for omitting the original column in the generation process.
## How was this patch tested?
1. We added a benchmark test to MiscBenchmark that shows x16 improvement in runtimes.
2. We ran some of the other tests in MiscBenchmark and they show 15% improvements.
3. We ran this code on a specific case from our production data with rows containing arrays of size ~200k and it reduced the runtime from 6 hours to 3 mins.
Author: oraviv <oraviv@paypal.com>
Author: uzadude <ohad.raviv@gmail.com>
Author: uzadude <15645757+uzadude@users.noreply.github.com>
Closes#19683 from uzadude/optimize_explode.
## What changes were proposed in this pull request?
Simplify some estimation logic by using double instead of decimal.
## How was this patch tested?
Existing tests.
Author: Zhenhua Wang <wangzhenhua@huawei.com>
Closes#20062 from wzhfy/simplify_by_double.
## What changes were proposed in this pull request?
I found this problem while auditing the analyzer code. It's dangerous to introduce extra `AnalysisBarrer` during analysis, as the plan inside it will bypass all analysis afterward, which may not be expected. We should only preserve `AnalysisBarrer` but not introduce new ones.
## How was this patch tested?
existing tests
Author: Wenchen Fan <wenchen@databricks.com>
Closes#20094 from cloud-fan/barrier.
## What changes were proposed in this pull request?
This PR addresses additional review comments in #19811
## How was this patch tested?
Existing test suites
Author: Kazuaki Ishizaki <ishizaki@jp.ibm.com>
Closes#20036 from kiszk/SPARK-18066-followup.
## What changes were proposed in this pull request?
`DateTimeOperations` accept [`StringType`](ae998ec2b5/sql/catalyst/src/main/scala/org/apache/spark/sql/catalyst/analysis/TypeCoercion.scala (L669)), but:
```
spark-sql> SELECT '2017-12-24' + interval 2 months 2 seconds;
Error in query: cannot resolve '(CAST('2017-12-24' AS DOUBLE) + interval 2 months 2 seconds)' due to data type mismatch: differing types in '(CAST('2017-12-24' AS DOUBLE) + interval 2 months 2 seconds)' (double and calendarinterval).; line 1 pos 7;
'Project [unresolvedalias((cast(2017-12-24 as double) + interval 2 months 2 seconds), None)]
+- OneRowRelation
spark-sql>
```
After this PR:
```
spark-sql> SELECT '2017-12-24' + interval 2 months 2 seconds;
2018-02-24 00:00:02
Time taken: 0.2 seconds, Fetched 1 row(s)
```
## How was this patch tested?
unit tests
Author: Yuming Wang <wgyumg@gmail.com>
Closes#20067 from wangyum/SPARK-22894.
## What changes were proposed in this pull request?
Some improvements:
1. Point out we are using both Spark SQ native syntax and HQL syntax in the example
2. Avoid using the same table name with temp view, to not confuse users.
3. Create the external hive table with a directory that already has data, which is a more common use case.
4. Remove the usage of `spark.sql.parquet.writeLegacyFormat`. This config was introduced by https://github.com/apache/spark/pull/8566 and has nothing to do with Hive.
5. Remove `repartition` and `coalesce` example. These 2 are not Hive specific, we should put them in a different example file. BTW they can't accurately control the number of output files, `spark.sql.files.maxRecordsPerFile` also controls it.
## How was this patch tested?
N/A
Author: Wenchen Fan <wenchen@databricks.com>
Closes#20081 from cloud-fan/minor.
## What changes were proposed in this pull request?
We should use `dataType.simpleString` to unified the data type mismatch message:
Before:
```
spark-sql> select cast(1 as binary);
Error in query: cannot resolve 'CAST(1 AS BINARY)' due to data type mismatch: cannot cast IntegerType to BinaryType; line 1 pos 7;
```
After:
```
park-sql> select cast(1 as binary);
Error in query: cannot resolve 'CAST(1 AS BINARY)' due to data type mismatch: cannot cast int to binary; line 1 pos 7;
```
## How was this patch tested?
Exist test.
Author: Yuming Wang <wgyumg@gmail.com>
Closes#20064 from wangyum/SPARK-22893.
## What changes were proposed in this pull request?
Basic continuous execution, supporting map/flatMap/filter, with commits and advancement through RPC.
## How was this patch tested?
new unit-ish tests (exercising execution end to end)
Author: Jose Torres <jose@databricks.com>
Closes#19984 from jose-torres/continuous-impl.
## What changes were proposed in this pull request?
The PR introduces a new method `addImmutableStateIfNotExists ` to `CodeGenerator` to allow reusing and sharing the same global variable between different Expressions. This helps reducing the number of global variables needed, which is important to limit the impact on the constant pool.
## How was this patch tested?
added UTs
Author: Marco Gaido <marcogaido91@gmail.com>
Author: Marco Gaido <mgaido@hortonworks.com>
Closes#19940 from mgaido91/SPARK-22750.
## What changes were proposed in this pull request?
Test Coverage for `WindowFrameCoercion` and `DecimalPrecision`, this is a Sub-tasks for [SPARK-22722](https://issues.apache.org/jira/browse/SPARK-22722).
## How was this patch tested?
N/A
Author: Yuming Wang <wgyumg@gmail.com>
Closes#20008 from wangyum/SPARK-22822.
## What changes were proposed in this pull request?
Passing global variables to the split method is dangerous, as any mutating to it is ignored and may lead to unexpected behavior.
To prevent this, one approach is to make sure no expression would output global variables: Localizing lifetime of mutable states in expressions.
Another approach is, when calling `ctx.splitExpression`, make sure we don't use children's output as parameter names.
Approach 1 is actually hard to do, as we need to check all expressions and operators that support whole-stage codegen. Approach 2 is easier as the callers of `ctx.splitExpressions` are not too many.
Besides, approach 2 is more flexible, as children's output may be other stuff that can't be parameter name: literal, inlined statement(a + 1), etc.
close https://github.com/apache/spark/pull/19865
close https://github.com/apache/spark/pull/19938
## How was this patch tested?
existing tests
Author: Wenchen Fan <wenchen@databricks.com>
Closes#20021 from cloud-fan/codegen.
## What changes were proposed in this pull request?
This PR eliminates mutable states from the generated code for `Stack`.
## How was this patch tested?
Existing test suites
Author: Kazuaki Ishizaki <ishizaki@jp.ibm.com>
Closes#20035 from kiszk/SPARK-22848.
## What changes were proposed in this pull request?
The optimizer rule `InferFiltersFromConstraints` could trigger our batch `Operator Optimizations` exceeds the max iteration limit (i.e., 100) so that the final plan might not be properly optimized. The rule `InferFiltersFromConstraints` could conflict with the other Filter/Join predicate reduction rules. Thus, we need to separate `InferFiltersFromConstraints` from the other rules.
This PR is to separate `InferFiltersFromConstraints ` from the main batch `Operator Optimizations` .
## How was this patch tested?
The existing test cases.
Author: gatorsmile <gatorsmile@gmail.com>
Closes#19149 from gatorsmile/inferFilterRule.
## What changes were proposed in this pull request?
This PR is follow-on of #19518. This PR tries to reduce the number of constant pool entries used for accessing mutable state.
There are two directions:
1. Primitive type variables should be allocated at the outer class due to better performance. Otherwise, this PR allocates an array.
2. The length of allocated array is up to 32768 due to avoiding usage of constant pool entry at access (e.g. `mutableStateArray[32767]`).
Here are some discussions to determine these directions.
1. [[1]](https://github.com/apache/spark/pull/19518#issuecomment-346690464), [[2]](https://github.com/apache/spark/pull/19518#issuecomment-346690642), [[3]](https://github.com/apache/spark/pull/19518#issuecomment-346828180), [[4]](https://github.com/apache/spark/pull/19518#issuecomment-346831544), [[5]](https://github.com/apache/spark/pull/19518#issuecomment-346857340)
2. [[6]](https://github.com/apache/spark/pull/19518#issuecomment-346729172), [[7]](https://github.com/apache/spark/pull/19518#issuecomment-346798358), [[8]](https://github.com/apache/spark/pull/19518#issuecomment-346870408)
This PR modifies `addMutableState` function in the `CodeGenerator` to check if the declared state can be easily initialized compacted into an array. We identify three types of states that cannot compacted:
- Primitive type state (ints, booleans, etc) if the number of them does not exceed threshold
- Multiple-dimensional array type
- `inline = true`
When `useFreshName = false`, the given name is used.
Many codes were ported from #19518. Many efforts were put here. I think this PR should credit to bdrillard
With this PR, the following code is generated:
```
/* 005 */ class SpecificMutableProjection extends org.apache.spark.sql.catalyst.expressions.codegen.BaseMutableProjection {
/* 006 */
/* 007 */ private Object[] references;
/* 008 */ private InternalRow mutableRow;
/* 009 */ private boolean isNull_0;
/* 010 */ private boolean isNull_1;
/* 011 */ private boolean isNull_2;
/* 012 */ private int value_2;
/* 013 */ private boolean isNull_3;
...
/* 10006 */ private int value_4999;
/* 10007 */ private boolean isNull_5000;
/* 10008 */ private int value_5000;
/* 10009 */ private InternalRow[] mutableStateArray = new InternalRow[2];
/* 10010 */ private boolean[] mutableStateArray1 = new boolean[7001];
/* 10011 */ private int[] mutableStateArray2 = new int[1001];
/* 10012 */ private UTF8String[] mutableStateArray3 = new UTF8String[6000];
/* 10013 */
...
/* 107956 */ private void init_176() {
/* 107957 */ isNull_4986 = true;
/* 107958 */ value_4986 = -1;
...
/* 108004 */ }
...
```
## How was this patch tested?
Added a new test case to `GeneratedProjectionSuite`
Author: Kazuaki Ishizaki <ishizaki@jp.ibm.com>
Closes#19811 from kiszk/SPARK-18016.
## What changes were proposed in this pull request?
We could get incorrect results by running DecimalPrecision twice. This PR resolves the original found in https://github.com/apache/spark/pull/15048 and https://github.com/apache/spark/pull/14797. After this PR, it becomes easier to change it back using `children` instead of using `innerChildren`.
## How was this patch tested?
The existing test.
Author: gatorsmile <gatorsmile@gmail.com>
Closes#20000 from gatorsmile/keepPromotePrecision.
## What changes were proposed in this pull request?
When calling explain on a query, the output can contain sensitive information. We should provide an admin/user to redact such information.
Before this PR, the plan of SS is like this
```
== Physical Plan ==
*HashAggregate(keys=[value#6], functions=[count(1)], output=[value#6, count(1)#12L])
+- StateStoreSave [value#6], state info [ checkpoint = file:/private/var/folders/vx/j0ydl5rn0gd9mgrh1pljnw900000gn/T/temporary-91c6fac0-609f-4bc8-ad57-52c189f06797/state, runId = 05a4b3af-f02c-40f8-9ff9-a3e18bae496f, opId = 0, ver = 0, numPartitions = 5], Complete, 0
+- *HashAggregate(keys=[value#6], functions=[merge_count(1)], output=[value#6, count#18L])
+- StateStoreRestore [value#6], state info [ checkpoint = file:/private/var/folders/vx/j0ydl5rn0gd9mgrh1pljnw900000gn/T/temporary-91c6fac0-609f-4bc8-ad57-52c189f06797/state, runId = 05a4b3af-f02c-40f8-9ff9-a3e18bae496f, opId = 0, ver = 0, numPartitions = 5]
+- *HashAggregate(keys=[value#6], functions=[merge_count(1)], output=[value#6, count#18L])
+- Exchange hashpartitioning(value#6, 5)
+- *HashAggregate(keys=[value#6], functions=[partial_count(1)], output=[value#6, count#18L])
+- *SerializeFromObject [staticinvoke(class org.apache.spark.unsafe.types.UTF8String, StringType, fromString, input[0, java.lang.String, true], true, false) AS value#6]
+- *MapElements <function1>, obj#5: java.lang.String
+- *DeserializeToObject value#30.toString, obj#4: java.lang.String
+- LocalTableScan [value#30]
```
After this PR, we can get the following output if users set `spark.redaction.string.regex` to `file:/[\\w_]+`
```
== Physical Plan ==
*HashAggregate(keys=[value#6], functions=[count(1)], output=[value#6, count(1)#12L])
+- StateStoreSave [value#6], state info [ checkpoint = *********(redacted)/var/folders/vx/j0ydl5rn0gd9mgrh1pljnw900000gn/T/temporary-e7da9b7d-3ec0-474d-8b8c-927f7d12ed72/state, runId = 8a9c3761-93d5-4896-ab82-14c06240dcea, opId = 0, ver = 0, numPartitions = 5], Complete, 0
+- *HashAggregate(keys=[value#6], functions=[merge_count(1)], output=[value#6, count#32L])
+- StateStoreRestore [value#6], state info [ checkpoint = *********(redacted)/var/folders/vx/j0ydl5rn0gd9mgrh1pljnw900000gn/T/temporary-e7da9b7d-3ec0-474d-8b8c-927f7d12ed72/state, runId = 8a9c3761-93d5-4896-ab82-14c06240dcea, opId = 0, ver = 0, numPartitions = 5]
+- *HashAggregate(keys=[value#6], functions=[merge_count(1)], output=[value#6, count#32L])
+- Exchange hashpartitioning(value#6, 5)
+- *HashAggregate(keys=[value#6], functions=[partial_count(1)], output=[value#6, count#32L])
+- *SerializeFromObject [staticinvoke(class org.apache.spark.unsafe.types.UTF8String, StringType, fromString, input[0, java.lang.String, true], true, false) AS value#6]
+- *MapElements <function1>, obj#5: java.lang.String
+- *DeserializeToObject value#27.toString, obj#4: java.lang.String
+- LocalTableScan [value#27]
```
## How was this patch tested?
Added a test case
Author: gatorsmile <gatorsmile@gmail.com>
Closes#19985 from gatorsmile/redactPlan.
## What changes were proposed in this pull request?
Equi-height histogram is one of the state-of-the-art statistics for cardinality estimation, which can provide better estimation accuracy, and good at cases with skew data.
This PR is to improve join estimation based on equi-height histogram. The difference from basic estimation (based on ndv) is the logic for computing join cardinality and the new ndv after join.
The main idea is as follows:
1. find overlapped ranges between two histograms from two join keys;
2. apply the formula `T(A IJ B) = T(A) * T(B) / max(V(A.k1), V(B.k1))` in each overlapped range.
## How was this patch tested?
Added new test cases.
Author: Zhenhua Wang <wangzhenhua@huawei.com>
Closes#19594 from wzhfy/join_estimation_histogram.
## What changes were proposed in this pull request?
Remove useless `zipWithIndex` from `ResolveAliases `.
## How was this patch tested?
The existing tests
Author: gatorsmile <gatorsmile@gmail.com>
Closes#20009 from gatorsmile/try22.
This change restores the functionality that keeps a limited number of
different types (jobs, stages, etc) depending on configuration, to avoid
the store growing indefinitely over time.
The feature is implemented by creating a new type (ElementTrackingStore)
that wraps a KVStore and allows triggers to be set up for when elements
of a certain type meet a certain threshold. Triggers don't need to
necessarily only delete elements, but the current API is set up in a way
that makes that use case easier.
The new store also has a trigger for the "close" call, which makes it
easier for listeners to register code for cleaning things up and flushing
partial state to the store.
The old configurations for cleaning up the stored elements from the core
and SQL UIs are now active again, and the old unit tests are re-enabled.
Author: Marcelo Vanzin <vanzin@cloudera.com>
Closes#19751 from vanzin/SPARK-20653.
SQLConf allows some callers to define a custom default value for
configs, and that complicates a little bit the handling of fallback
config entries, since most of the default value resolution is
hidden by the config code.
This change peaks into the internals of these fallback configs
to figure out the correct default value, and also returns the
current human-readable default when showing the default value
(e.g. through "set -v").
Author: Marcelo Vanzin <vanzin@cloudera.com>
Closes#19974 from vanzin/SPARK-22779.
## What changes were proposed in this pull request?
This pr fixed a compilation error of TPCDS `q75`/`q77` caused by #19813;
```
java.util.concurrent.ExecutionException: org.codehaus.commons.compiler.CompileException: File 'generated.java', Line 371, Column 16: failed to compile: org.codehaus.commons.compiler.CompileException: File 'generated.java', Line 371, Column 16: Expression "bhj_matched" is not an rvalue
at com.google.common.util.concurrent.AbstractFuture$Sync.getValue(AbstractFuture.java:306)
at com.google.common.util.concurrent.AbstractFuture$Sync.get(AbstractFuture.java:293)
at com.google.common.util.concurrent.AbstractFuture.get(AbstractFuture.java:116)
at com.google.common.util.concurrent.Uninterruptibles.getUninterruptibly(Uninterruptibles.java:135)
```
## How was this patch tested?
Manually checked `q75`/`q77` can be properly compiled
Author: Takeshi Yamamuro <yamamuro@apache.org>
Closes#19969 from maropu/SPARK-22600-FOLLOWUP.
## What changes were proposed in this pull request?
In SPARK-22550 which fixes 64KB JVM bytecode limit problem with elt, `buildCodeBlocks` is used to split codes. However, we should use `splitExpressionsWithCurrentInputs` because it considers both normal and wholestage codgen (it is not supported yet, so it simply doesn't split the codes).
## How was this patch tested?
Existing tests.
Author: Liang-Chi Hsieh <viirya@gmail.com>
Closes#19964 from viirya/SPARK-22772.
## What changes were proposed in this pull request?
We should not operate on `references` directly in `Expression.doGenCode`, instead we should use the high-level API `addReferenceObj`.
## How was this patch tested?
existing tests
Author: Wenchen Fan <wenchen@databricks.com>
Closes#19962 from cloud-fan/codegen.
## What changes were proposed in this pull request?
some code cleanup/refactor and naming improvement.
## How was this patch tested?
existing tests
Author: Wenchen Fan <wenchen@databricks.com>
Closes#19952 from cloud-fan/minor.
## What changes were proposed in this pull request?
The query execution/optimization does not guarantee the expressions are evaluated in order. We only can combine them if and only if both are deterministic. We need to update the optimizer rule: CombineFilters.
## How was this patch tested?
Updated the existing tests.
Author: gatorsmile <gatorsmile@gmail.com>
Closes#19947 from gatorsmile/combineFilters.
## What changes were proposed in this pull request?
SPARK-22543 fixes the 64kb compile error for deeply nested expression for non-wholestage codegen. This PR extends it to support wholestage codegen.
This patch brings some util methods in to extract necessary parameters for an expression if it is split to a function.
The util methods are put in object `ExpressionCodegen` under `codegen`. The main entry is `getExpressionInputParams` which returns all necessary parameters to evaluate the given expression in a split function.
This util methods can be used to split expressions too. This is a TODO item later.
## How was this patch tested?
Added test.
Author: Liang-Chi Hsieh <viirya@gmail.com>
Closes#19813 from viirya/reduce-expr-code-for-wholestage.
## What changes were proposed in this pull request?
We have two methods to reference an object `addReferenceMinorObj` and `addReferenceObj `. The latter creates a new global variable, which means new entries in the constant pool.
The PR unifies the two method in a single `addReferenceObj` which returns the code to access the object in the `references` array and doesn't add new mutable states.
## How was this patch tested?
added UTs.
Author: Marco Gaido <mgaido@hortonworks.com>
Closes#19916 from mgaido91/SPARK-22716.
## What changes were proposed in this pull request?
Histogram is effective in dealing with skewed distribution. After we generate histogram information for column statistics, we need to adjust filter estimation based on histogram data structure.
## How was this patch tested?
We revised all the unit test cases by including histogram data structure.
Please review http://spark.apache.org/contributing.html before opening a pull request.
Author: Ron Hu <ron.hu@huawei.com>
Closes#19783 from ron8hu/supportHistogram.
## What changes were proposed in this pull request?
Int96 data written by impala vs data written by hive & spark is stored slightly differently -- they use a different offset for the timezone. This adds an option "spark.sql.parquet.int96TimestampConversion" (false by default) to adjust timestamps if and only if the writer is impala (or more precisely, if the parquet file's "createdBy" metadata does not start with "parquet-mr"). This matches the existing behavior in hive from HIVE-9482.
## How was this patch tested?
Unit test added, existing tests run via jenkins.
Author: Imran Rashid <irashid@cloudera.com>
Author: Henry Robinson <henry@apache.org>
Closes#19769 from squito/SPARK-12297_skip_conversion.
## What changes were proposed in this pull request?
The current time complexity of ConstantPropagation is O(n^2), which can be slow when the query is complex.
Refactor the implementation with O( n ) time complexity, and some pruning to avoid traversing the whole `Condition`
## How was this patch tested?
Unit test.
Also simple benchmark test in ConstantPropagationSuite
```
val condition = (1 to 500).map{_ => Rand(0) === Rand(0)}.reduce(And)
val query = testRelation
.select(columnA)
.where(condition)
val start = System.currentTimeMillis()
(1 to 40).foreach { _ =>
Optimize.execute(query.analyze)
}
val end = System.currentTimeMillis()
println(end - start)
```
Run time before changes: 18989ms (474ms per loop)
Run time after changes: 1275 ms (32ms per loop)
Author: Wang Gengliang <ltnwgl@gmail.com>
Closes#19912 from gengliangwang/ConstantPropagation.
## What changes were proposed in this pull request?
Some objects functions are using global variables which are not needed. This can generate some unneeded entries in the constant pool.
The PR replaces the unneeded global variables with local variables.
## How was this patch tested?
added UTs
Author: Marco Gaido <mgaido@hortonworks.com>
Author: Marco Gaido <marcogaido91@gmail.com>
Closes#19908 from mgaido91/SPARK-22696.
## What changes were proposed in this pull request?
GenerateSafeProjection is defining a mutable state for each struct, which is not needed. This is bad for the well known issues related to constant pool limits.
The PR replace the global variable with a local one.
## How was this patch tested?
added UT
Author: Marco Gaido <marcogaido91@gmail.com>
Closes#19914 from mgaido91/SPARK-22699.
## What changes were proposed in this pull request?
This PR accomplishes the following two items.
1. Reduce # of global variables from two to one for generated code of `Case` and `Coalesce` and remove global variables for generated code of `In`.
2. Make lifetime of global variable local within an operation
Item 1. reduces # of constant pool entries in a Java class. Item 2. ensures that an variable is not passed to arguments in a method split by `CodegenContext.splitExpressions()`, which is addressed by #19865.
## How was this patch tested?
Added new tests into `PredicateSuite`, `NullExpressionsSuite`, and `ConditionalExpressionSuite`.
Author: Kazuaki Ishizaki <ishizaki@jp.ibm.com>
Closes#19901 from kiszk/SPARK-22705.
## What changes were proposed in this pull request?
CreateNamedStruct and InSet are using a global variable which is not needed. This can generate some unneeded entries in the constant pool.
The PR removes the unnecessary mutable states and makes them local variables.
## How was this patch tested?
added UT
Author: Marco Gaido <marcogaido91@gmail.com>
Author: Marco Gaido <mgaido@hortonworks.com>
Closes#19896 from mgaido91/SPARK-22693.
## What changes were proposed in this pull request?
Our Analyzer and Optimizer have multiple rules for `UnaryNode`. After making `EventTimeWatermark` extend `UnaryNode`, we do not need a special handling for `EventTimeWatermark`.
## How was this patch tested?
The existing tests
Author: gatorsmile <gatorsmile@gmail.com>
Closes#19913 from gatorsmile/eventtimewatermark.
## What changes were proposed in this pull request?
ScalaUDF is using global variables which are not needed. This can generate some unneeded entries in the constant pool.
The PR replaces the unneeded global variables with local variables.
## How was this patch tested?
added UT
Author: Marco Gaido <mgaido@hortonworks.com>
Author: Marco Gaido <marcogaido91@gmail.com>
Closes#19900 from mgaido91/SPARK-22695.
## What changes were proposed in this pull request?
This PR accomplishes the following two items.
1. Reduce # of global variables from two to one
2. Make lifetime of global variable local within an operation
Item 1. reduces # of constant pool entries in a Java class. Item 2. ensures that an variable is not passed to arguments in a method split by `CodegenContext.splitExpressions()`, which is addressed by #19865.
## How was this patch tested?
Added new test into `ArithmeticExpressionSuite`
Author: Kazuaki Ishizaki <ishizaki@jp.ibm.com>
Closes#19899 from kiszk/SPARK-22704.
## What changes were proposed in this pull request?
The SQL `Analyzer` goes through a whole query plan even most part of it is analyzed. This increases the time spent on query analysis for long pipelines in ML, especially.
This patch adds a logical node called `AnalysisBarrier` that wraps an analyzed logical plan to prevent it from analysis again. The barrier is applied to the analyzed logical plan in `Dataset`. It won't change the output of wrapped logical plan and just acts as a wrapper to hide it from analyzer. New operations on the dataset will be put on the barrier, so only the new nodes created will be analyzed.
This analysis barrier will be removed at the end of analysis stage.
## How was this patch tested?
Added tests.
Author: Liang-Chi Hsieh <viirya@gmail.com>
Closes#19873 from viirya/SPARK-20392-reopen.
## What changes were proposed in this pull request?
As a simple example:
```
spark-sql> create table base (a int, b int) using parquet;
Time taken: 0.066 seconds
spark-sql> create table relInSubq ( x int, y int, z int) using parquet;
Time taken: 0.042 seconds
spark-sql> explain select a from base where a in (select x from relInSubq);
== Physical Plan ==
*Project [a#83]
+- *BroadcastHashJoin [a#83], [x#85], LeftSemi, BuildRight
:- *FileScan parquet default.base[a#83,b#84] Batched: true, Format: Parquet, Location: InMemoryFileIndex[hdfs://100.0.0.4:9000/wzh/base], PartitionFilters: [], PushedFilters: [], ReadSchema: struct<a:int,b:int>
+- BroadcastExchange HashedRelationBroadcastMode(List(cast(input[0, int, true] as bigint)))
+- *Project [x#85]
+- *FileScan parquet default.relinsubq[x#85] Batched: true, Format: Parquet, Location: InMemoryFileIndex[hdfs://100.0.0.4:9000/wzh/relinsubq], PartitionFilters: [], PushedFilters: [], ReadSchema: struct<x:int>
```
We only need column `a` in table `base`, but all columns (`a`, `b`) are fetched.
The reason is that, in "Operator Optimizations" batch, `ColumnPruning` first produces a `Project` on table `base`, but then it's removed by `removeProjectBeforeFilter`. Because at that time, the predicate subquery is in filter form. Then, in "Rewrite Subquery" batch, `RewritePredicateSubquery` converts the subquery into a LeftSemi join, but this batch doesn't have the `ColumnPruning` rule. This results in reading all columns for the `base` table.
## How was this patch tested?
Added a new test case.
Author: Zhenhua Wang <wangzhenhua@huawei.com>
Closes#19855 from wzhfy/column_pruning_subquery.
